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22 commits

Author SHA1 Message Date
Yogthos
c70f3bae34 Chez Phase 2 (inc X): #inst / #uuid literals + java.time (jolt-at0a)
The analyzer lowers a #inst/#uuid tagged form to a :inst/:uuid IR leaf, mirroring
the existing :regex node: the Janet back end punts to the interpreter (its
data-readers parse the literal, so seed behavior is unchanged), the Chez back end
emits jolt-inst-from-string / jolt-uuid-from-string.

host/chez/inst-time.ss is the Chez-native value layer: a jinst record holding
epoch ms (RFC3339 parsed via Hinnant civil/days math, with Clojure's partial
defaults and +/-hh:mm offsets), wired into jolt-get (so the overlay inst?/inst-ms
read it), jolt= / jolt-hash (instant identity as a map key), pr-str (#inst
"...-00:00"), str, type, and instance? java.util.Date. The java.time surface
(DateTimeFormatter ofPattern/ISO_LOCAL_DATE_TIME/ofLocalized*, the pattern engine,
Instant, ZoneId, LocalDateTime, FormatStyle, Locale, Date) ports java_base.janet
over host-static.ss's registries.

Corpus 2202->2238, 0 new divergences; clears the whole 'unsupported form'
emit-fail bucket. Full Janet gate green (analyzer/backend changes are
behaviour-preserving — #inst still parses through the interpreter's data-readers
on the seed).
2026-06-19 11:05:22 -04:00
Yogthos
c90c4cb610 Chez Phase 2 (inc Q): Java class statics + constructors (jolt-avt6)
Lower host class interop on the Chez back end. The analyzer now turns a
non-var qualified ref `Class/member` into a :host-static node and a
`(Class. ...)` / `(new Class ...)` form into a :host-new node (ir.clj
gains both, with walker support). The Janet back end punts both to the
interpreter, so its behavior is unchanged (verified: dot-form, `..`
threading, shadowed `new`, and all interop still resolve via fallback).

The Chez emit lowers a value ref to host-static-ref, a call head to
host-static-call, and a constructor to host-new. host/chez/host-static.ss
is the runtime registry these resolve against — the Chez port of the
seed's class-statics / class-ctors / tagged-methods (java_base.janet +
host_io.janet), restricted to the java.lang/util/net/io surface portable
cljc code calls: Math, System (getenv/getProperty/exit/currentTimeMillis),
Long, Integer, Boolean, Character, String, Thread, Class, Pattern
(compile/quote/MULTILINE), URLEncoder/Decoder, Base64, the Number method
surface (byteValue/intValue/...), plus the StringBuilder, StringWriter,
StringReader, PushbackReader, HashMap, StringTokenizer, BigInteger,
String, MapEntry, and exception constructors. Constructed objects are
jhost records dispatched through record-method-dispatch.

Also: emit now evaluates collection-literal elements left-to-right
(emit-ordered) — Chez evaluates call args right-to-left, which had been
swapping side-effecting elements in [(read r) (read r)] and map literals.
This un-allowlisted the 6 eval-order corpus cases (the read-line trio +
the three map-construction cases). Removed `.write` from the
jolt-host-call fast-path so a StringWriter routes through dispatch.

java.time formatting, edn/read-over-readers, and slurp/with-open over
readers are deferred to a follow-up.

Corpus parity 2078 -> 2134 (floor raised), 0 new divergences; the
print-method builtin-override case is allowlisted (same multimethod gap,
newly reachable now that StringWriter constructs). emit-test 326/326,
_javastatic 51/51, conformance 355x3, full jpm test green.
2026-06-18 23:24:01 -04:00
Yogthos
737288bff5 Chez Phase 2 (inc L): var def-time metadata (jolt-zikh)
Capture a def's reader metadata on the Chez var. The :def emit now lowers a def
with non-empty metadata to def-var-with-meta!, which stores the user meta
(^:private / ^Type tag / docstring -> {:doc}) in an eq side-table keyed by the
var-cell. jolt-meta of a var-cell merges that onto {:ns :name} derived from the
cell, so every var reports {:ns :name} like Clojure with the def-time meta
layered on. (^{:map} metadata on a def name stays uncompilable for the compiler
generally — analyzer rejects it, the Janet back end punts to its interpreter,
which Chez lacks — so it's out of subset, not a meta-capture gap.)

Added natives-meta.ss to the prelude-cache fingerprint. Prelude parity
1969 -> 1972, 0 new divergences; the three var-metadata allowlist entries
(^:private / ^Type tag / docstring) dropped. New focused gate
test/chez/_var_meta.janet.
2026-06-18 17:13:46 -04:00
Yogthos
eb26ad0401 Chez Phase 2 (inc I+J): first-class vars + scalar natives
inc I (jolt-n7rz) — vars as first-class objects. (var x)/#'x lowered a
:the-var IR op the Chez emitter didn't handle (57 emit-fails, the biggest
bucket); emit it to the rt.ss var-cell and shim the static var ops in
vars.ss: var?/var-get/deref/var-as-IFn/var =/pr-str (#'ns/name) + a native
bound? (the overlay reads (get v :root), nil on a var-cell record). def now
RETURNS the var (#'ns/name) like Clojure — def-var!/declare-var! yield the
cell, not the value — so (var? (def x 1)) is true and pr-str-of-var/defn
pass (un-allowlisted). Dynamic binding (binding/with-bindings*/var-set/
thread-bound?) stays a follow-up; those crash on nil host prims (safe).
Var def-time metadata (^:private/^Type/doc) isn't captured yet — allowlisted.

inc J (jolt-snry) — scalar natives. natives-misc.ss: a juuid record
(random-uuid v4 / parse-uuid / uuid? / #uuid pr-str / str), a %-format
engine (%d/%s/%.Nf/%x/%c/%%; printf rides on it), a jtagged record
(tagged-literal + :tag/:form + #tag pr-str), bigint/biginteger as
near-identity over the all-flonum model. Overlay names (uuid?/random-uuid/
parse-uuid/tagged-literal?) re-asserted in post-prelude.ss.

Prelude parity 1898 -> 1951, 0 new divergences. Floor raised to 1951.
2026-06-18 15:44:10 -04:00
Yogthos
241095977f Chez Phase 2 (inc F): jolt.host ref primitives + sorted collections
jolt.host/tagged-table, ref-put!, ref-get resolved to jolt-nil on the
prelude, so the 25-sorted tier and every overlay fn that calls sorted?
(empty, ifn?, reversible?, map?, set?, coll?) hit apply-jolt-nil.

host-table.ss provides the three primitives over a Chez mutable htable
record and set!-extends the collection dispatchers (seq/count/get/
contains?/assoc1/dissoc/conj1/disj/empty?/keys/vals/coll?/map?/set? +
printers + equality + value-host-tags) with a sorted arm routing through
each value's :ops table — the seed dispatch pattern, same as records.ss.
first/rest/next fall out free since they seq first. Sorted colls print
in sorted order ({k v, k v} for maps) and = canonicalize like their
unordered counterparts.

emit.janet: a computed call operator (an :invoke/:if expr that yields an
IFn, e.g. ((sorted-map :a 1) :k)) now routes through jolt-invoke instead
of a raw Scheme application.

Prelude parity 1723 -> 1837, 0 new divergences. Floor raised to 1837.
2026-06-18 13:14:13 -04:00
Yogthos
b8e4e78372 Chez Phase 2 (inc E): meta / with-meta
meta/with-meta resolved to jolt-nil. Chez values don't carry metadata, so
collections use an identity-keyed side-table: with-meta returns a fresh copy of
the value (new identity) and records its meta there, leaving the original
unchanged (immutable-with-meta) and dropping meta on a later copying op. Symbols
carry meta in their existing field; meta on a non-metadatable value is nil.
vary-meta works over these. with-meta on a fn stays fn? (jolt is lenient).

emit.janet carries a quoted symbol's reader metadata (^:foo bar) onto the
emitted jolt-symbol so (meta 'x) sees it; symbol = still ignores meta.

Prelude parity 1701 -> 1723, 0 new divergences. jolt-rkbc.
2026-06-18 12:16:48 -04:00
Yogthos
f0419b560d Chez Phase 2 (inc D): records + protocols
The largest remaining crash bucket: defrecord/deftype/defprotocol/extend-type/
reify. make-deftype-ctor/make-protocol/protocol-dispatch/register-method/
satisfies?/extenders/instance-check/make-reified were ctx-capturing seed natives
resolving to jolt-nil.

records.ss adds a jrec type (tag + field alist), set!-extended into every
collection dispatcher (get/=/hash/count/keys/vals/seq/assoc/conj/contains?/map?/
pr-str/pr-readable/str) via the transients.ss capture-prev pattern, plus a
protocol registry (type-tag -> proto -> method -> fn) and dispatch over record
tags / host-type candidates. (get rec :jolt/deftype) returns the tag, so the
overlay record? works unchanged. A record equals another of the same type with
equal fields, is map?/coll? not vector?, prints #ns.Name{...}, and str uses a
custom Object toString impl when defined.

emit.janet :host-call now routes a non-shimmed method to record-method-dispatch
(was an emit-fail), so (.protoMethod record args) compiles; .-field access is
still analyzer-punted (deferred).

Prelude parity 1652 -> 1701, 0 new divergences. 4 print-method-multimethod cases
moved crash->allowlist (the printer doesn't consult a custom print-method yet).
jolt-jgoc.
2026-06-18 11:55:20 -04:00
Yogthos
e98afcad13 Chez Phase 1 close-out: truthy? elision + end-to-end compute bench (jolt-nkcb)
Elide the redundant jolt-truthy? wrapper on an :if test that provably
yields a Scheme boolean (a native comparison/not, or a boolean const).
Sound because jolt-truthy? of #t/#f is identity. The hot fib/mandelbrot
tests are all comparisons, so this is a direct ceiling lever: fib(30)
end-to-end 24.0 -> 14.4 ms.

Add bench-pipeline.janet (JOLT_CHEZ_BENCH=1, opt-in) timing fib(30) +
mandelbrot(200) through the real pipeline vs the spike ceiling.
Mandelbrot 200 runs at 87 ms, at/below the 98 ms generic-flonum ceiling
- the substrate ceiling is reached end-to-end. fib sits at 2x its
hand-flonum ceiling; the residual is jolt's all-double number model
(typed fl*/fx* emission is Phase 4). Compile-only is total for the
compute subset (every form emits; Chez has no interpreter fallback).

Full parity unchanged at 1534/2494, 0 new divergences.
2026-06-18 09:05:54 -04:00
Yogthos
6af3e73595 Chez emit: codepoint-escape non-ASCII string literals (jolt-x0os)
Janet's %j renders a non-ASCII char as raw UTF-8 bytes (\xC3\xA9) and a
control char / DEL as \xHH with no terminating semicolon — both forms
Chez's reader rejects (invalid character \ in string hex escape). Replace
the %j string encoder with chez-str-lit: UTF-8-decode each char and emit a
Chez codepoint escape \x<cp>;, keeping \n/\t/\r/\"/\\ and staying
byte-identical to %j for printable ASCII. Applied to every string-content
site (string/keyword/symbol/var-name/regex-source).

Unblocks the p{L} utf-8 corpus case; prelude parity floor 1532 -> 1534.
2026-06-18 03:27:28 -04:00
Yogthos
02139af0a1 Chez Phase 1 (increment 3q): multimethod dispatch + late-bind
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).
2026-06-18 01:24:01 -04:00
Yogthos
c28b5406ca Chez inc 3m: numeric-edge literal emit + variadic assoc!
##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.
2026-06-17 22:32:02 -04:00
Yogthos
37c433bd4a Chez Phase 1 (increment 3i): regex via vendored irregex
Closes the last clojure.core prelude emit gap (parse-uuid): the whole
non-macro core now lowers to Scheme (prelude reach 355/355).

A #"..." literal analyzes to a :regex IR node. The Chez back end emits
a jolt-regex value over irregex (Alex Shinn, BSD), vendored as the
vendor/irregex submodule -- a portable Scheme regex with PCRE/Java-style
string patterns and first-class Chez support. host/chez/regex.ss wraps
jolt's re-* surface over it: irregex-match -> re-matches (anchored),
irregex-search -> re-find, groups as Clojure [whole g1 ...] vectors,
re-seq as a jolt seq. re-pattern/re-matches/re-find/re-seq/regex? are
def-var!'d into clojure.core so prelude / -e code resolves them.

They stay OUT of the subset native-ops on purpose: irregex's
Unicode/property-class semantics differ from the seed's byte-PEG
approximation, so keeping them prelude-only avoids dragging
engine-difference divergences into the subset-parity corpus. The Janet
back end punts :regex to the interpreter (the seed compiles #"..." to a
Janet PEG), so the main language is unchanged.

Only two adaptations for Chez's top level: a cond-expand shim (Chez's is
library-only) and a normalizing error wrapper (silences irregex's 1-arg
error warnings). rt.ss load is ~0.18s.

emit-test 131/131 (regex literal + re-* parity vs the CLI oracle);
prelude reach 355/355; Chez subset 672/672, 0 divergences; full gate
green.
2026-06-17 19:44:18 -04:00
Yogthos
b1cdfd1c9b Chez Phase 1 (increment 3h): host-interop method-call emit
(.method target arg*) now analyzes to a :host-call IR node instead of
punting at analyze. The Chez back end lowers it to a jolt-host-call
dispatch for the methods the RT shims (.write -> port display,
.isDirectory -> file-directory?, .listFiles -> directory-list); any
other method stays out of subset (clean emit-time reject, so it can't
read as a compiled-but-broken corpus divergence). The Janet back end
punts ALL :host-call to the interpreter, same shape as letfn: compiles
on Chez, interprets on Janet, zero change to the main language.

Closes the io tier's print-method defmethods and file-seq: prelude emit
reach 348 -> 354/355 (50-io 20/20). The one remaining gap is the regex
literal in parse-uuid (needs a regex engine on Chez; deferred).

emit-test 122/122; Chez subset 672/672, 0 divergences; full gate green.
2026-06-17 18:58:44 -04:00
Yogthos
0f7d2753a8 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.
2026-06-17 18:27:34 -04:00
Yogthos
930800f9a6 Chez Phase 1 (increment 3f): quoted literals
Emit a :quote node by reconstructing the raw reader form as RT constructor
calls: symbol -> jolt-symbol, list (array) -> jolt-list, vector (tuple) ->
jolt-vector, map -> jolt-hash-map, set -> jolt-hash-set, scalars via emit-const.
The runtime value of a quote is just that literal data (the interpreter returns
the reader form verbatim).

Quote exposed a latent seq.ss bug: empty map/filter results were jolt-nil, but
Clojure's (map f []) is an empty seq, so (= () (map f [])) must be true. Return
jolt-empty-list (which seqs back to nil, so it's still a valid lazy-tail
terminator) instead — matching jolt-take/drop/rest/list.

Prelude emit reach 334 -> 342/355. Subset probe 632 -> 664/664 compiled, 0
divergences (quote + the seq fix pull 32 corpus cases into the subset). emit-test
110/110 (added 16 quote cases). corpus.edn regenerated (the 3 malformed-catch
spec rows). Full gate green.
2026-06-17 17:43:34 -04:00
Yogthos
ffa122440a Chez Phase 1 (increment 3e): throw/try/catch/finally + ex-info
Emit :throw as jolt-throw (Scheme raise of the raw jolt value, matching the
Janet compiled back end's (error v) — no envelope, so catch binds it directly).
Emit :try as guard (catch; the class is dropped in the IR, so it's catch-all)
plus dynamic-wind for finally. ex-info is a native-op building the tagged jolt
map {:jolt/type :jolt/ex-info :message :data :cause}, so the ex-data/ex-message/
ex-cause tier fns read it over jolt-get for free.

Prelude emit reach 303 -> 334/355 (:throw and :try gaps close). Subset probe
619 -> 632/632 compiled, 0 divergences (throw/try/ex-info pull 13 corpus cases
into the subset). emit-test 94/94 (added 11 throw/try/ex-info cases + uncaught
exits non-zero). Full gate green.
2026-06-17 17:10:38 -04:00
Yogthos
8f26433469 Chez Phase 1 (increment 3d): clojure.core prelude emit mode + gap catalog
Add a prelude emit mode to host/chez/emit.janet: when emitting clojure.core
itself (not user -e), a non-native clojure.core ref lowers to a runtime
var-deref instead of being rejected as out-of-subset, so core fns chain
through each other. Default (subset) mode is unchanged — the corpus probe
still rejects unimplemented core refs for a clean signal.

core-prelude-probe.janet walks the tiers through the live analyzer->emit
pipeline and catalogs reach + gaps (macros skipped; analyze-time only).
Baseline: 303/355 non-macro core forms emit. Remaining gaps are a tight
punch-list for the next increments: :throw (29), :quote (8), :try (2), Java
host interop (6), letfn (4), declare (2). Probe has a regression floor.

emit-test 83/83 (added prelude-mode lowering assertions); subset probe
619/619 unchanged; full gate green.
2026-06-17 16:29:29 -04:00
Yogthos
45208afff1 Chez Phase 1 (increment 3c): multi-arity + variadic fn emission
emit-fn lowered multi-arity fns to a Scheme case-lambda and variadic fns to
a rest-arg lambda; the Scheme rest list is coerced to a jolt seq (nil when
empty, via list->cseq), and the named-let wrapper runs that coercion only on
first entry so recur carries the seq directly. Single fixed arity keeps the
plain-lambda fast path (fib untouched).

Also fixes a latent leak in the module-global known-procs: a throw mid-emit
(uncompilable body) left the fn's name registered, so a later corpus case
binding the same name to a keyword emitted a direct call to a non-procedure.
The cleanup now runs on the error path too. Only surfaced once the new arity
support let +24 cases compile further before hitting an uncompilable fn.

Gate: emit-test 81/81, subset probe 619/619 compiled (was 595), 0 divergences,
2036/2655 out of subset; full run-tests green (125 files).
2026-06-17 16:08:27 -04:00
Yogthos
cb3cfaf0c2 Chez Phase 1 (increment 3b): seq tier + dynamic IFn dispatch on the Chez RT
Brings up the seq layer on the Chez runtime. host/chez/seq.ss adds one
lazy-capable node (cseq) that models Clojure's list, cons, and lazy seq -
all print as (...), all sequential-= to each other and to vectors. seq
coerces any seqable (vector/map/set/string/list/seq/nil) to a cseq or nil;
the empty seq is a distinct value printing () (rest of a 1-elem coll is ()
not nil, seq of empty is nil). Leaf ops: first/rest/next/seq/cons/list,
reverse/last, map/filter/remove/reduce/into, range/take/drop/concat/apply,
keys/vals, plus nth/peek/pop extended over seqs. map/filter/reduce apply
their fn arg through jolt-invoke, so a procedure, keyword, or collection all
work as the fn.

Dynamic IFn dispatch: a keyword/vector/coll held in a local (let binding or
fn param) and called as a fn now routes through the jolt-invoke fallback
(procedure? -> apply; keyword/coll -> lookup). The emitter only routes a
:local callee that isn't a known procedure - a named fn's self-recursion
name stays a direct call, so the fib hot path is untouched. Closes the 3
ex-known IFn divergences.

emit.janet: seq/pred ops added to native-ops with arity gates; value-position
clojure.core refs resolve to the RT procedure (native-ops names one for each),
with +/-/*// routed to flonum-coercing wrappers so higher-order arithmetic
((reduce + [])) keeps the all-double model. values.ss: cross-type sequential
=/hash so a vector and a list of the same elements are jolt= and hash alike.
rt.ss: printer learns seqs; top-level nil prints as the empty string (jolt -e
str-style). Fixed latent bug: (conj nil ...) now builds a list, not a vector.

Gates: emit-test 69/69 (fib/mandelbrot/collections/seq/IFn parity vs the jolt
oracle, fib(30) ~24ms unchanged). Subset probe 433/436 -> 595/595 compiled,
0 divergences (was 3 known), 2060/2655 out of subset. Full run-tests green
(125 files, conformance + suites included).
2026-06-17 15:19:18 -04:00
Yogthos
5c5d2cd1fc Chez Phase 1 (increment 3a): persistent collections on the Chez RT
Broaden the Scheme back end past the numeric/functional subset to vectors,
maps, and sets. host/chez/collections.ss adds a copy-on-write persistent
vector and a bitmap HAMT (the structure 0c measured self-hostable) backing
both maps and sets, keyed by jolt-hash and compared by jolt=. emit.janet
emits :vector/:map/:set literals to the rt constructors and lowers the leaf
ops (conj/get/nth/count/assoc/dissoc/contains?/empty?/peek/pop) via the
native-ops path, with a per-op arity gate.

Also: keyword/map literals in fn position lower to jolt-get ((:k m), ({:k v} k));
arity-1 comparisons emit the vacuous jolt truth (Scheme < rejects a non-number
even at arity 1); count returns a flonum and vector indices coerce from flonum,
both consequences of the all-double number model; values.ss = / hash and the
rt printer learn collections (maps/sets render in HAMT order, so the probe
compares unordered values via =, not printed form).

Subset parity 182 -> 433/436 compiled cases (2219/2655 out of subset), 0 new
divergences. The 3 known divergences are dynamic IFn dispatch (a keyword/vector
held in a local, called as a fn) — deferred to the IFn/protocol increment and
allowlisted in the probe. emit-test 31/31, full run-tests green (125 files).
2026-06-17 14:33:57 -04:00
Yogthos
9bbcc07c8f Chez Phase 1 (increment 2): live analyzer -> Chez, var cells, RT, mandelbrot
Wire the real pipeline end to end: host/chez/driver.janet boots a compile-mode
jolt ctx, runs the EXISTING Janet-hosted analyzer on actual Clojure source to
real IR, feeds it to the Scheme emitter, and runs the result on Chez. Analysis
stays on Janet (the analyzer ports to Chez in Phase 2); execution is on Chez.

emit.janet now consumes live IR (pv/phm-normalized like the Janet backend) and
covers what the analyzer actually emits, not the hand-built inc-1 shapes:
- core ops arrive as :var clojure.core/+ etc., not :rt — lowered to native
  Scheme via a native-ops table (mirrors backend.janet's), `=` to jolt=.
- var cells (host/chez/rt.ss): :def -> def-var!, :var -> var-deref. Late binding
  so cross-var calls (run -> count-point) and the entry crossing resolve at use.
- named fns (defn / fn self-name) bind via letrec so self-recursion resolves.
- unsupported stdlib/host refs (no core on Chez yet) are rejected at EMIT time
  (clean out-of-subset signal) instead of deref'ing to nil and failing at runtime.

Number model: jolt is all-doubles (no ratios; (/ 1 2) is 0.5), so literals emit
as flonums — matches the Janet host and keeps Chez out of exploding exact
rationals (mandelbrot). jolt-num->string prints integer-valued without ".0".

Two real bugs found via the corpus probe and fixed (regression rows added):
- loop bound in parallel (Scheme named-let) but Clojure loop is sequential — a
  later init must see earlier bindings; wrap a let* around the loop.
- #(...) shorthand gensyms params with a trailing `#`, invalid in Scheme — munge
  it to `_`.

Gate: test/chez/emit-test.janet runs the real analyzer -> Chez for (+ 1 2),
fib(30)=832040, mandelbrot run(40), and the two regressions, parity-checked
against the Janet oracle (6/6). First parity number via the new subset probe
(test/chez/run-corpus-chez.janet, JOLT_CHEZ_CORPUS=1): 182/182 compiled corpus
cases pass, 0 divergences; 2473/2655 out of subset pending core on Chez. Full
jpm/run-tests gate green (125 files). Chez tests skip cleanly without `chez`.

Perf note (unchanged plan): emitted fib(30) ~23ms vs hand-Scheme ~5ms — the
jolt-truthy? wrapper (~3x) plus flonum (not fixnum) arithmetic, both Phase-4
type-specialization levers.
2026-06-17 13:59:57 -04:00
Yogthos
874e3c7cf2 Chez Phase 1 (increment 1): IR -> Scheme emitter, real IR shapes
New back end half: host/chez/emit.janet consumes the host-neutral jolt IR
(ir.clj shapes) and emits Scheme, reusing the existing front-end (Option-2
backend swap). Covers the pure-functional subset: const/local/var/rt/if/do/let/
fn/invoke/def/loop/recur. Tested by hand-built IR run on Chez: (+ 1 2)=3,
fib(30)=832040, loop/recur sum=15 (4/4).

Finding: correct emit wraps every if-test in jolt-truthy?, costing ~3x on fib
(15.8ms vs hand-Scheme 5ms). Eliding the wrapper for known-boolean tests
recovers the ceiling (Phase-4 type-driven opt).

Remaining Phase 1: wire the live analyzer, var-cell late binding, RT module,
broader op coverage for mandelbrot.
2026-06-17 13:15:57 -04:00