jolt/docs/building-and-deps.md
Yogthos 45876998ad Docs: Chez-only, drop the Janet-era references and obsolete migration notes
Bring the docs in line with the actual implementation now that Chez is the sole
substrate.

Deleted the migration/spike/handoff artifacts that only documented the Janet
era or the port effort: the port plan, phase-0 and foundational-runtime spike
writeups (+ the stray root-level copy), the self-hosting design notes, the
architecture-refactor plan, and spike/chez/RESULTS.md.

Rewrote the current reference docs against the Chez facts: building-and-deps and
tools-deps (no jpm/build step — bin/joltc off the checked-in seed, deps via
jolt.deps into ~/.jolt/gitlibs), libraries (SQLite is built-in jdbc.core over
libsqlite3, not a Janet driver), the conformance/spec test-flow docs (the Chez
corpus runner + certify, no .janet harnesses), and the transient / type-hint /
seed-overlay design notes (Chez representations: mutable transients, flat
copy-on-write vectors, HAMT maps, the seed/overlay twin). Fixed the README
collections line (vectors aren't 32-way tries) and added the ffi/transient gate
targets. rfc 0001's numerics open-question is resolved (the Scheme tower).

Renamed the built-in HTTP adapter to jolt.http.server only (dropped the
ring-janet.adapter alias — a Janet-era name).
2026-06-22 09:05:35 -04:00

4.5 KiB

Building and dependencies

How to run Jolt from source and how to pull Clojure libraries into a project.

Running

git clone https://github.com/jolt-lang/jolt.git
cd jolt
git submodule update --init   # vendor/sci (used by the SCI bootstrap tests)
bin/joltc -e '(println "hello")'

There is no build step. bin/joltc (host/chez/cli.ss) loads the checked-in bootstrap seed (host/chez/seed/{prelude,image}.ss) plus the spine and compiles+evals on Chez (read → analyze → IR → emit → eval), so a fresh clone runs immediately. The whole .clj standard library (clojure.string/set/walk/edn/pprint/…) and clojure.core are part of the overlay, so they're always available.

bin/joltc is both the runtime (REPL, file/expr runner) and the dependency front-end (deps.edn resolution, see below). A run with no deps.edn never touches the resolver.

The bootstrap seed is checked in. After changing a seed 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 with make remint (it iterates host/chez/bootstrap.ss to a byte-fixpoint), or make selfhost fails. Runtime-only host/chez/*.ss shims don't need a re-mint.

How namespaces are found

(require ...) resolves a namespace to a file by searching an ordered list of source roots — the stdlib first, then any extra roots — trying <ns>.clj then <ns>.cljc (dots become directories, dashes become underscores). Extra roots come from:

  • JOLT_PATH — a colon-separated list of directories (like a classpath), applied at runtime;
  • the :paths option to init when embedding Jolt as a library.

If a namespace isn't found on any root, the loader falls back to the stdlib in the overlay — that's how clojure.string and friends resolve when you run outside the source tree.

So you can point Jolt at a directory of Clojure source with no deps machinery at all:

JOLT_PATH=/path/to/lib/src bin/joltc run myfile.clj

Dependencies via deps.edn

bin/joltc reads a deps.edn in the current directory, fetches its dependencies, and prepends the resolved source directories to the source roots for the run. The CLI commands (jolt.deps + jolt.main):

bin/joltc run -m NS [args]  # resolve deps.edn, load NS, call its -main
bin/joltc run FILE          # resolve deps.edn, load a Clojure file
bin/joltc -M:alias [args]   # run the alias's :main-opts
bin/joltc -A:alias [args]   # add the alias's paths/deps, then run the rest
bin/joltc repl              # start a line REPL
bin/joltc path              # print the resolved source roots (':'-joined)
bin/joltc <task>            # run a deps.edn :tasks entry

Example deps.edn:

{:paths ["src"]
 :deps {weavejester/medley {:git/url "https://github.com/weavejester/medley"
                            :git/sha "<full-sha>"}
        my/helpers          {:local/root "../helpers"}}}
bin/joltc run -m myapp.main

What's supported

  • git deps{:git/url … :git/sha …} (use a full SHA; git fetch can't resolve a short one), with an optional :deps/root for a subdirectory. Transitive deps from each dependency's own deps.edn are resolved too.
  • local deps{:local/root "../path"}.
  • The project's own :paths (default ["src"]) are included.
  • aliases:aliases {:dev {:extra-paths ["dev"] :extra-deps {…} :main-opts ["-e" "…"]}}, selected with -A:dev (or several: -A:dev:test). :extra-paths/:extra-deps accumulate across selected aliases; :main-opts is last-wins and runs via -M:alias.
  • tasks:tasks {clean "rm -rf target" test {:main-opts ["-m" "…"]}}. A string task is a shell command; a map task runs jolt with its :main-opts. Run one with bin/joltc <taskname>.

Resolution is breadth-first, so a top-level coordinate always beats a transitive one for the same lib.

Git clones land in a global, sha-immutable cache shared across projects — $JOLT_GITLIBS, else ~/.jolt/gitlibs.

What's not

  • No Maven. :mvn/version deps are skipped with a warning — git and local only.
  • Pure clj/cljc only. A library that needs the JVM (Java interop, host classes) or a clojure.core feature Jolt doesn't implement will fail to load or fail at a call. Coverage is per-function: a namespace can load with most functions working and a few not.

See tools-deps.md for the design rationale.