One documentation root: the prose docs (building-and-deps, self-hosting architecture/compiler, tools-deps, grammar.ebnf) join the spec and RFCs under docs/. References in README and deps-conformance-test updated.
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Building and dependencies
How to build Jolt from source and how to pull Clojure libraries into a project.
Building
git clone https://github.com/jolt-lang/jolt.git
cd jolt
git submodule update --init # vendor/sci (used by the SCI bootstrap tests)
jpm build
This produces two executables under build/:
jolt— the runtime: REPL, file/expr runner, nREPL server. The whole.cljstandard library (clojure.string/set/walk/edn/zip,jolt.http/interop/shell/nrepl) is baked into this binary at build time, so it loads from any directory — the build artifact is self-contained. (clojure.coreis built into the runtime in Janet and auto-referred, so it's always available.)jolt-deps— a separate tool that resolves adeps.edn(see below). It sits beside the runtime the wayjpmsits besidejanet; the runtime itself knows nothing about deps.edn.
Needs jpm and a recent Janet — developed and CI-tested against 1.41. The
futures and core.async layers use Janet's threaded ev/ channels (ev/thread,
ev/thread-chan), so older Janets may not run the full suite.
jpm build doesn't always notice source changes; run jpm clean && jpm build
after editing src/ to be sure the binaries are current. jpm test runs against
the source directly, so it never goes stale.
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
:pathsoption toinitwhen embedding Jolt as a library.
If a namespace isn't found on any root, the loader falls back to the stdlib baked
into the binary — that's how clojure.string and friends resolve when you run
the binary 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 build/jolt myfile.clj
Dependencies via deps.edn
jolt-deps reads a deps.edn in the current directory, fetches its
dependencies, and runs jolt with the resolved source directories on
JOLT_PATH.
jolt-deps path # print the resolved roots (':'-joined)
jolt-deps run FILE [args] # resolve, then run `jolt FILE …`
jolt-deps repl # resolve, then start a REPL
jolt-deps -e EXPR [args] # resolve, then evaluate EXPR
jolt-deps launches the jolt binary it finds on PATH (override with
$JOLT_BIN).
Example deps.edn:
{:paths ["src"]
:deps {weavejester/medley {:git/url "https://github.com/weavejester/medley"
:git/tag "1.0.0"}
my/helpers {:local/root "../helpers"}}}
jolt-deps run -m myapp.main
What's supported
- git deps —
{:git/url … :git/tag …}or{:git/url … :git/sha …}(use a full SHA;git fetchcan't resolve a short one). Transitive deps from each dependency's owndeps.ednare resolved too. - local deps —
{:local/root "../path"}. - The project's own
:paths(default["src"]) are included.
Resolution reuses jpm's git fetch and cache (a dependency is cloned once into
jpm_tree/.cache and reused). Resolved roots are cached on a hash of deps.edn,
so an unchanged deps.edn doesn't re-fetch.
What's not
- No Maven.
:mvn/versiondeps are ignored — git and local only. - Pure
clj/cljconly. A library that needs the JVM (Java interop, host classes) or aclojure.corefeature 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.
Bundling into one file
jolt uberscript OUT.clj -m NS (or jolt-deps uberscript …, which resolves deps
first) bundles NS and every namespace it requires — your code plus its
dependencies — into a single .clj in dependency order, ending with a call to
NS/-main. The result runs on a plain jolt with no JOLT_PATH, no deps
fetched, and no jpm:
jolt-deps uberscript app.clj -m myapp.main
jolt app.clj arg1 arg2
See tools-deps.md for the design rationale.