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6 commits

Author SHA1 Message Date
Yogthos
2872f17c59 compiler: compile multi-arity, named, and variadic fns + recur-in-fn
Rewrites fn* analysis/emit. Each arity compiles to a named Janet fn whose
name is its recur target, so recur is a self-call (Janet tail-calls it) —
this fixes recur used directly inside a fn, which previously miscompiled to
a runtime error that the hybrid fallback couldn't catch.

Multi-arity fns dispatch on arg count: fixed arities match exactly, the
variadic arity matches >= its fixed count. The rest param is an ordinary
param holding a seq, so (recur fixed... rest-seq) into a variadic arity
works as in Clojure. Single fixed-arity fns keep the direct, dispatch-free
shape so the hot path stays fast.

Destructuring params still route to the interpreter via uncompilable.
Tests cover named recursion, multi-arity (incl. variadic clause), recur in
fn, and recur into a variadic arity.
2026-06-06 01:56:01 -04:00
Yogthos
145035d424 compiler phase 2: hybrid interpret/compile fallback
eval-one now tries to compile each form and falls back to the interpreter
for anything the compiler can't handle, instead of erroring or silently
miscompiling. Only the compile step is guarded, so runtime errors in
compiled code still propagate (no double-eval of side effects, no hidden
errors).

The compiler now throws jolt/uncompilable on the forms it would otherwise
miscompile — destructuring let/loop bindings and fn params, multi-arity
fns, and named fns — so they route to the interpreter and produce correct
results. These become compile targets in a later optimization pass.

Adds eval-compiled to split compile from eval; compile-mode tests cover
destructuring, multi-arity, named-fn recursion, and error propagation.
2026-06-06 01:43:40 -04:00
Yogthos
70711b4489 compiler phase 1: var-indirection for redefinable compiled globals
Compiled global references now deref through the Jolt var cell instead of an
early-bound Janet symbol, so redefining a def/defn is visible to already-compiled
callers (Janet early-binds plain symbols). A global ref analyzes to :op :var
(resolving/creating the cell); a def sets that same cell's root. Because Janet
copies table constants but references functions, we embed memoized getter/setter
closures over the cell rather than the cell itself. This also subsumes the old
named-fn recursion rewrite and the separate ns-intern.

ns-intern now stores the namespace *name* (string) in a var, not the ns table, so
var cells aren't cyclic (required for embedding).

fib(30) compiled ~0.5s (the late-binding cost vs phase 2's direct-linked 0.08s;
direct-linking for hot calls is a later optimization). Suite green; cross-form,
recursion, and context isolation preserved; redefinition now works.
2026-06-06 01:33:47 -04:00
Yogthos
3cf303578e feat(compile): Phase 2 — native ops + direct calls (fib30 50s -> 0.076s, ~660x)
Two changes unlock native Janet speed in compile mode:

- Hot numeric primitives (+ - * < > <= >=) emit as native Janet SYMBOLS rather
  than the variadic core fns, so Janet's compiler uses its arithmetic/compare
  opcodes. = / not= / quot / rem / mod / division stay as core fns (their
  semantics differ from Janet's). Trade-off: the strict non-number checks are
  relaxed under compilation (documented perf-mode divergence).
- emit-invoke emits a DIRECT call (f arg...) when the callee is a function
  reference (core/local/symbol/fn), instead of wrapping every call in jolt-call.
  jolt-call is kept only for keyword/collection literals in call position
  ((:k m), ({:a 1} :a)) so IFn dispatch still works.

compiled fib(30): 3.4s -> 0.076s (native ceiling), faster than jank's 0.8s.
Updated compiler-test string assertions (core-+ -> +); compile-mode-test gains
native-op + IFn-dispatch cases; README documents compile mode. jpm test green.
2026-06-05 18:00:46 -04:00
Yogthos
f74af5dbc5 feat(compile): Phase 1 — wire shared persistent env (compile mode now works across forms)
Compile mode was broken: compiled defns interned only into the jolt namespace,
which Janet's eval couldn't see, so calling a compiled function threw 'unknown
symbol'. And load-string ignored :compile? entirely.

- Each context gets a persistent Janet env (ctx-janet-env), a child of the
  compiler module env (so core-* resolve) holding the context's user defs.
  compile-and-eval evals into it, so def/defn persist and resolve across forms;
  contexts stay isolated. nil ctx (one-off eval) gets a fresh child.
- Emit a named fn for defn ((def f (fn f [..] (f ..)))) so recursion resolves
  lexically (the anonymous form couldn't forward-reference f at compile time).
- Extract eval-one (per-form routing) and use it in both eval-string and
  load-string, so load-string honors :compile?. Stateful forms still interpret.

compiled fib(30): ~50s (interpreted) -> 3.4s (~15x). spec: compile-mode-test
gains cross-form/recursion/def + context-isolation cases. jpm test green.
Fast operator emission (the rest of the win) is Phase 2.
2026-06-05 17:50:22 -04:00
Yogthos
bcd0e42b33 test: fold phase ports into spec; promote compile-mode test
Mine the phase* port batteries into the spec layer and delete them (their
behavior is now covered by spec): phase5 (hierarchies), phase6 (tagged
literals/reader-conditionals), phase7 (lazy/sets), phase8+phase12 (protocols;
phase12 was a duplicate of phase8), phase10 (strings/set), phase13
(reify/walk). Unique cases mined into spec: reader #inst/#uuid/#?@ splice,
(Type. args) dot constructor, lazy-seq body-runs-once, keywordize-keys/
stringify-keys, custom :default key and explicit :hierarchy dispatch.

phase6-final tested the COMPILE-MODE path ({:compile? true}), distinct from the
interpreter-based spec — kept and renamed integration/compile-mode-test.

jpm test green, conformance 218/218.
2026-06-05 01:07:09 -04:00
Renamed from test/integration/ports/phase6-final-test.janet (Browse further)