A self-recursive call to a named fn compiled to (jolt-invoke fib ...) instead of a direct (fib ...): emit-invoke handled a :local callee only when it was NOT a known proc, so a :local that IS in *known-procs* (the letrec-bound self-name) fell through to the :else jolt-invoke branch. Now a :local known proc emits a direct Scheme call — no jolt-invoke, no per-call arg-list consing; case-lambda handles arity. fib 30: 63.3ms -> 4.7ms (faster than JVM Clojure's 7.1ms; was 9x slower). The win is on every self-recursive non-loop fn, including the compiler's own. No semantic change — selfhost holds, make test green, shakesmoke/buildsmoke byte-identical. Re-mint (backend is seed). Corpus rows pin self-recursion across fixed/multi/ variadic arities. |
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| .. | ||
| image.ss | ||
| prelude.ss | ||
| README.md | ||
Chez bootstrap seed
These two files are the bootstrap compiler for jolt — the seed that makes the build self-hosting:
prelude.ss— theclojure.coreprelude (all tiers + clojure.string/walk/ template/edn/set/pprint) as Schemedef-var!forms.image.ss— the compiler image (jolt.ir+jolt.analyzer+jolt.backend-scheme) as Schemedef-var!forms.
Both are generated, not hand-written. They are checked in because a fresh
checkout must be able to build jolt-on-Chez using only Chez: host/chez/bootstrap.ss
loads this seed, then rebuilds the prelude + image from the .clj/.ss sources via
the on-Chez compiler (read → analyze → emit, all on Chez). The seed is a joint
byte-fixpoint: rebuilding from an up-to-date seed reproduces it exactly.
make selfhost (host/chez/selfcheck.sh) runs host/chez/bootstrap.ss and diffs
the rebuilt artifacts against the checked-in seed.
Re-minting
When the seed sources change (the core tiers, the compiler namespaces, the host
contract, the reader, emit-image.ss), the seed drifts and make selfhost
fails. Re-mint it by running host/chez/bootstrap.ss and writing the freshly
rebuilt prelude/image back to host/chez/seed/prelude.ss /
host/chez/seed/image.ss, then commit the refreshed files.