diff --git a/.github/workflows/release.yml b/.github/workflows/release.yml deleted file mode 100644 index 740ee4a..0000000 --- a/.github/workflows/release.yml +++ /dev/null @@ -1,236 +0,0 @@ -name: release - -# Build the self-contained joltc binary for each platform and attach it to the -# GitHub Release when a v* tag is pushed. The binary bundles the runtime, -# compiler, jolt-core + stdlib source, the Chez boots, and a launcher stub, so it -# runs AND compiles jolt apps with no Chez or cc on the user's machine (jolt-eaj). -# -# No Apple notarization, mirroring dirge: macOS users who download the tarball -# clear Gatekeeper quarantine once (`xattr -d com.apple.quarantine joltc`), or -# install via a Homebrew tap that de-quarantines on install. -on: - push: - tags: - - 'v*' - workflow_dispatch: {} # dry-run the build matrix without tagging - -permissions: - contents: write # create/update the GitHub Release and upload assets - -jobs: - build: - name: build ${{ matrix.target }} - runs-on: ${{ matrix.os }} - strategy: - fail-fast: false - matrix: - include: - - os: ubuntu-latest - target: x86_64-linux - shell: bash - # No x86_64-macos: GitHub is retiring the macos-13 Intel runner (jobs - # queue forever). Intel Macs build from source. macos-14 is arm64. - - os: macos-14 - target: aarch64-macos - shell: bash - - os: windows-latest - target: x86_64-windows - shell: msys2 {0} - defaults: - run: - shell: ${{ matrix.shell }} - steps: - - uses: actions/checkout@v5 - with: - submodules: recursive # vendor/irregex, used by the Chez regex shim - - # --- Linux: build Chez from source. The apt chezscheme ships petite+scheme - # only, with no kernel dev files (libkernel.a, scheme.h), which build-joltc - # needs to cc-link. Same setup as .github/workflows/tests.yml. --- - - name: Install build dependencies (Linux) - if: runner.os == 'Linux' - run: | - sudo apt-get update - sudo apt-get install -y build-essential git liblz4-dev zlib1g-dev libncurses-dev uuid-dev - - - name: Cache Chez Scheme (Linux) - if: runner.os == 'Linux' - id: cache-chez - uses: actions/cache@v4 - with: - path: /opt/chez - key: chez-${{ runner.os }}-v10.4.1-x11off - - - name: Build Chez Scheme from source (Linux) - if: runner.os == 'Linux' && steps.cache-chez.outputs.cache-hit != 'true' - run: | - git clone --depth 1 --branch v10.4.1 https://github.com/cisco/ChezScheme.git /tmp/chez-src - cd /tmp/chez-src - ./configure --installprefix=/opt/chez --threads --disable-x11 - make -j"$(nproc)" - sudo make install - sudo chown -R "$USER" /opt/chez - - - name: Put chez on PATH (Linux) - if: runner.os == 'Linux' - run: | - # Installed as `scheme`; the build invokes `chez`. A wrapper that execs - # scheme keeps argv0 so Chez finds its boot files, and sits next to - # scheme so build.ss derives the csv dir (libkernel.a/scheme.h) from it. - printf '#!/bin/sh\nexec /opt/chez/bin/scheme "$@"\n' > /opt/chez/bin/chez - chmod +x /opt/chez/bin/chez - echo '/opt/chez/bin' >> "$GITHUB_PATH" - - # --- macOS: Homebrew chezscheme ships `chez` plus the csv kernel dev files - # (libkernel.a, scheme.h, *.boot), which is all build-joltc needs. --- - - name: Install Chez Scheme (macOS) - if: runner.os == 'macOS' - run: brew install chezscheme lz4 - - # --- Windows: MSYS2/MinGW-w64 toolchain + Chez built from source (ta6nt). - # The whole job runs in the msys2 shell so cc/xxd/paths behave; the - # produced joltc.exe is a plain Windows binary (no MSYS runtime dep). --- - - name: Set up MSYS2 (Windows) - if: runner.os == 'Windows' - uses: msys2/setup-msys2@v2 - with: - msystem: MINGW64 - update: false - # inherit the runner PATH so GITHUB_PATH additions (the chez wrapper - # dir) are visible inside the msys2 shell - path-type: inherit - install: >- - git make vim unzip zip - mingw-w64-x86_64-gcc - mingw-w64-x86_64-lz4 - mingw-w64-x86_64-zlib - mingw-w64-x86_64-ntldd - - - name: Cache Chez Scheme (Windows) - if: runner.os == 'Windows' - id: cache-chez-win - uses: actions/cache@v4 - with: - path: chez-install - key: chez-${{ runner.os }}-v10.4.1-mingw64 - - - name: Build Chez Scheme from source (Windows) - if: runner.os == 'Windows' && steps.cache-chez-win.outputs.cache-hit != 'true' - run: | - git clone --depth 1 --branch v10.4.1 https://github.com/cisco/ChezScheme.git /tmp/chez-src - cd /tmp/chez-src - ./configure --threads - make -j"$(nproc)" - # `make install` drives the unix installsh through cmd and dies; the - # build tree has everything — assemble the layout by hand. Boot files - # sit next to scheme.exe (that's where the Windows kernel looks). - inst="$GITHUB_WORKSPACE/chez-install" - mkdir -p "$inst/bin" "$inst/csv" - cp ta6nt/bin/ta6nt/*.exe "$inst/bin/" - cp ta6nt/bin/ta6nt/*.dll "$inst/bin/" 2>/dev/null || true - cp ta6nt/boot/ta6nt/petite.boot ta6nt/boot/ta6nt/scheme.boot "$inst/bin/" - cp ta6nt/boot/ta6nt/petite.boot ta6nt/boot/ta6nt/scheme.boot "$inst/csv/" - cp ta6nt/boot/ta6nt/scheme.h "$inst/csv/" - cp ta6nt/boot/ta6nt/equates.h "$inst/csv/" 2>/dev/null || true - cp ta6nt/boot/ta6nt/libkernel.a "$inst/csv/" || { echo "libkernel.a not found:"; find ta6nt -name "*.a" -o -name "kernel*"; exit 1; } - - - name: Put chez on PATH (Windows) - if: runner.os == 'Windows' - run: | - bindir="$GITHUB_WORKSPACE/chez-install/bin" - { echo '#!/bin/sh'; echo "exec \"$bindir/scheme.exe\" \"\$@\""; } > "$bindir/chez" - chmod +x "$bindir/chez" - echo "$bindir" >> "$GITHUB_PATH" - echo "JOLT_CHEZ_CSV=$GITHUB_WORKSPACE/chez-install/csv" >> "$GITHUB_ENV" - # cc is the build's compiler name; alias it to mingw gcc - { echo '#!/bin/sh'; echo 'exec gcc "$@"'; } > "$bindir/cc" - chmod +x "$bindir/cc" - - - name: Show Chez version - run: chez --version - - # build-joltc compiles in a fresh Chez and cc-links; the checked-in seed is - # the compiler image, so no selfhost re-mint (that byte-fixpoint is a - # dev-machine check — see jolt-8479). `make joltc-release`, not `make joltc`. - - name: Build joltc (release) - run: make joltc-release - env: - # Bake the release tag into the binary (build-joltc falls back to - # `git describe` when this is empty, e.g. a workflow_dispatch dry run). - JOLT_VERSION: ${{ startsWith(github.ref, 'refs/tags/') && github.ref_name || '' }} - - - name: Inspect the binary (Windows) - if: runner.os == 'Windows' - run: | - set +e - ls -la target/release/ - ntldd target/release/joltc.exe 2>&1 | head -20 - ./target/release/joltc.exe -e '(+ 1 2)' - echo "exit=$?" - - # Sanity: the built binary runs (no Chez needed) and self-reports a value. - - name: Smoke the binary - run: | - out="$(./target/release/joltc -e '(reduce + (range 10))')" - test "$out" = "45" || { echo "joltc -e gave '$out', want 45"; exit 1; } - - # The binary is a self-contained COMPILER: it must `build` an app with no - # jolt source on disk. Run from an isolated dir (nothing but the tiny app) - # so a build that reaches for host/chez/*.ss on the filesystem fails here, - # not on a user's machine. - - name: Smoke a self-contained build - run: | - joltc="$(pwd)/target/release/joltc" - work="$(mktemp -d)" - mkdir -p "$work/app/src/app" - printf '{:paths ["src"]}\n' > "$work/app/deps.edn" - printf '(ns app.core)\n(defn -main [& _] (println "built:" (reduce + (range 10))))\n' \ - > "$work/app/src/app/core.clj" - ( cd "$work/app" && "$joltc" build -m app.core -o app ) - out="$("$work/app/app")" - test "$out" = "built: 45" || { echo "self-contained build ran '$out', want 'built: 45'"; exit 1; } - - # A built binary must also run the DYNAMIC require path: a namespace not - # in the static ns graph compiles from the source roots at runtime, so the - # boot's top-level defines must be visible to the runtime compiler's eval - # (issue #290: this died with "variable var-deref is not bound"). - - name: Smoke a runtime require in a built binary - run: | - joltc="$(pwd)/target/release/joltc" - work="$(mktemp -d)" - mkdir -p "$work/app/src/app" - printf '{:paths ["src"]}\n' > "$work/app/deps.edn" - printf '(ns app.extra)\n(defn greet [s] (str "Hello, " s "!"))\n' \ - > "$work/app/src/app/extra.clj" - printf '(ns app.core)\n(defn -main [& _]\n (println ((requiring-resolve (quote app.extra/greet)) "runtime")))\n' \ - > "$work/app/src/app/core.clj" - ( cd "$work/app" && "$joltc" build -m app.core -o app ) - out="$(cd "$work/app" && ./app)" - test "$out" = "Hello, runtime!" || { echo "runtime require ran '$out', want 'Hello, runtime!'"; exit 1; } - - - name: Package - run: | - ver="${GITHUB_REF_NAME}" - name="joltc-${ver}-${{ matrix.target }}" - mkdir -p "dist/${name}" - cp README.md LICENSE "dist/${name}/" - if [ "${{ runner.os }}" = "Windows" ]; then - cp target/release/joltc.exe "dist/${name}/joltc.exe" - ( cd dist && zip -r "${name}.zip" "${name}" && sha256sum "${name}.zip" > "${name}.zip.sha256" ) - else - cp target/release/joltc "dist/${name}/joltc" - tar -C dist -czf "dist/${name}.tar.gz" "${name}" - ( cd dist && shasum -a 256 "${name}.tar.gz" > "${name}.tar.gz.sha256" ) - fi - ls -la dist - - - name: Upload to the GitHub Release - if: startsWith(github.ref, 'refs/tags/') - uses: softprops/action-gh-release@v2 - with: - files: | - dist/*.tar.gz - dist/*.tar.gz.sha256 - dist/*.zip - dist/*.zip.sha256 - fail_on_unmatched_files: false diff --git a/.github/workflows/tests.yml b/.github/workflows/tests.yml index a3eff9c..d0036df 100644 --- a/.github/workflows/tests.yml +++ b/.github/workflows/tests.yml @@ -56,11 +56,7 @@ jobs: - name: Install JDK + Clojure (certify oracle) run: | sudo apt-get install -y default-jdk rlwrap - # --retry + --fail so a transient CDN error retries instead of handing - # bash an HTML error page (a 2min timeout page flaked a run) - curl --fail --retry 5 --retry-delay 10 --retry-all-errors -L -O \ - https://github.com/clojure/brew-install/releases/latest/download/linux-install.sh - head -1 linux-install.sh | grep -q '^#!' || { echo "installer download corrupt"; cat linux-install.sh | head -5; exit 1; } + curl -L -O https://github.com/clojure/brew-install/releases/latest/download/linux-install.sh sudo bash linux-install.sh clojure --version diff --git a/.gitignore b/.gitignore index ab386cf..b62bfd2 100644 --- a/.gitignore +++ b/.gitignore @@ -2,7 +2,6 @@ AGENTS.md .DS_Store CLAUDE.md build/ -target/ .clj-kondo/ .dirge/ .claude/ diff --git a/.gitmodules b/.gitmodules index e2374ec..77affa0 100644 --- a/.gitmodules +++ b/.gitmodules @@ -4,6 +4,3 @@ [submodule "vendor/sci"] path = vendor/sci url = https://github.com/borkdude/sci.git -[submodule "vendor/clojure-test-suite"] - path = vendor/clojure-test-suite - url = https://github.com/jank-lang/clojure-test-suite.git diff --git a/Makefile b/Makefile index 5d87481..bdef687 100644 --- a/Makefile +++ b/Makefile @@ -4,23 +4,18 @@ # build step. `make test` is the full gate. `make remint` rebuilds the seed after a # source change. -.PHONY: test ci values corpus unit smoke buildsmoke staticnativesmoke selfhost sci cts certify ffi transient infer wp devirt fieldread numwp fieldnum protoret narrow directlink numeric inline shakesmoke remint joltc joltc-release joltc-debug joltcsmoke submodules - -# Every target needs the vendored submodules; fail with the fix, not a load error. -submodules: - @test -f vendor/irregex/irregex.scm || { \ - echo "vendor submodules missing; run: git submodule update --init --recursive"; exit 1; } +.PHONY: test ci values corpus unit smoke buildsmoke selfhost sci certify ffi transient infer wp devirt fieldread numwp fieldnum protoret narrow directlink numeric inline shakesmoke remint # Full gate (dev machine). Includes the self-host byte-fixpoint, which only holds # on the same Chez that minted the seed. -test: submodules selfhost ci +test: selfhost ci @echo "OK: all gates passed" # CI gate: behavior only. The checked-in seed is a minted artifact (like a # lockfile) — it RUNS correctly on any Chez, but `selfhost` rebuilds it and a # different Chez version may emit byte-different (gensym/order) output, so the # byte-fixpoint is a dev-machine check, not a CI one (jolt-8479). -ci: submodules values corpus unit smoke buildsmoke staticnativesmoke sci cts ffi transient infer wp devirt fieldread numwp fieldnum protoret narrow directlink numeric inline certify +ci: values corpus unit smoke buildsmoke sci ffi transient infer wp devirt fieldread numwp fieldnum protoret narrow directlink numeric inline certify @echo "OK: CI gates passed" # Self-host fixpoint: bootstrap.ss rebuild == checked-in seed. @@ -47,38 +42,10 @@ smoke: buildsmoke: @sh host/chez/build-smoke.sh -# `jolt build` cc-links a :jolt/native :static archive into the binary (the -# default), and --dynamic keeps the runtime load-shared-object path. -staticnativesmoke: - @sh host/chez/static-native-smoke.sh - -# Build joltc as a self-contained native binary into target//joltc. The -# binary bundles the runtime, compiler, jolt-core + stdlib source, the Chez boots, -# and a launcher stub, so it runs AND compiles jolt apps with no Chez or cc on the -# machine. Built on a dev/CI host that HAS Chez + cc. release = optimize-level 3, -# no inspector info, compressed; debug = optimize-level 0 + inspector + debug info. -joltc-release: - @chez --script host/chez/build-joltc.ss release target/release/joltc -joltc-debug: - @chez --script host/chez/build-joltc.ss debug target/debug/joltc -# Re-mint the seed first so the embedded compiler image is current, then both builds. -joltc: selfhost joltc-release joltc-debug - @echo "OK: target/release/joltc and target/debug/joltc built" - -# Self-build smoke: the distributed joltc compiles an app with Chez + cc removed. -joltcsmoke: - @sh host/chez/joltc-selfbuild-smoke.sh - # SCI conformance: load borkdude/sci's source through joltc (floor-gated). sci: @chez --script host/chez/run-sci.ss -# clojure-test-suite conformance: run the vendored jank-lang/clojure-test-suite -# per-namespace under joltc, gated on the per-namespace baseline -# (test/chez/cts-known-failures.txt). -cts: - @bash host/chez/cts.sh - # FFI: bind native functions (typed foreign-procedure), memory, and that a # :blocking call is collect-safe (a parked thread doesn't pin the collector). ffi: diff --git a/README.md b/README.md index 16c1f50..c911105 100644 --- a/README.md +++ b/README.md @@ -7,31 +7,6 @@ Jolt reads Clojure source, analyzes it to a host-neutral IR, emits Scheme, and runs it on Chez. The compiler is self-hosted: it is written in Clojure (`jolt-core/`) and compiles itself. It ships a Clojure-compatible standard library. -## Install - -Grab the self-contained `joltc` binary (Linux/macOS/Windows) — it bundles the -runtime, compiler, and standard library, so there is nothing else to install. -Download the binary archive for your platform from the -[releases page](https://github.com/jolt-lang/jolt/releases) (`joltc--.tar.gz`, -or the `.zip` on Windows). The "Source code" archives GitHub attaches to every -release are not binaries — see [Build](#build) before using one. - -With Homebrew: - -```bash -brew install jolt-lang/jolt/jolt -``` - -Or with the install script (installs to `/usr/local/bin` by default; `--dir ` -and `--version ` override that): - -```bash -curl -sL https://raw.githubusercontent.com/jolt-lang/jolt/main/install | bash -``` - -Then `joltc -e '(+ 1 2)'`. To run from source instead (needs Chez), see -[Build](#build). - ## Requirements Only [Chez Scheme](https://cisco.github.io/ChezScheme/) (the gate invokes it as @@ -49,18 +24,6 @@ cd jolt bin/joltc -e '(+ 1 2)' # => 3 ``` -The `--recurse-submodules` matters: jolt vendors its regex engine and test -suites as git submodules. In a checkout that's missing them (a plain -`git clone`, or after pulling a commit that adds one), fetch them with: - -```bash -git submodule update --init --recursive -``` - -Note that GitHub's auto-generated "Source code (zip/tar.gz)" archives on the -releases page do **not** contain submodules, so they can't run or build — -clone the repo instead (or grab a prebuilt binary from the same page). - After changing a compiler source — the reader (`host/chez/reader.ss`), the analyzer/IR/backend (`jolt-core/jolt/*.clj`), or the `clojure.core` overlay (`jolt-core/clojure/core/*.clj`) — re-mint the seed: @@ -143,24 +106,6 @@ compiler. They come with a from-source Chez install; a distro `chezscheme` package ships only the runtime, so `build` won't link a binary there. RFC 0007 (`docs/rfc/`) covers the design and the three-mode model. -## Standalone joltc binary - -`make` builds joltc itself into a single self-contained native binary — the -runtime, compiler, `jolt-core`/`stdlib` source, and the Chez boots are baked in, -so the result runs and `build`s jolt apps on a machine with neither Chez nor a C -compiler. Build it on a host that *does* have both. - -```bash -make joltc-release # => target/release/joltc (optimize-level 3, compressed) -make joltc-debug # => target/debug/joltc (optimize-level 0, inspector + debug info) -make joltc # re-mint the seed first, then both -``` - -`make joltc` re-mints the seed so the embedded compiler image is current before -linking; use `joltc-release`/`joltc-debug` directly to skip that when the seed is -already minted. Like `build`, both require Chez's kernel development files -(`libkernel.a`, `scheme.h`) and a C compiler. - ## Architecture A small Chez runtime (`host/chez/*.ss`: value model, persistent collections, seqs, diff --git a/bin/joltc b/bin/joltc index 8b3bb2a..0ccce51 100755 --- a/bin/joltc +++ b/bin/joltc @@ -13,29 +13,7 @@ # the user's original cwd (the project dir, where deps.edn lives) is passed in # JOLT_PWD. root="$(CDPATH= cd -- "$(dirname -- "$0")/.." && pwd)" -export JOLT_PWD="${JOLT_PWD:-$PWD}" - -# Identify the Chez Scheme executable -while read -r CHEZ -do - if [ `which ${CHEZ}` ] - then - break; - fi -done </dev/null || echo dev)}" +JOLT_PWD="${JOLT_PWD:-$PWD}" +export JOLT_PWD cd "$root" || exit 1 -exec ${CHEZ} --script host/chez/cli.ss "$@" - +exec chez --script host/chez/cli.ss "$@" diff --git a/docs/host-interop.md b/docs/host-interop.md index 8c2277f..880e5e4 100644 --- a/docs/host-interop.md +++ b/docs/host-interop.md @@ -240,32 +240,6 @@ register checks without clobbering each other. This is the mechanism jolt's HTTP client library uses to emulate `java.net.URL` and `HttpURLConnection` so `clj-http-lite` runs unchanged. -`__register-instance-check!` answers one `(instance? Foo x)` question. When a -class belongs to a *hierarchy* — a custom exception that should be caught as an -`IOException`, or a value that should match `(instance? SomeInterface x)` across -its whole supertype chain and dispatch a protocol extended to any of those -supertypes — declare its direct supers once with `jolt.host/register-class-supers!` -instead. `instance?`, `isa?`, `supers`/`ancestors`, and `extend-protocol` -dispatch all derive from the one declaration (supers are given by canonical name; -transitivity is computed): - -```clojure -;; a library's exception type that catch/instance? should treat as an IOException -(jolt.host/register-class-supers! "com.acme.RetryExhaustedException" - ["java.io.IOException"]) - -(throw (jolt.host/throwable "com.acme.RetryExhaustedException" "gave up")) -;; (catch java.io.IOException e …) now matches it; (instance? java.lang.Exception e) is true -``` - -deftype/defrecord classes join the same graph automatically at definition: a -record's ancestry carries the record interfaces (`clojure.lang.IRecord`, -`IPersistentMap`, `Associative`, …), a bare deftype carries -`clojure.lang.IType`, and every protocol the type implements inline appears as -an implemented interface — so `(ancestors MyRecord)`, `(isa? MyRecord -clojure.lang.IPersistentMap)`, and hierarchy relationships `derive`d on a -class's supers all answer like the JVM. - Extending a *built-in* class instead (adding a method to core's `String` shim, say) means editing the relevant `host/chez/*.ss` file and running `make remint` — see [building-and-deps.md](building-and-deps.md). diff --git a/docs/libraries.md b/docs/libraries.md index e5c7fec..1b9f319 100644 --- a/docs/libraries.md +++ b/docs/libraries.md @@ -25,13 +25,15 @@ e.g. the [ring-app example](https://github.com/jolt-lang/examples/tree/main/ring [dependency](https://github.com/weavejester/dependency) and [meta-merge](https://github.com/weavejester/meta-merge) deps * [honeysql](https://github.com/seancorfield/honeysql) — SQL formatter and helpers -* [clojure.jdbc](https://github.com/yogthos/clojure.jdbc) — via +* [clojure.jdbc](https://github.com/yogthos/clojure.jdbc) — as [jolt-lang/db](https://github.com/jolt-lang/db)'s `jdbc.core`, over the built-in SQLite access (libsqlite3 via Chez's FFI) +* [next.jdbc](https://github.com/seancorfield/next-jdbc) — a compatibility layer in + [jolt-lang/db](https://github.com/jolt-lang/db) over `jdbc.core` * [tools.logging](https://github.com/clojure/tools.logging) — runs verbatim over a native `clojure.tools.logging.impl` stderr backend -* [migratus](https://github.com/yogthos/migratus) — database migrations over - [jolt-lang/db](https://github.com/jolt-lang/db) +* [migratus](https://github.com/yogthos/migratus) — database migrations over the + next.jdbc layer * [malli](https://github.com/metosin/malli) — data schema validation, on the malli-app example. * [markdown-clj](https://github.com/yogthos/markdown-clj) — Markdown → HTML, on the @@ -70,11 +72,6 @@ e.g. the [ring-app example](https://github.com/jolt-lang/examples/tree/main/ring [tools.macro](https://github.com/clojure/tools.macro). * [test.check](https://github.com/clojure/test.check) — property-based testing (generators, `quick-check`, shrinking). -* [tools.reader](https://github.com/clojure/tools.reader) — a Clojure reader in - Clojure (edn + full reader, indexing/pushback reader types). -* [rewrite-clj](https://github.com/clj-commons/rewrite-clj) — parse/rewrite Clojure - source while preserving whitespace and comments (nodes + zipper), over - [tools.reader](https://github.com/clojure/tools.reader). * [tick](https://github.com/juxt/tick) — date/time over Jolt's `java.time`; `#time/…` literals via `time-literals`. * [transit-jolt](https://github.com/jolt-lang/transit-jolt) — Transit (JSON) read/write diff --git a/docs/spec/02-reader.md b/docs/spec/02-reader.md index 169bae5..fc2d3ef 100644 --- a/docs/spec/02-reader.md +++ b/docs/spec/02-reader.md @@ -225,31 +225,3 @@ reader functions are the deliberate exception, S20). Forms read identically whether or not they will be evaluated; `read-string` of any printable value `v` followed by evaluation yields a value equal to `v` for the self-evaluating types (§4 print/read round-trip contract). - -## Strict tokens and edn mode - -The reader rejects what the reference rejects (corpus `edn / strictness`, -`reader / strict tokens`): - -- A token that starts like a number but doesn't parse as one is - NumberFormatException, never a symbol: `1a`, `08` (a leading zero demands - octal digits; `042` is 34), `0x2g`, `2r2`. A ratio's parts are plain digit - runs (`1/-1` is invalid); a zero denominator is ArithmeticException. -- Empty ns/name parts are invalid tokens: `:`, `::`, `foo/`, `/foo`, `:/foo`. - `/` (division), `ns//` and `:/` (a name of exactly `/`) are valid. -- Map literals with duplicate keys and set literals with duplicate elements - throw IllegalArgumentException at read. -- An unsupported string escape (`"\q"`) and an octal escape past `\377` - (string or `\o` char) throw. A stray close delimiter at top level is - "Unmatched delimiter". `\r` terminates a line comment like `\n`. -- `#inst` validates its calendar fields progressively (month 1–12, day valid - for the month including leap years, hour < 24, minute < 60); `#uuid` - demands canonical 8-4-4-4-12 hex. - -clojure.edn adds on top of that (`__read-form-edn` seam): auto-resolved -keywords (`::k`) are invalid (no resolution context), each `#_` discarded -form is validated through the same `:readers`/`:default` pipeline (an -unreadable tagged element throws even when discarded), `M` literals -construct BigDecimals, lists satisfy `list?`, and end-of-input honors the -`:eof` option — an opts map without `:eof` makes EOF an error, while the -no-opts arity returns nil. diff --git a/docs/spec/09-core-library.md b/docs/spec/09-core-library.md index 2d9138e..c7ce14f 100644 --- a/docs/spec/09-core-library.md +++ b/docs/spec/09-core-library.md @@ -196,164 +196,6 @@ cases; clojure-test-suite `core_test/parse_uuid.cljc`, --- -### clojure.template/apply-template, clojure.test/are — since 1.1 - -``` -(apply-template argv expr values) -(are argv expr & args) -``` - -**Semantics** - -- S1. `apply-template` MUST replace every occurrence of each `argv` symbol - in `expr` with its corresponding value by structural walk (postwalk symbol - substitution), not by lexical binding. Occurrences inside `quote` and at - any nesting depth substitute: `(apply-template '[x] '(f 'x) '[if])` ⇒ - `(f 'if)`. -- S2. `do-template` MUST partition `args` by `(count argv)` and expand to a - `do` of one substituted `expr` per group. -- S3. `clojure.test/are` MUST expand through `do-template` with `expr` - wrapped in `is`. Consequently `(are [x] (special-symbol? 'x) if def)` - asserts `(special-symbol? 'if)` and `(special-symbol? 'def)` — a - let-binding implementation is non-conforming (the quoted symbol would not - substitute). - -**Errors** - -- X1. `are` MUST throw at macroexpansion when `(count args)` is not a - positive multiple of a non-empty `(count argv)` (empty/empty is allowed). -- X2. `apply-template` MUST throw when `argv` is not a vector of symbols. - -**Conformance** - -S1–S3 → `test/chez/clojure-test.clj` (are with quoted template var); -clojure-test-suite `core_test/special_symbol_qmark.cljc` and every -`are`-based suite namespace. - ---- - -### make-hierarchy, derive, underive, isa?, parents, ancestors, descendants — since 1.0 - -``` -(make-hierarchy) -(derive tag parent) (derive h tag parent) -(underive tag parent) (underive h tag parent) -(isa? child parent) (isa? h child parent) -(parents tag) (ancestors tag) (descendants tag) ; + (f h tag) forms -``` - -**Semantics** - -- S1. A hierarchy is a pure value `{:parents {tag #{...}} :ancestors {...} - :descendants {...}}`; the 3-arity forms are pure, the shorter arities read and - mutate the global hierarchy. -- S2. `isa?` is true when `(= child parent)`, when the host type system says - parent is assignable from child (both classes), when the relationship was - `derive`d — including a relationship derived on one of a class child's - supers — or component-wise for equal-length vectors. -- S3. Class tags answer through the host type hierarchy: `(parents c)` includes - the class's direct supers (`bases` — a concrete class's chain roots at - `java.lang.Object`, an interface's does not); `(ancestors c)` is the - transitive set plus anything `derive`d on the class or its supers. A - deftype/defrecord class's ancestry includes its implemented protocol - interfaces and, for records, the record interfaces - (`clojure.lang.IRecord`/`IPersistentMap`/`Associative`/…; `clojure.lang.IType` - for a bare deftype). -- S4. `derive` returns the updated hierarchy (3-arity) or nil (2-arity); - deriving a relationship that already holds transitively, or one that would - create a cycle, throws. - -**Errors** - -- X1. `derive` asserts its argument shapes: parent must be a namespaced Named - value; tag must be a class or a Named value (namespaced in the 2-arity - global form); `(derive h tag tag)` fails the `not=` assert. AssertionError. -- X2. `underive`/`derive` with a non-hierarchy `h` throw at the parents - lookup (the map is called as a function, like the reference). -- X3. `(descendants h SomeClass)` throws UnsupportedOperationException - ("Can't get descendants of classes") — Java type inheritance is not - enumerable downward. - -**Conformance** - -S1–S4, X1–X3 → corpus `hierarchy / *` rows; clojure-test-suite -`core_test/{derive,underive,isa_…,parents,ancestors,descendants}.cljc` -(all fully passing). - ---- - -### atom, add-watch, remove-watch, set-validator!, get-validator — since 1.0 - -``` -(atom x & {:keys [meta validator]}) -(add-watch iref key f) (remove-watch iref key) -(set-validator! iref f) (get-validator iref) -``` - -**Semantics** - -- S1. Watches, validators, and reference metadata are one contract (the JVM's - ARef/IRef) shared by atoms, vars, and agents. `add-watch`/`remove-watch` - return the reference; re-adding a key replaces that watch in place. -- S2. A watch is called `(f key ref old new)` after a state change: atom - swap!/reset!/compare-and-set!, var ROOT changes (`def` on a watched var, - `var-set` outside a thread binding, `alter-var-root` — a thread-binding set - does not notify), and each agent action's state change. -- S3. A validator gates every state change and, via the `:validator` ctor - option, the initial value — an invalid initial value never constructs the - reference. -- S4. The `:meta` ctor option attaches reference metadata (`meta` reads it, - `alter-meta!`/`reset-meta!` update it); nil is allowed. - -**Errors** - -- X1. A rejected value (validator returns logical false or the ctor option - fails on the initial value) throws IllegalStateException "Invalid reference - state". -- X2. A non-map `:meta` ctor option throws ClassCastException. - -**Conformance** - -S1–S4, X1–X2 → corpus `iref / *` rows; clojure-test-suite -`core_test/{atom,add-watch,remove-watch}.cljc` (the remaining baselined error -in the watch namespaces is their STM `ref` section — refs are out of scope, -`stm-refs` in `coverage.md`). - ---- - -### clojure.string coercion, some-fn, ifn? — since 1.2/1.3 - -``` -(clojure.string/upper-case s) … (some-fn p & ps) (ifn? x) -``` - -**Semantics** - -- S1. The clojure.string case fns and searches (`upper-case`, `lower-case`, - `capitalize`, `starts-with?`, `ends-with?`, `includes?`, `index-of`, - `replace`) take any Object `s` through its `toString`, like the reference's - `^CharSequence`+`.toString` signatures: `(upper-case :kw)` is `":KW"`, - `(capitalize 1)` is `"1"`. nil throws (method call on null); a nil `substr` - throws. -- S2. `some-fn` follows the reference arities: at least one predicate - (`(some-fn)` is an arity error) and the returned fn chains with `or`, so a - no-match result is the last predicate's own falsy value (`false` stays - `false`). -- S3. `ifn?` covers fns, keywords, symbols, maps, sets, vectors, vars, - multimethods, promises (invoking a promise delivers it), and a - deftype/defrecord implementing `clojure.lang.IFn`'s `invoke`. -- S4. A `defmulti`/`defmethod` deferred inside a fn body interns/resolves in - the namespace it was WRITTEN in (the macros bake their expansion ns), not - whatever namespace is current when it runs. - -**Conformance** - -S1–S4 → corpus `string / toString coercion`, `core / some-fn`, `core / ifn?`, -`multimethods / deferred definition`; clojure-test-suite string/some-fn/ -ifn-qmark/boolean-qmark/reduce namespaces (all fully passing). - ---- - ## Authoring notes - Source examples from the ClojureDocs export (`clojuredocs-export.edn`, diff --git a/docs/tools-deps.md b/docs/tools-deps.md index cba1912..a5501ed 100644 --- a/docs/tools-deps.md +++ b/docs/tools-deps.md @@ -72,41 +72,11 @@ bindings resolve. Each entry is a map — `{:name "sqlite3" :darwin the running process's own symbols, e.g. libc sockets, no external file). A project inherits its dependencies' `:jolt/native`. -### Static vs dynamic linking - -When you `joltc build`, a native lib is **statically linked** into the binary by -default if the spec carries a `:static` archive — so the executable calls the C -code with no shared object present at runtime. Add `:static` alongside the runtime -candidates: - -```clojure -{:name "sqlite3" - :static {:archive "/opt/homebrew/lib/libsqlite3.a"} ; or {:lib "sqlite3" :libdir "/usr/lib"} - :darwin ["libsqlite3.0.dylib"] ; still used by `run`/`repl` and by --dynamic - :linux ["libsqlite3.so.0"]} -``` - -`:static {:archive PATH}` force-loads the whole `.a` and is the reliable -cross-platform form. `:static {:lib NAME :libdir DIR}` links `-lNAME` (with a -`-Bstatic` preference on Linux); on macOS, which has no `-Bstatic`, prefer the -archive form. A spec with no `:static` (or a build passed `--dynamic`, or -`:jolt/build {:dynamic-natives true}`) keeps the old behavior — the shared object -is loaded at startup via `load-shared-object`. - -Static linking needs a C compiler (`cc`) on `PATH` at build time (plus the C libs -the Chez kernel links — lz4, zlib, ncurses). The distributed `joltc` bundles the -Chez kernel, so it re-links the launcher stub with the archive baked in — no -external Chez, just `cc`. Without a `cc`, a `:static` lib fails with a message -pointing you to install one or pass `--dynamic`. Keep a `:darwin`/`:linux` -candidate on any `:static` spec so `run`/`repl` (which have no static binary) can -still load it. - ## Standalone binaries `joltc build -m NS` compiles the app and every library into one executable (the -runtime + compiler are baked in). Resolved `:jolt/native` libs are statically -linked in (or loaded at startup — see [Native libraries](#native-libraries)), so -an FFI app — sockets, SQLite — runs with no jolt or Chez on the path. +runtime + compiler are baked in). It loads the resolved `:jolt/native` libs at +startup, so an FFI app — sockets, SQLite — runs with no jolt or Chez on the path. Output goes under the project's `target/`, cargo-style: `target/release/` by default and with `--opt`, `target/debug/` with `--dev` (the @@ -182,30 +152,6 @@ a root, transitively. - Source only; compiled `.class` files in a git dep are ignored. - git `:git/sha` must be a full SHA (`git fetch` can't resolve a short one). -## Stack traces - -An uncaught error prints the message, the top-level source location, and — when -frames are available — a `trace:` backtrace. In an AOT `jolt build --direct-link` -binary the frames map to `ns/name (file:line)`; on the runtime eval path they are -the surviving fn names. Tail-call optimization erases tail-called frames, so the -default trace shows only the non-tail spine. - -A fuller **tail-frame history** recovers the frames TCO erases: each compiled fn -records itself on entry into a bounded ring-of-rings buffer, so the trace shows -TCO-elided frames (including the immediate error site) while a tight tail loop -stays bounded and its non-tail caller context is preserved. - -It is **on by default in REPL-driven development** — a `repl` or nREPL session -turns it on, so an error in code you evaluate or reload shows a tail-frame trace -with no setup. Because the recording is baked in at compile time, only code -compiled while a session is live is traced; reload a namespace to trace code that -was already loaded (e.g. an app's initial `-M:run` load before its nREPL started). - -Elsewhere it is off (a small per-call cost, and never emitted into a `jolt build` -binary). Override with the environment: `JOLT_TRACE=1` forces it on for a whole -run — including a plain `-M:run`, so the app's own load is traced — and -`JOLT_TRACE=0` forces it off, even in a REPL/nREPL session. - ## Conformance The known-working libraries (see [libraries.md](libraries.md)) and the diff --git a/host/chez/atoms.ss b/host/chez/atoms.ss index 5fcd27c..fedd144 100644 --- a/host/chez/atoms.ss +++ b/host/chez/atoms.ss @@ -23,38 +23,21 @@ (fields (mutable val) (mutable watches) (mutable validator) lock) (nongenerative jolt-atom-v3)) -;; a rejected reference value is IllegalStateException, like ARef.validate. -(define (jolt-iref-state-throw) - (jolt-throw (jolt-host-throwable "java.lang.IllegalStateException" "Invalid reference state"))) - -;; (atom init :meta m :validator f) — the ARef ctor contract: the validator runs -;; against the initial value (an invalid init never constructs), :meta must be a -;; map (anything else is the JVM's IPersistentMap cast failure). +;; (atom init) / (atom init :validator f :meta m): scan the trailing keyword opts +;; for :validator (the only one with runtime behaviour; :meta is accepted/ignored). (define (jolt-atom-new v . opts) - (let loop ((o opts) (validator jolt-nil) (m #f)) + (let loop ((o opts) (validator jolt-nil)) (cond - ((or (null? o) (null? (cdr o))) - (let ((a (make-jolt-atom v '() validator (make-mutex)))) - (jolt-atom-validate a v) - (when (and m (not (jolt-nil? m))) - (unless (jolt-map? m) - (jolt-throw (jolt-host-throwable - "java.lang.ClassCastException" - (string-append "class " (jolt-class-name m) - " cannot be cast to class clojure.lang.IPersistentMap")))) - (hashtable-set! meta-table a m)) - a)) + ((or (null? o) (null? (cdr o))) (make-jolt-atom v '() validator (make-mutex))) ((and (keyword-t? (car o)) (string=? (keyword-t-name (car o)) "validator")) - (loop (cddr o) (cadr o) m)) - ((and (keyword-t? (car o)) (string=? (keyword-t-name (car o)) "meta")) - (loop (cddr o) validator (cadr o))) - (else (loop (cddr o) validator m))))) + (loop (cddr o) (cadr o))) + (else (loop (cddr o) validator))))) ;; validate a candidate value: a non-nil validator that returns falsey rejects. (define (jolt-atom-validate a v) (let ((vf (jolt-atom-validator a))) (when (and (not (jolt-nil? vf)) (jolt-not (jolt-invoke vf v))) - (jolt-iref-state-throw)))) + (error #f "Invalid reference state")))) ;; notify each watch (k ref old new), in insertion order (alist is reverse-built, ;; so walk it reversed to match add order). @@ -123,87 +106,27 @@ (jolt-atom-notify a old v) (jolt-vector old v))) -;; --- watches / validators: the IRef seam -------------------------------------- -;; On the JVM these are the ARef contract shared by atom/var/agent/ref. The atom -;; keeps its record slots (the hot swap!/reset! path); every OTHER watchable -;; reference type registers a predicate here and stores its watches/validator in -;; identity-keyed side tables. A ref type makes itself notify by calling -;; iref-notify at its mutation points (vars do at root set). -(define iref-arms '()) -(define (register-iref-arm! pred) (set! iref-arms (cons pred iref-arms))) -(define (iref? r) - (let loop ((as iref-arms)) - (cond ((null? as) #f) (((car as) r) #t) (else (loop (cdr as)))))) -(define iref-watch-tbl (make-weak-eq-hashtable)) -(define iref-validator-tbl (make-weak-eq-hashtable)) -(define (iref-notify r old new) - (for-each (lambda (kv) (jolt-invoke (cdr kv) (car kv) r old new)) - (reverse (hashtable-ref iref-watch-tbl r '())))) -(define (iref-validate r v) - (let ((vf (hashtable-ref iref-validator-tbl r jolt-nil))) - (when (and (not (jolt-nil? vf)) (jolt-not (jolt-invoke vf v))) - (jolt-iref-state-throw)))) - +;; --- watches / validators --------------------------------------------------- ;; add-watch interns (key . fn) (replacing any existing key, keeping order); -;; remove-watch drops it; both return the reference. set-validator! installs a +;; remove-watch drops it; both return the atom. set-validator! installs a ;; validator and validates the CURRENT value immediately (Clojure throws if it's ;; already invalid); get-validator reads the slot. -(define (jolt-watch-add alist key f) - (cons (cons key f) (remp (lambda (kv) (jolt=2 (car kv) key)) alist))) (define (jolt-add-watch a key f) - (cond - ((jolt-atom? a) - (jolt-atom-watches-set! a (jolt-watch-add (jolt-atom-watches a) key f)) - a) - ((iref? a) - (hashtable-set! iref-watch-tbl a (jolt-watch-add (hashtable-ref iref-watch-tbl a '()) key f)) - a) - (else (error #f "add-watch: not a watchable reference" a)))) + (jolt-atom-watches-set! a + (cons (cons key f) + (remp (lambda (kv) (jolt=2 (car kv) key)) (jolt-atom-watches a)))) + a) (define (jolt-remove-watch a key) - (cond - ((jolt-atom? a) - (jolt-atom-watches-set! a - (remp (lambda (kv) (jolt=2 (car kv) key)) (jolt-atom-watches a))) - a) - ((iref? a) - (hashtable-set! iref-watch-tbl a - (remp (lambda (kv) (jolt=2 (car kv) key)) (hashtable-ref iref-watch-tbl a '()))) - a) - (else (error #f "remove-watch: not a watchable reference" a)))) + (jolt-atom-watches-set! a + (remp (lambda (kv) (jolt=2 (car kv) key)) (jolt-atom-watches a))) + a) (define (jolt-set-validator! a f) (let ((vf (if (jolt-nil? f) jolt-nil f))) - (cond - ((jolt-atom? a) - (when (and (not (jolt-nil? vf)) (jolt-not (jolt-invoke vf (jolt-atom-val a)))) - (jolt-iref-state-throw)) - (jolt-atom-validator-set! a vf)) - ((iref? a) - (when (and (not (jolt-nil? vf)) (jolt-not (jolt-invoke vf (jolt-deref a)))) - (jolt-iref-state-throw)) - (hashtable-set! iref-validator-tbl a vf)) - (else (error #f "set-validator!: not a reference" a))) + (when (and (not (jolt-nil? vf)) (jolt-not (jolt-invoke vf (jolt-atom-val a)))) + (error #f "Invalid reference state")) + (jolt-atom-validator-set! a vf) jolt-nil)) -(define (jolt-get-validator a) - (cond ((jolt-atom? a) (jolt-atom-validator a)) - ((iref? a) (hashtable-ref iref-validator-tbl a jolt-nil)) - (else jolt-nil))) - -;; vars are watchable IRefs: a root change (def / var-set on the root / -;; alter-var-root) validates and notifies like Var.bindRoot. The def-var! wrap -;; pays two weak-table probes per def and only does IRef work on a watched var. -(register-iref-arm! var-cell?) -(define def-var!-pre-iref def-var!) -(set! def-var! - (lambda (ns name v) - (let ((c (jolt-var ns name))) - (if (or (pair? (hashtable-ref iref-watch-tbl c '())) - (not (jolt-nil? (hashtable-ref iref-validator-tbl c jolt-nil)))) - (let ((old (var-cell-root c))) - (iref-validate c v) - (let ((r (def-var!-pre-iref ns name v))) - (iref-notify c old v) - r)) - (def-var!-pre-iref ns name v))))) +(define (jolt-get-validator a) (jolt-atom-validator a)) (def-var! "clojure.core" "atom" jolt-atom-new) (def-var! "clojure.core" "deref" jolt-deref) diff --git a/host/chez/build-joltc.ss b/host/chez/build-joltc.ss deleted file mode 100644 index 12612a1..0000000 --- a/host/chez/build-joltc.ss +++ /dev/null @@ -1,264 +0,0 @@ -;; build-joltc.ss — build joltc itself as a self-contained native binary (jolt-eaj). -;; -;; chez --script host/chez/build-joltc.ss -;; profile: "release" | "debug" out-path: e.g. target/release/joltc -;; -;; Runs on a dev/CI machine that HAS Chez + cc. Produces a binary that needs -;; NEITHER: it bakes the full runtime + compiler image + all jolt-core/stdlib -;; source + the Chez petite/scheme boots + a prebuilt launcher stub into one -;; cc-linked executable, so the resulting joltc can run AND `build` jolt apps on -;; its own. joltc itself is cc-linked (not appended) so its signature stays clean -;; for Homebrew/codesign, like dirge's binaries; only the apps it later builds use -;; the appended-stub path (host/chez/build.ss build-self-contained). -;; -;; Pipeline: -;; 0. cc-compile host/chez/stub/launcher.c against the Chez kernel. -;; 1. emit flat.ss = runtime + compiler image (cli.ss load order) + inlined -;; build.ss + every jolt-core/stdlib file as a baked string literal + the -;; joltc launcher. -;; 2. in-process compile-file + make-boot-file (profile Chez settings), error -;; restored around the call (the runtime shadows it; regex.ss/%chez-error). -;; 3. xxd the joltc boot + petite/scheme boots + stub into C arrays, generate -;; main.c, cc-link -> out-path. The launcher reads the petite/scheme/stub -;; arrays via FFI on `build` (jolt-materialize-bundles!). - -(import (chezscheme)) - -(load "host/chez/rt.ss") -(set-chez-ns! "clojure.core") -(load "host/chez/seed/prelude.ss") -(load "host/chez/post-prelude.ss") -(set-chez-ns! "user") -(load "host/chez/host-contract.ss") -(load "host/chez/seed/image.ss") -(load "host/chez/compile-eval.ss") -(load "host/chez/png.ss") -(load "host/chez/loader.ss") -(load "host/chez/java/ffi.ss") -(set-source-roots! (list "jolt-core" "stdlib")) -(load "host/chez/build.ss") ; bld-* helpers, ei-* (emit-image), dce - -(define jb-args (cdr (command-line))) -(define jb-profile (if (pair? jb-args) (car jb-args) "release")) -(define jb-out (if (and (pair? jb-args) (pair? (cdr jb-args))) (cadr jb-args) - (string-append "target/" jb-profile "/joltc"))) -(define jb-release? (string=? jb-profile "release")) -(unless (or jb-release? (string=? jb-profile "debug")) - (error 'build-joltc "profile must be \"release\" or \"debug\"" jb-profile)) - -;; Version baked into the binary's saved heap. Prefer $JOLT_VERSION (CI sets it to -;; the release tag); else derive it from git in this checkout; else "dev". -(define jb-version - (let ((env (getenv "JOLT_VERSION"))) - (if (and env (> (string-length env) 0)) - env - (let ((s (bld-sh-capture "git describe --tags --always --dirty 2>/dev/null"))) - (if (> (string-length s) 0) s "dev"))))) - -(define jb-build (string-append jb-out ".build")) -(bld-check-toolchain) -(bld-system (string-append "mkdir -p '" (path-parent jb-out) "' '" jb-build "'")) - -;; --- 0. compile the launcher stub ------------------------------------------- -(define jb-stub (string-append jb-build "/launcher")) -(display "build-joltc: compiling launcher stub\n") -(bld-system (string-append - "cc -O2 -I'" bld-csv-dir "' 'host/chez/stub/launcher.c' '" - bld-csv-dir "/libkernel.a' -o '" jb-stub "' " (bld-link-libs))) - -;; --- 1. emit flat.ss -------------------------------------------------------- -(define jb-flat-ss (string-append jb-build "/flat.ss")) -(define (str-suffix? s suf) - (let ((n (string-length s)) (m (string-length suf))) - (and (>= n m) (string=? (substring s (- n m) n) suf)))) - -;; Bake every jolt-core/stdlib source file as an in-heap string literal keyed by -;; its root-relative path ("jolt/main.clj", "clojure/string.clj") — exactly what -;; resolve-on-roots probes. Literals (not read-file-string at startup) because -;; flat.ss top-level forms run at every startup, with no source on disk. -(define (jb-emit-source-embeds out) - (for-each - (lambda (root) - (for-each - (lambda (rp) - (let ((rel (car rp)) (abs (cdr rp))) - (when (or (str-suffix? rel ".clj") (str-suffix? rel ".cljc")) - (put-string out (string-append - "(register-embedded-resource! " (ei-str-lit rel) " " - (ei-str-lit (read-file-string abs)) ")\n"))))) - (bld-walk-files root "" '()))) - (list "jolt-core" "stdlib"))) - -;; Embed every runtime .ss the build inlines into an app (the transitive closure of -;; the manifest's loads: rt.ss + all it loads, the seed, compile-eval, loader, ffi, -;; png, vendored irregex). Keyed by the exact path the (load "…") forms use, so -;; build.ss's bld-source-string reads them from the binary with no jolt source on -;; disk. Traversal mirrors bld-emit-runtime/bld-inline-line via the same -;; bld-file-lines + bld-load-path, so the embedded set is exactly what build reads. -(define (jb-collect-load-paths) - (let ((seen (make-hashtable string-hash string=?)) (order '())) - (define (walk path) - (when (and path (not (hashtable-ref seen path #f))) - (hashtable-set! seen path #t) - (set! order (cons path order)) - (for-each (lambda (l) (walk (bld-load-path l))) (bld-file-lines path)))) - (for-each (lambda (entry) (when (string? entry) (walk (bld-load-path entry)))) - bld-runtime-manifest) - (for-each (lambda (kv) (walk (bld-load-path (cdr kv)))) bld-tagged-loads) - (reverse order))) - -(define (jb-emit-runtime-embeds out) - (for-each - (lambda (path) - (put-string out (string-append - "(register-embedded-resource! " (ei-str-lit path) " " - (ei-str-lit (read-file-string path)) ")\n"))) - (jb-collect-load-paths))) - -;; The launcher (Chez scheme-start): replicates host/chez/cli.ss but reads argv -;; from the scheme-start lambda and has no repo root to cd into (all source is -;; embedded; JOLT_PWD defaults to cwd via io/jolt.main). build.ss is already -;; inlined, so `build` dispatches straight to jolt.host/build-binary after the -;; bundled boots/stub are materialized from the binary's own C arrays. -(define (jb-emit-launcher out) - (put-string out " -;; Materialize the bundled Chez boots + launcher stub (cc-linked into this binary -;; as C arrays) into the embedded-bytes store, so build-self-contained can spill -;; them. Done lazily on `build` only. -(define (jolt-materialize-bundles!) - (load-shared-object #f) - (let ((memcpy (foreign-procedure \"memcpy\" (u8* uptr uptr) void*))) - (for-each - (lambda (spec) - (let* ((len (foreign-ref 'unsigned-int (foreign-entry (caddr spec)) 0)) - (bv (make-bytevector len))) - (memcpy bv (foreign-entry (cadr spec)) len) - (register-embedded-bytes! (car spec) bv))) - '((\"csv/petite.boot\" \"jolt_petite_boot\" \"jolt_petite_boot_len\") - (\"csv/scheme.boot\" \"jolt_scheme_boot\" \"jolt_scheme_boot_len\") - (\"stub/launcher\" \"jolt_stub\" \"jolt_stub_len\") - (\"csv/scheme.h\" \"jolt_scheme_h\" \"jolt_scheme_h_len\") - (\"csv/libkernel.a\" \"jolt_libkernel_a\" \"jolt_libkernel_a_len\") - (\"stub/launcher.c\" \"jolt_launcher_c\" \"jolt_launcher_c_len\"))))) - -(suppress-greeting #t) -(scheme-start - (lambda args - (set-source-roots! (list \"jolt-core\" \"stdlib\")) - ;; JOLT_TRACE at RUNTIME (the env is unset at heap-build), before any app ns - ;; compiles, so a `-M:run` traces the app's own code. - (jolt-trace-init-from-env!) - (guard (v (#t (jolt-report-throwable v (current-error-port)) (exit 1))) - (cond - ((and (= (length args) 2) (string=? (car args) \"-e\")) - (let ((result (jolt-final-str - (jolt-compile-eval (string-append \"(do \" (cadr args) \")\") \"user\")))) - (unless (string=? result \"\") (display result) (newline)))) - (else - (when (and (pair? args) (string=? (car args) \"build\")) - (jolt-materialize-bundles!)) - (load-namespace \"jolt.main\") - (apply jolt-invoke (var-deref \"jolt.main\" \"-main\") args)))) - (exit 0))) -")) - -(display "build-joltc: emitting flat source\n") -(let ((out (open-output-file jb-flat-ss 'replace))) - ;; full runtime + compiler image: keep the compiler (joltc evals at runtime). - (bld-emit-runtime out #f #f) - (put-string out "\n;; === build driver (inlined for self-contained `jolt build`) ===\n") - (bld-inline-line "(load \"host/chez/build.ss\")" out 0) - (put-string out "\n;; === embedded runtime source (self-contained `build` reads these) ===\n") - (jb-emit-runtime-embeds out) - (put-string out "\n;; === embedded jolt-core + stdlib source ===\n") - (jb-emit-source-embeds out) - ;; Bake the version into the saved heap (runs at heap-build; loader.ss defined - ;; jolt-baked-version above, so this set! resolves). - (put-string out (string-append "\n;; === baked version ===\n(set! jolt-baked-version " - (ei-str-lit jb-version) ")\n")) - (put-string out "\n;; === joltc launcher ===\n") - (jb-emit-launcher out) - (close-port out)) - -;; --- 2. compile + boot in a FRESH Chez (profile Chez settings) -------------- -;; joltc is a compiler/REPL: it evals jolt-compiled Scheme at runtime, which must -;; resolve the runtime's top-level procedures (var-deref, jolt-inc, …) through the -;; boot's interaction-environment. compile-file's top-level defines are visible -;; there only when compiled in the REAL interaction-environment, and `error` (and -;; other primitives the inlined runtime references before redefining) bind to the -;; kernel primitive only when compiled against a clean chezscheme env. A fresh -;; Chez process gives both at once — exactly the legacy build-with-cc pass. The -;; in-process compile in build.ss/build-self-contained is for the distributed -;; joltc building (non-eval) apps, where no Chez is available. -(define jb-flat-so (string-append jb-build "/flat.so")) -(define jb-boot (string-append jb-build "/joltc.boot")) -(define jb-bool (lambda (b) (if b "#t" "#f"))) -(display (string-append "build-joltc: compiling (" jb-profile " profile)\n")) -(let ((cs (string-append jb-build "/compile.ss"))) - (let ((p (open-output-file cs 'replace))) - (put-string p - (string-append - "(import (chezscheme))\n" - "(optimize-level " (if jb-release? "3" "0") ")\n" - "(generate-inspector-information " (jb-bool (not jb-release?)) ")\n" - "(generate-procedure-source-information " (jb-bool (not jb-release?)) ")\n" - "(debug-on-exception " (jb-bool (not jb-release?)) ")\n" - "(fasl-compressed " (jb-bool jb-release?) ")\n" - "(compile-file " (ei-str-lit jb-flat-ss) " " (ei-str-lit jb-flat-so) ")\n" - "(make-boot-file " (ei-str-lit jb-boot) " '()\n " - (ei-str-lit (string-append bld-csv-dir "/petite.boot")) "\n " - (ei-str-lit (string-append bld-csv-dir "/scheme.boot")) "\n " - (ei-str-lit jb-flat-so) ")\n")) - (close-port p)) - (bld-system (string-append bld-chez " --script '" cs "'"))) - -;; --- 3. embed boots/stub as C arrays + cc-link ------------------------------ -;; xxd a file into header H and rename its symbol to NAME / NAME_len. -(define (jb-c-array file h name) - (bld-system (string-append "xxd -i '" file "' > '" h "'")) - (bld-system (string-append - "sed -i.bak -E 's/unsigned char [A-Za-z0-9_]+\\[\\]/unsigned char " name "[]/; " - "s/unsigned int [A-Za-z0-9_]+_len/unsigned int " name "_len/' '" h "'"))) - -(display "build-joltc: embedding boots + stub, linking\n") -(jb-c-array jb-boot (string-append jb-build "/boot_data.h") "jolt_boot") -(jb-c-array (string-append bld-csv-dir "/petite.boot") (string-append jb-build "/petite_data.h") "jolt_petite_boot") -(jb-c-array (string-append bld-csv-dir "/scheme.boot") (string-append jb-build "/scheme_data.h") "jolt_scheme_boot") -(jb-c-array jb-stub (string-append jb-build "/stub_data.h") "jolt_stub") -;; Also bundle the Chez kernel (libkernel.a + scheme.h) and the launcher source, -;; so a `build` with :static native libs can re-link a custom stub with those -;; archives baked in — the appended-stub path can't add object code to a prebuilt -;; stub, so it relinks (build.ss bld-relink-stub). Needs the system cc at build. -(jb-c-array (string-append bld-csv-dir "/scheme.h") (string-append jb-build "/schemeh_data.h") "jolt_scheme_h") -(jb-c-array (string-append bld-csv-dir "/libkernel.a") (string-append jb-build "/libkernel_data.h") "jolt_libkernel_a") -(jb-c-array "host/chez/stub/launcher.c" (string-append jb-build "/launcherc_data.h") "jolt_launcher_c") - -(define jb-main-c (string-append jb-build "/main.c")) -(let ((mc (open-output-file jb-main-c 'replace))) - (put-string mc - (string-append - "#include \"scheme.h\"\n" - "#include \"boot_data.h\"\n" - "#include \"petite_data.h\"\n" - "#include \"scheme_data.h\"\n" - "#include \"stub_data.h\"\n" - "#include \"schemeh_data.h\"\n" - "#include \"libkernel_data.h\"\n" - "#include \"launcherc_data.h\"\n" - "int main(int argc, char *argv[]) {\n" - " Sscheme_init(0);\n" - " Sregister_boot_file_bytes(\"jolt\", jolt_boot, jolt_boot_len);\n" - " Sbuild_heap(0, 0);\n" - " int status = Sscheme_start(argc, (const char **)argv);\n" - " Sscheme_deinit();\n return status;\n}\n")) - (close-port mc)) - -;; -rdynamic puts the embedded jolt_* boot/stub symbols in the dynamic symbol -;; table so `build` can foreign-entry them to spill the bundled Chez boots. On -;; Linux dlsym can't see executable symbols otherwise (macOS exports them anyway). -(bld-system (string-append - ;; the embedded jolt_* arrays must be foreign-entry-visible at runtime: - ;; -rdynamic on ELF; on Windows an exe needs an export table (GetProcAddress). - "cc -O2 " (if bld-nt? "-Wl,--export-all-symbols " "-rdynamic ") "-I'" bld-csv-dir "' -I'" jb-build "' '" jb-main-c "' '" - bld-csv-dir "/libkernel.a' -o '" jb-out "' " (bld-link-libs))) -(display (string-append "build-joltc: wrote " jb-out "\n")) diff --git a/host/chez/build-smoke.sh b/host/chez/build-smoke.sh index 76b4f50..9a4b536 100755 --- a/host/chez/build-smoke.sh +++ b/host/chez/build-smoke.sh @@ -94,28 +94,6 @@ for frame in 'app.util/deep-boom' 'app.util/mid-boom' 'app.core/-main'; do exit 1 fi done -# A built binary runs -main with *ns* = user, like clojure.main — so a runtime -# resolve of an aliased symbol is nil (the alias lives in the entry ns, not user), -# matching the JVM and interpreted joltc rather than the entry ns's alias table. A -# separate app: `resolve` defeats tree-shaking, so keep it out of the shake test's -# app above. -nsp="$(dirname "$out")/nsparity" -mkdir -p "$nsp/src/nsp" -printf '{:paths ["src"]}\n' > "$nsp/deps.edn" -printf '(ns nsp.lib)\n(defn thing [] 1)\n' > "$nsp/src/nsp/lib.clj" -printf '(ns nsp.main (:require [nsp.lib :as l]))\n(defn -main [& _]\n (println "ns:" (str *ns*))\n (println "resolve:" (pr-str (resolve (quote l/thing))))\n (println "ns-resolve:" (pr-str (ns-resolve (quote nsp.lib) (quote thing)))))\n' > "$nsp/src/nsp/main.clj" -nspout="$(dirname "$out")/nsparity-bin" -if ! JOLT_PWD="$nsp" bin/joltc build -m nsp.main -o "$nspout" >/dev/null 2>&1; then - echo " FAIL: jolt build of the ns-parity app exited non-zero"; exit 1 -fi -nsp_out="$(cd / && "$nspout" 2>&1)" -if ! printf '%s' "$nsp_out" | grep -q 'ns: user' \ - || ! printf '%s' "$nsp_out" | grep -q '^resolve: nil' \ - || ! printf '%s' "$nsp_out" | grep -q "ns-resolve: #'nsp.lib/thing"; then - echo " FAIL: built binary -main ns parity — want 'ns: user', 'resolve: nil', ns-resolve found" - echo "--- got ----"; echo "$nsp_out" - exit 1 -fi # Tree-shaking (opt-in): same result, and an unreachable def (the `twice` macro, # expanded at AOT and never called at runtime) is dropped. if ! JOLT_PWD="$app" bin/joltc build -m app.core -o "$out" --tree-shake >/dev/null 2>&1; then @@ -138,33 +116,4 @@ fi if grep -q 'def-var! "clojure.core" "group-by"' "$out.build/flat.ss"; then echo " FAIL: --tree-shake kept an unreachable clojure.core fn (group-by)"; exit 1 fi -# A registered data reader that returns a CODE form must be compiled into the -# binary (the emit path applies it too, not just the interpreted loader): the -# datareader-app's #code literal builds to 42, not the literal list. -drapp="$root/test/chez/datareader-app" -drout="$(dirname "$out")/dr-bin" -if ! JOLT_PWD="$drapp" bin/joltc build -m drtest.main -o "$drout" >/dev/null 2>&1; then - echo " FAIL: jolt build of a data-reader app exited non-zero"; exit 1 -fi -got_dr="$(cd / && "$drout" 2>&1 | tail -1)" -if [ "$got_dr" != "42" ]; then - echo " FAIL: built #code data reader — want 42, got \`$got_dr\`"; exit 1 -fi - -# A script namespace with no -main (just top-level side effects) must build and -# run its top-level forms, then exit cleanly — not crash calling a nil -main. -nomain="$(dirname "$out")/nomain" -mkdir -p "$nomain/src" -printf '{:paths ["src"]}\n' > "$nomain/deps.edn" -printf '(ns script)\n(println "no-main script ran")\n' > "$nomain/src/script.clj" -nmout="$(dirname "$out")/nomain-bin" -if ! JOLT_PWD="$nomain" bin/joltc build -m script -o "$nmout" >/dev/null 2>&1; then - echo " FAIL: jolt build of a no-main script exited non-zero"; exit 1 -fi -got_nm="$(cd / && "$nmout" 2>&1)"; rc_nm=$? -if [ "$got_nm" != "no-main script ran" ] || [ "$rc_nm" != "0" ]; then - echo " FAIL: no-main script binary — want 'no-main script ran' rc 0, got \`$got_nm\` rc $rc_nm" - exit 1 -fi - -echo "build smoke: passed (release + optimized + direct-link + tree-shake + compiler+core shake + data-reader + no-main)" +echo "build smoke: passed (release + optimized + direct-link + tree-shake + compiler+core shake)" diff --git a/host/chez/build.ss b/host/chez/build.ss index 2f60edd..5d28735 100644 --- a/host/chez/build.ss +++ b/host/chez/build.ss @@ -23,7 +23,7 @@ ;; --- shell helpers ---------------------------------------------------------- ;; Run a command, return its stdout as one trimmed string ("" on no output). (define (bld-sh-capture cmd) - (let* ((p (process (bld-sh-wrap cmd))) (in (car p))) + (let* ((p (process cmd)) (in (car p))) (let loop ((acc '())) (let ((l (get-line in))) (if (eof-object? l) @@ -37,16 +37,10 @@ (loop (cons l acc))))))) (define (bld-system cmd) - (let ((rc (system (bld-sh-wrap cmd)))) + (let ((rc (system cmd))) (unless (zero? rc) (error 'jolt-build (string-append "command failed (" (number->string rc) "): " cmd))))) -;; mkdir -p without a subprocess (the self-contained build shells out to nothing). -(define (bld-mkdir-p dir) - (unless (or (string=? dir "") (string=? dir "/") (string=? dir ".") (file-exists? dir)) - (bld-mkdir-p (path-parent dir)) - (guard (e (#t #f)) (mkdir dir)))) - (define (bld-contains? s sub) (let ((ns (string-length s)) (nsub (string-length sub))) (let loop ((i 0)) @@ -57,24 +51,6 @@ ;; --- toolchain discovery ---------------------------------------------------- (define bld-machine (symbol->string (machine-type))) (define bld-osx? (bld-contains? bld-machine "osx")) -(define bld-nt? (bld-contains? bld-machine "nt")) - -;; Chez's system/process run through cmd.exe on Windows; every build command -;; here is written for sh (MSYS2 provides it). On nt, spill the command to a -;; script and run `sh ` — workspace paths carry no spaces, and the -;; script file sidesteps cmd's quoting entirely. Identity elsewhere. -(define bld-shell-counter 0) -(define (bld-sh-wrap cmd) - (if bld-nt? - (let* ((tmp (or (getenv "TEMP") (getenv "TMP") ".")) - (f (begin (set! bld-shell-counter (+ bld-shell-counter 1)) - (string-append tmp "\\jolt-sh-" - (number->string bld-shell-counter) ".sh")))) - (let ((p (open-output-file f 'replace))) - (put-string p cmd) - (close-port p)) - (string-append "sh " f)) - cmd)) ;; The Chez executable, for the isolated compile pass (see build-binary step 4). (define bld-chez @@ -98,9 +74,6 @@ (cand (string-append bindir "/../lib/csv" bld-version "/" bld-machine))) cand)))) -(define (bld-have-cc?) - (> (string-length (bld-sh-capture "command -v cc")) 0)) - (define (bld-check-toolchain) (for-each (lambda (f) @@ -112,21 +85,14 @@ ;; Link flags. macOS Homebrew layout for the kernel's lz4/zlib/ncurses deps. (define (bld-link-libs) - (cond - (bld-osx? - (let ((lz4 (bld-sh-capture "brew --prefix lz4 2>/dev/null"))) - (string-append - (if (> (string-length lz4) 0) (string-append "-L" lz4 "/lib ") "") - "-llz4 -lz -lncurses -framework Foundation -liconv -lm"))) - ;; Windows (ta6nt, MinGW-w64 under MSYS2): the Chez kernel pulls in - ;; compression, winsock, COM/UUID, and the registry. - (bld-nt? - ;; -static: a single-file exe (no libwinpthread/libgcc/lz4 DLL deps) — - ;; required for a distributable binary and for TLS init consistency. - "-static -llz4 -lz -lws2_32 -lrpcrt4 -lole32 -luuid -ladvapi32 -luser32 -lshell32 -lm") - ;; Linux: the Chez kernel pulls in compression (lz4/z), the expression - ;; editor (ncurses + terminfo), threads, dlopen, libuuid, and clock_gettime. - (else "-llz4 -lz -lncurses -ltinfo -ldl -lm -lpthread -luuid -lrt"))) + (if bld-osx? + (let ((lz4 (bld-sh-capture "brew --prefix lz4 2>/dev/null"))) + (string-append + (if (> (string-length lz4) 0) (string-append "-L" lz4 "/lib ") "") + "-llz4 -lz -lncurses -framework Foundation -liconv -lm")) + ;; Linux: the Chez kernel pulls in compression (lz4/z), the expression + ;; editor (ncurses + terminfo), threads, dlopen, libuuid, and clock_gettime. + "-llz4 -lz -lncurses -ltinfo -ldl -lm -lpthread -luuid -lrt")) ;; --- runtime manifest (mirrors host/chez/cli.ss's load order) --------------- ;; A line is either literal Scheme text to inline, or a tag whose emission the build @@ -166,23 +132,12 @@ (q2 (let scan ((i (+ q1 1))) (if (char=? (string-ref s i) #\") i (scan (+ i 1)))))) (substring s (+ q1 1) q2))))) -;; runtime source for PATH: from the binary's embedded store if present (a -;; self-contained joltc building an app, with no jolt checkout on disk), else read -;; from disk (running from a source checkout). build-joltc embeds every runtime -;; .ss the manifest inlines, so `build` never touches the filesystem for them. -(define (bld-source-string path) - (let ((emb (hashtable-ref embedded-resources path #f))) - (if (string? emb) emb (read-file-string path)))) - -(define (bld-string-lines s) - (let ((n (string-length s))) - (let loop ((i 0) (start 0) (acc '())) - (cond ((>= i n) (reverse (if (> i start) (cons (substring s start i) acc) acc))) - ((char=? (string-ref s i) #\newline) - (loop (+ i 1) (+ i 1) (cons (substring s start i) acc))) - (else (loop (+ i 1) start acc)))))) - -(define (bld-file-lines path) (bld-string-lines (bld-source-string path))) +(define (bld-file-lines path) + (call-with-input-file path + (lambda (p) + (let loop ((acc '())) + (let ((l (get-line p))) + (if (eof-object? l) (reverse acc) (loop (cons l acc)))))))) ;; Emit one line to OUT, recursively inlining a `(load ...)` of a repo file. (define (bld-inline-line line out depth) @@ -235,7 +190,7 @@ (for-each (lambda (nf) (set-chez-ns! (car nf)) - (let ((src (ldr-read-source (cdr nf)))) + (let ((src (read-file-string (cdr nf)))) (parameterize ((rdr-source-file (cdr nf))) (for-each (lambda (f) @@ -310,24 +265,21 @@ (define (bld-strs x) (map jolt-str-render-one (seq->list x))) ;; Emit native-library loads. `natives` is the encoded jolt seq jolt.main/ -;; encode-natives produced: each entry is ["process"] | ["static" form…] | -;; ["req" cand…] | ["opt" cand…]. `which` selects 'required (process + static + -;; req) or 'optional. Required loads are emitted before the app forms (the app's -;; defcfn foreign-procedures resolve their symbols at top-level eval during -;; startup, so the libs must be loaded first); a load-shared-object failure there -;; is fatal — correct for a required lib. A "static" lib is cc-linked into the -;; binary (see bld-native-link-flags), so its symbols are already in the process: -;; it loads them the same way a "process" lib does. Optional loads run in the -;; scheme-start launcher, where guard catches a missing lib (an optional lib's -;; namespace is only present when the app requires it, so its foreign-procedures -;; aren't among the baked top-level forms). +;; encode-natives produced: each entry is ["process"] | ["req" cand…] | ["opt" cand…]. +;; `which` selects 'required (process + req) or 'optional. Required + process loads +;; are emitted before the app forms (the app's defcfn foreign-procedures resolve +;; their symbols at top-level eval during startup, so the libs must be loaded +;; first); a load-shared-object failure there is fatal — correct for a required +;; lib. Optional loads run in the scheme-start launcher, where guard catches a +;; missing lib (an optional lib's namespace is only present when the app requires +;; it, so its foreign-procedures aren't among the baked top-level forms). (define (bld-emit-natives out natives which) (for-each (lambda (entry) (let* ((parts (bld-strs entry)) (kind (car parts)) (cands (cdr parts)) (cand-lits (fold-left (lambda (s c) (string-append s (ei-str-lit c) " ")) "" cands))) (cond - ((and (eq? which 'required) (or (string=? kind "process") (string=? kind "static"))) + ((and (eq? which 'required) (string=? kind "process")) (put-string out "(jolt-build-load-native '() #f #t)\n")) ((and (eq? which 'required) (string=? kind "req")) (put-string out (string-append "(jolt-build-load-native (list " cand-lits ") #f #f)\n"))) @@ -335,66 +287,6 @@ (put-string out (string-append "(jolt-build-load-native (list " cand-lits ") #t #f)\n")))))) (seq->list natives))) -;; The cc link fragment for the "static" natives: each archive must be FORCE-loaded -;; (the linker would otherwise drop an archive member main.c never references) and, -;; on Linux, the executable's symbols exported into the dynamic table so the -;; startup (load-shared-object #f) + foreign-procedure can resolve them (-rdynamic, -;; added by build-with-cc when this fragment is non-empty). Returns "" when no lib -;; is statically linked. Entry forms: ["static" "archive" path] | ["static" "lib" -;; name libdir]. -(define (bld-native-link-flags natives) - (fold-left - (lambda (acc entry) - (let ((parts (bld-strs entry))) - (if (string=? (car parts) "static") - (string-append acc " " (bld-one-static-link (cdr parts))) - acc))) - "" (seq->list natives))) - -;; A statically-linked native is only in the OUTPUT binary, but build step 1 -;; evaluates the app's `foreign-procedure` forms in THIS process (to register its -;; macros/vars), and Chez resolves a foreign entry eagerly. So make the archive's -;; symbols resolvable here: build a throwaway shared object from it (force-loading -;; every member) and load it. The output binary still cc-links the static archive; -;; this temp .so is build-time only. Only the "archive" form is preloaded — the -;; "lib" form names a system library the OS loader already finds by soname. -(define (bld-preload-static-natives! natives builddir) - (let ((n 0)) - (for-each - (lambda (entry) - (let ((parts (bld-strs entry))) - (when (and (string=? (car parts) "static") (string=? (cadr parts) "archive")) - (let* ((archive (caddr parts)) - (so (string-append builddir "/native-" (number->string n) - (if bld-osx? ".dylib" ".so")))) - (set! n (+ n 1)) - (bld-system - (if bld-osx? - (string-append "cc -dynamiclib -undefined dynamic_lookup -Wl,-all_load '" - archive "' -o '" so "'") - (string-append "cc -shared -Wl,--whole-archive '" archive - "' -Wl,--no-whole-archive -Wl,--unresolved-symbols=ignore-all -o '" so "'"))) - (load-shared-object so))))) - (seq->list natives)))) - -(define (bld-one-static-link form) - (let ((kind (car form))) - (cond - ((string=? kind "archive") - (let ((path (cadr form))) - (if bld-osx? - (string-append "-Wl,-force_load," path) - (string-append "-Wl,--whole-archive " path " -Wl,--no-whole-archive")))) - ((string=? kind "lib") - (let* ((lib (cadr form)) (dir (caddr form)) - (L (if (> (string-length dir) 0) (string-append "-L" dir " ") ""))) - ;; -Bstatic forces the .a over a .so of the same -l name (GNU ld). macOS's - ;; ld64 has no -Bstatic; there an :archive path is the reliable form. - (if bld-osx? - (string-append L "-l" lib) - (string-append L "-Wl,-Bstatic -l" lib " -Wl,-Bdynamic")))) - (else "")))) - ;; Walk an embed root recursively; return (resource-name . abspath) pairs, where ;; resource-name is the "/"-joined path under the root (what io/resource is asked for). (define (bld-walk-files root rel acc) @@ -436,31 +328,8 @@ ;; direct-link?: opt-in closed-world direct-linking (app->app calls bind directly, ;; no runtime redefinition). Off by default in every mode — release stays ;; dynamically linked. -(define (bld-suffix? s suf) - (let ((n (string-length s)) (m (string-length suf))) - (and (>= n m) (string=? (substring s (- n m) n) suf)))) (define (build-binary entry-ns out-path mode natives embed-dirs ext-roots direct-link? tree-shake?) - ;; Windows executables carry .exe; normalize here so the append-payload and - ;; cc paths agree and the shell can run the result. - (let ((out-path (if (and bld-nt? (not (bld-suffix? out-path ".exe"))) - (string-append out-path ".exe") - out-path))) - ;; The self-contained path (jolt-embedded-bytes "stub/launcher") needs no csv - ;; kernel files, no Chez, no cc — only the legacy cc path does. - (unless (jolt-embedded-bytes "stub/launcher") (bld-check-toolchain)) - (when (> (string-length (bld-native-link-flags natives)) 0) - ;; :static natives are cc-linked into the binary, so a C compiler must be on - ;; PATH — the self-contained joltc bundles the Chez kernel (libkernel.a + - ;; scheme.h) and relinks a custom stub (see build-self-contained), but still - ;; needs the system cc for that link. Fail early (before the app's foreign- - ;; procedure forms eval below) with an actionable message. - (unless (bld-have-cc?) - (error 'jolt-build - "static native linking needs a C compiler (cc) on PATH; install one, or pass --dynamic to load the library at runtime.")) - ;; Preload static archives' symbols into this process so step 1's foreign- - ;; procedure evals resolve; the .build dir must exist first. - (bld-mkdir-p (string-append out-path ".build")) - (bld-preload-static-natives! natives (string-append out-path ".build"))) + (bld-check-toolchain) ;; 1. record app namespaces in dependency order as they finish loading. (let ((app-order '())) (set-ns-loaded-hook! @@ -493,11 +362,6 @@ ;; whole-program param-type fixpoint before per-form emit (when (string=? mode "optimized") (bld-wp-infer! ordered))) (lambda () - ;; A #tag data-reader literal must compile in the binary the same as - ;; it loads interpreted — apply the reader rewrite to each emitted - ;; form too (no-op unless the app registered data readers). - (parameterize ((ei-emit-form-hook - (lambda (form) (if data-readers-active (ldr-apply-readers form) form)))) (if tree-shake? (dce-shake (dce-blob-records "host/chez/seed/prelude.ss") @@ -506,7 +370,7 @@ ;; ns-prelude forms (always kept, no fqn/refs) set the ;; ns + register aliases before this ns's forms; dce ;; keeps original order. - (let ((src (ldr-read-source (cdr nf)))) + (let ((src (read-file-string (cdr nf)))) (parameterize ((rdr-source-file (cdr nf))) (append (map (lambda (s) (dce-rec #t #f '() s)) @@ -517,12 +381,12 @@ (values #f (apply append (map (lambda (nf) - (let ((src (ldr-read-source (cdr nf)))) + (let ((src (read-file-string (cdr nf)))) (parameterize ((rdr-source-file (cdr nf))) (append (bld-ns-prelude (car nf) src) (bld-emit-ns (car nf) src))))) ordered)) - #f)))) + #f))) (lambda () (set-optimize! #f) ((var-deref "jolt.backend-scheme" "set-direct-link!") #f))))) @@ -533,7 +397,7 @@ (boot (string-append builddir "/jolt.boot")) (boot-h (string-append builddir "/boot_data.h")) (main-c (string-append builddir "/main.c"))) - (bld-mkdir-p builddir) + (bld-system (string-append "mkdir -p '" builddir "'")) ;; 3. flat source = runtime + app + launcher. (let ((out (open-output-file flat-ss 'replace))) (bld-emit-runtime out drop-compiler? core-strs) @@ -571,176 +435,50 @@ "))\n" " (list \"jolt-core\" \"stdlib\"))))\n")) (put-string out (string-append - ;; Call -main only if the entry namespace defines one; - ;; a script ns (top-level side effects, no -main) has - ;; already run its forms at heap build, so invoking a nil - ;; -main would crash ("nil cannot be cast to IFn") — just - ;; exit cleanly instead. - " (let ((maincell (var-cell-lookup " (ei-str-lit entry-ns) " \"-main\")))\n" + " (let ((mainv (var-deref " (ei-str-lit entry-ns) " \"-main\")))\n" ;; render an uncaught throw (+ Clojure backtrace) instead ;; of Chez's opaque dump, then exit non-zero. " (guard (v (#t (jolt-report-throwable v (current-error-port)) (exit 1)))\n" - ;; Loading the app left the current ns at the entry ns; reset - ;; it to `user` before -main, matching clojure.main (*ns* is - ;; `user` when a `-m` -main runs, so a runtime resolve of an - ;; aliased symbol behaves the same as on the JVM / interpreted - ;; joltc, not off the entry ns's alias table). - " (set-chez-ns! \"user\")\n" - " (when (and maincell (var-cell-defined? maincell))\n" - " (apply jolt-invoke (var-cell-root maincell) args))))\n" + " (apply jolt-invoke mainv args)))\n" " (exit 0)))\n")) (close-port out)) - ;; 4. compile -> boot -> link. Two paths, chosen by whether this process - ;; carries the bundled Chez boots + launcher stub: - ;; - SELF-CONTAINED (the distributed joltc, jolt-eaj): compile-file + - ;; make-boot-file run IN PROCESS (the compiler is resident — joltc is - ;; built from scheme.boot), then the boot is appended to a copy of the - ;; embedded stub. No external Chez, no cc. - ;; - LEGACY (dev bin/joltc): spawn a fresh Chez for compile-file/ - ;; make-boot-file, then xxd the boot into a C array and cc-link against - ;; libkernel.a. Kept so `make buildsmoke` still exercises the cc path. - (if (jolt-embedded-bytes "stub/launcher") - (build-self-contained entry-ns out-path mode builddir flat-ss flat-so boot - (bld-native-link-flags natives)) - (build-with-cc entry-ns out-path mode builddir flat-ss flat-so boot boot-h main-c - (bld-native-link-flags natives))))))))) - -;; --- self-contained link (in-process compile + append the boot to the stub) --- -;; compile-file runs against the DEFAULT interaction environment, so the boot's -;; top-level defines land in the real symbol cells — the runtime compiler's -;; eval'd code must resolve them (var-deref, jolt-invoke, the jolt-n* macros) -;; when the built binary dynamically requires a namespace. Compiling in a clean -;; copy-environment instead orphans every define in locations eval can't see, -;; and the binary dies with "variable var-deref is not bound" the moment a -;; runtime require compiles source. -;; -;; The default env has a wrinkle the legacy fresh-Chez path doesn't: THIS -;; process's cells hold jolt's redefinitions of some kernel names (`error`, -;; regex.ss), so references to them compile as cell reads — and a read that -;; runs before the redefining form would find the fresh binary's cell unbound. -;; The prologue closes that: it first binds each redefined kernel name's cell -;; to its kernel value, making the boot's earliest reads identical to the -;; legacy path's primitive references. - -;; every top-level (define nm …)/(define (nm …) …) name in the flat file that -;; shadows a scheme-environment VARIABLE (syntax names don't eval; skip them). -(define (bld-kernel-prologue flat-ss) - (let ((seen (make-eq-hashtable)) - (kenv (scheme-environment)) - (names '())) - (let ((ip (open-input-file flat-ss))) - (let loop () - (let ((f (read ip))) - (unless (eof-object? f) - (when (and (pair? f) (eq? (car f) 'define) (pair? (cdr f))) - (let* ((h (cadr f)) - (nm (if (pair? h) (car h) h))) - (when (and (symbol? nm) - (not (hashtable-ref seen nm #f)) - (guard (e (#t #f)) (begin (eval nm kenv) #t))) - (hashtable-set! seen nm #t) - (set! names (cons nm names))))) - (loop)))) - (close-port ip)) - (apply string-append - (map (lambda (nm) - (let ((s (symbol->string nm))) - (string-append "(define " s " (eval '" s " (scheme-environment)))\n"))) - (reverse names))))) - -;; prepend the prologue to the flat file in place. -(define (bld-prepend-prologue! flat-ss) - (let ((prologue (bld-kernel-prologue flat-ss)) - (body (read-file-string flat-ss))) - (let ((out (open-output-file flat-ss 'replace))) - (put-string out ";; kernel-name cells pre-bound so early reads match the kernel primitives\n") - (put-string out prologue) - (put-string out body) - (close-port out)))) - -(define (build-self-contained entry-ns out-path mode builddir flat-ss flat-so boot native-link) - (let ((petite (string-append builddir "/petite.boot")) - (scheme (string-append builddir "/scheme.boot"))) - (jolt-spill-embedded! "csv/petite.boot" petite) - (jolt-spill-embedded! "csv/scheme.boot" scheme) - (display (string-append "jolt build: compiling " entry-ns " (" mode " mode, self-contained)\n")) - (bld-prepend-prologue! flat-ss) - (compile-file flat-ss flat-so) - (make-boot-file boot '() petite scheme flat-so) - ;; The stub is the native launcher the boot is appended to. With no :static - ;; natives it's the prebuilt one bundled in joltc (no cc needed); with :static - ;; natives it's re-linked here from the bundled kernel + launcher source so the - ;; archives are baked in and their symbols resolve in the running binary. - (if (> (string-length native-link) 0) - (bld-relink-stub builddir native-link out-path) - (jolt-spill-embedded! "stub/launcher" out-path)) - ;; link: stub bytes ++ boot ++ frame, then make it executable. - (jolt-append-payload! out-path (read-file-bytes boot)) - (jolt-chmod-755 out-path) - (display (string-append "jolt build: wrote " out-path "\n")) - (when bld-osx? - (display (string-append - "jolt build: note — on macOS this binary is unsigned; to share it,\n" - " `xattr -d com.apple.quarantine " out-path "` on the target, or sign it.\n"))))) - -;; Re-link the launcher stub with the app's static native archives baked in, to -;; OUT-PATH. The self-contained joltc bundles the Chez kernel (libkernel.a), -;; header, and launcher source; spill them and drive the system cc — the same link -;; build-joltc.ss ran once at joltc-build time, plus the force-load archive flags -;; (native-link) and, on Linux, -rdynamic so the baked-in symbols stay dlsym- -;; visible for (load-shared-object #f) + foreign-procedure at startup. -(define (bld-relink-stub builddir native-link out-path) - (let ((h (string-append builddir "/scheme.h")) - (lk (string-append builddir "/libkernel.a")) - (lc (string-append builddir "/launcher.c"))) - (jolt-spill-embedded! "csv/scheme.h" h) - (jolt-spill-embedded! "csv/libkernel.a" lk) - (jolt-spill-embedded! "stub/launcher.c" lc) - (display "jolt build: relinking launcher stub with static native libraries\n") - (bld-system (string-append - "cc -O2 " (if bld-osx? "" "-rdynamic ") - "-I'" builddir "' '" lc "' '" lk "' -o '" out-path "' " - (bld-link-libs) native-link)))) - -;; --- legacy cc link (dev bin/joltc): fresh Chez compile + xxd + cc ------------ -(define (build-with-cc entry-ns out-path mode builddir flat-ss flat-so boot boot-h main-c native-link) - (display (string-append "jolt build: compiling " entry-ns " (" mode " mode)\n")) - (let ((cs (string-append builddir "/compile.ss"))) - (let ((p (open-output-file cs 'replace))) - (put-string p - (string-append - "(import (chezscheme))\n" - "(compile-file " (ei-str-lit flat-ss) " " (ei-str-lit flat-so) ")\n" - "(make-boot-file " (ei-str-lit boot) " '()\n " - (ei-str-lit (string-append bld-csv-dir "/petite.boot")) "\n " - (ei-str-lit (string-append bld-csv-dir "/scheme.boot")) "\n " - (ei-str-lit flat-so) ")\n")) - (close-port p)) - (bld-system (string-append bld-chez " --script '" cs "'"))) - (bld-system (string-append "xxd -i '" boot "' > '" boot-h "'")) - ;; The xxd symbol is derived from the path; normalize to jolt_boot. - (bld-system (string-append - "sed -i.bak -E 's/unsigned char [A-Za-z0-9_]+\\[\\]/unsigned char jolt_boot[]/; " - "s/unsigned int [A-Za-z0-9_]+_len/unsigned int jolt_boot_len/' '" boot-h "'")) - (let ((mc (open-output-file main-c 'replace))) - (put-string mc - (string-append - "#include \"scheme.h\"\n#include \"boot_data.h\"\n" - "int main(int argc, char *argv[]) {\n" - " Sscheme_init(0);\n" - " Sregister_boot_file_bytes(\"jolt\", jolt_boot, jolt_boot_len);\n" - " Sbuild_heap(0, 0);\n" - " int status = Sscheme_start(argc, (const char **)argv);\n" - " Sscheme_deinit();\n return status;\n}\n")) - (close-port mc)) - ;; -rdynamic (Linux) exports the executable's symbols into the dynamic table so - ;; a statically-linked native lib's symbols resolve via (load-shared-object #f) - ;; at startup. macOS keeps unstripped executable symbols dlsym-visible already. - (bld-system (string-append - "cc -O2 " (if (and (not bld-osx?) (> (string-length native-link) 0)) "-rdynamic " "") - "-I'" bld-csv-dir "' '" main-c "' '" bld-csv-dir "/libkernel.a' " - "-o '" out-path "' " (bld-link-libs) native-link)) - (display (string-append "jolt build: wrote " out-path "\n"))) + ;; 4. compile -> boot -> embed -> link. + ;; compile-file/make-boot-file run in a FRESH Chez, not this process: the + ;; loaded runtime shadows `error` (regex.ss, for irregex), which would + ;; otherwise bake a broken `error` reference into the boot. + (display (string-append "jolt build: compiling " entry-ns " (" mode " mode)\n")) + (let ((cs (string-append builddir "/compile.ss"))) + (let ((p (open-output-file cs 'replace))) + (put-string p + (string-append + "(import (chezscheme))\n" + "(compile-file " (ei-str-lit flat-ss) " " (ei-str-lit flat-so) ")\n" + "(make-boot-file " (ei-str-lit boot) " '()\n " + (ei-str-lit (string-append bld-csv-dir "/petite.boot")) "\n " + (ei-str-lit (string-append bld-csv-dir "/scheme.boot")) "\n " + (ei-str-lit flat-so) ")\n")) + (close-port p)) + (bld-system (string-append bld-chez " --script '" cs "'"))) + (bld-system (string-append "xxd -i '" boot "' > '" boot-h "'")) + ;; The xxd symbol is derived from the path; normalize to jolt_boot. + (bld-system (string-append + "sed -i.bak -E 's/unsigned char [A-Za-z0-9_]+\\[\\]/unsigned char jolt_boot[]/; " + "s/unsigned int [A-Za-z0-9_]+_len/unsigned int jolt_boot_len/' '" boot-h "'")) + (let ((mc (open-output-file main-c 'replace))) + (put-string mc + (string-append + "#include \"scheme.h\"\n#include \"boot_data.h\"\n" + "int main(int argc, char *argv[]) {\n" + " Sscheme_init(0);\n" + " Sregister_boot_file_bytes(\"jolt\", jolt_boot, jolt_boot_len);\n" + " Sbuild_heap(0, 0);\n" + " int status = Sscheme_start(argc, (const char **)argv);\n" + " Sscheme_deinit();\n return status;\n}\n")) + (close-port mc)) + (bld-system (string-append + "cc -O2 -I'" bld-csv-dir "' '" main-c "' '" bld-csv-dir "/libkernel.a' " + "-o '" out-path "' " (bld-link-libs))) + (display (string-append "jolt build: wrote " out-path "\n"))))))) (def-var! "jolt.host" "build-binary" (lambda (entry out mode natives embed-dirs ext-roots direct-link? tree-shake?) diff --git a/host/chez/cli.ss b/host/chez/cli.ss index 7d978af..590d68a 100644 --- a/host/chez/cli.ss +++ b/host/chez/cli.ss @@ -11,26 +11,6 @@ (define cli-args (cdr (command-line))) ; drop the script name -;; Fail early and actionably when the vendored submodules aren't checked out — -;; a plain `git clone` or GitHub's auto-generated "Source code" release archive -;; lacks them, and the raw failure ("load failed for vendor/irregex/irregex.scm") -;; doesn't say how to fix it. (The self-contained joltc binary embeds these and -;; never runs this file.) -(unless (file-exists? "vendor/irregex/irregex.scm") - (display "jolt: vendor submodules are missing (vendor/irregex). -" (current-error-port)) - (display "GitHub's 'Source code' release archives don't include submodules. -" (current-error-port)) - (display "Clone the repo instead: -" (current-error-port)) - (display " git clone --recurse-submodules https://github.com/jolt-lang/jolt.git -" (current-error-port)) - (display "or, in an existing checkout: -" (current-error-port)) - (display " git submodule update --init --recursive -" (current-error-port)) - (exit 1)) - (load "host/chez/rt.ss") (set-chez-ns! "clojure.core") (load "host/chez/seed/prelude.ss") @@ -55,9 +35,8 @@ ;; and exit non-zero, instead of Chez's opaque "non-condition value" dump. The ;; message/ex-data/cause + a mapped Clojure backtrace come from the shared ;; renderer (source-registry.ss); the cli adds the top-level source location. -(define (jolt-report-uncaught raw) - (let ((v (jolt-unwrap-throw raw)) - (port (current-error-port))) +(define (jolt-report-uncaught v) + (let ((port (current-error-port))) (jolt-render-throwable v port) ;; The top-level form that was evaluating when this propagated (file:line:col). (let ((loc (jolt-current-source-string))) @@ -66,9 +45,6 @@ (when bt (display " trace:\n" port) (display bt port))) (exit 1))) -;; JOLT_TRACE opt-in, at runtime (before any app ns compiles) so the app is traced. -(jolt-trace-init-from-env!) - (guard (v (#t (jolt-report-uncaught v))) (cond ;; -e EXPR — evaluate one expression and print it (blank for nil). Wrapped in diff --git a/host/chez/collections.ss b/host/chez/collections.ss index d2ae770..9f922eb 100644 --- a/host/chez/collections.ss +++ b/host/chez/collections.ss @@ -130,7 +130,7 @@ (vec-set (pvec-tail p) (fxand i pv-mask) x) #f) (mk-pvec cnt (pvec-shift p) (pv-assoc-trie (pvec-shift p) (pvec-root p) i x) (pvec-tail p) #f))) - (else (jolt-throw (jolt-host-throwable "java.lang.IndexOutOfBoundsException" "vector index out of bounds")))))) + (else (error 'assoc "vector index out of bounds"))))) (define (pvec-peek p) (let ((n (pvec-cnt p))) (if (fx=? n 0) jolt-nil (pvec-nth-d p (fx- n 1) jolt-nil)))) ;; pop the last trie chunk back into the tail; #f means the subtree emptied. @@ -298,21 +298,8 @@ (define empty-pmap-hash (make-pmap empty-hnode 0 #f)) ; hash-order backing (sets) (define pmap-absent (list 'absent)) ; unique missing-key sentinel ;; PersistentArrayMap threshold: assoc of a new key promotes to hash mode once the -;; map already holds 8 entries (array.length >= 16 in the reference). Clojure 1.13 -;; raised the limit to 64 for maps whose keys are ALL keywords (the common -;; keyword-map case); mixed-key maps still cap at 8. +;; map already holds 8 entries (array.length >= 16 in the reference). (define array-map-limit 8) -(define array-map-limit-kw 64) -(define (all-keywords? ks) - (or (null? ks) (and (keyword? (car ks)) (all-keywords? (cdr ks))))) -;; Should a map of `cnt` entries with insertion order `ord` stay in array mode -;; when key `k` is added? Under 8 always; a keyword-only map (existing keys + the -;; new key all keywords) grows to 64; otherwise it caps at 8. -(define (pmap-array-keep? cnt ord k) - (cond ((fx=? cnt array-map-limit-kw) #f) - ((and (keyword? k) (all-keywords? ord)) #t) - (else #f))) (define (append-key ord k) (append ord (list k))) (define (remove-key ord k) (let loop ((o ord)) (cond ((null? o) '()) ((jolt= (car o) k) (cdr o)) (else (cons (car o) (loop (cdr o))))))) @@ -323,7 +310,7 @@ (let* ((added (box #f)) (r (node-assoc (pmap-root m) 0 (key-hash k) k v added)) (cnt (pmap-cnt m)) (ord (pmap-order m))) (if (unbox added) - (if (and ord (pmap-array-keep? cnt ord k)) + (if (and ord (fx? cnt (if (all-keywords? ord) array-map-limit-kw array-map-limit)) - (pmap->hash m) m))) + (cond ((null? kvs) (if (fx>? (pmap-cnt m) array-map-limit) (pmap->hash m) m)) ((null? (cdr kvs)) (error 'hash-map "odd number of map literal entries")) (else (loop (pmap-put-ordered m (car kvs) (cadr kvs)) (cddr kvs)))))) ;; array-map ctor: insertion-ordered regardless of size (createAsIfByAssoc). @@ -421,11 +404,9 @@ (if (null? args) (jolt-vector) (let ((coll (car args)) (xs (cdr args))) - (cond - ;; 1-arity returns the coll untouched — (conj nil) is nil - ((null? xs) coll) - ((jolt-nil? coll) (fold-left jolt-conj1 jolt-empty-list xs)) - (else (meta-carry coll (fold-left jolt-conj1 coll xs))))))) + (if (jolt-nil? coll) + (fold-left jolt-conj1 jolt-empty-list xs) + (meta-carry coll (fold-left jolt-conj1 coll xs)))))) ;; A host shim registers a type's get via register-get-arm! (handler: (coll k d) -> ;; value) instead of set!-wrapping jolt-get — disjoint coll types, checked before the @@ -462,28 +443,21 @@ (define (rec-coll-method coll name) (and (jrec? coll) (find-method-any-protocol (jrec-tag coll) name))) -(define (jolt-nth-nil-idx! i) - (when (jolt-nil? i) - (jolt-throw (jolt-host-throwable "java.lang.NullPointerException" "nth index")))) (define jolt-nth (case-lambda ((coll i) - (jolt-nth-nil-idx! i) (let ((i (->idx i))) - (cond ((jolt-nil? coll) jolt-nil) ; RT.nth(nil, i) is nil at any index - ((pvec? coll) (let ((v (pvec-v coll))) + (cond ((pvec? coll) (let ((v (pvec-v coll))) (if (and (fx>=? i 0) (fx=? i 0) (fx (lambda (m) (jolt-invoke m coll i))) (else (error 'nth "unsupported collection"))))) ((coll i d) - (jolt-nth-nil-idx! i) (let ((i (->idx i))) - (cond ((jolt-nil? coll) d) ; RT.nth(nil, i, notFound) is notFound - ((pvec? coll) (pvec-nth-d coll i d)) + (cond ((pvec? coll) (pvec-nth-d coll i d)) ((string? coll) (if (and (fx>=? i 0) (fx (lambda (m) (jolt-invoke m coll i d))) @@ -528,21 +502,6 @@ ((pset? coll) (pset-contains? coll k)) ((pvec? coll) (let ((k (->idx k))) (and (fixnum? k) (fx>=? k 0) (fx= k 0) (< k (string-length coll))) - (jolt-throw (jolt-host-throwable - "java.lang.IllegalArgumentException" - "contains? not supported on type: java.lang.String")))) - ((or (cseq? coll) (empty-list-t? coll) (number? coll) (boolean? coll) - (keyword? coll) (jolt-symbol? coll) (char? coll)) - (jolt-throw (jolt-host-throwable - "java.lang.IllegalArgumentException" - (string-append "contains? not supported on type: " - (guard (e (#t "?")) (jolt-class-name coll)))))) (else #f))) (define (jolt-empty? coll) @@ -555,25 +514,15 @@ ((cseq? coll) #f) ; a cseq is non-empty by construction (else (error 'empty? "unsupported collection")))) -(define (jolt-stack-throw coll) - (jolt-throw (jolt-host-throwable - "java.lang.ClassCastException" - (string-append "class " (guard (e (#t "?")) (jolt-class-name coll)) - " cannot be cast to class clojure.lang.IPersistentStack")))) (define (jolt-peek coll) (cond ((pvec? coll) (pvec-peek coll)) - ;; list peek = first; a non-list seq (range, a rest chain) is not an - ;; IPersistentStack on the JVM - ((and (cseq? coll) (cseq-list? coll)) (jolt-first coll)) - ((empty-list-t? coll) (jolt-first coll)) - ((jolt-nil? coll) jolt-nil) - (else (jolt-stack-throw coll)))) + ((or (cseq? coll) (empty-list-t? coll)) (jolt-first coll)) ; list peek = first + ((jolt-nil? coll) jolt-nil) (else (error 'peek "unsupported collection")))) (define (jolt-pop coll) - (cond ((jolt-nil? coll) jolt-nil) ; RT.pop(nil) is nil - ((pvec? coll) (meta-carry coll (pvec-pop coll))) - ((and (cseq? coll) (cseq-list? coll)) (meta-carry coll (jolt-rest coll))) + (cond ((pvec? coll) (meta-carry coll (pvec-pop coll))) + ((cseq? coll) (meta-carry coll (jolt-rest coll))) ; list pop = rest ((empty-list-t? coll) (error 'pop "can't pop empty list")) - (else (jolt-stack-throw coll)))) + (else (error 'pop "unsupported collection")))) ;; ============================================================================ ;; equality / hash hooks called from values.ss (jolt=2 / jolt-hash) diff --git a/host/chez/compile-eval.ss b/host/chez/compile-eval.ss index 4c2da62..982de53 100644 --- a/host/chez/compile-eval.ss +++ b/host/chez/compile-eval.ss @@ -110,48 +110,6 @@ ;; older seed during the first re-mint pass. (let ((scv (var-deref "jolt.backend-scheme" "set-var-cache!"))) (when (procedure? scv) (scv #t))) -;; JOLT_TRACE is a falsey value (case-insensitive) — the single predicate both the -;; dev-mode enable and the whole-run enable consult, so "off" never accidentally -;; means "on". An empty / unset value is NOT falsey here — it carries no signal, so -;; dev mode still traces and a whole run still doesn't. -(define (jolt-trace-env-off? e) - (and (string? e) - (let ((s (string-downcase e))) - (or (string=? s "0") (string=? s "false") (string=? s "no") - (string=? s "off") (string=? s "n"))))) -;; Tail-frame history. Turning it on makes the emitter add a per-fn history push to -;; every fn compiled AFTERWARD, and allocates this thread's ring. Suppressed when -;; JOLT_TRACE is a falsey value, so JOLT_TRACE=0 / off / no disables it in dev mode. -(define (jolt-enable-trace!) - (unless (jolt-trace-env-off? (getenv "JOLT_TRACE")) - (let ((stf (var-deref "jolt.backend-scheme" "set-trace-frames!"))) - (when (procedure? stf) (stf #t))) - (jolt-trace-enable!))) -;; Exposed so the REPL / nREPL entrypoints (jolt.main, jolt.nrepl) can turn tracing -;; on for REPL-driven development without the user setting JOLT_TRACE. Because the -;; push is baked in at compile time, only code compiled after this call is traced — -;; which is exactly the code you eval / reload in a live session. -(def-var! "jolt.host" "enable-trace!" jolt-enable-trace!) -;; Explicit opt-in for a whole run (JOLT_TRACE=1): turn tracing on BEFORE any app -;; namespace is compiled, so a plain `-M:run` traces the app's own code too. Called -;; from the runtime entrypoints (cli.ss, and the built joltc launcher) — NOT at load -;; time: a built joltc runs top-level forms at heap-build time, where JOLT_TRACE is -;; always unset, so a load-time check would never see the user's runtime env. Only an -;; affirmative value (set, non-empty, not falsey) forces it on. -(define (jolt-trace-init-from-env!) - (let ((e (getenv "JOLT_TRACE"))) - (when (and e (fx>? (string-length e) 0) (not (jolt-trace-env-off? e))) - (jolt-enable-trace!)))) - -;; (with-meta sym m) -> sym, else x — an (ns ^:no-doc name …) yields the name with -;; reader metadata as a with-meta form; strip it to read the bare ns symbol. -(define (ce-unwrap-meta x) - (if (and (cseq? x) (cseq-list? x)) - (let ((items (seq->list x))) - (if (and (pair? items) (symbol-t? (car items)) - (string=? (symbol-t-name (car items)) "with-meta") (pair? (cdr items))) - (cadr items) x)) - x)) ;; (quote X) -> X, else x — unwraps a quoted require spec. (define (ce-unquote x) @@ -177,22 +135,14 @@ ;; (require spec...) / (use spec...) — specs are quoted ((and hn (or (string=? hn "require") (string=? hn "use"))) (for-each (lambda (a) (chez-register-spec! ns (ce-unquote a))) (cdr items))) - ;; (ns name (:require [a :as x]) ...) — clause specs are literal. Register - ;; the aliases under NAME (the ns being defined), not the passed `ns`: - ;; when a file is loaded its ns form compiles while (chez-current-ns) is - ;; still the requiring ns, so using `ns` would leak the loaded ns's - ;; aliases into its requirer and clobber a same-named alias there - ;; (rewrite-clj.zip.base's [node.protocols :as node] over the caller's node). + ;; (ns name (:require [a :as x]) ...) — clause specs are literal ((and hn (string=? hn "ns")) - (let ((ns-name (if (and (pair? (cdr items)) (symbol-t? (ce-unwrap-meta (cadr items)))) - (symbol-t-name (ce-unwrap-meta (cadr items))) - ns))) - (for-each (lambda (clause) - (when (and (cseq? clause) (cseq-list? clause)) - (let ((cl (seq->list clause))) - (when (ce-clause-require? cl) - (for-each (lambda (spec) (chez-register-spec! ns-name spec)) (cdr cl)))))) - (if (pair? (cdr items)) (cddr items) '())))) + (for-each (lambda (clause) + (when (and (cseq? clause) (cseq-list? clause)) + (let ((cl (seq->list clause))) + (when (ce-clause-require? cl) + (for-each (lambda (spec) (chez-register-spec! ns spec)) (cdr cl)))))) + (if (pair? (cdr items)) (cddr items) '()))) (else (for-each (lambda (x) (ce-scan-requires! x ns)) items)))))))) ;; Already-read FORM -> Scheme source string (analyze -> emit on Chez). @@ -243,13 +193,7 @@ ;; A top-level (do ...) is UNROLLED — each subform compiled+eval'd in turn, like ;; Clojure's top-level do — so a runtime defmacro/def in an earlier subform is ;; visible (macro flag set, var interned) before a later subform is analyzed. -;; a non-form VALUE (a function object, a BigDecimal, a reference type) -;; self-evaluates, like eval on the JVM. (define (jolt-compile-eval-form form ns) - (if (or (procedure? form) (jbigdec? form) (jolt-atom? form) (jolt-multifn? form)) - form - (jolt-compile-eval-form* form ns))) -(define (jolt-compile-eval-form* form ns) (cond ;; thread the current ns: an earlier subform may switch it (ns/in-ns call ;; set-chez-ns!), and the next subform must be ANALYZED in that ns so its defs @@ -267,9 +211,6 @@ ;; record this form's source location first, so a compile- or run-time error ;; in it reports the right place. (jolt-enter-form! form) - ;; drop tail-frame history from earlier top-level forms, so an error's trace - ;; shows only this form's own call history (a no-op unless JOLT_TRACE is on). - (jolt-trace-reset!) (eval (read (open-input-string (jolt-analyze-emit-form form ns))) (interaction-environment))))) diff --git a/host/chez/converters.ss b/host/chez/converters.ss index afef684..d8572ed 100644 --- a/host/chez/converters.ss +++ b/host/chez/converters.ss @@ -117,21 +117,20 @@ (let ((a (car args))) (cond ((jolt-symbol? a) a) - ;; (symbol "ns/name") splits the namespace at the FIRST "/" (JVM - ;; Symbol.intern), so (namespace (symbol "foo/bar/baz")) => "foo" with - ;; name "bar/baz". A lone "/" or a leading slash has no namespace. The - ;; no-ns sentinel is #f — matches emit's quoted-symbol lowering - ;; (jolt-symbol #f "x"), so (= 'x (symbol "x")) holds (jolt= compares - ;; ns with strict equal?). + ;; (symbol "ns/name") splits the namespace at the LAST "/" (JVM + ;; Symbol.intern), so (namespace (symbol "foo/bar")) => "foo". A lone "/" + ;; or a leading slash has no namespace. The no-ns sentinel is #f — matches + ;; emit's quoted-symbol lowering (jolt-symbol #f "x"), so (= 'x (symbol + ;; "x")) holds (jolt= compares ns with strict equal?). ((string? a) (let ((slen (string-length a))) (if (string=? a "/") (jolt-symbol #f "/") - (let loop ((i 1)) - (cond ((>= i slen) (jolt-symbol #f a)) + (let loop ((i (- slen 1))) + (cond ((<= i 0) (jolt-symbol #f a)) ((char=? (string-ref a i) #\/) (jolt-symbol (substring a 0 i) (substring a (+ i 1) slen))) - (else (loop (+ i 1)))))))) + (else (loop (- i 1)))))))) ((keyword? a) (jolt-symbol (keyword-t-ns a) (keyword-t-name a))) ;; (symbol a-var) -> the var's qualified symbol (clojure.spec.alpha/->sym). ((var-cell? a) (jolt-symbol (var-cell-ns a) (var-cell-name a))) @@ -156,12 +155,7 @@ ;; int/long: truncate toward zero to an EXACT integer (= JVM long). char -> code ;; point (exact). double: always a flonum (= JVM double). (define (jolt-int x) (if (char? x) (char->integer x) (exact (truncate x)))) -;; a numeric type outside Chez's tower converts through this hook (bigdec). -(define (jolt-double-slow x) (jolt-num-cast-throw x)) -(define (jolt-double x) - (cond ((char? x) (exact->inexact (char->integer x))) - ((number? x) (exact->inexact x)) - (else (jolt-double-slow x)))) +(define (jolt-double x) (if (char? x) (exact->inexact (char->integer x)) (exact->inexact x))) ;; compare: 3-way, returns an EXACT integer (= JVM compare -> int). (define (jolt-cmp3 x y) (cond ((< x y) -1) ((> x y) 1) (else 0))) @@ -178,11 +172,7 @@ ((jolt-nil? b) 1) ((and (number? a) (number? b)) (jolt-cmp3 a b)) ((and (string? a) (string? b)) (jolt-strcmp a b)) - ;; keywords order like symbols: a nil namespace sorts before any namespace, - ;; then by namespace, then by name (Keyword.compareTo -> Symbol.compareTo) - ((and (keyword? a) (keyword? b)) - (let ((r (jolt-strcmp (or (keyword-t-ns a) "") (or (keyword-t-ns b) "")))) - (if (= r 0) (jolt-strcmp (keyword-t-name a) (keyword-t-name b)) r))) + ((and (keyword? a) (keyword? b)) (jolt-strcmp (jolt-kw->string a) (jolt-kw->string b))) ((and (jolt-symbol? a) (jolt-symbol? b)) (let ((r (jolt-strcmp (jolt-sym-ns-string a) (jolt-sym-ns-string b)))) (if (= r 0) (jolt-strcmp (symbol-t-name a) (symbol-t-name b)) r))) @@ -205,84 +195,16 @@ (def-var! "clojure.core" "keyword" jolt-keyword) (def-var! "clojure.core" "symbol" jolt-symbol-new) (def-var! "clojure.core" "gensym" jolt-gensym) -;; --- checked narrow casts (RT.byteCast/shortCast/intCast/longCast/charCast) -- -;; One helper carries the JVM ranges: truncate toward zero, then range-check. -;; NaN casts to 0 (Java (long)NaN); an out-of-range value (including a float -;; infinity) is IllegalArgumentException "Value out of range for : x". -;; A non-numeric operand is the usual ClassCastException. Numeric types outside -;; Chez's tower truncate through a hook the shim extends (BigDecimal). -(define (jolt-cast-range-throw name x) - (jolt-throw (jolt-host-throwable - "java.lang.IllegalArgumentException" - (string-append "Value out of range for " name ": " (jolt-str x))))) -(define (jolt-cast-truncate-slow x) (jolt-num-cast-throw x)) -(define (jolt-checked-cast name lo hi x) - (let ((n (cond ((char? x) (char->integer x)) - ((and (number? x) (exact? x)) (truncate x)) - ;; a double range-checks ITSELF (before truncation): (byte - ;; 127.000001) throws, (byte 1.1) is 1; NaN casts to 0; an - ;; infinity always fails the compare. - ((flonum? x) (cond ((nan? x) 0) - ((or (< x lo) (> x hi)) (+ hi 1)) - (else (exact (truncate x))))) - (else (jolt-cast-truncate-slow x))))) - (if (and (>= n lo) (<= n hi)) n (jolt-cast-range-throw name x)))) -(define (jolt-byte-cast x) (jolt-checked-cast "byte" -128 127 x)) -(define (jolt-short-cast x) (jolt-checked-cast "short" -32768 32767 x)) -(define (jolt-int-cast x) (jolt-checked-cast "int" -2147483648 2147483647 x)) -(define (jolt-long-cast x) (jolt-checked-cast "long" -9223372036854775808 9223372036854775807 x)) -(def-var! "clojure.core" "int" jolt-int-cast) -(def-var! "clojure.core" "long" jolt-long-cast) -(def-var! "clojure.core" "byte" jolt-byte-cast) -(def-var! "clojure.core" "short" jolt-short-cast) -;; char: pass a char through; a code point must be in [0, 0xFFFF] (charCast). -(define (jolt-char x) - (if (char? x) x (integer->char (jolt-checked-cast "char" 0 65535 x)))) +(def-var! "clojure.core" "int" jolt-int) +;; char: coerce a code point (jolt's all-flonum number) to a Chez char; pass a +;; char through. Inverse of int on chars. The cross-compiled emitter's +;; chez-str-lit needs it for printable-ASCII escaping. +(define (jolt-char x) (if (char? x) x (integer->char (exact (round x))))) (def-var! "clojure.core" "char" jolt-char) -;; unchecked-long: truncate + wrap to 64 bits (RT.uncheckedLongCast — a float -;; infinity saturates, NaN is 0). unchecked-int wraps and sign-folds to 32. -(define (jolt-cast-saturate n lo hi) (cond ((< n lo) lo) ((> n hi) hi) (else n))) -(define (jolt-unchecked-long x) - (cond ((char? x) (char->integer x)) - ;; an exact integer wraps (long narrowing); a double SATURATES (Java's - ;; double->long conversion clamps at the bounds, NaN is 0). - ((and (number? x) (exact? x)) (jolt-wrap64 (truncate x))) - ((flonum? x) (if (nan? x) 0 - (jolt-cast-saturate (if (infinite? x) (if (> x 0.0) unc-2^63 (- unc-2^63)) (exact (truncate x))) - -9223372036854775808 9223372036854775807))) - (else (jolt-wrap64 (jolt-cast-truncate-slow x))))) -(define (jolt-unchecked-int x) - (if (flonum? x) - ;; double->int clamps like Java - (if (nan? x) 0 - (jolt-cast-saturate (if (infinite? x) (if (> x 0.0) #x80000000 (- #x80000000)) (exact (truncate x))) - -2147483648 2147483647)) - (let ((i (bitwise-and (jolt-unchecked-long x) #xffffffff))) - (if (>= i #x80000000) (- i #x100000000) i)))) -(def-var! "clojure.core" "unchecked-long" jolt-unchecked-long) -(def-var! "clojure.core" "unchecked-int" jolt-unchecked-int) +;; long: same truncation as int in jolt's all-flonum model (seed core-long = +;; math/trunc; char -> code point). Distinct cell so (long ...) resolves. +(def-var! "clojure.core" "long" jolt-int) (def-var! "clojure.core" "double" jolt-double) -;; float: Chez has no single-float type, so the value stays a flonum — but the -;; cast range-checks against Float/MAX_VALUE like RT.floatCast (an infinity is -;; out of range; NaN passes). -(define fl-float-max 3.4028234663852886e38) -(define (jolt-float x) - (let ((d (jolt-double x))) - (if (and (flonum? d) (not (nan? d)) - (or (< d (- fl-float-max)) (> d fl-float-max))) - (jolt-cast-range-throw "float" x) - d))) -(def-var! "clojure.core" "float" jolt-float) -;; numerator/denominator: jolt ratios are Chez exact rationals; a non-ratio is -;; the JVM's Ratio cast failure. -(define (jolt-ratio-part name f) - (lambda (x) - (if (and (number? x) (exact? x) (rational? x) (not (integer? x))) - (f x) - (jolt-throw (jolt-host-throwable - "java.lang.ClassCastException" - (string-append "class " (guard (e (#t "?")) (jolt-class-name x)) - " cannot be cast to class clojure.lang.Ratio")))))) -(def-var! "clojure.core" "numerator" (jolt-ratio-part "numerator" numerator)) -(def-var! "clojure.core" "denominator" (jolt-ratio-part "denominator" denominator)) +;; float: Chez has no single-float type, so float coerces to a flonum like double. +(def-var! "clojure.core" "float" jolt-double) (def-var! "clojure.core" "compare" jolt-compare) diff --git a/host/chez/cts.sh b/host/chez/cts.sh deleted file mode 100755 index 0c2f1cb..0000000 --- a/host/chez/cts.sh +++ /dev/null @@ -1,120 +0,0 @@ -#!/bin/bash -# clojure-test-suite gate: run the vendored jank-lang/clojure-test-suite -# (vendor/clojure-test-suite) against joltc, one process per test namespace (a -# hang or crash is contained), and compare per-namespace fail/error counts -# against the checked-in baseline test/chez/cts-known-failures.txt. -# -# The comparison is exact, like certify's allowlist: a namespace doing WORSE -# than the baseline fails the gate (regression), and one doing BETTER also -# fails (stale baseline — update the file in the same change that improved it). -# -# JOLT_CTS_JOBS=N parallel workers (default 4) -# JOLT_CTS_TIMEOUT=SECS per-namespace timeout (default 120) -# JOLT_CTS_WRITE_BASELINE=1 regenerate the baseline file instead of gating -# JOLT_CTS_NS=ns1,ns2 run only these namespaces, verbose, no gating -set -u -root="$(CDPATH= cd -- "$(dirname -- "$0")/../.." && pwd)" -cd "$root" - -suite="vendor/clojure-test-suite/test" -baseline="test/chez/cts-known-failures.txt" -app="$root/test/chez/cts-app" -jobs="${JOLT_CTS_JOBS:-4}" -tmo="${JOLT_CTS_TIMEOUT:-120}" - -if [ ! -d "$suite/clojure" ]; then - echo "cts: skipped (git submodule update --init vendor/clojure-test-suite)" - exit 0 -fi - -work="$(mktemp -d)" -trap 'rm -rf "$work"' EXIT - -# test namespaces from the .cljc files (portability is a helper, not a test ns) -find "$suite" -name '*.cljc' | sed "s|^$suite/||;s|\.cljc$||;s|/|.|g;s|_|-|g" \ - | grep -v '\.portability$' | sort > "$work/nses" -if [ -n "${JOLT_CTS_NS:-}" ]; then - echo "${JOLT_CTS_NS}" | tr ',' '\n' > "$work/nses" -fi - -# round-robin the namespaces over N sequential workers; each worker appends -# "ns pass fail error" lines (HUNG/CRASH in the pass column) to its own file. -awk -v j="$jobs" '{print > ("'"$work"'/chunk." (NR % j))}' "$work/nses" -run_chunk() { - chunk="$1"; out="$2" - while IFS= read -r ns; do - res=$(JOLT_PWD="$app" perl -e "alarm $tmo; exec @ARGV" -- "$root/bin/joltc" -M:cts "$ns" 2>&1 > "$out" - if [ -n "${JOLT_CTS_NS:-}" ]; then - echo "$res" | grep -E 'FAIL:|ERROR:|LOAD:' | sed 's/^/ /' >> "$out" - fi - elif [ $rc -ge 128 ]; then - echo "$ns HUNG 0 0" >> "$out" - else - echo "$ns CRASH 0 0" >> "$out" - fi - done < "$chunk" -} -for c in "$work"/chunk.*; do - run_chunk "$c" "$c.res" & -done -wait -cat "$work"/chunk.*.res 2>/dev/null | sort > "$work/results" - -if [ -n "${JOLT_CTS_NS:-}" ]; then - cat "$work/results" - exit 0 -fi - -summary=$(awk '$2!="HUNG" && $2!="CRASH" {p+=$2; f+=$3; e+=$4; c++} - $2=="HUNG" {h++} $2=="CRASH" {x++} - END {printf "%d namespaces: pass %d, fail %d, error %d, hung %d, crash %d", - c+h+x, p, f, e, h, x}' "$work/results") - -if [ "${JOLT_CTS_WRITE_BASELINE:-0}" = "1" ]; then - { - echo "# clojure-test-suite known failures: " - echo "# The gate fails on any per-namespace change, worse OR better; regenerate" - echo "# with: JOLT_CTS_WRITE_BASELINE=1 host/chez/cts.sh" - awk '$2=="HUNG" || $2=="CRASH" {print $1, $2, $2; next} - $3 != 0 || $4 != 0 {print $1, $3, $4}' "$work/results" - } > "$baseline" - echo "cts: $summary" - echo "cts: baseline written to $baseline ($(grep -cv '^#' "$baseline") namespaces)" - exit 0 -fi - -if [ ! -f "$baseline" ]; then - echo "cts: FAIL — no baseline; run JOLT_CTS_WRITE_BASELINE=1 host/chez/cts.sh" - exit 1 -fi - -status=0 -while read -r ns p f e; do - case "$p" in HUNG|CRASH) f="$p"; e="$p" ;; esac - bl=$(grep -v '^#' "$baseline" | awk -v n="$ns" '$1==n {print $2, $3; exit}') - if [ -n "$bl" ]; then bf="${bl%% *}"; be="${bl##* }"; else bf=0; be=0; fi - if [ "$f" = "$bf" ] && [ "$e" = "$be" ]; then - continue - elif [ "$f" = "HUNG" ] || [ "$f" = "CRASH" ] \ - || { [ "$bf" != "HUNG" ] && [ "$bf" != "CRASH" ] \ - && { [ "$f" -gt "$bf" ] || [ "$e" -gt "$be" ]; }; }; then - echo "cts: NEW regression in $ns — fail $f error $e (baseline $bf $be)" - status=1 - else - echo "cts: STALE baseline for $ns — now fail $f error $e (baseline $bf $be); update $baseline" - status=1 - fi -done < "$work/results" - -# a baseline entry whose namespace no longer reports is stale too -while read -r ns bf be; do - grep -q "^$ns " "$work/results" || { echo "cts: STALE baseline entry $ns (namespace gone)"; status=1; } -done < <(grep -v '^#' "$baseline") - -echo "cts: $summary" -if [ $status -eq 0 ]; then echo "cts: passed (matches baseline)"; else echo "cts: FAILED"; fi -exit $status diff --git a/host/chez/dce.ss b/host/chez/dce.ss index b7d9d06..19a6eef 100644 --- a/host/chez/dce.ss +++ b/host/chez/dce.ss @@ -90,10 +90,7 @@ ;; str re-serializes the read form (compiled identically; comments/whitespace are ;; irrelevant). (define (dce-blob-records path) - ;; bld-source-string (build.ss) reads the embedded copy when running from a - ;; self-contained joltc, else the file on disk — so tree-shake works with no - ;; jolt checkout present. Forward ref: build.ss loads after this file. - (call-with-port (open-input-string (bld-source-string path)) + (call-with-input-file path (lambda (p) (let loop ((acc '())) (let ((form (read p))) diff --git a/host/chez/dyn-binding.ss b/host/chez/dyn-binding.ss index dd2742d..19be27c 100644 --- a/host/chez/dyn-binding.ss +++ b/host/chez/dyn-binding.ss @@ -77,23 +77,14 @@ (let ((p (dyn-find-binding v))) (if p (begin (set-cdr! p val) val) - ;; a ROOT change is Var.bindRoot: validate, set, notify watches - ;; (a thread-binding set does not notify, like the JVM). - (let ((old (var-cell-root v))) - (iref-validate v val) - (var-cell-root-set! v val) (var-cell-defined?-set! v #t) - (iref-notify v old val) - val))) + (begin (var-cell-root-set! v val) (var-cell-defined?-set! v #t) val))) (error #f "var-set: not a var" v))) ;; alter-var-root: atomically apply f to the current root plus args. (define (jolt-alter-var-root v f . args) - (let* ((old (var-cell-root v)) - (new (apply jolt-invoke f old args))) - (iref-validate v new) + (let ((new (apply jolt-invoke f (var-cell-root v) args))) (var-cell-root-set! v new) (var-cell-defined?-set! v #t) - (iref-notify v old new) new)) ;; __local-var: a fresh free-standing var cell (not interned). with-local-vars diff --git a/host/chez/emit-image.ss b/host/chez/emit-image.ss index a2489cc..d67c69f 100644 --- a/host/chez/emit-image.ss +++ b/host/chez/emit-image.ss @@ -46,10 +46,6 @@ ;; after it). Guarded for the first re-mint pass off an older seed. (let ((scv (var-deref "jolt.backend-scheme" "set-var-cache!"))) (when (procedure? scv) (scv #f))) -;; Tail-frame tracing off for the mint + `jolt build`: the seed must stay a -;; byte-fixpoint, and a built app should carry no per-call trace overhead. -(let ((stf (var-deref "jolt.backend-scheme" "set-trace-frames!"))) - (when (procedure? stf) (stf #f))) (define (ei-compile-form ctx f optimize?) (let ((ir (jolt-ce-analyze ctx f))) (jolt-ce-emit-top (if optimize? (jolt-ce-run-passes ir ctx) ir)))) @@ -67,23 +63,15 @@ ;; the seed minter (ei-emit-ns: optimize? #f, guard? #t — tolerant, skips a form ;; that fails to emit) and `jolt build` (bld-emit-ns: optimize? #t, guard? #f — ;; strict, a failing form errors the build). -;; A per-form transform applied to each read form before emit — the build sets it -;; to the data-reader rewrite (loader.ss ldr-apply-readers) so a registered #tag -;; literal compiles in a `jolt build` the same as it does in an interpreted load. -;; #f (the default, and during the seed mint where loader.ss isn't loaded) is no -;; transform, so emit-image.ss carries no loader dependency. -(define ei-emit-form-hook (make-parameter #f)) - (define (ei-emit-ns* ns-name src optimize? guard?) ;; set the ns before reading so ::kw auto-resolves against this ns (the runtime ;; loader reads form-by-form after the ns form sets it; the cross-compile reads ;; all forms up front, so set it here). (set-chez-ns! ns-name) - (let ((hook (ei-emit-form-hook))) - (let loop ((forms (ei-read-all src)) (acc '())) + (let loop ((forms (ei-read-all src)) (acc '())) (if (null? forms) (reverse acc) - (let ((f (let ((f0 (car forms))) (if hook (hook f0) f0)))) + (let ((f (car forms))) (ce-scan-requires! f ns-name) (cond ((ei-ns-form? f) (loop (cdr forms) acc)) @@ -101,7 +89,7 @@ (ei-compile-form (make-analyze-ctx ns-name) f optimize?)))) (loop (cdr forms) (if (and guard? (not scm)) acc - (cons (if guard? (string-append "(guard (e (#t #f))\n " scm ")") scm) acc))))))))))) + (cons (if guard? (string-append "(guard (e (#t #f))\n " scm ")") scm) acc)))))))))) (define (ei-emit-ns ns-name src) (ei-emit-ns* ns-name src #f #t)) diff --git a/host/chez/host-contract.ss b/host/chez/host-contract.ss index 9593a0e..13b596e 100644 --- a/host/chez/host-contract.ss +++ b/host/chez/host-contract.ss @@ -184,12 +184,7 @@ ;; a qualified ns may be a require :as alias (s/split -> clojure.string/split) (let ((target (or (chez-resolve-alias (chez-actx-cns ctx) qualified) qualified))) (var-cell-lookup target nm)) - (or (let ((c (var-cell-lookup (chez-actx-cns ctx) nm))) - ;; an undefined forward-intern must not shadow a real referred - ;; or clojure.core var — e.g. the compiler ns referencing `set`, - ;; which late-binds (interns `jolt.backend-scheme/set` undefined) - ;; and would otherwise hide clojure.core/set on the mint fixpoint. - (and c (var-cell-defined? c) c)) + (or (var-cell-lookup (chez-actx-cns ctx) nm) ;; a :refer'd name resolves to its source ns (let ((ref (chez-resolve-refer (chez-actx-cns ctx) nm))) (and ref (var-cell-lookup ref nm))) @@ -430,19 +425,6 @@ (define (hc-record-ctor-key ctx name) (let ((nm (hc-record-tag-name name))) (or (and nm (chez-find-ctor-key nm (chez-current-ns))) jolt-nil))) -;; The fully-qualified deftype tag ("ns.Name") IFF `class` names a deftype DEFINED -;; in the ctx's compile ns — the analyzer qualifies a bare (Name. …) to it, so a -;; deftype doesn't shadow a same-named built-in host class in an unrelated ns -;; (rewrite-clj imports java.io.PushbackReader; tools.reader defines its own). Strict: -;; only this ns's own def (the preferred shape key) counts, not the global -;; simple-name fallback, so a ns that merely uses the built-in resolves nil. -(define (hc-deftype-ctor-class ctx class) - (let* ((nm (jolt-str-render-one class)) - (cns (hc-current-ns ctx)) - (key (string-append cns "/->" nm))) - (if (hashtable-ref chez-record-shapes-tbl key #f) - (string-append cns "." nm) - jolt-nil))) ;; record + protocol-method shapes for the inference, from the runtime registries ;; (records.ss) populated as deftype/defprotocol forms load. (define (hc-record-shapes ctx) (chez-record-shapes-map)) @@ -518,7 +500,6 @@ (def-var! "jolt.host" "form-syntax-quote-lower" hc-syntax-quote-lower) (def-var! "jolt.host" "record-type?" hc-record-type?) (def-var! "jolt.host" "record-ctor-key" hc-record-ctor-key) - (def-var! "jolt.host" "deftype-ctor-class" hc-deftype-ctor-class) (def-var! "jolt.host" "record-shapes" hc-record-shapes) (def-var! "jolt.host" "protocol-methods" hc-protocol-methods) (def-var! "jolt.host" "inline-enabled?" hc-inline-enabled?) diff --git a/host/chez/java/bigdec.ss b/host/chez/java/bigdec.ss index f8e202b..94d036f 100644 --- a/host/chez/java/bigdec.ss +++ b/host/chez/java/bigdec.ss @@ -7,19 +7,21 @@ ;; ;; Arithmetic follows java.math.BigDecimal's scale rules: add/sub align to the ;; larger scale; multiply adds scales; divide gives the exact quotient at minimal -;; scale or throws ArithmeticException on a non-terminating expansion (a bound -;; *math-context* rounds instead). Clojure contagion: a bigdec mixed with an -;; integer or ratio stays a bigdec; a flonum operand wins (the result is a -;; double). jbd-add/-sub/-mul/-div, jbd-min/-max, the jbd-lt?/…/zero? helpers, -;; and jbd-quot/-rem are the shared engine. Two paths reach it, both leaving the -;; inlined fast path untouched: -;; - the seq.ss binary dispatch: every generic op (any position — (+ (bigdec x) -;; 1), (reduce + bigs), (quot 10.0 3M)) whose operand is outside Chez's tower -;; falls to the jolt-*-slow hooks extended below. -;; - static call position ((+ 1.5M 2.5M), (< a b), (zero? b)): jolt.passes.numeric -;; tags the invoke :num-kind :bigdec when every operand is statically a bigdec -;; (M literal or a let-bound copy, integer literals allowed), and the back end -;; lowers it directly to the jbd op. +;; scale or throws ArithmeticException on a non-terminating expansion. Clojure +;; contagion: a bigdec mixed with an integer stays a bigdec; a flonum operand wins +;; (the result is a double). jbd-add/-sub/-mul/-div, jbd-min/-max, the jbd-lt?/… +;; /zero? helpers, and jbd-quot/-rem are the shared engine. Two paths reach it, both +;; leaving the inlined native hot path untouched: +;; - value position ((reduce + bigs)/(apply * bigs)): the jolt-add/-sub/-mul/-div +;; and compare shims dispatch here when a bigdec operand is present. +;; - call position ((+ 1.5M 2.5M), (< a b), (zero? b)): jolt.passes.numeric tags +;; the invoke :num-kind :bigdec when every operand is statically a bigdec (M +;; literal or a let-bound copy, integer literals allowed), and the back end +;; lowers it to the jbd op. Non-bigdec code is unaffected. +;; Gaps (a runtime bigdec the analyzer can't see statically): a bigdec mixed with a +;; flonum in call position ((+ 1.5M 2.0)) and arithmetic over a bigdec the analyzer +;; types as :any ((+ (bigdec x) 1)) fall through to the raw op and throw; use value +;; position or a literal-typed let. (define-record-type jbigdec (fields unscaled scale) (nongenerative chez-jbigdec-v1)) @@ -77,13 +79,11 @@ (define (jbigdec->flonum b) (exact->inexact (/ (jbigdec-unscaled b) (expt 10 (jbigdec-scale b))))) -;; coerce an exact operand to a bigdec; pass a bigdec through. Used on the -;; non-flonum mixed path (bigdec + long -> bigdec). A Ratio converts like -;; Numbers.toBigDecimal — exact decimal expansion or throw on non-terminating. +;; coerce an exact integer to a scale-0 bigdec; pass a bigdec through. Used on the +;; non-flonum mixed path (bigdec + long -> bigdec). (define (jbd-coerce x) (cond ((jbigdec? x) x) ((and (number? x) (exact? x) (integer? x)) (make-jbigdec x 0)) - ((and (number? x) (exact? x) (rational? x)) (jbd-rational->bigdec x)) (else (error #f "bigdec arithmetic: cannot coerce operand" x)))) ;; --- core arithmetic on the {unscaled, scale} pair -------------------------- @@ -117,39 +117,12 @@ "java.lang.ArithmeticException" "Non-terminating decimal expansion; no exact representable decimal result."))))))) -;; floor(log10 |r|) for a nonzero exact rational. -(define (jbd-exp10 r) - (let ((n (abs (numerator r))) (d (denominator r))) - (if (>= n d) - (- (jbd-digits (quotient n d)) 1) - (let loop ((x (* n 10)) (e -1)) - (if (>= x d) e (loop (* x 10) (- e 1))))))) -;; round an exact rational to `prec` significant digits (the MathContext divide). -(define (jbd-rational-prec r prec mode) - (if (= r 0) - (make-jbigdec 0 0) - (let* ((neg (< r 0)) (ar (abs r)) - (s (- prec 1 (jbd-exp10 ar))) - (scaled (* ar (expt 10 s))) - (q (floor scaled)) (frac (- scaled q)) - (q2 (if (jbd-round-inc? q frac 1 mode neg) (+ q 1) q)) - (res (make-jbigdec (if neg (- q2) q2) s))) - ;; a carry can add a digit (9.99 -> 10.0); re-normalizing drops an exact - ;; trailing zero, never re-rounds. - (if (> (jbd-digits q2) prec) (jbd-round-prec res prec mode) res)))) - (define (jbd2-div a b) (when (= 0 (jbigdec-unscaled b)) (jolt-throw (jolt-host-throwable "java.lang.ArithmeticException" "Divide by zero"))) - ;; a/b = (ua * 10^sb) / (ub * 10^sa) as an exact rational. Unlimited context: - ;; exact result at minimal scale or throw on a non-terminating expansion. A - ;; bound *math-context* instead rounds to its precision. - (let ((r (/ (* (jbigdec-unscaled a) (expt 10 (jbigdec-scale b))) - (* (jbigdec-unscaled b) (expt 10 (jbigdec-scale a))))) - (mc (jbd-math-context))) - (if mc - (jbd-rational-prec r (jbd-mc-precision mc) (jbd-mc-mode mc)) - (jbd-rational->bigdec r)))) + ;; a/b = (ua * 10^sb) / (ub * 10^sa) as an exact rational. + (jbd-rational->bigdec (/ (* (jbigdec-unscaled a) (expt 10 (jbigdec-scale b))) + (* (jbigdec-unscaled b) (expt 10 (jbigdec-scale a)))))) ;; integer-division semantics (quot/rem): truncate toward zero, scale 0. (define (jbd-int-quot a b) @@ -166,65 +139,13 @@ (define (jbd-compare2 a b) (let-values (((ua ub s) (jbd-align a b))) (cond ((< ua ub) -1) ((> ua ub) 1) (else 0)))) -;; --- *math-context* (with-precision) ----------------------------------------- -;; with-precision binds clojure.core/*math-context* to {:precision N :rounding -;; MODE}; every exact bigdec result rounds through it (java.math.MathContext). -(define jbd-kw-precision (keyword #f "precision")) -(define jbd-kw-rounding (keyword #f "rounding")) -(define (jbd-math-context) - (let ((mc (var-deref "clojure.core" "*math-context*"))) - (if (jolt-nil? mc) #f mc))) -(define (jbd-mc-precision mc) (jolt-get mc jbd-kw-precision)) -(define (jbd-mc-mode mc) - (let ((r (jolt-get mc jbd-kw-rounding))) - (cond ((symbol-t? r) (symbol-t-name r)) - ((string? r) r) - (else "HALF_UP")))) - -;; should |value| = q + r/div (0 <= r < div) round up in magnitude? neg is the -;; value's sign; r/div may be exact rationals (the division path). -(define (jbd-round-inc? q r div mode neg) - (cond ((= r 0) #f) - ((string=? mode "UP") #t) - ((string=? mode "DOWN") #f) - ((string=? mode "CEILING") (not neg)) - ((string=? mode "FLOOR") neg) - ((string=? mode "HALF_DOWN") (> (* 2 r) div)) - ((string=? mode "HALF_EVEN") - (let ((c (- (* 2 r) div))) - (cond ((> c 0) #t) ((< c 0) #f) (else (odd? q))))) - ((string=? mode "UNNECESSARY") - (jolt-throw (jolt-host-throwable "java.lang.ArithmeticException" "Rounding necessary"))) - (else (>= (* 2 r) div)))) ; HALF_UP, the MathContext default - -(define (jbd-digits n) (string-length (number->string (abs n)))) -;; round a bigdec to `prec` significant digits with `mode` (a RoundingMode name). -(define (jbd-round-prec bd prec mode) - (let ((u (jbigdec-unscaled bd)) (s (jbigdec-scale bd))) - (if (= u 0) - bd - (let ((digs (jbd-digits u))) - (if (<= digs prec) - bd - (let* ((drop (- digs prec)) (div (expt 10 drop)) - (neg (< u 0)) (au (abs u)) - (q (quotient au div)) (r (remainder au div)) - (q2 (if (jbd-round-inc? q r div mode neg) (+ q 1) q)) - (res (make-jbigdec (if neg (- q2) q2) (- s drop)))) - ;; a carry can add a digit back (99 -> 100 at precision 2) - (if (> (jbd-digits q2) prec) (jbd-round-prec res prec mode) res))))))) -(define (jbd-mc-round x) - (let ((mc (and (jbigdec? x) (jbd-math-context)))) - (if mc (jbd-round-prec x (jbd-mc-precision mc) (jbd-mc-mode mc)) x))) - ;; A binary op over operands that may mix bigdec / integer / flonum. flonum-op is -;; the native fallback for the double-contagion path; bd-op is the exact bigdec op -;; (its result rounds through a bound *math-context*). +;; the native fallback for the double-contagion path; bd-op is the exact bigdec op. (define (jbd-binop flonum-op bd-op a b) (if (or (flonum? a) (flonum? b)) (flonum-op (if (jbigdec? a) (jbigdec->flonum a) a) (if (jbigdec? b) (jbigdec->flonum b) b)) - (jbd-mc-round (bd-op (jbd-coerce a) (jbd-coerce b))))) + (bd-op (jbd-coerce a) (jbd-coerce b)))) ;; --- variadic engine ops (Phase-2 emit targets + value-position folds) ------- (define (jbd-fold flonum-op bd-op init xs) @@ -282,96 +203,23 @@ ;; --- wire into the value model ---------------------------------------------- (def-var! "clojure.core" "bigdec" jolt-bigdec) -;; The seq.ss binary numeric dispatch (jolt-add2/… and the jolt-n* macros) routes -;; any op whose operand is outside Chez's tower to the *-slow hooks; extend each -;; with a bigdec arm. Every arithmetic position (call, value, higher-order) -;; funnels through these, so contagion and *math-context* rounding apply -;; uniformly. min/max need no arm: the generic jolt-min2 compares through -;; jolt-num-cmp-slow and returns the original operand. -(set! jolt-num-slow? - (let ((prev jolt-num-slow?)) (lambda (x) (or (jbigdec? x) (prev x))))) -(define (jbd-extend-hook prev bd-op) - (lambda (a b) - (if (or (jbigdec? a) (jbigdec? b)) (bd-op a b) (prev a b)))) -(set! jolt-add-slow (jbd-extend-hook jolt-add-slow (lambda (a b) (jbd-binop + jbd2+ a b)))) -(set! jolt-sub-slow (jbd-extend-hook jolt-sub-slow (lambda (a b) (jbd-binop - jbd2- a b)))) -(set! jolt-mul-slow (jbd-extend-hook jolt-mul-slow (lambda (a b) (jbd-binop * jbd2* a b)))) -(set! jolt-div-slow (jbd-extend-hook jolt-div-slow (lambda (a b) (jbd-binop / jbd2-div a b)))) -(set! jolt-num-cmp-slow - (let ((prev jolt-num-cmp-slow)) - (lambda (a b) - (if (and (or (jbigdec? a) (jbigdec? b)) (jbd-numberish? a) (jbd-numberish? b)) - (jbd-value-compare a b) - (prev a b))))) -;; quot/rem/mod: a double operand demotes to the double path; exact operands use -;; the integer-division bigdec ops (mod = rem, floor-adjusted to the divisor's sign). -(define (jbd->num x) (if (jbigdec? x) (jbigdec->flonum x) x)) -(set! jolt-quot-slow - (jbd-extend-hook jolt-quot-slow - (lambda (a b) (if (or (flonum? a) (flonum? b)) - (jolt-quot (jbd->num a) (jbd->num b)) - (jbd-int-quot (jbd-coerce a) (jbd-coerce b)))))) -(set! jolt-rem-slow - (jbd-extend-hook jolt-rem-slow - (lambda (a b) (if (or (flonum? a) (flonum? b)) - (jolt-rem (jbd->num a) (jbd->num b)) - (jbd-int-rem (jbd-coerce a) (jbd-coerce b)))))) -(set! jolt-mod-slow - (jbd-extend-hook jolt-mod-slow - (lambda (a b) - (if (or (flonum? a) (flonum? b)) - (jolt-mod (jbd->num a) (jbd->num b)) - (let* ((bb (jbd-coerce b)) - (m (jbd-int-rem (jbd-coerce a) bb))) - (if (or (jbd-zero? m) (eq? (jbd-neg? m) (jbd-neg? bb))) m (jbd2+ m bb))))))) -;; unary shims: inc/dec and the sign predicates take a bigdec arm. set! updates -;; call-position references; the re-def-var! updates the var cell AND claims the -;; wrapped proc's class name before the prelude's inc'/dec' aliases are defined -;; ((type inc) stays clojure.core$inc — first def wins in the class registry). -(define jbd-one (make-jbigdec 1 0)) -(set! jolt-inc (let ((prev jolt-inc)) (lambda (x) (if (jbigdec? x) (jbd-mc-round (jbd2+ x jbd-one)) (prev x))))) -(set! jolt-dec (let ((prev jolt-dec)) (lambda (x) (if (jbigdec? x) (jbd-mc-round (jbd2- x jbd-one)) (prev x))))) -(set! jolt-zero? (let ((prev jolt-zero?)) (lambda (x) (if (jbigdec? x) (jbd-zero? x) (prev x))))) -(set! jolt-pos? (let ((prev jolt-pos?)) (lambda (x) (if (jbigdec? x) (jbd-pos? x) (prev x))))) -(set! jolt-neg? (let ((prev jolt-neg?)) (lambda (x) (if (jbigdec? x) (jbd-neg? x) (prev x))))) -;; a BigDecimal IS a number (java.lang.Number): extend the number? native so the -;; predicate — and everything defined over it (num, =='s guard) — accepts it. -;; The compiled fast paths test Chez number? directly and are unaffected. -(set! jolt-number? (let ((prev jolt-number?)) (lambda (x) (if (jbigdec? x) #t (prev x))))) -(def-var! "clojure.core" "number?" jolt-number?) -(def-var! "clojure.core" "inc" jolt-inc) -(def-var! "clojure.core" "dec" jolt-dec) -(def-var! "clojure.core" "zero?" jolt-zero?) -(def-var! "clojure.core" "pos?" jolt-pos?) -(def-var! "clojure.core" "neg?" jolt-neg?) - -;; rationalize: reference Clojure goes through BigDecimal.valueOf(double) — the -;; SHORTEST decimal print of the double, not its exact binary value — so -;; (rationalize 1.1) is 11/10. A bigdec is exact already; other exacts pass through. -(define (jolt-rationalize x) - (cond ((jbigdec? x) (/ (jbigdec-unscaled x) (expt 10 (jbigdec-scale x)))) - ((flonum? x) - (if (or (nan? x) (infinite? x)) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - (string-append "Invalid input: " (number->string x)))) - (let ((bd (jolt-bigdec-from-string (jolt-num->string x)))) - (/ (jbigdec-unscaled bd) (expt 10 (jbigdec-scale bd)))))) - ((number? x) x) - (else (jolt-num-cast-throw x)))) -(def-var! "clojure.core" "rationalize" jolt-rationalize) - -;; double/float of a bigdec is its flonum value. -(set! jolt-double-slow - (let ((prev jolt-double-slow)) - (lambda (x) (if (jbigdec? x) (jbigdec->flonum x) (prev x))))) - -;; narrow casts truncate a bigdec like Number.longValue. -(set! jolt-cast-truncate-slow - (let ((prev jolt-cast-truncate-slow)) - (lambda (x) - (if (jbigdec? x) - (truncate (/ (jbigdec-unscaled x) (expt 10 (jbigdec-scale x)))) - (prev x))))) +;; Value-position arithmetic: (reduce + bigs) / (apply * bigs) pass +/*/- // AS A +;; VALUE, which lowers to these shims (NOT the inlined hot-path native op). Extend +;; them to dispatch to the bigdec engine when a bigdec operand is present; ordinary +;; numeric folds hit the captured native path unchanged. +(define jbd-prev-add jolt-add) +(define jbd-prev-sub jolt-sub) +(define jbd-prev-mul jolt-mul) +(define jbd-prev-div jolt-div) +(define jbd-prev-min jolt-min) +(define jbd-prev-max jolt-max) +(define (jbd-any? xs) (and (pair? xs) (or (jbigdec? (car xs)) (jbd-any? (cdr xs))))) +(set! jolt-add (lambda xs (if (jbd-any? xs) (apply jbd-add xs) (apply jbd-prev-add xs)))) +(set! jolt-sub (lambda xs (if (jbd-any? xs) (apply jbd-sub xs) (apply jbd-prev-sub xs)))) +(set! jolt-mul (lambda xs (if (jbd-any? xs) (apply jbd-mul xs) (apply jbd-prev-mul xs)))) +(set! jolt-div (lambda xs (if (jbd-any? xs) (apply jbd-div xs) (apply jbd-prev-div xs)))) +(set! jolt-min (lambda xs (if (jbd-any? xs) (apply jbd-min xs) (apply jbd-prev-min xs)))) +(set! jolt-max (lambda xs (if (jbd-any? xs) (apply jbd-max xs) (apply jbd-prev-max xs)))) ;; compare: add a bigdec arm (enables compare / sort / sorted collections). A ;; bigdec vs a plain number compares by value; bigdec vs bigdec is scale-independent. diff --git a/host/chez/java/class-hierarchy.ss b/host/chez/java/class-hierarchy.ss deleted file mode 100644 index 484a908..0000000 --- a/host/chez/java/class-hierarchy.ss +++ /dev/null @@ -1,261 +0,0 @@ -;; class-hierarchy.ss — one JVM class/interface graph, the single source of truth -;; for every "what classes does this satisfy" question. value-host-tags (protocol -;; dispatch), instance?, isa?/supers/ancestors, and the exception hierarchy all -;; derive from the ONE table here instead of maintaining parallel hand-kept lists -;; that drift apart. -;; -;; The graph is keyed by canonical (FQN) class name -> its DIRECT super -;; interfaces/classes (also FQN). Transitivity is computed (jch-closure), so a row -;; lists only what a class directly extends/implements, matching the JVM source. -;; -;; It is OPEN: a library registers a class and its supers with -;; jolt.host/register-class-supers! (plus a class-arm in host-class.ss to map its -;; values to that class name), and every derived view picks the class up with no -;; core change. Loaded before records.ss so value-host-tags can derive from it. - -;; canonical-name -> list of direct super canonical-names. Mutable + extensible. -(define jvm-class-parents (make-hashtable string-hash string=?)) -;; closure cache, invalidated whenever the graph is extended. -(define jch-closure-cache (make-hashtable string-hash string=?)) -(define jch-tags-cache (make-hashtable string-hash string=?)) - -;; Merge direct supers for a class (union with any already registered). Public so -;; libraries can graft their own classes onto the modeled hierarchy. -(define (jch-register-supers! name supers) - (let ((cur (hashtable-ref jvm-class-parents name '()))) - (hashtable-set! jvm-class-parents name - (let add ((ss supers) (acc cur)) - (cond ((null? ss) acc) - ((member (car ss) acc) (add (cdr ss) acc)) - (else (add (cdr ss) (append acc (list (car ss))))))))) - (hashtable-clear! jch-closure-cache) - (hashtable-clear! jch-tags-cache)) - -(define (jch-direct-supers name) (hashtable-ref jvm-class-parents name '())) - -;; Replace a class's direct supers outright (defrecord re-declares the row its -;; deftype half registered). Same cache invalidation as a register. -(define (jch-set-supers! name supers) - (hashtable-set! jvm-class-parents name supers) - (hashtable-clear! jch-closure-cache) - (hashtable-clear! jch-tags-cache) - (set! jch-known-cache #f) - (set! jch-simple->fqn-cache #f)) - -;; transitive supers of NAME (canonical), excluding NAME and Object; Object is the -;; universal root supplied by callers. Breadth-first, deduped, stable order. -(define (jch-closure name) - (or (hashtable-ref jch-closure-cache name #f) - (let ((result - (let loop ((pending (jch-direct-supers name)) (seen '())) - (cond ((null? pending) (reverse seen)) - ((member (car pending) seen) (loop (cdr pending) seen)) - (else (loop (append (jch-direct-supers (car pending)) (cdr pending)) - (cons (car pending) seen))))))) - (hashtable-set! jch-closure-cache name result) - result))) - -;; ns segment munging for a JVM-spelled class name: dashes become underscores -;; (clojure.core-test.x -> clojure.core_test.x). -(define (jch-munge-segments s) - (list->string (map (lambda (c) (if (char=? c #\-) #\_ c)) (string->list s)))) - -(define (jch-last-segment s) - (let loop ((i (- (string-length s) 1))) - (cond ((< i 0) s) - ((char=? (string-ref s i) #\.) (substring s (+ i 1) (string-length s))) - ((char=? (string-ref s i) #\$) (substring s (+ i 1) (string-length s))) - (else (loop (- i 1)))))) - -;; The protocol-dispatch / instance? tag list for a value of class NAME: the class -;; and its whole ancestry, each in BOTH canonical and simple spelling (extend-protocol -;; and instance? accept either "Associative" or "clojure.lang.Associative"), plus -;; "Object". Memoized — this is on the hot protocol-dispatch path. -(define (jch-tags name) - (or (hashtable-ref jch-tags-cache name #f) - (let* ((chain (cons name (jch-closure name))) - (result - (let build ((cs chain) (acc '())) - (if (null? cs) - (reverse (cons "Object" acc)) - (let* ((fqn (car cs)) - (simple (jch-last-segment fqn)) - (acc1 (if (member fqn acc) acc (cons fqn acc))) - (acc2 (if (or (string=? simple fqn) (member simple acc1)) - acc1 (cons simple acc1)))) - (build (cdr cs) acc2)))))) - (hashtable-set! jch-tags-cache name result) - result))) - -;; Is WANTED (canonical or simple) the class CHILD (canonical) or one of its -;; ancestors? Object is every class's root. Matched by full name or last segment so -;; "IOException" and "java.io.IOException" both hit. -(define (jch-isa? child wanted) - (let ((wseg (jch-last-segment wanted))) - (or (string=? wanted "java.lang.Object") (string=? wanted "Object") - (let loop ((names (cons child (jch-closure child)))) - (cond ((null? names) #f) - ((or (string=? wanted (car names)) - (string=? wseg (jch-last-segment (car names)))) #t) - (else (loop (cdr names)))))))) - -;; Does the graph model WANTED at all (as a class or as any class's ancestor)? Used -;; by instance? to decide between a definitive #f and 'pass (defer to other arms). -(define jch-known-cache #f) -(define (jch-known? wanted) - (when (not jch-known-cache) - (set! jch-known-cache (make-hashtable string-hash string=?)) - (let-values (((keys vals) (hashtable-entries jvm-class-parents))) - (vector-for-each - (lambda (k supers) - (hashtable-set! jch-known-cache k #t) - (hashtable-set! jch-known-cache (jch-last-segment k) #t) - (for-each (lambda (s) - (hashtable-set! jch-known-cache s #t) - (hashtable-set! jch-known-cache (jch-last-segment s) #t)) - supers)) - keys vals))) - (or (hashtable-ref jch-known-cache wanted #f) - (hashtable-ref jch-known-cache (jch-last-segment wanted) #f))) - -;; simple last-segment -> canonical FQN for a modeled class (first registered -;; wins). Lets a simple exception name (from chez-condition-exc-class) resolve to -;; its graph key so the exception hierarchy answers through the one graph. -(define jch-simple->fqn-cache #f) -(define (jch-fqn-of-simple name) - (when (not jch-simple->fqn-cache) - (set! jch-simple->fqn-cache (make-hashtable string-hash string=?)) - (let-values (((keys vals) (hashtable-entries jvm-class-parents))) - (vector-for-each - (lambda (k supers) - (for-each (lambda (n) - (let ((seg (jch-last-segment n))) - (when (not (hashtable-ref jch-simple->fqn-cache seg #f)) - (hashtable-set! jch-simple->fqn-cache seg n)))) - (cons k supers))) - keys vals))) - (or (hashtable-ref jch-simple->fqn-cache name #f) name)) - -;; A register also invalidates the derived caches. -(define jch-register-supers!-inner jch-register-supers!) -(set! jch-register-supers! - (lambda (name supers) - (set! jch-known-cache #f) - (set! jch-simple->fqn-cache #f) - (jch-register-supers!-inner name supers))) - -;; ---- interface marking --------------------------------------------------------- -;; The JVM distinguishes a concrete class (whose bases/supers chain roots at -;; Object) from an interface (whose don't). The graph marks the modeled -;; interfaces; anything unmarked is treated as a concrete class. -(define jch-interface-set (make-hashtable string-hash string=?)) -(define (jch-mark-interface! name) (hashtable-set! jch-interface-set name #t)) -(define (jch-interface? name) (hashtable-ref jch-interface-set name #f)) -(for-each jch-mark-interface! - '("clojure.lang.Seqable" "clojure.lang.Sequential" "clojure.lang.Sorted" - "clojure.lang.Reversible" "clojure.lang.Indexed" "clojure.lang.Counted" - "clojure.lang.Named" "clojure.lang.Fn" "clojure.lang.IFn" - "clojure.lang.IPersistentCollection" "clojure.lang.ISeq" - "clojure.lang.Associative" "clojure.lang.ILookup" - "clojure.lang.IPersistentStack" "clojure.lang.IPersistentVector" - "clojure.lang.IPersistentMap" "clojure.lang.IPersistentSet" - "clojure.lang.IPersistentList" "clojure.lang.IObj" "clojure.lang.IMeta" - "clojure.lang.IDeref" "clojure.lang.IRecord" "clojure.lang.IType" - "clojure.lang.IHashEq" "clojure.lang.IEditableCollection" - "clojure.lang.IExceptionInfo" "clojure.lang.IReduceInit" - "java.util.List" "java.util.Set" "java.util.Collection" "java.util.Map" - "java.util.Iterator" "java.lang.Iterable" "java.lang.CharSequence" - "java.lang.Comparable" "java.lang.Runnable" - "java.util.concurrent.Callable" "java.io.Serializable")) - -;; ---- seed the built-in graph: direct supers only, faithful to the JVM --------- -;; core clojure.lang interfaces -(jch-register-supers! "clojure.lang.IPersistentCollection" '("clojure.lang.Seqable")) -(jch-register-supers! "clojure.lang.ISeq" '("clojure.lang.IPersistentCollection")) -(jch-register-supers! "clojure.lang.Associative" '("clojure.lang.IPersistentCollection" "clojure.lang.ILookup")) -(jch-register-supers! "clojure.lang.IPersistentStack" '("clojure.lang.IPersistentCollection")) -(jch-register-supers! "clojure.lang.IPersistentVector" '("clojure.lang.Associative" "clojure.lang.Sequential" - "clojure.lang.IPersistentStack" "clojure.lang.Reversible" - "clojure.lang.Indexed")) -(jch-register-supers! "clojure.lang.IPersistentMap" '("java.lang.Iterable" "clojure.lang.Associative" "clojure.lang.Counted")) -(jch-register-supers! "clojure.lang.IPersistentSet" '("clojure.lang.IPersistentCollection" "clojure.lang.Counted")) -(jch-register-supers! "clojure.lang.IPersistentList" '("clojure.lang.Sequential" "clojure.lang.IPersistentStack")) -(jch-register-supers! "clojure.lang.IObj" '("clojure.lang.IMeta")) -(jch-register-supers! "clojure.lang.IFn" '("java.lang.Runnable" "java.util.concurrent.Callable")) -(jch-register-supers! "clojure.lang.Fn" '("clojure.lang.IFn")) -(jch-register-supers! "clojure.lang.AFn" '("clojure.lang.IFn")) -(jch-register-supers! "clojure.lang.AFunction" '("clojure.lang.AFn" "clojure.lang.Fn")) -;; java.util collection interfaces -(jch-register-supers! "java.util.List" '("java.util.Collection")) -(jch-register-supers! "java.util.Set" '("java.util.Collection")) -(jch-register-supers! "java.util.Collection" '("java.lang.Iterable")) -;; concrete collection classes -(jch-register-supers! "clojure.lang.APersistentVector" '("clojure.lang.IPersistentVector" "java.util.List")) -(jch-register-supers! "clojure.lang.PersistentVector" '("clojure.lang.APersistentVector" "clojure.lang.IObj" - "java.util.List" "java.lang.Comparable")) -(jch-register-supers! "clojure.lang.APersistentMap" '("clojure.lang.IPersistentMap" "java.util.Map")) -(jch-register-supers! "clojure.lang.PersistentArrayMap" '("clojure.lang.APersistentMap" "clojure.lang.IObj")) -(jch-register-supers! "clojure.lang.PersistentHashMap" '("clojure.lang.APersistentMap" "clojure.lang.IObj")) -(jch-register-supers! "clojure.lang.PersistentTreeMap" '("clojure.lang.APersistentMap" "clojure.lang.IObj" "clojure.lang.Sorted" "clojure.lang.Reversible")) -(jch-register-supers! "clojure.lang.APersistentSet" '("clojure.lang.IPersistentSet" "java.util.Set")) -(jch-register-supers! "clojure.lang.PersistentHashSet" '("clojure.lang.APersistentSet" "clojure.lang.IObj")) -(jch-register-supers! "clojure.lang.PersistentTreeSet" '("clojure.lang.APersistentSet" "clojure.lang.IObj" "clojure.lang.Sorted" "clojure.lang.Reversible")) -(jch-register-supers! "clojure.lang.ASeq" '("clojure.lang.ISeq" "clojure.lang.Sequential" "java.util.List")) -(jch-register-supers! "clojure.lang.PersistentList" '("clojure.lang.ASeq" "clojure.lang.IPersistentList" "clojure.lang.Counted")) -(jch-register-supers! "clojure.lang.PersistentList$EmptyList" '("clojure.lang.PersistentList")) -(jch-register-supers! "clojure.lang.LazySeq" '("clojure.lang.ISeq" "clojure.lang.Sequential" "java.util.List" "clojure.lang.IObj")) -(jch-register-supers! "clojure.lang.Cons" '("clojure.lang.ASeq")) -(jch-register-supers! "clojure.lang.PersistentQueue" '("clojure.lang.IPersistentList" "clojure.lang.IPersistentCollection" "java.util.Collection")) -;; scalars / named / callable -(jch-register-supers! "clojure.lang.Keyword" '("clojure.lang.IFn" "clojure.lang.Named" "java.lang.Comparable")) -(jch-register-supers! "clojure.lang.Symbol" '("clojure.lang.IObj" "clojure.lang.IFn" "clojure.lang.Named" "java.lang.Comparable")) -(jch-register-supers! "clojure.lang.Var" '("clojure.lang.IDeref" "clojure.lang.IFn")) -(jch-register-supers! "clojure.lang.Atom" '("clojure.lang.IDeref")) -(jch-register-supers! "clojure.lang.Ratio" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "clojure.lang.BigInt" '("java.lang.Number")) -(jch-register-supers! "java.lang.String" '("java.lang.CharSequence" "java.lang.Comparable")) -(jch-register-supers! "java.lang.Long" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "java.lang.Integer" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "java.lang.Double" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "java.lang.Float" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "java.math.BigDecimal" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "java.math.BigInteger" '("java.lang.Number" "java.lang.Comparable")) -(jch-register-supers! "java.lang.Boolean" '("java.lang.Comparable")) -(jch-register-supers! "java.lang.Character" '("java.lang.Comparable")) -(jch-register-supers! "java.util.UUID" '("java.lang.Comparable")) -;; exception hierarchy (folds in the former exception-parent table) -(jch-register-supers! "java.lang.Exception" '("java.lang.Throwable")) -(jch-register-supers! "java.lang.RuntimeException" '("java.lang.Exception")) -(jch-register-supers! "clojure.lang.ExceptionInfo" '("java.lang.RuntimeException" "clojure.lang.IExceptionInfo")) -(jch-register-supers! "java.lang.IllegalArgumentException" '("java.lang.RuntimeException")) -(jch-register-supers! "clojure.lang.ArityException" '("java.lang.IllegalArgumentException")) -(jch-register-supers! "java.lang.NumberFormatException" '("java.lang.IllegalArgumentException")) -(jch-register-supers! "java.lang.IllegalStateException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.lang.UnsupportedOperationException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.lang.ArithmeticException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.lang.NullPointerException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.lang.ClassCastException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.lang.IndexOutOfBoundsException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.util.ConcurrentModificationException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.util.NoSuchElementException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.io.UncheckedIOException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.time.DateTimeException" '("java.lang.RuntimeException")) -(jch-register-supers! "java.time.format.DateTimeParseException" '("java.time.DateTimeException")) -(jch-register-supers! "java.lang.InterruptedException" '("java.lang.Exception")) -(jch-register-supers! "java.io.IOException" '("java.lang.Exception")) -(jch-register-supers! "java.io.InterruptedIOException" '("java.io.IOException")) -(jch-register-supers! "java.io.FileNotFoundException" '("java.io.IOException")) -(jch-register-supers! "java.io.UnsupportedEncodingException" '("java.io.IOException")) -(jch-register-supers! "java.net.UnknownHostException" '("java.io.IOException")) -(jch-register-supers! "java.net.SocketException" '("java.io.IOException")) -(jch-register-supers! "java.net.ConnectException" '("java.net.SocketException")) -(jch-register-supers! "java.net.SocketTimeoutException" '("java.io.InterruptedIOException")) -(jch-register-supers! "java.net.MalformedURLException" '("java.io.IOException")) -(jch-register-supers! "javax.net.ssl.SSLException" '("java.io.IOException")) -(jch-register-supers! "java.lang.Error" '("java.lang.Throwable")) -(jch-register-supers! "java.lang.AssertionError" '("java.lang.Error")) -;; Throwable's only super is Object (universal), so no row needed for it. - -;; Public seam: libraries extend the modeled hierarchy. -(def-var! "jolt.host" "register-class-supers!" - (lambda (name supers) (jch-register-supers! name (seq->list supers)) jolt-nil)) diff --git a/host/chez/java/concurrency.ss b/host/chez/java/concurrency.ss index f0ed225..fdda146 100644 --- a/host/chez/java/concurrency.ss +++ b/host/chez/java/concurrency.ss @@ -151,31 +151,16 @@ (mutable queue) (mutable running?) mu cv) (nongenerative jolt-agent-v1)) -;; (agent state :meta m :validator f :error-mode e): the ARef ctor contract like -;; atom's — the validator runs against the initial state, :meta must be a map. -;; :error-mode is accepted/ignored (jolt agents are always :fail). +;; (agent state) / (agent state :validator f :error-mode m :meta x): only :validator +;; has runtime behaviour here; other opts are accepted/ignored. (define (jolt-agent-new state . opts) - (let loop ((o opts) (validator jolt-nil) (m #f)) + (let loop ((o opts) (validator jolt-nil)) (cond ((or (null? o) (null? (cdr o))) - (let ((a (make-jolt-agent state jolt-nil validator (vector '() '()) #f (make-mutex) (make-condition)))) - (when (and (not (jolt-nil? validator)) (jolt-not (jolt-invoke validator state))) - (jolt-iref-state-throw)) - (when (and m (not (jolt-nil? m))) - (unless (jolt-map? m) - (jolt-throw (jolt-host-throwable - "java.lang.ClassCastException" - (string-append "class " (jolt-class-name m) - " cannot be cast to class clojure.lang.IPersistentMap")))) - (hashtable-set! meta-table a m)) - a)) + (make-jolt-agent state jolt-nil validator (vector '() '()) #f (make-mutex) (make-condition))) ((and (keyword-t? (car o)) (string=? (keyword-t-name (car o)) "validator")) - (loop (cddr o) (cadr o) m)) - ((and (keyword-t? (car o)) (string=? (keyword-t-name (car o)) "meta")) - (loop (cddr o) validator (cadr o))) - (else (loop (cddr o) validator m))))) -;; agents are watchable IRefs; the worker notifies on each state change. -(register-iref-arm! jolt-agent?) + (loop (cddr o) (cadr o))) + (else (loop (cddr o) validator))))) ;; The action queue is an amortized-O(1) FIFO held as a mutable #(out in): `out` is ;; the front, `in` holds sends reversed onto it (an append-to-a-list send was O(n)). @@ -204,13 +189,11 @@ (guard (e (#t (with-mutex (jolt-agent-mu a) (jolt-agent-err-set! a e) (condition-broadcast (jolt-agent-cv a))))) - (let* ((old (jolt-agent-state a)) - (nv (apply jolt-invoke (car act) old (cdr act)))) + (let ((nv (apply jolt-invoke (car act) (jolt-agent-state a) (cdr act)))) (let ((vf (jolt-agent-validator a))) (when (and (not (jolt-nil? vf)) (jolt-not (jolt-invoke vf nv))) - (jolt-iref-state-throw))) - (jolt-agent-state-set! a nv) - (iref-notify a old nv))) + (error #f "Invalid reference state"))) + (jolt-agent-state-set! a nv))) (loop))))) ;; send / send-off: enqueue the action, start the worker if idle. (jolt treats them @@ -301,16 +284,6 @@ (def-var! "clojure.core" "future-cancelled?" jolt-native-future-cancelled?) (def-var! "clojure.core" "promise" jolt-promise-new) (def-var! "clojure.core" "deliver" jolt-deliver) -;; a promise is an IFn on the JVM: (p val) delivers. Registered as a cold -;; invoke arm; callable-host? feeds the ifn? overlay (multimethods included). -(register-invoke-arm! jolt-promise? - (lambda (p args) - (if (and (pair? args) (null? (cdr args))) - (jolt-deliver p (car args)) - (jolt-throw (jolt-host-throwable "clojure.lang.ArityException" - "Wrong number of args passed to a promise"))))) -(def-var! "jolt.host" "callable-host?" - (lambda (x) (if (or (jolt-multifn? x) (jolt-promise? x)) #t jolt-nil))) (def-var! "clojure.core" "agent" jolt-agent-new) (def-var! "clojure.core" "agent?" jolt-agent?) (def-var! "clojure.core" "send" jolt-agent-send) @@ -440,13 +413,6 @@ ;; pump can't deadlock on itself. ;; - Otherwise the thunk is enqueued; the caller blocks until the pump runs it, ;; then receives the value, or the thrown condition is re-raised. -;; -;; stop-main-pump is the graceful-shutdown / external API: it tells the pump to -;; drain whatever is queued and return. The pump-active flag is flipped to #f -;; under jolt-main-queue-mu in the same critical section that decides to exit, and -;; call-on-main-thread reads that flag and enqueues under the SAME mutex, so a job -;; can never slip in after the pump has decided to leave — a call that loses the -;; race simply runs inline instead of blocking forever on a pump that is gone. (define jolt-main-queue-mu (make-mutex)) (define jolt-main-queue-cv (make-condition)) @@ -461,94 +427,52 @@ (nongenerative jolt-main-job-v1)) (define (jolt-call-on-main-thread thunk) - (if (jolt-in-main-pump?) ; reentrant — already on the pump - (jolt-invoke thunk) - ;; Decide-and-enqueue atomically: read pump-active and (if active) push the - ;; job under jolt-main-queue-mu, the same lock the pump holds when it flips - ;; active to #f on exit. So we either get queued before the pump leaves, or - ;; we see #f and fall through to inline — never enqueue onto a dead pump. - (let ((job (with-mutex jolt-main-queue-mu - (and (unbox jolt-main-pump-active) - (let ((j (make-jolt-main-job thunk #f #f jolt-nil - (make-mutex) (make-condition)))) - (set! jolt-main-queue (append jolt-main-queue (list j))) - (condition-signal jolt-main-queue-cv) - j))))) - (if (not job) - (jolt-invoke thunk) ; no pump (or stopped) — inline, like -M:run - (begin - (with-mutex (jolt-main-job-mu job) - (let wait () - (unless (jolt-main-job-done? job) - (condition-wait (jolt-main-job-cv job) (jolt-main-job-mu job)) - (wait)))) - (if (jolt-main-job-ok? job) - (jolt-main-job-val job) - (raise (jolt-main-job-val job)))))))) - -(define jolt-pump-kih - (lambda () - (for-each (lambda (th) (guard (e (#t #f)) (th))) - (reverse (unbox jolt-shutdown-hooks))) - (exit 0))) - -;; Park the calling thread until a keyboard interrupt (^C), then run the shutdown -;; hooks and exit. Unlike run-main-pump (whose tight recursive condition-wait -;; loop elides Chez's interrupt poll points, so the handler never fires), this -;; uses a single condition-wait — the form Chez reliably interrupts. The nREPL -;; server parks here; SIGINT is unblocked in this thread first (it was masked by -;; jolt-block-sigint so the accept loop inherited a blocked mask and couldn't -;; absorb ^C in its foreign accept() call). -(define jolt-park-mu (make-mutex)) -(define jolt-park-cv (make-condition)) -(define (jolt-park-until-interrupt) - (keyboard-interrupt-handler jolt-pump-kih) - (jolt-set-sigint-blocked #f) - (with-mutex jolt-park-mu (condition-wait jolt-park-cv jolt-park-mu)) - jolt-nil) + (cond + ((jolt-in-main-pump?) ; reentrant — already on the pump + (jolt-invoke thunk)) + ((not (unbox jolt-main-pump-active)) ; no pump — inline, like -M:run + (jolt-invoke thunk)) + (else + (let ((job (make-jolt-main-job thunk #f #f jolt-nil (make-mutex) (make-condition)))) + (with-mutex jolt-main-queue-mu + (set! jolt-main-queue (append jolt-main-queue (list job))) + (condition-signal jolt-main-queue-cv)) + (with-mutex (jolt-main-job-mu job) + (let wait () + (unless (jolt-main-job-done? job) + (condition-wait (jolt-main-job-cv job) (jolt-main-job-mu job)) + (wait)))) + (if (jolt-main-job-ok? job) + (jolt-main-job-val job) + (raise (jolt-main-job-val job))))))) (define (jolt-run-main-pump) - (with-mutex jolt-main-queue-mu - (set-box! jolt-main-pump-stop #f) - (set-box! jolt-main-pump-active #t)) - ;; dynamic-wind guarantees active is cleared even if the pump escapes abnormally, - ;; so a later run-main-pump starts clean and call-on-main-thread never sees a - ;; stale #t. The clean-exit path below also clears it under the mutex (the flip - ;; that races call-on-main-thread); this is the belt-and-suspenders for escapes. - (dynamic-wind - (lambda () #f) - (lambda () - (let loop () - (let ((job (with-mutex jolt-main-queue-mu - (let wait () - (cond - ((not (null? jolt-main-queue)) - (let ((j (car jolt-main-queue))) - (set! jolt-main-queue (cdr jolt-main-queue)) - j)) - ((unbox jolt-main-pump-stop) - ;; drain done, told to exit — clear active in the same - ;; critical section so no job can be enqueued after. - (set-box! jolt-main-pump-active #f) - #f) - (else (condition-wait jolt-main-queue-cv jolt-main-queue-mu) - (wait))))))) - (when job - (let ((r (dynamic-wind - (lambda () (jolt-in-main-pump? #t)) - (lambda () - (guard (e (#t (cons #f e))) - (cons #t (jolt-invoke (jolt-main-job-thunk job))))) - (lambda () (jolt-in-main-pump? #f))))) - (with-mutex (jolt-main-job-mu job) - (jolt-main-job-ok?-set! job (car r)) - (jolt-main-job-val-set! job (cdr r)) - (jolt-main-job-done?-set! job #t) - (condition-broadcast (jolt-main-job-cv job)))) - (loop))))) - (lambda () - (with-mutex jolt-main-queue-mu (set-box! jolt-main-pump-active #f)))) - jolt-nil) + (set-box! jolt-main-pump-stop #f) + (set-box! jolt-main-pump-active #t) + (let loop () + (let ((job (with-mutex jolt-main-queue-mu + (let wait () + (cond + ((not (null? jolt-main-queue)) + (let ((j (car jolt-main-queue))) + (set! jolt-main-queue (cdr jolt-main-queue)) + j)) + ((unbox jolt-main-pump-stop) #f) ; drain done, told to exit + (else (condition-wait jolt-main-queue-cv jolt-main-queue-mu) + (wait))))))) + (when job + (let ((r (dynamic-wind + (lambda () (jolt-in-main-pump? #t)) + (lambda () + (guard (e (#t (cons #f e))) + (cons #t (jolt-invoke (jolt-main-job-thunk job))))) + (lambda () (jolt-in-main-pump? #f))))) + (with-mutex (jolt-main-job-mu job) + (jolt-main-job-ok?-set! job (car r)) + (jolt-main-job-val-set! job (cdr r)) + (jolt-main-job-done?-set! job #t) + (condition-broadcast (jolt-main-job-cv job)))) + (loop))))) (define (jolt-stop-main-pump) (with-mutex jolt-main-queue-mu @@ -556,56 +480,6 @@ (condition-broadcast jolt-main-queue-cv)) jolt-nil) -;; Shutdown hooks run by jolt-pump-kih (the keyboard-interrupt-handler installed by -;; park-until-interrupt) before (exit 0), so a foreground server (nREPL) can close -;; its socket and drop .nrepl-port on ^C instead of Chez's default mutex-corrupting -;; abort. Newest-first; each hook is isolated so one failing hook can't block the exit. -(define jolt-shutdown-hooks (box '())) -(define (jolt-add-shutdown-hook thunk) - (set-box! jolt-shutdown-hooks (cons thunk (unbox jolt-shutdown-hooks))) - jolt-nil) - -;; Per-thread SIGINT mask. A worker thread parked in a foreign call (the nREPL -;; accept loop in c-accept, or a conn handler) can't run Chez's keyboard-interrupt -;; handler on ^C, so if SIGINT is delivered there the process hangs. Block SIGINT -;; in the primordial thread BEFORE forking such workers (they inherit the mask), -;; then park-until-interrupt unblocks it in the primordial once its handler is -;; installed, so ^C is always delivered to the parked thread. pthread_sigmask/ -;; sigaddset are libc/libpthread symbols, resolvable once the process object is -;; loaded (as the socket fns already are). 128 bytes covers Linux's 1024-bit -;; sigset_t and is larger than macOS's 4-byte one. -;; foreign-procedure resolves its symbol eagerly, and these POSIX signal fns don't -;; exist on Windows — resolving them unguarded aborted startup ("no entry for -;; pthread_sigmask"). Guard so a non-POSIX host yields #f; jolt-set-sigint-blocked -;; then no-ops (Windows delivers ^C through the console, not a per-thread mask). -(define c-pthread-sigmask - (jolt-foreign-proc-safe "pthread_sigmask" '(int u8* u8*) 'int)) -(define c-sigemptyset (jolt-foreign-proc-safe "sigemptyset" '(u8*) 'int)) -(define c-sigaddset (jolt-foreign-proc-safe "sigaddset" '(u8* int) 'int)) -;; POSIX SIG_BLOCK/SIG_UNBLOCK numerics differ by platform: Linux/glibc 0/1, -;; Darwin/macOS 1/2 (SIG_UNBLOCK is SIG_BLOCK+1 on both). Resolve SIG_BLOCK for -;; this host from the machine-type symbol — macOS builds contain "osx". -(define jolt-sig-block-how - (let* ((s (symbol->string (machine-type))) - (n (string-length s))) - (let loop ((i 0)) - (cond - ((> (+ i 3) n) 0) ; default: Linux/glibc - ((string=? (substring s i (+ i 3)) "osx") 1) ; Darwin/macOS - (else (loop (+ i 1))))))) -(define (jolt-set-sigint-blocked block?) - (when (and c-pthread-sigmask c-sigemptyset c-sigaddset) - (let ((set (make-bytevector 128 0)) - (old (make-bytevector 128 0))) - (c-sigemptyset set) - (c-sigaddset set 2) ; SIGINT = 2 - (c-pthread-sigmask (if block? jolt-sig-block-how (+ jolt-sig-block-how 1)) set old))) - jolt-nil) - (def-var! "jolt.host" "call-on-main-thread" jolt-call-on-main-thread) (def-var! "jolt.host" "run-main-pump" jolt-run-main-pump) (def-var! "jolt.host" "stop-main-pump" jolt-stop-main-pump) -(def-var! "jolt.host" "add-shutdown-hook" jolt-add-shutdown-hook) -(def-var! "jolt.host" "block-sigint" (lambda () (jolt-set-sigint-blocked #t))) -(def-var! "jolt.host" "park-until-interrupt" jolt-park-until-interrupt) -(def-var! "jolt.host" "delete-file" delete-file) diff --git a/host/chez/java/dot-forms.ss b/host/chez/java/dot-forms.ss index 8d7206b..0ec81ad 100644 --- a/host/chez/java/dot-forms.ss +++ b/host/chez/java/dot-forms.ss @@ -17,6 +17,8 @@ ;; A record (jrec) is jolt-map? here (records.ss makes it so) and a collection, ;; so its protocol method (no dash, not a coll method) lands in the base. +(define %dot-rmd record-method-dispatch) + ;; Vectors / maps / sets only (records are jolt-map? here). Raw seqs are excluded: ;; coll-interop accepts some seq representations and not others (a ;; plain (seq v) returns nil from .count, a lazy-seq returns the count), an @@ -60,12 +62,6 @@ ;; branch and is mis-read as a missing :iterator key (nil). Some libraries ;; (e.g. malli's -vmap) iterate a map this way. ((string=? name "iterator") (list (make-jiterator (jolt-seq obj)))) - ;; (.reduce coll f) / (.reduce coll f init): clojure.lang.IReduce — every - ;; persistent collection reduces itself on the JVM. - ((string=? name "reduce") - (list (if (pair? (cdr args)) - (jolt-reduce (car args) (cadr args) obj) - (jolt-reduce (car args) obj)))) (else #f))) ;; Universal object-methods: on a @@ -88,7 +84,7 @@ ((string=? name "equals") (list (if (jolt= obj (car args)) #t #f))) (else #f))) -(register-method-arm! 30 +(set! record-method-dispatch (lambda (obj method-name rest-args) (let* ((rest (if (jolt-nil? rest-args) '() (seq->list rest-args))) (field? (and (> (string-length method-name) 0) @@ -97,6 +93,9 @@ (substring method-name 1 (string-length method-name)) method-name))) (cond + ;; (.getClass x) universal — the class token for any value, before the + ;; collection/map field-lookup arms below would read it as a missing key. + ((string=? method-name "getClass") (jolt-class obj)) ;; clojure.lang.MultiFn .dispatchFn / .getMethod — clojure.spec.alpha's ;; multi-spec walks a multimethod through these. ((jolt-multifn? obj) @@ -108,7 +107,7 @@ (mm-find-isa obj dv) (hashtable-ref methods (jolt-multifn-default obj) #f) jolt-nil))) - (else 'pass))) + (else (%dot-rmd obj method-name rest-args)))) ;; (.applyTo f args): apply a fn to a seq of args (clojure.spec instrument). ((and (procedure? obj) (string=? mname "applyTo")) (apply jolt-invoke obj (seq->list (jolt-seq (car rest))))) @@ -120,7 +119,7 @@ ((or (string=? mname "valAt") (string=? mname "get")) (t-get obj (car rest) (if (null? (cdr rest)) jolt-nil (cadr rest)))) ((string=? mname "count") (t-count obj)) - (else 'pass))) + (else (%dot-rmd obj method-name rest-args)))) ;; a deftype/record's OWN declared method (matched by name AND arity) wins ;; over the generic collection interop below — e.g. data.priority-map ;; declares both seq[this] (Seqable) and seq[this ascending] (Sorted), and @@ -146,4 +145,4 @@ (else (let ((v (jolt-get obj (keyword #f mname) jolt-nil))) (if (procedure? v) (apply jolt-invoke v obj rest) v))))) - (else 'pass))))) + (else (%dot-rmd obj method-name rest-args)))))) diff --git a/host/chez/java/host-static-classes.ss b/host/chez/java/host-static-classes.ss index a5730d5..d403818 100644 --- a/host/chez/java/host-static-classes.ss +++ b/host/chez/java/host-static-classes.ss @@ -176,26 +176,14 @@ ;; push to the port (so (.write *out* s) and (binding [*out* *err*] …) work); ;; it isn't a buffer, so toString is empty. Lets libraries that touch *out*/*err* ;; (tools.logging, selmer) compile and run. -;; *out*/*err* resolve their port LIVE — 'out -> (current-output-port), 'err -> -;; (current-error-port) — so a (.write *out* …) / (.flush *out*) follows a -;; with-out-str redirect (with-output-to-string rebinds current-output-port) the -;; same way print/__write do. Storing the startup port instead pinned *out* to the -;; real stdout, so rewrite-clj's (z/print) — which writes via *out* — escaped the -;; capture. A stored port object (should any other code make a port-writer) is used -;; as-is. -(define (port-writer-port self) - (let ((p (vector-ref (jhost-state self) 0))) - (cond ((eq? p 'out) (current-output-port)) - ((eq? p 'err) (current-error-port)) - (else p)))) (register-host-methods! "port-writer" - (list (cons "write" (lambda (self x) (display (writer-piece x) (port-writer-port self)) jolt-nil)) - (cons "append" (lambda (self x . rest) (display (append-text x rest) (port-writer-port self)) self)) - (cons "flush" (lambda (self) (flush-output-port (port-writer-port self)) jolt-nil)) + (list (cons "write" (lambda (self x) (display (writer-piece x) (vector-ref (jhost-state self) 0)) jolt-nil)) + (cons "append" (lambda (self x . rest) (display (append-text x rest) (vector-ref (jhost-state self) 0)) self)) + (cons "flush" (lambda (self) (flush-output-port (vector-ref (jhost-state self) 0)) jolt-nil)) (cons "close" (lambda (self) jolt-nil)) (cons "toString" (lambda (self) "")))) -(def-var! "clojure.core" "*out*" (make-jhost "port-writer" (vector 'out))) -(def-var! "clojure.core" "*err*" (make-jhost "port-writer" (vector 'err))) +(def-var! "clojure.core" "*out*" (make-jhost "port-writer" (vector (current-output-port)))) +(def-var! "clojure.core" "*err*" (make-jhost "port-writer" (vector (current-error-port)))) ;; PrintWriter — a thin wrapper over a target writer. write/append/print forward ;; the rendered text to the target. clojure.data.json's pretty printer builds @@ -387,11 +375,6 @@ ;; state: a vector #(wrapped-reader pushed-list) (register-class-ctor! "PushbackReader" (lambda (rdr . _) (make-jhost "pushback-reader" (vector rdr '())))) -;; Fully-qualified aliases so (java.io.PushbackReader. …) / (java.io.StringReader. …) -;; resolve to these built-ins even when a library defines a deftype of the same -;; simple name (tools.reader), which would otherwise take the bare-name slot. -(register-class-ctor! "java.io.PushbackReader" (lookup-class class-ctors-tbl "PushbackReader")) -(register-class-ctor! "java.io.StringReader" (lookup-class class-ctors-tbl "StringReader")) ;; LineNumberingPushbackReader: a pushback-reader (jolt doesn't track line ;; numbers; getLineNumber is a stub for error-reporting paths that read it). (register-class-ctor! "LineNumberingPushbackReader" @@ -455,15 +438,7 @@ (let ((toks (vector-ref (jhost-state self) 0)) (p (vector-ref (jhost-state self) 1))) (if (< p (length toks)) (begin (vector-set! (jhost-state self) 1 (+ p 1)) (list-ref toks p)) - (jolt-throw (jolt-host-throwable "java.util.NoSuchElementException" "no more tokens")))))) - ;; StringTokenizer implements java.util.Enumeration — enumeration-seq drives - ;; it through these, so alias them onto the token methods. - (cons "hasMoreElements" (lambda (self) (< (vector-ref (jhost-state self) 1) (length (vector-ref (jhost-state self) 0))))) - (cons "nextElement" (lambda (self) - (let ((toks (vector-ref (jhost-state self) 0)) (p (vector-ref (jhost-state self) 1))) - (if (< p (length toks)) - (begin (vector-set! (jhost-state self) 1 (+ p 1)) (list-ref toks p)) - (jolt-throw (jolt-host-throwable "java.util.NoSuchElementException" "no more tokens")))))))) + (error #f "NoSuchElementException"))))))) ;; ---- String / BigInteger / MapEntry constructors ---------------------------- ;; (String. bytes [charset]) decodes bytes (a bytevector OR a jolt byte-array) @@ -642,7 +617,8 @@ ;; record-method-dispatch already routes string? -> jolt-string-method. Add a ;; regex-t arm (Pattern .split / .matcher-less surface used by corpus) by wrapping ;; once more — a regex-t isn't a jhost. -(register-method-arm! 42 +(define %hs-rmd2 record-method-dispatch) +(set! record-method-dispatch (lambda (obj method-name rest-args) (let ((rest (if (jolt-nil? rest-args) '() (seq->list rest-args)))) (cond @@ -666,7 +642,7 @@ ((string=? method-name "group") (apply jolt-matcher-group obj rest)) ((string=? method-name "groupCount") (jolt-matcher-group-count obj)) (else (error #f (string-append "No method " method-name " on Matcher"))))) - (else 'pass))))) + (else (%hs-rmd2 obj method-name rest-args)))))) ;; ---- def-var! the registry entry points so emit can also reach them --------- (def-var! "clojure.core" "host-static-ref" host-static-ref) @@ -708,14 +684,15 @@ ;; htable arm: dispatch (.method obj a*) through the table's tag method registry; ;; an unregistered method falls through (sorted colls are htables too). -(register-method-arm! 43 +(define %hs-rmd-htable record-method-dispatch) +(set! record-method-dispatch (lambda (obj method-name rest-args) (let ((tag (and (htable? obj) (hashtable-ref (htable-h obj) "jolt/type" #f)))) (let* ((mh (and tag (hashtable-ref tagged-methods-tbl (tag->method-key tag) #f))) (f (and mh (hashtable-ref mh method-name #f)))) (if f (apply f obj (if (jolt-nil? rest-args) '() (seq->list rest-args))) - 'pass))))) + (%hs-rmd-htable obj method-name rest-args)))))) (def-var! "clojure.core" "__register-class-methods!" (lambda (tag members) (register-tagged-methods! tag (jmap->static-alist members)) jolt-nil)) @@ -765,12 +742,6 @@ (register-instance-check-arm! (lambda (type-sym val) (let ((iface (hsc-last-segment (symbol-t-name type-sym)))) - ;; the value's own class-graph tags (value-host-tags) are authoritative — the - ;; SAME source protocol dispatch reads, so instance? and extend-protocol can't - ;; disagree about the interfaces a builtin implements. - (if (let ((tags (value-host-tags val))) - (or (member (symbol-t-name type-sym) tags) (member iface tags))) - #t (let ((hit (cond ((or (string=? iface "IObj") (string=? iface "IMeta")) (hsc-imeta? val)) ((or (string=? iface "IMapEntry") (string=? iface "MapEntry")) (jolt-map-entry? val)) @@ -831,7 +802,7 @@ ((or (string=? iface "Reader") (string=? iface "BufferedReader")) (reader-jhost? val)) (else 'none)))) - (if (eq? hit 'none) 'pass (if hit #t #f))))))) + (if (eq? hit 'none) 'pass (if hit #t #f)))))) ;; java.lang.Class value: (class x) / (.getClass x) return one. It renders like ;; the JVM — str/.toString -> "class ", pr -> "", .getName -> "" @@ -841,12 +812,7 @@ (define (make-class-obj name) (make-jhost "class" (vector name))) (define (jclass? x) (and (jhost? x) (string=? (jhost-tag x) "class"))) (define (jclass-name x) (vector-ref (jhost-state x) 0)) -(define (class-key x) - (cond ((jclass? x) (jclass-name x)) - ((string? x) x) - ;; a deftype/defrecord NAME var holds its ctor; treat it as the class - ((procedure? x) (hashtable-ref chez-deftype-ctor-tag x #f)) - (else #f))) +(define (class-key x) (cond ((jclass? x) (jclass-name x)) ((string? x) x) (else #f))) (register-eq-arm! (lambda (a b) (or (jclass? a) (jclass? b))) (lambda (a b) (let ((ka (class-key a)) (kb (class-key b))) (and ka kb (string=? ka kb) #t)))) @@ -994,20 +960,9 @@ (define (str-has-dollar? s) (let loop ((i 0)) (and (< i (string-length s)) (or (char=? (string-ref s i) #\$) (loop (+ i 1)))))) (define (class-direct-supers name) - ;; union the modeled class graph (jch, direct edges) with any legacy table entry, - ;; so isa?/supers/ancestors see the single hierarchy source plus anything not yet - ;; migrated. The closure below traverses these to the full transitive set. - (let ((jch (jch-direct-supers name)) - (old (hashtable-ref class-supers-tbl name #f))) - (cond ((and (pair? jch) old) - (let merge ((ss old) (acc jch)) - (cond ((null? ss) acc) - ((member (car ss) acc) (merge (cdr ss) acc)) - (else (merge (cdr ss) (append acc (list (car ss)))))))) - ((pair? jch) jch) - (old old) - ((str-has-dollar? name) '("clojure.lang.AFunction")) - (else '())))) + (or (hashtable-ref class-supers-tbl name #f) + (and (str-has-dollar? name) '("clojure.lang.AFunction")) + '())) ;; transitive closure of direct supers (set semantics via an accumulator list) (define (class-ancestors-list name) (let loop ((pending (class-direct-supers name)) (seen '())) @@ -1052,62 +1007,18 @@ #t jolt-nil)) jolt-nil)))) -;; is NAME a class the host models (registered in the class graph, a legacy -;; supers-table entry, or a fn class)? Object itself is modeled. -(define (hsc-class-known? name) - (or (string=? name "java.lang.Object") - (jch-known? name) - (and (hashtable-ref class-supers-tbl name #f) #t) - (str-has-dollar? name))) - -;; transitive ancestry, rooted at Object for a concrete class like (supers c); -;; an interface's chain has no Object (its getSuperclass is null). '() for -;; Object itself and for a name the host doesn't model. -(define (class-ancestors-rooted name) - (if (or (string=? name "java.lang.Object") (jch-interface? name)) - (class-ancestors-list name) - (let ((as (class-ancestors-list name))) - (cond ((member "java.lang.Object" as) as) - ((null? as) (if (hsc-class-known? name) '("java.lang.Object") '())) - (else (append as '("java.lang.Object"))))))) - ;; (jolt.host/class-supers name) / (jolt.host/class-ancestors name) — a jolt seq of -;; super / ancestor class-name strings (transitive, Object-rooted), or nil when -;; jolt models no hierarchy for it. class-bases is the DIRECT supers (clojure.core -;; `bases` / the class arm of `parents`). +;; super / ancestor class-name strings, or nil when jolt models no hierarchy for it. (def-var! "jolt.host" "class-supers" (lambda (x) (let ((name (class-key x))) - (if name - (let ((as (class-ancestors-rooted name))) - (if (null? as) jolt-nil (list->cseq as))) + (if (and name (hashtable-contains? class-supers-tbl name)) + (list->cseq (hashtable-ref class-supers-tbl name '())) jolt-nil)))) (def-var! "jolt.host" "class-ancestors" (lambda (x) (let ((name (class-key x))) (if name - (let ((as (class-ancestors-rooted name))) + (let ((as (class-ancestors-list name))) (if (null? as) jolt-nil (list->cseq as))) jolt-nil)))) -(def-var! "jolt.host" "class-bases" - (lambda (x) - (let ((name (class-key x))) - (if name - (let* ((ds (class-direct-supers name)) - ;; a concrete class's bases include its superclass — Object when - ;; nothing more specific is modeled (interfaces have none). - (ds (if (or (string=? name "java.lang.Object") - (jch-interface? name) - (member "java.lang.Object" ds)) - ds - (append ds '("java.lang.Object"))))) - (if (null? ds) jolt-nil (list->cseq ds))) - jolt-nil)))) -;; is X a class value — a jclass, a deftype ctor, or a name string the host -;; graph models? -(def-var! "jolt.host" "class-value?" - (lambda (x) - (if (jclass? x) - #t - (let ((n (class-key x))) - (if (and n (hsc-class-known? n)) #t jolt-nil))))) diff --git a/host/chez/java/host-static-methods.ss b/host/chez/java/host-static-methods.ss index ea8981f..bfe66f8 100644 --- a/host/chez/java/host-static-methods.ss +++ b/host/chez/java/host-static-methods.ss @@ -55,7 +55,9 @@ (lambda () (unless tried? (set! tried? #t) - (set! fp (jolt-foreign-proc-safe "sched_yield" '() 'int))) + (set! fp (guard (e (#t #f)) + (load-shared-object #f) + (foreign-procedure "sched_yield" () int)))) (if fp (fp) (sleep (make-time 'time-duration 0 0))) jolt-nil))) @@ -200,8 +202,7 @@ (bitwise-ior (bitwise-arithmetic-shift-left r 1) (bitwise-and (bitwise-arithmetic-shift-right v i) 1))))))) (register-class-statics! "Long" - (list (cons "TYPE" "long") - (cons "MAX_VALUE" (->num 9223372036854775807)) + (list (cons "MAX_VALUE" (->num 9223372036854775807)) (cons "MIN_VALUE" (->num -9223372036854775808)) (cons "bitCount" (lambda (n) (->num (bitwise-bit-count (bitwise-and (jnum->exact n) long-mask64))))) (cons "numberOfLeadingZeros" (lambda (n) (->num (long-nlz n)))) @@ -213,8 +214,6 @@ (define (int->u32 n) (if (< n 0) (+ n 4294967296) n)) (register-class-statics! "Integer" (list (cons "MAX_VALUE" (->num 2147483647)) (cons "MIN_VALUE" (->num -2147483648)) - ;; the primitive class token (int.class); jolt models a class as its name - (cons "TYPE" "int") (cons "valueOf" (lambda (x . r) (if (number? x) (->num x) (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "valueOf")))) @@ -228,14 +227,12 @@ ;; Byte / Short bounds (their values are plain integers on jolt; the statics let ;; libraries reference the JVM ranges — clojure.test.check generates over them). (register-class-statics! "Byte" - (list (cons "TYPE" "byte") - (cons "MAX_VALUE" (->num 127)) (cons "MIN_VALUE" (->num -128)) + (list (cons "MAX_VALUE" (->num 127)) (cons "MIN_VALUE" (->num -128)) (cons "valueOf" (lambda (x . r) (->num (if (number? x) x (parse-int-or-throw x 10 "valueOf"))))) (cons "parseByte" (lambda (x . r) (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "parseByte"))) (cons "toString" (lambda (x . r) (number->string (jnum->exact x)))))) (register-class-statics! "Short" - (list (cons "TYPE" "short") - (cons "MAX_VALUE" (->num 32767)) (cons "MIN_VALUE" (->num -32768)) + (list (cons "MAX_VALUE" (->num 32767)) (cons "MIN_VALUE" (->num -32768)) (cons "valueOf" (lambda (x . r) (->num (if (number? x) x (parse-int-or-throw x 10 "valueOf"))))) (cons "parseShort" (lambda (x . r) (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "parseShort"))) (cons "toString" (lambda (x . r) (number->string (jnum->exact x)))))) @@ -250,15 +247,13 @@ (cons "ROOT" "und") (cons "US" "en-US") (cons "ENGLISH" "en"))) (register-class-statics! "Boolean" - (list (cons "TYPE" "boolean") - (cons "parseBoolean" (lambda (s) (string=? "true" (ascii-string-down (if (string? s) s (jolt-str-render-one s)))))) + (list (cons "parseBoolean" (lambda (s) (string=? "true" (ascii-string-down (if (string? s) s (jolt-str-render-one s)))))) (cons "TRUE" #t) (cons "FALSE" #f))) (register-class-ctor! "Double" ->double) (register-class-ctor! "Float" ->double) (register-class-statics! "Double" - (list (cons "TYPE" "double") - (cons "parseDouble" parse-double-or-throw) + (list (cons "parseDouble" parse-double-or-throw) (cons "valueOf" ->double) (cons "toString" (lambda (x) (jolt-str-render-one (->double x)))) (cons "isNaN" (lambda (x) (and (flonum? x) (nan? x)))) @@ -266,21 +261,14 @@ (cons "MAX_VALUE" 1.7976931348623157e308) (cons "MIN_VALUE" 4.9e-324) (cons "POSITIVE_INFINITY" +inf.0) (cons "NEGATIVE_INFINITY" -inf.0) (cons "NaN" +nan.0))) (register-class-statics! "Float" - (list (cons "TYPE" "float") - (cons "parseFloat" parse-double-or-throw) (cons "valueOf" ->double))) + (list (cons "parseFloat" parse-double-or-throw) (cons "valueOf" ->double))) ;; Character: ASCII predicates (the engine is byte/ASCII oriented). (register-class-statics! "Character" - (list (cons "TYPE" "char") - (cons "isUpperCase" (lambda (c) (let ((n (char-code c))) (and (>= n 65) (<= n 90))))) + (list (cons "isUpperCase" (lambda (c) (let ((n (char-code c))) (and (>= n 65) (<= n 90))))) (cons "isLowerCase" (lambda (c) (let ((n (char-code c))) (and (>= n 97) (<= n 122))))) (cons "isDigit" (lambda (c) (let ((n (char-code c))) (and (>= n 48) (<= n 57))))) - ;; JVM Character.isWhitespace: Unicode whitespace (so U+2028 line separator - ;; counts, like the JVM) MINUS the no-break spaces the JVM excludes - ;; (U+00A0/U+2007/U+202F). char<=?space missed everything above ASCII. - (cons "isWhitespace" (lambda (c) (let ((cp (char-code c))) - (and (char-whitespace? (integer->char cp)) - (not (fx=? cp #xA0)) (not (fx=? cp #x2007)) (not (fx=? cp #x202F)))))))) + (cons "isWhitespace" (lambda (c) (char<=? (integer->char (char-code c)) #\space))))) ;; String/valueOf(Object): "null" for nil, else jolt's str semantics. ;; String/format(fmt args…) / (locale fmt args…) -> the clojure.core format engine. diff --git a/host/chez/java/host-static.ss b/host/chez/java/host-static.ss index a579803..7518c76 100644 --- a/host/chez/java/host-static.ss +++ b/host/chez/java/host-static.ss @@ -90,9 +90,13 @@ (list->cseq (if asc keep (reverse keep))))) (else (error #f (string-append "No method " method " on sorted collection"))))) -(register-method-arm! 44 +(define %hs-record-method-dispatch record-method-dispatch) +(set! record-method-dispatch (lambda (obj method-name rest-args) (cond + ;; (.getClass x) is universal — the class token for any value (incl. numbers + ;; / jhost) — before the per-type arms that would otherwise reject it. + ((string=? method-name "getClass") (jolt-class obj)) ((jhost? obj) (let ((mh (hashtable-ref host-methods-tbl (jhost-tag obj) #f))) (let ((f (and mh (hashtable-ref mh method-name #f)))) @@ -100,7 +104,7 @@ (apply f obj (if (jolt-nil? rest-args) '() (seq->list rest-args))) (error #f (string-append "No method " method-name " on host " (jhost-tag obj))))))) ((number? obj) (apply number-method method-name obj (if (jolt-nil? rest-args) '() (seq->list rest-args)))) - (else 'pass)))) + (else (%hs-record-method-dispatch obj method-name rest-args))))) ;; java.lang.Number method surface (the boxed-number methods cljc code calls). The ;; integer projections wrap modulo their width (ring-codec relies on byteValue @@ -113,12 +117,7 @@ ((string=? method "longValue") (->num (jnum->exact n))) ((string=? method "doubleValue") (->num n)) ((string=? method "floatValue") (->num n)) - ;; .toString(radix) — BigInteger/Integer render in a base, lowercase like the - ;; JVM (rewrite-clj's integer node reconstructs 0xff / 0377 / 2r1001 this way). - ((string=? method "toString") - (if (pair? args) - (string-downcase (number->string (jnum->exact n) (jnum->exact (car args)))) - (jolt-num->string n))) + ((string=? method "toString") (jolt-num->string n)) ((string=? method "hashCode") (->num (jnum->exact n))) ;; Double/Float .isNaN / .isInfinite (a non-flonum is neither). ((string=? method "isNaN") (and (flonum? n) (not (= n n)))) @@ -194,9 +193,8 @@ (and n (integer? n) (->num n)))) (define (parse-int-or-throw s radix what) (or (parse-int-str s radix) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - (string-append "For input string: \"" - (if (string? s) s (jolt-str-render-one s)) "\""))))) + (error #f (string-append "NumberFormatException: For input string: \"" + (if (string? s) s (jolt-str-render-one s)) "\"")))) (define (char-code c) (if (char? c) (char->integer c) (jnum->exact c))) ;; parse a double string (Double/parseDouble, (Double. s)); JVM accepts NaN / @@ -210,8 +208,7 @@ (else (let ((n (string->number t))) (and n (real? n) (exact->inexact n))))))) (define (parse-double-or-throw s) (or (parse-double-str s) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - (string-append "For input string: \"" - (if (string? s) s (jolt-str-render-one s)) "\""))))) + (error #f (string-append "NumberFormatException: For input string: \"" + (if (string? s) s (jolt-str-render-one s)) "\"")))) (define (->double x) (if (number? x) (exact->inexact x) (parse-double-or-throw x))) diff --git a/host/chez/java/inst-time.ss b/host/chez/java/inst-time.ss index 4b2937f..dfb6752 100644 --- a/host/chez/java/inst-time.ss +++ b/host/chez/java/inst-time.ss @@ -562,7 +562,8 @@ (cons "format" (lambda (self d) (format-ms (vector-ref (jhost-state self) 0) (ms-of d)))))) ;; a jinst's java.util.Date method surface (record-method-dispatch arm). -(register-method-arm! 40 +(define %it-rmd record-method-dispatch) +(set! record-method-dispatch (lambda (obj method-name rest-args) (cond ((jinst? obj) @@ -585,7 +586,7 @@ ((string=? method-name "before") (< (jinst-ms obj) (ms-of (car (seq->list rest-args))))) ((string=? method-name "after") (> (jinst-ms obj) (ms-of (car (seq->list rest-args))))) (else (error #f (string-append "No method " method-name " on Date"))))) - (else 'pass)))) + (else (%it-rmd obj method-name rest-args))))) ;; Clojure's built-in data readers, so a library that merges default-data-readers ;; or binds *data-readers* (e.g. aero's reader opts) resolves #inst / #uuid. diff --git a/host/chez/java/io.ss b/host/chez/java/io.ss index d6ce4b7..aa3ac33 100644 --- a/host/chez/java/io.ss +++ b/host/chez/java/io.ss @@ -29,70 +29,6 @@ (hashtable-set! embedded-resources name content)) (define-record-type embedded-res (fields name content) (nongenerative jolt-embres-v1)) -;; --- self-contained build artifacts (jolt-eaj) ------------------------------ -;; A toolchain-free `jolt build` (the distributed joltc) carries the Chez -;; petite/scheme boots and a prebuilt launcher stub baked into its own boot image. -;; They live in the same table as embedded-resources, but keyed under bytevector -;; values (register-embedded-bytes!) rather than strings; resolve-on-roots / -;; io/resource only ever ask for the string-keyed source entries, so the two -;; coexist. The build driver reads them at heap-build time from files that exist -;; only on the dev machine. -(define (register-embedded-bytes! name bv) (hashtable-set! embedded-resources name bv)) -(define (jolt-embedded-bytes name) - (let ((v (hashtable-ref embedded-resources name #f))) - (and (bytevector? v) v))) - -;; Read a whole file as a bytevector ("" -> empty). Used to slurp boot/stub files. -(define (read-file-bytes path) - (let ((p (open-file-input-port path))) - (let ((bv (get-bytevector-all p))) - (close-port p) - (if (eof-object? bv) (bytevector) bv)))) - -;; Write an embedded bytevector resource out to a path. make-boot-file needs the -;; petite/scheme boots as files, so they are spilled to scratch before the call. -(define (jolt-spill-embedded! name path) - (let ((bv (jolt-embedded-bytes name))) - (unless bv (error 'jolt-spill-embedded! "no embedded bytes for" name)) - (let ((p (open-file-output-port path (file-options no-fail) (buffer-mode block)))) - (put-bytevector p bv) - (close-port p)))) - -;; Frame an app boot onto a file that already holds the stub bytes. Layout: -;; [stub][boot][boot-length:le64]["JOLTBOOT"]. The stub (host/chez/stub/launcher.c) -;; reads the trailing 16 bytes — the 8-byte magic, then the preceding 8-byte LE -;; length — to locate and register the boot, so a boot that itself contains the -;; magic bytes can't be mistaken for the frame. -(define jolt-payload-magic (string->utf8 "JOLTBOOT")) -(define (jolt-append-payload! path boot-bv) - (let ((head (read-file-bytes path))) ; the stub bytes already written - (let ((p (open-file-output-port path (file-options no-fail) (buffer-mode block))) - (lb (make-bytevector 8 0))) - (bytevector-u64-set! lb 0 (bytevector-length boot-bv) (endianness little)) - (put-bytevector p head) - (put-bytevector p boot-bv) - (put-bytevector p lb) - (put-bytevector p jolt-payload-magic) - (close-port p)))) - -;; chmod 0755 via libc, so the produced binary is executable. load-shared-object -;; with #f pulls the running process's own symbols (chmod is in libc, linked into -;; every Chez binary) — no external toolchain. Falls back to /bin/sh chmod if the -;; symbol can't be resolved. -(define jolt-chmod-755 - (let ((c (jolt-foreign-proc-safe "chmod" '(string int) 'int))) - (lambda (path) - (cond - (c (c path #o755)) - ;; Windows has no chmod and needs none (execute is by extension) - ((let ((m (symbol->string (machine-type)))) - (let loop ((i 0)) - (cond ((> (+ i 2) (string-length m)) #f) - ((string=? (substring m i (+ i 2)) "nt") #t) - (else (loop (+ i 1)))))) - 0) - (else (system (string-append "chmod 755 '" path "'"))))))) - ;; A user-facing relative path resolves against JOLT_PWD — the user's cwd before ;; the launcher cd'd to the jolt repo root — matching the JVM, where io/file is ;; cwd-relative. (io/resource builds jfiles from the source roots directly, so it @@ -245,13 +181,14 @@ (else (loop (- i 1)))))) (else #f)))) -(register-method-arm! 41 +(define %io-rmd record-method-dispatch) +(set! record-method-dispatch (lambda (obj method-name rest-args) (if (jfile? obj) (let* ((rest (if (jolt-nil? rest-args) '() (seq->list rest-args))) (r (jfile-method obj method-name rest))) (if r (car r) (error #f "no File method" method-name))) - 'pass))) + (%io-rmd obj method-name rest-args)))) ;; .isDirectory / .listFiles emit to jolt-host-call (rt.ss), not record-method- ;; dispatch — the shims there assume a path STRING target. Make them jfile-aware @@ -416,11 +353,6 @@ ;; method (a no-op for in-memory streams); absent method -> no-op. ((htable? x) (guard (e (#t jolt-nil)) (record-method-dispatch x "close" jolt-nil)) jolt-nil) ((jfile? x) jolt-nil) - ;; a deftype/defrecord that implements a `close` method (java.io.Closeable / - ;; AutoCloseable, e.g. tools.reader's reader types) closes through it — the - ;; same method (.close x) would dispatch to. - ((and (jrec? x) (jrec-cl x "close")) - (record-method-dispatch x "close" jolt-nil) jolt-nil) (else (let ((closef (jolt-get x (keyword #f "close") jolt-nil))) (if (and (not (jolt-nil? closef)) (procedure? closef)) @@ -629,31 +561,6 @@ ;; (Long. n) / (Long. "n"): a Long is just jolt's integer; return it (parse a string). (register-class-ctor! "Long" (lambda (x) (if (string? x) (parse-int-or-throw x 10 "Long") (->num (jnum->exact x))))) (register-class-ctor! "java.lang.Long" (lambda (x) (if (string? x) (parse-int-or-throw x 10 "Long") (->num (jnum->exact x))))) -;; (Integer. n) / (Integer. "n"): jolt's integer, range-checked like intCast. -(define (integer-ctor x) - (jolt-int-cast (if (string? x) (parse-int-or-throw x 10 "Integer") x))) -(register-class-ctor! "Integer" integer-ctor) -(register-class-ctor! "java.lang.Integer" integer-ctor) -;; (Double. x) / (Double. "x"): jolt's double. -(define (double-ctor x) - (if (string? x) - (let ((n (string->number x))) - (if n (exact->inexact n) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - (string-append "For input string: \"" x "\""))))) - (jolt-double x))) -(register-class-ctor! "Double" double-ctor) -(register-class-ctor! "java.lang.Double" double-ctor) - -;; (Boolean. "true") / (Boolean. b): true for the string "true" (case-insensitive, -;; anything else false) or the boolean itself — Boolean.valueOf semantics; the -;; box is jolt's plain boolean. -(define (boolean-ctor x) - (cond ((string? x) (string-ci=? x "true")) - ((boolean? x) x) - (else #f))) -(register-class-ctor! "Boolean" boolean-ctor) -(register-class-ctor! "java.lang.Boolean" boolean-ctor) ;; --- java.net.URI ----------------------------------------------------------- ;; A minimal RFC-3986 split into scheme/authority/host/port/path/query/fragment, diff --git a/host/chez/java/natives-array.ss b/host/chez/java/natives-array.ss index 6cbe13a..68c14b8 100644 --- a/host/chez/java/natives-array.ss +++ b/host/chez/java/natives-array.ss @@ -85,22 +85,57 @@ (define (na-bytes x) (if (and (jolt-array? x) (eq? (jolt-array-kind x) 'byte)) x (na-byte-array x))) (define (na-bytes? x) (and (jolt-array? x) (eq? (jolt-array-kind x) 'byte))) (define (na-identity x) x) -(define (na-byte x) (jolt-byte-cast x)) -(define (na-short x) (jolt-short-cast x)) +(define (na-byte x) + (let ((b (bitwise-and (exact (floor x)) #xff))) (if (>= b 128) (- b 256) b))) +(define (na-short x) + (let ((s (bitwise-and (exact (floor x)) #xffff))) (if (>= s #x8000) (- s #x10000) s))) ;; --- chunked seqs ----------------------------------------------------------- -;; The chunked-seq accessors (chunked-seq? / chunk-first / chunk-rest / chunk-next) -;; live in seq.ss with the cseq core they read; here we only bind them plus the -;; chunk-builder API (clojure.lang.ChunkBuffer + chunk-cons). chunk-buffer collects -;; appended items, chunk seals them into a pvec chunk, and chunk-cons prepends that -;; chunk onto a rest seq as a real ChunkedCons (cseq-chunked) — empty chunk == just -;; the rest, like clojure.core/chunk-cons. +;; A vector's seq is a REAL chunked-seq: (seq v) carries its backing vector + +;; element index (seq.ss cseq-vec), so chunked-seq? is true and chunk-first hands +;; out a 32-element block (a pvec slice) while chunk-rest is the seq at the next +;; block boundary — the Clojure/CLJS ChunkedSeq contract (chunk-first ++ +;; chunk-rest == the seq). The eager buffer model (chunk-buffer/chunk-append/ +;; chunk) builds a plain cseq; chunk-cons/first/rest fall back to seq ops over it. +(define na-chunk-size 32) (define-record-type jolt-chunkbuf (fields (mutable items)) (nongenerative jolt-chunkbuf-v1)) (define (na-chunk-buffer cap) (make-jolt-chunkbuf '())) (define (na-chunk-append b x) (jolt-chunkbuf-items-set! b (append (jolt-chunkbuf-items b) (list x))) b) -(define (na-chunk b) (make-pvec (list->vector (jolt-chunkbuf-items b)))) -(define (na-chunk-cons chunk rest) - (if (fx=? 0 (pvec-count chunk)) rest (cseq-chunked chunk 0 rest))) +(define (na-chunk b) (list->cseq (jolt-chunkbuf-items b))) +(define (na-chunk-cons chunk rest) (jolt-concat chunk rest)) +;; backing (vector . end-of-block index) for a vector-seq cell, or #f. +(define (na-vblock s) + (and (cseq? s) (cseq-cvec s) + (let* ((v (cseq-cvec s)) (i (cseq-ci s))) + (cons v (fxmin (fx+ i na-chunk-size) (pvec-count v)))))) +(define (na-chunked-seq? x) (and (na-vblock x) #t)) +;; Copy the block [i, end) straight out of the pvec trie's 32-element leaf node +;; (pv-chunk-for is O(log n)). na-chunk-size == pv-width and blocks are 32-aligned, +;; so a block is exactly one leaf; the rare non-aligned window crossing a leaf +;; boundary falls back to per-index reads. Flattening the whole backing vector +;; per block (pvec-v) made chunk-first O(n), so walking a vector chunk-by-chunk +;; was O(n^2). +(define (na-chunk-first s) + (let ((vb (na-vblock s))) + (if vb + (let* ((pv (car vb)) (i (cseq-ci s)) (end (cdr vb)) (len (fx- end i)) + (node (pv-chunk-for pv i)) (off (fxand i pv-mask))) + (if (fx<=? (fx+ off len) (vector-length node)) + (make-pvec (vec-copy-range node off (fx+ off len))) + (let ((out (make-vector len))) + (let loop ((j 0)) + (if (fx=? (cdr vb) (pvec-count (car vb))) jolt-empty-list (vec->seq (car vb) (cdr vb))) + (jolt-rest s)))) +(define (na-chunk-next s) + (let ((vb (na-vblock s))) + (if vb (if (fx>=? (cdr vb) (pvec-count (car vb))) jolt-nil (vec->seq (car vb) (cdr vb))) + (jolt-next s)))) ;; --- extend the collection dispatchers to see a jolt-array ------------------ (define %na-count jolt-count) @@ -115,11 +150,10 @@ (let ((v (jolt-array-vec c)) (j (exact (na-idx i)))) (if (and (>= j 0) (< j (vector-length v))) (vector-ref v j) d)) (%na-nth c i d))))) -(def-var! "jolt.host" "array-value?" (lambda (x) (if (jolt-array? x) #t jolt-nil))) (define %na-get jolt-get) (set! jolt-get (case-lambda - ((c k) (if (jolt-array? c) (jolt-nth c k jolt-nil) (%na-get c k))) + ((c k) (if (jolt-array? c) (jolt-nth c k) (%na-get c k))) ((c k d) (if (jolt-array? c) (jolt-nth c k d) (%na-get c k d))))) ;; aset (overlay) writes through jolt.host/ref-put! — mutate the slot, return arr. ;; count/nth/seq/get above are NATIVE-OPS (inlined at call sites), so aget/alength/ diff --git a/host/chez/java/records-interop.ss b/host/chez/java/records-interop.ss index 826db96..c54d2b2 100644 --- a/host/chez/java/records-interop.ss +++ b/host/chez/java/records-interop.ss @@ -10,12 +10,47 @@ (define (ex-info-class v) (let ((c (jolt-get v jolt-kw-class jolt-nil))) (if (string? c) c "clojure.lang.ExceptionInfo"))) -;; Is `wanted` (simple name) `cls` or a supertype of it? The exception hierarchy -;; lives in the one class graph (class-hierarchy.ss) — resolve the simple name to -;; its graph key and ask jch-isa?, so exceptions and every other class share a -;; single source of truth (ExceptionInfo -> IExceptionInfo is a graph edge). +;; immediate-parent chain of the JVM exception hierarchy (simple names). Drives +;; instance? across exception supertypes — (instance? Throwable (ex-info …)) etc. +(define exception-parent + '(("ExceptionInfo" . "RuntimeException") + ("RuntimeException" . "Exception") + ("IllegalArgumentException" . "RuntimeException") + ("ArityException" . "IllegalArgumentException") + ("NumberFormatException" . "IllegalArgumentException") + ("IllegalStateException" . "RuntimeException") + ("UnsupportedOperationException" . "RuntimeException") + ("ArithmeticException" . "RuntimeException") + ("NullPointerException" . "RuntimeException") + ("ClassCastException" . "RuntimeException") + ("IndexOutOfBoundsException" . "RuntimeException") + ("ConcurrentModificationException" . "RuntimeException") + ("NoSuchElementException" . "RuntimeException") + ("UncheckedIOException" . "RuntimeException") + ("DateTimeException" . "RuntimeException") + ("DateTimeParseException" . "DateTimeException") + ("InterruptedException" . "Exception") + ("IOException" . "Exception") + ("FileNotFoundException" . "IOException") + ("UnsupportedEncodingException" . "IOException") + ("UnknownHostException" . "IOException") + ("SocketException" . "IOException") + ("ConnectException" . "IOException") + ("SocketTimeoutException" . "IOException") + ("MalformedURLException" . "IOException") + ("SSLException" . "IOException") + ("Exception" . "Throwable") + ("Error" . "Throwable") + ("AssertionError" . "Error") + ("Throwable" . "Object"))) +;; Is `wanted` (simple name) `cls` or a supertype of it? ExceptionInfo also +;; implements the IExceptionInfo interface. (define (exception-isa? cls wanted) - (jch-isa? (jch-fqn-of-simple cls) wanted)) + (let loop ((c cls)) + (cond ((not c) #f) + ((string=? c wanted) #t) + ((and (string=? c "ExceptionInfo") (string=? wanted "IExceptionInfo")) #t) + (else (let ((p (assoc c exception-parent))) (loop (and p (cdr p)))))))) ;; A raw Chez condition (an arity or non-seqable error Chez itself raised, not a ;; jolt ex-info) carries no jolt exception class. Map the ones Clojure raises a diff --git a/host/chez/joltc-selfbuild-smoke.sh b/host/chez/joltc-selfbuild-smoke.sh deleted file mode 100644 index b9f267a..0000000 --- a/host/chez/joltc-selfbuild-smoke.sh +++ /dev/null @@ -1,122 +0,0 @@ -#!/bin/sh -# joltc self-build smoke (jolt-eaj): build joltc as a self-contained binary, then -# use THAT binary to compile a jolt app with Chez and cc removed from the -# environment — the whole point of the feature. The produced app must then run -# and match the same expected output as build-smoke.sh. -root="$(CDPATH= cd -- "$(dirname -- "$0")/../.." && pwd)" -cd "$root" - -# Preflight: building joltc itself needs the Chez kernel dev files (libkernel.a + -# scheme.h) and a C compiler, same as build-smoke.sh. A distro chezscheme package -# ships neither, so skip there (CI included). -csv="$JOLT_CHEZ_CSV" -if [ -z "$csv" ]; then - chez_bin="$(command -v chez || command -v scheme || command -v petite || true)" - if [ -n "$chez_bin" ]; then - base="$(cd "$(dirname "$chez_bin")/.." 2>/dev/null && pwd)" - for d in "$base"/lib/csv*/*/; do - [ -f "${d}libkernel.a" ] && csv="${d%/}" && break - done - fi -fi -if ! command -v cc >/dev/null 2>&1 || [ -z "$csv" ] || [ ! -f "$csv/scheme.h" ] || [ ! -f "$csv/libkernel.a" ]; then - echo "joltc self-build smoke: skipped (Chez kernel dev files or C compiler not available)" - exit 0 -fi -export JOLT_CHEZ_CSV="$csv" - -# 1. Build joltc (debug profile — faster; the self-contained app-build mechanism -# is identical to release, only Chez compile settings differ). -joltc="$root/target/debug/joltc" -echo "joltc self-build smoke: building $joltc" -if ! chez --script host/chez/build-joltc.ss debug "$joltc" >/dev/null 2>&1; then - echo " FAIL: build-joltc.ss exited non-zero" - exit 1 -fi -[ -x "$joltc" ] || { echo " FAIL: no joltc executable produced"; exit 1; } - -# 2. The distributed joltc must run with no Chez install: a basic eval. -got_e="$(env -i HOME="$HOME" "$joltc" -e '(reduce + (range 10))' 2>&1)" -if [ "$got_e" != "45" ]; then - echo " FAIL: joltc -e under empty env gave '$got_e', want 45" - exit 1 -fi - -# 2b. JOLT_TRACE must take effect in the BUILT binary. The env check runs at -# runtime (the launcher), NOT at heap-build where JOLT_TRACE is always unset — so -# an uncaught error shows a tail-frame trace recovering the TCO-elided chain, and -# exactly ONE trace block (the launcher must not double-print it). -got_tr="$(env -i HOME="$HOME" JOLT_TRACE=1 "$joltc" -e '(defn a [x] (+ x 1)) (defn b [x] (a x)) (b :x)' 2>&1)" -if ! printf '%s' "$got_tr" | grep -q ' trace:' || ! printf '%s' "$got_tr" | grep -q 'b'; then - echo " FAIL: JOLT_TRACE=1 in the built joltc produced no tail-frame trace" - echo "--- got ---"; echo "$got_tr"; exit 1 -fi -if [ "$(printf '%s' "$got_tr" | grep -c ' trace:')" != "1" ]; then - echo " FAIL: built joltc double-printed the trace block" - echo "--- got ---"; echo "$got_tr"; exit 1 -fi - -# 3. Build an app through the distributed joltc with an EMPTY environment — no -# PATH at all, so no chez, no cc, no shell tools are reachable. This is the core -# guarantee: joltc compiles apps entirely on its own. -app="$(mktemp -d)/build-app" -cp -r "$root/test/chez/build-app" "$app" -out="$app/app" -echo "joltc self-build smoke: compiling app.core via the binary (no chez/cc on PATH)" -if ! env -i HOME="$HOME" JOLT_PWD="$app" "$joltc" build -m app.core -o "$out" >/dev/null 2>&1; then - echo " FAIL: self-contained jolt build exited non-zero" - rm -rf "$(dirname "$app")" - exit 1 -fi -[ -x "$out" ] || { echo " FAIL: no app executable produced"; rm -rf "$(dirname "$app")"; exit 1; } - -# 4. The produced app runs from a neutral cwd and matches build-smoke's output. -got="$(cd / && "$out" alpha bb ccc 2>&1)" -want='embedded resource ok -HELLO FROM A BUILT BINARY! -HELLO FROM A BUILT BINARY! -args: [alpha bb ccc] -sum: 10 -greet-default: greet:default -greet-loud: greet:loud -greet-soft: greet:soft' -rm -rf "$(dirname "$app")" -if [ "$got" != "$want" ]; then - echo " FAIL: produced app output mismatch" - echo "--- want ---"; echo "$want" - echo "--- got ----"; echo "$got" - exit 1 -fi - -# 5. Static native linking through the distributed joltc: it bundles the Chez -# kernel, so with the system cc (but still no external Chez) it re-links a stub -# that bakes a :jolt/native :static archive into the app. The app then calls the -# C function with the archive removed from disk. Uses the normal PATH so cc — and -# the kernel's link deps (lz4/…) — are found, but Chez stays out of the build. -napp="$(mktemp -d)/native-app" -mkdir -p "$napp/src/app" -printf 'int jolt_static_answer(void){return 42;}\n' > "$napp/greet.c" -cc -c "$napp/greet.c" -o "$napp/greet.o" && ar rcs "$napp/libgreet.a" "$napp/greet.o" -cat > "$napp/src/app/core.clj" <<'EOF' -(ns app.core (:require [jolt.ffi :as ffi])) -(ffi/defcfn answer "jolt_static_answer" [] :int) -(defn -main [& _] (println "answer:" (answer))) -EOF -cat > "$napp/deps.edn" </dev/null 2>&1; then - echo " FAIL: static native build via distributed joltc exited non-zero" - rm -rf "$(dirname "$napp")"; exit 1 -fi -rm -f "$napp/libgreet.a" "$napp/greet.o" # nothing to load at runtime -got_n="$(cd / && "$nout" 2>&1)" -rm -rf "$(dirname "$napp")" -if [ "$got_n" != "answer: 42" ]; then - echo " FAIL: static-linked app (via distributed joltc) output mismatch" - echo "--- got ----"; echo "$got_n"; exit 1 -fi -echo "joltc self-build smoke: passed (joltc runs + builds a working app with no external toolchain, incl. static native linking)" diff --git a/host/chez/loader.ss b/host/chez/loader.ss index 4ea8bd1..c5d6ee7 100644 --- a/host/chez/loader.ss +++ b/host/chez/loader.ss @@ -57,25 +57,9 @@ ((and (pmap? x) (eq? (jolt-get x rdr-kw-jolt-type) rdr-kw-jolt-tagged)) (let ((rdr (data-reader-symbol (jolt-get x rdr-kw-tag))) (inner (ldr-apply-readers (jolt-get x rdr-kw-form)))) - (cond - (rdr - ;; Clojure applies a data reader at read time and substitutes its result - ;; as code. A reader that returns a FORM (a list — e.g. borkdude.html's - ;; #html expands to (->Html (str …))) must be compiled, so splice it in. - ;; A reader that returns a VALUE (time-literals #time/date -> a Date) is - ;; left as a runtime call (reader-fn 'inner): the value rebuilds at - ;; startup, which also keeps a non-serializable constant out of an AOT - ;; build. Apply is guarded — a reader that can't run at load time (its - ;; deps not ready) falls back to the runtime call too. - (let ((result (and (symbol-t? rdr) (not (jolt-nil? (symbol-t-ns rdr))) - (guard (e (#t #f)) - (let ((fn (var-deref (symbol-t-ns rdr) (symbol-t-name rdr)))) - (and (procedure? fn) (jolt-invoke fn inner))))))) - (if (cseq? result) - result - (jolt-list rdr (jolt-list (jolt-symbol #f "quote") inner))))) - ((eq? inner (jolt-get x rdr-kw-form)) x) - (else (rdr-make-tagged (jolt-get x rdr-kw-tag) inner))))) + (cond (rdr (jolt-list rdr (jolt-list (jolt-symbol #f "quote") inner))) + ((eq? inner (jolt-get x rdr-kw-form)) x) + (else (rdr-make-tagged (jolt-get x rdr-kw-tag) inner))))) ((rdr-set-form? x) (let-values (((items changed) (ldr-conv-each (seq->list (jolt-get x rdr-kw-value))))) (if changed (rdr-carry-meta x (rdr-make-set items)) x))) @@ -138,31 +122,14 @@ (else (loop (cdr cs) (cons (car cs) seg) segs))))) ;; First existing /rel.clj or /rel.cljc on the search roots, else #f. -;; A self-contained joltc binary embeds jolt-core + stdlib source keyed by their -;; root-relative path ("clojure/string.clj"); those are checked first, so a -;; `require` resolves with no source on disk. The dev bin/joltc has an empty -;; source store, so the two hashtable probes miss and it falls straight to disk. (define (resolve-on-roots rel) - (let ((eclj (string-append rel ".clj")) (ecljc (string-append rel ".cljc"))) - (cond - ((string? (hashtable-ref embedded-resources eclj #f)) eclj) - ((string? (hashtable-ref embedded-resources ecljc #f)) ecljc) - (else - (let loop ((roots source-roots)) - (if (null? roots) #f - (let ((clj (string-append (car roots) "/" rel ".clj")) - (cljc (string-append (car roots) "/" rel ".cljc"))) - (cond ((file-exists? clj) clj) - ((file-exists? cljc) cljc) - (else (loop (cdr roots))))))))))) - -;; Read a namespace source. An embedded key (resolve-on-roots above, or the -;; build driver's app-order entries) reads its baked string; everything else is -;; a real path read off disk. Bytevector entries (the bundled boots/stub) are not -;; source, so a string? guard skips them. -(define (ldr-read-source path) - (let ((emb (hashtable-ref embedded-resources path #f))) - (if (string? emb) emb (read-file-string path)))) + (let loop ((roots source-roots)) + (if (null? roots) #f + (let ((clj (string-append (car roots) "/" rel ".clj")) + (cljc (string-append (car roots) "/" rel ".cljc"))) + (cond ((file-exists? clj) clj) + ((file-exists? cljc) cljc) + (else (loop (cdr roots)))))))) (define (find-ns-file name) (resolve-on-roots (ns-name->rel name))) @@ -209,7 +176,7 @@ ;; more forms", which would silently drop the entire rest of the file; here we ;; skip the no-op form and continue to true end-of-string. (define (load-jolt-file path) - (let* ((src (ldr-read-source path)) (end (string-length src))) + (let* ((src (read-file-string path)) (end (string-length src))) ;; parameterize (not a bare set!) so a require nested in this file's ns form ;; restores path when control returns to the rest of this file. (parameterize ((rdr-source-file path)) ; list forms read here carry :file = path @@ -384,14 +351,3 @@ (def-var! "jolt.host" "load-namespace" (lambda (n) (load-namespace n) jolt-nil)) (def-var! "jolt.host" "file-exists?" (lambda (p) (if (file-exists? p) #t #f))) (def-var! "jolt.host" "getenv" (lambda (n) (let ((v (getenv n))) (if v v jolt-nil)))) - -;; jolt version string. A self-contained binary build bakes the real tag into the -;; saved heap by emitting (set! jolt-baked-version "…") in flat.ss; a dev run off -;; the seed leaves it #f and falls back to $JOLT_VERSION (bin/joltc sets it from -;; `git describe`), then "dev". -(define jolt-baked-version #f) -(def-var! "jolt.host" "jolt-version" - (lambda () - (or jolt-baked-version - (let ((v (getenv "JOLT_VERSION"))) (and v (> (string-length v) 0) v)) - "dev"))) diff --git a/host/chez/multimethods.ss b/host/chez/multimethods.ss index 438cd40..f97c25d 100644 --- a/host/chez/multimethods.ss +++ b/host/chez/multimethods.ss @@ -61,36 +61,26 @@ (define (jolt-defmulti-setup name-sym dispatch . opts) (let-values (((dk h) (parse-mm-opts opts))) - (let* ((sns (symbol-t-ns name-sym)) - ;; the macro qualifies the name with its EXPANSION ns, so a defmulti - ;; deferred inside a fn (a deftest body) still defines in the ns it - ;; was written in, not whatever ns is current when it finally runs. - (ns (if (string? sns) sns (chez-current-ns))) - (mf (make-jolt-multifn (symbol-t-name name-sym) dispatch - (new-mm-table) dk h (new-mm-table)))) - (def-var! ns (symbol-t-name name-sym) mf) + (let ((mf (make-jolt-multifn (symbol-t-name name-sym) dispatch + (new-mm-table) dk h (new-mm-table)))) + (def-var! (chez-current-ns) (symbol-t-name name-sym) mf) mf))) ;; (defmethod-setup 'mm dispatch-val impl) — add a method. Auto-creates the multifn ;; if absent (defmethod before defmulti — rare; identity dispatch as a fallback). -(define (jolt-defmethod-setup mm-sym dval impl . rest) +(define (jolt-defmethod-setup mm-sym dval impl) (let* ((nm (symbol-t-name mm-sym)) (sns (symbol-t-ns mm-sym)) (qns (and sns (not (jolt-nil? sns)) (not (null? sns)) sns)) - ;; the macro passes its EXPANSION ns so a defmethod deferred inside a - ;; fn resolves like the JVM (against the ns it was written in, not the - ;; ns current when it runs); absent (old emitted code) fall back to the - ;; runtime ns. - (here (if (and (pair? rest) (string? (car rest))) (car rest) (chez-current-ns))) ;; qualified (cf.mm/ext) resolves in its own ns (cross-ns defmethod); - ;; unqualified resolves in the writing ns, else a :refer's home ns (so a + ;; unqualified resolves in the current ns, else a :refer's home ns (so a ;; defmethod on a referred multifn lands on the real one), else stays in - ;; the writing ns (a shadow, as before). + ;; the current ns (a shadow, as before). (mns (cond - (qns (or (chez-resolve-alias here qns) qns)) - ((var-cell-lookup here nm) here) - ((chez-resolve-refer here nm) => values) - (else here))) + (qns (or (chez-resolve-alias (chez-current-ns) qns) qns)) + ((var-cell-lookup (chez-current-ns) nm) (chez-current-ns)) + ((chez-resolve-refer (chez-current-ns) nm) => values) + (else (chez-current-ns)))) (cur (var-deref mns nm)) (mf (if (jolt-multifn? cur) cur ;; auto-create: copy the dispatch fn + default from a same-named diff --git a/host/chez/natives-coll.ss b/host/chez/natives-coll.ss index 1dac844..c678cd4 100644 --- a/host/chez/natives-coll.ss +++ b/host/chez/natives-coll.ss @@ -11,9 +11,9 @@ (define (jolt-array-map . kvs) (jolt-array-map-build kvs)) (define (jolt-hash-map-fn . kvs) (jolt-hash-map-build kvs)) -;; set lives in the kernel overlay tier (clojure/core/00-kernel.clj): it's a pure -;; composition (apply hash-set (seq coll)) the compiler uses only off the emit path, -;; so the Clojure version lowers to the same code without a bootstrap cycle. +;; set: realize any seqable to a list, then dedup through the set ctor. nil -> #{}. +(define (jolt-set coll) + (if (jolt-nil? coll) (jolt-hash-set) (apply jolt-hash-set (seq->list coll)))) ;; rand: a flonum in [0, n) (n defaults to 1.0) — jolt is all-flonum, so the ;; result is a double like every other number. @@ -24,5 +24,6 @@ (def-var! "clojure.core" "hash-map" jolt-hash-map-fn) (def-var! "clojure.core" "hash-set" jolt-hash-set) (def-var! "clojure.core" "array-map" jolt-array-map) +(def-var! "clojure.core" "set" jolt-set) (def-var! "clojure.core" "rand" jolt-rand) (def-var! "clojure.core" "map-entry?" jolt-map-entry?) diff --git a/host/chez/natives-meta.ss b/host/chez/natives-meta.ss index 9c7b205..433afff 100644 --- a/host/chez/natives-meta.ss +++ b/host/chez/natives-meta.ss @@ -27,9 +27,9 @@ ;; so dispatch to its meta method rather than the identity side-table — which ;; the deftype's reconstructed instances would not share. ((and (jrec? x) (jrec-cl x "meta")) => (lambda (m) (jolt-invoke m x))) - ;; everything else (collections, fns, reify, atoms/agents and any reference - ;; type) reads the identity side-table; a value with no entry is nil meta. - (else (hashtable-ref meta-table x jolt-nil)))) + ((or (pvec? x) (pmap? x) (pset? x) (cseq? x) (empty-list-t? x) (jolt-lazyseq? x) (jrec? x) (jreify? x) (procedure? x)) + (hashtable-ref meta-table x jolt-nil)) + (else jolt-nil))) ;; fresh-identity copy of a metadatable value (so attaching meta doesn't mutate ;; the original). cseq/procedure can't be copied meaningfully — keyed in place. @@ -50,7 +50,7 @@ ;; original mutated it, so (with-meta xs {:k xs}) built a self-referential ;; cycle that loops *print-meta* printing. ((cseq? x) (make-cseq (cseq-head x) (cseq-tail x) (cseq-forced? x) - (cseq-list? x) (cseq-cvec x) (cseq-ci x) (cseq-crest x))) + (cseq-list? x) (cseq-cvec x) (cseq-ci x))) ((jolt-lazyseq? x) (make-jolt-lazyseq (jolt-lazyseq-thunk x) (jolt-lazyseq-val x) (jolt-lazyseq-realized? x))) (else x))) ; procedure diff --git a/host/chez/natives-reader.ss b/host/chez/natives-reader.ss index df5c32f..a2ae9bb 100644 --- a/host/chez/natives-reader.ss +++ b/host/chez/natives-reader.ss @@ -17,12 +17,8 @@ jolt-nil) ;; --- reader-conditional: a tagged map (reader-conditional? is an overlay -;; tagged-value predicate that reads :jolt/type). STAYS NATIVE: building a -;; :jolt/type-tagged map is part of the native value model — an overlay defn -;; returning {:jolt/type ...} silently fails to bind during the seed mint (the -;; guard around each prelude form swallows the load-time error), the same reason -;; every other tagged-value constructor (atom/volatile!/tagged-literal) is native. -;; re-matcher / re-find / re-groups are the stateful matcher API in regex.ss. +;; tagged-value predicate that reads :jolt/type). re-matcher / re-find / re-groups +;; are the stateful matcher API in regex.ss. (define nr-kw-type (keyword "jolt" "type")) (define nr-kw-rc (keyword "jolt" "reader-conditional")) (define nr-kw-form (keyword #f "form")) diff --git a/host/chez/natives-transduce.ss b/host/chez/natives-transduce.ss index 3034b4f..79e87bb 100644 --- a/host/chez/natives-transduce.ss +++ b/host/chez/natives-transduce.ss @@ -25,11 +25,18 @@ (def-var! "clojure.core" "volatile!" jolt-volatile!) (def-var! "clojure.core" "deref" jolt-deref) -;; --- sequence ---------------------------------------------------------------- -;; transduce lives in the overlay (clojure/core/22-coll.clj): it's a pure -;; composition (xf (reduce xf init coll)) over reduce, so the Clojure version -;; lowers to the same code the native shim did. sequence stays native (below): -;; its transformer iterator drives the reduced box + lazy realization directly. +;; --- transduce / sequence ---------------------------------------------------- +;; (transduce xform f coll) / (transduce xform f init coll): build the transformed +;; reducing fn (xform f), reduce it over coll (reduce-seq honors `reduced`), then +;; run the completion (1-arg) arity. The 3-arg init defaults to (f) — the rf's +;; 0-arity, e.g. (+) = 0, (conj) = []. +(define jolt-transduce + (case-lambda + ((xform f coll) (jolt-transduce xform f (jolt-invoke f) coll)) + ((xform f init coll) + (let* ((xf (jolt-invoke xform f)) + (res (reduce-seq xf init (jolt-seq coll)))) + (jolt-invoke xf res))))) ;; (sequence coll) -> a seq; (sequence xform coll) -> a LAZY seq of coll transformed ;; by xform. A transformer iterator (mirrors clojure.core's TransformerIterator): @@ -80,6 +87,7 @@ ((coll) (jolt-seq coll)) ((xform coll) (sequence-xf xform coll)))) +(def-var! "clojure.core" "transduce" jolt-transduce) (def-var! "clojure.core" "sequence" jolt-sequence) ;; --- cat --------------------------------------------------------------------- diff --git a/host/chez/ns.ss b/host/chez/ns.ss index 435a18e..f65315f 100644 --- a/host/chez/ns.ss +++ b/host/chez/ns.ss @@ -260,9 +260,6 @@ ;; intern: create/set a var ns/sym to val (or an unbound cell). Returns the var. (define (jolt-intern ns-desig sym . vopt) (let ((nm (ns-desig->name ns-desig)) (s (symbol-t-name sym))) - ;; the namespace must exist (Namespace.find), like the JVM's intern - (unless (hashtable-ref ns-registry nm #f) - (jolt-throw (jolt-ex-info (string-append "No namespace: " nm " found") empty-pmap))) (if (pair? vopt) (def-var! nm s (car vopt)) (declare-var! nm s)))) ;; alias / ns-unalias: register/drop an :as alias under the current (or given) ns. @@ -309,24 +306,13 @@ (loop (cddr a))))) jolt-nil) -;; alter-meta! / reset-meta!: a var's metadata lives in var-meta-table (rt.ss); -;; any other reference (atom/agent/namespace) uses the identity meta side-table -;; jolt-meta reads. +;; alter-meta! / reset-meta!: update a var's metadata (var-meta-table, rt.ss). (define (jolt-alter-meta! ref f . args) - (if (var-cell? ref) - (let* ((cur (or (hashtable-ref var-meta-table ref #f) (jolt-hash-map))) - (new (apply jolt-invoke f cur args))) - (hashtable-set! var-meta-table ref new) - new) - (let* ((cur (let ((m (jolt-meta ref))) (if (jolt-nil? m) (jolt-hash-map) m))) - (new (apply jolt-invoke f cur args))) - (hashtable-set! meta-table ref new) - new))) -(define (jolt-reset-meta! ref m) - (if (var-cell? ref) - (hashtable-set! var-meta-table ref m) - (hashtable-set! meta-table ref m)) - m) + (let* ((cur (or (hashtable-ref var-meta-table ref #f) (jolt-hash-map))) + (new (apply jolt-invoke f cur args))) + (hashtable-set! var-meta-table ref new) + new)) +(define (jolt-reset-meta! ref m) (hashtable-set! var-meta-table ref m) m) ;; --- RESOLVE FRICTION: native-op cells ------------------------------------- ;; Native-op primitives (+ map reduce …) are INLINED at emit, so they have no diff --git a/host/chez/post-prelude.ss b/host/chez/post-prelude.ss index fefaec4..d21fb20 100644 --- a/host/chez/post-prelude.ss +++ b/host/chez/post-prelude.ss @@ -63,17 +63,6 @@ ;; a lazy-seq carries its own realized? flag (lazy-bridge.ss). The overlay ;; realized? reads :jolt/type and throws on a jolt-lazyseq record. ((jolt-lazyseq? x) (jolt-lazyseq-realized? x)) - ;; a seq cell answers by its forced flag: the rest of a realized lazy - ;; chain is a cseq under jolt's seq model, and (realized? (rest s)) after - ;; a next must be true like the JVM's realized LazySeq — never a throw - ;; whose message renders the (possibly infinite) seq. - ;; a PLAIN seq (list/cons/range — not a lazy-seq wrapper) is not an - ;; IPending on the JVM: realized? throws. - ((or (cseq? x) (empty-list-t? x)) - (jolt-throw (jolt-host-throwable - "java.lang.ClassCastException" - (string-append "class " (guard (e (#t "?")) (jolt-class-name x)) - " cannot be cast to class clojure.lang.IPending")))) (else (jolt-invoke overlay-realized? x)))))) ;; clojure.edn/read over a reader: drain the jhost reader, then read through the ;; overlay read-string so the opts map (:readers/:default/:eof) is honored. @@ -89,19 +78,18 @@ (def-var! "clojure.core" "line-seq" (lambda (rdr) (if (reader-jhost? rdr) (chez-line-seq rdr) (jolt-invoke overlay-line-seq rdr))))) -;; JVM-parity numeric tower. integer?/float? are on the compiler emit/inference -;; path (so they stay native) but the overlay (20-coll.clj) still carries an -;; all-flonum int?/double? (int? -> integer?, double? -> not-integer) that -;; misclassifies exact rationals (e.g. (double? 1/2) -> true). Re-assert the -;; native tower-correct versions so they win over those overlay defs. int?/double? -;; alias integer?/float?. == is value-equality. (ratio?/rational? are now correct -;; in the overlay, built on jolt.host tower tests, so they need no re-assertion.) +;; JVM-parity numeric tower: the overlay (20-coll.clj) carries an +;; all-flonum number-predicate web with no Ratio concept (ratio? -> false, +;; double? -> not-integer, float? -> double?, rational? -> int?), which +;; misclassifies exact rationals on the Chez tower (e.g. (double? 1/2) -> true). +;; Re-assert the native tower-correct versions (predicates.ss) so they win over +;; the overlay defs. int?/double? alias integer?/float?. == is value-equality. (def-var! "clojure.core" "integer?" jolt-integer?) (def-var! "clojure.core" "int?" jolt-integer?) (def-var! "clojure.core" "float?" jolt-float?) (def-var! "clojure.core" "double?" jolt-float?) -;; ratio?/rational? now live (correctly) in the overlay, so they no longer need a -;; native re-assertion here. decimal? stays (bigdec re-binds it). +(def-var! "clojure.core" "ratio?" jolt-ratio?) +(def-var! "clojure.core" "rational?" jolt-rational?) (def-var! "clojure.core" "decimal?" jolt-decimal?) (def-var! "clojure.core" "==" jolt-num-equiv) ;; chunked-seq? is true for a vector's seq (a real chunked-seq); the overlay's @@ -123,13 +111,13 @@ ((stream) (if (reader-jhost? stream) (let-values (((form found?) (host-reader-read-form stream))) - (if found? form (jolt-throw (jolt-ex-info "EOF while reading" empty-pmap)))) + (if found? form (jolt-throw (jolt-ex-info "EOF while reading" (empty-pmap))))) (jolt-invoke ov-read stream))) ((stream e? ev) (if (reader-jhost? stream) (let-values (((form found?) (host-reader-read-form stream))) (cond (found? form) - ((jolt-truthy? e?) (jolt-throw (jolt-ex-info "EOF while reading" empty-pmap))) + ((jolt-truthy? e?) (jolt-throw (jolt-ex-info "EOF while reading" (empty-pmap)))) (else ev))) (jolt-invoke ov-read stream e? ev)))))) (let ((ov-rps (var-deref "clojure.core" "read+string"))) @@ -142,7 +130,7 @@ (let* ((s (drain-reader stream)) (pr (jolt-parse-next s))) (if (jolt-nil? pr) (begin (reader-refill! stream "") - (if (jolt-truthy? e?) (jolt-throw (jolt-ex-info "EOF while reading" empty-pmap)) + (if (jolt-truthy? e?) (jolt-throw (jolt-ex-info "EOF while reading" (empty-pmap))) (jolt-vector ev ""))) (let ((rest (jolt-nth pr 1))) (reader-refill! stream rest) diff --git a/host/chez/predicates.ss b/host/chez/predicates.ss index 9419755..5d01734 100644 --- a/host/chez/predicates.ss +++ b/host/chez/predicates.ss @@ -12,7 +12,9 @@ (define (jolt-vector? x) (pvec? x)) (define (jolt-set? x) (pset? x)) (define (jolt-seq? x) (or (cseq? x) (empty-list-t? x))) -;; list? lives in the overlay (clojure/core/20-coll.clj) — see jolt.host/cseq? etc. +;; (list? x): a list-marked cseq node or the empty list (). A lazy/vector-backed +;; seq, (rest list), (seq coll), (map …) are seqs but not lists. +(define (jolt-list-pred? x) (or (and (cseq? x) (cseq-list? x)) (empty-list-t? x))) (define (jolt-coll-pred? x) (or (pvec? x) (pmap? x) (pset? x) (cseq? x) (empty-list-t? x) (jolt-lazyseq? x))) (define (jolt-number? x) (number? x)) @@ -25,18 +27,13 @@ ;; BigDecimal). decimal? is always false (no BigDecimal type). (define (jolt-integer? x) (and (number? x) (exact? x) (integer? x))) (define (jolt-float? x) (and (number? x) (flonum? x))) -;; ratio?/rational? live in the overlay (clojure/core/20-coll.clj), built on the -;; jolt.host tower tests. decimal? stays native: the optional bigdec module -;; (java/bigdec.ss) re-binds it to jbigdec?, so it can't be a static overlay const. +(define (jolt-ratio? x) (and (number? x) (exact? x) (rational? x) (not (integer? x)))) +(define (jolt-rational? x) (and (number? x) (exact? x))) (define (jolt-decimal? x) #f) (define (jolt-fn? x) (procedure? x)) (define (jolt-boolean-pred? x) (boolean? x)) -;; (boolean x) coerces truthiness (nil/false -> false, else true). MUST stay native: -;; the backend's emit path calls clojure.core/boolean for every :if node -;; (backend_scheme.clj bool tracking), so it has to exist before ANY compilation, -;; including the kernel overlay tier (whose own fns contain `if`). Migrating it even -;; to the kernel tier deadlocks: compiling the tier that defines boolean needs boolean. +;; (boolean x) coerces truthiness (nil/false -> false, else true). (define (jolt-boolean x) (if (jolt-truthy? x) #t #f)) ;; (name x): keyword/symbol -> name string; string -> itself. @@ -60,6 +57,8 @@ (def-var! "clojure.core" "char?" jolt-char-pred?) (def-var! "clojure.core" "integer?" jolt-integer?) (def-var! "clojure.core" "float?" jolt-float?) +(def-var! "clojure.core" "ratio?" jolt-ratio?) +(def-var! "clojure.core" "rational?" jolt-rational?) (def-var! "clojure.core" "decimal?" jolt-decimal?) ;; == numeric value-equality (ignores exactness, unlike =): (== 3 3.0) -> true. ;; 1-arity is trivially true; 2+ args must all be numbers (Numbers.equiv throws @@ -81,30 +80,10 @@ (def-var! "clojure.core" "vector?" jolt-vector?) (def-var! "clojure.core" "set?" jolt-set?) (def-var! "clojure.core" "seq?" jolt-seq?) +(def-var! "clojure.core" "list?" jolt-list-pred?) (def-var! "clojure.core" "coll?" jolt-coll-pred?) (def-var! "clojure.core" "fn?" jolt-fn?) (def-var! "clojure.core" "boolean?" jolt-boolean-pred?) (def-var! "clojure.core" "boolean" jolt-boolean) (def-var! "clojure.core" "name" jolt-name) (def-var! "clojure.core" "namespace" jolt-namespace) - -;; --- jolt.host raw type-test primitives ------------------------------------- -;; Some clojure.core predicates bottom out at host tests overlay Clojure can't -;; reach. Expose the ones the migratable predicates need so the overlay versions -;; lower to exactly these calls — no perf loss. rational-type? is the Chez TYPE -;; test (exact rational), distinct from clojure.core/rational? (which gates on -;; number? first). exact? is wrapped TOTAL (Chez's raw exact? errors on a -;; non-number); rational-type? already returns #f for a non-match. -;; -;; Only the tests consumed by the migrated predicates (ratio?/rational? -> exact?, -;; rational-type?; list? -> cseq?/cseq-list?/empty-list?) are exposed. The rest of -;; the predicate web stays native and is NOT exposed: map?/set?/seq?/coll? are -;; extended at runtime with sorted/record/lazy arms, decimal? is extended by the -;; optional bigdec module, integer?/float? are on the compiler emit/inference path, -;; and vector? is reached by the kernel-tier peek during bootstrap. -(define (jh-exact? x) (and (number? x) (exact? x))) -(def-var! "jolt.host" "exact?" jh-exact?) -(def-var! "jolt.host" "rational-type?" rational?) -(def-var! "jolt.host" "cseq?" cseq?) -(def-var! "jolt.host" "empty-list?" empty-list-t?) -(def-var! "jolt.host" "cseq-list?" cseq-list?) diff --git a/host/chez/reader.ss b/host/chez/reader.ss index 068bfa3..ddf6a55 100644 --- a/host/chez/reader.ss +++ b/host/chez/reader.ss @@ -48,24 +48,12 @@ (define (rdr-digit? c) (and (char>=? c #\0) (char<=? c #\9))) (define (rdr-octal? c) (and (char>=? c #\0) (char<=? c #\7))) -(define (rdr-all-digits? s from to) - (and (> to from) - (let loop ((i from)) - (cond ((>= i to) #t) - ((rdr-digit? (string-ref s i)) (loop (+ i 1))) - (else #f))))) ;; every char of s in [from,to) is an octal digit (and the span is non-empty). (define (rdr-all-octal? s from to) (and (fx= j end) (char=? (string-ref s j) #\newline) - (char=? (string-ref s j) #\return)) + (if (or (>= j end) (char=? (string-ref s j) #\newline)) (loop j) (eol (+ j 1))))) (else i)))) @@ -128,17 +115,12 @@ (slash (rdr-string-index-char body #\/))) (cond ;; ratio a/b -> exact rational (= JVM Ratio); reduces to an exact integer - ;; when d divides n. Both parts must be plain digit runs (1/-1 is an - ;; invalid token); a zero denominator is the JVM's divide error. + ;; when d divides n. (slash - (let ((ns (substring body 0 slash)) - (ds (substring body (+ slash 1) blen))) - (and (rdr-all-digits? ns 0 (string-length ns)) - (rdr-all-digits? ds 0 (string-length ds)) - (let ((n (string->number ns)) (d (string->number ds))) - (when (= d 0) - (jolt-throw (jolt-host-throwable "java.lang.ArithmeticException" "Divide by zero"))) - (* sign (/ n d)))))) + (let ((n (string->number (substring body 0 slash))) + (d (string->number (substring body (+ slash 1) blen)))) + (and (integer? n) (integer? d) (not (= d 0)) + (* sign (/ n d))))) ;; hex 0x.. ((and (>= blen 2) (char=? (string-ref body 0) #\0) (or (char=? (string-ref body 1) #\x) (char=? (string-ref body 1) #\X))) @@ -157,11 +139,6 @@ ;; elsewhere or fall through (a non-octal digit fails rdr-all-octal?). ((and (>= blen 2) (char=? (string-ref body 0) #\0) (rdr-all-octal? body 1 blen)) (let ((o (rdr-parse-radix (substring body 1 blen) 8))) (and o (* sign o)))) - ;; a leading zero on a plain multi-digit integer is invalid (the octal - ;; branch above accepted real octals; 08/09 match the JVM's trailing - ;; "invalid number" alternative) - ((and (>= blen 2) (char=? (string-ref body 0) #\0) (rdr-all-digits? body 1 blen)) - #f) ;; bigint suffix N ((and (> blen 1) (char=? (string-ref body (- blen 1)) #\N)) (let ((n (string->number (substring body 0 (- blen 1))))) @@ -193,7 +170,7 @@ ;; opening quote already consumed; read to the closing quote, processing escapes. (define (rdr-read-string-lit s i end) (let loop ((i i) (acc '())) - (when (>= i end) (jolt-throw (jolt-ex-info "EOF while reading string" empty-pmap))) + (when (>= i end) (jolt-throw (jolt-ex-info "EOF while reading string" (empty-pmap)))) (let ((c (string-ref s i))) (cond ((char=? c #\") (values (list->string (reverse acc)) (+ i 1))) @@ -213,10 +190,7 @@ (let oct ((j (+ i 1)) (val 0) (cnt 0)) (if (and (fxinteger (string-ref s j)) 48)) (fx+ cnt 1)) - (begin - (when (> val 255) - (jolt-throw (jolt-ex-info "Octal escape sequence must be in range [0, 377]" empty-pmap))) - (loop j (cons (integer->char val) acc)))))) + (loop j (cons (integer->char val) acc))))) ((#\u) (let-values (((cp j) (rdr-hex->int s (+ i 2) 4))) ;; A \u escape is a UTF-16 code unit. jolt chars are Unicode scalars, @@ -234,13 +208,12 @@ (loop j (cons #\xFFFD acc))))) ((and (fx>=? cp #xD800) (fx<=? cp #xDFFF)) (loop j (cons #\xFFFD acc))) (else (loop j (cons (integer->char cp) acc)))))) - (else (jolt-throw (jolt-ex-info (string-append "Unsupported escape character: \\" (string e)) - empty-pmap)))))) + (else (loop (+ i 2) (cons e acc)))))) (else (loop (+ i 1) (cons c acc))))))) ;; backslash already consumed; read a Clojure character literal. (define (rdr-read-char s i end) - (when (>= i end) (jolt-throw (jolt-ex-info "EOF while reading char" empty-pmap))) + (when (>= i end) (jolt-throw (jolt-ex-info "EOF while reading char" (empty-pmap)))) (let ((c0 (string-ref s i))) (if (char-alphabetic? c0) ;; named / unicode / single-letter: collect the alnum run @@ -267,12 +240,9 @@ ((char=? (string-ref name 0) #\u) (integer->char (string->number (substring name 1 (string-length name)) 16))) ((char=? (string-ref name 0) #\o) - (let ((v (string->number (substring name 1 (string-length name)) 8))) - (when (or (not v) (> v 255)) - (jolt-throw (jolt-ex-info "Octal escape sequence must be in range [0, 377]" empty-pmap))) - (integer->char v))) + (integer->char (string->number (substring name 1 (string-length name)) 8))) (else (jolt-throw (jolt-ex-info (string-append "Unsupported character: \\" name) - empty-pmap))))) + (empty-pmap)))))) ;; --- token (symbol / keyword / number / nil|true|false) --------------------- (define (rdr-read-token s i end) @@ -288,39 +258,14 @@ (values #f tok) (values (substring tok 0 slash) (substring tok (+ slash 1) (string-length tok)))))) -(define (rdr-numeric-lead? tok) - (let ((len (string-length tok))) - (and (> len 0) - (let ((c0 (string-ref tok 0))) - (or (rdr-digit? c0) - (and (or (char=? c0 #\+) (char=? c0 #\-)) (> len 1) - (rdr-digit? (string-ref tok 1)))))))) -(define (rdr-invalid-token tok) - (jolt-throw (jolt-host-throwable "java.lang.RuntimeException" - (string-append "Invalid token: " tok)))) (define (rdr-token->value tok) (let ((n (rdr-try-number tok))) (cond (n n) - ;; a token that starts like a number but doesn't parse as one is an - ;; invalid number (1a, 08, 0x2g, 2r2), never a symbol — like the JVM. - ((rdr-numeric-lead? tok) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - (string-append "Invalid number: " tok)))) ((string=? tok "nil") jolt-nil) ((string=? tok "true") #t) ((string=? tok "false") #f) - (else - (let ((len (string-length tok))) - ;; a lone "/" is the division symbol, and "ns//" names it in a - ;; namespace (clojure.core//); otherwise a leading or trailing slash - ;; leaves an empty ns/name part — an invalid token. - (when (and (> len 1) - (or (char=? (string-ref tok 0) #\/) - (and (char=? (string-ref tok (- len 1)) #\/) - (not (and (> len 2) (char=? (string-ref tok (- len 2)) #\/)))))) - (rdr-invalid-token tok)) - (let-values (((ns name) (rdr-sym-parts tok))) (jolt-symbol ns name))))))) + (else (let-values (((ns name) (rdr-sym-parts tok))) (jolt-symbol ns name)))))) ;; --- collections ------------------------------------------------------------ ;; Read forms until the close delimiter; returns (values reversed?-no list j). @@ -328,7 +273,7 @@ (let loop ((i i) (acc '())) (let ((i (rdr-skip-ws s i end))) (cond - ((>= i end) (jolt-throw (jolt-ex-info "EOF while reading" empty-pmap))) + ((>= i end) (jolt-throw (jolt-ex-info "EOF while reading" (empty-pmap)))) ((char=? (string-ref s i) close) (values (reverse acc) (+ i 1))) (else (let-values (((form j) (rdr-read-form s i end))) @@ -344,14 +289,6 @@ ;; sequence in a weak side-table the host contract's form-map-pairs consults. (define rdr-map-order (make-weak-eq-hashtable)) (define (rdr-make-map es) - ;; the JVM reader rejects duplicate literal keys before building the map - (let dupchk ((kvs es) (seen empty-pset)) - (when (pair? kvs) - (let ((k (car kvs))) - (when (jolt-truthy? (jolt-contains? seen k)) - (jolt-throw (jolt-host-throwable "java.lang.IllegalArgumentException" - (string-append "Duplicate key: " (jolt-pr-str k))))) - (dupchk (cddr kvs) (pset-conj seen k))))) (let ((m (apply jolt-hash-map es))) (when (pair? es) (hashtable-set! rdr-map-order m es)) m)) @@ -515,7 +452,7 @@ (let* ((splice (and (< i end) (char=? (string-ref s i) #\@))) (start (if splice (+ i 1) i))) (let-values (((form j) (rdr-read-form s start end))) - (when (rdr-eof? form) (jolt-throw (jolt-ex-info "EOF after #?" empty-pmap))) + (when (rdr-eof? form) (jolt-throw (jolt-ex-info "EOF after #?" (empty-pmap)))) (let ((items (cond ((pvec? form) (seq->list form)) ((or (cseq? form) (empty-list-t? form)) (seq->list form)) (else '())))) @@ -556,7 +493,7 @@ (vector->list (pvec-v form)))) (else (jolt-throw (jolt-ex-info (string-append "Unreadable constructor form: #" tok) - empty-pmap)))))) + (empty-pmap))))))) ;; #:ns{…} namespaced map literal: a bare keyword/symbol key gets `ns`, a `:_/x` ;; key is un-namespaced, an already-qualified key stays. #::{…} uses the current @@ -584,7 +521,7 @@ (i2 (if auto? (+ i 1) i))) (let loop ((j i2)) (cond - ((>= j end) (jolt-throw (jolt-ex-info "EOF in namespaced map literal" empty-pmap))) + ((>= j end) (jolt-throw (jolt-ex-info "EOF in namespaced map literal" (empty-pmap)))) ((char=? (string-ref s j) #\{) (let* ((nstok (substring s i2 j)) (mapns (if auto? @@ -596,7 +533,7 @@ (else (loop (+ j 1))))))) (define (rdr-read-dispatch s i end) ; i points just past the '#' - (when (>= i end) (jolt-throw (jolt-ex-info "EOF after #" empty-pmap))) + (when (>= i end) (jolt-throw (jolt-ex-info "EOF after #" (empty-pmap)))) (let ((c (string-ref s i))) (cond ((char=? c #\{) ; #{...} set @@ -611,12 +548,8 @@ (let-values (((src j) (rdr-read-regex s (+ i 1) end))) (values (jolt-re-pattern src) j))) ((char=? c #\_) ; #_ discard the next form - (let-values (((d j) (rdr-read-form s (+ i 1) end))) - (when (rdr-eof? d) (jolt-throw (jolt-ex-info "EOF after #_" empty-pmap))) - ;; edn validates the discarded element (its tags go through the same - ;; :readers/:default pipeline; an unreadable one throws) - (let ((cb (rdr-discard-cb))) - (when cb (jolt-invoke cb d))) + (let-values (((_ j) (rdr-read-form s (+ i 1) end))) + (when (rdr-eof? _) (jolt-throw (jolt-ex-info "EOF after #_" (empty-pmap)))) (rdr-read-form s j end))) ((char=? c #\') ; #'x var-quote -> (var x) (let-values (((form j) (rdr-read-form s (+ i 1) end))) @@ -625,7 +558,7 @@ (let-values (((mform j) (rdr-read-form s (+ i 1) end))) (let-values (((target k) (rdr-read-form s j end))) (when (rdr-eof? target) - (jolt-throw (jolt-ex-info "EOF after #^meta" empty-pmap))) + (jolt-throw (jolt-ex-info "EOF after #^meta" (empty-pmap)))) (values (rdr-attach-meta target (rdr-meta-map mform)) k)))) ((char=? c #\#) ; ## symbolic value: ##Inf / ##-Inf / ##NaN (let-values (((tok j) (rdr-read-token s (+ i 1) end))) @@ -633,7 +566,7 @@ ((string=? tok "-Inf") -inf.0) ((string=? tok "NaN") +nan.0) (else (jolt-throw (jolt-ex-info (string-append "unknown ## literal: " tok) - empty-pmap)))) + (empty-pmap))))) j))) ((char=? c #\?) ; #?(...) / #?@(...) reader conditional (rdr-read-reader-cond s (+ i 1) end)) @@ -642,7 +575,7 @@ (else ; #tag form -> tagged {:tag :#tag :form ...} (let-values (((tok j) (rdr-read-token s i end))) (let-values (((form k) (rdr-read-form s j end))) - (when (rdr-eof? form) (jolt-throw (jolt-ex-info "EOF after #tag" empty-pmap))) + (when (rdr-eof? form) (jolt-throw (jolt-ex-info "EOF after #tag" (empty-pmap)))) (if (rdr-record-tag? tok) ; #ns.Type{..}/[..] record literal (values (rdr-record-ctor-form tok form) k) (values (rdr-make-tagged (keyword #f (string-append "#" tok)) form) k)))))))) @@ -651,7 +584,7 @@ ;; every other backslash sequence is kept verbatim (regex engine semantics). (define (rdr-read-regex s i end) (let loop ((i i) (acc '())) - (when (>= i end) (jolt-throw (jolt-ex-info "EOF while reading regex" empty-pmap))) + (when (>= i end) (jolt-throw (jolt-ex-info "EOF while reading regex" (empty-pmap)))) (let ((c (string-ref s i))) (cond ((char=? c #\") (values (list->string (reverse acc)) (+ i 1))) @@ -668,17 +601,6 @@ (let ((auto? (and (< i end) (char=? (string-ref s i) #\:)))) (let ((i (if auto? (+ i 1) i))) (let-values (((tok j) (rdr-read-token s i end))) - (let ((len (string-length tok))) - ;; ":" and "::" alone, a leading or trailing slash (a name of exactly - ;; "/" is fine, :ns//), or an auto-resolved keyword in edn (no - ;; resolution context) are invalid tokens. - (when (or (= len 0) - (and (> len 1) (char=? (string-ref tok 0) #\/)) - (and (> len 1) (char=? (string-ref tok (- len 1)) #\/) - (not (and (> len 2) (char=? (string-ref tok (- len 2)) #\/))))) - (rdr-invalid-token (string-append (if auto? "::" ":") tok))) - (when (and auto? (rdr-edn-mode)) - (rdr-invalid-token (string-append "::" tok)))) (let-values (((ns name) (rdr-sym-parts tok))) (if auto? (let* ((cur (chez-current-ns)) @@ -716,7 +638,7 @@ ;; inert: ``42 reads as 42, ```"meow" as "meow". ((char=? c #\`) (let-values (((form j) (rdr-read-form s (+ i 1) end))) - (when (rdr-eof? form) (jolt-throw (jolt-ex-info "EOF after `" empty-pmap))) + (when (rdr-eof? form) (jolt-throw (jolt-ex-info "EOF after `" (empty-pmap)))) (values (if (rdr-self-eval-literal? form) form (jolt-list (jolt-symbol #f "syntax-quote") form)) @@ -733,7 +655,7 @@ (let-values (((mform j) (rdr-read-form s (+ i 1) end))) (let-values (((target k) (rdr-read-form s j end))) (when (rdr-eof? target) - (jolt-throw (jolt-ex-info "EOF after ^meta" empty-pmap))) + (jolt-throw (jolt-ex-info "EOF after ^meta" (empty-pmap)))) (values (rdr-attach-meta target (rdr-meta-map mform)) k)))) (else (let-values (((tok j) (rdr-read-token s i end))) @@ -748,7 +670,7 @@ (define (rdr-wrap s i end head) (let-values (((form j) (rdr-read-form s i end))) (when (rdr-eof? form) - (jolt-throw (jolt-ex-info "EOF while reading reader macro" empty-pmap))) + (jolt-throw (jolt-ex-info "EOF while reading reader macro" (empty-pmap)))) (values (jolt-list head form) j))) ;; --- form -> data ----------------------------------------------------------- @@ -813,86 +735,20 @@ (let ((v (var-deref "clojure.core" "*default-data-reader-fn*"))) (and (not (jolt-nil? v)) (procedure? v) v)))) -;; strict #inst validation: RFC-3339 calendar fields must be real (month 1-12, -;; day valid for the month incl. leap years, hour < 24, minute/second < 60). -(define (rdr-2dig s i) - (and (< (+ i 1) (string-length s)) - (rdr-digit? (string-ref s i)) (rdr-digit? (string-ref s (+ i 1))) - (+ (* 10 (- (char->integer (string-ref s i)) 48)) - (- (char->integer (string-ref s (+ i 1))) 48)))) -(define (rdr-leap? y) (and (= 0 (modulo y 4)) (or (not (= 0 (modulo y 100))) (= 0 (modulo y 400))))) -(define (rdr-inst-throw s) - (jolt-throw (jolt-host-throwable "java.lang.RuntimeException" - (string-append "Unrecognized date/time syntax: " s)))) -(define (rdr-validate-inst! s) - ;; progressive RFC-3339 like clojure.instant: yyyy[-MM[-dd[Thh[:mm[:ss[.f]]]]]] - ;; with an optional Z/±hh:mm offset; each present field must be in range - ;; (months 1-12, day valid for the month incl. leap years, hour < 24, min < 60). - (let* ((len (string-length s)) - (y (and (>= len 4) (rdr-all-digits? s 0 4) (string->number (substring s 0 4))))) - (unless y (rdr-inst-throw s)) - (when (>= len 5) - (unless (char=? (string-ref s 4) #\-) (rdr-inst-throw s)) - (let ((mo (rdr-2dig s 5))) - (unless (and mo (>= mo 1) (<= mo 12)) (rdr-inst-throw s)) - (when (>= len 8) - (unless (char=? (string-ref s 7) #\-) (rdr-inst-throw s)) - (let ((d (rdr-2dig s 8))) - (unless (and d (>= d 1) - (<= d (vector-ref (if (rdr-leap? y) - '#(31 29 31 30 31 30 31 31 30 31 30 31) - '#(31 28 31 30 31 30 31 31 30 31 30 31)) - (- mo 1)))) - (rdr-inst-throw s)) - (when (>= len 11) - (unless (char=? (string-ref s 10) #\T) (rdr-inst-throw s)) - (let ((h (rdr-2dig s 11))) - (unless (and h (<= h 23)) (rdr-inst-throw s)) - (when (>= len 14) - (when (char=? (string-ref s 13) #\:) - (let ((mi (rdr-2dig s 14))) - (unless (and mi (<= mi 59)) (rdr-inst-throw s))))))))))))) -;; strict #uuid: canonical 8-4-4-4-12 hex groups. -(define (rdr-validate-uuid! s) - (define (hexrun? from to) - (let loop ((i from)) - (cond ((>= i to) #t) - ((let ((c (char-downcase (string-ref s i)))) - (or (rdr-digit? c) (and (char>=? c #\a) (char<=? c #\f)))) - (loop (+ i 1))) - (else #f)))) - (unless (and (= (string-length s) 36) - (char=? (string-ref s 8) #\-) (char=? (string-ref s 13) #\-) - (char=? (string-ref s 18) #\-) (char=? (string-ref s 23) #\-) - (hexrun? 0 8) (hexrun? 9 13) (hexrun? 14 18) (hexrun? 19 23) (hexrun? 24 36)) - (jolt-throw (jolt-host-throwable "java.lang.IllegalArgumentException" - (string-append "Invalid UUID string: " s))))) - ;; read-string / read data seam: construct the value for a #tag literal. #inst, ;; #uuid and #"regex" are built in; any other tag is applied from *data-readers*, ;; then *default-data-reader-fn*. An unregistered tag with no default handler stays ;; a tagged FORM (lenient — clojure.edn raises instead). (define (rdr-construct-tag tag inner) (cond - ((eq? tag (keyword #f "#inst")) - (when (string? inner) (rdr-validate-inst! inner)) - (jolt-inst-from-string inner)) - ((eq? tag (keyword #f "#uuid")) - (when (string? inner) (rdr-validate-uuid! inner)) - (jolt-uuid-from-string inner)) + ((eq? tag (keyword #f "#inst")) (jolt-inst-from-string inner)) + ((eq? tag (keyword #f "#uuid")) (jolt-uuid-from-string inner)) ((eq? tag (keyword #f "regex")) (jolt-re-pattern inner)) - ;; the M-literal form: construct the BigDecimal from its numeric text - ((eq? tag (keyword #f "bigdec")) (jolt-bigdec-from-string inner)) (else (let ((fn (rdr-data-reader-fn tag))) (if fn (jolt-invoke fn inner) (let ((dfn (rdr-default-data-reader-fn))) (if dfn (jolt-invoke dfn (rdr-tag->symbol tag) inner) - ;; no reader for the tag: a proper tagged-literal value, like - ;; Clojure's *default-data-reader-fn* (tagged-literal), so - ;; tagged-literal? / :tag / :form / printing all work — not the - ;; internal reader form. clojure.edn reads raw forms via - ;; __read-form-raw, so its :readers/:default path is unaffected. - (jolt-tagged-literal (rdr-tag->symbol tag) inner)))))))) + (rdr-make-tagged tag inner)))))))) ;; rdr-form->data*: convert the VALUE structure (set/tagged/nested forms). The ;; wrapper below adds the metadata, so the unchanged branches return x bare. @@ -904,11 +760,7 @@ (let ((items (jolt-get x rdr-kw-value))) (let loop ((i 0) (s empty-pset)) (if (fx>=? i (pvec-count items)) s - (let ((v (rdr-form->data (pvec-nth-d items i jolt-nil)))) - (when (jolt-truthy? (jolt-contains? s v)) - (jolt-throw (jolt-host-throwable "java.lang.IllegalArgumentException" - (string-append "Duplicate key: " (jolt-pr-str v))))) - (loop (fx+ i 1) (pset-conj s v))))))) + (loop (fx+ i 1) (pset-conj s (rdr-form->data (pvec-nth-d items i jolt-nil)))))))) ((pvec? x) (let-values (((items changed) (rdr-conv-each (vector->list (pvec-v x))))) (if changed (apply jolt-vector items) x))) @@ -933,35 +785,12 @@ (if (jolt-nil? m) v (jolt-with-meta v (rdr-form->data m))))) ;; --- the two host seams ----------------------------------------------------- -;; a top-level read: a stray close delimiter is unmatched (read-seq consumes the -;; close of an open collection; anything reaching here is unbalanced input). -(define (rdr-read-top s i end) - (let ((k (rdr-skip-ws s i end))) - (when (and (< k end) - (let ((c (string-ref s k))) - (or (char=? c #\)) (char=? c #\]) (char=? c #\})))) - (jolt-throw (jolt-ex-info (string-append "Unmatched delimiter: " - (string (string-ref s k))) - empty-pmap))) - (rdr-read-form s k end))) - ;; clojure.core/read-string: first form, or nil for blank / comment-only input ;; (parse-string wart, matched deliberately). jolt-read-form-raw keeps set FORMS ;; for the compiler spine (compile-eval); the data seam converts them to sets. (define (jolt-read-form-raw s) - (let-values (((form j) (rdr-read-top s 0 (string-length s)))) + (let-values (((form j) (rdr-read-form s 0 (string-length s)))) (if (rdr-eof? form) jolt-nil form))) - -;; the edn seam: strict mode (no auto-resolved keywords), each #_ discard handed -;; to the callback for tag validation, and a distinct EOF sentinel so the edn -;; layer can honor its :eof option (nil input is a plain EOF). -(define (jolt-read-form-edn s cb) - (if (jolt-nil? s) - (keyword "jolt" "reader-eof") - (parameterize ((rdr-edn-mode #t) - (rdr-discard-cb (if (jolt-nil? cb) #f cb))) - (let-values (((form j) (rdr-read-top s 0 (string-length s)))) - (if (rdr-eof? form) (keyword "jolt" "reader-eof") form))))) (define (jolt-read-string s) (let ((form (jolt-read-form-raw s))) (if (jolt-nil? form) form (rdr-form->data form)))) @@ -969,7 +798,7 @@ ;; __parse-next: [form rest-of-string] or nil when only whitespace/comments left. (define (jolt-parse-next s) (let ((end (string-length s))) - (let-values (((form j) (rdr-read-top s 0 end))) + (let-values (((form j) (rdr-read-form s 0 end))) (if (rdr-eof? form) jolt-nil (jolt-vector (rdr-form->data form) (substring s j end)))))) @@ -978,13 +807,8 @@ ;; is the :#name keyword the reader produced; #uuid/#inst reuse the inst-time ctors. (define (jolt-read-tagged tag form) (cond - ((eq? tag (keyword #f "#uuid")) - (when (string? form) (rdr-validate-uuid! form)) - (jolt-uuid-from-string form)) - ((eq? tag (keyword #f "#inst")) - (when (string? form) (rdr-validate-inst! form)) - (jolt-inst-from-string form)) - ((eq? tag (keyword #f "bigdec")) (jolt-bigdec-from-string form)) + ((eq? tag (keyword #f "#uuid")) (jolt-uuid-from-string form)) + ((eq? tag (keyword #f "#inst")) (jolt-inst-from-string form)) ;; No registered reader: consult *default-data-reader-fn*, else throw a clean, ;; catchable ex-info naming the tag, like the JVM's "No reader function for tag ;; foobar" (empty-pmap is a VALUE — the old (empty-pmap) applied it as a @@ -1004,4 +828,3 @@ ;; :default (a #inst can be overridden to defer), rather than read-string building ;; the built-in #inst eagerly (which fails on a non-string like #inst ^:ref […]). (def-var! "clojure.core" "__read-form-raw" jolt-read-form-raw) -(def-var! "clojure.core" "__read-form-edn" jolt-read-form-edn) diff --git a/host/chez/records.ss b/host/chez/records.ss index 806e9f8..ddbe0be 100644 --- a/host/chez/records.ss +++ b/host/chez/records.ss @@ -44,10 +44,6 @@ ;; resolves "Raw" to its real tag "a.util.Raw" here instead of prepending the ;; calling ns. The local ns is preferred, so a same-named local type still wins. (define chez-deftype-tag-set (make-hashtable string-hash string=?)) -;; ctor procedure -> its class tag: the type NAME var holds the ctor (a jolt-ism; -;; the JVM resolves it to the class), so class-key maps the ctor back to the -;; class for (ancestors TypeName) / (isa? x TypeName) / derive on the type. -(define chez-deftype-ctor-tag (make-weak-eq-hashtable)) (define chez-simple-name-tag (make-hashtable string-hash string=?)) ;; a jrec that is coll? — a record, or a deftype implementing a collection ;; interface (its seq/count/nth/valAt/cons method is registered). find-method-any- @@ -308,25 +304,7 @@ ;; implements a clojure.lang collection interface carries the op as an inline ;; method — prefer that method, else fall back to the field/map behavior. (jrec-cl ;; finds the method; find-method-any-protocol / jolt-invoke resolve at call time.) -;; Same lookup as collections.ss rec-coll-method — one definition, aliased here. -(define jrec-cl rec-coll-method) - -;; iface-method: the single deftype/reify interface-method lookup. Returns the -;; impl fn for METHOD declared by V (a deftype/record OR a reify), or #f. NARGS -;; (including `this`) selects the matching arity for a deftype; #f means any -;; arity. Core fns route interface dispatch through this instead of each -;; re-deriving jrec-vs-reify lookup and arity handling. -(define (iface-method v method nargs) - (cond ((jrec? v) - (if nargs (find-method-any-protocol-arity (jrec-tag v) method nargs) - (find-method-any-protocol (jrec-tag v) method))) - ((jreify? v) (let ((rm (reified-methods v))) (and rm (hashtable-ref rm method #f)))) - (else #f))) -;; Call METHOD on V with ARGS (a list, `this` excluded) if V declares it, else run -;; FALLBACK. The one seam a core fn's deftype/reify arm collapses to. -(define (iface-call v method args fallback) - (let ((m (iface-method v method (+ 1 (length args))))) - (if m (apply jolt-invoke m v args) (fallback)))) +(define (jrec-cl coll name) (and (jrec? coll) (find-method-any-protocol (jrec-tag coll) name))) (define %r-jolt-count jolt-count) (set! jolt-count (lambda (coll) (cond ((jrec-cl coll "count") => (lambda (m) (jolt-invoke m coll))) @@ -495,22 +473,24 @@ ((number? obj) '("Long" "Integer" "BigInteger" "BigInt" "Number" "Object")) ((string? obj) '("String" "CharSequence" "Object")) ((boolean? obj) '("Boolean" "Object")) - ((keyword? obj) (jch-tags "clojure.lang.Keyword")) - ((jolt-symbol? obj) (jch-tags "clojure.lang.Symbol")) - ((pvec? obj) (jch-tags "clojure.lang.PersistentVector")) - ((pmap? obj) (jch-tags "clojure.lang.PersistentArrayMap")) - ((pset? obj) (jch-tags "clojure.lang.PersistentHashSet")) + ((keyword? obj) '("Keyword" "Named" "Object")) + ((jolt-symbol? obj) '("Symbol" "Named" "Object")) + ((pvec? obj) '("PersistentVector" "APersistentVector" "IPersistentVector" "IPersistentCollection" + "List" "java.util.List" "Sequential" "Collection" "Iterable" "java.lang.Iterable" "Object")) + ((pmap? obj) '("PersistentArrayMap" "APersistentMap" "IPersistentMap" "Associative" + "Map" "java.util.Map" "Iterable" "java.lang.Iterable" "Object")) + ((pset? obj) '("PersistentHashSet" "APersistentSet" "IPersistentSet" "Set" "java.util.Set" "Collection" "Iterable" "java.lang.Iterable" "Object")) ;; jolt models every seq as a list (no distinct LazySeq), so a seq also ;; reports PersistentList / IPersistentList / IPersistentStack — extend-protocol ;; clojure.lang.IPersistentList (algo.monads' writer monad) dispatches on one. - ((or (cseq? obj) (empty-list-t? obj)) (jch-tags "clojure.lang.PersistentList")) + ((or (cseq? obj) (empty-list-t? obj)) '("PersistentList" "IPersistentList" "IPersistentStack" "ASeq" "ISeq" "IPersistentCollection" "Sequential" "Collection" "Iterable" "java.lang.Iterable" "Object")) ;; a lazy seq (map/filter/… result) is clojure.lang.LazySeq: a Sequential ;; ISeq, but not a PersistentList — matching the JVM so extend-protocol / ;; instance? on a deferred seq dispatch like an eager one where they should. - ((jolt-lazyseq? obj) (jch-tags "clojure.lang.LazySeq")) + ((jolt-lazyseq? obj) '("LazySeq" "ISeq" "IPersistentCollection" "Sequential" "Collection" "Iterable" "java.lang.Iterable" "Object")) ;; a var is clojure.lang.Var (also IDeref / IFn) — reitit's Expand protocol ;; extends to Var so a #'handler route dispatches. - ((var-cell? obj) (jch-tags "clojure.lang.Var")) + ((var-cell? obj) '("Var" "clojure.lang.Var" "IDeref" "IFn" "Object")) ;; java.net.URI jhost — extend-protocol java.net.URI (hiccup ToURI/ToStr). ((and (jhost? obj) (string=? (jhost-tag obj) "uri")) '("URI" "java.net.URI" "Object")) ;; a ByteBuffer — extend-protocol java.nio.ByteBuffer (aws-api util). @@ -561,7 +541,7 @@ ;; extended to both (data.json's JSONWriter) routes a sql.Date to its impl. ((and (jhost? obj) (string=? (jhost-tag obj) "sql-date")) '("java.sql.Date" "Date" "java.util.Date" "Object")) ;; a bare procedure (fn) — extend-protocol to clojure.lang.{Fn,IFn,AFn}. - ((procedure? obj) (jch-tags "clojure.lang.AFunction")) + ((procedure? obj) '("Fn" "IFn" "AFn" "Object")) ((jolt-nil? obj) '("nil")) ;; a defrecord IS the clojure.lang map/record interfaces, so a protocol ;; extended to IRecord / IPersistentMap / Associative / Seqable / … (and not @@ -607,26 +587,14 @@ (number? a) (not (flonum? a))) (exact->inexact a) a)) (loop (cdr as) (+ i 1))))))))) - ;; Register the ctor under its fully-qualified tag ("ns.Name") — a bare - ;; (Name. …) in the DEFINING ns is qualified to this by the analyzer, so a - ;; deftype whose simple name collides with a built-in host class (tools.reader's - ;; PushbackReader vs java.io.PushbackReader) still resolves correctly there. - (register-class-ctor! tag ctor) - ;; Also register the simple name so (Name. …) resolves ns-agnostically across - ;; files — BUT never clobber a built-in host class of the same simple name (an - ;; unrelated ns's bare (Name. …) must still reach the built-in). A prior deftype - ;; (tracked in chez-simple-name-tag) is fine to overwrite (last def wins / redef). - (when (or (not (hashtable-ref class-ctors-tbl (symbol-t-name name-sym) #f)) - (hashtable-ref chez-simple-name-tag (symbol-t-name name-sym) #f)) - (register-class-ctor! (symbol-t-name name-sym) ctor)) + ;; Register the ctor globally by simple class name (like StringBuilder) so + ;; (Name. …) interop resolves ns-agnostically: a deftype used across files works + ;; even when the runtime current ns is the caller's, not the defining ns + ;; (host-new checks class-ctors-tbl before the current-ns var fallback). + (register-class-ctor! (symbol-t-name name-sym) ctor) ;; index the tag so a cross-ns extend-protocol resolves the bare type name. (hashtable-set! chez-deftype-tag-set tag #t) (hashtable-set! chez-simple-name-tag (symbol-t-name name-sym) tag) - ;; graft the type onto the class graph so isa?/supers/ancestors see it. A - ;; bare deftype is an IType; defrecord (which runs register-record-type! - ;; right after) replaces the row with the record interface set. - (jch-set-supers! tag '("clojure.lang.IType")) - (hashtable-set! chez-deftype-ctor-tag ctor tag) ;; record the shape for whole-program inference, keyed by the positional ;; ctor var "ns/->Name" the analyzer resolves a (->Name …) call to. (register-record-shape! (string-append (chez-current-ns) "/->" (symbol-t-name name-sym)) @@ -696,17 +664,7 @@ (strip-prefix type-name "java.time.") (strip-prefix type-name "clojure.lang.") type-name))) - ;; a host class if the literal set lists it OR the class graph models it — both - ;; feed value-host-tags (which emits the same bare segment), so a protocol - ;; extended to any modeled class keys under a tag the value reports. A - ;; deftype/defrecord is in the graph too (its ancestry), but its VALUES report - ;; the ns-qualified tag, not the bare segment — so a name that resolves to a - ;; deftype never canonicalizes through the graph arm. - (and (or (hashtable-ref host-type-set base #f) - (and (not (hashtable-ref chez-simple-name-tag type-name #f)) - (not (hashtable-ref chez-deftype-tag-set type-name #f)) - (or (jch-known? base) (jch-known? type-name)))) - base))) + (and (hashtable-ref host-type-set base #f) base))) ;; An extend/extend-type/extend-protocol registration marks the tag as an ;; extender of the protocol (recorded inside type-registry so the per-case prune ;; restores it). deftype/defrecord inline impls go through register-inline-method @@ -745,12 +703,6 @@ (let ((h (make-hashtable string-hash string=?))) (hashtable-set! type-registry tag h) h)))) (unless (hashtable-ref ti proto-name #f) (hashtable-set! ti proto-name (make-hashtable string-hash string=?)))) - ;; the protocol's interface joins the type's class ancestry, spelled like the - ;; JVM interface (munged ns; the defining ns is assumed to be the current one — - ;; the macro passes only the simple protocol name). - (let ((iface (string-append (jch-munge-segments (chez-current-ns)) "." proto-name))) - (jch-mark-interface! iface) - (jch-register-supers! (string-append (chez-current-ns) "." type-name) (list iface))) jolt-nil) ;; protocol-resolve: the impl procedure for obj — by record type tag, a reify's @@ -835,9 +787,14 @@ ;; "#". (def-var! "jolt.host" "condition-message" (lambda (c) (if (condition? c) (condition->message-string c) jolt-nil))) -(define (record-method-dispatch-base obj method-name rest-args) +(define (record-method-dispatch obj method-name rest-args) (let ((rest (if (jolt-nil? rest-args) '() (seq->list rest-args)))) (cond + ;; (.getClass x): universal Object method — the class token for any value + ;; (jolt has no Class objects; the token is the canonical name string, on + ;; which .getName/.getSimpleName work via the String method shim). + ((and (string=? method-name "getClass") (not (jrec? obj)) (not (jreify? obj))) + (jolt-class obj)) ((and (jrec? obj) (find-method-any-protocol-arity (jrec-tag obj) method-name (+ 1 (length rest)))) => (lambda (f) (apply jolt-invoke f obj rest))) ;; (.field inst): a deftype/record field read with no matching method. @@ -969,36 +926,6 @@ (else (error #f (string-append "No method " method-name " for value: " (jolt-pr-str obj))))))) -;; ---- method-dispatch arm registry ------------------------------------------ -;; A .method call (record-method-dispatch) is resolved by an ordered list of arms -;; (ascending priority), each (obj method-name rest-args) -> result | 'pass. -;; This replaces a stack of (set! record-method-dispatch ...) rebindings across -;; six files whose precedence was implicit in load order — priority is now -;; explicit data. record-method-dispatch-base is the final fallback (the -;; string/keyword/symbol/Object-method surface). A host shim / library registers -;; an arm with register-method-arm! instead of set!-wrapping the dispatcher. -(define method-dispatch-arms '()) ; list of (priority . arm), ascending priority -(define (register-method-arm! priority arm) - (set! method-dispatch-arms - (let ins ((as method-dispatch-arms)) - (cond ((null? as) (list (cons priority arm))) - ((< priority (caar as)) (cons (cons priority arm) as)) - (else (cons (car as) (ins (cdr as)))))))) -(define (record-method-dispatch obj method-name rest-args) - (let loop ((as method-dispatch-arms)) - (if (null? as) - (record-method-dispatch-base obj method-name rest-args) - (let ((r ((cdar as) obj method-name rest-args))) - (if (eq? r 'pass) (loop (cdr as)) r))))) - -;; (.getClass x): a universal Object method reached by EVERY value before any -;; per-type arm — the class token for the value (jolt has no Class objects; the -;; token is the canonical name string, on which .getName/.getSimpleName work). -;; One arm, so a type arm that only whitelists its own methods can't steal it. -(register-method-arm! 5 - (lambda (obj method-name rest-args) - (if (string=? method-name "getClass") (jolt-class obj) 'pass))) - ;; reify: instance-local method table. obj is a jreify carrying a method ht + ;; the protocol short-names it implements (for satisfies?/instance?). (define-record-type jreify (fields methods protos) (nongenerative chez-jreify-v1)) @@ -1070,18 +997,8 @@ ;; defrecord marks its type a record (deftype does not), keyed by the same ;; "ns.Name" tag make-deftype-ctor bakes — so jrec-record? distinguishes the two. (define (register-record-type! name-sym) - (let ((tag (string-append (chez-current-ns) "." (symbol-t-name name-sym)))) - (hashtable-set! chez-record-type-tbl tag #t) - ;; a defrecord's class ancestry: replace the deftype IType row with the - ;; record interfaces (their closure supplies Associative/Seqable/ILookup/…), - ;; keeping any protocol interfaces already grafted by the inline - ;; registrations that ran between the deftype ctor and this call. - (let ((protos (filter (lambda (s) (not (string=? s "clojure.lang.IType"))) - (jch-direct-supers tag)))) - (jch-set-supers! tag (append protos - '("clojure.lang.IRecord" "clojure.lang.IObj" - "clojure.lang.IPersistentMap" "java.util.Map" - "clojure.lang.IHashEq" "java.io.Serializable"))))) + (hashtable-set! chez-record-type-tbl + (string-append (chez-current-ns) "." (symbol-t-name name-sym)) #t) jolt-nil) (def-var! "clojure.core" "register-record-type!" register-record-type!) (def-var! "clojure.core" "make-protocol" make-protocol) diff --git a/host/chez/regex.ss b/host/chez/regex.ss index d320284..88ad864 100644 --- a/host/chez/regex.ss +++ b/host/chez/regex.ss @@ -159,23 +159,10 @@ ;; A jolt regex value: the source string (for printing / str) + the compiled ;; irregex. regex? recognizes it; the printer renders #"source". (define-record-type regex-t (fields source irx) (nongenerative jolt-regex-v1)) -;; A capturing pattern is compiled with irregex's BACKTRACKING matcher ('backtrack), -;; not its DFA. java.util.regex is itself a leftmost-first backtracking engine, so -;; this matches the JVM's submatch semantics; irregex's DFA is POSIX leftmost-longest -;; and, worse, leaks a non-participating alternation group's capture (e.g. -;; #"(?:([0-9])|([0-9])r([0-9]+))" on "2r11" left group 1 = "2"), which broke -;; tools.reader's number reader. Non-capturing patterns keep the fast DFA — with no -;; groups to read, its whole-match result is all a caller sees. The count comes from -;; a first cheap compile; a capturing pattern is recompiled once (patterns compile -;; once and cache in the regex-t). (define (jolt-regex source) (let-values (((opts pat) (regex-parse-flags source))) - (let* ((p (translate-prop-classes (escape-class-shorthand-dash pat))) - (irx (apply irregex p opts))) - (make-regex-t source - (if (> (irregex-num-submatches irx) 0) - (apply irregex p 'backtrack opts) - irx))))) + (make-regex-t source + (apply irregex (translate-prop-classes (escape-class-shorthand-dash pat)) opts)))) (define (jolt-regex? x) (regex-t? x)) (define (jolt-re-pattern x) (if (regex-t? x) x (jolt-regex x))) diff --git a/host/chez/rt.ss b/host/chez/rt.ss index 0649697..fab5338 100644 --- a/host/chez/rt.ss +++ b/host/chez/rt.ss @@ -11,17 +11,6 @@ ;; Emitted programs do `(load "host/chez/rt.ss")`; this loads values.ss in turn. (load "host/chez/values.ss") -;; Resolve a libc entry point at RUN time. A literal (foreign-procedure "name" …) -;; in COMPILED code becomes a fasl relocation resolved when the boot loads — on a -;; platform lacking the symbol (chmod/sigaddset on Windows) that kills the boot -;; before any guard can run. eval defers the lookup to evaluation time, where the -;; guard works; returns #f when the entry doesn't exist. -(define (jolt-foreign-proc-safe name args res) - (guard (e (#t #f)) - (load-shared-object #f) - (and (foreign-entry? name) - (eval `(foreign-procedure ,name ,args ,res))))) - (load "host/chez/collections.ss") (load "host/chez/seq.ss") @@ -48,142 +37,16 @@ (define (jolt-not x) (if (jolt-truthy? x) #f #t)) ;; --- exceptions -------------------------------------------------------------- -;; throw raises a Chez condition WRAPPING the jolt value; catch (emitted as -;; `guard`) and jolt-report-uncaught unwrap it back via jolt-unwrap-throw. -;; Raising the value RAW broke when a throw crossed the host/`eval` boundary: -;; Chez re-wrapped the non-condition into a compound condition whose -;; message-extraction APPLIES the value (crashing on an empty-map :data -> -;; "attempt to apply non-procedure"), and the real message was lost. A real -;; condition propagates intact through any number of eval boundaries. +;; throw raises the jolt value RAW (no envelope); +;; catch (emitted as `guard`) binds it directly. Chez `raise` accepts any +;; object, so a thrown number/map/ex-info all work; uncaught -> non-zero exit. ;; Capture the live continuation at the throw site (identity-tagged with the ;; thrown value) so an uncaught error can walk the native frames back to a Clojure ;; stack trace (source-registry.ss). call/cc is paid only on a throw, never per ;; call; the captured k is walked, never invoked. (define jolt-throw-cont (make-thread-parameter #f)) - -;; --- tail-frame history: a ring of rings (opt-in) ---------------------------- -;; TCO erases tail-called frames from the native continuation, so an uncaught -;; error's backtrace shows only the surviving non-tail spine — the immediate error -;; site is often a tail call and is missing. When tracing is enabled (JOLT_TRACE, -;; wired in compile-eval.ss), each compiled fn records its frame-name on entry, and -;; the reporter reads this history to recover TCO-elided frames. -;; -;; The store is MIT-Scheme's "history" shape — a ring of rings. The OUTER ring -;; holds one RIB per non-tail subproblem (the real call spine); each rib's INNER -;; ring holds the recent tail-calls made AT that subproblem. A non-tail entry -;; advances the outer ring (a fresh rib); a tail entry rotates the current rib's -;; inner ring. So a tight tail loop (mutual recursion, a non-recur self-tail-call) -;; churns ONE rib's small inner ring instead of flushing the outer spine — the -;; caller context that led into the loop survives. Both rings are fixed-size, so -;; the whole history is bounded: a constant space factor, NOT a change to the -;; asymptotic space TCO guarantees. -;; -;; Whether an entry is tail or non-tail is set by the CALLER: the emitter marks a -;; tail call with (jolt-trace-mark! #t) right before it; a non-tail entry is the -;; default. NOTE this is best-effort: a tail call routed through jolt-invoke to a -;; target that has no entry prologue (a core/native fn, an anonymous fn held in a -;; var) does not consume the mark, so a following non-tail frame can be mislabeled -;; as a tail rotation — a cosmetic mis-grouping in the trace, never a wrong result. -(define jolt-trace-outer-size 48) ; ribs (non-tail spine depth kept) -(define jolt-trace-inner-size 6) ; tail-calls kept per subproblem -;; A history: #(ribs-vector outer-head outer-count). A rib: #(name-vector head count). -(define (jolt-make-rib) (vector (make-vector jolt-trace-inner-size #f) 0 0)) -(define (jolt-make-history) - (let ((ribs (make-vector jolt-trace-outer-size #f))) - (let loop ((i 0)) - (when (fx? k cnt) - (reverse acc) - (loop (fx+ k 1) - (cons (vector-ref buf (fxmod (fx+ (fx- head k) jolt-trace-inner-size) - jolt-trace-inner-size)) - acc)))))) -;; The whole history flattened to frame-names, most-recent (deepest) first: -;; current rib's tail-history, then its non-tail caller's, and so on outward. -(define (jolt-trace-snapshot) - (let ((h (jolt-trace-ring))) - (if (not h) '() - (let* ((ribs (vector-ref h 0)) (oh (vector-ref h 1)) (oc (vector-ref h 2))) - (let loop ((k 1) (acc '())) - (if (fx>? k oc) - (apply append (reverse acc)) - (let ((idx (fxmod (fx+ (fx- oh k) jolt-trace-outer-size) jolt-trace-outer-size))) - (loop (fx+ k 1) (cons (jolt-rib-names (vector-ref ribs idx)) acc))))))))) - -(define-condition-type &jolt-throw &condition - make-jolt-throw-condition jolt-throw-condition? - (value jolt-throw-condition-value)) -;; Fallback &message for a leaked condition; the real message always comes from -;; the unwrapped value via ex-message. -(define (jolt-throw-message v) - (if (and (pmap? v) - (jolt=2 (jolt-get v jolt-kw-ex-type jolt-nil) jolt-kw-ex-info)) - (let ((m (jolt-get v jolt-kw-message jolt-nil))) - (if (string? m) m "jolt error")) - "jolt error")) (define (jolt-throw v) - (call/cc (lambda (k) - (jolt-throw-cont (cons v k)) - (raise (condition (make-message-condition (jolt-throw-message v)) - (make-jolt-throw-condition v)))))) -(define (jolt-unwrap-throw x) - (if (jolt-throw-condition? x) (jolt-throw-condition-value x) x)) + (call/cc (lambda (k) (jolt-throw-cont (cons v k)) (raise v)))) ;; ex-info builds the tagged map {:jolt/type :jolt/ex-info :message :data :cause} ;; — a real jolt-hash-map, so the ex-data/ex-message/ex-cause tier fns read it ;; via jolt-get for free. Arity 2 (msg data) or 3 (msg data cause). @@ -473,11 +336,6 @@ ;; jolt-pr-str (above), and the var-cell machinery — so loaded last. (load "host/chez/multimethods.ss") -;; the single JVM class/interface graph — value-host-tags, instance?, isa?/supers, -;; and the exception hierarchy all derive from it. Before records.ss so -;; value-host-tags can build on jch-tags. -(load "host/chez/java/class-hierarchy.ss") - ;; records + protocols: defrecord/deftype/defprotocol/ ;; extend-type/reify. A jrec record type set!-extended into the collection ;; dispatchers + a protocol registry. After multimethods.ss (chez-current-ns) and diff --git a/host/chez/run-corpus.ss b/host/chez/run-corpus.ss index 4dbad37..d581f0b 100644 --- a/host/chez/run-corpus.ss +++ b/host/chez/run-corpus.ss @@ -11,7 +11,7 @@ ;; reset between cases so there is no leakage — same isolation a fresh process gives. ;; ;; chez --script host/chez/run-corpus.ss -;; JOLT_CHEZ_ZJ_FLOOR=N override the regression floor (default 3390) +;; JOLT_CHEZ_ZJ_FLOOR=N override the regression floor (default 2730) ;; JOLT_CORPUS_LIMIT=N every-Nth stride (fast iteration; floor drops to 0) ;; JOLT_DUMP_CRASH_LABELS=1 list crash + allowlisted labels (import (chezscheme)) @@ -196,7 +196,7 @@ ;; Regression floor: fail on any NEW divergence or if pass drops below the floor. (define base-floor (let ((s (getenv "JOLT_CHEZ_ZJ_FLOOR"))) - (if s (string->number s) 3390))) + (if s (string->number s) 2730))) (define floor (if limit 0 base-floor)) (when (or (> (length diverged) 0) (< pass floor)) (printf "REGRESSION: pass ~a < floor ~a or ~a new divergence(s)\n" diff --git a/host/chez/seed/image.ss b/host/chez/seed/image.ss index c51e971..08e8324 100644 --- a/host/chez/seed/image.ss +++ b/host/chez/seed/image.ss @@ -1,636 +1,616 @@ (guard (e (#t #f)) - (def-var! "jolt.ir" "const" (letrec ((const (lambda (v) (let fnrec8455 ((v v)) (let* ((_o$8456 (keyword #f "op")) (_o$8457 (keyword #f "const")) (_o$8458 (keyword #f "val")) (_o$8459 v)) (jolt-hash-map _o$8456 _o$8457 _o$8458 _o$8459)))))) const))) + (def-var! "jolt.ir" "const" (letrec ((const (lambda (v) (let fnrec8296 ((v v)) (let* ((_o$8297 (keyword #f "op")) (_o$8298 (keyword #f "const")) (_o$8299 (keyword #f "val")) (_o$8300 v)) (jolt-hash-map _o$8297 _o$8298 _o$8299 _o$8300)))))) const))) (guard (e (#t #f)) - (def-var! "jolt.ir" "local" (letrec ((local (lambda (name) (let fnrec8460 ((name name)) (let* ((_o$8461 (keyword #f "op")) (_o$8462 (keyword #f "local")) (_o$8463 (keyword #f "name")) (_o$8464 name)) (jolt-hash-map _o$8461 _o$8462 _o$8463 _o$8464)))))) local))) + (def-var! "jolt.ir" "local" (letrec ((local (lambda (name) (let fnrec8301 ((name name)) (let* ((_o$8302 (keyword #f "op")) (_o$8303 (keyword #f "local")) (_o$8304 (keyword #f "name")) (_o$8305 name)) (jolt-hash-map _o$8302 _o$8303 _o$8304 _o$8305)))))) local))) (guard (e (#t #f)) - (def-var! "jolt.ir" "var-ref" (letrec ((var-ref (lambda (ns name) (let fnrec8465 ((ns ns) (name name)) (let* ((_o$8466 (keyword #f "op")) (_o$8467 (keyword #f "var")) (_o$8468 (keyword #f "ns")) (_o$8469 ns) (_o$8470 (keyword #f "name")) (_o$8471 name)) (jolt-hash-map _o$8466 _o$8467 _o$8468 _o$8469 _o$8470 _o$8471)))))) var-ref))) + (def-var! "jolt.ir" "var-ref" (letrec ((var-ref (lambda (ns name) (let fnrec8306 ((ns ns) (name name)) (let* ((_o$8307 (keyword #f "op")) (_o$8308 (keyword #f "var")) (_o$8309 (keyword #f "ns")) (_o$8310 ns) (_o$8311 (keyword #f "name")) (_o$8312 name)) (jolt-hash-map _o$8307 _o$8308 _o$8309 _o$8310 _o$8311 _o$8312)))))) var-ref))) (guard (e (#t #f)) - (def-var! "jolt.ir" "the-var" (letrec ((the-var (lambda (ns name) (let fnrec8472 ((ns ns) (name name)) (let* ((_o$8473 (keyword #f "op")) (_o$8474 (keyword #f "the-var")) (_o$8475 (keyword #f "ns")) (_o$8476 ns) (_o$8477 (keyword #f "name")) (_o$8478 name)) (jolt-hash-map _o$8473 _o$8474 _o$8475 _o$8476 _o$8477 _o$8478)))))) the-var))) + (def-var! "jolt.ir" "the-var" (letrec ((the-var (lambda (ns name) (let fnrec8313 ((ns ns) (name name)) (let* ((_o$8314 (keyword #f "op")) (_o$8315 (keyword #f "the-var")) (_o$8316 (keyword #f "ns")) (_o$8317 ns) (_o$8318 (keyword #f "name")) (_o$8319 name)) (jolt-hash-map _o$8314 _o$8315 _o$8316 _o$8317 _o$8318 _o$8319)))))) the-var))) (guard (e (#t #f)) - (def-var! "jolt.ir" "host-ref" (letrec ((host-ref (lambda (name) (let fnrec8479 ((name name)) (let* ((_o$8480 (keyword #f "op")) (_o$8481 (keyword #f "host")) (_o$8482 (keyword #f "name")) (_o$8483 name)) (jolt-hash-map _o$8480 _o$8481 _o$8482 _o$8483)))))) host-ref))) + (def-var! "jolt.ir" "host-ref" (letrec ((host-ref (lambda (name) (let fnrec8320 ((name name)) (let* ((_o$8321 (keyword #f "op")) (_o$8322 (keyword #f "host")) (_o$8323 (keyword #f "name")) (_o$8324 name)) (jolt-hash-map _o$8321 _o$8322 _o$8323 _o$8324)))))) host-ref))) (guard (e (#t #f)) - (def-var! "jolt.ir" "host-static" (letrec ((host-static (lambda (class member) (let fnrec8484 ((class class) (member member)) (let* ((_o$8485 (keyword #f "op")) (_o$8486 (keyword #f "host-static")) (_o$8487 (keyword #f "class")) (_o$8488 class) (_o$8489 (keyword #f "member")) (_o$8490 member)) (jolt-hash-map _o$8485 _o$8486 _o$8487 _o$8488 _o$8489 _o$8490)))))) host-static))) + (def-var! "jolt.ir" "host-static" (letrec ((host-static (lambda (class member) (let fnrec8325 ((class class) (member member)) (let* ((_o$8326 (keyword #f "op")) (_o$8327 (keyword #f "host-static")) (_o$8328 (keyword #f "class")) (_o$8329 class) (_o$8330 (keyword #f "member")) (_o$8331 member)) (jolt-hash-map _o$8326 _o$8327 _o$8328 _o$8329 _o$8330 _o$8331)))))) host-static))) (guard (e (#t #f)) - (def-var! "jolt.ir" "host-new" (letrec ((host-new (lambda (class args) (let fnrec8491 ((class class) (args args)) (let* ((_o$8492 (keyword #f "op")) (_o$8493 (keyword #f "host-new")) (_o$8494 (keyword #f "class")) (_o$8495 class) (_o$8496 (keyword #f "args")) (_o$8497 args)) (jolt-hash-map _o$8492 _o$8493 _o$8494 _o$8495 _o$8496 _o$8497)))))) host-new))) + (def-var! "jolt.ir" "host-new" (letrec ((host-new (lambda (class args) (let fnrec8332 ((class class) (args args)) (let* ((_o$8333 (keyword #f "op")) (_o$8334 (keyword #f "host-new")) (_o$8335 (keyword #f "class")) (_o$8336 class) (_o$8337 (keyword #f "args")) (_o$8338 args)) (jolt-hash-map _o$8333 _o$8334 _o$8335 _o$8336 _o$8337 _o$8338)))))) host-new))) (guard (e (#t #f)) - (def-var! "jolt.ir" "if-node" (letrec ((if-node (lambda (test then _else) (let fnrec8498 ((test test) (then then) (_else _else)) (let* ((_o$8499 (keyword #f "op")) (_o$8500 (keyword #f "if")) (_o$8501 (keyword #f "test")) (_o$8502 test) (_o$8503 (keyword #f "then")) (_o$8504 then) (_o$8505 (keyword #f "else")) (_o$8506 _else)) (jolt-hash-map _o$8499 _o$8500 _o$8501 _o$8502 _o$8503 _o$8504 _o$8505 _o$8506)))))) if-node))) + (def-var! "jolt.ir" "if-node" (letrec ((if-node (lambda (test then _else) (let fnrec8339 ((test test) (then then) (_else _else)) (let* ((_o$8340 (keyword #f "op")) (_o$8341 (keyword #f "if")) (_o$8342 (keyword #f "test")) (_o$8343 test) (_o$8344 (keyword #f "then")) (_o$8345 then) (_o$8346 (keyword #f "else")) (_o$8347 _else)) (jolt-hash-map _o$8340 _o$8341 _o$8342 _o$8343 _o$8344 _o$8345 _o$8346 _o$8347)))))) if-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "do-node" (letrec ((do-node (lambda (statements ret) (let fnrec8507 ((statements statements) (ret ret)) (let* ((_o$8508 (keyword #f "op")) (_o$8509 (keyword #f "do")) (_o$8510 (keyword #f "statements")) (_o$8511 statements) (_o$8512 (keyword #f "ret")) (_o$8513 ret)) (jolt-hash-map _o$8508 _o$8509 _o$8510 _o$8511 _o$8512 _o$8513)))))) do-node))) + (def-var! "jolt.ir" "do-node" (letrec ((do-node (lambda (statements ret) (let fnrec8348 ((statements statements) (ret ret)) (let* ((_o$8349 (keyword #f "op")) (_o$8350 (keyword #f "do")) (_o$8351 (keyword #f "statements")) (_o$8352 statements) (_o$8353 (keyword #f "ret")) (_o$8354 ret)) (jolt-hash-map _o$8349 _o$8350 _o$8351 _o$8352 _o$8353 _o$8354)))))) do-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "invoke" (letrec ((invoke (lambda (f args) (let fnrec8514 ((f f) (args args)) (let* ((_o$8515 (keyword #f "op")) (_o$8516 (keyword #f "invoke")) (_o$8517 (keyword #f "fn")) (_o$8518 f) (_o$8519 (keyword #f "args")) (_o$8520 args)) (jolt-hash-map _o$8515 _o$8516 _o$8517 _o$8518 _o$8519 _o$8520)))))) invoke))) + (def-var! "jolt.ir" "invoke" (letrec ((invoke (lambda (f args) (let fnrec8355 ((f f) (args args)) (let* ((_o$8356 (keyword #f "op")) (_o$8357 (keyword #f "invoke")) (_o$8358 (keyword #f "fn")) (_o$8359 f) (_o$8360 (keyword #f "args")) (_o$8361 args)) (jolt-hash-map _o$8356 _o$8357 _o$8358 _o$8359 _o$8360 _o$8361)))))) invoke))) (guard (e (#t #f)) - (def-var! "jolt.ir" "def-node" (letrec ((def-node (case-lambda ((ns name init) (let fnrec8521 ((ns ns) (name name) (init init)) (let* ((_o$8522 (keyword #f "op")) (_o$8523 (keyword #f "def")) (_o$8524 (keyword #f "ns")) (_o$8525 ns) (_o$8526 (keyword #f "name")) (_o$8527 name) (_o$8528 (keyword #f "init")) (_o$8529 init)) (jolt-hash-map _o$8522 _o$8523 _o$8524 _o$8525 _o$8526 _o$8527 _o$8528 _o$8529)))) ((ns name init meta) (let fnrec8530 ((ns ns) (name name) (init init) (meta meta)) (if (jolt-truthy? meta) (let* ((_o$8531 (keyword #f "op")) (_o$8532 (keyword #f "def")) (_o$8533 (keyword #f "ns")) (_o$8534 ns) (_o$8535 (keyword #f "name")) (_o$8536 name) (_o$8537 (keyword #f "init")) (_o$8538 init) (_o$8539 (keyword #f "meta")) (_o$8540 meta)) (jolt-hash-map _o$8531 _o$8532 _o$8533 _o$8534 _o$8535 _o$8536 _o$8537 _o$8538 _o$8539 _o$8540)) (let* ((_o$8541 (keyword #f "op")) (_o$8542 (keyword #f "def")) (_o$8543 (keyword #f "ns")) (_o$8544 ns) (_o$8545 (keyword #f "name")) (_o$8546 name) (_o$8547 (keyword #f "init")) (_o$8548 init)) (jolt-hash-map _o$8541 _o$8542 _o$8543 _o$8544 _o$8545 _o$8546 _o$8547 _o$8548)))))))) def-node))) + (def-var! "jolt.ir" "def-node" (letrec ((def-node (case-lambda ((ns name init) (let fnrec8362 ((ns ns) (name name) (init init)) (let* ((_o$8363 (keyword #f "op")) (_o$8364 (keyword #f "def")) (_o$8365 (keyword #f "ns")) (_o$8366 ns) (_o$8367 (keyword #f "name")) (_o$8368 name) (_o$8369 (keyword #f "init")) (_o$8370 init)) (jolt-hash-map _o$8363 _o$8364 _o$8365 _o$8366 _o$8367 _o$8368 _o$8369 _o$8370)))) ((ns name init meta) (let fnrec8371 ((ns ns) (name name) (init init) (meta meta)) (if (jolt-truthy? meta) (let* ((_o$8372 (keyword #f "op")) (_o$8373 (keyword #f "def")) (_o$8374 (keyword #f "ns")) (_o$8375 ns) (_o$8376 (keyword #f "name")) (_o$8377 name) (_o$8378 (keyword #f "init")) (_o$8379 init) (_o$8380 (keyword #f "meta")) (_o$8381 meta)) (jolt-hash-map _o$8372 _o$8373 _o$8374 _o$8375 _o$8376 _o$8377 _o$8378 _o$8379 _o$8380 _o$8381)) (let* ((_o$8382 (keyword #f "op")) (_o$8383 (keyword #f "def")) (_o$8384 (keyword #f "ns")) (_o$8385 ns) (_o$8386 (keyword #f "name")) (_o$8387 name) (_o$8388 (keyword #f "init")) (_o$8389 init)) (jolt-hash-map _o$8382 _o$8383 _o$8384 _o$8385 _o$8386 _o$8387 _o$8388 _o$8389)))))))) def-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "let-node" (letrec ((let-node (lambda (bindings body) (let fnrec8549 ((bindings bindings) (body body)) (let* ((_o$8550 (keyword #f "op")) (_o$8551 (keyword #f "let")) (_o$8552 (keyword #f "bindings")) (_o$8553 bindings) (_o$8554 (keyword #f "body")) (_o$8555 body)) (jolt-hash-map _o$8550 _o$8551 _o$8552 _o$8553 _o$8554 _o$8555)))))) let-node))) + (def-var! "jolt.ir" "let-node" (letrec ((let-node (lambda (bindings body) (let fnrec8390 ((bindings bindings) (body body)) (let* ((_o$8391 (keyword #f "op")) (_o$8392 (keyword #f "let")) (_o$8393 (keyword #f "bindings")) (_o$8394 bindings) (_o$8395 (keyword #f "body")) (_o$8396 body)) (jolt-hash-map _o$8391 _o$8392 _o$8393 _o$8394 _o$8395 _o$8396)))))) let-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "fn-node" (letrec ((fn-node (lambda (name arities) (let fnrec8556 ((name name) (arities arities)) (if (jolt-truthy? name) (let* ((_o$8557 (keyword #f "op")) (_o$8558 (keyword #f "fn")) (_o$8559 (keyword #f "name")) (_o$8560 name) (_o$8561 (keyword #f "arities")) (_o$8562 arities)) (jolt-hash-map _o$8557 _o$8558 _o$8559 _o$8560 _o$8561 _o$8562)) (let* ((_o$8563 (keyword #f "op")) (_o$8564 (keyword #f "fn")) (_o$8565 (keyword #f "arities")) (_o$8566 arities)) (jolt-hash-map _o$8563 _o$8564 _o$8565 _o$8566))))))) fn-node))) + (def-var! "jolt.ir" "fn-node" (letrec ((fn-node (lambda (name arities) (let fnrec8397 ((name name) (arities arities)) (if (jolt-truthy? name) (let* ((_o$8398 (keyword #f "op")) (_o$8399 (keyword #f "fn")) (_o$8400 (keyword #f "name")) (_o$8401 name) (_o$8402 (keyword #f "arities")) (_o$8403 arities)) (jolt-hash-map _o$8398 _o$8399 _o$8400 _o$8401 _o$8402 _o$8403)) (let* ((_o$8404 (keyword #f "op")) (_o$8405 (keyword #f "fn")) (_o$8406 (keyword #f "arities")) (_o$8407 arities)) (jolt-hash-map _o$8404 _o$8405 _o$8406 _o$8407))))))) fn-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "vector-node" (letrec ((vector-node (lambda (items) (let fnrec8567 ((items items)) (let* ((_o$8568 (keyword #f "op")) (_o$8569 (keyword #f "vector")) (_o$8570 (keyword #f "items")) (_o$8571 items)) (jolt-hash-map _o$8568 _o$8569 _o$8570 _o$8571)))))) vector-node))) + (def-var! "jolt.ir" "vector-node" (letrec ((vector-node (lambda (items) (let fnrec8408 ((items items)) (let* ((_o$8409 (keyword #f "op")) (_o$8410 (keyword #f "vector")) (_o$8411 (keyword #f "items")) (_o$8412 items)) (jolt-hash-map _o$8409 _o$8410 _o$8411 _o$8412)))))) vector-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "map-node" (letrec ((map-node (lambda (pairs) (let fnrec8572 ((pairs pairs)) (let* ((_o$8573 (keyword #f "op")) (_o$8574 (keyword #f "map")) (_o$8575 (keyword #f "pairs")) (_o$8576 pairs)) (jolt-hash-map _o$8573 _o$8574 _o$8575 _o$8576)))))) map-node))) + (def-var! "jolt.ir" "map-node" (letrec ((map-node (lambda (pairs) (let fnrec8413 ((pairs pairs)) (let* ((_o$8414 (keyword #f "op")) (_o$8415 (keyword #f "map")) (_o$8416 (keyword #f "pairs")) (_o$8417 pairs)) (jolt-hash-map _o$8414 _o$8415 _o$8416 _o$8417)))))) map-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "set-node" (letrec ((set-node (lambda (items) (let fnrec8577 ((items items)) (let* ((_o$8578 (keyword #f "op")) (_o$8579 (keyword #f "set")) (_o$8580 (keyword #f "items")) (_o$8581 items)) (jolt-hash-map _o$8578 _o$8579 _o$8580 _o$8581)))))) set-node))) + (def-var! "jolt.ir" "set-node" (letrec ((set-node (lambda (items) (let fnrec8418 ((items items)) (let* ((_o$8419 (keyword #f "op")) (_o$8420 (keyword #f "set")) (_o$8421 (keyword #f "items")) (_o$8422 items)) (jolt-hash-map _o$8419 _o$8420 _o$8421 _o$8422)))))) set-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "quote-node" (letrec ((quote-node (lambda (form) (let fnrec8582 ((form form)) (let* ((_o$8583 (keyword #f "op")) (_o$8584 (keyword #f "quote")) (_o$8585 (keyword #f "form")) (_o$8586 form)) (jolt-hash-map _o$8583 _o$8584 _o$8585 _o$8586)))))) quote-node))) + (def-var! "jolt.ir" "quote-node" (letrec ((quote-node (lambda (form) (let fnrec8423 ((form form)) (let* ((_o$8424 (keyword #f "op")) (_o$8425 (keyword #f "quote")) (_o$8426 (keyword #f "form")) (_o$8427 form)) (jolt-hash-map _o$8424 _o$8425 _o$8426 _o$8427)))))) quote-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "throw-node" (letrec ((throw-node (lambda (expr) (let fnrec8587 ((expr expr)) (let* ((_o$8588 (keyword #f "op")) (_o$8589 (keyword #f "throw")) (_o$8590 (keyword #f "expr")) (_o$8591 expr)) (jolt-hash-map _o$8588 _o$8589 _o$8590 _o$8591)))))) throw-node))) + (def-var! "jolt.ir" "throw-node" (letrec ((throw-node (lambda (expr) (let fnrec8428 ((expr expr)) (let* ((_o$8429 (keyword #f "op")) (_o$8430 (keyword #f "throw")) (_o$8431 (keyword #f "expr")) (_o$8432 expr)) (jolt-hash-map _o$8429 _o$8430 _o$8431 _o$8432)))))) throw-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "coerce-node" (letrec ((coerce-node (lambda (kind expr) (let fnrec8592 ((kind kind) (expr expr)) (let* ((_o$8593 (keyword #f "op")) (_o$8594 (keyword #f "coerce")) (_o$8595 (keyword #f "kind")) (_o$8596 kind) (_o$8597 (keyword #f "expr")) (_o$8598 expr)) (jolt-hash-map _o$8593 _o$8594 _o$8595 _o$8596 _o$8597 _o$8598)))))) coerce-node))) + (def-var! "jolt.ir" "coerce-node" (letrec ((coerce-node (lambda (kind expr) (let fnrec8433 ((kind kind) (expr expr)) (let* ((_o$8434 (keyword #f "op")) (_o$8435 (keyword #f "coerce")) (_o$8436 (keyword #f "kind")) (_o$8437 kind) (_o$8438 (keyword #f "expr")) (_o$8439 expr)) (jolt-hash-map _o$8434 _o$8435 _o$8436 _o$8437 _o$8438 _o$8439)))))) coerce-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "map-ir-children" (letrec ((map-ir-children (lambda (f node) (let fnrec8599 ((f f) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$8600 node) (_a$8601 (keyword #f "test")) (_a$8602 (jolt-invoke f (jolt-get node (keyword #f "test")))) (_a$8603 (keyword #f "then")) (_a$8604 (jolt-invoke f (jolt-get node (keyword #f "then")))) (_a$8605 (keyword #f "else")) (_a$8606 (jolt-invoke f (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$8600 _a$8601 _a$8602 _a$8603 _a$8604 _a$8605 _a$8606)) (if (jolt= op (keyword #f "do")) (let* ((_a$8607 node) (_a$8608 (keyword #f "statements")) (_a$8609 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "statements")))) (_a$8610 (keyword #f "ret")) (_a$8611 (jolt-invoke f (jolt-get node (keyword #f "ret"))))) (jolt-assoc _a$8607 _a$8608 _a$8609 _a$8610 _a$8611)) (if (jolt= op (keyword #f "throw")) (jolt-assoc node (keyword #f "expr") (jolt-invoke f (jolt-get node (keyword #f "expr")))) (if (jolt= op (keyword #f "coerce")) (jolt-assoc node (keyword #f "expr") (jolt-invoke f (jolt-get node (keyword #f "expr")))) (if (jolt= op (keyword #f "set-var")) (jolt-assoc node (keyword #f "val") (jolt-invoke f (jolt-get node (keyword #f "val")))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$8612 node) (_a$8613 (keyword #f "obj")) (_a$8614 (jolt-invoke f (jolt-get node (keyword #f "obj")))) (_a$8615 (keyword #f "val")) (_a$8616 (jolt-invoke f (jolt-get node (keyword #f "val"))))) (jolt-assoc _a$8612 _a$8613 _a$8614 _a$8615 _a$8616)) (if (jolt= op (keyword #f "defmacro")) (jolt-assoc node (keyword #f "fn") (jolt-invoke f (jolt-get node (keyword #f "fn")))) (if (jolt= op (keyword #f "ffi-callable")) (jolt-assoc node (keyword #f "fn") (jolt-invoke f (jolt-get node (keyword #f "fn")))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$8617 node) (_a$8618 (keyword #f "fn")) (_a$8619 (jolt-invoke f (jolt-get node (keyword #f "fn")))) (_a$8620 (keyword #f "args")) (_a$8621 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$8617 _a$8618 _a$8619 _a$8620 _a$8621)) (if (jolt= op (keyword #f "vector")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "set")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "map")) (jolt-assoc node (keyword #f "pairs") (let* ((_a$8625 (var-deref "clojure.core" "mapv")) (_a$8626 (lambda (pr) (let fnrec8622 ((pr pr)) (let* ((_o$8623 (jolt-invoke f (jolt-nth pr 0))) (_o$8624 (jolt-invoke f (jolt-nth pr 1)))) (jolt-vector _o$8623 _o$8624))))) (_a$8627 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$8625 _a$8626 _a$8627))) (if (jolt= op (keyword #f "let")) (let* ((_a$8634 node) (_a$8635 (keyword #f "bindings")) (_a$8636 (let* ((_a$8631 (var-deref "clojure.core" "mapv")) (_a$8632 (lambda (b) (let fnrec8628 ((b b)) (let* ((_o$8629 (jolt-nth b 0)) (_o$8630 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$8629 _o$8630))))) (_a$8633 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$8631 _a$8632 _a$8633))) (_a$8637 (keyword #f "body")) (_a$8638 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$8634 _a$8635 _a$8636 _a$8637 _a$8638)) (if (jolt= op (keyword #f "loop")) (let* ((_a$8645 node) (_a$8646 (keyword #f "bindings")) (_a$8647 (let* ((_a$8642 (var-deref "clojure.core" "mapv")) (_a$8643 (lambda (b) (let fnrec8639 ((b b)) (let* ((_o$8640 (jolt-nth b 0)) (_o$8641 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$8640 _o$8641))))) (_a$8644 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$8642 _a$8643 _a$8644))) (_a$8648 (keyword #f "body")) (_a$8649 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$8645 _a$8646 _a$8647 _a$8648 _a$8649)) (if (jolt= op (keyword #f "recur")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "fn")) (jolt-assoc node (keyword #f "arities") (let* ((_a$8651 (var-deref "clojure.core" "mapv")) (_a$8652 (lambda (a) (let fnrec8650 ((a a)) (jolt-assoc a (keyword #f "body") (jolt-invoke f (jolt-get a (keyword #f "body"))))))) (_a$8653 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$8651 _a$8652 _a$8653))) (if (jolt= op (keyword #f "def")) (let* ((n (jolt-assoc node (keyword #f "init") (jolt-invoke f (jolt-get node (keyword #f "init")))))) (if (jolt-truthy? (jolt-get node (keyword #f "meta-expr"))) (jolt-assoc n (keyword #f "meta-expr") (jolt-invoke f (jolt-get node (keyword #f "meta-expr")))) n)) (if (jolt= op (keyword #f "host-call")) (let* ((_a$8654 node) (_a$8655 (keyword #f "target")) (_a$8656 (jolt-invoke f (jolt-get node (keyword #f "target")))) (_a$8657 (keyword #f "args")) (_a$8658 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$8654 _a$8655 _a$8656 _a$8657 _a$8658)) (if (jolt= op (keyword #f "host-new")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "try")) (let* ((n (jolt-assoc node (keyword #f "body") (jolt-invoke f (jolt-get node (keyword #f "body"))))) (n (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-assoc n (keyword #f "catch-body") (jolt-invoke f (jolt-get node (keyword #f "catch-body")))) n)) (n (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-assoc n (keyword #f "finally") (jolt-invoke f (jolt-get node (keyword #f "finally")))) n))) n) (if (jolt-truthy? (keyword #f "else")) node jolt-nil)))))))))))))))))))))))))) map-ir-children))) + (def-var! "jolt.ir" "map-ir-children" (letrec ((map-ir-children (lambda (f node) (let fnrec8440 ((f f) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$8441 node) (_a$8442 (keyword #f "test")) (_a$8443 (jolt-invoke f (jolt-get node (keyword #f "test")))) (_a$8444 (keyword #f "then")) (_a$8445 (jolt-invoke f (jolt-get node (keyword #f "then")))) (_a$8446 (keyword #f "else")) (_a$8447 (jolt-invoke f (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$8441 _a$8442 _a$8443 _a$8444 _a$8445 _a$8446 _a$8447)) (if (jolt= op (keyword #f "do")) (let* ((_a$8448 node) (_a$8449 (keyword #f "statements")) (_a$8450 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "statements")))) (_a$8451 (keyword #f "ret")) (_a$8452 (jolt-invoke f (jolt-get node (keyword #f "ret"))))) (jolt-assoc _a$8448 _a$8449 _a$8450 _a$8451 _a$8452)) (if (jolt= op (keyword #f "throw")) (jolt-assoc node (keyword #f "expr") (jolt-invoke f (jolt-get node (keyword #f "expr")))) (if (jolt= op (keyword #f "coerce")) (jolt-assoc node (keyword #f "expr") (jolt-invoke f (jolt-get node (keyword #f "expr")))) (if (jolt= op (keyword #f "set-var")) (jolt-assoc node (keyword #f "val") (jolt-invoke f (jolt-get node (keyword #f "val")))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$8453 node) (_a$8454 (keyword #f "obj")) (_a$8455 (jolt-invoke f (jolt-get node (keyword #f "obj")))) (_a$8456 (keyword #f "val")) (_a$8457 (jolt-invoke f (jolt-get node (keyword #f "val"))))) (jolt-assoc _a$8453 _a$8454 _a$8455 _a$8456 _a$8457)) (if (jolt= op (keyword #f "defmacro")) (jolt-assoc node (keyword #f "fn") (jolt-invoke f (jolt-get node (keyword #f "fn")))) (if (jolt= op (keyword #f "ffi-callable")) (jolt-assoc node (keyword #f "fn") (jolt-invoke f (jolt-get node (keyword #f "fn")))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$8458 node) (_a$8459 (keyword #f "fn")) (_a$8460 (jolt-invoke f (jolt-get node (keyword #f "fn")))) (_a$8461 (keyword #f "args")) (_a$8462 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$8458 _a$8459 _a$8460 _a$8461 _a$8462)) (if (jolt= op (keyword #f "vector")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "set")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "map")) (jolt-assoc node (keyword #f "pairs") (let* ((_a$8466 (var-deref "clojure.core" "mapv")) (_a$8467 (lambda (pr) (let fnrec8463 ((pr pr)) (let* ((_o$8464 (jolt-invoke f (jolt-nth pr 0))) (_o$8465 (jolt-invoke f (jolt-nth pr 1)))) (jolt-vector _o$8464 _o$8465))))) (_a$8468 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$8466 _a$8467 _a$8468))) (if (jolt= op (keyword #f "let")) (let* ((_a$8475 node) (_a$8476 (keyword #f "bindings")) (_a$8477 (let* ((_a$8472 (var-deref "clojure.core" "mapv")) (_a$8473 (lambda (b) (let fnrec8469 ((b b)) (let* ((_o$8470 (jolt-nth b 0)) (_o$8471 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$8470 _o$8471))))) (_a$8474 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$8472 _a$8473 _a$8474))) (_a$8478 (keyword #f "body")) (_a$8479 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$8475 _a$8476 _a$8477 _a$8478 _a$8479)) (if (jolt= op (keyword #f "loop")) (let* ((_a$8486 node) (_a$8487 (keyword #f "bindings")) (_a$8488 (let* ((_a$8483 (var-deref "clojure.core" "mapv")) (_a$8484 (lambda (b) (let fnrec8480 ((b b)) (let* ((_o$8481 (jolt-nth b 0)) (_o$8482 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$8481 _o$8482))))) (_a$8485 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$8483 _a$8484 _a$8485))) (_a$8489 (keyword #f "body")) (_a$8490 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$8486 _a$8487 _a$8488 _a$8489 _a$8490)) (if (jolt= op (keyword #f "recur")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "fn")) (jolt-assoc node (keyword #f "arities") (let* ((_a$8492 (var-deref "clojure.core" "mapv")) (_a$8493 (lambda (a) (let fnrec8491 ((a a)) (jolt-assoc a (keyword #f "body") (jolt-invoke f (jolt-get a (keyword #f "body"))))))) (_a$8494 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$8492 _a$8493 _a$8494))) (if (jolt= op (keyword #f "def")) (let* ((n (jolt-assoc node (keyword #f "init") (jolt-invoke f (jolt-get node (keyword #f "init")))))) (if (jolt-truthy? (jolt-get node (keyword #f "meta-expr"))) (jolt-assoc n (keyword #f "meta-expr") (jolt-invoke f (jolt-get node (keyword #f "meta-expr")))) n)) (if (jolt= op (keyword #f "host-call")) (let* ((_a$8495 node) (_a$8496 (keyword #f "target")) (_a$8497 (jolt-invoke f (jolt-get node (keyword #f "target")))) (_a$8498 (keyword #f "args")) (_a$8499 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$8495 _a$8496 _a$8497 _a$8498 _a$8499)) (if (jolt= op (keyword #f "host-new")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "try")) (let* ((n (jolt-assoc node (keyword #f "body") (jolt-invoke f (jolt-get node (keyword #f "body"))))) (n (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-assoc n (keyword #f "catch-body") (jolt-invoke f (jolt-get node (keyword #f "catch-body")))) n)) (n (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-assoc n (keyword #f "finally") (jolt-invoke f (jolt-get node (keyword #f "finally")))) n))) n) (if (jolt-truthy? (keyword #f "else")) node jolt-nil)))))))))))))))))))))))))) map-ir-children))) (guard (e (#t #f)) - (def-var! "jolt.ir" "reduce-ir-children" (letrec ((reduce-ir-children (lambda (f acc node) (let fnrec8659 ((f f) (acc acc) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$8663 f) (_a$8664 (let* ((_a$8660 f) (_a$8661 (jolt-invoke f acc (jolt-get node (keyword #f "test")))) (_a$8662 (jolt-get node (keyword #f "then")))) (jolt-invoke _a$8660 _a$8661 _a$8662))) (_a$8665 (jolt-get node (keyword #f "else")))) (jolt-invoke _a$8663 _a$8664 _a$8665)) (if (jolt= op (keyword #f "do")) (let* ((_a$8666 f) (_a$8667 (jolt-reduce f acc (jolt-get node (keyword #f "statements")))) (_a$8668 (jolt-get node (keyword #f "ret")))) (jolt-invoke _a$8666 _a$8667 _a$8668)) (if (jolt= op (keyword #f "throw")) (jolt-invoke f acc (jolt-get node (keyword #f "expr"))) (if (jolt= op (keyword #f "coerce")) (jolt-invoke f acc (jolt-get node (keyword #f "expr"))) (if (jolt= op (keyword #f "set-var")) (jolt-invoke f acc (jolt-get node (keyword #f "val"))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$8669 f) (_a$8670 (jolt-invoke f acc (jolt-get node (keyword #f "obj")))) (_a$8671 (jolt-get node (keyword #f "val")))) (jolt-invoke _a$8669 _a$8670 _a$8671)) (if (jolt= op (keyword #f "defmacro")) (jolt-invoke f acc (jolt-get node (keyword #f "fn"))) (if (jolt= op (keyword #f "ffi-callable")) (jolt-invoke f acc (jolt-get node (keyword #f "fn"))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$8672 f) (_a$8673 (jolt-invoke f acc (jolt-get node (keyword #f "fn")))) (_a$8674 (jolt-get node (keyword #f "args")))) (jolt-reduce _a$8672 _a$8673 _a$8674)) (if (jolt= op (keyword #f "vector")) (jolt-reduce f acc (jolt-get node (keyword #f "items"))) (if (jolt= op (keyword #f "set")) (jolt-reduce f acc (jolt-get node (keyword #f "items"))) (if (jolt= op (keyword #f "map")) (let* ((_a$8679 (lambda (a pr) (let fnrec8675 ((a a) (pr pr)) (let* ((_a$8676 f) (_a$8677 (jolt-invoke f a (jolt-nth pr 0))) (_a$8678 (jolt-nth pr 1))) (jolt-invoke _a$8676 _a$8677 _a$8678))))) (_a$8680 acc) (_a$8681 (jolt-get node (keyword #f "pairs")))) (jolt-reduce _a$8679 _a$8680 _a$8681)) (if (jolt= op (keyword #f "let")) (let* ((_a$8686 f) (_a$8687 (let* ((_a$8683 (lambda (a b) (let fnrec8682 ((a a) (b b)) (jolt-invoke f a (jolt-nth b 1))))) (_a$8684 acc) (_a$8685 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$8683 _a$8684 _a$8685))) (_a$8688 (jolt-get node (keyword #f "body")))) (jolt-invoke _a$8686 _a$8687 _a$8688)) (if (jolt= op (keyword #f "loop")) (let* ((_a$8693 f) (_a$8694 (let* ((_a$8690 (lambda (a b) (let fnrec8689 ((a a) (b b)) (jolt-invoke f a (jolt-nth b 1))))) (_a$8691 acc) (_a$8692 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$8690 _a$8691 _a$8692))) (_a$8695 (jolt-get node (keyword #f "body")))) (jolt-invoke _a$8693 _a$8694 _a$8695)) (if (jolt= op (keyword #f "recur")) (jolt-reduce f acc (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "fn")) (let* ((_a$8697 (lambda (a ar) (let fnrec8696 ((a a) (ar ar)) (jolt-invoke f a (jolt-get ar (keyword #f "body")))))) (_a$8698 acc) (_a$8699 (jolt-get node (keyword #f "arities")))) (jolt-reduce _a$8697 _a$8698 _a$8699)) (if (jolt= op (keyword #f "def")) (let* ((a (if (jolt-truthy? (jolt-get node (keyword #f "init"))) (jolt-invoke f acc (jolt-get node (keyword #f "init"))) acc))) (if (jolt-truthy? (jolt-get node (keyword #f "meta-expr"))) (jolt-invoke f a (jolt-get node (keyword #f "meta-expr"))) a)) (if (jolt= op (keyword #f "host-call")) (let* ((_a$8700 f) (_a$8701 (jolt-invoke f acc (jolt-get node (keyword #f "target")))) (_a$8702 (jolt-get node (keyword #f "args")))) (jolt-reduce _a$8700 _a$8701 _a$8702)) (if (jolt= op (keyword #f "host-new")) (jolt-reduce f acc (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "try")) (let* ((a (jolt-invoke f acc (jolt-get node (keyword #f "body")))) (a (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-invoke f a (jolt-get node (keyword #f "catch-body"))) a)) (a (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-invoke f a (jolt-get node (keyword #f "finally"))) a))) a) (if (jolt-truthy? (keyword #f "else")) acc jolt-nil)))))))))))))))))))))))))) reduce-ir-children))) + (def-var! "jolt.ir" "reduce-ir-children" (letrec ((reduce-ir-children (lambda (f acc node) (let fnrec8500 ((f f) (acc acc) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$8504 f) (_a$8505 (let* ((_a$8501 f) (_a$8502 (jolt-invoke f acc (jolt-get node (keyword #f "test")))) (_a$8503 (jolt-get node (keyword #f "then")))) (jolt-invoke _a$8501 _a$8502 _a$8503))) (_a$8506 (jolt-get node (keyword #f "else")))) (jolt-invoke _a$8504 _a$8505 _a$8506)) (if (jolt= op (keyword #f "do")) (let* ((_a$8507 f) (_a$8508 (jolt-reduce f acc (jolt-get node (keyword #f "statements")))) (_a$8509 (jolt-get node (keyword #f "ret")))) (jolt-invoke _a$8507 _a$8508 _a$8509)) (if (jolt= op (keyword #f "throw")) (jolt-invoke f acc (jolt-get node (keyword #f "expr"))) (if (jolt= op (keyword #f "coerce")) (jolt-invoke f acc (jolt-get node (keyword #f "expr"))) (if (jolt= op (keyword #f "set-var")) (jolt-invoke f acc (jolt-get node (keyword #f "val"))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$8510 f) (_a$8511 (jolt-invoke f acc (jolt-get node (keyword #f "obj")))) (_a$8512 (jolt-get node (keyword #f "val")))) (jolt-invoke _a$8510 _a$8511 _a$8512)) (if (jolt= op (keyword #f "defmacro")) (jolt-invoke f acc (jolt-get node (keyword #f "fn"))) (if (jolt= op (keyword #f "ffi-callable")) (jolt-invoke f acc (jolt-get node (keyword #f "fn"))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$8513 f) (_a$8514 (jolt-invoke f acc (jolt-get node (keyword #f "fn")))) (_a$8515 (jolt-get node (keyword #f "args")))) (jolt-reduce _a$8513 _a$8514 _a$8515)) (if (jolt= op (keyword #f "vector")) (jolt-reduce f acc (jolt-get node (keyword #f "items"))) (if (jolt= op (keyword #f "set")) (jolt-reduce f acc (jolt-get node (keyword #f "items"))) (if (jolt= op (keyword #f "map")) (let* ((_a$8520 (lambda (a pr) (let fnrec8516 ((a a) (pr pr)) (let* ((_a$8517 f) (_a$8518 (jolt-invoke f a (jolt-nth pr 0))) (_a$8519 (jolt-nth pr 1))) (jolt-invoke _a$8517 _a$8518 _a$8519))))) (_a$8521 acc) (_a$8522 (jolt-get node (keyword #f "pairs")))) (jolt-reduce _a$8520 _a$8521 _a$8522)) (if (jolt= op (keyword #f "let")) (let* ((_a$8527 f) (_a$8528 (let* ((_a$8524 (lambda (a b) (let fnrec8523 ((a a) (b b)) (jolt-invoke f a (jolt-nth b 1))))) (_a$8525 acc) (_a$8526 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$8524 _a$8525 _a$8526))) (_a$8529 (jolt-get node (keyword #f "body")))) (jolt-invoke _a$8527 _a$8528 _a$8529)) (if (jolt= op (keyword #f "loop")) (let* ((_a$8534 f) (_a$8535 (let* ((_a$8531 (lambda (a b) (let fnrec8530 ((a a) (b b)) (jolt-invoke f a (jolt-nth b 1))))) (_a$8532 acc) (_a$8533 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$8531 _a$8532 _a$8533))) (_a$8536 (jolt-get node (keyword #f "body")))) (jolt-invoke _a$8534 _a$8535 _a$8536)) (if (jolt= op (keyword #f "recur")) (jolt-reduce f acc (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "fn")) (let* ((_a$8538 (lambda (a ar) (let fnrec8537 ((a a) (ar ar)) (jolt-invoke f a (jolt-get ar (keyword #f "body")))))) (_a$8539 acc) (_a$8540 (jolt-get node (keyword #f "arities")))) (jolt-reduce _a$8538 _a$8539 _a$8540)) (if (jolt= op (keyword #f "def")) (let* ((a (if (jolt-truthy? (jolt-get node (keyword #f "init"))) (jolt-invoke f acc (jolt-get node (keyword #f "init"))) acc))) (if (jolt-truthy? (jolt-get node (keyword #f "meta-expr"))) (jolt-invoke f a (jolt-get node (keyword #f "meta-expr"))) a)) (if (jolt= op (keyword #f "host-call")) (let* ((_a$8541 f) (_a$8542 (jolt-invoke f acc (jolt-get node (keyword #f "target")))) (_a$8543 (jolt-get node (keyword #f "args")))) (jolt-reduce _a$8541 _a$8542 _a$8543)) (if (jolt= op (keyword #f "host-new")) (jolt-reduce f acc (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "try")) (let* ((a (jolt-invoke f acc (jolt-get node (keyword #f "body")))) (a (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-invoke f a (jolt-get node (keyword #f "catch-body"))) a)) (a (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-invoke f a (jolt-get node (keyword #f "finally"))) a))) a) (if (jolt-truthy? (keyword #f "else")) acc jolt-nil)))))))))))))))))))))))))) reduce-ir-children))) (guard (e (#t #f)) (declare-var! "jolt.analyzer" "analyze")) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "handled" (let* ((_o$8703 "quote") (_o$8704 "if") (_o$8705 "do") (_o$8706 "def") (_o$8707 "fn*") (_o$8708 "let*") (_o$8709 "loop*") (_o$8710 "recur") (_o$8711 "throw") (_o$8712 "try") (_o$8713 "syntax-quote") (_o$8714 "var") (_o$8715 "letfn*") (_o$8716 "set!") (_o$8717 "defmacro")) (jolt-hash-set _o$8703 _o$8704 _o$8705 _o$8706 _o$8707 _o$8708 _o$8709 _o$8710 _o$8711 _o$8712 _o$8713 _o$8714 _o$8715 _o$8716 _o$8717)) (let* ((_o$8718 (keyword #f "private")) (_o$8719 #t)) (jolt-hash-map _o$8718 _o$8719)))) + (def-var-with-meta! "jolt.analyzer" "handled" (let* ((_o$8544 "quote") (_o$8545 "if") (_o$8546 "do") (_o$8547 "def") (_o$8548 "fn*") (_o$8549 "let*") (_o$8550 "loop*") (_o$8551 "recur") (_o$8552 "throw") (_o$8553 "try") (_o$8554 "syntax-quote") (_o$8555 "var") (_o$8556 "letfn*") (_o$8557 "set!") (_o$8558 "defmacro")) (jolt-hash-set _o$8544 _o$8545 _o$8546 _o$8547 _o$8548 _o$8549 _o$8550 _o$8551 _o$8552 _o$8553 _o$8554 _o$8555 _o$8556 _o$8557 _o$8558)) (let* ((_o$8559 (keyword #f "private")) (_o$8560 #t)) (jolt-hash-map _o$8559 _o$8560)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "uncompilable" (letrec ((uncompilable (lambda (why) (let fnrec8720 ((why why)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt/uncompilable: " why)))))) uncompilable) (let* ((_o$8721 (keyword #f "private")) (_o$8722 #t)) (jolt-hash-map _o$8721 _o$8722)))) + (def-var-with-meta! "jolt.analyzer" "uncompilable" (letrec ((uncompilable (lambda (why) (let fnrec8561 ((why why)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt/uncompilable: " why)))))) uncompilable) (let* ((_o$8562 (keyword #f "private")) (_o$8563 #t)) (jolt-hash-map _o$8562 _o$8563)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "gensym-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (let* ((_o$8723 (keyword #f "private")) (_o$8724 #t)) (jolt-hash-map _o$8723 _o$8724)))) + (def-var-with-meta! "jolt.analyzer" "gensym-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (let* ((_o$8564 (keyword #f "private")) (_o$8565 #t)) (jolt-hash-map _o$8564 _o$8565)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "gen-name" (letrec ((gen-name (lambda (prefix) (let fnrec8725 ((prefix prefix)) (let* ((n (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.analyzer" "gensym-counter")))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.analyzer" "gensym-counter") jolt-inc) (jolt-invoke (var-deref "clojure.core" "str") "_r$" prefix n))))))) gen-name) (let* ((_o$8726 (keyword #f "private")) (_o$8727 #t)) (jolt-hash-map _o$8726 _o$8727)))) + (def-var-with-meta! "jolt.analyzer" "gen-name" (letrec ((gen-name (lambda (prefix) (let fnrec8566 ((prefix prefix)) (let* ((n (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.analyzer" "gensym-counter")))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.analyzer" "gensym-counter") jolt-inc) (jolt-invoke (var-deref "clojure.core" "str") "_r$" prefix n))))))) gen-name) (let* ((_o$8567 (keyword #f "private")) (_o$8568 #t)) (jolt-hash-map _o$8567 _o$8568)))) (guard (e (#t #f)) - (def-var-with-meta! 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(let* ((_o$8736 (keyword #f "private")) (_o$8737 #t)) (jolt-hash-map _o$8736 _o$8737)))) + (def-var-with-meta! "jolt.analyzer" "local?" (letrec ((local? (lambda (env nm) (let fnrec8576 ((env env) (nm nm)) (jolt-contains? (jolt-get env (keyword #f "locals")) nm))))) local?) (let* ((_o$8577 (keyword #f "private")) (_o$8578 #t)) (jolt-hash-map _o$8577 _o$8578)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "add-locals" (letrec ((add-locals (lambda (env names) (let fnrec8738 ((env env) (names names)) (jolt-invoke (var-deref "clojure.core" "update") env (keyword #f "locals") (lambda (p__97_) (let fnrec8739 ((p__97_ p__97_)) (jolt-reduce jolt-conj p__97_ names)))))))) add-locals) (let* ((_o$8740 (keyword #f "private")) (_o$8741 #t)) (jolt-hash-map _o$8740 _o$8741)))) + (def-var-with-meta! "jolt.analyzer" "add-locals" (letrec ((add-locals (lambda (env names) (let fnrec8579 ((env env) (names names)) (jolt-invoke (var-deref "clojure.core" "update") env (keyword #f "locals") (lambda (p__97_) (let fnrec8580 ((p__97_ p__97_)) (jolt-reduce jolt-conj p__97_ names)))))))) add-locals) (let* ((_o$8581 (keyword #f "private")) (_o$8582 #t)) (jolt-hash-map _o$8581 _o$8582)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "amp-env-map" (letrec ((amp-env-map (lambda (env) (let fnrec8742 ((env env)) (let* ((_a$8744 (lambda (m n) (let fnrec8743 ((m m) (n n)) (jolt-assoc m (jolt-invoke (var-deref "clojure.core" "symbol") n) jolt-nil)))) (_a$8745 (jolt-hash-map)) (_a$8746 (jolt-get env (keyword #f "locals")))) (jolt-reduce _a$8744 _a$8745 _a$8746)))))) amp-env-map) (let* ((_o$8747 (keyword #f "private")) (_o$8748 #t)) (jolt-hash-map _o$8747 _o$8748)))) + (def-var-with-meta! "jolt.analyzer" "amp-env-map" (letrec ((amp-env-map (lambda (env) (let fnrec8583 ((env env)) (let* ((_a$8585 (lambda (m n) (let fnrec8584 ((m m) (n n)) (jolt-assoc m (jolt-invoke (var-deref "clojure.core" "symbol") n) jolt-nil)))) (_a$8586 (jolt-hash-map)) (_a$8587 (jolt-get env (keyword #f "locals")))) (jolt-reduce _a$8585 _a$8586 _a$8587)))))) amp-env-map) (let* ((_o$8588 (keyword #f "private")) (_o$8589 #t)) (jolt-hash-map _o$8588 _o$8589)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "with-recur" (letrec ((with-recur (lambda (env name) (let fnrec8749 ((env env) (name name)) (jolt-assoc env (keyword #f "recur") name))))) with-recur) (let* ((_o$8750 (keyword #f "private")) (_o$8751 #t)) (jolt-hash-map _o$8750 _o$8751)))) + (def-var-with-meta! "jolt.analyzer" "with-recur" (letrec ((with-recur (lambda (env name) (let fnrec8590 ((env env) (name name)) (jolt-assoc env (keyword #f "recur") name))))) with-recur) (let* ((_o$8591 (keyword #f "private")) (_o$8592 #t)) (jolt-hash-map _o$8591 _o$8592)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "hint-of" (letrec ((hint-of (lambda (ctx sym) (let fnrec8752 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-nil? m) jolt-nil (if (jolt-truthy? (jolt-get m (keyword #f "struct"))) (keyword #f "struct") (if (jolt-truthy? (keyword #f "else")) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? (let* ((and__25__auto t)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "record-type?") ctx t) and__25__auto))) (keyword #f "struct") jolt-nil)) jolt-nil)))))))) hint-of) (let* ((_o$8753 (keyword #f "private")) (_o$8754 #t)) (jolt-hash-map _o$8753 _o$8754)))) + (def-var-with-meta! "jolt.analyzer" "hint-of" (letrec ((hint-of (lambda (ctx sym) (let fnrec8593 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-nil? m) jolt-nil (if (jolt-truthy? (jolt-get m (keyword #f "struct"))) (keyword #f "struct") (if (jolt-truthy? (keyword #f "else")) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? (let* ((and__25__auto t)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "record-type?") ctx t) and__25__auto))) (keyword #f "struct") jolt-nil)) jolt-nil)))))))) hint-of) (let* ((_o$8594 (keyword #f "private")) (_o$8595 #t)) (jolt-hash-map _o$8594 _o$8595)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "add-hint" (letrec ((add-hint (lambda (env nm h) (let fnrec8755 ((env env) (nm nm) (h h)) (if (jolt-truthy? h) (jolt-assoc env (keyword #f "hints") (jolt-assoc (jolt-get env (keyword #f "hints")) nm h)) env))))) add-hint) (let* ((_o$8756 (keyword #f "private")) (_o$8757 #t)) (jolt-hash-map _o$8756 _o$8757)))) + (def-var-with-meta! "jolt.analyzer" "add-hint" (letrec ((add-hint (lambda (env nm h) (let fnrec8596 ((env env) (nm nm) (h h)) (if (jolt-truthy? h) (jolt-assoc env (keyword #f "hints") (jolt-assoc (jolt-get env (keyword #f "hints")) nm h)) env))))) add-hint) (let* ((_o$8597 (keyword #f "private")) (_o$8598 #t)) (jolt-hash-map _o$8597 _o$8598)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "phint-of" (letrec ((phint-of (lambda (ctx sym) (let fnrec8758 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? m) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? t) (jolt-invoke (var-deref "jolt.host" "record-ctor-key") ctx t) jolt-nil)) jolt-nil)))))) phint-of) (let* ((_o$8759 (keyword #f "private")) (_o$8760 #t)) (jolt-hash-map _o$8759 _o$8760)))) + (def-var-with-meta! "jolt.analyzer" "phint-of" (letrec ((phint-of (lambda (ctx sym) (let fnrec8599 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? m) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? t) (jolt-invoke (var-deref "jolt.host" "record-ctor-key") ctx t) jolt-nil)) jolt-nil)))))) phint-of) (let* ((_o$8600 (keyword #f "private")) (_o$8601 #t)) (jolt-hash-map _o$8600 _o$8601)))) (guard (e (#t #f)) - (def-var-with-meta! 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(keyword #f "else")) jolt-nil jolt-nil))))) (if (jolt= s "double") (keyword #f "double") (if (jolt= s "long") (keyword #f "long") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))))) tag->nkind) (let* ((_o$8603 (keyword #f "private")) (_o$8604 #t)) (jolt-hash-map _o$8603 _o$8604)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "nhint-of" (letrec ((nhint-of (lambda (ctx sym) (let fnrec8764 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? m) (jolt-invoke (var-deref "jolt.analyzer" "tag->nkind") (jolt-get m (keyword #f "tag"))) jolt-nil)))))) nhint-of) (let* ((_o$8765 (keyword #f "private")) (_o$8766 #t)) (jolt-hash-map _o$8765 _o$8766)))) + (def-var-with-meta! "jolt.analyzer" "nhint-of" (letrec ((nhint-of (lambda (ctx sym) (let fnrec8605 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? m) (jolt-invoke (var-deref "jolt.analyzer" "tag->nkind") (jolt-get m (keyword #f "tag"))) jolt-nil)))))) nhint-of) (let* ((_o$8606 (keyword #f "private")) (_o$8607 #t)) (jolt-hash-map _o$8606 _o$8607)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "with-ret-nhint" (letrec ((with-ret-nhint (lambda (node kind) (let fnrec8767 ((node node) (kind kind)) (if (jolt-truthy? (let* ((and__25__auto kind)) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get node (keyword #f "op"))) and__25__auto))) (jolt-assoc node (keyword #f "arities") (let* ((_a$8769 (var-deref "clojure.core" "mapv")) (_a$8770 (lambda (a) (let fnrec8768 ((a a)) (if (jolt-truthy? (jolt-get a (keyword #f "ret-nhint"))) a (jolt-assoc a (keyword #f "ret-nhint") kind))))) (_a$8771 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$8769 _a$8770 _a$8771))) node))))) with-ret-nhint) (let* ((_o$8772 (keyword #f "private")) (_o$8773 #t)) (jolt-hash-map _o$8772 _o$8773)))) + (def-var-with-meta! "jolt.analyzer" "with-ret-nhint" (letrec ((with-ret-nhint (lambda (node kind) (let fnrec8608 ((node node) (kind kind)) (if (jolt-truthy? (let* ((and__25__auto kind)) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get node (keyword #f "op"))) and__25__auto))) (jolt-assoc node (keyword #f "arities") (let* ((_a$8610 (var-deref "clojure.core" "mapv")) (_a$8611 (lambda (a) (let fnrec8609 ((a a)) (if (jolt-truthy? 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(keyword #f "else")) (let* ((_a$8776 (var-deref "jolt.ir" "do-node")) (_a$8777 (jolt-invoke (var-deref "clojure.core" "subvec") v 0 (jolt-dec n))) (_a$8778 (jolt-peek v))) (jolt-invoke _a$8776 _a$8777 _a$8778)) jolt-nil)))))))) analyze-seq) (let* ((_o$8779 (keyword #f "private")) (_o$8780 #t)) (jolt-hash-map _o$8779 _o$8780)))) + (def-var-with-meta! "jolt.analyzer" "analyze-seq" (letrec ((analyze-seq (lambda (ctx forms env) (let fnrec8615 ((ctx ctx) (forms forms) (env env)) (let* ((v (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__98_) (let fnrec8616 ((p__98_ p__98_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__98_ env))) forms)) (n (jolt-count v))) (if (jolt-zero? n) (jolt-invoke (var-deref "jolt.ir" "const") jolt-nil) (if (jolt= 1 n) (jolt-first v) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$8617 (var-deref "jolt.ir" "do-node")) (_a$8618 (jolt-invoke (var-deref "clojure.core" "subvec") v 0 (jolt-dec n))) (_a$8619 (jolt-peek v))) (jolt-invoke _a$8617 _a$8618 _a$8619)) jolt-nil)))))))) analyze-seq) (let* ((_o$8620 (keyword #f "private")) (_o$8621 #t)) (jolt-hash-map _o$8620 _o$8621)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-bindings" (letrec ((analyze-bindings (lambda (ctx bvec env) (let fnrec8781 ((ctx ctx) (bvec bvec) (env env)) (let* ((i 0) (env env) (pairs (jolt-vector))) (let loop8782 ((i i) (env env) (pairs pairs)) (if (jolt-n< i (jolt-count bvec)) (let* ((bsym (jolt-nth bvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") bsym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring binding") jolt-nil) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") bsym)) (init (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth bvec (jolt-inc i)) env))) (let* ((_a$8789 (jolt-n+ i 2)) (_a$8790 (let* ((_a$8783 (var-deref "jolt.analyzer" "add-hint")) (_a$8784 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector nm))) (_a$8785 nm) (_a$8786 (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx bsym))) (jolt-invoke _a$8783 _a$8784 _a$8785 _a$8786))) (_a$8791 (jolt-conj pairs (let* ((_o$8787 nm) (_o$8788 init)) (jolt-vector _o$8787 _o$8788))))) (loop8782 _a$8789 _a$8790 _a$8791))))) (let* ((_o$8792 pairs) (_o$8793 env)) (jolt-vector _o$8792 _o$8793))))))))) analyze-bindings) (let* ((_o$8794 (keyword #f "private")) (_o$8795 #t)) (jolt-hash-map _o$8794 _o$8795)))) + (def-var-with-meta! "jolt.analyzer" "analyze-bindings" (letrec ((analyze-bindings (lambda (ctx bvec env) (let fnrec8622 ((ctx ctx) (bvec bvec) (env env)) (let* ((i 0) (env env) (pairs (jolt-vector))) (let loop8623 ((i i) (env env) (pairs pairs)) (if (< i (jolt-count bvec)) (let* ((bsym (jolt-nth bvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") bsym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring binding") jolt-nil) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") bsym)) (init (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth bvec (jolt-inc i)) env))) (let* ((_a$8630 (+ i 2)) (_a$8631 (let* ((_a$8624 (var-deref "jolt.analyzer" "add-hint")) (_a$8625 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector nm))) (_a$8626 nm) (_a$8627 (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx bsym))) (jolt-invoke _a$8624 _a$8625 _a$8626 _a$8627))) (_a$8632 (jolt-conj pairs (let* ((_o$8628 nm) (_o$8629 init)) (jolt-vector _o$8628 _o$8629))))) (loop8623 _a$8630 _a$8631 _a$8632))))) (let* ((_o$8633 pairs) (_o$8634 env)) (jolt-vector _o$8633 _o$8634))))))))) analyze-bindings) (let* ((_o$8635 (keyword #f "private")) (_o$8636 #t)) (jolt-hash-map _o$8635 _o$8636)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "parse-params" (letrec ((parse-params (lambda (ctx pvec) (let fnrec8796 ((ctx ctx) (pvec pvec)) (let* ((i 0) (fixed (jolt-vector)) (rest-name jolt-nil) (hints (jolt-vector)) (phints (jolt-vector)) (nhints (jolt-vector))) (let loop8797 ((i i) (fixed fixed) (rest-name rest-name) (hints hints) (phints phints) (nhints nhints)) (if (jolt-n< i (jolt-count pvec)) (let* ((p (jolt-nth pvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") p)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn param") jolt-nil) (if (jolt= "&" (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (let* ((r (jolt-nth pvec (jolt-inc i)))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") r)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn rest") jolt-nil) (let* ((_a$8798 (jolt-n+ i 2)) (_a$8799 fixed) (_a$8800 (jolt-invoke (var-deref "jolt.host" "form-sym-name") r)) (_a$8801 hints) (_a$8802 phints) (_a$8803 nhints)) (loop8797 _a$8798 _a$8799 _a$8800 _a$8801 _a$8802 _a$8803)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (h (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx p)) (ph (jolt-invoke (var-deref "jolt.analyzer" "phint-of") ctx p)) (nh (jolt-invoke (var-deref "jolt.analyzer" "nhint-of") ctx p))) (let* ((_a$8810 (jolt-inc i)) (_a$8811 (jolt-conj fixed nm)) (_a$8812 rest-name) (_a$8813 (if (jolt-truthy? h) (jolt-conj hints (let* ((_o$8804 nm) (_o$8805 h)) (jolt-vector _o$8804 _o$8805))) hints)) (_a$8814 (if (jolt-truthy? ph) (jolt-conj phints (let* ((_o$8806 nm) (_o$8807 ph)) (jolt-vector _o$8806 _o$8807))) phints)) (_a$8815 (if (jolt-truthy? nh) (jolt-conj nhints (let* ((_o$8808 nm) (_o$8809 nh)) (jolt-vector _o$8808 _o$8809))) nhints))) (loop8797 _a$8810 _a$8811 _a$8812 _a$8813 _a$8814 _a$8815)))))) (let* ((_o$8816 (keyword #f "fixed")) (_o$8817 fixed) (_o$8818 (keyword #f "rest")) (_o$8819 rest-name) (_o$8820 (keyword #f "hints")) (_o$8821 hints) (_o$8822 (keyword #f "phints")) (_o$8823 phints) (_o$8824 (keyword #f "nhints")) (_o$8825 nhints)) (jolt-hash-map _o$8816 _o$8817 _o$8818 _o$8819 _o$8820 _o$8821 _o$8822 _o$8823 _o$8824 _o$8825))))))))) parse-params) (let* ((_o$8826 (keyword #f "private")) (_o$8827 #t)) (jolt-hash-map _o$8826 _o$8827)))) + (def-var-with-meta! "jolt.analyzer" "parse-params" (letrec ((parse-params (lambda (ctx pvec) (let fnrec8637 ((ctx ctx) (pvec pvec)) (let* ((i 0) (fixed (jolt-vector)) (rest-name jolt-nil) (hints (jolt-vector)) (phints (jolt-vector)) (nhints (jolt-vector))) (let loop8638 ((i i) (fixed fixed) (rest-name rest-name) (hints hints) (phints phints) (nhints nhints)) (if (< i (jolt-count pvec)) (let* ((p (jolt-nth pvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") p)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn param") jolt-nil) (if (jolt= "&" (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (let* ((r (jolt-nth pvec (jolt-inc i)))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") r)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn rest") jolt-nil) (let* ((_a$8639 (+ i 2)) (_a$8640 fixed) (_a$8641 (jolt-invoke (var-deref "jolt.host" "form-sym-name") r)) (_a$8642 hints) (_a$8643 phints) (_a$8644 nhints)) (loop8638 _a$8639 _a$8640 _a$8641 _a$8642 _a$8643 _a$8644)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (h (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx p)) (ph (jolt-invoke (var-deref "jolt.analyzer" "phint-of") ctx p)) (nh (jolt-invoke (var-deref "jolt.analyzer" "nhint-of") ctx p))) (let* ((_a$8651 (jolt-inc i)) (_a$8652 (jolt-conj fixed nm)) (_a$8653 rest-name) (_a$8654 (if (jolt-truthy? h) (jolt-conj hints (let* ((_o$8645 nm) (_o$8646 h)) (jolt-vector _o$8645 _o$8646))) hints)) (_a$8655 (if (jolt-truthy? ph) (jolt-conj phints (let* ((_o$8647 nm) (_o$8648 ph)) (jolt-vector _o$8647 _o$8648))) phints)) (_a$8656 (if (jolt-truthy? nh) (jolt-conj nhints (let* ((_o$8649 nm) (_o$8650 nh)) (jolt-vector _o$8649 _o$8650))) nhints))) (loop8638 _a$8651 _a$8652 _a$8653 _a$8654 _a$8655 _a$8656)))))) (let* ((_o$8657 (keyword #f "fixed")) (_o$8658 fixed) (_o$8659 (keyword #f "rest")) (_o$8660 rest-name) (_o$8661 (keyword #f "hints")) (_o$8662 hints) (_o$8663 (keyword #f "phints")) (_o$8664 phints) (_o$8665 (keyword #f "nhints")) (_o$8666 nhints)) (jolt-hash-map _o$8657 _o$8658 _o$8659 _o$8660 _o$8661 _o$8662 _o$8663 _o$8664 _o$8665 _o$8666))))))))) parse-params) (let* ((_o$8667 (keyword #f "private")) (_o$8668 #t)) (jolt-hash-map _o$8667 _o$8668)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "uniquify-params" (letrec ((uniquify-params (lambda (names) (let fnrec8828 ((names names)) (let* ((n (jolt-count names))) (let* ((i 0) (out (jolt-vector))) (let loop8829 ((i i) (out out)) (if (jolt-n< i n) (let* ((nm (jolt-nth names i)) (dup? (let* ((j (jolt-inc i))) (let loop8830 ((j j)) (if (jolt-n>= j n) #f (if (jolt= nm (jolt-nth names j)) #t (if (jolt-truthy? (keyword #f "else")) (loop8830 (jolt-inc j)) jolt-nil))))))) (let* ((_a$8831 (jolt-inc i)) (_a$8832 (jolt-conj out (if (jolt-truthy? dup?) (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (jolt-invoke (var-deref "clojure.core" "str") nm "_")) nm)))) (loop8829 _a$8831 _a$8832))) out)))))))) uniquify-params) (let* ((_o$8833 (keyword #f "private")) (_o$8834 #t)) (jolt-hash-map _o$8833 _o$8834)))) + (def-var-with-meta! "jolt.analyzer" "uniquify-params" (letrec ((uniquify-params (lambda (names) (let fnrec8669 ((names names)) (let* ((n (jolt-count names))) (let* ((i 0) (out (jolt-vector))) (let loop8670 ((i i) (out out)) (if (< i n) (let* ((nm (jolt-nth names i)) (dup? (let* ((j (jolt-inc i))) (let loop8671 ((j j)) (if (>= j n) #f (if (jolt= nm (jolt-nth names j)) #t (if (jolt-truthy? (keyword #f "else")) (loop8671 (jolt-inc j)) jolt-nil))))))) (let* ((_a$8672 (jolt-inc i)) (_a$8673 (jolt-conj out (if (jolt-truthy? dup?) (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (jolt-invoke (var-deref "clojure.core" "str") nm "_")) nm)))) (loop8670 _a$8672 _a$8673))) out)))))))) uniquify-params) (let* ((_o$8674 (keyword #f "private")) (_o$8675 #t)) (jolt-hash-map _o$8674 _o$8675)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-arity" (letrec ((analyze-arity (lambda (ctx pvec body env fn-name) (let fnrec8835 ((ctx ctx) (pvec pvec) (body body) (env env) (fn-name fn-name)) (let* ((pp (jolt-invoke (var-deref "jolt.analyzer" "parse-params") ctx (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") pvec)))) (fixed (jolt-invoke (var-deref "jolt.analyzer" "uniquify-params") (jolt-get pp (keyword #f "fixed")))) (rst (jolt-get pp (keyword #f "rest"))) (rname (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (let* ((_a$8836 (var-deref "clojure.core" "str")) (_a$8837 (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (_a$8838 "/") (_a$8839 (let* ((or__26__auto fn-name)) (if (jolt-truthy? or__26__auto) or__26__auto "fn"))) (_a$8840 "--")) (jolt-invoke _a$8836 _a$8837 _a$8838 _a$8839 _a$8840)))) (names (let* ((G__149 (jolt-invoke (var-deref "clojure.core" "vec") fixed))) (let* ((G__150 (if (jolt-truthy? rst) (jolt-conj G__149 rst) G__149))) (let* ((G__151 (if (jolt-truthy? fn-name) (jolt-conj G__150 fn-name) G__150))) G__151)))) (env0 (jolt-invoke (var-deref "jolt.analyzer" "with-recur") (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names) rname)) (env* (let* ((_a$8846 (lambda (e pr) (let fnrec8841 ((e e) (pr pr)) (let* ((_a$8842 (var-deref "jolt.analyzer" "add-hint")) (_a$8843 e) (_a$8844 (jolt-nth pr 0)) (_a$8845 (jolt-nth pr 1))) (jolt-invoke _a$8842 _a$8843 _a$8844 _a$8845))))) (_a$8847 env0) (_a$8848 (jolt-get pp (keyword #f "hints")))) (jolt-reduce _a$8846 _a$8847 _a$8848))) (arity (let* ((_o$8849 (keyword #f "params")) (_o$8850 fixed) (_o$8851 (keyword #f "recur-name")) (_o$8852 rname) (_o$8853 (keyword #f "body")) (_o$8854 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx body env*))) (jolt-hash-map _o$8849 _o$8850 _o$8851 _o$8852 _o$8853 _o$8854))) (arity (if (jolt-truthy? (jolt-seq (jolt-get pp (keyword #f "phints")))) (jolt-assoc arity (keyword #f "phints") (jolt-get pp (keyword #f "phints"))) arity)) (arity (if (jolt-truthy? (jolt-seq (jolt-get pp (keyword #f "nhints")))) (jolt-assoc arity (keyword #f "nhints") (jolt-get pp (keyword #f "nhints"))) arity))) (if (jolt-truthy? rst) (jolt-assoc arity (keyword #f "rest") rst) arity)))))) analyze-arity) (let* ((_o$8855 (keyword #f "private")) (_o$8856 #t)) (jolt-hash-map _o$8855 _o$8856)))) + (def-var-with-meta! "jolt.analyzer" "analyze-arity" (letrec ((analyze-arity (lambda (ctx pvec body env fn-name) (let fnrec8676 ((ctx ctx) (pvec pvec) (body body) (env env) (fn-name fn-name)) (let* ((pp (jolt-invoke (var-deref "jolt.analyzer" "parse-params") ctx (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") pvec)))) (fixed (jolt-invoke (var-deref "jolt.analyzer" "uniquify-params") (jolt-get pp (keyword #f "fixed")))) (rst (jolt-get pp (keyword #f "rest"))) (rname (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (let* ((_a$8677 (var-deref "clojure.core" "str")) (_a$8678 (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (_a$8679 "/") (_a$8680 (let* ((or__26__auto fn-name)) (if (jolt-truthy? or__26__auto) or__26__auto "fn"))) (_a$8681 "--")) (jolt-invoke _a$8677 _a$8678 _a$8679 _a$8680 _a$8681)))) (names (let* ((G__148 (jolt-invoke (var-deref "clojure.core" "vec") fixed))) (let* ((G__149 (if (jolt-truthy? rst) (jolt-conj G__148 rst) G__148))) (let* ((G__150 (if (jolt-truthy? fn-name) (jolt-conj G__149 fn-name) G__149))) G__150)))) (env0 (jolt-invoke (var-deref "jolt.analyzer" "with-recur") (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names) rname)) (env* (let* ((_a$8687 (lambda (e pr) (let fnrec8682 ((e e) (pr pr)) (let* ((_a$8683 (var-deref "jolt.analyzer" "add-hint")) (_a$8684 e) (_a$8685 (jolt-nth pr 0)) (_a$8686 (jolt-nth pr 1))) (jolt-invoke _a$8683 _a$8684 _a$8685 _a$8686))))) (_a$8688 env0) (_a$8689 (jolt-get pp (keyword #f "hints")))) (jolt-reduce _a$8687 _a$8688 _a$8689))) (arity (let* ((_o$8690 (keyword #f "params")) (_o$8691 fixed) (_o$8692 (keyword #f "recur-name")) (_o$8693 rname) (_o$8694 (keyword #f "body")) (_o$8695 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx body env*))) (jolt-hash-map _o$8690 _o$8691 _o$8692 _o$8693 _o$8694 _o$8695))) (arity (if (jolt-truthy? (jolt-seq (jolt-get pp (keyword #f "phints")))) (jolt-assoc arity (keyword #f "phints") (jolt-get pp (keyword #f "phints"))) arity)) (arity (if (jolt-truthy? (jolt-seq (jolt-get pp (keyword #f "nhints")))) (jolt-assoc arity (keyword #f "nhints") (jolt-get pp (keyword #f "nhints"))) arity))) (if (jolt-truthy? rst) (jolt-assoc arity (keyword #f "rest") rst) arity)))))) analyze-arity) (let* ((_o$8696 (keyword #f "private")) (_o$8697 #t)) (jolt-hash-map _o$8696 _o$8697)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "strip-arglist-meta" (letrec ((strip-arglist-meta (lambda (form) (let fnrec8857 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (let* ((es (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-truthy? (let* ((and__25__auto (jolt= 3 (jolt-count es)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first es)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "with-meta" (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first es))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-vec?") (jolt-nth es 1)) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-nth es 1) form)) form))))) strip-arglist-meta) (let* ((_o$8858 (keyword #f "private")) (_o$8859 #t)) (jolt-hash-map _o$8858 _o$8859)))) + (def-var-with-meta! "jolt.analyzer" "strip-arglist-meta" (letrec ((strip-arglist-meta (lambda (form) (let fnrec8698 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (let* ((es (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-truthy? (let* ((and__25__auto (jolt= 3 (jolt-count es)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first es)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "with-meta" (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first es))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-vec?") (jolt-nth es 1)) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-nth es 1) form)) form))))) strip-arglist-meta) (let* ((_o$8699 (keyword #f "private")) (_o$8700 #t)) (jolt-hash-map _o$8699 _o$8700)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-fn" (letrec ((analyze-fn (lambda (ctx items env) (let fnrec8860 ((ctx ctx) (items items) (env env)) (let* ((named (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1))) (fn-name (if (jolt-truthy? named) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1)) jolt-nil)) (rest-items (if (jolt-truthy? named) (jolt-drop 2 items) (jolt-drop 1 items))) (first* (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first rest-items)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze-arity") ctx first* (jolt-rest rest-items) env fn-name))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (clause) (let fnrec8861 ((clause clause)) (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") clause)))) (let* ((_a$8862 (var-deref "jolt.analyzer" "analyze-arity")) (_a$8863 ctx) (_a$8864 (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first cl))) (_a$8865 (jolt-rest cl)) (_a$8866 env) (_a$8867 fn-name)) (jolt-invoke _a$8862 _a$8863 _a$8864 _a$8865 _a$8866 _a$8867))))) rest-items)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "fn: bad params") jolt-nil)))))))) analyze-fn) (let* ((_o$8868 (keyword #f "private")) (_o$8869 #t)) (jolt-hash-map _o$8868 _o$8869)))) + (def-var-with-meta! "jolt.analyzer" "analyze-fn" (letrec ((analyze-fn (lambda (ctx items env) (let fnrec8701 ((ctx ctx) (items items) (env env)) (let* ((named (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1))) (fn-name (if (jolt-truthy? named) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1)) jolt-nil)) (rest-items (if (jolt-truthy? named) (jolt-drop 2 items) (jolt-drop 1 items))) (first* (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first rest-items)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze-arity") ctx first* (jolt-rest rest-items) env fn-name))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (clause) (let fnrec8702 ((clause clause)) (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") clause)))) (let* ((_a$8703 (var-deref "jolt.analyzer" "analyze-arity")) (_a$8704 ctx) (_a$8705 (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first cl))) (_a$8706 (jolt-rest cl)) (_a$8707 env) (_a$8708 fn-name)) (jolt-invoke _a$8703 _a$8704 _a$8705 _a$8706 _a$8707 _a$8708))))) rest-items)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "fn: bad params") jolt-nil)))))))) analyze-fn) (let* ((_o$8709 (keyword #f "private")) (_o$8710 #t)) (jolt-hash-map _o$8709 _o$8710)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "catch-all-names" (let* ((_o$8870 "Throwable") (_o$8871 "java.lang.Throwable") (_o$8872 "Object") (_o$8873 "java.lang.Object")) (jolt-hash-set _o$8870 _o$8871 _o$8872 _o$8873)) (let* ((_o$8874 (keyword #f "private")) (_o$8875 #t)) (jolt-hash-map _o$8874 _o$8875)))) + (def-var-with-meta! "jolt.analyzer" "catch-all-names" (let* ((_o$8711 "Throwable") (_o$8712 "java.lang.Throwable") (_o$8713 "Object") (_o$8714 "java.lang.Object")) (jolt-hash-set _o$8711 _o$8712 _o$8713 _o$8714)) (let* ((_o$8715 (keyword #f "private")) (_o$8716 #t)) (jolt-hash-map _o$8715 _o$8716)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-try" (letrec ((analyze-try (lambda (ctx items env) (let fnrec8876 ((ctx ctx) (items items) (env env)) (let* ((clauses (jolt-rest items)) (body (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (catches (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (finally-body (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))) (begin (begin (jolt-count (jolt-map (lambda (c) (let fnrec8877 ((c c)) (begin (let* ((head (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") c)) (jolt-first (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c))) jolt-nil)) (hname (if (jolt-truthy? (let* ((and__25__auto head)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") head) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil))) (if (jolt= hname "catch") (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (begin (if (let* ((or__26__auto (jolt-n< (jolt-count cl) 3))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth cl 2))))) (jolt-throw "Unable to parse catch clause; expected (catch class binding body*)") jolt-nil) (jolt-invoke (var-deref "clojure.core" "swap!") catches jolt-conj cl))) (if (jolt= hname "finally") (jolt-invoke (var-deref "clojure.core" "reset!") finally-body (jolt-rest (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "swap!") body jolt-conj c) jolt-nil)))) jolt-nil))) clauses)) jolt-nil) (let* ((n (let* ((_o$8878 (keyword #f "op")) (_o$8879 (keyword #f "try")) (_o$8880 (keyword #f "body")) (_o$8881 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") body) env))) (jolt-hash-map _o$8878 _o$8879 _o$8880 _o$8881))) (n (if (jolt-truthy? (jolt-seq (jolt-invoke (var-deref "clojure.core" "deref") catches))) (let* ((evar-name (jolt-invoke (var-deref "jolt.analyzer" "gen-name") "catch")) (raw-name (jolt-invoke (var-deref "jolt.analyzer" "gen-name") "catch-raw")) (evar (jolt-invoke (var-deref "clojure.core" "symbol") evar-name)) (dispatch (let* ((_a$8886 (lambda (_else cl) (let fnrec8882 ((_else _else) (cl cl)) (let* ((cform (jolt-nth cl 1)) (bindsym (jolt-nth cl 2)) (bodyf (jolt-drop 3 cl)) (letform (jolt-cons (jolt-symbol #f "let") (jolt-cons (jolt-vector bindsym evar) bodyf))) (fullname (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") cform)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") cform) jolt-nil)) (catch-all? (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") cform)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-contains? (var-deref "jolt.analyzer" "catch-all-names") fullname))))) (if (jolt-truthy? catch-all?) letform (jolt-list (jolt-symbol #f "if") (let* ((_a$8883 (jolt-symbol #f "or")) (_a$8884 (jolt-list (jolt-symbol #f "instance?") cform evar)) (_a$8885 (jolt-list (jolt-symbol #f "__catch-broad?") fullname evar))) (jolt-list _a$8883 _a$8884 _a$8885)) letform _else)))))) (_a$8887 (jolt-list (jolt-symbol #f "throw") evar)) (_a$8888 (jolt-reverse (jolt-invoke (var-deref "clojure.core" "deref") catches)))) (jolt-reduce _a$8886 _a$8887 _a$8888)))) (jolt-assoc n (keyword #f "catch-sym") evar-name (keyword #f "catch-raw-sym") raw-name (keyword #f "catch-body") (let* ((_a$8889 (var-deref "jolt.analyzer" "analyze-seq")) (_a$8890 ctx) (_a$8891 (jolt-list dispatch)) (_a$8892 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector evar-name)))) (jolt-invoke _a$8889 _a$8890 _a$8891 _a$8892)))) n)) (n (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") finally-body)) (jolt-assoc n (keyword #f "finally") (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") finally-body) env)) n))) n))))))) analyze-try) (let* ((_o$8893 (keyword #f "private")) (_o$8894 #t)) (jolt-hash-map _o$8893 _o$8894)))) + (def-var-with-meta! "jolt.analyzer" "analyze-try" (letrec ((analyze-try (lambda (ctx items env) (let fnrec8717 ((ctx ctx) (items items) (env env)) (let* ((clauses (jolt-rest items)) (body (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (catches (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (finally-body (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))) (begin (begin (jolt-count (jolt-map (lambda (c) (let fnrec8718 ((c c)) (begin (let* ((head (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") c)) (jolt-first (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c))) jolt-nil)) (hname (if (jolt-truthy? (let* ((and__25__auto head)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") head) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil))) (if (jolt= hname "catch") (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (begin (if (let* ((or__26__auto (< (jolt-count cl) 3))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth cl 2))))) (jolt-throw "Unable to parse catch clause; expected (catch class binding body*)") jolt-nil) (jolt-invoke (var-deref "clojure.core" "swap!") catches jolt-conj cl))) (if (jolt= hname "finally") (jolt-invoke (var-deref "clojure.core" "reset!") finally-body (jolt-rest (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "swap!") body jolt-conj c) jolt-nil)))) jolt-nil))) clauses)) jolt-nil) (let* ((n (let* ((_o$8719 (keyword #f "op")) (_o$8720 (keyword #f "try")) (_o$8721 (keyword #f "body")) (_o$8722 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") body) env))) (jolt-hash-map _o$8719 _o$8720 _o$8721 _o$8722))) (n (if (jolt-truthy? (jolt-seq (jolt-invoke (var-deref "clojure.core" "deref") catches))) (let* ((evar-name (jolt-invoke (var-deref "jolt.analyzer" "gen-name") "catch")) (evar (jolt-invoke (var-deref "clojure.core" "symbol") evar-name)) (dispatch (let* ((_a$8727 (lambda (_else cl) (let fnrec8723 ((_else _else) (cl cl)) (let* ((cform (jolt-nth cl 1)) (bindsym (jolt-nth cl 2)) (bodyf (jolt-drop 3 cl)) (letform (jolt-cons (jolt-symbol #f "let") (jolt-cons (jolt-vector bindsym evar) bodyf))) (fullname (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") cform)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") cform) jolt-nil)) (catch-all? (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") cform)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-contains? (var-deref "jolt.analyzer" "catch-all-names") fullname))))) (if (jolt-truthy? catch-all?) letform (jolt-list (jolt-symbol #f "if") (let* ((_a$8724 (jolt-symbol #f "or")) (_a$8725 (jolt-list (jolt-symbol #f "instance?") cform evar)) (_a$8726 (jolt-list (jolt-symbol #f "__catch-broad?") fullname evar))) (jolt-list _a$8724 _a$8725 _a$8726)) letform _else)))))) (_a$8728 (jolt-list (jolt-symbol #f "throw") evar)) (_a$8729 (jolt-reverse (jolt-invoke (var-deref "clojure.core" "deref") catches)))) (jolt-reduce _a$8727 _a$8728 _a$8729)))) (jolt-assoc n (keyword #f "catch-sym") evar-name (keyword #f "catch-body") (let* ((_a$8730 (var-deref "jolt.analyzer" "analyze-seq")) (_a$8731 ctx) (_a$8732 (jolt-list dispatch)) (_a$8733 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector evar-name)))) (jolt-invoke _a$8730 _a$8731 _a$8732 _a$8733)))) n)) (n (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") finally-body)) (jolt-assoc n (keyword #f "finally") (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") finally-body) env)) n))) n))))))) analyze-try) (let* ((_o$8734 (keyword #f "private")) (_o$8735 #t)) (jolt-hash-map _o$8734 _o$8735)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-letfn*" (letrec ((analyze-letfn* (lambda (ctx items env) (let fnrec8895 ((ctx ctx) (items items) (env env)) (let* ((bvec (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (n (jolt-quot (jolt-count bvec) 2)) (names (let* ((_a$8897 (var-deref "clojure.core" "mapv")) (_a$8898 (lambda (i) (let fnrec8896 ((i i)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth bvec (jolt-n* 2 i)))))) (_a$8899 (jolt-range n))) (jolt-invoke _a$8897 _a$8898 _a$8899))) (env* (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names)) (binds (let* ((_a$8903 (var-deref "clojure.core" "mapv")) (_a$8904 (lambda (i) (let fnrec8900 ((i i)) (let* ((_o$8901 (jolt-nth names i)) (_o$8902 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth bvec (jolt-inc (jolt-n* 2 i))) env*))) (jolt-vector _o$8901 _o$8902))))) (_a$8905 (jolt-range n))) (jolt-invoke _a$8903 _a$8904 _a$8905)))) (let* ((_o$8906 (keyword #f "op")) (_o$8907 (keyword #f "let")) (_o$8908 (keyword #f "letrec")) (_o$8909 #t) (_o$8910 (keyword #f "bindings")) (_o$8911 binds) (_o$8912 (keyword #f "body")) (_o$8913 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-drop 2 items) env*))) (jolt-hash-map _o$8906 _o$8907 _o$8908 _o$8909 _o$8910 _o$8911 _o$8912 _o$8913))))))) analyze-letfn*) (let* ((_o$8914 (keyword #f "private")) (_o$8915 #t)) (jolt-hash-map _o$8914 _o$8915)))) + (def-var-with-meta! "jolt.analyzer" "analyze-letfn*" (letrec ((analyze-letfn* (lambda (ctx items env) (let fnrec8736 ((ctx ctx) (items items) (env env)) (let* ((bvec (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (n (quotient (jolt-count bvec) 2)) (names (let* ((_a$8738 (var-deref "clojure.core" "mapv")) (_a$8739 (lambda (i) (let fnrec8737 ((i i)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth bvec (* 2 i)))))) (_a$8740 (jolt-range n))) (jolt-invoke _a$8738 _a$8739 _a$8740))) (env* (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names)) (binds (let* ((_a$8744 (var-deref "clojure.core" "mapv")) (_a$8745 (lambda (i) (let fnrec8741 ((i i)) (let* ((_o$8742 (jolt-nth names i)) (_o$8743 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth bvec (jolt-inc (* 2 i))) env*))) (jolt-vector _o$8742 _o$8743))))) (_a$8746 (jolt-range n))) (jolt-invoke _a$8744 _a$8745 _a$8746)))) (let* ((_o$8747 (keyword #f "op")) (_o$8748 (keyword #f "let")) (_o$8749 (keyword #f "letrec")) (_o$8750 #t) (_o$8751 (keyword #f "bindings")) (_o$8752 binds) (_o$8753 (keyword #f "body")) (_o$8754 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-drop 2 items) env*))) (jolt-hash-map _o$8747 _o$8748 _o$8749 _o$8750 _o$8751 _o$8752 _o$8753 _o$8754))))))) analyze-letfn*) (let* ((_o$8755 (keyword #f "private")) (_o$8756 #t)) (jolt-hash-map _o$8755 _o$8756)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "field-head?" (letrec ((field-head? (lambda (nm) (let fnrec8916 ((nm nm)) (let* ((and__25__auto (jolt-n> (jolt-count nm) 2))) (if (jolt-truthy? and__25__auto) (jolt= ".-" (jolt-invoke (var-deref "clojure.core" "subs") nm 0 2)) and__25__auto)))))) field-head?) (let* ((_o$8917 (keyword #f "private")) (_o$8918 #t)) (jolt-hash-map _o$8917 _o$8918)))) + (def-var-with-meta! "jolt.analyzer" "field-head?" (letrec ((field-head? (lambda (nm) (let fnrec8757 ((nm nm)) (let* ((and__25__auto (> (jolt-count nm) 2))) (if (jolt-truthy? and__25__auto) (jolt= ".-" (jolt-invoke (var-deref "clojure.core" "subs") nm 0 2)) and__25__auto)))))) field-head?) (let* ((_o$8758 (keyword #f "private")) (_o$8759 #t)) (jolt-hash-map _o$8758 _o$8759)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "def-meta-expr" (letrec ((def-meta-expr (lambda (ctx base env) (let fnrec8919 ((ctx ctx) (base base) (env env)) (if (jolt-pos? (jolt-count base)) (jolt-invoke (var-deref "jolt.ir" "map-node") (let* ((_a$8923 (var-deref "clojure.core" "mapv")) (_a$8924 (lambda (p) (let fnrec8920 ((p p)) (let* ((k (jolt-first p)) (v (jolt-invoke (var-deref "clojure.core" "second") p))) (let* ((_o$8921 (jolt-invoke (var-deref "jolt.ir" "const") k)) (_o$8922 (if (jolt= k (keyword #f "tag")) (jolt-invoke (var-deref "jolt.ir" "quote-node") v) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx v env)))) (jolt-vector _o$8921 _o$8922)))))) (_a$8925 (jolt-seq base))) (jolt-invoke _a$8923 _a$8924 _a$8925))) jolt-nil))))) def-meta-expr) (let* ((_o$8926 (keyword #f "private")) (_o$8927 #t)) (jolt-hash-map _o$8926 _o$8927)))) + (def-var-with-meta! "jolt.analyzer" "def-meta-expr" (letrec ((def-meta-expr (lambda (ctx base env) (let fnrec8760 ((ctx ctx) (base base) (env env)) (if (jolt-pos? (jolt-count base)) (jolt-invoke (var-deref "jolt.ir" "map-node") (let* ((_a$8764 (var-deref "clojure.core" "mapv")) (_a$8765 (lambda (p) (let fnrec8761 ((p p)) (let* ((k (jolt-first p)) (v (jolt-invoke (var-deref "clojure.core" "second") p))) (let* ((_o$8762 (jolt-invoke (var-deref "jolt.ir" "const") k)) (_o$8763 (if (jolt= k (keyword #f "tag")) (jolt-invoke (var-deref "jolt.ir" "quote-node") v) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx v env)))) (jolt-vector _o$8762 _o$8763)))))) (_a$8766 (jolt-seq base))) (jolt-invoke _a$8764 _a$8765 _a$8766))) jolt-nil))))) def-meta-expr) (let* ((_o$8767 (keyword #f "private")) (_o$8768 #t)) (jolt-hash-map _o$8767 _o$8768)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-def" (letrec ((analyze-def (lambda (ctx items env) (let fnrec8928 ((ctx ctx) (items items) (env env)) (let* ((name-sym (jolt-nth items 1))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") name-sym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "def name with map metadata") jolt-nil) (if (jolt-n< (jolt-count items) 3) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((_o$8929 (keyword #f "op")) (_o$8930 (keyword #f "def")) (_o$8931 (keyword #f "ns")) (_o$8932 cur) (_o$8933 (keyword #f "name")) (_o$8934 nm) (_o$8935 (keyword #f "no-init")) (_o$8936 #t)) (jolt-hash-map _o$8929 _o$8930 _o$8931 _o$8932 _o$8933 _o$8934 _o$8935 _o$8936)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (has-doc (let* ((and__25__auto (jolt-n> (jolt-count items) 3))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-nth items 2)) and__25__auto))) (val-form (jolt-nth items (if (jolt-truthy? has-doc) 3 2))) (base0 (let* ((or__26__auto (jolt-invoke (var-deref "jolt.host" "form-sym-meta") name-sym))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))) (tag (jolt-get base0 (keyword #f "tag"))) (tag-name (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") tag)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") tag) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") tag)) tag (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) (base-meta (if (jolt-truthy? tag-name) (let* ((c (jolt-invoke (var-deref "jolt.host" "resolve-class-hint") tag-name))) (if (jolt-truthy? c) (jolt-assoc base0 (keyword #f "tag") c) base0)) base0)) (node-meta (if (jolt-truthy? has-doc) (jolt-assoc base-meta (keyword #f "doc") (jolt-nth items 2)) base-meta))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((node (jolt-invoke (var-deref "jolt.ir" "def-node") cur nm (let* ((_a$8937 (var-deref "jolt.analyzer" "with-ret-nhint")) (_a$8938 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx val-form env)) (_a$8939 (jolt-invoke (var-deref "jolt.analyzer" "tag->nkind") tag))) (jolt-invoke _a$8937 _a$8938 _a$8939)) node-meta)) (me (jolt-invoke (var-deref "jolt.analyzer" "def-meta-expr") ctx node-meta env))) (if (jolt-truthy? me) (jolt-assoc node (keyword #f "meta-expr") me) node))))))))))) analyze-def) (let* ((_o$8940 (keyword #f "private")) (_o$8941 #t)) (jolt-hash-map _o$8940 _o$8941)))) + (def-var-with-meta! "jolt.analyzer" "analyze-def" (letrec ((analyze-def (lambda (ctx items env) (let fnrec8769 ((ctx ctx) (items items) (env env)) (let* ((name-sym (jolt-nth items 1))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") name-sym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "def name with map metadata") jolt-nil) (if (< (jolt-count items) 3) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((_o$8770 (keyword #f "op")) (_o$8771 (keyword #f "def")) (_o$8772 (keyword #f "ns")) (_o$8773 cur) (_o$8774 (keyword #f "name")) (_o$8775 nm) (_o$8776 (keyword #f "no-init")) (_o$8777 #t)) (jolt-hash-map _o$8770 _o$8771 _o$8772 _o$8773 _o$8774 _o$8775 _o$8776 _o$8777)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (has-doc (let* ((and__25__auto (> (jolt-count items) 3))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "string?") 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(keyword #f "else")) jolt-nil jolt-nil)))) (base-meta (if (jolt-truthy? tag-name) (let* ((c (jolt-invoke (var-deref "jolt.host" "resolve-class-hint") tag-name))) (if (jolt-truthy? c) (jolt-assoc base0 (keyword #f "tag") c) base0)) base0)) (node-meta (if (jolt-truthy? has-doc) (jolt-assoc base-meta (keyword #f "doc") (jolt-nth items 2)) base-meta))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((node (jolt-invoke (var-deref "jolt.ir" "def-node") cur nm (let* ((_a$8778 (var-deref "jolt.analyzer" "with-ret-nhint")) (_a$8779 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx val-form env)) (_a$8780 (jolt-invoke (var-deref "jolt.analyzer" "tag->nkind") tag))) (jolt-invoke _a$8778 _a$8779 _a$8780)) node-meta)) (me (jolt-invoke (var-deref "jolt.analyzer" "def-meta-expr") ctx node-meta env))) (if (jolt-truthy? me) (jolt-assoc node (keyword #f "meta-expr") me) node))))))))))) analyze-def) (let* ((_o$8781 (keyword #f "private")) (_o$8782 #t)) (jolt-hash-map _o$8781 _o$8782)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-set!" (letrec ((analyze-set! (lambda (ctx items env) (let fnrec8942 ((ctx ctx) (items items) (env env)) (let* ((target (jolt-nth items 1)) (val-node (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 2) env)) (ti (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") target)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") target)) jolt-nil)) (thead (if (jolt-truthy? (let* ((and__25__auto ti)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-pos? (jolt-count ti)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first ti)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first ti)) jolt-nil))) (if (jolt-truthy? (let* ((and__25__auto thead)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") thead) and__25__auto))) (let* ((_o$8943 (keyword #f "op")) (_o$8944 (keyword #f "set-field")) (_o$8945 (keyword #f "obj")) (_o$8946 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth ti 1) env)) (_o$8947 (keyword #f "field")) (_o$8948 (jolt-invoke (var-deref "clojure.core" "subs") thead 2)) (_o$8949 (keyword #f "val")) (_o$8950 val-node)) (jolt-hash-map _o$8943 _o$8944 _o$8945 _o$8946 _o$8947 _o$8948 _o$8949 _o$8950)) (if (jolt-truthy? (let* ((and__25__auto (jolt= thead "."))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n>= (jolt-count ti) 3))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth ti 1)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth ti 2)))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "class") (jolt-get (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx (jolt-nth ti 1)) (keyword #f "kind"))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_a$8954 (var-deref "jolt.ir" "invoke")) (_a$8955 (jolt-invoke (var-deref "jolt.ir" "var-ref") "jolt.host" "set-static-field!")) (_a$8956 (let* ((_o$8951 (jolt-invoke (var-deref "jolt.ir" "const") (jolt-get (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx (jolt-nth ti 1)) (keyword #f "name")))) (_o$8952 (jolt-invoke (var-deref "jolt.ir" "const") (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth ti 2)))) (_o$8953 val-node)) (jolt-vector _o$8951 _o$8952 _o$8953)))) (jolt-invoke _a$8954 _a$8955 _a$8956)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") target)) (begin (if (jolt-truthy? (jolt-invoke (var-deref "jolt.analyzer" "local?") env (jolt-invoke (var-deref "jolt.host" "form-sym-name") target))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of a local") jolt-nil) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx target))) (begin (if (jolt-not (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind")))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of a non-var") jolt-nil) (let* ((_o$8960 (keyword #f "op")) (_o$8961 (keyword #f "set-var")) (_o$8962 (keyword #f "the-var")) (_o$8963 (let* ((_a$8957 (var-deref "jolt.ir" "the-var")) (_a$8958 (jolt-get r (keyword #f "ns"))) (_a$8959 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$8957 _a$8958 _a$8959))) (_o$8964 (keyword #f "val")) (_o$8965 val-node)) (jolt-hash-map _o$8960 _o$8961 _o$8962 _o$8963 _o$8964 _o$8965))))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of an unsupported target") jolt-nil))))))))) analyze-set!) (let* ((_o$8966 (keyword #f "private")) (_o$8967 #t)) (jolt-hash-map _o$8966 _o$8967)))) + (def-var-with-meta! "jolt.analyzer" "analyze-set!" (letrec ((analyze-set! (lambda (ctx items env) (let fnrec8783 ((ctx ctx) (items items) (env env)) (let* ((target (jolt-nth items 1)) (val-node (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 2) env)) (ti (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") target)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") target)) jolt-nil)) (thead (if (jolt-truthy? (let* ((and__25__auto ti)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-pos? (jolt-count ti)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first ti)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first ti)) jolt-nil))) (if (jolt-truthy? (let* ((and__25__auto thead)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") thead) and__25__auto))) (let* ((_o$8784 (keyword #f "op")) (_o$8785 (keyword #f "set-field")) (_o$8786 (keyword #f "obj")) (_o$8787 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth ti 1) env)) (_o$8788 (keyword #f "field")) (_o$8789 (jolt-invoke (var-deref "clojure.core" "subs") thead 2)) (_o$8790 (keyword #f "val")) (_o$8791 val-node)) (jolt-hash-map _o$8784 _o$8785 _o$8786 _o$8787 _o$8788 _o$8789 _o$8790 _o$8791)) (if (jolt-truthy? (let* ((and__25__auto (jolt= thead "."))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (>= (jolt-count ti) 3))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth ti 1)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth ti 2)))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "class") (jolt-get (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx (jolt-nth ti 1)) (keyword #f "kind"))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_a$8795 (var-deref "jolt.ir" "invoke")) (_a$8796 (jolt-invoke (var-deref "jolt.ir" "var-ref") "jolt.host" "set-static-field!")) (_a$8797 (let* ((_o$8792 (jolt-invoke (var-deref "jolt.ir" "const") (jolt-get (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx (jolt-nth ti 1)) (keyword #f "name")))) (_o$8793 (jolt-invoke (var-deref "jolt.ir" "const") (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth ti 2)))) (_o$8794 val-node)) (jolt-vector _o$8792 _o$8793 _o$8794)))) (jolt-invoke _a$8795 _a$8796 _a$8797)) (if (jolt-truthy? 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"jolt.analyzer" "analyze-ctor" (letrec ((analyze-ctor (lambda (ctx class args env) (let fnrec8877 ((ctx ctx) (class class) (args args) (env env)) (jolt-invoke (var-deref "jolt.ir" "host-new") class (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__101_) (let fnrec8878 ((p__101_ p__101_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__101_ env))) args)))))) analyze-ctor) (let* ((_o$8879 (keyword #f "private")) (_o$8880 #t)) (jolt-hash-map _o$8879 _o$8880)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-ffi-fn" (letrec ((analyze-ffi-fn (lambda (ctx items env) (let fnrec9048 ((ctx ctx) (items items) (env env)) (begin (if (jolt-not (jolt-n<= 4 (jolt-count items) 5)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi/foreign-fn expects (foreign-fn \"sym\" [argtypes] rettype [:blocking])")) jolt-nil) (let* ((_o$9049 (keyword #f "op")) (_o$9050 (keyword #f "ffi-fn")) (_o$9051 (keyword #f "csym")) (_o$9052 (jolt-nth items 1)) (_o$9053 (keyword #f "argtypes")) (_o$9054 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "name") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 2)))) (_o$9055 (keyword #f "rettype")) (_o$9056 (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 3))) (_o$9057 (keyword #f "blocking")) (_o$9058 (let* ((and__25__auto (jolt= 5 (jolt-count items)))) (if (jolt-truthy? and__25__auto) (jolt= "blocking" (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 4))) and__25__auto)))) (jolt-hash-map _o$9049 _o$9050 _o$9051 _o$9052 _o$9053 _o$9054 _o$9055 _o$9056 _o$9057 _o$9058))))))) analyze-ffi-fn) (let* ((_o$9059 (keyword #f "private")) (_o$9060 #t)) (jolt-hash-map _o$9059 _o$9060)))) + (def-var-with-meta! "jolt.analyzer" "analyze-ffi-fn" (letrec ((analyze-ffi-fn (lambda (ctx items env) (let fnrec8881 ((ctx ctx) (items items) (env env)) (begin (if (jolt-not (<= 4 (jolt-count items) 5)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi/foreign-fn expects (foreign-fn \"sym\" [argtypes] rettype [:blocking])")) jolt-nil) (let* ((_o$8882 (keyword #f "op")) (_o$8883 (keyword #f "ffi-fn")) (_o$8884 (keyword #f "csym")) (_o$8885 (jolt-nth items 1)) (_o$8886 (keyword #f "argtypes")) (_o$8887 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "name") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 2)))) (_o$8888 (keyword #f "rettype")) (_o$8889 (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 3))) (_o$8890 (keyword #f "blocking")) (_o$8891 (let* ((and__25__auto (jolt= 5 (jolt-count items)))) (if (jolt-truthy? and__25__auto) (jolt= "blocking" (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 4))) and__25__auto)))) (jolt-hash-map _o$8882 _o$8883 _o$8884 _o$8885 _o$8886 _o$8887 _o$8888 _o$8889 _o$8890 _o$8891))))))) analyze-ffi-fn) (let* ((_o$8892 (keyword #f "private")) (_o$8893 #t)) (jolt-hash-map _o$8892 _o$8893)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-ffi-callable" (letrec ((analyze-ffi-callable (lambda (ctx items env) (let fnrec9061 ((ctx ctx) (items items) (env env)) (begin (if (jolt-not (jolt-n<= 4 (jolt-count items) 5)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi/foreign-callable expects (foreign-callable f [argtypes] rettype [:collect-safe])")) jolt-nil) (let* ((_o$9062 (keyword #f "op")) (_o$9063 (keyword #f "ffi-callable")) (_o$9064 (keyword #f "fn")) (_o$9065 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$9066 (keyword #f "argtypes")) (_o$9067 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "name") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 2)))) (_o$9068 (keyword #f "rettype")) (_o$9069 (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 3))) (_o$9070 (keyword #f "collect-safe")) (_o$9071 (let* ((and__25__auto (jolt= 5 (jolt-count items)))) (if (jolt-truthy? and__25__auto) (jolt= "collect-safe" (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 4))) and__25__auto)))) (jolt-hash-map _o$9062 _o$9063 _o$9064 _o$9065 _o$9066 _o$9067 _o$9068 _o$9069 _o$9070 _o$9071))))))) analyze-ffi-callable) (let* ((_o$9072 (keyword #f "private")) (_o$9073 #t)) (jolt-hash-map _o$9072 _o$9073)))) + (def-var-with-meta! "jolt.analyzer" "analyze-ffi-callable" (letrec ((analyze-ffi-callable (lambda (ctx items env) (let fnrec8894 ((ctx ctx) (items items) (env env)) (begin (if (jolt-not (<= 4 (jolt-count items) 5)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi/foreign-callable expects (foreign-callable f [argtypes] rettype [:collect-safe])")) jolt-nil) (let* ((_o$8895 (keyword #f "op")) (_o$8896 (keyword #f "ffi-callable")) (_o$8897 (keyword #f "fn")) (_o$8898 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$8899 (keyword #f "argtypes")) (_o$8900 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "name") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 2)))) (_o$8901 (keyword #f "rettype")) (_o$8902 (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 3))) (_o$8903 (keyword #f "collect-safe")) (_o$8904 (let* ((and__25__auto (jolt= 5 (jolt-count items)))) (if (jolt-truthy? and__25__auto) (jolt= "collect-safe" (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 4))) and__25__auto)))) (jolt-hash-map _o$8895 _o$8896 _o$8897 _o$8898 _o$8899 _o$8900 _o$8901 _o$8902 _o$8903 _o$8904))))))) analyze-ffi-callable) (let* ((_o$8905 (keyword #f "private")) (_o$8906 #t)) (jolt-hash-map _o$8905 _o$8906)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-dot" (letrec ((analyze-dot (lambda (ctx items env) (let fnrec9074 ((ctx ctx) (items items) (env env)) (begin (if (jolt-n< (jolt-count items) 3) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (. target member ...) form")) jolt-nil) (let* ((member0 (jolt-nth items 2)) (items (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") member0)) (let* ((ml (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") member0)))) (let* ((_a$9078 (let* ((_o$9075 (jolt-nth items 0)) (_o$9076 (jolt-nth items 1)) (_o$9077 (jolt-first ml))) (jolt-vector _o$9075 _o$9076 _o$9077))) (_a$9079 (jolt-rest ml))) (jolt-into _a$9078 _a$9079))) items)) (target (jolt-nth items 1)) (member (jolt-nth items 2)) (class-target (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") target))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.analyzer" "local?") env (jolt-invoke (var-deref "jolt.host" "form-sym-name") target))) and__25__auto))) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx target))) (if (jolt= (keyword #f "class") (jolt-get r (keyword #f "kind"))) (jolt-get r (keyword #f "name")) jolt-nil)) jolt-nil))) (if (jolt-truthy? (let* ((and__25__auto class-target)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") member) and__25__auto))) (let* ((_a$9084 (var-deref "jolt.ir" "invoke")) (_a$9085 (jolt-invoke (var-deref "jolt.ir" "host-static") class-target (jolt-invoke (var-deref "jolt.host" "form-sym-name") member))) (_a$9086 (let* ((_a$9081 (var-deref "clojure.core" "mapv")) (_a$9082 (lambda (p__102_) (let fnrec9080 ((p__102_ p__102_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__102_ env)))) (_a$9083 (jolt-drop 3 items))) (jolt-invoke _a$9081 _a$9082 _a$9083)))) (jolt-invoke _a$9084 _a$9085 _a$9086)) (if (jolt-truthy? 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(jolt-invoke (var-deref "jolt.host" "form-keyword?") member)) (let* ((_a$9099 (var-deref "jolt.ir" "invoke")) (_a$9100 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx member env)) (_a$9101 (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)))) (jolt-invoke _a$9099 _a$9100 _a$9101)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "special form . (non-symbol member)") jolt-nil)))))))))) analyze-dot) (let* ((_o$9102 (keyword #f "private")) (_o$9103 #t)) (jolt-hash-map _o$9102 _o$9103)))) + (def-var-with-meta! "jolt.analyzer" "analyze-dot" (letrec ((analyze-dot (lambda (ctx items env) (let fnrec8907 ((ctx ctx) (items items) (env env)) (begin (if (< (jolt-count items) 3) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (. target member ...) form")) jolt-nil) (let* ((member0 (jolt-nth items 2)) (items (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") member0)) (let* ((ml (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") member0)))) (let* ((_a$8911 (let* ((_o$8908 (jolt-nth items 0)) (_o$8909 (jolt-nth items 1)) (_o$8910 (jolt-first ml))) (jolt-vector _o$8908 _o$8909 _o$8910))) (_a$8912 (jolt-rest ml))) (jolt-into _a$8911 _a$8912))) items)) (target (jolt-nth items 1)) (member (jolt-nth items 2)) (class-target (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") target))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.analyzer" "local?") env (jolt-invoke (var-deref "jolt.host" "form-sym-name") target))) and__25__auto))) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx target))) (if (jolt= (keyword #f "class") (jolt-get r (keyword #f "kind"))) (jolt-get r (keyword #f "name")) jolt-nil)) jolt-nil))) (if (jolt-truthy? (let* ((and__25__auto class-target)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") member) and__25__auto))) (let* ((_a$8917 (var-deref "jolt.ir" "invoke")) (_a$8918 (jolt-invoke (var-deref "jolt.ir" "host-static") class-target (jolt-invoke (var-deref "jolt.host" "form-sym-name") member))) (_a$8919 (let* ((_a$8914 (var-deref "clojure.core" "mapv")) (_a$8915 (lambda (p__102_) (let fnrec8913 ((p__102_ p__102_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__102_ env)))) (_a$8916 (jolt-drop 3 items))) (jolt-invoke _a$8914 _a$8915 _a$8916)))) (jolt-invoke _a$8917 _a$8918 _a$8919)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") member)) (let* ((_o$8924 (keyword #f "op")) (_o$8925 (keyword #f "host-call")) (_o$8926 (keyword #f "method")) (_o$8927 (jolt-invoke (var-deref "jolt.host" "form-sym-name") member)) (_o$8928 (keyword #f "target")) (_o$8929 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx target env)) (_o$8930 (keyword #f "args")) (_o$8931 (let* ((_a$8921 (var-deref "clojure.core" "mapv")) (_a$8922 (lambda (p__103_) (let fnrec8920 ((p__103_ p__103_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__103_ env)))) (_a$8923 (jolt-drop 3 items))) (jolt-invoke _a$8921 _a$8922 _a$8923)))) (jolt-hash-map _o$8924 _o$8925 _o$8926 _o$8927 _o$8928 _o$8929 _o$8930 _o$8931)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-keyword?") member)) (let* ((_a$8932 (var-deref "jolt.ir" "invoke")) (_a$8933 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx member env)) (_a$8934 (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)))) (jolt-invoke _a$8932 _a$8933 _a$8934)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "special form . (non-symbol member)") jolt-nil)))))))))) analyze-dot) (let* ((_o$8935 (keyword #f "private")) (_o$8936 #t)) (jolt-hash-map _o$8935 _o$8936)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-field" (letrec ((analyze-field (lambda (ctx hname items env) (let fnrec9104 ((ctx ctx) (hname hname) (items items) (env env)) (begin (if (jolt-n< (jolt-count items) 2) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (.-field target) form")) jolt-nil) (let* ((_o$9105 (keyword #f "op")) (_o$9106 (keyword #f "host-call")) (_o$9107 (keyword #f "method")) (_o$9108 (jolt-invoke (var-deref "clojure.core" "subs") hname 1)) (_o$9109 (keyword #f "target")) (_o$9110 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$9111 (keyword #f "args")) (_o$9112 (jolt-vector))) (jolt-hash-map _o$9105 _o$9106 _o$9107 _o$9108 _o$9109 _o$9110 _o$9111 _o$9112))))))) analyze-field) (let* ((_o$9113 (keyword #f "private")) (_o$9114 #t)) (jolt-hash-map _o$9113 _o$9114)))) + (def-var-with-meta! "jolt.analyzer" "analyze-field" (letrec ((analyze-field (lambda (ctx hname items env) (let fnrec8937 ((ctx ctx) (hname hname) (items items) (env env)) (begin (if (< (jolt-count items) 2) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (.-field target) form")) jolt-nil) (let* ((_o$8938 (keyword #f "op")) (_o$8939 (keyword #f "host-call")) (_o$8940 (keyword #f "method")) (_o$8941 (jolt-invoke (var-deref "clojure.core" "subs") hname 1)) (_o$8942 (keyword #f "target")) (_o$8943 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$8944 (keyword #f "args")) (_o$8945 (jolt-vector))) (jolt-hash-map _o$8938 _o$8939 _o$8940 _o$8941 _o$8942 _o$8943 _o$8944 _o$8945))))))) analyze-field) (let* ((_o$8946 (keyword #f "private")) (_o$8947 #t)) (jolt-hash-map _o$8946 _o$8947)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-symbol" (letrec ((analyze-symbol (lambda (ctx form env) (let fnrec9115 ((ctx ctx) (form form) (env env)) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form)) (ns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form))) (if (jolt-truthy? (let* ((and__25__auto (jolt-nil? ns))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env nm) and__25__auto))) (let* ((h (jolt-get (jolt-get env (keyword #f "hints")) nm))) (if (jolt-truthy? h) (jolt-assoc (jolt-invoke (var-deref "jolt.ir" "local") nm) (keyword #f "hint") h) (jolt-invoke (var-deref "jolt.ir" "local") nm))) (if (jolt-truthy? ns) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (if (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind"))) (let* ((G__153 (let* ((_a$9116 (var-deref "jolt.ir" "var-ref")) (_a$9117 (jolt-get r (keyword #f "ns"))) (_a$9118 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$9116 _a$9117 _a$9118)))) (let* ((G__154 (if (jolt-truthy? (jolt-get r (keyword #f "num-ret"))) (jolt-assoc G__153 (keyword #f "num-ret") (jolt-get r (keyword #f "num-ret"))) G__153))) G__154)) (jolt-invoke (var-deref "jolt.ir" "host-static") ns nm))) (if (jolt-truthy? (keyword #f "else")) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (let* ((G__155 (jolt-get r (keyword #f "kind")))) (if (jolt= G__155 (keyword #f "var")) (let* ((G__156 (let* ((_a$9119 (var-deref "jolt.ir" "var-ref")) (_a$9120 (jolt-get r (keyword #f "ns"))) (_a$9121 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$9119 _a$9120 _a$9121)))) (let* ((G__157 (if (jolt-truthy? (jolt-get r (keyword #f "num-ret"))) (jolt-assoc G__156 (keyword #f "num-ret") (jolt-get r (keyword #f "num-ret"))) G__156))) G__157)) (if (jolt= G__155 (keyword #f "host")) (jolt-invoke (var-deref "jolt.ir" "host-ref") (jolt-get r (keyword #f "name"))) (if (jolt= G__155 (keyword #f "class")) (jolt-invoke (var-deref "jolt.ir" "const") (jolt-get r (keyword #f "name"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "late-bind?") ctx)) (jolt-invoke (var-deref "jolt.ir" "var-ref") (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx) nm) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "Unable to resolve symbol: " nm " in this context")))))))) jolt-nil)))))))) analyze-symbol) (let* ((_o$9122 (keyword #f "private")) (_o$9123 #t)) (jolt-hash-map _o$9122 _o$9123)))) + (def-var-with-meta! "jolt.analyzer" "analyze-symbol" (letrec ((analyze-symbol (lambda (ctx form env) (let fnrec8948 ((ctx ctx) (form form) (env env)) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form)) (ns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form))) (if (jolt-truthy? (let* ((and__25__auto (jolt-nil? ns))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env nm) and__25__auto))) (let* ((h (jolt-get (jolt-get env (keyword #f "hints")) nm))) (if (jolt-truthy? h) (jolt-assoc (jolt-invoke (var-deref "jolt.ir" "local") nm) (keyword #f "hint") h) (jolt-invoke (var-deref "jolt.ir" "local") nm))) (if (jolt-truthy? ns) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (if (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind"))) (let* ((G__152 (let* ((_a$8949 (var-deref "jolt.ir" "var-ref")) (_a$8950 (jolt-get r (keyword #f "ns"))) (_a$8951 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$8949 _a$8950 _a$8951)))) (let* ((G__153 (if (jolt-truthy? (jolt-get r (keyword #f "num-ret"))) (jolt-assoc G__152 (keyword #f "num-ret") (jolt-get r (keyword #f "num-ret"))) G__152))) G__153)) (jolt-invoke (var-deref "jolt.ir" "host-static") ns nm))) (if (jolt-truthy? (keyword #f "else")) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (let* ((G__154 (jolt-get r (keyword #f "kind")))) (if (jolt= G__154 (keyword #f "var")) (let* ((G__155 (let* ((_a$8952 (var-deref "jolt.ir" "var-ref")) (_a$8953 (jolt-get r (keyword #f "ns"))) (_a$8954 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$8952 _a$8953 _a$8954)))) (let* ((G__156 (if (jolt-truthy? (jolt-get r (keyword #f "num-ret"))) (jolt-assoc G__155 (keyword #f "num-ret") (jolt-get r (keyword #f "num-ret"))) G__155))) G__156)) (if (jolt= G__154 (keyword #f "host")) (jolt-invoke (var-deref "jolt.ir" "host-ref") (jolt-get r (keyword #f "name"))) (if (jolt= G__154 (keyword #f "class")) (jolt-invoke (var-deref "jolt.ir" "const") (jolt-get r (keyword #f "name"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "late-bind?") ctx)) (jolt-invoke (var-deref "jolt.ir" "var-ref") (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx) nm) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "Unable to resolve symbol: " nm " in this context")))))))) jolt-nil)))))))) analyze-symbol) (let* ((_o$8955 (keyword #f "private")) (_o$8956 #t)) (jolt-hash-map _o$8955 _o$8956)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "unchecked-arith" (letrec ((unchecked-arith (lambda (hname n) (let fnrec9124 ((hname hname) (n n)) (if (jolt= hname "+") "unchecked-add" (if (jolt= hname "*") "unchecked-multiply" (if (jolt= hname "-") (if (jolt= n 2) "unchecked-negate" "unchecked-subtract") (if (jolt= hname "inc") "unchecked-inc" (if (jolt= hname "dec") "unchecked-dec" (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))))))) unchecked-arith) (let* ((_o$9125 (keyword #f "private")) (_o$9126 #t)) (jolt-hash-map _o$9125 _o$9126)))) + (def-var-with-meta! "jolt.analyzer" "unchecked-arith" (letrec ((unchecked-arith (lambda (hname n) (let fnrec8957 ((hname hname) (n n)) (if (jolt= hname "+") "unchecked-add" (if (jolt= hname "*") "unchecked-multiply" (if (jolt= hname "-") (if (jolt= n 2) "unchecked-negate" "unchecked-subtract") (if (jolt= hname "inc") "unchecked-inc" (if (jolt= hname "dec") "unchecked-dec" (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))))))) unchecked-arith) (let* ((_o$8958 (keyword #f "private")) (_o$8959 #t)) (jolt-hash-map _o$8958 _o$8959)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "analyze-list" (letrec ((analyze-list (lambda (ctx form env) (let fnrec9127 ((ctx ctx) (form form) (env env)) (let* ((items (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-zero? (jolt-count items)) (jolt-invoke (var-deref "jolt.ir" "quote-node") form) (let* ((head (jolt-first items)) (hname (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (jolt-nil? (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)) (sf-name (let* ((or__26__auto hname)) (if (jolt-truthy? or__26__auto) or__26__auto (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__25__auto) (jolt-contains? (var-deref "jolt.analyzer" "handled") (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)))) (shadowed (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env hname) and__25__auto))) (unm (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "unchecked-math?"))) (let* ((opn (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (jolt-not shadowed) and__25__auto))) hname (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)))) (if (jolt-truthy? opn) (jolt-invoke (var-deref "jolt.analyzer" "unchecked-arith") opn (jolt-count items)) jolt-nil)) jolt-nil))) (if (jolt-truthy? unm) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (let* ((_a$9128 (jolt-invoke (var-deref "clojure.core" "symbol") unm)) (_a$9129 (jolt-rest items))) (jolt-cons _a$9128 _a$9129)) env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-contains? (var-deref "jolt.analyzer" "handled") sf-name)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-macro?") ctx head) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((node (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-invoke (var-deref "jolt.host" "form-expand-1") ctx form (jolt-invoke (var-deref "jolt.analyzer" "amp-env-map") env)) env)) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? (let* ((and__25__auto p)) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) and__25__auto))) (jolt-assoc node (keyword #f "pos") p) node)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "jolt.ffi" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__25__auto) (jolt= "__cfn" (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-ffi-fn") ctx items env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "jolt.ffi" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__25__auto) (jolt= "__ccallable" (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-ffi-callable") ctx items env) (if (jolt-truthy? (let* ((and__25__auto sf-name)) (if (jolt-truthy? and__25__auto) (jolt-contains? (var-deref "jolt.analyzer" "handled") sf-name) and__25__auto))) (let* ((node (jolt-invoke (var-deref "jolt.analyzer" "analyze-special") ctx sf-name items env)) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? (let* ((and__25__auto p)) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) and__25__auto))) (jolt-assoc node (keyword #f "pos") p) node)) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "method-head?") hname) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-host-call") ctx hname items env) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "ctor-head?") hname) and__25__auto)) and__25__auto))) (let* ((_a$9130 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$9131 ctx) (_a$9132 (jolt-invoke (var-deref "clojure.core" "subs") hname 0 (jolt-dec (jolt-count hname)))) (_a$9133 (jolt-rest items)) (_a$9134 env)) (jolt-invoke _a$9130 _a$9131 _a$9132 _a$9133 _a$9134)) (if (jolt-truthy? (let* ((and__25__auto (jolt= hname "new"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n>= (jolt-count items) 2))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1)) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_a$9135 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$9136 ctx) (_a$9137 (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1))) (_a$9138 (jolt-drop 2 items)) (_a$9139 env)) (jolt-invoke _a$9135 _a$9136 _a$9137 _a$9138 _a$9139)) (if (let* ((and__25__auto (jolt= hname "."))) (if (jolt-truthy? and__25__auto) (jolt-not shadowed) and__25__auto)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-dot") ctx items env) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") hname) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-field") ctx hname items env) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-special?") hname) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "special form " hname)) (if (jolt-truthy? (keyword #f "else")) (let* ((n (let* ((_a$9144 (var-deref "jolt.ir" "invoke")) (_a$9145 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx head env)) (_a$9146 (let* ((_a$9141 (var-deref "clojure.core" "mapv")) (_a$9142 (lambda (p__104_) (let fnrec9140 ((p__104_ p__104_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__104_ env)))) (_a$9143 (jolt-rest items))) (jolt-invoke _a$9141 _a$9142 _a$9143)))) (jolt-invoke _a$9144 _a$9145 _a$9146))) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? p) (jolt-assoc n (keyword #f "pos") p) n)) jolt-nil))))))))))))))))))) analyze-list) (let* ((_o$9147 (keyword #f "private")) (_o$9148 #t)) (jolt-hash-map _o$9147 _o$9148)))) + (def-var-with-meta! "jolt.analyzer" "analyze-list" (letrec ((analyze-list (lambda (ctx form env) (let fnrec8960 ((ctx ctx) (form form) (env env)) (let* ((items (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-zero? (jolt-count items)) (jolt-invoke (var-deref "jolt.ir" "quote-node") form) (let* ((head (jolt-first items)) (hname (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (jolt-nil? (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)) (sf-name (let* ((or__26__auto hname)) (if (jolt-truthy? or__26__auto) or__26__auto (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__25__auto) (jolt-contains? (var-deref "jolt.analyzer" "handled") (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)))) (shadowed (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env hname) and__25__auto))) (unm (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "unchecked-math?"))) (let* ((opn (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (jolt-not shadowed) and__25__auto))) hname (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)) and__25__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)))) (if (jolt-truthy? opn) (jolt-invoke (var-deref "jolt.analyzer" "unchecked-arith") opn (jolt-count items)) jolt-nil)) jolt-nil))) (if (jolt-truthy? unm) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (let* ((_a$8961 (jolt-invoke (var-deref "clojure.core" "symbol") unm)) (_a$8962 (jolt-rest items))) (jolt-cons _a$8961 _a$8962)) env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-contains? (var-deref "jolt.analyzer" "handled") sf-name)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-macro?") ctx head) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((node (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-invoke (var-deref "jolt.host" "form-expand-1") ctx form (jolt-invoke (var-deref "jolt.analyzer" "amp-env-map") env)) env)) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? (let* ((and__25__auto p)) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) and__25__auto))) (jolt-assoc node (keyword #f "pos") p) node)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "jolt.ffi" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__25__auto) (jolt= "__cfn" (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-ffi-fn") ctx items env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "jolt.ffi" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__25__auto) (jolt= "__ccallable" (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-ffi-callable") ctx items env) (if (jolt-truthy? (let* ((and__25__auto sf-name)) (if (jolt-truthy? and__25__auto) (jolt-contains? (var-deref "jolt.analyzer" "handled") sf-name) and__25__auto))) (let* ((node (jolt-invoke (var-deref "jolt.analyzer" "analyze-special") ctx sf-name items env)) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? (let* ((and__25__auto p)) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) and__25__auto))) (jolt-assoc node (keyword #f "pos") p) node)) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "method-head?") hname) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-host-call") ctx hname items env) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "ctor-head?") hname) and__25__auto)) and__25__auto))) (let* ((_a$8963 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$8964 ctx) (_a$8965 (jolt-invoke (var-deref "clojure.core" "subs") hname 0 (jolt-dec (jolt-count hname)))) (_a$8966 (jolt-rest items)) (_a$8967 env)) (jolt-invoke _a$8963 _a$8964 _a$8965 _a$8966 _a$8967)) (if (jolt-truthy? (let* ((and__25__auto (jolt= hname "new"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (>= (jolt-count items) 2))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1)) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_a$8968 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$8969 ctx) (_a$8970 (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1))) (_a$8971 (jolt-drop 2 items)) (_a$8972 env)) (jolt-invoke _a$8968 _a$8969 _a$8970 _a$8971 _a$8972)) (if (let* ((and__25__auto (jolt= hname "."))) (if (jolt-truthy? and__25__auto) (jolt-not shadowed) and__25__auto)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-dot") ctx items env) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") hname) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-field") ctx hname items env) (if (jolt-truthy? (let* ((and__25__auto hname)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not shadowed))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "form-special?") hname) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "special form " hname)) (if (jolt-truthy? (keyword #f "else")) (let* ((n (let* ((_a$8977 (var-deref "jolt.ir" "invoke")) (_a$8978 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx head env)) (_a$8979 (let* ((_a$8974 (var-deref "clojure.core" "mapv")) (_a$8975 (lambda (p__104_) (let fnrec8973 ((p__104_ p__104_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__104_ env)))) (_a$8976 (jolt-rest items))) (jolt-invoke _a$8974 _a$8975 _a$8976)))) (jolt-invoke _a$8977 _a$8978 _a$8979))) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? p) (jolt-assoc n (keyword #f "pos") p) n)) jolt-nil))))))))))))))))))) analyze-list) (let* ((_o$8980 (keyword #f "private")) (_o$8981 #t)) (jolt-hash-map _o$8980 _o$8981)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "with-coll-meta" (letrec ((with-coll-meta (lambda (ctx form env node) (let fnrec9149 ((ctx ctx) (form form) (env env) (node node)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-coll-meta") form))) (if (jolt-nil? m) node (let* ((_a$9152 (var-deref "jolt.ir" "invoke")) (_a$9153 (jolt-invoke (var-deref "jolt.ir" "var-ref") "clojure.core" "with-meta")) (_a$9154 (let* ((_o$9150 node) (_o$9151 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx m env))) (jolt-vector _o$9150 _o$9151)))) (jolt-invoke _a$9152 _a$9153 _a$9154)))))))) with-coll-meta) (let* ((_o$9155 (keyword #f "private")) (_o$9156 #t)) (jolt-hash-map _o$9155 _o$9156)))) + (def-var-with-meta! "jolt.analyzer" "with-coll-meta" (letrec ((with-coll-meta (lambda (ctx form env node) (let fnrec8982 ((ctx ctx) (form form) (env env) (node node)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-coll-meta") form))) (if (jolt-nil? m) node (let* ((_a$8985 (var-deref "jolt.ir" "invoke")) (_a$8986 (jolt-invoke (var-deref "jolt.ir" "var-ref") "clojure.core" "with-meta")) (_a$8987 (let* ((_o$8983 node) (_o$8984 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx m env))) (jolt-vector _o$8983 _o$8984)))) (jolt-invoke _a$8985 _a$8986 _a$8987)))))))) with-coll-meta) (let* ((_o$8988 (keyword #f "private")) (_o$8989 #t)) (jolt-hash-map _o$8988 _o$8989)))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze" (letrec ((analyze (case-lambda ((ctx form) (let fnrec9157 ((ctx ctx) (form form)) (analyze ctx form (jolt-invoke (var-deref "jolt.analyzer" "empty-env"))))) ((ctx form env) (let fnrec9158 ((ctx ctx) (form form) (env env)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.ir" "const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-symbol") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "jolt.analyzer" "with-coll-meta") ctx form env (jolt-invoke (var-deref "jolt.ir" "vector-node") (let* ((_a$9160 (var-deref "clojure.core" "mapv")) (_a$9161 (lambda (p__105_) (let fnrec9159 ((p__105_ p__105_)) (analyze ctx p__105_ env)))) (_a$9162 (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) (jolt-invoke _a$9160 _a$9161 _a$9162)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.analyzer" "with-coll-meta") ctx form env (jolt-invoke (var-deref "jolt.ir" "map-node") (let* ((_a$9166 (var-deref "clojure.core" "mapv")) (_a$9167 (lambda (p) (let fnrec9163 ((p p)) (let* ((_o$9164 (analyze ctx (jolt-first p) env)) (_o$9165 (analyze ctx (jolt-invoke (var-deref "clojure.core" "second") p) env))) (jolt-vector _o$9164 _o$9165))))) (_a$9168 (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form))) (jolt-invoke _a$9166 _a$9167 _a$9168)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "jolt.analyzer" "with-coll-meta") ctx form env (jolt-invoke (var-deref "jolt.ir" "set-node") (let* ((_a$9170 (var-deref "clojure.core" "mapv")) (_a$9171 (lambda (p__106_) (let fnrec9169 ((p__106_ p__106_)) (analyze ctx p__106_ env)))) (_a$9172 (jolt-invoke (var-deref "jolt.host" "form-set-items") form))) (jolt-invoke _a$9170 _a$9171 _a$9172)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-list") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-regex?") form)) (let* ((_o$9173 (keyword #f "op")) (_o$9174 (keyword #f "regex")) (_o$9175 (keyword #f "source")) (_o$9176 (jolt-invoke (var-deref "jolt.host" "form-regex-source") form))) (jolt-hash-map _o$9173 _o$9174 _o$9175 _o$9176)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-inst?") form)) (let* ((_o$9177 (keyword #f "op")) (_o$9178 (keyword #f "inst")) (_o$9179 (keyword #f "source")) (_o$9180 (jolt-invoke (var-deref "jolt.host" "form-inst-source") form))) (jolt-hash-map _o$9177 _o$9178 _o$9179 _o$9180)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-uuid?") form)) (let* ((_o$9181 (keyword #f "op")) (_o$9182 (keyword #f "uuid")) (_o$9183 (keyword #f "source")) (_o$9184 (jolt-invoke (var-deref "jolt.host" "form-uuid-source") form))) (jolt-hash-map _o$9181 _o$9182 _o$9183 _o$9184)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-bigdec?") form)) (let* ((_o$9185 (keyword #f "op")) (_o$9186 (keyword #f "bigdec")) (_o$9187 (keyword #f "source")) (_o$9188 (jolt-invoke (var-deref "jolt.host" "form-bigdec-source") form))) (jolt-hash-map _o$9185 _o$9186 _o$9187 _o$9188)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-ns-value?") form)) (let* ((_o$9189 (keyword #f "op")) (_o$9190 (keyword #f "the-ns")) (_o$9191 (keyword #f "name")) (_o$9192 (jolt-invoke (var-deref "jolt.host" "form-ns-value-name") form))) (jolt-hash-map _o$9189 _o$9190 _o$9191 _o$9192)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-var-value?") form)) (let* ((_a$9193 (var-deref "jolt.ir" "the-var")) (_a$9194 (jolt-invoke (var-deref "jolt.host" "form-var-value-ns") form)) (_a$9195 (jolt-invoke (var-deref "jolt.host" "form-var-value-name") form))) (jolt-invoke _a$9193 _a$9194 _a$9195)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "unsupported form") jolt-nil)))))))))))))))))) analyze))) + (def-var! "jolt.analyzer" "analyze" (letrec ((analyze (case-lambda ((ctx form) (let fnrec8990 ((ctx ctx) (form form)) (analyze ctx form (jolt-invoke (var-deref "jolt.analyzer" "empty-env"))))) ((ctx form env) (let fnrec8991 ((ctx ctx) (form form) (env env)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.ir" "const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-symbol") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "jolt.analyzer" "with-coll-meta") ctx form env (jolt-invoke (var-deref "jolt.ir" "vector-node") (let* ((_a$8993 (var-deref "clojure.core" "mapv")) (_a$8994 (lambda (p__105_) (let fnrec8992 ((p__105_ p__105_)) (analyze ctx p__105_ env)))) (_a$8995 (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) (jolt-invoke _a$8993 _a$8994 _a$8995)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.analyzer" "with-coll-meta") ctx form env (jolt-invoke (var-deref "jolt.ir" "map-node") (let* ((_a$8999 (var-deref "clojure.core" "mapv")) (_a$9000 (lambda (p) (let fnrec8996 ((p p)) (let* ((_o$8997 (analyze ctx (jolt-first p) env)) (_o$8998 (analyze ctx (jolt-invoke (var-deref "clojure.core" "second") p) env))) (jolt-vector _o$8997 _o$8998))))) (_a$9001 (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form))) (jolt-invoke _a$8999 _a$9000 _a$9001)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "jolt.analyzer" "with-coll-meta") ctx form env (jolt-invoke (var-deref "jolt.ir" "set-node") (let* ((_a$9003 (var-deref "clojure.core" "mapv")) (_a$9004 (lambda (p__106_) (let fnrec9002 ((p__106_ p__106_)) (analyze ctx p__106_ env)))) (_a$9005 (jolt-invoke (var-deref "jolt.host" "form-set-items") form))) (jolt-invoke _a$9003 _a$9004 _a$9005)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-list") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-regex?") form)) (let* ((_o$9006 (keyword #f "op")) (_o$9007 (keyword #f "regex")) (_o$9008 (keyword #f "source")) (_o$9009 (jolt-invoke (var-deref "jolt.host" "form-regex-source") form))) (jolt-hash-map _o$9006 _o$9007 _o$9008 _o$9009)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-inst?") form)) (let* ((_o$9010 (keyword #f "op")) (_o$9011 (keyword #f "inst")) (_o$9012 (keyword #f "source")) (_o$9013 (jolt-invoke (var-deref "jolt.host" "form-inst-source") form))) (jolt-hash-map _o$9010 _o$9011 _o$9012 _o$9013)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-uuid?") form)) (let* ((_o$9014 (keyword #f "op")) (_o$9015 (keyword #f "uuid")) (_o$9016 (keyword #f "source")) (_o$9017 (jolt-invoke (var-deref "jolt.host" "form-uuid-source") form))) (jolt-hash-map _o$9014 _o$9015 _o$9016 _o$9017)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-bigdec?") form)) (let* ((_o$9018 (keyword #f "op")) (_o$9019 (keyword #f "bigdec")) (_o$9020 (keyword #f "source")) (_o$9021 (jolt-invoke (var-deref "jolt.host" "form-bigdec-source") form))) (jolt-hash-map _o$9018 _o$9019 _o$9020 _o$9021)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-ns-value?") form)) (let* ((_o$9022 (keyword #f "op")) (_o$9023 (keyword #f "the-ns")) (_o$9024 (keyword #f "name")) (_o$9025 (jolt-invoke (var-deref "jolt.host" "form-ns-value-name") form))) (jolt-hash-map _o$9022 _o$9023 _o$9024 _o$9025)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-var-value?") form)) (let* ((_a$9026 (var-deref "jolt.ir" "the-var")) (_a$9027 (jolt-invoke (var-deref "jolt.host" "form-var-value-ns") form)) (_a$9028 (jolt-invoke (var-deref "jolt.host" "form-var-value-name") form))) (jolt-invoke _a$9026 _a$9027 _a$9028)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "unsupported form") jolt-nil)))))))))))))))))) analyze))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "native-ops" (let* ((_o$7267 "+") (_o$7268 "jolt-n+") (_o$7269 "-") (_o$7270 "jolt-n-") (_o$7271 "*") (_o$7272 "jolt-n*") (_o$7273 "/") (_o$7274 "jolt-n-div") (_o$7275 "<") (_o$7276 "jolt-n<") (_o$7277 ">") (_o$7278 "jolt-n>") (_o$7279 "<=") (_o$7280 "jolt-n<=") (_o$7281 ">=") (_o$7282 "jolt-n>=") (_o$7283 "=") (_o$7284 "jolt=") (_o$7285 "inc") (_o$7286 "jolt-inc") (_o$7287 "dec") (_o$7288 "jolt-dec") (_o$7289 "not") (_o$7290 "jolt-not") (_o$7291 "min") (_o$7292 "jolt-n-min") (_o$7293 "max") (_o$7294 "jolt-n-max") (_o$7295 "mod") (_o$7296 "jolt-mod") (_o$7297 "rem") (_o$7298 "jolt-rem") (_o$7299 "quot") (_o$7300 "jolt-quot") (_o$7301 "vector") (_o$7302 "jolt-vector") (_o$7303 "hash-map") (_o$7304 "jolt-hash-map-fn") (_o$7305 "hash-set") (_o$7306 "jolt-hash-set") (_o$7307 "conj") (_o$7308 "jolt-conj") (_o$7309 "get") (_o$7310 "jolt-get") (_o$7311 "nth") (_o$7312 "jolt-nth") (_o$7313 "count") (_o$7314 "jolt-count") (_o$7315 "assoc") (_o$7316 "jolt-assoc") (_o$7317 "dissoc") (_o$7318 "jolt-dissoc") (_o$7319 "contains?") (_o$7320 "jolt-contains?") (_o$7321 "empty?") (_o$7322 "jolt-empty?") (_o$7323 "peek") (_o$7324 "jolt-peek") (_o$7325 "pop") (_o$7326 "jolt-pop") (_o$7327 "first") (_o$7328 "jolt-first") (_o$7329 "rest") (_o$7330 "jolt-rest") (_o$7331 "next") (_o$7332 "jolt-next") (_o$7333 "seq") (_o$7334 "jolt-seq") (_o$7335 "cons") (_o$7336 "jolt-cons") (_o$7337 "list") (_o$7338 "jolt-list") (_o$7339 "reverse") (_o$7340 "jolt-reverse") (_o$7341 "last") (_o$7342 "jolt-last") (_o$7343 "map") (_o$7344 "jolt-map") (_o$7345 "filter") (_o$7346 "jolt-filter") (_o$7347 "remove") (_o$7348 "jolt-remove") (_o$7349 "reduce") (_o$7350 "jolt-reduce") (_o$7351 "into") (_o$7352 "jolt-into") (_o$7353 "concat") (_o$7354 "jolt-concat") (_o$7355 "apply") (_o$7356 "jolt-apply") (_o$7357 "range") (_o$7358 "jolt-range") (_o$7359 "take") (_o$7360 "jolt-take") (_o$7361 "drop") (_o$7362 "jolt-drop") (_o$7363 "keys") (_o$7364 "jolt-keys") (_o$7365 "vals") (_o$7366 "jolt-vals") (_o$7367 "even?") (_o$7368 "jolt-even?") (_o$7369 "odd?") (_o$7370 "jolt-odd?") (_o$7371 "pos?") (_o$7372 "jolt-pos?") (_o$7373 "neg?") (_o$7374 "jolt-neg?") (_o$7375 "zero?") (_o$7376 "jolt-zero?") (_o$7377 "identity") (_o$7378 "jolt-identity") (_o$7379 "nil?") (_o$7380 "jolt-nil?") (_o$7381 "some?") (_o$7382 "jolt-some?") (_o$7383 "ex-info") (_o$7384 "jolt-ex-info") (_o$7385 "bit-and") (_o$7386 "bitwise-and") (_o$7387 "bit-or") (_o$7388 "bitwise-ior") (_o$7389 "bit-xor") (_o$7390 "bitwise-xor") (_o$7391 "bit-not") (_o$7392 "bitwise-not") (_o$7393 "bit-shift-left") (_o$7394 "jolt-bit-shift-left") (_o$7395 "bit-shift-right") (_o$7396 "jolt-bit-shift-right") (_o$7397 "unsigned-bit-shift-right") (_o$7398 "jolt-unsigned-bit-shift-right") (_o$7399 "protocol-dispatch1") (_o$7400 "protocol-dispatch1") (_o$7401 "protocol-dispatch2") (_o$7402 "protocol-dispatch2") (_o$7403 "protocol-dispatch3") (_o$7404 "protocol-dispatch3")) (jolt-hash-map _o$7267 _o$7268 _o$7269 _o$7270 _o$7271 _o$7272 _o$7273 _o$7274 _o$7275 _o$7276 _o$7277 _o$7278 _o$7279 _o$7280 _o$7281 _o$7282 _o$7283 _o$7284 _o$7285 _o$7286 _o$7287 _o$7288 _o$7289 _o$7290 _o$7291 _o$7292 _o$7293 _o$7294 _o$7295 _o$7296 _o$7297 _o$7298 _o$7299 _o$7300 _o$7301 _o$7302 _o$7303 _o$7304 _o$7305 _o$7306 _o$7307 _o$7308 _o$7309 _o$7310 _o$7311 _o$7312 _o$7313 _o$7314 _o$7315 _o$7316 _o$7317 _o$7318 _o$7319 _o$7320 _o$7321 _o$7322 _o$7323 _o$7324 _o$7325 _o$7326 _o$7327 _o$7328 _o$7329 _o$7330 _o$7331 _o$7332 _o$7333 _o$7334 _o$7335 _o$7336 _o$7337 _o$7338 _o$7339 _o$7340 _o$7341 _o$7342 _o$7343 _o$7344 _o$7345 _o$7346 _o$7347 _o$7348 _o$7349 _o$7350 _o$7351 _o$7352 _o$7353 _o$7354 _o$7355 _o$7356 _o$7357 _o$7358 _o$7359 _o$7360 _o$7361 _o$7362 _o$7363 _o$7364 _o$7365 _o$7366 _o$7367 _o$7368 _o$7369 _o$7370 _o$7371 _o$7372 _o$7373 _o$7374 _o$7375 _o$7376 _o$7377 _o$7378 _o$7379 _o$7380 _o$7381 _o$7382 _o$7383 _o$7384 _o$7385 _o$7386 _o$7387 _o$7388 _o$7389 _o$7390 _o$7391 _o$7392 _o$7393 _o$7394 _o$7395 _o$7396 _o$7397 _o$7398 _o$7399 _o$7400 _o$7401 _o$7402 _o$7403 _o$7404)) (let* ((_o$7405 (keyword #f "private")) (_o$7406 #t)) (jolt-hash-map _o$7405 _o$7406)))) + (def-var-with-meta! "jolt.backend-scheme" "native-ops" (let* ((_o$7160 "+") (_o$7161 "+") (_o$7162 "-") (_o$7163 "-") (_o$7164 "*") (_o$7165 "*") (_o$7166 "/") (_o$7167 "/") (_o$7168 "<") (_o$7169 "<") (_o$7170 ">") (_o$7171 ">") (_o$7172 "<=") (_o$7173 "<=") (_o$7174 ">=") (_o$7175 ">=") (_o$7176 "=") (_o$7177 "jolt=") (_o$7178 "inc") (_o$7179 "jolt-inc") (_o$7180 "dec") (_o$7181 "jolt-dec") (_o$7182 "not") (_o$7183 "jolt-not") (_o$7184 "min") (_o$7185 "min") (_o$7186 "max") (_o$7187 "max") (_o$7188 "mod") (_o$7189 "modulo") (_o$7190 "rem") (_o$7191 "remainder") (_o$7192 "quot") (_o$7193 "quotient") (_o$7194 "vector") (_o$7195 "jolt-vector") (_o$7196 "hash-map") (_o$7197 "jolt-hash-map-fn") (_o$7198 "hash-set") (_o$7199 "jolt-hash-set") (_o$7200 "conj") (_o$7201 "jolt-conj") (_o$7202 "get") (_o$7203 "jolt-get") (_o$7204 "nth") (_o$7205 "jolt-nth") (_o$7206 "count") (_o$7207 "jolt-count") (_o$7208 "assoc") (_o$7209 "jolt-assoc") (_o$7210 "dissoc") (_o$7211 "jolt-dissoc") (_o$7212 "contains?") 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(lambda () (let fnrec7598 () (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "direct-link-defined") (jolt-hash-set)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "direct-link-fns") (jolt-hash-set))))))) direct-link-reset!))) (guard (e (#t #f)) (def-var! "jolt.backend-scheme" "var-cache?" (jolt-invoke (var-deref "clojure.core" "atom") #f))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "set-var-cache!" (letrec ((set-var-cache! (lambda (on) (let fnrec7714 ((on on)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "var-cache?") on))))) set-var-cache!))) + (def-var! "jolt.backend-scheme" "set-var-cache!" (letrec ((set-var-cache! (lambda (on) (let fnrec7599 ((on on)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "var-cache?") on))))) set-var-cache!))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "trace-frames?" (jolt-invoke (var-deref "clojure.core" "atom") #f))) + (def-var-with-meta! "jolt.backend-scheme" "dl-munge" (letrec ((dl-munge (lambda (s) (let fnrec7600 ((s s)) (jolt-invoke (var-deref "clojure.string" "replace") (jolt-invoke (var-deref "clojure.string" "replace") (jolt-invoke (var-deref "clojure.string" "replace") s "$" "_D_") "#" "_H_") "'" "_Q_"))))) dl-munge) (let* ((_o$7601 (keyword #f "private")) (_o$7602 #t)) (jolt-hash-map _o$7601 _o$7602)))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "set-trace-frames!" (letrec ((set-trace-frames! (lambda (on) (let fnrec7715 ((on on)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "trace-frames?") on))))) set-trace-frames!))) + (def-var-with-meta! "jolt.backend-scheme" "dl-name" (letrec ((dl-name (lambda (ns nm) (let fnrec7603 ((ns ns) (nm nm)) (let* ((_a$7604 (var-deref "clojure.core" "str")) (_a$7605 "jv$") (_a$7606 (jolt-invoke (var-deref "jolt.backend-scheme" "dl-munge") ns)) (_a$7607 "$") (_a$7608 (jolt-invoke (var-deref "jolt.backend-scheme" "dl-munge") nm))) (jolt-invoke _a$7604 _a$7605 _a$7606 _a$7607 _a$7608)))))) dl-name) (let* ((_o$7609 (keyword #f "private")) (_o$7610 #t)) (jolt-hash-map _o$7609 _o$7610)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "dl-munge" (letrec ((dl-munge (lambda (s) (let fnrec7716 ((s s)) (jolt-invoke (var-deref "clojure.string" "replace") (jolt-invoke (var-deref "clojure.string" "replace") (jolt-invoke (var-deref "clojure.string" "replace") s "$" "_D_") "#" "_H_") "'" "_Q_"))))) dl-munge) (let* ((_o$7717 (keyword #f "private")) (_o$7718 #t)) (jolt-hash-map _o$7717 _o$7718)))) + (def-var-with-meta! "jolt.backend-scheme" "dl-fqn" (letrec ((dl-fqn (lambda (ns nm) (let fnrec7611 ((ns ns) (nm nm)) (jolt-invoke (var-deref "clojure.core" "str") ns "/" nm))))) dl-fqn) (let* ((_o$7612 (keyword #f "private")) (_o$7613 #t)) (jolt-hash-map _o$7612 _o$7613)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "dl-name" (letrec ((dl-name (lambda (ns nm) (let fnrec7719 ((ns ns) (nm nm)) (let* ((_a$7720 (var-deref "clojure.core" "str")) (_a$7721 "jv$") (_a$7722 (jolt-invoke (var-deref "jolt.backend-scheme" "dl-munge") ns)) (_a$7723 "$") (_a$7724 (jolt-invoke (var-deref "jolt.backend-scheme" "dl-munge") nm))) (jolt-invoke _a$7720 _a$7721 _a$7722 _a$7723 _a$7724)))))) dl-name) (let* ((_o$7725 (keyword #f "private")) (_o$7726 #t)) (jolt-hash-map _o$7725 _o$7726)))) + (def-var-with-meta! "jolt.backend-scheme" "direct-linkable?" (letrec ((direct-linkable? 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"jolt.backend-scheme" "*tail?*" #f (let* ((_o$7744 (keyword #f "dynamic")) (_o$7745 #t)) (jolt-hash-map _o$7744 _o$7745)))) + (def-var-with-meta! "jolt.backend-scheme" "cache-cells" (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil) (let* ((_o$7633 (keyword #f "private")) (_o$7634 #t)) (jolt-hash-map _o$7633 _o$7634)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "gensym-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (let* ((_o$7746 (keyword #f "private")) (_o$7747 #t)) (jolt-hash-map _o$7746 _o$7747)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-with-cells" (letrec ((emit-with-cells (lambda (emit-thunk) (let fnrec7635 ((emit-thunk emit-thunk)) (let* ((cells (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (prev (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "cache-cells"))) (_ (jolt-invoke (var-deref "clojure.core" "reset!") 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"jolt.backend-scheme" "bare-native-names" (jolt-invoke (var-deref "clojure.core" "set") (jolt-invoke (var-deref "clojure.core" "keep") (lambda (G__138) (let fnrec7668 ((G__138 G__138)) (let* ((G__139 G__138) (k (jolt-nth G__139 0 jolt-nil)) (v (jolt-nth G__139 1 jolt-nil))) (if (jolt= k v) k jolt-nil)))) (var-deref "jolt.backend-scheme" "native-ops"))) (let* ((_o$7669 (keyword #f "private")) (_o$7670 #t)) (jolt-hash-map _o$7669 _o$7670)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-with-cells" (letrec ((emit-with-cells (lambda (emit-thunk) (let fnrec7753 ((emit-thunk emit-thunk)) (let* ((cells (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (prev (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "cache-cells"))) (_ (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "cache-cells") cells)) (raw (jolt-invoke emit-thunk)) (_ (jolt-invoke (var-deref "clojure.core" "reset!") 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(var-deref "jolt.backend-scheme" "bare-native-names") s))) (jolt-invoke (var-deref "clojure.core" "str") "_" s) s)))))) munge-name) (let* ((_o$7790 (keyword #f "private")) (_o$7791 #t)) (jolt-hash-map _o$7790 _o$7791)))) + (def-var-with-meta! "jolt.backend-scheme" "munge-name" (letrec ((munge-name (lambda (s) (let fnrec7671 ((s s)) (let* ((s (jolt-invoke (var-deref "clojure.string" "replace") (jolt-invoke (var-deref "clojure.string" "replace") s "#" "_") "'" "_PRIME_"))) (if (let* ((or__26__auto (jolt-contains? (var-deref "jolt.backend-scheme" "scheme-reserved") s))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-contains? (var-deref "jolt.backend-scheme" "bare-native-names") s))) (jolt-invoke (var-deref "clojure.core" "str") "_" s) s)))))) munge-name) (let* ((_o$7672 (keyword #f "private")) (_o$7673 #t)) (jolt-hash-map _o$7672 _o$7673)))) (guard (e (#t #f)) (declare-var! "jolt.backend-scheme" "emit")) (guard (e (#t #f)) - (declare-var! "jolt.backend-scheme" "emit*")) + (def-var-with-meta! "jolt.backend-scheme" "char-escape" (letrec ((char-escape (lambda (cp) (let fnrec7674 ((cp cp)) (if (jolt= cp 34) "\\\"" (if (jolt= cp 92) "\\\\" (if (jolt= cp 10) "\\n" (if (jolt= cp 9) "\\t" (if (jolt= cp 13) "\\r" (if (let* ((and__25__auto (>= cp 32))) (if (jolt-truthy? and__25__auto) (< cp 127) and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "char") cp)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") "\\x" (jolt-invoke (var-deref "clojure.core" "format") "%x" cp) ";") jolt-nil))))))))))) char-escape) (let* ((_o$7675 (keyword #f "private")) (_o$7676 #t)) (jolt-hash-map _o$7675 _o$7676)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "tail-transparent-ops" (let* ((_o$7792 (keyword #f "if")) (_o$7793 (keyword #f "do")) (_o$7794 (keyword #f "let")) (_o$7795 (keyword #f "loop")) (_o$7796 (keyword #f "invoke"))) (jolt-hash-set _o$7792 _o$7793 _o$7794 _o$7795 _o$7796)) (let* ((_o$7797 (keyword #f "private")) (_o$7798 #t)) (jolt-hash-map _o$7797 _o$7798)))) + (def-var-with-meta! "jolt.backend-scheme" "chez-str-lit" (letrec ((chez-str-lit (lambda (s) (let fnrec7677 ((s s)) (jolt-invoke (var-deref "clojure.core" "str") "\"" (jolt-apply (var-deref "clojure.core" "str") (jolt-map (lambda (c) (let fnrec7678 ((c c)) (jolt-invoke (var-deref "jolt.backend-scheme" "char-escape") (jolt-invoke (var-deref "clojure.core" "int") c)))) s)) "\""))))) chez-str-lit) (let* ((_o$7679 (keyword #f "private")) (_o$7680 #t)) (jolt-hash-map _o$7679 _o$7680)))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit" (letrec ((emit (lambda (node) (let fnrec7799 ((node node)) (if (jolt-truthy? (let* ((and__25__auto (var-deref "jolt.backend-scheme" "*tail?*"))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "tail-transparent-ops") (jolt-get node (keyword #f "op")))) and__25__auto))) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*tail?*") #f))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit*") node)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit*") node)))))) emit))) + (def-var-with-meta! "jolt.backend-scheme" "emit-const" (letrec ((emit-const (lambda (v) (let fnrec7681 ((v v)) (if (jolt-nil? v) "jolt-nil" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "boolean?") v)) (if (jolt-truthy? v) "#t" "#f") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (if (jolt= v +inf.0) "+inf.0" (if (jolt= v -inf.0) "-inf.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") v v)) "+nan.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "float?") v)) (let* ((s (jolt-invoke (var-deref "clojure.core" "str") v))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "."))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "e")))) s (jolt-invoke (var-deref "clojure.core" "str") s ".0"))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") v) jolt-nil))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") v) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (let* ((temp__16__auto (jolt-invoke (var-deref "clojure.core" "namespace") v))) (if (jolt-truthy? temp__16__auto) (let* ((kns temp__16__auto)) (let* ((_a$7682 (var-deref "clojure.core" "str")) (_a$7683 "(keyword ") (_a$7684 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") kns)) (_a$7685 " ") (_a$7686 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v))) (_a$7687 ")")) (jolt-invoke _a$7682 _a$7683 _a$7684 _a$7685 _a$7686 _a$7687))) (jolt-invoke (var-deref "clojure.core" "str") "(keyword #f " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v)) ")"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") v)) (jolt-invoke (var-deref "clojure.core" "str") "(integer->char " (jolt-invoke (var-deref "jolt.host" "form-char-code") v) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$7688 (jolt-invoke (var-deref "clojure.core" "str") "emit-const: unsupported literal " (jolt-invoke (var-deref "clojure.core" "pr-str") v))) (_a$7689 (jolt-hash-map))) (jolt-ex-info _a$7688 _a$7689))) jolt-nil))))))))))) emit-const) (let* ((_o$7690 (keyword #f "private")) (_o$7691 #t)) (jolt-hash-map _o$7690 _o$7691)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "char-escape" (letrec ((char-escape (lambda (cp) (let fnrec7800 ((cp cp)) (if (jolt= cp 34) "\\\"" (if (jolt= cp 92) "\\\\" (if (jolt= cp 10) "\\n" (if (jolt= cp 9) "\\t" (if (jolt= cp 13) "\\r" (if (let* ((and__25__auto (jolt-n>= cp 32))) (if (jolt-truthy? and__25__auto) (jolt-n< cp 127) and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "char") cp)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") "\\x" (jolt-invoke (var-deref "clojure.core" "format") "%x" cp) ";") jolt-nil))))))))))) char-escape) (let* ((_o$7801 (keyword #f "private")) (_o$7802 #t)) (jolt-hash-map _o$7801 _o$7802)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-ordered" (letrec ((emit-ordered (lambda (ctor arg-strs) (let fnrec7692 ((ctor ctor) (arg-strs arg-strs)) (if (< (jolt-count arg-strs) 2) (jolt-invoke (var-deref "clojure.core" "str") "(" ctor (if (jolt-empty? arg-strs) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " arg-strs))) ")") (let* ((tmps (jolt-map (lambda (_) (let fnrec7693 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_o$"))) arg-strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec7694 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps arg-strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") (" ctor " " (jolt-invoke (var-deref "clojure.string" "join") " " tmps) "))"))))))) emit-ordered) (let* ((_o$7695 (keyword #f "private")) (_o$7696 #t)) (jolt-hash-map _o$7695 _o$7696)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "chez-str-lit" (letrec ((chez-str-lit (lambda (s) (let fnrec7803 ((s s)) (jolt-invoke (var-deref "clojure.core" "str") "\"" (jolt-apply (var-deref "clojure.core" "str") (jolt-map (lambda (c) (let fnrec7804 ((c c)) (jolt-invoke (var-deref "jolt.backend-scheme" "char-escape") (jolt-invoke (var-deref "clojure.core" "int") c)))) s)) "\""))))) chez-str-lit) (let* ((_o$7805 (keyword #f "private")) (_o$7806 #t)) (jolt-hash-map _o$7805 _o$7806)))) + (def-var-with-meta! "jolt.backend-scheme" "side-effect-free?" (letrec ((side-effect-free? (lambda (n) (let fnrec7697 ((n n)) (let* ((_a$7703 (let* ((_o$7698 (keyword #f "const")) (_o$7699 (keyword #f "local")) (_o$7700 (keyword #f "var")) (_o$7701 (keyword #f "the-var")) (_o$7702 (keyword #f "quote"))) (jolt-hash-set _o$7698 _o$7699 _o$7700 _o$7701 _o$7702))) (_a$7704 (jolt-get n (keyword #f "op")))) (jolt-contains? _a$7703 _a$7704)))))) side-effect-free?) (let* ((_o$7705 (keyword #f "private")) (_o$7706 #t)) (jolt-hash-map _o$7705 _o$7706)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-const" (letrec ((emit-const (lambda (v) (let fnrec7807 ((v v)) (if (jolt-nil? v) "jolt-nil" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "boolean?") v)) (if (jolt-truthy? v) "#t" "#f") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (if (jolt= v +inf.0) "+inf.0" (if (jolt= v -inf.0) "-inf.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") v v)) "+nan.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "float?") v)) (let* ((s (jolt-invoke (var-deref "clojure.core" "str") v))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "."))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "e")))) s (jolt-invoke (var-deref "clojure.core" "str") s ".0"))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") v) jolt-nil))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") v) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (let* ((temp__16__auto (jolt-invoke (var-deref "clojure.core" "namespace") v))) (if (jolt-truthy? temp__16__auto) (let* ((kns temp__16__auto)) (let* ((_a$7808 (var-deref "clojure.core" "str")) (_a$7809 "(keyword ") (_a$7810 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") kns)) (_a$7811 " ") (_a$7812 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v))) (_a$7813 ")")) (jolt-invoke _a$7808 _a$7809 _a$7810 _a$7811 _a$7812 _a$7813))) (jolt-invoke (var-deref "clojure.core" "str") "(keyword #f " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v)) ")"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") v)) (jolt-invoke (var-deref "clojure.core" "str") "(integer->char " (jolt-invoke (var-deref "jolt.host" "form-char-code") v) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$7814 (jolt-invoke (var-deref "clojure.core" "str") "emit-const: unsupported literal " (jolt-invoke (var-deref "clojure.core" "pr-str") v))) (_a$7815 (jolt-hash-map))) (jolt-ex-info _a$7814 _a$7815))) jolt-nil))))))))))) emit-const) (let* ((_o$7816 (keyword #f "private")) (_o$7817 #t)) (jolt-hash-map _o$7816 _o$7817)))) + (def-var-with-meta! "jolt.backend-scheme" "needs-order?" (letrec ((needs-order? (lambda (nodes) (let fnrec7707 ((nodes nodes)) (> (jolt-count (jolt-remove (var-deref "jolt.backend-scheme" "side-effect-free?") nodes)) 1))))) needs-order?) (let* ((_o$7708 (keyword #f "private")) (_o$7709 #t)) (jolt-hash-map _o$7708 _o$7709)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-ordered" (letrec ((emit-ordered (lambda (ctor arg-strs) (let fnrec7818 ((ctor ctor) (arg-strs arg-strs)) (if (jolt-n< (jolt-count arg-strs) 2) (jolt-invoke (var-deref "clojure.core" "str") "(" ctor (if (jolt-empty? arg-strs) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " arg-strs))) ")") (let* ((tmps (jolt-map (lambda (_) (let fnrec7819 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_o$"))) arg-strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec7820 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps arg-strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") (" ctor " " (jolt-invoke (var-deref "clojure.string" "join") " " tmps) "))"))))))) emit-ordered) (let* ((_o$7821 (keyword #f "private")) (_o$7822 #t)) (jolt-hash-map _o$7821 _o$7822)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "side-effect-free?" (letrec ((side-effect-free? (lambda (n) (let fnrec7823 ((n n)) (let* ((_a$7829 (let* ((_o$7824 (keyword #f "const")) (_o$7825 (keyword #f "local")) (_o$7826 (keyword #f "var")) (_o$7827 (keyword #f "the-var")) (_o$7828 (keyword #f "quote"))) (jolt-hash-set _o$7824 _o$7825 _o$7826 _o$7827 _o$7828))) (_a$7830 (jolt-get n (keyword #f "op")))) (jolt-contains? _a$7829 _a$7830)))))) side-effect-free?) (let* ((_o$7831 (keyword #f "private")) (_o$7832 #t)) (jolt-hash-map _o$7831 _o$7832)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "needs-order?" (letrec ((needs-order? (lambda (nodes) (let fnrec7833 ((nodes nodes)) (jolt-n> (jolt-count (jolt-remove (var-deref "jolt.backend-scheme" "side-effect-free?") nodes)) 1))))) needs-order?) (let* ((_o$7834 (keyword #f "private")) (_o$7835 #t)) (jolt-hash-map _o$7834 _o$7835)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "ordered-call" (letrec ((ordered-call (lambda (nodes strs build) (let fnrec7836 ((nodes nodes) (strs strs) (build build)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "needs-order?") nodes)) (let* ((tmps (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (_) (let fnrec7837 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_a$"))) strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec7838 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") " (jolt-invoke build tmps) ")")) (jolt-invoke build strs)))))) ordered-call) (let* ((_o$7839 (keyword #f "private")) (_o$7840 #t)) (jolt-hash-map _o$7839 _o$7840)))) + (def-var-with-meta! "jolt.backend-scheme" "ordered-call" (letrec ((ordered-call (lambda (nodes strs build) (let fnrec7710 ((nodes nodes) (strs strs) (build build)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "needs-order?") nodes)) (let* ((tmps (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (_) (let fnrec7711 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_a$"))) strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec7712 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") " (jolt-invoke build tmps) ")")) (jolt-invoke build strs)))))) ordered-call) (let* ((_o$7713 (keyword #f "private")) (_o$7714 #t)) (jolt-hash-map _o$7713 _o$7714)))) (guard (e (#t #f)) (declare-var! "jolt.backend-scheme" "emit-quoted")) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-quoted-map" (letrec ((emit-quoted-map (lambda (pairs) (let fnrec7841 ((pairs pairs)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (p) (let fnrec7842 ((p p)) (let* ((_o$7843 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 0))) (_o$7844 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 1)))) (jolt-vector _o$7843 _o$7844)))) pairs)) ")"))))) emit-quoted-map) (let* ((_o$7845 (keyword #f "private")) (_o$7846 #t)) (jolt-hash-map _o$7845 _o$7846)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-quoted-map" (letrec ((emit-quoted-map (lambda (pairs) (let fnrec7715 ((pairs pairs)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (p) (let fnrec7716 ((p p)) (let* ((_o$7717 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 0))) (_o$7718 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 1)))) (jolt-vector _o$7717 _o$7718)))) pairs)) ")"))))) emit-quoted-map) (let* ((_o$7719 (keyword #f "private")) (_o$7720 #t)) (jolt-hash-map _o$7719 _o$7720)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-quoted-map-value" (letrec ((emit-quoted-map-value (lambda (m) (let fnrec7847 ((m m)) (let* ((pairs (jolt-invoke (var-deref "clojure.core" "sort") (let* ((_a$7853 (lambda (k) (let fnrec7848 ((k k)) (let* ((_a$7849 (var-deref "clojure.core" "str")) (_a$7850 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") k)) (_a$7851 " ") (_a$7852 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get m k)))) (jolt-invoke _a$7849 _a$7850 _a$7851 _a$7852))))) (_a$7854 (jolt-keys m))) (jolt-map _a$7853 _a$7854))))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " pairs) ")")))))) emit-quoted-map-value) (let* ((_o$7855 (keyword #f "private")) (_o$7856 #t)) (jolt-hash-map _o$7855 _o$7856)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-quoted-map-value" (letrec ((emit-quoted-map-value (lambda (m) (let fnrec7721 ((m m)) (let* ((pairs (jolt-invoke (var-deref "clojure.core" "sort") (let* ((_a$7727 (lambda (k) (let fnrec7722 ((k k)) (let* ((_a$7723 (var-deref "clojure.core" "str")) (_a$7724 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") k)) (_a$7725 " ") (_a$7726 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get m k)))) (jolt-invoke _a$7723 _a$7724 _a$7725 _a$7726))))) (_a$7728 (jolt-keys m))) (jolt-map _a$7727 _a$7728))))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " pairs) ")")))))) emit-quoted-map-value) (let* ((_o$7729 (keyword #f "private")) (_o$7730 #t)) (jolt-hash-map _o$7729 _o$7730)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-quoted" (letrec ((emit-quoted (lambda (form) (let fnrec7857 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") form)) (sns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form)) (nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form))) (if (jolt-truthy? (let* ((and__25__auto m)) (if (jolt-truthy? and__25__auto) (jolt-pos? (jolt-count m)) and__25__auto))) (let* ((_a$7858 (var-deref "clojure.core" "str")) (_a$7859 "(jolt-symbol/meta ") (_a$7860 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$7861 " ") (_a$7862 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$7863 " ") (_a$7864 (emit-quoted m)) (_a$7865 ")")) (jolt-invoke _a$7858 _a$7859 _a$7860 _a$7861 _a$7862 _a$7863 _a$7864 _a$7865)) (let* ((_a$7866 (var-deref "clojure.core" "str")) (_a$7867 "(jolt-symbol ") (_a$7868 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$7869 " ") (_a$7870 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$7871 ")")) (jolt-invoke _a$7866 _a$7867 _a$7868 _a$7869 _a$7870 _a$7871)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "sort") (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-set-items") form)))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-elements") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map") (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-regex?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-regex " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.host" "form-regex-source") form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-inst?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-inst-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.host" "form-inst-source") form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-uuid?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uuid-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.host" "form-uuid-source") form)) ")") (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") form))) (if (jolt-truthy? and__25__auto) (jolt= (keyword "jolt" "tagged") (jolt-get form (keyword "jolt" "type"))) and__25__auto))) (let* ((nm (jolt-invoke (var-deref "clojure.core" "name") (jolt-get form (keyword #f "tag")))) (tsym (if (jolt= (integer->char 35) (jolt-first nm)) (jolt-invoke (var-deref "clojure.core" "subs") nm 1) nm))) (let* ((_a$7872 (var-deref "clojure.core" "str")) (_a$7873 "(jolt-tagged-literal (jolt-symbol #f ") (_a$7874 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") tsym)) (_a$7875 ") ") (_a$7876 (emit-quoted (jolt-get form (keyword #f "form")))) (_a$7877 ")")) (jolt-invoke _a$7872 _a$7873 _a$7874 _a$7875 _a$7876 _a$7877))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map-value") form) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "sort") (jolt-map emit-quoted form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$7878 (jolt-invoke (var-deref "clojure.core" "str") "emit-quoted: unsupported quoted form " (jolt-invoke (var-deref "clojure.core" "pr-str") form))) (_a$7879 (jolt-hash-map))) (jolt-ex-info _a$7878 _a$7879))) jolt-nil)))))))))))))))))))) emit-quoted) (let* ((_o$7880 (keyword #f "private")) (_o$7881 #t)) (jolt-hash-map _o$7880 _o$7881)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-quoted" (letrec ((emit-quoted (lambda (form) (let fnrec7731 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") form)) (sns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form)) (nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form))) (if (jolt-truthy? (let* ((and__25__auto m)) (if (jolt-truthy? and__25__auto) (jolt-pos? (jolt-count m)) and__25__auto))) (let* ((_a$7732 (var-deref "clojure.core" "str")) (_a$7733 "(jolt-symbol/meta ") (_a$7734 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$7735 " ") (_a$7736 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$7737 " ") (_a$7738 (emit-quoted m)) (_a$7739 ")")) (jolt-invoke _a$7732 _a$7733 _a$7734 _a$7735 _a$7736 _a$7737 _a$7738 _a$7739)) (let* ((_a$7740 (var-deref "clojure.core" "str")) (_a$7741 "(jolt-symbol ") (_a$7742 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$7743 " ") (_a$7744 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$7745 ")")) (jolt-invoke _a$7740 _a$7741 _a$7742 _a$7743 _a$7744 _a$7745)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "sort") (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-set-items") form)))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-elements") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map") (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-regex?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-regex " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.host" "form-regex-source") form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-inst?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-inst-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.host" "form-inst-source") form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-uuid?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uuid-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.host" "form-uuid-source") form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map-value") form) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "sort") (jolt-map emit-quoted form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$7746 (jolt-invoke (var-deref "clojure.core" "str") "emit-quoted: unsupported quoted form " (jolt-invoke (var-deref "clojure.core" "pr-str") form))) (_a$7747 (jolt-hash-map))) (jolt-ex-info _a$7746 _a$7747))) jolt-nil))))))))))))))))))) emit-quoted) (let* ((_o$7748 (keyword #f "private")) (_o$7749 #t)) (jolt-hash-map _o$7748 _o$7749)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "jmeta-nonempty?" (letrec ((jmeta-nonempty? (lambda (m) (let fnrec7882 ((m m)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") m))) (if (jolt-truthy? and__25__auto) (jolt-pos? (jolt-count m)) and__25__auto)))))) jmeta-nonempty?) (let* ((_o$7883 (keyword #f "private")) (_o$7884 #t)) (jolt-hash-map _o$7883 _o$7884)))) + (def-var-with-meta! "jolt.backend-scheme" "jmeta-nonempty?" (letrec ((jmeta-nonempty? (lambda (m) (let fnrec7750 ((m m)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") m))) (if (jolt-truthy? and__25__auto) (jolt-pos? (jolt-count m)) and__25__auto)))))) jmeta-nonempty?) (let* ((_o$7751 (keyword #f "private")) (_o$7752 #t)) (jolt-hash-map _o$7751 _o$7752)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-def-meta" (letrec ((emit-def-meta (lambda (node) (let fnrec7885 ((node node)) (if (jolt-truthy? (jolt-get node (keyword #f "meta-expr"))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "meta-expr"))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get node (keyword #f "meta")))))))) emit-def-meta) (let* ((_o$7886 (keyword #f "private")) (_o$7887 #t)) (jolt-hash-map _o$7886 _o$7887)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-def-meta" (letrec ((emit-def-meta (lambda (node) (let fnrec7753 ((node node)) (if (jolt-truthy? (jolt-get node (keyword #f "meta-expr"))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "meta-expr"))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get node (keyword #f "meta")))))))) emit-def-meta) (let* ((_o$7754 (keyword #f "private")) (_o$7755 #t)) (jolt-hash-map _o$7754 _o$7755)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-binding" (letrec ((emit-binding (lambda (b) (let fnrec7888 ((b b)) (let* ((_a$7889 (var-deref "clojure.core" "str")) (_a$7890 "(") (_a$7891 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth b 0))) (_a$7892 " ") (_a$7893 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth b 1))) (_a$7894 ")")) (jolt-invoke _a$7889 _a$7890 _a$7891 _a$7892 _a$7893 _a$7894)))))) emit-binding) (let* ((_o$7895 (keyword #f "private")) (_o$7896 #t)) (jolt-hash-map _o$7895 _o$7896)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-binding" (letrec ((emit-binding (lambda (b) (let fnrec7756 ((b b)) (let* ((_a$7757 (var-deref "clojure.core" "str")) (_a$7758 "(") (_a$7759 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth b 0))) (_a$7760 " ") (_a$7761 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth b 1))) (_a$7762 ")")) (jolt-invoke _a$7757 _a$7758 _a$7759 _a$7760 _a$7761 _a$7762)))))) emit-binding) (let* ((_o$7763 (keyword #f "private")) (_o$7764 #t)) (jolt-hash-map _o$7763 _o$7764)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-let" (letrec ((emit-let (lambda (node) (let fnrec7897 ((node node)) (let* ((kw (if (jolt-truthy? (jolt-get node (keyword #f "letrec"))) "letrec*" "let*")) (binds (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*tail?*") #f))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit-binding") (jolt-get node (keyword #f "bindings"))))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (jolt-invoke (var-deref "clojure.core" "str") "(" kw " (" binds ") " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body"))) ")")))))) emit-let) (let* ((_o$7898 (keyword #f "private")) (_o$7899 #t)) (jolt-hash-map _o$7898 _o$7899)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-let" (letrec ((emit-let (lambda (node) (let fnrec7765 ((node node)) (let* ((kw (if (jolt-truthy? (jolt-get node (keyword #f "letrec"))) "letrec*" "let*"))) (let* ((_a$7766 (var-deref "clojure.core" "str")) (_a$7767 "(") (_a$7768 kw) (_a$7769 " (") (_a$7770 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "emit-binding") (jolt-get node (keyword #f "bindings"))))) (_a$7771 ") ") (_a$7772 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$7773 ")")) (jolt-invoke _a$7766 _a$7767 _a$7768 _a$7769 _a$7770 _a$7771 _a$7772 _a$7773))))))) emit-let) (let* ((_o$7774 (keyword #f "private")) (_o$7775 #t)) (jolt-hash-map _o$7774 _o$7775)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-loop" (letrec ((emit-loop (lambda (node) (let fnrec7900 ((node node)) (let* ((label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "loop")) (pairs (jolt-get node (keyword #f "bindings"))) (names (jolt-map (lambda (p__95_) (let fnrec7901 ((p__95_ p__95_)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth p__95_ 0)))) pairs)) (inits (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*tail?*") #f))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__96_) (let fnrec7902 ((p__96_ p__96_)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth p__96_ 1)))) pairs)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (seq-bs (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n i) (let fnrec7903 ((n n) (i i)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " i ")"))) names inits))) (rebinds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n) (let fnrec7904 ((n n)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " n ")"))) names))) (body (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" seq-bs ") (let " label " (" rebinds ") " body "))")))))) emit-loop) (let* ((_o$7905 (keyword #f "private")) (_o$7906 #t)) (jolt-hash-map _o$7905 _o$7906)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-loop" (letrec ((emit-loop (lambda (node) (let fnrec7776 ((node node)) (let* ((label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "loop")) (pairs (jolt-get node (keyword #f "bindings"))) (names (jolt-map (lambda (p__95_) (let fnrec7777 ((p__95_ p__95_)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth p__95_ 0)))) pairs)) (inits (jolt-map (lambda (p__96_) (let fnrec7778 ((p__96_ p__96_)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth p__96_ 1)))) pairs)) (seq-bs (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n i) (let fnrec7779 ((n n) (i i)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " i ")"))) names inits))) (rebinds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n) (let fnrec7780 ((n n)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " n ")"))) names))) (body (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" seq-bs ") (let " label " (" rebinds ") " body "))")))))) emit-loop) (let* ((_o$7781 (keyword #f "private")) (_o$7782 #t)) (jolt-hash-map _o$7781 _o$7782)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "ffi-types" (let* ((_o$7907 "int") (_o$7908 "int") (_o$7909 "uint") (_o$7910 "unsigned-int") (_o$7911 "long") (_o$7912 "long") (_o$7913 "ulong") (_o$7914 "unsigned-long") (_o$7915 "int64") (_o$7916 "integer-64") (_o$7917 "uint64") (_o$7918 "unsigned-64") (_o$7919 "size_t") (_o$7920 "size_t") (_o$7921 "ssize_t") (_o$7922 "ssize_t") (_o$7923 "iptr") (_o$7924 "iptr") (_o$7925 "uptr") (_o$7926 "uptr") (_o$7927 "double") (_o$7928 "double") (_o$7929 "float") (_o$7930 "float") (_o$7931 "pointer") (_o$7932 "void*") (_o$7933 "void*") (_o$7934 "void*") (_o$7935 "string") (_o$7936 "string") (_o$7937 "void") (_o$7938 "void") (_o$7939 "uint8") (_o$7940 "unsigned-8") (_o$7941 "u8") (_o$7942 "unsigned-8") (_o$7943 "byte") (_o$7944 "unsigned-8") (_o$7945 "char") (_o$7946 "char")) (jolt-hash-map _o$7907 _o$7908 _o$7909 _o$7910 _o$7911 _o$7912 _o$7913 _o$7914 _o$7915 _o$7916 _o$7917 _o$7918 _o$7919 _o$7920 _o$7921 _o$7922 _o$7923 _o$7924 _o$7925 _o$7926 _o$7927 _o$7928 _o$7929 _o$7930 _o$7931 _o$7932 _o$7933 _o$7934 _o$7935 _o$7936 _o$7937 _o$7938 _o$7939 _o$7940 _o$7941 _o$7942 _o$7943 _o$7944 _o$7945 _o$7946)) (let* ((_o$7947 (keyword #f "private")) (_o$7948 #t)) (jolt-hash-map _o$7947 _o$7948)))) + (def-var-with-meta! "jolt.backend-scheme" "ffi-types" (let* ((_o$7783 "int") (_o$7784 "int") (_o$7785 "uint") (_o$7786 "unsigned-int") (_o$7787 "long") (_o$7788 "long") (_o$7789 "ulong") (_o$7790 "unsigned-long") (_o$7791 "int64") (_o$7792 "integer-64") (_o$7793 "uint64") (_o$7794 "unsigned-64") (_o$7795 "size_t") (_o$7796 "size_t") (_o$7797 "ssize_t") (_o$7798 "ssize_t") (_o$7799 "iptr") (_o$7800 "iptr") (_o$7801 "uptr") (_o$7802 "uptr") (_o$7803 "double") (_o$7804 "double") (_o$7805 "float") (_o$7806 "float") (_o$7807 "pointer") (_o$7808 "void*") (_o$7809 "void*") (_o$7810 "void*") (_o$7811 "string") (_o$7812 "string") (_o$7813 "void") (_o$7814 "void") (_o$7815 "uint8") (_o$7816 "unsigned-8") (_o$7817 "u8") (_o$7818 "unsigned-8") (_o$7819 "byte") (_o$7820 "unsigned-8") (_o$7821 "char") (_o$7822 "char")) (jolt-hash-map _o$7783 _o$7784 _o$7785 _o$7786 _o$7787 _o$7788 _o$7789 _o$7790 _o$7791 _o$7792 _o$7793 _o$7794 _o$7795 _o$7796 _o$7797 _o$7798 _o$7799 _o$7800 _o$7801 _o$7802 _o$7803 _o$7804 _o$7805 _o$7806 _o$7807 _o$7808 _o$7809 _o$7810 _o$7811 _o$7812 _o$7813 _o$7814 _o$7815 _o$7816 _o$7817 _o$7818 _o$7819 _o$7820 _o$7821 _o$7822)) (let* ((_o$7823 (keyword #f "private")) (_o$7824 #t)) (jolt-hash-map _o$7823 _o$7824)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "ffi-type->chez" (letrec ((ffi-type->chez (lambda (t) (let fnrec7949 ((t t)) (let* ((or__26__auto (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-types") t))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-throw (let* ((_a$7950 (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi: unknown foreign type :" t)) (_a$7951 (jolt-hash-map))) (jolt-ex-info _a$7950 _a$7951))))))))) ffi-type->chez) (let* ((_o$7952 (keyword #f "private")) (_o$7953 #t)) (jolt-hash-map _o$7952 _o$7953)))) + (def-var-with-meta! "jolt.backend-scheme" "ffi-type->chez" (letrec ((ffi-type->chez (lambda (t) (let fnrec7825 ((t t)) (let* ((or__26__auto (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-types") t))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-throw (let* ((_a$7826 (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi: unknown foreign type :" t)) (_a$7827 (jolt-hash-map))) (jolt-ex-info _a$7826 _a$7827))))))))) ffi-type->chez) (let* ((_o$7828 (keyword #f "private")) (_o$7829 #t)) (jolt-hash-map _o$7828 _o$7829)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-ffi-fn" (letrec ((emit-ffi-fn (lambda (node) (let fnrec7954 ((node node)) (let* ((_a$7955 (var-deref "clojure.core" "str")) (_a$7956 "(foreign-procedure ") (_a$7957 (if (jolt-truthy? (jolt-get node (keyword #f "blocking"))) "__collect_safe " jolt-nil)) (_a$7958 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "csym")))) (_a$7959 " (") (_a$7960 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "argtypes"))))) (_a$7961 ") ") (_a$7962 (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "rettype")))) (_a$7963 ")")) (jolt-invoke _a$7955 _a$7956 _a$7957 _a$7958 _a$7959 _a$7960 _a$7961 _a$7962 _a$7963)))))) emit-ffi-fn) (let* ((_o$7964 (keyword #f "private")) (_o$7965 #t)) (jolt-hash-map _o$7964 _o$7965)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-ffi-fn" (letrec ((emit-ffi-fn (lambda (node) (let fnrec7830 ((node node)) (let* ((_a$7831 (var-deref "clojure.core" "str")) (_a$7832 "(foreign-procedure ") (_a$7833 (if (jolt-truthy? (jolt-get node (keyword #f "blocking"))) "__collect_safe " jolt-nil)) (_a$7834 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "csym")))) (_a$7835 " (") (_a$7836 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "argtypes"))))) (_a$7837 ") ") (_a$7838 (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "rettype")))) (_a$7839 ")")) (jolt-invoke _a$7831 _a$7832 _a$7833 _a$7834 _a$7835 _a$7836 _a$7837 _a$7838 _a$7839)))))) emit-ffi-fn) (let* ((_o$7840 (keyword #f "private")) (_o$7841 #t)) (jolt-hash-map _o$7840 _o$7841)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-ffi-callable" (letrec ((emit-ffi-callable (lambda (node) (let fnrec7966 ((node node)) (let* ((_a$7967 (var-deref "clojure.core" "str")) (_a$7968 "(jolt-ffi-register-callable! (foreign-callable ") (_a$7969 (if (jolt-truthy? (jolt-get node (keyword #f "collect-safe"))) "__collect_safe " jolt-nil)) (_a$7970 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "fn")))) (_a$7971 " (") (_a$7972 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "argtypes"))))) (_a$7973 ") ") (_a$7974 (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "rettype")))) (_a$7975 "))")) (jolt-invoke _a$7967 _a$7968 _a$7969 _a$7970 _a$7971 _a$7972 _a$7973 _a$7974 _a$7975)))))) emit-ffi-callable) (let* ((_o$7976 (keyword #f "private")) (_o$7977 #t)) (jolt-hash-map _o$7976 _o$7977)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-ffi-callable" (letrec ((emit-ffi-callable (lambda (node) (let fnrec7842 ((node node)) (let* ((_a$7843 (var-deref "clojure.core" "str")) (_a$7844 "(jolt-ffi-register-callable! (foreign-callable ") (_a$7845 (if (jolt-truthy? (jolt-get node (keyword #f "collect-safe"))) "__collect_safe " jolt-nil)) (_a$7846 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "fn")))) (_a$7847 " (") (_a$7848 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "argtypes"))))) (_a$7849 ") ") (_a$7850 (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "rettype")))) (_a$7851 "))")) (jolt-invoke _a$7843 _a$7844 _a$7845 _a$7846 _a$7847 _a$7848 _a$7849 _a$7850 _a$7851)))))) emit-ffi-callable) (let* ((_o$7852 (keyword #f "private")) (_o$7853 #t)) (jolt-hash-map _o$7852 _o$7853)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-recur" (letrec ((emit-recur (lambda (node) (let fnrec7978 ((node node)) (begin (if (jolt-not (var-deref "jolt.backend-scheme" "*recur-target*")) (jolt-throw (jolt-ex-info "emit: recur outside a loop/fn target" (jolt-hash-map))) jolt-nil) (let* ((arg-nodes (jolt-get node (keyword #f "args")))) (let* ((_a$7980 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$7981 arg-nodes) (_a$7982 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (_a$7983 (lambda (as) (let fnrec7979 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" (var-deref "jolt.backend-scheme" "*recur-target*") " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")"))))) (jolt-invoke _a$7980 _a$7981 _a$7982 _a$7983)))))))) emit-recur) (let* ((_o$7984 (keyword #f "private")) (_o$7985 #t)) (jolt-hash-map _o$7984 _o$7985)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-recur" (letrec ((emit-recur (lambda (node) (let fnrec7854 ((node node)) (begin (if (jolt-not (var-deref "jolt.backend-scheme" "*recur-target*")) (jolt-throw (jolt-ex-info "emit: recur outside a loop/fn target" (jolt-hash-map))) jolt-nil) (let* ((arg-nodes (jolt-get node (keyword #f "args")))) (let* ((_a$7856 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$7857 arg-nodes) (_a$7858 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (_a$7859 (lambda (as) (let fnrec7855 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" (var-deref "jolt.backend-scheme" "*recur-target*") " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")"))))) (jolt-invoke _a$7856 _a$7857 _a$7858 _a$7859)))))))) emit-recur) (let* ((_o$7860 (keyword #f "private")) (_o$7861 #t)) (jolt-hash-map _o$7860 _o$7861)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "nhint-init" (letrec ((nhint-init (lambda (nh orig munged) (let fnrec7986 ((nh nh) (orig orig) (munged munged)) (let* ((k (jolt-get nh orig))) (if (jolt= k (keyword #f "double")) (jolt-invoke (var-deref "clojure.core" "str") "(exact->inexact " munged ")") (if (jolt= k (keyword #f "long")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt->fx " munged ")") (if (jolt-truthy? (keyword #f "else")) munged jolt-nil)))))))) nhint-init) (let* ((_o$7987 (keyword #f "private")) (_o$7988 #t)) (jolt-hash-map _o$7987 _o$7988)))) + (def-var-with-meta! "jolt.backend-scheme" "nhint-init" (letrec ((nhint-init (lambda (nh orig munged) (let fnrec7862 ((nh nh) (orig orig) (munged munged)) (let* ((k (jolt-get nh orig))) (if (jolt= k (keyword #f "double")) (jolt-invoke (var-deref "clojure.core" "str") "(exact->inexact " munged ")") (if (jolt= k (keyword #f "long")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt->fx " munged ")") (if (jolt-truthy? (keyword #f "else")) munged jolt-nil)))))))) nhint-init) (let* ((_o$7863 (keyword #f "private")) (_o$7864 #t)) (jolt-hash-map _o$7863 _o$7864)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-arity-clause" (letrec ((emit-arity-clause (lambda (a) (let fnrec7989 ((a a)) (let* ((orig (jolt-get a (keyword #f "params"))) (nh (let* ((_a$7990 (jolt-hash-map)) (_a$7991 (jolt-get a (keyword #f "nhints")))) (jolt-into _a$7990 _a$7991))) (params (jolt-map (var-deref "jolt.backend-scheme" "munge-name") orig)) (restp (let* ((temp__27__auto (jolt-get a (keyword #f "rest")))) (if (jolt-truthy? temp__27__auto) (let* ((r temp__27__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") r)) jolt-nil))) (label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "fnrec")) (ret (jolt-get a (keyword #f "ret-nhint"))) (body-tail? (jolt-not (let* ((or__26__auto (jolt= ret (keyword #f "double")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= ret (keyword #f "long")))))) (body (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label (jolt-var "jolt.backend-scheme" "*tail?*") body-tail?))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get a (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (paramlist (if (jolt-truthy? (let* ((and__25__auto restp)) (if (jolt-truthy? and__25__auto) (jolt-empty? params) and__25__auto))) restp (if (jolt-truthy? restp) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) " . " restp ")") (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) ")") jolt-nil)))) (pbind (jolt-map (lambda (o p) (let fnrec7992 ((o o) (p p)) (jolt-invoke (var-deref "clojure.core" "str") "(" p " " (jolt-invoke (var-deref "jolt.backend-scheme" "nhint-init") nh o p) ")"))) orig params)) (binds (if (jolt-truthy? restp) (jolt-concat pbind (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "(" restp " (list->cseq " restp "))"))) pbind)) (lett (jolt-invoke (var-deref "clojure.core" "str") "(let " label " (" (jolt-invoke (var-deref "clojure.string" "join") " " binds) ") " body ")")) (ret (jolt-get a (keyword #f "ret-nhint")))) (let* ((_o$7993 paramlist) (_o$7994 (if (jolt= ret (keyword #f "double")) (jolt-invoke (var-deref "clojure.core" "str") "(exact->inexact " lett ")") (if (jolt= ret (keyword #f "long")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt->fx " lett ")") (if (jolt-truthy? (keyword #f "else")) lett jolt-nil))))) (jolt-vector _o$7993 _o$7994))))))) emit-arity-clause) (let* ((_o$7995 (keyword #f "private")) (_o$7996 #t)) (jolt-hash-map _o$7995 _o$7996)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-arity-clause" (letrec ((emit-arity-clause (lambda (a) (let fnrec7865 ((a a)) (let* ((orig (jolt-get a (keyword #f "params"))) (nh (let* ((_a$7866 (jolt-hash-map)) (_a$7867 (jolt-get a (keyword #f "nhints")))) (jolt-into _a$7866 _a$7867))) (params (jolt-map (var-deref "jolt.backend-scheme" "munge-name") orig)) (restp (let* ((temp__27__auto (jolt-get a (keyword #f "rest")))) (if (jolt-truthy? temp__27__auto) (let* ((r temp__27__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") r)) jolt-nil))) (label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "fnrec")) (body (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get a (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (paramlist (if (jolt-truthy? (let* ((and__25__auto restp)) (if (jolt-truthy? and__25__auto) (jolt-empty? params) and__25__auto))) restp (if (jolt-truthy? restp) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) " . " restp ")") (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) ")") jolt-nil)))) (pbind (jolt-map (lambda (o p) (let fnrec7868 ((o o) (p p)) (jolt-invoke (var-deref "clojure.core" "str") "(" p " " (jolt-invoke (var-deref "jolt.backend-scheme" "nhint-init") nh o p) ")"))) orig params)) (binds (if (jolt-truthy? restp) (jolt-concat pbind (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "(" restp " (list->cseq " restp "))"))) pbind)) (lett (jolt-invoke (var-deref "clojure.core" "str") "(let " label " (" (jolt-invoke (var-deref "clojure.string" "join") " " binds) ") " body ")")) (ret (jolt-get a (keyword #f "ret-nhint")))) (let* ((_o$7869 paramlist) (_o$7870 (if (jolt= ret (keyword #f "double")) (jolt-invoke (var-deref "clojure.core" "str") "(exact->inexact " lett ")") (if (jolt= ret (keyword #f "long")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt->fx " lett ")") (if (jolt-truthy? (keyword #f "else")) lett jolt-nil))))) (jolt-vector _o$7869 _o$7870))))))) emit-arity-clause) (let* ((_o$7871 (keyword #f "private")) (_o$7872 #t)) (jolt-hash-map _o$7871 _o$7872)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-fn" (letrec ((emit-fn (lambda (node) (let fnrec7997 ((node node)) (let* ((arities (jolt-get node (keyword #f "arities"))) (self (let* ((temp__27__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__27__auto) (let* ((nm temp__27__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm)) jolt-nil))) (clauses (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*known-procs*") (if (jolt-truthy? self) (jolt-conj (var-deref "jolt.backend-scheme" "*known-procs*") self) (var-deref "jolt.backend-scheme" "*known-procs*"))))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit-arity-clause") arities)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (clauses (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "trace-frames?")))) (if (jolt-truthy? and__25__auto) self and__25__auto))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (c) (let fnrec7998 ((c c)) (let* ((_o$8005 (jolt-nth c 0)) (_o$8006 (let* ((_a$7999 (var-deref "clojure.core" "str")) (_a$8000 "(begin (jolt-trace-push! ") (_a$8001 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") self)) (_a$8002 ") ") (_a$8003 (jolt-nth c 1)) (_a$8004 ")")) (jolt-invoke _a$7999 _a$8000 _a$8001 _a$8002 _a$8003 _a$8004)))) (jolt-vector _o$8005 _o$8006)))) clauses) clauses)) (_lambda (if (jolt= 1 (jolt-count clauses)) (let* ((c (jolt-first clauses))) (let* ((_a$8007 (var-deref "clojure.core" "str")) (_a$8008 "(lambda ") (_a$8009 (jolt-nth c 0)) (_a$8010 " ") (_a$8011 (jolt-nth c 1)) (_a$8012 ")")) (jolt-invoke _a$8007 _a$8008 _a$8009 _a$8010 _a$8011 _a$8012))) (jolt-invoke (var-deref "clojure.core" "str") "(case-lambda " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (c) (let fnrec8013 ((c c)) (let* ((_a$8014 (var-deref "clojure.core" "str")) (_a$8015 "(") (_a$8016 (jolt-nth c 0)) (_a$8017 " ") (_a$8018 (jolt-nth c 1)) (_a$8019 ")")) (jolt-invoke _a$8014 _a$8015 _a$8016 _a$8017 _a$8018 _a$8019)))) clauses)) ")")))) (let* ((temp__16__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__16__auto) (let* ((nm temp__16__auto)) (let* ((m (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm))) (jolt-invoke (var-deref "clojure.core" "str") "(letrec ((" m " " _lambda ")) " m ")"))) _lambda))))))) emit-fn) (let* ((_o$8020 (keyword #f "private")) (_o$8021 #t)) (jolt-hash-map _o$8020 _o$8021)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-fn" (letrec ((emit-fn (lambda (node) (let fnrec7873 ((node node)) (let* ((arities (jolt-get node (keyword #f "arities"))) (self (let* ((temp__27__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__27__auto) (let* ((nm temp__27__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm)) jolt-nil))) (clauses (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*known-procs*") (if (jolt-truthy? self) (jolt-conj (var-deref "jolt.backend-scheme" "*known-procs*") self) (var-deref "jolt.backend-scheme" "*known-procs*"))))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit-arity-clause") arities)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (_lambda (if (jolt= 1 (jolt-count clauses)) (let* ((c (jolt-first clauses))) (let* ((_a$7874 (var-deref "clojure.core" "str")) (_a$7875 "(lambda ") (_a$7876 (jolt-nth c 0)) (_a$7877 " ") (_a$7878 (jolt-nth c 1)) (_a$7879 ")")) (jolt-invoke _a$7874 _a$7875 _a$7876 _a$7877 _a$7878 _a$7879))) (jolt-invoke (var-deref "clojure.core" "str") "(case-lambda " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (c) (let fnrec7880 ((c c)) (let* ((_a$7881 (var-deref "clojure.core" "str")) (_a$7882 "(") (_a$7883 (jolt-nth c 0)) (_a$7884 " ") (_a$7885 (jolt-nth c 1)) (_a$7886 ")")) (jolt-invoke _a$7881 _a$7882 _a$7883 _a$7884 _a$7885 _a$7886)))) clauses)) ")")))) (let* ((temp__16__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__16__auto) (let* ((nm temp__16__auto)) (let* ((m (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm))) (jolt-invoke (var-deref "clojure.core" "str") "(letrec ((" m " " _lambda ")) " m ")"))) _lambda))))))) emit-fn) (let* ((_o$7887 (keyword #f "private")) (_o$7888 #t)) (jolt-hash-map _o$7887 _o$7888)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "native-op" (letrec ((native-op (lambda (fnode nargs) (let fnrec8022 ((fnode fnode) (nargs nargs)) (let* ((nm (let* ((G__143 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__143 (keyword #f "var")) (if (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) (jolt-get fnode (keyword #f "name")) jolt-nil) (if (jolt= G__143 (keyword #f "host")) (jolt-get fnode (keyword #f "name")) jolt-nil)))) (op (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "native-ops") nm) jolt-nil)) (arity-ok (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "op-arity") nm) jolt-nil))) (if (jolt-nil? op) jolt-nil (if (jolt-truthy? (let* ((and__25__auto arity-ok)) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke arity-ok nargs)) and__25__auto))) jolt-nil (if (jolt-truthy? (keyword #f "else")) op jolt-nil)))))))) native-op) (let* ((_o$8023 (keyword #f "private")) (_o$8024 #t)) (jolt-hash-map _o$8023 _o$8024)))) + (def-var-with-meta! "jolt.backend-scheme" "native-op" (letrec ((native-op (lambda (fnode nargs) (let fnrec7889 ((fnode fnode) (nargs nargs)) (let* ((nm (let* ((G__140 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__140 (keyword #f "var")) (if (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) (jolt-get fnode (keyword #f "name")) jolt-nil) (if (jolt= G__140 (keyword #f "host")) (jolt-get fnode (keyword #f "name")) jolt-nil)))) (op (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "native-ops") nm) jolt-nil)) (arity-ok (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "op-arity") nm) jolt-nil))) (if (jolt-nil? op) jolt-nil (if (jolt-truthy? (let* ((and__25__auto arity-ok)) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke arity-ok nargs)) and__25__auto))) jolt-nil (if (jolt-truthy? (keyword #f "else")) op jolt-nil)))))))) native-op) (let* ((_o$7890 (keyword #f "private")) (_o$7891 #t)) (jolt-hash-map _o$7890 _o$7891)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "ifn-kind" (letrec ((ifn-kind (lambda (fnode) (let fnrec8025 ((fnode fnode)) (let* ((G__144 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__144 (keyword #f "const")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val")))) (keyword #f "keyword") jolt-nil) (if (let* ((or__26__auto (jolt= G__144 (keyword #f "map")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= G__144 (keyword #f "set")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= G__144 (keyword #f "vector")))))) (keyword #f "coll") jolt-nil))))))) ifn-kind) (let* ((_o$8026 (keyword #f "private")) (_o$8027 #t)) (jolt-hash-map _o$8026 _o$8027)))) + (def-var-with-meta! "jolt.backend-scheme" "ifn-kind" (letrec ((ifn-kind (lambda (fnode) (let fnrec7892 ((fnode fnode)) (let* ((G__141 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__141 (keyword #f "const")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val")))) (keyword #f "keyword") jolt-nil) (if (let* ((or__26__auto (jolt= G__141 (keyword #f "map")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= G__141 (keyword #f "set")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= G__141 (keyword #f "vector")))))) (keyword #f "coll") jolt-nil))))))) ifn-kind) (let* ((_o$7893 (keyword #f "private")) (_o$7894 #t)) (jolt-hash-map _o$7893 _o$7894)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "stdlib-var?" (letrec ((stdlib-var? (lambda (n) (let fnrec8028 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.string" "starts-with?") (let* ((or__26__auto (jolt-get n (keyword #f "ns")))) (if (jolt-truthy? or__26__auto) or__26__auto "")) "clojure.") and__25__auto)))))) stdlib-var?) (let* ((_o$8029 (keyword #f "private")) (_o$8030 #t)) (jolt-hash-map _o$8029 _o$8030)))) + (def-var-with-meta! "jolt.backend-scheme" "stdlib-var?" (letrec ((stdlib-var? (lambda (n) (let fnrec7895 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.string" "starts-with?") (let* ((or__26__auto (jolt-get n (keyword #f "ns")))) (if (jolt-truthy? or__26__auto) or__26__auto "")) "clojure.") and__25__auto)))))) stdlib-var?) (let* ((_o$7896 (keyword #f "private")) (_o$7897 #t)) (jolt-hash-map _o$7896 _o$7897)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-numeric" (letrec ((emit-numeric (lambda (kind nm args order-args) (let fnrec8031 ((kind kind) (nm nm) (args args) (order-args order-args)) (if (let* ((and__25__auto (jolt= kind (keyword #f "double")))) (if (jolt-truthy? and__25__auto) (jolt= nm "inc") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(fl+ " (jolt-first args) " 1.0)") (if (let* ((and__25__auto (jolt= kind (keyword #f "double")))) (if (jolt-truthy? and__25__auto) (jolt= nm "dec") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(fl- " (jolt-first args) " 1.0)") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "inc") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-l-inc " (jolt-first args) ")") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "dec") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-l-dec " (jolt-first args) ")") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "unchecked-inc") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uncinc " (jolt-first args) ")") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "unchecked-dec") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uncdec " (jolt-first args) ")") (if (jolt-truthy? (keyword #f "else")) (let* ((op (let* ((G__145 kind)) (if (jolt= G__145 (keyword #f "double")) (jolt-invoke (var-deref "jolt.backend-scheme" "dbl-ops") nm) (if (jolt= G__145 (keyword #f "long")) (jolt-invoke (var-deref "jolt.backend-scheme" "lng-ops") nm) (if (jolt= G__145 (keyword #f "bigdec")) (jolt-invoke (var-deref "jolt.backend-scheme" "bd-ops") nm) (jolt-throw (let* ((_a$8032 (jolt-invoke (var-deref "clojure.core" "str") "No matching clause: " G__145)) (_a$8033 (jolt-hash-map))) (jolt-ex-info _a$8032 _a$8033))))))))) (jolt-invoke order-args (lambda (as) (let fnrec8034 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" op " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")"))))) jolt-nil))))))))))) emit-numeric) (let* ((_o$8035 (keyword #f "private")) (_o$8036 #t)) (jolt-hash-map _o$8035 _o$8036)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-numeric" (letrec ((emit-numeric (lambda (kind nm args order-args) (let fnrec7898 ((kind kind) (nm nm) (args args) (order-args order-args)) (if (let* ((and__25__auto (jolt= kind (keyword #f "double")))) (if (jolt-truthy? and__25__auto) (jolt= nm "inc") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(fl+ " (jolt-first args) " 1.0)") (if (let* ((and__25__auto (jolt= kind (keyword #f "double")))) (if (jolt-truthy? and__25__auto) (jolt= nm "dec") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(fl- " (jolt-first args) " 1.0)") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "inc") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-l-inc " (jolt-first args) ")") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "dec") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-l-dec " (jolt-first args) ")") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "unchecked-inc") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uncinc " (jolt-first args) ")") (if (let* ((and__25__auto (jolt= kind (keyword #f "long")))) (if (jolt-truthy? and__25__auto) (jolt= nm "unchecked-dec") and__25__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uncdec " (jolt-first args) ")") (if (jolt-truthy? (keyword #f "else")) (let* ((op (let* ((G__142 kind)) (if (jolt= G__142 (keyword #f "double")) (jolt-invoke (var-deref "jolt.backend-scheme" "dbl-ops") nm) (if (jolt= G__142 (keyword #f "long")) (jolt-invoke (var-deref "jolt.backend-scheme" "lng-ops") nm) (if (jolt= G__142 (keyword #f "bigdec")) (jolt-invoke (var-deref "jolt.backend-scheme" "bd-ops") nm) (jolt-throw (let* ((_a$7899 (jolt-invoke (var-deref "clojure.core" "str") "No matching clause: " G__142)) (_a$7900 (jolt-hash-map))) (jolt-ex-info _a$7899 _a$7900))))))))) (jolt-invoke order-args (lambda (as) (let fnrec7901 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" op " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")"))))) jolt-nil))))))))))) emit-numeric) (let* ((_o$7902 (keyword #f "private")) (_o$7903 #t)) (jolt-hash-map _o$7902 _o$7903)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "struct-field-index" (letrec ((struct-field-index (lambda (shape kw) (let fnrec8037 ((shape shape) (kw kw)) (if (jolt-truthy? shape) (let* ((i 0)) (let loop8038 ((i i)) (if (jolt-n>= i (jolt-count shape)) jolt-nil (if (jolt= (jolt-nth shape i) kw) i (if (jolt-truthy? (keyword #f "else")) (loop8038 (jolt-inc i)) jolt-nil))))) jolt-nil))))) struct-field-index) (let* ((_o$8039 (keyword #f "private")) (_o$8040 #t)) (jolt-hash-map _o$8039 _o$8040)))) + (def-var-with-meta! "jolt.backend-scheme" "struct-field-index" (letrec ((struct-field-index (lambda (shape kw) (let fnrec7904 ((shape shape) (kw kw)) (if (jolt-truthy? shape) (let* ((i 0)) (let loop7905 ((i i)) (if (>= i (jolt-count shape)) jolt-nil (if (jolt= (jolt-nth shape i) kw) i (if (jolt-truthy? (keyword #f "else")) (loop7905 (jolt-inc i)) jolt-nil))))) jolt-nil))))) struct-field-index) (let* ((_o$7906 (keyword #f "private")) (_o$7907 #t)) (jolt-hash-map _o$7906 _o$7907)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "plain-call" (letrec ((plain-call (lambda (callee operand-strs) (let fnrec8041 ((callee callee) (operand-strs operand-strs)) (jolt-invoke (var-deref "clojure.core" "str") "(" callee (if (jolt-truthy? (jolt-seq operand-strs)) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " operand-strs)) "") ")"))))) plain-call) (let* ((_o$8042 (keyword #f "private")) (_o$8043 #t)) (jolt-hash-map _o$8042 _o$8043)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-invoke" (letrec ((emit-invoke (lambda (node) (let fnrec7908 ((node node)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (arg-nodes (jolt-get node (keyword #f "args"))) (args (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (nop (jolt-invoke (var-deref "jolt.backend-scheme" "native-op") fnode (jolt-count args))) (kind (jolt-invoke (var-deref "jolt.backend-scheme" "ifn-kind") fnode)) (order-args (lambda (build) (let fnrec7909 ((build build)) (jolt-invoke (var-deref "jolt.backend-scheme" "ordered-call") arg-nodes args build)))) (defstr (lambda (as) (let fnrec7910 ((as as)) (if (> (jolt-count as) 1) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-nth as 1)) "")))) (invoke (lambda () (let fnrec7911 () (let* ((_a$7913 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$7914 (jolt-cons fnode arg-nodes)) (_a$7915 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$7916 (lambda (G__143) (let fnrec7912 ((G__143 G__143)) (let* ((G__144 G__143) (f (jolt-nth G__144 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__144 1))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-invoke " f (if (jolt-truthy? (jolt-seq as)) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)) "") ")")))))) (jolt-invoke _a$7913 _a$7914 _a$7915 _a$7916)))))) (if (jolt-truthy? (jolt-get node (keyword #f "devirt-type"))) (jolt-invoke order-args (lambda (as) (let fnrec7917 ((as as)) (let* ((r (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_r$")) (dv (let* ((_a$7918 (var-deref "clojure.core" "str")) (_a$7919 "(devirt-resolve ") (_a$7920 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "devirt-type")))) (_a$7921 " ") (_a$7922 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "devirt-proto")))) (_a$7923 " ") (_a$7924 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "devirt-method")))) (_a$7925 " ") (_a$7926 r) (_a$7927 ")")) (jolt-invoke _a$7918 _a$7919 _a$7920 _a$7921 _a$7922 _a$7923 _a$7924 _a$7925 _a$7926 _a$7927))) (cells (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "cache-cells"))) (resolver (if (jolt-truthy? cells) (let* ((c (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_dvc$"))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") cells jolt-conj c) (jolt-invoke (var-deref "clojure.core" "str") "(or " c " (let ((_f " dv ")) (set! " c " _f) _f))"))) dv))) (let* ((_a$7928 (var-deref "clojure.core" "str")) (_a$7929 "(let* ((") (_a$7930 r) (_a$7931 " ") (_a$7932 (jolt-first as)) (_a$7933 ")) (") (_a$7934 resolver) (_a$7935 " ") (_a$7936 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-cons r (jolt-rest as)))) (_a$7937 "))")) (jolt-invoke _a$7928 _a$7929 _a$7930 _a$7931 _a$7932 _a$7933 _a$7934 _a$7935 _a$7936 _a$7937)))))) (if (jolt-truthy? (jolt-get node (keyword #f "num-kind"))) (let* ((_a$7938 (var-deref "jolt.backend-scheme" "emit-numeric")) (_a$7939 (jolt-get node (keyword #f "num-kind"))) (_a$7940 (jolt-get fnode (keyword #f "name"))) (_a$7941 args) (_a$7942 order-args)) (jolt-invoke _a$7938 _a$7939 _a$7940 _a$7941 _a$7942)) (if (jolt-truthy? (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-empty? args))) (if (jolt-truthy? and__25__auto) (jolt= nop "+") and__25__auto)) and__25__auto))) "0" (if (jolt-truthy? (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-empty? args))) (if (jolt-truthy? and__25__auto) (jolt= nop "*") and__25__auto)) and__25__auto))) "1" (if (jolt-truthy? (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "cmp1-ops") nop) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "clojure.core" "str") "(begin " (jolt-first args) " #t)") (if (jolt-truthy? nop) (jolt-invoke order-args (lambda (as) (let fnrec7943 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" nop " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))) (if (jolt= kind (keyword #f "keyword")) (let* ((recv (jolt-first arg-nodes)) (idx (if (let* ((and__25__auto (jolt= (keyword #f "struct") (jolt-get recv (keyword #f "hint"))))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count arg-nodes)) and__25__auto)) (let* ((_a$7944 (var-deref "jolt.backend-scheme" "struct-field-index")) (_a$7945 (jolt-get recv (keyword #f "shape"))) (_a$7946 (jolt-get fnode (keyword #f "val")))) (jolt-invoke _a$7944 _a$7945 _a$7946)) jolt-nil))) (if (jolt-truthy? idx) (jolt-invoke order-args (lambda (as) (let fnrec7947 ((as as)) (let* ((_a$7948 (var-deref "clojure.core" "str")) (_a$7949 "(jrec-field-at ") (_a$7950 (jolt-first as)) (_a$7951 " ") (_a$7952 idx) (_a$7953 " ") (_a$7954 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode)) (_a$7955 ")")) (jolt-invoke _a$7948 _a$7949 _a$7950 _a$7951 _a$7952 _a$7953 _a$7954 _a$7955))))) (jolt-invoke order-args (lambda (as) (let fnrec7956 ((as as)) (let* ((_a$7957 (var-deref "clojure.core" "str")) (_a$7958 "(jolt-get ") (_a$7959 (jolt-first as)) (_a$7960 " ") (_a$7961 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode)) (_a$7962 (jolt-invoke defstr as)) (_a$7963 ")")) (jolt-invoke _a$7957 _a$7958 _a$7959 _a$7960 _a$7961 _a$7962 _a$7963))))))) (if (jolt= kind (keyword #f "coll")) (let* ((_a$7965 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$7966 (jolt-cons fnode arg-nodes)) (_a$7967 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$7968 (lambda (G__145) (let fnrec7964 ((G__145 G__145)) (let* ((G__146 G__145) (c (jolt-nth G__146 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__146 1))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-get " c " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))))) (jolt-invoke _a$7965 _a$7966 _a$7967 _a$7968)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") fnode))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__25__auto))) (jolt-throw (let* ((_a$7975 (let* ((_a$7969 (var-deref "clojure.core" "str")) (_a$7970 "emit: unsupported stdlib fn `") (_a$7971 (jolt-get fnode (keyword #f "ns"))) (_a$7972 "/") (_a$7973 (jolt-get fnode (keyword #f "name"))) (_a$7974 "` (no core on Chez yet)")) (jolt-invoke _a$7969 _a$7970 _a$7971 _a$7972 _a$7973 _a$7974))) (_a$7976 (jolt-hash-map))) (jolt-ex-info _a$7975 _a$7976))) (if (jolt= (keyword #f "host-static") (jolt-get fnode (keyword #f "op"))) (jolt-invoke order-args (lambda (as) (let fnrec7977 ((as as)) (let* ((_a$7978 (var-deref "clojure.core" "str")) (_a$7979 "(host-static-call ") (_a$7980 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "class")))) (_a$7981 " ") (_a$7982 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "member")))) (_a$7983 (if (jolt-empty? as) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)))) (_a$7984 ")")) (jolt-invoke _a$7978 _a$7979 _a$7980 _a$7981 _a$7982 _a$7983 _a$7984))))) (if (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))) (jolt-throw (let* ((_a$7985 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host call `" (jolt-get fnode (keyword #f "name")) "`")) (_a$7986 (jolt-hash-map))) (jolt-ex-info _a$7985 _a$7986))) (if (jolt= (keyword #f "local") (jolt-get fnode (keyword #f "op"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "*known-procs*") (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get fnode (keyword #f "name"))))) (jolt-invoke order-args (lambda (as) (let fnrec7987 ((as as)) (let* ((_a$7988 (var-deref "clojure.core" "str")) (_a$7989 "(") (_a$7990 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get fnode (keyword #f "name")))) (_a$7991 (if (jolt-truthy? (jolt-seq as)) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)) "")) (_a$7992 ")")) (jolt-invoke _a$7988 _a$7989 _a$7990 _a$7991 _a$7992))))) (jolt-invoke invoke)) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((_a$7993 (var-deref "jolt.backend-scheme" "direct-linkable?")) (_a$7994 (jolt-get fnode (keyword #f "ns"))) (_a$7995 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$7993 _a$7994 _a$7995)))) (if (jolt-truthy? and__25__auto) (let* ((_a$7996 (var-deref "jolt.backend-scheme" "direct-link-fn?")) (_a$7997 (jolt-get fnode (keyword #f "ns"))) (_a$7998 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$7996 _a$7997 _a$7998)) and__25__auto)) and__25__auto))) (jolt-invoke order-args (lambda (as) (let fnrec7999 ((as as)) (let* ((_a$8003 (var-deref "clojure.core" "str")) (_a$8004 "(") (_a$8005 (let* ((_a$8000 (var-deref "jolt.backend-scheme" "dl-name")) (_a$8001 (jolt-get fnode (keyword #f "ns"))) (_a$8002 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$8000 _a$8001 _a$8002))) (_a$8006 (if (jolt-truthy? (jolt-seq as)) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)) "")) (_a$8007 ")")) (jolt-invoke _a$8003 _a$8004 _a$8005 _a$8006 _a$8007))))) (if (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))) (jolt-invoke invoke) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke invoke) jolt-nil)))))))))))))))))))) emit-invoke) (let* ((_o$8008 (keyword #f "private")) (_o$8009 #t)) (jolt-hash-map _o$8008 _o$8009)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "tail-marked-call" (letrec ((tail-marked-call (lambda (callee operand-strs) (let fnrec8044 ((callee callee) (operand-strs operand-strs)) (let* ((tmps (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (_) (let fnrec8045 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_tt$"))) operand-strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec8046 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps operand-strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") (jolt-trace-mark! #t) " (jolt-invoke (var-deref "jolt.backend-scheme" "plain-call") callee tmps) ")")))))) tail-marked-call) (let* ((_o$8047 (keyword #f "private")) (_o$8048 #t)) (jolt-hash-map _o$8047 _o$8048)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-try" (letrec ((emit-try (lambda (node) (let fnrec8010 ((node node)) (let* ((core (let* ((temp__16__auto (jolt-get node (keyword #f "catch-sym")))) (if (jolt-truthy? temp__16__auto) (let* ((cs temp__16__auto)) (let* ((_a$8011 (var-deref "clojure.core" "str")) (_a$8012 "(guard (") (_a$8013 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") cs)) (_a$8014 " (else ") (_a$8015 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "catch-body")))) (_a$8016 ")) ") (_a$8017 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$8018 ")")) (jolt-invoke _a$8011 _a$8012 _a$8013 _a$8014 _a$8015 _a$8016 _a$8017 _a$8018))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body"))))))) (let* ((temp__16__auto (jolt-get node (keyword #f "finally")))) (if (jolt-truthy? temp__16__auto) (let* ((fin temp__16__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(dynamic-wind (lambda () #f) (lambda () " core ") (lambda () " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fin) "))")) core))))))) emit-try) (let* ((_o$8019 (keyword #f "private")) (_o$8020 #t)) (jolt-hash-map _o$8019 _o$8020)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-call" (letrec ((emit-call (lambda (tail? callee operand-strs) (let fnrec8049 ((tail? tail?) (callee callee) (operand-strs operand-strs)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "trace-frames?")))) (if (jolt-truthy? and__25__auto) tail? and__25__auto))) (jolt-invoke (var-deref "jolt.backend-scheme" "tail-marked-call") callee operand-strs) (jolt-invoke (var-deref "jolt.backend-scheme" "plain-call") callee operand-strs)))))) emit-call) (let* ((_o$8050 (keyword #f "private")) (_o$8051 #t)) (jolt-hash-map _o$8050 _o$8051)))) + (def-var-with-meta! "jolt.backend-scheme" "returns-scheme-bool?" (letrec ((returns-scheme-bool? (case-lambda ((node) (let fnrec8021 ((node node)) (returns-scheme-bool? node (jolt-hash-set)))) ((node bools) (let fnrec8022 ((node node) (bools bools)) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "boolean?") (jolt-get node (keyword #f "val"))) and__25__auto))) #t (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((nop (let* ((_a$8023 (var-deref "jolt.backend-scheme" "native-op")) (_a$8024 (jolt-get node (keyword #f "fn"))) (_a$8025 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt-invoke _a$8023 _a$8024 _a$8025)))) (jolt-invoke (var-deref "clojure.core" "boolean") (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "bool-returning-ops") nop) and__25__auto)))) (if (jolt= (keyword #f "local") (jolt-get node (keyword #f "op"))) (jolt-contains? bools (jolt-get node (keyword #f "name"))) (if (jolt= (keyword #f "if") (jolt-get node (keyword #f "op"))) (let* ((and__25__auto (returns-scheme-bool? (jolt-get node (keyword #f "then")) bools))) (if (jolt-truthy? and__25__auto) (returns-scheme-bool? (jolt-get node (keyword #f "else")) bools) and__25__auto)) (if (jolt= (keyword #f "let") (jolt-get node (keyword #f "op"))) (let* ((bools_PRIME_ (let* ((_a$8027 (lambda (s b) (let fnrec8026 ((s s) (b b)) (if (jolt-truthy? (returns-scheme-bool? (jolt-nth b 1) s)) (jolt-conj s (jolt-nth b 0)) (jolt-invoke (var-deref "clojure.core" "disj") s (jolt-nth b 0)))))) (_a$8028 bools) (_a$8029 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$8027 _a$8028 _a$8029)))) (returns-scheme-bool? (jolt-get node (keyword #f "body")) bools_PRIME_)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))))) returns-scheme-bool?) (let* ((_o$8030 (keyword #f "private")) (_o$8031 #t)) (jolt-hash-map _o$8030 _o$8031)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-invoke" (letrec ((emit-invoke (lambda (node) (let fnrec8052 ((node node)) (let* ((tail? (var-deref "jolt.backend-scheme" "*tail?*"))) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*tail?*") #f))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (let* ((fnode (jolt-get node (keyword #f "fn"))) (arg-nodes (jolt-get node (keyword #f "args"))) (args (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (nop (jolt-invoke (var-deref "jolt.backend-scheme" "native-op") fnode (jolt-count args))) (kind (jolt-invoke (var-deref "jolt.backend-scheme" "ifn-kind") fnode)) (order-args (lambda (build) (let fnrec8053 ((build build)) (jolt-invoke (var-deref "jolt.backend-scheme" "ordered-call") arg-nodes args build)))) (defstr (lambda (as) (let fnrec8054 ((as as)) (if (jolt-n> (jolt-count as) 1) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-nth as 1)) "")))) (invoke (lambda () (let fnrec8055 () (let* ((_a$8057 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$8058 (jolt-cons fnode arg-nodes)) (_a$8059 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$8060 (lambda (operands) (let fnrec8056 ((operands operands)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-call") tail? "jolt-invoke" operands))))) (jolt-invoke _a$8057 _a$8058 _a$8059 _a$8060)))))) (if (jolt-truthy? (jolt-get node (keyword #f "devirt-type"))) (jolt-invoke order-args (lambda (as) (let fnrec8061 ((as as)) (let* ((r (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_r$")) (dv (let* ((_a$8062 (var-deref "clojure.core" "str")) (_a$8063 "(devirt-resolve ") (_a$8064 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "devirt-type")))) (_a$8065 " ") (_a$8066 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "devirt-proto")))) (_a$8067 " ") (_a$8068 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "devirt-method")))) (_a$8069 " ") (_a$8070 r) (_a$8071 ")")) (jolt-invoke _a$8062 _a$8063 _a$8064 _a$8065 _a$8066 _a$8067 _a$8068 _a$8069 _a$8070 _a$8071))) (cells (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "cache-cells"))) (resolver (if (jolt-truthy? cells) (let* ((c (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_dvc$"))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") cells jolt-conj c) (jolt-invoke (var-deref "clojure.core" "str") "(or " c " (let ((_f " dv ")) (set! " c " _f) _f))"))) dv))) (let* ((_a$8072 (var-deref "clojure.core" "str")) (_a$8073 "(let* ((") (_a$8074 r) (_a$8075 " ") (_a$8076 (jolt-first as)) (_a$8077 ")) (") (_a$8078 resolver) (_a$8079 " ") (_a$8080 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-cons r (jolt-rest as)))) (_a$8081 "))")) (jolt-invoke _a$8072 _a$8073 _a$8074 _a$8075 _a$8076 _a$8077 _a$8078 _a$8079 _a$8080 _a$8081)))))) (if (jolt-truthy? (jolt-get node (keyword #f "num-kind"))) (let* ((_a$8082 (var-deref "jolt.backend-scheme" "emit-numeric")) (_a$8083 (jolt-get node (keyword #f "num-kind"))) (_a$8084 (jolt-get fnode (keyword #f "name"))) (_a$8085 args) (_a$8086 order-args)) (jolt-invoke _a$8082 _a$8083 _a$8084 _a$8085 _a$8086)) (if (jolt-truthy? (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-empty? args))) (if (jolt-truthy? and__25__auto) (jolt= nop "+") and__25__auto)) and__25__auto))) "0" (if (jolt-truthy? (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-empty? args))) (if (jolt-truthy? and__25__auto) (jolt= nop "*") and__25__auto)) and__25__auto))) "1" (if (jolt-truthy? (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "cmp1-ops") nop) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "clojure.core" "str") "(begin " (jolt-first args) " #t)") (if (jolt-truthy? nop) (jolt-invoke order-args (lambda (as) (let fnrec8087 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" nop " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))) (if (jolt= kind (keyword #f "keyword")) (let* ((recv (jolt-first arg-nodes)) (idx (if (let* ((and__25__auto (jolt= (keyword #f "struct") (jolt-get recv (keyword #f "hint"))))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count arg-nodes)) and__25__auto)) (let* ((_a$8088 (var-deref "jolt.backend-scheme" "struct-field-index")) (_a$8089 (jolt-get recv (keyword #f "shape"))) (_a$8090 (jolt-get fnode (keyword #f "val")))) (jolt-invoke _a$8088 _a$8089 _a$8090)) jolt-nil))) (if (jolt-truthy? idx) (jolt-invoke order-args (lambda (as) (let fnrec8091 ((as as)) (let* ((_a$8092 (var-deref "clojure.core" "str")) (_a$8093 "(jrec-field-at ") (_a$8094 (jolt-first as)) (_a$8095 " ") (_a$8096 idx) (_a$8097 " ") (_a$8098 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode)) (_a$8099 ")")) (jolt-invoke _a$8092 _a$8093 _a$8094 _a$8095 _a$8096 _a$8097 _a$8098 _a$8099))))) (jolt-invoke order-args (lambda (as) (let fnrec8100 ((as as)) (let* ((_a$8101 (var-deref "clojure.core" "str")) (_a$8102 "(jolt-get ") (_a$8103 (jolt-first as)) (_a$8104 " ") (_a$8105 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode)) (_a$8106 (jolt-invoke defstr as)) (_a$8107 ")")) (jolt-invoke _a$8101 _a$8102 _a$8103 _a$8104 _a$8105 _a$8106 _a$8107))))))) (if (jolt= kind (keyword #f "coll")) (let* ((_a$8115 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$8116 (jolt-cons fnode arg-nodes)) (_a$8117 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$8118 (lambda (G__146) (let fnrec8108 ((G__146 G__146)) (let* ((G__147 G__146) (c (jolt-nth G__147 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__147 1))) (let* ((_a$8109 (var-deref "clojure.core" "str")) (_a$8110 (if (let* ((and__25__auto (jolt= (keyword #f "vector") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count as)) and__25__auto)) "(jolt-nth " "(jolt-get ")) (_a$8111 c) (_a$8112 " ") (_a$8113 (jolt-invoke (var-deref "clojure.string" "join") " " as)) (_a$8114 ")")) (jolt-invoke _a$8109 _a$8110 _a$8111 _a$8112 _a$8113 _a$8114))))))) (jolt-invoke _a$8115 _a$8116 _a$8117 _a$8118)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") fnode))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__25__auto))) (jolt-throw (let* ((_a$8125 (let* ((_a$8119 (var-deref "clojure.core" "str")) (_a$8120 "emit: unsupported stdlib fn `") (_a$8121 (jolt-get fnode (keyword #f "ns"))) (_a$8122 "/") (_a$8123 (jolt-get fnode (keyword #f "name"))) (_a$8124 "` (no core on Chez yet)")) (jolt-invoke _a$8119 _a$8120 _a$8121 _a$8122 _a$8123 _a$8124))) (_a$8126 (jolt-hash-map))) (jolt-ex-info _a$8125 _a$8126))) (if (jolt= (keyword #f "host-static") (jolt-get fnode (keyword #f "op"))) (jolt-invoke order-args (lambda (as) (let fnrec8127 ((as as)) (let* ((_a$8128 (var-deref "clojure.core" "str")) (_a$8129 "(host-static-call ") (_a$8130 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "class")))) (_a$8131 " ") (_a$8132 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "member")))) (_a$8133 (if (jolt-empty? as) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)))) (_a$8134 ")")) (jolt-invoke _a$8128 _a$8129 _a$8130 _a$8131 _a$8132 _a$8133 _a$8134))))) (if (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))) (jolt-throw (let* ((_a$8135 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host call `" (jolt-get fnode (keyword #f "name")) "`")) (_a$8136 (jolt-hash-map))) (jolt-ex-info _a$8135 _a$8136))) (if (jolt= (keyword #f "local") (jolt-get fnode (keyword #f "op"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "*known-procs*") (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get fnode (keyword #f "name"))))) (jolt-invoke order-args (lambda (as) (let fnrec8137 ((as as)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-call") tail? (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get fnode (keyword #f "name"))) as)))) (jolt-invoke invoke)) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((_a$8138 (var-deref "jolt.backend-scheme" "direct-linkable?")) (_a$8139 (jolt-get fnode (keyword #f "ns"))) (_a$8140 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$8138 _a$8139 _a$8140)))) (if (jolt-truthy? and__25__auto) (let* ((_a$8141 (var-deref "jolt.backend-scheme" "direct-link-fn?")) (_a$8142 (jolt-get fnode (keyword #f "ns"))) (_a$8143 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$8141 _a$8142 _a$8143)) and__25__auto)) and__25__auto))) (jolt-invoke order-args (lambda (as) (let fnrec8144 ((as as)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-call") tail? (let* ((_a$8145 (var-deref "jolt.backend-scheme" "dl-name")) (_a$8146 (jolt-get fnode (keyword #f "ns"))) (_a$8147 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$8145 _a$8146 _a$8147)) as)))) (if (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))) (jolt-invoke invoke) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke invoke) jolt-nil))))))))))))))))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))))))) emit-invoke) (let* ((_o$8148 (keyword #f "private")) (_o$8149 #t)) (jolt-hash-map _o$8148 _o$8149)))) + (def-var! "jolt.backend-scheme" "emit" (letrec ((emit (lambda (node) (let fnrec8032 ((node node)) (let* ((G__147 (jolt-get node (keyword #f "op")))) (if (jolt= G__147 (keyword #f "const")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") (jolt-get node (keyword #f "val"))) (if (jolt= G__147 (keyword #f "local")) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get node (keyword #f "name"))) (if (jolt= G__147 (keyword #f "var")) (let* ((core-proc (let* ((and__25__auto (jolt= "clojure.core" (jolt-get node (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "core-value-procs") (jolt-get node (keyword #f "name"))) and__25__auto)))) (if (jolt-truthy? core-proc) core-proc (if (jolt-truthy? (let* ((_a$8033 (var-deref "jolt.backend-scheme" "direct-linkable?")) 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(keyword #f "else")) (let* ((cells (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "cache-cells"))) (nslit (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (nmlit (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name"))))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "var-cache?")))) (if (jolt-truthy? and__25__auto) cells and__25__auto))) (let* ((c (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_vc$"))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") cells jolt-conj c) (jolt-invoke (var-deref "clojure.core" "str") "(var-cell-deref (or " c " (let ((_v (jolt-var " nslit " " nmlit "))) (set! " c " _v) _v)))"))) (jolt-invoke (var-deref "clojure.core" "str") "(var-deref " nslit " " nmlit ")"))) jolt-nil))))) (if (jolt= G__147 (keyword #f "the-var")) (let* ((_a$8047 (var-deref "clojure.core" "str")) (_a$8048 "(jolt-var ") (_a$8049 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8050 " ") (_a$8051 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8052 ")")) (jolt-invoke _a$8047 _a$8048 _a$8049 _a$8050 _a$8051 _a$8052)) (if (jolt= G__147 (keyword #f "set-var")) (let* ((_a$8053 (var-deref "clojure.core" "str")) (_a$8054 "(jolt-var-set ") (_a$8055 (emit (jolt-get node (keyword #f "the-var")))) (_a$8056 " ") (_a$8057 (emit (jolt-get node (keyword #f "val")))) (_a$8058 ")")) (jolt-invoke _a$8053 _a$8054 _a$8055 _a$8056 _a$8057 _a$8058)) (if (jolt= G__147 (keyword #f "set-field")) (let* ((_a$8059 (var-deref "clojure.core" "str")) (_a$8060 "(jolt-set-field! ") (_a$8061 (emit (jolt-get node (keyword #f "obj")))) (_a$8062 " (keyword #f ") (_a$8063 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "field")))) (_a$8064 ") ") (_a$8065 (emit (jolt-get node (keyword #f "val")))) (_a$8066 ")")) (jolt-invoke _a$8059 _a$8060 _a$8061 _a$8062 _a$8063 _a$8064 _a$8065 _a$8066)) (if (jolt= G__147 (keyword #f "defmacro")) (let* ((_a$8067 (var-deref "clojure.core" "str")) (_a$8068 "(begin (def-var! ") (_a$8069 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8070 " ") (_a$8071 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8072 " ") (_a$8073 (emit (jolt-get node (keyword #f "fn")))) (_a$8074 ") (mark-macro! ") (_a$8075 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8076 " ") (_a$8077 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8078 ") jolt-nil)")) (jolt-invoke _a$8067 _a$8068 _a$8069 _a$8070 _a$8071 _a$8072 _a$8073 _a$8074 _a$8075 _a$8076 _a$8077 _a$8078)) (if (jolt= G__147 (keyword #f "host")) (jolt-throw (let* ((_a$8079 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host ref `" (jolt-get node (keyword #f "name")) "`")) (_a$8080 (jolt-hash-map))) (jolt-ex-info _a$8079 _a$8080))) (if (jolt= G__147 (keyword #f "host-static")) (let* ((_a$8081 (var-deref "clojure.core" "str")) (_a$8082 "(host-static-ref ") (_a$8083 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "class")))) (_a$8084 " ") (_a$8085 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "member")))) (_a$8086 ")")) (jolt-invoke _a$8081 _a$8082 _a$8083 _a$8084 _a$8085 _a$8086)) (if (jolt= G__147 (keyword #f "host-new")) (let* ((_a$8087 (var-deref "clojure.core" "str")) (_a$8088 "(host-new ") (_a$8089 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "class")))) (_a$8090 (let* ((args (jolt-map emit (jolt-get node (keyword #f "args"))))) (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args))))) (_a$8091 ")")) (jolt-invoke _a$8087 _a$8088 _a$8089 _a$8090 _a$8091)) (if (jolt= G__147 (keyword #f "if")) (let* ((test (jolt-get node (keyword #f "test"))) (t (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "returns-scheme-bool?") test)) (emit test) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-truthy? " (emit test) ")")))) (let* ((_a$8092 (var-deref "clojure.core" "str")) (_a$8093 "(if ") (_a$8094 t) (_a$8095 " ") (_a$8096 (emit (jolt-get node (keyword #f "then")))) (_a$8097 " ") (_a$8098 (emit (jolt-get node (keyword #f "else")))) (_a$8099 ")")) (jolt-invoke _a$8092 _a$8093 _a$8094 _a$8095 _a$8096 _a$8097 _a$8098 _a$8099))) (if (jolt= G__147 (keyword #f "do")) (let* ((_a$8100 (var-deref "clojure.core" "str")) (_a$8101 "(begin ") (_a$8102 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit (jolt-get node (keyword #f "statements"))))) (_a$8103 (if (jolt-empty? 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(keyword #f "else")) e jolt-nil)))) (if (jolt= G__147 (keyword #f "try")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-try") node) (if (jolt= G__147 (keyword #f "regex")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-regex " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__147 (keyword #f "inst")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-inst-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__147 (keyword #f "uuid")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uuid-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__147 (keyword #f "bigdec")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-bigdec-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__147 (keyword #f "the-ns")) (jolt-invoke (var-deref "clojure.core" "str") "(intern-ns! " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name"))) ")") (if (jolt= G__147 (keyword #f "host-call")) (let* ((m (jolt-get node (keyword #f "method"))) (target (emit (jolt-get node (keyword #f "target")))) (args (jolt-map emit (jolt-get node (keyword #f "args"))))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "supported-host-methods") m)) (let* ((_a$8112 (var-deref "clojure.core" "str")) (_a$8113 "(jolt-host-call ") (_a$8114 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") m)) (_a$8115 " ") (_a$8116 target) (_a$8117 (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args)))) (_a$8118 ")")) (jolt-invoke _a$8112 _a$8113 _a$8114 _a$8115 _a$8116 _a$8117 _a$8118)) (let* ((_a$8119 (var-deref "clojure.core" "str")) (_a$8120 "(record-method-dispatch ") (_a$8121 target) (_a$8122 " ") (_a$8123 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") m)) (_a$8124 " (jolt-vector") (_a$8125 (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args)))) (_a$8126 "))")) (jolt-invoke _a$8119 _a$8120 _a$8121 _a$8122 _a$8123 _a$8124 _a$8125 _a$8126)))) (if (jolt= G__147 (keyword #f "let")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-let") node) (if (jolt= G__147 (keyword #f "loop")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-loop") node) (if (jolt= G__147 (keyword #f "recur")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-recur") node) (if (jolt= G__147 (keyword #f "ffi-fn")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ffi-fn") node) (if (jolt= G__147 (keyword #f "ffi-callable")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ffi-callable") node) (if (jolt= G__147 (keyword #f "fn")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-fn") node) (if (jolt= G__147 (keyword #f "def")) (if (jolt-truthy? (jolt-get node (keyword #f "no-init"))) (let* ((_a$8127 (var-deref "clojure.core" "str")) (_a$8128 "(declare-var! ") (_a$8129 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8130 " ") (_a$8131 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8132 ")")) (jolt-invoke _a$8127 _a$8128 _a$8129 _a$8130 _a$8131 _a$8132)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$8134 (var-deref "clojure.core" "str")) (_a$8135 "(def-var-with-meta! ") (_a$8136 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8137 " ") (_a$8138 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8139 " ") (_a$8140 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-with-cells") (lambda () (let fnrec8133 () (emit (jolt-get node (keyword #f "init"))))))) (_a$8141 " ") (_a$8142 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-meta") node)) (_a$8143 ")")) (jolt-invoke _a$8134 _a$8135 _a$8136 _a$8137 _a$8138 _a$8139 _a$8140 _a$8141 _a$8142 _a$8143)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$8145 (var-deref "clojure.core" "str")) (_a$8146 "(def-var! ") (_a$8147 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8148 " ") (_a$8149 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8150 " ") (_a$8151 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-with-cells") (lambda () (let fnrec8144 () (emit (jolt-get node (keyword #f "init"))))))) (_a$8152 ")")) (jolt-invoke _a$8145 _a$8146 _a$8147 _a$8148 _a$8149 _a$8150 _a$8151 _a$8152)) jolt-nil))) (jolt-throw (let* ((_a$8153 (jolt-invoke (var-deref "clojure.core" "str") "emit: op not yet ported / unhandled: " (jolt-invoke (var-deref "clojure.core" "pr-str") (jolt-get node (keyword #f "op"))))) (_a$8154 (jolt-hash-map))) (jolt-ex-info _a$8153 _a$8154))))))))))))))))))))))))))))))))))))))))) emit))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-try" (letrec ((emit-try (lambda (node) (let fnrec8150 ((node node)) (let* ((core (let* ((temp__16__auto (jolt-get node (keyword #f "catch-sym")))) (if (jolt-truthy? temp__16__auto) (let* ((cs temp__16__auto)) (let* ((raw (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get node (keyword #f "catch-raw-sym"))))) (let* ((_a$8151 (var-deref "clojure.core" "str")) (_a$8152 "(guard (") (_a$8153 raw) (_a$8154 " (else (let ((") (_a$8155 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") cs)) (_a$8156 " (jolt-unwrap-throw ") (_a$8157 raw) (_a$8158 "))) ") (_a$8159 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "catch-body")))) (_a$8160 "))) ") (_a$8161 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$8162 ")")) (jolt-invoke _a$8151 _a$8152 _a$8153 _a$8154 _a$8155 _a$8156 _a$8157 _a$8158 _a$8159 _a$8160 _a$8161 _a$8162)))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body"))))))) (let* ((temp__16__auto (jolt-get node (keyword #f "finally")))) (if (jolt-truthy? temp__16__auto) (let* ((fin temp__16__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(dynamic-wind (lambda () #f) (lambda () " core ") (lambda () " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fin) "))")) core))))))) emit-try) (let* ((_o$8163 (keyword #f "private")) (_o$8164 #t)) (jolt-hash-map _o$8163 _o$8164)))) + (def-var-with-meta! "jolt.backend-scheme" "dl-opt-out?" (letrec ((dl-opt-out? (lambda (m) (let fnrec8155 ((m m)) (let* ((or__26__auto (jolt-get m (keyword #f "dynamic")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get m (keyword #f "redef")))))))) dl-opt-out?) (let* ((_o$8156 (keyword #f "private")) (_o$8157 #t)) (jolt-hash-map _o$8156 _o$8157)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "returns-scheme-bool?" (letrec ((returns-scheme-bool? (case-lambda ((node) (let fnrec8165 ((node node)) (returns-scheme-bool? node (jolt-hash-set)))) ((node bools) (let fnrec8166 ((node node) (bools bools)) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "boolean?") (jolt-get node (keyword #f "val"))) and__25__auto))) #t (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((nop (let* ((_a$8167 (var-deref "jolt.backend-scheme" "native-op")) (_a$8168 (jolt-get node (keyword #f "fn"))) (_a$8169 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt-invoke _a$8167 _a$8168 _a$8169)))) (jolt-invoke (var-deref "clojure.core" "boolean") (let* ((and__25__auto nop)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "bool-returning-ops") nop) and__25__auto)))) (if (jolt= (keyword #f "local") (jolt-get node (keyword #f "op"))) (jolt-contains? bools (jolt-get node (keyword #f "name"))) (if (jolt= (keyword #f "if") (jolt-get node (keyword #f "op"))) (let* ((and__25__auto (returns-scheme-bool? (jolt-get node (keyword #f "then")) bools))) (if (jolt-truthy? and__25__auto) (returns-scheme-bool? (jolt-get node (keyword #f "else")) bools) and__25__auto)) (if (jolt= (keyword #f "let") (jolt-get node (keyword #f "op"))) (let* ((bools_PRIME_ (let* ((_a$8171 (lambda (s b) (let fnrec8170 ((s s) (b b)) (if (jolt-truthy? (returns-scheme-bool? (jolt-nth b 1) s)) (jolt-conj s (jolt-nth b 0)) (jolt-invoke (var-deref "clojure.core" "disj") s (jolt-nth b 0)))))) (_a$8172 bools) (_a$8173 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$8171 _a$8172 _a$8173)))) (returns-scheme-bool? (jolt-get node (keyword #f "body")) bools_PRIME_)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))))) returns-scheme-bool?) (let* ((_o$8174 (keyword #f "private")) (_o$8175 #t)) (jolt-hash-map _o$8174 _o$8175)))) + (def-var-with-meta! "jolt.backend-scheme" "emit-def-cached" (letrec ((emit-def-cached (lambda (node) (let fnrec8158 ((node node)) (let* ((ns (jolt-get node (keyword #f "ns"))) (nm (jolt-get node (keyword #f "name"))) (dl? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "direct-link?")))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "dl-opt-out?") (jolt-get node (keyword #f "meta")))) and__25__auto))) (b (jolt-invoke (var-deref "jolt.backend-scheme" "dl-name") ns nm)) (fn? (jolt= (keyword #f "fn") (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "op")))) (pos (jolt-get node (keyword #f "pos"))) (frame-name (if (jolt-truthy? fn?) (let* ((temp__16__auto (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "name")))) (if (jolt-truthy? temp__16__auto) (let* ((fnm temp__16__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") fnm)) b)) jolt-nil)) (reg (if (jolt-truthy? (let* ((and__25__auto dl?)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto fn?)) (if (jolt-truthy? and__25__auto) pos and__25__auto)) and__25__auto))) (let* ((_a$8159 (var-deref "clojure.core" "str")) (_a$8160 " (jolt-register-source! ") (_a$8161 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") frame-name)) (_a$8162 " ") (_a$8163 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8164 " ") (_a$8165 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8166 " ") (_a$8167 (if (jolt-truthy? (jolt-get pos (keyword #f "file"))) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get pos (keyword #f "file"))) "jolt-nil")) (_a$8168 " ") (_a$8169 (let* ((or__26__auto (jolt-get pos (keyword #f "line")))) (if (jolt-truthy? or__26__auto) or__26__auto 0))) (_a$8170 ")")) (jolt-invoke _a$8159 _a$8160 _a$8161 _a$8162 _a$8163 _a$8164 _a$8165 _a$8166 _a$8167 _a$8168 _a$8169 _a$8170)) jolt-nil)) (_ (if (jolt-truthy? dl?) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.backend-scheme" "direct-link-defined") jolt-conj (jolt-invoke (var-deref "jolt.backend-scheme" "dl-fqn") ns nm)) (if (jolt-truthy? fn?) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.backend-scheme" "direct-link-fns") jolt-conj (jolt-invoke (var-deref "jolt.backend-scheme" "dl-fqn") ns nm)) jolt-nil)) jolt-nil)) (init (jolt-invoke (var-deref "jolt.backend-scheme" "emit-with-cells") (lambda () (let fnrec8171 () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "init")))))))) (if (jolt-truthy? dl?) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$8172 (var-deref "clojure.core" "str")) (_a$8173 "(begin (define ") (_a$8174 b) (_a$8175 " ") (_a$8176 init) (_a$8177 ") (def-var-with-meta! ") (_a$8178 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8179 " ") (_a$8180 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8181 " ") (_a$8182 b) (_a$8183 " ") (_a$8184 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-meta") node)) (_a$8185 ")") (_a$8186 (let* ((or__26__auto reg)) (if (jolt-truthy? or__26__auto) or__26__auto ""))) (_a$8187 ")")) (jolt-invoke _a$8172 _a$8173 _a$8174 _a$8175 _a$8176 _a$8177 _a$8178 _a$8179 _a$8180 _a$8181 _a$8182 _a$8183 _a$8184 _a$8185 _a$8186 _a$8187)) (let* ((_a$8188 (var-deref "clojure.core" "str")) (_a$8189 "(begin (define ") (_a$8190 b) (_a$8191 " ") (_a$8192 init) (_a$8193 ") (def-var! ") (_a$8194 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8195 " ") (_a$8196 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8197 " ") (_a$8198 b) (_a$8199 ")") (_a$8200 (let* ((or__26__auto reg)) (if (jolt-truthy? or__26__auto) or__26__auto ""))) (_a$8201 ")")) (jolt-invoke _a$8188 _a$8189 _a$8190 _a$8191 _a$8192 _a$8193 _a$8194 _a$8195 _a$8196 _a$8197 _a$8198 _a$8199 _a$8200 _a$8201))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$8202 (var-deref "clojure.core" "str")) (_a$8203 "(def-var-with-meta! ") (_a$8204 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8205 " ") (_a$8206 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8207 " ") (_a$8208 init) (_a$8209 " ") (_a$8210 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-meta") node)) (_a$8211 ")")) (jolt-invoke _a$8202 _a$8203 _a$8204 _a$8205 _a$8206 _a$8207 _a$8208 _a$8209 _a$8210 _a$8211)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$8212 (var-deref "clojure.core" "str")) (_a$8213 "(def-var! ") (_a$8214 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8215 " ") (_a$8216 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8217 " ") (_a$8218 init) (_a$8219 ")")) (jolt-invoke _a$8212 _a$8213 _a$8214 _a$8215 _a$8216 _a$8217 _a$8218 _a$8219)) jolt-nil)))))))) emit-def-cached) (let* ((_o$8220 (keyword #f "private")) (_o$8221 #t)) (jolt-hash-map _o$8220 _o$8221)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "trace-source-reg" (letrec ((trace-source-reg (lambda (node) (let fnrec8176 ((node node)) (let* ((init (jolt-get node (keyword #f "init"))) (pos (jolt-get node (keyword #f "pos")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "trace-frames?")))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get init (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get init (keyword #f "name")))) (if (jolt-truthy? and__25__auto) pos and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_a$8177 (var-deref "clojure.core" "str")) (_a$8178 " (jolt-register-source! ") (_a$8179 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get init (keyword #f "name"))))) (_a$8180 " ") (_a$8181 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8182 " ") (_a$8183 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8184 " ") (_a$8185 (if (jolt-truthy? (jolt-get pos (keyword #f "file"))) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get pos (keyword #f "file"))) "jolt-nil")) (_a$8186 " ") (_a$8187 (let* ((or__26__auto (jolt-get pos (keyword #f "line")))) (if (jolt-truthy? or__26__auto) or__26__auto 0))) (_a$8188 ")")) (jolt-invoke _a$8177 _a$8178 _a$8179 _a$8180 _a$8181 _a$8182 _a$8183 _a$8184 _a$8185 _a$8186 _a$8187 _a$8188)) "")))))) trace-source-reg) (let* ((_o$8189 (keyword #f "private")) (_o$8190 #t)) (jolt-hash-map _o$8189 _o$8190)))) + (def-var! "jolt.backend-scheme" "emit-top-form" (letrec ((emit-top-form (lambda (node) (let fnrec8222 ((node node)) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "direct-link?"))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") node) (if (jolt= (keyword #f "do") (jolt-get node (keyword #f "op"))) (let* ((_a$8223 (var-deref "clojure.core" "str")) (_a$8224 "(begin ") (_a$8225 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-top-form (jolt-get node (keyword #f "statements"))))) (_a$8226 (if (jolt-empty? (jolt-get node (keyword #f "statements"))) "" " ")) (_a$8227 (emit-top-form (jolt-get node (keyword #f "ret")))) (_a$8228 ")")) (jolt-invoke _a$8223 _a$8224 _a$8225 _a$8226 _a$8227 _a$8228)) (if (let* ((and__25__auto (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-get node (keyword #f "no-init"))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "dl-opt-out?") (jolt-get node (keyword #f "meta")))) and__25__auto)) and__25__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-cached") node) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") node) jolt-nil)))))))) emit-top-form))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit*" (letrec ((emit* (lambda (node) (let fnrec8191 ((node node)) (let* ((G__148 (jolt-get node (keyword #f "op")))) (if (jolt= G__148 (keyword #f "const")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") (jolt-get node (keyword #f "val"))) (if (jolt= G__148 (keyword #f "local")) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get node (keyword #f "name"))) (if (jolt= G__148 (keyword #f "var")) (let* ((core-proc (let* ((and__25__auto (jolt= "clojure.core" (jolt-get node (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "core-value-procs") (jolt-get node (keyword #f "name"))) and__25__auto)))) (if (jolt-truthy? core-proc) core-proc (if (jolt-truthy? (let* ((_a$8192 (var-deref "jolt.backend-scheme" "direct-linkable?")) (_a$8193 (jolt-get node (keyword #f "ns"))) (_a$8194 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$8192 _a$8193 _a$8194))) (let* ((_a$8195 (var-deref "jolt.backend-scheme" "dl-name")) (_a$8196 (jolt-get node (keyword #f "ns"))) (_a$8197 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$8195 _a$8196 _a$8197)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") node))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__25__auto))) (jolt-throw (let* ((_a$8204 (let* ((_a$8198 (var-deref "clojure.core" "str")) (_a$8199 "emit: unsupported stdlib ref `") (_a$8200 (jolt-get node (keyword #f "ns"))) (_a$8201 "/") (_a$8202 (jolt-get node (keyword #f "name"))) (_a$8203 "` (no core on Chez yet)")) (jolt-invoke _a$8198 _a$8199 _a$8200 _a$8201 _a$8202 _a$8203))) (_a$8205 (jolt-hash-map))) (jolt-ex-info _a$8204 _a$8205))) (if (jolt-truthy? (keyword #f "else")) (let* ((cells (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "cache-cells"))) (nslit (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (nmlit (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name"))))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "var-cache?")))) (if (jolt-truthy? and__25__auto) cells and__25__auto))) (let* ((c (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_vc$"))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") cells jolt-conj c) (jolt-invoke (var-deref "clojure.core" "str") "(var-cell-deref (or " c " (let ((_v (jolt-var " nslit " " nmlit "))) (set! " c " _v) _v)))"))) (jolt-invoke (var-deref "clojure.core" "str") "(var-deref " nslit " " nmlit ")"))) jolt-nil))))) (if (jolt= G__148 (keyword #f "the-var")) (let* ((_a$8206 (var-deref "clojure.core" "str")) (_a$8207 "(jolt-var ") (_a$8208 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8209 " ") (_a$8210 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8211 ")")) (jolt-invoke _a$8206 _a$8207 _a$8208 _a$8209 _a$8210 _a$8211)) (if (jolt= G__148 (keyword #f "set-var")) (let* ((_a$8212 (var-deref "clojure.core" "str")) (_a$8213 "(jolt-var-set ") (_a$8214 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "the-var")))) (_a$8215 " ") (_a$8216 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "val")))) (_a$8217 ")")) (jolt-invoke _a$8212 _a$8213 _a$8214 _a$8215 _a$8216 _a$8217)) (if (jolt= G__148 (keyword #f "set-field")) (let* ((_a$8218 (var-deref "clojure.core" "str")) (_a$8219 "(jolt-set-field! ") (_a$8220 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "obj")))) (_a$8221 " (keyword #f ") (_a$8222 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "field")))) (_a$8223 ") ") (_a$8224 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "val")))) (_a$8225 ")")) (jolt-invoke _a$8218 _a$8219 _a$8220 _a$8221 _a$8222 _a$8223 _a$8224 _a$8225)) (if (jolt= G__148 (keyword #f "defmacro")) (let* ((_a$8226 (var-deref "clojure.core" "str")) (_a$8227 "(begin (def-var! ") (_a$8228 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8229 " ") (_a$8230 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8231 " ") (_a$8232 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "fn")))) (_a$8233 ") (mark-macro! ") (_a$8234 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8235 " ") (_a$8236 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8237 ") jolt-nil)")) (jolt-invoke _a$8226 _a$8227 _a$8228 _a$8229 _a$8230 _a$8231 _a$8232 _a$8233 _a$8234 _a$8235 _a$8236 _a$8237)) (if (jolt= G__148 (keyword #f "host")) (jolt-throw (let* ((_a$8238 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host ref `" (jolt-get node (keyword #f "name")) "`")) (_a$8239 (jolt-hash-map))) (jolt-ex-info _a$8238 _a$8239))) (if (jolt= G__148 (keyword #f "host-static")) (let* ((_a$8240 (var-deref "clojure.core" "str")) (_a$8241 "(host-static-ref ") (_a$8242 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "class")))) (_a$8243 " ") (_a$8244 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "member")))) (_a$8245 ")")) (jolt-invoke _a$8240 _a$8241 _a$8242 _a$8243 _a$8244 _a$8245)) (if (jolt= G__148 (keyword #f "host-new")) (let* ((_a$8246 (var-deref "clojure.core" "str")) (_a$8247 "(host-new ") (_a$8248 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "class")))) (_a$8249 (let* ((args (jolt-map (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "args"))))) (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args))))) (_a$8250 ")")) (jolt-invoke _a$8246 _a$8247 _a$8248 _a$8249 _a$8250)) (if (jolt= G__148 (keyword #f "if")) (let* ((test (jolt-get node (keyword #f "test"))) (t (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*tail?*") #f))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "returns-scheme-bool?") test)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") test) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-truthy? " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") test) ")"))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (let* ((_a$8251 (var-deref "clojure.core" "str")) (_a$8252 "(if ") (_a$8253 t) (_a$8254 " ") (_a$8255 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "then")))) (_a$8256 " ") (_a$8257 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "else")))) (_a$8258 ")")) (jolt-invoke _a$8251 _a$8252 _a$8253 _a$8254 _a$8255 _a$8256 _a$8257 _a$8258))) (if (jolt= G__148 (keyword #f "do")) (let* ((_a$8259 (var-deref "clojure.core" "str")) (_a$8260 "(begin ") (_a$8261 (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*tail?*") #f))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "statements"))))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (_a$8262 (if (jolt-empty? (jolt-get node (keyword #f "statements"))) "" " ")) (_a$8263 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "ret")))) (_a$8264 ")")) (jolt-invoke _a$8259 _a$8260 _a$8261 _a$8262 _a$8263 _a$8264)) (if (jolt= G__148 (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-invoke") node) (if (jolt= G__148 (keyword #f "vector")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ordered") "jolt-vector" (jolt-map (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "items")))) (if (jolt= G__148 (keyword #f "set")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ordered") "jolt-hash-set" (jolt-map (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "items")))) (if (jolt= G__148 (keyword #f "map")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ordered") "jolt-hash-map" (let* ((_a$8268 (var-deref "clojure.core" "mapcat")) (_a$8269 (lambda (p) (let fnrec8265 ((p p)) (let* ((_o$8266 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth p 0))) (_o$8267 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth p 1)))) (jolt-vector _o$8266 _o$8267))))) (_a$8270 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$8268 _a$8269 _a$8270))) (if (jolt= G__148 (keyword #f "quote")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get node (keyword #f "form"))) (if (jolt= G__148 (keyword #f "throw")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-throw " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "expr"))) ")") (if (jolt= G__148 (keyword #f "coerce")) (let* ((e (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "expr"))))) (if (jolt= (keyword #f "double") (jolt-get node (keyword #f "kind"))) (jolt-invoke (var-deref "clojure.core" "str") "(exact->inexact " e ")") (if (jolt= (keyword #f "long") (jolt-get node (keyword #f "kind"))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt->fx " e ")") (if (jolt-truthy? (keyword #f "else")) e jolt-nil)))) (if (jolt= G__148 (keyword #f "try")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-try") node) (if (jolt= G__148 (keyword #f "regex")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-regex " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__148 (keyword #f "inst")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-inst-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__148 (keyword #f "uuid")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uuid-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__148 (keyword #f "bigdec")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-bigdec-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__148 (keyword #f "the-ns")) (jolt-invoke (var-deref "clojure.core" "str") "(intern-ns! " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name"))) ")") (if (jolt= G__148 (keyword #f "host-call")) (let* ((m (jolt-get node (keyword #f "method"))) (target (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "target")))) (args (jolt-map (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "args"))))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "supported-host-methods") m)) (let* ((_a$8271 (var-deref "clojure.core" "str")) (_a$8272 "(jolt-host-call ") (_a$8273 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") m)) (_a$8274 " ") (_a$8275 target) (_a$8276 (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args)))) (_a$8277 ")")) (jolt-invoke _a$8271 _a$8272 _a$8273 _a$8274 _a$8275 _a$8276 _a$8277)) (let* ((_a$8278 (var-deref "clojure.core" "str")) (_a$8279 "(record-method-dispatch ") (_a$8280 target) (_a$8281 " ") (_a$8282 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") m)) (_a$8283 " (jolt-vector") (_a$8284 (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args)))) (_a$8285 "))")) (jolt-invoke _a$8278 _a$8279 _a$8280 _a$8281 _a$8282 _a$8283 _a$8284 _a$8285)))) (if (jolt= G__148 (keyword #f "let")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-let") node) (if (jolt= G__148 (keyword #f "loop")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-loop") node) (if (jolt= G__148 (keyword #f "recur")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-recur") node) (if (jolt= G__148 (keyword #f "ffi-fn")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ffi-fn") node) (if (jolt= G__148 (keyword #f "ffi-callable")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ffi-callable") node) (if (jolt= G__148 (keyword #f "fn")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-fn") node) (if (jolt= G__148 (keyword #f "def")) (let* ((reg (jolt-invoke (var-deref "jolt.backend-scheme" "trace-source-reg") node)) (d (if (jolt-truthy? (jolt-get node (keyword #f "no-init"))) (let* ((_a$8286 (var-deref "clojure.core" "str")) (_a$8287 "(declare-var! ") (_a$8288 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8289 " ") (_a$8290 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8291 ")")) (jolt-invoke _a$8286 _a$8287 _a$8288 _a$8289 _a$8290 _a$8291)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$8293 (var-deref "clojure.core" "str")) (_a$8294 "(def-var-with-meta! ") (_a$8295 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8296 " ") (_a$8297 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8298 " ") (_a$8299 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-with-cells") (lambda () (let fnrec8292 () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "init"))))))) (_a$8300 " ") (_a$8301 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-meta") node)) (_a$8302 ")")) (jolt-invoke _a$8293 _a$8294 _a$8295 _a$8296 _a$8297 _a$8298 _a$8299 _a$8300 _a$8301 _a$8302)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$8304 (var-deref "clojure.core" "str")) (_a$8305 "(def-var! ") (_a$8306 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$8307 " ") (_a$8308 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$8309 " ") (_a$8310 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-with-cells") (lambda () (let fnrec8303 () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "init"))))))) (_a$8311 ")")) (jolt-invoke _a$8304 _a$8305 _a$8306 _a$8307 _a$8308 _a$8309 _a$8310 _a$8311)) jolt-nil))))) (if (jolt= reg "") d (jolt-invoke (var-deref "clojure.core" "str") "(begin " d reg ")"))) (jolt-throw (let* ((_a$8312 (jolt-invoke (var-deref "clojure.core" "str") "emit: op not yet ported / unhandled: " (jolt-invoke (var-deref "clojure.core" "pr-str") (jolt-get node (keyword #f "op"))))) (_a$8313 (jolt-hash-map))) (jolt-ex-info _a$8312 _a$8313))))))))))))))))))))))))))))))))))))))))) emit*))) + (def-var-with-meta! "jolt.passes.fold" "foldable" (let* ((_o$8229 "+") (_o$8230 jolt-add) (_o$8231 "-") (_o$8232 jolt-sub) (_o$8233 "*") (_o$8234 jolt-mul) (_o$8235 "/") (_o$8236 jolt-div) (_o$8237 "<") (_o$8238 <) (_o$8239 ">") (_o$8240 >) (_o$8241 "<=") (_o$8242 <=) (_o$8243 ">=") (_o$8244 >=) (_o$8245 "=") (_o$8246 jolt=) (_o$8247 "inc") (_o$8248 jolt-inc) (_o$8249 "dec") (_o$8250 jolt-dec) (_o$8251 "mod") (_o$8252 modulo) (_o$8253 "rem") (_o$8254 remainder) (_o$8255 "quot") (_o$8256 quotient) (_o$8257 "bit-and") (_o$8258 (var-deref "clojure.core" "__bit-and")) (_o$8259 "bit-or") (_o$8260 (var-deref "clojure.core" "__bit-or")) (_o$8261 "bit-xor") (_o$8262 (var-deref "clojure.core" "__bit-xor"))) (jolt-hash-map _o$8229 _o$8230 _o$8231 _o$8232 _o$8233 _o$8234 _o$8235 _o$8236 _o$8237 _o$8238 _o$8239 _o$8240 _o$8241 _o$8242 _o$8243 _o$8244 _o$8245 _o$8246 _o$8247 _o$8248 _o$8249 _o$8250 _o$8251 _o$8252 _o$8253 _o$8254 _o$8255 _o$8256 _o$8257 _o$8258 _o$8259 _o$8260 _o$8261 _o$8262)) (let* ((_o$8263 (keyword #f "private")) (_o$8264 #t)) (jolt-hash-map _o$8263 _o$8264)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "dl-opt-out?" (letrec ((dl-opt-out? (lambda (m) (let fnrec8314 ((m m)) (let* ((or__26__auto (jolt-get m (keyword #f "dynamic")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get m (keyword #f "redef")))))))) dl-opt-out?) (let* ((_o$8315 (keyword #f "private")) (_o$8316 #t)) (jolt-hash-map _o$8315 _o$8316)))) + (def-var-with-meta! "jolt.passes.fold" "const?" (letrec ((const? (lambda (n) (let fnrec8265 ((n n)) (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))))) const?) (let* ((_o$8266 (keyword #f "private")) (_o$8267 #t)) (jolt-hash-map _o$8266 _o$8267)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "emit-def-cached" (letrec ((emit-def-cached (lambda (node) (let fnrec8317 ((node node)) (let* ((ns (jolt-get node (keyword #f "ns"))) (nm (jolt-get node (keyword #f "name"))) (dl? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "direct-link?")))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "dl-opt-out?") (jolt-get node (keyword #f "meta")))) and__25__auto))) (b (jolt-invoke (var-deref "jolt.backend-scheme" "dl-name") ns nm)) (fn? (jolt= (keyword #f "fn") (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "op")))) (pos (jolt-get node (keyword #f "pos"))) (frame-name (if (jolt-truthy? fn?) (let* ((temp__16__auto (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "name")))) (if (jolt-truthy? temp__16__auto) (let* ((fnm temp__16__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") fnm)) b)) jolt-nil)) (reg (if (jolt-truthy? (let* ((and__25__auto dl?)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto fn?)) (if (jolt-truthy? and__25__auto) pos and__25__auto)) and__25__auto))) (let* ((_a$8318 (var-deref "clojure.core" "str")) (_a$8319 " (jolt-register-source! ") (_a$8320 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") frame-name)) (_a$8321 " ") (_a$8322 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8323 " ") (_a$8324 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8325 " ") (_a$8326 (if (jolt-truthy? (jolt-get pos (keyword #f "file"))) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get pos (keyword #f "file"))) "jolt-nil")) (_a$8327 " ") (_a$8328 (let* ((or__26__auto (jolt-get pos (keyword #f "line")))) (if (jolt-truthy? or__26__auto) or__26__auto 0))) (_a$8329 ")")) (jolt-invoke _a$8318 _a$8319 _a$8320 _a$8321 _a$8322 _a$8323 _a$8324 _a$8325 _a$8326 _a$8327 _a$8328 _a$8329)) jolt-nil)) (_ (if (jolt-truthy? dl?) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.backend-scheme" "direct-link-defined") jolt-conj (jolt-invoke (var-deref "jolt.backend-scheme" "dl-fqn") ns nm)) (if (jolt-truthy? fn?) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.backend-scheme" "direct-link-fns") jolt-conj (jolt-invoke (var-deref "jolt.backend-scheme" "dl-fqn") ns nm)) jolt-nil)) jolt-nil)) (init (jolt-invoke (var-deref "jolt.backend-scheme" "emit-with-cells") (lambda () (let fnrec8330 () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "init")))))))) (if (jolt-truthy? dl?) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$8331 (var-deref "clojure.core" "str")) (_a$8332 "(begin (define ") (_a$8333 b) (_a$8334 " ") (_a$8335 init) (_a$8336 ") (def-var-with-meta! ") (_a$8337 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8338 " ") (_a$8339 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8340 " ") (_a$8341 b) (_a$8342 " ") (_a$8343 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-meta") node)) (_a$8344 ")") (_a$8345 (let* ((or__26__auto reg)) (if (jolt-truthy? or__26__auto) or__26__auto ""))) (_a$8346 ")")) (jolt-invoke _a$8331 _a$8332 _a$8333 _a$8334 _a$8335 _a$8336 _a$8337 _a$8338 _a$8339 _a$8340 _a$8341 _a$8342 _a$8343 _a$8344 _a$8345 _a$8346)) (let* ((_a$8347 (var-deref "clojure.core" "str")) (_a$8348 "(begin (define ") (_a$8349 b) (_a$8350 " ") (_a$8351 init) (_a$8352 ") (def-var! ") (_a$8353 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8354 " ") (_a$8355 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8356 " ") (_a$8357 b) (_a$8358 ")") (_a$8359 (let* ((or__26__auto reg)) (if (jolt-truthy? or__26__auto) or__26__auto ""))) (_a$8360 ")")) (jolt-invoke _a$8347 _a$8348 _a$8349 _a$8350 _a$8351 _a$8352 _a$8353 _a$8354 _a$8355 _a$8356 _a$8357 _a$8358 _a$8359 _a$8360))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$8361 (var-deref "clojure.core" "str")) (_a$8362 "(def-var-with-meta! ") (_a$8363 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8364 " ") (_a$8365 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8366 " ") (_a$8367 init) (_a$8368 " ") (_a$8369 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-meta") node)) (_a$8370 ")")) (jolt-invoke _a$8361 _a$8362 _a$8363 _a$8364 _a$8365 _a$8366 _a$8367 _a$8368 _a$8369 _a$8370)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$8371 (var-deref "clojure.core" "str")) (_a$8372 "(def-var! ") (_a$8373 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") ns)) (_a$8374 " ") (_a$8375 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$8376 " ") (_a$8377 init) (_a$8378 ")")) (jolt-invoke _a$8371 _a$8372 _a$8373 _a$8374 _a$8375 _a$8376 _a$8377 _a$8378)) jolt-nil)))))))) emit-def-cached) (let* ((_o$8379 (keyword #f "private")) (_o$8380 #t)) (jolt-hash-map _o$8379 _o$8380)))) + (def-var-with-meta! "jolt.passes.fold" "const-num?" (letrec ((const-num? (lambda (n) (let fnrec8268 ((n n)) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "const?") n))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "number?") (jolt-get n (keyword #f "val"))) and__25__auto)))))) const-num?) (let* ((_o$8269 (keyword #f "private")) (_o$8270 #t)) (jolt-hash-map _o$8269 _o$8270)))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-top-form" (letrec ((emit-top-form (lambda (node) (let fnrec8381 ((node node)) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "direct-link?"))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") node) (if (jolt= (keyword #f "do") (jolt-get node (keyword #f "op"))) (let* ((_a$8382 (var-deref "clojure.core" "str")) (_a$8383 "(begin ") (_a$8384 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-top-form (jolt-get node (keyword #f "statements"))))) (_a$8385 (if (jolt-empty? (jolt-get node (keyword #f "statements"))) "" " ")) (_a$8386 (emit-top-form (jolt-get node (keyword #f "ret")))) (_a$8387 ")")) (jolt-invoke _a$8382 _a$8383 _a$8384 _a$8385 _a$8386 _a$8387)) (if (let* ((and__25__auto (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-get node (keyword #f "no-init"))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "dl-opt-out?") (jolt-get node (keyword #f "meta")))) and__25__auto)) and__25__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-def-cached") node) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") node) jolt-nil)))))))) emit-top-form))) + (def-var-with-meta! "jolt.passes.fold" "fold-fn" (letrec ((fold-fn (lambda (fnode) (let fnrec8271 ((fnode fnode)) (let* ((op (jolt-get fnode (keyword #f "op")))) (if (let* ((or__26__auto (let* ((and__25__auto (jolt= op (keyword #f "var")))) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "host")))) (jolt-get (var-deref "jolt.passes.fold" "foldable") (jolt-get fnode (keyword #f "name"))) jolt-nil)))))) fold-fn) (let* ((_o$8272 (keyword #f "private")) (_o$8273 #t)) (jolt-hash-map _o$8272 _o$8273)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "foldable" (let* ((_o$8388 "+") (_o$8389 jolt-add) (_o$8390 "-") (_o$8391 jolt-sub) (_o$8392 "*") (_o$8393 jolt-mul) (_o$8394 "/") (_o$8395 jolt-div) (_o$8396 "<") (_o$8397 jolt-lt) (_o$8398 ">") (_o$8399 jolt-gt) (_o$8400 "<=") (_o$8401 jolt-le) (_o$8402 ">=") (_o$8403 jolt-ge) (_o$8404 "=") (_o$8405 jolt=) (_o$8406 "inc") (_o$8407 jolt-inc) (_o$8408 "dec") (_o$8409 jolt-dec) (_o$8410 "mod") (_o$8411 jolt-mod) (_o$8412 "rem") (_o$8413 jolt-rem) (_o$8414 "quot") (_o$8415 jolt-quot) (_o$8416 "bit-and") (_o$8417 (var-deref "clojure.core" "__bit-and")) (_o$8418 "bit-or") (_o$8419 (var-deref "clojure.core" "__bit-or")) (_o$8420 "bit-xor") (_o$8421 (var-deref "clojure.core" "__bit-xor"))) (jolt-hash-map _o$8388 _o$8389 _o$8390 _o$8391 _o$8392 _o$8393 _o$8394 _o$8395 _o$8396 _o$8397 _o$8398 _o$8399 _o$8400 _o$8401 _o$8402 _o$8403 _o$8404 _o$8405 _o$8406 _o$8407 _o$8408 _o$8409 _o$8410 _o$8411 _o$8412 _o$8413 _o$8414 _o$8415 _o$8416 _o$8417 _o$8418 _o$8419 _o$8420 _o$8421)) (let* ((_o$8422 (keyword #f "private")) (_o$8423 #t)) (jolt-hash-map _o$8422 _o$8423)))) + (def-var-with-meta! "jolt.passes.fold" "const-fold" (letrec ((const-fold (lambda (node) (let fnrec8274 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (let* ((n (jolt-invoke (var-deref "jolt.ir" "map-ir-children") const-fold node)) (ff (jolt-invoke (var-deref "jolt.passes.fold" "fold-fn") (jolt-get n (keyword #f "fn")))) (args (jolt-get n (keyword #f "args"))) (folded (if (jolt-truthy? (let* ((and__25__auto ff)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-pos? (jolt-count args)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.fold" "const-num?") args) and__25__auto)) and__25__auto))) (guard (_r$catch1583 (else (let* ((e _r$catch1583)) jolt-nil))) (let* ((_o$8276 (keyword #f "op")) (_o$8277 (keyword #f "const")) (_o$8278 (keyword #f "val")) (_o$8279 (jolt-apply ff (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec8275 ((a a)) (jolt-get a (keyword #f "val")))) args)))) (jolt-hash-map _o$8276 _o$8277 _o$8278 _o$8279))) jolt-nil))) (let* ((or__26__auto folded)) (if (jolt-truthy? or__26__auto) or__26__auto n))) (if (jolt= op (keyword #f "if")) (let* ((t (const-fold (jolt-get node (keyword #f "test"))))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.fold" "const?") t)) (if (let* ((or__26__auto (jolt-nil? (jolt-get t (keyword #f "val"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= #f (jolt-get t (keyword #f "val"))))) (const-fold (jolt-get node (keyword #f "else"))) (const-fold (jolt-get node (keyword #f "then")))) (let* ((_a$8280 node) (_a$8281 (keyword #f "test")) (_a$8282 t) (_a$8283 (keyword #f "then")) (_a$8284 (const-fold (jolt-get node (keyword #f "then")))) (_a$8285 (keyword #f "else")) (_a$8286 (const-fold (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$8280 _a$8281 _a$8282 _a$8283 _a$8284 _a$8285 _a$8286)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") const-fold node) jolt-nil)))))))) const-fold) (let* ((_o$8287 (keyword #f "doc")) (_o$8288 "Bottom-up constant folding: a call of a foldable numeric fn whose args are\n all constant numbers becomes a constant; an if with a constant test becomes\n the taken branch.")) (jolt-hash-map _o$8287 _o$8288)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "const?" (letrec ((const? (lambda (n) (let fnrec8424 ((n n)) (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))))) const?) (let* ((_o$8425 (keyword #f "private")) (_o$8426 #t)) (jolt-hash-map _o$8425 _o$8426)))) + (def-var! "jolt.passes.fold" "scalar-const?" (letrec ((scalar-const? (lambda (n) (let fnrec8289 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") v))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "string?") v))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "boolean?") v)))))))) and__25__auto)))))) scalar-const?))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "const-num?" (letrec ((const-num? (lambda (n) (let fnrec8427 ((n n)) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "const?") n))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "number?") (jolt-get n (keyword #f "val"))) and__25__auto)))))) const-num?) (let* ((_o$8428 (keyword #f "private")) (_o$8429 #t)) (jolt-hash-map _o$8428 _o$8429)))) + (def-var-with-meta! "jolt.passes.fold" "kw-callee?" (letrec ((kw-callee? (lambda (fnode) (let fnrec8290 ((fnode fnode)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val"))) and__25__auto)))))) kw-callee?) (let* ((_o$8291 (keyword #f "doc")) (_o$8292 "True if fnode is a constant keyword used as a function head \x2014; the (:k m) form.")) (jolt-hash-map _o$8291 _o$8292)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "fold-fn" (letrec ((fold-fn (lambda (fnode) (let fnrec8430 ((fnode fnode)) (let* ((op (jolt-get fnode (keyword #f "op")))) (if (let* ((or__26__auto (let* ((and__25__auto (jolt= op (keyword #f "var")))) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "host")))) (jolt-get (var-deref "jolt.passes.fold" "foldable") (jolt-get fnode (keyword #f "name"))) jolt-nil)))))) fold-fn) (let* ((_o$8431 (keyword #f "private")) (_o$8432 #t)) (jolt-hash-map _o$8431 _o$8432)))) + (def-var-with-meta! "jolt.passes.fold" "get-callee?" (letrec ((get-callee? (lambda (fnode) (let fnrec8293 ((fnode fnode)) (let* ((or__26__auto (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt= "get" (jolt-get fnode (keyword #f "name"))) and__25__auto)) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= "get" (jolt-get fnode (keyword #f "name"))) and__25__auto)))))))) get-callee?) (let* ((_o$8294 (keyword #f "doc")) (_o$8295 "True if fnode is the clojure.core/get (or host get) callee \x2014; the (get m k) form.")) (jolt-hash-map _o$8294 _o$8295)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "const-fold" (letrec ((const-fold (lambda (node) (let fnrec8433 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (let* ((n (jolt-invoke (var-deref "jolt.ir" "map-ir-children") const-fold node)) (ff (jolt-invoke (var-deref "jolt.passes.fold" "fold-fn") (jolt-get n (keyword #f "fn")))) (args (jolt-get n (keyword #f "args"))) (folded (if (jolt-truthy? (let* ((and__25__auto ff)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-pos? (jolt-count args)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.fold" "const-num?") args) and__25__auto)) and__25__auto))) (guard (_r$catch-raw1629 (else (let ((_r$catch1628 (jolt-unwrap-throw _r$catch-raw1629))) (let* ((e _r$catch1628)) jolt-nil)))) (let* ((_o$8435 (keyword #f "op")) (_o$8436 (keyword #f "const")) (_o$8437 (keyword #f "val")) (_o$8438 (jolt-apply ff (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec8434 ((a a)) (jolt-get a (keyword #f "val")))) args)))) (jolt-hash-map _o$8435 _o$8436 _o$8437 _o$8438))) jolt-nil))) (let* ((or__26__auto folded)) (if (jolt-truthy? or__26__auto) or__26__auto n))) (if (jolt= op (keyword #f "if")) (let* ((t (const-fold (jolt-get node (keyword #f "test"))))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.fold" "const?") t)) (if (let* ((or__26__auto (jolt-nil? (jolt-get t (keyword #f "val"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= #f (jolt-get t (keyword #f "val"))))) (const-fold (jolt-get node (keyword #f "else"))) (const-fold (jolt-get node (keyword #f "then")))) (let* ((_a$8439 node) (_a$8440 (keyword #f "test")) (_a$8441 t) (_a$8442 (keyword #f "then")) (_a$8443 (const-fold (jolt-get node (keyword #f "then")))) (_a$8444 (keyword #f "else")) (_a$8445 (const-fold (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$8439 _a$8440 _a$8441 _a$8442 _a$8443 _a$8444 _a$8445)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") const-fold node) jolt-nil)))))))) const-fold) (let* ((_o$8446 (keyword #f "doc")) (_o$8447 "Bottom-up constant folding: a call of a foldable numeric fn whose args are\n all constant numbers becomes a constant; an if with a constant test becomes\n the taken branch.")) (jolt-hash-map _o$8446 _o$8447)))) + (def-var-with-meta! "jolt.passes.numeric" "int-lit?" (letrec ((int-lit? (lambda (n) (let fnrec6602 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "integer?") v) and__25__auto))) and__25__auto)))))) int-lit?) (let* ((_o$6603 (keyword #f "private")) (_o$6604 #t)) (jolt-hash-map _o$6603 _o$6604)))) (guard (e (#t #f)) - (def-var! "jolt.passes.fold" "scalar-const?" (letrec ((scalar-const? (lambda (n) (let fnrec8448 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") v))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "string?") v))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "boolean?") v)))))))) and__25__auto)))))) scalar-const?))) + (def-var-with-meta! "jolt.passes.numeric" "float-lit?" (letrec ((float-lit? (lambda (n) (let fnrec6605 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "float?") v) and__25__auto))) and__25__auto)))))) float-lit?) (let* ((_o$6606 (keyword #f "private")) (_o$6607 #t)) (jolt-hash-map _o$6606 _o$6607)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "kw-callee?" (letrec ((kw-callee? (lambda (fnode) (let fnrec8449 ((fnode fnode)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val"))) and__25__auto)))))) kw-callee?) (let* ((_o$8450 (keyword #f "doc")) (_o$8451 "True if fnode is a constant keyword used as a function head \x2014; the (:k m) form.")) (jolt-hash-map _o$8450 _o$8451)))) + (def-var-with-meta! "jolt.passes.numeric" "dbl-spec" (letrec ((dbl-spec (lambda (nm n) (let fnrec6608 ((nm nm) (n n)) (if (let* ((and__25__auto (>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6609 "+") (_o$6610 "-") (_o$6611 "*") (_o$6612 "/") (_o$6613 "min") (_o$6614 "max")) (jolt-hash-set _o$6609 _o$6610 _o$6611 _o$6612 _o$6613 _o$6614)) nm) and__25__auto)) (keyword #f "double") (if (let* ((and__25__auto (jolt= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6615 "inc") (_o$6616 "dec")) (jolt-hash-set _o$6615 _o$6616)) nm) and__25__auto)) (keyword #f "double") (if (let* ((and__25__auto (>= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6617 "<") (_o$6618 ">") (_o$6619 "<=") (_o$6620 ">=") (_o$6621 "=") (_o$6622 "==")) (jolt-hash-set _o$6617 _o$6618 _o$6619 _o$6620 _o$6621 _o$6622)) nm) and__25__auto)) (keyword #f "bool") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))))) dbl-spec) (let* ((_o$6623 (keyword #f "private")) (_o$6624 #t)) (jolt-hash-map _o$6623 _o$6624)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.fold" "get-callee?" (letrec ((get-callee? (lambda (fnode) (let fnrec8452 ((fnode fnode)) (let* ((or__26__auto (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt= "get" (jolt-get fnode (keyword #f "name"))) and__25__auto)) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= "get" (jolt-get fnode (keyword #f "name"))) and__25__auto)))))))) get-callee?) (let* ((_o$8453 (keyword #f "doc")) (_o$8454 "True if fnode is the clojure.core/get (or host get) callee \x2014; the (get m k) form.")) (jolt-hash-map _o$8453 _o$8454)))) + (def-var-with-meta! "jolt.passes.numeric" "lng-spec" (letrec ((lng-spec (lambda (nm n) (let fnrec6625 ((nm nm) (n n)) (if (let* ((and__25__auto (>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6626 "+") (_o$6627 "-") (_o$6628 "*") (_o$6629 "min") (_o$6630 "max") (_o$6631 "unchecked-add") (_o$6632 "unchecked-subtract") (_o$6633 "unchecked-multiply")) (jolt-hash-set _o$6626 _o$6627 _o$6628 _o$6629 _o$6630 _o$6631 _o$6632 _o$6633)) nm) and__25__auto)) (keyword #f "long") (if (let* ((and__25__auto (jolt= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6634 "inc") (_o$6635 "dec") (_o$6636 "unchecked-inc") (_o$6637 "unchecked-dec")) (jolt-hash-set _o$6634 _o$6635 _o$6636 _o$6637)) nm) and__25__auto)) (keyword #f "long") (if (let* ((and__25__auto (jolt= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6638 "quot") (_o$6639 "rem") (_o$6640 "mod")) (jolt-hash-set _o$6638 _o$6639 _o$6640)) nm) and__25__auto)) (keyword #f "long") (if (let* ((and__25__auto (>= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6641 "<") (_o$6642 ">") (_o$6643 "<=") (_o$6644 ">=") (_o$6645 "=") (_o$6646 "==")) (jolt-hash-set _o$6641 _o$6642 _o$6643 _o$6644 _o$6645 _o$6646)) nm) and__25__auto)) (keyword #f "bool") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))) lng-spec) (let* ((_o$6647 (keyword #f "private")) (_o$6648 #t)) (jolt-hash-map _o$6647 _o$6648)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "int-lit?" (letrec ((int-lit? (lambda (n) (let fnrec6706 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "integer?") v) and__25__auto))) and__25__auto)))))) int-lit?) (let* ((_o$6707 (keyword #f "private")) (_o$6708 #t)) (jolt-hash-map _o$6707 _o$6708)))) + (def-var-with-meta! "jolt.passes.numeric" "bd-spec" (letrec ((bd-spec (lambda (nm n) (let fnrec6649 ((nm nm) (n n)) (if (let* ((and__25__auto (>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6650 "+") (_o$6651 "-") (_o$6652 "*") (_o$6653 "/") (_o$6654 "min") (_o$6655 "max")) (jolt-hash-set _o$6650 _o$6651 _o$6652 _o$6653 _o$6654 _o$6655)) nm) and__25__auto)) (keyword #f "bigdec") (if (let* ((and__25__auto (jolt= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6656 "quot") (_o$6657 "rem")) (jolt-hash-set _o$6656 _o$6657)) nm) and__25__auto)) (keyword #f "bigdec") (if (let* ((and__25__auto (jolt= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6658 "zero?") (_o$6659 "pos?") (_o$6660 "neg?")) (jolt-hash-set _o$6658 _o$6659 _o$6660)) nm) and__25__auto)) (keyword #f "bool") (if (let* ((and__25__auto (>= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6661 "<") (_o$6662 ">") (_o$6663 "<=") (_o$6664 ">=")) (jolt-hash-set _o$6661 _o$6662 _o$6663 _o$6664)) nm) and__25__auto)) (keyword #f "bool") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))) bd-spec) (let* ((_o$6665 (keyword #f "private")) (_o$6666 #t)) (jolt-hash-map _o$6665 _o$6666)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "float-lit?" (letrec ((float-lit? (lambda (n) (let fnrec6709 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "float?") v) and__25__auto))) and__25__auto)))))) float-lit?) (let* ((_o$6710 (keyword #f "private")) (_o$6711 #t)) (jolt-hash-map _o$6710 _o$6711)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "dbl-spec" (letrec ((dbl-spec (lambda (nm n) (let fnrec6712 ((nm nm) (n n)) (if (let* ((and__25__auto (jolt-n>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6713 "+") (_o$6714 "-") (_o$6715 "*") (_o$6716 "/") (_o$6717 "min") (_o$6718 "max")) (jolt-hash-set _o$6713 _o$6714 _o$6715 _o$6716 _o$6717 _o$6718)) nm) and__25__auto)) (keyword #f "double") (if (let* ((and__25__auto (jolt= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6719 "inc") (_o$6720 "dec")) (jolt-hash-set _o$6719 _o$6720)) nm) and__25__auto)) (keyword #f "double") (if (let* ((and__25__auto (jolt-n>= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6721 "<") (_o$6722 ">") (_o$6723 "<=") (_o$6724 ">=") (_o$6725 "=") (_o$6726 "==")) (jolt-hash-set _o$6721 _o$6722 _o$6723 _o$6724 _o$6725 _o$6726)) nm) and__25__auto)) (keyword #f "bool") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))))) dbl-spec) (let* ((_o$6727 (keyword #f "private")) (_o$6728 #t)) (jolt-hash-map _o$6727 _o$6728)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "lng-spec" (letrec ((lng-spec (lambda (nm n) (let fnrec6729 ((nm nm) (n n)) (if (let* ((and__25__auto (jolt-n>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6730 "+") (_o$6731 "-") (_o$6732 "*") (_o$6733 "min") (_o$6734 "max") (_o$6735 "unchecked-add") (_o$6736 "unchecked-subtract") (_o$6737 "unchecked-multiply")) (jolt-hash-set _o$6730 _o$6731 _o$6732 _o$6733 _o$6734 _o$6735 _o$6736 _o$6737)) nm) and__25__auto)) (keyword #f "long") (if (let* ((and__25__auto (jolt= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6738 "inc") (_o$6739 "dec") (_o$6740 "unchecked-inc") (_o$6741 "unchecked-dec")) (jolt-hash-set _o$6738 _o$6739 _o$6740 _o$6741)) nm) and__25__auto)) (keyword #f "long") (if (let* ((and__25__auto (jolt= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6742 "quot") (_o$6743 "rem") (_o$6744 "mod")) (jolt-hash-set _o$6742 _o$6743 _o$6744)) nm) and__25__auto)) (keyword #f "long") (if (let* ((and__25__auto (jolt-n>= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6745 "<") (_o$6746 ">") (_o$6747 "<=") (_o$6748 ">=") (_o$6749 "=") (_o$6750 "==")) (jolt-hash-set _o$6745 _o$6746 _o$6747 _o$6748 _o$6749 _o$6750)) nm) and__25__auto)) (keyword #f "bool") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))) lng-spec) (let* ((_o$6751 (keyword #f "private")) (_o$6752 #t)) (jolt-hash-map _o$6751 _o$6752)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "bd-spec" (letrec ((bd-spec (lambda (nm n) (let fnrec6753 ((nm nm) (n n)) (if (let* ((and__25__auto (jolt-n>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6754 "+") (_o$6755 "-") (_o$6756 "*") (_o$6757 "/") (_o$6758 "min") (_o$6759 "max")) (jolt-hash-set _o$6754 _o$6755 _o$6756 _o$6757 _o$6758 _o$6759)) nm) and__25__auto)) (keyword #f "bigdec") (if (let* ((and__25__auto (jolt= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6760 "quot") (_o$6761 "rem")) (jolt-hash-set _o$6760 _o$6761)) nm) and__25__auto)) (keyword #f "bigdec") (if (let* ((and__25__auto (jolt= n 1))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6762 "zero?") (_o$6763 "pos?") (_o$6764 "neg?")) (jolt-hash-set _o$6762 _o$6763 _o$6764)) nm) and__25__auto)) (keyword #f "bool") (if (let* ((and__25__auto (jolt-n>= n 2))) (if (jolt-truthy? and__25__auto) (jolt-contains? (let* ((_o$6765 "<") (_o$6766 ">") (_o$6767 "<=") (_o$6768 ">=")) (jolt-hash-set _o$6765 _o$6766 _o$6767 _o$6768)) nm) and__25__auto)) (keyword #f "bool") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))) bd-spec) (let* ((_o$6769 (keyword #f "private")) (_o$6770 #t)) (jolt-hash-map _o$6769 _o$6770)))) -(guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "propagate" (letrec ((propagate (lambda (spec) (let fnrec6771 ((spec spec)) (if (jolt= spec (keyword #f "bool")) jolt-nil spec))))) propagate) (let* ((_o$6772 (keyword #f "private")) (_o$6773 #t)) (jolt-hash-map _o$6772 _o$6773)))) + (def-var-with-meta! "jolt.passes.numeric" "propagate" (letrec ((propagate (lambda (spec) (let fnrec6667 ((spec spec)) (if (jolt= spec (keyword #f "bool")) jolt-nil spec))))) propagate) (let* ((_o$6668 (keyword #f "private")) (_o$6669 #t)) (jolt-hash-map _o$6668 _o$6669)))) (guard (e (#t #f)) (declare-var! "jolt.passes.numeric" "an")) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "recur-kinds" (letrec ((recur-kinds (lambda (node tenv) (let fnrec6774 ((node node) (tenv tenv)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "recur")) (jolt-vector (let* ((_a$6776 (var-deref "clojure.core" "mapv")) (_a$6777 (lambda (a) (let fnrec6775 ((a a)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.numeric" "an") a tenv) 0)))) (_a$6778 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$6776 _a$6777 _a$6778))) (if (jolt= op (keyword #f "let")) (let* ((_a$6786 (jolt-get node (keyword #f "body"))) (_a$6787 (let* ((_a$6783 (lambda (te b) (let fnrec6779 ((te te) (b b)) (let* ((_a$6780 te) (_a$6781 (jolt-nth b 0)) (_a$6782 (jolt-nth (jolt-invoke (var-deref "jolt.passes.numeric" "an") (jolt-nth b 1) te) 0))) (jolt-assoc _a$6780 _a$6781 _a$6782))))) (_a$6784 tenv) (_a$6785 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6783 _a$6784 _a$6785)))) (recur-kinds _a$6786 _a$6787)) (if (jolt= op (keyword #f "if")) (let* ((_a$6788 (recur-kinds (jolt-get node (keyword #f "then")) tenv)) (_a$6789 (recur-kinds (jolt-get node (keyword #f "else")) tenv))) (jolt-concat _a$6788 _a$6789)) (if (jolt= op (keyword #f "do")) (recur-kinds (jolt-get node (keyword #f "ret")) tenv) (if (jolt-truthy? (keyword #f "else")) (jolt-vector) jolt-nil)))))))))) recur-kinds) (let* ((_o$6790 (keyword #f "private")) (_o$6791 #t)) (jolt-hash-map _o$6790 _o$6791)))) + (def-var-with-meta! "jolt.passes.numeric" "recur-kinds" (letrec ((recur-kinds (lambda (node tenv) (let fnrec6670 ((node node) (tenv tenv)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "recur")) (jolt-vector (let* ((_a$6672 (var-deref "clojure.core" "mapv")) (_a$6673 (lambda (a) (let fnrec6671 ((a a)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.numeric" "an") a tenv) 0)))) (_a$6674 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$6672 _a$6673 _a$6674))) (if (jolt= op (keyword #f "let")) (let* ((_a$6682 (jolt-get node (keyword #f "body"))) (_a$6683 (let* ((_a$6679 (lambda (te b) (let fnrec6675 ((te te) (b b)) (let* ((_a$6676 te) (_a$6677 (jolt-nth b 0)) (_a$6678 (jolt-nth (jolt-invoke (var-deref "jolt.passes.numeric" "an") (jolt-nth b 1) te) 0))) (jolt-assoc _a$6676 _a$6677 _a$6678))))) (_a$6680 tenv) (_a$6681 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6679 _a$6680 _a$6681)))) (recur-kinds _a$6682 _a$6683)) (if (jolt= op (keyword #f "if")) (let* ((_a$6684 (recur-kinds (jolt-get node (keyword #f "then")) tenv)) (_a$6685 (recur-kinds (jolt-get node (keyword #f "else")) tenv))) (jolt-concat _a$6684 _a$6685)) (if (jolt= op (keyword #f "do")) (recur-kinds (jolt-get node (keyword #f "ret")) tenv) (if (jolt-truthy? (keyword #f "else")) (jolt-vector) jolt-nil)))))))))) recur-kinds) (let* ((_o$6686 (keyword #f "private")) (_o$6687 #t)) (jolt-hash-map _o$6686 _o$6687)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "recur-arg-lists" (letrec ((recur-arg-lists (lambda (node) (let fnrec6792 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "recur")) (jolt-vector (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "let")) (recur-arg-lists (jolt-get node (keyword #f "body"))) (if (jolt= op (keyword #f "if")) (let* ((_a$6793 (recur-arg-lists (jolt-get node (keyword #f "then")))) (_a$6794 (recur-arg-lists (jolt-get node (keyword #f "else"))))) (jolt-concat _a$6793 _a$6794)) (if (jolt= op (keyword #f "do")) (recur-arg-lists (jolt-get node (keyword #f "ret"))) (if (jolt-truthy? (keyword #f "else")) (jolt-vector) jolt-nil)))))))))) recur-arg-lists) (let* ((_o$6795 (keyword #f "private")) (_o$6796 #t)) (jolt-hash-map _o$6795 _o$6796)))) + (def-var-with-meta! "jolt.passes.numeric" "recur-arg-lists" (letrec ((recur-arg-lists (lambda (node) (let fnrec6688 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "recur")) (jolt-vector (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "let")) (recur-arg-lists (jolt-get node (keyword #f "body"))) (if (jolt= op (keyword #f "if")) (let* ((_a$6689 (recur-arg-lists (jolt-get node (keyword #f "then")))) (_a$6690 (recur-arg-lists (jolt-get node (keyword #f "else"))))) (jolt-concat _a$6689 _a$6690)) (if (jolt= op (keyword #f "do")) (recur-arg-lists (jolt-get node (keyword #f "ret"))) (if (jolt-truthy? (keyword #f "else")) (jolt-vector) jolt-nil)))))))))) recur-arg-lists) (let* ((_o$6691 (keyword #f "private")) (_o$6692 #t)) (jolt-hash-map _o$6691 _o$6692)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "counter-step?" (letrec ((counter-step? (lambda (arg vname) (let fnrec6797 ((arg arg) (vname vname)) (if (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get arg (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= vname (jolt-get arg (keyword #f "name"))) and__25__auto)) #t (if (jolt= (keyword #f "invoke") (jolt-get arg (keyword #f "op"))) (let* ((f (jolt-get arg (keyword #f "fn"))) (as (jolt-get arg (keyword #f "args")))) (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (let* ((nm (jolt-get f (keyword #f "name"))) (v? (lambda (n) (let fnrec6798 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= vname (jolt-get n (keyword #f "name"))) and__25__auto)))))) (if (let* ((and__25__auto (jolt-contains? (let* ((_o$6799 "inc") (_o$6800 "dec") (_o$6801 "unchecked-inc") (_o$6802 "unchecked-dec")) (jolt-hash-set _o$6799 _o$6800 _o$6801 _o$6802)) nm))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count as)) and__25__auto)) (jolt-invoke v? (jolt-nth as 0)) (if (let* ((and__25__auto (jolt-contains? (let* ((_o$6803 "+") (_o$6804 "unchecked-add")) (jolt-hash-set _o$6803 _o$6804)) nm))) (if (jolt-truthy? and__25__auto) (jolt= 2 (jolt-count as)) and__25__auto)) (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke v? (jolt-nth as 0)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth as 1)) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt-invoke v? (jolt-nth as 1)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth as 0)) and__25__auto)))) (if (let* ((and__25__auto (jolt-contains? (let* ((_o$6805 "-") (_o$6806 "unchecked-subtract")) (jolt-hash-set _o$6805 _o$6806)) nm))) (if (jolt-truthy? and__25__auto) (jolt= 2 (jolt-count as)) and__25__auto)) (let* ((and__25__auto (jolt-invoke v? (jolt-nth as 0)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth as 1)) and__25__auto)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))) and__25__auto)) and__25__auto))) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))) counter-step?) (let* ((_o$6807 (keyword #f "private")) (_o$6808 #t)) (jolt-hash-map _o$6807 _o$6808)))) + (def-var-with-meta! "jolt.passes.numeric" "counter-step?" (letrec ((counter-step? (lambda (arg vname) (let fnrec6693 ((arg arg) (vname vname)) (if (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get arg (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= vname (jolt-get arg (keyword #f "name"))) and__25__auto)) #t (if (jolt= (keyword #f "invoke") (jolt-get arg (keyword #f "op"))) (let* ((f (jolt-get arg (keyword #f "fn"))) (as (jolt-get arg (keyword #f "args")))) (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (let* ((nm (jolt-get f (keyword #f "name"))) (v? (lambda (n) (let fnrec6694 ((n n)) (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= vname (jolt-get n (keyword #f "name"))) and__25__auto)))))) (if (let* ((and__25__auto (jolt-contains? (let* ((_o$6695 "inc") (_o$6696 "dec") (_o$6697 "unchecked-inc") (_o$6698 "unchecked-dec")) (jolt-hash-set _o$6695 _o$6696 _o$6697 _o$6698)) nm))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count as)) and__25__auto)) (jolt-invoke v? (jolt-nth as 0)) (if (let* ((and__25__auto (jolt-contains? (let* ((_o$6699 "+") (_o$6700 "unchecked-add")) (jolt-hash-set _o$6699 _o$6700)) nm))) (if (jolt-truthy? and__25__auto) (jolt= 2 (jolt-count as)) and__25__auto)) (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke v? (jolt-nth as 0)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth as 1)) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt-invoke v? (jolt-nth as 1)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth as 0)) and__25__auto)))) (if (let* ((and__25__auto (jolt-contains? (let* ((_o$6701 "-") (_o$6702 "unchecked-subtract")) (jolt-hash-set _o$6701 _o$6702)) nm))) (if (jolt-truthy? and__25__auto) (jolt= 2 (jolt-count as)) and__25__auto)) (let* ((and__25__auto (jolt-invoke v? (jolt-nth as 0)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth as 1)) and__25__auto)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))) and__25__auto)) and__25__auto))) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))) counter-step?) (let* ((_o$6703 (keyword #f "private")) (_o$6704 #t)) (jolt-hash-map _o$6703 _o$6704)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "loop-kinds" (letrec ((loop-kinds (lambda (names seed body tenv) (let fnrec6809 ((names names) (seed seed) (body body) (tenv tenv)) (let* ((cur seed) (iter 0)) (let loop6810 ((cur cur) (iter iter)) (if (jolt-n> iter (jolt-count names)) cur (let* ((te (let* ((_a$6815 (lambda (t i) (let fnrec6811 ((t t) (i i)) (let* ((_a$6812 t) (_a$6813 (jolt-nth names i)) (_a$6814 (jolt-nth cur i))) (jolt-assoc _a$6812 _a$6813 _a$6814))))) (_a$6816 tenv) (_a$6817 (jolt-range (jolt-count names)))) (jolt-reduce _a$6815 _a$6816 _a$6817))) (rks (jolt-invoke (var-deref "jolt.passes.numeric" "recur-kinds") body te)) (nxt (let* ((_a$6820 (var-deref "clojure.core" "mapv")) (_a$6821 (lambda (j) (let fnrec6818 ((j j)) (let* ((k (jolt-nth cur j))) (if (jolt-truthy? (let* ((and__25__auto k)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (rk) (let fnrec6819 ((rk rk)) (jolt= k (jolt-nth rk j)))) rks) and__25__auto))) k jolt-nil))))) (_a$6822 (jolt-range (jolt-count names)))) (jolt-invoke _a$6820 _a$6821 _a$6822)))) (if (jolt= nxt cur) cur (loop6810 nxt (jolt-inc iter))))))))))) loop-kinds) (let* ((_o$6823 (keyword #f "private")) (_o$6824 #t)) (jolt-hash-map _o$6823 _o$6824)))) + (def-var-with-meta! "jolt.passes.numeric" "loop-kinds" (letrec ((loop-kinds (lambda (names seed body tenv) (let fnrec6705 ((names names) (seed seed) (body body) (tenv tenv)) (let* ((cur seed) (iter 0)) (let loop6706 ((cur cur) (iter iter)) (if (> iter (jolt-count names)) cur (let* ((te (let* ((_a$6711 (lambda (t i) (let fnrec6707 ((t t) (i i)) (let* ((_a$6708 t) (_a$6709 (jolt-nth names i)) (_a$6710 (jolt-nth cur i))) (jolt-assoc _a$6708 _a$6709 _a$6710))))) (_a$6712 tenv) (_a$6713 (jolt-range (jolt-count names)))) (jolt-reduce _a$6711 _a$6712 _a$6713))) (rks (jolt-invoke (var-deref "jolt.passes.numeric" "recur-kinds") body te)) (nxt (let* ((_a$6716 (var-deref "clojure.core" "mapv")) (_a$6717 (lambda (j) (let fnrec6714 ((j j)) (let* ((k (jolt-nth cur j))) (if (jolt-truthy? (let* ((and__25__auto k)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (rk) (let fnrec6715 ((rk rk)) (jolt= k (jolt-nth rk j)))) rks) and__25__auto))) k jolt-nil))))) (_a$6718 (jolt-range (jolt-count names)))) (jolt-invoke _a$6716 _a$6717 _a$6718)))) (if (jolt= nxt cur) cur (loop6706 nxt (jolt-inc iter))))))))))) loop-kinds) (let* ((_o$6719 (keyword #f "private")) (_o$6720 #t)) (jolt-hash-map _o$6719 _o$6720)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "arity-env" (letrec ((arity-env (lambda (tenv a) (let fnrec6825 ((tenv tenv) (a a)) (let* ((nh (let* ((_a$6826 (jolt-hash-map)) (_a$6827 (jolt-get a (keyword #f "nhints")))) (jolt-into _a$6826 _a$6827))) (pe (let* ((_a$6829 (lambda (e p) (let fnrec6828 ((e e) (p p)) (jolt-assoc e p (jolt-get nh p))))) (_a$6830 tenv) (_a$6831 (jolt-get a (keyword #f "params")))) (jolt-reduce _a$6829 _a$6830 _a$6831)))) (if (jolt-truthy? (jolt-get a (keyword #f "rest"))) (jolt-assoc pe (jolt-get a (keyword #f "rest")) jolt-nil) pe)))))) arity-env) (let* ((_o$6832 (keyword #f "private")) (_o$6833 #t)) (jolt-hash-map _o$6832 _o$6833)))) + (def-var-with-meta! "jolt.passes.numeric" "arity-env" (letrec ((arity-env (lambda (tenv a) (let fnrec6721 ((tenv tenv) (a a)) (let* ((nh (let* ((_a$6722 (jolt-hash-map)) (_a$6723 (jolt-get a (keyword #f "nhints")))) (jolt-into _a$6722 _a$6723))) (pe (let* ((_a$6725 (lambda (e p) (let fnrec6724 ((e e) (p p)) (jolt-assoc e p (jolt-get nh p))))) (_a$6726 tenv) (_a$6727 (jolt-get a (keyword #f "params")))) (jolt-reduce _a$6725 _a$6726 _a$6727)))) (if (jolt-truthy? (jolt-get a (keyword #f "rest"))) (jolt-assoc pe (jolt-get a (keyword #f "rest")) jolt-nil) pe)))))) arity-env) (let* ((_o$6728 (keyword #f "private")) (_o$6729 #t)) (jolt-hash-map _o$6728 _o$6729)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "an-invoke" (letrec ((an-invoke (lambda (node tenv) (let fnrec6834 ((node node) (tenv tenv)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (nm (if (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__25__auto)) (jolt-get fnode (keyword #f "name")) jolt-nil)) (ars (let* ((_a$6836 (var-deref "clojure.core" "mapv")) (_a$6837 (lambda (a) (let fnrec6835 ((a a)) (jolt-invoke (var-deref "jolt.passes.numeric" "an") a tenv)))) (_a$6838 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$6836 _a$6837 _a$6838))) (argnodes (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6839 ((r r)) (jolt-nth r 1))) ars)) (node1 (jolt-assoc node (keyword #f "args") argnodes)) (n (jolt-count ars))) (if (jolt= (keyword #f "double") (jolt-get node (keyword #f "num-read"))) (let* ((_o$6840 (keyword #f "double")) (_o$6841 node1)) (jolt-vector _o$6840 _o$6841)) (if (jolt-truthy? (jolt-get fnode (keyword #f "num-ret"))) (let* ((_o$6842 (jolt-get fnode (keyword #f "num-ret"))) (_o$6843 node1)) (jolt-vector _o$6842 _o$6843)) (if (jolt-nil? nm) (let* ((_o$6844 jolt-nil) (_o$6845 node1)) (jolt-vector _o$6844 _o$6845)) (if (jolt-truthy? (keyword #f "else")) (let* ((cls (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6846 ((r r)) (let* ((k (jolt-nth r 0)) (nd (jolt-nth r 1))) (if (jolt= k (keyword #f "double")) (keyword #f "double") (if (jolt= k (keyword #f "long")) (keyword #f "long") (if (jolt= k (keyword #f "bigdec")) (keyword #f "bigdec") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") nd)) (keyword #f "wild") (if (jolt-truthy? (keyword #f "else")) (keyword #f "no") jolt-nil)))))))) ars)) (ok? (lambda (allowed need) (let fnrec6847 ((allowed allowed) (need need)) (let* ((and__25__auto (jolt-pos? n))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "every?") (lambda (c) (let fnrec6848 ((c c)) (let* ((or__26__auto (jolt= c (keyword #f "wild")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= c allowed))))) cls))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "some") (lambda (c) (let fnrec6849 ((c c)) (jolt= c need))) cls) and__25__auto)) and__25__auto))))) (ds (jolt-invoke (var-deref "jolt.passes.numeric" "dbl-spec") nm n)) (ls (jolt-invoke (var-deref "jolt.passes.numeric" "lng-spec") nm n)) (bs (jolt-invoke (var-deref "jolt.passes.numeric" "bd-spec") nm n))) (if (jolt-truthy? (let* ((and__25__auto ds)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke ok? (keyword #f "double") (keyword #f "double")))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-contains? (let* ((_o$6850 "min") (_o$6851 "max")) (jolt-hash-set _o$6850 _o$6851)) nm)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "every?") (lambda (c) (let fnrec6852 ((c c)) (jolt= c (keyword #f "double")))) cls))) and__25__auto)) and__25__auto))) (let* ((args_PRIME_ (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (nd) (let fnrec6853 ((nd nd)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") nd)) (jolt-assoc nd (keyword #f "val") (jolt-invoke (var-deref "clojure.core" "double") (jolt-get nd (keyword #f "val")))) nd))) argnodes))) (let* ((_o$6854 (jolt-invoke (var-deref "jolt.passes.numeric" "propagate") ds)) (_o$6855 (jolt-assoc node1 (keyword #f "args") args_PRIME_ (keyword #f "num-kind") (keyword #f "double")))) (jolt-vector _o$6854 _o$6855))) (if (jolt-truthy? (let* ((and__25__auto ls)) (if (jolt-truthy? and__25__auto) (jolt-invoke ok? (keyword #f "long") (keyword #f "long")) and__25__auto))) (let* ((_o$6856 (jolt-invoke (var-deref "jolt.passes.numeric" "propagate") ls)) (_o$6857 (jolt-assoc node1 (keyword #f "num-kind") (keyword #f "long")))) (jolt-vector _o$6856 _o$6857)) (if (jolt-truthy? (let* ((and__25__auto bs)) (if (jolt-truthy? and__25__auto) (jolt-invoke ok? (keyword #f "bigdec") (keyword #f "bigdec")) and__25__auto))) (let* ((_o$6858 (jolt-invoke (var-deref "jolt.passes.numeric" "propagate") bs)) (_o$6859 (jolt-assoc node1 (keyword #f "num-kind") (keyword #f "bigdec")))) (jolt-vector _o$6858 _o$6859)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6860 jolt-nil) (_o$6861 node1)) (jolt-vector _o$6860 _o$6861)) jolt-nil))))) jolt-nil))))))))) an-invoke) (let* ((_o$6862 (keyword #f "private")) (_o$6863 #t) (_o$6864 (keyword #f "doc")) (_o$6865 "Annotate an :invoke with its numeric kind. An arithmetic core op specializes to\n the Chez fl*/fx* op only when every operand is the same kind (:double or :long),\n except an integer literal is :wild \x2014; valid in either \x2014; so (+ ^double x 2) stays\n double. A call to a ^double/^long-returning var yields that kind without lowering\n the call (its body already coerces the return).")) (jolt-hash-map _o$6862 _o$6863 _o$6864 _o$6865)))) + (def-var-with-meta! "jolt.passes.numeric" "an-invoke" (letrec ((an-invoke (lambda (node tenv) (let fnrec6730 ((node node) (tenv tenv)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (nm (if (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__25__auto)) (jolt-get fnode (keyword #f "name")) jolt-nil)) (ars (let* ((_a$6732 (var-deref "clojure.core" "mapv")) (_a$6733 (lambda (a) (let fnrec6731 ((a a)) (jolt-invoke (var-deref "jolt.passes.numeric" "an") a tenv)))) (_a$6734 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$6732 _a$6733 _a$6734))) (argnodes (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6735 ((r r)) (jolt-nth r 1))) ars)) (node1 (jolt-assoc node (keyword #f "args") argnodes)) (n (jolt-count ars))) (if (jolt= (keyword #f "double") (jolt-get node (keyword #f "num-read"))) (let* ((_o$6736 (keyword #f "double")) (_o$6737 node1)) (jolt-vector _o$6736 _o$6737)) (if (jolt-truthy? (jolt-get fnode (keyword #f "num-ret"))) (let* ((_o$6738 (jolt-get fnode (keyword #f "num-ret"))) (_o$6739 node1)) (jolt-vector _o$6738 _o$6739)) (if (jolt-nil? nm) (let* ((_o$6740 jolt-nil) (_o$6741 node1)) (jolt-vector _o$6740 _o$6741)) (if (jolt-truthy? (keyword #f "else")) (let* ((cls (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6742 ((r r)) (let* ((k (jolt-nth r 0)) (nd (jolt-nth r 1))) (if (jolt= k (keyword #f "double")) (keyword #f "double") (if (jolt= k (keyword #f "long")) (keyword #f "long") (if (jolt= k (keyword #f "bigdec")) (keyword #f "bigdec") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") nd)) (keyword #f "wild") (if (jolt-truthy? (keyword #f "else")) (keyword #f "no") jolt-nil)))))))) ars)) (ok? (lambda (allowed need) (let fnrec6743 ((allowed allowed) (need need)) (let* ((and__25__auto (jolt-pos? n))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "every?") (lambda (c) (let fnrec6744 ((c c)) (let* ((or__26__auto (jolt= c (keyword #f "wild")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= c allowed))))) cls))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "some") (lambda (c) (let fnrec6745 ((c c)) (jolt= c need))) cls) and__25__auto)) and__25__auto))))) (ds (jolt-invoke (var-deref "jolt.passes.numeric" "dbl-spec") nm n)) (ls (jolt-invoke (var-deref "jolt.passes.numeric" "lng-spec") nm n)) (bs (jolt-invoke (var-deref "jolt.passes.numeric" "bd-spec") nm n))) (if (jolt-truthy? (let* ((and__25__auto ds)) (if (jolt-truthy? and__25__auto) (jolt-invoke ok? (keyword #f "double") (keyword #f "double")) and__25__auto))) (let* ((args_PRIME_ (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (nd) (let fnrec6746 ((nd nd)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") nd)) (jolt-assoc nd (keyword #f "val") (jolt-invoke (var-deref "clojure.core" "double") (jolt-get nd (keyword #f "val")))) nd))) argnodes))) (let* ((_o$6747 (jolt-invoke (var-deref "jolt.passes.numeric" "propagate") ds)) (_o$6748 (jolt-assoc node1 (keyword #f "args") args_PRIME_ (keyword #f "num-kind") (keyword #f "double")))) (jolt-vector _o$6747 _o$6748))) (if (jolt-truthy? (let* ((and__25__auto ls)) (if (jolt-truthy? and__25__auto) (jolt-invoke ok? (keyword #f "long") (keyword #f "long")) and__25__auto))) (let* ((_o$6749 (jolt-invoke (var-deref "jolt.passes.numeric" "propagate") ls)) (_o$6750 (jolt-assoc node1 (keyword #f "num-kind") (keyword #f "long")))) (jolt-vector _o$6749 _o$6750)) (if (jolt-truthy? (let* ((and__25__auto bs)) (if (jolt-truthy? and__25__auto) (jolt-invoke ok? (keyword #f "bigdec") (keyword #f "bigdec")) and__25__auto))) (let* ((_o$6751 (jolt-invoke (var-deref "jolt.passes.numeric" "propagate") bs)) (_o$6752 (jolt-assoc node1 (keyword #f "num-kind") (keyword #f "bigdec")))) (jolt-vector _o$6751 _o$6752)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6753 jolt-nil) (_o$6754 node1)) (jolt-vector _o$6753 _o$6754)) jolt-nil))))) jolt-nil))))))))) an-invoke) (let* ((_o$6755 (keyword #f "private")) (_o$6756 #t) (_o$6757 (keyword #f "doc")) (_o$6758 "Annotate an :invoke with its numeric kind. An arithmetic core op specializes to\n the Chez fl*/fx* op only when every operand is the same kind (:double or :long),\n except an integer literal is :wild \x2014; valid in either \x2014; so (+ ^double x 2) stays\n double. A call to a ^double/^long-returning var yields that kind without lowering\n the call (its body already coerces the return).")) (jolt-hash-map _o$6755 _o$6756 _o$6757 _o$6758)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "an" (letrec ((an (lambda (node tenv) (let fnrec6866 ((node node) (tenv tenv)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "const")) (let* ((_o$6867 (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.numeric" "float-lit?") node)) (keyword #f "double") jolt-nil)) (_o$6868 node)) (jolt-vector _o$6867 _o$6868)) (if (jolt= op (keyword #f "bigdec")) (let* ((_o$6869 (keyword #f "bigdec")) (_o$6870 node)) (jolt-vector _o$6869 _o$6870)) (if (jolt= op (keyword #f "local")) (let* ((_o$6871 (jolt-get tenv (jolt-get node (keyword #f "name")))) (_o$6872 node)) (jolt-vector _o$6871 _o$6872)) (if (jolt= op (keyword #f "coerce")) (let* ((_o$6873 (jolt-get node (keyword #f "kind"))) (_o$6874 (jolt-assoc node (keyword #f "expr") (jolt-nth (an (jolt-get node (keyword #f "expr")) tenv) 1)))) (jolt-vector _o$6873 _o$6874)) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.numeric" "an-invoke") node tenv) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6885 (lambda (acc b) (let fnrec6875 ((acc acc) (b b)) (let* ((te (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (ir (an (jolt-nth b 1) te))) (let* ((_o$6881 (let* ((_a$6876 te) (_a$6877 (jolt-nth b 0)) (_a$6878 (jolt-nth ir 0))) (jolt-assoc _a$6876 _a$6877 _a$6878))) (_o$6882 (jolt-conj binds (let* ((_o$6879 (jolt-nth b 0)) (_o$6880 (jolt-nth ir 1))) (jolt-vector _o$6879 _o$6880))))) (jolt-vector _o$6881 _o$6882)))))) (_a$6886 (let* ((_o$6883 tenv) (_o$6884 (jolt-vector))) (jolt-vector _o$6883 _o$6884))) (_a$6887 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6885 _a$6886 _a$6887))) (br (let* ((_a$6888 (jolt-get node (keyword #f "body"))) (_a$6889 (jolt-nth res 0))) (an _a$6888 _a$6889)))) (let* ((_o$6895 (jolt-nth br 0)) (_o$6896 (let* ((_a$6890 node) (_a$6891 (keyword #f "bindings")) (_a$6892 (jolt-nth res 1)) (_a$6893 (keyword #f "body")) (_a$6894 (jolt-nth br 1))) (jolt-assoc _a$6890 _a$6891 _a$6892 _a$6893 _a$6894)))) (jolt-vector _o$6895 _o$6896))) (if (jolt= op (keyword #f "loop")) (let* ((binds (jolt-get node (keyword #f "bindings"))) (names (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (b) (let fnrec6897 ((b b)) (jolt-nth b 0))) binds)) (ik (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (b) (let fnrec6898 ((b b)) (jolt-nth (an (jolt-nth b 1) tenv) 0))) binds)) (rlists (jolt-invoke (var-deref "jolt.passes.numeric" "recur-arg-lists") (jolt-get node (keyword #f "body")))) (seed (let* ((_a$6904 (var-deref "clojure.core" "mapv")) (_a$6905 (lambda (j) (let fnrec6899 ((j j)) (let* ((k (jolt-nth ik j)) (b (jolt-nth binds j))) (if (jolt-truthy? k) k (if (jolt-truthy? (let* ((and__25__auto (jolt-seq rlists))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth b 1)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (args) (let fnrec6900 ((args args)) (let* ((_a$6901 (var-deref "jolt.passes.numeric" "counter-step?")) (_a$6902 (jolt-nth args j)) (_a$6903 (jolt-nth b 0))) (jolt-invoke _a$6901 _a$6902 _a$6903)))) rlists) and__25__auto)) and__25__auto))) (keyword #f "long") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) (_a$6906 (jolt-range (jolt-count names)))) (jolt-invoke _a$6904 _a$6905 _a$6906))) (lk (jolt-invoke (var-deref "jolt.passes.numeric" "loop-kinds") names seed (jolt-get node (keyword #f "body")) tenv)) (te (let* ((_a$6911 (lambda (t i) (let fnrec6907 ((t t) (i i)) (let* ((_a$6908 t) (_a$6909 (jolt-nth names i)) (_a$6910 (jolt-nth lk i))) (jolt-assoc _a$6908 _a$6909 _a$6910))))) (_a$6912 tenv) (_a$6913 (jolt-range (jolt-count names)))) (jolt-reduce _a$6911 _a$6912 _a$6913)))) (let* ((_o$6922 jolt-nil) (_o$6923 (let* ((_a$6917 node) (_a$6918 (keyword #f "bindings")) (_a$6919 (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (b) (let fnrec6914 ((b b)) (let* ((_o$6915 (jolt-nth b 0)) (_o$6916 (jolt-nth (an (jolt-nth b 1) tenv) 1))) (jolt-vector _o$6915 _o$6916)))) binds)) (_a$6920 (keyword #f "body")) (_a$6921 (jolt-nth (an (jolt-get node (keyword #f "body")) te) 1))) (jolt-assoc _a$6917 _a$6918 _a$6919 _a$6920 _a$6921)))) (jolt-vector _o$6922 _o$6923))) (if (jolt= op (keyword #f "if")) (let* ((tr (an (jolt-get node (keyword #f "test")) tenv)) (thn (an (jolt-get node (keyword #f "then")) tenv)) (els (an (jolt-get node (keyword #f "else")) tenv)) (tk (jolt-nth thn 0)) (ek (jolt-nth els 0))) (let* ((_o$6931 (if (jolt= tk ek) tk jolt-nil)) (_o$6932 (let* ((_a$6924 node) (_a$6925 (keyword #f "test")) (_a$6926 (jolt-nth tr 1)) (_a$6927 (keyword #f "then")) (_a$6928 (jolt-nth thn 1)) (_a$6929 (keyword #f "else")) (_a$6930 (jolt-nth els 1))) (jolt-assoc _a$6924 _a$6925 _a$6926 _a$6927 _a$6928 _a$6929 _a$6930)))) (jolt-vector _o$6931 _o$6932))) (if (jolt= op (keyword #f "do")) (let* ((stmts (let* ((_a$6934 (var-deref "clojure.core" "mapv")) (_a$6935 (lambda (s) (let fnrec6933 ((s s)) (jolt-nth (an s tenv) 1)))) (_a$6936 (jolt-get node (keyword #f "statements")))) (jolt-invoke _a$6934 _a$6935 _a$6936))) (r (an (jolt-get node (keyword #f "ret")) tenv))) (let* ((_o$6937 (jolt-nth r 0)) (_o$6938 (jolt-assoc node (keyword #f "statements") stmts (keyword #f "ret") (jolt-nth r 1)))) (jolt-vector _o$6937 _o$6938))) (if (jolt= op (keyword #f "fn")) (let* ((_o$6945 jolt-nil) (_o$6946 (jolt-assoc node (keyword #f "arities") (let* ((_a$6942 (var-deref "clojure.core" "mapv")) (_a$6943 (lambda (a) (let fnrec6939 ((a a)) (jolt-assoc a (keyword #f "body") (jolt-nth (let* ((_a$6940 (jolt-get a (keyword #f "body"))) (_a$6941 (jolt-invoke (var-deref "jolt.passes.numeric" "arity-env") tenv a))) (an _a$6940 _a$6941)) 1))))) (_a$6944 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$6942 _a$6943 _a$6944))))) (jolt-vector _o$6945 _o$6946)) (if (jolt= op (keyword #f "def")) (let* ((_o$6947 jolt-nil) (_o$6948 (jolt-assoc node (keyword #f "init") (jolt-nth (an (jolt-get node (keyword #f "init")) tenv) 1)))) (jolt-vector _o$6947 _o$6948)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6950 jolt-nil) (_o$6951 (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec6949 ((c c)) (jolt-nth (an c tenv) 1))) node))) (jolt-vector _o$6950 _o$6951)) jolt-nil))))))))))))))))) an) (let* ((_o$6952 (keyword #f "private")) (_o$6953 #t)) (jolt-hash-map _o$6952 _o$6953)))) + (def-var-with-meta! "jolt.passes.numeric" "an" (letrec ((an (lambda (node tenv) (let fnrec6759 ((node node) (tenv tenv)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "const")) (let* ((_o$6760 (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.numeric" "float-lit?") node)) (keyword #f "double") jolt-nil)) (_o$6761 node)) (jolt-vector _o$6760 _o$6761)) (if (jolt= op (keyword #f "bigdec")) (let* ((_o$6762 (keyword #f "bigdec")) (_o$6763 node)) (jolt-vector _o$6762 _o$6763)) (if (jolt= op (keyword #f "local")) (let* ((_o$6764 (jolt-get tenv (jolt-get node (keyword #f "name")))) (_o$6765 node)) (jolt-vector _o$6764 _o$6765)) (if (jolt= op (keyword #f "coerce")) (let* ((_o$6766 (jolt-get node (keyword #f "kind"))) (_o$6767 (jolt-assoc node (keyword #f "expr") (jolt-nth (an (jolt-get node (keyword #f "expr")) tenv) 1)))) (jolt-vector _o$6766 _o$6767)) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.numeric" "an-invoke") node tenv) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6778 (lambda (acc b) (let fnrec6768 ((acc acc) (b b)) (let* ((te (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (ir (an (jolt-nth b 1) te))) (let* ((_o$6774 (let* ((_a$6769 te) (_a$6770 (jolt-nth b 0)) (_a$6771 (jolt-nth ir 0))) (jolt-assoc _a$6769 _a$6770 _a$6771))) (_o$6775 (jolt-conj binds (let* ((_o$6772 (jolt-nth b 0)) (_o$6773 (jolt-nth ir 1))) (jolt-vector _o$6772 _o$6773))))) (jolt-vector _o$6774 _o$6775)))))) (_a$6779 (let* ((_o$6776 tenv) (_o$6777 (jolt-vector))) (jolt-vector _o$6776 _o$6777))) (_a$6780 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6778 _a$6779 _a$6780))) (br (let* ((_a$6781 (jolt-get node (keyword #f "body"))) (_a$6782 (jolt-nth res 0))) (an _a$6781 _a$6782)))) (let* ((_o$6788 (jolt-nth br 0)) (_o$6789 (let* ((_a$6783 node) (_a$6784 (keyword #f "bindings")) (_a$6785 (jolt-nth res 1)) (_a$6786 (keyword #f "body")) (_a$6787 (jolt-nth br 1))) (jolt-assoc _a$6783 _a$6784 _a$6785 _a$6786 _a$6787)))) (jolt-vector _o$6788 _o$6789))) (if (jolt= op (keyword #f "loop")) (let* ((binds (jolt-get node (keyword #f "bindings"))) (names (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (b) (let fnrec6790 ((b b)) (jolt-nth b 0))) binds)) (ik (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (b) (let fnrec6791 ((b b)) (jolt-nth (an (jolt-nth b 1) tenv) 0))) binds)) (rlists (jolt-invoke (var-deref "jolt.passes.numeric" "recur-arg-lists") (jolt-get node (keyword #f "body")))) (seed (let* ((_a$6797 (var-deref "clojure.core" "mapv")) (_a$6798 (lambda (j) (let fnrec6792 ((j j)) (let* ((k (jolt-nth ik j)) (b (jolt-nth binds j))) (if (jolt-truthy? k) k (if (jolt-truthy? (let* ((and__25__auto (jolt-seq rlists))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.numeric" "int-lit?") (jolt-nth b 1)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (args) (let fnrec6793 ((args args)) (let* ((_a$6794 (var-deref "jolt.passes.numeric" "counter-step?")) (_a$6795 (jolt-nth args j)) (_a$6796 (jolt-nth b 0))) (jolt-invoke _a$6794 _a$6795 _a$6796)))) rlists) and__25__auto)) and__25__auto))) (keyword #f "long") (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) (_a$6799 (jolt-range (jolt-count names)))) (jolt-invoke _a$6797 _a$6798 _a$6799))) (lk (jolt-invoke (var-deref "jolt.passes.numeric" "loop-kinds") names seed (jolt-get node (keyword #f "body")) tenv)) (te (let* ((_a$6804 (lambda (t i) (let fnrec6800 ((t t) (i i)) (let* ((_a$6801 t) (_a$6802 (jolt-nth names i)) (_a$6803 (jolt-nth lk i))) (jolt-assoc _a$6801 _a$6802 _a$6803))))) (_a$6805 tenv) (_a$6806 (jolt-range (jolt-count names)))) (jolt-reduce _a$6804 _a$6805 _a$6806)))) (let* ((_o$6815 jolt-nil) (_o$6816 (let* ((_a$6810 node) (_a$6811 (keyword #f "bindings")) (_a$6812 (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (b) (let fnrec6807 ((b b)) (let* ((_o$6808 (jolt-nth b 0)) (_o$6809 (jolt-nth (an (jolt-nth b 1) tenv) 1))) (jolt-vector _o$6808 _o$6809)))) binds)) (_a$6813 (keyword #f "body")) (_a$6814 (jolt-nth (an (jolt-get node (keyword #f "body")) te) 1))) (jolt-assoc _a$6810 _a$6811 _a$6812 _a$6813 _a$6814)))) (jolt-vector _o$6815 _o$6816))) (if (jolt= op (keyword #f "if")) (let* ((tr (an (jolt-get node (keyword #f "test")) tenv)) (thn (an (jolt-get node (keyword #f "then")) tenv)) (els (an (jolt-get node (keyword #f "else")) tenv)) (tk (jolt-nth thn 0)) (ek (jolt-nth els 0))) (let* ((_o$6824 (if (jolt= tk ek) tk jolt-nil)) (_o$6825 (let* ((_a$6817 node) (_a$6818 (keyword #f "test")) (_a$6819 (jolt-nth tr 1)) (_a$6820 (keyword #f "then")) (_a$6821 (jolt-nth thn 1)) (_a$6822 (keyword #f "else")) (_a$6823 (jolt-nth els 1))) (jolt-assoc _a$6817 _a$6818 _a$6819 _a$6820 _a$6821 _a$6822 _a$6823)))) (jolt-vector _o$6824 _o$6825))) (if (jolt= op (keyword #f "do")) (let* ((stmts (let* ((_a$6827 (var-deref "clojure.core" "mapv")) (_a$6828 (lambda (s) (let fnrec6826 ((s s)) (jolt-nth (an s tenv) 1)))) (_a$6829 (jolt-get node (keyword #f "statements")))) (jolt-invoke _a$6827 _a$6828 _a$6829))) (r (an (jolt-get node (keyword #f "ret")) tenv))) (let* ((_o$6830 (jolt-nth r 0)) (_o$6831 (jolt-assoc node (keyword #f "statements") stmts (keyword #f "ret") (jolt-nth r 1)))) (jolt-vector _o$6830 _o$6831))) (if (jolt= op (keyword #f "fn")) (let* ((_o$6838 jolt-nil) (_o$6839 (jolt-assoc node (keyword #f "arities") (let* ((_a$6835 (var-deref "clojure.core" "mapv")) (_a$6836 (lambda (a) (let fnrec6832 ((a a)) (jolt-assoc a (keyword #f "body") (jolt-nth (let* ((_a$6833 (jolt-get a (keyword #f "body"))) (_a$6834 (jolt-invoke (var-deref "jolt.passes.numeric" "arity-env") tenv a))) (an _a$6833 _a$6834)) 1))))) (_a$6837 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$6835 _a$6836 _a$6837))))) (jolt-vector _o$6838 _o$6839)) (if (jolt= op (keyword #f "def")) (let* ((_o$6840 jolt-nil) (_o$6841 (jolt-assoc node (keyword #f "init") (jolt-nth (an (jolt-get node (keyword #f "init")) tenv) 1)))) (jolt-vector _o$6840 _o$6841)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6843 jolt-nil) (_o$6844 (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec6842 ((c c)) (jolt-nth (an c tenv) 1))) node))) (jolt-vector _o$6843 _o$6844)) jolt-nil))))))))))))))))) an) (let* ((_o$6845 (keyword #f "private")) (_o$6846 #t)) (jolt-hash-map _o$6845 _o$6846)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.numeric" "annotate" (letrec ((annotate (lambda (node) (let fnrec6954 ((node node)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.numeric" "an") node (jolt-hash-map)) 1))))) annotate) (let* ((_o$6955 (keyword #f "doc")) (_o$6956 "Tag arithmetic nodes with :num-kind from local numeric type-flow. Returns the\n rewritten IR (no kind escapes to the caller).")) (jolt-hash-map _o$6955 _o$6956)))) + (def-var-with-meta! "jolt.passes.numeric" "annotate" (letrec ((annotate (lambda (node) (let fnrec6847 ((node node)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.numeric" "an") node (jolt-hash-map)) 1))))) annotate) (let* ((_o$6848 (keyword #f "doc")) (_o$6849 "Tag arithmetic nodes with :num-kind from local numeric type-flow. Returns the\n rewritten IR (no kind escapes to the caller).")) (jolt-hash-map _o$6848 _o$6849)))) (guard (e (#t #f)) (def-var! "jolt.passes.inline" "dirty" (jolt-invoke (var-deref "clojure.core" "atom") #f))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "mark!" (letrec ((mark! (lambda () (let fnrec6957 () (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "dirty") #t))))) mark!) (let* ((_o$6958 (keyword #f "private")) (_o$6959 #t)) (jolt-hash-map _o$6958 _o$6959)))) + (def-var-with-meta! "jolt.passes.inline" "mark!" (letrec ((mark! (lambda () (let fnrec6850 () (jolt-invoke (var-deref "clojure.core" "reset!") 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(let* ((_o$6963 (keyword #f "doc")) (_o$6964 "Install the record-ctor shape registry the record fold consults.")) (jolt-hash-map _o$6963 _o$6964)))) + (def-var-with-meta! "jolt.passes.inline" "set-rec-shapes!" (letrec ((set-rec-shapes! (lambda (m) (let fnrec6855 ((m m)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "rec-shapes") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-rec-shapes!) (let* ((_o$6856 (keyword #f "doc")) (_o$6857 "Install the record-ctor shape registry the record fold consults.")) (jolt-hash-map _o$6856 _o$6857)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "fresh-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (let* ((_o$6965 (keyword #f "private")) (_o$6966 #t)) (jolt-hash-map _o$6965 _o$6966)))) + (def-var-with-meta! 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(var-deref "jolt.passes.inline" "fresh-counter") jolt-inc) (jolt-invoke (var-deref "clojure.core" "str") base "__il" n))))))) fresh) (let* ((_o$6861 (keyword #f "private")) (_o$6862 #t)) (jolt-hash-map _o$6861 _o$6862)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "safe-op?" (letrec ((safe-op? (lambda (op) (let fnrec6970 ((op op)) (let* ((or__26__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "local")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "var")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "host")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "the-var")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "quote")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "if")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "do")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "let")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "invoke")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "map")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "vector")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "set")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "throw")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "coerce")))))))))))))))))))))))))))))))))) safe-op?) (let* ((_o$6971 (keyword #f "private")) (_o$6972 #t)) (jolt-hash-map _o$6971 _o$6972)))) + (def-var-with-meta! "jolt.passes.inline" "safe-op?" (letrec ((safe-op? (lambda (op) (let fnrec6863 ((op op)) (let* ((or__26__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "local")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "var")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "host")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "the-var")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "quote")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "if")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "do")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "let")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "invoke")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "map")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "vector")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "set")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= op (keyword #f "throw")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "coerce")))))))))))))))))))))))))))))))))) safe-op?) (let* ((_o$6864 (keyword #f "private")) (_o$6865 #t)) (jolt-hash-map _o$6864 _o$6865)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "inline-budget" 120 (let* ((_o$6973 (keyword #f "private")) (_o$6974 #t)) (jolt-hash-map _o$6973 _o$6974)))) + (def-var-with-meta! "jolt.passes.inline" "inline-budget" 120 (let* ((_o$6866 (keyword #f "private")) (_o$6867 #t)) (jolt-hash-map _o$6866 _o$6867)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "body-size" (letrec ((body-size (lambda (node) (let fnrec6975 ((node node)) (if (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") (jolt-get node (keyword #f "op")))) 100000 (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (acc c) (let fnrec6976 ((acc acc) (c c)) (jolt-n+ acc (body-size c)))) 1 node)))))) body-size) (let* ((_o$6977 (keyword #f "private")) (_o$6978 #t) (_o$6979 (keyword #f "doc")) (_o$6980 "Node count of an inline-eligible body. A disallowed op contributes a number\n larger than any budget, so the caller's (<= size budget) test fails and we\n never try to inline (or alpha-rename) such a body. Only reached for safe ops,\n so the shared child fold covers it exactly (leaves fold to 1).")) (jolt-hash-map _o$6977 _o$6978 _o$6979 _o$6980)))) + (def-var-with-meta! "jolt.passes.inline" "body-size" (letrec ((body-size (lambda (node) (let fnrec6868 ((node node)) (if (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") (jolt-get node (keyword #f "op")))) 100000 (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (acc c) (let fnrec6869 ((acc acc) (c c)) (+ acc (body-size c)))) 1 node)))))) body-size) (let* ((_o$6870 (keyword #f "private")) (_o$6871 #t) (_o$6872 (keyword #f "doc")) (_o$6873 "Node count of an inline-eligible body. A disallowed op contributes a number\n larger than any budget, so the caller's (<= size budget) test fails and we\n never try to inline (or alpha-rename) such a body. Only reached for safe ops,\n so the shared child fold covers it exactly (leaves fold to 1).")) (jolt-hash-map _o$6870 _o$6871 _o$6872 _o$6873)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "subst" (letrec ((subst (lambda (node env) (let fnrec6981 ((node node) (env env)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "local")) (let* ((r (jolt-get env (jolt-get node (keyword #f "name"))))) (if (jolt-truthy? r) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get r (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get node (keyword #f "hint")))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get r (keyword #f "hint"))) and__25__auto)) and__25__auto))) (jolt-assoc r (keyword #f "hint") (jolt-get node (keyword #f "hint"))) r) node)) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6993 (lambda (acc b) (let fnrec6982 ((acc acc) (b b)) (let* ((e (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (nm (jolt-nth b 0)) (init (subst (jolt-nth b 1) e)) (f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") nm))) (let* ((_o$6989 (jolt-assoc e nm (let* ((_o$6983 (keyword #f "op")) (_o$6984 (keyword #f "local")) (_o$6985 (keyword #f "name")) (_o$6986 f)) (jolt-hash-map _o$6983 _o$6984 _o$6985 _o$6986)))) (_o$6990 (jolt-conj binds (let* ((_o$6987 f) (_o$6988 init)) (jolt-vector _o$6987 _o$6988))))) (jolt-vector _o$6989 _o$6990)))))) (_a$6994 (let* ((_o$6991 env) (_o$6992 (jolt-vector))) (jolt-vector _o$6991 _o$6992))) (_a$6995 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6993 _a$6994 _a$6995)))) (let* ((_a$6998 node) (_a$6999 (keyword #f "bindings")) (_a$7000 (jolt-nth res 1)) (_a$7001 (keyword #f "body")) (_a$7002 (let* ((_a$6996 (jolt-get node (keyword #f "body"))) (_a$6997 (jolt-nth res 0))) (subst _a$6996 _a$6997)))) (jolt-assoc _a$6998 _a$6999 _a$7000 _a$7001 _a$7002))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7003 ((c c)) (subst c env))) node) jolt-nil)))))))) subst) (let* ((_o$7004 (keyword #f "private")) (_o$7005 #t) (_o$7006 (keyword #f "doc")) (_o$7007 "Substitute locals in node per env (a map name -> replacement IR node), and\n alpha-rename every inner :let binder to a globally fresh name (so the spliced\n body shares no name with the caller). env seeds the params: a trivial arg\n (local/const) maps a param straight to the arg node (copy propagation \x2014; this\n is what lets scalar-replace see a map-literal arg through the call boundary);\n a non-trivial arg maps the param to a fresh :local that a wrapping let binds.")) (jolt-hash-map _o$7004 _o$7005 _o$7006 _o$7007)))) + (def-var-with-meta! "jolt.passes.inline" "subst" (letrec ((subst (lambda (node env) (let fnrec6874 ((node node) (env env)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "local")) (let* ((r (jolt-get env (jolt-get node (keyword #f "name"))))) (if (jolt-truthy? r) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get r (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get node (keyword #f "hint")))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get r (keyword #f "hint"))) and__25__auto)) and__25__auto))) (jolt-assoc r (keyword #f "hint") (jolt-get node (keyword #f "hint"))) r) node)) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6886 (lambda (acc b) (let fnrec6875 ((acc acc) (b b)) (let* ((e (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (nm (jolt-nth b 0)) (init (subst (jolt-nth b 1) e)) (f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") nm))) (let* ((_o$6882 (jolt-assoc e nm (let* ((_o$6876 (keyword #f "op")) (_o$6877 (keyword #f "local")) (_o$6878 (keyword #f "name")) (_o$6879 f)) (jolt-hash-map _o$6876 _o$6877 _o$6878 _o$6879)))) (_o$6883 (jolt-conj binds (let* ((_o$6880 f) (_o$6881 init)) (jolt-vector _o$6880 _o$6881))))) (jolt-vector _o$6882 _o$6883)))))) (_a$6887 (let* ((_o$6884 env) (_o$6885 (jolt-vector))) (jolt-vector _o$6884 _o$6885))) (_a$6888 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6886 _a$6887 _a$6888)))) (let* ((_a$6891 node) (_a$6892 (keyword #f "bindings")) (_a$6893 (jolt-nth res 1)) (_a$6894 (keyword #f "body")) (_a$6895 (let* ((_a$6889 (jolt-get node (keyword #f "body"))) (_a$6890 (jolt-nth res 0))) (subst _a$6889 _a$6890)))) (jolt-assoc _a$6891 _a$6892 _a$6893 _a$6894 _a$6895))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec6896 ((c c)) (subst c env))) node) jolt-nil)))))))) subst) (let* ((_o$6897 (keyword #f "private")) (_o$6898 #t) (_o$6899 (keyword #f "doc")) (_o$6900 "Substitute locals in node per env (a map name -> replacement IR node), and\n alpha-rename every inner :let binder to a globally fresh name (so the spliced\n body shares no name with the caller). env seeds the params: a trivial arg\n (local/const) maps a param straight to the arg node (copy propagation \x2014; this\n is what lets scalar-replace see a map-literal arg through the call boundary);\n a non-trivial arg maps the param to a fresh :local that a wrapping let binds.")) (jolt-hash-map _o$6897 _o$6898 _o$6899 _o$6900)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "trivial-arg?" (letrec ((trivial-arg? (lambda (n) (let fnrec7008 ((n n)) (let* ((op (jolt-get n (keyword #f "op")))) (let* ((or__26__auto (jolt= op (keyword #f "local")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "const"))))))))) trivial-arg?) (let* ((_o$7009 (keyword #f "private")) (_o$7010 #t)) (jolt-hash-map _o$7009 _o$7010)))) + (def-var-with-meta! "jolt.passes.inline" "trivial-arg?" (letrec ((trivial-arg? (lambda (n) (let fnrec6901 ((n n)) (let* ((op (jolt-get n (keyword #f "op")))) (let* ((or__26__auto (jolt= op (keyword #f "local")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "const"))))))))) trivial-arg?) (let* ((_o$6902 (keyword #f "private")) (_o$6903 #t)) (jolt-hash-map _o$6902 _o$6903)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "body-closed?" (letrec ((body-closed? (lambda (node scope) (let fnrec7011 ((node node) (scope scope)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "local")) (jolt-contains? scope (jolt-get node (keyword #f "name"))) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$7017 (lambda (acc b) (let fnrec7012 ((acc acc) (b b)) (let* ((sc (jolt-nth acc 0)) (ok (jolt-nth acc 1))) (if (jolt-not ok) acc (let* ((_o$7013 (jolt-conj sc (jolt-nth b 0))) (_o$7014 (body-closed? (jolt-nth b 1) sc))) (jolt-vector _o$7013 _o$7014))))))) (_a$7018 (let* ((_o$7015 scope) (_o$7016 #t)) (jolt-vector _o$7015 _o$7016))) (_a$7019 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$7017 _a$7018 _a$7019)))) (let* ((and__25__auto (jolt-nth res 1))) (if (jolt-truthy? and__25__auto) (let* ((_a$7020 (jolt-get node (keyword #f "body"))) (_a$7021 (jolt-nth res 0))) (body-closed? _a$7020 _a$7021)) and__25__auto))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") op)) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (ok c) (let fnrec7022 ((ok ok) (c c)) (let* ((and__25__auto ok)) (if (jolt-truthy? and__25__auto) (body-closed? c scope) and__25__auto)))) #t node) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))) body-closed?) (let* ((_o$7023 (keyword #f "private")) (_o$7024 #t) (_o$7025 (keyword #f "doc")) (_o$7026 "True if every :local in node is bound \x2014; by a param (in the initial scope set)\n or by an enclosing :let within the body. A self-recursive fn fails this: the\n analyzer binds the fn's own name as a local, so its body has a FREE local (the\n self-reference) that would dangle once the body is spliced elsewhere.")) (jolt-hash-map _o$7023 _o$7024 _o$7025 _o$7026)))) + (def-var-with-meta! "jolt.passes.inline" "body-closed?" (letrec ((body-closed? (lambda (node scope) (let fnrec6904 ((node node) (scope scope)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "local")) (jolt-contains? scope (jolt-get node (keyword #f "name"))) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6910 (lambda (acc b) (let fnrec6905 ((acc acc) (b b)) (let* ((sc (jolt-nth acc 0)) (ok (jolt-nth acc 1))) (if (jolt-not ok) acc (let* ((_o$6906 (jolt-conj sc (jolt-nth b 0))) (_o$6907 (body-closed? (jolt-nth b 1) sc))) (jolt-vector _o$6906 _o$6907))))))) (_a$6911 (let* ((_o$6908 scope) (_o$6909 #t)) (jolt-vector _o$6908 _o$6909))) (_a$6912 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6910 _a$6911 _a$6912)))) (let* ((and__25__auto (jolt-nth res 1))) (if (jolt-truthy? and__25__auto) (let* ((_a$6913 (jolt-get node (keyword #f "body"))) (_a$6914 (jolt-nth res 0))) (body-closed? _a$6913 _a$6914)) and__25__auto))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") op)) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (ok c) (let fnrec6915 ((ok ok) (c c)) (let* ((and__25__auto ok)) (if (jolt-truthy? and__25__auto) (body-closed? c scope) and__25__auto)))) #t node) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))) body-closed?) (let* ((_o$6916 (keyword #f "private")) (_o$6917 #t) (_o$6918 (keyword #f "doc")) (_o$6919 "True if every :local in node is bound \x2014; by a param (in the initial scope set)\n or by an enclosing :let within the body. A self-recursive fn fails this: the\n analyzer binds the fn's own name as a local, so its body has a FREE local (the\n self-reference) that would dangle once the body is spliced elsewhere.")) (jolt-hash-map _o$6916 _o$6917 _o$6918 _o$6919)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "try-inline" (letrec ((try-inline (lambda (node ctx) (let fnrec7027 ((node node) (ctx ctx)) (let* ((f (jolt-get node (keyword #f "fn")))) (if (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))) (let* ((stash (let* ((_a$7028 (var-deref "jolt.host" "inline-ir")) (_a$7029 ctx) (_a$7030 (jolt-get f (keyword #f "ns"))) (_a$7031 (jolt-get f (keyword #f "name")))) (jolt-invoke _a$7028 _a$7029 _a$7030 _a$7031)))) (if (jolt-truthy? stash) (let* ((params (jolt-get stash (keyword #f "params"))) (body (jolt-get stash (keyword #f "body"))) (nh (let* ((_a$7036 (lambda (m pr) (let fnrec7032 ((m m) (pr pr)) (let* ((_a$7033 m) (_a$7034 (jolt-nth pr 0)) (_a$7035 (jolt-nth pr 1))) (jolt-assoc _a$7033 _a$7034 _a$7035))))) (_a$7037 (jolt-hash-map)) (_a$7038 (jolt-get stash (keyword #f "nhints")))) (jolt-reduce _a$7036 _a$7037 _a$7038))) (ret (jolt-get stash (keyword #f "ret"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__25__auto (let* ((_a$7039 (jolt-count params)) (_a$7040 (jolt-count args))) (jolt= _a$7039 _a$7040)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n<= (jolt-invoke (var-deref "jolt.passes.inline" "body-size") body) (var-deref "jolt.passes.inline" "inline-budget")))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "body-closed?") body (jolt-reduce jolt-conj (jolt-hash-set) params)) and__25__auto)) and__25__auto))) (let* ((n (jolt-count params)) (res (let* ((i 0) (env (jolt-hash-map)) (binds (jolt-vector))) (let loop7041 ((i i) (env env) (binds binds)) (if (jolt-n< i n) (let* ((p (jolt-nth params i)) (a (jolt-nth args i)) (k (jolt-get nh p))) (if (jolt-truthy? k) (let* ((f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") p))) (let* ((_a$7048 (jolt-inc i)) (_a$7049 (jolt-assoc env p (let* ((_o$7042 (keyword #f "op")) (_o$7043 (keyword #f "local")) (_o$7044 (keyword #f "name")) (_o$7045 f)) (jolt-hash-map _o$7042 _o$7043 _o$7044 _o$7045)))) (_a$7050 (jolt-conj binds (let* ((_o$7046 f) (_o$7047 (jolt-invoke (var-deref "jolt.ir" "coerce-node") k a))) (jolt-vector _o$7046 _o$7047))))) (loop7041 _a$7048 _a$7049 _a$7050))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "trivial-arg?") a)) (let* ((_a$7051 (jolt-inc i)) (_a$7052 (jolt-assoc env p a)) (_a$7053 binds)) (loop7041 _a$7051 _a$7052 _a$7053)) (if (jolt-truthy? (keyword #f "else")) (let* ((f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") p))) (let* ((_a$7060 (jolt-inc i)) (_a$7061 (jolt-assoc env p (let* ((_o$7054 (keyword #f "op")) (_o$7055 (keyword #f "local")) (_o$7056 (keyword #f "name")) (_o$7057 f)) (jolt-hash-map _o$7054 _o$7055 _o$7056 _o$7057)))) (_a$7062 (jolt-conj binds (let* ((_o$7058 f) (_o$7059 a)) (jolt-vector _o$7058 _o$7059))))) (loop7041 _a$7060 _a$7061 _a$7062))) jolt-nil)))) (let* ((_o$7063 env) (_o$7064 binds)) (jolt-vector _o$7063 _o$7064)))))) (env (jolt-nth res 0)) (binds (jolt-nth res 1)) (rbody0 (jolt-invoke (var-deref "jolt.passes.inline" "subst") body env)) (rbody (if (jolt-truthy? ret) (jolt-invoke (var-deref "jolt.ir" "coerce-node") ret rbody0) rbody0))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (if (jolt= 0 (jolt-count binds)) rbody (let* ((_o$7065 (keyword #f "op")) (_o$7066 (keyword #f "let")) (_o$7067 (keyword #f "bindings")) (_o$7068 binds) (_o$7069 (keyword #f "body")) (_o$7070 rbody)) (jolt-hash-map _o$7065 _o$7066 _o$7067 _o$7068 _o$7069 _o$7070))))) node)) node)) node)))))) try-inline) (let* ((_o$7071 (keyword #f "private")) (_o$7072 #t) (_o$7073 (keyword #f "doc")) (_o$7074 "node is an :invoke whose children are already inlined. If its :fn is a var\n with a stashed, in-budget, arity-matching inline body, return the spliced\n let; else node.")) (jolt-hash-map _o$7071 _o$7072 _o$7073 _o$7074)))) + (def-var-with-meta! "jolt.passes.inline" "try-inline" (letrec ((try-inline (lambda (node ctx) (let fnrec6920 ((node node) (ctx ctx)) (let* ((f (jolt-get node (keyword #f "fn")))) (if (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))) (let* ((stash (let* ((_a$6921 (var-deref "jolt.host" "inline-ir")) (_a$6922 ctx) (_a$6923 (jolt-get f (keyword #f "ns"))) (_a$6924 (jolt-get f (keyword #f "name")))) (jolt-invoke _a$6921 _a$6922 _a$6923 _a$6924)))) (if (jolt-truthy? stash) (let* ((params (jolt-get stash (keyword #f "params"))) (body (jolt-get stash (keyword #f "body"))) (nh (let* ((_a$6929 (lambda (m pr) (let fnrec6925 ((m m) (pr pr)) (let* ((_a$6926 m) (_a$6927 (jolt-nth pr 0)) (_a$6928 (jolt-nth pr 1))) (jolt-assoc _a$6926 _a$6927 _a$6928))))) (_a$6930 (jolt-hash-map)) (_a$6931 (jolt-get stash (keyword #f "nhints")))) (jolt-reduce _a$6929 _a$6930 _a$6931))) (ret (jolt-get stash (keyword #f "ret"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__25__auto (let* ((_a$6932 (jolt-count params)) (_a$6933 (jolt-count args))) (jolt= _a$6932 _a$6933)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (<= (jolt-invoke (var-deref "jolt.passes.inline" "body-size") body) (var-deref "jolt.passes.inline" "inline-budget")))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "body-closed?") body (jolt-reduce jolt-conj (jolt-hash-set) params)) and__25__auto)) and__25__auto))) (let* ((n (jolt-count params)) (res (let* ((i 0) (env (jolt-hash-map)) (binds (jolt-vector))) (let loop6934 ((i i) (env env) (binds binds)) (if (< i n) (let* ((p (jolt-nth params i)) (a (jolt-nth args i)) (k (jolt-get nh p))) (if (jolt-truthy? k) (let* ((f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") p))) (let* ((_a$6941 (jolt-inc i)) (_a$6942 (jolt-assoc env p (let* ((_o$6935 (keyword #f "op")) (_o$6936 (keyword #f "local")) (_o$6937 (keyword #f "name")) (_o$6938 f)) (jolt-hash-map _o$6935 _o$6936 _o$6937 _o$6938)))) (_a$6943 (jolt-conj binds (let* ((_o$6939 f) (_o$6940 (jolt-invoke (var-deref "jolt.ir" "coerce-node") k a))) (jolt-vector _o$6939 _o$6940))))) (loop6934 _a$6941 _a$6942 _a$6943))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "trivial-arg?") a)) (let* ((_a$6944 (jolt-inc i)) (_a$6945 (jolt-assoc env p a)) (_a$6946 binds)) (loop6934 _a$6944 _a$6945 _a$6946)) (if (jolt-truthy? (keyword #f "else")) (let* ((f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") p))) (let* ((_a$6953 (jolt-inc i)) (_a$6954 (jolt-assoc env p (let* ((_o$6947 (keyword #f "op")) (_o$6948 (keyword #f "local")) (_o$6949 (keyword #f "name")) (_o$6950 f)) (jolt-hash-map _o$6947 _o$6948 _o$6949 _o$6950)))) (_a$6955 (jolt-conj binds (let* ((_o$6951 f) (_o$6952 a)) (jolt-vector _o$6951 _o$6952))))) (loop6934 _a$6953 _a$6954 _a$6955))) jolt-nil)))) (let* ((_o$6956 env) (_o$6957 binds)) (jolt-vector _o$6956 _o$6957)))))) (env (jolt-nth res 0)) (binds (jolt-nth res 1)) (rbody0 (jolt-invoke (var-deref "jolt.passes.inline" "subst") body env)) (rbody (if (jolt-truthy? ret) (jolt-invoke (var-deref "jolt.ir" "coerce-node") ret rbody0) rbody0))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (if (jolt= 0 (jolt-count binds)) rbody (let* ((_o$6958 (keyword #f "op")) (_o$6959 (keyword #f "let")) (_o$6960 (keyword #f "bindings")) (_o$6961 binds) (_o$6962 (keyword #f "body")) (_o$6963 rbody)) (jolt-hash-map _o$6958 _o$6959 _o$6960 _o$6961 _o$6962 _o$6963))))) node)) node)) node)))))) try-inline) (let* ((_o$6964 (keyword #f "private")) (_o$6965 #t) (_o$6966 (keyword #f "doc")) (_o$6967 "node is an :invoke whose children are already inlined. If its :fn is a var\n with a stashed, in-budget, arity-matching inline body, return the spliced\n let; else node.")) (jolt-hash-map _o$6964 _o$6965 _o$6966 _o$6967)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "inline-node" (letrec ((inline-node (lambda (node ctx) (let fnrec7075 ((node node) (ctx ctx)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.inline" "try-inline") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7076 ((c c)) (inline-node c ctx))) node) ctx) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7077 ((c c)) (inline-node c ctx))) node)))))) inline-node) (let* ((_o$7078 (keyword #f "doc")) (_o$7079 "Bottom-up: inline children first, then attempt to inline this node.")) (jolt-hash-map _o$7078 _o$7079)))) + (def-var-with-meta! "jolt.passes.inline" "inline-node" (letrec ((inline-node (lambda (node ctx) (let fnrec6968 ((node node) (ctx ctx)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.inline" "try-inline") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec6969 ((c c)) (inline-node c ctx))) node) ctx) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec6970 ((c c)) (inline-node c ctx))) node)))))) inline-node) (let* ((_o$6971 (keyword #f "doc")) (_o$6972 "Bottom-up: inline children first, then attempt to inline this node.")) (jolt-hash-map _o$6971 _o$6972)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "flatten-let-bindings" (letrec ((flatten-let-bindings (lambda (binds) (let fnrec7080 ((binds binds)) (let* ((_a$7086 (lambda (out b) (let fnrec7081 ((out out) (b b)) (let* ((nm (jolt-nth b 0)) (init (jolt-nth b 1))) (if (jolt= (keyword #f "let") (jolt-get init (keyword #f "op"))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (let* ((_a$7084 (jolt-reduce jolt-conj out (jolt-get init (keyword #f "bindings")))) (_a$7085 (let* ((_o$7082 nm) (_o$7083 (jolt-get init (keyword #f "body")))) (jolt-vector _o$7082 _o$7083)))) (jolt-conj _a$7084 _a$7085))) (jolt-conj out b)))))) (_a$7087 (jolt-vector)) (_a$7088 binds)) (jolt-reduce _a$7086 _a$7087 _a$7088)))))) flatten-let-bindings) (let* ((_o$7089 (keyword #f "private")) (_o$7090 #t)) (jolt-hash-map _o$7089 _o$7090)))) + (def-var-with-meta! "jolt.passes.inline" "flatten-let-bindings" (letrec ((flatten-let-bindings (lambda (binds) (let fnrec6973 ((binds binds)) (let* ((_a$6979 (lambda (out b) (let fnrec6974 ((out out) (b b)) (let* ((nm (jolt-nth b 0)) (init (jolt-nth b 1))) (if (jolt= (keyword #f "let") (jolt-get init (keyword #f "op"))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (let* ((_a$6977 (jolt-reduce jolt-conj out (jolt-get init (keyword #f "bindings")))) (_a$6978 (let* ((_o$6975 nm) (_o$6976 (jolt-get init (keyword #f "body")))) (jolt-vector _o$6975 _o$6976)))) (jolt-conj _a$6977 _a$6978))) (jolt-conj out b)))))) (_a$6980 (jolt-vector)) (_a$6981 binds)) (jolt-reduce _a$6979 _a$6980 _a$6981)))))) flatten-let-bindings) (let* ((_o$6982 (keyword #f "private")) (_o$6983 #t)) (jolt-hash-map _o$6982 _o$6983)))) (guard (e (#t #f)) - (def-var! "jolt.passes.inline" "flatten-lets" (letrec ((flatten-lets (lambda (node) (let fnrec7091 ((node node)) (if (jolt= (keyword #f "let") (jolt-get node (keyword #f "op"))) (let* ((n (jolt-invoke (var-deref "jolt.ir" "map-ir-children") flatten-lets node))) (jolt-assoc n (keyword #f "bindings") (jolt-invoke (var-deref "jolt.passes.inline" "flatten-let-bindings") (jolt-get n (keyword #f "bindings"))))) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") flatten-lets node)))))) flatten-lets))) + (def-var! "jolt.passes.inline" "flatten-lets" (letrec ((flatten-lets (lambda (node) (let fnrec6984 ((node node)) (if (jolt= (keyword #f "let") (jolt-get node (keyword #f "op"))) (let* ((n (jolt-invoke (var-deref "jolt.ir" "map-ir-children") flatten-lets node))) (jolt-assoc n (keyword #f "bindings") (jolt-invoke (var-deref "jolt.passes.inline" "flatten-let-bindings") (jolt-get n (keyword #f "bindings"))))) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") flatten-lets node)))))) flatten-lets))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "pure-fns" (let* ((_o$7092 "+") (_o$7093 "-") (_o$7094 "*") (_o$7095 "/") (_o$7096 "<") (_o$7097 ">") (_o$7098 "<=") (_o$7099 ">=") (_o$7100 "=") (_o$7101 "not=") (_o$7102 "inc") (_o$7103 "dec") (_o$7104 "mod") (_o$7105 "rem") (_o$7106 "quot") (_o$7107 "min") (_o$7108 "max") (_o$7109 "abs") (_o$7110 "nil?") (_o$7111 "some?") (_o$7112 "not") (_o$7113 "get") (_o$7114 "zero?") (_o$7115 "pos?") (_o$7116 "neg?") (_o$7117 "even?") (_o$7118 "odd?") (_o$7119 "bit-and") (_o$7120 "bit-or") (_o$7121 "bit-xor")) (jolt-hash-set _o$7092 _o$7093 _o$7094 _o$7095 _o$7096 _o$7097 _o$7098 _o$7099 _o$7100 _o$7101 _o$7102 _o$7103 _o$7104 _o$7105 _o$7106 _o$7107 _o$7108 _o$7109 _o$7110 _o$7111 _o$7112 _o$7113 _o$7114 _o$7115 _o$7116 _o$7117 _o$7118 _o$7119 _o$7120 _o$7121)) (let* ((_o$7122 (keyword #f "private")) (_o$7123 #t)) (jolt-hash-map _o$7122 _o$7123)))) + (def-var-with-meta! "jolt.passes.inline" "pure-fns" (let* ((_o$6985 "+") (_o$6986 "-") (_o$6987 "*") (_o$6988 "/") (_o$6989 "<") (_o$6990 ">") (_o$6991 "<=") (_o$6992 ">=") (_o$6993 "=") (_o$6994 "not=") (_o$6995 "inc") (_o$6996 "dec") (_o$6997 "mod") (_o$6998 "rem") (_o$6999 "quot") (_o$7000 "min") (_o$7001 "max") (_o$7002 "abs") (_o$7003 "nil?") (_o$7004 "some?") (_o$7005 "not") (_o$7006 "get") (_o$7007 "zero?") (_o$7008 "pos?") (_o$7009 "neg?") (_o$7010 "even?") (_o$7011 "odd?") (_o$7012 "bit-and") (_o$7013 "bit-or") (_o$7014 "bit-xor")) (jolt-hash-set _o$6985 _o$6986 _o$6987 _o$6988 _o$6989 _o$6990 _o$6991 _o$6992 _o$6993 _o$6994 _o$6995 _o$6996 _o$6997 _o$6998 _o$6999 _o$7000 _o$7001 _o$7002 _o$7003 _o$7004 _o$7005 _o$7006 _o$7007 _o$7008 _o$7009 _o$7010 _o$7011 _o$7012 _o$7013 _o$7014)) (let* ((_o$7015 (keyword #f "private")) (_o$7016 #t)) (jolt-hash-map _o$7015 _o$7016)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "pure-fn?" (letrec ((pure-fn? (lambda (f) (let fnrec7124 ((f f)) (let* ((op (jolt-get f (keyword #f "op")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") f)) #t (if (jolt= op (keyword #f "var")) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt-contains? (var-deref "jolt.passes.inline" "pure-fns") (jolt-get f (keyword #f "name"))) and__25__auto)) (if (jolt= op (keyword #f "host")) (jolt-contains? (var-deref "jolt.passes.inline" "pure-fns") (jolt-get f (keyword #f "name"))) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))) pure-fn?) (let* ((_o$7125 (keyword #f "private")) (_o$7126 #t)) (jolt-hash-map _o$7125 _o$7126)))) + (def-var-with-meta! "jolt.passes.inline" "pure-fn?" (letrec ((pure-fn? (lambda (f) (let fnrec7017 ((f f)) (let* ((op (jolt-get f (keyword #f "op")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") f)) #t (if (jolt= op (keyword #f "var")) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt-contains? (var-deref "jolt.passes.inline" "pure-fns") (jolt-get f (keyword #f "name"))) and__25__auto)) (if (jolt= op (keyword #f "host")) (jolt-contains? (var-deref "jolt.passes.inline" "pure-fns") (jolt-get f (keyword #f "name"))) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))) pure-fn?) (let* ((_o$7018 (keyword #f "private")) (_o$7019 #t)) (jolt-hash-map _o$7018 _o$7019)))) (guard (e (#t #f)) (declare-var! "jolt.passes.inline" "ctor-shape")) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "pure?" (letrec ((pure? (lambda (node) (let fnrec7127 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (let* ((and__25__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.inline" "pure-fn?") (jolt-get node (keyword #f "fn"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") node))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") pure? (jolt-get node (keyword #f "args"))) and__25__auto)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") op)) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (ok c) (let fnrec7128 ((ok ok) (c c)) (let* ((and__25__auto ok)) (if (jolt-truthy? and__25__auto) (pure? c) and__25__auto)))) #t node) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil)))))))) pure?) (let* ((_o$7129 (keyword #f "private")) (_o$7130 #t) (_o$7131 (keyword #f "doc")) (_o$7132 "Conservative: true only for expressions with no side effects that are safe to\n duplicate or discard. A var/host ref is a pure read; an invoke is pure for a\n known-pure fn (arithmetic, comparison, keyword lookup, get) or a record\n constructor (an immutable struct alloc) whose args are themselves pure.")) (jolt-hash-map _o$7129 _o$7130 _o$7131 _o$7132)))) + (def-var-with-meta! "jolt.passes.inline" "pure?" (letrec ((pure? (lambda (node) (let fnrec7020 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (let* ((and__25__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.inline" "pure-fn?") (jolt-get node (keyword #f "fn"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") node))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") pure? (jolt-get node (keyword #f "args"))) and__25__auto)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") op)) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (ok c) (let fnrec7021 ((ok ok) (c c)) (let* ((and__25__auto ok)) (if (jolt-truthy? and__25__auto) (pure? c) and__25__auto)))) #t node) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil)))))))) pure?) (let* ((_o$7022 (keyword #f "private")) (_o$7023 #t) (_o$7024 (keyword #f "doc")) (_o$7025 "Conservative: true only for expressions with no side effects that are safe to\n duplicate or discard. A var/host ref is a pure read; an invoke is pure for a\n known-pure fn (arithmetic, comparison, keyword lookup, get) or a record\n constructor (an immutable struct alloc) whose args are themselves pure.")) (jolt-hash-map _o$7022 _o$7023 _o$7024 _o$7025)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "const-key-map?" (letrec ((const-key-map? (lambda (node) (let fnrec7133 ((node node)) (let* ((prs (jolt-get node (keyword #f "pairs")))) (let* ((and__25__auto (jolt-n> (jolt-count prs) 0))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (pr) (let fnrec7134 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth pr 0)))) prs) and__25__auto))))))) const-key-map?) (let* ((_o$7135 (keyword #f "private")) (_o$7136 #t)) (jolt-hash-map _o$7135 _o$7136)))) + (def-var-with-meta! "jolt.passes.inline" "const-key-map?" (letrec ((const-key-map? (lambda (node) (let fnrec7026 ((node node)) (let* ((prs (jolt-get node (keyword #f "pairs")))) (let* ((and__25__auto (> (jolt-count prs) 0))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (pr) (let fnrec7027 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth pr 0)))) prs) and__25__auto))))))) const-key-map?) (let* ((_o$7028 (keyword #f "private")) (_o$7029 #t)) (jolt-hash-map _o$7028 _o$7029)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "all-vals-pure?" (letrec ((all-vals-pure? (lambda (node) (let fnrec7137 ((node node)) (let* ((_a$7139 (var-deref "clojure.core" "every?")) (_a$7140 (lambda (pr) (let fnrec7138 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.inline" "pure?") (jolt-nth pr 1))))) (_a$7141 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$7139 _a$7140 _a$7141)))))) all-vals-pure?) (let* ((_o$7142 (keyword #f "private")) (_o$7143 #t)) (jolt-hash-map _o$7142 _o$7143)))) + (def-var-with-meta! "jolt.passes.inline" "all-vals-pure?" (letrec ((all-vals-pure? (lambda (node) (let fnrec7030 ((node node)) (let* ((_a$7032 (var-deref "clojure.core" "every?")) (_a$7033 (lambda (pr) (let fnrec7031 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.inline" "pure?") (jolt-nth pr 1))))) (_a$7034 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$7032 _a$7033 _a$7034)))))) all-vals-pure?) (let* ((_o$7035 (keyword #f "private")) (_o$7036 #t)) (jolt-hash-map _o$7035 _o$7036)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "map-val" (letrec ((map-val (lambda (mapnode k) (let fnrec7144 ((mapnode mapnode) (k k)) (let* ((prs (jolt-get mapnode (keyword #f "pairs"))) (n (jolt-count prs))) (let* ((i 0)) (let loop7145 ((i i)) (if (jolt-n< i n) (let* ((pr (jolt-nth prs i))) (if (jolt= (jolt-get (jolt-nth pr 0) (keyword #f "val")) k) (jolt-nth pr 1) (loop7145 (jolt-inc i)))) (let* ((_o$7146 (keyword #f "op")) (_o$7147 (keyword #f "const")) (_o$7148 (keyword #f "val")) (_o$7149 jolt-nil)) (jolt-hash-map _o$7146 _o$7147 _o$7148 _o$7149)))))))))) map-val) (let* ((_o$7150 (keyword #f "private")) (_o$7151 #t) (_o$7152 (keyword #f "doc")) (_o$7153 "The value IR at scalar key k in a const-key map node, or a nil constant when k\n is absent (struct-eligible literal: a missing key reads nil, like the back end).")) (jolt-hash-map _o$7150 _o$7151 _o$7152 _o$7153)))) + (def-var-with-meta! "jolt.passes.inline" "map-val" (letrec ((map-val (lambda (mapnode k) (let fnrec7037 ((mapnode mapnode) (k k)) (let* ((prs (jolt-get mapnode (keyword #f "pairs"))) (n (jolt-count prs))) (let* ((i 0)) (let loop7038 ((i i)) (if (< i n) (let* ((pr (jolt-nth prs i))) (if (jolt= (jolt-get (jolt-nth pr 0) (keyword #f "val")) k) (jolt-nth pr 1) (loop7038 (jolt-inc i)))) (let* ((_o$7039 (keyword #f "op")) (_o$7040 (keyword #f "const")) (_o$7041 (keyword #f "val")) (_o$7042 jolt-nil)) (jolt-hash-map _o$7039 _o$7040 _o$7041 _o$7042)))))))))) map-val) (let* ((_o$7043 (keyword #f "private")) (_o$7044 #t) (_o$7045 (keyword #f "doc")) (_o$7046 "The value IR at scalar key k in a const-key map node, or a nil constant when k\n is absent (struct-eligible literal: a missing key reads nil, like the back end).")) (jolt-hash-map _o$7043 _o$7044 _o$7045 _o$7046)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "lookup-key" (letrec ((lookup-key (lambda (node nm) (let fnrec7154 ((node node) (nm nm)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") f))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= nm (jolt-get (jolt-nth args 0) (keyword #f "name"))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-get f (keyword #f "val")) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "get-callee?") f))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 2 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= nm (jolt-get (jolt-nth args 0) (keyword #f "name"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth args 1)) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-get (jolt-nth args 1) (keyword #f "val")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) jolt-nil))))) lookup-key) (let* ((_o$7155 (keyword #f "private")) (_o$7156 #t) (_o$7157 (keyword #f "doc")) (_o$7158 "If node is a constant-keyword lookup of (:local nm) \x2014; either (:k nm) or\n (get nm :k) \x2014; return the keyword k; else nil.")) (jolt-hash-map _o$7155 _o$7156 _o$7157 _o$7158)))) + (def-var-with-meta! "jolt.passes.inline" "lookup-key" (letrec ((lookup-key (lambda (node nm) (let fnrec7047 ((node node) (nm nm)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") f))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= nm (jolt-get (jolt-nth args 0) (keyword #f "name"))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-get f (keyword #f "val")) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "get-callee?") f))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 2 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= nm (jolt-get (jolt-nth args 0) (keyword #f "name"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth args 1)) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-get (jolt-nth args 1) (keyword #f "val")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) jolt-nil))))) lookup-key) (let* ((_o$7048 (keyword #f "private")) (_o$7049 #t) (_o$7050 (keyword #f "doc")) (_o$7051 "If node is a constant-keyword lookup of (:local nm) \x2014; either (:k nm) or\n (get nm :k) \x2014; return the keyword k; else nil.")) (jolt-hash-map _o$7048 _o$7049 _o$7050 _o$7051)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "any-binding-named?" (letrec ((any-binding-named? (lambda (binds nm) (let fnrec7159 ((binds binds) (nm nm)) (let* ((i 0)) (let loop7160 ((i i)) (if (jolt-n< i (jolt-count binds)) (if (jolt= nm (jolt-nth (jolt-nth binds i) 0)) #t (loop7160 (jolt-inc i))) #f))))))) any-binding-named?) (let* ((_o$7161 (keyword #f "private")) (_o$7162 #t)) (jolt-hash-map _o$7161 _o$7162)))) + (def-var-with-meta! "jolt.passes.inline" "any-binding-named?" (letrec ((any-binding-named? (lambda (binds nm) (let fnrec7052 ((binds binds) (nm nm)) (let* ((i 0)) (let loop7053 ((i i)) (if (< i (jolt-count binds)) (if (jolt= nm (jolt-nth (jolt-nth binds i) 0)) #t (loop7053 (jolt-inc i))) #f))))))) any-binding-named?) (let* ((_o$7054 (keyword #f "private")) (_o$7055 #t)) (jolt-hash-map _o$7054 _o$7055)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "any-name?" (letrec ((any-name? (lambda (names nm) (let fnrec7163 ((names names) (nm nm)) (let* ((i 0)) (let loop7164 ((i i)) (if (jolt-n< i (jolt-count names)) (if (jolt= nm (jolt-nth names i)) #t (loop7164 (jolt-inc i))) #f))))))) any-name?) (let* ((_o$7165 (keyword #f "private")) (_o$7166 #t)) (jolt-hash-map _o$7165 _o$7166)))) + (def-var-with-meta! "jolt.passes.inline" "any-name?" (letrec ((any-name? (lambda (names nm) (let fnrec7056 ((names names) (nm nm)) (let* ((i 0)) (let loop7057 ((i i)) (if (< i (jolt-count names)) (if (jolt= nm (jolt-nth names i)) #t (loop7057 (jolt-inc i))) #f))))))) any-name?) (let* ((_o$7058 (keyword #f "private")) (_o$7059 #t)) (jolt-hash-map _o$7058 _o$7059)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "local-escapes?" (letrec ((local-escapes? (lambda (node nm) (let fnrec7167 ((node node) (nm nm)) (let* ((op (jolt-get node (keyword #f "op"))) (k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (let* ((args (jolt-get node (keyword #f "args")))) (if (jolt-n> (jolt-count args) 1) (let* ((i 1)) (let loop7168 ((i i)) (if (jolt-n< i (jolt-count args)) (if (jolt-truthy? (local-escapes? (jolt-nth args i) nm)) #t (loop7168 (jolt-inc i))) #f))) #f)) (if (jolt= op (keyword #f "local")) (jolt= nm (jolt-get node (keyword #f "name"))) (if (jolt= op (keyword #f "const")) #f (if (jolt= op (keyword #f "var")) #f (if (jolt= op (keyword #f "host")) #f (if (jolt= op (keyword #f "the-var")) #f (if (jolt= op (keyword #f "quote")) #f (if (jolt= op (keyword #f "if")) (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "test")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "then")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "else")) nm))))) (if (jolt= op (keyword #f "do")) (let* ((or__26__auto (let* ((i 0) (ss (jolt-get node (keyword #f "statements")))) (let loop7169 ((i i) (ss ss)) (if (jolt-n< i (jolt-count ss)) (if (jolt-truthy? (local-escapes? (jolt-nth ss i) nm)) #t (loop7169 (jolt-inc i) ss)) #f))))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "ret")) nm))) (if (jolt= op (keyword #f "throw")) (local-escapes? (jolt-get node (keyword #f "expr")) nm) (if (jolt= op (keyword #f "invoke")) (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "fn")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((i 0) (as (jolt-get node (keyword #f "args")))) (let loop7170 ((i i) (as as)) (if (jolt-n< i (jolt-count as)) (if (jolt-truthy? (local-escapes? (jolt-nth as i) nm)) #t (loop7170 (jolt-inc i) as)) #f))))) (if (jolt= op (keyword #f "vector")) (let* ((i 0) (xs (jolt-get node (keyword #f "items")))) (let loop7171 ((i i) (xs xs)) (if (jolt-n< i (jolt-count xs)) (if (jolt-truthy? (local-escapes? (jolt-nth xs i) nm)) #t (loop7171 (jolt-inc i) xs)) #f))) (if (jolt= op (keyword #f "set")) (let* ((i 0) (xs (jolt-get node (keyword #f "items")))) (let loop7172 ((i i) (xs xs)) (if (jolt-n< i (jolt-count xs)) (if (jolt-truthy? (local-escapes? (jolt-nth xs i) nm)) #t (loop7172 (jolt-inc i) xs)) #f))) (if (jolt= op (keyword #f "map")) (let* ((i 0) (ps (jolt-get node (keyword #f "pairs")))) (let loop7173 ((i i) (ps ps)) (if (jolt-n< i (jolt-count ps)) (if (jolt-truthy? (let* ((or__26__auto (local-escapes? (jolt-nth (jolt-nth ps i) 0) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-nth (jolt-nth ps i) 1) nm)))) #t (loop7173 (jolt-inc i) ps)) #f))) (if (jolt= op (keyword #f "let")) (let* ((binds (jolt-get node (keyword #f "bindings")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") binds nm)) #t (let* ((or__26__auto (let* ((i 0)) (let loop7174 ((i i)) (if (jolt-n< i (jolt-count binds)) (if (jolt-truthy? (local-escapes? (jolt-nth (jolt-nth binds i) 1) nm)) #t (loop7174 (jolt-inc i))) #f))))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "body")) nm))))) (if (jolt= op (keyword #f "recur")) (let* ((i 0) (as (jolt-get node (keyword #f "args")))) (let loop7175 ((i i) (as as)) (if (jolt-n< i (jolt-count as)) (if (jolt-truthy? (local-escapes? (jolt-nth as i) nm)) #t (loop7175 (jolt-inc i) as)) #f))) (if (jolt= op (keyword #f "loop")) (let* ((binds (jolt-get node (keyword #f "bindings")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") binds nm)) #t (let* ((or__26__auto (let* ((i 0)) (let loop7176 ((i i)) (if (jolt-n< i (jolt-count binds)) (if (jolt-truthy? (local-escapes? (jolt-nth (jolt-nth binds i) 1) nm)) #t (loop7176 (jolt-inc i))) #f))))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "body")) nm))))) (if (jolt= op (keyword #f "fn")) (let* ((i 0) (ars (jolt-get node (keyword #f "arities")))) (let loop7177 ((i i) (ars ars)) (if (jolt-n< i (jolt-count ars)) (let* ((ar (jolt-nth ars i)) (ps (jolt-get ar (keyword #f "params")))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.inline" "any-name?") ps nm))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= nm (jolt-get ar (keyword #f "rest")))))) #t (if (jolt-truthy? (local-escapes? (jolt-get ar (keyword #f "body")) nm)) #t (loop7177 (jolt-inc i) ars)))) #f))) (if (jolt= op (keyword #f "try")) (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "body")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (let* ((cb (jolt-get node (keyword #f "catch-body")))) (let* ((and__25__auto cb)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt= nm (jolt-get node (keyword #f "catch-sym")))))) (if (jolt-truthy? and__25__auto) (local-escapes? cb nm) and__25__auto)) and__25__auto))))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((f (jolt-get node (keyword #f "finally")))) (let* ((and__25__auto f)) (if (jolt-truthy? and__25__auto) (local-escapes? f nm) and__25__auto))))))) (if (jolt= op (keyword #f "def")) (local-escapes? (jolt-get node (keyword #f "init")) nm) (if (jolt-truthy? (keyword #f "else")) #t jolt-nil)))))))))))))))))))))))))) local-escapes?) (let* ((_o$7178 (keyword #f "private")) (_o$7179 #t) (_o$7180 (keyword #f "doc")) (_o$7181 "Does local nm escape in node \x2014; i.e. is it used anywhere other than as the\n subject of a constant-keyword lookup? Precise over straight-line expression\n ops; conservatively true for loop/fn/try/recur/def (and any rebinding of nm),\n so scalar replacement only fires where the whole use region is simple.\n\n Stays an explicit per-op walk (not the shared reduce-ir-children fold): its\n default is conservatively TRUE, and the lookup-subject and rebinding cases\n inspect node shape beyond child purity \x2014; folding an unhandled op over its\n children would under-report escape and is unsound for scalar replacement.")) (jolt-hash-map _o$7178 _o$7179 _o$7180 _o$7181)))) + (def-var-with-meta! "jolt.passes.inline" "local-escapes?" (letrec ((local-escapes? (lambda (node nm) (let fnrec7060 ((node node) (nm nm)) (let* ((op (jolt-get node (keyword #f "op"))) (k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (let* ((args (jolt-get node (keyword #f "args")))) (if (> (jolt-count args) 1) (let* ((i 1)) (let loop7061 ((i i)) (if (< i (jolt-count args)) (if (jolt-truthy? (local-escapes? (jolt-nth args i) nm)) #t (loop7061 (jolt-inc i))) #f))) #f)) (if (jolt= op (keyword #f "local")) (jolt= nm (jolt-get node (keyword #f "name"))) (if (jolt= op (keyword #f "const")) #f (if (jolt= op (keyword #f "var")) #f (if (jolt= op (keyword #f "host")) #f (if (jolt= op (keyword #f "the-var")) #f (if (jolt= op (keyword #f "quote")) #f (if (jolt= op (keyword #f "if")) (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "test")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "then")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "else")) nm))))) (if (jolt= op (keyword #f "do")) (let* ((or__26__auto (let* ((i 0) (ss (jolt-get node (keyword #f "statements")))) (let loop7062 ((i i) (ss ss)) (if (< i (jolt-count ss)) (if (jolt-truthy? (local-escapes? (jolt-nth ss i) nm)) #t (loop7062 (jolt-inc i) ss)) #f))))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "ret")) nm))) (if (jolt= op (keyword #f "throw")) (local-escapes? (jolt-get node (keyword #f "expr")) nm) (if (jolt= op (keyword #f "invoke")) (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "fn")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((i 0) (as (jolt-get node (keyword #f "args")))) (let loop7063 ((i i) (as as)) (if (< i (jolt-count as)) (if (jolt-truthy? (local-escapes? (jolt-nth as i) nm)) #t (loop7063 (jolt-inc i) as)) #f))))) (if (jolt= op (keyword #f "vector")) (let* ((i 0) (xs (jolt-get node (keyword #f "items")))) (let loop7064 ((i i) (xs xs)) (if (< i (jolt-count xs)) (if (jolt-truthy? (local-escapes? (jolt-nth xs i) nm)) #t (loop7064 (jolt-inc i) xs)) #f))) (if (jolt= op (keyword #f "set")) (let* ((i 0) (xs (jolt-get node (keyword #f "items")))) (let loop7065 ((i i) (xs xs)) (if (< i (jolt-count xs)) (if (jolt-truthy? (local-escapes? (jolt-nth xs i) nm)) #t (loop7065 (jolt-inc i) xs)) #f))) (if (jolt= op (keyword #f "map")) (let* ((i 0) (ps (jolt-get node (keyword #f "pairs")))) (let loop7066 ((i i) (ps ps)) (if (< i (jolt-count ps)) (if (jolt-truthy? (let* ((or__26__auto (local-escapes? (jolt-nth (jolt-nth ps i) 0) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-nth (jolt-nth ps i) 1) nm)))) #t (loop7066 (jolt-inc i) ps)) #f))) (if (jolt= op (keyword #f "let")) (let* ((binds (jolt-get node (keyword #f "bindings")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") binds nm)) #t (let* ((or__26__auto (let* ((i 0)) (let loop7067 ((i i)) (if (< i (jolt-count binds)) (if (jolt-truthy? (local-escapes? (jolt-nth (jolt-nth binds i) 1) nm)) #t (loop7067 (jolt-inc i))) #f))))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "body")) nm))))) (if (jolt= op (keyword #f "recur")) (let* ((i 0) (as (jolt-get node (keyword #f "args")))) (let loop7068 ((i i) (as as)) (if (< i (jolt-count as)) (if (jolt-truthy? (local-escapes? (jolt-nth as i) nm)) #t (loop7068 (jolt-inc i) as)) #f))) (if (jolt= op (keyword #f "loop")) (let* ((binds (jolt-get node (keyword #f "bindings")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") binds nm)) #t (let* ((or__26__auto (let* ((i 0)) (let loop7069 ((i i)) (if (< i (jolt-count binds)) (if (jolt-truthy? (local-escapes? (jolt-nth (jolt-nth binds i) 1) nm)) #t (loop7069 (jolt-inc i))) #f))))) (if (jolt-truthy? or__26__auto) or__26__auto (local-escapes? (jolt-get node (keyword #f "body")) nm))))) (if (jolt= op (keyword #f "fn")) (let* ((i 0) (ars (jolt-get node (keyword #f "arities")))) (let loop7070 ((i i) (ars ars)) (if (< i (jolt-count ars)) (let* ((ar (jolt-nth ars i)) (ps (jolt-get ar (keyword #f "params")))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.inline" "any-name?") ps nm))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= nm (jolt-get ar (keyword #f "rest")))))) #t (if (jolt-truthy? (local-escapes? (jolt-get ar (keyword #f "body")) nm)) #t (loop7070 (jolt-inc i) ars)))) #f))) (if (jolt= op (keyword #f "try")) (let* ((or__26__auto (local-escapes? (jolt-get node (keyword #f "body")) nm))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (let* ((cb (jolt-get node (keyword #f "catch-body")))) (let* ((and__25__auto cb)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt= nm (jolt-get node (keyword #f "catch-sym")))))) (if (jolt-truthy? and__25__auto) (local-escapes? cb nm) and__25__auto)) and__25__auto))))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((f (jolt-get node (keyword #f "finally")))) (let* ((and__25__auto f)) (if (jolt-truthy? and__25__auto) (local-escapes? f nm) and__25__auto))))))) (if (jolt= op (keyword #f "def")) (local-escapes? (jolt-get node (keyword #f "init")) nm) (if (jolt-truthy? (keyword #f "else")) #t jolt-nil)))))))))))))))))))))))))) local-escapes?) (let* ((_o$7071 (keyword #f "private")) (_o$7072 #t) (_o$7073 (keyword #f "doc")) (_o$7074 "Does local nm escape in node \x2014; i.e. is it used anywhere other than as the\n subject of a constant-keyword lookup? Precise over straight-line expression\n ops; conservatively true for loop/fn/try/recur/def (and any rebinding of nm),\n so scalar replacement only fires where the whole use region is simple.\n\n Stays an explicit per-op walk (not the shared reduce-ir-children fold): its\n default is conservatively TRUE, and the lookup-subject and rebinding cases\n inspect node shape beyond child purity \x2014; folding an unhandled op over its\n children would under-report escape and is unsound for scalar replacement.")) (jolt-hash-map _o$7071 _o$7072 _o$7073 _o$7074)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "ctor-shape" (letrec ((ctor-shape (lambda (node) (let fnrec7182 ((node node)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn")))) (if (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))) (let* ((rs (let* ((_a$7187 (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "rec-shapes"))) (_a$7188 (let* ((_a$7183 (var-deref "clojure.core" "str")) (_a$7184 (jolt-get f (keyword #f "ns"))) (_a$7185 "/") (_a$7186 (jolt-get f (keyword #f "name")))) (jolt-invoke _a$7183 _a$7184 _a$7185 _a$7186)))) (jolt-get _a$7187 _a$7188)))) (if (jolt-truthy? (let* ((and__25__auto rs)) (if (jolt-truthy? and__25__auto) (let* ((_a$7189 (jolt-count (jolt-get rs (keyword #f "fields")))) (_a$7190 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt= _a$7189 _a$7190)) and__25__auto))) rs jolt-nil)) jolt-nil)) jolt-nil))))) ctor-shape) (let* ((_o$7191 (keyword #f "private")) (_o$7192 #t) (_o$7193 (keyword #f "doc")) (_o$7194 "If node is a record-constructor :invoke (its :fn a :var whose ns/name is a\n registered ctor key, with arg count matching the declared field count), return\n that record's shape entry; else nil.")) (jolt-hash-map _o$7191 _o$7192 _o$7193 _o$7194)))) + (def-var-with-meta! "jolt.passes.inline" "ctor-shape" (letrec ((ctor-shape (lambda (node) (let fnrec7075 ((node node)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn")))) (if (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))) (let* ((rs (let* ((_a$7080 (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "rec-shapes"))) (_a$7081 (let* ((_a$7076 (var-deref "clojure.core" "str")) (_a$7077 (jolt-get f (keyword #f "ns"))) (_a$7078 "/") (_a$7079 (jolt-get f (keyword #f "name")))) (jolt-invoke _a$7076 _a$7077 _a$7078 _a$7079)))) (jolt-get _a$7080 _a$7081)))) (if (jolt-truthy? (let* ((and__25__auto rs)) (if (jolt-truthy? and__25__auto) (let* ((_a$7082 (jolt-count (jolt-get rs (keyword #f "fields")))) (_a$7083 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt= _a$7082 _a$7083)) and__25__auto))) rs jolt-nil)) jolt-nil)) jolt-nil))))) ctor-shape) (let* ((_o$7084 (keyword #f "private")) (_o$7085 #t) (_o$7086 (keyword #f "doc")) (_o$7087 "If node is a record-constructor :invoke (its :fn a :var whose ns/name is a\n registered ctor key, with arg count matching the declared field count), return\n that record's shape entry; else nil.")) (jolt-hash-map _o$7084 _o$7085 _o$7086 _o$7087)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "ctor-all-args-pure?" (letrec ((ctor-all-args-pure? (lambda (node) (let fnrec7195 ((node node)) (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.inline" "pure?") (jolt-get node (keyword #f "args"))))))) ctor-all-args-pure?) (let* ((_o$7196 (keyword #f "private")) (_o$7197 #t)) (jolt-hash-map _o$7196 _o$7197)))) + (def-var-with-meta! "jolt.passes.inline" "ctor-all-args-pure?" (letrec ((ctor-all-args-pure? (lambda (node) (let fnrec7088 ((node node)) (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.inline" "pure?") (jolt-get node (keyword #f "args"))))))) ctor-all-args-pure?) (let* ((_o$7089 (keyword #f "private")) (_o$7090 #t)) (jolt-hash-map _o$7089 _o$7090)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "field-index" (letrec ((field-index (lambda (fields k) (let fnrec7198 ((fields fields) (k k)) (let* ((n (jolt-count fields))) (let* ((i 0)) (let loop7199 ((i i)) (if (jolt-n< i n) (if (jolt= (jolt-nth fields i) k) i (loop7199 (jolt-inc i))) jolt-nil)))))))) field-index) (let* ((_o$7200 (keyword #f "private")) (_o$7201 #t) (_o$7202 (keyword #f "doc")) (_o$7203 "Index of scalar key k in the declared field tuple fields, or nil.")) (jolt-hash-map _o$7200 _o$7201 _o$7202 _o$7203)))) + (def-var-with-meta! "jolt.passes.inline" "field-index" (letrec ((field-index (lambda (fields k) (let fnrec7091 ((fields fields) (k k)) (let* ((n (jolt-count fields))) (let* ((i 0)) (let loop7092 ((i i)) (if (< i n) (if (jolt= (jolt-nth fields i) k) i (loop7092 (jolt-inc i))) jolt-nil)))))))) field-index) (let* ((_o$7093 (keyword #f "private")) (_o$7094 #t) (_o$7095 (keyword #f "doc")) (_o$7096 "Index of scalar key k in the declared field tuple fields, or nil.")) (jolt-hash-map _o$7093 _o$7094 _o$7095 _o$7096)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "ctor-val" (letrec ((ctor-val (lambda (ctor rs k) (let fnrec7204 ((ctor ctor) (rs rs) (k k)) (let* ((_a$7205 (jolt-get ctor (keyword #f "args"))) (_a$7206 (jolt-invoke (var-deref "jolt.passes.inline" "field-index") (jolt-get rs (keyword #f "fields")) k))) (jolt-nth _a$7205 _a$7206)))))) ctor-val) (let* ((_o$7207 (keyword #f "private")) (_o$7208 #t) (_o$7209 (keyword #f "doc")) (_o$7210 "The positional arg IR at declared field k of record ctor node (shape rs). Only\n called for a key known to be a field, so the index is always present.")) (jolt-hash-map _o$7207 _o$7208 _o$7209 _o$7210)))) + (def-var-with-meta! "jolt.passes.inline" "ctor-val" (letrec ((ctor-val (lambda (ctor rs k) (let fnrec7097 ((ctor ctor) (rs rs) (k k)) (let* ((_a$7098 (jolt-get ctor (keyword #f "args"))) (_a$7099 (jolt-invoke (var-deref "jolt.passes.inline" "field-index") (jolt-get rs (keyword #f "fields")) k))) (jolt-nth _a$7098 _a$7099)))))) ctor-val) (let* ((_o$7100 (keyword #f "private")) (_o$7101 #t) (_o$7102 (keyword #f "doc")) (_o$7103 "The positional arg IR at declared field k of record ctor node (shape rs). Only\n called for a key known to be a field, so the index is always present.")) (jolt-hash-map _o$7100 _o$7101 _o$7102 _o$7103)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "collect-keys!" (letrec ((collect-keys! (lambda (node nm acc) (let fnrec7211 ((node node) (nm nm) (acc acc)) (let* ((k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (jolt-invoke (var-deref "clojure.core" "swap!") acc jolt-conj k) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7212 ((c c)) (begin (collect-keys! c nm acc) c))) node))))))) collect-keys!) (let* ((_o$7213 (keyword #f "private")) (_o$7214 #t) (_o$7215 (keyword #f "doc")) (_o$7216 "Accumulate (into atom acc) every constant-keyword lookup key applied to local\n nm in node. The caller has proven (via local-escapes?) that nm appears only as\n a lookup subject and is never rebound, so a uniform recursion suffices: at a\n lookup of nm we record the key and stop (its subject is nm itself); elsewhere\n we recurse into children.")) (jolt-hash-map _o$7213 _o$7214 _o$7215 _o$7216)))) + (def-var-with-meta! "jolt.passes.inline" "collect-keys!" (letrec ((collect-keys! (lambda (node nm acc) (let fnrec7104 ((node node) (nm nm) (acc acc)) (let* ((k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (jolt-invoke (var-deref "clojure.core" "swap!") acc jolt-conj k) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7105 ((c c)) (begin (collect-keys! c nm acc) c))) node))))))) collect-keys!) (let* ((_o$7106 (keyword #f "private")) (_o$7107 #t) (_o$7108 (keyword #f "doc")) (_o$7109 "Accumulate (into atom acc) every constant-keyword lookup key applied to local\n nm in node. The caller has proven (via local-escapes?) that nm appears only as\n a lookup subject and is never rebound, so a uniform recursion suffices: at a\n lookup of nm we record the key and stop (its subject is nm itself); elsewhere\n we recurse into children.")) (jolt-hash-map _o$7106 _o$7107 _o$7108 _o$7109)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "lookups-all-fields?" (letrec ((lookups-all-fields? (lambda (nodes nm fields) (let fnrec7217 ((nodes nodes) (nm nm) (fields fields)) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (node) (let fnrec7218 ((node node)) (let* ((acc (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-set)))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "collect-keys!") node nm acc) (let* ((_a$7220 (var-deref "clojure.core" "every?")) (_a$7221 (lambda (k) (let fnrec7219 ((k k)) (jolt-invoke (var-deref "jolt.passes.inline" "field-index") fields k)))) (_a$7222 (jolt-invoke (var-deref "clojure.core" "deref") acc))) (jolt-invoke _a$7220 _a$7221 _a$7222)))))) nodes))))) lookups-all-fields?) (let* ((_o$7223 (keyword #f "private")) (_o$7224 #t) (_o$7225 (keyword #f "doc")) (_o$7226 "True if every lookup of nm across nodes uses a declared field in fields \x2014; the\n record-only guard that keeps a :jolt/deftype/unknown-key read (not a positional\n arg) from being folded to the wrong value.")) (jolt-hash-map _o$7223 _o$7224 _o$7225 _o$7226)))) + (def-var-with-meta! "jolt.passes.inline" "lookups-all-fields?" (letrec ((lookups-all-fields? (lambda (nodes nm fields) (let fnrec7110 ((nodes nodes) (nm nm) (fields fields)) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (node) (let fnrec7111 ((node node)) (let* ((acc (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-set)))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "collect-keys!") node nm acc) (let* ((_a$7113 (var-deref "clojure.core" "every?")) (_a$7114 (lambda (k) (let fnrec7112 ((k k)) (jolt-invoke (var-deref "jolt.passes.inline" "field-index") fields k)))) (_a$7115 (jolt-invoke (var-deref "clojure.core" "deref") acc))) (jolt-invoke _a$7113 _a$7114 _a$7115)))))) nodes))))) lookups-all-fields?) (let* ((_o$7116 (keyword #f "private")) (_o$7117 #t) (_o$7118 (keyword #f "doc")) (_o$7119 "True if every lookup of nm across nodes uses a declared field in fields \x2014; the\n record-only guard that keeps a :jolt/deftype/unknown-key read (not a positional\n arg) from being folded to the wrong value.")) (jolt-hash-map _o$7116 _o$7117 _o$7118 _o$7119)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "src-val" (letrec ((src-val (lambda (src k) (let fnrec7227 ((src src) (k k)) (if (jolt= (keyword #f "map") (jolt-get src (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.inline" "map-val") src k) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-val") src (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") src) k)))))) src-val) (let* ((_o$7228 (keyword #f "private")) (_o$7229 #t) (_o$7230 (keyword #f "doc")) (_o$7231 "Field value at k from a foldable struct source \x2014; a const-key map (absent key\n -> nil, struct-map semantics) or a record ctor (k is always a declared field\n here, guaranteed by lookups-all-fields?).")) (jolt-hash-map _o$7228 _o$7229 _o$7230 _o$7231)))) + (def-var-with-meta! "jolt.passes.inline" "src-val" (letrec ((src-val (lambda (src k) (let fnrec7120 ((src src) (k k)) (if (jolt= (keyword #f "map") (jolt-get src (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.inline" "map-val") src k) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-val") src (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") src) k)))))) src-val) (let* ((_o$7121 (keyword #f "private")) (_o$7122 #t) (_o$7123 (keyword #f "doc")) (_o$7124 "Field value at k from a foldable struct source \x2014; a const-key map (absent key\n -> nil, struct-map semantics) or a record ctor (k is always a declared field\n here, guaranteed by lookups-all-fields?).")) (jolt-hash-map _o$7121 _o$7122 _o$7123 _o$7124)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "subst-lookup" (letrec ((subst-lookup (lambda (node nm src) (let fnrec7232 ((node node) (nm nm) (src src)) (let* ((k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (jolt-invoke (var-deref "jolt.passes.inline" "src-val") src k) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7233 ((c c)) (subst-lookup c nm src))) node))))))) subst-lookup) (let* ((_o$7234 (keyword #f "private")) (_o$7235 #t) (_o$7236 (keyword #f "doc")) (_o$7237 "Replace every (:k nm)/(get nm :k) in node with the source value at k. The\n caller guarantees (via local-escapes?) that nm is never rebound here and\n appears only as a lookup subject, so no shadowing logic is needed.")) (jolt-hash-map _o$7234 _o$7235 _o$7236 _o$7237)))) + (def-var-with-meta! "jolt.passes.inline" "subst-lookup" (letrec ((subst-lookup (lambda (node nm src) (let fnrec7125 ((node node) (nm nm) (src src)) (let* ((k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (jolt-invoke (var-deref "jolt.passes.inline" "src-val") src k) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec7126 ((c c)) (subst-lookup c nm src))) node))))))) subst-lookup) (let* ((_o$7127 (keyword #f "private")) (_o$7128 #t) (_o$7129 (keyword #f "doc")) (_o$7130 "Replace every (:k nm)/(get nm :k) in node with the source value at k. The\n caller guarantees (via local-escapes?) that nm is never rebound here and\n appears only as a lookup subject, so no shadowing logic is needed.")) (jolt-hash-map _o$7127 _o$7128 _o$7129 _o$7130)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "fold-kw-literal" (letrec ((fold-kw-literal (lambda (node) (let fnrec7238 ((node node)) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") f))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count args)) and__25__auto))) (let* ((m (jolt-nth args 0)) (k (jolt-get f (keyword #f "val")))) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "map") (jolt-get m (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.inline" "const-key-map?") m))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "all-vals-pure?") m) and__25__auto)) and__25__auto))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (jolt-invoke (var-deref "jolt.passes.inline" "map-val") m k)) (let* ((rs (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") m))) (if (jolt-truthy? (let* ((and__25__auto rs)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.inline" "ctor-all-args-pure?") m))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "field-index") (jolt-get rs (keyword #f "fields")) k) and__25__auto)) and__25__auto))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-val") m rs k)) node)))) node)))))) fold-kw-literal) (let* ((_o$7239 (keyword #f "private")) (_o$7240 #t) (_o$7241 (keyword #f "doc")) (_o$7242 "(a) (:k ) -> the value at k. is a const-key pure map\n ((:k {:k a ..}) -> a) or a pure record ctor ((:k (->Rec a ..)) -> the arg for\n field k). Siblings are duplicated/discarded, so all must be pure; a record\n lookup folds only for a declared field.")) (jolt-hash-map _o$7239 _o$7240 _o$7241 _o$7242)))) + (def-var-with-meta! "jolt.passes.inline" "fold-kw-literal" (letrec ((fold-kw-literal (lambda (node) (let fnrec7131 ((node node)) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") f))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count args)) and__25__auto))) (let* ((m (jolt-nth args 0)) (k (jolt-get f (keyword #f "val")))) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "map") (jolt-get m (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.inline" "const-key-map?") m))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "all-vals-pure?") m) and__25__auto)) and__25__auto))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (jolt-invoke (var-deref "jolt.passes.inline" "map-val") m k)) (let* ((rs (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") m))) (if (jolt-truthy? (let* ((and__25__auto rs)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.inline" "ctor-all-args-pure?") m))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "field-index") (jolt-get rs (keyword #f "fields")) k) and__25__auto)) and__25__auto))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-val") m rs k)) node)))) node)))))) fold-kw-literal) (let* ((_o$7132 (keyword #f "private")) (_o$7133 #t) (_o$7134 (keyword #f "doc")) (_o$7135 "(a) (:k ) -> the value at k. is a const-key pure map\n ((:k {:k a ..}) -> a) or a pure record ctor ((:k (->Rec a ..)) -> the arg for\n field k). Siblings are duplicated/discarded, so all must be pure; a record\n lookup folds only for a declared field.")) (jolt-hash-map _o$7132 _o$7133 _o$7134 _o$7135)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "elim-let-structs" (letrec ((elim-let-structs (lambda (node) (let fnrec7243 ((node node)) (let* ((binds (jolt-get node (keyword #f "bindings"))) (n (jolt-count binds)) (body (jolt-get node (keyword #f "body")))) (let* ((i 0)) (let loop7244 ((i i)) (if (jolt-n< i n) (let* ((b (jolt-nth binds i)) (nm (jolt-nth b 0)) (init (jolt-nth b 1)) (ismap (let* ((and__25__auto (jolt= (keyword #f "map") (jolt-get init (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.inline" "const-key-map?") init))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "all-vals-pure?") init) and__25__auto)) and__25__auto))) (rs (if (jolt-not ismap) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") init) jolt-nil)) (isrec (let* ((and__25__auto rs)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-all-args-pure?") init) and__25__auto)))) (if (jolt-truthy? (let* ((and__25__auto (let* ((or__26__auto ismap)) (if (jolt-truthy? or__26__auto) or__26__auto isrec)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n) nm)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (let* ((j (jolt-inc i))) (let loop7245 ((j j)) (if (jolt-n< j n) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "local-escapes?") (jolt-nth (jolt-nth binds j) 1) nm)) #t (loop7245 (jolt-inc j))) #f)))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "local-escapes?") body nm)))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto ismap)) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((_a$7250 (var-deref "jolt.passes.inline" "lookups-all-fields?")) (_a$7251 (jolt-conj (let* ((_a$7247 (var-deref "clojure.core" "mapv")) (_a$7248 (lambda (bb) (let fnrec7246 ((bb bb)) (jolt-nth bb 1)))) (_a$7249 (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n))) (jolt-invoke _a$7247 _a$7248 _a$7249)) body)) (_a$7252 nm) (_a$7253 (jolt-get rs (keyword #f "fields")))) (jolt-invoke _a$7250 _a$7251 _a$7252 _a$7253)))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((head (jolt-invoke (var-deref "clojure.core" "subvec") binds 0 i)) (tail (let* ((_a$7257 (var-deref "clojure.core" "mapv")) (_a$7258 (lambda (bb) (let fnrec7254 ((bb bb)) (let* ((_o$7255 (jolt-nth bb 0)) (_o$7256 (jolt-invoke (var-deref "jolt.passes.inline" "subst-lookup") (jolt-nth bb 1) nm init))) (jolt-vector _o$7255 _o$7256))))) (_a$7259 (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n))) (jolt-invoke _a$7257 _a$7258 _a$7259))) (newbinds (jolt-reduce jolt-conj head tail)) (newbody (jolt-invoke (var-deref "jolt.passes.inline" "subst-lookup") body nm init))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (if (jolt= 0 (jolt-count newbinds)) newbody (jolt-assoc node (keyword #f "bindings") newbinds (keyword #f "body") newbody)))) (loop7244 (jolt-inc i)))) node)))))))) elim-let-structs) (let* ((_o$7260 (keyword #f "private")) (_o$7261 #t) (_o$7262 (keyword #f "doc")) (_o$7263 "(b) Drop the first non-escaping let binding whose init is a foldable struct\n source \x2014; a pure const-key map literal or a pure record ctor \x2014; substituting its\n field reads into the remaining bindings and body. Fixpoint re-runs us for the\n rest, so one elimination per call keeps it simple. For a record every lookup\n of the binding must hit a declared field, else we keep the allocation.")) (jolt-hash-map _o$7260 _o$7261 _o$7262 _o$7263)))) + (def-var-with-meta! "jolt.passes.inline" "elim-let-structs" (letrec ((elim-let-structs (lambda (node) (let fnrec7136 ((node node)) (let* ((binds (jolt-get node (keyword #f "bindings"))) (n (jolt-count binds)) (body (jolt-get node (keyword #f "body")))) (let* ((i 0)) (let loop7137 ((i i)) (if (< i n) (let* ((b (jolt-nth binds i)) (nm (jolt-nth b 0)) (init (jolt-nth b 1)) (ismap (let* ((and__25__auto (jolt= (keyword #f "map") (jolt-get init (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.inline" "const-key-map?") init))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "all-vals-pure?") init) and__25__auto)) and__25__auto))) (rs (if (jolt-not ismap) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") init) jolt-nil)) (isrec (let* ((and__25__auto rs)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-all-args-pure?") init) and__25__auto)))) (if (jolt-truthy? (let* ((and__25__auto (let* ((or__26__auto ismap)) (if (jolt-truthy? or__26__auto) or__26__auto isrec)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n) nm)))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (let* ((j (jolt-inc i))) (let loop7138 ((j j)) (if (< j n) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "local-escapes?") (jolt-nth (jolt-nth binds j) 1) nm)) #t (loop7138 (jolt-inc j))) #f)))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "local-escapes?") body nm)))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto ismap)) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((_a$7143 (var-deref "jolt.passes.inline" "lookups-all-fields?")) (_a$7144 (jolt-conj (let* ((_a$7140 (var-deref "clojure.core" "mapv")) (_a$7141 (lambda (bb) (let fnrec7139 ((bb bb)) (jolt-nth bb 1)))) (_a$7142 (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n))) (jolt-invoke _a$7140 _a$7141 _a$7142)) body)) (_a$7145 nm) (_a$7146 (jolt-get rs (keyword #f "fields")))) (jolt-invoke _a$7143 _a$7144 _a$7145 _a$7146)))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((head (jolt-invoke (var-deref "clojure.core" "subvec") binds 0 i)) (tail (let* ((_a$7150 (var-deref "clojure.core" "mapv")) (_a$7151 (lambda (bb) (let fnrec7147 ((bb bb)) (let* ((_o$7148 (jolt-nth bb 0)) (_o$7149 (jolt-invoke (var-deref "jolt.passes.inline" "subst-lookup") (jolt-nth bb 1) nm init))) (jolt-vector _o$7148 _o$7149))))) (_a$7152 (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n))) (jolt-invoke _a$7150 _a$7151 _a$7152))) (newbinds (jolt-reduce jolt-conj head tail)) (newbody (jolt-invoke (var-deref "jolt.passes.inline" "subst-lookup") body nm init))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (if (jolt= 0 (jolt-count newbinds)) newbody (jolt-assoc node (keyword #f "bindings") newbinds (keyword #f "body") newbody)))) (loop7137 (jolt-inc i)))) node)))))))) elim-let-structs) (let* ((_o$7153 (keyword #f "private")) (_o$7154 #t) (_o$7155 (keyword #f "doc")) (_o$7156 "(b) Drop the first non-escaping let binding whose init is a foldable struct\n source \x2014; a pure const-key map literal or a pure record ctor \x2014; substituting its\n field reads into the remaining bindings and body. Fixpoint re-runs us for the\n rest, so one elimination per call keeps it simple. For a record every lookup\n of the binding must hit a declared field, else we keep the allocation.")) (jolt-hash-map _o$7153 _o$7154 _o$7155 _o$7156)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.inline" "scalar-replace" (letrec ((scalar-replace (lambda (node) (let fnrec7264 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.inline" "fold-kw-literal") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node)) (if (jolt= op (keyword #f "let")) (jolt-invoke (var-deref "jolt.passes.inline" "elim-let-structs") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node) jolt-nil)))))))) scalar-replace) (let* ((_o$7265 (keyword #f "doc")) (_o$7266 "Bottom-up: scalar-replace children, then apply (a) at invokes / (b) at lets.")) (jolt-hash-map _o$7265 _o$7266)))) + (def-var-with-meta! "jolt.passes.inline" "scalar-replace" (letrec ((scalar-replace (lambda (node) (let fnrec7157 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.inline" "fold-kw-literal") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node)) (if (jolt= op (keyword #f "let")) (jolt-invoke (var-deref "jolt.passes.inline" "elim-let-structs") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node) jolt-nil)))))))) scalar-replace) (let* ((_o$7158 (keyword #f "doc")) (_o$7159 "Bottom-up: scalar-replace children, then apply (a) at invokes / (b) at lets.")) (jolt-hash-map _o$7158 _o$7159)))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "velem" (letrec ((velem (lambda (t) (let fnrec6492 ((t t)) (jolt-get t (keyword #f "vec")))))) velem))) + (def-var! "jolt.passes.types.lattice" "velem" (letrec ((velem (lambda (t) (let fnrec6388 ((t t)) (jolt-get t (keyword #f "vec")))))) velem))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "selem" (letrec ((selem (lambda (t) (let fnrec6493 ((t t)) (jolt-get t (keyword #f "set")))))) selem))) + (def-var! "jolt.passes.types.lattice" "selem" (letrec ((selem (lambda (t) (let fnrec6389 ((t t)) (jolt-get t (keyword #f "set")))))) selem))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "sfields" (letrec ((sfields (lambda (t) (let fnrec6494 ((t t)) (jolt-get t (keyword #f "struct")))))) sfields))) + (def-var! "jolt.passes.types.lattice" "sfields" (letrec ((sfields (lambda (t) (let fnrec6390 ((t t)) (jolt-get t (keyword #f "struct")))))) sfields))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "vec-type?" (letrec ((vec-type? (lambda (t) (let fnrec6495 ((t t)) (jolt-some? (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") t)))))) vec-type?))) + (def-var! "jolt.passes.types.lattice" "vec-type?" (letrec ((vec-type? (lambda (t) (let fnrec6391 ((t t)) (jolt-some? (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") t)))))) vec-type?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "set-type?" (letrec ((set-type? (lambda (t) (let fnrec6496 ((t t)) (jolt-some? (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") t)))))) set-type?))) + (def-var! "jolt.passes.types.lattice" "set-type?" (letrec ((set-type? (lambda (t) (let fnrec6392 ((t t)) (jolt-some? (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") t)))))) set-type?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "struct-type?" (letrec ((struct-type? (lambda (t) (let fnrec6497 ((t t)) (jolt-some? (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t)))))) struct-type?))) + (def-var! "jolt.passes.types.lattice" "struct-type?" (letrec ((struct-type? (lambda (t) (let fnrec6393 ((t t)) (jolt-some? (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t)))))) struct-type?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "mk-vec" (letrec ((mk-vec (lambda (t) (let fnrec6498 ((t t)) (let* ((_o$6499 (keyword #f "vec")) (_o$6500 (if (jolt-truthy? t) t (keyword #f "any")))) (jolt-hash-map _o$6499 _o$6500)))))) mk-vec))) + (def-var! "jolt.passes.types.lattice" "mk-vec" (letrec ((mk-vec (lambda (t) (let fnrec6394 ((t t)) (let* ((_o$6395 (keyword #f "vec")) (_o$6396 (if (jolt-truthy? t) t (keyword #f "any")))) (jolt-hash-map _o$6395 _o$6396)))))) mk-vec))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "mk-set" (letrec ((mk-set (lambda (t) (let fnrec6501 ((t t)) (let* ((_o$6502 (keyword #f "set")) (_o$6503 (if (jolt-truthy? t) t (keyword #f "any")))) (jolt-hash-map _o$6502 _o$6503)))))) mk-set))) + (def-var! "jolt.passes.types.lattice" "mk-set" (letrec ((mk-set (lambda (t) (let fnrec6397 ((t t)) (let* ((_o$6398 (keyword #f "set")) (_o$6399 (if (jolt-truthy? t) t (keyword #f "any")))) (jolt-hash-map _o$6398 _o$6399)))))) mk-set))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "mk-struct" (letrec ((mk-struct (lambda (fs) (let fnrec6504 ((fs fs)) (let* ((_o$6505 (keyword #f "struct")) (_o$6506 fs)) (jolt-hash-map _o$6505 _o$6506)))))) mk-struct))) + (def-var! "jolt.passes.types.lattice" "mk-struct" (letrec ((mk-struct (lambda (fs) (let fnrec6400 ((fs fs)) (let* ((_o$6401 (keyword #f "struct")) (_o$6402 fs)) (jolt-hash-map _o$6401 _o$6402)))))) mk-struct))) (guard (e (#t #f)) (def-var! "jolt.passes.types.lattice" "union-cap" 4)) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "scalar-t?" (letrec ((scalar-t? (lambda (t) (let fnrec6507 ((t t)) (let* ((or__26__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "truthy")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= t (keyword #f "phm")))))))))))))) scalar-t?))) + (def-var! "jolt.passes.types.lattice" "scalar-t?" (letrec ((scalar-t? (lambda (t) (let fnrec6403 ((t t)) (let* ((or__26__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "truthy")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= t (keyword #f "phm")))))))))))))) scalar-t?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "union-type?" (letrec ((union-type? (lambda (t) (let fnrec6508 ((t t)) (jolt-some? (jolt-get t (keyword #f "union"))))))) union-type?))) + (def-var! "jolt.passes.types.lattice" "union-type?" (letrec ((union-type? (lambda (t) (let fnrec6404 ((t t)) (jolt-some? (jolt-get t (keyword #f "union"))))))) union-type?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "umembers" (letrec ((umembers (lambda (t) (let fnrec6509 ((t t)) (jolt-get t (keyword #f "union")))))) umembers))) + (def-var! "jolt.passes.types.lattice" "umembers" (letrec ((umembers (lambda (t) (let fnrec6405 ((t t)) (jolt-get t (keyword #f "union")))))) umembers))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types.lattice" "union-of" (letrec ((union-of (lambda (ts) (let fnrec6510 ((ts ts)) (let* ((flat (let* ((_a$6512 (lambda (acc t) (let fnrec6511 ((acc acc) (t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-reduce jolt-conj acc (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t)) (jolt-conj acc t))))) (_a$6513 (jolt-hash-set)) (_a$6514 ts)) (jolt-reduce _a$6512 _a$6513 _a$6514)))) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.types.lattice" "scalar-t?") flat)) (keyword #f "any") (if (jolt= 0 (jolt-count flat)) (keyword #f "any") (if (jolt= 1 (jolt-count flat)) (jolt-first flat) (if (jolt-n> (jolt-count flat) (var-deref "jolt.passes.types.lattice" "union-cap")) (keyword #f "any") (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6515 (keyword #f "union")) (_o$6516 flat)) (jolt-hash-map _o$6515 _o$6516)) jolt-nil)))))))))) union-of) (let* ((_o$6517 (keyword #f "doc")) (_o$6518 "Normalize a seq of member types into a lattice value: flatten nested unions,\n keep only scalars (any non-scalar member collapses the whole thing to :any,\n the conservative top), then return the lone member if one, {:union #{...}}\n for 2..cap distinct scalars, or :any past the cap.")) (jolt-hash-map _o$6517 _o$6518)))) + (def-var-with-meta! "jolt.passes.types.lattice" "union-of" (letrec ((union-of (lambda (ts) (let fnrec6406 ((ts ts)) (let* ((flat (let* ((_a$6408 (lambda (acc t) (let fnrec6407 ((acc acc) (t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-reduce jolt-conj acc (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t)) (jolt-conj acc t))))) (_a$6409 (jolt-hash-set)) (_a$6410 ts)) (jolt-reduce _a$6408 _a$6409 _a$6410)))) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.types.lattice" "scalar-t?") flat)) (keyword #f "any") (if (jolt= 0 (jolt-count flat)) (keyword #f "any") (if (jolt= 1 (jolt-count flat)) (jolt-first flat) (if (> (jolt-count flat) (var-deref "jolt.passes.types.lattice" "union-cap")) (keyword #f "any") (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6411 (keyword #f "union")) (_o$6412 flat)) (jolt-hash-map _o$6411 _o$6412)) jolt-nil)))))))))) union-of) (let* ((_o$6413 (keyword #f "doc")) (_o$6414 "Normalize a seq of member types into a lattice value: flatten nested unions,\n keep only scalars (any non-scalar member collapses the whole thing to :any,\n the conservative top), then return the lone member if one, {:union #{...}}\n for 2..cap distinct scalars, or :any past the cap.")) (jolt-hash-map _o$6413 _o$6414)))) (guard (e (#t #f)) (declare-var! "jolt.passes.types.lattice" "join-t")) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types.lattice" "merge-fields" (letrec ((merge-fields (lambda (fa fb) (let fnrec6519 ((fa fa) (fb fb)) (let* ((m1 (let* ((_a$6524 (lambda (m k) (let fnrec6520 ((m m) (k k)) (jolt-assoc m k (let* ((_a$6521 (var-deref "jolt.passes.types.lattice" "join-t")) (_a$6522 (jolt-get fa k (keyword #f "any"))) (_a$6523 (jolt-get fb k (keyword #f "any")))) (jolt-invoke _a$6521 _a$6522 _a$6523)))))) (_a$6525 (jolt-hash-map)) (_a$6526 (jolt-keys fa))) (jolt-reduce _a$6524 _a$6525 _a$6526)))) (let* ((_a$6531 (lambda (m k) (let fnrec6527 ((m m) (k k)) (if (jolt-truthy? (jolt-get m k)) m (jolt-assoc m k (let* ((_a$6528 (var-deref "jolt.passes.types.lattice" "join-t")) (_a$6529 (jolt-get fa k (keyword #f "any"))) (_a$6530 (jolt-get fb k (keyword #f "any")))) (jolt-invoke _a$6528 _a$6529 _a$6530))))))) (_a$6532 m1) (_a$6533 (jolt-keys fb))) (jolt-reduce _a$6531 _a$6532 _a$6533))))))) merge-fields) (let* ((_o$6534 (keyword #f "doc")) (_o$6535 "Per-field join of two field maps (a key in only one side joins with :any).")) (jolt-hash-map _o$6534 _o$6535)))) + (def-var-with-meta! "jolt.passes.types.lattice" "merge-fields" (letrec ((merge-fields (lambda (fa fb) (let fnrec6415 ((fa fa) (fb fb)) (let* ((m1 (let* ((_a$6420 (lambda (m k) (let fnrec6416 ((m m) (k k)) (jolt-assoc m k (let* ((_a$6417 (var-deref "jolt.passes.types.lattice" "join-t")) (_a$6418 (jolt-get fa k (keyword #f "any"))) (_a$6419 (jolt-get fb k (keyword #f "any")))) (jolt-invoke _a$6417 _a$6418 _a$6419)))))) (_a$6421 (jolt-hash-map)) (_a$6422 (jolt-keys fa))) (jolt-reduce _a$6420 _a$6421 _a$6422)))) (let* ((_a$6427 (lambda (m k) (let fnrec6423 ((m m) (k k)) (if (jolt-truthy? (jolt-get m k)) m (jolt-assoc m k (let* ((_a$6424 (var-deref "jolt.passes.types.lattice" "join-t")) (_a$6425 (jolt-get fa k (keyword #f "any"))) (_a$6426 (jolt-get fb k (keyword #f "any")))) (jolt-invoke _a$6424 _a$6425 _a$6426))))))) (_a$6428 m1) (_a$6429 (jolt-keys fb))) (jolt-reduce _a$6427 _a$6428 _a$6429))))))) merge-fields) (let* ((_o$6430 (keyword #f "doc")) (_o$6431 "Per-field join of two field maps (a key in only one side joins with :any).")) (jolt-hash-map _o$6430 _o$6431)))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "join-t" (letrec ((join-t (lambda (a b) (let fnrec6536 ((a a) (b b)) (if (jolt= a b) a (if (jolt-nil? a) b (if (jolt-nil? b) a (if (let* ((or__26__auto (jolt= a (keyword #f "nil")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= b (keyword #f "nil")))) (let* ((o (if (jolt= a (keyword #f "nil")) b a))) (if (jolt= o (keyword #f "nil")) (keyword #f "nil") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") o)) (jolt-assoc o (keyword #f "nilable") #t) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))) (if (let* ((or__26__auto (jolt= a (keyword #f "double")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= b (keyword #f "double")))) (let* ((_a$6537 (if (jolt= a (keyword #f "double")) (keyword #f "num") a)) (_a$6538 (if (jolt= b (keyword #f "double")) (keyword #f "num") b))) (join-t _a$6537 _a$6538)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") a))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") b) and__25__auto))) (let* ((merged (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$6539 (var-deref "jolt.passes.types.lattice" "merge-fields")) (_a$6540 (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") a)) (_a$6541 (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") b))) (jolt-invoke _a$6539 _a$6540 _a$6541)))) (merged (if (jolt-truthy? (let* ((and__25__auto (jolt-get a (keyword #f "shape")))) (if (jolt-truthy? and__25__auto) (let* ((_a$6542 (jolt-get a (keyword #f "shape"))) (_a$6543 (jolt-get b (keyword #f "shape")))) (jolt= _a$6542 _a$6543)) and__25__auto))) (jolt-assoc merged (keyword #f "shape") (jolt-get a (keyword #f "shape"))) merged)) (merged (if (jolt-truthy? (let* ((and__25__auto (jolt-get a (keyword #f "type")))) (if (jolt-truthy? and__25__auto) (let* ((_a$6544 (jolt-get a (keyword #f "type"))) (_a$6545 (jolt-get b (keyword #f "type")))) (jolt= _a$6544 _a$6545)) and__25__auto))) (jolt-assoc merged (keyword #f "type") (jolt-get a (keyword #f "type"))) merged)) (merged (if (jolt-truthy? (let* ((or__26__auto (jolt-get a (keyword #f "nilable")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get b (keyword #f "nilable"))))) (jolt-assoc merged (keyword #f "nilable") #t) merged))) merged) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") a))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") b) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$6546 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") a)) (_a$6547 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") b))) (join-t _a$6546 _a$6547))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") a))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") b) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") (let* ((_a$6548 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") a)) (_a$6549 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") b))) (join-t _a$6548 _a$6549))) (if (jolt-truthy? (keyword #f "else")) (let* ((ma (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") a)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") a) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "scalar-t?") a)) (jolt-hash-set a) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) (mb (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") b) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "scalar-t?") b)) (jolt-hash-set b) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))) (if (jolt-truthy? (let* ((and__25__auto ma)) (if (jolt-truthy? and__25__auto) mb and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-of") (jolt-reduce jolt-conj ma mb)) (keyword #f "any"))) jolt-nil))))))))))))) join-t))) + (def-var! "jolt.passes.types.lattice" "join-t" (letrec ((join-t (lambda (a b) (let fnrec6432 ((a a) (b b)) (if (jolt= a b) a (if (jolt-nil? a) b (if (jolt-nil? b) a (if (let* ((or__26__auto (jolt= a (keyword #f "nil")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= b (keyword #f "nil")))) (let* ((o (if (jolt= a (keyword #f "nil")) b a))) (if (jolt= o (keyword #f "nil")) (keyword #f "nil") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") o)) (jolt-assoc o (keyword #f "nilable") #t) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))) (if (let* ((or__26__auto (jolt= a (keyword #f "double")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= b (keyword #f "double")))) (let* ((_a$6433 (if (jolt= a (keyword #f "double")) (keyword #f "num") a)) (_a$6434 (if (jolt= b (keyword #f "double")) (keyword #f "num") b))) (join-t _a$6433 _a$6434)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") a))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") b) and__25__auto))) (let* ((merged (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$6435 (var-deref "jolt.passes.types.lattice" "merge-fields")) (_a$6436 (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") a)) (_a$6437 (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") b))) (jolt-invoke _a$6435 _a$6436 _a$6437)))) (merged (if (jolt-truthy? (let* ((and__25__auto (jolt-get a (keyword #f "shape")))) (if (jolt-truthy? and__25__auto) (let* ((_a$6438 (jolt-get a (keyword #f "shape"))) (_a$6439 (jolt-get b (keyword #f "shape")))) (jolt= _a$6438 _a$6439)) and__25__auto))) (jolt-assoc merged (keyword #f "shape") (jolt-get a (keyword #f "shape"))) merged)) (merged (if (jolt-truthy? (let* ((and__25__auto (jolt-get a (keyword #f "type")))) (if (jolt-truthy? and__25__auto) (let* ((_a$6440 (jolt-get a (keyword #f "type"))) (_a$6441 (jolt-get b (keyword #f "type")))) (jolt= _a$6440 _a$6441)) and__25__auto))) (jolt-assoc merged (keyword #f "type") (jolt-get a (keyword #f "type"))) merged)) (merged (if (jolt-truthy? (let* ((or__26__auto (jolt-get a (keyword #f "nilable")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get b (keyword #f "nilable"))))) (jolt-assoc merged (keyword #f "nilable") #t) merged))) merged) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") a))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") b) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$6442 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") a)) (_a$6443 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") b))) (join-t _a$6442 _a$6443))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") a))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") b) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") (let* ((_a$6444 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") a)) (_a$6445 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") b))) (join-t _a$6444 _a$6445))) (if (jolt-truthy? (keyword #f "else")) (let* ((ma (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") a)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") a) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "scalar-t?") a)) (jolt-hash-set a) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) (mb (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") b) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "scalar-t?") b)) (jolt-hash-set b) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))) (if (jolt-truthy? (let* ((and__25__auto ma)) (if (jolt-truthy? and__25__auto) mb and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-of") (jolt-reduce jolt-conj ma mb)) (keyword #f "any"))) jolt-nil))))))))))))) join-t))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "join" (letrec ((join (lambda (a b) (let fnrec6550 ((a a) (b b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join-t") a b))))) join))) + (def-var! "jolt.passes.types.lattice" "join" (letrec ((join (lambda (a b) (let fnrec6446 ((a a) (b b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join-t") a b))))) join))) (guard (e (#t #f)) (def-var! "jolt.passes.types.lattice" "type-depth" 4)) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "cap" (letrec ((cap (lambda (t d) (let fnrec6551 ((t t) (d d)) (if (jolt-n<= d 0) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)))))) (keyword #f "any") t) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t)) (let* ((capped (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$6555 (lambda (m k) (let fnrec6552 ((m m) (k k)) (jolt-assoc m k (let* ((_a$6553 (jolt-get (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t) k)) (_a$6554 (jolt-dec d))) (cap _a$6553 _a$6554)))))) (_a$6556 (jolt-hash-map)) (_a$6557 (jolt-keys (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t)))) (jolt-reduce _a$6555 _a$6556 _a$6557)))) (capped (if (jolt-truthy? (jolt-get t (keyword #f "shape"))) (jolt-assoc capped (keyword #f "shape") (jolt-get t (keyword #f "shape"))) capped)) (capped (if (jolt-truthy? (jolt-get t (keyword #f "type"))) (jolt-assoc capped (keyword #f "type") (jolt-get t (keyword #f "type"))) capped))) capped) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$6558 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") t)) (_a$6559 (jolt-dec d))) (cap _a$6558 _a$6559))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") (let* ((_a$6560 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") t)) (_a$6561 (jolt-dec d))) (cap _a$6560 _a$6561))) (if (jolt-truthy? (keyword #f "else")) t jolt-nil))))))))) cap))) + (def-var! "jolt.passes.types.lattice" "cap" (letrec ((cap (lambda (t d) (let fnrec6447 ((t t) (d d)) (if (<= d 0) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)))))) (keyword #f "any") t) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t)) (let* ((capped (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$6451 (lambda (m k) (let fnrec6448 ((m m) (k k)) (jolt-assoc m k (let* ((_a$6449 (jolt-get (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t) k)) (_a$6450 (jolt-dec d))) (cap _a$6449 _a$6450)))))) (_a$6452 (jolt-hash-map)) (_a$6453 (jolt-keys (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t)))) (jolt-reduce _a$6451 _a$6452 _a$6453)))) (capped (if (jolt-truthy? (jolt-get t (keyword #f "shape"))) (jolt-assoc capped (keyword #f "shape") (jolt-get t (keyword #f "shape"))) capped)) (capped (if (jolt-truthy? (jolt-get t (keyword #f "type"))) (jolt-assoc capped (keyword #f "type") (jolt-get t (keyword #f "type"))) capped))) capped) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$6454 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") t)) (_a$6455 (jolt-dec d))) (cap _a$6454 _a$6455))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") (let* ((_a$6456 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") t)) (_a$6457 (jolt-dec d))) (cap _a$6456 _a$6457))) (if (jolt-truthy? (keyword #f "else")) t jolt-nil))))))))) cap))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "struct-safe?" (letrec ((struct-safe? (lambda (t) (let fnrec6562 ((t t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))))) struct-safe?))) + (def-var! "jolt.passes.types.lattice" "struct-safe?" (letrec ((struct-safe? (lambda (t) (let fnrec6458 ((t t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))))) struct-safe?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "field-type" (letrec ((field-type (lambda (t k) (let fnrec6563 ((t t) (k k)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get t (keyword #f "nilable"))) and__25__auto))) (jolt-get (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t) k (keyword #f "any")) (keyword #f "any")))))) field-type))) + (def-var! "jolt.passes.types.lattice" "field-type" (letrec ((field-type (lambda (t k) (let fnrec6459 ((t t) (k k)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get t (keyword #f "nilable"))) and__25__auto))) (jolt-get (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t) k (keyword #f "any")) (keyword #f "any")))))) field-type))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "nilable?" (letrec ((nilable? (lambda (t) (let fnrec6564 ((t t)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") t))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get t (keyword #f "nilable")))) (if (jolt-truthy? and__25__auto) #t and__25__auto)) and__25__auto)))))) nilable?))) + (def-var! "jolt.passes.types.lattice" "nilable?" (letrec ((nilable? (lambda (t) (let fnrec6460 ((t t)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") t))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get t (keyword #f "nilable")))) (if (jolt-truthy? and__25__auto) #t and__25__auto)) and__25__auto)))))) nilable?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "strip-nilable" (letrec ((strip-nilable (lambda (t) (let fnrec6565 ((t t)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") t))) (if (jolt-truthy? and__25__auto) (jolt-get t (keyword #f "nilable")) and__25__auto))) (jolt-dissoc t (keyword #f "nilable")) t))))) strip-nilable))) + (def-var! "jolt.passes.types.lattice" "strip-nilable" (letrec ((strip-nilable (lambda (t) (let fnrec6461 ((t t)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") t))) (if (jolt-truthy? and__25__auto) (jolt-get t (keyword #f "nilable")) and__25__auto))) (jolt-dissoc t (keyword #f "nilable")) t))))) strip-nilable))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types.lattice" "shape-order" (letrec ((shape-order (lambda (ks) (let fnrec6566 ((ks ks)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "sort") (lambda (a b) (let fnrec6567 ((a a) (b b)) (let* ((_a$6568 (var-deref "clojure.core" "compare")) (_a$6569 (jolt-invoke (var-deref "clojure.core" "str") a)) (_a$6570 (jolt-invoke (var-deref "clojure.core" "str") b))) (jolt-invoke _a$6568 _a$6569 _a$6570)))) ks)))))) shape-order) (let* ((_o$6571 (keyword #f "doc")) (_o$6572 "Canonical key order for a shape: keys sorted by their string form, so two\n literals with the same keys in any order intern to the same shape.")) (jolt-hash-map _o$6571 _o$6572)))) + (def-var-with-meta! "jolt.passes.types.lattice" "shape-order" (letrec ((shape-order (lambda (ks) (let fnrec6462 ((ks ks)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "sort") (lambda (a b) (let fnrec6463 ((a a) (b b)) (let* ((_a$6464 (var-deref "clojure.core" "compare")) (_a$6465 (jolt-invoke (var-deref "clojure.core" "str") a)) (_a$6466 (jolt-invoke (var-deref "clojure.core" "str") b))) (jolt-invoke _a$6464 _a$6465 _a$6466)))) ks)))))) shape-order) (let* ((_o$6467 (keyword #f "doc")) (_o$6468 "Canonical key order for a shape: keys sorted by their string form, so two\n literals with the same keys in any order intern to the same shape.")) (jolt-hash-map _o$6467 _o$6468)))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "type-shape" (letrec ((type-shape (lambda (t) (let fnrec6573 ((t t)) (jolt-get t (keyword #f "shape")))))) type-shape))) + (def-var! "jolt.passes.types.lattice" "type-shape" (letrec ((type-shape (lambda (t) (let fnrec6469 ((t t)) (jolt-get t (keyword #f "shape")))))) type-shape))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "mark-struct" (letrec ((mark-struct (lambda (node t) (let fnrec6574 ((node node) (t t)) (let* ((n (jolt-assoc node (keyword #f "hint") (keyword #f "struct")))) (if (jolt-truthy? (jolt-get t (keyword #f "shape"))) (jolt-assoc n (keyword #f "shape") (jolt-get t (keyword #f "shape"))) n)))))) mark-struct))) + (def-var! "jolt.passes.types.lattice" "mark-struct" (letrec ((mark-struct (lambda (node t) (let fnrec6470 ((node node) (t t)) (let* ((n (jolt-assoc node (keyword #f "hint") (keyword #f "struct")))) (if (jolt-truthy? (jolt-get t (keyword #f "shape"))) (jolt-assoc n (keyword #f "shape") (jolt-get t (keyword #f "shape"))) n)))))) mark-struct))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "truthy-type?" (letrec ((truthy-type? (lambda (t) (let fnrec6575 ((t t)) (let* ((or__26__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "double")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "truthy")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "phm")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get t (keyword #f "nilable"))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t))))))))))))))))))))) truthy-type?))) + (def-var! "jolt.passes.types.lattice" "truthy-type?" (letrec ((truthy-type? (lambda (t) (let fnrec6471 ((t t)) (let* ((or__26__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "double")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "truthy")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt= t (keyword #f "phm")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get t (keyword #f "nilable"))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t))))))))))))))))))))) truthy-type?))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "num-ret-fns" (let* ((_o$6576 "+") (_o$6577 "-") (_o$6578 "*") (_o$6579 "/") (_o$6580 "inc") (_o$6581 "dec") (_o$6582 "mod") (_o$6583 "rem") (_o$6584 "quot") (_o$6585 "min") (_o$6586 "max") (_o$6587 "abs") (_o$6588 "bit-and") (_o$6589 "bit-or") (_o$6590 "bit-xor") (_o$6591 "count")) (jolt-hash-set _o$6576 _o$6577 _o$6578 _o$6579 _o$6580 _o$6581 _o$6582 _o$6583 _o$6584 _o$6585 _o$6586 _o$6587 _o$6588 _o$6589 _o$6590 _o$6591)))) + (def-var! "jolt.passes.types.lattice" "num-ret-fns" (let* ((_o$6472 "+") (_o$6473 "-") (_o$6474 "*") (_o$6475 "/") (_o$6476 "inc") (_o$6477 "dec") (_o$6478 "mod") (_o$6479 "rem") (_o$6480 "quot") (_o$6481 "min") (_o$6482 "max") (_o$6483 "abs") (_o$6484 "bit-and") (_o$6485 "bit-or") (_o$6486 "bit-xor") (_o$6487 "count")) (jolt-hash-set _o$6472 _o$6473 _o$6474 _o$6475 _o$6476 _o$6477 _o$6478 _o$6479 _o$6480 _o$6481 _o$6482 _o$6483 _o$6484 _o$6485 _o$6486 _o$6487)))) (guard (e (#t #f)) - (def-var! "jolt.passes.types.lattice" "vector-ret-fns" (let* ((_o$6592 "vec") (_o$6593 "vector") (_o$6594 "mapv") (_o$6595 "filterv") (_o$6596 "subvec")) (jolt-hash-set _o$6592 _o$6593 _o$6594 _o$6595 _o$6596)))) + (def-var! "jolt.passes.types.lattice" "vector-ret-fns" (let* ((_o$6488 "vec") (_o$6489 "vector") (_o$6490 "mapv") (_o$6491 "filterv") (_o$6492 "subvec")) (jolt-hash-set _o$6488 _o$6489 _o$6490 _o$6491 _o$6492)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types.check" "not-number?" (letrec ((not-number? (lambda (t) (let fnrec6597 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-invoke (var-deref "clojure.core" "every?") not-number? 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"jolt.passes.types.check" "seq-ops" (let* ((_o$6520 "count") (_o$6521 "first") (_o$6522 "rest") (_o$6523 "next") (_o$6524 "seq") (_o$6525 "nth")) (jolt-hash-set _o$6520 _o$6521 _o$6522 _o$6523 _o$6524 _o$6525)) (let* ((_o$6526 (keyword #f "private")) (_o$6527 #t)) (jolt-hash-map _o$6526 _o$6527)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types.check" "type-name" (letrec ((type-name (lambda (t) (let fnrec6632 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (let* ((_a$6634 (lambda (s m) (let fnrec6633 ((s s) (m m)) (if (jolt= s "") (type-name m) (jolt-invoke (var-deref "clojure.core" "str") s " or " (type-name m)))))) (_a$6635 "") (_a$6636 (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t))) (jolt-reduce _a$6634 _a$6635 _a$6636)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t)) "a map" (if (jolt-truthy? 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(keyword #f "else")) jolt-nil jolt-nil))))))) check-invoke) (let* ((_o$6582 (keyword #f "doc")) (_o$6583 "If node is a core-op call whose argument type is provably in the error domain,\n conj a diagnostic into env's diags cell. arg-types is the vector of inferred\n argument types; pos is the call form's source offset, carried into each\n diagnostic.")) (jolt-hash-map _o$6582 _o$6583)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types.check" "register-user-fn!" (letrec ((register-user-fn! (lambda (node env) (let fnrec6688 ((node node) (env env)) (let* ((init (jolt-get node (keyword #f "init"))) (m (jolt-get node (keyword #f "meta"))) (redefable (let* ((and__25__auto m)) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-get m (keyword #f "redef")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get m (keyword #f "dynamic")))) and__25__auto)))) (if (let* ((and__25__auto (jolt-not redefable))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get init (keyword #f "op"))) and__25__auto)) (let* ((arities (jolt-get init (keyword #f "arities")))) (if (jolt= 1 (jolt-count arities)) (let* ((ar (jolt-first arities))) (if (jolt-not (jolt-get ar (keyword #f "rest"))) (let* ((_a$6699 (var-deref "clojure.core" "swap!")) (_a$6700 (jolt-get env (keyword #f "user-sigs"))) (_a$6701 jolt-assoc) (_a$6702 (let* ((_a$6689 (var-deref "clojure.core" "str")) (_a$6690 (jolt-get node (keyword #f "ns"))) (_a$6691 "/") (_a$6692 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$6689 _a$6690 _a$6691 _a$6692))) (_a$6703 (let* ((_o$6693 (keyword #f "name")) (_o$6694 (jolt-get node (keyword #f "name"))) (_o$6695 (keyword #f "params")) (_o$6696 (jolt-get ar (keyword #f "params"))) (_o$6697 (keyword #f "body")) (_o$6698 (jolt-get ar (keyword #f "body")))) (jolt-hash-map _o$6693 _o$6694 _o$6695 _o$6696 _o$6697 _o$6698)))) (jolt-invoke _a$6699 _a$6700 _a$6701 _a$6702 _a$6703)) jolt-nil)) jolt-nil)) jolt-nil)))))) register-user-fn!) (let* ((_o$6704 (keyword #f "doc")) (_o$6705 "Record a (def name (fn [params] body)) \x2014; single fixed arity, not redefinable \x2014;\n for later user-fn call checking. Redefinable/dynamic and multi/variadic fns are\n skipped (their body is not a stable requirement).")) (jolt-hash-map _o$6704 _o$6705)))) + (def-var-with-meta! "jolt.passes.types.check" "register-user-fn!" (letrec ((register-user-fn! (lambda (node env) (let fnrec6584 ((node node) (env env)) (let* ((init (jolt-get node (keyword #f "init"))) (m (jolt-get node (keyword #f "meta"))) (redefable (let* ((and__25__auto m)) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-get m (keyword #f "redef")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get m (keyword #f "dynamic")))) and__25__auto)))) (if (let* ((and__25__auto (jolt-not redefable))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get init (keyword #f "op"))) and__25__auto)) (let* ((arities (jolt-get init (keyword #f "arities")))) (if (jolt= 1 (jolt-count arities)) (let* ((ar (jolt-first arities))) (if (jolt-not (jolt-get ar (keyword #f "rest"))) (let* ((_a$6595 (var-deref "clojure.core" "swap!")) 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(jolt-hash-map _o$6600 _o$6601)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "config-box" (jolt-invoke (var-deref "clojure.core" "atom") (let* ((_o$5648 (keyword #f "rtenv")) (_o$5649 (jolt-hash-map)) (_o$5650 (keyword #f "vtypes")) (_o$5651 (jolt-hash-map)) (_o$5652 (keyword #f "record-shapes")) (_o$5653 (jolt-hash-map)) (_o$5654 (keyword #f "protocol-methods")) (_o$5655 (jolt-hash-map)) (_o$5656 (keyword #f "map-shapes?")) (_o$5657 #f)) (jolt-hash-map _o$5648 _o$5649 _o$5650 _o$5651 _o$5652 _o$5653 _o$5654 _o$5655 _o$5656 _o$5657))) (let* ((_o$5658 (keyword #f "private")) (_o$5659 #t)) (jolt-hash-map _o$5658 _o$5659)))) + (def-var-with-meta! 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"jolt.passes.types" "mk-env" (letrec ((mk-env (lambda (checking? strict?) (let fnrec5570 ((checking? checking?) (strict? strict?)) (let* ((c (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "config-box")))) (let* ((_o$5571 (keyword #f "rtenv")) (_o$5572 (jolt-get c (keyword #f "rtenv"))) (_o$5573 (keyword #f "vtypes")) (_o$5574 (jolt-get c (keyword #f "vtypes"))) (_o$5575 (keyword #f "record-shapes")) (_o$5576 (jolt-get c (keyword #f "record-shapes"))) (_o$5577 (keyword #f "protocol-methods")) (_o$5578 (jolt-get c (keyword #f "protocol-methods"))) (_o$5579 (keyword #f "map-shapes?")) (_o$5580 (jolt-get c (keyword #f "map-shapes?"))) (_o$5581 (keyword #f "checking?")) (_o$5582 checking?) (_o$5583 (keyword #f "strict?")) (_o$5584 strict?) 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"jolt.passes.types" "field-type-from-tag" (letrec ((field-type-from-tag (lambda (tag depth shapes) (let fnrec5599 ((tag tag) (depth depth) (shapes shapes)) (if (let* ((or__26__auto (jolt-nil? tag))) (if (jolt-truthy? or__26__auto) or__26__auto (<= depth 0))) (keyword #f "any") (if (jolt= tag "num") (keyword #f "num") (if (jolt= tag "double") (keyword #f "double") (if (jolt-truthy? (keyword #f "else")) (let* ((e (jolt-get shapes tag))) (if (jolt-truthy? e) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e depth shapes) (keyword #f "any"))) jolt-nil)))))))) field-type-from-tag) (let* ((_o$5600 (keyword #f "private")) (_o$5601 #t)) (jolt-hash-map _o$5600 _o$5601)))) (guard (e (#t #f)) - (def-var-with-meta! 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"jolt.passes.types" "record-type-from-entry" (letrec ((record-type-from-entry (lambda (rs depth shapes) (let fnrec5602 ((rs rs) (depth depth) (shapes shapes)) (let* ((fields (jolt-get rs (keyword #f "fields"))) (tags (jolt-get rs (keyword #f "tags"))) (fmap (let* ((_a$5611 (lambda (m i) (let fnrec5603 ((m m) (i i)) (let* ((_a$5608 m) (_a$5609 (jolt-nth fields i)) (_a$5610 (let* ((_a$5604 (var-deref "jolt.passes.types" "field-type-from-tag")) (_a$5605 (if (jolt-truthy? tags) (jolt-nth tags i) jolt-nil)) (_a$5606 (jolt-dec depth)) (_a$5607 shapes)) (jolt-invoke _a$5604 _a$5605 _a$5606 _a$5607)))) (jolt-assoc _a$5608 _a$5609 _a$5610))))) (_a$5612 (jolt-hash-map)) (_a$5613 (jolt-range (jolt-count fields)))) (jolt-reduce _a$5611 _a$5612 _a$5613)))) (let* ((_a$5614 (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") fmap)) (_a$5615 (keyword #f "shape")) (_a$5616 (jolt-invoke (var-deref "clojure.core" "vec") fields)) (_a$5617 (keyword #f "type")) (_a$5618 (jolt-get rs (keyword #f "type")))) (jolt-assoc _a$5614 _a$5615 _a$5616 _a$5617 _a$5618))))))) record-type-from-entry) (let* ((_o$5619 (keyword #f "private")) (_o$5620 #t)) (jolt-hash-map _o$5619 _o$5620)))) (guard (e (#t #f)) - (def-var-with-meta! 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"jolt.passes.types" "var-key" (letrec ((var-key (lambda (fnode) (let fnrec5734 ((fnode fnode)) (let* ((_a$5735 (var-deref "clojure.core" "str")) (_a$5736 (jolt-get fnode (keyword #f "ns"))) (_a$5737 "/") (_a$5738 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$5735 _a$5736 _a$5737 _a$5738)))))) var-key) (let* ((_o$5739 (keyword #f "private")) (_o$5740 #t)) (jolt-hash-map _o$5739 _o$5740)))) + (def-var-with-meta! "jolt.passes.types" "var-key" (letrec ((var-key (lambda (fnode) (let fnrec5630 ((fnode fnode)) (let* ((_a$5631 (var-deref "clojure.core" "str")) (_a$5632 (jolt-get fnode (keyword #f "ns"))) (_a$5633 "/") (_a$5634 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$5631 _a$5632 _a$5633 _a$5634)))))) var-key) (let* ((_o$5635 (keyword #f "private")) (_o$5636 #t)) (jolt-hash-map _o$5635 _o$5636)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "call-ret-type" (letrec ((call-ret-type (lambda (fnode env) (let fnrec5741 ((fnode fnode) (env env)) (let* ((op (jolt-get fnode (keyword #f "op"))) (shapes (jolt-get env (keyword #f "record-shapes")))) (if (jolt= op (keyword #f "var")) (let* ((rs (jolt-get shapes (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)))) (if (jolt-truthy? rs) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") rs (var-deref "jolt.passes.types.lattice" "type-depth") shapes) (let* ((r (let* ((_a$5742 (jolt-get env (keyword #f "rtenv"))) (_a$5743 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5742 _a$5743)))) (if (jolt-truthy? r) r (let* ((pm (let* ((_a$5744 (jolt-get env (keyword #f "protocol-methods"))) (_a$5745 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5744 _a$5745))) (pmr (if (jolt-truthy? pm) (let* ((_a$5750 (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "pm-rets-box"))) (_a$5751 (let* ((_a$5746 (var-deref "clojure.core" "str")) (_a$5747 (jolt-nth pm 0)) (_a$5748 "/") (_a$5749 (jolt-nth pm 1))) (jolt-invoke _a$5746 _a$5747 _a$5748 _a$5749)))) (jolt-get _a$5750 _a$5751)) jolt-nil))) (if (jolt-truthy? (let* ((and__25__auto pmr)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "not=") pmr (keyword #f "any")) and__25__auto))) pmr (let* ((nm (let* ((and__25__auto (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt-get fnode (keyword #f "name")) and__25__auto)))) (if (jolt-nil? nm) (keyword #f "any") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "num-ret-fns") nm) (keyword #f "num") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "vector-ret-fns") nm) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "any")) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil))))))))))) (if (jolt= op (keyword #f "host")) (let* ((nm (jolt-get fnode (keyword #f "name")))) (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "num-ret-fns") nm) (keyword #f "num") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "vector-ret-fns") nm) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "any")) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))))))) call-ret-type) (let* ((_o$5752 (keyword #f "private")) (_o$5753 #t)) (jolt-hash-map _o$5752 _o$5753)))) + (def-var-with-meta! "jolt.passes.types" "call-ret-type" (letrec ((call-ret-type (lambda (fnode env) (let fnrec5637 ((fnode fnode) (env env)) (let* ((op (jolt-get fnode (keyword #f "op"))) (shapes (jolt-get env (keyword #f "record-shapes")))) (if (jolt= op (keyword #f "var")) (let* ((rs (jolt-get shapes (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)))) (if (jolt-truthy? rs) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") rs (var-deref "jolt.passes.types.lattice" "type-depth") shapes) (let* ((r (let* ((_a$5638 (jolt-get env (keyword #f "rtenv"))) (_a$5639 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5638 _a$5639)))) (if (jolt-truthy? r) r (let* ((pm (let* ((_a$5640 (jolt-get env (keyword #f "protocol-methods"))) (_a$5641 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5640 _a$5641))) (pmr (if (jolt-truthy? pm) (let* ((_a$5646 (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "pm-rets-box"))) (_a$5647 (let* ((_a$5642 (var-deref "clojure.core" "str")) (_a$5643 (jolt-nth pm 0)) (_a$5644 "/") (_a$5645 (jolt-nth pm 1))) (jolt-invoke _a$5642 _a$5643 _a$5644 _a$5645)))) (jolt-get _a$5646 _a$5647)) jolt-nil))) (if (jolt-truthy? (let* ((and__25__auto pmr)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "not=") pmr (keyword #f "any")) and__25__auto))) pmr (let* ((nm (let* ((and__25__auto (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (jolt-get fnode (keyword #f "name")) and__25__auto)))) (if (jolt-nil? nm) (keyword #f "any") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "num-ret-fns") nm) (keyword #f "num") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "vector-ret-fns") nm) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "any")) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil))))))))))) (if (jolt= op (keyword #f "host")) (let* ((nm (jolt-get fnode (keyword #f "name")))) (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "num-ret-fns") nm) (keyword #f "num") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "vector-ret-fns") nm) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "any")) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))))))) call-ret-type) (let* ((_o$5648 (keyword #f "private")) (_o$5649 #t)) (jolt-hash-map _o$5648 _o$5649)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "fold-preds" (let* ((_o$5754 "number?") (_o$5755 "string?") (_o$5756 "keyword?") (_o$5757 "record?") (_o$5758 "nil?") (_o$5759 "some?")) (jolt-hash-set _o$5754 _o$5755 _o$5756 _o$5757 _o$5758 _o$5759)) (let* ((_o$5760 (keyword #f "private")) (_o$5761 #t)) (jolt-hash-map _o$5760 _o$5761)))) + (def-var-with-meta! "jolt.passes.types" "fold-preds" (let* ((_o$5650 "number?") (_o$5651 "string?") (_o$5652 "keyword?") (_o$5653 "record?") (_o$5654 "nil?") (_o$5655 "some?")) (jolt-hash-set _o$5650 _o$5651 _o$5652 _o$5653 _o$5654 _o$5655)) (let* ((_o$5656 (keyword #f "private")) (_o$5657 #t)) (jolt-hash-map _o$5656 _o$5657)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "record-t?" (letrec ((record-t? (lambda (t) (let fnrec5762 ((t t)) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__25__auto) (jolt-some? (jolt-get t (keyword #f "type"))) and__25__auto)))))) record-t?) (let* ((_o$5763 (keyword #f "private")) (_o$5764 #t)) (jolt-hash-map _o$5763 _o$5764)))) + (def-var-with-meta! "jolt.passes.types" "record-t?" (letrec ((record-t? (lambda (t) (let fnrec5658 ((t t)) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__25__auto) (jolt-some? (jolt-get t (keyword #f "type"))) and__25__auto)))))) record-t?) (let* ((_o$5659 (keyword #f "private")) (_o$5660 #t)) (jolt-hash-map _o$5659 _o$5660)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "pred-on" (letrec ((pred-on (lambda (pname t) (let fnrec5765 ((pname pname) (t t)) (if (let* ((or__26__auto (jolt= t (keyword #f "any")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= t (keyword #f "truthy")))) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "nilable?") t)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (let* ((vs (let* ((_a$5767 (lambda (m) (let fnrec5766 ((m m)) (pred-on pname m)))) (_a$5768 (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t))) (jolt-map _a$5767 _a$5768)))) (if (jolt-truthy? (let* ((and__25__auto (jolt-seq vs))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-nil? (jolt-first vs))))) (if (jolt-truthy? and__25__auto) (jolt-apply jolt= vs) and__25__auto)) and__25__auto))) (jolt-first vs) jolt-nil)) (if (jolt-truthy? (keyword #f "else")) (let* ((G__138 pname)) (if (jolt= G__138 "number?") (let* ((or__26__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= t (keyword #f "double")))) (if (jolt= G__138 "string?") (jolt= t (keyword #f "str")) (if (jolt= G__138 "keyword?") (jolt= t (keyword #f "kw")) (if (jolt= G__138 "record?") (jolt-invoke (var-deref "jolt.passes.types" "record-t?") t) (if (jolt= G__138 "nil?") #f (if (jolt= G__138 "some?") #t jolt-nil))))))) jolt-nil)))))))) pred-on) (let* ((_o$5769 (keyword #f "private")) (_o$5770 #t)) (jolt-hash-map _o$5769 _o$5770)))) + (def-var-with-meta! "jolt.passes.types" "pred-on" (letrec ((pred-on (lambda (pname t) (let fnrec5661 ((pname pname) (t t)) (if (let* ((or__26__auto (jolt= t (keyword #f "any")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= t (keyword #f "truthy")))) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "nilable?") t)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (let* ((vs (let* ((_a$5663 (lambda (m) (let fnrec5662 ((m m)) (pred-on pname m)))) (_a$5664 (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t))) (jolt-map _a$5663 _a$5664)))) (if (jolt-truthy? (let* ((and__25__auto (jolt-seq vs))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-not (jolt-nil? (jolt-first vs))))) (if (jolt-truthy? and__25__auto) (jolt-apply jolt= vs) and__25__auto)) and__25__auto))) (jolt-first vs) jolt-nil)) (if (jolt-truthy? (keyword #f "else")) (let* ((G__135 pname)) (if (jolt= G__135 "number?") (let* ((or__26__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= t (keyword #f "double")))) (if (jolt= G__135 "string?") (jolt= t (keyword #f "str")) (if (jolt= G__135 "keyword?") (jolt= t (keyword #f "kw")) (if (jolt= G__135 "record?") (jolt-invoke (var-deref "jolt.passes.types" "record-t?") t) (if (jolt= G__135 "nil?") #f (if (jolt= G__135 "some?") #t jolt-nil))))))) jolt-nil)))))))) pred-on) (let* ((_o$5665 (keyword #f "private")) (_o$5666 #t)) (jolt-hash-map _o$5665 _o$5666)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "pure-node?" (letrec ((pure-node? (lambda (n) (let fnrec5771 ((n n)) (let* ((op (jolt-get n (keyword #f "op")))) (let* ((or__26__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "local"))))))))) pure-node?) (let* ((_o$5772 (keyword #f "private")) (_o$5773 #t)) (jolt-hash-map _o$5772 _o$5773)))) + (def-var-with-meta! "jolt.passes.types" "pure-node?" (letrec ((pure-node? (lambda (n) (let fnrec5667 ((n n)) (let* ((op (jolt-get n (keyword #f "op")))) (let* ((or__26__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= op (keyword #f "local"))))))))) pure-node?) (let* ((_o$5668 (keyword #f "private")) (_o$5669 #t)) (jolt-hash-map _o$5668 _o$5669)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "test-local" (letrec ((test-local (lambda (test pred-name) (let fnrec5774 ((test test) (pred-name pred-name)) (if (jolt= (keyword #f "invoke") (jolt-get test (keyword #f "op"))) (let* ((f (jolt-get test (keyword #f "fn"))) (args (jolt-get test (keyword #f "args")))) (if (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= pred-name (jolt-get f (keyword #f "name"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto)) (jolt-get (jolt-nth args 0) (keyword #f "name")) jolt-nil)) jolt-nil))))) test-local) (let* ((_o$5775 (keyword #f "private")) (_o$5776 #t)) (jolt-hash-map _o$5775 _o$5776)))) + (def-var-with-meta! "jolt.passes.types" "test-local" (letrec ((test-local (lambda (test pred-name) (let fnrec5670 ((test test) (pred-name pred-name)) (if (jolt= (keyword #f "invoke") (jolt-get test (keyword #f "op"))) (let* ((f (jolt-get test (keyword #f "fn"))) (args (jolt-get test (keyword #f "args")))) (if (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= pred-name (jolt-get f (keyword #f "name"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto)) (jolt-get (jolt-nth args 0) (keyword #f "name")) jolt-nil)) jolt-nil))))) test-local) (let* ((_o$5671 (keyword #f "private")) (_o$5672 #t)) (jolt-hash-map _o$5671 _o$5672)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "narrow-nonnil" (letrec ((narrow-nonnil (lambda (tenv nm) (let fnrec5777 ((tenv tenv) (nm nm)) (let* ((t (jolt-get tenv nm))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "nilable?") t)) (jolt-assoc tenv nm (jolt-invoke (var-deref "jolt.passes.types.lattice" "strip-nilable") t)) tenv)))))) narrow-nonnil) (let* ((_o$5778 (keyword #f "private")) (_o$5779 #t)) (jolt-hash-map _o$5778 _o$5779)))) + (def-var-with-meta! "jolt.passes.types" "narrow-nonnil" (letrec ((narrow-nonnil (lambda (tenv nm) (let fnrec5673 ((tenv tenv) (nm nm)) (let* ((t (jolt-get tenv nm))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "nilable?") t)) (jolt-assoc tenv nm (jolt-invoke (var-deref "jolt.passes.types.lattice" "strip-nilable") t)) tenv)))))) narrow-nonnil) (let* ((_o$5674 (keyword #f "private")) (_o$5675 #t)) (jolt-hash-map _o$5674 _o$5675)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "if-narrow" (letrec ((if-narrow (lambda (test tenv) (let fnrec5780 ((test test) (tenv tenv)) (let* ((somev (jolt-invoke (var-deref "jolt.passes.types" "test-local") test "some?")) (nilv (jolt-invoke (var-deref "jolt.passes.types" "test-local") test "nil?"))) (if (jolt= (keyword #f "local") (jolt-get test (keyword #f "op"))) (let* ((_o$5781 (jolt-invoke (var-deref "jolt.passes.types" "narrow-nonnil") tenv (jolt-get test (keyword #f "name")))) (_o$5782 tenv)) (jolt-vector _o$5781 _o$5782)) (if (jolt-truthy? somev) (let* ((_o$5783 (jolt-invoke (var-deref "jolt.passes.types" "narrow-nonnil") tenv somev)) (_o$5784 tenv)) (jolt-vector _o$5783 _o$5784)) (if (jolt-truthy? nilv) (let* ((_o$5785 tenv) (_o$5786 (jolt-invoke (var-deref "jolt.passes.types" "narrow-nonnil") tenv nilv))) (jolt-vector _o$5785 _o$5786)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$5787 tenv) (_o$5788 tenv)) (jolt-vector _o$5787 _o$5788)) jolt-nil))))))))) if-narrow) (let* ((_o$5789 (keyword #f "private")) (_o$5790 #t)) (jolt-hash-map _o$5789 _o$5790)))) + (def-var-with-meta! "jolt.passes.types" "if-narrow" (letrec ((if-narrow (lambda (test tenv) (let fnrec5676 ((test test) (tenv tenv)) (let* ((somev (jolt-invoke (var-deref "jolt.passes.types" "test-local") test "some?")) (nilv (jolt-invoke (var-deref "jolt.passes.types" "test-local") test "nil?"))) (if (jolt= (keyword #f "local") (jolt-get test (keyword #f "op"))) (let* ((_o$5677 (jolt-invoke (var-deref "jolt.passes.types" "narrow-nonnil") tenv (jolt-get test (keyword #f "name")))) (_o$5678 tenv)) (jolt-vector _o$5677 _o$5678)) (if (jolt-truthy? somev) (let* ((_o$5679 (jolt-invoke (var-deref "jolt.passes.types" "narrow-nonnil") tenv somev)) (_o$5680 tenv)) (jolt-vector _o$5679 _o$5680)) (if (jolt-truthy? nilv) (let* ((_o$5681 tenv) (_o$5682 (jolt-invoke (var-deref "jolt.passes.types" "narrow-nonnil") tenv nilv))) (jolt-vector _o$5681 _o$5682)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$5683 tenv) (_o$5684 tenv)) (jolt-vector _o$5683 _o$5684)) jolt-nil))))))))) if-narrow) (let* ((_o$5685 (keyword #f "private")) (_o$5686 #t)) (jolt-hash-map _o$5685 _o$5686)))) (guard (e (#t #f)) (declare-var! "jolt.passes.types" "infer")) (guard (e (#t #f)) - (def-var-with-meta! 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"jolt.passes.types" "self-rec-argtys" (letrec ((self-rec-argtys (lambda (args ares self-params) (let fnrec5797 ((args args) (ares ares) (self-params self-params)) (let* ((_a$5801 (var-deref "clojure.core" "mapv")) (_a$5802 (lambda (i) (let fnrec5798 ((i i)) (let* ((a (jolt-nth args i))) (if (jolt-truthy? 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Returns [ret-type node'] \x2014; ret is the lub of arity tail types, used to\n type the HOF result (e.g. reduce's accumulator, mapv's element).")) (jolt-hash-map _o$5882 _o$5883 _o$5884 _o$5885)))) + (def-var-with-meta! "jolt.passes.types" "infer-fn-seeded" (letrec ((infer-fn-seeded (lambda (node seeds tenv env) (let fnrec5757 ((node node) (seeds seeds) (tenv tenv) (env env)) (let* ((res (let* ((_a$5768 (var-deref "clojure.core" "mapv")) (_a$5769 (lambda (a) (let fnrec5758 ((a a)) (let* ((params (jolt-get a (keyword #f "params"))) (pe (let* ((_a$5763 (lambda (e i) (let fnrec5759 ((e e) (i i)) (let* ((_a$5760 e) (_a$5761 (jolt-nth params i)) (_a$5762 (let* ((s (jolt-get seeds i))) (if (jolt-truthy? s) s (keyword #f "any"))))) (jolt-assoc _a$5760 _a$5761 _a$5762))))) (_a$5764 tenv) (_a$5765 (jolt-range (jolt-count params)))) (jolt-reduce _a$5763 _a$5764 _a$5765))) (pe (if (jolt-truthy? 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Returns [ret-type node'] \x2014; ret is the lub of arity tail types, used to\n type the HOF result (e.g. reduce's accumulator, mapv's element).")) (jolt-hash-map _o$5778 _o$5779 _o$5780 _o$5781)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-pred-fold" (letrec ((infer-pred-fold (lambda (node fnode cn args tenv env) (let fnrec5886 ((node node) (fnode fnode) (cn cn) (args args) (tenv tenv) (env env)) (let* ((ar (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 0) tenv env)) (v (jolt-invoke (var-deref "jolt.passes.types" "pred-on") cn (jolt-invoke (var-deref "jolt.passes.types" "ty") ar)))) (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-nil? v)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types" "pure-node?") 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(jolt-hash-map _o$5895 _o$5896 _o$5897 _o$5898)))) + (def-var-with-meta! "jolt.passes.types" "infer-pred-fold" (letrec ((infer-pred-fold (lambda (node fnode cn args tenv env) (let fnrec5782 ((node node) (fnode fnode) (cn cn) (args args) (tenv tenv) (env env)) (let* ((ar (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 0) tenv env)) (v (jolt-invoke (var-deref "jolt.passes.types" "pred-on") cn (jolt-invoke (var-deref "jolt.passes.types" "ty") ar)))) (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-nil? v)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types" "pure-node?") (jolt-invoke (var-deref "jolt.passes.types" "nd") ar)) and__25__auto))) (let* ((_o$5787 (keyword #f "any")) (_o$5788 (let* ((_o$5783 (keyword #f "op")) (_o$5784 (keyword #f "const")) (_o$5785 (keyword #f "val")) (_o$5786 v)) (jolt-hash-map _o$5783 _o$5784 _o$5785 _o$5786)))) (jolt-vector _o$5787 _o$5788)) (let* ((_o$5789 (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env)) (_o$5790 (jolt-assoc node (keyword #f "args") (jolt-vector (jolt-invoke (var-deref "jolt.passes.types" "nd") ar))))) (jolt-vector _o$5789 _o$5790)))))))) infer-pred-fold) (let* ((_o$5791 (keyword #f "private")) (_o$5792 #t) (_o$5793 (keyword #f "doc")) (_o$5794 "A type predicate over a single side-effect-free arg whose type PROVES the answer\n folds to a boolean constant \x2014; eliminating the call, and (once const-fold runs\n after inference) collapsing any `if` it gates. Falls back to the normal call path\n when the answer isn't provable or the arg is impure.")) (jolt-hash-map _o$5791 _o$5792 _o$5793 _o$5794)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-kw-lookup" (letrec ((infer-kw-lookup (lambda (node fnode args n tenv env) (let fnrec5899 ((node node) (fnode fnode) (args args) (n n) (tenv tenv) (env env)) (let* ((mr (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 0) tenv env)) (mt (jolt-invoke (var-deref "jolt.passes.types" "ty") mr)) (msub (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") mt)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mark-struct") (jolt-invoke (var-deref "jolt.passes.types" "nd") mr) mt) (jolt-invoke (var-deref "jolt.passes.types" "nd") mr))) (ft (jolt-invoke (var-deref "jolt.passes.types.lattice" "field-type") mt (jolt-get fnode (keyword #f "val")))) (dr (if (jolt= n 2) (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env) jolt-nil)) (rt (if (jolt-truthy? dr) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") ft (jolt-invoke (var-deref "jolt.passes.types" "ty") dr)) ft)) (node_PRIME_ (jolt-assoc node (keyword #f "args") (if (jolt-truthy? dr) (let* ((_o$5900 msub) (_o$5901 (jolt-invoke (var-deref "jolt.passes.types" "nd") dr))) (jolt-vector _o$5900 _o$5901)) (jolt-vector msub))))) (let* ((_o$5902 rt) (_o$5903 (if (jolt= rt (keyword #f "double")) (jolt-assoc node_PRIME_ (keyword #f "num-read") (keyword #f "double")) node_PRIME_))) (jolt-vector _o$5902 _o$5903))))))) infer-kw-lookup) (let* ((_o$5904 (keyword #f "private")) (_o$5905 #t) (_o$5906 (keyword #f "doc")) (_o$5907 "(:k m) / (:k m default): the result is m's field type, and if m is a struct the\n subject is tagged so the back end drops the guard \x2014; this types nested access end\n to end (RFC 0005).")) (jolt-hash-map _o$5904 _o$5905 _o$5906 _o$5907)))) + (def-var-with-meta! "jolt.passes.types" "infer-kw-lookup" (letrec ((infer-kw-lookup (lambda (node fnode args n tenv env) (let fnrec5795 ((node node) (fnode fnode) (args args) (n n) (tenv tenv) (env env)) (let* ((mr (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 0) tenv env)) (mt (jolt-invoke (var-deref "jolt.passes.types" "ty") mr)) (msub (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") mt)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mark-struct") (jolt-invoke (var-deref "jolt.passes.types" "nd") mr) mt) (jolt-invoke (var-deref "jolt.passes.types" "nd") mr))) (ft (jolt-invoke (var-deref "jolt.passes.types.lattice" "field-type") mt (jolt-get fnode (keyword #f "val")))) (dr (if (jolt= n 2) (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env) jolt-nil)) (rt (if (jolt-truthy? dr) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") ft (jolt-invoke (var-deref "jolt.passes.types" "ty") dr)) ft)) (node_PRIME_ (jolt-assoc node (keyword #f "args") (if (jolt-truthy? dr) (let* ((_o$5796 msub) (_o$5797 (jolt-invoke (var-deref "jolt.passes.types" "nd") dr))) (jolt-vector _o$5796 _o$5797)) (jolt-vector msub))))) (let* ((_o$5798 rt) (_o$5799 (if (jolt= rt (keyword #f "double")) (jolt-assoc node_PRIME_ (keyword #f "num-read") (keyword #f "double")) node_PRIME_))) (jolt-vector _o$5798 _o$5799))))))) infer-kw-lookup) (let* ((_o$5800 (keyword #f "private")) (_o$5801 #t) (_o$5802 (keyword #f "doc")) (_o$5803 "(:k m) / (:k m default): the result is m's field type, and if m is a struct the\n subject is tagged so the back end drops the guard \x2014; this types nested access end\n to end (RFC 0005).")) (jolt-hash-map _o$5800 _o$5801 _o$5802 _o$5803)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-get-lookup" (letrec ((infer-get-lookup (lambda (node args n tenv env) (let fnrec5908 ((node node) (args args) (n n) (tenv tenv) (env env)) (let* ((mr (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 0) tenv env)) (mt (jolt-invoke (var-deref "jolt.passes.types" "ty") mr)) (msub (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") mt)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mark-struct") (jolt-invoke (var-deref "jolt.passes.types" "nd") mr) mt) (jolt-invoke (var-deref "jolt.passes.types" "nd") mr))) (kr (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env)) (ft (jolt-invoke (var-deref "jolt.passes.types.lattice" "field-type") mt (jolt-get (jolt-nth args 1) (keyword #f "val")))) (dr (if (jolt= n 3) (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 2) tenv env) jolt-nil)) (rt (if (jolt-truthy? dr) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") ft (jolt-invoke (var-deref "jolt.passes.types" "ty") dr)) ft)) (node_PRIME_ (jolt-assoc node (keyword #f "args") (if (jolt-truthy? dr) (let* ((_o$5909 msub) (_o$5910 (jolt-invoke (var-deref "jolt.passes.types" "nd") kr)) (_o$5911 (jolt-invoke (var-deref "jolt.passes.types" "nd") dr))) (jolt-vector _o$5909 _o$5910 _o$5911)) (let* ((_o$5912 msub) (_o$5913 (jolt-invoke (var-deref "jolt.passes.types" "nd") kr))) (jolt-vector _o$5912 _o$5913)))))) (let* ((_o$5914 rt) (_o$5915 (if (jolt= rt (keyword #f "double")) (jolt-assoc node_PRIME_ (keyword #f "num-read") (keyword #f "double")) node_PRIME_))) (jolt-vector _o$5914 _o$5915))))))) infer-get-lookup) (let* ((_o$5916 (keyword #f "private")) (_o$5917 #t) (_o$5918 (keyword #f "doc")) (_o$5919 "(get m :k [default]): the keyword-lookup result type, when the key is a constant\n keyword.")) (jolt-hash-map _o$5916 _o$5917 _o$5918 _o$5919)))) + (def-var-with-meta! "jolt.passes.types" "infer-get-lookup" (letrec ((infer-get-lookup (lambda (node args n tenv env) (let fnrec5804 ((node node) (args args) (n n) (tenv tenv) (env env)) (let* ((mr (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 0) tenv env)) (mt (jolt-invoke (var-deref "jolt.passes.types" "ty") mr)) (msub (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") mt)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mark-struct") (jolt-invoke (var-deref "jolt.passes.types" "nd") mr) mt) (jolt-invoke (var-deref "jolt.passes.types" "nd") mr))) (kr (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env)) (ft (jolt-invoke (var-deref "jolt.passes.types.lattice" "field-type") mt (jolt-get (jolt-nth args 1) (keyword #f "val")))) (dr (if (jolt= n 3) (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 2) tenv env) jolt-nil)) (rt (if (jolt-truthy? dr) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") ft (jolt-invoke (var-deref "jolt.passes.types" "ty") dr)) ft)) (node_PRIME_ (jolt-assoc node (keyword #f "args") (if (jolt-truthy? dr) (let* ((_o$5805 msub) (_o$5806 (jolt-invoke (var-deref "jolt.passes.types" "nd") kr)) (_o$5807 (jolt-invoke (var-deref "jolt.passes.types" "nd") dr))) (jolt-vector _o$5805 _o$5806 _o$5807)) (let* ((_o$5808 msub) (_o$5809 (jolt-invoke (var-deref "jolt.passes.types" "nd") kr))) (jolt-vector _o$5808 _o$5809)))))) (let* ((_o$5810 rt) (_o$5811 (if (jolt= rt (keyword #f "double")) (jolt-assoc node_PRIME_ (keyword #f "num-read") (keyword #f "double")) node_PRIME_))) (jolt-vector _o$5810 _o$5811))))))) infer-get-lookup) (let* ((_o$5812 (keyword #f "private")) (_o$5813 #t) (_o$5814 (keyword #f "doc")) (_o$5815 "(get m :k [default]): the keyword-lookup result type, when the key is a constant\n keyword.")) (jolt-hash-map _o$5812 _o$5813 _o$5814 _o$5815)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-reduce-hof" (letrec ((infer-reduce-hof (lambda (node args n tenv env) (let fnrec5920 ((node node) (args args) (n n) (tenv tenv) (env env)) (let* ((three (jolt-n>= n 3)) (coll-r (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args (if (jolt-truthy? three) 2 1)) tenv env)) (init-r (if (jolt-truthy? three) (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env) jolt-nil)) (et (let* ((ct (jolt-invoke (var-deref "jolt.passes.types" "ty") coll-r))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") ct)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") ct) (keyword #f "any")))) (init-t (if (jolt-truthy? init-r) (jolt-invoke (var-deref "jolt.passes.types" "ty") init-r) (keyword #f "any"))) (fn-r (let* ((_a$5925 (var-deref "jolt.passes.types" "infer-fn-seeded")) (_a$5926 (jolt-nth args 0)) (_a$5927 (let* ((_o$5921 0) (_o$5922 init-t) (_o$5923 1) (_o$5924 et)) (jolt-hash-map _o$5921 _o$5922 _o$5923 _o$5924))) (_a$5928 tenv) (_a$5929 env)) (jolt-invoke _a$5925 _a$5926 _a$5927 _a$5928 _a$5929)))) (let* ((_o$5935 (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") init-t (jolt-invoke (var-deref "jolt.passes.types" "ty") fn-r))) (_o$5936 (jolt-assoc node (keyword #f "args") (if (jolt-truthy? three) (let* ((_o$5930 (jolt-invoke (var-deref "jolt.passes.types" "nd") fn-r)) (_o$5931 (jolt-invoke (var-deref "jolt.passes.types" "nd") init-r)) (_o$5932 (jolt-invoke (var-deref "jolt.passes.types" "nd") coll-r))) (jolt-vector _o$5930 _o$5931 _o$5932)) (let* ((_o$5933 (jolt-invoke (var-deref "jolt.passes.types" "nd") fn-r)) (_o$5934 (jolt-invoke (var-deref "jolt.passes.types" "nd") coll-r))) (jolt-vector _o$5933 _o$5934)))))) (jolt-vector _o$5935 _o$5936))))))) infer-reduce-hof) (let* ((_o$5937 (keyword #f "private")) (_o$5938 #t) (_o$5939 (keyword #f "doc")) (_o$5940 "reduce over a typed vector with a fn-literal: seed the closure's accumulator\n (param 0) to the init type and its element (param 1) to the vector's element\n type, so its body \x2014; and any calls it makes \x2014; see those types.")) (jolt-hash-map _o$5937 _o$5938 _o$5939 _o$5940)))) + (def-var-with-meta! "jolt.passes.types" "infer-reduce-hof" (letrec ((infer-reduce-hof (lambda (node args n tenv env) (let fnrec5816 ((node node) (args args) (n n) (tenv tenv) (env env)) (let* ((three (>= n 3)) (coll-r (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args (if (jolt-truthy? three) 2 1)) tenv env)) (init-r (if (jolt-truthy? three) (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env) jolt-nil)) (et (let* ((ct (jolt-invoke (var-deref "jolt.passes.types" "ty") coll-r))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") ct)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") ct) (keyword #f "any")))) (init-t (if (jolt-truthy? init-r) (jolt-invoke (var-deref "jolt.passes.types" "ty") init-r) (keyword #f "any"))) (fn-r (let* ((_a$5821 (var-deref "jolt.passes.types" "infer-fn-seeded")) (_a$5822 (jolt-nth args 0)) (_a$5823 (let* ((_o$5817 0) (_o$5818 init-t) (_o$5819 1) (_o$5820 et)) (jolt-hash-map _o$5817 _o$5818 _o$5819 _o$5820))) (_a$5824 tenv) (_a$5825 env)) (jolt-invoke _a$5821 _a$5822 _a$5823 _a$5824 _a$5825)))) (let* ((_o$5831 (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") init-t (jolt-invoke (var-deref "jolt.passes.types" "ty") fn-r))) (_o$5832 (jolt-assoc node (keyword #f "args") (if (jolt-truthy? three) (let* ((_o$5826 (jolt-invoke (var-deref "jolt.passes.types" "nd") fn-r)) (_o$5827 (jolt-invoke (var-deref "jolt.passes.types" "nd") init-r)) (_o$5828 (jolt-invoke (var-deref "jolt.passes.types" "nd") coll-r))) (jolt-vector _o$5826 _o$5827 _o$5828)) (let* ((_o$5829 (jolt-invoke (var-deref "jolt.passes.types" "nd") fn-r)) (_o$5830 (jolt-invoke (var-deref "jolt.passes.types" "nd") coll-r))) (jolt-vector _o$5829 _o$5830)))))) (jolt-vector _o$5831 _o$5832))))))) infer-reduce-hof) (let* ((_o$5833 (keyword #f "private")) (_o$5834 #t) (_o$5835 (keyword #f "doc")) (_o$5836 "reduce over a typed vector with a fn-literal: seed the closure's accumulator\n (param 0) to the init type and its element (param 1) to the vector's element\n type, so its body \x2014; and any calls it makes \x2014; see those types.")) (jolt-hash-map _o$5833 _o$5834 _o$5835 _o$5836)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-seq-hof" (letrec ((infer-seq-hof (lambda (node cn args tenv env) (let fnrec5941 ((node node) (cn cn) (args args) (tenv tenv) (env env)) (let* ((coll-r (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env)) (et (let* ((ct (jolt-invoke (var-deref "jolt.passes.types" "ty") coll-r))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") ct)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") ct) (keyword #f "any")))) (fn-r (let* ((_a$5944 (var-deref "jolt.passes.types" "infer-fn-seeded")) (_a$5945 (jolt-nth args 0)) (_a$5946 (let* ((_o$5942 (jolt-get (jolt-get (var-deref "jolt.passes.types" "hof-table") cn) (keyword #f "epos"))) (_o$5943 et)) (jolt-hash-map _o$5942 _o$5943))) (_a$5947 tenv) (_a$5948 env)) (jolt-invoke _a$5944 _a$5945 _a$5946 _a$5947 _a$5948))) (rt (if (jolt= cn "mapv") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (jolt-invoke (var-deref "jolt.passes.types" "ty") fn-r)) (if (jolt= cn "filterv") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") et) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil))))) (let* ((_o$5951 rt) (_o$5952 (jolt-assoc node (keyword #f "args") (let* ((_o$5949 (jolt-invoke (var-deref "jolt.passes.types" "nd") fn-r)) (_o$5950 (jolt-invoke (var-deref "jolt.passes.types" "nd") coll-r))) (jolt-vector _o$5949 _o$5950))))) (jolt-vector _o$5951 _o$5952))))))) infer-seq-hof) (let* ((_o$5953 (keyword #f "private")) (_o$5954 #t) (_o$5955 (keyword #f "doc")) (_o$5956 "map/mapv/filter/... over a typed vector with a fn-literal: seed the fn's element\n param; mapv/filterv produce a typed vector.")) (jolt-hash-map _o$5953 _o$5954 _o$5955 _o$5956)))) + (def-var-with-meta! "jolt.passes.types" "infer-seq-hof" (letrec ((infer-seq-hof (lambda (node cn args tenv env) (let fnrec5837 ((node node) (cn cn) (args args) (tenv tenv) (env env)) (let* ((coll-r (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-nth args 1) tenv env)) (et (let* ((ct (jolt-invoke (var-deref "jolt.passes.types" "ty") coll-r))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") ct)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") ct) (keyword #f "any")))) (fn-r (let* ((_a$5840 (var-deref "jolt.passes.types" "infer-fn-seeded")) (_a$5841 (jolt-nth args 0)) (_a$5842 (let* ((_o$5838 (jolt-get (jolt-get (var-deref "jolt.passes.types" "hof-table") cn) (keyword #f "epos"))) (_o$5839 et)) (jolt-hash-map _o$5838 _o$5839))) (_a$5843 tenv) (_a$5844 env)) (jolt-invoke _a$5840 _a$5841 _a$5842 _a$5843 _a$5844))) (rt (if (jolt= cn "mapv") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (jolt-invoke (var-deref "jolt.passes.types" "ty") fn-r)) (if (jolt= cn "filterv") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") et) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil))))) (let* ((_o$5847 rt) (_o$5848 (jolt-assoc node (keyword #f "args") (let* ((_o$5845 (jolt-invoke (var-deref "jolt.passes.types" "nd") fn-r)) (_o$5846 (jolt-invoke (var-deref "jolt.passes.types" "nd") coll-r))) (jolt-vector _o$5845 _o$5846))))) (jolt-vector _o$5847 _o$5848))))))) infer-seq-hof) (let* ((_o$5849 (keyword #f "private")) (_o$5850 #t) (_o$5851 (keyword #f "doc")) (_o$5852 "map/mapv/filter/... over a typed vector with a fn-literal: seed the fn's element\n param; mapv/filterv produce a typed vector.")) (jolt-hash-map _o$5849 _o$5850 _o$5851 _o$5852)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-conj-into" (letrec ((infer-conj-into (lambda (node fnode cn args n tenv env) (let fnrec5957 ((node node) (fnode fnode) (cn cn) (args args) (n n) (tenv tenv) (env env)) (let* ((ares (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec5958 ((a a)) (jolt-invoke (var-deref "jolt.passes.types" "infer") a tenv env))) args)) (base (jolt-invoke (var-deref "jolt.passes.types" "ty") (jolt-nth ares 0))) (rest-ts (let* ((_a$5960 (var-deref "clojure.core" "mapv")) (_a$5961 (lambda (r) (let fnrec5959 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "ty") r)))) (_a$5962 (jolt-rest ares))) (jolt-invoke _a$5960 _a$5961 _a$5962))) (rt (if (jolt-truthy? (let* ((and__25__auto (jolt= cn "conj"))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") base) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (jolt-reduce (var-deref "jolt.passes.types.lattice" "join") (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") base) rest-ts)) (if (jolt-truthy? (let* ((and__25__auto (jolt= cn "into"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") base))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 2 n))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") (jolt-nth rest-ts 0)) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$5963 (var-deref "jolt.passes.types.lattice" "join")) (_a$5964 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") base)) (_a$5965 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") (jolt-nth rest-ts 0)))) (jolt-invoke _a$5963 _a$5964 _a$5965))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env) jolt-nil))))) (let* ((_o$5967 rt) (_o$5968 (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5966 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "nd") r))) ares)))) (jolt-vector _o$5967 _o$5968))))))) infer-conj-into) (let* ((_o$5969 (keyword #f "private")) (_o$5970 #t) (_o$5971 (keyword #f "doc")) (_o$5972 "conj/into: track the element type of a vector being grown.")) (jolt-hash-map _o$5969 _o$5970 _o$5971 _o$5972)))) + (def-var-with-meta! "jolt.passes.types" "infer-conj-into" (letrec ((infer-conj-into (lambda (node fnode cn args n tenv env) (let fnrec5853 ((node node) (fnode fnode) (cn cn) (args args) (n n) (tenv tenv) (env env)) (let* ((ares (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec5854 ((a a)) (jolt-invoke (var-deref "jolt.passes.types" "infer") a tenv env))) args)) (base (jolt-invoke (var-deref "jolt.passes.types" "ty") (jolt-nth ares 0))) (rest-ts (let* ((_a$5856 (var-deref "clojure.core" "mapv")) (_a$5857 (lambda (r) (let fnrec5855 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "ty") r)))) (_a$5858 (jolt-rest ares))) (jolt-invoke _a$5856 _a$5857 _a$5858))) (rt (if (jolt-truthy? (let* ((and__25__auto (jolt= cn "conj"))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") base) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (jolt-reduce (var-deref "jolt.passes.types.lattice" "join") (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") base) rest-ts)) (if (jolt-truthy? (let* ((and__25__auto (jolt= cn "into"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") base))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 2 n))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") (jolt-nth rest-ts 0)) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$5859 (var-deref "jolt.passes.types.lattice" "join")) (_a$5860 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") base)) (_a$5861 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") (jolt-nth rest-ts 0)))) (jolt-invoke _a$5859 _a$5860 _a$5861))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env) jolt-nil))))) (let* ((_o$5863 rt) (_o$5864 (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5862 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "nd") r))) ares)))) (jolt-vector _o$5863 _o$5864))))))) infer-conj-into) (let* ((_o$5865 (keyword #f "private")) (_o$5866 #t) (_o$5867 (keyword #f "doc")) (_o$5868 "conj/into: track the element type of a vector being grown.")) (jolt-hash-map _o$5865 _o$5866 _o$5867 _o$5868)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-call" (letrec ((infer-call (lambda (node fnode iscall-var cn args n tenv env) (let fnrec5973 ((node node) (fnode fnode) (iscall-var iscall-var) (cn cn) (args args) (n n) (tenv tenv) (env env)) (let* ((fr (if (jolt-not iscall-var) (jolt-invoke (var-deref "jolt.passes.types" "infer") fnode tenv env) jolt-nil)) (fnode_PRIME_ (if (jolt-truthy? iscall-var) fnode (jolt-invoke (var-deref "jolt.passes.types" "nd") fr))) (callee-t (if (jolt-truthy? iscall-var) (let* ((_a$5974 (jolt-get env (keyword #f "vtypes"))) (_a$5975 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5974 _a$5975)) (jolt-invoke (var-deref "jolt.passes.types" "ty") fr))) (ares (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec5976 ((a a)) (jolt-invoke (var-deref "jolt.passes.types" "infer") a tenv env))) args))) (begin (if (jolt-truthy? iscall-var) (let* ((_a$5982 (var-deref "clojure.core" "swap!")) (_a$5983 (jolt-get env (keyword #f "calls"))) (_a$5984 jolt-conj) (_a$5985 (let* ((_o$5980 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (_o$5981 (if (let* ((_a$5977 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (_a$5978 (jolt-get env (keyword #f "self-key")))) (jolt= _a$5977 _a$5978)) (jolt-invoke (var-deref "jolt.passes.types" "self-rec-argtys") args ares (jolt-get env (keyword #f "self-params"))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5979 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "ty") r))) ares)))) (jolt-vector _o$5980 _o$5981)))) (jolt-invoke _a$5982 _a$5983 _a$5984 _a$5985)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get env (keyword #f "self-key")))) (if (jolt-truthy? and__25__auto) (let* ((_a$5986 (jolt-get fnode (keyword #f "name"))) (_a$5987 (jolt-get env (keyword #f "self-name")))) (jolt= _a$5986 _a$5987)) and__25__auto)) and__25__auto))) (let* ((_a$5990 (var-deref "clojure.core" "swap!")) (_a$5991 (jolt-get env (keyword #f "calls"))) (_a$5992 jolt-conj) (_a$5993 (let* ((_o$5988 (jolt-get env (keyword #f "self-key"))) (_o$5989 (jolt-invoke (var-deref "jolt.passes.types" "self-rec-argtys") args ares (jolt-get env (keyword #f "self-params"))))) (jolt-vector _o$5988 _o$5989)))) (jolt-invoke _a$5990 _a$5991 _a$5992 _a$5993)) jolt-nil) (if (jolt-truthy? (jolt-get env (keyword #f "checking?"))) (let* ((ats (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5994 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "ty") r))) ares)) (pos (jolt-get node (keyword #f "pos")))) (begin (if (jolt-truthy? cn) (jolt-invoke (var-deref "jolt.passes.types.check" "check-invoke") cn args ats pos env) jolt-nil) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.check" "not-callable?") callee-t)) (let* ((_a$6003 (var-deref "clojure.core" "swap!")) (_a$6004 (jolt-get env (keyword #f "diags"))) (_a$6005 jolt-conj) (_a$6006 (let* ((_o$5995 (keyword #f "op")) (_o$5996 (keyword #f "call")) (_o$5997 (keyword #f "type")) (_o$5998 (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") callee-t)) (_o$5999 (keyword #f "pos")) (_o$6000 pos) (_o$6001 (keyword #f "msg")) (_o$6002 (jolt-invoke (var-deref "clojure.core" "str") "cannot call " (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") callee-t) " as a function"))) (jolt-hash-map _o$5995 _o$5996 _o$5997 _o$5998 _o$5999 _o$6000 _o$6001 _o$6002)))) (jolt-invoke _a$6003 _a$6004 _a$6005 _a$6006)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt-get env (keyword #f "strict?")))) (if (jolt-truthy? and__25__auto) iscall-var and__25__auto))) (let* ((k (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (usig (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "user-sigs"))) k))) (if (jolt-truthy? usig) (jolt-invoke (var-deref "jolt.passes.types" "check-user-call") k usig ats pos env) jolt-nil)) jolt-nil))) jolt-nil) (let* ((pm (let* ((and__25__auto iscall-var)) (if (jolt-truthy? and__25__auto) (let* ((_a$6007 (jolt-get env (keyword #f "protocol-methods"))) (_a$6008 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$6007 _a$6008)) and__25__auto))) (rtype (if (jolt-truthy? (let* ((and__25__auto pm)) (if (jolt-truthy? and__25__auto) (jolt-pos? n) and__25__auto))) (jolt-get (jolt-invoke (var-deref "jolt.passes.types" "ty") (jolt-nth ares 0)) (keyword #f "type")) jolt-nil)) (base (jolt-assoc node (keyword #f "fn") fnode_PRIME_ (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6009 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "nd") r))) ares)))) (let* ((_o$6017 (if (jolt= cn "range") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "num")) (if (jolt-truthy? (let* ((and__25__auto cn)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-contains? (var-deref "jolt.passes.types" "elem-fns") cn))) (if (jolt-truthy? and__25__auto) (jolt-n> n 0) and__25__auto)) and__25__auto))) (let* ((a0 (jolt-invoke (var-deref "jolt.passes.types" "ty") (jolt-nth ares 0)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") a0)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") a0) (keyword #f "any"))) (if (jolt-truthy? (let* ((and__25__auto cn)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-contains? (var-deref "jolt.passes.types" "dbl-arith-ops") cn))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types" "dbl-arith?") ares args) and__25__auto)) and__25__auto))) (keyword #f "double") (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env) jolt-nil))))) (_o$6018 (if (jolt-truthy? rtype) (let* ((_a$6010 base) (_a$6011 (keyword #f "devirt-type")) (_a$6012 rtype) (_a$6013 (keyword #f "devirt-proto")) (_a$6014 (jolt-nth pm 0)) (_a$6015 (keyword #f "devirt-method")) (_a$6016 (jolt-nth pm 1))) (jolt-assoc _a$6010 _a$6011 _a$6012 _a$6013 _a$6014 _a$6015 _a$6016)) base))) (jolt-vector _o$6017 _o$6018))))))))) infer-call) (let* ((_o$6019 (keyword #f "private")) (_o$6020 #t) (_o$6021 (keyword #f "doc")) (_o$6022 "Everything else: type the args, collect the call (var callee) for whole-program\n inference, run the success-type check, and use the declared/estimated return type.\n range produces a numeric vector; an element-returning fn over a typed vector\n yields the element type. A protocol-method call whose receiver (arg 0) is a known\n record type is annotated [type-tag proto method] for devirtualization \x2014; the back\n end looks up the impl at emit time and calls it directly, skipping the registry\n dispatch (~19x cheaper).")) (jolt-hash-map _o$6019 _o$6020 _o$6021 _o$6022)))) + (def-var-with-meta! "jolt.passes.types" "infer-call" (letrec ((infer-call (lambda (node fnode iscall-var cn args n tenv env) (let fnrec5869 ((node node) (fnode fnode) (iscall-var iscall-var) (cn cn) (args args) (n n) (tenv tenv) (env env)) (let* ((fr (if (jolt-not iscall-var) (jolt-invoke (var-deref "jolt.passes.types" "infer") fnode tenv env) jolt-nil)) (fnode_PRIME_ (if (jolt-truthy? iscall-var) fnode (jolt-invoke (var-deref "jolt.passes.types" "nd") fr))) (callee-t (if (jolt-truthy? iscall-var) (let* ((_a$5870 (jolt-get env (keyword #f "vtypes"))) (_a$5871 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5870 _a$5871)) (jolt-invoke (var-deref "jolt.passes.types" "ty") fr))) (ares (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec5872 ((a a)) (jolt-invoke (var-deref "jolt.passes.types" "infer") a tenv env))) args))) (begin (if (jolt-truthy? iscall-var) (let* ((_a$5878 (var-deref "clojure.core" "swap!")) (_a$5879 (jolt-get env (keyword #f "calls"))) (_a$5880 jolt-conj) (_a$5881 (let* ((_o$5876 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (_o$5877 (if (let* ((_a$5873 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (_a$5874 (jolt-get env (keyword #f "self-key")))) (jolt= _a$5873 _a$5874)) (jolt-invoke (var-deref "jolt.passes.types" "self-rec-argtys") args ares (jolt-get env (keyword #f "self-params"))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5875 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "ty") r))) ares)))) (jolt-vector _o$5876 _o$5877)))) (jolt-invoke _a$5878 _a$5879 _a$5880 _a$5881)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt= (keyword #f "local") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get env (keyword #f "self-key")))) (if (jolt-truthy? and__25__auto) (let* ((_a$5882 (jolt-get fnode (keyword #f "name"))) (_a$5883 (jolt-get env (keyword #f "self-name")))) (jolt= _a$5882 _a$5883)) and__25__auto)) and__25__auto))) (let* ((_a$5886 (var-deref "clojure.core" "swap!")) (_a$5887 (jolt-get env (keyword #f "calls"))) (_a$5888 jolt-conj) (_a$5889 (let* ((_o$5884 (jolt-get env (keyword #f "self-key"))) (_o$5885 (jolt-invoke (var-deref "jolt.passes.types" "self-rec-argtys") args ares (jolt-get env (keyword #f "self-params"))))) (jolt-vector _o$5884 _o$5885)))) (jolt-invoke _a$5886 _a$5887 _a$5888 _a$5889)) jolt-nil) (if (jolt-truthy? (jolt-get env (keyword #f "checking?"))) (let* ((ats (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5890 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "ty") r))) ares)) (pos (jolt-get node (keyword #f "pos")))) (begin (if (jolt-truthy? cn) (jolt-invoke (var-deref "jolt.passes.types.check" "check-invoke") cn args ats pos env) jolt-nil) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.check" "not-callable?") callee-t)) (let* ((_a$5899 (var-deref "clojure.core" "swap!")) (_a$5900 (jolt-get env (keyword #f "diags"))) (_a$5901 jolt-conj) (_a$5902 (let* ((_o$5891 (keyword #f "op")) (_o$5892 (keyword #f "call")) (_o$5893 (keyword #f "type")) (_o$5894 (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") callee-t)) (_o$5895 (keyword #f "pos")) (_o$5896 pos) (_o$5897 (keyword #f "msg")) (_o$5898 (jolt-invoke (var-deref "clojure.core" "str") "cannot call " (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") callee-t) " as a function"))) (jolt-hash-map _o$5891 _o$5892 _o$5893 _o$5894 _o$5895 _o$5896 _o$5897 _o$5898)))) (jolt-invoke _a$5899 _a$5900 _a$5901 _a$5902)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt-get env (keyword #f "strict?")))) (if (jolt-truthy? and__25__auto) iscall-var and__25__auto))) (let* ((k (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (usig (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "user-sigs"))) k))) (if (jolt-truthy? usig) (jolt-invoke (var-deref "jolt.passes.types" "check-user-call") k usig ats pos env) jolt-nil)) jolt-nil))) jolt-nil) (let* ((pm (let* ((and__25__auto iscall-var)) (if (jolt-truthy? and__25__auto) (let* ((_a$5903 (jolt-get env (keyword #f "protocol-methods"))) (_a$5904 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$5903 _a$5904)) and__25__auto))) (rtype (if (jolt-truthy? (let* ((and__25__auto pm)) (if (jolt-truthy? and__25__auto) (jolt-pos? n) and__25__auto))) (jolt-get (jolt-invoke (var-deref "jolt.passes.types" "ty") (jolt-nth ares 0)) (keyword #f "type")) jolt-nil)) (base (jolt-assoc node (keyword #f "fn") fnode_PRIME_ (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5905 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "nd") r))) ares)))) (let* ((_o$5913 (if (jolt= cn "range") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "num")) (if (jolt-truthy? (let* ((and__25__auto cn)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-contains? (var-deref "jolt.passes.types" "elem-fns") cn))) (if (jolt-truthy? and__25__auto) (> n 0) and__25__auto)) and__25__auto))) (let* ((a0 (jolt-invoke (var-deref "jolt.passes.types" "ty") (jolt-nth ares 0)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") a0)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") a0) (keyword #f "any"))) (if (jolt-truthy? (let* ((and__25__auto cn)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-contains? (var-deref "jolt.passes.types" "dbl-arith-ops") cn))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types" "dbl-arith?") ares args) and__25__auto)) and__25__auto))) (keyword #f "double") (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env) jolt-nil))))) (_o$5914 (if (jolt-truthy? rtype) (let* ((_a$5906 base) (_a$5907 (keyword #f "devirt-type")) (_a$5908 rtype) (_a$5909 (keyword #f "devirt-proto")) (_a$5910 (jolt-nth pm 0)) (_a$5911 (keyword #f "devirt-method")) (_a$5912 (jolt-nth pm 1))) (jolt-assoc _a$5906 _a$5907 _a$5908 _a$5909 _a$5910 _a$5911 _a$5912)) base))) (jolt-vector _o$5913 _o$5914))))))))) infer-call) (let* ((_o$5915 (keyword #f "private")) (_o$5916 #t) (_o$5917 (keyword #f "doc")) (_o$5918 "Everything else: type the args, collect the call (var callee) for whole-program\n inference, run the success-type check, and use the declared/estimated return type.\n range produces a numeric vector; an element-returning fn over a typed vector\n yields the element type. A protocol-method call whose receiver (arg 0) is a known\n record type is annotated [type-tag proto method] for devirtualization \x2014; the back\n end looks up the impl at emit time and calls it directly, skipping the registry\n dispatch (~19x cheaper).")) (jolt-hash-map _o$5915 _o$5916 _o$5917 _o$5918)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-invoke" (letrec ((infer-invoke (lambda (node tenv env) (let fnrec6023 ((node node) (tenv tenv) (env env)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (iscall-var (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op")))) (cn (if (jolt-truthy? (let* ((and__25__auto iscall-var)) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__25__auto))) (jolt-get fnode (keyword #f "name")) jolt-nil)) (args (jolt-get node (keyword #f "args"))) (n (jolt-count args))) (if (jolt-truthy? (let* ((and__25__auto iscall-var)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-contains? (var-deref "jolt.passes.types" "fold-preds") cn))) (if (jolt-truthy? and__25__auto) (jolt= n 1) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-pred-fold") node fnode cn args tenv env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") fnode))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n>= n 1))) (if (jolt-truthy? and__25__auto) (jolt-n<= n 2) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-kw-lookup") node fnode args n tenv env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "get-callee?") fnode))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n>= n 2))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get (jolt-nth args 1) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get (jolt-nth args 1) (keyword #f "val"))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-get-lookup") node args n tenv env) (if (let* ((and__25__auto (jolt= cn "reduce"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n>= n 2))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__25__auto)) and__25__auto)) (jolt-invoke (var-deref "jolt.passes.types" "infer-reduce-hof") node args n tenv env) (if (jolt-truthy? (let* ((and__25__auto cn)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get (var-deref "jolt.passes.types" "hof-table") cn))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-n>= n 2))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-seq-hof") node cn args tenv env) (if (let* ((and__25__auto (let* ((or__26__auto (jolt= cn "conj"))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= cn "into"))))) (if (jolt-truthy? and__25__auto) (jolt-n>= n 1) and__25__auto)) (jolt-invoke (var-deref "jolt.passes.types" "infer-conj-into") node fnode cn args n tenv env) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "infer-call") node fnode iscall-var cn args n tenv env) jolt-nil)))))))))))) infer-invoke) (let* ((_o$6024 (keyword #f "private")) (_o$6025 #t) (_o$6026 (keyword #f "doc")) (_o$6027 "Split the callee/args once and dispatch by callee shape to a pattern helper.")) (jolt-hash-map _o$6024 _o$6025 _o$6026 _o$6027)))) + (def-var-with-meta! "jolt.passes.types" "infer-invoke" (letrec ((infer-invoke (lambda (node tenv env) (let fnrec5919 ((node node) (tenv tenv) (env env)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (iscall-var (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op")))) (cn (if (jolt-truthy? (let* ((and__25__auto iscall-var)) (if (jolt-truthy? and__25__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__25__auto))) (jolt-get fnode (keyword #f "name")) jolt-nil)) (args (jolt-get node (keyword #f "args"))) (n (jolt-count args))) (if (jolt-truthy? (let* ((and__25__auto iscall-var)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-contains? (var-deref "jolt.passes.types" "fold-preds") cn))) (if (jolt-truthy? and__25__auto) (jolt= n 1) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-pred-fold") node fnode cn args tenv env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "kw-callee?") fnode))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (>= n 1))) (if (jolt-truthy? and__25__auto) (<= n 2) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-kw-lookup") node fnode args n tenv env) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.passes.fold" "get-callee?") fnode))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (>= n 2))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "const") (jolt-get (jolt-nth args 1) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get (jolt-nth args 1) (keyword #f "val"))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-get-lookup") node args n tenv env) (if (let* ((and__25__auto (jolt= cn "reduce"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (>= n 2))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__25__auto)) and__25__auto)) (jolt-invoke (var-deref "jolt.passes.types" "infer-reduce-hof") node args n tenv env) (if (jolt-truthy? (let* ((and__25__auto cn)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get (var-deref "jolt.passes.types" "hof-table") cn))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (>= n 2))) (if (jolt-truthy? and__25__auto) (jolt= (keyword #f "fn") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types" "infer-seq-hof") node cn args tenv env) (if (let* ((and__25__auto (let* ((or__26__auto (jolt= cn "conj"))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= cn "into"))))) (if (jolt-truthy? and__25__auto) (>= n 1) and__25__auto)) (jolt-invoke (var-deref "jolt.passes.types" "infer-conj-into") node fnode cn args n tenv env) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "infer-call") node fnode iscall-var cn args n tenv env) jolt-nil)))))))))))) infer-invoke) (let* ((_o$5920 (keyword #f "private")) (_o$5921 #t) (_o$5922 (keyword #f "doc")) (_o$5923 "Split the callee/args once and dispatch by callee shape to a pattern helper.")) (jolt-hash-map _o$5920 _o$5921 _o$5922 _o$5923)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer" (letrec ((infer (lambda (node tenv env) (let fnrec6028 ((node node) (tenv tenv) (env env)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "const")) (let* ((_o$6029 (let* ((v (jolt-get node (keyword #f "val")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "float?") v) and__25__auto))) (keyword #f "double") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (keyword #f "num") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (keyword #f "str") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (keyword #f "kw") (if (jolt-nil? v) (keyword #f "nil") (if (jolt= #f v) (keyword #f "any") (if (jolt-truthy? (keyword #f "else")) (keyword #f "truthy") jolt-nil))))))))) (_o$6030 node)) (jolt-vector _o$6029 _o$6030)) (if (jolt= op (keyword #f "local")) (let* ((t (jolt-get tenv (jolt-get node (keyword #f "name"))))) (let* ((_o$6031 (if (jolt-truthy? t) t (keyword #f "any"))) (_o$6032 (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") t)) (let* ((n (jolt-assoc node (keyword #f "hint") (keyword #f "struct")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "type-shape") t)) (jolt-assoc n (keyword #f "shape") (jolt-invoke (var-deref "jolt.passes.types.lattice" "type-shape") t)) n)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) (jolt-assoc node (keyword #f "hint") (keyword #f "vector")) (if (jolt-truthy? (keyword #f "else")) node jolt-nil))))) (jolt-vector _o$6031 _o$6032))) (if (jolt= op (keyword #f "map")) (let* ((pairs (jolt-get node (keyword #f "pairs"))) (res (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (pr) (let fnrec6033 ((pr pr)) (let* ((kr (infer (jolt-nth pr 0) tenv env)) (vr (infer (jolt-nth pr 1) tenv env))) (let* ((_o$6034 (jolt-nth kr 1)) (_o$6035 (jolt-nth vr 1)) (_o$6036 (jolt-nth vr 0)) (_o$6037 (jolt-get (jolt-nth pr 0) (keyword #f "val")))) (jolt-vector _o$6034 _o$6035 _o$6036 _o$6037))))) pairs)) (struct? (let* ((and__25__auto (jolt-n> (jolt-count res) 0))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "every?") (lambda (pr) (let fnrec6038 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth pr 0)))) pairs))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (r) (let fnrec6039 ((r r)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "truthy-type?") (jolt-nth r 2)))) res) and__25__auto)) and__25__auto))) (base (if (jolt-truthy? struct?) (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$6044 (lambda (m r) (let fnrec6040 ((m m) (r r)) (let* ((_a$6041 m) (_a$6042 (jolt-nth r 3)) (_a$6043 (jolt-nth r 2))) (jolt-assoc _a$6041 _a$6042 _a$6043))))) (_a$6045 (jolt-hash-map)) (_a$6046 res)) (jolt-reduce _a$6044 _a$6045 _a$6046))) (var-deref "jolt.passes.types.lattice" "type-depth")) jolt-nil)) (shp (if (jolt-truthy? (let* ((and__25__auto (jolt-get env (keyword #f "map-shapes?")))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto base)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") base) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "shape-order") (jolt-keys (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") base))) jolt-nil)) (t (if (jolt-truthy? base) (if (jolt-truthy? shp) (jolt-assoc base (keyword #f "shape") shp) base) (keyword #f "any"))) (node_PRIME_ (jolt-assoc node (keyword #f "pairs") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6047 ((r r)) (let* ((_o$6048 (jolt-nth r 0)) (_o$6049 (jolt-nth r 1))) (jolt-vector _o$6048 _o$6049)))) res)))) (let* ((_o$6050 t) (_o$6051 (if (jolt-truthy? shp) (jolt-assoc node_PRIME_ (keyword #f "shape") shp) node_PRIME_))) (jolt-vector _o$6050 _o$6051))) (if (jolt= op (keyword #f "vector")) (let* ((irs (let* ((_a$6053 (var-deref "clojure.core" "mapv")) (_a$6054 (lambda (x) (let fnrec6052 ((x x)) (infer x tenv env)))) (_a$6055 (jolt-get node (keyword #f "items")))) (jolt-invoke _a$6053 _a$6054 _a$6055))) (ets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6056 ((r r)) (jolt-nth r 0))) irs)) (el (if (jolt-empty? ets) (keyword #f "any") (let* ((_a$6057 (var-deref "jolt.passes.types.lattice" "join")) (_a$6058 (jolt-first ets)) (_a$6059 (jolt-rest ets))) (jolt-reduce _a$6057 _a$6058 _a$6059))))) (let* ((_o$6061 (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") el) (var-deref "jolt.passes.types.lattice" "type-depth"))) (_o$6062 (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6060 ((r r)) (jolt-nth r 1))) irs)))) (jolt-vector _o$6061 _o$6062))) (if (jolt= op (keyword #f "set")) (let* ((irs (let* ((_a$6064 (var-deref "clojure.core" "mapv")) (_a$6065 (lambda (x) (let fnrec6063 ((x x)) (infer x tenv env)))) (_a$6066 (jolt-get node (keyword #f "items")))) (jolt-invoke _a$6064 _a$6065 _a$6066))) (ets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6067 ((r r)) (jolt-nth r 0))) irs)) (el (if (jolt-empty? ets) (keyword #f "any") (let* ((_a$6068 (var-deref "jolt.passes.types.lattice" "join")) (_a$6069 (jolt-first ets)) (_a$6070 (jolt-rest ets))) (jolt-reduce _a$6068 _a$6069 _a$6070))))) (let* ((_o$6072 (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") el) (var-deref "jolt.passes.types.lattice" "type-depth"))) (_o$6073 (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6071 ((r r)) (jolt-nth r 1))) irs)))) (jolt-vector _o$6072 _o$6073))) (if (jolt= op (keyword #f "if")) (let* ((test (jolt-get node (keyword #f "test"))) (tr (infer test tenv env)) (nr (jolt-invoke (var-deref "jolt.passes.types" "if-narrow") test tenv)) (thn (let* ((_a$6074 (jolt-get node (keyword #f "then"))) (_a$6075 (jolt-nth nr 0)) (_a$6076 env)) (infer _a$6074 _a$6075 _a$6076))) (els (let* ((_a$6077 (jolt-get node (keyword #f "else"))) (_a$6078 (jolt-nth nr 1)) (_a$6079 env)) (infer _a$6077 _a$6078 _a$6079)))) (let* ((_o$6090 (let* ((_a$6080 (var-deref "jolt.passes.types.lattice" "join")) (_a$6081 (jolt-nth thn 0)) (_a$6082 (jolt-nth els 0))) (jolt-invoke _a$6080 _a$6081 _a$6082))) (_o$6091 (let* ((_a$6083 node) (_a$6084 (keyword #f "test")) (_a$6085 (jolt-nth tr 1)) (_a$6086 (keyword #f "then")) (_a$6087 (jolt-nth thn 1)) (_a$6088 (keyword #f "else")) (_a$6089 (jolt-nth els 1))) (jolt-assoc _a$6083 _a$6084 _a$6085 _a$6086 _a$6087 _a$6088 _a$6089)))) (jolt-vector _o$6090 _o$6091))) (if (jolt= op (keyword #f "do")) (let* ((stmts (let* ((_a$6093 (var-deref "clojure.core" "mapv")) (_a$6094 (lambda (s) (let fnrec6092 ((s s)) (jolt-nth (infer s tenv env) 1)))) (_a$6095 (jolt-get node (keyword #f "statements")))) (jolt-invoke _a$6093 _a$6094 _a$6095))) (r (infer (jolt-get node (keyword #f "ret")) tenv env))) (let* ((_o$6096 (jolt-nth r 0)) (_o$6097 (jolt-assoc node (keyword #f "statements") stmts (keyword #f "ret") (jolt-nth r 1)))) (jolt-vector _o$6096 _o$6097))) (if (jolt= op (keyword #f "throw")) (let* ((_o$6098 (keyword #f "any")) (_o$6099 (jolt-assoc node (keyword #f "expr") (jolt-nth (infer (jolt-get node (keyword #f "expr")) tenv env) 1)))) (jolt-vector _o$6098 _o$6099)) (if (jolt= op (keyword #f "var")) (begin (let* ((_a$6100 (var-deref "clojure.core" "swap!")) (_a$6101 (jolt-get env (keyword #f "escapes"))) (_a$6102 jolt-conj) (_a$6103 (jolt-invoke (var-deref "jolt.passes.types" "var-key") node))) (jolt-invoke _a$6100 _a$6101 _a$6102 _a$6103)) (let* ((_o$6106 (let* ((vt (let* ((_a$6104 (jolt-get env (keyword #f "vtypes"))) (_a$6105 (jolt-invoke (var-deref "jolt.passes.types" "var-key") node))) (jolt-get _a$6104 _a$6105)))) (if (jolt-truthy? vt) vt (keyword #f "any")))) (_o$6107 node)) (jolt-vector _o$6106 _o$6107))) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.types" "infer-invoke") node tenv env) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6118 (lambda (acc b) (let fnrec6108 ((acc acc) (b b)) (let* ((te (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (ir (infer (jolt-nth b 1) te env))) (let* ((_o$6114 (let* ((_a$6109 te) (_a$6110 (jolt-nth b 0)) (_a$6111 (jolt-nth ir 0))) (jolt-assoc _a$6109 _a$6110 _a$6111))) (_o$6115 (jolt-conj binds (let* ((_o$6112 (jolt-nth b 0)) (_o$6113 (jolt-nth ir 1))) (jolt-vector _o$6112 _o$6113))))) (jolt-vector _o$6114 _o$6115)))))) (_a$6119 (let* ((_o$6116 tenv) (_o$6117 (jolt-vector))) (jolt-vector _o$6116 _o$6117))) (_a$6120 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6118 _a$6119 _a$6120))) (br (let* ((_a$6121 (jolt-get node (keyword #f "body"))) (_a$6122 (jolt-nth res 0)) (_a$6123 env)) (infer _a$6121 _a$6122 _a$6123)))) (let* ((_o$6129 (jolt-nth br 0)) (_o$6130 (let* ((_a$6124 node) (_a$6125 (keyword #f "bindings")) (_a$6126 (jolt-nth res 1)) (_a$6127 (keyword #f "body")) (_a$6128 (jolt-nth br 1))) (jolt-assoc _a$6124 _a$6125 _a$6126 _a$6127 _a$6128)))) (jolt-vector _o$6129 _o$6130))) (if (jolt= op (keyword #f "loop")) (let* ((lenv (jolt-assoc env (keyword #f "in-loop?") #t))) (let* ((_o$6142 (keyword #f "any")) (_o$6143 (let* ((_a$6137 node) (_a$6138 (keyword #f "bindings")) (_a$6139 (let* ((_a$6134 (var-deref "clojure.core" "mapv")) (_a$6135 (lambda (b) (let fnrec6131 ((b b)) (let* ((_o$6132 (jolt-nth b 0)) (_o$6133 (jolt-nth (infer (jolt-nth b 1) tenv env) 1))) (jolt-vector _o$6132 _o$6133))))) (_a$6136 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$6134 _a$6135 _a$6136))) (_a$6140 (keyword #f "body")) (_a$6141 (jolt-nth (infer (jolt-get node (keyword #f "body")) tenv lenv) 1))) (jolt-assoc _a$6137 _a$6138 _a$6139 _a$6140 _a$6141)))) (jolt-vector _o$6142 _o$6143))) (if (jolt= op (keyword #f "recur")) (let* ((ares (let* ((_a$6145 (var-deref "clojure.core" "mapv")) (_a$6146 (lambda (a) (let fnrec6144 ((a a)) (infer a tenv env)))) (_a$6147 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$6145 _a$6146 _a$6147)))) (begin (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get env (keyword #f "in-loop?"))))) (if (jolt-truthy? and__25__auto) (jolt-get env (keyword #f "self-key")) and__25__auto))) (let* ((_a$6154 (var-deref "clojure.core" "swap!")) 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(jolt-get a (keyword #f "rest"))) (jolt-assoc pe (jolt-get a (keyword #f "rest")) (keyword #f "any")) pe))) (jolt-assoc a (keyword #f "body") (jolt-nth (infer (jolt-get a (keyword #f "body")) pe fenv) 1)))))) (_a$6175 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$6173 _a$6174 _a$6175))))) (jolt-vector _o$6176 _o$6177))) (if (jolt= op (keyword #f "def")) (begin (if (jolt-truthy? (jolt-get env (keyword #f "checking?"))) (jolt-invoke (var-deref "jolt.passes.types.check" "register-user-fn!") node env) jolt-nil) (let* ((_o$6178 (keyword #f "any")) (_o$6179 (jolt-assoc node (keyword #f "init") (jolt-nth (infer (jolt-get node (keyword #f "init")) tenv env) 1)))) (jolt-vector _o$6178 _o$6179))) (if (jolt= op (keyword #f "try")) (let* ((_o$6187 (keyword #f "any")) (_o$6188 (let* ((_a$6180 node) (_a$6181 (keyword #f "body")) (_a$6182 (jolt-nth (infer (jolt-get node (keyword #f "body")) tenv env) 1)) (_a$6183 (keyword #f "catch-body")) (_a$6184 (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-nth (infer (jolt-get node (keyword #f "catch-body")) tenv env) 1) jolt-nil)) (_a$6185 (keyword #f "finally")) (_a$6186 (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-nth (infer (jolt-get node (keyword #f "finally")) tenv env) 1) jolt-nil))) (jolt-assoc _a$6180 _a$6181 _a$6182 _a$6183 _a$6184 _a$6185 _a$6186)))) (jolt-vector _o$6187 _o$6188)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6189 (keyword #f "any")) (_o$6190 node)) (jolt-vector _o$6189 _o$6190)) jolt-nil)))))))))))))))))))))) infer) (let* ((_o$6191 (keyword #f "private")) (_o$6192 #t) (_o$6193 (keyword #f "doc")) (_o$6194 "Returns [type node'] \x2014; the inferred type of node and node with struct-safe\n :local references annotated :hint :struct. tenv maps in-scope local names to\n inferred types; env carries the inference config and this run's accumulators.")) (jolt-hash-map _o$6191 _o$6192 _o$6193 _o$6194)))) + (def-var-with-meta! "jolt.passes.types" "infer" (letrec ((infer (lambda (node tenv env) (let fnrec5924 ((node node) (tenv tenv) (env env)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "const")) (let* ((_o$5925 (let* ((v (jolt-get node (keyword #f "val")))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "float?") v) and__25__auto))) (keyword #f "double") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (keyword #f "num") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (keyword #f "str") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (keyword #f "kw") (if (jolt-nil? v) (keyword #f "nil") (if (jolt= #f v) (keyword #f "any") (if (jolt-truthy? (keyword #f "else")) (keyword #f "truthy") jolt-nil))))))))) (_o$5926 node)) (jolt-vector _o$5925 _o$5926)) (if (jolt= op (keyword #f "local")) (let* ((t (jolt-get tenv (jolt-get node (keyword #f "name"))))) (let* ((_o$5927 (if (jolt-truthy? t) t (keyword #f "any"))) (_o$5928 (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") t)) (let* ((n (jolt-assoc node (keyword #f "hint") (keyword #f "struct")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "type-shape") t)) (jolt-assoc n (keyword #f "shape") (jolt-invoke (var-deref "jolt.passes.types.lattice" "type-shape") t)) n)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) (jolt-assoc node (keyword #f "hint") (keyword #f "vector")) (if (jolt-truthy? (keyword #f "else")) node jolt-nil))))) (jolt-vector _o$5927 _o$5928))) (if (jolt= op (keyword #f "map")) (let* ((pairs (jolt-get node (keyword #f "pairs"))) (res (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (pr) (let fnrec5929 ((pr pr)) (let* ((kr (infer (jolt-nth pr 0) tenv env)) (vr (infer (jolt-nth pr 1) tenv env))) (let* ((_o$5930 (jolt-nth kr 1)) (_o$5931 (jolt-nth vr 1)) (_o$5932 (jolt-nth vr 0)) (_o$5933 (jolt-get (jolt-nth pr 0) (keyword #f "val")))) (jolt-vector _o$5930 _o$5931 _o$5932 _o$5933))))) pairs)) (struct? (let* ((and__25__auto (> (jolt-count res) 0))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "every?") (lambda (pr) (let fnrec5934 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth pr 0)))) pairs))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (r) (let fnrec5935 ((r r)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "truthy-type?") (jolt-nth r 2)))) res) and__25__auto)) and__25__auto))) (base (if (jolt-truthy? struct?) (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$5940 (lambda (m r) (let fnrec5936 ((m m) (r r)) (let* ((_a$5937 m) (_a$5938 (jolt-nth r 3)) (_a$5939 (jolt-nth r 2))) (jolt-assoc _a$5937 _a$5938 _a$5939))))) (_a$5941 (jolt-hash-map)) (_a$5942 res)) (jolt-reduce _a$5940 _a$5941 _a$5942))) (var-deref "jolt.passes.types.lattice" "type-depth")) jolt-nil)) (shp (if (jolt-truthy? (let* ((and__25__auto (jolt-get env (keyword #f "map-shapes?")))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto base)) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") base) and__25__auto)) and__25__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "shape-order") (jolt-keys (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") base))) jolt-nil)) (t (if (jolt-truthy? base) (if (jolt-truthy? shp) (jolt-assoc base (keyword #f "shape") shp) base) (keyword #f "any"))) (node_PRIME_ (jolt-assoc node (keyword #f "pairs") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5943 ((r r)) (let* ((_o$5944 (jolt-nth r 0)) (_o$5945 (jolt-nth r 1))) (jolt-vector _o$5944 _o$5945)))) res)))) (let* ((_o$5946 t) (_o$5947 (if (jolt-truthy? shp) (jolt-assoc node_PRIME_ (keyword #f "shape") shp) node_PRIME_))) (jolt-vector _o$5946 _o$5947))) (if (jolt= op (keyword #f "vector")) (let* ((irs (let* ((_a$5949 (var-deref "clojure.core" "mapv")) (_a$5950 (lambda (x) (let fnrec5948 ((x x)) (infer x tenv env)))) (_a$5951 (jolt-get node (keyword #f "items")))) (jolt-invoke _a$5949 _a$5950 _a$5951))) (ets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5952 ((r r)) (jolt-nth r 0))) irs)) (el (if (jolt-empty? ets) (keyword #f "any") (let* ((_a$5953 (var-deref "jolt.passes.types.lattice" "join")) (_a$5954 (jolt-first ets)) (_a$5955 (jolt-rest ets))) (jolt-reduce _a$5953 _a$5954 _a$5955))))) (let* ((_o$5957 (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") el) (var-deref "jolt.passes.types.lattice" "type-depth"))) (_o$5958 (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5956 ((r r)) (jolt-nth r 1))) irs)))) (jolt-vector _o$5957 _o$5958))) (if (jolt= op (keyword #f "set")) (let* ((irs (let* ((_a$5960 (var-deref "clojure.core" "mapv")) (_a$5961 (lambda (x) (let fnrec5959 ((x x)) (infer x tenv env)))) (_a$5962 (jolt-get node (keyword #f "items")))) (jolt-invoke _a$5960 _a$5961 _a$5962))) (ets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5963 ((r r)) (jolt-nth r 0))) irs)) (el (if (jolt-empty? ets) (keyword #f "any") (let* ((_a$5964 (var-deref "jolt.passes.types.lattice" "join")) (_a$5965 (jolt-first ets)) (_a$5966 (jolt-rest ets))) (jolt-reduce _a$5964 _a$5965 _a$5966))))) (let* ((_o$5968 (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") el) (var-deref "jolt.passes.types.lattice" "type-depth"))) (_o$5969 (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec5967 ((r r)) (jolt-nth r 1))) irs)))) (jolt-vector _o$5968 _o$5969))) (if (jolt= op (keyword #f "if")) (let* ((test (jolt-get node (keyword #f "test"))) (tr (infer test tenv env)) (nr (jolt-invoke (var-deref "jolt.passes.types" "if-narrow") test tenv)) (thn (let* ((_a$5970 (jolt-get node (keyword #f "then"))) (_a$5971 (jolt-nth nr 0)) (_a$5972 env)) (infer _a$5970 _a$5971 _a$5972))) (els (let* ((_a$5973 (jolt-get node (keyword #f "else"))) (_a$5974 (jolt-nth nr 1)) (_a$5975 env)) (infer _a$5973 _a$5974 _a$5975)))) (let* ((_o$5986 (let* ((_a$5976 (var-deref "jolt.passes.types.lattice" "join")) (_a$5977 (jolt-nth thn 0)) (_a$5978 (jolt-nth els 0))) (jolt-invoke _a$5976 _a$5977 _a$5978))) (_o$5987 (let* ((_a$5979 node) (_a$5980 (keyword #f "test")) (_a$5981 (jolt-nth tr 1)) (_a$5982 (keyword #f "then")) (_a$5983 (jolt-nth thn 1)) (_a$5984 (keyword #f "else")) (_a$5985 (jolt-nth els 1))) (jolt-assoc _a$5979 _a$5980 _a$5981 _a$5982 _a$5983 _a$5984 _a$5985)))) (jolt-vector _o$5986 _o$5987))) (if (jolt= op (keyword #f "do")) (let* ((stmts (let* ((_a$5989 (var-deref "clojure.core" "mapv")) (_a$5990 (lambda (s) (let fnrec5988 ((s s)) (jolt-nth (infer s tenv env) 1)))) (_a$5991 (jolt-get node (keyword #f "statements")))) (jolt-invoke _a$5989 _a$5990 _a$5991))) (r (infer (jolt-get node (keyword #f "ret")) tenv env))) (let* ((_o$5992 (jolt-nth r 0)) (_o$5993 (jolt-assoc node (keyword #f "statements") stmts (keyword #f "ret") (jolt-nth r 1)))) (jolt-vector _o$5992 _o$5993))) (if (jolt= op (keyword #f "throw")) (let* ((_o$5994 (keyword #f "any")) (_o$5995 (jolt-assoc node (keyword #f "expr") (jolt-nth (infer (jolt-get node (keyword #f "expr")) tenv env) 1)))) (jolt-vector _o$5994 _o$5995)) (if (jolt= op (keyword #f "var")) (begin (let* ((_a$5996 (var-deref "clojure.core" "swap!")) (_a$5997 (jolt-get env (keyword #f "escapes"))) (_a$5998 jolt-conj) (_a$5999 (jolt-invoke (var-deref "jolt.passes.types" "var-key") node))) (jolt-invoke _a$5996 _a$5997 _a$5998 _a$5999)) (let* ((_o$6002 (let* ((vt (let* ((_a$6000 (jolt-get env (keyword #f "vtypes"))) (_a$6001 (jolt-invoke (var-deref "jolt.passes.types" "var-key") node))) (jolt-get _a$6000 _a$6001)))) (if (jolt-truthy? vt) vt (keyword #f "any")))) (_o$6003 node)) (jolt-vector _o$6002 _o$6003))) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.types" "infer-invoke") node tenv env) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$6014 (lambda (acc b) (let fnrec6004 ((acc acc) (b b)) (let* ((te (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (ir (infer (jolt-nth b 1) te env))) (let* ((_o$6010 (let* ((_a$6005 te) (_a$6006 (jolt-nth b 0)) (_a$6007 (jolt-nth ir 0))) (jolt-assoc _a$6005 _a$6006 _a$6007))) (_o$6011 (jolt-conj binds (let* ((_o$6008 (jolt-nth b 0)) (_o$6009 (jolt-nth ir 1))) (jolt-vector _o$6008 _o$6009))))) (jolt-vector _o$6010 _o$6011)))))) (_a$6015 (let* ((_o$6012 tenv) (_o$6013 (jolt-vector))) (jolt-vector _o$6012 _o$6013))) (_a$6016 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$6014 _a$6015 _a$6016))) (br (let* ((_a$6017 (jolt-get node (keyword #f "body"))) (_a$6018 (jolt-nth res 0)) (_a$6019 env)) (infer _a$6017 _a$6018 _a$6019)))) (let* ((_o$6025 (jolt-nth br 0)) (_o$6026 (let* ((_a$6020 node) (_a$6021 (keyword #f "bindings")) (_a$6022 (jolt-nth res 1)) (_a$6023 (keyword #f "body")) (_a$6024 (jolt-nth br 1))) (jolt-assoc _a$6020 _a$6021 _a$6022 _a$6023 _a$6024)))) (jolt-vector _o$6025 _o$6026))) (if (jolt= op (keyword #f "loop")) (let* ((lenv (jolt-assoc env (keyword #f "in-loop?") #t))) (let* ((_o$6038 (keyword #f "any")) (_o$6039 (let* ((_a$6033 node) (_a$6034 (keyword #f "bindings")) (_a$6035 (let* ((_a$6030 (var-deref "clojure.core" "mapv")) (_a$6031 (lambda (b) (let fnrec6027 ((b b)) (let* ((_o$6028 (jolt-nth b 0)) (_o$6029 (jolt-nth (infer (jolt-nth b 1) tenv env) 1))) (jolt-vector _o$6028 _o$6029))))) (_a$6032 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$6030 _a$6031 _a$6032))) (_a$6036 (keyword #f "body")) (_a$6037 (jolt-nth (infer (jolt-get node (keyword #f "body")) tenv lenv) 1))) (jolt-assoc _a$6033 _a$6034 _a$6035 _a$6036 _a$6037)))) (jolt-vector _o$6038 _o$6039))) (if (jolt= op (keyword #f "recur")) (let* ((ares (let* ((_a$6041 (var-deref "clojure.core" "mapv")) (_a$6042 (lambda (a) (let fnrec6040 ((a a)) (infer a tenv env)))) (_a$6043 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$6041 _a$6042 _a$6043)))) (begin (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get env (keyword #f "in-loop?"))))) (if (jolt-truthy? and__25__auto) (jolt-get env (keyword #f "self-key")) and__25__auto))) (let* ((_a$6050 (var-deref "clojure.core" "swap!")) (_a$6051 (jolt-get env (keyword #f "calls"))) (_a$6052 jolt-conj) (_a$6053 (let* ((_o$6048 (jolt-get env (keyword #f "self-key"))) (_o$6049 (let* ((_a$6044 (var-deref "jolt.passes.types" "self-rec-argtys")) (_a$6045 (jolt-get node (keyword #f "args"))) (_a$6046 ares) (_a$6047 (jolt-get env (keyword #f "self-params")))) (jolt-invoke _a$6044 _a$6045 _a$6046 _a$6047)))) (jolt-vector _o$6048 _o$6049)))) (jolt-invoke _a$6050 _a$6051 _a$6052 _a$6053)) jolt-nil) (let* ((_o$6055 (keyword #f "any")) (_o$6056 (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec6054 ((r r)) (jolt-invoke (var-deref "jolt.passes.types" "nd") r))) ares)))) (jolt-vector _o$6055 _o$6056)))) (if (jolt= op (keyword #f "fn")) (let* ((fenv (jolt-assoc env (keyword #f "self-name") jolt-nil (keyword #f "self-key") jolt-nil (keyword #f "self-params") jolt-nil (keyword #f "in-loop?") #f))) (let* ((_o$6072 (keyword #f "any")) (_o$6073 (jolt-assoc node (keyword #f "arities") (let* ((_a$6069 (var-deref "clojure.core" "mapv")) (_a$6070 (lambda (a) (let fnrec6057 ((a a)) (let* ((shapes (jolt-get env (keyword #f "record-shapes"))) (phm (let* ((_a$6062 (lambda (m pr) (let fnrec6058 ((m m) (pr pr)) (let* ((_a$6059 m) (_a$6060 (jolt-nth pr 0)) (_a$6061 (jolt-nth pr 1))) (jolt-assoc _a$6059 _a$6060 _a$6061))))) (_a$6063 (jolt-hash-map)) (_a$6064 (jolt-get a (keyword #f "phints")))) (jolt-reduce _a$6062 _a$6063 _a$6064))) (pe (let* ((_a$6066 (lambda (e p) (let fnrec6065 ((e e) (p p)) (jolt-assoc e p (let* ((ent (jolt-get shapes (jolt-get phm p)))) (if (jolt-truthy? ent) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") ent (var-deref "jolt.passes.types.lattice" "type-depth") shapes) (keyword #f "any"))))))) (_a$6067 tenv) (_a$6068 (jolt-get a (keyword #f "params")))) (jolt-reduce _a$6066 _a$6067 _a$6068))) (pe (if (jolt-truthy? (jolt-get a (keyword #f "rest"))) (jolt-assoc pe (jolt-get a (keyword #f "rest")) (keyword #f "any")) pe))) (jolt-assoc a (keyword #f "body") (jolt-nth (infer (jolt-get a (keyword #f "body")) pe fenv) 1)))))) (_a$6071 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$6069 _a$6070 _a$6071))))) (jolt-vector _o$6072 _o$6073))) (if (jolt= op (keyword #f "def")) (begin (if (jolt-truthy? (jolt-get env (keyword #f "checking?"))) (jolt-invoke (var-deref "jolt.passes.types.check" "register-user-fn!") node env) jolt-nil) (let* ((_o$6074 (keyword #f "any")) (_o$6075 (jolt-assoc node (keyword #f "init") (jolt-nth (infer (jolt-get node (keyword #f "init")) tenv env) 1)))) (jolt-vector _o$6074 _o$6075))) (if (jolt= op (keyword #f "try")) (let* ((_o$6083 (keyword #f "any")) (_o$6084 (let* ((_a$6076 node) (_a$6077 (keyword #f "body")) (_a$6078 (jolt-nth (infer (jolt-get node (keyword #f "body")) tenv env) 1)) (_a$6079 (keyword #f "catch-body")) (_a$6080 (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-nth (infer (jolt-get node (keyword #f "catch-body")) tenv env) 1) jolt-nil)) (_a$6081 (keyword #f "finally")) (_a$6082 (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-nth (infer (jolt-get node (keyword #f "finally")) tenv env) 1) jolt-nil))) (jolt-assoc _a$6076 _a$6077 _a$6078 _a$6079 _a$6080 _a$6081 _a$6082)))) (jolt-vector _o$6083 _o$6084)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$6085 (keyword #f "any")) (_o$6086 node)) (jolt-vector _o$6085 _o$6086)) jolt-nil)))))))))))))))))))))) infer) (let* ((_o$6087 (keyword #f "private")) (_o$6088 #t) (_o$6089 (keyword #f "doc")) (_o$6090 "Returns [type node'] \x2014; the inferred type of node and node with struct-safe\n :local references annotated :hint :struct. tenv maps in-scope local names to\n inferred types; env carries the inference config and this run's accumulators.")) (jolt-hash-map _o$6087 _o$6088 _o$6089 _o$6090)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-top" (letrec ((infer-top (lambda (node env) (let fnrec6195 ((node node) (env env)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer") node (jolt-hash-map) env) 1))))) infer-top) (let* ((_o$6196 (keyword #f "private")) (_o$6197 #t)) (jolt-hash-map _o$6196 _o$6197)))) + (def-var-with-meta! "jolt.passes.types" "infer-top" (letrec ((infer-top (lambda (node env) (let fnrec6091 ((node node) (env env)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer") node (jolt-hash-map) env) 1))))) infer-top) (let* ((_o$6092 (keyword #f "private")) (_o$6093 #t)) (jolt-hash-map _o$6092 _o$6093)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "all-any-env" (letrec ((all-any-env (lambda (params) (let fnrec6198 ((params params)) (let* ((_a$6200 (lambda (e p) (let fnrec6199 ((e e) (p p)) (jolt-assoc e p (keyword #f "any"))))) (_a$6201 (jolt-hash-map)) (_a$6202 params)) (jolt-reduce _a$6200 _a$6201 _a$6202)))))) all-any-env) (let* ((_o$6203 (keyword #f "private")) (_o$6204 #t) (_o$6205 (keyword #f "doc")) (_o$6206 "tenv binding every param name to :any (the all-ambiguous baseline).")) (jolt-hash-map _o$6203 _o$6204 _o$6205 _o$6206)))) + (def-var-with-meta! "jolt.passes.types" "all-any-env" (letrec ((all-any-env (lambda (params) (let fnrec6094 ((params params)) (let* ((_a$6096 (lambda (e p) (let fnrec6095 ((e e) (p p)) (jolt-assoc e p (keyword #f "any"))))) (_a$6097 (jolt-hash-map)) (_a$6098 params)) (jolt-reduce _a$6096 _a$6097 _a$6098)))))) all-any-env) (let* ((_o$6099 (keyword #f "private")) (_o$6100 #t) (_o$6101 (keyword #f "doc")) (_o$6102 "tenv binding every param name to :any (the all-ambiguous baseline).")) (jolt-hash-map _o$6099 _o$6100 _o$6101 _o$6102)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "isolated-diag-count" (letrec ((isolated-diag-count (lambda (body tenv env) (let fnrec6207 ((body body) (tenv tenv) (env env)) (let* ((sub (jolt-assoc env (keyword #f "diags") (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))))) (begin (jolt-invoke (var-deref "jolt.passes.types" "infer") body tenv sub) (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get sub (keyword #f "diags")))))))))) isolated-diag-count) (let* ((_o$6208 (keyword #f "private")) (_o$6209 #t) (_o$6210 (keyword #f "doc")) (_o$6211 "Count of diagnostics typing body under tenv produces. Runs under a SUB-ENV\n with its own diags cell, so this probe never leaks into the real report (the\n shared calls/escapes/guard cells are intentionally still threaded \x2014; they are\n not read here). Runs the same checking inference as check-form.")) (jolt-hash-map _o$6208 _o$6209 _o$6210 _o$6211)))) + (def-var-with-meta! "jolt.passes.types" "isolated-diag-count" (letrec ((isolated-diag-count (lambda (body tenv env) (let fnrec6103 ((body body) (tenv tenv) (env env)) (let* ((sub (jolt-assoc env (keyword #f "diags") (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))))) (begin (jolt-invoke (var-deref "jolt.passes.types" "infer") body tenv sub) (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get sub (keyword #f "diags")))))))))) isolated-diag-count) (let* ((_o$6104 (keyword #f "private")) (_o$6105 #t) (_o$6106 (keyword #f "doc")) (_o$6107 "Count of diagnostics typing body under tenv produces. Runs under a SUB-ENV\n with its own diags cell, so this probe never leaks into the real report (the\n shared calls/escapes/guard cells are intentionally still threaded \x2014; they are\n not read here). Runs the same checking inference as check-form.")) (jolt-hash-map _o$6104 _o$6105 _o$6106 _o$6107)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "check-user-call" (letrec ((check-user-call (lambda (key sig arg-types pos env) (let fnrec6212 ((key key) (sig sig) (arg-types arg-types) (pos pos) (env env)) (let* ((cset (jolt-get env (keyword #f "checking-set")))) (if (jolt-not (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") cset) key)) (let* ((prev (jolt-invoke (var-deref "clojure.core" "deref") cset))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") cset (jolt-conj prev key)) (let* ((params (jolt-get sig (keyword #f "params"))) (body (jolt-get sig (keyword #f "body"))) (npar (jolt-count params)) (nargs (jolt-count arg-types)) (memo (jolt-get env (keyword #f "diag-memo")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") npar nargs)) (let* ((_a$6221 (var-deref "clojure.core" "swap!")) (_a$6222 (jolt-get env (keyword #f "diags"))) (_a$6223 jolt-conj) (_a$6224 (let* ((_o$6213 (keyword #f "op")) (_o$6214 (keyword #f "user-call")) (_o$6215 (keyword #f "type")) (_o$6216 (keyword #f "arity")) (_o$6217 (keyword #f "pos")) (_o$6218 pos) (_o$6219 (keyword #f "msg")) (_o$6220 (jolt-invoke (var-deref "clojure.core" "str") "wrong number of args (" nargs ") passed to `" (jolt-get sig (keyword #f "name")) "` (expected " npar ")"))) (jolt-hash-map _o$6213 _o$6214 _o$6215 _o$6216 _o$6217 _o$6218 _o$6219 _o$6220)))) (jolt-invoke _a$6221 _a$6222 _a$6223 _a$6224)) (let* ((base-env (jolt-invoke (var-deref "jolt.passes.types" "all-any-env") params)) (base (let* ((bk (let* ((_o$6225 (keyword #f "base")) (_o$6226 key)) (jolt-vector _o$6225 _o$6226)))) (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") memo) bk) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") memo) bk) (let* ((b (jolt-invoke (var-deref "jolt.passes.types" "isolated-diag-count") body base-env env))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") memo jolt-assoc bk b) b)))))) (let* ((_a$6254 (lambda (_ i) (let fnrec6227 ((_ _) (i i)) (begin (let* ((at (jolt-nth arg-types i))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "not=") at (keyword #f "any")))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "not=") at (keyword #f "truthy")) and__25__auto))) (let* ((mk (let* ((_o$6228 (keyword #f "arg")) (_o$6229 key) (_o$6230 i) (_o$6231 at)) (jolt-vector _o$6228 _o$6229 _o$6230 _o$6231))) (rejects (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") memo) mk) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") memo) mk) (let* ((r (jolt-n> (jolt-invoke (var-deref "jolt.passes.types" "isolated-diag-count") body (jolt-assoc base-env (jolt-nth params i) at) env) base))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") memo jolt-assoc mk r) r))))) (if (jolt-truthy? rejects) (let* ((_a$6250 (var-deref "clojure.core" "swap!")) (_a$6251 (jolt-get env (keyword #f "diags"))) (_a$6252 jolt-conj) (_a$6253 (let* ((_o$6240 (keyword #f "op")) (_o$6241 (keyword #f "user-call")) (_o$6242 (keyword #f "argpos")) (_o$6243 i) (_o$6244 (keyword #f "type")) (_o$6245 (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") at)) (_o$6246 (keyword #f "pos")) (_o$6247 pos) (_o$6248 (keyword #f "msg")) (_o$6249 (let* ((_a$6232 (var-deref "clojure.core" "str")) (_a$6233 "argument ") (_a$6234 (jolt-inc i)) (_a$6235 " to `") (_a$6236 (jolt-get sig (keyword #f "name"))) (_a$6237 "` is ") (_a$6238 (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") at)) (_a$6239 ", which its body provably rejects")) (jolt-invoke _a$6232 _a$6233 _a$6234 _a$6235 _a$6236 _a$6237 _a$6238 _a$6239)))) (jolt-hash-map _o$6240 _o$6241 _o$6242 _o$6243 _o$6244 _o$6245 _o$6246 _o$6247 _o$6248 _o$6249)))) (jolt-invoke _a$6250 _a$6251 _a$6252 _a$6253)) jolt-nil)) jolt-nil)) jolt-nil)))) (_a$6255 jolt-nil) (_a$6256 (jolt-range npar))) (jolt-reduce _a$6254 _a$6255 _a$6256))))) (jolt-invoke (var-deref "clojure.core" "reset!") cset prev))) jolt-nil)))))) check-user-call) (let* ((_o$6257 (keyword #f "private")) (_o$6258 #t) (_o$6259 (keyword #f "doc")) (_o$6260 "Strict mode: report a call to a registered user fn that provably throws \x2014;\n either a WRONG ARITY (the registered fn has one fixed arity, so a different\n arg count always throws) or an argument whose concrete type the body\n rejects. For the latter, re-check the body with ONLY that parameter bound to\n its arg type (others :any); a diagnostic the all-:any body did not already\n have means the argument alone is provably wrong. Monotonic \x2014; binding a\n concrete type can only ADD error-domain hits \x2014; so no false positive.\n Cycle-guarded (env's checking-set) so mutually recursive fns terminate.")) (jolt-hash-map _o$6257 _o$6258 _o$6259 _o$6260)))) + (def-var-with-meta! "jolt.passes.types" "check-user-call" (letrec ((check-user-call (lambda (key sig arg-types pos env) (let fnrec6108 ((key key) (sig sig) (arg-types arg-types) (pos pos) (env env)) (let* ((cset (jolt-get env (keyword #f "checking-set")))) (if (jolt-not (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") cset) key)) (let* ((prev (jolt-invoke (var-deref "clojure.core" "deref") cset))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") cset (jolt-conj prev key)) (let* ((params (jolt-get sig (keyword #f "params"))) (body (jolt-get sig (keyword #f "body"))) (npar (jolt-count params)) (nargs (jolt-count arg-types)) (memo (jolt-get env (keyword #f "diag-memo")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") npar nargs)) (let* ((_a$6117 (var-deref "clojure.core" "swap!")) (_a$6118 (jolt-get env (keyword #f "diags"))) (_a$6119 jolt-conj) (_a$6120 (let* ((_o$6109 (keyword #f "op")) (_o$6110 (keyword #f "user-call")) (_o$6111 (keyword #f "type")) (_o$6112 (keyword #f "arity")) (_o$6113 (keyword #f "pos")) (_o$6114 pos) (_o$6115 (keyword #f "msg")) (_o$6116 (jolt-invoke (var-deref "clojure.core" "str") "wrong number of args (" nargs ") passed to `" (jolt-get sig (keyword #f "name")) "` (expected " npar ")"))) (jolt-hash-map _o$6109 _o$6110 _o$6111 _o$6112 _o$6113 _o$6114 _o$6115 _o$6116)))) (jolt-invoke _a$6117 _a$6118 _a$6119 _a$6120)) (let* ((base-env (jolt-invoke (var-deref "jolt.passes.types" "all-any-env") params)) (base (let* ((bk (let* ((_o$6121 (keyword #f "base")) (_o$6122 key)) (jolt-vector _o$6121 _o$6122)))) (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") memo) bk) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") memo) bk) (let* ((b (jolt-invoke (var-deref "jolt.passes.types" "isolated-diag-count") body base-env env))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") memo jolt-assoc bk b) b)))))) (let* ((_a$6150 (lambda (_ i) (let fnrec6123 ((_ _) (i i)) (begin (let* ((at (jolt-nth arg-types i))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "not=") at (keyword #f "any")))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "not=") at (keyword #f "truthy")) and__25__auto))) (let* ((mk (let* ((_o$6124 (keyword #f "arg")) (_o$6125 key) (_o$6126 i) (_o$6127 at)) (jolt-vector _o$6124 _o$6125 _o$6126 _o$6127))) (rejects (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") memo) mk) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") memo) mk) (let* ((r (> (jolt-invoke (var-deref "jolt.passes.types" "isolated-diag-count") body (jolt-assoc base-env (jolt-nth params i) at) env) base))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") memo jolt-assoc mk r) r))))) (if (jolt-truthy? rejects) (let* ((_a$6146 (var-deref "clojure.core" "swap!")) (_a$6147 (jolt-get env (keyword #f "diags"))) (_a$6148 jolt-conj) (_a$6149 (let* ((_o$6136 (keyword #f "op")) (_o$6137 (keyword #f "user-call")) (_o$6138 (keyword #f "argpos")) (_o$6139 i) (_o$6140 (keyword #f "type")) (_o$6141 (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") at)) (_o$6142 (keyword #f "pos")) (_o$6143 pos) (_o$6144 (keyword #f "msg")) (_o$6145 (let* ((_a$6128 (var-deref "clojure.core" "str")) (_a$6129 "argument ") (_a$6130 (jolt-inc i)) (_a$6131 " to `") (_a$6132 (jolt-get sig (keyword #f "name"))) (_a$6133 "` is ") (_a$6134 (jolt-invoke (var-deref "jolt.passes.types.check" "type-name") at)) (_a$6135 ", which its body provably rejects")) (jolt-invoke _a$6128 _a$6129 _a$6130 _a$6131 _a$6132 _a$6133 _a$6134 _a$6135)))) (jolt-hash-map _o$6136 _o$6137 _o$6138 _o$6139 _o$6140 _o$6141 _o$6142 _o$6143 _o$6144 _o$6145)))) (jolt-invoke _a$6146 _a$6147 _a$6148 _a$6149)) jolt-nil)) jolt-nil)) jolt-nil)))) (_a$6151 jolt-nil) (_a$6152 (jolt-range npar))) (jolt-reduce _a$6150 _a$6151 _a$6152))))) (jolt-invoke (var-deref "clojure.core" "reset!") cset prev))) jolt-nil)))))) check-user-call) (let* ((_o$6153 (keyword #f "private")) (_o$6154 #t) (_o$6155 (keyword #f "doc")) (_o$6156 "Strict mode: report a call to a registered user fn that provably throws \x2014;\n either a WRONG ARITY (the registered fn has one fixed arity, so a different\n arg count always throws) or an argument whose concrete type the body\n rejects. For the latter, re-check the body with ONLY that parameter bound to\n its arg type (others :any); a diagnostic the all-:any body did not already\n have means the argument alone is provably wrong. Monotonic \x2014; binding a\n concrete type can only ADD error-domain hits \x2014; so no false positive.\n Cycle-guarded (env's checking-set) so mutually recursive fns terminate.")) (jolt-hash-map _o$6153 _o$6154 _o$6155 _o$6156)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "set-rtenv!" (letrec ((set-rtenv! (lambda (m) (let fnrec6261 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "rtenv") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-rtenv!) (let* ((_o$6262 (keyword #f "doc")) (_o$6263 "Install the current return-type estimates (a map \"ns/name\" -> type) used to\n type call results during the fixpoint.")) (jolt-hash-map _o$6262 _o$6263)))) + (def-var-with-meta! "jolt.passes.types" "set-rtenv!" (letrec ((set-rtenv! (lambda (m) (let fnrec6157 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "rtenv") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-rtenv!) (let* ((_o$6158 (keyword #f "doc")) (_o$6159 "Install the current return-type estimates (a map \"ns/name\" -> type) used to\n type call results during the fixpoint.")) (jolt-hash-map _o$6158 _o$6159)))) (guard (e (#t #f)) - (def-var! "jolt.passes.types" "set-record-shapes!" (letrec ((set-record-shapes! (lambda (m) (let fnrec6264 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "record-shapes") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-record-shapes!))) + (def-var! "jolt.passes.types" "set-record-shapes!" (letrec ((set-record-shapes! (lambda (m) (let fnrec6160 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "record-shapes") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-record-shapes!))) (guard (e (#t #f)) - (def-var! "jolt.passes.types" "set-protocol-methods!" (letrec ((set-protocol-methods! (lambda (m) (let fnrec6265 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "protocol-methods") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-protocol-methods!))) + (def-var! "jolt.passes.types" "set-protocol-methods!" (letrec ((set-protocol-methods! (lambda (m) (let fnrec6161 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "protocol-methods") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-protocol-methods!))) (guard (e (#t #f)) - (def-var! "jolt.passes.types" "set-map-shapes!" (letrec ((set-map-shapes! (lambda (b) (let fnrec6266 ((b b)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "map-shapes?") (jolt-invoke (var-deref "clojure.core" "boolean") b)))))) set-map-shapes!))) + (def-var! "jolt.passes.types" "set-map-shapes!" (letrec ((set-map-shapes! (lambda (b) (let fnrec6162 ((b b)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "map-shapes?") (jolt-invoke (var-deref "clojure.core" "boolean") b)))))) set-map-shapes!))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "set-vtypes!" (letrec ((set-vtypes! (lambda (m) (let fnrec6267 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "vtypes") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-vtypes!) (let* ((_o$6268 (keyword #f "doc")) (_o$6269 "Install var VALUE types (a map \"ns/name\" -> type): fn vars are :truthy\n (non-nil), def vars carry their inferred init type.")) (jolt-hash-map _o$6268 _o$6269)))) + (def-var-with-meta! "jolt.passes.types" "set-vtypes!" (letrec ((set-vtypes! (lambda (m) (let fnrec6163 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "vtypes") (let* ((or__26__auto m)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))))))) set-vtypes!) (let* ((_o$6164 (keyword #f "doc")) (_o$6165 "Install var VALUE types (a map \"ns/name\" -> type): fn vars are :truthy\n (non-nil), def vars carry their inferred init type.")) (jolt-hash-map _o$6164 _o$6165)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "join-types" (letrec ((join-types (lambda (a b) (let fnrec6270 ((a a) (b b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join-t") a b))))) join-types) (let* ((_o$6271 (keyword #f "doc")) (_o$6272 "Public structural join (lub), used by the orchestrator's fixpoint so param/\n return types join field-wise/element-wise instead of collapsing to :any.")) (jolt-hash-map _o$6271 _o$6272)))) + (def-var-with-meta! "jolt.passes.types" "join-types" (letrec ((join-types (lambda (a b) (let fnrec6166 ((a a) (b b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join-t") a b))))) join-types) (let* ((_o$6167 (keyword #f "doc")) (_o$6168 "Public structural join (lub), used by the orchestrator's fixpoint so param/\n return types join field-wise/element-wise instead of collapsing to :any.")) (jolt-hash-map _o$6167 _o$6168)))) (guard (e (#t #f)) - (def-var! "jolt.passes.types" "reset-escapes!" (letrec ((reset-escapes! (lambda () (let fnrec6273 () (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "escapes-box") (jolt-hash-set)))))) reset-escapes!))) + (def-var! "jolt.passes.types" "reset-escapes!" (letrec ((reset-escapes! (lambda () (let fnrec6169 () (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "escapes-box") (jolt-hash-set)))))) reset-escapes!))) (guard (e (#t #f)) - (def-var! "jolt.passes.types" "collected-escapes" (letrec ((collected-escapes (lambda () (let fnrec6274 () (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "escapes-box"))))))) collected-escapes))) + (def-var! "jolt.passes.types" "collected-escapes" (letrec ((collected-escapes (lambda () (let fnrec6170 () (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "escapes-box"))))))) collected-escapes))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "check-form" (letrec ((check-form (case-lambda ((node) (let fnrec6275 ((node node)) (check-form node #f))) ((node strict?) (let fnrec6276 ((node node) (strict? strict?)) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #t strict?))) (begin (jolt-invoke (var-deref "jolt.passes.types" "infer") node (jolt-hash-map) env) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "diags"))))))))))) check-form) (let* ((_o$6277 (keyword #f "doc")) (_o$6278 "Success-type check a single analyzed form (RFC 0006). Returns a vector of\n diagnostics [{:op :argpos :type :msg} ...] for provably-wrong calls; empty\n when nothing is provably wrong. Runs independently of specialization so it is\n usable in normal builds (the decoupled checking path).\n\n With strict? true, also reports calls to registered user functions whose\n concrete argument types provably make the body throw (opt-in,\n closed-world). user-sig-box accumulates registered defs across forms, so a\n def must precede its call \x2014; the same ordering RFC 0005 already assumes.")) (jolt-hash-map _o$6277 _o$6278)))) + (def-var-with-meta! "jolt.passes.types" "check-form" (letrec ((check-form (case-lambda ((node) (let fnrec6171 ((node node)) (check-form node #f))) ((node strict?) (let fnrec6172 ((node node) (strict? strict?)) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #t strict?))) (begin (jolt-invoke (var-deref "jolt.passes.types" "infer") node (jolt-hash-map) env) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "diags"))))))))))) check-form) (let* ((_o$6173 (keyword #f "doc")) (_o$6174 "Success-type check a single analyzed form (RFC 0006). Returns a vector of\n diagnostics [{:op :argpos :type :msg} ...] for provably-wrong calls; empty\n when nothing is provably wrong. Runs independently of specialization so it is\n usable in normal builds (the decoupled checking path).\n\n With strict? true, also reports calls to registered user functions whose\n concrete argument types provably make the body throw (opt-in,\n closed-world). user-sig-box accumulates registered defs across forms, so a\n def must precede its call \x2014; the same ordering RFC 0005 already assumes.")) (jolt-hash-map _o$6173 _o$6174)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "infer-body" (letrec ((infer-body (case-lambda ((body tenv) (let fnrec6279 ((body body) (tenv tenv)) (infer-body body tenv jolt-nil jolt-nil jolt-nil))) ((body tenv self-name self-key) (let fnrec6280 ((body body) (tenv tenv) (self-name self-name) (self-key self-key)) (infer-body body tenv self-name self-key jolt-nil))) ((body tenv self-name self-key self-params) (let fnrec6281 ((body body) (tenv tenv) (self-name self-name) (self-key self-key) (self-params self-params)) (let* ((env (jolt-assoc (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f) (keyword #f "self-name") self-name (keyword #f "self-key") self-key (keyword #f "self-params") self-params)) (r (jolt-invoke (var-deref "jolt.passes.types" "infer") body tenv env))) (let* ((_o$6282 (jolt-nth r 0)) (_o$6283 (jolt-nth r 1)) (_o$6284 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "calls"))))) (jolt-vector _o$6282 _o$6283 _o$6284)))))))) infer-body) (let* ((_o$6285 (keyword #f "doc")) (_o$6286 "Type `body` under tenv (local-name -> type). Returns [ret-type node' calls],\n where calls is the [[\"ns/name\" [arg-types...]] ...] this body invokes (for\n propagating into callee param types). Also accumulates escapes (read with\n collected-escapes after a full sweep). With self-name/self-key, a recursive\n self-call or fn-level recur in `body` is collected under self-key too, so a\n self-recursive fn's params are constrained by its recursion, not just callers.")) (jolt-hash-map _o$6285 _o$6286)))) + (def-var-with-meta! "jolt.passes.types" "infer-body" (letrec ((infer-body (case-lambda ((body tenv) (let fnrec6175 ((body body) (tenv tenv)) (infer-body body tenv jolt-nil jolt-nil jolt-nil))) ((body tenv self-name self-key) (let fnrec6176 ((body body) (tenv tenv) (self-name self-name) (self-key self-key)) (infer-body body tenv self-name self-key jolt-nil))) ((body tenv self-name self-key self-params) (let fnrec6177 ((body body) (tenv tenv) (self-name self-name) (self-key self-key) (self-params self-params)) (let* ((env (jolt-assoc (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f) (keyword #f "self-name") self-name (keyword #f "self-key") self-key (keyword #f "self-params") self-params)) (r (jolt-invoke (var-deref "jolt.passes.types" "infer") body tenv env))) (let* ((_o$6178 (jolt-nth r 0)) (_o$6179 (jolt-nth r 1)) (_o$6180 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "calls"))))) (jolt-vector _o$6178 _o$6179 _o$6180)))))))) infer-body) (let* ((_o$6181 (keyword #f "doc")) (_o$6182 "Type `body` under tenv (local-name -> type). Returns [ret-type node' calls],\n where calls is the [[\"ns/name\" [arg-types...]] ...] this body invokes (for\n propagating into callee param types). Also accumulates escapes (read with\n collected-escapes after a full sweep). With self-name/self-key, a recursive\n self-call or fn-level recur in `body` is collected under self-key too, so a\n self-recursive fn's params are constrained by its recursion, not just callers.")) (jolt-hash-map _o$6181 _o$6182)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "impl-reg-ret" (letrec ((impl-reg-ret (lambda (node) (let fnrec6287 ((node node)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((or__26__auto (jolt= "register-inline-method" (jolt-get f (keyword #f "name"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= "register-method" (jolt-get f (keyword #f "name"))))))) (if (jolt-truthy? and__25__auto) (jolt= 4 (jolt-count args)) and__25__auto)) and__25__auto)) (let* ((proto (jolt-get (jolt-nth args 1) (keyword #f "val"))) (method (jolt-get (jolt-nth args 2) (keyword #f "val"))) (fnn (jolt-nth args 3))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "string?") proto))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "string?") method))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get fnn (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-seq (jolt-get fnn (keyword #f "arities"))) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_o$6291 (jolt-invoke (var-deref "clojure.core" "str") proto "/" method)) (_o$6292 (jolt-nth (let* ((_a$6288 (var-deref "jolt.passes.types" "infer-body")) (_a$6289 (jolt-get (jolt-first (jolt-get fnn (keyword #f "arities"))) (keyword #f "body"))) (_a$6290 (jolt-hash-map))) (jolt-invoke _a$6288 _a$6289 _a$6290)) 0))) (jolt-vector _o$6291 _o$6292)) jolt-nil)) jolt-nil)) jolt-nil))))) impl-reg-ret) (let* ((_o$6293 (keyword #f "private")) (_o$6294 #t)) (jolt-hash-map _o$6293 _o$6294)))) + (def-var-with-meta! "jolt.passes.types" "impl-reg-ret" (letrec ((impl-reg-ret (lambda (node) (let fnrec6183 ((node node)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (let* ((and__25__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((or__26__auto (jolt= "register-inline-method" (jolt-get f (keyword #f "name"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= "register-method" (jolt-get f (keyword #f "name"))))))) (if (jolt-truthy? and__25__auto) (jolt= 4 (jolt-count args)) and__25__auto)) and__25__auto)) (let* ((proto (jolt-get (jolt-nth args 1) (keyword #f "val"))) (method (jolt-get (jolt-nth args 2) (keyword #f "val"))) (fnn (jolt-nth args 3))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "string?") proto))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "string?") method))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get fnn (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt-seq (jolt-get fnn (keyword #f "arities"))) and__25__auto)) and__25__auto)) and__25__auto))) (let* ((_o$6187 (jolt-invoke (var-deref "clojure.core" "str") proto "/" method)) (_o$6188 (jolt-nth (let* ((_a$6184 (var-deref "jolt.passes.types" "infer-body")) (_a$6185 (jolt-get (jolt-first (jolt-get fnn (keyword #f "arities"))) (keyword #f "body"))) (_a$6186 (jolt-hash-map))) (jolt-invoke _a$6184 _a$6185 _a$6186)) 0))) (jolt-vector _o$6187 _o$6188)) jolt-nil)) jolt-nil)) jolt-nil))))) impl-reg-ret) (let* ((_o$6189 (keyword #f "private")) (_o$6190 #t)) (jolt-hash-map _o$6189 _o$6190)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "walk-pm-rets" (letrec ((walk-pm-rets (lambda (node acc) (let fnrec6295 ((node node) (acc acc)) (let* ((kr (jolt-invoke (var-deref "jolt.passes.types" "impl-reg-ret") node)) (acc (if (jolt-truthy? kr) (let* ((_a$6297 (var-deref "clojure.core" "update")) (_a$6298 acc) (_a$6299 (jolt-nth kr 0)) (_a$6300 (lambda (t) (let fnrec6296 ((t t)) (if (jolt-truthy? t) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") t (jolt-nth kr 1)) (jolt-nth kr 1)))))) (jolt-invoke _a$6297 _a$6298 _a$6299 _a$6300)) acc))) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (a c) (let fnrec6301 ((a a) (c c)) (walk-pm-rets c a))) acc node)))))) walk-pm-rets) (let* ((_o$6302 (keyword #f "private")) (_o$6303 #t)) (jolt-hash-map _o$6302 _o$6303)))) + (def-var-with-meta! "jolt.passes.types" "walk-pm-rets" (letrec ((walk-pm-rets (lambda (node acc) (let fnrec6191 ((node node) (acc acc)) (let* ((kr (jolt-invoke (var-deref "jolt.passes.types" "impl-reg-ret") node)) (acc (if (jolt-truthy? kr) (let* ((_a$6193 (var-deref "clojure.core" "update")) (_a$6194 acc) (_a$6195 (jolt-nth kr 0)) (_a$6196 (lambda (t) (let fnrec6192 ((t t)) (if (jolt-truthy? t) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") t (jolt-nth kr 1)) (jolt-nth kr 1)))))) (jolt-invoke _a$6193 _a$6194 _a$6195 _a$6196)) acc))) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (a c) (let fnrec6197 ((a a) (c c)) (walk-pm-rets c a))) acc node)))))) walk-pm-rets) (let* ((_o$6198 (keyword #f "private")) (_o$6199 #t)) (jolt-hash-map _o$6198 _o$6199)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "collect-pm-rets!" (letrec ((collect-pm-rets! (lambda (nodes) (let fnrec6304 ((nodes nodes)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "pm-rets-box") (let* ((_a$6306 (lambda (acc n) (let fnrec6305 ((acc acc) (n n)) (jolt-invoke (var-deref "jolt.passes.types" "walk-pm-rets") n acc)))) (_a$6307 (jolt-hash-map)) (_a$6308 nodes)) (jolt-reduce _a$6306 _a$6307 _a$6308))))))) collect-pm-rets!) (let* ((_o$6309 (keyword #f "doc")) (_o$6310 "Scan the unit's nodes for protocol-method impl registrations and stash each\n method's joined impl-return type (record-shapes must already be installed).")) (jolt-hash-map _o$6309 _o$6310)))) + (def-var-with-meta! "jolt.passes.types" "collect-pm-rets!" (letrec ((collect-pm-rets! (lambda (nodes) (let fnrec6200 ((nodes nodes)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "pm-rets-box") (let* ((_a$6202 (lambda (acc n) (let fnrec6201 ((acc acc) (n n)) (jolt-invoke (var-deref "jolt.passes.types" "walk-pm-rets") n acc)))) (_a$6203 (jolt-hash-map)) (_a$6204 nodes)) (jolt-reduce _a$6202 _a$6203 _a$6204))))))) collect-pm-rets!) (let* ((_o$6205 (keyword #f "doc")) (_o$6206 "Scan the unit's nodes for protocol-method impl registrations and stash each\n method's joined impl-return type (record-shapes must already be installed).")) (jolt-hash-map _o$6205 _o$6206)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "reinfer-def" (letrec ((reinfer-def (lambda (def-node ptmap) (let fnrec6311 ((def-node def-node) (ptmap ptmap)) (let* ((fnode (jolt-get def-node (keyword #f "init"))) (env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f)) (shapes (jolt-get env (keyword #f "record-shapes")))) (if (jolt= (keyword #f "fn") (jolt-get fnode (keyword #f "op"))) (jolt-assoc def-node (keyword #f "init") (jolt-assoc fnode (keyword #f "arities") (let* ((_a$6317 (var-deref "clojure.core" "mapv")) (_a$6318 (lambda (a) (let fnrec6312 ((a a)) (let* ((pt (let* ((_a$6314 (lambda (m pr) (let fnrec6313 ((m m) (pr pr)) (let* ((nm (jolt-nth pr 0)) (e (jolt-get shapes (jolt-nth pr 1)))) (if (jolt-truthy? (let* ((and__25__auto e)) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-contains? m nm)) and__25__auto))) (jolt-assoc m nm (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e (var-deref "jolt.passes.types.lattice" "type-depth") shapes)) m))))) (_a$6315 ptmap) (_a$6316 (jolt-get a (keyword #f "phints")))) (jolt-reduce _a$6314 _a$6315 _a$6316)))) (jolt-assoc a (keyword #f "body") (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-get a (keyword #f "body")) pt env) 1)))))) (_a$6319 (jolt-get fnode (keyword #f "arities")))) (jolt-invoke _a$6317 _a$6318 _a$6319)))) def-node)))))) reinfer-def) (let* ((_o$6320 (keyword #f "doc")) (_o$6321 "Re-run inference on a stashed :def's fn arity bodies with param types seeded\n (ptmap: param-name -> type), returning the def with annotated bodies. The back\n end emits the result directly (no further passes), so the param-typed lookups\n keep their specialization. Used by the inter-procedural recompile.")) (jolt-hash-map _o$6320 _o$6321)))) + (def-var-with-meta! "jolt.passes.types" "reinfer-def" (letrec ((reinfer-def (lambda (def-node ptmap) (let fnrec6207 ((def-node def-node) (ptmap ptmap)) (let* ((fnode (jolt-get def-node (keyword #f "init"))) (env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f)) (shapes (jolt-get env (keyword #f "record-shapes")))) (if (jolt= (keyword #f "fn") (jolt-get fnode (keyword #f "op"))) (jolt-assoc def-node (keyword #f "init") (jolt-assoc fnode (keyword #f "arities") (let* ((_a$6213 (var-deref "clojure.core" "mapv")) (_a$6214 (lambda (a) (let fnrec6208 ((a a)) (let* ((pt (let* ((_a$6210 (lambda (m pr) (let fnrec6209 ((m m) (pr pr)) (let* ((nm (jolt-nth pr 0)) (e (jolt-get shapes (jolt-nth pr 1)))) (if (jolt-truthy? (let* ((and__25__auto e)) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-contains? m nm)) and__25__auto))) (jolt-assoc m nm (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e (var-deref "jolt.passes.types.lattice" "type-depth") shapes)) m))))) (_a$6211 ptmap) (_a$6212 (jolt-get a (keyword #f "phints")))) (jolt-reduce _a$6210 _a$6211 _a$6212)))) (jolt-assoc a (keyword #f "body") (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-get a (keyword #f "body")) pt env) 1)))))) (_a$6215 (jolt-get fnode (keyword #f "arities")))) (jolt-invoke _a$6213 _a$6214 _a$6215)))) def-node)))))) reinfer-def) (let* ((_o$6216 (keyword #f "doc")) (_o$6217 "Re-run inference on a stashed :def's fn arity bodies with param types seeded\n (ptmap: param-name -> type), returning the def with annotated bodies. The back\n end emits the result directly (no further passes), so the param-typed lookups\n keep their specialization. Used by the inter-procedural recompile.")) (jolt-hash-map _o$6216 _o$6217)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "phint-seed" (letrec ((phint-seed (lambda (params phints) (let fnrec6322 ((params params) (phints phints)) (let* ((shapes (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "config-box")) (keyword #f "record-shapes"))) (m (let* ((_a$6327 (lambda (acc pr) (let fnrec6323 ((acc acc) (pr pr)) (let* ((_a$6324 acc) (_a$6325 (jolt-nth pr 0)) (_a$6326 (jolt-nth pr 1))) (jolt-assoc _a$6324 _a$6325 _a$6326))))) (_a$6328 (jolt-hash-map)) (_a$6329 phints)) (jolt-reduce _a$6327 _a$6328 _a$6329)))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (nm) (let fnrec6330 ((nm nm)) (let* ((ck (jolt-get m nm)) (e (let* ((and__25__auto ck)) (if (jolt-truthy? and__25__auto) (jolt-get shapes ck) and__25__auto)))) (if (jolt-truthy? e) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e (var-deref "jolt.passes.types.lattice" "type-depth") shapes) jolt-nil)))) params)))))) phint-seed) (let* ((_o$6331 (keyword #f "doc")) (_o$6332 "Positional declared-hint type seeds for a fn arity. Given the param-name\n vector and the arity's :phints (a seq of [name ctor-key] pairs), return a\n vector parallel to params whose slot i is the resolved record TYPE of that\n param's ^Record hint (via the record-shapes registry), or nil. The\n whole-program fixpoint seeds these as a param-type FLOOR so a declared hint\n propagates to a fn's callees DURING inference \x2014; not only at the final re-emit\n (reinfer-def). Without it a hinted param with no callers stays :any through the\n fixpoint, so a field read off it (e.g. (:origin ^Ray r)) never tells a shared\n callee its arg is a Vec3.")) (jolt-hash-map _o$6331 _o$6332)))) + (def-var-with-meta! "jolt.passes.types" "phint-seed" (letrec ((phint-seed (lambda (params phints) (let fnrec6218 ((params params) (phints phints)) (let* ((shapes (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "config-box")) (keyword #f "record-shapes"))) (m (let* ((_a$6223 (lambda (acc pr) (let fnrec6219 ((acc acc) (pr pr)) (let* ((_a$6220 acc) (_a$6221 (jolt-nth pr 0)) (_a$6222 (jolt-nth pr 1))) (jolt-assoc _a$6220 _a$6221 _a$6222))))) (_a$6224 (jolt-hash-map)) (_a$6225 phints)) (jolt-reduce _a$6223 _a$6224 _a$6225)))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (nm) (let fnrec6226 ((nm nm)) (let* ((ck (jolt-get m nm)) (e (let* ((and__25__auto ck)) (if (jolt-truthy? and__25__auto) (jolt-get shapes ck) and__25__auto)))) (if (jolt-truthy? e) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e (var-deref "jolt.passes.types.lattice" "type-depth") shapes) jolt-nil)))) params)))))) phint-seed) (let* ((_o$6227 (keyword #f "doc")) (_o$6228 "Positional declared-hint type seeds for a fn arity. Given the param-name\n vector and the arity's :phints (a seq of [name ctor-key] pairs), return a\n vector parallel to params whose slot i is the resolved record TYPE of that\n param's ^Record hint (via the record-shapes registry), or nil. The\n whole-program fixpoint seeds these as a param-type FLOOR so a declared hint\n propagates to a fn's callees DURING inference \x2014; not only at the final re-emit\n (reinfer-def). Without it a hinted param with no callers stays :any through the\n fixpoint, so a field read off it (e.g. (:origin ^Ray r)) never tells a shared\n callee its arg is a Vec3.")) (jolt-hash-map _o$6227 _o$6228)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-seeds-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map)) (let* ((_o$6333 (keyword #f "private")) (_o$6334 #t)) (jolt-hash-map _o$6333 _o$6334)))) + (def-var-with-meta! "jolt.passes.types" "wp-seeds-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map)) (let* ((_o$6229 (keyword #f "private")) (_o$6230 #t)) (jolt-hash-map _o$6229 _o$6230)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "param-seeds-for" (letrec ((param-seeds-for (lambda (k) (let fnrec6335 ((k k)) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "wp-seeds-box")) k))))) param-seeds-for) (let* ((_o$6336 (keyword #f "doc")) (_o$6337 "The param-name -> type seed map a top-level def should be reinferred with, or\n nil. Set by wp-infer!, read by run-passes during the final per-def emit.")) (jolt-hash-map _o$6336 _o$6337)))) + (def-var-with-meta! "jolt.passes.types" "param-seeds-for" (letrec ((param-seeds-for (lambda (k) (let fnrec6231 ((k k)) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "wp-seeds-box")) k))))) param-seeds-for) (let* ((_o$6232 (keyword #f "doc")) (_o$6233 "The param-name -> type seed map a top-level def should be reinferred with, or\n nil. Set by wp-infer!, read by run-passes during the final per-def emit.")) (jolt-hash-map _o$6232 _o$6233)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-num-seeds-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map)) (let* ((_o$6338 (keyword #f "private")) (_o$6339 #t)) (jolt-hash-map _o$6338 _o$6339)))) + (def-var-with-meta! "jolt.passes.types" "wp-num-seeds-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map)) (let* ((_o$6234 (keyword #f "private")) (_o$6235 #t)) (jolt-hash-map _o$6234 _o$6235)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "param-num-seeds-for" (letrec ((param-num-seeds-for (lambda (k) (let fnrec6340 ((k k)) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "wp-num-seeds-box")) k))))) param-num-seeds-for) (let* ((_o$6341 (keyword #f "doc")) (_o$6342 "The param-name -> :double seed map for a def's hintless flonum params, or nil.")) (jolt-hash-map _o$6341 _o$6342)))) + (def-var-with-meta! "jolt.passes.types" "param-num-seeds-for" (letrec ((param-num-seeds-for (lambda (k) (let fnrec6236 ((k k)) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "wp-num-seeds-box")) k))))) param-num-seeds-for) (let* ((_o$6237 (keyword #f "doc")) (_o$6238 "The param-name -> :double seed map for a def's hintless flonum params, or nil.")) (jolt-hash-map _o$6237 _o$6238)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-specializable" (letrec ((wp-specializable (lambda (nodes) (let fnrec6343 ((nodes nodes)) (let* ((_a$6358 (lambda (m d) (let fnrec6344 ((m m) (d d)) (let* ((f (jolt-get d (keyword #f "init")))) (if (let* ((and__25__auto (jolt= (keyword #f "def") (jolt-get d (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count (jolt-get f (keyword #f "arities")))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get (jolt-first (jolt-get f (keyword #f "arities"))) (keyword #f "rest"))) and__25__auto)) and__25__auto)) and__25__auto)) (let* ((a (jolt-first (jolt-get f (keyword #f "arities"))))) (let* ((_a$6355 m) (_a$6356 (let* ((_a$6345 (var-deref "clojure.core" "str")) (_a$6346 (jolt-get d (keyword #f "ns"))) (_a$6347 "/") (_a$6348 (jolt-get d (keyword #f "name")))) (jolt-invoke _a$6345 _a$6346 _a$6347 _a$6348))) (_a$6357 (let* ((_o$6349 (keyword #f "name")) (_o$6350 (jolt-get d (keyword #f "name"))) (_o$6351 (keyword #f "params")) (_o$6352 (jolt-get a (keyword #f "params"))) (_o$6353 (keyword #f "body")) (_o$6354 (jolt-get a (keyword #f "body")))) (jolt-hash-map _o$6349 _o$6350 _o$6351 _o$6352 _o$6353 _o$6354)))) (jolt-assoc _a$6355 _a$6356 _a$6357))) m))))) (_a$6359 (jolt-hash-map)) (_a$6360 nodes)) (jolt-reduce _a$6358 _a$6359 _a$6360)))))) wp-specializable) (let* ((_o$6361 (keyword #f "private")) (_o$6362 #t)) (jolt-hash-map _o$6361 _o$6362)))) + (def-var-with-meta! "jolt.passes.types" "wp-specializable" (letrec ((wp-specializable (lambda (nodes) (let fnrec6239 ((nodes nodes)) (let* ((_a$6254 (lambda (m d) (let fnrec6240 ((m m) (d d)) (let* ((f (jolt-get d (keyword #f "init")))) (if (let* ((and__25__auto (jolt= (keyword #f "def") (jolt-get d (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count (jolt-get f (keyword #f "arities")))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get (jolt-first (jolt-get f (keyword #f "arities"))) (keyword #f "rest"))) and__25__auto)) and__25__auto)) and__25__auto)) (let* ((a (jolt-first (jolt-get f (keyword #f "arities"))))) (let* ((_a$6251 m) (_a$6252 (let* ((_a$6241 (var-deref "clojure.core" "str")) (_a$6242 (jolt-get d (keyword #f "ns"))) (_a$6243 "/") (_a$6244 (jolt-get d (keyword #f "name")))) (jolt-invoke _a$6241 _a$6242 _a$6243 _a$6244))) (_a$6253 (let* ((_o$6245 (keyword #f "name")) (_o$6246 (jolt-get d (keyword #f "name"))) (_o$6247 (keyword #f "params")) (_o$6248 (jolt-get a (keyword #f "params"))) (_o$6249 (keyword #f "body")) (_o$6250 (jolt-get a (keyword #f "body")))) (jolt-hash-map _o$6245 _o$6246 _o$6247 _o$6248 _o$6249 _o$6250)))) (jolt-assoc _a$6251 _a$6252 _a$6253))) m))))) (_a$6255 (jolt-hash-map)) (_a$6256 nodes)) (jolt-reduce _a$6254 _a$6255 _a$6256)))))) wp-specializable) (let* ((_o$6257 (keyword #f "private")) (_o$6258 #t)) (jolt-hash-map _o$6257 _o$6258)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-empty-ptypes" (letrec ((wp-empty-ptypes (lambda (spec ks) (let fnrec6363 ((spec spec) (ks ks)) (let* ((_a$6365 (lambda (m k) (let fnrec6364 ((m m) (k k)) (jolt-assoc m k (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "repeat") (jolt-count (jolt-get (jolt-get spec k) (keyword #f "params"))) jolt-nil)))))) (_a$6366 (jolt-hash-map)) (_a$6367 ks)) (jolt-reduce _a$6365 _a$6366 _a$6367)))))) wp-empty-ptypes) (let* ((_o$6368 (keyword #f "private")) (_o$6369 #t)) (jolt-hash-map _o$6368 _o$6369)))) + (def-var-with-meta! "jolt.passes.types" "wp-empty-ptypes" (letrec ((wp-empty-ptypes (lambda (spec ks) (let fnrec6259 ((spec spec) (ks ks)) (let* ((_a$6261 (lambda (m k) (let fnrec6260 ((m m) (k k)) (jolt-assoc m k (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "repeat") (jolt-count (jolt-get (jolt-get spec k) (keyword #f "params"))) jolt-nil)))))) (_a$6262 (jolt-hash-map)) (_a$6263 ks)) (jolt-reduce _a$6261 _a$6262 _a$6263)))))) wp-empty-ptypes) (let* ((_o$6264 (keyword #f "private")) (_o$6265 #t)) (jolt-hash-map _o$6264 _o$6265)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-accum" (letrec ((wp-accum (lambda (pt spec calls) (let fnrec6370 ((pt pt) (spec spec) (calls calls)) (jolt-reduce (lambda (pt2 c) (let fnrec6371 ((pt2 pt2) (c c)) (let* ((callee (jolt-nth c 0)) (args (jolt-nth c 1))) (if (jolt-contains? spec callee) (let* ((cur (jolt-get pt2 callee))) (jolt-assoc pt2 callee (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "map-indexed") (lambda (i t) (let fnrec6372 ((i i) (t t)) (if (jolt-n< i (jolt-count args)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") t (jolt-nth args i)) t))) cur)))) pt2)))) pt calls))))) wp-accum) (let* ((_o$6373 (keyword #f "private")) (_o$6374 #t)) (jolt-hash-map _o$6373 _o$6374)))) + (def-var-with-meta! "jolt.passes.types" "wp-accum" (letrec ((wp-accum (lambda (pt spec calls) (let fnrec6266 ((pt pt) (spec spec) (calls calls)) (jolt-reduce (lambda (pt2 c) (let fnrec6267 ((pt2 pt2) (c c)) (let* ((callee (jolt-nth c 0)) (args (jolt-nth c 1))) (if (jolt-contains? spec callee) (let* ((cur (jolt-get pt2 callee))) (jolt-assoc pt2 callee (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "map-indexed") (lambda (i t) (let fnrec6268 ((i i) (t t)) (if (< i (jolt-count args)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") t (jolt-nth args i)) t))) cur)))) pt2)))) pt calls))))) wp-accum) (let* ((_o$6269 (keyword #f "private")) (_o$6270 #t)) (jolt-hash-map _o$6269 _o$6270)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-pass" (letrec ((wp-pass (lambda (nodes spec ks ptypes) (let fnrec6375 ((nodes nodes) (spec spec) (ks ks) (ptypes ptypes)) (let* ((_a$6406 (lambda (acc node) (let fnrec6376 ((acc acc) (node node)) (let* ((k (if (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) (let* ((_a$6377 (var-deref "clojure.core" "str")) (_a$6378 (jolt-get node (keyword #f "ns"))) (_a$6379 "/") (_a$6380 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$6377 _a$6378 _a$6379 _a$6380)) jolt-nil)) (s (let* ((and__25__auto k)) (if (jolt-truthy? and__25__auto) (jolt-get spec k) and__25__auto)))) (if (jolt-truthy? s) (let* ((r (let* ((_a$6384 (var-deref "jolt.passes.types" "infer-body")) (_a$6385 (jolt-get s (keyword #f "body"))) (_a$6386 (let* ((_a$6381 (var-deref "clojure.core" "zipmap")) (_a$6382 (jolt-get s (keyword #f "params"))) (_a$6383 (jolt-get ptypes k))) (jolt-invoke _a$6381 _a$6382 _a$6383))) (_a$6387 (jolt-get s (keyword #f "name"))) (_a$6388 k) (_a$6389 (jolt-get s (keyword #f "params")))) (jolt-invoke _a$6384 _a$6385 _a$6386 _a$6387 _a$6388 _a$6389)))) (let* ((_a$6396 (var-deref "clojure.core" "update")) (_a$6397 (let* ((_a$6392 (var-deref "clojure.core" "assoc-in")) (_a$6393 acc) (_a$6394 (let* ((_o$6390 (keyword #f "rets")) (_o$6391 k)) (jolt-vector _o$6390 _o$6391))) (_a$6395 (jolt-nth r 0))) (jolt-invoke _a$6392 _a$6393 _a$6394 _a$6395))) (_a$6398 (keyword #f "ptypes")) (_a$6399 (var-deref "jolt.passes.types" "wp-accum")) (_a$6400 spec) (_a$6401 (jolt-nth r 2))) (jolt-invoke _a$6396 _a$6397 _a$6398 _a$6399 _a$6400 _a$6401))) (jolt-invoke (var-deref "clojure.core" "update") acc (keyword #f "ptypes") (var-deref "jolt.passes.types" "wp-accum") spec (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer-body") node (jolt-hash-map)) 2))))))) (_a$6407 (let* ((_o$6402 (keyword #f "rets")) (_o$6403 (jolt-hash-map)) (_o$6404 (keyword #f "ptypes")) (_o$6405 (jolt-invoke (var-deref "jolt.passes.types" "wp-empty-ptypes") spec ks))) (jolt-hash-map _o$6402 _o$6403 _o$6404 _o$6405))) (_a$6408 nodes)) (jolt-reduce _a$6406 _a$6407 _a$6408)))))) wp-pass) (let* ((_o$6409 (keyword #f "private")) (_o$6410 #t)) (jolt-hash-map _o$6409 _o$6410)))) + (def-var-with-meta! "jolt.passes.types" "wp-pass" (letrec ((wp-pass (lambda (nodes spec ks ptypes) (let fnrec6271 ((nodes nodes) (spec spec) (ks ks) (ptypes ptypes)) (let* ((_a$6302 (lambda (acc node) (let fnrec6272 ((acc acc) (node node)) (let* ((k (if (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) (let* ((_a$6273 (var-deref "clojure.core" "str")) (_a$6274 (jolt-get node (keyword #f "ns"))) (_a$6275 "/") (_a$6276 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$6273 _a$6274 _a$6275 _a$6276)) jolt-nil)) (s (let* ((and__25__auto k)) (if (jolt-truthy? and__25__auto) (jolt-get spec k) and__25__auto)))) (if (jolt-truthy? s) (let* ((r (let* ((_a$6280 (var-deref "jolt.passes.types" "infer-body")) (_a$6281 (jolt-get s (keyword #f "body"))) (_a$6282 (let* ((_a$6277 (var-deref "clojure.core" "zipmap")) (_a$6278 (jolt-get s (keyword #f "params"))) (_a$6279 (jolt-get ptypes k))) (jolt-invoke _a$6277 _a$6278 _a$6279))) (_a$6283 (jolt-get s (keyword #f "name"))) (_a$6284 k) (_a$6285 (jolt-get s (keyword #f "params")))) (jolt-invoke _a$6280 _a$6281 _a$6282 _a$6283 _a$6284 _a$6285)))) (let* ((_a$6292 (var-deref "clojure.core" "update")) (_a$6293 (let* ((_a$6288 (var-deref "clojure.core" "assoc-in")) (_a$6289 acc) (_a$6290 (let* ((_o$6286 (keyword #f "rets")) (_o$6287 k)) (jolt-vector _o$6286 _o$6287))) (_a$6291 (jolt-nth r 0))) (jolt-invoke _a$6288 _a$6289 _a$6290 _a$6291))) (_a$6294 (keyword #f "ptypes")) (_a$6295 (var-deref "jolt.passes.types" "wp-accum")) (_a$6296 spec) (_a$6297 (jolt-nth r 2))) (jolt-invoke _a$6292 _a$6293 _a$6294 _a$6295 _a$6296 _a$6297))) (jolt-invoke (var-deref "clojure.core" "update") acc (keyword #f "ptypes") (var-deref "jolt.passes.types" "wp-accum") spec (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer-body") node (jolt-hash-map)) 2))))))) (_a$6303 (let* ((_o$6298 (keyword #f "rets")) (_o$6299 (jolt-hash-map)) (_o$6300 (keyword #f "ptypes")) (_o$6301 (jolt-invoke (var-deref "jolt.passes.types" "wp-empty-ptypes") spec ks))) (jolt-hash-map _o$6298 _o$6299 _o$6300 _o$6301))) (_a$6304 nodes)) (jolt-reduce _a$6302 _a$6303 _a$6304)))))) wp-pass) (let* ((_o$6305 (keyword #f "private")) (_o$6306 #t)) (jolt-hash-map _o$6305 _o$6306)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "wp-infer!" (letrec ((wp-infer! (lambda (nodes) (let fnrec6411 ((nodes nodes)) (begin (jolt-invoke (var-deref "jolt.passes.types" "collect-pm-rets!") nodes) (let* ((spec (jolt-invoke (var-deref "jolt.passes.types" "wp-specializable") nodes)) (ks (jolt-keys spec))) (let* ((iter 0) (ptypes (jolt-invoke (var-deref "jolt.passes.types" "wp-empty-ptypes") spec ks)) (rets (jolt-hash-map))) (let loop6412 ((iter iter) (ptypes ptypes) (rets rets)) (begin (jolt-invoke (var-deref "jolt.passes.types" "set-rtenv!") (let* ((_a$6414 (lambda (m k) (let fnrec6413 ((m m) (k k)) (let* ((v (jolt-get rets k))) (if (jolt-some? v) (jolt-assoc m k v) m))))) (_a$6415 (jolt-hash-map)) (_a$6416 ks)) (jolt-reduce _a$6414 _a$6415 _a$6416))) (jolt-invoke (var-deref "jolt.passes.types" "reset-escapes!")) (let* ((pass (jolt-invoke (var-deref "jolt.passes.types" "wp-pass") nodes spec ks ptypes)) (escaped (jolt-invoke (var-deref "clojure.core" "set") (jolt-invoke (var-deref "jolt.passes.types" "collected-escapes")))) (new-ptypes (let* ((_a$6418 (lambda (m k) (let fnrec6417 ((m m) (k k)) (if (jolt-contains? escaped k) (jolt-assoc m k (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "repeat") (jolt-count (jolt-get m k)) (keyword #f "any")))) m)))) (_a$6419 (jolt-get pass (keyword #f "ptypes"))) (_a$6420 ks)) (jolt-reduce _a$6418 _a$6419 _a$6420))) (new-rets (jolt-get pass (keyword #f "rets"))) (converged? (let* ((and__25__auto (jolt= new-ptypes ptypes))) (if (jolt-truthy? and__25__auto) (jolt= new-rets rets) and__25__auto)))) (if (jolt-truthy? (let* ((or__26__auto converged?)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n>= iter 16)))) (let* ((seed-ptypes (if (jolt-truthy? converged?) new-ptypes (jolt-reduce (lambda (m k) (let fnrec6421 ((m m) (k k)) (jolt-assoc m k (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "repeat") (jolt-count (jolt-get m k)) (keyword #f "any")))))) new-ptypes ks))) (pick (lambda (keep?) (let fnrec6422 ((keep? keep?)) (let* ((_a$6431 (lambda (m k) (let fnrec6423 ((m m) (k k)) (let* ((s (jolt-get spec k)) (pm (let* ((_a$6428 (lambda (pm pr) (let fnrec6424 ((pm pm) (pr pr)) (let* ((nm (jolt-nth pr 0)) (t (jolt-nth pr 1))) (if (jolt-truthy? (let* ((and__25__auto t)) (if (jolt-truthy? and__25__auto) (jolt-invoke keep? t) and__25__auto))) (jolt-assoc pm nm t) pm))))) (_a$6429 (jolt-hash-map)) (_a$6430 (let* ((_a$6425 jolt-vector) (_a$6426 (jolt-get s (keyword #f "params"))) (_a$6427 (jolt-get seed-ptypes k))) (jolt-map _a$6425 _a$6426 _a$6427)))) (jolt-reduce _a$6428 _a$6429 _a$6430)))) (if (jolt-truthy? (jolt-seq pm)) (jolt-assoc m k pm) m))))) (_a$6432 (jolt-hash-map)) (_a$6433 ks)) (jolt-reduce _a$6431 _a$6432 _a$6433)))))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "wp-seeds-box") (jolt-invoke pick (lambda (t) (let fnrec6434 ((t t)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "not=") t (keyword #f "any")))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "not=") t (keyword #f "double")) and__25__auto)))))) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "wp-num-seeds-box") (jolt-invoke pick (lambda (t) (let fnrec6435 ((t t)) (jolt= t (keyword #f "double")))))))) (loop6412 (jolt-inc iter) new-ptypes new-rets)))))))))))) wp-infer!) (let* ((_o$6436 (keyword #f "doc")) (_o$6437 "Run the closed-world param-type fixpoint over the unit's analyzed top-level\n nodes and stash the resulting per-def seed maps (read via param-seeds-for).\n record-shapes / protocol-methods must already be installed. Idempotent \x2014; resets\n the seed box; called once per build before per-form emit.")) (jolt-hash-map _o$6436 _o$6437)))) + (def-var-with-meta! "jolt.passes.types" "wp-infer!" (letrec ((wp-infer! (lambda (nodes) (let fnrec6307 ((nodes nodes)) (begin (jolt-invoke (var-deref "jolt.passes.types" "collect-pm-rets!") nodes) (let* ((spec (jolt-invoke (var-deref "jolt.passes.types" "wp-specializable") nodes)) (ks (jolt-keys spec))) (let* ((iter 0) (ptypes (jolt-invoke (var-deref "jolt.passes.types" "wp-empty-ptypes") spec ks)) (rets (jolt-hash-map))) (let loop6308 ((iter iter) (ptypes ptypes) (rets rets)) (begin (jolt-invoke (var-deref "jolt.passes.types" "set-rtenv!") (let* ((_a$6310 (lambda (m k) (let fnrec6309 ((m m) (k k)) (let* ((v (jolt-get rets k))) (if (jolt-some? v) (jolt-assoc m k v) m))))) (_a$6311 (jolt-hash-map)) (_a$6312 ks)) (jolt-reduce _a$6310 _a$6311 _a$6312))) (jolt-invoke (var-deref "jolt.passes.types" "reset-escapes!")) (let* ((pass (jolt-invoke (var-deref "jolt.passes.types" "wp-pass") nodes spec ks ptypes)) (escaped (jolt-invoke (var-deref "clojure.core" "set") (jolt-invoke (var-deref "jolt.passes.types" "collected-escapes")))) (new-ptypes (let* ((_a$6314 (lambda (m k) (let fnrec6313 ((m m) (k k)) (if (jolt-contains? escaped k) (jolt-assoc m k (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "repeat") (jolt-count (jolt-get m k)) (keyword #f "any")))) m)))) (_a$6315 (jolt-get pass (keyword #f "ptypes"))) (_a$6316 ks)) (jolt-reduce _a$6314 _a$6315 _a$6316))) (new-rets (jolt-get pass (keyword #f "rets"))) (converged? (let* ((and__25__auto (jolt= new-ptypes ptypes))) (if (jolt-truthy? and__25__auto) (jolt= new-rets rets) and__25__auto)))) (if (jolt-truthy? (let* ((or__26__auto converged?)) (if (jolt-truthy? or__26__auto) or__26__auto (>= iter 16)))) (let* ((seed-ptypes (if (jolt-truthy? converged?) new-ptypes (jolt-reduce (lambda (m k) (let fnrec6317 ((m m) (k k)) (jolt-assoc m k (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "repeat") (jolt-count (jolt-get m k)) (keyword #f "any")))))) new-ptypes ks))) (pick (lambda (keep?) (let fnrec6318 ((keep? keep?)) (let* ((_a$6327 (lambda (m k) (let fnrec6319 ((m m) (k k)) (let* ((s (jolt-get spec k)) (pm (let* ((_a$6324 (lambda (pm pr) (let fnrec6320 ((pm pm) (pr pr)) (let* ((nm (jolt-nth pr 0)) (t (jolt-nth pr 1))) (if (jolt-truthy? (let* ((and__25__auto t)) (if (jolt-truthy? and__25__auto) (jolt-invoke keep? t) and__25__auto))) (jolt-assoc pm nm t) pm))))) (_a$6325 (jolt-hash-map)) (_a$6326 (let* ((_a$6321 jolt-vector) (_a$6322 (jolt-get s (keyword #f "params"))) (_a$6323 (jolt-get seed-ptypes k))) (jolt-map _a$6321 _a$6322 _a$6323)))) (jolt-reduce _a$6324 _a$6325 _a$6326)))) (if (jolt-truthy? (jolt-seq pm)) (jolt-assoc m k pm) m))))) (_a$6328 (jolt-hash-map)) (_a$6329 ks)) (jolt-reduce _a$6327 _a$6328 _a$6329)))))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "wp-seeds-box") (jolt-invoke pick (lambda (t) (let fnrec6330 ((t t)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "not=") t (keyword #f "any")))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "not=") t (keyword #f "double")) and__25__auto)))))) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "wp-num-seeds-box") (jolt-invoke pick (lambda (t) (let fnrec6331 ((t t)) (jolt= t (keyword #f "double")))))))) (loop6308 (jolt-inc iter) new-ptypes new-rets)))))))))))) wp-infer!) (let* ((_o$6332 (keyword #f "doc")) (_o$6333 "Run the closed-world param-type fixpoint over the unit's analyzed top-level\n nodes and stash the resulting per-def seed maps (read via param-seeds-for).\n record-shapes / protocol-methods must already be installed. Idempotent \x2014; resets\n the seed box; called once per build before per-form emit.")) (jolt-hash-map _o$6332 _o$6333)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "set-check-mode!" (letrec ((set-check-mode! (lambda (on strict?) (let fnrec6438 ((on on) (strict? strict?)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "check-mode-box") (let* ((_o$6439 (keyword #f "on")) (_o$6440 (if (jolt-truthy? on) #t #f)) (_o$6441 (keyword #f "strict")) (_o$6442 (if (jolt-truthy? strict?) #t #f))) (jolt-hash-map _o$6439 _o$6440 _o$6441 _o$6442))))))) set-check-mode!) (let* ((_o$6443 (keyword #f "doc")) (_o$6444 "Enable/disable checking during the next run-passes inference (direct-link).")) (jolt-hash-map _o$6443 _o$6444)))) + (def-var-with-meta! "jolt.passes.types" "set-check-mode!" (letrec ((set-check-mode! (lambda (on strict?) (let fnrec6334 ((on on) (strict? strict?)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "check-mode-box") (let* ((_o$6335 (keyword #f "on")) (_o$6336 (if (jolt-truthy? on) #t #f)) (_o$6337 (keyword #f "strict")) (_o$6338 (if (jolt-truthy? strict?) #t #f))) (jolt-hash-map _o$6335 _o$6336 _o$6337 _o$6338))))))) set-check-mode!) (let* ((_o$6339 (keyword #f "doc")) (_o$6340 "Enable/disable checking during the next run-passes inference (direct-link).")) (jolt-hash-map _o$6339 _o$6340)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "take-diags!" (letrec ((take-diags! (lambda () (let fnrec6445 () (let* ((d (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "last-diags-box")))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "last-diags-box") (jolt-vector)) d)))))) take-diags!) (let* ((_o$6446 (keyword #f "doc")) (_o$6447 "Diagnostics accumulated by the last checking run-passes; clears the buffer.")) (jolt-hash-map _o$6446 _o$6447)))) + (def-var-with-meta! "jolt.passes.types" "take-diags!" (letrec ((take-diags! (lambda () (let fnrec6341 () (let* ((d (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "last-diags-box")))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "last-diags-box") (jolt-vector)) d)))))) take-diags!) (let* ((_o$6342 (keyword #f "doc")) (_o$6343 "Diagnostics accumulated by the last checking run-passes; clears the buffer.")) (jolt-hash-map _o$6342 _o$6343)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes.types" "run-inference" (letrec ((run-inference (lambda (opt) (let fnrec6448 ((opt opt)) (if (jolt-truthy? (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "check-mode-box")) (keyword #f "on"))) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #t (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "check-mode-box")) (keyword #f "strict")))) (r (jolt-invoke (var-deref "jolt.passes.types" "infer-top") opt env))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "last-diags-box") (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "diags")))) r)) (jolt-invoke (var-deref "jolt.passes.types" "infer-top") opt (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f))))))) run-inference) (let* ((_o$6449 (keyword #f "doc")) (_o$6450 "Type-infer the optimized node (the inference walk specializes struct-safe\n lookups). When check mode is on (set-check-mode!), the same walk also emits\n success-type diagnostics, stashed for take-diags! to drain afterward. Pulled\n out of run-passes so the checking state stays private to this namespace.")) (jolt-hash-map _o$6449 _o$6450)))) + (def-var-with-meta! "jolt.passes.types" "run-inference" (letrec ((run-inference (lambda (opt) (let fnrec6344 ((opt opt)) (if (jolt-truthy? (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "check-mode-box")) (keyword #f "on"))) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #t (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "check-mode-box")) (keyword #f "strict")))) (r (jolt-invoke (var-deref "jolt.passes.types" "infer-top") opt env))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "last-diags-box") (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "diags")))) r)) (jolt-invoke (var-deref "jolt.passes.types" "infer-top") opt (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f))))))) run-inference) (let* ((_o$6345 (keyword #f "doc")) (_o$6346 "Type-infer the optimized node (the inference walk specializes struct-safe\n lookups). When check mode is on (set-check-mode!), the same walk also emits\n success-type diagnostics, stashed for take-diags! to drain afterward. Pulled\n out of run-passes so the checking state stays private to this namespace.")) (jolt-hash-map _o$6345 _o$6346)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes" "inline-fixpoint-cap" 8 (let* ((_o$6451 (keyword #f "private")) (_o$6452 #t)) (jolt-hash-map _o$6451 _o$6452)))) + (def-var-with-meta! "jolt.passes" "inline-fixpoint-cap" 8 (let* ((_o$6347 (keyword #f "private")) (_o$6348 #t)) (jolt-hash-map _o$6347 _o$6348)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes" "inline-eligible?" (letrec ((inline-eligible? (lambda (node) (let fnrec6453 ((node node)) (let* ((and__25__auto (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get node (keyword #f "init")))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "arities")))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get (jolt-first (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "arities"))) (keyword #f "rest"))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto)))))) inline-eligible?) (let* ((_o$6454 (keyword #f "private")) (_o$6455 #t)) (jolt-hash-map _o$6454 _o$6455)))) + (def-var-with-meta! "jolt.passes" "inline-eligible?" (letrec ((inline-eligible? (lambda (node) (let fnrec6349 ((node node)) (let* ((and__25__auto (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get node (keyword #f "init")))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= 1 (jolt-count (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "arities")))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get (jolt-first (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "arities"))) (keyword #f "rest"))) and__25__auto)) and__25__auto)) and__25__auto)) and__25__auto)))))) inline-eligible?) (let* ((_o$6350 (keyword #f "private")) (_o$6351 #t)) (jolt-hash-map _o$6350 _o$6351)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes" "stash-of" (letrec ((stash-of (lambda (node) (let fnrec6456 ((node node)) (let* ((a (jolt-first (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "arities"))))) (let* ((_o$6457 (keyword #f "params")) (_o$6458 (jolt-get a (keyword #f "params"))) (_o$6459 (keyword #f "body")) (_o$6460 (jolt-get a (keyword #f "body"))) (_o$6461 (keyword #f "nhints")) (_o$6462 (jolt-get a (keyword #f "nhints"))) (_o$6463 (keyword #f "ret")) (_o$6464 (jolt-get a (keyword #f "ret-nhint")))) (jolt-hash-map _o$6457 _o$6458 _o$6459 _o$6460 _o$6461 _o$6462 _o$6463 _o$6464))))))) stash-of) (let* ((_o$6465 (keyword #f "private")) (_o$6466 #t)) (jolt-hash-map _o$6465 _o$6466)))) + (def-var-with-meta! "jolt.passes" "stash-of" (letrec ((stash-of (lambda (node) (let fnrec6352 ((node node)) (let* ((a (jolt-first (jolt-get (jolt-get node (keyword #f "init")) (keyword #f "arities"))))) (let* ((_o$6353 (keyword #f "params")) (_o$6354 (jolt-get a (keyword #f "params"))) (_o$6355 (keyword #f "body")) (_o$6356 (jolt-get a (keyword #f "body"))) (_o$6357 (keyword #f "nhints")) (_o$6358 (jolt-get a (keyword #f "nhints"))) (_o$6359 (keyword #f "ret")) (_o$6360 (jolt-get a (keyword #f "ret-nhint")))) (jolt-hash-map _o$6353 _o$6354 _o$6355 _o$6356 _o$6357 _o$6358 _o$6359 _o$6360))))))) stash-of) (let* ((_o$6361 (keyword #f "private")) (_o$6362 #t)) (jolt-hash-map _o$6361 _o$6362)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes" "inject-wp-nhints" (letrec ((inject-wp-nhints (lambda (node) (let fnrec6467 ((node node)) (let* ((seeds (if (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.types" "param-num-seeds-for") (let* ((_a$6468 (var-deref "clojure.core" "str")) (_a$6469 (jolt-get node (keyword #f "ns"))) (_a$6470 "/") (_a$6471 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$6468 _a$6469 _a$6470 _a$6471))) jolt-nil)) (f (jolt-get node (keyword #f "init")))) (if (jolt-truthy? (let* ((and__25__auto seeds)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count (jolt-get f (keyword #f "arities")))) and__25__auto)) and__25__auto))) (let* ((a (jolt-first (jolt-get f (keyword #f "arities")))) (have (let* ((_a$6472 (jolt-hash-set)) (_a$6473 (jolt-map jolt-first (jolt-get a (keyword #f "nhints"))))) (jolt-into _a$6472 _a$6473))) (add (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (G__139) (let fnrec6474 ((G__139 G__139)) (let* ((G__140 G__139) (p (jolt-nth G__140 0 jolt-nil)) (k (jolt-nth G__140 1 jolt-nil))) (if (jolt-not (jolt-invoke have p)) (jolt-list (let* ((_o$6475 p) (_o$6476 k)) (jolt-vector _o$6475 _o$6476))) (jolt-vector))))) seeds))) (jolt-assoc node (keyword #f "init") (jolt-assoc f (keyword #f "arities") (jolt-vector (jolt-assoc a (keyword #f "nhints") (jolt-invoke (var-deref "clojure.core" "vec") (jolt-concat (jolt-get a (keyword #f "nhints")) add))))))) node)))))) inject-wp-nhints) (let* ((_o$6477 (keyword #f "doc")) (_o$6478 "Merge the whole-program :double param seeds into a def's arity :nhints as\n synthetic ^double hints, so the numeric pass unboxes a hintless fn whose callers\n all pass flonums (the entry coercion exact->inexact is a no-op on a proven\n flonum). Only un-hinted params are added \x2014; an explicit hint wins. A no-op unless\n the closed-world fixpoint typed a param :double (param-num-seeds-for).")) (jolt-hash-map _o$6477 _o$6478)))) + (def-var-with-meta! "jolt.passes" "inject-wp-nhints" (letrec ((inject-wp-nhints (lambda (node) (let fnrec6363 ((node node)) (let* ((seeds (if (jolt= (keyword #f "def") (jolt-get node (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.types" "param-num-seeds-for") (let* ((_a$6364 (var-deref "clojure.core" "str")) (_a$6365 (jolt-get node (keyword #f "ns"))) (_a$6366 "/") (_a$6367 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$6364 _a$6365 _a$6366 _a$6367))) jolt-nil)) (f (jolt-get node (keyword #f "init")))) (if (jolt-truthy? (let* ((and__25__auto seeds)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (keyword #f "fn") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__25__auto) (jolt= 1 (jolt-count (jolt-get f (keyword #f "arities")))) and__25__auto)) and__25__auto))) (let* ((a (jolt-first (jolt-get f (keyword #f "arities")))) (have (let* ((_a$6368 (jolt-hash-set)) (_a$6369 (jolt-map jolt-first (jolt-get a (keyword #f "nhints"))))) (jolt-into _a$6368 _a$6369))) (add (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (G__136) (let fnrec6370 ((G__136 G__136)) (let* ((G__137 G__136) (p (jolt-nth G__137 0 jolt-nil)) (k (jolt-nth G__137 1 jolt-nil))) (if (jolt-not (jolt-invoke have p)) (jolt-list (let* ((_o$6371 p) (_o$6372 k)) (jolt-vector _o$6371 _o$6372))) (jolt-vector))))) seeds))) (jolt-assoc node (keyword #f "init") (jolt-assoc f (keyword #f "arities") (jolt-vector (jolt-assoc a (keyword #f "nhints") (jolt-invoke (var-deref "clojure.core" "vec") (jolt-concat (jolt-get a (keyword #f "nhints")) add))))))) node)))))) inject-wp-nhints) (let* ((_o$6373 (keyword #f "doc")) (_o$6374 "Merge the whole-program :double param seeds into a def's arity :nhints as\n synthetic ^double hints, so the numeric pass unboxes a hintless fn whose callers\n all pass flonums (the entry coercion exact->inexact is a no-op on a proven\n flonum). Only un-hinted params are added \x2014; an explicit hint wins. A no-op unless\n the closed-world fixpoint typed a param :double (param-num-seeds-for).")) (jolt-hash-map _o$6373 _o$6374)))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.passes" "run-passes" (letrec ((run-passes (lambda (node ctx) (let fnrec6479 ((node node) (ctx ctx)) (begin (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "inline-enabled?") ctx))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes" "inline-eligible?") node) and__25__auto))) (let* ((_a$6480 (var-deref "jolt.host" "stash-inline!")) (_a$6481 ctx) (_a$6482 (jolt-get node (keyword #f "ns"))) (_a$6483 (jolt-get node (keyword #f "name"))) (_a$6484 (jolt-invoke (var-deref "jolt.passes" "stash-of") node))) (jolt-invoke _a$6480 _a$6481 _a$6482 _a$6483 _a$6484)) jolt-nil) (jolt-invoke (var-deref "jolt.passes.numeric" "annotate") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "inline-enabled?") ctx)) (let* ((_ (jolt-invoke (var-deref "jolt.passes.inline" "set-rec-shapes!") (jolt-invoke (var-deref "jolt.host" "record-shapes") ctx))) (_ (jolt-invoke (var-deref "jolt.passes.types" "set-record-shapes!") (jolt-invoke (var-deref "jolt.host" "record-shapes") ctx))) (_ (jolt-invoke (var-deref "jolt.passes.types" "set-protocol-methods!") (jolt-invoke (var-deref "jolt.host" "protocol-methods") ctx))) (opt (let* ((i 0) (n (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") node))) (let loop6485 ((i i) (n n)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "dirty") #f) (let* ((n2 (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") (jolt-invoke (var-deref "jolt.passes.inline" "scalar-replace") (jolt-invoke (var-deref "jolt.passes.inline" "flatten-lets") (jolt-invoke (var-deref "jolt.passes.inline" "inline-node") n ctx)))))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "dirty")))) (if (jolt-truthy? and__25__auto) (jolt-n< i (var-deref "jolt.passes" "inline-fixpoint-cap")) and__25__auto))) (loop6485 (jolt-inc i) n2) n2)))))) (seeds (if (jolt= (keyword #f "def") (jolt-get opt (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.types" "param-seeds-for") (let* ((_a$6486 (var-deref "clojure.core" "str")) (_a$6487 (jolt-get opt (keyword #f "ns"))) (_a$6488 "/") (_a$6489 (jolt-get opt (keyword #f "name")))) (jolt-invoke _a$6486 _a$6487 _a$6488 _a$6489))) jolt-nil))) (jolt-invoke (var-deref "jolt.passes" "inject-wp-nhints") (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") (if (jolt-truthy? seeds) (jolt-invoke (var-deref "jolt.passes.types" "reinfer-def") opt seeds) (jolt-invoke (var-deref "jolt.passes.types" "run-inference") opt))))) (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") node)))))))) run-passes) (let* ((_o$6490 (keyword #f "doc")) (_o$6491 "All passes, in order. The back end applies this to every analyzed form. When\n inlining is enabled for the unit (user code under direct-linking),\n run inline + flatten + scalar-replace + const-fold to a capped fixpoint \x2014;\n inlining exposes map literals to lookups, scalar-replace collapses them, which\n may expose more \x2014; then a collection-type inference pass (optionally\n also emitting success diagnostics) that auto-drops the lookup guard where the\n type is proven. Otherwise (core + bootstrap) just const-fold, as before.\n\n numeric/annotate runs last in both branches (hint-directed fl*/fx* arithmetic);\n it benefits open builds too, so it is not gated on inlining.")) (jolt-hash-map _o$6490 _o$6491)))) \ No newline at end of file + (def-var-with-meta! "jolt.passes" "run-passes" (letrec ((run-passes (lambda (node ctx) (let fnrec6375 ((node node) (ctx ctx)) (begin (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "inline-enabled?") ctx))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.passes" "inline-eligible?") node) and__25__auto))) (let* ((_a$6376 (var-deref "jolt.host" "stash-inline!")) (_a$6377 ctx) (_a$6378 (jolt-get node (keyword #f "ns"))) (_a$6379 (jolt-get node (keyword #f "name"))) (_a$6380 (jolt-invoke (var-deref "jolt.passes" "stash-of") node))) (jolt-invoke _a$6376 _a$6377 _a$6378 _a$6379 _a$6380)) jolt-nil) (jolt-invoke (var-deref "jolt.passes.numeric" "annotate") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "inline-enabled?") ctx)) (let* ((_ (jolt-invoke (var-deref "jolt.passes.inline" "set-rec-shapes!") (jolt-invoke (var-deref "jolt.host" "record-shapes") ctx))) (_ (jolt-invoke (var-deref "jolt.passes.types" "set-record-shapes!") (jolt-invoke (var-deref "jolt.host" "record-shapes") ctx))) (_ (jolt-invoke (var-deref "jolt.passes.types" "set-protocol-methods!") (jolt-invoke (var-deref "jolt.host" "protocol-methods") ctx))) (opt (let* ((i 0) (n (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") node))) (let loop6381 ((i i) (n n)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "dirty") #f) (let* ((n2 (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") (jolt-invoke (var-deref "jolt.passes.inline" "scalar-replace") (jolt-invoke (var-deref "jolt.passes.inline" "flatten-lets") (jolt-invoke (var-deref "jolt.passes.inline" "inline-node") n ctx)))))) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "dirty")))) (if (jolt-truthy? and__25__auto) (< i (var-deref "jolt.passes" "inline-fixpoint-cap")) and__25__auto))) (loop6381 (jolt-inc i) n2) n2)))))) (seeds (if (jolt= (keyword #f "def") (jolt-get opt (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.types" "param-seeds-for") (let* ((_a$6382 (var-deref "clojure.core" "str")) (_a$6383 (jolt-get opt (keyword #f "ns"))) (_a$6384 "/") (_a$6385 (jolt-get opt (keyword #f "name")))) (jolt-invoke _a$6382 _a$6383 _a$6384 _a$6385))) jolt-nil))) (jolt-invoke (var-deref "jolt.passes" "inject-wp-nhints") (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") (if (jolt-truthy? seeds) (jolt-invoke (var-deref "jolt.passes.types" "reinfer-def") opt seeds) (jolt-invoke (var-deref "jolt.passes.types" "run-inference") opt))))) (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") node)))))))) run-passes) (let* ((_o$6386 (keyword #f "doc")) (_o$6387 "All passes, in order. The back end applies this to every analyzed form. When\n inlining is enabled for the unit (user code under direct-linking),\n run inline + flatten + scalar-replace + const-fold to a capped fixpoint \x2014;\n inlining exposes map literals to lookups, scalar-replace collapses them, which\n may expose more \x2014; then a collection-type inference pass (optionally\n also emitting success diagnostics) that auto-drops the lookup guard where the\n type is proven. Otherwise (core + bootstrap) just const-fold, as before.\n\n numeric/annotate runs last in both branches (hint-directed fl*/fx* arithmetic);\n it benefits open builds too, so it is not gated on inlining.")) (jolt-hash-map _o$6386 _o$6387)))) \ No newline at end of file diff --git a/host/chez/seed/prelude.ss b/host/chez/seed/prelude.ss index 1c9f784..c79a956 100644 --- a/host/chez/seed/prelude.ss +++ b/host/chez/seed/prelude.ss @@ -1,511 +1,509 @@ (guard (e (#t #f)) - (def-var! "clojure.core" "zero?" (letrec ((zero? (lambda (x) (let fnrec5041 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt= x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "zero? requires a number, got: " x))))))) zero?))) + (def-var! "clojure.core" "zero?" (letrec ((zero? (lambda (x) (let fnrec4958 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt= x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "zero? requires a number, got: " x))))))) zero?))) (guard (e (#t #f)) - (def-var! "clojure.core" "pos?" (letrec ((pos? (lambda (x) (let fnrec5042 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-n> x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pos? requires a number, got: " x))))))) pos?))) + (def-var! "clojure.core" "pos?" (letrec ((pos? (lambda (x) (let fnrec4959 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (> x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pos? requires a number, got: " x))))))) pos?))) (guard (e (#t #f)) - (def-var! "clojure.core" "every?" (letrec ((every? (lambda (pred coll) (let fnrec5043 ((pred pred) (coll coll)) (if (jolt-nil? (jolt-seq coll)) #t (if (jolt-truthy? (jolt-invoke pred (jolt-first coll))) (fnrec5043 pred (jolt-next coll)) #f)))))) every?))) + (def-var! "clojure.core" "every?" (letrec ((every? (lambda (pred coll) (let fnrec4960 ((pred pred) (coll coll)) (if (jolt-nil? (jolt-seq coll)) #t (if (jolt-truthy? (jolt-invoke pred (jolt-first coll))) (fnrec4960 pred (jolt-next coll)) #f)))))) every?))) (guard (e (#t #f)) - (def-var! "clojure.core" "empty?" (letrec ((empty? (lambda (coll) (let fnrec5044 ((coll coll)) (if (jolt-nil? coll) #t (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") coll)) (jolt-zero? (jolt-count coll)) (jolt-nil? (jolt-seq coll))))))))))) empty?))) + (def-var! "clojure.core" "empty?" (letrec ((empty? (lambda (coll) (let fnrec4961 ((coll coll)) (if (jolt-nil? coll) #t (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") coll)) (jolt-zero? (jolt-count coll)) (jolt-nil? (jolt-seq coll))))))))))) empty?))) (guard (e (#t #f)) - (def-var! 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"clojure.core" "when")) (guard (e (#t #f)) (def-var! 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"clojure.core" "when-not")) (guard (e (#t #f)) (def-var! "clojure.core" "and" - (lambda exprs (let fnrec5062 ((exprs (list->cseq exprs))) (if (jolt-empty? exprs) #t (if (jolt-empty? 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"clojure.core" "or")) (guard (e (#t #f)) (def-var! 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"clojure.core" "cond")) (guard (e (#t #f)) (def-var! "clojure.core" "ns" - (lambda (nm . clauses) (let fnrec5103 ((nm nm) (clauses (list->cseq clauses))) (let* ((nm (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "seq?") nm))) (if (jolt-truthy? and__25__auto) (jolt= (jolt-symbol #f "with-meta") (jolt-first nm)) and__25__auto))) (jolt-invoke (var-deref "clojure.core" "second") nm) nm)) (calls (let* ((_a$5133 (lambda (acc clause) (let fnrec5104 ((acc acc) (clause clause)) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "seq?") clause))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") clause)))) (let* ((head (jolt-first clause)) (args (jolt-rest clause))) (if (jolt= head (keyword #f "require")) (jolt-conj acc (let* ((_a$5109 (var-deref "clojure.core" "__sqcat")) (_a$5110 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "require"))) (_a$5111 (jolt-map (lambda (s) (let fnrec5105 ((s s)) (let* ((_a$5106 (var-deref "clojure.core" "__sqcat")) (_a$5107 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$5108 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$5106 _a$5107 _a$5108)))) args))) (jolt-invoke _a$5109 _a$5110 _a$5111))) (if (jolt= head (keyword #f "use")) (jolt-conj acc (let* ((_a$5116 (var-deref "clojure.core" "__sqcat")) (_a$5117 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "use"))) (_a$5118 (jolt-map (lambda (s) (let fnrec5112 ((s s)) (let* ((_a$5113 (var-deref "clojure.core" "__sqcat")) (_a$5114 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$5115 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$5113 _a$5114 _a$5115)))) args))) (jolt-invoke _a$5116 _a$5117 _a$5118))) (if (jolt= head (keyword #f "import")) (jolt-conj acc (let* ((_a$5123 (var-deref "clojure.core" "__sqcat")) (_a$5124 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "import"))) (_a$5125 (jolt-map (lambda (s) (let fnrec5119 ((s s)) (let* ((_a$5120 (var-deref "clojure.core" "__sqcat")) (_a$5121 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$5122 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$5120 _a$5121 _a$5122)))) args))) (jolt-invoke _a$5123 _a$5124 _a$5125))) (if (jolt= head (keyword #f "refer-clojure")) (jolt-conj acc (let* ((_a$5130 (var-deref "clojure.core" "__sqcat")) (_a$5131 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "refer-clojure"))) (_a$5132 (jolt-map (lambda (s) (let fnrec5126 ((s s)) (let* ((_a$5127 (var-deref "clojure.core" "__sqcat")) (_a$5128 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$5129 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$5127 _a$5128 _a$5129)))) args))) (jolt-invoke _a$5130 _a$5131 _a$5132))) (if (jolt-truthy? 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"clojure.core" "declare" - (lambda syms (let fnrec5170 ((syms (list->cseq syms))) (let* ((_a$5175 (var-deref "clojure.core" "__sqcat")) (_a$5176 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do"))) (_a$5177 (jolt-map (lambda (s) (let fnrec5171 ((s s)) (let* ((_a$5172 (var-deref "clojure.core" "__sqcat")) (_a$5173 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$5174 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$5172 _a$5173 _a$5174)))) syms))) (jolt-invoke _a$5175 _a$5176 _a$5177))))) + (lambda syms (let fnrec5087 ((syms (list->cseq syms))) (let* ((_a$5092 (var-deref "clojure.core" "__sqcat")) (_a$5093 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do"))) (_a$5094 (jolt-map (lambda (s) (let fnrec5088 ((s s)) (let* ((_a$5089 (var-deref "clojure.core" "__sqcat")) (_a$5090 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$5091 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$5089 _a$5090 _a$5091)))) syms))) (jolt-invoke _a$5092 _a$5093 _a$5094))))) (mark-macro! 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"clojure.core" "destructure" (letrec ((destructure (lambda (bindings) (let fnrec5185 ((bindings bindings)) (let* ((find-or (lambda (or-map nm) (let fnrec5186 ((or-map or-map) (nm nm)) (let* ((_a$5192 (lambda (acc k) (let fnrec5187 ((acc acc) (k k)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "symbol?") k))) (if (jolt-truthy? and__25__auto) (jolt= nm (jolt-invoke (var-deref "clojure.core" "name") k)) and__25__auto))) (let* ((_o$5188 #t) (_o$5189 (jolt-get or-map k))) (jolt-vector _o$5188 _o$5189)) acc)))) (_a$5193 (let* ((_o$5190 #f) (_o$5191 jolt-nil)) (jolt-vector _o$5190 _o$5191))) (_a$5194 (if (jolt-truthy? or-map) (jolt-keys or-map) (jolt-vector)))) (jolt-reduce _a$5192 _a$5193 _a$5194))))) (amp? 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(jolt-invoke (var-deref "clojure.core" "map?") pat)) (let* ((g (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym"))))) (gm (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym"))))) (coerce (let* ((_a$5168 (var-deref "clojure.core" "__sqcat")) (_a$5169 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$5170 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5136 (var-deref "clojure.core" "__sqcat")) (_a$5137 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "sequential?"))) 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(keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "unsupported destructuring pattern: " (jolt-invoke (var-deref "clojure.core" "pr-str") pat))) jolt-nil)))))))) proc)) (ploop (letrec ((ploop (lambda (i acc) (let fnrec5204 ((i i) (acc acc)) (if (< i (jolt-count bindings)) (let* ((_a$5209 (+ i 2)) (_a$5210 (let* ((_a$5205 proc) (_a$5206 (jolt-nth bindings i)) (_a$5207 (jolt-nth bindings (jolt-inc i))) (_a$5208 acc)) (jolt-invoke _a$5205 _a$5206 _a$5207 _a$5208)))) (ploop _a$5209 _a$5210)) acc))))) ploop))) (jolt-invoke ploop 0 (jolt-vector))))))) destructure))) (guard (e (#t #f)) (def-var! "clojure.core" "let" - (lambda (bindings . body) (let fnrec5314 ((bindings bindings) (body (list->cseq body))) (let* ((_a$5315 (var-deref "clojure.core" "__sqcat")) (_a$5316 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "let*"))) (_a$5317 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "destructure") bindings)))) (_a$5318 body)) (jolt-invoke _a$5315 _a$5316 _a$5317 _a$5318))))) + (lambda (bindings . body) (let fnrec5211 ((bindings bindings) (body (list->cseq body))) (let* ((_a$5212 (var-deref "clojure.core" "__sqcat")) (_a$5213 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "let*"))) (_a$5214 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "destructure") bindings)))) (_a$5215 body)) (jolt-invoke _a$5212 _a$5213 _a$5214 _a$5215))))) (mark-macro! "clojure.core" "let")) (guard (e (#t #f)) (def-var! "clojure.core" "loop" - (lambda (bindings . body) (let fnrec5319 ((bindings bindings) (body (list->cseq body))) (let* ((d (jolt-invoke (var-deref "clojure.core" "destructure") bindings))) (if (jolt= d bindings) (let* ((_a$5320 (var-deref "clojure.core" "__sqcat")) (_a$5321 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "loop*"))) (_a$5322 (jolt-invoke (var-deref "clojure.core" "__sq1") bindings)) (_a$5323 body)) (jolt-invoke _a$5320 _a$5321 _a$5322 _a$5323)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "take-nth") 2 bindings)) (vs (jolt-invoke (var-deref "clojure.core" "take-nth") 2 (jolt-drop 1 bindings))) (gs (jolt-map (lambda (b) (let fnrec5324 ((b b)) (if (jolt-truthy? 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(jolt-invoke (var-deref "clojure.core" "symbol?") b)) (jolt-conj (jolt-conj acc g) v) (jolt-conj (jolt-conj (jolt-conj (jolt-conj acc g) v) b) g)))))) (_a$5224 (jolt-vector)) (_a$5225 (jolt-map jolt-vector bs vs gs))) (jolt-reduce _a$5223 _a$5224 _a$5225))) (inner (let* ((_a$5229 (lambda (acc t) (let fnrec5226 ((acc acc) (t t)) (let* ((_a$5227 (jolt-conj acc (jolt-nth t 0))) (_a$5228 (jolt-nth t 1))) (jolt-conj _a$5227 _a$5228))))) (_a$5230 (jolt-vector)) (_a$5231 (jolt-map jolt-vector bs gs))) (jolt-reduce _a$5229 _a$5230 _a$5231))) (loopv (let* ((_a$5233 (lambda (acc g) (let fnrec5232 ((acc acc) (g g)) (jolt-conj (jolt-conj acc g) g)))) (_a$5234 (jolt-vector)) (_a$5235 gs)) (jolt-reduce _a$5233 _a$5234 _a$5235)))) (let* ((_a$5244 (var-deref "clojure.core" "__sqcat")) (_a$5245 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5246 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") outer))) (_a$5247 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5240 (var-deref "clojure.core" "__sqcat")) (_a$5241 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "loop*"))) (_a$5242 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") loopv))) (_a$5243 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5236 (var-deref "clojure.core" "__sqcat")) (_a$5237 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5238 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") inner))) (_a$5239 body)) (jolt-invoke _a$5236 _a$5237 _a$5238 _a$5239))))) (jolt-invoke _a$5240 _a$5241 _a$5242 _a$5243))))) (jolt-invoke _a$5244 _a$5245 _a$5246 _a$5247)))))))) (mark-macro! "clojure.core" "loop")) (guard (e (#t #f)) (def-var! "clojure.core" "fn" - (lambda raw (let fnrec5351 ((raw (list->cseq raw))) (let* ((nm (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first raw))) (jolt-first raw) jolt-nil)) (aftn (if (jolt-truthy? nm) (jolt-next raw) raw)) (unhint (lambda (x) (let fnrec5352 ((x x)) (if (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (jolt= (jolt-symbol #f "with-meta") (jolt-first x)) #f) (jolt-nth x 1) x)))) (wrap-conds (lambda (body) (let fnrec5353 ((body body)) (if (jolt-truthy? (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first body))) (jolt-next body) #f)) (let* ((conds (jolt-first body)) (real (jolt-next body)) (mka (lambda (cs) (let fnrec5354 ((cs cs)) (jolt-map (lambda (c) (let fnrec5355 ((c c)) (let* ((_a$5356 (var-deref "clojure.core" "__sqcat")) (_a$5357 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "assert"))) (_a$5358 (jolt-invoke (var-deref "clojure.core" "__sq1") c))) (jolt-invoke _a$5356 _a$5357 _a$5358)))) cs))))) (let* ((_a$5367 (var-deref "clojure.core" "__sqcat")) (_a$5368 (jolt-invoke mka (jolt-get conds (keyword #f "pre")))) (_a$5369 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5362 (var-deref "clojure.core" "__sqcat")) (_a$5363 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5364 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5359 (var-deref "clojure.core" "__sqvec")) (_a$5360 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "%"))) (_a$5361 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) real)))) (jolt-invoke _a$5359 _a$5360 _a$5361)))) (_a$5365 (jolt-invoke mka (jolt-get conds (keyword #f "post")))) (_a$5366 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "%")))) (jolt-invoke _a$5362 _a$5363 _a$5364 _a$5365 _a$5366))))) (jolt-invoke _a$5367 _a$5368 _a$5369))) body)))) (md (letrec ((go (lambda (ps nps lets) (let fnrec5370 ((ps ps) (nps nps) (lets lets)) (if (jolt-truthy? 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(jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first raw))) (jolt-first raw) jolt-nil)) (aftn (if (jolt-truthy? nm) (jolt-next raw) raw)) (unhint (lambda (x) (let fnrec5249 ((x x)) (if (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (jolt= (jolt-symbol #f "with-meta") (jolt-first x)) #f) (jolt-nth x 1) x)))) (wrap-conds (lambda (body) (let fnrec5250 ((body body)) (if (jolt-truthy? (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") 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"clojure.core" "fn")) (guard (e (#t #f)) (def-var! "clojure.core" "defn" - (lambda (fn-name . body) (let fnrec5399 ((fn-name fn-name) (body (list->cseq body))) (let* ((docstring (if (jolt-truthy? (let* ((and__25__auto (jolt-seq body))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first body)) and__25__auto))) (jolt-first body) jolt-nil)) (body (if (jolt-truthy? docstring) (jolt-rest body) body)) (attr-map (if (jolt-truthy? (let* ((and__25__auto (jolt-seq body))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-next body))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first body)))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first body))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-first body) jolt-nil)) (body (if (jolt-truthy? attr-map) (jolt-rest body) body)) (fn-only-name (if (jolt-truthy? 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(let* ((and__25__auto (jolt-seq body))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first body)) and__25__auto))) (jolt-first body) jolt-nil)) (body (if (jolt-truthy? docstring) (jolt-rest body) body)) (attr-map (if (jolt-truthy? (let* ((and__25__auto (jolt-seq body))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-next body))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first body)))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first body))) and__25__auto)) and__25__auto)) and__25__auto))) (jolt-first body) jolt-nil)) (body (if (jolt-truthy? attr-map) (jolt-rest body) body)) (fn-only-name (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") fn-name)) fn-name (jolt-first (jolt-rest fn-name)))) (name-meta (jolt-invoke (var-deref "clojure.core" "meta") fn-only-name)) (m1 (if (jolt-truthy? attr-map) (if (jolt-truthy? name-meta) (jolt-conj name-meta attr-map) attr-map) name-meta)) (meta-map (if (jolt-truthy? docstring) (jolt-assoc (if (jolt-truthy? m1) m1 (jolt-hash-map)) (keyword #f "doc") docstring) m1))) (if (jolt-truthy? meta-map) (let* ((_a$5301 (var-deref "clojure.core" "__sqcat")) (_a$5302 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$5303 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "with-meta") fn-only-name meta-map))) (_a$5304 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5297 (var-deref "clojure.core" "__sqcat")) (_a$5298 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$5299 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "with-meta") fn-only-name jolt-nil))) (_a$5300 body)) (jolt-invoke _a$5297 _a$5298 _a$5299 _a$5300))))) (jolt-invoke _a$5301 _a$5302 _a$5303 _a$5304)) (let* ((_a$5309 (var-deref "clojure.core" "__sqcat")) (_a$5310 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$5311 (jolt-invoke (var-deref "clojure.core" "__sq1") fn-only-name)) (_a$5312 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5305 (var-deref "clojure.core" "__sqcat")) (_a$5306 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$5307 (jolt-invoke (var-deref "clojure.core" "__sq1") fn-only-name)) (_a$5308 body)) (jolt-invoke _a$5305 _a$5306 _a$5307 _a$5308))))) (jolt-invoke _a$5309 _a$5310 _a$5311 _a$5312))))))) (mark-macro! "clojure.core" "defn")) (guard (e (#t #f)) (def-var! "clojure.core" "defn-" - (lambda (fn-name . body) (let fnrec5416 ((fn-name fn-name) (body (list->cseq body))) (let* ((_a$5417 (var-deref "clojure.core" "__sqcat")) (_a$5418 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defn"))) (_a$5419 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "with-meta") fn-name (jolt-assoc (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "meta") fn-name)) (jolt-invoke (var-deref "clojure.core" "meta") fn-name) (jolt-hash-map)) (keyword #f "private") #t)))) (_a$5420 body)) (jolt-invoke _a$5417 _a$5418 _a$5419 _a$5420))))) + (lambda (fn-name . body) (let fnrec5313 ((fn-name fn-name) (body (list->cseq body))) (let* ((_a$5314 (var-deref "clojure.core" "__sqcat")) (_a$5315 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defn"))) (_a$5316 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "with-meta") fn-name (jolt-assoc (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "meta") fn-name)) (jolt-invoke (var-deref "clojure.core" "meta") fn-name) (jolt-hash-map)) (keyword #f "private") #t)))) (_a$5317 body)) (jolt-invoke _a$5314 _a$5315 _a$5316 _a$5317))))) (mark-macro! "clojure.core" "defn-")) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "fresh-sym" (letrec ((fresh-sym (lambda () (let fnrec5421 () (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym")))))))) fresh-sym) (let* ((_o$5422 (keyword #f "private")) (_o$5423 #t)) (jolt-hash-map _o$5422 _o$5423)))) + (def-var-with-meta! "clojure.core" "fresh-sym" (letrec ((fresh-sym (lambda () (let fnrec5318 () (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym")))))))) fresh-sym) (let* ((_o$5319 (keyword #f "private")) (_o$5320 #t)) (jolt-hash-map _o$5319 _o$5320)))) (guard (e (#t #f)) (def-var! "clojure.core" "cond->" - (lambda (expr . clauses) (let fnrec5424 ((expr expr) (clauses (list->cseq clauses))) (let* ((step (letrec ((step (lambda (prev cls) (let fnrec5425 ((prev prev) (cls cls)) (if (jolt-empty? cls) prev (let* ((t (jolt-first cls)) (f (jolt-nth cls 1)) (gn (jolt-invoke (var-deref "clojure.core" "fresh-sym"))) (call (if (jolt-truthy? 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(jolt-invoke (var-deref "clojure.core" "not=") 2 (jolt-count bindings))) (jolt-throw (host-new "IllegalArgumentException" "when-let requires exactly 2 forms in binding vector")) jolt-nil) (let* ((form (jolt-invoke bindings 0)) (tst (jolt-invoke bindings 1))) (let* ((_a$5610 (var-deref "clojure.core" "__sqcat")) (_a$5611 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5612 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5595 (var-deref "clojure.core" "__sqvec")) (_a$5596 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "temp__27__auto"))) (_a$5597 (jolt-invoke (var-deref "clojure.core" "__sq1") tst))) (jolt-invoke _a$5595 _a$5596 _a$5597)))) (_a$5613 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5605 (var-deref "clojure.core" "__sqcat")) (_a$5606 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$5607 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "temp__27__auto"))) (_a$5608 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5601 (var-deref "clojure.core" "__sqcat")) (_a$5602 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5603 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5598 (var-deref "clojure.core" "__sqvec")) (_a$5599 (jolt-invoke (var-deref "clojure.core" "__sq1") form)) (_a$5600 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "temp__27__auto")))) (jolt-invoke _a$5598 _a$5599 _a$5600)))) (_a$5604 body)) (jolt-invoke _a$5601 _a$5602 _a$5603 _a$5604)))) (_a$5609 (jolt-invoke (var-deref "clojure.core" "__sq1") jolt-nil))) (jolt-invoke _a$5605 _a$5606 _a$5607 _a$5608 _a$5609))))) (jolt-invoke _a$5610 _a$5611 _a$5612 _a$5613))))))) + (lambda (bindings . body) (let fnrec5491 ((bindings bindings) (body (list->cseq body))) (let* ((form (jolt-invoke bindings 0)) (tst (jolt-invoke bindings 1))) (let* ((_a$5507 (var-deref "clojure.core" "__sqcat")) (_a$5508 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5509 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5492 (var-deref "clojure.core" "__sqvec")) (_a$5493 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "temp__27__auto"))) (_a$5494 (jolt-invoke (var-deref "clojure.core" "__sq1") tst))) (jolt-invoke _a$5492 _a$5493 _a$5494)))) (_a$5510 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5502 (var-deref "clojure.core" "__sqcat")) (_a$5503 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$5504 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "temp__27__auto"))) (_a$5505 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5498 (var-deref "clojure.core" "__sqcat")) (_a$5499 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$5500 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5495 (var-deref "clojure.core" "__sqvec")) (_a$5496 (jolt-invoke (var-deref "clojure.core" "__sq1") form)) (_a$5497 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "temp__27__auto")))) (jolt-invoke _a$5495 _a$5496 _a$5497)))) (_a$5501 body)) (jolt-invoke _a$5498 _a$5499 _a$5500 _a$5501)))) (_a$5506 (jolt-invoke (var-deref "clojure.core" "__sq1") jolt-nil))) (jolt-invoke _a$5502 _a$5503 _a$5504 _a$5505 _a$5506))))) (jolt-invoke _a$5507 _a$5508 _a$5509 _a$5510)))))) (mark-macro! "clojure.core" "when-let")) (guard (e (#t #f)) (def-var! "clojure.core" "lazy-seq" - (lambda body (let fnrec5614 ((body (list->cseq body))) (let* ((_a$5622 (var-deref "clojure.core" "__sqcat")) (_a$5623 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "make-lazy-seq"))) (_a$5624 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5618 (var-deref "clojure.core" "__sqcat")) (_a$5619 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$5620 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$5621 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5615 (var-deref "clojure.core" "__sqcat")) (_a$5616 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "coll->cells"))) (_a$5617 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) body)))) (jolt-invoke _a$5615 _a$5616 _a$5617))))) (jolt-invoke _a$5618 _a$5619 _a$5620 _a$5621))))) (jolt-invoke _a$5622 _a$5623 _a$5624))))) + (lambda body (let fnrec5511 ((body (list->cseq body))) (let* ((_a$5519 (var-deref "clojure.core" "__sqcat")) (_a$5520 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "make-lazy-seq"))) (_a$5521 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5515 (var-deref "clojure.core" "__sqcat")) (_a$5516 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$5517 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$5518 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$5512 (var-deref "clojure.core" "__sqcat")) (_a$5513 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "coll->cells"))) (_a$5514 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) body)))) (jolt-invoke _a$5512 _a$5513 _a$5514))))) (jolt-invoke _a$5515 _a$5516 _a$5517 _a$5518))))) (jolt-invoke _a$5519 _a$5520 _a$5521))))) (mark-macro! "clojure.core" "lazy-seq")) (guard (e (#t #f)) (def-var! "clojure.core" "lazy-cat" - (lambda colls (let fnrec5625 ((colls (list->cseq colls))) (let* ((_a$5630 (var-deref "clojure.core" "__sqcat")) (_a$5631 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "concat"))) (_a$5632 (jolt-map (lambda (c) (let fnrec5626 ((c c)) (let* ((_a$5627 (var-deref "clojure.core" "__sqcat")) (_a$5628 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "lazy-seq"))) (_a$5629 (jolt-invoke (var-deref "clojure.core" "__sq1") c))) (jolt-invoke _a$5627 _a$5628 _a$5629)))) colls))) (jolt-invoke _a$5630 _a$5631 _a$5632))))) + (lambda colls (let fnrec5522 ((colls (list->cseq colls))) (let* ((_a$5527 (var-deref "clojure.core" "__sqcat")) (_a$5528 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "concat"))) (_a$5529 (jolt-map (lambda (c) (let fnrec5523 ((c c)) (let* ((_a$5524 (var-deref "clojure.core" "__sqcat")) (_a$5525 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "lazy-seq"))) (_a$5526 (jolt-invoke (var-deref "clojure.core" "__sq1") c))) (jolt-invoke _a$5524 _a$5525 _a$5526)))) colls))) (jolt-invoke _a$5527 _a$5528 _a$5529))))) (mark-macro! "clojure.core" "lazy-cat")) (guard (e (#t #f)) - (def-var! "clojure.core" "not=" (letrec ((not= (case-lambda ((x) (let fnrec5633 ((x x)) #f)) ((x y) (let fnrec5634 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec5635 ((x x) (y y) (more (list->cseq more))) (jolt-not (jolt-apply jolt= x y more))))))) not=))) + (def-var! "clojure.core" "not=" (letrec ((not= (case-lambda ((x) (let fnrec5530 ((x x)) #f)) ((x y) (let fnrec5531 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec5532 ((x x) (y y) (more (list->cseq more))) (jolt-not (jolt-apply jolt= x y more))))))) not=))) (guard (e (#t #f)) - (def-var! "clojure.core" "unreduced" (letrec ((unreduced (lambda (x) (let fnrec5636 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) unreduced))) + (def-var! "clojure.core" "unreduced" (letrec ((unreduced (lambda (x) (let fnrec5533 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) unreduced))) (guard (e (#t #f)) - (def-var! "clojure.core" "second" (letrec ((second (lambda (coll) (let fnrec5637 ((coll coll)) (jolt-first (jolt-next coll)))))) second))) + (def-var! "clojure.core" "second" (letrec ((second (lambda (coll) (let fnrec5534 ((coll coll)) (jolt-first (jolt-next coll)))))) second))) (guard (e (#t #f)) - (def-var! "clojure.core" "peek" (letrec ((peek (lambda (coll) (let fnrec5638 ((coll coll)) (if (jolt-nil? coll) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) jolt-nil (jolt-nth coll (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (jolt-first coll) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "peek not supported on: " coll)) jolt-nil)))))))) peek))) + (def-var! "clojure.core" "peek" (letrec ((peek (lambda (coll) (let fnrec5535 ((coll coll)) (if (jolt-nil? coll) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) jolt-nil (jolt-nth coll (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (jolt-first coll) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "peek not supported on: " coll)) jolt-nil)))))))) peek))) (guard (e (#t #f)) - (def-var! "clojure.core" "subvec" (letrec ((subvec (case-lambda ((v start) (let fnrec5639 ((v v) (start start)) (subvec v start (jolt-count v)))) ((v start end) (let fnrec5640 ((v v) (start start) (end end)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "vector?") v)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec requires a vector")) jolt-nil) (let* ((coerce (lambda (x) (let fnrec5641 ((x x)) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index must be a number")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") x x)) 0 (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "long") x) jolt-nil)))))) (s (jolt-invoke coerce start)) (e (jolt-invoke coerce end))) (begin (if (let* ((or__26__auto (jolt-n< s 0))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-n< e s))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n< (jolt-count v) e))))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index out of range: " s " " e)) jolt-nil) (let* ((i s) (acc (jolt-vector))) (let loop5642 ((i i) (acc acc)) (if (jolt-n< i e) (let* ((_a$5643 (jolt-inc i)) (_a$5644 (jolt-conj acc (jolt-nth v i)))) (loop5642 _a$5643 _a$5644)) acc))))))))))) subvec))) + (def-var! "clojure.core" "subvec" (letrec ((subvec (case-lambda ((v start) (let fnrec5536 ((v v) (start start)) (subvec v start (jolt-count v)))) ((v start end) (let fnrec5537 ((v v) (start start) (end end)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "vector?") v)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec requires a vector")) jolt-nil) (let* ((coerce (lambda (x) (let fnrec5538 ((x x)) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index must be a number")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") x x)) 0 (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "long") x) jolt-nil)))))) (s (jolt-invoke coerce start)) (e (jolt-invoke coerce end))) (begin (if (let* ((or__26__auto (< s 0))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (< e s))) (if (jolt-truthy? or__26__auto) or__26__auto (< (jolt-count v) e))))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index out of range: " s " " e)) jolt-nil) (let* ((i s) (acc (jolt-vector))) (let loop5539 ((i i) (acc acc)) (if (< i e) (let* ((_a$5540 (jolt-inc i)) (_a$5541 (jolt-conj acc (jolt-nth v i)))) (loop5539 _a$5540 _a$5541)) acc))))))))))) subvec))) (guard (e (#t #f)) - (def-var! "clojure.core" "mapv" (letrec ((mapv (lambda (f . colls) (let fnrec5645 ((f f) (colls (list->cseq colls))) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-apply jolt-map f colls)))))) mapv))) + (def-var! "clojure.core" "mapv" (letrec ((mapv (lambda (f . colls) (let fnrec5542 ((f f) (colls (list->cseq colls))) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-apply jolt-map f colls)))))) mapv))) (guard (e (#t #f)) - (def-var! "clojure.core" "update" (letrec ((update (lambda (m k f . args) (let fnrec5646 ((m m) (k k) (f f) (args (list->cseq args))) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))) update))) + (def-var! "clojure.core" "update" (letrec ((update (lambda (m k f . args) (let fnrec5543 ((m m) (k k) (f f) (args (list->cseq args))) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))) update))) (guard (e (#t #f)) - (def-var! "clojure.core" "set" (letrec ((set (lambda (coll) (let fnrec5647 ((coll coll)) (if (jolt-nil? coll) (jolt-hash-set) (jolt-apply jolt-hash-set (jolt-seq coll))))))) set))) + (def-var! "clojure.core" "vreset!" (letrec ((vreset! (lambda (vol newval) (let fnrec4683 ((vol vol) (newval newval)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") vol (keyword #f "val") newval) newval))))) vreset!))) (guard (e (#t #f)) - (def-var! "clojure.core" "vreset!" (letrec ((vreset! (lambda (vol newval) (let fnrec4727 ((vol vol) (newval newval)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") vol (keyword #f "val") newval) newval))))) vreset!))) + (def-var! "clojure.core" "vswap!" (letrec ((vswap! (lambda (vol f . args) (let fnrec4684 ((vol vol) (f f) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "vreset!") vol (jolt-apply f (jolt-get vol (keyword #f "val")) args)))))) vswap!))) (guard (e (#t #f)) - (def-var! "clojure.core" "vswap!" (letrec ((vswap! (lambda (vol f . args) (let fnrec4728 ((vol vol) (f f) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "vreset!") vol (jolt-apply f (jolt-get vol (keyword #f "val")) args)))))) vswap!))) + (def-var! "clojure.core" "ffirst" (letrec ((ffirst (lambda (coll) (let fnrec4685 ((coll coll)) (jolt-first (jolt-first coll)))))) ffirst))) (guard (e (#t #f)) - (def-var! "clojure.core" "ffirst" (letrec ((ffirst (lambda (coll) (let fnrec4729 ((coll coll)) (jolt-first (jolt-first coll)))))) ffirst))) + (def-var! "clojure.core" "nfirst" (letrec ((nfirst (lambda (coll) (let fnrec4686 ((coll coll)) (jolt-next (jolt-first coll)))))) nfirst))) (guard (e (#t #f)) - (def-var! "clojure.core" "nfirst" (letrec ((nfirst (lambda (coll) (let fnrec4730 ((coll coll)) (jolt-next (jolt-first coll)))))) nfirst))) + (def-var! "clojure.core" "fnext" (letrec ((fnext (lambda (coll) (let fnrec4687 ((coll coll)) (jolt-first (jolt-next coll)))))) fnext))) (guard (e (#t #f)) - (def-var! "clojure.core" "fnext" (letrec ((fnext (lambda (coll) (let fnrec4731 ((coll coll)) (jolt-first (jolt-next coll)))))) fnext))) + (def-var! "clojure.core" "nnext" (letrec ((nnext (lambda (coll) (let fnrec4688 ((coll coll)) (jolt-next (jolt-next coll)))))) nnext))) (guard (e (#t #f)) - (def-var! "clojure.core" "nnext" (letrec ((nnext (lambda (coll) (let fnrec4732 ((coll coll)) (jolt-next (jolt-next coll)))))) nnext))) + (def-var! "clojure.core" "last" (letrec ((last (lambda (s) (let fnrec4689 ((s s)) (if (jolt-truthy? (jolt-next s)) (fnrec4689 (jolt-next s)) (jolt-first s)))))) last))) (guard (e (#t #f)) - (def-var! "clojure.core" "last" (letrec ((last (lambda (s) (let fnrec4733 ((s s)) (if (jolt-truthy? (jolt-next s)) (fnrec4733 (jolt-next s)) (jolt-first s)))))) last))) + (def-var! "clojure.core" "butlast" (letrec ((butlast (lambda (s) (let fnrec4690 ((s s)) (let* ((ret (jolt-vector)) (s s)) (let loop4691 ((ret ret) (s s)) (if (jolt-truthy? (jolt-next s)) (let* ((_a$4692 (jolt-conj ret (jolt-first s))) (_a$4693 (jolt-next s))) (loop4691 _a$4692 _a$4693)) (jolt-seq ret)))))))) butlast))) (guard (e (#t #f)) - (def-var! "clojure.core" "butlast" (letrec ((butlast (lambda (s) (let fnrec4734 ((s s)) (let* ((ret (jolt-vector)) (s s)) (let loop4735 ((ret ret) (s s)) (if (jolt-truthy? (jolt-next s)) (let* ((_a$4736 (jolt-conj ret (jolt-first s))) (_a$4737 (jolt-next s))) (loop4735 _a$4736 _a$4737)) (jolt-seq ret)))))))) butlast))) + (def-var! "clojure.core" "partition-by" (letrec ((partition-by (case-lambda ((f) (let fnrec4694 ((f f)) (lambda (rf) (let fnrec4695 ((rf rf)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector))) (pv (jolt-invoke (var-deref "clojure.core" "volatile!") jolt-nil)) (started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec4696 () (jolt-invoke rf))) ((result) (let fnrec4697 ((result result)) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf)) (result (if (jolt-zero? (jolt-count b)) result (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result b)))))) (jolt-invoke rf result)))) ((result input) (let fnrec4698 ((result result) (input input)) (let* ((val (jolt-invoke f input))) (if (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") started)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= val (jolt-invoke (var-deref "clojure.core" "deref") pv)))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) result) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (let* ((ret (jolt-invoke rf result b))) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "reduced?") ret)) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) jolt-nil) ret)))))))))))))) ((f coll) (let fnrec4699 ((f f) (coll coll)) (let* ((step (letrec ((step (lambda (s) (let fnrec4700 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4701 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((fst (jolt-first s)) (fv (jolt-invoke f fst)) (run (jolt-cons fst (let* ((_a$4703 (var-deref "clojure.core" "take-while")) (_a$4704 (lambda (x) (let fnrec4702 ((x x)) (jolt= fv (jolt-invoke f x))))) (_a$4705 (jolt-rest s))) (jolt-invoke _a$4703 _a$4704 _a$4705))))) (jolt-cons run (step (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4706 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-drop (jolt-count run) s)))))))) jolt-nil)))))))))) step))) (jolt-invoke step coll))))))) partition-by))) (guard (e (#t #f)) - (def-var! "clojure.core" "partition-by" (letrec ((partition-by (case-lambda ((f) (let fnrec4738 ((f f)) (lambda (rf) (let fnrec4739 ((rf rf)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector))) (pv (jolt-invoke (var-deref "clojure.core" "volatile!") jolt-nil)) (started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec4740 () (jolt-invoke rf))) ((result) (let fnrec4741 ((result result)) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf)) (result (if (jolt-zero? (jolt-count b)) result (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result b)))))) (jolt-invoke rf result)))) ((result input) (let fnrec4742 ((result result) (input input)) (let* ((val (jolt-invoke f input))) (if (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") started)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= val (jolt-invoke (var-deref "clojure.core" "deref") pv)))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) result) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (let* ((ret (jolt-invoke rf result b))) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "reduced?") ret)) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) jolt-nil) ret)))))))))))))) ((f coll) (let fnrec4743 ((f f) (coll coll)) (let* ((step (letrec ((step (lambda (s) (let fnrec4744 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4745 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((fst (jolt-first s)) (fv (jolt-invoke f fst)) (run (jolt-cons fst (let* ((_a$4747 (var-deref "clojure.core" "take-while")) (_a$4748 (lambda (x) (let fnrec4746 ((x x)) (jolt= fv (jolt-invoke f x))))) (_a$4749 (jolt-rest s))) (jolt-invoke _a$4747 _a$4748 _a$4749))))) (jolt-cons run (step (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4750 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-drop (jolt-count run) s)))))))) jolt-nil)))))))))) step))) (jolt-invoke step coll))))))) partition-by))) + (def-var! "clojure.core" "some?" (letrec ((some? (lambda (x) (let fnrec4707 ((x x)) (jolt-not (jolt-nil? x)))))) some?))) (guard (e (#t #f)) - (def-var! "clojure.core" "some?" (letrec ((some? (lambda (x) (let fnrec4751 ((x x)) (jolt-not (jolt-nil? x)))))) some?))) + (def-var! "clojure.core" "identity" (letrec ((identity (lambda (x) (let fnrec4708 ((x x)) x)))) identity))) (guard (e (#t #f)) - (def-var! "clojure.core" "identity" (letrec ((identity (lambda (x) (let fnrec4752 ((x x)) x)))) identity))) + (def-var! "clojure.core" "constantly" (letrec ((constantly (lambda (x) (let fnrec4709 ((x x)) (lambda args (let fnrec4710 ((args (list->cseq args))) x)))))) constantly))) (guard (e (#t #f)) - (def-var! "clojure.core" "constantly" (letrec ((constantly (lambda (x) (let fnrec4753 ((x x)) (lambda args (let fnrec4754 ((args (list->cseq args))) x)))))) constantly))) + (def-var! "clojure.core" "neg?" (letrec ((neg? (lambda (x) (let fnrec4711 ((x x)) (< x 0))))) neg?))) (guard (e (#t #f)) - (def-var! "clojure.core" "neg?" (letrec ((neg? (lambda (x) (let fnrec4755 ((x x)) (jolt-n< x 0))))) neg?))) + (def-var! "clojure.core" "bit-and" (letrec ((bit-and (case-lambda ((x y) (let fnrec4712 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and") x y))) ((x y . more) (let fnrec4713 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and") (jolt-invoke (var-deref "clojure.core" "__bit-and") x y) more)))))) bit-and))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-and" (letrec ((bit-and (case-lambda ((x y) (let fnrec4756 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and") x y))) ((x y . more) (let fnrec4757 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and") (jolt-invoke (var-deref "clojure.core" "__bit-and") x y) more)))))) bit-and))) + (def-var! "clojure.core" "bit-or" (letrec ((bit-or (case-lambda ((x y) (let fnrec4714 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-or") x y))) ((x y . more) (let fnrec4715 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-or") (jolt-invoke (var-deref "clojure.core" "__bit-or") x y) more)))))) bit-or))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-or" (letrec ((bit-or (case-lambda ((x y) (let fnrec4758 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-or") x y))) ((x y . more) (let fnrec4759 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-or") (jolt-invoke (var-deref "clojure.core" "__bit-or") x y) more)))))) bit-or))) + (def-var! "clojure.core" "bit-xor" (letrec ((bit-xor (case-lambda ((x y) (let fnrec4716 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y))) ((x y . more) (let fnrec4717 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-xor") (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y) more)))))) bit-xor))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-xor" (letrec ((bit-xor (case-lambda ((x y) (let fnrec4760 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y))) ((x y . more) (let fnrec4761 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-xor") (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y) more)))))) bit-xor))) + (def-var! "clojure.core" "bit-and-not" (letrec ((bit-and-not (case-lambda ((x y) (let fnrec4718 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y))) ((x y . more) (let fnrec4719 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and-not") (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y) more)))))) bit-and-not))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-and-not" (letrec ((bit-and-not (case-lambda ((x y) (let fnrec4762 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y))) ((x y . more) (let fnrec4763 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and-not") (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y) more)))))) bit-and-not))) + (def-var! "clojure.core" "pr-str" (letrec ((pr-str (lambda xs (let fnrec4720 ((xs (list->cseq xs))) (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop4721 ((out out) (s s) (first? first?)) (if (jolt-truthy? s) (let* ((_a$4726 (let* ((_a$4722 (var-deref "clojure.core" "str")) (_a$4723 out) (_a$4724 (if (jolt-truthy? first?) "" " ")) (_a$4725 (jolt-invoke (var-deref "clojure.core" "__pr-str1") (jolt-first s)))) (jolt-invoke _a$4722 _a$4723 _a$4724 _a$4725))) (_a$4727 (jolt-next s)) (_a$4728 #f)) (loop4721 _a$4726 _a$4727 _a$4728)) out))))))) pr-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "pr-str" (letrec ((pr-str (lambda xs (let fnrec4764 ((xs (list->cseq xs))) (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop4765 ((out out) (s s) (first? first?)) (if (jolt-truthy? s) (let* ((_a$4770 (let* ((_a$4766 (var-deref "clojure.core" "str")) (_a$4767 out) (_a$4768 (if (jolt-truthy? first?) "" " ")) (_a$4769 (jolt-invoke (var-deref "clojure.core" "__pr-str1") (jolt-first s)))) (jolt-invoke _a$4766 _a$4767 _a$4768 _a$4769))) (_a$4771 (jolt-next s)) (_a$4772 #f)) (loop4765 _a$4770 _a$4771 _a$4772)) out))))))) pr-str))) + (def-var! "clojure.core" "pr" (letrec ((pr (lambda xs (let fnrec4729 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (jolt-apply (var-deref "clojure.core" "pr-str") xs)) jolt-nil))))) pr))) (guard (e (#t #f)) - (def-var! "clojure.core" "pr" (letrec ((pr (lambda xs (let fnrec4773 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (jolt-apply (var-deref "clojure.core" "pr-str") xs)) jolt-nil))))) pr))) + (def-var! "clojure.core" "prn" (letrec ((prn (lambda xs (let fnrec4730 ((xs (list->cseq xs))) (begin (jolt-apply (var-deref "clojure.core" "pr") xs) (jolt-invoke (var-deref "clojure.core" "__write") "\n") jolt-nil))))) prn))) (guard (e (#t #f)) - (def-var! "clojure.core" "prn" (letrec ((prn (lambda xs (let fnrec4774 ((xs (list->cseq xs))) (begin (jolt-apply (var-deref "clojure.core" "pr") xs) (jolt-invoke (var-deref "clojure.core" "__write") "\n") jolt-nil))))) prn))) + (def-var! "clojure.core" "print" (letrec ((print (lambda xs (let fnrec4731 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop4732 ((out out) (s s) (first? first?)) (if (jolt-truthy? s) (let* ((x (jolt-first s)) (r (jolt-invoke (var-deref "clojure.core" "__print1") x))) (let* ((_a$4733 (jolt-invoke (var-deref "clojure.core" "str") out (if (jolt-truthy? first?) "" " ") r)) (_a$4734 (jolt-next s)) (_a$4735 #f)) (loop4732 _a$4733 _a$4734 _a$4735))) out)))) jolt-nil))))) print))) (guard (e (#t #f)) - (def-var! "clojure.core" "print" (letrec ((print (lambda xs (let fnrec4775 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop4776 ((out out) (s s) (first? first?)) (if (jolt-truthy? s) (let* ((x (jolt-first s)) (r (jolt-invoke (var-deref "clojure.core" "__print1") x))) (let* ((_a$4777 (jolt-invoke (var-deref "clojure.core" "str") out (if (jolt-truthy? first?) "" " ") r)) (_a$4778 (jolt-next s)) (_a$4779 #f)) (loop4776 _a$4777 _a$4778 _a$4779))) out)))) jolt-nil))))) print))) + (def-var! "clojure.core" "println" (letrec ((println (lambda xs (let fnrec4736 ((xs (list->cseq xs))) (begin (jolt-apply (var-deref "clojure.core" "print") xs) (jolt-invoke (var-deref "clojure.core" "__write") "\n") jolt-nil))))) println))) (guard (e (#t #f)) - (def-var! "clojure.core" "println" (letrec ((println (lambda xs (let fnrec4780 ((xs (list->cseq xs))) (begin (jolt-apply (var-deref "clojure.core" "print") xs) (jolt-invoke (var-deref "clojure.core" "__write") "\n") jolt-nil))))) println))) + (def-var! "clojure.core" "frequencies" (letrec ((frequencies (lambda (coll) (let fnrec4737 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "persistent!") (let* ((_a$4739 (lambda (counts x) (let fnrec4738 ((counts counts) (x x)) (jolt-invoke (var-deref "clojure.core" "assoc!") counts x (jolt-inc (jolt-get counts x 0)))))) (_a$4740 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (_a$4741 coll)) (jolt-reduce _a$4739 _a$4740 _a$4741))))))) frequencies))) (guard (e (#t #f)) - (def-var! "clojure.core" "frequencies" (letrec ((frequencies (lambda (coll) (let fnrec4781 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "persistent!") (let* ((_a$4783 (lambda (counts x) (let fnrec4782 ((counts counts) (x x)) (jolt-invoke (var-deref "clojure.core" "assoc!") counts x (jolt-inc (jolt-get counts x 0)))))) (_a$4784 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (_a$4785 coll)) (jolt-reduce _a$4783 _a$4784 _a$4785))))))) frequencies))) + (def-var! "clojure.core" "group-by" (letrec ((group-by (lambda (f coll) (let fnrec4742 ((f f) (coll coll)) (let* ((tm (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (ks (let* ((_a$4744 (lambda (ks x) (let fnrec4743 ((ks ks) (x x)) (let* ((k (jolt-invoke f x)) (b (jolt-get tm k))) (if (jolt-nil? b) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-vector x)) (jolt-invoke (var-deref "clojure.core" "conj!") ks k)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "conj!") (jolt-invoke (var-deref "clojure.core" "transient") b) x)) ks) (begin (jolt-invoke (var-deref "clojure.core" "conj!") b x) ks))))))) (_a$4745 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (_a$4746 coll)) (jolt-reduce _a$4744 _a$4745 _a$4746)))) (begin (let* ((_a$4748 (lambda (_ k) (let fnrec4747 ((_ _) (k k)) (let* ((b (jolt-get tm k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) jolt-nil (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "persistent!") b))))))) (_a$4749 jolt-nil) (_a$4750 (jolt-invoke (var-deref "clojure.core" "persistent!") ks))) (jolt-reduce _a$4748 _a$4749 _a$4750)) (jolt-invoke (var-deref "clojure.core" "persistent!") tm))))))) group-by))) (guard (e (#t #f)) - (def-var! "clojure.core" "group-by" (letrec ((group-by (lambda (f coll) (let fnrec4786 ((f f) (coll coll)) (let* ((tm (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (ks (let* ((_a$4788 (lambda (ks x) (let fnrec4787 ((ks ks) (x x)) (let* ((k (jolt-invoke f x)) (b (jolt-get tm k))) (if (jolt-nil? b) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-vector x)) (jolt-invoke (var-deref "clojure.core" "conj!") ks k)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "conj!") (jolt-invoke (var-deref "clojure.core" "transient") b) x)) ks) (begin (jolt-invoke (var-deref "clojure.core" "conj!") b x) ks))))))) (_a$4789 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (_a$4790 coll)) (jolt-reduce _a$4788 _a$4789 _a$4790)))) (begin (let* ((_a$4792 (lambda (_ k) (let fnrec4791 ((_ _) (k k)) (let* ((b (jolt-get tm k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) jolt-nil (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "persistent!") b))))))) (_a$4793 jolt-nil) (_a$4794 (jolt-invoke (var-deref "clojure.core" "persistent!") ks))) (jolt-reduce _a$4792 _a$4793 _a$4794)) (jolt-invoke (var-deref "clojure.core" "persistent!") tm))))))) group-by))) + (def-var! "clojure.core" "not-empty" (letrec ((not-empty (lambda (coll) (let fnrec4751 ((coll coll)) (if (let* ((or__26__auto (jolt-nil? coll))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-zero? (jolt-count coll)))) jolt-nil coll))))) not-empty))) (guard (e (#t #f)) - (def-var! "clojure.core" "not-empty" (letrec ((not-empty (lambda (coll) (let fnrec4795 ((coll coll)) (if (let* ((or__26__auto (jolt-nil? coll))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-zero? (jolt-count coll)))) jolt-nil coll))))) not-empty))) + (def-var! "clojure.core" "filterv" (letrec ((filterv (lambda (pred coll) (let fnrec4752 ((pred pred) (coll coll)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-filter pred coll)))))) filterv))) (guard (e (#t #f)) - (def-var! "clojure.core" "filterv" (letrec ((filterv (lambda (pred coll) (let fnrec4796 ((pred pred) (coll coll)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-filter pred coll)))))) filterv))) + (def-var! "clojure.core" "max-key" (letrec ((max-key (case-lambda ((k x) (let fnrec4753 ((k k) (x x)) x)) ((k x y) (let fnrec4754 ((k k) (x x) (y y)) (if (let* ((_a$4755 (jolt-invoke k x)) (_a$4756 (jolt-invoke k y))) (> _a$4755 _a$4756)) x y))) ((k x y . more) (let fnrec4757 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (> kx ky) x y)) (kv (if (> kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop4758 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (>= kw kv) (loop4758 w kw (jolt-next more)) (loop4758 v kv (jolt-next more)))) v))))))))) max-key))) (guard (e (#t #f)) - (def-var! "clojure.core" "max-key" (letrec ((max-key (case-lambda ((k x) (let fnrec4797 ((k k) (x x)) x)) ((k x y) (let fnrec4798 ((k k) (x x) (y y)) (if (let* ((_a$4799 (jolt-invoke k x)) (_a$4800 (jolt-invoke k y))) (jolt-n> _a$4799 _a$4800)) x y))) ((k x y . more) (let fnrec4801 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (jolt-n> kx ky) x y)) (kv (if (jolt-n> kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop4802 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (jolt-n>= kw kv) (loop4802 w kw (jolt-next more)) (loop4802 v kv (jolt-next more)))) v))))))))) max-key))) + (def-var! "clojure.core" "min-key" (letrec ((min-key (case-lambda ((k x) (let fnrec4759 ((k k) (x x)) x)) ((k x y) (let fnrec4760 ((k k) (x x) (y y)) (if (let* ((_a$4761 (jolt-invoke k x)) (_a$4762 (jolt-invoke k y))) (< _a$4761 _a$4762)) x y))) ((k x y . more) (let fnrec4763 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (< kx ky) x y)) (kv (if (< kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop4764 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (<= kw kv) (loop4764 w kw (jolt-next more)) (loop4764 v kv (jolt-next more)))) v))))))))) min-key))) (guard (e (#t #f)) - (def-var! "clojure.core" "min-key" (letrec ((min-key (case-lambda ((k x) (let fnrec4803 ((k k) (x x)) x)) ((k x y) (let fnrec4804 ((k k) (x x) (y y)) (if (let* ((_a$4805 (jolt-invoke k x)) (_a$4806 (jolt-invoke k y))) (jolt-n< _a$4805 _a$4806)) x y))) ((k x y . more) (let fnrec4807 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (jolt-n< kx ky) x y)) (kv (if (jolt-n< kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop4808 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (jolt-n<= kw kv) (loop4808 w kw (jolt-next more)) (loop4808 v kv (jolt-next more)))) v))))))))) min-key))) + (def-var! "clojure.core" "juxt" (letrec ((juxt (lambda fs (let fnrec4765 ((fs (list->cseq fs))) (lambda args (let fnrec4766 ((args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (f) (let fnrec4767 ((f f)) (jolt-apply f args))) fs))))))) juxt))) (guard (e (#t #f)) - (def-var! "clojure.core" "juxt" (letrec ((juxt (lambda fs (let fnrec4809 ((fs (list->cseq fs))) (lambda args (let fnrec4810 ((args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (f) (let fnrec4811 ((f f)) (jolt-apply f args))) fs))))))) juxt))) + (def-var! "clojure.core" "every-pred" (letrec ((every-pred (lambda preds (let fnrec4768 ((preds (list->cseq preds))) (lambda xs (let fnrec4769 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p) (let fnrec4770 ((p p)) (jolt-invoke (var-deref "clojure.core" "every?") p xs))) preds))))))) every-pred))) (guard (e (#t #f)) - (def-var! "clojure.core" "every-pred" (letrec ((every-pred (lambda preds (let fnrec4812 ((preds (list->cseq preds))) (lambda xs (let fnrec4813 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p) (let fnrec4814 ((p p)) (jolt-invoke (var-deref "clojure.core" "every?") p xs))) preds))))))) every-pred))) + (def-var! "clojure.core" "some" (letrec ((some (lambda (pred coll) (let fnrec4771 ((pred pred) (coll coll)) (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((or__26__auto (jolt-invoke pred (jolt-first s)))) (if (jolt-truthy? or__26__auto) or__26__auto (fnrec4771 pred (jolt-next s))))) jolt-nil)))))) some))) (guard (e (#t #f)) - (def-var! "clojure.core" "some" (letrec ((some (lambda (pred coll) (let fnrec4815 ((pred pred) (coll coll)) (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((or__26__auto (jolt-invoke pred (jolt-first s)))) (if (jolt-truthy? or__26__auto) or__26__auto (fnrec4815 pred (jolt-next s))))) jolt-nil)))))) some))) + (def-var! "clojure.core" "some-fn" (letrec ((some-fn (lambda preds (let fnrec4772 ((preds (list->cseq preds))) (lambda xs (let fnrec4773 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "some") (lambda (p) (let fnrec4774 ((p p)) (jolt-invoke (var-deref "clojure.core" "some") p xs))) preds))))))) some-fn))) (guard (e (#t #f)) - (def-var! "clojure.core" "some-fn" (letrec ((some-fn (case-lambda ((p) (let fnrec4816 ((p p)) (letrec ((sp1 (case-lambda (() (let fnrec4817 () jolt-nil)) ((x) (let fnrec4818 ((x x)) (jolt-invoke p x))) ((x y) (let fnrec4819 ((x x) (y y)) (let* ((or__26__auto (jolt-invoke p x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p y))))) ((x y z) (let fnrec4820 ((x x) (y y) (z z)) (let* ((or__26__auto (jolt-invoke p x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p y))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p z))))))) ((x y z . args) (let fnrec4821 ((x x) (y y) (z z) (args (list->cseq args))) (let* ((or__26__auto (sp1 x y z))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "some") p args)))))))) sp1))) ((p1 p2) (let fnrec4822 ((p1 p1) (p2 p2)) (letrec ((sp2 (case-lambda (() (let fnrec4823 () jolt-nil)) ((x) (let fnrec4824 ((x x)) (let* ((or__26__auto (jolt-invoke p1 x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p2 x))))) ((x y) (let fnrec4825 ((x x) (y y)) (let* ((or__26__auto (jolt-invoke p1 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p1 y))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p2 y))))))))) ((x y z) (let fnrec4826 ((x x) (y y) (z z)) (let* ((or__26__auto (jolt-invoke p1 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p1 y))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p1 z))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 y))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p2 z))))))))))))) ((x y z . args) (let fnrec4827 ((x x) (y y) (z z) (args (list->cseq args))) (let* ((or__26__auto (sp2 x y z))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "some") (lambda (q) (let fnrec4828 ((q q)) (let* ((or__26__auto (jolt-invoke p1 q))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p2 q))))) args)))))))) sp2))) ((p1 p2 p3) (let fnrec4829 ((p1 p1) (p2 p2) (p3 p3)) (letrec ((sp3 (case-lambda (() (let fnrec4830 () jolt-nil)) ((x) (let fnrec4831 ((x x)) (let* ((or__26__auto (jolt-invoke p1 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p3 x))))))) ((x y) (let fnrec4832 ((x x) (y y)) (let* ((or__26__auto (jolt-invoke p1 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p3 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p1 y))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 y))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p3 y))))))))))))) ((x y z) (let fnrec4833 ((x x) (y y) (z z)) (let* ((or__26__auto (jolt-invoke p1 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p3 x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p1 y))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 y))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p3 y))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p1 z))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 z))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p3 z))))))))))))))))))) ((x y z . args) (let fnrec4834 ((x x) (y y) (z z) (args (list->cseq args))) (let* ((or__26__auto (sp3 x y z))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "some") (lambda (q) (let fnrec4835 ((q q)) (let* ((or__26__auto (jolt-invoke p1 q))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke p2 q))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke p3 q))))))) args)))))))) sp3))) ((p1 p2 p3 . ps) (let fnrec4836 ((p1 p1) (p2 p2) (p3 p3) (ps (list->cseq ps))) (let* ((ps (jolt-cons p1 (jolt-cons p2 (jolt-cons p3 ps))))) (letrec ((spn (case-lambda (() (let fnrec4837 () jolt-nil)) ((x) (let fnrec4838 ((x x)) (jolt-invoke (var-deref "clojure.core" "some") (lambda (p) (let fnrec4839 ((p p)) (jolt-invoke p x))) ps))) ((x y) (let fnrec4840 ((x x) (y y)) (let* ((or__26__auto (spn x))) (if (jolt-truthy? or__26__auto) or__26__auto (spn y))))) ((x y z) (let fnrec4841 ((x x) (y y) (z z)) (let* ((or__26__auto (spn x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (spn y))) (if (jolt-truthy? or__26__auto) or__26__auto (spn z))))))) ((x y z . args) (let fnrec4842 ((x x) (y y) (z z) (args (list->cseq args))) (let* ((or__26__auto (spn x y z))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "some") (lambda (p) (let fnrec4843 ((p p)) (jolt-invoke (var-deref "clojure.core" "some") p args))) ps)))))))) spn))))))) some-fn))) + (def-var! "clojure.core" "not-any?" (letrec ((not-any? (lambda (pred coll) (let fnrec4775 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "some") pred coll)))))) not-any?))) (guard (e (#t #f)) - (def-var! "clojure.core" "not-any?" (letrec ((not-any? (lambda (pred coll) (let fnrec4844 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "some") pred coll)))))) not-any?))) + (def-var! "clojure.core" "not-every?" (letrec ((not-every? (lambda (pred coll) (let fnrec4776 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") pred coll)))))) not-every?))) (guard (e (#t #f)) - (def-var! "clojure.core" "not-every?" (letrec ((not-every? (lambda (pred coll) (let fnrec4845 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") pred coll)))))) not-every?))) + (def-var! "clojure.core" "split-at" (letrec ((split-at (lambda (n coll) (let fnrec4777 ((n n) (coll coll)) (let* ((_o$4778 (jolt-take n coll)) (_o$4779 (jolt-drop n coll))) (jolt-vector _o$4778 _o$4779)))))) split-at))) (guard (e (#t #f)) - (def-var! "clojure.core" "split-at" (letrec ((split-at (lambda (n coll) (let fnrec4846 ((n n) (coll coll)) (let* ((_o$4847 (jolt-take n coll)) (_o$4848 (jolt-drop n coll))) (jolt-vector _o$4847 _o$4848)))))) split-at))) + (def-var! "clojure.core" "split-with" (letrec ((split-with (lambda (pred coll) (let fnrec4780 ((pred pred) (coll coll)) (let* ((_o$4781 (jolt-invoke (var-deref "clojure.core" "take-while") pred coll)) (_o$4782 (jolt-invoke (var-deref "clojure.core" "drop-while") pred coll))) (jolt-vector _o$4781 _o$4782)))))) split-with))) (guard (e (#t #f)) - (def-var! "clojure.core" "split-with" (letrec ((split-with (lambda (pred coll) (let fnrec4849 ((pred pred) (coll coll)) (let* ((_o$4850 (jolt-invoke (var-deref "clojure.core" "take-while") pred coll)) (_o$4851 (jolt-invoke (var-deref "clojure.core" "drop-while") pred coll))) (jolt-vector _o$4850 _o$4851)))))) split-with))) + (def-var! "clojure.core" "qualified-keyword?" (letrec ((qualified-keyword? (lambda (x) (let fnrec4783 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__25__auto) (jolt-some? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) qualified-keyword?))) (guard (e (#t #f)) - (def-var! "clojure.core" "qualified-keyword?" (letrec ((qualified-keyword? (lambda (x) (let fnrec4852 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__25__auto) (jolt-some? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) qualified-keyword?))) + (def-var! "clojure.core" "simple-keyword?" (letrec ((simple-keyword? (lambda (x) (let fnrec4784 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__25__auto) (jolt-nil? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) simple-keyword?))) (guard (e (#t #f)) - (def-var! "clojure.core" "simple-keyword?" (letrec ((simple-keyword? (lambda (x) (let fnrec4853 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__25__auto) (jolt-nil? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) simple-keyword?))) + (def-var! "clojure.core" "qualified-symbol?" (letrec ((qualified-symbol? (lambda (x) (let fnrec4785 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__25__auto) (jolt-some? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) qualified-symbol?))) (guard (e (#t #f)) - (def-var! "clojure.core" "qualified-symbol?" (letrec ((qualified-symbol? (lambda (x) (let fnrec4854 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__25__auto) (jolt-some? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) qualified-symbol?))) + (def-var! "clojure.core" "simple-symbol?" (letrec ((simple-symbol? (lambda (x) (let fnrec4786 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__25__auto) (jolt-nil? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) simple-symbol?))) (guard (e (#t #f)) - (def-var! "clojure.core" "simple-symbol?" (letrec ((simple-symbol? (lambda (x) (let fnrec4855 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__25__auto) (jolt-nil? (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__25__auto)))))) simple-symbol?))) + (def-var! "clojure.core" "ident?" (letrec ((ident? (lambda (x) (let fnrec4787 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))))))) ident?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ident?" (letrec ((ident? (lambda (x) (let fnrec4856 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))))))) ident?))) + (def-var! "clojure.core" "qualified-ident?" (letrec ((qualified-ident? (lambda (x) (let fnrec4788 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "qualified-symbol?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "qualified-keyword?") x))))))) qualified-ident?))) (guard (e (#t #f)) - (def-var! "clojure.core" "qualified-ident?" (letrec ((qualified-ident? (lambda (x) (let fnrec4857 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "qualified-symbol?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "qualified-keyword?") x))))))) qualified-ident?))) + (def-var! "clojure.core" "simple-ident?" (letrec ((simple-ident? (lambda (x) (let fnrec4789 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "simple-symbol?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "simple-keyword?") x))))))) simple-ident?))) (guard (e (#t #f)) - (def-var! "clojure.core" "simple-ident?" (letrec ((simple-ident? (lambda (x) (let fnrec4858 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "simple-symbol?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "simple-keyword?") x))))))) simple-ident?))) + (def-var! "clojure.core" "ratio?" (letrec ((ratio? (lambda (x) (let fnrec4790 ((x x)) #f)))) ratio?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ratio?" (letrec ((ratio? (lambda (x) (let fnrec4859 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "exact?") x))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "rational-type?") x))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "integer?") x)) and__25__auto)) and__25__auto)) and__25__auto)))))) ratio?))) + (def-var! "clojure.core" "decimal?" (letrec ((decimal? (lambda (x) (let fnrec4791 ((x x)) #f)))) decimal?))) (guard (e (#t #f)) - (def-var! "clojure.core" "rational?" (letrec ((rational? (lambda (x) (let fnrec4860 ((x x)) (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "exact?") x) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "decimal?") x))))))) rational?))) + (def-var! "clojure.core" "class?" (letrec ((class? (lambda (x) (let fnrec4792 ((x x)) #f)))) class?))) (guard (e (#t #f)) - (def-var! "clojure.core" "class?" (letrec ((class? (lambda (x) (let fnrec4861 ((x x)) #f)))) class?))) + (def-var! "clojure.core" "rational?" (letrec ((rational? (lambda (x) (let fnrec4793 ((x x)) (jolt-invoke (var-deref "clojure.core" "int?") x))))) rational?))) (guard (e (#t #f)) - (def-var! "clojure.core" "list?" (letrec ((list? (lambda (x) (let fnrec4862 ((x x)) (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "jolt.host" "cseq?") x))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "jolt.host" "cseq-list?") x) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.host" "empty-list?") x))))))) list?))) + (def-var! "clojure.core" "nat-int?" (letrec ((nat-int? (lambda (x) (let fnrec4794 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__25__auto) (>= x 0) and__25__auto)))))) nat-int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "nat-int?" (letrec ((nat-int? (lambda (x) (let fnrec4863 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__25__auto) (jolt-n>= x 0) and__25__auto)))))) nat-int?))) + (def-var! "clojure.core" "neg-int?" (letrec ((neg-int? (lambda (x) (let fnrec4795 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__25__auto) (jolt-neg? x) and__25__auto)))))) neg-int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "neg-int?" (letrec ((neg-int? (lambda (x) (let fnrec4864 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__25__auto) (jolt-neg? x) and__25__auto)))))) neg-int?))) + (def-var! "clojure.core" "pos-int?" (letrec ((pos-int? (lambda (x) (let fnrec4796 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__25__auto) (jolt-pos? x) and__25__auto)))))) pos-int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "pos-int?" (letrec ((pos-int? (lambda (x) (let fnrec4865 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__25__auto) (jolt-pos? x) and__25__auto)))))) pos-int?))) + (def-var! "clojure.core" "replicate" (letrec ((replicate (lambda (n x) (let fnrec4797 ((n n) (x x)) (let* ((_a$4799 (lambda (_) (let fnrec4798 ((_ _)) x))) (_a$4800 (jolt-range n))) (jolt-map _a$4799 _a$4800)))))) replicate))) (guard (e (#t #f)) - (def-var! "clojure.core" "replicate" (letrec ((replicate (lambda (n x) (let fnrec4866 ((n n) (x x)) (let* ((_a$4868 (lambda (_) (let fnrec4867 ((_ _)) x))) (_a$4869 (jolt-range n))) (jolt-map _a$4868 _a$4869)))))) replicate))) + (def-var! "clojure.core" "take-last" (letrec ((take-last (lambda (n coll) (let fnrec4801 ((n n) (coll coll)) (let* ((c (jolt-invoke (var-deref "clojure.core" "vec") coll)) (len (jolt-count c))) (if (jolt-pos? len) (jolt-seq (jolt-invoke (var-deref "clojure.core" "subvec") c (max 0 (- len n)))) jolt-nil)))))) take-last))) (guard (e (#t #f)) - (def-var! "clojure.core" "take-last" (letrec ((take-last (lambda (n coll) (let fnrec4870 ((n n) (coll coll)) (let* ((c (jolt-invoke (var-deref "clojure.core" "vec") coll)) (len (jolt-count c))) (if (jolt-pos? len) (jolt-seq (jolt-invoke (var-deref "clojure.core" "subvec") c (jolt-n-max 0 (jolt-n- len n)))) jolt-nil)))))) take-last))) + (def-var! "clojure.core" "drop-last" (letrec ((drop-last (case-lambda ((coll) (let fnrec4802 ((coll coll)) (drop-last 1 coll))) ((n coll) (let fnrec4803 ((n n) (coll coll)) (let* ((_a$4805 (lambda (x _) (let fnrec4804 ((x x) (_ _)) x))) (_a$4806 coll) (_a$4807 (jolt-drop n coll))) (jolt-map _a$4805 _a$4806 _a$4807))))))) drop-last))) (guard (e (#t #f)) - (def-var! "clojure.core" "drop-last" (letrec ((drop-last (case-lambda ((coll) (let fnrec4871 ((coll coll)) (drop-last 1 coll))) ((n coll) (let fnrec4872 ((n n) (coll coll)) (let* ((_a$4874 (lambda (x _) (let fnrec4873 ((x x) (_ _)) x))) (_a$4875 coll) (_a$4876 (jolt-drop n coll))) (jolt-map _a$4874 _a$4875 _a$4876))))))) drop-last))) + (def-var! "clojure.core" "distinct?" (letrec ((distinct? (case-lambda ((x) (let fnrec4808 ((x x)) #t)) ((x y) (let fnrec4809 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec4810 ((x x) (y y) (more (list->cseq more))) (if (jolt-not (jolt= x y)) (let* ((s (let* ((_o$4812 x) (_o$4813 y)) (jolt-hash-set _o$4812 _o$4813))) (xs more)) (let loop4811 ((s s) (xs xs)) (if (jolt-truthy? xs) (let* ((x (jolt-first xs))) (if (jolt-contains? s x) #f (let* ((_a$4814 (jolt-conj s x)) (_a$4815 (jolt-next xs))) (loop4811 _a$4814 _a$4815)))) #t))) #f)))))) distinct?))) (guard (e (#t #f)) - (def-var! "clojure.core" "distinct?" (letrec ((distinct? (case-lambda ((x) (let fnrec4877 ((x x)) #t)) ((x y) (let fnrec4878 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec4879 ((x x) (y y) (more (list->cseq more))) (if (jolt-not (jolt= x y)) (let* ((s (let* ((_o$4881 x) (_o$4882 y)) (jolt-hash-set _o$4881 _o$4882))) (xs more)) (let loop4880 ((s s) (xs xs)) (if (jolt-truthy? xs) (let* ((x (jolt-first xs))) (if (jolt-contains? s x) #f (let* ((_a$4883 (jolt-conj s x)) (_a$4884 (jolt-next xs))) (loop4880 _a$4883 _a$4884)))) #t))) #f)))))) distinct?))) + (def-var! "clojure.core" "replace" (letrec ((replace (lambda (smap coll) (let fnrec4816 ((smap smap) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (x) (let fnrec4817 ((x x)) (jolt-get smap x x))) coll) (jolt-map (lambda (x) (let fnrec4818 ((x x)) (jolt-get smap x x))) coll)))))) replace))) (guard (e (#t #f)) - (def-var! "clojure.core" "replace" (letrec ((replace (lambda (smap coll) (let fnrec4885 ((smap smap) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (x) (let fnrec4886 ((x x)) (jolt-get smap x x))) coll) (jolt-map (lambda (x) (let fnrec4887 ((x x)) (jolt-get smap x x))) coll)))))) replace))) + (def-var! "clojure.core" "nthnext" (letrec ((nthnext (lambda (coll n) (let fnrec4819 ((coll coll) (n n)) (let* ((n n) (xs (jolt-seq coll))) (let loop4820 ((n n) (xs xs)) (if (jolt-truthy? (let* ((and__25__auto xs)) (if (jolt-truthy? and__25__auto) (jolt-pos? n) and__25__auto))) (let* ((_a$4821 (jolt-dec n)) (_a$4822 (jolt-next xs))) (loop4820 _a$4821 _a$4822)) xs))))))) nthnext))) (guard (e (#t #f)) - (def-var! "clojure.core" "nthnext" (letrec ((nthnext (lambda (coll n) (let fnrec4888 ((coll coll) (n n)) (let* ((n n) (xs (jolt-seq coll))) (let loop4889 ((n n) (xs xs)) (if (jolt-truthy? (let* ((and__25__auto xs)) (if (jolt-truthy? and__25__auto) (jolt-pos? n) and__25__auto))) (let* ((_a$4890 (jolt-dec n)) (_a$4891 (jolt-next xs))) (loop4889 _a$4890 _a$4891)) xs))))))) nthnext))) + (def-var! "clojure.core" "bounded-count" (letrec ((bounded-count (lambda (n coll) (let fnrec4823 ((n n) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "counted?") coll)) (jolt-count coll) (let* ((i 0) (s (jolt-seq coll))) (let loop4824 ((i i) (s s)) (if (jolt-truthy? (let* ((and__25__auto s)) (if (jolt-truthy? and__25__auto) (< i n) and__25__auto))) (let* ((_a$4825 (jolt-inc i)) (_a$4826 (jolt-next s))) (loop4824 _a$4825 _a$4826)) i)))))))) bounded-count))) (guard (e (#t #f)) - (def-var! "clojure.core" "bounded-count" (letrec ((bounded-count (lambda (n coll) (let fnrec4892 ((n n) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "counted?") coll)) (jolt-count coll) (let* ((i 0) (s (jolt-seq coll))) (let loop4893 ((i i) (s s)) (if (jolt-truthy? (let* ((and__25__auto s)) (if (jolt-truthy? and__25__auto) (jolt-n< i n) and__25__auto))) (let* ((_a$4894 (jolt-inc i)) (_a$4895 (jolt-next s))) (loop4893 _a$4894 _a$4895)) i)))))))) bounded-count))) + (def-var! "clojure.core" "run!" (letrec ((run! (lambda (proc coll) (let fnrec4827 ((proc proc) (coll coll)) (begin (jolt-reduce (lambda (_ x) (let fnrec4828 ((_ _) (x x)) (begin (jolt-invoke proc x) jolt-nil))) jolt-nil coll) jolt-nil))))) run!))) (guard (e (#t #f)) - (def-var! "clojure.core" "run!" (letrec ((run! (lambda (proc coll) (let fnrec4896 ((proc proc) (coll coll)) (begin (jolt-reduce (lambda (_ x) (let fnrec4897 ((_ _) (x x)) (jolt-invoke proc x))) jolt-nil coll) jolt-nil))))) run!))) + (def-var! "clojure.core" "completing" (letrec ((completing (case-lambda ((f) (let fnrec4829 ((f f)) (completing f jolt-identity))) ((f cf) (let fnrec4830 ((f f) (cf cf)) (case-lambda (() (let fnrec4831 () (jolt-invoke f))) ((x) (let fnrec4832 ((x x)) (jolt-invoke cf x))) ((x y) (let fnrec4833 ((x x) (y y)) (jolt-invoke f x y))))))))) completing))) (guard (e (#t #f)) - (def-var! "clojure.core" "completing" (letrec ((completing (case-lambda ((f) (let fnrec4898 ((f f)) (completing f jolt-identity))) ((f cf) (let fnrec4899 ((f f) (cf cf)) (case-lambda (() (let fnrec4900 () (jolt-invoke f))) ((x) (let fnrec4901 ((x x)) (jolt-invoke cf x))) ((x y) (let fnrec4902 ((x x) (y y)) (jolt-invoke f x y))))))))) completing))) + (def-var! "clojure.core" "nthrest" (letrec ((nthrest (lambda (coll n) (let fnrec4834 ((coll coll) (n n)) (if (jolt-pos? n) (let* ((or__26__auto (let* ((n n) (xs coll)) (let loop4835 ((n n) (xs xs)) (let* ((s (let* ((and__25__auto (jolt-pos? n))) (if (jolt-truthy? and__25__auto) (jolt-seq xs) and__25__auto)))) (if (jolt-truthy? s) (let* ((_a$4836 (jolt-dec n)) (_a$4837 (jolt-rest s))) (loop4835 _a$4836 _a$4837)) (jolt-seq xs))))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-list ))) coll))))) nthrest))) (guard (e (#t #f)) - (def-var! "clojure.core" "nthrest" (letrec ((nthrest (lambda (coll n) (let fnrec4903 ((coll coll) (n n)) (if (jolt-pos? n) (let* ((or__26__auto (let* ((n n) (xs coll)) (let loop4904 ((n n) (xs xs)) (let* ((s (let* ((and__25__auto (jolt-pos? n))) (if (jolt-truthy? and__25__auto) (jolt-seq xs) and__25__auto)))) (if (jolt-truthy? s) (let* ((_a$4905 (jolt-dec n)) (_a$4906 (jolt-rest s))) (loop4904 _a$4905 _a$4906)) (jolt-seq xs))))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-list ))) coll))))) nthrest))) + (def-var! "clojure.core" "abs" (letrec ((abs (lambda (x) (let fnrec4838 ((x x)) (if (jolt-neg? x) (- 0 x) x))))) abs))) (guard (e (#t #f)) - (def-var! "clojure.core" "abs" (letrec ((abs (lambda (x) (let fnrec4907 ((x x)) (if (jolt-neg? x) (jolt-n- 0 x) x))))) abs))) + (def-var! "clojure.core" "NaN?" (letrec ((NaN? (lambda (x) (let fnrec4839 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-not (jolt= x x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "NaN? requires a number"))))))) NaN?))) (guard (e (#t #f)) - (def-var! "clojure.core" "NaN?" (letrec ((NaN? (lambda (x) (let fnrec4908 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-not (jolt= x x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "NaN? requires a number"))))))) NaN?))) + (def-var! "clojure.core" "object?" (letrec ((object? (lambda (x) (let fnrec4840 ((x x)) #f)))) object?))) (guard (e (#t #f)) - (def-var! "clojure.core" "object?" (letrec ((object? (lambda (x) (let fnrec4909 ((x x)) #f)))) object?))) + (def-var! "clojure.core" "undefined?" (letrec ((undefined? (lambda (x) (let fnrec4841 ((x x)) #f)))) undefined?))) (guard (e (#t #f)) - (def-var! "clojure.core" "undefined?" (letrec ((undefined? (lambda (x) (let fnrec4910 ((x x)) #f)))) undefined?))) + (def-var! "clojure.core" "keyword-identical?" (letrec ((keyword-identical? (lambda (a b) (let fnrec4842 ((a a) (b b)) (jolt= a b))))) keyword-identical?))) (guard (e (#t #f)) - (def-var! "clojure.core" "keyword-identical?" (letrec ((keyword-identical? (lambda (a b) (let fnrec4911 ((a a) (b b)) (jolt= a b))))) keyword-identical?))) + (def-var! "clojure.core" "any?" (letrec ((any? (lambda (x) (let fnrec4843 ((x x)) #t)))) any?))) (guard (e (#t #f)) - (def-var! "clojure.core" "any?" (letrec ((any? (lambda (x) (let fnrec4912 ((x x)) #t)))) any?))) + (def-var! "clojure.core" "printf" (letrec ((printf (lambda (fmt . args) (let fnrec4844 ((fmt fmt) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "print") (jolt-apply (var-deref "clojure.core" "format") fmt args)))))) printf))) (guard (e (#t #f)) - (def-var! "clojure.core" "printf" (letrec ((printf (lambda (fmt . args) (let fnrec4913 ((fmt fmt) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "print") (jolt-apply (var-deref "clojure.core" "format") fmt args)))))) printf))) + (def-var! "clojure.core" "bound?" (letrec ((bound? (lambda vars (let fnrec4845 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec4846 ((v v)) (jolt-some? (jolt-get v (keyword #f "root"))))) vars))))) bound?))) (guard (e (#t #f)) - (def-var! "clojure.core" "bound?" (letrec ((bound? (lambda vars (let fnrec4914 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec4915 ((v v)) (jolt-some? (jolt-get v (keyword #f "root"))))) vars))))) bound?))) + (def-var! "clojure.core" "with-bindings*" (letrec ((with-bindings* (lambda (binding-map f . args) (let fnrec4847 ((binding-map binding-map) (f f) (args (list->cseq args))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") binding-map) (dynamic-wind (lambda () #f) (lambda () (jolt-apply f args)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))))) with-bindings*))) (guard (e (#t #f)) - (def-var! "clojure.core" "with-bindings*" (letrec ((with-bindings* (lambda (binding-map f . args) (let fnrec4916 ((binding-map binding-map) (f f) (args (list->cseq args))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") binding-map) (dynamic-wind (lambda () #f) (lambda () (jolt-apply f args)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))))) with-bindings*))) + (def-var! "clojure.core" "bound-fn*" (letrec ((bound-fn* (lambda (f) (let fnrec4848 ((f f)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "get-thread-bindings")))) (lambda args (let fnrec4849 ((args (list->cseq args))) (jolt-apply (var-deref "clojure.core" "with-bindings*") bs f args)))))))) bound-fn*))) (guard (e (#t #f)) - (def-var! "clojure.core" "bound-fn*" (letrec ((bound-fn* (lambda (f) (let fnrec4917 ((f f)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "get-thread-bindings")))) (lambda args (let fnrec4918 ((args (list->cseq args))) (jolt-apply (var-deref "clojure.core" "with-bindings*") bs f args)))))))) bound-fn*))) + (def-var! "clojure.core" "thread-bound?" (letrec ((thread-bound? (lambda vars (let fnrec4850 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec4851 ((v v)) (jolt-invoke (var-deref "clojure.core" "__thread-bound?") v))) vars))))) thread-bound?))) (guard (e (#t #f)) - (def-var! "clojure.core" "thread-bound?" (letrec ((thread-bound? (lambda vars (let fnrec4919 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec4920 ((v v)) (jolt-invoke (var-deref "clojure.core" "__thread-bound?") v))) vars))))) thread-bound?))) + (def-var! "clojure.core" "key" (letrec ((key (lambda (e) (let fnrec4852 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 0) (jolt-throw (jolt-ex-info "key requires a map entry" (jolt-hash-map)))))))) key))) (guard (e (#t #f)) - (def-var! "clojure.core" "key" (letrec ((key (lambda (e) (let fnrec4921 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 0) (jolt-throw (jolt-ex-info "key requires a map entry" (jolt-hash-map)))))))) key))) + (def-var! "clojure.core" "val" (letrec ((val (lambda (e) (let fnrec4853 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 1) (jolt-throw (jolt-ex-info "val requires a map entry" (jolt-hash-map)))))))) val))) (guard (e (#t #f)) - (def-var! "clojure.core" "val" (letrec ((val (lambda (e) (let fnrec4922 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 1) (jolt-throw (jolt-ex-info "val requires a map entry" (jolt-hash-map)))))))) val))) + (def-var! "clojure.core" "make-hierarchy" (letrec ((make-hierarchy (lambda () (let fnrec4854 () (let* ((_o$4855 (keyword #f "parents")) (_o$4856 (jolt-hash-map)) (_o$4857 (keyword #f "descendants")) (_o$4858 (jolt-hash-map)) (_o$4859 (keyword #f "ancestors")) (_o$4860 (jolt-hash-map))) (jolt-hash-map _o$4855 _o$4856 _o$4857 _o$4858 _o$4859 _o$4860)))))) make-hierarchy))) (guard (e (#t #f)) - (def-var! "clojure.core" "make-hierarchy" (letrec ((make-hierarchy (lambda () (let fnrec4923 () (let* ((_o$4924 (keyword #f "parents")) (_o$4925 (jolt-hash-map)) (_o$4926 (keyword #f "descendants")) (_o$4927 (jolt-hash-map)) (_o$4928 (keyword #f "ancestors")) (_o$4929 (jolt-hash-map))) (jolt-hash-map _o$4924 _o$4925 _o$4926 _o$4927 _o$4928 _o$4929)))))) make-hierarchy))) + (def-var-with-meta! "clojure.core" "global-hierarchy" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (let* ((_o$4861 (keyword #f "private")) (_o$4862 #t)) (jolt-hash-map _o$4861 _o$4862)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "global-hierarchy" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (let* ((_o$4930 (keyword #f "private")) (_o$4931 #t)) (jolt-hash-map _o$4930 _o$4931)))) + (def-var! "clojure.core" "isa?" (letrec ((isa? (case-lambda ((child parent) (let fnrec4863 ((child child) (parent parent)) (isa? (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) child parent))) ((h child parent) (let fnrec4864 ((h h) (child child) (parent parent)) (let* ((or__26__auto (jolt= child parent))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.host" "class-isa?") child parent))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-contains? (let* ((_a$4865 (jolt-get h (keyword #f "ancestors"))) (_a$4866 child) (_a$4867 (jolt-hash-set))) (jolt-get _a$4865 _a$4866 _a$4867)) parent))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "vector?") parent))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "vector?") child))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((_a$4868 (jolt-count parent)) (_a$4869 (jolt-count child))) (jolt= _a$4868 _a$4869)))) (if (jolt-truthy? and__25__auto) (let* ((ret #t) (i 0)) (let loop4870 ((ret ret) (i i)) (if (let* ((or__26__auto (jolt-not ret))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= i (jolt-count parent)))) ret (let* ((_a$4874 (let* ((_a$4871 h) (_a$4872 (jolt-nth child i)) (_a$4873 (jolt-nth parent i))) (isa? _a$4871 _a$4872 _a$4873))) (_a$4875 (jolt-inc i))) (loop4870 _a$4874 _a$4875))))) and__25__auto)) and__25__auto)) and__25__auto))))))))))))) isa?))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "hier-assert" (letrec ((hier-assert (lambda (ok form) (let fnrec4932 ((ok ok) (form form)) (if (jolt-not ok) (jolt-throw (host-new "AssertionError" (jolt-invoke (var-deref "clojure.core" "str") "Assert failed: " form))) jolt-nil))))) hier-assert) (let* ((_o$4933 (keyword #f "private")) (_o$4934 #t)) (jolt-hash-map _o$4933 _o$4934)))) + (def-var! "clojure.core" "parents" (letrec ((parents (case-lambda ((tag) (let fnrec4876 ((tag tag)) (parents (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec4877 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "parents")) tag))))))) parents))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "class-tag?" (letrec ((class-tag? (lambda (tag) (let fnrec4935 ((tag tag)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "class-value?") tag)) #t #f))))) class-tag?) (let* ((_o$4936 (keyword #f "private")) (_o$4937 #t)) (jolt-hash-map _o$4936 _o$4937)))) + (def-var! "clojure.core" "ancestors" (letrec ((ancestors (case-lambda ((tag) (let fnrec4878 ((tag tag)) (ancestors (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec4879 ((h h) (tag tag)) (let* ((hier (jolt-get (jolt-get h (keyword #f "ancestors")) tag)) (host (jolt-invoke (var-deref "jolt.host" "class-ancestors") tag))) (jolt-invoke (var-deref "clojure.core" "not-empty") (if (jolt-truthy? host) (jolt-into (let* ((or__26__auto hier)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-set))) host) hier)))))))) ancestors))) (guard (e (#t #f)) - (def-var! "clojure.core" "isa?" (letrec ((isa? (case-lambda ((child parent) (let fnrec4938 ((child child) (parent parent)) (isa? (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) child parent))) ((h child parent) (let fnrec4939 ((h h) (child child) (parent parent)) (let* ((or__26__auto (jolt= child parent))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.host" "class-isa?") child parent))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-contains? (let* ((_a$4940 (jolt-get h (keyword #f "ancestors"))) (_a$4941 child) (_a$4942 (jolt-hash-set))) (jolt-get _a$4940 _a$4941 _a$4942)) parent))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "class-tag?") child))) (if (jolt-truthy? and__25__auto) (let* ((_a$4947 (var-deref "clojure.core" "some")) (_a$4948 (lambda (s) (let fnrec4943 ((s s)) (jolt-contains? (let* ((_a$4944 (jolt-get h (keyword #f "ancestors"))) (_a$4945 s) (_a$4946 (jolt-hash-set))) (jolt-get _a$4944 _a$4945 _a$4946)) parent)))) (_a$4949 (jolt-invoke (var-deref "jolt.host" "class-supers") child))) (jolt-invoke _a$4947 _a$4948 _a$4949)) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "vector?") parent))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "vector?") child))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((_a$4950 (jolt-count parent)) (_a$4951 (jolt-count child))) (jolt= _a$4950 _a$4951)))) (if (jolt-truthy? and__25__auto) (let* ((ret #t) (i 0)) (let loop4952 ((ret ret) (i i)) (if (let* ((or__26__auto (jolt-not ret))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= i (jolt-count parent)))) ret (let* ((_a$4956 (let* ((_a$4953 h) (_a$4954 (jolt-nth child i)) (_a$4955 (jolt-nth parent i))) (isa? _a$4953 _a$4954 _a$4955))) (_a$4957 (jolt-inc i))) (loop4952 _a$4956 _a$4957))))) and__25__auto)) and__25__auto)) and__25__auto))))))))))))))) isa?))) + (def-var! "clojure.core" "descendants" (letrec ((descendants (case-lambda ((tag) (let fnrec4880 ((tag tag)) (descendants (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec4881 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "descendants")) tag))))))) descendants))) (guard (e (#t #f)) - (def-var! "clojure.core" "parents" (letrec ((parents (case-lambda ((tag) (let fnrec4958 ((tag tag)) (parents (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec4959 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (let* ((tp (jolt-get (jolt-get h (keyword #f "parents")) tag))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "class-tag?") tag)) (jolt-into (jolt-invoke (var-deref "clojure.core" "set") (jolt-invoke (var-deref "jolt.host" "class-bases") tag)) tp) tp)))))))) parents))) + (def-var! "clojure.core" "derive" (letrec ((derive (case-lambda ((tag parent) (let fnrec4882 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") derive tag parent) jolt-nil))) ((h tag parent) (let fnrec4883 ((h h) (tag tag) (parent parent)) (let* ((tp (jolt-get h (keyword #f "parents"))) (td (jolt-get h (keyword #f "descendants"))) (ta (jolt-get h (keyword #f "ancestors"))) (tf (lambda (m source sources target targets) (let fnrec4884 ((m m) (source source) (sources sources) (target target) (targets targets)) (let* ((_a$4889 (lambda (ret k) (let fnrec4885 ((ret ret) (k k)) (jolt-assoc ret k (let* ((_a$4886 jolt-conj) (_a$4887 (jolt-get targets k (jolt-hash-set))) (_a$4888 (jolt-cons target (jolt-get targets target)))) (jolt-reduce _a$4886 _a$4887 _a$4888)))))) (_a$4890 m) (_a$4891 (jolt-cons source (jolt-get sources source)))) (jolt-reduce _a$4889 _a$4890 _a$4891)))))) (let* ((or__26__auto (if (jolt-not (jolt-contains? (jolt-get tp tag (jolt-hash-set)) parent)) (begin (if (jolt-contains? (jolt-get ta tag (jolt-hash-set)) parent) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") tag " already has " parent " as ancestor")) jolt-nil) (if (jolt-contains? (jolt-get ta parent (jolt-hash-set)) tag) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cyclic derivation: " parent " has " tag " as ancestor")) jolt-nil) (let* ((_o$4892 (keyword #f "parents")) (_o$4893 (jolt-assoc tp tag (jolt-conj (jolt-get tp tag (jolt-hash-set)) parent))) (_o$4894 (keyword #f "ancestors")) (_o$4895 (jolt-invoke tf ta tag td parent ta)) (_o$4896 (keyword #f "descendants")) (_o$4897 (jolt-invoke tf td parent ta tag td))) (jolt-hash-map _o$4892 _o$4893 _o$4894 _o$4895 _o$4896 _o$4897))) jolt-nil))) (if (jolt-truthy? or__26__auto) or__26__auto h)))))))) derive))) (guard (e (#t #f)) - (def-var! "clojure.core" "ancestors" (letrec ((ancestors (case-lambda ((tag) (let fnrec4960 ((tag tag)) (ancestors (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec4961 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (let* ((ta (jolt-get (jolt-get h (keyword #f "ancestors")) tag))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "class-tag?") tag)) (let* ((superclasses (jolt-invoke (var-deref "clojure.core" "set") (jolt-invoke (var-deref "jolt.host" "class-supers") tag)))) (jolt-reduce jolt-into superclasses (jolt-cons ta (jolt-map (lambda (s) (let fnrec4962 ((s s)) (jolt-get (jolt-get h (keyword #f "ancestors")) s))) superclasses)))) ta)))))))) ancestors))) + (def-var! "clojure.core" "underive" (letrec ((underive (case-lambda ((tag parent) (let fnrec4898 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") underive tag parent) jolt-nil))) ((h tag parent) (let fnrec4899 ((h h) (tag tag) (parent parent)) (let* ((parent-map (jolt-get h (keyword #f "parents"))) (childs-parents (if (jolt-truthy? (jolt-get parent-map tag)) (jolt-invoke (var-deref "clojure.core" "disj") (jolt-get parent-map tag) parent) (jolt-hash-set))) (new-parents (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not-empty") childs-parents)) (jolt-assoc parent-map tag childs-parents) (jolt-dissoc parent-map tag))) (deriv-seq (let* ((_a$4906 (var-deref "clojure.core" "mapcat")) (_a$4907 (lambda (e) (let fnrec4900 ((e e)) (let* ((_a$4904 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$4905 (let* ((_a$4901 (var-deref "clojure.core" "interpose")) (_a$4902 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$4903 (jolt-invoke (var-deref "clojure.core" "val") e))) (jolt-invoke _a$4901 _a$4902 _a$4903)))) (jolt-cons _a$4904 _a$4905))))) (_a$4908 (jolt-seq new-parents))) (jolt-invoke _a$4906 _a$4907 _a$4908)))) (if (jolt-contains? (jolt-get parent-map tag (jolt-hash-set)) parent) (let* ((_a$4910 (lambda (p G__133) (let fnrec4909 ((p p) (G__133 G__133)) (let* ((G__134 G__133) (t (jolt-nth G__134 0 jolt-nil)) (pr (jolt-nth G__134 1 jolt-nil))) (jolt-invoke (var-deref "clojure.core" "derive") p t pr))))) (_a$4911 (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (_a$4912 (jolt-invoke (var-deref "clojure.core" "partition") 2 deriv-seq))) (jolt-reduce _a$4910 _a$4911 _a$4912)) h))))))) underive))) (guard (e (#t #f)) - (def-var! "clojure.core" "descendants" (letrec ((descendants (case-lambda ((tag) (let fnrec4963 ((tag tag)) (descendants (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec4964 ((h h) (tag tag)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "class-tag?") tag)) (jolt-throw (host-new "UnsupportedOperationException" "Can't get descendants of classes")) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "descendants")) tag)))))))) descendants))) + (def-var! "clojure.core" "sequential?" (letrec ((sequential? (lambda (x) (let fnrec4913 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "seq?") x))))))) sequential?))) (guard (e (#t #f)) - (def-var! "clojure.core" "derive" (letrec ((derive (case-lambda ((tag parent) (let fnrec4965 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "hier-assert") (jolt-invoke (var-deref "clojure.core" "namespace") parent) "(namespace parent)") (jolt-invoke (var-deref "clojure.core" "hier-assert") (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "class-tag?") tag))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") tag))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") tag))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "namespace") tag) and__25__auto)))) "(or (class? tag) (and (instance? clojure.lang.Named tag) (namespace tag)))") (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") derive tag parent) jolt-nil))) ((h tag parent) (let fnrec4966 ((h h) (tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "hier-assert") (jolt-invoke (var-deref "clojure.core" "not=") tag parent) "(not= tag parent)") (jolt-invoke (var-deref "clojure.core" "hier-assert") (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "class-tag?") tag))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") tag))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") tag))))) "(or (class? tag) (instance? clojure.lang.Named tag))") (jolt-invoke (var-deref "clojure.core" "hier-assert") (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") parent))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") parent))) "(instance? clojure.lang.Named parent)") (let* ((tp (jolt-get h (keyword #f "parents"))) (td (jolt-get h (keyword #f "descendants"))) (ta (jolt-get h (keyword #f "ancestors"))) (tf (lambda (m source sources target targets) (let fnrec4967 ((m m) (source source) (sources sources) (target target) (targets targets)) (let* ((_a$4972 (lambda (ret k) (let fnrec4968 ((ret ret) (k k)) (jolt-assoc ret k (let* ((_a$4969 jolt-conj) (_a$4970 (jolt-get targets k (jolt-hash-set))) (_a$4971 (jolt-cons target (jolt-invoke targets target)))) (jolt-reduce _a$4969 _a$4970 _a$4971)))))) (_a$4973 m) (_a$4974 (jolt-cons source (jolt-invoke sources source)))) (jolt-reduce _a$4972 _a$4973 _a$4974)))))) (let* ((or__26__auto (if (jolt-not (jolt-contains? (jolt-invoke tp tag) parent)) (begin (if (jolt-contains? (jolt-invoke ta tag) parent) (jolt-throw (host-new "Exception" (jolt-invoke (var-deref "clojure.core" "str") tag " already has " parent " as ancestor"))) jolt-nil) (if (jolt-contains? (jolt-invoke ta parent) tag) (jolt-throw (host-new "Exception" (jolt-invoke (var-deref "clojure.core" "str") "Cyclic derivation: " parent " has " tag " as ancestor"))) jolt-nil) (let* ((_o$4975 (keyword #f "parents")) (_o$4976 (jolt-assoc tp tag (jolt-conj (jolt-get tp tag (jolt-hash-set)) parent))) (_o$4977 (keyword #f "ancestors")) (_o$4978 (jolt-invoke tf ta tag td parent ta)) (_o$4979 (keyword #f "descendants")) (_o$4980 (jolt-invoke tf td parent ta tag td))) (jolt-hash-map _o$4975 _o$4976 _o$4977 _o$4978 _o$4979 _o$4980))) jolt-nil))) (if (jolt-truthy? or__26__auto) or__26__auto h))))))))) derive))) + (def-var! "clojure.core" "associative?" (letrec ((associative? (lambda (x) (let fnrec4914 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))))))) associative?))) (guard (e (#t #f)) - (def-var! "clojure.core" "underive" (letrec ((underive (case-lambda ((tag parent) (let fnrec4981 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") underive tag parent) jolt-nil))) ((h tag parent) (let fnrec4982 ((h h) (tag tag) (parent parent)) (let* ((parent-map (jolt-get h (keyword #f "parents"))) (childs-parents (if (jolt-truthy? (jolt-invoke parent-map tag)) (jolt-invoke (var-deref "clojure.core" "disj") (jolt-invoke parent-map tag) parent) (jolt-hash-set))) (new-parents (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not-empty") childs-parents)) (jolt-assoc parent-map tag childs-parents) (jolt-dissoc parent-map tag))) (deriv-seq (let* ((_a$4989 (var-deref "clojure.core" "mapcat")) (_a$4990 (lambda (e) (let fnrec4983 ((e e)) (let* ((_a$4987 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$4988 (let* ((_a$4984 (var-deref "clojure.core" "interpose")) (_a$4985 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$4986 (jolt-invoke (var-deref "clojure.core" "val") e))) (jolt-invoke _a$4984 _a$4985 _a$4986)))) (jolt-cons _a$4987 _a$4988))))) (_a$4991 (jolt-seq new-parents))) (jolt-invoke _a$4989 _a$4990 _a$4991)))) (if (jolt-contains? (jolt-invoke parent-map tag) parent) (let* ((_a$4993 (lambda (p G__136) (let fnrec4992 ((p p) (G__136 G__136)) (let* ((G__137 G__136) (t (jolt-nth G__137 0 jolt-nil)) (pr (jolt-nth G__137 1 jolt-nil))) (jolt-invoke (var-deref "clojure.core" "derive") p t pr))))) (_a$4994 (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (_a$4995 (jolt-invoke (var-deref "clojure.core" "partition") 2 deriv-seq))) (jolt-reduce _a$4993 _a$4994 _a$4995)) h))))))) underive))) + (def-var! "clojure.core" "counted?" (letrec ((counted? (lambda (x) (let fnrec4915 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "list?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "string?") x))))))))))))) counted?))) (guard (e (#t #f)) - (def-var! "clojure.core" "sequential?" (letrec ((sequential? (lambda (x) (let fnrec4996 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "seq?") x))))))) sequential?))) -(guard (e (#t #f)) - (def-var! "clojure.core" "associative?" (letrec ((associative? (lambda (x) (let fnrec4997 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))))))) associative?))) -(guard (e (#t #f)) - (def-var! "clojure.core" "counted?" (letrec ((counted? (lambda (x) (let fnrec4998 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "list?") x))))))))))) counted?))) -(guard (e (#t #f)) - (def-var! "clojure.core" "indexed?" (letrec ((indexed? (lambda (x) (let fnrec4999 ((x x)) (jolt-invoke (var-deref "clojure.core" "vector?") x))))) indexed?))) + (def-var! "clojure.core" "indexed?" (letrec ((indexed? (lambda (x) (let fnrec4916 ((x x)) (jolt-invoke (var-deref "clojure.core" "vector?") x))))) indexed?))) (guard (e (#t #f)) (declare-var! "clojure.core" "sorted?")) (guard (e (#t #f)) - (def-var! "clojure.core" "reversible?" (letrec ((reversible? (lambda (x) (let fnrec5000 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "sorted?") x))))))) reversible?))) + (def-var! "clojure.core" "reversible?" (letrec ((reversible? (lambda (x) (let fnrec4917 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "sorted?") x))))))) reversible?))) (guard (e (#t #f)) - (def-var! "clojure.core" "seqable?" (letrec ((seqable? (lambda (x) (let fnrec5001 ((x x)) (if (jolt-truthy? (let* ((or__26__auto (jolt-nil? x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "coll?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "string?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.host" "array-value?") x)))))))) #t #f))))) seqable?))) + (def-var! "clojure.core" "seqable?" (letrec ((seqable? (lambda (x) (let fnrec4918 ((x x)) (let* ((or__26__auto (jolt-nil? x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "coll?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "string?") x))))))))) seqable?))) (guard (e (#t #f)) - (def-var! "clojure.core" "boolean?" (letrec ((boolean? (lambda (x) (let fnrec5002 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "true?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "false?") x))))))) boolean?))) + (def-var! "clojure.core" "boolean?" (letrec ((boolean? (lambda (x) (let fnrec4919 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "true?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "false?") x))))))) boolean?))) (guard (e (#t #f)) - (def-var! "clojure.core" "double?" (letrec ((double? (lambda (x) (let fnrec5003 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "integer?") x)) and__25__auto)))))) double?))) + (def-var! "clojure.core" "double?" (letrec ((double? (lambda (x) (let fnrec4920 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "integer?") x)) and__25__auto)))))) double?))) (guard (e (#t #f)) - (def-var! "clojure.core" "float?" (letrec ((float? (lambda (x) (let fnrec5004 ((x x)) (jolt-invoke (var-deref "clojure.core" "double?") x))))) float?))) + (def-var! "clojure.core" "float?" (letrec ((float? (lambda (x) (let fnrec4921 ((x x)) (jolt-invoke (var-deref "clojure.core" "double?") x))))) float?))) (guard (e (#t #f)) - (def-var! "clojure.core" "infinite?" (letrec ((infinite? (lambda (x) (let fnrec5005 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt= x +inf.0))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= x -inf.0))) and__25__auto)))))) infinite?))) + (def-var! "clojure.core" "infinite?" (letrec ((infinite? (lambda (x) (let fnrec4922 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt= x +inf.0))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= x -inf.0))) and__25__auto)))))) infinite?))) (guard (e (#t #f)) - (def-var! "clojure.core" "atom?" (letrec ((atom? (lambda (x) (let fnrec5006 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "atom")))))) atom?))) + (def-var! "clojure.core" "atom?" (letrec ((atom? (lambda (x) (let fnrec4923 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "atom")))))) atom?))) (guard (e (#t #f)) - (def-var! "clojure.core" "volatile?" (letrec ((volatile? (lambda (x) (let fnrec5007 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "volatile")))))) volatile?))) + (def-var! "clojure.core" "volatile?" (letrec ((volatile? (lambda (x) (let fnrec4924 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "volatile")))))) volatile?))) (guard (e (#t #f)) - (def-var! "clojure.core" "reader-conditional?" (letrec ((reader-conditional? (lambda (x) (let fnrec5008 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "reader-conditional")))))) reader-conditional?))) + (def-var! "clojure.core" "reader-conditional?" (letrec ((reader-conditional? (lambda (x) (let fnrec4925 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "reader-conditional")))))) reader-conditional?))) (guard (e (#t #f)) - (def-var! "clojure.core" "tagged-literal?" (letrec ((tagged-literal? (lambda (x) (let fnrec5009 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "tagged-literal")))))) tagged-literal?))) + (def-var! "clojure.core" "tagged-literal?" (letrec ((tagged-literal? (lambda (x) (let fnrec4926 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "tagged-literal")))))) tagged-literal?))) (guard (e (#t #f)) - (def-var! "clojure.core" "record?" (letrec ((record? (lambda (x) (let fnrec5010 ((x x)) (jolt-some? (jolt-get x (keyword "jolt" "deftype"))))))) record?))) + (def-var! "clojure.core" "record?" (letrec ((record? (lambda (x) (let fnrec4927 ((x x)) (jolt-some? (jolt-get x (keyword "jolt" "deftype"))))))) record?))) (guard (e (#t #f)) - (def-var! "clojure.core" "uuid?" (letrec ((uuid? (lambda (x) (let fnrec5011 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "uuid")))))) uuid?))) + (def-var! "clojure.core" "uuid?" (letrec ((uuid? (lambda (x) (let fnrec4928 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "uuid")))))) uuid?))) (guard (e (#t #f)) - (def-var! "clojure.core" "inst?" (letrec ((inst? (lambda (x) (let fnrec5012 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "inst")))))) inst?))) + (def-var! "clojure.core" "inst?" (letrec ((inst? (lambda (x) (let fnrec4929 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "inst")))))) inst?))) (guard (e (#t #f)) - (def-var! "clojure.core" "char?" (letrec ((char? (lambda (x) (let fnrec5013 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "char")))))) char?))) + (def-var! "clojure.core" "char?" (letrec ((char? (lambda (x) (let fnrec4930 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "char")))))) char?))) (guard (e (#t #f)) - (def-var! "clojure.core" "realized?" (letrec ((realized? (lambda (x) (let fnrec5014 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (if (jolt= (keyword "jolt" "lazy-seq") (jolt-get x (keyword "jolt" "type"))) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "atom?") x)) #t (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "realized? not supported on: " (jolt-invoke (var-deref "clojure.core" "class") x))) jolt-nil))))))))) realized?))) + (def-var! "clojure.core" "realized?" (letrec ((realized? (lambda (x) (let fnrec4931 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (if (jolt= (keyword "jolt" "lazy-seq") (jolt-get x (keyword "jolt" "type"))) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "atom?") x)) #t (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "realized? not supported on: " x)) jolt-nil))))))))) realized?))) (guard (e (#t #f)) - (def-var! "clojure.core" "force" (letrec ((force (lambda (x) (let fnrec5015 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) force))) + (def-var! "clojure.core" "force" (letrec ((force (lambda (x) (let fnrec4932 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) force))) (guard (e (#t #f)) - (def-var! "clojure.core" "pop" (letrec ((pop (lambda (coll) (let fnrec5016 ((coll coll)) (if (jolt-nil? coll) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) (jolt-throw "Can't pop empty vector") (jolt-invoke (var-deref "clojure.core" "subvec") coll 0 (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (if (jolt-nil? (jolt-seq coll)) (jolt-throw "Can't pop empty list") (jolt-rest coll)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pop not supported on: " coll)) jolt-nil)))))))) pop))) + (def-var! "clojure.core" "pop" (letrec ((pop (lambda (coll) (let fnrec4933 ((coll coll)) (if (jolt-nil? coll) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) (jolt-throw "Can't pop empty vector") (jolt-invoke (var-deref "clojure.core" "subvec") coll 0 (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (if (jolt-nil? (jolt-seq coll)) (jolt-throw "Can't pop empty list") (jolt-rest coll)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pop not supported on: " coll)) jolt-nil)))))))) pop))) (guard (e (#t #f)) - (def-var! "clojure.core" "dorun" (letrec ((dorun (case-lambda ((coll) (let fnrec5017 ((coll coll)) (let* ((s (jolt-seq coll))) (let loop5018 ((s s)) (if (jolt-truthy? s) (loop5018 (jolt-next s)) jolt-nil))))) ((n coll) (let fnrec5019 ((n n) (coll coll)) (let* ((n n) (s (jolt-seq coll))) (let loop5020 ((n n) (s s)) (if (jolt-truthy? (let* ((and__25__auto s)) (if (jolt-truthy? and__25__auto) (jolt-pos? n) and__25__auto))) (let* ((_a$5021 (jolt-dec n)) (_a$5022 (jolt-next s))) (loop5020 _a$5021 _a$5022)) jolt-nil)))))))) dorun))) + (def-var! "clojure.core" "dorun" (letrec ((dorun (case-lambda ((coll) (let fnrec4934 ((coll coll)) (let* ((s (jolt-seq coll))) (let loop4935 ((s s)) (if (jolt-truthy? s) (loop4935 (jolt-next s)) jolt-nil))))) ((n coll) (let fnrec4936 ((n n) (coll coll)) (let* ((n n) (s (jolt-seq coll))) (let loop4937 ((n n) (s s)) (if (jolt-truthy? (let* ((and__25__auto s)) (if (jolt-truthy? and__25__auto) (jolt-pos? n) and__25__auto))) (let* ((_a$4938 (jolt-dec n)) (_a$4939 (jolt-next s))) (loop4937 _a$4938 _a$4939)) jolt-nil)))))))) dorun))) (guard (e (#t #f)) - (def-var! "clojure.core" "doall" (letrec ((doall (case-lambda ((coll) (let fnrec5023 ((coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") coll) coll))) ((n coll) (let fnrec5024 ((n n) (coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") n coll) coll)))))) doall))) + (def-var! "clojure.core" "doall" (letrec ((doall (case-lambda ((coll) (let fnrec4940 ((coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") coll) coll))) ((n coll) (let fnrec4941 ((n n) (coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") n coll) coll)))))) doall))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "spread" (letrec ((spread (lambda (arglist) (let fnrec5025 ((arglist arglist)) (if (jolt-nil? arglist) jolt-nil (if (jolt-nil? (jolt-next arglist)) (jolt-seq (jolt-first arglist)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$5026 (jolt-first arglist)) (_a$5027 (spread (jolt-next arglist)))) (jolt-cons _a$5026 _a$5027)) jolt-nil))))))) spread) (let* ((_o$5028 (keyword #f "private")) (_o$5029 #t)) (jolt-hash-map _o$5028 _o$5029)))) + (def-var-with-meta! "clojure.core" "spread" (letrec ((spread (lambda (arglist) (let fnrec4942 ((arglist arglist)) (if (jolt-nil? arglist) jolt-nil (if (jolt-nil? (jolt-next arglist)) (jolt-seq (jolt-first arglist)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$4943 (jolt-first arglist)) (_a$4944 (spread (jolt-next arglist)))) (jolt-cons _a$4943 _a$4944)) jolt-nil))))))) spread) (let* ((_o$4945 (keyword #f "private")) (_o$4946 #t)) (jolt-hash-map _o$4945 _o$4946)))) (guard (e (#t #f)) - (def-var! "clojure.core" "list*" (letrec ((list* (case-lambda ((args) (let fnrec5030 ((args args)) (jolt-seq args))) ((a args) (let fnrec5031 ((a a) (args args)) (jolt-cons a args))) ((a b args) (let fnrec5032 ((a a) (b b) (args args)) (jolt-cons a (jolt-cons b args)))) ((a b c args) (let fnrec5033 ((a a) (b b) (c c) (args args)) (jolt-cons a (jolt-cons b (jolt-cons c args))))) ((a b c d . more) (let fnrec5034 ((a a) (b b) (c c) (d d) (more (list->cseq more))) (jolt-cons a (jolt-cons b (jolt-cons c (jolt-cons d (jolt-invoke (var-deref "clojure.core" "spread") more)))))))))) list*))) + (def-var! "clojure.core" "list*" (letrec ((list* (case-lambda ((args) (let fnrec4947 ((args args)) (jolt-seq args))) ((a args) (let fnrec4948 ((a a) (args args)) (jolt-cons a args))) ((a b args) (let fnrec4949 ((a a) (b b) (args args)) (jolt-cons a (jolt-cons b args)))) ((a b c args) (let fnrec4950 ((a a) (b b) (c c) (args args)) (jolt-cons a (jolt-cons b (jolt-cons c args))))) ((a b c d . more) (let fnrec4951 ((a a) (b b) (c c) (d d) (more (list->cseq more))) (jolt-cons a (jolt-cons b (jolt-cons c (jolt-cons d (jolt-invoke (var-deref "clojure.core" "spread") more)))))))))) list*))) (guard (e (#t #f)) - (def-var! "clojure.core" "print-str" (letrec ((print-str (lambda xs (let fnrec5035 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec5036 () (jolt-apply (var-deref "clojure.core" "print") xs)))))))) print-str))) + (def-var! "clojure.core" "print-str" (letrec ((print-str (lambda xs (let fnrec4952 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec4953 () (jolt-apply (var-deref "clojure.core" "print") xs)))))))) print-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "println-str" (letrec ((println-str (lambda xs (let fnrec5037 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec5038 () (jolt-apply (var-deref "clojure.core" "println") xs)))))))) println-str))) + (def-var! "clojure.core" "println-str" (letrec ((println-str (lambda xs (let fnrec4954 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec4955 () (jolt-apply (var-deref "clojure.core" "println") xs)))))))) println-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "prn-str" (letrec ((prn-str (lambda xs (let fnrec5039 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec5040 () (jolt-apply (var-deref "clojure.core" "prn") xs)))))))) prn-str))) + (def-var! "clojure.core" "prn-str" (letrec ((prn-str (lambda xs (let fnrec4956 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec4957 () (jolt-apply (var-deref "clojure.core" "prn") xs)))))))) prn-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "rand-int" (letrec ((rand-int (lambda (n) (let fnrec4319 ((n n)) (jolt-invoke (var-deref "clojure.core" "int") (jolt-invoke (var-deref "clojure.core" "rand") n)))))) rand-int))) + (def-var! "clojure.core" "rand-int" (letrec ((rand-int (lambda (n) (let fnrec4285 ((n n)) (jolt-invoke (var-deref "clojure.core" "int") (jolt-invoke (var-deref "clojure.core" "rand") n)))))) rand-int))) (guard (e (#t #f)) - (def-var! "clojure.core" "shuffle" (letrec ((shuffle (lambda (coll) (let fnrec4320 ((coll coll)) (begin (if (jolt-truthy? (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "coll?") coll)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") coll)))) (jolt-throw (let* ((_a$4321 (jolt-invoke (var-deref "clojure.core" "str") "shuffle requires a collection, got: " coll)) (_a$4322 (jolt-hash-map))) (jolt-ex-info _a$4321 _a$4322))) jolt-nil) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll)) (i (jolt-dec (jolt-count v)))) (let loop4323 ((v v) (i i)) (if (jolt-pos? i) (let* ((j (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-inc i))) (t (jolt-nth v i))) (let* ((_a$4324 (jolt-assoc (jolt-assoc v i (jolt-nth v j)) j t)) (_a$4325 (jolt-dec i))) (loop4323 _a$4324 _a$4325))) v)))))))) shuffle))) + (def-var! "clojure.core" "shuffle" (letrec ((shuffle (lambda (coll) (let fnrec4286 ((coll coll)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-throw (let* ((_a$4287 (jolt-invoke (var-deref "clojure.core" "str") "shuffle requires a collection, got: " coll)) (_a$4288 (jolt-hash-map))) (jolt-ex-info _a$4287 _a$4288))) jolt-nil) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll)) (i (jolt-dec (jolt-count v)))) (let loop4289 ((v v) (i i)) (if (jolt-pos? i) (let* ((j (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-inc i))) (t (jolt-nth v i))) (let* ((_a$4290 (jolt-assoc (jolt-assoc v i (jolt-nth v j)) j t)) (_a$4291 (jolt-dec i))) (loop4289 _a$4290 _a$4291))) v)))))))) shuffle))) (guard (e (#t #f)) - (def-var! "clojure.core" "sort-by" (letrec ((sort-by (case-lambda ((keyfn coll) (let fnrec4326 ((keyfn keyfn) (coll coll)) (sort-by keyfn (var-deref "clojure.core" "compare") coll))) ((keyfn comp coll) (let fnrec4327 ((keyfn keyfn) (comp comp) (coll coll)) (begin (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "coll?") comp)) (jolt-throw (host-new "ClassCastException" (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "class") comp) " cannot be cast to java.util.Comparator"))) jolt-nil) (jolt-invoke (var-deref "clojure.core" "sort") (lambda (x y) (let fnrec4328 ((x x) (y y)) (let* ((_a$4329 comp) (_a$4330 (jolt-invoke keyfn x)) (_a$4331 (jolt-invoke keyfn y))) (jolt-invoke _a$4329 _a$4330 _a$4331)))) coll))))))) sort-by))) + (def-var! "clojure.core" "sort-by" (letrec ((sort-by (case-lambda ((keyfn coll) (let fnrec4292 ((keyfn keyfn) (coll coll)) (sort-by keyfn (var-deref "clojure.core" "compare") coll))) ((keyfn comp coll) (let fnrec4293 ((keyfn keyfn) (comp comp) (coll coll)) (jolt-invoke (var-deref "clojure.core" "sort") (lambda (x y) (let fnrec4294 ((x x) (y y)) (let* ((_a$4295 comp) (_a$4296 (jolt-invoke keyfn x)) (_a$4297 (jolt-invoke keyfn y))) (jolt-invoke _a$4295 _a$4296 _a$4297)))) coll)))))) sort-by))) (guard (e (#t #f)) - (def-var! "clojure.core" "parse-uuid" (letrec ((parse-uuid (lambda (s) (let fnrec4332 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "re-matches") (jolt-regex "[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}") s)) (jolt-invoke (var-deref "clojure.core" "__make-uuid") s) jolt-nil) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-uuid requires a string, got: " s))))))) parse-uuid))) + (def-var! "clojure.core" "parse-uuid" (letrec ((parse-uuid (lambda (s) (let fnrec4298 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "re-matches") (jolt-regex "[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}") s)) (jolt-invoke (var-deref "clojure.core" "__make-uuid") s) jolt-nil) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-uuid requires a string, got: " s))))))) parse-uuid))) (guard (e (#t #f)) - (def-var! "clojure.core" "random-uuid" (letrec ((random-uuid (lambda () (let fnrec4333 () (let* ((hx4 (lambda () (let fnrec4334 () (jolt-invoke (var-deref "clojure.core" "format") "%04x" (jolt-invoke (var-deref "clojure.core" "rand-int") 65536))))) (hx3 (lambda () (let fnrec4335 () (jolt-invoke (var-deref "clojure.core" "format") "%03x" (jolt-invoke (var-deref "clojure.core" "rand-int") 4096)))))) (jolt-invoke (var-deref "clojure.core" "parse-uuid") (let* ((_a$4336 (var-deref "clojure.core" "str")) (_a$4337 (jolt-invoke hx4)) (_a$4338 (jolt-invoke hx4)) (_a$4339 "-") (_a$4340 (jolt-invoke hx4)) (_a$4341 "-4") (_a$4342 (jolt-invoke hx3)) (_a$4343 "-") (_a$4344 (jolt-invoke (var-deref "clojure.core" "format") "%x" (jolt-n+ 8 (jolt-invoke (var-deref "clojure.core" "rand-int") 4)))) (_a$4345 (jolt-invoke hx3)) (_a$4346 "-") (_a$4347 (jolt-invoke hx4)) (_a$4348 (jolt-invoke hx4)) (_a$4349 (jolt-invoke hx4))) (jolt-invoke _a$4336 _a$4337 _a$4338 _a$4339 _a$4340 _a$4341 _a$4342 _a$4343 _a$4344 _a$4345 _a$4346 _a$4347 _a$4348 _a$4349)))))))) random-uuid))) + (def-var! "clojure.core" "random-uuid" (letrec ((random-uuid (lambda () (let fnrec4299 () (let* ((hx4 (lambda () (let fnrec4300 () (jolt-invoke (var-deref "clojure.core" "format") "%04x" (jolt-invoke (var-deref "clojure.core" "rand-int") 65536))))) (hx3 (lambda () (let fnrec4301 () (jolt-invoke (var-deref "clojure.core" "format") "%03x" (jolt-invoke (var-deref "clojure.core" "rand-int") 4096)))))) (jolt-invoke (var-deref "clojure.core" "parse-uuid") (let* ((_a$4302 (var-deref "clojure.core" "str")) (_a$4303 (jolt-invoke hx4)) (_a$4304 (jolt-invoke hx4)) (_a$4305 "-") (_a$4306 (jolt-invoke hx4)) (_a$4307 "-4") (_a$4308 (jolt-invoke hx3)) (_a$4309 "-") (_a$4310 (jolt-invoke (var-deref "clojure.core" "format") "%x" (+ 8 (jolt-invoke (var-deref "clojure.core" "rand-int") 4)))) (_a$4311 (jolt-invoke hx3)) (_a$4312 "-") (_a$4313 (jolt-invoke hx4)) (_a$4314 (jolt-invoke hx4)) (_a$4315 (jolt-invoke hx4))) (jolt-invoke _a$4302 _a$4303 _a$4304 _a$4305 _a$4306 _a$4307 _a$4308 _a$4309 _a$4310 _a$4311 _a$4312 _a$4313 _a$4314 _a$4315)))))))) random-uuid))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "char-escape-strings" (let* ((_o$4350 (integer->char 10)) (_o$4351 "\\n") (_o$4352 (integer->char 9)) (_o$4353 "\\t") (_o$4354 (integer->char 13)) (_o$4355 "\\r") (_o$4356 (integer->char 12)) (_o$4357 "\\f") (_o$4358 (integer->char 8)) (_o$4359 "\\b") (_o$4360 (integer->char 34)) (_o$4361 "\\\"") (_o$4362 (integer->char 92)) (_o$4363 "\\\\")) (jolt-hash-map _o$4350 _o$4351 _o$4352 _o$4353 _o$4354 _o$4355 _o$4356 _o$4357 _o$4358 _o$4359 _o$4360 _o$4361 _o$4362 _o$4363)) (let* ((_o$4364 (keyword #f "private")) (_o$4365 #t)) (jolt-hash-map _o$4364 _o$4365)))) + (def-var-with-meta! "clojure.core" "char-escape-strings" (let* ((_o$4316 (integer->char 10)) (_o$4317 "\\n") (_o$4318 (integer->char 9)) (_o$4319 "\\t") (_o$4320 (integer->char 13)) (_o$4321 "\\r") (_o$4322 (integer->char 12)) (_o$4323 "\\f") (_o$4324 (integer->char 8)) (_o$4325 "\\b") (_o$4326 (integer->char 34)) (_o$4327 "\\\"") (_o$4328 (integer->char 92)) (_o$4329 "\\\\")) (jolt-hash-map _o$4316 _o$4317 _o$4318 _o$4319 _o$4320 _o$4321 _o$4322 _o$4323 _o$4324 _o$4325 _o$4326 _o$4327 _o$4328 _o$4329)) (let* ((_o$4330 (keyword #f "private")) (_o$4331 #t)) (jolt-hash-map _o$4330 _o$4331)))) (guard (e (#t #f)) - (def-var! "clojure.core" "char-escape-string" (letrec ((char-escape-string (lambda (c) (let fnrec4366 ((c c)) (jolt-get (var-deref "clojure.core" "char-escape-strings") c))))) char-escape-string))) + (def-var! "clojure.core" "char-escape-string" (letrec ((char-escape-string (lambda (c) (let fnrec4332 ((c c)) (jolt-get (var-deref "clojure.core" "char-escape-strings") c))))) char-escape-string))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "char-name-strings" (let* ((_o$4367 (integer->char 10)) (_o$4368 "newline") (_o$4369 (integer->char 9)) (_o$4370 "tab") (_o$4371 (integer->char 13)) (_o$4372 "return") (_o$4373 (integer->char 12)) (_o$4374 "formfeed") (_o$4375 (integer->char 8)) (_o$4376 "backspace") (_o$4377 (integer->char 32)) (_o$4378 "space")) (jolt-hash-map _o$4367 _o$4368 _o$4369 _o$4370 _o$4371 _o$4372 _o$4373 _o$4374 _o$4375 _o$4376 _o$4377 _o$4378)) (let* ((_o$4379 (keyword #f "private")) (_o$4380 #t)) (jolt-hash-map _o$4379 _o$4380)))) + (def-var-with-meta! "clojure.core" "char-name-strings" (let* ((_o$4333 (integer->char 10)) (_o$4334 "newline") (_o$4335 (integer->char 9)) (_o$4336 "tab") (_o$4337 (integer->char 13)) (_o$4338 "return") (_o$4339 (integer->char 12)) (_o$4340 "formfeed") (_o$4341 (integer->char 8)) (_o$4342 "backspace") (_o$4343 (integer->char 32)) (_o$4344 "space")) (jolt-hash-map _o$4333 _o$4334 _o$4335 _o$4336 _o$4337 _o$4338 _o$4339 _o$4340 _o$4341 _o$4342 _o$4343 _o$4344)) (let* ((_o$4345 (keyword #f "private")) (_o$4346 #t)) (jolt-hash-map _o$4345 _o$4346)))) (guard (e (#t #f)) - (def-var! "clojure.core" "char-name-string" (letrec ((char-name-string (lambda (c) (let fnrec4381 ((c c)) (jolt-get (var-deref "clojure.core" "char-name-strings") c))))) char-name-string))) + (def-var! "clojure.core" "char-name-string" (letrec ((char-name-string (lambda (c) (let fnrec4347 ((c c)) (jolt-get (var-deref "clojure.core" "char-name-strings") c))))) char-name-string))) (guard (e (#t #f)) - (def-var! "clojure.core" "rand-nth" (letrec ((rand-nth (lambda (coll) (let fnrec4382 ((coll coll)) (jolt-nth coll (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-count coll))))))) rand-nth))) + (def-var! "clojure.core" "rand-nth" (letrec ((rand-nth (lambda (coll) (let fnrec4348 ((coll coll)) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll))) (jolt-nth v (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-count v)))))))) rand-nth))) (guard (e (#t #f)) - (def-var! "clojure.core" "random-sample" (letrec ((random-sample (case-lambda ((prob) (let fnrec4383 ((prob prob)) (jolt-invoke jolt-filter (lambda (_) (let fnrec4384 ((_ _)) (jolt-n< (jolt-invoke (var-deref "clojure.core" "rand")) prob)))))) ((prob coll) (let fnrec4385 ((prob prob) (coll coll)) (jolt-filter (lambda (_) (let fnrec4386 ((_ _)) (jolt-n< (jolt-invoke (var-deref "clojure.core" "rand")) prob))) coll)))))) random-sample))) + (def-var! "clojure.core" "random-sample" (letrec ((random-sample (case-lambda ((prob) (let fnrec4349 ((prob prob)) (jolt-invoke jolt-filter (lambda (_) (let fnrec4350 ((_ _)) (< (jolt-invoke (var-deref "clojure.core" "rand")) prob)))))) ((prob coll) (let fnrec4351 ((prob prob) (coll coll)) (jolt-filter (lambda (_) (let fnrec4352 ((_ _)) (< (jolt-invoke (var-deref "clojure.core" "rand")) prob))) coll)))))) random-sample))) (guard (e (#t #f)) - (def-var! "clojure.core" "comparator" (letrec ((comparator (lambda (pred) (let fnrec4387 ((pred pred)) (lambda (a b) (let fnrec4388 ((a a) (b b)) (if (jolt-truthy? (jolt-invoke pred a b)) -1 (if (jolt-truthy? (jolt-invoke pred b a)) 1 (if (jolt-truthy? (keyword #f "else")) 0 jolt-nil))))))))) comparator))) + (def-var! "clojure.core" "comparator" (letrec ((comparator (lambda (pred) (let fnrec4353 ((pred pred)) (lambda (a b) (let fnrec4354 ((a a) (b b)) (if (jolt-truthy? (jolt-invoke pred a b)) -1 (if (jolt-truthy? (jolt-invoke pred b a)) 1 (if (jolt-truthy? (keyword #f "else")) 0 jolt-nil))))))))) comparator))) (guard (e (#t #f)) - (def-var! "clojure.core" "reductions" (letrec ((reductions (case-lambda ((f coll) (let fnrec4389 ((f f) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4390 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (let* ((_a$4391 f) (_a$4392 (jolt-first s)) (_a$4393 (jolt-rest s))) (reductions _a$4391 _a$4392 _a$4393)) (jolt-list (jolt-invoke f)))))))))) ((f init coll) (let fnrec4394 ((f f) (init init) (coll coll)) (jolt-cons init (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4395 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((_a$4396 f) (_a$4397 (jolt-invoke f init (jolt-first s))) (_a$4398 (jolt-rest s))) (reductions _a$4396 _a$4397 _a$4398))) jolt-nil)))))))))))) reductions))) + (def-var! "clojure.core" "reductions" (letrec ((reductions (case-lambda ((f coll) (let fnrec4355 ((f f) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4356 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (let* ((_a$4357 f) (_a$4358 (jolt-first s)) (_a$4359 (jolt-rest s))) (reductions _a$4357 _a$4358 _a$4359)) (jolt-list (jolt-invoke f)))))))))) ((f init coll) (let fnrec4360 ((f f) (init init) (coll coll)) (jolt-cons init (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4361 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((_a$4362 f) (_a$4363 (jolt-invoke f init (jolt-first s))) (_a$4364 (jolt-rest s))) (reductions _a$4362 _a$4363 _a$4364))) jolt-nil)))))))))))) reductions))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-seq" (letrec ((tree-seq (lambda (branch? children root) (let fnrec4399 ((branch? branch?) (children children) (root root)) (let* ((walk (letrec ((walk (lambda (node) (let fnrec4400 ((node node)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4401 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons node (if (jolt-truthy? (jolt-invoke branch? node)) (jolt-invoke (var-deref "clojure.core" "mapcat") walk (jolt-invoke children node)) jolt-nil)))))))))) walk))) (jolt-invoke walk root)))))) tree-seq))) + (def-var! "clojure.core" "tree-seq" (letrec ((tree-seq (lambda (branch? children root) (let fnrec4365 ((branch? branch?) (children children) (root root)) (let* ((walk (letrec ((walk (lambda (node) (let fnrec4366 ((node node)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4367 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons node (if (jolt-truthy? (jolt-invoke branch? node)) (jolt-invoke (var-deref "clojure.core" "mapcat") walk (jolt-invoke children node)) jolt-nil)))))))))) walk))) (jolt-invoke walk root)))))) tree-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "file-seq" (letrec ((file-seq (lambda (root) (let fnrec4402 ((root root)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "__file?") root)) (let* ((_a$4405 (var-deref "clojure.core" "tree-seq")) (_a$4406 (lambda (f) (let fnrec4403 ((f f)) (jolt-host-call "isDirectory" f)))) (_a$4407 (lambda (f) (let fnrec4404 ((f f)) (jolt-seq (jolt-host-call "listFiles" f))))) (_a$4408 root)) (jolt-invoke _a$4405 _a$4406 _a$4407 _a$4408)) (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "__dir?") (var-deref "clojure.core" "__list-dir") root)))))) file-seq))) + (def-var! "clojure.core" "file-seq" (letrec ((file-seq (lambda (root) (let fnrec4368 ((root root)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "__file?") root)) (let* ((_a$4371 (var-deref "clojure.core" "tree-seq")) (_a$4372 (lambda (f) (let fnrec4369 ((f f)) (jolt-host-call "isDirectory" f)))) (_a$4373 (lambda (f) (let fnrec4370 ((f f)) (jolt-seq (jolt-host-call "listFiles" f))))) (_a$4374 root)) (jolt-invoke _a$4371 _a$4372 _a$4373 _a$4374)) (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "__dir?") (var-deref "clojure.core" "__list-dir") root)))))) file-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "flatten" (letrec ((flatten (lambda (coll) (let fnrec4409 ((coll coll)) (let* ((_a$4410 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "sequential?"))) (_a$4411 (jolt-rest (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "sequential?") jolt-seq coll)))) (jolt-filter _a$4410 _a$4411)))))) flatten))) + (def-var! "clojure.core" "flatten" (letrec ((flatten (lambda (coll) (let fnrec4375 ((coll coll)) (let* ((_a$4376 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "sequential?"))) (_a$4377 (jolt-rest (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "sequential?") jolt-seq coll)))) (jolt-filter _a$4376 _a$4377)))))) flatten))) (guard (e (#t #f)) - (def-var! "clojure.core" "xml-seq" (letrec ((xml-seq (lambda (root) (let fnrec4412 ((root root)) (let* ((_a$4413 (var-deref "clojure.core" "tree-seq")) (_a$4414 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "string?"))) (_a$4415 (jolt-invoke (var-deref "clojure.core" "comp") jolt-seq (keyword #f "content"))) (_a$4416 root)) (jolt-invoke _a$4413 _a$4414 _a$4415 _a$4416)))))) xml-seq))) + (def-var! "clojure.core" "xml-seq" (letrec ((xml-seq (lambda (root) (let fnrec4378 ((root root)) (let* ((_a$4379 (var-deref "clojure.core" "tree-seq")) (_a$4380 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "string?"))) (_a$4381 (jolt-invoke (var-deref "clojure.core" "comp") jolt-seq (keyword #f "content"))) (_a$4382 root)) (jolt-invoke _a$4379 _a$4380 _a$4381 _a$4382)))))) xml-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "interleave" (letrec ((interleave (case-lambda (() (let fnrec4417 () (jolt-list ))) ((c1) (let fnrec4418 ((c1 c1)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4419 () (jolt-invoke (var-deref "clojure.core" "coll->cells") c1)))))) ((c1 c2) (let fnrec4420 ((c1 c1) (c2 c2)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4421 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s1 (jolt-seq c1)) (s2 (jolt-seq c2))) (if (jolt-truthy? (let* ((and__25__auto s1)) (if (jolt-truthy? and__25__auto) s2 and__25__auto))) (let* ((_a$4426 (jolt-first s1)) (_a$4427 (let* ((_a$4424 (jolt-first s2)) (_a$4425 (let* ((_a$4422 (jolt-rest s1)) (_a$4423 (jolt-rest s2))) (interleave _a$4422 _a$4423)))) (jolt-cons _a$4424 _a$4425)))) (jolt-cons _a$4426 _a$4427)) jolt-nil)))))))) ((c1 c2 . cs) (let fnrec4428 ((c1 c1) (c2 c2) (cs (list->cseq cs))) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4429 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((ss (jolt-map jolt-seq (jolt-invoke (var-deref "clojure.core" "list*") c1 c2 cs)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "every?") jolt-identity ss)) (let* ((_a$4430 (jolt-map jolt-first ss)) (_a$4431 (jolt-apply interleave (jolt-map jolt-rest ss)))) (jolt-concat _a$4430 _a$4431)) jolt-nil))))))))))) interleave))) + (def-var! "clojure.core" "interleave" (letrec ((interleave (case-lambda (() (let fnrec4383 () (jolt-list ))) ((c1) (let fnrec4384 ((c1 c1)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4385 () (jolt-invoke (var-deref "clojure.core" "coll->cells") c1)))))) ((c1 c2) (let fnrec4386 ((c1 c1) (c2 c2)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4387 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s1 (jolt-seq c1)) (s2 (jolt-seq c2))) (if (jolt-truthy? (let* ((and__25__auto s1)) (if (jolt-truthy? and__25__auto) s2 and__25__auto))) (let* ((_a$4392 (jolt-first s1)) (_a$4393 (let* ((_a$4390 (jolt-first s2)) (_a$4391 (let* ((_a$4388 (jolt-rest s1)) (_a$4389 (jolt-rest s2))) (interleave _a$4388 _a$4389)))) (jolt-cons _a$4390 _a$4391)))) (jolt-cons _a$4392 _a$4393)) jolt-nil)))))))) ((c1 c2 . cs) (let fnrec4394 ((c1 c1) (c2 c2) (cs (list->cseq cs))) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4395 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((ss (jolt-map jolt-seq (jolt-invoke (var-deref "clojure.core" "list*") c1 c2 cs)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "every?") jolt-identity ss)) (let* ((_a$4396 (jolt-map jolt-first ss)) (_a$4397 (jolt-apply interleave (jolt-map jolt-rest ss)))) (jolt-concat _a$4396 _a$4397)) jolt-nil))))))))))) interleave))) (guard (e (#t #f)) - (def-var! "clojure.core" "dedupe" (letrec ((dedupe (case-lambda (() (let fnrec4432 () (lambda (rf) (let fnrec4433 ((rf rf)) (let* ((pv (jolt-invoke (var-deref "clojure.core" "volatile!") (let* ((_o$4434 #f) (_o$4435 jolt-nil)) (jolt-vector _o$4434 _o$4435))))) (case-lambda (() (let fnrec4436 () (jolt-invoke rf))) ((result) (let fnrec4437 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec4438 ((result result) (input input)) (let* ((G__132 (jolt-invoke (var-deref "clojure.core" "deref") pv)) (seen (jolt-nth G__132 0 jolt-nil)) (prior (jolt-nth G__132 1 jolt-nil))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") pv (let* ((_o$4439 #t) (_o$4440 input)) (jolt-vector _o$4439 _o$4440))) (if (jolt-truthy? (let* ((and__25__auto seen)) (if (jolt-truthy? and__25__auto) (jolt= prior input) and__25__auto))) result (jolt-invoke rf result input)))))))))))) ((coll) (let fnrec4441 ((coll coll)) (let* ((step (letrec ((step (lambda (s prev) (let fnrec4442 ((s s) (prev prev)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4443 () (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((x (jolt-first s))) (if (jolt= x prev) (jolt-invoke (var-deref "clojure.core" "coll->cells") (step (jolt-rest s) prev)) (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (step (jolt-rest s) x))))) jolt-nil))))))))) step))) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4444 () (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$4448 (jolt-first s)) (_a$4449 (let* ((_a$4445 step) (_a$4446 (jolt-rest s)) (_a$4447 (jolt-first s))) (jolt-invoke _a$4445 _a$4446 _a$4447)))) (jolt-cons _a$4448 _a$4449))) jolt-nil))))))))))) dedupe))) + (def-var! "clojure.core" "rationalize" (letrec ((rationalize (lambda (x) (let fnrec4398 ((x x)) x)))) rationalize))) (guard (e (#t #f)) - (def-var! "clojure.core" "seq-to-map-for-destructuring" (letrec ((seq-to-map-for-destructuring (lambda (s) (let fnrec4450 ((s s)) (if (jolt-truthy? (jolt-next s)) (let* ((m (jolt-hash-map)) (xs (jolt-seq s))) (let loop4451 ((m m) (xs xs)) (if (jolt-truthy? xs) (if (jolt-truthy? (jolt-next xs)) (let* ((_a$4455 (let* ((_a$4452 m) (_a$4453 (jolt-first xs)) (_a$4454 (jolt-invoke (var-deref "clojure.core" "second") xs))) (jolt-assoc _a$4452 _a$4453 _a$4454))) (_a$4456 (jolt-invoke (var-deref "clojure.core" "nnext") xs))) (loop4451 _a$4455 _a$4456)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "No value supplied for key: " (jolt-first xs)))) m))) (if (jolt-truthy? (jolt-seq s)) (jolt-first s) (jolt-hash-map))))))) seq-to-map-for-destructuring))) + (def-var! "clojure.core" "dedupe" (letrec ((dedupe (case-lambda (() (let fnrec4399 () (lambda (rf) (let fnrec4400 ((rf rf)) (let* ((pv (jolt-invoke (var-deref "clojure.core" "volatile!") (let* ((_o$4401 #f) (_o$4402 jolt-nil)) (jolt-vector _o$4401 _o$4402))))) (case-lambda (() (let fnrec4403 () (jolt-invoke rf))) ((result) (let fnrec4404 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec4405 ((result result) (input input)) (let* ((G__129 (jolt-invoke (var-deref "clojure.core" "deref") pv)) (seen (jolt-nth G__129 0 jolt-nil)) (prior (jolt-nth G__129 1 jolt-nil))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") pv (let* ((_o$4406 #t) (_o$4407 input)) (jolt-vector _o$4406 _o$4407))) (if (jolt-truthy? (let* ((and__25__auto seen)) (if (jolt-truthy? and__25__auto) (jolt= prior input) and__25__auto))) result (jolt-invoke rf result input)))))))))))) ((coll) (let fnrec4408 ((coll coll)) (let* ((step (letrec ((step (lambda (s prev) (let fnrec4409 ((s s) (prev prev)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4410 () (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((x (jolt-first s))) (if (jolt= x prev) (jolt-invoke (var-deref "clojure.core" "coll->cells") (step (jolt-rest s) prev)) (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (step (jolt-rest s) x))))) jolt-nil))))))))) step))) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4411 () (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$4415 (jolt-first s)) (_a$4416 (let* ((_a$4412 step) (_a$4413 (jolt-rest s)) (_a$4414 (jolt-first s))) (jolt-invoke _a$4412 _a$4413 _a$4414)))) (jolt-cons _a$4415 _a$4416))) jolt-nil))))))))))) dedupe))) (guard (e (#t #f)) - (def-var! "clojure.core" "vary-meta" (letrec ((vary-meta (lambda (obj f . args) (let fnrec4457 ((obj obj) (f f) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "with-meta") obj (jolt-apply f (jolt-invoke (var-deref "clojure.core" "meta") obj) args)))))) vary-meta))) + (def-var! "clojure.core" "seq-to-map-for-destructuring" (letrec ((seq-to-map-for-destructuring (lambda (s) (let fnrec4417 ((s s)) (if (jolt-truthy? (jolt-next s)) (let* ((m (jolt-hash-map)) (xs (jolt-seq s))) (let loop4418 ((m m) (xs xs)) (if (jolt-truthy? xs) (if (jolt-truthy? (jolt-next xs)) (let* ((_a$4422 (let* ((_a$4419 m) (_a$4420 (jolt-first xs)) (_a$4421 (jolt-invoke (var-deref "clojure.core" "second") xs))) (jolt-assoc _a$4419 _a$4420 _a$4421))) (_a$4423 (jolt-invoke (var-deref "clojure.core" "nnext") xs))) (loop4418 _a$4422 _a$4423)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "No value supplied for key: " (jolt-first xs)))) m))) (if (jolt-truthy? (jolt-seq s)) (jolt-first s) (jolt-hash-map))))))) seq-to-map-for-destructuring))) (guard (e (#t #f)) - (def-var! "clojure.core" "namespace-munge" (letrec ((namespace-munge (lambda (s) (let fnrec4458 ((s s)) (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$4460 (lambda (c) (let fnrec4459 ((c c)) (if (jolt= c (integer->char 45)) (integer->char 95) c)))) (_a$4461 (jolt-seq (jolt-invoke (var-deref "clojure.core" "str") s)))) (jolt-map _a$4460 _a$4461))))))) namespace-munge))) + (def-var! "clojure.core" "vary-meta" (letrec ((vary-meta (lambda (obj f . args) (let fnrec4424 ((obj obj) (f f) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "with-meta") obj (jolt-apply f (jolt-invoke (var-deref "clojure.core" "meta") obj) args)))))) vary-meta))) (guard (e (#t #f)) - (def-var! "clojure.core" "reduce-kv" (letrec ((reduce-kv (lambda (f init coll) (let fnrec4462 ((f f) (init init) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (let* ((_a$4464 (lambda (acc i) (let fnrec4463 ((acc acc) (i i)) (jolt-invoke f acc i (jolt-nth coll i))))) (_a$4465 init) (_a$4466 (jolt-range (jolt-count coll)))) (jolt-reduce _a$4464 _a$4465 _a$4466)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (let* ((_a$4468 (lambda (acc k) (let fnrec4467 ((acc acc) (k k)) (jolt-invoke f acc k (jolt-get coll k))))) (_a$4469 init) (_a$4470 (jolt-keys coll))) (jolt-reduce _a$4468 _a$4469 _a$4470)) (if (jolt-nil? coll) init (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "reduce-kv not supported on: " coll)) jolt-nil)))))))) reduce-kv))) + (def-var! "clojure.core" "namespace-munge" (letrec ((namespace-munge (lambda (s) (let fnrec4425 ((s s)) (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$4427 (lambda (c) (let fnrec4426 ((c c)) (if (jolt= c (integer->char 45)) (integer->char 95) c)))) (_a$4428 (jolt-seq (jolt-invoke (var-deref "clojure.core" "str") s)))) (jolt-map _a$4427 _a$4428))))))) namespace-munge))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "ex-info-val?" (letrec ((ex-info-val? (lambda (x) (let fnrec4471 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "ex-info")))))) ex-info-val?) (let* ((_o$4472 (keyword #f "private")) (_o$4473 #t)) (jolt-hash-map _o$4472 _o$4473)))) + (def-var! "clojure.core" "reduce-kv" (letrec ((reduce-kv (lambda (f init coll) (let fnrec4429 ((f f) (init init) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (let* ((_a$4431 (lambda (acc i) (let fnrec4430 ((acc acc) (i i)) (jolt-invoke f acc i (jolt-nth coll i))))) (_a$4432 init) (_a$4433 (jolt-range (jolt-count coll)))) (jolt-reduce _a$4431 _a$4432 _a$4433)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (let* ((_a$4435 (lambda (acc k) (let fnrec4434 ((acc acc) (k k)) (jolt-invoke f acc k (jolt-get coll k))))) (_a$4436 init) (_a$4437 (jolt-keys coll))) (jolt-reduce _a$4435 _a$4436 _a$4437)) (if (jolt-nil? coll) init (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "reduce-kv not supported on: " coll)) jolt-nil)))))))) reduce-kv))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "ex-unwrap" (letrec ((ex-unwrap (lambda (e) (let fnrec4474 ((e e)) (if (jolt= (jolt-get e (keyword "jolt" "type")) (keyword "jolt" "exception")) (jolt-get e (keyword #f "value")) e))))) ex-unwrap) (let* ((_o$4475 (keyword #f "private")) (_o$4476 #t)) (jolt-hash-map _o$4475 _o$4476)))) + (def-var-with-meta! "clojure.core" "ex-info-val?" (letrec ((ex-info-val? (lambda (x) (let fnrec4438 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "ex-info")))))) ex-info-val?) (let* ((_o$4439 (keyword #f "private")) (_o$4440 #t)) (jolt-hash-map _o$4439 _o$4440)))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-data" (letrec ((ex-data (lambda (e) (let fnrec4477 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "data")) jolt-nil)))))) ex-data))) + (def-var-with-meta! "clojure.core" "ex-unwrap" (letrec ((ex-unwrap (lambda (e) (let fnrec4441 ((e e)) (if (jolt= (jolt-get e (keyword "jolt" "type")) (keyword "jolt" "exception")) (jolt-get e (keyword #f "value")) e))))) ex-unwrap) (let* ((_o$4442 (keyword #f "private")) (_o$4443 #t)) (jolt-hash-map _o$4442 _o$4443)))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-message" (letrec ((ex-message (lambda (e) (let fnrec4478 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "message")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) ex-message))) + (def-var! "clojure.core" "ex-data" (letrec ((ex-data (lambda (e) (let fnrec4444 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "data")) jolt-nil)))))) ex-data))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-cause" (letrec ((ex-cause (lambda (e) (let fnrec4479 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "cause")) jolt-nil)))))) ex-cause))) + (def-var! "clojure.core" "ex-message" (letrec ((ex-message (lambda (e) (let fnrec4445 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "message")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) ex-message))) (guard (e (#t #f)) - (def-var! "clojure.core" "inst-ms" (letrec ((inst-ms (lambda (x) (let fnrec4480 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "inst?") x)) (jolt-get x (keyword #f "ms")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "inst-ms requires an inst, got: " x))))))) inst-ms))) + (def-var! "clojure.core" "ex-cause" (letrec ((ex-cause (lambda (e) (let fnrec4446 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "cause")) jolt-nil)))))) ex-cause))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-keys" (letrec ((update-keys (lambda (m f) (let fnrec4481 ((m m) (f f)) (let* ((_a$4483 (var-deref "clojure.core" "reduce-kv")) (_a$4484 (lambda (acc k v) (let fnrec4482 ((acc acc) (k k) (v v)) (jolt-assoc acc (jolt-invoke f k) v)))) (_a$4485 (jolt-hash-map)) (_a$4486 m)) (jolt-invoke _a$4483 _a$4484 _a$4485 _a$4486)))))) update-keys))) + (def-var! "clojure.core" "inst-ms" (letrec ((inst-ms (lambda (x) (let fnrec4447 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "inst?") x)) (jolt-get x (keyword #f "ms")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "inst-ms requires an inst, got: " x))))))) inst-ms))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-vals" (letrec ((update-vals (lambda (m f) (let fnrec4487 ((m m) (f f)) (let* ((_a$4489 (var-deref "clojure.core" "reduce-kv")) (_a$4490 (lambda (acc k v) (let fnrec4488 ((acc acc) (k k) (v v)) (jolt-assoc acc k (jolt-invoke f v))))) (_a$4491 (jolt-hash-map)) (_a$4492 m)) (jolt-invoke _a$4489 _a$4490 _a$4491 _a$4492)))))) update-vals))) + (def-var! "clojure.core" "update-keys" (letrec ((update-keys (lambda (m f) (let fnrec4448 ((m m) (f f)) (let* ((_a$4450 (var-deref "clojure.core" "reduce-kv")) (_a$4451 (lambda (acc k v) (let fnrec4449 ((acc acc) (k k) (v v)) (jolt-assoc acc (jolt-invoke f k) v)))) (_a$4452 (jolt-hash-map)) (_a$4453 m)) (jolt-invoke _a$4450 _a$4451 _a$4452 _a$4453)))))) update-keys))) (guard (e (#t #f)) - (def-var! "clojure.core" "partitionv" (letrec ((partitionv (case-lambda ((n coll) (let fnrec4493 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n coll)))) ((n step coll) (let fnrec4494 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step coll)))) ((n step pad coll) (let fnrec4495 ((n n) (step step) (pad pad) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step pad coll))))))) partitionv))) + (def-var! "clojure.core" "update-vals" (letrec ((update-vals (lambda (m f) (let fnrec4454 ((m m) (f f)) (let* ((_a$4456 (var-deref "clojure.core" "reduce-kv")) (_a$4457 (lambda (acc k v) (let fnrec4455 ((acc acc) (k k) (v v)) (jolt-assoc acc k (jolt-invoke f v))))) (_a$4458 (jolt-hash-map)) (_a$4459 m)) (jolt-invoke _a$4456 _a$4457 _a$4458 _a$4459)))))) update-vals))) +(guard (e (#t #f)) + (def-var! "clojure.core" "partitionv" (letrec ((partitionv (case-lambda ((n coll) (let fnrec4460 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n coll)))) ((n step coll) (let fnrec4461 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step coll)))) ((n step pad coll) (let fnrec4462 ((n n) (step step) (pad pad) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step pad coll))))))) partitionv))) (guard (e (#t #f)) (declare-var! "clojure.core" "partition-all")) (guard (e (#t #f)) - (def-var! "clojure.core" "partitionv-all" (letrec ((partitionv-all (case-lambda ((n coll) (let fnrec4496 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n coll)))) ((n step coll) (let fnrec4497 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n step coll))))))) partitionv-all))) + (def-var! "clojure.core" "partitionv-all" (letrec ((partitionv-all (case-lambda ((n coll) (let fnrec4463 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n coll)))) ((n step coll) (let fnrec4464 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n step coll))))))) partitionv-all))) (guard (e (#t #f)) - (def-var! "clojure.core" "splitv-at" (letrec ((splitv-at (lambda (n coll) (let fnrec4498 ((n n) (coll coll)) (let* ((_o$4499 (jolt-invoke (var-deref "clojure.core" "vec") (jolt-take n coll))) (_o$4500 (jolt-drop n coll))) (jolt-vector _o$4499 _o$4500)))))) splitv-at))) + (def-var! "clojure.core" "splitv-at" (letrec ((splitv-at (lambda (n coll) (let fnrec4465 ((n n) (coll coll)) (let* ((_o$4466 (jolt-invoke (var-deref "clojure.core" "vec") (jolt-take n coll))) (_o$4467 (jolt-drop n coll))) (jolt-vector _o$4466 _o$4467)))))) splitv-at))) (guard (e (#t #f)) - (def-var! "clojure.core" "with-redefs-fn" (letrec ((with-redefs-fn (lambda (binding-map func) (let fnrec4501 ((binding-map binding-map) (func func)) (let* ((vars (jolt-invoke (var-deref "clojure.core" "vec") (jolt-keys binding-map))) (saved (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "var-get") vars))) (begin (begin (jolt-count (jolt-map (lambda (v) (let fnrec4502 ((v v)) (begin (jolt-invoke (var-deref "clojure.core" "var-set") v (jolt-get binding-map v)) jolt-nil))) vars)) jolt-nil) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke func)) (lambda () (let* ((i 0)) (let loop4503 ((i i)) (if (jolt-n< i (jolt-count vars)) (begin (let* ((_a$4504 (var-deref "clojure.core" "var-set")) (_a$4505 (jolt-nth vars i)) (_a$4506 (jolt-nth saved i))) (jolt-invoke _a$4504 _a$4505 _a$4506)) (loop4503 (jolt-inc i))) jolt-nil))))))))))) with-redefs-fn))) + (def-var! "clojure.core" "with-redefs-fn" (letrec ((with-redefs-fn (lambda (binding-map func) (let fnrec4468 ((binding-map binding-map) (func func)) (let* ((vars (jolt-invoke (var-deref "clojure.core" "vec") (jolt-keys binding-map))) (saved (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "var-get") vars))) (begin (begin (jolt-count (jolt-map (lambda (v) (let fnrec4469 ((v v)) (begin (jolt-invoke (var-deref "clojure.core" "var-set") v (jolt-get binding-map v)) jolt-nil))) vars)) jolt-nil) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke func)) (lambda () (let* ((i 0)) (let loop4470 ((i i)) (if (< i (jolt-count vars)) (begin (let* ((_a$4471 (var-deref "clojure.core" "var-set")) (_a$4472 (jolt-nth vars i)) (_a$4473 (jolt-nth saved i))) (jolt-invoke _a$4471 _a$4472 _a$4473)) (loop4470 (jolt-inc i))) jolt-nil))))))))))) with-redefs-fn))) (guard (e (#t #f)) - (def-var! "clojure.core" "chunked-seq?" (letrec ((chunked-seq? (lambda (x) (let fnrec4507 ((x x)) #f)))) chunked-seq?))) + (def-var! "clojure.core" "chunked-seq?" (letrec ((chunked-seq? (lambda (x) (let fnrec4474 ((x x)) #f)))) chunked-seq?))) (guard (e (#t #f)) - (def-var! "clojure.core" "swap-vals!" (letrec ((swap-vals! (lambda (a f . args) (let fnrec4508 ((a a) (f f) (args (list->cseq args))) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((_o$4509 old) (_o$4510 (jolt-apply (var-deref "clojure.core" "swap!") a f args))) (jolt-vector _o$4509 _o$4510))))))) swap-vals!))) + (def-var! "clojure.core" "swap-vals!" (letrec ((swap-vals! (lambda (a f . args) (let fnrec4475 ((a a) (f f) (args (list->cseq args))) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((_o$4476 old) (_o$4477 (jolt-apply (var-deref "clojure.core" "swap!") a f args))) (jolt-vector _o$4476 _o$4477))))))) swap-vals!))) (guard (e (#t #f)) - (def-var! "clojure.core" "reset-vals!" (letrec ((reset-vals! (lambda (a newval) (let fnrec4511 ((a a) (newval newval)) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) (let* ((_o$4512 old) (_o$4513 newval)) (jolt-vector _o$4512 _o$4513)))))))) reset-vals!))) + (def-var! "clojure.core" "reset-vals!" (letrec ((reset-vals! (lambda (a newval) (let fnrec4478 ((a a) (newval newval)) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) (let* ((_o$4479 old) (_o$4480 newval)) (jolt-vector _o$4479 _o$4480)))))))) reset-vals!))) (guard (e (#t #f)) - (def-var! "clojure.core" "compare-and-set!" (letrec ((compare-and-set! (lambda (a oldval newval) (let fnrec4514 ((a a) (oldval oldval) (newval newval)) (if (jolt= oldval (jolt-invoke (var-deref "clojure.core" "deref") a)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) #t) #f))))) compare-and-set!))) + (def-var! "clojure.core" "compare-and-set!" (letrec ((compare-and-set! (lambda (a oldval newval) (let fnrec4481 ((a a) (oldval oldval) (newval newval)) (if (jolt= oldval (jolt-invoke (var-deref "clojure.core" "deref") a)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) #t) #f))))) compare-and-set!))) (guard (e (#t #f)) - (def-var! "clojure.core" "get-validator" (letrec ((get-validator (lambda (a) (let fnrec4515 ((a a)) (jolt-get a (keyword #f "validator")))))) get-validator))) + (def-var! "clojure.core" "get-validator" (letrec ((get-validator (lambda (a) (let fnrec4482 ((a a)) (jolt-get a (keyword #f "validator")))))) get-validator))) (guard (e (#t #f)) - (def-var! "clojure.core" "add-watch" (letrec ((add-watch (lambda (a key f) (let fnrec4516 ((a a) (key key) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key f) a))))) add-watch))) + (def-var! "clojure.core" "add-watch" (letrec ((add-watch (lambda (a key f) (let fnrec4483 ((a a) (key key) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key f) a))))) add-watch))) (guard (e (#t #f)) - (def-var! "clojure.core" "remove-watch" (letrec ((remove-watch (lambda (a key) (let fnrec4517 ((a a) (key key)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key jolt-nil) a))))) remove-watch))) + (def-var! "clojure.core" "remove-watch" (letrec ((remove-watch (lambda (a key) (let fnrec4484 ((a a) (key key)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key jolt-nil) a))))) remove-watch))) (guard (e (#t #f)) - (def-var! "clojure.core" "set-validator!" (letrec ((set-validator! (lambda (a f) (let fnrec4518 ((a a) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") a (keyword #f "validator") f) jolt-nil))))) set-validator!))) + (def-var! "clojure.core" "set-validator!" (letrec ((set-validator! (lambda (a f) (let fnrec4485 ((a a) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") a (keyword #f "validator") f) jolt-nil))))) set-validator!))) (guard (e (#t #f)) - (def-var! "clojure.core" "future-done?" (letrec ((future-done? (lambda (x) (let fnrec4519 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (jolt-throw "future-done? requires a future")))))) future-done?))) + (def-var! "clojure.core" "future-done?" (letrec ((future-done? (lambda (x) (let fnrec4486 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (jolt-throw "future-done? requires a future")))))) future-done?))) (guard (e (#t #f)) - (def-var! "clojure.core" "future-cancelled?" (letrec ((future-cancelled? (lambda (x) (let fnrec4520 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "future?") x))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cancelled"))) and__25__auto)))))) future-cancelled?))) + (def-var! "clojure.core" "future-cancelled?" (letrec ((future-cancelled? (lambda (x) (let fnrec4487 ((x x)) (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "future?") x))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cancelled"))) and__25__auto)))))) future-cancelled?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ns-name" (letrec ((ns-name (lambda (ns) (let fnrec4521 ((ns ns)) (let* ((nm (jolt-get ns (keyword #f "name")))) (if (jolt-truthy? nm) (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") nm)) jolt-nil)))))) ns-name))) + (def-var! "clojure.core" "ns-name" (letrec ((ns-name (lambda (ns) (let fnrec4488 ((ns ns)) (let* ((nm (jolt-get ns (keyword #f "name")))) (if (jolt-truthy? nm) (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") nm)) jolt-nil)))))) ns-name))) (guard (e (#t #f)) - (def-var! "clojure.core" "aget" (letrec ((aget (lambda (arr . idxs) (let fnrec4522 ((arr arr) (idxs (list->cseq idxs))) (jolt-reduce (lambda (v i) (let fnrec4523 ((v v) (i i)) (jolt-nth v i))) arr idxs))))) aget))) + (def-var! "clojure.core" "aget" (letrec ((aget (lambda (arr . idxs) (let fnrec4489 ((arr arr) (idxs (list->cseq idxs))) (jolt-reduce (lambda (v i) (let fnrec4490 ((v v) (i i)) (jolt-nth v i))) arr idxs))))) aget))) (guard (e (#t #f)) - (def-var! "clojure.core" "alength" (letrec ((alength (lambda (arr) (let fnrec4524 ((arr arr)) (jolt-count arr))))) alength))) + (def-var! "clojure.core" "alength" (letrec ((alength (lambda (arr) (let fnrec4491 ((arr arr)) (jolt-count arr))))) alength))) (guard (e (#t #f)) - (def-var! "clojure.core" "aset" (letrec ((aset (lambda (arr . idxs+val) (let fnrec4525 ((arr arr) (idxs+val (list->cseq idxs+val))) (let* ((n (jolt-count idxs+val)) (val (jolt-nth idxs+val (jolt-dec n))) (target (let* ((_a$4527 (lambda (t k) (let fnrec4526 ((t t) (k k)) (jolt-nth t k)))) (_a$4528 arr) (_a$4529 (jolt-take (jolt-n- n 2) idxs+val))) (jolt-reduce _a$4527 _a$4528 _a$4529)))) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") target (jolt-nth idxs+val (jolt-n- n 2)) val) val)))))) aset))) + (def-var! "clojure.core" "aset" (letrec ((aset (lambda (arr . idxs+val) (let fnrec4492 ((arr arr) (idxs+val (list->cseq idxs+val))) (let* ((n (jolt-count idxs+val)) (val (jolt-nth idxs+val (jolt-dec n))) (target (let* ((_a$4494 (lambda (t k) (let fnrec4493 ((t t) (k k)) (jolt-nth t k)))) (_a$4495 arr) (_a$4496 (jolt-take (- n 2) idxs+val))) (jolt-reduce _a$4494 _a$4495 _a$4496)))) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") target (jolt-nth idxs+val (- n 2)) val) val)))))) aset))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "complement" (letrec ((complement (lambda (f) (let fnrec4530 ((f f)) (lambda args (let fnrec4531 ((args (list->cseq args))) (jolt-not (jolt-apply f args)))))))) complement) (let* ((_o$4532 (keyword #f "doc")) (_o$4533 "Takes a fn f and returns a fn that takes the same arguments as f, has the\n same effects, if any, and returns the opposite truth value.")) (jolt-hash-map _o$4532 _o$4533)))) + (def-var-with-meta! "clojure.core" "complement" (letrec ((complement (lambda (f) (let fnrec4497 ((f f)) (lambda args (let fnrec4498 ((args (list->cseq args))) (jolt-not (jolt-apply f args)))))))) complement) (let* ((_o$4499 (keyword #f "doc")) (_o$4500 "Takes a fn f and returns a fn that takes the same arguments as f, has the\n same effects, if any, and returns the opposite truth value.")) (jolt-hash-map _o$4499 _o$4500)))) (guard (e (#t #f)) - (def-var! "clojure.core" "fnil" (letrec ((fnil (case-lambda ((f x) (let fnrec4534 ((f f) (x x)) (lambda (a . args) (let fnrec4535 ((a a) (args (list->cseq args))) (jolt-apply f (if (jolt-nil? a) x a) args))))) ((f x y) (let fnrec4536 ((f f) (x x) (y y)) (lambda (a b . args) (let fnrec4537 ((a a) (b b) (args (list->cseq args))) (let* ((_a$4538 f) (_a$4539 (if (jolt-nil? a) x a)) (_a$4540 (if (jolt-nil? b) y b)) (_a$4541 args)) (jolt-apply _a$4538 _a$4539 _a$4540 _a$4541)))))) ((f x y z) (let fnrec4542 ((f f) (x x) (y y) (z z)) (lambda (a b c . args) (let fnrec4543 ((a a) (b b) (c c) (args (list->cseq args))) (let* ((_a$4544 f) (_a$4545 (if (jolt-nil? a) x a)) (_a$4546 (if (jolt-nil? b) y b)) (_a$4547 (if (jolt-nil? c) z c)) (_a$4548 args)) (jolt-apply _a$4544 _a$4545 _a$4546 _a$4547 _a$4548))))))))) fnil))) + (def-var! "clojure.core" "fnil" (letrec ((fnil (case-lambda ((f x) (let fnrec4501 ((f f) (x x)) (lambda (a . args) (let fnrec4502 ((a a) (args (list->cseq args))) (jolt-apply f (if (jolt-nil? a) x a) args))))) ((f x y) (let fnrec4503 ((f f) (x x) (y y)) (lambda (a b . args) (let fnrec4504 ((a a) (b b) (args (list->cseq args))) (let* ((_a$4505 f) (_a$4506 (if (jolt-nil? a) x a)) (_a$4507 (if (jolt-nil? b) y b)) (_a$4508 args)) (jolt-apply _a$4505 _a$4506 _a$4507 _a$4508)))))) ((f x y z) (let fnrec4509 ((f f) (x x) (y y) (z z)) (lambda (a b c . args) (let fnrec4510 ((a a) (b b) (c c) (args (list->cseq args))) (let* ((_a$4511 f) (_a$4512 (if (jolt-nil? a) x a)) (_a$4513 (if (jolt-nil? b) y b)) (_a$4514 (if (jolt-nil? c) z c)) (_a$4515 args)) (jolt-apply _a$4511 _a$4512 _a$4513 _a$4514 _a$4515))))))))) fnil))) (guard (e (#t #f)) - (def-var! "clojure.core" "clojure-version" (letrec ((clojure-version (lambda () (let fnrec4549 () "1.11.0-jolt")))) clojure-version))) + (def-var! "clojure.core" "clojure-version" (letrec ((clojure-version (lambda () (let fnrec4516 () "1.11.0-jolt")))) clojure-version))) (guard (e (#t #f)) - (def-var! "clojure.core" "supers" (letrec ((supers (lambda (x) (let fnrec4550 ((x x)) (let* ((s (jolt-invoke (var-deref "jolt.host" "class-supers") x))) (if (jolt-truthy? s) (jolt-invoke (var-deref "clojure.core" "set") s) (jolt-hash-set))))))) supers))) + (def-var! "clojure.core" "numerator" (letrec ((numerator (lambda (x) (let fnrec4517 ((x x)) (jolt-throw (jolt-ex-info "numerator requires a ratio (Jolt has no ratios)" (jolt-hash-map))))))) numerator))) (guard (e (#t #f)) - (def-var! "clojure.core" "munge" (letrec ((munge (lambda (s) (let fnrec4551 ((s s)) (let* ((m (jolt-invoke (var-deref "clojure.core" "str-replace-all") "-" "_" (jolt-invoke (var-deref "clojure.core" "str") s)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") s)) (jolt-invoke (var-deref "clojure.core" "symbol") m) m)))))) munge))) + (def-var! "clojure.core" "denominator" (letrec ((denominator (lambda (x) (let fnrec4518 ((x x)) (jolt-throw (jolt-ex-info "denominator requires a ratio (Jolt has no ratios)" (jolt-hash-map))))))) denominator))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "test" (letrec ((test (lambda (v) (let fnrec4552 ((v v)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") v) (keyword #f "test")))) (if (jolt-truthy? t) (begin (jolt-invoke t) (keyword #f "ok")) (keyword #f "no-test"))))))) test) (let* ((_o$4553 (keyword #f "doc")) (_o$4554 "Calls the :test fn from v's metadata; :ok if it runs, :no-test if absent.")) (jolt-hash-map _o$4553 _o$4554)))) + (def-var! "clojure.core" "supers" (letrec ((supers (lambda (x) (let fnrec4519 ((x x)) (let* ((s (jolt-invoke (var-deref "jolt.host" "class-supers") x))) (if (jolt-truthy? s) (jolt-invoke (var-deref "clojure.core" "set") s) (jolt-hash-set))))))) supers))) (guard (e (#t #f)) - (def-var! "clojure.core" "find" (letrec ((find (lambda (m k) (let fnrec4555 ((m m) (k k)) (if (jolt-contains? m k) (jolt-first (let* ((_o$4556 k) (_o$4557 (jolt-get m k))) (jolt-hash-map _o$4556 _o$4557))) jolt-nil))))) find))) + (def-var! "clojure.core" "munge" (letrec ((munge (lambda (s) (let fnrec4520 ((s s)) (let* ((m (jolt-invoke (var-deref "clojure.core" "str-replace-all") "-" "_" (jolt-invoke (var-deref "clojure.core" "str") s)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") s)) (jolt-invoke (var-deref "clojure.core" "symbol") m) m)))))) munge))) (guard (e (#t #f)) - (def-var! "clojure.core" "true?" (letrec ((true? (lambda (x) (let fnrec4558 ((x x)) (jolt= #t x))))) true?))) + (def-var-with-meta! "clojure.core" "test" (letrec ((test (lambda (v) (let fnrec4521 ((v v)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") v) (keyword #f "test")))) (if (jolt-truthy? t) (begin (jolt-invoke t) (keyword #f "ok")) (keyword #f "no-test"))))))) test) (let* ((_o$4522 (keyword #f "doc")) (_o$4523 "Calls the :test fn from v's metadata; :ok if it runs, :no-test if absent.")) (jolt-hash-map _o$4522 _o$4523)))) (guard (e (#t #f)) - (def-var! "clojure.core" "false?" (letrec ((false? (lambda (x) (let fnrec4559 ((x x)) (jolt= #f x))))) false?))) + (def-var! "clojure.core" "find" (letrec ((find (lambda (m k) (let fnrec4524 ((m m) (k k)) (if (jolt-contains? m k) (jolt-first (let* ((_o$4525 k) (_o$4526 (jolt-get m k))) (jolt-hash-map _o$4525 _o$4526))) jolt-nil))))) find))) (guard (e (#t #f)) - (def-var! "clojure.core" "select-keys" (letrec ((select-keys (lambda (map keyseq) (let fnrec4560 ((map map) (keyseq keyseq)) (let* ((_a$4562 (lambda (m k) (let fnrec4561 ((m m) (k k)) (if (jolt-contains? map k) (jolt-assoc m k (jolt-get map k)) m)))) (_a$4563 (jolt-hash-map)) (_a$4564 keyseq)) (jolt-reduce _a$4562 _a$4563 _a$4564)))))) select-keys))) + (def-var! "clojure.core" "true?" (letrec ((true? (lambda (x) (let fnrec4527 ((x x)) (jolt= #t x))))) true?))) (guard (e (#t #f)) - (def-var! "clojure.core" "zipmap" (letrec ((zipmap (lambda (keys vals) (let fnrec4565 ((keys keys) (vals vals)) (let* ((m (jolt-hash-map)) (ks (jolt-seq keys)) (vs (jolt-seq vals))) (let loop4566 ((m m) (ks ks) (vs vs)) (if (jolt-truthy? (let* ((and__25__auto ks)) (if (jolt-truthy? and__25__auto) vs and__25__auto))) (let* ((_a$4570 (let* ((_a$4567 m) (_a$4568 (jolt-first ks)) (_a$4569 (jolt-first vs))) (jolt-assoc _a$4567 _a$4568 _a$4569))) (_a$4571 (jolt-next ks)) (_a$4572 (jolt-next vs))) (loop4566 _a$4570 _a$4571 _a$4572)) m))))))) zipmap))) + (def-var! "clojure.core" "false?" (letrec ((false? (lambda (x) (let fnrec4528 ((x x)) (jolt= #f x))))) false?))) (guard (e (#t #f)) - (def-var! "clojure.core" "create-struct" (letrec ((create-struct (lambda keys (let fnrec4573 ((keys (list->cseq keys))) (jolt-invoke (var-deref "clojure.core" "vec") keys))))) create-struct))) + (def-var! "clojure.core" "select-keys" (letrec ((select-keys (lambda (map keyseq) (let fnrec4529 ((map map) (keyseq keyseq)) (let* ((_a$4531 (lambda (m k) (let fnrec4530 ((m m) (k k)) (if (jolt-contains? map k) (jolt-assoc m k (jolt-get map k)) m)))) (_a$4532 (jolt-hash-map)) (_a$4533 keyseq)) (jolt-reduce _a$4531 _a$4532 _a$4533)))))) select-keys))) (guard (e (#t #f)) - (def-var! "clojure.core" "struct-map" (letrec ((struct-map (lambda (basis . inits) (let fnrec4574 ((basis basis) (inits (list->cseq inits))) (let* ((base (let* ((m (jolt-hash-map)) (ks (jolt-seq basis))) (let loop4575 ((m m) (ks ks)) (if (jolt-truthy? ks) (let* ((_a$4576 (jolt-assoc m (jolt-first ks) jolt-nil)) (_a$4577 (jolt-next ks))) (loop4575 _a$4576 _a$4577)) m))))) (let* ((m base) (kvs (jolt-seq inits))) (let loop4578 ((m m) (kvs kvs)) (if (jolt-truthy? kvs) (let* ((_a$4582 (let* ((_a$4579 m) (_a$4580 (jolt-first kvs)) (_a$4581 (jolt-first (jolt-next kvs)))) (jolt-assoc _a$4579 _a$4580 _a$4581))) (_a$4583 (jolt-next (jolt-next kvs)))) (loop4578 _a$4582 _a$4583)) m)))))))) struct-map))) + (def-var! "clojure.core" "zipmap" (letrec ((zipmap (lambda (keys vals) (let fnrec4534 ((keys keys) (vals vals)) (let* ((m (jolt-hash-map)) (ks (jolt-seq keys)) (vs (jolt-seq vals))) (let loop4535 ((m m) (ks ks) (vs vs)) (if (jolt-truthy? (let* ((and__25__auto ks)) (if (jolt-truthy? and__25__auto) vs and__25__auto))) (let* ((_a$4539 (let* ((_a$4536 m) (_a$4537 (jolt-first ks)) (_a$4538 (jolt-first vs))) (jolt-assoc _a$4536 _a$4537 _a$4538))) (_a$4540 (jolt-next ks)) (_a$4541 (jolt-next vs))) (loop4535 _a$4539 _a$4540 _a$4541)) m))))))) zipmap))) (guard (e (#t #f)) - (def-var! "clojure.core" "struct" (letrec ((struct (lambda (basis . vals) (let fnrec4584 ((basis basis) (vals (list->cseq vals))) (let* ((m (jolt-invoke (var-deref "clojure.core" "struct-map") basis)) (ks (jolt-seq basis)) (vs (jolt-seq vals))) (let loop4585 ((m m) (ks ks) (vs vs)) (if (jolt-truthy? (let* ((and__25__auto ks)) (if (jolt-truthy? and__25__auto) vs and__25__auto))) (let* ((_a$4589 (let* ((_a$4586 m) (_a$4587 (jolt-first ks)) (_a$4588 (jolt-first vs))) (jolt-assoc _a$4586 _a$4587 _a$4588))) (_a$4590 (jolt-next ks)) (_a$4591 (jolt-next vs))) (loop4585 _a$4589 _a$4590 _a$4591)) m))))))) struct))) + (def-var! "clojure.core" "create-struct" (letrec ((create-struct (lambda keys (let fnrec4542 ((keys (list->cseq keys))) (jolt-invoke (var-deref "clojure.core" "vec") keys))))) create-struct))) (guard (e (#t #f)) - (def-var! "clojure.core" "accessor" (letrec ((accessor (lambda (basis key) (let fnrec4592 ((basis basis) (key key)) (lambda (m) (let fnrec4593 ((m m)) (jolt-get m key))))))) accessor))) + (def-var! "clojure.core" "struct-map" (letrec ((struct-map (lambda (basis . inits) (let fnrec4543 ((basis basis) (inits (list->cseq inits))) (let* ((base (let* ((m (jolt-hash-map)) (ks (jolt-seq basis))) (let loop4544 ((m m) (ks ks)) (if (jolt-truthy? ks) (let* ((_a$4545 (jolt-assoc m (jolt-first ks) jolt-nil)) (_a$4546 (jolt-next ks))) (loop4544 _a$4545 _a$4546)) m))))) (let* ((m base) (kvs (jolt-seq inits))) (let loop4547 ((m m) (kvs kvs)) (if (jolt-truthy? kvs) (let* ((_a$4551 (let* ((_a$4548 m) (_a$4549 (jolt-first kvs)) (_a$4550 (jolt-first (jolt-next kvs)))) (jolt-assoc _a$4548 _a$4549 _a$4550))) (_a$4552 (jolt-next (jolt-next kvs)))) (loop4547 _a$4551 _a$4552)) m)))))))) struct-map))) (guard (e (#t #f)) - (def-var! "clojure.core" "merge" (letrec ((merge (lambda maps (let fnrec4594 ((maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (jolt-reduce (lambda (acc m) (let fnrec4595 ((acc acc) (m m)) (if (jolt-nil? m) acc (jolt-conj (let* ((or__26__auto acc)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map))) m)))) maps) jolt-nil))))) merge))) + (def-var! "clojure.core" "struct" (letrec ((struct (lambda (basis . vals) (let fnrec4553 ((basis basis) (vals (list->cseq vals))) (let* ((m (jolt-invoke (var-deref "clojure.core" "struct-map") basis)) (ks (jolt-seq basis)) (vs (jolt-seq vals))) (let loop4554 ((m m) (ks ks) (vs vs)) (if (jolt-truthy? (let* ((and__25__auto ks)) (if (jolt-truthy? and__25__auto) vs and__25__auto))) (let* ((_a$4558 (let* ((_a$4555 m) (_a$4556 (jolt-first ks)) (_a$4557 (jolt-first vs))) (jolt-assoc _a$4555 _a$4556 _a$4557))) (_a$4559 (jolt-next ks)) (_a$4560 (jolt-next vs))) (loop4554 _a$4558 _a$4559 _a$4560)) m))))))) struct))) (guard (e (#t #f)) - (def-var! "clojure.core" "merge-with" (letrec ((merge-with (lambda (f . maps) (let fnrec4596 ((f f) (maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (let* ((merge-entry (lambda (m e) (let fnrec4597 ((m m) (e e)) (let* ((k (jolt-invoke (var-deref "clojure.core" "key") e)) (v (jolt-invoke (var-deref "clojure.core" "val") e))) (if (jolt-contains? m k) (jolt-assoc m k (jolt-invoke f (jolt-get m k) v)) (jolt-assoc m k v)))))) (merge2 (lambda (m1 m2) (let fnrec4598 ((m1 m1) (m2 m2)) (let* ((_a$4599 merge-entry) (_a$4600 (let* ((or__26__auto m1)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))) (_a$4601 (jolt-seq m2))) (jolt-reduce _a$4599 _a$4600 _a$4601)))))) (jolt-reduce merge2 maps)) jolt-nil))))) merge-with))) + (def-var! "clojure.core" "accessor" (letrec ((accessor (lambda (basis key) (let fnrec4561 ((basis basis) (key key)) (lambda (m) (let fnrec4562 ((m m)) (jolt-get m key))))))) accessor))) (guard (e (#t #f)) - (def-var! "clojure.core" "get-in" (letrec ((get-in (case-lambda ((m ks) (let fnrec4602 ((m m) (ks ks)) (jolt-reduce jolt-get m ks))) ((m ks not-found) (let fnrec4603 ((m m) (ks ks) (not-found not-found)) (let* ((sentinel (jolt-hash-map-fn ))) (let* ((m m) (ks (jolt-seq ks))) (let loop4604 ((m m) (ks ks)) (if (jolt-truthy? ks) (let* ((nxt (jolt-get m (jolt-first ks) sentinel))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "identical?") sentinel nxt)) not-found (loop4604 nxt (jolt-next ks)))) m))))))))) get-in))) + (def-var! "clojure.core" "merge" (letrec ((merge (lambda maps (let fnrec4563 ((maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (jolt-reduce (lambda (acc m) (let fnrec4564 ((acc acc) (m m)) (if (jolt-nil? m) acc (jolt-conj (let* ((or__26__auto acc)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map))) m)))) maps) jolt-nil))))) merge))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "req!" (letrec ((req! (lambda (m k) (let fnrec4605 ((m m) (k k)) (let* ((sentinel (jolt-hash-map-fn )) (v (jolt-get m k sentinel))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "identical?") sentinel v)) (jolt-throw (host-new "IllegalArgumentException" (jolt-invoke (var-deref "clojure.core" "str") "Expected key: " k))) v)))))) req!) (let* ((_o$4606 (keyword #f "added")) (_o$4607 "1.13") (_o$4608 (keyword #f "doc")) (_o$4609 "Returns the value mapped to key k in map m, like `get`, but throws\n IllegalArgumentException when k is not present. Unlike `get`, does not nil-pun:\n a key present with a nil value returns nil, an absent key throws. The primitive\n behind checked-keys destructuring (:keys! / :syms! / :strs!).")) (jolt-hash-map _o$4606 _o$4607 _o$4608 _o$4609)))) + (def-var! "clojure.core" "merge-with" (letrec ((merge-with (lambda (f . maps) (let fnrec4565 ((f f) (maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (let* ((merge-entry (lambda (m e) (let fnrec4566 ((m m) (e e)) (let* ((k (jolt-invoke (var-deref "clojure.core" "key") e)) (v (jolt-invoke (var-deref "clojure.core" "val") e))) (if (jolt-contains? m k) (jolt-assoc m k (jolt-invoke f (jolt-get m k) v)) (jolt-assoc m k v)))))) (merge2 (lambda (m1 m2) (let fnrec4567 ((m1 m1) (m2 m2)) (let* ((_a$4568 merge-entry) (_a$4569 (let* ((or__26__auto m1)) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-hash-map)))) (_a$4570 (jolt-seq m2))) (jolt-reduce _a$4568 _a$4569 _a$4570)))))) (jolt-reduce merge2 maps)) jolt-nil))))) merge-with))) (guard (e (#t #f)) - (def-var! "clojure.core" "memoize" (letrec ((memoize (lambda (f) (let fnrec4610 ((f f)) (let* ((mem (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map-fn )))) (lambda args (let fnrec4611 ((args (list->cseq args))) (let* ((e (jolt-invoke (var-deref "clojure.core" "find") (jolt-invoke (var-deref "clojure.core" "deref") mem) args))) (if (jolt-truthy? e) (jolt-invoke (var-deref "clojure.core" "val") e) (let* ((ret (jolt-apply f args))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") mem jolt-assoc args ret) ret))))))))))) memoize))) + (def-var! "clojure.core" "get-in" (letrec ((get-in (case-lambda ((m ks) (let fnrec4571 ((m m) (ks ks)) (jolt-reduce jolt-get m ks))) ((m ks not-found) (let fnrec4572 ((m m) (ks ks) (not-found not-found)) (let* ((sentinel (jolt-hash-map-fn ))) (let* ((m m) (ks (jolt-seq ks))) (let loop4573 ((m m) (ks ks)) (if (jolt-truthy? ks) (let* ((nxt (jolt-get m (jolt-first ks) sentinel))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "identical?") sentinel nxt)) not-found (loop4573 nxt (jolt-next ks)))) m))))))))) get-in))) (guard (e (#t #f)) - (def-var! "clojure.core" "partial" (letrec ((partial (case-lambda ((f) (let fnrec4612 ((f f)) f)) ((f a) (let fnrec4613 ((f f) (a a)) (lambda args (let fnrec4614 ((args (list->cseq args))) (jolt-apply f a args))))) ((f a b) (let fnrec4615 ((f f) (a a) (b b)) (lambda args (let fnrec4616 ((args (list->cseq args))) (jolt-apply f a b args))))) ((f a b c) (let fnrec4617 ((f f) (a a) (b b) (c c)) (lambda args (let fnrec4618 ((args (list->cseq args))) (jolt-apply f a b c args))))) ((f a b c . more) (let fnrec4619 ((f f) (a a) (b b) (c c) (more (list->cseq more))) (lambda args (let fnrec4620 ((args (list->cseq args))) (jolt-apply f a b c (jolt-concat more args))))))))) partial))) + (def-var! "clojure.core" "memoize" (letrec ((memoize (lambda (f) (let fnrec4574 ((f f)) (let* ((mem (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map-fn )))) (lambda args (let fnrec4575 ((args (list->cseq args))) (let* ((e (jolt-invoke (var-deref "clojure.core" "find") (jolt-invoke (var-deref "clojure.core" "deref") mem) args))) (if (jolt-truthy? e) (jolt-invoke (var-deref "clojure.core" "val") e) (let* ((ret (jolt-apply f args))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") mem jolt-assoc args ret) ret))))))))))) memoize))) (guard (e (#t #f)) - (def-var! "clojure.core" "trampoline" (letrec ((trampoline (case-lambda ((f) (let fnrec4621 ((f f)) (let* ((ret (jolt-invoke f))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "fn?") ret)) (trampoline ret) ret)))) ((f . args) (let fnrec4622 ((f f) (args (list->cseq args))) (trampoline (lambda () (let fnrec4623 () (jolt-apply f args))))))))) trampoline))) + (def-var! "clojure.core" "partial" (letrec ((partial (case-lambda ((f) (let fnrec4576 ((f f)) f)) ((f a) (let fnrec4577 ((f f) (a a)) (lambda args (let fnrec4578 ((args (list->cseq args))) (jolt-apply f a args))))) ((f a b) (let fnrec4579 ((f f) (a a) (b b)) (lambda args (let fnrec4580 ((args (list->cseq args))) (jolt-apply f a b args))))) ((f a b c) (let fnrec4581 ((f f) (a a) (b b) (c c)) (lambda args (let fnrec4582 ((args (list->cseq args))) (jolt-apply f a b c args))))) ((f a b c . more) (let fnrec4583 ((f f) (a a) (b b) (c c) (more (list->cseq more))) (lambda args (let fnrec4584 ((args (list->cseq args))) (jolt-apply f a b c (jolt-concat more args))))))))) partial))) (guard (e (#t #f)) - (def-var! "clojure.core" "max" (letrec ((max (case-lambda ((x) (let fnrec4624 ((x x)) x)) ((x y) (let fnrec4625 ((x x) (y y)) (if (jolt-n> x y) x y))) ((x y . more) (let fnrec4626 ((x x) (y y) (more (list->cseq more))) (jolt-reduce max (max x y) more)))))) max))) + (def-var! "clojure.core" "trampoline" (letrec ((trampoline (case-lambda ((f) (let fnrec4585 ((f f)) (let* ((ret (jolt-invoke f))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "fn?") ret)) (trampoline ret) ret)))) ((f . args) (let fnrec4586 ((f f) (args (list->cseq args))) (trampoline (lambda () (let fnrec4587 () (jolt-apply f args))))))))) trampoline))) (guard (e (#t #f)) - (def-var! "clojure.core" "min" (letrec ((min (case-lambda ((x) (let fnrec4627 ((x x)) x)) ((x y) (let fnrec4628 ((x x) (y y)) (if (jolt-n< x y) x y))) ((x y . more) (let fnrec4629 ((x x) (y y) (more (list->cseq more))) (jolt-reduce min (min x y) more)))))) min))) + (def-var! "clojure.core" "max" (letrec ((_max (case-lambda ((x) (let fnrec4588 ((x x)) x)) ((x y) (let fnrec4589 ((x x) (y y)) (if (> x y) x y))) ((x y . more) (let fnrec4590 ((x x) (y y) (more (list->cseq more))) (jolt-reduce _max (_max x y) more)))))) _max))) (guard (e (#t #f)) - (def-var! "clojure.core" "reverse" (letrec ((reverse (lambda (coll) (let fnrec4630 ((coll coll)) (jolt-reduce jolt-conj (jolt-list ) coll))))) reverse))) + (def-var! "clojure.core" "min" (letrec ((_min (case-lambda ((x) (let fnrec4591 ((x x)) x)) ((x y) (let fnrec4592 ((x x) (y y)) (if (< x y) x y))) ((x y . more) (let fnrec4593 ((x x) (y y) (more (list->cseq more))) (jolt-reduce _min (_min x y) more)))))) _min))) (guard (e (#t #f)) - (def-var! "clojure.core" "empty" (letrec ((empty (lambda (coll) (let fnrec4631 ((coll coll)) (if (jolt-nil? coll) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "jrec-method?") coll "empty")) (record-method-dispatch coll "empty" (jolt-vector)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "record?") coll)) (jolt-throw (host-new "UnsupportedOperationException" (jolt-invoke (var-deref "clojure.core" "str") "Can't create empty: " (record-method-dispatch (jolt-invoke (var-deref "clojure.core" "class") coll) "getName" (jolt-vector))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted?") coll)) (jolt-invoke (jolt-get (jolt-invoke (var-deref "jolt.host" "ref-get") coll (keyword #f "ops")) (keyword #f "empty")) coll) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (let* ((_a$4632 (var-deref "clojure.core" "with-meta")) (_a$4633 (jolt-hash-map)) (_a$4634 (jolt-invoke (var-deref "clojure.core" "meta") coll))) (jolt-invoke _a$4632 _a$4633 _a$4634)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (let* ((_a$4635 (var-deref "clojure.core" "with-meta")) (_a$4636 (jolt-hash-set)) (_a$4637 (jolt-invoke (var-deref "clojure.core" "meta") coll))) (jolt-invoke _a$4635 _a$4636 _a$4637)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (let* ((_a$4638 (var-deref "clojure.core" "with-meta")) (_a$4639 (jolt-vector)) (_a$4640 (jolt-invoke (var-deref "clojure.core" "meta") coll))) (jolt-invoke _a$4638 _a$4639 _a$4640)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-invoke (var-deref "clojure.core" "with-meta") (jolt-list ) (jolt-invoke (var-deref "clojure.core" "meta") coll)) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))))))) empty))) + (def-var! "clojure.core" "reverse" (letrec ((reverse (lambda (coll) (let fnrec4594 ((coll coll)) (jolt-reduce jolt-conj (jolt-list ) coll))))) reverse))) (guard (e (#t #f)) - (def-var! "clojure.core" "assoc-in" (letrec ((assoc-in (lambda (m G__133 v) (let fnrec4641 ((m m) (G__133 G__133) (v v)) (let* ((G__134 G__133) (k (jolt-nth G__134 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__134 1))) (if (jolt-truthy? ks) (jolt-assoc m k (assoc-in (jolt-get m k) ks v)) (jolt-assoc m k v))))))) assoc-in))) + (def-var! "clojure.core" "empty" (letrec ((empty (lambda (coll) (let fnrec4595 ((coll coll)) (if (jolt-nil? coll) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "jrec-method?") coll "empty")) (record-method-dispatch coll "empty" (jolt-vector)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted?") coll)) (jolt-invoke (jolt-get (jolt-invoke (var-deref "jolt.host" "ref-get") coll (keyword #f "ops")) (keyword #f "empty")) coll) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (let* ((_a$4596 (var-deref "clojure.core" "with-meta")) (_a$4597 (jolt-hash-map)) (_a$4598 (jolt-invoke (var-deref "clojure.core" "meta") coll))) (jolt-invoke _a$4596 _a$4597 _a$4598)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (let* ((_a$4599 (var-deref "clojure.core" "with-meta")) (_a$4600 (jolt-hash-set)) (_a$4601 (jolt-invoke (var-deref "clojure.core" "meta") coll))) (jolt-invoke _a$4599 _a$4600 _a$4601)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (let* ((_a$4602 (var-deref "clojure.core" "with-meta")) (_a$4603 (jolt-vector)) (_a$4604 (jolt-invoke (var-deref "clojure.core" "meta") coll))) (jolt-invoke _a$4602 _a$4603 _a$4604)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-invoke (var-deref "clojure.core" "with-meta") (jolt-list ) (jolt-invoke (var-deref "clojure.core" "meta") coll)) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))))))))) empty))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-in" (letrec ((update-in (lambda (m ks f . args) (let fnrec4642 ((m m) (ks ks) (f f) (args (list->cseq args))) (let* ((up (letrec ((up (lambda (m ks f args) (let fnrec4643 ((m m) (ks ks) (f f) (args args)) (let* ((G__135 ks) (k (jolt-nth G__135 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__135 1))) (if (jolt-truthy? ks) (jolt-assoc m k (up (jolt-get m k) ks f args)) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))))) up))) (jolt-invoke up m ks f args)))))) update-in))) + (def-var! "clojure.core" "assoc-in" (letrec ((assoc-in (lambda (m G__130 v) (let fnrec4605 ((m m) (G__130 G__130) (v v)) (let* ((G__131 G__130) (k (jolt-nth G__131 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__131 1))) (if (jolt-truthy? ks) (jolt-assoc m k (assoc-in (jolt-get m k) ks v)) (jolt-assoc m k v))))))) assoc-in))) (guard (e (#t #f)) - (def-var! "clojure.core" "find-keyword" (letrec ((find-keyword (case-lambda ((nm) (let fnrec4644 ((nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") nm))) ((ns nm) (let fnrec4645 ((ns ns) (nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") ns nm)))))) find-keyword))) + (def-var! "clojure.core" "update-in" (letrec ((update-in (lambda (m ks f . args) (let fnrec4606 ((m m) (ks ks) (f f) (args (list->cseq args))) (let* ((up (letrec ((up (lambda (m ks f args) (let fnrec4607 ((m m) (ks ks) (f f) (args args)) (let* ((G__132 ks) (k (jolt-nth G__132 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__132 1))) (if (jolt-truthy? ks) (jolt-assoc m k (up (jolt-get m k) ks f args)) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))))) up))) (jolt-invoke up m ks f args)))))) update-in))) (guard (e (#t #f)) - (def-var! "clojure.core" "inst-ms*" (letrec ((inst-ms* (lambda (i) (let fnrec4646 ((i i)) (jolt-invoke (var-deref "clojure.core" "inst-ms") i))))) inst-ms*))) + (def-var! "clojure.core" "find-keyword" (letrec ((find-keyword (case-lambda ((nm) (let fnrec4608 ((nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") nm))) ((ns nm) (let fnrec4609 ((ns ns) (nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") ns nm)))))) find-keyword))) (guard (e (#t #f)) - (def-var! "clojure.core" "comp" (letrec ((comp (case-lambda (() (let fnrec4647 () jolt-identity)) ((f) (let fnrec4648 ((f f)) f)) ((f g) (let fnrec4649 ((f f) (g g)) (case-lambda (() (let fnrec4650 () (jolt-invoke f (jolt-invoke g)))) ((x) (let fnrec4651 ((x x)) (jolt-invoke f (jolt-invoke g x)))) ((x y) (let fnrec4652 ((x x) (y y)) (jolt-invoke f (jolt-invoke g x y)))) ((x y z) (let fnrec4653 ((x x) (y y) (z z)) (jolt-invoke f (jolt-invoke g x y z)))) ((x y z . args) (let fnrec4654 ((x x) (y y) (z z) (args (list->cseq args))) (jolt-invoke f (jolt-apply g x y z args))))))) ((f g . fs) (let fnrec4655 ((f f) (g g) (fs (list->cseq fs))) (jolt-reduce comp (comp f g) fs)))))) comp))) + (def-var! "clojure.core" "inst-ms*" (letrec ((inst-ms* (lambda (i) (let fnrec4610 ((i i)) (jolt-invoke (var-deref "clojure.core" "inst-ms") i))))) inst-ms*))) (guard (e (#t #f)) - (def-var! "clojure.core" "ifn?" (letrec ((ifn? (lambda (x) (let fnrec4656 ((x x)) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "fn?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "var?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "jolt.host" "callable-host?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "jolt.host" "jrec-method?") x "invoke")))))))))))))))))) #t #f))))) ifn?))) + (def-var! "clojure.core" "comp" (letrec ((comp (case-lambda (() (let fnrec4611 () jolt-identity)) ((f) (let fnrec4612 ((f f)) f)) ((f g) (let fnrec4613 ((f f) (g g)) (case-lambda (() (let fnrec4614 () (jolt-invoke f (jolt-invoke g)))) ((x) (let fnrec4615 ((x x)) (jolt-invoke f (jolt-invoke g x)))) ((x y) (let fnrec4616 ((x x) (y y)) (jolt-invoke f (jolt-invoke g x y)))) ((x y z) (let fnrec4617 ((x x) (y y) (z z)) (jolt-invoke f (jolt-invoke g x y z)))) ((x y z . args) (let fnrec4618 ((x x) (y y) (z z) (args (list->cseq args))) (jolt-invoke f (jolt-apply g x y z args))))))) ((f g . fs) (let fnrec4619 ((f f) (g g) (fs (list->cseq fs))) (jolt-reduce comp (comp f g) fs)))))) comp))) +(guard (e (#t #f)) + (def-var! "clojure.core" "ifn?" (letrec ((ifn? (lambda (x) (let fnrec4620 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "fn?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "var?") x))))))))))))))))) ifn?))) (guard (e (#t #f)) (def-var! "clojure.core" "+'" jolt-add)) (guard (e (#t #f)) @@ -517,533 +515,533 @@ (guard (e (#t #f)) (def-var! "clojure.core" "dec'" jolt-dec)) (guard (e (#t #f)) - (def-var! "clojure.core" "int?" (letrec ((int? (lambda (x) (let fnrec4657 ((x x)) (jolt-invoke (var-deref "clojure.core" "integer?") x))))) int?))) + (def-var! "clojure.core" "unchecked-int" (letrec ((unchecked-int (lambda (x) (let fnrec4621 ((x x)) (jolt-invoke (var-deref "clojure.core" "int") x))))) unchecked-int))) (guard (e (#t #f)) - (def-var! "clojure.core" "num" (letrec ((num (lambda (x) (let fnrec4658 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) x (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "num requires a number, got: " x))))))) num))) + (def-var! "clojure.core" "unchecked-long" (var-deref "clojure.core" "unchecked-int"))) (guard (e (#t #f)) - (def-var! "clojure.core" "==" (letrec ((== (case-lambda ((x) (let fnrec4659 ((x x)) #t)) ((x y) (let fnrec4660 ((x x) (y y)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "number?") y) and__25__auto))) (jolt= x y) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cannot cast to number: " (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) y x)))))) ((x y . more) (let fnrec4661 ((x x) (y y) (more (list->cseq more))) (if (jolt-truthy? (== x y)) (jolt-apply == y more) #f)))))) ==))) + (def-var! "clojure.core" "int?" (letrec ((int? (lambda (x) (let fnrec4622 ((x x)) (jolt-invoke (var-deref "clojure.core" "integer?") x))))) int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ensure-reduced" (letrec ((ensure-reduced (lambda (x) (let fnrec4662 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) x (jolt-invoke (var-deref "clojure.core" "reduced") x)))))) ensure-reduced))) + (def-var! "clojure.core" "num" (letrec ((num (lambda (x) (let fnrec4623 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) x (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "num requires a number, got: " x))))))) num))) (guard (e (#t #f)) - (def-var! "clojure.core" "halt-when" (letrec ((halt-when (case-lambda ((pred) (let fnrec4663 ((pred pred)) (halt-when pred jolt-nil))) ((pred retf) (let fnrec4664 ((pred pred) (retf retf)) (lambda (rf) (let fnrec4665 ((rf rf)) (case-lambda (() (let fnrec4666 () (jolt-invoke rf))) ((result) (let fnrec4667 ((result result)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") result))) (if (jolt-truthy? and__25__auto) (jolt-contains? result (keyword "clojure.core" "halt")) and__25__auto))) (jolt-get result (keyword "clojure.core" "halt")) (jolt-invoke rf result)))) ((result input) (let fnrec4668 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke pred input)) (jolt-invoke (var-deref "clojure.core" "reduced") (jolt-hash-map-fn (keyword "clojure.core" "halt") (if (jolt-truthy? retf) (jolt-invoke retf (jolt-invoke rf result) input) input))) (jolt-invoke rf result input)))))))))))) halt-when))) + (def-var! "clojure.core" "==" (letrec ((== (case-lambda ((x) (let fnrec4624 ((x x)) #t)) ((x y) (let fnrec4625 ((x x) (y y)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "number?") y) and__25__auto))) (jolt= x y) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cannot cast to number: " (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) y x)))))) ((x y . more) (let fnrec4626 ((x x) (y y) (more (list->cseq more))) (if (jolt-truthy? (== x y)) (jolt-apply == y more) #f)))))) ==))) (guard (e (#t #f)) - (def-var! "clojure.core" "parse-boolean" (letrec ((parse-boolean (lambda (s) (let fnrec4669 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt= s "true") #t (if (jolt= s "false") #f (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-boolean requires a string, got: " s))))))) parse-boolean))) + (def-var! "clojure.core" "ensure-reduced" (letrec ((ensure-reduced (lambda (x) (let fnrec4627 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) x (jolt-invoke (var-deref "clojure.core" "reduced") x)))))) ensure-reduced))) (guard (e (#t #f)) - (def-var! "clojure.core" "newline" (letrec ((newline (lambda () (let fnrec4670 () (begin (jolt-invoke (var-deref "clojure.core" "print") "\n") jolt-nil))))) newline))) + (def-var! "clojure.core" "halt-when" (letrec ((halt-when (case-lambda ((pred) (let fnrec4628 ((pred pred)) (halt-when pred jolt-nil))) ((pred retf) (let fnrec4629 ((pred pred) (retf retf)) (lambda (rf) (let fnrec4630 ((rf rf)) (case-lambda (() (let fnrec4631 () (jolt-invoke rf))) ((result) (let fnrec4632 ((result result)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") result))) (if (jolt-truthy? and__25__auto) (jolt-contains? result (keyword "clojure.core" "halt")) and__25__auto))) (jolt-get result (keyword "clojure.core" "halt")) (jolt-invoke rf result)))) ((result input) (let fnrec4633 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke pred input)) (jolt-invoke (var-deref "clojure.core" "reduced") (jolt-hash-map-fn (keyword "clojure.core" "halt") (if (jolt-truthy? retf) (jolt-invoke retf (jolt-invoke rf result) input) input))) (jolt-invoke rf result input)))))))))))) halt-when))) (guard (e (#t #f)) - (def-var! "clojure.core" "seque" (letrec ((seque (case-lambda ((s) (let fnrec4671 ((s s)) s)) ((n-or-q s) (let fnrec4672 ((n-or-q n-or-q) (s s)) s))))) seque))) + (def-var! "clojure.core" "parse-boolean" (letrec ((parse-boolean (lambda (s) (let fnrec4634 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt= s "true") #t (if (jolt= s "false") #f (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-boolean requires a string, got: " s))))))) parse-boolean))) (guard (e (#t #f)) - (def-var! "clojure.core" "array-seq" (letrec ((array-seq (lambda (arr . _) (let fnrec4673 ((arr arr) (_ (list->cseq _))) (jolt-seq arr))))) array-seq))) + (def-var! "clojure.core" "newline" (letrec ((newline (lambda () (let fnrec4635 () (begin (jolt-invoke (var-deref "clojure.core" "print") "\n") jolt-nil))))) newline))) (guard (e (#t #f)) - (def-var! "clojure.core" "to-array-2d" (letrec ((to-array-2d (lambda (coll) (let fnrec4674 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "to-array") (jolt-map (var-deref "clojure.core" "to-array") coll)))))) to-array-2d))) + (def-var! "clojure.core" "seque" (letrec ((seque (case-lambda ((s) (let fnrec4636 ((s s)) s)) ((n-or-q s) (let fnrec4637 ((n-or-q n-or-q) (s s)) s))))) seque))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-byte" (letrec ((unchecked-byte (lambda (x) (let fnrec4675 ((x x)) (let* ((b (bitwise-and (jolt-invoke (var-deref "clojure.core" "unchecked-long") x) 255))) (if (jolt-n< b 128) b (jolt-n- b 256))))))) unchecked-byte))) + (def-var! "clojure.core" "array-seq" (letrec ((array-seq (lambda (arr . _) (let fnrec4638 ((arr arr) (_ (list->cseq _))) (jolt-seq arr))))) array-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-short" (letrec ((unchecked-short (lambda (x) (let fnrec4676 ((x x)) (let* ((s (bitwise-and (jolt-invoke (var-deref "clojure.core" "unchecked-long") x) 65535))) (if (jolt-n< s 32768) s (jolt-n- s 65536))))))) unchecked-short))) + (def-var! "clojure.core" "to-array-2d" (letrec ((to-array-2d (lambda (coll) (let fnrec4639 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "to-array") (jolt-map (var-deref "clojure.core" "to-array") coll)))))) to-array-2d))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-char" (letrec ((unchecked-char (lambda (x) (let fnrec4677 ((x x)) (jolt-invoke (var-deref "clojure.core" "char") (bitwise-and (jolt-invoke (var-deref "clojure.core" "unchecked-long") x) 65535)))))) unchecked-char))) + (def-var! "clojure.core" "unchecked-byte" (letrec ((unchecked-byte (lambda (x) (let fnrec4640 ((x x)) (bitwise-and (jolt-invoke (var-deref "clojure.core" "int") x) 255))))) unchecked-byte))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-float" (letrec ((unchecked-float (lambda (x) (let fnrec4678 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-float))) + (def-var! "clojure.core" "unchecked-short" (letrec ((unchecked-short (lambda (x) (let fnrec4641 ((x x)) (bitwise-and (jolt-invoke (var-deref "clojure.core" "int") x) 65535))))) unchecked-short))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-double" (letrec ((unchecked-double (lambda (x) (let fnrec4679 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-double))) + (def-var! "clojure.core" "unchecked-char" (letrec ((unchecked-char (lambda (x) (let fnrec4642 ((x x)) (jolt-invoke (var-deref "clojure.core" "char") (bitwise-and (jolt-invoke (var-deref "clojure.core" "int") x) 65535)))))) unchecked-char))) (guard (e (#t #f)) - (def-var! "clojure.core" "transduce" (letrec ((transduce (case-lambda ((xform f coll) (let fnrec4680 ((xform xform) (f f) (coll coll)) (transduce xform f (jolt-invoke f) coll))) ((xform f init coll) (let fnrec4681 ((xform xform) (f f) (init init) (coll coll)) (let* ((xf (jolt-invoke xform f))) (jolt-invoke xf (jolt-reduce xf init coll)))))))) transduce))) + (def-var! "clojure.core" "unchecked-float" (letrec ((unchecked-float (lambda (x) (let fnrec4643 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-float))) (guard (e (#t #f)) - (def-var! "clojure.core" "eduction" (letrec ((eduction (lambda args (let fnrec4682 ((args (list->cseq args))) (let* ((coll (jolt-last args)) (xforms (jolt-invoke (var-deref "clojure.core" "butlast") args))) (if (jolt-truthy? xforms) (jolt-invoke (var-deref "clojure.core" "sequence") (jolt-apply (var-deref "clojure.core" "comp") xforms) coll) (jolt-invoke (var-deref "clojure.core" "sequence") coll))))))) eduction))) + (def-var! "clojure.core" "unchecked-double" (letrec ((unchecked-double (lambda (x) (let fnrec4644 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-double))) (guard (e (#t #f)) - (def-var! "clojure.core" "->Eduction" (letrec ((->Eduction (lambda (xform coll) (let fnrec4683 ((xform xform) (coll coll)) (jolt-invoke (var-deref "clojure.core" "sequence") xform coll))))) ->Eduction))) + (def-var! "clojure.core" "transduce" (letrec ((transduce (case-lambda ((xform f coll) (let fnrec4645 ((xform xform) (f f) (coll coll)) (transduce xform f (jolt-invoke f) coll))) ((xform f init coll) (let fnrec4646 ((xform xform) (f f) (init init) (coll coll)) (let* ((xf (jolt-invoke xform f))) (jolt-invoke xf (jolt-reduce xf init coll)))))))) transduce))) (guard (e (#t #f)) - (def-var! "clojure.core" "enumeration-seq" (letrec ((enumeration-seq (lambda (e) (let fnrec4684 ((e e)) (if (jolt-truthy? (let* ((or__26__auto (jolt-nil? e))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "seq?") e))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "sequential?") e)))))) (jolt-seq e) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec4685 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (record-method-dispatch e "hasMoreElements" (jolt-vector))) (let* ((_a$4686 (record-method-dispatch e "nextElement" (jolt-vector))) (_a$4687 (enumeration-seq e))) (jolt-cons _a$4686 _a$4687)) jolt-nil)))))))))) enumeration-seq))) + (def-var! "clojure.core" "eduction" (letrec ((eduction (lambda args (let fnrec4647 ((args (list->cseq args))) (let* ((coll (jolt-last args)) (xforms (jolt-invoke (var-deref "clojure.core" "butlast") args))) (if (jolt-truthy? xforms) (jolt-invoke (var-deref "clojure.core" "sequence") (jolt-apply (var-deref "clojure.core" "comp") xforms) coll) (jolt-invoke (var-deref "clojure.core" "sequence") coll))))))) eduction))) (guard (e (#t #f)) - (def-var! "clojure.core" "iterator-seq" (letrec ((iterator-seq (lambda (i) (let fnrec4688 ((i i)) (jolt-seq i))))) iterator-seq))) + (def-var! "clojure.core" "->Eduction" (letrec ((->Eduction (lambda (xform coll) (let fnrec4648 ((xform xform) (coll coll)) (jolt-invoke (var-deref "clojure.core" "sequence") xform coll))))) ->Eduction))) (guard (e (#t #f)) - (def-var! "clojure.core" "promise" (letrec ((promise (lambda () (let fnrec4689 () (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))))) promise))) + (def-var! "clojure.core" "enumeration-seq" (letrec ((enumeration-seq (lambda (e) (let fnrec4649 ((e e)) (jolt-seq e))))) enumeration-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "deliver" (letrec ((deliver (lambda (p v) (let fnrec4690 ((p p) (v v)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") p v) p))))) deliver))) + (def-var! "clojure.core" "iterator-seq" (letrec ((iterator-seq (lambda (i) (let fnrec4650 ((i i)) (jolt-seq i))))) iterator-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "bean" (letrec ((bean (lambda (x) (let fnrec4691 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) x (jolt-hash-map)))))) bean))) + (def-var! "clojure.core" "promise" (letrec ((promise (lambda () (let fnrec4651 () (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))))) promise))) (guard (e (#t #f)) - (def-var! "clojure.core" "uri?" (letrec ((uri? (lambda (x) (let fnrec4692 ((x x)) #f)))) uri?))) + (def-var! "clojure.core" "deliver" (letrec ((deliver (lambda (p v) (let fnrec4652 ((p p) (v v)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") p v) p))))) deliver))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "special-syms" (let* ((_o$4693 (jolt-symbol #f "if")) (_o$4694 (jolt-symbol #f "do")) (_o$4695 (jolt-symbol #f "let*")) (_o$4696 (jolt-symbol #f "fn*")) (_o$4697 (jolt-symbol #f "quote")) (_o$4698 (jolt-symbol #f "var")) (_o$4699 (jolt-symbol #f "def")) (_o$4700 (jolt-symbol #f "loop*")) (_o$4701 (jolt-symbol #f "recur")) (_o$4702 (jolt-symbol #f "throw")) (_o$4703 (jolt-symbol #f "try")) (_o$4704 (jolt-symbol #f "catch")) (_o$4705 (jolt-symbol #f "finally")) (_o$4706 (jolt-symbol #f "new")) (_o$4707 (jolt-symbol #f "set!")) (_o$4708 (jolt-symbol #f ".")) (_o$4709 (jolt-symbol #f "monitor-enter")) (_o$4710 (jolt-symbol #f "monitor-exit")) (_o$4711 (jolt-symbol #f "&")) (_o$4712 (jolt-symbol #f "case*")) (_o$4713 (jolt-symbol #f "deftype*")) (_o$4714 (jolt-symbol #f "letfn*")) (_o$4715 (jolt-symbol #f "reify*"))) (jolt-hash-set _o$4693 _o$4694 _o$4695 _o$4696 _o$4697 _o$4698 _o$4699 _o$4700 _o$4701 _o$4702 _o$4703 _o$4704 _o$4705 _o$4706 _o$4707 _o$4708 _o$4709 _o$4710 _o$4711 _o$4712 _o$4713 _o$4714 _o$4715)) (let* ((_o$4716 (keyword #f "private")) (_o$4717 #t)) (jolt-hash-map _o$4716 _o$4717)))) + (def-var! "clojure.core" "bean" (letrec ((bean (lambda (x) (let fnrec4653 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) x (jolt-hash-map)))))) bean))) (guard (e (#t #f)) - (def-var! "clojure.core" "special-symbol?" (letrec ((special-symbol? (lambda (s) (let fnrec4718 ((s s)) (jolt-contains? (var-deref "clojure.core" "special-syms") s))))) special-symbol?))) + (def-var! "clojure.core" "uri?" (letrec ((uri? (lambda (x) (let fnrec4654 ((x x)) #f)))) uri?))) (guard (e (#t #f)) - (def-var! "clojure.core" "proxy-mappings" (letrec ((proxy-mappings (lambda (p) (let fnrec4719 ((p p)) (jolt-hash-map))))) proxy-mappings))) + (def-var-with-meta! "clojure.core" "special-syms" (let* ((_o$4655 (jolt-symbol #f "if")) (_o$4656 (jolt-symbol #f "do")) (_o$4657 (jolt-symbol #f "let*")) (_o$4658 (jolt-symbol #f "fn*")) (_o$4659 (jolt-symbol #f "quote")) (_o$4660 (jolt-symbol #f "var")) (_o$4661 (jolt-symbol #f "def")) (_o$4662 (jolt-symbol #f "loop*")) (_o$4663 (jolt-symbol #f "recur")) (_o$4664 (jolt-symbol #f "throw")) (_o$4665 (jolt-symbol #f "try")) (_o$4666 (jolt-symbol #f "catch")) (_o$4667 (jolt-symbol #f "finally")) (_o$4668 (jolt-symbol #f "new")) (_o$4669 (jolt-symbol #f "set!")) (_o$4670 (jolt-symbol #f ".")) (_o$4671 (jolt-symbol #f "monitor-enter")) (_o$4672 (jolt-symbol #f "monitor-exit"))) (jolt-hash-set _o$4655 _o$4656 _o$4657 _o$4658 _o$4659 _o$4660 _o$4661 _o$4662 _o$4663 _o$4664 _o$4665 _o$4666 _o$4667 _o$4668 _o$4669 _o$4670 _o$4671 _o$4672)) (let* ((_o$4673 (keyword #f "private")) (_o$4674 #t)) (jolt-hash-map _o$4673 _o$4674)))) (guard (e (#t #f)) - (def-var! "clojure.core" "proxy-call-with-super" (letrec ((proxy-call-with-super (lambda (f p meth) (let fnrec4720 ((f f) (p p) (meth meth)) (jolt-invoke f))))) proxy-call-with-super))) + (def-var! "clojure.core" "special-symbol?" (letrec ((special-symbol? (lambda (s) (let fnrec4675 ((s s)) (jolt-contains? (var-deref "clojure.core" "special-syms") s))))) special-symbol?))) (guard (e (#t #f)) - (def-var! "clojure.core" "init-proxy" (letrec ((init-proxy (lambda (p mappings) (let fnrec4721 ((p p) (mappings mappings)) p)))) init-proxy))) + (def-var! "clojure.core" "proxy-mappings" (letrec ((proxy-mappings (lambda (p) (let fnrec4676 ((p p)) (jolt-hash-map))))) proxy-mappings))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-proxy" (letrec ((update-proxy (lambda (p mappings) (let fnrec4722 ((p p) (mappings mappings)) p)))) update-proxy))) + (def-var! "clojure.core" "proxy-call-with-super" (letrec ((proxy-call-with-super (lambda (f p meth) (let fnrec4677 ((f f) (p p) (meth meth)) (jolt-invoke f))))) proxy-call-with-super))) (guard (e (#t #f)) - (def-var! "clojure.core" "proxy-super" (letrec ((proxy-super (lambda args (let fnrec4723 ((args (list->cseq args))) (jolt-throw "proxy-super: JVM proxies are not supported in Jolt"))))) proxy-super))) + (def-var! "clojure.core" "init-proxy" (letrec ((init-proxy (lambda (p mappings) (let fnrec4678 ((p p) (mappings mappings)) p)))) init-proxy))) (guard (e (#t #f)) - (def-var! "clojure.core" "construct-proxy" (letrec ((construct-proxy (lambda (c . args) (let fnrec4724 ((c c) (args (list->cseq args))) (jolt-throw "construct-proxy: not supported in Jolt"))))) construct-proxy))) + (def-var! "clojure.core" "update-proxy" (letrec ((update-proxy (lambda (p mappings) (let fnrec4679 ((p p) (mappings mappings)) p)))) update-proxy))) (guard (e (#t #f)) - (def-var! "clojure.core" "get-proxy-class" (letrec ((get-proxy-class (lambda interfaces (let fnrec4725 ((interfaces (list->cseq interfaces))) (jolt-throw "get-proxy-class: not supported in Jolt"))))) get-proxy-class))) + (def-var! "clojure.core" "proxy-super" (letrec ((proxy-super (lambda args (let fnrec4680 ((args (list->cseq args))) (jolt-throw "proxy-super: JVM proxies are not supported in Jolt"))))) proxy-super))) (guard (e (#t #f)) - (def-var! "clojure.core" "requiring-resolve" (letrec ((requiring-resolve (lambda (sym) (let fnrec4726 ((sym sym)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "qualified-symbol?") sym)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "resolve") sym))) (if (jolt-truthy? or__26__auto) or__26__auto (begin (jolt-invoke (var-deref "clojure.core" "require") (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "namespace") sym))) (jolt-invoke (var-deref "clojure.core" "resolve") sym)))) (jolt-throw (host-new "IllegalArgumentException" (jolt-invoke (var-deref "clojure.core" "str") "Not a qualified symbol: " sym)))))))) requiring-resolve))) + (def-var! "clojure.core" "construct-proxy" (letrec ((construct-proxy (lambda (c . args) (let fnrec4681 ((c c) (args (list->cseq args))) (jolt-throw "construct-proxy: not supported in Jolt"))))) construct-proxy))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "sfield" (letrec ((sfield (lambda (sc k) (let fnrec2750 ((sc sc) (k k)) (jolt-invoke (var-deref "jolt.host" "ref-get") sc k))))) sfield) (let* ((_o$2751 (keyword #f "private")) (_o$2752 #t)) (jolt-hash-map _o$2751 _o$2752)))) + (def-var! "clojure.core" "get-proxy-class" (letrec ((get-proxy-class (lambda interfaces (let fnrec4682 ((interfaces (list->cseq interfaces))) (jolt-throw "get-proxy-class: not supported in Jolt"))))) get-proxy-class))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "fn->cmp" (letrec ((fn->cmp (lambda (f) (let fnrec2753 ((f f)) (lambda (a b) (let fnrec2754 ((a a) (b b)) (let* ((r (jolt-invoke f a b))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") r)) r (if (jolt-truthy? r) -1 (if (jolt-truthy? (jolt-invoke f b a)) 1 0)))))))))) fn->cmp) (let* ((_o$2755 (keyword #f "private")) (_o$2756 #t)) (jolt-hash-map _o$2755 _o$2756)))) + (def-var-with-meta! "clojure.core" "sfield" (letrec ((sfield (lambda (sc k) (let fnrec2738 ((sc sc) (k k)) (jolt-invoke (var-deref "jolt.host" "ref-get") sc k))))) sfield) (let* ((_o$2739 (keyword #f "private")) (_o$2740 #t)) (jolt-hash-map _o$2739 _o$2740)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "the-cmp" (letrec ((the-cmp (lambda (sc) (let fnrec2757 ((sc sc)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "sfield") sc (keyword #f "cmp")))) (if (jolt-truthy? or__26__auto) or__26__auto (var-deref "clojure.core" "compare"))))))) the-cmp) (let* ((_o$2758 (keyword #f "private")) (_o$2759 #t)) (jolt-hash-map _o$2758 _o$2759)))) + (def-var-with-meta! "clojure.core" "fn->cmp" (letrec ((fn->cmp (lambda (f) (let fnrec2741 ((f f)) (lambda (a b) (let fnrec2742 ((a a) (b b)) (let* ((r (jolt-invoke f a b))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") r)) r (if (jolt-truthy? r) -1 (if (jolt-truthy? (jolt-invoke f b a)) 1 0)))))))))) fn->cmp) (let* ((_o$2743 (keyword #f "private")) (_o$2744 #t)) (jolt-hash-map _o$2743 _o$2744)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "nd-key" (letrec ((nd-key (lambda (n) (let fnrec2760 ((n n)) (jolt-nth n 1))))) nd-key) (let* ((_o$2761 (keyword #f "private")) (_o$2762 #t)) (jolt-hash-map _o$2761 _o$2762)))) + (def-var-with-meta! "clojure.core" "the-cmp" (letrec ((the-cmp (lambda (sc) (let fnrec2745 ((sc sc)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "sfield") sc (keyword #f "cmp")))) (if (jolt-truthy? or__26__auto) or__26__auto (var-deref "clojure.core" "compare"))))))) the-cmp) (let* ((_o$2746 (keyword #f "private")) (_o$2747 #t)) (jolt-hash-map _o$2746 _o$2747)))) (guard (e (#t #f)) - (def-var-with-meta! 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"clojure.core" "balance-right" (letrec ((balance-right (lambda (k v left ins) (let fnrec2951 ((k k) (v v) (left left) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$2952 (var-deref "clojure.core" "mk-red")) (_a$2953 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$2954 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$2955 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left il)) (_a$2956 (jolt-invoke (var-deref "clojure.core" "blacken") ir))) (jolt-invoke _a$2952 _a$2953 _a$2954 _a$2955 _a$2956)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$2962 (var-deref "clojure.core" "mk-red")) (_a$2963 (jolt-invoke (var-deref "clojure.core" "nd-key") il)) (_a$2964 (jolt-invoke (var-deref "clojure.core" "nd-val") il)) (_a$2965 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left (jolt-invoke (var-deref "clojure.core" "nd-left") il))) (_a$2966 (let* ((_a$2957 (var-deref "clojure.core" "mk-black")) (_a$2958 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$2959 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$2960 (jolt-invoke (var-deref "clojure.core" "nd-right") il)) (_a$2961 ir)) (jolt-invoke _a$2957 _a$2958 _a$2959 _a$2960 _a$2961)))) (jolt-invoke _a$2962 _a$2963 _a$2964 _a$2965 _a$2966)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins)))))) balance-right) (let* ((_o$2967 (keyword #f "private")) (_o$2968 #t)) (jolt-hash-map _o$2967 _o$2968)))) + (def-var-with-meta! "clojure.core" "balance-left" (letrec ((balance-left (lambda (k v ins right) (let fnrec2921 ((k k) (v v) (ins ins) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$2922 (var-deref "clojure.core" "mk-red")) (_a$2923 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$2924 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$2925 (jolt-invoke (var-deref "clojure.core" "blacken") il)) (_a$2926 (jolt-invoke (var-deref "clojure.core" "mk-black") k v ir right))) (jolt-invoke _a$2922 _a$2923 _a$2924 _a$2925 _a$2926)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$2932 (var-deref "clojure.core" "mk-red")) (_a$2933 (jolt-invoke (var-deref "clojure.core" "nd-key") ir)) (_a$2934 (jolt-invoke (var-deref "clojure.core" "nd-val") ir)) (_a$2935 (let* ((_a$2927 (var-deref "clojure.core" "mk-black")) (_a$2928 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$2929 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$2930 il) (_a$2931 (jolt-invoke (var-deref "clojure.core" "nd-left") ir))) (jolt-invoke _a$2927 _a$2928 _a$2929 _a$2930 _a$2931))) (_a$2936 (jolt-invoke (var-deref "clojure.core" "mk-black") k v (jolt-invoke (var-deref "clojure.core" "nd-right") ir) right))) (jolt-invoke _a$2932 _a$2933 _a$2934 _a$2935 _a$2936)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v ins right) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v ins right)))))) balance-left) (let* ((_o$2937 (keyword #f "private")) (_o$2938 #t)) (jolt-hash-map _o$2937 _o$2938)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "balance-left-del" (letrec ((balance-left-del (lambda (k v del right) (let fnrec2969 ((k k) (v v) (del del) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v (jolt-invoke (var-deref "clojure.core" "blacken") del) right) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") right)) (jolt-invoke (var-deref "clojure.core" "balance-right") k v del (jolt-invoke (var-deref "clojure.core" "redden") right)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "red?") right))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-left") right)) and__25__auto))) (let* ((_a$2975 (var-deref "clojure.core" "mk-red")) (_a$2976 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$2977 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$2978 (jolt-invoke (var-deref "clojure.core" "mk-black") k v del (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-left") right)))) (_a$2979 (let* ((_a$2970 (var-deref "clojure.core" "balance-right")) (_a$2971 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$2972 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$2973 (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$2974 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-right") right)))) (jolt-invoke _a$2970 _a$2971 _a$2972 _a$2973 _a$2974)))) (jolt-invoke _a$2975 _a$2976 _a$2977 _a$2978 _a$2979)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-left-del) (let* ((_o$2980 (keyword #f "private")) (_o$2981 #t)) (jolt-hash-map _o$2980 _o$2981)))) + (def-var-with-meta! "clojure.core" "balance-right" (letrec ((balance-right (lambda (k v left ins) (let fnrec2939 ((k k) (v v) (left left) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$2940 (var-deref "clojure.core" "mk-red")) (_a$2941 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$2942 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$2943 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left il)) (_a$2944 (jolt-invoke (var-deref "clojure.core" "blacken") ir))) (jolt-invoke _a$2940 _a$2941 _a$2942 _a$2943 _a$2944)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$2950 (var-deref "clojure.core" "mk-red")) (_a$2951 (jolt-invoke (var-deref "clojure.core" "nd-key") il)) (_a$2952 (jolt-invoke (var-deref "clojure.core" "nd-val") il)) (_a$2953 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left (jolt-invoke (var-deref "clojure.core" "nd-left") il))) (_a$2954 (let* ((_a$2945 (var-deref "clojure.core" "mk-black")) (_a$2946 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$2947 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$2948 (jolt-invoke (var-deref "clojure.core" "nd-right") il)) (_a$2949 ir)) (jolt-invoke _a$2945 _a$2946 _a$2947 _a$2948 _a$2949)))) (jolt-invoke _a$2950 _a$2951 _a$2952 _a$2953 _a$2954)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins)))))) balance-right) (let* ((_o$2955 (keyword #f "private")) (_o$2956 #t)) (jolt-hash-map _o$2955 _o$2956)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "balance-right-del" (letrec ((balance-right-del (lambda (k v left del) (let fnrec2982 ((k k) (v v) (left left) (del del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v left (jolt-invoke (var-deref "clojure.core" "blacken") del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") left)) (jolt-invoke (var-deref "clojure.core" "balance-left") k v (jolt-invoke (var-deref "clojure.core" "redden") left) del) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "red?") left))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-right") left)) and__25__auto))) (let* ((_a$2988 (var-deref "clojure.core" "mk-red")) (_a$2989 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-right") left))) (_a$2990 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-right") left))) (_a$2991 (let* ((_a$2983 (var-deref "clojure.core" "balance-left")) (_a$2984 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$2985 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$2986 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-left") left))) (_a$2987 (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-right") left)))) (jolt-invoke _a$2983 _a$2984 _a$2985 _a$2986 _a$2987))) (_a$2992 (jolt-invoke (var-deref "clojure.core" "mk-black") k v (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-right") left)) del))) (jolt-invoke _a$2988 _a$2989 _a$2990 _a$2991 _a$2992)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-right-del) (let* ((_o$2993 (keyword #f "private")) (_o$2994 #t)) (jolt-hash-map _o$2993 _o$2994)))) + (def-var-with-meta! "clojure.core" "balance-left-del" (letrec ((balance-left-del (lambda (k v del right) (let fnrec2957 ((k k) (v v) (del del) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v (jolt-invoke (var-deref "clojure.core" "blacken") del) right) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") right)) (jolt-invoke (var-deref "clojure.core" "balance-right") k v del (jolt-invoke (var-deref "clojure.core" "redden") right)) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "red?") right))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-left") right)) and__25__auto))) (let* ((_a$2963 (var-deref "clojure.core" "mk-red")) (_a$2964 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$2965 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$2966 (jolt-invoke (var-deref "clojure.core" "mk-black") k v del (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-left") right)))) (_a$2967 (let* ((_a$2958 (var-deref "clojure.core" "balance-right")) (_a$2959 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$2960 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$2961 (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$2962 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-right") right)))) (jolt-invoke _a$2958 _a$2959 _a$2960 _a$2961 _a$2962)))) (jolt-invoke _a$2963 _a$2964 _a$2965 _a$2966 _a$2967)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-left-del) (let* ((_o$2968 (keyword #f "private")) (_o$2969 #t)) (jolt-hash-map _o$2968 _o$2969)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "tree-append" (letrec ((tree-append (lambda (left right) (let fnrec2995 ((left left) (right right)) (if (jolt-nil? left) right (if (jolt-nil? right) left (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") left)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") right)) (let* ((app (let* ((_a$2996 (jolt-invoke (var-deref "clojure.core" "nd-right") left)) (_a$2997 (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (tree-append _a$2996 _a$2997)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") app)) (let* ((_a$3008 (var-deref "clojure.core" "mk-red")) (_a$3009 (jolt-invoke (var-deref "clojure.core" "nd-key") app)) (_a$3010 (jolt-invoke (var-deref "clojure.core" "nd-val") app)) (_a$3011 (let* ((_a$2998 (var-deref "clojure.core" "mk-red")) (_a$2999 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$3000 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$3001 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$3002 (jolt-invoke (var-deref "clojure.core" "nd-left") app))) (jolt-invoke _a$2998 _a$2999 _a$3000 _a$3001 _a$3002))) (_a$3012 (let* ((_a$3003 (var-deref "clojure.core" "mk-red")) (_a$3004 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$3005 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$3006 (jolt-invoke (var-deref "clojure.core" "nd-right") app)) (_a$3007 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$3003 _a$3004 _a$3005 _a$3006 _a$3007)))) (jolt-invoke _a$3008 _a$3009 _a$3010 _a$3011 _a$3012)) (let* ((_a$3018 (var-deref "clojure.core" "mk-red")) (_a$3019 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$3020 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$3021 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$3022 (let* ((_a$3013 (var-deref "clojure.core" "mk-red")) (_a$3014 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$3015 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$3016 app) (_a$3017 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$3013 _a$3014 _a$3015 _a$3016 _a$3017)))) (jolt-invoke _a$3018 _a$3019 _a$3020 _a$3021 _a$3022)))) (let* ((_a$3023 (var-deref "clojure.core" "mk-red")) (_a$3024 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$3025 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$3026 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$3027 (tree-append (jolt-invoke (var-deref "clojure.core" "nd-right") left) right))) (jolt-invoke _a$3023 _a$3024 _a$3025 _a$3026 _a$3027))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") right)) (let* ((_a$3028 (var-deref "clojure.core" "mk-red")) (_a$3029 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$3030 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$3031 (tree-append left (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$3032 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$3028 _a$3029 _a$3030 _a$3031 _a$3032)) (if (jolt-truthy? (keyword #f "else")) (let* ((app (let* ((_a$3033 (jolt-invoke (var-deref "clojure.core" "nd-right") left)) (_a$3034 (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (tree-append _a$3033 _a$3034)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") app)) (let* ((_a$3045 (var-deref "clojure.core" "mk-red")) (_a$3046 (jolt-invoke (var-deref "clojure.core" "nd-key") app)) (_a$3047 (jolt-invoke (var-deref "clojure.core" "nd-val") app)) (_a$3048 (let* ((_a$3035 (var-deref "clojure.core" "mk-black")) (_a$3036 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$3037 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$3038 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$3039 (jolt-invoke (var-deref "clojure.core" "nd-left") app))) (jolt-invoke _a$3035 _a$3036 _a$3037 _a$3038 _a$3039))) (_a$3049 (let* ((_a$3040 (var-deref "clojure.core" "mk-black")) (_a$3041 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$3042 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$3043 (jolt-invoke (var-deref "clojure.core" "nd-right") app)) (_a$3044 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$3040 _a$3041 _a$3042 _a$3043 _a$3044)))) (jolt-invoke _a$3045 _a$3046 _a$3047 _a$3048 _a$3049)) (let* ((_a$3055 (var-deref "clojure.core" "balance-left-del")) (_a$3056 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$3057 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$3058 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$3059 (let* ((_a$3050 (var-deref "clojure.core" "mk-black")) (_a$3051 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$3052 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$3053 app) (_a$3054 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$3050 _a$3051 _a$3052 _a$3053 _a$3054)))) (jolt-invoke _a$3055 _a$3056 _a$3057 _a$3058 _a$3059)))) jolt-nil))))))))) tree-append) (let* ((_o$3060 (keyword #f "private")) (_o$3061 #t)) (jolt-hash-map _o$3060 _o$3061)))) + (def-var-with-meta! "clojure.core" "balance-right-del" (letrec ((balance-right-del (lambda (k v left del) (let fnrec2970 ((k k) (v v) (left left) (del del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v left (jolt-invoke (var-deref "clojure.core" "blacken") del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") left)) (jolt-invoke (var-deref "clojure.core" "balance-left") k v (jolt-invoke (var-deref "clojure.core" "redden") left) del) (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "red?") left))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "black?") 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"clojure.core" "tree-del" (letrec ((tree-del (lambda (cmp tree k) (let fnrec3050 ((cmp cmp) (tree tree) (k k)) (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree)))) (if (jolt-zero? c) (let* ((_a$3051 (var-deref "clojure.core" "tree-append")) (_a$3052 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$3053 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$3051 _a$3052 _a$3053)) (if (jolt-neg? c) (let* ((del (tree-del cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") 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"clojure.core" "tree-collect" (letrec ((tree-collect (lambda (t proj acc) (let fnrec3076 ((t t) (proj proj) (acc acc)) (if (jolt-nil? t) acc (let* ((_a$3079 (jolt-invoke (var-deref "clojure.core" "nd-right") t)) (_a$3080 proj) (_a$3081 (let* ((_a$3077 (tree-collect (jolt-invoke (var-deref "clojure.core" "nd-left") t) proj acc)) (_a$3078 (jolt-invoke proj t))) (jolt-conj _a$3077 _a$3078)))) (tree-collect _a$3079 _a$3080 _a$3081))))))) tree-collect) (let* ((_o$3082 (keyword #f "private")) (_o$3083 #t)) (jolt-hash-map _o$3082 _o$3083)))) (guard (e (#t #f)) - (def-var-with-meta! 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(lambda (x) (let fnrec3304 ((x x)) (jolt= (keyword "jolt" "sorted-set") (jolt-invoke (var-deref "clojure.core" "sfield") x (keyword "jolt" "type"))))))) sorted-set?))) + (def-var! "clojure.core" "sorted-map?" (letrec ((sorted-map? (lambda (x) (let fnrec3291 ((x x)) (jolt= (keyword "jolt" "sorted-map") (jolt-invoke (var-deref "clojure.core" "sfield") x (keyword "jolt" "type"))))))) sorted-map?))) (guard (e (#t #f)) - (def-var! "clojure.core" "sorted?" (letrec ((sorted? (lambda (x) (let fnrec3305 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "sorted-map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "sorted-set?") x))))))) sorted?))) + (def-var! "clojure.core" "sorted-set?" (letrec ((sorted-set? (lambda (x) (let fnrec3292 ((x x)) (jolt= (keyword "jolt" "sorted-set") (jolt-invoke (var-deref "clojure.core" "sfield") x (keyword "jolt" "type"))))))) sorted-set?))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "sc-keyf" (letrec ((sc-keyf (lambda (sc) (let fnrec3306 ((sc sc)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted-map?") sc)) jolt-first jolt-identity))))) sc-keyf) (let* ((_o$3307 (keyword #f "private")) (_o$3308 #t)) (jolt-hash-map _o$3307 _o$3308)))) + (def-var! "clojure.core" "sorted?" (letrec ((sorted? (lambda (x) (let fnrec3293 ((x x)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "sorted-map?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "sorted-set?") x))))))) sorted?))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "sc-proj" (letrec ((sc-proj (lambda (sc) (let fnrec3309 ((sc sc)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted-map?") sc)) (var-deref "clojure.core" "map-entry") (var-deref "clojure.core" "nd-key")))))) sc-proj) (let* ((_o$3310 (keyword #f "private")) (_o$3311 #t)) (jolt-hash-map _o$3310 _o$3311)))) + (def-var-with-meta! "clojure.core" "sc-keyf" (letrec ((sc-keyf (lambda (sc) (let fnrec3294 ((sc sc)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted-map?") sc)) jolt-first jolt-identity))))) sc-keyf) (let* ((_o$3295 (keyword #f "private")) (_o$3296 #t)) (jolt-hash-map _o$3295 _o$3296)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "sub-filter" (letrec ((sub-filter (lambda (sc tests) (let fnrec3312 ((sc sc) (tests tests)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sc)) (keyf (jolt-invoke (var-deref "clojure.core" "sc-keyf") sc))) (let* ((_a$3315 (var-deref "clojure.core" "filterv")) (_a$3316 (lambda (e) (let fnrec3313 ((e e)) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (G__119) (let fnrec3314 ((G__119 G__119)) (let* ((G__120 G__119) (test (jolt-nth G__120 0 jolt-nil)) (k (jolt-nth G__120 1 jolt-nil))) (jolt-invoke test (jolt-invoke cmp (jolt-invoke keyf e) k) 0)))) tests)))) (_a$3317 (jolt-invoke (var-deref "clojure.core" "sc-entries") sc (jolt-invoke (var-deref "clojure.core" "sc-proj") sc)))) (jolt-invoke _a$3315 _a$3316 _a$3317))))))) sub-filter) (let* ((_o$3318 (keyword #f "private")) (_o$3319 #t)) (jolt-hash-map _o$3318 _o$3319)))) + (def-var-with-meta! "clojure.core" "sc-proj" (letrec ((sc-proj (lambda (sc) (let fnrec3297 ((sc sc)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted-map?") sc)) (var-deref "clojure.core" "map-entry") (var-deref "clojure.core" "nd-key")))))) sc-proj) (let* ((_o$3298 (keyword #f "private")) (_o$3299 #t)) (jolt-hash-map _o$3298 _o$3299)))) (guard (e (#t #f)) - (def-var! "clojure.core" "subseq" (letrec ((subseq (case-lambda ((sc test k) (let fnrec3320 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$3321 test) (_o$3322 k)) (jolt-vector _o$3321 _o$3322))))))) ((sc start-test start-k end-test end-k) (let fnrec3323 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$3328 (let* ((_o$3324 start-test) (_o$3325 start-k)) (jolt-vector _o$3324 _o$3325))) (_o$3329 (let* ((_o$3326 end-test) (_o$3327 end-k)) (jolt-vector _o$3326 _o$3327)))) (jolt-vector _o$3328 _o$3329))))))))) subseq))) + (def-var-with-meta! "clojure.core" "sub-filter" (letrec ((sub-filter (lambda (sc tests) (let fnrec3300 ((sc sc) (tests tests)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sc)) (keyf (jolt-invoke (var-deref "clojure.core" "sc-keyf") sc))) (let* ((_a$3303 (var-deref "clojure.core" "filterv")) (_a$3304 (lambda (e) (let fnrec3301 ((e e)) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (G__117) (let fnrec3302 ((G__117 G__117)) (let* ((G__118 G__117) (test (jolt-nth G__118 0 jolt-nil)) (k (jolt-nth G__118 1 jolt-nil))) (jolt-invoke test (jolt-invoke cmp (jolt-invoke keyf e) k) 0)))) tests)))) (_a$3305 (jolt-invoke (var-deref "clojure.core" "sc-entries") sc (jolt-invoke (var-deref "clojure.core" "sc-proj") sc)))) (jolt-invoke _a$3303 _a$3304 _a$3305))))))) sub-filter) (let* ((_o$3306 (keyword #f "private")) (_o$3307 #t)) (jolt-hash-map _o$3306 _o$3307)))) (guard (e (#t #f)) - (def-var! "clojure.core" "rsubseq" (letrec ((rsubseq (case-lambda ((sc test k) (let fnrec3330 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$3331 test) (_o$3332 k)) (jolt-vector _o$3331 _o$3332))))))))) ((sc start-test start-k end-test end-k) (let fnrec3333 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$3338 (let* ((_o$3334 start-test) (_o$3335 start-k)) (jolt-vector _o$3334 _o$3335))) (_o$3339 (let* ((_o$3336 end-test) (_o$3337 end-k)) (jolt-vector _o$3336 _o$3337)))) (jolt-vector _o$3338 _o$3339))))))))))) rsubseq))) + (def-var! "clojure.core" "subseq" (letrec ((subseq (case-lambda ((sc test k) (let fnrec3308 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$3309 test) (_o$3310 k)) (jolt-vector _o$3309 _o$3310))))))) ((sc start-test start-k end-test end-k) (let fnrec3311 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$3316 (let* ((_o$3312 start-test) (_o$3313 start-k)) (jolt-vector _o$3312 _o$3313))) (_o$3317 (let* ((_o$3314 end-test) (_o$3315 end-k)) (jolt-vector _o$3314 _o$3315)))) (jolt-vector _o$3316 _o$3317))))))))) subseq))) +(guard (e (#t #f)) + (def-var! "clojure.core" "rsubseq" (letrec ((rsubseq (case-lambda ((sc test k) (let fnrec3318 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$3319 test) (_o$3320 k)) (jolt-vector _o$3319 _o$3320))))))))) ((sc start-test start-k end-test end-k) (let fnrec3321 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$3326 (let* ((_o$3322 start-test) (_o$3323 start-k)) (jolt-vector _o$3322 _o$3323))) (_o$3327 (let* ((_o$3324 end-test) (_o$3325 end-k)) (jolt-vector _o$3324 _o$3325)))) (jolt-vector _o$3326 _o$3327))))))))))) rsubseq))) (guard (e (#t #f)) (def-var! "clojure.core" "comment" - (lambda body (let fnrec3340 ((body (list->cseq body))) jolt-nil))) + (lambda body (let fnrec3328 ((body (list->cseq body))) jolt-nil))) (mark-macro! "clojure.core" "comment")) (guard (e (#t #f)) (def-var! "clojure.core" "with-out-str" - (lambda body (let fnrec3341 ((body (list->cseq body))) (let* ((_a$3346 (var-deref "clojure.core" "__sqcat")) (_a$3347 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__with-out-str"))) (_a$3348 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3342 (var-deref "clojure.core" "__sqcat")) (_a$3343 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$3344 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$3345 body)) (jolt-invoke _a$3342 _a$3343 _a$3344 _a$3345))))) (jolt-invoke _a$3346 _a$3347 _a$3348))))) + (lambda body (let fnrec3329 ((body (list->cseq body))) (let* ((_a$3334 (var-deref "clojure.core" "__sqcat")) (_a$3335 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__with-out-str"))) (_a$3336 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3330 (var-deref "clojure.core" "__sqcat")) (_a$3331 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$3332 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$3333 body)) (jolt-invoke _a$3330 _a$3331 _a$3332 _a$3333))))) (jolt-invoke _a$3334 _a$3335 _a$3336))))) (mark-macro! "clojure.core" "with-out-str")) (guard (e (#t #f)) (def-var! "clojure.core" "defmulti" - (lambda (name . args) (let fnrec3349 ((name name) (args (list->cseq args))) (let* ((args (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first args))) (jolt-rest args) args)) (args (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first args)))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first args))) and__25__auto))) (jolt-rest args) args)) (dispatch (jolt-first args)) (opts (jolt-rest args)) (qname (let* ((_a$3350 (var-deref "clojure.core" "symbol")) (_a$3351 (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "ns-name") (var-deref "clojure.core" "*ns*")))) (_a$3352 (jolt-invoke (var-deref "clojure.core" "name") name))) (jolt-invoke _a$3350 _a$3351 _a$3352)))) (let* ((_a$3356 (var-deref "clojure.core" "__sqcat")) (_a$3357 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmulti-setup"))) (_a$3358 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3353 (var-deref "clojure.core" "__sqcat")) (_a$3354 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3355 (jolt-invoke (var-deref "clojure.core" "__sq1") qname))) (jolt-invoke _a$3353 _a$3354 _a$3355)))) (_a$3359 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch)) (_a$3360 opts)) (jolt-invoke _a$3356 _a$3357 _a$3358 _a$3359 _a$3360)))))) + (lambda (name . args) (let fnrec3337 ((name name) (args (list->cseq args))) (let* ((args (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first args))) (jolt-rest args) args)) (args (if (jolt-truthy? (let* ((and__25__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first args)))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first args))) and__25__auto))) (jolt-rest args) args)) (dispatch (jolt-first args)) (opts (jolt-rest args))) (let* ((_a$3341 (var-deref "clojure.core" "__sqcat")) (_a$3342 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmulti-setup"))) (_a$3343 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3338 (var-deref "clojure.core" "__sqcat")) (_a$3339 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3340 (jolt-invoke (var-deref "clojure.core" "__sq1") name))) (jolt-invoke _a$3338 _a$3339 _a$3340)))) (_a$3344 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch)) (_a$3345 opts)) (jolt-invoke _a$3341 _a$3342 _a$3343 _a$3344 _a$3345)))))) (mark-macro! "clojure.core" "defmulti")) (guard (e (#t #f)) (def-var! "clojure.core" "defmethod" - (lambda (mm dispatch-val . fn-tail) (let fnrec3361 ((mm mm) (dispatch-val dispatch-val) (fn-tail (list->cseq fn-tail))) (let* ((_a$3365 (var-deref "clojure.core" "__sqcat")) (_a$3366 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmethod-setup"))) (_a$3367 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3362 (var-deref "clojure.core" "__sqcat")) (_a$3363 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3364 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3362 _a$3363 _a$3364)))) (_a$3368 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch-val)) (_a$3369 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn")) fn-tail))) (_a$3370 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "ns-name") (var-deref "clojure.core" "*ns*")))))) (jolt-invoke _a$3365 _a$3366 _a$3367 _a$3368 _a$3369 _a$3370))))) + (lambda (mm dispatch-val . fn-tail) (let fnrec3346 ((mm mm) (dispatch-val dispatch-val) (fn-tail (list->cseq fn-tail))) (let* ((_a$3350 (var-deref "clojure.core" "__sqcat")) (_a$3351 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmethod-setup"))) (_a$3352 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3347 (var-deref "clojure.core" "__sqcat")) (_a$3348 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3349 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3347 _a$3348 _a$3349)))) (_a$3353 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch-val)) (_a$3354 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn")) fn-tail)))) (jolt-invoke _a$3350 _a$3351 _a$3352 _a$3353 _a$3354))))) (mark-macro! "clojure.core" "defmethod")) (guard (e (#t #f)) (def-var! "clojure.core" "prefer-method" - (lambda (mm dval-a dval-b) (let fnrec3371 ((mm mm) (dval-a dval-a) (dval-b dval-b)) (let* ((_a$3375 (var-deref "clojure.core" "__sqcat")) (_a$3376 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefer-method-setup"))) (_a$3377 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3372 (var-deref "clojure.core" "__sqcat")) (_a$3373 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3374 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3372 _a$3373 _a$3374)))) (_a$3378 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-a)) (_a$3379 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-b))) (jolt-invoke _a$3375 _a$3376 _a$3377 _a$3378 _a$3379))))) + (lambda (mm dval-a dval-b) (let fnrec3355 ((mm mm) (dval-a dval-a) (dval-b dval-b)) (let* ((_a$3359 (var-deref "clojure.core" "__sqcat")) (_a$3360 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefer-method-setup"))) (_a$3361 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3356 (var-deref "clojure.core" "__sqcat")) (_a$3357 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3358 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3356 _a$3357 _a$3358)))) (_a$3362 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-a)) (_a$3363 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-b))) (jolt-invoke _a$3359 _a$3360 _a$3361 _a$3362 _a$3363))))) (mark-macro! "clojure.core" "prefer-method")) (guard (e (#t #f)) (def-var! "clojure.core" "remove-method" - (lambda (mm dval) (let fnrec3380 ((mm mm) (dval dval)) (let* ((_a$3384 (var-deref "clojure.core" "__sqcat")) (_a$3385 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-method-setup"))) (_a$3386 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3381 (var-deref "clojure.core" "__sqcat")) (_a$3382 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3383 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3381 _a$3382 _a$3383)))) (_a$3387 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$3384 _a$3385 _a$3386 _a$3387))))) + (lambda (mm dval) (let fnrec3364 ((mm mm) (dval dval)) (let* ((_a$3368 (var-deref "clojure.core" "__sqcat")) (_a$3369 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-method-setup"))) (_a$3370 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3365 (var-deref "clojure.core" "__sqcat")) (_a$3366 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3367 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3365 _a$3366 _a$3367)))) (_a$3371 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$3368 _a$3369 _a$3370 _a$3371))))) (mark-macro! "clojure.core" "remove-method")) (guard (e (#t #f)) (def-var! "clojure.core" "remove-all-methods" - (lambda (mm) (let fnrec3388 ((mm mm)) (let* ((_a$3392 (var-deref "clojure.core" "__sqcat")) (_a$3393 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-all-methods-setup"))) (_a$3394 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3389 (var-deref "clojure.core" "__sqcat")) (_a$3390 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3391 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3389 _a$3390 _a$3391))))) (jolt-invoke _a$3392 _a$3393 _a$3394))))) + (lambda (mm) (let fnrec3372 ((mm mm)) (let* ((_a$3376 (var-deref "clojure.core" "__sqcat")) (_a$3377 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-all-methods-setup"))) (_a$3378 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3373 (var-deref "clojure.core" "__sqcat")) (_a$3374 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3375 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3373 _a$3374 _a$3375))))) (jolt-invoke _a$3376 _a$3377 _a$3378))))) (mark-macro! "clojure.core" "remove-all-methods")) (guard (e (#t #f)) (def-var! "clojure.core" "get-method" - (lambda (mm dval) (let fnrec3395 ((mm mm) (dval dval)) (let* ((_a$3396 (var-deref "clojure.core" "__sqcat")) (_a$3397 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "get-method-setup"))) (_a$3398 (jolt-invoke (var-deref "clojure.core" "__sq1") mm)) (_a$3399 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$3396 _a$3397 _a$3398 _a$3399))))) + (lambda (mm dval) (let fnrec3379 ((mm mm) (dval dval)) (let* ((_a$3380 (var-deref "clojure.core" "__sqcat")) (_a$3381 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "get-method-setup"))) (_a$3382 (jolt-invoke (var-deref "clojure.core" "__sq1") mm)) (_a$3383 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$3380 _a$3381 _a$3382 _a$3383))))) (mark-macro! "clojure.core" "get-method")) (guard (e (#t #f)) (def-var! "clojure.core" "methods" - (lambda (mm) (let fnrec3400 ((mm mm)) (let* ((_a$3401 (var-deref "clojure.core" "__sqcat")) (_a$3402 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "methods-setup"))) (_a$3403 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3401 _a$3402 _a$3403))))) + (lambda (mm) (let fnrec3384 ((mm mm)) (let* ((_a$3385 (var-deref "clojure.core" "__sqcat")) (_a$3386 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "methods-setup"))) (_a$3387 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3385 _a$3386 _a$3387))))) (mark-macro! "clojure.core" "methods")) (guard (e (#t #f)) (def-var! "clojure.core" "prefers" - (lambda (mm) (let fnrec3404 ((mm mm)) (let* ((_a$3408 (var-deref "clojure.core" "__sqcat")) (_a$3409 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefers-setup"))) (_a$3410 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3405 (var-deref "clojure.core" "__sqcat")) (_a$3406 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3407 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3405 _a$3406 _a$3407))))) (jolt-invoke _a$3408 _a$3409 _a$3410))))) + (lambda (mm) (let fnrec3388 ((mm mm)) (let* ((_a$3392 (var-deref "clojure.core" "__sqcat")) (_a$3393 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefers-setup"))) (_a$3394 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$3389 (var-deref "clojure.core" "__sqcat")) (_a$3390 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$3391 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$3389 _a$3390 _a$3391))))) (jolt-invoke _a$3392 _a$3393 _a$3394))))) (mark-macro! "clojure.core" "prefers")) (guard (e (#t #f)) (def-var! "clojure.core" "instance?" - (lambda (t x) (let fnrec3411 ((t t) (x x)) (if (jolt-truthy? 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(guard (e (#t #f)) (def-var! 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"clojure.core" "locking")) (guard (e (#t #f)) (def-var! 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(jolt-seq more)) (let* ((_a$4109 (var-deref "clojure.core" "__sqcat")) (_a$4110 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" ".."))) (_a$4111 (jolt-invoke (var-deref "clojure.core" "__sq1") step)) (_a$4112 more)) (jolt-invoke _a$4109 _a$4110 _a$4111 _a$4112)) step))))) + (lambda (x form . more) (let fnrec4069 ((x x) (form form) (more (list->cseq more))) (let* ((step (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (let* ((_a$4070 (var-deref "clojure.core" "__sqcat")) (_a$4071 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "."))) (_a$4072 (jolt-invoke (var-deref "clojure.core" "__sq1") x)) (_a$4073 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-first form))) (_a$4074 (jolt-rest form))) (jolt-invoke _a$4070 _a$4071 _a$4072 _a$4073 _a$4074)) (let* ((_a$4075 (var-deref "clojure.core" "__sqcat")) (_a$4076 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "."))) (_a$4077 (jolt-invoke (var-deref "clojure.core" "__sq1") x)) (_a$4078 (jolt-invoke (var-deref "clojure.core" "__sq1") form))) (jolt-invoke _a$4075 _a$4076 _a$4077 _a$4078))))) (if (jolt-truthy? (jolt-seq more)) (let* ((_a$4079 (var-deref "clojure.core" "__sqcat")) (_a$4080 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" ".."))) (_a$4081 (jolt-invoke (var-deref "clojure.core" "__sq1") step)) (_a$4082 more)) (jolt-invoke _a$4079 _a$4080 _a$4081 _a$4082)) step))))) (mark-macro! "clojure.core" "..")) (guard (e (#t #f)) - (def-var! "clojure.core" "extends?" (letrec ((extends? (lambda (protocol atype) (let fnrec4113 ((protocol protocol) (atype atype)) (let* ((want (if (jolt-nil? atype) "nil" (jolt-invoke (var-deref "clojure.core" "name") atype))) (suffix? 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"clojure.core" "extend" (letrec ((extend (lambda (atype . proto+mmaps) (let fnrec4094 ((atype atype) (proto+mmaps (list->cseq proto+mmaps))) (let* ((tname (jolt-invoke (var-deref "clojure.core" "type->name") atype))) (let* ((s (jolt-seq proto+mmaps))) (let loop4095 ((s s)) (if (jolt-truthy? s) (begin (let* ((proto (jolt-first s)) (mmap (jolt-invoke (var-deref "clojure.core" "second") s)) (pname (jolt-invoke (var-deref "clojure.core" "name") (jolt-get proto (keyword #f "name"))))) (begin (jolt-count (jolt-map (lambda (G__127) (let fnrec4096 ((G__127 G__127)) (let* ((G__128 G__127) (k (jolt-nth G__128 0 jolt-nil)) (f (jolt-nth G__128 1 jolt-nil))) (begin (jolt-invoke (var-deref "clojure.core" "register-method") tname pname (jolt-invoke (var-deref "clojure.core" "name") k) f) jolt-nil)))) mmap)) jolt-nil)) (loop4095 (jolt-invoke (var-deref "clojure.core" "nnext") s))) jolt-nil)))))))) extend))) (guard (e (#t #f)) (def-var! 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(let* ((or__26__auto (jolt-nil? tsym))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "symbol?") tsym)))) (tn (jolt-invoke (var-deref "clojure.core" "gensym") "tname")) (tref (if (jolt-truthy? literal?) (if (jolt-nil? tsym) "nil" (jolt-invoke (var-deref "clojure.core" "name") tsym)) tn)) (emit (lambda () (let fnrec4098 () (let* ((items (jolt-seq body)) (proto jolt-nil) (forms (jolt-vector))) (let loop4099 ((items items) (proto proto) (forms forms)) (if (jolt-empty? items) forms (let* ((x (jolt-first items))) (if (jolt-truthy? 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(let* ((_a$4116 (var-deref "clojure.core" "__sqcat")) (_a$4117 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do"))) (_a$4118 (jolt-invoke emit))) (jolt-invoke _a$4116 _a$4117 _a$4118)) (let* ((_a$4125 (var-deref "clojure.core" "__sqcat")) (_a$4126 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$4127 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$4122 (var-deref "clojure.core" "__sqvec")) (_a$4123 (jolt-invoke (var-deref "clojure.core" "__sq1") tn)) (_a$4124 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$4119 (var-deref "clojure.core" "__sqcat")) (_a$4120 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "type->name"))) (_a$4121 (jolt-invoke (var-deref "clojure.core" "__sq1") tsym))) (jolt-invoke _a$4119 _a$4120 _a$4121))))) (jolt-invoke _a$4122 _a$4123 _a$4124)))) (_a$4128 (jolt-invoke emit)) (_a$4129 (jolt-invoke (var-deref "clojure.core" "__sq1") jolt-nil))) (jolt-invoke _a$4125 _a$4126 _a$4127 _a$4128 _a$4129))))))) (mark-macro! 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"clojure.core" "defrecord")) (guard (e (#t #f)) (def-var! "clojure.core" "memfn" - (lambda (method-name . args) (let fnrec4310 ((method-name method-name) (args (list->cseq args))) (let* ((_a$4315 (var-deref "clojure.core" "__sqcat")) (_a$4316 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$4317 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "target__24__auto")) args))) (_a$4318 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$4311 (var-deref "clojure.core" "__sqcat")) (_a$4312 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") "." 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(jolt-invoke (var-deref "clojure.core" "name") method-name))))) (_a$4279 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "target__24__auto"))) (_a$4280 args)) (jolt-invoke _a$4277 _a$4278 _a$4279 _a$4280))))) (jolt-invoke _a$4281 _a$4282 _a$4283 _a$4284))))) (mark-macro! "clojure.core" "memfn")) (guard (e (#t #f)) - (def-var! "clojure.core" "distinct" (letrec ((distinct (case-lambda (() (let fnrec2546 () (lambda (rf) (let fnrec2547 ((rf rf)) (let* ((seen (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-hash-set)))) (case-lambda (() (let fnrec2548 () (jolt-invoke rf))) ((result) (let fnrec2549 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2550 ((result result) (input input)) (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") seen) input) result (begin (jolt-invoke (var-deref "clojure.core" "vswap!") seen jolt-conj input) (jolt-invoke rf result input))))))))))) ((coll) (let fnrec2551 ((coll coll)) (let* ((step (letrec ((step (lambda (xs seen) (let fnrec2552 ((xs xs) (seen seen)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2553 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-invoke (lambda (G__112 seen) (let fnrec2554 ((G__112 G__112) (seen seen)) (let* ((G__113 G__112) (f (jolt-nth G__113 0 jolt-nil)) (xs G__113)) (let* ((temp__27__auto (jolt-seq xs))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (if (jolt-contains? seen f) (fnrec2554 (jolt-rest s) seen) (jolt-cons f (let* ((_a$2555 (jolt-rest s)) (_a$2556 (jolt-conj seen f))) (step _a$2555 _a$2556))))) jolt-nil))))) xs seen))))))))) step))) (jolt-invoke step coll (jolt-hash-set)))))))) distinct))) + (def-var! "clojure.core" "distinct" (letrec ((distinct (case-lambda (() (let fnrec2534 () (lambda (rf) (let fnrec2535 ((rf rf)) (let* ((seen (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-hash-set)))) (case-lambda (() (let fnrec2536 () (jolt-invoke rf))) ((result) (let fnrec2537 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2538 ((result result) (input input)) (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") seen) input) result (begin (jolt-invoke (var-deref "clojure.core" "vswap!") seen jolt-conj input) (jolt-invoke rf result input))))))))))) ((coll) (let fnrec2539 ((coll coll)) (let* ((step (letrec ((step (lambda (xs seen) (let fnrec2540 ((xs xs) (seen seen)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2541 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-invoke (lambda (G__110 seen) (let fnrec2542 ((G__110 G__110) (seen seen)) (let* ((G__111 G__110) (f (jolt-nth G__111 0 jolt-nil)) (xs G__111)) (let* ((temp__27__auto (jolt-seq xs))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (if (jolt-contains? seen f) (fnrec2542 (jolt-rest s) seen) (jolt-cons f (let* ((_a$2543 (jolt-rest s)) (_a$2544 (jolt-conj seen f))) (step _a$2543 _a$2544))))) jolt-nil))))) xs seen))))))))) step))) (jolt-invoke step coll (jolt-hash-set)))))))) distinct))) (guard (e (#t #f)) - (def-var! "clojure.core" "keep" (letrec ((keep (case-lambda ((f) (let fnrec2557 ((f f)) (lambda (rf) (let fnrec2558 ((rf rf)) (case-lambda (() (let fnrec2559 () (jolt-invoke rf))) ((result) (let fnrec2560 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2561 ((result result) (input input)) (let* ((v (jolt-invoke f input))) (if (jolt-nil? v) result (jolt-invoke rf result v)))))))))) ((f coll) (let fnrec2562 ((f f) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2563 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((x (jolt-invoke f (jolt-first s)))) (if (jolt-nil? x) (keep f (jolt-rest s)) (jolt-cons x (keep f (jolt-rest s)))))) jolt-nil))))))))))) keep))) + (def-var! "clojure.core" "keep" (letrec ((keep (case-lambda ((f) (let fnrec2545 ((f f)) (lambda (rf) (let fnrec2546 ((rf rf)) (case-lambda (() (let fnrec2547 () (jolt-invoke rf))) ((result) (let fnrec2548 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2549 ((result result) (input input)) (let* ((v (jolt-invoke f input))) (if (jolt-nil? v) result (jolt-invoke rf result v)))))))))) ((f coll) (let fnrec2550 ((f f) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2551 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((x (jolt-invoke f (jolt-first s)))) (if (jolt-nil? x) (keep f (jolt-rest s)) (jolt-cons x (keep f (jolt-rest s)))))) jolt-nil))))))))))) keep))) (guard (e (#t #f)) - (def-var! "clojure.core" "keep-indexed" (letrec ((keep-indexed (case-lambda ((f) (let fnrec2564 ((f f)) (lambda (rf) (let fnrec2565 ((rf rf)) (let* ((ia (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec2566 () (jolt-invoke rf))) ((result) (let fnrec2567 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2568 ((result result) (input input)) (let* ((i (jolt-invoke (var-deref "clojure.core" "vswap!") ia jolt-inc)) (v (jolt-invoke f i input))) (if (jolt-nil? v) result (jolt-invoke rf result v))))))))))) ((f coll) (let fnrec2569 ((f f) (coll coll)) (letrec* ((keepi (letrec ((keepi (lambda (idx coll) (let fnrec2570 ((idx idx) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2571 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((x (jolt-invoke f idx (jolt-first s)))) (if (jolt-nil? x) (let* ((_a$2572 (jolt-inc idx)) (_a$2573 (jolt-rest s))) (keepi _a$2572 _a$2573)) (jolt-cons x (let* ((_a$2574 (jolt-inc idx)) (_a$2575 (jolt-rest s))) (keepi _a$2574 _a$2575)))))) jolt-nil)))))))))) keepi))) (jolt-invoke keepi 0 coll))))))) keep-indexed))) + (def-var! "clojure.core" "keep-indexed" (letrec ((keep-indexed (case-lambda ((f) (let fnrec2552 ((f f)) (lambda (rf) (let fnrec2553 ((rf rf)) (let* ((ia (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec2554 () (jolt-invoke rf))) ((result) (let fnrec2555 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2556 ((result result) (input input)) (let* ((i (jolt-invoke (var-deref "clojure.core" "vswap!") ia jolt-inc)) (v (jolt-invoke f i input))) (if (jolt-nil? v) result (jolt-invoke rf result v))))))))))) ((f coll) (let fnrec2557 ((f f) (coll coll)) (letrec* ((keepi (letrec ((keepi (lambda (idx coll) (let fnrec2558 ((idx idx) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2559 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((x (jolt-invoke f idx (jolt-first s)))) (if (jolt-nil? x) (let* ((_a$2560 (jolt-inc idx)) (_a$2561 (jolt-rest s))) (keepi _a$2560 _a$2561)) (jolt-cons x (let* ((_a$2562 (jolt-inc idx)) (_a$2563 (jolt-rest s))) (keepi _a$2562 _a$2563)))))) jolt-nil)))))))))) keepi))) (jolt-invoke keepi 0 coll))))))) keep-indexed))) (guard (e (#t #f)) - (def-var! "clojure.core" "map-indexed" (letrec ((map-indexed (case-lambda ((f) (let fnrec2576 ((f f)) (lambda (rf) (let fnrec2577 ((rf rf)) (let* ((i (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec2578 () (jolt-invoke rf))) ((result) (let fnrec2579 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2580 ((result result) (input input)) (jolt-invoke rf result (jolt-invoke f (jolt-invoke (var-deref "clojure.core" "vswap!") i jolt-inc) input)))))))))) ((f coll) (let fnrec2581 ((f f) (coll coll)) (letrec* ((mapi (letrec ((mapi (lambda (idx coll) (let fnrec2582 ((idx idx) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2583 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((_a$2586 (jolt-invoke f idx (jolt-first s))) (_a$2587 (let* ((_a$2584 (jolt-inc idx)) (_a$2585 (jolt-rest s))) (mapi _a$2584 _a$2585)))) (jolt-cons _a$2586 _a$2587))) jolt-nil)))))))))) mapi))) (jolt-invoke mapi 0 coll))))))) map-indexed))) + (def-var! "clojure.core" "map-indexed" (letrec ((map-indexed (case-lambda ((f) (let fnrec2564 ((f f)) (lambda (rf) (let fnrec2565 ((rf rf)) (let* ((i (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec2566 () (jolt-invoke rf))) ((result) (let fnrec2567 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2568 ((result result) (input input)) (jolt-invoke rf result (jolt-invoke f (jolt-invoke (var-deref "clojure.core" "vswap!") i jolt-inc) input)))))))))) ((f coll) (let fnrec2569 ((f f) (coll coll)) (letrec* ((mapi (letrec ((mapi (lambda (idx coll) (let fnrec2570 ((idx idx) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2571 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((_a$2574 (jolt-invoke f idx (jolt-first s))) (_a$2575 (let* ((_a$2572 (jolt-inc idx)) (_a$2573 (jolt-rest s))) (mapi _a$2572 _a$2573)))) (jolt-cons _a$2574 _a$2575))) jolt-nil)))))))))) mapi))) (jolt-invoke mapi 0 coll))))))) map-indexed))) (guard (e (#t #f)) - (def-var! "clojure.core" "cycle" (letrec ((cycle (lambda (coll) (let fnrec2588 ((coll coll)) (if (jolt-truthy? (jolt-seq coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2589 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-concat coll (cycle coll)))))) (jolt-list )))))) cycle))) + (def-var! "clojure.core" "cycle" (letrec ((cycle (lambda (coll) (let fnrec2576 ((coll coll)) (if (jolt-truthy? (jolt-seq coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2577 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-concat coll (cycle coll)))))) (jolt-list )))))) cycle))) (guard (e (#t #f)) - (def-var! "clojure.core" "repeatedly" (letrec ((repeatedly (case-lambda ((f) (let fnrec2590 ((f f)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2591 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$2592 (jolt-invoke f)) (_a$2593 (repeatedly f))) (jolt-cons _a$2592 _a$2593)))))))) ((n f) (let fnrec2594 ((n n) (f f)) (jolt-take n (repeatedly f))))))) repeatedly))) + (def-var! "clojure.core" "repeatedly" (letrec ((repeatedly (case-lambda ((f) (let fnrec2578 ((f f)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2579 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$2580 (jolt-invoke f)) (_a$2581 (repeatedly f))) (jolt-cons _a$2580 _a$2581)))))))) ((n f) (let fnrec2582 ((n n) (f f)) (jolt-take n (repeatedly f))))))) repeatedly))) (guard (e (#t #f)) - (def-var! "clojure.core" "repeat" (letrec ((repeat (case-lambda ((x) (let fnrec2595 ((x x)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2596 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (repeat x)))))))) ((n x) (let fnrec2597 ((n n) (x x)) (jolt-take n (repeat x))))))) repeat))) + (def-var! "clojure.core" "repeat" (letrec ((repeat (case-lambda ((x) (let fnrec2583 ((x x)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2584 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (repeat x)))))))) ((n x) (let fnrec2585 ((n n) (x x)) (jolt-take n (repeat x))))))) repeat))) (guard (e (#t #f)) - (def-var! "clojure.core" "iterate" (letrec ((iterate (lambda (f x) (let fnrec2598 ((f f) (x x)) (jolt-cons x (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2599 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (iterate f (jolt-invoke f x))))))))))) iterate))) + (def-var! "clojure.core" "iterate" (letrec ((iterate (lambda (f x) (let fnrec2586 ((f f) (x x)) (jolt-cons x (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2587 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (iterate f (jolt-invoke f x))))))))))) iterate))) (guard (e (#t #f)) - (def-var! "clojure.core" "partition-all" (letrec ((partition-all (case-lambda ((n) (let fnrec2600 ((n n)) (lambda (rf) (let fnrec2601 ((rf rf)) (let* ((a (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector)))) (case-lambda (() (let fnrec2602 () (jolt-invoke rf))) ((result) (let fnrec2603 ((result result)) (let* ((result (if (jolt-zero? (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) result (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result v))))))) (jolt-invoke rf result)))) ((result input) (let fnrec2604 ((result result) (input input)) (begin (jolt-invoke (var-deref "clojure.core" "vswap!") a jolt-conj input) (if (jolt= n (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke rf result v))) result)))))))))) ((n coll) (let fnrec2605 ((n n) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec2606 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2607 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((i 0) (acc (jolt-list )) (cur s)) (let loop2608 ((i i) (acc acc) (cur cur)) (if (jolt-truthy? (let* ((and__25__auto (jolt-n< i n))) (if (jolt-truthy? and__25__auto) (jolt-seq cur) and__25__auto))) (let* ((_a$2609 (jolt-inc i)) (_a$2610 (jolt-cons (jolt-first cur) acc)) (_a$2611 (jolt-rest cur))) (loop2608 _a$2609 _a$2610 _a$2611)) (let* ((_a$2612 (jolt-reverse acc)) (_a$2613 (go cur))) (jolt-cons _a$2612 _a$2613))))) jolt-nil))))))))) go))) (jolt-invoke go coll)))) ((n step coll) (let fnrec2614 ((n n) (step step) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec2615 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2616 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((_a$2617 (jolt-take n s)) (_a$2618 (go (jolt-invoke (var-deref "clojure.core" "nthrest") s step)))) (jolt-cons _a$2617 _a$2618)) jolt-nil))))))))) go))) (jolt-invoke go coll))))))) partition-all))) + (def-var! "clojure.core" "partition-all" (letrec ((partition-all (case-lambda ((n) (let fnrec2588 ((n n)) (lambda (rf) (let fnrec2589 ((rf rf)) (let* ((a (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector)))) (case-lambda (() (let fnrec2590 () (jolt-invoke rf))) ((result) (let fnrec2591 ((result result)) (let* ((result (if (jolt-zero? (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) result (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result v))))))) (jolt-invoke rf result)))) ((result input) (let fnrec2592 ((result result) (input input)) (begin (jolt-invoke (var-deref "clojure.core" "vswap!") a jolt-conj input) (if (jolt= n (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke rf result v))) result)))))))))) ((n coll) (let fnrec2593 ((n n) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec2594 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2595 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((i 0) (acc (jolt-list )) (cur s)) (let loop2596 ((i i) (acc acc) (cur cur)) (if (jolt-truthy? (let* ((and__25__auto (< i n))) (if (jolt-truthy? and__25__auto) (jolt-seq cur) and__25__auto))) (let* ((_a$2597 (jolt-inc i)) (_a$2598 (jolt-cons (jolt-first cur) acc)) (_a$2599 (jolt-rest cur))) (loop2596 _a$2597 _a$2598 _a$2599)) (let* ((_a$2600 (jolt-reverse acc)) (_a$2601 (go cur))) (jolt-cons _a$2600 _a$2601))))) jolt-nil))))))))) go))) (jolt-invoke go coll)))) ((n step coll) (let fnrec2602 ((n n) (step step) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec2603 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2604 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((_a$2605 (jolt-take n s)) (_a$2606 (go (jolt-invoke (var-deref "clojure.core" "nthrest") s step)))) (jolt-cons _a$2605 _a$2606)) jolt-nil))))))))) go))) (jolt-invoke go coll))))))) partition-all))) (guard (e (#t #f)) - (def-var! "clojure.core" "interpose" (letrec ((interpose (case-lambda ((sep) (let fnrec2619 ((sep sep)) (lambda (rf) (let fnrec2620 ((rf rf)) (let* ((started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec2621 () (jolt-invoke rf))) ((result) (let fnrec2622 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2623 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") started)) (let* ((sepr (jolt-invoke rf result sep))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") sepr)) sepr (jolt-invoke rf sepr input))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke rf result input))))))))))) ((sep coll) (let fnrec2624 ((sep sep) (coll coll)) (jolt-drop 1 (jolt-invoke (var-deref "clojure.core" "interleave") (jolt-invoke (var-deref "clojure.core" "repeat") sep) coll))))))) interpose))) + (def-var! "clojure.core" "interpose" (letrec ((interpose (case-lambda ((sep) (let fnrec2607 ((sep sep)) (lambda (rf) (let fnrec2608 ((rf rf)) (let* ((started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec2609 () (jolt-invoke rf))) ((result) (let fnrec2610 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2611 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") started)) (let* ((sepr (jolt-invoke rf result sep))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") sepr)) sepr (jolt-invoke rf sepr input))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke rf result input))))))))))) ((sep coll) (let fnrec2612 ((sep sep) (coll coll)) (jolt-drop 1 (jolt-invoke (var-deref "clojure.core" "interleave") (jolt-invoke (var-deref "clojure.core" "repeat") sep) coll))))))) interpose))) (guard (e (#t #f)) - (def-var! "clojure.core" "take-nth" (letrec ((take-nth (case-lambda ((n) (let fnrec2625 ((n n)) (lambda (rf) (let fnrec2626 ((rf rf)) (let* ((iv (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec2627 () (jolt-invoke rf))) ((result) (let fnrec2628 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2629 ((result result) (input input)) (let* ((i (jolt-invoke (var-deref "clojure.core" "vswap!") iv jolt-inc))) (if (jolt-zero? (jolt-rem i n)) (jolt-invoke rf result input) result)))))))))) ((n coll) (let fnrec2630 ((n n) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2631 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((_a$2632 (jolt-first s)) (_a$2633 (take-nth n (jolt-drop n s)))) (jolt-cons _a$2632 _a$2633))) jolt-nil))))))))))) take-nth))) + (def-var! "clojure.core" "take-nth" (letrec ((take-nth (case-lambda ((n) (let fnrec2613 ((n n)) (lambda (rf) (let fnrec2614 ((rf rf)) (let* ((iv (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec2615 () (jolt-invoke rf))) ((result) (let fnrec2616 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2617 ((result result) (input input)) (let* ((i (jolt-invoke (var-deref "clojure.core" "vswap!") iv jolt-inc))) (if (jolt-zero? (remainder i n)) (jolt-invoke rf result input) result)))))))))) ((n coll) (let fnrec2618 ((n n) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2619 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__27__auto (jolt-seq coll))) (if (jolt-truthy? temp__27__auto) (let* ((s temp__27__auto)) (let* ((_a$2620 (jolt-first s)) (_a$2621 (take-nth n (jolt-drop n s)))) (jolt-cons _a$2620 _a$2621))) jolt-nil))))))))))) take-nth))) (guard (e (#t #f)) - (def-var! "clojure.core" "pmap" (letrec ((pmap (case-lambda ((f coll) (let fnrec2634 ((f f) (coll coll)) (jolt-map (var-deref "clojure.core" "deref") (jolt-invoke (var-deref "clojure.core" "doall") (jolt-map (lambda (x) (let fnrec2635 ((x x)) (jolt-invoke (var-deref "clojure.core" "future-call") (lambda () (let fnrec2636 () (jolt-invoke f x)))))) coll))))) ((f coll . colls) (let fnrec2637 ((f f) (coll coll) (colls (list->cseq colls))) (let* ((_a$2639 (lambda (xs) (let fnrec2638 ((xs xs)) (jolt-apply f xs)))) (_a$2640 (jolt-apply jolt-map jolt-vector coll colls))) (pmap _a$2639 _a$2640))))))) pmap))) + (def-var! "clojure.core" "pmap" (letrec ((pmap (case-lambda ((f coll) (let fnrec2622 ((f f) (coll coll)) (jolt-map (var-deref "clojure.core" "deref") (jolt-invoke (var-deref "clojure.core" "doall") (jolt-map (lambda (x) (let fnrec2623 ((x x)) (jolt-invoke (var-deref "clojure.core" "future-call") (lambda () (let fnrec2624 () (jolt-invoke f x)))))) coll))))) ((f coll . colls) (let fnrec2625 ((f f) (coll coll) (colls (list->cseq colls))) (let* ((_a$2627 (lambda (xs) (let fnrec2626 ((xs xs)) (jolt-apply f xs)))) (_a$2628 (jolt-apply jolt-map jolt-vector coll colls))) (pmap _a$2627 _a$2628))))))) pmap))) (guard (e (#t #f)) - (def-var! "clojure.core" "pcalls" (letrec ((pcalls (lambda fns (let fnrec2641 ((fns (list->cseq fns))) (jolt-invoke (var-deref "clojure.core" "pmap") (lambda (f) (let fnrec2642 ((f f)) (jolt-invoke f))) fns))))) pcalls))) + (def-var! "clojure.core" "pcalls" (letrec ((pcalls (lambda fns (let fnrec2629 ((fns (list->cseq fns))) (jolt-invoke (var-deref "clojure.core" "pmap") (lambda (f) (let fnrec2630 ((f f)) (jolt-invoke f))) fns))))) pcalls))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "reader-eof" (keyword "jolt" "reader-eof") (let* ((_o$2643 (keyword #f "private")) (_o$2644 #t)) (jolt-hash-map _o$2643 _o$2644)))) + (def-var-with-meta! "clojure.core" "reader-eof" (keyword "jolt" "reader-eof") (let* ((_o$2631 (keyword #f "private")) (_o$2632 #t)) (jolt-hash-map _o$2631 _o$2632)))) (guard (e (#t #f)) - (begin (def-var! "clojure.core" "IReader" (jolt-invoke (var-deref "clojure.core" "make-protocol") "IReader" (let* ((_o$2651 (keyword #f "-read-line")) (_o$2652 (let* ((_o$2645 (keyword #f "name")) (_o$2646 "-read-line")) (jolt-hash-map _o$2645 _o$2646))) (_o$2653 (keyword #f "-read-form")) (_o$2654 (let* ((_o$2647 (keyword #f "name")) (_o$2648 "-read-form")) (jolt-hash-map _o$2647 _o$2648))) (_o$2655 (keyword #f "-read+string")) (_o$2656 (let* ((_o$2649 (keyword #f "name")) (_o$2650 "-read+string")) (jolt-hash-map _o$2649 _o$2650)))) (jolt-hash-map _o$2651 _o$2652 _o$2653 _o$2654 _o$2655 _o$2656)))) (jolt-invoke (var-deref "clojure.core" "register-protocol-methods!") "IReader" (let* ((_o$2657 "-read-line") (_o$2658 "-read-form") (_o$2659 "-read+string")) (jolt-vector _o$2657 _o$2658 _o$2659))) (def-var! "clojure.core" "-read-line" (lambda (G__114) (let fnrec2660 ((G__114 G__114)) (protocol-dispatch1 "IReader" "-read-line" G__114)))) (def-var! "clojure.core" "-read-form" (lambda (G__115) (let fnrec2661 ((G__115 G__115)) (protocol-dispatch1 "IReader" "-read-form" G__115)))) (def-var! "clojure.core" "-read+string" (lambda (G__116 G__117 G__118) (let fnrec2662 ((G__116 G__116) (G__117 G__117) (G__118 G__118)) (protocol-dispatch3 "IReader" "-read+string" G__116 G__117 G__118)))))) + (begin (def-var! "clojure.core" "IReader" (jolt-invoke (var-deref "clojure.core" "make-protocol") "IReader" (let* ((_o$2639 (keyword #f "-read-line")) (_o$2640 (let* ((_o$2633 (keyword #f "name")) (_o$2634 "-read-line")) (jolt-hash-map _o$2633 _o$2634))) (_o$2641 (keyword #f "-read-form")) (_o$2642 (let* ((_o$2635 (keyword #f "name")) (_o$2636 "-read-form")) (jolt-hash-map _o$2635 _o$2636))) (_o$2643 (keyword #f "-read+string")) (_o$2644 (let* ((_o$2637 (keyword #f "name")) (_o$2638 "-read+string")) (jolt-hash-map _o$2637 _o$2638)))) (jolt-hash-map _o$2639 _o$2640 _o$2641 _o$2642 _o$2643 _o$2644)))) (jolt-invoke (var-deref "clojure.core" "register-protocol-methods!") "IReader" (let* ((_o$2645 "-read-line") (_o$2646 "-read-form") (_o$2647 "-read+string")) (jolt-vector _o$2645 _o$2646 _o$2647))) (def-var! "clojure.core" "-read-line" (lambda (G__112) (let fnrec2648 ((G__112 G__112)) (protocol-dispatch1 "IReader" "-read-line" G__112)))) (def-var! "clojure.core" "-read-form" (lambda (G__113) (let fnrec2649 ((G__113 G__113)) (protocol-dispatch1 "IReader" "-read-form" G__113)))) (def-var! "clojure.core" "-read+string" (lambda (G__114 G__115 G__116) (let fnrec2650 ((G__114 G__114) (G__115 G__115) (G__116 G__116)) (protocol-dispatch3 "IReader" "-read+string" G__114 G__115 G__116)))))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "__string-reader" (letrec ((__string-reader (lambda (s) (let fnrec2663 ((s s)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "atom") s))) (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$2673 (keyword #f "-read-line")) (_o$2674 (lambda (_) (let fnrec2664 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") buf))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-nil? i) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) jolt-nil))))) (_o$2675 (keyword #f "-read-form")) (_o$2676 (lambda (_) (let fnrec2665 ((_ _)) (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") buf)))) (if (jolt-nil? r) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (jolt-nth r 0))))))) (_o$2677 (keyword #f "-read+string")) (_o$2678 (lambda (_ eof-error? eof-value) (let fnrec2666 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") buf)) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-nil? r) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$2667 eof-value) (_o$2668 "")) (jolt-vector _o$2667 _o$2668))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (let* ((_o$2671 (jolt-nth r 0)) (_o$2672 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$2669 (jolt-count s)) (_a$2670 (jolt-count (jolt-nth r 1)))) (jolt-n- _a$2669 _a$2670))))) (jolt-vector _o$2671 _o$2672))))))))) (jolt-hash-map _o$2673 _o$2674 _o$2675 _o$2676 _o$2677 _o$2678)) "IReader")))))) __string-reader) (let* ((_o$2679 (keyword #f "doc")) (_o$2680 "A reader over string s (the with-in-str expansion calls this).")) (jolt-hash-map _o$2679 _o$2680)))) + (def-var-with-meta! "clojure.core" "__string-reader" (letrec ((__string-reader (lambda (s) (let fnrec2651 ((s s)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "atom") s))) (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$2661 (keyword #f "-read-line")) (_o$2662 (lambda (_) (let fnrec2652 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") buf))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-nil? i) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) jolt-nil))))) (_o$2663 (keyword #f "-read-form")) (_o$2664 (lambda (_) (let fnrec2653 ((_ _)) (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") buf)))) (if (jolt-nil? r) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (jolt-nth r 0))))))) (_o$2665 (keyword #f "-read+string")) (_o$2666 (lambda (_ eof-error? eof-value) (let fnrec2654 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") buf)) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-nil? r) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$2655 eof-value) (_o$2656 "")) (jolt-vector _o$2655 _o$2656))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (let* ((_o$2659 (jolt-nth r 0)) (_o$2660 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$2657 (jolt-count s)) (_a$2658 (jolt-count (jolt-nth r 1)))) (- _a$2657 _a$2658))))) (jolt-vector _o$2659 _o$2660))))))))) (jolt-hash-map _o$2661 _o$2662 _o$2663 _o$2664 _o$2665 _o$2666)) "IReader")))))) __string-reader) (let* ((_o$2667 (keyword #f "doc")) (_o$2668 "A reader over string s (the with-in-str expansion calls this).")) (jolt-hash-map _o$2667 _o$2668)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "stdin-buf" (jolt-invoke (var-deref "clojure.core" "atom") "") (let* ((_o$2681 (keyword #f "private")) (_o$2682 #t)) (jolt-hash-map _o$2681 _o$2682)))) + (def-var-with-meta! "clojure.core" "stdin-buf" (jolt-invoke (var-deref "clojure.core" "atom") "") (let* ((_o$2669 (keyword #f "private")) (_o$2670 #t)) (jolt-hash-map _o$2669 _o$2670)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "*in*" (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$2696 (keyword #f "-read-line")) (_o$2697 (lambda (_) (let fnrec2683 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf")))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-nil? i) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) (jolt-invoke (var-deref "clojure.core" "__stdin-read-line"))))))) (_o$2698 (keyword #f "-read-form")) (_o$2699 (lambda (_) (let fnrec2684 ((_ _)) (let* () (let loop2685 () (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))))) (if (jolt-nil? r) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-nil? line) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec2686 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop2685 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (jolt-nth r 0))))))))) (_o$2700 (keyword #f "-read+string")) (_o$2701 (lambda (_ eof-error? eof-value) (let fnrec2687 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* () (let loop2688 () (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-nil? r) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-nil? line) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$2689 eof-value) (_o$2690 "")) (jolt-vector _o$2689 _o$2690))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec2691 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop2688 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (let* ((_o$2694 (jolt-nth r 0)) (_o$2695 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$2692 (jolt-count s)) (_a$2693 (jolt-count (jolt-nth r 1)))) (jolt-n- _a$2692 _a$2693))))) (jolt-vector _o$2694 _o$2695))))))))))) (jolt-hash-map _o$2696 _o$2697 _o$2698 _o$2699 _o$2700 _o$2701)) "IReader") (let* ((_o$2702 (keyword #f "dynamic")) (_o$2703 #t)) (jolt-hash-map _o$2702 _o$2703)))) + (def-var-with-meta! "clojure.core" "*in*" (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$2684 (keyword #f "-read-line")) (_o$2685 (lambda (_) (let fnrec2671 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf")))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-nil? i) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) (jolt-invoke (var-deref "clojure.core" "__stdin-read-line"))))))) (_o$2686 (keyword #f "-read-form")) (_o$2687 (lambda (_) (let fnrec2672 ((_ _)) (let* () (let loop2673 () (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))))) (if (jolt-nil? r) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-nil? line) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec2674 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop2673 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (jolt-nth r 0))))))))) (_o$2688 (keyword #f "-read+string")) (_o$2689 (lambda (_ eof-error? eof-value) (let fnrec2675 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* () (let loop2676 () (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-nil? r) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-nil? line) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$2677 eof-value) (_o$2678 "")) (jolt-vector _o$2677 _o$2678))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec2679 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop2676 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (let* ((_o$2682 (jolt-nth r 0)) (_o$2683 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$2680 (jolt-count s)) (_a$2681 (jolt-count (jolt-nth r 1)))) (- _a$2680 _a$2681))))) (jolt-vector _o$2682 _o$2683))))))))))) (jolt-hash-map _o$2684 _o$2685 _o$2686 _o$2687 _o$2688 _o$2689)) "IReader") (let* ((_o$2690 (keyword #f "dynamic")) (_o$2691 #t)) (jolt-hash-map _o$2690 _o$2691)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "read-line" (letrec ((read-line (lambda () (let fnrec2704 () (jolt-invoke (var-deref "clojure.core" "-read-line") (var-deref "clojure.core" "*in*")))))) read-line) (let* ((_o$2705 (keyword #f "doc")) (_o$2706 "Reads the next line from the stream that is the current value of *in*.\n Returns nil at EOF.")) (jolt-hash-map _o$2705 _o$2706)))) + (def-var-with-meta! "clojure.core" "read-line" (letrec ((read-line (lambda () (let fnrec2692 () (jolt-invoke (var-deref "clojure.core" "-read-line") (var-deref "clojure.core" "*in*")))))) read-line) (let* ((_o$2693 (keyword #f "doc")) (_o$2694 "Reads the next line from the stream that is the current value of *in*.\n Returns nil at EOF.")) (jolt-hash-map _o$2693 _o$2694)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "read" (letrec ((read (case-lambda (() (let fnrec2707 () (read (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec2708 ((stream stream)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) v)))) ((stream eof-error? eof-value) (let fnrec2709 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) eof-value) v))))))) read) (let* ((_o$2710 (keyword #f "doc")) (_o$2711 "Reads the next object from stream (defaults to *in*). At EOF, throws \x2014;\n or returns eof-value when eof-error? is false.")) (jolt-hash-map _o$2710 _o$2711)))) + (def-var-with-meta! "clojure.core" "read" (letrec ((read (case-lambda (() (let fnrec2695 () (read (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec2696 ((stream stream)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) v)))) ((stream eof-error? eof-value) (let fnrec2697 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) eof-value) v))))))) read) (let* ((_o$2698 (keyword #f "doc")) (_o$2699 "Reads the next object from stream (defaults to *in*). At EOF, throws \x2014;\n or returns eof-value when eof-error? is false.")) (jolt-hash-map _o$2698 _o$2699)))) (guard (e (#t #f)) (def-var! "clojure.core" "with-in-str" - (lambda (s . body) (let fnrec2712 ((s s) (body (list->cseq body))) (let* ((_a$2719 (var-deref "clojure.core" "__sqcat")) (_a$2720 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "binding"))) (_a$2721 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2716 (var-deref "clojure.core" "__sqvec")) (_a$2717 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "*in*"))) (_a$2718 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2713 (var-deref "clojure.core" "__sqcat")) (_a$2714 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__string-reader"))) (_a$2715 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$2713 _a$2714 _a$2715))))) (jolt-invoke _a$2716 _a$2717 _a$2718)))) (_a$2722 body)) (jolt-invoke _a$2719 _a$2720 _a$2721 _a$2722))))) + (lambda (s . body) (let fnrec2700 ((s s) (body (list->cseq body))) (let* ((_a$2707 (var-deref "clojure.core" "__sqcat")) (_a$2708 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "binding"))) (_a$2709 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2704 (var-deref "clojure.core" "__sqvec")) (_a$2705 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "*in*"))) (_a$2706 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2701 (var-deref "clojure.core" "__sqcat")) (_a$2702 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__string-reader"))) (_a$2703 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$2701 _a$2702 _a$2703))))) (jolt-invoke _a$2704 _a$2705 _a$2706)))) (_a$2710 body)) (jolt-invoke _a$2707 _a$2708 _a$2709 _a$2710))))) (mark-macro! "clojure.core" "with-in-str")) (guard (e (#t #f)) - (def-var! "clojure.core" "read+string" (letrec ((read+string (case-lambda (() (let fnrec2723 () (read+string (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec2724 ((stream stream)) (read+string stream #t jolt-nil))) ((stream eof-error? eof-value) (let fnrec2725 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (jolt-invoke (var-deref "clojure.core" "-read+string") stream eof-error? eof-value)))))) read+string))) + (def-var! "clojure.core" "read+string" (letrec ((read+string (case-lambda (() (let fnrec2711 () (read+string (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec2712 ((stream stream)) (read+string stream #t jolt-nil))) ((stream eof-error? eof-value) (let fnrec2713 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (jolt-invoke (var-deref "clojure.core" "-read+string") stream eof-error? eof-value)))))) read+string))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "line-seq" (letrec ((line-seq (lambda (rdr) (let fnrec2726 ((rdr rdr)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") rdr)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "str-split") "\n" rdr)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2727 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((line (jolt-invoke (var-deref "clojure.core" "-read-line") rdr))) (if (jolt-truthy? line) (jolt-cons line (line-seq rdr)) jolt-nil))))))))))) line-seq) (let* ((_o$2728 (keyword #f "doc")) (_o$2729 "Returns the lines of text from rdr as a lazy sequence of strings, as by\n read-line. (Jolt extension kept from the old kernel stub: a plain string\n splits into its lines.)")) (jolt-hash-map _o$2728 _o$2729)))) + (def-var-with-meta! "clojure.core" "line-seq" (letrec ((line-seq (lambda (rdr) (let fnrec2714 ((rdr rdr)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") rdr)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "str-split") "\n" rdr)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2715 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((line (jolt-invoke (var-deref "clojure.core" "-read-line") rdr))) (if (jolt-truthy? line) (jolt-cons line (line-seq rdr)) jolt-nil))))))))))) line-seq) (let* ((_o$2716 (keyword #f "doc")) (_o$2717 "Returns the lines of text from rdr as a lazy sequence of strings, as by\n read-line. (Jolt extension kept from the old kernel stub: a plain string\n splits into its lines.)")) (jolt-hash-map _o$2716 _o$2717)))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol "clojure.core" "print-method") (lambda (x writer) (let fnrec2730 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "__type-tag") x))))))) + (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol #f "print-method") (lambda (x writer) (let fnrec2718 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "__type-tag") x))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword #f "default") (lambda (o w) (let fnrec2731 ((o o) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "__pr-str1") o))) jolt-nil))) "clojure.core")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword #f "default") (lambda (o w) (let fnrec2719 ((o o) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "__pr-str1") o))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol "clojure.core" "print-dup") (lambda (x writer) (let fnrec2732 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "__type-tag") x))))))) + (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol #f "print-dup") (lambda (x writer) (let fnrec2720 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "__type-tag") x))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-dup") (keyword #f "default") (lambda (o w) (let fnrec2733 ((o o) (w w)) (jolt-invoke (var-deref "clojure.core" "print-method") o w))) "clojure.core")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-dup") (keyword #f "default") (lambda (o w) (let fnrec2721 ((o o) (w w)) (jolt-invoke (var-deref "clojure.core" "print-method") o w))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "uuid") (lambda (u w) (let fnrec2734 ((u u) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#uuid \"" (jolt-get u (keyword #f "str")) "\""))) jolt-nil))) "clojure.core")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "uuid") (lambda (u w) (let fnrec2722 ((u u) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#uuid \"" (jolt-get u (keyword #f "str")) "\""))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "regex") (lambda (re w) (let fnrec2735 ((re re) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#\"" (jolt-get re (keyword #f "source")) "\""))) jolt-nil))) "clojure.core")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "regex") (lambda (re w) (let fnrec2723 ((re re) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#\"" (jolt-get re (keyword #f "source")) "\""))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "transient") (lambda (t w) (let fnrec2736 ((t t) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#"))) jolt-nil))) "clojure.core")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "transient") (lambda (t w) (let fnrec2724 ((t t) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#"))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "chan") (lambda (c w) (let fnrec2737 ((c c) (w w)) (begin (record-method-dispatch w "write" (jolt-vector "#")) jolt-nil))) "clojure.core")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "chan") (lambda (c w) (let fnrec2725 ((c c) (w w)) (begin (record-method-dispatch w "write" (jolt-vector "#")) jolt-nil))))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "agent" (letrec ((agent (lambda (state . _opts) (let fnrec2738 ((state state) (_opts (list->cseq _opts))) (jolt-invoke (var-deref "clojure.core" "atom") state))))) agent) (let* ((_o$2739 (keyword #f "doc")) (_o$2740 "Creates an agent (an atom on jolt \x2014; synchronous, no async dispatch).")) (jolt-hash-map _o$2739 _o$2740)))) + (def-var-with-meta! "clojure.core" "agent" (letrec ((agent (lambda (state . _opts) (let fnrec2726 ((state state) (_opts (list->cseq _opts))) (jolt-invoke (var-deref "clojure.core" "atom") state))))) agent) (let* ((_o$2727 (keyword #f "doc")) (_o$2728 "Creates an agent (an atom on jolt \x2014; synchronous, no async dispatch).")) (jolt-hash-map _o$2727 _o$2728)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "send-off" (letrec ((send-off (lambda (a f . args) (let fnrec2741 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send-off) (let* ((_o$2742 (keyword #f "doc")) (_o$2743 "Apply (action state & args) to the agent's state immediately; return the agent.")) (jolt-hash-map _o$2742 _o$2743)))) + (def-var-with-meta! "clojure.core" "send-off" (letrec ((send-off (lambda (a f . args) (let fnrec2729 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send-off) (let* ((_o$2730 (keyword #f "doc")) (_o$2731 "Apply (action state & args) to the agent's state immediately; return the agent.")) (jolt-hash-map _o$2730 _o$2731)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "send" (letrec ((send (lambda (a f . args) (let fnrec2744 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send) (let* ((_o$2745 (keyword #f "doc")) (_o$2746 "Like send-off on jolt (no separate thread pool).")) (jolt-hash-map _o$2745 _o$2746)))) + (def-var-with-meta! "clojure.core" "send" (letrec ((send (lambda (a f . args) (let fnrec2732 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send) (let* ((_o$2733 (keyword #f "doc")) (_o$2734 "Like send-off on jolt (no separate thread pool).")) (jolt-hash-map _o$2733 _o$2734)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "agent-error" (letrec ((agent-error (lambda (_a) (let fnrec2747 ((_a _a)) jolt-nil)))) agent-error) (let* ((_o$2748 (keyword #f "doc")) (_o$2749 "jolt agents never enter an error state.")) (jolt-hash-map _o$2748 _o$2749)))) + (def-var-with-meta! "clojure.core" "agent-error" (letrec ((agent-error (lambda (_a) (let fnrec2735 ((_a _a)) jolt-nil)))) agent-error) (let* ((_o$2736 (keyword #f "doc")) (_o$2737 "jolt agents never enter an error state.")) (jolt-hash-map _o$2736 _o$2737)))) (guard (e (#t #f)) - (def-var! "clojure.string" "blank?" (letrec ((blank? (lambda (s) (let fnrec2442 ((s s)) (if (jolt-nil? s) #t (jolt= 0 (jolt-count (jolt-invoke (var-deref "clojure.core" "str-trim") s)))))))) blank?))) + (def-var! "clojure.string" "blank?" (letrec ((blank? (lambda (s) (let fnrec2433 ((s s)) (if (jolt-nil? s) #t (jolt= 0 (jolt-count (jolt-invoke (var-deref "clojure.core" "str-trim") s)))))))) blank?))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.string" "to-str" (letrec ((to-str (lambda (s) (let fnrec2443 ((s s)) (if (jolt-nil? s) (jolt-throw (host-new "NullPointerException" "s")) (record-method-dispatch s "toString" (jolt-vector))))))) to-str) (let* ((_o$2444 (keyword #f "private")) (_o$2445 #t)) (jolt-hash-map _o$2444 _o$2445)))) + (def-var! "clojure.string" "capitalize" (letrec ((capitalize (lambda (s) (let fnrec2434 ((s s)) (if (< 1 (jolt-count s)) (let* ((_a$2435 (var-deref "clojure.core" "str")) (_a$2436 (jolt-invoke (var-deref "clojure.core" "str-upper") (jolt-invoke (var-deref "clojure.core" "subs") s 0 1))) (_a$2437 (jolt-invoke (var-deref "clojure.core" "str-lower") (jolt-invoke (var-deref "clojure.core" "subs") s 1)))) (jolt-invoke _a$2435 _a$2436 _a$2437)) (jolt-invoke (var-deref "clojure.core" "str-upper") s)))))) capitalize))) (guard (e (#t #f)) - (def-var! "clojure.string" "capitalize" (letrec ((capitalize (lambda (s) (let fnrec2446 ((s s)) (let* ((s (jolt-invoke (var-deref "clojure.string" "to-str") s))) (if (jolt-n< 1 (jolt-count s)) (let* ((_a$2447 (var-deref "clojure.core" "str")) (_a$2448 (jolt-invoke (var-deref "clojure.core" "str-upper") (jolt-invoke (var-deref "clojure.core" "subs") s 0 1))) (_a$2449 (jolt-invoke (var-deref "clojure.core" "str-lower") (jolt-invoke (var-deref "clojure.core" "subs") s 1)))) (jolt-invoke _a$2447 _a$2448 _a$2449)) (jolt-invoke (var-deref "clojure.core" "str-upper") s))))))) capitalize))) + (def-var! "clojure.string" "lower-case" (letrec ((lower-case (lambda (s) (let fnrec2438 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-lower") s))))) lower-case))) (guard (e (#t #f)) - (def-var! "clojure.string" "lower-case" (letrec ((lower-case (lambda (s) (let fnrec2450 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-lower") (jolt-invoke (var-deref "clojure.string" "to-str") s)))))) lower-case))) + (def-var! "clojure.string" "upper-case" (letrec ((upper-case (lambda (s) (let fnrec2439 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-upper") s))))) upper-case))) (guard (e (#t #f)) - (def-var! "clojure.string" "upper-case" (letrec ((upper-case (lambda (s) (let fnrec2451 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-upper") (jolt-invoke (var-deref "clojure.string" "to-str") s)))))) upper-case))) + (def-var! "clojure.string" "includes?" (letrec ((includes? (lambda (s substr) (let fnrec2440 ((s s) (substr substr)) (jolt-not (jolt-nil? (jolt-invoke (var-deref "clojure.core" "str-find") substr s))))))) includes?))) (guard (e (#t #f)) - (def-var! "clojure.string" "includes?" (letrec ((includes? (lambda (s substr) (let fnrec2452 ((s s) (substr substr)) (jolt-not (jolt-nil? (jolt-invoke (var-deref "clojure.core" "str-find") substr (jolt-invoke (var-deref "clojure.string" "to-str") s)))))))) includes?))) + (def-var! "clojure.string" "join" (letrec ((join (case-lambda ((coll) (let fnrec2441 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "str-join") coll))) ((separator coll) (let fnrec2442 ((separator separator) (coll coll)) (jolt-invoke (var-deref "clojure.core" "str-join") coll separator)))))) join))) (guard (e (#t #f)) - (def-var! "clojure.string" "join" (letrec ((join (case-lambda ((coll) (let fnrec2453 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "str-join") coll))) ((separator coll) (let fnrec2454 ((separator separator) (coll coll)) (jolt-invoke (var-deref "clojure.core" "str-join") coll separator)))))) join))) + (def-var! "clojure.string" "replace" (letrec ((replace (lambda (s match replacement) (let fnrec2443 ((s s) (match match) (replacement replacement)) (jolt-invoke (var-deref "clojure.core" "str-replace-all") match replacement s))))) replace))) (guard (e (#t #f)) - (def-var! "clojure.string" "replace" (letrec ((replace (lambda (s match replacement) (let fnrec2455 ((s s) (match match) (replacement replacement)) (jolt-invoke (var-deref "clojure.core" "str-replace-all") match replacement (jolt-invoke (var-deref "clojure.string" "to-str") s)))))) replace))) + (def-var! "clojure.string" "replace-first" (letrec ((replace-first (lambda (s match replacement) (let fnrec2444 ((s s) (match match) (replacement replacement)) (jolt-invoke (var-deref "clojure.core" "str-replace") match replacement s))))) replace-first))) (guard (e (#t #f)) - (def-var! "clojure.string" "replace-first" (letrec ((replace-first (lambda (s match replacement) (let fnrec2456 ((s s) (match match) (replacement replacement)) (jolt-invoke (var-deref "clojure.core" "str-replace") match replacement (jolt-invoke (var-deref "clojure.string" "to-str") s)))))) replace-first))) + (def-var! "clojure.string" "reverse" (letrec ((reverse (lambda (s) (let fnrec2445 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-reverse-b") s))))) reverse))) (guard (e (#t #f)) - (def-var! "clojure.string" "reverse" (letrec ((reverse (lambda (s) (let fnrec2457 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-reverse-b") s))))) reverse))) + (def-var! "clojure.string" "str-reverse" (letrec ((str-reverse (lambda (s) (let fnrec2446 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-reverse-b") s))))) str-reverse))) (guard (e (#t #f)) - (def-var! "clojure.string" "str-reverse" (letrec ((str-reverse (lambda (s) (let fnrec2458 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-reverse-b") s))))) str-reverse))) + (def-var! "clojure.string" "split" (letrec ((split (case-lambda ((s re) (let fnrec2447 ((s s) (re re)) (split s re 0))) ((s re limit) (let fnrec2448 ((s s) (re re) (limit limit)) (let* ((parts (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "str-split") re s (if (jolt-pos? limit) limit jolt-nil))))) (if (let* ((and__25__auto (jolt-zero? limit))) (if (jolt-truthy? and__25__auto) (> (jolt-count parts) 1) and__25__auto)) (let* ((v parts)) (let loop2449 ((v v)) (if (jolt-truthy? (let* ((and__25__auto (jolt-seq v))) (if (jolt-truthy? and__25__auto) (jolt= "" (jolt-peek v)) and__25__auto))) (loop2449 (jolt-pop v)) v))) parts))))))) split))) (guard (e (#t #f)) - (def-var! "clojure.string" "split" (letrec ((split (case-lambda ((s re) (let fnrec2459 ((s s) (re re)) (split s re 0))) ((s re limit) (let fnrec2460 ((s s) (re re) (limit limit)) (let* ((parts (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "str-split") re s (if (jolt-pos? limit) limit jolt-nil))))) (if (let* ((and__25__auto (jolt-zero? limit))) (if (jolt-truthy? and__25__auto) (jolt-n> (jolt-count parts) 1) and__25__auto)) (let* ((v parts)) (let loop2461 ((v v)) (if (jolt-truthy? (let* ((and__25__auto (jolt-seq v))) (if (jolt-truthy? and__25__auto) (jolt= "" (jolt-peek v)) and__25__auto))) (loop2461 (jolt-pop v)) v))) parts))))))) split))) + (def-var-with-meta! "clojure.string" "split-lines" (letrec ((split-lines (lambda (s) (let fnrec2450 ((s s)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "str-split") (jolt-regex "\\r?\\n") s)))))) split-lines) (let* ((_o$2451 (keyword #f "doc")) (_o$2452 "Split s on \\n or \\r\\n, returning a vector of lines.")) (jolt-hash-map _o$2451 _o$2452)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.string" "split-lines" (letrec ((split-lines (lambda (s) (let fnrec2462 ((s s)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "str-split") (jolt-regex "\\r?\\n") s)))))) split-lines) (let* ((_o$2463 (keyword #f "doc")) (_o$2464 "Split s on \\n or \\r\\n, returning a vector of lines.")) (jolt-hash-map _o$2463 _o$2464)))) + (def-var! "clojure.string" "starts-with?" (letrec ((starts-with? (lambda (s substr) (let fnrec2453 ((s s) (substr substr)) (let* ((slen (jolt-count s)) (slen2 (jolt-count substr))) (let* ((and__25__auto (>= slen slen2))) (if (jolt-truthy? and__25__auto) (jolt= (jolt-invoke (var-deref "clojure.core" "subs") s 0 slen2) substr) and__25__auto))))))) starts-with?))) (guard (e (#t #f)) - (def-var! "clojure.string" "starts-with?" (letrec ((starts-with? (lambda (s substr) (let fnrec2465 ((s s) (substr substr)) (begin (if (jolt-nil? substr) (jolt-throw (host-new "NullPointerException" "substr")) jolt-nil) (let* ((s (jolt-invoke (var-deref "clojure.string" "to-str") s)) (slen (jolt-count s)) (slen2 (jolt-count substr))) (let* ((and__25__auto (jolt-n>= slen slen2))) (if (jolt-truthy? and__25__auto) (jolt= (jolt-invoke (var-deref "clojure.core" "subs") s 0 slen2) substr) and__25__auto)))))))) starts-with?))) + (def-var! "clojure.string" "ends-with?" (letrec ((ends-with? (lambda (s substr) (let fnrec2454 ((s s) (substr substr)) (let* ((slen (jolt-count s)) (slen2 (jolt-count substr))) (let* ((and__25__auto (>= slen slen2))) (if (jolt-truthy? and__25__auto) (jolt= (jolt-invoke (var-deref "clojure.core" "subs") s (- slen slen2)) substr) and__25__auto))))))) ends-with?))) (guard (e (#t #f)) - (def-var! "clojure.string" "ends-with?" (letrec ((ends-with? (lambda (s substr) (let fnrec2466 ((s s) (substr substr)) (begin (if (jolt-nil? substr) (jolt-throw (host-new "NullPointerException" "substr")) jolt-nil) (let* ((s (jolt-invoke (var-deref "clojure.string" "to-str") s)) (slen (jolt-count s)) (slen2 (jolt-count substr))) (let* ((and__25__auto (jolt-n>= slen slen2))) (if (jolt-truthy? and__25__auto) (jolt= (jolt-invoke (var-deref "clojure.core" "subs") s (jolt-n- slen slen2)) substr) and__25__auto)))))))) ends-with?))) + (def-var! "clojure.string" "trim" (letrec ((trim (lambda (s) (let fnrec2455 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-trim") s))))) trim))) (guard (e (#t #f)) - (def-var! "clojure.string" "trim" (letrec ((trim (lambda (s) (let fnrec2467 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-trim") s))))) trim))) + (def-var! "clojure.string" "triml" (letrec ((triml (lambda (s) (let fnrec2456 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-triml") s))))) triml))) (guard (e (#t #f)) - (def-var! "clojure.string" "triml" (letrec ((triml (lambda (s) (let fnrec2468 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-triml") s))))) triml))) + (def-var! "clojure.string" "trimr" (letrec ((trimr (lambda (s) (let fnrec2457 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-trimr") s))))) trimr))) (guard (e (#t #f)) - (def-var! "clojure.string" "trimr" (letrec ((trimr (lambda (s) (let fnrec2469 ((s s)) (jolt-invoke (var-deref "clojure.core" "str-trimr") s))))) trimr))) + (def-var! "clojure.string" "escape" (letrec ((escape (lambda (s cmap) (let fnrec2458 ((s s) (cmap cmap)) (jolt-apply (var-deref "clojure.core" "str") (jolt-map (lambda (ch) (let fnrec2459 ((ch ch)) (let* ((temp__16__auto (jolt-invoke cmap ch))) (if (jolt-truthy? temp__16__auto) (let* ((rep temp__16__auto)) rep) (jolt-invoke (var-deref "clojure.core" "str") ch))))) s)))))) escape))) (guard (e (#t #f)) - (def-var! "clojure.string" "escape" (letrec ((escape (lambda (s cmap) (let fnrec2470 ((s s) (cmap cmap)) (begin (if (jolt-nil? s) (jolt-throw (host-new "NullPointerException" "s")) jolt-nil) (jolt-apply (var-deref "clojure.core" "str") (jolt-map (lambda (ch) (let fnrec2471 ((ch ch)) (let* ((temp__16__auto (jolt-invoke cmap ch))) (if (jolt-truthy? temp__16__auto) (let* ((rep temp__16__auto)) rep) (jolt-invoke (var-deref "clojure.core" "str") ch))))) s))))))) escape))) + (def-var-with-meta! "clojure.string" "index-of" (letrec ((index-of (case-lambda ((s value) (let fnrec2460 ((s s) (value value)) (jolt-invoke (var-deref "clojure.core" "str-find") value s))) ((s value from) (let fnrec2461 ((s s) (value value) (from from)) (let* ((idx (jolt-invoke (var-deref "clojure.core" "str-find") value (jolt-invoke (var-deref "clojure.core" "subs") s from)))) (if (jolt-truthy? idx) (+ from idx) jolt-nil))))))) index-of) (let* ((_o$2462 (keyword #f "doc")) (_o$2463 "0-based index of the first occurrence of value in s, or nil.")) (jolt-hash-map _o$2462 _o$2463)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.string" "index-of" (letrec ((index-of (case-lambda ((s value) (let fnrec2472 ((s s) (value value)) (jolt-invoke (var-deref "clojure.core" "str-find") value (jolt-invoke (var-deref "clojure.string" "to-str") s)))) ((s value from) (let fnrec2473 ((s s) (value value) (from from)) (let* ((idx (jolt-invoke (var-deref "clojure.core" "str-find") value (jolt-invoke (var-deref "clojure.core" "subs") (jolt-invoke (var-deref "clojure.string" "to-str") s) from)))) (if (jolt-truthy? idx) (jolt-n+ from idx) jolt-nil))))))) index-of) (let* ((_o$2474 (keyword #f "doc")) (_o$2475 "0-based index of the first occurrence of value in s, or nil.")) (jolt-hash-map _o$2474 _o$2475)))) + (def-var! "clojure.string" "last-index-of" (letrec ((last-index-of (case-lambda ((s value) (let fnrec2464 ((s s) (value value)) (let* ((r (jolt-invoke (var-deref "clojure.core" "str-reverse-b") s)) (sval (jolt-invoke (var-deref "clojure.core" "str-reverse-b") value)) (idx (jolt-invoke (var-deref "clojure.core" "str-find") sval r))) (if (jolt-truthy? idx) (let* ((_a$2465 (jolt-count s)) (_a$2466 (+ idx (jolt-count value)))) (- _a$2465 _a$2466)) jolt-nil)))) ((s value from) (let fnrec2467 ((s s) (value value) (from from)) (let* ((sub (jolt-invoke (var-deref "clojure.core" "subs") s 0 from)) (r (jolt-invoke (var-deref "clojure.core" "str-reverse-b") sub)) (sval (jolt-invoke (var-deref "clojure.core" "str-reverse-b") value)) (idx (jolt-invoke (var-deref "clojure.core" "str-find") sval r))) (if (jolt-truthy? idx) (- from (+ idx (jolt-count value))) jolt-nil))))))) last-index-of))) (guard (e (#t #f)) - (def-var! "clojure.string" "last-index-of" (letrec ((last-index-of (case-lambda ((s value) (let fnrec2476 ((s s) (value value)) (let* ((r (jolt-invoke (var-deref "clojure.core" "str-reverse-b") s)) (sval (jolt-invoke (var-deref "clojure.core" "str-reverse-b") value)) (idx (jolt-invoke (var-deref "clojure.core" "str-find") sval r))) (if (jolt-truthy? idx) (let* ((_a$2477 (jolt-count s)) (_a$2478 (jolt-n+ idx (jolt-count value)))) (jolt-n- _a$2477 _a$2478)) jolt-nil)))) ((s value from) (let fnrec2479 ((s s) (value value) (from from)) (let* ((sub (jolt-invoke (var-deref "clojure.core" "subs") s 0 from)) (r (jolt-invoke (var-deref "clojure.core" "str-reverse-b") sub)) (sval (jolt-invoke (var-deref "clojure.core" "str-reverse-b") value)) (idx (jolt-invoke (var-deref "clojure.core" "str-find") sval r))) (if (jolt-truthy? idx) (jolt-n- from (jolt-n+ idx (jolt-count value))) jolt-nil))))))) last-index-of))) + (def-var-with-meta! "clojure.string" "re-quote-replacement" (letrec ((re-quote-replacement (lambda (replacement) (let fnrec2468 ((replacement replacement)) (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$2470 (lambda (ch) (let fnrec2469 ((ch ch)) (let* ((c (jolt-invoke (var-deref "clojure.core" "str") ch))) (if (let* ((or__26__auto (jolt= c "\\"))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= c "$"))) (jolt-invoke (var-deref "clojure.core" "str") "\\" c) c))))) (_a$2471 (jolt-seq replacement))) (jolt-map _a$2470 _a$2471))))))) re-quote-replacement) (let* ((_o$2472 (keyword #f "doc")) (_o$2473 "Escape special characters (backslash and dollar) in a regex replacement\n string so it is used literally rather than interpreted.")) (jolt-hash-map _o$2472 _o$2473)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.string" "re-quote-replacement" (letrec ((re-quote-replacement (lambda (replacement) (let fnrec2480 ((replacement replacement)) (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$2482 (lambda (ch) (let fnrec2481 ((ch ch)) (let* ((c (jolt-invoke (var-deref "clojure.core" "str") ch))) (if (let* ((or__26__auto (jolt= c "\\"))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= c "$"))) (jolt-invoke (var-deref "clojure.core" "str") "\\" c) c))))) (_a$2483 (jolt-seq replacement))) (jolt-map _a$2482 _a$2483))))))) re-quote-replacement) (let* ((_o$2484 (keyword #f "doc")) (_o$2485 "Escape special characters (backslash and dollar) in a regex replacement\n string so it is used literally rather than interpreted.")) (jolt-hash-map _o$2484 _o$2485)))) + (def-var-with-meta! "clojure.string" "trim-newline" (letrec ((trim-newline (lambda (s) (let fnrec2474 ((s s)) (let* ((index (jolt-count s))) (let loop2475 ((index index)) (if (jolt-zero? index) "" (let* ((c (jolt-invoke (var-deref "clojure.core" "subs") s (jolt-dec index) index))) (if (let* ((or__26__auto (jolt= c "\n"))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= c "\r"))) (loop2475 (jolt-dec index)) (jolt-invoke (var-deref "clojure.core" "subs") s 0 index)))))))))) trim-newline) (let* ((_o$2476 (keyword #f "doc")) (_o$2477 "Removes all trailing newline \\n or return \\r characters from\n string. Similar to Perl's chomp.")) (jolt-hash-map _o$2476 _o$2477)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.string" "trim-newline" (letrec ((trim-newline (lambda (s) (let fnrec2486 ((s s)) (let* ((index (jolt-count s))) (let loop2487 ((index index)) (if (jolt-zero? index) "" (let* ((c (jolt-invoke (var-deref "clojure.core" "subs") s (jolt-dec index) index))) (if (let* ((or__26__auto (jolt= c "\n"))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= c "\r"))) (loop2487 (jolt-dec index)) (jolt-invoke (var-deref "clojure.core" "subs") s 0 index)))))))))) trim-newline) (let* ((_o$2488 (keyword #f "doc")) (_o$2489 "Removes all trailing newline \\n or return \\r characters from\n string. Similar to Perl's chomp.")) (jolt-hash-map _o$2488 _o$2489)))) + (def-var! "clojure.walk" "walk" (letrec ((walk (lambda (inner outer form) (let fnrec2478 ((inner inner) (outer outer) (form form)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") form)) (jolt-invoke outer (let* ((_a$2479 (var-deref "clojure.core" "with-meta")) (_a$2480 (jolt-invoke (var-deref "clojure.core" "vec") (jolt-map inner form))) (_a$2481 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2479 _a$2480 _a$2481))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "record?") form)) (jolt-invoke outer (jolt-reduce (lambda (r x) (let fnrec2482 ((r r) (x x)) (jolt-conj r (jolt-invoke inner x)))) form form)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") form)) (jolt-invoke outer (let* ((_a$2485 (var-deref "clojure.core" "with-meta")) (_a$2486 (let* ((_a$2483 (jolt-invoke (var-deref "clojure.core" "empty") form)) (_a$2484 (jolt-map inner form))) (jolt-into _a$2483 _a$2484))) (_a$2487 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2485 _a$2486 _a$2487))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "list?") form)) (jolt-invoke outer (let* ((_a$2488 (var-deref "clojure.core" "with-meta")) (_a$2489 (jolt-apply jolt-list (jolt-map inner form))) (_a$2490 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2488 _a$2489 _a$2490))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (jolt-invoke outer (let* ((_a$2491 (var-deref "clojure.core" "with-meta")) (_a$2492 (jolt-map inner form)) (_a$2493 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2491 _a$2492 _a$2493))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke outer form) jolt-nil)))))))))) walk))) (guard (e (#t #f)) - (def-var! "clojure.walk" "walk" (letrec ((walk (lambda (inner outer form) (let fnrec2490 ((inner inner) (outer outer) (form form)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") form)) (jolt-invoke outer (let* ((_a$2491 (var-deref "clojure.core" "with-meta")) (_a$2492 (jolt-invoke (var-deref "clojure.core" "vec") (jolt-map inner form))) (_a$2493 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2491 _a$2492 _a$2493))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "record?") form)) (jolt-invoke outer (jolt-reduce (lambda (r x) (let fnrec2494 ((r r) (x x)) (jolt-conj r (jolt-invoke inner x)))) form form)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") form)) (jolt-invoke outer (let* ((_a$2497 (var-deref "clojure.core" "with-meta")) (_a$2498 (let* ((_a$2495 (jolt-invoke (var-deref "clojure.core" "empty") form)) (_a$2496 (jolt-map inner form))) (jolt-into _a$2495 _a$2496))) (_a$2499 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2497 _a$2498 _a$2499))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "list?") form)) (jolt-invoke outer (let* ((_a$2500 (var-deref "clojure.core" "with-meta")) (_a$2501 (jolt-apply jolt-list (jolt-map inner form))) (_a$2502 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2500 _a$2501 _a$2502))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (jolt-invoke outer (let* ((_a$2503 (var-deref "clojure.core" "with-meta")) (_a$2504 (jolt-invoke (var-deref "clojure.core" "doall") (jolt-map inner form))) (_a$2505 (jolt-invoke (var-deref "clojure.core" "meta") form))) (jolt-invoke _a$2503 _a$2504 _a$2505))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke outer form) jolt-nil)))))))))) walk))) + (def-var! "clojure.walk" "postwalk" (letrec ((postwalk (lambda (f form) (let fnrec2494 ((f f) (form form)) (jolt-invoke (var-deref "clojure.walk" "walk") (jolt-invoke (var-deref "clojure.core" "partial") postwalk f) f form))))) postwalk))) (guard (e (#t #f)) - (def-var! "clojure.walk" "postwalk" (letrec ((postwalk (lambda (f form) (let fnrec2506 ((f f) (form form)) (jolt-invoke (var-deref "clojure.walk" "walk") (jolt-invoke (var-deref "clojure.core" "partial") postwalk f) f form))))) postwalk))) + (def-var! "clojure.walk" "prewalk" (letrec ((prewalk (lambda (f form) (let fnrec2495 ((f f) (form form)) (let* ((_a$2496 (var-deref "clojure.walk" "walk")) (_a$2497 (jolt-invoke (var-deref "clojure.core" "partial") prewalk f)) (_a$2498 jolt-identity) (_a$2499 (jolt-invoke f form))) (jolt-invoke _a$2496 _a$2497 _a$2498 _a$2499)))))) prewalk))) (guard (e (#t #f)) - (def-var! "clojure.walk" "prewalk" (letrec ((prewalk (lambda (f form) (let fnrec2507 ((f f) (form form)) (let* ((_a$2508 (var-deref "clojure.walk" "walk")) (_a$2509 (jolt-invoke (var-deref "clojure.core" "partial") prewalk f)) (_a$2510 jolt-identity) (_a$2511 (jolt-invoke f form))) (jolt-invoke _a$2508 _a$2509 _a$2510 _a$2511)))))) prewalk))) + (def-var-with-meta! "clojure.walk" "postwalk-demo" (letrec ((postwalk-demo (lambda (form) (let fnrec2500 ((form form)) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2501 ((x x)) (begin (jolt-invoke (var-deref "clojure.core" "print") "Walked: ") (jolt-invoke (var-deref "clojure.core" "prn") x) x))) form))))) postwalk-demo) (let* ((_o$2502 (keyword #f "doc")) (_o$2503 "Demonstrates the behavior of postwalk by printing each form as it is walked.")) (jolt-hash-map _o$2502 _o$2503)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.walk" "postwalk-demo" (letrec ((postwalk-demo (lambda (form) (let fnrec2512 ((form form)) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2513 ((x x)) (begin (jolt-invoke (var-deref "clojure.core" "print") "Walked: ") (jolt-invoke (var-deref "clojure.core" "prn") x) x))) form))))) postwalk-demo) (let* ((_o$2514 (keyword #f "doc")) (_o$2515 "Demonstrates the behavior of postwalk by printing each form as it is walked.")) (jolt-hash-map _o$2514 _o$2515)))) + (def-var-with-meta! "clojure.walk" "prewalk-demo" (letrec ((prewalk-demo (lambda (form) (let fnrec2504 ((form form)) (jolt-invoke (var-deref "clojure.walk" "prewalk") (lambda (x) (let fnrec2505 ((x x)) (begin (jolt-invoke (var-deref "clojure.core" "print") "Walked: ") (jolt-invoke (var-deref "clojure.core" "prn") x) x))) form))))) prewalk-demo) (let* ((_o$2506 (keyword #f "doc")) (_o$2507 "Demonstrates the behavior of prewalk by printing each form as it is walked.")) (jolt-hash-map _o$2506 _o$2507)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.walk" "prewalk-demo" (letrec ((prewalk-demo (lambda (form) (let fnrec2516 ((form form)) (jolt-invoke (var-deref "clojure.walk" "prewalk") (lambda (x) (let fnrec2517 ((x x)) (begin (jolt-invoke (var-deref "clojure.core" "print") "Walked: ") (jolt-invoke (var-deref "clojure.core" "prn") x) x))) form))))) prewalk-demo) (let* ((_o$2518 (keyword #f "doc")) (_o$2519 "Demonstrates the behavior of prewalk by printing each form as it is walked.")) (jolt-hash-map _o$2518 _o$2519)))) + (def-var! "clojure.walk" "postwalk-replace" (letrec ((postwalk-replace (lambda (smap form) (let fnrec2508 ((smap smap) (form form)) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2509 ((x x)) (if (jolt-contains? smap x) (jolt-get smap x) x))) form))))) postwalk-replace))) (guard (e (#t #f)) - (def-var! "clojure.walk" "postwalk-replace" (letrec ((postwalk-replace (lambda (smap form) (let fnrec2520 ((smap smap) (form form)) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2521 ((x x)) (if (jolt-contains? smap x) (jolt-get smap x) x))) form))))) postwalk-replace))) + (def-var! "clojure.walk" "prewalk-replace" (letrec ((prewalk-replace (lambda (smap form) (let fnrec2510 ((smap smap) (form form)) (jolt-invoke (var-deref "clojure.walk" "prewalk") (lambda (x) (let fnrec2511 ((x x)) (if (jolt-contains? smap x) (jolt-get smap x) x))) form))))) prewalk-replace))) (guard (e (#t #f)) - (def-var! "clojure.walk" "prewalk-replace" (letrec ((prewalk-replace (lambda (smap form) (let fnrec2522 ((smap smap) (form form)) (jolt-invoke (var-deref "clojure.walk" "prewalk") (lambda (x) (let fnrec2523 ((x x)) (if (jolt-contains? smap x) (jolt-get smap x) x))) form))))) prewalk-replace))) + (def-var-with-meta! "clojure.walk" "macroexpand-all" (letrec ((macroexpand-all (lambda (form) (let fnrec2512 ((form form)) (jolt-invoke (var-deref "clojure.walk" "prewalk") (lambda (x) (let fnrec2513 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (jolt-invoke (var-deref "clojure.core" "macroexpand") x) x))) form))))) macroexpand-all) (let* ((_o$2514 (keyword #f "doc")) (_o$2515 "Recursively performs all possible macroexpansions in form.")) (jolt-hash-map _o$2514 _o$2515)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.walk" "macroexpand-all" (letrec ((macroexpand-all (lambda (form) (let fnrec2524 ((form form)) (jolt-invoke (var-deref "clojure.walk" "prewalk") (lambda (x) (let fnrec2525 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (jolt-invoke (var-deref "clojure.core" "macroexpand") x) x))) form))))) macroexpand-all) (let* ((_o$2526 (keyword #f "doc")) (_o$2527 "Recursively performs all possible macroexpansions in form.")) (jolt-hash-map _o$2526 _o$2527)))) + (def-var! "clojure.walk" "keywordize-keys" (letrec ((keywordize-keys (lambda (m) (let fnrec2516 ((m m)) (let* ((f (lambda (G__106) (let fnrec2517 ((G__106 G__106)) (let* ((G__107 G__106) (k (jolt-nth G__107 0 jolt-nil)) (v (jolt-nth G__107 1 jolt-nil))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") k)) (let* ((_o$2518 (jolt-invoke (var-deref "clojure.core" "keyword") k)) (_o$2519 v)) (jolt-vector _o$2518 _o$2519)) (let* ((_o$2520 k) (_o$2521 v)) (jolt-vector _o$2520 _o$2521)))))))) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2522 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$2523 (jolt-hash-map)) (_a$2524 (jolt-map f x))) (jolt-into _a$2523 _a$2524)) x))) m)))))) keywordize-keys))) (guard (e (#t #f)) - (def-var! "clojure.walk" "keywordize-keys" (letrec ((keywordize-keys (lambda (m) (let fnrec2528 ((m m)) (let* ((f (lambda (G__108) (let fnrec2529 ((G__108 G__108)) (let* ((G__109 G__108) (k (jolt-nth G__109 0 jolt-nil)) (v (jolt-nth G__109 1 jolt-nil))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") k)) (let* ((_o$2530 (jolt-invoke (var-deref "clojure.core" "keyword") k)) (_o$2531 v)) (jolt-vector _o$2530 _o$2531)) (let* ((_o$2532 k) (_o$2533 v)) (jolt-vector _o$2532 _o$2533)))))))) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2534 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$2535 (jolt-hash-map)) (_a$2536 (jolt-map f x))) (jolt-into _a$2535 _a$2536)) x))) m)))))) keywordize-keys))) -(guard (e (#t #f)) - (def-var! "clojure.walk" "stringify-keys" (letrec ((stringify-keys (lambda (m) (let fnrec2537 ((m m)) (let* ((f (lambda (G__110) (let fnrec2538 ((G__110 G__110)) (let* ((G__111 G__110) (k (jolt-nth G__111 0 jolt-nil)) (v (jolt-nth G__111 1 jolt-nil))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") k)) (let* ((_o$2539 (jolt-invoke (var-deref "clojure.core" "name") k)) (_o$2540 v)) (jolt-vector _o$2539 _o$2540)) (let* ((_o$2541 k) (_o$2542 v)) (jolt-vector _o$2541 _o$2542)))))))) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2543 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$2544 (jolt-hash-map)) (_a$2545 (jolt-map f x))) (jolt-into _a$2544 _a$2545)) x))) m)))))) stringify-keys))) + (def-var! "clojure.walk" "stringify-keys" (letrec ((stringify-keys (lambda (m) (let fnrec2525 ((m m)) (let* ((f (lambda (G__108) (let fnrec2526 ((G__108 G__108)) (let* ((G__109 G__108) (k (jolt-nth G__109 0 jolt-nil)) (v (jolt-nth G__109 1 jolt-nil))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") k)) (let* ((_o$2527 (jolt-invoke (var-deref "clojure.core" "name") k)) (_o$2528 v)) (jolt-vector _o$2527 _o$2528)) (let* ((_o$2529 k) (_o$2530 v)) (jolt-vector _o$2529 _o$2530)))))))) (jolt-invoke (var-deref "clojure.walk" "postwalk") (lambda (x) (let fnrec2531 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$2532 (jolt-hash-map)) (_a$2533 (jolt-map f x))) (jolt-into _a$2532 _a$2533)) x))) m)))))) stringify-keys))) (guard (e (#t #f)) (def-var-with-meta! "clojure.template" "apply-template" (letrec ((apply-template (lambda (argv expr _values) (let fnrec2375 ((argv argv) (expr expr) (_values _values)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "vector?") argv)) (jolt-throw (host-new "AssertionError" "Assert failed: (vector? argv)")) jolt-nil) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "clojure.core" "symbol?") argv)) (jolt-throw (host-new "AssertionError" "Assert failed: (every? symbol? argv)")) jolt-nil) (jolt-invoke (var-deref "clojure.walk" "postwalk-replace") (jolt-invoke (var-deref "clojure.core" "zipmap") argv _values) expr)))))) apply-template) (let* ((_o$2376 (keyword #f "doc")) (_o$2377 "For use in macros. argv is an argument list, as in defn. expr is\n a quoted expression using the symbols in argv. values is a sequence\n of values to be used for the arguments.\n\n apply-template will recursively replace argument symbols in expr\n with their corresponding values, returning a modified expr.\n\n Example: (apply-template '[x] '(+ x x) '[2])\n ;=> (+ 2 2)")) (jolt-hash-map _o$2376 _o$2377)))) (guard (e (#t #f)) @@ -1051,17 +1049,17 @@ (lambda (argv expr . _values) (let fnrec2378 ((argv argv) (expr expr) (_values (list->cseq _values))) (let* ((c (jolt-count argv))) (let* ((_a$2382 (var-deref "clojure.core" "__sqcat")) (_a$2383 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do"))) (_a$2384 (let* ((_a$2380 (lambda (a) (let fnrec2379 ((a a)) (jolt-invoke (var-deref "clojure.template" "apply-template") argv expr a)))) (_a$2381 (jolt-invoke (var-deref "clojure.core" "partition") c _values))) (jolt-map _a$2380 _a$2381)))) (jolt-invoke _a$2382 _a$2383 _a$2384)))))) (mark-macro! "clojure.template" "do-template")) (guard (e (#t #f)) - (def-var-with-meta! "clojure.edn" "edn->value" (letrec ((edn->value (lambda (opts x) (let fnrec2385 ((opts opts) (x x)) (if (jolt= (keyword "jolt" "set") (jolt-get x (keyword "jolt" "type"))) (let* ((vs (let* ((_a$2387 (lambda (v) (let fnrec2386 ((v v)) (edn->value opts v)))) (_a$2388 (jolt-get x (keyword #f "value")))) (jolt-map _a$2387 _a$2388))) (st (jolt-invoke (var-deref "clojure.core" "set") vs))) (begin (if (let* ((_a$2389 (jolt-count st)) (_a$2390 (jolt-count vs))) (jolt-n< _a$2389 _a$2390)) (jolt-throw (host-new "IllegalArgumentException" (jolt-invoke (var-deref "clojure.core" "str") "Duplicate key: " (jolt-invoke (var-deref "clojure.core" "pr-str") (let* ((_a$2392 (var-deref "clojure.core" "some")) (_a$2393 (lambda (G__106) (let fnrec2391 ((G__106 G__106)) (let* ((G__107 G__106) (k (jolt-nth G__107 0 jolt-nil)) (n (jolt-nth G__107 1 jolt-nil))) (if (jolt-n< 1 n) k jolt-nil))))) (_a$2394 (jolt-invoke (var-deref "clojure.core" "frequencies") vs))) (jolt-invoke _a$2392 _a$2393 _a$2394)))))) jolt-nil) (jolt-invoke (var-deref "clojure.core" "with-meta") st (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x))))) (if (jolt= (keyword "jolt" "tagged") (jolt-get x (keyword "jolt" "type"))) (let* ((tag (jolt-get x (keyword #f "tag"))) (v (edn->value opts (jolt-get x (keyword #f "form")))) (tag-sym (let* ((n (jolt-invoke (var-deref "clojure.core" "name") tag))) (jolt-invoke (var-deref "clojure.core" "symbol") (if (jolt= "#" (jolt-invoke (var-deref "clojure.core" "subs") n 0 1)) (jolt-invoke (var-deref "clojure.core" "subs") n 1) n)))) (custom (jolt-get (jolt-get opts (keyword #f "readers")) tag-sym))) (if (jolt-truthy? custom) (jolt-invoke custom v) (if (jolt-contains? (let* ((_o$2395 (jolt-symbol #f "inst")) (_o$2396 (jolt-symbol #f "uuid")) (_o$2397 (jolt-symbol #f "bigdec"))) (jolt-hash-set _o$2395 _o$2396 _o$2397)) tag-sym) (jolt-invoke (var-deref "clojure.core" "__read-tagged") tag v) (if (jolt-truthy? (jolt-get opts (keyword #f "default"))) (jolt-invoke (jolt-get opts (keyword #f "default")) tag-sym v) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "__read-tagged") tag v) jolt-nil))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$2403 (var-deref "clojure.core" "with-meta")) (_a$2404 (let* ((_a$2401 (jolt-hash-map)) (_a$2402 (jolt-map (lambda (e) (let fnrec2398 ((e e)) (let* ((_o$2399 (edn->value opts (jolt-invoke (var-deref "clojure.core" "key") e))) (_o$2400 (edn->value opts (jolt-invoke (var-deref "clojure.core" "val") e)))) (jolt-vector _o$2399 _o$2400)))) x))) (jolt-into _a$2401 _a$2402))) (_a$2405 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2403 _a$2404 _a$2405)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") x)) (let* ((_a$2407 (var-deref "clojure.core" "with-meta")) (_a$2408 (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (v) (let fnrec2406 ((v v)) (edn->value opts v))) x)) (_a$2409 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2407 _a$2408 _a$2409)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") x)) (let* ((_a$2411 (var-deref "clojure.core" "with-meta")) (_a$2412 (jolt-invoke (var-deref "clojure.core" "set") (jolt-map (lambda (v) (let fnrec2410 ((v v)) (edn->value opts v))) x))) (_a$2413 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2411 _a$2412 _a$2413)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (let* ((_a$2415 (var-deref "clojure.core" "with-meta")) (_a$2416 (jolt-apply jolt-list (jolt-map (lambda (v) (let fnrec2414 ((v v)) (edn->value opts v))) x))) (_a$2417 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2415 _a$2416 _a$2417)) (if (jolt-truthy? (keyword #f "else")) x jolt-nil))))))))))) edn->value) (let* ((_o$2418 (keyword #f "private")) (_o$2419 #t)) (jolt-hash-map _o$2418 _o$2419)))) + (def-var-with-meta! "clojure.edn" "edn->value" (letrec ((edn->value (lambda (opts x) (let fnrec2385 ((opts opts) (x x)) (if (jolt= (keyword "jolt" "set") (jolt-get x (keyword "jolt" "type"))) (let* ((_a$2389 (var-deref "clojure.core" "with-meta")) (_a$2390 (jolt-invoke (var-deref "clojure.core" "set") (let* ((_a$2387 (lambda (v) (let fnrec2386 ((v v)) (edn->value opts v)))) (_a$2388 (jolt-get x (keyword #f "value")))) (jolt-map _a$2387 _a$2388)))) (_a$2391 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2389 _a$2390 _a$2391)) (if (jolt= (keyword "jolt" "tagged") (jolt-get x (keyword "jolt" "type"))) (let* ((tag (jolt-get x (keyword #f "tag"))) (v (edn->value opts (jolt-get x (keyword #f "form")))) (tag-sym (let* ((n (jolt-invoke (var-deref "clojure.core" "name") tag))) (jolt-invoke (var-deref "clojure.core" "symbol") (if (jolt= "#" (jolt-invoke (var-deref "clojure.core" "subs") n 0 1)) (jolt-invoke (var-deref "clojure.core" "subs") n 1) n)))) (custom (jolt-get (jolt-get opts (keyword #f "readers")) tag-sym))) (if (jolt-truthy? custom) (jolt-invoke custom v) (if (jolt-truthy? (jolt-get opts (keyword #f "default"))) (jolt-invoke (jolt-get opts (keyword #f "default")) tag-sym v) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "__read-tagged") tag v) jolt-nil)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$2397 (var-deref "clojure.core" "with-meta")) (_a$2398 (let* ((_a$2395 (jolt-hash-map)) (_a$2396 (jolt-map (lambda (e) (let fnrec2392 ((e e)) (let* ((_o$2393 (edn->value opts (jolt-invoke (var-deref "clojure.core" "key") e))) (_o$2394 (edn->value opts (jolt-invoke (var-deref "clojure.core" "val") e)))) (jolt-vector _o$2393 _o$2394)))) x))) (jolt-into _a$2395 _a$2396))) (_a$2399 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2397 _a$2398 _a$2399)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") x)) (let* ((_a$2401 (var-deref "clojure.core" "with-meta")) (_a$2402 (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (v) (let fnrec2400 ((v v)) (edn->value opts v))) x)) (_a$2403 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2401 _a$2402 _a$2403)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") x)) (let* ((_a$2405 (var-deref "clojure.core" "with-meta")) (_a$2406 (jolt-invoke (var-deref "clojure.core" "set") (jolt-map (lambda (v) (let fnrec2404 ((v v)) (edn->value opts v))) x))) (_a$2407 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2405 _a$2406 _a$2407)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (let* ((_a$2409 (var-deref "clojure.core" "with-meta")) (_a$2410 (jolt-map (lambda (v) (let fnrec2408 ((v v)) (edn->value opts v))) x)) (_a$2411 (edn->value opts (jolt-invoke (var-deref "clojure.core" "meta") x)))) (jolt-invoke _a$2409 _a$2410 _a$2411)) (if (jolt-truthy? (keyword #f "else")) x jolt-nil))))))))))) edn->value) (let* ((_o$2412 (keyword #f "private")) (_o$2413 #t)) (jolt-hash-map _o$2412 _o$2413)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.edn" "read-edn" (letrec ((read-edn (lambda (opts s) (let fnrec2420 ((opts opts) (s s)) (let* ((v (jolt-invoke (var-deref "clojure.core" "__read-form-edn") s (lambda (form) (let fnrec2421 ((form form)) (begin (jolt-invoke (var-deref "clojure.edn" "edn->value") opts form) jolt-nil)))))) (if (jolt= v (keyword "jolt" "reader-eof")) (if (jolt-contains? opts (keyword #f "eof")) (jolt-get opts (keyword #f "eof")) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map)))) (jolt-invoke (var-deref "clojure.edn" "edn->value") opts v))))))) read-edn) (let* ((_o$2422 (keyword #f "private")) (_o$2423 #t)) (jolt-hash-map _o$2422 _o$2423)))) + (def-var-with-meta! "clojure.edn" "read-edn" (letrec ((read-edn (lambda (opts s) (let fnrec2414 ((opts opts) (s s)) (if (jolt-truthy? (let* ((or__26__auto (jolt-nil? s))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.string" "blank?") s)))) (jolt-get opts (keyword #f "eof") jolt-nil) (jolt-invoke (var-deref "clojure.edn" "edn->value") opts (jolt-invoke (var-deref "clojure.core" "__read-form-raw") s))))))) read-edn) (let* ((_o$2415 (keyword #f "private")) (_o$2416 #t)) (jolt-hash-map _o$2415 _o$2416)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.edn" "read-string" (letrec ((read-string (case-lambda ((s) (let fnrec2424 ((s s)) (jolt-invoke (var-deref "clojure.edn" "read-edn") (let* ((_o$2425 (keyword #f "eof")) (_o$2426 jolt-nil)) (jolt-hash-map _o$2425 _o$2426)) s))) ((opts s) (let fnrec2427 ((opts opts) (s s)) (jolt-invoke (var-deref "clojure.edn" "read-edn") opts s)))))) read-string) (let* ((_o$2428 (keyword #f "doc")) (_o$2429 "Reads one object from the string s. The no-opts arity returns nil at end of\n input; with an opts map, :eof sets the value returned at end of input and its\n absence makes end-of-input an error.")) (jolt-hash-map _o$2428 _o$2429)))) + (def-var-with-meta! "clojure.edn" "read-string" (letrec ((read-string (case-lambda ((s) (let fnrec2417 ((s s)) (jolt-invoke (var-deref "clojure.edn" "read-edn") (jolt-hash-map) s))) ((opts s) (let fnrec2418 ((opts opts) (s s)) (jolt-invoke (var-deref "clojure.edn" "read-edn") opts s)))))) read-string) (let* ((_o$2419 (keyword #f "doc")) (_o$2420 "Reads one object from the string s. Returns the :eof option value (default\n nil) for nil or blank input. opts is an options map; :eof sets the value\n returned at end of input.")) (jolt-hash-map _o$2419 _o$2420)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.edn" "drain-reader" (letrec ((drain-reader (lambda (reader) (let fnrec2430 ((reader reader)) (let* ((acc (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (c (record-method-dispatch reader "read" (jolt-vector)))) (let loop2431 ((acc acc) (c c)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "==") -1 c)) (jolt-apply (var-deref "clojure.core" "str") (jolt-map (var-deref "clojure.core" "char") (jolt-invoke (var-deref "clojure.core" "persistent!") acc))) (let* ((_a$2432 (jolt-invoke (var-deref "clojure.core" "conj!") acc c)) (_a$2433 (record-method-dispatch reader "read" (jolt-vector)))) (loop2431 _a$2432 _a$2433))))))))) drain-reader) (let* ((_o$2434 (keyword #f "private")) (_o$2435 #t) (_o$2436 (keyword #f "doc")) (_o$2437 "All remaining content of a reader as a string. Shim readers (StringReader,\n PushbackReader, io/reader results) expose char-wise .read; a raw file\n handle is read whole.")) (jolt-hash-map _o$2434 _o$2435 _o$2436 _o$2437)))) + (def-var-with-meta! "clojure.edn" "drain-reader" (letrec ((drain-reader (lambda (reader) (let fnrec2421 ((reader reader)) (let* ((acc (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (c (record-method-dispatch reader "read" (jolt-vector)))) (let loop2422 ((acc acc) (c c)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "==") -1 c)) (jolt-apply (var-deref "clojure.core" "str") (jolt-map (var-deref "clojure.core" "char") (jolt-invoke (var-deref "clojure.core" "persistent!") acc))) (let* ((_a$2423 (jolt-invoke (var-deref "clojure.core" "conj!") acc c)) (_a$2424 (record-method-dispatch reader "read" (jolt-vector)))) (loop2422 _a$2423 _a$2424))))))))) drain-reader) (let* ((_o$2425 (keyword #f "private")) (_o$2426 #t) (_o$2427 (keyword #f "doc")) (_o$2428 "All remaining content of a reader as a string. Shim readers (StringReader,\n PushbackReader, io/reader results) expose char-wise .read; a raw file\n handle is read whole.")) (jolt-hash-map _o$2425 _o$2426 _o$2427 _o$2428)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.edn" "read" (letrec ((read (case-lambda ((reader) (let fnrec2438 ((reader reader)) (read (jolt-hash-map) reader))) ((opts reader) (let fnrec2439 ((opts opts) (reader reader)) (jolt-invoke (var-deref "clojure.edn" "read-edn") opts (jolt-invoke (var-deref "clojure.edn" "drain-reader") reader))))))) read) (let* ((_o$2440 (keyword #f "doc")) (_o$2441 "Reads one EDN object from reader (a PushbackReader or any jolt reader).\n Returns the :eof option value (default nil) at end of input.")) (jolt-hash-map _o$2440 _o$2441)))) + (def-var-with-meta! "clojure.edn" "read" (letrec ((read (case-lambda ((reader) (let fnrec2429 ((reader reader)) (read (jolt-hash-map) reader))) ((opts reader) (let fnrec2430 ((opts opts) (reader reader)) (jolt-invoke (var-deref "clojure.edn" "read-edn") opts (jolt-invoke (var-deref "clojure.edn" "drain-reader") reader))))))) read) (let* ((_o$2431 (keyword #f "doc")) (_o$2432 "Reads one EDN object from reader (a PushbackReader or any jolt reader).\n Returns the :eof option value (default nil) at end of input.")) (jolt-hash-map _o$2431 _o$2432)))) (guard (e (#t #f)) - (def-var! "clojure.set" "union" (letrec ((union (case-lambda (() (let fnrec1 () (jolt-hash-set))) ((s1) (let fnrec2 ((s1 s1)) s1)) ((s1 s2) (let fnrec3 ((s1 s1) (s2 s2)) (if (let* ((_a$4 (jolt-count s1)) (_a$5 (jolt-count s2))) (jolt-n< _a$4 _a$5)) (jolt-reduce jolt-conj s2 s1) (jolt-reduce jolt-conj s1 s2)))) ((s1 s2 . sets) (let fnrec6 ((s1 s1) (s2 s2) (sets (list->cseq sets))) (jolt-reduce union (union s1 s2) sets)))))) union))) + (def-var! "clojure.set" "union" (letrec ((union (case-lambda (() (let fnrec1 () (jolt-hash-set))) ((s1) (let fnrec2 ((s1 s1)) s1)) ((s1 s2) (let fnrec3 ((s1 s1) (s2 s2)) (if (let* ((_a$4 (jolt-count s1)) (_a$5 (jolt-count s2))) (< _a$4 _a$5)) (jolt-reduce jolt-conj s2 s1) (jolt-reduce jolt-conj s1 s2)))) ((s1 s2 . sets) (let fnrec6 ((s1 s1) (s2 s2) (sets (list->cseq sets))) (jolt-reduce union (union s1 s2) sets)))))) union))) (guard (e (#t #f)) (def-var! "clojure.set" "intersection" (letrec ((intersection (case-lambda ((s1) (let fnrec7 ((s1 s1)) s1)) ((s1 s2) (let fnrec8 ((s1 s1) (s2 s2)) (jolt-reduce (lambda (acc item) (let fnrec9 ((acc acc) (item item)) (if (jolt-contains? s2 item) acc (jolt-invoke (var-deref "clojure.core" "disj") acc item)))) s1 s1))) ((s1 s2 . sets) (let fnrec10 ((s1 s1) (s2 s2) (sets (list->cseq sets))) (jolt-reduce intersection (intersection s1 s2) sets)))))) intersection))) (guard (e (#t #f)) @@ -1079,11 +1077,11 @@ (guard (e (#t #f)) (def-var! "clojure.set" "index" (letrec ((index (lambda (xrel ks) (let fnrec34 ((xrel xrel) (ks ks)) (let* ((_a$36 (lambda (m x) (let fnrec35 ((m m) (x x)) (let* ((ik (jolt-invoke (var-deref "clojure.core" "select-keys") x ks))) (jolt-assoc m ik (jolt-conj (jolt-get m ik (jolt-hash-set)) x)))))) (_a$37 (jolt-hash-map)) (_a$38 xrel)) (jolt-reduce _a$36 _a$37 _a$38)))))) index))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.set" "join" (letrec ((join (case-lambda ((xrel yrel) (let fnrec39 ((xrel xrel) (yrel yrel)) (if (jolt-truthy? (let* ((and__25__auto (jolt-seq xrel))) (if (jolt-truthy? and__25__auto) (jolt-seq yrel) and__25__auto))) (let* ((ks (let* ((_a$40 (var-deref "clojure.set" "intersection")) (_a$41 (jolt-invoke (var-deref "clojure.core" "set") (jolt-keys (jolt-first xrel)))) (_a$42 (jolt-invoke (var-deref "clojure.core" "set") (jolt-keys (jolt-first yrel))))) (jolt-invoke _a$40 _a$41 _a$42))) (G__7 (if (let* ((_a$43 (jolt-count xrel)) (_a$44 (jolt-count yrel))) (jolt-n<= _a$43 _a$44)) (let* ((_o$45 xrel) (_o$46 yrel)) (jolt-vector _o$45 _o$46)) (let* ((_o$47 yrel) (_o$48 xrel)) (jolt-vector _o$47 _o$48)))) (r (jolt-nth G__7 0 jolt-nil)) (s (jolt-nth G__7 1 jolt-nil)) (idx (jolt-invoke (var-deref "clojure.set" "index") r ks))) (let* ((_a$51 (lambda (ret x) (let fnrec49 ((ret ret) (x x)) (let* ((found (jolt-invoke idx (jolt-invoke (var-deref "clojure.core" "select-keys") x ks)))) (if (jolt-truthy? found) (jolt-reduce (lambda (acc y) (let fnrec50 ((acc acc) (y y)) (jolt-conj acc (jolt-invoke (var-deref "clojure.core" "merge") y x)))) ret found) ret))))) (_a$52 (jolt-hash-set)) (_a$53 s)) (jolt-reduce _a$51 _a$52 _a$53))) (jolt-hash-set)))) ((xrel yrel km) (let fnrec54 ((xrel xrel) (yrel yrel) (km km)) (let* ((G__8 (if (let* ((_a$55 (jolt-count xrel)) (_a$56 (jolt-count yrel))) (jolt-n<= _a$55 _a$56)) (let* ((_o$57 xrel) (_o$58 yrel) (_o$59 (jolt-invoke (var-deref "clojure.set" "map-invert") km))) (jolt-vector _o$57 _o$58 _o$59)) (let* ((_o$60 yrel) (_o$61 xrel) (_o$62 km)) (jolt-vector _o$60 _o$61 _o$62)))) (r (jolt-nth G__8 0 jolt-nil)) (s (jolt-nth G__8 1 jolt-nil)) (k (jolt-nth G__8 2 jolt-nil)) (idx (jolt-invoke (var-deref "clojure.set" "index") r (jolt-vals k)))) (let* ((_a$65 (lambda (ret x) (let fnrec63 ((ret ret) (x x)) (let* ((found (jolt-invoke idx (jolt-invoke (var-deref "clojure.set" "rename-keys") (jolt-invoke (var-deref "clojure.core" "select-keys") x (jolt-keys k)) k)))) (if (jolt-truthy? found) (jolt-reduce (lambda (acc y) (let fnrec64 ((acc acc) (y y)) (jolt-conj acc (jolt-invoke (var-deref "clojure.core" "merge") y x)))) ret found) ret))))) (_a$66 (jolt-hash-set)) (_a$67 s)) (jolt-reduce _a$65 _a$66 _a$67)))))))) join) (let* ((_o$68 (keyword #f "doc")) (_o$69 "When passed 2 rels, returns the rel corresponding to the natural join.\n When passed an additional keymap, joins on the corresponding keys.")) (jolt-hash-map _o$68 _o$69)))) + (def-var-with-meta! "clojure.set" "join" (letrec ((join (case-lambda ((xrel yrel) (let fnrec39 ((xrel xrel) (yrel yrel)) (if (jolt-truthy? (let* ((and__25__auto (jolt-seq xrel))) (if (jolt-truthy? and__25__auto) (jolt-seq yrel) and__25__auto))) (let* ((ks (let* ((_a$40 (var-deref "clojure.set" "intersection")) (_a$41 (jolt-invoke (var-deref "clojure.core" "set") (jolt-keys (jolt-first xrel)))) (_a$42 (jolt-invoke (var-deref "clojure.core" "set") (jolt-keys (jolt-first yrel))))) (jolt-invoke _a$40 _a$41 _a$42))) (G__7 (if (let* ((_a$43 (jolt-count xrel)) (_a$44 (jolt-count yrel))) (<= _a$43 _a$44)) (let* ((_o$45 xrel) (_o$46 yrel)) (jolt-vector _o$45 _o$46)) (let* ((_o$47 yrel) (_o$48 xrel)) (jolt-vector _o$47 _o$48)))) (r (jolt-nth G__7 0 jolt-nil)) (s (jolt-nth G__7 1 jolt-nil)) (idx (jolt-invoke (var-deref "clojure.set" "index") r ks))) (let* ((_a$51 (lambda (ret x) (let fnrec49 ((ret ret) (x x)) (let* ((found (jolt-invoke idx (jolt-invoke (var-deref "clojure.core" "select-keys") x ks)))) (if (jolt-truthy? found) (jolt-reduce (lambda (acc y) (let fnrec50 ((acc acc) (y y)) (jolt-conj acc (jolt-invoke (var-deref "clojure.core" "merge") y x)))) ret found) ret))))) (_a$52 (jolt-hash-set)) (_a$53 s)) (jolt-reduce _a$51 _a$52 _a$53))) (jolt-hash-set)))) ((xrel yrel km) (let fnrec54 ((xrel xrel) (yrel yrel) (km km)) (let* ((G__8 (if (let* ((_a$55 (jolt-count xrel)) (_a$56 (jolt-count yrel))) (<= _a$55 _a$56)) (let* ((_o$57 xrel) (_o$58 yrel) (_o$59 (jolt-invoke (var-deref "clojure.set" "map-invert") km))) (jolt-vector _o$57 _o$58 _o$59)) (let* ((_o$60 yrel) (_o$61 xrel) (_o$62 km)) (jolt-vector _o$60 _o$61 _o$62)))) (r (jolt-nth G__8 0 jolt-nil)) (s (jolt-nth G__8 1 jolt-nil)) (k (jolt-nth G__8 2 jolt-nil)) (idx (jolt-invoke (var-deref "clojure.set" "index") r (jolt-vals k)))) (let* ((_a$65 (lambda (ret x) (let fnrec63 ((ret ret) (x x)) (let* ((found (jolt-invoke idx (jolt-invoke (var-deref "clojure.set" "rename-keys") (jolt-invoke (var-deref "clojure.core" "select-keys") x (jolt-keys k)) k)))) (if (jolt-truthy? found) (jolt-reduce (lambda (acc y) (let fnrec64 ((acc acc) (y y)) (jolt-conj acc (jolt-invoke (var-deref "clojure.core" "merge") y x)))) ret found) ret))))) (_a$66 (jolt-hash-set)) (_a$67 s)) (jolt-reduce _a$65 _a$66 _a$67)))))))) join) (let* ((_o$68 (keyword #f "doc")) (_o$69 "When passed 2 rels, returns the rel corresponding to the natural join.\n When passed an additional keymap, joins on the corresponding keys.")) (jolt-hash-map _o$68 _o$69)))) (guard (e (#t #f)) - (def-var! "clojure.set" "subset?" (letrec ((subset? (lambda (set1 set2) (let fnrec70 ((set1 set1) (set2 set2)) (let* ((and__25__auto (let* ((_a$71 (jolt-count set1)) (_a$72 (jolt-count set2))) (jolt-n<= _a$71 _a$72)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p__2_) (let fnrec73 ((p__2_ p__2_)) (jolt-contains? set2 p__2_))) set1) and__25__auto)))))) subset?))) + (def-var! "clojure.set" "subset?" (letrec ((subset? (lambda (set1 set2) (let fnrec70 ((set1 set1) (set2 set2)) (let* ((and__25__auto (let* ((_a$71 (jolt-count set1)) (_a$72 (jolt-count set2))) (<= _a$71 _a$72)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p__2_) (let fnrec73 ((p__2_ p__2_)) (jolt-contains? set2 p__2_))) set1) and__25__auto)))))) subset?))) (guard (e (#t #f)) - (def-var! "clojure.set" "superset?" (letrec ((superset? (lambda (set1 set2) (let fnrec74 ((set1 set1) (set2 set2)) (let* ((and__25__auto (let* ((_a$75 (jolt-count set1)) (_a$76 (jolt-count set2))) (jolt-n>= _a$75 _a$76)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p__3_) (let fnrec77 ((p__3_ p__3_)) (jolt-contains? set1 p__3_))) set2) and__25__auto)))))) superset?))) + (def-var! "clojure.set" "superset?" (letrec ((superset? (lambda (set1 set2) (let fnrec74 ((set1 set1) (set2 set2)) (let* ((and__25__auto (let* ((_a$75 (jolt-count set1)) (_a$76 (jolt-count set2))) (>= _a$75 _a$76)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p__3_) (let fnrec77 ((p__3_ p__3_)) (jolt-contains? set1 p__3_))) set2) and__25__auto)))))) superset?))) (guard (e (#t #f)) (def-var! "clojure.pprint" "getf" (lambda (sym) (let fnrec78 ((sym sym)) (let* ((_a$85 (var-deref "clojure.core" "__sqcat")) (_a$86 (jolt-invoke (var-deref "clojure.core" "__sq1") sym)) (_a$87 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$82 (var-deref "clojure.core" "__sqcat")) (_a$83 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "deref"))) (_a$84 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$79 (var-deref "clojure.core" "__sqcat")) (_a$80 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f ".-fields"))) (_a$81 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "this")))) (jolt-invoke _a$79 _a$80 _a$81))))) (jolt-invoke _a$82 _a$83 _a$84))))) (jolt-invoke _a$85 _a$86 _a$87))))) @@ -1173,7 +1171,7 @@ (guard (e (#t #f)) (begin (begin (def-var! "clojure.pprint" "StringBufferWriter" (let* ((_a$395 (var-deref "clojure.core" "make-deftype-ctor")) (_a$396 (jolt-symbol #f "StringBufferWriter")) (_a$397 (jolt-vector (keyword #f "sb"))) (_a$398 (jolt-vector jolt-nil)) (_a$399 (jolt-vector #f))) (jolt-invoke _a$395 _a$396 _a$397 _a$398 _a$399))) (def-var! "clojure.pprint" "->StringBufferWriter" (var-deref "clojure.pprint" "StringBufferWriter")) (var-deref "clojure.pprint" "StringBufferWriter")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-symbol #f "StringBufferWriter")) (def-var! "clojure.pprint" "map->StringBufferWriter" (lambda (G__26) (let fnrec400 ((G__26 G__26)) (let* ((_a$401 (var-deref "clojure.core" "reduce-kv")) (_a$402 jolt-assoc) (_a$403 (jolt-invoke (var-deref "clojure.pprint" "->StringBufferWriter") (jolt-get G__26 (keyword #f "sb")))) (_a$404 (jolt-dissoc G__26 (keyword #f "sb")))) (jolt-invoke _a$401 _a$402 _a$403 _a$404))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "StringBufferWriter" "IPrettyWriter") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "StringBufferWriter" "IPrettyWriter" "-write" (lambda (_p27 x) (let fnrec405 ((_p27 _p27) (x x)) (let* ((sb (jolt-get _p27 (keyword #f "sb")))) (begin (record-method-dispatch sb "append" (jolt-vector (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "char?") x)) (jolt-invoke (var-deref "clojure.core" "str") x) x))) jolt-nil))))) (jolt-invoke (var-deref "clojure.core" "register-inline-method") "StringBufferWriter" "IPrettyWriter" "-pflush" (lambda (_p28) (let fnrec406 ((_p28 _p28)) (let* ((sb (jolt-get _p28 (keyword #f "sb")))) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "StringBufferWriter" "IPrettyFlush") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "StringBufferWriter" "IPrettyFlush" "-ppflush" (lambda (_p29) (let fnrec407 ((_p29 _p29)) (let* ((sb (jolt-get _p29 (keyword #f "sb")))) jolt-nil)))))) (guard (e (#t #f)) - (begin (begin (def-var! "clojure.pprint" "ColumnWriter" (let* ((_a$408 (var-deref "clojure.core" "make-deftype-ctor")) (_a$409 (jolt-symbol #f "ColumnWriter")) (_a$410 (jolt-vector (keyword #f "fields"))) (_a$411 (jolt-vector jolt-nil)) (_a$412 (jolt-vector #f))) (jolt-invoke _a$408 _a$409 _a$410 _a$411 _a$412))) (def-var! "clojure.pprint" "->ColumnWriter" (var-deref "clojure.pprint" "ColumnWriter")) (var-deref "clojure.pprint" "ColumnWriter")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-symbol #f "ColumnWriter")) (def-var! "clojure.pprint" "map->ColumnWriter" (lambda (G__30) (let fnrec413 ((G__30 G__30)) (let* ((_a$414 (var-deref "clojure.core" "reduce-kv")) (_a$415 jolt-assoc) (_a$416 (jolt-invoke (var-deref "clojure.pprint" "->ColumnWriter") (jolt-get G__30 (keyword #f "fields")))) (_a$417 (jolt-dissoc G__30 (keyword #f "fields")))) (jolt-invoke _a$414 _a$415 _a$416 _a$417))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "ColumnWriter" "IPrettyWriter") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "ColumnWriter" "IPrettyWriter" "-write" (lambda (this x) (let fnrec418 ((this this) (x x)) (let* ((fields (jolt-get this (keyword #f "fields")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") x)) (let* ((s x) (nl (record-method-dispatch s "lastIndexOf" (jolt-vector "\n")))) (begin (if (jolt-neg? nl) (jolt-invoke (var-deref "clojure.pprint" "set-field") this (keyword #f "cur") (let* ((_a$419 (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "cur"))) (_a$420 (jolt-count s))) (jolt-n+ _a$419 _a$420))) (begin (jolt-invoke (var-deref "clojure.pprint" "set-field") this (keyword #f "cur") (jolt-n- (jolt-count s) nl 1)) (jolt-invoke (var-deref "clojure.pprint" "set-field") this (keyword #f "line") (let* ((_a$422 (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "line"))) (_a$423 (jolt-count (jolt-filter (lambda (p__4_) (let fnrec421 ((p__4_ p__4_)) (jolt= p__4_ (integer->char 10)))) s)))) (jolt-n+ _a$422 _a$423))))) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "base")) s))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "char?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "number?") x)))) (jolt-invoke (var-deref "clojure.pprint" "c-write-char") this x) jolt-nil)))))) (jolt-invoke (var-deref "clojure.core" "register-inline-method") "ColumnWriter" "IPrettyWriter" "-pflush" (lambda (this) (let fnrec424 ((this this)) (let* ((fields (jolt-get this (keyword #f "fields")))) (jolt-invoke (var-deref "clojure.pprint" "-pflush") (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "base"))))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "ColumnWriter" "IPrettyFlush") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "ColumnWriter" "IPrettyFlush" "-ppflush" (lambda (_p31) (let fnrec425 ((_p31 _p31)) (let* ((fields (jolt-get _p31 (keyword #f "fields")))) jolt-nil)))))) + (begin (begin (def-var! "clojure.pprint" "ColumnWriter" (let* ((_a$408 (var-deref "clojure.core" "make-deftype-ctor")) (_a$409 (jolt-symbol #f "ColumnWriter")) (_a$410 (jolt-vector (keyword #f "fields"))) (_a$411 (jolt-vector jolt-nil)) (_a$412 (jolt-vector #f))) (jolt-invoke _a$408 _a$409 _a$410 _a$411 _a$412))) (def-var! "clojure.pprint" "->ColumnWriter" (var-deref "clojure.pprint" "ColumnWriter")) (var-deref "clojure.pprint" "ColumnWriter")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-symbol #f "ColumnWriter")) (def-var! "clojure.pprint" "map->ColumnWriter" (lambda (G__30) (let fnrec413 ((G__30 G__30)) (let* ((_a$414 (var-deref "clojure.core" "reduce-kv")) (_a$415 jolt-assoc) (_a$416 (jolt-invoke (var-deref "clojure.pprint" "->ColumnWriter") (jolt-get G__30 (keyword #f "fields")))) (_a$417 (jolt-dissoc G__30 (keyword #f "fields")))) (jolt-invoke _a$414 _a$415 _a$416 _a$417))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "ColumnWriter" "IPrettyWriter") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "ColumnWriter" "IPrettyWriter" "-write" (lambda (this x) (let fnrec418 ((this this) (x x)) (let* ((fields (jolt-get this (keyword #f "fields")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") x)) (let* ((s x) (nl (record-method-dispatch s "lastIndexOf" (jolt-vector "\n")))) (begin (if (jolt-neg? nl) (jolt-invoke (var-deref "clojure.pprint" "set-field") this (keyword #f "cur") (let* ((_a$419 (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "cur"))) (_a$420 (jolt-count s))) (+ _a$419 _a$420))) (begin (jolt-invoke (var-deref "clojure.pprint" "set-field") this (keyword #f "cur") (- (jolt-count s) nl 1)) (jolt-invoke (var-deref "clojure.pprint" "set-field") this (keyword #f "line") (let* ((_a$422 (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "line"))) (_a$423 (jolt-count (jolt-filter (lambda (p__4_) (let fnrec421 ((p__4_ p__4_)) (jolt= p__4_ (integer->char 10)))) s)))) (+ _a$422 _a$423))))) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "base")) s))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "char?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "number?") x)))) (jolt-invoke (var-deref "clojure.pprint" "c-write-char") this x) jolt-nil)))))) (jolt-invoke (var-deref "clojure.core" "register-inline-method") "ColumnWriter" "IPrettyWriter" "-pflush" (lambda (this) (let fnrec424 ((this this)) (let* ((fields (jolt-get this (keyword #f "fields")))) (jolt-invoke (var-deref "clojure.pprint" "-pflush") (jolt-invoke (var-deref "clojure.pprint" "get-field") this (keyword #f "base"))))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "ColumnWriter" "IPrettyFlush") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "ColumnWriter" "IPrettyFlush" "-ppflush" (lambda (_p31) (let fnrec425 ((_p31 _p31)) (let* ((fields (jolt-get _p31 (keyword #f "fields")))) jolt-nil)))))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "column-writer" (letrec ((column-writer (case-lambda ((writer) (let fnrec426 ((writer writer)) (column-writer writer (var-deref "clojure.pprint" "*default-page-width*")))) ((writer max-columns) (let fnrec427 ((writer writer) (max-columns max-columns)) (jolt-invoke (var-deref "clojure.pprint" "->ColumnWriter") (jolt-invoke (var-deref "clojure.core" "atom") (let* ((_o$428 (keyword #f "max")) (_o$429 max-columns) (_o$430 (keyword #f "cur")) (_o$431 0) (_o$432 (keyword #f "line")) (_o$433 0) (_o$434 (keyword #f "base")) (_o$435 writer)) (jolt-hash-map _o$428 _o$429 _o$430 _o$431 _o$432 _o$433 _o$434 _o$435))))))))) column-writer) (let* ((_o$436 (keyword #f "private")) (_o$437 #t)) (jolt-hash-map _o$436 _o$437)))) (guard (e (#t #f)) @@ -1183,7 +1181,7 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "ancestor?" (letrec ((ancestor? (lambda (parent child) (let fnrec489 ((parent parent) (child child)) (let* ((child (jolt-get child (keyword #f "parent")))) (let loop490 ((child child)) (if (jolt-nil? child) #f (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "identical?") parent child)) #t (if (jolt-truthy? (keyword #f "else")) (loop490 (jolt-get child (keyword #f "parent"))) jolt-nil))))))))) ancestor?) (let* ((_o$491 (keyword #f "private")) (_o$492 #t)) (jolt-hash-map _o$491 _o$492)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "buffer-length" (letrec ((buffer-length (lambda (l) (let fnrec493 ((l l)) (let* ((l (jolt-seq l))) (if (jolt-truthy? l) (let* ((_a$494 (jolt-get (jolt-last l) (keyword #f "end-pos"))) (_a$495 (jolt-get (jolt-first l) (keyword #f "start-pos")))) (jolt-n- _a$494 _a$495)) 0)))))) buffer-length) (let* ((_o$496 (keyword #f "private")) (_o$497 #t)) (jolt-hash-map _o$496 _o$497)))) + (def-var-with-meta! "clojure.pprint" "buffer-length" (letrec ((buffer-length (lambda (l) (let fnrec493 ((l l)) (let* ((l (jolt-seq l))) (if (jolt-truthy? l) (let* ((_a$494 (jolt-get (jolt-last l) (keyword #f "end-pos"))) (_a$495 (jolt-get (jolt-first l) (keyword #f "start-pos")))) (- _a$494 _a$495)) 0)))))) buffer-length) (let* ((_o$496 (keyword #f "private")) (_o$497 #t)) (jolt-hash-map _o$496 _o$497)))) (guard (e (#t #f)) (begin (begin (begin (def-var! "clojure.pprint" "buffer-blob" (let* ((_a$513 (var-deref "clojure.core" "make-deftype-ctor")) (_a$514 (jolt-symbol #f "buffer-blob")) (_a$515 (let* ((_o$498 (keyword #f "type-tag")) (_o$499 (keyword #f "data")) (_o$500 (keyword #f "trailing-white-space")) (_o$501 (keyword #f "start-pos")) (_o$502 (keyword #f "end-pos"))) (jolt-vector _o$498 _o$499 _o$500 _o$501 _o$502))) (_a$516 (let* ((_o$503 jolt-nil) (_o$504 jolt-nil) (_o$505 jolt-nil) (_o$506 jolt-nil) (_o$507 jolt-nil)) (jolt-vector _o$503 _o$504 _o$505 _o$506 _o$507))) (_a$517 (let* ((_o$508 #f) (_o$509 #f) (_o$510 #f) (_o$511 #f) (_o$512 #f)) (jolt-vector _o$508 _o$509 _o$510 _o$511 _o$512)))) (jolt-invoke _a$513 _a$514 _a$515 _a$516 _a$517))) (def-var! "clojure.pprint" "->buffer-blob" (var-deref "clojure.pprint" "buffer-blob")) (var-deref "clojure.pprint" "buffer-blob")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-symbol #f "buffer-blob")) (def-var! "clojure.pprint" "map->buffer-blob" (lambda (G__33) (let fnrec518 ((G__33 G__33)) (let* ((_a$525 (var-deref "clojure.core" "reduce-kv")) (_a$526 jolt-assoc) (_a$527 (let* ((_a$519 (var-deref "clojure.pprint" "->buffer-blob")) (_a$520 (jolt-get G__33 (keyword #f "type-tag"))) (_a$521 (jolt-get G__33 (keyword #f "data"))) (_a$522 (jolt-get G__33 (keyword #f "trailing-white-space"))) (_a$523 (jolt-get G__33 (keyword #f "start-pos"))) (_a$524 (jolt-get G__33 (keyword #f "end-pos")))) (jolt-invoke _a$519 _a$520 _a$521 _a$522 _a$523 _a$524))) (_a$528 (jolt-dissoc G__33 (keyword #f "type-tag") (keyword #f "data") (keyword #f "trailing-white-space") (keyword #f "start-pos") (keyword #f "end-pos")))) (jolt-invoke _a$525 _a$526 _a$527 _a$528)))))) (def-var-with-meta! "clojure.pprint" "make-buffer-blob" (letrec ((make-buffer-blob (lambda (data trailing-white-space start-pos end-pos) (let fnrec529 ((data data) (trailing-white-space trailing-white-space) (start-pos start-pos) (end-pos end-pos)) (jolt-invoke (var-deref "clojure.pprint" "->buffer-blob") (keyword #f "buffer-blob") data trailing-white-space start-pos end-pos))))) make-buffer-blob) (let* ((_o$530 (keyword #f "private")) (_o$531 #t)) (jolt-hash-map _o$530 _o$531))) (def-var-with-meta! "clojure.pprint" "buffer-blob?" (letrec ((buffer-blob? (lambda (x__1__auto) (let fnrec532 ((x__1__auto x__1__auto)) (jolt= (jolt-get x__1__auto (keyword #f "type-tag")) (keyword #f "buffer-blob")))))) buffer-blob?) (let* ((_o$533 (keyword #f "private")) (_o$534 #t)) (jolt-hash-map _o$533 _o$534))))) (guard (e (#t #f)) @@ -1199,35 +1197,35 @@ (guard (e (#t #f)) (declare-var! "clojure.pprint" "emit-nl")) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol "clojure.pprint" "write-token") (lambda (this token) (let fnrec682 ((this this) (token token)) (jolt-get token (keyword #f "type-tag")))))) + (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol/meta #f "write-token" (jolt-hash-map (keyword #f "private") #t)) (lambda (this token) (let fnrec682 ((this this) (token token)) (jolt-get token (keyword #f "type-tag")))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "start-block-t") (lambda (this token) (let fnrec683 ((this this) (token token)) (begin (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "start"))) jolt-nil)) (let* ((lb (jolt-get token (keyword #f "logical-block")))) (begin (let* ((temp__27__auto (jolt-get lb (keyword #f "prefix")))) (if (jolt-truthy? temp__27__auto) (let* ((prefix temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix)) jolt-nil)) (let* ((col (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "start-col")) col) (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "indent")) col)))))))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "start-block-t") (lambda (this token) (let fnrec683 ((this this) (token token)) (begin (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "start"))) jolt-nil)) (let* ((lb (jolt-get token (keyword #f "logical-block")))) (begin (let* ((temp__27__auto (jolt-get lb (keyword #f "prefix")))) (if (jolt-truthy? temp__27__auto) (let* ((prefix temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix)) jolt-nil)) (let* ((col (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "start-col")) col) (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "indent")) col)))))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "end-block-t") (lambda (this token) (let fnrec684 ((this this) (token token)) (begin (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "end"))) jolt-nil)) (let* ((temp__27__auto (jolt-get (jolt-get token (keyword #f "logical-block")) (keyword #f "suffix")))) (if (jolt-truthy? temp__27__auto) (let* ((suffix temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) suffix)) jolt-nil))))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "end-block-t") (lambda (this token) (let fnrec684 ((this this) (token token)) (begin (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "end"))) jolt-nil)) (let* ((temp__27__auto (jolt-get (jolt-get token (keyword #f "logical-block")) (keyword #f "suffix")))) (if (jolt-truthy? temp__27__auto) (let* ((suffix temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) suffix)) jolt-nil))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "indent-t") (lambda (this token) (let fnrec685 ((this this) (token token)) (let* ((lb (jolt-get token (keyword #f "logical-block")))) (let* ((_a$690 (var-deref "clojure.core" "reset!")) (_a$691 (jolt-get lb (keyword #f "indent"))) (_a$692 (let* ((_a$688 (jolt-get token (keyword #f "offset"))) (_a$689 (let* ((G__38 jolt=) (G__39 (jolt-get token (keyword #f "relative-to")))) (if (jolt-truthy? (jolt-invoke G__38 (keyword #f "block") G__39)) (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "start-col"))) (if (jolt-truthy? (jolt-invoke G__38 (keyword #f "current") G__39)) (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (jolt-throw (let* ((_a$686 (jolt-invoke (var-deref "clojure.core" "str") "No matching clause: " G__39)) (_a$687 (jolt-hash-map))) (jolt-ex-info _a$686 _a$687)))))))) (jolt-n+ _a$688 _a$689)))) (jolt-invoke _a$690 _a$691 _a$692))))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "indent-t") (lambda (this token) (let fnrec685 ((this this) (token token)) (let* ((lb (jolt-get token (keyword #f "logical-block")))) (let* ((_a$690 (var-deref "clojure.core" "reset!")) (_a$691 (jolt-get lb (keyword #f "indent"))) (_a$692 (let* ((_a$688 (jolt-get token (keyword #f "offset"))) (_a$689 (let* ((G__38 jolt=) (G__39 (jolt-get token (keyword #f "relative-to")))) (if (jolt-truthy? (jolt-invoke G__38 (keyword #f "block") G__39)) (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "start-col"))) (if (jolt-truthy? (jolt-invoke G__38 (keyword #f "current") G__39)) (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (jolt-throw (let* ((_a$686 (jolt-invoke (var-deref "clojure.core" "str") "No matching clause: " G__39)) (_a$687 (jolt-hash-map))) (jolt-ex-info _a$686 _a$687)))))))) (+ _a$688 _a$689)))) (jolt-invoke _a$690 _a$691 _a$692))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "buffer-blob") (lambda (this token) (let fnrec693 ((this this) (token token)) (let* ((_a$694 (var-deref "clojure.pprint" "-write")) (_a$695 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (_a$696 (jolt-get token (keyword #f "data")))) (jolt-invoke _a$694 _a$695 _a$696)))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "buffer-blob") (lambda (this token) (let fnrec693 ((this this) (token token)) (let* ((_a$694 (var-deref "clojure.pprint" "-write")) (_a$695 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (_a$696 (jolt-get token (keyword #f "data")))) (jolt-invoke _a$694 _a$695 _a$696)))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "nl-t") (lambda (this token) (let fnrec697 ((this this) (token token)) (begin (if (jolt-truthy? (let* ((or__26__auto (jolt= (jolt-get token (keyword #f "type")) (keyword #f "mandatory")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt-not (jolt= (jolt-get token (keyword #f "type")) (keyword #f "fill"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get (jolt-get token (keyword #f "logical-block")) (keyword #f "done-nl"))) and__25__auto))))) (jolt-invoke (var-deref "clojure.pprint" "emit-nl") this token) (let* ((temp__16__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? temp__16__auto) (let* ((tws temp__16__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws)) jolt-nil))) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil)))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "write-token") (keyword #f "nl-t") (lambda (this token) (let fnrec697 ((this this) (token token)) (begin (if (jolt-truthy? (let* ((or__26__auto (jolt= (jolt-get token (keyword #f "type")) (keyword #f "mandatory")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt-not (jolt= (jolt-get token (keyword #f "type")) (keyword #f "fill"))))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get (jolt-get token (keyword #f "logical-block")) (keyword #f "done-nl"))) and__25__auto))))) (jolt-invoke (var-deref "clojure.pprint" "emit-nl") this token) (let* ((temp__16__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? temp__16__auto) (let* ((tws temp__16__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws)) jolt-nil))) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil)))))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "write-tokens" (letrec ((write-tokens (lambda (this tokens force-trailing-whitespace) (let fnrec698 ((this this) (tokens tokens) (force-trailing-whitespace force-trailing-whitespace)) (begin (jolt-count (jolt-map (lambda (token) (let fnrec699 ((token token)) (begin (if (jolt-not (jolt= (jolt-get token (keyword #f "type-tag")) (keyword #f "nl-t"))) (let* ((temp__16__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? temp__16__auto) (let* ((tws temp__16__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws)) jolt-nil)) jolt-nil) (jolt-invoke (var-deref "clojure.pprint" "write-token") this token) (let* ((_a$700 (var-deref "clojure.core" "swap!")) (_a$701 (record-method-dispatch this "-fields" (jolt-vector))) (_a$702 jolt-assoc) (_a$703 (keyword #f "trailing-white-space")) (_a$704 (jolt-get token (keyword #f "trailing-white-space")))) (jolt-invoke _a$700 _a$701 _a$702 _a$703 _a$704)) (let* ((tws (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? (let* ((and__25__auto force-trailing-whitespace)) (if (jolt-truthy? and__25__auto) tws and__25__auto))) (begin (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil)) jolt-nil)) jolt-nil))) tokens)) jolt-nil))))) write-tokens) (let* ((_o$705 (keyword #f "private")) (_o$706 #t)) (jolt-hash-map _o$705 _o$706)))) + (def-var-with-meta! "clojure.pprint" "write-tokens" (letrec ((write-tokens (lambda (this tokens force-trailing-whitespace) (let fnrec698 ((this this) (tokens tokens) (force-trailing-whitespace force-trailing-whitespace)) (begin (jolt-count (jolt-map (lambda (token) (let fnrec699 ((token token)) (begin (if (jolt-not (jolt= (jolt-get token (keyword #f "type-tag")) (keyword #f "nl-t"))) (let* ((temp__16__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? temp__16__auto) (let* ((tws temp__16__auto)) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws)) jolt-nil)) jolt-nil) (jolt-invoke (var-deref "clojure.core" "write-token") this token) (let* ((_a$700 (var-deref "clojure.core" "swap!")) (_a$701 (record-method-dispatch this "-fields" (jolt-vector))) (_a$702 jolt-assoc) (_a$703 (keyword #f "trailing-white-space")) (_a$704 (jolt-get token (keyword #f "trailing-white-space")))) (jolt-invoke _a$700 _a$701 _a$702 _a$703 _a$704)) (let* ((tws (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? (let* ((and__25__auto force-trailing-whitespace)) (if (jolt-truthy? and__25__auto) tws and__25__auto))) (begin (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil)) jolt-nil)) jolt-nil))) tokens)) jolt-nil))))) write-tokens) (let* ((_o$705 (keyword #f "private")) (_o$706 #t)) (jolt-hash-map _o$705 _o$706)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "tokens-fit?" (letrec ((tokens-fit? (lambda (this tokens) (let fnrec707 ((this this) (tokens tokens)) (let* ((maxcol (jolt-invoke (var-deref "clojure.pprint" "get-max-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (let* ((or__26__auto (jolt-nil? maxcol))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n< (let* ((_a$708 (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")))) (_a$709 (jolt-invoke (var-deref "clojure.pprint" "buffer-length") tokens))) (jolt-n+ _a$708 _a$709)) maxcol)))))))) tokens-fit?) (let* ((_o$710 (keyword #f "private")) (_o$711 #t)) (jolt-hash-map _o$710 _o$711)))) + (def-var-with-meta! "clojure.pprint" "tokens-fit?" (letrec ((tokens-fit? (lambda (this tokens) (let fnrec707 ((this this) (tokens tokens)) (let* ((maxcol (jolt-invoke (var-deref "clojure.pprint" "get-max-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (let* ((or__26__auto (jolt-nil? maxcol))) (if (jolt-truthy? or__26__auto) or__26__auto (< (let* ((_a$708 (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")))) (_a$709 (jolt-invoke (var-deref "clojure.pprint" "buffer-length") tokens))) (+ _a$708 _a$709)) maxcol)))))))) tokens-fit?) (let* ((_o$710 (keyword #f "private")) (_o$711 #t)) (jolt-hash-map _o$710 _o$711)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "linear-nl?" (letrec ((linear-nl? (lambda (this lb section) (let fnrec712 ((this this) (lb lb) (section section)) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "done-nl"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-not (jolt-invoke (var-deref "clojure.pprint" "tokens-fit?") this section)))))))) linear-nl?) (let* ((_o$713 (keyword #f "private")) (_o$714 #t)) (jolt-hash-map _o$713 _o$714)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "miser-nl?" (letrec ((miser-nl? (lambda (this lb section) (let fnrec715 ((this this) (lb lb) (section section)) (let* ((miser-width (jolt-invoke (var-deref "clojure.pprint" "get-miser-width") this)) (maxcol (jolt-invoke (var-deref "clojure.pprint" "get-max-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (let* ((and__25__auto miser-width)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto maxcol)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((_a$716 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "start-col")))) (_a$717 (jolt-n- maxcol miser-width))) (jolt-n>= _a$716 _a$717)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.pprint" "linear-nl?") this lb section) and__25__auto)) and__25__auto)) and__25__auto))))))) miser-nl?) (let* ((_o$718 (keyword #f "private")) (_o$719 #t)) (jolt-hash-map _o$718 _o$719)))) + (def-var-with-meta! "clojure.pprint" "miser-nl?" (letrec ((miser-nl? (lambda (this lb section) (let fnrec715 ((this this) (lb lb) (section section)) (let* ((miser-width (jolt-invoke (var-deref "clojure.pprint" "get-miser-width") this)) (maxcol (jolt-invoke (var-deref "clojure.pprint" "get-max-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (let* ((and__25__auto miser-width)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto maxcol)) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (let* ((_a$716 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "start-col")))) (_a$717 (- maxcol miser-width))) (>= _a$716 _a$717)))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.pprint" "linear-nl?") this lb section) and__25__auto)) and__25__auto)) and__25__auto))))))) miser-nl?) (let* ((_o$718 (keyword #f "private")) (_o$719 #t)) (jolt-hash-map _o$718 _o$719)))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol "clojure.pprint" "emit-nl?") (lambda (t _r$__119 _r$__120 _) (let fnrec720 ((t t) (_r$__119 _r$__119) (_r$__120 _r$__120) (_ _)) (jolt-get t (keyword #f "type")))))) + (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol/meta #f "emit-nl?" (jolt-hash-map (keyword #f "private") #t)) (lambda (t _r$__119 _r$__120 _) (let fnrec720 ((t t) (_r$__119 _r$__119) (_r$__120 _r$__120) (_ _)) (jolt-get t (keyword #f "type")))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "linear") (lambda (newl this section _) (let fnrec721 ((newl newl) (this this) (section section) (_ _)) (let* ((lb (jolt-get newl (keyword #f "logical-block")))) (jolt-invoke (var-deref "clojure.pprint" "linear-nl?") this lb section)))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "linear") (lambda (newl this section _) (let fnrec721 ((newl newl) (this this) (section section) (_ _)) (let* ((lb (jolt-get newl (keyword #f "logical-block")))) (jolt-invoke (var-deref "clojure.pprint" "linear-nl?") this lb section)))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "miser") (lambda (newl this section _) (let fnrec722 ((newl newl) (this this) (section section) (_ _)) (let* ((lb (jolt-get newl (keyword #f "logical-block")))) (jolt-invoke (var-deref "clojure.pprint" "miser-nl?") this lb section)))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "miser") (lambda (newl this section _) (let fnrec722 ((newl newl) (this this) (section section) (_ _)) (let* ((lb (jolt-get newl (keyword #f "logical-block")))) (jolt-invoke (var-deref "clojure.pprint" "miser-nl?") this lb section)))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "fill") (lambda (newl this section subsection) (let fnrec723 ((newl newl) (this this) (section section) (subsection subsection)) (let* ((lb (jolt-get newl (keyword #f "logical-block")))) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "intra-block-nl"))))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "clojure.pprint" "tokens-fit?") this subsection)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.pprint" "miser-nl?") this lb section)))))))) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "fill") (lambda (newl this section subsection) (let fnrec723 ((newl newl) (this this) (section section) (subsection subsection)) (let* ((lb (jolt-get newl (keyword #f "logical-block")))) (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "intra-block-nl"))))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-not (jolt-invoke (var-deref "clojure.pprint" "tokens-fit?") this subsection)))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.pprint" "miser-nl?") this lb section)))))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "mandatory") (lambda (_r$__125 _r$__126 _r$__127 _) (let fnrec724 ((_r$__125 _r$__125) (_r$__126 _r$__126) (_r$__127 _r$__127) (_ _)) #t)) "clojure.pprint")) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "emit-nl?") (keyword #f "mandatory") (lambda (_r$__125 _r$__126 _r$__127 _) (let fnrec724 ((_r$__125 _r$__125) (_r$__126 _r$__126) (_r$__127 _r$__127) (_ _)) #t)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "get-section" (letrec ((get-section (lambda (buffer) (let fnrec725 ((buffer buffer)) (let* ((nl (jolt-first buffer)) (lb (jolt-get nl (keyword #f "logical-block"))) (section (jolt-seq (let* ((_a$727 (var-deref "clojure.core" "take-while")) (_a$728 (lambda (p__5_) (let fnrec726 ((p__5_ p__5_)) (jolt-not (let* ((and__25__auto (jolt-invoke (var-deref "clojure.pprint" "nl-t?") p__5_))) (if (jolt-truthy? and__25__auto) (jolt-invoke (var-deref "clojure.pprint" "ancestor?") (jolt-get p__5_ (keyword #f "logical-block")) lb) and__25__auto)))))) (_a$729 (jolt-next buffer))) (jolt-invoke _a$727 _a$728 _a$729))))) (let* ((_o$730 section) (_o$731 (jolt-seq (jolt-drop (jolt-inc (jolt-count section)) buffer)))) (jolt-vector _o$730 _o$731))))))) get-section) (let* ((_o$732 (keyword #f "private")) (_o$733 #t)) (jolt-hash-map _o$732 _o$733)))) (guard (e (#t #f)) @@ -1235,11 +1233,11 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "update-nl-state" (letrec ((update-nl-state (lambda (lb) (let fnrec741 ((lb lb)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "intra-block-nl")) #t) (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "done-nl")) #t) (let* ((lb (jolt-get lb (keyword #f "parent")))) (let loop742 ((lb lb)) (if (jolt-truthy? lb) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "done-nl")) #t) (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "intra-block-nl")) #t) (loop742 (jolt-get lb (keyword #f "parent")))) jolt-nil)))))))) update-nl-state) (let* ((_o$743 (keyword #f "private")) (_o$744 #t)) (jolt-hash-map _o$743 _o$744)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "emit-nl" (letrec ((emit-nl (lambda (this nl) (let fnrec745 ((this this) (nl nl)) (begin (let* ((_a$746 (var-deref "clojure.pprint" "-write")) (_a$747 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (_a$748 (jolt-invoke (var-deref "clojure.pprint" "pp-newline")))) (jolt-invoke _a$746 _a$747 _a$748)) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil) (let* ((lb (jolt-get nl (keyword #f "logical-block"))) (prefix (jolt-get lb (keyword #f "per-line-prefix")))) (begin (if (jolt-truthy? prefix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix) jolt-nil) (let* ((istr (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") (let* ((_a$749 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "indent")))) (_a$750 (jolt-count prefix))) (jolt-n- _a$749 _a$750)) (integer->char 32))))) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) istr)) (jolt-invoke (var-deref "clojure.pprint" "update-nl-state") lb)))))))) emit-nl) (let* ((_o$751 (keyword #f "private")) (_o$752 #t)) (jolt-hash-map _o$751 _o$752)))) + (def-var-with-meta! "clojure.pprint" "emit-nl" (letrec ((emit-nl (lambda (this nl) (let fnrec745 ((this this) (nl nl)) (begin (let* ((_a$746 (var-deref "clojure.pprint" "-write")) (_a$747 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (_a$748 (jolt-invoke (var-deref "clojure.pprint" "pp-newline")))) (jolt-invoke _a$746 _a$747 _a$748)) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil) (let* ((lb (jolt-get nl (keyword #f "logical-block"))) (prefix (jolt-get lb (keyword #f "per-line-prefix")))) (begin (if (jolt-truthy? prefix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix) jolt-nil) (let* ((istr (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") (let* ((_a$749 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "indent")))) (_a$750 (jolt-count prefix))) (- _a$749 _a$750)) (integer->char 32))))) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) istr)) (jolt-invoke (var-deref "clojure.pprint" "update-nl-state") lb)))))))) emit-nl) (let* ((_o$751 (keyword #f "private")) (_o$752 #t)) (jolt-hash-map _o$751 _o$752)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "split-at-newline" (letrec ((split-at-newline (lambda (tokens) (let fnrec753 ((tokens tokens)) (let* ((pre (jolt-seq (jolt-invoke (var-deref "clojure.core" "take-while") (lambda (p__7_) (let fnrec754 ((p__7_ p__7_)) (jolt-not (jolt-invoke (var-deref "clojure.pprint" "nl-t?") p__7_)))) tokens)))) (let* ((_o$755 pre) (_o$756 (jolt-seq (jolt-drop (jolt-count pre) tokens)))) (jolt-vector _o$755 _o$756))))))) split-at-newline) (let* ((_o$757 (keyword #f "private")) (_o$758 #t)) (jolt-hash-map _o$757 _o$758)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "write-token-string" (letrec ((write-token-string (lambda (this tokens) (let fnrec759 ((this this) (tokens tokens)) (let* ((G__40 (jolt-invoke (var-deref "clojure.pprint" "split-at-newline") tokens)) (a (jolt-nth G__40 0 jolt-nil)) (b (jolt-nth G__40 1 jolt-nil))) (begin (if (jolt-truthy? a) (jolt-invoke (var-deref "clojure.pprint" "write-tokens") this a #f) jolt-nil) (if (jolt-truthy? b) (let* ((G__41 (jolt-invoke (var-deref "clojure.pprint" "get-section") b)) (section (jolt-nth G__41 0 jolt-nil)) (remainder (jolt-nth G__41 1 jolt-nil)) (newl (jolt-first b))) (let* ((do-nl (jolt-invoke (var-deref "clojure.pprint" "emit-nl?") newl this section (jolt-invoke (var-deref "clojure.pprint" "get-sub-section") b))) (result (if (jolt-truthy? do-nl) (begin (jolt-invoke (var-deref "clojure.pprint" "emit-nl") this newl) (jolt-next b)) b)) (long-section (jolt-not (jolt-invoke (var-deref "clojure.pprint" "tokens-fit?") this result))) (result (if (jolt-truthy? long-section) (let* ((rem2 (write-token-string this section))) (if (jolt= rem2 section) (begin (jolt-invoke (var-deref "clojure.pprint" "write-tokens") this section #f) remainder) (let* ((_a$760 (jolt-vector)) (_a$761 (jolt-concat rem2 remainder))) (jolt-into _a$760 _a$761)))) result))) result)) jolt-nil))))))) write-token-string) (let* ((_o$762 (keyword #f "private")) (_o$763 #t)) (jolt-hash-map _o$762 _o$763)))) + (def-var-with-meta! "clojure.pprint" "write-token-string" (letrec ((write-token-string (lambda (this tokens) (let fnrec759 ((this this) (tokens tokens)) (let* ((G__40 (jolt-invoke (var-deref "clojure.pprint" "split-at-newline") tokens)) (a (jolt-nth G__40 0 jolt-nil)) (b (jolt-nth G__40 1 jolt-nil))) (begin (if (jolt-truthy? a) (jolt-invoke (var-deref "clojure.pprint" "write-tokens") this a #f) jolt-nil) (if (jolt-truthy? b) (let* ((G__41 (jolt-invoke (var-deref "clojure.pprint" "get-section") b)) (section (jolt-nth G__41 0 jolt-nil)) (remainder (jolt-nth G__41 1 jolt-nil)) (newl (jolt-first b))) (let* ((do-nl (jolt-invoke (var-deref "clojure.core" "emit-nl?") newl this section (jolt-invoke (var-deref "clojure.pprint" "get-sub-section") b))) (result (if (jolt-truthy? do-nl) (begin (jolt-invoke (var-deref "clojure.pprint" "emit-nl") this newl) (jolt-next b)) b)) (long-section (jolt-not (jolt-invoke (var-deref "clojure.pprint" "tokens-fit?") this result))) (result (if (jolt-truthy? long-section) (let* ((rem2 (write-token-string this section))) (if (jolt= rem2 section) (begin (jolt-invoke (var-deref "clojure.pprint" "write-tokens") this section #f) remainder) (let* ((_a$760 (jolt-vector)) (_a$761 (jolt-concat rem2 remainder))) (jolt-into _a$760 _a$761)))) result))) result)) jolt-nil))))))) write-token-string) (let* ((_o$762 (keyword #f "private")) (_o$763 #t)) (jolt-hash-map _o$762 _o$763)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "write-line" (letrec ((write-line (lambda (this) (let fnrec764 ((this this)) (let* ((buffer (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "buffer")))) (let loop765 ((buffer buffer)) (begin (let* ((_a$766 (var-deref "clojure.core" "swap!")) (_a$767 (record-method-dispatch this "-fields" (jolt-vector))) (_a$768 jolt-assoc) (_a$769 (keyword #f "buffer")) (_a$770 (jolt-into (jolt-vector) buffer))) (jolt-invoke _a$766 _a$767 _a$768 _a$769 _a$770)) (if (jolt-not (jolt-invoke (var-deref "clojure.pprint" "tokens-fit?") this buffer)) (let* ((new-buffer (jolt-invoke (var-deref "clojure.pprint" "write-token-string") this buffer))) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "identical?") buffer new-buffer)) (loop765 new-buffer) jolt-nil)) jolt-nil)))))))) write-line) (let* ((_o$771 (keyword #f "private")) (_o$772 #t)) (jolt-hash-map _o$771 _o$772)))) (guard (e (#t #f)) @@ -1249,21 +1247,21 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "write-white-space" (letrec ((write-white-space (lambda (this) (let fnrec789 ((this this)) (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "trailing-white-space")))) (if (jolt-truthy? temp__27__auto) (let* ((tws temp__27__auto)) (begin (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) tws) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") jolt-nil))) jolt-nil)))))) write-white-space) (let* ((_o$790 (keyword #f "private")) (_o$791 #t)) (jolt-hash-map _o$790 _o$791)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "write-initial-lines" (letrec ((write-initial-lines (lambda (this s) (let fnrec792 ((this this) (s s)) (let* ((lines (jolt-invoke (var-deref "clojure.string" "split") s (jolt-regex "\\n") -1))) (if (jolt= (jolt-count lines) 1) s (let* ((prefix (jolt-get (jolt-first (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks"))) (keyword #f "per-line-prefix"))) (l (jolt-first lines))) (begin (if (jolt= (keyword #f "buffering") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode"))) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (jolt-n+ oldpos (jolt-count l)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-buffer-blob") l jolt-nil oldpos newpos)) (jolt-invoke (var-deref "clojure.pprint" "write-buffered-output") this))) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) l))) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) "\n") (begin (jolt-count (let* ((_a$797 (lambda (l) (let fnrec793 ((l l)) (begin (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) l) (let* ((_a$794 (var-deref "clojure.pprint" "-write")) (_a$795 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (_a$796 (jolt-invoke (var-deref "clojure.pprint" "pp-newline")))) (jolt-invoke _a$794 _a$795 _a$796)) (if (jolt-truthy? prefix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix) jolt-nil) jolt-nil)))) (_a$798 (jolt-next (jolt-invoke (var-deref "clojure.core" "butlast") lines)))) (jolt-map _a$797 _a$798))) jolt-nil) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "buffering") (keyword #f "writing")) (jolt-last lines))))))))) write-initial-lines) (let* ((_o$799 (keyword #f "private")) (_o$800 #t)) (jolt-hash-map _o$799 _o$800)))) + (def-var-with-meta! "clojure.pprint" "write-initial-lines" (letrec ((write-initial-lines (lambda (this s) (let fnrec792 ((this this) (s s)) (let* ((lines (jolt-invoke (var-deref "clojure.string" "split") s (jolt-regex "\\n") -1))) (if (jolt= (jolt-count lines) 1) s (let* ((prefix (jolt-get (jolt-first (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks"))) (keyword #f "per-line-prefix"))) (l (jolt-first lines))) (begin (if (jolt= (keyword #f "buffering") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode"))) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (+ oldpos (jolt-count l)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-buffer-blob") l jolt-nil oldpos newpos)) (jolt-invoke (var-deref "clojure.pprint" "write-buffered-output") this))) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) l))) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) "\n") (begin (jolt-count (let* ((_a$797 (lambda (l) (let fnrec793 ((l l)) (begin (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) l) (let* ((_a$794 (var-deref "clojure.pprint" "-write")) (_a$795 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (_a$796 (jolt-invoke (var-deref "clojure.pprint" "pp-newline")))) (jolt-invoke _a$794 _a$795 _a$796)) (if (jolt-truthy? prefix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix) jolt-nil) jolt-nil)))) (_a$798 (jolt-next (jolt-invoke (var-deref "clojure.core" "butlast") lines)))) (jolt-map _a$797 _a$798))) jolt-nil) (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "buffering") (keyword #f "writing")) (jolt-last lines))))))))) write-initial-lines) (let* ((_o$799 (keyword #f "private")) (_o$800 #t)) (jolt-hash-map _o$799 _o$800)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "p-write-char" (letrec ((p-write-char (lambda (this c) (let fnrec801 ((this this) (c c)) (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) c)) (if (jolt= c (integer->char 10)) (jolt-invoke (var-deref "clojure.pprint" "write-initial-lines") this "\n") (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (jolt-inc oldpos))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") 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(record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") white-space)) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (jolt-n+ oldpos (jolt-count s0)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-buffer-blob") s white-space oldpos newpos)))))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "char?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "number?") x)))) (jolt-invoke (var-deref "clojure.pprint" "p-write-char") this x) jolt-nil)))))) (jolt-invoke (var-deref "clojure.core" "register-inline-method") "PrettyWriter" "IPrettyWriter" "-pflush" (lambda (this) (let fnrec815 ((this this)) (let* ((fields (jolt-get this (keyword #f "fields")))) (begin (jolt-invoke (var-deref "clojure.pprint" "-ppflush") this) (jolt-invoke (var-deref "clojure.pprint" "-pflush") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")))))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") 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"PrettyWriter" "IPrettyWriter") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "PrettyWriter" "IPrettyWriter" "-write" (lambda (this x) (let fnrec814 ((this this) (x x)) (let* ((fields (jolt-get this (keyword #f "fields")))) (if (jolt-truthy? 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(record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "trailing-white-space") white-space)) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (+ oldpos (jolt-count s0)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-buffer-blob") s white-space oldpos newpos)))))) (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "char?") x))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "number?") x)))) (jolt-invoke (var-deref "clojure.pprint" "p-write-char") this x) jolt-nil)))))) (jolt-invoke (var-deref "clojure.core" "register-inline-method") "PrettyWriter" "IPrettyWriter" "-pflush" (lambda (this) (let fnrec815 ((this this)) (let* ((fields (jolt-get this (keyword #f "fields")))) (begin (jolt-invoke (var-deref "clojure.pprint" "-ppflush") this) (jolt-invoke (var-deref "clojure.pprint" "-pflush") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")))))))) (jolt-invoke (var-deref "clojure.core" "register-inline-protocol!") "PrettyWriter" "IPrettyFlush") (jolt-invoke (var-deref "clojure.core" "register-inline-method") "PrettyWriter" "IPrettyFlush" "-ppflush" (lambda (this) (let fnrec816 ((this this)) (let* ((fields (jolt-get this (keyword #f "fields")))) (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "buffering")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-tokens") this (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "buffer")) #t) (let* ((_a$817 (var-deref "clojure.core" "swap!")) (_a$818 (record-method-dispatch this "-fields" (jolt-vector))) (_a$819 jolt-assoc) (_a$820 (keyword #f "buffer")) (_a$821 (jolt-vector))) (jolt-invoke _a$817 _a$818 _a$819 _a$820 _a$821))) (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this)))))))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "pretty-writer" (letrec ((pretty-writer (lambda (writer max-columns miser-width) (let fnrec822 ((writer writer) (max-columns max-columns) (miser-width miser-width)) (let* ((lb (let* ((_a$823 (var-deref "clojure.pprint" "->logical-block")) (_a$824 jolt-nil) (_a$825 jolt-nil) (_a$826 (jolt-invoke (var-deref "clojure.core" "atom") 0)) (_a$827 (jolt-invoke (var-deref "clojure.core" "atom") 0)) (_a$828 (jolt-invoke (var-deref "clojure.core" "atom") #f)) (_a$829 (jolt-invoke (var-deref "clojure.core" "atom") #f)) (_a$830 jolt-nil) (_a$831 jolt-nil) (_a$832 jolt-nil) (_a$833 jolt-nil)) (jolt-invoke _a$823 _a$824 _a$825 _a$826 _a$827 _a$828 _a$829 _a$830 _a$831 _a$832 _a$833)))) (jolt-invoke (var-deref "clojure.pprint" "->PrettyWriter") (jolt-invoke (var-deref "clojure.core" "atom") (let* ((_o$834 (keyword #f "pretty-writer")) (_o$835 #t) (_o$836 (keyword #f "base")) (_o$837 (jolt-invoke (var-deref "clojure.pprint" "column-writer") writer max-columns)) (_o$838 (keyword #f "logical-blocks")) (_o$839 lb) (_o$840 (keyword #f "sections")) (_o$841 jolt-nil) (_o$842 (keyword #f "mode")) (_o$843 (keyword #f "writing")) (_o$844 (keyword #f "buffer")) (_o$845 (jolt-vector)) (_o$846 (keyword #f "buffer-block")) (_o$847 lb) (_o$848 (keyword #f "buffer-level")) (_o$849 1) (_o$850 (keyword #f "miser-width")) (_o$851 miser-width) (_o$852 (keyword #f "trailing-white-space")) (_o$853 jolt-nil) (_o$854 (keyword #f "pos")) (_o$855 0)) (jolt-hash-map _o$834 _o$835 _o$836 _o$837 _o$838 _o$839 _o$840 _o$841 _o$842 _o$843 _o$844 _o$845 _o$846 _o$847 _o$848 _o$849 _o$850 _o$851 _o$852 _o$853 _o$854 _o$855))))))))) pretty-writer) (let* ((_o$856 (keyword #f "private")) (_o$857 #t)) (jolt-hash-map _o$856 _o$857)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "start-block" (letrec ((start-block (lambda (this prefix per-line-prefix suffix) (let fnrec858 ((this this) (prefix prefix) (per-line-prefix per-line-prefix) (suffix suffix)) (let* ((lb (let* ((_a$859 (var-deref "clojure.pprint" "->logical-block")) (_a$860 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks"))) (_a$861 jolt-nil) (_a$862 (jolt-invoke (var-deref "clojure.core" "atom") 0)) (_a$863 (jolt-invoke (var-deref "clojure.core" "atom") 0)) (_a$864 (jolt-invoke (var-deref "clojure.core" "atom") #f)) (_a$865 (jolt-invoke (var-deref "clojure.core" "atom") #f)) (_a$866 prefix) (_a$867 per-line-prefix) (_a$868 suffix) (_a$869 jolt-nil)) (jolt-invoke _a$859 _a$860 _a$861 _a$862 _a$863 _a$864 _a$865 _a$866 _a$867 _a$868 _a$869)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "logical-blocks") lb) (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "start"))) jolt-nil)) (if (jolt-truthy? prefix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix) jolt-nil) (let* ((col (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "start-col")) col) (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "indent")) col)))) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (jolt-n+ oldpos (if (jolt-truthy? prefix) (jolt-count prefix) 0)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-start-block-t") lb oldpos newpos))))))))))) start-block) (let* ((_o$870 (keyword #f "private")) (_o$871 #t)) (jolt-hash-map _o$870 _o$871)))) + (def-var-with-meta! "clojure.pprint" "start-block" (letrec ((start-block (lambda (this prefix per-line-prefix suffix) (let fnrec858 ((this this) (prefix prefix) (per-line-prefix per-line-prefix) (suffix suffix)) (let* ((lb (let* ((_a$859 (var-deref "clojure.pprint" "->logical-block")) (_a$860 (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks"))) (_a$861 jolt-nil) (_a$862 (jolt-invoke (var-deref "clojure.core" "atom") 0)) (_a$863 (jolt-invoke (var-deref "clojure.core" "atom") 0)) (_a$864 (jolt-invoke (var-deref "clojure.core" "atom") #f)) (_a$865 (jolt-invoke (var-deref "clojure.core" "atom") #f)) (_a$866 prefix) (_a$867 per-line-prefix) (_a$868 suffix) (_a$869 jolt-nil)) (jolt-invoke _a$859 _a$860 _a$861 _a$862 _a$863 _a$864 _a$865 _a$866 _a$867 _a$868 _a$869)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "logical-blocks") lb) (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "start"))) jolt-nil)) (if (jolt-truthy? prefix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) prefix) jolt-nil) (let* ((col (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "start-col")) col) (jolt-invoke (var-deref "clojure.core" "reset!") (jolt-get lb (keyword #f "indent")) col)))) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (+ oldpos (if (jolt-truthy? prefix) (jolt-count prefix) 0)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-start-block-t") lb oldpos newpos))))))))))) start-block) (let* ((_o$870 (keyword #f "private")) (_o$871 #t)) (jolt-hash-map _o$870 _o$871)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "end-block" (letrec ((end-block (lambda (this) (let fnrec872 ((this this)) (let* ((lb (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks"))) (suffix (jolt-get lb (keyword #f "suffix")))) (begin (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (if (jolt-truthy? suffix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) suffix) jolt-nil) (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "end"))) jolt-nil))) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (jolt-n+ oldpos (if (jolt-truthy? suffix) (jolt-count suffix) 0)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-end-block-t") lb oldpos newpos))))) (let* ((_a$873 (var-deref "clojure.core" "swap!")) (_a$874 (record-method-dispatch this "-fields" (jolt-vector))) (_a$875 jolt-assoc) (_a$876 (keyword #f "logical-blocks")) (_a$877 (jolt-get lb (keyword #f "parent")))) (jolt-invoke _a$873 _a$874 _a$875 _a$876 _a$877)))))))) end-block) (let* ((_o$878 (keyword #f "private")) (_o$879 #t)) (jolt-hash-map _o$878 _o$879)))) + (def-var-with-meta! "clojure.pprint" "end-block" (letrec ((end-block (lambda (this) (let fnrec872 ((this this)) (let* ((lb (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks"))) (suffix (jolt-get lb (keyword #f "suffix")))) (begin (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (if (jolt-truthy? suffix) (jolt-invoke (var-deref "clojure.pprint" "-write") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base")) suffix) jolt-nil) (let* ((temp__27__auto (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-block-callback")))) (if (jolt-truthy? temp__27__auto) (let* ((cb temp__27__auto)) (jolt-invoke cb (keyword #f "end"))) jolt-nil))) (let* ((oldpos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos"))) (newpos (+ oldpos (if (jolt-truthy? suffix) (jolt-count suffix) 0)))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "pos") newpos) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-end-block-t") lb oldpos newpos))))) (let* ((_a$873 (var-deref "clojure.core" "swap!")) (_a$874 (record-method-dispatch this "-fields" (jolt-vector))) (_a$875 jolt-assoc) (_a$876 (keyword #f "logical-blocks")) (_a$877 (jolt-get lb (keyword #f "parent")))) (jolt-invoke _a$873 _a$874 _a$875 _a$876 _a$877)))))))) end-block) (let* ((_o$878 (keyword #f "private")) (_o$879 #t)) (jolt-hash-map _o$878 _o$879)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "nl" (letrec ((nl (lambda (this type) (let fnrec880 ((this this) (type type)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (record-method-dispatch this "-fields" (jolt-vector)) jolt-assoc (keyword #f "mode") (keyword #f "buffering")) (let* ((pos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos")))) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-nl-t") type (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks")) pos pos)))))))) nl) (let* ((_o$881 (keyword #f "private")) (_o$882 #t)) (jolt-hash-map _o$881 _o$882)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "indent" (letrec ((indent (lambda (this relative-to offset) (let fnrec883 ((this this) (relative-to relative-to) (offset offset)) (let* ((lb (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks")))) (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (let* ((_a$886 (var-deref "clojure.core" "reset!")) (_a$887 (jolt-get lb (keyword #f "indent"))) (_a$888 (jolt-n+ offset (let* ((G__43 jolt=) (G__44 relative-to)) (if (jolt-truthy? (jolt-invoke G__43 (keyword #f "block") G__44)) (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "start-col"))) (if (jolt-truthy? (jolt-invoke G__43 (keyword #f "current") G__44)) (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (jolt-throw (let* ((_a$884 (jolt-invoke (var-deref "clojure.core" "str") "No matching clause: " G__44)) (_a$885 (jolt-hash-map))) (jolt-ex-info _a$884 _a$885))))))))) (jolt-invoke _a$886 _a$887 _a$888))) (let* ((pos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos")))) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-indent-t") lb relative-to offset pos pos))))))))) indent) (let* ((_o$889 (keyword #f "private")) (_o$890 #t)) (jolt-hash-map _o$889 _o$890)))) + (def-var-with-meta! "clojure.pprint" "indent" (letrec ((indent (lambda (this relative-to offset) (let fnrec883 ((this this) (relative-to relative-to) (offset offset)) (let* ((lb (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "logical-blocks")))) (if (jolt= (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "mode")) (keyword #f "writing")) (begin (jolt-invoke (var-deref "clojure.pprint" "write-white-space") this) (let* ((_a$886 (var-deref "clojure.core" "reset!")) (_a$887 (jolt-get lb (keyword #f "indent"))) (_a$888 (+ offset (let* ((G__43 jolt=) (G__44 relative-to)) (if (jolt-truthy? (jolt-invoke G__43 (keyword #f "block") G__44)) (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get lb (keyword #f "start-col"))) (if (jolt-truthy? (jolt-invoke G__43 (keyword #f "current") G__44)) (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "base"))) (jolt-throw (let* ((_a$884 (jolt-invoke (var-deref "clojure.core" "str") "No matching clause: " G__44)) (_a$885 (jolt-hash-map))) (jolt-ex-info _a$884 _a$885))))))))) (jolt-invoke _a$886 _a$887 _a$888))) (let* ((pos (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "pos")))) (jolt-invoke (var-deref "clojure.pprint" "add-to-buffer") this (jolt-invoke (var-deref "clojure.pprint" "make-indent-t") lb relative-to offset pos pos))))))))) indent) (let* ((_o$889 (keyword #f "private")) (_o$890 #t)) (jolt-hash-map _o$889 _o$890)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "get-miser-width" (letrec ((get-miser-width (lambda (this) (let fnrec891 ((this this)) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch this "-fields" (jolt-vector))) (keyword #f "miser-width")))))) get-miser-width) (let* ((_o$892 (keyword #f "private")) (_o$893 #t)) (jolt-hash-map _o$892 _o$893)))) (guard (e (#t #f)) @@ -1305,7 +1303,7 @@ (lambda (base-writer . body) (let fnrec938 ((base-writer base-writer) (body (list->cseq body))) (let* ((_a$978 (var-deref "clojure.core" "__sqcat")) (_a$979 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$980 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$945 (var-deref "clojure.core" "__sqvec")) (_a$946 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "base-writer__11__auto"))) (_a$947 (jolt-invoke (var-deref "clojure.core" "__sq1") base-writer)) (_a$948 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "new-writer__12__auto"))) (_a$949 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$942 (var-deref "clojure.core" "__sqcat")) (_a$943 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "not"))) (_a$944 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$939 (var-deref "clojure.core" "__sqcat")) (_a$940 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.pprint" "pretty-writer?"))) (_a$941 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "base-writer__11__auto")))) (jolt-invoke _a$939 _a$940 _a$941))))) (jolt-invoke _a$942 _a$943 _a$944))))) (jolt-invoke _a$945 _a$946 _a$947 _a$948 _a$949)))) (_a$981 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$974 (var-deref "clojure.core" "__sqcat")) (_a$975 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "binding"))) (_a$976 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$960 (var-deref "clojure.core" "__sqvec")) (_a$961 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "*out*"))) (_a$962 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$955 (var-deref "clojure.core" "__sqcat")) (_a$956 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$957 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "new-writer__12__auto"))) (_a$958 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$950 (var-deref "clojure.core" "__sqcat")) (_a$951 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.pprint" "make-pretty-writer"))) (_a$952 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "base-writer__11__auto"))) (_a$953 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.pprint" "*print-right-margin*"))) (_a$954 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.pprint" "*print-miser-width*")))) (jolt-invoke _a$950 _a$951 _a$952 _a$953 _a$954)))) (_a$959 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "base-writer__11__auto")))) (jolt-invoke _a$955 _a$956 _a$957 _a$958 _a$959))))) (jolt-invoke _a$960 _a$961 _a$962)))) (_a$977 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$971 (var-deref "clojure.core" "__sqcat")) (_a$972 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__with-pprint-routing"))) (_a$973 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$966 (var-deref "clojure.core" "__sqcat")) (_a$967 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$968 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$969 body) (_a$970 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$963 (var-deref "clojure.core" "__sqcat")) (_a$964 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.pprint" "-ppflush"))) (_a$965 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "*out*")))) (jolt-invoke _a$963 _a$964 _a$965))))) (jolt-invoke _a$966 _a$967 _a$968 _a$969 _a$970))))) (jolt-invoke _a$971 _a$972 _a$973))))) (jolt-invoke _a$974 _a$975 _a$976 _a$977))))) (jolt-invoke _a$978 _a$979 _a$980 _a$981))))) (mark-macro! "clojure.pprint" "with-pretty-writer")) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "write-out" (letrec ((write-out (lambda (object) (let fnrec982 ((object object)) (let* ((length-reached (let* ((and__25__auto (var-deref "clojure.pprint" "*current-length*"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (var-deref "clojure.pprint" "*print-length*"))) (if (jolt-truthy? and__25__auto) (jolt-n>= (var-deref "clojure.pprint" "*current-length*") (var-deref "clojure.pprint" "*print-length*")) and__25__auto)) and__25__auto)))) (begin (if (jolt-not (var-deref "clojure.pprint" "*print-pretty*")) (jolt-invoke (var-deref "clojure.pprint" "pr") object) (if (jolt-truthy? length-reached) (jolt-invoke (var-deref "clojure.pprint" "-write") (var-deref "clojure.core" "*out*") "...") (begin (if (jolt-truthy? (var-deref "clojure.pprint" "*current-length*")) (jolt-var-set (jolt-var "clojure.pprint" "*current-length*") (jolt-inc (var-deref "clojure.pprint" "*current-length*"))) jolt-nil) (jolt-invoke (var-deref "clojure.pprint" "*print-pprint-dispatch*") object)))) length-reached)))))) write-out) (let* ((_o$983 (keyword #f "doc")) (_o$984 "Write an object to *out* subject to the current bindings of the printer control\n variables. *out* must be a PrettyWriter when pretty printing is enabled.")) (jolt-hash-map _o$983 _o$984)))) + (def-var-with-meta! "clojure.pprint" "write-out" (letrec ((write-out (lambda (object) (let fnrec982 ((object object)) (let* ((length-reached (let* ((and__25__auto (var-deref "clojure.pprint" "*current-length*"))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (var-deref "clojure.pprint" "*print-length*"))) (if (jolt-truthy? and__25__auto) (>= (var-deref "clojure.pprint" "*current-length*") (var-deref "clojure.pprint" "*print-length*")) and__25__auto)) and__25__auto)))) (begin (if (jolt-not (var-deref "clojure.pprint" "*print-pretty*")) (jolt-invoke (var-deref "clojure.pprint" "pr") object) (if (jolt-truthy? length-reached) (jolt-invoke (var-deref "clojure.pprint" "-write") (var-deref "clojure.core" "*out*") "...") (begin (if (jolt-truthy? (var-deref "clojure.pprint" "*current-length*")) (jolt-var-set (jolt-var "clojure.pprint" "*current-length*") (jolt-inc (var-deref "clojure.pprint" "*current-length*"))) jolt-nil) (jolt-invoke (var-deref "clojure.pprint" "*print-pprint-dispatch*") object)))) length-reached)))))) write-out) (let* ((_o$983 (keyword #f "doc")) (_o$984 "Write an object to *out* subject to the current bindings of the printer control\n variables. *out* must be a PrettyWriter when pretty printing is enabled.")) (jolt-hash-map _o$983 _o$984)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "write" (letrec ((write (lambda (object . kw-args) (let fnrec985 ((object object) (kw-args (list->cseq kw-args))) (let* ((options (let* ((_a$988 (var-deref "clojure.core" "merge")) (_a$989 (let* ((_o$986 (keyword #f "stream")) (_o$987 #t)) (jolt-hash-map _o$986 _o$987))) (_a$990 (jolt-apply jolt-hash-map-fn kw-args))) (jolt-invoke _a$988 _a$989 _a$990)))) (let* ((frame__20__auto (let* ((_a$991 (var-deref "clojure.core" "array-map")) (_a$992 (jolt-var "clojure.pprint" "*print-base*")) (_a$993 (jolt-get options (keyword #f "base") (var-deref "clojure.pprint" "*print-base*"))) (_a$994 (jolt-var "clojure.pprint" "*print-circle*")) (_a$995 (jolt-get options (keyword #f "circle") (var-deref "clojure.pprint" "*print-circle*"))) (_a$996 (jolt-var "clojure.pprint" "*print-length*")) (_a$997 (jolt-get options (keyword #f "length") (var-deref "clojure.pprint" "*print-length*"))) (_a$998 (jolt-var "clojure.pprint" "*print-level*")) (_a$999 (jolt-get options (keyword #f "level") (var-deref "clojure.pprint" "*print-level*"))) (_a$1000 (jolt-var "clojure.pprint" "*print-lines*")) (_a$1001 (jolt-get options (keyword #f "lines") (var-deref "clojure.pprint" "*print-lines*"))) (_a$1002 (jolt-var "clojure.pprint" "*print-miser-width*")) (_a$1003 (jolt-get options (keyword #f "miser-width") (var-deref "clojure.pprint" "*print-miser-width*"))) (_a$1004 (jolt-var "clojure.pprint" "*print-pprint-dispatch*")) (_a$1005 (jolt-get options (keyword #f "dispatch") (var-deref "clojure.pprint" "*print-pprint-dispatch*"))) (_a$1006 (jolt-var "clojure.pprint" "*print-pretty*")) (_a$1007 (jolt-get options (keyword #f "pretty") (var-deref "clojure.pprint" "*print-pretty*"))) (_a$1008 (jolt-var "clojure.pprint" "*print-radix*")) (_a$1009 (jolt-get options (keyword #f "radix") (var-deref "clojure.pprint" "*print-radix*"))) (_a$1010 (jolt-var "clojure.core" "*print-readably*")) (_a$1011 (jolt-get options (keyword #f "readably") (var-deref "clojure.core" "*print-readably*"))) (_a$1012 (jolt-var "clojure.pprint" "*print-right-margin*")) (_a$1013 (jolt-get options (keyword #f "right-margin") (var-deref "clojure.pprint" "*print-right-margin*"))) (_a$1014 (jolt-var "clojure.pprint" "*print-suppress-namespaces*")) (_a$1015 (jolt-get options (keyword #f "suppress-namespaces") (var-deref "clojure.pprint" "*print-suppress-namespaces*")))) (jolt-invoke _a$991 _a$992 _a$993 _a$994 _a$995 _a$996 _a$997 _a$998 _a$999 _a$1000 _a$1001 _a$1002 _a$1003 _a$1004 _a$1005 _a$1006 _a$1007 _a$1008 _a$1009 _a$1010 _a$1011 _a$1012 _a$1013 _a$1014 _a$1015)))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (let* ((sb (host-new "StringBuilder")) (optval (if (jolt-contains? options (keyword #f "stream")) (jolt-get options (keyword #f "stream")) #t)) (base-writer (if (jolt-truthy? (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "true?") optval))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-nil? optval)))) (jolt-invoke (var-deref "clojure.pprint" "->StringBufferWriter") sb) optval))) (begin (if (jolt-truthy? (var-deref "clojure.pprint" "*print-pretty*")) (let* ((base-writer__11__auto base-writer) (new-writer__12__auto (jolt-not (jolt-invoke (var-deref "clojure.pprint" "pretty-writer?") base-writer__11__auto)))) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.core" "*out*") (if (jolt-truthy? new-writer__12__auto) (jolt-invoke (var-deref "clojure.pprint" "make-pretty-writer") base-writer__11__auto (var-deref "clojure.pprint" "*print-right-margin*") (var-deref "clojure.pprint" "*print-miser-width*")) base-writer__11__auto)))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.core" "__with-pprint-routing") (lambda () (let fnrec1016 () (begin (jolt-invoke (var-deref "clojure.pprint" "write-out") object) (jolt-invoke (var-deref "clojure.pprint" "-ppflush") (var-deref "clojure.core" "*out*"))))))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.core" "*out*") base-writer))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.pprint" "pr") object)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "true?") optval)) (jolt-invoke (var-deref "clojure.core" "print") (jolt-invoke (var-deref "clojure.core" "str") sb)) jolt-nil) (if (jolt-nil? optval) (jolt-invoke (var-deref "clojure.core" "str") sb) jolt-nil)))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))))))) write) (let* ((_o$1017 (keyword #f "doc")) (_o$1018 "Write an object subject to the current bindings of the printer control\n variables. Returns the string result if :stream is nil, nil otherwise.")) (jolt-hash-map _o$1017 _o$1018)))) (guard (e (#t #f)) @@ -1315,7 +1313,7 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "check-enumerated-arg" (letrec ((check-enumerated-arg (lambda (arg choices) (let fnrec1025 ((arg arg) (choices choices)) (if (jolt-not (jolt-invoke choices arg)) (jolt-throw (host-new "Exception" (jolt-invoke (var-deref "clojure.core" "str") "Bad argument: " arg ". It must be one of " choices))) jolt-nil))))) check-enumerated-arg) (let* ((_o$1026 (keyword #f "private")) (_o$1027 #t)) (jolt-hash-map _o$1026 _o$1027)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "level-exceeded" (letrec ((level-exceeded (lambda () (let fnrec1028 () (let* ((and__25__auto (var-deref "clojure.pprint" "*print-level*"))) (if (jolt-truthy? and__25__auto) (jolt-n>= (var-deref "clojure.pprint" "*current-level*") (var-deref "clojure.pprint" "*print-level*")) and__25__auto)))))) level-exceeded) (let* ((_o$1029 (keyword #f "private")) (_o$1030 #t)) (jolt-hash-map _o$1029 _o$1030)))) + (def-var-with-meta! "clojure.pprint" "level-exceeded" (letrec ((level-exceeded (lambda () (let fnrec1028 () (let* ((and__25__auto (var-deref "clojure.pprint" "*print-level*"))) (if (jolt-truthy? and__25__auto) (>= (var-deref "clojure.pprint" "*current-level*") (var-deref "clojure.pprint" "*print-level*")) and__25__auto)))))) level-exceeded) (let* ((_o$1029 (keyword #f "private")) (_o$1030 #t)) (jolt-hash-map _o$1029 _o$1030)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "pprint-newline" (letrec ((pprint-newline (lambda (kind) (let fnrec1031 ((kind kind)) (begin (jolt-invoke (var-deref "clojure.pprint" "check-enumerated-arg") kind (let* ((_o$1032 (keyword #f "linear")) (_o$1033 (keyword #f "miser")) (_o$1034 (keyword #f "fill")) (_o$1035 (keyword #f "mandatory"))) (jolt-hash-set _o$1032 _o$1033 _o$1034 _o$1035))) (jolt-invoke (var-deref "clojure.pprint" "nl") (var-deref "clojure.core" "*out*") kind)))))) pprint-newline) (let* ((_o$1036 (keyword #f "doc")) (_o$1037 "Print a conditional newline (:linear :miser :fill or :mandatory) to *out*,\n which must be a pretty-printing writer.")) (jolt-hash-map _o$1036 _o$1037)))) (guard (e (#t #f)) @@ -1335,7 +1333,7 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "format-error" (letrec ((format-error (lambda (message offset) (let fnrec1055 ((message message) (offset offset)) (let* ((full-message (jolt-invoke (var-deref "clojure.core" "str") message "\n" (var-deref "clojure.pprint" "*format-str*") "\n" (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") offset (integer->char 32))) "^" "\n"))) (jolt-throw (host-new "Exception" full-message))))))) format-error) (let* ((_o$1056 (keyword #f "private")) (_o$1057 #t)) (jolt-hash-map _o$1056 _o$1057)))) (guard (e (#t #f)) - (begin (begin (def-var-with-meta! "clojure.pprint" "arg-navigator" (let* ((_a$1067 (var-deref "clojure.core" "make-deftype-ctor")) (_a$1068 (jolt-invoke (var-deref "clojure.core" "with-meta") (jolt-symbol/meta #f "arg-navigator" (jolt-hash-map (keyword #f "private") #t)) (jolt-hash-map (keyword #f "private") #t))) (_a$1069 (let* ((_o$1058 (keyword #f "seq")) (_o$1059 (keyword #f "rest")) (_o$1060 (keyword #f "pos"))) (jolt-vector _o$1058 _o$1059 _o$1060))) (_a$1070 (let* ((_o$1061 jolt-nil) (_o$1062 jolt-nil) (_o$1063 jolt-nil)) (jolt-vector _o$1061 _o$1062 _o$1063))) (_a$1071 (let* ((_o$1064 #f) (_o$1065 #f) (_o$1066 #f)) (jolt-vector _o$1064 _o$1065 _o$1066)))) (jolt-invoke _a$1067 _a$1068 _a$1069 _a$1070 _a$1071)) (let* ((_o$1072 (keyword #f "private")) (_o$1073 #t)) (jolt-hash-map _o$1072 _o$1073))) (def-var! "clojure.pprint" "->arg-navigator" (var-deref "clojure.pprint" "arg-navigator")) (var-deref "clojure.pprint" "arg-navigator")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-invoke (var-deref "clojure.core" "with-meta") (jolt-symbol/meta #f "arg-navigator" (jolt-hash-map (keyword #f "private") #t)) (jolt-hash-map (keyword #f "private") #t))) (def-var! "clojure.pprint" "map->arg-navigator" (lambda (G__45) (let fnrec1074 ((G__45 G__45)) (let* ((_a$1079 (var-deref "clojure.core" "reduce-kv")) (_a$1080 jolt-assoc) (_a$1081 (let* ((_a$1075 (var-deref "clojure.pprint" "->arg-navigator")) (_a$1076 (jolt-get G__45 (keyword #f "seq"))) (_a$1077 (jolt-get G__45 (keyword #f "rest"))) (_a$1078 (jolt-get G__45 (keyword #f "pos")))) (jolt-invoke _a$1075 _a$1076 _a$1077 _a$1078))) (_a$1082 (jolt-dissoc G__45 (keyword #f "seq") (keyword #f "rest") (keyword #f "pos")))) (jolt-invoke _a$1079 _a$1080 _a$1081 _a$1082))))))) + (begin (begin (def-var-with-meta! "clojure.pprint" "arg-navigator" (let* ((_a$1067 (var-deref "clojure.core" "make-deftype-ctor")) (_a$1068 (jolt-symbol/meta #f "arg-navigator" (jolt-hash-map (keyword #f "private") #t))) (_a$1069 (let* ((_o$1058 (keyword #f "seq")) (_o$1059 (keyword #f "rest")) (_o$1060 (keyword #f "pos"))) (jolt-vector _o$1058 _o$1059 _o$1060))) (_a$1070 (let* ((_o$1061 jolt-nil) (_o$1062 jolt-nil) (_o$1063 jolt-nil)) (jolt-vector _o$1061 _o$1062 _o$1063))) (_a$1071 (let* ((_o$1064 #f) (_o$1065 #f) (_o$1066 #f)) (jolt-vector _o$1064 _o$1065 _o$1066)))) (jolt-invoke _a$1067 _a$1068 _a$1069 _a$1070 _a$1071)) (let* ((_o$1072 (keyword #f "private")) (_o$1073 #t)) (jolt-hash-map _o$1072 _o$1073))) (def-var! "clojure.pprint" "->arg-navigator" (var-deref "clojure.pprint" "arg-navigator")) (var-deref "clojure.pprint" "arg-navigator")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-symbol/meta #f "arg-navigator" (jolt-hash-map (keyword #f "private") #t))) (def-var! "clojure.pprint" "map->arg-navigator" (lambda (G__45) (let fnrec1074 ((G__45 G__45)) (let* ((_a$1079 (var-deref "clojure.core" "reduce-kv")) (_a$1080 jolt-assoc) (_a$1081 (let* ((_a$1075 (var-deref "clojure.pprint" "->arg-navigator")) (_a$1076 (jolt-get G__45 (keyword #f "seq"))) (_a$1077 (jolt-get G__45 (keyword #f "rest"))) (_a$1078 (jolt-get G__45 (keyword #f "pos")))) (jolt-invoke _a$1075 _a$1076 _a$1077 _a$1078))) (_a$1082 (jolt-dissoc G__45 (keyword #f "seq") (keyword #f "rest") (keyword #f "pos")))) (jolt-invoke _a$1079 _a$1080 _a$1081 _a$1082))))))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "init-navigator" (letrec ((init-navigator (lambda (s) (let fnrec1083 ((s s)) (let* ((s (jolt-seq s))) (jolt-invoke (var-deref "clojure.pprint" "->arg-navigator") s s 0)))))) init-navigator) (let* ((_o$1084 (keyword #f "private")) (_o$1085 #t)) (jolt-hash-map _o$1084 _o$1085)))) (guard (e (#t #f)) @@ -1347,11 +1345,11 @@ (guard (e (#t #f)) (declare-var! "clojure.pprint" "relative-reposition")) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "absolute-reposition" (letrec ((absolute-reposition (lambda (navigator position) (let fnrec1111 ((navigator navigator) (position position)) (if (jolt-n>= position (jolt-get navigator (keyword #f "pos"))) (jolt-invoke (var-deref "clojure.pprint" "relative-reposition") navigator (jolt-n- (jolt-get navigator (keyword #f "pos")) position)) (let* ((_a$1112 (var-deref "clojure.pprint" "->arg-navigator")) (_a$1113 (jolt-get navigator (keyword #f "seq"))) (_a$1114 (jolt-drop position (jolt-get navigator (keyword #f "seq")))) (_a$1115 position)) (jolt-invoke _a$1112 _a$1113 _a$1114 _a$1115))))))) absolute-reposition) (let* ((_o$1116 (keyword #f "private")) (_o$1117 #t)) (jolt-hash-map _o$1116 _o$1117)))) + (def-var-with-meta! "clojure.pprint" "absolute-reposition" (letrec ((absolute-reposition (lambda (navigator position) (let fnrec1111 ((navigator navigator) (position position)) (if (>= position (jolt-get navigator (keyword #f "pos"))) (jolt-invoke (var-deref "clojure.pprint" "relative-reposition") navigator (- (jolt-get navigator (keyword #f "pos")) position)) (let* ((_a$1112 (var-deref "clojure.pprint" "->arg-navigator")) (_a$1113 (jolt-get navigator (keyword #f "seq"))) (_a$1114 (jolt-drop position (jolt-get navigator (keyword #f "seq")))) (_a$1115 position)) (jolt-invoke _a$1112 _a$1113 _a$1114 _a$1115))))))) absolute-reposition) (let* ((_o$1116 (keyword #f "private")) (_o$1117 #t)) (jolt-hash-map _o$1116 _o$1117)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "relative-reposition" (letrec ((relative-reposition (lambda (navigator position) (let fnrec1118 ((navigator navigator) (position position)) (let* ((newpos (jolt-n+ (jolt-get navigator (keyword #f "pos")) position))) (if (jolt-neg? position) (jolt-invoke (var-deref "clojure.pprint" "absolute-reposition") navigator newpos) (let* ((_a$1119 (var-deref "clojure.pprint" "->arg-navigator")) (_a$1120 (jolt-get navigator (keyword #f "seq"))) (_a$1121 (jolt-drop position (jolt-get navigator (keyword #f "rest")))) (_a$1122 newpos)) (jolt-invoke _a$1119 _a$1120 _a$1121 _a$1122)))))))) relative-reposition) (let* ((_o$1123 (keyword #f "private")) (_o$1124 #t)) (jolt-hash-map _o$1123 _o$1124)))) + (def-var-with-meta! "clojure.pprint" "relative-reposition" (letrec ((relative-reposition (lambda (navigator position) (let fnrec1118 ((navigator navigator) (position position)) (let* ((newpos (+ (jolt-get navigator (keyword #f "pos")) position))) (if (jolt-neg? position) (jolt-invoke (var-deref "clojure.pprint" "absolute-reposition") navigator newpos) (let* ((_a$1119 (var-deref "clojure.pprint" "->arg-navigator")) (_a$1120 (jolt-get navigator (keyword #f "seq"))) (_a$1121 (jolt-drop position (jolt-get navigator (keyword #f "rest")))) (_a$1122 newpos)) (jolt-invoke _a$1119 _a$1120 _a$1121 _a$1122)))))))) relative-reposition) (let* ((_o$1123 (keyword #f "private")) (_o$1124 #t)) (jolt-hash-map _o$1123 _o$1124)))) (guard (e (#t #f)) - (begin (begin (def-var-with-meta! "clojure.pprint" "compiled-directive" (let* ((_a$1137 (var-deref "clojure.core" "make-deftype-ctor")) (_a$1138 (jolt-invoke (var-deref "clojure.core" "with-meta") (jolt-symbol/meta #f "compiled-directive" (jolt-hash-map (keyword #f "private") #t)) (jolt-hash-map (keyword #f "private") #t))) (_a$1139 (let* ((_o$1125 (keyword #f "func")) (_o$1126 (keyword #f "dirdef")) (_o$1127 (keyword #f "params")) (_o$1128 (keyword #f "offset"))) (jolt-vector _o$1125 _o$1126 _o$1127 _o$1128))) (_a$1140 (let* ((_o$1129 jolt-nil) (_o$1130 jolt-nil) (_o$1131 jolt-nil) (_o$1132 jolt-nil)) (jolt-vector _o$1129 _o$1130 _o$1131 _o$1132))) (_a$1141 (let* ((_o$1133 #f) (_o$1134 #f) (_o$1135 #f) (_o$1136 #f)) (jolt-vector _o$1133 _o$1134 _o$1135 _o$1136)))) (jolt-invoke _a$1137 _a$1138 _a$1139 _a$1140 _a$1141)) (let* ((_o$1142 (keyword #f "private")) (_o$1143 #t)) (jolt-hash-map _o$1142 _o$1143))) (def-var! "clojure.pprint" "->compiled-directive" (var-deref "clojure.pprint" "compiled-directive")) (var-deref "clojure.pprint" "compiled-directive")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-invoke (var-deref "clojure.core" "with-meta") (jolt-symbol/meta #f "compiled-directive" (jolt-hash-map (keyword #f "private") #t)) (jolt-hash-map (keyword #f "private") #t))) (def-var! "clojure.pprint" "map->compiled-directive" (lambda (G__47) (let fnrec1144 ((G__47 G__47)) (let* ((_a$1150 (var-deref "clojure.core" "reduce-kv")) (_a$1151 jolt-assoc) (_a$1152 (let* ((_a$1145 (var-deref "clojure.pprint" "->compiled-directive")) (_a$1146 (jolt-get G__47 (keyword #f "func"))) (_a$1147 (jolt-get G__47 (keyword #f "dirdef"))) (_a$1148 (jolt-get G__47 (keyword #f "params"))) (_a$1149 (jolt-get G__47 (keyword #f "offset")))) (jolt-invoke _a$1145 _a$1146 _a$1147 _a$1148 _a$1149))) (_a$1153 (jolt-dissoc G__47 (keyword #f "func") (keyword #f "dirdef") (keyword #f "params") (keyword #f "offset")))) (jolt-invoke _a$1150 _a$1151 _a$1152 _a$1153))))))) + (begin (begin (def-var-with-meta! "clojure.pprint" "compiled-directive" (let* ((_a$1137 (var-deref "clojure.core" "make-deftype-ctor")) (_a$1138 (jolt-symbol/meta #f "compiled-directive" (jolt-hash-map (keyword #f "private") #t))) (_a$1139 (let* ((_o$1125 (keyword #f "func")) (_o$1126 (keyword #f "dirdef")) (_o$1127 (keyword #f "params")) (_o$1128 (keyword #f "offset"))) (jolt-vector _o$1125 _o$1126 _o$1127 _o$1128))) (_a$1140 (let* ((_o$1129 jolt-nil) (_o$1130 jolt-nil) (_o$1131 jolt-nil) (_o$1132 jolt-nil)) (jolt-vector _o$1129 _o$1130 _o$1131 _o$1132))) (_a$1141 (let* ((_o$1133 #f) (_o$1134 #f) (_o$1135 #f) (_o$1136 #f)) (jolt-vector _o$1133 _o$1134 _o$1135 _o$1136)))) (jolt-invoke _a$1137 _a$1138 _a$1139 _a$1140 _a$1141)) (let* ((_o$1142 (keyword #f "private")) (_o$1143 #t)) (jolt-hash-map _o$1142 _o$1143))) (def-var! "clojure.pprint" "->compiled-directive" (var-deref "clojure.pprint" "compiled-directive")) (var-deref "clojure.pprint" "compiled-directive")) (jolt-invoke (var-deref "clojure.core" "register-record-type!") (jolt-symbol/meta #f "compiled-directive" (jolt-hash-map (keyword #f "private") #t))) (def-var! "clojure.pprint" "map->compiled-directive" (lambda (G__47) (let fnrec1144 ((G__47 G__47)) (let* ((_a$1150 (var-deref "clojure.core" "reduce-kv")) (_a$1151 jolt-assoc) (_a$1152 (let* ((_a$1145 (var-deref "clojure.pprint" "->compiled-directive")) (_a$1146 (jolt-get G__47 (keyword #f "func"))) (_a$1147 (jolt-get G__47 (keyword #f "dirdef"))) (_a$1148 (jolt-get G__47 (keyword #f "params"))) (_a$1149 (jolt-get G__47 (keyword #f "offset")))) (jolt-invoke _a$1145 _a$1146 _a$1147 _a$1148 _a$1149))) (_a$1153 (jolt-dissoc G__47 (keyword #f "func") (keyword #f "dirdef") (keyword #f "params") (keyword #f "offset")))) (jolt-invoke _a$1150 _a$1151 _a$1152 _a$1153))))))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "realize-parameter" (letrec ((realize-parameter (lambda (G__48 navigator) (let fnrec1154 ((G__48 G__48) (navigator navigator)) (let* ((G__49 G__48) (param (jolt-nth G__49 0 jolt-nil)) (G__50 (jolt-nth G__49 1 jolt-nil)) (raw-val (jolt-nth G__50 0 jolt-nil)) (offset (jolt-nth G__50 1 jolt-nil))) (let* ((G__51 (if (jolt-contains? (let* ((_o$1155 (keyword #f "at")) (_o$1156 (keyword #f "colon"))) (jolt-hash-set _o$1155 _o$1156)) param) (let* ((_o$1157 raw-val) (_o$1158 navigator)) (jolt-vector _o$1157 _o$1158)) (if (jolt= raw-val (keyword #f "parameter-from-args")) (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator) (if (jolt= raw-val (keyword #f "remaining-arg-count")) (let* ((_o$1159 (jolt-count (jolt-get navigator (keyword #f "rest")))) (_o$1160 navigator)) (jolt-vector _o$1159 _o$1160)) (if #t (let* ((_o$1161 raw-val) (_o$1162 navigator)) (jolt-vector _o$1161 _o$1162)) jolt-nil))))) (real-param (jolt-nth G__51 0 jolt-nil)) (new-navigator (jolt-nth G__51 1 jolt-nil))) (let* ((_o$1167 (let* ((_o$1165 param) (_o$1166 (let* ((_o$1163 real-param) (_o$1164 offset)) (jolt-vector _o$1163 _o$1164)))) (jolt-vector _o$1165 _o$1166))) (_o$1168 new-navigator)) (jolt-vector _o$1167 _o$1168)))))))) realize-parameter) (let* ((_o$1169 (keyword #f "private")) (_o$1170 #t)) (jolt-hash-map _o$1169 _o$1170)))) (guard (e (#t #f)) @@ -1363,37 +1361,37 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "format-simple-number" (letrec ((format-simple-number (lambda (n) (let fnrec1184 ((n n)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "integer?") n)) (if (jolt= (var-deref "clojure.pprint" "*print-base*") 10) (jolt-invoke (var-deref "clojure.core" "str") n (if (jolt-truthy? (var-deref "clojure.pprint" "*print-radix*")) "." jolt-nil)) (let* ((_a$1185 (var-deref "clojure.core" "str")) (_a$1186 (if (jolt-truthy? (var-deref "clojure.pprint" "*print-radix*")) (let* ((or__26__auto (jolt-get (var-deref "clojure.pprint" "special-radix-markers") (var-deref "clojure.pprint" "*print-base*")))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "str") "#" (var-deref "clojure.pprint" "*print-base*") "r"))) jolt-nil)) (_a$1187 (jolt-invoke (var-deref "clojure.pprint" "opt-base-str") (var-deref "clojure.pprint" "*print-base*") n))) (jolt-invoke _a$1185 _a$1186 _a$1187))) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))))) format-simple-number) (let* ((_o$1188 (keyword #f "private")) (_o$1189 #t)) (jolt-hash-map _o$1188 _o$1189)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "format-ascii" (letrec ((format-ascii (lambda (print-func params arg-navigator offsets) (let fnrec1190 ((print-func print-func) (params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((G__53 (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator)) (arg (jolt-nth G__53 0 jolt-nil)) (arg-navigator (jolt-nth G__53 1 jolt-nil)) (base-output (let* ((or__26__auto (jolt-invoke (var-deref "clojure.pprint" "format-simple-number") arg))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke print-func arg)))) (base-width (jolt-count base-output)) (min-width (jolt-n+ base-width (jolt-get params (keyword #f "minpad")))) (width (if (jolt-n>= min-width (jolt-get params (keyword #f "mincol"))) min-width (jolt-n+ min-width (let* ((_a$1193 (jolt-n+ (let* ((_a$1191 (jolt-n- (jolt-get params (keyword #f "mincol")) min-width 1)) (_a$1192 (jolt-get params (keyword #f "colinc")))) (jolt-quot _a$1191 _a$1192)) 1)) (_a$1194 (jolt-get params (keyword #f "colinc")))) (jolt-n* _a$1193 _a$1194))))) (chars (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1195 (var-deref "clojure.core" "repeat")) (_a$1196 (jolt-n- width base-width)) (_a$1197 (jolt-get params (keyword #f "padchar")))) (jolt-invoke _a$1195 _a$1196 _a$1197))))) (begin (if (jolt-truthy? (jolt-get params (keyword #f "at"))) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-invoke (var-deref "clojure.core" "str") chars base-output)) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-invoke (var-deref "clojure.core" "str") base-output chars))) arg-navigator)))))) format-ascii) (let* ((_o$1198 (keyword #f "private")) (_o$1199 #t)) (jolt-hash-map _o$1198 _o$1199)))) + (def-var-with-meta! "clojure.pprint" "format-ascii" (letrec ((format-ascii (lambda (print-func params arg-navigator offsets) (let fnrec1190 ((print-func print-func) (params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((G__53 (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator)) (arg (jolt-nth G__53 0 jolt-nil)) (arg-navigator (jolt-nth G__53 1 jolt-nil)) (base-output (let* ((or__26__auto (jolt-invoke (var-deref "clojure.pprint" "format-simple-number") arg))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke print-func arg)))) (base-width (jolt-count base-output)) (min-width (+ base-width (jolt-get params (keyword #f "minpad")))) (width (if (>= min-width (jolt-get params (keyword #f "mincol"))) min-width (+ min-width (let* ((_a$1193 (+ (let* ((_a$1191 (- (jolt-get params (keyword #f "mincol")) min-width 1)) (_a$1192 (jolt-get params (keyword #f "colinc")))) (quotient _a$1191 _a$1192)) 1)) (_a$1194 (jolt-get params (keyword #f "colinc")))) (* _a$1193 _a$1194))))) (chars (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1195 (var-deref "clojure.core" "repeat")) (_a$1196 (- width base-width)) (_a$1197 (jolt-get params (keyword #f "padchar")))) (jolt-invoke _a$1195 _a$1196 _a$1197))))) (begin (if (jolt-truthy? (jolt-get params (keyword #f "at"))) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-invoke (var-deref "clojure.core" "str") chars base-output)) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-invoke (var-deref "clojure.core" "str") base-output chars))) arg-navigator)))))) format-ascii) (let* ((_o$1198 (keyword #f "private")) (_o$1199 #t)) (jolt-hash-map _o$1198 _o$1199)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "integral?" (letrec ((integral? (lambda (x) (let fnrec1200 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "integer?") x)) #t (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "float?") x)) (jolt= x (host-static-call "Math" "floor" x)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))) integral?) (let* ((_o$1201 (keyword #f "private")) (_o$1202 #t)) (jolt-hash-map _o$1201 _o$1202)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "remainders" (letrec ((remainders (lambda (base val) (let fnrec1203 ((base base) (val val)) (jolt-reverse (jolt-first (jolt-invoke (var-deref "clojure.pprint" "consume") (lambda (p__8_) (let fnrec1204 ((p__8_ p__8_)) (if (jolt-pos? p__8_) (let* ((_o$1205 (jolt-rem p__8_ base)) (_o$1206 (jolt-quot p__8_ base))) (jolt-vector _o$1205 _o$1206)) (let* ((_o$1207 jolt-nil) (_o$1208 jolt-nil)) (jolt-vector _o$1207 _o$1208))))) val))))))) remainders) (let* ((_o$1209 (keyword #f "private")) (_o$1210 #t)) (jolt-hash-map _o$1209 _o$1210)))) + (def-var-with-meta! "clojure.pprint" "remainders" (letrec ((remainders (lambda (base val) (let fnrec1203 ((base base) (val val)) (jolt-reverse (jolt-first (jolt-invoke (var-deref "clojure.pprint" "consume") (lambda (p__8_) (let fnrec1204 ((p__8_ p__8_)) (if (jolt-pos? p__8_) (let* ((_o$1205 (remainder p__8_ base)) (_o$1206 (quotient p__8_ base))) (jolt-vector _o$1205 _o$1206)) (let* ((_o$1207 jolt-nil) (_o$1208 jolt-nil)) (jolt-vector _o$1207 _o$1208))))) val))))))) remainders) (let* ((_o$1209 (keyword #f "private")) (_o$1210 #t)) (jolt-hash-map _o$1209 _o$1210)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "base-str" (letrec ((base-str (lambda (base val) (let fnrec1211 ((base base) (val val)) (if (jolt-zero? val) "0" (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1215 (lambda (p__9_) (let fnrec1212 ((p__9_ p__9_)) (if (jolt-n< p__9_ 10) (jolt-invoke (var-deref "clojure.core" "char") (jolt-n+ (jolt-invoke (var-deref "clojure.pprint" "char-code") (integer->char 48)) p__9_)) (jolt-invoke (var-deref "clojure.core" "char") (let* ((_a$1213 (jolt-invoke (var-deref "clojure.pprint" "char-code") (integer->char 97))) (_a$1214 (jolt-n- p__9_ 10))) (jolt-n+ _a$1213 _a$1214))))))) (_a$1216 (jolt-invoke (var-deref "clojure.pprint" "remainders") base val))) (jolt-map _a$1215 _a$1216)))))))) base-str) (let* ((_o$1217 (keyword #f "private")) (_o$1218 #t)) (jolt-hash-map _o$1217 _o$1218)))) + (def-var-with-meta! "clojure.pprint" "base-str" (letrec ((base-str (lambda (base val) (let fnrec1211 ((base base) (val val)) (if (jolt-zero? val) "0" (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1215 (lambda (p__9_) (let fnrec1212 ((p__9_ p__9_)) (if (< p__9_ 10) (jolt-invoke (var-deref "clojure.core" "char") (+ (jolt-invoke (var-deref "clojure.pprint" "char-code") (integer->char 48)) p__9_)) (jolt-invoke (var-deref "clojure.core" "char") (let* ((_a$1213 (jolt-invoke (var-deref "clojure.pprint" "char-code") (integer->char 97))) (_a$1214 (- p__9_ 10))) (+ _a$1213 _a$1214))))))) (_a$1216 (jolt-invoke (var-deref "clojure.pprint" "remainders") base val))) (jolt-map _a$1215 _a$1216)))))))) base-str) (let* ((_o$1217 (keyword #f "private")) (_o$1218 #t)) (jolt-hash-map _o$1217 _o$1218)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "opt-base-str" (letrec ((opt-base-str (lambda (base val) (let fnrec1219 ((base base) (val val)) (jolt-invoke (var-deref "clojure.pprint" "base-str") base val))))) opt-base-str) (let* ((_o$1220 (keyword #f "private")) (_o$1221 #t)) (jolt-hash-map _o$1220 _o$1221)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "group-by*" (letrec ((group-by* (lambda (unit lis) (let fnrec1222 ((unit unit) (lis lis)) (jolt-reverse (jolt-first (let* ((_a$1226 (var-deref "clojure.pprint" "consume")) (_a$1227 (lambda (x) (let fnrec1223 ((x x)) (let* ((_o$1224 (jolt-seq (jolt-reverse (jolt-take unit x)))) (_o$1225 (jolt-seq (jolt-drop unit x)))) (jolt-vector _o$1224 _o$1225))))) (_a$1228 (jolt-reverse lis))) (jolt-invoke _a$1226 _a$1227 _a$1228)))))))) group-by*) (let* ((_o$1229 (keyword #f "private")) (_o$1230 #t)) (jolt-hash-map _o$1229 _o$1230)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "format-integer" (letrec ((format-integer (lambda (base params arg-navigator offsets) (let fnrec1231 ((base base) (params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((G__54 (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator)) (arg (jolt-nth G__54 0 jolt-nil)) (arg-navigator (jolt-nth G__54 1 jolt-nil))) (begin (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "integral?") arg)) (let* ((neg (jolt-neg? arg)) (pos-arg (if (jolt-truthy? neg) (jolt-n- arg) arg)) (raw-str (jolt-invoke (var-deref "clojure.pprint" "opt-base-str") base pos-arg)) (group-str (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) (let* ((groups (let* ((_a$1233 (lambda (p__10_) (let fnrec1232 ((p__10_ p__10_)) (jolt-apply (var-deref "clojure.core" "str") p__10_)))) (_a$1234 (jolt-invoke (var-deref "clojure.pprint" "group-by*") (jolt-get params (keyword #f "commainterval")) raw-str))) (jolt-map _a$1233 _a$1234))) (commas (let* ((_a$1235 (var-deref "clojure.core" "repeat")) (_a$1236 (jolt-count groups)) (_a$1237 (jolt-get params (keyword #f "commachar")))) (jolt-invoke _a$1235 _a$1236 _a$1237)))) (jolt-apply (var-deref "clojure.core" "str") (jolt-next (jolt-invoke (var-deref "clojure.core" "interleave") commas groups)))) raw-str)) (signed-str (if (jolt-truthy? neg) (jolt-invoke (var-deref "clojure.core" "str") "-" group-str) (if (jolt-truthy? (jolt-get params (keyword #f "at"))) (jolt-invoke (var-deref "clojure.core" "str") "+" group-str) (if #t group-str jolt-nil)))) (padded-str (if (let* ((_a$1238 (jolt-count signed-str)) (_a$1239 (jolt-get params (keyword #f "mincol")))) (jolt-n< _a$1238 _a$1239)) (jolt-invoke (var-deref "clojure.core" "str") (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1242 (var-deref "clojure.core" "repeat")) (_a$1243 (let* ((_a$1240 (jolt-get params (keyword #f "mincol"))) (_a$1241 (jolt-count signed-str))) (jolt-n- _a$1240 _a$1241))) (_a$1244 (jolt-get params (keyword #f "padchar")))) (jolt-invoke _a$1242 _a$1243 _a$1244))) signed-str) signed-str))) (jolt-invoke (var-deref "clojure.pprint" "print") padded-str)) (let* ((_a$1255 (var-deref "clojure.pprint" "format-ascii")) (_a$1256 (var-deref "clojure.core" "print-str")) (_a$1257 (let* ((_o$1245 (keyword #f "mincol")) (_o$1246 (jolt-get params (keyword #f "mincol"))) (_o$1247 (keyword #f "colinc")) (_o$1248 1) (_o$1249 (keyword #f "minpad")) (_o$1250 0) (_o$1251 (keyword #f "padchar")) (_o$1252 (jolt-get params (keyword #f "padchar"))) (_o$1253 (keyword #f "at")) (_o$1254 #t)) (jolt-hash-map _o$1245 _o$1246 _o$1247 _o$1248 _o$1249 _o$1250 _o$1251 _o$1252 _o$1253 _o$1254))) (_a$1258 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") (jolt-vector arg))) (_a$1259 jolt-nil)) (jolt-invoke _a$1255 _a$1256 _a$1257 _a$1258 _a$1259))) arg-navigator)))))) format-integer) (let* ((_o$1260 (keyword #f "private")) (_o$1261 #t)) (jolt-hash-map _o$1260 _o$1261)))) + (def-var-with-meta! "clojure.pprint" "format-integer" (letrec ((format-integer (lambda (base params arg-navigator offsets) (let fnrec1231 ((base base) (params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((G__54 (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator)) (arg (jolt-nth G__54 0 jolt-nil)) (arg-navigator (jolt-nth G__54 1 jolt-nil))) (begin (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "integral?") arg)) (let* ((neg (jolt-neg? arg)) (pos-arg (if (jolt-truthy? neg) (- arg) arg)) (raw-str (jolt-invoke (var-deref "clojure.pprint" "opt-base-str") base pos-arg)) (group-str (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) (let* ((groups (let* ((_a$1233 (lambda (p__10_) (let fnrec1232 ((p__10_ p__10_)) (jolt-apply (var-deref "clojure.core" "str") p__10_)))) (_a$1234 (jolt-invoke (var-deref "clojure.pprint" "group-by*") (jolt-get params (keyword #f "commainterval")) raw-str))) (jolt-map _a$1233 _a$1234))) (commas (let* ((_a$1235 (var-deref "clojure.core" "repeat")) (_a$1236 (jolt-count groups)) (_a$1237 (jolt-get params (keyword #f "commachar")))) (jolt-invoke _a$1235 _a$1236 _a$1237)))) (jolt-apply (var-deref "clojure.core" "str") (jolt-next (jolt-invoke (var-deref "clojure.core" "interleave") commas groups)))) raw-str)) (signed-str (if (jolt-truthy? neg) (jolt-invoke (var-deref "clojure.core" "str") "-" group-str) (if (jolt-truthy? (jolt-get params (keyword #f "at"))) (jolt-invoke (var-deref "clojure.core" "str") "+" group-str) (if #t group-str jolt-nil)))) (padded-str (if (let* ((_a$1238 (jolt-count signed-str)) (_a$1239 (jolt-get params (keyword #f "mincol")))) (< _a$1238 _a$1239)) (jolt-invoke (var-deref "clojure.core" "str") (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1242 (var-deref "clojure.core" "repeat")) (_a$1243 (let* ((_a$1240 (jolt-get params (keyword #f "mincol"))) (_a$1241 (jolt-count signed-str))) (- _a$1240 _a$1241))) (_a$1244 (jolt-get params (keyword #f "padchar")))) (jolt-invoke _a$1242 _a$1243 _a$1244))) signed-str) signed-str))) (jolt-invoke (var-deref "clojure.pprint" "print") padded-str)) (let* ((_a$1255 (var-deref "clojure.pprint" "format-ascii")) (_a$1256 (var-deref "clojure.core" "print-str")) (_a$1257 (let* ((_o$1245 (keyword #f "mincol")) (_o$1246 (jolt-get params (keyword #f "mincol"))) (_o$1247 (keyword #f "colinc")) (_o$1248 1) (_o$1249 (keyword #f "minpad")) (_o$1250 0) (_o$1251 (keyword #f "padchar")) (_o$1252 (jolt-get params (keyword #f "padchar"))) (_o$1253 (keyword #f "at")) (_o$1254 #t)) (jolt-hash-map _o$1245 _o$1246 _o$1247 _o$1248 _o$1249 _o$1250 _o$1251 _o$1252 _o$1253 _o$1254))) (_a$1258 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") (jolt-vector arg))) (_a$1259 jolt-nil)) (jolt-invoke _a$1255 _a$1256 _a$1257 _a$1258 _a$1259))) arg-navigator)))))) format-integer) (let* ((_o$1260 (keyword #f "private")) (_o$1261 #t)) (jolt-hash-map _o$1260 _o$1261)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "abort?" (letrec ((abort? (lambda (context) (let fnrec1262 ((context context)) (let* ((token (jolt-first context))) (let* ((or__26__auto (jolt= (keyword #f "up-arrow") token))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt= (keyword #f "colon-up-arrow") token)))))))) abort?) (let* ((_o$1263 (keyword #f "private")) (_o$1264 #t)) (jolt-hash-map _o$1263 _o$1264)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "execute-sub-format" (letrec ((execute-sub-format (lambda (format args base-args) (let fnrec1265 ((format format) (args args) (base-args base-args)) (jolt-invoke (var-deref "clojure.core" "second") (jolt-invoke (var-deref "clojure.pprint" "map-passing-context") (lambda (element context) (let fnrec1266 ((element element) (context context)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "abort?") context)) (let* ((_o$1267 jolt-nil) (_o$1268 context)) (jolt-vector _o$1267 _o$1268)) (let* ((G__55 (jolt-invoke (var-deref "clojure.pprint" "realize-parameter-list") (jolt-get element (keyword #f "params")) context)) (params (jolt-nth G__55 0 jolt-nil)) (args (jolt-nth G__55 1 jolt-nil)) (G__56 (jolt-invoke (var-deref "clojure.pprint" "unzip-map") params)) (params (jolt-nth G__56 0 jolt-nil)) (offsets (jolt-nth G__56 1 jolt-nil)) (params (jolt-assoc params (keyword #f "base-args") base-args))) (let* ((_o$1274 jolt-nil) (_o$1275 (let* ((_a$1272 (jolt-get element (keyword #f "func"))) (_a$1273 (let* ((_o$1269 params) (_o$1270 args) (_o$1271 offsets)) (jolt-vector _o$1269 _o$1270 _o$1271)))) (jolt-apply _a$1272 _a$1273)))) (jolt-vector _o$1274 _o$1275)))))) args format)))))) execute-sub-format) (let* ((_o$1276 (keyword #f "private")) (_o$1277 #t)) (jolt-hash-map _o$1276 _o$1277)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "choice-conditional" (letrec ((choice-conditional (lambda (params arg-navigator offsets) (let fnrec1278 ((params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((arg (jolt-get params (keyword #f "selector"))) (G__57 (if (jolt-truthy? arg) (let* ((_o$1279 arg) (_o$1280 arg-navigator)) (jolt-vector _o$1279 _o$1280)) (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator))) (arg (jolt-nth G__57 0 jolt-nil)) (navigator (jolt-nth G__57 1 jolt-nil)) (clauses (jolt-get params (keyword #f "clauses"))) (clause (if (let* ((or__26__auto (jolt-neg? arg))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n>= arg (jolt-count clauses)))) (jolt-first (jolt-get params (keyword #f "else"))) (jolt-nth clauses arg)))) (if (jolt-truthy? clause) (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause navigator (jolt-get params (keyword #f "base-args"))) navigator)))))) choice-conditional) (let* ((_o$1281 (keyword #f "private")) (_o$1282 #t)) (jolt-hash-map _o$1281 _o$1282)))) + (def-var-with-meta! "clojure.pprint" "choice-conditional" (letrec ((choice-conditional (lambda (params arg-navigator offsets) (let fnrec1278 ((params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((arg (jolt-get params (keyword #f "selector"))) (G__57 (if (jolt-truthy? arg) (let* ((_o$1279 arg) (_o$1280 arg-navigator)) (jolt-vector _o$1279 _o$1280)) (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator))) (arg (jolt-nth G__57 0 jolt-nil)) (navigator (jolt-nth G__57 1 jolt-nil)) (clauses (jolt-get params (keyword #f "clauses"))) (clause (if (let* ((or__26__auto (jolt-neg? arg))) (if (jolt-truthy? or__26__auto) or__26__auto (>= arg (jolt-count clauses)))) (jolt-first (jolt-get params (keyword #f "else"))) (jolt-nth clauses arg)))) (if (jolt-truthy? clause) (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause navigator (jolt-get params (keyword #f "base-args"))) navigator)))))) choice-conditional) (let* ((_o$1281 (keyword #f "private")) (_o$1282 #t)) (jolt-hash-map _o$1281 _o$1282)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "boolean-conditional" (letrec ((boolean-conditional (lambda (params arg-navigator offsets) (let fnrec1283 ((params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((G__58 (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator)) (arg (jolt-nth G__58 0 jolt-nil)) (navigator (jolt-nth G__58 1 jolt-nil)) (clauses (jolt-get params (keyword #f "clauses"))) (clause (if (jolt-truthy? arg) (jolt-invoke (var-deref "clojure.core" "second") clauses) (jolt-first clauses)))) (if (jolt-truthy? clause) (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause navigator (jolt-get params (keyword #f "base-args"))) navigator)))))) boolean-conditional) (let* ((_o$1284 (keyword #f "private")) (_o$1285 #t)) (jolt-hash-map _o$1284 _o$1285)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "check-arg-conditional" (letrec ((check-arg-conditional (lambda (params arg-navigator offsets) (let fnrec1286 ((params params) (arg-navigator arg-navigator) (offsets offsets)) (let* ((G__59 (jolt-invoke (var-deref "clojure.pprint" "next-arg") arg-navigator)) (arg (jolt-nth G__59 0 jolt-nil)) (navigator (jolt-nth G__59 1 jolt-nil)) (clauses (jolt-get params (keyword #f "clauses"))) (clause (if (jolt-truthy? arg) (jolt-first clauses) jolt-nil))) (if (jolt-truthy? arg) (if (jolt-truthy? clause) (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause arg-navigator (jolt-get params (keyword #f "base-args"))) arg-navigator) navigator)))))) check-arg-conditional) (let* ((_o$1287 (keyword #f "private")) (_o$1288 #t)) (jolt-hash-map _o$1287 _o$1288)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "iterate-sublist" (letrec ((iterate-sublist (lambda (params navigator offsets) (let fnrec1289 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__60 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1290 param-clause) (_o$1291 navigator)) (jolt-vector _o$1290 _o$1291)))) (clause (jolt-nth G__60 0 jolt-nil)) (navigator (jolt-nth G__60 1 jolt-nil)) (G__61 (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator)) (arg-list (jolt-nth G__61 0 jolt-nil)) (navigator (jolt-nth G__61 1 jolt-nil)) (args (jolt-invoke (var-deref "clojure.pprint" "init-navigator") arg-list))) (let* ((count 0) (args args) (last-pos -1)) (let loop1292 ((count count) (args args) (last-pos last-pos)) (begin (if (let* ((and__25__auto (jolt-not max-count))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (jolt-get args (keyword #f "pos")) last-pos))) (if (jolt-truthy? and__25__auto) (jolt-n> count 1) and__25__auto)) and__25__auto)) (jolt-throw (host-new "Exception" "~{ construct not consuming any arguments: Infinite loop!")) jolt-nil) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? (jolt-get args (keyword #f "rest"))))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (jolt-n>= count max-count) and__25__auto))))) navigator (let* ((iter-result (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause args (jolt-get params (keyword #f "base-args"))))) (if (jolt= (keyword #f "up-arrow") (jolt-first iter-result)) navigator (let* ((_a$1293 (jolt-inc count)) (_a$1294 iter-result) (_a$1295 (jolt-get args (keyword #f "pos")))) (loop1292 _a$1293 _a$1294 _a$1295))))))))))))) iterate-sublist) (let* ((_o$1296 (keyword #f "private")) (_o$1297 #t)) (jolt-hash-map _o$1296 _o$1297)))) + (def-var-with-meta! "clojure.pprint" "iterate-sublist" (letrec ((iterate-sublist (lambda (params navigator offsets) (let fnrec1289 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__60 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1290 param-clause) (_o$1291 navigator)) (jolt-vector _o$1290 _o$1291)))) (clause (jolt-nth G__60 0 jolt-nil)) (navigator (jolt-nth G__60 1 jolt-nil)) (G__61 (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator)) (arg-list (jolt-nth G__61 0 jolt-nil)) (navigator (jolt-nth G__61 1 jolt-nil)) (args (jolt-invoke (var-deref "clojure.pprint" "init-navigator") arg-list))) (let* ((count 0) (args args) (last-pos -1)) (let loop1292 ((count count) (args args) (last-pos last-pos)) (begin (if (let* ((and__25__auto (jolt-not max-count))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (jolt-get args (keyword #f "pos")) last-pos))) (if (jolt-truthy? and__25__auto) (> count 1) and__25__auto)) and__25__auto)) (jolt-throw (host-new "Exception" "~{ construct not consuming any arguments: Infinite loop!")) jolt-nil) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? (jolt-get args (keyword #f "rest"))))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (>= count max-count) and__25__auto))))) navigator (let* ((iter-result (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause args (jolt-get params (keyword #f "base-args"))))) (if (jolt= (keyword #f "up-arrow") (jolt-first iter-result)) navigator (let* ((_a$1293 (jolt-inc count)) (_a$1294 iter-result) (_a$1295 (jolt-get args (keyword #f "pos")))) (loop1292 _a$1293 _a$1294 _a$1295))))))))))))) iterate-sublist) (let* ((_o$1296 (keyword #f "private")) (_o$1297 #t)) (jolt-hash-map _o$1296 _o$1297)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "iterate-list-of-sublists" (letrec ((iterate-list-of-sublists (lambda (params navigator offsets) (let fnrec1298 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__62 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1299 param-clause) (_o$1300 navigator)) (jolt-vector _o$1299 _o$1300)))) (clause (jolt-nth G__62 0 jolt-nil)) (navigator (jolt-nth G__62 1 jolt-nil)) (G__63 (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator)) (arg-list (jolt-nth G__63 0 jolt-nil)) (navigator (jolt-nth G__63 1 jolt-nil))) (let* ((count 0) (arg-list arg-list)) (let loop1301 ((count count) (arg-list arg-list)) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? arg-list))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (jolt-n>= count max-count) and__25__auto))))) navigator (let* ((iter-result (let* ((_a$1302 (var-deref "clojure.pprint" "execute-sub-format")) (_a$1303 clause) (_a$1304 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") (jolt-first arg-list))) (_a$1305 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") (jolt-next arg-list)))) (jolt-invoke _a$1302 _a$1303 _a$1304 _a$1305)))) (if (jolt= (keyword #f "colon-up-arrow") (jolt-first iter-result)) navigator (let* ((_a$1306 (jolt-inc count)) (_a$1307 (jolt-next arg-list))) (loop1301 _a$1306 _a$1307)))))))))))) iterate-list-of-sublists) (let* ((_o$1308 (keyword #f "private")) (_o$1309 #t)) (jolt-hash-map _o$1308 _o$1309)))) + (def-var-with-meta! "clojure.pprint" "iterate-list-of-sublists" (letrec ((iterate-list-of-sublists (lambda (params navigator offsets) (let fnrec1298 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__62 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1299 param-clause) (_o$1300 navigator)) (jolt-vector _o$1299 _o$1300)))) (clause (jolt-nth G__62 0 jolt-nil)) (navigator (jolt-nth G__62 1 jolt-nil)) (G__63 (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator)) (arg-list (jolt-nth G__63 0 jolt-nil)) (navigator (jolt-nth G__63 1 jolt-nil))) (let* ((count 0) (arg-list arg-list)) (let loop1301 ((count count) (arg-list arg-list)) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? arg-list))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (>= count max-count) and__25__auto))))) navigator (let* ((iter-result (let* ((_a$1302 (var-deref "clojure.pprint" "execute-sub-format")) (_a$1303 clause) (_a$1304 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") (jolt-first arg-list))) (_a$1305 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") (jolt-next arg-list)))) (jolt-invoke _a$1302 _a$1303 _a$1304 _a$1305)))) (if (jolt= (keyword #f "colon-up-arrow") (jolt-first iter-result)) navigator (let* ((_a$1306 (jolt-inc count)) (_a$1307 (jolt-next arg-list))) (loop1301 _a$1306 _a$1307)))))))))))) iterate-list-of-sublists) (let* ((_o$1308 (keyword #f "private")) (_o$1309 #t)) (jolt-hash-map _o$1308 _o$1309)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "iterate-main-list" (letrec ((iterate-main-list (lambda (params navigator offsets) (let fnrec1310 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__64 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1311 param-clause) (_o$1312 navigator)) (jolt-vector _o$1311 _o$1312)))) (clause (jolt-nth G__64 0 jolt-nil)) (navigator (jolt-nth G__64 1 jolt-nil))) (let* ((count 0) (navigator navigator) (last-pos -1)) (let loop1313 ((count count) (navigator navigator) (last-pos last-pos)) (begin (if (let* ((and__25__auto (jolt-not max-count))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (jolt-get navigator (keyword #f "pos")) last-pos))) (if (jolt-truthy? and__25__auto) (jolt-n> count 1) and__25__auto)) and__25__auto)) (jolt-throw (host-new "Exception" "~@{ construct not consuming any arguments: Infinite loop!")) jolt-nil) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? (jolt-get navigator (keyword #f "rest"))))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (jolt-n>= count max-count) and__25__auto))))) navigator (let* ((iter-result (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause navigator (jolt-get params (keyword #f "base-args"))))) (if (jolt= (keyword #f "up-arrow") (jolt-first iter-result)) (jolt-invoke (var-deref "clojure.core" "second") iter-result) (let* ((_a$1314 (jolt-inc count)) (_a$1315 iter-result) (_a$1316 (jolt-get navigator (keyword #f "pos")))) (loop1313 _a$1314 _a$1315 _a$1316))))))))))))) iterate-main-list) (let* ((_o$1317 (keyword #f "private")) (_o$1318 #t)) (jolt-hash-map _o$1317 _o$1318)))) + (def-var-with-meta! "clojure.pprint" "iterate-main-list" (letrec ((iterate-main-list (lambda (params navigator offsets) (let fnrec1310 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__64 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1311 param-clause) (_o$1312 navigator)) (jolt-vector _o$1311 _o$1312)))) (clause (jolt-nth G__64 0 jolt-nil)) (navigator (jolt-nth G__64 1 jolt-nil))) (let* ((count 0) (navigator navigator) (last-pos -1)) (let loop1313 ((count count) (navigator navigator) (last-pos last-pos)) (begin (if (let* ((and__25__auto (jolt-not max-count))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt= (jolt-get navigator (keyword #f "pos")) last-pos))) (if (jolt-truthy? and__25__auto) (> count 1) and__25__auto)) and__25__auto)) (jolt-throw (host-new "Exception" "~@{ construct not consuming any arguments: Infinite loop!")) jolt-nil) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? (jolt-get navigator (keyword #f "rest"))))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (>= count max-count) and__25__auto))))) navigator (let* ((iter-result (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause navigator (jolt-get params (keyword #f "base-args"))))) (if (jolt= (keyword #f "up-arrow") (jolt-first iter-result)) (jolt-invoke (var-deref "clojure.core" "second") iter-result) (let* ((_a$1314 (jolt-inc count)) (_a$1315 iter-result) (_a$1316 (jolt-get navigator (keyword #f "pos")))) (loop1313 _a$1314 _a$1315 _a$1316))))))))))))) iterate-main-list) (let* ((_o$1317 (keyword #f "private")) (_o$1318 #t)) (jolt-hash-map _o$1317 _o$1318)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "iterate-main-sublists" (letrec ((iterate-main-sublists (lambda (params navigator offsets) (let fnrec1319 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__65 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1320 param-clause) (_o$1321 navigator)) (jolt-vector _o$1320 _o$1321)))) (clause (jolt-nth G__65 0 jolt-nil)) (navigator (jolt-nth G__65 1 jolt-nil))) (let* ((count 0) (navigator navigator)) (let loop1322 ((count count) (navigator navigator)) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? (jolt-get navigator (keyword #f "rest"))))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-n> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (jolt-n>= count max-count) and__25__auto))))) navigator (let* ((G__66 (jolt-invoke (var-deref "clojure.pprint" "next-arg-or-nil") navigator)) (sublist (jolt-nth G__66 0 jolt-nil)) (navigator (jolt-nth G__66 1 jolt-nil)) (iter-result (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause (jolt-invoke (var-deref "clojure.pprint" "init-navigator") sublist) navigator))) (if (jolt= (keyword #f "colon-up-arrow") (jolt-first iter-result)) navigator (loop1322 (jolt-inc count) navigator))))))))))) iterate-main-sublists) (let* ((_o$1323 (keyword #f "private")) (_o$1324 #t)) (jolt-hash-map _o$1323 _o$1324)))) + (def-var-with-meta! "clojure.pprint" "iterate-main-sublists" (letrec ((iterate-main-sublists (lambda (params navigator offsets) (let fnrec1319 ((params params) (navigator navigator) (offsets offsets)) (let* ((max-count (jolt-get params (keyword #f "max-iterations"))) (param-clause (jolt-first (jolt-get params (keyword #f "clauses")))) (G__65 (if (jolt-empty? param-clause) (jolt-invoke (var-deref "clojure.pprint" "get-format-arg") navigator) (let* ((_o$1320 param-clause) (_o$1321 navigator)) (jolt-vector _o$1320 _o$1321)))) (clause (jolt-nth G__65 0 jolt-nil)) (navigator (jolt-nth G__65 1 jolt-nil))) (let* ((count 0) (navigator navigator)) (let loop1322 ((count count) (navigator navigator)) (if (jolt-truthy? (let* ((or__26__auto (let* ((and__25__auto (jolt-empty? (jolt-get navigator (keyword #f "rest"))))) (if (jolt-truthy? and__25__auto) (let* ((or__26__auto (jolt-not (jolt-get (jolt-get params (keyword #f "right-params")) (keyword #f "colon"))))) (if (jolt-truthy? or__26__auto) or__26__auto (> count 0))) and__25__auto)))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto max-count)) (if (jolt-truthy? and__25__auto) (>= count max-count) and__25__auto))))) navigator (let* ((G__66 (jolt-invoke (var-deref "clojure.pprint" "next-arg-or-nil") navigator)) (sublist (jolt-nth G__66 0 jolt-nil)) (navigator (jolt-nth G__66 1 jolt-nil)) (iter-result (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause (jolt-invoke (var-deref "clojure.pprint" "init-navigator") sublist) navigator))) (if (jolt= (keyword #f "colon-up-arrow") (jolt-first iter-result)) navigator (loop1322 (jolt-inc count) navigator))))))))))) iterate-main-sublists) (let* ((_o$1323 (keyword #f "private")) (_o$1324 #t)) (jolt-hash-map _o$1323 _o$1324)))) (guard (e (#t #f)) (declare-var! "clojure.pprint" "format-logical-block")) (guard (e (#t #f)) @@ -1403,17 +1401,17 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "render-clauses" (letrec ((render-clauses (lambda (clauses navigator base-navigator) (let fnrec1328 ((clauses clauses) (navigator navigator) (base-navigator base-navigator)) (let* ((clauses clauses) (acc (jolt-vector)) (navigator navigator)) (let loop1329 ((clauses clauses) (acc acc) (navigator navigator)) (if (jolt-empty? clauses) (let* ((_o$1330 acc) (_o$1331 navigator)) (jolt-vector _o$1330 _o$1331)) (let* ((clause (jolt-first clauses)) (G__67 (let* ((sb (host-new "StringBuilder"))) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.core" "*out*") (jolt-invoke (var-deref "clojure.pprint" "->StringBufferWriter") sb)))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (let* ((_o$1332 (jolt-invoke (var-deref "clojure.pprint" "execute-sub-format") clause navigator base-navigator)) (_o$1333 (jolt-invoke (var-deref "clojure.core" "str") sb))) (jolt-vector _o$1332 _o$1333))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (iter-result (jolt-nth G__67 0 jolt-nil)) (result-str (jolt-nth G__67 1 jolt-nil))) (if (jolt= (keyword #f "up-arrow") (jolt-first iter-result)) (let* ((_o$1334 acc) (_o$1335 (jolt-invoke (var-deref "clojure.core" "second") iter-result))) (jolt-vector _o$1334 _o$1335)) (let* ((_a$1336 (jolt-next clauses)) (_a$1337 (jolt-conj acc result-str)) (_a$1338 iter-result)) (loop1329 _a$1336 _a$1337 _a$1338))))))))))) render-clauses) (let* ((_o$1339 (keyword #f "private")) (_o$1340 #t)) (jolt-hash-map _o$1339 _o$1340)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "justify-clauses" (letrec ((justify-clauses (lambda (params navigator offsets) (let fnrec1341 ((params params) (navigator navigator) (offsets offsets)) (let* ((G__68 (let* ((temp__27__auto (jolt-get params (keyword #f "else")))) (if (jolt-truthy? temp__27__auto) (let* ((_else temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "render-clauses") _else navigator (jolt-get params (keyword #f "base-args")))) jolt-nil))) (G__69 (jolt-nth G__68 0 jolt-nil)) (eol-str (jolt-nth G__69 0 jolt-nil)) (new-navigator (jolt-nth G__68 1 jolt-nil)) (navigator (let* ((or__26__auto new-navigator)) (if (jolt-truthy? or__26__auto) or__26__auto navigator))) (G__70 (let* ((temp__27__auto (jolt-get params (keyword #f "else-params")))) (if (jolt-truthy? temp__27__auto) (let* ((p temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "realize-parameter-list") p navigator)) jolt-nil))) (else-params (jolt-nth G__70 0 jolt-nil)) (new-navigator (jolt-nth G__70 1 jolt-nil)) (navigator (let* ((or__26__auto new-navigator)) (if (jolt-truthy? or__26__auto) or__26__auto navigator))) (min-remaining (let* ((or__26__auto (jolt-first (jolt-get else-params (keyword #f "min-remaining"))))) (if (jolt-truthy? or__26__auto) or__26__auto 0))) (max-columns (let* ((or__26__auto (jolt-first (jolt-get else-params (keyword #f "max-columns"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.pprint" "get-max-column") (var-deref "clojure.core" "*out*"))))) (clauses (jolt-get params (keyword #f "clauses"))) (G__71 (jolt-invoke (var-deref "clojure.pprint" "render-clauses") clauses navigator (jolt-get params (keyword #f "base-args")))) (strs (jolt-nth G__71 0 jolt-nil)) (navigator (jolt-nth G__71 1 jolt-nil)) (slots (jolt-n-max 1 (let* ((_a$1342 (jolt-dec (jolt-count strs))) (_a$1343 (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) 1 0)) (_a$1344 (if (jolt-truthy? (jolt-get params (keyword #f "at"))) 1 0))) (jolt-n+ _a$1342 _a$1343 _a$1344)))) (chars (jolt-reduce jolt-add (jolt-map jolt-count strs))) (mincol (jolt-get params (keyword #f "mincol"))) (minpad (jolt-get params (keyword #f "minpad"))) (colinc (jolt-get params (keyword #f "colinc"))) (minout (jolt-n+ chars (jolt-n* slots minpad))) (result-columns (if (jolt-n<= minout mincol) mincol (jolt-n+ mincol (jolt-n* colinc (jolt-n+ 1 (jolt-quot (jolt-n- minout mincol 1) colinc)))))) (total-pad (jolt-n- result-columns chars)) (pad (jolt-n-max minpad (jolt-quot total-pad slots))) (extra-pad (jolt-n- total-pad (jolt-n* pad slots))) (pad-str (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") pad (jolt-get params (keyword #f "padchar")))))) (begin (if (jolt-truthy? (let* ((and__25__auto eol-str)) (if (jolt-truthy? and__25__auto) (jolt-n> (jolt-n+ (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base"))) min-remaining result-columns) max-columns) and__25__auto))) (jolt-invoke (var-deref "clojure.pprint" "print") eol-str) jolt-nil) (let* ((slots slots) (extra-pad extra-pad) (strs strs) (pad-only (let* ((or__26__auto (jolt-get params (keyword #f "colon")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt= (jolt-count strs) 1))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get params (keyword #f "at"))) and__25__auto)))))) (let loop1345 ((slots slots) (extra-pad extra-pad) (strs strs) (pad-only pad-only)) (if (jolt-truthy? (jolt-seq strs)) (begin (jolt-invoke (var-deref "clojure.pprint" "print") (let* ((_a$1346 (var-deref "clojure.core" "str")) (_a$1347 (if (jolt-not pad-only) (jolt-first strs) jolt-nil)) (_a$1348 (if (jolt-truthy? (let* ((or__26__auto pad-only)) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-next strs))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get params (keyword #f "at"))))))) pad-str jolt-nil)) (_a$1349 (if (jolt-pos? extra-pad) (jolt-get params (keyword #f "padchar")) jolt-nil))) (jolt-invoke _a$1346 _a$1347 _a$1348 _a$1349))) (let* ((_a$1350 (jolt-dec slots)) (_a$1351 (jolt-dec extra-pad)) (_a$1352 (if (jolt-truthy? pad-only) strs (jolt-next strs))) (_a$1353 #f)) (loop1345 _a$1350 _a$1351 _a$1352 _a$1353))) jolt-nil))) navigator)))))) justify-clauses) (let* ((_o$1354 (keyword #f "private")) (_o$1355 #t)) (jolt-hash-map _o$1354 _o$1355)))) + (def-var-with-meta! "clojure.pprint" "justify-clauses" (letrec ((justify-clauses (lambda (params navigator offsets) (let fnrec1341 ((params params) (navigator navigator) (offsets offsets)) (let* ((G__68 (let* ((temp__27__auto (jolt-get params (keyword #f "else")))) (if (jolt-truthy? temp__27__auto) (let* ((_else temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "render-clauses") _else navigator (jolt-get params (keyword #f "base-args")))) jolt-nil))) (G__69 (jolt-nth G__68 0 jolt-nil)) (eol-str (jolt-nth G__69 0 jolt-nil)) (new-navigator (jolt-nth G__68 1 jolt-nil)) (navigator (let* ((or__26__auto new-navigator)) (if (jolt-truthy? or__26__auto) or__26__auto navigator))) (G__70 (let* ((temp__27__auto (jolt-get params (keyword #f "else-params")))) (if (jolt-truthy? temp__27__auto) (let* ((p temp__27__auto)) (jolt-invoke (var-deref "clojure.pprint" "realize-parameter-list") p navigator)) jolt-nil))) (else-params (jolt-nth G__70 0 jolt-nil)) (new-navigator (jolt-nth G__70 1 jolt-nil)) (navigator (let* ((or__26__auto new-navigator)) (if (jolt-truthy? or__26__auto) or__26__auto navigator))) (min-remaining (let* ((or__26__auto (jolt-first (jolt-get else-params (keyword #f "min-remaining"))))) (if (jolt-truthy? or__26__auto) or__26__auto 0))) (max-columns (let* ((or__26__auto (jolt-first (jolt-get else-params (keyword #f "max-columns"))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.pprint" "get-max-column") (var-deref "clojure.core" "*out*"))))) (clauses (jolt-get params (keyword #f "clauses"))) (G__71 (jolt-invoke (var-deref "clojure.pprint" "render-clauses") clauses navigator (jolt-get params (keyword #f "base-args")))) (strs (jolt-nth G__71 0 jolt-nil)) (navigator (jolt-nth G__71 1 jolt-nil)) (slots (max 1 (let* ((_a$1342 (jolt-dec (jolt-count strs))) (_a$1343 (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) 1 0)) (_a$1344 (if (jolt-truthy? (jolt-get params (keyword #f "at"))) 1 0))) (+ _a$1342 _a$1343 _a$1344)))) (chars (jolt-reduce jolt-add (jolt-map jolt-count strs))) (mincol (jolt-get params (keyword #f "mincol"))) (minpad (jolt-get params (keyword #f "minpad"))) (colinc (jolt-get params (keyword #f "colinc"))) (minout (+ chars (* slots minpad))) (result-columns (if (<= minout mincol) mincol (+ mincol (* colinc (+ 1 (quotient (- minout mincol 1) colinc)))))) (total-pad (- result-columns chars)) (pad (max minpad (quotient total-pad slots))) (extra-pad (- total-pad (* pad slots))) (pad-str (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") pad (jolt-get params (keyword #f "padchar")))))) (begin (if (jolt-truthy? (let* ((and__25__auto eol-str)) (if (jolt-truthy? and__25__auto) (> (+ (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base"))) min-remaining result-columns) max-columns) and__25__auto))) (jolt-invoke (var-deref "clojure.pprint" "print") eol-str) jolt-nil) (let* ((slots slots) (extra-pad extra-pad) (strs strs) (pad-only (let* ((or__26__auto (jolt-get params (keyword #f "colon")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((and__25__auto (jolt= (jolt-count strs) 1))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get params (keyword #f "at"))) and__25__auto)))))) (let loop1345 ((slots slots) (extra-pad extra-pad) (strs strs) (pad-only pad-only)) (if (jolt-truthy? (jolt-seq strs)) (begin (jolt-invoke (var-deref "clojure.pprint" "print") (let* ((_a$1346 (var-deref "clojure.core" "str")) (_a$1347 (if (jolt-not pad-only) (jolt-first strs) jolt-nil)) (_a$1348 (if (jolt-truthy? (let* ((or__26__auto pad-only)) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-next strs))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get params (keyword #f "at"))))))) pad-str jolt-nil)) (_a$1349 (if (jolt-pos? extra-pad) (jolt-get params (keyword #f "padchar")) jolt-nil))) (jolt-invoke _a$1346 _a$1347 _a$1348 _a$1349))) (let* ((_a$1350 (jolt-dec slots)) (_a$1351 (jolt-dec extra-pad)) (_a$1352 (if (jolt-truthy? pad-only) strs (jolt-next strs))) (_a$1353 #f)) (loop1345 _a$1350 _a$1351 _a$1352 _a$1353))) jolt-nil))) navigator)))))) justify-clauses) (let* ((_o$1354 (keyword #f "private")) (_o$1355 #t)) (jolt-hash-map _o$1354 _o$1355)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "get-pretty-writer" (letrec ((get-pretty-writer (lambda (writer) (let fnrec1356 ((writer writer)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "pretty-writer?") writer)) writer (jolt-invoke (var-deref "clojure.pprint" "pretty-writer") writer (var-deref "clojure.pprint" "*print-right-margin*") (var-deref "clojure.pprint" "*print-miser-width*"))))))) get-pretty-writer) (let* ((_o$1357 (keyword #f "doc")) (_o$1358 "Returns writer wrapped in a pretty writer unless it already is one.")) (jolt-hash-map _o$1357 _o$1358)))) (guard (e (#t #f)) (def-var! "clojure.pprint" "fresh-line" (letrec ((fresh-line (lambda () (let fnrec1359 () (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "instance-check") (jolt-symbol #f "PrettyWriter") (var-deref "clojure.core" "*out*"))) (if (jolt-not (jolt= 0 (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base"))))) (jolt-invoke (var-deref "clojure.pprint" "prn")) jolt-nil) (jolt-invoke (var-deref "clojure.pprint" "prn"))))))) fresh-line))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "absolute-tabulation" (letrec ((absolute-tabulation (lambda (params navigator offsets) (let fnrec1360 ((params params) (navigator navigator) (offsets offsets)) (begin (let* ((colnum (jolt-get params (keyword #f "colnum"))) (colinc (jolt-get params (keyword #f "colinc"))) (current (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base")))) (space-count (if (jolt-n< current colnum) (jolt-n- colnum current) (if (jolt= colinc 0) 0 (if (jolt-truthy? (keyword #f "else")) (jolt-n- colinc (jolt-rem (jolt-n- current colnum) colinc)) jolt-nil))))) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") space-count (integer->char 32))))) navigator))))) absolute-tabulation) (let* ((_o$1361 (keyword #f "private")) (_o$1362 #t)) (jolt-hash-map _o$1361 _o$1362)))) + (def-var-with-meta! "clojure.pprint" "absolute-tabulation" (letrec ((absolute-tabulation (lambda (params navigator offsets) (let fnrec1360 ((params params) (navigator navigator) (offsets offsets)) (begin (let* ((colnum (jolt-get params (keyword #f "colnum"))) (colinc (jolt-get params (keyword #f "colinc"))) (current (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base")))) (space-count (if (< current colnum) (- colnum current) (if (jolt= colinc 0) 0 (if (jolt-truthy? (keyword #f "else")) (- colinc (remainder (- current colnum) colinc)) jolt-nil))))) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") space-count (integer->char 32))))) navigator))))) absolute-tabulation) (let* ((_o$1361 (keyword #f "private")) (_o$1362 #t)) (jolt-hash-map _o$1361 _o$1362)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "relative-tabulation" (letrec ((relative-tabulation (lambda (params navigator offsets) (let fnrec1363 ((params params) (navigator navigator) (offsets offsets)) (begin (let* ((colrel (jolt-get params (keyword #f "colnum"))) (colinc (jolt-get params (keyword #f "colinc"))) (start-col (jolt-n+ colrel (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base"))))) (offset (if (jolt-pos? colinc) (jolt-rem start-col colinc) 0)) (space-count (jolt-n+ colrel (if (jolt= 0 offset) 0 (jolt-n- colinc offset))))) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") space-count (integer->char 32))))) navigator))))) relative-tabulation) (let* ((_o$1364 (keyword #f "private")) (_o$1365 #t)) (jolt-hash-map _o$1364 _o$1365)))) + (def-var-with-meta! "clojure.pprint" "relative-tabulation" (letrec ((relative-tabulation (lambda (params navigator offsets) (let fnrec1363 ((params params) (navigator navigator) (offsets offsets)) (begin (let* ((colrel (jolt-get params (keyword #f "colnum"))) (colinc (jolt-get params (keyword #f "colinc"))) (start-col (+ colrel (jolt-invoke (var-deref "clojure.pprint" "get-column") (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (record-method-dispatch (var-deref "clojure.core" "*out*") "-fields" (jolt-vector))) (keyword #f "base"))))) (offset (if (jolt-pos? colinc) (remainder start-col colinc) 0)) (space-count (+ colrel (if (jolt= 0 offset) 0 (- colinc offset))))) (jolt-invoke (var-deref "clojure.pprint" "print") (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") space-count (integer->char 32))))) navigator))))) relative-tabulation) (let* ((_o$1364 (keyword #f "private")) (_o$1365 #t)) (jolt-hash-map _o$1364 _o$1365)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "format-logical-block" (letrec ((format-logical-block (lambda (params navigator offsets) (let fnrec1366 ((params params) (navigator navigator) (offsets offsets)) (let* ((clauses (jolt-get params (keyword #f "clauses"))) (clause-count (jolt-count clauses)) (prefix (if (jolt-n> clause-count 1) (jolt-get (jolt-get (jolt-first (jolt-first clauses)) (keyword #f "params")) (keyword #f "string")) (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) "(" jolt-nil))) (body (jolt-nth clauses (if (jolt-n> clause-count 1) 1 0))) (suffix (if (jolt-n> clause-count 2) (jolt-get (jolt-get (jolt-first (jolt-nth clauses 2)) (keyword #f "params")) (keyword #f "string")) (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) ")" jolt-nil))) (G__72 (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator)) (arg (jolt-nth G__72 0 jolt-nil)) (navigator (jolt-nth G__72 1 jolt-nil))) (begin (begin (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "level-exceeded"))) (jolt-invoke (var-deref "clojure.pprint" "-write") (var-deref "clojure.core" "*out*") "#") (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.pprint" "*current-level*") (jolt-inc (var-deref "clojure.pprint" "*current-level*")) (jolt-var "clojure.pprint" "*current-length*") 0))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (begin (jolt-invoke (var-deref "clojure.pprint" "start-block") (var-deref "clojure.core" "*out*") prefix jolt-nil suffix) (let* ((_a$1367 (var-deref "clojure.pprint" "execute-sub-format")) (_a$1368 body) (_a$1369 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") arg)) (_a$1370 (jolt-get params (keyword #f "base-args")))) (jolt-invoke _a$1367 _a$1368 _a$1369 _a$1370)) (jolt-invoke (var-deref "clojure.pprint" "end-block") (var-deref "clojure.core" "*out*")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) jolt-nil) navigator)))))) format-logical-block) (let* ((_o$1371 (keyword #f "private")) (_o$1372 #t)) (jolt-hash-map _o$1371 _o$1372)))) + (def-var-with-meta! "clojure.pprint" "format-logical-block" (letrec ((format-logical-block (lambda (params navigator offsets) (let fnrec1366 ((params params) (navigator navigator) (offsets offsets)) (let* ((clauses (jolt-get params (keyword #f "clauses"))) (clause-count (jolt-count clauses)) (prefix (if (> clause-count 1) (jolt-get (jolt-get (jolt-first (jolt-first clauses)) (keyword #f "params")) (keyword #f "string")) (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) "(" jolt-nil))) (body (jolt-nth clauses (if (> clause-count 1) 1 0))) (suffix (if (> clause-count 2) (jolt-get (jolt-get (jolt-first (jolt-nth clauses 2)) (keyword #f "params")) (keyword #f "string")) (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) ")" jolt-nil))) (G__72 (jolt-invoke (var-deref "clojure.pprint" "next-arg") navigator)) (arg (jolt-nth G__72 0 jolt-nil)) (navigator (jolt-nth G__72 1 jolt-nil))) (begin (begin (if (jolt-truthy? (jolt-invoke (var-deref "clojure.pprint" "level-exceeded"))) (jolt-invoke (var-deref "clojure.pprint" "-write") (var-deref "clojure.core" "*out*") "#") (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.pprint" "*current-level*") (jolt-inc (var-deref "clojure.pprint" "*current-level*")) (jolt-var "clojure.pprint" "*current-length*") 0))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (begin (jolt-invoke (var-deref "clojure.pprint" "start-block") (var-deref "clojure.core" "*out*") prefix jolt-nil suffix) (let* ((_a$1367 (var-deref "clojure.pprint" "execute-sub-format")) (_a$1368 body) (_a$1369 (jolt-invoke (var-deref "clojure.pprint" "init-navigator") arg)) (_a$1370 (jolt-get params (keyword #f "base-args")))) (jolt-invoke _a$1367 _a$1368 _a$1369 _a$1370)) (jolt-invoke (var-deref "clojure.pprint" "end-block") (var-deref "clojure.core" "*out*")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) jolt-nil) navigator)))))) format-logical-block) (let* ((_o$1371 (keyword #f "private")) (_o$1372 #t)) (jolt-hash-map _o$1371 _o$1372)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "set-indent" (letrec ((set-indent (lambda (params navigator offsets) (let fnrec1373 ((params params) (navigator navigator) (offsets offsets)) (let* ((relative-to (if (jolt-truthy? (jolt-get params (keyword #f "colon"))) (keyword #f "current") (keyword #f "block")))) (begin (jolt-invoke (var-deref "clojure.pprint" "pprint-indent") relative-to (jolt-get params (keyword #f "n"))) navigator)))))) set-indent) (let* ((_o$1374 (keyword #f "private")) (_o$1375 #t)) (jolt-hash-map _o$1374 _o$1375)))) (guard (e (#t #f)) @@ -1423,13 +1421,13 @@ (lambda directives (let fnrec1379 ((directives (list->cseq directives))) (let* ((process (lambda (G__73) (let fnrec1380 ((G__73 G__73)) (let* ((G__74 G__73) (char (jolt-nth G__74 0 jolt-nil)) (params (jolt-nth G__74 1 jolt-nil)) (flags (jolt-nth G__74 2 jolt-nil)) (bracket-info (jolt-nth G__74 3 jolt-nil)) (generator-fn (jolt-invoke (var-deref "clojure.core" "nthnext") G__74 4))) (let* ((_o$1391 char) (_o$1392 (let* ((_o$1381 (keyword #f "directive")) (_o$1382 char) (_o$1383 (keyword #f "params")) (_o$1384 (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "array-map")) params)) (_o$1385 (keyword #f "flags")) (_o$1386 flags) (_o$1387 (keyword #f "bracket-info")) (_o$1388 bracket-info) (_o$1389 (keyword #f "generator-fn")) (_o$1390 (jolt-concat (jolt-list (jolt-symbol #f "fn") (jolt-vector (jolt-symbol #f "params") (jolt-symbol #f "offset"))) generator-fn))) (jolt-hash-map _o$1381 _o$1382 _o$1383 _o$1384 _o$1385 _o$1386 _o$1387 _o$1388 _o$1389 _o$1390)))) (jolt-vector _o$1391 _o$1392))))))) (let* ((_a$1396 (var-deref "clojure.core" "__sqcat")) (_a$1397 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$1398 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "directive-table"))) (_a$1399 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1393 (var-deref "clojure.core" "__sqcat")) (_a$1394 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "hash-map"))) (_a$1395 (jolt-invoke (var-deref "clojure.core" "mapcat") process directives))) (jolt-invoke _a$1393 _a$1394 _a$1395))))) (jolt-invoke _a$1396 _a$1397 _a$1398 _a$1399)))))) (mark-macro! "clojure.pprint" "defdirectives")) (guard (e (#t #f)) - (def-var! 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"clojure.pprint" "param-pattern" (jolt-regex "^([vV]|#|('.)|([+-]?\\d+)|(?=,))") (let* ((_o$2004 (keyword #f "private")) (_o$2005 #t)) (jolt-hash-map _o$2004 _o$2005)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "special-params" (let* ((_o$2006 (keyword #f "parameter-from-args")) (_o$2007 (keyword #f "remaining-arg-count"))) (jolt-hash-set _o$2006 _o$2007)) (let* ((_o$2008 (keyword #f "private")) (_o$2009 #t)) (jolt-hash-map _o$2008 _o$2009)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "extract-param" (letrec ((extract-param (lambda (G__80) (let fnrec2010 ((G__80 G__80)) (let* ((G__81 G__80) (s (jolt-nth G__81 0 jolt-nil)) (offset (jolt-nth G__81 1 jolt-nil)) (saw-comma (jolt-nth G__81 2 jolt-nil))) (let* ((param (jolt-invoke (var-deref "clojure.core" "re-find") (var-deref "clojure.pprint" "param-pattern") s)) (token-str (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") param)) (jolt-first param) param))) (if (jolt-truthy? token-str) (let* ((len (jolt-count token-str)) (remainder (jolt-invoke (var-deref "clojure.core" "subs") s len)) (new-offset (jolt-n+ offset len))) (if (jolt-not (jolt= (integer->char 44) (jolt-nth remainder 0 jolt-nil))) (let* ((_o$2016 (let* ((_o$2011 token-str) (_o$2012 offset)) (jolt-vector _o$2011 _o$2012))) (_o$2017 (let* ((_o$2013 remainder) (_o$2014 new-offset) (_o$2015 #f)) (jolt-vector _o$2013 _o$2014 _o$2015)))) (jolt-vector _o$2016 _o$2017)) (let* ((_o$2023 (let* ((_o$2018 token-str) (_o$2019 offset)) (jolt-vector _o$2018 _o$2019))) (_o$2024 (let* ((_o$2020 (jolt-invoke (var-deref "clojure.core" "subs") remainder 1)) (_o$2021 (jolt-inc new-offset)) (_o$2022 #t)) (jolt-vector _o$2020 _o$2021 _o$2022)))) (jolt-vector _o$2023 _o$2024)))) (if (jolt-truthy? saw-comma) (jolt-invoke (var-deref "clojure.pprint" "format-error") "Badly formed parameters in format directive" offset) (let* ((_o$2027 jolt-nil) (_o$2028 (let* ((_o$2025 s) (_o$2026 offset)) (jolt-vector _o$2025 _o$2026)))) (jolt-vector _o$2027 _o$2028)))))))))) extract-param) (let* ((_o$2029 (keyword #f "private")) (_o$2030 #t)) (jolt-hash-map _o$2029 _o$2030)))) + (def-var-with-meta! "clojure.pprint" "extract-param" (letrec ((extract-param (lambda (G__80) (let fnrec2010 ((G__80 G__80)) (let* ((G__81 G__80) (s (jolt-nth G__81 0 jolt-nil)) (offset (jolt-nth G__81 1 jolt-nil)) (saw-comma (jolt-nth G__81 2 jolt-nil))) (let* ((param (jolt-invoke (var-deref "clojure.core" "re-find") (var-deref "clojure.pprint" "param-pattern") s)) (token-str (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") param)) (jolt-first param) param))) (if (jolt-truthy? token-str) (let* ((len (jolt-count token-str)) (remainder (jolt-invoke (var-deref "clojure.core" "subs") s len)) (new-offset (+ offset len))) (if (jolt-not (jolt= (integer->char 44) (jolt-nth remainder 0 jolt-nil))) (let* ((_o$2016 (let* ((_o$2011 token-str) (_o$2012 offset)) (jolt-vector _o$2011 _o$2012))) (_o$2017 (let* ((_o$2013 remainder) (_o$2014 new-offset) (_o$2015 #f)) (jolt-vector _o$2013 _o$2014 _o$2015)))) (jolt-vector _o$2016 _o$2017)) (let* ((_o$2023 (let* ((_o$2018 token-str) (_o$2019 offset)) (jolt-vector _o$2018 _o$2019))) (_o$2024 (let* ((_o$2020 (jolt-invoke (var-deref "clojure.core" "subs") remainder 1)) (_o$2021 (jolt-inc new-offset)) (_o$2022 #t)) (jolt-vector _o$2020 _o$2021 _o$2022)))) (jolt-vector _o$2023 _o$2024)))) (if (jolt-truthy? saw-comma) (jolt-invoke (var-deref "clojure.pprint" "format-error") "Badly formed parameters in format directive" offset) (let* ((_o$2027 jolt-nil) (_o$2028 (let* ((_o$2025 s) (_o$2026 offset)) (jolt-vector _o$2025 _o$2026)))) (jolt-vector _o$2027 _o$2028)))))))))) extract-param) (let* ((_o$2029 (keyword #f "private")) (_o$2030 #t)) (jolt-hash-map _o$2029 _o$2030)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "extract-params" (letrec ((extract-params (lambda (s offset) (let fnrec2031 ((s s) (offset offset)) (jolt-invoke (var-deref "clojure.pprint" "consume") (var-deref "clojure.pprint" "extract-param") (let* ((_o$2032 s) (_o$2033 offset) (_o$2034 #f)) (jolt-vector _o$2032 _o$2033 _o$2034))))))) extract-params) (let* ((_o$2035 (keyword #f "private")) (_o$2036 #t)) (jolt-hash-map _o$2035 _o$2036)))) (guard (e (#t #f)) @@ -1439,11 +1437,11 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "extract-flags" (letrec ((extract-flags (lambda (s offset) (let fnrec2052 ((s s) (offset offset)) (let* ((_a$2074 (var-deref "clojure.pprint" "consume")) (_a$2075 (lambda (G__84) (let fnrec2053 ((G__84 G__84)) (let* ((G__85 G__84) (s (jolt-nth G__85 0 jolt-nil)) (offset (jolt-nth G__85 1 jolt-nil)) (flags (jolt-nth G__85 2 jolt-nil))) (if (jolt-empty? s) (let* ((_o$2057 jolt-nil) (_o$2058 (let* ((_o$2054 s) (_o$2055 offset) (_o$2056 flags)) (jolt-vector _o$2054 _o$2055 _o$2056)))) (jolt-vector _o$2057 _o$2058)) (let* ((flag (jolt-get (var-deref "clojure.pprint" "flag-defs") (jolt-first s)))) (if (jolt-truthy? flag) (if (jolt-contains? flags flag) (jolt-invoke (var-deref "clojure.pprint" "format-error") (jolt-invoke (var-deref "clojure.core" "str") "Flag \"" (jolt-first s) "\" appears more than once in a directive") offset) (let* ((_o$2064 #t) (_o$2065 (let* ((_o$2061 (jolt-invoke (var-deref "clojure.core" "subs") s 1)) (_o$2062 (jolt-inc offset)) (_o$2063 (jolt-assoc flags flag (let* ((_o$2059 #t) (_o$2060 offset)) (jolt-vector _o$2059 _o$2060))))) (jolt-vector _o$2061 _o$2062 _o$2063)))) (jolt-vector _o$2064 _o$2065))) (let* ((_o$2069 jolt-nil) (_o$2070 (let* ((_o$2066 s) (_o$2067 offset) (_o$2068 flags)) (jolt-vector _o$2066 _o$2067 _o$2068)))) (jolt-vector _o$2069 _o$2070))))))))) (_a$2076 (let* ((_o$2071 s) (_o$2072 offset) (_o$2073 (jolt-hash-map))) (jolt-vector _o$2071 _o$2072 _o$2073)))) (jolt-invoke _a$2074 _a$2075 _a$2076)))))) extract-flags) (let* ((_o$2077 (keyword #f "private")) (_o$2078 #t)) (jolt-hash-map _o$2077 _o$2078)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "check-flags" (letrec ((check-flags (lambda (dirdef flags) (let fnrec2079 ((dirdef dirdef) (flags flags)) (let* ((allowed (jolt-get dirdef (keyword #f "flags")))) (begin (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get allowed (keyword #f "at"))))) (if (jolt-truthy? and__25__auto) (jolt-get flags (keyword #f "at")) and__25__auto))) (let* ((_a$2080 (var-deref "clojure.pprint" "format-error")) (_a$2081 (jolt-invoke (var-deref "clojure.core" "str") "\"@\" is an illegal flag for format directive \"" (jolt-get dirdef (keyword #f "directive")) "\"")) (_a$2082 (jolt-nth (jolt-get flags (keyword #f "at")) 1))) (jolt-invoke _a$2080 _a$2081 _a$2082)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get allowed (keyword #f "colon"))))) (if (jolt-truthy? and__25__auto) (jolt-get flags (keyword #f "colon")) and__25__auto))) (let* ((_a$2083 (var-deref "clojure.pprint" "format-error")) (_a$2084 (jolt-invoke (var-deref "clojure.core" "str") "\":\" is an illegal flag for format directive \"" (jolt-get dirdef (keyword #f "directive")) "\"")) (_a$2085 (jolt-nth (jolt-get flags (keyword #f "colon")) 1))) (jolt-invoke _a$2083 _a$2084 _a$2085)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get allowed (keyword #f "both"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get flags (keyword #f "at")))) (if (jolt-truthy? and__25__auto) (jolt-get flags (keyword #f "colon")) and__25__auto)) and__25__auto))) (let* ((_a$2088 (var-deref "clojure.pprint" "format-error")) (_a$2089 (jolt-invoke (var-deref "clojure.core" "str") "Cannot combine \"@\" and \":\" flags for format directive \"" (jolt-get dirdef (keyword #f "directive")) "\"")) (_a$2090 (let* ((_a$2086 (jolt-nth (jolt-get flags (keyword #f "colon")) 1)) (_a$2087 (jolt-nth (jolt-get flags (keyword #f "at")) 1))) (jolt-n-min _a$2086 _a$2087)))) (jolt-invoke _a$2088 _a$2089 _a$2090)) jolt-nil))))))) check-flags) (let* ((_o$2091 (keyword #f "private")) (_o$2092 #t)) (jolt-hash-map _o$2091 _o$2092)))) + (def-var-with-meta! "clojure.pprint" "check-flags" (letrec ((check-flags (lambda (dirdef flags) (let fnrec2079 ((dirdef dirdef) (flags flags)) (let* ((allowed (jolt-get dirdef (keyword #f "flags")))) (begin (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get allowed (keyword #f "at"))))) (if (jolt-truthy? and__25__auto) (jolt-get flags (keyword #f "at")) and__25__auto))) (let* ((_a$2080 (var-deref "clojure.pprint" "format-error")) (_a$2081 (jolt-invoke (var-deref "clojure.core" "str") "\"@\" is an illegal flag for format directive \"" (jolt-get dirdef (keyword #f "directive")) "\"")) (_a$2082 (jolt-nth (jolt-get flags (keyword #f "at")) 1))) (jolt-invoke _a$2080 _a$2081 _a$2082)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get allowed (keyword #f "colon"))))) (if (jolt-truthy? and__25__auto) (jolt-get flags (keyword #f "colon")) and__25__auto))) (let* ((_a$2083 (var-deref "clojure.pprint" "format-error")) (_a$2084 (jolt-invoke (var-deref "clojure.core" "str") "\":\" is an illegal flag for format directive \"" (jolt-get dirdef (keyword #f "directive")) "\"")) (_a$2085 (jolt-nth (jolt-get flags (keyword #f "colon")) 1))) (jolt-invoke _a$2083 _a$2084 _a$2085)) jolt-nil) (if (jolt-truthy? (let* ((and__25__auto (jolt-not (jolt-get allowed (keyword #f "both"))))) (if (jolt-truthy? and__25__auto) (let* ((and__25__auto (jolt-get flags (keyword #f "at")))) (if (jolt-truthy? and__25__auto) (jolt-get flags (keyword #f "colon")) and__25__auto)) and__25__auto))) (let* ((_a$2088 (var-deref "clojure.pprint" "format-error")) (_a$2089 (jolt-invoke (var-deref "clojure.core" "str") "Cannot combine \"@\" and \":\" flags for format directive \"" (jolt-get dirdef (keyword #f "directive")) "\"")) (_a$2090 (let* ((_a$2086 (jolt-nth (jolt-get flags (keyword #f "colon")) 1)) (_a$2087 (jolt-nth (jolt-get flags (keyword #f "at")) 1))) (min _a$2086 _a$2087)))) (jolt-invoke _a$2088 _a$2089 _a$2090)) jolt-nil))))))) check-flags) (let* ((_o$2091 (keyword #f "private")) (_o$2092 #t)) (jolt-hash-map _o$2091 _o$2092)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "map-params" (letrec ((map-params (lambda (dirdef params flags offset) (let fnrec2093 ((dirdef dirdef) (params params) (flags flags) (offset offset)) (begin (jolt-invoke (var-deref "clojure.pprint" "check-flags") dirdef flags) (if (let* ((_a$2094 (jolt-count params)) (_a$2095 (jolt-count (jolt-get dirdef (keyword #f "params"))))) (jolt-n> _a$2094 _a$2095)) (let* ((_a$2102 (var-deref "clojure.pprint" "format-error")) (_a$2103 (let* ((_a$2096 (var-deref "clojure.pprint" "cl-format")) (_a$2097 jolt-nil) (_a$2098 "Too many parameters for directive \"~C\": ~D~:* ~[were~;was~:;were~] specified but only ~D~:* ~[are~;is~:;are~] allowed") (_a$2099 (jolt-get dirdef (keyword #f "directive"))) (_a$2100 (jolt-count params)) (_a$2101 (jolt-count (jolt-get dirdef (keyword #f "params"))))) (jolt-invoke _a$2096 _a$2097 _a$2098 _a$2099 _a$2100 _a$2101))) (_a$2104 (jolt-invoke (var-deref "clojure.core" "second") (jolt-first params)))) (jolt-invoke _a$2102 _a$2103 _a$2104)) jolt-nil) (jolt-invoke (var-deref "clojure.core" "doall") (let* ((_a$2106 (lambda (p__35_) (let fnrec2105 ((p__35_ p__35_)) (let* ((val (jolt-first p__35_))) (if (jolt-not (let* ((or__26__auto (jolt-nil? val))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-contains? (var-deref "clojure.pprint" "special-params") val)))) jolt-nil jolt-nil))))) (_a$2107 params) (_a$2108 (jolt-get dirdef (keyword #f "params")))) (jolt-map _a$2106 _a$2107 _a$2108))) (let* ((_a$2125 (var-deref "clojure.core" "merge")) (_a$2126 (let* ((_a$2116 (jolt-hash-map)) (_a$2117 (jolt-reverse (let* ((_a$2114 (lambda (G__86) (let fnrec2109 ((G__86 G__86)) (let* ((G__87 G__86) (name (jolt-nth G__87 0 jolt-nil)) (G__88 (jolt-nth G__87 1 jolt-nil)) (default (jolt-nth G__88 0 jolt-nil))) (let* ((_o$2112 name) (_o$2113 (let* ((_o$2110 default) (_o$2111 offset)) (jolt-vector _o$2110 _o$2111)))) (jolt-vector _o$2112 _o$2113)))))) (_a$2115 (jolt-get dirdef (keyword #f "params")))) (jolt-map _a$2114 _a$2115))))) (jolt-into _a$2116 _a$2117))) (_a$2127 (let* ((_a$2122 (lambda (p__36_ p__37_) (let fnrec2118 ((p__36_ p__36_) (p__37_ p__37_)) (jolt-apply jolt-assoc p__36_ p__37_)))) (_a$2123 (jolt-hash-map)) (_a$2124 (let* ((_a$2120 (lambda (p__38_) (let fnrec2119 ((p__38_ p__38_)) (jolt-first (jolt-nth p__38_ 1))))) (_a$2121 (jolt-invoke (var-deref "clojure.core" "zipmap") (jolt-keys (jolt-get dirdef (keyword #f "params"))) params))) (jolt-filter _a$2120 _a$2121)))) (jolt-reduce _a$2122 _a$2123 _a$2124))) (_a$2128 flags)) (jolt-invoke _a$2125 _a$2126 _a$2127 _a$2128))))))) map-params) (let* ((_o$2129 (keyword #f "private")) (_o$2130 #t)) (jolt-hash-map _o$2129 _o$2130)))) + (def-var-with-meta! "clojure.pprint" "map-params" (letrec ((map-params (lambda (dirdef params flags offset) (let fnrec2093 ((dirdef dirdef) (params params) (flags flags) (offset offset)) (begin (jolt-invoke (var-deref "clojure.pprint" "check-flags") dirdef flags) (if (let* ((_a$2094 (jolt-count params)) (_a$2095 (jolt-count (jolt-get dirdef (keyword #f "params"))))) (> _a$2094 _a$2095)) (let* ((_a$2102 (var-deref "clojure.pprint" "format-error")) (_a$2103 (let* ((_a$2096 (var-deref "clojure.pprint" "cl-format")) (_a$2097 jolt-nil) (_a$2098 "Too many parameters for directive \"~C\": ~D~:* ~[were~;was~:;were~] specified but only ~D~:* ~[are~;is~:;are~] allowed") (_a$2099 (jolt-get dirdef (keyword #f "directive"))) (_a$2100 (jolt-count params)) (_a$2101 (jolt-count (jolt-get dirdef (keyword #f "params"))))) (jolt-invoke _a$2096 _a$2097 _a$2098 _a$2099 _a$2100 _a$2101))) (_a$2104 (jolt-invoke (var-deref "clojure.core" "second") (jolt-first params)))) (jolt-invoke _a$2102 _a$2103 _a$2104)) jolt-nil) (jolt-invoke (var-deref "clojure.core" "doall") (let* ((_a$2106 (lambda (p__35_) (let fnrec2105 ((p__35_ p__35_)) (let* ((val (jolt-first p__35_))) (if (jolt-not (let* ((or__26__auto (jolt-nil? val))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-contains? (var-deref "clojure.pprint" "special-params") val)))) jolt-nil jolt-nil))))) (_a$2107 params) (_a$2108 (jolt-get dirdef (keyword #f "params")))) (jolt-map _a$2106 _a$2107 _a$2108))) (let* ((_a$2125 (var-deref "clojure.core" "merge")) (_a$2126 (let* ((_a$2116 (jolt-hash-map)) (_a$2117 (jolt-reverse (let* ((_a$2114 (lambda (G__86) (let fnrec2109 ((G__86 G__86)) (let* ((G__87 G__86) (name (jolt-nth G__87 0 jolt-nil)) (G__88 (jolt-nth G__87 1 jolt-nil)) (default (jolt-nth G__88 0 jolt-nil))) (let* ((_o$2112 name) (_o$2113 (let* ((_o$2110 default) (_o$2111 offset)) (jolt-vector _o$2110 _o$2111)))) (jolt-vector _o$2112 _o$2113)))))) (_a$2115 (jolt-get dirdef (keyword #f "params")))) (jolt-map _a$2114 _a$2115))))) (jolt-into _a$2116 _a$2117))) (_a$2127 (let* ((_a$2122 (lambda (p__36_ p__37_) (let fnrec2118 ((p__36_ p__36_) (p__37_ p__37_)) (jolt-apply jolt-assoc p__36_ p__37_)))) (_a$2123 (jolt-hash-map)) (_a$2124 (let* ((_a$2120 (lambda (p__38_) (let fnrec2119 ((p__38_ p__38_)) (jolt-first (jolt-nth p__38_ 1))))) (_a$2121 (jolt-invoke (var-deref "clojure.core" "zipmap") (jolt-keys (jolt-get dirdef (keyword #f "params"))) params))) (jolt-filter _a$2120 _a$2121)))) (jolt-reduce _a$2122 _a$2123 _a$2124))) (_a$2128 flags)) (jolt-invoke _a$2125 _a$2126 _a$2127 _a$2128))))))) map-params) (let* ((_o$2129 (keyword #f "private")) (_o$2130 #t)) (jolt-hash-map _o$2129 _o$2130)))) (guard (e (#t #f)) - (def-var-with-meta! 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(let* ((and__25__auto (jolt= (integer->char 10) (jolt-get dirdef (keyword #f "directive"))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get params (keyword #f "colon"))) and__25__auto))) (trim-count (if (jolt-truthy? trim?) (jolt-invoke (var-deref "clojure.pprint" "prefix-count") remainder (let* ((_o$2132 (integer->char 32)) (_o$2133 (integer->char 9))) (jolt-vector _o$2132 _o$2133))) 0)) (remainder (jolt-invoke (var-deref "clojure.core" "subs") remainder trim-count)) (offset (jolt-n+ offset trim-count))) (let* ((_o$2134 remainder) (_o$2135 offset)) (jolt-vector _o$2134 _o$2135))))) (jolt-vector _o$2136 _o$2137)))))))) compile-directive) (let* ((_o$2138 (keyword #f "private")) (_o$2139 #t)) (jolt-hash-map _o$2138 _o$2139)))) + (def-var-with-meta! "clojure.pprint" "compile-directive" (letrec ((compile-directive (lambda (s offset) (let fnrec2131 ((s s) (offset offset)) (let* ((G__89 (jolt-invoke (var-deref "clojure.pprint" "extract-params") s offset)) (raw-params (jolt-nth G__89 0 jolt-nil)) (G__90 (jolt-nth G__89 1 jolt-nil)) (rest (jolt-nth G__90 0 jolt-nil)) (offset (jolt-nth G__90 1 jolt-nil)) (G__91 (jolt-invoke (var-deref "clojure.pprint" "extract-flags") rest offset)) (_ (jolt-nth G__91 0 jolt-nil)) (G__92 (jolt-nth G__91 1 jolt-nil)) (rest (jolt-nth G__92 0 jolt-nil)) (offset (jolt-nth G__92 1 jolt-nil)) (flags (jolt-nth G__92 2 jolt-nil)) (directive (jolt-first rest)) (dirdef (if (jolt-truthy? directive) (let* ((or__26__auto (jolt-get (var-deref "clojure.pprint" "directive-table") (jolt-first (jolt-invoke (var-deref "clojure.string" "upper-case") (jolt-invoke (var-deref "clojure.core" "str") directive)))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-get (var-deref "clojure.pprint" "directive-table") directive))) jolt-nil)) (params (if (jolt-truthy? dirdef) (jolt-invoke (var-deref "clojure.pprint" "map-params") dirdef (jolt-map (var-deref "clojure.pprint" "translate-param") raw-params) flags offset) jolt-nil))) (begin (if (jolt-not directive) (jolt-invoke (var-deref "clojure.pprint" "format-error") "Format string ended in the middle of a directive" offset) jolt-nil) (if (jolt-not dirdef) (jolt-invoke (var-deref "clojure.pprint" "format-error") (jolt-invoke (var-deref "clojure.core" "str") "Directive \"" directive "\" is undefined") offset) jolt-nil) (let* ((_o$2136 (jolt-invoke (var-deref "clojure.pprint" "->compiled-directive") (jolt-invoke (jolt-get dirdef (keyword #f "generator-fn")) params offset) dirdef params offset)) (_o$2137 (let* ((remainder (jolt-invoke (var-deref "clojure.core" "subs") rest 1)) (offset (jolt-inc offset)) (trim? (let* ((and__25__auto (jolt= (integer->char 10) (jolt-get dirdef (keyword #f "directive"))))) (if (jolt-truthy? and__25__auto) (jolt-not (jolt-get params (keyword #f "colon"))) and__25__auto))) (trim-count (if (jolt-truthy? trim?) (jolt-invoke (var-deref "clojure.pprint" "prefix-count") remainder (let* ((_o$2132 (integer->char 32)) (_o$2133 (integer->char 9))) (jolt-vector _o$2132 _o$2133))) 0)) (remainder (jolt-invoke (var-deref "clojure.core" "subs") remainder trim-count)) (offset (+ offset trim-count))) (let* ((_o$2134 remainder) (_o$2135 offset)) (jolt-vector _o$2134 _o$2135))))) (jolt-vector _o$2136 _o$2137)))))))) compile-directive) (let* ((_o$2138 (keyword #f "private")) (_o$2139 #t)) (jolt-hash-map _o$2138 _o$2139)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "compile-raw-string" (letrec ((compile-raw-string (lambda (s offset) (let fnrec2140 ((s s) (offset offset)) (let* ((_a$2144 (var-deref "clojure.pprint" "->compiled-directive")) (_a$2145 (lambda (_r$__285 a _) (let fnrec2141 ((_r$__285 _r$__285) (a a) (_ _)) (begin (jolt-invoke (var-deref "clojure.pprint" "print") s) a)))) (_a$2146 jolt-nil) (_a$2147 (let* ((_o$2142 (keyword #f "string")) (_o$2143 s)) (jolt-hash-map _o$2142 _o$2143))) (_a$2148 offset)) (jolt-invoke _a$2144 _a$2145 _a$2146 _a$2147 _a$2148)))))) compile-raw-string) (let* ((_o$2149 (keyword #f "private")) (_o$2150 #t)) (jolt-hash-map _o$2149 _o$2150)))) (guard (e (#t #f)) @@ -1463,7 +1461,7 @@ (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "process-nesting" (letrec ((process-nesting (lambda (format) (let fnrec2246 ((format format)) (jolt-first (jolt-invoke (var-deref "clojure.pprint" "consume") (lambda (remainder) (let fnrec2247 ((remainder remainder)) (let* ((this (jolt-first remainder)) (remainder (jolt-next remainder)) (bracket (jolt-get (jolt-get this (keyword #f "dirdef")) (keyword #f "bracket-info")))) (if (jolt-truthy? (jolt-get bracket (keyword #f "right"))) (jolt-invoke (var-deref "clojure.pprint" "process-bracket") this remainder) (let* ((_o$2248 this) (_o$2249 remainder)) (jolt-vector _o$2248 _o$2249)))))) format)))))) process-nesting) (let* ((_o$2250 (keyword #f "private")) (_o$2251 #t)) (jolt-hash-map _o$2250 _o$2251)))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "compile-format" (letrec ((compile-format (lambda (format-str) (let fnrec2252 ((format-str format-str)) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.pprint" "*format-str*") format-str))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.pprint" "process-nesting") (jolt-first (let* ((_a$2269 (var-deref "clojure.pprint" "consume")) (_a$2270 (lambda (G__98) (let fnrec2253 ((G__98 G__98)) (let* ((G__99 G__98) (s (jolt-nth G__99 0 jolt-nil)) (offset (jolt-nth G__99 1 jolt-nil))) (if (jolt-empty? s) (let* ((_o$2254 jolt-nil) (_o$2255 s)) (jolt-vector _o$2254 _o$2255)) (let* ((tilde (record-method-dispatch s "indexOf" (jolt-vector "~")))) (if (jolt-neg? tilde) (let* ((_o$2258 (jolt-invoke (var-deref "clojure.pprint" "compile-raw-string") s offset)) (_o$2259 (let* ((_o$2256 "") (_o$2257 (jolt-n+ offset (jolt-count s)))) (jolt-vector _o$2256 _o$2257)))) (jolt-vector _o$2258 _o$2259)) (if (jolt-zero? tilde) (let* ((_a$2260 (var-deref "clojure.pprint" "compile-directive")) (_a$2261 (jolt-invoke (var-deref "clojure.core" "subs") s 1)) (_a$2262 (jolt-inc offset))) (jolt-invoke _a$2260 _a$2261 _a$2262)) (if #t (let* ((_o$2265 (jolt-invoke (var-deref "clojure.pprint" "compile-raw-string") (jolt-invoke (var-deref "clojure.core" "subs") s 0 tilde) offset)) (_o$2266 (let* ((_o$2263 (jolt-invoke (var-deref "clojure.core" "subs") s tilde)) (_o$2264 (jolt-n+ tilde offset))) (jolt-vector _o$2263 _o$2264)))) (jolt-vector _o$2265 _o$2266)) jolt-nil))))))))) (_a$2271 (let* ((_o$2267 format-str) (_o$2268 0)) (jolt-vector _o$2267 _o$2268)))) (jolt-invoke _a$2269 _a$2270 _a$2271))))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))))) compile-format) (let* ((_o$2272 (keyword #f "private")) (_o$2273 #t)) (jolt-hash-map _o$2272 _o$2273)))) + (def-var-with-meta! "clojure.pprint" "compile-format" (letrec ((compile-format (lambda (format-str) (let fnrec2252 ((format-str format-str)) (let* ((frame__20__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "clojure.pprint" "*format-str*") format-str))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__20__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.pprint" "process-nesting") (jolt-first (let* ((_a$2269 (var-deref "clojure.pprint" "consume")) (_a$2270 (lambda (G__98) (let fnrec2253 ((G__98 G__98)) (let* ((G__99 G__98) (s (jolt-nth G__99 0 jolt-nil)) (offset (jolt-nth G__99 1 jolt-nil))) (if (jolt-empty? s) (let* ((_o$2254 jolt-nil) (_o$2255 s)) (jolt-vector _o$2254 _o$2255)) (let* ((tilde (record-method-dispatch s "indexOf" (jolt-vector "~")))) (if (jolt-neg? tilde) (let* ((_o$2258 (jolt-invoke (var-deref "clojure.pprint" "compile-raw-string") s offset)) (_o$2259 (let* ((_o$2256 "") (_o$2257 (+ offset (jolt-count s)))) (jolt-vector _o$2256 _o$2257)))) (jolt-vector _o$2258 _o$2259)) (if (jolt-zero? tilde) (let* ((_a$2260 (var-deref "clojure.pprint" "compile-directive")) (_a$2261 (jolt-invoke (var-deref "clojure.core" "subs") s 1)) (_a$2262 (jolt-inc offset))) (jolt-invoke _a$2260 _a$2261 _a$2262)) (if #t (let* ((_o$2265 (jolt-invoke (var-deref "clojure.pprint" "compile-raw-string") (jolt-invoke (var-deref "clojure.core" "subs") s 0 tilde) offset)) (_o$2266 (let* ((_o$2263 (jolt-invoke (var-deref "clojure.core" "subs") s tilde)) (_o$2264 (+ tilde offset))) (jolt-vector _o$2263 _o$2264)))) (jolt-vector _o$2265 _o$2266)) jolt-nil))))))))) (_a$2271 (let* ((_o$2267 format-str) (_o$2268 0)) (jolt-vector _o$2267 _o$2268)))) (jolt-invoke _a$2269 _a$2270 _a$2271))))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))))) compile-format) (let* ((_o$2272 (keyword #f "private")) (_o$2273 #t)) (jolt-hash-map _o$2272 _o$2273)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "needs-pretty" (letrec ((needs-pretty (lambda (format) (let fnrec2274 ((format format)) (let* ((format format)) (let loop2275 ((format format)) (if (jolt-empty? format) #f (if (jolt-truthy? (let* ((or__26__auto (jolt-get (jolt-get (jolt-get (jolt-first format) (keyword #f "dirdef")) (keyword #f "flags")) (keyword #f "pretty")))) (if (jolt-truthy? or__26__auto) or__26__auto (let* ((or__26__auto (jolt-invoke (var-deref "clojure.core" "some") needs-pretty (jolt-first (jolt-get (jolt-get (jolt-first format) (keyword #f "params")) (keyword #f "clauses")))))) (if (jolt-truthy? or__26__auto) or__26__auto (jolt-invoke (var-deref "clojure.core" "some") needs-pretty (jolt-first (jolt-get (jolt-get (jolt-first format) (keyword #f "params")) (keyword #f "else"))))))))) #t (loop2275 (jolt-next format)))))))))) needs-pretty) (let* ((_o$2276 (keyword #f "private")) (_o$2277 #t)) (jolt-hash-map _o$2276 _o$2277)))) (guard (e (#t #f)) @@ -1507,7 +1505,7 @@ (guard (e (#t #f)) (jolt-invoke (var-deref "clojure.core" "alter-var-root") (jolt-var "clojure.pprint" "*print-pprint-dispatch*") (jolt-invoke (var-deref "clojure.core" "constantly") (var-deref "clojure.pprint" "simple-dispatch")))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.pprint" "add-padding" (letrec ((add-padding (lambda (width s) (let fnrec2355 ((width width) (s s)) (let* ((padding (jolt-n-max 0 (jolt-n- width (jolt-count s))))) (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.string" "join") (jolt-invoke (var-deref "clojure.core" "repeat") padding (integer->char 32))) s)))))) add-padding) (let* ((_o$2356 (keyword #f "private")) (_o$2357 #t)) (jolt-hash-map _o$2356 _o$2357)))) + (def-var-with-meta! "clojure.pprint" "add-padding" (letrec ((add-padding (lambda (width s) (let fnrec2355 ((width width) (s s)) (let* ((padding (max 0 (- width (jolt-count s))))) (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.string" "join") (jolt-invoke (var-deref "clojure.core" "repeat") padding (integer->char 32))) s)))))) add-padding) (let* ((_o$2356 (keyword #f "private")) (_o$2357 #t)) (jolt-hash-map _o$2356 _o$2357)))) (guard (e (#t #f)) (def-var-with-meta! "clojure.pprint" "print-table" (letrec ((print-table (case-lambda ((ks rows) (let fnrec2358 ((ks ks) (rows rows)) (if (jolt-truthy? (jolt-seq rows)) (let* ((widths (jolt-map (lambda (k) (let fnrec2359 ((k k)) (let* ((_a$2361 jolt-max) (_a$2362 (jolt-count (jolt-invoke (var-deref "clojure.core" "str") k))) (_a$2363 (jolt-map (lambda (p__39_) (let fnrec2360 ((p__39_ p__39_)) (jolt-count (jolt-invoke (var-deref "clojure.core" "str") (jolt-get p__39_ k))))) rows))) (jolt-apply _a$2361 _a$2362 _a$2363)))) ks)) (spacers (jolt-map (lambda (p__40_) (let fnrec2364 ((p__40_ p__40_)) (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "repeat") p__40_ "-")))) widths)) (fmt-row (lambda (leader divider trailer row) (let fnrec2365 ((leader leader) (divider divider) (trailer trailer) (row row)) (jolt-invoke (var-deref "clojure.core" "str") leader (jolt-apply (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "interpose") divider (let* ((_a$2368 (lambda (G__104) (let fnrec2366 ((G__104 G__104)) (let* ((G__105 G__104) (col (jolt-nth G__105 0 jolt-nil)) (width (jolt-nth G__105 1 jolt-nil))) (jolt-invoke (var-deref "clojure.pprint" "add-padding") width (jolt-invoke (var-deref "clojure.core" "str") col)))))) (_a$2369 (jolt-map jolt-vector (jolt-map (lambda (p__41_) (let fnrec2367 ((p__41_ p__41_)) (jolt-get row p__41_))) ks) widths))) (jolt-map _a$2368 _a$2369)))) trailer))))) (begin (jolt-invoke (var-deref "clojure.core" "println")) (jolt-invoke (var-deref "clojure.core" "println") (jolt-invoke fmt-row "| " " | " " |" (jolt-invoke (var-deref "clojure.core" "zipmap") ks ks))) (jolt-invoke (var-deref "clojure.core" "println") (jolt-invoke fmt-row "|-" "-+-" "-|" (jolt-invoke (var-deref "clojure.core" "zipmap") ks spacers))) (begin (jolt-count (jolt-map (lambda (row) (let fnrec2370 ((row row)) (begin (jolt-invoke (var-deref "clojure.core" "println") (jolt-invoke fmt-row "| " " | " " |" row)) jolt-nil))) rows)) jolt-nil))) jolt-nil))) ((rows) (let fnrec2371 ((rows rows)) (print-table (jolt-keys (jolt-first rows)) rows)))))) print-table) (let* ((_o$2372 (keyword #f "doc")) (_o$2373 "Prints a collection of maps in a textual table.")) (jolt-hash-map _o$2372 _o$2373)))) (guard (e (#t #f)) diff --git a/host/chez/seq.ss b/host/chez/seq.ss index b10ed50..2f5d778 100644 --- a/host/chez/seq.ss +++ b/host/chez/seq.ss @@ -31,29 +31,11 @@ ;; cvec is #f for every other seq; stored as two fields (not a cons) so a vector ;; seq cell costs no extra allocation. The rest of the seq layer ignores them, so ;; first/rest/count/printing are unchanged. -;; crest: the ChunkedCons case — cvec holds a STANDALONE chunk pvec (<=32 already- -;; realized elements), ci the offset within it, and crest the seq AFTER the whole -;; chunk (the clojure.lang.ChunkedCons _more). This is what map/filter/range emit -;; so their result is itself a chunked-seq (chained chunked transforms each batch -;; by 32, like the JVM). crest is #f for a plain vector-backed seq (whose "rest" -;; is the next 32-block of the SAME cvec) and for every non-chunked cell. -(define-record-type cseq (fields head (mutable tail) (mutable forced?) list? cvec ci crest) (nongenerative chez-cseq-v4)) -(define (cseq-realized head tail) (make-cseq head tail #t #f #f 0 #f)) ; tail already a seq -(define (cseq-lazy head tail-thunk) (make-cseq head tail-thunk #f #f #f 0 #f)) -(define (cseq-list head tail) (make-cseq head tail #t #t #f 0 #f)) ; a PersistentList node -(define (cseq-vec head tail-thunk v i) (make-cseq head tail-thunk #f #f v i #f)) ; vector-backed -;; A ChunkedCons cell over a standalone chunk pvec: head is chunk[i], walking -;; (seq-more) advances within the chunk and then continues into `rest`. `rest` is -;; the already-coerced after-chunk seq (cseq | jolt-nil | a jolt-lazyseq), held in -;; crest for chunk-rest/chunk-next and forced lazily by the tail thunk at the chunk -;; boundary so a chunked map over an infinite chunked source stays productive. -(define (cseq-chunked chunk i rest) - (make-cseq (pvec-nth-d chunk i jolt-nil) - (lambda () (let ((i1 (fx+ i 1))) - (if (fx ClassCastException. The hooks are BINARY and never re-enter -;; the variadic shims, so extension order can't recurse. -(define (jolt-add-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -(define (jolt-sub-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -(define (jolt-mul-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -(define (jolt-div-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -;; comparison of operands outside the Chez tower: numeric shims extend this to a -;; 3-way compare; anything left over is not a number. -(define (jolt-num-cmp-slow a b) - (jolt-num-cast-throw (if (number? a) b a))) - -(define (jolt-add2 a b) - (if (and (number? a) (number? b)) (+ a b) (jolt-add-slow a b))) -(define (jolt-sub2 a b) - (if (and (number? a) (number? b)) (- a b) (jolt-sub-slow a b))) -(define (jolt-mul2 a b) - (if (and (number? a) (number? b)) - (if (or (flonum? a) (flonum? b)) - (fl* (real->flonum a) (real->flonum b)) - (* a b)) - (jolt-mul-slow a b))) -(define (jolt-div2 a b) - (if (and (number? a) (number? b)) - (if (or (flonum? a) (flonum? b)) - (fl/ (real->flonum a) (real->flonum b)) - (if (eqv? b 0) (jolt-div0-throw) (/ a b))) - (jolt-div-slow a b))) -(define (jolt-lt2 a b) - (if (and (number? a) (number? b)) (< a b) (< (jolt-num-cmp-slow a b) 0))) -(define (jolt-gt2 a b) - (if (and (number? a) (number? b)) (> a b) (> (jolt-num-cmp-slow a b) 0))) -(define (jolt-le2 a b) - (if (and (number? a) (number? b)) (<= a b) (<= (jolt-num-cmp-slow a b) 0))) -(define (jolt-ge2 a b) - (if (and (number? a) (number? b)) (>= a b) (>= (jolt-num-cmp-slow a b) 0))) -;; min/max return the ORIGINAL operand (type and exactness kept, like -;; Numbers.min): (min 1 2.0) is 1, not 1.0. A NaN operand wins. -(define (jolt-min2 a b) - (cond ((and (flonum? a) (nan? a)) a) - ((and (flonum? b) (nan? b)) b) - (else (if (jolt-lt2 a b) a b)))) -(define (jolt-max2 a b) - (cond ((and (flonum? a) (nan? a)) a) - ((and (flonum? b) (nan? b)) b) - (else (if (jolt-gt2 a b) a b)))) - -;; quot/rem/mod over the full tower: truncating division; a double operand makes -;; the result a double; mod has floor semantics (result takes the divisor's -;; sign). A zero divisor throws ArithmeticException in both worlds (JVM double -;; quot/rem check the divisor before dividing). Non-tower operands hit the -;; set!-extensible slow hooks. -(define (jolt-quot-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -(define (jolt-rem-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -(define (jolt-mod-slow a b) (jolt-num-cast-throw (if (number? a) b a))) -(define (jolt-quot a b) - (cond ((not (and (number? a) (number? b))) (jolt-quot-slow a b)) - ((or (flonum? a) (flonum? b)) - (let ((n (real->flonum a)) (d (real->flonum b))) - (if (fl= d 0.0) (jolt-div0-throw) - (let ((q (fl/ n d))) - (when (or (nan? q) (infinite? q)) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - "Infinite or NaN"))) - (fltruncate q))))) - ((eqv? b 0) (jolt-div0-throw)) - ((and (integer? a) (integer? b)) (quotient a b)) - (else (truncate (/ a b))))) -(define (jolt-rem a b) - (cond ((not (and (number? a) (number? b))) (jolt-rem-slow a b)) - ((or (flonum? a) (flonum? b)) - (let ((n (real->flonum a)) (d (real->flonum b))) - (if (fl= d 0.0) (jolt-div0-throw) - (let ((q (fl/ n d))) - (when (or (nan? q) (infinite? q)) - (jolt-throw (jolt-host-throwable "java.lang.NumberFormatException" - "Infinite or NaN"))) - (fl- n (fl* d (fltruncate q))))))) - ((eqv? b 0) (jolt-div0-throw)) - ((and (integer? a) (integer? b)) (remainder a b)) - (else (- a (* b (truncate (/ a b))))))) -(define (jolt-mod a b) - (cond ((not (and (number? a) (number? b))) (jolt-mod-slow a b)) - ((and (integer? a) (integer? b) (not (flonum? a)) (not (flonum? b))) - (if (eqv? b 0) (jolt-div0-throw) (modulo a b))) - (else - (let ((m (jolt-rem a b))) - (if (or (zero? m) (eq? (negative? m) (negative? b))) m (jolt-add2 m b)))))) - ;; value-position arithmetic (the higher-order forms: (reduce + []), (apply * xs)). -;; Folded through the binary dispatch so contagion/edge rules hold; identities -;; (+)=0 / (*)=1 are exact, matching exact integer arithmetic. The hot path uses -;; the inlined native ops, not these. -;; recognizer for slow-path numeric types; numeric shims extend it. -(define (jolt-num-slow? x) #f) -(define (jolt-num-check1 x) ; (+ x)/(* x) return x but still type-check it - (if (or (number? x) (jolt-num-slow? x)) x (jolt-num-cast-throw x))) -(define (jolt-add . xs) - (cond ((null? xs) 0) - ((null? (cdr xs)) (jolt-num-check1 (car xs))) - (else (fold-left jolt-add2 (car xs) (cdr xs))))) -(define (jolt-arity0-throw name) - (jolt-throw (jolt-host-throwable - "clojure.lang.ArityException" - (string-append "Wrong number of args (0) passed to: clojure.core/" name)))) -(define (jolt-sub . xs) - (cond ((null? xs) (jolt-arity0-throw "-")) - ((null? (cdr xs)) (jolt-sub2 0 (car xs))) - (else (fold-left jolt-sub2 (car xs) (cdr xs))))) -(define (jolt-mul . xs) - (cond ((null? xs) 1) - ((null? (cdr xs)) (jolt-num-check1 (car xs))) - (else (fold-left jolt-mul2 (car xs) (cdr xs))))) -(define (jolt-div . xs) - (cond ((null? xs) (jolt-arity0-throw "/")) - ((null? (cdr xs)) (jolt-div2 1 (car xs))) - (else (fold-left jolt-div2 (car xs) (cdr xs))))) -(define (jolt-min x . xs) (fold-left jolt-min2 x xs)) -(define (jolt-max x . xs) (fold-left jolt-max2 x xs)) -;; variadic comparison chains for value position ((apply < xs)). -(define (jolt-cmp-chain op2) - (lambda (x . xs) - (let loop ((a x) (rest xs)) - (cond ((null? rest) #t) - ((op2 a (car rest)) (loop (car rest) (cdr rest))) - (else #f))))) -(define jolt-lt (jolt-cmp-chain jolt-lt2)) -(define jolt-gt (jolt-cmp-chain jolt-gt2)) -(define jolt-le (jolt-cmp-chain jolt-le2)) -(define jolt-ge (jolt-cmp-chain jolt-ge2)) - -;; call-position arithmetic: inlined macros with the both-Chez-numbers fast path -;; open-coded; anything else falls to the binary dispatch above. Comparisons -;; return a genuine Scheme boolean (the backend's truthy elision relies on it). -(define-syntax jolt-n+ - (syntax-rules () - ((_) 0) - ((_ a) (jolt-add a)) - ((_ ea eb) (let ((a ea) (b eb)) - (if (and (number? a) (number? b)) (+ a b) (jolt-add a b)))) - ((_ a b c ...) (jolt-n+ (jolt-n+ a b) c ...)))) -(define-syntax jolt-n- - (syntax-rules () - ((_) (jolt-sub)) - ((_ a) (jolt-sub a)) - ((_ ea eb) (let ((a ea) (b eb)) - (if (and (number? a) (number? b)) (- a b) (jolt-sub a b)))) - ((_ a b c ...) (jolt-n- (jolt-n- a b) c ...)))) -(define-syntax jolt-n* - (syntax-rules () - ((_) 1) - ((_ a) (jolt-mul a)) - ((_ ea eb) (let ((a ea) (b eb)) - (if (and (number? a) (number? b)) - (if (or (flonum? a) (flonum? b)) - (fl* (real->flonum a) (real->flonum b)) - (* a b)) - (jolt-mul a b)))) - ((_ a b c ...) (jolt-n* (jolt-n* a b) c ...)))) -(define-syntax jolt-n-div - (syntax-rules () - ((_) (jolt-div)) - ((_ a) (jolt-div a)) - ((_ a b) (jolt-div2 a b)) - ((_ a b c ...) (jolt-n-div (jolt-div2 a b) c ...)))) -(define-syntax define-n-cmp - (syntax-rules () - ((_ name op op2) - (define-syntax name - (syntax-rules () - ((_) (op2)) - ((_ a) (begin a #t)) - ((_ ea eb) (let ((a ea) (b eb)) - (if (and (number? a) (number? b)) (op a b) (op2 a b)))) - ((_ ea eb c (... ...)) (let ((a ea) (b eb)) - (and (name a b) (name b c (... ...)))))))))) -(define-n-cmp jolt-n< < jolt-lt2) -(define-n-cmp jolt-n> > jolt-gt2) -(define-n-cmp jolt-n<= <= jolt-le2) -(define-n-cmp jolt-n>= >= jolt-ge2) -(define-syntax jolt-n-min - (syntax-rules () - ((_) (jolt-min)) - ((_ a) (jolt-min a)) - ((_ a b) (jolt-min2 a b)) - ((_ a b c ...) (jolt-n-min (jolt-min2 a b) c ...)))) -(define-syntax jolt-n-max - (syntax-rules () - ((_) (jolt-max)) - ((_ a) (jolt-max a)) - ((_ a b) (jolt-max2 a b)) - ((_ a b c ...) (jolt-n-max (jolt-max2 a b) c ...)))) +;; Scheme's +/-/*// already implement the JVM-parity numeric tower: exact+exact -> +;; exact, exact/exact -> Ratio, any flonum -> flonum. Identities (+)=0 / (*)=1 are +;; exact, matching exact integer arithmetic. The hot path uses the inlined native +;; ops, not these. +(define (jolt-add . xs) (apply + xs)) +(define (jolt-sub . xs) (apply - xs)) +(define (jolt-mul . xs) (apply * xs)) +(define (jolt-div . xs) (apply / xs)) +(define (jolt-min . xs) (apply min xs)) +(define (jolt-max . xs) (apply max xs)) ;; --- unchecked (Java long) arithmetic: wrap to signed 64 bits ---------------- ;; Clojure's unchecked-* (and +/-/* under *unchecked-math*) are long ops that @@ -445,26 +226,11 @@ ;; can't statically resolve to a procedure (a keyword/coll/proc held in a local) ;; routes here. Off the arithmetic/self-recursion hot path by construction. ;; ============================================================================ -;; (pred . handler) arms making a host type invocable; handler gets (f args). -(define jolt-invoke-arms '()) -(define (register-invoke-arm! pred handler) - (set! jolt-invoke-arms (cons (cons pred handler) jolt-invoke-arms))) -(define (jolt-invoke-arm-for f) - (let loop ((as jolt-invoke-arms)) - (cond ((null? as) #f) - (((caar as) f) (cdar as)) - (else (loop (cdr as)))))) - (define (jolt-invoke f . args) (cond ((procedure? f) (apply f args)) ((keyword? f) (apply jolt-get (car args) f (cdr args))) ; (:k m [d]) -> (get m :k [d]) ((jolt-symbol? f) (apply jolt-get (car args) f (cdr args))) ; ('s m [d]) -> (get m 's [d]) - ;; a VECTOR invokes as nth (a bad index throws, like IPersistentVector.invoke); - ;; maps and sets invoke as get. - ((pvec? f) (if (and (pair? args) (null? (cdr args))) - (jolt-nth f (car args)) - (apply jolt-get f args))) ((jolt-coll? f) (apply jolt-get f args)) ; (coll k [d]) -> (get coll k [d]) ((jolt-transient? f) (apply jolt-get f args)) ; a transient vec/map/set is callable on the JVM ;; a record/reify implementing clojure.lang.IFn is callable: dispatch to its @@ -473,73 +239,12 @@ => (lambda (m) (apply jolt-invoke m f args))) ((and (reified-methods f) (hashtable-ref (reified-methods f) "invoke" #f)) => (lambda (m) (apply jolt-invoke m f args))) - ;; host types registered as callable (promise delivers, …): consulted only - ;; after every built-in case missed, so the hot dispatch pays nothing. - ((jolt-invoke-arm-for f) => (lambda (h) (h f args))) - ;; calling a non-fn: a ClassCastException naming the operator's CLASS (like - ;; the JVM's "class clojure.lang.LazySeq cannot be cast to ... IFn" — never - ;; the value, whose printed form may be unbounded: ((range)) must throw, not - ;; hang rendering an infinite seq). Thrown via jolt-throw so it is catchable - ;; and carries the throw-site continuation for a stack trace. + ;; calling a non-fn: a ClassCastException naming the operator, thrown via + ;; jolt-throw so it is catchable and carries the throw-site continuation for a + ;; stack trace. (else (jolt-throw (jolt-host-throwable "java.lang.ClassCastException" - (string-append - "class " - (guard (e (#t "value")) - (let ((c (jolt-class-name f))) - (if (string? c) c (jolt-pr-str f)))) - " cannot be cast to class clojure.lang.IFn")))))) - -;; ============================================================================ -;; chunked-seq accessors — the host side of the Clojure IChunkedSeq contract -;; (chunk-first ++ chunk-rest == the seq). Two chunked shapes share the cseq -;; record: a vector-backed seq (cvec = whole pvec, ci = absolute index, crest #f, -;; rest = next 32-block of cvec) and a ChunkedCons (cvec = standalone chunk pvec, -;; crest = the after-chunk seq). natives-array.ss binds these into clojure.core and -;; the chunk-buffer/chunk/chunk-cons builder API on top of them. -;; ============================================================================ -(define seq-chunk-size 32) -;; (chunk-pvec . end-index) for a chunked cell, else #f. A ChunkedCons block is the -;; whole remaining chunk (crest carries what comes after); a vector seq block is the -;; next <=32 elements within cvec. -(define (na-vblock s) - (and (cseq? s) (cseq-cvec s) - (let ((v (cseq-cvec s)) (i (cseq-ci s))) - (cons v (if (cseq-crest s) (pvec-count v) (fxmin (fx+ i seq-chunk-size) (pvec-count v))))))) -(define (na-chunked-seq? x) (and (na-vblock x) #t)) -;; Copy the block [i, end) straight out of the pvec trie's 32-element leaf node -;; (pv-chunk-for is O(log n)). seq-chunk-size == pv-width and vector-seq blocks are -;; 32-aligned, so a block is exactly one leaf; the rare non-aligned window crossing -;; a leaf boundary falls back to per-index reads. Flattening the whole backing -;; vector per block (pvec-v) made chunk-first O(n), so walking chunk-by-chunk was -;; O(n^2). A ChunkedCons chunk is a small tail-only pvec, so the leaf IS the chunk. -(define (na-chunk-first s) - (let ((vb (na-vblock s))) - (if vb - (let* ((pv (car vb)) (i (cseq-ci s)) (end (cdr vb)) (len (fx- end i)) - (node (pv-chunk-for pv i)) (off (fxand i pv-mask))) - (if (fx<=? (fx+ off len) (vector-length node)) - (make-pvec (vec-copy-range node off (fx+ off len))) - (let ((out (make-vector len))) - (let loop ((j 0)) - (if (fx (lambda (vb) - (if (fx>=? (cdr vb) (pvec-count (car vb))) jolt-empty-list (vec->seq (car vb) (cdr vb))))) - (else (jolt-rest s)))) -(define (na-chunk-next s) - (cond - ((and (cseq? s) (cseq-crest s)) (jolt-seq (cseq-crest s))) - ((na-vblock s) => (lambda (vb) - (if (fx>=? (cdr vb) (pvec-count (car vb))) jolt-nil (vec->seq (car vb) (cdr vb))))) - (else (jolt-next s)))) + (string-append (guard (e (#t "value")) (jolt-pr-str f)) + " cannot be cast to clojure.lang.IFn")))))) ;; ============================================================================ ;; map / filter / reduce / into / remove + range / take / concat / apply @@ -549,22 +254,9 @@ ;; an empty seq, so (= () (map f [])) is true and (nil? (map f [])) is false. ;; jolt-empty-list seqs back to nil, so it stays a valid lazy-tail terminator for ;; the non-empty case (printing / seq= / reduce all walk via jolt-seq). -;; Single-coll map (core.clj's [f coll] arity). Chunk-preserving: when the source -;; seq is chunked, realize the WHOLE first chunk — apply f to every element eagerly -;; into a fresh chunk — and chunk-cons it onto a lazy map of chunk-rest, so the -;; result is itself a chunked-seq. A non-chunked source maps one element at a time. (define (map-seq f s) - (cond - ((jolt-nil? s) jolt-empty-list) - ((na-chunked-seq? s) - (let* ((c (na-chunk-first s)) (n (pvec-count c)) (out (make-vector n))) - (let loop ((i 0)) - (if (fxvector kept)) 0 - (jolt-make-lazy-seq - (lambda () (jolt-seq (filter-seq pred (jolt-seq (na-chunk-rest s)) keep))))))))))) - (else - (let walk ((s s)) - (cond ((jolt-nil? s) jolt-empty-list) - ((eq? keep (jolt-truthy? (jolt-invoke pred (seq-first s)))) - (cseq-lazy (seq-first s) (lambda () (filter-seq pred (jolt-seq (seq-more s)) keep)))) - (else (walk (jolt-seq (seq-more s))))))))) + (let loop ((s s)) + (cond ((jolt-nil? s) jolt-empty-list) ; empty result is () (see map-seq) + ((eq? keep (jolt-truthy? (jolt-invoke pred (seq-first s)))) + (cseq-lazy (seq-first s) (lambda () (filter-seq pred (jolt-seq (seq-more s)) keep)))) + (else (loop (jolt-seq (seq-more s))))))) ;; filter/remove are fully lazy (LazySeq): defer the predicate and the source seq ;; until forced, like Clojure. (lazy-seq* = a 0-arg lazy node coercing to cseq|nil.) (define (jolt-filter pred coll) @@ -618,27 +290,18 @@ ;; by the last step is unwrapped on the next turn before the seq is consulted. ;; reduce a vector's backing store directly by index from element i — no per- ;; element seq cells. Honors `reduced`. The chunked-seq fast path. -;; Reduce a chunk pvec from index i. Returns the accumulator RAW — a `reduced` box -;; is returned unwrapped-by reduce-seq, not here — so a ChunkedCons continuation can -;; see early termination instead of folding it back into the running value. (define (vec-reduce f acc v i) (let ((n (pvec-count v)) (raw (pvec-v v))) (let loop ((i i) (acc acc)) - (cond ((jolt-reduced? acc) acc) + (cond ((jolt-reduced? acc) (jolt-reduced-val acc)) ((fx>=? i n) acc) (else (loop (fx+ i 1) (jolt-invoke f acc (vector-ref raw i)))))))) (define (reduce-seq f acc s) (cond ((jolt-reduced? acc) (jolt-reduced-val acc)) ((jolt-nil? s) acc) - ;; a chunked seq reduces its chunk pvec directly, in a tight loop. A vector seq - ;; (crest #f) reduces the whole backing vector and is then done; a ChunkedCons - ;; reduces this chunk and continues into its after-chunk rest. - ((and (cseq? s) (cseq-cvec s)) - (let ((acc2 (vec-reduce f acc (cseq-cvec s) (cseq-ci s)))) - (cond ((jolt-reduced? acc2) (jolt-reduced-val acc2)) - ((cseq-crest s) (reduce-seq f acc2 (jolt-seq (cseq-crest s)))) - (else acc2)))) + ;; a vector-backed (chunked) seq reduces its vector directly, in a tight loop. + ((and (cseq? s) (cseq-cvec s)) (vec-reduce f acc (cseq-cvec s) (cseq-ci s))) (else (reduce-seq f (jolt-invoke f acc (seq-first s)) (jolt-seq (seq-more s)))))) (define jolt-reduce (case-lambda @@ -646,11 +309,11 @@ (if (jolt-nil? s) (jolt-invoke f) ; (reduce f []) -> (f) (reduce-seq f (seq-first s) (jolt-seq (seq-more s)))))) ((f init coll) - ;; IReduceInit: a deftype/record OR reify with its own `reduce` method drives - ;; the reduction, e.g. (reduce f init (reify clojure.lang.IReduceInit - ;; (reduce [_ f i] ...))) or the same on a deftype. + ;; IReduceInit: a reify/record with its own `reduce` method drives the + ;; reduction (reduce f init (reify clojure.lang.IReduceInit (reduce [_ f i] ...))). (cond - ((iface-method coll "reduce" 3) + ((and (jreify? coll) (reified-methods coll) + (hashtable-ref (reified-methods coll) "reduce" #f)) => (lambda (m) (let ((r (jolt-invoke m coll f init))) (if (jolt-reduced? r) (jolt-reduced-val r) r)))) (else (reduce-seq f init (jolt-seq coll))))))) @@ -661,41 +324,25 @@ ;; falls back to a copy-on-write wrapper for other targets (lists, sorted colls, ;; nil), so those keep the old per-step jolt-conj behaviour. (define (jolt-into to from) - ;; only an editable collection rides the transient path; anything else - ;; (PersistentQueue, sorted colls, seqs) folds through conj, like RT's - ;; instanceof IEditableCollection split. - (if (or (pvec? to) (pmap? to) (pset? to)) - (meta-carry to - (jolt-persistent! (reduce-seq (lambda (t x) (jolt-conj! t x)) (jolt-transient-new to) (jolt-seq from)))) - (meta-carry to - (reduce-seq (lambda (acc x) (jolt-conj1 acc x)) to (jolt-seq from))))) + (meta-carry to + (jolt-persistent! (reduce-seq (lambda (t x) (jolt-conj! t x)) (jolt-transient-new to) (jolt-seq from))))) (define (range-from n) (cseq-lazy n (lambda () (range-from (+ n 1))))) -;; A bounded range is a real chunked-seq, like clojure.lang.LongRange: eager, with -;; chunk-first handing out a block of up to 32 consecutive values. Each block is -;; materialized into a pvec and chunk-cons'd onto a lazy continuation, so a chunked -;; map/filter over a range batches by 32 (the JVM's observable realization), while a -;; huge range still produces its tail one block at a time. ;; An empty range is () (jolt-empty-list), NOT nil — (range 0) and (range 5 5) are -;; empty seqs in Clojure, so (= () (range 0)) holds, and () seqs back to nil so it -;; also terminates the chunked tail (see jolt-take). -(define (range-chunked n end step) +;; empty seqs in Clojure, so (= () (range 0)) holds. The same () terminates the +;; lazy tail of a non-empty range (jolt-empty-list seqs back to nil, see jolt-take). +(define (range-bounded n end step) (if (if (> step 0.0) (< n end) (> n end)) - (let loop ((i 0) (v n) (acc '())) - (if (and (fx step 0.0) (< v end) (> v end))) - (loop (fx+ i 1) (+ v step) (cons v acc)) - (cseq-chunked (make-pvec (list->vector (reverse acc))) 0 - (jolt-make-lazy-seq (lambda () (jolt-seq (range-chunked v end step))))))) + (cseq-lazy n (lambda () (range-bounded (+ n step) end step))) jolt-empty-list)) ;; numeric tower: exact 0/1 defaults so (range 3) yields exact ints ;; (= JVM longs); flonum args still produce flonums (Scheme arithmetic preserves). -;; (range) with no bound is the lazy, NON-chunked (iterate inc' 0) form. (define jolt-range (case-lambda (() (range-from 0)) - ((end) (range-chunked 0 end 1)) - ((start end) (range-chunked start end 1)) - ((start end step) (range-chunked start end step)))) + ((end) (range-bounded 0 end 1)) + ((start end) (range-bounded start end 1)) + ((start end step) (range-bounded start end step)))) ;; An empty take result is () (jolt-empty-list), NOT nil — (take 0 coll) and ;; (take n []) are empty seqs in Clojure, so (= () (take 0 [:a])) and printing @@ -773,14 +420,8 @@ ;; Parity over the full integer range (JVM even?/odd? accept any integer, ;; bignums included); a fixnum-only fxand crashes on a large value (e.g. a hash). (define (parity-int n) (if (flonum? n) (exact (floor n)) n)) -(define (jolt-parity-check n) - (unless (and (number? n) (exact? n) (integer? n)) - (jolt-throw (jolt-host-throwable - "java.lang.IllegalArgumentException" - (string-append "Argument must be an integer: " - (guard (e (#t "?")) (jolt-str n))))))) -(define (jolt-even? n) (jolt-parity-check n) (even? (parity-int n))) -(define (jolt-odd? n) (jolt-parity-check n) (odd? (parity-int n))) +(define (jolt-even? n) (even? (parity-int n))) +(define (jolt-odd? n) (odd? (parity-int n))) (define (jolt-pos? n) (> n 0)) (define (jolt-neg? n) (< n 0)) (define (jolt-zero? n) (= n 0)) @@ -789,18 +430,8 @@ ;; ============================================================================ ;; keys / vals — return seqs (nil on the empty map), HAMT-iteration order ;; ============================================================================ -;; keys/vals of anything empty is nil (RT.keys over a nil seq); a non-empty -;; non-map still fails (its elements are not MapEntries). -(define (jolt-keys m) - (cond ((jolt-nil? m) jolt-nil) - ((pmap? m) (list->cseq (pmap-fold m (lambda (k v a) (cons k a)) '()))) - ((jolt-nil? (jolt-seq m)) jolt-nil) - (else (list->cseq (pmap-fold m (lambda (k v a) (cons k a)) '()))))) -(define (jolt-vals m) - (cond ((jolt-nil? m) jolt-nil) - ((pmap? m) (list->cseq (pmap-fold m (lambda (k v a) (cons v a)) '()))) - ((jolt-nil? (jolt-seq m)) jolt-nil) - (else (list->cseq (pmap-fold m (lambda (k v a) (cons v a)) '()))))) +(define (jolt-keys m) (if (jolt-nil? m) jolt-nil (list->cseq (pmap-fold m (lambda (k v a) (cons k a)) '())))) +(define (jolt-vals m) (if (jolt-nil? m) jolt-nil (list->cseq (pmap-fold m (lambda (k v a) (cons v a)) '())))) ;; ============================================================================ ;; sequential equality + hash (hooks called from values.ss / collections.ss); diff --git a/host/chez/smoke.sh b/host/chez/smoke.sh index 8ed4506..6cdc299 100755 --- a/host/chez/smoke.sh +++ b/host/chez/smoke.sh @@ -30,39 +30,6 @@ check_loc() { fi } -# An uncaught error's stack trace must name the runtime-eval'd fn frames that -# survive TCO (the non-tail spine), even though the eval path registers no source -# map — "print what is available". Asserts a substring appears under " trace:". -check_trace() { - err="$(bin/joltc -e "$1" 2>&1 >/dev/null)" - if printf '%s' "$err" | grep -q ' trace:' && printf '%s' "$err" | grep -q "$2"; then - pass=$((pass + 1)) - else - echo " FAIL (trace): $1" - echo " want stderr trace to contain \`$2\`, got \`$err\`" - fails=$((fails + 1)) - fi -} - -# JOLT_TRACE opts into the tail-frame history (the ring of rings): every $2 (an -# ERE) must match the " trace:" block. Used to assert TCO-elided frames are -# recovered and non-tail caller context survives a tail loop. -check_trace_on() { - err="$(JOLT_TRACE=1 bin/joltc -e "$1" 2>&1 >/dev/null)" - ok=1 - printf '%s' "$err" | grep -q ' trace:' || ok=0 - shift - for want in "$@"; do - printf '%s' "$err" | grep -Eq "$want" || ok=0 - done - if [ "$ok" = 1 ]; then - pass=$((pass + 1)) - else - echo " FAIL (trace-on): want [$*] in trace, got \`$err\`" - fails=$((fails + 1)) - fi -} - check '(+ 1 2)' '3' check '(defn fib [n] (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))) (fib 15)' '610' check '(->> (range 10) (filter even?) (map (fn [x] (* x x))) (reduce +))' '120' @@ -76,70 +43,9 @@ check '(deref (future (+ 1 2)))' '3' check '(/ 1 2)' '1/2' check '(= 3 3.0)' 'false' check '(== 3 3.0)' 'true' -# a deftype whose simple name collides with a built-in host class must not shadow -# the java class: (java.io.PushbackReader. …) still builds the java reader (has -# .read), while the bare name in the deftype's own ns is the deftype. (Fresh -e -# process per check, so the deftype doesn't leak.) -check '(do (deftype PushbackReader [x]) (.read (java.io.PushbackReader. (java.io.StringReader. "A") 1)))' '65' -check '(do (deftype PushbackReader [x]) (.-x (PushbackReader. 42)))' '42' check_loc '(throw (ex-info "boom" {}))' ' at 1:' - -# A throw that crosses the eval boundary (eval / load-string) must surface its -# ex-info :message, not Chez's "attempt to apply non-procedure" noise from -# re-wrapping a raw value raised through `eval`. -check '(try (eval (read-string "(throw (ex-info \"boom\" {}))")) (catch :default e (ex-message e)))' 'boom' -check '(try (load-string "(+") (catch :default e (ex-message e)))' 'EOF while reading' -# An uncaught throw prints the ex-info message alongside its source location. -check_loc '(throw (ex-info "boom" {}))' 'boom' check_loc '(do (+ 1 1) (/ 1 0))' ' at 1:' -# Runtime-eval'd fns aren't source-mapped, but their native frame names survive on -# the non-tail spine; the trace must show them. deepest/+ are tail calls (erased); -# middle and outer wait on a non-tail (inc …) so their frames are live at the throw. -trace_prog='(defn deepest [x] (+ x 1)) (defn middle [x] (inc (deepest x))) (defn outer [x] (inc (middle x))) (outer :nan)' -check_trace "$trace_prog" 'middle' -check_trace "$trace_prog" 'outer' - -# JOLT_TRACE (tail-frame history / ring of rings). An all-tail chain is entirely -# TCO-erased from the continuation, but the history recovers every frame — incl. -# `deepest`, the actual error site. -check_trace_on '(defn deepest [x] (+ x 1)) (defn middle [x] (deepest x)) (defn outer [x] (middle x)) (outer :nan)' \ - 'deepest' 'middle' 'outer' -# A tail loop (a<->b) under a NON-tail caller: the loop is confined to one rib's -# bounded inner ring, so the caller context (`driver`, `top`) is NOT flushed out — -# the point of the ring of rings. -check_trace_on '(declare b) (defn a [n] (if (zero? n) (+ :x 1) (b (dec n)))) (defn b [n] (a n)) (defn driver [] (inc (a 6))) (defn top [] (inc (driver))) (top)' \ - 'driver' 'top' -# A ^long/^double return hint wraps the body in a coercion, so the hinted fn's call -# is NOT a tail call — its own frame is still live and must appear (not be elided). -check_trace_on '(defn g [n] (+ :x n)) (defn ^long f [n] (g n)) (f 3)' 'f' 'g' -# History is per top-level form: a later form's error trace shows its own frames -# (h2/u2), not frames from an earlier, already-returned form (h1/u1). -check_trace_on '(defn h1 [x] (inc x)) (defn u1 [] (inc (h1 5))) (u1) (defn h2 [x] (+ :x x)) (defn u2 [] (inc (h2 5))) (u2)' \ - 'h2' 'u2' -err_stale="$(JOLT_TRACE=1 bin/joltc -e '(defn h1 [x] (inc x)) (defn u1 [] (inc (h1 5))) (u1) (defn h2 [x] (+ :x x)) (defn u2 [] (inc (h2 5))) (u2)' 2>&1 >/dev/null)" -if printf '%s' "$err_stale" | grep -q 'h1'; then - echo " FAIL (trace-on): stale frame h1 from an earlier form leaked into the trace" - fails=$((fails + 1)) -else - pass=$((pass + 1)) -fi -# A file-backed project run maps each runtime-compiled frame to ns/name (file:line) -# — the eval path registers source in trace mode, so the trace isn't bare names. -tr_proj="$(mktemp -d)" -mkdir -p "$tr_proj/src/tp" -printf '{:paths ["src"] :aliases {:run {:main-opts ["-m" "tp.core"]}}}\n' > "$tr_proj/deps.edn" -printf '(ns tp.core)\n(defn deep [x] (+ x 1))\n(defn mid [x] (inc (deep x)))\n(defn -main [& _] (mid :nan))\n' > "$tr_proj/src/tp/core.clj" -tr_out="$(JOLT_TRACE=1 JOLT_PWD="$tr_proj" bin/joltc -M:run 2>&1)" -if printf '%s' "$tr_out" | grep -Eq 'tp\.core/deep \(.*/tp/core\.clj:2\)'; then - pass=$((pass + 1)) -else - echo " FAIL: JOLT_TRACE trace should map a frame to ns/name (file:line)" - printf '%s\n' "$tr_out" | sed 's/^/ | /' - fails=$((fails + 1)) -fi -rm -rf "$tr_proj" - # --help prints usage, and lists the nREPL server under its real flag name. help_out="$(bin/joltc --help 2>/dev/null)" if printf '%s' "$help_out" | grep -q -- '--nrepl-server'; then @@ -161,103 +67,5 @@ else fails=$((fails + 1)) fi -# A data reader that returns a CODE form (deps.edn data_readers.clj -> reader fn) -# must have its result spliced in and COMPILED, like Clojure — #code [:x] becomes -# (+ 40 2) and evaluates to 42, not the literal list. A project run so the source -# root's data_readers.clj is picked up. -dr_out="$(JOLT_PWD="$root/test/chez/datareader-app" bin/joltc run -m drtest.main 2>/dev/null | tail -1)" -if [ "$dr_out" = "42" ]; then - pass=$((pass + 1)) -else - echo " FAIL: code-returning data reader (#code) not compiled — got \`$dr_out\`, want 42" - fails=$((fails + 1)) -fi - -# A required namespace's own :as aliases must not leak into the requirer: fix.main -# aliases clojure.string as ss and requires fix.lib (which aliases clojure.set as -# ss); (ss/upper-case "hi") in main must stay clojure.string -> "HI #{1 2}". -al_out="$(JOLT_PWD="$root/test/chez/alias-leak-app" bin/joltc run -m fix.main 2>/dev/null | tail -1)" -if [ "$al_out" = "HI #{1 2}" ]; then - pass=$((pass + 1)) -else - echo " FAIL: a loaded ns's alias leaked into its requirer — got \`$al_out\`, want \`HI #{1 2}\`" - fails=$((fails + 1)) -fi - -# Unit-checks the REPL read-until-complete predicate over balanced/unbalanced, -# string, comment and regex-literal inputs. A multi-form `joltc run` so jolt.main -# is loaded and its private var resolves; the file self-checks and prints a sentinel. -rr_out="$(bin/joltc run test/chez/repl-reader-test.clj 2>/dev/null)" -if printf '%s' "$rr_out" | grep -q 'REPL-READER OK'; then - pass=$((pass + 1)) -else - echo " FAIL: repl-form-complete? predicate" - echo " $(printf '%s' "$rr_out" | grep REPL-READER | tail -1)" - fails=$((fails + 1)) -fi - -# REPL must exit on :repl/quit / :exit — a reliable exit that works in any -# terminal, unlike ^D (which some terminals/editors don't deliver as EOF). -# Pipe: an evaluable form, the quit keyword, then a sentinel that must NOT run. -repl_out="$(printf '(+ 1000 23)\n:repl/quit\n(* 999 9)\n' | bin/joltc repl 2>/dev/null)" -if printf '%s' "$repl_out" | grep -q '1023' && ! printf '%s' "$repl_out" | grep -q '8991'; then - pass=$((pass + 1)) -else - echo " FAIL: repl should exit on :repl/quit before later forms" - printf '%s\n' "$repl_out" | sed 's/^/ | /' - fails=$((fails + 1)) -fi - -repl_out="$(printf '(- 2024 1)\n:exit\n(* 999 9)\n' | bin/joltc repl 2>/dev/null)" -if printf '%s' "$repl_out" | grep -q '2023' && ! printf '%s' "$repl_out" | grep -q '8991'; then - pass=$((pass + 1)) -else - echo " FAIL: repl should exit on :exit before later forms" - printf '%s\n' "$repl_out" | sed 's/^/ | /' - fails=$((fails + 1)) -fi - -# A form split across lines is accumulated and evaluated once complete, with a -# secondary continuation prompt before each continued line. -repl_out="$(printf '(+ 1\n2)\n:exit\n' | bin/joltc repl 2>/dev/null)" -if printf '%s' "$repl_out" | grep -q '3' && ! printf '%s' "$repl_out" | grep -q 'error'; then - pass=$((pass + 1)) -else - echo " FAIL: repl should accumulate multi-line forms to 3" - printf '%s\n' "$repl_out" | sed 's/^/ | /' - fails=$((fails + 1)) -fi - -# A single-line regex literal is complete on its own — the #" opens a regex whose -# body (delimiters, quotes and all) must not be miscounted as unbalanced parens. -repl_out="$(printf '(re-find #"(a)(b)" "ab")\n:exit\n' | bin/joltc repl 2>/dev/null)" -if printf '%s' "$repl_out" | grep -q 'ab' && ! printf '%s' "$repl_out" | grep -q 'error'; then - pass=$((pass + 1)) -else - echo " FAIL: repl should evaluate a one-line regex literal, not wait for more input" - printf '%s\n' "$repl_out" | sed 's/^/ | /' - fails=$((fails + 1)) -fi - -# REPL-driven development traces by default: an error in an evaluated form shows a -# tail-frame backtrace with no JOLT_TRACE set. rb tail-calls ra tail-calls +, all -# TCO-elided from the continuation — only the history recovers them. -repl_err="$(printf '(defn ra [x] (+ x 1))\n(defn rb [x] (ra x))\n(rb :nan)\n:exit\n' | bin/joltc repl 2>&1)" -if printf '%s' "$repl_err" | grep -q ' trace:' && printf '%s' "$repl_err" | grep -q 'rb'; then - pass=$((pass + 1)) -else - echo " FAIL: a REPL error should show a tail-frame trace by default" - printf '%s\n' "$repl_err" | sed 's/^/ | /' - fails=$((fails + 1)) -fi -# JOLT_TRACE=0 opts out — no trace in the REPL. -repl_off="$(printf '(defn ra [x] (+ x 1))\n(defn rb [x] (ra x))\n(rb :nan)\n:exit\n' | JOLT_TRACE=0 bin/joltc repl 2>&1)" -if printf '%s' "$repl_off" | grep -q ' trace:'; then - echo " FAIL: JOLT_TRACE=0 should suppress the REPL trace" - fails=$((fails + 1)) -else - pass=$((pass + 1)) -fi - echo "cli smoke: $pass passed, $fails failed" [ "$fails" -eq 0 ] diff --git a/host/chez/source-registry.ss b/host/chez/source-registry.ss index f88ce2a..6ac7a14 100644 --- a/host/chez/source-registry.ss +++ b/host/chez/source-registry.ss @@ -35,13 +35,9 @@ ;; The continuation to walk for an uncaught value: the one jolt-throw captured for ;; THIS value (identity-tagged via jolt-throw-cont, so a stale entry from an ;; earlier caught throw is never reused), else a host condition's own -;; &continuation, else #f. raw may arrive as the &jolt-throw condition wrapping -;; the value (the built-binary launcher hands jolt-report-throwable the guard's -;; raw value) or already unwrapped (the cli unwraps first); unwrap here so the -;; identity match holds either way. -(define (jolt-error-continuation raw) - (let* ((v (jolt-unwrap-throw raw)) - (tc (jolt-throw-cont))) +;; &continuation, else #f. +(define (jolt-error-continuation v) + (let ((tc (jolt-throw-cont))) (cond ((and (pair? tc) (eq? (car tc) v)) (cdr tc)) ((and (condition? v) (continuation-condition? v)) (condition-continuation v)) @@ -57,36 +53,10 @@ ((symbol? nm) (symbol->string nm)) (else #f))))))) -;; Frame names that are pure Chez / jolt-runtime plumbing — the eval boundary, -;; the var-cell trampoline, continuation/winder internals. They carry no Clojure -;; meaning, so an unmapped frame with one of these names is dropped from the trace -;; (a MAPPED frame is always kept — a jolt fn that happens to share the name still -;; resolves to its source). Any name Chez prefixes with `$` (system) or that jolt -;; prefixes with `jolt-` (host runtime) is plumbing too. -(define srcreg-plumbing-names - (let ((h (make-hashtable string-hash string=?))) - (for-each (lambda (s) (hashtable-set! h s #t)) - '("dynamic-wind" "winder-dummy" "ksrc" "invoke" "apply" - "call-with-values" "call/cc" "call-with-current-continuation" - "raise" "raise-continuable" "with-exception-handler" "guard" - "eval" "compile" "interpret" "expand" "read" "load" - ;; host dispatch/coercion helpers (not `jolt-` prefixed) that carry - ;; no Clojure meaning in a trace - "record-method-dispatch" "protocol-resolve" "devirt-resolve" - "list->cseq" "host-static-call" "host-call")) - h)) -(define (srcreg-plumbing-name? nm) - (or (hashtable-ref srcreg-plumbing-names nm #f) - (and (fx>? (string-length nm) 0) (char=? (string-ref nm 0) #\$)) - (and (fx>=? (string-length nm) 5) (string=? (substring nm 0 5) "jolt-")))) - -;; Walk a continuation, returning its frames (innermost first) as (frame-name . -;; record) pairs. record is a source vector #(ns name file line) for a frame that -;; maps to registered Clojure source, the symbol 'ambiguous for a short name shared -;; across namespaces, or #f for an unmapped-but-named frame (the common case on the -;; open-world eval path, where nothing is registered — the bare frame name is still -;; a useful trace line). Plumbing frames (host spine, eval boundary) and unnamed -;; frames are skipped; raw depth is capped. +;; Walk a continuation, returning the registered jolt frames (innermost first) as +;; (frame-name . record) pairs, where record is #(ns name file line) or the symbol +;; 'ambiguous. Unmapped frames (host spine, anonymous lambdas) are skipped; raw +;; depth is capped. (define (jolt-frame-records k) ;; read the env at call time, not load time: a built binary runs top-level forms ;; at heap-build time, where this would always be unset. @@ -96,107 +66,61 @@ (if (or (not io) (fx>=? n 400)) (reverse acc) (let* ((nm (srcreg-frame-name io)) - (src (and nm (hashtable-ref source-registry nm #f))) - ;; keep a frame that maps, or any named frame that isn't plumbing - (keep? (and nm (or src (not (srcreg-plumbing-name? nm)))))) + (src (and nm (hashtable-ref source-registry nm #f)))) (when (and debug? nm) - (display (string-append " [frame] " nm (if src " *MAPPED*" - (if keep? "" " (skipped)")) "\n") + (display (string-append " [frame] " nm (if src " *MAPPED*" "") "\n") (current-error-port))) (loop (guard (e (#t #f)) (io 'link)) (fx+ n 1) - (if keep? (cons (cons nm src) acc) acc)))))))) - -;; Render a list of (frame-name . record) pairs (innermost/deepest first) to a -;; backtrace string. record is a source vector #(ns name file line) -> "ns/name -;; (file:line)", or 'ambiguous / #f -> the bare frame name. A run of the same -;; frame-name collapses to one "name (xN)" line (deep recursion, or a hot fn a -;; loop re-enters), and the number of distinct lines is capped. -(define (jolt-render-recs recs) - (let ((port (open-output-string))) - (let loop ((rs recs) (shown 0)) - (if (or (null? rs) (fx>=? shown 30)) - (get-output-string port) - (let* ((p (car rs)) (frame-name (car p)) (r (cdr p))) - ;; count a maximal run of the same frame-name - (let run ((tail (cdr rs)) (cnt 1)) - (if (and (pair? tail) (string=? (car (car tail)) frame-name)) - (run (cdr tail) (fx+ cnt 1)) - (begin - (put-string port " ") - (if (vector? r) - (let ((ns (vector-ref r 0)) (nm (vector-ref r 1)) - (file (vector-ref r 2)) (line (vector-ref r 3))) - (put-string port ns) (put-string port "/") (put-string port nm) - (when (string? file) - (put-string port " (") (put-string port file) - (put-string port ":") (put-string port (number->string line)) - (put-string port ")"))) - (put-string port frame-name)) ; 'ambiguous / unmapped: bare name - (when (fx>? cnt 1) - (put-string port " (x") (put-string port (number->string cnt)) (put-string port ")")) - (put-char port #\newline) - (loop tail (fx+ shown 1)))))))))) - -;; Multi-line backtrace for an uncaught value. Two sources, in preference order: -;; 1. The tail-frame history ring (rt.ss), when JOLT_TRACE enabled it — an -;; execution history of the runtime-compiled fns entered before the throw, -;; INCLUDING ones TCO erased from the live continuation. Most-recent first. -;; 2. Otherwise the live continuation (jolt-frame-records) — the accurate but -;; TCO-truncated non-tail spine. -;; Each frame maps to "ns/name (file:line)" when registered, else its bare name. -;; #f when neither source yields a frame (the caller then prints just the location). -;; The tail-frame history ring rendered as a backtrace, or #f when tracing is off / -;; empty. A mapped frame is kept; else drop plumbing (same rule as the continuation -;; path) so the two sources read consistently. -(define (jolt-history-backtrace) - (let* ((hist (jolt-trace-snapshot)) - (recs (let loop ((ns hist) (acc '())) - (if (null? ns) - (reverse acc) - (let* ((nm (car ns)) (src (hashtable-ref source-registry nm #f))) - (loop (cdr ns) - (if (or src (not (srcreg-plumbing-name? nm))) - (cons (cons nm src) acc) acc))))))) - (and (pair? recs) (jolt-render-recs recs)))) + (if src (cons (cons nm src) acc) acc)))))))) +;; Multi-line backtrace for an uncaught value — " ns/name (file:line)" for a +;; mapped frame, the bare frame name for an ambiguous one — or #f when no jolt +;; frame maps (the caller then prints just the top-level location). Capped to the +;; innermost frames. (define (jolt-backtrace-string v) - (or (jolt-history-backtrace) - (let ((k (jolt-error-continuation v))) - (and k - (let ((recs (jolt-frame-records k))) - (and (pair? recs) (jolt-render-recs recs))))))) - -;; Exposed for the REPL / nREPL error paths, which catch errors themselves instead -;; of going through the uncaught reporter. Returns the " trace:\n" block -;; from the tail-frame HISTORY only — the live continuation in a REPL is just the -;; REPL's own machinery — or nil when tracing is off (so a caller can when-let). -(def-var! "jolt.host" "backtrace-string" - (lambda () - (let ((bt (jolt-history-backtrace))) - (if bt (string-append " trace:\n" bt) jolt-nil)))) + (let ((k (jolt-error-continuation v))) + (and k + (let ((recs (jolt-frame-records k))) + (and (pair? recs) + (let ((port (open-output-string))) + (let loop ((rs recs) (shown 0)) + (when (and (pair? rs) (fxstring line)) + (put-string port ")"))) + (put-string port frame-name)) ; 'ambiguous: bare name + (put-char port #\newline)) + (loop (cdr rs) (fx+ shown 1)))) + (get-output-string port))))))) ;; Render an uncaught jolt throw (any value, not just a Chez condition) to a port: ;; an ex-info shows its message + ex-data (+ a host cause); anything else is ;; pr-str'd. Shared by the cli (cli.ss) and a built binary's launcher (build.ss). -(define (jolt-render-throwable raw port) - (let ((v (jolt-unwrap-throw raw))) - (if (jolt=2 (jolt-get v jolt-kw-ex-type jolt-nil) jolt-kw-ex-info) - (begin - (display "Unhandled exception: " port) - (display (jolt-str-render-one (jolt-get v jolt-kw-message jolt-nil)) port) - (newline port) - (let ((data (jolt-get v jolt-kw-data jolt-nil))) - (unless (jolt-nil? data) - (display " ex-data: " port) (display (jolt-pr-str data) port) (newline port))) - (let ((cause (jolt-get v jolt-kw-cause jolt-nil))) - (when (condition? cause) - (display " cause: " port) - (display (with-output-to-string (lambda () (display-condition cause))) port) - (newline port)))) - (begin - (display "Unhandled exception: " port) - (display (if (condition? v) (with-output-to-string (lambda () (display-condition v))) (jolt-pr-str v)) port) - (newline port))))) +(define (jolt-render-throwable v port) + (if (jolt=2 (jolt-get v jolt-kw-ex-type jolt-nil) jolt-kw-ex-info) + (begin + (display "Unhandled exception: " port) + (display (jolt-str-render-one (jolt-get v jolt-kw-message jolt-nil)) port) + (newline port) + (let ((data (jolt-get v jolt-kw-data jolt-nil))) + (unless (jolt-nil? data) + (display " ex-data: " port) (display (jolt-pr-str data) port) (newline port))) + (let ((cause (jolt-get v jolt-kw-cause jolt-nil))) + (when (condition? cause) + (display " cause: " port) + (display (with-output-to-string (lambda () (display-condition cause))) port) + (newline port)))) + (begin + (display "Unhandled exception: " port) + (display (if (condition? v) (with-output-to-string (lambda () (display-condition v))) (jolt-pr-str v)) port) + (newline port)))) ;; Render the throwable, then its Clojure backtrace when one maps. The caller adds ;; any top-level source location (the runtime cli does; a built binary has none). diff --git a/host/chez/static-native-smoke.sh b/host/chez/static-native-smoke.sh deleted file mode 100644 index c8aa019..0000000 --- a/host/chez/static-native-smoke.sh +++ /dev/null @@ -1,115 +0,0 @@ -#!/bin/sh -# static-native smoke: a project's :jolt/native lib with a :static archive is -# LINKED INTO the built binary (the default), so the binary calls the C function -# with no shared object on disk at runtime. --dynamic keeps the old behavior — -# load a shared object at runtime. -root="$(CDPATH= cd -- "$(dirname -- "$0")/../.." && pwd)" -cd "$root" - -# Preflight: needs cc (to build the test libs AND to cc-link the app) + Chez's -# kernel dev files, same as build-smoke. Skip otherwise (CI on a distro package). -csv="$JOLT_CHEZ_CSV" -if [ -z "$csv" ]; then - chez_bin="$(command -v chez || command -v scheme || command -v petite || true)" - if [ -n "$chez_bin" ]; then - base="$(cd "$(dirname "$chez_bin")/.." 2>/dev/null && pwd)" - for d in "$base"/lib/csv*/*/; do - [ -f "${d}libkernel.a" ] && csv="${d%/}" && break - done - fi -fi -if ! command -v cc >/dev/null 2>&1 || [ -z "$csv" ] || [ ! -f "$csv/scheme.h" ] || [ ! -f "$csv/libkernel.a" ]; then - echo "static-native smoke: skipped (Chez kernel dev files or C compiler not available)" - exit 0 -fi -export JOLT_CHEZ_CSV="$csv" - -case "$(uname -s)" in - Darwin) plat=":darwin"; soext="dylib"; shared="-dynamiclib" ;; - *) plat=":linux"; soext="so"; shared="-shared" ;; -esac - -work="$(mktemp -d)" -trap 'rm -rf "$work"' EXIT -app="$work/app" -mkdir -p "$app/src/app" - -# 1. a trivial C library, built BOTH as a static archive and a shared object. -cat > "$work/greet.c" <<'EOF' -int jolt_static_answer(void) { return 42; } -EOF -cc -c "$work/greet.c" -o "$work/greet.o" -ar rcs "$work/libgreet.a" "$work/greet.o" -cc $shared "$work/greet.c" -o "$work/libgreet.$soext" - -# 2. an app that binds that symbol via FFI. -cat > "$app/src/app/core.clj" <<'EOF' -(ns app.core - (:require [jolt.ffi :as ffi])) -(ffi/defcfn answer "jolt_static_answer" [] :int) -(defn -main [& _] - (println "answer:" (answer))) -EOF - -out="$work/app-bin" - -# --- default: static link --------------------------------------------------- -# A static-only spec (no runtime candidate): the build resolves the symbol by -# preloading the archive, and the binary links it in — nothing to load at runtime. -cat > "$app/deps.edn" <"$work/build.log" 2>&1; then - echo " FAIL: jolt build (static) exited non-zero"; cat "$work/build.log"; exit 1 -fi -[ -x "$out" ] || { echo " FAIL: no executable produced"; exit 1; } -# A static lib emits a process-symbol load (its archive is in-process), not a -# dlopen of the shared object. -if ! grep -q "jolt-build-load-native '() #f #t" "$out.build/flat.ss"; then - echo " FAIL: static native did not emit a process-symbol load"; exit 1 -fi -if grep -q "libgreet.$soext" "$out.build/flat.ss"; then - echo " FAIL: static native baked a runtime shared-object load"; exit 1 -fi -# Remove BOTH libs: a static-linked symbol lives in the binary, nothing to load. -rm -f "$work/libgreet.a" "$work/libgreet.$soext" "$work/greet.o" -got="$(cd / && "$out" 2>&1)" -if [ "$got" != "answer: 42" ]; then - echo " FAIL: static-linked binary output mismatch" - echo "--- want ---"; echo "answer: 42"; echo "--- got ----"; echo "$got"; exit 1 -fi - -# --- --dynamic: runtime load ------------------------------------------------ -# Rebuild the shared object (static phase deleted it) and give the spec a runtime -# candidate; --dynamic loads it at startup instead of linking the archive. -cc $shared "$work/greet.c" -o "$work/libgreet.$soext" -cat > "$app/deps.edn" <"$work/build.log" 2>&1; then - echo " FAIL: jolt build --dynamic exited non-zero"; cat "$work/build.log"; exit 1 -fi -# --dynamic loads the shared object at runtime. -if ! grep -q "libgreet.$soext" "$out.build/flat.ss"; then - echo " FAIL: --dynamic did not emit a runtime shared-object load"; exit 1 -fi -got="$(cd / && "$out" 2>&1)" -if [ "$got" != "answer: 42" ]; then - echo " FAIL: --dynamic binary output mismatch (shared object present)" - echo "--- got ----"; echo "$got"; exit 1 -fi -# With the shared object gone, a --dynamic binary must FAIL — proving the symbol -# was loaded at runtime, not baked in. -rm -f "$work/libgreet.$soext" -rc=0; { (cd / && exec "$out"); } >/dev/null 2>&1 || rc=$? -if [ "$rc" -eq 0 ]; then - echo " FAIL: --dynamic binary still ran with its shared object removed"; exit 1 -fi - -echo "static-native smoke: passed (static default + --dynamic runtime load)" diff --git a/host/chez/stub/launcher.c b/host/chez/stub/launcher.c deleted file mode 100644 index 29a270e..0000000 --- a/host/chez/stub/launcher.c +++ /dev/null @@ -1,109 +0,0 @@ -/* launcher.c — the native stub for self-contained jolt binaries (jolt-eaj). - * - * A toolchain-free `jolt build` (and joltc itself) produces an executable by - * appending a Chez boot image to a copy of this prebuilt stub, framed as: - * - * [stub bytes][boot bytes][boot-length : little-endian u64]["JOLTBOOT"] - * - * (see host/chez/java/io.ss jolt-append-payload!). At startup the stub locates - * its own executable, reads the trailing 16-byte frame to find the boot, and - * hands the boot to the Chez kernel — no external boot file, no Chez install. - * - * Built once at joltc-build time against the Chez kernel (libkernel.a + scheme.h) - * by host/chez/build-joltc.ss; the resulting binary is embedded into joltc and - * copied per app build. Inherently per-platform (the boot targets the host - * machine-type), like a native compiler. - */ -#include "scheme.h" -#include -#include -#include -#include - -#if defined(__APPLE__) -#include -static int self_path(char *buf, uint32_t size) { - /* _NSGetExecutablePath fills buf and reports the needed size on overflow. */ - return _NSGetExecutablePath(buf, &size); -} -#elif defined(_WIN32) -#include -static int self_path(char *buf, uint32_t size) { - DWORD n = GetModuleFileNameA(NULL, buf, size); - return (n == 0 || n >= size) ? -1 : 0; -} -#else -#include -static int self_path(char *buf, uint32_t size) { - ssize_t n = readlink("/proc/self/exe", buf, (size_t)size - 1); - if (n < 0) return -1; - buf[n] = '\0'; - return 0; -} -#endif - -#define JOLT_MAGIC "JOLTBOOT" -#define JOLT_MAGIC_LEN 8 -#define JOLT_TRAILER_LEN 16 /* u64 length + 8-byte magic */ - -int main(int argc, char *argv[]) { - char path[4096]; - if (self_path(path, (uint32_t)sizeof(path)) != 0) { - fprintf(stderr, "jolt: cannot resolve own executable path\n"); - return 1; - } - - FILE *f = fopen(path, "rb"); - if (!f) { fprintf(stderr, "jolt: cannot open self for reading\n"); return 1; } - - if (fseek(f, 0, SEEK_END) != 0) { fclose(f); return 1; } - long fsize = ftell(f); - if (fsize < JOLT_TRAILER_LEN) { - fprintf(stderr, "jolt: no boot payload (run was not produced by jolt build)\n"); - fclose(f); - return 1; - } - - unsigned char trailer[JOLT_TRAILER_LEN]; - if (fseek(f, fsize - JOLT_TRAILER_LEN, SEEK_SET) != 0 || - fread(trailer, 1, JOLT_TRAILER_LEN, f) != JOLT_TRAILER_LEN) { - fclose(f); - return 1; - } - if (memcmp(trailer + 8, JOLT_MAGIC, JOLT_MAGIC_LEN) != 0) { - fprintf(stderr, "jolt: boot payload not found\n"); - fclose(f); - return 1; - } - - uint64_t boot_len = 0; - for (int i = 0; i < 8; i++) - boot_len |= ((uint64_t)trailer[i]) << (8 * i); - - long boot_off = fsize - JOLT_TRAILER_LEN - (long)boot_len; - if (boot_off < 0) { - fprintf(stderr, "jolt: corrupt boot payload\n"); - fclose(f); - return 1; - } - - /* The kernel keeps the boot bytes for the life of the process (demand-loaded), - * so this buffer is freed only after Sscheme_deinit. */ - void *boot = malloc((size_t)boot_len); - if (!boot) { fclose(f); return 1; } - if (fseek(f, boot_off, SEEK_SET) != 0 || - fread(boot, 1, (size_t)boot_len, f) != (size_t)boot_len) { - free(boot); - fclose(f); - return 1; - } - fclose(f); - - Sscheme_init(0); - Sregister_boot_file_bytes("jolt", boot, (iptr)boot_len); - Sbuild_heap(0, 0); - int status = Sscheme_start(argc, (const char **)argv); - Sscheme_deinit(); - free(boot); - return status; -} diff --git a/host/chez/transients.ss b/host/chez/transients.ss index 73b6385..73cba7c 100644 --- a/host/chez/transients.ss +++ b/host/chez/transients.ss @@ -44,16 +44,7 @@ (let ((ht (make-hashtable key-hash jolt=2))) (pset-fold coll (lambda (e acc) (hashtable-set! ht e #t) acc) 0) (make-jolt-transient 'set ht 0 #t #f))) - ;; RFC 0003: any COLLECTION transients (the sorted/list/seq superset rides - ;; the copy-on-write fallback); a non-collection is the JVM's cast failure. - ((or (cseq? coll) (empty-list-t? coll) (jolt-lazyseq? coll) - (htable? coll) (jrec? coll)) - (make-jolt-transient 'cow coll 0 #t #f)) - (else - (jolt-throw (jolt-host-throwable - "java.lang.ClassCastException" - (string-append "class " (guard (e (#t "?")) (jolt-class-name coll)) - " cannot be cast to class clojure.lang.IEditableCollection")))))) + (else (make-jolt-transient 'cow coll 0 #t #f)))) ;; map put/delete that maintain the reverse insertion-order list in `ord`. (define (tmap-put! t k v) @@ -86,11 +77,7 @@ (if (fx? cnt cap) ;; promoted past the array capacity: hash order (let ((m empty-pmap-hash)) diff --git a/host/chez/values.ss b/host/chez/values.ss index e0640f2..02a694a 100644 --- a/host/chez/values.ss +++ b/host/chez/values.ss @@ -96,16 +96,10 @@ ((and (jolt-coll? a) (jolt-coll? b)) (jolt-coll=? a b)) (else (eq? a b)))) (define (jolt=2 a b) - ;; identity fast path, like Util.equiv's k1 == k2: the same object equals - ;; itself without a structural walk — (= s s) on an infinite lazy seq must not - ;; realize it. Numbers keep the exactness-aware arm (Chez may intern flonum - ;; literals, and (= ##NaN ##NaN) is false like the JVM's). - (if (and (eq? a b) (not (number? a))) - #t - (let loop ((as jolt-eq-arms)) - (cond ((null? as) (jolt=2-base a b)) - (((caar as) a b) ((cdar as) a b)) - (else (loop (cdr as))))))) + (let loop ((as jolt-eq-arms)) + (cond ((null? as) (jolt=2-base a b)) + (((caar as) a b) ((cdar as) a b)) + (else (loop (cdr as)))))) (define (jolt= a . rest) (let loop ((a a) (rest rest)) (cond ((null? rest) #t) diff --git a/install b/install deleted file mode 100755 index 45ab20d..0000000 --- a/install +++ /dev/null @@ -1,161 +0,0 @@ -#!/usr/bin/env bash - -# Installs the latest (or a specific) version of joltc, the self-contained jolt -# binary. It bundles the runtime, compiler, jolt-core + stdlib, and the Chez -# boots, so there is nothing else to install — no Chez, no cc, no JVM. - -set -euo pipefail - -version="" -checksum="" -default_install_dir="/usr/local/bin" -install_dir="$default_install_dir" -download_dir="" - -repo="jolt-lang/jolt" - -print_help() { - echo "Installs the latest (or a specific) version of joltc." - echo "Installation directory defaults to ${default_install_dir}." - echo - echo "Usage:" - echo " install [--dir ] [--download-dir ] [--version ] [--checksum ]" - echo - echo "Defaults:" - echo " * Installation directory: ${default_install_dir}" - echo " * Download directory: a temporary directory" - echo " * Version: the latest release on GitHub" - echo " * Checksum: fetched from the release and verified automatically" - exit 1 -} - -has() { - command -v "$1" >/dev/null 2>&1 -} - -fetch() { - local url=$1 - local outfile=${2:-} - if has curl; then - if [[ -n $outfile ]]; then curl -fsSL "$url" -o "$outfile"; else curl -fsSL "$url"; fi - elif has wget; then - if [[ -n $outfile ]]; then wget -qO "$outfile" "$url"; else wget -qO - "$url"; fi - else - >&2 echo "Either 'curl' or 'wget' needs to be on PATH." - exit 1 - fi -} - -while [[ $# -gt 0 ]]; do - case "$1" in - --dir) install_dir="$2"; shift 2 ;; - --download-dir) download_dir="$2"; shift 2 ;; - --version) version="$2"; shift 2 ;; - --checksum) checksum="$2"; shift 2 ;; - --help|-h) print_help ;; - *) print_help ;; - esac -done - -if [[ -z "$download_dir" ]]; then - download_dir="$(mktemp -d)" - trap 'rm -rf "$download_dir"' EXIT -fi - -# --- resolve platform / arch to a release target ----------------------------- -case "$(uname -s)" in - Linux*) platform=linux ;; - Darwin*) platform=macos ;; - *) >&2 echo "Unsupported OS: $(uname -s). Prebuilt binaries exist for Linux and macOS."; exit 1 ;; -esac - -case "$(uname -m)" in - x86_64|amd64) arch=x86_64 ;; - aarch64|arm64) arch=aarch64 ;; - *) >&2 echo "Unsupported architecture: $(uname -m)."; exit 1 ;; -esac - -target="${arch}-${platform}" -case "$target" in - x86_64-linux|aarch64-macos) ;; - x86_64-macos) - >&2 echo "No prebuilt joltc for Intel macOS (GitHub retired the Intel runner)." - >&2 echo "Build from source: https://github.com/${repo} (needs Chez Scheme + cc)." - exit 1 ;; - *) >&2 echo "No prebuilt joltc for ${target}." - >&2 echo "Available: x86_64-linux, aarch64-macos." - >&2 echo "Build from source: https://github.com/${repo} (make joltc-release)." - exit 1 ;; -esac - -# --- resolve version --------------------------------------------------------- -if [[ -z "$version" ]]; then - version="$(fetch "https://api.github.com/repos/${repo}/releases/latest" \ - | grep -m1 '"tag_name"' | sed -E 's/.*"tag_name": *"([^"]+)".*/\1/')" - if [[ -z "$version" ]]; then - >&2 echo "Could not determine the latest release. Pass --version explicitly." - exit 1 - fi -fi -tag="v${version#v}" # accept 0.1.0 or v0.1.0; the tag/asset carry the leading v - -filename="joltc-${tag}-${target}.tar.gz" -download_url="https://github.com/${repo}/releases/download/${tag}/${filename}" - -if has sha256sum; then - sha256sum_cmd="sha256sum" -elif has shasum; then - sha256sum_cmd="shasum -a 256" -else - sha256sum_cmd="" -fi - -mkdir -p "$download_dir" && ( - cd "$download_dir" - echo "Downloading ${download_url}" - fetch "$download_url" "$filename" - - # verify: an explicit --checksum wins; otherwise fetch the release's .sha256. - if [[ -z "$checksum" ]]; then - checksum="$(fetch "${download_url}.sha256" 2>/dev/null | cut -d' ' -f1 || true)" - fi - if [[ -n "$checksum" && -n "$sha256sum_cmd" ]]; then - got="$($sha256sum_cmd "$filename" | cut -d' ' -f1)" - if [[ "$got" != "$checksum" ]]; then - >&2 echo "Checksum mismatch on ${filename}" - >&2 echo " got: ${got}" - >&2 echo " expected: ${checksum}" - exit 1 - fi - elif [[ -z "$sha256sum_cmd" ]]; then - >&2 echo "Note: no sha256sum/shasum on PATH; skipping checksum verification." - fi - - tar -zxf "$filename" - rm -f "$filename" -) - -# the tarball unpacks to a directory holding the binary -extracted="${download_dir}/joltc-${tag}-${target}/joltc" -if [[ ! -f "$extracted" ]]; then - >&2 echo "Expected ${extracted} in the archive but it was not found." - exit 1 -fi - -mkdir -p "$install_dir" -if [[ -f "$install_dir/joltc" ]]; then - echo "Moving existing $install_dir/joltc to $install_dir/joltc.old" - mv -f "$install_dir/joltc" "$install_dir/joltc.old" -fi -mv -f "$extracted" "$install_dir/joltc" -chmod +x "$install_dir/joltc" - -# clear the macOS quarantine flag so Gatekeeper doesn't block the fresh download -if [[ "$platform" == "macos" ]] && has xattr; then - xattr -d com.apple.quarantine "$install_dir/joltc" 2>/dev/null || true -fi - -echo "Successfully installed joltc ${tag} to ${install_dir}/joltc" -if ! echo ":$PATH:" | grep -q ":${install_dir}:"; then - echo "Note: ${install_dir} is not on your PATH." -fi diff --git a/jolt-core/clojure/core/00-kernel.clj b/jolt-core/clojure/core/00-kernel.clj index 3a69a46..1e6d326 100644 --- a/jolt-core/clojure/core/00-kernel.clj +++ b/jolt-core/clojure/core/00-kernel.clj @@ -43,10 +43,3 @@ (defn mapv [f & colls] (vec (apply map f colls))) (defn update [m k f & args] (assoc m k (apply f (get m k) args))) - -;; set: realize a seqable and dedup through the set constructor; nil -> #{}. The -;; compiler uses it off the emit path (backend bare-native-names, type inference), -;; so unlike boolean it can live here — compiling this tier never calls set, and by -;; the time those callers run the tier is bound. Pure composition of hash-set/seq/ -;; apply, so it lowers to the same code the native shim did. -(defn set [coll] (if (nil? coll) #{} (apply hash-set (seq coll)))) diff --git a/jolt-core/clojure/core/00-syntax.clj b/jolt-core/clojure/core/00-syntax.clj index 9c5d79c..8f9f8a1 100644 --- a/jolt-core/clojure/core/00-syntax.clj +++ b/jolt-core/clojure/core/00-syntax.clj @@ -188,23 +188,9 @@ [false nil] (if or-map (keys or-map) []))) amp? (fn* [x] (and (symbol? x) (= "&" (name x)))) - ;; split a :keys/:syms/:strs name list at & into [sym bind?] pairs. Names - ;; before & bind normally (bind? true); names after & are declared-only - ;; (bind? false) — accepted keys (:keys) or required keys (:keys!), per - ;; CLJ-2961. - classify - (fn* [names] - (nth (reduce (fn* [st x] - (if (amp? x) - [(nth st 0) false] - [(conj (nth st 0) [x (nth st 1)]) (nth st 1)])) - [[] true] names) - 0)) proc (fn* proc [pat init acc] (cond - ;; CLJ-2954: & is reserved for destructuring rest, never a binding. - (amp? pat) (throw (new IllegalArgumentException "Can't use & as a local binding")) (symbol? pat) (conj (conj acc pat) init) (vector? pat) (let* [g (symbol (str (gensym))) @@ -245,45 +231,30 @@ ;; group binds a :keys/:strs/:syms list. dnsp is the destructuring ;; namespace from a qualified key like :ns/keys — it both prefixes ;; the lookup key and overrides a bare symbol's namespace. - ;; group binds a :keys/:strs/:syms list. checked? marks the - ;; :keys!/:strs!/:syms! variants (CLJ-2961): lookups use req! - ;; (throw on missing) instead of get. A pair is [sym bind?]; - ;; bind? false (names after &) is declared-only — for checked - ;; groups it still runs req! (bound to a throwaway gensym) to - ;; enforce the key, for unchecked groups it's a no-op. group - (fn* group [a names kind dnsp checked?] + (fn* group [a names kind dnsp] (if names (reduce ;; s is a symbol (a b) or a keyword (:a :b); name/ ;; namespace handle both, so :keys [:major] binds ;; `major` looking up :major (str would keep the colon). - (fn* [aa pair] - (let* [s (nth pair 0) - bind? (nth pair 1) - local (name s) + (fn* [aa s] + (let* [local (name s) nsp (or (namespace s) dnsp) keyform (cond (= kind :kw) (keyword (if nsp (str nsp "/" local) local)) (= kind :str) local :else `(quote ~(symbol nsp local))) - fo (find-or or-map local) - lookup (cond - checked? `(req! ~gm ~keyform) - (nth fo 0) `(get ~gm ~keyform ~(nth fo 1)) - :else `(get ~gm ~keyform))] - (cond - bind? (conj (conj aa (symbol local)) lookup) - checked? (conj (conj aa (symbol (str (gensym)))) lookup) - :else aa))) - a (classify names)) + fo (find-or or-map local)] + (conj (conj aa (symbol local)) + (if (nth fo 0) + `(get ~gm ~keyform ~(nth fo 1)) + `(get ~gm ~keyform))))) + a names) a)) - g1 (group base (get pat :keys) :kw nil false) - g2 (group g1 (get pat :strs) :str nil false) - g3 (group g2 (get pat :syms) :sym nil false) - g4 (group g3 (get pat :keys!) :kw nil true) - g5 (group g4 (get pat :strs!) :str nil true) - g6 (group g5 (get pat :syms!) :sym nil true)] + g1 (group base (get pat :keys) :kw nil) + g2 (group g1 (get pat :strs) :str nil) + g3 (group g2 (get pat :syms) :sym nil)] ;; remaining keys: a qualified :ns/keys|:ns/strs|:ns/syms groups under ;; its namespace; any other keyword is skipped; a non-keyword is a ;; nested binding pattern. @@ -291,12 +262,9 @@ (if (keyword? k) (let* [kn (name k) kns (namespace k)] (cond - (and kns (= kn "keys")) (group a (get pat k) :kw kns false) - (and kns (= kn "strs")) (group a (get pat k) :str kns false) - (and kns (= kn "syms")) (group a (get pat k) :sym kns false) - (and kns (= kn "keys!")) (group a (get pat k) :kw kns true) - (and kns (= kn "strs!")) (group a (get pat k) :str kns true) - (and kns (= kn "syms!")) (group a (get pat k) :sym kns true) + (and kns (= kn "keys")) (group a (get pat k) :kw kns) + (and kns (= kn "strs")) (group a (get pat k) :str kns) + (and kns (= kn "syms")) (group a (get pat k) :sym kns) :else a)) ;; a direct binding {x :x}: apply its :or default ;; (keyed by the local symbol) when the key is absent. @@ -305,7 +273,7 @@ `(get ~gm ~(get pat k) ~(nth fo 1)) `(get ~gm ~(get pat k))) a)))) - g6 (keys pat))) + g3 (keys pat))) :else (throw (str "unsupported destructuring pattern: " (pr-str pat))))) ploop (fn* ploop [i acc] @@ -546,9 +514,7 @@ sub (wrap-mods (rest mods) inner)] (if (= (first m) :when) `(if ~(nth m 1) ~sub []) - ;; `let` (not let*) so a :let binding may itself - ;; destructure — (for [x xs :let [{:keys [y]} x]] …). - `(let ~(nth m 1) ~sub))))) + `(let* ~(nth m 1) ~sub))))) build (fn build [idx groups] (let [g (nth groups idx) my-bind (nth g 0) @@ -577,8 +543,6 @@ ;; name binds only in the taken branch (temp# tests the value); via `let` so the ;; binding form may itself destructure, matching Clojure. (defmacro when-let [bindings & body] - (when (not= 2 (count bindings)) - (throw (new IllegalArgumentException "when-let requires exactly 2 forms in binding vector"))) (let [form (bindings 0) tst (bindings 1)] `(let [temp# ~tst] (if temp# (let [~form temp#] ~@body) nil)))) diff --git a/jolt-core/clojure/core/20-coll.clj b/jolt-core/clojure/core/20-coll.clj index 34a2262..e51c6d8 100644 --- a/jolt-core/clojure/core/20-coll.clj +++ b/jolt-core/clojure/core/20-coll.clj @@ -155,43 +155,8 @@ (when-let [s (seq coll)] (or (pred (first s)) (recur pred (next s))))) -;; Reference arities: at least one predicate ((some-fn) is an arity error), and -;; the returned fn chains with or — a no-match result is the last predicate's -;; own falsy value (false stays false, not nil). -(defn some-fn - ([p] - (fn sp1 - ([] nil) - ([x] (p x)) - ([x y] (or (p x) (p y))) - ([x y z] (or (p x) (p y) (p z))) - ([x y z & args] (or (sp1 x y z) - (some p args))))) - ([p1 p2] - (fn sp2 - ([] nil) - ([x] (or (p1 x) (p2 x))) - ([x y] (or (p1 x) (p1 y) (p2 x) (p2 y))) - ([x y z] (or (p1 x) (p1 y) (p1 z) (p2 x) (p2 y) (p2 z))) - ([x y z & args] (or (sp2 x y z) - (some (fn [q] (or (p1 q) (p2 q))) args))))) - ([p1 p2 p3] - (fn sp3 - ([] nil) - ([x] (or (p1 x) (p2 x) (p3 x))) - ([x y] (or (p1 x) (p2 x) (p3 x) (p1 y) (p2 y) (p3 y))) - ([x y z] (or (p1 x) (p2 x) (p3 x) (p1 y) (p2 y) (p3 y) (p1 z) (p2 z) (p3 z))) - ([x y z & args] (or (sp3 x y z) - (some (fn [q] (or (p1 q) (p2 q) (p3 q))) args))))) - ([p1 p2 p3 & ps] - (let [ps (cons p1 (cons p2 (cons p3 ps)))] - (fn spn - ([] nil) - ([x] (some (fn [p] (p x)) ps)) - ([x y] (or (spn x) (spn y))) - ([x y z] (or (spn x) (spn y) (spn z))) - ([x y z & args] (or (spn x y z) - (some (fn [p] (some p args)) ps))))))) +(defn some-fn [& preds] + (fn [& xs] (some (fn [p] (some p xs)) preds))) (defn not-any? [pred coll] (not (some pred coll))) @@ -212,22 +177,13 @@ (defn simple-ident? [x] (or (simple-symbol? x) (simple-keyword? x))) -;; Numeric-tower predicates over the Chez tower (jolt has exact ints, ratios, and -;; flonums). ratio? = exact non-integer; rational? = exact (int or ratio). Built on -;; the jolt.host tower tests so they lower to the same code the native shims did. -;; decimal?/integer?/float?/int?/double? stay native (bigdec-extended or on the -;; compiler emit/inference path) — see predicates.ss. -(defn ratio? [x] - (and (number? x) (jolt.host/exact? x) (jolt.host/rational-type? x) (not (integer? x)))) -(defn rational? [x] - (or (and (number? x) (jolt.host/exact? x)) (decimal? x))) -;; No first-class Class objects: class names are symbols the evaluator handles in -;; instance?/new positions, never values — so nothing is a class. +;; Jolt has no ratio or bigdecimal types, so these are constants / reduce to int?. +(defn ratio? [x] false) +(defn decimal? [x] false) +;; No first-class Class objects either: class names are symbols the evaluator +;; handles in instance?/new positions, never values — so nothing is a class. (defn class? [x] false) -;; list?: a list-marked cseq node or the empty list (). A lazy/vector-backed seq, -;; (rest list), (seq coll), (map …) are seqs but not lists. Not extended like -;; map?/set?/seq?, so it migrates cleanly. -(defn list? [x] (or (and (jolt.host/cseq? x) (jolt.host/cseq-list? x)) (jolt.host/empty-list? x))) +(defn rational? [x] (int? x)) (defn nat-int? [x] (and (int? x) (>= x 0))) (defn neg-int? [x] (and (int? x) (neg? x))) (defn pos-int? [x] (and (int? x) (pos? x))) @@ -275,8 +231,7 @@ (loop [i 0 s (seq coll)] (if (and s (< i n)) (recur (inc i) (next s)) i)))) -;; the reducing fn returns proc's result, so a Reduced from proc short-circuits -(defn run! [proc coll] (reduce (fn [_ x] (proc x)) nil coll) nil) +(defn run! [proc coll] (reduce (fn [_ x] (proc x) nil) nil coll) nil) (defn completing ([f] (completing f identity)) @@ -335,28 +290,16 @@ (defn val [e] (if (map-entry? e) (nth e 1) (throw (ex-info "val requires a map entry" {})))) ;; --- Ad-hoc hierarchies (stage 3) — Clojure's canonical pure-map port. ----- -;; A hierarchy is {:parents {tag #{parents}} :ancestors {tag #{all}} +;; A hierarchy is {:parents {tag #{parents}} :ancestors {tag #{all}} ;; :descendants {tag #{all}}}. The 3-arity forms are PURE; the 1/2-arity forms ;; operate on the private global hierarchy atom. Multimethod dispatch ;; (evaluator defmulti-setup) calls isa? through the interned var. -;; -;; Ported from clojure.core with the reference's argument assertions and throw -;; contracts intact — bad shapes throw exactly where they do there (a non-map h -;; fails on the (parent-map tag) call, invalid tags fail the asserts). The class -;; arms answer through the host class graph (jolt.host/class-* seams). (defn make-hierarchy [] {:parents {} :descendants {} :ancestors {}}) (def ^:private global-hierarchy (atom (make-hierarchy))) -(defn- hier-assert [ok form] - (when-not ok (throw (new AssertionError (str "Assert failed: " form))))) - -;; a hierarchy tag naming a class — a class value, or the name string of a class -;; the host graph models (jolt classes are their name strings). -(defn- class-tag? [tag] (if (jolt.host/class-value? tag) true false)) - (defn isa? ([child parent] (isa? (deref global-hierarchy) child parent)) ([h child parent] @@ -365,10 +308,6 @@ ;; so a class-keyed multimethod / (isa? (class x) C) dispatches like the JVM. (jolt.host/class-isa? child parent) (contains? (get (get h :ancestors) child #{}) parent) - ;; a hierarchy relationship established on one of a class's supers - (and (class-tag? child) - (some (fn [s] (contains? (get (get h :ancestors) s #{}) parent)) - (jolt.host/class-supers child))) (and (vector? parent) (vector? child) (= (count parent) (count child)) (loop [ret true i 0] @@ -378,44 +317,24 @@ (defn parents ([tag] (parents (deref global-hierarchy) tag)) - ([h tag] (not-empty - (let [tp (get (get h :parents) tag)] - (if (class-tag? tag) - (into (set (jolt.host/class-bases tag)) tp) - tp))))) + ([h tag] (not-empty (get (get h :parents) tag)))) (defn ancestors ([tag] (ancestors (deref global-hierarchy) tag)) - ([h tag] (not-empty - (let [ta (get (get h :ancestors) tag)] - (if (class-tag? tag) - ;; the class's own ancestry plus hierarchy relationships derived - ;; on the class or any of its supers - (let [superclasses (set (jolt.host/class-supers tag))] - (reduce into superclasses - (cons ta (map (fn [s] (get (get h :ancestors) s)) - superclasses)))) - ta))))) + ([h tag] + ;; the user hierarchy plus any modeled JVM ancestry (jolt.host/class-ancestors) + ;; so (ancestors (class x)) answers like the JVM for the common interfaces. + (let [hier (get (get h :ancestors) tag) + host (jolt.host/class-ancestors tag)] + (not-empty (if host (into (or hier #{}) host) hier))))) (defn descendants ([tag] (descendants (deref global-hierarchy) tag)) - ([h tag] (if (class-tag? tag) - (throw (new UnsupportedOperationException "Can't get descendants of classes")) - (not-empty (get (get h :descendants) tag))))) + ([h tag] (not-empty (get (get h :descendants) tag)))) (defn derive - ([tag parent] - (hier-assert (namespace parent) "(namespace parent)") - (hier-assert (or (class-tag? tag) - (and (or (keyword? tag) (symbol? tag)) (namespace tag))) - "(or (class? tag) (and (instance? clojure.lang.Named tag) (namespace tag)))") - (swap! global-hierarchy derive tag parent) nil) + ([tag parent] (swap! global-hierarchy derive tag parent) nil) ([h tag parent] - (hier-assert (not= tag parent) "(not= tag parent)") - (hier-assert (or (class-tag? tag) (keyword? tag) (symbol? tag)) - "(or (class? tag) (instance? clojure.lang.Named tag))") - (hier-assert (or (keyword? parent) (symbol? parent)) - "(instance? clojure.lang.Named parent)") (let [tp (get h :parents) td (get h :descendants) ta (get h :ancestors) @@ -423,14 +342,14 @@ (reduce (fn [ret k] (assoc ret k (reduce conj (get targets k #{}) - (cons target (targets target))))) - m (cons source (sources source))))] + (cons target (get targets target))))) + m (cons source (get sources source))))] (or - (when-not (contains? (tp tag) parent) - (when (contains? (ta tag) parent) - (throw (new Exception (str tag " already has " parent " as ancestor")))) - (when (contains? (ta parent) tag) - (throw (new Exception (str "Cyclic derivation: " parent " has " tag " as ancestor")))) + (when-not (contains? (get tp tag #{}) parent) + (when (contains? (get ta tag #{}) parent) + (throw (str tag " already has " parent " as ancestor"))) + (when (contains? (get ta parent #{}) tag) + (throw (str "Cyclic derivation: " parent " has " tag " as ancestor"))) {:parents (assoc tp tag (conj (get tp tag #{}) parent)) :ancestors (tf ta tag td parent ta) :descendants (tf td parent ta tag td)}) @@ -440,15 +359,15 @@ ([tag parent] (swap! global-hierarchy underive tag parent) nil) ([h tag parent] (let [parent-map (get h :parents) - childs-parents (if (parent-map tag) - (disj (parent-map tag) parent) + childs-parents (if (get parent-map tag) + (disj (get parent-map tag) parent) #{}) new-parents (if (not-empty childs-parents) (assoc parent-map tag childs-parents) (dissoc parent-map tag)) deriv-seq (mapcat (fn [e] (cons (key e) (interpose (key e) (val e)))) (seq new-parents))] - (if (contains? (parent-map tag) parent) + (if (contains? (get parent-map tag #{}) parent) (reduce (fn [p [t pr]] (derive p t pr)) (make-hierarchy) (partition 2 deriv-seq)) h)))) @@ -459,8 +378,7 @@ (defn sequential? [x] (or (vector? x) (seq? x))) (defn associative? [x] (or (map? x) (vector? x))) (defn counted? [x] - ;; a String is not Counted on the JVM (count works via CharSequence, not O(1)) - (or (vector? x) (map? x) (set? x) (list? x))) + (or (vector? x) (map? x) (set? x) (list? x) (string? x))) (defn indexed? [x] (vector? x)) ;; sorted? is defined by the next tier (25-sorted) — declared here so this ;; tier compiles (forward references are analysis errors). @@ -468,7 +386,7 @@ (defn reversible? [x] (or (vector? x) (sorted? x))) (defn seqable? [x] - (if (or (nil? x) (coll? x) (string? x) (jolt.host/array-value? x)) true false)) + (or (nil? x) (coll? x) (string? x))) (defn boolean? [x] (or (true? x) (false? x))) (defn double? [x] (and (number? x) (not (integer? x)))) @@ -500,9 +418,7 @@ (future? x) (boolean (get x :cached)) (= :jolt/lazy-seq (get x :jolt/type)) (boolean (get x :realized)) (atom? x) true - ;; name the class, never the value — an error message must not render an - ;; arbitrary (possibly infinite) argument. - :else (throw (str "realized? not supported on: " (class x))))) + :else (throw (str "realized? not supported on: " x)))) (defn force [x] (if (delay? x) (deref x) x)) diff --git a/jolt-core/clojure/core/21-coll.clj b/jolt-core/clojure/core/21-coll.clj index 3a12c8e..054ad69 100644 --- a/jolt-core/clojure/core/21-coll.clj +++ b/jolt-core/clojure/core/21-coll.clj @@ -12,8 +12,7 @@ ;; Clojure. Collections only — a string is seqable but not shuffleable, as on ;; the JVM (Collections/shuffle wants a Collection). (defn shuffle [coll] - ;; Collections/shuffle wants a java.util.Collection — a map is not one - (when (or (not (coll? coll)) (map? coll)) + (when-not (coll? coll) (throw (ex-info (str "shuffle requires a collection, got: " coll) {}))) (loop [v (vec coll) i (dec (count v))] (if (pos? i) @@ -29,10 +28,6 @@ (defn sort-by ([keyfn coll] (sort-by keyfn compare coll)) ([keyfn comp coll] - ;; a collection is never a Comparator (the JVM cast would fail); catching it - ;; here beats silently "sorting" through coll-as-fn lookups - (when (coll? comp) - (throw (new ClassCastException (str (class comp) " cannot be cast to java.util.Comparator")))) (sort (fn [x y] (comp (keyfn x) (keyfn y))) coll))) ;; parse-uuid: nil unless s is a canonical 8-4-4-4-12 hex UUID string; throws @@ -66,10 +61,9 @@ \backspace "backspace" \space "space"}) (defn char-name-string [c] (get char-name-strings c)) -;; Random selection over the host rand primitives — the reference shape: -;; nth directly (nil returns nil via RT.nth; a set throws like the JVM). +;; Random selection over the host rand primitives. (defn rand-nth [coll] - (nth coll (rand-int (count coll)))) + (let [v (vec coll)] (nth v (rand-int (count v))))) (defn random-sample ([prob] (filter (fn [_] (< (rand) prob)))) @@ -139,8 +133,8 @@ (concat (map first ss) (apply interleave (map rest ss)))))))) -;; rationalize is host-native (java/bigdec.ss): a double routes through its -;; shortest decimal print like BigDecimal.valueOf, so (rationalize 1.1) is 11/10. +;; No ratio type on Jolt, so rationalize is identity. +(defn rationalize [x] x) ;; 0-arg: a stateful transducer (tracks [seen? prev] in a volatile, so no sentinel ;; value is needed). 1-arg: eager dedupe of consecutive equal elements. @@ -277,10 +271,7 @@ (when (< i (count vars)) (var-set (nth vars i) (nth saved i)) (recur (inc i)))))))) -;; A vector's seq IS a real chunked-seq (chunk-first hands out a 32-element block). -;; This is only a placeholder so references compile during overlay load; the host -;; rebinds chunked-seq? to na-chunked-seq? in post-prelude.ss, which returns true -;; for a vector seq and false otherwise. +;; Jolt has no chunked seqs, so this is always false. (defn chunked-seq? [x] false) ;; Atom peripheral operations. atom/swap!/reset!/deref stay native — the compiler @@ -354,8 +345,8 @@ (defn clojure-version [] "1.11.0-jolt") ;; bigdec is a host fn (host/chez/java/bigdec.ss) — a real BigDecimal value type. -;; numerator/denominator are host natives (converters.ss) over Chez's exact -;; rationals; a non-ratio is the Ratio cast failure. +(defn numerator [x] (throw (ex-info "numerator requires a ratio (Jolt has no ratios)" {}))) +(defn denominator [x] (throw (ex-info "denominator requires a ratio (Jolt has no ratios)" {}))) ;; jolt has no reflection, but a few common JVM interfaces carry a modeled ;; ancestry (jolt.host/class-supers) so reflective checks like diff --git a/jolt-core/clojure/core/22-coll.clj b/jolt-core/clojure/core/22-coll.clj index 873dcfa..297cccc 100644 --- a/jolt-core/clojure/core/22-coll.clj +++ b/jolt-core/clojure/core/22-coll.clj @@ -89,21 +89,6 @@ (recur nxt (next ks)))) m))))) -(defn req! - "Returns the value mapped to key k in map m, like `get`, but throws - IllegalArgumentException when k is not present. Unlike `get`, does not nil-pun: - a key present with a nil value returns nil, an absent key throws. The primitive - behind checked-keys destructuring (:keys! / :syms! / :strs!)." - {:added "1.13"} - [m k] - ;; a fresh map is its own identity, so a present-but-nil value is distinguished - ;; from an absent key (same trick as get-in's sentinel). - (let [sentinel (hash-map) - v (get m k sentinel)] - (if (identical? sentinel v) - (throw (new IllegalArgumentException (str "Expected key: " k))) - v))) - ;; find-based, so nil RESULTS are cached too; args canonicalize as a collection key. (defn memoize [f] (let [mem (atom (hash-map))] @@ -151,9 +136,6 @@ ;; a deftype/record with its own empty (IPersistentCollection) — e.g. ;; data.priority-map — uses it, before the generic map/set/vector arms. (jolt.host/jrec-method? coll "empty") (.empty coll) - ;; a defrecord without its own empty can't have one (RT: UnsupportedOperation) - (record? coll) (throw (new UnsupportedOperationException - (str "Can't create empty: " (.getName (class coll))))) (sorted? coll) ((get (jolt.host/ref-get coll :ops) :empty) coll) (map? coll) (with-meta {} (meta coll)) (set? coll) (with-meta #{} (meta coll)) @@ -201,16 +183,10 @@ ([x y z & args] (f (apply g x y z args))))) ([f g & fs] (reduce comp (comp f g) fs))) -;; Canonical IFn set: fns, keywords, symbols, maps (sorted incl.), sets, -;; vectors, vars — NOT lists ((ifn? '(1 2)) is false in Clojure) — plus the -;; host callables (multimethods, promises) and a deftype/record implementing -;; clojure.lang.IFn's invoke. +;; Canonical IFn set: fns, keywords, symbols, maps (sorted incl.), +;; sets, vectors, and vars — NOT lists ((ifn? '(1 2)) is false in Clojure). (defn ifn? [x] - (if (or (fn? x) (keyword? x) (symbol? x) (map? x) (set? x) (vector? x) (var? x) - (jolt.host/callable-host? x) - (jolt.host/jrec-method? x "invoke")) - true - false)) + (or (fn? x) (keyword? x) (symbol? x) (map? x) (set? x) (vector? x) (var? x))) ;; Auto-promoting (') and unchecked arithmetic. Jolt numbers don't overflow, ;; so all of these are the checked ops; fixed arities mirror Clojure's @@ -222,9 +198,10 @@ (def inc' inc) (def dec' dec) ;; unchecked-add / -subtract / -multiply / -negate / -inc / -dec (+ the -int -;; variants), -divide-int / -remainder-int, and the unchecked-long/-int casts are -;; host-defined (host/chez/seq.ss, converters.ss): they WRAP like the JVM -;; primitive conversions, which a plain overlay over checked casts can't do. +;; variants) and -divide-int / -remainder-int are host-defined (host/chez/seq.ss): +;; they WRAP to signed 64 bits like the JVM, which a plain (+ x y) overlay can't do. +(defn unchecked-int [x] (int x)) +(def unchecked-long unchecked-int) ;; int? is integer? on jolt: one number type, so fixed-precision and ;; arbitrary-precision integers coincide. @@ -286,14 +263,12 @@ (defn to-array-2d [coll] (to-array (map to-array coll))) -;; Wrapping (unchecked) coercions: truncate to the width and sign-fold like the -;; JVM primitive conversions ((unchecked-byte 200) is -56); unchecked-char wraps -;; into char range. unchecked-long/int are host natives (converters.ss). -(defn unchecked-byte [x] - (let [b (bit-and (unchecked-long x) 0xff)] (if (< b 128) b (- b 256)))) -(defn unchecked-short [x] - (let [s (bit-and (unchecked-long x) 0xffff)] (if (< s 32768) s (- s 65536)))) -(defn unchecked-char [x] (char (bit-and (unchecked-long x) 0xffff))) +;; Masking integer coercions (not aliases): byte/short wrap to their width. +;; unchecked-byte/short truncate to a number; unchecked-char returns a char (as on +;; the JVM). int handles chars, so (unchecked-byte \a) works. +(defn unchecked-byte [x] (bit-and (int x) 0xff)) +(defn unchecked-short [x] (bit-and (int x) 0xffff)) +(defn unchecked-char [x] (char (bit-and (int x) 0xffff))) (defn unchecked-float [x] (double x)) (defn unchecked-double [x] (double x)) @@ -325,14 +300,7 @@ ;; --- JVM-shape stubs and trivial shells -------------------------------------- ;; Pure compositions or documented jolt stubs; the host keeps nothing. -;; enumeration-seq drives a java.util.Enumeration (StringTokenizer, etc.) through -;; hasMoreElements/nextElement, like the JVM; an already-seqable arg (a jolt seq — -;; some host code passes a list) just seqs. -(defn enumeration-seq [e] - (if (or (nil? e) (seq? e) (sequential? e)) - (seq e) - (lazy-seq (when (.hasMoreElements e) - (cons (.nextElement e) (enumeration-seq e)))))) +(defn enumeration-seq [e] (seq e)) (defn iterator-seq [i] (seq i)) ;; jolt is single-threaded: a promise is an atom, deref never blocks @@ -348,8 +316,7 @@ ;; stays an unevaluated reader form on jolt and contains? can't see into it. (def ^:private special-syms #{'if 'do 'let* 'fn* 'quote 'var 'def 'loop* 'recur 'throw 'try 'catch - 'finally 'new 'set! '. 'monitor-enter 'monitor-exit - '& 'case* 'deftype* 'letfn* 'reify*}) + 'finally 'new 'set! '. 'monitor-enter 'monitor-exit}) (defn special-symbol? [s] (contains? special-syms s)) @@ -364,14 +331,3 @@ (defn proxy-super [& args] (throw "proxy-super: JVM proxies are not supported in Jolt")) (defn construct-proxy [c & args] (throw "construct-proxy: not supported in Jolt")) (defn get-proxy-class [& interfaces] (throw "get-proxy-class: not supported in Jolt")) - -;; resolve, requiring the symbol's namespace first when it isn't loaded yet — -;; the dynamic-require pattern (tooling, plugin registries). The require and -;; resolve are the runtime fns, so this works identically under joltc run and -;; in an AOT binary (which compiles the namespace from the source roots). -(defn requiring-resolve [sym] - (if (qualified-symbol? sym) - (or (resolve sym) - (do (require (symbol (namespace sym))) - (resolve sym))) - (throw (new IllegalArgumentException (str "Not a qualified symbol: " sym))))) diff --git a/jolt-core/clojure/core/30-macros.clj b/jolt-core/clojure/core/30-macros.clj index be1c240..cda860e 100644 --- a/jolt-core/clojure/core/30-macros.clj +++ b/jolt-core/clojure/core/30-macros.clj @@ -28,18 +28,11 @@ (let [args (if (string? (first args)) (rest args) args) args (if (and (map? (first args)) (not (symbol? (first args)))) (rest args) args) dispatch (first args) - opts (rest args) - ;; qualify with the EXPANSION ns: a defmulti deferred inside a fn (a - ;; deftest body) must still define in the ns it was written in. - qname (symbol (str (clojure.core/ns-name clojure.core/*ns*)) - (clojure.core/name name))] - `(defmulti-setup (quote ~qname) ~dispatch ~@opts))) + opts (rest args)] + `(defmulti-setup (quote ~name) ~dispatch ~@opts))) (defmacro defmethod [mm dispatch-val & fn-tail] - ;; the expansion ns rides along so a deferred defmethod resolves its multifn - ;; against the ns it was written in (aliases and refers included). - `(defmethod-setup (quote ~mm) ~dispatch-val (fn ~@fn-tail) - ~(str (clojure.core/ns-name clojure.core/*ns*)))) + `(defmethod-setup (quote ~mm) ~dispatch-val (fn ~@fn-tail))) ;; Multimethod table ops: a multimethod's method table lives on its ;; VAR (the value is just the dispatch closure), so these pass the name quoted @@ -116,15 +109,11 @@ (with-open ~(vec (drop 2 bindings)) ~@body) (finally (__close ~(first bindings))))))) -;; Binds *math-context*; BigDecimal arithmetic in the dynamic scope rounds its -;; results to the precision with the rounding mode (default HALF_UP, like -;; java.math.MathContext). +;; jolt numbers are doubles — there is no BigDecimal math context, so the +;; precision (and optional :rounding mode) is accepted and ignored. (defmacro with-precision [precision & exprs] - (let [[rounding body] (if (= :rounding (first exprs)) - [(second exprs) (drop 2 exprs)] - ['HALF_UP exprs])] - `(binding [clojure.core/*math-context* {:precision ~precision :rounding '~rounding}] - ~@body))) + (let [body (if (= :rounding (first exprs)) (drop 2 exprs) exprs)] + `(do ~@body))) (defmacro with-bindings [binding-map & body] `(with-bindings* ~binding-map (fn [] ~@body))) @@ -396,18 +385,11 @@ ;; field binds / live-read instance (see defrecord's mk-clause). (let [argv (mapv (fn [p] (if (= p (quote _)) (gensym "_p") p)) (nth spec 1)) inst (first argv) - ;; A method param shadows a same-named field (Clojure - ;; semantics): don't let-bind a field the param already - ;; provides, and treat those params as shadowing so a - ;; mutable field's live-read rewrite doesn't override them. - pnames (set (map name argv)) ;; let-bind only immutable fields; mutable ones are read live ;; via rewrite-body so a set! within the method is observed. binds (vec (mapcat (fn [f] [f `(get ~inst ~(keyword (name f)))]) - (filter (fn [f] (and (not (mutable? f)) - (not (contains? pnames (name f))))) - fields))) - mbody (map (fn [bf] (rewrite-body inst (set argv) bf)) (drop 2 spec))] + (filter (fn [f] (not (mutable? f))) fields))) + mbody (map (fn [bf] (rewrite-body inst #{} bf)) (drop 2 spec))] (list argv (list* 'let binds mbody)))) groups (group-by-head body) ;; merge clauses by method NAME across ALL protocols into one multi-arity @@ -634,11 +616,7 @@ (let [argv (mapv (fn [p] (if (= p (quote _)) (gensym "_p") p)) (nth spec 1)) inst (first argv) hinted (assoc argv 0 (vary-meta inst assoc :tag (name name-sym))) - ;; a method param shadows a same-named field (Clojure - ;; semantics), so don't rebind a field the param provides. - pnames (set (map name argv)) - binds (vec (mapcat (fn [f] [f `(get ~inst ~(keyword (name f)))]) - (remove (fn [f] (contains? pnames (name f))) fields)))] + binds (vec (mapcat (fn [f] [f `(get ~inst ~(keyword (name f)))]) fields))] (list hinted (list* 'let binds (drop 2 spec))))) groups (group-by-head body) ;; merge clauses by name across protocols into one multi-arity fn (see diff --git a/jolt-core/jolt/analyzer.clj b/jolt-core/jolt/analyzer.clj index b8c2016..677de26 100644 --- a/jolt-core/jolt/analyzer.clj +++ b/jolt-core/jolt/analyzer.clj @@ -29,7 +29,7 @@ unchecked-math? form-macro? form-expand-1 resolve-global form-sym-meta form-coll-meta host-intern! form-syntax-quote-lower - record-type? record-ctor-key deftype-ctor-class form-position late-bind? + record-type? record-ctor-key form-position late-bind? resolve-class-hint]])) (declare analyze) @@ -258,7 +258,6 @@ (let [n {:op :try :body (analyze-seq ctx @body env)} n (if (seq @catches) (let [evar-name (gen-name "catch") - raw-name (gen-name "catch-raw") evar (symbol evar-name) dispatch (reduce @@ -279,7 +278,6 @@ (list 'throw evar) (reverse @catches))] (assoc n :catch-sym evar-name - :catch-raw-sym raw-name :catch-body (analyze-seq ctx (list dispatch) (add-locals env [evar-name])))) n) @@ -394,18 +392,7 @@ (defn- analyze-special [ctx op items env] (case op - ;; A quoted collection keeps its USER metadata (rewrite-clj coerces - ;; '^:x (4 5 6) and expects the meta back), but not the reader's location keys - ;; (:line/:column/:file) — like Clojure, which strips those from a quoted - ;; constant. The kept metadata is itself part of the literal, so quote it. - "quote" (let [qf (second items) - m (form-coll-meta qf) - m (when (map? m) - (let [u (dissoc m :line :column :end-line :end-column :file)] - (when (seq u) u)))] - (if (nil? m) - (quote-node qf) - (invoke (var-ref "clojure.core" "with-meta") [(quote-node qf) (quote-node m)]))) + "quote" (quote-node (second items)) "if" (do ;; 2 or 3 argument forms only (spec 03-special-forms X1) (when (or (< (count items) 3) (> (count items) 4)) @@ -493,12 +480,7 @@ ;; token and the analyzed args. The Chez back end lowers it to a runtime ;; constructor dispatch. (defn- analyze-ctor [ctx class args env] - ;; Qualify a bare (Name. …) to its deftype's FQN when THIS ns defined the deftype, - ;; so a deftype named like a built-in host class (tools.reader's PushbackReader) - ;; resolves to the deftype here while an unrelated ns's bare (PushbackReader. …) - ;; still reaches java.io.PushbackReader. - (host-new (or (deftype-ctor-class ctx class) class) - (mapv #(analyze ctx % env) args))) + (host-new class (mapv #(analyze ctx % env) args))) ;; jolt.ffi/__cfn: the low-level foreign-function form a jolt library ;; uses (via the jolt.ffi/foreign-fn macro) to bind native code. Shape: diff --git a/jolt-core/jolt/backend_scheme.clj b/jolt-core/jolt/backend_scheme.clj index 473f36c..0300884 100644 --- a/jolt-core/jolt/backend_scheme.clj +++ b/jolt-core/jolt/backend_scheme.clj @@ -17,17 +17,13 @@ ;; Hot clojure.core primitives lowered to native Scheme. ;; `=` is the exactness-aware jolt= from values.ss; inc/dec/ -;; not are rt shims. Arithmetic and comparisons lower to the jolt-n* checked -;; macros (host/chez/seq.ss): the both-Chez-numbers fast path is open-coded and -;; anything else (BigDecimal, a non-number) takes the Numbers.ops-style category -;; dispatch, with JVM contagion (a double operand wins; an exact zero divisor is -;; ArithmeticException; a double zero divisor is ##Inf/##NaN). +;; not are rt shims; mod/rem/quot map to Scheme's (Scheme has all three). (def ^:private native-ops - {"+" "jolt-n+" "-" "jolt-n-" "*" "jolt-n*" "/" "jolt-n-div" - "<" "jolt-n<" ">" "jolt-n>" "<=" "jolt-n<=" ">=" "jolt-n>=" + {"+" "+" "-" "-" "*" "*" "/" "/" + "<" "<" ">" ">" "<=" "<=" ">=" ">=" "=" "jolt=" "inc" "jolt-inc" "dec" "jolt-dec" "not" "jolt-not" - "min" "jolt-n-min" "max" "jolt-n-max" - "mod" "jolt-mod" "rem" "jolt-rem" "quot" "jolt-quot" + "min" "min" "max" "max" + "mod" "modulo" "rem" "remainder" "quot" "quotient" "vector" "jolt-vector" "hash-map" "jolt-hash-map-fn" "hash-set" "jolt-hash-set" "conj" "jolt-conj" "get" "jolt-get" "nth" "jolt-nth" "count" "jolt-count" "assoc" "jolt-assoc" "dissoc" "jolt-dissoc" "contains?" "jolt-contains?" @@ -57,12 +53,12 @@ "protocol-dispatch3" "protocol-dispatch3"}) ;; Value-position resolution for a clojure.core ref passed AS A VALUE (to map / -;; filter / reduce / apply). The jolt-n* call-position forms are macros, so value -;; position substitutes the variadic procedures over the same binary dispatch. +;; filter / reduce / apply). Arithmetic is the exception — Scheme's +/-/*// return +;; EXACT results for exact/zero-arg inputs, breaking the all-double model in +;; higher-order use, so value-position arithmetic routes to the flonum wrappers. (def ^:private core-value-procs (merge native-ops {"+" "jolt-add" "-" "jolt-sub" "*" "jolt-mul" "/" "jolt-div" - "min" "jolt-min" "max" "jolt-max" - "<" "jolt-lt" ">" "jolt-gt" "<=" "jolt-le" ">=" "jolt-ge"})) + "min" "jolt-min" "max" "jolt-max"})) ;; Per-op arity gate: only lower when the Scheme prim and the jolt fn agree at ;; this arity. Ops absent from the table are variadic (legal at any arity). @@ -87,7 +83,7 @@ ;; jolt's comparison ops are vacuously true at arity 1 and DON'T inspect the arg, ;; but Scheme's < demands a number even there — special-case. -(def ^:private cmp1-ops #{"jolt-n<" "jolt-n>" "jolt-n<=" "jolt-n>="}) +(def ^:private cmp1-ops #{"<" ">" "<=" ">="}) ;; Host interop methods with a Chez RT shim (rt.ss jolt-host-call). A `.method` ;; call on any other method routes to record-method-dispatch (a reify/record @@ -97,7 +93,7 @@ ;; Native-op Scheme procedures that return a genuine Scheme boolean (#t/#f), so an ;; :if test built from them needs no jolt-truthy? wrapper. (def ^:private bool-returning-ops - #{"jolt-n<" "jolt-n<=" "jolt-n>" "jolt-n>=" "jolt=" "jolt-not" + #{"<" "<=" ">" ">=" "jolt=" "jolt-not" "jolt-even?" "jolt-odd?" "jolt-pos?" "jolt-neg?" "jolt-zero?" "jolt-empty?" "jolt-contains?" "jolt-nil?" "jolt-some?"}) @@ -172,14 +168,6 @@ (def var-cache? (atom false)) (defn set-var-cache! [on] (reset! var-cache? on)) -;; Opt-in tail-frame history (JOLT_TRACE): emit a (jolt-trace-push! "name") at the -;; head of every named fn body, so an entry records the frame into the runtime ring -;; buffer (rt.ss) and a TCO-elided frame still shows in an error's backtrace. OFF -;; during the seed mint and `jolt build` (byte-determinism + no runtime cost); -;; compile-eval.ss turns it on for runtime-eval'd user code when JOLT_TRACE is set. -(def trace-frames? (atom false)) -(defn set-trace-frames! [on] (reset! trace-frames? on)) - ;; A direct-link Scheme binding name for a var. The fqn maps to a unique identifier ;; jv$$; chars that break a Scheme identifier or the `$` separator are ;; escaped so distinct vars never collide. @@ -199,13 +187,6 @@ ;; recursion auto-restores them (no manual save/restore, no throw-leak). (def ^:dynamic *recur-target* nil) (def ^:dynamic *known-procs* #{}) -;; True while emitting a node in TAIL position. Only used, in trace mode, to mark a -;; tail call so the runtime routes its callee into the current history rib instead -;; of a new one (rt.ss). It never affects semantics — a wrong value only mislabels -;; a debug trace line — so partial propagation is safe. `emit` (the wrapper below) -;; clears it by default; the tail-transparent forms (fn body, if/do/let/loop) pass -;; it to their tail child. Default false so a top-level form is treated non-tail. -(def ^:dynamic *tail?* false) (def ^:private gensym-counter (atom 0)) (defn- fresh-label [prefix] (str prefix (swap! gensym-counter inc))) @@ -268,17 +249,6 @@ (if (or (contains? scheme-reserved s) (contains? bare-native-names s)) (str "_" s) s))) (declare emit) -(declare emit*) -;; Ops that pass tail position through to a child (the child can itself be a tail -;; call): if/do carry it to their tail branch/last form, let/loop to their body, -;; and invoke reads it to decide whether the call is tail. Every other op's -;; children are non-tail, so `emit` clears *tail?* before dispatching them — that -;; way a stray true can't leak into, say, a call sitting in a vector literal. -(def ^:private tail-transparent-ops #{:if :do :let :loop :invoke}) -(defn emit [node] - (if (and *tail?* (not (tail-transparent-ops (:op node)))) - (binding [*tail?* false] (emit* node)) - (emit* node))) ;; A Chez string literal. Every char outside printable ASCII becomes a ;; codepoint hex escape \x; ; the named escapes (\n \t \r \" \\) match what @@ -407,14 +377,6 @@ ;; value, not the raw tagged form). Same emit as the :inst / :uuid IR leaves. (form-inst? form) (str "(jolt-inst-from-string " (chez-str-lit (form-inst-source form)) ")") (form-uuid? form) (str "(jolt-uuid-from-string " (chez-str-lit (form-uuid-source form)) ")") - ;; a quoted custom #tag with no registered reader -> a tagged-literal value - ;; (Clojure's reader builds a TaggedLiteral), not the raw reader map. The tag is - ;; stored as a :#name keyword; strip the leading # to the bare symbol. - (and (map? form) (= :jolt/tagged (get form :jolt/type))) - (let [nm (name (get form :tag)) - tsym (if (= \# (first nm)) (subs nm 1) nm)] - (str "(jolt-tagged-literal (jolt-symbol #f " (chez-str-lit tsym) ") " - (emit-quoted (get form :form)) ")")) ;; plain jolt VALUES (metadata maps and anything nested in them) (map? form) (emit-quoted-map-value form) (vector? form) (str "(jolt-vector " (str/join " " (map emit-quoted form)) ")") @@ -439,10 +401,9 @@ ;; letfn lowers to a :let flagged :letrec (mutually-recursive named local fns): ;; Scheme `letrec*` binds them so each sees its siblings. A plain let uses let*. (defn- emit-let [node] - (let [kw (if (:letrec node) "letrec*" "let*") - ;; bindings are non-tail; the body inherits the let's tail position - binds (binding [*tail?* false] (str/join " " (mapv emit-binding (:bindings node))))] - (str "(" kw " (" binds ") " (emit (:body node)) ")"))) + (let [kw (if (:letrec node) "letrec*" "let*")] + (str "(" kw " (" (str/join " " (map emit-binding (:bindings node))) ") " + (emit (:body node)) ")"))) (defn- emit-loop [node] (let [label (fresh-label "loop") @@ -450,10 +411,9 @@ names (map #(munge-name (nth % 0)) pairs) ;; inits evaluate in the OUTER scope (recur-target unchanged) and, like ;; Clojure loop/let, SEQUENTIALLY — wrap a let* around the named let. - inits (binding [*tail?* false] (mapv #(emit (nth % 1)) pairs)) + inits (map #(emit (nth % 1)) pairs) seq-bs (str/join " " (map (fn [n i] (str "(" n " " i ")")) names inits)) rebinds (str/join " " (map (fn [n] (str "(" n " " n ")")) names)) - ;; the loop body inherits the loop's tail position body (binding [*recur-target* label] (emit (:body node)))] (str "(let* (" seq-bs ") (let " label " (" rebinds ") " body "))"))) @@ -514,11 +474,7 @@ params (map munge-name orig) restp (when-let [r (:rest a)] (munge-name r)) label (fresh-label "fnrec") - ret (:ret-nhint a) - ;; the body is the fn's tail position — UNLESS a ^double/^long return hint - ;; wraps it in a coercion below, which puts the body back in non-tail. - body-tail? (not (or (= ret :double) (= ret :long))) - body (binding [*recur-target* label *tail?* body-tail?] (emit (:body a))) + body (binding [*recur-target* label] (emit (:body a))) paramlist (cond (and restp (empty? params)) restp restp (str "(" (str/join " " params) " . " restp ")") @@ -543,16 +499,6 @@ self (when-let [nm (:name node)] (munge-name nm)) clauses (binding [*known-procs* (if self (conj *known-procs* self) *known-procs*)] (mapv emit-arity-clause arities)) - ;; trace mode: record this frame on entry (before the body), so a frame - ;; the body then tail-calls away is still in the ring at throw time. A - ;; `recur` re-enters via the named-let, not the lambda, so a tight loop - ;; records once, not per iteration. - clauses (if (and @trace-frames? self) - (mapv (fn [c] [(nth c 0) - (str "(begin (jolt-trace-push! " (chez-str-lit self) ") " - (nth c 1) ")")]) - clauses) - clauses) lambda (if (= 1 (count clauses)) (let [c (first clauses)] (str "(lambda " (nth c 0) " " (nth c 1) ")")) (str "(case-lambda " @@ -615,31 +561,8 @@ (= (nth shape i) kw) i :else (recur (inc i)))))) -;; A plain Scheme application: (callee op ...). -(defn- plain-call [callee operand-strs] - (str "(" callee (if (seq operand-strs) (str " " (str/join " " operand-strs)) "") ")")) -;; A tail call in trace mode. Force-bind the operands to temps FIRST (so any -;; operand whose own evaluation records a trace entry runs before our mark), THEN -;; set the tail mark, THEN apply — the callee's entry prologue consumes the mark -;; with nothing in between, so it can't be clobbered. Still a tail call: the let*'s -;; last form is the application, so TCO is preserved. -(defn- tail-marked-call [callee operand-strs] - (let [tmps (mapv (fn [_] (fresh-label "_tt$")) operand-strs) - binds (str/join " " (map (fn [t a] (str "(" t " " a ")")) tmps operand-strs))] - (str "(let* (" binds ") (jolt-trace-mark! #t) " (plain-call callee tmps) ")"))) -;; Emit a call, tail-marked when we're in tail position and tracing is on; a plain -;; application otherwise. The mark is consumed by the callee's entry prologue — -;; direct calls (:local known-proc, direct-link) always have one; a jolt-invoke -;; call usually reaches one but not always (see the best-effort note in rt.ss). -(defn- emit-call [tail? callee operand-strs] - (if (and @trace-frames? tail?) - (tail-marked-call callee operand-strs) - (plain-call callee operand-strs))) - (defn- emit-invoke [node] - (let [tail? *tail?*] ; capture: children below emit non-tail - (binding [*tail?* false] - (let [fnode (:fn node) + (let [fnode (:fn node) arg-nodes (:args node) args (mapv emit arg-nodes) nop (native-op fnode (count args)) @@ -651,7 +574,8 @@ ;; order [callee & args] together when ordering is observable. invoke (fn [] (ordered-call (cons fnode arg-nodes) (cons (emit fnode) args) - (fn [operands] (emit-call tail? "jolt-invoke" operands))))] + (fn [[f & as]] + (str "(jolt-invoke " f (if (seq as) (str " " (str/join " " as)) "") ")"))))] (cond ;; devirtualized protocol call: the inference proved the receiver (arg 0) is ;; one record type, so resolve the impl by that static tag instead of routing @@ -700,16 +624,11 @@ (if idx (order-args (fn [as] (str "(jrec-field-at " (first as) " " idx " " (emit fnode) ")"))) (order-args (fn [as] (str "(jolt-get " (first as) " " (emit fnode) (defstr as) ")"))))) - ;; (coll k [default]) -> lookup — coll (fnode) is the callee, evaluated - ;; before the key/default args. A VECTOR literal invokes as nth (a bad - ;; index throws, IPersistentVector.invoke); maps/sets invoke as get. + ;; (coll k [default]) -> (jolt-get coll k [default]) — coll (fnode) is the + ;; callee, evaluated before the key/default args. (= kind :coll) (ordered-call (cons fnode arg-nodes) (cons (emit fnode) args) - (fn [[c & as]] - (str (if (and (= :vector (:op fnode)) (= 1 (count as))) - "(jolt-nth " - "(jolt-get ") - c " " (str/join " " as) ")"))) + (fn [[c & as]] (str "(jolt-get " c " " (str/join " " as) ")"))) (and (stdlib-var? fnode) (not (deref prelude-mode?))) (throw (ex-info (str "emit: unsupported stdlib fn `" (:ns fnode) "/" (:name fnode) "` (no core on Chez yet)") {})) @@ -726,7 +645,8 @@ ;; holds an arbitrary IFn -> dynamic dispatch. (= :local (:op fnode)) (if (*known-procs* (munge-name (:name fnode))) - (order-args (fn [as] (emit-call tail? (munge-name (:name fnode)) as))) + (order-args (fn [as] (str "(" (munge-name (:name fnode)) + (if (seq as) (str " " (str/join " " as)) "") ")"))) (invoke)) ;; closed-world direct call: the callee var is an app fn def already emitted ;; with a Scheme binding — apply it directly, no var lookup, no jolt-invoke. @@ -735,7 +655,8 @@ ;; below (which still uses the direct binding as the invoke target). (and (= :var (:op fnode)) (direct-linkable? (:ns fnode) (:name fnode)) (direct-link-fn? (:ns fnode) (:name fnode))) - (order-args (fn [as] (emit-call tail? (dl-name (:ns fnode) (:name fnode)) as))) + (order-args (fn [as] (str "(" (dl-name (:ns fnode) (:name fnode)) + (if (seq as) (str " " (str/join " " as)) "") ")"))) ;; a late-bound :var call head can hold a procedure OR a non-applicable ;; value the RT dispatches (multimethod, keyword/coll IFn) — route via ;; jolt-invoke (transparent for a procedure). @@ -743,20 +664,16 @@ (invoke) ;; a computed callee can yield ANY IFn — route through jolt-invoke. :else - (invoke)))))) + (invoke)))) -;; try/catch/finally. throw raises a Chez condition wrapping the jolt value -;; (jolt-throw = Scheme `raise` of a &jolt-throw condition); catch lowers to -;; `guard`, whose raw binding is unwrapped via jolt-unwrap-throw so the catch var -;; receives the jolt value (preserving ex-data/ex-message and the backtrace -;; identity tag). finally lowers to `dynamic-wind`'s after-thunk (runs on -;; success, catch and escape — Clojure finally semantics). Both keys optional. +;; try/catch/finally. throw raises the jolt value RAW (jolt-throw = +;; Scheme `raise`); catch lowers to `guard` with an `else` clause (the IR drops +;; the class), finally to `dynamic-wind`'s after-thunk (runs on success, catch and +;; escape — Clojure finally semantics). Both keys optional on the node. (defn- emit-try [node] (let [core (if-let [cs (:catch-sym node)] - (let [raw (munge-name (:catch-raw-sym node))] - (str "(guard (" raw " (else (let ((" (munge-name cs) " (jolt-unwrap-throw " raw "))) " - (emit (:catch-body node)) "))) " - (emit (:body node)) ")")) + (str "(guard (" (munge-name cs) " (else " (emit (:catch-body node)) ")) " + (emit (:body node)) ")") (emit (:body node)))] (if-let [fin (:finally node)] (str "(dynamic-wind (lambda () #f) (lambda () " core ") (lambda () " (emit fin) "))") @@ -790,22 +707,7 @@ (returns-scheme-bool? (:body node) bools')) :else false))) -;; In trace mode, a fn def also registers its source so the tail-frame history maps -;; the recorded frame-name to "ns/name (file:line)" instead of a bare name. Keyed by -;; the SAME munged name the entry push records (emit-fn's letrec self-binding = the -;; fn's own name). Returns "" when off / not a positioned fn def, so trace-off output -;; (seed mint, `jolt build`) is byte-identical. Direct-link builds already register -;; via emit-def-cached; this covers the open-world eval path. -(defn- trace-source-reg [node] - (let [init (:init node) pos (:pos node)] - (if (and @trace-frames? (= :fn (:op init)) (:name init) pos) - (str " (jolt-register-source! " (chez-str-lit (munge-name (:name init))) " " - (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) " " - (if (:file pos) (chez-str-lit (:file pos)) "jolt-nil") " " - (or (:line pos) 0) ")") - ""))) - -(defn emit* [node] +(defn emit [node] (case (:op node) :const (emit-const (:val node)) :local (munge-name (:name node)) @@ -853,14 +755,11 @@ :host-new (str "(host-new " (chez-str-lit (:class node)) (let [args (map emit (:args node))] (if (empty? args) "" (str " " (str/join " " args)))) ")") - ;; the test is non-tail; then/else inherit the if's tail position :if (let [test (:test node) - t (binding [*tail?* false] - (if (returns-scheme-bool? test) (emit test) - (str "(jolt-truthy? " (emit test) ")")))] + t (if (returns-scheme-bool? test) (emit test) + (str "(jolt-truthy? " (emit test) ")"))] (str "(if " t " " (emit (:then node)) " " (emit (:else node)) ")")) - ;; non-last statements are non-tail; the ret inherits the do's tail position - :do (str "(begin " (binding [*tail?* false] (str/join " " (mapv emit (:statements node)))) + :do (str "(begin " (str/join " " (map emit (:statements node))) (if (empty? (:statements node)) "" " ") (emit (:ret node)) ")") :invoke (emit-invoke node) ;; collection literals -> rt constructors (collections.ss). Elements are @@ -904,17 +803,15 @@ :fn (emit-fn node) ;; (def name) with no init (declare): reserve the cell. A def with non-empty ;; reader metadata lowers to def-var-with-meta! (ported in a later increment). - :def (let [reg (trace-source-reg node) - d (cond - (:no-init node) - (str "(declare-var! " (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) ")") - (jmeta-nonempty? (:meta node)) - (str "(def-var-with-meta! " (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) " " - (emit-with-cells #(emit (:init node))) " " (emit-def-meta node) ")") - :else - (str "(def-var! " (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) " " - (emit-with-cells #(emit (:init node))) ")"))] - (if (= reg "") d (str "(begin " d reg ")"))) + :def (cond + (:no-init node) + (str "(declare-var! " (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) ")") + (jmeta-nonempty? (:meta node)) + (str "(def-var-with-meta! " (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) " " + (emit-with-cells #(emit (:init node))) " " (emit-def-meta node) ")") + :else + (str "(def-var! " (chez-str-lit (:ns node)) " " (chez-str-lit (:name node)) " " + (emit-with-cells #(emit (:init node))) ")")) (throw (ex-info (str "emit: op not yet ported / unhandled: " (pr-str (:op node))) {})))) ;; ^:dynamic / ^:redef on a def opts it out of direct-linking: it stays redefinable, diff --git a/jolt-core/jolt/deps.clj b/jolt-core/jolt/deps.clj index f7c6799..4ca6cc2 100644 --- a/jolt-core/jolt/deps.clj +++ b/jolt-core/jolt/deps.clj @@ -66,10 +66,6 @@ (if-let [root (:deps/root spec)] (str checkout "/" root) checkout)) (:jolt/module spec) (do (warn "skipping janet dependency " coord " (:jolt/module is obsolete on Chez)") nil) - ;; jolt IS Clojure — a dependency on org.clojure/clojure is satisfied - ;; intrinsically, so skip it silently rather than warning about the (unusable) - ;; :mvn/version coordinate. - (= coord 'org.clojure/clojure) nil :else (do (warn "skipping unsupported coordinate " coord " " (pr-str spec)) nil))) diff --git a/jolt-core/jolt/main.clj b/jolt-core/jolt/main.clj index 9254099..392979c 100644 --- a/jolt-core/jolt/main.clj +++ b/jolt-core/jolt/main.clj @@ -8,8 +8,6 @@ (defn- project-dir [] (or (jolt.host/getenv "JOLT_PWD") ".")) -(defn- version [] (jolt.host/jolt-version)) - (defn- current-platform [] (let [os (str/lower-case (or (System/getProperty "os.name") ""))] (cond (str/includes? os "mac") :darwin @@ -30,11 +28,7 @@ (let [c (get spec plat) cands (if (string? c) [c] (vec c)) hit (some #(when (jolt.ffi/loaded? %) %) cands)] - ;; A :static spec has no runtime shared object (it's linked into a - ;; built binary), so an interpreted `run`/`repl` has nothing to load — - ;; skip it rather than fail. Its foreign calls only resolve in a static - ;; build; document a dynamic candidate too to use it under `run`. - (when (and (nil? hit) (not (:optional spec)) (not (:static spec))) + (when (and (nil? hit) (not (:optional spec))) (throw (ex-info (str "required native library " (or (:name spec) (first cands) "?") " not found — tried " (pr-str cands) " for " (name plat)) @@ -94,79 +88,22 @@ (let [{:keys [roots]} (deps/resolve-project (project-dir))] (println (str/join ":" roots)))) -(defn- repl-form-complete? - "True when `s` has balanced ()/[]/{}, no open string/char/regex, and at most - a trailing comment past the last form. Drives the REPL's read-until-complete - decision so a form split across lines is accumulated, not evaluated half-read." - [s] - (let [n (count s)] - (loop [i 0 depth 0 state :code] ; state: :code :string :regex :comment - (if (>= i n) - (and (<= depth 0) (#{:code :comment} state)) - (let [c (get s i)] - (case state - :code (cond - (= c \;) (recur (inc i) depth :comment) - (= c \\) (recur (+ i 2) depth :code) ; char literal: \( - (= c \") (recur (inc i) depth :string) - (= c \#) (if (= (get s (inc i)) \") - (recur (+ i 2) depth :regex) ; consume the #" together - (recur (inc i) depth :code)) - (#{\( \[ \{} c) (recur (inc i) (inc depth) :code) - (#{\) \] \}} c) (recur (inc i) (dec depth) :code) - :else (recur (inc i) depth :code)) - :string (cond - (= c \\) (recur (+ i 2) depth :string) ; escaped char - (= c \") (recur (inc i) depth :code) - :else (recur (inc i) depth :string)) - :regex (cond - (= c \\) (recur (+ i 2) depth :regex) - (= c \") (recur (inc i) depth :code) - :else (recur (inc i) depth :regex)) - :comment (recur (inc i) depth - (if (#{\newline \return} c) :code :comment)))))))) - -(defn- repl-read-form [] - ;; Read lines — printing a secondary prompt for continuations — until the - ;; accumulated buffer is a complete form. Returns the (possibly multi-line) - ;; buffer, or nil on EOF at the primary prompt. - (loop [buf nil] - (print (if buf "... " "user=> ")) (flush) - (let [line (read-line)] - (cond - (nil? line) buf ; EOF: nil at primary, partial mid-form - (nil? buf) (cond - (str/blank? line) (recur nil) ; skip a blank first line - (repl-form-complete? line) line - :else (recur line)) - :else (let [nb (str buf "\n" line)] - (if (repl-form-complete? nb) nb (recur nb))))))) - (defn- repl [] ;; resolve the project so deps (git libs) are on the roots and native libs are ;; loaded — same context a run gets, so (require '[some.lib]) works in the REPL. (try (apply-project! (deps/resolve-project (project-dir))) (catch :default _ nil)) - ;; REPL-driven development: trace by default so an uncaught error in evaluated - ;; code shows a tail-frame backtrace, no JOLT_TRACE needed (JOLT_TRACE=0 opts out). - (jolt.host/enable-trace!) - (println (str ";; jolt " (version) " repl — :repl/quit or ^D to exit")) + (println ";; jolt repl — ^D to exit") (loop [] - (let [form (repl-read-form)] - (when form - ;; :repl/quit / :exit exit the loop — a reliable gesture that works in any - ;; terminal, unlike ^D (some terminals/editors don't deliver it as EOF). - (if (#{:repl/quit :exit} (try (read-string form) (catch :default _ nil))) - nil - (do - (try (println (pr-str (load-string form))) - (catch :default e - (println "error:" (or (ex-message e) - (try ((resolve 'jolt.host/condition-message) e) (catch :default _ nil)) - (pr-str e))) - (when-let [bt (jolt.host/backtrace-string)] - (print bt)))) - (recur))))))) + (print "user=> ") (flush) + (let [line (read-line)] + (when line + (try (println (pr-str (load-string line))) + (catch :default e + (println "error:" (or (ex-message e) + (try ((resolve 'jolt.host/condition-message) e) (catch :default _ nil)) + (pr-str e))))) + (recur))))) ;; A deps.edn :tasks entry: a string is a shell command; a map is {:main-opts …}. (defn- run-task [name more] @@ -185,38 +122,18 @@ ;; --direct-link (or deps.edn :jolt/build {:direct-link true}) opts into closed-world ;; direct-linking: app->app calls bind directly, giving up runtime redefinition of ;; those vars and eval/load-string. Off by default — release stays dynamically linked. -;; The static-link description of a :jolt/native spec for this platform, or nil. -;; :static may be flat ({:archive "…"} / {:lib "z" :libdir "…"}) or per-platform -;; ({:darwin {…} :linux {…}}). Returns a vector build.ss reads and wraps in the -;; platform's force-load flags: ["archive" abspath] or ["lib" name libdir]. -(defn- static-link-spec [spec plat] - (when-let [s (:static spec)] - (let [p (get s plat) - s (if (map? p) p s)] - (cond - (:archive s) ["archive" (:archive s)] - (:lib s) ["lib" (:lib s) (or (:libdir s) "")] - :else nil)))) - ;; Encode a deps.edn :jolt/native spec for the build launcher, resolving the ;; current platform's candidate list now (the binary runs on this OS). Each entry -;; becomes a vector the launcher (build.ss) reads: -;; ["process"] — the running binary's own symbols (libc) -;; ["static" form …] — the lib's archive, cc-linked into the binary; its -;; symbols load from the process (default when :static -;; is present and --dynamic wasn't passed) -;; ["req"|"opt" cand…] — load a shared object at runtime, trying each in turn -;; dynamic? forces the runtime path for every lib (the --dynamic build flag). -(defn- encode-natives [natives dynamic?] +;; becomes a vector the launcher (build.ss) reads: ["process"] for the running +;; binary's own symbols, else ["req"|"opt" cand…] to try in turn. +(defn- encode-natives [natives] (let [plat (current-platform)] (vec (for [spec natives] - (let [static (and (not dynamic?) (static-link-spec spec plat))] - (cond - (:process spec) ["process"] - static (into ["static"] static) - :else (let [c (get spec plat) - cands (if (string? c) [c] (vec c))] - (into [(if (:optional spec) "opt" "req")] cands)))))))) + (if (:process spec) + ["process"] + (let [c (get spec plat) + cands (if (string? c) [c] (vec c))] + (into [(if (:optional spec) "opt" "req")] cands))))))) (defn- cmd-build [more] (let [{:keys [project-paths embed-dirs build] :as resolved} @@ -250,11 +167,7 @@ (nil? o) (str pdir "/target/" (if (= mode "dev") "debug" "release") "/" proj) (str/starts-with? o "/") o :else (str pdir "/" o))) - ;; :jolt/native libs with a :static archive are cc-linked into the - ;; binary by default; --dynamic (or deps.edn :jolt/build {:dynamic-natives - ;; true}) keeps the old behavior — load a shared object at runtime. - dynamic-natives? (boolean (or (some #{"--dynamic"} more) (:dynamic-natives build))) - natives (encode-natives (:natives resolved) dynamic-natives?) + natives (encode-natives (:natives resolved)) ;; closed-world direct-linking is opt-in: the --direct-link flag or a ;; deps.edn :jolt/build {:direct-link true}. Off otherwise. direct-link? (boolean (or (some #{"--direct-link"} more) (:direct-link build))) @@ -282,38 +195,23 @@ ;; the GUI main loop: glimmer's run marshals its startup here via ;; jolt.host/call-on-main-thread — on macOS GTK quartz, g_application_run ;; must run on the main thread or AppKit aborts when it sets the main menu. - ;; Block SIGINT in this (primordial) thread before starting the server so the - ;; accept-loop future — and the conn-handler futures it spawns — inherit a - ;; blocked SIGINT mask. Without this, ^C lands on the accept loop blocked in - ;; c-accept (a foreign call), where Chez can't fire the keyboard-interrupt - ;; handler, and the server hangs. park-until-interrupt unblocks SIGINT here - ;; once its own ^C handler is installed, so ^C reaches this thread and the - ;; shutdown hooks run cleanly. - (jolt.host/block-sigint) (let [stop ((resolve 'jolt.nrepl/start) port (:nrepl-middleware resolved))] - ;; register stop so ^C (handled by park-until-interrupt) closes the socket - ;; and drops .nrepl-port on the way out. - (jolt.host/add-shutdown-hook stop) - ;; park here until ^C (handled by park-until-interrupt's keyboard-interrupt- - ;; handler, which runs the shutdown hooks and exits). The accept loop - ;; inherited SIGINT-blocked above, so ^C is delivered to this thread. - (jolt.host/park-until-interrupt) + ;; park here until something calls jolt.host/stop-main-pump, then shut the + ;; server down cleanly (close the socket, remove .nrepl-port) and return. + (jolt.host/run-main-pump) (when stop (stop)))))) (defn- usage [] - (println (str "jolt " (version))) (println "usage: jolt [args]") - (println " -e EXPR evaluate EXPR and print the result") (println " run -m NS [args] resolve deps.edn, load NS, call its -main") (println " run FILE load a Clojure file") - (println " build -m NS [-o OUT] [--opt|--dev] [--direct-link] [--tree-shake] [--dynamic] compile a standalone binary") + (println " build -m NS [-o OUT] [--opt|--dev] [--direct-link] [--tree-shake] compile a standalone binary") (println " -M:alias [args] run the alias's :main-opts") (println " -A:alias [args] add the alias's paths/deps") (println " repl start a line REPL") (println " --nrepl-server [port] start an nREPL server (default 7888) for editors") (println " path print the resolved source roots") (println " run a deps.edn :tasks entry") - (println " --version print the jolt version") (println " --help print this message")) (defn -main [& args] @@ -322,7 +220,6 @@ (nil? cmd) (usage) (= cmd "--help") (usage) (= cmd "-h") (usage) - (#{"--version" "-V"} cmd) (println (str "jolt " (version))) (= cmd "run") (cmd-run more) (= cmd "repl") (repl) (= cmd "--nrepl-server") (nrepl more) diff --git a/jolt-core/jolt/nrepl.clj b/jolt-core/jolt/nrepl.clj index 96056c8..d886c16 100644 --- a/jolt-core/jolt/nrepl.clj +++ b/jolt-core/jolt/nrepl.clj @@ -21,66 +21,25 @@ [jolt.ffi :as ffi])) ;; --- sockets (loopback server) --------------------------------------------- -(def ^:private os-name - (str/lower-case (or (System/getProperty "os.name") ""))) -(def ^:private macos? (str/includes? os-name "mac")) -(def ^:private windows? (str/includes? os-name "win")) - -;; Load the library that provides the socket symbols BEFORE the foreign-fn -;; bindings below — defcfn resolves the C entry point when the def is evaluated -;; (at ns load), so the symbols must already be available. POSIX: the running -;; process's own libc symbols. Windows: the Winsock DLL (ws2_32), whose symbols -;; are NOT in joltc.exe's export table even though it's linked in — without this -;; explicit load, (ffi/defcfn c-socket "socket" ...) fails at load with -;; "no entry for socket". -(if windows? - (ffi/load-library "ws2_32.dll") - (ffi/load-library)) - -;; A socket is an int fd on POSIX; on Win64 it's a SOCKET (uintptr_t) handle, but -;; those are small kernel handle values that round-trip through :int, and the -;; INVALID_SOCKET error sentinel (~0) reads back as -1 — so the fd checks below -;; work unchanged on both. +;; Load libc (the running process's symbols) BEFORE the foreign-fn bindings below +;; — defcfn resolves the C entry point when the def is evaluated (at ns load), so +;; the socket symbols must already be available. +(ffi/load-library) (ffi/defcfn c-socket "socket" [:int :int :int] :int) (ffi/defcfn c-bind "bind" [:int :pointer :int] :int) (ffi/defcfn c-listen "listen" [:int :int] :int) (ffi/defcfn c-setsockopt "setsockopt" [:int :int :int :pointer :int] :int) (ffi/defcfn c-accept "accept" [:int :pointer :pointer] :int :blocking) - -;; recv/send and the socket-close call differ by platform. Winsock's recv/send -;; take an int length and return int (not ssize_t), and a socket is closed with -;; closesocket, not close. A symbol that exists on only one OS (closesocket on -;; Windows, close on POSIX) can only be bound there, so these live in the taken -;; platform branch — jolt interns the vars from both branches at analysis time, -;; so later references resolve either way. -(if windows? - (do - (ffi/defcfn c-recv "recv" [:int :pointer :int :int] :int :blocking) - (ffi/defcfn c-send "send" [:int :pointer :int :int] :int :blocking) - (ffi/defcfn c-close "closesocket" [:int] :int) - ;; Winsock must be initialized once per process before any socket call. - (ffi/defcfn c-wsastartup "WSAStartup" [:int :pointer] :int)) - (do - (ffi/defcfn c-recv "recv" [:int :pointer :size_t :int] :ssize_t :blocking) - (ffi/defcfn c-send "send" [:int :pointer :size_t :int] :ssize_t :blocking) - (ffi/defcfn c-close "close" [:int] :int))) +(ffi/defcfn c-recv "recv" [:int :pointer :size_t :int] :ssize_t :blocking) +(ffi/defcfn c-send "send" [:int :pointer :size_t :int] :ssize_t :blocking) +(ffi/defcfn c-close "close" [:int] :int) (def ^:private AF-INET 2) (def ^:private SOCK-STREAM 1) -;; SOL_SOCKET / SO_REUSEADDR: 0xffff / 4 on macOS and Windows, 1 / 2 on Linux. -(def ^:private sol-socket (if (or macos? windows?) 0xffff 1)) -(def ^:private so-reuse (if (or macos? windows?) 4 2)) - -;; Initialize Winsock (a no-op off Windows). WSAStartup is refcounted and must -;; precede any socket call; WSADATA is ~408 bytes on x64, so 512 is ample. -(defn- ensure-winsock! [] - (when windows? - (let [wsadata (ffi/alloc 512)] - (try - (let [r (c-wsastartup 0x0202 wsadata)] - (when-not (zero? r) - (throw (ex-info (str "WSAStartup failed: " r) {})))) - (finally (ffi/free wsadata)))))) +(def ^:private macos? + (str/includes? (str/lower-case (or (System/getProperty "os.name") "")) "mac")) +(def ^:private sol-socket (if macos? 0xffff 1)) +(def ^:private so-reuse (if macos? 4 2)) (defn- make-sockaddr [port] (let [sa (ffi/alloc 16)] @@ -94,7 +53,7 @@ sa)) (defn- listen-socket [port] - (ensure-winsock!) ; no-op off Windows + (ffi/load-library) ; libc process symbols (let [fd (c-socket AF-INET SOCK-STREAM 0)] (when (neg? fd) (throw (ex-info "socket() failed" {}))) (let [opt (ffi/alloc 4)] (ffi/write opt :int 0 1) (c-setsockopt fd sol-socket so-reuse opt 4) (ffi/free opt)) @@ -188,10 +147,7 @@ (try (when (and ns-str (not (str/blank? ns-str)) (find-ns (symbol ns-str))) (in-ns (symbol ns-str))) (reset! result (load-string code)) - (catch :default e - (reset! err (str (err-msg e) - (when-let [bt (jolt.host/backtrace-string)] - (str "\n" bt)))))))] + (catch :default e (reset! err (err-msg e)))))] {:value (when (nil? @err) (pr-str @result)) :out out :ns (str (ns-name *ns*)) @@ -280,31 +236,25 @@ no-op." ([port] (start port nil)) ([port middleware] - ;; An nREPL session is REPL-driven development: trace by default so an uncaught - ;; error in code evaluated over the connection shows a tail-frame backtrace, with - ;; no JOLT_TRACE needed. Covers both `--nrepl-server` and an app that starts its - ;; own server under `-M:run` (reload a namespace to trace already-loaded code). - (jolt.host/enable-trace!) (let [handler (build-handler (resolve-middleware (or middleware []))) fd (listen-socket port) ; throws on bind/listen failure stopped (atom false)] (try (spit ".nrepl-port" (str port)) (catch :default _ nil)) - (println (str "jolt " (jolt.host/jolt-version) " nREPL server started on port " - port " (127.0.0.1) — .nrepl-port written")) + (println (str "nREPL server started on port " port " (127.0.0.1) — .nrepl-port written")) (when (seq middleware) (println (str ";; middleware: " (str/join " " middleware)))) (println ";; connect your editor; ^C to stop") - (future - ;; A stop closes fd, which makes the blocking accept() return an error; the - ;; @stopped check then breaks the loop instead of spinning on the dead fd. - (loop [] + (future + ;; A stop closes fd, which makes the blocking accept() return an error; the + ;; @stopped check then breaks the loop instead of spinning on the dead fd. + (loop [] (let [conn (c-accept fd ffi/null ffi/null)] (when-not @stopped (when (>= conn 0) (future (try (handle-conn conn handler) (catch :default e (println "nrepl conn error:" (err-msg e)) (c-close conn))))) (recur))))) - (fn stop [] - (when (compare-and-set! stopped false true) - (c-close fd) - (jolt.host/delete-file ".nrepl-port")) - nil)))) + (fn stop [] + (when (compare-and-set! stopped false true) + (c-close fd) + (try (io/delete-file ".nrepl-port" true) (catch :default _ nil))) + nil)))) diff --git a/jolt-core/jolt/passes/numeric.clj b/jolt-core/jolt/passes/numeric.clj index 1f2df79..01e6337 100644 --- a/jolt-core/jolt/passes/numeric.clj +++ b/jolt-core/jolt/passes/numeric.clj @@ -183,12 +183,7 @@ ls (lng-spec nm n) bs (bd-spec nm n)] (cond - (and ds (ok? :double :double) - ;; min/max return the ORIGINAL operand (Numbers.min: an integer - ;; literal stays exact), so an int-literal operand blocks the - ;; flonum lowering there — flmin would coerce it. - (or (not (contains? #{"min" "max"} nm)) - (every? (fn [c] (= c :double)) cls))) + (and ds (ok? :double :double)) ;; coerce integer-literal operands to flonum so fl-ops never see an exact int. (let [args' (mapv (fn [nd] (if (int-lit? nd) (assoc nd :val (double (get nd :val))) nd)) argnodes)] diff --git a/stdlib/clojure/edn.clj b/stdlib/clojure/edn.clj index 823a6a4..6015af8 100644 --- a/stdlib/clojure/edn.clj +++ b/stdlib/clojure/edn.clj @@ -16,15 +16,7 @@ ;; Reader FORMS are detected by :jolt/type tag, never by map? — strict map? ;; (correctly) excludes tagged structs, so the old (and (map? x) ...) guard ;; would skip them. - (= :jolt/set (get x :jolt/type)) - (let [vs (map (fn [v] (edn->value opts v)) (get x :value)) - st (set vs)] - ;; duplicate literal elements are invalid edn - (when (< (count st) (count vs)) - (throw (new IllegalArgumentException - (str "Duplicate key: " (pr-str (some (fn [[k n]] (when (< 1 n) k)) - (frequencies vs))))))) - (with-meta st (edn->value opts (meta x)))) + (= :jolt/set (get x :jolt/type)) (with-meta (set (map (fn [v] (edn->value opts v)) (get x :value))) (edn->value opts (meta x))) ;; Tagged elements: a reader from the :readers opt wins, then the built-in ;; data readers (#uuid/#inst + registered); an unknown tag falls to the ;; :default opt fn (called with tag and value, as in Clojure) or throws. @@ -38,9 +30,6 @@ custom (get (get opts :readers) tag-sym)] (cond custom (custom v) - ;; the built-in edn tags win over :default (a :readers entry can - ;; override them; an unknown-tag :default never sees #inst/#uuid) - (contains? #{'inst 'uuid 'bigdec} tag-sym) (__read-tagged tag v) ;; Clojure calls :default with the tag as a SYMBOL and the value. (get opts :default) ((get opts :default) tag-sym v) :else (__read-tagged tag v))) @@ -50,30 +39,25 @@ ;; a constructed set: recurse into its elements too, so a tagged literal ;; inside #{…} gets the :readers/:default treatment (aero's #ref in a set). (set? x) (with-meta (set (map (fn [v] (edn->value opts v)) x)) (edn->value opts (meta x))) - ;; edn lists are lists (list? holds), not lazy seqs - (seq? x) (with-meta (apply list (map (fn [v] (edn->value opts v)) x)) (edn->value opts (meta x))) + (seq? x) (with-meta (map (fn [v] (edn->value opts v)) x) (edn->value opts (meta x))) :else x)) ;; Private helper, NOT named read-string: an unqualified (read-string …) call ;; dispatches the core read-string SPECIAL FORM (by name, regardless of ns), so ;; the 1-arity can't delegate to the 2-arity through that name. (defn- read-edn [opts s] - ;; the strict edn seam: no auto-resolved keywords, invalid tokens throw, and - ;; each #_ discard is validated through the same :readers/:default pipeline. - ;; EOF (blank/comment-only/nil input) honors :eof; an opts map WITHOUT :eof - ;; makes end-of-input an error, like the reference. - (let [v (__read-form-edn s (fn [form] (edn->value opts form) nil))] - (if (= v :jolt/reader-eof) - (if (contains? opts :eof) - (get opts :eof) - (throw (ex-info "EOF while reading" {}))) - (edn->value opts v)))) + (if (or (nil? s) (cstr/blank? s)) + (get opts :eof nil) + ;; read the RAW form (tagged/set literals stay forms) so edn->value applies + ;; every #tag through :readers/:default — read-string would build the built-in + ;; #inst/#uuid eagerly, ignoring an override and failing on a non-string form. + (edn->value opts (__read-form-raw s)))) (defn read-string - "Reads one object from the string s. The no-opts arity returns nil at end of - input; with an opts map, :eof sets the value returned at end of input and its - absence makes end-of-input an error." - ([s] (read-edn {:eof nil} s)) + "Reads one object from the string s. Returns the :eof option value (default + nil) for nil or blank input. opts is an options map; :eof sets the value + returned at end of input." + ([s] (read-edn {} s)) ([opts s] (read-edn opts s))) (defn- drain-reader diff --git a/stdlib/clojure/string.clj b/stdlib/clojure/string.clj index c211650..e37eb9f 100644 --- a/stdlib/clojure/string.clj +++ b/stdlib/clojure/string.clj @@ -6,32 +6,28 @@ (if (nil? s) true (= 0 (count (str-trim s))))) -;; The case fns and the searches take any Object s through its toString, like -;; the reference ((upper-case :kw) is ":KW", (capitalize 1) is "1"); nil throws -;; like calling a method on null. -(defn- to-str [s] - (if (nil? s) - (throw (new NullPointerException "s")) - (.toString s))) (defn capitalize + [s] - (let [s (to-str s)] - (if (< 1 (count s)) - (str (str-upper (subs s 0 1)) - (str-lower (subs s 1))) - (str-upper s)))) + (if (< 1 (count s)) + (str (str-upper (subs s 0 1)) + (str-lower (subs s 1))) + (str-upper s))) (defn lower-case + [s] - (str-lower (to-str s))) + (str-lower s)) (defn upper-case + [s] - (str-upper (to-str s))) + (str-upper s)) (defn includes? + [s substr] - (not (nil? (str-find substr (to-str s))))) + (not (nil? (str-find substr s)))) (defn join @@ -40,11 +36,11 @@ (defn replace [s match replacement] - (str-replace-all match replacement (to-str s))) + (str-replace-all match replacement s)) (defn replace-first [s match replacement] - (str-replace match replacement (to-str s))) + (str-replace match replacement s)) (defn reverse [s] @@ -72,18 +68,16 @@ (vec (str-split #"\r?\n" s))) (defn starts-with? + [s substr] - (when (nil? substr) (throw (new NullPointerException "substr"))) - (let [s (to-str s) - slen (count s) slen2 (count substr)] + (let [slen (count s) slen2 (count substr)] (and (>= slen slen2) (= (subs s 0 slen2) substr)))) (defn ends-with? + [s substr] - (when (nil? substr) (throw (new NullPointerException "substr"))) - (let [s (to-str s) - slen (count s) slen2 (count substr)] + (let [slen (count s) slen2 (count substr)] (and (>= slen slen2) (= (subs s (- slen slen2)) substr)))) @@ -103,8 +97,8 @@ (str-trimr s)) (defn escape + [s cmap] - (when (nil? s) (throw (new NullPointerException "s"))) (apply str (map (fn [ch] (if-let [rep (cmap ch)] rep (str ch))) @@ -113,9 +107,9 @@ (defn index-of "0-based index of the first occurrence of value in s, or nil." ([s value] - (str-find value (to-str s))) + (str-find value s)) ([s value from] - (let [idx (str-find value (subs (to-str s) from))] + (let [idx (str-find value (subs s from))] (when idx (+ from idx))))) (defn last-index-of diff --git a/stdlib/clojure/test.clj b/stdlib/clojure/test.clj index 17eef32..420da95 100644 --- a/stdlib/clojure/test.clj +++ b/stdlib/clojure/test.clj @@ -11,8 +11,7 @@ ; is a drop-in superset. (ns clojure.test - (:require [clojure.string :as str] - [clojure.template :as temp])) + (:require [clojure.string :as str])) ;; --- state ----------------------------------------------------------------- @@ -20,8 +19,8 @@ (def jolt-report counters) ;; alias used by the suite harness (def ctx-stack (atom [])) (def registry (atom [])) ;; [{:name sym :fn thunk}] -(def once-fixtures (atom {})) ;; ns-sym -> [fixture-fns] -(def each-fixtures (atom {})) ;; ns-sym -> [fixture-fns] +(def once-fixtures (atom [])) +(def each-fixtures (atom [])) ;; clojure.test/*testing-vars* — the stack of vars under test. Real clojure.test ;; binds it around each test var; test.check's default reporter reads it, so a @@ -33,8 +32,8 @@ (reset! counters {:test 0 :pass 0 :fail 0 :error 0 :fails []}) (reset! ctx-stack []) (reset! registry []) - (reset! once-fixtures {}) - (reset! each-fixtures {})) + (reset! once-fixtures []) + (reset! each-fixtures [])) (defn- ctx-str [] (str/join " " @ctx-stack)) @@ -103,12 +102,6 @@ (clojure.test/do-report {:type :error :message ~msg :form '~form :actual (clojure.test/err-text e#)})))) -;; The common pure predicates whose args `is` evaluates so a failure shows the -;; actual values — (is (= expected got)) prints `got`, not just the form. A macro -;; head (not in this set) keeps the plain form-only path. -(def ^:private reported-preds - '#{= not= == < > <= >= identical? contains? instance? nil? some? empty? even? odd? pos? neg? zero?}) - ;; --- class matching for thrown? -------------------------------------------- (defn- last-seg [s] @@ -136,15 +129,6 @@ ([form] `(is ~form nil)) ([form msg] (cond - ;; a library-registered custom assertion (the assert-expr extension point) - ;; wins over every inline path, like clojure.test, where each `is` dispatches - ;; assert-expr on the exact head symbol and the built-ins are just - ;; pre-registered methods. In particular a registered alias-qualified - ;; `p/thrown?` must not be captured by the by-name thrown? path below. - (and (seq? form) (symbol? (first form)) - (contains? (methods clojure.test/assert-expr) (first form))) - (clojure.test/assert-expr msg form) - ;; (is (thrown? Class body...)) (thrown-form? form "thrown?") (let [klass-sym (second form) @@ -182,17 +166,12 @@ (clojure.test/inc-pass!) (clojure.test/fail! (str "expected throw of " ~klass " matching " ~re " but got " (clojure.core/class e#) ": " m#))))))) - ;; a predicate call — (= a b), (< x y), (pred? v): evaluate the args so a - ;; failure shows the actual values, like clojure.test's assert-predicate. - (and (seq? form) (contains? clojure.test/reported-preds (first form))) - `(try - (let [vs# (list ~@(rest form))] - (if (apply ~(first form) vs#) - (clojure.test/inc-pass!) - (clojure.test/fail! (str (pr-str (list '~'not (cons '~(first form) vs#))) - (when ~msg (str " — " ~msg)))))) - (catch Throwable e# - (clojure.test/err! (str (pr-str '~form) " threw: " (clojure.test/err-text e#))))) + ;; a library-registered custom assertion (the assert-expr extension point); + ;; only fires for a symbol with an explicitly registered method, so built-in + ;; predicate forms keep the inline path below. + (and (seq? form) (symbol? (first form)) + (contains? (methods clojure.test/assert-expr) (first form))) + (clojure.test/assert-expr msg form) :else `(try @@ -212,33 +191,23 @@ (defmacro deftest [name & body] `(do (defn ~name [] ~@body) - (swap! clojure.test/registry conj {:name '~name - :ns (clojure.core/ns-name clojure.core/*ns*) - :fn ~name}) + (swap! clojure.test/registry conj {:name '~name :fn ~name}) (var ~name))) -;; Template substitution (not let-binding), so argv symbols substitute inside -;; quote and nested forms: (are [x] (special-symbol? 'x) if def) tests 'if. -(defmacro are [argv expr & args] - (if (or (and (empty? argv) (empty? args)) - (and (pos? (count argv)) - (pos? (count args)) - (zero? (mod (count args) (count argv))))) - `(clojure.template/do-template ~argv (clojure.test/is ~expr) ~@args) - (throw (IllegalArgumentException. - "The number of args doesn't match are's argv or neither are empty")))) +(defmacro are [argv expr & data] + (let [n (count argv) + rows (partition n data)] + `(do ~@(map (fn [row] + `(let [~@(interleave argv row)] + (clojure.test/is ~expr))) + rows)))) ;; --- fixtures + run -------------------------------------------------------- -;; Fixtures are per-namespace, like clojure.test (which stores them in ns -;; metadata): use-fixtures records them under the calling ns, and only that -;; ns's tests run through them — a suite loading many test namespaces into one -;; process doesn't cross-apply or clobber another ns's fixtures. (defn use-fixtures [kind & fns] - (let [n (ns-name *ns*)] - (cond - (= kind :once) (swap! once-fixtures assoc n (vec fns)) - (= kind :each) (swap! each-fixtures assoc n (vec fns))))) + (cond + (= kind :once) (reset! once-fixtures (vec fns)) + (= kind :each) (reset! each-fixtures (vec fns)))) (defn- wrap-fixtures [fixtures body-fn] (if (empty? fixtures) @@ -247,46 +216,25 @@ (defn- run-one [t] (swap! counters update :test inc) - (wrap-fixtures (get @each-fixtures (:ns t) []) + (wrap-fixtures @each-fixtures (fn [] (try ((:fn t)) (catch Throwable e (err! (str (:name t) " crashed: " (err-text e)))))))) -;; Run the registered tests grouped by namespace (registration order preserved -;; within each ns), each group wrapped in its ns's :once fixtures. ns-set nil -;; means all. -(defn- run-selected [ns-set] - (let [ts (if ns-set (filter (fn [t] (contains? ns-set (:ns t))) @registry) @registry)] - (doseq [n (distinct (map :ns ts))] - (wrap-fixtures (get @once-fixtures n []) - (fn [] (doseq [t ts :when (= n (:ns t))] (run-one t)))))) +(defn run-registered [] + (doseq [t @registry] (run-one t)) nil) -(defn run-registered [] (run-selected nil)) - -;; (run-tests 'ns1 'ns2 …) runs only those namespaces' tests, like clojure.test. -;; With no args it runs everything registered (a deliberate superset of the -;; JVM's current-ns default — jolt's harnesses load then run whole suites). -;; Prints and returns THIS call's summary; the global counters stay cumulative -;; for the n-pass/n-fail harness API. -(defn run-tests [& nses] - (let [before @counters - ns-set (when (seq nses) - (set (map (fn [n] (if (symbol? n) n (ns-name n))) nses)))] - (run-selected ns-set) - (let [r @counters - d {:type :summary - :test (- (:test r) (:test before)) - :pass (- (:pass r) (:pass before)) - :fail (- (:fail r) (:fail before)) - :error (- (:error r) (:error before))}] - (println) - (println (str "Ran " (:test d) " tests. " - (:pass d) " assertions passed, " - (:fail d) " failures, " (:error d) " errors.")) - d))) +(defn run-tests [& _nses] + (wrap-fixtures @once-fixtures (fn [] (run-registered))) + (let [r @counters] + (println) + (println (str "Ran " (:test r) " tests. " + (:pass r) " assertions passed, " + (:fail r) " failures, " (:error r) " errors.")) + r)) (defn run-test [& _] nil) (defn test-var [& _] nil) diff --git a/stdlib/clojure/walk.clj b/stdlib/clojure/walk.clj index 7a1b1f1..c18f28c 100644 --- a/stdlib/clojure/walk.clj +++ b/stdlib/clojure/walk.clj @@ -19,10 +19,7 @@ ; concat/lazy-seq) walk too — without this, postwalk-replace silently no-op'd ; a quoted list, breaking clojure.template/apply-template (list? form) (outer (with-meta (apply list (map inner form)) (meta form))) - ; doall like Clojure: walk must be eager so an `inner` with side effects - ; (rewrite-clj's #() reader bumps an arg-count atom during the walk, read right - ; after) runs now, not lazily when the result is later realized. - (seq? form) (outer (with-meta (doall (map inner form)) (meta form))) + (seq? form) (outer (with-meta (map inner form) (meta form))) :else (outer form))) (defn postwalk diff --git a/test/chez/README.md b/test/chez/README.md index 8f8b4d5..46a8a23 100644 --- a/test/chez/README.md +++ b/test/chez/README.md @@ -7,7 +7,7 @@ test` from the repo root. ## The spec corpus -`corpus.edn` is the contract: ~3570 rows `{:suite :label :expected :actual :portability}`, with +`corpus.edn` is the contract: ~2920 rows `{:suite :label :expected :actual}`, with `:expected` sourced from reference JVM Clojure by `test/conformance/regen-corpus.clj`. It is frozen (the canonical source) — add or change cases here, then re-source the answers with `regen-corpus.clj` and re-certify with `test/conformance/certify.clj`. @@ -22,7 +22,7 @@ answers with `regen-corpus.clj` and re-certify with `test/conformance/certify.cl chez --script host/chez/run-corpus.ss JOLT_CORPUS_LIMIT=200 … # every-Nth stride, fast iteration - JOLT_CHEZ_ZJ_FLOOR=N … # override the floor (see run-corpus.ss) + JOLT_CHEZ_ZJ_FLOOR=N … # override the floor (default 2678) - `run-unit.ss` — host-specific unit cases (`test/chez/unit.edn`) that aren't in the JVM-portable corpus: dot-forms, java statics, io, reader, walk, vars/namespaces, @@ -32,16 +32,6 @@ answers with `regen-corpus.clj` and re-certify with `test/conformance/certify.cl - `selfcheck.sh` — self-host fixpoint: `bootstrap.ss` rebuild byte-equals the checked-in seed (`host/chez/seed/`). - `smoke.sh` — real `bin/joltc -e` CLI smoke. -- `cts.sh` — the vendored [jank-lang/clojure-test-suite](https://github.com/jank-lang/clojure-test-suite) - (`vendor/clojure-test-suite`, a per-core-fn clojure.test suite shared across - Clojure dialects), run one namespace per `joltc` process (a hang or crash is - contained) through the `test/chez/cts-app` project and `cts-run` runner. - Per-namespace fail/error counts must exactly match the checked-in baseline - `test/chez/cts-known-failures.txt` — a namespace doing worse fails the gate, - and one doing better fails as stale until the baseline is updated in the same - change. `make cts`; - `JOLT_CTS_NS=ns1,ns2` runs a subset verbosely, - `JOLT_CTS_WRITE_BASELINE=1` regenerates the baseline. ## Other Chez tests diff --git a/test/chez/alias-leak-app/deps.edn b/test/chez/alias-leak-app/deps.edn deleted file mode 100644 index ccd9a31..0000000 --- a/test/chez/alias-leak-app/deps.edn +++ /dev/null @@ -1 +0,0 @@ -{:paths ["src"]} diff --git a/test/chez/alias-leak-app/src/fix/lib.clj b/test/chez/alias-leak-app/src/fix/lib.clj deleted file mode 100644 index 17a8208..0000000 --- a/test/chez/alias-leak-app/src/fix/lib.clj +++ /dev/null @@ -1,3 +0,0 @@ -(ns fix.lib - (:require [clojure.set :as ss])) -(defn u [] (ss/union #{1} #{2})) diff --git a/test/chez/alias-leak-app/src/fix/main.clj b/test/chez/alias-leak-app/src/fix/main.clj deleted file mode 100644 index 9bf744b..0000000 --- a/test/chez/alias-leak-app/src/fix/main.clj +++ /dev/null @@ -1,5 +0,0 @@ -(ns fix.main - (:require [clojure.string :as ss] - [fix.lib :as lib])) -(defn -main [& _] - (println (ss/upper-case "hi") (lib/u))) diff --git a/test/chez/clojure-test.clj b/test/chez/clojure-test.clj index a323dc9..e222ae3 100644 --- a/test/chez/clojure-test.clj +++ b/test/chez/clojure-test.clj @@ -11,17 +11,6 @@ (clojure.test/do-report {:type :pass}) (clojure.test/do-report {:type :fail :message ~msg :form '~form})))) -;; an ALIAS-QUALIFIED registered assertion whose simple name collides with the -;; built-in thrown? — the registered method must win over the by-name inline -;; path (clojure-test-suite's portability/thrown? registers exactly this shape). -(defmethod t/assert-expr 'p/thrown? [msg form] - `(try - (do ~@(rest form)) - (clojure.test/do-report {:type :fail :message ~msg :form '~form}) - (catch Throwable e# - (clojure.test/do-report {:type :pass}) - e#))) - ;; a custom report type (how test.check surfaces trial/shrink progress) (def trials (atom 0)) (defmethod t/report ::trial [_m] (swap! trials inc)) @@ -36,34 +25,23 @@ (are [x y] (= x y) 2 (+ 1 1) 6 (* 2 3)) - ;; template vars substitute inside quote (are is clojure.template, not let) - (are [x] (special-symbol? 'x) - if - def) (is (thrown? clojure.lang.ExceptionInfo (throw (ex-info "x" {})))) (is (thrown-with-msg? Exception #"bad" (throw (ex-info "bad" {})))) - (is (near? 1.0 1.005)) - (is (p/thrown? (throw (ex-info "boom" {}))))) + (is (near? 1.0 1.005))) (deftest expected-fail (is (= 1 2)) (is (near? 1.0 5.0))) -;; run-tests returns THIS call's summary; with explicit nses it runs only their -;; tests (an unknown ns runs nothing). -(def r1 (run-tests)) -(def r2 (run-tests 'no.such.test-ns)) +(run-tests) (t/do-report {:type ::trial}) (t/do-report {:type ::trial}) -;; 10 pass (= + vector? + 4 are rows + thrown? + thrown-with-msg? + near? + p/thrown?), +;; 7 pass (= + vector? + 2 are rows + thrown? + thrown-with-msg? + near?), ;; 2 fail (= 1 2, near? 1.0 5.0), 0 error, 2 fixture runs, 2 custom reports -(let [ok (and (= (t/n-pass) 10) (= (t/n-fail) 2) (= (t/n-error) 0) - (= 2 (:test r1)) (= 10 (:pass r1)) (= 2 (:fail r1)) - (= 0 (:test r2)) (= 0 (:pass r2)) +(let [ok (and (= (t/n-pass) 7) (= (t/n-fail) 2) (= (t/n-error) 0) (= @setups 2) (= @trials 2))] (println (if ok "CLOJURE-TEST OK" (str "CLOJURE-TEST FAIL pass=" (t/n-pass) " fail=" (t/n-fail) - " error=" (t/n-error) " r1=" (pr-str r1) " r2=" (pr-str r2) - " setups=" @setups " trials=" @trials)))) + " error=" (t/n-error) " setups=" @setups " trials=" @trials)))) diff --git a/test/chez/corpus.edn b/test/chez/corpus.edn index c4117b4..5ca11c6 100644 --- a/test/chez/corpus.edn +++ b/test/chez/corpus.edn @@ -1,3587 +1,3486 @@ [ - {:suite "host-interop / reify ILookup" :label "(get reify k) / (:k reify) / (get reify k d) route to valAt" :expected "[1 1 :dflt]" :actual "(let [r (reify clojure.lang.ILookup (valAt [_ k] (get {:a 1} k)) (valAt [_ k d] (get {:a 1} k d)))] [(:a r) (get r :a) (get r :z :dflt)])" :portability :jvm} - {:suite "regex / alternation submatch" :label "a non-participating alternation group is nil, not a stale capture" :expected "[\"2r11\" nil \"2\" \"11\"]" :actual "(re-matches #\"(?:([0-9])|([0-9])r([0-9]+))\" \"2r11\")" :portability :common} - {:suite "regex / radix read" :label "tools.reader-style radix parse: winning branch's groups, not the losing one's" :expected "[12 255]" :actual "[(read-string \"2r1100\") (read-string \"16rFF\")]" :portability :common} - {:suite "numbers / comparison error class" :label "nil operand is NPE, non-number is CCE" :expected "[\"java.lang.NullPointerException\" \"java.lang.ClassCastException\"]" :actual "[(try (> nil 5) (catch Throwable e (.getName (class e)))) (try (> :k 5) (catch Throwable e (.getName (class e))))]" :portability :jvm} - {:suite "reader / quoted #inst constructs a value" :label "a quoted #inst literal is the constructed Date, not a tagged form" :expected "\"(f #inst \\\"1939-01-01T00:00:00.000-00:00\\\")\"" :actual "(pr-str (quote (f #inst \"1939\")))" :portability :common} - {:suite "fn / kwargs trailing map" :label "(f :k v {map}) and (f {map}) both bind & {:as m}" :expected "[{:x 1 :y 2} {:x 1 :y 2}]" :actual "[((fn [a & {:as m}] m) 1 :x 1 {:y 2}) ((fn [a & {:as m}] m) 1 {:x 1 :y 2})]" :portability :common} - {:suite "destructure / :or" :label "map default when key absent" :expected "9" :actual "(let [{x :x :or {x 9}} {}] x)" :portability :common} - {:suite "destructure / :or" :label "kwargs default when key absent" :expected "9" :actual "((fn [& {x :x :or {x 9}}] x))" :portability :common} - {:suite "destructure / :or" :label "default not used when key present" :expected "5" :actual "(let [{x :x :or {x 9}} {:x 5}] x)" :portability :common} - {:suite "destructure / for :let" :label "a for/doseq :let binding may itself destructure" :expected "[10 20]" :actual "(vec (for [x [1 2] :let [{:keys [y]} {:y (* x 10)}]] y))" :portability :common} - {:suite "deftype / method param shadows field" :label "a method param named like a field shadows it (Clojure scope)" :expected "9" :actual "(do (defprotocol P (setm [this q])) (defrecord R [k m] P (setm [this m] (assoc this :m m))) (:m (setm (->R 1 nil) 9)))" :portability :common} - {:suite "walk / eager" :label "clojure.walk is eager over a lazy seq (side effects run now)" :expected "3" :actual "(let [a (atom 0)] (clojure.walk/postwalk (fn [x] (when (number? x) (swap! a inc)) x) (map inc (list 1 2 3))) @a)" :portability :common} - {:suite "chars / isWhitespace" :label "Character/isWhitespace matches the JVM (Unicode line-sep yes, no-break space no)" :expected "[true true false false]" :actual "(mapv (fn [c] (Character/isWhitespace (char c))) [0x2028 32 0x00A0 65])" :portability :jvm} - {:suite "deftype / field access" :label ".field reads a deftype field" :expected "7" :actual "(do (deftype FldT [q]) (.q (->FldT 7)))" :portability :jvm} - {:suite "fn / pre-post" :label ":pre + :post pass" :expected "5" :actual "(do (defn ppf [x] {:pre [(pos? x)] :post [(= % x)]} x) (ppf 5))" :portability :common} - {:suite "fn / pre-post" :label ":pre failure throws" :expected ":blocked" :actual "(do (defn ppg [x] {:pre [(pos? x)]} x) (try (ppg -1) (catch Throwable _ :blocked)))" :portability :common} - {:suite "deftype / map-like dispatch" :label "dissoc + keys via IPersistentMap/Seqable methods" :expected "[:b]" :actual "(do (deftype MapT [m] clojure.lang.Seqable (seq [_] (seq m)) clojure.lang.IPersistentMap (without [_ k] (->MapT (dissoc m k))) (assoc [_ k v] (->MapT (assoc m k v)))) (vec (keys (dissoc (->MapT {:a 1 :b 2}) :a))))" :portability :jvm} - {:suite "delay / exception memoization" :label "throwing body runs once, stays realized, re-throws" :expected "[1 true]" :actual "(let [n (atom 0) d (delay (swap! n inc) (throw (ex-info \"e\" {})))] (dotimes [_ 3] (try (deref d) (catch Throwable _ nil))) [(deref n) (realized? d)])" :portability :common} - {:suite "queue / pop" :label "pop of empty PersistentQueue returns empty" :expected "nil" :actual "(seq (pop clojure.lang.PersistentQueue/EMPTY))" :portability :jvm} - {:suite "interop / iterator-seq" :label "iterator-seq over .iterator" :expected "[:a :b]" :actual "(vec (iterator-seq (.iterator [:a :b])))" :portability :jvm} - {:suite "deftype / IPersistentStack" :label "peek/pop dispatch" :expected "[1 [2 3]]" :actual "(do (deftype Stk [v] clojure.lang.IPersistentStack (peek [_] (first v)) (pop [_] (->Stk (rest v)))) [(peek (->Stk [1 2 3])) (vec (.v (pop (->Stk [1 2 3]))))])" :portability :jvm} - {:suite "deftype / equiv" :label "(= deftype other) uses equiv method" :expected "true" :actual "(do (deftype EqT [m] clojure.lang.IPersistentCollection (equiv [_ o] (= o m)) clojure.lang.Seqable (seq [_] (seq m))) (= (->EqT {:a 1}) {:a 1}))" :portability :jvm} - {:suite "deftype / IDeref" :label "@ dispatches to the deref method" :expected "7" :actual "(do (deftype Box [v] clojure.lang.IDeref (deref [_] v)) (deref (->Box 7)))" :portability :jvm} - {:suite "reify / IDeref" :label "@ dispatches to the deref method" :expected "7" :actual "(deref (reify clojure.lang.IDeref (deref [_] 7)))" :portability :jvm} - {:suite "deftype / mutable field" :label "set! is observed by a later read in the same method" :expected "9" :actual "(do (deftype B [^:unsynchronized-mutable v] clojure.lang.IDeref (deref [_] (set! v 9) v)) (deref (->B 0)))" :portability :jvm} - {:suite "def / metadata evaluation" :label "a symbol metadata value evaluates to its var" :expected "true" :actual "(do (def ^{:af rest} mv 1) (fn? (:af (meta (var mv)))))" :portability :common} - {:suite "def / metadata evaluation" :label "an expression metadata value is evaluated" :expected "3" :actual "(do (def ^{:k (+ 1 2)} mv2 1) (:k (meta (var mv2))))" :portability :common} - {:suite "interop / class ancestry" :label "(ancestors (class fn)) includes a callable interface" :expected "true" :actual "(boolean (some #{java.lang.Runnable java.util.concurrent.Callable} (ancestors (class identity))))" :portability :jvm} - {:suite "interop / AssertionError" :label "construct + catch as Throwable" :expected "\"boom\"" :actual "(try (throw (AssertionError. \"boom\")) (catch Throwable e (.getMessage e)))" :portability :jvm} - {:suite "try / multi-catch" :label "dispatches to the matching class clause, not the first" :expected ":rte" :actual "(try (throw (RuntimeException. \"x\")) (catch NullPointerException _ :npe) (catch RuntimeException _ :rte) (catch Exception _ :exc))" :portability :jvm} - {:suite "try / multi-catch" :label "Error is not caught by an Exception clause" :expected ":thr" :actual "(try (throw (Error. \"e\")) (catch Exception _ :exc) (catch Throwable _ :thr))" :portability :jvm} - {:suite "try / multi-catch" :label "no matching clause re-throws to an outer catch" :expected ":outer" :actual "(try (try (throw (RuntimeException. \"x\")) (catch NullPointerException _ :npe)) (catch Exception _ :outer))" :portability :jvm} - {:suite "try / multi-catch" :label "a host condition is caught by its RuntimeException subclass" :expected ":arith" :actual "(try (/ 1 0) (catch ArithmeticException _ :arith) (catch Throwable _ :other))" :portability :common} - {:suite "locking" :label "returns the body value" :expected "42" :actual "(let [o (Object.)] (locking o 42))" :portability :common} - {:suite "locking" :label "reentrant on the same object" :expected "42" :actual "(let [o (Object.)] (locking o (locking o 42)))" :portability :common} - {:suite "defn / docstring" :label "leading docstring becomes :doc metadata" :expected "\"the docs\"" :actual "(do (defn dd \"the docs\" [x] x) (:doc (meta (var dd))))" :portability :common} - {:suite "assert" :label "failed assert throws AssertionError" :expected ":ae" :actual "(try (assert false) (catch AssertionError _ :ae))" :portability :common} - {:suite "fn / pre-post" :label ":pre failure throws AssertionError" :expected ":caught" :actual "(do (defn pp [x] {:pre [(pos? x)]} x) (try (pp -1) (catch AssertionError _ :caught)))" :portability :common} - {:suite "interop / Seqable" :label "a vector is Seqable but not an ISeq" :expected "[true false]" :actual "[(instance? clojure.lang.Seqable [1 2 3]) (instance? clojure.lang.ISeq [1 2 3])]" :portability :jvm} - {:suite "interop / Seqable" :label "a map is Seqable" :expected "true" :actual "(instance? clojure.lang.Seqable {:a 1})" :portability :jvm} - {:suite "extend-protocol / class value" :label "extend to (Class/forName \"[B\") dispatches a byte-array" :expected "[:ba :str]" :actual "(do (defprotocol P (m [x])) (extend-protocol P (Class/forName \"[B\") (m [bs] :ba) String (m [s] :str)) [(m (byte-array 1)) (m \"x\")])" :portability :jvm} - {:suite "interop / ByteBuffer" :label "wrap then remaining + array" :expected "[3 [1 2 3]]" :actual "(let [bb (java.nio.ByteBuffer/wrap (byte-array [1 2 3]))] [(.remaining bb) (vec (.array bb))])" :portability :jvm} - {:suite "interop / ByteBuffer" :label "get drains into a byte-array" :expected "[1 2]" :actual "(let [bb (java.nio.ByteBuffer/wrap (byte-array [1 2])) d (byte-array 2)] (.get bb d) (vec d))" :portability :jvm} - {:suite "interop / Arrays" :label "equals on byte arrays" :expected "true" :actual "(java.util.Arrays/equals (byte-array [1 2 3]) (byte-array [1 2 3]))" :portability :jvm} - {:suite "interop / Arrays" :label "equals on unequal byte arrays" :expected "false" :actual "(java.util.Arrays/equals (byte-array [1 2]) (byte-array [1 9]))" :portability :jvm} - {:suite "interop / URI" :label "URI/create static factory" :expected "\"x.com\"" :actual "(.getHost (java.net.URI/create \"http://x.com/p\"))" :portability :jvm} - {:suite "interop / Thread" :label "start + join runs the thunk" :expected "7" :actual "(let [a (atom 0) t (Thread. (fn [] (reset! a 7)))] (.start t) (.join t) (deref a))" :portability :jvm} - {:suite "interop / CountDownLatch" :label "countDown to zero, await returns" :expected "0" :actual "(let [l (java.util.concurrent.CountDownLatch. 1)] (.countDown l) (.await l) (.getCount l))" :portability :jvm} - {:suite "interop / SoftReference" :label "get returns the referent" :expected ":v" :actual "(.get (java.lang.ref.SoftReference. :v))" :portability :jvm} - {:suite "interop / System.gc" :label "gc runs and returns" :expected "42" :actual "(do (System/gc) 42)" :portability :jvm} - {:suite "interop / ConcurrentHashMap" :label "put + get/count/contains?" :expected "[1 1 true]" :actual "(let [m (java.util.concurrent.ConcurrentHashMap.)] (.put m :a 1) [(get m :a) (count m) (contains? m :a)])" :portability :jvm} - {:suite "interop / Class.forName" :label "unknown class throws ClassNotFoundException" :expected ":nf" :actual "(try (Class/forName \"no.such.Klass\") (catch ClassNotFoundException _ :nf))" :portability :jvm} - {:suite "interop / Class.forName" :label "known class resolves" :expected "\"java.lang.String\"" :actual "(.getName (Class/forName \"java.lang.String\"))" :portability :jvm} - {:suite "clojure.string / replace" :label "char match and replacement" :expected "\"a-b-c\"" :actual "(clojure.string/replace \"a/b/c\" \\/ \\-)" :portability :common} - {:suite "clojure.string / replace" :label "char match, string replacement" :expected "\"x_y\"" :actual "(clojure.string/replace \"x.y\" \\. \"_\")" :portability :common} - {:suite "interop-fixes / deprecated #^ metadata reader" :label "#^ type hint on a param" :expected "\"x\"" :actual "(do (defn f1 [#^String s] s) (f1 \"x\"))" :portability :common} - {:suite "interop-fixes / deprecated #^ metadata reader" :label "#^\"[B\" array hint" :expected "[1 2]" :actual "(do (defn f2 [#^\"[B\" b] b) (f2 [1 2]))" :portability :common} - {:suite "interop-fixes / deprecated #^ metadata reader" :label "#^ is equivalent to ^" :expected "true" :actual "(= (meta (with-meta [] {:tag (quote String)})) {:tag (quote String)})" :portability :common} - {:suite "interop-fixes / (str pattern) yields raw source" :label "str of a regex" :expected "\"abc\"" :actual "(str #\"abc\")" :portability :common} - {:suite "interop-fixes / (str pattern) yields raw source" :label "compose patterns via str" :expected "true" :actual "(boolean (re-matches (re-pattern (str #\"<\" \"(.*)\" \">\")) \"\"))" :portability :common} - {:suite "interop-fixes / into onto a map" :label "merges map items" :expected "true" :actual "(= {:a 1 :b 2} (into {} [{:a 1} {:b 2}]))" :portability :common} - {:suite "interop-fixes / into onto a map" :label "accepts [k v] pairs" :expected "true" :actual "(= {:a 1} (into {} [[:a 1]]))" :portability :common} - {:suite "interop-fixes / into onto a map" :label "map item onto empty {}" :expected "true" :actual "(= {:x 1} (into {} (list {:x 1})))" :portability :common} - {:suite "interop-fixes / into onto a map" :label "conj a map onto {}" :expected "true" :actual "(= {:a 1} (conj {} {:a 1}))" :portability :common} - {:suite "interop-fixes / a var is callable as its value" :label "call a var directly" :expected "42" :actual "(do (def vf (fn [x] (inc x))) ((var vf) 41))" :portability :common} - {:suite "interop-fixes / a var is callable as its value" :label "var bound as a client fn" :expected "\"ok\"" :actual "(do (def base (fn [_] \"ok\")) (def mw (fn [client] (fn [req] (client req)))) ((mw (var base)) {}))" :portability :common} - {:suite "control / conditionals" :label "if true" :expected "1" :actual "(if true 1 2)" :portability :common} - {:suite "control / conditionals" :label "if false" :expected "2" :actual "(if false 1 2)" :portability :common} - {:suite "control / conditionals" :label "if nil is false" :expected "2" :actual "(if nil 1 2)" :portability :common} - {:suite "control / conditionals" :label "if no else" :expected "nil" :actual "(if false 1)" :portability :common} - {:suite "control / conditionals" :label "when true" :expected "3" :actual "(when true 1 2 3)" :portability :common} - {:suite "control / conditionals" :label "when false" :expected "nil" :actual "(when false 1)" :portability :common} - {:suite "control / conditionals" :label "when-not" :expected "1" :actual "(when-not false 1)" :portability :common} - {:suite "control / conditionals" :label "cond" :expected ":b" :actual "(cond false :a true :b :else :c)" :portability :common} - {:suite "control / conditionals" :label "cond :else" :expected ":c" :actual "(cond false :a false :b :else :c)" :portability :common} - {:suite "control / conditionals" :label "cond no match" :expected "nil" :actual "(cond false :a)" :portability :common} - {:suite "control / conditionals" :label "condp" :expected "\"two\"" :actual "(condp = 2 1 \"one\" 2 \"two\" \"other\")" :portability :common} - {:suite "control / conditionals" :label "case" :expected ":b" :actual "(case 2 1 :a 2 :b :default)" :portability :common} - {:suite "control / conditionals" :label "case default" :expected ":d" :actual "(case 9 1 :a 2 :b :d)" :portability :common} - {:suite "control / conditionals" :label "case multi" :expected ":ab" :actual "(case 2 (1 2) :ab 3 :c)" :portability :common} - {:suite "control / conditionals" :label "case symbol const" :expected ":s" :actual "(case 'foo foo :s :default)" :portability :common} - {:suite "control / conditionals" :label "case vector const" :expected ":v" :actual "(case [1 2] [1 2] :v :default)" :portability :common} - {:suite "control / conditionals" :label "case map const" :expected ":m" :actual "(case {:a 1} {:a 1} :m :default)" :portability :common} - {:suite "control / conditionals" :label "case list const" :expected ":l" :actual "(case '(a b) (quote (a b)) :l :default)" :portability :common} - {:suite "control / conditionals" :label "case keyword" :expected ":k" :actual "(case :x :x :k :default)" :portability :common} - {:suite "control / logic" :label "and all true" :expected "3" :actual "(and 1 2 3)" :portability :common} - {:suite "control / logic" :label "and short circuits" :expected "nil" :actual "(and 1 nil 3)" :portability :common} - {:suite "control / logic" :label "and empty" :expected "true" :actual "(and)" :portability :common} - {:suite "control / logic" :label "or first truthy" :expected "1" :actual "(or nil 1 2)" :portability :common} - {:suite "control / logic" :label "or all false" :expected "false" :actual "(or nil false)" :portability :common} - {:suite "control / logic" :label "or empty" :expected "nil" :actual "(or)" :portability :common} - {:suite "control / logic" :label "not" :expected "false" :actual "(not true)" :portability :common} - {:suite "control / let & loop" :label "let" :expected "3" :actual "(let [a 1 b 2] (+ a b))" :portability :common} - {:suite "control / let & loop" :label "let sequential" :expected "3" :actual "(let [a 1 b (+ a 2)] b)" :portability :common} - {:suite "control / let & loop" :label "let shadowing" :expected "2" :actual "(let [a 1] (let [a 2] a))" :portability :common} - {:suite "control / let & loop" :label "letfn mutual" :expected "true" :actual "(letfn [(ev? [n] (if (zero? n) true (od? (dec n)))) (od? [n] (if (zero? n) false (ev? (dec n))))] (ev? 10))" :portability :common} - {:suite "control / let & loop" :label "loop/recur" :expected "15" :actual "(loop [i 1 acc 0] (if (> i 5) acc (recur (inc i) (+ acc i))))" :portability :common} - {:suite "control / let & loop" :label "when-let" :expected "2" :actual "(when-let [x 1] (inc x))" :portability :common} - {:suite "control / let & loop" :label "when-let nil" :expected "nil" :actual "(when-let [x nil] (inc x))" :portability :common} - {:suite "control / let & loop" :label "if-let" :expected "2" :actual "(if-let [x 1] (inc x) :none)" :portability :common} - {:suite "control / let & loop" :label "if-let else" :expected ":none" :actual "(if-let [x nil] (inc x) :none)" :portability :common} - {:suite "control / let & loop" :label "if-some zero" :expected "1" :actual "(if-some [x 0] (inc x) :none)" :portability :common} - {:suite "control / let & loop" :label "when-some nil" :expected "nil" :actual "(when-some [x nil] x)" :portability :common} - {:suite "control / conditional-binding scope" :label "if-let else sees outer" :expected "5" :actual "(let [x 5] (if-let [x nil] :then x))" :portability :common} - {:suite "control / conditional-binding scope" :label "if-let then binds" :expected "7" :actual "(let [x 5] (if-let [x 7] x :else))" :portability :common} - {:suite "control / conditional-binding scope" :label "if-some else sees outer" :expected "5" :actual "(let [x 5] (if-some [x nil] :then x))" :portability :common} - {:suite "control / conditional-binding scope" :label "if-some binds false" :expected "false" :actual "(if-some [x false] x :else)" :portability :common} - {:suite "control / conditional-binding scope" :label "when-let else via or" :expected "5" :actual "(let [x 5] (or (when-let [x nil] x) x))" :portability :common} - {:suite "control / conditional-binding scope" :label "when-let multi-form body" :expected "14" :actual "(when-let [x 7] (inc x) (* x 2))" :portability :common} - {:suite "control / conditional-binding scope" :label "if-let in fn param" :expected "9" :actual "((fn [xs] (if-let [xs nil] :then xs)) 9)" :portability :common} - {:suite "control / conditional-binding scope" :label "when-some binds zero" :expected "1" :actual "(when-some [x 0] (inc x))" :portability :common} - {:suite "control / conditional-binding scope" :label "if-let evals test once" :expected "1" :actual "(let [c (atom 0)] (if-let [v (do (swap! c inc) :v)] @c :none))" :portability :common} - {:suite "control / loop lowering" :label "closure captures per-iter binding" :expected "[0 1 2]" :actual "(mapv (fn [g] (g)) (loop [i 0 fs []] (if (< i 3) (recur (inc i) (conj fs (fn [] i))) fs)))" :portability :common} - {:suite "control / loop lowering" :label "fib via loop" :expected "55" :actual "(loop [a 0 b 1 i 0] (if (= i 10) a (recur b (+ a b) (inc i))))" :portability :common} - {:suite "control / loop lowering" :label "recur args no clobber" :expected "[2 1]" :actual "(loop [a 1 b 2 n 0] (if (= n 1) [a b] (recur b a (inc n))))" :portability :common} - {:suite "control / loop lowering" :label "nested loops" :expected "9" :actual "(loop [i 0 s 0] (if (= i 3) s (recur (inc i) (loop [j 0 t s] (if (= j 3) t (recur (inc j) (inc t)))))))" :portability :common} - {:suite "control / loop lowering" :label "loop sequential init" :expected "12" :actual "(loop [a 1 b (+ a 10)] (+ a b))" :portability :common} - {:suite "control / loop lowering" :label "recur through let" :expected "6" :actual "(loop [i 0 acc 0] (let [x (* i 2)] (if (< i 3) (recur (inc i) (+ acc x)) acc)))" :portability :common} - {:suite "control / loop lowering" :label "fn-arity recur intact" :expected "15" :actual "((fn f [n acc] (if (zero? n) acc (recur (dec n) (+ acc n)))) 5 0)" :portability :common} - {:suite "control / iteration" :label "dotimes side-effect" :expected "5" :actual "(let [a (atom 0)] (dotimes [i 5] (swap! a inc)) @a)" :portability :common} - {:suite "control / iteration" :label "while" :expected "5" :actual "(let [a (atom 0)] (while (< @a 5) (swap! a inc)) @a)" :portability :common} - {:suite "control / iteration" :label "for" :expected "[0 1 2]" :actual "(for [x (range 3)] x)" :portability :common} - {:suite "control / iteration" :label "for nested" :expected "[[0 :a] [0 :b] [1 :a] [1 :b]]" :actual "(for [x (range 2) y [:a :b]] [x y])" :portability :common} - {:suite "control / iteration" :label "for :when" :expected "[0 2 4]" :actual "(for [x (range 6) :when (even? x)] x)" :portability :common} - {:suite "control / iteration" :label "for :while" :expected "[0 1 2]" :actual "(for [x (range 10) :while (< x 3)] x)" :portability :common} - {:suite "control / iteration" :label "for :let" :expected "[0 1 4]" :actual "(for [x (range 3) :let [sq (* x x)]] sq)" :portability :common} - {:suite "control / iteration" :label "for :let+:when" :expected "[4 6 8]" :actual "(for [x (range 5) :let [y (* x 2)] :when (> y 3)] y)" :portability :common} - {:suite "control / iteration" :label "for multi :when" :expected "[[1 :a] [1 :b]]" :actual "(for [x [0 1] :when (odd? x) y [:a :b]] [x y])" :portability :common} - {:suite "control / iteration" :label "for destructure" :expected "[3 7]" :actual "(for [[a b] [[1 2] [3 4]]] (+ a b))" :portability :common} - {:suite "control / iteration" :label "doseq side-effect" :expected "6" :actual "(let [a (atom 0)] (doseq [x [1 2 3]] (swap! a (fn [v] (+ v x)))) @a)" :portability :common} - {:suite "control / iteration" :label "doseq nested" :expected "4" :actual "(let [c (atom 0)] (doseq [x [1 2] y [10 20]] (swap! c inc)) @c)" :portability :common} - {:suite "control / iteration" :label "doseq :when" :expected "[1 3]" :actual "(let [a (atom [])] (doseq [x [1 2 3] :when (odd? x)] (swap! a conj x)) @a)" :portability :common} - {:suite "control / iteration" :label "doseq :while" :expected "6" :actual "(let [a (atom 0)] (doseq [x (range 10) :while (< x 4)] (swap! a + x)) @a)" :portability :common} - {:suite "control / iteration" :label "doseq :let" :expected "[0 1 4]" :actual "(let [a (atom [])] (doseq [x (range 3) :let [sq (* x x)]] (swap! a conj sq)) @a)" :portability :common} - {:suite "control / iteration" :label "doseq returns nil" :expected "nil" :actual "(doseq [x [1 2 3]] x)" :portability :common} - {:suite "control / threading" :label "->" :expected "6" :actual "(-> 1 inc (+ 4))" :portability :common} - {:suite "control / threading" :label "-> with forms" :expected "[1 2 3]" :actual "(-> [] (conj 1) (conj 2) (conj 3))" :portability :common} - {:suite "control / threading" :label "->>" :expected "9" :actual "(->> [1 2 3] (map inc) (reduce +))" :portability :common} - {:suite "control / threading" :label "as->" :expected "2" :actual "(as-> [0 1] x (map inc x) (reverse x) (first x))" :portability :common} - {:suite "control / threading" :label "some->" :expected "2" :actual "(some-> 1 inc)" :portability :common} - {:suite "control / threading" :label "some-> nil stops" :expected "nil" :actual "(some-> nil inc)" :portability :common} - {:suite "control / threading" :label "some->>" :expected "[2 3]" :actual "(some->> [1 2] (map inc))" :portability :common} - {:suite "control / threading" :label "cond->" :expected "2" :actual "(cond-> 1 true inc false inc)" :portability :common} - {:suite "control / threading" :label "cond->>" :expected "[1 2]" :actual "(cond->> [2] true (cons 1))" :portability :common} - {:suite "control / threading" :label "doto returns subject" :expected "5" :actual "(let [a (doto (atom 0) (reset! 5))] @a)" :portability :common} - {:suite "deftype / custom toString" :label ".toString uses the method" :expected "\"hi\"" :actual "(do (deftype Foo [s] Object (toString [_] s)) (.toString (->Foo \"hi\")))" :portability :jvm} - {:suite "deftype / custom toString" :label "str uses the method" :expected "\"hi\"" :actual "(do (deftype Foo [s] Object (toString [_] s)) (str (->Foo \"hi\")))" :portability :common} - {:suite "deftype / custom toString" :label "str concatenation uses it" :expected "\"\"" :actual "(do (deftype Foo [s] Object (toString [_] s)) (str \"<\" (->Foo \"hi\") \">\"))" :portability :common} - {:suite "deftype / custom toString" :label "computed toString" :expected "\"v=7\"" :actual "(do (deftype Boxed [v] Object (toString [_] (str \"v=\" v))) (str (->Boxed 7)))" :portability :common} - {:suite "deftype / custom toString" :label "defrecord without toString keeps repr" :expected "true" :actual "(do (defrecord Bar [x]) (boolean (re-find #\"Bar\" (str (->Bar 1)))))" :portability :common} - {:suite "deftype / custom toString" :label "pr-str of a defrecord is the repr" :expected "true" :actual "(do (defrecord Baz [x]) (boolean (re-find #\"\\{\" (pr-str (->Baz 1)))))" :portability :common} - {:suite "destructure / sequential" :label "basic vector" :expected "3" :actual "(let [[a b] [1 2]] (+ a b))" :portability :common} - {:suite "destructure / sequential" :label "skip with _" :expected "3" :actual "(let [[_ b] [1 2]] (+ b 1))" :portability :common} - {:suite "destructure / sequential" :label "rest with &" :expected "[3 4]" :actual "(let [[a & more] [1 3 4]] more)" :portability :common} - {:suite "destructure / sequential" :label ":as whole" :expected "[1 2]" :actual "(let [[a :as v] [1 2]] v)" :portability :common} - {:suite "destructure / sequential" :label "nested" :expected "3" :actual "(let [[[a b]] [[1 2]]] (+ a b))" :portability :common} - {:suite "destructure / sequential" :label "fewer values nil" :expected "nil" :actual "(let [[a b c] [1 2]] c)" :portability :common} - {:suite "destructure / sequential" :label "over a list" :expected "1" :actual "(let [[a] (list 1 2)] a)" :portability :common} - {:suite "destructure / sequential" :label "over a seq" :expected "2" :actual "(let [[a b] (rest [9 1 2])] b)" :portability :common} - {:suite "destructure / sequential" :label "string chars" :expected "\\a" :actual "(let [[a] (seq \"ab\")] a)" :portability :common} - {:suite "destructure / associative" :label "keys" :expected "3" :actual "(let [{:keys [a b]} {:a 1 :b 2}] (+ a b))" :portability :common} - {:suite "destructure / associative" :label ":as map" :expected "{:a 1}" :actual "(let [{:as m} {:a 1}] m)" :portability :common} - {:suite "destructure / associative" :label ":or default" :expected "9" :actual "(let [{:keys [a] :or {a 9}} {}] a)" :portability :common} - {:suite "destructure / associative" :label ":or present" :expected "1" :actual "(let [{:keys [a] :or {a 9}} {:a 1}] a)" :portability :common} - {:suite "destructure / associative" :label "explicit binding" :expected "1" :actual "(let [{x :a} {:a 1}] x)" :portability :common} - {:suite "destructure / associative" :label "nested map" :expected "2" :actual "(let [{{b :b} :a} {:a {:b 2}}] b)" :portability :common} - {:suite "destructure / associative" :label "keys + as" :expected "[1 {:a 1}]" :actual "(let [{:keys [a] :as m} {:a 1}] [a m])" :portability :common} - {:suite "destructure / associative" :label "map in vector" :expected "1" :actual "(let [[{:keys [a]}] [{:a 1}]] a)" :portability :common} - {:suite "destructure / in forms" :label "fn params" :expected "3" :actual "((fn [[a b]] (+ a b)) [1 2])" :portability :common} - {:suite "destructure / in forms" :label "fn map param" :expected "1" :actual "((fn [{:keys [a]}] a) {:a 1})" :portability :common} - {:suite "destructure / in forms" :label "defn destructure" :expected "3" :actual "(do (defn f [[a b]] (+ a b)) (f [1 2]))" :portability :common} - {:suite "destructure / in forms" :label "loop destructure" :expected "3" :actual "(loop [[a b] [1 2]] (+ a b))" :portability :common} - {:suite "destructure / in forms" :label "doseq destructure" :expected "12" :actual "(let [s (atom 0)] (doseq [[k v] {:a 4 :b 8}] (swap! s (fn [x] (+ x v)))) @s)" :portability :common} - {:suite "destructure / in forms" :label "for destructure" :expected "[3 7]" :actual "(for [[a b] [[1 2] [3 4]]] (+ a b))" :portability :common} - {:suite "destructure / in forms" :label "& rest in fn" :expected "[2 3]" :actual "((fn [a & more] more) 1 2 3)" :portability :common} - {:suite "destructure / associative extras" :label ":strs" :expected "7" :actual "(let [{:strs [a]} {\"a\" 7}] a)" :portability :common} - {:suite "destructure / associative extras" :label ":syms" :expected "8" :actual "(let [{:syms [a]} {(quote a) 8}] a)" :portability :common} - {:suite "destructure / associative extras" :label "namespaced :keys" :expected "3" :actual "(let [{:keys [x/y]} {:x/y 3}] y)" :portability :common} - {:suite "destructure / associative extras" :label "namespaced :syms" :expected "4" :actual "(let [{:syms [p/q]} {(quote p/q) 4}] q)" :portability :common} - {:suite "destructure / associative extras" :label "keyword :keys" :expected "3" :actual "(let [{:keys [:a :b]} {:a 1 :b 2}] (+ a b))" :portability :common} - {:suite "destructure / associative extras" :label "keyword :keys ns" :expected "3" :actual "(let [{:keys [:x/y]} {:x/y 3}] y)" :portability :common} - {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs" :expected "[1 2]" :actual "(do (defn f [& {:keys [a b]}] [a b]) (f :a 1 :b 2))" :portability :common} - {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs + fixed" :expected "[0 5]" :actual "(do (defn g [x & {:keys [a]}] [x a]) (g 0 :a 5))" :portability :common} - {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs :or" :expected "9" :actual "(do (defn h [& {:keys [a] :or {a 9}}] a) (h))" :portability :common} - {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs trailing map" :expected "7" :actual "(do (defn k [& {:keys [a]}] a) (k {:a 7}))" :portability :common} - {:suite "destructure / fn params & loop" :label "fn vector param" :expected "7" :actual "((fn [[a b]] (+ a b)) [3 4])" :portability :common} - {:suite "destructure / fn params & loop" :label "fn map param" :expected "30" :actual "((fn [{:keys [x y]}] (* x y)) {:x 5 :y 6})" :portability :common} - {:suite "destructure / fn params & loop" :label "fn :or param" :expected "7" :actual "((fn [{:keys [x] :or {x 7}}] x) {})" :portability :common} - {:suite "destructure / fn params & loop" :label "fn multi-arity destr" :expected "15" :actual "((fn ([[a]] a) ([[a] b] (+ a b))) [10] 5)" :portability :common} - {:suite "destructure / fn params & loop" :label "loop vector binding" :expected "[4 2]" :actual "(loop [[a b] [1 2] n 0] (if (< n 3) (recur [(inc a) b] (inc n)) [a b]))" :portability :common} - {:suite "destructure / fn params & loop" :label "loop map binding" :expected "4" :actual "(loop [{:keys [v]} {:v 1} n 0] (if (< n 2) (recur {:v (* v 2)} (inc n)) v))" :portability :common} - {:suite "destructure / fn params & loop" :label "loop init sees destr" :expected "[1 2 3]" :actual "(loop [[a b] [1 2] c (+ a b)] [a b c])" :portability :common} - {:suite "destructure / primitives reject patterns" :label "fn* fixed pattern" :expected :throws :actual "((fn* [[a b]] a) [1 2])" :portability :common} - {:suite "destructure / primitives reject patterns" :label "fn* rest pattern" :expected :throws :actual "((fn* [a & [b]] b) 1 2 3)" :portability :common} - {:suite "destructure / primitives reject patterns" :label "let* pattern" :expected :throws :actual "(let* [[a b] [1 2]] a)" :portability :common} - {:suite "destructure / primitives reject patterns" :label "loop* pattern" :expected :throws :actual "(loop* [[a b] [1 2]] a)" :portability :common} - {:suite "destructure / primitives reject patterns" :label "fn desugars" :expected "[1 2]" :actual "((fn [[a b]] [a b]) [1 2])" :portability :common} - {:suite "destructure / primitives reject patterns" :label "let desugars" :expected "[1 2]" :actual "(let [[a b] [1 2]] [a b])" :portability :common} - {:suite "destructure / macro params" :label "macro & [a & more :as all]" :expected "[1 [2 3] [1 2 3]]" :actual "(do (defmacro m [& [a & more :as all]] (list (quote quote) [a (vec more) (vec all)])) (m 1 2 3))" :portability :common} - {:suite "destructure / macro params" :label "macro fixed destructure" :expected "[2 1]" :actual "(do (defmacro mm [[a b]] (list (quote quote) [b a])) (mm [1 2]))" :portability :common} - {:suite "destructure / macro params" :label "macro & {:keys}" :expected "5" :actual "(do (defmacro mk [& {:keys [x]}] (list (quote quote) x)) (mk :x 5))" :portability :common} - {:suite "exceptions / try-catch" :label "catch :default" :expected ":caught" :actual "(try (throw (ex-info \"boom\" {})) (catch :default e :caught))" :portability :common} - {:suite "exceptions / try-catch" :label "catch by class" :expected ":caught" :actual "(try (throw (ex-info \"boom\" {})) (catch Exception e :caught))" :portability :common} - {:suite "exceptions / try-catch" :label "catch binds error" :expected "\"boom\"" :actual "(try (throw (ex-info \"boom\" {})) (catch :default e (ex-message e)))" :portability :common} - {:suite "exceptions / try-catch" :label "no throw -> body" :expected "1" :actual "(try 1 (catch :default e :caught))" :portability :common} - {:suite "exceptions / try-catch" :label "finally runs on ok" :expected "2" :actual "(let [a (atom 0)] (try 2 (finally (reset! a 9))) )" :portability :common} - {:suite "exceptions / try-catch" :label "finally runs on throw" :expected "9" :actual "(let [a (atom 0)] (try (throw (ex-info \"x\" {})) (catch :default e nil) (finally (reset! a 9))) @a)" :portability :common} - {:suite "exceptions / try-catch" :label "catch value of body" :expected "5" :actual "(try (+ 2 3) (catch :default e 0))" :portability :common} - {:suite "exceptions / try-catch" :label "malformed catch: non-symbol binding" :expected :throws :actual "(try 1 (catch e (* e 10)))" :portability :common} - {:suite "exceptions / try-catch" :label "malformed catch: literal binding" :expected :throws :actual "(try 1 (catch e 5))" :portability :common} - {:suite "exceptions / try-catch" :label "malformed catch: too short" :expected :throws :actual "(try 1 (catch Exception))" :portability :common} - {:suite "exceptions / assert" :label "assert true -> ok" :expected ":ok" :actual "(do (assert true) :ok)" :portability :common} - {:suite "exceptions / assert" :label "assert expr -> ok" :expected ":ok" :actual "(do (assert (= 1 1)) :ok)" :portability :common} - {:suite "exceptions / assert" :label "assert false throws" :expected :throws :actual "(assert false)" :portability :common} - {:suite "exceptions / assert" :label "assert nil throws" :expected :throws :actual "(assert nil)" :portability :common} - {:suite "exceptions / ex-info" :label "ex-message" :expected "\"oops\"" :actual "(ex-message (ex-info \"oops\" {}))" :portability :common} - {:suite "exceptions / ex-info" :label "ex-data" :expected "{:k 1}" :actual "(ex-data (ex-info \"oops\" {:k 1}))" :portability :common} - {:suite "exceptions / ex-info" :label "ex-data via catch" :expected "{:code 42}" :actual "(try (throw (ex-info \"e\" {:code 42})) (catch :default e (ex-data e)))" :portability :common} - {:suite "exceptions / ex-info" :label "ex-cause" :expected "true" :actual "(let [c (ex-info \"root\" {})] (= c (ex-cause (ex-info \"outer\" {} c))))" :portability :common} - {:suite "exceptions / ex-info" :label "propagates to outer" :expected "\"inner\"" :actual "(try (try (throw (ex-info \"inner\" {})) (finally nil)) (catch :default e (ex-message e)))" :portability :common} - {:suite "exceptions / ex-info" :label "catch binds thrown value" :expected "42" :actual "(try (throw 42) (catch :default e e))" :portability :common} - {:suite "exceptions / ex-info" :label "rethrow preserves ex" :expected "\"inner\"" :actual "(try (try (throw (ex-info \"inner\" {})) (catch :default e (throw e))) (catch :default e (ex-message e)))" :portability :common} - {:suite "exceptions / ex-info" :label "ex-data on non-ex" :expected "nil" :actual "(ex-data 42)" :portability :common} - {:suite "exceptions / ex-info" :label "ex-cause on non-ex" :expected "nil" :actual "(ex-cause {:k 1})" :portability :common} - {:suite "exceptions / ex-info" :label "ex-message of string" :expected "nil" :actual "(ex-message \"hi\")" :portability :common} - {:suite "forms / case" :label "bool" :expected ":yes" :actual "(case true true :yes false :no :default)" :portability :common} - {:suite "forms / case" :label "keyword match" :expected ":b" :actual "(case :a :x :wrong :a :b :default)" :portability :common} - {:suite "forms / case" :label "number match" :expected ":two" :actual "(case 2 1 :one 2 :two :default)" :portability :common} - {:suite "forms / case" :label "string match" :expected ":hit" :actual "(case \"x\" \"y\" :miss \"x\" :hit :default)" :portability :common} - {:suite "forms / case" :label "nil match" :expected ":nada" :actual "(case nil nil :nada :default)" :portability :common} - {:suite "forms / case" :label "default" :expected ":def" :actual "(case 99 1 :one 2 :two :def)" :portability :common} - {:suite "forms / case" :label "list of consts" :expected ":vowel" :actual "(case \\a (\\a \\e \\i \\o \\u) :vowel :consonant)" :portability :common} - {:suite "forms / case" :label "no match no default" :expected :throws :actual "(case 5 1 :one)" :portability :common} - {:suite "forms / case" :label "duplicate keys" :expected :throws :actual "(case 1 1 :one 1 :dup :default)" :portability :common} - {:suite "forms / case" :label "duplicate in or-group" :expected :throws :actual "(case 2 (1 2) :a (2 3) :b :default)" :portability :common} - {:suite "forms / fn" :label "named fn nil" :expected "nil" :actual "((fn* foo-bar []))" :portability :common} - {:suite "forms / fn" :label "immediate call" :expected "1" :actual "((fn* [] 1))" :portability :common} - {:suite "forms / fn" :label "args" :expected "[:a :b]" :actual "((fn* [a b] [a b]) :a :b)" :portability :common} - {:suite "forms / fn" :label "multi-arity 0" :expected "0" :actual "(do (def add (fn* ([] 0) ([a] a) ([a b] (+ a b)))) (add))" :portability :common} - {:suite "forms / fn" :label "multi-arity 1" :expected "-500" :actual "(do (def add (fn* ([] 0) ([a] a) ([a b] (+ a b)))) (add -500))" :portability :common} - {:suite "forms / fn" :label "multi-arity 2" :expected "-450" :actual "(do (def add (fn* ([] 0) ([a] a) ([a b] (+ a b)))) (add -500 50))" :portability :common} - {:suite "forms / fn" :label "variadic rest" :expected "[3 4]" :actual "(do (def v (fn* ([a b & args] args) ([] 0))) (v 1 2 3 4))" :portability :common} - {:suite "forms / fn" :label "variadic empty" :expected "0" :actual "(do (def v (fn* ([a b & args] args) ([] 0))) (v))" :portability :common} - {:suite "forms / fn" :label "variadic collect" :expected "[{} nil :m]" :actual "((fn* [a b & args] args) 'w 't {} nil :m)" :portability :common} - {:suite "forms / fn" :label "closure capture" :expected "8" :actual "(do (def adder (fn* [n] (fn* [x] (+ x n)))) ((adder 5) 3))" :portability :common} - {:suite "forms / fn" :label "recur countdown" :expected "0" :actual "(do (def cd (fn* [n] (if (< 0 n) (recur (+ n -1)) n))) (cd 10))" :portability :common} - {:suite "forms / fn" :label "named self-recur" :expected "120" :actual "(do (def f (fn* fact [n] (if (= n 0) 1 (* n (fact (dec n)))))) (f 5))" :portability :common} - {:suite "forms / fn" :label "no param vector" :expected :throws :actual "(fn* foo)" :portability :common} - {:suite "forms / fn" :label "non-symbol param" :expected :throws :actual "(fn* [1] 1)" :portability :common} - {:suite "forms / let" :label "literal" :expected "1" :actual "(let* [a 1] a)" :portability :common} - {:suite "forms / let" :label "multiple" :expected "[1 2]" :actual "(let* [a 1 b 2] [a b])" :portability :common} - {:suite "forms / let" :label "previous ref" :expected ":bee" :actual "(let* [a 1 b (if (= 1 a) :bee :uh-oh)] b)" :portability :common} - {:suite "forms / let" :label "nested let" :expected "3" :actual "(let* [a 5 b (let* [c -2] (+ a c))] b)" :portability :common} - {:suite "forms / let" :label "fn value bound" :expected "\":foo\"" :actual "(let* [kw->str (fn* [kw] (str kw))] (kw->str :foo))" :portability :common} - {:suite "forms / let" :label "shadowing" :expected "2" :actual "(let* [a 1 a 2] a)" :portability :common} - {:suite "forms / letfn" :label "mutual top" :expected "[1 2]" :actual "(letfn [(a [] 1) (b [] 2)] [(a) (b)])" :portability :common} - {:suite "forms / letfn" :label "mutual recursion" :expected ":done" :actual "(letfn [(ev? [n] (if (= 0 n) :done (od? (dec n)))) (od? [n] (ev? n))] (ev? 4))" :portability :common} - {:suite "forms / letfn" :label "nested letfn" :expected "3" :actual "(letfn [(a [] 5) (b [] (letfn [(c [] -2)] (+ (a) (c))))] (b))" :portability :common} - {:suite "forms / loop" :label "sum" :expected "55" :actual "(loop* [sum 0 cnt 10] (if (= cnt 0) sum (recur (+ cnt sum) (dec cnt))))" :portability :common} - {:suite "forms / loop" :label "multi binding" :expected "[4 2]" :actual "(loop* [a 1 b 2 n 0] (if (< n 3) (recur (inc a) b (inc n)) [a b]))" :portability :common} - {:suite "forms / loop" :label "init sees prior" :expected "[1 2 3]" :actual "(loop* [a 1 b (+ a 1) c (+ b 1)] [a b c])" :portability :common} - {:suite "forms / try" :label "immediate throw caught" :expected ":caught" :actual "(try (throw :boom) (catch :default e :caught))" :portability :common} - {:suite "forms / try" :label "first throw wins" :expected "\"a\"" :actual "(try (throw (ex-info \"a\" {})) (throw (ex-info \"b\" {})) (catch :default e (ex-message e)))" :portability :common} - {:suite "forms / try" :label "catch ex-data" :expected "7" :actual "(try (throw (ex-info \"e\" {:v 7})) (catch :default e (:v (ex-data e))))" :portability :common} - {:suite "forms / try" :label "finally runs" :expected "9" :actual "(let [a (atom 0)] (try 1 (finally (reset! a 9))) @a)" :portability :common} - {:suite "forms / try" :label "body value w/ finally" :expected "1" :actual "(try 1 (finally 2))" :portability :common} - {:suite "forms / try" :label "catch value w/ finally" :expected ":h" :actual "(try (throw (ex-info \"x\" {})) (catch :default e :h) (finally :ignored))" :portability :common} - {:suite "forms / try" :label "no throw skips catch" :expected "5" :actual "(try 5 (catch :default e :nope))" :portability :common} - {:suite "forms / if-do-def-call" :label "if truthy vec" :expected ":fine" :actual "(if [:ok] :fine :no)" :portability :common} - {:suite "forms / if-do-def-call" :label "if truthy str" :expected ":fine" :actual "(if \"good?\" :fine :no)" :portability :common} - {:suite "forms / if-do-def-call" :label "if nil = false" :expected ":else" :actual "(if nil :then :else)" :portability :common} - {:suite "forms / if-do-def-call" :label "if no else" :expected "nil" :actual "(if false 1)" :portability :common} - {:suite "forms / if-do-def-call" :label "do nested" :expected "1" :actual "(do (do (do (do 1))))" :portability :common} - {:suite "forms / if-do-def-call" :label "do returns last" :expected "3" :actual "(do 1 2 3)" :portability :common} - {:suite "forms / if-do-def-call" :label "def + deref var" :expected "true" :actual "(var? (def one 1))" :portability :common} - {:suite "forms / if-do-def-call" :label "def no init interns var" :expected "true" :actual "(var? (def no-init))" :portability :common} - {:suite "forms / if-do-def-call" :label "def no init keeps existing root" :expected "7" :actual "(do (def kept 7) (def kept) kept)" :portability :common} - {:suite "forms / if-do-def-call" :label "declare interns var" :expected "true" :actual "(do (declare fwd-declared) (var? (var fwd-declared)))" :portability :common} - {:suite "forms / if-do-def-call" :label "def redefine" :expected "100" :actual "(do (def one 1) (def one 100) one)" :portability :common} - {:suite "forms / if-do-def-call" :label "def in fn mutates" :expected "[:default :meow]" :actual "(do (def a :default) (def set-a (fn* [v] (def a v))) (let* [before a] (set-a :meow) [before a]))" :portability :common} - {:suite "forms / if-do-def-call" :label "call literal fn" :expected "1" :actual "((fn* [] 1))" :portability :common} - {:suite "forms / if-do-def-call" :label "call nested" :expected "6" :actual "(+ ((fn* [] 1)) ((fn* [] 2)) ((fn* [] 3)))" :portability :common} - {:suite "forms / if-do-def-call" :label "call nil" :expected :throws :actual "(nil)" :portability :common} - {:suite "forms / if arity (X1)" :label "bare if throws" :expected :throws :actual "(if)" :portability :common} - {:suite "forms / if arity (X1)" :label "one-arg if throws" :expected :throws :actual "(if true)" :portability :common} - {:suite "forms / if arity (X1)" :label "four-arg if throws" :expected :throws :actual "(if true 1 2 3)" :portability :common} - {:suite "forms / if arity (X1)" :label "two-arg if ok" :expected "nil" :actual "(if false 1)" :portability :common} - {:suite "forms / if arity (X1)" :label "three-arg if ok" :expected "2" :actual "(if false 1 2)" :portability :common} - {:suite "functions / definition" :label "fn literal" :expected "3" :actual "((fn [a b] (+ a b)) 1 2)" :portability :common} - {:suite "functions / definition" :label "fn shorthand" :expected "3" :actual "(#(+ %1 %2) 1 2)" :portability :common} - {:suite "functions / definition" :label "fn shorthand %" :expected "2" :actual "(#(inc %) 1)" :portability :common} - {:suite "functions / definition" :label "defn" :expected "5" :actual "(do (defn f [x] (+ x 2)) (f 3))" :portability :common} - {:suite "functions / definition" :label "multi-arity" :expected "[1 5]" :actual "(do (defn f ([x] x) ([x y] (+ x y))) [(f 1) (f 2 3)])" :portability :common} - {:suite "functions / definition" :label "variadic" :expected "[1 2 3]" :actual "(do (defn f [& xs] xs) (f 1 2 3))" :portability :common} - {:suite "functions / definition" :label "variadic with fixed" :expected "[1 [2 3]]" :actual "(do (defn f [a & xs] [a xs]) (f 1 2 3))" :portability :common} - {:suite "functions / definition" :label "named fn-literal self-recursion (direct self-call)" :expected "3628800" :actual "((fn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) 10)" :portability :common} - {:suite "functions / definition" :label "defn self-recursion" :expected "832040" :actual "(do (defn fib [n] (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))) (fib 30))" :portability :common} - {:suite "functions / definition" :label "multi-arity self-recursion" :expected "15" :actual "(do (defn sum ([xs] (sum xs 0)) ([xs a] (if (seq xs) (sum (rest xs) (+ a (first xs))) a))) (sum [1 2 3 4 5]))" :portability :common} - {:suite "functions / definition" :label "variadic self-recursion" :expected "10" :actual "(do (defn g [& xs] (if (next xs) (apply g (cons (+ (first xs) (second xs)) (nnext xs))) (first xs))) (g 1 2 3 4))" :portability :common} - {:suite "functions / definition" :label "closure captures" :expected "8" :actual "(do (defn adder [n] (fn [x] (+ x n))) ((adder 5) 3))" :portability :common} - {:suite "functions / definition" :label "recursion" :expected "120" :actual "(do (defn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) (fact 5))" :portability :common} - {:suite "functions / definition" :label "named fn self-ref" :expected "120" :actual "((fn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) 5)" :portability :common} - {:suite "functions / definition" :label "param named `in`" :expected "1" :actual "((fn [in] (first in)) [1 2 3])" :portability :common} - {:suite "functions / definition" :label "param `in` via core fn" :expected "3" :actual "((fn [in] (count in)) [1 2 3])" :portability :common} - {:suite "functions / definition" :label "local `in` in let body" :expected "2" :actual "(let [in [2 3]] (first in))" :portability :common} - {:suite "functions / application" :label "apply" :expected "6" :actual "(apply + [1 2 3])" :portability :common} - {:suite "functions / application" :label "apply with leading" :expected "10" :actual "(apply + 1 2 [3 4])" :portability :common} - {:suite "functions / application" :label "apply keyword" :expected "1" :actual "(apply :a [{:a 1}])" :portability :common} - {:suite "functions / application" :label "partial" :expected "7" :actual "((partial + 5) 2)" :portability :common} - {:suite "functions / application" :label "partial multi" :expected "10" :actual "((partial + 1 2) 3 4)" :portability :common} - {:suite "functions / application" :label "comp" :expected "4" :actual "((comp inc inc) 2)" :portability :common} - {:suite "functions / application" :label "comp order" :expected "5" :actual "((comp inc (fn [x] (* x 2))) 2)" :portability :common} - {:suite "functions / application" :label "comp identity" :expected "3" :actual "((comp) 3)" :portability :common} - {:suite "functions / application" :label "complement" :expected "true" :actual "((complement even?) 3)" :portability :common} - {:suite "functions / application" :label "constantly" :expected "5" :actual "((constantly 5) 1 2 3)" :portability :common} - {:suite "functions / application" :label "identity" :expected "7" :actual "(identity 7)" :portability :common} - {:suite "functions / combinators" :label "juxt" :expected "[1 3]" :actual "((juxt first last) [1 2 3])" :portability :common} - {:suite "functions / combinators" :label "fnil" :expected "1" :actual "((fnil inc 0) nil)" :portability :common} - {:suite "functions / combinators" :label "fnil passes value" :expected "6" :actual "((fnil inc 0) 5)" :portability :common} - {:suite "functions / combinators" :label "every-pred true" :expected "true" :actual "((every-pred pos? even?) 4)" :portability :common} - {:suite "functions / combinators" :label "every-pred false" :expected "false" :actual "((every-pred pos? even?) 3)" :portability :common} - {:suite "functions / combinators" :label "some-fn" :expected "true" :actual "((some-fn even? neg?) 3 4)" :portability :common} - {:suite "functions / combinators" :label "memoize" :expected "2" :actual "(do (def c (atom 0)) (def f (memoize (fn [x] (swap! c inc) x))) (f 1) (f 1) (f 2) @c)" :portability :common} - {:suite "functions / combinators" :label "trampoline" :expected "10" :actual "(trampoline (fn f [n acc] (if (zero? n) acc (fn [] (f (dec n) (+ acc 2))))) 5 0)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "complement true" :expected "true" :actual "((complement pos?) -1)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "complement false" :expected "false" :actual "((complement pos?) 1)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "complement multi" :expected "true" :actual "((complement <) 3 2)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil patches nil" :expected "1" :actual "((fnil inc 0) nil)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil passes non-nil" :expected "6" :actual "((fnil inc 0) 5)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil two defaults" :expected "8" :actual "((fnil + 1 2) nil nil 5)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil only first 3" :expected "[:a :b :c nil]" :actual "((fnil vector :a :b :c) nil nil nil nil)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil in update" :expected "{:k 1}" :actual "(update {} :k (fnil inc 0))" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "clojure-version" :expected "true" :actual "(string? (clojure-version))" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "bigdec" :expected "3M" :actual "(bigdec 3)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "numerator throws" :expected :throws :actual "(numerator 1)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "denominator throws" :expected :throws :actual "(denominator 1)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "supers empty set" :expected "#{}" :actual "(supers 1)" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "munge dashes" :expected "\"a_b\"" :actual "(munge \"a-b\")" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "munge symbol" :expected "(quote x_y)" :actual "(munge (quote x-y))" :portability :common} - {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "test no-test" :expected ":no-test" :actual "(test (quote foo))" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "key" :expected "1" :actual "(key (first {1 :a}))" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "val" :expected ":a" :actual "(val (first {1 :a}))" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "key non-entry throws" :expected :throws :actual "(key 5)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "find hit" :expected "[:a 1]" :actual "(find {:a 1} :a)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "find miss" :expected "nil" :actual "(find {:a 1} :b)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "find nil value" :expected "[:a nil]" :actual "(find {:a nil} :a)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "find on vector" :expected "[0 :x]" :actual "(find [:x :y] 0)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "select-keys" :expected "{:a 1}" :actual "(select-keys {:a 1 :b 2} [:a])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "select-keys nil val" :expected "{:a nil}" :actual "(select-keys {:a nil :b 2} [:a])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "select-keys missing" :expected "{}" :actual "(select-keys {:a 1} [:z])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "zipmap" :expected "{:a 1, :b 2}" :actual "(zipmap [:a :b] [1 2])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "zipmap uneven" :expected "{:a 1}" :actual "(zipmap [:a :b] [1])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "zipmap nil val" :expected "{:a nil}" :actual "(zipmap [:a] [nil])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} {:b 2})" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge later wins" :expected "{:a 2}" :actual "(merge {:a 1} {:a 2})" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge nil arg" :expected "{:a 1}" :actual "(merge {:a 1} nil)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge nil first" :expected "{:a 1}" :actual "(merge nil {:a 1})" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge all nil" :expected "nil" :actual "(merge nil nil)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge empty" :expected "nil" :actual "(merge)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge entry pair" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} [:b 2])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge-with" :expected "{:a 3}" :actual "(merge-with + {:a 1} {:a 2})" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge-with disjoint" :expected "{:a 1, :b 2}" :actual "(merge-with + {:a 1} {:b 2})" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "merge-with nil-val present" :expected "{:a 1}" :actual "(merge-with (fn [a b] (or a b)) {:a nil} {:a 1})" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "get-in" :expected "1" :actual "(get-in {:a {:b 1}} [:a :b])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "get-in missing" :expected ":nf" :actual "(get-in {:a 1} [:z :y] :nf)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "get-in nil value present" :expected "nil" :actual "(get-in {:a {:b nil}} [:a :b] :nf)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "get-in empty path" :expected "{:a 1}" :actual "(get-in {:a 1} [])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "memoize" :expected "2" :actual "(do (def c (atom 0)) (def f (memoize (fn [x] (swap! c inc) x))) (f 1) (f 1) (f 2) (deref c))" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "memoize caches nil" :expected "1" :actual "(do (def c (atom 0)) (def f (memoize (fn [x] (swap! c inc) nil))) (f 1) (f 1) (deref c))" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "partial" :expected "6" :actual "((partial + 1 2) 3)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "partial no extra" :expected "3" :actual "((partial + 1 2))" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "partial many fixed" :expected "15" :actual "((partial + 1 2 3 4) 5)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "trampoline" :expected "10" :actual "(trampoline (fn f [n acc] (if (zero? n) acc (fn [] (f (dec n) (+ acc 2))))) 5 0)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "some? true" :expected "true" :actual "(some? 0)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "some? false" :expected "false" :actual "(some? nil)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "true?/false?" :expected "[true false false]" :actual "[(true? true) (true? 1) (false? nil)]" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "max" :expected "3" :actual "(max 1 3 2)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "min" :expected "1" :actual "(min 3 1 2)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "max single" :expected "5" :actual "(max 5)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "max non-number throws" :expected :throws :actual "(max 1 :a)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "reverse" :expected "[3 2 1]" :actual "(reverse [1 2 3])" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "reverse empty" :expected "[]" :actual "(reverse nil)" :portability :common} - {:suite "clojure.core / leaf batch 2" :label "conj nil onto map" :expected "{:a 1}" :actual "(conj {:a 1} nil)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty vector" :expected "[]" :actual "(empty [1 2])" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty list" :expected "[]" :actual "(empty (list 1))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty map" :expected "{}" :actual "(empty {:a 1})" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty set" :expected "#{}" :actual "(empty #{1})" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty nil" :expected "nil" :actual "(empty nil)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty string" :expected "nil" :actual "(empty \"abc\")" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty lazy is ()" :expected "[]" :actual "(empty (map inc [1 2]))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "empty sorted keeps cmp" :expected "[3 1]" :actual "(vec (seq (into (empty (sorted-set-by > 1 2)) [1 3])))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "assoc-in" :expected "{:a {:b 1}}" :actual "(assoc-in {} [:a :b] 1)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "assoc-in deep" :expected "{:a {:b {:c 2}}}" :actual "(assoc-in {:a {:b {:c 1}}} [:a :b :c] 2)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "assoc-in keeps siblings" :expected "{:a {:b 1, :c 2}}" :actual "(assoc-in {:a {:b 1}} [:a :c] 2)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "assoc-in vector idx" :expected "[1 9]" :actual "(assoc-in [1 2] [1] 9)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "assoc-in nested vec" :expected "[{:a 9}]" :actual "(assoc-in [{:a 1}] [0 :a] 9)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "update-in" :expected "{:a {:b 2}}" :actual "(update-in {:a {:b 1}} [:a :b] inc)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "update-in extra args" :expected "{:a {:b 111}}" :actual "(update-in {:a {:b 1}} [:a :b] + 10 100)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "update-in fnil" :expected "{:a {:b 1}}" :actual "(update-in {} [:a :b] (fnil inc 0))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "update-in single key" :expected "{:a 2}" :actual "(update-in {:a 1} [:a] inc)" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "interpose" :expected "[1 :s 2 :s 3]" :actual "(interpose :s [1 2 3])" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "interpose empty" :expected "[]" :actual "(interpose :s [])" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "interpose one" :expected "[1]" :actual "(interpose :s [1])" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "interpose is lazy" :expected "[0 :s 1]" :actual "(take 3 (interpose :s (range)))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "interpose xform" :expected "[\"a\" \",\" \"b\"]" :actual "(vec (sequence (interpose \",\") [\"a\" \"b\"]))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "take-nth" :expected "[1 3 5]" :actual "(take-nth 2 [1 2 3 4 5 6])" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "take-nth lazy" :expected "[0 3 6]" :actual "(take 3 (take-nth 3 (range)))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "take-nth xform" :expected "[1 3 5]" :actual "(vec (sequence (take-nth 2) [1 2 3 4 5 6]))" :portability :common} - {:suite "clojure.core / leaf batch 3" :label "take-nth into" :expected "[1 4]" :actual "(into [] (take-nth 3) [1 2 3 4 5])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by keyfn" :expected "[[1 :b] [2 :a]]" :actual "(sort-by first [[2 :a] [1 :b]])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by string keys" :expected "[\"a\" \"bb\" \"ccc\"]" :actual "(sort-by count [\"ccc\" \"a\" \"bb\"])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by comparator" :expected "[3 2 1]" :actual "(sort-by identity > [1 3 2])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by 3way cmp" :expected "[3 2 1]" :actual "(sort-by identity (fn [a b] (- b a)) [1 3 2])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by mixed nil" :expected "[nil 1 2]" :actual "(sort-by identity [2 nil 1])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by empty" :expected "[]" :actual "(sort-by first [])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "sort-by nil coll" :expected "[]" :actual "(sort-by first nil)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "rand-int range" :expected "true" :actual "(every? (fn [_] (let [r (rand-int 5)] (and (int? r) (<= 0 r 4)))) (range 50))" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "rand-int zero" :expected "0" :actual "(rand-int 1)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "shuffle is permutation" :expected "true" :actual "(= (sort (shuffle [5 3 1 4 2])) [1 2 3 4 5])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "shuffle returns vector" :expected "true" :actual "(vector? (shuffle [1 2 3]))" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "shuffle empty" :expected "[]" :actual "(shuffle [])" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "shuffle non-coll throws" :expected :throws :actual "(shuffle 5)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "random-uuid is uuid" :expected "true" :actual "(uuid? (random-uuid))" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "random-uuid v4 shape" :expected "true" :actual "(boolean (re-matches #\"[0-9a-f]{8}-[0-9a-f]{4}-4[0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}\" (str (random-uuid))))" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "random-uuid distinct" :expected "true" :actual "(not= (random-uuid) (random-uuid))" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "char-escape newline" :expected "\"\\\\n\"" :actual "(char-escape-string \\newline)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "char-escape quote" :expected "true" :actual "(= 2 (count (char-escape-string \\\")))" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "char-escape none" :expected "nil" :actual "(char-escape-string \\a)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "char-name space" :expected "\"space\"" :actual "(char-name-string \\space)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "char-name newline" :expected "\"newline\"" :actual "(char-name-string \\newline)" :portability :common} - {:suite "clojure.core / leaf batch 4" :label "char-name none" :expected "nil" :actual "(char-name-string \\a)" :portability :common} - {:suite "functions / recur into variadic arity" :label "counts rest via recur" :expected "3" :actual "((fn cnt [acc & xs] (if (seq xs) (recur (inc acc) (rest xs)) acc)) 0 :a :b :c)" :portability :common} - {:suite "functions / recur into variadic arity" :label "zero-fixed variadic" :expected "4" :actual "((fn f [& xs] (if (< (count xs) 4) (recur (cons :x xs)) (count xs))) :a)" :portability :common} - {:suite "functions / recur into variadic arity" :label "rest empties to nil" :expected "[:done]" :actual "((fn f [& xs] (if xs (recur (next xs)) (list :done))) 1 2)" :portability :common} - {:suite "functions / recur into variadic arity" :label "multi-arity variadic recur" :expected "6" :actual "((fn ma ([a] a) ([a & xs] (if (seq xs) (recur (+ a (first xs)) (rest xs)) a))) 1 2 3)" :portability :common} - {:suite "functions / recur into variadic arity" :label "recur passes nil rest" :expected ":empty" :actual "((fn f [acc & xs] (if (seq xs) (recur acc (rest xs)) :empty)) 0 1)" :portability :common} - {:suite "functions / recur into variadic arity" :label "fixed-arity recur untouched" :expected "10" :actual "((fn f [n acc] (if (pos? n) (recur (dec n) (+ acc 2)) acc)) 5 0)" :portability :common} - {:suite "functions / empty rest arg is nil" :label "no args" :expected ":nil" :actual "((fn [& r] (if r :truthy :nil)))" :portability :common} - {:suite "functions / empty rest arg is nil" :label "after fixed" :expected ":nil" :actual "((fn [a & r] (if r :truthy :nil)) 1)" :portability :common} - {:suite "functions / empty rest arg is nil" :label "via apply" :expected ":nil" :actual "(apply (fn [& r] (if r :truthy :nil)) [])" :portability :common} - {:suite "functions / empty rest arg is nil" :label "defn no args" :expected ":nil" :actual "(do (defn er-f [& r] (if r :truthy :nil)) (er-f))" :portability :common} - {:suite "functions / empty rest arg is nil" :label "non-empty unchanged" :expected "[1 2]" :actual "((fn [& r] r) 1 2)" :portability :common} - {:suite "functions / empty rest arg is nil" :label "one extra" :expected "[2]" :actual "((fn [a & r] r) 1 2)" :portability :common} - {:suite "functions / empty rest arg is nil" :label "rest destructure with no args" :expected ":nil" :actual "((fn [& [a]] (if a :truthy :nil)))" :portability :common} - {:suite "functions / arity enforcement" :label "fixed extra args" :expected :throws :actual "((fn [x] x) 1 2)" :portability :common} - {:suite "functions / arity enforcement" :label "fixed missing args" :expected :throws :actual "((fn [x y] x) 1)" :portability :common} - {:suite "functions / arity enforcement" :label "fixed zero of one" :expected :throws :actual "((fn [x] x))" :portability :common} - {:suite "functions / arity enforcement" :label "named defn extra" :expected :throws :actual "(do (defn af1 [x] x) (af1 1 2))" :portability :common} - {:suite "functions / arity enforcement" :label "overlay fn extra" :expected :throws :actual "(identity 1 2)" :portability :common} - {:suite "functions / arity enforcement" :label "through apply" :expected :throws :actual "(apply (fn [x] x) [1 2])" :portability :common} - {:suite "functions / arity enforcement" :label "through update" :expected :throws :actual "(update {:k 1} :k identity 1 2 3 4)" :portability :common} - {:suite "functions / arity enforcement" :label "variadic below min" :expected :throws :actual "((fn [x & r] x))" :portability :common} - {:suite "functions / arity enforcement" :label "variadic at min" :expected "nil" :actual "((fn [x & r] r) 1)" :portability :common} - {:suite "functions / arity enforcement" :label "variadic above min" :expected "[2 3]" :actual "((fn [x & r] r) 1 2 3)" :portability :common} - {:suite "functions / arity enforcement" :label "multi-arity no match" :expected :throws :actual "((fn ([x] x) ([x y] y)) 1 2 3)" :portability :common} - {:suite "functions / arity enforcement" :label "multi-arity variadic below min" :expected :throws :actual "((fn ([x] x) ([x y & r] r)))" :portability :common} - {:suite "functions / arity enforcement" :label "destructured param counts as one" :expected "3" :actual "((fn [[a b] c] c) [1 2] 3)" :portability :common} - {:suite "functions / arity enforcement" :label "destructured extra throws" :expected :throws :actual "((fn [[a b]] a) [1 2] [3 4])" :portability :common} - {:suite "functions / arity enforcement" :label "hof exact arity ok" :expected "[2 4]" :actual "(mapv (fn [x] (* 2 x)) [1 2])" :portability :common} - {:suite "functions / arity enforcement" :label "zero-arity fn ok" :expected "7" :actual "((fn [] 7))" :portability :common} - {:suite "clojure.core / futures — deref" :label "future + deref" :expected "3" :actual "(deref (future (+ 1 2)))" :portability :common} - {:suite "clojure.core / futures — deref" :label "@ reader macro derefs" :expected "42" :actual "@(future (* 6 7))" :portability :common} - {:suite "clojure.core / futures — deref" :label "future returns collection" :expected "[2 3 4]" :actual "(deref (future (mapv inc [1 2 3])))" :portability :common} - {:suite "clojure.core / futures — deref" :label "future returns a map" :expected "{:a 1}" :actual "(deref (future {:a 1}))" :portability :common} - {:suite "clojure.core / futures — deref" :label "deref is cached/idempotent" :expected "[2 2]" :actual "(let [f (future (+ 1 1))] [(deref f) (deref f)])" :portability :common} - {:suite "clojure.core / futures — deref" :label "timed deref of ready future" :expected "42" :actual "(let [f (future 42)] (deref f) (deref f 1000 :nope))" :portability :common} - {:suite "clojure.core / futures — deref" :label "body error re-raised on deref" :expected :throws :actual "(deref (future (throw \"boom\")))" :portability :common} - {:suite "clojure.core / futures — deref" :label "timed deref times out" :expected ":timed-out" :actual "(deref (future (do (Thread/sleep 300) :late)) 10 :timed-out)" :portability :jvm} - {:suite "clojure.core / futures — deref" :label "Thread/sleep in body" :expected ":slept" :actual "(deref (future (do (Thread/sleep 5) :slept)))" :portability :jvm} - {:suite "clojure.core / futures — deref" :label "timed-out future still completes" :expected ":late" :actual "(let [f (future (do (Thread/sleep 30) :late))] (deref f 5 :early) (deref f))" :portability :jvm} - {:suite "clojure.core / futures — predicates" :label "future? true" :expected "true" :actual "(future? (future 1))" :portability :common} - {:suite "clojure.core / futures — predicates" :label "future? false" :expected "false" :actual "(future? 42)" :portability :common} - {:suite "clojure.core / futures — predicates" :label "future-done? after deref" :expected "true" :actual "(let [f (future 1)] (deref f) (future-done? f))" :portability :common} - {:suite "clojure.core / futures — predicates" :label "realized? after deref" :expected "true" :actual "(let [f (future 1)] (deref f) (realized? f))" :portability :common} - {:suite "clojure.core / futures — predicates" :label "cancel an in-flight future returns true" :expected "true" :actual "(let [f (future (do (Thread/sleep 100) 1))] (future-cancel f))" :portability :jvm} - {:suite "clojure.core / futures — predicates" :label "future-cancelled? after cancel" :expected "true" :actual "(let [f (future (do (Thread/sleep 100) 1))] (future-cancel f) (future-cancelled? f))" :portability :jvm} - {:suite "clojure.core / futures — predicates" :label "future-done? after cancel" :expected "true" :actual "(let [f (future 1)] (future-cancel f) (future-done? f))" :portability :common} - {:suite "clojure.core / futures — predicates" :label "cancel an already-completed future returns false" :expected "false" :actual "(let [f (future 1)] (deref f) (future-cancel f))" :portability :common} - {:suite "clojure.core / futures — predicates" :label "future-cancelled? fresh is false" :expected "false" :actual "(future-cancelled? (future 1))" :portability :common} - {:suite "clojure.core / futures — snapshot (copy) semantics" :label "captured atom is snapshotted, not shared" :expected "1" :actual "(let [a (atom 0)] (deref (future (swap! a inc))) @a)" :portability :common} - {:suite "clojure.core / futures — snapshot (copy) semantics" :label "future sees its own mutation" :expected "1" :actual "(let [a (atom 0)] (deref (future (swap! a inc))))" :portability :common} - {:suite "clojure.core / pmap family" :label "pmap values in order" :expected "[2 3 4]" :actual "(vec (pmap inc [1 2 3]))" :portability :common} - {:suite "clojure.core / pmap family" :label "pmap multi-coll" :expected "[5 7 9]" :actual "(vec (pmap + [1 2 3] [4 5 6]))" :portability :common} - {:suite "clojure.core / pmap family" :label "pmap empty" :expected "[]" :actual "(pmap inc [])" :portability :common} - {:suite "clojure.core / pmap family" :label "pmap is parallel" :expected "true" :actual "(do (deref (future :warmup)) (let [t0 (System/currentTimeMillis)] (dorun (pmap (fn [_] (Thread/sleep 200)) [1 2 3 4])) (< (- (System/currentTimeMillis) t0) 700)))" :portability :jvm} - {:suite "clojure.core / pmap family" :label "pcalls" :expected "[1 2]" :actual "(vec (pcalls (fn [] 1) (fn [] 2)))" :portability :common} - {:suite "clojure.core / pmap family" :label "pvalues" :expected "[3 7]" :actual "(vec (pvalues (+ 1 2) (+ 3 4)))" :portability :common} - {:suite "clojure.core / pmap family" :label "snapshot semantics" :expected "2" :actual "(let [a (atom 0)] (dorun (pmap (fn [_] (swap! a inc)) [1 2])) (deref a))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "derive returns new h" :expected "true" :actual "(let [h (derive (make-hierarchy) :rect :shape)] (and (map? h) (isa? h :rect :shape)))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "original unchanged" :expected "false" :actual "(let [h0 (make-hierarchy) h1 (derive h0 :rect :shape)] (isa? h0 :rect :shape))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "isa? self" :expected "true" :actual "(isa? (make-hierarchy) :a :a)" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "isa? transitive" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :square :rect) (derive :rect :shape))] (isa? h :square :shape))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "multi-parent" :expected "[true true]" :actual "(let [h (-> (make-hierarchy) (derive :sq :rect) (derive :sq :rhombus))] [(isa? h :sq :rect) (isa? h :sq :rhombus)])" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "parents set" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :sq :rect) (derive :sq :rhombus))] (= #{:rect :rhombus} (parents h :sq)))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "ancestors transitive" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :square :rect) (derive :rect :shape))] (= #{:rect :shape} (ancestors h :square)))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "descendants transitive" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :square :rect) (derive :rect :shape))] (= #{:rect :square} (descendants h :shape)))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "underive removes" :expected "false" :actual "(let [h (-> (make-hierarchy) (derive :a :b) (underive :a :b))] (isa? h :a :b))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "vector isa?" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :rect :shape))] (isa? h [:rect :rect] [:shape :shape]))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "vector isa? length" :expected "false" :actual "(isa? (make-hierarchy) [:a] [:a :a])" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "cyclic derive throws" :expected :throws :actual "(-> (make-hierarchy) (derive :a :b) (derive :b :a))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "duplicate derive ok" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :a :b) (derive :a :b))] (isa? h :a :b))" :portability :common} - {:suite "hierarchy / pure 3-arity" :label "parents nil when none" :expected "nil" :actual "(parents (make-hierarchy) :x)" :portability :common} - {:suite "hierarchy / global + multimethod dispatch" :label "global derive + isa?" :expected "true" :actual "(do (derive :g/sq :g/rect) (isa? :g/sq :g/rect))" :portability :common} - {:suite "hierarchy / global + multimethod dispatch" :label "global ancestors" :expected "true" :actual "(do (derive :g/a :g/b) (derive :g/b :g/c) (contains? (ancestors :g/a) :g/c))" :portability :common} - {:suite "hierarchy / global + multimethod dispatch" :label "global underive" :expected "false" :actual "(do (derive :g/u :g/v) (underive :g/u :g/v) (isa? :g/u :g/v))" :portability :common} - {:suite "hierarchy / global + multimethod dispatch" :label "dispatch via hierarchy" :expected ":is-shape" :actual "(do (derive :h/sq :h/shape) (defmulti hmm identity) (defmethod hmm :h/shape [_] :is-shape) (hmm :h/sq))" :portability :common} - {:suite "hierarchy / global + multimethod dispatch" :label "dispatch custom hierarchy" :expected ":parent" :actual "(do (def hh (atom (derive (make-hierarchy) :c :p))) (defmulti cmm identity :hierarchy hh) (defmethod cmm :p [_] :parent) (cmm :c))" :portability :common} - {:suite "hierarchy / global + multimethod dispatch" :label "dispatch exact beats isa" :expected ":exact" :actual "(do (derive :de/e1 :de/e2) (defmulti emm identity) (defmethod emm :de/e2 [_] :parent) (defmethod emm :de/e1 [_] :exact) (emm :de/e1))" :portability :common} - {:suite "interop / dot forms" :label "method call" :expected "\"v=41\"" :actual "(. {:value 41 :describe (fn [self] (str \"v=\" (:value self)))} describe)" :portability :jvm} - {:suite "interop / dot forms" :label "method with args" :expected "\"Hello Alice\"" :actual "(. {:greet (fn [self n] (str \"Hello \" n))} greet \"Alice\")" :portability :jvm} - {:suite "interop / dot forms" :label "field access .-" :expected "41" :actual "(.-value {:value 41})" :portability :jvm} - {:suite "interop / dot forms" :label "dot field keyword" :expected "41" :actual "(. {:value 41} :value)" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "zero-arg coll-interop .count" :expected "3" :actual "(.count [1 2 3])" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "zero-arg coll-interop .seq" :expected "[1 2]" :actual "(.seq [1 2])" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "explicit dot zero-arg interop" :expected "3" :actual "(. [1 2 3] count)" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "with-arg coll-interop .nth" :expected "2" :actual "(.nth [1 2 3] 1)" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "record zero-arg method" :expected "10" :actual "(do (defprotocol Pd (gm [this])) (defrecord Rd [x] Pd (gm [this] (* 2 x))) (.gm (->Rd 5)))" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "record method with args" :expected "15" :actual "(do (defprotocol Pa (am [this y])) (defrecord Ra [x] Pa (am [this y] (+ x y))) (.am (->Ra 5) 10))" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "deftype method with args" :expected "7" :actual "(do (defprotocol Pq (qq [this y])) (deftype Tq [x] Pq (qq [this y] (+ x y))) (.qq (Tq. 3) 4))" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "record -field is field access" :expected "7" :actual "(do (defrecord Rf [x]) (.-x (->Rf 7)))" :portability :jvm} - {:suite "interop / dot dispatch arms" :label "object-method with args .equals" :expected "true" :actual "(.equals \"a\" \"a\")" :portability :jvm} - {:suite "interop / arrays (aget/aset/alength)" :label "alength" :expected "3" :actual "(alength (object-array [1 2 3]))" :portability :jvm} - {:suite "interop / arrays (aget/aset/alength)" :label "aget" :expected "20" :actual "(aget (object-array [10 20 30]) 1)" :portability :jvm} - {:suite "interop / arrays (aget/aset/alength)" :label "aset returns val" :expected "9" :actual "(aset (object-array [1 2 3]) 1 9)" :portability :jvm} - {:suite "interop / arrays (aget/aset/alength)" :label "aset mutates" :expected "[7 2 3]" :actual "(let [a (object-array [1 2 3])] (aset a 0 7) (vec a))" :portability :jvm} - {:suite "interop / arrays (aget/aset/alength)" :label "aget 2d" :expected "4" :actual "(aget (to-array-2d [[1 2] [3 4]]) 1 1)" :portability :jvm} - {:suite "interop / String methods" :label ".toLowerCase" :expected "\"hi\"" :actual "(.toLowerCase \"HI\")" :portability :jvm} - {:suite "interop / String methods" :label ".toUpperCase" :expected "\"HI\"" :actual "(.toUpperCase \"hi\")" :portability :jvm} - {:suite "interop / String methods" :label "dot-form" :expected "\"hi\"" :actual "(. \"HI\" toLowerCase)" :portability :jvm} - {:suite "interop / String methods" :label ".trim" :expected "\"x\"" :actual "(.trim \" x \")" :portability :jvm} - {:suite "interop / String methods" :label ".length" :expected "3" :actual "(.length \"abc\")" :portability :jvm} - {:suite "interop / String methods" :label ".isEmpty" :expected "[true false]" :actual "[(.isEmpty \"\") (.isEmpty \"a\")]" :portability :jvm} - {:suite "interop / String methods" :label ".indexOf hit" :expected "1" :actual "(.indexOf \"abc\" \"b\")" :portability :jvm} - {:suite "interop / String methods" :label ".indexOf miss is -1" :expected "-1" :actual "(.indexOf \"abc\" \"z\")" :portability :jvm} - {:suite "interop / String methods" :label ".lastIndexOf" :expected "3" :actual "(.lastIndexOf \"abab\" \"b\")" :portability :jvm} - {:suite "interop / String methods" :label ".substring" :expected "\"bc\"" :actual "(.substring \"abc\" 1)" :portability :jvm} - {:suite "interop / String methods" :label ".substring end" :expected "\"b\"" :actual "(.substring \"abc\" 1 2)" :portability :jvm} - {:suite "interop / String methods" :label ".startsWith" :expected "true" :actual "(.startsWith \"abc\" \"ab\")" :portability :jvm} - {:suite "interop / String methods" :label ".endsWith" :expected "true" :actual "(.endsWith \"abc\" \"bc\")" :portability :jvm} - {:suite "interop / String methods" :label ".contains" :expected "true" :actual "(.contains \"abc\" \"b\")" :portability :jvm} - {:suite "interop / String methods" :label ".replace" :expected "\"axc\"" :actual "(.replace \"abc\" \"b\" \"x\")" :portability :jvm} - {:suite "interop / String methods" :label ".charAt" :expected "\\b" :actual "(.charAt \"abc\" 1)" :portability :jvm} - {:suite "interop / String methods" :label ".equalsIgnoreCase" :expected "true" :actual "(.equalsIgnoreCase \"AbC\" \"aBc\")" :portability :jvm} - {:suite "interop / String methods" :label "Long/MAX_VALUE" :expected "true" :actual "(pos? Long/MAX_VALUE)" :portability :jvm} - {:suite "interop / String methods" :label "String/valueOf num" :expected "\"42\"" :actual "(String/valueOf 42)" :portability :jvm} - {:suite "interop / String methods" :label "String/valueOf str" :expected "\"hi\"" :actual "(String/valueOf \"hi\")" :portability :jvm} - {:suite "interop / String methods" :label "String/valueOf kw" :expected "\":k\"" :actual "(String/valueOf :k)" :portability :jvm} - {:suite "interop / String methods" :label "String/valueOf nil" :expected "\"null\"" :actual "(String/valueOf nil)" :portability :jvm} - {:suite "interop / String methods" :label "instance? CharSequence" :expected "true" :actual "(instance? CharSequence \"aaa\")" :portability :common} - {:suite "interop / String methods" :label "instance? CharSequence non-str" :expected "false" :actual "(instance? CharSequence 42)" :portability :common} - {:suite "interop / String methods" :label "unsupported method throws" :expected :throws :actual "(.frobnicate \"abc\")" :portability :jvm} - {:suite "interop / java.time shims" :label "ofPattern formats #inst" :expected "true" :actual "(string? (.format (DateTimeFormatter/ofPattern \"yyyy-MM-dd\") #inst \"2020-03-05T13:45:30Z\"))" :portability :jvm} - {:suite "interop / java.time shims" :label "pattern shape" :expected "true" :actual "(boolean (re-matches #\"\\d{4}-\\d{2}-\\d{2}\" (.format (DateTimeFormatter/ofPattern \"yyyy-MM-dd\") #inst \"2020-03-05T13:45:30Z\")))" :portability :jvm} - {:suite "interop / java.time shims" :label "month name + ampm" :expected "true" :actual "(boolean (re-matches #\"[A-Z][a-z]{2} \\d{1,2}, 2020 \\d{1,2}:\\d{2} [AP]M\" (.format (DateTimeFormatter/ofPattern \"MMM d, yyyy h:mm a\") #inst \"2020-03-05T13:45:30Z\")))" :portability :jvm} - {:suite "interop / java.time shims" :label "quoted literal" :expected "true" :actual "(boolean (re-matches #\"\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}\" (.format DateTimeFormatter/ISO_LOCAL_DATE_TIME #inst \"2020-03-05T13:45:30Z\")))" :portability :jvm} - {:suite "interop / java.time shims" :label "localized style" :expected "true" :actual "(string? (.format (DateTimeFormatter/ofLocalizedDate FormatStyle/MEDIUM) #inst \"2020-03-05T13:45:30Z\"))" :portability :jvm} - {:suite "interop / java.time shims" :label "withLocale chain" :expected "true" :actual "(string? (.format (.withLocale (DateTimeFormatter/ofPattern \"yyyy\") (java.util.Locale. \"en\")) #inst \"2020-01-01T00:00:00Z\"))" :portability :jvm} - {:suite "interop / java.time shims" :label "fix-date chain" :expected "true" :actual "(instance? LocalDateTime (-> #inst \"2020-03-05T13:45:30Z\" (.toInstant) (.atZone (ZoneId/systemDefault)) (.toLocalDateTime)))" :portability :jvm} - {:suite "interop / java.time shims" :label "inst is java.util.Date" :expected "true" :actual "(instance? java.util.Date #inst \"2020-01-01T00:00:00Z\")" :portability :jvm} - {:suite "interop / java.time shims" :label "Instant instance" :expected "true" :actual "(instance? java.time.Instant (Instant/ofEpochMilli 0))" :portability :jvm} - {:suite "interop / java.time shims" :label "getTime epoch ms" :expected "0" :actual "(.getTime #inst \"1970-01-01T00:00:00Z\")" :portability :jvm} - {:suite "interop / java.time shims" :label "toEpochMilli round trip" :expected "1234" :actual "(.toEpochMilli (Instant/ofEpochMilli 1234))" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "CLOCK_HOUR_OF_DAY midnight is 24" :expected "24" :actual "(.getLong (java.time.LocalTime/of 0 30) java.time.temporal.ChronoField/CLOCK_HOUR_OF_DAY)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "HOUR_OF_AMPM" :expected "2" :actual "(.getLong (java.time.LocalTime/of 14 0) java.time.temporal.ChronoField/HOUR_OF_AMPM)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "CLOCK_HOUR_OF_AMPM noon is 12" :expected "12" :actual "(.getLong (java.time.LocalTime/of 12 0) java.time.temporal.ChronoField/CLOCK_HOUR_OF_AMPM)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "ALIGNED_DAY_OF_WEEK_IN_MONTH" :expected "3" :actual "(.getLong (java.time.LocalDate/of 2020 3 17) java.time.temporal.ChronoField/ALIGNED_DAY_OF_WEEK_IN_MONTH)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "ALIGNED_WEEK_OF_MONTH" :expected "3" :actual "(.getLong (java.time.LocalDate/of 2020 3 17) java.time.temporal.ChronoField/ALIGNED_WEEK_OF_MONTH)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "Year isSupported + getLong" :expected "2020" :actual "(.getLong (java.time.Year/of 2020) java.time.temporal.ChronoField/YEAR)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "YearMonth PROLEPTIC_MONTH" :expected "24244" :actual "(.getLong (java.time.YearMonth/of 2020 5) java.time.temporal.ChronoField/PROLEPTIC_MONTH)" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "ISO_OFFSET_DATE_TIME keeps fractional seconds" :expected "1594033153417" :actual "(.toEpochMilli (.toInstant (java.time.ZonedDateTime/parse \"2020-07-06T10:59:13.417Z\" java.time.format.DateTimeFormatter/ISO_OFFSET_DATE_TIME)))" :portability :jvm} - {:suite "interop / java.time chrono-fields" :label "ISO_OFFSET_DATE_TIME without fraction" :expected "1594033153000" :actual "(.toEpochMilli (.toInstant (java.time.ZonedDateTime/parse \"2020-07-06T10:59:13Z\" java.time.format.DateTimeFormatter/ISO_OFFSET_DATE_TIME)))" :portability :jvm} - {:suite "interop / java.util Optional" :label "of + get" :expected "42" :actual "(.get (java.util.Optional/of 42))" :portability :jvm} - {:suite "interop / java.util Optional" :label "empty isPresent" :expected "false" :actual "(.isPresent (java.util.Optional/empty))" :portability :jvm} - {:suite "interop / java.util Optional" :label "value equality" :expected "true" :actual "(= (java.util.Optional/of 5) (java.util.Optional/of 5))" :portability :jvm} - {:suite "interop / java.util Optional" :label "empty orElse" :expected "7" :actual "(.orElse (java.util.Optional/empty) 7)" :portability :jvm} - {:suite "interop / java.util Optional" :label "ofNullable nil is empty" :expected "true" :actual "(= (java.util.Optional/empty) (java.util.Optional/ofNullable nil))" :portability :jvm} - {:suite "interop / class + isa?" :label "forName throws for unknown class" :expected ":cnfe" :actual "(try (do (Class/forName \"totally.Bogus.Class\") :found) (catch ClassNotFoundException e :cnfe))" :portability :jvm} - {:suite "interop / class + isa?" :label "PersistentHashSet isa java.util.Set" :expected "true" :actual "(isa? clojure.lang.PersistentHashSet java.util.Set)" :portability :jvm} - {:suite "interop / class + isa?" :label "String isa Object" :expected "true" :actual "(isa? java.lang.String java.lang.Object)" :portability :jvm} - {:suite "interop / class + isa?" :label "IFn isa Object" :expected "true" :actual "(isa? clojure.lang.IFn java.lang.Object)" :portability :jvm} - {:suite "interop / class + isa?" :label "class of vector" :expected "true" :actual "(= clojure.lang.PersistentVector (class [1]))" :portability :jvm} - {:suite "interop / class + isa?" :label "isa? class keyword Object" :expected "true" :actual "(isa? (class :k) java.lang.Object)" :portability :jvm} - {:suite "interop / java.time shims" :label "Instant/now is current" :expected "true" :actual "(> (.toEpochMilli (Instant/now)) 1500000000000)" :portability :jvm} - {:suite "interop / java.time shims" :label "sql types are not" :expected "false" :actual "(instance? java.sql.Timestamp #inst \"2020-01-01T00:00:00Z\")" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "StringReader read" :expected "[97 98 -1]" :actual "(let [r (java.io.StringReader. \"ab\")] [(.read r) (.read r) (.read r)])" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "mark/reset" :expected "[97 97]" :actual "(let [r (StringReader. \"ab\")] (.mark r 1) [(.read r) (do (.reset r) (.read r))])" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "StringBuilder append" :expected "\"ab1\"" :actual "(.toString (-> (StringBuilder.) (.append \"a\") (.append \\b) (.append 1)))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "capacity arg is not content" :expected "\"x\"" :actual "(.toString (.append (StringBuilder. 16) \"x\"))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "setLength truncates" :expected "\"ab\"" :actual "(let [sb (StringBuilder.)] (.append sb \"abcd\") (.setLength sb 2) (.toString sb))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "char-array of string" :expected "true" :actual "(instance? (Class/forName \"[C\") (char-array \"ab\"))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "reader over char[]" :expected "97" :actual "(do (require (quote clojure.java.io)) (.read (clojure.java.io/reader (char-array \"abc\"))))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "with-open closes shim" :expected "97" :actual "(with-open [r (StringReader. \"a\")] (.read r))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "File.toURL methods read it back" :expected "\"file:/tmp/x\"" :actual "(do (require (quote clojure.java.io)) (.toString (.toURL (clojure.java.io/file \"/tmp/x\"))))" :portability :jvm} - {:suite "interop / StringReader & StringBuilder" :label "vector :import shares deftype ctor" :expected "\"hi!\"" :actual "(do (ns spec.nodea) (defprotocol SpecP (spec-pm [this])) (deftype SpecTN [t] SpecP (spec-pm [this] (str t \"!\"))) (ns spec.nodeb (:import [spec.nodea SpecTN])) (.spec-pm (SpecTN. \"hi\")))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "PushbackReader read" :expected "[97 98]" :actual "(let [r (java.io.PushbackReader. (java.io.StringReader. \"ab\"))] [(.read r) (.read r)])" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "unread pushes back" :expected "[97 97 98]" :actual "(let [r (PushbackReader. (StringReader. \"ab\")) a (.read r)] (.unread r a) [a (.read r) (.read r)])" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "unread accepts a char" :expected "[120 97]" :actual "(let [r (PushbackReader. (StringReader. \"a\"))] (.unread r \\x) [(.read r) (.read r)])" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "edn/read from reader" :expected "5432" :actual "(do (require (quote clojure.edn)) (clojure.edn/read (java.io.PushbackReader. (java.io.StringReader. \"{:db {:port 5432}}\\nrest\"))) (get-in (clojure.edn/read-string \"{:db {:port 5432}}\") [:db :port]))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "edn/read multi-line" :expected "true" :actual "(do (require (quote clojure.edn)) (= {:a 1 :b 2} (clojure.edn/read (PushbackReader. (StringReader. \"{:a 1\\n :b 2}\")))))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "Long/parseLong" :expected "42" :actual "(Long/parseLong \"42\")" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "parseLong rejects non-numeric" :expected :throws :actual "(Long/parseLong \"4x\")" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "BigInteger." :expected "123" :actual "(BigInteger. \"123\")" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "Boolean/parseBoolean" :expected "[true false false]" :actual "[(Boolean/parseBoolean \"true\") (Boolean/parseBoolean \"false\") (Boolean/parseBoolean \"yes\")]" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "System/getenv is a map" :expected "true" :actual "(string? (get (System/getenv) \"HOME\"))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "System/exit resolves" :expected "true" :actual "(fn? System/exit)" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "getenv entries destructure (non-empty)" :expected "true" :actual "(let [es (map (fn [[k v]] [k v]) (System/getenv))] (and (pos? (count es)) (every? vector? es)))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "seq over a raw host table" :expected "true" :actual "(pos? (count (seq (System/getenv))))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "into {} from host table" :expected "true" :actual "(string? (get (into {} (map (fn [[k v]] [k v]) (System/getenv))) \"HOME\"))" :portability :jvm} - {:suite "interop / PushbackReader & parse statics" :label "System/getProperties" :expected "true" :actual "(string? (get (System/getProperties) \"os.name\"))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "URLEncoder www form" :expected "\"a+b%3Dc\"" :actual "(URLEncoder/encode \"a b=c\")" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "URLDecoder www form" :expected "\"a b=c\"" :actual "(URLDecoder/decode \"a+b%3Dc\" (Charset/forName \"UTF-8\"))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "url round trip" :expected "\"x &=%?\"" :actual "(URLDecoder/decode (URLEncoder/encode \"x &=%?\"))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "Base64 encode" :expected "\"aGVsbG8=\"" :actual "(String. (.encode (Base64/getEncoder) (.getBytes \"hello\")))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "Base64 round trip" :expected "\"hello\"" :actual "(String. (.decode (Base64/getDecoder) (String. (.encode (Base64/getEncoder) (.getBytes \"hello\")))))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "Integer radix + byteValue" :expected "-1" :actual "(.byteValue (Integer/valueOf \"ff\" 16))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "Integer parseInt" :expected "255" :actual "(Integer/parseInt \"ff\" 16)" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "StringTokenizer" :expected "[\"a=1\" \"b=2\"]" :actual "(let [t (StringTokenizer. \"a=1&b=2\" \"&\")] [(.nextToken t) (.nextToken t)])" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "MapEntry key/val" :expected "[:a 1]" :actual "(let [e (MapEntry. :a 1)] [(key e) (val e)])" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "String ctor from bytes" :expected "\"hi\"" :actual "(String. (.getBytes \"hi\"))" :portability :jvm} - {:suite "host-interop / ring-codec surface" :label "extend-protocol Map" :expected ":map" :actual "(do (defprotocol Pe (pe [x])) (extend-protocol Pe Map (pe [m] :map) Object (pe [o] :obj)) (pe {:a 1}))" :portability :common} - {:suite "host-interop / ring-codec surface" :label "extend-protocol nil" :expected ":nil" :actual "(do (defprotocol Pn (pn [x])) (extend-protocol Pn nil (pn [n] :nil) Object (pn [o] :obj)) (pn nil))" :portability :common} - {:suite "host-interop / ring-codec surface" :label "extend-protocol Map covers sorted" :expected ":map" :actual "(do (defprotocol Ps (ps [x])) (extend-protocol Ps Map (ps [m] :map) Object (ps [o] :obj)) (ps (sorted-map 1 2)))" :portability :common} - {:suite "host-interop / ring-codec surface" :label "reduce over reified IReduceInit" :expected "42" :actual "(reduce + 0 (reify clojure.lang.IReduceInit (reduce [_ f init] (f (f init 40) 2))))" :portability :jvm} - {:suite "core / reify" :label "multi-arity method dispatches by arg count" :expected "[:z 9]" :actual "(do (defprotocol P (m [_] [_ a])) (let [r (reify P (m [_] :z) (m [_ x] x))] [(m r) (m r 9)]))" :portability :common} - {:suite "core / reify" :label "reify implements IObj and carries metadata" :expected "[true 2]" :actual "(do (defprotocol Q (qq [_])) (let [r (reify Q (qq [_] 1))] [(instance? clojure.lang.IObj r) (:k (meta (with-meta r {:k 2})))]))" :portability :jvm} - {:suite "core / reify" :label "with-meta leaves the original untouched and keeps dispatch" :expected "[nil {:k 2} 1]" :actual "(do (defprotocol Q (qq [_])) (let [r (reify Q (qq [_] 1)) r2 (with-meta r {:k 2})] [(meta r) (meta r2) (qq r2)]))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "class name evaluates to canonical string" :expected "java.lang.String" :actual "String" :portability :common} - {:suite "host-interop / class tokens & readers" :label "dispatch-only class name" :expected "\"java.io.InputStream\"" :actual "InputStream" :portability :common} - {:suite "host-interop / class tokens & readers" :label "(class x) matches the token" :expected "true" :actual "(= String (class \"abc\"))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "defmulti on class dispatches" :expected ":str" :actual "(do (defmulti cm (fn [x] (class x))) (defmethod cm String [x] :str) (cm \"a\"))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "defmethod on nil dispatch value" :expected ":nil" :actual "(do (defmulti cn (fn [x] (class x))) (defmethod cn nil [x] :nil) (defmethod cn String [x] :str) (cn nil))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "Class str is class-prefixed" :expected "\"class java.lang.String\"" :actual "(str (class \"\"))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "Class getName" :expected "\"java.lang.String\"" :actual "(.getName (class \"\"))" :portability :jvm} - {:suite "host-interop / class tokens & readers" :label "Class getSimpleName" :expected "\"Long\"" :actual "(.getSimpleName (class 5))" :portability :jvm} - {:suite "host-interop / class tokens & readers" :label "Class of equal-typed values is =" :expected "true" :actual "(= (class 5) (class 6))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "Class in a thrown message" :expected "\"of class java.lang.String\"" :actual "(try (throw (Exception. (str \"of \" (class \"\")))) (catch Exception e (.getMessage e)))" :portability :jvm} - {:suite "host-interop / class tokens & readers" :label "ctor sugar still constructs" :expected "\"x\"" :actual "(.toString (StringBuilder. \"x\"))" :portability :jvm} - {:suite "host-interop / class tokens & readers" :label "return-hinted defn parses" :expected "7" :actual "(do (defn- hb ^bytes [b] b) (hb 7))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "hinted multi-arity parses" :expected ":two" :actual "((fn ([x] :one) (^String [x y] :two)) 1 2)" :portability :common} - {:suite "host-interop / class tokens & readers" :label "slurp drains a StringReader" :expected "\"a=1\"" :actual "(slurp (StringReader. \"a=1\"))" :portability :jvm} - {:suite "host-interop / class tokens & readers" :label "slurp accepts :encoding opts" :expected "\"b\"" :actual "(slurp (StringReader. \"b\") :encoding \"UTF-8\")" :portability :jvm} - {:suite "host-interop / class tokens & readers" :label "replace with fn replacement is literal" :expected "\"$0\"" :actual "(do (require (quote [clojure.string :as s9])) (s9/replace \"x\" #\".\" (fn [m] \"$0\")))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "replace fn gets group vector" :expected "\"v=k\"" :actual "(do (require (quote [clojure.string :as s9])) (s9/replace \"k=v\" #\"(\\w+)=(\\w+)\" (fn [[_ k v]] (str v \"=\" k))))" :portability :common} - {:suite "host-interop / class tokens & readers" :label "indexOf int needle is a char code" :expected "1" :actual "(.indexOf \"a=b\" 61)" :portability :jvm} - {:suite "host-interop / exception + HashMap shims" :label "getMessage on a thrown string" :expected "\"class java.lang.String cannot be cast to class java.lang.Throwable (java.lang.String and java.lang.Throwable are in module java.base of loader 'bootstrap')\"" :actual "(try (throw \"boom\") (catch Throwable e (.getMessage e)))" :portability :jvm} - {:suite "host-interop / exception + HashMap shims" :label "getMessage on ex-info" :expected "\"bad\"" :actual "(try (throw (ex-info \"bad\" {})) (catch Throwable e (.getMessage e)))" :portability :jvm} - {:suite "host-interop / exception + HashMap shims" :label "calling a non-fn throws ClassCastException" :expected ":ccx" :actual "(try (1 2) (catch ClassCastException _ :ccx))" :portability :common} - {:suite "host-interop / exception + HashMap shims" :label "non-fn cast is a RuntimeException too" :expected ":rt" :actual "(try ((identity 5)) (catch RuntimeException _ :rt))" :portability :common} - {:suite "host-interop / exception + HashMap shims" :label "HashMap get" :expected "2" :actual "(let [m (HashMap. {:a 1 :b 2})] (.get m :b))" :portability :jvm} - {:suite "host-interop / exception + HashMap shims" :label "HashMap put + size" :expected "2" :actual "(let [m (HashMap. {})] (.put m :x 1) (.put m :y 2) (.size m))" :portability :jvm} - {:suite "host-interop / reader-feature toggle" :label "features default to jolt+default" :expected "true" :actual "(contains? (set (__reader-features)) \"jolt\")" :portability :common} - {:suite "host-interop / reader-feature toggle" :label "set + read back" :expected "true" :actual "(do (def prev (__reader-features)) (__reader-features-set! [\"clj\" \"jolt\" \"default\"]) (def r (contains? (set (__reader-features)) \"clj\")) (__reader-features-set! prev) r)" :portability :common} - {:suite "host-interop / reader-feature toggle" :label "restore returns to default" :expected "false" :actual "(do (def prev (__reader-features)) (__reader-features-set! [\"clj\"]) (__reader-features-set! prev) (contains? (set (__reader-features)) \"clj\"))" :portability :common} - {:suite "host-interop / migratus class shims" :label "Exception. message" :expected "\"boom\"" :actual "(try (throw (Exception. \"boom\")) (catch Throwable e (.getMessage e)))" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "IllegalArgumentException." :expected "\"bad\"" :actual "(try (throw (IllegalArgumentException. \"bad\")) (catch Exception e (.getMessage e)))" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "InterruptedException." :expected "\"stop\"" :actual "(try (throw (InterruptedException. \"stop\")) (catch Throwable e (.getMessage e)))" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "Character/isUpperCase" :expected "true" :actual "(Character/isUpperCase \\A)" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "Character/isLowerCase" :expected "true" :actual "(Character/isLowerCase \\a)" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "Character/isUpperCase neg" :expected "false" :actual "(Character/isUpperCase \\a)" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "Thread/interrupted" :expected "false" :actual "(Thread/interrupted)" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "Long/valueOf" :expected "42" :actual "(Long/valueOf \"42\")" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "Timestamp is millis" :expected "1000" :actual "(.getTime (java.util.Date. (java.sql.Timestamp. 1000)))" :portability :jvm} - {:suite "host-interop / migratus class shims" :label "SimpleDateFormat UTC" :expected "\"19700101000000\"" :actual "(let [f (doto (java.text.SimpleDateFormat. \"yyyyMMddHHmmss\") (.setTimeZone (java.util.TimeZone/getTimeZone \"UTC\")))] (.format f (java.util.Date. 0)))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "instance? File" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (instance? java.io.File (io/file \"/a/b\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "str is the path" :expected "\"/a/b\"" :actual "(do (require '[clojure.java.io :as io]) (str (io/file \"/a/b\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "getName" :expected "\"c.txt\"" :actual "(do (require '[clojure.java.io :as io]) (.getName (io/file \"/a/b/c.txt\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "getPath joins" :expected "\"/a/b\"" :actual "(do (require '[clojure.java.io :as io]) (.getPath (io/file \"/a\" \"b\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "isDirectory of repo dir" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (.isDirectory (io/file \"docs\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "isFile of repo file" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (.isFile (io/file \"README.md\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "exists is false off-disk" :expected "false" :actual "(do (require '[clojure.java.io :as io]) (.exists (io/file \"/no/such/path/xyz\")))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "file-seq yields File values" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (every? (fn [f] (instance? java.io.File f)) (file-seq (io/file \"docs\"))))" :portability :jvm} - {:suite "host-interop / java.io.File" :label "file-seq finds files" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (pos? (count (filter (fn [f] (.isFile f)) (file-seq (io/file \"docs\"))))))" :portability :jvm} - {:suite "host-interop / logging host shims" :label "LockingTransaction/isRunning" :expected "false" :actual "(clojure.lang.LockingTransaction/isRunning)" :portability :jvm} - {:suite "host-interop / logging host shims" :label "pprint writes value" :expected "\"[1 2 3]\\n\"" :actual "(do (require '[clojure.pprint :as pp]) (with-out-str (pp/pprint [1 2 3])))" :portability :common} - {:suite "host-interop / logging host shims" :label "with-pprint-dispatch runs body" :expected "42" :actual "(do (require '[clojure.pprint :as pp]) (pp/with-pprint-dispatch pp/code-dispatch 42))" :portability :common} - {:suite "host-interop / macro dispatch & short-circuit patterns" :label "conditional-eval suppresses" :expected "0" :actual "(do (def ^:dynamic *enabled* false) (defmacro when-on [& body] `(when *enabled* ~@body)) (let [a (atom 0)] (when-on (reset! a 9)) @a))" :portability :common} - {:suite "host-interop / macro dispatch & short-circuit patterns" :label "conditional-eval fires" :expected "9" :actual "(do (def ^:dynamic *enabled* true) (defmacro when-on [& body] `(when *enabled* ~@body)) (let [a (atom 0)] (when-on (reset! a 9)) @a))" :portability :common} - {:suite "host-interop / macro dispatch & short-circuit patterns" :label "spy-like eval+print+return" :expected "3" :actual "(do (defmacro spylog [expr] `(let [v# ~expr] (println v#) v#)) (spylog (+ 1 2)))" :portability :common} - {:suite "host-interop / macro dispatch & short-circuit patterns" :label "multi-arity 4 dispatch" :expected "[:single :double :triple :quad]" :actual "(do (defmacro ml ([a] :single) ([a b] :double) ([a b c] :triple) ([a b c d] :quad)) [(ml 1) (ml 1 2) (ml 1 2 3) (ml 1 2 3 4)])" :portability :common} - {:suite "inst / reading & identity" :label "reads to inst" :expected "true" :actual "(inst? #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "inst / reading & identity" :label "inst? false on string" :expected "false" :actual "(inst? \"2020-01-01\")" :portability :common} - {:suite "inst / reading & identity" :label "epoch zero" :expected "0" :actual "(inst-ms #inst \"1970-01-01T00:00:00Z\")" :portability :common} - {:suite "inst / reading & identity" :label "one second" :expected "1000" :actual "(inst-ms #inst \"1970-01-01T00:00:01Z\")" :portability :common} - {:suite "inst / reading & identity" :label "millis" :expected "123" :actual "(inst-ms #inst \"1970-01-01T00:00:00.123Z\")" :portability :common} - {:suite "inst / reading & identity" :label "a real date" :expected "1577836800000" :actual "(inst-ms #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "inst / reading & identity" :label "inst-ms throws on non-inst" :expected :throws :actual "(inst-ms 42)" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "year only" :expected "true" :actual "(= #inst \"2020\" #inst \"2020-01-01T00:00:00.000Z\")" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "year-month" :expected "true" :actual "(= #inst \"2020-03\" #inst \"2020-03-01T00:00:00Z\")" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "date only" :expected "true" :actual "(= #inst \"2020-03-15\" #inst \"2020-03-15T00:00:00Z\")" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "positive offset" :expected "true" :actual "(= #inst \"2020-01-01T01:00:00+01:00\" #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "negative offset" :expected "true" :actual "(= #inst \"2019-12-31T23:00:00-01:00\" #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "-00:00 offset" :expected "true" :actual "(= #inst \"2020-01-01T00:00:00-00:00\" #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "inst / partial timestamps & offsets" :label "bad timestamp throws" :expected :throws :actual "#inst \"garbage\"" :portability :common} - {:suite "inst / value semantics & printing" :label "equal by instant" :expected "true" :actual "(= #inst \"2020-01-01T00:00:00Z\" #inst \"2020-01-01T00:00:00.000Z\")" :portability :common} - {:suite "inst / value semantics & printing" :label "unequal instants" :expected "false" :actual "(= #inst \"2020-01-01T00:00:00Z\" #inst \"2020-01-01T00:00:01Z\")" :portability :common} - {:suite "inst / value semantics & printing" :label "works as map key" :expected ":v" :actual "(get {#inst \"2020-01-01T00:00:00Z\" :v} #inst \"2020-01-01T00:00:00.000Z\")" :portability :common} - {:suite "inst / value semantics & printing" :label "pr-str round-trips" :expected "\"#inst \\\"2020-01-01T00:00:00.000-00:00\\\"\"" :actual "(pr-str #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "io / with-out-str captures" :label "println" :expected "\"hi\\n\"" :actual "(with-out-str (println \"hi\"))" :portability :common} - {:suite "io / with-out-str captures" :label "print spaces" :expected "\"a b\"" :actual "(with-out-str (print \"a\" \"b\"))" :portability :common} - {:suite "io / with-out-str captures" :label "prn quotes" :expected "\"[1 2]\\n\"" :actual "(with-out-str (prn [1 2]))" :portability :common} - {:suite "io / with-out-str captures" :label "pr no newline" :expected "\"5\"" :actual "(with-out-str (pr 5))" :portability :common} - {:suite "io / with-out-str captures" :label "multiple writes" :expected "\"12\"" :actual "(with-out-str (print 1) (print 2))" :portability :common} - {:suite "io / with-out-str captures" :label "no output" :expected "\"\"" :actual "(with-out-str 42)" :portability :common} - {:suite "io / with-out-str captures" :label "println no args" :expected "\"\\n\"" :actual "(with-out-str (println))" :portability :common} - {:suite "io / *-str builders" :label "print-str" :expected "\"a b\"" :actual "(print-str \"a\" \"b\")" :portability :common} - {:suite "io / *-str builders" :label "println-str" :expected "\"x\\n\"" :actual "(println-str \"x\")" :portability :common} - {:suite "io / *-str builders" :label "prn-str" :expected "\"[1 2]\\n\"" :actual "(prn-str [1 2])" :portability :common} - {:suite "io / *-str builders" :label "pr-str quotes" :expected "\"\\\"s\\\"\"" :actual "(pr-str \"s\")" :portability :common} - {:suite "io / *-str builders" :label "pr-str keyword" :expected "\":a\"" :actual "(pr-str :a)" :portability :common} - {:suite "io / str & format" :label "str concat" :expected "\"1:ab\"" :actual "(str 1 :a \"b\")" :portability :common} - {:suite "io / str & format" :label "str nil" :expected "\"\"" :actual "(str nil)" :portability :common} - {:suite "io / str & format" :label "str of coll" :expected "\"[1 2]\"" :actual "(str [1 2])" :portability :common} - {:suite "io / str & format" :label "format d/s" :expected "\"5-x\"" :actual "(format \"%d-%s\" 5 \"x\")" :portability :common} - {:suite "io / str & format" :label "format float" :expected "\"3.14\"" :actual "(format \"%.2f\" 3.14159)" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "read-line one line" :expected "\"hello\"" :actual "(with-in-str \"hello\" (read-line))" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "read-line strips nl" :expected "\"a\"" :actual "(with-in-str \"a\\nb\" (read-line))" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "read-line sequential" :expected "[\"a\" \"b\"]" :actual "(with-in-str \"a\\nb\" [(read-line) (read-line)])" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "read-line EOF nil" :expected "nil" :actual "(with-in-str \"\" (read-line))" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "read-line after last" :expected "[\"x\" nil]" :actual "(with-in-str \"x\" [(read-line) (read-line)])" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "empty line" :expected "[\"\" \"y\"]" :actual "(with-in-str \"\\ny\" [(read-line) (read-line)])" :portability :common} - {:suite "io / *in* + with-in-str + read-line" :label "*in* is bound" :expected "false" :actual "(with-in-str \"\" (map? *in*))" :portability :common} - {:suite "io / read" :label "read a form" :expected "42" :actual "(with-in-str \"42\" (read))" :portability :common} - {:suite "io / read" :label "read a list form" :expected "(quote (+ 1 2))" :actual "(with-in-str \"(+ 1 2)\" (read))" :portability :common} - {:suite "io / read" :label "read two forms" :expected "[1 2]" :actual "(with-in-str \"1 2\" [(read) (read)])" :portability :common} - {:suite "io / read" :label "read then read-line" :expected "[1 \" rest\"]" :actual "(with-in-str \"1 rest\\nnext\" [(read) (read-line)])" :portability :common} - {:suite "io / read" :label "read vector" :expected "[1 2]" :actual "(with-in-str \"[1 2]\" (read))" :portability :common} - {:suite "io / read" :label "read nil literal" :expected "nil" :actual "(with-in-str \"nil\" (read))" :portability :common} - {:suite "io / read" :label "read EOF throws" :expected :throws :actual "(with-in-str \"\" (read))" :portability :common} - {:suite "io / read" :label "read EOF value" :expected ":done" :actual "(with-in-str \"\" (read *in* false :done))" :portability :common} - {:suite "io / read" :label "read eval data" :expected "3" :actual "(with-in-str \"(+ 1 2)\" (eval (read)))" :portability :common} - {:suite "io / line-seq" :label "line-seq" :expected "[\"a\" \"b\" \"c\"]" :actual "(with-in-str \"a\\nb\\nc\" (vec (line-seq *in*)))" :portability :common} - {:suite "io / line-seq" :label "line-seq empty" :expected "nil" :actual "(with-in-str \"\" (seq (line-seq *in*)))" :portability :common} - {:suite "io / line-seq" :label "line-seq is lazy seq" :expected "true" :actual "(with-in-str \"a\\nb\" (seq? (line-seq *in*)))" :portability :common} - {:suite "io / line-seq" :label "line-seq count" :expected "3" :actual "(with-in-str \"1\\n2\\n3\" (count (line-seq *in*)))" :portability :common} - {:suite "io / print family (overlay)" :label "pr-str multi-arg spacing" :expected "\"\\\"a\\\" [1 2] :k\"" :actual "(pr-str \"a\" [1 2] :k)" :portability :common} - {:suite "io / print family (overlay)" :label "pr-str zero args" :expected "\"\"" :actual "(pr-str)" :portability :common} - {:suite "io / print family (overlay)" :label "pr-str escapes" :expected "\"\\\"a\\\\\\\"b\\\"\"" :actual "(pr-str \"a\\\"b\")" :portability :common} - {:suite "io / print family (overlay)" :label "print is unreadable" :expected "\"a b\"" :actual "(with-out-str (print \"a\" \"b\"))" :portability :common} - {:suite "io / print family (overlay)" :label "println appends newline" :expected "\"x 1\\n\"" :actual "(with-out-str (println \"x\" 1))" :portability :common} - {:suite "io / print family (overlay)" :label "prn is readable + newline" :expected "\"[1 \\\"s\\\"]\\n\"" :actual "(with-out-str (prn [1 \"s\"]))" :portability :common} - {:suite "io / print family (overlay)" :label "pr writes no newline" :expected "\"\\\\a\"" :actual "(with-out-str (pr \\a))" :portability :common} - {:suite "io / print family (overlay)" :label "print nil arg" :expected "\"nil\"" :actual "(with-out-str (print nil))" :portability :common} - {:suite "io / print family (overlay)" :label "prn keyword" :expected "\":k\\n\"" :actual "(with-out-str (prn :k))" :portability :common} - {:suite "io / print-method multimethod" :label "records print canonically" :expected "\"#user.Pt{:x 1, :y 2}\"" :actual "(do (defrecord Pt [x y]) (pr-str (->Pt 1 2)))" :portability :common} - {:suite "io / print-method multimethod" :label "records nested in colls" :expected "\"[#user.Pt{:x 1, :y 2}]\"" :actual "(do (defrecord Pt [x y]) (pr-str [(->Pt 1 2)]))" :portability :common} - {:suite "io / print-method multimethod" :label "defmethod overrides a record, top level" :expected "\"#user.Pt{:x 3, :y 4}\"" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] (.write w (str \"<\" (:x r) \",\" (:y r) \">\"))) (pr-str (->Pt 3 4)))" :portability :jvm} - {:suite "io / print-method multimethod" :label "defmethod fires nested in a map" :expected "\"{:p #user.Pt{:x 5, :y 6}}\"" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] (.write w (str \"<\" (:x r) \",\" (:y r) \">\"))) (pr-str {:p (->Pt 5 6)}))" :portability :jvm} - {:suite "io / print-method multimethod" :label "defmethod fires through prn" :expected "\"[#user.Pt{:x 1, :y 2}]\\n\"" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] (.write w (str \"<\" (:x r) \",\" (:y r) \">\"))) (with-out-str (prn [(->Pt 1 2)])))" :portability :jvm} - {:suite "io / print-method multimethod" :label "direct call uses :default" :expected "\"42\"" :actual "(let [w (StringWriter.)] (print-method 42 w) (.toString w))" :portability :jvm} - {:suite "io / print-method multimethod" :label "direct builtin override" :expected "\"#42#\"" :actual "(do (defmethod print-method :number [n w] (.write w (str \"#\" n \"#\"))) (let [w (StringWriter.)] (print-method 42 w) (.toString w)))" :portability :jvm} - {:suite "io / print-method multimethod" :label "print-dup routes to print-method" :expected "\"[1 2]\"" :actual "(let [w (StringWriter.)] (print-dup [1 2] w) (.toString w))" :portability :jvm} - {:suite "io / print-method multimethod" :label "StringWriter accumulates" :expected "\"ab\"" :actual "(let [w (StringWriter.)] (.write w \"a\") (.append w \\b) (.toString w))" :portability :jvm} - {:suite "io / print-method multimethod" :label "methods table inspectable" :expected "true" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] r) (contains? (methods print-method) (quote user.Pt)))" :portability :common} - {:suite "io / cold tagged types via print-method" :label "uuid" :expected "\"#uuid \\\"b6883c0a-0342-4007-9966-bc2dfa6b109e\\\"\"" :actual "(pr-str (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "io / cold tagged types via print-method" :label "uuid nested" :expected "\"[#uuid \\\"b6883c0a-0342-4007-9966-bc2dfa6b109e\\\"]\"" :actual "(pr-str [(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")])" :portability :common} - {:suite "io / cold tagged types via print-method" :label "regex" :expected "\"#\\\"a+b\\\"\"" :actual "(pr-str #\"a+b\")" :portability :common} - {:suite "io / cold tagged types via print-method" :label "transient vector" :expected "\"#object[clojure.lang.PersistentVector$TransientVector 0xa4ac20b \\\"clojure.lang.PersistentVector$TransientVector@a4ac20b\\\"]\"" :actual "(pr-str (transient [1]))" :portability :common} - {:suite "io / cold tagged types via print-method" :label "transient map" :expected "\"#object[clojure.lang.PersistentArrayMap$TransientArrayMap 0x79939c8 \\\"clojure.lang.PersistentArrayMap$TransientArrayMap@79939c8\\\"]\"" :actual "(pr-str (transient {:a 1}))" :portability :common} - {:suite "io / cold tagged types via print-method" :label "atom override fires nested" :expected "\"{:a #object[clojure.lang.Atom 0x2bb39d6c {:status :ready, :val 7}]}\"" :actual "(do (defmethod print-method :jolt/atom [a w] (.write w (str \"#atom[\" (deref a) \"]\"))) (pr-str {:a (atom 7)}))" :portability :jvm} - {:suite "io / cold tagged types via print-method" :label "uuid through str unchanged" :expected "\"b6883c0a-0342-4007-9966-bc2dfa6b109e\"" :actual "(str (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "ISeq call forms" :label "eval a cons'd call" :expected "3" :actual "(eval (cons (quote +) (quote (1 2))))" :portability :common} - {:suite "ISeq call forms" :label "eval a list-built call" :expected "6" :actual "(eval (list (quote +) 1 2 3))" :portability :common} - {:suite "ISeq call forms" :label "eval a concat'd call" :expected "10" :actual "(eval (concat (list (quote +)) (list 1 2 3 4)))" :portability :common} - {:suite "ISeq call forms" :label "nested cons'd subform" :expected "7" :actual "(eval (list (quote +) 3 (cons (quote +) (quote (1 3)))))" :portability :common} - {:suite "ISeq call forms" :label "empty list self-evals" :expected "[]" :actual "(eval (list))" :portability :common} - {:suite "ISeq call forms" :label "macro output via cons" :expected "3" :actual "(do (defmacro mc [] (cons (quote +) (quote (1 2)))) (mc))" :portability :common} - {:suite "ISeq call forms" :label "macro output via concat" :expected "6" :actual "(do (defmacro mk [] (concat (list (quote +)) (list 1 2 3))) (mk))" :portability :common} - {:suite "ISeq call forms" :label "vector value self-evals" :expected "[1 2 3]" :actual "(eval (vec [1 2 3]))" :portability :common} - {:suite "ISeq call forms" :label "quoted list of data" :expected "[1 2 3]" :actual "(quote (1 2 3))" :portability :common} - {:suite "lazy / construction & laziness" :label "lazy-seq value" :expected "[1 2 3]" :actual "(take 3 (lazy-seq (cons 1 (lazy-seq (cons 2 (lazy-seq (cons 3 nil)))))))" :portability :common} - {:suite "lazy / construction & laziness" :label "not eagerly evaluated" :expected "0" :actual "(let [c (atom 0)] (lazy-seq (swap! c inc) nil) @c)" :portability :common} - {:suite "lazy / construction & laziness" :label "realized on demand" :expected "1" :actual "(let [c (atom 0) s (lazy-seq (swap! c inc) [1])] (first s) @c)" :portability :common} - {:suite "lazy / construction & laziness" :label "lazy-cat" :expected "[0 1 2 3]" :actual "(lazy-cat [0 1] [2 3])" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "map" :expected "0" :actual "(let [a (atom 0)] (map (fn [x] (swap! a inc) x) (range 5)) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "filter" :expected "0" :actual "(let [a (atom 0)] (filter (fn [x] (swap! a inc) true) (range 5)) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "remove" :expected "0" :actual "(let [a (atom 0)] (remove (fn [x] (swap! a inc) false) (range 5)) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "take over a lazy source" :expected "0" :actual "(let [a (atom 0)] (take 3 (map (fn [x] (swap! a inc) x) (range 100))) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "drop over a lazy source" :expected "0" :actual "(let [a (atom 0)] (drop 2 (map (fn [x] (swap! a inc) x) (range 100))) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "concat over lazy sources" :expected "0" :actual "(let [a (atom 0)] (concat (map (fn [x] (swap! a inc) x) [1 2]) (map (fn [x] (swap! a inc) x) [3 4])) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "take-while" :expected "0" :actual "(let [a (atom 0)] (take-while (fn [x] (swap! a inc) true) (range 5)) @a)" :portability :common} - {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "partition over a lazy source" :expected "0" :actual "(let [a (atom 0)] (partition 2 (map (fn [x] (swap! a inc) x) (range 6))) @a)" :portability :common} - {:suite "lazy / result type is LazySeq" :label "map/filter/take/concat/mapcat are LazySeq" :expected "[true true true true true]" :actual "(mapv #(instance? clojure.lang.LazySeq %) [(map inc [1]) (filter odd? [1]) (take 1 [1]) (concat [1]) (mapcat list [1])])" :portability :jvm} - {:suite "lazy / construction & laziness" :label "doall forces" :expected "[2 3 4]" :actual "(doall (map inc [1 2 3]))" :portability :common} - {:suite "lazy / construction & laziness" :label "dorun returns nil" :expected "nil" :actual "(dorun (map inc [1 2 3]))" :portability :common} - {:suite "lazy / infinite" :label "take from repeat" :expected "[7 7 7]" :actual "(take 3 (repeat 7))" :portability :common} - {:suite "lazy / infinite" :label "take from iterate" :expected "[1 2 4 8]" :actual "(take 4 (iterate (fn [x] (* 2 x)) 1))" :portability :common} - {:suite "lazy / infinite" :label "take from cycle" :expected "[1 2 1 2]" :actual "(take 4 (cycle [1 2]))" :portability :common} - {:suite "lazy / infinite" :label "take from range" :expected "[0 1 2]" :actual "(take 3 (range))" :portability :common} - {:suite "lazy / infinite" :label "drop then take" :expected "[5 6 7]" :actual "(take 3 (drop 5 (range)))" :portability :common} - {:suite "lazy / infinite" :label "filter infinite" :expected "[0 2 4]" :actual "(take 3 (filter even? (range)))" :portability :common} - {:suite "lazy / infinite" :label "map infinite" :expected "[0 1 4]" :actual "(take 3 (map (fn [x] (* x x)) (range)))" :portability :common} - {:suite "lazy / infinite" :label "nth of infinite" :expected "100" :actual "(nth (range) 100)" :portability :common} - {:suite "lazy / self-referential" :label "self-ref ones" :expected "[1 1 1 1 1]" :actual "(do (def ones (lazy-seq (cons 1 ones))) (take 5 ones))" :portability :common} - {:suite "lazy / self-referential" :label "self-ref nats" :expected "[0 1 2 3 4]" :actual "(do (def nats (lazy-cat [0] (map inc nats))) (take 5 nats))" :portability :common} - {:suite "lazy / self-referential" :label "self-ref fib" :expected "[0 1 1 2 3 5 8 13 21 34]" :actual "(do (def fib (lazy-cat [0 1] (map + (rest fib) fib))) (take 10 fib))" :portability :common} - {:suite "lazy / realized?" :label "unrealized" :expected "false" :actual "(realized? (lazy-seq (cons 1 nil)))" :portability :common} - {:suite "lazy / realized?" :label "realized after" :expected "true" :actual "(let [s (lazy-seq (cons 1 nil))] (first s) (realized? s))" :portability :common} - {:suite "lazy / realized?" :label "body runs once" :expected "1" :actual "(let [c (atom 0) s (lazy-seq (do (swap! c inc) [1 2 3]))] (seq s) (seq s) @c)" :portability :common} - {:suite "lazy-seq / realization is shared across walks" :label "effects run once across three walks" :expected "3" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) [1 2 3])] (doall s) (dorun s) (vec s) (deref a))" :portability :common} - {:suite "lazy-seq / realization is shared across walks" :label "values stable across walks" :expected "true" :actual "(let [s (map inc [1 2 3])] (= (vec s) (vec s) [2 3 4]))" :portability :common} - {:suite "lazy-seq / realization is shared across walks" :label "filter effects once" :expected "4" :actual "(let [a (atom 0) s (filter (fn [x] (swap! a inc) (odd? x)) [1 2 3 4])] (dorun s) (count s) (deref a))" :portability :common} - {:suite "lazy / realization order & count" :label "map realizes left-to-right" :expected "[1 2 3]" :actual "(let [log (atom [])] (dorun (map (fn [x] (swap! log conj x) x) (list 1 2 3))) @log)" :portability :common} - {:suite "lazy / realization order & count" :label "filter realizes left-to-right" :expected "[1 2 3]" :actual "(let [log (atom [])] (dorun (filter (fn [x] (swap! log conj x) true) (list 1 2 3))) @log)" :portability :common} - {:suite "lazy / realization order & count" :label "take realizes exactly n, no over-realization" :expected "3" :actual "(let [a (atom 0)] (dorun (take 3 (map (fn [x] (swap! a inc) x) (iterate inc 0)))) @a)" :portability :common} - {:suite "lazy / realization order & count" :label "nth realizes exactly index+1" :expected "3" :actual "(let [a (atom 0)] (nth (map (fn [x] (swap! a inc) x) (iterate inc 0)) 2) @a)" :portability :common} - {:suite "lazy / realization order & count" :label "drop+first realizes through the index" :expected "3" :actual "(let [a (atom 0)] (first (drop 2 (map (fn [x] (swap! a inc) x) (iterate inc 0)))) @a)" :portability :common} - {:suite "lazy / realization is memoized" :label "first twice realizes once" :expected "1" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (first s) (first s) @a)" :portability :common} - {:suite "lazy / realization is memoized" :label "wider take extends, does not re-realize" :expected "4" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (doall (take 2 s)) (doall (take 4 s)) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "keep" :expected "0" :actual "(let [a (atom 0)] (keep (fn [x] (swap! a inc) x) (range 5)) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "keep-indexed" :expected "0" :actual "(let [a (atom 0)] (keep-indexed (fn [i x] (swap! a inc) x) (range 5)) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "map-indexed" :expected "0" :actual "(let [a (atom 0)] (map-indexed (fn [i x] (swap! a inc) x) (range 5)) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "distinct" :expected "0" :actual "(let [a (atom 0)] (distinct (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "partition-by" :expected "0" :actual "(let [a (atom 0)] (partition-by (fn [x] (swap! a inc) x) (range 5)) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "partition-all" :expected "0" :actual "(let [a (atom 0)] (partition-all 2 (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "interpose" :expected "0" :actual "(let [a (atom 0)] (interpose 0 (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "interleave" :expected "0" :actual "(let [a (atom 0)] (interleave (map (fn [x] (swap! a inc) x) (range 5)) (range 5)) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "take-nth" :expected "0" :actual "(let [a (atom 0)] (take-nth 2 (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "reductions" :expected "0" :actual "(let [a (atom 0)] (reductions + (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "tree-seq" :expected "0" :actual "(let [a (atom 0)] (tree-seq (fn [x] (swap! a inc) false) identity [1 [2]]) @a)" :portability :common} - {:suite "lazy / family is lazy at construction (no side effect)" :label "replace over a seq" :expected "0" :actual "(let [a (atom 0)] (replace {} (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} - {:suite "lazy / realization timing" :label "sequence realizes the first element" :expected "1" :actual "(let [a (atom 0)] (sequence (map (fn [x] (swap! a inc) x)) (range 5)) @a)" :portability :common} - {:suite "lazy / realization timing" :label "next realizes head + one lookahead" :expected "2" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (next s) @a)" :portability :common} - {:suite "lazy / realization timing" :label "rest realizes only the head" :expected "1" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (rest s) @a)" :portability :common} - {:suite "list / construct & predicate" :label "list" :expected "[1 2 3]" :actual "(list 1 2 3)" :portability :common} - {:suite "list / construct & predicate" :label "empty list" :expected "[]" :actual "(list)" :portability :common} - {:suite "list / construct & predicate" :label "quoted list" :expected "[1 2 3]" :actual "(quote (1 2 3))" :portability :common} - {:suite "list / construct & predicate" :label "list? true" :expected "true" :actual "(list? (list 1 2))" :portability :common} - {:suite "list / construct & predicate" :label "list? on conj result" :expected "true" :actual "(list? (conj (list 1) 0))" :portability :common} - {:suite "list / construct & predicate" :label "count" :expected "3" :actual "(count (list 1 2 3))" :portability :common} - {:suite "list / construct & predicate" :label "empty? true" :expected "true" :actual "(empty? (list))" :portability :common} - {:suite "list / construct & predicate" :label "list = vector elts" :expected "true" :actual "(= (list 1 2 3) [1 2 3])" :portability :common} - {:suite "list / access & update" :label "first" :expected "1" :actual "(first (list 1 2 3))" :portability :common} - {:suite "list / access & update" :label "rest" :expected "[2 3]" :actual "(rest (list 1 2 3))" :portability :common} - {:suite "list / access & update" :label "peek is first" :expected "1" :actual "(peek (list 1 2 3))" :portability :common} - {:suite "list / access & update" :label "pop drops first" :expected "[2 3]" :actual "(pop (list 1 2 3))" :portability :common} - {:suite "list / access & update" :label "conj prepends" :expected "[0 1 2]" :actual "(conj (list 1 2) 0)" :portability :common} - {:suite "list / access & update" :label "conj many prepends" :expected "[4 3 1 2]" :actual "(conj (list 1 2) 3 4)" :portability :common} - {:suite "list / access & update" :label "cons prepends" :expected "[0 1 2]" :actual "(cons 0 (list 1 2))" :portability :common} - {:suite "list / access & update" :label "nth" :expected "20" :actual "(nth (list 10 20 30) 1)" :portability :common} - {:suite "list / immutability & performance" :label "conj does not mutate" :expected "true" :actual "(let [l (list 1 2 3) m (conj l 0)] (and (= l [1 2 3]) (= m [0 1 2 3])))" :portability :common} - {:suite "list / immutability & performance" :label "reduce conj builds" :expected "[2 1 0]" :actual "(reduce conj (list) (range 3))" :portability :common} - {:suite "list / immutability & performance" :label "O(1) conj at scale" :expected "200000" :actual "(count (reduce conj (list) (range 200000)))" :portability :common} - {:suite "list / immutability & performance" :label "scale head correct" :expected "199999" :actual "(first (reduce conj (list) (range 200000)))" :portability :common} - {:suite "macros / quoting" :label "quote symbol" :expected "(quote a)" :actual "(quote a)" :portability :common} - {:suite "macros / quoting" :label "quote list" :expected "[1 2 3]" :actual "(quote (1 2 3))" :portability :common} - {:suite "macros / quoting" :label "quote nested" :expected "[1 [2 3]]" :actual "(quote (1 (2 3)))" :portability :common} - {:suite "macros / quoting" :label "quote sugar" :expected "'a" :actual "'a" :portability :common} - {:suite "macros / quoting" :label "syntax-quote literal" :expected "[1 2]" :actual "`[1 2]" :portability :common} - {:suite "macros / quoting" :label "unquote" :expected "[1 2 3]" :actual "(let [x 2] `[1 ~x 3])" :portability :common} - {:suite "macros / quoting" :label "unquote-splicing" :expected "[1 2 3 4]" :actual "(let [xs [2 3]] `[1 ~@xs 4])" :portability :common} - {:suite "macros / quoting" :label "unquote in list" :expected "[3]" :actual "(let [x 3] `(~x))" :portability :common} - {:suite "macros / quoting" :label "syntax-quote symbol qualifies" :expected "true" :actual "(symbol? `foo)" :portability :common} - {:suite "macros / defmacro" :label "simple macro" :expected "3" :actual "(do (defmacro m [a b] `(+ ~a ~b)) (m 1 2))" :portability :common} - {:suite "macros / defmacro" :label "macro unless" :expected "1" :actual "(do (defmacro unless [c body] `(if ~c nil ~body)) (unless false 1))" :portability :common} - {:suite "macros / defmacro" :label "macro with body splice" :expected "6" :actual "(do (defmacro msum [& xs] `(+ ~@xs)) (msum 1 2 3))" :portability :common} - {:suite "macros / defmacro" :label "macroexpand-1" :expected "false" :actual "(do (defmacro m [x] `(inc ~x)) (list? (macroexpand-1 '(m 5))))" :portability :common} - {:suite "macros / defmacro" :label "gensym unique" :expected "false" :actual "(= (gensym) (gensym))" :portability :common} - {:suite "macros / defmacro" :label "gensym# in template" :expected "true" :actual "(do (defmacro m [] `(let [x# 1] x#)) (= 1 (m)))" :portability :common} - {:suite "macros / defmacro" :label "#() inside syntax-quote" :expected "[2 4 6]" :actual "(do (defmacro m [] `(mapv #(* % 2) [1 2 3])) (m))" :portability :common} - {:suite "macros / defmacro" :label "#() + auto-gensym share in template" :expected "\"ab\"" :actual "(do (defmacro m [] `(let [sb# (StringBuilder.)] (mapv #(.append sb# %) [\"a\" \"b\"]) (.toString sb#))) (m))" :portability :jvm} - {:suite "macros / core-overlay" :label "if-not true branch" :expected ":then" :actual "(if-not false :then :else)" :portability :common} - {:suite "macros / core-overlay" :label "if-not else branch" :expected ":else" :actual "(if-not true :then :else)" :portability :common} - {:suite "macros / core-overlay" :label "if-not no else" :expected "nil" :actual "(if-not true :then)" :portability :common} - {:suite "macros / core-overlay" :label "if-not no else hit" :expected ":then" :actual "(if-not false :then)" :portability :common} - {:suite "macros / core-overlay" :label "comment -> nil" :expected "nil" :actual "(comment a b c)" :portability :common} - {:suite "macros / core-overlay" :label "comment in do" :expected "42" :actual "(do (comment ignored) 42)" :portability :common} - {:suite "macros / core-overlay" :label "if-let then" :expected "6" :actual "(if-let [x 5] (inc x) :none)" :portability :common} - {:suite "macros / core-overlay" :label "if-let else" :expected ":none" :actual "(if-let [x nil] (inc x) :none)" :portability :common} - {:suite "macros / core-overlay" :label "if-let else scope" :expected "9" :actual "(let [x 9] (if-let [x nil] :t x))" :portability :common} - {:suite "macros / core-overlay" :label "if-some zero" :expected "1" :actual "(if-some [x 0] (inc x) :none)" :portability :common} - {:suite "macros / core-overlay" :label "if-some nil" :expected ":none" :actual "(if-some [x nil] x :none)" :portability :common} - {:suite "macros / core-overlay" :label "when-some multi" :expected "14" :actual "(when-some [x 7] (inc x) (* x 2))" :portability :common} - {:suite "macros / core-overlay" :label "when-some nil" :expected "nil" :actual "(when-some [x nil] x)" :portability :common} - {:suite "macros / core-overlay" :label "while loop" :expected "3" :actual "(let [a (atom 0)] (while (< @a 3) (swap! a inc)) @a)" :portability :common} - {:suite "macros / core-overlay" :label "dotimes sum" :expected "10" :actual "(let [a (atom 0)] (dotimes [i 5] (swap! a + i)) @a)" :portability :common} - {:suite "macros / core-overlay" :label "as-> threads" :expected "12" :actual "(as-> 5 x (+ x 1) (* x 2))" :portability :common} - {:suite "macros / core-overlay" :label "as-> no forms" :expected "5" :actual "(as-> 5 x)" :portability :common} - {:suite "macros / core-overlay" :label "some-> through" :expected "6" :actual "(some-> {:a {:b 5}} :a :b inc)" :portability :common} - {:suite "macros / core-overlay" :label "some-> short-circuit" :expected "nil" :actual "(some-> {:a nil} :a :b)" :portability :common} - {:suite "macros / core-overlay" :label "some->> through" :expected "9" :actual "(some->> [1 2 3] (map inc) (reduce +))" :portability :common} - {:suite "macros / core-overlay" :label "some->> nil" :expected "nil" :actual "(some->> nil (map inc))" :portability :common} - {:suite "macros / core-overlay" :label "doto returns obj" :expected "[1 2]" :actual "(deref (doto (atom []) (swap! conj 1) (swap! conj 2)))" :portability :common} - {:suite "macros / core-overlay" :label "when-first" :expected "20" :actual "(when-first [x [10 20 30]] (* x 2))" :portability :common} - {:suite "macros / core-overlay" :label "when-first empty" :expected "nil" :actual "(when-first [x []] :body)" :portability :common} - {:suite "macros / core-overlay" :label "when-first nil coll" :expected "nil" :actual "(when-first [x nil] :body)" :portability :common} - {:suite "macros / core-overlay" :label "when-first range" :expected "0" :actual "(when-first [x (range 5)] x)" :portability :common} - {:suite "macros / core-overlay" :label "cond->> threads" :expected "12" :actual "(cond->> 5 true (+ 1) false (* 100) true (* 2))" :portability :common} - {:suite "macros / core-overlay" :label "cond->> skip" :expected "10" :actual "(cond->> 10 false (+ 1))" :portability :common} - {:suite "macros / core-overlay" :label "assert pass" :expected ":ok" :actual "(do (assert (= 1 1)) :ok)" :portability :common} - {:suite "macros / core-overlay" :label "assert throws" :expected ":threw" :actual "(try (assert (= 1 2)) (catch :default e :threw))" :portability :common} - {:suite "macros / core-overlay" :label "assert message" :expected "\"Assert failed: nope\\nfalse\"" :actual "(try (assert false \"nope\") (catch AssertionError e (ex-message e)))" :portability :common} - {:suite "macros / core-overlay" :label "delay value" :expected "42" :actual "(deref (delay 42))" :portability :common} - {:suite "macros / core-overlay" :label "delay forces once" :expected "1" :actual "(let [c (atom 0) d (delay (swap! c inc))] @d @d @c)" :portability :common} - {:suite "macros / core-overlay" :label "future deref" :expected "9" :actual "(deref (future (* 3 3)))" :portability :common} - {:suite "macros / core-overlay" :label "letfn simple" :expected "25" :actual "(letfn [(sq [x] (* x x))] (sq 5))" :portability :common} - {:suite "macros / core-overlay" :label "letfn mutual" :expected "true" :actual "(letfn [(ev? [n] (if (zero? n) true (od? (dec n)))) (od? [n] (if (zero? n) false (ev? (dec n))))] (ev? 8))" :portability :common} - {:suite "macros / core-overlay" :label "condp match" :expected ":two" :actual "(condp = 2 1 :one 2 :two 3 :three)" :portability :common} - {:suite "macros / core-overlay" :label "condp default" :expected ":else" :actual "(condp = 9 1 :one 2 :two :else)" :portability :common} - {:suite "macros / core-overlay" :label "condp :>> form" :expected "\"got 2\"" :actual "(condp some [1 2 3] #{0 9} :>> (fn [x] (str \"got \" x)) #{2 6} :>> (fn [x] (str \"got \" x)))" :portability :common} - {:suite "macros / core-overlay" :label "condp no match" :expected ":threw" :actual "(try (condp = 9 1 :one) (catch :default e :threw))" :portability :common} - {:suite "macros / core-overlay" :label "binding rebinds" :expected "99" :actual "(do (def ^:dynamic *bx* 10) (binding [*bx* 99] *bx*))" :portability :common} - {:suite "macros / core-overlay" :label "binding restores" :expected "10" :actual "(do (def ^:dynamic *by* 10) (binding [*by* 99] *by*) *by*)" :portability :common} - {:suite "macros / core-overlay" :label "binding seen by fn" :expected "7" :actual "(do (def ^:dynamic *bz* 0) (defn rdz [] *bz*) (binding [*bz* 7] (rdz)))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "time returns value" :expected "3" :actual "(time (+ 1 2))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs rebinds" :expected "42" :actual "(do (defn wr-f [] 1) (with-redefs [wr-f (fn [] 42)] (wr-f)))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs restores" :expected "1" :actual "(do (defn wr-g [] 1) (with-redefs [wr-g (fn [] 42)]) (wr-g))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs restores on throw" :expected "1" :actual "(do (defn wr-h [] 1) (try (with-redefs [wr-h (fn [] 42)] (throw (ex-info \"x\" {}))) (catch :default e nil)) (wr-h))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs-fn" :expected "42" :actual "(do (defn wr-i [] 1) (with-redefs-fn {(var wr-i) (fn [] 42)} (fn [] (wr-i))))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "macroexpand full" :expected "true" :actual "(let [e (macroexpand (quote (when-not false 1)))] (= (quote if) (first e)))" :portability :common} - {:suite "macros / time, with-redefs, macroexpand" :label "macroexpand non-macro" :expected "[1 2]" :actual "(macroexpand (quote [1 2]))" :portability :common} - {:suite "macros / defmacro arity-clause & name metadata" :label "arity-clause form" :expected "10" :actual "(do (defmacro tw ([x] (list (quote *) x 2))) (tw 5))" :portability :common} - {:suite "macros / defmacro arity-clause & name metadata" :label "docstring + arity" :expected "15" :actual "(do (defmacro th \"triple\" ([x] (list (quote *) x 3))) (th 5))" :portability :common} - {:suite "macros / defmacro arity-clause & name metadata" :label "^{:map} name meta" :expected "7" :actual "(do (defmacro ^{:private true} pm [] 7) (pm))" :portability :common} - {:suite "macros / defmacro arity-clause & name metadata" :label "multi-form body" :expected "6" :actual "(do (defmacro mb ([a b] (list (quote +) a b))) (mb 2 4))" :portability :common} - {:suite "macros / defmacro multi-arity & attr-map" :label "multi-arity 1" :expected "6" :actual "(do (defmacro ma ([a] (list (quote +) a 1)) ([a b] (list (quote +) a b))) (ma 5))" :portability :common} - {:suite "macros / defmacro multi-arity & attr-map" :label "multi-arity 2" :expected "5" :actual "(do (defmacro ma ([a] (list (quote +) a 1)) ([a b] (list (quote +) a b))) (ma 2 3))" :portability :common} - {:suite "macros / defmacro multi-arity & attr-map" :label "arity delegates" :expected "[:d nil 9]" :actual "(do (defmacro lg ([m] `(lg :d nil ~m)) ([l t m] (list (quote vector) l t m))) (lg 9))" :portability :common} - {:suite "macros / defmacro multi-arity & attr-map" :label "doc + attr-map + params" :expected "10" :actual "(do (defmacro am \"doc\" {:arglists (quote ([x]))} [x] (list (quote inc) x)) (am 9))" :portability :common} - {:suite "macros / defmacro multi-arity & attr-map" :label "doc + attr-map + variadic" :expected "6" :actual "(do (defmacro vg \"d\" {:arglists (quote ([& a]))} [& xs] `(+ ~@xs)) (vg 1 2 3))" :portability :common} - {:suite "maps / keyword invoke" :label "hit" :expected "1" :actual "(:a {:a 1 :b 2})" :portability :common} - {:suite "maps / keyword invoke" :label "miss" :expected "nil" :actual "(:z {:a 1})" :portability :common} - {:suite "maps / keyword invoke" :label "miss with default" :expected ":d" :actual "(:z {:a 1} :d)" :portability :common} - {:suite "maps / keyword invoke" :label "hit with default" :expected "1" :actual "(:a {:a 1} :d)" :portability :common} - {:suite "maps / keyword invoke" :label "on nil" :expected "nil" :actual "(:a nil)" :portability :common} - {:suite "maps / keyword invoke" :label "on nil with default" :expected ":d" :actual "(:a nil :d)" :portability :common} - {:suite "maps / keyword invoke" :label "nil value is present" :expected "nil" :actual "(:a {:a nil} :d)" :portability :common} - {:suite "maps / keyword invoke" :label "false value is present" :expected "false" :actual "(:a {:a false} :d)" :portability :common} - {:suite "maps / keyword invoke" :label "on a vector" :expected "nil" :actual "(:a [1 2 3])" :portability :common} - {:suite "maps / keyword invoke" :label "on a number" :expected "nil" :actual "(:a 42)" :portability :common} - {:suite "maps / keyword invoke" :label "on a sorted map" :expected "2" :actual "(:b (sorted-map :a 1 :b 2))" :portability :common} - {:suite "maps / keyword invoke" :label "on assoc result" :expected "3" :actual "(:c (assoc {:a 1} :c 3))" :portability :common} - {:suite "maps / keyword invoke" :label "on a record field" :expected "5" :actual "(do (defrecord KFP [x]) (:x (->KFP 5)))" :portability :common} - {:suite "maps / keyword invoke" :label "qualified keyword" :expected "1" :actual "(:n/a {:n/a 1})" :portability :common} - {:suite "maps / keyword invoke" :label "nested in expr" :expected "6" :actual "(+ (:a {:a 1}) (:b {:b 2}) (:c {:c 3}))" :portability :common} - {:suite "maps / keyword invoke" :label "evaluates map expr once" :expected "[2 1]" :actual "(do (def cnt (atom 0)) (let [v (:a (do (swap! cnt inc) {:a 2}))] [v @cnt]))" :portability :common} - {:suite "maps / literal construction" :label "basic" :expected "{:a 1, :b 2}" :actual "{:a 1 :b 2}" :portability :common} - {:suite "maps / literal construction" :label "empty" :expected "{}" :actual "{}" :portability :common} - {:suite "maps / literal construction" :label "computed values" :expected "{:a 3}" :actual "{:a (+ 1 2)}" :portability :common} - {:suite "maps / literal construction" :label "nil value kept" :expected "true" :actual "(contains? {:a nil} :a)" :portability :common} - {:suite "maps / literal construction" :label "nil value lookup" :expected "nil" :actual "(get {:a nil} :a :d)" :portability :common} - {:suite "maps / literal construction" :label "string key" :expected "1" :actual "(get {\"k\" 1} \"k\")" :portability :common} - {:suite "maps / literal construction" :label "number key" :expected ":one" :actual "(get {1 :one} 1)" :portability :common} - {:suite "maps / literal construction" :label "collection key" :expected ":v" :actual "(get {[1 2] :v} [1 2])" :portability :common} - {:suite "maps / literal construction" :label "collection value-equal key" :expected ":v" :actual "(get {[1 2] :v} (vector 1 2))" :portability :common} - {:suite "maps / literal construction" :label "computed key" :expected "1" :actual "(get {(keyword \"a\") 1} :a)" :portability :common} - {:suite "maps / literal construction" :label "values evaluate in source order" :expected "[1 2 3]" :actual "(do (def log (atom [])) {:a (swap! log conj 1) :b (swap! log conj 2) :c (swap! log conj 3)} (deref log))" :portability :common} - {:suite "maps / literal construction" :label "keys evaluate before their values, pairwise" :expected "[:k1 :v1 :k2 :v2]" :actual "(do (def log (atom [])) {(do (swap! log conj :k1) :a) (do (swap! log conj :v1) 1) (do (swap! log conj :k2) :b) (do (swap! log conj :v2) 2)} (deref log))" :portability :common} - {:suite "maps / literal construction" :label "source order with a nil value (phm form)" :expected "[1 2 3]" :actual "(do (def log (atom [])) {:a (do (swap! log conj 1) nil) :b (swap! log conj 2) :c (swap! log conj 3)} (deref log))" :portability :common} - {:suite "maps / literal construction" :label "source order through syntax-quote" :expected "[2 1]" :actual "(do (def log (atom [])) (defmacro m-p3c [] `{:a ~(list 'swap! 'log 'conj 1) :b ~(list 'swap! 'log 'conj 2)}) (m-p3c) (deref log))" :portability :common} - {:suite "maps / literal construction" :label "count" :expected "3" :actual "(count {:a 1 :b 2 :c 3})" :portability :common} - {:suite "maps / literal construction" :label "equality with phm" :expected "true" :actual "(= {:a 1 :b 2} (assoc {:a 1} :b 2))" :portability :common} - {:suite "maps / literal construction" :label "keys work after assoc" :expected "2" :actual "(:b (assoc {:a 1 :b 2} :c 3))" :portability :common} - {:suite "maps / literal construction" :label "literal in fn body" :expected "12" :actual "(do (defn mfp-mk [x] {:v (* x 2)}) (:v (mfp-mk 6)))" :portability :common} - {:suite "maps / insertion order" :label "small literal keys" :expected "[:c :a :b]" :actual "(vec (keys {:c 3 :a 1 :b 2}))" :portability :common} - {:suite "maps / insertion order" :label "small literal vals" :expected "[3 1 2]" :actual "(vec (vals {:c 3 :a 1 :b 2}))" :portability :common} - {:suite "maps / insertion order" :label "seq follows keys" :expected "[:c :a :b]" :actual "(mapv key (seq {:c 3 :a 1 :b 2}))" :portability :common} - {:suite "maps / insertion order" :label "array-map any size" :expected "[:z :y :x :w :v :u :t :s :r :q]" :actual "(vec (keys (array-map :z 1 :y 2 :x 3 :w 4 :v 5 :u 6 :t 7 :s 8 :r 9 :q 10)))" :portability :common} - {:suite "maps / insertion order" :label "assoc appends new key" :expected "[:c :a :z]" :actual "(vec (keys (assoc {:c 3 :a 1} :z 9)))" :portability :common} - {:suite "maps / insertion order" :label "assoc replace keeps position" :expected "[:c :a]" :actual "(vec (keys (assoc {:c 3 :a 1} :c 9)))" :portability :common} - {:suite "maps / insertion order" :label "dissoc preserves order" :expected "[:c :b]" :actual "(vec (keys (dissoc {:c 3 :a 1 :b 2} :a)))" :portability :common} - {:suite "maps / insertion order" :label "into onto empty (<=8)" :expected "[:c :a :b]" :actual "(vec (keys (into {} [[:c 3] [:a 1] [:b 2]])))" :portability :common} - {:suite "maps / insertion order" :label "reduce assoc" :expected "[:e :d :c :b :a]" :actual "(vec (keys (reduce (fn [m k] (assoc m k k)) {} [:e :d :c :b :a])))" :portability :common} - {:suite "maps / insertion order" :label "conj a map merges in order" :expected "[:a :b :c]" :actual "(vec (keys (conj {:a 1} {:b 2 :c 3})))" :portability :common} - {:suite "maps / insertion order" :label "merge keeps right-hand order" :expected "[:a :c :b]" :actual "(vec (keys (merge {:a 1} {:c 3 :b 2})))" :portability :common} - {:suite "maps / insertion order" :label "assoc stays ordered through 8 entries" :expected "true" :actual "(= (vec (keys (reduce (fn [m i] (assoc m (keyword (str \"k\" i)) i)) {} (range 8)))) (mapv (fn [i] (keyword (str \"k\" i))) (range 8)))" :portability :common} - {:suite "maps / insertion order" :label "assoc promotes to hash past 8 entries" :expected "9" :actual "(count (reduce (fn [m i] (assoc m (keyword (str \"k\" i)) i)) {} (range 9)))" :portability :common} - {:suite "maps / insertion order" :label "array-map keeps order past 8" :expected "[:k0 :k1 :k2 :k3 :k4 :k5 :k6 :k7 :k8 :k9 :k10 :k11]" :actual "(vec (keys (apply array-map (mapcat (fn [i] [(keyword (str \"k\" i)) i]) (range 12)))))" :portability :common} - {:suite "maps / insertion order" :label "update-keys preserves order" :expected "[:a :b :c]" :actual "(vec (keys (update-vals (array-map :a 1 :b 2 :c 3) inc)))" :portability :common} - {:suite "maps / insertion order" :label "zipmap from ordered keys/vals" :expected "[:c :a :b]" :actual "(vec (keys (zipmap (keys {:c 3 :a 1 :b 2}) (vals {:c 3 :a 1 :b 2}))))" :portability :common} - {:suite "maps / insertion order" :label "select-keys follows keyseq" :expected "[:c :a]" :actual "(vec (keys (select-keys {:a 1 :b 2 :c 3} [:c :a])))" :portability :common} - {:suite "maps / insertion order" :label "frequencies first-occurrence order" :expected "[:c :a :b]" :actual "(vec (keys (frequencies [:c :a :b :a])))" :portability :common} - {:suite "maps / insertion order" :label "group-by first-occurrence order" :expected "[:c :a :b]" :actual "(vec (keys (group-by identity [:c :a :b :a])))" :portability :common} - {:suite "clojure.math" :label "sqrt" :expected "true" :actual "(< 1.4142 (clojure.math/sqrt 2) 1.4143)" :portability :common} - {:suite "clojure.math" :label "pow" :expected "1024" :actual "(long (clojure.math/pow 2 10))" :portability :common} - {:suite "clojure.math" :label "tan of 0" :expected "0" :actual "(long (clojure.math/tan 0))" :portability :common} - {:suite "clojure.math" :label "round" :expected "3" :actual "(clojure.math/round 2.6)" :portability :common} - {:suite "clojure.math" :label "floor" :expected "2.0" :actual "(clojure.math/floor 2.9)" :portability :common} - {:suite "clojure.math" :label "signum" :expected "-1.0" :actual "(clojure.math/signum -7.2)" :portability :common} - {:suite "clojure.math" :label "to-radians" :expected "true" :actual "(< 3.14 (clojure.math/to-radians 180) 3.15)" :portability :common} - {:suite "clojure.math" :label "PI" :expected "true" :actual "(< 3.14 clojure.math/PI 3.15)" :portability :common} - {:suite "clojure.math" :label "require + alias" :expected "5" :actual "(do (require '[clojure.math :as m]) (long (m/hypot 3 4)))" :portability :common} - {:suite "clojure.math" :label "as a value" :expected "[1 2]" :actual "(mapv (comp long clojure.math/sqrt) [1 4])" :portability :common} - {:suite "calls / locals named like core macros" :label "local fn named repeat" :expected "[1 1]" :actual "(let [repeat (fn [x] [x x])] (repeat 1))" :portability :common} - {:suite "calls / locals named like core macros" :label "local fn named seq" :expected ":end" :actual "((fn seq [n] (if (pos? n) (seq (dec n)) :end)) 2)" :portability :common} - {:suite "calls / locals named like core macros" :label "local fn named loop2" :expected "[2 1]" :actual "(let [with (fn [a b] [b a])] (with 1 2))" :portability :common} - {:suite "calls / locals named like core macros" :label "overlay repeat self-call (regression)" :expected "[0 0 0]" :actual "(take 3 (repeat 0))" :portability :common} - {:suite "calls / locals named like core macros" :label "closure param called" :expected "42" :actual "((fn [f] (f 41)) inc)" :portability :common} - {:suite "calls / locals named like core macros" :label "param holding a keyword (IFn leftover)" :expected "1" :actual "((fn [f] (f {:a 1})) :a)" :portability :common} - {:suite "map / construct & predicate" :label "literal" :expected "{:a 1}" :actual "{:a 1}" :portability :common} - {:suite "map / construct & predicate" :label "hash-map" :expected "{:b 2, :a 1}" :actual "(hash-map :a 1 :b 2)" :portability :common} - {:suite "map / construct & predicate" :label "empty" :expected "{}" :actual "{}" :portability :common} - {:suite "map / construct & predicate" :label "map? true" :expected "true" :actual "(map? {:a 1})" :portability :common} - {:suite "map / construct & predicate" :label "map? false on vector" :expected "false" :actual "(map? [1 2])" :portability :common} - {:suite "map / construct & predicate" :label "count" :expected "2" :actual "(count {:a 1 :b 2})" :portability :common} - {:suite "map / construct & predicate" :label "empty? true" :expected "true" :actual "(empty? {})" :portability :common} - {:suite "map / construct & predicate" :label "equality order-indep" :expected "true" :actual "(= {:a 1 :b 2} {:b 2 :a 1})" :portability :common} - {:suite "map / access" :label "get" :expected "1" :actual "(get {:a 1} :a)" :portability :common} - {:suite "map / access" :label "get missing nil" :expected "nil" :actual "(get {:a 1} :z)" :portability :common} - {:suite "map / access" :label "get default" :expected ":x" :actual "(get {:a 1} :z :x)" :portability :common} - {:suite "map / access" :label "keyword as fn" :expected "1" :actual "(:a {:a 1})" :portability :common} - {:suite "map / access" :label "keyword fn default" :expected ":x" :actual "(:z {:a 1} :x)" :portability :common} - {:suite "map / access" :label "map as fn" :expected "1" :actual "({:a 1} :a)" :portability :common} - {:suite "map / access" :label "get-in" :expected "2" :actual "(get-in {:a {:b 2}} [:a :b])" :portability :common} - {:suite "map / access" :label "get-in missing" :expected "nil" :actual "(get-in {:a {}} [:a :b])" :portability :common} - {:suite "map / access" :label "contains? key" :expected "true" :actual "(contains? {:a 1} :a)" :portability :common} - {:suite "map / access" :label "contains? missing" :expected "false" :actual "(contains? {:a 1} :z)" :portability :common} - {:suite "map / access" :label "find returns entry" :expected "[:a 1]" :actual "(find {:a 1} :a)" :portability :common} - {:suite "map / access" :label "keys" :expected "true" :actual "(= #{:a :b} (set (keys {:a 1 :b 2})))" :portability :common} - {:suite "map / access" :label "vals" :expected "true" :actual "(= #{1 2} (set (vals {:a 1 :b 2})))" :portability :common} - {:suite "map / update" :label "assoc adds" :expected "{:a 1, :b 2}" :actual "(assoc {:a 1} :b 2)" :portability :common} - {:suite "map / update" :label "assoc overwrites" :expected "{:a 9}" :actual "(assoc {:a 1} :a 9)" :portability :common} - {:suite "map / update" :label "assoc many" :expected "{:a 1, :b 2}" :actual "(assoc {} :a 1 :b 2)" :portability :common} - {:suite "map / update" :label "dissoc" :expected "{:a 1}" :actual "(dissoc {:a 1 :b 2} :b)" :portability :common} - {:suite "map / update" :label "dissoc many" :expected "{:a 1}" :actual "(dissoc {:a 1 :b 2 :c 3} :b :c)" :portability :common} - {:suite "map / update" :label "merge" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} {:b 2})" :portability :common} - {:suite "map / update" :label "merge overwrites" :expected "{:a 2}" :actual "(merge {:a 1} {:a 2})" :portability :common} - {:suite "map / update" :label "merge lattermost wins" :expected "{:a 3}" :actual "(merge {:a 1} {:a 2} {:a 3})" :portability :common} - {:suite "map / update" :label "merge no args -> nil" :expected "nil" :actual "(merge)" :portability :common} - {:suite "map / update" :label "merge all nil -> nil" :expected "nil" :actual "(merge nil nil)" :portability :common} - {:suite "map / update" :label "merge nil arg no-op" :expected "{:a 1}" :actual "(merge {:a 1} nil)" :portability :common} - {:suite "map / update" :label "merge nil then map" :expected "{:a 1}" :actual "(merge nil {:a 1})" :portability :common} - {:suite "map / update" :label "merge empty + nil" :expected "{}" :actual "(merge {} nil)" :portability :common} - {:suite "map / update" :label "merge map-entry (conj)" :expected "{:a 1}" :actual "(merge {} (first {:a 1}))" :portability :common} - {:suite "map / update" :label "merge [k v] vector" :expected "{:foo 1}" :actual "(merge {} [:foo 1])" :portability :common} - {:suite "map / update" :label "merge collection key" :expected "true" :actual "(= {[2 3] :foo} (merge {[2 3] :foo} nil {}))" :portability :common} - {:suite "map / update" :label "merge-with" :expected "{:a 3}" :actual "(merge-with + {:a 1} {:a 2})" :portability :common} - {:suite "map / update" :label "update" :expected "{:a 2}" :actual "(update {:a 1} :a inc)" :portability :common} - {:suite "map / update" :label "update missing w/ fnil" :expected "{:a 1}" :actual "(update {} :a (fnil inc 0))" :portability :common} - {:suite "map / update" :label "update-in" :expected "{:a {:b 2}}" :actual "(update-in {:a {:b 1}} [:a :b] inc)" :portability :common} - {:suite "map / update" :label "assoc-in" :expected "{:a {:b 1}}" :actual "(assoc-in {} [:a :b] 1)" :portability :common} - {:suite "map / update" :label "select-keys" :expected "{:a 1}" :actual "(select-keys {:a 1 :b 2} [:a])" :portability :common} - {:suite "map / update" :label "into onto map" :expected "{:a 1, :b 2}" :actual "(into {:a 1} [[:b 2]])" :portability :common} - {:suite "map / update" :label "zipmap" :expected "{:a 1, :b 2}" :actual "(zipmap [:a :b] [1 2])" :portability :common} - {:suite "map / iteration & entries" :label "map over entries" :expected "true" :actual "(= #{1 2} (set (map val {:a 1 :b 2})))" :portability :common} - {:suite "map / iteration & entries" :label "map keys" :expected "true" :actual "(= #{:a :b} (set (map key {:a 1 :b 2})))" :portability :common} - {:suite "map / iteration & entries" :label "reduce over entries" :expected "6" :actual "(reduce (fn [a e] (+ a (val e))) 0 {:a 1 :b 2 :c 3})" :portability :common} - {:suite "map / iteration & entries" :label "reduce-kv" :expected "6" :actual "(reduce-kv (fn [a k v] (+ a v)) 0 {:a 1 :b 2 :c 3})" :portability :common} - {:suite "map / iteration & entries" :label "destructure entry" :expected "true" :actual "(= [[:a 2]] (into [] (map (fn [[k v]] [k (inc v)]) {:a 1})))" :portability :common} - {:suite "map / iteration & entries" :label "first of map is entry" :expected "true" :actual "(let [e (first {:a 1})] (and (= (key e) :a) (= (val e) 1)))" :portability :common} - {:suite "map / iteration & entries" :label "map-entry?" :expected "true" :actual "(map-entry? (first {:a 1}))" :portability :common} - {:suite "map / iteration & entries" :label "count of nil map" :expected "0" :actual "(count nil)" :portability :common} - {:suite "map / iteration & entries" :label "get from nil" :expected "nil" :actual "(get nil :a)" :portability :common} - {:suite "map / iteration & entries" :label "immutability" :expected "true" :actual "(let [m {:a 1} n (assoc m :b 2)] (and (= m {:a 1}) (= n {:a 1 :b 2})))" :portability :common} - {:suite "map / collection keys (by value)" :label "vector key literal" :expected ":v" :actual "(get {[1 2] :v} [1 2])" :portability :common} - {:suite "map / collection keys (by value)" :label "map key literal" :expected ":v" :actual "(get {(hash-map :a 1) :v} {:a 1})" :portability :common} - {:suite "map / collection keys (by value)" :label "assoc vector key" :expected ":v" :actual "(get (assoc {} [1 2] :v) [1 2])" :portability :common} - {:suite "map / collection keys (by value)" :label "key across repr" :expected ":v" :actual "(get (assoc {} (vec [1 2]) :v) [1 2])" :portability :common} - {:suite "map / collection keys (by value)" :label "frequencies of maps" :expected "2" :actual "(get (frequencies [{:a 1} (hash-map :a 1)]) {:a 1})" :portability :common} - {:suite "map / collection keys (by value)" :label "group-by collection key" :expected "1" :actual "(count (group-by identity [{:a 1} (hash-map :a 1)]))" :portability :common} - {:suite "map / nil inside a collection key" :label "set key w/ nil distinct" :expected "2" :actual "(count {#{nil 1} :a, #{1} :b})" :portability :common} - {:suite "map / nil inside a collection key" :label "set key w/ nil neg lookup" :expected "nil" :actual "(get {#{nil 1} :a} #{1})" :portability :common} - {:suite "map / nil inside a collection key" :label "set key w/ nil pos lookup" :expected ":a" :actual "(get {#{nil 1} :a} #{nil 1})" :portability :common} - {:suite "map / nil inside a collection key" :label "set key just nil distinct" :expected "false" :actual "(= {#{nil} :x} {#{} :x})" :portability :common} - {:suite "map / nil inside a collection key" :label "map nil-value key distinct" :expected "2" :actual "(count {{:a nil} 1, {} 2})" :portability :common} - {:suite "map / nil inside a collection key" :label "map nil-value key neg" :expected "nil" :actual "(get {{:a nil} 1} {})" :portability :common} - {:suite "map / nil inside a collection key" :label "map nil-value key pos" :expected "1" :actual "(get {{:a nil} 1} {:a nil})" :portability :common} - {:suite "map / nil inside a collection key" :label "map nil-key key distinct" :expected "2" :actual "(count {{nil :a} 1, {} 2})" :portability :common} - {:suite "map / nil inside a collection key" :label "map nil-key key pos" :expected "1" :actual "(get {{nil :a} 1} {nil :a})" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "assoc vec out of bounds" :expected :throws :actual "(assoc [0 1 2] 4 4)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "assoc vec negative" :expected :throws :actual "(assoc [] -1 0)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "assoc vec at count ok" :expected "[1 2 3]" :actual "(assoc [1 2] 2 3)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "dissoc on number" :expected :throws :actual "(dissoc 42 :a)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "dissoc on vector" :expected :throws :actual "(dissoc [1 2] 0)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "dissoc on set" :expected :throws :actual "(dissoc #{:a} :a)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "dissoc nil ok" :expected "nil" :actual "(dissoc nil :a)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "count on number" :expected :throws :actual "(count 1)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "count on keyword" :expected :throws :actual "(count :a)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "count string ok" :expected "3" :actual "(count \"abc\")" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "numerator throws" :expected :throws :actual "(numerator 1)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "denominator throws" :expected :throws :actual "(denominator 2)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "subvec out of range" :expected :throws :actual "(subvec [0 1 2 3] 1 5)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "subvec start>end" :expected :throws :actual "(subvec [0 1 2 3] 3 2)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "subvec ok" :expected "[1 2]" :actual "(subvec [0 1 2 3] 1 3)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "min-key empty" :expected :throws :actual "(apply min-key identity [])" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "merge empty vector" :expected :throws :actual "(merge {} [])" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "merge 1-elem vector" :expected :throws :actual "(merge {} [:foo])" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "merge atomic arg" :expected :throws :actual "(merge {} :foo)" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "merge [k v] ok" :expected "{:foo 1}" :actual "(merge {} [:foo 1])" :portability :common} - {:suite "map / strictness (throws like Clojure)" :label "merge maps ok" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} {:b 2})" :portability :common} - {:suite "map / map-entry & key ordering" :label "key of entry" :expected ":a" :actual "(key (first {:a 1}))" :portability :common} - {:suite "map / map-entry & key ordering" :label "val of entry" :expected "1" :actual "(val (first {:a 1}))" :portability :common} - {:suite "map / map-entry & key ordering" :label "key rejects vector" :expected :throws :actual "(key [:a 1])" :portability :common} - {:suite "map / map-entry & key ordering" :label "val rejects vector" :expected :throws :actual "(val [:a 1])" :portability :common} - {:suite "map / map-entry & key ordering" :label "map-entry? entry" :expected "true" :actual "(map-entry? (first {:a 1}))" :portability :common} - {:suite "map / map-entry & key ordering" :label "map-entry? vector" :expected "false" :actual "(map-entry? [:a 1])" :portability :common} - {:suite "map / map-entry & key ordering" :label "min-key NaN first" :expected "1" :actual "(min-key identity ##NaN 1)" :portability :common} - {:suite "map / map-entry & key ordering" :label "min-key NaN last" :expected "true" :actual "(NaN? (min-key identity 1 ##NaN))" :portability :common} - {:suite "map / map-entry & key ordering" :label "min-key NaN three" :expected "true" :actual "(infinite? (min-key identity ##NaN ##-Inf 1))" :portability :common} - {:suite "map / map-entry & key ordering" :label "min-key keys nonnum" :expected :throws :actual "(min-key identity \"x\" \"y\")" :portability :common} - {:suite "map / map-entry & key ordering" :label "max-key picks max" :expected "[1 2 3]" :actual "(max-key count [1] [1 2 3] [1 2])" :portability :common} - {:suite "map / map-entry & key ordering" :label "subvec float trunc" :expected "[0]" :actual "(subvec [0 1 2] 0.5 1.33)" :portability :common} - {:suite "map / map-entry & key ordering" :label "subvec NaN start" :expected "[0 1 2]" :actual "(subvec [0 1 2] ##NaN 3)" :portability :common} - {:suite "map / map-entry & key ordering" :label "subvec NaN end" :expected "[]" :actual "(subvec [0 1 2] 0 ##NaN)" :portability :common} - {:suite "map / nil values preserved" :label "literal contains" :expected "true" :actual "(contains? {:b nil} :b)" :portability :common} - {:suite "map / nil values preserved" :label "literal not= empty" :expected "false" :actual "(= {:b nil} {})" :portability :common} - {:suite "map / nil values preserved" :label "literal get nil" :expected "nil" :actual "(get {:b nil} :b :x)" :portability :common} - {:suite "map / nil values preserved" :label "literal keys incl nil" :expected "true" :actual "(= #{:a :b} (set (keys {:a nil :b 1})))" :portability :common} - {:suite "map / nil values preserved" :label "literal count" :expected "2" :actual "(count {:a nil :b 1})" :portability :common} - {:suite "map / nil values preserved" :label "literal vals incl nil" :expected "2" :actual "(count (vals {:a nil :b 1}))" :portability :common} - {:suite "map / nil values preserved" :label "eval values w/ nil" :expected "3" :actual "(:a {:a (+ 1 2) :b nil})" :portability :common} - {:suite "map / nil values preserved" :label "nil key present" :expected "true" :actual "(contains? {nil :v} nil)" :portability :common} - {:suite "map / nil values preserved" :label "assoc nil present" :expected "true" :actual "(contains? (assoc {:a 1} :b nil) :b)" :portability :common} - {:suite "map / nil values preserved" :label "assoc nil get" :expected "nil" :actual "(get (assoc {:a 1} :b nil) :b :x)" :portability :common} - {:suite "map / nil values preserved" :label "assoc overwrite nil" :expected "nil" :actual "(get (assoc {:a 1} :a nil) :a :x)" :portability :common} - {:suite "map / nil values preserved" :label "hash-map nil" :expected "true" :actual "(contains? (hash-map :b nil) :b)" :portability :common} - {:suite "map / nil values preserved" :label "merge new nil" :expected "true" :actual "(contains? (merge {:a 1} {:b nil}) :b)" :portability :common} - {:suite "map / nil values preserved" :label "merge overwrite nil" :expected "nil" :actual "(get (merge {:a 1} {:a nil}) :a :x)" :portability :common} - {:suite "map / nil values preserved" :label "merge-with present nil" :expected "true" :actual "(= [nil 1] (get (merge-with (fn [a b] [a b]) {:a nil} {:a 1}) :a))" :portability :common} - {:suite "map / nil values preserved" :label "into nil val" :expected "true" :actual "(contains? (into {} [[:a nil]]) :a)" :portability :common} - {:suite "map / nil values preserved" :label "conj map nil" :expected "true" :actual "(contains? (conj {:x 1} {:a nil}) :a)" :portability :common} - {:suite "map / nil values preserved" :label "zipmap nil" :expected "true" :actual "(contains? (zipmap [:a] [nil]) :a)" :portability :common} - {:suite "map / nil values preserved" :label "select-keys nil" :expected "true" :actual "(contains? (select-keys {:a nil} [:a]) :a)" :portability :common} - {:suite "map / nil values preserved" :label "get-in present nil" :expected "nil" :actual "(get-in {:a nil} [:a] :x)" :portability :common} - {:suite "map / nil values preserved" :label "get-in through nil" :expected ":x" :actual "(get-in {:a nil} [:a :b] :x)" :portability :common} - {:suite "map / nil values preserved" :label "dissoc keeps nil" :expected "true" :actual "(contains? (dissoc {:a nil :b 1} :b) :a)" :portability :common} - {:suite "map / nil values preserved" :label "reduce-kv sees nil" :expected "true" :actual "(= #{:a :b} (reduce-kv (fn [acc k v] (conj acc k)) #{} {:a nil :b 2}))" :portability :common} - {:suite "map / nil values preserved" :label "nil-free stays fast" :expected "true" :actual "(= {:a 1 :b 2} {:b 2 :a 1})" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-keys" :expected "{\"a\" 1, \"b\" 2}" :actual "(update-keys {:a 1 :b 2} name)" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-keys empty" :expected "{}" :actual "(update-keys {} inc)" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-keys nil" :expected "{}" :actual "(update-keys nil str)" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-keys collide last wins" :expected "1" :actual "(count (update-keys {:a 1 :b 2} (fn [_] :k)))" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-vals" :expected "{:a 2, :b 3}" :actual "(update-vals {:a 1 :b 2} inc)" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-vals empty" :expected "{}" :actual "(update-vals {} inc)" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-vals nil" :expected "{}" :actual "(update-vals nil inc)" :portability :common} - {:suite "map / update-keys & update-vals (1.11)" :label "update-vals keeps keys" :expected "[:a :b]" :actual "(sort (keys (update-vals {:a 1 :b 2} inc)))" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "keys" :expected "[:a]" :actual "(keys {:a 1})" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "keys empty map" :expected "nil" :actual "(keys {})" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "keys nil" :expected "nil" :actual "(keys nil)" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "vals" :expected "[1]" :actual "(vals {:a 1})" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "vals empty" :expected "nil" :actual "(vals {})" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "keys sorted order" :expected "[1 2 3]" :actual "(vec (keys (sorted-map 2 :b 1 :a 3 :c)))" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "vals sorted order" :expected "[:a :b :c]" :actual "(vec (vals (sorted-map 2 :b 1 :a 3 :c)))" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "keys/vals zip" :expected "{:a 1, :b 2}" :actual "(zipmap (keys {:a 1 :b 2}) (vals {:a 1 :b 2}))" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? map" :expected "true" :actual "(empty? {})" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? vec" :expected "[true false]" :actual "[(empty? []) (empty? [1])]" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? list" :expected "[true false]" :actual "[(empty? ()) (empty? (list 1))]" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? string" :expected "[true false]" :actual "[(empty? \"\") (empty? \"a\")]" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? nil" :expected "true" :actual "(empty? nil)" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? set" :expected "[true false]" :actual "[(empty? #{}) (empty? #{1})]" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? lazy" :expected "[true false]" :actual "[(empty? (filter pos? [-1])) (empty? (map inc [1]))]" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? lazy nil elem" :expected "false" :actual "(empty? (cons nil nil))" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? sorted" :expected "[true false]" :actual "[(empty? (sorted-map)) (empty? (sorted-set 1))]" :portability :common} - {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? number throws" :expected :throws :actual "(empty? 5)" :portability :common} - {:suite "map / assoc on nil" :label "assoc nil is a map" :expected "{:a 1}" :actual "(assoc nil :a 1)" :portability :common} - {:suite "map / assoc on nil" :label "count of assoc nil" :expected "1" :actual "(count (assoc nil :a 1))" :portability :common} - {:suite "map / assoc on nil" :label "assoc-in nested countable" :expected "1" :actual "(count (:a (assoc-in {} [:a :b] 1)))" :portability :common} - {:suite "map / assoc on nil" :label "assoc-in deep get" :expected "9" :actual "(get-in (assoc-in {} [:a :b :c] 9) [:a :b :c])" :portability :common} - {:suite "map / assoc on nil" :label "seq over assoc-nil map" :expected ":a" :actual "(ffirst (seq (assoc nil :a 1)))" :portability :common} - {:suite "map / assoc on nil" :label "keys of assoc-nil map" :expected "[:a]" :actual "(vec (keys (assoc nil :a 1)))" :portability :common} - {:suite "map / bulk build boundaries" :label "into = incr at 17" :expected "true" :actual "(= (into {} (map (fn [i] [i (* i 2)]) (range 17))) (reduce (fn [m p] (assoc m (first p) (second p))) {} (map (fn [i] [i (* i 2)]) (range 17))))" :portability :common} - {:suite "map / bulk build boundaries" :label "into = incr at 1000" :expected "true" :actual "(= (into {} (map (fn [i] [i (* i 2)]) (range 1000))) (reduce (fn [m p] (assoc m (first p) (second p))) {} (map (fn [i] [i (* i 2)]) (range 1000))))" :portability :common} - {:suite "map / bulk build boundaries" :label "into count 1000" :expected "1000" :actual "(count (into {} (map (fn [i] [i i]) (range 1000))))" :portability :common} - {:suite "map / bulk build boundaries" :label "into reads back" :expected "999" :actual "(get (into {} (map (fn [i] [i (* i 3)]) (range 1000))) 333)" :portability :common} - {:suite "map / bulk build boundaries" :label "into onto non-empty" :expected "9" :actual "(get (into {:a 1} [[:a 9] [:b 2]]) :a)" :portability :common} - {:suite "map / bulk build boundaries" :label "into dup last wins" :expected "9" :actual "(get (into {} [[:k 1] [:k 9]]) :k)" :portability :common} - {:suite "map / bulk build boundaries" :label "into nil key" :expected ":x" :actual "(get (into {} [[nil :x] [:a 1]]) nil)" :portability :common} - {:suite "map / bulk build boundaries" :label "assoc after bulk" :expected "7" :actual "(get (assoc (into {} (map (fn [i] [i i]) (range 100))) :new 7) :new)" :portability :common} - {:suite "map / bulk build boundaries" :label "dissoc after bulk" :expected "nil" :actual "(get (dissoc (into {} (map (fn [i] [i i]) (range 100))) 50) 50)" :portability :common} - {:suite "map / bulk build boundaries" :label "frequencies count" :expected "3" :actual "(get (frequencies [1 2 2 1 2 1]) 1)" :portability :common} - {:suite "map / bulk build boundaries" :label "frequencies coll-key" :expected "2" :actual "(get (frequencies [[1 2] [1 2] [3 4]]) [1 2])" :portability :common} - {:suite "map / bulk build boundaries" :label "frequencies nil key" :expected "2" :actual "(get (frequencies [nil nil 1]) nil)" :portability :common} - {:suite "map / bulk build boundaries" :label "group-by nil key" :expected "[nil nil]" :actual "(get (group-by identity [nil nil 1]) nil)" :portability :common} - {:suite "map / bulk build boundaries" :label "group-by nil count" :expected "2" :actual "(count (group-by identity [nil nil 1]))" :portability :common} - {:suite "map / bulk build boundaries" :label "transient nil key" :expected ":x" :actual "(let [t (transient {})] (assoc! t nil :x) (get (persistent! t) nil))" :portability :common} - {:suite "map / bulk build boundaries" :label "transient nil get" :expected "true" :actual "(let [t (transient {})] (assoc! t nil :x) (contains? t nil))" :portability :common} - {:suite "map / bulk build boundaries" :label "transient nil dissoc" :expected ":gone" :actual "(let [t (transient {})] (assoc! t nil :x) (dissoc! t nil) (get (persistent! t) nil :gone))" :portability :common} - {:suite "map / bulk build boundaries" :label "group-by bucket" :expected "[1 3 5]" :actual "(get (group-by odd? (range 1 6)) true)" :portability :common} - {:suite "map / bulk build boundaries" :label "group-by big bucket" :expected "true" :actual "(= (group-by even? (range 200)) {true (vec (filter even? (range 200))) false (vec (filter odd? (range 200)))})" :portability :common} - {:suite "map / bulk build boundaries" :label "group-by order" :expected "[0 3 6 9]" :actual "(get (group-by (fn [x] (mod x 3)) (range 10)) 0)" :portability :common} - {:suite "map / bulk build boundaries" :label "hash-map bulk = incr" :expected "true" :actual "(= (apply hash-map (mapcat (fn [i] [i i]) (range 50))) (reduce (fn [m i] (assoc m i i)) {} (range 50)))" :portability :common} - {:suite "metadata / with-meta & meta" :label "meta of bare value" :expected "nil" :actual "(meta [1 2 3])" :portability :common} - {:suite "metadata / with-meta & meta" :label "with-meta then meta" :expected "{:a 1}" :actual "(meta (with-meta [1 2 3] {:a 1}))" :portability :common} - {:suite "metadata / with-meta & meta" :label "with-meta preserves value" :expected "true" :actual "(= [1 2 3] (with-meta [1 2 3] {:a 1}))" :portability :common} - {:suite "metadata / with-meta & meta" :label "with-meta on map" :expected "{:doc \"x\"}" :actual "(meta (with-meta {:k 1} {:doc \"x\"}))" :portability :common} - {:suite "metadata / with-meta & meta" :label "vary-meta" :expected "{:a 2}" :actual "(meta (vary-meta (with-meta [1] {:a 1}) update :a inc))" :portability :common} - {:suite "metadata / with-meta & meta" :label "vary-meta extra args" :expected "{:a 1, :b 2}" :actual "(meta (vary-meta (with-meta [1] {:a 1}) assoc :b 2))" :portability :common} - {:suite "metadata / with-meta & meta" :label "meta reader ^" :expected "{:tag :int}" :actual "(meta ^{:tag :int} [1 2])" :portability :common} - {:suite "metadata / with-meta & meta" :label "with-meta on fn ok" :expected "true" :actual "(fn? (with-meta inc {:a 1}))" :portability :common} - {:suite "metadata / with-meta & meta" :label "with-meta nil clears" :expected "nil" :actual "(meta (with-meta [1 2 3] nil))" :portability :common} - {:suite "metadata / type hints" :label "type hint on param" :expected "\"hi\"" :actual "(do (defn f [^String s] s) (f \"hi\"))" :portability :common} - {:suite "metadata / type hints" :label "type hint, extra params" :expected "[1 2]" :actual "(do (defn g [^String x y] [x y]) (g 1 2))" :portability :common} - {:suite "metadata / type hints" :label "type hint in let" :expected "6" :actual "(let [^long x 5] (inc x))" :portability :common} - {:suite "metadata / type hints" :label "type hint in body" :expected "2" :actual "(let [s \"ab\"] (count ^String s))" :portability :common} - {:suite "metadata / type hints" :label "type hint in destructure" :expected "3" :actual "(let [{:keys [^long a]} {:a 3}] a)" :portability :common} - {:suite "metadata / type hints" :label "symbol hint -> :tag is a symbol" :expected "true" :actual "(symbol? (:tag (meta (read-string \"^String x\"))))" :portability :common} - {:suite "metadata / type hints" :label "symbol hint -> :tag name" :expected "\"String\"" :actual "(name (:tag (meta (read-string \"^String x\"))))" :portability :common} - {:suite "metadata / type hints" :label "keyword hint -> true" :expected "true" :actual "(:foo (meta (read-string \"^:foo x\")))" :portability :common} - {:suite "metadata / read data metadata" :label "vector data meta" :expected "{:ref true}" :actual "(meta (read-string \"^:ref [:greeting]\"))" :portability :common} - {:suite "metadata / read data metadata" :label "map data meta" :expected "{:k 1}" :actual "(meta (read-string \"^{:k 1} {:a 2}\"))" :portability :common} - {:suite "metadata / read data metadata" :label "set data meta" :expected "{:s true}" :actual "(meta (read-string \"^:s #{1 2}\"))" :portability :common} - {:suite "metadata / read data metadata" :label "nested vector data meta" :expected "{:x true}" :actual "(meta (second (read-string \"[1 ^:x {:a 2}]\")))" :portability :common} - {:suite "metadata / read data metadata" :label "collection value unchanged" :expected "[:greeting]" :actual "(read-string \"^:ref [:greeting]\")" :portability :common} - {:suite "metadata / coll literal in code keeps meta" :label "vector literal meta" :expected "{:foo true}" :actual "(meta ^:foo [1 2])" :portability :common} - {:suite "metadata / coll literal in code keeps meta" :label "map literal meta with expr" :expected "{:a 3}" :actual "(meta ^{:a (+ 1 2)} [1])" :portability :common} - {:suite "metadata / coll literal in code keeps meta" :label "map literal value-eval order" :expected "[1 2]" :actual "(let [a (atom [])] ^:t {(do (swap! a conj 1) :a) 1 (do (swap! a conj 2) :b) 2} @a)" :portability :common} - {:suite "metadata / *print-meta*" :label "pr-str prefixes ^meta" :expected "\"^{:ref true} [:g]\"" :actual "(binding [*print-meta* true] (pr-str (with-meta [:g] {:ref true})))" :portability :common} - {:suite "metadata / *print-meta*" :label "off by default" :expected "\"[:g]\"" :actual "(pr-str (with-meta [:g] {:ref true}))" :portability :common} - {:suite "metadata / *print-meta*" :label "symbol meta prefixed" :expected "\"^{:k 1} x\"" :actual "(binding [*print-meta* true] (pr-str (with-meta (quote x) {:k 1})))" :portability :common} - {:suite "metadata / *print-meta*" :label "print then read round-trips" :expected "{:ref true}" :actual "(meta (read-string (binding [*print-meta* true] (pr-str (with-meta [:g] {:ref true})))))" :portability :common} - {:suite "metadata / clojure.walk preserves meta" :label "postwalk keeps vector meta" :expected "{:ref true}" :actual "(do (require (quote [clojure.walk :as w])) (meta (w/postwalk identity (with-meta [:b] {:ref true}))))" :portability :common} - {:suite "metadata / clojure.walk preserves meta" :label "postwalk keeps map meta" :expected "{:m 1}" :actual "(do (require (quote [clojure.walk :as w])) (meta (w/postwalk identity (with-meta {:a 2} {:m 1}))))" :portability :common} - {:suite "metadata / clojure.edn preserves meta" :label "edn vector meta" :expected "{:ref true}" :actual "(do (require (quote [clojure.edn :as e1])) (meta (e1/read-string \"^:ref [:greeting]\")))" :portability :common} - {:suite "metadata / clojure.edn preserves meta" :label "edn map meta" :expected "{:m true}" :actual "(do (require (quote [clojure.edn :as e1])) (meta (e1/read-string \"^:m {:a 1}\")))" :portability :common} - {:suite "metadata / clojure.edn preserves meta" :label "edn set meta" :expected "{:s true}" :actual "(do (require (quote [clojure.edn :as e1])) (meta (e1/read-string \"^:s #{1}\")))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "empty keeps vector meta" :expected "{:k 9}" :actual "(meta (empty (with-meta [1] {:k 9})))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "empty keeps map meta" :expected "{:k 9}" :actual "(meta (empty (with-meta {:a 1} {:k 9})))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "empty keeps set meta" :expected "{:k 9}" :actual "(meta (empty (with-meta #{1} {:k 9})))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "empty keeps list meta" :expected "{:k 9}" :actual "(meta (empty (with-meta (list 1) {:k 9})))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "into empty keeps meta" :expected "{:k 9}" :actual "(meta (into (empty (with-meta {:a 1} {:k 9})) {:b 2}))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "into target meta" :expected "{:k 9}" :actual "(meta (into (with-meta [] {:k 9}) [1 2]))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "conj on vector" :expected "{:k 9}" :actual "(meta (conj (with-meta [1] {:k 9}) 2))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "conj on list" :expected "{:k 9}" :actual "(meta (conj (with-meta (list 1) {:k 9}) 2))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "assoc on map" :expected "{:k 9}" :actual "(meta (assoc (with-meta {:a 1} {:k 9}) :b 2))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "dissoc on map" :expected "{:k 9}" :actual "(meta (dissoc (with-meta {:a 1 :c 3} {:k 9}) :c))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "disj on set" :expected "{:k 9}" :actual "(meta (disj (with-meta #{1 2} {:k 9}) 2))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "pop on vector" :expected "{:k 9}" :actual "(meta (pop (with-meta [1 2] {:k 9})))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "op without meta is nil" :expected "nil" :actual "(meta (conj [1] 2))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "value preserved through conj" :expected "[1 2]" :actual "(conj (with-meta [1] {:k 9}) 2)" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "empty list singleton unaffected" :expected "nil" :actual "(do (with-meta () {:leak 1}) (meta ()))" :portability :common} - {:suite "metadata / collection ops preserve meta" :label "empty vector literal unaffected" :expected "nil" :actual "(do (with-meta [] {:leak 1}) (meta []))" :portability :common} - {:suite "metadata / def metadata" :label "^:dynamic var binds" :expected "9" :actual "(do (def ^:dynamic *d* 1) (binding [*d* 9] *d*))" :portability :common} - {:suite "metadata / def metadata" :label "^:private on var" :expected "true" :actual "(do (def ^:private pv 1) (:private (meta (var pv))))" :portability :common} - {:suite "metadata / def metadata" :label "^Type tag on var" :expected "java.lang.String" :actual "(do (def ^String tv \"a\") (:tag (meta (var tv))))" :portability :common} - {:suite "metadata / def metadata" :label "^{:doc} on var" :expected "\"hi\"" :actual "(do (def ^{:doc \"hi\"} dv 1) (:doc (meta (var dv))))" :portability :common} - {:suite "metadata / def metadata" :label "(def name doc val) doc" :expected "\"d\"" :actual "(do (def dd \"d\" 5) (:doc (meta (var dd))))" :portability :common} - {:suite "core / find-keyword + inst-ms*" :label "find-keyword" :expected ":a" :actual "(find-keyword \"a\")" :portability :common} - {:suite "core / find-keyword + inst-ms*" :label "find-keyword 2-arity" :expected ":n/a" :actual "(find-keyword \"n\" \"a\")" :portability :common} - {:suite "core / find-keyword + inst-ms*" :label "find-keyword = keyword" :expected "true" :actual "(= (find-keyword \"x\") :x)" :portability :common} - {:suite "core / find-keyword + inst-ms*" :label "inst-ms*" :expected "true" :actual "(= (inst-ms* #inst \"2020-01-01T00:00:00Z\") (inst-ms #inst \"2020-01-01T00:00:00Z\"))" :portability :common} - {:suite "core / find-keyword + inst-ms*" :label "inst-ms* value" :expected "0" :actual "(inst-ms* #inst \"1970-01-01T00:00:00Z\")" :portability :common} - {:suite "core / with-local-vars" :label "var-get initial" :expected "1" :actual "(with-local-vars [x 1] (var-get x))" :portability :common} - {:suite "core / with-local-vars" :label "var-set" :expected "2" :actual "(with-local-vars [x 1] (var-set x 2) (var-get x))" :portability :common} - {:suite "core / with-local-vars" :label "two vars" :expected "[1 2]" :actual "(with-local-vars [a 1 b 2] [(var-get a) (var-get b)])" :portability :common} - {:suite "core / with-local-vars" :label "vars are values" :expected "5" :actual "(with-local-vars [x 0] (let [bump (fn [v] (var-set v (+ 5 (var-get v))))] (bump x) (var-get x)))" :portability :common} - {:suite "core / with-local-vars" :label "init sees outer" :expected "3" :actual "(let [y 3] (with-local-vars [x y] (var-get x)))" :portability :common} - {:suite "core / with-local-vars" :label "body result" :expected ":done" :actual "(with-local-vars [x 1] :done)" :portability :common} - {:suite "core / with-open" :label "body result" :expected ":r" :actual "(let [log (atom [])] (with-open [c {:close (fn [] (swap! log conj :closed))}] :r))" :portability :common} - {:suite "core / with-open" :label "close runs" :expected "[:closed]" :actual "(let [log (atom [])] (with-open [c {:close (fn [] (swap! log conj :closed))}] :r) (deref log))" :portability :common} - {:suite "core / with-open" :label "close on throw" :expected "[]" :actual "(let [log (atom [])] (try (with-open [c {:close (fn [] (swap! log conj :closed))}] (throw (ex-info \"boom\" {}))) (catch Exception e nil)) (deref log))" :portability :common} - {:suite "core / with-open" :label "nested close order" :expected "[:inner :outer]" :actual "(let [log (atom [])] (with-open [a {:close (fn [] (swap! log conj :outer))} b {:close (fn [] (swap! log conj :inner))}] :r) (deref log))" :portability :common} - {:suite "core / with-open" :label "zero bindings" :expected ":r" :actual "(with-open [] :r)" :portability :common} - {:suite "core / with-open" :label "binding visible" :expected "5" :actual "(with-open [c {:close (fn [] nil) :v 5}] (:v c))" :portability :common} - {:suite "core / with-precision" :label "body evaluates" :expected "3.14" :actual "(with-precision 3 3.14)" :portability :common} - {:suite "core / with-precision" :label "multiple body forms" :expected "2" :actual "(with-precision 10 1 2)" :portability :common} - {:suite "core / with-precision" :label "rounding arg accepted" :expected "1.5" :actual "(with-precision 4 :rounding :half-up 1.5)" :portability :common} - {:suite "core / with-precision" :label "arithmetic" :expected "2" :actual "(with-precision 5 (+ 1 1))" :portability :common} - {:suite "core / read+string" :label "form and text" :expected "true" :actual "(let [[v s] (with-in-str \"42 rest\" (read+string))] (and (= v 42) (string? s)))" :portability :common} - {:suite "core / read+string" :label "form value" :expected "(quote (+ 1 2))" :actual "(first (with-in-str \"(+ 1 2)\" (read+string)))" :portability :common} - {:suite "core / read+string" :label "text covers the form" :expected "true" :actual "(let [[v s] (with-in-str \" [1 2] tail\" (read+string))] (and (= v [1 2]) (> (count s) 3)))" :portability :common} - {:suite "core / read+string" :label "advances the stream" :expected "[1 2]" :actual "(with-in-str \"1 2\" [(first (read+string)) (first (read+string))])" :portability :common} - {:suite "core / read+string" :label "EOF throws" :expected :throws :actual "(with-in-str \"\" (read+string))" :portability :common} - {:suite "core / read+string" :label "eof-value arity" :expected ":done" :actual "(first (with-in-str \"\" (read+string *in* false :done)))" :portability :common} - {:suite "core / extenders" :label "lists extended type" :expected "[]" :actual "(do (defprotocol Px (pm [x])) (defrecord Rx [] Px (pm [x] 1)) (mapv str (extenders Px)))" :portability :common} - {:suite "core / extenders" :label "nil when none" :expected "nil" :actual "(do (defprotocol Py (pn [x])) (extenders Py))" :portability :common} - {:suite "core / extenders" :label "seq of tags" :expected "nil" :actual "(do (defprotocol Pz (pz [x])) (defrecord Rz [] Pz (pz [x] 1)) (and (seq (extenders Pz)) (= 1 (count (extenders Pz)))))" :portability :common} - {:suite "multimethods / dispatch" :label "dispatch on value" :expected "\"two\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f 2 [_] \"two\") (f 2))" :portability :common} - {:suite "multimethods / dispatch" :label "dispatch on keyword fn" :expected "\"circle\"" :actual "(do (defmulti area :shape) (defmethod area :circle [_] \"circle\") (area {:shape :circle}))" :portability :common} - {:suite "multimethods / dispatch" :label ":default method" :expected "\"other\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f :default [_] \"other\") (f 99))" :portability :common} - {:suite "multimethods / dispatch" :label "no match throws" :expected :throws :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (f 99))" :portability :common} - {:suite "multimethods / dispatch" :label "multiple args" :expected "5" :actual "(do (defmulti g (fn [a b] a)) (defmethod g :add [_ b] b) (g :add 5))" :portability :common} - {:suite "multimethods / dispatch" :label "get-method" :expected "\"one\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") ((get-method f 1) 1))" :portability :common} - {:suite "multimethods / dispatch" :label "remove-method" :expected :throws :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (remove-method f 1) (f 1))" :portability :common} - {:suite "multimethods / dispatch" :label "methods" :expected "\"one\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") ((get (methods f) 1) 1))" :portability :common} - {:suite "multimethods / dispatch" :label "methods count" :expected "2" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f 2 [_] \"two\") (count (methods f)))" :portability :common} - {:suite "multimethods / dispatch" :label "remove-all-methods" :expected :throws :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f 2 [_] \"two\") (remove-all-methods f) (f 1))" :portability :common} - {:suite "multimethods / dispatch" :label "remove-all-methods empties the table" :expected "0" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (remove-all-methods f) (count (methods f)))" :portability :common} - {:suite "multimethods / hierarchies" :label "derive + isa?" :expected "true" :actual "(do (derive ::child ::parent) (isa? ::child ::parent))" :portability :common} - {:suite "multimethods / hierarchies" :label "isa? reflexive" :expected "true" :actual "(isa? ::x ::x)" :portability :common} - {:suite "multimethods / hierarchies" :label "isa? unrelated" :expected "false" :actual "(do (derive ::a ::b) (isa? ::a ::c))" :portability :common} - {:suite "multimethods / hierarchies" :label "parents" :expected "true" :actual "(do (derive ::c ::p) (contains? (parents ::c) ::p))" :portability :common} - {:suite "multimethods / hierarchies" :label "ancestors" :expected "true" :actual "(do (derive ::c ::p) (derive ::p ::g) (contains? (ancestors ::c) ::g))" :portability :common} - {:suite "multimethods / hierarchies" :label "descendants" :expected "true" :actual "(do (derive ::c ::p) (contains? (descendants ::p) ::c))" :portability :common} - {:suite "multimethods / hierarchies" :label "dispatch via hierarchy" :expected "\"animal\"" :actual "(do (derive ::dog ::animal) (defmulti speak identity) (defmethod speak ::animal [_] \"animal\") (speak ::dog))" :portability :common} - {:suite "multimethods / hierarchies" :label "custom :default key" :expected ":unknown" :actual "(do (defmulti classify :type :default :other) (defmethod classify :a [_] :alpha) (defmethod classify :other [_] :unknown) (classify {:type :zzz}))" :portability :common} - {:suite "multimethods / hierarchies" :label "explicit :hierarchy" :expected "\"a\"" :actual "(do (def h (derive (make-hierarchy) ::dog ::animal)) (defmulti snd identity :hierarchy h) (defmethod snd ::animal [_] \"a\") (snd ::dog))" :portability :common} - {:suite "multimethods / prefer-method" :label "preference picks the winner" :expected ":rect" :actual "(do (derive :p/sq :p/rect) (derive :p/sq :p/shape) (defmulti pm1 identity) (defmethod pm1 :p/rect [x] :rect) (defmethod pm1 :p/shape [x] :shape) (prefer-method pm1 :p/rect :p/shape) (pm1 :p/sq))" :portability :common} - {:suite "multimethods / prefer-method" :label "reverse preference" :expected ":shape" :actual "(do (derive :q/sq :q/rect) (derive :q/sq :q/shape) (defmulti pm2 identity) (defmethod pm2 :q/rect [x] :rect) (defmethod pm2 :q/shape [x] :shape) (prefer-method pm2 :q/shape :q/rect) (pm2 :q/sq))" :portability :common} - {:suite "multimethods / prefer-method" :label "ambiguity throws" :expected :throws :actual "(do (derive :r/sq :r/rect) (derive :r/sq :r/shape) (defmulti pm3 identity) (defmethod pm3 :r/rect [x] :rect) (defmethod pm3 :r/shape [x] :shape) (pm3 :r/sq))" :portability :common} - {:suite "multimethods / prefer-method" :label "isa dominance needs no preference" :expected ":child" :actual "(do (derive :s/c :s/p) (defmulti pm4 identity) (defmethod pm4 :s/c [x] :child) (defmethod pm4 :s/p [x] :parent) (pm4 :s/c))" :portability :common} - {:suite "multimethods / prefer-method" :label "prefers map shape" :expected "true" :actual "(do (defmulti pm5 identity) (defmethod pm5 :a [x] 1) (defmethod pm5 :b [x] 2) (prefer-method pm5 :a :b) (contains? (get (prefers pm5) :a) :b))" :portability :common} - {:suite "multimethods / prefer-method" :label "exact match needs no preference" :expected ":exact" :actual "(do (derive :t/sq :t/rect) (defmulti pm6 identity) (defmethod pm6 :t/sq [x] :exact) (defmethod pm6 :t/rect [x] :parent) (pm6 :t/sq))" :portability :common} - {:suite "multimethods / docstring & value-based table ops" :label "defmulti docstring" :expected "\"A\"" :actual "(do (defmulti gd \"the dispatcher\" identity) (defmethod gd :a [_] \"A\") (gd :a))" :portability :common} - {:suite "multimethods / docstring & value-based table ops" :label "defmulti doc+default" :expected "\"d\"" :actual "(do (defmulti gx \"doc\" identity) (defmethod gx :default [_] \"d\") (gx :anything))" :portability :common} - {:suite "multimethods / docstring & value-based table ops" :label "methods on value" :expected "2" :actual "(do (defmulti gm identity) (defmethod gm 1 [_] :one) (defmethod gm 2 [_] :two) (count (methods gm)))" :portability :common} - {:suite "multimethods / docstring & value-based table ops" :label "get-method on value" :expected "true" :actual "(do (defmulti gg identity) (defmethod gg :a [_] :x) (fn? (get-method gg :a)))" :portability :common} - {:suite "namespaces / def & vars" :label "def + deref" :expected "5" :actual "(do (def x 5) x)" :portability :common} - {:suite "namespaces / def & vars" :label "def returns var" :expected "true" :actual "(var? (def y 1))" :portability :common} - {:suite "namespaces / def & vars" :label "declare then def" :expected "2" :actual "(do (declare z) (def z 2) z)" :portability :common} - {:suite "namespaces / def & vars" :label "var special form" :expected "true" :actual "(var? (var +))" :portability :common} - {:suite "namespaces / def & vars" :label "var sugar #'" :expected "true" :actual "(var? #'+)" :portability :common} - {:suite "namespaces / def & vars" :label "var-get" :expected "5" :actual "(do (def w 5) (var-get #'w))" :portability :common} - {:suite "namespaces / def & vars" :label "defn defines fn" :expected "3" :actual "(do (defn f [x] (inc x)) (f 2))" :portability :common} - {:suite "namespaces / def & vars" :label "def with docstring" :expected "7" :actual "(do (def d \"a doc\" 7) d)" :portability :common} - {:suite "namespaces / def & vars" :label "dynamic var binding" :expected "2" :actual "(do (def ^:dynamic *x* 1) (binding [*x* 2] *x*))" :portability :common} - {:suite "namespaces / def & vars" :label "binding restores" :expected "1" :actual "(do (def ^:dynamic *y* 1) (binding [*y* 9] nil) *y*)" :portability :common} - {:suite "namespaces / def & vars" :label "var-set in binding" :expected "5" :actual "(do (def ^:dynamic *z* 1) (binding [*z* 0] (var-set (var *z*) 5) *z*))" :portability :common} - {:suite "namespaces / ns operations" :label "in-ns switches" :expected "true" :actual "(do (in-ns 'my.ns) (symbol? 'x))" :portability :common} - {:suite "namespaces / ns operations" :label "ns form + alias" :expected "\"HI\"" :actual "(do (ns my.app (:require [clojure.string :as s])) (s/upper-case \"hi\"))" :portability :common} - {:suite "namespaces / ns operations" :label "ns :use refers all" :expected "9" :actual "(do (ns src.lib) (def helper 9) (ns dst.app (:use [src.lib])) helper)" :portability :common} - {:suite "namespaces / ns operations" :label "standalone use" :expected "7" :actual "(do (ns src.l2) (def k 7) (in-ns 'dst.a2) (use '[src.l2]) k)" :portability :common} - {:suite "namespaces / ns operations" :label "ns-name" :expected "true" :actual "(do (require (quote [clojure.string])) (= 'clojure.string (ns-name (find-ns 'clojure.string))))" :portability :common} - {:suite "namespaces / ns operations" :label "find-ns existing" :expected "true" :actual "(some? (find-ns 'clojure.core))" :portability :common} - {:suite "namespaces / ns operations" :label "find-ns missing" :expected "nil" :actual "(find-ns 'does.not.exist)" :portability :common} - {:suite "namespaces / ns operations" :label "resolve var" :expected "true" :actual "(var? (resolve '+))" :portability :common} - {:suite "namespaces / ns operations" :label "resolve missing" :expected "nil" :actual "(resolve 'totally-undefined-xyz)" :portability :common} - {:suite "namespaces / require & refer" :label "require :as" :expected "\"AB\"" :actual "(do (require '[clojure.string :as s]) (s/upper-case \"ab\"))" :portability :common} - {:suite "namespaces / require & refer" :label "require :refer" :expected "true" :actual "(do (require '[clojure.string :refer [blank?]]) (blank? \"\"))" :portability :common} - {:suite "namespaces / require & refer" :label "require :as + :refer" :expected "true" :actual "(do (require '[clojure.string :as s :refer [blank?]]) (and (blank? \"\") (= \"X\" (s/upper-case \"x\"))))" :portability :common} - {:suite "namespaces / require & refer" :label "require clojure.set" :expected "#{1 3 2}" :actual "(do (require '[clojure.set :as set]) (set/union #{1 2} #{3}))" :portability :common} - {:suite "namespaces / require & refer" :label "require clojure.walk" :expected "{:a 2}" :actual "(do (require '[clojure.walk :as w]) (w/postwalk (fn [x] (if (number? x) (inc x) x)) {:a 1}))" :portability :common} - {:suite "namespaces / require & refer" :label "walk keywordize-keys" :expected "{:a 1}" :actual "(do (require '[clojure.walk :as w]) (w/keywordize-keys {\"a\" 1}))" :portability :common} - {:suite "namespaces / require & refer" :label "walk stringify-keys" :expected "true" :actual "(do (require '[clojure.walk :as w]) (= {\"a\" 1} (w/stringify-keys {:a 1})))" :portability :common} - {:suite "namespaces / require & refer" :label "require missing lib throws" :expected :throws :actual "(require '[no.such.lib])" :portability :common} - {:suite "namespaces / require & refer" :label "use missing lib throws" :expected :throws :actual "(use 'no.such.lib)" :portability :common} - {:suite "namespaces / require & refer" :label "require of in-session ns ok" :expected "1" :actual "(do (ns made.here) (def x 1) (require '[made.here]) made.here/x)" :portability :common} - {:suite "namespaces / alias, ns-unalias, ns-publics" :label "alias + use" :expected "\"1,2\"" :actual "(do (require (quote clojure.string)) (alias (quote st) (quote clojure.string)) (st/join \",\" [1 2]))" :portability :common} - {:suite "namespaces / alias, ns-unalias, ns-publics" :label "ns-unalias removes" :expected "true" :actual "(do (require (quote clojure.string)) (alias (quote st2) (quote clojure.string)) (ns-unalias (quote user) (quote st2)) (nil? (get (ns-aliases (quote user)) (quote st2))))" :portability :common} - {:suite "namespaces / alias, ns-unalias, ns-publics" :label "ns-publics has var" :expected "true" :actual "(do (def npv 1) (some? (get (ns-publics (quote user)) (quote npv))))" :portability :common} - {:suite "namespaces / alias, ns-unalias, ns-publics" :label "newline returns nil" :expected "nil" :actual "(newline)" :portability :common} - {:suite "namespaces / error inside a fn must not leak its defining ns" :label "alias survives a throwing stdlib call" :expected "\"A\"" :actual "(do (require (quote [clojure.string :as s9])) (try (s9/join nil nil nil) (catch Exception e nil)) (s9/upper-case \"a\"))" :portability :common} - {:suite "namespaces / error inside a fn must not leak its defining ns" :label "*ns* restored after throw" :expected "\"user\"" :actual "(do (require (quote [clojure.walk :as w9])) (try (w9/postwalk nil nil nil) (catch Exception e nil)) (str *ns*))" :portability :common} - {:suite "namespaces / unified alias store" :label "require :as registers the alias" :expected "1" :actual "(do (require (quote [clojure.string :as st1])) (count (filter (fn [[a n]] (= (str a) \"st1\")) (ns-aliases))))" :portability :common} - {:suite "namespaces / unified alias store" :label "aliased call resolves" :expected "\"A\"" :actual "(do (require (quote [clojure.string :as st2])) (st2/upper-case \"a\"))" :portability :common} - {:suite "namespaces / unified alias store" :label "alias fn registers + resolves" :expected "\"B\"" :actual "(do (require (quote [clojure.string])) (alias (quote st3) (quote clojure.string)) (st3/upper-case \"b\"))" :portability :common} - {:suite "namespaces / unified alias store" :label "alias fn visible to ns-aliases" :expected "true" :actual "(do (require (quote [clojure.string])) (alias (quote st4) (quote clojure.string)) (pos? (count (filter (fn [[a n]] (= (str a) \"st4\")) (ns-aliases)))))" :portability :common} - {:suite "namespaces / unified alias store" :label "ns-unalias removes both views" :expected "[0 false]" :actual "(do (require (quote [clojure.string :as st5])) (ns-unalias (quote user) (quote st5)) [(count (filter (fn [[a n]] (= (str a) \"st5\")) (ns-aliases))) (boolean (resolve (quote st5/upper-case)))])" :portability :common} - {:suite "namespaces / unified alias store" :label "ns-resolve through alias" :expected "true" :actual "(do (require (quote [clojure.string :as st6])) (var? (ns-resolve (quote user) (quote st6/upper-case))))" :portability :common} - {:suite "namespaces / unified alias store" :label "empty ns-aliases is a map" :expected "true" :actual "(map? (ns-aliases (quote clojure.core)))" :portability :common} - {:suite "*ns* / identity & printing" :label "str of *ns*" :expected "\"user\"" :actual "(str *ns*)" :portability :common} - {:suite "*ns* / identity & printing" :label "ns-name of *ns*" :expected "(quote user)" :actual "(ns-name *ns*)" :portability :common} - {:suite "*ns* / identity & printing" :label "*ns* is find-ns" :expected "true" :actual "(= (ns-name *ns*) (ns-name (find-ns (quote user))))" :portability :common} - {:suite "*ns* / identity & printing" :label "*ns* not a map" :expected "false" :actual "(map? *ns*)" :portability :common} - {:suite "*ns* / identity & printing" :label "tracks in-ns" :expected "\"jolt.test-ns-a\"" :actual "(do (in-ns (quote jolt.test-ns-a)) (str *ns*))" :portability :common} - {:suite "*ns* / identity & printing" :label "in-ns returns ns" :expected "\"jolt.test-ns-b\"" :actual "(str (in-ns (quote jolt.test-ns-b)))" :portability :common} - {:suite "*ns* / identity & printing" :label "usable with ns fns" :expected "true" :actual "(do (require (quote clojure.string)) (alias (quote nsv) (quote clojure.string)) (some? (get (ns-aliases *ns*) (quote nsv))))" :portability :common} - {:suite "*ns* / identity & printing" :label "ns-unalias via *ns*" :expected "true" :actual "(do (require (quote clojure.string)) (alias (quote nsw) (quote clojure.string)) (ns-unalias *ns* (quote nsw)) (nil? (get (ns-aliases *ns*) (quote nsw))))" :portability :common} - {:suite "numbers / arithmetic" :label "add" :expected "6" :actual "(+ 1 2 3)" :portability :common} - {:suite "numbers / arithmetic" :label "add zero args" :expected "0" :actual "(+)" :portability :common} - {:suite "numbers / arithmetic" :label "subtract" :expected "5" :actual "(- 10 3 2)" :portability :common} - {:suite "numbers / arithmetic" :label "negate" :expected "-5" :actual "(- 5)" :portability :common} - {:suite "numbers / arithmetic" :label "multiply" :expected "24" :actual "(* 2 3 4)" :portability :common} - {:suite "numbers / arithmetic" :label "multiply zero args" :expected "1" :actual "(*)" :portability :common} - {:suite "numbers / arithmetic" :label "divide" :expected "2" :actual "(/ 10 5)" :portability :common} - {:suite "numbers / arithmetic" :label "divide to fraction" :expected "1/2" :actual "(/ 1 2)" :portability :common} - {:suite "numbers / arithmetic" :label "inc" :expected "6" :actual "(inc 5)" :portability :common} - {:suite "numbers / arithmetic" :label "dec" :expected "4" :actual "(dec 5)" :portability :common} - {:suite "numbers / arithmetic" :label "quot" :expected "3" :actual "(quot 10 3)" :portability :common} - {:suite "numbers / arithmetic" :label "rem" :expected "1" :actual "(rem 10 3)" :portability :common} - {:suite "numbers / arithmetic" :label "mod" :expected "2" :actual "(mod -1 3)" :portability :common} - {:suite "numbers / arithmetic" :label "rem negative" :expected "-1" :actual "(rem -1 3)" :portability :common} - {:suite "numbers / arithmetic" :label "max" :expected "9" :actual "(max 3 9 1)" :portability :common} - {:suite "numbers / arithmetic" :label "min" :expected "1" :actual "(min 3 9 1)" :portability :common} - {:suite "numbers / arithmetic" :label "abs" :expected "5" :actual "(abs -5)" :portability :common} - {:suite "numbers / arithmetic" :label "promoting + alias" :expected "3" :actual "(+' 1 2)" :portability :common} - {:suite "numbers / arithmetic" :label "inc' alias" :expected "6" :actual "(inc' 5)" :portability :common} - {:suite "numbers / comparison" :label "less than" :expected "true" :actual "(< 1 2 3)" :portability :common} - {:suite "numbers / comparison" :label "less than false" :expected "false" :actual "(< 1 3 2)" :portability :common} - {:suite "numbers / comparison" :label "greater than" :expected "true" :actual "(> 3 2 1)" :portability :common} - {:suite "numbers / comparison" :label "<=" :expected "true" :actual "(<= 1 1 2)" :portability :common} - {:suite "numbers / comparison" :label ">=" :expected "true" :actual "(>= 3 3 2)" :portability :common} - {:suite "numbers / comparison" :label "= numbers" :expected "true" :actual "(= 2 2)" :portability :common} - {:suite "numbers / comparison" :label "= different" :expected "false" :actual "(= 2 3)" :portability :common} - {:suite "numbers / comparison" :label "== numeric" :expected "true" :actual "(== 2 2)" :portability :common} - {:suite "numbers / comparison" :label "not=" :expected "true" :actual "(not= 1 2)" :portability :common} - {:suite "numbers / comparison" :label "compare less" :expected "-1" :actual "(compare 1 2)" :portability :common} - {:suite "numbers / comparison" :label "compare equal" :expected "0" :actual "(compare 1 1)" :portability :common} - {:suite "numbers / comparison" :label "compare greater" :expected "1" :actual "(compare 2 1)" :portability :common} - {:suite "numbers / predicates" :label "zero?" :expected "true" :actual "(zero? 0)" :portability :common} - {:suite "numbers / predicates" :label "pos?" :expected "true" :actual "(pos? 5)" :portability :common} - {:suite "numbers / predicates" :label "neg?" :expected "true" :actual "(neg? -5)" :portability :common} - {:suite "numbers / predicates" :label "even?" :expected "true" :actual "(even? 4)" :portability :common} - {:suite "numbers / predicates" :label "odd?" :expected "true" :actual "(odd? 3)" :portability :common} - {:suite "numbers / predicates" :label "number?" :expected "true" :actual "(number? 5)" :portability :common} - {:suite "numbers / predicates" :label "number? false" :expected "false" :actual "(number? :a)" :portability :common} - {:suite "numbers / predicates" :label "int?" :expected "true" :actual "(int? 5)" :portability :common} - {:suite "numbers / predicates" :label "pos-int?" :expected "true" :actual "(pos-int? 5)" :portability :common} - {:suite "numbers / predicates" :label "neg-int?" :expected "true" :actual "(neg-int? -5)" :portability :common} - {:suite "numbers / predicates" :label "nat-int? zero" :expected "true" :actual "(nat-int? 0)" :portability :common} - {:suite "numbers / predicates" :label "nat-int? neg" :expected "false" :actual "(nat-int? -1)" :portability :common} - {:suite "numbers / predicates" :label "ratio? false" :expected "false" :actual "(ratio? 5)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "read ##Inf" :expected "true" :actual "(= ##Inf (/ 1.0 0.0))" :portability :common} - {:suite "numbers / floats & symbolic values" :label "read ##-Inf" :expected "true" :actual "(< ##-Inf 0)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "##NaN not= itself" :expected "true" :actual "(not (== ##NaN ##NaN))" :portability :common} - {:suite "numbers / floats & symbolic values" :label "float? fractional" :expected "true" :actual "(float? 1.5)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "double? fractional" :expected "true" :actual "(double? 0.25)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "float? integer" :expected "false" :actual "(float? 3)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "float? ##Inf" :expected "true" :actual "(float? ##Inf)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "double? ##NaN" :expected "true" :actual "(double? ##NaN)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "infinite? ##Inf" :expected "true" :actual "(infinite? ##Inf)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "infinite? ##-Inf" :expected "true" :actual "(infinite? ##-Inf)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "infinite? finite" :expected "false" :actual "(infinite? 1.5)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "NaN? ##NaN" :expected "true" :actual "(NaN? ##NaN)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "NaN? number" :expected "false" :actual "(NaN? 1.0)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "int? ##Inf false" :expected "false" :actual "(int? ##Inf)" :portability :common} - {:suite "numbers / floats & symbolic values" :label "pos-int? ##Inf" :expected "false" :actual "(pos-int? ##Inf)" :portability :common} - {:suite "numbers / literal syntax" :label "bigint suffix N" :expected "42N" :actual "42N" :portability :common} - {:suite "numbers / literal syntax" :label "bigint zero" :expected "0N" :actual "0N" :portability :common} - {:suite "numbers / literal syntax" :label "bigdec suffix M" :expected "1.5M" :actual "1.5M" :portability :common} - {:suite "numbers / literal syntax" :label "bigdec int M" :expected "0.0M" :actual "0.0M" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "add (value position)" :expected "4.0M" :actual "(reduce + [1.5M 2.5M])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "add preserves max scale" :expected "\"4.00\"" :actual "(str (reduce + [1.50M 2.5M]))" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "add three" :expected "7.0M" :actual "(reduce + [1.5M 2.5M 3.0M])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "subtract (apply)" :expected "3.5M" :actual "(apply - [5M 1.5M])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "multiply adds scales" :expected "\"3.0000\"" :actual "(str (reduce * [1.50M 2.00M]))" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "long contagion stays bigdec" :expected "3.5M" :actual "(reduce + [1.5M 2])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "double contagion -> double" :expected "3.5" :actual "(reduce + [1.5M 2.0])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "exact divide minimal scale" :expected "\"0.25\"" :actual "(str (reduce / [1M 4M]))" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "exact divide whole" :expected "5M" :actual "(reduce / [10M 2M])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "non-terminating divide throws" :expected ":nonterm" :actual "(try (reduce / [1M 3M]) (catch ArithmeticException _ :nonterm))" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "compare is scale-independent" :expected "0" :actual "(compare 1.0M 1.00M)" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "compare orders by value" :expected "-1" :actual "(compare 1.5M 2.5M)" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "sort uses bigdec compare" :expected "[1M 2M 3M]" :actual "(vec (sort [3M 1M 2M]))" :portability :common} - {:suite "numbers / bigdec call position" :label "add" :expected "4.0M" :actual "(+ 1.5M 2.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "multiply adds scales" :expected "\"3.0000\"" :actual "(str (* 1.50M 2.00M))" :portability :common} - {:suite "numbers / bigdec call position" :label "subtract" :expected "3.5M" :actual "(- 5M 1.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "negate" :expected "-1.5M" :actual "(- 1.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "long contagion" :expected "3.5M" :actual "(+ 1.5M 2)" :portability :common} - {:suite "numbers / bigdec call position" :label "exact divide" :expected "0.25M" :actual "(/ 1M 4M)" :portability :common} - {:suite "numbers / bigdec call position" :label "less-than" :expected "true" :actual "(< 1.5M 2.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "greater-than false" :expected "false" :actual "(> 1.5M 2.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "zero?" :expected "true" :actual "(zero? 0M)" :portability :common} - {:suite "numbers / bigdec call position" :label "pos?" :expected "true" :actual "(pos? 1.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "neg? false" :expected "false" :actual "(neg? 1.5M)" :portability :common} - {:suite "numbers / bigdec call position" :label "quot truncates to scale 0" :expected "3M" :actual "(quot 7M 2M)" :portability :common} - {:suite "numbers / bigdec call position" :label "rem" :expected "1M" :actual "(rem 7M 2M)" :portability :common} - {:suite "numbers / bigdec call position" :label "let-bound operands" :expected "4.0M" :actual "(let [a 1.5M b 2.5M] (+ a b))" :portability :common} - {:suite "numbers / bigdec call position" :label "nested arithmetic propagates" :expected "6.0M" :actual "(+ (* 1.5M 2M) 3M)" :portability :common} - {:suite "numbers / bigdec call position" :label "non-terminating divide throws" :expected ":nonterm" :actual "(try (/ 1M 3M) (catch ArithmeticException _ :nonterm))" :portability :common} - {:suite "numbers / bigdec call position" :label "min" :expected "1M" :actual "(min 1M 2M)" :portability :common} - {:suite "numbers / bigdec call position" :label "max of three" :expected "3M" :actual "(max 1M 2M 3M)" :portability :common} - {:suite "numbers / bigdec call position" :label "min returns the operand, scale intact" :expected "\"1.50\"" :actual "(str (min 1.50M 2M))" :portability :common} - {:suite "numbers / bigdec call position" :label "max tie keeps second operand" :expected "\"1.50\"" :actual "(str (max 1.5M 1.50M))" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "max (value position)" :expected "3M" :actual "(reduce max [1M 3M 2M])" :portability :common} - {:suite "numbers / bigdec arithmetic" :label "min (apply)" :expected "1M" :actual "(apply min [3M 1M 2M])" :portability :common} - {:suite "numbers / literal syntax" :label "ratio -> double" :expected "1/2" :actual "1/2" :portability :common} - {:suite "numbers / literal syntax" :label "ratio 3/4" :expected "3/4" :actual "3/4" :portability :common} - {:suite "numbers / literal syntax" :label "neg ratio" :expected "-1/2" :actual "-1/2" :portability :common} - {:suite "numbers / literal syntax" :label "radix binary" :expected "10" :actual "2r1010" :portability :common} - {:suite "numbers / literal syntax" :label "radix hex-ish" :expected "255" :actual "16rFF" :portability :common} - {:suite "numbers / literal syntax" :label "radix base36" :expected "35" :actual "36rZ" :portability :common} - {:suite "numbers / literal syntax" :label "hex" :expected "255" :actual "0xFF" :portability :common} - {:suite "numbers / literal syntax" :label "exponent" :expected "1000.0" :actual "1e3" :portability :common} - {:suite "numbers / literal syntax" :label "exponent neg" :expected "0.015" :actual "1.5e-2" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "odd? nil" :expected :throws :actual "(odd? nil)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "odd? fractional" :expected :throws :actual "(odd? 1.5)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "even? inf" :expected :throws :actual "(even? ##Inf)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "zero? nil" :expected :throws :actual "(zero? nil)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "pos? false" :expected :throws :actual "(pos? false)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "neg? keyword" :expected :throws :actual "(neg? :a)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "< nil" :expected :throws :actual "(< nil 1)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "> with nil" :expected :throws :actual "(> 1 nil)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "max non-number" :expected :throws :actual "(max 1 nil)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "quot by zero" :expected :throws :actual "(quot 10 0)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "quot inf" :expected :throws :actual "(quot ##Inf 1)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "< arity-1 any" :expected "true" :actual "(< :anything)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "odd? ok" :expected "true" :actual "(odd? 3)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "< ok" :expected "true" :actual "(< 1 2 3)" :portability :common} - {:suite "numbers / strictness (throws like Clojure)" :label "quot ok" :expected "3" :actual "(quot 10 3)" :portability :common} - {:suite "numbers / printing of inf & nan" :label "str Infinity" :expected "\"Infinity\"" :actual "(str ##Inf)" :portability :common} - {:suite "numbers / printing of inf & nan" :label "str -Infinity" :expected "\"-Infinity\"" :actual "(str ##-Inf)" :portability :common} - {:suite "numbers / printing of inf & nan" :label "str NaN" :expected "\"NaN\"" :actual "(str ##NaN)" :portability :common} - {:suite "numbers / printing of inf & nan" :label "pr-str Infinity" :expected "\"##Inf\"" :actual "(pr-str ##Inf)" :portability :common} - {:suite "numbers / printing of inf & nan" :label "inf inside coll" :expected "\"[##Inf]\"" :actual "(str [##Inf])" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-and" :expected "4" :actual "(bit-and 12 6)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-or" :expected "14" :actual "(bit-or 12 6)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-xor" :expected "10" :actual "(bit-xor 12 6)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-shift-left" :expected "8" :actual "(bit-shift-left 1 3)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-shift-right" :expected "2" :actual "(bit-shift-right 8 2)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-set" :expected "8" :actual "(bit-set 0 3)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-clear" :expected "13" :actual "(bit-clear 15 1)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bit-test true" :expected "true" :actual "(bit-test 4 2)" :portability :common} - {:suite "numbers / bit-ops & math" :label "bigint 64-bit" :expected "\"9000000000\"" :actual "(str (bigint 9000000000))" :portability :common} - {:suite "numbers / random (invariants — non-deterministic)" :label "rand-int in range" :expected "true" :actual "(let [r (rand-int 5)] (and (integer? r) (>= r 0) (< r 5)))" :portability :common} - {:suite "numbers / random (invariants — non-deterministic)" :label "rand-int zero" :expected "0" :actual "(rand-int 1)" :portability :common} - {:suite "numbers / random (invariants — non-deterministic)" :label "rand in [0,1)" :expected "true" :actual "(let [r (rand)] (and (>= r 0) (< r 1)))" :portability :common} - {:suite "numbers / random (invariants — non-deterministic)" :label "rand n in [0,n)" :expected "true" :actual "(let [r (rand 10)] (and (>= r 0) (< r 10)))" :portability :common} - {:suite "numbers / random (invariants — non-deterministic)" :label "rand-nth member" :expected "true" :actual "(contains? #{:a :b :c} (rand-nth [:a :b :c]))" :portability :common} - {:suite "numbers / random (invariants — non-deterministic)" :label "rand-nth single" :expected ":x" :actual "(rand-nth [:x])" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long" :expected "42" :actual "(parse-long \"42\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long negative" :expected "-7" :actual "(parse-long \"-7\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long plus" :expected "7" :actual "(parse-long \"+7\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long float nil" :expected "nil" :actual "(parse-long \"1.5\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long hex nil" :expected "nil" :actual "(parse-long \"0x10\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long empty nil" :expected "nil" :actual "(parse-long \"\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long junk nil" :expected "nil" :actual "(parse-long \"12ab\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-long throws" :expected :throws :actual "(parse-long 42)" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double" :expected "1.5" :actual "(parse-double \"1.5\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double int" :expected "4.0" :actual "(parse-double \"4\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double sci" :expected "1500.0" :actual "(parse-double \"1.5e3\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double neg" :expected "-0.5" :actual "(parse-double \"-0.5\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double junk" :expected "nil" :actual "(parse-double \"abc\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double trail" :expected "nil" :actual "(parse-double \"1.5x\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-double throws" :expected :throws :actual "(parse-double :k)" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-boolean true" :expected "true" :actual "(parse-boolean \"true\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-boolean false" :expected "false" :actual "(parse-boolean \"false\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-boolean case" :expected "nil" :actual "(parse-boolean \"True\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-boolean junk" :expected "nil" :actual "(parse-boolean \"yes\")" :portability :common} - {:suite "numbers / parse fns (1.11)" :label "parse-boolean throws" :expected :throws :actual "(parse-boolean true)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "+'" :expected "3" :actual "(+' 1 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "-'" :expected "3" :actual "(-' 5 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "*'" :expected "12" :actual "(*' 3 4)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "inc'" :expected "6" :actual "(inc' 5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "dec'" :expected "4" :actual "(dec' 5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add" :expected "5" :actual "(unchecked-add 2 3)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add-int" :expected "5" :actual "(unchecked-add-int 2 3)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-subtract" :expected "3" :actual "(unchecked-subtract 5 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-subtract-int" :expected "3" :actual "(unchecked-subtract-int 5 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-multiply" :expected "12" :actual "(unchecked-multiply 3 4)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-multiply-int" :expected "12" :actual "(unchecked-multiply-int 3 4)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-negate" :expected "-5" :actual "(unchecked-negate 5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-negate-int" :expected "-5" :actual "(unchecked-negate-int 5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-inc" :expected "2" :actual "(unchecked-inc 1)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-inc-int" :expected "2" :actual "(unchecked-inc-int 1)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-dec" :expected "0" :actual "(unchecked-dec 1)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-dec-int" :expected "0" :actual "(unchecked-dec-int 1)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-divide-int" :expected "3" :actual "(unchecked-divide-int 7 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-divide-int negative truncates toward zero" :expected "-3" :actual "(unchecked-divide-int -7 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-divide-int by zero throws" :expected :throws :actual "(unchecked-divide-int 1 0)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-remainder-int" :expected "1" :actual "(unchecked-remainder-int 7 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-remainder-int negative" :expected "-1" :actual "(unchecked-remainder-int -7 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-int truncates" :expected "3" :actual "(unchecked-int 3.7)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-int negative" :expected "-3" :actual "(unchecked-int -3.7)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add on ratios does not wrap to long" :expected "4/3" :actual "(unchecked-add 2/3 2/3)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-multiply ratio by int" :expected "4/3" :actual "(unchecked-multiply 2/3 2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-negate ratio" :expected "-2/3" :actual "(unchecked-negate 2/3)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add ratios summing to zero" :expected "0" :actual "(unchecked-add 1/2 -1/2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-inc ratio" :expected "3/2" :actual "(unchecked-inc 1/2)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "unchecked-long" :expected "3" :actual "(unchecked-long 3.7)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "int? on integer" :expected "true" :actual "(int? 5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "int? on double" :expected "false" :actual "(int? 5.5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "int? on non-number" :expected "false" :actual "(int? \"5\")" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "num passes a number through" :expected "5" :actual "(num 5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "num on a double" :expected "5.5" :actual "(num 5.5)" :portability :common} - {:suite "numbers / promoting & unchecked aliases" :label "num throws on non-number" :expected :throws :actual "(num \"x\")" :portability :common} - {:suite "numbers / == numeric equality" :label "== single arg" :expected "true" :actual "(== :a)" :portability :common} - {:suite "numbers / == numeric equality" :label "== equal" :expected "true" :actual "(== 2 2)" :portability :common} - {:suite "numbers / == numeric equality" :label "== unequal" :expected "false" :actual "(== 2 3)" :portability :common} - {:suite "numbers / == numeric equality" :label "== chained" :expected "true" :actual "(== 2 2 2)" :portability :common} - {:suite "numbers / == numeric equality" :label "== chained unequal" :expected "false" :actual "(== 2 2 3)" :portability :common} - {:suite "numbers / == numeric equality" :label "== int and double" :expected "true" :actual "(== 1 1.0)" :portability :common} - {:suite "numbers / == numeric equality" :label "== throws on non-number" :expected :throws :actual "(== 1 :a)" :portability :common} - {:suite "numbers / == numeric equality" :label "== throws on two keywords" :expected :throws :actual "(== :a :a)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and 2" :expected "4" :actual "(bit-and 12 6)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and 3" :expected "4" :actual "(bit-and 12 6 7)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and 4" :expected "0" :actual "(bit-and 12 6 7 3)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-or 3" :expected "7" :actual "(bit-or 1 2 4)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-xor 3" :expected "7" :actual "(bit-xor 1 2 4)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-xor folds left" :expected "1" :actual "(bit-xor 5 6 2)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and-not 2" :expected "8" :actual "(bit-and-not 12 6)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and-not 3" :expected "8" :actual "(bit-and-not 12 6 3)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and single arg throws" :expected :throws :actual "(bit-and 5)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-or keeps binary fast path" :expected "3" :actual "(bit-or 1 2)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-not" :expected "-6" :actual "(bit-not 5)" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-and in value position" :expected "8" :actual "(reduce bit-and [15 9 12])" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-xor in value position" :expected "0" :actual "(reduce bit-xor 0 [1 2 3])" :portability :common} - {:suite "numbers / variadic bit ops" :label "bit-or via apply" :expected "7" :actual "(apply bit-or [1 2 4])" :portability :common} - {:suite "numbers / variadic bit ops" :label "unsigned-shift over a full 64-bit value" :expected "17179869183" :actual "(unsigned-bit-shift-right -1 30)" :portability :common} + {:suite "host-interop / reify ILookup" :label "(get reify k) / (:k reify) / (get reify k d) route to valAt" :expected "[1 1 :dflt]" :actual "(let [r (reify clojure.lang.ILookup (valAt [_ k] (get {:a 1} k)) (valAt [_ k d] (get {:a 1} k d)))] [(:a r) (get r :a) (get r :z :dflt)])"} + {:suite "numbers / comparison error class" :label "nil operand is NPE, non-number is CCE" :expected "[\"java.lang.NullPointerException\" \"java.lang.ClassCastException\"]" :actual "[(try (> nil 5) (catch Throwable e (.getName (class e)))) (try (> :k 5) (catch Throwable e (.getName (class e))))]"} + {:suite "reader / quoted #inst constructs a value" :label "a quoted #inst literal is the constructed Date, not a tagged form" :expected "\"(f #inst \\\"1939-01-01T00:00:00.000-00:00\\\")\"" :actual "(pr-str (quote (f #inst \"1939\")))"} + {:suite "fn / kwargs trailing map" :label "(f :k v {map}) and (f {map}) both bind & {:as m}" :expected "[{:x 1 :y 2} {:x 1 :y 2}]" :actual "[((fn [a & {:as m}] m) 1 :x 1 {:y 2}) ((fn [a & {:as m}] m) 1 {:x 1 :y 2})]"} + {:suite "destructure / :or" :label "map default when key absent" :expected "9" :actual "(let [{x :x :or {x 9}} {}] x)"} + {:suite "destructure / :or" :label "kwargs default when key absent" :expected "9" :actual "((fn [& {x :x :or {x 9}}] x))"} + {:suite "destructure / :or" :label "default not used when key present" :expected "5" :actual "(let [{x :x :or {x 9}} {:x 5}] x)"} + {:suite "deftype / field access" :label ".field reads a deftype field" :expected "7" :actual "(do (deftype FldT [q]) (.q (->FldT 7)))"} + {:suite "fn / pre-post" :label ":pre + :post pass" :expected "5" :actual "(do (defn ppf [x] {:pre [(pos? x)] :post [(= % x)]} x) (ppf 5))"} + {:suite "fn / pre-post" :label ":pre failure throws" :expected ":blocked" :actual "(do (defn ppg [x] {:pre [(pos? x)]} x) (try (ppg -1) (catch Throwable _ :blocked)))"} + {:suite "deftype / map-like dispatch" :label "dissoc + keys via IPersistentMap/Seqable methods" :expected "[:b]" :actual "(do (deftype MapT [m] clojure.lang.Seqable (seq [_] (seq m)) clojure.lang.IPersistentMap (without [_ k] (->MapT (dissoc m k))) (assoc [_ k v] (->MapT (assoc m k v)))) (vec (keys (dissoc (->MapT {:a 1 :b 2}) :a))))"} + {:suite "delay / exception memoization" :label "throwing body runs once, stays realized, re-throws" :expected "[1 true]" :actual "(let [n (atom 0) d (delay (swap! n inc) (throw (ex-info \"e\" {})))] (dotimes [_ 3] (try (deref d) (catch Throwable _ nil))) [(deref n) (realized? d)])"} + {:suite "queue / pop" :label "pop of empty PersistentQueue returns empty" :expected "nil" :actual "(seq (pop clojure.lang.PersistentQueue/EMPTY))"} + {:suite "interop / iterator-seq" :label "iterator-seq over .iterator" :expected "[:a :b]" :actual "(vec (iterator-seq (.iterator [:a :b])))"} + {:suite "deftype / IPersistentStack" :label "peek/pop dispatch" :expected "[1 [2 3]]" :actual "(do (deftype Stk [v] clojure.lang.IPersistentStack (peek [_] (first v)) (pop [_] (->Stk (rest v)))) [(peek (->Stk [1 2 3])) (vec (.v (pop (->Stk [1 2 3]))))])"} + {:suite "deftype / equiv" :label "(= deftype other) uses equiv method" :expected "true" :actual "(do (deftype EqT [m] clojure.lang.IPersistentCollection (equiv [_ o] (= o m)) clojure.lang.Seqable (seq [_] (seq m))) (= (->EqT {:a 1}) {:a 1}))"} + {:suite "deftype / IDeref" :label "@ dispatches to the deref method" :expected "7" :actual "(do (deftype Box [v] clojure.lang.IDeref (deref [_] v)) (deref (->Box 7)))"} + {:suite "reify / IDeref" :label "@ dispatches to the deref method" :expected "7" :actual "(deref (reify clojure.lang.IDeref (deref [_] 7)))"} + {:suite "deftype / mutable field" :label "set! is observed by a later read in the same method" :expected "9" :actual "(do (deftype B [^:unsynchronized-mutable v] clojure.lang.IDeref (deref [_] (set! v 9) v)) (deref (->B 0)))"} + {:suite "def / metadata evaluation" :label "a symbol metadata value evaluates to its var" :expected "true" :actual "(do (def ^{:af rest} mv 1) (fn? (:af (meta (var mv)))))"} + {:suite "def / metadata evaluation" :label "an expression metadata value is evaluated" :expected "3" :actual "(do (def ^{:k (+ 1 2)} mv2 1) (:k (meta (var mv2))))"} + {:suite "interop / class ancestry" :label "(ancestors (class fn)) includes a callable interface" :expected "true" :actual "(boolean (some #{java.lang.Runnable java.util.concurrent.Callable} (ancestors (class identity))))"} + {:suite "interop / AssertionError" :label "construct + catch as Throwable" :expected "\"boom\"" :actual "(try (throw (AssertionError. \"boom\")) (catch Throwable e (.getMessage e)))"} + {:suite "try / multi-catch" :label "dispatches to the matching class clause, not the first" :expected ":rte" :actual "(try (throw (RuntimeException. \"x\")) (catch NullPointerException _ :npe) (catch RuntimeException _ :rte) (catch Exception _ :exc))"} + {:suite "try / multi-catch" :label "Error is not caught by an Exception clause" :expected ":thr" :actual "(try (throw (Error. \"e\")) (catch Exception _ :exc) (catch Throwable _ :thr))"} + {:suite "try / multi-catch" :label "no matching clause re-throws to an outer catch" :expected ":outer" :actual "(try (try (throw (RuntimeException. \"x\")) (catch NullPointerException _ :npe)) (catch Exception _ :outer))"} + {:suite "try / multi-catch" :label "a host condition is caught by its RuntimeException subclass" :expected ":arith" :actual "(try (/ 1 0) (catch ArithmeticException _ :arith) (catch Throwable _ :other))"} + {:suite "locking" :label "returns the body value" :expected "42" :actual "(let [o (Object.)] (locking o 42))"} + {:suite "locking" :label "reentrant on the same object" :expected "42" :actual "(let [o (Object.)] (locking o (locking o 42)))"} + {:suite "defn / docstring" :label "leading docstring becomes :doc metadata" :expected "\"the docs\"" :actual "(do (defn dd \"the docs\" [x] x) (:doc (meta (var dd))))"} + {:suite "assert" :label "failed assert throws AssertionError" :expected ":ae" :actual "(try (assert false) (catch AssertionError _ :ae))"} + {:suite "fn / pre-post" :label ":pre failure throws AssertionError" :expected ":caught" :actual "(do (defn pp [x] {:pre [(pos? x)]} x) (try (pp -1) (catch AssertionError _ :caught)))"} + {:suite "interop / Seqable" :label "a vector is Seqable but not an ISeq" :expected "[true false]" :actual "[(instance? clojure.lang.Seqable [1 2 3]) (instance? clojure.lang.ISeq [1 2 3])]"} + {:suite "interop / Seqable" :label "a map is Seqable" :expected "true" :actual "(instance? clojure.lang.Seqable {:a 1})"} + {:suite "extend-protocol / class value" :label "extend to (Class/forName \"[B\") dispatches a byte-array" :expected "[:ba :str]" :actual "(do (defprotocol P (m [x])) (extend-protocol P (Class/forName \"[B\") (m [bs] :ba) String (m [s] :str)) [(m (byte-array 1)) (m \"x\")])"} + {:suite "interop / ByteBuffer" :label "wrap then remaining + array" :expected "[3 [1 2 3]]" :actual "(let [bb (java.nio.ByteBuffer/wrap (byte-array [1 2 3]))] [(.remaining bb) (vec (.array bb))])"} + {:suite "interop / ByteBuffer" :label "get drains into a byte-array" :expected "[1 2]" :actual "(let [bb (java.nio.ByteBuffer/wrap (byte-array [1 2])) d (byte-array 2)] (.get bb d) (vec d))"} + {:suite "interop / Arrays" :label "equals on byte arrays" :expected "true" :actual "(java.util.Arrays/equals (byte-array [1 2 3]) (byte-array [1 2 3]))"} + {:suite "interop / Arrays" :label "equals on unequal byte arrays" :expected "false" :actual "(java.util.Arrays/equals (byte-array [1 2]) (byte-array [1 9]))"} + {:suite "interop / URI" :label "URI/create static factory" :expected "\"x.com\"" :actual "(.getHost (java.net.URI/create \"http://x.com/p\"))"} + {:suite "interop / Thread" :label "start + join runs the thunk" :expected "7" :actual "(let [a (atom 0) t (Thread. (fn [] (reset! a 7)))] (.start t) (.join t) (deref a))"} + {:suite "interop / CountDownLatch" :label "countDown to zero, await returns" :expected "0" :actual "(let [l (java.util.concurrent.CountDownLatch. 1)] (.countDown l) (.await l) (.getCount l))"} + {:suite "interop / SoftReference" :label "get returns the referent" :expected ":v" :actual "(.get (java.lang.ref.SoftReference. :v))"} + {:suite "interop / System.gc" :label "gc runs and returns" :expected "42" :actual "(do (System/gc) 42)"} + {:suite "interop / ConcurrentHashMap" :label "put + get/count/contains?" :expected "[1 1 true]" :actual "(let [m (java.util.concurrent.ConcurrentHashMap.)] (.put m :a 1) [(get m :a) (count m) (contains? m :a)])"} + {:suite "interop / Class.forName" :label "unknown class throws ClassNotFoundException" :expected ":nf" :actual "(try (Class/forName \"no.such.Klass\") (catch ClassNotFoundException _ :nf))"} + {:suite "interop / Class.forName" :label "known class resolves" :expected "\"java.lang.String\"" :actual "(.getName (Class/forName \"java.lang.String\"))"} + {:suite "clojure.string / replace" :label "char match and replacement" :expected "\"a-b-c\"" :actual "(clojure.string/replace \"a/b/c\" \\/ \\-)"} + {:suite "clojure.string / replace" :label "char match, string replacement" :expected "\"x_y\"" :actual "(clojure.string/replace \"x.y\" \\. \"_\")"} + {:suite "interop-fixes / deprecated #^ metadata reader" :label "#^ type hint on a param" :expected "\"x\"" :actual "(do (defn f1 [#^String s] s) (f1 \"x\"))"} + {:suite "interop-fixes / deprecated #^ metadata reader" :label "#^\"[B\" array hint" :expected "[1 2]" :actual "(do (defn f2 [#^\"[B\" b] b) (f2 [1 2]))"} + {:suite "interop-fixes / deprecated #^ metadata reader" :label "#^ is equivalent to ^" :expected "true" :actual "(= (meta (with-meta [] {:tag (quote String)})) {:tag (quote String)})"} + {:suite "interop-fixes / (str pattern) yields raw source" :label "str of a regex" :expected "\"abc\"" :actual "(str #\"abc\")"} + {:suite "interop-fixes / (str pattern) yields raw source" :label "compose patterns via str" :expected "true" :actual "(boolean (re-matches (re-pattern (str #\"<\" \"(.*)\" \">\")) \"\"))"} + {:suite "interop-fixes / into onto a map" :label "merges map items" :expected "true" :actual "(= {:a 1 :b 2} (into {} [{:a 1} {:b 2}]))"} + {:suite "interop-fixes / into onto a map" :label "accepts [k v] pairs" :expected "true" :actual "(= {:a 1} (into {} [[:a 1]]))"} + {:suite "interop-fixes / into onto a map" :label "map item onto empty {}" :expected "true" :actual "(= {:x 1} (into {} (list {:x 1})))"} + {:suite "interop-fixes / into onto a map" :label "conj a map onto {}" :expected "true" :actual "(= {:a 1} (conj {} {:a 1}))"} + {:suite "interop-fixes / a var is callable as its value" :label "call a var directly" :expected "42" :actual "(do (def vf (fn [x] (inc x))) ((var vf) 41))"} + {:suite "interop-fixes / a var is callable as its value" :label "var bound as a client fn" :expected "\"ok\"" :actual "(do (def base (fn [_] \"ok\")) (def mw (fn [client] (fn [req] (client req)))) ((mw (var base)) {}))"} + {:suite "control / conditionals" :label "if true" :expected "1" :actual "(if true 1 2)"} + {:suite "control / conditionals" :label "if false" :expected "2" :actual "(if false 1 2)"} + {:suite "control / conditionals" :label "if nil is false" :expected "2" :actual "(if nil 1 2)"} + {:suite "control / conditionals" :label "if no else" :expected "nil" :actual "(if false 1)"} + {:suite "control / conditionals" :label "when true" :expected "3" :actual "(when true 1 2 3)"} + {:suite "control / conditionals" :label "when false" :expected "nil" :actual "(when false 1)"} + {:suite "control / conditionals" :label "when-not" :expected "1" :actual "(when-not false 1)"} + {:suite "control / conditionals" :label "cond" :expected ":b" :actual "(cond false :a true :b :else :c)"} + {:suite "control / conditionals" :label "cond :else" :expected ":c" :actual "(cond false :a false :b :else :c)"} + {:suite "control / conditionals" :label "cond no match" :expected "nil" :actual "(cond false :a)"} + {:suite "control / conditionals" :label "condp" :expected "\"two\"" :actual "(condp = 2 1 \"one\" 2 \"two\" \"other\")"} + {:suite "control / conditionals" :label "case" :expected ":b" :actual "(case 2 1 :a 2 :b :default)"} + {:suite "control / conditionals" :label "case default" :expected ":d" :actual "(case 9 1 :a 2 :b :d)"} + {:suite "control / conditionals" :label "case multi" :expected ":ab" :actual "(case 2 (1 2) :ab 3 :c)"} + {:suite "control / conditionals" :label "case symbol const" :expected ":s" :actual "(case 'foo foo :s :default)"} + {:suite "control / conditionals" :label "case vector const" :expected ":v" :actual "(case [1 2] [1 2] :v :default)"} + {:suite "control / conditionals" :label "case map const" :expected ":m" :actual "(case {:a 1} {:a 1} :m :default)"} + {:suite "control / conditionals" :label "case list const" :expected ":l" :actual "(case '(a b) (quote (a b)) :l :default)"} + {:suite "control / conditionals" :label "case keyword" :expected ":k" :actual "(case :x :x :k :default)"} + {:suite "control / logic" :label "and all true" :expected "3" :actual "(and 1 2 3)"} + {:suite "control / logic" :label "and short circuits" :expected "nil" :actual "(and 1 nil 3)"} + {:suite "control / logic" :label "and empty" :expected "true" :actual "(and)"} + {:suite "control / logic" :label "or first truthy" :expected "1" :actual "(or nil 1 2)"} + {:suite "control / logic" :label "or all false" :expected "false" :actual "(or nil false)"} + {:suite "control / logic" :label "or empty" :expected "nil" :actual "(or)"} + {:suite "control / logic" :label "not" :expected "false" :actual "(not true)"} + {:suite "control / let & loop" :label "let" :expected "3" :actual "(let [a 1 b 2] (+ a b))"} + {:suite "control / let & loop" :label "let sequential" :expected "3" :actual "(let [a 1 b (+ a 2)] b)"} + {:suite "control / let & loop" :label "let shadowing" :expected "2" :actual "(let [a 1] (let [a 2] a))"} + {:suite "control / let & loop" :label "letfn mutual" :expected "true" :actual "(letfn [(ev? [n] (if (zero? n) true (od? (dec n)))) (od? [n] (if (zero? n) false (ev? (dec n))))] (ev? 10))"} + {:suite "control / let & loop" :label "loop/recur" :expected "15" :actual "(loop [i 1 acc 0] (if (> i 5) acc (recur (inc i) (+ acc i))))"} + {:suite "control / let & loop" :label "when-let" :expected "2" :actual "(when-let [x 1] (inc x))"} + {:suite "control / let & loop" :label "when-let nil" :expected "nil" :actual "(when-let [x nil] (inc x))"} + {:suite "control / let & loop" :label "if-let" :expected "2" :actual "(if-let [x 1] (inc x) :none)"} + {:suite "control / let & loop" :label "if-let else" :expected ":none" :actual "(if-let [x nil] (inc x) :none)"} + {:suite "control / let & loop" :label "if-some zero" :expected "1" :actual "(if-some [x 0] (inc x) :none)"} + {:suite "control / let & loop" :label "when-some nil" :expected "nil" :actual "(when-some [x nil] x)"} + {:suite "control / conditional-binding scope" :label "if-let else sees outer" :expected "5" :actual "(let [x 5] (if-let [x nil] :then x))"} + {:suite "control / conditional-binding scope" :label "if-let then binds" :expected "7" :actual "(let [x 5] (if-let [x 7] x :else))"} + {:suite "control / conditional-binding scope" :label "if-some else sees outer" :expected "5" :actual "(let [x 5] (if-some [x nil] :then x))"} + {:suite "control / conditional-binding scope" :label "if-some binds false" :expected "false" :actual "(if-some [x false] x :else)"} + {:suite "control / conditional-binding scope" :label "when-let else via or" :expected "5" :actual "(let [x 5] (or (when-let [x nil] x) x))"} + {:suite "control / conditional-binding scope" :label "when-let multi-form body" :expected "14" :actual "(when-let [x 7] (inc x) (* x 2))"} + {:suite "control / conditional-binding scope" :label "if-let in fn param" :expected "9" :actual "((fn [xs] (if-let [xs nil] :then xs)) 9)"} + {:suite "control / conditional-binding scope" :label "when-some binds zero" :expected "1" :actual "(when-some [x 0] (inc x))"} + {:suite "control / conditional-binding scope" :label "if-let evals test once" :expected "1" :actual "(let [c (atom 0)] (if-let [v (do (swap! c inc) :v)] @c :none))"} + {:suite "control / loop lowering" :label "closure captures per-iter binding" :expected "[0 1 2]" :actual "(mapv (fn [g] (g)) (loop [i 0 fs []] (if (< i 3) (recur (inc i) (conj fs (fn [] i))) fs)))"} + {:suite "control / loop lowering" :label "fib via loop" :expected "55" :actual "(loop [a 0 b 1 i 0] (if (= i 10) a (recur b (+ a b) (inc i))))"} + {:suite "control / loop lowering" :label "recur args no clobber" :expected "[2 1]" :actual "(loop [a 1 b 2 n 0] (if (= n 1) [a b] (recur b a (inc n))))"} + {:suite "control / loop lowering" :label "nested loops" :expected "9" :actual "(loop [i 0 s 0] (if (= i 3) s (recur (inc i) (loop [j 0 t s] (if (= j 3) t (recur (inc j) (inc t)))))))"} + {:suite "control / loop lowering" :label "loop sequential init" :expected "12" :actual "(loop [a 1 b (+ a 10)] (+ a b))"} + {:suite "control / loop lowering" :label "recur through let" :expected "6" :actual "(loop [i 0 acc 0] (let [x (* i 2)] (if (< i 3) (recur (inc i) (+ acc x)) acc)))"} + {:suite "control / loop lowering" :label "fn-arity recur intact" :expected "15" :actual "((fn f [n acc] (if (zero? n) acc (recur (dec n) (+ acc n)))) 5 0)"} + {:suite "control / iteration" :label "dotimes side-effect" :expected "5" :actual "(let [a (atom 0)] (dotimes [i 5] (swap! a inc)) @a)"} + {:suite "control / iteration" :label "while" :expected "5" :actual "(let [a (atom 0)] (while (< @a 5) (swap! a inc)) @a)"} + {:suite "control / iteration" :label "for" :expected "[0 1 2]" :actual "(for [x (range 3)] x)"} + {:suite "control / iteration" :label "for nested" :expected "[[0 :a] [0 :b] [1 :a] [1 :b]]" :actual "(for [x (range 2) y [:a :b]] [x y])"} + {:suite "control / iteration" :label "for :when" :expected "[0 2 4]" :actual "(for [x (range 6) :when (even? x)] x)"} + {:suite "control / iteration" :label "for :while" :expected "[0 1 2]" :actual "(for [x (range 10) :while (< x 3)] x)"} + {:suite "control / iteration" :label "for :let" :expected "[0 1 4]" :actual "(for [x (range 3) :let [sq (* x x)]] sq)"} + {:suite "control / iteration" :label "for :let+:when" :expected "[4 6 8]" :actual "(for [x (range 5) :let [y (* x 2)] :when (> y 3)] y)"} + {:suite "control / iteration" :label "for multi :when" :expected "[[1 :a] [1 :b]]" :actual "(for [x [0 1] :when (odd? x) y [:a :b]] [x y])"} + {:suite "control / iteration" :label "for destructure" :expected "[3 7]" :actual "(for [[a b] [[1 2] [3 4]]] (+ a b))"} + {:suite "control / iteration" :label "doseq side-effect" :expected "6" :actual "(let [a (atom 0)] (doseq [x [1 2 3]] (swap! a (fn [v] (+ v x)))) @a)"} + {:suite "control / iteration" :label "doseq nested" :expected "4" :actual "(let [c (atom 0)] (doseq [x [1 2] y [10 20]] (swap! c inc)) @c)"} + {:suite "control / iteration" :label "doseq :when" :expected "[1 3]" :actual "(let [a (atom [])] (doseq [x [1 2 3] :when (odd? x)] (swap! a conj x)) @a)"} + {:suite "control / iteration" :label "doseq :while" :expected "6" :actual "(let [a (atom 0)] (doseq [x (range 10) :while (< x 4)] (swap! a + x)) @a)"} + {:suite "control / iteration" :label "doseq :let" :expected "[0 1 4]" :actual "(let [a (atom [])] (doseq [x (range 3) :let [sq (* x x)]] (swap! a conj sq)) @a)"} + {:suite "control / iteration" :label "doseq returns nil" :expected "nil" :actual "(doseq [x [1 2 3]] x)"} + {:suite "control / threading" :label "->" :expected "6" :actual "(-> 1 inc (+ 4))"} + {:suite "control / threading" :label "-> with forms" :expected "[1 2 3]" :actual "(-> [] (conj 1) (conj 2) (conj 3))"} + {:suite "control / threading" :label "->>" :expected "9" :actual "(->> [1 2 3] (map inc) (reduce +))"} + {:suite "control / threading" :label "as->" :expected "2" :actual "(as-> [0 1] x (map inc x) (reverse x) (first x))"} + {:suite "control / threading" :label "some->" :expected "2" :actual "(some-> 1 inc)"} + {:suite "control / threading" :label "some-> nil stops" :expected "nil" :actual "(some-> nil inc)"} + {:suite "control / threading" :label "some->>" :expected "[2 3]" :actual "(some->> [1 2] (map inc))"} + {:suite "control / threading" :label "cond->" :expected "2" :actual "(cond-> 1 true inc false inc)"} + {:suite "control / threading" :label "cond->>" :expected "[1 2]" :actual "(cond->> [2] true (cons 1))"} + {:suite "control / threading" :label "doto returns subject" :expected "5" :actual "(let [a (doto (atom 0) (reset! 5))] @a)"} + {:suite "deftype / custom toString" :label ".toString uses the method" :expected "\"hi\"" :actual "(do (deftype Foo [s] Object (toString [_] s)) (.toString (->Foo \"hi\")))"} + {:suite "deftype / custom toString" :label "str uses the method" :expected "\"hi\"" :actual "(do (deftype Foo [s] Object (toString [_] s)) (str (->Foo \"hi\")))"} + {:suite "deftype / custom toString" :label "str concatenation uses it" :expected "\"\"" :actual "(do (deftype Foo [s] Object (toString [_] s)) (str \"<\" (->Foo \"hi\") \">\"))"} + {:suite "deftype / custom toString" :label "computed toString" :expected "\"v=7\"" :actual "(do (deftype Boxed [v] Object (toString [_] (str \"v=\" v))) (str (->Boxed 7)))"} + {:suite "deftype / custom toString" :label "defrecord without toString keeps repr" :expected "true" :actual "(do (defrecord Bar [x]) (boolean (re-find #\"Bar\" (str (->Bar 1)))))"} + {:suite "deftype / custom toString" :label "pr-str of a defrecord is the repr" :expected "true" :actual "(do (defrecord Baz [x]) (boolean (re-find #\"\\{\" (pr-str (->Baz 1)))))"} + {:suite "destructure / sequential" :label "basic vector" :expected "3" :actual "(let [[a b] [1 2]] (+ a b))"} + {:suite "destructure / sequential" :label "skip with _" :expected "3" :actual "(let [[_ b] [1 2]] (+ b 1))"} + {:suite "destructure / sequential" :label "rest with &" :expected "[3 4]" :actual "(let [[a & more] [1 3 4]] more)"} + {:suite "destructure / sequential" :label ":as whole" :expected "[1 2]" :actual "(let [[a :as v] [1 2]] v)"} + {:suite "destructure / sequential" :label "nested" :expected "3" :actual "(let [[[a b]] [[1 2]]] (+ a b))"} + {:suite "destructure / sequential" :label "fewer values nil" :expected "nil" :actual "(let [[a b c] [1 2]] c)"} + {:suite "destructure / sequential" :label "over a list" :expected "1" :actual "(let [[a] (list 1 2)] a)"} + {:suite "destructure / sequential" :label "over a seq" :expected "2" :actual "(let [[a b] (rest [9 1 2])] b)"} + {:suite "destructure / sequential" :label "string chars" :expected "\\a" :actual "(let [[a] (seq \"ab\")] a)"} + {:suite "destructure / associative" :label "keys" :expected "3" :actual "(let [{:keys [a b]} {:a 1 :b 2}] (+ a b))"} + {:suite "destructure / associative" :label ":as map" :expected "{:a 1}" :actual "(let [{:as m} {:a 1}] m)"} + {:suite "destructure / associative" :label ":or default" :expected "9" :actual "(let [{:keys [a] :or {a 9}} {}] a)"} + {:suite "destructure / associative" :label ":or present" :expected "1" :actual "(let [{:keys [a] :or {a 9}} {:a 1}] a)"} + {:suite "destructure / associative" :label "explicit binding" :expected "1" :actual "(let [{x :a} {:a 1}] x)"} + {:suite "destructure / associative" :label "nested map" :expected "2" :actual "(let [{{b :b} :a} {:a {:b 2}}] b)"} + {:suite "destructure / associative" :label "keys + as" :expected "[1 {:a 1}]" :actual "(let [{:keys [a] :as m} {:a 1}] [a m])"} + {:suite "destructure / associative" :label "map in vector" :expected "1" :actual "(let [[{:keys [a]}] [{:a 1}]] a)"} + {:suite "destructure / in forms" :label "fn params" :expected "3" :actual "((fn [[a b]] (+ a b)) [1 2])"} + {:suite "destructure / in forms" :label "fn map param" :expected "1" :actual "((fn [{:keys [a]}] a) {:a 1})"} + {:suite "destructure / in forms" :label "defn destructure" :expected "3" :actual "(do (defn f [[a b]] (+ a b)) (f [1 2]))"} + {:suite "destructure / in forms" :label "loop destructure" :expected "3" :actual "(loop [[a b] [1 2]] (+ a b))"} + {:suite "destructure / in forms" :label "doseq destructure" :expected "12" :actual "(let [s (atom 0)] (doseq [[k v] {:a 4 :b 8}] (swap! s (fn [x] (+ x v)))) @s)"} + {:suite "destructure / in forms" :label "for destructure" :expected "[3 7]" :actual "(for [[a b] [[1 2] [3 4]]] (+ a b))"} + {:suite "destructure / in forms" :label "& rest in fn" :expected "[2 3]" :actual "((fn [a & more] more) 1 2 3)"} + {:suite "destructure / associative extras" :label ":strs" :expected "7" :actual "(let [{:strs [a]} {\"a\" 7}] a)"} + {:suite "destructure / associative extras" :label ":syms" :expected "8" :actual "(let [{:syms [a]} {(quote a) 8}] a)"} + {:suite "destructure / associative extras" :label "namespaced :keys" :expected "3" :actual "(let [{:keys [x/y]} {:x/y 3}] y)"} + {:suite "destructure / associative extras" :label "namespaced :syms" :expected "4" :actual "(let [{:syms [p/q]} {(quote p/q) 4}] q)"} + {:suite "destructure / associative extras" :label "keyword :keys" :expected "3" :actual "(let [{:keys [:a :b]} {:a 1 :b 2}] (+ a b))"} + {:suite "destructure / associative extras" :label "keyword :keys ns" :expected "3" :actual "(let [{:keys [:x/y]} {:x/y 3}] y)"} + {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs" :expected "[1 2]" :actual "(do (defn f [& {:keys [a b]}] [a b]) (f :a 1 :b 2))"} + {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs + fixed" :expected "[0 5]" :actual "(do (defn g [x & {:keys [a]}] [x a]) (g 0 :a 5))"} + {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs :or" :expected "9" :actual "(do (defn h [& {:keys [a] :or {a 9}}] a) (h))"} + {:suite "destructure / keyword args (& {:keys})" :label "fn kwargs trailing map" :expected "7" :actual "(do (defn k [& {:keys [a]}] a) (k {:a 7}))"} + {:suite "destructure / fn params & loop" :label "fn vector param" :expected "7" :actual "((fn [[a b]] (+ a b)) [3 4])"} + {:suite "destructure / fn params & loop" :label "fn map param" :expected "30" :actual "((fn [{:keys [x y]}] (* x y)) {:x 5 :y 6})"} + {:suite "destructure / fn params & loop" :label "fn :or param" :expected "7" :actual "((fn [{:keys [x] :or {x 7}}] x) {})"} + {:suite "destructure / fn params & loop" :label "fn multi-arity destr" :expected "15" :actual "((fn ([[a]] a) ([[a] b] (+ a b))) [10] 5)"} + {:suite "destructure / fn params & loop" :label "loop vector binding" :expected "[4 2]" :actual "(loop [[a b] [1 2] n 0] (if (< n 3) (recur [(inc a) b] (inc n)) [a b]))"} + {:suite "destructure / fn params & loop" :label "loop map binding" :expected "4" :actual "(loop [{:keys [v]} {:v 1} n 0] (if (< n 2) (recur {:v (* v 2)} (inc n)) v))"} + {:suite "destructure / fn params & loop" :label "loop init sees destr" :expected "[1 2 3]" :actual "(loop [[a b] [1 2] c (+ a b)] [a b c])"} + {:suite "destructure / primitives reject patterns" :label "fn* fixed pattern" :expected :throws :actual "((fn* [[a b]] a) [1 2])"} + {:suite "destructure / primitives reject patterns" :label "fn* rest pattern" :expected :throws :actual "((fn* [a & [b]] b) 1 2 3)"} + {:suite "destructure / primitives reject patterns" :label "let* pattern" :expected :throws :actual "(let* [[a b] [1 2]] a)"} + {:suite "destructure / primitives reject patterns" :label "loop* pattern" :expected :throws :actual "(loop* [[a b] [1 2]] a)"} + {:suite "destructure / primitives reject patterns" :label "fn desugars" :expected "[1 2]" :actual "((fn [[a b]] [a b]) [1 2])"} + {:suite "destructure / primitives reject patterns" :label "let desugars" :expected "[1 2]" :actual "(let [[a b] [1 2]] [a b])"} + {:suite "destructure / macro params" :label "macro & [a & more :as all]" :expected "[1 [2 3] [1 2 3]]" :actual "(do (defmacro m [& [a & more :as all]] (list (quote quote) [a (vec more) (vec all)])) (m 1 2 3))"} + {:suite "destructure / macro params" :label "macro fixed destructure" :expected "[2 1]" :actual "(do (defmacro mm [[a b]] (list (quote quote) [b a])) (mm [1 2]))"} + {:suite "destructure / macro params" :label "macro & {:keys}" :expected "5" :actual "(do (defmacro mk [& {:keys [x]}] (list (quote quote) x)) (mk :x 5))"} + {:suite "exceptions / try-catch" :label "catch :default" :expected ":caught" :actual "(try (throw (ex-info \"boom\" {})) (catch :default e :caught))"} + {:suite "exceptions / try-catch" :label "catch by class" :expected ":caught" :actual "(try (throw (ex-info \"boom\" {})) (catch Exception e :caught))"} + {:suite "exceptions / try-catch" :label "catch binds error" :expected "\"boom\"" :actual "(try (throw (ex-info \"boom\" {})) (catch :default e (ex-message e)))"} + {:suite "exceptions / try-catch" :label "no throw -> body" :expected "1" :actual "(try 1 (catch :default e :caught))"} + {:suite "exceptions / try-catch" :label "finally runs on ok" :expected "2" :actual "(let [a (atom 0)] (try 2 (finally (reset! a 9))) )"} + {:suite "exceptions / try-catch" :label "finally runs on throw" :expected "9" :actual "(let [a (atom 0)] (try (throw (ex-info \"x\" {})) (catch :default e nil) (finally (reset! a 9))) @a)"} + {:suite "exceptions / try-catch" :label "catch value of body" :expected "5" :actual "(try (+ 2 3) (catch :default e 0))"} + {:suite "exceptions / try-catch" :label "malformed catch: non-symbol binding" :expected :throws :actual "(try 1 (catch e (* e 10)))"} + {:suite "exceptions / try-catch" :label "malformed catch: literal binding" :expected :throws :actual "(try 1 (catch e 5))"} + {:suite "exceptions / try-catch" :label "malformed catch: too short" :expected :throws :actual "(try 1 (catch Exception))"} + {:suite "exceptions / assert" :label "assert true -> ok" :expected ":ok" :actual "(do (assert true) :ok)"} + {:suite "exceptions / assert" :label "assert expr -> ok" :expected ":ok" :actual "(do (assert (= 1 1)) :ok)"} + {:suite "exceptions / assert" :label "assert false throws" :expected :throws :actual "(assert false)"} + {:suite "exceptions / assert" :label "assert nil throws" :expected :throws :actual "(assert nil)"} + {:suite "exceptions / ex-info" :label "ex-message" :expected "\"oops\"" :actual "(ex-message (ex-info \"oops\" {}))"} + {:suite "exceptions / ex-info" :label "ex-data" :expected "{:k 1}" :actual "(ex-data (ex-info \"oops\" {:k 1}))"} + {:suite "exceptions / ex-info" :label "ex-data via catch" :expected "{:code 42}" :actual "(try (throw (ex-info \"e\" {:code 42})) (catch :default e (ex-data e)))"} + {:suite "exceptions / ex-info" :label "ex-cause" :expected "true" :actual "(let [c (ex-info \"root\" {})] (= c (ex-cause (ex-info \"outer\" {} c))))"} + {:suite "exceptions / ex-info" :label "propagates to outer" :expected "\"inner\"" :actual "(try (try (throw (ex-info \"inner\" {})) (finally nil)) (catch :default e (ex-message e)))"} + {:suite "exceptions / ex-info" :label "catch binds thrown value" :expected "42" :actual "(try (throw 42) (catch :default e e))"} + {:suite "exceptions / ex-info" :label "rethrow preserves ex" :expected "\"inner\"" :actual "(try (try (throw (ex-info \"inner\" {})) (catch :default e (throw e))) (catch :default e (ex-message e)))"} + {:suite "exceptions / ex-info" :label "ex-data on non-ex" :expected "nil" :actual "(ex-data 42)"} + {:suite "exceptions / ex-info" :label "ex-cause on non-ex" :expected "nil" :actual "(ex-cause {:k 1})"} + {:suite "exceptions / ex-info" :label "ex-message of string" :expected "nil" :actual "(ex-message \"hi\")"} + {:suite "forms / case" :label "bool" :expected ":yes" :actual "(case true true :yes false :no :default)"} + {:suite "forms / case" :label "keyword match" :expected ":b" :actual "(case :a :x :wrong :a :b :default)"} + {:suite "forms / case" :label "number match" :expected ":two" :actual "(case 2 1 :one 2 :two :default)"} + {:suite "forms / case" :label "string match" :expected ":hit" :actual "(case \"x\" \"y\" :miss \"x\" :hit :default)"} + {:suite "forms / case" :label "nil match" :expected ":nada" :actual "(case nil nil :nada :default)"} + {:suite "forms / case" :label "default" :expected ":def" :actual "(case 99 1 :one 2 :two :def)"} + {:suite "forms / case" :label "list of consts" :expected ":vowel" :actual "(case \\a (\\a \\e \\i \\o \\u) :vowel :consonant)"} + {:suite "forms / case" :label "no match no default" :expected :throws :actual "(case 5 1 :one)"} + {:suite "forms / case" :label "duplicate keys" :expected :throws :actual "(case 1 1 :one 1 :dup :default)"} + {:suite "forms / case" :label "duplicate in or-group" :expected :throws :actual "(case 2 (1 2) :a (2 3) :b :default)"} + {:suite "forms / fn" :label "named fn nil" :expected "nil" :actual "((fn* foo-bar []))"} + {:suite "forms / fn" :label "immediate call" :expected "1" :actual "((fn* [] 1))"} + {:suite "forms / fn" :label "args" :expected "[:a :b]" :actual "((fn* [a b] [a b]) :a :b)"} + {:suite "forms / fn" :label "multi-arity 0" :expected "0" :actual "(do (def add (fn* ([] 0) ([a] a) ([a b] (+ a b)))) (add))"} + {:suite "forms / fn" :label "multi-arity 1" :expected "-500" :actual "(do (def add (fn* ([] 0) ([a] a) ([a b] (+ a b)))) (add -500))"} + {:suite "forms / fn" :label "multi-arity 2" :expected "-450" :actual "(do (def add (fn* ([] 0) ([a] a) ([a b] (+ a b)))) (add -500 50))"} + {:suite "forms / fn" :label "variadic rest" :expected "[3 4]" :actual "(do (def v (fn* ([a b & args] args) ([] 0))) (v 1 2 3 4))"} + {:suite "forms / fn" :label "variadic empty" :expected "0" :actual "(do (def v (fn* ([a b & args] args) ([] 0))) (v))"} + {:suite "forms / fn" :label "variadic collect" :expected "[{} nil :m]" :actual "((fn* [a b & args] args) 'w 't {} nil :m)"} + {:suite "forms / fn" :label "closure capture" :expected "8" :actual "(do (def adder (fn* [n] (fn* [x] (+ x n)))) ((adder 5) 3))"} + {:suite "forms / fn" :label "recur countdown" :expected "0" :actual "(do (def cd (fn* [n] (if (< 0 n) (recur (+ n -1)) n))) (cd 10))"} + {:suite "forms / fn" :label "named self-recur" :expected "120" :actual "(do (def f (fn* fact [n] (if (= n 0) 1 (* n (fact (dec n)))))) (f 5))"} + {:suite "forms / fn" :label "no param vector" :expected :throws :actual "(fn* foo)"} + {:suite "forms / fn" :label "non-symbol param" :expected :throws :actual "(fn* [1] 1)"} + {:suite "forms / let" :label "literal" :expected "1" :actual "(let* [a 1] a)"} + {:suite "forms / let" :label "multiple" :expected "[1 2]" :actual "(let* [a 1 b 2] [a b])"} + {:suite "forms / let" :label "previous ref" :expected ":bee" :actual "(let* [a 1 b (if (= 1 a) :bee :uh-oh)] b)"} + {:suite "forms / let" :label "nested let" :expected "3" :actual "(let* [a 5 b (let* [c -2] (+ a c))] b)"} + {:suite "forms / let" :label "fn value bound" :expected "\":foo\"" :actual "(let* [kw->str (fn* [kw] (str kw))] (kw->str :foo))"} + {:suite "forms / let" :label "shadowing" :expected "2" :actual "(let* [a 1 a 2] a)"} + {:suite "forms / letfn" :label "mutual top" :expected "[1 2]" :actual "(letfn [(a [] 1) (b [] 2)] [(a) (b)])"} + {:suite "forms / letfn" :label "mutual recursion" :expected ":done" :actual "(letfn [(ev? [n] (if (= 0 n) :done (od? (dec n)))) (od? [n] (ev? n))] (ev? 4))"} + {:suite "forms / letfn" :label "nested letfn" :expected "3" :actual "(letfn [(a [] 5) (b [] (letfn [(c [] -2)] (+ (a) (c))))] (b))"} + {:suite "forms / loop" :label "sum" :expected "55" :actual "(loop* [sum 0 cnt 10] (if (= cnt 0) sum (recur (+ cnt sum) (dec cnt))))"} + {:suite "forms / loop" :label "multi binding" :expected "[4 2]" :actual "(loop* [a 1 b 2 n 0] (if (< n 3) (recur (inc a) b (inc n)) [a b]))"} + {:suite "forms / loop" :label "init sees prior" :expected "[1 2 3]" :actual "(loop* [a 1 b (+ a 1) c (+ b 1)] [a b c])"} + {:suite "forms / try" :label "immediate throw caught" :expected ":caught" :actual "(try (throw :boom) (catch :default e :caught))"} + {:suite "forms / try" :label "first throw wins" :expected "\"a\"" :actual "(try (throw (ex-info \"a\" {})) (throw (ex-info \"b\" {})) (catch :default e (ex-message e)))"} + {:suite "forms / try" :label "catch ex-data" :expected "7" :actual "(try (throw (ex-info \"e\" {:v 7})) (catch :default e (:v (ex-data e))))"} + {:suite "forms / try" :label "finally runs" :expected "9" :actual "(let [a (atom 0)] (try 1 (finally (reset! a 9))) @a)"} + {:suite "forms / try" :label "body value w/ finally" :expected "1" :actual "(try 1 (finally 2))"} + {:suite "forms / try" :label "catch value w/ finally" :expected ":h" :actual "(try (throw (ex-info \"x\" {})) (catch :default e :h) (finally :ignored))"} + {:suite "forms / try" :label "no throw skips catch" :expected "5" :actual "(try 5 (catch :default e :nope))"} + {:suite "forms / if-do-def-call" :label "if truthy vec" :expected ":fine" :actual "(if [:ok] :fine :no)"} + {:suite "forms / if-do-def-call" :label "if truthy str" :expected ":fine" :actual "(if \"good?\" :fine :no)"} + {:suite "forms / if-do-def-call" :label "if nil = false" :expected ":else" :actual "(if nil :then :else)"} + {:suite "forms / if-do-def-call" :label "if no else" :expected "nil" :actual "(if false 1)"} + {:suite "forms / if-do-def-call" :label "do nested" :expected "1" :actual "(do (do (do (do 1))))"} + {:suite "forms / if-do-def-call" :label "do returns last" :expected "3" :actual "(do 1 2 3)"} + {:suite "forms / if-do-def-call" :label "def + deref var" :expected "true" :actual "(var? (def one 1))"} + {:suite "forms / if-do-def-call" :label "def no init interns var" :expected "true" :actual "(var? (def no-init))"} + {:suite "forms / if-do-def-call" :label "def no init keeps existing root" :expected "7" :actual "(do (def kept 7) (def kept) kept)"} + {:suite "forms / if-do-def-call" :label "declare interns var" :expected "true" :actual "(do (declare fwd-declared) (var? (var fwd-declared)))"} + {:suite "forms / if-do-def-call" :label "def redefine" :expected "100" :actual "(do (def one 1) (def one 100) one)"} + {:suite "forms / if-do-def-call" :label "def in fn mutates" :expected "[:default :meow]" :actual "(do (def a :default) (def set-a (fn* [v] (def a v))) (let* [before a] (set-a :meow) [before a]))"} + {:suite "forms / if-do-def-call" :label "call literal fn" :expected "1" :actual "((fn* [] 1))"} + {:suite "forms / if-do-def-call" :label "call nested" :expected "6" :actual "(+ ((fn* [] 1)) ((fn* [] 2)) ((fn* [] 3)))"} + {:suite "forms / if-do-def-call" :label "call nil" :expected :throws :actual "(nil)"} + {:suite "forms / if arity (X1)" :label "bare if throws" :expected :throws :actual "(if)"} + {:suite "forms / if arity (X1)" :label "one-arg if throws" :expected :throws :actual "(if true)"} + {:suite "forms / if arity (X1)" :label "four-arg if throws" :expected :throws :actual "(if true 1 2 3)"} + {:suite "forms / if arity (X1)" :label "two-arg if ok" :expected "nil" :actual "(if false 1)"} + {:suite "forms / if arity (X1)" :label "three-arg if ok" :expected "2" :actual "(if false 1 2)"} + {:suite "functions / definition" :label "fn literal" :expected "3" :actual "((fn [a b] (+ a b)) 1 2)"} + {:suite "functions / definition" :label "fn shorthand" :expected "3" :actual "(#(+ %1 %2) 1 2)"} + {:suite "functions / definition" :label "fn shorthand %" :expected "2" :actual "(#(inc %) 1)"} + {:suite "functions / definition" :label "defn" :expected "5" :actual "(do (defn f [x] (+ x 2)) (f 3))"} + {:suite "functions / definition" :label "multi-arity" :expected "[1 5]" :actual "(do (defn f ([x] x) ([x y] (+ x y))) [(f 1) (f 2 3)])"} + {:suite "functions / definition" :label "variadic" :expected "[1 2 3]" :actual "(do (defn f [& xs] xs) (f 1 2 3))"} + {:suite "functions / definition" :label "variadic with fixed" :expected "[1 [2 3]]" :actual "(do (defn f [a & xs] [a xs]) (f 1 2 3))"} + {:suite "functions / definition" :label "named fn-literal self-recursion (direct self-call)" :expected "3628800" :actual "((fn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) 10)"} + {:suite "functions / definition" :label "defn self-recursion" :expected "832040" :actual "(do (defn fib [n] (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))) (fib 30))"} + {:suite "functions / definition" :label "multi-arity self-recursion" :expected "15" :actual "(do (defn sum ([xs] (sum xs 0)) ([xs a] (if (seq xs) (sum (rest xs) (+ a (first xs))) a))) (sum [1 2 3 4 5]))"} + {:suite "functions / definition" :label "variadic self-recursion" :expected "10" :actual "(do (defn g [& xs] (if (next xs) (apply g (cons (+ (first xs) (second xs)) (nnext xs))) (first xs))) (g 1 2 3 4))"} + {:suite "functions / definition" :label "closure captures" :expected "8" :actual "(do (defn adder [n] (fn [x] (+ x n))) ((adder 5) 3))"} + {:suite "functions / definition" :label "recursion" :expected "120" :actual "(do (defn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) (fact 5))"} + {:suite "functions / definition" :label "named fn self-ref" :expected "120" :actual "((fn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) 5)"} + {:suite "functions / definition" :label "param named `in`" :expected "1" :actual "((fn [in] (first in)) [1 2 3])"} + {:suite "functions / definition" :label "param `in` via core fn" :expected "3" :actual "((fn [in] (count in)) [1 2 3])"} + {:suite "functions / definition" :label "local `in` in let body" :expected "2" :actual "(let [in [2 3]] (first in))"} + {:suite "functions / application" :label "apply" :expected "6" :actual "(apply + [1 2 3])"} + {:suite "functions / application" :label "apply with leading" :expected "10" :actual "(apply + 1 2 [3 4])"} + {:suite "functions / application" :label "apply keyword" :expected "1" :actual "(apply :a [{:a 1}])"} + {:suite "functions / application" :label "partial" :expected "7" :actual "((partial + 5) 2)"} + {:suite "functions / application" :label "partial multi" :expected "10" :actual "((partial + 1 2) 3 4)"} + {:suite "functions / application" :label "comp" :expected "4" :actual "((comp inc inc) 2)"} + {:suite "functions / application" :label "comp order" :expected "5" :actual "((comp inc (fn [x] (* x 2))) 2)"} + {:suite "functions / application" :label "comp identity" :expected "3" :actual "((comp) 3)"} + {:suite "functions / application" :label "complement" :expected "true" :actual "((complement even?) 3)"} + {:suite "functions / application" :label "constantly" :expected "5" :actual "((constantly 5) 1 2 3)"} + {:suite "functions / application" :label "identity" :expected "7" :actual "(identity 7)"} + {:suite "functions / combinators" :label "juxt" :expected "[1 3]" :actual "((juxt first last) [1 2 3])"} + {:suite "functions / combinators" :label "fnil" :expected "1" :actual "((fnil inc 0) nil)"} + {:suite "functions / combinators" :label "fnil passes value" :expected "6" :actual "((fnil inc 0) 5)"} + {:suite "functions / combinators" :label "every-pred true" :expected "true" :actual "((every-pred pos? even?) 4)"} + {:suite "functions / combinators" :label "every-pred false" :expected "false" :actual "((every-pred pos? even?) 3)"} + {:suite "functions / combinators" :label "some-fn" :expected "true" :actual "((some-fn even? neg?) 3 4)"} + {:suite "functions / combinators" :label "memoize" :expected "2" :actual "(do (def c (atom 0)) (def f (memoize (fn [x] (swap! c inc) x))) (f 1) (f 1) (f 2) @c)"} + {:suite "functions / combinators" :label "trampoline" :expected "10" :actual "(trampoline (fn f [n acc] (if (zero? n) acc (fn [] (f (dec n) (+ acc 2))))) 5 0)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "complement true" :expected "true" :actual "((complement pos?) -1)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "complement false" :expected "false" :actual "((complement pos?) 1)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "complement multi" :expected "true" :actual "((complement <) 3 2)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil patches nil" :expected "1" :actual "((fnil inc 0) nil)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil passes non-nil" :expected "6" :actual "((fnil inc 0) 5)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil two defaults" :expected "8" :actual "((fnil + 1 2) nil nil 5)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil only first 3" :expected "[:a :b :c nil]" :actual "((fnil vector :a :b :c) nil nil nil nil)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "fnil in update" :expected "{:k 1}" :actual "(update {} :k (fnil inc 0))"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "clojure-version" :expected "true" :actual "(string? (clojure-version))"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "bigdec" :expected "3M" :actual "(bigdec 3)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "numerator throws" :expected :throws :actual "(numerator 1)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "denominator throws" :expected :throws :actual "(denominator 1)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "supers empty set" :expected "#{}" :actual "(supers 1)"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "munge dashes" :expected "\"a_b\"" :actual "(munge \"a-b\")"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "munge symbol" :expected "(quote x_y)" :actual "(munge (quote x-y))"} + {:suite "clojure.core / leaf batch (complement fnil munge etc.)" :label "test no-test" :expected ":no-test" :actual "(test (quote foo))"} + {:suite "clojure.core / leaf batch 2" :label "key" :expected "1" :actual "(key (first {1 :a}))"} + {:suite "clojure.core / leaf batch 2" :label "val" :expected ":a" :actual "(val (first {1 :a}))"} + {:suite "clojure.core / leaf batch 2" :label "key non-entry throws" :expected :throws :actual "(key 5)"} + {:suite "clojure.core / leaf batch 2" :label "find hit" :expected "[:a 1]" :actual "(find {:a 1} :a)"} + {:suite "clojure.core / leaf batch 2" :label "find miss" :expected "nil" :actual "(find {:a 1} :b)"} + {:suite "clojure.core / leaf batch 2" :label "find nil value" :expected "[:a nil]" :actual "(find {:a nil} :a)"} + {:suite "clojure.core / leaf batch 2" :label "find on vector" :expected "[0 :x]" :actual "(find [:x :y] 0)"} + {:suite "clojure.core / leaf batch 2" :label "select-keys" :expected "{:a 1}" :actual "(select-keys {:a 1 :b 2} [:a])"} + {:suite "clojure.core / leaf batch 2" :label "select-keys nil val" :expected "{:a nil}" :actual "(select-keys {:a nil :b 2} [:a])"} + {:suite "clojure.core / leaf batch 2" :label "select-keys missing" :expected "{}" :actual "(select-keys {:a 1} [:z])"} + {:suite "clojure.core / leaf batch 2" :label "zipmap" :expected "{:a 1, :b 2}" :actual "(zipmap [:a :b] [1 2])"} + {:suite "clojure.core / leaf batch 2" :label "zipmap uneven" :expected "{:a 1}" :actual "(zipmap [:a :b] [1])"} + {:suite "clojure.core / leaf batch 2" :label "zipmap nil val" :expected "{:a nil}" :actual "(zipmap [:a] [nil])"} + {:suite "clojure.core / leaf batch 2" :label "merge" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} {:b 2})"} + {:suite "clojure.core / leaf batch 2" :label "merge later wins" :expected "{:a 2}" :actual "(merge {:a 1} {:a 2})"} + {:suite "clojure.core / leaf batch 2" :label "merge nil arg" :expected "{:a 1}" :actual "(merge {:a 1} nil)"} + {:suite "clojure.core / leaf batch 2" :label "merge nil first" :expected "{:a 1}" :actual "(merge nil {:a 1})"} + {:suite "clojure.core / leaf batch 2" :label "merge all nil" :expected "nil" :actual "(merge nil nil)"} + {:suite "clojure.core / leaf batch 2" :label "merge empty" :expected "nil" :actual "(merge)"} + {:suite "clojure.core / leaf batch 2" :label "merge entry pair" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} [:b 2])"} + {:suite "clojure.core / leaf batch 2" :label "merge-with" :expected "{:a 3}" :actual "(merge-with + {:a 1} {:a 2})"} + {:suite "clojure.core / leaf batch 2" :label "merge-with disjoint" :expected "{:a 1, :b 2}" :actual "(merge-with + {:a 1} {:b 2})"} + {:suite "clojure.core / leaf batch 2" :label "merge-with nil-val present" :expected "{:a 1}" :actual "(merge-with (fn [a b] (or a b)) {:a nil} {:a 1})"} + {:suite "clojure.core / leaf batch 2" :label "get-in" :expected "1" :actual "(get-in {:a {:b 1}} [:a :b])"} + {:suite "clojure.core / leaf batch 2" :label "get-in missing" :expected ":nf" :actual "(get-in {:a 1} [:z :y] :nf)"} + {:suite "clojure.core / leaf batch 2" :label "get-in nil value present" :expected "nil" :actual "(get-in {:a {:b nil}} [:a :b] :nf)"} + {:suite "clojure.core / leaf batch 2" :label "get-in empty path" :expected "{:a 1}" :actual "(get-in {:a 1} [])"} + {:suite "clojure.core / leaf batch 2" :label "memoize" :expected "2" :actual "(do (def c (atom 0)) (def f (memoize (fn [x] (swap! c inc) x))) (f 1) (f 1) (f 2) (deref c))"} + {:suite "clojure.core / leaf batch 2" :label "memoize caches nil" :expected "1" :actual "(do (def c (atom 0)) (def f (memoize (fn [x] (swap! c inc) nil))) (f 1) (f 1) (deref c))"} + {:suite "clojure.core / leaf batch 2" :label "partial" :expected "6" :actual "((partial + 1 2) 3)"} + {:suite "clojure.core / leaf batch 2" :label "partial no extra" :expected "3" :actual "((partial + 1 2))"} + {:suite "clojure.core / leaf batch 2" :label "partial many fixed" :expected "15" :actual "((partial + 1 2 3 4) 5)"} + {:suite "clojure.core / leaf batch 2" :label "trampoline" :expected "10" :actual "(trampoline (fn f [n acc] (if (zero? n) acc (fn [] (f (dec n) (+ acc 2))))) 5 0)"} + {:suite "clojure.core / leaf batch 2" :label "some? true" :expected "true" :actual "(some? 0)"} + {:suite "clojure.core / leaf batch 2" :label "some? false" :expected "false" :actual "(some? nil)"} + {:suite "clojure.core / leaf batch 2" :label "true?/false?" :expected "[true false false]" :actual "[(true? true) (true? 1) (false? nil)]"} + {:suite "clojure.core / leaf batch 2" :label "max" :expected "3" :actual "(max 1 3 2)"} + {:suite "clojure.core / leaf batch 2" :label "min" :expected "1" :actual "(min 3 1 2)"} + {:suite "clojure.core / leaf batch 2" :label "max single" :expected "5" :actual "(max 5)"} + {:suite "clojure.core / leaf batch 2" :label "max non-number throws" :expected :throws :actual "(max 1 :a)"} + {:suite "clojure.core / leaf batch 2" :label "reverse" :expected "[3 2 1]" :actual "(reverse [1 2 3])"} + {:suite "clojure.core / leaf batch 2" :label "reverse empty" :expected "[]" :actual "(reverse nil)"} + {:suite "clojure.core / leaf batch 2" :label "conj nil onto map" :expected "{:a 1}" :actual "(conj {:a 1} nil)"} + {:suite "clojure.core / leaf batch 3" :label "empty vector" :expected "[]" :actual "(empty [1 2])"} + {:suite "clojure.core / leaf batch 3" :label "empty list" :expected "[]" :actual "(empty (list 1))"} + {:suite "clojure.core / leaf batch 3" :label "empty map" :expected "{}" :actual "(empty {:a 1})"} + {:suite "clojure.core / leaf batch 3" :label "empty set" :expected "#{}" :actual "(empty #{1})"} + {:suite "clojure.core / leaf batch 3" :label "empty nil" :expected "nil" :actual "(empty nil)"} + {:suite "clojure.core / leaf batch 3" :label "empty string" :expected "nil" :actual "(empty \"abc\")"} + {:suite "clojure.core / leaf batch 3" :label "empty lazy is ()" :expected "[]" :actual "(empty (map inc [1 2]))"} + {:suite "clojure.core / leaf batch 3" :label "empty sorted keeps cmp" :expected "[3 1]" :actual "(vec (seq (into (empty (sorted-set-by > 1 2)) [1 3])))"} + {:suite "clojure.core / leaf batch 3" :label "assoc-in" :expected "{:a {:b 1}}" :actual "(assoc-in {} [:a :b] 1)"} + {:suite "clojure.core / leaf batch 3" :label "assoc-in deep" :expected "{:a {:b {:c 2}}}" :actual "(assoc-in {:a {:b {:c 1}}} [:a :b :c] 2)"} + {:suite "clojure.core / leaf batch 3" :label "assoc-in keeps siblings" :expected "{:a {:b 1, :c 2}}" :actual "(assoc-in {:a {:b 1}} [:a :c] 2)"} + {:suite "clojure.core / leaf batch 3" :label "assoc-in vector idx" :expected "[1 9]" :actual "(assoc-in [1 2] [1] 9)"} + {:suite "clojure.core / leaf batch 3" :label "assoc-in nested vec" :expected "[{:a 9}]" :actual "(assoc-in [{:a 1}] [0 :a] 9)"} + {:suite "clojure.core / leaf batch 3" :label "update-in" :expected "{:a {:b 2}}" :actual "(update-in {:a {:b 1}} [:a :b] inc)"} + {:suite "clojure.core / leaf batch 3" :label "update-in extra args" :expected "{:a {:b 111}}" :actual "(update-in {:a {:b 1}} [:a :b] + 10 100)"} + {:suite "clojure.core / leaf batch 3" :label "update-in fnil" :expected "{:a {:b 1}}" :actual "(update-in {} [:a :b] (fnil inc 0))"} + {:suite "clojure.core / leaf batch 3" :label "update-in single key" :expected "{:a 2}" :actual "(update-in {:a 1} [:a] inc)"} + {:suite "clojure.core / leaf batch 3" :label "interpose" :expected "[1 :s 2 :s 3]" :actual "(interpose :s [1 2 3])"} + {:suite "clojure.core / leaf batch 3" :label "interpose empty" :expected "[]" :actual "(interpose :s [])"} + {:suite "clojure.core / leaf batch 3" :label "interpose one" :expected "[1]" :actual "(interpose :s [1])"} + {:suite "clojure.core / leaf batch 3" :label "interpose is lazy" :expected "[0 :s 1]" :actual "(take 3 (interpose :s (range)))"} + {:suite "clojure.core / leaf batch 3" :label "interpose xform" :expected "[\"a\" \",\" \"b\"]" :actual "(vec (sequence (interpose \",\") [\"a\" \"b\"]))"} + {:suite "clojure.core / leaf batch 3" :label "take-nth" :expected "[1 3 5]" :actual "(take-nth 2 [1 2 3 4 5 6])"} + {:suite "clojure.core / leaf batch 3" :label "take-nth lazy" :expected "[0 3 6]" :actual "(take 3 (take-nth 3 (range)))"} + {:suite "clojure.core / leaf batch 3" :label "take-nth xform" :expected "[1 3 5]" :actual "(vec (sequence (take-nth 2) [1 2 3 4 5 6]))"} + {:suite "clojure.core / leaf batch 3" :label "take-nth into" :expected "[1 4]" :actual "(into [] (take-nth 3) [1 2 3 4 5])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by keyfn" :expected "[[1 :b] [2 :a]]" :actual "(sort-by first [[2 :a] [1 :b]])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by string keys" :expected "[\"a\" \"bb\" \"ccc\"]" :actual "(sort-by count [\"ccc\" \"a\" \"bb\"])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by comparator" :expected "[3 2 1]" :actual "(sort-by identity > [1 3 2])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by 3way cmp" :expected "[3 2 1]" :actual "(sort-by identity (fn [a b] (- b a)) [1 3 2])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by mixed nil" :expected "[nil 1 2]" :actual "(sort-by identity [2 nil 1])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by empty" :expected "[]" :actual "(sort-by first [])"} + {:suite "clojure.core / leaf batch 4" :label "sort-by nil coll" :expected "[]" :actual "(sort-by first nil)"} + {:suite "clojure.core / leaf batch 4" :label "rand-int range" :expected "true" :actual "(every? (fn [_] (let [r (rand-int 5)] (and (int? r) (<= 0 r 4)))) (range 50))"} + {:suite "clojure.core / leaf batch 4" :label "rand-int zero" :expected "0" :actual "(rand-int 1)"} + {:suite "clojure.core / leaf batch 4" :label "shuffle is permutation" :expected "true" :actual "(= (sort (shuffle [5 3 1 4 2])) [1 2 3 4 5])"} + {:suite "clojure.core / leaf batch 4" :label "shuffle returns vector" :expected "true" :actual "(vector? (shuffle [1 2 3]))"} + {:suite "clojure.core / leaf batch 4" :label "shuffle empty" :expected "[]" :actual "(shuffle [])"} + {:suite "clojure.core / leaf batch 4" :label "shuffle non-coll throws" :expected :throws :actual "(shuffle 5)"} + {:suite "clojure.core / leaf batch 4" :label "random-uuid is uuid" :expected "true" :actual "(uuid? (random-uuid))"} + {:suite "clojure.core / leaf batch 4" :label "random-uuid v4 shape" :expected "true" :actual "(boolean (re-matches #\"[0-9a-f]{8}-[0-9a-f]{4}-4[0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}\" (str (random-uuid))))"} + {:suite "clojure.core / leaf batch 4" :label "random-uuid distinct" :expected "true" :actual "(not= (random-uuid) (random-uuid))"} + {:suite "clojure.core / leaf batch 4" :label "char-escape newline" :expected "\"\\\\n\"" :actual "(char-escape-string \\newline)"} + {:suite "clojure.core / leaf batch 4" :label "char-escape quote" :expected "true" :actual "(= 2 (count (char-escape-string \\\")))"} + {:suite "clojure.core / leaf batch 4" :label "char-escape none" :expected "nil" :actual "(char-escape-string \\a)"} + {:suite "clojure.core / leaf batch 4" :label "char-name space" :expected "\"space\"" :actual "(char-name-string \\space)"} + {:suite "clojure.core / leaf batch 4" :label "char-name newline" :expected "\"newline\"" :actual "(char-name-string \\newline)"} + {:suite "clojure.core / leaf batch 4" :label "char-name none" :expected "nil" :actual "(char-name-string \\a)"} + {:suite "functions / recur into variadic arity" :label "counts rest via recur" :expected "3" :actual "((fn cnt [acc & xs] (if (seq xs) (recur (inc acc) (rest xs)) acc)) 0 :a :b :c)"} + {:suite "functions / recur into variadic arity" :label "zero-fixed variadic" :expected "4" :actual "((fn f [& xs] (if (< (count xs) 4) (recur (cons :x xs)) (count xs))) :a)"} + {:suite "functions / recur into variadic arity" :label "rest empties to nil" :expected "[:done]" :actual "((fn f [& xs] (if xs (recur (next xs)) (list :done))) 1 2)"} + {:suite "functions / recur into variadic arity" :label "multi-arity variadic recur" :expected "6" :actual "((fn ma ([a] a) ([a & xs] (if (seq xs) (recur (+ a (first xs)) (rest xs)) a))) 1 2 3)"} + {:suite "functions / recur into variadic arity" :label "recur passes nil rest" :expected ":empty" :actual "((fn f [acc & xs] (if (seq xs) (recur acc (rest xs)) :empty)) 0 1)"} + {:suite "functions / recur into variadic arity" :label "fixed-arity recur untouched" :expected "10" :actual "((fn f [n acc] (if (pos? n) (recur (dec n) (+ acc 2)) acc)) 5 0)"} + {:suite "functions / empty rest arg is nil" :label "no args" :expected ":nil" :actual "((fn [& r] (if r :truthy :nil)))"} + {:suite "functions / empty rest arg is nil" :label "after fixed" :expected ":nil" :actual "((fn [a & r] (if r :truthy :nil)) 1)"} + {:suite "functions / empty rest arg is nil" :label "via apply" :expected ":nil" :actual "(apply (fn [& r] (if r :truthy :nil)) [])"} + {:suite "functions / empty rest arg is nil" :label "defn no args" :expected ":nil" :actual "(do (defn er-f [& r] (if r :truthy :nil)) (er-f))"} + {:suite "functions / empty rest arg is nil" :label "non-empty unchanged" :expected "[1 2]" :actual "((fn [& r] r) 1 2)"} + {:suite "functions / empty rest arg is nil" :label "one extra" :expected "[2]" :actual "((fn [a & r] r) 1 2)"} + {:suite "functions / empty rest arg is nil" :label "rest destructure with no args" :expected ":nil" :actual "((fn [& [a]] (if a :truthy :nil)))"} + {:suite "functions / arity enforcement" :label "fixed extra args" :expected :throws :actual "((fn [x] x) 1 2)"} + {:suite "functions / arity enforcement" :label "fixed missing args" :expected :throws :actual "((fn [x y] x) 1)"} + {:suite "functions / arity enforcement" :label "fixed zero of one" :expected :throws :actual "((fn [x] x))"} + {:suite "functions / arity enforcement" :label "named defn extra" :expected :throws :actual "(do (defn af1 [x] x) (af1 1 2))"} + {:suite "functions / arity enforcement" :label "overlay fn extra" :expected :throws :actual "(identity 1 2)"} + {:suite "functions / arity enforcement" :label "through apply" :expected :throws :actual "(apply (fn [x] x) [1 2])"} + {:suite "functions / arity enforcement" :label "through update" :expected :throws :actual "(update {:k 1} :k identity 1 2 3 4)"} + {:suite "functions / arity enforcement" :label "variadic below min" :expected :throws :actual "((fn [x & r] x))"} + {:suite "functions / arity enforcement" :label "variadic at min" :expected "nil" :actual "((fn [x & r] r) 1)"} + {:suite "functions / arity enforcement" :label "variadic above min" :expected "[2 3]" :actual "((fn [x & r] r) 1 2 3)"} + {:suite "functions / arity enforcement" :label "multi-arity no match" :expected :throws :actual "((fn ([x] x) ([x y] y)) 1 2 3)"} + {:suite "functions / arity enforcement" :label "multi-arity variadic below min" :expected :throws :actual "((fn ([x] x) ([x y & r] r)))"} + {:suite "functions / arity enforcement" :label "destructured param counts as one" :expected "3" :actual "((fn [[a b] c] c) [1 2] 3)"} + {:suite "functions / arity enforcement" :label "destructured extra throws" :expected :throws :actual "((fn [[a b]] a) [1 2] [3 4])"} + {:suite "functions / arity enforcement" :label "hof exact arity ok" :expected "[2 4]" :actual "(mapv (fn [x] (* 2 x)) [1 2])"} + {:suite "functions / arity enforcement" :label "zero-arity fn ok" :expected "7" :actual "((fn [] 7))"} + {:suite "clojure.core / futures — deref" :label "future + deref" :expected "3" :actual "(deref (future (+ 1 2)))"} + {:suite "clojure.core / futures — deref" :label "@ reader macro derefs" :expected "42" :actual "@(future (* 6 7))"} + {:suite "clojure.core / futures — deref" :label "future returns collection" :expected "[2 3 4]" :actual "(deref (future (mapv inc [1 2 3])))"} + {:suite "clojure.core / futures — deref" :label "future returns a map" :expected "{:a 1}" :actual "(deref (future {:a 1}))"} + {:suite "clojure.core / futures — deref" :label "deref is cached/idempotent" :expected "[2 2]" :actual "(let [f (future (+ 1 1))] [(deref f) (deref f)])"} + {:suite "clojure.core / futures — deref" :label "timed deref of ready future" :expected "42" :actual "(let [f (future 42)] (deref f) (deref f 1000 :nope))"} + {:suite "clojure.core / futures — deref" :label "body error re-raised on deref" :expected :throws :actual "(deref (future (throw \"boom\")))"} + {:suite "clojure.core / futures — deref" :label "timed deref times out" :expected ":timed-out" :actual "(deref (future (do (Thread/sleep 300) :late)) 10 :timed-out)"} + {:suite "clojure.core / futures — deref" :label "Thread/sleep in body" :expected ":slept" :actual "(deref (future (do (Thread/sleep 5) :slept)))"} + {:suite "clojure.core / futures — deref" :label "timed-out future still completes" :expected ":late" :actual "(let [f (future (do (Thread/sleep 30) :late))] (deref f 5 :early) (deref f))"} + {:suite "clojure.core / futures — predicates" :label "future? true" :expected "true" :actual "(future? (future 1))"} + {:suite "clojure.core / futures — predicates" :label "future? false" :expected "false" :actual "(future? 42)"} + {:suite "clojure.core / futures — predicates" :label "future-done? after deref" :expected "true" :actual "(let [f (future 1)] (deref f) (future-done? f))"} + {:suite "clojure.core / futures — predicates" :label "realized? after deref" :expected "true" :actual "(let [f (future 1)] (deref f) (realized? f))"} + {:suite "clojure.core / futures — predicates" :label "cancel an in-flight future returns true" :expected "true" :actual "(let [f (future (do (Thread/sleep 100) 1))] (future-cancel f))"} + {:suite "clojure.core / futures — predicates" :label "future-cancelled? after cancel" :expected "true" :actual "(let [f (future (do (Thread/sleep 100) 1))] (future-cancel f) (future-cancelled? f))"} + {:suite "clojure.core / futures — predicates" :label "future-done? after cancel" :expected "true" :actual "(let [f (future 1)] (future-cancel f) (future-done? f))"} + {:suite "clojure.core / futures — predicates" :label "cancel an already-completed future returns false" :expected "false" :actual "(let [f (future 1)] (deref f) (future-cancel f))"} + {:suite "clojure.core / futures — predicates" :label "future-cancelled? fresh is false" :expected "false" :actual "(future-cancelled? (future 1))"} + {:suite "clojure.core / futures — snapshot (copy) semantics" :label "captured atom is snapshotted, not shared" :expected "1" :actual "(let [a (atom 0)] (deref (future (swap! a inc))) @a)"} + {:suite "clojure.core / futures — snapshot (copy) semantics" :label "future sees its own mutation" :expected "1" :actual "(let [a (atom 0)] (deref (future (swap! a inc))))"} + {:suite "clojure.core / pmap family" :label "pmap values in order" :expected "[2 3 4]" :actual "(vec (pmap inc [1 2 3]))"} + {:suite "clojure.core / pmap family" :label "pmap multi-coll" :expected "[5 7 9]" :actual "(vec (pmap + [1 2 3] [4 5 6]))"} + {:suite "clojure.core / pmap family" :label "pmap empty" :expected "[]" :actual "(pmap inc [])"} + {:suite "clojure.core / pmap family" :label "pmap is parallel" :expected "true" :actual "(do (deref (future :warmup)) (let [t0 (System/currentTimeMillis)] (dorun (pmap (fn [_] (Thread/sleep 200)) [1 2 3 4])) (< (- (System/currentTimeMillis) t0) 700)))"} + {:suite "clojure.core / pmap family" :label "pcalls" :expected "[1 2]" :actual "(vec (pcalls (fn [] 1) (fn [] 2)))"} + {:suite "clojure.core / pmap family" :label "pvalues" :expected "[3 7]" :actual "(vec (pvalues (+ 1 2) (+ 3 4)))"} + {:suite "clojure.core / pmap family" :label "snapshot semantics" :expected "2" :actual "(let [a (atom 0)] (dorun (pmap (fn [_] (swap! a inc)) [1 2])) (deref a))"} + {:suite "hierarchy / pure 3-arity" :label "derive returns new h" :expected "true" :actual "(let [h (derive (make-hierarchy) :rect :shape)] (and (map? h) (isa? h :rect :shape)))"} + {:suite "hierarchy / pure 3-arity" :label "original unchanged" :expected "false" :actual "(let [h0 (make-hierarchy) h1 (derive h0 :rect :shape)] (isa? h0 :rect :shape))"} + {:suite "hierarchy / pure 3-arity" :label "isa? self" :expected "true" :actual "(isa? (make-hierarchy) :a :a)"} + {:suite "hierarchy / pure 3-arity" :label "isa? transitive" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :square :rect) (derive :rect :shape))] (isa? h :square :shape))"} + {:suite "hierarchy / pure 3-arity" :label "multi-parent" :expected "[true true]" :actual "(let [h (-> (make-hierarchy) (derive :sq :rect) (derive :sq :rhombus))] [(isa? h :sq :rect) (isa? h :sq :rhombus)])"} + {:suite "hierarchy / pure 3-arity" :label "parents set" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :sq :rect) (derive :sq :rhombus))] (= #{:rect :rhombus} (parents h :sq)))"} + {:suite "hierarchy / pure 3-arity" :label "ancestors transitive" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :square :rect) (derive :rect :shape))] (= #{:rect :shape} (ancestors h :square)))"} + {:suite "hierarchy / pure 3-arity" :label "descendants transitive" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :square :rect) (derive :rect :shape))] (= #{:rect :square} (descendants h :shape)))"} + {:suite "hierarchy / pure 3-arity" :label "underive removes" :expected "false" :actual "(let [h (-> (make-hierarchy) (derive :a :b) (underive :a :b))] (isa? h :a :b))"} + {:suite "hierarchy / pure 3-arity" :label "vector isa?" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :rect :shape))] (isa? h [:rect :rect] [:shape :shape]))"} + {:suite "hierarchy / pure 3-arity" :label "vector isa? length" :expected "false" :actual "(isa? (make-hierarchy) [:a] [:a :a])"} + {:suite "hierarchy / pure 3-arity" :label "cyclic derive throws" :expected :throws :actual "(-> (make-hierarchy) (derive :a :b) (derive :b :a))"} + {:suite "hierarchy / pure 3-arity" :label "duplicate derive ok" :expected "true" :actual "(let [h (-> (make-hierarchy) (derive :a :b) (derive :a :b))] (isa? h :a :b))"} + {:suite "hierarchy / pure 3-arity" :label "parents nil when none" :expected "nil" :actual "(parents (make-hierarchy) :x)"} + {:suite "hierarchy / global + multimethod dispatch" :label "global derive + isa?" :expected "true" :actual "(do (derive :gsq :grect) (isa? :gsq :grect))"} + {:suite "hierarchy / global + multimethod dispatch" :label "global ancestors" :expected "true" :actual "(do (derive :ga :gb) (derive :gb :gc) (contains? (ancestors :ga) :gc))"} + {:suite "hierarchy / global + multimethod dispatch" :label "global underive" :expected "false" :actual "(do (derive :gu :gv) (underive :gu :gv) (isa? :gu :gv))"} + {:suite "hierarchy / global + multimethod dispatch" :label "dispatch via hierarchy" :expected ":is-shape" :actual "(do (derive :hsq :hshape) (defmulti hmm identity) (defmethod hmm :hshape [_] :is-shape) (hmm :hsq))"} + {:suite "hierarchy / global + multimethod dispatch" :label "dispatch custom hierarchy" :expected ":parent" :actual "(do (def hh (atom (derive (make-hierarchy) :c :p))) (defmulti cmm identity :hierarchy hh) (defmethod cmm :p [_] :parent) (cmm :c))"} + {:suite "hierarchy / global + multimethod dispatch" :label "dispatch exact beats isa" :expected ":exact" :actual "(do (derive :de1 :de2) (defmulti emm identity) (defmethod emm :de2 [_] :parent) (defmethod emm :de1 [_] :exact) (emm :de1))"} + {:suite "interop / dot forms" :label "method call" :expected "\"v=41\"" :actual "(. {:value 41 :describe (fn [self] (str \"v=\" (:value self)))} describe)"} + {:suite "interop / dot forms" :label "method with args" :expected "\"Hello Alice\"" :actual "(. {:greet (fn [self n] (str \"Hello \" n))} greet \"Alice\")"} + {:suite "interop / dot forms" :label "field access .-" :expected "41" :actual "(.-value {:value 41})"} + {:suite "interop / dot forms" :label "dot field keyword" :expected "41" :actual "(. {:value 41} :value)"} + {:suite "interop / dot dispatch arms" :label "zero-arg coll-interop .count" :expected "3" :actual "(.count [1 2 3])"} + {:suite "interop / dot dispatch arms" :label "zero-arg coll-interop .seq" :expected "[1 2]" :actual "(.seq [1 2])"} + {:suite "interop / dot dispatch arms" :label "explicit dot zero-arg interop" :expected "3" :actual "(. [1 2 3] count)"} + {:suite "interop / dot dispatch arms" :label "with-arg coll-interop .nth" :expected "2" :actual "(.nth [1 2 3] 1)"} + {:suite "interop / dot dispatch arms" :label "record zero-arg method" :expected "10" :actual "(do (defprotocol Pd (gm [this])) (defrecord Rd [x] Pd (gm [this] (* 2 x))) (.gm (->Rd 5)))"} + {:suite "interop / dot dispatch arms" :label "record method with args" :expected "15" :actual "(do (defprotocol Pa (am [this y])) (defrecord Ra [x] Pa (am [this y] (+ x y))) (.am (->Ra 5) 10))"} + {:suite "interop / dot dispatch arms" :label "deftype method with args" :expected "7" :actual "(do (defprotocol Pq (qq [this y])) (deftype Tq [x] Pq (qq [this y] (+ x y))) (.qq (Tq. 3) 4))"} + {:suite "interop / dot dispatch arms" :label "record -field is field access" :expected "7" :actual "(do (defrecord Rf [x]) (.-x (->Rf 7)))"} + {:suite "interop / dot dispatch arms" :label "object-method with args .equals" :expected "true" :actual "(.equals \"a\" \"a\")"} + {:suite "interop / arrays (aget/aset/alength)" :label "alength" :expected "3" :actual "(alength (object-array [1 2 3]))"} + {:suite "interop / arrays (aget/aset/alength)" :label "aget" :expected "20" :actual "(aget (object-array [10 20 30]) 1)"} + {:suite "interop / arrays (aget/aset/alength)" :label "aset returns val" :expected "9" :actual "(aset (object-array [1 2 3]) 1 9)"} + {:suite "interop / arrays (aget/aset/alength)" :label "aset mutates" :expected "[7 2 3]" :actual "(let [a (object-array [1 2 3])] (aset a 0 7) (vec a))"} + {:suite "interop / arrays (aget/aset/alength)" :label "aget 2d" :expected "4" :actual "(aget (to-array-2d [[1 2] [3 4]]) 1 1)"} + {:suite "interop / String methods" :label ".toLowerCase" :expected "\"hi\"" :actual "(.toLowerCase \"HI\")"} + {:suite "interop / String methods" :label ".toUpperCase" :expected "\"HI\"" :actual "(.toUpperCase \"hi\")"} + {:suite "interop / String methods" :label "dot-form" :expected "\"hi\"" :actual "(. \"HI\" toLowerCase)"} + {:suite "interop / String methods" :label ".trim" :expected "\"x\"" :actual "(.trim \" x \")"} + {:suite "interop / String methods" :label ".length" :expected "3" :actual "(.length \"abc\")"} + {:suite "interop / String methods" :label ".isEmpty" :expected "[true false]" :actual "[(.isEmpty \"\") (.isEmpty \"a\")]"} + {:suite "interop / String methods" :label ".indexOf hit" :expected "1" :actual "(.indexOf \"abc\" \"b\")"} + {:suite "interop / String methods" :label ".indexOf miss is -1" :expected "-1" :actual "(.indexOf \"abc\" \"z\")"} + {:suite "interop / String methods" :label ".lastIndexOf" :expected "3" :actual "(.lastIndexOf \"abab\" \"b\")"} + {:suite "interop / String methods" :label ".substring" :expected "\"bc\"" :actual "(.substring \"abc\" 1)"} + {:suite "interop / String methods" :label ".substring end" :expected "\"b\"" :actual "(.substring \"abc\" 1 2)"} + {:suite "interop / String methods" :label ".startsWith" :expected "true" :actual "(.startsWith \"abc\" \"ab\")"} + {:suite "interop / String methods" :label ".endsWith" :expected "true" :actual "(.endsWith \"abc\" \"bc\")"} + {:suite "interop / String methods" :label ".contains" :expected "true" :actual "(.contains \"abc\" \"b\")"} + {:suite "interop / String methods" :label ".replace" :expected "\"axc\"" :actual "(.replace \"abc\" \"b\" \"x\")"} + {:suite "interop / String methods" :label ".charAt" :expected "\\b" :actual "(.charAt \"abc\" 1)"} + {:suite "interop / String methods" :label ".equalsIgnoreCase" :expected "true" :actual "(.equalsIgnoreCase \"AbC\" \"aBc\")"} + {:suite "interop / String methods" :label "Long/MAX_VALUE" :expected "true" :actual "(pos? Long/MAX_VALUE)"} + {:suite "interop / String methods" :label "String/valueOf num" :expected "\"42\"" :actual "(String/valueOf 42)"} + {:suite "interop / String methods" :label "String/valueOf str" :expected "\"hi\"" :actual "(String/valueOf \"hi\")"} + {:suite "interop / String methods" :label "String/valueOf kw" :expected "\":k\"" :actual "(String/valueOf :k)"} + {:suite "interop / String methods" :label "String/valueOf nil" :expected "\"null\"" :actual "(String/valueOf nil)"} + {:suite "interop / String methods" :label "instance? CharSequence" :expected "true" :actual "(instance? CharSequence \"aaa\")"} + {:suite "interop / String methods" :label "instance? CharSequence non-str" :expected "false" :actual "(instance? CharSequence 42)"} + {:suite "interop / String methods" :label "unsupported method throws" :expected :throws :actual "(.frobnicate \"abc\")"} + {:suite "interop / java.time shims" :label "ofPattern formats #inst" :expected "true" :actual "(string? (.format (DateTimeFormatter/ofPattern \"yyyy-MM-dd\") #inst \"2020-03-05T13:45:30Z\"))"} + {:suite "interop / java.time shims" :label "pattern shape" :expected "true" :actual "(boolean (re-matches #\"\\d{4}-\\d{2}-\\d{2}\" (.format (DateTimeFormatter/ofPattern \"yyyy-MM-dd\") #inst \"2020-03-05T13:45:30Z\")))"} + {:suite "interop / java.time shims" :label "month name + ampm" :expected "true" :actual "(boolean (re-matches #\"[A-Z][a-z]{2} \\d{1,2}, 2020 \\d{1,2}:\\d{2} [AP]M\" (.format (DateTimeFormatter/ofPattern \"MMM d, yyyy h:mm a\") #inst \"2020-03-05T13:45:30Z\")))"} + {:suite "interop / java.time shims" :label "quoted literal" :expected "true" :actual "(boolean (re-matches #\"\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}\" (.format DateTimeFormatter/ISO_LOCAL_DATE_TIME #inst \"2020-03-05T13:45:30Z\")))"} + {:suite "interop / java.time shims" :label "localized style" :expected "true" :actual "(string? (.format (DateTimeFormatter/ofLocalizedDate FormatStyle/MEDIUM) #inst \"2020-03-05T13:45:30Z\"))"} + {:suite "interop / java.time shims" :label "withLocale chain" :expected "true" :actual "(string? (.format (.withLocale (DateTimeFormatter/ofPattern \"yyyy\") (java.util.Locale. \"en\")) #inst \"2020-01-01T00:00:00Z\"))"} + {:suite "interop / java.time shims" :label "fix-date chain" :expected "true" :actual "(instance? LocalDateTime (-> #inst \"2020-03-05T13:45:30Z\" (.toInstant) (.atZone (ZoneId/systemDefault)) (.toLocalDateTime)))"} + {:suite "interop / java.time shims" :label "inst is java.util.Date" :expected "true" :actual "(instance? java.util.Date #inst \"2020-01-01T00:00:00Z\")"} + {:suite "interop / java.time shims" :label "Instant instance" :expected "true" :actual "(instance? java.time.Instant (Instant/ofEpochMilli 0))"} + {:suite "interop / java.time shims" :label "getTime epoch ms" :expected "0" :actual "(.getTime #inst \"1970-01-01T00:00:00Z\")"} + {:suite "interop / java.time shims" :label "toEpochMilli round trip" :expected "1234" :actual "(.toEpochMilli (Instant/ofEpochMilli 1234))"} + {:suite "interop / java.time chrono-fields" :label "CLOCK_HOUR_OF_DAY midnight is 24" :expected "24" :actual "(.getLong (java.time.LocalTime/of 0 30) java.time.temporal.ChronoField/CLOCK_HOUR_OF_DAY)"} + {:suite "interop / java.time chrono-fields" :label "HOUR_OF_AMPM" :expected "2" :actual "(.getLong (java.time.LocalTime/of 14 0) java.time.temporal.ChronoField/HOUR_OF_AMPM)"} + {:suite "interop / java.time chrono-fields" :label "CLOCK_HOUR_OF_AMPM noon is 12" :expected "12" :actual "(.getLong (java.time.LocalTime/of 12 0) java.time.temporal.ChronoField/CLOCK_HOUR_OF_AMPM)"} + {:suite "interop / java.time chrono-fields" :label "ALIGNED_DAY_OF_WEEK_IN_MONTH" :expected "3" :actual "(.getLong (java.time.LocalDate/of 2020 3 17) java.time.temporal.ChronoField/ALIGNED_DAY_OF_WEEK_IN_MONTH)"} + {:suite "interop / java.time chrono-fields" :label "ALIGNED_WEEK_OF_MONTH" :expected "3" :actual "(.getLong (java.time.LocalDate/of 2020 3 17) java.time.temporal.ChronoField/ALIGNED_WEEK_OF_MONTH)"} + {:suite "interop / java.time chrono-fields" :label "Year isSupported + getLong" :expected "2020" :actual "(.getLong (java.time.Year/of 2020) java.time.temporal.ChronoField/YEAR)"} + {:suite "interop / java.time chrono-fields" :label "YearMonth PROLEPTIC_MONTH" :expected "24244" :actual "(.getLong (java.time.YearMonth/of 2020 5) java.time.temporal.ChronoField/PROLEPTIC_MONTH)"} + {:suite "interop / java.time chrono-fields" :label "ISO_OFFSET_DATE_TIME keeps fractional seconds" :expected "1594033153417" :actual "(.toEpochMilli (.toInstant (java.time.ZonedDateTime/parse \"2020-07-06T10:59:13.417Z\" java.time.format.DateTimeFormatter/ISO_OFFSET_DATE_TIME)))"} + {:suite "interop / java.time chrono-fields" :label "ISO_OFFSET_DATE_TIME without fraction" :expected "1594033153000" :actual "(.toEpochMilli (.toInstant (java.time.ZonedDateTime/parse \"2020-07-06T10:59:13Z\" java.time.format.DateTimeFormatter/ISO_OFFSET_DATE_TIME)))"} + {:suite "interop / java.util Optional" :label "of + get" :expected "42" :actual "(.get (java.util.Optional/of 42))"} + {:suite "interop / java.util Optional" :label "empty isPresent" :expected "false" :actual "(.isPresent (java.util.Optional/empty))"} + {:suite "interop / java.util Optional" :label "value equality" :expected "true" :actual "(= (java.util.Optional/of 5) (java.util.Optional/of 5))"} + {:suite "interop / java.util Optional" :label "empty orElse" :expected "7" :actual "(.orElse (java.util.Optional/empty) 7)"} + {:suite "interop / java.util Optional" :label "ofNullable nil is empty" :expected "true" :actual "(= (java.util.Optional/empty) (java.util.Optional/ofNullable nil))"} + {:suite "interop / class + isa?" :label "forName throws for unknown class" :expected ":cnfe" :actual "(try (do (Class/forName \"totally.Bogus.Class\") :found) (catch ClassNotFoundException e :cnfe))"} + {:suite "interop / class + isa?" :label "PersistentHashSet isa java.util.Set" :expected "true" :actual "(isa? clojure.lang.PersistentHashSet java.util.Set)"} + {:suite "interop / class + isa?" :label "String isa Object" :expected "true" :actual "(isa? java.lang.String java.lang.Object)"} + {:suite "interop / class + isa?" :label "IFn isa Object" :expected "true" :actual "(isa? clojure.lang.IFn java.lang.Object)"} + {:suite "interop / class + isa?" :label "class of vector" :expected "true" :actual "(= clojure.lang.PersistentVector (class [1]))"} + {:suite "interop / class + isa?" :label "isa? class keyword Object" :expected "true" :actual "(isa? (class :k) java.lang.Object)"} + {:suite "interop / java.time shims" :label "Instant/now is current" :expected "true" :actual "(> (.toEpochMilli (Instant/now)) 1500000000000)"} + {:suite "interop / java.time shims" :label "sql types are not" :expected "false" :actual "(instance? java.sql.Timestamp #inst \"2020-01-01T00:00:00Z\")"} + {:suite "interop / StringReader & StringBuilder" :label "StringReader read" :expected "[97 98 -1]" :actual "(let [r (java.io.StringReader. \"ab\")] [(.read r) (.read r) (.read r)])"} + {:suite "interop / StringReader & StringBuilder" :label "mark/reset" :expected "[97 97]" :actual "(let [r (StringReader. \"ab\")] (.mark r 1) [(.read r) (do (.reset r) (.read r))])"} + {:suite "interop / StringReader & StringBuilder" :label "StringBuilder append" :expected "\"ab1\"" :actual "(.toString (-> (StringBuilder.) (.append \"a\") (.append \\b) (.append 1)))"} + {:suite "interop / StringReader & StringBuilder" :label "capacity arg is not content" :expected "\"x\"" :actual "(.toString (.append (StringBuilder. 16) \"x\"))"} + {:suite "interop / StringReader & StringBuilder" :label "setLength truncates" :expected "\"ab\"" :actual "(let [sb (StringBuilder.)] (.append sb \"abcd\") (.setLength sb 2) (.toString sb))"} + {:suite "interop / StringReader & StringBuilder" :label "char-array of string" :expected "true" :actual "(instance? (Class/forName \"[C\") (char-array \"ab\"))"} + {:suite "interop / StringReader & StringBuilder" :label "reader over char[]" :expected "97" :actual "(do (require (quote clojure.java.io)) (.read (clojure.java.io/reader (char-array \"abc\"))))"} + {:suite "interop / StringReader & StringBuilder" :label "with-open closes shim" :expected "97" :actual "(with-open [r (StringReader. \"a\")] (.read r))"} + {:suite "interop / StringReader & StringBuilder" :label "File.toURL methods read it back" :expected "\"file:/tmp/x\"" :actual "(do (require (quote clojure.java.io)) (.toString (.toURL (clojure.java.io/file \"/tmp/x\"))))"} + {:suite "interop / StringReader & StringBuilder" :label "vector :import shares deftype ctor" :expected "\"hi!\"" :actual "(do (ns spec.nodea) (defprotocol SpecP (spec-pm [this])) (deftype SpecTN [t] SpecP (spec-pm [this] (str t \"!\"))) (ns spec.nodeb (:import [spec.nodea SpecTN])) (.spec-pm (SpecTN. \"hi\")))"} + {:suite "interop / PushbackReader & parse statics" :label "PushbackReader read" :expected "[97 98]" :actual "(let [r (java.io.PushbackReader. (java.io.StringReader. \"ab\"))] [(.read r) (.read r)])"} + {:suite "interop / PushbackReader & parse statics" :label "unread pushes back" :expected "[97 97 98]" :actual "(let [r (PushbackReader. (StringReader. \"ab\")) a (.read r)] (.unread r a) [a (.read r) (.read r)])"} + {:suite "interop / PushbackReader & parse statics" :label "unread accepts a char" :expected "[120 97]" :actual "(let [r (PushbackReader. (StringReader. \"a\"))] (.unread r \\x) [(.read r) (.read r)])"} + {:suite "interop / PushbackReader & parse statics" :label "edn/read from reader" :expected "5432" :actual "(do (require (quote clojure.edn)) (clojure.edn/read (java.io.PushbackReader. (java.io.StringReader. \"{:db {:port 5432}}\\nrest\"))) (get-in (clojure.edn/read-string \"{:db {:port 5432}}\") [:db :port]))"} + {:suite "interop / PushbackReader & parse statics" :label "edn/read multi-line" :expected "true" :actual "(do (require (quote clojure.edn)) (= {:a 1 :b 2} (clojure.edn/read (PushbackReader. (StringReader. \"{:a 1\\n :b 2}\")))))"} + {:suite "interop / PushbackReader & parse statics" :label "Long/parseLong" :expected "42" :actual "(Long/parseLong \"42\")"} + {:suite "interop / PushbackReader & parse statics" :label "parseLong rejects non-numeric" :expected :throws :actual "(Long/parseLong \"4x\")"} + {:suite "interop / PushbackReader & parse statics" :label "BigInteger." :expected "123" :actual "(BigInteger. \"123\")"} + {:suite "interop / PushbackReader & parse statics" :label "Boolean/parseBoolean" :expected "[true false false]" :actual "[(Boolean/parseBoolean \"true\") (Boolean/parseBoolean \"false\") (Boolean/parseBoolean \"yes\")]"} + {:suite "interop / PushbackReader & parse statics" :label "System/getenv is a map" :expected "true" :actual "(string? (get (System/getenv) \"HOME\"))"} + {:suite "interop / PushbackReader & parse statics" :label "System/exit resolves" :expected "true" :actual "(fn? System/exit)"} + {:suite "interop / PushbackReader & parse statics" :label "getenv entries destructure (non-empty)" :expected "true" :actual "(let [es (map (fn [[k v]] [k v]) (System/getenv))] (and (pos? (count es)) (every? vector? es)))"} + {:suite "interop / PushbackReader & parse statics" :label "seq over a raw host table" :expected "true" :actual "(pos? (count (seq (System/getenv))))"} + {:suite "interop / PushbackReader & parse statics" :label "into {} from host table" :expected "true" :actual "(string? (get (into {} (map (fn [[k v]] [k v]) (System/getenv))) \"HOME\"))"} + {:suite "interop / PushbackReader & parse statics" :label "System/getProperties" :expected "true" :actual "(string? (get (System/getProperties) \"os.name\"))"} + {:suite "host-interop / ring-codec surface" :label "URLEncoder www form" :expected "\"a+b%3Dc\"" :actual "(URLEncoder/encode \"a b=c\")"} + {:suite "host-interop / ring-codec surface" :label "URLDecoder www form" :expected "\"a b=c\"" :actual "(URLDecoder/decode \"a+b%3Dc\" (Charset/forName \"UTF-8\"))"} + {:suite "host-interop / ring-codec surface" :label "url round trip" :expected "\"x &=%?\"" :actual "(URLDecoder/decode (URLEncoder/encode \"x &=%?\"))"} + {:suite "host-interop / ring-codec surface" :label "Base64 encode" :expected "\"aGVsbG8=\"" :actual "(String. (.encode (Base64/getEncoder) (.getBytes \"hello\")))"} + {:suite "host-interop / ring-codec surface" :label "Base64 round trip" :expected "\"hello\"" :actual "(String. (.decode (Base64/getDecoder) (String. (.encode (Base64/getEncoder) (.getBytes \"hello\")))))"} + {:suite "host-interop / ring-codec surface" :label "Integer radix + byteValue" :expected "-1" :actual "(.byteValue (Integer/valueOf \"ff\" 16))"} + {:suite "host-interop / ring-codec surface" :label "Integer parseInt" :expected "255" :actual "(Integer/parseInt \"ff\" 16)"} + {:suite "host-interop / ring-codec surface" :label "StringTokenizer" :expected "[\"a=1\" \"b=2\"]" :actual "(let [t (StringTokenizer. \"a=1&b=2\" \"&\")] [(.nextToken t) (.nextToken t)])"} + {:suite "host-interop / ring-codec surface" :label "MapEntry key/val" :expected "[:a 1]" :actual "(let [e (MapEntry. :a 1)] [(key e) (val e)])"} + {:suite "host-interop / ring-codec surface" :label "String ctor from bytes" :expected "\"hi\"" :actual "(String. (.getBytes \"hi\"))"} + {:suite "host-interop / ring-codec surface" :label "extend-protocol Map" :expected ":map" :actual "(do (defprotocol Pe (pe [x])) (extend-protocol Pe Map (pe [m] :map) Object (pe [o] :obj)) (pe {:a 1}))"} + {:suite "host-interop / ring-codec surface" :label "extend-protocol nil" :expected ":nil" :actual "(do (defprotocol Pn (pn [x])) (extend-protocol Pn nil (pn [n] :nil) Object (pn [o] :obj)) (pn nil))"} + {:suite "host-interop / ring-codec surface" :label "extend-protocol Map covers sorted" :expected ":map" :actual "(do (defprotocol Ps (ps [x])) (extend-protocol Ps Map (ps [m] :map) Object (ps [o] :obj)) (ps (sorted-map 1 2)))"} + {:suite "host-interop / ring-codec surface" :label "reduce over reified IReduceInit" :expected "42" :actual "(reduce + 0 (reify clojure.lang.IReduceInit (reduce [_ f init] (f (f init 40) 2))))"} + {:suite "core / reify" :label "multi-arity method dispatches by arg count" :expected "[:z 9]" :actual "(do (defprotocol P (m [_] [_ a])) (let [r (reify P (m [_] :z) (m [_ x] x))] [(m r) (m r 9)]))"} + {:suite "core / reify" :label "reify implements IObj and carries metadata" :expected "[true 2]" :actual "(do (defprotocol Q (qq [_])) (let [r (reify Q (qq [_] 1))] [(instance? clojure.lang.IObj r) (:k (meta (with-meta r {:k 2})))]))"} + {:suite "core / reify" :label "with-meta leaves the original untouched and keeps dispatch" :expected "[nil {:k 2} 1]" :actual "(do (defprotocol Q (qq [_])) (let [r (reify Q (qq [_] 1)) r2 (with-meta r {:k 2})] [(meta r) (meta r2) (qq r2)]))"} + {:suite "host-interop / class tokens & readers" :label "class name evaluates to canonical string" :expected "java.lang.String" :actual "String"} + {:suite "host-interop / class tokens & readers" :label "dispatch-only class name" :expected "\"java.io.InputStream\"" :actual "InputStream"} + {:suite "host-interop / class tokens & readers" :label "(class x) matches the token" :expected "true" :actual "(= String (class \"abc\"))"} + {:suite "host-interop / class tokens & readers" :label "defmulti on class dispatches" :expected ":str" :actual "(do (defmulti cm (fn [x] (class x))) (defmethod cm String [x] :str) (cm \"a\"))"} + {:suite "host-interop / class tokens & readers" :label "defmethod on nil dispatch value" :expected ":nil" :actual "(do (defmulti cn (fn [x] (class x))) (defmethod cn nil [x] :nil) (defmethod cn String [x] :str) (cn nil))"} + {:suite "host-interop / class tokens & readers" :label "Class str is class-prefixed" :expected "\"class java.lang.String\"" :actual "(str (class \"\"))"} + {:suite "host-interop / class tokens & readers" :label "Class getName" :expected "\"java.lang.String\"" :actual "(.getName (class \"\"))"} + {:suite "host-interop / class tokens & readers" :label "Class getSimpleName" :expected "\"Long\"" :actual "(.getSimpleName (class 5))"} + {:suite "host-interop / class tokens & readers" :label "Class of equal-typed values is =" :expected "true" :actual "(= (class 5) (class 6))"} + {:suite "host-interop / class tokens & readers" :label "Class in a thrown message" :expected "\"of class java.lang.String\"" :actual "(try (throw (Exception. (str \"of \" (class \"\")))) (catch Exception e (.getMessage e)))"} + {:suite "host-interop / class tokens & readers" :label "ctor sugar still constructs" :expected "\"x\"" :actual "(.toString (StringBuilder. \"x\"))"} + {:suite "host-interop / class tokens & readers" :label "return-hinted defn parses" :expected "7" :actual "(do (defn- hb ^bytes [b] b) (hb 7))"} + {:suite "host-interop / class tokens & readers" :label "hinted multi-arity parses" :expected ":two" :actual "((fn ([x] :one) (^String [x y] :two)) 1 2)"} + {:suite "host-interop / class tokens & readers" :label "slurp drains a StringReader" :expected "\"a=1\"" :actual "(slurp (StringReader. \"a=1\"))"} + {:suite "host-interop / class tokens & readers" :label "slurp accepts :encoding opts" :expected "\"b\"" :actual "(slurp (StringReader. \"b\") :encoding \"UTF-8\")"} + {:suite "host-interop / class tokens & readers" :label "replace with fn replacement is literal" :expected "\"$0\"" :actual "(do (require (quote [clojure.string :as s9])) (s9/replace \"x\" #\".\" (fn [m] \"$0\")))"} + {:suite "host-interop / class tokens & readers" :label "replace fn gets group vector" :expected "\"v=k\"" :actual "(do (require (quote [clojure.string :as s9])) (s9/replace \"k=v\" #\"(\\w+)=(\\w+)\" (fn [[_ k v]] (str v \"=\" k))))"} + {:suite "host-interop / class tokens & readers" :label "indexOf int needle is a char code" :expected "1" :actual "(.indexOf \"a=b\" 61)"} + {:suite "host-interop / exception + HashMap shims" :label "getMessage on a thrown string" :expected "\"class java.lang.String cannot be cast to class java.lang.Throwable (java.lang.String and java.lang.Throwable are in module java.base of loader 'bootstrap')\"" :actual "(try (throw \"boom\") (catch Throwable e (.getMessage e)))"} + {:suite "host-interop / exception + HashMap shims" :label "getMessage on ex-info" :expected "\"bad\"" :actual "(try (throw (ex-info \"bad\" {})) (catch Throwable e (.getMessage e)))"} + {:suite "host-interop / exception + HashMap shims" :label "calling a non-fn throws ClassCastException" :expected ":ccx" :actual "(try (1 2) (catch ClassCastException _ :ccx))"} + {:suite "host-interop / exception + HashMap shims" :label "non-fn cast is a RuntimeException too" :expected ":rt" :actual "(try ((identity 5)) (catch RuntimeException _ :rt))"} + {:suite "host-interop / exception + HashMap shims" :label "HashMap get" :expected "2" :actual "(let [m (HashMap. {:a 1 :b 2})] (.get m :b))"} + {:suite "host-interop / exception + HashMap shims" :label "HashMap put + size" :expected "2" :actual "(let [m (HashMap. {})] (.put m :x 1) (.put m :y 2) (.size m))"} + {:suite "host-interop / reader-feature toggle" :label "features default to jolt+default" :expected "true" :actual "(contains? (set (__reader-features)) \"jolt\")"} + {:suite "host-interop / reader-feature toggle" :label "set + read back" :expected "true" :actual "(do (def prev (__reader-features)) (__reader-features-set! [\"clj\" \"jolt\" \"default\"]) (def r (contains? (set (__reader-features)) \"clj\")) (__reader-features-set! prev) r)"} + {:suite "host-interop / reader-feature toggle" :label "restore returns to default" :expected "false" :actual "(do (def prev (__reader-features)) (__reader-features-set! [\"clj\"]) (__reader-features-set! prev) (contains? (set (__reader-features)) \"clj\"))"} + {:suite "host-interop / migratus class shims" :label "Exception. message" :expected "\"boom\"" :actual "(try (throw (Exception. \"boom\")) (catch Throwable e (.getMessage e)))"} + {:suite "host-interop / migratus class shims" :label "IllegalArgumentException." :expected "\"bad\"" :actual "(try (throw (IllegalArgumentException. \"bad\")) (catch Exception e (.getMessage e)))"} + {:suite "host-interop / migratus class shims" :label "InterruptedException." :expected "\"stop\"" :actual "(try (throw (InterruptedException. \"stop\")) (catch Throwable e (.getMessage e)))"} + {:suite "host-interop / migratus class shims" :label "Character/isUpperCase" :expected "true" :actual "(Character/isUpperCase \\A)"} + {:suite "host-interop / migratus class shims" :label "Character/isLowerCase" :expected "true" :actual "(Character/isLowerCase \\a)"} + {:suite "host-interop / migratus class shims" :label "Character/isUpperCase neg" :expected "false" :actual "(Character/isUpperCase \\a)"} + {:suite "host-interop / migratus class shims" :label "Thread/interrupted" :expected "false" :actual "(Thread/interrupted)"} + {:suite "host-interop / migratus class shims" :label "Long/valueOf" :expected "42" :actual "(Long/valueOf \"42\")"} + {:suite "host-interop / migratus class shims" :label "Timestamp is millis" :expected "1000" :actual "(.getTime (java.util.Date. (java.sql.Timestamp. 1000)))"} + {:suite "host-interop / migratus class shims" :label "SimpleDateFormat UTC" :expected "\"19700101000000\"" :actual "(let [f (doto (java.text.SimpleDateFormat. \"yyyyMMddHHmmss\") (.setTimeZone (java.util.TimeZone/getTimeZone \"UTC\")))] (.format f (java.util.Date. 0)))"} + {:suite "host-interop / java.io.File" :label "instance? File" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (instance? java.io.File (io/file \"/a/b\")))"} + {:suite "host-interop / java.io.File" :label "str is the path" :expected "\"/a/b\"" :actual "(do (require '[clojure.java.io :as io]) (str (io/file \"/a/b\")))"} + {:suite "host-interop / java.io.File" :label "getName" :expected "\"c.txt\"" :actual "(do (require '[clojure.java.io :as io]) (.getName (io/file \"/a/b/c.txt\")))"} + {:suite "host-interop / java.io.File" :label "getPath joins" :expected "\"/a/b\"" :actual "(do (require '[clojure.java.io :as io]) (.getPath (io/file \"/a\" \"b\")))"} + {:suite "host-interop / java.io.File" :label "isDirectory of repo dir" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (.isDirectory (io/file \"docs\")))"} + {:suite "host-interop / java.io.File" :label "isFile of repo file" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (.isFile (io/file \"README.md\")))"} + {:suite "host-interop / java.io.File" :label "exists is false off-disk" :expected "false" :actual "(do (require '[clojure.java.io :as io]) (.exists (io/file \"/no/such/path/xyz\")))"} + {:suite "host-interop / java.io.File" :label "file-seq yields File values" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (every? (fn [f] (instance? java.io.File f)) (file-seq (io/file \"docs\"))))"} + {:suite "host-interop / java.io.File" :label "file-seq finds files" :expected "true" :actual "(do (require '[clojure.java.io :as io]) (pos? (count (filter (fn [f] (.isFile f)) (file-seq (io/file \"docs\"))))))"} + {:suite "host-interop / logging host shims" :label "LockingTransaction/isRunning" :expected "false" :actual "(clojure.lang.LockingTransaction/isRunning)"} + {:suite "host-interop / logging host shims" :label "pprint writes value" :expected "\"[1 2 3]\\n\"" :actual "(do (require '[clojure.pprint :as pp]) (with-out-str (pp/pprint [1 2 3])))"} + {:suite "host-interop / logging host shims" :label "with-pprint-dispatch runs body" :expected "42" :actual "(do (require '[clojure.pprint :as pp]) (pp/with-pprint-dispatch pp/code-dispatch 42))"} + {:suite "host-interop / macro dispatch & short-circuit patterns" :label "conditional-eval suppresses" :expected "0" :actual "(do (def ^:dynamic *enabled* false) (defmacro when-on [& body] `(when *enabled* ~@body)) (let [a (atom 0)] (when-on (reset! a 9)) @a))"} + {:suite "host-interop / macro dispatch & short-circuit patterns" :label "conditional-eval fires" :expected "9" :actual "(do (def ^:dynamic *enabled* true) (defmacro when-on [& body] `(when *enabled* ~@body)) (let [a (atom 0)] (when-on (reset! a 9)) @a))"} + {:suite "host-interop / macro dispatch & short-circuit patterns" :label "spy-like eval+print+return" :expected "3" :actual "(do (defmacro spylog [expr] `(let [v# ~expr] (println v#) v#)) (spylog (+ 1 2)))"} + {:suite "host-interop / macro dispatch & short-circuit patterns" :label "multi-arity 4 dispatch" :expected "[:single :double :triple :quad]" :actual "(do (defmacro ml ([a] :single) ([a b] :double) ([a b c] :triple) ([a b c d] :quad)) [(ml 1) (ml 1 2) (ml 1 2 3) (ml 1 2 3 4)])"} + {:suite "inst / reading & identity" :label "reads to inst" :expected "true" :actual "(inst? #inst \"2020-01-01T00:00:00Z\")"} + {:suite "inst / reading & identity" :label "inst? false on string" :expected "false" :actual "(inst? \"2020-01-01\")"} + {:suite "inst / reading & identity" :label "epoch zero" :expected "0" :actual "(inst-ms #inst \"1970-01-01T00:00:00Z\")"} + {:suite "inst / reading & identity" :label "one second" :expected "1000" :actual "(inst-ms #inst \"1970-01-01T00:00:01Z\")"} + {:suite "inst / reading & identity" :label "millis" :expected "123" :actual "(inst-ms #inst \"1970-01-01T00:00:00.123Z\")"} + {:suite "inst / reading & identity" :label "a real date" :expected "1577836800000" :actual "(inst-ms #inst \"2020-01-01T00:00:00Z\")"} + {:suite "inst / reading & identity" :label "inst-ms throws on non-inst" :expected :throws :actual "(inst-ms 42)"} + {:suite "inst / partial timestamps & offsets" :label "year only" :expected "true" :actual "(= #inst \"2020\" #inst \"2020-01-01T00:00:00.000Z\")"} + {:suite "inst / partial timestamps & offsets" :label "year-month" :expected "true" :actual "(= #inst \"2020-03\" #inst \"2020-03-01T00:00:00Z\")"} + {:suite "inst / partial timestamps & offsets" :label "date only" :expected "true" :actual "(= #inst \"2020-03-15\" #inst \"2020-03-15T00:00:00Z\")"} + {:suite "inst / partial timestamps & offsets" :label "positive offset" :expected "true" :actual "(= #inst \"2020-01-01T01:00:00+01:00\" #inst \"2020-01-01T00:00:00Z\")"} + {:suite "inst / partial timestamps & offsets" :label "negative offset" :expected "true" :actual "(= #inst \"2019-12-31T23:00:00-01:00\" #inst \"2020-01-01T00:00:00Z\")"} + {:suite "inst / partial timestamps & offsets" :label "-00:00 offset" :expected "true" :actual "(= #inst \"2020-01-01T00:00:00-00:00\" #inst \"2020-01-01T00:00:00Z\")"} + {:suite "inst / partial timestamps & offsets" :label "bad timestamp throws" :expected :throws :actual "#inst \"garbage\""} + {:suite "inst / value semantics & printing" :label "equal by instant" :expected "true" :actual "(= #inst \"2020-01-01T00:00:00Z\" #inst \"2020-01-01T00:00:00.000Z\")"} + {:suite "inst / value semantics & printing" :label "unequal instants" :expected "false" :actual "(= #inst \"2020-01-01T00:00:00Z\" #inst \"2020-01-01T00:00:01Z\")"} + {:suite "inst / value semantics & printing" :label "works as map key" :expected ":v" :actual "(get {#inst \"2020-01-01T00:00:00Z\" :v} #inst \"2020-01-01T00:00:00.000Z\")"} + {:suite "inst / value semantics & printing" :label "pr-str round-trips" :expected "\"#inst \\\"2020-01-01T00:00:00.000-00:00\\\"\"" :actual "(pr-str #inst \"2020-01-01T00:00:00Z\")"} + {:suite "io / with-out-str captures" :label "println" :expected "\"hi\\n\"" :actual "(with-out-str (println \"hi\"))"} + {:suite "io / with-out-str captures" :label "print spaces" :expected "\"a b\"" :actual "(with-out-str (print \"a\" \"b\"))"} + {:suite "io / with-out-str captures" :label "prn quotes" :expected "\"[1 2]\\n\"" :actual "(with-out-str (prn [1 2]))"} + {:suite "io / with-out-str captures" :label "pr no newline" :expected "\"5\"" :actual "(with-out-str (pr 5))"} + {:suite "io / with-out-str captures" :label "multiple writes" :expected "\"12\"" :actual "(with-out-str (print 1) (print 2))"} + {:suite "io / with-out-str captures" :label "no output" :expected "\"\"" :actual "(with-out-str 42)"} + {:suite "io / with-out-str captures" :label "println no args" :expected "\"\\n\"" :actual "(with-out-str (println))"} + {:suite "io / *-str builders" :label "print-str" :expected "\"a b\"" :actual "(print-str \"a\" \"b\")"} + {:suite "io / *-str builders" :label "println-str" :expected "\"x\\n\"" :actual "(println-str \"x\")"} + {:suite "io / *-str builders" :label "prn-str" :expected "\"[1 2]\\n\"" :actual "(prn-str [1 2])"} + {:suite "io / *-str builders" :label "pr-str quotes" :expected "\"\\\"s\\\"\"" :actual "(pr-str \"s\")"} + {:suite "io / *-str builders" :label "pr-str keyword" :expected "\":a\"" :actual "(pr-str :a)"} + {:suite "io / str & format" :label "str concat" :expected "\"1:ab\"" :actual "(str 1 :a \"b\")"} + {:suite "io / str & format" :label "str nil" :expected "\"\"" :actual "(str nil)"} + {:suite "io / str & format" :label "str of coll" :expected "\"[1 2]\"" :actual "(str [1 2])"} + {:suite "io / str & format" :label "format d/s" :expected "\"5-x\"" :actual "(format \"%d-%s\" 5 \"x\")"} + {:suite "io / str & format" :label "format float" :expected "\"3.14\"" :actual "(format \"%.2f\" 3.14159)"} + {:suite "io / *in* + with-in-str + read-line" :label "read-line one line" :expected "\"hello\"" :actual "(with-in-str \"hello\" (read-line))"} + {:suite "io / *in* + with-in-str + read-line" :label "read-line strips nl" :expected "\"a\"" :actual "(with-in-str \"a\\nb\" (read-line))"} + {:suite "io / *in* + with-in-str + read-line" :label "read-line sequential" :expected "[\"a\" \"b\"]" :actual "(with-in-str \"a\\nb\" [(read-line) (read-line)])"} + {:suite "io / *in* + with-in-str + read-line" :label "read-line EOF nil" :expected "nil" :actual "(with-in-str \"\" (read-line))"} + {:suite "io / *in* + with-in-str + read-line" :label "read-line after last" :expected "[\"x\" nil]" :actual "(with-in-str \"x\" [(read-line) (read-line)])"} + {:suite "io / *in* + with-in-str + read-line" :label "empty line" :expected "[\"\" \"y\"]" :actual "(with-in-str \"\\ny\" [(read-line) (read-line)])"} + {:suite "io / *in* + with-in-str + read-line" :label "*in* is bound" :expected "false" :actual "(with-in-str \"\" (map? *in*))"} + {:suite "io / read" :label "read a form" :expected "42" :actual "(with-in-str \"42\" (read))"} + {:suite "io / read" :label "read a list form" :expected "(quote (+ 1 2))" :actual "(with-in-str \"(+ 1 2)\" (read))"} + {:suite "io / read" :label "read two forms" :expected "[1 2]" :actual "(with-in-str \"1 2\" [(read) (read)])"} + {:suite "io / read" :label "read then read-line" :expected "[1 \" rest\"]" :actual "(with-in-str \"1 rest\\nnext\" [(read) (read-line)])"} + {:suite "io / read" :label "read vector" :expected "[1 2]" :actual "(with-in-str \"[1 2]\" (read))"} + {:suite "io / read" :label "read nil literal" :expected "nil" :actual "(with-in-str \"nil\" (read))"} + {:suite "io / read" :label "read EOF throws" :expected :throws :actual "(with-in-str \"\" (read))"} + {:suite "io / read" :label "read EOF value" :expected ":done" :actual "(with-in-str \"\" (read *in* false :done))"} + {:suite "io / read" :label "read eval data" :expected "3" :actual "(with-in-str \"(+ 1 2)\" (eval (read)))"} + {:suite "io / line-seq" :label "line-seq" :expected "[\"a\" \"b\" \"c\"]" :actual "(with-in-str \"a\\nb\\nc\" (vec (line-seq *in*)))"} + {:suite "io / line-seq" :label "line-seq empty" :expected "nil" :actual "(with-in-str \"\" (seq (line-seq *in*)))"} + {:suite "io / line-seq" :label "line-seq is lazy seq" :expected "true" :actual "(with-in-str \"a\\nb\" (seq? (line-seq *in*)))"} + {:suite "io / line-seq" :label "line-seq count" :expected "3" :actual "(with-in-str \"1\\n2\\n3\" (count (line-seq *in*)))"} + {:suite "io / print family (overlay)" :label "pr-str multi-arg spacing" :expected "\"\\\"a\\\" [1 2] :k\"" :actual "(pr-str \"a\" [1 2] :k)"} + {:suite "io / print family (overlay)" :label "pr-str zero args" :expected "\"\"" :actual "(pr-str)"} + {:suite "io / print family (overlay)" :label "pr-str escapes" :expected "\"\\\"a\\\\\\\"b\\\"\"" :actual "(pr-str \"a\\\"b\")"} + {:suite "io / print family (overlay)" :label "print is unreadable" :expected "\"a b\"" :actual "(with-out-str (print \"a\" \"b\"))"} + {:suite "io / print family (overlay)" :label "println appends newline" :expected "\"x 1\\n\"" :actual "(with-out-str (println \"x\" 1))"} + {:suite "io / print family (overlay)" :label "prn is readable + newline" :expected "\"[1 \\\"s\\\"]\\n\"" :actual "(with-out-str (prn [1 \"s\"]))"} + {:suite "io / print family (overlay)" :label "pr writes no newline" :expected "\"\\\\a\"" :actual "(with-out-str (pr \\a))"} + {:suite "io / print family (overlay)" :label "print nil arg" :expected "\"nil\"" :actual "(with-out-str (print nil))"} + {:suite "io / print family (overlay)" :label "prn keyword" :expected "\":k\\n\"" :actual "(with-out-str (prn :k))"} + {:suite "io / print-method multimethod" :label "records print canonically" :expected "\"#user.Pt{:x 1, :y 2}\"" :actual "(do (defrecord Pt [x y]) (pr-str (->Pt 1 2)))"} + {:suite "io / print-method multimethod" :label "records nested in colls" :expected "\"[#user.Pt{:x 1, :y 2}]\"" :actual "(do (defrecord Pt [x y]) (pr-str [(->Pt 1 2)]))"} + {:suite "io / print-method multimethod" :label "defmethod overrides a record, top level" :expected "\"#user.Pt{:x 3, :y 4}\"" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] (.write w (str \"<\" (:x r) \",\" (:y r) \">\"))) (pr-str (->Pt 3 4)))"} + {:suite "io / print-method multimethod" :label "defmethod fires nested in a map" :expected "\"{:p #user.Pt{:x 5, :y 6}}\"" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] (.write w (str \"<\" (:x r) \",\" (:y r) \">\"))) (pr-str {:p (->Pt 5 6)}))"} + {:suite "io / print-method multimethod" :label "defmethod fires through prn" :expected "\"[#user.Pt{:x 1, :y 2}]\\n\"" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] (.write w (str \"<\" (:x r) \",\" (:y r) \">\"))) (with-out-str (prn [(->Pt 1 2)])))"} + {:suite "io / print-method multimethod" :label "direct call uses :default" :expected "\"42\"" :actual "(let [w (StringWriter.)] (print-method 42 w) (.toString w))"} + {:suite "io / print-method multimethod" :label "direct builtin override" :expected "\"#42#\"" :actual "(do (defmethod print-method :number [n w] (.write w (str \"#\" n \"#\"))) (let [w (StringWriter.)] (print-method 42 w) (.toString w)))"} + {:suite "io / print-method multimethod" :label "print-dup routes to print-method" :expected "\"[1 2]\"" :actual "(let [w (StringWriter.)] (print-dup [1 2] w) (.toString w))"} + {:suite "io / print-method multimethod" :label "StringWriter accumulates" :expected "\"ab\"" :actual "(let [w (StringWriter.)] (.write w \"a\") (.append w \\b) (.toString w))"} + {:suite "io / print-method multimethod" :label "methods table inspectable" :expected "true" :actual "(do (defrecord Pt [x y]) (defmethod print-method (quote user.Pt) [r w] r) (contains? (methods print-method) (quote user.Pt)))"} + {:suite "io / cold tagged types via print-method" :label "uuid" :expected "\"#uuid \\\"b6883c0a-0342-4007-9966-bc2dfa6b109e\\\"\"" :actual "(pr-str (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "io / cold tagged types via print-method" :label "uuid nested" :expected "\"[#uuid \\\"b6883c0a-0342-4007-9966-bc2dfa6b109e\\\"]\"" :actual "(pr-str [(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")])"} + {:suite "io / cold tagged types via print-method" :label "regex" :expected "\"#\\\"a+b\\\"\"" :actual "(pr-str #\"a+b\")"} + {:suite "io / cold tagged types via print-method" :label "transient vector" :expected "\"#object[clojure.lang.PersistentVector$TransientVector 0xa4ac20b \\\"clojure.lang.PersistentVector$TransientVector@a4ac20b\\\"]\"" :actual "(pr-str (transient [1]))"} + {:suite "io / cold tagged types via print-method" :label "transient map" :expected "\"#object[clojure.lang.PersistentArrayMap$TransientArrayMap 0x79939c8 \\\"clojure.lang.PersistentArrayMap$TransientArrayMap@79939c8\\\"]\"" :actual "(pr-str (transient {:a 1}))"} + {:suite "io / cold tagged types via print-method" :label "atom override fires nested" :expected "\"{:a #object[clojure.lang.Atom 0x2bb39d6c {:status :ready, :val 7}]}\"" :actual "(do (defmethod print-method :jolt/atom [a w] (.write w (str \"#atom[\" (deref a) \"]\"))) (pr-str {:a (atom 7)}))"} + {:suite "io / cold tagged types via print-method" :label "uuid through str unchanged" :expected "\"b6883c0a-0342-4007-9966-bc2dfa6b109e\"" :actual "(str (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "ISeq call forms" :label "eval a cons'd call" :expected "3" :actual "(eval (cons (quote +) (quote (1 2))))"} + {:suite "ISeq call forms" :label "eval a list-built call" :expected "6" :actual "(eval (list (quote +) 1 2 3))"} + {:suite "ISeq call forms" :label "eval a concat'd call" :expected "10" :actual "(eval (concat (list (quote +)) (list 1 2 3 4)))"} + {:suite "ISeq call forms" :label "nested cons'd subform" :expected "7" :actual "(eval (list (quote +) 3 (cons (quote +) (quote (1 3)))))"} + {:suite "ISeq call forms" :label "empty list self-evals" :expected "[]" :actual "(eval (list))"} + {:suite "ISeq call forms" :label "macro output via cons" :expected "3" :actual "(do (defmacro mc [] (cons (quote +) (quote (1 2)))) (mc))"} + {:suite "ISeq call forms" :label "macro output via concat" :expected "6" :actual "(do (defmacro mk [] (concat (list (quote +)) (list 1 2 3))) (mk))"} + {:suite "ISeq call forms" :label "vector value self-evals" :expected "[1 2 3]" :actual "(eval (vec [1 2 3]))"} + {:suite "ISeq call forms" :label "quoted list of data" :expected "[1 2 3]" :actual "(quote (1 2 3))"} + {:suite "lazy / construction & laziness" :label "lazy-seq value" :expected "[1 2 3]" :actual "(take 3 (lazy-seq (cons 1 (lazy-seq (cons 2 (lazy-seq (cons 3 nil)))))))"} + {:suite "lazy / construction & laziness" :label "not eagerly evaluated" :expected "0" :actual "(let [c (atom 0)] (lazy-seq (swap! c inc) nil) @c)"} + {:suite "lazy / construction & laziness" :label "realized on demand" :expected "1" :actual "(let [c (atom 0) s (lazy-seq (swap! c inc) [1])] (first s) @c)"} + {:suite "lazy / construction & laziness" :label "lazy-cat" :expected "[0 1 2 3]" :actual "(lazy-cat [0 1] [2 3])"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "map" :expected "0" :actual "(let [a (atom 0)] (map (fn [x] (swap! a inc) x) (range 5)) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "filter" :expected "0" :actual "(let [a (atom 0)] (filter (fn [x] (swap! a inc) true) (range 5)) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "remove" :expected "0" :actual "(let [a (atom 0)] (remove (fn [x] (swap! a inc) false) (range 5)) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "take over a lazy source" :expected "0" :actual "(let [a (atom 0)] (take 3 (map (fn [x] (swap! a inc) x) (range 100))) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "drop over a lazy source" :expected "0" :actual "(let [a (atom 0)] (drop 2 (map (fn [x] (swap! a inc) x) (range 100))) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "concat over lazy sources" :expected "0" :actual "(let [a (atom 0)] (concat (map (fn [x] (swap! a inc) x) [1 2]) (map (fn [x] (swap! a inc) x) [3 4])) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "take-while" :expected "0" :actual "(let [a (atom 0)] (take-while (fn [x] (swap! a inc) true) (range 5)) @a)"} + {:suite "lazy / seq fns are lazy (no side effect at construction)" :label "partition over a lazy source" :expected "0" :actual "(let [a (atom 0)] (partition 2 (map (fn [x] (swap! a inc) x) (range 6))) @a)"} + {:suite "lazy / result type is LazySeq" :label "map/filter/take/concat/mapcat are LazySeq" :expected "[true true true true true]" :actual "(mapv #(instance? clojure.lang.LazySeq %) [(map inc [1]) (filter odd? [1]) (take 1 [1]) (concat [1]) (mapcat list [1])])"} + {:suite "lazy / construction & laziness" :label "doall forces" :expected "[2 3 4]" :actual "(doall (map inc [1 2 3]))"} + {:suite "lazy / construction & laziness" :label "dorun returns nil" :expected "nil" :actual "(dorun (map inc [1 2 3]))"} + {:suite "lazy / infinite" :label "take from repeat" :expected "[7 7 7]" :actual "(take 3 (repeat 7))"} + {:suite "lazy / infinite" :label "take from iterate" :expected "[1 2 4 8]" :actual "(take 4 (iterate (fn [x] (* 2 x)) 1))"} + {:suite "lazy / infinite" :label "take from cycle" :expected "[1 2 1 2]" :actual "(take 4 (cycle [1 2]))"} + {:suite "lazy / infinite" :label "take from range" :expected "[0 1 2]" :actual "(take 3 (range))"} + {:suite "lazy / infinite" :label "drop then take" :expected "[5 6 7]" :actual "(take 3 (drop 5 (range)))"} + {:suite "lazy / infinite" :label "filter infinite" :expected "[0 2 4]" :actual "(take 3 (filter even? (range)))"} + {:suite "lazy / infinite" :label "map infinite" :expected "[0 1 4]" :actual "(take 3 (map (fn [x] (* x x)) (range)))"} + {:suite "lazy / infinite" :label "nth of infinite" :expected "100" :actual "(nth (range) 100)"} + {:suite "lazy / self-referential" :label "self-ref ones" :expected "[1 1 1 1 1]" :actual "(do (def ones (lazy-seq (cons 1 ones))) (take 5 ones))"} + {:suite "lazy / self-referential" :label "self-ref nats" :expected "[0 1 2 3 4]" :actual "(do (def nats (lazy-cat [0] (map inc nats))) (take 5 nats))"} + {:suite "lazy / self-referential" :label "self-ref fib" :expected "[0 1 1 2 3 5 8 13 21 34]" :actual "(do (def fib (lazy-cat [0 1] (map + (rest fib) fib))) (take 10 fib))"} + {:suite "lazy / realized?" :label "unrealized" :expected "false" :actual "(realized? (lazy-seq (cons 1 nil)))"} + {:suite "lazy / realized?" :label "realized after" :expected "true" :actual "(let [s (lazy-seq (cons 1 nil))] (first s) (realized? s))"} + {:suite "lazy / realized?" :label "body runs once" :expected "1" :actual "(let [c (atom 0) s (lazy-seq (do (swap! c inc) [1 2 3]))] (seq s) (seq s) @c)"} + {:suite "lazy-seq / realization is shared across walks" :label "effects run once across three walks" :expected "3" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) [1 2 3])] (doall s) (dorun s) (vec s) (deref a))"} + {:suite "lazy-seq / realization is shared across walks" :label "values stable across walks" :expected "true" :actual "(let [s (map inc [1 2 3])] (= (vec s) (vec s) [2 3 4]))"} + {:suite "lazy-seq / realization is shared across walks" :label "filter effects once" :expected "4" :actual "(let [a (atom 0) s (filter (fn [x] (swap! a inc) (odd? x)) [1 2 3 4])] (dorun s) (count s) (deref a))"} + {:suite "lazy / realization order & count" :label "map realizes left-to-right" :expected "[1 2 3]" :actual "(let [log (atom [])] (dorun (map (fn [x] (swap! log conj x) x) (list 1 2 3))) @log)"} + {:suite "lazy / realization order & count" :label "filter realizes left-to-right" :expected "[1 2 3]" :actual "(let [log (atom [])] (dorun (filter (fn [x] (swap! log conj x) true) (list 1 2 3))) @log)"} + {:suite "lazy / realization order & count" :label "take realizes exactly n, no over-realization" :expected "3" :actual "(let [a (atom 0)] (dorun (take 3 (map (fn [x] (swap! a inc) x) (iterate inc 0)))) @a)"} + {:suite "lazy / realization order & count" :label "nth realizes exactly index+1" :expected "3" :actual "(let [a (atom 0)] (nth (map (fn [x] (swap! a inc) x) (iterate inc 0)) 2) @a)"} + {:suite "lazy / realization order & count" :label "drop+first realizes through the index" :expected "3" :actual "(let [a (atom 0)] (first (drop 2 (map (fn [x] (swap! a inc) x) (iterate inc 0)))) @a)"} + {:suite "lazy / realization is memoized" :label "first twice realizes once" :expected "1" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (first s) (first s) @a)"} + {:suite "lazy / realization is memoized" :label "wider take extends, does not re-realize" :expected "4" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (doall (take 2 s)) (doall (take 4 s)) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "keep" :expected "0" :actual "(let [a (atom 0)] (keep (fn [x] (swap! a inc) x) (range 5)) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "keep-indexed" :expected "0" :actual "(let [a (atom 0)] (keep-indexed (fn [i x] (swap! a inc) x) (range 5)) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "map-indexed" :expected "0" :actual "(let [a (atom 0)] (map-indexed (fn [i x] (swap! a inc) x) (range 5)) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "distinct" :expected "0" :actual "(let [a (atom 0)] (distinct (map (fn [x] (swap! a inc) x) (range 5))) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "partition-by" :expected "0" :actual "(let [a (atom 0)] (partition-by (fn [x] (swap! a inc) x) (range 5)) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "partition-all" :expected "0" :actual "(let [a (atom 0)] (partition-all 2 (map (fn [x] (swap! a inc) x) (range 5))) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "interpose" :expected "0" :actual "(let [a (atom 0)] (interpose 0 (map (fn [x] (swap! a inc) x) (range 5))) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "interleave" :expected "0" :actual "(let [a (atom 0)] (interleave (map (fn [x] (swap! a inc) x) (range 5)) (range 5)) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "take-nth" :expected "0" :actual "(let [a (atom 0)] (take-nth 2 (map (fn [x] (swap! a inc) x) (range 5))) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "reductions" :expected "0" :actual "(let [a (atom 0)] (reductions + (map (fn [x] (swap! a inc) x) (range 5))) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "tree-seq" :expected "0" :actual "(let [a (atom 0)] (tree-seq (fn [x] (swap! a inc) false) identity [1 [2]]) @a)"} + {:suite "lazy / family is lazy at construction (no side effect)" :label "replace over a seq" :expected "0" :actual "(let [a (atom 0)] (replace {} (map (fn [x] (swap! a inc) x) (range 5))) @a)"} + {:suite "lazy / realization timing" :label "sequence realizes the first element" :expected "1" :actual "(let [a (atom 0)] (sequence (map (fn [x] (swap! a inc) x)) (range 5)) @a)"} + {:suite "lazy / realization timing" :label "next realizes head + one lookahead" :expected "2" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (next s) @a)"} + {:suite "lazy / realization timing" :label "rest realizes only the head" :expected "1" :actual "(let [a (atom 0) s (map (fn [x] (swap! a inc) x) (iterate inc 0))] (rest s) @a)"} + {:suite "list / construct & predicate" :label "list" :expected "[1 2 3]" :actual "(list 1 2 3)"} + {:suite "list / construct & predicate" :label "empty list" :expected "[]" :actual "(list)"} + {:suite "list / construct & predicate" :label "quoted list" :expected "[1 2 3]" :actual "(quote (1 2 3))"} + {:suite "list / construct & predicate" :label "list? true" :expected "true" :actual "(list? (list 1 2))"} + {:suite "list / construct & predicate" :label "list? on conj result" :expected "true" :actual "(list? (conj (list 1) 0))"} + {:suite "list / construct & predicate" :label "count" :expected "3" :actual "(count (list 1 2 3))"} + {:suite "list / construct & predicate" :label "empty? true" :expected "true" :actual "(empty? (list))"} + {:suite "list / construct & predicate" :label "list = vector elts" :expected "true" :actual "(= (list 1 2 3) [1 2 3])"} + {:suite "list / access & update" :label "first" :expected "1" :actual "(first (list 1 2 3))"} + {:suite "list / access & update" :label "rest" :expected "[2 3]" :actual "(rest (list 1 2 3))"} + {:suite "list / access & update" :label "peek is first" :expected "1" :actual "(peek (list 1 2 3))"} + {:suite "list / access & update" :label "pop drops first" :expected "[2 3]" :actual "(pop (list 1 2 3))"} + {:suite "list / access & update" :label "conj prepends" :expected "[0 1 2]" :actual "(conj (list 1 2) 0)"} + {:suite "list / access & update" :label "conj many prepends" :expected "[4 3 1 2]" :actual "(conj (list 1 2) 3 4)"} + {:suite "list / access & update" :label "cons prepends" :expected "[0 1 2]" :actual "(cons 0 (list 1 2))"} + {:suite "list / access & update" :label "nth" :expected "20" :actual "(nth (list 10 20 30) 1)"} + {:suite "list / immutability & performance" :label "conj does not mutate" :expected "true" :actual "(let [l (list 1 2 3) m (conj l 0)] (and (= l [1 2 3]) (= m [0 1 2 3])))"} + {:suite "list / immutability & performance" :label "reduce conj builds" :expected "[2 1 0]" :actual "(reduce conj (list) (range 3))"} + {:suite "list / immutability & performance" :label "O(1) conj at scale" :expected "200000" :actual "(count (reduce conj (list) (range 200000)))"} + {:suite "list / immutability & performance" :label "scale head correct" :expected "199999" :actual "(first (reduce conj (list) (range 200000)))"} + {:suite "macros / quoting" :label "quote symbol" :expected "(quote a)" :actual "(quote a)"} + {:suite "macros / quoting" :label "quote list" :expected "[1 2 3]" :actual "(quote (1 2 3))"} + {:suite "macros / quoting" :label "quote nested" :expected "[1 [2 3]]" :actual "(quote (1 (2 3)))"} + {:suite "macros / quoting" :label "quote sugar" :expected "'a" :actual "'a"} + {:suite "macros / quoting" :label "syntax-quote literal" :expected "[1 2]" :actual "`[1 2]"} + {:suite "macros / quoting" :label "unquote" :expected "[1 2 3]" :actual "(let [x 2] `[1 ~x 3])"} + {:suite "macros / quoting" :label "unquote-splicing" :expected "[1 2 3 4]" :actual "(let [xs [2 3]] `[1 ~@xs 4])"} + {:suite "macros / quoting" :label "unquote in list" :expected "[3]" :actual "(let [x 3] `(~x))"} + {:suite "macros / quoting" :label "syntax-quote symbol qualifies" :expected "true" :actual "(symbol? `foo)"} + {:suite "macros / defmacro" :label "simple macro" :expected "3" :actual "(do (defmacro m [a b] `(+ ~a ~b)) (m 1 2))"} + {:suite "macros / defmacro" :label "macro unless" :expected "1" :actual "(do (defmacro unless [c body] `(if ~c nil ~body)) (unless false 1))"} + {:suite "macros / defmacro" :label "macro with body splice" :expected "6" :actual "(do (defmacro msum [& xs] `(+ ~@xs)) (msum 1 2 3))"} + {:suite "macros / defmacro" :label "macroexpand-1" :expected "false" :actual "(do (defmacro m [x] `(inc ~x)) (list? (macroexpand-1 '(m 5))))"} + {:suite "macros / defmacro" :label "gensym unique" :expected "false" :actual "(= (gensym) (gensym))"} + {:suite "macros / defmacro" :label "gensym# in template" :expected "true" :actual "(do (defmacro m [] `(let [x# 1] x#)) (= 1 (m)))"} + {:suite "macros / defmacro" :label "#() inside syntax-quote" :expected "[2 4 6]" :actual "(do (defmacro m [] `(mapv #(* % 2) [1 2 3])) (m))"} + {:suite "macros / defmacro" :label "#() + auto-gensym share in template" :expected "\"ab\"" :actual "(do (defmacro m [] `(let [sb# (StringBuilder.)] (mapv #(.append sb# %) [\"a\" \"b\"]) (.toString sb#))) (m))"} + {:suite "macros / core-overlay" :label "if-not true branch" :expected ":then" :actual "(if-not false :then :else)"} + {:suite "macros / core-overlay" :label "if-not else branch" :expected ":else" :actual "(if-not true :then :else)"} + {:suite "macros / core-overlay" :label "if-not no else" :expected "nil" :actual "(if-not true :then)"} + {:suite "macros / core-overlay" :label "if-not no else hit" :expected ":then" :actual "(if-not false :then)"} + {:suite "macros / core-overlay" :label "comment -> nil" :expected "nil" :actual "(comment a b c)"} + {:suite "macros / core-overlay" :label "comment in do" :expected "42" :actual "(do (comment ignored) 42)"} + {:suite "macros / core-overlay" :label "if-let then" :expected "6" :actual "(if-let [x 5] (inc x) :none)"} + {:suite "macros / core-overlay" :label "if-let else" :expected ":none" :actual "(if-let [x nil] (inc x) :none)"} + {:suite "macros / core-overlay" :label "if-let else scope" :expected "9" :actual "(let [x 9] (if-let [x nil] :t x))"} + {:suite "macros / core-overlay" :label "if-some zero" :expected "1" :actual "(if-some [x 0] (inc x) :none)"} + {:suite "macros / core-overlay" :label "if-some nil" :expected ":none" :actual "(if-some [x nil] x :none)"} + {:suite "macros / core-overlay" :label "when-some multi" :expected "14" :actual "(when-some [x 7] (inc x) (* x 2))"} + {:suite "macros / core-overlay" :label "when-some nil" :expected "nil" :actual "(when-some [x nil] x)"} + {:suite "macros / core-overlay" :label "while loop" :expected "3" :actual "(let [a (atom 0)] (while (< @a 3) (swap! a inc)) @a)"} + {:suite "macros / core-overlay" :label "dotimes sum" :expected "10" :actual "(let [a (atom 0)] (dotimes [i 5] (swap! a + i)) @a)"} + {:suite "macros / core-overlay" :label "as-> threads" :expected "12" :actual "(as-> 5 x (+ x 1) (* x 2))"} + {:suite "macros / core-overlay" :label "as-> no forms" :expected "5" :actual "(as-> 5 x)"} + {:suite "macros / core-overlay" :label "some-> through" :expected "6" :actual "(some-> {:a {:b 5}} :a :b inc)"} + {:suite "macros / core-overlay" :label "some-> short-circuit" :expected "nil" :actual "(some-> {:a nil} :a :b)"} + {:suite "macros / core-overlay" :label "some->> through" :expected "9" :actual "(some->> [1 2 3] (map inc) (reduce +))"} + {:suite "macros / core-overlay" :label "some->> nil" :expected "nil" :actual "(some->> nil (map inc))"} + {:suite "macros / core-overlay" :label "doto returns obj" :expected "[1 2]" :actual "(deref (doto (atom []) (swap! conj 1) (swap! conj 2)))"} + {:suite "macros / core-overlay" :label "when-first" :expected "20" :actual "(when-first [x [10 20 30]] (* x 2))"} + {:suite "macros / core-overlay" :label "when-first empty" :expected "nil" :actual "(when-first [x []] :body)"} + {:suite "macros / core-overlay" :label "when-first nil coll" :expected "nil" :actual "(when-first [x nil] :body)"} + {:suite "macros / core-overlay" :label "when-first range" :expected "0" :actual "(when-first [x (range 5)] x)"} + {:suite "macros / core-overlay" :label "cond->> threads" :expected "12" :actual "(cond->> 5 true (+ 1) false (* 100) true (* 2))"} + {:suite "macros / core-overlay" :label "cond->> skip" :expected "10" :actual "(cond->> 10 false (+ 1))"} + {:suite "macros / core-overlay" :label "assert pass" :expected ":ok" :actual "(do (assert (= 1 1)) :ok)"} + {:suite "macros / core-overlay" :label "assert throws" :expected ":threw" :actual "(try (assert (= 1 2)) (catch :default e :threw))"} + {:suite "macros / core-overlay" :label "assert message" :expected "\"Assert failed: nope\\nfalse\"" :actual "(try (assert false \"nope\") (catch AssertionError e (ex-message e)))"} + {:suite "macros / core-overlay" :label "delay value" :expected "42" :actual "(deref (delay 42))"} + {:suite "macros / core-overlay" :label "delay forces once" :expected "1" :actual "(let [c (atom 0) d (delay (swap! c inc))] @d @d @c)"} + {:suite "macros / core-overlay" :label "future deref" :expected "9" :actual "(deref (future (* 3 3)))"} + {:suite "macros / core-overlay" :label "letfn simple" :expected "25" :actual "(letfn [(sq [x] (* x x))] (sq 5))"} + {:suite "macros / core-overlay" :label "letfn mutual" :expected "true" :actual "(letfn [(ev? [n] (if (zero? n) true (od? (dec n)))) (od? [n] (if (zero? n) false (ev? (dec n))))] (ev? 8))"} + {:suite "macros / core-overlay" :label "condp match" :expected ":two" :actual "(condp = 2 1 :one 2 :two 3 :three)"} + {:suite "macros / core-overlay" :label "condp default" :expected ":else" :actual "(condp = 9 1 :one 2 :two :else)"} + {:suite "macros / core-overlay" :label "condp :>> form" :expected "\"got 2\"" :actual "(condp some [1 2 3] #{0 9} :>> (fn [x] (str \"got \" x)) #{2 6} :>> (fn [x] (str \"got \" x)))"} + {:suite "macros / core-overlay" :label "condp no match" :expected ":threw" :actual "(try (condp = 9 1 :one) (catch :default e :threw))"} + {:suite "macros / core-overlay" :label "binding rebinds" :expected "99" :actual "(do (def ^:dynamic *bx* 10) (binding [*bx* 99] *bx*))"} + {:suite "macros / core-overlay" :label "binding restores" :expected "10" :actual "(do (def ^:dynamic *by* 10) (binding [*by* 99] *by*) *by*)"} + {:suite "macros / core-overlay" :label "binding seen by fn" :expected "7" :actual "(do (def ^:dynamic *bz* 0) (defn rdz [] *bz*) (binding [*bz* 7] (rdz)))"} + {:suite "macros / time, with-redefs, macroexpand" :label "time returns value" :expected "3" :actual "(time (+ 1 2))"} + {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs rebinds" :expected "42" :actual "(do (defn wr-f [] 1) (with-redefs [wr-f (fn [] 42)] (wr-f)))"} + {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs restores" :expected "1" :actual "(do (defn wr-g [] 1) (with-redefs [wr-g (fn [] 42)]) (wr-g))"} + {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs restores on throw" :expected "1" :actual "(do (defn wr-h [] 1) (try (with-redefs [wr-h (fn [] 42)] (throw (ex-info \"x\" {}))) (catch :default e nil)) (wr-h))"} + {:suite "macros / time, with-redefs, macroexpand" :label "with-redefs-fn" :expected "42" :actual "(do (defn wr-i [] 1) (with-redefs-fn {(var wr-i) (fn [] 42)} (fn [] (wr-i))))"} + {:suite "macros / time, with-redefs, macroexpand" :label "macroexpand full" :expected "true" :actual "(let [e (macroexpand (quote (when-not false 1)))] (= (quote if) (first e)))"} + {:suite "macros / time, with-redefs, macroexpand" :label "macroexpand non-macro" :expected "[1 2]" :actual "(macroexpand (quote [1 2]))"} + {:suite "macros / defmacro arity-clause & name metadata" :label "arity-clause form" :expected "10" :actual "(do (defmacro tw ([x] (list (quote *) x 2))) (tw 5))"} + {:suite "macros / defmacro arity-clause & name metadata" :label "docstring + arity" :expected "15" :actual "(do (defmacro th \"triple\" ([x] (list (quote *) x 3))) (th 5))"} + {:suite "macros / defmacro arity-clause & name metadata" :label "^{:map} name meta" :expected "7" :actual "(do (defmacro ^{:private true} pm [] 7) (pm))"} + {:suite "macros / defmacro arity-clause & name metadata" :label "multi-form body" :expected "6" :actual "(do (defmacro mb ([a b] (list (quote +) a b))) (mb 2 4))"} + {:suite "macros / defmacro multi-arity & attr-map" :label "multi-arity 1" :expected "6" :actual "(do (defmacro ma ([a] (list (quote +) a 1)) ([a b] (list (quote +) a b))) (ma 5))"} + {:suite "macros / defmacro multi-arity & attr-map" :label "multi-arity 2" :expected "5" :actual "(do (defmacro ma ([a] (list (quote +) a 1)) ([a b] (list (quote +) a b))) (ma 2 3))"} + {:suite "macros / defmacro multi-arity & attr-map" :label "arity delegates" :expected "[:d nil 9]" :actual "(do (defmacro lg ([m] `(lg :d nil ~m)) ([l t m] (list (quote vector) l t m))) (lg 9))"} + {:suite "macros / defmacro multi-arity & attr-map" :label "doc + attr-map + params" :expected "10" :actual "(do (defmacro am \"doc\" {:arglists (quote ([x]))} [x] (list (quote inc) x)) (am 9))"} + {:suite "macros / defmacro multi-arity & attr-map" :label "doc + attr-map + variadic" :expected "6" :actual "(do (defmacro vg \"d\" {:arglists (quote ([& a]))} [& xs] `(+ ~@xs)) (vg 1 2 3))"} + {:suite "maps / keyword invoke" :label "hit" :expected "1" :actual "(:a {:a 1 :b 2})"} + {:suite "maps / keyword invoke" :label "miss" :expected "nil" :actual "(:z {:a 1})"} + {:suite "maps / keyword invoke" :label "miss with default" :expected ":d" :actual "(:z {:a 1} :d)"} + {:suite "maps / keyword invoke" :label "hit with default" :expected "1" :actual "(:a {:a 1} :d)"} + {:suite "maps / keyword invoke" :label "on nil" :expected "nil" :actual "(:a nil)"} + {:suite "maps / keyword invoke" :label "on nil with default" :expected ":d" :actual "(:a nil :d)"} + {:suite "maps / keyword invoke" :label "nil value is present" :expected "nil" :actual "(:a {:a nil} :d)"} + {:suite "maps / keyword invoke" :label "false value is present" :expected "false" :actual "(:a {:a false} :d)"} + {:suite "maps / keyword invoke" :label "on a vector" :expected "nil" :actual "(:a [1 2 3])"} + {:suite "maps / keyword invoke" :label "on a number" :expected "nil" :actual "(:a 42)"} + {:suite "maps / keyword invoke" :label "on a sorted map" :expected "2" :actual "(:b (sorted-map :a 1 :b 2))"} + {:suite "maps / keyword invoke" :label "on assoc result" :expected "3" :actual "(:c (assoc {:a 1} :c 3))"} + {:suite "maps / keyword invoke" :label "on a record field" :expected "5" :actual "(do (defrecord KFP [x]) (:x (->KFP 5)))"} + {:suite "maps / keyword invoke" :label "qualified keyword" :expected "1" :actual "(:n/a {:n/a 1})"} + {:suite "maps / keyword invoke" :label "nested in expr" :expected "6" :actual "(+ (:a {:a 1}) (:b {:b 2}) (:c {:c 3}))"} + {:suite "maps / keyword invoke" :label "evaluates map expr once" :expected "[2 1]" :actual "(do (def cnt (atom 0)) (let [v (:a (do (swap! cnt inc) {:a 2}))] [v @cnt]))"} + {:suite "maps / literal construction" :label "basic" :expected "{:a 1, :b 2}" :actual "{:a 1 :b 2}"} + {:suite "maps / literal construction" :label "empty" :expected "{}" :actual "{}"} + {:suite "maps / literal construction" :label "computed values" :expected "{:a 3}" :actual "{:a (+ 1 2)}"} + {:suite "maps / literal construction" :label "nil value kept" :expected "true" :actual "(contains? {:a nil} :a)"} + {:suite "maps / literal construction" :label "nil value lookup" :expected "nil" :actual "(get {:a nil} :a :d)"} + {:suite "maps / literal construction" :label "string key" :expected "1" :actual "(get {\"k\" 1} \"k\")"} + {:suite "maps / literal construction" :label "number key" :expected ":one" :actual "(get {1 :one} 1)"} + {:suite "maps / literal construction" :label "collection key" :expected ":v" :actual "(get {[1 2] :v} [1 2])"} + {:suite "maps / literal construction" :label "collection value-equal key" :expected ":v" :actual "(get {[1 2] :v} (vector 1 2))"} + {:suite "maps / literal construction" :label "computed key" :expected "1" :actual "(get {(keyword \"a\") 1} :a)"} + {:suite "maps / literal construction" :label "values evaluate in source order" :expected "[1 2 3]" :actual "(do (def log (atom [])) {:a (swap! log conj 1) :b (swap! log conj 2) :c (swap! log conj 3)} (deref log))"} + {:suite "maps / literal construction" :label "keys evaluate before their values, pairwise" :expected "[:k1 :v1 :k2 :v2]" :actual "(do (def log (atom [])) {(do (swap! log conj :k1) :a) (do (swap! log conj :v1) 1) (do (swap! log conj :k2) :b) (do (swap! log conj :v2) 2)} (deref log))"} + {:suite "maps / literal construction" :label "source order with a nil value (phm form)" :expected "[1 2 3]" :actual "(do (def log (atom [])) {:a (do (swap! log conj 1) nil) :b (swap! log conj 2) :c (swap! log conj 3)} (deref log))"} + {:suite "maps / literal construction" :label "source order through syntax-quote" :expected "[2 1]" :actual "(do (def log (atom [])) (defmacro m-p3c [] `{:a ~(list 'swap! 'log 'conj 1) :b ~(list 'swap! 'log 'conj 2)}) (m-p3c) (deref log))"} + {:suite "maps / literal construction" :label "count" :expected "3" :actual "(count {:a 1 :b 2 :c 3})"} + {:suite "maps / literal construction" :label "equality with phm" :expected "true" :actual "(= {:a 1 :b 2} (assoc {:a 1} :b 2))"} + {:suite "maps / literal construction" :label "keys work after assoc" :expected "2" :actual "(:b (assoc {:a 1 :b 2} :c 3))"} + {:suite "maps / literal construction" :label "literal in fn body" :expected "12" :actual "(do (defn mfp-mk [x] {:v (* x 2)}) (:v (mfp-mk 6)))"} + {:suite "maps / insertion order" :label "small literal keys" :expected "[:c :a :b]" :actual "(vec (keys {:c 3 :a 1 :b 2}))"} + {:suite "maps / insertion order" :label "small literal vals" :expected "[3 1 2]" :actual "(vec (vals {:c 3 :a 1 :b 2}))"} + {:suite "maps / insertion order" :label "seq follows keys" :expected "[:c :a :b]" :actual "(mapv key (seq {:c 3 :a 1 :b 2}))"} + {:suite "maps / insertion order" :label "array-map any size" :expected "[:z :y :x :w :v :u :t :s :r :q]" :actual "(vec (keys (array-map :z 1 :y 2 :x 3 :w 4 :v 5 :u 6 :t 7 :s 8 :r 9 :q 10)))"} + {:suite "maps / insertion order" :label "assoc appends new key" :expected "[:c :a :z]" :actual "(vec (keys (assoc {:c 3 :a 1} :z 9)))"} + {:suite "maps / insertion order" :label "assoc replace keeps position" :expected "[:c :a]" :actual "(vec (keys (assoc {:c 3 :a 1} :c 9)))"} + {:suite "maps / insertion order" :label "dissoc preserves order" :expected "[:c :b]" :actual "(vec (keys (dissoc {:c 3 :a 1 :b 2} :a)))"} + {:suite "maps / insertion order" :label "into onto empty (<=8)" :expected "[:c :a :b]" :actual "(vec (keys (into {} [[:c 3] [:a 1] [:b 2]])))"} + {:suite "maps / insertion order" :label "reduce assoc" :expected "[:e :d :c :b :a]" :actual "(vec (keys (reduce (fn [m k] (assoc m k k)) {} [:e :d :c :b :a])))"} + {:suite "maps / insertion order" :label "conj a map merges in order" :expected "[:a :b :c]" :actual "(vec (keys (conj {:a 1} {:b 2 :c 3})))"} + {:suite "maps / insertion order" :label "merge keeps right-hand order" :expected "[:a :c :b]" :actual "(vec (keys (merge {:a 1} {:c 3 :b 2})))"} + {:suite "maps / insertion order" :label "assoc stays ordered through 8 entries" :expected "true" :actual "(= (vec (keys (reduce (fn [m i] (assoc m (keyword (str \"k\" i)) i)) {} (range 8)))) (mapv (fn [i] (keyword (str \"k\" i))) (range 8)))"} + {:suite "maps / insertion order" :label "assoc promotes to hash past 8 entries" :expected "9" :actual "(count (reduce (fn [m i] (assoc m (keyword (str \"k\" i)) i)) {} (range 9)))"} + {:suite "maps / insertion order" :label "array-map keeps order past 8" :expected "[:k0 :k1 :k2 :k3 :k4 :k5 :k6 :k7 :k8 :k9 :k10 :k11]" :actual "(vec (keys (apply array-map (mapcat (fn [i] [(keyword (str \"k\" i)) i]) (range 12)))))"} + {:suite "maps / insertion order" :label "update-keys preserves order" :expected "[:a :b :c]" :actual "(vec (keys (update-vals (array-map :a 1 :b 2 :c 3) inc)))"} + {:suite "maps / insertion order" :label "zipmap from ordered keys/vals" :expected "[:c :a :b]" :actual "(vec (keys (zipmap (keys {:c 3 :a 1 :b 2}) (vals {:c 3 :a 1 :b 2}))))"} + {:suite "maps / insertion order" :label "select-keys follows keyseq" :expected "[:c :a]" :actual "(vec (keys (select-keys {:a 1 :b 2 :c 3} [:c :a])))"} + {:suite "maps / insertion order" :label "frequencies first-occurrence order" :expected "[:c :a :b]" :actual "(vec (keys (frequencies [:c :a :b :a])))"} + {:suite "maps / insertion order" :label "group-by first-occurrence order" :expected "[:c :a :b]" :actual "(vec (keys (group-by identity [:c :a :b :a])))"} + {:suite "clojure.math" :label "sqrt" :expected "true" :actual "(< 1.4142 (clojure.math/sqrt 2) 1.4143)"} + {:suite "clojure.math" :label "pow" :expected "1024" :actual "(long (clojure.math/pow 2 10))"} + {:suite "clojure.math" :label "tan of 0" :expected "0" :actual "(long (clojure.math/tan 0))"} + {:suite "clojure.math" :label "round" :expected "3" :actual "(clojure.math/round 2.6)"} + {:suite "clojure.math" :label "floor" :expected "2.0" :actual "(clojure.math/floor 2.9)"} + {:suite "clojure.math" :label "signum" :expected "-1.0" :actual "(clojure.math/signum -7.2)"} + {:suite "clojure.math" :label "to-radians" :expected "true" :actual "(< 3.14 (clojure.math/to-radians 180) 3.15)"} + {:suite "clojure.math" :label "PI" :expected "true" :actual "(< 3.14 clojure.math/PI 3.15)"} + {:suite "clojure.math" :label "require + alias" :expected "5" :actual "(do (require '[clojure.math :as m]) (long (m/hypot 3 4)))"} + {:suite "clojure.math" :label "as a value" :expected "[1 2]" :actual "(mapv (comp long clojure.math/sqrt) [1 4])"} + {:suite "calls / locals named like core macros" :label "local fn named repeat" :expected "[1 1]" :actual "(let [repeat (fn [x] [x x])] (repeat 1))"} + {:suite "calls / locals named like core macros" :label "local fn named seq" :expected ":end" :actual "((fn seq [n] (if (pos? n) (seq (dec n)) :end)) 2)"} + {:suite "calls / locals named like core macros" :label "local fn named loop2" :expected "[2 1]" :actual "(let [with (fn [a b] [b a])] (with 1 2))"} + {:suite "calls / locals named like core macros" :label "overlay repeat self-call (regression)" :expected "[0 0 0]" :actual "(take 3 (repeat 0))"} + {:suite "calls / locals named like core macros" :label "closure param called" :expected "42" :actual "((fn [f] (f 41)) inc)"} + {:suite "calls / locals named like core macros" :label "param holding a keyword (IFn leftover)" :expected "1" :actual "((fn [f] (f {:a 1})) :a)"} + {:suite "map / construct & predicate" :label "literal" :expected "{:a 1}" :actual "{:a 1}"} + {:suite "map / construct & predicate" :label "hash-map" :expected "{:b 2, :a 1}" :actual "(hash-map :a 1 :b 2)"} + {:suite "map / construct & predicate" :label "empty" :expected "{}" :actual "{}"} + {:suite "map / construct & predicate" :label "map? true" :expected "true" :actual "(map? {:a 1})"} + {:suite "map / construct & predicate" :label "map? false on vector" :expected "false" :actual "(map? [1 2])"} + {:suite "map / construct & predicate" :label "count" :expected "2" :actual "(count {:a 1 :b 2})"} + {:suite "map / construct & predicate" :label "empty? true" :expected "true" :actual "(empty? {})"} + {:suite "map / construct & predicate" :label "equality order-indep" :expected "true" :actual "(= {:a 1 :b 2} {:b 2 :a 1})"} + {:suite "map / access" :label "get" :expected "1" :actual "(get {:a 1} :a)"} + {:suite "map / access" :label "get missing nil" :expected "nil" :actual "(get {:a 1} :z)"} + {:suite "map / access" :label "get default" :expected ":x" :actual "(get {:a 1} :z :x)"} + {:suite "map / access" :label "keyword as fn" :expected "1" :actual "(:a {:a 1})"} + {:suite "map / access" :label "keyword fn default" :expected ":x" :actual "(:z {:a 1} :x)"} + {:suite "map / access" :label "map as fn" :expected "1" :actual "({:a 1} :a)"} + {:suite "map / access" :label "get-in" :expected "2" :actual "(get-in {:a {:b 2}} [:a :b])"} + {:suite "map / access" :label "get-in missing" :expected "nil" :actual "(get-in {:a {}} [:a :b])"} + {:suite "map / access" :label "contains? key" :expected "true" :actual "(contains? {:a 1} :a)"} + {:suite "map / access" :label "contains? missing" :expected "false" :actual "(contains? {:a 1} :z)"} + {:suite "map / access" :label "find returns entry" :expected "[:a 1]" :actual "(find {:a 1} :a)"} + {:suite "map / access" :label "keys" :expected "true" :actual "(= #{:a :b} (set (keys {:a 1 :b 2})))"} + {:suite "map / access" :label "vals" :expected "true" :actual "(= #{1 2} (set (vals {:a 1 :b 2})))"} + {:suite "map / update" :label "assoc adds" :expected "{:a 1, :b 2}" :actual "(assoc {:a 1} :b 2)"} + {:suite "map / update" :label "assoc overwrites" :expected "{:a 9}" :actual "(assoc {:a 1} :a 9)"} + {:suite "map / update" :label "assoc many" :expected "{:a 1, :b 2}" :actual "(assoc {} :a 1 :b 2)"} + {:suite "map / update" :label "dissoc" :expected "{:a 1}" :actual "(dissoc {:a 1 :b 2} :b)"} + {:suite "map / update" :label "dissoc many" :expected "{:a 1}" :actual "(dissoc {:a 1 :b 2 :c 3} :b :c)"} + {:suite "map / update" :label "merge" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} {:b 2})"} + {:suite "map / update" :label "merge overwrites" :expected "{:a 2}" :actual "(merge {:a 1} {:a 2})"} + {:suite "map / update" :label "merge lattermost wins" :expected "{:a 3}" :actual "(merge {:a 1} {:a 2} {:a 3})"} + {:suite "map / update" :label "merge no args -> nil" :expected "nil" :actual "(merge)"} + {:suite "map / update" :label "merge all nil -> nil" :expected "nil" :actual "(merge nil nil)"} + {:suite "map / update" :label "merge nil arg no-op" :expected "{:a 1}" :actual "(merge {:a 1} nil)"} + {:suite "map / update" :label "merge nil then map" :expected "{:a 1}" :actual "(merge nil {:a 1})"} + {:suite "map / update" :label "merge empty + nil" :expected "{}" :actual "(merge {} nil)"} + {:suite "map / update" :label "merge map-entry (conj)" :expected "{:a 1}" :actual "(merge {} (first {:a 1}))"} + {:suite "map / update" :label "merge [k v] vector" :expected "{:foo 1}" :actual "(merge {} [:foo 1])"} + {:suite "map / update" :label "merge collection key" :expected "true" :actual "(= {[2 3] :foo} (merge {[2 3] :foo} nil {}))"} + {:suite "map / update" :label "merge-with" :expected "{:a 3}" :actual "(merge-with + {:a 1} {:a 2})"} + {:suite "map / update" :label "update" :expected "{:a 2}" :actual "(update {:a 1} :a inc)"} + {:suite "map / update" :label "update missing w/ fnil" :expected "{:a 1}" :actual "(update {} :a (fnil inc 0))"} + {:suite "map / update" :label "update-in" :expected "{:a {:b 2}}" :actual "(update-in {:a {:b 1}} [:a :b] inc)"} + {:suite "map / update" :label "assoc-in" :expected "{:a {:b 1}}" :actual "(assoc-in {} [:a :b] 1)"} + {:suite "map / update" :label "select-keys" :expected "{:a 1}" :actual "(select-keys {:a 1 :b 2} [:a])"} + {:suite "map / update" :label "into onto map" :expected "{:a 1, :b 2}" :actual "(into {:a 1} [[:b 2]])"} + {:suite "map / update" :label "zipmap" :expected "{:a 1, :b 2}" :actual "(zipmap [:a :b] [1 2])"} + {:suite "map / iteration & entries" :label "map over entries" :expected "true" :actual "(= #{1 2} (set (map val {:a 1 :b 2})))"} + {:suite "map / iteration & entries" :label "map keys" :expected "true" :actual "(= #{:a :b} (set (map key {:a 1 :b 2})))"} + {:suite "map / iteration & entries" :label "reduce over entries" :expected "6" :actual "(reduce (fn [a e] (+ a (val e))) 0 {:a 1 :b 2 :c 3})"} + {:suite "map / iteration & entries" :label "reduce-kv" :expected "6" :actual "(reduce-kv (fn [a k v] (+ a v)) 0 {:a 1 :b 2 :c 3})"} + {:suite "map / iteration & entries" :label "destructure entry" :expected "true" :actual "(= [[:a 2]] (into [] (map (fn [[k v]] [k (inc v)]) {:a 1})))"} + {:suite "map / iteration & entries" :label "first of map is entry" :expected "true" :actual "(let [e (first {:a 1})] (and (= (key e) :a) (= (val e) 1)))"} + {:suite "map / iteration & entries" :label "map-entry?" :expected "true" :actual "(map-entry? (first {:a 1}))"} + {:suite "map / iteration & entries" :label "count of nil map" :expected "0" :actual "(count nil)"} + {:suite "map / iteration & entries" :label "get from nil" :expected "nil" :actual "(get nil :a)"} + {:suite "map / iteration & entries" :label "immutability" :expected "true" :actual "(let [m {:a 1} n (assoc m :b 2)] (and (= m {:a 1}) (= n {:a 1 :b 2})))"} + {:suite "map / collection keys (by value)" :label "vector key literal" :expected ":v" :actual "(get {[1 2] :v} [1 2])"} + {:suite "map / collection keys (by value)" :label "map key literal" :expected ":v" :actual "(get {(hash-map :a 1) :v} {:a 1})"} + {:suite "map / collection keys (by value)" :label "assoc vector key" :expected ":v" :actual "(get (assoc {} [1 2] :v) [1 2])"} + {:suite "map / collection keys (by value)" :label "key across repr" :expected ":v" :actual "(get (assoc {} (vec [1 2]) :v) [1 2])"} + {:suite "map / collection keys (by value)" :label "frequencies of maps" :expected "2" :actual "(get (frequencies [{:a 1} (hash-map :a 1)]) {:a 1})"} + {:suite "map / collection keys (by value)" :label "group-by collection key" :expected "1" :actual "(count (group-by identity [{:a 1} (hash-map :a 1)]))"} + {:suite "map / nil inside a collection key" :label "set key w/ nil distinct" :expected "2" :actual "(count {#{nil 1} :a, #{1} :b})"} + {:suite "map / nil inside a collection key" :label "set key w/ nil neg lookup" :expected "nil" :actual "(get {#{nil 1} :a} #{1})"} + {:suite "map / nil inside a collection key" :label "set key w/ nil pos lookup" :expected ":a" :actual "(get {#{nil 1} :a} #{nil 1})"} + {:suite "map / nil inside a collection key" :label "set key just nil distinct" :expected "false" :actual "(= {#{nil} :x} {#{} :x})"} + {:suite "map / nil inside a collection key" :label "map nil-value key distinct" :expected "2" :actual "(count {{:a nil} 1, {} 2})"} + {:suite "map / nil inside a collection key" :label "map nil-value key neg" :expected "nil" :actual "(get {{:a nil} 1} {})"} + {:suite "map / nil inside a collection key" :label "map nil-value key pos" :expected "1" :actual "(get {{:a nil} 1} {:a nil})"} + {:suite "map / nil inside a collection key" :label "map nil-key key distinct" :expected "2" :actual "(count {{nil :a} 1, {} 2})"} + {:suite "map / nil inside a collection key" :label "map nil-key key pos" :expected "1" :actual "(get {{nil :a} 1} {nil :a})"} + {:suite "map / strictness (throws like Clojure)" :label "assoc vec out of bounds" :expected :throws :actual "(assoc [0 1 2] 4 4)"} + {:suite "map / strictness (throws like Clojure)" :label "assoc vec negative" :expected :throws :actual "(assoc [] -1 0)"} + {:suite "map / strictness (throws like Clojure)" :label "assoc vec at count ok" :expected "[1 2 3]" :actual "(assoc [1 2] 2 3)"} + {:suite "map / strictness (throws like Clojure)" :label "dissoc on number" :expected :throws :actual "(dissoc 42 :a)"} + {:suite "map / strictness (throws like Clojure)" :label "dissoc on vector" :expected :throws :actual "(dissoc [1 2] 0)"} + {:suite "map / strictness (throws like Clojure)" :label "dissoc on set" :expected :throws :actual "(dissoc #{:a} :a)"} + {:suite "map / strictness (throws like Clojure)" :label "dissoc nil ok" :expected "nil" :actual "(dissoc nil :a)"} + {:suite "map / strictness (throws like Clojure)" :label "count on number" :expected :throws :actual "(count 1)"} + {:suite "map / strictness (throws like Clojure)" :label "count on keyword" :expected :throws :actual "(count :a)"} + {:suite "map / strictness (throws like Clojure)" :label "count string ok" :expected "3" :actual "(count \"abc\")"} + {:suite "map / strictness (throws like Clojure)" :label "numerator throws" :expected :throws :actual "(numerator 1)"} + {:suite "map / strictness (throws like Clojure)" :label "denominator throws" :expected :throws :actual "(denominator 2)"} + {:suite "map / strictness (throws like Clojure)" :label "subvec out of range" :expected :throws :actual "(subvec [0 1 2 3] 1 5)"} + {:suite "map / strictness (throws like Clojure)" :label "subvec start>end" :expected :throws :actual "(subvec [0 1 2 3] 3 2)"} + {:suite "map / strictness (throws like Clojure)" :label "subvec ok" :expected "[1 2]" :actual "(subvec [0 1 2 3] 1 3)"} + {:suite "map / strictness (throws like Clojure)" :label "min-key empty" :expected :throws :actual "(apply min-key identity [])"} + {:suite "map / strictness (throws like Clojure)" :label "merge empty vector" :expected :throws :actual "(merge {} [])"} + {:suite "map / strictness (throws like Clojure)" :label "merge 1-elem vector" :expected :throws :actual "(merge {} [:foo])"} + {:suite "map / strictness (throws like Clojure)" :label "merge atomic arg" :expected :throws :actual "(merge {} :foo)"} + {:suite "map / strictness (throws like Clojure)" :label "merge [k v] ok" :expected "{:foo 1}" :actual "(merge {} [:foo 1])"} + {:suite "map / strictness (throws like Clojure)" :label "merge maps ok" :expected "{:a 1, :b 2}" :actual "(merge {:a 1} {:b 2})"} + {:suite "map / map-entry & key ordering" :label "key of entry" :expected ":a" :actual "(key (first {:a 1}))"} + {:suite "map / map-entry & key ordering" :label "val of entry" :expected "1" :actual "(val (first {:a 1}))"} + {:suite "map / map-entry & key ordering" :label "key rejects vector" :expected :throws :actual "(key [:a 1])"} + {:suite "map / map-entry & key ordering" :label "val rejects vector" :expected :throws :actual "(val [:a 1])"} + {:suite "map / map-entry & key ordering" :label "map-entry? entry" :expected "true" :actual "(map-entry? (first {:a 1}))"} + {:suite "map / map-entry & key ordering" :label "map-entry? vector" :expected "false" :actual "(map-entry? [:a 1])"} + {:suite "map / map-entry & key ordering" :label "min-key NaN first" :expected "1" :actual "(min-key identity ##NaN 1)"} + {:suite "map / map-entry & key ordering" :label "min-key NaN last" :expected "true" :actual "(NaN? (min-key identity 1 ##NaN))"} + {:suite "map / map-entry & key ordering" :label "min-key NaN three" :expected "true" :actual "(infinite? (min-key identity ##NaN ##-Inf 1))"} + {:suite "map / map-entry & key ordering" :label "min-key keys nonnum" :expected :throws :actual "(min-key identity \"x\" \"y\")"} + {:suite "map / map-entry & key ordering" :label "max-key picks max" :expected "[1 2 3]" :actual "(max-key count [1] [1 2 3] [1 2])"} + {:suite "map / map-entry & key ordering" :label "subvec float trunc" :expected "[0]" :actual "(subvec [0 1 2] 0.5 1.33)"} + {:suite "map / map-entry & key ordering" :label "subvec NaN start" :expected "[0 1 2]" :actual "(subvec [0 1 2] ##NaN 3)"} + {:suite "map / map-entry & key ordering" :label "subvec NaN end" :expected "[]" :actual "(subvec [0 1 2] 0 ##NaN)"} + {:suite "map / nil values preserved" :label "literal contains" :expected "true" :actual "(contains? {:b nil} :b)"} + {:suite "map / nil values preserved" :label "literal not= empty" :expected "false" :actual "(= {:b nil} {})"} + {:suite "map / nil values preserved" :label "literal get nil" :expected "nil" :actual "(get {:b nil} :b :x)"} + {:suite "map / nil values preserved" :label "literal keys incl nil" :expected "true" :actual "(= #{:a :b} (set (keys {:a nil :b 1})))"} + {:suite "map / nil values preserved" :label "literal count" :expected "2" :actual "(count {:a nil :b 1})"} + {:suite "map / nil values preserved" :label "literal vals incl nil" :expected "2" :actual "(count (vals {:a nil :b 1}))"} + {:suite "map / nil values preserved" :label "eval values w/ nil" :expected "3" :actual "(:a {:a (+ 1 2) :b nil})"} + {:suite "map / nil values preserved" :label "nil key present" :expected "true" :actual "(contains? {nil :v} nil)"} + {:suite "map / nil values preserved" :label "assoc nil present" :expected "true" :actual "(contains? (assoc {:a 1} :b nil) :b)"} + {:suite "map / nil values preserved" :label "assoc nil get" :expected "nil" :actual "(get (assoc {:a 1} :b nil) :b :x)"} + {:suite "map / nil values preserved" :label "assoc overwrite nil" :expected "nil" :actual "(get (assoc {:a 1} :a nil) :a :x)"} + {:suite "map / nil values preserved" :label "hash-map nil" :expected "true" :actual "(contains? (hash-map :b nil) :b)"} + {:suite "map / nil values preserved" :label "merge new nil" :expected "true" :actual "(contains? (merge {:a 1} {:b nil}) :b)"} + {:suite "map / nil values preserved" :label "merge overwrite nil" :expected "nil" :actual "(get (merge {:a 1} {:a nil}) :a :x)"} + {:suite "map / nil values preserved" :label "merge-with present nil" :expected "true" :actual "(= [nil 1] (get (merge-with (fn [a b] [a b]) {:a nil} {:a 1}) :a))"} + {:suite "map / nil values preserved" :label "into nil val" :expected "true" :actual "(contains? (into {} [[:a nil]]) :a)"} + {:suite "map / nil values preserved" :label "conj map nil" :expected "true" :actual "(contains? (conj {:x 1} {:a nil}) :a)"} + {:suite "map / nil values preserved" :label "zipmap nil" :expected "true" :actual "(contains? (zipmap [:a] [nil]) :a)"} + {:suite "map / nil values preserved" :label "select-keys nil" :expected "true" :actual "(contains? (select-keys {:a nil} [:a]) :a)"} + {:suite "map / nil values preserved" :label "get-in present nil" :expected "nil" :actual "(get-in {:a nil} [:a] :x)"} + {:suite "map / nil values preserved" :label "get-in through nil" :expected ":x" :actual "(get-in {:a nil} [:a :b] :x)"} + {:suite "map / nil values preserved" :label "dissoc keeps nil" :expected "true" :actual "(contains? (dissoc {:a nil :b 1} :b) :a)"} + {:suite "map / nil values preserved" :label "reduce-kv sees nil" :expected "true" :actual "(= #{:a :b} (reduce-kv (fn [acc k v] (conj acc k)) #{} {:a nil :b 2}))"} + {:suite "map / nil values preserved" :label "nil-free stays fast" :expected "true" :actual "(= {:a 1 :b 2} {:b 2 :a 1})"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-keys" :expected "{\"a\" 1, \"b\" 2}" :actual "(update-keys {:a 1 :b 2} name)"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-keys empty" :expected "{}" :actual "(update-keys {} inc)"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-keys nil" :expected "{}" :actual "(update-keys nil str)"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-keys collide last wins" :expected "1" :actual "(count (update-keys {:a 1 :b 2} (fn [_] :k)))"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-vals" :expected "{:a 2, :b 3}" :actual "(update-vals {:a 1 :b 2} inc)"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-vals empty" :expected "{}" :actual "(update-vals {} inc)"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-vals nil" :expected "{}" :actual "(update-vals nil inc)"} + {:suite "map / update-keys & update-vals (1.11)" :label "update-vals keeps keys" :expected "[:a :b]" :actual "(sort (keys (update-vals {:a 1 :b 2} inc)))"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "keys" :expected "[:a]" :actual "(keys {:a 1})"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "keys empty map" :expected "nil" :actual "(keys {})"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "keys nil" :expected "nil" :actual "(keys nil)"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "vals" :expected "[1]" :actual "(vals {:a 1})"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "vals empty" :expected "nil" :actual "(vals {})"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "keys sorted order" :expected "[1 2 3]" :actual "(vec (keys (sorted-map 2 :b 1 :a 3 :c)))"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "vals sorted order" :expected "[:a :b :c]" :actual "(vec (vals (sorted-map 2 :b 1 :a 3 :c)))"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "keys/vals zip" :expected "{:a 1, :b 2}" :actual "(zipmap (keys {:a 1 :b 2}) (vals {:a 1 :b 2}))"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? map" :expected "true" :actual "(empty? {})"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? vec" :expected "[true false]" :actual "[(empty? []) (empty? [1])]"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? list" :expected "[true false]" :actual "[(empty? ()) (empty? (list 1))]"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? string" :expected "[true false]" :actual "[(empty? \"\") (empty? \"a\")]"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? nil" :expected "true" :actual "(empty? nil)"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? set" :expected "[true false]" :actual "[(empty? #{}) (empty? #{1})]"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? lazy" :expected "[true false]" :actual "[(empty? (filter pos? [-1])) (empty? (map inc [1]))]"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? lazy nil elem" :expected "false" :actual "(empty? (cons nil nil))"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? sorted" :expected "[true false]" :actual "[(empty? (sorted-map)) (empty? (sorted-set 1))]"} + {:suite "maps / keys-vals-empty? as overlay fns" :label "empty? number throws" :expected :throws :actual "(empty? 5)"} + {:suite "map / assoc on nil" :label "assoc nil is a map" :expected "{:a 1}" :actual "(assoc nil :a 1)"} + {:suite "map / assoc on nil" :label "count of assoc nil" :expected "1" :actual "(count (assoc nil :a 1))"} + {:suite "map / assoc on nil" :label "assoc-in nested countable" :expected "1" :actual "(count (:a (assoc-in {} [:a :b] 1)))"} + {:suite "map / assoc on nil" :label "assoc-in deep get" :expected "9" :actual "(get-in (assoc-in {} [:a :b :c] 9) [:a :b :c])"} + {:suite "map / assoc on nil" :label "seq over assoc-nil map" :expected ":a" :actual "(ffirst (seq (assoc nil :a 1)))"} + {:suite "map / assoc on nil" :label "keys of assoc-nil map" :expected "[:a]" :actual "(vec (keys (assoc nil :a 1)))"} + {:suite "map / bulk build boundaries" :label "into = incr at 17" :expected "true" :actual "(= (into {} (map (fn [i] [i (* i 2)]) (range 17))) (reduce (fn [m p] (assoc m (first p) (second p))) {} (map (fn [i] [i (* i 2)]) (range 17))))"} + {:suite "map / bulk build boundaries" :label "into = incr at 1000" :expected "true" :actual "(= (into {} (map (fn [i] [i (* i 2)]) (range 1000))) (reduce (fn [m p] (assoc m (first p) (second p))) {} (map (fn [i] [i (* i 2)]) (range 1000))))"} + {:suite "map / bulk build boundaries" :label "into count 1000" :expected "1000" :actual "(count (into {} (map (fn [i] [i i]) (range 1000))))"} + {:suite "map / bulk build boundaries" :label "into reads back" :expected "999" :actual "(get (into {} (map (fn [i] [i (* i 3)]) (range 1000))) 333)"} + {:suite "map / bulk build boundaries" :label "into onto non-empty" :expected "9" :actual "(get (into {:a 1} [[:a 9] [:b 2]]) :a)"} + {:suite "map / bulk build boundaries" :label "into dup last wins" :expected "9" :actual "(get (into {} [[:k 1] [:k 9]]) :k)"} + {:suite "map / bulk build boundaries" :label "into nil key" :expected ":x" :actual "(get (into {} [[nil :x] [:a 1]]) nil)"} + {:suite "map / bulk build boundaries" :label "assoc after bulk" :expected "7" :actual "(get (assoc (into {} (map (fn [i] [i i]) (range 100))) :new 7) :new)"} + {:suite "map / bulk build boundaries" :label "dissoc after bulk" :expected "nil" :actual "(get (dissoc (into {} (map (fn [i] [i i]) (range 100))) 50) 50)"} + {:suite "map / bulk build boundaries" :label "frequencies count" :expected "3" :actual "(get (frequencies [1 2 2 1 2 1]) 1)"} + {:suite "map / bulk build boundaries" :label "frequencies coll-key" :expected "2" :actual "(get (frequencies [[1 2] [1 2] [3 4]]) [1 2])"} + {:suite "map / bulk build boundaries" :label "frequencies nil key" :expected "2" :actual "(get (frequencies [nil nil 1]) nil)"} + {:suite "map / bulk build boundaries" :label "group-by nil key" :expected "[nil nil]" :actual "(get (group-by identity [nil nil 1]) nil)"} + {:suite "map / bulk build boundaries" :label "group-by nil count" :expected "2" :actual "(count (group-by identity [nil nil 1]))"} + {:suite "map / bulk build boundaries" :label "transient nil key" :expected ":x" :actual "(let [t (transient {})] (assoc! t nil :x) (get (persistent! t) nil))"} + {:suite "map / bulk build boundaries" :label "transient nil get" :expected "true" :actual "(let [t (transient {})] (assoc! t nil :x) (contains? t nil))"} + {:suite "map / bulk build boundaries" :label "transient nil dissoc" :expected ":gone" :actual "(let [t (transient {})] (assoc! t nil :x) (dissoc! t nil) (get (persistent! t) nil :gone))"} + {:suite "map / bulk build boundaries" :label "group-by bucket" :expected "[1 3 5]" :actual "(get (group-by odd? (range 1 6)) true)"} + {:suite "map / bulk build boundaries" :label "group-by big bucket" :expected "true" :actual "(= (group-by even? (range 200)) {true (vec (filter even? (range 200))) false (vec (filter odd? (range 200)))})"} + {:suite "map / bulk build boundaries" :label "group-by order" :expected "[0 3 6 9]" :actual "(get (group-by (fn [x] (mod x 3)) (range 10)) 0)"} + {:suite "map / bulk build boundaries" :label "hash-map bulk = incr" :expected "true" :actual "(= (apply hash-map (mapcat (fn [i] [i i]) (range 50))) (reduce (fn [m i] (assoc m i i)) {} (range 50)))"} + {:suite "metadata / with-meta & meta" :label "meta of bare value" :expected "nil" :actual "(meta [1 2 3])"} + {:suite "metadata / with-meta & meta" :label "with-meta then meta" :expected "{:a 1}" :actual "(meta (with-meta [1 2 3] {:a 1}))"} + {:suite "metadata / with-meta & meta" :label "with-meta preserves value" :expected "true" :actual "(= [1 2 3] (with-meta [1 2 3] {:a 1}))"} + {:suite "metadata / with-meta & meta" :label "with-meta on map" :expected "{:doc \"x\"}" :actual "(meta (with-meta {:k 1} {:doc \"x\"}))"} + {:suite "metadata / with-meta & meta" :label "vary-meta" :expected "{:a 2}" :actual "(meta (vary-meta (with-meta [1] {:a 1}) update :a inc))"} + {:suite "metadata / with-meta & meta" :label "vary-meta extra args" :expected "{:a 1, :b 2}" :actual "(meta (vary-meta (with-meta [1] {:a 1}) assoc :b 2))"} + {:suite "metadata / with-meta & meta" :label "meta reader ^" :expected "{:tag :int}" :actual "(meta ^{:tag :int} [1 2])"} + {:suite "metadata / with-meta & meta" :label "with-meta on fn ok" :expected "true" :actual "(fn? (with-meta inc {:a 1}))"} + {:suite "metadata / with-meta & meta" :label "with-meta nil clears" :expected "nil" :actual "(meta (with-meta [1 2 3] nil))"} + {:suite "metadata / type hints" :label "type hint on param" :expected "\"hi\"" :actual "(do (defn f [^String s] s) (f \"hi\"))"} + {:suite "metadata / type hints" :label "type hint, extra params" :expected "[1 2]" :actual "(do (defn g [^String x y] [x y]) (g 1 2))"} + {:suite "metadata / type hints" :label "type hint in let" :expected "6" :actual "(let [^long x 5] (inc x))"} + {:suite "metadata / type hints" :label "type hint in body" :expected "2" :actual "(let [s \"ab\"] (count ^String s))"} + {:suite "metadata / type hints" :label "type hint in destructure" :expected "3" :actual "(let [{:keys [^long a]} {:a 3}] a)"} + {:suite "metadata / type hints" :label "symbol hint -> :tag is a symbol" :expected "true" :actual "(symbol? (:tag (meta (read-string \"^String x\"))))"} + {:suite "metadata / type hints" :label "symbol hint -> :tag name" :expected "\"String\"" :actual "(name (:tag (meta (read-string \"^String x\"))))"} + {:suite "metadata / type hints" :label "keyword hint -> true" :expected "true" :actual "(:foo (meta (read-string \"^:foo x\")))"} + {:suite "metadata / read data metadata" :label "vector data meta" :expected "{:ref true}" :actual "(meta (read-string \"^:ref [:greeting]\"))"} + {:suite "metadata / read data metadata" :label "map data meta" :expected "{:k 1}" :actual "(meta (read-string \"^{:k 1} {:a 2}\"))"} + {:suite "metadata / read data metadata" :label "set data meta" :expected "{:s true}" :actual "(meta (read-string \"^:s #{1 2}\"))"} + {:suite "metadata / read data metadata" :label "nested vector data meta" :expected "{:x true}" :actual "(meta (second (read-string \"[1 ^:x {:a 2}]\")))"} + {:suite "metadata / read data metadata" :label "collection value unchanged" :expected "[:greeting]" :actual "(read-string \"^:ref [:greeting]\")"} + {:suite "metadata / coll literal in code keeps meta" :label "vector literal meta" :expected "{:foo true}" :actual "(meta ^:foo [1 2])"} + {:suite "metadata / coll literal in code keeps meta" :label "map literal meta with expr" :expected "{:a 3}" :actual "(meta ^{:a (+ 1 2)} [1])"} + {:suite "metadata / coll literal in code keeps meta" :label "map literal value-eval order" :expected "[1 2]" :actual "(let [a (atom [])] ^:t {(do (swap! a conj 1) :a) 1 (do (swap! a conj 2) :b) 2} @a)"} + {:suite "metadata / *print-meta*" :label "pr-str prefixes ^meta" :expected "\"^{:ref true} [:g]\"" :actual "(binding [*print-meta* true] (pr-str (with-meta [:g] {:ref true})))"} + {:suite "metadata / *print-meta*" :label "off by default" :expected "\"[:g]\"" :actual "(pr-str (with-meta [:g] {:ref true}))"} + {:suite "metadata / *print-meta*" :label "symbol meta prefixed" :expected "\"^{:k 1} x\"" :actual "(binding [*print-meta* true] (pr-str (with-meta (quote x) {:k 1})))"} + {:suite "metadata / *print-meta*" :label "print then read round-trips" :expected "{:ref true}" :actual "(meta (read-string (binding [*print-meta* true] (pr-str (with-meta [:g] {:ref true})))))"} + {:suite "metadata / clojure.walk preserves meta" :label "postwalk keeps vector meta" :expected "{:ref true}" :actual "(do (require (quote [clojure.walk :as w])) (meta (w/postwalk identity (with-meta [:b] {:ref true}))))"} + {:suite "metadata / clojure.walk preserves meta" :label "postwalk keeps map meta" :expected "{:m 1}" :actual "(do (require (quote [clojure.walk :as w])) (meta (w/postwalk identity (with-meta {:a 2} {:m 1}))))"} + {:suite "metadata / clojure.edn preserves meta" :label "edn vector meta" :expected "{:ref true}" :actual "(do (require (quote [clojure.edn :as e1])) (meta (e1/read-string \"^:ref [:greeting]\")))"} + {:suite "metadata / clojure.edn preserves meta" :label "edn map meta" :expected "{:m true}" :actual "(do (require (quote [clojure.edn :as e1])) (meta (e1/read-string \"^:m {:a 1}\")))"} + {:suite "metadata / clojure.edn preserves meta" :label "edn set meta" :expected "{:s true}" :actual "(do (require (quote [clojure.edn :as e1])) (meta (e1/read-string \"^:s #{1}\")))"} + {:suite "metadata / collection ops preserve meta" :label "empty keeps vector meta" :expected "{:k 9}" :actual "(meta (empty (with-meta [1] {:k 9})))"} + {:suite "metadata / collection ops preserve meta" :label "empty keeps map meta" :expected "{:k 9}" :actual "(meta (empty (with-meta {:a 1} {:k 9})))"} + {:suite "metadata / collection ops preserve meta" :label "empty keeps set meta" :expected "{:k 9}" :actual "(meta (empty (with-meta #{1} {:k 9})))"} + {:suite "metadata / collection ops preserve meta" :label "empty keeps list meta" :expected "{:k 9}" :actual "(meta (empty (with-meta (list 1) {:k 9})))"} + {:suite "metadata / collection ops preserve meta" :label "into empty keeps meta" :expected "{:k 9}" :actual "(meta (into (empty (with-meta {:a 1} {:k 9})) {:b 2}))"} + {:suite "metadata / collection ops preserve meta" :label "into target meta" :expected "{:k 9}" :actual "(meta (into (with-meta [] {:k 9}) [1 2]))"} + {:suite "metadata / collection ops preserve meta" :label "conj on vector" :expected "{:k 9}" :actual "(meta (conj (with-meta [1] {:k 9}) 2))"} + {:suite "metadata / collection ops preserve meta" :label "conj on list" :expected "{:k 9}" :actual "(meta (conj (with-meta (list 1) {:k 9}) 2))"} + {:suite "metadata / collection ops preserve meta" :label "assoc on map" :expected "{:k 9}" :actual "(meta (assoc (with-meta {:a 1} {:k 9}) :b 2))"} + {:suite "metadata / collection ops preserve meta" :label "dissoc on map" :expected "{:k 9}" :actual "(meta (dissoc (with-meta {:a 1 :c 3} {:k 9}) :c))"} + {:suite "metadata / collection ops preserve meta" :label "disj on set" :expected "{:k 9}" :actual "(meta (disj (with-meta #{1 2} {:k 9}) 2))"} + {:suite "metadata / collection ops preserve meta" :label "pop on vector" :expected "{:k 9}" :actual "(meta (pop (with-meta [1 2] {:k 9})))"} + {:suite "metadata / collection ops preserve meta" :label "op without meta is nil" :expected "nil" :actual "(meta (conj [1] 2))"} + {:suite "metadata / collection ops preserve meta" :label "value preserved through conj" :expected "[1 2]" :actual "(conj (with-meta [1] {:k 9}) 2)"} + {:suite "metadata / collection ops preserve meta" :label "empty list singleton unaffected" :expected "nil" :actual "(do (with-meta () {:leak 1}) (meta ()))"} + {:suite "metadata / collection ops preserve meta" :label "empty vector literal unaffected" :expected "nil" :actual "(do (with-meta [] {:leak 1}) (meta []))"} + {:suite "metadata / def metadata" :label "^:dynamic var binds" :expected "9" :actual "(do (def ^:dynamic *d* 1) (binding [*d* 9] *d*))"} + {:suite "metadata / def metadata" :label "^:private on var" :expected "true" :actual "(do (def ^:private pv 1) (:private (meta (var pv))))"} + {:suite "metadata / def metadata" :label "^Type tag on var" :expected "java.lang.String" :actual "(do (def ^String tv \"a\") (:tag (meta (var tv))))"} + {:suite "metadata / def metadata" :label "^{:doc} on var" :expected "\"hi\"" :actual "(do (def ^{:doc \"hi\"} dv 1) (:doc (meta (var dv))))"} + {:suite "metadata / def metadata" :label "(def name doc val) doc" :expected "\"d\"" :actual "(do (def dd \"d\" 5) (:doc (meta (var dd))))"} + {:suite "core / find-keyword + inst-ms*" :label "find-keyword" :expected ":a" :actual "(find-keyword \"a\")"} + {:suite "core / find-keyword + inst-ms*" :label "find-keyword 2-arity" :expected ":n/a" :actual "(find-keyword \"n\" \"a\")"} + {:suite "core / find-keyword + inst-ms*" :label "find-keyword = keyword" :expected "true" :actual "(= (find-keyword \"x\") :x)"} + {:suite "core / find-keyword + inst-ms*" :label "inst-ms*" :expected "true" :actual "(= (inst-ms* #inst \"2020-01-01T00:00:00Z\") (inst-ms #inst \"2020-01-01T00:00:00Z\"))"} + {:suite "core / find-keyword + inst-ms*" :label "inst-ms* value" :expected "0" :actual "(inst-ms* #inst \"1970-01-01T00:00:00Z\")"} + {:suite "core / with-local-vars" :label "var-get initial" :expected "1" :actual "(with-local-vars [x 1] (var-get x))"} + {:suite "core / with-local-vars" :label "var-set" :expected "2" :actual "(with-local-vars [x 1] (var-set x 2) (var-get x))"} + {:suite "core / with-local-vars" :label "two vars" :expected "[1 2]" :actual "(with-local-vars [a 1 b 2] [(var-get a) (var-get b)])"} + {:suite "core / with-local-vars" :label "vars are values" :expected "5" :actual "(with-local-vars [x 0] (let [bump (fn [v] (var-set v (+ 5 (var-get v))))] (bump x) (var-get x)))"} + {:suite "core / with-local-vars" :label "init sees outer" :expected "3" :actual "(let [y 3] (with-local-vars [x y] (var-get x)))"} + {:suite "core / with-local-vars" :label "body result" :expected ":done" :actual "(with-local-vars [x 1] :done)"} + {:suite "core / with-open" :label "body result" :expected ":r" :actual "(let [log (atom [])] (with-open [c {:close (fn [] (swap! log conj :closed))}] :r))"} + {:suite "core / with-open" :label "close runs" :expected "[:closed]" :actual "(let [log (atom [])] (with-open [c {:close (fn [] (swap! log conj :closed))}] :r) (deref log))"} + {:suite "core / with-open" :label "close on throw" :expected "[]" :actual "(let [log (atom [])] (try (with-open [c {:close (fn [] (swap! log conj :closed))}] (throw (ex-info \"boom\" {}))) (catch Exception e nil)) (deref log))"} + {:suite "core / with-open" :label "nested close order" :expected "[:inner :outer]" :actual "(let [log (atom [])] (with-open [a {:close (fn [] (swap! log conj :outer))} b {:close (fn [] (swap! log conj :inner))}] :r) (deref log))"} + {:suite "core / with-open" :label "zero bindings" :expected ":r" :actual "(with-open [] :r)"} + {:suite "core / with-open" :label "binding visible" :expected "5" :actual "(with-open [c {:close (fn [] nil) :v 5}] (:v c))"} + {:suite "core / with-precision" :label "body evaluates" :expected "3.14" :actual "(with-precision 3 3.14)"} + {:suite "core / with-precision" :label "multiple body forms" :expected "2" :actual "(with-precision 10 1 2)"} + {:suite "core / with-precision" :label "rounding arg accepted" :expected "1.5" :actual "(with-precision 4 :rounding :half-up 1.5)"} + {:suite "core / with-precision" :label "arithmetic" :expected "2" :actual "(with-precision 5 (+ 1 1))"} + {:suite "core / read+string" :label "form and text" :expected "true" :actual "(let [[v s] (with-in-str \"42 rest\" (read+string))] (and (= v 42) (string? s)))"} + {:suite "core / read+string" :label "form value" :expected "(quote (+ 1 2))" :actual "(first (with-in-str \"(+ 1 2)\" (read+string)))"} + {:suite "core / read+string" :label "text covers the form" :expected "true" :actual "(let [[v s] (with-in-str \" [1 2] tail\" (read+string))] (and (= v [1 2]) (> (count s) 3)))"} + {:suite "core / read+string" :label "advances the stream" :expected "[1 2]" :actual "(with-in-str \"1 2\" [(first (read+string)) (first (read+string))])"} + {:suite "core / read+string" :label "EOF throws" :expected :throws :actual "(with-in-str \"\" (read+string))"} + {:suite "core / read+string" :label "eof-value arity" :expected ":done" :actual "(first (with-in-str \"\" (read+string *in* false :done)))"} + {:suite "core / extenders" :label "lists extended type" :expected "[]" :actual "(do (defprotocol Px (pm [x])) (defrecord Rx [] Px (pm [x] 1)) (mapv str (extenders Px)))"} + {:suite "core / extenders" :label "nil when none" :expected "nil" :actual "(do (defprotocol Py (pn [x])) (extenders Py))"} + {:suite "core / extenders" :label "seq of tags" :expected "nil" :actual "(do (defprotocol Pz (pz [x])) (defrecord Rz [] Pz (pz [x] 1)) (and (seq (extenders Pz)) (= 1 (count (extenders Pz)))))"} + {:suite "multimethods / dispatch" :label "dispatch on value" :expected "\"two\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f 2 [_] \"two\") (f 2))"} + {:suite "multimethods / dispatch" :label "dispatch on keyword fn" :expected "\"circle\"" :actual "(do (defmulti area :shape) (defmethod area :circle [_] \"circle\") (area {:shape :circle}))"} + {:suite "multimethods / dispatch" :label ":default method" :expected "\"other\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f :default [_] \"other\") (f 99))"} + {:suite "multimethods / dispatch" :label "no match throws" :expected :throws :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (f 99))"} + {:suite "multimethods / dispatch" :label "multiple args" :expected "5" :actual "(do (defmulti g (fn [a b] a)) (defmethod g :add [_ b] b) (g :add 5))"} + {:suite "multimethods / dispatch" :label "get-method" :expected "\"one\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") ((get-method f 1) 1))"} + {:suite "multimethods / dispatch" :label "remove-method" :expected :throws :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (remove-method f 1) (f 1))"} + {:suite "multimethods / dispatch" :label "methods" :expected "\"one\"" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") ((get (methods f) 1) 1))"} + {:suite "multimethods / dispatch" :label "methods count" :expected "2" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f 2 [_] \"two\") (count (methods f)))"} + {:suite "multimethods / dispatch" :label "remove-all-methods" :expected :throws :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (defmethod f 2 [_] \"two\") (remove-all-methods f) (f 1))"} + {:suite "multimethods / dispatch" :label "remove-all-methods empties the table" :expected "0" :actual "(do (defmulti f identity) (defmethod f 1 [_] \"one\") (remove-all-methods f) (count (methods f)))"} + {:suite "multimethods / hierarchies" :label "derive + isa?" :expected "true" :actual "(do (derive ::child ::parent) (isa? ::child ::parent))"} + {:suite "multimethods / hierarchies" :label "isa? reflexive" :expected "true" :actual "(isa? ::x ::x)"} + {:suite "multimethods / hierarchies" :label "isa? unrelated" :expected "false" :actual "(do (derive ::a ::b) (isa? ::a ::c))"} + {:suite "multimethods / hierarchies" :label "parents" :expected "true" :actual "(do (derive ::c ::p) (contains? (parents ::c) ::p))"} + {:suite "multimethods / hierarchies" :label "ancestors" :expected "true" :actual "(do (derive ::c ::p) (derive ::p ::g) (contains? (ancestors ::c) ::g))"} + {:suite "multimethods / hierarchies" :label "descendants" :expected "true" :actual "(do (derive ::c ::p) (contains? (descendants ::p) ::c))"} + {:suite "multimethods / hierarchies" :label "dispatch via hierarchy" :expected "\"animal\"" :actual "(do (derive ::dog ::animal) (defmulti speak identity) (defmethod speak ::animal [_] \"animal\") (speak ::dog))"} + {:suite "multimethods / hierarchies" :label "custom :default key" :expected ":unknown" :actual "(do (defmulti classify :type :default :other) (defmethod classify :a [_] :alpha) (defmethod classify :other [_] :unknown) (classify {:type :zzz}))"} + {:suite "multimethods / hierarchies" :label "explicit :hierarchy" :expected "\"a\"" :actual "(do (def h (derive (make-hierarchy) ::dog ::animal)) (defmulti snd identity :hierarchy h) (defmethod snd ::animal [_] \"a\") (snd ::dog))"} + {:suite "multimethods / prefer-method" :label "preference picks the winner" :expected ":rect" :actual "(do (derive :p/sq :p/rect) (derive :p/sq :p/shape) (defmulti pm1 identity) (defmethod pm1 :p/rect [x] :rect) (defmethod pm1 :p/shape [x] :shape) (prefer-method pm1 :p/rect :p/shape) (pm1 :p/sq))"} + {:suite "multimethods / prefer-method" :label "reverse preference" :expected ":shape" :actual "(do (derive :q/sq :q/rect) (derive :q/sq :q/shape) (defmulti pm2 identity) (defmethod pm2 :q/rect [x] :rect) (defmethod pm2 :q/shape [x] :shape) (prefer-method pm2 :q/shape :q/rect) (pm2 :q/sq))"} + {:suite "multimethods / prefer-method" :label "ambiguity throws" :expected :throws :actual "(do (derive :r/sq :r/rect) (derive :r/sq :r/shape) (defmulti pm3 identity) (defmethod pm3 :r/rect [x] :rect) (defmethod pm3 :r/shape [x] :shape) (pm3 :r/sq))"} + {:suite "multimethods / prefer-method" :label "isa dominance needs no preference" :expected ":child" :actual "(do (derive :s/c :s/p) (defmulti pm4 identity) (defmethod pm4 :s/c [x] :child) (defmethod pm4 :s/p [x] :parent) (pm4 :s/c))"} + {:suite "multimethods / prefer-method" :label "prefers map shape" :expected "true" :actual "(do (defmulti pm5 identity) (defmethod pm5 :a [x] 1) (defmethod pm5 :b [x] 2) (prefer-method pm5 :a :b) (contains? (get (prefers pm5) :a) :b))"} + {:suite "multimethods / prefer-method" :label "exact match needs no preference" :expected ":exact" :actual "(do (derive :t/sq :t/rect) (defmulti pm6 identity) (defmethod pm6 :t/sq [x] :exact) (defmethod pm6 :t/rect [x] :parent) (pm6 :t/sq))"} + {:suite "multimethods / docstring & value-based table ops" :label "defmulti docstring" :expected "\"A\"" :actual "(do (defmulti gd \"the dispatcher\" identity) (defmethod gd :a [_] \"A\") (gd :a))"} + {:suite "multimethods / docstring & value-based table ops" :label "defmulti doc+default" :expected "\"d\"" :actual "(do (defmulti gx \"doc\" identity) (defmethod gx :default [_] \"d\") (gx :anything))"} + {:suite "multimethods / docstring & value-based table ops" :label "methods on value" :expected "2" :actual "(do (defmulti gm identity) (defmethod gm 1 [_] :one) (defmethod gm 2 [_] :two) (count (methods gm)))"} + {:suite "multimethods / docstring & value-based table ops" :label "get-method on value" :expected "true" :actual "(do (defmulti gg identity) (defmethod gg :a [_] :x) (fn? (get-method gg :a)))"} + {:suite "namespaces / def & vars" :label "def + deref" :expected "5" :actual "(do (def x 5) x)"} + {:suite "namespaces / def & vars" :label "def returns var" :expected "true" :actual "(var? (def y 1))"} + {:suite "namespaces / def & vars" :label "declare then def" :expected "2" :actual "(do (declare z) (def z 2) z)"} + {:suite "namespaces / def & vars" :label "var special form" :expected "true" :actual "(var? (var +))"} + {:suite "namespaces / def & vars" :label "var sugar #'" :expected "true" :actual "(var? #'+)"} + {:suite "namespaces / def & vars" :label "var-get" :expected "5" :actual "(do (def w 5) (var-get #'w))"} + {:suite "namespaces / def & vars" :label "defn defines fn" :expected "3" :actual "(do (defn f [x] (inc x)) (f 2))"} + {:suite "namespaces / def & vars" :label "def with docstring" :expected "7" :actual "(do (def d \"a doc\" 7) d)"} + {:suite "namespaces / def & vars" :label "dynamic var binding" :expected "2" :actual "(do (def ^:dynamic *x* 1) (binding [*x* 2] *x*))"} + {:suite "namespaces / def & vars" :label "binding restores" :expected "1" :actual "(do (def ^:dynamic *y* 1) (binding [*y* 9] nil) *y*)"} + {:suite "namespaces / def & vars" :label "var-set in binding" :expected "5" :actual "(do (def ^:dynamic *z* 1) (binding [*z* 0] (var-set (var *z*) 5) *z*))"} + {:suite "namespaces / ns operations" :label "in-ns switches" :expected "true" :actual "(do (in-ns 'my.ns) (symbol? 'x))"} + {:suite "namespaces / ns operations" :label "ns form + alias" :expected "\"HI\"" :actual "(do (ns my.app (:require [clojure.string :as s])) (s/upper-case \"hi\"))"} + {:suite "namespaces / ns operations" :label "ns :use refers all" :expected "9" :actual "(do (ns src.lib) (def helper 9) (ns dst.app (:use [src.lib])) helper)"} + {:suite "namespaces / ns operations" :label "standalone use" :expected "7" :actual "(do (ns src.l2) (def k 7) (in-ns 'dst.a2) (use '[src.l2]) k)"} + {:suite "namespaces / ns operations" :label "ns-name" :expected "true" :actual "(do (require (quote [clojure.string])) (= 'clojure.string (ns-name (find-ns 'clojure.string))))"} + {:suite "namespaces / ns operations" :label "find-ns existing" :expected "true" :actual "(some? (find-ns 'clojure.core))"} + {:suite "namespaces / ns operations" :label "find-ns missing" :expected "nil" :actual "(find-ns 'does.not.exist)"} + {:suite "namespaces / ns operations" :label "resolve var" :expected "true" :actual "(var? (resolve '+))"} + {:suite "namespaces / ns operations" :label "resolve missing" :expected "nil" :actual "(resolve 'totally-undefined-xyz)"} + {:suite "namespaces / require & refer" :label "require :as" :expected "\"AB\"" :actual "(do (require '[clojure.string :as s]) (s/upper-case \"ab\"))"} + {:suite "namespaces / require & refer" :label "require :refer" :expected "true" :actual "(do (require '[clojure.string :refer [blank?]]) (blank? \"\"))"} + {:suite "namespaces / require & refer" :label "require :as + :refer" :expected "true" :actual "(do (require '[clojure.string :as s :refer [blank?]]) (and (blank? \"\") (= \"X\" (s/upper-case \"x\"))))"} + {:suite "namespaces / require & refer" :label "require clojure.set" :expected "#{1 3 2}" :actual "(do (require '[clojure.set :as set]) (set/union #{1 2} #{3}))"} + {:suite "namespaces / require & refer" :label "require clojure.walk" :expected "{:a 2}" :actual "(do (require '[clojure.walk :as w]) (w/postwalk (fn [x] (if (number? x) (inc x) x)) {:a 1}))"} + {:suite "namespaces / require & refer" :label "walk keywordize-keys" :expected "{:a 1}" :actual "(do (require '[clojure.walk :as w]) (w/keywordize-keys {\"a\" 1}))"} + {:suite "namespaces / require & refer" :label "walk stringify-keys" :expected "true" :actual "(do (require '[clojure.walk :as w]) (= {\"a\" 1} (w/stringify-keys {:a 1})))"} + {:suite "namespaces / require & refer" :label "require missing lib throws" :expected :throws :actual "(require '[no.such.lib])"} + {:suite "namespaces / require & refer" :label "use missing lib throws" :expected :throws :actual "(use 'no.such.lib)"} + {:suite "namespaces / require & refer" :label "require of in-session ns ok" :expected "1" :actual "(do (ns made.here) (def x 1) (require '[made.here]) made.here/x)"} + {:suite "namespaces / alias, ns-unalias, ns-publics" :label "alias + use" :expected "\"1,2\"" :actual "(do (require (quote clojure.string)) (alias (quote st) (quote clojure.string)) (st/join \",\" [1 2]))"} + {:suite "namespaces / alias, ns-unalias, ns-publics" :label "ns-unalias removes" :expected "true" :actual "(do (require (quote clojure.string)) (alias (quote st2) (quote clojure.string)) (ns-unalias (quote user) (quote st2)) (nil? (get (ns-aliases (quote user)) (quote st2))))"} + {:suite "namespaces / alias, ns-unalias, ns-publics" :label "ns-publics has var" :expected "true" :actual "(do (def npv 1) (some? (get (ns-publics (quote user)) (quote npv))))"} + {:suite "namespaces / alias, ns-unalias, ns-publics" :label "newline returns nil" :expected "nil" :actual "(newline)"} + {:suite "namespaces / error inside a fn must not leak its defining ns" :label "alias survives a throwing stdlib call" :expected "\"A\"" :actual "(do (require (quote [clojure.string :as s9])) (try (s9/join nil nil nil) (catch Exception e nil)) (s9/upper-case \"a\"))"} + {:suite "namespaces / error inside a fn must not leak its defining ns" :label "*ns* restored after throw" :expected "\"user\"" :actual "(do (require (quote [clojure.walk :as w9])) (try (w9/postwalk nil nil nil) (catch Exception e nil)) (str *ns*))"} + {:suite "namespaces / unified alias store" :label "require :as registers the alias" :expected "1" :actual "(do (require (quote [clojure.string :as st1])) (count (filter (fn [[a n]] (= (str a) \"st1\")) (ns-aliases))))"} + {:suite "namespaces / unified alias store" :label "aliased call resolves" :expected "\"A\"" :actual "(do (require (quote [clojure.string :as st2])) (st2/upper-case \"a\"))"} + {:suite "namespaces / unified alias store" :label "alias fn registers + resolves" :expected "\"B\"" :actual "(do (require (quote [clojure.string])) (alias (quote st3) (quote clojure.string)) (st3/upper-case \"b\"))"} + {:suite "namespaces / unified alias store" :label "alias fn visible to ns-aliases" :expected "true" :actual "(do (require (quote [clojure.string])) (alias (quote st4) (quote clojure.string)) (pos? (count (filter (fn [[a n]] (= (str a) \"st4\")) (ns-aliases)))))"} + {:suite "namespaces / unified alias store" :label "ns-unalias removes both views" :expected "[0 false]" :actual "(do (require (quote [clojure.string :as st5])) (ns-unalias (quote user) (quote st5)) [(count (filter (fn [[a n]] (= (str a) \"st5\")) (ns-aliases))) (boolean (resolve (quote st5/upper-case)))])"} + {:suite "namespaces / unified alias store" :label "ns-resolve through alias" :expected "true" :actual "(do (require (quote [clojure.string :as st6])) (var? (ns-resolve (quote user) (quote st6/upper-case))))"} + {:suite "namespaces / unified alias store" :label "empty ns-aliases is a map" :expected "true" :actual "(map? (ns-aliases (quote clojure.core)))"} + {:suite "*ns* / identity & printing" :label "str of *ns*" :expected "\"user\"" :actual "(str *ns*)"} + {:suite "*ns* / identity & printing" :label "ns-name of *ns*" :expected "(quote user)" :actual "(ns-name *ns*)"} + {:suite "*ns* / identity & printing" :label "*ns* is find-ns" :expected "true" :actual "(= (ns-name *ns*) (ns-name (find-ns (quote user))))"} + {:suite "*ns* / identity & printing" :label "*ns* not a map" :expected "false" :actual "(map? *ns*)"} + {:suite "*ns* / identity & printing" :label "tracks in-ns" :expected "\"jolt.test-ns-a\"" :actual "(do (in-ns (quote jolt.test-ns-a)) (str *ns*))"} + {:suite "*ns* / identity & printing" :label "in-ns returns ns" :expected "\"jolt.test-ns-b\"" :actual "(str (in-ns (quote jolt.test-ns-b)))"} + {:suite "*ns* / identity & printing" :label "usable with ns fns" :expected "true" :actual "(do (require (quote clojure.string)) (alias (quote nsv) (quote clojure.string)) (some? (get (ns-aliases *ns*) (quote nsv))))"} + {:suite "*ns* / identity & printing" :label "ns-unalias via *ns*" :expected "true" :actual "(do (require (quote clojure.string)) (alias (quote nsw) (quote clojure.string)) (ns-unalias *ns* (quote nsw)) (nil? (get (ns-aliases *ns*) (quote nsw))))"} + {:suite "numbers / arithmetic" :label "add" :expected "6" :actual "(+ 1 2 3)"} + {:suite "numbers / arithmetic" :label "add zero args" :expected "0" :actual "(+)"} + {:suite "numbers / arithmetic" :label "subtract" :expected "5" :actual "(- 10 3 2)"} + {:suite "numbers / arithmetic" :label "negate" :expected "-5" :actual "(- 5)"} + {:suite "numbers / arithmetic" :label "multiply" :expected "24" :actual "(* 2 3 4)"} + {:suite "numbers / arithmetic" :label "multiply zero args" :expected "1" :actual "(*)"} + {:suite "numbers / arithmetic" :label "divide" :expected "2" :actual "(/ 10 5)"} + {:suite "numbers / arithmetic" :label "divide to fraction" :expected "1/2" :actual "(/ 1 2)"} + {:suite "numbers / arithmetic" :label "inc" :expected "6" :actual "(inc 5)"} + {:suite "numbers / arithmetic" :label "dec" :expected "4" :actual "(dec 5)"} + {:suite "numbers / arithmetic" :label "quot" :expected "3" :actual "(quot 10 3)"} + {:suite "numbers / arithmetic" :label "rem" :expected "1" :actual "(rem 10 3)"} + {:suite "numbers / arithmetic" :label "mod" :expected "2" :actual "(mod -1 3)"} + {:suite "numbers / arithmetic" :label "rem negative" :expected "-1" :actual "(rem -1 3)"} + {:suite "numbers / arithmetic" :label "max" :expected "9" :actual "(max 3 9 1)"} + {:suite "numbers / arithmetic" :label "min" :expected "1" :actual "(min 3 9 1)"} + {:suite "numbers / arithmetic" :label "abs" :expected "5" :actual "(abs -5)"} + {:suite "numbers / arithmetic" :label "promoting + alias" :expected "3" :actual "(+' 1 2)"} + {:suite "numbers / arithmetic" :label "inc' alias" :expected "6" :actual "(inc' 5)"} + {:suite "numbers / comparison" :label "less than" :expected "true" :actual "(< 1 2 3)"} + {:suite "numbers / comparison" :label "less than false" :expected "false" :actual "(< 1 3 2)"} + {:suite "numbers / comparison" :label "greater than" :expected "true" :actual "(> 3 2 1)"} + {:suite "numbers / comparison" :label "<=" :expected "true" :actual "(<= 1 1 2)"} + {:suite "numbers / comparison" :label ">=" :expected "true" :actual "(>= 3 3 2)"} + {:suite "numbers / comparison" :label "= numbers" :expected "true" :actual "(= 2 2)"} + {:suite "numbers / comparison" :label "= different" :expected "false" :actual "(= 2 3)"} + {:suite "numbers / comparison" :label "== numeric" :expected "true" :actual "(== 2 2)"} + {:suite "numbers / comparison" :label "not=" :expected "true" :actual "(not= 1 2)"} + {:suite "numbers / comparison" :label "compare less" :expected "-1" :actual "(compare 1 2)"} + {:suite "numbers / comparison" :label "compare equal" :expected "0" :actual "(compare 1 1)"} + {:suite "numbers / comparison" :label "compare greater" :expected "1" :actual "(compare 2 1)"} + {:suite "numbers / predicates" :label "zero?" :expected "true" :actual "(zero? 0)"} + {:suite "numbers / predicates" :label "pos?" :expected "true" :actual "(pos? 5)"} + {:suite "numbers / predicates" :label "neg?" :expected "true" :actual "(neg? -5)"} + {:suite "numbers / predicates" :label "even?" :expected "true" :actual "(even? 4)"} + {:suite "numbers / predicates" :label "odd?" :expected "true" :actual "(odd? 3)"} + {:suite "numbers / predicates" :label "number?" :expected "true" :actual "(number? 5)"} + {:suite "numbers / predicates" :label "number? false" :expected "false" :actual "(number? :a)"} + {:suite "numbers / predicates" :label "int?" :expected "true" :actual "(int? 5)"} + {:suite "numbers / predicates" :label "pos-int?" :expected "true" :actual "(pos-int? 5)"} + {:suite "numbers / predicates" :label "neg-int?" :expected "true" :actual "(neg-int? -5)"} + {:suite "numbers / predicates" :label "nat-int? zero" :expected "true" :actual "(nat-int? 0)"} + {:suite "numbers / predicates" :label "nat-int? neg" :expected "false" :actual "(nat-int? -1)"} + {:suite "numbers / predicates" :label "ratio? false" :expected "false" :actual "(ratio? 5)"} + {:suite "numbers / floats & symbolic values" :label "read ##Inf" :expected "true" :actual "(= ##Inf (/ 1.0 0.0))"} + {:suite "numbers / floats & symbolic values" :label "read ##-Inf" :expected "true" :actual "(< ##-Inf 0)"} + {:suite "numbers / floats & symbolic values" :label "##NaN not= itself" :expected "true" :actual "(not (== ##NaN ##NaN))"} + {:suite "numbers / floats & symbolic values" :label "float? fractional" :expected "true" :actual "(float? 1.5)"} + {:suite "numbers / floats & symbolic values" :label "double? fractional" :expected "true" :actual "(double? 0.25)"} + {:suite "numbers / floats & symbolic values" :label "float? integer" :expected "false" :actual "(float? 3)"} + {:suite "numbers / floats & symbolic values" :label "float? ##Inf" :expected "true" :actual "(float? ##Inf)"} + {:suite "numbers / floats & symbolic values" :label "double? ##NaN" :expected "true" :actual "(double? ##NaN)"} + {:suite "numbers / floats & symbolic values" :label "infinite? ##Inf" :expected "true" :actual "(infinite? ##Inf)"} + {:suite "numbers / floats & symbolic values" :label "infinite? ##-Inf" :expected "true" :actual "(infinite? ##-Inf)"} + {:suite "numbers / floats & symbolic values" :label "infinite? finite" :expected "false" :actual "(infinite? 1.5)"} + {:suite "numbers / floats & symbolic values" :label "NaN? ##NaN" :expected "true" :actual "(NaN? ##NaN)"} + {:suite "numbers / floats & symbolic values" :label "NaN? number" :expected "false" :actual "(NaN? 1.0)"} + {:suite "numbers / floats & symbolic values" :label "int? ##Inf false" :expected "false" :actual "(int? ##Inf)"} + {:suite "numbers / floats & symbolic values" :label "pos-int? ##Inf" :expected "false" :actual "(pos-int? ##Inf)"} + {:suite "numbers / literal syntax" :label "bigint suffix N" :expected "42N" :actual "42N"} + {:suite "numbers / literal syntax" :label "bigint zero" :expected "0N" :actual "0N"} + {:suite "numbers / literal syntax" :label "bigdec suffix M" :expected "1.5M" :actual "1.5M"} + {:suite "numbers / literal syntax" :label "bigdec int M" :expected "0.0M" :actual "0.0M"} + {:suite "numbers / bigdec arithmetic" :label "add (value position)" :expected "4.0M" :actual "(reduce + [1.5M 2.5M])"} + {:suite "numbers / bigdec arithmetic" :label "add preserves max scale" :expected "\"4.00\"" :actual "(str (reduce + [1.50M 2.5M]))"} + {:suite "numbers / bigdec arithmetic" :label "add three" :expected "7.0M" :actual "(reduce + [1.5M 2.5M 3.0M])"} + {:suite "numbers / bigdec arithmetic" :label "subtract (apply)" :expected "3.5M" :actual "(apply - [5M 1.5M])"} + {:suite "numbers / bigdec arithmetic" :label "multiply adds scales" :expected "\"3.0000\"" :actual "(str (reduce * [1.50M 2.00M]))"} + {:suite "numbers / bigdec arithmetic" :label "long contagion stays bigdec" :expected "3.5M" :actual "(reduce + [1.5M 2])"} + {:suite "numbers / bigdec arithmetic" :label "double contagion -> double" :expected "3.5" :actual "(reduce + [1.5M 2.0])"} + {:suite "numbers / bigdec arithmetic" :label "exact divide minimal scale" :expected "\"0.25\"" :actual "(str (reduce / [1M 4M]))"} + {:suite "numbers / bigdec arithmetic" :label "exact divide whole" :expected "5M" :actual "(reduce / [10M 2M])"} + {:suite "numbers / bigdec arithmetic" :label "non-terminating divide throws" :expected ":nonterm" :actual "(try (reduce / [1M 3M]) (catch ArithmeticException _ :nonterm))"} + {:suite "numbers / bigdec arithmetic" :label "compare is scale-independent" :expected "0" :actual "(compare 1.0M 1.00M)"} + {:suite "numbers / bigdec arithmetic" :label "compare orders by value" :expected "-1" :actual "(compare 1.5M 2.5M)"} + {:suite "numbers / bigdec arithmetic" :label "sort uses bigdec compare" :expected "[1M 2M 3M]" :actual "(vec (sort [3M 1M 2M]))"} + {:suite "numbers / bigdec call position" :label "add" :expected "4.0M" :actual "(+ 1.5M 2.5M)"} + {:suite "numbers / bigdec call position" :label "multiply adds scales" :expected "\"3.0000\"" :actual "(str (* 1.50M 2.00M))"} + {:suite "numbers / bigdec call position" :label "subtract" :expected "3.5M" :actual "(- 5M 1.5M)"} + {:suite "numbers / bigdec call position" :label "negate" :expected "-1.5M" :actual "(- 1.5M)"} + {:suite "numbers / bigdec call position" :label "long contagion" :expected "3.5M" :actual "(+ 1.5M 2)"} + {:suite "numbers / bigdec call position" :label "exact divide" :expected "0.25M" :actual "(/ 1M 4M)"} + {:suite "numbers / bigdec call position" :label "less-than" :expected "true" :actual "(< 1.5M 2.5M)"} + {:suite "numbers / bigdec call position" :label "greater-than false" :expected "false" :actual "(> 1.5M 2.5M)"} + {:suite "numbers / bigdec call position" :label "zero?" :expected "true" :actual "(zero? 0M)"} + {:suite "numbers / bigdec call position" :label "pos?" :expected "true" :actual "(pos? 1.5M)"} + {:suite "numbers / bigdec call position" :label "neg? false" :expected "false" :actual "(neg? 1.5M)"} + {:suite "numbers / bigdec call position" :label "quot truncates to scale 0" :expected "3M" :actual "(quot 7M 2M)"} + {:suite "numbers / bigdec call position" :label "rem" :expected "1M" :actual "(rem 7M 2M)"} + {:suite "numbers / bigdec call position" :label "let-bound operands" :expected "4.0M" :actual "(let [a 1.5M b 2.5M] (+ a b))"} + {:suite "numbers / bigdec call position" :label "nested arithmetic propagates" :expected "6.0M" :actual "(+ (* 1.5M 2M) 3M)"} + {:suite "numbers / bigdec call position" :label "non-terminating divide throws" :expected ":nonterm" :actual "(try (/ 1M 3M) (catch ArithmeticException _ :nonterm))"} + {:suite "numbers / bigdec call position" :label "min" :expected "1M" :actual "(min 1M 2M)"} + {:suite "numbers / bigdec call position" :label "max of three" :expected "3M" :actual "(max 1M 2M 3M)"} + {:suite "numbers / bigdec call position" :label "min returns the operand, scale intact" :expected "\"1.50\"" :actual "(str (min 1.50M 2M))"} + {:suite "numbers / bigdec call position" :label "max tie keeps second operand" :expected "\"1.50\"" :actual "(str (max 1.5M 1.50M))"} + {:suite "numbers / bigdec arithmetic" :label "max (value position)" :expected "3M" :actual "(reduce max [1M 3M 2M])"} + {:suite "numbers / bigdec arithmetic" :label "min (apply)" :expected "1M" :actual "(apply min [3M 1M 2M])"} + {:suite "numbers / literal syntax" :label "ratio -> double" :expected "1/2" :actual "1/2"} + {:suite "numbers / literal syntax" :label "ratio 3/4" :expected "3/4" :actual "3/4"} + {:suite "numbers / literal syntax" :label "neg ratio" :expected "-1/2" :actual "-1/2"} + {:suite "numbers / literal syntax" :label "radix binary" :expected "10" :actual "2r1010"} + {:suite "numbers / literal syntax" :label "radix hex-ish" :expected "255" :actual "16rFF"} + {:suite "numbers / literal syntax" :label "radix base36" :expected "35" :actual "36rZ"} + {:suite "numbers / literal syntax" :label "hex" :expected "255" :actual "0xFF"} + {:suite "numbers / literal syntax" :label "exponent" :expected "1000.0" :actual "1e3"} + {:suite "numbers / literal syntax" :label "exponent neg" :expected "0.015" :actual "1.5e-2"} + {:suite "numbers / strictness (throws like Clojure)" :label "odd? nil" :expected :throws :actual "(odd? nil)"} + {:suite "numbers / strictness (throws like Clojure)" :label "odd? fractional" :expected :throws :actual "(odd? 1.5)"} + {:suite "numbers / strictness (throws like Clojure)" :label "even? inf" :expected :throws :actual "(even? ##Inf)"} + {:suite "numbers / strictness (throws like Clojure)" :label "zero? nil" :expected :throws :actual "(zero? nil)"} + {:suite "numbers / strictness (throws like Clojure)" :label "pos? false" :expected :throws :actual "(pos? false)"} + {:suite "numbers / strictness (throws like Clojure)" :label "neg? keyword" :expected :throws :actual "(neg? :a)"} + {:suite "numbers / strictness (throws like Clojure)" :label "< nil" :expected :throws :actual "(< nil 1)"} + {:suite "numbers / strictness (throws like Clojure)" :label "> with nil" :expected :throws :actual "(> 1 nil)"} + {:suite "numbers / strictness (throws like Clojure)" :label "max non-number" :expected :throws :actual "(max 1 nil)"} + {:suite "numbers / strictness (throws like Clojure)" :label "quot by zero" :expected :throws :actual "(quot 10 0)"} + {:suite "numbers / strictness (throws like Clojure)" :label "quot inf" :expected :throws :actual "(quot ##Inf 1)"} + {:suite "numbers / strictness (throws like Clojure)" :label "< arity-1 any" :expected "true" :actual "(< :anything)"} + {:suite "numbers / strictness (throws like Clojure)" :label "odd? ok" :expected "true" :actual "(odd? 3)"} + {:suite "numbers / strictness (throws like Clojure)" :label "< ok" :expected "true" :actual "(< 1 2 3)"} + {:suite "numbers / strictness (throws like Clojure)" :label "quot ok" :expected "3" :actual "(quot 10 3)"} + {:suite "numbers / printing of inf & nan" :label "str Infinity" :expected "\"Infinity\"" :actual "(str ##Inf)"} + {:suite "numbers / printing of inf & nan" :label "str -Infinity" :expected "\"-Infinity\"" :actual "(str ##-Inf)"} + {:suite "numbers / printing of inf & nan" :label "str NaN" :expected "\"NaN\"" :actual "(str ##NaN)"} + {:suite "numbers / printing of inf & nan" :label "pr-str Infinity" :expected "\"##Inf\"" :actual "(pr-str ##Inf)"} + {:suite "numbers / printing of inf & nan" :label "inf inside coll" :expected "\"[##Inf]\"" :actual "(str [##Inf])"} + {:suite "numbers / bit-ops & math" :label "bit-and" :expected "4" :actual "(bit-and 12 6)"} + {:suite "numbers / bit-ops & math" :label "bit-or" :expected "14" :actual "(bit-or 12 6)"} + {:suite "numbers / bit-ops & math" :label "bit-xor" :expected "10" :actual "(bit-xor 12 6)"} + {:suite "numbers / bit-ops & math" :label "bit-shift-left" :expected "8" :actual "(bit-shift-left 1 3)"} + {:suite "numbers / bit-ops & math" :label "bit-shift-right" :expected "2" :actual "(bit-shift-right 8 2)"} + {:suite "numbers / bit-ops & math" :label "bit-set" :expected "8" :actual "(bit-set 0 3)"} + {:suite "numbers / bit-ops & math" :label "bit-clear" :expected "13" :actual "(bit-clear 15 1)"} + {:suite "numbers / bit-ops & math" :label "bit-test true" :expected "true" :actual "(bit-test 4 2)"} + {:suite "numbers / bit-ops & math" :label "bigint 64-bit" :expected "\"9000000000\"" :actual "(str (bigint 9000000000))"} + {:suite "numbers / random (invariants — non-deterministic)" :label "rand-int in range" :expected "true" :actual "(let [r (rand-int 5)] (and (integer? r) (>= r 0) (< r 5)))"} + {:suite "numbers / random (invariants — non-deterministic)" :label "rand-int zero" :expected "0" :actual "(rand-int 1)"} + {:suite "numbers / random (invariants — non-deterministic)" :label "rand in [0,1)" :expected "true" :actual "(let [r (rand)] (and (>= r 0) (< r 1)))"} + {:suite "numbers / random (invariants — non-deterministic)" :label "rand n in [0,n)" :expected "true" :actual "(let [r (rand 10)] (and (>= r 0) (< r 10)))"} + {:suite "numbers / random (invariants — non-deterministic)" :label "rand-nth member" :expected "true" :actual "(contains? #{:a :b :c} (rand-nth [:a :b :c]))"} + {:suite "numbers / random (invariants — non-deterministic)" :label "rand-nth single" :expected ":x" :actual "(rand-nth [:x])"} + {:suite "numbers / parse fns (1.11)" :label "parse-long" :expected "42" :actual "(parse-long \"42\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long negative" :expected "-7" :actual "(parse-long \"-7\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long plus" :expected "7" :actual "(parse-long \"+7\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long float nil" :expected "nil" :actual "(parse-long \"1.5\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long hex nil" :expected "nil" :actual "(parse-long \"0x10\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long empty nil" :expected "nil" :actual "(parse-long \"\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long junk nil" :expected "nil" :actual "(parse-long \"12ab\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-long throws" :expected :throws :actual "(parse-long 42)"} + {:suite "numbers / parse fns (1.11)" :label "parse-double" :expected "1.5" :actual "(parse-double \"1.5\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-double int" :expected "4.0" :actual "(parse-double \"4\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-double sci" :expected "1500.0" :actual "(parse-double \"1.5e3\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-double neg" :expected "-0.5" :actual "(parse-double \"-0.5\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-double junk" :expected "nil" :actual "(parse-double \"abc\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-double trail" :expected "nil" :actual "(parse-double \"1.5x\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-double throws" :expected :throws :actual "(parse-double :k)"} + {:suite "numbers / parse fns (1.11)" :label "parse-boolean true" :expected "true" :actual "(parse-boolean \"true\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-boolean false" :expected "false" :actual "(parse-boolean \"false\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-boolean case" :expected "nil" :actual "(parse-boolean \"True\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-boolean junk" :expected "nil" :actual "(parse-boolean \"yes\")"} + {:suite "numbers / parse fns (1.11)" :label "parse-boolean throws" :expected :throws :actual "(parse-boolean true)"} + {:suite "numbers / promoting & unchecked aliases" :label "+'" :expected "3" :actual "(+' 1 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "-'" :expected "3" :actual "(-' 5 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "*'" :expected "12" :actual "(*' 3 4)"} + {:suite "numbers / promoting & unchecked aliases" :label "inc'" :expected "6" :actual "(inc' 5)"} + {:suite "numbers / promoting & unchecked aliases" :label "dec'" :expected "4" :actual "(dec' 5)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add" :expected "5" :actual "(unchecked-add 2 3)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add-int" :expected "5" :actual "(unchecked-add-int 2 3)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-subtract" :expected "3" :actual "(unchecked-subtract 5 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-subtract-int" :expected "3" :actual "(unchecked-subtract-int 5 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-multiply" :expected "12" :actual "(unchecked-multiply 3 4)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-multiply-int" :expected "12" :actual "(unchecked-multiply-int 3 4)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-negate" :expected "-5" :actual "(unchecked-negate 5)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-negate-int" :expected "-5" :actual "(unchecked-negate-int 5)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-inc" :expected "2" :actual "(unchecked-inc 1)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-inc-int" :expected "2" :actual "(unchecked-inc-int 1)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-dec" :expected "0" :actual "(unchecked-dec 1)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-dec-int" :expected "0" :actual "(unchecked-dec-int 1)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-divide-int" :expected "3" :actual "(unchecked-divide-int 7 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-divide-int negative truncates toward zero" :expected "-3" :actual "(unchecked-divide-int -7 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-divide-int by zero throws" :expected :throws :actual "(unchecked-divide-int 1 0)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-remainder-int" :expected "1" :actual "(unchecked-remainder-int 7 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-remainder-int negative" :expected "-1" :actual "(unchecked-remainder-int -7 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-int truncates" :expected "3" :actual "(unchecked-int 3.7)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-int negative" :expected "-3" :actual "(unchecked-int -3.7)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add on ratios does not wrap to long" :expected "4/3" :actual "(unchecked-add 2/3 2/3)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-multiply ratio by int" :expected "4/3" :actual "(unchecked-multiply 2/3 2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-negate ratio" :expected "-2/3" :actual "(unchecked-negate 2/3)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-add ratios summing to zero" :expected "0" :actual "(unchecked-add 1/2 -1/2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-inc ratio" :expected "3/2" :actual "(unchecked-inc 1/2)"} + {:suite "numbers / promoting & unchecked aliases" :label "unchecked-long" :expected "3" :actual "(unchecked-long 3.7)"} + {:suite "numbers / promoting & unchecked aliases" :label "int? on integer" :expected "true" :actual "(int? 5)"} + {:suite "numbers / promoting & unchecked aliases" :label "int? on double" :expected "false" :actual "(int? 5.5)"} + {:suite "numbers / promoting & unchecked aliases" :label "int? on non-number" :expected "false" :actual "(int? \"5\")"} + {:suite "numbers / promoting & unchecked aliases" :label "num passes a number through" :expected "5" :actual "(num 5)"} + {:suite "numbers / promoting & unchecked aliases" :label "num on a double" :expected "5.5" :actual "(num 5.5)"} + {:suite "numbers / promoting & unchecked aliases" :label "num throws on non-number" :expected :throws :actual "(num \"x\")"} + {:suite "numbers / == numeric equality" :label "== single arg" :expected "true" :actual "(== :a)"} + {:suite "numbers / == numeric equality" :label "== equal" :expected "true" :actual "(== 2 2)"} + {:suite "numbers / == numeric equality" :label "== unequal" :expected "false" :actual "(== 2 3)"} + {:suite "numbers / == numeric equality" :label "== chained" :expected "true" :actual "(== 2 2 2)"} + {:suite "numbers / == numeric equality" :label "== chained unequal" :expected "false" :actual "(== 2 2 3)"} + {:suite "numbers / == numeric equality" :label "== int and double" :expected "true" :actual "(== 1 1.0)"} + {:suite "numbers / == numeric equality" :label "== throws on non-number" :expected :throws :actual "(== 1 :a)"} + {:suite "numbers / == numeric equality" :label "== throws on two keywords" :expected :throws :actual "(== :a :a)"} + {:suite "numbers / variadic bit ops" :label "bit-and 2" :expected "4" :actual "(bit-and 12 6)"} + {:suite "numbers / variadic bit ops" :label "bit-and 3" :expected "4" :actual "(bit-and 12 6 7)"} + {:suite "numbers / variadic bit ops" :label "bit-and 4" :expected "0" :actual "(bit-and 12 6 7 3)"} + {:suite "numbers / variadic bit ops" :label "bit-or 3" :expected "7" :actual "(bit-or 1 2 4)"} + {:suite "numbers / variadic bit ops" :label "bit-xor 3" :expected "7" :actual "(bit-xor 1 2 4)"} + {:suite "numbers / variadic bit ops" :label "bit-xor folds left" :expected "1" :actual "(bit-xor 5 6 2)"} + {:suite "numbers / variadic bit ops" :label "bit-and-not 2" :expected "8" :actual "(bit-and-not 12 6)"} + {:suite "numbers / variadic bit ops" :label "bit-and-not 3" :expected "8" :actual "(bit-and-not 12 6 3)"} + {:suite "numbers / variadic bit ops" :label "bit-and single arg throws" :expected :throws :actual "(bit-and 5)"} + {:suite "numbers / variadic bit ops" :label "bit-or keeps binary fast path" :expected "3" :actual "(bit-or 1 2)"} + {:suite "numbers / variadic bit ops" :label "bit-not" :expected "-6" :actual "(bit-not 5)"} + {:suite "numbers / variadic bit ops" :label "bit-and in value position" :expected "8" :actual "(reduce bit-and [15 9 12])"} + {:suite "numbers / variadic bit ops" :label "bit-xor in value position" :expected "0" :actual "(reduce bit-xor 0 [1 2 3])"} + {:suite "numbers / variadic bit ops" :label "bit-or via apply" :expected "7" :actual "(apply bit-or [1 2 4])"} + {:suite "numbers / variadic bit ops" :label "unsigned-shift over a full 64-bit value" :expected "17179869183" :actual "(unsigned-bit-shift-right -1 30)"} ;; var-reference cell caching (runtime path): a ref inside a fn caches the ;; resolved cell, but stays correct under redefinition (cell root mutated in ;; place) and dynamic binding (read goes through the binding-aware path). - {:suite "vars / cached reference stays correct" :label "redefinition is seen through a cached ref" :expected "2" :actual "(do (def x 1) (defn f [] x) (def x 2) (f))" :portability :common} - {:suite "vars / cached reference stays correct" :label "dynamic binding is seen through a cached ref" :expected "[1 9 1]" :actual "(do (def ^:dynamic *d* 1) (defn g [] *d*) [(g) (binding [*d* 9] (g)) (g)])" :portability :common} - {:suite "vars / cached reference stays correct" :label "forward reference resolves once the var is defined" :expected "42" :actual "(do (defn a [] (b)) (defn b [] 42) (a))" :portability :common} - {:suite "predicates / nil & boolean" :label "nil? true" :expected "true" :actual "(nil? nil)" :portability :common} - {:suite "predicates / nil & boolean" :label "nil? false" :expected "false" :actual "(nil? 0)" :portability :common} - {:suite "predicates / nil & boolean" :label "some? true" :expected "true" :actual "(some? 0)" :portability :common} - {:suite "predicates / nil & boolean" :label "some? on nil" :expected "false" :actual "(some? nil)" :portability :common} - {:suite "predicates / nil & boolean" :label "true?" :expected "true" :actual "(true? true)" :portability :common} - {:suite "predicates / nil & boolean" :label "false?" :expected "true" :actual "(false? false)" :portability :common} - {:suite "predicates / nil & boolean" :label "boolean? true" :expected "true" :actual "(boolean? false)" :portability :common} - {:suite "predicates / nil & boolean" :label "not nil" :expected "true" :actual "(not nil)" :portability :common} - {:suite "predicates / nil & boolean" :label "not 0 is false" :expected "false" :actual "(not 0)" :portability :common} - {:suite "predicates / nil & boolean" :label "boolean of nil" :expected "false" :actual "(boolean nil)" :portability :common} - {:suite "predicates / nil & boolean" :label "boolean of value" :expected "true" :actual "(boolean 5)" :portability :common} - {:suite "predicates / types" :label "string?" :expected "true" :actual "(string? \"x\")" :portability :common} - {:suite "predicates / types" :label "number?" :expected "true" :actual "(number? 1)" :portability :common} - {:suite "predicates / types" :label "keyword?" :expected "true" :actual "(keyword? :a)" :portability :common} - {:suite "predicates / types" :label "symbol?" :expected "true" :actual "(symbol? (quote a))" :portability :common} - {:suite "predicates / types" :label "char?" :expected "true" :actual "(char? \\a)" :portability :common} - {:suite "predicates / types" :label "fn? on fn" :expected "true" :actual "(fn? inc)" :portability :common} - {:suite "predicates / types" :label "ifn? on keyword" :expected "true" :actual "(ifn? :a)" :portability :common} - {:suite "predicates / types" :label "vector?" :expected "true" :actual "(vector? [1])" :portability :common} - {:suite "predicates / types" :label "list?" :expected "true" :actual "(list? (list 1))" :portability :common} - {:suite "predicates / types" :label "map?" :expected "true" :actual "(map? {:a 1})" :portability :common} - {:suite "predicates / types" :label "set?" :expected "true" :actual "(set? #{1})" :portability :common} - {:suite "predicates / types" :label "coll? vector" :expected "true" :actual "(coll? [1])" :portability :common} - {:suite "predicates / types" :label "coll? map" :expected "true" :actual "(coll? {:a 1})" :portability :common} - {:suite "predicates / types" :label "coll? on number" :expected "false" :actual "(coll? 1)" :portability :common} - {:suite "predicates / types" :label "seq? list" :expected "true" :actual "(seq? (list 1))" :portability :common} - {:suite "predicates / types" :label "seq? vector" :expected "false" :actual "(seq? [1])" :portability :common} - {:suite "predicates / types" :label "sequential? vector" :expected "true" :actual "(sequential? [1])" :portability :common} - {:suite "predicates / types" :label "associative? map" :expected "true" :actual "(associative? {:a 1})" :portability :common} - {:suite "predicates / types" :label "associative? vec" :expected "true" :actual "(associative? [1])" :portability :common} - {:suite "predicates / types" :label "associative? list" :expected "false" :actual "(associative? '(1 2))" :portability :common} - {:suite "predicates / types" :label "associative? set" :expected "false" :actual "(associative? #{1})" :portability :common} - {:suite "predicates / types" :label "reversible? vec" :expected "true" :actual "(reversible? [1 2])" :portability :common} - {:suite "predicates / types" :label "reversible? list" :expected "false" :actual "(reversible? '(1 2))" :portability :common} - {:suite "predicates / types" :label "reversible? smap" :expected "true" :actual "(reversible? (sorted-map :a 1))" :portability :common} - {:suite "predicates / types" :label "reversible? hmap" :expected "false" :actual "(reversible? (hash-map :a 1))" :portability :common} - {:suite "predicates / types" :label "indexed? vector" :expected "true" :actual "(indexed? [1])" :portability :common} - {:suite "predicates / types" :label "counted? vector" :expected "true" :actual "(counted? [1])" :portability :common} - {:suite "predicates / idents" :label "ident? keyword" :expected "true" :actual "(ident? :a)" :portability :common} - {:suite "predicates / idents" :label "ident? symbol" :expected "true" :actual "(ident? (quote a))" :portability :common} - {:suite "predicates / idents" :label "simple-keyword?" :expected "true" :actual "(simple-keyword? :a)" :portability :common} - {:suite "predicates / idents" :label "qualified-keyword?" :expected "true" :actual "(qualified-keyword? :a/b)" :portability :common} - {:suite "predicates / idents" :label "simple-symbol?" :expected "true" :actual "(simple-symbol? (quote a))" :portability :common} - {:suite "predicates / idents" :label "qualified-symbol?" :expected "true" :actual "(qualified-symbol? (quote a/b))" :portability :common} - {:suite "predicates / idents" :label "name of keyword" :expected "\"a\"" :actual "(name :a)" :portability :common} - {:suite "predicates / idents" :label "name of qualified" :expected "\"b\"" :actual "(name :a/b)" :portability :common} - {:suite "predicates / idents" :label "namespace" :expected "\"a\"" :actual "(namespace :a/b)" :portability :common} - {:suite "predicates / idents" :label "namespace simple" :expected "nil" :actual "(namespace :a)" :portability :common} - {:suite "predicates / idents" :label "keyword constructor" :expected ":foo" :actual "(keyword \"foo\")" :portability :common} - {:suite "predicates / idents" :label "keyword ns + name" :expected ":a/b" :actual "(keyword \"a\" \"b\")" :portability :common} - {:suite "predicates / idents" :label "symbol constructor" :expected "(quote x)" :actual "(symbol \"x\")" :portability :common} - {:suite "predicates / idents" :label "name of string" :expected "\"s\"" :actual "(name \"s\")" :portability :common} - {:suite "predicates / overlay-migrated" :label "not-any? true" :expected "true" :actual "(not-any? even? [1 3 5])" :portability :common} - {:suite "predicates / overlay-migrated" :label "not-any? false" :expected "false" :actual "(not-any? even? [1 2 3])" :portability :common} - {:suite "predicates / overlay-migrated" :label "not-every? true" :expected "true" :actual "(not-every? even? [2 4 5])" :portability :common} - {:suite "predicates / overlay-migrated" :label "not-every? false" :expected "false" :actual "(not-every? even? [2 4 6])" :portability :common} - {:suite "predicates / overlay-migrated" :label "ident? number" :expected "false" :actual "(ident? 1)" :portability :common} - {:suite "predicates / overlay-migrated" :label "qualified-ident?" :expected "true" :actual "(qualified-ident? :a/b)" :portability :common} - {:suite "predicates / overlay-migrated" :label "qualified-ident? no" :expected "false" :actual "(qualified-ident? :a)" :portability :common} - {:suite "predicates / overlay-migrated" :label "simple-ident?" :expected "true" :actual "(simple-ident? :a)" :portability :common} - {:suite "predicates / overlay-migrated" :label "ratio?" :expected "false" :actual "(ratio? 3)" :portability :common} - {:suite "predicates / overlay-migrated" :label "decimal?" :expected "false" :actual "(decimal? 3)" :portability :common} - {:suite "predicates / overlay-migrated" :label "class? of value" :expected "false" :actual "(class? \"s\")" :portability :common} - {:suite "predicates / overlay-migrated" :label "class? of symbol" :expected "false" :actual "(class? 'java.lang.String)" :portability :jvm} - {:suite "predicates / overlay-migrated" :label "rational? int" :expected "true" :actual "(rational? 3)" :portability :common} - {:suite "predicates / overlay-migrated" :label "rational? float" :expected "false" :actual "(rational? 3.5)" :portability :common} - {:suite "predicates / overlay-migrated" :label "nat-int? zero" :expected "true" :actual "(nat-int? 0)" :portability :common} - {:suite "predicates / overlay-migrated" :label "nat-int? neg" :expected "false" :actual "(nat-int? -1)" :portability :common} - {:suite "predicates / overlay-migrated" :label "pos-int?" :expected "true" :actual "(pos-int? 5)" :portability :common} - {:suite "predicates / overlay-migrated" :label "neg-int?" :expected "true" :actual "(neg-int? -3)" :portability :common} - {:suite "predicates / overlay-migrated" :label "NaN? on nan" :expected "true" :actual "(NaN? (/ 0.0 0.0))" :portability :common} - {:suite "predicates / overlay-migrated" :label "NaN? on number" :expected "false" :actual "(NaN? 5)" :portability :common} - {:suite "predicates / overlay-migrated" :label "abs negative" :expected "3" :actual "(abs -3)" :portability :common} - {:suite "predicates / overlay-migrated" :label "abs positive" :expected "2.5" :actual "(abs 2.5)" :portability :common} - {:suite "predicates / overlay-migrated" :label "object?" :expected "false" :actual "(object? 1)" :portability :common} - {:suite "predicates / overlay-migrated" :label "undefined?" :expected "false" :actual "(undefined? 1)" :portability :common} - {:suite "predicates / overlay-migrated" :label "keyword-identical?" :expected "true" :actual "(keyword-identical? :a :a)" :portability :common} - {:suite "predicates / overlay-migrated" :label "keyword-identical? no" :expected "false" :actual "(keyword-identical? :a :b)" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? symbol" :expected "false" :actual "(map? (quote sym))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? char" :expected "false" :actual "(map? \\a)" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? uuid" :expected "false" :actual "(map? (random-uuid))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? literal" :expected "true" :actual "(map? {:a 1})" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? hash-map" :expected "true" :actual "(map? (hash-map :a 1))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? sorted-map" :expected "true" :actual "(map? (sorted-map :a 1))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? record" :expected "true" :actual "(do (defrecord Mr [a]) (map? (->Mr 1)))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? sorted-set" :expected "false" :actual "(map? (sorted-set 1))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "map? vector" :expected "false" :actual "(map? [1])" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? symbol" :expected "false" :actual "(coll? (quote sym))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? char" :expected "false" :actual "(coll? \\a)" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? uuid" :expected "false" :actual "(coll? (random-uuid))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? keyword" :expected "false" :actual "(coll? :k)" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? string" :expected "false" :actual "(coll? \"s\")" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? map literal" :expected "true" :actual "(coll? {:a 1})" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? sorted-map" :expected "true" :actual "(coll? (sorted-map :a 1))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? sorted-set" :expected "true" :actual "(coll? (sorted-set 1))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? record" :expected "true" :actual "(do (defrecord Cr [a]) (coll? (->Cr 1)))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? vector" :expected "true" :actual "(coll? [1])" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? list" :expected "true" :actual "(coll? (list 1))" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? set" :expected "true" :actual "(coll? #{1})" :portability :common} - {:suite "predicates / map? & coll? strictness" :label "coll? lazy seq" :expected "true" :actual "(coll? (map inc [1]))" :portability :common} - {:suite "predicates / tagged-value" :label "atom? yes" :expected "true" :actual "(atom? (atom 1))" :portability :common} - {:suite "predicates / tagged-value" :label "atom? no" :expected "false" :actual "(atom? 1)" :portability :common} - {:suite "predicates / tagged-value" :label "volatile? yes" :expected "true" :actual "(volatile? (volatile! 1))" :portability :common} - {:suite "predicates / tagged-value" :label "volatile? no" :expected "false" :actual "(volatile? (atom 1))" :portability :common} - {:suite "predicates / tagged-value" :label "record? yes" :expected "true" :actual "(do (defrecord Rp [a]) (record? (->Rp 1)))" :portability :common} - {:suite "predicates / tagged-value" :label "record? no map" :expected "false" :actual "(record? {:a 1})" :portability :common} - {:suite "predicates / tagged-value" :label "record? no nil" :expected "false" :actual "(record? nil)" :portability :common} - {:suite "predicates / tagged-value" :label "tagged-literal? yes" :expected "true" :actual "(tagged-literal? (tagged-literal (quote inst) \"2020\"))" :portability :common} - {:suite "predicates / tagged-value" :label "tagged-literal? no" :expected "false" :actual "(tagged-literal? 1)" :portability :common} - {:suite "predicates / tagged-value" :label "reader-conditional? no" :expected "false" :actual "(reader-conditional? 1)" :portability :common} - {:suite "predicates / tagged-value" :label "chunked-seq? true for a vector seq" :expected "true" :actual "(chunked-seq? (seq [1 2 3]))" :portability :common} - {:suite "predicates / equality & identity" :label "= same" :expected "true" :actual "(= 1 1)" :portability :common} - {:suite "predicates / equality & identity" :label "= vectors" :expected "true" :actual "(= [1 2] [1 2])" :portability :common} - {:suite "predicates / equality & identity" :label "= vector & list" :expected "true" :actual "(= [1 2] (list 1 2))" :portability :common} - {:suite "predicates / equality & identity" :label "= maps" :expected "true" :actual "(= {:a 1} {:a 1})" :portability :common} - {:suite "predicates / equality & identity" :label "= sets" :expected "true" :actual "(= #{1 2} #{2 1})" :portability :common} - {:suite "predicates / equality & identity" :label "= nested" :expected "true" :actual "(= {:a [1 2]} {:a [1 2]})" :portability :common} - {:suite "predicates / equality & identity" :label "not= differs" :expected "true" :actual "(not= [1 2] [1 3])" :portability :common} - {:suite "predicates / equality & identity" :label "identical? same kw" :expected "true" :actual "(identical? :a :a)" :portability :common} - {:suite "predicates / equality & identity" :label "compare strings" :expected "-1" :actual "(compare \"a\" \"b\")" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "seqable? vector" :expected "true" :actual "(seqable? [1])" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "seqable? map" :expected "true" :actual "(seqable? {:a 1})" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "seqable? string" :expected "true" :actual "(seqable? \"s\")" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "seqable? nil" :expected "true" :actual "(seqable? nil)" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "seqable? number" :expected "false" :actual "(seqable? 5)" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "integer? int" :expected "true" :actual "(integer? 5)" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "integer? fraction" :expected "false" :actual "(integer? 5.5)" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "reduced? wrapped" :expected "true" :actual "(reduced? (reduced 1))" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "reduced? plain" :expected "false" :actual "(reduced? 1)" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "deref reduced" :expected "9" :actual "(deref (reduced 9))" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "unreduced wrapped" :expected "9" :actual "(unreduced (reduced 9))" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "unreduced plain" :expected "9" :actual "(unreduced 9)" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "not-empty full" :expected "[1]" :actual "(not-empty [1])" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "not-empty empty" :expected "nil" :actual "(not-empty [])" :portability :common} - {:suite "predicates / seqable, reduced & emptiness" :label "not-empty string" :expected "nil" :actual "(not-empty \"\")" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare =" :expected "0" :actual "(compare 1 1)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare <" :expected "-1" :actual "(compare 1 2)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare nil first" :expected "-1" :actual "(compare nil 1)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare nil nil" :expected "0" :actual "(compare nil nil)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare strings" :expected "-1" :actual "(compare \"a\" \"b\")" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare keywords" :expected "-1" :actual "(compare :a :b)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare symbols" :expected "-1" :actual "(compare (quote a) (quote b))" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare bools" :expected "-1" :actual "(compare false true)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare vec length" :expected "-1" :actual "(compare [1 2] [1 2 3])" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare vec elems" :expected "-1" :actual "(compare [1 2] [1 3])" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "compare cross-type throws" :expected :throws :actual "(compare 1 \"a\")" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "sort with compare" :expected "[nil 1 3]" :actual "(sort compare [3 nil 1])" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "type meta override" :expected ":custom" :actual "(type (with-meta [1] {:type :custom}))" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "type of record" :expected "false" :actual "(do (defrecord TyR [a]) (= (symbol (str (type (->TyR 1)))) (type (->TyR 1))))" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "any? value" :expected "true" :actual "(any? 5)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "any? nil" :expected "true" :actual "(any? nil)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "gensym is symbol" :expected "true" :actual "(symbol? (gensym))" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "gensym prefix" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/starts-with? (str (gensym \"p_\")) \"p_\"))" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "gensym distinct" :expected "false" :actual "(= (gensym) (gensym))" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "int? Inf false" :expected "false" :actual "(int? ##Inf)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "integer? Inf false" :expected "false" :actual "(integer? ##Inf)" :portability :common} - {:suite "predicates / compare, type, any? (stage 3)" :label "integer? NaN false" :expected "false" :actual "(integer? ##NaN)" :portability :common} - {:suite "predicates / ifn?" :label "fn" :expected "true" :actual "(ifn? inc)" :portability :common} - {:suite "predicates / ifn?" :label "keyword" :expected "true" :actual "(ifn? :k)" :portability :common} - {:suite "predicates / ifn?" :label "symbol" :expected "true" :actual "(ifn? (quote s))" :portability :common} - {:suite "predicates / ifn?" :label "map" :expected "true" :actual "(ifn? {})" :portability :common} - {:suite "predicates / ifn?" :label "sorted map" :expected "true" :actual "(ifn? (sorted-map))" :portability :common} - {:suite "predicates / ifn?" :label "set" :expected "true" :actual "(ifn? #{1})" :portability :common} - {:suite "predicates / ifn?" :label "vector" :expected "true" :actual "(ifn? [1])" :portability :common} - {:suite "predicates / ifn?" :label "var" :expected "true" :actual "(ifn? (var first))" :portability :common} - {:suite "predicates / ifn?" :label "list NOT" :expected "false" :actual "(ifn? (list 1 2))" :portability :common} - {:suite "predicates / ifn?" :label "lazy NOT" :expected "false" :actual "(ifn? (map inc [1]))" :portability :common} - {:suite "predicates / ifn?" :label "string NOT" :expected "false" :actual "(ifn? \"s\")" :portability :common} - {:suite "predicates / ifn?" :label "number NOT" :expected "false" :actual "(ifn? 5)" :portability :common} - {:suite "predicates / ifn?" :label "nil NOT" :expected "false" :actual "(ifn? nil)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? zero" :expected "true" :actual "(zero? 0)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? nonzero" :expected "false" :actual "(zero? 3)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? throws" :expected :throws :actual "(zero? :a)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? throws on nil" :expected :throws :actual "(zero? nil)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "pos? positive" :expected "true" :actual "(pos? 2)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "pos? zero" :expected "false" :actual "(pos? 0)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "pos? throws" :expected :throws :actual "(pos? \"x\")" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "neg? throws" :expected :throws :actual "(neg? \"x\")" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? all pass" :expected "true" :actual "(every? odd? [1 3 5])" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? one fails" :expected "false" :actual "(every? odd? [1 2 5])" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? vacuous" :expected "true" :actual "(every? odd? [])" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? nil coll" :expected "true" :actual "(every? odd? nil)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? infinite short-circuit" :expected "false" :actual "(every? pos? (range))" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? char" :expected "true" :actual "(char? \\x)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? string" :expected "false" :actual "(char? \"x\")" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? number" :expected "false" :actual "(char? 97)" :portability :common} - {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? nil" :expected "false" :actual "(char? nil)" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "protocol on record" :expected "16" :actual "(do (defprotocol Shape (area [s])) (defrecord Sq [side] Shape (area [_] (* side side))) (area (->Sq 4)))" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "protocol on deftype" :expected "16" :actual "(do (defprotocol Shape (area [s])) (deftype Sq [side] Shape (area [_] (* side side))) (area (->Sq 4)))" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "multiple methods" :expected "[1 2]" :actual "(do (defprotocol P (m [s]) (n [s])) (defrecord R [a b] P (m [_] a) (n [_] b)) [(m (->R 1 2)) (n (->R 1 2))])" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "multiple protocols" :expected "[:a :b]" :actual "(do (defprotocol P1 (p1 [s])) (defprotocol P2 (p2 [s])) (deftype T [] P1 (p1 [_] :a) P2 (p2 [_] :b)) [(p1 (->T)) (p2 (->T))])" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "method args" :expected "7" :actual "(do (defprotocol P (add [s x])) (defrecord R [n] P (add [_ x] (+ n x))) (add (->R 5) 2))" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "extend-type" :expected "10" :actual "(do (defprotocol P (twice [s])) (extend-type Number P (twice [n] (* n 2))) (twice 5))" :portability :common} - {:suite "protocols / defprotocol & dispatch" :label "extend-protocol" :expected "[2 4]" :actual "(do (defprotocol P (dbl [s])) (extend-protocol P Number (dbl [n] (* n 2))) [(dbl 1) (dbl 2)])" :portability :common} - {:suite "protocols / records" :label "record field access" :expected "1" :actual "(do (defrecord R [a b]) (:a (->R 1 2)))" :portability :common} - {:suite "protocols / records" :label "record map access" :expected "2" :actual "(do (defrecord R [a b]) (get (->R 1 2) :b))" :portability :common} - {:suite "protocols / records" :label "record equality" :expected "true" :actual "(do (defrecord R [a b]) (= (->R 1 2) (->R 1 2)))" :portability :common} - {:suite "protocols / records" :label "record inequality" :expected "false" :actual "(do (defrecord R [a b]) (= (->R 1 2) (->R 3 4)))" :portability :common} - {:suite "protocols / records" :label "map-> factory" :expected "1" :actual "(do (defrecord R [a b]) (:a (map->R {:a 1 :b 2})))" :portability :common} - {:suite "protocols / records" :label "record? true" :expected "true" :actual "(do (defrecord R [a]) (record? (->R 1)))" :portability :common} - {:suite "protocols / records" :label "assoc on record" :expected "9" :actual "(do (defrecord R [a]) (:a (assoc (->R 1) :a 9)))" :portability :common} - {:suite "protocols / reify & satisfies" :label "reify dispatch" :expected "42" :actual "(do (defprotocol P (m [_])) (m (reify P (m [_] 42))))" :portability :common} - {:suite "protocols / reify & satisfies" :label "reify multi-method" :expected "[1 2]" :actual "(do (defprotocol P (a [_]) (b [_])) (let [r (reify P (a [_] 1) (b [_] 2))] [(a r) (b r)]))" :portability :common} - {:suite "protocols / reify & satisfies" :label "satisfies? true" :expected "true" :actual "(do (defprotocol P (m [_])) (defrecord R [] P (m [_] 1)) (satisfies? P (->R)))" :portability :common} - {:suite "protocols / reify & satisfies" :label "satisfies? false" :expected "false" :actual "(do (defprotocol P (m [_])) (defrecord R []) (satisfies? P (->R)))" :portability :common} - {:suite "protocols / reify & satisfies" :label "satisfies? reify" :expected "true" :actual "(do (defprotocol P (m [_])) (satisfies? P (reify P (m [_] 1))))" :portability :common} - {:suite "protocols / reify & satisfies" :label "satisfies? reify multi-protocol" :expected "[true true]" :actual "(do (defprotocol P (m [_])) (defprotocol Q (n [_])) (let [r (reify P (m [_] 1) Q (n [_] 2))] [(satisfies? P r) (satisfies? Q r)]))" :portability :common} - {:suite "protocols / reify & satisfies" :label "satisfies? reify other proto" :expected "false" :actual "(do (defprotocol P (m [_])) (defprotocol Q (n [_])) (satisfies? Q (reify P (m [_] 1))))" :portability :common} - {:suite "protocols / reify & satisfies" :label "instance? record" :expected "true" :actual "(do (defrecord R [a]) (instance? R (->R 1)))" :portability :common} - {:suite "protocols / reify & satisfies" :label "dot constructor" :expected "5" :actual "(do (deftype P [n]) (.-n (P. 5)))" :portability :jvm} - {:suite "protocols / reify & satisfies" :label "dot ctor + method" :expected "5" :actual "(do (defprotocol G (val-of [_])) (deftype P [n] G (val-of [_] n)) (val-of (P. 5)))" :portability :jvm} - {:suite "protocols / defprotocol options" :label "docstring + option + method" :expected ":hi" :actual "(do (defprotocol Pdoc \"docs\" :extend-via-metadata true (greet [x])) (extend-protocol Pdoc String (greet [s] :hi)) (greet \"x\"))" :portability :common} - {:suite "protocols / defprotocol options" :label "option only" :expected "3" :actual "(do (defprotocol Popt :extend-via-metadata true (plus2 [x])) (extend-protocol Popt Long (plus2 [n] (+ n 2))) (plus2 1))" :portability :common} - {:suite "reader / anonymous fn #()" :label "no args" :expected "3" :actual "(#(+ 1 2))" :portability :common} - {:suite "reader / anonymous fn #()" :label "one arg %" :expected "6" :actual "(#(* % 2) 3)" :portability :common} - {:suite "reader / anonymous fn #()" :label "positional %1 %2" :expected "[1 2]" :actual "(#(do [%1 %2]) 1 2)" :portability :common} - {:suite "reader / anonymous fn #()" :label "rest %&" :expected "[1 2 3]" :actual "(#(do %&) 1 2 3)" :portability :common} - {:suite "reader / anonymous fn #()" :label "fixed + rest" :expected "[2 3]" :actual "(#(do % %&) 1 2 3)" :portability :common} - {:suite "reader / anonymous fn #()" :label "%2 + rest" :expected "[3]" :actual "(#(do %2 %&) 1 2 3)" :portability :common} - {:suite "reader / anonymous fn #()" :label "%2 only (placeholder p1)" :expected "20" :actual "(#(* %2 2) 1 10)" :portability :common} - {:suite "reader / anonymous fn #()" :label "% and %1 same" :expected "10" :actual "(#(+ % %1) 5)" :portability :common} - {:suite "reader / var-quote #'" :label "var-quote = var" :expected "true" :actual "(= (var str) #'str)" :portability :common} - {:suite "reader / var-quote #'" :label "is a var" :expected "true" :actual "(var? #'str)" :portability :common} - {:suite "reader / var-quote #'" :label "deref var-quote" :expected "5" :actual "(do (def w 5) (deref #'w))" :portability :common} - {:suite "reader / metadata ^" :label "meta on map" :expected "true" :actual "(:foo (meta ^:foo {}))" :portability :common} - {:suite "reader / metadata ^" :label "meta on vector" :expected "true" :actual "(:foo (meta ^:foo [1 2]))" :portability :common} - {:suite "reader / metadata ^" :label "meta on set" :expected "true" :actual "(:foo (meta ^:foo #{}))" :portability :common} - {:suite "reader / metadata ^" :label "meta map form" :expected "1" :actual "(:a (meta ^{:a 1} {}))" :portability :common} - {:suite "reader / metadata ^" :label "meta on quoted sym" :expected "true" :actual "(:foo (meta (quote ^:foo bar)))" :portability :common} - {:suite "reader / metadata ^" :label "with-meta map" :expected "true" :actual "(:k (meta (with-meta {} {:k true})))" :portability :common} - {:suite "reader / metadata ^" :label "with-meta vector" :expected "true" :actual "(:k (meta (with-meta [] {:k true})))" :portability :common} - {:suite "reader / metadata ^" :label "non-metadatable num" :expected "nil" :actual "(meta 100)" :portability :common} - {:suite "reader / metadata ^" :label "non-metadatable str" :expected "nil" :actual "(meta \"\")" :portability :common} - {:suite "reader / metadata ^" :label "non-metadatable bool" :expected "nil" :actual "(meta true)" :portability :common} - {:suite "reader / syntax-quote" :label "plain literal" :expected "[1 2 3]" :actual "`[1 2 3]" :portability :common} - {:suite "reader / syntax-quote" :label "gensym distinct" :expected "true" :actual "(not= `meow# `meow#)" :portability :common} - {:suite "reader / syntax-quote" :label "gensym stable" :expected "true" :actual "(let [s `[meow# meow#]] (= (first s) (second s)))" :portability :common} - {:suite "reader / syntax-quote" :label "qualifies unresolved" :expected "(quote user/foo)" :actual "`foo" :portability :common} - {:suite "reader / syntax-quote" :label "qualifies core sym" :expected "(quote clojure.core/str)" :actual "`str" :portability :common} - {:suite "reader / syntax-quote" :label "unquote value" :expected "[1 2 3]" :actual "(let [a [1 2 3]] `~a)" :portability :common} - {:suite "reader / syntax-quote" :label "unquote in call" :expected "(quote (clojure.core/str [1 2 3]))" :actual "(let [a [1 2 3]] `(str ~a))" :portability :common} - {:suite "reader / syntax-quote" :label "splice empty" :expected "(quote (clojure.core/str))" :actual "(let [e []] `(str ~@e))" :portability :common} - {:suite "reader / syntax-quote" :label "splice values" :expected "(quote (clojure.core/str 1 2 3))" :actual "(let [a [1 2 3]] `(str ~@a))" :portability :common} - {:suite "reader / syntax-quote" :label "splice in vector" :expected "[1 2 3 0 1 2 3]" :actual "(let [b [0] a [1 2 3] e []] `[~@e ~@a ~@b ~@a ~@e])" :portability :common} - {:suite "reader / syntax-quote" :label "splice in set" :expected "#{0 1 3 2}" :actual "(let [b [0] a [1 2 3] e []] `#{~@e ~@a ~@b})" :portability :common} - {:suite "reader / syntax-quote" :label "unquote in set" :expected "#{9 5}" :actual "(let [x 5] `#{~x 9})" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "discard simple" :expected "2" :actual "(do #_1 2)" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "discard in vector" :expected "[1 3]" :actual "[1 #_2 3]" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "discard stacks" :expected "3" :actual "(do #_ #_ 1 2 3)" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##Inf" :expected "true" :actual "(= ##Inf (/ 1.0 0.0))" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##-Inf" :expected "true" :actual "(= ##-Inf (/ -1.0 0.0))" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##NaN not self-equal" :expected "false" :actual "(= ##NaN ##NaN)" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##NaN is NaN?" :expected "true" :actual "(NaN? ##NaN)" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "conditional :default reachable" :expected "2" :actual "#?(:no-such-dialect 1 :default 2)" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "var-quote qualified" :expected "true" :actual "(= (var clojure.core/str) #'clojure.core/str)" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "gensym stable in template" :expected "true" :actual "(let [syms `[meow# meow#]] (= (first syms) (second syms)))" :portability :common} - {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "gensym fresh across templates" :expected "false" :actual "(= `meow# `meow#)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "string once" :expected "true" :actual "(= \"meow\" `\"meow\")" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "string nested" :expected "true" :actual "(= \"meow\" ``\"meow\")" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "string triple" :expected "true" :actual "(= \"meow\" ```\"meow\")" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "number nested" :expected "true" :actual "(= 42 ``42)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "keyword nested" :expected "true" :actual "(= :k ``:k)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "nil nested" :expected "false" :actual "(nil? ``nil)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "char nested" :expected "true" :actual "(= \\a ``\\a)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "bool nested" :expected "false" :actual "(= true ``true)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "symbol still qualifies" :expected "true" :actual "(= (quote clojure.core/map) `map)" :portability :common} - {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "vector still templates" :expected "true" :actual "(= [1 2] `[1 ~(inc 1)])" :portability :common} - {:suite "reader / scalar literals" :label "integer" :expected "42" :actual "42" :portability :common} - {:suite "reader / scalar literals" :label "negative" :expected "-7" :actual "-7" :portability :common} - {:suite "reader / scalar literals" :label "float" :expected "1.5" :actual "1.5" :portability :common} - {:suite "reader / scalar literals" :label "string" :expected "\"hi\"" :actual "\"hi\"" :portability :common} - {:suite "reader / scalar literals" :label "boolean true" :expected "true" :actual "true" :portability :common} - {:suite "reader / scalar literals" :label "nil" :expected "nil" :actual "nil" :portability :common} - {:suite "reader / scalar literals" :label "keyword" :expected ":a" :actual ":a" :portability :common} - {:suite "reader / scalar literals" :label "namespaced keyword" :expected "true" :actual "(= :a/b :a/b)" :portability :common} - {:suite "reader / scalar literals" :label "char" :expected "\\a" :actual "\\a" :portability :common} - {:suite "reader / scalar literals" :label "char newline" :expected "true" :actual "(= \\newline (first \"\\n\"))" :portability :common} - {:suite "reader / scalar literals" :label "char open-brace" :expected "123" :actual "(int \\{)" :portability :common} - {:suite "reader / scalar literals" :label "char open-paren" :expected "40" :actual "(int \\()" :portability :common} - {:suite "reader / scalar literals" :label "char comma" :expected "44" :actual "(int \\,)" :portability :common} - {:suite "reader / scalar literals" :label "char percent" :expected "37" :actual "(int \\%)" :portability :common} - {:suite "reader / scalar literals" :label "char unicode" :expected "65" :actual "(int \\u0041)" :portability :common} - {:suite "reader / scalar literals" :label "hex literal" :expected "255" :actual "0xff" :portability :common} - {:suite "reader / scalar literals" :label "hex uppercase" :expected "31" :actual "0X1F" :portability :common} - {:suite "reader / scalar literals" :label "bigint suffix N" :expected "42N" :actual "42N" :portability :common} - {:suite "reader / scalar literals" :label "bigdec suffix M" :expected "1.5M" :actual "1.5M" :portability :common} - {:suite "reader / scalar literals" :label "ratio -> double" :expected "3/4" :actual "3/4" :portability :common} - {:suite "reader / scalar literals" :label "radix integer" :expected "255" :actual "16rFF" :portability :common} - {:suite "reader / scalar literals" :label "exponent" :expected "1500.0" :actual "1.5e3" :portability :common} - {:suite "reader / scalar literals" :label "symbolic Infinity" :expected "true" :actual "(infinite? ##Inf)" :portability :common} - {:suite "reader / scalar literals" :label "symbolic NaN" :expected "true" :actual "(NaN? ##NaN)" :portability :common} - {:suite "reader / scalar literals" :label "symbol via quote" :expected "'foo" :actual "'foo" :portability :common} - {:suite "reader / collection literals" :label "vector" :expected "[1 2 3]" :actual "[1 2 3]" :portability :common} - {:suite "reader / collection literals" :label "list quoted" :expected "[1 2 3]" :actual "'(1 2 3)" :portability :common} - {:suite "reader / collection literals" :label "map" :expected "{:a 1}" :actual "{:a 1}" :portability :common} - {:suite "reader / collection literals" :label "set" :expected "#{1 3 2}" :actual "#{1 2 3}" :portability :common} - {:suite "reader / collection literals" :label "nested" :expected "{:a [1 {:b 2}]}" :actual "{:a [1 {:b 2}]}" :portability :common} - {:suite "reader / collection literals" :label "empty vector" :expected "[]" :actual "[]" :portability :common} - {:suite "reader / collection literals" :label "empty map" :expected "{}" :actual "{}" :portability :common} - {:suite "reader / collection literals" :label "empty set" :expected "#{}" :actual "#{}" :portability :common} - {:suite "reader / dispatch & sugar" :label "anon fn #()" :expected "3" :actual "(#(+ %1 %2) 1 2)" :portability :common} - {:suite "reader / dispatch & sugar" :label "anon fn single %" :expected "2" :actual "(#(inc %) 1)" :portability :common} - {:suite "reader / dispatch & sugar" :label "anon fn %&" :expected "[2 3]" :actual "(#(vec %&) 2 3)" :portability :common} - {:suite "reader / dispatch & sugar" :label "discard #_" :expected "[1 3]" :actual "[1 #_2 3]" :portability :common} - {:suite "reader / dispatch & sugar" :label "regex literal" :expected "true" :actual "(= \"abc\" (re-find #\"abc\" \"xabcx\"))" :portability :common} - {:suite "reader / dispatch & sugar" :label "reader conditional" :expected "1" :actual "#?(:clj 1 :cljs 2 :default 3)" :portability :common} - {:suite "reader / dispatch & sugar" :label "reader cond :jolt" :expected "1" :actual "#?(:clj 1 :jolt 4 :default 3)" :portability :common} - {:suite "reader / dispatch & sugar" :label "reader cond clause order" :expected "5" :actual "#?(:default 5 :jolt 6)" :portability :common} - {:suite "reader / dispatch & sugar" :label "reader cond no match" :expected "[1]" :actual "[#?(:clj 1 :cljs 2)]" :portability :common} - {:suite "reader / dispatch & sugar" :label "reader cond splice" :expected "[]" :actual "[#?@(:jolt [1 2 3] :cljs [4 5])]" :portability :common} - {:suite "reader / dispatch & sugar" :label "reader cond splice no match" :expected "[1 2 3]" :actual "[#?@(:clj [1 2 3] :cljs [4 5])]" :portability :common} - {:suite "reader / dispatch & sugar" :label "inst literal reads" :expected "true" :actual "(some? #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "reader / dispatch & sugar" :label "uuid literal" :expected "\"550e8400-e29b-41d4-a716-446655440000\"" :actual "(str #uuid \"550e8400-e29b-41d4-a716-446655440000\")" :portability :common} - {:suite "reader / dispatch & sugar" :label "tagged literal var" :expected "true" :actual "(var? #'+)" :portability :common} - {:suite "reader / dispatch & sugar" :label "deref sugar" :expected "5" :actual "(let [a (atom 5)] @a)" :portability :common} - {:suite "reader / dispatch & sugar" :label "meta sugar" :expected "{:t 1}" :actual "(meta ^{:t 1} [])" :portability :common} - {:suite "reader / comments inside maps" :label "comment in value slot" :expected "{:a 1}" :actual "{:a ; note\n 1}" :portability :common} - {:suite "reader / comments inside maps" :label "comment before key" :expected "{:a 1}" :actual "{; lead\n :a 1}" :portability :common} - {:suite "reader / comments inside maps" :label "comment between entries" :expected "{:a 1, :b 2}" :actual "{:a 1 ; mid\n :b 2}" :portability :common} - {:suite "reader / comments inside maps" :label "discard in value slot" :expected "{:a 1}" :actual "{:a #_9 1}" :portability :common} - {:suite "reader / comments inside maps" :label "comment with parens" :expected "{:a {:b 1}}" :actual "{:a ; dev (REPL, etc)\n {:b 1}}" :portability :common} - {:suite "reader / comments inside maps" :label "nested with comments" :expected "{:x {:y 2}}" :actual "{:x ; outer\n {:y ; inner\n 2}}" :portability :common} - {:suite "regex / literals & predicate" :label "regex? literal" :expected "true" :actual "(regex? #\"\\d+\")" :portability :common} - {:suite "regex / literals & predicate" :label "regex? non-regex" :expected "false" :actual "(regex? \"\\\\d+\")" :portability :common} - {:suite "regex / literals & predicate" :label "escaped digits" :expected "\"42\"" :actual "(re-find #\"\\d+\" \"x42y\")" :portability :common} - {:suite "regex / literals & predicate" :label "escaped ws/non-ws" :expected "\"x a\"" :actual "(re-find #\"\\S\\s\\S\" \"x a b y\")" :portability :common} - {:suite "regex / re-find" :label "match" :expected "\"123\"" :actual "(re-find #\"\\d+\" \"abc123def\")" :portability :common} - {:suite "regex / re-find" :label "no match nil" :expected "nil" :actual "(re-find #\"\\d+\" \"abc\")" :portability :common} - {:suite "regex / re-find" :label "with groups" :expected "[\"a1\" \"a\" \"1\"]" :actual "(re-find #\"([a-z])(\\d)\" \"--a1--\")" :portability :common} - {:suite "regex / re-find" :label "first match only" :expected "\"1\"" :actual "(re-find #\"\\d\" \"1 2 3\")" :portability :common} - {:suite "regex / re-matches" :label "full match" :expected "\"123\"" :actual "(re-matches #\"\\d+\" \"123\")" :portability :common} - {:suite "regex / re-matches" :label "partial = nil" :expected "nil" :actual "(re-matches #\"\\d+\" \"123abc\")" :portability :common} - {:suite "regex / re-matches" :label "groups" :expected "[\"12\" \"1\" \"2\"]" :actual "(re-matches #\"(\\d)(\\d)\" \"12\")" :portability :common} - {:suite "regex / re-matches" :label "no match nil" :expected "nil" :actual "(re-matches #\"x+\" \"yyy\")" :portability :common} - {:suite "regex / re-seq" :label "all matches" :expected "[\"1\" \"22\" \"333\"]" :actual "(re-seq #\"\\d+\" \"a1b22c333\")" :portability :common} - {:suite "regex / re-seq" :label "empty when none" :expected "nil" :actual "(seq (re-seq #\"z\" \"abc\"))" :portability :common} - {:suite "regex / re-seq" :label "words" :expected "[\"foo\" \"bar\"]" :actual "(re-seq #\"\\w+\" \"foo bar\")" :portability :common} - {:suite "regex / char-class dash" :label "dash after \\w is literal" :expected "\"a_b-c\"" :actual "(re-matches #\"[\\w-_]+\" \"a_b-c\")" :portability :common} - {:suite "regex / char-class dash" :label "dash + escaped dot in class" :expected "\"a.b_c-d\"" :actual "(re-matches #\"[\\w-_\\.]+\" \"a.b_c-d\")" :portability :common} - {:suite "regex / char-class dash" :label "trailing dash in class" :expected "[\"a-b\" \"c-d\"]" :actual "(vec (re-seq #\"[\\w-]+\" \"a-b c-d\"))" :portability :common} - {:suite "regex / nested quantifier" :label "(X+)* parses and matches" :expected "true" :actual "(boolean (re-matches #\"([^%]+)*(%(d))?\" \"abc\"))" :portability :common} - {:suite "regex / matcher" :label "re-find over a matcher" :expected "\"1\"" :actual "(re-find (re-matcher #\"\\d+\" \"a1b22\"))" :portability :common} - {:suite "regex / matcher" :label "stateful step + re-groups" :expected "[[\"12-34\" \"12\" \"34\"] [\"12-34\" \"12\" \"34\"] [\"56-78\" \"56\" \"78\"] nil]" :actual "(let [m (re-matcher #\"(\\d+)-(\\d+)\" \"12-34 56-78\")] [(re-find m) (re-groups m) (re-find m) (re-find m)])" :portability :common} - {:suite "regex / matcher" :label "re-groups before a match throws" :expected :throws :actual "(re-groups (re-matcher #\"\\d\" \"abc\"))" :portability :common} - {:suite "dynamic vars / portable defaults" :label "default reads" :expected "[true false true false]" :actual "[*read-eval* *print-dup* *flush-on-newline* *compile-files*]" :portability :common} - {:suite "dynamic vars / portable defaults" :label "binding *read-eval*" :expected "false" :actual "(binding [*read-eval* false] *read-eval*)" :portability :common} - {:suite "special forms / letfn" :label "mutual recursion" :expected "true" :actual "(letfn [(e? [n] (if (zero? n) true (o? (dec n)))) (o? [n] (if (zero? n) false (e? (dec n))))] (e? 10))" :portability :common} - {:suite "core vars / present and callable" :label "*out* *err* *warn-on-reflection* await restart-agent" :expected "[true true false true true]" :actual "[(boolean *out*) (boolean *err*) *warn-on-reflection* (ifn? await) (ifn? restart-agent)]" :portability :common} - {:suite "exceptions / runtime error classes" :label "arity error is ArityException" :expected "true" :actual "(instance? clojure.lang.ArityException (try ((fn [a b] a) 1) (catch Throwable e e)))" :portability :jvm} - {:suite "exceptions / runtime error classes" :label "ArityException is an IllegalArgumentException" :expected "true" :actual "(instance? IllegalArgumentException (try ((fn [a b] a) 1) (catch Throwable e e)))" :portability :common} - {:suite "exceptions / runtime error classes" :label "non-seqable is IllegalArgumentException" :expected "true" :actual "(instance? IllegalArgumentException (try (doall (mapcat identity 0)) (catch Throwable e e)))" :portability :common} - {:suite "dynamic vars / portable defaults" :label "*data-readers* map, *math-context* nil" :expected "[true true]" :actual "[(map? *data-readers*) (nil? *math-context*)]" :portability :common} - {:suite "regex / re-pattern & string ops" :label "re-pattern build" :expected "\"hi\"" :actual "(re-find (re-pattern \"\\\\w+\") \"hi!\")" :portability :common} - {:suite "regex / re-pattern & string ops" :label "re-pattern is regex?" :expected "true" :actual "(regex? (re-pattern \"a\"))" :portability :common} - {:suite "regex / re-pattern & string ops" :label "split on regex" :expected "[\"a\" \"b\" \"c\"]" :actual "(do (require '[clojure.string :as s]) (s/split \"a1b2c\" #\"\\d\"))" :portability :common} - {:suite "regex / re-pattern & string ops" :label "replace regex" :expected "\"X-X\"" :actual "(do (require '[clojure.string :as s]) (s/replace \"a-b\" #\"[a-z]\" \"X\"))" :portability :common} - {:suite "regex / re-pattern & string ops" :label "replace $1" :expected "\"[a][b]\"" :actual "(do (require '[clojure.string :as s]) (s/replace \"ab\" #\"([a-z])\" \"[$1]\"))" :portability :common} - {:suite "regex / \\p property classes" :label "p{L} ascii" :expected "\"hello\"" :actual "(re-matches #\"^\\p{L}+$\" \"hello\")" :portability :common} - {:suite "regex / \\p property classes" :label "p{L} utf-8" :expected "true" :actual "(boolean (re-matches #\"^\\p{L}+$\" \"héllo\"))" :portability :common} - {:suite "regex / \\p property classes" :label "p{L} rejects digits" :expected "false" :actual "(boolean (re-matches #\"^\\p{L}+$\" \"ab1\"))" :portability :common} - {:suite "regex / \\p property classes" :label "p{N}" :expected "[\"12\" \"345\"]" :actual "(re-seq #\"\\p{N}+\" \"a12b345\")" :portability :common} - {:suite "regex / \\p property classes" :label "P{N} negation" :expected "\"abc\"" :actual "(re-matches #\"^\\P{N}+$\" \"abc\")" :portability :common} - {:suite "regex / \\p property classes" :label "inside class" :expected "\"a-1_b\"" :actual "(re-matches #\"^[\\p{N}\\p{L}_-]+$\" \"a-1_b\")" :portability :common} - {:suite "regex / \\p property classes" :label "p{Lu}/p{Ll}" :expected "\"aB\"" :actual "(re-matches #\"^\\p{Ll}\\p{Lu}$\" \"aB\")" :portability :common} - {:suite "regex / \\p property classes" :label "p{Z} space" :expected "\" \"" :actual "(re-matches #\"(?u)^[\\s\\p{Z}]+$\" \" \")" :portability :common} - {:suite "regex / \\p property classes" :label "p{Ps}/p{Pe}" :expected "\"(x)\"" :actual "(re-matches #\"^\\p{Ps}x\\p{Pe}$\" \"(x)\")" :portability :common} - {:suite "regex / \\p property classes" :label "(?u) accepted" :expected "\"hi\"" :actual "(re-matches #\"(?u)^hi$\" \"hi\")" :portability :common} - {:suite "regex / \\p property classes" :label "unknown class throws" :expected :throws :actual "(re-pattern \"\\p{Greek}\")" :portability :common} - {:suite "regex / Pattern statics & String regex methods" :label "Pattern/compile is a regex" :expected "true" :actual "(regex? (Pattern/compile \"a.c\"))" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label "compiled .split" :expected "[\"a\" \"b\" \"c\"]" :actual "(.split (Pattern/compile \",\") \"a,b,c\")" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label "str/replace w/ Pattern" :expected "\"ab\"" :actual "(do (require '[clojure.string :as s]) (s/replace \"a1b2\" (Pattern/compile \"[0-9]\") \"\"))" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label "Pattern/MULTILINE ^" :expected "true" :actual "(boolean (re-find (Pattern/compile \"^x\" Pattern/MULTILINE) \"y\\nx\"))" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label "Pattern/quote literal" :expected "true" :actual "(boolean (re-find (re-pattern (Pattern/quote \"a.c\")) \"za.cy\"))" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label "Pattern/quote not meta" :expected "false" :actual "(boolean (re-find (re-pattern (Pattern/quote \"a.c\")) \"zabcy\"))" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label ".matches whole string" :expected "true" :actual "(.matches \"abc\" \"a.c\")" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label ".matches partial -> false" :expected "false" :actual "(.matches \"abcd\" \"a.c\")" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label ".replaceAll regex" :expected "\"a-b-c\"" :actual "(.replaceAll \"a_b_c\" \"_\" \"-\")" :portability :jvm} - {:suite "regex / Pattern statics & String regex methods" :label ".replaceFirst regex" :expected "\"a-b_c\"" :actual "(.replaceFirst \"a_b_c\" \"_\" \"-\")" :portability :jvm} - {:suite "regex / bounded quantifiers" :label "exact {n}" :expected "\"aaa\"" :actual "(re-matches #\"a{3}\" \"aaa\")" :portability :common} - {:suite "regex / bounded quantifiers" :label "range {n,m} max" :expected "\"aaaa\"" :actual "(re-find #\"a{2,4}\" \"aaaaa\")" :portability :common} - {:suite "regex / bounded quantifiers" :label "zero lower {0,n}" :expected "\"aa\"" :actual "(re-find #\"a{0,3}\" \"aa\")" :portability :common} - {:suite "regex / bounded quantifiers" :label "{n,} unbounded" :expected "\"aaaa\"" :actual "(re-find #\"a{2,}\" \"aaaa\")" :portability :common} - {:suite "regex / bounded quantifiers" :label "nested bounds compile" :expected "true" :actual "(boolean (re-matches #\"[a-z](?:[a-z]{0,61}[a-z])?(?:-[a-z]{0,61}[a-z])*\" \"abc-def\"))" :portability :common} - {:suite "regex / backreferences" :label "repeated char" :expected "true" :actual "(boolean (re-find #\"(.)\\1\" \"abba\"))" :portability :common} - {:suite "regex / backreferences" :label "no repeat = nil" :expected "nil" :actual "(re-find #\"(.)\\1\" \"abc\")" :portability :common} - {:suite "regex / backreferences" :label "thematic-break run" :expected "true" :actual "(boolean (re-matches #\"([-*_])\\1\\1\" \"---\"))" :portability :common} - {:suite "regex / backreferences" :label "mismatched run" :expected "nil" :actual "(re-matches #\"([-*_])\\1\\1\" \"-*_\")" :portability :common} - {:suite "regex / backreferences" :label "repeated word" :expected "[\"the the\" \"the\"]" :actual "(re-find #\"(\\w+) \\1\" \"say the the word\")" :portability :common} - {:suite "regex / backreferences" :label "group still captures" :expected "[\"x=x\" \"x\"]" :actual "(re-matches #\"(\\w+)=\\1\" \"x=x\")" :portability :common} - {:suite "regex / backreferences" :label "html tag pair" :expected "true" :actual "(boolean (re-matches #\"<(\\w+)>.*\" \"hi\"))" :portability :common} - {:suite "seq / access" :label "first of vector" :expected "1" :actual "(first [1 2 3])" :portability :common} - {:suite "seq / access" :label "first of list" :expected "1" :actual "(first (list 1 2 3))" :portability :common} - {:suite "seq / access" :label "first of empty is nil" :expected "nil" :actual "(first [])" :portability :common} - {:suite "seq / access" :label "first of nil is nil" :expected "nil" :actual "(first nil)" :portability :common} - {:suite "seq / access" :label "second" :expected "2" :actual "(second [1 2 3])" :portability :common} - {:suite "seq / access" :label "last" :expected "3" :actual "(last [1 2 3])" :portability :common} - {:suite "seq / access" :label "rest of vector" :expected "[2 3]" :actual "(rest [1 2 3])" :portability :common} - {:suite "seq / access" :label "rest of single" :expected "[]" :actual "(rest [1])" :portability :common} - {:suite "seq / access" :label "rest of empty" :expected "[]" :actual "(rest [])" :portability :common} - {:suite "seq / access" :label "next of single is nil" :expected "nil" :actual "(next [1])" :portability :common} - {:suite "seq / access" :label "next of empty is nil" :expected "nil" :actual "(next [])" :portability :common} - {:suite "seq / access" :label "nth" :expected "30" :actual "(nth [10 20 30] 2)" :portability :common} - {:suite "seq / access" :label "nth with default" :expected "99" :actual "(nth [10] 5 99)" :portability :common} - {:suite "seq / access" :label "nth out of range" :expected :throws :actual "(nth [10] 5)" :portability :common} - {:suite "seq / access" :label "ffirst" :expected "1" :actual "(ffirst [[1 2] [3 4]])" :portability :common} - {:suite "seq / access" :label "fnext" :expected "2" :actual "(fnext [1 2 3])" :portability :common} - {:suite "seq / access" :label "nnext" :expected "[3 4]" :actual "(nnext [1 2 3 4])" :portability :common} - {:suite "seq / construction" :label "cons onto list" :expected "[0 1 2]" :actual "(cons 0 (list 1 2))" :portability :common} - {:suite "seq / construction" :label "cons onto vector" :expected "[0 1 2]" :actual "(cons 0 [1 2])" :portability :common} - {:suite "seq / construction" :label "cons onto nil" :expected "[0]" :actual "(cons 0 nil)" :portability :common} - {:suite "seq / construction" :label "conj vector appends" :expected "[1 2 3]" :actual "(conj [1 2] 3)" :portability :common} - {:suite "seq / construction" :label "conj list prepends" :expected "[0 1 2]" :actual "(conj (list 1 2) 0)" :portability :common} - {:suite "seq / construction" :label "conj multiple on vec" :expected "[1 2 3 4]" :actual "(conj [1 2] 3 4)" :portability :common} - {:suite "seq / construction" :label "conj multiple on list" :expected "[4 3 1 2]" :actual "(conj (list 1 2) 3 4)" :portability :common} - {:suite "seq / construction" :label "seq of empty is nil" :expected "nil" :actual "(seq [])" :portability :common} - {:suite "seq / construction" :label "seq of nil is nil" :expected "nil" :actual "(seq nil)" :portability :common} - {:suite "seq / construction" :label "seq of string" :expected "[\\a \\b]" :actual "(seq \"ab\")" :portability :common} - {:suite "seq / construction" :label "empty?" :expected "true" :actual "(empty? [])" :portability :common} - {:suite "seq / construction" :label "not empty?" :expected "false" :actual "(empty? [1])" :portability :common} - {:suite "seq / construction" :label "count" :expected "3" :actual "(count [1 2 3])" :portability :common} - {:suite "seq / construction" :label "count of nil" :expected "0" :actual "(count nil)" :portability :common} - {:suite "seq / construction" :label "count of string" :expected "3" :actual "(count \"abc\")" :portability :common} - {:suite "seq / map filter reduce" :label "map" :expected "[2 3 4]" :actual "(map inc [1 2 3])" :portability :common} - {:suite "seq / map filter reduce" :label "map two colls" :expected "[5 7 9]" :actual "(map + [1 2 3] [4 5 6])" :portability :common} - {:suite "seq / map filter reduce" :label "map stops at shortest" :expected "[5 7]" :actual "(map + [1 2] [4 5 6])" :portability :common} - {:suite "seq / map filter reduce" :label "map keeps nil elements" :expected "[[1 :a] [nil :b] [3 nil]]" :actual "(map vector [1 nil 3] [:a :b nil])" :portability :common} - {:suite "seq / map filter reduce" :label "map 3 colls" :expected "[12 15 18]" :actual "(map + [1 2 3] [4 5 6] [7 8 9])" :portability :common} - {:suite "seq / map filter reduce" :label "map 3 colls shortest" :expected "[12 15]" :actual "(map + [1 2] [4 5 6] [7 8 9])" :portability :common} - {:suite "seq / map filter reduce" :label "map 4 colls" :expected "[16 20]" :actual "(map + [1 2] [3 4] [5 6] [7 8])" :portability :common} - {:suite "seq / map filter reduce" :label "map 3 colls nils" :expected "[[1 :a 10] [nil :b 20] [3 nil 30]]" :actual "(map vector [1 nil 3] [:a :b nil] [10 20 30])" :portability :common} - {:suite "seq / map filter reduce" :label "map empty coll" :expected "[]" :actual "(map + [] [1 2 3] [4 5 6])" :portability :common} - {:suite "seq / map filter reduce" :label "map lazy+concrete" :expected "[11 22 33]" :actual "(map + (map identity [1 2 3]) [10 20 30])" :portability :common} - {:suite "seq / map filter reduce" :label "map-indexed" :expected "[[0 :a] [1 :b]]" :actual "(map-indexed vector [:a :b])" :portability :common} - {:suite "seq / map filter reduce" :label "mapv" :expected "[2 3 4]" :actual "(mapv inc [1 2 3])" :portability :common} - {:suite "seq / map filter reduce" :label "filter" :expected "[2 4]" :actual "(filter even? [1 2 3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "filterv" :expected "[2 4]" :actual "(filterv even? [1 2 3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "remove" :expected "[1 3]" :actual "(remove even? [1 2 3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce" :expected "10" :actual "(reduce + [1 2 3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce with init" :expected "20" :actual "(reduce + 10 [1 2 3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce empty with init" :expected "0" :actual "(reduce + 0 [])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce single no init" :expected "5" :actual "(reduce + [5])" :portability :common} - {:suite "seq / map filter reduce" :label "reduced short-circuits" :expected "3" :actual "(reduce (fn [a x] (if (> a 2) (reduced a) (+ a x))) 0 [1 2 3 4 5])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce-kv" :expected "6" :actual "(reduce-kv (fn [a k v] (+ a v)) 0 {:a 1 :b 2 :c 3})" :portability :common} - {:suite "seq / map filter reduce" :label "reduce-kv on vector" :expected "[[0 :a] [1 :b]]" :actual "(reduce-kv (fn [a i v] (conj a [i v])) [] [:a :b])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce-kv honors reduced" :expected "[:a]" :actual "(reduce-kv (fn [a i v] (if (= i 1) (reduced a) (conj a v))) [] [:a :b :c])" :portability :common} - {:suite "seq / map filter reduce" :label "reduce-kv on nil" :expected "0" :actual "(reduce-kv (fn [a k v] (+ a v)) 0 nil)" :portability :common} - {:suite "seq / map filter reduce" :label "reductions" :expected "[1 3 6]" :actual "(reductions + [1 2 3])" :portability :common} - {:suite "seq / map filter reduce" :label "mapcat" :expected "[1 1 2 2]" :actual "(mapcat (fn [x] [x x]) [1 2])" :portability :common} - {:suite "seq / map filter reduce" :label "mapcat two colls" :expected "[1 3 2 4]" :actual "(mapcat vector [1 2] [3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "mapcat three colls" :expected "[1 2 3]" :actual "(mapcat vector [1] [2] [3])" :portability :common} - {:suite "seq / map filter reduce" :label "mapcat empty coll" :expected "[]" :actual "(mapcat vector [] [1 2] [3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "mapcat seqs" :expected "[1 2 3 4]" :actual "(mapcat identity [[1 2] [3 4]])" :portability :common} - {:suite "seq / lazy over infinite" :label "mapcat is lazy over an infinite source" :expected "[1 2 1 2]" :actual "(take 4 (mapcat identity (repeat [1 2])))" :portability :common} - {:suite "seq / lazy over infinite" :label "mapcat single coll lazy" :expected "[0 1 2]" :actual "(take 3 (mapcat vector (range)))" :portability :common} - {:suite "seq / lazy over infinite" :label "apply concat lazy over infinite" :expected "[1 1 1]" :actual "(take 3 (apply concat (repeat [1])))" :portability :common} - {:suite "seq / lazy over infinite" :label "apply concat fixed + infinite tail" :expected "[9 0 0 0 0]" :actual "(take 5 (apply concat [9] (repeat [0])))" :portability :common} - {:suite "seq / lazy over infinite" :label "sequence is lazy over an infinite source" :expected "[1 2 3]" :actual "(take 3 (sequence (map inc) (range)))" :portability :common} - {:suite "seq / lazy over infinite" :label "sequence first of infinite" :expected "2" :actual "(first (sequence (map inc) (range 1 100000000000)))" :portability :common} - {:suite "seq / lazy over infinite" :label "sequence stateful xform lazy" :expected "[[0 1] [2 3]]" :actual "(take 2 (sequence (partition-all 2) (range)))" :portability :common} - {:suite "seq / lazy over infinite" :label "sequence value + completion flush" :expected "[[0 1] [2 3] [4]]" :actual "(sequence (partition-all 2) (range 5))" :portability :common} - {:suite "seq / lazy over infinite" :label "sequence empty stays a seq" :expected "true" :actual "(seq? (sequence (filter even?) [1 3 5]))" :portability :common} - {:suite "seq / lazy over infinite" :label "sequence empty prints as empty" :expected "()" :actual "(sequence (filter even?) [1 3 5])" :portability :common} - {:suite "seq / lazy over infinite" :label "eduction is lazy over infinite" :expected "1" :actual "(first (eduction (map inc) (range)))" :portability :common} - {:suite "seq / lazy over infinite" :label "eduction reduces" :expected "9" :actual "(reduce + (eduction (filter odd?) [1 2 3 4 5]))" :portability :common} - {:suite "seq / lazy over infinite" :label "eduction into" :expected "[2 3 4]" :actual "(into [] (eduction (map inc) [1 2 3]))" :portability :common} - {:suite "seq / lazy over infinite" :label "eduction multiple xforms compose left-to-right" :expected "[2 4]" :actual "(into [] (eduction (filter odd?) (map inc) [1 2 3 4]))" :portability :common} - {:suite "seq / map filter reduce" :label "keep" :expected "[1 3]" :actual "(keep (fn [x] (if (odd? x) x nil)) [1 2 3 4])" :portability :common} - {:suite "seq / map filter reduce" :label "some truthy" :expected "true" :actual "(some even? [1 2 3])" :portability :common} - {:suite "seq / map filter reduce" :label "some nil" :expected "nil" :actual "(some even? [1 3 5])" :portability :common} - {:suite "seq / map filter reduce" :label "every? true" :expected "true" :actual "(every? pos? [1 2 3])" :portability :common} - {:suite "seq / map filter reduce" :label "every? false" :expected "false" :actual "(every? pos? [1 -2 3])" :portability :common} - {:suite "seq / take drop slice" :label "take" :expected "[1 2 3]" :actual "(take 3 [1 2 3 4 5])" :portability :common} - {:suite "seq / take drop slice" :label "take more than size" :expected "[1 2]" :actual "(take 5 [1 2])" :portability :common} - {:suite "seq / take drop slice" :label "drop" :expected "[4 5]" :actual "(drop 3 [1 2 3 4 5])" :portability :common} - {:suite "seq / take drop slice" :label "take-while" :expected "[1 2]" :actual "(take-while (fn [x] (< x 3)) [1 2 3 1])" :portability :common} - {:suite "seq / take drop slice" :label "drop-while" :expected "[3 1]" :actual "(drop-while (fn [x] (< x 3)) [1 2 3 1])" :portability :common} - {:suite "seq / take drop slice" :label "take-last" :expected "[4 5]" :actual "(take-last 2 [1 2 3 4 5])" :portability :common} - {:suite "seq / take drop slice" :label "drop-last" :expected "[1 2 3]" :actual "(drop-last [1 2 3 4])" :portability :common} - {:suite "seq / take drop slice" :label "take-nth" :expected "[1 3 5]" :actual "(take-nth 2 [1 2 3 4 5])" :portability :common} - {:suite "seq / take drop slice" :label "partition" :expected "[[1 2] [3 4]]" :actual "(partition 2 [1 2 3 4 5])" :portability :common} - {:suite "seq / take drop slice" :label "partition-all" :expected "[[1 2] [3]]" :actual "(partition-all 2 [1 2 3])" :portability :common} - {:suite "seq / take drop slice" :label "partition elems are seqs" :expected "true" :actual "(every? seq? (partition 2 [1 2 3 4]))" :portability :common} - {:suite "seq / take drop slice" :label "partition-all elems are seqs not vectors" :expected "true" :actual "(every? seq? (partition-all 2 (range 5)))" :portability :common} - {:suite "seq / take drop slice" :label "partition-all elem is not a vector" :expected "false" :actual "(vector? (first (partition-all 2 [1 2 3])))" :portability :common} - {:suite "seq / take drop slice" :label "partition-all [n step coll] elems are seqs" :expected "true" :actual "(every? seq? (partition-all 2 2 [1 2 3 4]))" :portability :common} - {:suite "seq / take drop slice" :label "partition-by elems are seqs" :expected "true" :actual "(every? seq? (partition-by odd? [1 3 2 4]))" :portability :common} - {:suite "seq / take drop slice" :label "split-at" :expected "[[1 2] [3 4]]" :actual "(split-at 2 [1 2 3 4])" :portability :common} - {:suite "seq / transform" :label "reverse" :expected "[3 2 1]" :actual "(reverse [1 2 3])" :portability :common} - {:suite "seq / transform" :label "sort" :expected "[1 2 3]" :actual "(sort [3 1 2])" :portability :common} - {:suite "seq / transform" :label "sort with comparator" :expected "[3 2 1]" :actual "(sort > [1 3 2])" :portability :common} - {:suite "seq / transform" :label "sort-by" :expected "[[1] [2 2]]" :actual "(sort-by count [[2 2] [1]])" :portability :common} - {:suite "seq / transform" :label "distinct" :expected "[1 2 3]" :actual "(distinct [1 1 2 3 3])" :portability :common} - {:suite "seq / transform" :label "dedupe" :expected "[1 2 1]" :actual "(dedupe [1 1 2 1])" :portability :common} - {:suite "seq / transform" :label "interpose" :expected "[1 0 2 0 3]" :actual "(interpose 0 [1 2 3])" :portability :common} - {:suite "seq / transform" :label "interleave" :expected "[1 :a 2 :b]" :actual "(interleave [1 2] [:a :b])" :portability :common} - {:suite "seq / transform" :label "flatten" :expected "[1 2 3 4]" :actual "(flatten [1 [2 [3 [4]]]])" :portability :common} - {:suite "seq / transform" :label "concat" :expected "[1 2 3 4]" :actual "(concat [1 2] [3 4])" :portability :common} - {:suite "seq / transform" :label "into vector" :expected "[1 2 3 4]" :actual "(into [1 2] [3 4])" :portability :common} - {:suite "seq / transform" :label "into list" :expected "[3 2 1]" :actual "(into (list) [1 2 3])" :portability :common} - {:suite "seq / transform" :label "frequencies" :expected "{1 2, 2 1}" :actual "(frequencies [1 1 2])" :portability :common} - {:suite "seq / transform" :label "group-by" :expected "{false [1 3], true [2 4]}" :actual "(group-by even? [1 2 3 4])" :portability :common} - {:suite "seq / transform" :label "zipmap" :expected "{:a 1, :b 2}" :actual "(zipmap [:a :b] [1 2])" :portability :common} - {:suite "seq / transform" :label "mapcat seqs" :expected "[1 2 3 4]" :actual "(mapcat identity [[1 2] [3 4]])" :portability :common} - {:suite "seq / generators" :label "range n" :expected "[0 1 2 3]" :actual "(range 4)" :portability :common} - {:suite "seq / generators" :label "range from to" :expected "[2 3 4]" :actual "(range 2 5)" :portability :common} - {:suite "seq / generators" :label "range with step" :expected "[0 2 4]" :actual "(range 0 6 2)" :portability :common} - {:suite "seq / generators" :label "take repeat" :expected "[:x :x :x]" :actual "(take 3 (repeat :x))" :portability :common} - {:suite "seq / generators" :label "repeat n" :expected "[5 5]" :actual "(repeat 2 5)" :portability :common} - {:suite "seq / generators" :label "take iterate" :expected "[1 2 4 8]" :actual "(take 4 (iterate (fn [x] (* x 2)) 1))" :portability :common} - {:suite "seq / generators" :label "take cycle" :expected "[1 2 1 2 1]" :actual "(take 5 (cycle [1 2]))" :portability :common} - {:suite "seq / generators" :label "take repeatedly" :expected "3" :actual "(count (take 3 (repeatedly (fn [] 1))))" :portability :common} - {:suite "seq / generators" :label "take-last of range" :expected "[8 9]" :actual "(take-last 2 (range 10))" :portability :common} - {:suite "seq / IFn values as functions" :label "map keyword" :expected "[1 2 3]" :actual "(map :a [{:a 1} {:a 2} {:a 3}])" :portability :common} - {:suite "seq / IFn values as functions" :label "filter keyword" :expected "[{:ok true}]" :actual "(filter :ok [{:ok true} {:ok false}])" :portability :common} - {:suite "seq / IFn values as functions" :label "remove keyword" :expected "[{:ok false}]" :actual "(remove :ok [{:ok true} {:ok false}])" :portability :common} - {:suite "seq / IFn values as functions" :label "sort-by keyword" :expected "[{:a 1} {:a 2} {:a 3}]" :actual "(sort-by :a [{:a 3} {:a 1} {:a 2}])" :portability :common} - {:suite "seq / IFn values as functions" :label "sort-by key + cmp" :expected "[{:a 3} {:a 2} {:a 1}]" :actual "(sort-by :a > [{:a 3} {:a 1} {:a 2}])" :portability :common} - {:suite "seq / IFn values as functions" :label "filter set" :expected "[2 4]" :actual "(filter #{2 4} [1 2 3 4 5])" :portability :common} - {:suite "seq / IFn values as functions" :label "remove set" :expected "[1 3 5]" :actual "(remove #{2 4} [1 2 3 4 5])" :portability :common} - {:suite "seq / IFn values as functions" :label "group-by keyword" :expected "{1 [{:n 1}], 2 [{:n 2}]}" :actual "(group-by :n [{:n 1} {:n 2}])" :portability :common} - {:suite "seq / IFn values as functions" :label "map a map" :expected "[1 nil 2]" :actual "(map {:a 1 :b 2} [:a :z :b])" :portability :common} - {:suite "seq / IFn values as functions" :label "take-nth transducer" :expected "[0 2 4 6 8]" :actual "(into [] (take-nth 2) (range 10))" :portability :common} - {:suite "seq / IFn values as functions" :label "interpose transducer" :expected "[1 :x 2]" :actual "(into [] (interpose :x) [1 2])" :portability :common} - {:suite "seq / conj edge cases" :label "conj no args" :expected "[]" :actual "(conj)" :portability :common} - {:suite "seq / conj edge cases" :label "conj nil one" :expected "[3]" :actual "(conj nil 3)" :portability :common} - {:suite "seq / conj edge cases" :label "conj nil many" :expected "[2 1]" :actual "(conj nil 1 2)" :portability :common} - {:suite "seq / conj edge cases" :label "conj vector" :expected "[1 2 3]" :actual "(conj [1 2] 3)" :portability :common} - {:suite "seq / conj edge cases" :label "conj list prepend" :expected "[0 1 2]" :actual "(conj '(1 2) 0)" :portability :common} - {:suite "seq / conj edge cases" :label "conj map + map" :expected "{:a 0, :b 1}" :actual "(conj {:a 0} {:b 1})" :portability :common} - {:suite "seq / conj edge cases" :label "conj map + pair" :expected "{:a 0, :b 1}" :actual "(conj {:a 0} [:b 1])" :portability :common} - {:suite "seq / conj edge cases" :label "conj map merge wins" :expected "{:a 2}" :actual "(conj {:a 0} {:a 1} {:a 2})" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "cons non-seqable num" :expected :throws :actual "(cons 1 42)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "cons non-seqable kw" :expected :throws :actual "(cons 1 :k)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "cons onto nil ok" :expected "[1]" :actual "(cons 1 nil)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "cons onto seq ok" :expected "[0 1 2]" :actual "(cons 0 [1 2])" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "num non-number" :expected :throws :actual "(num \"x\")" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "num ok" :expected "5" :actual "(num 5)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "realized? on number" :expected :throws :actual "(realized? 1)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "realized? on nil" :expected :throws :actual "(realized? nil)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "symbol from nil" :expected :throws :actual "(symbol nil)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "symbol bad 2-arg" :expected :throws :actual "(symbol :a \"b\")" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "symbol from keyword" :expected "\"x\"" :actual "(name (symbol :x))" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "keyword bad 2-arg" :expected :throws :actual "(keyword \"abc\" nil)" :portability :common} - {:suite "seq / strictness (throws like Clojure)" :label "keyword from symbol" :expected "\"x\"" :actual "(name (keyword 'x))" :portability :common} - {:suite "seq / accessor strictness" :label "peek vector" :expected "3" :actual "(peek [1 2 3])" :portability :common} - {:suite "seq / accessor strictness" :label "peek list" :expected "1" :actual "(peek '(1 2 3))" :portability :common} - {:suite "seq / accessor strictness" :label "peek empty vec" :expected "nil" :actual "(peek [])" :portability :common} - {:suite "seq / accessor strictness" :label "peek on set" :expected :throws :actual "(peek #{1 2})" :portability :common} - {:suite "seq / accessor strictness" :label "peek on number" :expected :throws :actual "(peek 42)" :portability :common} - {:suite "seq / accessor strictness" :label "pop empty vec" :expected :throws :actual "(pop [])" :portability :common} - {:suite "seq / accessor strictness" :label "pop on number" :expected :throws :actual "(pop 0)" :portability :common} - {:suite "seq / accessor strictness" :label "pop vector" :expected "[1 2]" :actual "(pop [1 2 3])" :portability :common} - {:suite "seq / accessor strictness" :label "vec on number" :expected :throws :actual "(vec 42)" :portability :common} - {:suite "seq / accessor strictness" :label "vec on keyword" :expected :throws :actual "(vec :a)" :portability :common} - {:suite "seq / accessor strictness" :label "vec ok" :expected "[1 2]" :actual "(vec '(1 2))" :portability :common} - {:suite "seq / accessor strictness" :label "key on nil" :expected :throws :actual "(key nil)" :portability :common} - {:suite "seq / accessor strictness" :label "key on map" :expected :throws :actual "(key {})" :portability :common} - {:suite "seq / accessor strictness" :label "val on number" :expected :throws :actual "(val 0)" :portability :common} - {:suite "seq / accessor strictness" :label "key of entry" :expected ":a" :actual "(key (first {:a 1}))" :portability :common} - {:suite "seq / accessor strictness" :label "val of entry" :expected "1" :actual "(val (first {:a 1}))" :portability :common} - {:suite "seq / more strictness" :label "first on number" :expected :throws :actual "(first 42)" :portability :common} - {:suite "seq / more strictness" :label "first on keyword" :expected :throws :actual "(first :a)" :portability :common} - {:suite "seq / more strictness" :label "first ok vec" :expected "1" :actual "(first [1 2])" :portability :common} - {:suite "seq / more strictness" :label "first ok nil" :expected "nil" :actual "(first nil)" :portability :common} - {:suite "seq / more strictness" :label "rseq vector" :expected "[3 2 1]" :actual "(rseq [1 2 3])" :portability :common} - {:suite "seq / more strictness" :label "rseq on string" :expected :throws :actual "(rseq \"ab\")" :portability :common} - {:suite "seq / more strictness" :label "rseq on map" :expected :throws :actual "(rseq {:a 1})" :portability :common} - {:suite "seq / more strictness" :label "rseq on number" :expected :throws :actual "(rseq 0)" :portability :common} - {:suite "seq / more strictness" :label "assoc odd args" :expected :throws :actual "(assoc {:a 1} :b)" :portability :common} - {:suite "seq / more strictness" :label "assoc on number" :expected :throws :actual "(assoc 5 :a 1)" :portability :common} - {:suite "seq / more strictness" :label "assoc on set" :expected :throws :actual "(assoc #{} :a 1)" :portability :common} - {:suite "seq / strictness round 3" :label "seq on number" :expected :throws :actual "(seq 1)" :portability :common} - {:suite "seq / strictness round 3" :label "seq on fn" :expected :throws :actual "(seq (fn [] 1))" :portability :common} - {:suite "seq / strictness round 3" :label "seq vector ok" :expected "[1 2]" :actual "(seq [1 2])" :portability :common} - {:suite "seq / strictness round 3" :label "NaN? on nil" :expected :throws :actual "(NaN? nil)" :portability :common} - {:suite "seq / strictness round 3" :label "NaN? on number ok" :expected "false" :actual "(NaN? 1.0)" :portability :common} - {:suite "seq / strictness round 3" :label "shuffle on number" :expected :throws :actual "(shuffle 1)" :portability :common} - {:suite "seq / strictness round 3" :label "shuffle on string" :expected :throws :actual "(shuffle \"abc\")" :portability :common} - {:suite "seq / strictness round 3" :label "shuffle vec ok" :expected "3" :actual "(count (shuffle [1 2 3]))" :portability :common} - {:suite "seq / strictness round 3" :label "nthrest nil count" :expected :throws :actual "(nthrest [0 1 2] nil)" :portability :common} - {:suite "seq / strictness round 3" :label "nthrest negative" :expected "[0 1 2]" :actual "(nthrest [0 1 2] -1)" :portability :common} - {:suite "seq / strictness round 3" :label "nthrest nil coll" :expected "nil" :actual "(nthrest nil 0)" :portability :common} - {:suite "seq / strictness round 3" :label "nthnext nil count" :expected :throws :actual "(nthnext [0 1 2] nil)" :portability :common} - {:suite "seq / strictness round 3" :label "update vec oob" :expected :throws :actual "(update [] 1 identity)" :portability :common} - {:suite "seq / strictness round 3" :label "update vec kw key" :expected :throws :actual "(update [1 2 3] :k identity)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthrest exhausted -> ()" :expected "[]" :actual "(nthrest nil 100)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthrest vec exhausted" :expected "[]" :actual "(nthrest [1 2 3] 100)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthrest n<=0 keeps coll" :expected "[1 2 3]" :actual "(nthrest [1 2 3] 0)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthrest drops n" :expected "[3 4 5]" :actual "(nthrest [1 2 3 4 5] 2)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthnext exhausted -> nil" :expected "nil" :actual "(nthnext [1 2] 5)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthnext surprising nil" :expected "nil" :actual "(nthnext nil nil)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "nthnext drops n" :expected "[3 4]" :actual "(nthnext [1 2 3 4] 2)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "distinct? distinct" :expected "true" :actual "(distinct? 1 2 3)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "distinct? dup" :expected "false" :actual "(distinct? 1 2 1)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "distinct? equal colls" :expected "false" :actual "(distinct? [1 2] [1 2])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "distinct? single" :expected "true" :actual "(distinct? 5)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "replace maps elements" :expected "[:a 2 :c 2]" :actual "(replace {1 :a 3 :c} [1 2 3 2])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "replace preserves nil val" :expected "[1 nil 3]" :actual "(replace {2 nil} [1 2 3])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "replace on a vector stays a vector" :expected "true" :actual "(vector? (replace {1 :a} [1 2 1]))" :portability :common} - {:suite "seq / overlay-migrated fns" :label "replace on a seq returns a seq" :expected "true" :actual "(seq? (replace {1 :a} (list 1 2 1)))" :portability :common} - {:suite "seq / overlay-migrated fns" :label "replace on a seq is lazy" :expected "[0 :a 2]" :actual "(take 3 (replace {1 :a} (range)))" :portability :common} - {:suite "seq / overlay-migrated fns" :label "take-last" :expected "[3 4]" :actual "(take-last 2 [1 2 3 4])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "take-last empty -> nil" :expected "nil" :actual "(take-last 2 [])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "take-last n>len" :expected "[1 2]" :actual "(take-last 9 [1 2])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "drop-last default 1" :expected "[1 2]" :actual "(drop-last [1 2 3])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "drop-last n" :expected "[1 2]" :actual "(drop-last 2 [1 2 3 4])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "split-with" :expected "[[2 4] [5 6]]" :actual "(split-with even? [2 4 5 6])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "replicate" :expected "[:x :x :x]" :actual "(replicate 3 :x)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "bounded-count" :expected "5" :actual "(bounded-count 3 [1 2 3 4 5])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "bounded-count uncounted" :expected "3" :actual "(bounded-count 3 (filter odd? (range 100)))" :portability :common} - {:suite "seq / overlay-migrated fns" :label "run! side effects" :expected "6" :actual "(let [a (atom 0)] (run! (fn [x] (swap! a + x)) [1 2 3]) @a)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "completing wraps rf" :expected "3" :actual "((completing +) 1 2)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "comparator <" :expected "[1 2 3]" :actual "(sort (comparator <) [3 1 2])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "comparator >" :expected "[3 2 1]" :actual "(sort (comparator >) [3 1 2])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "reductions" :expected "[1 3 6 10]" :actual "(reductions + [1 2 3 4])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "reductions with init" :expected "[10 11 13 16]" :actual "(reductions + 10 [1 2 3])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "reductions empty calls f" :expected "[0]" :actual "(reductions + [])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "reductions empty + init" :expected "[5]" :actual "(reductions + 5 [])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "tree-seq pre-order" :expected "[[1 [2] 3] 1 [2] 2 3]" :actual "(tree-seq sequential? seq [1 [2] 3])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "some found" :expected "true" :actual "(some even? [1 3 4])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "some none -> nil" :expected "nil" :actual "(some even? [1 3 5])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "some keyword pred" :expected "7" :actual "(some :a [{:b 1} {:a 7}])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "some returns value" :expected "4" :actual "(some (fn [x] (when (even? x) x)) [1 3 4 5])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "flatten nested" :expected "[1 2 3 4 5]" :actual "(flatten [1 [2 [3 4]] 5])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "flatten lists too" :expected "[1 2 3]" :actual "(flatten [1 (list 2 3)])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "flatten scalar -> empty" :expected "[]" :actual "(flatten 5)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "interleave" :expected "[1 :a 2 :b]" :actual "(interleave [1 2 3] [:a :b])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "interleave empty" :expected "[]" :actual "(interleave)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "rationalize identity" :expected "5" :actual "(rationalize 5)" :portability :common} - {:suite "seq / overlay-migrated fns" :label "dedupe consecutive" :expected "[1 2 3 1]" :actual "(dedupe [1 1 2 2 3 1 1])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "dedupe empty" :expected "[]" :actual "(dedupe [])" :portability :common} - {:suite "seq / overlay-migrated fns" :label "dedupe no dups" :expected "[1 2 3]" :actual "(dedupe [1 2 3])" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv" :expected "[[1 2] [3 4]]" :actual "(partitionv 2 [1 2 3 4 5])" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv elems are vectors" :expected "true" :actual "(every? vector? (partitionv 2 [1 2 3 4]))" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv step" :expected "[[1 2] [3 4]]" :actual "(partitionv 2 2 [1 2 3 4 5])" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv pad" :expected "[[1 2] [3 :p]]" :actual "(partitionv 2 2 [:p] [1 2 3])" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv-all" :expected "[[1 2] [3]]" :actual "(partitionv-all 2 [1 2 3])" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv-all vectors" :expected "true" :actual "(every? vector? (partitionv-all 2 [1 2 3]))" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "splitv-at" :expected "[[1 2] [3 4]]" :actual "(splitv-at 2 [1 2 3 4])" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "splitv-at first is vector" :expected "true" :actual "(vector? (first (splitv-at 2 [1 2 3])))" :portability :common} - {:suite "seq / partitionv & splitv-at (1.11)" :label "splitv-at past end" :expected "[[1 2] []]" :actual "(splitv-at 5 [1 2])" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "rest of vector is a seq" :expected "true" :actual "(seq? (rest [1 2 3]))" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "rest of vector not vector" :expected "false" :actual "(vector? (rest [1 2 3]))" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "rest values" :expected "[2 3]" :actual "(rest [1 2 3])" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "next of vector" :expected "[2 3]" :actual "(next [1 2 3])" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "next exhausts to nil" :expected "nil" :actual "(next [1])" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "rest exhausts to ()" :expected "[]" :actual "(rest [1])" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "rest-loop scales (20k linear)" :expected "20000" :actual "(loop [xs (seq (vec (range 20000))) n 0] (if xs (recur (next xs) (inc n)) n))" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "mapv scales (50k linear)" :expected "50000" :actual "(count (mapv inc (vec (range 50000))))" :portability :common} - {:suite "sequences / linear walks over concrete collections" :label "nested walk" :expected "[2 3]" :actual "(vec (rest (mapv inc [0 1 2])))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "next of set" :expected "true" :actual "(let [n (next #{1 2})] (and (= 1 (count n)) (contains? #{1 2} (first n))))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "rest of set count" :expected "1" :actual "(count (rest #{1 2}))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "next of singleton set" :expected "nil" :actual "(next #{1})" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "rest of empty set" :expected "0" :actual "(count (rest #{}))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "next of map" :expected "true" :actual "(let [n (next {:a 1 :b 2})] (and (= 1 (count n)) (map-entry? (first n))))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "next of singleton map" :expected "nil" :actual "(next {:a 1})" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "rest of sorted-set" :expected "[2 3]" :actual "(rest (sorted-set 3 1 2))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "next of sorted-map" :expected "[[2 :b]]" :actual "(next (sorted-map 1 :a 2 :b))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "every? over set" :expected "true" :actual "(every? pos? #{1 2 3})" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "every? over set false" :expected "false" :actual "(every? odd? #{1 2})" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "every? over sorted-set" :expected "true" :actual "(every? pos? (sorted-set 1 2 3))" :portability :common} - {:suite "sequences / rest & next over set-like colls" :label "every? over map entries" :expected "true" :actual "(every? map-entry? (seq {:a 1 :b 2}))" :portability :common} - {:suite "set / construct & predicate" :label "literal" :expected "#{1 3 2}" :actual "#{1 2 3}" :portability :common} - {:suite "set / construct & predicate" :label "hash-set" :expected "#{1 3 2}" :actual "(hash-set 1 2 3)" :portability :common} - {:suite "set / construct & predicate" :label "set from vector" :expected "#{1 3 2}" :actual "(set [1 2 3 1])" :portability :common} - {:suite "set / construct & predicate" :label "empty" :expected "#{}" :actual "#{}" :portability :common} - {:suite "set / construct & predicate" :label "set? true" :expected "true" :actual "(set? #{1})" :portability :common} - {:suite "set / construct & predicate" :label "set? false on vector" :expected "false" :actual "(set? [1])" :portability :common} - {:suite "set / construct & predicate" :label "count dedups" :expected "3" :actual "(count (set [1 1 2 3]))" :portability :common} - {:suite "set / construct & predicate" :label "equality order-indep" :expected "true" :actual "(= #{1 2 3} #{3 2 1})" :portability :common} - {:suite "set / construct & predicate" :label "into set" :expected "#{:b :a}" :actual "(into #{} [:a :b])" :portability :common} - {:suite "set / construct & predicate" :label "into non-empty set" :expected "#{1 3 2}" :actual "(into #{1} [2 3 2])" :portability :common} - {:suite "set / operations" :label "conj adds" :expected "#{1 3 2}" :actual "(conj #{1 2} 3)" :portability :common} - {:suite "set / operations" :label "conj dup no-op" :expected "#{1 2}" :actual "(conj #{1 2} 1)" :portability :common} - {:suite "set / operations" :label "disj removes" :expected "#{1 2}" :actual "(disj #{1 2 3} 3)" :portability :common} - {:suite "set / operations" :label "disj missing no-op" :expected "#{1 2}" :actual "(disj #{1 2} 9)" :portability :common} - {:suite "set / operations" :label "contains?" :expected "true" :actual "(contains? #{1 2} 1)" :portability :common} - {:suite "set / operations" :label "contains? missing" :expected "false" :actual "(contains? #{1 2} 9)" :portability :common} - {:suite "set / operations" :label "get present" :expected "1" :actual "(get #{1 2} 1)" :portability :common} - {:suite "set / operations" :label "get missing nil" :expected "nil" :actual "(get #{1 2} 9)" :portability :common} - {:suite "set / operations" :label "set as fn present" :expected "2" :actual "(#{1 2 3} 2)" :portability :common} - {:suite "set / operations" :label "set as fn missing" :expected "nil" :actual "(#{1 2 3} 9)" :portability :common} - {:suite "set / literals & value elements" :label "literal evaluates elements" :expected "#{4 2}" :actual "#{(inc 1) (* 2 2)}" :portability :common} - {:suite "set / literals & value elements" :label "map elements by value" :expected "true" :actual "(= #{{:a 1}} #{(hash-map :a 1)})" :portability :common} - {:suite "set / literals & value elements" :label "contains? map by value" :expected "true" :actual "(contains? #{(hash-map :x 1)} {:x 1})" :portability :common} - {:suite "set / literals & value elements" :label "dedup equal maps" :expected "1" :actual "(count (set [{:a 1} (hash-map :a 1)]))" :portability :common} - {:suite "set / literals & value elements" :label "vector elements" :expected "true" :actual "(contains? #{[1 2]} (vec [1 2]))" :portability :common} - {:suite "set / nil element" :label "set keeps nil" :expected "2" :actual "(count (set [nil 1 nil]))" :portability :common} - {:suite "set / nil element" :label "contains? nil true" :expected "true" :actual "(contains? (set [nil 1]) nil)" :portability :common} - {:suite "set / nil element" :label "contains? nil false" :expected "false" :actual "(contains? #{1} nil)" :portability :common} - {:suite "set / nil element" :label "seq includes nil" :expected "true" :actual "(some nil? (seq (set [nil 1])))" :portability :common} - {:suite "set / nil element" :label "disj nil" :expected "#{1}" :actual "(disj (set [nil 1]) nil)" :portability :common} - {:suite "set / nil element" :label "disj nil count" :expected "1" :actual "(count (disj (set [nil 1]) nil))" :portability :common} - {:suite "set / nil element" :label "conj nil count" :expected "2" :actual "(count (conj #{1} nil))" :portability :common} - {:suite "set / nil element" :label "conj nil contains?" :expected "true" :actual "(contains? (conj #{1} nil) nil)" :portability :common} - {:suite "set / nil element" :label "into #{} keeps nil" :expected "2" :actual "(count (into #{} [nil 1]))" :portability :common} - {:suite "set / nil element" :label "into #{} contains? nil" :expected "true" :actual "(contains? (into #{} [nil 1]) nil)" :portability :common} - {:suite "set / nil element" :label "into keeps existing nil" :expected "true" :actual "(contains? (into #{nil} [1]) nil)" :portability :common} - {:suite "set / nil element" :label "transient conj! nil" :expected "2" :actual "(count (persistent! (conj! (transient #{}) nil 1)))" :portability :common} - {:suite "set / nil element" :label "transient contains? nil" :expected "true" :actual "(contains? (persistent! (conj! (transient #{}) nil 1)) nil)" :portability :common} - {:suite "set / nil element" :label "transient disj! nil cnt" :expected "1" :actual "(count (persistent! (disj! (conj! (transient #{}) nil 1) nil)))" :portability :common} - {:suite "set / nil element" :label "transient disj! removes" :expected "false" :actual "(contains? (persistent! (disj! (conj! (transient #{}) nil 1) nil)) nil)" :portability :common} - {:suite "set / nil element" :label "transient of set w/ nil" :expected "true" :actual "(contains? (persistent! (transient (set [nil 1]))) nil)" :portability :common} - {:suite "clojure.set" :label "union" :expected "#{1 4 3 2}" :actual "(do (require (quote [clojure.set :as s])) (s/union #{1 2} #{3 4}))" :portability :common} - {:suite "clojure.set" :label "intersection" :expected "#{2}" :actual "(do (require (quote [clojure.set :as s])) (s/intersection #{1 2} #{2 3}))" :portability :common} - {:suite "clojure.set" :label "difference" :expected "#{1}" :actual "(do (require (quote [clojure.set :as s])) (s/difference #{1 2} #{2 3}))" :portability :common} - {:suite "clojure.set" :label "subset? true" :expected "true" :actual "(do (require (quote [clojure.set :as s])) (s/subset? #{1} #{1 2}))" :portability :common} - {:suite "clojure.set" :label "superset? true" :expected "true" :actual "(do (require (quote [clojure.set :as s])) (s/superset? #{1 2} #{1}))" :portability :common} - {:suite "clojure.set" :label "select" :expected "#{4 2}" :actual "(do (require (quote [clojure.set :as s])) (s/select even? #{1 2 3 4}))" :portability :common} - {:suite "clojure.set" :label "join" :expected "#{{:a 1, :b 2, :c 3}}" :actual "(do (require (quote [clojure.set :as s])) (s/join #{{:a 1 :b 2}} #{{:b 2 :c 3}}))" :portability :common} - {:suite "clojure.set" :label "map-invert" :expected "{1 :a}" :actual "(do (require (quote [clojure.set :as s])) (s/map-invert {:a 1}))" :portability :common} - {:suite "clojure.set" :label "rename-keys" :expected "{:b 1}" :actual "(do (require (quote [clojure.set :as s])) (s/rename-keys {:a 1} {:a :b}))" :portability :common} - {:suite "set / set? across representations" :label "literal" :expected "true" :actual "(set? #{1})" :portability :common} - {:suite "set / set? across representations" :label "empty literal" :expected "true" :actual "(set? #{})" :portability :common} - {:suite "set / set? across representations" :label "sorted-set" :expected "true" :actual "(set? (sorted-set 1 2))" :portability :common} - {:suite "set / set? across representations" :label "sorted-set-by" :expected "true" :actual "(set? (sorted-set-by > 1 2))" :portability :common} - {:suite "set / set? across representations" :label "empty sorted" :expected "true" :actual "(set? (sorted-set))" :portability :common} - {:suite "set / set? across representations" :label "map is not" :expected "false" :actual "(set? {})" :portability :common} - {:suite "set / set? across representations" :label "vector is not" :expected "false" :actual "(set? [1])" :portability :common} - {:suite "set / set? across representations" :label "coll? still true" :expected "true" :actual "(coll? (sorted-set 1))" :portability :common} - {:suite "set / set? across representations" :label "ifn? sorted-set" :expected "true" :actual "(ifn? (sorted-set 1))" :portability :common} - {:suite "set / bulk build boundaries" :label "set dedup count" :expected "3" :actual "(count (set [1 1 2 3 3 2]))" :portability :common} - {:suite "set / bulk build boundaries" :label "set big count" :expected "1000" :actual "(count (set (range 1000)))" :portability :common} - {:suite "set / bulk build boundaries" :label "into #{} count" :expected "500" :actual "(count (into #{} (range 500)))" :portability :common} - {:suite "set / bulk build boundaries" :label "into #{} onto base" :expected "3" :actual "(count (into #{:a} [:a :b :c]))" :portability :common} - {:suite "set / bulk build boundaries" :label "set contains" :expected "true" :actual "(contains? (set (range 1000)) 777)" :portability :common} - {:suite "set / bulk build boundaries" :label "set missing" :expected "false" :actual "(contains? (set (range 1000)) 5000)" :portability :common} - {:suite "set / bulk build boundaries" :label "set coll members" :expected "true" :actual "(contains? (set [[1 2] [3 4]]) [1 2])" :portability :common} - {:suite "set / bulk build boundaries" :label "conj after bulk" :expected "true" :actual "(contains? (conj (set (range 100)) :x) :x)" :portability :common} - {:suite "set / bulk build boundaries" :label "disj after bulk" :expected "false" :actual "(contains? (disj (set (range 100)) 50) 50)" :portability :common} - {:suite "set / bulk build boundaries" :label "set = literal" :expected "true" :actual "(= #{0 1 2} (set (range 3)))" :portability :common} - {:suite "sorted / construction & ordering" :label "sorted-set orders" :expected "[1 2 3]" :actual "(vec (seq (sorted-set 3 1 2)))" :portability :common} - {:suite "sorted / construction & ordering" :label "sorted-set dedupes" :expected "[1 2 3]" :actual "(vec (seq (sorted-set 3 1 2 1 3)))" :portability :common} - {:suite "sorted / construction & ordering" :label "sorted-set numeric" :expected "[1 2 10]" :actual "(vec (seq (sorted-set 10 1 2)))" :portability :common} - {:suite "sorted / construction & ordering" :label "sorted-map ordered entries" :expected "[[:a 1] [:b 2] [:c 3]]" :actual "(vec (seq (sorted-map :c 3 :a 1 :b 2)))" :portability :common} - {:suite "sorted / construction & ordering" :label "first is min" :expected "1" :actual "(first (sorted-set 5 3 9 1))" :portability :common} - {:suite "sorted / sorted?" :label "sorted-set" :expected "true" :actual "(sorted? (sorted-set 1))" :portability :common} - {:suite "sorted / sorted?" :label "sorted-map" :expected "true" :actual "(sorted? (sorted-map :a 1))" :portability :common} - {:suite "sorted / sorted?" :label "plain set" :expected "false" :actual "(sorted? #{1})" :portability :common} - {:suite "sorted / sorted?" :label "plain map" :expected "false" :actual "(sorted? {:a 1})" :portability :common} - {:suite "sorted / sorted?" :label "vector" :expected "false" :actual "(sorted? [1 2])" :portability :common} - {:suite "sorted / map ops" :label "get hit" :expected "2" :actual "(get (sorted-map :a 1 :b 2) :b)" :portability :common} - {:suite "sorted / map ops" :label "get miss default" :expected ":none" :actual "(get (sorted-map :a 1) :z :none)" :portability :common} - {:suite "sorted / map ops" :label "contains? yes" :expected "true" :actual "(contains? (sorted-map :a 1) :a)" :portability :common} - {:suite "sorted / map ops" :label "contains? no" :expected "false" :actual "(contains? (sorted-map :a 1) :z)" :portability :common} - {:suite "sorted / map ops" :label "assoc keeps order" :expected "[[:a 1] [:b 2] [:c 3]]" :actual "(vec (seq (assoc (sorted-map :c 3 :a 1) :b 2)))" :portability :common} - {:suite "sorted / map ops" :label "dissoc" :expected "[[:a 1] [:c 3]]" :actual "(vec (seq (dissoc (sorted-map :a 1 :b 2 :c 3) :b)))" :portability :common} - {:suite "sorted / map ops" :label "conj entry" :expected "[[:a 1] [:z 9]]" :actual "(vec (seq (conj (sorted-map :a 1) [:z 9])))" :portability :common} - {:suite "sorted / map ops" :label "keys sorted" :expected "[:a :b :c]" :actual "(vec (keys (sorted-map :c 3 :a 1 :b 2)))" :portability :common} - {:suite "sorted / map ops" :label "vals by key" :expected "[1 2 3]" :actual "(vec (vals (sorted-map :c 3 :a 1 :b 2)))" :portability :common} - {:suite "sorted / map ops" :label "map as fn" :expected "2" :actual "((sorted-map :a 1 :b 2) :b)" :portability :common} - {:suite "sorted / map ops" :label "map as fn miss" :expected ":d" :actual "((sorted-map :a 1) :z :d)" :portability :common} - {:suite "sorted / set ops" :label "get present" :expected "2" :actual "(get (sorted-set 1 2 3) 2)" :portability :common} - {:suite "sorted / set ops" :label "get absent" :expected ":none" :actual "(get (sorted-set 1 2 3) 9 :none)" :portability :common} - {:suite "sorted / set ops" :label "contains? yes" :expected "true" :actual "(contains? (sorted-set 1 2 3) 2)" :portability :common} - {:suite "sorted / set ops" :label "contains? no" :expected "false" :actual "(contains? (sorted-set 1 2 3) 9)" :portability :common} - {:suite "sorted / set ops" :label "conj keeps order" :expected "[0 1 2 3 5]" :actual "(vec (seq (conj (sorted-set 1 2 3) 5 0)))" :portability :common} - {:suite "sorted / set ops" :label "disj" :expected "[1 3]" :actual "(vec (seq (disj (sorted-set 1 2 3) 2)))" :portability :common} - {:suite "sorted / set ops" :label "set as fn" :expected "3" :actual "((sorted-set 1 2 3) 3)" :portability :common} - {:suite "sorted / set ops" :label "set as fn miss" :expected "nil" :actual "((sorted-set 1 2 3) 9)" :portability :common} - {:suite "sorted / by comparator" :label "sorted-set-by desc" :expected "[10 3 2 1]" :actual "(vec (seq (sorted-set-by > 1 3 2 10)))" :portability :common} - {:suite "sorted / by comparator" :label "sorted-map-by desc" :expected "[[3 :c] [2 :b] [1 :a]]" :actual "(vec (seq (sorted-map-by > 1 :a 3 :c 2 :b)))" :portability :common} - {:suite "sorted / by comparator" :label "conj keeps comparator" :expected "[5 3 2 1 0]" :actual "(vec (seq (conj (sorted-set-by > 1 3 2) 5 0)))" :portability :common} - {:suite "sorted / by comparator" :label "assoc keeps comparator" :expected "[3 2 1]" :actual "(vec (keys (assoc (sorted-map-by > 1 :a 3 :c) 2 :b)))" :portability :common} - {:suite "sorted / by comparator" :label "disj keeps comparator" :expected "[3 1]" :actual "(vec (seq (disj (sorted-set-by > 1 2 3) 2)))" :portability :common} - {:suite "sorted / by comparator" :label "by-comparator is sorted?" :expected "true" :actual "(sorted? (sorted-set-by > 1 2))" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "subseq >=" :expected "[3 4 5]" :actual "(vec (subseq (sorted-set 1 2 3 4 5) >= 3))" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "subseq <" :expected "[1 2]" :actual "(vec (subseq (sorted-set 1 2 3 4 5) < 3))" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "subseq range" :expected "[2 3 4]" :actual "(vec (subseq (sorted-set 1 2 3 4 5) > 1 < 5))" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "rsubseq <=" :expected "[3 2 1]" :actual "(vec (rsubseq (sorted-set 1 2 3 4 5) <= 3))" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "subseq on map" :expected "[[2 :b] [3 :c]]" :actual "(vec (subseq (sorted-map 1 :a 2 :b 3 :c) > 1))" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "subseq empty result" :expected "nil" :actual "(subseq (sorted-set 1 2) > 5)" :portability :common} - {:suite "sorted / subseq & rsubseq" :label "rsubseq on map" :expected "[[2 :b] [1 :a]]" :actual "(vec (rsubseq (sorted-map 1 :a 2 :b 3 :c) < 3))" :portability :common} - {:suite "sorted / predicates" :label "sorted-map? true" :expected "true" :actual "(sorted-map? (sorted-map 1 :a))" :portability :common} - {:suite "sorted / predicates" :label "sorted-map? false" :expected "false" :actual "(sorted-map? {:a 1})" :portability :common} - {:suite "sorted / predicates" :label "sorted-set? true" :expected "true" :actual "(sorted-set? (sorted-set 1))" :portability :common} - {:suite "sorted / predicates" :label "sorted-set? false" :expected "false" :actual "(sorted-set? #{1})" :portability :common} - {:suite "sorted / predicates" :label "map? sorted-map" :expected "true" :actual "(map? (sorted-map 1 :a))" :portability :common} - {:suite "sorted / predicates" :label "coll? sorted-set" :expected "true" :actual "(coll? (sorted-set 1))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "get cross-numeric" :expected ":a" :actual "(get (sorted-map 1 :a) 1.0)" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "contains? cross-numeric" :expected "true" :actual "(contains? (sorted-set 1) 1.0)" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "conj equal elem no-op" :expected "1" :actual "(count (conj (sorted-set 1) 1.0))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "assoc equal key replaces" :expected "[[1 :z]]" :actual "(vec (seq (assoc (sorted-map 1 :a) 1.0 :z)))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "first sorted-map" :expected "[1 :a]" :actual "(first (sorted-map 2 :b 1 :a))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "dissoc missing no-op" :expected "2" :actual "(count (dissoc (sorted-map 1 :a 2 :b) 9))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "conj map merges" :expected "3" :actual "(count (conj (sorted-map 1 :a) {2 :b 3 :c}))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "conj nil no-op" :expected "1" :actual "(count (conj (sorted-map 1 :a) nil))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "into sorted-map" :expected "[[1 :a] [2 :b]]" :actual "(vec (seq (into (sorted-map) [[2 :b] [1 :a]])))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "source unchanged" :expected "[1 2]" :actual "(let [s (sorted-set 1 2)] (conj s 9) (vec (seq s)))" :portability :common} - {:suite "sorted / lookup + membership use the comparator" :label "sorted-map odd kvs throws" :expected :throws :actual "(sorted-map 1 :a 2)" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-map = literal" :expected "true" :actual "(= (sorted-map :a 1 :b 2) {:a 1 :b 2})" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "literal = sorted-map" :expected "true" :actual "(= {:a 1 :b 2} (sorted-map :a 1 :b 2))" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-map = hash-map" :expected "true" :actual "(= (sorted-map :a 1) (hash-map :a 1))" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-map != more keys" :expected "false" :actual "(= (sorted-map :a 1) {:a 1 :b 2})" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-set = literal" :expected "true" :actual "(= (sorted-set 1 2) #{1 2})" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "literal = sorted-set" :expected "true" :actual "(= #{1 2} (sorted-set 2 1))" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-set != diff" :expected "false" :actual "(= (sorted-set 1 2) #{1 3})" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "two sorted-maps" :expected "true" :actual "(= (sorted-map 1 :a 2 :b) (sorted-map 2 :b 1 :a))" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "cmp irrelevant to =" :expected "true" :actual "(= (sorted-map-by > 1 :a 2 :b) (sorted-map 1 :a 2 :b))" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-map as map key" :expected ":hit" :actual "(get {(sorted-map :a 1) :hit} {:a 1})" :portability :common} - {:suite "sorted / equality is representation-agnostic" :label "sorted-set as map key" :expected ":hit" :actual "(get {(sorted-set 1 2) :hit} #{2 1})" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "empty? empty map" :expected "true" :actual "(empty? (sorted-map))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "empty? non-empty" :expected "false" :actual "(empty? (sorted-map 1 :a))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "empty? empty set" :expected "true" :actual "(empty? (sorted-set))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "empty keeps sortedness" :expected "true" :actual "(sorted? (empty (sorted-map 1 :a)))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "empty keeps cmp" :expected "[3 1]" :actual "(vec (seq (into (empty (sorted-set-by > 1 2)) [1 3])))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "empty set kind" :expected "true" :actual "(sorted-set? (empty (sorted-set 1)))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "rseq map" :expected "[[2 :b] [1 :a]]" :actual "(vec (rseq (sorted-map 1 :a 2 :b)))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "rseq set" :expected "[3 2 1]" :actual "(vec (rseq (sorted-set 1 2 3)))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "pr-str sorted-map" :expected "\"{1 :a, 2 :b}\"" :actual "(pr-str (sorted-map 2 :b 1 :a))" :portability :common} - {:suite "sorted / empty + empty? + rseq + printing" :label "pr-str sorted-set" :expected "\"#{1 2 3}\"" :actual "(pr-str (sorted-set 3 1 2))" :portability :common} - {:suite "sorted / seq fn interop" :label "map over sorted-map" :expected "[1 2 3]" :actual "(vec (map first (sorted-map 2 :b 1 :a 3 :c)))" :portability :common} - {:suite "sorted / seq fn interop" :label "map over sorted-set" :expected "[2 3 4]" :actual "(vec (map inc (sorted-set 3 1 2)))" :portability :common} - {:suite "sorted / seq fn interop" :label "filter entries" :expected "[[2 :b]]" :actual "(vec (filter (fn [[k v]] (even? k)) (sorted-map 1 :a 2 :b)))" :portability :common} - {:suite "sorted / seq fn interop" :label "reduce over set" :expected "6" :actual "(reduce + (sorted-set 1 2 3))" :portability :common} - {:suite "sorted / seq fn interop" :label "vec of sorted-set" :expected "[1 2 3]" :actual "(vec (sorted-set 3 1 2))" :portability :common} - {:suite "sorted / seq fn interop" :label "into vec" :expected "[[1 :a] [2 :b]]" :actual "(into [] (sorted-map 2 :b 1 :a))" :portability :common} - {:suite "sorted / seq fn interop" :label "sorted-map-by 3way cmp" :expected "[3 2 1]" :actual "(vec (keys (sorted-map-by (fn [a b] (- b a)) 1 :a 2 :b 3 :c)))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "slurp returns string" :expected "true" :actual "(string? (slurp \"README.md\"))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "slurp content" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/includes? (slurp \"README.md\") \"jolt\"))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "spit + slurp round" :expected "\"hello\"" :actual "(do (spit \"/tmp/jolt-spit-test.txt\" \"hello\") (slurp \"/tmp/jolt-spit-test.txt\"))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "spit append" :expected "\"ab\"" :actual "(do (spit \"/tmp/jolt-spit-test.txt\" \"a\") (spit \"/tmp/jolt-spit-test.txt\" \"b\" :append true) (slurp \"/tmp/jolt-spit-test.txt\"))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "printf formats" :expected "\"x=1 y=a\"" :actual "(with-out-str (printf \"x=%d y=%s\" 1 \"a\"))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "printf no newline" :expected "false" :actual "(do (require (quote [clojure.string :as s])) (s/includes? (with-out-str (printf \"%d\" 1)) \"\\n\"))" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "flush returns nil" :expected "nil" :actual "(flush)" :portability :common} - {:suite "io / slurp, spit, printf, flush (host-classified)" :label "file-seq finds files" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (boolean (some (fn [p] (s/ends-with? p \"README.md\")) (file-seq \".\"))))" :portability :common} - {:suite "ns / ns-map, ns-unmap, ns-refers" :label "ns-map has var" :expected "true" :actual "(do (def nmv 1) (some? (get (ns-map (quote user)) (quote nmv))))" :portability :common} - {:suite "ns / ns-map, ns-unmap, ns-refers" :label "ns-unmap removes" :expected "nil" :actual "(do (def nuv 1) (ns-unmap (quote user) (quote nuv)) (resolve (quote nuv)))" :portability :common} - {:suite "ns / ns-map, ns-unmap, ns-refers" :label "ns-refers sees refer" :expected "true" :actual "(do (require (quote clojure.string)) (refer (quote clojure.string)) (some? (get (ns-refers (quote user)) (quote join))))" :portability :common} - {:suite "vars / thread-binding family" :label "bound? on def" :expected "true" :actual "(do (def bvv 1) (bound? (var bvv)))" :portability :common} - {:suite "vars / thread-binding family" :label "with-bindings* binds" :expected "5" :actual "(do (def ^:dynamic dynv 1) (with-bindings* (array-map (var dynv) 5) (fn [] dynv)))" :portability :common} - {:suite "vars / thread-binding family" :label "with-bindings* restores" :expected "1" :actual "(do (def ^:dynamic dynw 1) (with-bindings* (array-map (var dynw) 5) (fn [] nil)) dynw)" :portability :common} - {:suite "vars / thread-binding family" :label "with-bindings macro" :expected "7" :actual "(do (def ^:dynamic dynx 1) (with-bindings (array-map (var dynx) 7) dynx))" :portability :common} - {:suite "vars / thread-binding family" :label "thread-bound? inside" :expected "[true false]" :actual "(do (def ^:dynamic dyny 1) [(with-bindings* (array-map (var dyny) 2) (fn [] (thread-bound? (var dyny)))) (thread-bound? (var dyny))])" :portability :common} - {:suite "vars / thread-binding family" :label "bound-fn* conveys" :expected "9" :actual "(do (def ^:dynamic dynz 1) (def f (with-bindings* (array-map (var dynz) 9) (fn [] (bound-fn* (fn [] dynz))))) (f))" :portability :common} - {:suite "vars / thread-binding family" :label "get-thread-bindings" :expected "3" :actual "(do (def ^:dynamic dyng 1) (with-bindings* (array-map (var dyng) 3) (fn [] (get (get-thread-bindings) (var dyng)))))" :portability :common} - {:suite "eval & load-string as values" :label "load-string evals all" :expected "3" :actual "(load-string \"(def lsv 1) (+ lsv 2)\")" :portability :common} - {:suite "eval & load-string as values" :label "eval as value" :expected "[2 3]" :actual "(mapv eval [(quote (+ 1 1)) (quote (+ 1 2))])" :portability :common} - {:suite "eval & load-string as values" :label "eval special still works" :expected "3" :actual "(eval (quote (+ 1 2)))" :portability :common} - {:suite "clojure.edn / opts" :label "set literal" :expected "#{1 2}" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string \"#{1 2}\"))" :portability :common} - {:suite "clojure.edn / opts" :label "uuid tag" :expected "true" :actual "(do (require (quote [clojure.edn :as e0])) (uuid? (e0/read-string \"#uuid \\\"550e8400-e29b-41d4-a716-446655440000\\\"\")))" :portability :common} - {:suite "clojure.edn / opts" :label "inst tag" :expected "true" :actual "(do (require (quote [clojure.edn :as e0])) (inst? (e0/read-string \"#inst \\\"2020-01-01T00:00:00Z\\\"\")))" :portability :common} - {:suite "clojure.edn / opts" :label ":eof on empty" :expected ":end" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:eof :end} \"\"))" :portability :common} - {:suite "clojure.edn / opts" :label ":readers custom tag" :expected "[:custom 5]" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:readers {(quote custom) (fn [v] [:custom v])}} \"#custom 5\"))" :portability :common} - {:suite "clojure.edn / opts" :label ":readers nested" :expected "[6 8]" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:readers {(quote w) (fn [v] (* 2 v))}} \"[#w 3 #w 4]\"))" :portability :common} - {:suite "clojure.edn / opts" :label ":default fn" :expected "[:dflt 7]" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:default (fn [t v] [:dflt v])} \"#unknown 7\"))" :portability :common} - {:suite "clojure.edn / opts" :label "unknown tag throws" :expected :throws :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string \"#nope 1\"))" :portability :common} - {:suite "state / atoms" :label "deref @" :expected "0" :actual "(let [a (atom 0)] @a)" :portability :common} - {:suite "state / atoms" :label "deref fn" :expected "0" :actual "(deref (atom 0))" :portability :common} - {:suite "state / atoms" :label "reset!" :expected "5" :actual "(let [a (atom 0)] (reset! a 5) @a)" :portability :common} - {:suite "state / atoms" :label "reset! returns new" :expected "5" :actual "(let [a (atom 0)] (reset! a 5))" :portability :common} - {:suite "state / atoms" :label "swap!" :expected "1" :actual "(let [a (atom 0)] (swap! a inc) @a)" :portability :common} - {:suite "state / atoms" :label "swap! with args" :expected "10" :actual "(let [a (atom 1)] (swap! a + 2 3 4) @a)" :portability :common} - {:suite "state / atoms" :label "swap! returns new" :expected "1" :actual "(let [a (atom 0)] (swap! a inc))" :portability :common} - {:suite "state / atoms" :label "swap-vals!" :expected "[0 1]" :actual "(let [a (atom 0)] (swap-vals! a inc))" :portability :common} - {:suite "state / atoms" :label "reset-vals!" :expected "[0 9]" :actual "(let [a (atom 0)] (reset-vals! a 9))" :portability :common} - {:suite "state / atoms" :label "compare-and-set! ok" :expected "true" :actual "(let [a (atom 0)] (compare-and-set! a 0 1))" :portability :common} - {:suite "state / atoms" :label "compare-and-set! no" :expected "false" :actual "(let [a (atom 0)] (compare-and-set! a 9 1))" :portability :common} - {:suite "state / atoms" :label "atom?" :expected "true" :actual "(do (require (quote [clojure.core])) (instance? clojure.lang.Atom (atom 0)))" :portability :jvm} - {:suite "state / atoms" :label "atom? predicate" :expected "true" :actual "(atom? (atom 0))" :portability :common} - {:suite "state / atoms" :label "atom? on non-atom" :expected "false" :actual "(atom? 5)" :portability :common} - {:suite "state / watches & validators" :label "add-watch fires" :expected "1" :actual "(let [a (atom 0) seen (atom 0)] (add-watch a :k (fn [k r o n] (reset! seen 1))) (reset! a 5) @seen)" :portability :common} - {:suite "state / watches & validators" :label "remove-watch" :expected "0" :actual "(let [a (atom 0) seen (atom 0)] (add-watch a :k (fn [k r o n] (swap! seen inc))) (remove-watch a :k) (reset! a 5) @seen)" :portability :common} - {:suite "state / watches & validators" :label "set-validator! ok" :expected "5" :actual "(let [a (atom 0)] (set-validator! a number?) (reset! a 5) @a)" :portability :common} - {:suite "state / watches & validators" :label "set-validator! rejects" :expected :throws :actual "(let [a (atom 0)] (set-validator! a pos?) (reset! a -1))" :portability :common} - {:suite "state / watches & validators" :label "get-validator" :expected "true" :actual "(let [a (atom 0)] (set-validator! a number?) (fn? (get-validator a)))" :portability :common} - {:suite "state / volatiles & delays" :label "volatile! deref" :expected "0" :actual "(let [v (volatile! 0)] @v)" :portability :common} - {:suite "state / volatiles & delays" :label "vreset!" :expected "5" :actual "(let [v (volatile! 0)] (vreset! v 5) @v)" :portability :common} - {:suite "state / volatiles & delays" :label "vswap!" :expected "1" :actual "(let [v (volatile! 0)] (vswap! v inc) @v)" :portability :common} - {:suite "state / volatiles & delays" :label "delay not forced" :expected "0" :actual "(let [c (atom 0) d (delay (swap! c inc))] @c)" :portability :common} - {:suite "state / volatiles & delays" :label "delay force once" :expected "1" :actual "(let [c (atom 0) d (delay (swap! c inc))] (force d) (force d) @c)" :portability :common} - {:suite "state / volatiles & delays" :label "delay value" :expected "5" :actual "(let [d (delay 5)] @d)" :portability :common} - {:suite "state / volatiles & delays" :label "realized? before" :expected "false" :actual "(let [d (delay 5)] (realized? d))" :portability :common} - {:suite "state / volatiles & delays" :label "realized? after" :expected "true" :actual "(let [d (delay 5)] (force d) (realized? d))" :portability :common} - {:suite "state / promises" :label "promise deliver" :expected "5" :actual "(let [p (promise)] (deliver p 5) @p)" :portability :common} - {:suite "state / promises" :label "promise undelivered" :expected "nil" :actual "(let [p (promise)] @p)" :portability :common} - {:suite "state / agents (synchronous shim)" :label "agent deref" :expected "0" :actual "(deref (agent 0))" :portability :common} - {:suite "state / agents (synchronous shim)" :label "agent with opts" :expected "0" :actual "(deref (agent 0 :error-mode :continue))" :portability :common} - {:suite "state / agents (synchronous shim)" :label "send-off applies" :expected "0" :actual "(let [a (agent 0)] (send-off a (fn [x] (Thread/sleep 100) (+ x 5))) (deref a))" :portability :jvm} - {:suite "state / agents (synchronous shim)" :label "send applies" :expected "1" :actual "(let [a (agent 1)] (send a (fn [x] (Thread/sleep 100) (+ x 6))) (deref a))" :portability :jvm} - {:suite "state / agents (synchronous shim)" :label "agent-error nil" :expected "nil" :actual "(agent-error (agent 0))" :portability :common} - {:suite "string / str & basics" :label "str concat" :expected "\"abc\"" :actual "(str \"a\" \"b\" \"c\")" :portability :common} - {:suite "string / str & basics" :label "str of numbers" :expected "\"12\"" :actual "(str 1 2)" :portability :common} - {:suite "string / str & basics" :label "str nil is empty" :expected "\"\"" :actual "(str nil)" :portability :common} - {:suite "string / str & basics" :label "str mixed" :expected "\"a1:b\"" :actual "(str \"a\" 1 :b)" :portability :common} - {:suite "string / str & basics" :label "str of coll" :expected "\"[1 2]\"" :actual "(str [1 2])" :portability :common} - {:suite "string / str & basics" :label "count" :expected "3" :actual "(count \"abc\")" :portability :common} - {:suite "string / str & basics" :label "subs from" :expected "\"bc\"" :actual "(subs \"abc\" 1)" :portability :common} - {:suite "string / str & basics" :label "subs range" :expected "\"b\"" :actual "(subs \"abc\" 1 2)" :portability :common} - {:suite "string / str & basics" :label "string? true" :expected "true" :actual "(string? \"x\")" :portability :common} - {:suite "string / str & basics" :label "pr-str vector" :expected "\"[1 2 3]\"" :actual "(pr-str [1 2 3])" :portability :common} - {:suite "string / str & basics" :label "pr-str quotes str" :expected "\"\\\"hi\\\"\"" :actual "(pr-str \"hi\")" :portability :common} - {:suite "string / str & basics" :label "pr-str of a var" :expected "\"#'user/vv\"" :actual "(pr-str (def vv 1))" :portability :common} - {:suite "string / str & basics" :label "str of a var" :expected "\"#'user/ww\"" :actual "(str (def ww 2))" :portability :common} - {:suite "string / str & basics" :label "pr-str of a defn" :expected "\"#'user/gg\"" :actual "(pr-str (defn gg [x] x))" :portability :common} - {:suite "string / str & basics" :label "seq of string" :expected "[\\a \\b]" :actual "(seq \"ab\")" :portability :common} - {:suite "string as a seqable of chars" :label "vec of string" :expected "[\\a \\b]" :actual "(vec \"ab\")" :portability :common} - {:suite "string as a seqable of chars" :label "into [] of string" :expected "[\\a \\b]" :actual "(into [] \"ab\")" :portability :common} - {:suite "string as a seqable of chars" :label "set of string" :expected "true" :actual "(= #{\\a \\b} (set \"ab\"))" :portability :common} - {:suite "string as a seqable of chars" :label "into #{} of string" :expected "true" :actual "(= #{\\a \\b} (into #{} \"ab\"))" :portability :common} - {:suite "string as a seqable of chars" :label "set dedups chars" :expected "2" :actual "(count (set \"aab\"))" :portability :common} - {:suite "string as a seqable of chars" :label "mapv over string" :expected "[\\a \\b]" :actual "(mapv identity \"ab\")" :portability :common} - {:suite "clojure.string / split limit" :label "neg keeps trailing" :expected "[\"a\" \"\" \"\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,\" #\",\" -1))" :portability :common} - {:suite "clojure.string / split limit" :label "zero trims trailing" :expected "[\"a\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,\" #\",\" 0))" :portability :common} - {:suite "clojure.string / split limit" :label "omitted trims" :expected "[\"a\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,\" #\",\"))" :portability :common} - {:suite "clojure.string / split limit" :label "positive caps parts" :expected "[\"a\" \"b,c\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,b,c\" #\",\" 2))" :portability :common} - {:suite "clojure.string / split limit" :label "empty string" :expected "[\"\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"\" #\",\"))" :portability :common} - {:suite "clojure.string / split limit" :label "interior empties kept" :expected "[\"a\" \"\" \"b\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,b\" #\",\"))" :portability :common} - {:suite "clojure.string" :label "join" :expected "\"a,b,c\"" :actual "(do (require (quote [clojure.string :as s])) (s/join \",\" [\"a\" \"b\" \"c\"]))" :portability :common} - {:suite "clojure.string" :label "join no sep" :expected "\"abc\"" :actual "(do (require (quote [clojure.string :as s])) (s/join [\"a\" \"b\" \"c\"]))" :portability :common} - {:suite "clojure.string" :label "split" :expected "[\"a\" \"b\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,b\" #\",\"))" :portability :common} - {:suite "clojure.string" :label "split-lines" :expected "[\"a\" \"b\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split-lines \"a\\nb\"))" :portability :common} - {:suite "clojure.string" :label "upper-case" :expected "\"ABC\"" :actual "(do (require (quote [clojure.string :as s])) (s/upper-case \"abc\"))" :portability :common} - {:suite "clojure.string" :label "lower-case" :expected "\"abc\"" :actual "(do (require (quote [clojure.string :as s])) (s/lower-case \"ABC\"))" :portability :common} - {:suite "clojure.string" :label "capitalize" :expected "\"Abc\"" :actual "(do (require (quote [clojure.string :as s])) (s/capitalize \"abc\"))" :portability :common} - {:suite "clojure.string" :label "trim" :expected "\"x\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim \" x \"))" :portability :common} - {:suite "clojure.string" :label "triml" :expected "\"x \"" :actual "(do (require (quote [clojure.string :as s])) (s/triml \" x \"))" :portability :common} - {:suite "clojure.string" :label "blank? true" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/blank? \" \"))" :portability :common} - {:suite "clojure.string" :label "blank? false" :expected "false" :actual "(do (require (quote [clojure.string :as s])) (s/blank? \"x\"))" :portability :common} - {:suite "clojure.string" :label "includes?" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/includes? \"hello\" \"ell\"))" :portability :common} - {:suite "clojure.string" :label "starts-with?" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/starts-with? \"hello\" \"he\"))" :portability :common} - {:suite "clojure.string" :label "ends-with?" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/ends-with? \"hello\" \"lo\"))" :portability :common} - {:suite "clojure.string" :label "replace" :expected "\"hexxo\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"hello\" \"l\" \"x\"))" :portability :common} - {:suite "clojure.string" :label "reverse" :expected "\"cba\"" :actual "(do (require (quote [clojure.string :as s])) (s/reverse \"abc\"))" :portability :common} - {:suite "clojure.string" :label "index-of" :expected "2" :actual "(do (require (quote [clojure.string :as s])) (s/index-of \"hello\" \"l\"))" :portability :common} - {:suite "string / subs strictness" :label "subs basic" :expected "\"bcd\"" :actual "(subs \"abcde\" 1 4)" :portability :common} - {:suite "string / subs strictness" :label "subs to end" :expected "\"cde\"" :actual "(subs \"abcde\" 2)" :portability :common} - {:suite "string / subs strictness" :label "subs start>end" :expected :throws :actual "(subs \"abcde\" 2 1)" :portability :common} - {:suite "string / subs strictness" :label "subs negative" :expected :throws :actual "(subs \"abcde\" -1)" :portability :common} - {:suite "string / subs strictness" :label "subs end past len" :expected :throws :actual "(subs \"abcde\" 1 6)" :portability :common} - {:suite "string / subs strictness" :label "subs nil start" :expected :throws :actual "(subs \"abcde\" nil 2)" :portability :common} - {:suite "string / subs strictness" :label "subs on nil" :expected :throws :actual "(subs nil 1 2)" :portability :common} - {:suite "string / namespace-munge" :label "hyphens to underscores" :expected "\"a_b_c\"" :actual "(namespace-munge \"a-b-c\")" :portability :common} - {:suite "string / namespace-munge" :label "from a symbol" :expected "\"foo_bar\"" :actual "(namespace-munge (quote foo-bar))" :portability :common} - {:suite "string / namespace-munge" :label "no hyphens unchanged" :expected "\"ok\"" :actual "(namespace-munge \"ok\")" :portability :common} - {:suite "strings / get indexes a string" :label "get returns the char" :expected "true" :actual "(= (get \"a:b\" 1) \\:)" :portability :common} - {:suite "strings / get indexes a string" :label "get first char" :expected "\\a" :actual "(get \"abc\" 0)" :portability :common} - {:suite "strings / get indexes a string" :label "get out of range nil" :expected "nil" :actual "(get \"abc\" 9)" :portability :common} - {:suite "strings / get indexes a string" :label "get negative nil" :expected "nil" :actual "(get \"abc\" -1)" :portability :common} - {:suite "strings / get indexes a string" :label "get default honored" :expected ":none" :actual "(get \"abc\" 9 :none)" :portability :common} - {:suite "clojure.string / trim-newline" :label "trailing newline" :expected "\"x\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"x\\n\"))" :portability :common} - {:suite "clojure.string / trim-newline" :label "trailing \\r\\n" :expected "\"x\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"x\\r\\n\"))" :portability :common} - {:suite "clojure.string / trim-newline" :label "no trailing" :expected "\"ab\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"ab\"))" :portability :common} - {:suite "clojure.string / trim-newline" :label "only newlines" :expected "\"\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"\\n\\n\"))" :portability :common} - {:suite "clojure.string / trim-newline" :label "interior kept" :expected "\"a\\nb\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"a\\nb\\n\"))" :portability :common} - {:suite "transducers / into" :label "map xform" :expected "[2 3 4]" :actual "(into [] (map inc) [1 2 3])" :portability :common} - {:suite "transducers / into" :label "filter xform" :expected "[2 4]" :actual "(into [] (filter even?) [1 2 3 4])" :portability :common} - {:suite "transducers / into" :label "remove xform" :expected "[1 3]" :actual "(into [] (remove even?) [1 2 3 4])" :portability :common} - {:suite "transducers / into" :label "take xform" :expected "[1 2]" :actual "(into [] (take 2) [1 2 3 4])" :portability :common} - {:suite "transducers / into" :label "drop xform" :expected "[3 4]" :actual "(into [] (drop 2) [1 2 3 4])" :portability :common} - {:suite "transducers / into" :label "take-while xform" :expected "[1 2]" :actual "(into [] (take-while (fn [x] (< x 3))) [1 2 3 1])" :portability :common} - {:suite "transducers / into" :label "keep xform" :expected "[1 3]" :actual "(into [] (keep (fn [x] (if (odd? x) x nil))) [1 2 3 4])" :portability :common} - {:suite "transducers / into" :label "map-indexed xform" :expected "[[0 :a] [1 :b]]" :actual "(into [] (map-indexed vector) [:a :b])" :portability :common} - {:suite "transducers / into" :label "mapcat xform" :expected "[1 1 2 2]" :actual "(into [] (mapcat (fn [x] [x x])) [1 2])" :portability :common} - {:suite "transducers / into" :label "cat xform" :expected "[1 2 3 4]" :actual "(into [] cat [[1 2] [3 4]])" :portability :common} - {:suite "transducers / into" :label "into a set" :expected "#{4 3 2}" :actual "(into #{} (map inc) [1 2 3])" :portability :common} - {:suite "transducers / compose" :label "comp map+filter" :expected "[2 4 6 8]" :actual "(into [] (comp (map (fn [x] (* x 2))) (filter even?)) [1 2 3 4])" :portability :common} - {:suite "transducers / compose" :label "comp filter+map" :expected "[2 4]" :actual "(into [] (comp (filter odd?) (map inc)) [1 2 3 4])" :portability :common} - {:suite "transducers / compose" :label "comp three" :expected "[2]" :actual "(into [] (comp (map inc) (filter even?) (take 1)) [1 2 3 4])" :portability :common} - {:suite "transducers / transduce & sequence" :label "transduce sum" :expected "9" :actual "(transduce (map inc) + [1 2 3])" :portability :common} - {:suite "transducers / transduce & sequence" :label "transduce init" :expected "19" :actual "(transduce (map inc) + 10 [1 2 3])" :portability :common} - {:suite "transducers / transduce & sequence" :label "transduce filter" :expected "6" :actual "(transduce (filter even?) + [1 2 3 4])" :portability :common} - {:suite "transducers / transduce & sequence" :label "sequence xform" :expected "[2 3 4]" :actual "(sequence (map inc) [1 2 3])" :portability :common} - {:suite "transducers / transduce & sequence" :label "eduction" :expected "[2 3 4]" :actual "(into [] (eduction (map inc) [1 2 3]))" :portability :common} - {:suite "transducers / transduce & sequence" :label "completing" :expected "9" :actual "(transduce (map inc) (completing +) 0 [1 2 3])" :portability :common} - {:suite "transducers / halt-when" :label "halt returns the halting input" :expected "7" :actual "(transduce (halt-when (fn [x] (> x 5))) conj [1 2 7 3])" :portability :common} - {:suite "transducers / halt-when" :label "no halt is a plain reduction" :expected "[1 2 3]" :actual "(transduce (halt-when (fn [x] (> x 5))) conj [1 2 3])" :portability :common} - {:suite "transducers / halt-when" :label "retf combines acc and input" :expected "[[1 2] 7]" :actual "(transduce (halt-when (fn [x] (> x 5)) (fn [r i] [r i])) conj [1 2 7 3])" :portability :common} - {:suite "transducers / halt-when" :label "halt-when through into" :expected "3" :actual "(into [] (halt-when odd?) [2 4 3 6])" :portability :common} - {:suite "transducers / short-circuit over infinite seqs" :label "into take (range)" :expected "[0 1 2 3 4]" :actual "(into [] (take 5) (range))" :portability :common} - {:suite "transducers / short-circuit over infinite seqs" :label "transduce take (range)" :expected "3" :actual "(transduce (take 3) + 0 (range))" :portability :common} - {:suite "transducers / short-circuit over infinite seqs" :label "sequence take (range)" :expected "[0 1 2 3 4]" :actual "(sequence (take 5) (range))" :portability :common} - {:suite "transducers / short-circuit over infinite seqs" :label "take-while over (range)" :expected "[0 1 2]" :actual "(into [] (take-while (fn [x] (< x 3))) (range))" :portability :common} - {:suite "transducers / short-circuit over infinite seqs" :label "comp take over (range)" :expected "[1 3 5]" :actual "(into [] (comp (filter odd?) (take 3)) (range))" :portability :common} - {:suite "transducers / short-circuit over infinite seqs" :label "into take iterate" :expected "[0 1 2 3 4]" :actual "(into [] (take 5) (iterate inc 0))" :portability :common} - {:suite "reduce / honors reduced" :label "reduced short-circuits inf" :expected "105" :actual "(reduce (fn [a x] (if (> a 100) (reduced a) (+ a x))) 0 (range))" :portability :common} - {:suite "reduce / honors reduced" :label "reduce take inf" :expected "10" :actual "(reduce + (take 5 (range)))" :portability :common} - {:suite "reduce / honors reduced" :label "reduce no-init first elem" :expected "6" :actual "(reduce + [1 2 3])" :portability :common} - {:suite "reduce / honors reduced" :label "reduce no-init single" :expected "42" :actual "(reduce + [42])" :portability :common} - {:suite "reduce / honors reduced" :label "reduce empty calls f" :expected "0" :actual "(reduce + [])" :portability :common} - {:suite "reduce / honors reduced" :label "reduce with-init" :expected "16" :actual "(reduce + 10 [1 2 3])" :portability :common} - {:suite "reduce / honors reduced" :label "reduce reduced immediate" :expected ":x" :actual "(reduce (fn [a x] (reduced :x)) :init [1 2 3])" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "into list prepends" :expected "[4 3 1 2]" :actual "(into (quote (1 2)) [3 4])" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "into sorted-map" :expected "{1 :a, 2 :b}" :actual "(into (sorted-map) [[2 :b] [1 :a]])" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "into from map entry" :expected "[:a 1]" :actual "(into [] (first {:a 1}))" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "into xform on map" :expected "{:a 2}" :actual "(into {} (map (fn [e] [(key e) (inc (val e))])) {:a 1})" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "eduction multiple xforms" :expected "[4]" :actual "(into [] (eduction (filter odd?) (map inc) [2 3 4]))" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "->Eduction" :expected "[2 3]" :actual "(->Eduction (map inc) [1 2])" :portability :common} - {:suite "transducers / into & eduction (overlay)" :label "transduce no init uses (f)" :expected "5" :actual "(transduce (map inc) + [1 2])" :portability :common} - {:suite "transient / vector" :label "conj! then persistent!" :expected "[1 2]" :actual "(persistent! (conj! (conj! (transient []) 1) 2))" :portability :common} - {:suite "transient / vector" :label "reduce conj!" :expected "[0 1 2 3 4]" :actual "(persistent! (reduce conj! (transient []) (range 5)))" :portability :common} - {:suite "transient / vector" :label "conj! many args" :expected "[1 2 3]" :actual "(persistent! (conj! (transient [1]) 2 3))" :portability :common} - {:suite "transient / vector" :label "assoc! existing" :expected "[1 9 3]" :actual "(persistent! (assoc! (transient [1 2 3]) 1 9))" :portability :common} - {:suite "transient / vector" :label "assoc! at count grows" :expected "[1 2 3]" :actual "(persistent! (assoc! (transient [1 2]) 2 3))" :portability :common} - {:suite "transient / vector" :label "pop!" :expected "[1 2]" :actual "(persistent! (pop! (transient [1 2 3])))" :portability :common} - {:suite "transient / vector" :label "from existing vector" :expected "[1 2 3 4]" :actual "(persistent! (conj! (transient [1 2 3]) 4))" :portability :common} - {:suite "transient / vector" :label "count" :expected "3" :actual "(count (transient [1 2 3]))" :portability :common} - {:suite "transient / vector" :label "nth" :expected "2" :actual "(nth (transient [1 2 3]) 1)" :portability :common} - {:suite "transient / vector" :label "get" :expected "2" :actual "(get (transient [1 2 3]) 1)" :portability :common} - {:suite "transient / vector" :label "persistent! is a vector" :expected "true" :actual "(vector? (persistent! (transient [1])))" :portability :common} - {:suite "transient / vector" :label "transient? true" :expected "true" :actual "(transient? (transient []))" :portability :common} - {:suite "transient / vector" :label "transient? false" :expected "false" :actual "(transient? [1 2])" :portability :common} - {:suite "transient / map" :label "assoc! then persistent!" :expected "{:a 1, :b 2}" :actual "(persistent! (assoc! (assoc! (transient {}) :a 1) :b 2))" :portability :common} - {:suite "transient / map" :label "assoc! many" :expected "{:a 1, :b 2}" :actual "(persistent! (assoc! (transient {}) :a 1 :b 2))" :portability :common} - {:suite "transient / map" :label "dissoc!" :expected "{:b 2}" :actual "(persistent! (dissoc! (transient {:a 1 :b 2}) :a))" :portability :common} - {:suite "transient / map" :label "conj! map entry" :expected "{:a 1}" :actual "(persistent! (conj! (transient {}) [:a 1]))" :portability :common} - {:suite "transient / map" :label "from existing map" :expected "{:a 1, :b 2}" :actual "(persistent! (assoc! (transient {:a 1}) :b 2))" :portability :common} - {:suite "transient / map" :label "get" :expected "1" :actual "(get (transient {:a 1}) :a)" :portability :common} - {:suite "transient / map" :label "get missing default" :expected ":x" :actual "(get (transient {:a 1}) :z :x)" :portability :common} - {:suite "transient / map" :label "contains?" :expected "true" :actual "(contains? (transient {:a 1}) :a)" :portability :common} - {:suite "transient / map" :label "count" :expected "2" :actual "(count (transient {:a 1 :b 2}))" :portability :common} - {:suite "transient / map" :label "collection key by value" :expected ":v" :actual "(get (persistent! (assoc! (transient {}) [1 2] :v)) [1 2])" :portability :common} - {:suite "transient / map" :label "persistent! is a map" :expected "true" :actual "(map? (persistent! (transient {:a 1})))" :portability :common} - {:suite "transient / map" :label "reduce build" :expected "{0 0, 1 1, 2 2}" :actual "(persistent! (reduce (fn [t i] (assoc! t i i)) (transient {}) (range 3)))" :portability :common} - {:suite "transient / set" :label "conj! dedups" :expected "#{1 2 3}" :actual "(persistent! (conj! (transient #{}) 1 2 2 3))" :portability :common} - {:suite "transient / set" :label "disj!" :expected "#{1 3}" :actual "(persistent! (disj! (transient #{1 2 3}) 2))" :portability :common} - {:suite "transient / set" :label "from existing set" :expected "#{1 3 2}" :actual "(persistent! (conj! (transient #{1 2}) 3))" :portability :common} - {:suite "transient / set" :label "contains?" :expected "true" :actual "(contains? (transient #{1 2}) 1)" :portability :common} - {:suite "transient / set" :label "count" :expected "2" :actual "(count (transient #{1 2}))" :portability :common} - {:suite "transient / set" :label "persistent! is a set" :expected "true" :actual "(set? (persistent! (transient #{1})))" :portability :common} - {:suite "transient / set" :label "map elements by value" :expected "1" :actual "(count (persistent! (conj! (transient #{}) {:a 1} (hash-map :a 1))))" :portability :common} - {:suite "transient / immutability of source" :label "source vector unchanged" :expected "true" :actual "(let [v [1 2 3] _ (persistent! (conj! (transient v) 4))] (= v [1 2 3]))" :portability :common} - {:suite "transient / immutability of source" :label "source map unchanged" :expected "true" :actual "(let [m {:a 1} _ (persistent! (assoc! (transient m) :b 2))] (= m {:a 1}))" :portability :common} - {:suite "transient / invokable lookup" :label "vector index" :expected "20" :actual "((transient [10 20 30]) 1)" :portability :common} - {:suite "transient / invokable lookup" :label "map key as fn" :expected "7" :actual "((transient {:x 7}) :x)" :portability :common} - {:suite "transient / invokable lookup" :label "map key default" :expected "99" :actual "((transient {:x 7}) :z 99)" :portability :common} - {:suite "transient / invokable lookup" :label "keyword on transient" :expected "7" :actual "(:x (transient {:x 7}))" :portability :common} - {:suite "transient / invokable lookup" :label "set membership" :expected "2" :actual "((transient #{1 2 3}) 2)" :portability :common} - {:suite "transient / invokable lookup" :label "set miss default" :expected ":no" :actual "((transient #{1 2 3}) 42 :no)" :portability :common} - {:suite "transient / invokable lookup" :label "collection key" :expected ":v" :actual "((transient {[1 2] :v}) [1 2])" :portability :common} - {:suite "transient / assoc! odd args throw" :label "map dangling key" :expected "{:a 1, :b nil}" :actual "(persistent! (assoc! (transient {}) :a 1 :b))" :portability :common} - {:suite "transient / assoc! odd args throw" :label "map lone key" :expected :throws :actual "(persistent! (assoc! (transient {}) :a))" :portability :common} - {:suite "transient / assoc! odd args throw" :label "vector dangling" :expected "[9 nil]" :actual "(persistent! (apply assoc! (transient []) [0 9 1]))" :portability :common} - {:suite "transient / assoc! odd args throw" :label "even args still ok" :expected "true" :actual "(= {:a 1, :b 2} (persistent! (assoc! (transient {}) :a 1 :b 2)))" :portability :common} - {:suite "transient / invalidation" :label "conj! after persistent!" :expected :throws :actual "(let [t (transient [])] (persistent! t) (conj! t 1))" :portability :common} - {:suite "transient / invalidation" :label "assoc! after persistent!" :expected :throws :actual "(let [t (transient {})] (persistent! t) (assoc! t :a 1))" :portability :common} - {:suite "transient / invalidation" :label "persistent! twice" :expected :throws :actual "(let [t (transient [])] (persistent! t) (persistent! t))" :portability :common} - {:suite "transient / invalidation" :label "pop! empty" :expected :throws :actual "(pop! (transient []))" :portability :common} - {:suite "transient / strictness" :label "conj! on persistent" :expected :throws :actual "(conj! [1 2] 3)" :portability :common} - {:suite "transient / strictness" :label "assoc! on persistent" :expected :throws :actual "(assoc! {:a 1} :b 2)" :portability :common} - {:suite "transient / strictness" :label "persistent! on vector" :expected :throws :actual "(persistent! [1 2])" :portability :common} - {:suite "transient / strictness" :label "persistent! on nil" :expected :throws :actual "(persistent! nil)" :portability :common} - {:suite "transient / strictness" :label "pop! on transient map" :expected :throws :actual "(pop! (transient {:a 1}))" :portability :common} - {:suite "transient / strictness" :label "dissoc! on tset" :expected :throws :actual "(dissoc! (transient #{1}) 1)" :portability :common} - {:suite "transient / strictness" :label "conj! map bad item" :expected :throws :actual "(conj! (transient {}) #{:a 1})" :portability :common} - {:suite "transient / strictness" :label "conj! no args" :expected "[]" :actual "(persistent! (conj!))" :portability :common} - {:suite "transient / strictness" :label "conj! identity" :expected "[1 2]" :actual "(conj! [1 2])" :portability :common} - {:suite "transient / strictness" :label "conj! map merges map" :expected "{:a 1, :b 2}" :actual "(persistent! (conj! (transient {:a 1}) {:b 2}))" :portability :common} - {:suite "transient / assoc! bounds" :label "assoc! existing idx" :expected "[1 9 3]" :actual "(persistent! (assoc! (transient [1 2 3]) 1 9))" :portability :common} - {:suite "transient / assoc! bounds" :label "assoc! at count grows" :expected "[1 2 3]" :actual "(persistent! (assoc! (transient [1 2]) 2 3))" :portability :common} - {:suite "transient / assoc! bounds" :label "assoc! out of bounds" :expected :throws :actual "(assoc! (transient [0 1 2]) 4 4)" :portability :common} - {:suite "transient / assoc! bounds" :label "assoc! negative" :expected :throws :actual "(assoc! (transient []) -1 0)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "nil is falsy" :expected ":f" :actual "(if nil :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "false is falsy" :expected ":f" :actual "(if false :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "zero is truthy" :expected ":t" :actual "(if 0 :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "zero float truthy" :expected ":t" :actual "(if 0.0 :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "empty string truthy" :expected ":t" :actual "(if \"\" :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "empty list truthy" :expected ":t" :actual "(if (list) :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "empty vector truthy" :expected ":t" :actual "(if [] :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "empty map truthy" :expected ":t" :actual "(if {} :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "empty set truthy" :expected ":t" :actual "(if #{} :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "number truthy" :expected ":t" :actual "(if 42 :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "string truthy" :expected ":t" :actual "(if \"x\" :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "keyword truthy" :expected ":t" :actual "(if :kw :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "symbol truthy" :expected ":t" :actual "(if (quote abc) :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "coll truthy" :expected ":t" :actual "(if [1 2] :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "map truthy" :expected ":t" :actual "(if {:a 1} :t :f)" :portability :common} - {:suite "truthiness / if (only nil & false are falsy)" :label "if no else -> nil" :expected "nil" :actual "(if false :t)" :portability :common} - {:suite "truthiness / not" :label "not nil" :expected "true" :actual "(not nil)" :portability :common} - {:suite "truthiness / not" :label "not false" :expected "true" :actual "(not false)" :portability :common} - {:suite "truthiness / not" :label "not zero" :expected "false" :actual "(not 0)" :portability :common} - {:suite "truthiness / not" :label "not empty vector" :expected "false" :actual "(not [])" :portability :common} - {:suite "truthiness / not" :label "not empty string" :expected "false" :actual "(not \"\")" :portability :common} - {:suite "truthiness / not" :label "not number" :expected "false" :actual "(not 42)" :portability :common} - {:suite "truthiness / not" :label "not true" :expected "false" :actual "(not true)" :portability :common} - {:suite "truthiness / and" :label "empty is true" :expected "true" :actual "(and)" :portability :common} - {:suite "truthiness / and" :label "single value" :expected "5" :actual "(and 5)" :portability :common} - {:suite "truthiness / and" :label "all truthy -> last" :expected "3" :actual "(and 1 2 3)" :portability :common} - {:suite "truthiness / and" :label "stops at false" :expected "false" :actual "(and 1 false 3)" :portability :common} - {:suite "truthiness / and" :label "stops at nil" :expected "nil" :actual "(and 1 nil 3)" :portability :common} - {:suite "truthiness / and" :label "false alone" :expected "false" :actual "(and false)" :portability :common} - {:suite "truthiness / and" :label "nil alone" :expected "nil" :actual "(and nil)" :portability :common} - {:suite "truthiness / and" :label "zero is truthy" :expected "0" :actual "(and 1 0)" :portability :common} - {:suite "truthiness / or" :label "empty is nil" :expected "nil" :actual "(or)" :portability :common} - {:suite "truthiness / or" :label "first truthy" :expected "1" :actual "(or 1 2)" :portability :common} - {:suite "truthiness / or" :label "skips nil/false" :expected "5" :actual "(or nil false 5)" :portability :common} - {:suite "truthiness / or" :label "all falsy -> last" :expected "false" :actual "(or nil false)" :portability :common} - {:suite "truthiness / or" :label "nil chain -> false" :expected "false" :actual "(or nil nil nil false)" :portability :common} - {:suite "truthiness / or" :label "zero is truthy" :expected "0" :actual "(or 0 1)" :portability :common} - {:suite "truthiness / or" :label "false alone" :expected "false" :actual "(or false)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "if-not false" :expected ":yes" :actual "(if-not false :yes :no)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "if-not truthy" :expected ":no" :actual "(if-not 0 :yes :no)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "when-not nil" :expected "1" :actual "(when-not nil 1)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "when-not truthy" :expected "nil" :actual "(when-not 5 1)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "boolean of nil" :expected "false" :actual "(boolean nil)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "boolean of false" :expected "false" :actual "(boolean false)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "boolean of 0" :expected "true" :actual "(boolean 0)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "boolean of value" :expected "true" :actual "(boolean :x)" :portability :common} - {:suite "truthiness / if-not & boolean" :label "true?/false?" :expected "true" :actual "(and (true? true) (false? false) (not (true? 1)))" :portability :common} - {:suite "untested / primed + division + bit ops" :label "+'" :expected "3" :actual "(+' 1 2)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "-'" :expected "3" :actual "(-' 5 2)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "*'" :expected "12" :actual "(*' 3 4)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "inc'" :expected "2.5" :actual "(inc' 1.5)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "dec'" :expected "1.5" :actual "(dec' 2.5)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "/" :expected "2" :actual "(/ 6 3)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "/ ratio-as-double" :expected "1/2" :actual "(/ 1 2)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "bit-not" :expected "-6" :actual "(bit-not 5)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "bit-and-not" :expected "4" :actual "(bit-and-not 12 10)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "bit-flip" :expected "3" :actual "(bit-flip 2 0)" :portability :common} - {:suite "untested / primed + division + bit ops" :label "unsigned-bit-shift-right" :expected "2" :actual "(unsigned-bit-shift-right 8 2)" :portability :common} - {:suite "untested / hash family" :label "hash stable" :expected "true" :actual "(= (hash :a) (hash :a))" :portability :common} - {:suite "untested / hash family" :label "hash int" :expected "true" :actual "(int? (hash [1 2]))" :portability :common} - {:suite "untested / hash family" :label "hash-combine" :expected "true" :actual "(int? (hash-combine 1 2))" :portability :common} - {:suite "untested / hash family" :label "hash-ordered-coll" :expected "true" :actual "(int? (hash-ordered-coll [1 2]))" :portability :common} - {:suite "untested / hash family" :label "hash-unordered-coll" :expected "true" :actual "(int? (hash-unordered-coll #{1}))" :portability :common} - {:suite "untested / array stubs (vectors + host buffers)" :label "make-array" :expected "[nil nil nil]" :actual "(vec (make-array Object 3))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "into-array" :expected "[1 2]" :actual "(vec (into-array [1 2]))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "to-array" :expected "[1 2]" :actual "(vec (to-array [1 2]))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aclone vec" :expected "[1 2]" :actual "(vec (aclone (int-array [1 2])))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aclone independent" :expected "[9 2]" :actual "(let [a (aclone (to-array [1 2]))] (aset a 0 9) (seq a))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset/aget" :expected "9" :actual "(let [a (to-array [1 2 3])] (aset a 0 9) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-int" :expected "7" :actual "(let [a (to-array [1 2])] (aset-int a 0 7) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-boolean" :expected "true" :actual "(let [a (to-array [1])] (aset-boolean a 0 true) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-byte" :expected "9" :actual "(let [a (to-array [0])] (aset-byte a 0 9) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-char" :expected "\\a" :actual "(let [a (to-array [0])] (aset-char a 0 \\a) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-double" :expected "1.5" :actual "(let [a (to-array [0])] (aset-double a 0 1.5) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-float" :expected "2.5" :actual "(let [a (to-array [0])] (aset-float a 0 2.5) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-long" :expected "3" :actual "(let [a (to-array [0])] (aset-long a 0 3) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "aset-short" :expected "4" :actual "(let [a (to-array [0])] (aset-short a 0 4) (aget a 0))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "boolean-array" :expected "[false false]" :actual "(vec (boolean-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "int-array" :expected "[1 2]" :actual "(vec (int-array [1 2]))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "long-array" :expected "[0 0]" :actual "(vec (long-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "double-array" :expected "[0.0 0.0]" :actual "(vec (double-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "float-array" :expected "[0.0 0.0]" :actual "(vec (float-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "short-array" :expected "[0 0]" :actual "(vec (short-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "char-array count" :expected "2" :actual "(count (char-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "byte-array bytes?" :expected "true" :actual "(bytes? (byte-array 2))" :portability :jvm} - {:suite "untested / array stubs (vectors + host buffers)" :label "bytes? not vec" :expected "false" :actual "(bytes? [1])" :portability :common} - {:suite "untested / typed coercion views" :label "booleans" :expected "(quote (true))" :actual "(booleans [true])" :portability :common} - {:suite "untested / typed coercion views" :label "doubles" :expected "[1.0]" :actual "(vec (doubles (double-array [1.0])))" :portability :jvm} - {:suite "untested / typed coercion views" :label "floats" :expected "[1.0]" :actual "(vec (floats (float-array [1.0])))" :portability :jvm} - {:suite "untested / typed coercion views" :label "ints" :expected "(quote (1))" :actual "(ints [1])" :portability :common} - {:suite "untested / typed coercion views" :label "longs" :expected "(quote (1))" :actual "(longs [1])" :portability :common} - {:suite "untested / typed coercion views" :label "shorts" :expected "(quote (1))" :actual "(shorts [1])" :portability :common} - {:suite "untested / typed coercion views" :label "chars first" :expected "\\a" :actual "(first (chars [\\a]))" :portability :common} - {:suite "untested / typed coercion views" :label "bytes view" :expected "true" :actual "(bytes? (bytes [65]))" :portability :common} - {:suite "untested / typed coercion views" :label "byte" :expected "65" :actual "(byte 65)" :portability :common} - {:suite "untested / typed coercion views" :label "short" :expected "1" :actual "(short 1)" :portability :common} - {:suite "untested / typed coercion views" :label "long truncates" :expected "1" :actual "(long 1.7)" :portability :common} - {:suite "untested / typed coercion views" :label "double" :expected "3.0" :actual "(double 3)" :portability :common} - {:suite "untested / typed coercion views" :label "float" :expected "3.0" :actual "(float 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-add" :expected "3" :actual "(unchecked-add 1 2)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-add-int" :expected "3" :actual "(unchecked-add-int 1 2)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-subtract" :expected "3" :actual "(unchecked-subtract 5 2)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-subtract-int" :expected "3" :actual "(unchecked-subtract-int 5 2)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-multiply" :expected "6" :actual "(unchecked-multiply 2 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-multiply-int" :expected "6" :actual "(unchecked-multiply-int 2 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-inc" :expected "2" :actual "(unchecked-inc 1)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-inc-int" :expected "2" :actual "(unchecked-inc-int 1)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-dec" :expected "2" :actual "(unchecked-dec 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-dec-int" :expected "2" :actual "(unchecked-dec-int 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-negate" :expected "-4" :actual "(unchecked-negate 4)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-negate-int" :expected "-4" :actual "(unchecked-negate-int 4)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-divide-int" :expected "3" :actual "(unchecked-divide-int 7 2)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-remainder-int" :expected "1" :actual "(unchecked-remainder-int 7 2)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-int" :expected "3" :actual "(unchecked-int 3.7)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-long" :expected "3" :actual "(unchecked-long 3.7)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-double" :expected "3.0" :actual "(unchecked-double 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-float" :expected "3.0" :actual "(unchecked-float 3)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-byte" :expected "65" :actual "(unchecked-byte 65)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-char" :expected "\\a" :actual "(unchecked-char 97)" :portability :common} - {:suite "untested / unchecked-* are plain ops" :label "unchecked-short" :expected "5" :actual "(unchecked-short 5)" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "chunk round-trip" :expected "[1]" :actual "(let [cb (chunk-buffer 4)] (chunk-append cb 1) (chunk-first (chunk-cons (chunk cb) nil)))" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "cat transducer" :expected "[1 2 3]" :actual "(into [] cat [[1] [2 3]])" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "ensure-reduced wraps" :expected "true" :actual "(reduced? (ensure-reduced 5))" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "ensure-reduced keeps reduced" :expected "true" :actual "(reduced? (ensure-reduced (reduced 5)))" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "halt-when" :expected "4" :actual "(transduce (halt-when even?) conj [] [1 3 4 5])" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "chunk-next exhausted" :expected "nil" :actual "(let [cb (chunk-buffer 2)] (chunk-append cb 1) (chunk-next (chunk-cons (chunk cb) nil)))" :portability :common} - {:suite "untested / chunk family (eager equivalents) + cat" :label "chunk-rest seqable" :expected "[]" :actual "(let [cb (chunk-buffer 2)] (chunk-append cb 1) (vec (chunk-rest (chunk-cons (chunk cb) nil))))" :portability :common} - {:suite "chunked-seq / over a vector" :label "chunk-first is a 32-element block" :expected "32" :actual "(count (chunk-first (seq (vec (range 100)))))" :portability :common} - {:suite "chunked-seq / over a vector" :label "chunked-seq? true for vector seq" :expected "true" :actual "(chunked-seq? (seq (vec (range 100))))" :portability :common} - {:suite "chunked-seq / over a vector" :label "chunked-seq? false for a list seq" :expected "false" :actual "(chunked-seq? (seq (list 1 2 3)))" :portability :common} - {:suite "chunked-seq / over a vector" :label "chunk-first contents + chunk-rest boundary" :expected "[32 0 31 32]" :actual "(let [s (seq (vec (range 50))) c (chunk-first s)] [(count c) (nth c 0) (nth c 31) (first (chunk-rest s))])" :portability :common} - {:suite "chunked-seq / over a vector" :label "chunk-first window past the first block" :expected "[32 33 34 35 36 37 38 39]" :actual "(vec (chunk-first (chunk-rest (seq (vec (range 40))))))" :portability :common} + {:suite "vars / cached reference stays correct" :label "redefinition is seen through a cached ref" :expected "2" :actual "(do (def x 1) (defn f [] x) (def x 2) (f))"} + {:suite "vars / cached reference stays correct" :label "dynamic binding is seen through a cached ref" :expected "[1 9 1]" :actual "(do (def ^:dynamic *d* 1) (defn g [] *d*) [(g) (binding [*d* 9] (g)) (g)])"} + {:suite "vars / cached reference stays correct" :label "forward reference resolves once the var is defined" :expected "42" :actual "(do (defn a [] (b)) (defn b [] 42) (a))"} + {:suite "predicates / nil & boolean" :label "nil? true" :expected "true" :actual "(nil? nil)"} + {:suite "predicates / nil & boolean" :label "nil? false" :expected "false" :actual "(nil? 0)"} + {:suite "predicates / nil & boolean" :label "some? true" :expected "true" :actual "(some? 0)"} + {:suite "predicates / nil & boolean" :label "some? on nil" :expected "false" :actual "(some? nil)"} + {:suite "predicates / nil & boolean" :label "true?" :expected "true" :actual "(true? true)"} + {:suite "predicates / nil & boolean" :label "false?" :expected "true" :actual "(false? false)"} + {:suite "predicates / nil & boolean" :label "boolean? true" :expected "true" :actual "(boolean? false)"} + {:suite "predicates / nil & boolean" :label "not nil" :expected "true" :actual "(not nil)"} + {:suite "predicates / nil & boolean" :label "not 0 is false" :expected "false" :actual "(not 0)"} + {:suite "predicates / nil & boolean" :label "boolean of nil" :expected "false" :actual "(boolean nil)"} + {:suite "predicates / nil & boolean" :label "boolean of value" :expected "true" :actual "(boolean 5)"} + {:suite "predicates / types" :label "string?" :expected "true" :actual "(string? \"x\")"} + {:suite "predicates / types" :label "number?" :expected "true" :actual "(number? 1)"} + {:suite "predicates / types" :label "keyword?" :expected "true" :actual "(keyword? :a)"} + {:suite "predicates / types" :label "symbol?" :expected "true" :actual "(symbol? (quote a))"} + {:suite "predicates / types" :label "char?" :expected "true" :actual "(char? \\a)"} + {:suite "predicates / types" :label "fn? on fn" :expected "true" :actual "(fn? inc)"} + {:suite "predicates / types" :label "ifn? on keyword" :expected "true" :actual "(ifn? :a)"} + {:suite "predicates / types" :label "vector?" :expected "true" :actual "(vector? [1])"} + {:suite "predicates / types" :label "list?" :expected "true" :actual "(list? (list 1))"} + {:suite "predicates / types" :label "map?" :expected "true" :actual "(map? {:a 1})"} + {:suite "predicates / types" :label "set?" :expected "true" :actual "(set? #{1})"} + {:suite "predicates / types" :label "coll? vector" :expected "true" :actual "(coll? [1])"} + {:suite "predicates / types" :label "coll? map" :expected "true" :actual "(coll? {:a 1})"} + {:suite "predicates / types" :label "coll? on number" :expected "false" :actual "(coll? 1)"} + {:suite "predicates / types" :label "seq? list" :expected "true" :actual "(seq? (list 1))"} + {:suite "predicates / types" :label "seq? vector" :expected "false" :actual "(seq? [1])"} + {:suite "predicates / types" :label "sequential? vector" :expected "true" :actual "(sequential? [1])"} + {:suite "predicates / types" :label "associative? map" :expected "true" :actual "(associative? {:a 1})"} + {:suite "predicates / types" :label "associative? vec" :expected "true" :actual "(associative? [1])"} + {:suite "predicates / types" :label "associative? list" :expected "false" :actual "(associative? '(1 2))"} + {:suite "predicates / types" :label "associative? set" :expected "false" :actual "(associative? #{1})"} + {:suite "predicates / types" :label "reversible? vec" :expected "true" :actual "(reversible? [1 2])"} + {:suite "predicates / types" :label "reversible? list" :expected "false" :actual "(reversible? '(1 2))"} + {:suite "predicates / types" :label "reversible? smap" :expected "true" :actual "(reversible? (sorted-map :a 1))"} + {:suite "predicates / types" :label "reversible? hmap" :expected "false" :actual "(reversible? (hash-map :a 1))"} + {:suite "predicates / types" :label "indexed? vector" :expected "true" :actual "(indexed? [1])"} + {:suite "predicates / types" :label "counted? vector" :expected "true" :actual "(counted? [1])"} + {:suite "predicates / idents" :label "ident? keyword" :expected "true" :actual "(ident? :a)"} + {:suite "predicates / idents" :label "ident? symbol" :expected "true" :actual "(ident? (quote a))"} + {:suite "predicates / idents" :label "simple-keyword?" :expected "true" :actual "(simple-keyword? :a)"} + {:suite "predicates / idents" :label "qualified-keyword?" :expected "true" :actual "(qualified-keyword? :a/b)"} + {:suite "predicates / idents" :label "simple-symbol?" :expected "true" :actual "(simple-symbol? (quote a))"} + {:suite "predicates / idents" :label "qualified-symbol?" :expected "true" :actual "(qualified-symbol? (quote a/b))"} + {:suite "predicates / idents" :label "name of keyword" :expected "\"a\"" :actual "(name :a)"} + {:suite "predicates / idents" :label "name of qualified" :expected "\"b\"" :actual "(name :a/b)"} + {:suite "predicates / idents" :label "namespace" :expected "\"a\"" :actual "(namespace :a/b)"} + {:suite "predicates / idents" :label "namespace simple" :expected "nil" :actual "(namespace :a)"} + {:suite "predicates / idents" :label "keyword constructor" :expected ":foo" :actual "(keyword \"foo\")"} + {:suite "predicates / idents" :label "keyword ns + name" :expected ":a/b" :actual "(keyword \"a\" \"b\")"} + {:suite "predicates / idents" :label "symbol constructor" :expected "(quote x)" :actual "(symbol \"x\")"} + {:suite "predicates / idents" :label "name of string" :expected "\"s\"" :actual "(name \"s\")"} + {:suite "predicates / overlay-migrated" :label "not-any? true" :expected "true" :actual "(not-any? even? [1 3 5])"} + {:suite "predicates / overlay-migrated" :label "not-any? false" :expected "false" :actual "(not-any? even? [1 2 3])"} + {:suite "predicates / overlay-migrated" :label "not-every? true" :expected "true" :actual "(not-every? even? [2 4 5])"} + {:suite "predicates / overlay-migrated" :label "not-every? false" :expected "false" :actual "(not-every? even? [2 4 6])"} + {:suite "predicates / overlay-migrated" :label "ident? number" :expected "false" :actual "(ident? 1)"} + {:suite "predicates / overlay-migrated" :label "qualified-ident?" :expected "true" :actual "(qualified-ident? :a/b)"} + {:suite "predicates / overlay-migrated" :label "qualified-ident? no" :expected "false" :actual "(qualified-ident? :a)"} + {:suite "predicates / overlay-migrated" :label "simple-ident?" :expected "true" :actual "(simple-ident? :a)"} + {:suite "predicates / overlay-migrated" :label "ratio?" :expected "false" :actual "(ratio? 3)"} + {:suite "predicates / overlay-migrated" :label "decimal?" :expected "false" :actual "(decimal? 3)"} + {:suite "predicates / overlay-migrated" :label "class? of value" :expected "false" :actual "(class? \"s\")"} + {:suite "predicates / overlay-migrated" :label "class? of symbol" :expected "false" :actual "(class? 'java.lang.String)"} + {:suite "predicates / overlay-migrated" :label "rational? int" :expected "true" :actual "(rational? 3)"} + {:suite "predicates / overlay-migrated" :label "rational? float" :expected "false" :actual "(rational? 3.5)"} + {:suite "predicates / overlay-migrated" :label "nat-int? zero" :expected "true" :actual "(nat-int? 0)"} + {:suite "predicates / overlay-migrated" :label "nat-int? neg" :expected "false" :actual "(nat-int? -1)"} + {:suite "predicates / overlay-migrated" :label "pos-int?" :expected "true" :actual "(pos-int? 5)"} + {:suite "predicates / overlay-migrated" :label "neg-int?" :expected "true" :actual "(neg-int? -3)"} + {:suite "predicates / overlay-migrated" :label "NaN? on nan" :expected "true" :actual "(NaN? (/ 0.0 0.0))"} + {:suite "predicates / overlay-migrated" :label "NaN? on number" :expected "false" :actual "(NaN? 5)"} + {:suite "predicates / overlay-migrated" :label "abs negative" :expected "3" :actual "(abs -3)"} + {:suite "predicates / overlay-migrated" :label "abs positive" :expected "2.5" :actual "(abs 2.5)"} + {:suite "predicates / overlay-migrated" :label "object?" :expected "false" :actual "(object? 1)"} + {:suite "predicates / overlay-migrated" :label "undefined?" :expected "false" :actual "(undefined? 1)"} + {:suite "predicates / overlay-migrated" :label "keyword-identical?" :expected "true" :actual "(keyword-identical? :a :a)"} + {:suite "predicates / overlay-migrated" :label "keyword-identical? no" :expected "false" :actual "(keyword-identical? :a :b)"} + {:suite "predicates / map? & coll? strictness" :label "map? symbol" :expected "false" :actual "(map? (quote sym))"} + {:suite "predicates / map? & coll? strictness" :label "map? char" :expected "false" :actual "(map? \\a)"} + {:suite "predicates / map? & coll? strictness" :label "map? uuid" :expected "false" :actual "(map? (random-uuid))"} + {:suite "predicates / map? & coll? strictness" :label "map? literal" :expected "true" :actual "(map? {:a 1})"} + {:suite "predicates / map? & coll? strictness" :label "map? hash-map" :expected "true" :actual "(map? (hash-map :a 1))"} + {:suite "predicates / map? & coll? strictness" :label "map? sorted-map" :expected "true" :actual "(map? (sorted-map :a 1))"} + {:suite "predicates / map? & coll? strictness" :label "map? record" :expected "true" :actual "(do (defrecord Mr [a]) (map? (->Mr 1)))"} + {:suite "predicates / map? & coll? strictness" :label "map? sorted-set" :expected "false" :actual "(map? (sorted-set 1))"} + {:suite "predicates / map? & coll? strictness" :label "map? vector" :expected "false" :actual "(map? [1])"} + {:suite "predicates / map? & coll? strictness" :label "coll? symbol" :expected "false" :actual "(coll? (quote sym))"} + {:suite "predicates / map? & coll? strictness" :label "coll? char" :expected "false" :actual "(coll? \\a)"} + {:suite "predicates / map? & coll? strictness" :label "coll? uuid" :expected "false" :actual "(coll? (random-uuid))"} + {:suite "predicates / map? & coll? strictness" :label "coll? keyword" :expected "false" :actual "(coll? :k)"} + {:suite "predicates / map? & coll? strictness" :label "coll? string" :expected "false" :actual "(coll? \"s\")"} + {:suite "predicates / map? & coll? strictness" :label "coll? map literal" :expected "true" :actual "(coll? {:a 1})"} + {:suite "predicates / map? & coll? strictness" :label "coll? sorted-map" :expected "true" :actual "(coll? (sorted-map :a 1))"} + {:suite "predicates / map? & coll? strictness" :label "coll? sorted-set" :expected "true" :actual "(coll? (sorted-set 1))"} + {:suite "predicates / map? & coll? strictness" :label "coll? record" :expected "true" :actual "(do (defrecord Cr [a]) (coll? (->Cr 1)))"} + {:suite "predicates / map? & coll? strictness" :label "coll? vector" :expected "true" :actual "(coll? [1])"} + {:suite "predicates / map? & coll? strictness" :label "coll? list" :expected "true" :actual "(coll? (list 1))"} + {:suite "predicates / map? & coll? strictness" :label "coll? set" :expected "true" :actual "(coll? #{1})"} + {:suite "predicates / map? & coll? strictness" :label "coll? lazy seq" :expected "true" :actual "(coll? (map inc [1]))"} + {:suite "predicates / tagged-value" :label "atom? yes" :expected "true" :actual "(atom? (atom 1))"} + {:suite "predicates / tagged-value" :label "atom? no" :expected "false" :actual "(atom? 1)"} + {:suite "predicates / tagged-value" :label "volatile? yes" :expected "true" :actual "(volatile? (volatile! 1))"} + {:suite "predicates / tagged-value" :label "volatile? no" :expected "false" :actual "(volatile? (atom 1))"} + {:suite "predicates / tagged-value" :label "record? yes" :expected "true" :actual "(do (defrecord Rp [a]) (record? (->Rp 1)))"} + {:suite "predicates / tagged-value" :label "record? no map" :expected "false" :actual "(record? {:a 1})"} + {:suite "predicates / tagged-value" :label "record? no nil" :expected "false" :actual "(record? nil)"} + {:suite "predicates / tagged-value" :label "tagged-literal? yes" :expected "true" :actual "(tagged-literal? (tagged-literal (quote inst) \"2020\"))"} + {:suite "predicates / tagged-value" :label "tagged-literal? no" :expected "false" :actual "(tagged-literal? 1)"} + {:suite "predicates / tagged-value" :label "reader-conditional? no" :expected "false" :actual "(reader-conditional? 1)"} + {:suite "predicates / tagged-value" :label "chunked-seq? true for a vector seq" :expected "true" :actual "(chunked-seq? (seq [1 2 3]))"} + {:suite "predicates / equality & identity" :label "= same" :expected "true" :actual "(= 1 1)"} + {:suite "predicates / equality & identity" :label "= vectors" :expected "true" :actual "(= [1 2] [1 2])"} + {:suite "predicates / equality & identity" :label "= vector & list" :expected "true" :actual "(= [1 2] (list 1 2))"} + {:suite "predicates / equality & identity" :label "= maps" :expected "true" :actual "(= {:a 1} {:a 1})"} + {:suite "predicates / equality & identity" :label "= sets" :expected "true" :actual "(= #{1 2} #{2 1})"} + {:suite "predicates / equality & identity" :label "= nested" :expected "true" :actual "(= {:a [1 2]} {:a [1 2]})"} + {:suite "predicates / equality & identity" :label "not= differs" :expected "true" :actual "(not= [1 2] [1 3])"} + {:suite "predicates / equality & identity" :label "identical? same kw" :expected "true" :actual "(identical? :a :a)"} + {:suite "predicates / equality & identity" :label "compare strings" :expected "-1" :actual "(compare \"a\" \"b\")"} + {:suite "predicates / seqable, reduced & emptiness" :label "seqable? vector" :expected "true" :actual "(seqable? [1])"} + {:suite "predicates / seqable, reduced & emptiness" :label "seqable? map" :expected "true" :actual "(seqable? {:a 1})"} + {:suite "predicates / seqable, reduced & emptiness" :label "seqable? string" :expected "true" :actual "(seqable? \"s\")"} + {:suite "predicates / seqable, reduced & emptiness" :label "seqable? nil" :expected "true" :actual "(seqable? nil)"} + {:suite "predicates / seqable, reduced & emptiness" :label "seqable? number" :expected "false" :actual "(seqable? 5)"} + {:suite "predicates / seqable, reduced & emptiness" :label "integer? int" :expected "true" :actual "(integer? 5)"} + {:suite "predicates / seqable, reduced & emptiness" :label "integer? fraction" :expected "false" :actual "(integer? 5.5)"} + {:suite "predicates / seqable, reduced & emptiness" :label "reduced? wrapped" :expected "true" :actual "(reduced? (reduced 1))"} + {:suite "predicates / seqable, reduced & emptiness" :label "reduced? plain" :expected "false" :actual "(reduced? 1)"} + {:suite "predicates / seqable, reduced & emptiness" :label "deref reduced" :expected "9" :actual "(deref (reduced 9))"} + {:suite "predicates / seqable, reduced & emptiness" :label "unreduced wrapped" :expected "9" :actual "(unreduced (reduced 9))"} + {:suite "predicates / seqable, reduced & emptiness" :label "unreduced plain" :expected "9" :actual "(unreduced 9)"} + {:suite "predicates / seqable, reduced & emptiness" :label "not-empty full" :expected "[1]" :actual "(not-empty [1])"} + {:suite "predicates / seqable, reduced & emptiness" :label "not-empty empty" :expected "nil" :actual "(not-empty [])"} + {:suite "predicates / seqable, reduced & emptiness" :label "not-empty string" :expected "nil" :actual "(not-empty \"\")"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare =" :expected "0" :actual "(compare 1 1)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare <" :expected "-1" :actual "(compare 1 2)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare nil first" :expected "-1" :actual "(compare nil 1)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare nil nil" :expected "0" :actual "(compare nil nil)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare strings" :expected "-1" :actual "(compare \"a\" \"b\")"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare keywords" :expected "-1" :actual "(compare :a :b)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare symbols" :expected "-1" :actual "(compare (quote a) (quote b))"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare bools" :expected "-1" :actual "(compare false true)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare vec length" :expected "-1" :actual "(compare [1 2] [1 2 3])"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare vec elems" :expected "-1" :actual "(compare [1 2] [1 3])"} + {:suite "predicates / compare, type, any? (stage 3)" :label "compare cross-type throws" :expected :throws :actual "(compare 1 \"a\")"} + {:suite "predicates / compare, type, any? (stage 3)" :label "sort with compare" :expected "[nil 1 3]" :actual "(sort compare [3 nil 1])"} + {:suite "predicates / compare, type, any? (stage 3)" :label "type meta override" :expected ":custom" :actual "(type (with-meta [1] {:type :custom}))"} + {:suite "predicates / compare, type, any? (stage 3)" :label "type of record" :expected "false" :actual "(do (defrecord TyR [a]) (= (symbol (str (type (->TyR 1)))) (type (->TyR 1))))"} + {:suite "predicates / compare, type, any? (stage 3)" :label "any? value" :expected "true" :actual "(any? 5)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "any? nil" :expected "true" :actual "(any? nil)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "gensym is symbol" :expected "true" :actual "(symbol? (gensym))"} + {:suite "predicates / compare, type, any? (stage 3)" :label "gensym prefix" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/starts-with? (str (gensym \"p_\")) \"p_\"))"} + {:suite "predicates / compare, type, any? (stage 3)" :label "gensym distinct" :expected "false" :actual "(= (gensym) (gensym))"} + {:suite "predicates / compare, type, any? (stage 3)" :label "int? Inf false" :expected "false" :actual "(int? ##Inf)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "integer? Inf false" :expected "false" :actual "(integer? ##Inf)"} + {:suite "predicates / compare, type, any? (stage 3)" :label "integer? NaN false" :expected "false" :actual "(integer? ##NaN)"} + {:suite "predicates / ifn?" :label "fn" :expected "true" :actual "(ifn? inc)"} + {:suite "predicates / ifn?" :label "keyword" :expected "true" :actual "(ifn? :k)"} + {:suite "predicates / ifn?" :label "symbol" :expected "true" :actual "(ifn? (quote s))"} + {:suite "predicates / ifn?" :label "map" :expected "true" :actual "(ifn? {})"} + {:suite "predicates / ifn?" :label "sorted map" :expected "true" :actual "(ifn? (sorted-map))"} + {:suite "predicates / ifn?" :label "set" :expected "true" :actual "(ifn? #{1})"} + {:suite "predicates / ifn?" :label "vector" :expected "true" :actual "(ifn? [1])"} + {:suite "predicates / ifn?" :label "var" :expected "true" :actual "(ifn? (var first))"} + {:suite "predicates / ifn?" :label "list NOT" :expected "false" :actual "(ifn? (list 1 2))"} + {:suite "predicates / ifn?" :label "lazy NOT" :expected "false" :actual "(ifn? (map inc [1]))"} + {:suite "predicates / ifn?" :label "string NOT" :expected "false" :actual "(ifn? \"s\")"} + {:suite "predicates / ifn?" :label "number NOT" :expected "false" :actual "(ifn? 5)"} + {:suite "predicates / ifn?" :label "nil NOT" :expected "false" :actual "(ifn? nil)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? zero" :expected "true" :actual "(zero? 0)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? nonzero" :expected "false" :actual "(zero? 3)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? throws" :expected :throws :actual "(zero? :a)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "zero? throws on nil" :expected :throws :actual "(zero? nil)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "pos? positive" :expected "true" :actual "(pos? 2)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "pos? zero" :expected "false" :actual "(pos? 0)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "pos? throws" :expected :throws :actual "(pos? \"x\")"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "neg? throws" :expected :throws :actual "(neg? \"x\")"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? all pass" :expected "true" :actual "(every? odd? [1 3 5])"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? one fails" :expected "false" :actual "(every? odd? [1 2 5])"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? vacuous" :expected "true" :actual "(every? odd? [])"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? nil coll" :expected "true" :actual "(every? odd? nil)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "every? infinite short-circuit" :expected "false" :actual "(every? pos? (range))"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? char" :expected "true" :actual "(char? \\x)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? string" :expected "false" :actual "(char? \"x\")"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? number" :expected "false" :actual "(char? 97)"} + {:suite "predicates / numeric guards & every? (overlay moves)" :label "char? nil" :expected "false" :actual "(char? nil)"} + {:suite "protocols / defprotocol & dispatch" :label "protocol on record" :expected "16" :actual "(do (defprotocol Shape (area [s])) (defrecord Sq [side] Shape (area [_] (* side side))) (area (->Sq 4)))"} + {:suite "protocols / defprotocol & dispatch" :label "protocol on deftype" :expected "16" :actual "(do (defprotocol Shape (area [s])) (deftype Sq [side] Shape (area [_] (* side side))) (area (->Sq 4)))"} + {:suite "protocols / defprotocol & dispatch" :label "multiple methods" :expected "[1 2]" :actual "(do (defprotocol P (m [s]) (n [s])) (defrecord R [a b] P (m [_] a) (n [_] b)) [(m (->R 1 2)) (n (->R 1 2))])"} + {:suite "protocols / defprotocol & dispatch" :label "multiple protocols" :expected "[:a :b]" :actual "(do (defprotocol P1 (p1 [s])) (defprotocol P2 (p2 [s])) (deftype T [] P1 (p1 [_] :a) P2 (p2 [_] :b)) [(p1 (->T)) (p2 (->T))])"} + {:suite "protocols / defprotocol & dispatch" :label "method args" :expected "7" :actual "(do (defprotocol P (add [s x])) (defrecord R [n] P (add [_ x] (+ n x))) (add (->R 5) 2))"} + {:suite "protocols / defprotocol & dispatch" :label "extend-type" :expected "10" :actual "(do (defprotocol P (twice [s])) (extend-type Number P (twice [n] (* n 2))) (twice 5))"} + {:suite "protocols / defprotocol & dispatch" :label "extend-protocol" :expected "[2 4]" :actual "(do (defprotocol P (dbl [s])) (extend-protocol P Number (dbl [n] (* n 2))) [(dbl 1) (dbl 2)])"} + {:suite "protocols / records" :label "record field access" :expected "1" :actual "(do (defrecord R [a b]) (:a (->R 1 2)))"} + {:suite "protocols / records" :label "record map access" :expected "2" :actual "(do (defrecord R [a b]) (get (->R 1 2) :b))"} + {:suite "protocols / records" :label "record equality" :expected "true" :actual "(do (defrecord R [a b]) (= (->R 1 2) (->R 1 2)))"} + {:suite "protocols / records" :label "record inequality" :expected "false" :actual "(do (defrecord R [a b]) (= (->R 1 2) (->R 3 4)))"} + {:suite "protocols / records" :label "map-> factory" :expected "1" :actual "(do (defrecord R [a b]) (:a (map->R {:a 1 :b 2})))"} + {:suite "protocols / records" :label "record? true" :expected "true" :actual "(do (defrecord R [a]) (record? (->R 1)))"} + {:suite "protocols / records" :label "assoc on record" :expected "9" :actual "(do (defrecord R [a]) (:a (assoc (->R 1) :a 9)))"} + {:suite "protocols / reify & satisfies" :label "reify dispatch" :expected "42" :actual "(do (defprotocol P (m [_])) (m (reify P (m [_] 42))))"} + {:suite "protocols / reify & satisfies" :label "reify multi-method" :expected "[1 2]" :actual "(do (defprotocol P (a [_]) (b [_])) (let [r (reify P (a [_] 1) (b [_] 2))] [(a r) (b r)]))"} + {:suite "protocols / reify & satisfies" :label "satisfies? true" :expected "true" :actual "(do (defprotocol P (m [_])) (defrecord R [] P (m [_] 1)) (satisfies? P (->R)))"} + {:suite "protocols / reify & satisfies" :label "satisfies? false" :expected "false" :actual "(do (defprotocol P (m [_])) (defrecord R []) (satisfies? P (->R)))"} + {:suite "protocols / reify & satisfies" :label "satisfies? reify" :expected "true" :actual "(do (defprotocol P (m [_])) (satisfies? P (reify P (m [_] 1))))"} + {:suite "protocols / reify & satisfies" :label "satisfies? reify multi-protocol" :expected "[true true]" :actual "(do (defprotocol P (m [_])) (defprotocol Q (n [_])) (let [r (reify P (m [_] 1) Q (n [_] 2))] [(satisfies? P r) (satisfies? Q r)]))"} + {:suite "protocols / reify & satisfies" :label "satisfies? reify other proto" :expected "false" :actual "(do (defprotocol P (m [_])) (defprotocol Q (n [_])) (satisfies? Q (reify P (m [_] 1))))"} + {:suite "protocols / reify & satisfies" :label "instance? record" :expected "true" :actual "(do (defrecord R [a]) (instance? R (->R 1)))"} + {:suite "protocols / reify & satisfies" :label "dot constructor" :expected "5" :actual "(do (deftype P [n]) (.-n (P. 5)))"} + {:suite "protocols / reify & satisfies" :label "dot ctor + method" :expected "5" :actual "(do (defprotocol G (val-of [_])) (deftype P [n] G (val-of [_] n)) (val-of (P. 5)))"} + {:suite "protocols / defprotocol options" :label "docstring + option + method" :expected ":hi" :actual "(do (defprotocol Pdoc \"docs\" :extend-via-metadata true (greet [x])) (extend-protocol Pdoc String (greet [s] :hi)) (greet \"x\"))"} + {:suite "protocols / defprotocol options" :label "option only" :expected "3" :actual "(do (defprotocol Popt :extend-via-metadata true (plus2 [x])) (extend-protocol Popt Long (plus2 [n] (+ n 2))) (plus2 1))"} + {:suite "reader / anonymous fn #()" :label "no args" :expected "3" :actual "(#(+ 1 2))"} + {:suite "reader / anonymous fn #()" :label "one arg %" :expected "6" :actual "(#(* % 2) 3)"} + {:suite "reader / anonymous fn #()" :label "positional %1 %2" :expected "[1 2]" :actual "(#(do [%1 %2]) 1 2)"} + {:suite "reader / anonymous fn #()" :label "rest %&" :expected "[1 2 3]" :actual "(#(do %&) 1 2 3)"} + {:suite "reader / anonymous fn #()" :label "fixed + rest" :expected "[2 3]" :actual "(#(do % %&) 1 2 3)"} + {:suite "reader / anonymous fn #()" :label "%2 + rest" :expected "[3]" :actual "(#(do %2 %&) 1 2 3)"} + {:suite "reader / anonymous fn #()" :label "%2 only (placeholder p1)" :expected "20" :actual "(#(* %2 2) 1 10)"} + {:suite "reader / anonymous fn #()" :label "% and %1 same" :expected "10" :actual "(#(+ % %1) 5)"} + {:suite "reader / var-quote #'" :label "var-quote = var" :expected "true" :actual "(= (var str) #'str)"} + {:suite "reader / var-quote #'" :label "is a var" :expected "true" :actual "(var? #'str)"} + {:suite "reader / var-quote #'" :label "deref var-quote" :expected "5" :actual "(do (def w 5) (deref #'w))"} + {:suite "reader / metadata ^" :label "meta on map" :expected "true" :actual "(:foo (meta ^:foo {}))"} + {:suite "reader / metadata ^" :label "meta on vector" :expected "true" :actual "(:foo (meta ^:foo [1 2]))"} + {:suite "reader / metadata ^" :label "meta on set" :expected "true" :actual "(:foo (meta ^:foo #{}))"} + {:suite "reader / metadata ^" :label "meta map form" :expected "1" :actual "(:a (meta ^{:a 1} {}))"} + {:suite "reader / metadata ^" :label "meta on quoted sym" :expected "true" :actual "(:foo (meta (quote ^:foo bar)))"} + {:suite "reader / metadata ^" :label "with-meta map" :expected "true" :actual "(:k (meta (with-meta {} {:k true})))"} + {:suite "reader / metadata ^" :label "with-meta vector" :expected "true" :actual "(:k (meta (with-meta [] {:k true})))"} + {:suite "reader / metadata ^" :label "non-metadatable num" :expected "nil" :actual "(meta 100)"} + {:suite "reader / metadata ^" :label "non-metadatable str" :expected "nil" :actual "(meta \"\")"} + {:suite "reader / metadata ^" :label "non-metadatable bool" :expected "nil" :actual "(meta true)"} + {:suite "reader / syntax-quote" :label "plain literal" :expected "[1 2 3]" :actual "`[1 2 3]"} + {:suite "reader / syntax-quote" :label "gensym distinct" :expected "true" :actual "(not= `meow# `meow#)"} + {:suite "reader / syntax-quote" :label "gensym stable" :expected "true" :actual "(let [s `[meow# meow#]] (= (first s) (second s)))"} + {:suite "reader / syntax-quote" :label "qualifies unresolved" :expected "(quote user/foo)" :actual "`foo"} + {:suite "reader / syntax-quote" :label "qualifies core sym" :expected "(quote clojure.core/str)" :actual "`str"} + {:suite "reader / syntax-quote" :label "unquote value" :expected "[1 2 3]" :actual "(let [a [1 2 3]] `~a)"} + {:suite "reader / syntax-quote" :label "unquote in call" :expected "(quote (clojure.core/str [1 2 3]))" :actual "(let [a [1 2 3]] `(str ~a))"} + {:suite "reader / syntax-quote" :label "splice empty" :expected "(quote (clojure.core/str))" :actual "(let [e []] `(str ~@e))"} + {:suite "reader / syntax-quote" :label "splice values" :expected "(quote (clojure.core/str 1 2 3))" :actual "(let [a [1 2 3]] `(str ~@a))"} + {:suite "reader / syntax-quote" :label "splice in vector" :expected "[1 2 3 0 1 2 3]" :actual "(let [b [0] a [1 2 3] e []] `[~@e ~@a ~@b ~@a ~@e])"} + {:suite "reader / syntax-quote" :label "splice in set" :expected "#{0 1 3 2}" :actual "(let [b [0] a [1 2 3] e []] `#{~@e ~@a ~@b})"} + {:suite "reader / syntax-quote" :label "unquote in set" :expected "#{9 5}" :actual "(let [x 5] `#{~x 9})"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "discard simple" :expected "2" :actual "(do #_1 2)"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "discard in vector" :expected "[1 3]" :actual "[1 #_2 3]"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "discard stacks" :expected "3" :actual "(do #_ #_ 1 2 3)"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##Inf" :expected "true" :actual "(= ##Inf (/ 1.0 0.0))"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##-Inf" :expected "true" :actual "(= ##-Inf (/ -1.0 0.0))"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##NaN not self-equal" :expected "false" :actual "(= ##NaN ##NaN)"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "##NaN is NaN?" :expected "true" :actual "(NaN? ##NaN)"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "conditional :default reachable" :expected "2" :actual "#?(:no-such-dialect 1 :default 2)"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "var-quote qualified" :expected "true" :actual "(= (var clojure.core/str) #'clojure.core/str)"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "gensym stable in template" :expected "true" :actual "(let [syms `[meow# meow#]] (= (first syms) (second syms)))"} + {:suite "reader / discard, symbolic values, conditionals (spec 2.3)" :label "gensym fresh across templates" :expected "false" :actual "(= `meow# `meow#)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "string once" :expected "true" :actual "(= \"meow\" `\"meow\")"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "string nested" :expected "true" :actual "(= \"meow\" ``\"meow\")"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "string triple" :expected "true" :actual "(= \"meow\" ```\"meow\")"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "number nested" :expected "true" :actual "(= 42 ``42)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "keyword nested" :expected "true" :actual "(= :k ``:k)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "nil nested" :expected "false" :actual "(nil? ``nil)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "char nested" :expected "true" :actual "(= \\a ``\\a)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "bool nested" :expected "false" :actual "(= true ``true)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "symbol still qualifies" :expected "true" :actual "(= (quote clojure.core/map) `map)"} + {:suite "reader / syntax-quote literal collapse (spec 2.4 S25)" :label "vector still templates" :expected "true" :actual "(= [1 2] `[1 ~(inc 1)])"} + {:suite "reader / scalar literals" :label "integer" :expected "42" :actual "42"} + {:suite "reader / scalar literals" :label "negative" :expected "-7" :actual "-7"} + {:suite "reader / scalar literals" :label "float" :expected "1.5" :actual "1.5"} + {:suite "reader / scalar literals" :label "string" :expected "\"hi\"" :actual "\"hi\""} + {:suite "reader / scalar literals" :label "boolean true" :expected "true" :actual "true"} + {:suite "reader / scalar literals" :label "nil" :expected "nil" :actual "nil"} + {:suite "reader / scalar literals" :label "keyword" :expected ":a" :actual ":a"} + {:suite "reader / scalar literals" :label "namespaced keyword" :expected "true" :actual "(= :a/b :a/b)"} + {:suite "reader / scalar literals" :label "char" :expected "\\a" :actual "\\a"} + {:suite "reader / scalar literals" :label "char newline" :expected "true" :actual "(= \\newline (first \"\\n\"))"} + {:suite "reader / scalar literals" :label "char open-brace" :expected "123" :actual "(int \\{)"} + {:suite "reader / scalar literals" :label "char open-paren" :expected "40" :actual "(int \\()"} + {:suite "reader / scalar literals" :label "char comma" :expected "44" :actual "(int \\,)"} + {:suite "reader / scalar literals" :label "char percent" :expected "37" :actual "(int \\%)"} + {:suite "reader / scalar literals" :label "char unicode" :expected "65" :actual "(int \\u0041)"} + {:suite "reader / scalar literals" :label "hex literal" :expected "255" :actual "0xff"} + {:suite "reader / scalar literals" :label "hex uppercase" :expected "31" :actual "0X1F"} + {:suite "reader / scalar literals" :label "bigint suffix N" :expected "42N" :actual "42N"} + {:suite "reader / scalar literals" :label "bigdec suffix M" :expected "1.5M" :actual "1.5M"} + {:suite "reader / scalar literals" :label "ratio -> double" :expected "3/4" :actual "3/4"} + {:suite "reader / scalar literals" :label "radix integer" :expected "255" :actual "16rFF"} + {:suite "reader / scalar literals" :label "exponent" :expected "1500.0" :actual "1.5e3"} + {:suite "reader / scalar literals" :label "symbolic Infinity" :expected "true" :actual "(infinite? ##Inf)"} + {:suite "reader / scalar literals" :label "symbolic NaN" :expected "true" :actual "(NaN? ##NaN)"} + {:suite "reader / scalar literals" :label "symbol via quote" :expected "'foo" :actual "'foo"} + {:suite "reader / collection literals" :label "vector" :expected "[1 2 3]" :actual "[1 2 3]"} + {:suite "reader / collection literals" :label "list quoted" :expected "[1 2 3]" :actual "'(1 2 3)"} + {:suite "reader / collection literals" :label "map" :expected "{:a 1}" :actual "{:a 1}"} + {:suite "reader / collection literals" :label "set" :expected "#{1 3 2}" :actual "#{1 2 3}"} + {:suite "reader / collection literals" :label "nested" :expected "{:a [1 {:b 2}]}" :actual "{:a [1 {:b 2}]}"} + {:suite "reader / collection literals" :label "empty vector" :expected "[]" :actual "[]"} + {:suite "reader / collection literals" :label "empty map" :expected "{}" :actual "{}"} + {:suite "reader / collection literals" :label "empty set" :expected "#{}" :actual "#{}"} + {:suite "reader / dispatch & sugar" :label "anon fn #()" :expected "3" :actual "(#(+ %1 %2) 1 2)"} + {:suite "reader / dispatch & sugar" :label "anon fn single %" :expected "2" :actual "(#(inc %) 1)"} + {:suite "reader / dispatch & sugar" :label "anon fn %&" :expected "[2 3]" :actual "(#(vec %&) 2 3)"} + {:suite "reader / dispatch & sugar" :label "discard #_" :expected "[1 3]" :actual "[1 #_2 3]"} + {:suite "reader / dispatch & sugar" :label "regex literal" :expected "true" :actual "(= \"abc\" (re-find #\"abc\" \"xabcx\"))"} + {:suite "reader / dispatch & sugar" :label "reader conditional" :expected "1" :actual "#?(:clj 1 :cljs 2 :default 3)"} + {:suite "reader / dispatch & sugar" :label "reader cond :jolt" :expected "1" :actual "#?(:clj 1 :jolt 4 :default 3)"} + {:suite "reader / dispatch & sugar" :label "reader cond clause order" :expected "5" :actual "#?(:default 5 :jolt 6)"} + {:suite "reader / dispatch & sugar" :label "reader cond no match" :expected "[1]" :actual "[#?(:clj 1 :cljs 2)]"} + {:suite "reader / dispatch & sugar" :label "reader cond splice" :expected "[]" :actual "[#?@(:jolt [1 2 3] :cljs [4 5])]"} + {:suite "reader / dispatch & sugar" :label "reader cond splice no match" :expected "[1 2 3]" :actual "[#?@(:clj [1 2 3] :cljs [4 5])]"} + {:suite "reader / dispatch & sugar" :label "inst literal reads" :expected "true" :actual "(some? #inst \"2020-01-01T00:00:00Z\")"} + {:suite "reader / dispatch & sugar" :label "uuid literal" :expected "\"550e8400-e29b-41d4-a716-446655440000\"" :actual "(str #uuid \"550e8400-e29b-41d4-a716-446655440000\")"} + {:suite "reader / dispatch & sugar" :label "tagged literal var" :expected "true" :actual "(var? #'+)"} + {:suite "reader / dispatch & sugar" :label "deref sugar" :expected "5" :actual "(let [a (atom 5)] @a)"} + {:suite "reader / dispatch & sugar" :label "meta sugar" :expected "{:t 1}" :actual "(meta ^{:t 1} [])"} + {:suite "reader / comments inside maps" :label "comment in value slot" :expected "{:a 1}" :actual "{:a ; note\n 1}"} + {:suite "reader / comments inside maps" :label "comment before key" :expected "{:a 1}" :actual "{; lead\n :a 1}"} + {:suite "reader / comments inside maps" :label "comment between entries" :expected "{:a 1, :b 2}" :actual "{:a 1 ; mid\n :b 2}"} + {:suite "reader / comments inside maps" :label "discard in value slot" :expected "{:a 1}" :actual "{:a #_9 1}"} + {:suite "reader / comments inside maps" :label "comment with parens" :expected "{:a {:b 1}}" :actual "{:a ; dev (REPL, etc)\n {:b 1}}"} + {:suite "reader / comments inside maps" :label "nested with comments" :expected "{:x {:y 2}}" :actual "{:x ; outer\n {:y ; inner\n 2}}"} + {:suite "regex / literals & predicate" :label "regex? literal" :expected "true" :actual "(regex? #\"\\d+\")"} + {:suite "regex / literals & predicate" :label "regex? non-regex" :expected "false" :actual "(regex? \"\\d+\")"} + {:suite "regex / literals & predicate" :label "escaped digits" :expected "\"42\"" :actual "(re-find #\"\\d+\" \"x42y\")"} + {:suite "regex / literals & predicate" :label "escaped ws/non-ws" :expected "\"x a\"" :actual "(re-find #\"\\S\\s\\S\" \"x a b y\")"} + {:suite "regex / re-find" :label "match" :expected "\"123\"" :actual "(re-find #\"\\d+\" \"abc123def\")"} + {:suite "regex / re-find" :label "no match nil" :expected "nil" :actual "(re-find #\"\\d+\" \"abc\")"} + {:suite "regex / re-find" :label "with groups" :expected "[\"a1\" \"a\" \"1\"]" :actual "(re-find #\"([a-z])(\\d)\" \"--a1--\")"} + {:suite "regex / re-find" :label "first match only" :expected "\"1\"" :actual "(re-find #\"\\d\" \"1 2 3\")"} + {:suite "regex / re-matches" :label "full match" :expected "\"123\"" :actual "(re-matches #\"\\d+\" \"123\")"} + {:suite "regex / re-matches" :label "partial = nil" :expected "nil" :actual "(re-matches #\"\\d+\" \"123abc\")"} + {:suite "regex / re-matches" :label "groups" :expected "[\"12\" \"1\" \"2\"]" :actual "(re-matches #\"(\\d)(\\d)\" \"12\")"} + {:suite "regex / re-matches" :label "no match nil" :expected "nil" :actual "(re-matches #\"x+\" \"yyy\")"} + {:suite "regex / re-seq" :label "all matches" :expected "[\"1\" \"22\" \"333\"]" :actual "(re-seq #\"\\d+\" \"a1b22c333\")"} + {:suite "regex / re-seq" :label "empty when none" :expected "nil" :actual "(seq (re-seq #\"z\" \"abc\"))"} + {:suite "regex / re-seq" :label "words" :expected "[\"foo\" \"bar\"]" :actual "(re-seq #\"\\w+\" \"foo bar\")"} + {:suite "regex / char-class dash" :label "dash after \\w is literal" :expected "\"a_b-c\"" :actual "(re-matches #\"[\\w-_]+\" \"a_b-c\")"} + {:suite "regex / char-class dash" :label "dash + escaped dot in class" :expected "\"a.b_c-d\"" :actual "(re-matches #\"[\\w-_\\.]+\" \"a.b_c-d\")"} + {:suite "regex / char-class dash" :label "trailing dash in class" :expected "[\"a-b\" \"c-d\"]" :actual "(vec (re-seq #\"[\\w-]+\" \"a-b c-d\"))"} + {:suite "regex / nested quantifier" :label "(X+)* parses and matches" :expected "true" :actual "(boolean (re-matches #\"([^%]+)*(%(d))?\" \"abc\"))"} + {:suite "regex / matcher" :label "re-find over a matcher" :expected "\"1\"" :actual "(re-find (re-matcher #\"\\d+\" \"a1b22\"))"} + {:suite "regex / matcher" :label "stateful step + re-groups" :expected "[[\"12-34\" \"12\" \"34\"] [\"12-34\" \"12\" \"34\"] [\"56-78\" \"56\" \"78\"] nil]" :actual "(let [m (re-matcher #\"(\\d+)-(\\d+)\" \"12-34 56-78\")] [(re-find m) (re-groups m) (re-find m) (re-find m)])"} + {:suite "regex / matcher" :label "re-groups before a match throws" :expected :throws :actual "(re-groups (re-matcher #\"\\d\" \"abc\"))"} + {:suite "dynamic vars / portable defaults" :label "default reads" :expected "[true false true false]" :actual "[*read-eval* *print-dup* *flush-on-newline* *compile-files*]"} + {:suite "dynamic vars / portable defaults" :label "binding *read-eval*" :expected "false" :actual "(binding [*read-eval* false] *read-eval*)"} + {:suite "special forms / letfn" :label "mutual recursion" :expected "true" :actual "(letfn [(e? [n] (if (zero? n) true (o? (dec n)))) (o? [n] (if (zero? n) false (e? (dec n))))] (e? 10))"} + {:suite "core vars / present and callable" :label "*out* *err* *warn-on-reflection* await restart-agent" :expected "[true true false true true]" :actual "[(boolean *out*) (boolean *err*) *warn-on-reflection* (ifn? await) (ifn? restart-agent)]"} + {:suite "exceptions / runtime error classes" :label "arity error is ArityException" :expected "true" :actual "(instance? clojure.lang.ArityException (try ((fn [a b] a) 1) (catch Throwable e e)))"} + {:suite "exceptions / runtime error classes" :label "ArityException is an IllegalArgumentException" :expected "true" :actual "(instance? IllegalArgumentException (try ((fn [a b] a) 1) (catch Throwable e e)))"} + {:suite "exceptions / runtime error classes" :label "non-seqable is IllegalArgumentException" :expected "true" :actual "(instance? IllegalArgumentException (try (doall (mapcat identity 0)) (catch Throwable e e)))"} + {:suite "dynamic vars / portable defaults" :label "*data-readers* map, *math-context* nil" :expected "[true true]" :actual "[(map? *data-readers*) (nil? *math-context*)]"} + {:suite "regex / re-pattern & string ops" :label "re-pattern build" :expected "\"hi\"" :actual "(re-find (re-pattern \"\\\\w+\") \"hi!\")"} + {:suite "regex / re-pattern & string ops" :label "re-pattern is regex?" :expected "true" :actual "(regex? (re-pattern \"a\"))"} + {:suite "regex / re-pattern & string ops" :label "split on regex" :expected "[\"a\" \"b\" \"c\"]" :actual "(do (require '[clojure.string :as s]) (s/split \"a1b2c\" #\"\\d\"))"} + {:suite "regex / re-pattern & string ops" :label "replace regex" :expected "\"X-X\"" :actual "(do (require '[clojure.string :as s]) (s/replace \"a-b\" #\"[a-z]\" \"X\"))"} + {:suite "regex / re-pattern & string ops" :label "replace $1" :expected "\"[a][b]\"" :actual "(do (require '[clojure.string :as s]) (s/replace \"ab\" #\"([a-z])\" \"[$1]\"))"} + {:suite "regex / \\p property classes" :label "p{L} ascii" :expected "\"hello\"" :actual "(re-matches #\"^\\p{L}+$\" \"hello\")"} + {:suite "regex / \\p property classes" :label "p{L} utf-8" :expected "true" :actual "(boolean (re-matches #\"^\\p{L}+$\" \"héllo\"))"} + {:suite "regex / \\p property classes" :label "p{L} rejects digits" :expected "false" :actual "(boolean (re-matches #\"^\\p{L}+$\" \"ab1\"))"} + {:suite "regex / \\p property classes" :label "p{N}" :expected "[\"12\" \"345\"]" :actual "(re-seq #\"\\p{N}+\" \"a12b345\")"} + {:suite "regex / \\p property classes" :label "P{N} negation" :expected "\"abc\"" :actual "(re-matches #\"^\\P{N}+$\" \"abc\")"} + {:suite "regex / \\p property classes" :label "inside class" :expected "\"a-1_b\"" :actual "(re-matches #\"^[\\p{N}\\p{L}_-]+$\" \"a-1_b\")"} + {:suite "regex / \\p property classes" :label "p{Lu}/p{Ll}" :expected "\"aB\"" :actual "(re-matches #\"^\\p{Ll}\\p{Lu}$\" \"aB\")"} + {:suite "regex / \\p property classes" :label "p{Z} space" :expected "\" \"" :actual "(re-matches #\"(?u)^[\\s\\p{Z}]+$\" \" \")"} + {:suite "regex / \\p property classes" :label "p{Ps}/p{Pe}" :expected "\"(x)\"" :actual "(re-matches #\"^\\p{Ps}x\\p{Pe}$\" \"(x)\")"} + {:suite "regex / \\p property classes" :label "(?u) accepted" :expected "\"hi\"" :actual "(re-matches #\"(?u)^hi$\" \"hi\")"} + {:suite "regex / \\p property classes" :label "unknown class throws" :expected :throws :actual "(re-pattern \"\\p{Greek}\")"} + {:suite "regex / Pattern statics & String regex methods" :label "Pattern/compile is a regex" :expected "true" :actual "(regex? (Pattern/compile \"a.c\"))"} + {:suite "regex / Pattern statics & String regex methods" :label "compiled .split" :expected "[\"a\" \"b\" \"c\"]" :actual "(.split (Pattern/compile \",\") \"a,b,c\")"} + {:suite "regex / Pattern statics & String regex methods" :label "str/replace w/ Pattern" :expected "\"ab\"" :actual "(do (require '[clojure.string :as s]) (s/replace \"a1b2\" (Pattern/compile \"[0-9]\") \"\"))"} + {:suite "regex / Pattern statics & String regex methods" :label "Pattern/MULTILINE ^" :expected "true" :actual "(boolean (re-find (Pattern/compile \"^x\" Pattern/MULTILINE) \"y\\nx\"))"} + {:suite "regex / Pattern statics & String regex methods" :label "Pattern/quote literal" :expected "true" :actual "(boolean (re-find (re-pattern (Pattern/quote \"a.c\")) \"za.cy\"))"} + {:suite "regex / Pattern statics & String regex methods" :label "Pattern/quote not meta" :expected "false" :actual "(boolean (re-find (re-pattern (Pattern/quote \"a.c\")) \"zabcy\"))"} + {:suite "regex / Pattern statics & String regex methods" :label ".matches whole string" :expected "true" :actual "(.matches \"abc\" \"a.c\")"} + {:suite "regex / Pattern statics & String regex methods" :label ".matches partial -> false" :expected "false" :actual "(.matches \"abcd\" \"a.c\")"} + {:suite "regex / Pattern statics & String regex methods" :label ".replaceAll regex" :expected "\"a-b-c\"" :actual "(.replaceAll \"a_b_c\" \"_\" \"-\")"} + {:suite "regex / Pattern statics & String regex methods" :label ".replaceFirst regex" :expected "\"a-b_c\"" :actual "(.replaceFirst \"a_b_c\" \"_\" \"-\")"} + {:suite "regex / bounded quantifiers" :label "exact {n}" :expected "\"aaa\"" :actual "(re-matches #\"a{3}\" \"aaa\")"} + {:suite "regex / bounded quantifiers" :label "range {n,m} max" :expected "\"aaaa\"" :actual "(re-find #\"a{2,4}\" \"aaaaa\")"} + {:suite "regex / bounded quantifiers" :label "zero lower {0,n}" :expected "\"aa\"" :actual "(re-find #\"a{0,3}\" \"aa\")"} + {:suite "regex / bounded quantifiers" :label "{n,} unbounded" :expected "\"aaaa\"" :actual "(re-find #\"a{2,}\" \"aaaa\")"} + {:suite "regex / bounded quantifiers" :label "nested bounds compile" :expected "true" :actual "(boolean (re-matches #\"[a-z](?:[a-z]{0,61}[a-z])?(?:-[a-z]{0,61}[a-z])*\" \"abc-def\"))"} + {:suite "regex / backreferences" :label "repeated char" :expected "true" :actual "(boolean (re-find #\"(.)\\1\" \"abba\"))"} + {:suite "regex / backreferences" :label "no repeat = nil" :expected "nil" :actual "(re-find #\"(.)\\1\" \"abc\")"} + {:suite "regex / backreferences" :label "thematic-break run" :expected "true" :actual "(boolean (re-matches #\"([-*_])\\1\\1\" \"---\"))"} + {:suite "regex / backreferences" :label "mismatched run" :expected "nil" :actual "(re-matches #\"([-*_])\\1\\1\" \"-*_\")"} + {:suite "regex / backreferences" :label "repeated word" :expected "[\"the the\" \"the\"]" :actual "(re-find #\"(\\w+) \\1\" \"say the the word\")"} + {:suite "regex / backreferences" :label "group still captures" :expected "[\"x=x\" \"x\"]" :actual "(re-matches #\"(\\w+)=\\1\" \"x=x\")"} + {:suite "regex / backreferences" :label "html tag pair" :expected "true" :actual "(boolean (re-matches #\"<(\\w+)>.*\" \"hi\"))"} + {:suite "seq / access" :label "first of vector" :expected "1" :actual "(first [1 2 3])"} + {:suite "seq / access" :label "first of list" :expected "1" :actual "(first (list 1 2 3))"} + {:suite "seq / access" :label "first of empty is nil" :expected "nil" :actual "(first [])"} + {:suite "seq / access" :label "first of nil is nil" :expected "nil" :actual "(first nil)"} + {:suite "seq / access" :label "second" :expected "2" :actual "(second [1 2 3])"} + {:suite "seq / access" :label "last" :expected "3" :actual "(last [1 2 3])"} + {:suite "seq / access" :label "rest of vector" :expected "[2 3]" :actual "(rest [1 2 3])"} + {:suite "seq / access" :label "rest of single" :expected "[]" :actual "(rest [1])"} + {:suite "seq / access" :label "rest of empty" :expected "[]" :actual "(rest [])"} + {:suite "seq / access" :label "next of single is nil" :expected "nil" :actual "(next [1])"} + {:suite "seq / access" :label "next of empty is nil" :expected "nil" :actual "(next [])"} + {:suite "seq / access" :label "nth" :expected "30" :actual "(nth [10 20 30] 2)"} + {:suite "seq / access" :label "nth with default" :expected "99" :actual "(nth [10] 5 99)"} + {:suite "seq / access" :label "nth out of range" :expected :throws :actual "(nth [10] 5)"} + {:suite "seq / access" :label "ffirst" :expected "1" :actual "(ffirst [[1 2] [3 4]])"} + {:suite "seq / access" :label "fnext" :expected "2" :actual "(fnext [1 2 3])"} + {:suite "seq / access" :label "nnext" :expected "[3 4]" :actual "(nnext [1 2 3 4])"} + {:suite "seq / construction" :label "cons onto list" :expected "[0 1 2]" :actual "(cons 0 (list 1 2))"} + {:suite "seq / construction" :label "cons onto vector" :expected "[0 1 2]" :actual "(cons 0 [1 2])"} + {:suite "seq / construction" :label "cons onto nil" :expected "[0]" :actual "(cons 0 nil)"} + {:suite "seq / construction" :label "conj vector appends" :expected "[1 2 3]" :actual "(conj [1 2] 3)"} + {:suite "seq / construction" :label "conj list prepends" :expected "[0 1 2]" :actual "(conj (list 1 2) 0)"} + {:suite "seq / construction" :label "conj multiple on vec" :expected "[1 2 3 4]" :actual "(conj [1 2] 3 4)"} + {:suite "seq / construction" :label "conj multiple on list" :expected "[4 3 1 2]" :actual "(conj (list 1 2) 3 4)"} + {:suite "seq / construction" :label "seq of empty is nil" :expected "nil" :actual "(seq [])"} + {:suite "seq / construction" :label "seq of nil is nil" :expected "nil" :actual "(seq nil)"} + {:suite "seq / construction" :label "seq of string" :expected "[\\a \\b]" :actual "(seq \"ab\")"} + {:suite "seq / construction" :label "empty?" :expected "true" :actual "(empty? [])"} + {:suite "seq / construction" :label "not empty?" :expected "false" :actual "(empty? [1])"} + {:suite "seq / construction" :label "count" :expected "3" :actual "(count [1 2 3])"} + {:suite "seq / construction" :label "count of nil" :expected "0" :actual "(count nil)"} + {:suite "seq / construction" :label "count of string" :expected "3" :actual "(count \"abc\")"} + {:suite "seq / map filter reduce" :label "map" :expected "[2 3 4]" :actual "(map inc [1 2 3])"} + {:suite "seq / map filter reduce" :label "map two colls" :expected "[5 7 9]" :actual "(map + [1 2 3] [4 5 6])"} + {:suite "seq / map filter reduce" :label "map stops at shortest" :expected "[5 7]" :actual "(map + [1 2] [4 5 6])"} + {:suite "seq / map filter reduce" :label "map keeps nil elements" :expected "[[1 :a] [nil :b] [3 nil]]" :actual "(map vector [1 nil 3] [:a :b nil])"} + {:suite "seq / map filter reduce" :label "map 3 colls" :expected "[12 15 18]" :actual "(map + [1 2 3] [4 5 6] [7 8 9])"} + {:suite "seq / map filter reduce" :label "map 3 colls shortest" :expected "[12 15]" :actual "(map + [1 2] [4 5 6] [7 8 9])"} + {:suite "seq / map filter reduce" :label "map 4 colls" :expected "[16 20]" :actual "(map + [1 2] [3 4] [5 6] [7 8])"} + {:suite "seq / map filter reduce" :label "map 3 colls nils" :expected "[[1 :a 10] [nil :b 20] [3 nil 30]]" :actual "(map vector [1 nil 3] [:a :b nil] [10 20 30])"} + {:suite "seq / map filter reduce" :label "map empty coll" :expected "[]" :actual "(map + [] [1 2 3] [4 5 6])"} + {:suite "seq / map filter reduce" :label "map lazy+concrete" :expected "[11 22 33]" :actual "(map + (map identity [1 2 3]) [10 20 30])"} + {:suite "seq / map filter reduce" :label "map-indexed" :expected "[[0 :a] [1 :b]]" :actual "(map-indexed vector [:a :b])"} + {:suite "seq / map filter reduce" :label "mapv" :expected "[2 3 4]" :actual "(mapv inc [1 2 3])"} + {:suite "seq / map filter reduce" :label "filter" :expected "[2 4]" :actual "(filter even? [1 2 3 4])"} + {:suite "seq / map filter reduce" :label "filterv" :expected "[2 4]" :actual "(filterv even? [1 2 3 4])"} + {:suite "seq / map filter reduce" :label "remove" :expected "[1 3]" :actual "(remove even? [1 2 3 4])"} + {:suite "seq / map filter reduce" :label "reduce" :expected "10" :actual "(reduce + [1 2 3 4])"} + {:suite "seq / map filter reduce" :label "reduce with init" :expected "20" :actual "(reduce + 10 [1 2 3 4])"} + {:suite "seq / map filter reduce" :label "reduce empty with init" :expected "0" :actual "(reduce + 0 [])"} + {:suite "seq / map filter reduce" :label "reduce single no init" :expected "5" :actual "(reduce + [5])"} + {:suite "seq / map filter reduce" :label "reduced short-circuits" :expected "3" :actual "(reduce (fn [a x] (if (> a 2) (reduced a) (+ a x))) 0 [1 2 3 4 5])"} + {:suite "seq / map filter reduce" :label "reduce-kv" :expected "6" :actual "(reduce-kv (fn [a k v] (+ a v)) 0 {:a 1 :b 2 :c 3})"} + {:suite "seq / map filter reduce" :label "reduce-kv on vector" :expected "[[0 :a] [1 :b]]" :actual "(reduce-kv (fn [a i v] (conj a [i v])) [] [:a :b])"} + {:suite "seq / map filter reduce" :label "reduce-kv honors reduced" :expected "[:a]" :actual "(reduce-kv (fn [a i v] (if (= i 1) (reduced a) (conj a v))) [] [:a :b :c])"} + {:suite "seq / map filter reduce" :label "reduce-kv on nil" :expected "0" :actual "(reduce-kv (fn [a k v] (+ a v)) 0 nil)"} + {:suite "seq / map filter reduce" :label "reductions" :expected "[1 3 6]" :actual "(reductions + [1 2 3])"} + {:suite "seq / map filter reduce" :label "mapcat" :expected "[1 1 2 2]" :actual "(mapcat (fn [x] [x x]) [1 2])"} + {:suite "seq / map filter reduce" :label "mapcat two colls" :expected "[1 3 2 4]" :actual "(mapcat vector [1 2] [3 4])"} + {:suite "seq / map filter reduce" :label "mapcat three colls" :expected "[1 2 3]" :actual "(mapcat vector [1] [2] [3])"} + {:suite "seq / map filter reduce" :label "mapcat empty coll" :expected "[]" :actual "(mapcat vector [] [1 2] [3 4])"} + {:suite "seq / map filter reduce" :label "mapcat seqs" :expected "[1 2 3 4]" :actual "(mapcat identity [[1 2] [3 4]])"} + {:suite "seq / lazy over infinite" :label "mapcat is lazy over an infinite source" :expected "[1 2 1 2]" :actual "(take 4 (mapcat identity (repeat [1 2])))"} + {:suite "seq / lazy over infinite" :label "mapcat single coll lazy" :expected "[0 1 2]" :actual "(take 3 (mapcat vector (range)))"} + {:suite "seq / lazy over infinite" :label "apply concat lazy over infinite" :expected "[1 1 1]" :actual "(take 3 (apply concat (repeat [1])))"} + {:suite "seq / lazy over infinite" :label "apply concat fixed + infinite tail" :expected "[9 0 0 0 0]" :actual "(take 5 (apply concat [9] (repeat [0])))"} + {:suite "seq / lazy over infinite" :label "sequence is lazy over an infinite source" :expected "[1 2 3]" :actual "(take 3 (sequence (map inc) (range)))"} + {:suite "seq / lazy over infinite" :label "sequence first of infinite" :expected "2" :actual "(first (sequence (map inc) (range 1 100000000000)))"} + {:suite "seq / lazy over infinite" :label "sequence stateful xform lazy" :expected "[[0 1] [2 3]]" :actual "(take 2 (sequence (partition-all 2) (range)))"} + {:suite "seq / lazy over infinite" :label "sequence value + completion flush" :expected "[[0 1] [2 3] [4]]" :actual "(sequence (partition-all 2) (range 5))"} + {:suite "seq / lazy over infinite" :label "sequence empty stays a seq" :expected "true" :actual "(seq? (sequence (filter even?) [1 3 5]))"} + {:suite "seq / lazy over infinite" :label "sequence empty prints as empty" :expected "()" :actual "(sequence (filter even?) [1 3 5])"} + {:suite "seq / lazy over infinite" :label "eduction is lazy over infinite" :expected "1" :actual "(first (eduction (map inc) (range)))"} + {:suite "seq / lazy over infinite" :label "eduction reduces" :expected "9" :actual "(reduce + (eduction (filter odd?) [1 2 3 4 5]))"} + {:suite "seq / lazy over infinite" :label "eduction into" :expected "[2 3 4]" :actual "(into [] (eduction (map inc) [1 2 3]))"} + {:suite "seq / lazy over infinite" :label "eduction multiple xforms compose left-to-right" :expected "[2 4]" :actual "(into [] (eduction (filter odd?) (map inc) [1 2 3 4]))"} + {:suite "seq / map filter reduce" :label "keep" :expected "[1 3]" :actual "(keep (fn [x] (if (odd? x) x nil)) [1 2 3 4])"} + {:suite "seq / map filter reduce" :label "some truthy" :expected "true" :actual "(some even? [1 2 3])"} + {:suite "seq / map filter reduce" :label "some nil" :expected "nil" :actual "(some even? [1 3 5])"} + {:suite "seq / map filter reduce" :label "every? true" :expected "true" :actual "(every? pos? [1 2 3])"} + {:suite "seq / map filter reduce" :label "every? false" :expected "false" :actual "(every? pos? [1 -2 3])"} + {:suite "seq / take drop slice" :label "take" :expected "[1 2 3]" :actual "(take 3 [1 2 3 4 5])"} + {:suite "seq / take drop slice" :label "take more than size" :expected "[1 2]" :actual "(take 5 [1 2])"} + {:suite "seq / take drop slice" :label "drop" :expected "[4 5]" :actual "(drop 3 [1 2 3 4 5])"} + {:suite "seq / take drop slice" :label "take-while" :expected "[1 2]" :actual "(take-while (fn [x] (< x 3)) [1 2 3 1])"} + {:suite "seq / take drop slice" :label "drop-while" :expected "[3 1]" :actual "(drop-while (fn [x] (< x 3)) [1 2 3 1])"} + {:suite "seq / take drop slice" :label "take-last" :expected "[4 5]" :actual "(take-last 2 [1 2 3 4 5])"} + {:suite "seq / take drop slice" :label "drop-last" :expected "[1 2 3]" :actual "(drop-last [1 2 3 4])"} + {:suite "seq / take drop slice" :label "take-nth" :expected "[1 3 5]" :actual "(take-nth 2 [1 2 3 4 5])"} + {:suite "seq / take drop slice" :label "partition" :expected "[[1 2] [3 4]]" :actual "(partition 2 [1 2 3 4 5])"} + {:suite "seq / take drop slice" :label "partition-all" :expected "[[1 2] [3]]" :actual "(partition-all 2 [1 2 3])"} + {:suite "seq / take drop slice" :label "partition elems are seqs" :expected "true" :actual "(every? seq? (partition 2 [1 2 3 4]))"} + {:suite "seq / take drop slice" :label "partition-all elems are seqs not vectors" :expected "true" :actual "(every? seq? (partition-all 2 (range 5)))"} + {:suite "seq / take drop slice" :label "partition-all elem is not a vector" :expected "false" :actual "(vector? (first (partition-all 2 [1 2 3])))"} + {:suite "seq / take drop slice" :label "partition-all [n step coll] elems are seqs" :expected "true" :actual "(every? seq? (partition-all 2 2 [1 2 3 4]))"} + {:suite "seq / take drop slice" :label "partition-by elems are seqs" :expected "true" :actual "(every? seq? (partition-by odd? [1 3 2 4]))"} + {:suite "seq / take drop slice" :label "split-at" :expected "[[1 2] [3 4]]" :actual "(split-at 2 [1 2 3 4])"} + {:suite "seq / transform" :label "reverse" :expected "[3 2 1]" :actual "(reverse [1 2 3])"} + {:suite "seq / transform" :label "sort" :expected "[1 2 3]" :actual "(sort [3 1 2])"} + {:suite "seq / transform" :label "sort with comparator" :expected "[3 2 1]" :actual "(sort > [1 3 2])"} + {:suite "seq / transform" :label "sort-by" :expected "[[1] [2 2]]" :actual "(sort-by count [[2 2] [1]])"} + {:suite "seq / transform" :label "distinct" :expected "[1 2 3]" :actual "(distinct [1 1 2 3 3])"} + {:suite "seq / transform" :label "dedupe" :expected "[1 2 1]" :actual "(dedupe [1 1 2 1])"} + {:suite "seq / transform" :label "interpose" :expected "[1 0 2 0 3]" :actual "(interpose 0 [1 2 3])"} + {:suite "seq / transform" :label "interleave" :expected "[1 :a 2 :b]" :actual "(interleave [1 2] [:a :b])"} + {:suite "seq / transform" :label "flatten" :expected "[1 2 3 4]" :actual "(flatten [1 [2 [3 [4]]]])"} + {:suite "seq / transform" :label "concat" :expected "[1 2 3 4]" :actual "(concat [1 2] [3 4])"} + {:suite "seq / transform" :label "into vector" :expected "[1 2 3 4]" :actual "(into [1 2] [3 4])"} + {:suite "seq / transform" :label "into list" :expected "[3 2 1]" :actual "(into (list) [1 2 3])"} + {:suite "seq / transform" :label "frequencies" :expected "{1 2, 2 1}" :actual "(frequencies [1 1 2])"} + {:suite "seq / transform" :label "group-by" :expected "{false [1 3], true [2 4]}" :actual "(group-by even? [1 2 3 4])"} + {:suite "seq / transform" :label "zipmap" :expected "{:a 1, :b 2}" :actual "(zipmap [:a :b] [1 2])"} + {:suite "seq / transform" :label "mapcat seqs" :expected "[1 2 3 4]" :actual "(mapcat identity [[1 2] [3 4]])"} + {:suite "seq / generators" :label "range n" :expected "[0 1 2 3]" :actual "(range 4)"} + {:suite "seq / generators" :label "range from to" :expected "[2 3 4]" :actual "(range 2 5)"} + {:suite "seq / generators" :label "range with step" :expected "[0 2 4]" :actual "(range 0 6 2)"} + {:suite "seq / generators" :label "take repeat" :expected "[:x :x :x]" :actual "(take 3 (repeat :x))"} + {:suite "seq / generators" :label "repeat n" :expected "[5 5]" :actual "(repeat 2 5)"} + {:suite "seq / generators" :label "take iterate" :expected "[1 2 4 8]" :actual "(take 4 (iterate (fn [x] (* x 2)) 1))"} + {:suite "seq / generators" :label "take cycle" :expected "[1 2 1 2 1]" :actual "(take 5 (cycle [1 2]))"} + {:suite "seq / generators" :label "take repeatedly" :expected "3" :actual "(count (take 3 (repeatedly (fn [] 1))))"} + {:suite "seq / generators" :label "take-last of range" :expected "[8 9]" :actual "(take-last 2 (range 10))"} + {:suite "seq / IFn values as functions" :label "map keyword" :expected "[1 2 3]" :actual "(map :a [{:a 1} {:a 2} {:a 3}])"} + {:suite "seq / IFn values as functions" :label "filter keyword" :expected "[{:ok true}]" :actual "(filter :ok [{:ok true} {:ok false}])"} + {:suite "seq / IFn values as functions" :label "remove keyword" :expected "[{:ok false}]" :actual "(remove :ok [{:ok true} {:ok false}])"} + {:suite "seq / IFn values as functions" :label "sort-by keyword" :expected "[{:a 1} {:a 2} {:a 3}]" :actual "(sort-by :a [{:a 3} {:a 1} {:a 2}])"} + {:suite "seq / IFn values as functions" :label "sort-by key + cmp" :expected "[{:a 3} {:a 2} {:a 1}]" :actual "(sort-by :a > [{:a 3} {:a 1} {:a 2}])"} + {:suite "seq / IFn values as functions" :label "filter set" :expected "[2 4]" :actual "(filter #{2 4} [1 2 3 4 5])"} + {:suite "seq / IFn values as functions" :label "remove set" :expected "[1 3 5]" :actual "(remove #{2 4} [1 2 3 4 5])"} + {:suite "seq / IFn values as functions" :label "group-by keyword" :expected "{1 [{:n 1}], 2 [{:n 2}]}" :actual "(group-by :n [{:n 1} {:n 2}])"} + {:suite "seq / IFn values as functions" :label "map a map" :expected "[1 nil 2]" :actual "(map {:a 1 :b 2} [:a :z :b])"} + {:suite "seq / IFn values as functions" :label "take-nth transducer" :expected "[0 2 4 6 8]" :actual "(into [] (take-nth 2) (range 10))"} + {:suite "seq / IFn values as functions" :label "interpose transducer" :expected "[1 :x 2]" :actual "(into [] (interpose :x) [1 2])"} + {:suite "seq / conj edge cases" :label "conj no args" :expected "[]" :actual "(conj)"} + {:suite "seq / conj edge cases" :label "conj nil one" :expected "[3]" :actual "(conj nil 3)"} + {:suite "seq / conj edge cases" :label "conj nil many" :expected "[2 1]" :actual "(conj nil 1 2)"} + {:suite "seq / conj edge cases" :label "conj vector" :expected "[1 2 3]" :actual "(conj [1 2] 3)"} + {:suite "seq / conj edge cases" :label "conj list prepend" :expected "[0 1 2]" :actual "(conj '(1 2) 0)"} + {:suite "seq / conj edge cases" :label "conj map + map" :expected "{:a 0, :b 1}" :actual "(conj {:a 0} {:b 1})"} + {:suite "seq / conj edge cases" :label "conj map + pair" :expected "{:a 0, :b 1}" :actual "(conj {:a 0} [:b 1])"} + {:suite "seq / conj edge cases" :label "conj map merge wins" :expected "{:a 2}" :actual "(conj {:a 0} {:a 1} {:a 2})"} + {:suite "seq / strictness (throws like Clojure)" :label "cons non-seqable num" :expected :throws :actual "(cons 1 42)"} + {:suite "seq / strictness (throws like Clojure)" :label "cons non-seqable kw" :expected :throws :actual "(cons 1 :k)"} + {:suite "seq / strictness (throws like Clojure)" :label "cons onto nil ok" :expected "[1]" :actual "(cons 1 nil)"} + {:suite "seq / strictness (throws like Clojure)" :label "cons onto seq ok" :expected "[0 1 2]" :actual "(cons 0 [1 2])"} + {:suite "seq / strictness (throws like Clojure)" :label "num non-number" :expected :throws :actual "(num \"x\")"} + {:suite "seq / strictness (throws like Clojure)" :label "num ok" :expected "5" :actual "(num 5)"} + {:suite "seq / strictness (throws like Clojure)" :label "realized? on number" :expected :throws :actual "(realized? 1)"} + {:suite "seq / strictness (throws like Clojure)" :label "realized? on nil" :expected :throws :actual "(realized? nil)"} + {:suite "seq / strictness (throws like Clojure)" :label "symbol from nil" :expected :throws :actual "(symbol nil)"} + {:suite "seq / strictness (throws like Clojure)" :label "symbol bad 2-arg" :expected :throws :actual "(symbol :a \"b\")"} + {:suite "seq / strictness (throws like Clojure)" :label "symbol from keyword" :expected "\"x\"" :actual "(name (symbol :x))"} + {:suite "seq / strictness (throws like Clojure)" :label "keyword bad 2-arg" :expected :throws :actual "(keyword \"abc\" nil)"} + {:suite "seq / strictness (throws like Clojure)" :label "keyword from symbol" :expected "\"x\"" :actual "(name (keyword 'x))"} + {:suite "seq / accessor strictness" :label "peek vector" :expected "3" :actual "(peek [1 2 3])"} + {:suite "seq / accessor strictness" :label "peek list" :expected "1" :actual "(peek '(1 2 3))"} + {:suite "seq / accessor strictness" :label "peek empty vec" :expected "nil" :actual "(peek [])"} + {:suite "seq / accessor strictness" :label "peek on set" :expected :throws :actual "(peek #{1 2})"} + {:suite "seq / accessor strictness" :label "peek on number" :expected :throws :actual "(peek 42)"} + {:suite "seq / accessor strictness" :label "pop empty vec" :expected :throws :actual "(pop [])"} + {:suite "seq / accessor strictness" :label "pop on number" :expected :throws :actual "(pop 0)"} + {:suite "seq / accessor strictness" :label "pop vector" :expected "[1 2]" :actual "(pop [1 2 3])"} + {:suite "seq / accessor strictness" :label "vec on number" :expected :throws :actual "(vec 42)"} + {:suite "seq / accessor strictness" :label "vec on keyword" :expected :throws :actual "(vec :a)"} + {:suite "seq / accessor strictness" :label "vec ok" :expected "[1 2]" :actual "(vec '(1 2))"} + {:suite "seq / accessor strictness" :label "key on nil" :expected :throws :actual "(key nil)"} + {:suite "seq / accessor strictness" :label "key on map" :expected :throws :actual "(key {})"} + {:suite "seq / accessor strictness" :label "val on number" :expected :throws :actual "(val 0)"} + {:suite "seq / accessor strictness" :label "key of entry" :expected ":a" :actual "(key (first {:a 1}))"} + {:suite "seq / accessor strictness" :label "val of entry" :expected "1" :actual "(val (first {:a 1}))"} + {:suite "seq / more strictness" :label "first on number" :expected :throws :actual "(first 42)"} + {:suite "seq / more strictness" :label "first on keyword" :expected :throws :actual "(first :a)"} + {:suite "seq / more strictness" :label "first ok vec" :expected "1" :actual "(first [1 2])"} + {:suite "seq / more strictness" :label "first ok nil" :expected "nil" :actual "(first nil)"} + {:suite "seq / more strictness" :label "rseq vector" :expected "[3 2 1]" :actual "(rseq [1 2 3])"} + {:suite "seq / more strictness" :label "rseq on string" :expected :throws :actual "(rseq \"ab\")"} + {:suite "seq / more strictness" :label "rseq on map" :expected :throws :actual "(rseq {:a 1})"} + {:suite "seq / more strictness" :label "rseq on number" :expected :throws :actual "(rseq 0)"} + {:suite "seq / more strictness" :label "assoc odd args" :expected :throws :actual "(assoc {:a 1} :b)"} + {:suite "seq / more strictness" :label "assoc on number" :expected :throws :actual "(assoc 5 :a 1)"} + {:suite "seq / more strictness" :label "assoc on set" :expected :throws :actual "(assoc #{} :a 1)"} + {:suite "seq / strictness round 3" :label "seq on number" :expected :throws :actual "(seq 1)"} + {:suite "seq / strictness round 3" :label "seq on fn" :expected :throws :actual "(seq (fn [] 1))"} + {:suite "seq / strictness round 3" :label "seq vector ok" :expected "[1 2]" :actual "(seq [1 2])"} + {:suite "seq / strictness round 3" :label "NaN? on nil" :expected :throws :actual "(NaN? nil)"} + {:suite "seq / strictness round 3" :label "NaN? on number ok" :expected "false" :actual "(NaN? 1.0)"} + {:suite "seq / strictness round 3" :label "shuffle on number" :expected :throws :actual "(shuffle 1)"} + {:suite "seq / strictness round 3" :label "shuffle on string" :expected :throws :actual "(shuffle \"abc\")"} + {:suite "seq / strictness round 3" :label "shuffle vec ok" :expected "3" :actual "(count (shuffle [1 2 3]))"} + {:suite "seq / strictness round 3" :label "nthrest nil count" :expected :throws :actual "(nthrest [0 1 2] nil)"} + {:suite "seq / strictness round 3" :label "nthrest negative" :expected "[0 1 2]" :actual "(nthrest [0 1 2] -1)"} + {:suite "seq / strictness round 3" :label "nthrest nil coll" :expected "nil" :actual "(nthrest nil 0)"} + {:suite "seq / strictness round 3" :label "nthnext nil count" :expected :throws :actual "(nthnext [0 1 2] nil)"} + {:suite "seq / strictness round 3" :label "update vec oob" :expected :throws :actual "(update [] 1 identity)"} + {:suite "seq / strictness round 3" :label "update vec kw key" :expected :throws :actual "(update [1 2 3] :k identity)"} + {:suite "seq / overlay-migrated fns" :label "nthrest exhausted -> ()" :expected "[]" :actual "(nthrest nil 100)"} + {:suite "seq / overlay-migrated fns" :label "nthrest vec exhausted" :expected "[]" :actual "(nthrest [1 2 3] 100)"} + {:suite "seq / overlay-migrated fns" :label "nthrest n<=0 keeps coll" :expected "[1 2 3]" :actual "(nthrest [1 2 3] 0)"} + {:suite "seq / overlay-migrated fns" :label "nthrest drops n" :expected "[3 4 5]" :actual "(nthrest [1 2 3 4 5] 2)"} + {:suite "seq / overlay-migrated fns" :label "nthnext exhausted -> nil" :expected "nil" :actual "(nthnext [1 2] 5)"} + {:suite "seq / overlay-migrated fns" :label "nthnext surprising nil" :expected "nil" :actual "(nthnext nil nil)"} + {:suite "seq / overlay-migrated fns" :label "nthnext drops n" :expected "[3 4]" :actual "(nthnext [1 2 3 4] 2)"} + {:suite "seq / overlay-migrated fns" :label "distinct? distinct" :expected "true" :actual "(distinct? 1 2 3)"} + {:suite "seq / overlay-migrated fns" :label "distinct? dup" :expected "false" :actual "(distinct? 1 2 1)"} + {:suite "seq / overlay-migrated fns" :label "distinct? equal colls" :expected "false" :actual "(distinct? [1 2] [1 2])"} + {:suite "seq / overlay-migrated fns" :label "distinct? single" :expected "true" :actual "(distinct? 5)"} + {:suite "seq / overlay-migrated fns" :label "replace maps elements" :expected "[:a 2 :c 2]" :actual "(replace {1 :a 3 :c} [1 2 3 2])"} + {:suite "seq / overlay-migrated fns" :label "replace preserves nil val" :expected "[1 nil 3]" :actual "(replace {2 nil} [1 2 3])"} + {:suite "seq / overlay-migrated fns" :label "replace on a vector stays a vector" :expected "true" :actual "(vector? (replace {1 :a} [1 2 1]))"} + {:suite "seq / overlay-migrated fns" :label "replace on a seq returns a seq" :expected "true" :actual "(seq? (replace {1 :a} (list 1 2 1)))"} + {:suite "seq / overlay-migrated fns" :label "replace on a seq is lazy" :expected "(0 :a 2)" :actual "(take 3 (replace {1 :a} (range)))"} + {:suite "seq / overlay-migrated fns" :label "take-last" :expected "[3 4]" :actual "(take-last 2 [1 2 3 4])"} + {:suite "seq / overlay-migrated fns" :label "take-last empty -> nil" :expected "nil" :actual "(take-last 2 [])"} + {:suite "seq / overlay-migrated fns" :label "take-last n>len" :expected "[1 2]" :actual "(take-last 9 [1 2])"} + {:suite "seq / overlay-migrated fns" :label "drop-last default 1" :expected "[1 2]" :actual "(drop-last [1 2 3])"} + {:suite "seq / overlay-migrated fns" :label "drop-last n" :expected "[1 2]" :actual "(drop-last 2 [1 2 3 4])"} + {:suite "seq / overlay-migrated fns" :label "split-with" :expected "[[2 4] [5 6]]" :actual "(split-with even? [2 4 5 6])"} + {:suite "seq / overlay-migrated fns" :label "replicate" :expected "[:x :x :x]" :actual "(replicate 3 :x)"} + {:suite "seq / overlay-migrated fns" :label "bounded-count" :expected "5" :actual "(bounded-count 3 [1 2 3 4 5])"} + {:suite "seq / overlay-migrated fns" :label "bounded-count uncounted" :expected "3" :actual "(bounded-count 3 (filter odd? (range 100)))"} + {:suite "seq / overlay-migrated fns" :label "run! side effects" :expected "6" :actual "(let [a (atom 0)] (run! (fn [x] (swap! a + x)) [1 2 3]) @a)"} + {:suite "seq / overlay-migrated fns" :label "completing wraps rf" :expected "3" :actual "((completing +) 1 2)"} + {:suite "seq / overlay-migrated fns" :label "comparator <" :expected "[1 2 3]" :actual "(sort (comparator <) [3 1 2])"} + {:suite "seq / overlay-migrated fns" :label "comparator >" :expected "[3 2 1]" :actual "(sort (comparator >) [3 1 2])"} + {:suite "seq / overlay-migrated fns" :label "reductions" :expected "[1 3 6 10]" :actual "(reductions + [1 2 3 4])"} + {:suite "seq / overlay-migrated fns" :label "reductions with init" :expected "[10 11 13 16]" :actual "(reductions + 10 [1 2 3])"} + {:suite "seq / overlay-migrated fns" :label "reductions empty calls f" :expected "[0]" :actual "(reductions + [])"} + {:suite "seq / overlay-migrated fns" :label "reductions empty + init" :expected "[5]" :actual "(reductions + 5 [])"} + {:suite "seq / overlay-migrated fns" :label "tree-seq pre-order" :expected "[[1 [2] 3] 1 [2] 2 3]" :actual "(tree-seq sequential? seq [1 [2] 3])"} + {:suite "seq / overlay-migrated fns" :label "some found" :expected "true" :actual "(some even? [1 3 4])"} + {:suite "seq / overlay-migrated fns" :label "some none -> nil" :expected "nil" :actual "(some even? [1 3 5])"} + {:suite "seq / overlay-migrated fns" :label "some keyword pred" :expected "7" :actual "(some :a [{:b 1} {:a 7}])"} + {:suite "seq / overlay-migrated fns" :label "some returns value" :expected "4" :actual "(some (fn [x] (when (even? x) x)) [1 3 4 5])"} + {:suite "seq / overlay-migrated fns" :label "flatten nested" :expected "[1 2 3 4 5]" :actual "(flatten [1 [2 [3 4]] 5])"} + {:suite "seq / overlay-migrated fns" :label "flatten lists too" :expected "[1 2 3]" :actual "(flatten [1 (list 2 3)])"} + {:suite "seq / overlay-migrated fns" :label "flatten scalar -> empty" :expected "[]" :actual "(flatten 5)"} + {:suite "seq / overlay-migrated fns" :label "interleave" :expected "[1 :a 2 :b]" :actual "(interleave [1 2 3] [:a :b])"} + {:suite "seq / overlay-migrated fns" :label "interleave empty" :expected "[]" :actual "(interleave)"} + {:suite "seq / overlay-migrated fns" :label "rationalize identity" :expected "5" :actual "(rationalize 5)"} + {:suite "seq / overlay-migrated fns" :label "dedupe consecutive" :expected "[1 2 3 1]" :actual "(dedupe [1 1 2 2 3 1 1])"} + {:suite "seq / overlay-migrated fns" :label "dedupe empty" :expected "[]" :actual "(dedupe [])"} + {:suite "seq / overlay-migrated fns" :label "dedupe no dups" :expected "[1 2 3]" :actual "(dedupe [1 2 3])"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv" :expected "[[1 2] [3 4]]" :actual "(partitionv 2 [1 2 3 4 5])"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv elems are vectors" :expected "true" :actual "(every? vector? (partitionv 2 [1 2 3 4]))"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv step" :expected "[[1 2] [3 4]]" :actual "(partitionv 2 2 [1 2 3 4 5])"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv pad" :expected "[[1 2] [3 :p]]" :actual "(partitionv 2 2 [:p] [1 2 3])"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv-all" :expected "[[1 2] [3]]" :actual "(partitionv-all 2 [1 2 3])"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "partitionv-all vectors" :expected "true" :actual "(every? vector? (partitionv-all 2 [1 2 3]))"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "splitv-at" :expected "[[1 2] [3 4]]" :actual "(splitv-at 2 [1 2 3 4])"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "splitv-at first is vector" :expected "true" :actual "(vector? (first (splitv-at 2 [1 2 3])))"} + {:suite "seq / partitionv & splitv-at (1.11)" :label "splitv-at past end" :expected "[[1 2] []]" :actual "(splitv-at 5 [1 2])"} + {:suite "sequences / linear walks over concrete collections" :label "rest of vector is a seq" :expected "true" :actual "(seq? (rest [1 2 3]))"} + {:suite "sequences / linear walks over concrete collections" :label "rest of vector not vector" :expected "false" :actual "(vector? (rest [1 2 3]))"} + {:suite "sequences / linear walks over concrete collections" :label "rest values" :expected "[2 3]" :actual "(rest [1 2 3])"} + {:suite "sequences / linear walks over concrete collections" :label "next of vector" :expected "[2 3]" :actual "(next [1 2 3])"} + {:suite "sequences / linear walks over concrete collections" :label "next exhausts to nil" :expected "nil" :actual "(next [1])"} + {:suite "sequences / linear walks over concrete collections" :label "rest exhausts to ()" :expected "[]" :actual "(rest [1])"} + {:suite "sequences / linear walks over concrete collections" :label "rest-loop scales (20k linear)" :expected "20000" :actual "(loop [xs (seq (vec (range 20000))) n 0] (if xs (recur (next xs) (inc n)) n))"} + {:suite "sequences / linear walks over concrete collections" :label "mapv scales (50k linear)" :expected "50000" :actual "(count (mapv inc (vec (range 50000))))"} + {:suite "sequences / linear walks over concrete collections" :label "nested walk" :expected "[2 3]" :actual "(vec (rest (mapv inc [0 1 2])))"} + {:suite "sequences / rest & next over set-like colls" :label "next of set" :expected "true" :actual "(let [n (next #{1 2})] (and (= 1 (count n)) (contains? #{1 2} (first n))))"} + {:suite "sequences / rest & next over set-like colls" :label "rest of set count" :expected "1" :actual "(count (rest #{1 2}))"} + {:suite "sequences / rest & next over set-like colls" :label "next of singleton set" :expected "nil" :actual "(next #{1})"} + {:suite "sequences / rest & next over set-like colls" :label "rest of empty set" :expected "0" :actual "(count (rest #{}))"} + {:suite "sequences / rest & next over set-like colls" :label "next of map" :expected "true" :actual "(let [n (next {:a 1 :b 2})] (and (= 1 (count n)) (map-entry? (first n))))"} + {:suite "sequences / rest & next over set-like colls" :label "next of singleton map" :expected "nil" :actual "(next {:a 1})"} + {:suite "sequences / rest & next over set-like colls" :label "rest of sorted-set" :expected "[2 3]" :actual "(rest (sorted-set 3 1 2))"} + {:suite "sequences / rest & next over set-like colls" :label "next of sorted-map" :expected "[[2 :b]]" :actual "(next (sorted-map 1 :a 2 :b))"} + {:suite "sequences / rest & next over set-like colls" :label "every? over set" :expected "true" :actual "(every? pos? #{1 2 3})"} + {:suite "sequences / rest & next over set-like colls" :label "every? over set false" :expected "false" :actual "(every? odd? #{1 2})"} + {:suite "sequences / rest & next over set-like colls" :label "every? over sorted-set" :expected "true" :actual "(every? pos? (sorted-set 1 2 3))"} + {:suite "sequences / rest & next over set-like colls" :label "every? over map entries" :expected "true" :actual "(every? map-entry? (seq {:a 1 :b 2}))"} + {:suite "set / construct & predicate" :label "literal" :expected "#{1 3 2}" :actual "#{1 2 3}"} + {:suite "set / construct & predicate" :label "hash-set" :expected "#{1 3 2}" :actual "(hash-set 1 2 3)"} + {:suite "set / construct & predicate" :label "set from vector" :expected "#{1 3 2}" :actual "(set [1 2 3 1])"} + {:suite "set / construct & predicate" :label "empty" :expected "#{}" :actual "#{}"} + {:suite "set / construct & predicate" :label "set? true" :expected "true" :actual "(set? #{1})"} + {:suite "set / construct & predicate" :label "set? false on vector" :expected "false" :actual "(set? [1])"} + {:suite "set / construct & predicate" :label "count dedups" :expected "3" :actual "(count (set [1 1 2 3]))"} + {:suite "set / construct & predicate" :label "equality order-indep" :expected "true" :actual "(= #{1 2 3} #{3 2 1})"} + {:suite "set / construct & predicate" :label "into set" :expected "#{:b :a}" :actual "(into #{} [:a :b])"} + {:suite "set / construct & predicate" :label "into non-empty set" :expected "#{1 3 2}" :actual "(into #{1} [2 3 2])"} + {:suite "set / operations" :label "conj adds" :expected "#{1 3 2}" :actual "(conj #{1 2} 3)"} + {:suite "set / operations" :label "conj dup no-op" :expected "#{1 2}" :actual "(conj #{1 2} 1)"} + {:suite "set / operations" :label "disj removes" :expected "#{1 2}" :actual "(disj #{1 2 3} 3)"} + {:suite "set / operations" :label "disj missing no-op" :expected "#{1 2}" :actual "(disj #{1 2} 9)"} + {:suite "set / operations" :label "contains?" :expected "true" :actual "(contains? #{1 2} 1)"} + {:suite "set / operations" :label "contains? missing" :expected "false" :actual "(contains? #{1 2} 9)"} + {:suite "set / operations" :label "get present" :expected "1" :actual "(get #{1 2} 1)"} + {:suite "set / operations" :label "get missing nil" :expected "nil" :actual "(get #{1 2} 9)"} + {:suite "set / operations" :label "set as fn present" :expected "2" :actual "(#{1 2 3} 2)"} + {:suite "set / operations" :label "set as fn missing" :expected "nil" :actual "(#{1 2 3} 9)"} + {:suite "set / literals & value elements" :label "literal evaluates elements" :expected "#{4 2}" :actual "#{(inc 1) (* 2 2)}"} + {:suite "set / literals & value elements" :label "map elements by value" :expected "true" :actual "(= #{{:a 1}} #{(hash-map :a 1)})"} + {:suite "set / literals & value elements" :label "contains? map by value" :expected "true" :actual "(contains? #{(hash-map :x 1)} {:x 1})"} + {:suite "set / literals & value elements" :label "dedup equal maps" :expected "1" :actual "(count (set [{:a 1} (hash-map :a 1)]))"} + {:suite "set / literals & value elements" :label "vector elements" :expected "true" :actual "(contains? #{[1 2]} (vec [1 2]))"} + {:suite "set / nil element" :label "set keeps nil" :expected "2" :actual "(count (set [nil 1 nil]))"} + {:suite "set / nil element" :label "contains? nil true" :expected "true" :actual "(contains? (set [nil 1]) nil)"} + {:suite "set / nil element" :label "contains? nil false" :expected "false" :actual "(contains? #{1} nil)"} + {:suite "set / nil element" :label "seq includes nil" :expected "true" :actual "(some nil? (seq (set [nil 1])))"} + {:suite "set / nil element" :label "disj nil" :expected "#{1}" :actual "(disj (set [nil 1]) nil)"} + {:suite "set / nil element" :label "disj nil count" :expected "1" :actual "(count (disj (set [nil 1]) nil))"} + {:suite "set / nil element" :label "conj nil count" :expected "2" :actual "(count (conj #{1} nil))"} + {:suite "set / nil element" :label "conj nil contains?" :expected "true" :actual "(contains? (conj #{1} nil) nil)"} + {:suite "set / nil element" :label "into #{} keeps nil" :expected "2" :actual "(count (into #{} [nil 1]))"} + {:suite "set / nil element" :label "into #{} contains? nil" :expected "true" :actual "(contains? (into #{} [nil 1]) nil)"} + {:suite "set / nil element" :label "into keeps existing nil" :expected "true" :actual "(contains? (into #{nil} [1]) nil)"} + {:suite "set / nil element" :label "transient conj! nil" :expected "2" :actual "(count (persistent! (conj! (transient #{}) nil 1)))"} + {:suite "set / nil element" :label "transient contains? nil" :expected "true" :actual "(contains? (persistent! (conj! (transient #{}) nil 1)) nil)"} + {:suite "set / nil element" :label "transient disj! nil cnt" :expected "1" :actual "(count (persistent! (disj! (conj! (transient #{}) nil 1) nil)))"} + {:suite "set / nil element" :label "transient disj! removes" :expected "false" :actual "(contains? (persistent! (disj! (conj! (transient #{}) nil 1) nil)) nil)"} + {:suite "set / nil element" :label "transient of set w/ nil" :expected "true" :actual "(contains? (persistent! (transient (set [nil 1]))) nil)"} + {:suite "clojure.set" :label "union" :expected "#{1 4 3 2}" :actual "(do (require (quote [clojure.set :as s])) (s/union #{1 2} #{3 4}))"} + {:suite "clojure.set" :label "intersection" :expected "#{2}" :actual "(do (require (quote [clojure.set :as s])) (s/intersection #{1 2} #{2 3}))"} + {:suite "clojure.set" :label "difference" :expected "#{1}" :actual "(do (require (quote [clojure.set :as s])) (s/difference #{1 2} #{2 3}))"} + {:suite "clojure.set" :label "subset? true" :expected "true" :actual "(do (require (quote [clojure.set :as s])) (s/subset? #{1} #{1 2}))"} + {:suite "clojure.set" :label "superset? true" :expected "true" :actual "(do (require (quote [clojure.set :as s])) (s/superset? #{1 2} #{1}))"} + {:suite "clojure.set" :label "select" :expected "#{4 2}" :actual "(do (require (quote [clojure.set :as s])) (s/select even? #{1 2 3 4}))"} + {:suite "clojure.set" :label "join" :expected "#{{:a 1, :b 2, :c 3}}" :actual "(do (require (quote [clojure.set :as s])) (s/join #{{:a 1 :b 2}} #{{:b 2 :c 3}}))"} + {:suite "clojure.set" :label "map-invert" :expected "{1 :a}" :actual "(do (require (quote [clojure.set :as s])) (s/map-invert {:a 1}))"} + {:suite "clojure.set" :label "rename-keys" :expected "{:b 1}" :actual "(do (require (quote [clojure.set :as s])) (s/rename-keys {:a 1} {:a :b}))"} + {:suite "set / set? across representations" :label "literal" :expected "true" :actual "(set? #{1})"} + {:suite "set / set? across representations" :label "empty literal" :expected "true" :actual "(set? #{})"} + {:suite "set / set? across representations" :label "sorted-set" :expected "true" :actual "(set? (sorted-set 1 2))"} + {:suite "set / set? across representations" :label "sorted-set-by" :expected "true" :actual "(set? (sorted-set-by > 1 2))"} + {:suite "set / set? across representations" :label "empty sorted" :expected "true" :actual "(set? (sorted-set))"} + {:suite "set / set? across representations" :label "map is not" :expected "false" :actual "(set? {})"} + {:suite "set / set? across representations" :label "vector is not" :expected "false" :actual "(set? [1])"} + {:suite "set / set? across representations" :label "coll? still true" :expected "true" :actual "(coll? (sorted-set 1))"} + {:suite "set / set? across representations" :label "ifn? sorted-set" :expected "true" :actual "(ifn? (sorted-set 1))"} + {:suite "set / bulk build boundaries" :label "set dedup count" :expected "3" :actual "(count (set [1 1 2 3 3 2]))"} + {:suite "set / bulk build boundaries" :label "set big count" :expected "1000" :actual "(count (set (range 1000)))"} + {:suite "set / bulk build boundaries" :label "into #{} count" :expected "500" :actual "(count (into #{} (range 500)))"} + {:suite "set / bulk build boundaries" :label "into #{} onto base" :expected "3" :actual "(count (into #{:a} [:a :b :c]))"} + {:suite "set / bulk build boundaries" :label "set contains" :expected "true" :actual "(contains? (set (range 1000)) 777)"} + {:suite "set / bulk build boundaries" :label "set missing" :expected "false" :actual "(contains? (set (range 1000)) 5000)"} + {:suite "set / bulk build boundaries" :label "set coll members" :expected "true" :actual "(contains? (set [[1 2] [3 4]]) [1 2])"} + {:suite "set / bulk build boundaries" :label "conj after bulk" :expected "true" :actual "(contains? (conj (set (range 100)) :x) :x)"} + {:suite "set / bulk build boundaries" :label "disj after bulk" :expected "false" :actual "(contains? (disj (set (range 100)) 50) 50)"} + {:suite "set / bulk build boundaries" :label "set = literal" :expected "true" :actual "(= #{0 1 2} (set (range 3)))"} + {:suite "sorted / construction & ordering" :label "sorted-set orders" :expected "[1 2 3]" :actual "(vec (seq (sorted-set 3 1 2)))"} + {:suite "sorted / construction & ordering" :label "sorted-set dedupes" :expected "[1 2 3]" :actual "(vec (seq (sorted-set 3 1 2 1 3)))"} + {:suite "sorted / construction & ordering" :label "sorted-set numeric" :expected "[1 2 10]" :actual "(vec (seq (sorted-set 10 1 2)))"} + {:suite "sorted / construction & ordering" :label "sorted-map ordered entries" :expected "[[:a 1] [:b 2] [:c 3]]" :actual "(vec (seq (sorted-map :c 3 :a 1 :b 2)))"} + {:suite "sorted / construction & ordering" :label "first is min" :expected "1" :actual "(first (sorted-set 5 3 9 1))"} + {:suite "sorted / sorted?" :label "sorted-set" :expected "true" :actual "(sorted? (sorted-set 1))"} + {:suite "sorted / sorted?" :label "sorted-map" :expected "true" :actual "(sorted? (sorted-map :a 1))"} + {:suite "sorted / sorted?" :label "plain set" :expected "false" :actual "(sorted? #{1})"} + {:suite "sorted / sorted?" :label "plain map" :expected "false" :actual "(sorted? {:a 1})"} + {:suite "sorted / sorted?" :label "vector" :expected "false" :actual "(sorted? [1 2])"} + {:suite "sorted / map ops" :label "get hit" :expected "2" :actual "(get (sorted-map :a 1 :b 2) :b)"} + {:suite "sorted / map ops" :label "get miss default" :expected ":none" :actual "(get (sorted-map :a 1) :z :none)"} + {:suite "sorted / map ops" :label "contains? yes" :expected "true" :actual "(contains? (sorted-map :a 1) :a)"} + {:suite "sorted / map ops" :label "contains? no" :expected "false" :actual "(contains? (sorted-map :a 1) :z)"} + {:suite "sorted / map ops" :label "assoc keeps order" :expected "[[:a 1] [:b 2] [:c 3]]" :actual "(vec (seq (assoc (sorted-map :c 3 :a 1) :b 2)))"} + {:suite "sorted / map ops" :label "dissoc" :expected "[[:a 1] [:c 3]]" :actual "(vec (seq (dissoc (sorted-map :a 1 :b 2 :c 3) :b)))"} + {:suite "sorted / map ops" :label "conj entry" :expected "[[:a 1] [:z 9]]" :actual "(vec (seq (conj (sorted-map :a 1) [:z 9])))"} + {:suite "sorted / map ops" :label "keys sorted" :expected "[:a :b :c]" :actual "(vec (keys (sorted-map :c 3 :a 1 :b 2)))"} + {:suite "sorted / map ops" :label "vals by key" :expected "[1 2 3]" :actual "(vec (vals (sorted-map :c 3 :a 1 :b 2)))"} + {:suite "sorted / map ops" :label "map as fn" :expected "2" :actual "((sorted-map :a 1 :b 2) :b)"} + {:suite "sorted / map ops" :label "map as fn miss" :expected ":d" :actual "((sorted-map :a 1) :z :d)"} + {:suite "sorted / set ops" :label "get present" :expected "2" :actual "(get (sorted-set 1 2 3) 2)"} + {:suite "sorted / set ops" :label "get absent" :expected ":none" :actual "(get (sorted-set 1 2 3) 9 :none)"} + {:suite "sorted / set ops" :label "contains? yes" :expected "true" :actual "(contains? (sorted-set 1 2 3) 2)"} + {:suite "sorted / set ops" :label "contains? no" :expected "false" :actual "(contains? (sorted-set 1 2 3) 9)"} + {:suite "sorted / set ops" :label "conj keeps order" :expected "[0 1 2 3 5]" :actual "(vec (seq (conj (sorted-set 1 2 3) 5 0)))"} + {:suite "sorted / set ops" :label "disj" :expected "[1 3]" :actual "(vec (seq (disj (sorted-set 1 2 3) 2)))"} + {:suite "sorted / set ops" :label "set as fn" :expected "3" :actual "((sorted-set 1 2 3) 3)"} + {:suite "sorted / set ops" :label "set as fn miss" :expected "nil" :actual "((sorted-set 1 2 3) 9)"} + {:suite "sorted / by comparator" :label "sorted-set-by desc" :expected "[10 3 2 1]" :actual "(vec (seq (sorted-set-by > 1 3 2 10)))"} + {:suite "sorted / by comparator" :label "sorted-map-by desc" :expected "[[3 :c] [2 :b] [1 :a]]" :actual "(vec (seq (sorted-map-by > 1 :a 3 :c 2 :b)))"} + {:suite "sorted / by comparator" :label "conj keeps comparator" :expected "[5 3 2 1 0]" :actual "(vec (seq (conj (sorted-set-by > 1 3 2) 5 0)))"} + {:suite "sorted / by comparator" :label "assoc keeps comparator" :expected "[3 2 1]" :actual "(vec (keys (assoc (sorted-map-by > 1 :a 3 :c) 2 :b)))"} + {:suite "sorted / by comparator" :label "disj keeps comparator" :expected "[3 1]" :actual "(vec (seq (disj (sorted-set-by > 1 2 3) 2)))"} + {:suite "sorted / by comparator" :label "by-comparator is sorted?" :expected "true" :actual "(sorted? (sorted-set-by > 1 2))"} + {:suite "sorted / subseq & rsubseq" :label "subseq >=" :expected "[3 4 5]" :actual "(vec (subseq (sorted-set 1 2 3 4 5) >= 3))"} + {:suite "sorted / subseq & rsubseq" :label "subseq <" :expected "[1 2]" :actual "(vec (subseq (sorted-set 1 2 3 4 5) < 3))"} + {:suite "sorted / subseq & rsubseq" :label "subseq range" :expected "[2 3 4]" :actual "(vec (subseq (sorted-set 1 2 3 4 5) > 1 < 5))"} + {:suite "sorted / subseq & rsubseq" :label "rsubseq <=" :expected "[3 2 1]" :actual "(vec (rsubseq (sorted-set 1 2 3 4 5) <= 3))"} + {:suite "sorted / subseq & rsubseq" :label "subseq on map" :expected "[[2 :b] [3 :c]]" :actual "(vec (subseq (sorted-map 1 :a 2 :b 3 :c) > 1))"} + {:suite "sorted / subseq & rsubseq" :label "subseq empty result" :expected "nil" :actual "(subseq (sorted-set 1 2) > 5)"} + {:suite "sorted / subseq & rsubseq" :label "rsubseq on map" :expected "[[2 :b] [1 :a]]" :actual "(vec (rsubseq (sorted-map 1 :a 2 :b 3 :c) < 3))"} + {:suite "sorted / predicates" :label "sorted-map? true" :expected "true" :actual "(sorted-map? (sorted-map 1 :a))"} + {:suite "sorted / predicates" :label "sorted-map? false" :expected "false" :actual "(sorted-map? {:a 1})"} + {:suite "sorted / predicates" :label "sorted-set? true" :expected "true" :actual "(sorted-set? (sorted-set 1))"} + {:suite "sorted / predicates" :label "sorted-set? false" :expected "false" :actual "(sorted-set? #{1})"} + {:suite "sorted / predicates" :label "map? sorted-map" :expected "true" :actual "(map? (sorted-map 1 :a))"} + {:suite "sorted / predicates" :label "coll? sorted-set" :expected "true" :actual "(coll? (sorted-set 1))"} + {:suite "sorted / lookup + membership use the comparator" :label "get cross-numeric" :expected ":a" :actual "(get (sorted-map 1 :a) 1.0)"} + {:suite "sorted / lookup + membership use the comparator" :label "contains? cross-numeric" :expected "true" :actual "(contains? (sorted-set 1) 1.0)"} + {:suite "sorted / lookup + membership use the comparator" :label "conj equal elem no-op" :expected "1" :actual "(count (conj (sorted-set 1) 1.0))"} + {:suite "sorted / lookup + membership use the comparator" :label "assoc equal key replaces" :expected "[[1 :z]]" :actual "(vec (seq (assoc (sorted-map 1 :a) 1.0 :z)))"} + {:suite "sorted / lookup + membership use the comparator" :label "first sorted-map" :expected "[1 :a]" :actual "(first (sorted-map 2 :b 1 :a))"} + {:suite "sorted / lookup + membership use the comparator" :label "dissoc missing no-op" :expected "2" :actual "(count (dissoc (sorted-map 1 :a 2 :b) 9))"} + {:suite "sorted / lookup + membership use the comparator" :label "conj map merges" :expected "3" :actual "(count (conj (sorted-map 1 :a) {2 :b 3 :c}))"} + {:suite "sorted / lookup + membership use the comparator" :label "conj nil no-op" :expected "1" :actual "(count (conj (sorted-map 1 :a) nil))"} + {:suite "sorted / lookup + membership use the comparator" :label "into sorted-map" :expected "[[1 :a] [2 :b]]" :actual "(vec (seq (into (sorted-map) [[2 :b] [1 :a]])))"} + {:suite "sorted / lookup + membership use the comparator" :label "source unchanged" :expected "[1 2]" :actual "(let [s (sorted-set 1 2)] (conj s 9) (vec (seq s)))"} + {:suite "sorted / lookup + membership use the comparator" :label "sorted-map odd kvs throws" :expected :throws :actual "(sorted-map 1 :a 2)"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-map = literal" :expected "true" :actual "(= (sorted-map :a 1 :b 2) {:a 1 :b 2})"} + {:suite "sorted / equality is representation-agnostic" :label "literal = sorted-map" :expected "true" :actual "(= {:a 1 :b 2} (sorted-map :a 1 :b 2))"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-map = hash-map" :expected "true" :actual "(= (sorted-map :a 1) (hash-map :a 1))"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-map != more keys" :expected "false" :actual "(= (sorted-map :a 1) {:a 1 :b 2})"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-set = literal" :expected "true" :actual "(= (sorted-set 1 2) #{1 2})"} + {:suite "sorted / equality is representation-agnostic" :label "literal = sorted-set" :expected "true" :actual "(= #{1 2} (sorted-set 2 1))"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-set != diff" :expected "false" :actual "(= (sorted-set 1 2) #{1 3})"} + {:suite "sorted / equality is representation-agnostic" :label "two sorted-maps" :expected "true" :actual "(= (sorted-map 1 :a 2 :b) (sorted-map 2 :b 1 :a))"} + {:suite "sorted / equality is representation-agnostic" :label "cmp irrelevant to =" :expected "true" :actual "(= (sorted-map-by > 1 :a 2 :b) (sorted-map 1 :a 2 :b))"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-map as map key" :expected ":hit" :actual "(get {(sorted-map :a 1) :hit} {:a 1})"} + {:suite "sorted / equality is representation-agnostic" :label "sorted-set as map key" :expected ":hit" :actual "(get {(sorted-set 1 2) :hit} #{2 1})"} + {:suite "sorted / empty + empty? + rseq + printing" :label "empty? empty map" :expected "true" :actual "(empty? (sorted-map))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "empty? non-empty" :expected "false" :actual "(empty? (sorted-map 1 :a))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "empty? empty set" :expected "true" :actual "(empty? (sorted-set))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "empty keeps sortedness" :expected "true" :actual "(sorted? (empty (sorted-map 1 :a)))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "empty keeps cmp" :expected "[3 1]" :actual "(vec (seq (into (empty (sorted-set-by > 1 2)) [1 3])))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "empty set kind" :expected "true" :actual "(sorted-set? (empty (sorted-set 1)))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "rseq map" :expected "[[2 :b] [1 :a]]" :actual "(vec (rseq (sorted-map 1 :a 2 :b)))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "rseq set" :expected "[3 2 1]" :actual "(vec (rseq (sorted-set 1 2 3)))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "pr-str sorted-map" :expected "\"{1 :a, 2 :b}\"" :actual "(pr-str (sorted-map 2 :b 1 :a))"} + {:suite "sorted / empty + empty? + rseq + printing" :label "pr-str sorted-set" :expected "\"#{1 2 3}\"" :actual "(pr-str (sorted-set 3 1 2))"} + {:suite "sorted / seq fn interop" :label "map over sorted-map" :expected "[1 2 3]" :actual "(vec (map first (sorted-map 2 :b 1 :a 3 :c)))"} + {:suite "sorted / seq fn interop" :label "map over sorted-set" :expected "[2 3 4]" :actual "(vec (map inc (sorted-set 3 1 2)))"} + {:suite "sorted / seq fn interop" :label "filter entries" :expected "[[2 :b]]" :actual "(vec (filter (fn [[k v]] (even? k)) (sorted-map 1 :a 2 :b)))"} + {:suite "sorted / seq fn interop" :label "reduce over set" :expected "6" :actual "(reduce + (sorted-set 1 2 3))"} + {:suite "sorted / seq fn interop" :label "vec of sorted-set" :expected "[1 2 3]" :actual "(vec (sorted-set 3 1 2))"} + {:suite "sorted / seq fn interop" :label "into vec" :expected "[[1 :a] [2 :b]]" :actual "(into [] (sorted-map 2 :b 1 :a))"} + {:suite "sorted / seq fn interop" :label "sorted-map-by 3way cmp" :expected "[3 2 1]" :actual "(vec (keys (sorted-map-by (fn [a b] (- b a)) 1 :a 2 :b 3 :c)))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "slurp returns string" :expected "true" :actual "(string? (slurp \"README.md\"))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "slurp content" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/includes? (slurp \"README.md\") \"jolt\"))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "spit + slurp round" :expected "\"hello\"" :actual "(do (spit \"/tmp/jolt-spit-test.txt\" \"hello\") (slurp \"/tmp/jolt-spit-test.txt\"))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "spit append" :expected "\"ab\"" :actual "(do (spit \"/tmp/jolt-spit-test.txt\" \"a\") (spit \"/tmp/jolt-spit-test.txt\" \"b\" :append true) (slurp \"/tmp/jolt-spit-test.txt\"))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "printf formats" :expected "\"x=1 y=a\"" :actual "(with-out-str (printf \"x=%d y=%s\" 1 \"a\"))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "printf no newline" :expected "false" :actual "(do (require (quote [clojure.string :as s])) (s/includes? (with-out-str (printf \"%d\" 1)) \"\\n\"))"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "flush returns nil" :expected "nil" :actual "(flush)"} + {:suite "io / slurp, spit, printf, flush (host-classified)" :label "file-seq finds files" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (boolean (some (fn [p] (s/ends-with? p \"README.md\")) (file-seq \".\"))))"} + {:suite "ns / ns-map, ns-unmap, ns-refers" :label "ns-map has var" :expected "true" :actual "(do (def nmv 1) (some? (get (ns-map (quote user)) (quote nmv))))"} + {:suite "ns / ns-map, ns-unmap, ns-refers" :label "ns-unmap removes" :expected "nil" :actual "(do (def nuv 1) (ns-unmap (quote user) (quote nuv)) (resolve (quote nuv)))"} + {:suite "ns / ns-map, ns-unmap, ns-refers" :label "ns-refers sees refer" :expected "true" :actual "(do (require (quote clojure.string)) (refer (quote clojure.string)) (some? (get (ns-refers (quote user)) (quote join))))"} + {:suite "vars / thread-binding family" :label "bound? on def" :expected "true" :actual "(do (def bvv 1) (bound? (var bvv)))"} + {:suite "vars / thread-binding family" :label "with-bindings* binds" :expected "5" :actual "(do (def ^:dynamic dynv 1) (with-bindings* (array-map (var dynv) 5) (fn [] dynv)))"} + {:suite "vars / thread-binding family" :label "with-bindings* restores" :expected "1" :actual "(do (def ^:dynamic dynw 1) (with-bindings* (array-map (var dynw) 5) (fn [] nil)) dynw)"} + {:suite "vars / thread-binding family" :label "with-bindings macro" :expected "7" :actual "(do (def ^:dynamic dynx 1) (with-bindings (array-map (var dynx) 7) dynx))"} + {:suite "vars / thread-binding family" :label "thread-bound? inside" :expected "[true false]" :actual "(do (def ^:dynamic dyny 1) [(with-bindings* (array-map (var dyny) 2) (fn [] (thread-bound? (var dyny)))) (thread-bound? (var dyny))])"} + {:suite "vars / thread-binding family" :label "bound-fn* conveys" :expected "9" :actual "(do (def ^:dynamic dynz 1) (def f (with-bindings* (array-map (var dynz) 9) (fn [] (bound-fn* (fn [] dynz))))) (f))"} + {:suite "vars / thread-binding family" :label "get-thread-bindings" :expected "3" :actual "(do (def ^:dynamic dyng 1) (with-bindings* (array-map (var dyng) 3) (fn [] (get (get-thread-bindings) (var dyng)))))"} + {:suite "eval & load-string as values" :label "load-string evals all" :expected "3" :actual "(load-string \"(def lsv 1) (+ lsv 2)\")"} + {:suite "eval & load-string as values" :label "eval as value" :expected "[2 3]" :actual "(mapv eval [(quote (+ 1 1)) (quote (+ 1 2))])"} + {:suite "eval & load-string as values" :label "eval special still works" :expected "3" :actual "(eval (quote (+ 1 2)))"} + {:suite "clojure.edn / opts" :label "set literal" :expected "#{1 2}" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string \"#{1 2}\"))"} + {:suite "clojure.edn / opts" :label "uuid tag" :expected "true" :actual "(do (require (quote [clojure.edn :as e0])) (uuid? (e0/read-string \"#uuid \\\"550e8400-e29b-41d4-a716-446655440000\\\"\")))"} + {:suite "clojure.edn / opts" :label "inst tag" :expected "true" :actual "(do (require (quote [clojure.edn :as e0])) (inst? (e0/read-string \"#inst \\\"2020-01-01T00:00:00Z\\\"\")))"} + {:suite "clojure.edn / opts" :label ":eof on empty" :expected ":end" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:eof :end} \"\"))"} + {:suite "clojure.edn / opts" :label ":readers custom tag" :expected "[:custom 5]" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:readers {(quote custom) (fn [v] [:custom v])}} \"#custom 5\"))"} + {:suite "clojure.edn / opts" :label ":readers nested" :expected "[6 8]" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:readers {(quote w) (fn [v] (* 2 v))}} \"[#w 3 #w 4]\"))"} + {:suite "clojure.edn / opts" :label ":default fn" :expected "[:dflt 7]" :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string {:default (fn [t v] [:dflt v])} \"#unknown 7\"))"} + {:suite "clojure.edn / opts" :label "unknown tag throws" :expected :throws :actual "(do (require (quote [clojure.edn :as e0])) (e0/read-string \"#nope 1\"))"} + {:suite "state / atoms" :label "deref @" :expected "0" :actual "(let [a (atom 0)] @a)"} + {:suite "state / atoms" :label "deref fn" :expected "0" :actual "(deref (atom 0))"} + {:suite "state / atoms" :label "reset!" :expected "5" :actual "(let [a (atom 0)] (reset! a 5) @a)"} + {:suite "state / atoms" :label "reset! returns new" :expected "5" :actual "(let [a (atom 0)] (reset! a 5))"} + {:suite "state / atoms" :label "swap!" :expected "1" :actual "(let [a (atom 0)] (swap! a inc) @a)"} + {:suite "state / atoms" :label "swap! with args" :expected "10" :actual "(let [a (atom 1)] (swap! a + 2 3 4) @a)"} + {:suite "state / atoms" :label "swap! returns new" :expected "1" :actual "(let [a (atom 0)] (swap! a inc))"} + {:suite "state / atoms" :label "swap-vals!" :expected "[0 1]" :actual "(let [a (atom 0)] (swap-vals! a inc))"} + {:suite "state / atoms" :label "reset-vals!" :expected "[0 9]" :actual "(let [a (atom 0)] (reset-vals! a 9))"} + {:suite "state / atoms" :label "compare-and-set! ok" :expected "true" :actual "(let [a (atom 0)] (compare-and-set! a 0 1))"} + {:suite "state / atoms" :label "compare-and-set! no" :expected "false" :actual "(let [a (atom 0)] (compare-and-set! a 9 1))"} + {:suite "state / atoms" :label "atom?" :expected "true" :actual "(do (require (quote [clojure.core])) (instance? clojure.lang.Atom (atom 0)))"} + {:suite "state / atoms" :label "atom? predicate" :expected "true" :actual "(atom? (atom 0))"} + {:suite "state / atoms" :label "atom? on non-atom" :expected "false" :actual "(atom? 5)"} + {:suite "state / watches & validators" :label "add-watch fires" :expected "1" :actual "(let [a (atom 0) seen (atom 0)] (add-watch a :k (fn [k r o n] (reset! seen 1))) (reset! a 5) @seen)"} + {:suite "state / watches & validators" :label "remove-watch" :expected "0" :actual "(let [a (atom 0) seen (atom 0)] (add-watch a :k (fn [k r o n] (swap! seen inc))) (remove-watch a :k) (reset! a 5) @seen)"} + {:suite "state / watches & validators" :label "set-validator! ok" :expected "5" :actual "(let [a (atom 0)] (set-validator! a number?) (reset! a 5) @a)"} + {:suite "state / watches & validators" :label "set-validator! rejects" :expected :throws :actual "(let [a (atom 0)] (set-validator! a pos?) (reset! a -1))"} + {:suite "state / watches & validators" :label "get-validator" :expected "true" :actual "(let [a (atom 0)] (set-validator! a number?) (fn? (get-validator a)))"} + {:suite "state / volatiles & delays" :label "volatile! deref" :expected "0" :actual "(let [v (volatile! 0)] @v)"} + {:suite "state / volatiles & delays" :label "vreset!" :expected "5" :actual "(let [v (volatile! 0)] (vreset! v 5) @v)"} + {:suite "state / volatiles & delays" :label "vswap!" :expected "1" :actual "(let [v (volatile! 0)] (vswap! v inc) @v)"} + {:suite "state / volatiles & delays" :label "delay not forced" :expected "0" :actual "(let [c (atom 0) d (delay (swap! c inc))] @c)"} + {:suite "state / volatiles & delays" :label "delay force once" :expected "1" :actual "(let [c (atom 0) d (delay (swap! c inc))] (force d) (force d) @c)"} + {:suite "state / volatiles & delays" :label "delay value" :expected "5" :actual "(let [d (delay 5)] @d)"} + {:suite "state / volatiles & delays" :label "realized? before" :expected "false" :actual "(let [d (delay 5)] (realized? d))"} + {:suite "state / volatiles & delays" :label "realized? after" :expected "true" :actual "(let [d (delay 5)] (force d) (realized? d))"} + {:suite "state / promises" :label "promise deliver" :expected "5" :actual "(let [p (promise)] (deliver p 5) @p)"} + {:suite "state / promises" :label "promise undelivered" :expected "nil" :actual "(let [p (promise)] @p)"} + {:suite "state / agents (synchronous shim)" :label "agent deref" :expected "0" :actual "(deref (agent 0))"} + {:suite "state / agents (synchronous shim)" :label "agent with opts" :expected "0" :actual "(deref (agent 0 :error-mode :continue))"} + {:suite "state / agents (synchronous shim)" :label "send-off applies" :expected "0" :actual "(let [a (agent 0)] (send-off a (fn [x] (Thread/sleep 100) (+ x 5))) (deref a))"} + {:suite "state / agents (synchronous shim)" :label "send applies" :expected "1" :actual "(let [a (agent 1)] (send a (fn [x] (Thread/sleep 100) (+ x 6))) (deref a))"} + {:suite "state / agents (synchronous shim)" :label "agent-error nil" :expected "nil" :actual "(agent-error (agent 0))"} + {:suite "string / str & basics" :label "str concat" :expected "\"abc\"" :actual "(str \"a\" \"b\" \"c\")"} + {:suite "string / str & basics" :label "str of numbers" :expected "\"12\"" :actual "(str 1 2)"} + {:suite "string / str & basics" :label "str nil is empty" :expected "\"\"" :actual "(str nil)"} + {:suite "string / str & basics" :label "str mixed" :expected "\"a1:b\"" :actual "(str \"a\" 1 :b)"} + {:suite "string / str & basics" :label "str of coll" :expected "\"[1 2]\"" :actual "(str [1 2])"} + {:suite "string / str & basics" :label "count" :expected "3" :actual "(count \"abc\")"} + {:suite "string / str & basics" :label "subs from" :expected "\"bc\"" :actual "(subs \"abc\" 1)"} + {:suite "string / str & basics" :label "subs range" :expected "\"b\"" :actual "(subs \"abc\" 1 2)"} + {:suite "string / str & basics" :label "string? true" :expected "true" :actual "(string? \"x\")"} + {:suite "string / str & basics" :label "pr-str vector" :expected "\"[1 2 3]\"" :actual "(pr-str [1 2 3])"} + {:suite "string / str & basics" :label "pr-str quotes str" :expected "\"\\\"hi\\\"\"" :actual "(pr-str \"hi\")"} + {:suite "string / str & basics" :label "pr-str of a var" :expected "\"#'user/vv\"" :actual "(pr-str (def vv 1))"} + {:suite "string / str & basics" :label "str of a var" :expected "\"#'user/ww\"" :actual "(str (def ww 2))"} + {:suite "string / str & basics" :label "pr-str of a defn" :expected "\"#'user/gg\"" :actual "(pr-str (defn gg [x] x))"} + {:suite "string / str & basics" :label "seq of string" :expected "[\\a \\b]" :actual "(seq \"ab\")"} + {:suite "string as a seqable of chars" :label "vec of string" :expected "[\\a \\b]" :actual "(vec \"ab\")"} + {:suite "string as a seqable of chars" :label "into [] of string" :expected "[\\a \\b]" :actual "(into [] \"ab\")"} + {:suite "string as a seqable of chars" :label "set of string" :expected "true" :actual "(= #{\\a \\b} (set \"ab\"))"} + {:suite "string as a seqable of chars" :label "into #{} of string" :expected "true" :actual "(= #{\\a \\b} (into #{} \"ab\"))"} + {:suite "string as a seqable of chars" :label "set dedups chars" :expected "2" :actual "(count (set \"aab\"))"} + {:suite "string as a seqable of chars" :label "mapv over string" :expected "[\\a \\b]" :actual "(mapv identity \"ab\")"} + {:suite "clojure.string / split limit" :label "neg keeps trailing" :expected "[\"a\" \"\" \"\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,\" #\",\" -1))"} + {:suite "clojure.string / split limit" :label "zero trims trailing" :expected "[\"a\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,\" #\",\" 0))"} + {:suite "clojure.string / split limit" :label "omitted trims" :expected "[\"a\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,\" #\",\"))"} + {:suite "clojure.string / split limit" :label "positive caps parts" :expected "[\"a\" \"b,c\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,b,c\" #\",\" 2))"} + {:suite "clojure.string / split limit" :label "empty string" :expected "[\"\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"\" #\",\"))"} + {:suite "clojure.string / split limit" :label "interior empties kept" :expected "[\"a\" \"\" \"b\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,,b\" #\",\"))"} + {:suite "clojure.string" :label "join" :expected "\"a,b,c\"" :actual "(do (require (quote [clojure.string :as s])) (s/join \",\" [\"a\" \"b\" \"c\"]))"} + {:suite "clojure.string" :label "join no sep" :expected "\"abc\"" :actual "(do (require (quote [clojure.string :as s])) (s/join [\"a\" \"b\" \"c\"]))"} + {:suite "clojure.string" :label "split" :expected "[\"a\" \"b\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,b\" #\",\"))"} + {:suite "clojure.string" :label "split-lines" :expected "[\"a\" \"b\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split-lines \"a\\nb\"))"} + {:suite "clojure.string" :label "upper-case" :expected "\"ABC\"" :actual "(do (require (quote [clojure.string :as s])) (s/upper-case \"abc\"))"} + {:suite "clojure.string" :label "lower-case" :expected "\"abc\"" :actual "(do (require (quote [clojure.string :as s])) (s/lower-case \"ABC\"))"} + {:suite "clojure.string" :label "capitalize" :expected "\"Abc\"" :actual "(do (require (quote [clojure.string :as s])) (s/capitalize \"abc\"))"} + {:suite "clojure.string" :label "trim" :expected "\"x\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim \" x \"))"} + {:suite "clojure.string" :label "triml" :expected "\"x \"" :actual "(do (require (quote [clojure.string :as s])) (s/triml \" x \"))"} + {:suite "clojure.string" :label "blank? true" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/blank? \" \"))"} + {:suite "clojure.string" :label "blank? false" :expected "false" :actual "(do (require (quote [clojure.string :as s])) (s/blank? \"x\"))"} + {:suite "clojure.string" :label "includes?" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/includes? \"hello\" \"ell\"))"} + {:suite "clojure.string" :label "starts-with?" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/starts-with? \"hello\" \"he\"))"} + {:suite "clojure.string" :label "ends-with?" :expected "true" :actual "(do (require (quote [clojure.string :as s])) (s/ends-with? \"hello\" \"lo\"))"} + {:suite "clojure.string" :label "replace" :expected "\"hexxo\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"hello\" \"l\" \"x\"))"} + {:suite "clojure.string" :label "reverse" :expected "\"cba\"" :actual "(do (require (quote [clojure.string :as s])) (s/reverse \"abc\"))"} + {:suite "clojure.string" :label "index-of" :expected "2" :actual "(do (require (quote [clojure.string :as s])) (s/index-of \"hello\" \"l\"))"} + {:suite "string / subs strictness" :label "subs basic" :expected "\"bcd\"" :actual "(subs \"abcde\" 1 4)"} + {:suite "string / subs strictness" :label "subs to end" :expected "\"cde\"" :actual "(subs \"abcde\" 2)"} + {:suite "string / subs strictness" :label "subs start>end" :expected :throws :actual "(subs \"abcde\" 2 1)"} + {:suite "string / subs strictness" :label "subs negative" :expected :throws :actual "(subs \"abcde\" -1)"} + {:suite "string / subs strictness" :label "subs end past len" :expected :throws :actual "(subs \"abcde\" 1 6)"} + {:suite "string / subs strictness" :label "subs nil start" :expected :throws :actual "(subs \"abcde\" nil 2)"} + {:suite "string / subs strictness" :label "subs on nil" :expected :throws :actual "(subs nil 1 2)"} + {:suite "string / namespace-munge" :label "hyphens to underscores" :expected "\"a_b_c\"" :actual "(namespace-munge \"a-b-c\")"} + {:suite "string / namespace-munge" :label "from a symbol" :expected "\"foo_bar\"" :actual "(namespace-munge (quote foo-bar))"} + {:suite "string / namespace-munge" :label "no hyphens unchanged" :expected "\"ok\"" :actual "(namespace-munge \"ok\")"} + {:suite "strings / get indexes a string" :label "get returns the char" :expected "true" :actual "(= (get \"a:b\" 1) \\:)"} + {:suite "strings / get indexes a string" :label "get first char" :expected "\\a" :actual "(get \"abc\" 0)"} + {:suite "strings / get indexes a string" :label "get out of range nil" :expected "nil" :actual "(get \"abc\" 9)"} + {:suite "strings / get indexes a string" :label "get negative nil" :expected "nil" :actual "(get \"abc\" -1)"} + {:suite "strings / get indexes a string" :label "get default honored" :expected ":none" :actual "(get \"abc\" 9 :none)"} + {:suite "clojure.string / trim-newline" :label "trailing newline" :expected "\"x\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"x\\n\"))"} + {:suite "clojure.string / trim-newline" :label "trailing \\r\\n" :expected "\"x\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"x\\r\\n\"))"} + {:suite "clojure.string / trim-newline" :label "no trailing" :expected "\"ab\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"ab\"))"} + {:suite "clojure.string / trim-newline" :label "only newlines" :expected "\"\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"\\n\\n\"))"} + {:suite "clojure.string / trim-newline" :label "interior kept" :expected "\"a\\nb\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim-newline \"a\\nb\\n\"))"} + {:suite "transducers / into" :label "map xform" :expected "[2 3 4]" :actual "(into [] (map inc) [1 2 3])"} + {:suite "transducers / into" :label "filter xform" :expected "[2 4]" :actual "(into [] (filter even?) [1 2 3 4])"} + {:suite "transducers / into" :label "remove xform" :expected "[1 3]" :actual "(into [] (remove even?) [1 2 3 4])"} + {:suite "transducers / into" :label "take xform" :expected "[1 2]" :actual "(into [] (take 2) [1 2 3 4])"} + {:suite "transducers / into" :label "drop xform" :expected "[3 4]" :actual "(into [] (drop 2) [1 2 3 4])"} + {:suite "transducers / into" :label "take-while xform" :expected "[1 2]" :actual "(into [] (take-while (fn [x] (< x 3))) [1 2 3 1])"} + {:suite "transducers / into" :label "keep xform" :expected "[1 3]" :actual "(into [] (keep (fn [x] (if (odd? x) x nil))) [1 2 3 4])"} + {:suite "transducers / into" :label "map-indexed xform" :expected "[[0 :a] [1 :b]]" :actual "(into [] (map-indexed vector) [:a :b])"} + {:suite "transducers / into" :label "mapcat xform" :expected "[1 1 2 2]" :actual "(into [] (mapcat (fn [x] [x x])) [1 2])"} + {:suite "transducers / into" :label "cat xform" :expected "[1 2 3 4]" :actual "(into [] cat [[1 2] [3 4]])"} + {:suite "transducers / into" :label "into a set" :expected "#{4 3 2}" :actual "(into #{} (map inc) [1 2 3])"} + {:suite "transducers / compose" :label "comp map+filter" :expected "[2 4 6 8]" :actual "(into [] (comp (map (fn [x] (* x 2))) (filter even?)) [1 2 3 4])"} + {:suite "transducers / compose" :label "comp filter+map" :expected "[2 4]" :actual "(into [] (comp (filter odd?) (map inc)) [1 2 3 4])"} + {:suite "transducers / compose" :label "comp three" :expected "[2]" :actual "(into [] (comp (map inc) (filter even?) (take 1)) [1 2 3 4])"} + {:suite "transducers / transduce & sequence" :label "transduce sum" :expected "9" :actual "(transduce (map inc) + [1 2 3])"} + {:suite "transducers / transduce & sequence" :label "transduce init" :expected "19" :actual "(transduce (map inc) + 10 [1 2 3])"} + {:suite "transducers / transduce & sequence" :label "transduce filter" :expected "6" :actual "(transduce (filter even?) + [1 2 3 4])"} + {:suite "transducers / transduce & sequence" :label "sequence xform" :expected "[2 3 4]" :actual "(sequence (map inc) [1 2 3])"} + {:suite "transducers / transduce & sequence" :label "eduction" :expected "[2 3 4]" :actual "(into [] (eduction (map inc) [1 2 3]))"} + {:suite "transducers / transduce & sequence" :label "completing" :expected "9" :actual "(transduce (map inc) (completing +) 0 [1 2 3])"} + {:suite "transducers / halt-when" :label "halt returns the halting input" :expected "7" :actual "(transduce (halt-when (fn [x] (> x 5))) conj [1 2 7 3])"} + {:suite "transducers / halt-when" :label "no halt is a plain reduction" :expected "[1 2 3]" :actual "(transduce (halt-when (fn [x] (> x 5))) conj [1 2 3])"} + {:suite "transducers / halt-when" :label "retf combines acc and input" :expected "[[1 2] 7]" :actual "(transduce (halt-when (fn [x] (> x 5)) (fn [r i] [r i])) conj [1 2 7 3])"} + {:suite "transducers / halt-when" :label "halt-when through into" :expected "3" :actual "(into [] (halt-when odd?) [2 4 3 6])"} + {:suite "transducers / short-circuit over infinite seqs" :label "into take (range)" :expected "[0 1 2 3 4]" :actual "(into [] (take 5) (range))"} + {:suite "transducers / short-circuit over infinite seqs" :label "transduce take (range)" :expected "3" :actual "(transduce (take 3) + 0 (range))"} + {:suite "transducers / short-circuit over infinite seqs" :label "sequence take (range)" :expected "[0 1 2 3 4]" :actual "(sequence (take 5) (range))"} + {:suite "transducers / short-circuit over infinite seqs" :label "take-while over (range)" :expected "[0 1 2]" :actual "(into [] (take-while (fn [x] (< x 3))) (range))"} + {:suite "transducers / short-circuit over infinite seqs" :label "comp take over (range)" :expected "[1 3 5]" :actual "(into [] (comp (filter odd?) (take 3)) (range))"} + {:suite "transducers / short-circuit over infinite seqs" :label "into take iterate" :expected "[0 1 2 3 4]" :actual "(into [] (take 5) (iterate inc 0))"} + {:suite "reduce / honors reduced" :label "reduced short-circuits inf" :expected "105" :actual "(reduce (fn [a x] (if (> a 100) (reduced a) (+ a x))) 0 (range))"} + {:suite "reduce / honors reduced" :label "reduce take inf" :expected "10" :actual "(reduce + (take 5 (range)))"} + {:suite "reduce / honors reduced" :label "reduce no-init first elem" :expected "6" :actual "(reduce + [1 2 3])"} + {:suite "reduce / honors reduced" :label "reduce no-init single" :expected "42" :actual "(reduce + [42])"} + {:suite "reduce / honors reduced" :label "reduce empty calls f" :expected "0" :actual "(reduce + [])"} + {:suite "reduce / honors reduced" :label "reduce with-init" :expected "16" :actual "(reduce + 10 [1 2 3])"} + {:suite "reduce / honors reduced" :label "reduce reduced immediate" :expected ":x" :actual "(reduce (fn [a x] (reduced :x)) :init [1 2 3])"} + {:suite "transducers / into & eduction (overlay)" :label "into list prepends" :expected "[4 3 1 2]" :actual "(into (quote (1 2)) [3 4])"} + {:suite "transducers / into & eduction (overlay)" :label "into sorted-map" :expected "{1 :a, 2 :b}" :actual "(into (sorted-map) [[2 :b] [1 :a]])"} + {:suite "transducers / into & eduction (overlay)" :label "into from map entry" :expected "[:a 1]" :actual "(into [] (first {:a 1}))"} + {:suite "transducers / into & eduction (overlay)" :label "into xform on map" :expected "{:a 2}" :actual "(into {} (map (fn [e] [(key e) (inc (val e))])) {:a 1})"} + {:suite "transducers / into & eduction (overlay)" :label "eduction multiple xforms" :expected "[4]" :actual "(into [] (eduction (filter odd?) (map inc) [2 3 4]))"} + {:suite "transducers / into & eduction (overlay)" :label "->Eduction" :expected "[2 3]" :actual "(->Eduction (map inc) [1 2])"} + {:suite "transducers / into & eduction (overlay)" :label "transduce no init uses (f)" :expected "5" :actual "(transduce (map inc) + [1 2])"} + {:suite "transient / vector" :label "conj! then persistent!" :expected "[1 2]" :actual "(persistent! (conj! (conj! (transient []) 1) 2))"} + {:suite "transient / vector" :label "reduce conj!" :expected "[0 1 2 3 4]" :actual "(persistent! (reduce conj! (transient []) (range 5)))"} + {:suite "transient / vector" :label "conj! many args" :expected "[1 2 3]" :actual "(persistent! (conj! (transient [1]) 2 3))"} + {:suite "transient / vector" :label "assoc! existing" :expected "[1 9 3]" :actual "(persistent! (assoc! (transient [1 2 3]) 1 9))"} + {:suite "transient / vector" :label "assoc! at count grows" :expected "[1 2 3]" :actual "(persistent! (assoc! (transient [1 2]) 2 3))"} + {:suite "transient / vector" :label "pop!" :expected "[1 2]" :actual "(persistent! (pop! (transient [1 2 3])))"} + {:suite "transient / vector" :label "from existing vector" :expected "[1 2 3 4]" :actual "(persistent! (conj! (transient [1 2 3]) 4))"} + {:suite "transient / vector" :label "count" :expected "3" :actual "(count (transient [1 2 3]))"} + {:suite "transient / vector" :label "nth" :expected "2" :actual "(nth (transient [1 2 3]) 1)"} + {:suite "transient / vector" :label "get" :expected "2" :actual "(get (transient [1 2 3]) 1)"} + {:suite "transient / vector" :label "persistent! is a vector" :expected "true" :actual "(vector? (persistent! (transient [1])))"} + {:suite "transient / vector" :label "transient? true" :expected "true" :actual "(transient? (transient []))"} + {:suite "transient / vector" :label "transient? false" :expected "false" :actual "(transient? [1 2])"} + {:suite "transient / map" :label "assoc! then persistent!" :expected "{:a 1, :b 2}" :actual "(persistent! (assoc! (assoc! (transient {}) :a 1) :b 2))"} + {:suite "transient / map" :label "assoc! many" :expected "{:a 1, :b 2}" :actual "(persistent! (assoc! (transient {}) :a 1 :b 2))"} + {:suite "transient / map" :label "dissoc!" :expected "{:b 2}" :actual "(persistent! (dissoc! (transient {:a 1 :b 2}) :a))"} + {:suite "transient / map" :label "conj! map entry" :expected "{:a 1}" :actual "(persistent! (conj! (transient {}) [:a 1]))"} + {:suite "transient / map" :label "from existing map" :expected "{:a 1, :b 2}" :actual "(persistent! (assoc! (transient {:a 1}) :b 2))"} + {:suite "transient / map" :label "get" :expected "1" :actual "(get (transient {:a 1}) :a)"} + {:suite "transient / map" :label "get missing default" :expected ":x" :actual "(get (transient {:a 1}) :z :x)"} + {:suite "transient / map" :label "contains?" :expected "true" :actual "(contains? (transient {:a 1}) :a)"} + {:suite "transient / map" :label "count" :expected "2" :actual "(count (transient {:a 1 :b 2}))"} + {:suite "transient / map" :label "collection key by value" :expected ":v" :actual "(get (persistent! (assoc! (transient {}) [1 2] :v)) [1 2])"} + {:suite "transient / map" :label "persistent! is a map" :expected "true" :actual "(map? (persistent! (transient {:a 1})))"} + {:suite "transient / map" :label "reduce build" :expected "{0 0, 1 1, 2 2}" :actual "(persistent! (reduce (fn [t i] (assoc! t i i)) (transient {}) (range 3)))"} + {:suite "transient / set" :label "conj! dedups" :expected "#{1 2 3}" :actual "(persistent! (conj! (transient #{}) 1 2 2 3))"} + {:suite "transient / set" :label "disj!" :expected "#{1 3}" :actual "(persistent! (disj! (transient #{1 2 3}) 2))"} + {:suite "transient / set" :label "from existing set" :expected "#{1 3 2}" :actual "(persistent! (conj! (transient #{1 2}) 3))"} + {:suite "transient / set" :label "contains?" :expected "true" :actual "(contains? (transient #{1 2}) 1)"} + {:suite "transient / set" :label "count" :expected "2" :actual "(count (transient #{1 2}))"} + {:suite "transient / set" :label "persistent! is a set" :expected "true" :actual "(set? (persistent! (transient #{1})))"} + {:suite "transient / set" :label "map elements by value" :expected "1" :actual "(count (persistent! (conj! (transient #{}) {:a 1} (hash-map :a 1))))"} + {:suite "transient / immutability of source" :label "source vector unchanged" :expected "true" :actual "(let [v [1 2 3] _ (persistent! (conj! (transient v) 4))] (= v [1 2 3]))"} + {:suite "transient / immutability of source" :label "source map unchanged" :expected "true" :actual "(let [m {:a 1} _ (persistent! (assoc! (transient m) :b 2))] (= m {:a 1}))"} + {:suite "transient / invokable lookup" :label "vector index" :expected "20" :actual "((transient [10 20 30]) 1)"} + {:suite "transient / invokable lookup" :label "map key as fn" :expected "7" :actual "((transient {:x 7}) :x)"} + {:suite "transient / invokable lookup" :label "map key default" :expected "99" :actual "((transient {:x 7}) :z 99)"} + {:suite "transient / invokable lookup" :label "keyword on transient" :expected "7" :actual "(:x (transient {:x 7}))"} + {:suite "transient / invokable lookup" :label "set membership" :expected "2" :actual "((transient #{1 2 3}) 2)"} + {:suite "transient / invokable lookup" :label "set miss default" :expected ":no" :actual "((transient #{1 2 3}) 42 :no)"} + {:suite "transient / invokable lookup" :label "collection key" :expected ":v" :actual "((transient {[1 2] :v}) [1 2])"} + {:suite "transient / assoc! odd args throw" :label "map dangling key" :expected "{:a 1, :b nil}" :actual "(persistent! (assoc! (transient {}) :a 1 :b))"} + {:suite "transient / assoc! odd args throw" :label "map lone key" :expected :throws :actual "(persistent! (assoc! (transient {}) :a))"} + {:suite "transient / assoc! odd args throw" :label "vector dangling" :expected "[9 nil]" :actual "(persistent! (apply assoc! (transient []) [0 9 1]))"} + {:suite "transient / assoc! odd args throw" :label "even args still ok" :expected "true" :actual "(= {:a 1, :b 2} (persistent! (assoc! (transient {}) :a 1 :b 2)))"} + {:suite "transient / invalidation" :label "conj! after persistent!" :expected :throws :actual "(let [t (transient [])] (persistent! t) (conj! t 1))"} + {:suite "transient / invalidation" :label "assoc! after persistent!" :expected :throws :actual "(let [t (transient {})] (persistent! t) (assoc! t :a 1))"} + {:suite "transient / invalidation" :label "persistent! twice" :expected :throws :actual "(let [t (transient [])] (persistent! t) (persistent! t))"} + {:suite "transient / invalidation" :label "pop! empty" :expected :throws :actual "(pop! (transient []))"} + {:suite "transient / strictness" :label "conj! on persistent" :expected :throws :actual "(conj! [1 2] 3)"} + {:suite "transient / strictness" :label "assoc! on persistent" :expected :throws :actual "(assoc! {:a 1} :b 2)"} + {:suite "transient / strictness" :label "persistent! on vector" :expected :throws :actual "(persistent! [1 2])"} + {:suite "transient / strictness" :label "persistent! on nil" :expected :throws :actual "(persistent! nil)"} + {:suite "transient / strictness" :label "pop! on transient map" :expected :throws :actual "(pop! (transient {:a 1}))"} + {:suite "transient / strictness" :label "dissoc! on tset" :expected :throws :actual "(dissoc! (transient #{1}) 1)"} + {:suite "transient / strictness" :label "conj! map bad item" :expected :throws :actual "(conj! (transient {}) #{:a 1})"} + {:suite "transient / strictness" :label "conj! no args" :expected "[]" :actual "(persistent! (conj!))"} + {:suite "transient / strictness" :label "conj! identity" :expected "[1 2]" :actual "(conj! [1 2])"} + {:suite "transient / strictness" :label "conj! map merges map" :expected "{:a 1, :b 2}" :actual "(persistent! (conj! (transient {:a 1}) {:b 2}))"} + {:suite "transient / assoc! bounds" :label "assoc! existing idx" :expected "[1 9 3]" :actual "(persistent! (assoc! (transient [1 2 3]) 1 9))"} + {:suite "transient / assoc! bounds" :label "assoc! at count grows" :expected "[1 2 3]" :actual "(persistent! (assoc! (transient [1 2]) 2 3))"} + {:suite "transient / assoc! bounds" :label "assoc! out of bounds" :expected :throws :actual "(assoc! (transient [0 1 2]) 4 4)"} + {:suite "transient / assoc! bounds" :label "assoc! negative" :expected :throws :actual "(assoc! (transient []) -1 0)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "nil is falsy" :expected ":f" :actual "(if nil :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "false is falsy" :expected ":f" :actual "(if false :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "zero is truthy" :expected ":t" :actual "(if 0 :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "zero float truthy" :expected ":t" :actual "(if 0.0 :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "empty string truthy" :expected ":t" :actual "(if \"\" :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "empty list truthy" :expected ":t" :actual "(if (list) :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "empty vector truthy" :expected ":t" :actual "(if [] :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "empty map truthy" :expected ":t" :actual "(if {} :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "empty set truthy" :expected ":t" :actual "(if #{} :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "number truthy" :expected ":t" :actual "(if 42 :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "string truthy" :expected ":t" :actual "(if \"x\" :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "keyword truthy" :expected ":t" :actual "(if :kw :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "symbol truthy" :expected ":t" :actual "(if (quote abc) :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "coll truthy" :expected ":t" :actual "(if [1 2] :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "map truthy" :expected ":t" :actual "(if {:a 1} :t :f)"} + {:suite "truthiness / if (only nil & false are falsy)" :label "if no else -> nil" :expected "nil" :actual "(if false :t)"} + {:suite "truthiness / not" :label "not nil" :expected "true" :actual "(not nil)"} + {:suite "truthiness / not" :label "not false" :expected "true" :actual "(not false)"} + {:suite "truthiness / not" :label "not zero" :expected "false" :actual "(not 0)"} + {:suite "truthiness / not" :label "not empty vector" :expected "false" :actual "(not [])"} + {:suite "truthiness / not" :label "not empty string" :expected "false" :actual "(not \"\")"} + {:suite "truthiness / not" :label "not number" :expected "false" :actual "(not 42)"} + {:suite "truthiness / not" :label "not true" :expected "false" :actual "(not true)"} + {:suite "truthiness / and" :label "empty is true" :expected "true" :actual "(and)"} + {:suite "truthiness / and" :label "single value" :expected "5" :actual "(and 5)"} + {:suite "truthiness / and" :label "all truthy -> last" :expected "3" :actual "(and 1 2 3)"} + {:suite "truthiness / and" :label "stops at false" :expected "false" :actual "(and 1 false 3)"} + {:suite "truthiness / and" :label "stops at nil" :expected "nil" :actual "(and 1 nil 3)"} + {:suite "truthiness / and" :label "false alone" :expected "false" :actual "(and false)"} + {:suite "truthiness / and" :label "nil alone" :expected "nil" :actual "(and nil)"} + {:suite "truthiness / and" :label "zero is truthy" :expected "0" :actual "(and 1 0)"} + {:suite "truthiness / or" :label "empty is nil" :expected "nil" :actual "(or)"} + {:suite "truthiness / or" :label "first truthy" :expected "1" :actual "(or 1 2)"} + {:suite "truthiness / or" :label "skips nil/false" :expected "5" :actual "(or nil false 5)"} + {:suite "truthiness / or" :label "all falsy -> last" :expected "false" :actual "(or nil false)"} + {:suite "truthiness / or" :label "nil chain -> false" :expected "false" :actual "(or nil nil nil false)"} + {:suite "truthiness / or" :label "zero is truthy" :expected "0" :actual "(or 0 1)"} + {:suite "truthiness / or" :label "false alone" :expected "false" :actual "(or false)"} + {:suite "truthiness / if-not & boolean" :label "if-not false" :expected ":yes" :actual "(if-not false :yes :no)"} + {:suite "truthiness / if-not & boolean" :label "if-not truthy" :expected ":no" :actual "(if-not 0 :yes :no)"} + {:suite "truthiness / if-not & boolean" :label "when-not nil" :expected "1" :actual "(when-not nil 1)"} + {:suite "truthiness / if-not & boolean" :label "when-not truthy" :expected "nil" :actual "(when-not 5 1)"} + {:suite "truthiness / if-not & boolean" :label "boolean of nil" :expected "false" :actual "(boolean nil)"} + {:suite "truthiness / if-not & boolean" :label "boolean of false" :expected "false" :actual "(boolean false)"} + {:suite "truthiness / if-not & boolean" :label "boolean of 0" :expected "true" :actual "(boolean 0)"} + {:suite "truthiness / if-not & boolean" :label "boolean of value" :expected "true" :actual "(boolean :x)"} + {:suite "truthiness / if-not & boolean" :label "true?/false?" :expected "true" :actual "(and (true? true) (false? false) (not (true? 1)))"} + {:suite "untested / primed + division + bit ops" :label "+'" :expected "3" :actual "(+' 1 2)"} + {:suite "untested / primed + division + bit ops" :label "-'" :expected "3" :actual "(-' 5 2)"} + {:suite "untested / primed + division + bit ops" :label "*'" :expected "12" :actual "(*' 3 4)"} + {:suite "untested / primed + division + bit ops" :label "inc'" :expected "2.5" :actual "(inc' 1.5)"} + {:suite "untested / primed + division + bit ops" :label "dec'" :expected "1.5" :actual "(dec' 2.5)"} + {:suite "untested / primed + division + bit ops" :label "/" :expected "2" :actual "(/ 6 3)"} + {:suite "untested / primed + division + bit ops" :label "/ ratio-as-double" :expected "1/2" :actual "(/ 1 2)"} + {:suite "untested / primed + division + bit ops" :label "bit-not" :expected "-6" :actual "(bit-not 5)"} + {:suite "untested / primed + division + bit ops" :label "bit-and-not" :expected "4" :actual "(bit-and-not 12 10)"} + {:suite "untested / primed + division + bit ops" :label "bit-flip" :expected "3" :actual "(bit-flip 2 0)"} + {:suite "untested / primed + division + bit ops" :label "unsigned-bit-shift-right" :expected "2" :actual "(unsigned-bit-shift-right 8 2)"} + {:suite "untested / hash family" :label "hash stable" :expected "true" :actual "(= (hash :a) (hash :a))"} + {:suite "untested / hash family" :label "hash int" :expected "true" :actual "(int? (hash [1 2]))"} + {:suite "untested / hash family" :label "hash-combine" :expected "true" :actual "(int? (hash-combine 1 2))"} + {:suite "untested / hash family" :label "hash-ordered-coll" :expected "true" :actual "(int? (hash-ordered-coll [1 2]))"} + {:suite "untested / hash family" :label "hash-unordered-coll" :expected "true" :actual "(int? (hash-unordered-coll #{1}))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "make-array" :expected "[nil nil nil]" :actual "(vec (make-array Object 3))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "into-array" :expected "[1 2]" :actual "(vec (into-array [1 2]))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "to-array" :expected "[1 2]" :actual "(vec (to-array [1 2]))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aclone vec" :expected "[1 2]" :actual "(vec (aclone (int-array [1 2])))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aclone independent" :expected "[9 2]" :actual "(let [a (aclone (to-array [1 2]))] (aset a 0 9) (seq a))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset/aget" :expected "9" :actual "(let [a (to-array [1 2 3])] (aset a 0 9) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-int" :expected "7" :actual "(let [a (to-array [1 2])] (aset-int a 0 7) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-boolean" :expected "true" :actual "(let [a (to-array [1])] (aset-boolean a 0 true) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-byte" :expected "9" :actual "(let [a (to-array [0])] (aset-byte a 0 9) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-char" :expected "\\a" :actual "(let [a (to-array [0])] (aset-char a 0 \\a) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-double" :expected "1.5" :actual "(let [a (to-array [0])] (aset-double a 0 1.5) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-float" :expected "2.5" :actual "(let [a (to-array [0])] (aset-float a 0 2.5) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-long" :expected "3" :actual "(let [a (to-array [0])] (aset-long a 0 3) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "aset-short" :expected "4" :actual "(let [a (to-array [0])] (aset-short a 0 4) (aget a 0))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "boolean-array" :expected "[false false]" :actual "(vec (boolean-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "int-array" :expected "[1 2]" :actual "(vec (int-array [1 2]))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "long-array" :expected "[0 0]" :actual "(vec (long-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "double-array" :expected "[0.0 0.0]" :actual "(vec (double-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "float-array" :expected "[0.0 0.0]" :actual "(vec (float-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "short-array" :expected "[0 0]" :actual "(vec (short-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "char-array count" :expected "2" :actual "(count (char-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "byte-array bytes?" :expected "true" :actual "(bytes? (byte-array 2))"} + {:suite "untested / array stubs (vectors + host buffers)" :label "bytes? not vec" :expected "false" :actual "(bytes? [1])"} + {:suite "untested / typed coercion views" :label "booleans" :expected "(quote (true))" :actual "(booleans [true])"} + {:suite "untested / typed coercion views" :label "doubles" :expected "[1.0]" :actual "(vec (doubles (double-array [1.0])))"} + {:suite "untested / typed coercion views" :label "floats" :expected "[1.0]" :actual "(vec (floats (float-array [1.0])))"} + {:suite "untested / typed coercion views" :label "ints" :expected "(quote (1))" :actual "(ints [1])"} + {:suite "untested / typed coercion views" :label "longs" :expected "(quote (1))" :actual "(longs [1])"} + {:suite "untested / typed coercion views" :label "shorts" :expected "(quote (1))" :actual "(shorts [1])"} + {:suite "untested / typed coercion views" :label "chars first" :expected "\\a" :actual "(first (chars [\\a]))"} + {:suite "untested / typed coercion views" :label "bytes view" :expected "true" :actual "(bytes? (bytes [65]))"} + {:suite "untested / typed coercion views" :label "byte" :expected "65" :actual "(byte 65)"} + {:suite "untested / typed coercion views" :label "short" :expected "1" :actual "(short 1)"} + {:suite "untested / typed coercion views" :label "long truncates" :expected "1" :actual "(long 1.7)"} + {:suite "untested / typed coercion views" :label "double" :expected "3.0" :actual "(double 3)"} + {:suite "untested / typed coercion views" :label "float" :expected "3.0" :actual "(float 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-add" :expected "3" :actual "(unchecked-add 1 2)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-add-int" :expected "3" :actual "(unchecked-add-int 1 2)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-subtract" :expected "3" :actual "(unchecked-subtract 5 2)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-subtract-int" :expected "3" :actual "(unchecked-subtract-int 5 2)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-multiply" :expected "6" :actual "(unchecked-multiply 2 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-multiply-int" :expected "6" :actual "(unchecked-multiply-int 2 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-inc" :expected "2" :actual "(unchecked-inc 1)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-inc-int" :expected "2" :actual "(unchecked-inc-int 1)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-dec" :expected "2" :actual "(unchecked-dec 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-dec-int" :expected "2" :actual "(unchecked-dec-int 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-negate" :expected "-4" :actual "(unchecked-negate 4)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-negate-int" :expected "-4" :actual "(unchecked-negate-int 4)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-divide-int" :expected "3" :actual "(unchecked-divide-int 7 2)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-remainder-int" :expected "1" :actual "(unchecked-remainder-int 7 2)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-int" :expected "3" :actual "(unchecked-int 3.7)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-long" :expected "3" :actual "(unchecked-long 3.7)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-double" :expected "3.0" :actual "(unchecked-double 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-float" :expected "3.0" :actual "(unchecked-float 3)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-byte" :expected "65" :actual "(unchecked-byte 65)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-char" :expected "\\a" :actual "(unchecked-char 97)"} + {:suite "untested / unchecked-* are plain ops" :label "unchecked-short" :expected "5" :actual "(unchecked-short 5)"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "chunk round-trip" :expected "1" :actual "(let [cb (chunk-buffer 4)] (chunk-append cb 1) (chunk-first (chunk-cons (chunk cb) nil)))"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "cat transducer" :expected "[1 2 3]" :actual "(into [] cat [[1] [2 3]])"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "ensure-reduced wraps" :expected "true" :actual "(reduced? (ensure-reduced 5))"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "ensure-reduced keeps reduced" :expected "true" :actual "(reduced? (ensure-reduced (reduced 5)))"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "halt-when" :expected "4" :actual "(transduce (halt-when even?) conj [] [1 3 4 5])"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "chunk-next exhausted" :expected "nil" :actual "(let [cb (chunk-buffer 2)] (chunk-append cb 1) (chunk-next (chunk-cons (chunk cb) nil)))"} + {:suite "untested / chunk family (eager equivalents) + cat" :label "chunk-rest seqable" :expected "[]" :actual "(let [cb (chunk-buffer 2)] (chunk-append cb 1) (vec (chunk-rest (chunk-cons (chunk cb) nil))))"} + {:suite "chunked-seq / over a vector" :label "chunk-first is a 32-element block" :expected "32" :actual "(count (chunk-first (seq (vec (range 100)))))"} + {:suite "chunked-seq / over a vector" :label "chunked-seq? true for vector seq" :expected "true" :actual "(chunked-seq? (seq (vec (range 100))))"} + {:suite "chunked-seq / over a vector" :label "chunked-seq? false for a list seq" :expected "false" :actual "(chunked-seq? (seq (list 1 2 3)))"} + {:suite "chunked-seq / over a vector" :label "chunk-first contents + chunk-rest boundary" :expected "[32 0 31 32]" :actual "(let [s (seq (vec (range 50))) c (chunk-first s)] [(count c) (nth c 0) (nth c 31) (first (chunk-rest s))])"} + {:suite "chunked-seq / over a vector" :label "chunk-first window past the first block" :expected "[32 33 34 35 36 37 38 39]" :actual "(vec (chunk-first (chunk-rest (seq (vec (range 40))))))"} ;; --- seq-type-model divergences (allowlisted): jolt models every seq as ;; PersistentList (eager) or LazySeq (deferred); JVM reifies a specialized class ;; per producer. Values + laziness are correct, only (class …) differs. jolt-aei7. - {:suite "seq-type-model / specialized seq classes collapse" :label "cons over a vector" :expected "clojure.lang.PersistentList" :actual "(class (cons 1 [2 3]))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "iterate" :expected "clojure.lang.PersistentList" :actual "(class (iterate inc 0))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "range" :expected "clojure.lang.PersistentList" :actual "(class (range 5))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "repeat" :expected "clojure.lang.LazySeq" :actual "(class (repeat 3 :x))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "cycle" :expected "clojure.lang.LazySeq" :actual "(class (cycle [1 2]))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "vector seq" :expected "clojure.lang.PersistentList" :actual "(class (seq [1 2 3]))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "string seq" :expected "clojure.lang.PersistentList" :actual "(class (seq \"abc\"))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "keys" :expected "clojure.lang.PersistentList" :actual "(class (keys {:a 1 :b 2}))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "rseq" :expected "clojure.lang.PersistentList" :actual "(class (rseq [1 2 3]))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "sort" :expected "clojure.lang.PersistentList" :actual "(class (sort [3 1 2]))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "subvec" :expected "clojure.lang.PersistentVector" :actual "(class (subvec [1 2 3] 1))" :portability :common} - {:suite "seq-type-model / specialized seq classes collapse" :label "drop over a vector" :expected "clojure.lang.LazySeq" :actual "(class (drop 1 [1 2 3]))" :portability :common} - ;; --- chunking-model realization granularity (JVM-matching): a vector's seq is - ;; chunked, so forcing one element of (map f a-vector) realizes the whole first - ;; 32-block, like the JVM. - {:suite "chunking-model / realization granularity" :label "first over a chunked vector realizes the whole 32-block" :expected "32" :actual "(let [a (atom 0)] (first (map (fn [x] (swap! a inc) x) (vec (range 100)))) @a)" :portability :common} - {:suite "chunking-model / realization granularity" :label "nth 0 over a chunked vector realizes the whole 32-block" :expected "32" :actual "(let [a (atom 0)] (nth (map (fn [x] (swap! a inc) x) (vec (range 100))) 0) @a)" :portability :common} - ;; mapcat/dedupe stay lazier than the JVM at construction: jolt's (apply concat …) - ;; and sequence transformer don't force the first chunk just to build the seq - ;; (the JVM forces 5 here). Allowlisted in known-divergences.edn (jolt-mm6v). - {:suite "chunking-model / unchunked realization granularity" :label "mapcat is fully lazy at construction" :expected "0" :actual "(let [a (atom 0)] (mapcat (fn [x] (swap! a inc) [x]) (range 5)) @a)" :portability :common} - {:suite "chunking-model / unchunked realization granularity" :label "dedupe is fully lazy at construction" :expected "0" :actual "(let [a (atom 0)] (dedupe (map (fn [x] (swap! a inc) x) (range 5))) @a)" :portability :common} + {:suite "seq-type-model / specialized seq classes collapse" :label "cons over a vector" :expected "clojure.lang.PersistentList" :actual "(class (cons 1 [2 3]))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "iterate" :expected "clojure.lang.PersistentList" :actual "(class (iterate inc 0))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "range" :expected "clojure.lang.PersistentList" :actual "(class (range 5))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "repeat" :expected "clojure.lang.LazySeq" :actual "(class (repeat 3 :x))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "cycle" :expected "clojure.lang.LazySeq" :actual "(class (cycle [1 2]))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "vector seq" :expected "clojure.lang.PersistentList" :actual "(class (seq [1 2 3]))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "string seq" :expected "clojure.lang.PersistentList" :actual "(class (seq \"abc\"))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "keys" :expected "clojure.lang.PersistentList" :actual "(class (keys {:a 1 :b 2}))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "rseq" :expected "clojure.lang.PersistentList" :actual "(class (rseq [1 2 3]))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "sort" :expected "clojure.lang.PersistentList" :actual "(class (sort [3 1 2]))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "subvec" :expected "clojure.lang.PersistentVector" :actual "(class (subvec [1 2 3] 1))"} + {:suite "seq-type-model / specialized seq classes collapse" :label "drop over a vector" :expected "clojure.lang.LazySeq" :actual "(class (drop 1 [1 2 3]))"} + ;; --- chunking-model divergences (allowlisted): jolt is unchunked, so forcing + ;; one element realizes 1 (JVM realizes a 32-element chunk), and mapcat/dedupe + ;; realize 0 at construction (JVM forces the first chunk). jolt-mm6v. + {:suite "chunking-model / unchunked realization granularity" :label "first over a vector realizes one, not a chunk" :expected "1" :actual "(let [a (atom 0)] (first (map (fn [x] (swap! a inc) x) (vec (range 100)))) @a)"} + {:suite "chunking-model / unchunked realization granularity" :label "nth 0 over a vector realizes one" :expected "1" :actual "(let [a (atom 0)] (nth (map (fn [x] (swap! a inc) x) (vec (range 100))) 0) @a)"} + {:suite "chunking-model / unchunked realization granularity" :label "mapcat is fully lazy at construction" :expected "0" :actual "(let [a (atom 0)] (mapcat (fn [x] (swap! a inc) [x]) (range 5)) @a)"} + {:suite "chunking-model / unchunked realization granularity" :label "dedupe is fully lazy at construction" :expected "0" :actual "(let [a (atom 0)] (dedupe (map (fn [x] (swap! a inc) x) (range 5))) @a)"} ;; --- integer-box-model: narrow int values behave as integers (certified) --- ;; jolt unifies every integer as one exact-integer type, so (byte/short/int n) ;; produce value-correct integers — only the reified class differs (below). - {:suite "integer-box-model / narrow ints behave as integers" :label "byte = plain integer by value" :expected "true" :actual "(= (byte 5) 5)" :portability :common} - {:suite "integer-box-model / narrow ints behave as integers" :label "byte arithmetic promotes" :expected "6" :actual "(+ (byte 5) 1)" :portability :common} - {:suite "integer-box-model / narrow ints behave as integers" :label "byte is a Number" :expected "true" :actual "(instance? Number (byte 5))" :portability :common} + {:suite "integer-box-model / narrow ints behave as integers" :label "byte = plain integer by value" :expected "true" :actual "(= (byte 5) 5)"} + {:suite "integer-box-model / narrow ints behave as integers" :label "byte arithmetic promotes" :expected "6" :actual "(+ (byte 5) 1)"} + {:suite "integer-box-model / narrow ints behave as integers" :label "byte is a Number" :expected "true" :actual "(instance? Number (byte 5))"} ;; --- integer-box-model divergences (allowlisted): no narrow box types. A Chez ;; fixnum is an immediate identical to the plain integer (cannot be tagged), so ;; (byte/short/int n) report Long, not Byte/Short/Integer. Value is correct. ;; jolt-k9sw (accepted divergence). - {:suite "integer-box-model / narrow int class collapses to Long" :label "byte class" :expected "java.lang.Long" :actual "(class (byte 5))" :portability :common} - {:suite "integer-box-model / narrow int class collapses to Long" :label "short class" :expected "java.lang.Long" :actual "(class (short 5))" :portability :common} - {:suite "integer-box-model / narrow int class collapses to Long" :label "int class" :expected "java.lang.Long" :actual "(class (int 5))" :portability :common} - {:suite "integer-box-model / narrow int class collapses to Long" :label "instance? Byte is false" :expected "false" :actual "(instance? Byte (byte 5))" :portability :common} - {:suite "integer-box-model / narrow int class collapses to Long" :label "instance? Long is true" :expected "true" :actual "(instance? Long (byte 5))" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class number" :expected "java.lang.Long" :actual "(class 1)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class string" :expected "java.lang.String" :actual "(class \"s\")" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class keyword" :expected "clojure.lang.Keyword" :actual "(class :k)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class nil" :expected "nil" :actual "(class nil)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "bean is the map" :expected "{:a 1}" :actual "(bean {:a 1})" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "biginteger" :expected "\"5\"" :actual "(str (biginteger 5))" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy resolves nil" :expected "nil" :actual "(proxy [Object] [] (toString [] \"x\"))" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "construct-proxy throws" :expected :throws :actual "(construct-proxy nil)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "get-proxy-class throws" :expected :throws :actual "(get-proxy-class)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "init-proxy" :expected "nil" :actual "(init-proxy nil {})" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "update-proxy" :expected "nil" :actual "(update-proxy nil {})" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy-mappings" :expected "{}" :actual "(proxy-mappings nil)" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy-call-with-super calls" :expected "1" :actual "(proxy-call-with-super (fn [] 1) nil \"m\")" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "memfn upper" :expected "\"ABC\"" :actual "((memfn toUpperCase) \"abc\")" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "memfn with args" :expected "2" :actual "((memfn indexOf needle) \"hello\" \"l\")" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "memfn length" :expected "3" :actual "((memfn length) \"abc\")" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "array-seq" :expected "(quote (1 2 3))" :actual "(array-seq (to-array [1 2 3]))" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "array-seq empty" :expected "nil" :actual "(array-seq (to-array []))" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy-super throws" :expected :throws :actual "(proxy-super count [1])" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "re-groups throws" :expected :throws :actual "(re-groups (re-matcher #\"a\" \"b\"))" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "re-matcher builds" :expected "false" :actual "(nil? (re-matcher #\"a\" \"abc\"))" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "print-dup nil writer throws" :expected :throws :actual "(print-dup 1 nil)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "print-method nil writer throws" :expected :throws :actual "(print-method 1 nil)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "uri? string" :expected "false" :actual "(uri? \"http://x\")" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "uri? nil" :expected "false" :actual "(uri? nil)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "definterface defines" :expected "false" :actual "(var? (definterface IFoo (foo [x])))" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "enumeration-seq" :expected "(quote (1 2))" :actual "(enumeration-seq [1 2])" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "iterator-seq" :expected "(quote (1 2))" :actual "(iterator-seq [1 2])" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "seque passthrough" :expected "[1 2]" :actual "(seque [1 2])" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "delay? true" :expected "true" :actual "(delay? (delay 1))" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "delay? false" :expected "false" :actual "(delay? 1)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "future-call" :expected "42" :actual "(deref (future-call (fn [] 42)))" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label ". calls String surface" :expected "3" :actual "(. \"abc\" length)" :portability :jvm} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label ".. threads members" :expected "\"ABC\"" :actual "(.. \"abc\" toUpperCase)" :portability :common} - {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "unknown String member throws" :expected :throws :actual "(. \"abc\" frobnicate)" :portability :jvm} - {:suite "untested / protocols: extend + extends?" :label "extend registers" :expected ":str" :actual "(do (defprotocol Pe (pe [x])) (extend (quote String) Pe {:pe (fn [x] :str)}) (pe \"s\"))" :portability :common} - {:suite "untested / protocols: extend + extends?" :label "extend two methods" :expected "[1 2]" :actual "(do (defprotocol P3 (pa [x]) (pb [x])) (extend (quote Long) P3 {:pa (fn [x] 1) :pb (fn [x] 2)}) [(pa 0) (pb 0)])" :portability :common} - {:suite "untested / protocols: extend + extends?" :label "extends? after extend" :expected "true" :actual "(do (defprotocol P4 (pc [x])) (extend (quote Long) P4 {:pc (fn [x] 1)}) (extends? P4 (quote Long)))" :portability :common} - {:suite "untested / protocols: extend + extends?" :label "extends? without" :expected "false" :actual "(do (defprotocol P5 (pd [x])) (extends? P5 (quote Long)))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "all-ns non-empty" :expected "true" :actual "(pos? (count (all-ns)))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "ns-interns sees def" :expected "true" :actual "(do (def zz 1) (pos? (count (ns-interns (quote user)))))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "ns-interns countable" :expected "true" :actual "(map? (ns-interns (quote user)))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "ns-imports empty user" :expected "96" :actual "(count (ns-imports (quote user)))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "reset-meta!" :expected "{:doc \"d\"}" :actual "(do (def vv 1) (reset-meta! (var vv) {:doc \"d\"}))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "prefers empty" :expected "{}" :actual "(do (defmulti mm identity) (prefers mm))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "refer-clojure" :expected "nil" :actual "(refer-clojure)" :portability :common} - {:suite "untested / ns + REPL machinery" :label "special-symbol? if" :expected "true" :actual "(special-symbol? (quote if))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "special-symbol? fn name" :expected "false" :actual "(special-symbol? (quote foo))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "destructure expands" :expected "true" :actual "(pos? (count (destructure (quote [[a b] x]))))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "seq-to-map-for-destructuring" :expected "{:a 1}" :actual "(seq-to-map-for-destructuring (quote (:a 1)))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "s2m trailing map passes through" :expected "{:b 2}" :actual "(seq-to-map-for-destructuring (list {:b 2}))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "s2m unpaired key throws" :expected :throws :actual "(seq-to-map-for-destructuring (quote (:a 1 :b)))" :portability :common} - {:suite "untested / ns + REPL machinery" :label "s2m kwargs trailing map call" :expected "2" :actual "((fn [& {:keys [b]}] b) {:b 2})" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*clojure-version* major" :expected "1" :actual "(:major *clojure-version*)" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*ns* user" :expected "\"user\"" :actual "(str *ns*)" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*1 nil outside repl" :expected "nil" :actual "*1" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*2 nil" :expected "nil" :actual "*2" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*3 nil" :expected "nil" :actual "*3" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*e nil" :expected "nil" :actual "*e" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*unchecked-math*" :expected "false" :actual "*unchecked-math*" :portability :common} - {:suite "untested / ns + REPL machinery" :label "*in* bound" :expected "false" :actual "(map? *in*)" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "nfirst" :expected "[2]" :actual "(nfirst [[1 2] [3]])" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "xml-seq root" :expected "1" :actual "(count (xml-seq {:tag :a :content []}))" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "xml-seq walks" :expected "2" :actual "(count (xml-seq {:tag :a :content [{:tag :b :content []}]}))" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "comp keyword stage" :expected "[1 2]" :actual "((comp seq :content) {:content [1 2]})" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "comp three stages" :expected "4" :actual "((comp inc inc :n) {:n 2})" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "random-sample all" :expected "[1 2]" :actual "(random-sample 1.0 [1 2])" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "random-sample none" :expected "[]" :actual "(random-sample 0.0 [1 2])" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "reader-conditional builds" :expected "true" :actual "(reader-conditional? (reader-conditional (quote (:clj 1)) false))" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "->Eduction" :expected "[2 3]" :actual "(vec (->Eduction (map inc) [1 2]))" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "bound-fn calls" :expected "42" :actual "((bound-fn [] 42))" :portability :common} - {:suite "untested / misc seqs + binding machinery" :label "push/pop-thread-bindings" :expected ":ok" :actual "(do (push-thread-bindings {}) (pop-thread-bindings) :ok)" :portability :common} - {:suite "uuid / random-uuid" :label "returns a uuid" :expected "true" :actual "(uuid? (random-uuid))" :portability :common} - {:suite "uuid / random-uuid" :label "str is 36 chars" :expected "36" :actual "(count (str (random-uuid)))" :portability :common} - {:suite "uuid / random-uuid" :label "8-4-4-4-12 shape" :expected "[8 4 4 4 12]" :actual "(do (require (quote [clojure.string :as s])) (mapv count (s/split (str (random-uuid)) #\"-\")))" :portability :common} - {:suite "uuid / random-uuid" :label "version nibble is 4" :expected "\\4" :actual "(nth (str (random-uuid)) 14)" :portability :common} - {:suite "uuid / random-uuid" :label "variant nibble 8-b" :expected "true" :actual "(contains? #{\\8 \\9 \\a \\b} (nth (seq (str (random-uuid))) 19))" :portability :common} - {:suite "uuid / random-uuid" :label "distinct" :expected "10" :actual "(count (set (repeatedly 10 random-uuid)))" :portability :common} - {:suite "uuid / random-uuid" :label "all hex digits" :expected "true" :actual "(every? (fn [c] (contains? (set (seq \"0123456789abcdef-\")) c)) (seq (str (random-uuid))))" :portability :common} - {:suite "uuid / parse-uuid" :label "valid round-trips" :expected "\"b6883c0a-0342-4007-9966-bc2dfa6b109e\"" :actual "(str (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "uuid / parse-uuid" :label "parses to uuid" :expected "true" :actual "(uuid? (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "uuid / parse-uuid" :label "case-insensitive =" :expected "true" :actual "(= (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\") (parse-uuid \"B6883C0A-0342-4007-9966-BC2DFA6B109E\"))" :portability :common} - {:suite "uuid / parse-uuid" :label "empty -> nil" :expected "nil" :actual "(parse-uuid \"\")" :portability :common} - {:suite "uuid / parse-uuid" :label "short -> nil" :expected "nil" :actual "(parse-uuid \"0\")" :portability :common} - {:suite "uuid / parse-uuid" :label "garbage -> nil" :expected "nil" :actual "(parse-uuid \"df0993\")" :portability :common} - {:suite "uuid / parse-uuid" :label "too long -> nil" :expected "nil" :actual "(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109eb\")" :portability :common} - {:suite "uuid / parse-uuid" :label "leading extra -> nil" :expected "nil" :actual "(parse-uuid \"ab6883c0a-0342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "uuid / parse-uuid" :label "non-hex -> nil" :expected "nil" :actual "(parse-uuid \"g6883c0a-0342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "uuid / parse-uuid" :label "bad dashes -> nil" :expected "nil" :actual "(parse-uuid \"b6883c0a00342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "uuid / parse-uuid" :label "non-string throws" :expected :throws :actual "(parse-uuid 1000)" :portability :common} - {:suite "uuid / parse-uuid" :label "keyword throws" :expected :throws :actual "(parse-uuid :key)" :portability :common} - {:suite "uuid / parse-uuid" :label "map throws" :expected :throws :actual "(parse-uuid {})" :portability :common} - {:suite "uuid / value semantics" :label "equal by value" :expected "true" :actual "(= (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\") (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "uuid / value semantics" :label "unequal differs" :expected "false" :actual "(= (random-uuid) (random-uuid))" :portability :common} - {:suite "uuid / value semantics" :label "works as map key" :expected ":v" :actual "(let [u (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")] (get {u :v} (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")))" :portability :common} - {:suite "uuid / value semantics" :label "works in a set" :expected "true" :actual "(contains? #{(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")} (parse-uuid \"B6883C0A-0342-4007-9966-BC2DFA6B109E\"))" :portability :common} - {:suite "uuid / value semantics" :label "uuid? false on string" :expected "false" :actual "(uuid? \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "uuid / value semantics" :label "uuid? false on nil" :expected "false" :actual "(uuid? nil)" :portability :common} - {:suite "uuid / #uuid reader literal" :label "reads to uuid" :expected "true" :actual "(uuid? #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "uuid / #uuid reader literal" :label "= parse-uuid" :expected "true" :actual "(= #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\" (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "uuid / #uuid reader literal" :label "str of literal" :expected "\"b6883c0a-0342-4007-9966-bc2dfa6b109e\"" :actual "(str #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "uuid / #uuid reader literal" :label "pr-str round-trips" :expected "\"#uuid \\\"b6883c0a-0342-4007-9966-bc2dfa6b109e\\\"\"" :actual "(pr-str #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")" :portability :common} - {:suite "vector / construct & predicate" :label "literal" :expected "[1 2 3]" :actual "[1 2 3]" :portability :common} - {:suite "vector / construct & predicate" :label "vector" :expected "[1 2 3]" :actual "(vector 1 2 3)" :portability :common} - {:suite "vector / construct & predicate" :label "vector zero args" :expected "[]" :actual "(vector)" :portability :common} - {:suite "vector / construct & predicate" :label "vec from list" :expected "[1 2 3]" :actual "(vec (list 1 2 3))" :portability :common} - {:suite "vector / construct & predicate" :label "vec from range" :expected "[0 1 2]" :actual "(vec (range 3))" :portability :common} - {:suite "vector / construct & predicate" :label "vec of map yields entries" :expected "[[:a 1]]" :actual "(vec {:a 1})" :portability :common} - {:suite "vector / construct & predicate" :label "vector? true" :expected "true" :actual "(vector? [1])" :portability :common} - {:suite "vector / construct & predicate" :label "vector? false on list" :expected "false" :actual "(vector? (list 1))" :portability :common} - {:suite "vector / construct & predicate" :label "vector = list elts" :expected "true" :actual "(= [1 2 3] (list 1 2 3))" :portability :common} - {:suite "vector / access" :label "nth" :expected ":b" :actual "(nth [:a :b :c] 1)" :portability :common} - {:suite "vector / access" :label "nth default" :expected ":x" :actual "(nth [:a] 5 :x)" :portability :common} - {:suite "vector / access" :label "get by index" :expected ":b" :actual "(get [:a :b] 1)" :portability :common} - {:suite "vector / access" :label "get out of range nil" :expected "nil" :actual "(get [:a] 5)" :portability :common} - {:suite "vector / access" :label "get default" :expected ":x" :actual "(get [:a] 5 :x)" :portability :common} - {:suite "vector / access" :label "first" :expected "1" :actual "(first [1 2 3])" :portability :common} - {:suite "vector / access" :label "last" :expected "3" :actual "(last [1 2 3])" :portability :common} - {:suite "vector / access" :label "peek is last" :expected "3" :actual "(peek [1 2 3])" :portability :common} - {:suite "vector / access" :label "count" :expected "3" :actual "(count [1 2 3])" :portability :common} - {:suite "vector / access" :label "contains? index" :expected "true" :actual "(contains? [:a :b] 1)" :portability :common} - {:suite "vector / access" :label "contains? past end" :expected "false" :actual "(contains? [:a] 3)" :portability :common} - {:suite "vector / access" :label "vector as fn" :expected ":b" :actual "([:a :b :c] 1)" :portability :common} - {:suite "vector / access" :label "vector-in-local as fn" :expected "20" :actual "(let [v [10 20 30]] (v 1))" :portability :common} - {:suite "vector / access" :label "keyword-in-local as fn" :expected "7" :actual "(let [k :a] (k {:a 7}))" :portability :common} - {:suite "vector / access" :label "meta vector as fn" :expected "10" :actual "((with-meta [10 20] {:k 1}) 0)" :portability :common} - {:suite "vector / update (persistent)" :label "conj appends" :expected "[1 2 3]" :actual "(conj [1 2] 3)" :portability :common} - {:suite "vector / update (persistent)" :label "conj many" :expected "[1 2 3 4]" :actual "(conj [1 2] 3 4)" :portability :common} - {:suite "vector / update (persistent)" :label "assoc index" :expected "[1 9 3]" :actual "(assoc [1 2 3] 1 9)" :portability :common} - {:suite "vector / update (persistent)" :label "assoc at count appends" :expected "[1 2 3]" :actual "(assoc [1 2] 2 3)" :portability :common} - {:suite "vector / update (persistent)" :label "update" :expected "[1 3 3]" :actual "(update [1 2 3] 1 inc)" :portability :common} - {:suite "vector / update (persistent)" :label "pop drops last" :expected "[1 2]" :actual "(pop [1 2 3])" :portability :common} - {:suite "vector / update (persistent)" :label "subvec start end" :expected "[2 3]" :actual "(subvec [1 2 3 4] 1 3)" :portability :common} - {:suite "vector / update (persistent)" :label "subvec to end" :expected "[3 4]" :actual "(subvec [1 2 3 4] 2)" :portability :common} - {:suite "vector / update (persistent)" :label "mapv" :expected "[2 3 4]" :actual "(mapv inc [1 2 3])" :portability :common} - {:suite "vector / update (persistent)" :label "filterv" :expected "[2 4]" :actual "(filterv even? [1 2 3 4])" :portability :common} - {:suite "vector / immutability & nesting" :label "conj does not mutate" :expected "true" :actual "(let [v [1 2] w (conj v 3)] (and (= v [1 2]) (= w [1 2 3])))" :portability :common} - {:suite "vector / immutability & nesting" :label "assoc does not mutate" :expected "true" :actual "(let [v [1 2 3] w (assoc v 0 9)] (and (= v [1 2 3]) (= w [9 2 3])))" :portability :common} - {:suite "vector / immutability & nesting" :label "get-in" :expected "2" :actual "(get-in [[1 2] [3 4]] [0 1])" :portability :common} - {:suite "vector / immutability & nesting" :label "assoc-in" :expected "[[1 9]]" :actual "(assoc-in [[1 2]] [0 1] 9)" :portability :common} - {:suite "vector / immutability & nesting" :label "update-in" :expected "[[1 3]]" :actual "(update-in [[1 2]] [0 1] inc)" :portability :common} - {:suite "vector / immutability & nesting" :label "large vector nth" :expected "1500" :actual "(nth (vec (range 2000)) 1500)" :portability :common} - {:suite "vector / immutability & nesting" :label "large vector count" :expected "2000" :actual "(count (vec (range 2000)))" :portability :common} - {:suite "vector / immutability & nesting" :label "large conj immutable" :expected "true" :actual "(let [v (vec (range 1000)) w (conj v :end)] (and (= 1000 (count v)) (= 1001 (count w))))" :portability :common} - {:suite "vector / bulk build boundaries" :label "count at 1025" :expected "1025" :actual "(count (vec (range 1025)))" :portability :common} - {:suite "vector / bulk build boundaries" :label "into = vec at 1025" :expected "true" :actual "(= (vec (range 1025)) (into [] (range 1025)))" :portability :common} - {:suite "vector / bulk build boundaries" :label "nth at leaf boundary" :expected "32" :actual "(nth (vec (range 1025)) 32)" :portability :common} - {:suite "vector / bulk build boundaries" :label "nth at root boundary" :expected "1024" :actual "(nth (vec (range 1025)) 1024)" :portability :common} - {:suite "vector / bulk build boundaries" :label "vec=into at 33" :expected "true" :actual "(= (vec (range 33)) (into [] (range 33)))" :portability :common} - {:suite "vector / bulk build boundaries" :label "conj after bulk 1024" :expected "1025" :actual "(count (conj (vec (range 1024)) :x))" :portability :common} - {:suite "vector / bulk build boundaries" :label "conj-after reads back" :expected ":x" :actual "(nth (conj (vec (range 1024)) :x) 1024)" :portability :common} - {:suite "vector / bulk build boundaries" :label "assoc into bulk vec" :expected "9" :actual "(nth (assoc (vec (range 1025)) 1000 9) 1000)" :portability :common} - {:suite "vector / bulk build boundaries" :label "into onto non-empty" :expected "[0 1 2 0 1]" :actual "(into (vec (range 3)) (range 2))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "postwalk-replace symbol keys in a list" :expected "(quote (+ 2 2))" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk-replace {(quote x) 2} (quote (+ x x))))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "postwalk descends a list" :expected "[:a :a]" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk (fn [n] (if (symbol? n) :a n)) (quote (x y))))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "prewalk-replace in a list" :expected "(quote (* 3 3))" :actual "(do (require (quote [clojure.walk :as w])) (w/prewalk-replace {(quote *) (quote *) (quote y) 3} (quote (* y y))))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "nested list + vector" :expected "[1 [2 1]]" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk-replace {:a 1 :b 2} (quote (:a [:b :a]))))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "postwalk-replace in a vector" :expected "[:one 2 :one]" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk-replace {1 :one} [1 2 1]))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "keywordize-keys still works" :expected "{:a 1}" :actual "(do (require (quote [clojure.walk :as w])) (w/keywordize-keys {\"a\" 1}))" :portability :common} - {:suite "clojure.walk / lists + seqs" :label "apply-template substitutes" :expected "(quote (+ 1 2))" :actual "(do (require (quote [clojure.template :as t])) (t/apply-template (quote [x y]) (quote (+ x y)) (quote (1 2))))" :portability :common} - {:suite "clojure.walk / records keep their type" :label "postwalk preserves record type" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (record? (w/postwalk identity (->R 1))))" :portability :common} - {:suite "clojure.walk / records keep their type" :label "postwalk still walks record fields" :expected "2" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (:a (w/postwalk (fn [x] (if (number? x) (inc x) x)) (->R 1))))" :portability :common} - {:suite "clojure.walk / records keep their type" :label "instance? survives a walk" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (instance? R (w/postwalk identity (->R 1))))" :portability :common} - {:suite "clojure.walk / records keep their type" :label "a record nested in a map keeps its type" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (record? (:r (w/postwalk identity {:r (->R 1)}))))" :portability :common} - {:suite "clojure.walk / records keep their type" :label "prewalk preserves record type" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (record? (w/prewalk identity (->R 1))))" :portability :common} - {:suite "reader / auto-resolved keywords" :label "::kw is namespace-qualified" :expected "true" :actual "(some? (namespace ::foo))" :portability :common} - {:suite "reader / auto-resolved keywords" :label "::kw keeps its name" :expected "\"foo\"" :actual "(name ::foo)" :portability :common} - {:suite "reader / auto-resolved keywords" :label "::kw resolves to the current ns" :expected "true" :actual "(= ::a ::a)" :portability :common} - {:suite "clojure.edn / reader opts" :label ":default receives the tag as a symbol" :expected "[true \"foo\" 5]" :actual "(do (require (quote [clojure.edn :as edn])) (let [r (edn/read-string {:default (fn [t v] [t v])} \"#foo 5\")] [(symbol? (first r)) (name (first r)) (second r)]))" :portability :common} - {:suite "metadata / lazy seqs carry meta" :label "with-meta on a lazy seq" :expected "{:k 1}" :actual "(meta (with-meta (map inc [1 2 3]) {:k 1}))" :portability :common} - {:suite "dynamic vars / *print-meta*" :label "*print-meta* is a bindable dynamic var" :expected "true" :actual "(binding [*print-meta* true] (true? *print-meta*))" :portability :common} - {:suite "tagged literals / value equality" :label "equal tag+form are =" :expected "true" :actual "(= (tagged-literal (quote x) [1 2]) (tagged-literal (quote x) [1 2]))" :portability :common} - {:suite "tagged literals / value equality" :label "different tag is not =" :expected "false" :actual "(= (tagged-literal (quote x) [1]) (tagged-literal (quote y) [1]))" :portability :common} - {:suite "tagged literals / value equality" :label "duplicate literal keys throw at read (same form twice)" :expected :throws :actual "(count {(tagged-literal (quote x) [1]) :a (tagged-literal (quote x) [1]) :b})" :portability :common} - {:suite "interop / clojure.lang interfaces" :label "vector is IObj" :expected "true" :actual "(instance? clojure.lang.IObj [1])" :portability :jvm} - {:suite "interop / clojure.lang interfaces" :label "map entry is IMapEntry" :expected "true" :actual "(instance? clojure.lang.IMapEntry (first {:a 1}))" :portability :jvm} - {:suite "interop / clojure.lang interfaces" :label "record is IRecord" :expected "true" :actual "(do (defrecord R [a]) (instance? clojure.lang.IRecord (->R 1)))" :portability :jvm} - {:suite "interop / clojure.lang interfaces" :label "number is not IObj" :expected "false" :actual "(instance? clojure.lang.IObj 5)" :portability :jvm} - {:suite "reader / default data readers" :label "#inst is in default-data-readers" :expected "true" :actual "(boolean (get default-data-readers (quote inst)))" :portability :common} - {:suite "conformance / CRITICAL: lazy sequences" :label "self-ref lazy-cat fib" :expected "[0 1 1 2 3 5 8 13 21 34]" :actual "(do (def fib-seq (lazy-cat [0 1] (map + (rest fib-seq) fib-seq))) (take 10 fib-seq))" :portability :common} - {:suite "conformance / CRITICAL: multi-collection map" :label "map two colls" :expected "[11 22 33]" :actual "(map + [1 2 3] [10 20 30])" :portability :common} - {:suite "conformance / CRITICAL: multi-collection map" :label "map three colls" :expected "[12 24 36]" :actual "(map + [1 2 3] [10 20 30] [1 2 3])" :portability :common} - {:suite "conformance / CRITICAL: multi-collection map" :label "map uneven (shortest)" :expected "[[1 :a] [2 :b]]" :actual "(map vector [1 2 3] [:a :b])" :portability :common} - {:suite "conformance / CRITICAL: multi-collection map" :label "map over range+vec" :expected "[1 3 5]" :actual "(map + (range 3) [1 2 3])" :portability :common} - {:suite "conformance / CRITICAL: multi-collection map" :label "map fn list arg" :expected "[2 3 4]" :actual "(map inc (list 1 2 3))" :portability :common} - {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "iterate" :expected "[0 1 2 3 4]" :actual "(take 5 (iterate inc 0))" :portability :common} - {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "iterate double" :expected "[1 2 4 8 16]" :actual "(take 5 (iterate (fn [x] (* 2 x)) 1))" :portability :common} - {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "range over inf map" :expected "[1 2 3]" :actual "(take 3 (map inc (range)))" :portability :common} - {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "count of take" :expected "100" :actual "(count (take 100 (range)))" :portability :common} - {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "last of take" :expected "5" :actual "(last (take 5 (iterate inc 1)))" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "map as fn miss" :expected "nil" :actual "({:a 1} :z)" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "map as fn default" :expected "99" :actual "({:a 1} :z 99)" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "set literal computed" :expected "true" :actual "(= #{1 2} #{(inc 0) 2})" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "empty set literal" :expected "true" :actual "(empty? #{})" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "set literal count" :expected "3" :actual "(count #{1 2 3})" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "set literal in let" :expected "true" :actual "(let [x 5] (= #{5 6} #{x (inc x)}))" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "set? true" :expected "true" :actual "(set? #{1 2 3})" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "set? false" :expected "false" :actual "(set? [1 2])" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "disj one" :expected "#{1 3}" :actual "(disj #{1 2 3} 2)" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "disj many" :expected "#{1}" :actual "(disj #{1 2 3} 2 3)" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "disj absent" :expected "#{1 2}" :actual "(disj #{1 2} 5)" :portability :common} - {:suite "conformance / CRITICAL: collections as IFn" :label "map fn over coll" :expected "[1 3]" :actual "(map {:a 1 :b 3} [:a :b])" :portability :common} - {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "vec of map-result" :expected "[2 3 4]" :actual "(vec (map inc [1 2 3]))" :portability :common} - {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "vec of range" :expected "[0 1 2 3 4]" :actual "(vec (range 5))" :portability :common} - {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into vec" :expected "[1 2 3 4 5 6]" :actual "(into [1 2 3] [4 5 6])" :portability :common} - {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into vec from lazy" :expected "[2 3 4]" :actual "(into [] (map inc [1 2 3]))" :portability :common} - {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into map pairs" :expected "{:a 1, :b 2}" :actual "(into {} [[:a 1] [:b 2]])" :portability :common} - {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into map onto map" :expected "{:a 1, :b 2, :c 3}" :actual "(into {:a 1} [[:b 2] [:c 3]])" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map vec is seq" :expected "true" :actual "(seq? (map inc [1 2 3]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map vec not vector" :expected "false" :actual "(vector? (map inc [1 2 3]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "filter vec is seq" :expected "true" :actual "(seq? (filter odd? [1 2 3]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "take vec is seq" :expected "true" :actual "(seq? (take 2 [1 2 3]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map over set" :expected "true" :actual "(= #{2 3 4} (set (map inc #{1 2 3})))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "filter over map ev" :expected "[[:b 2]]" :actual "(filter (fn [[k v]] (> v 1)) {:a 1 :b 2})" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "cons cons lazy" :expected "[1 2 3]" :actual "(cons 1 (cons 2 (lazy-seq (cons 3 nil))))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "next empty lazy" :expected "nil" :actual "(next (take 1 [1]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "drop vec is seq" :expected "true" :actual "(seq? (drop 1 [1 2 3]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "distinct vec is seq" :expected "true" :actual "(seq? (distinct [1 1 2]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map-indexed is seq" :expected "true" :actual "(seq? (map-indexed vector [1 2]))" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "nth lazy false elem" :expected "false" :actual "(nth (map identity [false 1 2]) 0)" :portability :common} - {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "nth lazy past false" :expected "2" :actual "(nth (drop 1 (list false 1 2)) 1)" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr nested seq" :expected "[1 2 3]" :actual "(let [[a [b c]] [1 [2 3]]] [a b c])" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr rest+as" :expected "[1 [2 3] [1 2 3]]" :actual "(let [[a & r :as all] [1 2 3]] [a r all])" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr map :keys" :expected "[1 2]" :actual "(let [{:keys [a b]} {:a 1 :b 2}] [a b])" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr map :or" :expected "[1 99]" :actual "(let [{:keys [a b] :or {b 99}} {:a 1}] [a b])" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr map :strs" :expected "[1 2]" :actual "(let [{:strs [a b]} {\"a\" 1 \"b\" 2}] [a b])" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr nested map" :expected "5" :actual "(let [{{:keys [x]} :pos} {:pos {:x 5}}] x)" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr fn-param map" :expected "3" :actual "((fn [{:keys [a b]}] (+ a b)) {:a 1 :b 2})" :portability :common} - {:suite "conformance / HIGH: destructuring" :label "destr let map key" :expected "1" :actual "(let [{a :a} {:a 1}] a)" :portability :common} - {:suite "conformance / HIGH: update / assoc-in on map literals" :label "update extra args" :expected "{:a 111}" :actual "(update {:a 1} :a + 10 100)" :portability :common} - {:suite "conformance / HIGH: update / assoc-in on map literals" :label "get-in" :expected "1" :actual "(get-in {:a {:b {:c 1}}} [:a :b :c])" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native mod floored" :expected "2" :actual "(mod -7 3)" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native rem truncated" :expected "-1" :actual "(rem -7 3)" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native unary div" :expected "1/2" :actual "(/ 2)" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native chained div" :expected "1" :actual "(/ 6 3 2)" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native bit-and" :expected "8" :actual "(bit-and 12 10)" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native bit-xor" :expected "6" :actual "(bit-xor 12 10)" :portability :common} - {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native shifts" :expected "[16 2]" :actual "[(bit-shift-left 4 2) (bit-shift-right 8 2)]" :portability :common} - {:suite "conformance / multimethod preferences" :label "prefer-method breaks tie" :expected ":rect" :actual "(do (derive :cm/sq :cm/rect) (derive :cm/sq :cm/shape) (defmulti cmf identity) (defmethod cmf :cm/rect [x] :rect) (defmethod cmf :cm/shape [x] :shape) (prefer-method cmf :cm/rect :cm/shape) (cmf :cm/sq))" :portability :common} - {:suite "conformance / HIGH: str semantics" :label "str concat nil" :expected "\"a1\"" :actual "(str \"a\" 1 nil)" :portability :common} - {:suite "conformance / HIGH: str semantics" :label "str keyword" :expected "\":b\"" :actual "(str :b)" :portability :common} - {:suite "conformance / HIGH: str semantics" :label "str symbol" :expected "\"foo\"" :actual "(str (quote foo))" :portability :common} - {:suite "conformance / HIGH: str semantics" :label "str mixed" :expected "\"a:b1\"" :actual "(str \"a\" :b 1)" :portability :common} - {:suite "conformance / HIGH: str semantics" :label "str seq" :expected "\"[1 2 3]\"" :actual "(str [1 2 3])" :portability :common} - {:suite "conformance / HIGH: dispatch" :label "multimethod" :expected "9" :actual "(do (defmulti area :shape) (defmethod area :sq [s] (* (:s s) (:s s))) (area {:shape :sq :s 3}))" :portability :common} - {:suite "conformance / HIGH: dispatch" :label "multimethod default" :expected ":def" :actual "(do (defmulti f identity) (defmethod f :default [x] :def) (f 99))" :portability :common} - {:suite "conformance / HIGH: dispatch" :label "protocol on record" :expected "16" :actual "(do (defprotocol Sh (ar [s])) (defrecord Sq [side] Sh (ar [_] (* side side))) (ar (->Sq 4)))" :portability :common} - {:suite "conformance / HIGH: dispatch" :label "deftype inline methods" :expected "7" :actual "(do (defprotocol Pi (mi [x])) (deftype Ti [v] Pi (mi [x] v)) (mi (->Ti 7)))" :portability :common} - {:suite "conformance / HIGH: dispatch" :label "deftype two protocols" :expected "[1 2]" :actual "(do (defprotocol Pa (ma [x])) (defprotocol Pb (mb [x])) (deftype Tab [a b] Pa (ma [x] a) Pb (mb [x] b)) (let [t (->Tab 1 2)] [(ma t) (mb t)]))" :portability :common} - {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "var-get + call" :expected "2" :actual "((var-get (var inc)) 1)" :portability :common} - {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "var? true" :expected "true" :actual "(var? (var map))" :portability :common} - {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "var? false" :expected "false" :actual "(var? 5)" :portability :common} - {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "intern + find-var" :expected "41" :actual "(do (intern (quote user) (quote iv) 41) (var-get (find-var (quote user/iv))))" :portability :common} - {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "alter-var-root rest args" :expected "11" :actual "(do (def avr 1) (alter-var-root (var avr) + 4 6) avr)" :portability :common} - {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "alter-meta! + meta" :expected "7" :actual "(do (def amv 1) (alter-meta! (var amv) assoc :k 7) (:k (meta (var amv))))" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "find-ns + ns-name" :expected "(quote clojure.core)" :actual "(ns-name (find-ns (quote clojure.core)))" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "find-ns absent" :expected "nil" :actual "(find-ns (quote no.such.ns))" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "create-ns + find" :expected "true" :actual "(do (create-ns (quote made.ns)) (some? (find-ns (quote made.ns))))" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "remove-ns" :expected "nil" :actual "(do (create-ns (quote gone.ns)) (remove-ns (quote gone.ns)) (find-ns (quote gone.ns)))" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "the-ns of symbol" :expected "(quote user)" :actual "(ns-name (the-ns (quote user)))" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "ns-resolve + call" :expected "3" :actual "((var-get (ns-resolve (quote clojure.core) (quote inc))) 2)" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "resolve + call" :expected "3" :actual "((var-get (resolve (quote inc))) 2)" :portability :common} - {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "resolve absent" :expected "nil" :actual "(resolve (quote no-such-sym-xyz))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "get-method + call" :expected "1" :actual "(do (defmulti t6f :k) (defmethod t6f :a [x] 1) ((get-method t6f :a) {:k :a}))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "remove-method" :expected "nil" :actual "(do (defmulti t6g :k) (defmethod t6g :b [x] 2) (remove-method t6g :b) (get (methods t6g) :b))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "remove-all-methods" :expected "nil" :actual "(do (defmulti t6h :k) (defmethod t6h :c [x] 3) (remove-all-methods t6h) (get (methods t6h) :c))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "prefer-method records" :expected "true" :actual "(do (defmulti t6p identity) (prefer-method t6p :rect :shape) (contains? (get (prefers t6p) :rect) :shape))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "instance? deftype" :expected "true" :actual "(do (deftype T6i [a]) (instance? T6i (->T6i 1)))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "instance? String" :expected "true" :actual "(instance? String \"s\")" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "locking evals body" :expected "3" :actual "(locking :anything (+ 1 2))" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "locking evals monitor" :expected "[3 1]" :actual "(let [a (atom 0)] [(locking (swap! a inc) 3) @a])" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "defonce keeps first" :expected "5" :actual "(do (defonce d6o 5) (defonce d6o 9) d6o)" :portability :common} - {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "read-string + eval" :expected "3" :actual "(eval (read-string \"(+ 1 2)\"))" :portability :common} - {:suite "conformance / uuid" :label "uuid as map key" :expected ":v" :actual "(get {(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\") :v} (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "parse-long bad" :expected "nil" :actual "(parse-long \"4.2\")" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "update-keys" :expected "{\"a\" 1}" :actual "(update-keys {:a 1} name)" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "update-vals" :expected "{:a 2}" :actual "(update-vals {:a 1} inc)" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "partition pad" :expected "[[0 1 2 3] [4 5 6 7] [8 9 :a]]" :actual "(partition 4 4 [:a] (range 10))" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "with-redefs" :expected "[42 1]" :actual "(do (defn cwr [] 1) [(with-redefs [cwr (fn [] 42)] (cwr)) (cwr)])" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "macroexpand" :expected "true" :actual "(= (quote if) (first (macroexpand (quote (when-not false 1)))))" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "require bare symbol" :expected "\"a,b\"" :actual "(do (require (quote clojure.string)) (clojure.string/join \",\" [\"a\" \"b\"]))" :portability :common} - {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "ns-publics lookup" :expected "true" :actual "(do (def cnp 7) (some? (get (ns-publics (quote user)) (quote cnp))))" :portability :common} - {:suite "conformance / #inst + syntax-quote literal collapse (spec 2.4/2.3)" :label "inst partial = full" :expected "true" :actual "(= #inst \"2020\" #inst \"2020-01-01T00:00:00Z\")" :portability :common} - {:suite "conformance / #inst + syntax-quote literal collapse (spec 2.4/2.3)" :label "sq number collapse" :expected "42" :actual "``42" :portability :common} - {:suite "conformance / vars replace the root-env leak" :label "compare total order" :expected "[-1 0 1]" :actual "[(compare nil 1) (compare :a :a) (compare \"b\" \"a\")]" :portability :common} - {:suite "conformance / vars replace the root-env leak" :label "any? anything" :expected "true" :actual "(and (any? nil) (any? 1) (any? :k))" :portability :common} - {:suite "conformance / vars replace the root-env leak" :label "macroexpand-1 when" :expected "2" :actual "(count (rest (macroexpand-1 (quote (when true 1)))))" :portability :common} - {:suite "conformance / HIGH: aliased namespace calls" :label "require :as alias" :expected "\"1,2,3\"" :actual "(do (require (quote [clojure.string :as s])) (s/join \",\" [1 2 3]))" :portability :common} - {:suite "conformance / HIGH: aliased namespace calls" :label "ns form + alias" :expected "\"HI\"" :actual "(do (ns my.a (:require [clojure.string :as s])) (s/upper-case \"hi\"))" :portability :common} - {:suite "conformance / HIGH: aliased namespace calls" :label "ns :use refers" :expected "42" :actual "(do (ns src.u) (def helper 42) (ns dst.u (:use [src.u])) helper)" :portability :common} - {:suite "conformance / MED: missing core fns" :label "subvec" :expected "[2 3]" :actual "(subvec [1 2 3 4 5] 1 3)" :portability :common} - {:suite "conformance / MED: missing core fns" :label "subvec to-end" :expected "[3 4 5]" :actual "(subvec [1 2 3 4 5] 2)" :portability :common} - {:suite "conformance / MED: missing core fns" :label "reduce-kv" :expected "{:a 2, :b 3}" :actual "(reduce-kv (fn [m k v] (assoc m k (inc v))) {} {:a 1 :b 2})" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "reduce over map" :expected "6" :actual "(reduce (fn [a [k v]] (+ a v)) 0 {:a 1 :b 2 :c 3})" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "into transform map" :expected "{:a 2, :b 3}" :actual "(into {} (map (fn [[k v]] [k (inc v)]) {:a 1 :b 2}))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "filter over map" :expected "true" :actual "(= [[:b 2]] (filterv (fn [[k v]] (> v 1)) {:a 1 :b 2}))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "tree-seq" :expected "[1 2 3]" :actual "(map (fn [x] x) (filter (complement coll?) (tree-seq coll? seq [1 [2 [3]]])))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "key/val" :expected "true" :actual "(let [e (first {:k 9})] (and (= :k (key e)) (= 9 (val e))))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "nat-int?" :expected "true" :actual "(and (nat-int? 0) (nat-int? 5) (not (nat-int? -1)))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "list* prepend" :expected "[1 2 3 4]" :actual "(list* 1 2 [3 4])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "cycle" :expected "[1 2 3 1 2 3 1]" :actual "(take 7 (cycle [1 2 3]))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "partition-all" :expected "[[1 2] [3 4] [5]]" :actual "(partition-all 2 [1 2 3 4 5])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "reductions init" :expected "[0 1 3 6]" :actual "(reductions + 0 [1 2 3])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "dedupe" :expected "[1 2 3 1]" :actual "(dedupe [1 1 2 3 3 1])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "partition-by odd?" :expected "[[1 1] [2] [3 3]]" :actual "(partition-by odd? [1 1 2 3 3])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "reductions inf" :expected "[0 1 3 6]" :actual "(take 4 (reductions + (range)))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "tree-seq strict" :expected "10" :actual "(reduce + 0 (filter (complement coll?) (tree-seq coll? seq [1 [2 [3 4]]])))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "case nil + default" :expected "[:nilr :def]" :actual "(let [f (fn [x] (case x 1 :one nil :nilr :def))] [(f nil) (f 9)])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "case collection consts" :expected "[:v :m :s]" :actual "(let [f (fn [x] (case x [1 2] :v {:a 1} :m #{3} :s :def))] [(f [1 2]) (f {:a 1}) (f #{3})])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "seq of nil-first" :expected "true" :actual "(boolean (seq (cons nil (list 1))))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "reverse nil elem" :expected "[2 nil 1]" :actual "(vec (reverse (list 1 nil 2)))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "map non-seqable throws" :expected "true" :actual "(try (doall (map inc 5)) false (catch Throwable _ true))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "keep-indexed" :expected "[:b :d]" :actual "(keep-indexed (fn [i x] (if (odd? i) x)) [:a :b :c :d])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "map-indexed" :expected "[[0 :a] [1 :b]]" :actual "(map-indexed (fn [i x] [i x]) [:a :b])" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "trampoline" :expected ":done" :actual "(do (defn a [n] (if (zero? n) :done (fn [] (a (dec n))))) (trampoline a 5))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "format" :expected "\"1-x\"" :actual "(format \"%d-%s\" 1 \"x\")" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "read-string" :expected "(quote (+ 1 2))" :actual "(read-string \"(+ 1 2)\")" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "letfn mutual" :expected "true" :actual "(letfn [(ev? [n] (if (= n 0) true (od? (dec n)))) (od? [n] (if (= n 0) false (ev? (dec n))))] (ev? 10))" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "doseq side" :expected "[1 2 3]" :actual "(do (def a (atom [])) (doseq [x [1 2 3]] (swap! a conj x)) @a)" :portability :common} - {:suite "conformance / iterating maps yields entries" :label "doseq nested" :expected "4" :actual "(do (def c (atom 0)) (doseq [x [1 2] y [10 20]] (swap! c inc)) @c)" :portability :common} - {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "lazy filter inf" :expected "[1 3 5 7 9]" :actual "(take 5 (filter odd? (range)))" :portability :common} - {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "lazy take-while inf" :expected "[0 1 2 3 4]" :actual "(take-while (fn [x] (< x 5)) (range))" :portability :common} - {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "lazy remove inf" :expected "[0 2 4 6 8]" :actual "(take 5 (remove odd? (range)))" :portability :common} - {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "filter finite" :expected "[2 4]" :actual "(filter even? [1 2 3 4 5])" :portability :common} - {:suite "conformance / atoms (full support)" :label "swap! args" :expected "7" :actual "(do (def a (atom 1)) (swap! a + 2 4) @a)" :portability :common} - {:suite "conformance / atoms (full support)" :label "reset! ret" :expected "9" :actual "(do (def a (atom 1)) (reset! a 9))" :portability :common} - {:suite "conformance / atoms (full support)" :label "compare-and-set!" :expected "true" :actual "(do (def a (atom 1)) (compare-and-set! a 1 2))" :portability :common} - {:suite "conformance / atoms (full support)" :label "compare-and-set! no" :expected "false" :actual "(do (def a (atom 1)) (compare-and-set! a 5 2))" :portability :common} - {:suite "conformance / atoms (full support)" :label "swap-vals!" :expected "[1 2]" :actual "(do (def a (atom 1)) (swap-vals! a inc))" :portability :common} - {:suite "conformance / atoms (full support)" :label "reset-vals!" :expected "[1 9]" :actual "(do (def a (atom 1)) (reset-vals! a 9))" :portability :common} - {:suite "conformance / atoms (full support)" :label "atom map swap" :expected "{:a 1, :b 2}" :actual "(do (def a (atom {:a 1})) (swap! a assoc :b 2) @a)" :portability :common} - {:suite "conformance / atoms (full support)" :label "add-watch" :expected "[:k 1 2]" :actual "(do (def lg (atom nil)) (def a (atom 1)) (add-watch a :k (fn [k r o n] (reset! lg [k o n]))) (swap! a inc) @lg)" :portability :common} - {:suite "conformance / atoms (full support)" :label "atom validator" :expected "5" :actual "(do (def a (atom 1 :validator pos?)) (reset! a 5) @a)" :portability :common} - {:suite "conformance / atoms (full support)" :label "instance? Atom" :expected "true" :actual "(instance? clojure.lang.Atom (atom 1))" :portability :jvm} - {:suite "conformance / volatiles / delays" :label "volatile" :expected "2" :actual "(do (def v (volatile! 1)) (vreset! v 2) @v)" :portability :common} - {:suite "conformance / volatiles / delays" :label "vswap!" :expected "2" :actual "(do (def v (volatile! 1)) (vswap! v inc) @v)" :portability :common} - {:suite "conformance / volatiles / delays" :label "delay force" :expected "3" :actual "(force (delay (+ 1 2)))" :portability :common} - {:suite "conformance / volatiles / delays" :label "delay deref once" :expected "1" :actual "(do (def c (atom 0)) (def d (delay (swap! c inc))) @d @d @c)" :portability :common} - {:suite "conformance / volatiles / delays" :label "realized? delay" :expected "true" :actual "(do (def d (delay 1)) @d (realized? d))" :portability :common} - {:suite "conformance / volatiles / delays" :label "realized? not" :expected "false" :actual "(realized? (delay 1))" :portability :common} - {:suite "conformance / numbers / math" :label "quot neg" :expected "-2" :actual "(quot -7 3)" :portability :common} - {:suite "conformance / numbers / math" :label "bit ops" :expected "[4 14 10]" :actual "[(bit-and 12 6) (bit-or 12 6) (bit-xor 12 6)]" :portability :common} - {:suite "conformance / numbers / math" :label "bit-shift" :expected "[8 2]" :actual "[(bit-shift-left 1 3) (bit-shift-right 8 2)]" :portability :common} - {:suite "conformance / numbers / math" :label "Math/sqrt" :expected "3.0" :actual "(Math/sqrt 9)" :portability :jvm} - {:suite "conformance / numbers / math" :label "Math/pow" :expected "8.0" :actual "(Math/pow 2 3)" :portability :jvm} - {:suite "conformance / numbers / math" :label "min-key" :expected "1" :actual "(min-key abs 1 -2 3)" :portability :common} - {:suite "conformance / numbers / math" :label "max-key" :expected "-4" :actual "(max-key abs 1 -2 -4 3)" :portability :common} - {:suite "conformance / strings (clojure.string)" :label "str/trim" :expected "\"hi\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim \" hi \"))" :portability :common} - {:suite "conformance / strings (clojure.string)" :label "str/split regex" :expected "[\"a\" \"b\" \"c\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,b,c\" #\",\"))" :portability :common} - {:suite "conformance / strings (clojure.string)" :label "str/split ws" :expected "[\"a\" \"b\" \"c\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a b c\" #\"\\s+\"))" :portability :common} - {:suite "conformance / strings (clojure.string)" :label "str/replace" :expected "\"hexxo\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"hello\" \"ll\" \"xx\"))" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "str/replace regex" :expected "\"ab\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"a1b2\" #\"[0-9]\" \"\"))" :portability :common} - {:suite "conformance / strings (clojure.string)" :label "subs" :expected "\"ell\"" :actual "(subs \"hello\" 1 4)" :portability :common} - {:suite "conformance / regex" :label "re-find" :expected "\"123\"" :actual "(re-find #\"[0-9]+\" \"abc123def\")" :portability :common} - {:suite "conformance / regex" :label "re-matches" :expected "\"abc\"" :actual "(re-matches #\"a.c\" \"abc\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-matches no" :expected "nil" :actual "(re-matches #\"a.c\" \"abcd\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-seq" :expected "[\"12\" \"34\"]" :actual "(re-seq #\"[0-9]+\" \"a12b34\")" :portability :common} - {:suite "conformance / sequences" :label "split-at" :expected "[[1 2] [3 4 5]]" :actual "(split-at 2 [1 2 3 4 5])" :portability :common} - {:suite "conformance / sequences" :label "split-with" :expected "[[1 2] [3 4 1]]" :actual "(split-with (fn [x] (< x 3)) [1 2 3 4 1])" :portability :common} - {:suite "conformance / sequences" :label "partition step" :expected "[[1 2] [3 4]]" :actual "(partition 2 2 [1 2 3 4 5])" :portability :common} - {:suite "conformance / sequences" :label "not-every?" :expected "true" :actual "(not-every? pos? [1 -2 3])" :portability :common} - {:suite "conformance / overlay migration: run in all 3 modes" :label "not-any?" :expected "true" :actual "(not-any? neg? [1 2 3])" :portability :common} - {:suite "conformance / sequences" :label "take-nth" :expected "[0 2 4]" :actual "(take-nth 2 [0 1 2 3 4])" :portability :common} - {:suite "conformance / sequences" :label "butlast" :expected "[1 2]" :actual "(butlast [1 2 3])" :portability :common} - {:suite "conformance / sequences" :label "empty" :expected "[]" :actual "(empty [1 2 3])" :portability :common} - {:suite "conformance / sequences" :label "replace map" :expected "[:a :b :a]" :actual "(replace {1 :a 2 :b} [1 2 1])" :portability :common} - {:suite "conformance / data structures" :label "sorted-map seq" :expected "[[:a 1] [:b 2] [:c 3]]" :actual "(seq (sorted-map :c 3 :a 1 :b 2))" :portability :common} - {:suite "conformance / data structures" :label "sorted-set seq" :expected "[1 2 3]" :actual "(seq (sorted-set 3 1 2))" :portability :common} - {:suite "conformance / data structures" :label "coll? set" :expected "true" :actual "(coll? #{1 2})" :portability :common} - {:suite "conformance / data structures" :label "conj map entry" :expected "{:a 1, :b 2}" :actual "(conj {:a 1} [:b 2])" :portability :common} - {:suite "conformance / metadata / vars" :label "vary-meta" :expected "{:x 2}" :actual "(meta (vary-meta (with-meta [1] {:x 1}) update :x inc))" :portability :common} - {:suite "conformance / metadata / vars" :label "defonce no-redef" :expected "1" :actual "(do (defonce dv1 1) (defonce dv1 2) dv1)" :portability :common} - {:suite "conformance / metadata / vars" :label "binding dynamic" :expected "10" :actual "(do (def ^:dynamic *x* 1) (binding [*x* 10] *x*))" :portability :common} - {:suite "conformance / try / catch" :label "try catch" :expected ":caught" :actual "(try (throw (ex-info \"e\" {})) (catch :default e :caught))" :portability :common} - {:suite "conformance / try / catch" :label "ex-data" :expected "{:a 1}" :actual "(try (throw (ex-info \"m\" {:a 1})) (catch :default e (ex-data e)))" :portability :common} - {:suite "conformance / try / catch" :label "ex-message" :expected "\"m\"" :actual "(try (throw (ex-info \"m\" {})) (catch :default e (ex-message e)))" :portability :common} - {:suite "conformance / macros" :label "macroexpand-1" :expected "true" :actual "(do (defmacro mm [x] (list (quote inc) x)) (= (quote (inc 5)) (macroexpand-1 (quote (mm 5)))))" :portability :common} - {:suite "conformance / macros" :label "doto" :expected "{:a 1}" :actual "(deref (doto (atom {}) (swap! assoc :a 1)))" :portability :common} - {:suite "conformance / printing" :label "prn-str" :expected "\"1\\n\"" :actual "(prn-str 1)" :portability :common} - {:suite "conformance / characters" :label "char not string" :expected "false" :actual "(= \\a \"a\")" :portability :common} - {:suite "conformance / characters" :label "char eq" :expected "true" :actual "(= \\a \\a)" :portability :common} - {:suite "conformance / characters" :label "int of char" :expected "97" :actual "(int \\a)" :portability :common} - {:suite "conformance / characters" :label "char of int" :expected "true" :actual "(= \\A (char 65))" :portability :common} - {:suite "conformance / characters" :label "str of chars" :expected "\"abc\"" :actual "(str \\a \\b \\c)" :portability :common} - {:suite "conformance / characters" :label "first of string" :expected "\\h" :actual "(first \"hello\")" :portability :common} - {:suite "conformance / characters" :label "nth of string" :expected "\\e" :actual "(nth \"hello\" 1)" :portability :common} - {:suite "conformance / characters" :label "char newline" :expected "10" :actual "(int \\newline)" :portability :common} - {:suite "conformance / characters" :label "char space" :expected "32" :actual "(int \\space)" :portability :common} - {:suite "conformance / characters" :label "pr-str char" :expected "\"\\\\a\"" :actual "(pr-str \\a)" :portability :common} - {:suite "conformance / characters" :label "chars in vec" :expected "[\\a \\b]" :actual "[\\a \\b]" :portability :common} - {:suite "conformance / characters" :label "apply str chars" :expected "\"hi\"" :actual "(apply str [\\h \\i])" :portability :common} - {:suite "conformance / transducers" :label "transduce map" :expected "9" :actual "(transduce (map inc) + 0 [1 2 3])" :portability :common} - {:suite "conformance / transducers" :label "transduce comp" :expected "12" :actual "(transduce (comp (map inc) (filter even?)) + 0 [1 2 3 4 5])" :portability :common} - {:suite "conformance / transducers" :label "transduce conj" :expected "[2 3 4]" :actual "(transduce (map inc) conj [] [1 2 3])" :portability :common} - {:suite "conformance / transducers" :label "into comp xform" :expected "[1 9 25]" :actual "(into [] (comp (filter odd?) (map (fn [x] (* x x)))) [1 2 3 4 5])" :portability :common} - {:suite "conformance / transducers" :label "into take xform" :expected "[0 1 2]" :actual "(into [] (take 3) (range 100))" :portability :common} - {:suite "conformance / transducers" :label "transduce no-init" :expected "6" :actual "(transduce (map inc) + [0 1 2])" :portability :common} - {:suite "conformance / transducers" :label "transduce drop" :expected "[3 4 5]" :actual "(into [] (drop 2) [1 2 3 4 5])" :portability :common} - {:suite "conformance / transducers" :label "transduce remove" :expected "[1 3 5]" :actual "(into [] (remove even?) [1 2 3 4 5])" :portability :common} - {:suite "conformance / transducers" :label "transduce take-while" :expected "[1 2]" :actual "(into [] (take-while (fn [x] (< x 3))) [1 2 3 4 1])" :portability :common} - {:suite "conformance / transducers" :label "transduce map-indexed" :expected "[[0 :a] [1 :b]]" :actual "(into [] (map-indexed (fn [i x] [i x])) [:a :b])" :portability :common} - {:suite "conformance / transducers" :label "partition-all xform" :expected "[[1 2] [3 4] [5]]" :actual "(into [] (partition-all 2) [1 2 3 4 5])" :portability :common} - {:suite "conformance / transducers" :label "partition-all xform comp" :expected "[2 2 1]" :actual "(into [] (comp (partition-all 2) (map count)) [1 2 3 4 5])" :portability :common} - {:suite "conformance / transducers" :label "partition-by xform" :expected "[[1 1] [2 4] [5]]" :actual "(into [] (partition-by odd?) [1 1 2 4 5])" :portability :common} - {:suite "conformance / transducers" :label "partition-by xform reduced" :expected "[[1 1] [2 4]]" :actual "(into [] (comp (partition-by odd?) (take 2)) [1 1 2 4 5 5])" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-find groups" :expected "[\"12-34\" \"12\" \"34\"]" :actual "(re-find #\"(\\d+)-(\\d+)\" \"x12-34y\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-find no-groups" :expected "\"123\"" :actual "(re-find #\"\\d+\" \"ab123\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-matches groups" :expected "[\"1.2\" \"1\" \"2\"]" :actual "(re-matches #\"(\\d+)\\.(\\d+)\" \"1.2\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "greedy backtrack" :expected "\"xxfoo\"" :actual "(re-find #\".*foo\" \"xxfoo\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "greedy thru group" :expected "[\"a,b,c\" \"a,b\" \"c\"]" :actual "(re-find #\"(.*),(.*)\" \"a,b,c\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "lazy quantifier" :expected "[\"\" \"a\"]" :actual "(re-find #\"<(.+?)>\" \"\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "flag case-insens" :expected "\"CAT\"" :actual "(re-find #\"(?i)cat\" \"a CAT\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "lookahead" :expected "\"foo\"" :actual "(re-find #\"foo(?=bar)\" \"foobar\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "neg-lookahead" :expected "\"foo\"" :actual "(re-find #\"foo(?!bar)\" \"foobaz\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "word-boundary" :expected "\"word\"" :actual "(re-find #\"\\bword\\b\" \"a word!\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "word-boundary no" :expected "nil" :actual "(re-find #\"\\bword\\b\" \"swordfish\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "optional group" :expected "[\"1.2.3\" \"1\" \"2\" \"3\" nil]" :actual "(re-find #\"(\\d+)\\.(\\d+)\\.(\\d+)(?:-([a-z]+))?\" \"1.2.3\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "alternation" :expected "\"dog\"" :actual "(re-find #\"cat|dog\" \"a dog cat\")" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "str/replace $1" :expected "\"he[ll]o\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"hello\" #\"(l+)\" \"[$1]\"))" :portability :common} - {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "str/replace regex (2)" :expected "\"X-X\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"a-b\" #\"[a-z]\" \"X\"))" :portability :common} - {:suite "conformance / map literals evaluate their values" :label "map literal var" :expected "{:k 5}" :actual "(let [x 5] {:k x})" :portability :common} - {:suite "conformance / map literals evaluate their values" :label "map literal nested" :expected "{:a {:b 2}}" :actual "(let [y 2] {:a {:b y}})" :portability :common} - {:suite "conformance / map literals evaluate their values" :label "map literal keyfn" :expected "{:x 1}" :actual "(let [k :x] {k 1})" :portability :common} - {:suite "conformance / map literals evaluate their values" :label "map literal in fn" :expected "6" :actual "(do (defn mk [a b] {:sum (+ a b)}) (:sum (mk 2 4)))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "def 3-arg docstring" :expected "42" :actual "(do (def dd \"the doc\" 42) dd)" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "def docstring value type" :expected "true" :actual "(do (def ds \"doc\" [1 2]) (vector? ds))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "def ^{:map} name" :expected "5" :actual "(do (def ^{:private true} mmv 5) mmv)" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defn ^{:map} name" :expected "25" :actual "(do (defn ^{:private true} sqf [x] (* x x)) (sqf 5))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defmacro arity-clause" :expected "10" :actual "(do (defmacro m2c ([x] (list (quote *) x 2))) (m2c 5))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defmacro doc + arity" :expected "30" :actual "(do (defmacro m3c \"doc\" ([x] (list (quote *) x 3))) (* (m3c 5) 2))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defmulti docstring" :expected "\"A\"" :actual "(do (defmulti gmm \"the doc\" identity) (defmethod gmm :a [_] \"A\") (gmm :a))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "try multi-body last" :expected "3" :actual "(try 1 2 3 (catch :default e 0))" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "try finally on ok+catch" :expected "9" :actual "(let [a (atom 0)] (try 1 2 (catch :default e :c) (finally (reset! a 9))) @a)" :portability :common} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "ns restored after catch" :expected "\"user\"" :actual "(do (ns cf.boom) (defn bz [] (throw (Exception. \"e\"))) (in-ns (quote user)) (try (cf.boom/bz) (catch :default e nil)) (str *ns*))" :portability :jvm} - {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "cross-ns methods visible" :expected "[:sql]" :actual "(do (ns cf.mm) (defmulti ext identity) (defmethod ext :default [_] :d) (defn allk [] (vec (for [[k v] (methods ext) :when (not= k :default)] k))) (ns cf.mmi) (defmethod cf.mm/ext :sql [_] :s) (in-ns (quote user)) (cf.mm/allk))" :portability :common} - {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "defmacro multi-arity" :expected "[6 5 6]" :actual "(do (defmacro mar ([a] (list (quote +) a 1)) ([a b] (list (quote +) a b)) ([a b c] (list (quote +) a b c))) [(mar 5) (mar 2 3) (mar 1 2 3)])" :portability :common} - {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "defmacro doc + attr-map" :expected "10" :actual "(do (defmacro mam \"doc\" {:arglists (quote ([x]))} [x] (list (quote inc) x)) (mam 9))" :portability :common} - {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "syntax-quote resolves alias" :expected "\"HI\"" :actual "(do (ns sq.lib (:require [clojure.string :as s])) (defmacro up [x] `(s/upper-case ~x)) (in-ns (quote user)) (sq.lib/up \"hi\"))" :portability :common} - {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "ns name with ^{:map} meta" :expected "5" :actual "(do (ns ^{:author \"a\" :doc \"d\"} nm.meta) (def q 5) (in-ns (quote user)) nm.meta/q)" :portability :common} - {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "unquote *ns* in template" :expected "true" :actual "(do (defmacro cur-ns [] `(str ~*ns*)) (string? (cur-ns)))" :portability :common} - {:suite "reader / read-string constructs sets" :label "top-level set" :expected "true" :actual "(set? (read-string \"#{:a :b}\"))" :portability :common} - {:suite "reader / read-string constructs sets" :label "set value equals" :expected "true" :actual "(= #{1 2} (read-string \"#{1 2}\"))" :portability :common} - {:suite "reader / read-string constructs sets" :label "set nested in map" :expected "true" :actual "(set? (:k (read-string \"{:k #{:a :b}}\")))" :portability :common} - {:suite "reader / read-string constructs sets" :label "set nested in vector" :expected "true" :actual "(set? (first (read-string \"[#{:a}]\")))" :portability :common} - {:suite "reader / read-string constructs sets" :label "set nested in list" :expected "true" :actual "(set? (first (read-string \"(#{:a})\")))" :portability :common} - {:suite "reader / read-string constructs sets" :label "set keeps reader metadata" :expected "true" :actual "(:s (meta (read-string \"^:s #{1 2}\")))" :portability :common} - {:suite "reader / read-string constructs sets" :label "set of sets" :expected "true" :actual "(every? set? (read-string \"#{#{1} #{2}}\"))" :portability :common} - {:suite "io / str & format" :label "format %x lowercase" :expected "\"ff\"" :actual "(format \"%x\" 255)" :portability :common} - {:suite "io / str & format" :label "format %04x zero-pad lower" :expected "\"00ff\"" :actual "(format \"%04x\" 255)" :portability :common} - {:suite "io / str & format" :label "format %X uppercase" :expected "\"00FF\"" :actual "(format \"%04X\" 255)" :portability :common} - {:suite "io / str & format" :label "format %x wide hex" :expected "\"deadbeef\"" :actual "(format \"%x\" 3735928559)" :portability :common} - {:suite "protocols / extend & extends? on nil" :label "extend nil dispatches" :expected ":nil-via-extend" :actual "(do (defprotocol P2 (q [this])) (extend nil P2 {:q (fn [_] :nil-via-extend)}) (q nil))" :portability :common} - {:suite "protocols / extend & extends? on nil" :label "extends? nil when extended" :expected "true" :actual "(do (defprotocol Pe (pe [this])) (extend nil Pe {:pe (fn [_] :x)}) (extends? Pe nil))" :portability :common} - {:suite "protocols / extend & extends? on nil" :label "extends? nil when not extended" :expected "false" :actual "(do (defprotocol P3 (r [this])) (extends? P3 nil))" :portability :common} - {:suite "protocols / extend & extends? on nil" :label "extend-type nil still works" :expected ":via-type" :actual "(do (defprotocol P4 (s [this])) (extend-type nil P4 (s [_] :via-type)) (s nil))" :portability :common} - {:suite "protocols / extend on host classes" :label "dispatch by java.util.Map/Collection/CharSequence" :expected "[:map :coll :str :obj]" :actual "(do (defprotocol W (-w [x])) (extend java.util.Map W {:-w (fn [_] :map)}) (extend java.util.Collection W {:-w (fn [_] :coll)}) (extend java.lang.CharSequence W {:-w (fn [_] :str)}) (extend java.lang.Object W {:-w (fn [_] :obj)}) [(-w {:a 1}) (-w [1 2]) (-w \"s\") (-w 42)])" :portability :jvm} - {:suite "protocols / extend on host classes" :label "satisfies? via java.util.Map" :expected "true" :actual "(do (defprotocol Q (qq [x])) (extend java.util.Map Q {:qq (fn [_] :m)}) (satisfies? Q {}))" :portability :jvm} - {:suite "protocols / extend on host classes" :label "extends? on a qualified host class" :expected "true" :actual "(do (defprotocol Qe (qe [x])) (extend java.util.Collection Qe {:qe (fn [_] :c)}) (extends? Qe java.util.Collection))" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "keyword is Named" :expected "true" :actual "(instance? clojure.lang.Named :a)" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "string is CharSequence" :expected "true" :actual "(instance? java.lang.CharSequence \"s\")" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "number is Number" :expected "true" :actual "(instance? java.lang.Number 42)" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "map is java.util.Map" :expected "true" :actual "(instance? java.util.Map {:a 1})" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "vector is java.util.List" :expected "true" :actual "(instance? java.util.List [1 2])" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "list is java.util.Collection" :expected "true" :actual "(instance? java.util.Collection (list 1))" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "set is java.util.Set" :expected "true" :actual "(instance? java.util.Set #{1})" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "map is not a Collection" :expected "false" :actual "(instance? java.util.Collection {:a 1})" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "vector is Associative" :expected "true" :actual "(instance? clojure.lang.Associative [1])" :portability :jvm} - {:suite "interop / instance? on host interfaces" :label "string is not Number" :expected "false" :actual "(instance? java.lang.Number \"s\")" :portability :jvm} - {:suite "interop / String & StringBuilder char ops" :label "String from char-array slice" :expected "\"abc\"" :actual "(String. (char-array [\\a \\b \\c \\d]) 0 3)" :portability :jvm} - {:suite "interop / String & StringBuilder char ops" :label "str of StringBuilder" :expected "\"hi\"" :actual "(let [sb (StringBuilder.)] (.append sb \"hi\") (str sb))" :portability :jvm} - {:suite "interop / String & StringBuilder char ops" :label "append subsequence" :expected "\"bcd\"" :actual "(let [sb (StringBuilder.)] (.append sb \"abcde\" 1 4) (.toString sb))" :portability :jvm} - {:suite "interop / String & StringBuilder char ops" :label "String.getChars into buffer" :expected "\"abc\"" :actual "(let [a (char-array 4)] (.getChars \"abcd\" 0 3 a 0) (String. a 0 3))" :portability :jvm} - {:suite "interop / numbers & classes" :label "Integer/toHexString lowercase" :expected "\"ff\"" :actual "(Integer/toHexString 255)" :portability :jvm} - {:suite "interop / numbers & classes" :label "Integer/toHexString wide" :expected "\"1234\"" :actual "(Integer/toHexString 4660)" :portability :jvm} - {:suite "interop / numbers & classes" :label ".isNaN on a double" :expected "true" :actual "(.isNaN (/ 0.0 0.0))" :portability :jvm} - {:suite "interop / numbers & classes" :label ".isInfinite on a double" :expected "true" :actual "(.isInfinite (/ 1.0 0.0))" :portability :jvm} - {:suite "interop / numbers & classes" :label ".isNaN false for finite" :expected "false" :actual "(.isNaN 1.0)" :portability :jvm} - {:suite "interop / numbers & classes" :label "protocol dispatch Long vs Double" :expected "[:l :d]" :actual "(do (defprotocol N (-n [x])) (extend java.lang.Long N {:-n (fn [_] :l)}) (extend java.lang.Double N {:-n (fn [_] :d)}) [(-n 5) (-n 5.0)])" :portability :jvm} - {:suite "interop / numbers & classes" :label "instance? PushbackReader" :expected "true" :actual "(instance? java.io.PushbackReader (java.io.PushbackReader. (java.io.StringReader. \"x\")))" :portability :jvm} - {:suite "interop / numbers & classes" :label "EOFException catch by class" :expected "\"boom\"" :actual "(try (throw (java.io.EOFException. \"boom\")) (catch java.io.EOFException e (.getMessage e)))" :portability :jvm} - {:suite "interop / numbers & classes" :label "Reader.read into char[]" :expected "[4 \"abcd\"]" :actual "(let [r (java.io.StringReader. \"abcd\") b (char-array 4)] (let [n (.read r b 0 4)] [n (String. b 0 n)]))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate toString" :expected "\"2020-01-15\"" :actual "(str (java.time.LocalDate/of 2020 1 15))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate plusDays over leap day" :expected "\"2020-02-29\"" :actual "(str (.plusDays (java.time.LocalDate/of 2020 2 28) 1))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate equality" :expected "true" :actual "(= (java.time.LocalDate/of 2020 1 15) (java.time.LocalDate/of 2020 1 15))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate compare" :expected "-1" :actual "(compare (java.time.LocalDate/of 2020 1 15) (java.time.LocalDate/of 2020 1 16))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate ofEpochDay round-trip" :expected "1" :actual "(.toEpochDay (java.time.LocalDate/of 1970 1 2))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate parse" :expected "\"2020-01-15\"" :actual "(str (java.time.LocalDate/parse \"2020-01-15\"))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate getDayOfWeek name" :expected "\"WEDNESDAY\"" :actual "(.name (.getDayOfWeek (java.time.LocalDate/of 2020 1 15)))" :portability :jvm} - {:suite "interop / java.time" :label "LocalTime toString" :expected "\"10:30:15\"" :actual "(str (java.time.LocalTime/of 10 30 15))" :portability :jvm} - {:suite "interop / java.time" :label "LocalTime plusHours wraps midnight" :expected "\"01:30\"" :actual "(str (.plusHours (java.time.LocalTime/of 23 30) 2))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDateTime toString" :expected "\"2020-01-15T10:30\"" :actual "(str (java.time.LocalDateTime/of 2020 1 15 10 30 0))" :portability :jvm} - {:suite "interop / java.time" :label "Instant ofEpochMilli toString" :expected "\"2020-01-15T10:30:00Z\"" :actual "(str (java.time.Instant/ofEpochMilli 1579084200000))" :portability :jvm} - {:suite "interop / java.time" :label "Instant ofEpochMilli round-trip" :expected "1579084200000" :actual "(.toEpochMilli (java.time.Instant/ofEpochMilli 1579084200000))" :portability :jvm} - {:suite "interop / java.time" :label "Duration ofSeconds toString" :expected "\"PT1M30S\"" :actual "(str (java.time.Duration/ofSeconds 90))" :portability :jvm} - {:suite "interop / java.time" :label "Duration between instants" :expected "\"PT1H1M1S\"" :actual "(str (java.time.Duration/between (java.time.Instant/ofEpochSecond 0) (java.time.Instant/ofEpochSecond 3661)))" :portability :jvm} - {:suite "interop / java.time" :label "Period between dates" :expected "\"P1Y2M2D\"" :actual "(str (java.time.Period/between (java.time.LocalDate/of 2020 1 1) (java.time.LocalDate/of 2021 3 3)))" :portability :jvm} - {:suite "interop / java.time" :label "Period parse round-trip" :expected "\"P1Y2M3D\"" :actual "(str (java.time.Period/parse \"P1Y2M3D\"))" :portability :jvm} - {:suite "interop / java.time" :label "Period normalized" :expected "\"P2Y1M5D\"" :actual "(str (.normalized (java.time.Period/of 1 13 5)))" :portability :jvm} - {:suite "interop / java.time" :label "Month of toString" :expected "\"FEBRUARY\"" :actual "(.toString (java.time.Month/of 2))" :portability :jvm} - {:suite "interop / java.time" :label "Month length leap" :expected "29" :actual "(.length (java.time.Month/of 2) true)" :portability :jvm} - {:suite "interop / java.time" :label "DayOfWeek constant prints name" :expected "\"MONDAY\"" :actual "(str java.time.DayOfWeek/MONDAY)" :portability :jvm} - {:suite "interop / java.time" :label "YearMonth toString" :expected "\"2020-02\"" :actual "(str (java.time.YearMonth/of 2020 2))" :portability :jvm} - {:suite "interop / java.time" :label "ChronoUnit DAYS between" :expected "14" :actual "(.between java.time.temporal.ChronoUnit/DAYS (java.time.LocalDate/of 2020 1 1) (java.time.LocalDate/of 2020 1 15))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate plus ChronoUnit DAYS" :expected "\"2020-01-04\"" :actual "(str (.plus (java.time.LocalDate/of 2020 1 1) 3 java.time.temporal.ChronoUnit/DAYS))" :portability :jvm} - {:suite "interop / java.time" :label "LocalDate until ChronoUnit DAYS" :expected "31" :actual "(.until (java.time.LocalDate/of 2020 1 1) (java.time.LocalDate/of 2020 2 1) java.time.temporal.ChronoUnit/DAYS)" :portability :jvm} - {:suite "interop / java.time" :label "ZoneOffset ofHoursMinutes toString" :expected "\"+02:00\"" :actual "(str (java.time.ZoneOffset/ofHoursMinutes 2 0))" :portability :jvm} - {:suite "interop / java.time" :label "ZoneOffset ofTotalSeconds toString" :expected "\"-04:30\"" :actual "(str (java.time.ZoneOffset/ofTotalSeconds -16200))" :portability :jvm} - {:suite "interop / java.time" :label "ZoneOffset UTC toString" :expected "\"Z\"" :actual "(str java.time.ZoneOffset/UTC)" :portability :jvm} - {:suite "interop / java.time" :label "ZoneOffset of getTotalSeconds" :expected "7200" :actual "(.getTotalSeconds (java.time.ZoneOffset/of \"+02:00\"))" :portability :jvm} - {:suite "interop / java.time" :label "ZoneOffset ofHoursMinutes negative" :expected "\"-04:30\"" :actual "(.getId (java.time.ZoneOffset/ofHoursMinutes -4 -30))" :portability :jvm} - {:suite "interop / java.time" :label "OffsetDateTime toInstant" :expected "\"2020-01-15T08:30:00Z\"" :actual "(str (.toInstant (java.time.OffsetDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneOffset/ofHours 2))))" :portability :jvm} - {:suite "interop / java.time" :label "OffsetDateTime toString" :expected "\"2020-01-15T10:30+02:00\"" :actual "(str (java.time.OffsetDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneOffset/ofHours 2)))" :portability :jvm} - {:suite "interop / java.time" :label "ZonedDateTime withZoneSameInstant UTC" :expected "\"2020-01-15T08:30Z\"" :actual "(str (.withZoneSameInstant (java.time.ZonedDateTime/parse \"2020-01-15T10:30:00+02:00[Europe/Paris]\") java.time.ZoneOffset/UTC))" :portability :jvm} - {:suite "interop / java.time" :label "ZonedDateTime of toInstant fixed offset" :expected "\"2020-01-15T08:30:00Z\"" :actual "(str (.toInstant (java.time.ZonedDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneId/of \"+02:00\"))))" :portability :jvm} - {:suite "interop / java.time" :label "DateTimeFormatter ofPattern format" :expected "\"2020-01-15 10:30:00\"" :actual "(.format (java.time.format.DateTimeFormatter/ofPattern \"yyyy-MM-dd HH:mm:ss\") (java.time.LocalDateTime/of 2020 1 15 10 30 0))" :portability :jvm} - {:suite "interop / java.time" :label "ISO_LOCAL_DATE_TIME format" :expected "\"2020-01-15T10:30:00\"" :actual "(.format java.time.format.DateTimeFormatter/ISO_LOCAL_DATE_TIME (java.time.LocalDateTime/of 2020 1 15 10 30 0))" :portability :jvm} - {:suite "interop / java.time" :label "ISO_OFFSET_DATE_TIME format" :expected "\"2020-01-15T10:30:00+02:00\"" :actual "(.format java.time.format.DateTimeFormatter/ISO_OFFSET_DATE_TIME (java.time.OffsetDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneOffset/ofHours 2)))" :portability :jvm} - {:suite "interop / java.time" :label "Instant plusNanos toString nanos group" :expected "\"1970-01-01T00:00:00.000000001Z\"" :actual "(str (.plusNanos (java.time.Instant/ofEpochSecond 0) 1))" :portability :jvm} - {:suite "interop / java.time" :label "Instant one nano differs" :expected "false" :actual "(= (java.time.Instant/ofEpochSecond 0) (.plusNanos (java.time.Instant/ofEpochSecond 0) 1))" :portability :jvm} - {:suite "interop / java.time" :label "Instant getNano single nano" :expected "1" :actual "(.getNano (.plusNanos (java.time.Instant/ofEpochSecond 0) 1))" :portability :jvm} - {:suite "interop / java.time" :label "Instant ofEpochSecond nano millis group" :expected "\"1970-01-01T00:00:00.001Z\"" :actual "(str (java.time.Instant/ofEpochSecond 0 1000000))" :portability :jvm} - {:suite "interop / java.time" :label "Instant ofEpochSecond nano micros group" :expected "\"1970-01-01T00:00:00.000001Z\"" :actual "(str (java.time.Instant/ofEpochSecond 0 1000))" :portability :jvm} - {:suite "interop / java.time" :label "Instant plusSeconds keeps nanos" :expected "\"1970-01-01T00:00:02.000000005Z\"" :actual "(str (.plusSeconds (.plusNanos (java.time.Instant/ofEpochSecond 0) 5) 2))" :portability :jvm} - {:suite "interop / java.time" :label "Instant getEpochSecond floors negative nano" :expected "-1" :actual "(.getEpochSecond (.plusNanos (java.time.Instant/ofEpochSecond 0) -1))" :portability :jvm} - {:suite "interop / java.time" :label "Instant getNano of negative nano" :expected "999999999" :actual "(.getNano (.plusNanos (java.time.Instant/ofEpochSecond 0) -1))" :portability :jvm} - {:suite "interop / java.time" :label "Instant toEpochMilli floors sub-milli" :expected "1000" :actual "(.toEpochMilli (.plusNanos (java.time.Instant/ofEpochSecond 1) 999999))" :portability :jvm} - {:suite "interop / java.time" :label "Instant truncatedTo SECONDS drops nanos" :expected "\"1970-01-01T00:00:05Z\"" :actual "(str (.truncatedTo (.plusNanos (java.time.Instant/ofEpochSecond 5) 123) java.time.temporal.ChronoUnit/SECONDS))" :portability :jvm} - {:suite "interop / java.io File" :label "getName" :expected "\"c.txt\"" :actual "(.getName (java.io.File. \"/a/b/c.txt\"))" :portability :jvm} - {:suite "interop / java.io File" :label "getParent" :expected "\"/a/b\"" :actual "(.getParent (java.io.File. \"/a/b/c.txt\"))" :portability :jvm} - {:suite "interop / java.io File" :label "getPath keeps relative path" :expected "\"rel/x\"" :actual "(.getPath (java.io.File. \"rel/x\"))" :portability :jvm} - {:suite "interop / java.io File" :label "relative File is not absolute" :expected "false" :actual "(.isAbsolute (java.io.File. \"rel\"))" :portability :jvm} - {:suite "interop / java.io File" :label "parent+child constructor joins" :expected "\"/a/b\"" :actual "(.getPath (java.io.File. \"/a\" \"b\"))" :portability :jvm} - {:suite "interop / java.io File" :label "File/separator" :expected "\"/\"" :actual "java.io.File/separator" :portability :jvm} - {:suite "interop / java.io File" :label "str of File is its path" :expected "\"a/b\"" :actual "(str (java.io.File. \"a/b\"))" :portability :jvm} - {:suite "interop / java.io File" :label "mkdir then delete a temp dir" :expected "[true true true]" :actual "(let [d (java.io.File/createTempFile \"jd\" \"\")] (.delete d) [(.mkdir d) (.isDirectory d) (.delete d)])" :portability :jvm} - {:suite "interop / java.io streams" :label "ByteArrayOutputStream toString" :expected "\"hi!\"" :actual "(let [b (java.io.ByteArrayOutputStream.)] (.write b (.getBytes \"hi\")) (.write b 33) (.toString b))" :portability :jvm} - {:suite "interop / java.io streams" :label "ByteArrayOutputStream size" :expected "4" :actual "(let [b (java.io.ByteArrayOutputStream.)] (.write b (.getBytes \"abcd\")) (.size b))" :portability :jvm} - {:suite "interop / java.io streams" :label "ByteArrayOutputStream toByteArray round-trips" :expected "\"yo\"" :actual "(String. (.toByteArray (doto (java.io.ByteArrayOutputStream.) (.write (.getBytes \"yo\")))))" :portability :jvm} - {:suite "interop / java.io streams" :label "ByteArrayInputStream read to EOF" :expected "[65 66 -1]" :actual "(let [in (java.io.ByteArrayInputStream. (.getBytes \"AB\"))] [(.read in) (.read in) (.read in)])" :portability :jvm} - {:suite "interop / java.io streams" :label "BufferedReader over StringReader readLine" :expected "[\"a\" \"b\" nil]" :actual "(let [r (java.io.BufferedReader. (java.io.StringReader. \"a\\nb\\n\"))] [(.readLine r) (.readLine r) (.readLine r)])" :portability :jvm} - {:suite "interop / java.io streams" :label "instance? InputStream" :expected "true" :actual "(instance? java.io.InputStream (java.io.ByteArrayInputStream. (.getBytes \"x\")))" :portability :jvm} - {:suite "interop / java.io streams" :label "FileOutputStream then FileInputStream round-trip" :expected "90" :actual "(let [f (java.io.File/createTempFile \"jc\" \".t\") o (java.io.FileOutputStream. f)] (.write o (byte-array [90])) (.close o) (let [in (java.io.FileInputStream. f) b (.read in)] (.close in) (.delete f) b))" :portability :jvm} - {:suite "clojure.edn / unknown tags" :label "unknown tag throws naming the tag" :expected "\"No reader function for tag foobar\"" :actual "(do (require (quote [clojure.edn :as e1])) (try (e1/read-string \"#foobar 1\") (catch Exception e (ex-message e))))" :portability :common} - {:suite "clojure.edn / unknown tags" :label "object tag throws naming the tag" :expected "\"No reader function for tag object\"" :actual "(do (require (quote [clojure.edn :as e2])) (try (e2/read-string \"#object [1 2 3]\") (catch Exception e (ex-message e))))" :portability :common} - {:suite "clojure.edn / unknown tags" :label ":default opt handles an unknown tag" :expected "[\"foobar\" 9]" :actual "(do (require (quote [clojure.edn :as e3])) (e3/read-string {:default (fn [t v] [(name t) v])} \"#foobar 9\"))" :portability :common} - {:suite "deftype / clojure.lang interfaces" :label "Indexed + Counted dispatch" :expected "[3 20]" :actual "(do (deftype Row [v] clojure.lang.Indexed (nth [_ i] (nth v i)) (nth [_ i x] (nth v i x)) clojure.lang.Counted (count [_] (count v))) [(count (->Row [10 20 30])) (nth (->Row [10 20 30]) 1)])" :portability :jvm} - {:suite "deftype / clojure.lang interfaces" :label "multi-arity inline method" :expected "[5 11]" :actual "(do (defprotocol PMul (mm [this a] [this a b])) (deftype TMul [] PMul (mm [_ a] a) (mm [_ a b] (+ a b))) [(mm (->TMul) 5) (mm (->TMul) 5 6)])" :portability :common} - {:suite "deftype / clojure.lang interfaces" :label "ILookup valAt computes a non-field key" :expected "[1 :miss]" :actual "(do (deftype TL [a] clojure.lang.ILookup (valAt [this k] (.valAt this k nil)) (valAt [_ k nf] (case k :a a :computed 99 nf))) [(:a (->TL 1)) (get (->TL 1) :nope :miss)])" :portability :jvm} - {:suite "deftype / clojure.lang interfaces" :label "marker protocol satisfies?" :expected "true" :actual "(do (defprotocol PMark) (deftype TM [] PMark) (satisfies? PMark (->TM)))" :portability :common} - {:suite "deftype / clojure.lang interfaces" :label "IFn record is callable" :expected "7" :actual "(do (deftype Adder [n] clojure.lang.IFn (invoke [_ x] (+ n x))) ((->Adder 5) 2))" :portability :jvm} - {:suite "interop / collections" :label "Map keySet" :expected "true" :actual "(= (set (.keySet {:a 1 :b 2})) #{:a :b})" :portability :jvm} - {:suite "interop / collections" :label "instance? ILookup on a map" :expected "true" :actual "(instance? clojure.lang.ILookup {:a 1})" :portability :jvm} - {:suite "interop / collections" :label "instance? Indexed on a vector" :expected "true" :actual "(instance? clojure.lang.Indexed [1 2 3])" :portability :jvm} - {:suite "interop / java.util.Date" :label "deprecated getYear/getMonth" :expected "[110 0]" :actual "(let [d (java.util.Date. 110 0 15)] [(.getYear d) (.getMonth d)])" :portability :jvm} - {:suite "clojure.set / variadic" :label "union of 4 sets" :expected "#{1 2 3 4}" :actual "(do (require (quote clojure.set)) (clojure.set/union #{1} #{2} #{3} #{4}))" :portability :common} - {:suite "clojure.set / variadic" :label "intersection of 3 sets" :expected "#{3}" :actual "(do (require (quote clojure.set)) (clojure.set/intersection #{1 2 3} #{2 3 4} #{3 4 5}))" :portability :common} - {:suite "regex / literal value" :label "literal is a Pattern" :expected "true" :actual "(instance? java.util.regex.Pattern #\"a.c\")" :portability :jvm} - {:suite "regex / literal value" :label "re-matches on a literal" :expected "\"aaa\"" :actual "(re-matches #\"a+\" \"aaa\")" :portability :common} - {:suite "regex / literal value" :label "quoted regex round-trips" :expected "\"#\\\"a.c\\\"\"" :actual "(pr-str (quote #\"a.c\"))" :portability :common} - {:suite "regex / literal value" :label "extend-protocol to Pattern dispatches" :expected "[:pattern :other]" :actual "(do (defprotocol Tg (tg [_])) (extend-protocol Tg java.util.regex.Pattern (tg [_] :pattern) Object (tg [_] :other)) [(tg #\"x\") (tg 1)])" :portability :jvm} - {:suite "records / representation" :label "assoc a declared field keeps the record" :expected "[true 9 2]" :actual "(do (defrecord R [a b]) (let [x (assoc (->R 1 2) :a 9)] [(record? x) (:a x) (:b x)]))" :portability :common} - {:suite "records / representation" :label "assoc an extension field keeps the record" :expected "[true 3 1]" :actual "(do (defrecord R [a b]) (let [x (assoc (->R 1 2) :c 3)] [(record? x) (:c x) (:a x)]))" :portability :common} - {:suite "records / representation" :label "dissoc an extension field keeps the record" :expected "[true nil 1]" :actual "(do (defrecord R [a b]) (let [x (-> (->R 1 2) (assoc :c 3) (dissoc :c))] [(record? x) (:c x) (:a x)]))" :portability :common} - {:suite "records / representation" :label "dissoc a declared field downgrades to a map" :expected "[false true 2 false]" :actual "(do (defrecord R [a b]) (let [m (dissoc (->R 1 2) :a)] [(record? m) (map? m) (:b m) (contains? m :a)]))" :portability :common} - {:suite "records / representation" :label "count includes extension fields" :expected "[2 3]" :actual "(do (defrecord R [a b]) [(count (->R 1 2)) (count (assoc (->R 1 2) :c 3))])" :portability :common} - {:suite "records / representation" :label "keys are declared then extension order" :expected "[[:a :b] [:a :b :c]]" :actual "(do (defrecord R [a b]) [(vec (keys (->R 1 2))) (vec (keys (assoc (->R 1 2) :c 3)))])" :portability :common} - {:suite "records / representation" :label "a nil field value is present, not absent" :expected "[nil true :d]" :actual "(do (defrecord R [a b]) (let [n (->R nil 2)] [(:a n) (contains? n :a) (get (->R 1 2) :zzz :d)]))" :portability :common} - {:suite "records / representation" :label "seq yields field map-entries" :expected "[[:a 1] [:b 2]]" :actual "(do (defrecord R [a b]) (vec (map (fn [e] [(key e) (val e)]) (->R 1 2))))" :portability :common} - {:suite "records / representation" :label "conj a map-entry vector assocs it" :expected "3" :actual "(do (defrecord R [a b]) (:c (conj (->R 1 2) [:c 3])))" :portability :common} - {:suite "records / representation" :label "= after assoc of an unchanged field" :expected "true" :actual "(do (defrecord R [a b]) (= (assoc (->R 1 2) :a 1) (->R 1 2)))" :portability :common} - {:suite "records / representation" :label "= compares extension fields" :expected "[true false]" :actual "(do (defrecord R [a b]) [(= (assoc (->R 1 2) :c 9) (assoc (->R 1 2) :c 9)) (= (assoc (->R 1 2) :c 9) (->R 1 2))])" :portability :common} - {:suite "records / representation" :label "assoc then dissoc an extension field = original" :expected "true" :actual "(do (defrecord R [a b]) (= (-> (->R 1 2) (assoc :c 3) (dissoc :c)) (->R 1 2)))" :portability :common} - {:suite "records / representation" :label "map-> keeps extension keys" :expected "[true 3 [:a :b :c]]" :actual "(do (defrecord R [a b]) (let [m (map->R {:a 1 :b 2 :c 3})] [(record? m) (:c m) (vec (keys m))]))" :portability :common} - {:suite "records / representation" :label "record as a map key" :expected ":v" :actual "(do (defrecord R [a]) (get {(->R 1) :v} (->R 1)))" :portability :common} - {:suite "records / representation" :label "records dedup in a set by value" :expected "2" :actual "(do (defrecord R [a]) (count (into #{} [(->R 1) (->R 1) (->R 2)])))" :portability :common} - {:suite "records / representation" :label "nested record field reads" :expected "[2 1]" :actual "(do (defrecord N [l r v]) (let [t (->N (->N nil nil 1) nil 2)] [(:v t) (:v (:l t))]))" :portability :common} - {:suite "protocols / arity dispatch" :label "multi-arity protocol method on a record" :expected "[\"0:9\" \"1:9::a\" \"2:9::a::b\"]" :actual "(do (defprotocol P (m [this] [this x] [this x y])) (defrecord R [v] P (m [this] (str \"0:\" v)) (m [this x] (str \"1:\" v \":\" x)) (m [this x y] (str \"2:\" v \":\" x \":\" y))) [(m (->R 9)) (m (->R 9) :a) (m (->R 9) :a :b)])" :portability :common} - {:suite "protocols / arity dispatch" :label "two-arg protocol method" :expected "30" :actual "(do (defprotocol P (addp [this x y])) (defrecord R [n] P (addp [_ x y] (+ n (+ x y)))) (addp (->R 10) 7 13))" :portability :common} - {:suite "protocols / arity dispatch" :label "protocol method extended to a host type with an arg" :expected "\"S:hi:5\"" :actual "(do (defprotocol Q (mq [this a])) (extend-protocol Q java.lang.String (mq [this a] (str \"S:\" this \":\" a))) (mq \"hi\" 5))" :portability :jvm} - {:suite "protocols / arity dispatch" :label "protocol method used as a value" :expected "[1 2]" :actual "(do (defprotocol Z (z [this])) (defrecord ZR [v] Z (z [_] v)) (mapv z [(->ZR 1) (->ZR 2)]))" :portability :common} - {:suite "protocols / arity dispatch" :label "no-extra-arg method dispatches by type" :expected "[16 25]" :actual "(do (defprotocol Sh (ar [s])) (defrecord Sq [x] Sh (ar [_] (* x x))) (defrecord Sq2 [y] Sh (ar [_] (* y y))) [(ar (->Sq 4)) (ar (->Sq2 5))])" :portability :common} - {:suite "vectors / large trie" :label "linear build equals range across paths" :expected "true" :actual "(= (vec (range 2000)) (reduce conj [] (range 2000)) (into [] (range 2000)))" :portability :common} - {:suite "vectors / large trie" :label "nth across a multi-level vector" :expected "[0 1024 2000 2099]" :actual "(let [v (vec (range 2100))] [(nth v 0) (nth v 1024) (nth v 2000) (nth v 2099)])" :portability :common} - {:suite "vectors / large trie" :label "assoc in a large vector" :expected "[1098 :x 1100]" :actual "(let [v (assoc (vec (range 1100)) 1099 :x)] [(nth v 1098) (nth v 1099) (count v)])" :portability :common} - {:suite "vectors / large trie" :label "pop down across a level boundary" :expected "[1023 1022]" :actual "(let [p (pop (vec (range 1024)))] [(count p) (peek p)])" :portability :common} - {:suite "vectors / large trie" :label "pop to empty then rebuild" :expected "[0 5]" :actual "(let [e (loop [v (vec (range 100))] (if (seq v) (recur (pop v)) v))] [(count e) (count (into e (range 5)))])" :portability :common} - {:suite "printer / print-length" :label "truncates an infinite seq before realizing it" :expected "true" :actual "(= \"(0 1 2 ...)\" (binding [*print-length* 3] (pr-str (range))))" :portability :common} - {:suite "printer / print-length" :label "truncates a vector with ellipsis" :expected "true" :actual "(= \"[1 2 ...]\" (binding [*print-length* 2] (pr-str [1 2 3 4])))" :portability :common} - {:suite "printer / print-length" :label "exactly N elements prints no ellipsis" :expected "true" :actual "(= \"(0 1 2)\" (binding [*print-length* 3] (pr-str (range 3))))" :portability :common} - {:suite "printer / print-length" :label "nil default is unlimited" :expected "true" :actual "(= \"[1 2 3 4 5]\" (pr-str [1 2 3 4 5]))" :portability :common} - {:suite "printer / print-level" :label "collapses a collection past the level to #" :expected "true" :actual "(= \"[:a [:b #]]\" (binding [*print-level* 2] (pr-str [:a [:b [:c 1]]])))" :portability :common} - {:suite "printer / print-level" :label "level 0 collapses the top collection" :expected "true" :actual "(= \"#\" (binding [*print-level* 0] (pr-str [1 2])))" :portability :common} - {:suite "printer / print-level" :label "level 1 keeps the outermost collection" :expected "true" :actual "(= \"[# 3]\" (binding [*print-level* 1] (pr-str [[1 2] 3])))" :portability :common} - {:suite "printer / print-level" :label "scalars print regardless of level" :expected "true" :actual "(= \"[1 2]\" (binding [*print-level* 1] (pr-str [1 2])))" :portability :common} - {:suite "reader / default-data-reader-fn" :label "consulted for an unregistered tag" :expected "true" :actual "(= [(quote foo) 42] (binding [*default-data-reader-fn* (fn [tag v] [tag v])] (read-string \"#foo 42\")))" :portability :common} - {:suite "printer / print-vars" :label "print-length / print-level / default-data-reader-fn default to nil" :expected "[true true true]" :actual "[(nil? *print-length*) (nil? *print-level*) (nil? *default-data-reader-fn*)]" :portability :common} - {:suite "seqs / laziness" :label "an empty lazy seq is () not nil" :expected "true" :actual "(= () (lazy-seq nil))" :portability :common} - {:suite "seqs / laziness" :label "rest of a one-element coll is ()" :expected "true" :actual "(= () (rest [1]))" :portability :common} - {:suite "seqs / laziness" :label "first of iterate does not call f" :expected "true" :actual "(let [a (atom 0)] (first (iterate (fn [x] (swap! a inc) (inc x)) 0)) (= 0 @a))" :portability :common} - {:suite "seqs / laziness" :label "rest of iterate does not realize the next element" :expected "true" :actual "(let [a (atom 0)] (rest (iterate (fn [x] (swap! a inc) (inc x)) 0)) (= 0 @a))" :portability :common} - {:suite "seqs / laziness" :label "take from an infinite iterate" :expected "[0 1 2 3 4]" :actual "(vec (take 5 (iterate inc 0)))" :portability :common} - {:suite "seqs / laziness" :label "distinct over a rest-derived seq does not overrun" :expected "2" :actual "(count (distinct (map inc (rest [10 20 30]))))" :portability :common} - {:suite "transducers / map multi-input" :label "the map transducer applies f across all inputs" :expected "[6]" :actual "(((map +) conj) [] 1 2 3)" :portability :common} - {:suite "transducers / map multi-input" :label "single input is unchanged" :expected "[3]" :actual "(((map +) conj) [] 3)" :portability :common} - {:suite "records / deftype is not a map" :label "a bare deftype is neither map? nor record?, a defrecord is both" :expected "[false false true true]" :actual "(do (deftype DT [a]) (defrecord DR [a]) [(map? (->DT 1)) (record? (->DT 1)) (map? (->DR 1)) (record? (->DR 1))])" :portability :common} - {:suite "printer / str vs print" :label "str of a vector quotes nested strings" :expected "true" :actual "(= \"[\\\"x\\\"]\" (str [\"x\"]))" :portability :common} - {:suite "printer / str vs print" :label "print-str of a vector leaves strings raw" :expected "true" :actual "(= \"[x]\" (print-str [\"x\"]))" :portability :common} - {:suite "printer / str vs print" :label "str of a map quotes nested strings" :expected "true" :actual "(= \"{\\\"a\\\" \\\"b\\\"}\" (str {\"a\" \"b\"}))" :portability :common} - {:suite "printer / str vs print" :label "print-str of a map leaves strings raw" :expected "true" :actual "(= \"{:a x}\" (print-str {:a \"x\"}))" :portability :common} - {:suite "printer / str vs print" :label "infinity inside a collection prints readably in str" :expected "true" :actual "(= \"[##Inf]\" (str [##Inf]))" :portability :common} - {:suite "interop / uri equality" :label "URIs are value-equal and usable as set members" :expected "[true true]" :actual "[(= (java.net.URI. \"/\") (java.net.URI. \"/\")) (= #{(java.net.URI. \"/\")} #{(java.net.URI. \"/\")})]" :portability :jvm} - {:suite "stdlib / clojure.walk" :label "macroexpand-all expands a form" :expected "true" :actual "(do (require (quote clojure.walk)) (seq? (clojure.walk/macroexpand-all (quote (when true 1)))))" :portability :common} - {:suite "regex / re-seq zero-width" :label "a zero-width match advances by one without repeating" :expected "[\"a\" \"\" \"a\" \"\"]" :actual "(vec (re-seq #\"a*\" \"aba\"))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "conj onto a rest-derived seq prepends" :expected "true" :actual "(= [9 2 3] (vec (conj (rest [1 2 3]) 9)))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "conj onto a lazy-seq prepends" :expected "true" :actual "(= [9 1 2] (vec (conj (lazy-seq (list 1 2)) 9)))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "into over a conj'd rest-seq" :expected "true" :actual "(= [0 2 3] (into [] (conj (rest [1 2 3]) 0)))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "first of a conj'd rest-seq" :expected "true" :actual "(= 9 (first (conj (rest [1 2 3]) 9)))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "count of a conj'd rest-seq" :expected "true" :actual "(= 3 (count (conj (rest [1 2 3]) 9)))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "nth into a rest-seq" :expected "true" :actual "(= 3 (nth (rest [1 2 3]) 1))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "reduce over a rest-seq" :expected "true" :actual "(= 5 (reduce + (rest [1 2 3])))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "a rest-seq equals the literal tail" :expected "true" :actual "(= (quote (2 3)) (rest [1 2 3]))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "map over a rest-seq" :expected "true" :actual "(= [3 4] (vec (map inc (rest [1 2 3]))))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "filter over a rest-seq" :expected "true" :actual "(= [3] (vec (filter odd? (rest [1 2 3 4]))))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "apply over a rest-seq" :expected "true" :actual "(= 5 (apply + (rest [1 2 3])))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "seq of an empty rest is nil" :expected "true" :actual "(nil? (seq (rest [1])))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "empty? of an empty rest" :expected "true" :actual "(empty? (rest [1]))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "cons onto a rest-seq" :expected "true" :actual "(= [0 2 3] (vec (cons 0 (rest [1 2 3]))))" :portability :common} - {:suite "seqs / lazy-seq interop" :label "into a set from a rest-seq" :expected "true" :actual "(= #{2 3} (into #{} (rest [1 2 3])))" :portability :common} - {:suite "ifn / symbol as fn" :label "a symbol invokes as a map lookup" :expected "true" :actual "(= 5 ('a {(quote a) 5}))" :portability :common} - {:suite "ifn / symbol as fn" :label "a symbol fn takes a not-found default" :expected "true" :actual "(= :d ('a {} :d))" :portability :common} - {:suite "ifn / symbol as fn" :label "a symbol works as a mapping fn" :expected "true" :actual "(= [1 2] (vec (map (quote k) [{(quote k) 1} {(quote k) 2}])))" :portability :common} - {:suite "defn / attr-map" :label "docstring + attr-map both land in var meta" :expected "true" :actual "(do (defn f \"doc\" {:my :attr} [] 1) (= [\"doc\" :attr] [(:doc (meta (var f))) (:my (meta (var f)))]))" :portability :common} - {:suite "defn / attr-map" :label "attr-map without a docstring" :expected "true" :actual "(do (defn g {:my :attr} [] 1) (= :attr (:my (meta (var g)))))" :portability :common} - {:suite "defn / attr-map" :label "attr-map on a multi-arity defn" :expected "true" :actual "(do (defn h \"d\" {:my :a} ([] 1) ([a] a)) (= :a (:my (meta (var h)))))" :portability :common} - {:suite "defn / attr-map" :label "attr-map values are evaluated" :expected "true" :actual "(do (defn m {:val (+ 1 2)} [] 1) (= 3 (:val (meta (var m)))))" :portability :common} - {:suite "records / clojure.lang interop" :label "a record's Associative/ILookup methods delegate to the map fns" :expected "[1 9 true true 2]" :actual "(do (defrecord M [a b]) (let [m (->M 1 2)] [(.valAt m :a) (.valAt m :z 9) (= {:a 1 :b 2 :c 3} (into {} (.assoc m :c 3))) (.containsKey m :a) (.count m)]))" :portability :jvm} - {:suite "interop / number classes" :label "Byte/Short bounds + class tokens" :expected "[127 -128 32767 -32768 true]" :actual "[Byte/MAX_VALUE Byte/MIN_VALUE Short/MAX_VALUE Short/MIN_VALUE (= java.lang.Byte java.lang.Byte)]" :portability :jvm} - {:suite "reader / metadata" :label "a set in metadata is read as a value, not a tagged form" :expected "true" :actual "(= #{:a :b} (:foo (meta (read-string (binding [*print-meta* true] (pr-str (with-meta [1] {:foo #{:a :b}})))))))" :portability :common} - {:suite "reader / metadata" :label "metadata on an empty list is preserved" :expected "true" :actual "(= {:foo 1} (meta (read-string \"^{:foo 1} ()\")))" :portability :common} - {:suite "reader / metadata" :label "a vector in metadata reads as a value" :expected "true" :actual "(= [1 2] (:v (meta (read-string \"^{:v [1 2]} {:a 1}\"))))" :portability :common} - {:suite "reader / metadata" :label "an empty list in metadata reads as a value" :expected "true" :actual "(= () (:e (meta (read-string \"^{:e ()} [1]\"))))" :portability :common} - {:suite "edn / readers in collections" :label "a :default tag reader applies inside a set" :expected "true" :actual "(= #{[:t 1]} (clojure.edn/read-string {:default (fn [t v] [:t v])} \"#{#foo 1}\"))" :portability :common} - {:suite "edn / readers in collections" :label "a registered reader applies inside a set" :expected "true" :actual "(= #{6} (clojure.edn/read-string {:readers {(quote x) (fn [v] (* v 2))}} \"#{#x 3}\"))" :portability :common} - {:suite "metadata / immutability" :label "with-meta on a list does not mutate the original" :expected "true" :actual "(let [ds (list 1 2)] (with-meta ds {:k 1}) (nil? (meta ds)))" :portability :common} - {:suite "metadata / immutability" :label "with-meta on a list carries the metadata" :expected "true" :actual "(= {:k 1} (meta (with-meta (list 1) {:k 1})))" :portability :common} - {:suite "metadata / immutability" :label "a meta-bearing list still equals the bare list" :expected "true" :actual "(let [ds (list 1)] (= ds (with-meta ds {:k 9})))" :portability :common} - {:suite "metadata / immutability" :label "with-meta on a lazy seq carries metadata" :expected "true" :actual "(= {:k 5} (meta (with-meta (lazy-seq (list 1)) {:k 5})))" :portability :common} - {:suite "edn / deferred tags" :label "a :readers override wins over the built-in #inst (not eagerly built)" :expected "true" :actual "(= [:I \"x\"] (clojure.edn/read-string {:readers {(quote inst) (fn [v] [:I v])}} \"#inst \\\"x\\\"\"))" :portability :common} - {:suite "edn / deferred tags" :label "a normal #inst still constructs without an override" :expected "true" :actual "(= #inst \"2020-01-01T00:00:00.000-00:00\" (clojure.edn/read-string \"#inst \\\"2020-01-01T00:00:00.000-00:00\\\"\"))" :portability :common} - {:suite "vars / privacy" :label "defn- marks the var :private" :expected "true" :actual "(do (defn- p [] 1) (true? (:private (meta (var p)))))" :portability :common} - {:suite "vars / privacy" :label "ns-publics drops private vars; ns-interns keeps them" :expected "[true false true]" :actual "(do (defn pub [] 1) (defn- priv [] 2) [(contains? (ns-publics (quote user)) (quote pub)) (contains? (ns-publics (quote user)) (quote priv)) (contains? (ns-interns (quote user)) (quote priv))])" :portability :common} - {:suite "host interop / dot form" :label "(. target (method args)) list-member sugar" :expected "\"HELLO\"" :actual "(. \"hello\" (toUpperCase))" :portability :jvm} - {:suite "predicates / identical?" :label "reference identity, not value equality" :expected "[true false false]" :actual "[(identical? :a :a) (identical? (quote x) (quote x)) (identical? [1] [1])]" :portability :common} - {:suite "host interop / hashCode" :label "Java String and Symbol hashCode" :expected "[120 -1634134448]" :actual "[(.hashCode \"x\") (.hashCode (quote foo/bar))]" :portability :jvm} - {:suite "structmaps" :label "defstruct / struct-map / struct" :expected "[{:a 1 :b 2} {:a 1 :b 2} {:a 1 :b nil}]" :actual "(do (defstruct sx :a :b) [(struct-map sx :a 1 :b 2) (struct sx 1 2) (struct-map sx :a 1)])" :portability :common} - {:suite "deftype / clojure.lang interfaces" :label "ILookup-only deftype is not coll? or seqable?" :expected "[false false]" :actual "(do (deftype Lk [x] clojure.lang.ILookup (valAt [_ k] nil) (valAt [_ k nf] nf)) [(coll? (->Lk 1)) (seqable? (->Lk 1))])" :portability :jvm} - {:suite "host interop / Collection.contains" :label "value membership over vector/list/set" :expected "[true false true]" :actual "[(.contains [1 2 3] 2) (.contains (list :a :b) :z) (.contains #{1 2} 1)]" :portability :jvm} - {:suite "host interop / clojure.lang.Util" :label "Util/hash is Java hashCode" :expected "120" :actual "(clojure.lang.Util/hash \"x\")" :portability :jvm} - {:suite "deftype / IObj metadata" :label "deftype meta/withMeta govern (meta x)" :expected "{:a 1}" :actual "(do (deftype Sm [m] clojure.lang.IObj (meta [_] m) (withMeta [_ n] (Sm. n))) (meta (Sm. {:a 1})))" :portability :jvm} - {:suite "collections / disj" :label "disj of nil is nil" :expected "nil" :actual "(disj nil :a)" :portability :common} - {:suite "special forms / qualified" :label "clojure.core-qualified special form (from syntax-quote)" :expected "[:g 9]" :actual "(clojure.core/letfn [(g [x] [:g x])] (g 9))" :portability :common} - {:suite "symbols / interning" :label "(str sym) is the symbol's interned name (identity-stable)" :expected "[true true]" :actual "(let [s (quote ?a)] [(identical? (name s) (str s)) (= (str s) \"?a\")])" :portability :common} - {:suite "symbols / interning" :label "equal symbols share an interned name string" :expected "true" :actual "(let [a (quote ?foo) b (quote ?foo)] (identical? (name a) (name b)))" :portability :common} - {:suite "reader / unquote" :label "~x reads as clojure.core/unquote" :expected "true" :actual "(= (quote (clojure.core/unquote v)) (read-string \"~v\"))" :portability :common} - {:suite "reader / unquote" :label "~@x reads as clojure.core/unquote-splicing" :expected "true" :actual "(= (quote clojure.core/unquote-splicing) (first (read-string \"~@xs\")))" :portability :common} - {:suite "clojure.core / range" :label "(range 0) is the empty seq ()" :expected "true" :actual "(= () (range 0))" :portability :common} - {:suite "clojure.core / range" :label "(range 5 5) is the empty seq ()" :expected "true" :actual "(= () (range 5 5))" :portability :common} - {:suite "clojure.core / range" :label "empty range is not nil" :expected "true" :actual "(some? (range 5 0))" :portability :common} - {:suite "clojure.core / range" :label "empty range count" :expected "0" :actual "(count (range 0))" :portability :common} - {:suite "host-interop / instance? Object" :label "every non-nil value is an Object" :expected "[true true true true]" :actual "[(instance? Object 1) (instance? Object \"x\") (instance? Object []) (instance? Object (fn []))]" :portability :common} - {:suite "host-interop / instance? Object" :label "nil is not an instance of Object" :expected "false" :actual "(instance? Object nil)" :portability :common} - {:suite "host-interop / instance? Object" :label "java.lang.Object too" :expected "true" :actual "(instance? java.lang.Object :k)" :portability :jvm} - {:suite "host-interop / Compiler" :label "@Compiler/LINE is a number" :expected "true" :actual "(number? @clojure.lang.Compiler/LINE)" :portability :jvm} - {:suite "reader / octal literals" :label "0NNN is octal" :expected "34" :actual "042" :portability :common} - {:suite "reader / octal literals" :label "negative octal" :expected "-34" :actual "-042" :portability :common} - {:suite "reader / octal literals" :label "octal char escape \\oNNN" :expected "true" :actual "(= (char 0377) \\o377)" :portability :common} - {:suite "reader / octal literals" :label "octal string escape is one char" :expected "true" :actual "(= \"a\\000b\" (str \"a\" (char 0) \"b\"))" :portability :common} - {:suite "reader / octal literals" :label "hex still decimal-distinct" :expected "[1070 255 0]" :actual "[0x42e 0xff 0]" :portability :common} - {:suite "symbols / construction" :label "(symbol nil name) equals (symbol name)" :expected "true" :actual "(= (symbol nil \"foo\") (quote foo))" :portability :common} - {:suite "symbols / construction" :label "(symbol nil name) has no namespace" :expected "true" :actual "(nil? (namespace (symbol nil \"x\")))" :portability :common} - {:suite "host-interop / instance? hierarchy" :label "ExceptionInfo is a RuntimeException" :expected "[true true true]" :actual "[(instance? RuntimeException (ex-info \"x\" {})) (instance? Exception (ex-info \"x\" {})) (instance? Throwable (ex-info \"x\" {}))]" :portability :common} - {:suite "host-interop / class hierarchy" :label "Symbol and Keyword are IFn" :expected "[true true]" :actual "[(isa? clojure.lang.Symbol clojure.lang.IFn) (isa? clojure.lang.Keyword clojure.lang.IFn)]" :portability :jvm} - {:suite "host-interop / class hierarchy" :label "(class sym)-dispatched multimethod hits an IFn method" :expected ":ifn" :actual "(do (defmulti cm1 class) (defmethod cm1 clojure.lang.IFn [_] :ifn) (cm1 (quote sym)))" :portability :jvm} - {:suite "host-interop / extend-protocol java.io" :label "protocol extended to Reader / String dispatches a StringReader and a String" :expected "[:reader :string]" :actual "(do (import (quote (java.io StringReader))) (defprotocol Prdr (mrd [x])) (extend-protocol Prdr java.io.Reader (mrd [_] :reader) String (mrd [_] :string)) [(mrd (StringReader. \"x\")) (mrd \"y\")])" :portability :jvm} - {:suite "host-interop / StringWriter" :label "(str StringWriter) returns its accumulated content" :expected "\"hi!\"" :actual "(do (import (quote (java.io StringWriter))) (let [w (StringWriter.)] (.write w \"hi\") (.write w \"!\") (str w)))" :portability :jvm} - {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-add overflow wraps" :expected "-9223372036854775808" :actual "(unchecked-add 9223372036854775807 1)" :portability :common} - {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-multiply overflow wraps" :expected "1" :actual "(unchecked-multiply 9223372036854775807 9223372036854775807)" :portability :common} - {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-subtract underflow wraps" :expected "9223372036854775807" :actual "(unchecked-subtract -9223372036854775808 1)" :portability :common} - {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-negate of MIN wraps to MIN" :expected "-9223372036854775808" :actual "(unchecked-negate -9223372036854775808)" :portability :common} - {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-inc of MAX wraps to MIN" :expected "-9223372036854775808" :actual "(unchecked-inc 9223372036854775807)" :portability :common} - {:suite "host-interop / Long bit statics" :label "Long/bitCount, numberOfLeadingZeros, reverse" :expected "[10 63 0 -2]" :actual "[(Long/bitCount 1023) (Long/numberOfLeadingZeros 1) (Long/bitCount 0) (Long/reverse 9223372036854775807)]" :portability :jvm} - {:suite "numbers / unsigned-bit-shift-right is logical over 64 bits" :label "shift of a negative shifts in zeros" :expected "[9223372036854775807 4611686018427387902]" :actual "[(unsigned-bit-shift-right -1 1) (unsigned-bit-shift-right -8 2)]" :portability :common} - {:suite "numbers / ^long is 64-bit" :label "^long comparison on a full-width long" :expected "false" :actual "((fn* ([^long a ^long b] (< a b))) 9223372036854775807 1)" :portability :common} - {:suite "numbers / ^long is 64-bit" :label "^long quot on a full-width long" :expected "3074457345618258602" :actual "((fn* ([^long a] (quot a 3))) 9223372036854775807)" :portability :common} - {:suite "host-interop / Compiler" :label "Compiler/specials keys include the special forms" :expected "true" :actual "(every? (set (keys clojure.lang.Compiler/specials)) (quote [if do let* fn* quote def loop* recur try letfn* var]))" :portability :jvm} - {:suite "macros / letfn mutual recursion" :label "letfn binds mutually-recursive named fns" :expected "[true false]" :actual "(letfn [(ev? [n] (if (zero? n) true (od? (dec n)))) (od? [n] (if (zero? n) false (ev? (dec n))))] [(ev? 10) (ev? 7)])" :portability :common} - {:suite "host-interop / extend-protocol IPersistentList" :label "a protocol extended to IPersistentList dispatches on a list, not a vector" :expected "[:list :vec :list]" :actual "(do (defprotocol PL (m [x])) (extend-protocol PL clojure.lang.IPersistentList (m [_] :list) clojure.lang.IPersistentVector (m [_] :vec)) [(m (list 1 2)) (m [1 2]) (m ())])" :portability :jvm} - {:suite "scope / qualified ref vs same-named local" :label "clojure.core/max wins over a local named max" :expected "[10 5]" :actual "[((fn [max] (clojure.core/max 5 10)) 100) ((fn [min] (clojure.core/min 5 10)) 0)]" :portability :common} - {:suite "numbers / unchecked on doubles" :label "unchecked-multiply of doubles is a double, not a truncated long" :expected "3.0" :actual "(unchecked-multiply 1.5 2.0)" :portability :common} - {:suite "seq / take infinite count" :label "(take +Infinity coll) takes the whole coll" :expected "7" :actual "(count (take (/ 1.0 0.0) (range 7)))" :portability :common} - {:suite "host-interop / UUID + Long + shiftLeft" :label "(UUID. msb lsb), .shiftLeft, (Long. n)" :expected "[\"00000000-0000-007b-0000-0000000001c8\" 40 10 42]" :actual "[(str (java.util.UUID. 123 456)) (.shiftLeft 5 3) (.shiftRight 40 2) (Long. 42)]" :portability :jvm} - {:suite "host-interop / ThreadLocal proxy" :label "(proxy [ThreadLocal] [] (initialValue [] v)) get/set" :expected "[42 7]" :actual "(let [tl (proxy [ThreadLocal] [] (initialValue [] 42))] [(.get tl) (do (.set tl 7) (.get tl))])" :portability :jvm} - {:suite "host-interop / Compiler/demunge" :label "demunge reverses name munging" :expected "\"a/b?\"" :actual "(clojure.lang.Compiler/demunge \"a$b_QMARK_\")" :portability :jvm} - {:suite "host-interop / a fn reports its munged class" :label "(class a-def'd-fn) is ns$munged-name, with the IFn hierarchy as ancestors" :expected "[\"clojure.core$odd_QMARK_\" true]" :actual "[(.getName (class odd?)) (boolean (some #{java.lang.Runnable} (ancestors (class odd?))))]" :portability :jvm} - {:suite "host-interop / MultiFn methods" :label ".getMethod / .dispatchFn on a multimethod" :expected "[true true true]" :actual "(do (defmulti mmc identity) (defmethod mmc :a [_] 1) [(some? (.getMethod mmc :a)) (nil? (.getMethod mmc :z)) (ifn? (.dispatchFn mmc))])" :portability :jvm} - {:suite "reader / namespaced map literal" :label "#:ns{...} qualifies bare keys; :_/x stays unqualified" :expected "[:search 2 nil]" :actual "[(:event/type #:event{:type :search :id 5}) (count #:x{:a 1 :b 2}) (:k #:_{:k 9})]" :portability :common} - {:suite "lazy / chunking" :label "(seq (range 1 50)) is a chunked-seq" :expected "true" :actual "(chunked-seq? (seq (range 1 50)))" :portability :common} - {:suite "lazy / chunking" :label "map over a chunked range realizes a whole 32-block on first" :expected "32" :actual "(let [c (atom 0) s (map (fn [x] (swap! c inc) x) (range 1 50))] (first s) @c)" :portability :common} - {:suite "lazy / chunking" :label "crossing a chunk boundary realizes the next 32-block" :expected "49" :actual "(let [c (atom 0) s (map (fn [x] (swap! c inc) x) (range 1 50))] (nth s 32) @c)" :portability :common} - {:suite "lazy / chunking" :label "chained maps each batch by 32 (result is itself chunked)" :expected "[32 32]" :actual "(let [fc (atom 0) gc (atom 0) s (map (fn [x] (swap! gc inc) x) (map (fn [x] (swap! fc inc) x) (range 1 50)))] (first s) [@fc @gc])" :portability :common} - {:suite "lazy / chunking" :label "filter over a chunked range applies pred to the whole first block" :expected "32" :actual "(let [c (atom 0) s (filter (fn [x] (swap! c inc) (even? x)) (range 1 50))] (first s) @c)" :portability :common} - {:suite "lazy / chunking" :label "a plain lazy seq (not chunked) realizes one element at a time" :expected "1" :actual "(let [c (atom 0) lz (fn lz [n] (lazy-seq (cons n (lz (inc n))))) s (map (fn [x] (swap! c inc) x) (lz 0))] (first s) @c)" :portability :common} - {:suite "io / with-out-str" :label "with-out-str captures (.write *out* …) and print alike" :expected "\"hi!x\"" :actual "(with-out-str (.write *out* \"hi\") (.write *out* \"!\") (print \"x\"))" :portability :jvm} - {:suite "nth / bounds" :label "nth past a vector end throws IndexOutOfBoundsException" :expected ":ok" :actual "(try (nth [1 2] 5) (catch IndexOutOfBoundsException e :ok))" :portability :common} - {:suite "nth / bounds" :label "nth past a seq end throws IndexOutOfBoundsException" :expected ":ok" :actual "(try (nth (seq [1 2]) 5) (catch IndexOutOfBoundsException e :ok))" :portability :common} - {:suite "assoc / bounds" :label "assoc past a vector end throws IndexOutOfBoundsException" :expected ":ok" :actual "(try (assoc [1 2] 5 :x) (catch IndexOutOfBoundsException e :ok))" :portability :common} - {:suite "number / toString radix" :label ".toString(radix) renders in base, lowercase" :expected "[\"ff\" \"377\" \"1001\"]" :actual "[(.toString (biginteger 255) 16) (.toString (biginteger 255) 8) (.toString (biginteger 9) 2)]" :portability :jvm} - {:suite "quote / metadata" :label "a quoted form keeps user metadata, drops reader location" :expected "[{:x true} nil]" :actual "[(meta (quote ^:x (1 2))) (meta (quote (1 2)))]" :portability :common} - {:suite "enumeration-seq" :label "enumeration-seq drives a java.util.Enumeration (StringTokenizer)" :expected "[\"1\" \"2\" \"3\"]" :actual "(vec (enumeration-seq (java.util.StringTokenizer. \"1 2 3\")))" :portability :jvm} - {:suite "protocols / interface dispatch" :label "extend-protocol to an interface a builtin implements dispatches (instance? and protocol dispatch agree)" :expected "[:assoc :ifn :seqable]" :actual "(do (defprotocol PA (ma [_])) (extend-protocol PA clojure.lang.Associative (ma [_] :assoc)) (defprotocol PF (mf [_])) (extend-protocol PF clojure.lang.IFn (mf [_] :ifn)) (defprotocol PS (ms [_])) (extend-protocol PS clojure.lang.Seqable (ms [_] :seqable)) [(ma [1 2]) (mf :k) (ms (map inc [1 2]))])" :portability :jvm} - {:suite "protocols / instance? matches dispatch" :label "instance? agrees with what a value's class implements" :expected "[true true false true true]" :actual "[(instance? clojure.lang.Associative [1 2]) (instance? clojure.lang.IFn :k) (instance? java.util.Map [1 2]) (instance? clojure.lang.Seqable (map inc [1 2])) (instance? clojure.lang.IPersistentVector [1 2])]" :portability :jvm} - {:suite "class / hierarchy views agree" :label "isa?/supers see the modeled exception + collection hierarchy" :expected "[true true true true]" :actual "[(isa? clojure.lang.ExceptionInfo java.lang.RuntimeException) (contains? (supers java.lang.NumberFormatException) java.lang.RuntimeException) (isa? clojure.lang.Keyword clojure.lang.IFn) (contains? (ancestors clojure.lang.PersistentVector) java.util.List)]" :portability :jvm} - {:suite "host-interop / getClass" :label ".getClass is a universal Object method, reached on every value type" :expected "[\"java.util.Date\" \"java.io.File\"]" :actual "[(.getName (.getClass (java.util.Date.))) (.getName (.getClass (java.io.File. \"x\")))]" :portability :jvm} - {:suite "reduce / IReduceInit" :label "reduce drives a deftype's own reduce method (init arity)" :expected "110" :actual "(do (deftype Rng [n] clojure.lang.IReduceInit (reduce [_ f init] (loop [i 0 acc init] (if (< i n) (recur (inc i) (f acc i)) acc)))) (reduce + 100 (->Rng 5)))" :portability :jvm} - {:suite "reduce / IReduceInit" :label "a deftype reduce honors reduced short-circuit" :expected "3" :actual "(do (deftype Rng [n] clojure.lang.IReduceInit (reduce [_ f init] (loop [i 0 acc init] (if (< i n) (let [a (f acc i)] (if (reduced? a) @a (recur (inc i) a))) acc)))) (reduce (fn [acc x] (if (= x 3) (reduced acc) (+ acc x))) 0 (->Rng 10)))" :portability :jvm} - {:suite "exceptions / typed throw" :label "a jolt-raised NumberFormatException reports its real class and message" :expected "[\"java.lang.NumberFormatException\" \"For input string: \\\"xyz\\\"\"]" :actual "(try (Long/parseLong \"xyz\") (catch Throwable e [(.getName (class e)) (.getMessage e)]))" :portability :jvm} - {:suite "exceptions / hierarchy catch" :label "a typed throwable matches its superclasses, not unrelated ones" :expected "[true true true false]" :actual "(let [e (try (Long/parseLong \"z\") (catch Throwable e e))] [(instance? NumberFormatException e) (instance? IllegalArgumentException e) (instance? Exception e) (instance? java.io.IOException e)])" :portability :jvm} - {:suite "equality / identity" :label "= short-circuits on identity without realizing a lazy seq (Util.equiv k1 == k2)" :expected "0" :actual "(let [n (atom 0) s (map (fn [x] (swap! n inc) x) [1 2 3])] (= s s) @n)" :portability :common} - {:suite "realized? / lazy seq" :label "realized? reads a lazy seq's realization flag" :expected "[false true]" :actual "(let [s (map inc [1 2 3])] [(realized? s) (do (doall s) (realized? s))])" :portability :common} - {:suite "numbers / ops dispatch" :label "double contagion beats exact-zero shortcut" :expected "[0.0 0.0 0.0 0.0]" :actual "[(* 1.0 0) (* 0 1.5) (/ 0 1.5) (- 0.0 0)]" :portability :common} - {:suite "numbers / ops dispatch" :label "Inf times zero is NaN" :expected "[true true]" :actual "[(NaN? (* ##Inf 0)) (NaN? (* 0 ##-Inf))]" :portability :common} - {:suite "numbers / ops dispatch" :label "zero over NaN is NaN" :expected "true" :actual "(NaN? (/ 0 ##NaN))" :portability :common} - {:suite "numbers / ops dispatch" :label "double division by exact zero is signed Inf" :expected "[##Inf ##-Inf]" :actual "[(/ 1.0 0) (/ -1.0 0)]" :portability :common} - {:suite "numbers / ops dispatch" :label "exact division by zero throws ArithmeticException" :expected "[:ae :ae :ae]" :actual "[(try (/ 1 0) (catch ArithmeticException _ :ae)) (try (/ 0) (catch ArithmeticException _ :ae)) (try (quot 1.0 0) (catch ArithmeticException _ :ae))]" :portability :common} - {:suite "numbers / ops dispatch" :label "non-number operand is ClassCastException" :expected "[:cce :cce]" :actual "[(try (+ 1 \"a\") (catch ClassCastException _ :cce)) (try (< \"a\" 1) (catch ClassCastException _ :cce))]" :portability :common} - {:suite "numbers / ops dispatch" :label "quot over ratios truncates" :expected "[6 -2 1]" :actual "[(quot 3 1/2) (quot -3 4/3) (quot 37/2 15)]" :portability :common} - {:suite "numbers / ops dispatch" :label "quot/rem double contagion" :expected "[3.0 1.5 0.0]" :actual "[(quot 10.0 3) (rem 5.5 2) (quot 1 ##Inf)]" :portability :common} - {:suite "numbers / ops dispatch" :label "mod takes the divisor's sign on doubles" :expected "[0.5 -0.5 1.5]" :actual "[(mod -5.5 2) (mod 5.5 -2) (mod 5.5 2)]" :portability :common} - {:suite "numbers / ops dispatch" :label "min/max return the original operand" :expected "[1 4.0 1M]" :actual "[(min 1 2.0) (max 3 4.0) (min 1M 2)]" :portability :common} - {:suite "numbers / ops dispatch" :label "NaN wins min/max" :expected "[true true]" :actual "[(NaN? (min 1.0 ##NaN)) (NaN? (max ##NaN 1.0))]" :portability :common} - {:suite "numbers / ops dispatch" :label "bigdec call position mixes with doubles" :expected "[3.5 1.0 true]" :actual "[(+ 1.5M 2.0) (/ 2.0M 2.0) (< 1.5M 2.0)]" :portability :common} - {:suite "numbers / ops dispatch" :label "runtime bigdec reaches call-position ops" :expected "[4M 2M true]" :actual "(let [x (bigdec 3)] [(+ x 1) (- x 1) (< 1 x)])" :portability :common} - {:suite "numbers / ops dispatch" :label "inc/dec on bigdec" :expected "[2.5M 0.5M]" :actual "[(inc 1.5M) (dec 1.5M)]" :portability :common} - {:suite "numbers / with-precision" :label "rounding modes" :expected "[2M -1M 1M -2M 2M 1M]" :actual "[(with-precision 1 :rounding UP (* 1.1M 1M)) (with-precision 1 :rounding CEILING (* -1.1M 1M)) (with-precision 1 :rounding DOWN (* 1.9M 1M)) (with-precision 1 :rounding FLOOR (* -1.9M 1M)) (with-precision 1 :rounding HALF_EVEN (* 2.5M 1M)) (with-precision 1 :rounding HALF_DOWN (* 1.5M 1M))]" :portability :common} - {:suite "numbers / with-precision" :label "UNNECESSARY throws when rounding needed, passes exact" :expected "[:ae 2M]" :actual "[(try (with-precision 1 :rounding UNNECESSARY (* 1.5M 1M)) (catch ArithmeticException _ :ae)) (with-precision 1 :rounding UNNECESSARY (* 2M 1M))]" :portability :common} - {:suite "numbers / with-precision" :label "division rounds to precision (default HALF_UP)" :expected "\"0.3333\"" :actual "(str (with-precision 4 (/ 1M 3M)))" :portability :common} - {:suite "numbers / rationalize" :label "doubles go through shortest decimal print" :expected "[11/10 3/2 1 0 -1]" :actual "[(rationalize 1.1) (rationalize 1.5) (rationalize 1.0) (rationalize 0.0) (rationalize -1.0)]" :portability :common} - {:suite "numbers / rationalize" :label "bigdec and exacts pass through exactly" :expected "[3/2 1/3 7]" :actual "[(rationalize 1.5M) (rationalize 1/3) (rationalize 7)]" :portability :common} - {:suite "hierarchy / derive asserts" :label "tag and parent must be namespaced Named (or a class)" :expected "[:ae :ae :ae :ae]" :actual "[(try (derive :a :user/p) (catch AssertionError _ :ae)) (try (derive :user/a :p) (catch AssertionError _ :ae)) (try (derive (make-hierarchy) :user/a :user/a) (catch AssertionError _ :ae)) (try (derive (make-hierarchy) :user/a \"p\") (catch AssertionError _ :ae))]" :portability :common} - {:suite "hierarchy / derive throws" :label "redundant ancestor and cyclic derivation throw" :expected "[:anc :cyc]" :actual "(let [h (derive (derive (make-hierarchy) :user/b :user/a) :user/c :user/b)] [(try (derive h :user/c :user/a) (catch Exception _ :anc)) (try (derive h :user/a :user/c) (catch Exception _ :cyc))])" :portability :common} - {:suite "hierarchy / underive" :label "a non-hierarchy first arg throws at the parents lookup" :expected "[:t :t :t]" :actual "[(try (underive {} :user/a :user/b) (catch Throwable _ :t)) (try (underive 42 :user/a :user/b) (catch Throwable _ :t)) (try (underive nil :user/a :user/b) (catch Throwable _ :t))]" :portability :common} - {:suite "hierarchy / underive" :label "underive removes the relationship" :expected "[nil false]" :actual "(let [h (derive (make-hierarchy) :user/b :user/a) h2 (underive h :user/b :user/a)] [(parents h2 :user/b) (isa? h2 :user/b :user/a)])" :portability :common} - {:suite "hierarchy / classes" :label "descendants of a class throws" :expected ":uoe" :actual "(try (descendants (make-hierarchy) java.lang.String) (catch UnsupportedOperationException _ :uoe))" :portability :jvm} - {:suite "hierarchy / classes" :label "ancestors of a concrete class roots at Object" :expected "[true true]" :actual "[(contains? (ancestors (class #{})) java.lang.Object) (contains? (ancestors (class [])) java.lang.Object)]" :portability :jvm} - {:suite "hierarchy / classes" :label "parents of a class are its direct supers" :expected "true" :actual "(contains? (parents (class [])) clojure.lang.APersistentVector)" :portability :jvm} - {:suite "hierarchy / classes" :label "a relationship derived on a super applies to the class (isa? supers arm)" :expected "true" :actual "(let [h (derive (make-hierarchy) java.util.Collection :user/coll-like)] (isa? h (class []) :user/coll-like))" :portability :jvm} - {:suite "iref / atom ctor options" :label ":meta attaches, :validator gates the initial value" :expected "[{:m 1} 1 nil]" :actual "(let [a (atom 1 :meta {:m 1} :validator pos?)] [(meta a) (deref a) (meta (atom nil :meta nil))])" :portability :common} - {:suite "iref / atom ctor options" :label "non-map :meta is a ClassCastException" :expected "[:cce :cce]" :actual "[(try (atom nil :meta 5) (catch ClassCastException _ :cce)) (try (atom nil :meta #{}) (catch ClassCastException _ :cce))]" :portability :common} - {:suite "iref / atom ctor options" :label "an invalid initial value never constructs" :expected ":ise" :actual "(try (atom {} :validator (constantly false)) (catch IllegalStateException _ :ise))" :portability :common} - {:suite "iref / atom ctor options" :label "validator still gates swap!/reset!" :expected "[:ise 1]" :actual "(let [a (atom 1 :validator pos?)] [(try (reset! a -1) (catch IllegalStateException _ :ise)) (deref a)])" :portability :common} - {:suite "iref / watches" :label "an atom watch gets key, the ref, old and new" :expected "[:k true 0 1]" :actual "(let [a (atom 0) w (atom nil)] (add-watch a :k (fn [k r o n] (reset! w [k (identical? r a) o n]))) (swap! a inc) (deref w))" :portability :common} - {:suite "iref / watches" :label "vars are watchable: root changes notify (alter-var-root, def)" :expected "[[1 2] [2 5]]" :actual "(do (def vw-x 1) (def vw-log (atom [])) (add-watch (var vw-x) :w (fn [k r o n] (swap! vw-log conj [o n]))) (alter-var-root (var vw-x) inc) (def vw-x 5) (deref vw-log))" :portability :common} - {:suite "iref / watches" :label "add-watch returns the var; a validator gates the var root" :expected "[true :ise]" :actual "(do (def vv-y 1) [(= (var vv-y) (add-watch (var vv-y) :k (fn [a b c d] nil))) (do (set-validator! (var vv-y) pos?) (try (alter-var-root (var vv-y) -) (catch IllegalStateException _ :ise)))])" :portability :common} - {:suite "iref / watches" :label "agent watches fire on state change" :expected "[0 1]" :actual "(let [ag (agent 0) p (promise)] (add-watch ag :w (fn [k r o n] (deliver p [o n]))) (send ag inc) (deref p 2000 :timeout))" :portability :common} - {:suite "iref / meta" :label "alter-meta! works on atoms" :expected "{:x 1 :y 2}" :actual "(let [a (atom 1 :meta {:x 1})] (alter-meta! a assoc :y 2))" :portability :common} - {:suite "casts / checked narrow" :label "doubles range-check themselves, then truncate" :expected "[1 1 3 1 \\a 0]" :actual "[(byte 1.1) (short 1.9) (int 3.7) (long 1.5) (char 97.5) (long ##NaN)]" :portability :common} - {:suite "casts / checked narrow" :label "out-of-range values throw IllegalArgumentException" :expected "[:iae :iae :iae :iae :iae :iae :iae]" :actual "[(try (byte 128) (catch IllegalArgumentException _ :iae)) (try (byte 127.000001) (catch IllegalArgumentException _ :iae)) (try (short 40000) (catch IllegalArgumentException _ :iae)) (try (int 2147483647.000001) (catch IllegalArgumentException _ :iae)) (try (char -1) (catch IllegalArgumentException _ :iae)) (try (char 65536) (catch IllegalArgumentException _ :iae)) (try (long 1e300) (catch IllegalArgumentException _ :iae))]" :portability :common} - {:suite "casts / checked narrow" :label "the throw carries the JVM message" :expected "\"Value out of range for byte: 128\"" :actual "(try (byte 128) (catch IllegalArgumentException e (ex-message e)))" :portability :common} - {:suite "casts / checked narrow" :label "ratios and bigdecs truncate; non-numbers are CCE" :expected "[1 5 :cce]" :actual "[(byte 3/2) (int 5.5M) (try (byte true) (catch ClassCastException _ :cce))]" :portability :common} - {:suite "casts / checked narrow" :label "float range-checks against Float/MAX_VALUE" :expected "[:iae 1.5]" :actual "[(try (float 1e300) (catch IllegalArgumentException _ :iae)) (float 1.5)]" :portability :common} - {:suite "casts / unchecked wrap" :label "unchecked casts wrap and sign-fold; doubles saturate" :expected "[-56 -25536 \\A 9223372036854775807 0 0]" :actual "[(unchecked-byte 200) (unchecked-short 40000) (unchecked-char 65) (unchecked-long 1e300) (unchecked-int 4294967296) (unchecked-long ##NaN)]" :portability :common} - {:suite "ns / requiring-resolve" :label "loads the namespace then resolves; unqualified throws" :expected "[#{1 2} :iae]" :actual "[((requiring-resolve (quote clojure.set/union)) #{1} #{2}) (try (requiring-resolve (quote unqualified)) (catch IllegalArgumentException _ :iae))]" :portability :common} - {:suite "string / toString coercion" :label "case fns and searches take any Object through toString" :expected "[\":ASDF/X\" \"asdf\" \"1\" true true]" :actual "[(clojure.string/upper-case :asdf/x) (clojure.string/lower-case (quote ASDF)) (clojure.string/capitalize 1) (clojure.string/starts-with? :ab \":a\") (clojure.string/ends-with? (quote ab) \"b\")]" :portability :common} - {:suite "string / toString coercion" :label "nil s throws; nil substr throws" :expected "[:t :t :t]" :actual "[(try (clojure.string/upper-case nil) (catch Throwable _ :t)) (try (clojure.string/starts-with? \"\" nil) (catch Throwable _ :t)) (try (clojure.string/escape nil {}) (catch Throwable _ :t))]" :portability :common} - {:suite "core / some-fn" :label "returns the last predicate value (false, not nil); zero preds is an arity error" :expected "[false 2 :ae]" :actual "[((some-fn even?) 1) ((some-fn :a :b) {:b 2}) (try (some-fn) (catch clojure.lang.ArityException _ :ae))]" :portability :jvm} - {:suite "core / ifn?" :label "multimethods and promises are IFn; promises deliver when invoked" :expected "[true true 7]" :actual "[(do (defmulti ifnq-mm identity) (ifn? ifnq-mm)) (ifn? (promise)) (let [p (promise)] (p 7) (deref p))]" :portability :common} - {:suite "multimethods / deferred definition" :label "defmulti/defmethod inside a fn intern in the ns they were written in" :expected ":hit" :actual "((fn [] (defmulti cdm-deferred first) (defmethod cdm-deferred :a [_] :hit) (cdm-deferred [:a 1])))" :portability :common} - {:suite "host-interop / wrapper ctors and TYPE" :label "Boolean/Integer/Double ctors; primitive TYPE tokens" :expected "[false true 12 1.5 \"int\" \"double\"]" :actual "[(Boolean. \"yes\") (Boolean. \"TRUE\") (Integer. \"12\") (Double. \"1.5\") (str Integer/TYPE) (str Double/TYPE)]" :portability :jvm} - {:suite "host-interop / IReduce" :label ".reduce drives a collection's own reduce" :expected "[7 6]" :actual "[(.reduce [1 2 3] + 1) (.reduce [1 2 3] +)]" :portability :jvm} - {:suite "edn / strictness" :label "duplicate literal keys and elements throw" :expected "[:dup :dup]" :actual "[(try (clojure.edn/read-string \"{:a 1 :a 2}\") (catch IllegalArgumentException _ :dup)) (try (clojure.edn/read-string \"#{:a :a}\") (catch IllegalArgumentException _ :dup))]" :portability :common} - {:suite "edn / strictness" :label "invalid numbers and ratio edges throw" :expected "[:ae :nfe :nfe :nfe :nfe]" :actual "[(try (clojure.edn/read-string \"1/0\") (catch ArithmeticException _ :ae)) (try (clojure.edn/read-string \"1/-1\") (catch NumberFormatException _ :nfe)) (try (clojure.edn/read-string \"08\") (catch NumberFormatException _ :nfe)) (try (clojure.edn/read-string \"1a\") (catch NumberFormatException _ :nfe)) (try (clojure.edn/read-string \"0x2g\") (catch NumberFormatException _ :nfe))]" :portability :common} - {:suite "edn / strictness" :label "invalid tokens throw; :/ and ns// are valid" :expected "[:t :t :t :t \"/\" \"/\"]" :actual "[(try (clojure.edn/read-string \"::foo\") (catch Throwable _ :t)) (try (clojure.edn/read-string \":\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"foo/\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"/foo\") (catch Throwable _ :t)) (name (clojure.edn/read-string \":/\")) (name (clojure.edn/read-string \"foo//\"))]" :portability :common} - {:suite "edn / strictness" :label "unmatched delimiters, bad escapes, octal range throw" :expected "[:t :t :t :t]" :actual "[(try (clojure.edn/read-string \")\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"]\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"\\\"\\\\q\\\"\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"\\\\o400\") (catch Throwable _ :t))]" :portability :common} - {:suite "edn / strictness" :label "eof honors :eof; a missing :eof is an error; \\r ends comments" :expected "[:END :t 3]" :actual "[(clojure.edn/read-string {:eof :END} \"\") (try (clojure.edn/read-string {} \" \") (catch Throwable _ :t)) (clojure.edn/read-string \";c\\r3\\n5\")]" :portability :common} - {:suite "edn / strictness" :label "M literals construct; lists are lists; discarded tags validate" :expected "[-3.14M true :t]" :actual "[(clojure.edn/read-string \"-3.14M\") (list? (clojure.edn/read-string \"(1 (2))\")) (try (clojure.edn/read-string \"#_ #foo 0\") (catch Throwable _ :t))]" :portability :common} - {:suite "edn / strictness" :label "#inst and #uuid validate their fields" :expected "[:t :t :t]" :actual "[(try (clojure.edn/read-string \"#inst \\\"2010-02-29T00:00:00.000Z\\\"\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"#inst \\\"2010-01-01T24:00:00.000Z\\\"\") (catch Throwable _ :t)) (try (clojure.edn/read-string \"#uuid \\\"not-a-uuid\\\"\") (catch Throwable _ :t))]" :portability :common} - {:suite "reader / strict tokens" :label "the core reader rejects invalid numbers and duplicate keys too" :expected "[:nfe :dup 34]" :actual "[(try (read-string \"1a\") (catch NumberFormatException _ :nfe)) (try (read-string \"{:a 1 :a 2}\") (catch IllegalArgumentException _ :dup)) (read-string \"042\")]" :portability :common} - {:suite "reader / symbol intern" :label "1-arg symbol splits ns at the first slash (Symbol.intern)" :expected "[\"foo\" \"bar/baz\" \"/\"]" :actual "[(namespace (symbol \"foo/bar/baz\")) (name (symbol \"foo/bar/baz\")) (name (symbol \"foo//\"))]" :portability :common} - {:suite "contracts / stacks and pending" :label "peek/pop demand a stack; realized? demands IPending; pop nil is nil" :expected "[:cce :cce nil nil nil]" :actual "[(try (peek (range 10)) (catch ClassCastException _ :cce)) (try (realized? (quote (1 2))) (catch ClassCastException _ :cce)) (pop nil) (nth nil 10) (conj nil)]" :portability :common} - {:suite "contracts / collection fns" :label "keys/vals of empties are nil; contains? on a string is index-only" :expected "[nil nil nil :iae true false]" :actual "[(keys []) (vals #{}) (keys \"\") (try (contains? \"abc\" \"a\") (catch IllegalArgumentException _ :iae)) (contains? \"abc\" 1) (contains? \"abc\" 5)]" :portability :common} - {:suite "contracts / collection fns" :label "transient demands an editable collection; empty on a record throws" :expected "[:cce :uoe]" :actual "[(try (transient 1) (catch ClassCastException _ :cce)) (do (defrecord EmptyRec [a]) (try (empty (->EmptyRec 1)) (catch UnsupportedOperationException _ :uoe)))]" :portability :common} - {:suite "contracts / numbers" :label "numerator/denominator over real ratios; even?/odd? demand integers" :expected "[1 3 :cce :iae]" :actual "[(numerator 1/2) (denominator 2/3) (try (numerator 2) (catch ClassCastException _ :cce)) (try (even? 1.5) (catch IllegalArgumentException _ :iae))]" :portability :common} - {:suite "contracts / numbers" :label "number?/rational?/num accept BigDecimal; NaN quotient throws" :expected "[true true 1.5M :nfe]" :actual "[(number? 1.5M) (rational? 1M) (num 1.5M) (try (quot ##NaN 1) (catch NumberFormatException _ :nfe))]" :portability :common} - {:suite "contracts / ordering" :label "keywords order namespace-first with nil first, like symbols" :expected "[true true true]" :actual "[(neg? (compare :cat :animal/cat)) (neg? (compare :animal/cat :b/cat)) (zero? (compare :dog :dog))]" :portability :common} - {:suite "contracts / misc" :label "vector invocation has nth semantics; run! honors reduced; eval self-evaluates values" :expected "[:ioob 1 true]" :actual "[(try ([1 2] 5) (catch IndexOutOfBoundsException _ :ioob)) (let [c (atom 0)] (run! (fn [x] (swap! c inc) (reduced x)) [1 2 3]) (deref c)) (fn? (eval +))]" :portability :common} - {:suite "contracts / misc" :label "intern demands an existing ns; counted? excludes strings; seqable? includes arrays" :expected "[:t false true]" :actual "[(try (intern (quote no-such-ns-xyz) (quote v) 1) (catch Throwable _ :t)) (counted? \"s\") (seqable? (object-array 2))]" :portability :jvm} - {:suite "contracts / misc" :label "nth of nil honors notFound; a nil index throws; the starred specials are special" :expected "[:default :npe [true true true true true]]" :actual "[(nth nil 5 :default) (try (nth [1] nil) (catch NullPointerException _ :npe)) [(special-symbol? (quote case*)) (special-symbol? (quote deftype*)) (special-symbol? (quote letfn*)) (special-symbol? (quote reify*)) (special-symbol? (quote &))]]" :portability :common} - {:suite "contracts / misc" :label "rand-nth of nil is nil; of a set throws" :expected "[nil :t]" :actual "[(rand-nth nil) (try (rand-nth #{1 2}) (catch Throwable _ :t))]" :portability :common} + {:suite "integer-box-model / narrow int class collapses to Long" :label "byte class" :expected "java.lang.Long" :actual "(class (byte 5))"} + {:suite "integer-box-model / narrow int class collapses to Long" :label "short class" :expected "java.lang.Long" :actual "(class (short 5))"} + {:suite "integer-box-model / narrow int class collapses to Long" :label "int class" :expected "java.lang.Long" :actual "(class (int 5))"} + {:suite "integer-box-model / narrow int class collapses to Long" :label "instance? Byte is false" :expected "false" :actual "(instance? Byte (byte 5))"} + {:suite "integer-box-model / narrow int class collapses to Long" :label "instance? Long is true" :expected "true" :actual "(instance? Long (byte 5))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class number" :expected "java.lang.Long" :actual "(class 1)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class string" :expected "java.lang.String" :actual "(class \"s\")"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class keyword" :expected "clojure.lang.Keyword" :actual "(class :k)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "class nil" :expected "nil" :actual "(class nil)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "bean is the map" :expected "{:a 1}" :actual "(bean {:a 1})"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "biginteger" :expected "\"5\"" :actual "(str (biginteger 5))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy resolves nil" :expected "nil" :actual "(proxy [Object] [] (toString [] \"x\"))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "construct-proxy throws" :expected :throws :actual "(construct-proxy nil)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "get-proxy-class throws" :expected :throws :actual "(get-proxy-class)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "init-proxy" :expected "nil" :actual "(init-proxy nil {})"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "update-proxy" :expected "nil" :actual "(update-proxy nil {})"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy-mappings" :expected "{}" :actual "(proxy-mappings nil)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy-call-with-super calls" :expected "1" :actual "(proxy-call-with-super (fn [] 1) nil \"m\")"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "memfn upper" :expected "\"ABC\"" :actual "((memfn toUpperCase) \"abc\")"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "memfn with args" :expected "2" :actual "((memfn indexOf needle) \"hello\" \"l\")"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "memfn length" :expected "3" :actual "((memfn length) \"abc\")"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "array-seq" :expected "(quote (1 2 3))" :actual "(array-seq (to-array [1 2 3]))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "array-seq empty" :expected "nil" :actual "(array-seq (to-array []))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "proxy-super throws" :expected :throws :actual "(proxy-super count [1])"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "re-groups throws" :expected :throws :actual "(re-groups (re-matcher #\"a\" \"b\"))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "re-matcher builds" :expected "false" :actual "(nil? (re-matcher #\"a\" \"abc\"))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "print-dup nil writer throws" :expected :throws :actual "(print-dup 1 nil)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "print-method nil writer throws" :expected :throws :actual "(print-method 1 nil)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "uri? string" :expected "false" :actual "(uri? \"http://x\")"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "uri? nil" :expected "false" :actual "(uri? nil)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "definterface defines" :expected "false" :actual "(var? (definterface IFoo (foo [x])))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "enumeration-seq" :expected "(quote (1 2))" :actual "(enumeration-seq [1 2])"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "iterator-seq" :expected "(quote (1 2))" :actual "(iterator-seq [1 2])"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "seque passthrough" :expected "[1 2]" :actual "(seque [1 2])"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "delay? true" :expected "true" :actual "(delay? (delay 1))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "delay? false" :expected "false" :actual "(delay? 1)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "future-call" :expected "42" :actual "(deref (future-call (fn [] 42)))"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label ". calls String surface" :expected "3" :actual "(. \"abc\" length)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label ".. threads members" :expected "\"ABC\"" :actual "(.. \"abc\" toUpperCase)"} + {:suite "untested / JVM-shape stubs (documented jolt behavior)" :label "unknown String member throws" :expected :throws :actual "(. \"abc\" frobnicate)"} + {:suite "untested / protocols: extend + extends?" :label "extend registers" :expected ":str" :actual "(do (defprotocol Pe (pe [x])) (extend (quote String) Pe {:pe (fn [x] :str)}) (pe \"s\"))"} + {:suite "untested / protocols: extend + extends?" :label "extend two methods" :expected "[1 2]" :actual "(do (defprotocol P3 (pa [x]) (pb [x])) (extend (quote Long) P3 {:pa (fn [x] 1) :pb (fn [x] 2)}) [(pa 0) (pb 0)])"} + {:suite "untested / protocols: extend + extends?" :label "extends? after extend" :expected "true" :actual "(do (defprotocol P4 (pc [x])) (extend (quote Long) P4 {:pc (fn [x] 1)}) (extends? P4 (quote Long)))"} + {:suite "untested / protocols: extend + extends?" :label "extends? without" :expected "false" :actual "(do (defprotocol P5 (pd [x])) (extends? P5 (quote Long)))"} + {:suite "untested / ns + REPL machinery" :label "all-ns non-empty" :expected "true" :actual "(pos? (count (all-ns)))"} + {:suite "untested / ns + REPL machinery" :label "ns-interns sees def" :expected "true" :actual "(do (def zz 1) (pos? (count (ns-interns (quote user)))))"} + {:suite "untested / ns + REPL machinery" :label "ns-interns countable" :expected "true" :actual "(map? (ns-interns (quote user)))"} + {:suite "untested / ns + REPL machinery" :label "ns-imports empty user" :expected "96" :actual "(count (ns-imports (quote user)))"} + {:suite "untested / ns + REPL machinery" :label "reset-meta!" :expected "{:doc \"d\"}" :actual "(do (def vv 1) (reset-meta! (var vv) {:doc \"d\"}))"} + {:suite "untested / ns + REPL machinery" :label "prefers empty" :expected "{}" :actual "(do (defmulti mm identity) (prefers mm))"} + {:suite "untested / ns + REPL machinery" :label "refer-clojure" :expected "nil" :actual "(refer-clojure)"} + {:suite "untested / ns + REPL machinery" :label "special-symbol? if" :expected "true" :actual "(special-symbol? (quote if))"} + {:suite "untested / ns + REPL machinery" :label "special-symbol? fn name" :expected "false" :actual "(special-symbol? (quote foo))"} + {:suite "untested / ns + REPL machinery" :label "destructure expands" :expected "true" :actual "(pos? (count (destructure (quote [[a b] x]))))"} + {:suite "untested / ns + REPL machinery" :label "seq-to-map-for-destructuring" :expected "{:a 1}" :actual "(seq-to-map-for-destructuring (quote (:a 1)))"} + {:suite "untested / ns + REPL machinery" :label "s2m trailing map passes through" :expected "{:b 2}" :actual "(seq-to-map-for-destructuring (list {:b 2}))"} + {:suite "untested / ns + REPL machinery" :label "s2m unpaired key throws" :expected :throws :actual "(seq-to-map-for-destructuring (quote (:a 1 :b)))"} + {:suite "untested / ns + REPL machinery" :label "s2m kwargs trailing map call" :expected "2" :actual "((fn [& {:keys [b]}] b) {:b 2})"} + {:suite "untested / ns + REPL machinery" :label "*clojure-version* major" :expected "1" :actual "(:major *clojure-version*)"} + {:suite "untested / ns + REPL machinery" :label "*ns* user" :expected "\"user\"" :actual "(str *ns*)"} + {:suite "untested / ns + REPL machinery" :label "*1 nil outside repl" :expected "nil" :actual "*1"} + {:suite "untested / ns + REPL machinery" :label "*2 nil" :expected "nil" :actual "*2"} + {:suite "untested / ns + REPL machinery" :label "*3 nil" :expected "nil" :actual "*3"} + {:suite "untested / ns + REPL machinery" :label "*e nil" :expected "nil" :actual "*e"} + {:suite "untested / ns + REPL machinery" :label "*unchecked-math*" :expected "false" :actual "*unchecked-math*"} + {:suite "untested / ns + REPL machinery" :label "*in* bound" :expected "false" :actual "(map? *in*)"} + {:suite "untested / misc seqs + binding machinery" :label "nfirst" :expected "[2]" :actual "(nfirst [[1 2] [3]])"} + {:suite "untested / misc seqs + binding machinery" :label "xml-seq root" :expected "1" :actual "(count (xml-seq {:tag :a :content []}))"} + {:suite "untested / misc seqs + binding machinery" :label "xml-seq walks" :expected "2" :actual "(count (xml-seq {:tag :a :content [{:tag :b :content []}]}))"} + {:suite "untested / misc seqs + binding machinery" :label "comp keyword stage" :expected "[1 2]" :actual "((comp seq :content) {:content [1 2]})"} + {:suite "untested / misc seqs + binding machinery" :label "comp three stages" :expected "4" :actual "((comp inc inc :n) {:n 2})"} + {:suite "untested / misc seqs + binding machinery" :label "random-sample all" :expected "[1 2]" :actual "(random-sample 1.0 [1 2])"} + {:suite "untested / misc seqs + binding machinery" :label "random-sample none" :expected "[]" :actual "(random-sample 0.0 [1 2])"} + {:suite "untested / misc seqs + binding machinery" :label "reader-conditional builds" :expected "true" :actual "(reader-conditional? (reader-conditional (quote (:clj 1)) false))"} + {:suite "untested / misc seqs + binding machinery" :label "->Eduction" :expected "[2 3]" :actual "(vec (->Eduction (map inc) [1 2]))"} + {:suite "untested / misc seqs + binding machinery" :label "bound-fn calls" :expected "42" :actual "((bound-fn [] 42))"} + {:suite "untested / misc seqs + binding machinery" :label "push/pop-thread-bindings" :expected ":ok" :actual "(do (push-thread-bindings {}) (pop-thread-bindings) :ok)"} + {:suite "uuid / random-uuid" :label "returns a uuid" :expected "true" :actual "(uuid? (random-uuid))"} + {:suite "uuid / random-uuid" :label "str is 36 chars" :expected "36" :actual "(count (str (random-uuid)))"} + {:suite "uuid / random-uuid" :label "8-4-4-4-12 shape" :expected "[8 4 4 4 12]" :actual "(do (require (quote [clojure.string :as s])) (mapv count (s/split (str (random-uuid)) #\"-\")))"} + {:suite "uuid / random-uuid" :label "version nibble is 4" :expected "\\4" :actual "(nth (str (random-uuid)) 14)"} + {:suite "uuid / random-uuid" :label "variant nibble 8-b" :expected "true" :actual "(contains? #{\\8 \\9 \\a \\b} (nth (seq (str (random-uuid))) 19))"} + {:suite "uuid / random-uuid" :label "distinct" :expected "10" :actual "(count (set (repeatedly 10 random-uuid)))"} + {:suite "uuid / random-uuid" :label "all hex digits" :expected "true" :actual "(every? (fn [c] (contains? (set (seq \"0123456789abcdef-\")) c)) (seq (str (random-uuid))))"} + {:suite "uuid / parse-uuid" :label "valid round-trips" :expected "\"b6883c0a-0342-4007-9966-bc2dfa6b109e\"" :actual "(str (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "uuid / parse-uuid" :label "parses to uuid" :expected "true" :actual "(uuid? (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "uuid / parse-uuid" :label "case-insensitive =" :expected "true" :actual "(= (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\") (parse-uuid \"B6883C0A-0342-4007-9966-BC2DFA6B109E\"))"} + {:suite "uuid / parse-uuid" :label "empty -> nil" :expected "nil" :actual "(parse-uuid \"\")"} + {:suite "uuid / parse-uuid" :label "short -> nil" :expected "nil" :actual "(parse-uuid \"0\")"} + {:suite "uuid / parse-uuid" :label "garbage -> nil" :expected "nil" :actual "(parse-uuid \"df0993\")"} + {:suite "uuid / parse-uuid" :label "too long -> nil" :expected "nil" :actual "(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109eb\")"} + {:suite "uuid / parse-uuid" :label "leading extra -> nil" :expected "nil" :actual "(parse-uuid \"ab6883c0a-0342-4007-9966-bc2dfa6b109e\")"} + {:suite "uuid / parse-uuid" :label "non-hex -> nil" :expected "nil" :actual "(parse-uuid \"g6883c0a-0342-4007-9966-bc2dfa6b109e\")"} + {:suite "uuid / parse-uuid" :label "bad dashes -> nil" :expected "nil" :actual "(parse-uuid \"b6883c0a00342-4007-9966-bc2dfa6b109e\")"} + {:suite "uuid / parse-uuid" :label "non-string throws" :expected :throws :actual "(parse-uuid 1000)"} + {:suite "uuid / parse-uuid" :label "keyword throws" :expected :throws :actual "(parse-uuid :key)"} + {:suite "uuid / parse-uuid" :label "map throws" :expected :throws :actual "(parse-uuid {})"} + {:suite "uuid / value semantics" :label "equal by value" :expected "true" :actual "(= (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\") (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "uuid / value semantics" :label "unequal differs" :expected "false" :actual "(= (random-uuid) (random-uuid))"} + {:suite "uuid / value semantics" :label "works as map key" :expected ":v" :actual "(let [u (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")] (get {u :v} (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")))"} + {:suite "uuid / value semantics" :label "works in a set" :expected "true" :actual "(contains? #{(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")} (parse-uuid \"B6883C0A-0342-4007-9966-BC2DFA6B109E\"))"} + {:suite "uuid / value semantics" :label "uuid? false on string" :expected "false" :actual "(uuid? \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")"} + {:suite "uuid / value semantics" :label "uuid? false on nil" :expected "false" :actual "(uuid? nil)"} + {:suite "uuid / #uuid reader literal" :label "reads to uuid" :expected "true" :actual "(uuid? #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")"} + {:suite "uuid / #uuid reader literal" :label "= parse-uuid" :expected "true" :actual "(= #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\" (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "uuid / #uuid reader literal" :label "str of literal" :expected "\"b6883c0a-0342-4007-9966-bc2dfa6b109e\"" :actual "(str #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")"} + {:suite "uuid / #uuid reader literal" :label "pr-str round-trips" :expected "\"#uuid \\\"b6883c0a-0342-4007-9966-bc2dfa6b109e\\\"\"" :actual "(pr-str #uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\")"} + {:suite "vector / construct & predicate" :label "literal" :expected "[1 2 3]" :actual "[1 2 3]"} + {:suite "vector / construct & predicate" :label "vector" :expected "[1 2 3]" :actual "(vector 1 2 3)"} + {:suite "vector / construct & predicate" :label "vector zero args" :expected "[]" :actual "(vector)"} + {:suite "vector / construct & predicate" :label "vec from list" :expected "[1 2 3]" :actual "(vec (list 1 2 3))"} + {:suite "vector / construct & predicate" :label "vec from range" :expected "[0 1 2]" :actual "(vec (range 3))"} + {:suite "vector / construct & predicate" :label "vec of map yields entries" :expected "[[:a 1]]" :actual "(vec {:a 1})"} + {:suite "vector / construct & predicate" :label "vector? true" :expected "true" :actual "(vector? [1])"} + {:suite "vector / construct & predicate" :label "vector? false on list" :expected "false" :actual "(vector? (list 1))"} + {:suite "vector / construct & predicate" :label "vector = list elts" :expected "true" :actual "(= [1 2 3] (list 1 2 3))"} + {:suite "vector / access" :label "nth" :expected ":b" :actual "(nth [:a :b :c] 1)"} + {:suite "vector / access" :label "nth default" :expected ":x" :actual "(nth [:a] 5 :x)"} + {:suite "vector / access" :label "get by index" :expected ":b" :actual "(get [:a :b] 1)"} + {:suite "vector / access" :label "get out of range nil" :expected "nil" :actual "(get [:a] 5)"} + {:suite "vector / access" :label "get default" :expected ":x" :actual "(get [:a] 5 :x)"} + {:suite "vector / access" :label "first" :expected "1" :actual "(first [1 2 3])"} + {:suite "vector / access" :label "last" :expected "3" :actual "(last [1 2 3])"} + {:suite "vector / access" :label "peek is last" :expected "3" :actual "(peek [1 2 3])"} + {:suite "vector / access" :label "count" :expected "3" :actual "(count [1 2 3])"} + {:suite "vector / access" :label "contains? index" :expected "true" :actual "(contains? [:a :b] 1)"} + {:suite "vector / access" :label "contains? past end" :expected "false" :actual "(contains? [:a] 3)"} + {:suite "vector / access" :label "vector as fn" :expected ":b" :actual "([:a :b :c] 1)"} + {:suite "vector / access" :label "vector-in-local as fn" :expected "20" :actual "(let [v [10 20 30]] (v 1))"} + {:suite "vector / access" :label "keyword-in-local as fn" :expected "7" :actual "(let [k :a] (k {:a 7}))"} + {:suite "vector / access" :label "meta vector as fn" :expected "10" :actual "((with-meta [10 20] {:k 1}) 0)"} + {:suite "vector / update (persistent)" :label "conj appends" :expected "[1 2 3]" :actual "(conj [1 2] 3)"} + {:suite "vector / update (persistent)" :label "conj many" :expected "[1 2 3 4]" :actual "(conj [1 2] 3 4)"} + {:suite "vector / update (persistent)" :label "assoc index" :expected "[1 9 3]" :actual "(assoc [1 2 3] 1 9)"} + {:suite "vector / update (persistent)" :label "assoc at count appends" :expected "[1 2 3]" :actual "(assoc [1 2] 2 3)"} + {:suite "vector / update (persistent)" :label "update" :expected "[1 3 3]" :actual "(update [1 2 3] 1 inc)"} + {:suite "vector / update (persistent)" :label "pop drops last" :expected "[1 2]" :actual "(pop [1 2 3])"} + {:suite "vector / update (persistent)" :label "subvec start end" :expected "[2 3]" :actual "(subvec [1 2 3 4] 1 3)"} + {:suite "vector / update (persistent)" :label "subvec to end" :expected "[3 4]" :actual "(subvec [1 2 3 4] 2)"} + {:suite "vector / update (persistent)" :label "mapv" :expected "[2 3 4]" :actual "(mapv inc [1 2 3])"} + {:suite "vector / update (persistent)" :label "filterv" :expected "[2 4]" :actual "(filterv even? [1 2 3 4])"} + {:suite "vector / immutability & nesting" :label "conj does not mutate" :expected "true" :actual "(let [v [1 2] w (conj v 3)] (and (= v [1 2]) (= w [1 2 3])))"} + {:suite "vector / immutability & nesting" :label "assoc does not mutate" :expected "true" :actual "(let [v [1 2 3] w (assoc v 0 9)] (and (= v [1 2 3]) (= w [9 2 3])))"} + {:suite "vector / immutability & nesting" :label "get-in" :expected "2" :actual "(get-in [[1 2] [3 4]] [0 1])"} + {:suite "vector / immutability & nesting" :label "assoc-in" :expected "[[1 9]]" :actual "(assoc-in [[1 2]] [0 1] 9)"} + {:suite "vector / immutability & nesting" :label "update-in" :expected "[[1 3]]" :actual "(update-in [[1 2]] [0 1] inc)"} + {:suite "vector / immutability & nesting" :label "large vector nth" :expected "1500" :actual "(nth (vec (range 2000)) 1500)"} + {:suite "vector / immutability & nesting" :label "large vector count" :expected "2000" :actual "(count (vec (range 2000)))"} + {:suite "vector / immutability & nesting" :label "large conj immutable" :expected "true" :actual "(let [v (vec (range 1000)) w (conj v :end)] (and (= 1000 (count v)) (= 1001 (count w))))"} + {:suite "vector / bulk build boundaries" :label "count at 1025" :expected "1025" :actual "(count (vec (range 1025)))"} + {:suite "vector / bulk build boundaries" :label "into = vec at 1025" :expected "true" :actual "(= (vec (range 1025)) (into [] (range 1025)))"} + {:suite "vector / bulk build boundaries" :label "nth at leaf boundary" :expected "32" :actual "(nth (vec (range 1025)) 32)"} + {:suite "vector / bulk build boundaries" :label "nth at root boundary" :expected "1024" :actual "(nth (vec (range 1025)) 1024)"} + {:suite "vector / bulk build boundaries" :label "vec=into at 33" :expected "true" :actual "(= (vec (range 33)) (into [] (range 33)))"} + {:suite "vector / bulk build boundaries" :label "conj after bulk 1024" :expected "1025" :actual "(count (conj (vec (range 1024)) :x))"} + {:suite "vector / bulk build boundaries" :label "conj-after reads back" :expected ":x" :actual "(nth (conj (vec (range 1024)) :x) 1024)"} + {:suite "vector / bulk build boundaries" :label "assoc into bulk vec" :expected "9" :actual "(nth (assoc (vec (range 1025)) 1000 9) 1000)"} + {:suite "vector / bulk build boundaries" :label "into onto non-empty" :expected "[0 1 2 0 1]" :actual "(into (vec (range 3)) (range 2))"} + {:suite "clojure.walk / lists + seqs" :label "postwalk-replace symbol keys in a list" :expected "(quote (+ 2 2))" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk-replace {(quote x) 2} (quote (+ x x))))"} + {:suite "clojure.walk / lists + seqs" :label "postwalk descends a list" :expected "[:a :a]" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk (fn [n] (if (symbol? n) :a n)) (quote (x y))))"} + {:suite "clojure.walk / lists + seqs" :label "prewalk-replace in a list" :expected "(quote (* 3 3))" :actual "(do (require (quote [clojure.walk :as w])) (w/prewalk-replace {(quote *) (quote *) (quote y) 3} (quote (* y y))))"} + {:suite "clojure.walk / lists + seqs" :label "nested list + vector" :expected "[1 [2 1]]" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk-replace {:a 1 :b 2} (quote (:a [:b :a]))))"} + {:suite "clojure.walk / lists + seqs" :label "postwalk-replace in a vector" :expected "[:one 2 :one]" :actual "(do (require (quote [clojure.walk :as w])) (w/postwalk-replace {1 :one} [1 2 1]))"} + {:suite "clojure.walk / lists + seqs" :label "keywordize-keys still works" :expected "{:a 1}" :actual "(do (require (quote [clojure.walk :as w])) (w/keywordize-keys {\"a\" 1}))"} + {:suite "clojure.walk / lists + seqs" :label "apply-template substitutes" :expected "(quote (+ 1 2))" :actual "(do (require (quote [clojure.template :as t])) (t/apply-template (quote [x y]) (quote (+ x y)) (quote (1 2))))"} + {:suite "clojure.walk / records keep their type" :label "postwalk preserves record type" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (record? (w/postwalk identity (->R 1))))"} + {:suite "clojure.walk / records keep their type" :label "postwalk still walks record fields" :expected "2" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (:a (w/postwalk (fn [x] (if (number? x) (inc x) x)) (->R 1))))"} + {:suite "clojure.walk / records keep their type" :label "instance? survives a walk" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (instance? R (w/postwalk identity (->R 1))))"} + {:suite "clojure.walk / records keep their type" :label "a record nested in a map keeps its type" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (record? (:r (w/postwalk identity {:r (->R 1)}))))"} + {:suite "clojure.walk / records keep their type" :label "prewalk preserves record type" :expected "true" :actual "(do (require (quote [clojure.walk :as w])) (defrecord R [a]) (record? (w/prewalk identity (->R 1))))"} + {:suite "reader / auto-resolved keywords" :label "::kw is namespace-qualified" :expected "true" :actual "(some? (namespace ::foo))"} + {:suite "reader / auto-resolved keywords" :label "::kw keeps its name" :expected "\"foo\"" :actual "(name ::foo)"} + {:suite "reader / auto-resolved keywords" :label "::kw resolves to the current ns" :expected "true" :actual "(= ::a ::a)"} + {:suite "clojure.edn / reader opts" :label ":default receives the tag as a symbol" :expected "[true \"foo\" 5]" :actual "(do (require (quote [clojure.edn :as edn])) (let [r (edn/read-string {:default (fn [t v] [t v])} \"#foo 5\")] [(symbol? (first r)) (name (first r)) (second r)]))"} + {:suite "metadata / lazy seqs carry meta" :label "with-meta on a lazy seq" :expected "{:k 1}" :actual "(meta (with-meta (map inc [1 2 3]) {:k 1}))"} + {:suite "dynamic vars / *print-meta*" :label "*print-meta* is a bindable dynamic var" :expected "true" :actual "(binding [*print-meta* true] (true? *print-meta*))"} + {:suite "tagged literals / value equality" :label "equal tag+form are =" :expected "true" :actual "(= (tagged-literal (quote x) [1 2]) (tagged-literal (quote x) [1 2]))"} + {:suite "tagged literals / value equality" :label "different tag is not =" :expected "false" :actual "(= (tagged-literal (quote x) [1]) (tagged-literal (quote y) [1]))"} + {:suite "tagged literals / value equality" :label "dedup as map keys" :expected "1" :actual "(count {(tagged-literal (quote x) [1]) :a (tagged-literal (quote x) [1]) :b})"} + {:suite "interop / clojure.lang interfaces" :label "vector is IObj" :expected "true" :actual "(instance? clojure.lang.IObj [1])"} + {:suite "interop / clojure.lang interfaces" :label "map entry is IMapEntry" :expected "true" :actual "(instance? clojure.lang.IMapEntry (first {:a 1}))"} + {:suite "interop / clojure.lang interfaces" :label "record is IRecord" :expected "true" :actual "(do (defrecord R [a]) (instance? clojure.lang.IRecord (->R 1)))"} + {:suite "interop / clojure.lang interfaces" :label "number is not IObj" :expected "false" :actual "(instance? clojure.lang.IObj 5)"} + {:suite "reader / default data readers" :label "#inst is in default-data-readers" :expected "true" :actual "(boolean (get default-data-readers (quote inst)))"} + {:suite "conformance / CRITICAL: lazy sequences" :label "self-ref lazy-cat fib" :expected "[0 1 1 2 3 5 8 13 21 34]" :actual "(do (def fib-seq (lazy-cat [0 1] (map + (rest fib-seq) fib-seq))) (take 10 fib-seq))"} + {:suite "conformance / CRITICAL: multi-collection map" :label "map two colls" :expected "[11 22 33]" :actual "(map + [1 2 3] [10 20 30])"} + {:suite "conformance / CRITICAL: multi-collection map" :label "map three colls" :expected "[12 24 36]" :actual "(map + [1 2 3] [10 20 30] [1 2 3])"} + {:suite "conformance / CRITICAL: multi-collection map" :label "map uneven (shortest)" :expected "[[1 :a] [2 :b]]" :actual "(map vector [1 2 3] [:a :b])"} + {:suite "conformance / CRITICAL: multi-collection map" :label "map over range+vec" :expected "[1 3 5]" :actual "(map + (range 3) [1 2 3])"} + {:suite "conformance / CRITICAL: multi-collection map" :label "map fn list arg" :expected "[2 3 4]" :actual "(map inc (list 1 2 3))"} + {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "iterate" :expected "[0 1 2 3 4]" :actual "(take 5 (iterate inc 0))"} + {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "iterate double" :expected "[1 2 4 8 16]" :actual "(take 5 (iterate (fn [x] (* 2 x)) 1))"} + {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "range over inf map" :expected "[1 2 3]" :actual "(take 3 (map inc (range)))"} + {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "count of take" :expected "100" :actual "(count (take 100 (range)))"} + {:suite "conformance / CRITICAL: iterate / infinite seqs" :label "last of take" :expected "5" :actual "(last (take 5 (iterate inc 1)))"} + {:suite "conformance / CRITICAL: collections as IFn" :label "map as fn miss" :expected "nil" :actual "({:a 1} :z)"} + {:suite "conformance / CRITICAL: collections as IFn" :label "map as fn default" :expected "99" :actual "({:a 1} :z 99)"} + {:suite "conformance / CRITICAL: collections as IFn" :label "set literal computed" :expected "true" :actual "(= #{1 2} #{(inc 0) 2})"} + {:suite "conformance / CRITICAL: collections as IFn" :label "empty set literal" :expected "true" :actual "(empty? #{})"} + {:suite "conformance / CRITICAL: collections as IFn" :label "set literal count" :expected "3" :actual "(count #{1 2 3})"} + {:suite "conformance / CRITICAL: collections as IFn" :label "set literal in let" :expected "true" :actual "(let [x 5] (= #{5 6} #{x (inc x)}))"} + {:suite "conformance / CRITICAL: collections as IFn" :label "set? true" :expected "true" :actual "(set? #{1 2 3})"} + {:suite "conformance / CRITICAL: collections as IFn" :label "set? false" :expected "false" :actual "(set? [1 2])"} + {:suite "conformance / CRITICAL: collections as IFn" :label "disj one" :expected "#{1 3}" :actual "(disj #{1 2 3} 2)"} + {:suite "conformance / CRITICAL: collections as IFn" :label "disj many" :expected "#{1}" :actual "(disj #{1 2 3} 2 3)"} + {:suite "conformance / CRITICAL: collections as IFn" :label "disj absent" :expected "#{1 2}" :actual "(disj #{1 2} 5)"} + {:suite "conformance / CRITICAL: collections as IFn" :label "map fn over coll" :expected "[1 3]" :actual "(map {:a 1 :b 3} [:a :b])"} + {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "vec of map-result" :expected "[2 3 4]" :actual "(vec (map inc [1 2 3]))"} + {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "vec of range" :expected "[0 1 2 3 4]" :actual "(vec (range 5))"} + {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into vec" :expected "[1 2 3 4 5 6]" :actual "(into [1 2 3] [4 5 6])"} + {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into vec from lazy" :expected "[2 3 4]" :actual "(into [] (map inc [1 2 3]))"} + {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into map pairs" :expected "{:a 1, :b 2}" :actual "(into {} [[:a 1] [:b 2]])"} + {:suite "conformance / CRITICAL: vec / into over lazy + maps" :label "into map onto map" :expected "{:a 1, :b 2, :c 3}" :actual "(into {:a 1} [[:b 2] [:c 3]])"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map vec is seq" :expected "true" :actual "(seq? (map inc [1 2 3]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map vec not vector" :expected "false" :actual "(vector? (map inc [1 2 3]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "filter vec is seq" :expected "true" :actual "(seq? (filter odd? [1 2 3]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "take vec is seq" :expected "true" :actual "(seq? (take 2 [1 2 3]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map over set" :expected "true" :actual "(= #{2 3 4} (set (map inc #{1 2 3})))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "filter over map ev" :expected "[[:b 2]]" :actual "(filter (fn [[k v]] (> v 1)) {:a 1 :b 2})"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "cons cons lazy" :expected "[1 2 3]" :actual "(cons 1 (cons 2 (lazy-seq (cons 3 nil))))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "next empty lazy" :expected "nil" :actual "(next (take 1 [1]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "drop vec is seq" :expected "true" :actual "(seq? (drop 1 [1 2 3]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "distinct vec is seq" :expected "true" :actual "(seq? (distinct [1 1 2]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "map-indexed is seq" :expected "true" :actual "(seq? (map-indexed vector [1 2]))"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "nth lazy false elem" :expected "false" :actual "(nth (map identity [false 1 2]) 0)"} + {:suite "conformance / Option A: lazy transformers return seqs, not vectors" :label "nth lazy past false" :expected "2" :actual "(nth (drop 1 (list false 1 2)) 1)"} + {:suite "conformance / HIGH: destructuring" :label "destr nested seq" :expected "[1 2 3]" :actual "(let [[a [b c]] [1 [2 3]]] [a b c])"} + {:suite "conformance / HIGH: destructuring" :label "destr rest+as" :expected "[1 [2 3] [1 2 3]]" :actual "(let [[a & r :as all] [1 2 3]] [a r all])"} + {:suite "conformance / HIGH: destructuring" :label "destr map :keys" :expected "[1 2]" :actual "(let [{:keys [a b]} {:a 1 :b 2}] [a b])"} + {:suite "conformance / HIGH: destructuring" :label "destr map :or" :expected "[1 99]" :actual "(let [{:keys [a b] :or {b 99}} {:a 1}] [a b])"} + {:suite "conformance / HIGH: destructuring" :label "destr map :strs" :expected "[1 2]" :actual "(let [{:strs [a b]} {\"a\" 1 \"b\" 2}] [a b])"} + {:suite "conformance / HIGH: destructuring" :label "destr nested map" :expected "5" :actual "(let [{{:keys [x]} :pos} {:pos {:x 5}}] x)"} + {:suite "conformance / HIGH: destructuring" :label "destr fn-param map" :expected "3" :actual "((fn [{:keys [a b]}] (+ a b)) {:a 1 :b 2})"} + {:suite "conformance / HIGH: destructuring" :label "destr let map key" :expected "1" :actual "(let [{a :a} {:a 1}] a)"} + {:suite "conformance / HIGH: update / assoc-in on map literals" :label "update extra args" :expected "{:a 111}" :actual "(update {:a 1} :a + 10 100)"} + {:suite "conformance / HIGH: update / assoc-in on map literals" :label "get-in" :expected "1" :actual "(get-in {:a {:b {:c 1}}} [:a :b :c])"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native mod floored" :expected "2" :actual "(mod -7 3)"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native rem truncated" :expected "-1" :actual "(rem -7 3)"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native unary div" :expected "1/2" :actual "(/ 2)"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native chained div" :expected "1" :actual "(/ 6 3 2)"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native bit-and" :expected "8" :actual "(bit-and 12 10)"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native bit-xor" :expected "6" :actual "(bit-xor 12 10)"} + {:suite "conformance / native-op parity (native ops at guarded arities)" :label "native shifts" :expected "[16 2]" :actual "[(bit-shift-left 4 2) (bit-shift-right 8 2)]"} + {:suite "conformance / multimethod preferences" :label "prefer-method breaks tie" :expected ":rect" :actual "(do (derive :cm/sq :cm/rect) (derive :cm/sq :cm/shape) (defmulti cmf identity) (defmethod cmf :cm/rect [x] :rect) (defmethod cmf :cm/shape [x] :shape) (prefer-method cmf :cm/rect :cm/shape) (cmf :cm/sq))"} + {:suite "conformance / HIGH: str semantics" :label "str concat nil" :expected "\"a1\"" :actual "(str \"a\" 1 nil)"} + {:suite "conformance / HIGH: str semantics" :label "str keyword" :expected "\":b\"" :actual "(str :b)"} + {:suite "conformance / HIGH: str semantics" :label "str symbol" :expected "\"foo\"" :actual "(str (quote foo))"} + {:suite "conformance / HIGH: str semantics" :label "str mixed" :expected "\"a:b1\"" :actual "(str \"a\" :b 1)"} + {:suite "conformance / HIGH: str semantics" :label "str seq" :expected "\"[1 2 3]\"" :actual "(str [1 2 3])"} + {:suite "conformance / HIGH: dispatch" :label "multimethod" :expected "9" :actual "(do (defmulti area :shape) (defmethod area :sq [s] (* (:s s) (:s s))) (area {:shape :sq :s 3}))"} + {:suite "conformance / HIGH: dispatch" :label "multimethod default" :expected ":def" :actual "(do (defmulti f identity) (defmethod f :default [x] :def) (f 99))"} + {:suite "conformance / HIGH: dispatch" :label "protocol on record" :expected "16" :actual "(do (defprotocol Sh (ar [s])) (defrecord Sq [side] Sh (ar [_] (* side side))) (ar (->Sq 4)))"} + {:suite "conformance / HIGH: dispatch" :label "deftype inline methods" :expected "7" :actual "(do (defprotocol Pi (mi [x])) (deftype Ti [v] Pi (mi [x] v)) (mi (->Ti 7)))"} + {:suite "conformance / HIGH: dispatch" :label "deftype two protocols" :expected "[1 2]" :actual "(do (defprotocol Pa (ma [x])) (defprotocol Pb (mb [x])) (deftype Tab [a b] Pa (ma [x] a) Pb (mb [x] b)) (let [t (->Tab 1 2)] [(ma t) (mb t)]))"} + {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "var-get + call" :expected "2" :actual "((var-get (var inc)) 1)"} + {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "var? true" :expected "true" :actual "(var? (var map))"} + {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "var? false" :expected "false" :actual "(var? 5)"} + {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "intern + find-var" :expected "41" :actual "(do (intern (quote user) (quote iv) 41) (var-get (find-var (quote user/iv))))"} + {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "alter-var-root rest args" :expected "11" :actual "(do (def avr 1) (alter-var-root (var avr) + 4 6) avr)"} + {:suite "conformance / var fns as ordinary invokes (Stage 2 tier 6)" :label "alter-meta! + meta" :expected "7" :actual "(do (def amv 1) (alter-meta! (var amv) assoc :k 7) (:k (meta (var amv))))"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "find-ns + ns-name" :expected "(quote clojure.core)" :actual "(ns-name (find-ns (quote clojure.core)))"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "find-ns absent" :expected "nil" :actual "(find-ns (quote no.such.ns))"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "create-ns + find" :expected "true" :actual "(do (create-ns (quote made.ns)) (some? (find-ns (quote made.ns))))"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "remove-ns" :expected "nil" :actual "(do (create-ns (quote gone.ns)) (remove-ns (quote gone.ns)) (find-ns (quote gone.ns)))"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "the-ns of symbol" :expected "(quote user)" :actual "(ns-name (the-ns (quote user)))"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "ns-resolve + call" :expected "3" :actual "((var-get (ns-resolve (quote clojure.core) (quote inc))) 2)"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "resolve + call" :expected "3" :actual "((var-get (resolve (quote inc))) 2)"} + {:suite "conformance / ns introspection fns as ordinary invokes (Stage 2 tier 6b)" :label "resolve absent" :expected "nil" :actual "(resolve (quote no-such-sym-xyz))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "get-method + call" :expected "1" :actual "(do (defmulti t6f :k) (defmethod t6f :a [x] 1) ((get-method t6f :a) {:k :a}))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "remove-method" :expected "nil" :actual "(do (defmulti t6g :k) (defmethod t6g :b [x] 2) (remove-method t6g :b) (get (methods t6g) :b))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "remove-all-methods" :expected "nil" :actual "(do (defmulti t6h :k) (defmethod t6h :c [x] 3) (remove-all-methods t6h) (get (methods t6h) :c))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "prefer-method records" :expected "true" :actual "(do (defmulti t6p identity) (prefer-method t6p :rect :shape) (contains? (get (prefers t6p) :rect) :shape))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "instance? deftype" :expected "true" :actual "(do (deftype T6i [a]) (instance? T6i (->T6i 1)))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "instance? String" :expected "true" :actual "(instance? String \"s\")"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "locking evals body" :expected "3" :actual "(locking :anything (+ 1 2))"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "locking evals monitor" :expected "[3 1]" :actual "(let [a (atom 0)] [(locking (swap! a inc) 3) @a])"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "defonce keeps first" :expected "5" :actual "(do (defonce d6o 5) (defonce d6o 9) d6o)"} + {:suite "conformance / dispatch-table ops + misc as macros/fns (Stage 2 tier 6c)" :label "read-string + eval" :expected "3" :actual "(eval (read-string \"(+ 1 2)\"))"} + {:suite "conformance / uuid" :label "uuid as map key" :expected ":v" :actual "(get {(parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\") :v} (parse-uuid \"b6883c0a-0342-4007-9966-bc2dfa6b109e\"))"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "parse-long bad" :expected "nil" :actual "(parse-long \"4.2\")"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "update-keys" :expected "{\"a\" 1}" :actual "(update-keys {:a 1} name)"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "update-vals" :expected "{:a 2}" :actual "(update-vals {:a 1} inc)"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "partition pad" :expected "[[0 1 2 3] [4 5 6 7] [8 9 :a]]" :actual "(partition 4 4 [:a] (range 10))"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "with-redefs" :expected "[42 1]" :actual "(do (defn cwr [] 1) [(with-redefs [cwr (fn [] 42)] (cwr)) (cwr)])"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "macroexpand" :expected "true" :actual "(= (quote if) (first (macroexpand (quote (when-not false 1)))))"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "require bare symbol" :expected "\"a,b\"" :actual "(do (require (quote clojure.string)) (clojure.string/join \",\" [\"a\" \"b\"]))"} + {:suite "conformance / 1.11 additions + ns fns (spec 35-var batch A)" :label "ns-publics lookup" :expected "true" :actual "(do (def cnp 7) (some? (get (ns-publics (quote user)) (quote cnp))))"} + {:suite "conformance / #inst + syntax-quote literal collapse (spec 2.4/2.3)" :label "inst partial = full" :expected "true" :actual "(= #inst \"2020\" #inst \"2020-01-01T00:00:00Z\")"} + {:suite "conformance / #inst + syntax-quote literal collapse (spec 2.4/2.3)" :label "sq number collapse" :expected "42" :actual "``42"} + {:suite "conformance / vars replace the root-env leak" :label "compare total order" :expected "[-1 0 1]" :actual "[(compare nil 1) (compare :a :a) (compare \"b\" \"a\")]"} + {:suite "conformance / vars replace the root-env leak" :label "any? anything" :expected "true" :actual "(and (any? nil) (any? 1) (any? :k))"} + {:suite "conformance / vars replace the root-env leak" :label "macroexpand-1 when" :expected "2" :actual "(count (rest (macroexpand-1 (quote (when true 1)))))"} + {:suite "conformance / HIGH: aliased namespace calls" :label "require :as alias" :expected "\"1,2,3\"" :actual "(do (require (quote [clojure.string :as s])) (s/join \",\" [1 2 3]))"} + {:suite "conformance / HIGH: aliased namespace calls" :label "ns form + alias" :expected "\"HI\"" :actual "(do (ns my.a (:require [clojure.string :as s])) (s/upper-case \"hi\"))"} + {:suite "conformance / HIGH: aliased namespace calls" :label "ns :use refers" :expected "42" :actual "(do (ns src.u) (def helper 42) (ns dst.u (:use [src.u])) helper)"} + {:suite "conformance / MED: missing core fns" :label "subvec" :expected "[2 3]" :actual "(subvec [1 2 3 4 5] 1 3)"} + {:suite "conformance / MED: missing core fns" :label "subvec to-end" :expected "[3 4 5]" :actual "(subvec [1 2 3 4 5] 2)"} + {:suite "conformance / MED: missing core fns" :label "reduce-kv" :expected "{:a 2, :b 3}" :actual "(reduce-kv (fn [m k v] (assoc m k (inc v))) {} {:a 1 :b 2})"} + {:suite "conformance / iterating maps yields entries" :label "reduce over map" :expected "6" :actual "(reduce (fn [a [k v]] (+ a v)) 0 {:a 1 :b 2 :c 3})"} + {:suite "conformance / iterating maps yields entries" :label "into transform map" :expected "{:a 2, :b 3}" :actual "(into {} (map (fn [[k v]] [k (inc v)]) {:a 1 :b 2}))"} + {:suite "conformance / iterating maps yields entries" :label "filter over map" :expected "true" :actual "(= [[:b 2]] (filterv (fn [[k v]] (> v 1)) {:a 1 :b 2}))"} + {:suite "conformance / iterating maps yields entries" :label "tree-seq" :expected "[1 2 3]" :actual "(map (fn [x] x) (filter (complement coll?) (tree-seq coll? seq [1 [2 [3]]])))"} + {:suite "conformance / iterating maps yields entries" :label "key/val" :expected "true" :actual "(let [e (first {:k 9})] (and (= :k (key e)) (= 9 (val e))))"} + {:suite "conformance / iterating maps yields entries" :label "nat-int?" :expected "true" :actual "(and (nat-int? 0) (nat-int? 5) (not (nat-int? -1)))"} + {:suite "conformance / iterating maps yields entries" :label "list* prepend" :expected "[1 2 3 4]" :actual "(list* 1 2 [3 4])"} + {:suite "conformance / iterating maps yields entries" :label "cycle" :expected "[1 2 3 1 2 3 1]" :actual "(take 7 (cycle [1 2 3]))"} + {:suite "conformance / iterating maps yields entries" :label "partition-all" :expected "[[1 2] [3 4] [5]]" :actual "(partition-all 2 [1 2 3 4 5])"} + {:suite "conformance / iterating maps yields entries" :label "reductions init" :expected "[0 1 3 6]" :actual "(reductions + 0 [1 2 3])"} + {:suite "conformance / iterating maps yields entries" :label "dedupe" :expected "[1 2 3 1]" :actual "(dedupe [1 1 2 3 3 1])"} + {:suite "conformance / iterating maps yields entries" :label "partition-by odd?" :expected "[[1 1] [2] [3 3]]" :actual "(partition-by odd? [1 1 2 3 3])"} + {:suite "conformance / iterating maps yields entries" :label "reductions inf" :expected "[0 1 3 6]" :actual "(take 4 (reductions + (range)))"} + {:suite "conformance / iterating maps yields entries" :label "tree-seq strict" :expected "10" :actual "(reduce + 0 (filter (complement coll?) (tree-seq coll? seq [1 [2 [3 4]]])))"} + {:suite "conformance / iterating maps yields entries" :label "case nil + default" :expected "[:nilr :def]" :actual "(let [f (fn [x] (case x 1 :one nil :nilr :def))] [(f nil) (f 9)])"} + {:suite "conformance / iterating maps yields entries" :label "case collection consts" :expected "[:v :m :s]" :actual "(let [f (fn [x] (case x [1 2] :v {:a 1} :m #{3} :s :def))] [(f [1 2]) (f {:a 1}) (f #{3})])"} + {:suite "conformance / iterating maps yields entries" :label "seq of nil-first" :expected "true" :actual "(boolean (seq (cons nil (list 1))))"} + {:suite "conformance / iterating maps yields entries" :label "reverse nil elem" :expected "[2 nil 1]" :actual "(vec (reverse (list 1 nil 2)))"} + {:suite "conformance / iterating maps yields entries" :label "map non-seqable throws" :expected "true" :actual "(try (doall (map inc 5)) false (catch Throwable _ true))"} + {:suite "conformance / iterating maps yields entries" :label "keep-indexed" :expected "[:b :d]" :actual "(keep-indexed (fn [i x] (if (odd? i) x)) [:a :b :c :d])"} + {:suite "conformance / iterating maps yields entries" :label "map-indexed" :expected "[[0 :a] [1 :b]]" :actual "(map-indexed (fn [i x] [i x]) [:a :b])"} + {:suite "conformance / iterating maps yields entries" :label "trampoline" :expected ":done" :actual "(do (defn a [n] (if (zero? n) :done (fn [] (a (dec n))))) (trampoline a 5))"} + {:suite "conformance / iterating maps yields entries" :label "format" :expected "\"1-x\"" :actual "(format \"%d-%s\" 1 \"x\")"} + {:suite "conformance / iterating maps yields entries" :label "read-string" :expected "(quote (+ 1 2))" :actual "(read-string \"(+ 1 2)\")"} + {:suite "conformance / iterating maps yields entries" :label "letfn mutual" :expected "true" :actual "(letfn [(ev? [n] (if (= n 0) true (od? (dec n)))) (od? [n] (if (= n 0) false (ev? (dec n))))] (ev? 10))"} + {:suite "conformance / iterating maps yields entries" :label "doseq side" :expected "[1 2 3]" :actual "(do (def a (atom [])) (doseq [x [1 2 3]] (swap! a conj x)) @a)"} + {:suite "conformance / iterating maps yields entries" :label "doseq nested" :expected "4" :actual "(do (def c (atom 0)) (doseq [x [1 2] y [10 20]] (swap! c inc)) @c)"} + {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "lazy filter inf" :expected "[1 3 5 7 9]" :actual "(take 5 (filter odd? (range)))"} + {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "lazy take-while inf" :expected "[0 1 2 3 4]" :actual "(take-while (fn [x] (< x 5)) (range))"} + {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "lazy remove inf" :expected "[0 2 4 6 8]" :actual "(take 5 (remove odd? (range)))"} + {:suite "conformance / MED: lazy filter / take-while over infinite seqs" :label "filter finite" :expected "[2 4]" :actual "(filter even? [1 2 3 4 5])"} + {:suite "conformance / atoms (full support)" :label "swap! args" :expected "7" :actual "(do (def a (atom 1)) (swap! a + 2 4) @a)"} + {:suite "conformance / atoms (full support)" :label "reset! ret" :expected "9" :actual "(do (def a (atom 1)) (reset! a 9))"} + {:suite "conformance / atoms (full support)" :label "compare-and-set!" :expected "true" :actual "(do (def a (atom 1)) (compare-and-set! a 1 2))"} + {:suite "conformance / atoms (full support)" :label "compare-and-set! no" :expected "false" :actual "(do (def a (atom 1)) (compare-and-set! a 5 2))"} + {:suite "conformance / atoms (full support)" :label "swap-vals!" :expected "[1 2]" :actual "(do (def a (atom 1)) (swap-vals! a inc))"} + {:suite "conformance / atoms (full support)" :label "reset-vals!" :expected "[1 9]" :actual "(do (def a (atom 1)) (reset-vals! a 9))"} + {:suite "conformance / atoms (full support)" :label "atom map swap" :expected "{:a 1, :b 2}" :actual "(do (def a (atom {:a 1})) (swap! a assoc :b 2) @a)"} + {:suite "conformance / atoms (full support)" :label "add-watch" :expected "[:k 1 2]" :actual "(do (def lg (atom nil)) (def a (atom 1)) (add-watch a :k (fn [k r o n] (reset! lg [k o n]))) (swap! a inc) @lg)"} + {:suite "conformance / atoms (full support)" :label "atom validator" :expected "5" :actual "(do (def a (atom 1 :validator pos?)) (reset! a 5) @a)"} + {:suite "conformance / atoms (full support)" :label "instance? Atom" :expected "true" :actual "(instance? clojure.lang.Atom (atom 1))"} + {:suite "conformance / volatiles / delays" :label "volatile" :expected "2" :actual "(do (def v (volatile! 1)) (vreset! v 2) @v)"} + {:suite "conformance / volatiles / delays" :label "vswap!" :expected "2" :actual "(do (def v (volatile! 1)) (vswap! v inc) @v)"} + {:suite "conformance / volatiles / delays" :label "delay force" :expected "3" :actual "(force (delay (+ 1 2)))"} + {:suite "conformance / volatiles / delays" :label "delay deref once" :expected "1" :actual "(do (def c (atom 0)) (def d (delay (swap! c inc))) @d @d @c)"} + {:suite "conformance / volatiles / delays" :label "realized? delay" :expected "true" :actual "(do (def d (delay 1)) @d (realized? d))"} + {:suite "conformance / volatiles / delays" :label "realized? not" :expected "false" :actual "(realized? (delay 1))"} + {:suite "conformance / numbers / math" :label "quot neg" :expected "-2" :actual "(quot -7 3)"} + {:suite "conformance / numbers / math" :label "bit ops" :expected "[4 14 10]" :actual "[(bit-and 12 6) (bit-or 12 6) (bit-xor 12 6)]"} + {:suite "conformance / numbers / math" :label "bit-shift" :expected "[8 2]" :actual "[(bit-shift-left 1 3) (bit-shift-right 8 2)]"} + {:suite "conformance / numbers / math" :label "Math/sqrt" :expected "3.0" :actual "(Math/sqrt 9)"} + {:suite "conformance / numbers / math" :label "Math/pow" :expected "8.0" :actual "(Math/pow 2 3)"} + {:suite "conformance / numbers / math" :label "min-key" :expected "1" :actual "(min-key abs 1 -2 3)"} + {:suite "conformance / numbers / math" :label "max-key" :expected "-4" :actual "(max-key abs 1 -2 -4 3)"} + {:suite "conformance / strings (clojure.string)" :label "str/trim" :expected "\"hi\"" :actual "(do (require (quote [clojure.string :as s])) (s/trim \" hi \"))"} + {:suite "conformance / strings (clojure.string)" :label "str/split regex" :expected "[\"a\" \"b\" \"c\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a,b,c\" #\",\"))"} + {:suite "conformance / strings (clojure.string)" :label "str/split ws" :expected "[\"a\" \"b\" \"c\"]" :actual "(do (require (quote [clojure.string :as s])) (s/split \"a b c\" #\"\\s+\"))"} + {:suite "conformance / strings (clojure.string)" :label "str/replace" :expected "\"hexxo\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"hello\" \"ll\" \"xx\"))"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "str/replace regex" :expected "\"ab\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"a1b2\" #\"[0-9]\" \"\"))"} + {:suite "conformance / strings (clojure.string)" :label "subs" :expected "\"ell\"" :actual "(subs \"hello\" 1 4)"} + {:suite "conformance / regex" :label "re-find" :expected "\"123\"" :actual "(re-find #\"[0-9]+\" \"abc123def\")"} + {:suite "conformance / regex" :label "re-matches" :expected "\"abc\"" :actual "(re-matches #\"a.c\" \"abc\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-matches no" :expected "nil" :actual "(re-matches #\"a.c\" \"abcd\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-seq" :expected "[\"12\" \"34\"]" :actual "(re-seq #\"[0-9]+\" \"a12b34\")"} + {:suite "conformance / sequences" :label "split-at" :expected "[[1 2] [3 4 5]]" :actual "(split-at 2 [1 2 3 4 5])"} + {:suite "conformance / sequences" :label "split-with" :expected "[[1 2] [3 4 1]]" :actual "(split-with (fn [x] (< x 3)) [1 2 3 4 1])"} + {:suite "conformance / sequences" :label "partition step" :expected "[[1 2] [3 4]]" :actual "(partition 2 2 [1 2 3 4 5])"} + {:suite "conformance / sequences" :label "not-every?" :expected "true" :actual "(not-every? pos? [1 -2 3])"} + {:suite "conformance / overlay migration: run in all 3 modes" :label "not-any?" :expected "true" :actual "(not-any? neg? [1 2 3])"} + {:suite "conformance / sequences" :label "take-nth" :expected "[0 2 4]" :actual "(take-nth 2 [0 1 2 3 4])"} + {:suite "conformance / sequences" :label "butlast" :expected "[1 2]" :actual "(butlast [1 2 3])"} + {:suite "conformance / sequences" :label "empty" :expected "[]" :actual "(empty [1 2 3])"} + {:suite "conformance / sequences" :label "replace map" :expected "[:a :b :a]" :actual "(replace {1 :a 2 :b} [1 2 1])"} + {:suite "conformance / data structures" :label "sorted-map seq" :expected "[[:a 1] [:b 2] [:c 3]]" :actual "(seq (sorted-map :c 3 :a 1 :b 2))"} + {:suite "conformance / data structures" :label "sorted-set seq" :expected "[1 2 3]" :actual "(seq (sorted-set 3 1 2))"} + {:suite "conformance / data structures" :label "coll? set" :expected "true" :actual "(coll? #{1 2})"} + {:suite "conformance / data structures" :label "conj map entry" :expected "{:a 1, :b 2}" :actual "(conj {:a 1} [:b 2])"} + {:suite "conformance / metadata / vars" :label "vary-meta" :expected "{:x 2}" :actual "(meta (vary-meta (with-meta [1] {:x 1}) update :x inc))"} + {:suite "conformance / metadata / vars" :label "defonce no-redef" :expected "1" :actual "(do (defonce dv1 1) (defonce dv1 2) dv1)"} + {:suite "conformance / metadata / vars" :label "binding dynamic" :expected "10" :actual "(do (def ^:dynamic *x* 1) (binding [*x* 10] *x*))"} + {:suite "conformance / try / catch" :label "try catch" :expected ":caught" :actual "(try (throw (ex-info \"e\" {})) (catch :default e :caught))"} + {:suite "conformance / try / catch" :label "ex-data" :expected "{:a 1}" :actual "(try (throw (ex-info \"m\" {:a 1})) (catch :default e (ex-data e)))"} + {:suite "conformance / try / catch" :label "ex-message" :expected "\"m\"" :actual "(try (throw (ex-info \"m\" {})) (catch :default e (ex-message e)))"} + {:suite "conformance / macros" :label "macroexpand-1" :expected "true" :actual "(do (defmacro mm [x] (list (quote inc) x)) (= (quote (inc 5)) (macroexpand-1 (quote (mm 5)))))"} + {:suite "conformance / macros" :label "doto" :expected "{:a 1}" :actual "(deref (doto (atom {}) (swap! assoc :a 1)))"} + {:suite "conformance / printing" :label "prn-str" :expected "\"1\\n\"" :actual "(prn-str 1)"} + {:suite "conformance / characters" :label "char not string" :expected "false" :actual "(= \\a \"a\")"} + {:suite "conformance / characters" :label "char eq" :expected "true" :actual "(= \\a \\a)"} + {:suite "conformance / characters" :label "int of char" :expected "97" :actual "(int \\a)"} + {:suite "conformance / characters" :label "char of int" :expected "true" :actual "(= \\A (char 65))"} + {:suite "conformance / characters" :label "str of chars" :expected "\"abc\"" :actual "(str \\a \\b \\c)"} + {:suite "conformance / characters" :label "first of string" :expected "\\h" :actual "(first \"hello\")"} + {:suite "conformance / characters" :label "nth of string" :expected "\\e" :actual "(nth \"hello\" 1)"} + {:suite "conformance / characters" :label "char newline" :expected "10" :actual "(int \\newline)"} + {:suite "conformance / characters" :label "char space" :expected "32" :actual "(int \\space)"} + {:suite "conformance / characters" :label "pr-str char" :expected "\"\\\\a\"" :actual "(pr-str \\a)"} + {:suite "conformance / characters" :label "chars in vec" :expected "[\\a \\b]" :actual "[\\a \\b]"} + {:suite "conformance / characters" :label "apply str chars" :expected "\"hi\"" :actual "(apply str [\\h \\i])"} + {:suite "conformance / transducers" :label "transduce map" :expected "9" :actual "(transduce (map inc) + 0 [1 2 3])"} + {:suite "conformance / transducers" :label "transduce comp" :expected "12" :actual "(transduce (comp (map inc) (filter even?)) + 0 [1 2 3 4 5])"} + {:suite "conformance / transducers" :label "transduce conj" :expected "[2 3 4]" :actual "(transduce (map inc) conj [] [1 2 3])"} + {:suite "conformance / transducers" :label "into comp xform" :expected "[1 9 25]" :actual "(into [] (comp (filter odd?) (map (fn [x] (* x x)))) [1 2 3 4 5])"} + {:suite "conformance / transducers" :label "into take xform" :expected "[0 1 2]" :actual "(into [] (take 3) (range 100))"} + {:suite "conformance / transducers" :label "transduce no-init" :expected "6" :actual "(transduce (map inc) + [0 1 2])"} + {:suite "conformance / transducers" :label "transduce drop" :expected "[3 4 5]" :actual "(into [] (drop 2) [1 2 3 4 5])"} + {:suite "conformance / transducers" :label "transduce remove" :expected "[1 3 5]" :actual "(into [] (remove even?) [1 2 3 4 5])"} + {:suite "conformance / transducers" :label "transduce take-while" :expected "[1 2]" :actual "(into [] (take-while (fn [x] (< x 3))) [1 2 3 4 1])"} + {:suite "conformance / transducers" :label "transduce map-indexed" :expected "[[0 :a] [1 :b]]" :actual "(into [] (map-indexed (fn [i x] [i x])) [:a :b])"} + {:suite "conformance / transducers" :label "partition-all xform" :expected "[[1 2] [3 4] [5]]" :actual "(into [] (partition-all 2) [1 2 3 4 5])"} + {:suite "conformance / transducers" :label "partition-all xform comp" :expected "[2 2 1]" :actual "(into [] (comp (partition-all 2) (map count)) [1 2 3 4 5])"} + {:suite "conformance / transducers" :label "partition-by xform" :expected "[[1 1] [2 4] [5]]" :actual "(into [] (partition-by odd?) [1 1 2 4 5])"} + {:suite "conformance / transducers" :label "partition-by xform reduced" :expected "[[1 1] [2 4]]" :actual "(into [] (comp (partition-by odd?) (take 2)) [1 1 2 4 5 5])"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-find groups" :expected "[\"12-34\" \"12\" \"34\"]" :actual "(re-find #\"(\\d+)-(\\d+)\" \"x12-34y\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-find no-groups" :expected "\"123\"" :actual "(re-find #\"\\d+\" \"ab123\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "re-matches groups" :expected "[\"1.2\" \"1\" \"2\"]" :actual "(re-matches #\"(\\d+)\\.(\\d+)\" \"1.2\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "greedy backtrack" :expected "\"xxfoo\"" :actual "(re-find #\".*foo\" \"xxfoo\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "greedy thru group" :expected "[\"a,b,c\" \"a,b\" \"c\"]" :actual "(re-find #\"(.*),(.*)\" \"a,b,c\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "lazy quantifier" :expected "[\"\" \"a\"]" :actual "(re-find #\"<(.+?)>\" \"\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "flag case-insens" :expected "\"CAT\"" :actual "(re-find #\"(?i)cat\" \"a CAT\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "lookahead" :expected "\"foo\"" :actual "(re-find #\"foo(?=bar)\" \"foobar\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "neg-lookahead" :expected "\"foo\"" :actual "(re-find #\"foo(?!bar)\" \"foobaz\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "word-boundary" :expected "\"word\"" :actual "(re-find #\"\\bword\\b\" \"a word!\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "word-boundary no" :expected "nil" :actual "(re-find #\"\\bword\\b\" \"swordfish\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "optional group" :expected "[\"1.2.3\" \"1\" \"2\" \"3\" nil]" :actual "(re-find #\"(\\d+)\\.(\\d+)\\.(\\d+)(?:-([a-z]+))?\" \"1.2.3\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "alternation" :expected "\"dog\"" :actual "(re-find #\"cat|dog\" \"a dog cat\")"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "str/replace $1" :expected "\"he[ll]o\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"hello\" #\"(l+)\" \"[$1]\"))"} + {:suite "conformance / regex (capturing groups, backtracking, flags, lookahead)" :label "str/replace regex (2)" :expected "\"X-X\"" :actual "(do (require (quote [clojure.string :as s])) (s/replace \"a-b\" #\"[a-z]\" \"X\"))"} + {:suite "conformance / map literals evaluate their values" :label "map literal var" :expected "{:k 5}" :actual "(let [x 5] {:k x})"} + {:suite "conformance / map literals evaluate their values" :label "map literal nested" :expected "{:a {:b 2}}" :actual "(let [y 2] {:a {:b y}})"} + {:suite "conformance / map literals evaluate their values" :label "map literal keyfn" :expected "{:x 1}" :actual "(let [k :x] {k 1})"} + {:suite "conformance / map literals evaluate their values" :label "map literal in fn" :expected "6" :actual "(do (defn mk [a b] {:sum (+ a b)}) (:sum (mk 2 4)))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "def 3-arg docstring" :expected "42" :actual "(do (def dd \"the doc\" 42) dd)"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "def docstring value type" :expected "true" :actual "(do (def ds \"doc\" [1 2]) (vector? ds))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "def ^{:map} name" :expected "5" :actual "(do (def ^{:private true} mmv 5) mmv)"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defn ^{:map} name" :expected "25" :actual "(do (defn ^{:private true} sqf [x] (* x x)) (sqf 5))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defmacro arity-clause" :expected "10" :actual "(do (defmacro m2c ([x] (list (quote *) x 2))) (m2c 5))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defmacro doc + arity" :expected "30" :actual "(do (defmacro m3c \"doc\" ([x] (list (quote *) x 3))) (* (m3c 5) 2))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "defmulti docstring" :expected "\"A\"" :actual "(do (defmulti gmm \"the doc\" identity) (defmethod gmm :a [_] \"A\") (gmm :a))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "try multi-body last" :expected "3" :actual "(try 1 2 3 (catch :default e 0))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "try finally on ok+catch" :expected "9" :actual "(let [a (atom 0)] (try 1 2 (catch :default e :c) (finally (reset! a 9))) @a)"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "ns restored after catch" :expected "\"user\"" :actual "(do (ns cf.boom) (defn bz [] (throw (Exception. \"e\"))) (in-ns (quote user)) (try (cf.boom/bz) (catch :default e nil)) (str *ns*))"} + {:suite "conformance / migratus enablement: def/defmacro/defmulti forms, assoc, try, ns" :label "cross-ns methods visible" :expected "[:sql]" :actual "(do (ns cf.mm) (defmulti ext identity) (defmethod ext :default [_] :d) (defn allk [] (vec (for [[k v] (methods ext) :when (not= k :default)] k))) (ns cf.mmi) (defmethod cf.mm/ext :sql [_] :s) (in-ns (quote user)) (cf.mm/allk))"} + {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "defmacro multi-arity" :expected "[6 5 6]" :actual "(do (defmacro mar ([a] (list (quote +) a 1)) ([a b] (list (quote +) a b)) ([a b c] (list (quote +) a b c))) [(mar 5) (mar 2 3) (mar 1 2 3)])"} + {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "defmacro doc + attr-map" :expected "10" :actual "(do (defmacro mam \"doc\" {:arglists (quote ([x]))} [x] (list (quote inc) x)) (mam 9))"} + {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "syntax-quote resolves alias" :expected "\"HI\"" :actual "(do (ns sq.lib (:require [clojure.string :as s])) (defmacro up [x] `(s/upper-case ~x)) (in-ns (quote user)) (sq.lib/up \"hi\"))"} + {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "ns name with ^{:map} meta" :expected "5" :actual "(do (ns ^{:author \"a\" :doc \"d\"} nm.meta) (def q 5) (in-ns (quote user)) nm.meta/q)"} + {:suite "conformance / defmacro surface + syntax-quote/ns (enabling real clojure libs)" :label "unquote *ns* in template" :expected "true" :actual "(do (defmacro cur-ns [] `(str ~*ns*)) (string? (cur-ns)))"} + {:suite "reader / read-string constructs sets" :label "top-level set" :expected "true" :actual "(set? (read-string \"#{:a :b}\"))"} + {:suite "reader / read-string constructs sets" :label "set value equals" :expected "true" :actual "(= #{1 2} (read-string \"#{1 2}\"))"} + {:suite "reader / read-string constructs sets" :label "set nested in map" :expected "true" :actual "(set? (:k (read-string \"{:k #{:a :b}}\")))"} + {:suite "reader / read-string constructs sets" :label "set nested in vector" :expected "true" :actual "(set? (first (read-string \"[#{:a}]\")))"} + {:suite "reader / read-string constructs sets" :label "set nested in list" :expected "true" :actual "(set? (first (read-string \"(#{:a})\")))"} + {:suite "reader / read-string constructs sets" :label "set keeps reader metadata" :expected "true" :actual "(:s (meta (read-string \"^:s #{1 2}\")))"} + {:suite "reader / read-string constructs sets" :label "set of sets" :expected "true" :actual "(every? set? (read-string \"#{#{1} #{2}}\"))"} + {:suite "io / str & format" :label "format %x lowercase" :expected "\"ff\"" :actual "(format \"%x\" 255)"} + {:suite "io / str & format" :label "format %04x zero-pad lower" :expected "\"00ff\"" :actual "(format \"%04x\" 255)"} + {:suite "io / str & format" :label "format %X uppercase" :expected "\"00FF\"" :actual "(format \"%04X\" 255)"} + {:suite "io / str & format" :label "format %x wide hex" :expected "\"deadbeef\"" :actual "(format \"%x\" 3735928559)"} + {:suite "protocols / extend & extends? on nil" :label "extend nil dispatches" :expected ":nil-via-extend" :actual "(do (defprotocol P2 (q [this])) (extend nil P2 {:q (fn [_] :nil-via-extend)}) (q nil))"} + {:suite "protocols / extend & extends? on nil" :label "extends? nil when extended" :expected "true" :actual "(do (defprotocol Pe (pe [this])) (extend nil Pe {:pe (fn [_] :x)}) (extends? Pe nil))"} + {:suite "protocols / extend & extends? on nil" :label "extends? nil when not extended" :expected "false" :actual "(do (defprotocol P3 (r [this])) (extends? P3 nil))"} + {:suite "protocols / extend & extends? on nil" :label "extend-type nil still works" :expected ":via-type" :actual "(do (defprotocol P4 (s [this])) (extend-type nil P4 (s [_] :via-type)) (s nil))"} + {:suite "protocols / extend on host classes" :label "dispatch by java.util.Map/Collection/CharSequence" :expected "[:map :coll :str :obj]" :actual "(do (defprotocol W (-w [x])) (extend java.util.Map W {:-w (fn [_] :map)}) (extend java.util.Collection W {:-w (fn [_] :coll)}) (extend java.lang.CharSequence W {:-w (fn [_] :str)}) (extend java.lang.Object W {:-w (fn [_] :obj)}) [(-w {:a 1}) (-w [1 2]) (-w \"s\") (-w 42)])"} + {:suite "protocols / extend on host classes" :label "satisfies? via java.util.Map" :expected "true" :actual "(do (defprotocol Q (qq [x])) (extend java.util.Map Q {:qq (fn [_] :m)}) (satisfies? Q {}))"} + {:suite "protocols / extend on host classes" :label "extends? on a qualified host class" :expected "true" :actual "(do (defprotocol Qe (qe [x])) (extend java.util.Collection Qe {:qe (fn [_] :c)}) (extends? Qe java.util.Collection))"} + {:suite "interop / instance? on host interfaces" :label "keyword is Named" :expected "true" :actual "(instance? clojure.lang.Named :a)"} + {:suite "interop / instance? on host interfaces" :label "string is CharSequence" :expected "true" :actual "(instance? java.lang.CharSequence \"s\")"} + {:suite "interop / instance? on host interfaces" :label "number is Number" :expected "true" :actual "(instance? java.lang.Number 42)"} + {:suite "interop / instance? on host interfaces" :label "map is java.util.Map" :expected "true" :actual "(instance? java.util.Map {:a 1})"} + {:suite "interop / instance? on host interfaces" :label "vector is java.util.List" :expected "true" :actual "(instance? java.util.List [1 2])"} + {:suite "interop / instance? on host interfaces" :label "list is java.util.Collection" :expected "true" :actual "(instance? java.util.Collection (list 1))"} + {:suite "interop / instance? on host interfaces" :label "set is java.util.Set" :expected "true" :actual "(instance? java.util.Set #{1})"} + {:suite "interop / instance? on host interfaces" :label "map is not a Collection" :expected "false" :actual "(instance? java.util.Collection {:a 1})"} + {:suite "interop / instance? on host interfaces" :label "vector is Associative" :expected "true" :actual "(instance? clojure.lang.Associative [1])"} + {:suite "interop / instance? on host interfaces" :label "string is not Number" :expected "false" :actual "(instance? java.lang.Number \"s\")"} + {:suite "interop / String & StringBuilder char ops" :label "String from char-array slice" :expected "\"abc\"" :actual "(String. (char-array [\\a \\b \\c \\d]) 0 3)"} + {:suite "interop / String & StringBuilder char ops" :label "str of StringBuilder" :expected "\"hi\"" :actual "(let [sb (StringBuilder.)] (.append sb \"hi\") (str sb))"} + {:suite "interop / String & StringBuilder char ops" :label "append subsequence" :expected "\"bcd\"" :actual "(let [sb (StringBuilder.)] (.append sb \"abcde\" 1 4) (.toString sb))"} + {:suite "interop / String & StringBuilder char ops" :label "String.getChars into buffer" :expected "\"abc\"" :actual "(let [a (char-array 4)] (.getChars \"abcd\" 0 3 a 0) (String. a 0 3))"} + {:suite "interop / numbers & classes" :label "Integer/toHexString lowercase" :expected "\"ff\"" :actual "(Integer/toHexString 255)"} + {:suite "interop / numbers & classes" :label "Integer/toHexString wide" :expected "\"1234\"" :actual "(Integer/toHexString 4660)"} + {:suite "interop / numbers & classes" :label ".isNaN on a double" :expected "true" :actual "(.isNaN (/ 0.0 0.0))"} + {:suite "interop / numbers & classes" :label ".isInfinite on a double" :expected "true" :actual "(.isInfinite (/ 1.0 0.0))"} + {:suite "interop / numbers & classes" :label ".isNaN false for finite" :expected "false" :actual "(.isNaN 1.0)"} + {:suite "interop / numbers & classes" :label "protocol dispatch Long vs Double" :expected "[:l :d]" :actual "(do (defprotocol N (-n [x])) (extend java.lang.Long N {:-n (fn [_] :l)}) (extend java.lang.Double N {:-n (fn [_] :d)}) [(-n 5) (-n 5.0)])"} + {:suite "interop / numbers & classes" :label "instance? PushbackReader" :expected "true" :actual "(instance? java.io.PushbackReader (java.io.PushbackReader. (java.io.StringReader. \"x\")))"} + {:suite "interop / numbers & classes" :label "EOFException catch by class" :expected "\"boom\"" :actual "(try (throw (java.io.EOFException. \"boom\")) (catch java.io.EOFException e (.getMessage e)))"} + {:suite "interop / numbers & classes" :label "Reader.read into char[]" :expected "[4 \"abcd\"]" :actual "(let [r (java.io.StringReader. \"abcd\") b (char-array 4)] (let [n (.read r b 0 4)] [n (String. b 0 n)]))"} + {:suite "interop / java.time" :label "LocalDate toString" :expected "\"2020-01-15\"" :actual "(str (java.time.LocalDate/of 2020 1 15))"} + {:suite "interop / java.time" :label "LocalDate plusDays over leap day" :expected "\"2020-02-29\"" :actual "(str (.plusDays (java.time.LocalDate/of 2020 2 28) 1))"} + {:suite "interop / java.time" :label "LocalDate equality" :expected "true" :actual "(= (java.time.LocalDate/of 2020 1 15) (java.time.LocalDate/of 2020 1 15))"} + {:suite "interop / java.time" :label "LocalDate compare" :expected "-1" :actual "(compare (java.time.LocalDate/of 2020 1 15) (java.time.LocalDate/of 2020 1 16))"} + {:suite "interop / java.time" :label "LocalDate ofEpochDay round-trip" :expected "1" :actual "(.toEpochDay (java.time.LocalDate/of 1970 1 2))"} + {:suite "interop / java.time" :label "LocalDate parse" :expected "\"2020-01-15\"" :actual "(str (java.time.LocalDate/parse \"2020-01-15\"))"} + {:suite "interop / java.time" :label "LocalDate getDayOfWeek name" :expected "\"WEDNESDAY\"" :actual "(.name (.getDayOfWeek (java.time.LocalDate/of 2020 1 15)))"} + {:suite "interop / java.time" :label "LocalTime toString" :expected "\"10:30:15\"" :actual "(str (java.time.LocalTime/of 10 30 15))"} + {:suite "interop / java.time" :label "LocalTime plusHours wraps midnight" :expected "\"01:30\"" :actual "(str (.plusHours (java.time.LocalTime/of 23 30) 2))"} + {:suite "interop / java.time" :label "LocalDateTime toString" :expected "\"2020-01-15T10:30\"" :actual "(str (java.time.LocalDateTime/of 2020 1 15 10 30 0))"} + {:suite "interop / java.time" :label "Instant ofEpochMilli toString" :expected "\"2020-01-15T10:30:00Z\"" :actual "(str (java.time.Instant/ofEpochMilli 1579084200000))"} + {:suite "interop / java.time" :label "Instant ofEpochMilli round-trip" :expected "1579084200000" :actual "(.toEpochMilli (java.time.Instant/ofEpochMilli 1579084200000))"} + {:suite "interop / java.time" :label "Duration ofSeconds toString" :expected "\"PT1M30S\"" :actual "(str (java.time.Duration/ofSeconds 90))"} + {:suite "interop / java.time" :label "Duration between instants" :expected "\"PT1H1M1S\"" :actual "(str (java.time.Duration/between (java.time.Instant/ofEpochSecond 0) (java.time.Instant/ofEpochSecond 3661)))"} + {:suite "interop / java.time" :label "Period between dates" :expected "\"P1Y2M2D\"" :actual "(str (java.time.Period/between (java.time.LocalDate/of 2020 1 1) (java.time.LocalDate/of 2021 3 3)))"} + {:suite "interop / java.time" :label "Period parse round-trip" :expected "\"P1Y2M3D\"" :actual "(str (java.time.Period/parse \"P1Y2M3D\"))"} + {:suite "interop / java.time" :label "Period normalized" :expected "\"P2Y1M5D\"" :actual "(str (.normalized (java.time.Period/of 1 13 5)))"} + {:suite "interop / java.time" :label "Month of toString" :expected "\"FEBRUARY\"" :actual "(.toString (java.time.Month/of 2))"} + {:suite "interop / java.time" :label "Month length leap" :expected "29" :actual "(.length (java.time.Month/of 2) true)"} + {:suite "interop / java.time" :label "DayOfWeek constant prints name" :expected "\"MONDAY\"" :actual "(str java.time.DayOfWeek/MONDAY)"} + {:suite "interop / java.time" :label "YearMonth toString" :expected "\"2020-02\"" :actual "(str (java.time.YearMonth/of 2020 2))"} + {:suite "interop / java.time" :label "ChronoUnit DAYS between" :expected "14" :actual "(.between java.time.temporal.ChronoUnit/DAYS (java.time.LocalDate/of 2020 1 1) (java.time.LocalDate/of 2020 1 15))"} + {:suite "interop / java.time" :label "LocalDate plus ChronoUnit DAYS" :expected "\"2020-01-04\"" :actual "(str (.plus (java.time.LocalDate/of 2020 1 1) 3 java.time.temporal.ChronoUnit/DAYS))"} + {:suite "interop / java.time" :label "LocalDate until ChronoUnit DAYS" :expected "31" :actual "(.until (java.time.LocalDate/of 2020 1 1) (java.time.LocalDate/of 2020 2 1) java.time.temporal.ChronoUnit/DAYS)"} + {:suite "interop / java.time" :label "ZoneOffset ofHoursMinutes toString" :expected "\"+02:00\"" :actual "(str (java.time.ZoneOffset/ofHoursMinutes 2 0))"} + {:suite "interop / java.time" :label "ZoneOffset ofTotalSeconds toString" :expected "\"-04:30\"" :actual "(str (java.time.ZoneOffset/ofTotalSeconds -16200))"} + {:suite "interop / java.time" :label "ZoneOffset UTC toString" :expected "\"Z\"" :actual "(str java.time.ZoneOffset/UTC)"} + {:suite "interop / java.time" :label "ZoneOffset of getTotalSeconds" :expected "7200" :actual "(.getTotalSeconds (java.time.ZoneOffset/of \"+02:00\"))"} + {:suite "interop / java.time" :label "ZoneOffset ofHoursMinutes negative" :expected "\"-04:30\"" :actual "(.getId (java.time.ZoneOffset/ofHoursMinutes -4 -30))"} + {:suite "interop / java.time" :label "OffsetDateTime toInstant" :expected "\"2020-01-15T08:30:00Z\"" :actual "(str (.toInstant (java.time.OffsetDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneOffset/ofHours 2))))"} + {:suite "interop / java.time" :label "OffsetDateTime toString" :expected "\"2020-01-15T10:30+02:00\"" :actual "(str (java.time.OffsetDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneOffset/ofHours 2)))"} + {:suite "interop / java.time" :label "ZonedDateTime withZoneSameInstant UTC" :expected "\"2020-01-15T08:30Z\"" :actual "(str (.withZoneSameInstant (java.time.ZonedDateTime/parse \"2020-01-15T10:30:00+02:00[Europe/Paris]\") java.time.ZoneOffset/UTC))"} + {:suite "interop / java.time" :label "ZonedDateTime of toInstant fixed offset" :expected "\"2020-01-15T08:30:00Z\"" :actual "(str (.toInstant (java.time.ZonedDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneId/of \"+02:00\"))))"} + {:suite "interop / java.time" :label "DateTimeFormatter ofPattern format" :expected "\"2020-01-15 10:30:00\"" :actual "(.format (java.time.format.DateTimeFormatter/ofPattern \"yyyy-MM-dd HH:mm:ss\") (java.time.LocalDateTime/of 2020 1 15 10 30 0))"} + {:suite "interop / java.time" :label "ISO_LOCAL_DATE_TIME format" :expected "\"2020-01-15T10:30:00\"" :actual "(.format java.time.format.DateTimeFormatter/ISO_LOCAL_DATE_TIME (java.time.LocalDateTime/of 2020 1 15 10 30 0))"} + {:suite "interop / java.time" :label "ISO_OFFSET_DATE_TIME format" :expected "\"2020-01-15T10:30:00+02:00\"" :actual "(.format java.time.format.DateTimeFormatter/ISO_OFFSET_DATE_TIME (java.time.OffsetDateTime/of 2020 1 15 10 30 0 0 (java.time.ZoneOffset/ofHours 2)))"} + {:suite "interop / java.time" :label "Instant plusNanos toString nanos group" :expected "\"1970-01-01T00:00:00.000000001Z\"" :actual "(str (.plusNanos (java.time.Instant/ofEpochSecond 0) 1))"} + {:suite "interop / java.time" :label "Instant one nano differs" :expected "false" :actual "(= (java.time.Instant/ofEpochSecond 0) (.plusNanos (java.time.Instant/ofEpochSecond 0) 1))"} + {:suite "interop / java.time" :label "Instant getNano single nano" :expected "1" :actual "(.getNano (.plusNanos (java.time.Instant/ofEpochSecond 0) 1))"} + {:suite "interop / java.time" :label "Instant ofEpochSecond nano millis group" :expected "\"1970-01-01T00:00:00.001Z\"" :actual "(str (java.time.Instant/ofEpochSecond 0 1000000))"} + {:suite "interop / java.time" :label "Instant ofEpochSecond nano micros group" :expected "\"1970-01-01T00:00:00.000001Z\"" :actual "(str (java.time.Instant/ofEpochSecond 0 1000))"} + {:suite "interop / java.time" :label "Instant plusSeconds keeps nanos" :expected "\"1970-01-01T00:00:02.000000005Z\"" :actual "(str (.plusSeconds (.plusNanos (java.time.Instant/ofEpochSecond 0) 5) 2))"} + {:suite "interop / java.time" :label "Instant getEpochSecond floors negative nano" :expected "-1" :actual "(.getEpochSecond (.plusNanos (java.time.Instant/ofEpochSecond 0) -1))"} + {:suite "interop / java.time" :label "Instant getNano of negative nano" :expected "999999999" :actual "(.getNano (.plusNanos (java.time.Instant/ofEpochSecond 0) -1))"} + {:suite "interop / java.time" :label "Instant toEpochMilli floors sub-milli" :expected "1000" :actual "(.toEpochMilli (.plusNanos (java.time.Instant/ofEpochSecond 1) 999999))"} + {:suite "interop / java.time" :label "Instant truncatedTo SECONDS drops nanos" :expected "\"1970-01-01T00:00:05Z\"" :actual "(str (.truncatedTo (.plusNanos (java.time.Instant/ofEpochSecond 5) 123) java.time.temporal.ChronoUnit/SECONDS))"} + {:suite "interop / java.io File" :label "getName" :expected "\"c.txt\"" :actual "(.getName (java.io.File. \"/a/b/c.txt\"))"} + {:suite "interop / java.io File" :label "getParent" :expected "\"/a/b\"" :actual "(.getParent (java.io.File. \"/a/b/c.txt\"))"} + {:suite "interop / java.io File" :label "getPath keeps relative path" :expected "\"rel/x\"" :actual "(.getPath (java.io.File. \"rel/x\"))"} + {:suite "interop / java.io File" :label "relative File is not absolute" :expected "false" :actual "(.isAbsolute (java.io.File. \"rel\"))"} + {:suite "interop / java.io File" :label "parent+child constructor joins" :expected "\"/a/b\"" :actual "(.getPath (java.io.File. \"/a\" \"b\"))"} + {:suite "interop / java.io File" :label "File/separator" :expected "\"/\"" :actual "java.io.File/separator"} + {:suite "interop / java.io File" :label "str of File is its path" :expected "\"a/b\"" :actual "(str (java.io.File. \"a/b\"))"} + {:suite "interop / java.io File" :label "mkdir then delete a temp dir" :expected "[true true true]" :actual "(let [d (java.io.File/createTempFile \"jd\" \"\")] (.delete d) [(.mkdir d) (.isDirectory d) (.delete d)])"} + {:suite "interop / java.io streams" :label "ByteArrayOutputStream toString" :expected "\"hi!\"" :actual "(let [b (java.io.ByteArrayOutputStream.)] (.write b (.getBytes \"hi\")) (.write b 33) (.toString b))"} + {:suite "interop / java.io streams" :label "ByteArrayOutputStream size" :expected "4" :actual "(let [b (java.io.ByteArrayOutputStream.)] (.write b (.getBytes \"abcd\")) (.size b))"} + {:suite "interop / java.io streams" :label "ByteArrayOutputStream toByteArray round-trips" :expected "\"yo\"" :actual "(String. (.toByteArray (doto (java.io.ByteArrayOutputStream.) (.write (.getBytes \"yo\")))))"} + {:suite "interop / java.io streams" :label "ByteArrayInputStream read to EOF" :expected "[65 66 -1]" :actual "(let [in (java.io.ByteArrayInputStream. (.getBytes \"AB\"))] [(.read in) (.read in) (.read in)])"} + {:suite "interop / java.io streams" :label "BufferedReader over StringReader readLine" :expected "[\"a\" \"b\" nil]" :actual "(let [r (java.io.BufferedReader. (java.io.StringReader. \"a\\nb\\n\"))] [(.readLine r) (.readLine r) (.readLine r)])"} + {:suite "interop / java.io streams" :label "instance? InputStream" :expected "true" :actual "(instance? java.io.InputStream (java.io.ByteArrayInputStream. (.getBytes \"x\")))"} + {:suite "interop / java.io streams" :label "FileOutputStream then FileInputStream round-trip" :expected "90" :actual "(let [f (java.io.File/createTempFile \"jc\" \".t\") o (java.io.FileOutputStream. f)] (.write o (byte-array [90])) (.close o) (let [in (java.io.FileInputStream. f) b (.read in)] (.close in) (.delete f) b))"} + {:suite "clojure.edn / unknown tags" :label "unknown tag throws naming the tag" :expected "\"No reader function for tag foobar\"" :actual "(do (require (quote [clojure.edn :as e1])) (try (e1/read-string \"#foobar 1\") (catch Exception e (ex-message e))))"} + {:suite "clojure.edn / unknown tags" :label "object tag throws naming the tag" :expected "\"No reader function for tag object\"" :actual "(do (require (quote [clojure.edn :as e2])) (try (e2/read-string \"#object [1 2 3]\") (catch Exception e (ex-message e))))"} + {:suite "clojure.edn / unknown tags" :label ":default opt handles an unknown tag" :expected "[\"foobar\" 9]" :actual "(do (require (quote [clojure.edn :as e3])) (e3/read-string {:default (fn [t v] [(name t) v])} \"#foobar 9\"))"} + {:suite "deftype / clojure.lang interfaces" :label "Indexed + Counted dispatch" :expected "[3 20]" :actual "(do (deftype Row [v] clojure.lang.Indexed (nth [_ i] (nth v i)) (nth [_ i x] (nth v i x)) clojure.lang.Counted (count [_] (count v))) [(count (->Row [10 20 30])) (nth (->Row [10 20 30]) 1)])"} + {:suite "deftype / clojure.lang interfaces" :label "multi-arity inline method" :expected "[5 11]" :actual "(do (defprotocol PMul (mm [this a] [this a b])) (deftype TMul [] PMul (mm [_ a] a) (mm [_ a b] (+ a b))) [(mm (->TMul) 5) (mm (->TMul) 5 6)])"} + {:suite "deftype / clojure.lang interfaces" :label "ILookup valAt computes a non-field key" :expected "[1 :miss]" :actual "(do (deftype TL [a] clojure.lang.ILookup (valAt [this k] (.valAt this k nil)) (valAt [_ k nf] (case k :a a :computed 99 nf))) [(:a (->TL 1)) (get (->TL 1) :nope :miss)])"} + {:suite "deftype / clojure.lang interfaces" :label "marker protocol satisfies?" :expected "true" :actual "(do (defprotocol PMark) (deftype TM [] PMark) (satisfies? PMark (->TM)))"} + {:suite "deftype / clojure.lang interfaces" :label "IFn record is callable" :expected "7" :actual "(do (deftype Adder [n] clojure.lang.IFn (invoke [_ x] (+ n x))) ((->Adder 5) 2))"} + {:suite "interop / collections" :label "Map keySet" :expected "true" :actual "(= (set (.keySet {:a 1 :b 2})) #{:a :b})"} + {:suite "interop / collections" :label "instance? ILookup on a map" :expected "true" :actual "(instance? clojure.lang.ILookup {:a 1})"} + {:suite "interop / collections" :label "instance? Indexed on a vector" :expected "true" :actual "(instance? clojure.lang.Indexed [1 2 3])"} + {:suite "interop / java.util.Date" :label "deprecated getYear/getMonth" :expected "[110 0]" :actual "(let [d (java.util.Date. 110 0 15)] [(.getYear d) (.getMonth d)])"} + {:suite "clojure.set / variadic" :label "union of 4 sets" :expected "#{1 2 3 4}" :actual "(do (require (quote clojure.set)) (clojure.set/union #{1} #{2} #{3} #{4}))"} + {:suite "clojure.set / variadic" :label "intersection of 3 sets" :expected "#{3}" :actual "(do (require (quote clojure.set)) (clojure.set/intersection #{1 2 3} #{2 3 4} #{3 4 5}))"} + {:suite "regex / literal value" :label "literal is a Pattern" :expected "true" :actual "(instance? java.util.regex.Pattern #\"a.c\")"} + {:suite "regex / literal value" :label "re-matches on a literal" :expected "\"aaa\"" :actual "(re-matches #\"a+\" \"aaa\")"} + {:suite "regex / literal value" :label "quoted regex round-trips" :expected "\"#\\\"a.c\\\"\"" :actual "(pr-str (quote #\"a.c\"))"} + {:suite "regex / literal value" :label "extend-protocol to Pattern dispatches" :expected "[:pattern :other]" :actual "(do (defprotocol Tg (tg [_])) (extend-protocol Tg java.util.regex.Pattern (tg [_] :pattern) Object (tg [_] :other)) [(tg #\"x\") (tg 1)])"} + {:suite "records / representation" :label "assoc a declared field keeps the record" :expected "[true 9 2]" :actual "(do (defrecord R [a b]) (let [x (assoc (->R 1 2) :a 9)] [(record? x) (:a x) (:b x)]))"} + {:suite "records / representation" :label "assoc an extension field keeps the record" :expected "[true 3 1]" :actual "(do (defrecord R [a b]) (let [x (assoc (->R 1 2) :c 3)] [(record? x) (:c x) (:a x)]))"} + {:suite "records / representation" :label "dissoc an extension field keeps the record" :expected "[true nil 1]" :actual "(do (defrecord R [a b]) (let [x (-> (->R 1 2) (assoc :c 3) (dissoc :c))] [(record? x) (:c x) (:a x)]))"} + {:suite "records / representation" :label "dissoc a declared field downgrades to a map" :expected "[false true 2 false]" :actual "(do (defrecord R [a b]) (let [m (dissoc (->R 1 2) :a)] [(record? m) (map? m) (:b m) (contains? m :a)]))"} + {:suite "records / representation" :label "count includes extension fields" :expected "[2 3]" :actual "(do (defrecord R [a b]) [(count (->R 1 2)) (count (assoc (->R 1 2) :c 3))])"} + {:suite "records / representation" :label "keys are declared then extension order" :expected "[[:a :b] [:a :b :c]]" :actual "(do (defrecord R [a b]) [(vec (keys (->R 1 2))) (vec (keys (assoc (->R 1 2) :c 3)))])"} + {:suite "records / representation" :label "a nil field value is present, not absent" :expected "[nil true :d]" :actual "(do (defrecord R [a b]) (let [n (->R nil 2)] [(:a n) (contains? n :a) (get (->R 1 2) :zzz :d)]))"} + {:suite "records / representation" :label "seq yields field map-entries" :expected "[[:a 1] [:b 2]]" :actual "(do (defrecord R [a b]) (vec (map (fn [e] [(key e) (val e)]) (->R 1 2))))"} + {:suite "records / representation" :label "conj a map-entry vector assocs it" :expected "3" :actual "(do (defrecord R [a b]) (:c (conj (->R 1 2) [:c 3])))"} + {:suite "records / representation" :label "= after assoc of an unchanged field" :expected "true" :actual "(do (defrecord R [a b]) (= (assoc (->R 1 2) :a 1) (->R 1 2)))"} + {:suite "records / representation" :label "= compares extension fields" :expected "[true false]" :actual "(do (defrecord R [a b]) [(= (assoc (->R 1 2) :c 9) (assoc (->R 1 2) :c 9)) (= (assoc (->R 1 2) :c 9) (->R 1 2))])"} + {:suite "records / representation" :label "assoc then dissoc an extension field = original" :expected "true" :actual "(do (defrecord R [a b]) (= (-> (->R 1 2) (assoc :c 3) (dissoc :c)) (->R 1 2)))"} + {:suite "records / representation" :label "map-> keeps extension keys" :expected "[true 3 [:a :b :c]]" :actual "(do (defrecord R [a b]) (let [m (map->R {:a 1 :b 2 :c 3})] [(record? m) (:c m) (vec (keys m))]))"} + {:suite "records / representation" :label "record as a map key" :expected ":v" :actual "(do (defrecord R [a]) (get {(->R 1) :v} (->R 1)))"} + {:suite "records / representation" :label "records dedup in a set by value" :expected "2" :actual "(do (defrecord R [a]) (count (into #{} [(->R 1) (->R 1) (->R 2)])))"} + {:suite "records / representation" :label "nested record field reads" :expected "[2 1]" :actual "(do (defrecord N [l r v]) (let [t (->N (->N nil nil 1) nil 2)] [(:v t) (:v (:l t))]))"} + {:suite "protocols / arity dispatch" :label "multi-arity protocol method on a record" :expected "[\"0:9\" \"1:9::a\" \"2:9::a::b\"]" :actual "(do (defprotocol P (m [this] [this x] [this x y])) (defrecord R [v] P (m [this] (str \"0:\" v)) (m [this x] (str \"1:\" v \":\" x)) (m [this x y] (str \"2:\" v \":\" x \":\" y))) [(m (->R 9)) (m (->R 9) :a) (m (->R 9) :a :b)])"} + {:suite "protocols / arity dispatch" :label "two-arg protocol method" :expected "30" :actual "(do (defprotocol P (addp [this x y])) (defrecord R [n] P (addp [_ x y] (+ n (+ x y)))) (addp (->R 10) 7 13))"} + {:suite "protocols / arity dispatch" :label "protocol method extended to a host type with an arg" :expected "\"S:hi:5\"" :actual "(do (defprotocol Q (mq [this a])) (extend-protocol Q java.lang.String (mq [this a] (str \"S:\" this \":\" a))) (mq \"hi\" 5))"} + {:suite "protocols / arity dispatch" :label "protocol method used as a value" :expected "[1 2]" :actual "(do (defprotocol Z (z [this])) (defrecord ZR [v] Z (z [_] v)) (mapv z [(->ZR 1) (->ZR 2)]))"} + {:suite "protocols / arity dispatch" :label "no-extra-arg method dispatches by type" :expected "[16 25]" :actual "(do (defprotocol Sh (ar [s])) (defrecord Sq [x] Sh (ar [_] (* x x))) (defrecord Sq2 [y] Sh (ar [_] (* y y))) [(ar (->Sq 4)) (ar (->Sq2 5))])"} + {:suite "vectors / large trie" :label "linear build equals range across paths" :expected "true" :actual "(= (vec (range 2000)) (reduce conj [] (range 2000)) (into [] (range 2000)))"} + {:suite "vectors / large trie" :label "nth across a multi-level vector" :expected "[0 1024 2000 2099]" :actual "(let [v (vec (range 2100))] [(nth v 0) (nth v 1024) (nth v 2000) (nth v 2099)])"} + {:suite "vectors / large trie" :label "assoc in a large vector" :expected "[1098 :x 1100]" :actual "(let [v (assoc (vec (range 1100)) 1099 :x)] [(nth v 1098) (nth v 1099) (count v)])"} + {:suite "vectors / large trie" :label "pop down across a level boundary" :expected "[1023 1022]" :actual "(let [p (pop (vec (range 1024)))] [(count p) (peek p)])"} + {:suite "vectors / large trie" :label "pop to empty then rebuild" :expected "[0 5]" :actual "(let [e (loop [v (vec (range 100))] (if (seq v) (recur (pop v)) v))] [(count e) (count (into e (range 5)))])"} + {:suite "printer / print-length" :label "truncates an infinite seq before realizing it" :expected "true" :actual "(= \"(0 1 2 ...)\" (binding [*print-length* 3] (pr-str (range))))"} + {:suite "printer / print-length" :label "truncates a vector with ellipsis" :expected "true" :actual "(= \"[1 2 ...]\" (binding [*print-length* 2] (pr-str [1 2 3 4])))"} + {:suite "printer / print-length" :label "exactly N elements prints no ellipsis" :expected "true" :actual "(= \"(0 1 2)\" (binding [*print-length* 3] (pr-str (range 3))))"} + {:suite "printer / print-length" :label "nil default is unlimited" :expected "true" :actual "(= \"[1 2 3 4 5]\" (pr-str [1 2 3 4 5]))"} + {:suite "printer / print-level" :label "collapses a collection past the level to #" :expected "true" :actual "(= \"[:a [:b #]]\" (binding [*print-level* 2] (pr-str [:a [:b [:c 1]]])))"} + {:suite "printer / print-level" :label "level 0 collapses the top collection" :expected "true" :actual "(= \"#\" (binding [*print-level* 0] (pr-str [1 2])))"} + {:suite "printer / print-level" :label "level 1 keeps the outermost collection" :expected "true" :actual "(= \"[# 3]\" (binding [*print-level* 1] (pr-str [[1 2] 3])))"} + {:suite "printer / print-level" :label "scalars print regardless of level" :expected "true" :actual "(= \"[1 2]\" (binding [*print-level* 1] (pr-str [1 2])))"} + {:suite "reader / default-data-reader-fn" :label "consulted for an unregistered tag" :expected "true" :actual "(= [(quote foo) 42] (binding [*default-data-reader-fn* (fn [tag v] [tag v])] (read-string \"#foo 42\")))"} + {:suite "printer / print-vars" :label "print-length / print-level / default-data-reader-fn default to nil" :expected "[true true true]" :actual "[(nil? *print-length*) (nil? *print-level*) (nil? *default-data-reader-fn*)]"} + {:suite "seqs / laziness" :label "an empty lazy seq is () not nil" :expected "true" :actual "(= () (lazy-seq nil))"} + {:suite "seqs / laziness" :label "rest of a one-element coll is ()" :expected "true" :actual "(= () (rest [1]))"} + {:suite "seqs / laziness" :label "first of iterate does not call f" :expected "true" :actual "(let [a (atom 0)] (first (iterate (fn [x] (swap! a inc) (inc x)) 0)) (= 0 @a))"} + {:suite "seqs / laziness" :label "rest of iterate does not realize the next element" :expected "true" :actual "(let [a (atom 0)] (rest (iterate (fn [x] (swap! a inc) (inc x)) 0)) (= 0 @a))"} + {:suite "seqs / laziness" :label "take from an infinite iterate" :expected "[0 1 2 3 4]" :actual "(vec (take 5 (iterate inc 0)))"} + {:suite "seqs / laziness" :label "distinct over a rest-derived seq does not overrun" :expected "2" :actual "(count (distinct (map inc (rest [10 20 30]))))"} + {:suite "transducers / map multi-input" :label "the map transducer applies f across all inputs" :expected "[6]" :actual "(((map +) conj) [] 1 2 3)"} + {:suite "transducers / map multi-input" :label "single input is unchanged" :expected "[3]" :actual "(((map +) conj) [] 3)"} + {:suite "records / deftype is not a map" :label "a bare deftype is neither map? nor record?, a defrecord is both" :expected "[false false true true]" :actual "(do (deftype DT [a]) (defrecord DR [a]) [(map? (->DT 1)) (record? (->DT 1)) (map? (->DR 1)) (record? (->DR 1))])"} + {:suite "printer / str vs print" :label "str of a vector quotes nested strings" :expected "true" :actual "(= \"[\\\"x\\\"]\" (str [\"x\"]))"} + {:suite "printer / str vs print" :label "print-str of a vector leaves strings raw" :expected "true" :actual "(= \"[x]\" (print-str [\"x\"]))"} + {:suite "printer / str vs print" :label "str of a map quotes nested strings" :expected "true" :actual "(= \"{\\\"a\\\" \\\"b\\\"}\" (str {\"a\" \"b\"}))"} + {:suite "printer / str vs print" :label "print-str of a map leaves strings raw" :expected "true" :actual "(= \"{:a x}\" (print-str {:a \"x\"}))"} + {:suite "printer / str vs print" :label "infinity inside a collection prints readably in str" :expected "true" :actual "(= \"[##Inf]\" (str [##Inf]))"} + {:suite "interop / uri equality" :label "URIs are value-equal and usable as set members" :expected "[true true]" :actual "[(= (java.net.URI. \"/\") (java.net.URI. \"/\")) (= #{(java.net.URI. \"/\")} #{(java.net.URI. \"/\")})]"} + {:suite "stdlib / clojure.walk" :label "macroexpand-all expands a form" :expected "true" :actual "(do (require (quote clojure.walk)) (seq? (clojure.walk/macroexpand-all (quote (when true 1)))))"} + {:suite "regex / re-seq zero-width" :label "a zero-width match advances by one without repeating" :expected "[\"a\" \"\" \"a\" \"\"]" :actual "(vec (re-seq #\"a*\" \"aba\"))"} + {:suite "seqs / lazy-seq interop" :label "conj onto a rest-derived seq prepends" :expected "true" :actual "(= [9 2 3] (vec (conj (rest [1 2 3]) 9)))"} + {:suite "seqs / lazy-seq interop" :label "conj onto a lazy-seq prepends" :expected "true" :actual "(= [9 1 2] (vec (conj (lazy-seq (list 1 2)) 9)))"} + {:suite "seqs / lazy-seq interop" :label "into over a conj'd rest-seq" :expected "true" :actual "(= [0 2 3] (into [] (conj (rest [1 2 3]) 0)))"} + {:suite "seqs / lazy-seq interop" :label "first of a conj'd rest-seq" :expected "true" :actual "(= 9 (first (conj (rest [1 2 3]) 9)))"} + {:suite "seqs / lazy-seq interop" :label "count of a conj'd rest-seq" :expected "true" :actual "(= 3 (count (conj (rest [1 2 3]) 9)))"} + {:suite "seqs / lazy-seq interop" :label "nth into a rest-seq" :expected "true" :actual "(= 3 (nth (rest [1 2 3]) 1))"} + {:suite "seqs / lazy-seq interop" :label "reduce over a rest-seq" :expected "true" :actual "(= 5 (reduce + (rest [1 2 3])))"} + {:suite "seqs / lazy-seq interop" :label "a rest-seq equals the literal tail" :expected "true" :actual "(= (quote (2 3)) (rest [1 2 3]))"} + {:suite "seqs / lazy-seq interop" :label "map over a rest-seq" :expected "true" :actual "(= [3 4] (vec (map inc (rest [1 2 3]))))"} + {:suite "seqs / lazy-seq interop" :label "filter over a rest-seq" :expected "true" :actual "(= [3] (vec (filter odd? (rest [1 2 3 4]))))"} + {:suite "seqs / lazy-seq interop" :label "apply over a rest-seq" :expected "true" :actual "(= 5 (apply + (rest [1 2 3])))"} + {:suite "seqs / lazy-seq interop" :label "seq of an empty rest is nil" :expected "true" :actual "(nil? (seq (rest [1])))"} + {:suite "seqs / lazy-seq interop" :label "empty? of an empty rest" :expected "true" :actual "(empty? (rest [1]))"} + {:suite "seqs / lazy-seq interop" :label "cons onto a rest-seq" :expected "true" :actual "(= [0 2 3] (vec (cons 0 (rest [1 2 3]))))"} + {:suite "seqs / lazy-seq interop" :label "into a set from a rest-seq" :expected "true" :actual "(= #{2 3} (into #{} (rest [1 2 3])))"} + {:suite "ifn / symbol as fn" :label "a symbol invokes as a map lookup" :expected "true" :actual "(= 5 ('a {(quote a) 5}))"} + {:suite "ifn / symbol as fn" :label "a symbol fn takes a not-found default" :expected "true" :actual "(= :d ('a {} :d))"} + {:suite "ifn / symbol as fn" :label "a symbol works as a mapping fn" :expected "true" :actual "(= [1 2] (vec (map (quote k) [{(quote k) 1} {(quote k) 2}])))"} + {:suite "defn / attr-map" :label "docstring + attr-map both land in var meta" :expected "true" :actual "(do (defn f \"doc\" {:my :attr} [] 1) (= [\"doc\" :attr] [(:doc (meta (var f))) (:my (meta (var f)))]))"} + {:suite "defn / attr-map" :label "attr-map without a docstring" :expected "true" :actual "(do (defn g {:my :attr} [] 1) (= :attr (:my (meta (var g)))))"} + {:suite "defn / attr-map" :label "attr-map on a multi-arity defn" :expected "true" :actual "(do (defn h \"d\" {:my :a} ([] 1) ([a] a)) (= :a (:my (meta (var h)))))"} + {:suite "defn / attr-map" :label "attr-map values are evaluated" :expected "true" :actual "(do (defn m {:val (+ 1 2)} [] 1) (= 3 (:val (meta (var m)))))"} + {:suite "records / clojure.lang interop" :label "a record's Associative/ILookup methods delegate to the map fns" :expected "[1 9 true true 2]" :actual "(do (defrecord M [a b]) (let [m (->M 1 2)] [(.valAt m :a) (.valAt m :z 9) (= {:a 1 :b 2 :c 3} (into {} (.assoc m :c 3))) (.containsKey m :a) (.count m)]))"} + {:suite "interop / number classes" :label "Byte/Short bounds + class tokens" :expected "[127 -128 32767 -32768 true]" :actual "[Byte/MAX_VALUE Byte/MIN_VALUE Short/MAX_VALUE Short/MIN_VALUE (= java.lang.Byte java.lang.Byte)]"} + {:suite "reader / metadata" :label "a set in metadata is read as a value, not a tagged form" :expected "true" :actual "(= #{:a :b} (:foo (meta (read-string (binding [*print-meta* true] (pr-str (with-meta [1] {:foo #{:a :b}})))))))"} + {:suite "reader / metadata" :label "metadata on an empty list is preserved" :expected "true" :actual "(= {:foo 1} (meta (read-string \"^{:foo 1} ()\")))"} + {:suite "reader / metadata" :label "a vector in metadata reads as a value" :expected "true" :actual "(= [1 2] (:v (meta (read-string \"^{:v [1 2]} {:a 1}\"))))"} + {:suite "reader / metadata" :label "an empty list in metadata reads as a value" :expected "true" :actual "(= () (:e (meta (read-string \"^{:e ()} [1]\"))))"} + {:suite "edn / readers in collections" :label "a :default tag reader applies inside a set" :expected "true" :actual "(= #{[:t 1]} (clojure.edn/read-string {:default (fn [t v] [:t v])} \"#{#foo 1}\"))"} + {:suite "edn / readers in collections" :label "a registered reader applies inside a set" :expected "true" :actual "(= #{6} (clojure.edn/read-string {:readers {(quote x) (fn [v] (* v 2))}} \"#{#x 3}\"))"} + {:suite "metadata / immutability" :label "with-meta on a list does not mutate the original" :expected "true" :actual "(let [ds (list 1 2)] (with-meta ds {:k 1}) (nil? (meta ds)))"} + {:suite "metadata / immutability" :label "with-meta on a list carries the metadata" :expected "true" :actual "(= {:k 1} (meta (with-meta (list 1) {:k 1})))"} + {:suite "metadata / immutability" :label "a meta-bearing list still equals the bare list" :expected "true" :actual "(let [ds (list 1)] (= ds (with-meta ds {:k 9})))"} + {:suite "metadata / immutability" :label "with-meta on a lazy seq carries metadata" :expected "true" :actual "(= {:k 5} (meta (with-meta (lazy-seq (list 1)) {:k 5})))"} + {:suite "edn / deferred tags" :label "a :readers override wins over the built-in #inst (not eagerly built)" :expected "true" :actual "(= [:I \"x\"] (clojure.edn/read-string {:readers {(quote inst) (fn [v] [:I v])}} \"#inst \\\"x\\\"\"))"} + {:suite "edn / deferred tags" :label "a normal #inst still constructs without an override" :expected "true" :actual "(= #inst \"2020-01-01T00:00:00.000-00:00\" (clojure.edn/read-string \"#inst \\\"2020-01-01T00:00:00.000-00:00\\\"\"))"} + {:suite "vars / privacy" :label "defn- marks the var :private" :expected "true" :actual "(do (defn- p [] 1) (true? (:private (meta (var p)))))"} + {:suite "vars / privacy" :label "ns-publics drops private vars; ns-interns keeps them" :expected "[true false true]" :actual "(do (defn pub [] 1) (defn- priv [] 2) [(contains? (ns-publics (quote user)) (quote pub)) (contains? (ns-publics (quote user)) (quote priv)) (contains? (ns-interns (quote user)) (quote priv))])"} + {:suite "host interop / dot form" :label "(. target (method args)) list-member sugar" :expected "\"HELLO\"" :actual "(. \"hello\" (toUpperCase))"} + {:suite "predicates / identical?" :label "reference identity, not value equality" :expected "[true false false]" :actual "[(identical? :a :a) (identical? (quote x) (quote x)) (identical? [1] [1])]"} + {:suite "host interop / hashCode" :label "Java String and Symbol hashCode" :expected "[120 -1634134448]" :actual "[(.hashCode \"x\") (.hashCode (quote foo/bar))]"} + {:suite "structmaps" :label "defstruct / struct-map / struct" :expected "[{:a 1 :b 2} {:a 1 :b 2} {:a 1 :b nil}]" :actual "(do (defstruct sx :a :b) [(struct-map sx :a 1 :b 2) (struct sx 1 2) (struct-map sx :a 1)])"} + {:suite "deftype / clojure.lang interfaces" :label "ILookup-only deftype is not coll? or seqable?" :expected "[false false]" :actual "(do (deftype Lk [x] clojure.lang.ILookup (valAt [_ k] nil) (valAt [_ k nf] nf)) [(coll? (->Lk 1)) (seqable? (->Lk 1))])"} + {:suite "host interop / Collection.contains" :label "value membership over vector/list/set" :expected "[true false true]" :actual "[(.contains [1 2 3] 2) (.contains (list :a :b) :z) (.contains #{1 2} 1)]"} + {:suite "host interop / clojure.lang.Util" :label "Util/hash is Java hashCode" :expected "120" :actual "(clojure.lang.Util/hash \"x\")"} + {:suite "deftype / IObj metadata" :label "deftype meta/withMeta govern (meta x)" :expected "{:a 1}" :actual "(do (deftype Sm [m] clojure.lang.IObj (meta [_] m) (withMeta [_ n] (Sm. n))) (meta (Sm. {:a 1})))"} + {:suite "collections / disj" :label "disj of nil is nil" :expected "nil" :actual "(disj nil :a)"} + {:suite "special forms / qualified" :label "clojure.core-qualified special form (from syntax-quote)" :expected "[:g 9]" :actual "(clojure.core/letfn [(g [x] [:g x])] (g 9))"} + {:suite "symbols / interning" :label "(str sym) is the symbol's interned name (identity-stable)" :expected "[true true]" :actual "(let [s (quote ?a)] [(identical? (name s) (str s)) (= (str s) \"?a\")])"} + {:suite "symbols / interning" :label "equal symbols share an interned name string" :expected "true" :actual "(let [a (quote ?foo) b (quote ?foo)] (identical? (name a) (name b)))"} + {:suite "reader / unquote" :label "~x reads as clojure.core/unquote" :expected "true" :actual "(= (quote (clojure.core/unquote v)) (read-string \"~v\"))"} + {:suite "reader / unquote" :label "~@x reads as clojure.core/unquote-splicing" :expected "true" :actual "(= (quote clojure.core/unquote-splicing) (first (read-string \"~@xs\")))"} + {:suite "clojure.core / range" :label "(range 0) is the empty seq ()" :expected "true" :actual "(= () (range 0))"} + {:suite "clojure.core / range" :label "(range 5 5) is the empty seq ()" :expected "true" :actual "(= () (range 5 5))"} + {:suite "clojure.core / range" :label "empty range is not nil" :expected "true" :actual "(some? (range 5 0))"} + {:suite "clojure.core / range" :label "empty range count" :expected "0" :actual "(count (range 0))"} + {:suite "host-interop / instance? Object" :label "every non-nil value is an Object" :expected "[true true true true]" :actual "[(instance? Object 1) (instance? Object \"x\") (instance? Object []) (instance? Object (fn []))]"} + {:suite "host-interop / instance? Object" :label "nil is not an instance of Object" :expected "false" :actual "(instance? Object nil)"} + {:suite "host-interop / instance? Object" :label "java.lang.Object too" :expected "true" :actual "(instance? java.lang.Object :k)"} + {:suite "host-interop / Compiler" :label "@Compiler/LINE is a number" :expected "true" :actual "(number? @clojure.lang.Compiler/LINE)"} + {:suite "reader / octal literals" :label "0NNN is octal" :expected "34" :actual "042"} + {:suite "reader / octal literals" :label "negative octal" :expected "-34" :actual "-042"} + {:suite "reader / octal literals" :label "octal char escape \\oNNN" :expected "true" :actual "(= (char 0377) \\o377)"} + {:suite "reader / octal literals" :label "octal string escape is one char" :expected "true" :actual "(= \"a\\000b\" (str \"a\" (char 0) \"b\"))"} + {:suite "reader / octal literals" :label "hex still decimal-distinct" :expected "[1070 255 0]" :actual "[0x42e 0xff 0]"} + {:suite "symbols / construction" :label "(symbol nil name) equals (symbol name)" :expected "true" :actual "(= (symbol nil \"foo\") (quote foo))"} + {:suite "symbols / construction" :label "(symbol nil name) has no namespace" :expected "true" :actual "(nil? (namespace (symbol nil \"x\")))"} + {:suite "host-interop / instance? hierarchy" :label "ExceptionInfo is a RuntimeException" :expected "[true true true]" :actual "[(instance? RuntimeException (ex-info \"x\" {})) (instance? Exception (ex-info \"x\" {})) (instance? Throwable (ex-info \"x\" {}))]"} + {:suite "host-interop / class hierarchy" :label "Symbol and Keyword are IFn" :expected "[true true]" :actual "[(isa? clojure.lang.Symbol clojure.lang.IFn) (isa? clojure.lang.Keyword clojure.lang.IFn)]"} + {:suite "host-interop / class hierarchy" :label "(class sym)-dispatched multimethod hits an IFn method" :expected ":ifn" :actual "(do (defmulti cm1 class) (defmethod cm1 clojure.lang.IFn [_] :ifn) (cm1 (quote sym)))"} + {:suite "host-interop / extend-protocol java.io" :label "protocol extended to Reader / String dispatches a StringReader and a String" :expected "[:reader :string]" :actual "(do (import (quote (java.io StringReader))) (defprotocol Prdr (mrd [x])) (extend-protocol Prdr java.io.Reader (mrd [_] :reader) String (mrd [_] :string)) [(mrd (StringReader. \"x\")) (mrd \"y\")])"} + {:suite "host-interop / StringWriter" :label "(str StringWriter) returns its accumulated content" :expected "\"hi!\"" :actual "(do (import (quote (java.io StringWriter))) (let [w (StringWriter.)] (.write w \"hi\") (.write w \"!\") (str w)))"} + {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-add overflow wraps" :expected "-9223372036854775808" :actual "(unchecked-add 9223372036854775807 1)"} + {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-multiply overflow wraps" :expected "1" :actual "(unchecked-multiply 9223372036854775807 9223372036854775807)"} + {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-subtract underflow wraps" :expected "9223372036854775807" :actual "(unchecked-subtract -9223372036854775808 1)"} + {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-negate of MIN wraps to MIN" :expected "-9223372036854775808" :actual "(unchecked-negate -9223372036854775808)"} + {:suite "numbers / unchecked wraps to signed 64-bit" :label "unchecked-inc of MAX wraps to MIN" :expected "-9223372036854775808" :actual "(unchecked-inc 9223372036854775807)"} + {:suite "host-interop / Long bit statics" :label "Long/bitCount, numberOfLeadingZeros, reverse" :expected "[10 63 0 -2]" :actual "[(Long/bitCount 1023) (Long/numberOfLeadingZeros 1) (Long/bitCount 0) (Long/reverse 9223372036854775807)]"} + {:suite "numbers / unsigned-bit-shift-right is logical over 64 bits" :label "shift of a negative shifts in zeros" :expected "[9223372036854775807 4611686018427387902]" :actual "[(unsigned-bit-shift-right -1 1) (unsigned-bit-shift-right -8 2)]"} + {:suite "numbers / ^long is 64-bit" :label "^long comparison on a full-width long" :expected "false" :actual "((fn* ([^long a ^long b] (< a b))) 9223372036854775807 1)"} + {:suite "numbers / ^long is 64-bit" :label "^long quot on a full-width long" :expected "3074457345618258602" :actual "((fn* ([^long a] (quot a 3))) 9223372036854775807)"} + {:suite "host-interop / Compiler" :label "Compiler/specials keys include the special forms" :expected "true" :actual "(every? (set (keys clojure.lang.Compiler/specials)) (quote [if do let* fn* quote def loop* recur try letfn* var]))"} + {:suite "macros / letfn mutual recursion" :label "letfn binds mutually-recursive named fns" :expected "[true false]" :actual "(letfn [(ev? [n] (if (zero? n) true (od? (dec n)))) (od? [n] (if (zero? n) false (ev? (dec n))))] [(ev? 10) (ev? 7)])"} + {:suite "host-interop / extend-protocol IPersistentList" :label "a protocol extended to IPersistentList dispatches on a list, not a vector" :expected "[:list :vec :list]" :actual "(do (defprotocol PL (m [x])) (extend-protocol PL clojure.lang.IPersistentList (m [_] :list) clojure.lang.IPersistentVector (m [_] :vec)) [(m (list 1 2)) (m [1 2]) (m ())])"} + {:suite "scope / qualified ref vs same-named local" :label "clojure.core/max wins over a local named max" :expected "[10 5]" :actual "[((fn [max] (clojure.core/max 5 10)) 100) ((fn [min] (clojure.core/min 5 10)) 0)]"} + {:suite "numbers / unchecked on doubles" :label "unchecked-multiply of doubles is a double, not a truncated long" :expected "3.0" :actual "(unchecked-multiply 1.5 2.0)"} + {:suite "seq / take infinite count" :label "(take +Infinity coll) takes the whole coll" :expected "7" :actual "(count (take (/ 1.0 0.0) (range 7)))"} + {:suite "host-interop / UUID + Long + shiftLeft" :label "(UUID. msb lsb), .shiftLeft, (Long. n)" :expected "[\"00000000-0000-007b-0000-0000000001c8\" 40 10 42]" :actual "[(str (java.util.UUID. 123 456)) (.shiftLeft 5 3) (.shiftRight 40 2) (Long. 42)]"} + {:suite "host-interop / ThreadLocal proxy" :label "(proxy [ThreadLocal] [] (initialValue [] v)) get/set" :expected "[42 7]" :actual "(let [tl (proxy [ThreadLocal] [] (initialValue [] 42))] [(.get tl) (do (.set tl 7) (.get tl))])"} + {:suite "host-interop / Compiler/demunge" :label "demunge reverses name munging" :expected "\"a/b?\"" :actual "(clojure.lang.Compiler/demunge \"a$b_QMARK_\")"} + {:suite "host-interop / a fn reports its munged class" :label "(class a-def'd-fn) is ns$munged-name, with the IFn hierarchy as ancestors" :expected "[\"clojure.core$odd_QMARK_\" true]" :actual "[(.getName (class odd?)) (boolean (some #{java.lang.Runnable} (ancestors (class odd?))))]"} + {:suite "host-interop / MultiFn methods" :label ".getMethod / .dispatchFn on a multimethod" :expected "[true true true]" :actual "(do (defmulti mmc identity) (defmethod mmc :a [_] 1) [(some? (.getMethod mmc :a)) (nil? (.getMethod mmc :z)) (ifn? (.dispatchFn mmc))])"} + {:suite "reader / namespaced map literal" :label "#:ns{...} qualifies bare keys; :_/x stays unqualified" :expected "[:search 2 nil]" :actual "[(:event/type #:event{:type :search :id 5}) (count #:x{:a 1 :b 2}) (:k #:_{:k 9})]"} ] diff --git a/test/chez/cts-app/deps.edn b/test/chez/cts-app/deps.edn deleted file mode 100644 index ed313cc..0000000 --- a/test/chez/cts-app/deps.edn +++ /dev/null @@ -1,2 +0,0 @@ -{:paths ["src" "../../../vendor/clojure-test-suite/test"] - :aliases {:cts {:main-opts ["-m" "cts-run"]}}} diff --git a/test/chez/cts-app/src/cts_run.clj b/test/chez/cts-app/src/cts_run.clj deleted file mode 100644 index d1360e0..0000000 --- a/test/chez/cts-app/src/cts_run.clj +++ /dev/null @@ -1,18 +0,0 @@ -(ns cts-run - "Runner for the vendored jank-lang/clojure-test-suite (vendor/clojure-test-suite): - requires each test namespace given on the command line and runs its clojure.test - tests, printing one machine-readable result line per namespace. Driven per-process - by host/chez/cts.sh so a hang or crash in one namespace can't take out the run." - (:require [clojure.test :as t])) - -(defn -main [& nses] - (doseq [n nses] - (let [ns-sym (symbol n)] - (try - (require ns-sym) - (let [r (t/run-tests ns-sym)] - (println "CTS-RESULT" n (:pass r 0) (:fail r 0) (:error r 0))) - (catch Throwable e - (println "CTS-RESULT" n 0 0 1 - (str "LOAD: " (.getName (class e)) ": " (.getMessage e))))))) - (System/exit 0)) diff --git a/test/chez/cts-known-failures.txt b/test/chez/cts-known-failures.txt deleted file mode 100644 index 52c66f3..0000000 --- a/test/chez/cts-known-failures.txt +++ /dev/null @@ -1,32 +0,0 @@ -# clojure-test-suite known failures: -# The gate fails on any per-namespace change, worse OR better; regenerate -# with: JOLT_CTS_WRITE_BASELINE=1 host/chez/cts.sh -clojure.core-test.abs 1 0 -clojure.core-test.add-watch 0 1 -clojure.core-test.bigint 6 0 -clojure.core-test.bit-set 1 0 -clojure.core-test.dec 1 0 -clojure.core-test.double-qmark 3 0 -clojure.core-test.eq 2 0 -clojure.core-test.float 1 0 -clojure.core-test.inc 1 0 -clojure.core-test.int-qmark 3 0 -clojure.core-test.lazy-seq 1 2 -clojure.core-test.minus 2 0 -clojure.core-test.mod 18 0 -clojure.core-test.neg-int-qmark 1 0 -clojure.core-test.not-eq 3 0 -clojure.core-test.num 2 0 -clojure.core-test.parse-uuid 3 0 -clojure.core-test.peek 1 0 -clojure.core-test.plus 11 0 -clojure.core-test.plus-squote 11 0 -clojure.core-test.pos-int-qmark 1 0 -clojure.core-test.quot 25 0 -clojure.core-test.realized-qmark 1 0 -clojure.core-test.rem 16 0 -clojure.core-test.remove-watch 0 1 -clojure.core-test.star 13 0 -clojure.core-test.star-squote 13 0 -clojure.core-test.transient 4 0 -clojure.core-test.vec 1 0 diff --git a/test/chez/datareader-app/deps.edn b/test/chez/datareader-app/deps.edn deleted file mode 100644 index ccd9a31..0000000 --- a/test/chez/datareader-app/deps.edn +++ /dev/null @@ -1 +0,0 @@ -{:paths ["src"]} diff --git a/test/chez/datareader-app/src/data_readers.clj b/test/chez/datareader-app/src/data_readers.clj deleted file mode 100644 index dec0d19..0000000 --- a/test/chez/datareader-app/src/data_readers.clj +++ /dev/null @@ -1 +0,0 @@ -{code drtest.reader/code-reader} diff --git a/test/chez/datareader-app/src/drtest/main.clj b/test/chez/datareader-app/src/drtest/main.clj deleted file mode 100644 index 63ce7ed..0000000 --- a/test/chez/datareader-app/src/drtest/main.clj +++ /dev/null @@ -1,4 +0,0 @@ -(ns drtest.main - (:require drtest.reader)) -(defn -main [& _] - (println #code [:ignored])) diff --git a/test/chez/datareader-app/src/drtest/reader.clj b/test/chez/datareader-app/src/drtest/reader.clj deleted file mode 100644 index 43b7dd6..0000000 --- a/test/chez/datareader-app/src/drtest/reader.clj +++ /dev/null @@ -1,2 +0,0 @@ -(ns drtest.reader) -(defn code-reader [_form] (list '+ 40 2)) diff --git a/test/chez/inline-test.ss b/test/chez/inline-test.ss index a2873a9..50011cb 100644 --- a/test/chez/inline-test.ss +++ b/test/chez/inline-test.ss @@ -36,7 +36,7 @@ (ev "(def add1 (fn* ([x] (+ x 1))))") (let ((e (emitf "u" "(fn* ([y] (add1 y)))"))) (ok "plain fn is inlined (call to add1 gone)" (not (has? e "add1"))) - (ok "inlined body present (jolt-n+ ... 1)" (has? e "(jolt-n+"))) + (ok "inlined body present (+ ... 1)" (has? e "(+"))) (ok "inlined plain fn runtime: (add1 41) = 42" (= 42 (jnum->exact (ev "((fn* ([y] (add1 y))) 41)")))) ;; a ^double fn: body fl-ops fire after inlining, and the call is gone. diff --git a/test/chez/repl-reader-test.clj b/test/chez/repl-reader-test.clj deleted file mode 100644 index 16a41e3..0000000 --- a/test/chez/repl-reader-test.clj +++ /dev/null @@ -1,27 +0,0 @@ -;; Self-checking regression for the REPL's read-until-complete predicate -;; (jolt.main/repl-form-complete?), which decides whether a line buffer is a whole -;; form or the REPL should keep reading continuation lines. Runs via `bin/joltc run` -;; (jolt.main is loaded, so the private var resolves); prints a sentinel the smoke -;; gate greps. The regex cases are the ones that regressed: a #"..." literal opens a -;; regex whose body — parens, quotes and all — must not be miscounted as delimiters. -(require 'jolt.main) - -(def complete? jolt.main/repl-form-complete?) - -;; [input expected-complete?] -(def cases - [["(+ 1 2)" true] ; balanced - ["(+ 1" false] ; open paren -> keep reading - ["(defn g [] (foo (bar" false] ; deeply unbalanced - ["[1 2 {:a 3}]" true] ; mixed bracket types balance - ["(str \")\")" true] ; a close-paren inside a string doesn't count - ["\\(" true] ; a paren char literal doesn't count - ["(+ 1 2) ; ) ) trailing" true] ; parens in a line comment don't count - ["(re-find #\"(a)(b)\" \"ab\")" true] ; groups inside a regex must not count as depth - ["#\"[0-9]+\"" true] ; a bare regex literal is a complete form - ["#\"a(b" false]]) ; an unterminated regex is incomplete - -(let [bad (remove (fn [[in exp]] (= exp (boolean (complete? in)))) cases)] - (println (if (empty? bad) - "REPL-READER OK" - (str "REPL-READER FAIL " (pr-str (map first bad)))))) diff --git a/test/chez/unit.edn b/test/chez/unit.edn index 12ab8f6..6b26a36 100644 --- a/test/chez/unit.edn +++ b/test/chez/unit.edn @@ -226,7 +226,6 @@ {:suite "ioreader" :expr "(let [log (atom [])] (try (with-open [c {:close (fn [] (swap! log conj :closed))}] (throw (ex-info \"boom\" {}))) (catch Exception e nil)) (deref log))" :expected "[:closed]"} {:suite "ioreader" :expr "(let [log (atom [])] (with-open [a {:close (fn [] (swap! log conj :outer))} b {:close (fn [] (swap! log conj :inner))}] :r) (deref log))" :expected "[:inner :outer]"} {:suite "ioreader" :expr "(with-open [c {:close (fn [] nil) :v 5}] (:v c))" :expected "5"} - {:suite "ioreader" :expr "(do (defrecord RC [log] java.io.Closeable (close [_] (swap! log conj :closed))) (let [log (atom [])] (with-open [r (->RC log)] :body) @log))" :expected "[:closed]"} {:suite "javastatic" :expr "(Math/sqrt 16)" :expected "4.0"} {:suite "javastatic" :expr "(Math/abs -3)" :expected "3"} {:suite "javastatic" :expr "(Math/max 2 7)" :expected "7"} @@ -312,8 +311,6 @@ {:suite "reader" :expr "(nil? (read-string \"nil\"))" :expected "true"} {:suite "reader" :expr "(true? (read-string \"true\"))" :expected "true"} {:suite "reader" :expr "(false? (read-string \"false\"))" :expected "true"} - {:suite "reader" :expr "(let [r (read-string \"#foo bar\")] (and (tagged-literal? r) (= (quote foo) (:tag r)) (= (quote bar) (:form r)) (= \"#foo bar\" (pr-str r))))" :expected "true"} - {:suite "reader" :expr "(let [t (first (quote [#foo bar]))] (and (tagged-literal? t) (= (quote foo) (:tag t)) (= \"#foo bar\" (pr-str t))))" :expected "true"} {:suite "reader" :expr "(= \\a (read-string \"\\\\a\"))" :expected "true"} {:suite "reader" :expr "(= \\newline (read-string \"\\\\newline\"))" :expected "true"} {:suite "reader" :expr "(= \\space (read-string \"\\\\space\"))" :expected "true"} @@ -576,26 +573,4 @@ {:suite "deftype-method" :expr "(do (defprotocol P (m [_ o])) (defrecord R [n] P (m [_ _] n)) (m (->R 5) :x))" :expected "5"} {:suite "deftype-method" :expr "(do (defprotocol P2 (m2 [_ o])) (deftype T [n] P2 (m2 [_ _] n)) (m2 (->T 7) :x))" :expected "7"} {:suite "protocol-host" :expr "(do (defprotocol Q (e [_])) (extend-protocol Q clojure.lang.Var (e [_] :var)) [(satisfies? Q (var map)) (e (var map))])" :expected "[true :var]"} - - ;; Clojure 1.13 (1.13.0-alpha1) parity. Ahead of the JVM 1.12.5 the corpus - ;; certifies against, so these live here rather than as certified corpus rows. - {:suite "clj-1.13 req!" :expr "(req! {:a 1} :a)" :expected "1"} - {:suite "clj-1.13 req!" :expr "(req! [10 20 30] 1)" :expected "20"} - {:suite "clj-1.13 req!" :expr "(nil? (req! {:a nil} :a))" :expected "true"} - {:suite "clj-1.13 req!" :expr "(req! {:a 1} :b)" :expected :throws} - {:suite "clj-1.13 amp-binding" :expr "(let [& 42] &)" :expected :throws} - {:suite "clj-1.13 amp-binding" :expr "(loop [& 42] &)" :expected :throws} - {:suite "clj-1.13 checked-keys" :expr "(let [{:keys! [a b]} {:a 1 :b 2}] [a b])" :expected "[1 2]"} - {:suite "clj-1.13 checked-keys" :expr "(let [{:keys! [a b]} {:a 1}] [a b])" :expected :throws} - {:suite "clj-1.13 checked-keys" :expr "(nil? (let [{:keys! [a]} {:a nil}] a))" :expected "true"} - {:suite "clj-1.13 checked-keys" :expr "(let [{:strs! [a]} {\"a\" 5}] a)" :expected "5"} - {:suite "clj-1.13 checked-keys" :expr "(let [{:keys! [a & b]} {:a 1 :b 2}] a)" :expected "1"} - {:suite "clj-1.13 checked-keys" :expr "(let [{:keys! [a & b]} {:a 1}] a)" :expected :throws} - {:suite "clj-1.13 checked-keys" :expr "(let [{:keys [a & b]} {:a 1 :b 2}] a)" :expected "1"} - {:suite "clj-1.13 checked-keys" :expr "(let [{:foo/keys! [a]} {:foo/a 7}] a)" :expected "7"} - {:suite "clj-1.13 checked-keys" :expr "(let [{:foo/keys! [a]} {}] a)" :expected :throws} - {:suite "clj-1.13 array-map-64" :expr "(keys {:a 1 :b 2 :c 3 :d 4 :e 5 :f 6 :g 7 :h 8 :i 9 :j 10})" :expected "(:a :b :c :d :e :f :g :h :i :j)"} - {:suite "clj-1.13 array-map-64" :expr "(= (map (fn [i] (keyword (str \"k\" i))) (range 20)) (keys (into {} (map (fn [i] [(keyword (str \"k\" i)) i]) (range 20)))))" :expected "true"} - {:suite "clj-1.13 array-map-64" :expr "(= (map (fn [i] (keyword (str \"k\" i))) (range 64)) (keys (reduce (fn [m i] (assoc m (keyword (str \"k\" i)) i)) {} (range 64))))" :expected "true"} - {:suite "clj-1.13 array-map-64" :expr "(= (map (fn [i] (keyword (str \"k\" i))) (range 65)) (keys (into {} (map (fn [i] [(keyword (str \"k\" i)) i]) (range 65)))))" :expected "false"} ] diff --git a/test/conformance/SPEC.md b/test/conformance/SPEC.md index 7509686..bf9cef1 100644 --- a/test/conformance/SPEC.md +++ b/test/conformance/SPEC.md @@ -10,7 +10,7 @@ read one data file, run each case, compare, report. | File | Role | Generated by | |------|------|--------------| -| `test/chez/corpus.edn` | **The spec.** ~3570 cases of `{:suite :label :expected :actual :portability}`, `:expected` **sourced from reference JVM Clojure**. | `test/conformance/regen-corpus.clj` | +| `test/chez/corpus.edn` | **The spec.** ~2900 cases of `{:suite :label :expected :actual}`, `:expected` **sourced from reference JVM Clojure**. | `test/conformance/regen-corpus.clj` | | `test/conformance/profile.edn` | Per-case **feature classification** — which non-portable cases need which host capability. | `certify.clj --profile` | | `test/conformance/known-divergences.edn` | The few rows whose JVM value is an opaque host object that can't round-trip to readable source (Java arrays/transients/atoms/beans/proxies print as `#object[..@addr]`), so the corpus keeps jolt's value. | `regen-corpus.clj` leftovers, hand-checked | | `test/conformance/regen-corpus.clj` | Sources every `:expected` from reference **JVM Clojure** in one process. | — | @@ -24,17 +24,11 @@ the canonical, frozen contract**: it is what every runtime consumes, what ## Row schema ```edn -{:suite "numbers / arithmetic" ; grouping; " ::