ei-emit-ns (emit-image) and bld-emit-ns (build) were near-verbatim copies that had
drifted: the minter guard-wraps and skips failing forms, the build is strict, and
since the passes were wired the build also runs run-passes. Fold both into
ei-emit-ns* with optimize?/guard? flags; ei-emit-ns and bld-emit-ns become one-line
callers. Output is byte-identical (selfhost fixpoint and build smoke stay green).
- take-last / drop-last return seqs, not vectors: take-last wraps in seq; drop-last
is the JVM (map (fn [x _] x) coll (drop n coll)) form (lazy, () when empty).
- cycle is lazy ((lazy-seq (concat coll (cycle coll)))) so it no longer counts its
argument and terminates on a lazy/infinite input.
- fold's foldable-call catch uses :default, matching the rest of jolt-core and
also catching a raw host condition from a folding primitive.
- alts! rejects non-channel ports with a clear error (put specs / :default are
unsupported) instead of crashing inside ac-poll!.
- Misc: drop the unreachable second getCause clause; jolt-nth on a string raises
'nth "index out of bounds" like the vector branch; name the inline fixpoint cap;
bld-sh-capture rejoins lines with newlines; clarify a couple of comments.
The fold/inline/types passes and the jolt.passes façade were baked into neither
seed half and never invoked: compile-eval and build went analyze -> emit directly,
and `jolt build --opt` flipped an optimize flag that nothing consumed.
- Compile the passes into the image (emit-image manifest): fold, inline, types,
then the jolt.passes façade, after jolt.ir.
- compile-eval and build.ss now run jolt.passes/run-passes between analyze and
emit. Off the direct-link path it is a pure const-fold; `jolt build --opt`
turns on inline + flatten + scalar-replace + type inference (it sets
hc-optimize?, which inline-enabled? reads).
- The seed minter (emit-image) stays analyze -> emit, so the seed is built
un-optimized and the self-host fixpoint is unaffected.
build-smoke already exercised --opt; it now actually optimizes and still matches
the release binary's output. Corpus floor and the fixpoint are green.
The apt chezscheme package ships petite+scheme only — no kernel dev files — so
the standalone-binary gate skipped on CI, leaving the whole jolt build pipeline
and the --opt inference passes uncovered on Linux. Build Chez v10.4.1 from
source (cached) to get libkernel.a + scheme.h, install the libs the kernel links
against, and set the Linux link flags. buildsmoke now runs for real in CI.
Wire the optimization gate to build mode. inline-enabled? (which gates the
inference + flatten-lets + scalar-replace passes in jolt.passes/run-passes) was
hardwired off, so those passes had never run on Chez at all. host-contract now
exposes a settable hc-optimize? flag; `jolt build --opt` flips it on during app
emission.
Kept off for the default release build for now: the passes are sound by design
(RFC 0005/0006) but unexercised on Chez, so release stays on the proven
var-deref codegen until they're validated against the corpus. --opt is the
opt-in fast path. buildsmoke checks both modes produce the same result.
This does not yet deliver direct call binding — the backend has no direct-link
emission path (every :var call still routes through jolt-invoke/var-deref) and
the inline-ir host stash is still a stub. Those are the remaining stage-4 levers.
Restores the standalone-binary capability the Janet host had. `bin/joltc build
-m NS -o OUT` AOT-compiles an app into a single self-contained executable — the
whole runtime, clojure.core, stdlib and compiler embedded, no Chez install or
jolt source needed at runtime.
Pipeline (host/chez/build.ss, host primitive jolt.host/build-binary driven by
jolt.main's build command): resolve deps, load the entry namespace recording the
app namespaces in dependency order, re-emit each to Scheme, textually inline the
cli.ss runtime load sequence into one flat source + the app + a launcher, then
compile-file -> make-boot-file -> embed the boot as C bytes -> cc-link against
libkernel.a.
Two non-obvious bits: the compile pass runs in a fresh Chez, not the loaded
runtime (regex.ss shadows top-level `error`, which otherwise bakes a broken
reference into the boot); and the launcher installs scheme-start rather than
running -main at top level, since boot top-level forms execute during heap build
before argv is set, so args only reach -main through scheme-start.
Loader: a require of an in-memory namespace with no source file now no-ops, so
AOT'd app namespaces satisfy require in a built binary.
Mode flags (--opt/--dev, default release) are plumbed; the optimization passes
they gate come in a later stage. RFC 0007 has the design. Gated by `make
buildsmoke`.