host/chez/dynamic-vars.ss binds the two seed-native dynamic vars that aren't
emitted into the prelude: *clojure-version* (the {:major 1 :minor 11 ...} map) and
*unchecked-math* (false). Removes their two run-corpus-prelude allowlist entries
(now 11, all passing).
*ns* is deferred to jolt-b4kl: it needs a namespace value that is not a map yet
answers (get ns :name) for the overlay ns-name, plus str/find-ns support.
Parity 1530 -> 1532/2497, 0 new divergences. emit-test 305/305.
host/chez/multimethods.ss implements the multimethod runtime: defmulti/defmethod
expand to defmulti-setup/defmethod-setup calls (+ get-method/methods/
remove-method/prefer-method/prefers). A jolt-multifn record carries its dispatch
fn and a jolt=-keyed method table; jolt-invoke dispatches it (exact match, then
isa?/hierarchy with prefer-method, then :default), reusing the overlay's
isa?/derive/make-hierarchy. The multifn's ns comes from a runtime chez-current-ns
(default user; the prelude load sets clojure.core for print-method/print-dup).
Two emit-side changes were needed:
- late-bind (:late-bind-unresolved? ctx flag, default OFF): defmulti expands to a
bare-symbol setup call, so the analyzer doesn't intern the name and a forward
reference '(area ...)' after '(defmulti area ...)' in one form was 'Unable to
resolve symbol'. The strict compiler punts these to the interpreter; the Chez
back end has none, so the flag lowers an unresolved symbol to a var-ref against
the compile ns (open-world -e semantics). Set only by the Chez make-ctx /
jolt-chez; the main compiler keeps strict resolution (host_iface late-bind?
defaults nil).
- a :var call head now routes through jolt-invoke, since a late-bound var can hold
a multifn (or keyword/coll IFn), not just a procedure. Transparent for
procedures; the hot self-recursive call is a :local known-proc, stays direct.
Class-based dispatch ((class x)/String) deferred (needs deftype/class subsystem).
Parity 1506 -> 1530/2497, 0 new divergences. emit-test 302/302. Full janet gate
green (the analyzer flag is off there; suite flakiness under parallel load only).
jolt-y1zq tail:
- 0-arg (conj) -> [] and 0-arg (conj!) -> a fresh transient vector
- nth sees through a transient (like get/count/contains?)
- irregex \p{...}/\P{...} property classes translate to the seed's ASCII char
classes (regex.ss): \p{L} -> [a-zA-Z] + non-ASCII codepoints (the seed counts
UTF-8 high bytes as letters), \p{N} -> [0-9], \p{Ps} -> [([{], etc. The
translator tracks [...] nesting so a \p{} inside a class emits its content, not
a nested class.
Two pre-existing bugs found and filed (tracked, not replicated):
- jolt-x0os: the Chez emitter mangles non-ASCII string literals into invalid Chez
hex escapes (so p{L} utf-8 crashes on the input string, not the regex).
- jolt-ea9k: the seed's transient assoc! accepts odd args and assigns nil to the
trailing key (non-Clojure; plain assoc throws). The Chez host throws
(Clojure-correct); the 4 spec rows encoding the leniency are flagged in
transients-spec.janet pending the seed fix.
Parity 1493 -> 1506/2497, 0 new divergences. emit-test 291/291.
The 1-arg map/filter/remove/take/drop/take-while/drop-while/mapcat now return a
transducer (fn [rf] rf'), and into gets a 3-arg (into to xform from). This was
the 'cdr () is not a pair' / 'incorrect number of arguments' crash bucket: the
emitter lowers (map f) and 3-arg into at an arity the native-op gate rejects, so
they fall to the value-position path and hit the bare jolt-map/jolt-into
procedure at the wrong arity. The fix is RT-side — case-lambda those procedures
plus jolt-into.
td-* factories ported from the seed (core_coll.janet); a reduced step stops the
fold via reduce-seq's existing short-circuit (inc 3n). transduce/comp/completing
are overlay and compose over these unchanged.
Parity 1467 -> 1493/2497, 0 new divergences. emit-test 278/278.
The dominant prelude-parity crash bucket was 'apply non-procedure jolt-nil':
core fns calling seed-native seq fns (core_coll.janet) that have no Chez RT
shim, so var-deref returns jolt-nil. A static scan of the assembled prelude
turned up 52 referenced-but-undefined clojure.core names.
host/chez/natives-seq.ss shims the safe seq fns over the existing seq layer:
mapcat, take-while, drop-while, partition (collection arities only — the 1-arg
transducer forms are jolt-kxsr), and sort (compare default; a comparator may
return a 3-way number or a boolean less-than). reduced/reduced? is a jolt-reduced
record in seq.ss that reduce short-circuits on and deref unwraps, so unreduced
works. identical? = jolt= (the seed's definition).
Deferred list?: a Chez lazy seq and a list are both cseq, so it can't be told
apart without a distinct list type — a real divergence risk.
Parity 1407 -> 1467/2497, 0 new divergences. emit-test 263/263.
##Inf/##-Inf/##NaN were emitted to bare inf/-inf/nan, which are unbound symbols in
Chez. emit-const now lowers them to +inf.0/-inf.0/+nan.0. The -e/element printer
renders them inf/-inf/nan (Chez's number->string gives +inf.0), and str renders the
long Clojure forms Infinity/-Infinity/NaN. assoc! is now variadic ((assoc! t k v
& kvs)) like Clojure.
Prelude parity 1382 -> 1407/2497, 0 new divergences. str of inf INSIDE a collection
still wants the long form (needs the Phase-2 recursive str renderer), so
[inf inside coll] is allowlisted. Transducer arities and the cdr-on-()/\p{} regex
gaps are split out to jolt-kxsr/jolt-y1zq.
transient/persistent!/conj!/assoc!/dissoc!/disj!/pop! as copy-on-write over the
persistent collections (host/chez/transients.ss) — each op rebuilds the persistent
coll (no in-place perf) but the semantics match, so into/frequencies/group-by work.
Adds persistent disj over pset-disj. get/count/contains? are redefined to see
through a transient (frequencies and group-by both do (get tm k) on a transient
map); vector? on a transient vector is false, which group-by relies on.
Prelude parity 1326 -> 1382/2497, 0 new divergences. emit-test exercises the direct
transient ops via run-prelude and the overlay users (frequencies/group-by/into)
end-to-end through the bin/jolt-chez -e binary.
str/subs/vec/keyword/symbol/compare/int/double/gensym — host-coupled seed natives
the overlay assumes, now def-var!'d into clojure.core via host/chez/converters.ss
(loaded last, str reuses jolt-pr-str). Semantics match the seed: str-render-one
for str (nil->"", bare chars, regex source), the 3-way core-compare port, int
truncates. The symbol no-ns sentinel is #f to match emit's quoted-symbol lowering
(jolt-symbol #f "x"), so (= 'x (symbol "x")) holds — jolt= compares ns with strict
equal?, and jolt-nil vs #f would otherwise diverge.
Prelude parity 1220 -> 1326/2497, 0 new divergences. Floor raised to 1326; three
newly-reached *ns*/var-rendering cases added to the allowlist (Phase 2). run-prelude
and the per-case program file are now PID-unique so concurrent chez runs don't read
each other's half-written files.
Emit every non-macro clojure.core form through the live analyzer -> Chez emit
pipeline as a def-var! prelude (prelude mode, tier dependency order), load it
before a user expression, and you get an -e-capable jolt-chez: analysis on Janet,
execution on Chez. driver/emit-core-prelude assembles it (each form behind a
silent load guard so the Phase-2 multimethod forms don't break the rest);
bin/jolt-chez is the -e CLI, caching the prelude on disk keyed by source hash.
run-corpus-prelude.janet is the full parity gate this opens, the prelude-backed
sibling of run-corpus-chez. First baseline: 1220/2497 evaluated cases pass, 0 new
divergences (10 allowlisted: dynamic vars, class names, eval-order — deferred
Phase 2). The rest is the punch-list: ~360 emit-fail (real host interop, out of
the analyzer subset) and ~900 runtime crashes, mostly core fns calling
host-coupled seed natives with no Chez shim yet (str/format/vec, transients).
Follow-ups jolt-t6cr/kl2l/q3w8/9ls5.
Two shims landed to get the prelude to load and run. atoms.ss: atom/deref/swap!/
reset! (+ the compare/vals kernel) — needed at load time for
global-hierarchy = (atom (make-hierarchy)). predicates.ss: the type predicates +
name/namespace/boolean the overlay assumes are seed natives, matching the seed's
strict semantics. post-prelude.ss re-asserts char?/atom? after the prelude: the
overlay implements those by reading :jolt/type, which is false for Chez-native
chars/atoms, so its def-var! would clobber the correct native versions.
Per-case Scheme files are PID-unique so a foreground -e never reads a half-written
file while the gate runs.