Chez Phase 1 (increment 3g): letfn + declare/def-no-init

Closes the last two non-host-interop prelude emit gaps.

letfn now analyzes to a :let node flagged :letrec — the binding fns are bound
into the env together before any spec is analyzed, so siblings and self resolve.
The Chez back end lowers it to letrec*; the Janet back end punts it at emit
(its sequential let* can't express the mutual recursion — same interpreter
fallback as before, just decided at emit-ir instead of analyze).

(def x) with no init (declare) analyzes to a :def with :no-init instead of
punting. Chez reserves the var cell via declare-var! (which doesn't clobber an
existing root — (do (def x 7) (def x) x) => 7); the Janet back end still punts
to the interpreter, which interns a genuinely-unbound var.

fallback-zero-test now checks emit-ir too, not just analyze-form, so the real
compile-vs-interpret decision is what it asserts (letfn/def-no-init analyze but
the Janet back end punts them). letfn stays in must-punt with an updated note.

Prelude emit reach 342 -> 348/355 (40-lazy now 13/13); Chez subset 664 -> 672,
0 divergences; emit-test 110 -> 117. Full gate green.
This commit is contained in:
Yogthos 2026-06-17 18:27:34 -04:00
parent 930800f9a6
commit 0f7d2753a8
8 changed files with 119 additions and 31 deletions

View file

@ -98,7 +98,7 @@
# Regression floor (raise it as new IR ops / RT shims land, like the suite
# baseline). Fails if prelude emit reach drops below the recorded baseline.
(def reach-floor 342)
(def reach-floor 348)
(when (< compiled reach-floor)
(printf "REGRESSION: prelude emit reach %d < floor %d" compiled reach-floor)
(os/exit 1))