Reader / loader:
- #?@ splicing reader conditionals now actually splice the matched collection's
items into the enclosing sequence; the splice flag was read but ignored, so a
binding vector like [a #?@(:clj [b (.foo b)])] lost its alignment.
- the file loader reads by position and skips a top-level form that reads as
nothing (a :cljs-only #?, a #_ discard, a trailing comment) instead of
treating it as EOF — which silently dropped the rest of a large .cljc file.
- jolt's reader feature set now includes :clj (was {:jolt :default}). jolt is a
Clojure/JVM-compatible host that emulates clojure.lang.* and java.* interop,
so it reads the :clj branch of a .cljc library, not :cljs. This also lets four
more reader-conditional corpus cases pass (floor 2726 -> 2730).
Backend:
- munge-name escapes ' (prime) -> _PRIME_; a Clojure symbol like f' otherwise
emitted a bare ' into Scheme, which is the quote reader macro and unbalanced
the output.
Host shims:
- clojure.java.io/writer (pass through a StringWriter, file-back a path) and a
readLine on the string reader, so line-seq over (io/reader …) works (markdown).
A better "unsupported destructuring pattern: <pat>" error message.
The two future-cancel cases — (future-cancel (future 1)) and the
future-cancelled? variant — depend on whether future-cancel catches a
trivial future in-flight, which is pure thread-scheduling luck. They were
allowlisted but still counted toward `pass` whenever the race resolved
favorably, so the floor (2728) silently assumed both passed. On a fast dev
machine they always pass; on CI's loaded shared runner one races to a
divergence, dropping pass to 2727 and failing the gate.
Skip them like the undelivered-promise case (neither pass nor fail) so the
race can't perturb the count. Floor drops to the deterministic 2726.
A vector's seq is now a real chunked-seq (chunked-seq? true), matching Clojure/
CLJS. Each vector-seq cell carries its backing vector + element index as two
cseq fields (cvec/ci, no extra allocation vs the old lazy cell), so:
- chunk-first hands out a 32-element block (a pvec slice), chunk-rest is the
seq at the next block boundary — the ChunkedSeq contract (chunk-first ++
chunk-rest == the seq);
- reduce/transduce take a fast path that walks the backing vector by index in
a tight loop with no per-element seq cells (reduce over a 1M-vector ~0.4s).
The seq cell stays a cseq, so first/rest/count/printing and the ~26 cseq?
dispatch sites are untouched. The eager chunk-buffer model (chunk-buffer/chunk/
chunk-cons) is preserved for the round-trip case. No seed change (runtime only).
(type r) returned a symbol user.TyR, so (= (symbol (str (type r))) (type r))
was true; the JVM's type is a Class (not a Symbol) so it's false. jolt models
classes as strings, so a record's type is now its ns-qualified class-name
string — equal to (class r), as on the JVM where type and class coincide for a
record. The symbol-keyed print-method defmethods already fall through to the
default record printing, so they're unaffected. Closes type-of-record.
bigdec / 1.5M / 0.0M silently produced doubles. Add a jbigdec value type
{unscaled, scale} over Chez exact integers (host/chez/bigdec.ss): value =
unscaled * 10^-scale. An M-suffix literal reads to a :bigdec form that the back
end lowers to jolt-bigdec-from-string (same IR-leaf path as #inst/#uuid); bigdec
coerces a number/string. Equality is by value (1.0M = 1.00M true, 3M = 3 false),
str drops the M and pr keeps it, class is java.math.BigDecimal, decimal? is true.
Arithmetic contagion isn't modelled (out of scope). The old corpus cases passed
spuriously as doubles; they now exercise a genuine BigDecimal.
(def ^String tv ...) left (:tag (meta (var tv))) as the unresolved "String";
the JVM compiler resolves the hint to java.lang.String at def time. Add a
resolve-class-hint host seam (built from the existing class-token table) and
resolve a def's :tag through it in the analyzer. The reader path
(read-string "^String x") stays unresolved, matching the JVM (only the
compiler resolves). Closes ^Type-tag-on-var.
(map? *in*) was true because *in* was a plain map of read-line-fn/read-fn
closures; the JVM *in* is a java.io.Reader so map? is false. A defrecord
doesn't help (records are maps). Make the reader a reify over a new IReader
protocol — a non-map value — and route read/read-line/read+string/line-seq
through its -read-line/-read-form/-read+string methods instead of keyword
access. with-in-str's __string-reader and the stdin *in* both reify it.
Closes *in*-bound + *in*-is-bound.
A macro like (defmacro cur-ns [] `(str ~*ns*)) splices the live *ns* value
into its expansion, leaving an opaque jns object as a list element. The
analyzer had no way to carry a runtime value and threw uncompilable — the last
remaining corpus crash. Recognize a jns via the host contract (form-ns-value?)
and emit a :the-ns leaf that reconstructs it by name (intern-ns!) at the call
site, the same IR-leaf pattern as regex/inst/uuid. Closes unquote-*ns*-in-
template; corpus crash count -> 0.
A namespace fast path rather than a general constant pool: it's the only
embedded-value case in the corpus and the common real-world one (libs splice
~*ns*). A general pool can come later if other value types appear.
deftype/defrecord inline protocol methods went through extend-type ->
register-method, so a record implementing a protocol inline showed up in
(extenders P) — the JVM only lists extend/extend-type/extend-protocol
registrations there (inline impls compile into the class). Add
register-inline-method: it registers for dispatch under the record tag but
skips the extender mark. The mark lives inside type-registry so the per-case
corpus prune restores it. Closes corpus lists-extended-type + seq-of-tags.
The defmethod/print-method record cases, symbol-hint, and source-order entries no
longer diverge (closed by the defmethod-setup + earlier fixes); drop them. 0 new
divergences, corpus 2720/2741, 20 genuine gaps remain.
definterface now expands to (do (def name {}) 'name) so (var? (definterface ...))
is false, matching the JVM where it yields the interface Class. ns-imports returns
the 96 auto-imported java.lang classes (short symbol -> canonical name) so
(count (ns-imports 'user)) is 96. Re-minted for the macro change. Corpus 2718->2720.
class number/string/keyword/name + atom?/instance? Atom pass after the class
refinements; drop their stale allowlist entries. Corpus 2705/2741 0 new div.
- (class x) returns per-type JVM class names (Long/Double/Ratio/Character/Atom),
not a blanket java.lang.Number.
- register fully-qualified class tokens (java.lang.Long, clojure.lang.Keyword,
clojure.lang.Atom, ...) that self-evaluate to their name, so (= (class 1)
java.lang.Long) and (instance? clojure.lang.Atom x) resolve.
- instance? recognizes Long/Double/Ratio/Character/Symbol/Atom/IFn built-ins.
Closes class number/string/keyword/name, instance? Atom, atom?. Corpus 2699->2705.
Allowlist review found three addressable divergences:
- unchecked-char returned a number; the JVM returns a char.
- the readable printer (pr-str, coll elements, the -e/REPL printer) rendered
infinities as Infinity/inf; Clojure's readable form is ##Inf/##-Inf/##NaN
(str/print still gives Infinity). So (pr-str ##Inf) => ##Inf, (str [##Inf]) =>
[##Inf], (str ##Inf) => Infinity.
Corpus 2695->2698; allowlist 43->40 (drop the 3 now-passing entries). Re-minted.
A macro that syntax-quoted interop — `(.. (StringBuilder.) (.append x)) — had
its .method / Class. / .-field heads qualified to the compile ns (user/.append,
user/StringBuilder.), so they read as 'Unknown class user' at expansion. Like
Clojure, leave interop-head symbols bare in syntax-quote. Fixes any macro
templating interop, not just the one corpus case. Corpus 2694->2695.
(reduce f init (reify clojure.lang.IReduceInit (reduce [_ f i] ...))) tried to
seq the reify and threw 'not seqable'. When the coll is a reify carrying a reduce
method, drive the reduction through it. Corpus 2693->2694.
The . special form rejected a non-symbol member; a keyword member now lowers to
an invoke of the keyword on the target ((. {:value 41} :value) => 41, as on the
JVM). Added a form-keyword? contract seam. Corpus 2692->2693. Re-minted.
(:import [other.ns Type]) was a no-op (import unbound), so (Type. ...) failed
with 'Unknown class'. Bind import to register each named type's ctor closure
under the current ns. Corpus 2691->2692.
(.. x m ...) failed: the analyzer classified the .. head as a .method interop
call (method-head? matched any "."-prefixed name) and form-special?
(hc-interop-head?) also flagged it, so it never reached the macro check. Exclude
".." from both (the char after "." being "." means the threading macro, not
.method). Corpus 2690->2691. Re-minted.
JVM assoc! is variadic: with a complete first pair present (>=3 kvs), a trailing
lone key fills nil ((assoc! t :a 1 :b) => {:a 1 :b nil}); a lone key alone (1 kv)
is still a wrong-arity throw. jolt delegated to the strict persistent assoc which
threw on any odd count. Pad a trailing nil for odd kvs >=3. Corpus 2688->2690.
The per-form eval passed a FIXED compile-ns to every subform of a top-level do,
so a runtime (ns ...)/(in-ns ...) didn't redirect later defs/refs — defs landed
in the wrong ns and qualified refs hit host-static ("Unknown class"). Thread
the current ns: each subform analyzes in (chez-current-ns), which ns/in-ns move.
That exposed two more gaps, now fixed:
- use refers ALL of a target's public vars (a refer-all table consulted by
chez-resolve-refer) — was bound to plain require (explicit :refer only).
- defmethod on a QUALIFIED multifn (cf.mm/ext from another ns) resolves in the
symbol's ns, not the current one (was auto-creating a stray multifn).
Corpus 2684->2688, 0 new divergences; floor raised. No re-mint (runtime shims).
- == 1-arg returns true for any value (Clojure short-circuits before the number
check), not 'requires numbers'.
- current-time-ms wired to now-millis so the time macro works.
- subvec truncates float/ratio indices via long (Scheme quotient rejects flonums).
- defonce checks bound? not var-get — in a top-level do the name is already an
unbound interned cell, which var-get throws on.
- drop the line-seq corpus row (used janet/spit, N/A); allowlist char-array
(needs Class/forName "[C").
Corpus 2678->2683, floor raised. Re-minted. Full gate green; CI green.
jolt-cf1q.7
Add a Janet-free gate so correctness can be judged with only Chez + Clojure:
- host/chez/run-corpus.ss: corpus.edn vs JVM expecteds, lifting the per-case ns
isolation from the old Janet driver; reads corpus.edn via the jolt reader.
- host/chez/run-unit.ss + test/chez/unit.edn: the host-specific unit cases,
evaluated in-process and compared to baked expecteds.
- host/chez/selfcheck.sh: self-host fixpoint (bootstrap.ss rebuild == checked-in seed).
- host/chez/smoke.sh: real bin/joltc CLI smoke.
- host/chez/remint.sh: re-mint the seed to a byte-fixpoint after a source change.
- Makefile: 'make test' runs the lot; 'make remint' rebuilds the seed.
Numbers match the Janet gate: corpus 2679/2757 0 new div, unit 450/450, certify
0 new/0 stale.
jolt-cf1q.6