A Clojure compiler implemented on top of Chez Scheme https://jolt-lang.github.io/
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Yogthos f18ae3bd46 macroexpand-first analyzer order; one macro path; defmacro/letfn fixes
The analyzer checked special forms before expanding macros, the reverse of the
canonical read -> macroexpand -> analyze order (Clojure/CLJS analyze-seq). Move
macroexpansion to the front of analyze-list. Knock-on fixes:

- letfn was both a (broken) macro expanding to let* AND a primitive special
  (analyze-letfn, proper letrec*). Macroexpand-first surfaced the macro, breaking
  mutual recursion; remove the macro, keep letfn a primitive.
- defmacro is now compiled by the analyzer (a :set-var-style :defmacro node that
  defs the expander fn via the fn macro — so destructuring arglists desugar — and
  marks the var a macro), so a non-top-level (when … (defmacro …)) works. The
  runtime spine's separate top-level defmacro interception is removed: one path.

SCI load 162 -> 202/218.
2026-06-22 00:54:16 -04:00
.github/workflows CI runs behavior gates; self-host fixpoint is dev-only (jolt-8479) 2026-06-21 15:46:40 -04:00
bench Delete the Janet host — Chez is the sole substrate 2026-06-21 11:29:03 -04:00
bin Delete the Janet host — Chez is the sole substrate 2026-06-21 11:29:03 -04:00
docs Chez plan: zero-Janet north star, self-host the compiler on Chez 2026-06-18 08:27:22 -04:00
host/chez macroexpand-first analyzer order; one macro path; defmacro/letfn fixes 2026-06-22 00:54:16 -04:00
img ci: run jpm bootstrap from inside the jpm checkout 2026-06-05 18:30:27 -04:00
jolt-core macroexpand-first analyzer order; one macro path; defmacro/letfn fixes 2026-06-22 00:54:16 -04:00
spike/chez Delete the Janet host — Chez is the sole substrate 2026-06-21 11:29:03 -04:00
src/jolt Scrub dangling Janet references; drop dead Janet-coupled files 2026-06-21 12:01:04 -04:00
test (type record) returns its class-name string, not a symbol 2026-06-22 00:05:08 -04:00
tools core: one alias store (jolt-ark); '.' classified as the special form it is 2026-06-10 18:37:19 -04:00
vendor SCI conformance gate (pure Chez) 2026-06-21 12:06:18 -04:00
.DS_Store Compiler research (#10) 2026-06-09 07:30:25 +08:00
.gitignore remove .calva from git 2026-06-08 19:31:26 -04:00
.gitmodules SCI conformance gate (pure Chez) 2026-06-21 12:06:18 -04:00
AGENTS.md Compiler research (#10) 2026-06-09 07:30:25 +08:00
CLAUDE.md Docs + CI for the Chez-only substrate 2026-06-21 11:34:48 -04:00
clojuredocs-export.edn records as shape-recs carrying a type tag (jolt-t34 R3) 2026-06-13 20:40:50 -04:00
clojuredocs-export.json records as shape-recs carrying a type tag (jolt-t34 R3) 2026-06-13 20:40:50 -04:00
foundational-runtime-handoff.md Scrub dangling Janet references; drop dead Janet-coupled files 2026-06-21 12:01:04 -04:00
LICENSE Initial commit: Jolt — Clojure interpreter on Janet 2026-06-01 16:48:56 -04:00
Makefile CI runs behavior gates; self-host fixpoint is dev-only (jolt-8479) 2026-06-21 15:46:40 -04:00
README.md SCI conformance gate (pure Chez) 2026-06-21 12:06:18 -04:00

Jolt

tests

A Clojure implementation on Chez Scheme. 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.

Requirements

Only Chez Scheme (the gate invokes it as chez). The conformance gate additionally uses Clojure on the JVM as an oracle, but running jolt does not.

Build

There is no build step. The bootstrap seed (host/chez/seed/{prelude,image}.ss) is checked in, so a fresh clone runs immediately:

git clone --recurse-submodules https://github.com/jolt-lang/jolt.git
cd jolt
bin/joltc -e '(+ 1 2)'        # => 3

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:

make remint                   # iterates host/chez/bootstrap.ss to a byte-fixpoint

Run

bin/joltc -e EXPR             # evaluate a Clojure expression and print the result
$ bin/joltc -e '(->> (range 10) (filter even?) (map (fn [x] (* x x))) (reduce +))'
120
$ bin/joltc -e '(/ 1 2)'
1/2

Architecture

A small Chez runtime (host/chez/*.ss: value model, persistent collections, seqs, vars/namespaces, host interop) hosts a portable Clojure overlay (jolt-core/): the reader/analyzer/IR/backend (jolt-core/jolt/) and clojure.core in dependency-ordered tiers (jolt-core/clojure/core/NN-*.clj). The stdlib namespaces (clojure.string/set/walk/edn/pprint/…) are portable Clojure under src/jolt/clojure/.

bin/joltc loads the checked-in seed and the spine, then compiles and evaluates on Chez (read → analyze → IR → emit → eval). host/chez/bootstrap.ss rebuilds that seed from source on pure Chez; the build is a self-hosting fixpoint (a rebuild reproduces the checked-in seed byte-for-byte).

Differences from Clojure

Jolt targets Clojure semantics but runs on Chez, not the JVM.

  • Host platform. No JVM and no Java interop — import, gen-class, proxy of Java classes, and java.* are unavailable. A class token resolves to a name; a small set of host classes is recognized for instance?.
  • Numbers. The full Scheme numeric tower, matching the JVM: exact integers and bignums, exact ratios ((/ 1 2)1/2), and flonum doubles. = is category-aware ((= 3 3.0)false); == is value-equality ((== 3 3.0)true). integer?/int? are exact integers, float?/double? are flonums, ratio? is an exact non-integer. No BigDecimal (decimal? is always false).
  • Concurrency. future/promise/agent/pmap run on real OS threads over a shared heap, matching JVM semantics (not isolated-heap snapshots). Atoms use a per-atom mutex with JVM-style CAS. clojure.core.async provides blocking channels and go/<!/>!/alts!/timeout.
  • Regex. Backed by irregex (vendored), PCRE/Java-style patterns.
  • Collections. Immutable persistent vectors (32-way tries), cons lists, and HAMT maps/sets. Hash-map/hash-set iteration order is unspecified — use sorted-map/sorted-set when order matters. Transients are real mutable scratch collections.

Supported and Clojure-compatible: lazy/infinite sequences, transducers, destructuring, multimethods with hierarchies, protocols/records (deftype/defrecord/reify/extend-protocol), metadata, namespaces, runtime eval/load-string/defmacro, and the reader (#(), #_, #?, tagged literals, #"…").

Test

make test                     # the full gate (no Janet)
make corpus                   # conformance corpus vs the JVM-sourced spec
make unit                     # host-specific unit cases
make selfhost                 # bootstrap fixpoint (rebuild == checked-in seed)
make smoke                    # bin/joltc CLI smoke
make sci                      # load borkdude/sci's source through joltc (compat stress)
make certify                  # JVM oracle (skips if clojure is absent)

The conformance corpus (test/chez/corpus.edn) is a host-neutral language spec whose expected values are sourced from reference JVM Clojure. See test/conformance/SPEC.md.

License

Eclipse Public License 1.0