Commit graph

59 commits

Author SHA1 Message Date
Yogthos
240458d994 Make the REPL read multi-line forms and render real error messages
The REPL evaluated one line at a time, so a form split across lines
(e.g. `(+` then `1 2)`) raised instead of waiting. The read loop now
accumulates lines until delimiters are balanced — skipping string,
char, regex and comment context — printing a `... ` continuation prompt
for each extra line.

Reader/runtime errors rendered as Chez's "attempt to apply
non-procedure #[chez-pmap...]" instead of their real message. Two causes:

jolt-throw raised the thrown value raw. When a throw crossed the host
`eval` boundary, Chez re-wrapped the non-condition into a compound
condition whose message extraction applies the value, losing the message
and crashing on ex-info's empty-map :data. jolt-throw now raises a
&jolt-throw condition wrapping the value; catch (lowered to `guard`),
jolt-report-uncaught and jolt-render-throwable unwrap it back via
jolt-unwrap-throw, so ex-data/ex-message and the backtrace tag survive.

Every reader/post-prelude EOF-throw site used `(empty-pmap)` (with
parens), applying the empty-map value as a procedure and crashing during
ex-info construction before jolt-throw ran. Fixed to `empty-pmap`.

Re-minted the seed; smoke 23/23, unit 574/574.
2026-06-30 20:36:06 -04:00
Yogthos
992fc0af34 *unchecked-math* on macro-emitted arithmetic + local shadowing a bare native op
Two general fixes shaken out by clojure.test.check's own suite (its splittable
PRNG mixes 64-bit longs and binds locals named min/max).

- *unchecked-math* now wraps arithmetic a macro emits. The analyzer rewrote a
  bare (+/-/*) to its wrapping unchecked-* under *unchecked-math*, but a macro's
  syntax-quote produces clojure.core/* (qualified), which was skipped — so e.g.
  test.check's mix-64 multiply grew to a bignum instead of a 64-bit long. The
  rewrite now also fires on the clojure.core-qualified form.
- A local binding named like a bare-emitted native op no longer shadows it. ops
  where native-ops maps the name to itself (+ - * / < > min max …) emit as the
  bare Scheme name; a local `max` emitted the same token, so
  (fn [max] (clojure.core/max …)) called the param. munge-name now prefixes such
  locals, like reserved words (derived from native-ops so they can't drift).

make test green (+1 corpus row, 0 new divergences), shakesmoke byte-identical.
One re-mint (analyzer + backend).
2026-06-27 18:19:14 -04:00
Yogthos
21cd88deee letfn is a macro over a letfn* special form (Clojure semantics)
jolt modelled letfn as a special form directly, so (macroexpand-1 '(letfn …))
returned the form unchanged. Clojure's letfn is a macro that expands to letfn*,
and macroexpansion tooling (tools.macro, tools.analyzer) depends on that — its
special-form handlers key on letfn*, not letfn.

Split it the Clojure way:
- letfn* is now the special form (analyzer), taking flat name/fn-form pairs
  [name1 fn1 name2 fn2 …] — the letrec :let lowering is unchanged.
- letfn is a macro (00-syntax) turning each (name [params] body*) spec into a
  name + (fn name [params] body*) binding, so it expands to letfn*.

So (macroexpand-1 '(letfn [(f [x] x)] (f 1))) now yields
(letfn* [f (fn f [x] x)] (f 1)), and clojure.tools.macro passes its whole suite
(macrolet / symbol-macrolet / mexpand-all). Listed in docs + site.

make test green (+1 corpus row, 0 new divergences), shakesmoke byte-identical.
One re-mint (analyzer + the letfn macro); selfhost holds.
2026-06-27 17:26:18 -04:00
Yogthos
a028cab04f Unchecked / *unchecked-math* arithmetic wraps to signed 64-bit
clojure.core's unchecked-* (and +/-/*/inc/dec under *unchecked-math*) are long
ops that WRAP on overflow; jolt's checked arithmetic is arbitrary-precision and
its unchecked-* were plain non-wrapping (+ x y), diverging from the JVM. Now they
truncate to the low 64 bits as a signed long, matching Clojure:

  (unchecked-add 9223372036854775807 1)        => -9223372036854775808
  (unchecked-multiply 9223372036854775807 …)   => 1

- host/chez/seq.ss: jolt-wrap64 + binary jolt-unc{add,sub,mul,inc,dec,neg}2 and
  the variadic clojure.core/unchecked-* fns (def-var!'d in natives-seq.ss, where
  def-var! is bound). The overlay's plain unchecked-* defns are removed.
- backend lng-ops: unchecked-+/-/* emit the wrapping jolt-unc* helpers (the
  raising fx ops can't wrap on Chez's 61-bit fixnums); unchecked-inc/dec too.
- *unchecked-math* is honored: the analyzer reads it (jolt.host/unchecked-math?)
  and rewrites +/-/*/inc/dec to their unchecked-* for the rest of a file that
  (set!)s it, like the JVM.
- jolt->fx: a ^long value that overflows the 61-bit fixnum range passes through
  as an exact integer instead of erroring (a full-width long from wrapping math).

Also adds Long/bitCount / numberOfLeadingZeros / reverse and Math/getExponent /
scalb (test.check's splittable PRNG uses them).

This lets clojure.test.check load and run quick-check on jolt. re-mint (analyzer/
backend/overlay are seed sources). make test green (+6 corpus rows, 0 new
divergences, numeric gate updated), shakesmoke byte-identical.
2026-06-27 15:41:35 -04:00
Yogthos
a83ff6ce40 core.contracts: fully passes, two general fixes
clojure.core.contracts (over core.unify) now runs its whole suite on jolt —
14/14 across contracts/constraints/with-constraints/provide tests. Two general
gaps fixed:

- Symbol and Keyword now report IFn (and Fn/Runnable/Callable) in the modeled
  class hierarchy, so a (class x)-dispatched multimethod with an IFn method
  matches a symbol or keyword, like the JVM (both implement IFn — they're
  callable). core.contracts' funcify* dispatches on (class constraint) and a
  bare predicate symbol must hit the IFn arm. Runtime, no re-mint.
- A live Var value spliced into a form by a macro (defcurry-from resolves a var
  and emits (~v l r)) now compiles: analyze treats a var-cell form as a
  :the-var reference by ns+name, the same node as (var ns/name), mirroring the
  existing spliced-namespace (~*ns*) case. analyzer.clj + host-contract.ss,
  re-mint (prelude stays byte-identical; only the analyzer image changes).

Listed in docs/libraries.md + the site.

make test green (+2 corpus rows, 0 new divergences), shakesmoke byte-identical.
2026-06-27 14:32:57 -04:00
Yogthos
438742702a Macros receive &form and &env
A macro body can now read &form (the call form) and &env (a map of the in-scope
local symbols), like Clojure. This is what core.logic's matche/defne use to tell
a pattern symbol that names an enclosing local from a fresh pattern var — so
locals-membero and the recursive checko in `matches` now compute correctly. The
suite reaches 535/2/0 (the last two are constraint reification ORDER, where the
constraint set is right but it is spliced from a set whose iteration order differs
from the JVM — a host set-ordering divergence, not a bug).

&form/&env are clojure.core dynamic vars bound around each expander call rather
than prepended params, so the macro calling convention is unchanged and the mint
stays consistent (the seed prelude is byte-identical; only the analyzer carries
the env into form-expand-1). macroexpand-1 passes an empty env.

corpus.edn: the ~@ unquote row is now a boolean compare (a bare clojure.core/
unquote-splicing symbol evaluates to an unbound var, not the symbol).
2026-06-27 11:54:47 -04:00
Yogthos
e6aa2aace7 core.logic constraint layer: fixes for the CLP/unifier failures
Follow-on to the core.logic relational-engine work. These clear every crash in
core.logic's constraint-logic-programming and unifier layers (33 errors -> 0) and
most of the value mismatches; the suite goes 504 -> 523 passing assertions. All
are general gaps, not core.logic-specific.

- symbols intern their ns/name strings (JVM Symbol.intern .intern()s them): two
  separately-read `?a` symbols now share one name-string object. core.logic's
  non-unique lvars compare names by identity (via (str sym)), so without this a
  term's lvar and a constraint's lvar built from different `?a` reads never matched
  and constraints silently never fired.
- (str x) of a single arg returns its rendering directly instead of copying through
  string-append, and a symbol stringifies to its (interned) name — JVM (str x) is
  x.toString(). Needed for the identity comparison above.
- a clojure.core-qualified special form dispatches correctly: syntax-quote
  namespace-qualifies a macro like letfn to clojure.core/letfn (matching Clojure,
  where it's a macro), and the analyzer now maps that back to the special form
  instead of treating it as an invoke of a nil var. core.logic's fnc/defnc emit
  (clojure.core/letfn ...). Re-mint.
- (disj nil ...) is nil (JVM), instead of crashing in the set path — core.logic's
  constraint store does (disj (get km v) id) where the get can be nil.

corpus.edn: 4 JVM-certified rows. make test + shakesmoke green, 0 new divergences,
self-host fixpoint holds.
2026-06-27 10:37:32 -04:00
Yogthos
9dbfd7e5c1 General fixes shaken out by running core.logic's test suite
Running clojure/core.logic's own suite surfaced a batch of general jolt gaps.
None are core.logic-specific; each is a language/host behavior that was wrong or
missing. With these, the core relational engine (unify, run/fresh/conde,
conso/membero/appendo, reification to _0/_1, lcons) runs; the remaining failures
are in core.logic's constraint-logic-programming and finite-domain layers
(tracked separately).

- analyzer: accept the list-member dot form (. target (method args)), sugar for
  (. target method args). Re-mint.
- identical? is reference identity (eq?), not value equality. It was aliased to =,
  which infinite-loops when a deftype's .equals short-circuits on (identical? this o)
  (core.logic's Substitutions) and is wrong for distinct equal collections.
- jrecs use a deftype's declared hashCode/equals/equiv for map/set keying instead
  of structural field comparison, so metadata-wrapped keys still match (core.logic
  keys substitutions on lvar id, ignoring metadata).
- meta/with-meta dispatch to a deftype's clojure.lang.IObj meta/withMeta methods
  when present, so metadata threaded through the type's own assoc/withMeta survives
  (previously kept in an identity side-table the reconstructed instances didn't share).
- coll?/seqable? on a deftype require IPersistentCollection (cons) or ISeq (first);
  ILookup(valAt)/Indexed(nth)/Counted(count)/Seqable(seq) alone no longer qualify,
  matching the JVM.
- syntax-quote resolves a bare symbol to the compile ns's own def before
  clojure.core, so a name the ns excluded and redefined (core.logic's == after
  :refer-clojure :exclude) qualifies correctly in macro output.
- reader: record literals #ns.Type{...} / #ns.Type[...] expand to the map->/->
  factory call.
- structmap API: defstruct/create-struct/struct-map/struct/accessor (map-backed,
  insertion-ordered). Re-mint.
- .hashCode on strings/symbols (Java String.hashCode, Symbol Util.hashCombine);
  Class.isInstance; java.util.Collection.contains over vector/list/set;
  clojure.lang.RT/nextID and clojure.lang.Util hash/hasheq/equiv/identical statics.

corpus.edn: 8 JVM-certified rows. unit.edn: a Counted+Seqable deftype is coll?=false
(was a stale expectation encoding the old behavior).
2026-06-27 09:20:11 -04:00
Dmitri Sotnikov
8180c85393
Source locations: reader positions, error locations, native stack traces (#218)
* Reader records source line/column on list forms

The reader stamps 1-based :line/:column metadata on every list form (plus
:file when load-jolt-file is reading a file), and jolt.host/form-position
reads it back so the analyzer's :pos scaffold finally gets real data. A
left-to-right cursor counts newlines over the delta between successive forms,
so it stays O(n). Vector/map/set literals are untouched (their metadata is a
runtime value the analyzer would have to wrap in with-meta); empty () can't
carry meta. ^meta now merges onto the position keys instead of clobbering them.

Re-mint is byte-identical (the backend doesn't emit :pos), so this is a pure
scaffold for the error-location work that follows.

* Report source location on uncaught errors

Each top-level form records its source position (thread-local) before it
compiles+evals, and cli.ss jolt-report-uncaught appends 'at file:line:col'
when an error propagates out. Covers joltc -e, joltc run <file>, and
load-string — every interpreted path. Top-level granularity, one set per
form; deeper frames come from the Phase 2 frame walk.

Runtime .ss only, no re-mint.

* Clojure stack traces via source registry + native frame walk

A direct-link build emits (jolt-register-source! short-name ns name file line)
once per fn def — at definition time, so zero per-call cost. On an uncaught
error the reporter walks Chez's native continuation frames (jolt-throw captures
the live continuation via call/cc; host conditions carry their own
&continuation), maps each frame's procedure name through the registry, and
prints a Clojure backtrace 'ns/name (file:line)'. Wired into both the cli and a
built binary's launcher.

Frames are keyed by the short munged fn name Chez actually reports (emit-fn's
letrec self-binding), not jv$ns$name; a cross-namespace collision degrades to
the bare frame name rather than a wrong attribution. The analyzer carries the
original form's position through defn macroexpansion onto the def node.

Calling a non-fn now throws a catchable ClassCastException (via jolt-throw)
naming the operator, instead of a raw Chez error.

Caveats (documented in source-registry.ss): names map only in direct-link/AOT
closed-world builds — the open-world -e/repl/run path falls back to the
top-level location; and pervasive TCO erases tail-call frames, so a mapped
trace shows only the non-tail spine. JOLT_DEBUG_FRAMES dumps raw frame names.

Re-mint (analyzer + backend); prelude byte-identical (direct-link off during
mint). Corpus rows certified, build-smoke asserts the trace.

* Propagate source position through macroexpansion

hc-expand-1 now carries the macro call form's :line/:column onto the top of a
list expansion that has none of its own (merged under any meta the macro set),
so errors and stack traces in macro-generated code point at the call site —
Clojure parity. The analyze recursion re-expands inner macros, so each level's
top form picks it up, matching the reference compiler. (meta (macroexpand-1
'(when x y))) now reports the call-site line.

A direct-link fn defined through a user macro (build-app's defguarded) registers
with a real line, so build-smoke's trace assertion covers macro-defined fns.

Runtime .ss (host-contract.ss) — no re-mint; selfhost holds.

Phase 3's optional items are deferred: :line-in-ex-data has no clean consumer
(it would pollute ex-data, break = and printing, and positions already surface
via the trace + top-level location), and Chez source-object emission is a large
backend change the jv$-name registry already sidesteps.

* Review fixes: registration key, thread-locals, debug flag timing

- Register a fn under the name Chez actually reports for its frame, not the def
  name: a named fn literal whose name differs from the def (def foo (fn bar …))
  is framed as 'bar', and an anonymous fn def (def foo (fn …)) as jv$ns$foo.
  Both previously registered under the def name and so never appeared in traces.
- rdr-source-file / rdr-pos-cursor are thread parameters, so concurrent compiles
  (futures, core.async) don't clobber each other's file/line attribution.
- Read JOLT_DEBUG_FRAMES at call time: a built binary evaluates top-level forms
  at heap-build time, where a load-time getenv is always unset.

Re-mint (backend + reader); prelude byte-identical, selfhost holds.

---------

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 02:14:34 +00:00
Yogthos
ec9fde9e7e Group the JVM interop shims under host/chez/java/
The host/chez directory mixed jolt's own runtime (value model, seq, reader,
vars, ns, multimethods) with the shims that emulate the JVM: java.* / javax.*
classes, clojure.lang interfaces, and the host-class registry they hang off.
Move that JVM-emulation layer into host/chez/java/ so it reads as a distinct
unit instead of being interleaved with the platform runtime.

Moved (content unchanged): host-static, host-static-methods,
host-static-classes, host-class, dot-forms, records-interop, byte-buffer,
io, io-streams, inst-time, java-time, bigdec, natives-queue, natives-str,
natives-array, math, concurrency, async, ffi.

The load paths in rt.ss/cli.ss and the build.ss runtime manifest are updated
to point at java/; the build inliner follows the (load ...) strings, so the
AOT path needs no other change. All runtime shims, no seed source touched
(the three .clj edits are doc comments), so no re-mint.

Gate green: make test (selfhost fixpoint, certify 0-new, sci 211, infer),
shakesmoke (4 apps byte-identical).
2026-06-25 18:35:44 -04:00
Yogthos
d21ab77e7e Run core.memoize's test suite on jolt
Shaking out clojure.core.memoize (207 assertions, 0 fail) cleared several
general gaps:

- deref/@ on a deftype or reify implementing clojure.lang.IDeref dispatches to
  its deref method (RetryingDelay / make-derefable).
- deftype mutable fields (^:unsynchronized-mutable / ^:volatile-mutable) are
  read live: a set! within a method is observed by a later read in the same
  invocation, not the entry-time capture. Needed for double-checked locking.
  Immutable fields stay let-bound. Field reads rewrite to (.-field inst) with
  lexical-shadow tracking.
- def metadata values are evaluated, like Clojure: ^{:k (f)} stores (f)'s
  result and ^{:af some-fn} the fn. :tag stays a literal hint.
- try dispatches catch clauses by class in order via the exception supertype
  hierarchy; a non-matching value re-throws, an untyped host condition is caught
  by a RuntimeException/Exception/Throwable clause. Previously the last clause
  won and the class was ignored.
- locking takes a real per-object monitor (recursive Chez mutex) now that
  futures/agents/threads share one heap; it was a no-op.
- supers/ancestors reflect a small modeled JVM interface hierarchy, so
  (ancestors (class f)) yields Runnable/Callable (core.memoize's arg check).
- AssertionError / Error constructors.

JOLT_FEATURES is gone from the docs: it isn't read anywhere on Chez, and the
reader already includes :clj in its default feature set. RFC 0002's
{:jolt :default} design was reverted in the reader; docs now match the code.

Raises the SCI floor 205 -> 210.
2026-06-25 13:23:05 -04:00
Yogthos
7a343351d6 Make clojure.spec.alpha load and run
Four general gaps, shaken out by loading clojure.spec.alpha:

- Special forms were shadowable by a same-named macro. analyze-list
  macroexpanded before checking special forms, so a ns that redefs def/and/or
  (spec excludes them via :refer-clojure :exclude) made a bare def resolve to
  the macro instead of the special form, breaking every defn after. Now a head
  in the special-form set is never macroexpanded, matching the reference
  macroexpand1 isSpecial check.

- reify dropped all but the last arity of a multi-arity protocol method (spec
  reifies (specize* [s]) and (specize* [s _])). The macro keyed methods by name
  and overwrote; now it groups arities into one multi-arity fn.

- reify instances did not implement IObj: with-meta threw and (instance?
  clojure.lang.IObj r) was false. Every Clojure reify carries metadata. with-meta
  now copies the reify to a fresh identity (shared method table) and keys its
  meta; instance? IObj/IMeta is true for any reify. This was the registry bug —
  spec's with-name returned nil for specs, so get-spec missed.

- (set! (. Class field) val) was rejected. spec toggles
  clojure.lang.RT/checkSpecAsserts this way; the analyzer now lowers it to a
  jolt.host/set-static-field! call over a mutable-statics table, and a plain
  Class/field read consults that table.

Also: .name/.getName on a Namespace and .ns/.sym on a Var (spec's ns-qualify /
->sym). analyzer + reify are seed sources (re-minted). spec.alpha now does
valid?/conform/cat/keys/explain-str/check-asserts. tick.alpha.interval-test still
needs time-literals data readers (separate).
2026-06-24 19:46:22 -04:00
Yogthos
e3c14e656c java.time Phase 2: Duration/Period, enums, ChronoUnit/Field machinery
Duration (ISO PT.. toString, between, full arithmetic), Period (between with
borrow, P.. toString, normalized), full Month/DayOfWeek enums (named constants,
print as their name — fixes the Phase-1 raw-jhost print), Year, YearMonth
(2020-02 toString, leap, atDay/atEndOfMonth), ChronoUnit (between/getDuration)
and ChronoField. The temporal machinery on the Phase-1 types now works with
ChronoUnit/ChronoField: (.plus t n DAYS), (.until t1 t2 unit), (.get/.getLong
t field), (.with t field v), (.isSupported ..), (.truncatedTo ..).

Analyzer: (. Class method args) with a class target lowers to a static call
(Class/method args) instead of mis-dispatching as an instance call on the arg
— matches JVM; needed by cljc.java-time.year. Seed re-minted; selfhost holds.

The Phase-2 cljc.java-time namespaces load; tick.core advances to a Phase-3
zone gap. 10 corpus rows certified vs JVM. make test + shakesmoke green, 0 new
divergences, data.json stays 138/139.
2026-06-24 18:10:40 -04:00
Yogthos
21895cb932 Class-name symbols self-evaluate; extends? matches host classes; ISO_INSTANT
A slash-free dotted symbol with a Capitalized final segment (java.util.Map,
clojure.lang.Named, java.time.Instant) now self-evaluates to its name string
instead of resolving to nil — jolt models a class as its name, so a library
can extend a protocol to, or instance?-check, a host class jolt has no shim
for. hc-resolve-global classifies these as :class; the analyzer emits a const.

extends? now matches when either the query or the registered tag is a dotted
suffix of the other, so (extends? P java.util.Collection) finds the impl
extend registered under the canonical short tag.

Add DateTimeFormatter/ISO_INSTANT (UTC, trailing Z).

These unblock loading clojure.data.json, which dispatches JSONWriter on
java.util.Map/Collection/CharSequence/Instant and defaults a formatter to
ISO_INSTANT.
2026-06-24 14:17:34 -04:00
Yogthos
473d1002b7 Reader attaches collection metadata to data, not a with-meta form
The reader lowered ^meta on a vector/map/set literal to a runtime
(with-meta form meta) list, so read-string/edn of data with metadata
returned the form and lost the metadata. Attach it to the value instead,
as Clojure does; the analyzer re-emits (with-meta coll meta) for a
meta-carrying collection literal in code, so a literal still carries its
metadata at runtime and ^Type/^long arglist hints (consumed by
analyze-arity directly) are unaffected.

Also: pr honors *print-meta*, and clojure.walk/clojure.edn re-attach
metadata to the collections they rebuild (matches Clojure; a
metadata-driven config lib like aero relies on it).
2026-06-24 12:04:36 -04:00
Yogthos
9b4769f2e5 cleanup: drop dead form-char? refer, document an-invoke :wild rule (jolt-xkbo)
analyzer.clj referred jolt.host/form-char? but never called it (form-char? stays
live — backend_scheme.clj uses it). Promote numeric.clj an-invoke's :wild operand
rule (an integer literal is valid in either fl/fx kind) from an inline comment to the
function docstring. Both output-neutral: the seed re-mints byte-identical, gate green.
2026-06-24 00:03:34 -04:00
Yogthos
5a9acd3cf4 Numeric return-type hints: ^double/^long on a defn (round 3)
A ^double/^long return hint on a fn's name now (a) coerces the fn's value on the
way out — exact->inexact / jolt->fx, like a JVM primitive return — and (b) types a
call to it, so an accumulator over the result specializes:

  (defn ^double work [^double x ^double y] (+ (* x x) (* y y)))
  (loop [acc 0.0] (recur (+ acc (work a b))))   ; (+ acc (work ..)) -> fl+

The analyzer pushes the name's numeric tag onto each arity (:ret-nhint) for the
back-end coercion, and resolve-global surfaces the callee's declared return
(:num-ret, read from var meta) onto the :var node so jolt.passes.numeric types the
call. defn carries the name hint through.

This unblocks the accumulator-over-fn-result pattern that round 2 had to demote.
The win is bounded by call overhead in an open/dispatched build (~1.15x on a hot
loop whose body is a helper call); it compounds with direct-linking and, later,
inlining. A numeric return hint is a contract, like ^long — redefining the var to
return another type in an open build breaks it.

Not yet: per-arity arglist return hints, (defn f (^double [x] ..)). Gate:
test/chez/numeric-test.ss 39/39; full make test green, 0 new corpus divergences.
2026-06-23 17:21:53 -04:00
Yogthos
59905a71fd Hint-directed fast arithmetic: fl*/fx* from ^double/^long (round 1)
A ^double/^long param hint (or a float literal) now drives Chez flonum/fixnum
ops instead of generic arithmetic — JVM-style primitive hints, available in every
build and at -e (not gated on direct-linking or whole-program inference).

New pass jolt.passes.numeric: a local forward type-flow seeded from ^double/^long
fn-param hints (analyzer attaches :nhints per arity) and float literals,
propagated through let inits / arithmetic / if / do. It tags an arithmetic invoke
:num-kind :double|:long when every operand is that kind (an integer literal is a
wildcard, coerced to a flonum in a double op). The back end lowers a tagged node
to fl+/fl-/fl*/fl//fl<?/... or fx+/fx*/fx1+/fxquotient/... (unchecked-add etc.
join the fixnum path; == too). Runs last in run-passes, both branches.

Soundness: :long is seeded ONLY from an explicit ^long hint, never a bare integer
literal, so un-hinted integer code keeps jolt's arbitrary-precision numbers — no
fixnum-overflow surprise, no corpus divergence. :double comes from ^double hints
and float literals (flonum arithmetic is always flonum, matching the generic
result). A ^long hint is a promise the value is a fixnum: fx+ raises on overflow,
like a JVM fixed-width long.

Numeric-hinted params coerce at fn entry (exact->inexact / jolt->fx), the way the
JVM coerces a primitive parameter — so the body's fl*/fx* ops can rely on the
type even when a caller passes an exact int (e.g. Chez's (* 0 1.0) => exact 0).

Round 1 specializes hinted straight-line / fn-body arithmetic. fl-ops are ~4x
generic in a tight Chez loop, but realizing that on loop-carried accumulators
needs loop-var typing — round 2. Sound foundation, gated by test/chez/numeric-test.ss.
2026-06-23 16:43:55 -04:00
Yogthos
c91b6092bc ffi: foreign-callable — receive callbacks from C
jolt could call C (foreign-fn -> foreign-procedure) but C could not call back
into jolt, which GTK signals (and any callback-taking C API) require. Add the
inverse: jolt.ffi/foreign-callable wraps a jolt fn as a C-callable function
pointer, mirroring the foreign-fn pipeline.

A new jolt.ffi/__ccallable special form carries the fn as a child expression
(analyzed + walked by the passes; ir.clj gains an :ffi-callable arm in both
child walks) plus literal arg/ret type keywords. The back end lowers it to a
locked Chez foreign-callable and returns its entry-point address as a jolt
pointer; host/chez/ffi.ss registers the code object so the collector keeps it,
and free-callable unlocks it. :collect-safe emits the convention that
reactivates the thread on entry, for callbacks fired while it is parked in a
:blocking call (a GTK main loop).

Test: ffi-binding-test.ss sorts an int array through libc qsort with a jolt
comparator (C -> jolt -> C). Re-minted seed.
2026-06-23 09:55:17 -04:00
Yogthos
14547bd1d5 JVM-semantics fixes and small cleanups
- take-last / drop-last return seqs, not vectors: take-last wraps in seq; drop-last
  is the JVM (map (fn [x _] x) coll (drop n coll)) form (lazy, () when empty).
- cycle is lazy ((lazy-seq (concat coll (cycle coll)))) so it no longer counts its
  argument and terminates on a lazy/infinite input.
- fold's foldable-call catch uses :default, matching the rest of jolt-core and
  also catching a raw host condition from a folding primitive.
- alts! rejects non-channel ports with a clear error (put specs / :default are
  unsupported) instead of crashing inside ac-poll!.
- Misc: drop the unreachable second getCause clause; jolt-nth on a string raises
  'nth "index out of bounds" like the vector branch; name the inline fixpoint cap;
  bld-sh-capture rejoins lines with newlines; clarify a couple of comments.
2026-06-23 01:36:51 -04:00
Yogthos
adf00a3b51 Extract analyze-def / analyze-set! from analyze-special
analyze-special inlined def (~35 lines) and set! while try/letfn/fn* were already
helpers. Pull both out and move field-head? above analyze-special so its set! arm
and analyze-list reach it without a forward reference — the file's "only analyze
is forward-declared" invariant holds again. Pure code motion.
2026-06-23 01:23:17 -04:00
Yogthos
33eff7c7d8 Clean up codebase: rename stdlib layer, strip porting residue, fix tooling
Rename src/jolt -> stdlib (the runtime-loaded layer; jolt-core stays the
seed-baked layer) and update the loader / emit-image / doc paths. Drop dead
code: the spike/ experiments, the duplicate clojuredocs-export.edn (json moves
to tools/), the Janet-era jolt.http binding, and the orphaned
persistent_vector.clj whose ns/path didn't even match.

Strip porting residue from comments and docstrings across host/chez, jolt-core,
stdlib, tests, and docs: internal issue ids, "Phase N" markers, and the "vs
Janet" historical exposition, leaving present-tense descriptions and the real
JVM-Clojure semantic contrasts. Same pass over the corpus suite labels. The seed
is unchanged (docstrings/comments aren't emitted), so the self-host fixpoint and
corpus are untouched.

Port tools/spec_coverage.py off the dead janet probe to bin/joltc and regenerate
coverage.md; drop the dead :host/janet rule from certify.clj and regenerate the
conformance profile. Add docs/host-interop.md (the JVM shims and how to register
your own host class from a library) and a writing-style note in CLAUDE.md.

Stabilize the four racy concurrency corpus cases (future-cancel and agent
send/send-off): give the future a sleeping body and the agent a slow action, so
cancel reliably catches an in-flight future and deref reliably reads the
pre-update snapshot. They certify deterministically now, so drop their :flaky
allowlist entries and the orphaned legend.
2026-06-22 22:18:00 -04:00
Yogthos
d83175b8c2 Fix conformance gaps: exception types, byte/getBytes, host classes
Shake-out from the conformance-library sweep. Host-side fixes (runtime .ss,
no re-mint) plus one analyzer change (re-minted):

- Exception fidelity: ex-info and host-constructed throwables (RuntimeException.
  etc.) now carry their JVM class, so (class e), instance? across the exception
  hierarchy, .getMessage, and clojure.test thrown?/thrown-with-msg? all work.
- .getBytes returns a seqable/countable byte-array and honors UTF-16/UTF-32;
  String. decodes them. ->bytevector accepts byte-arrays (Base64).
- Universal .getClass / .toString / .indexOf / .lastIndexOf on any value/seq.
- record? uses the host jrec? predicate (the old (get x :jolt/deftype) crashed
  on a sorted-map by invoking its comparator).
- extend-protocol to abstract host types (clojure.lang.Fn/IFn/APersistentVector,
  java.net.URI) dispatches.
- New host classes: clojure.lang.PersistentQueue, java.util.ArrayList,
  java.net.URI, java.io.File / java.util.UUID ctors, Double/Float ctors+statics,
  regex instance? Pattern, System/setProperty.
- *assert* / *print-readably* are real settable/bindable vars.
- (symbol "ns/name") splits the namespace at the last slash.
- letfn fn params desugar destructuring (analyzer; re-minted).

unit.edn gains exinfo/hostobj/queue/hostctor/destructure regression rows.
2026-06-22 17:52:38 -04:00
Yogthos
2a64e65a1c jolt.ffi: a :blocking option for collect-safe foreign calls
A library binding a blocking native call (accept/recv/connect/...) needs it
emitted __collect_safe so the thread deactivates for the call and doesn't pin
the stop-the-world collector. foreign-fn / defcfn take an optional trailing
:blocking; the backend emits (foreign-procedure __collect_safe ...). Needed for
the ring-janet-adapter socket-server port. ffi-binding-test asserts a thread
parked in a :blocking call doesn't block (collect).
2026-06-22 12:00:14 -04:00
Yogthos
537cb360b4 Add a Clojure FFI so libraries can bind native code (jolt.ffi)
A jolt library can now bind its own native dependencies and expose a Clojure API
over them — no jolt built-in required. This is the foundation for moving the
http-client / db / adapter functionality out of the host and into real libraries.

- jolt.ffi/foreign-fn (sugar: defcfn) is a compiler special form: a compile-time
  -typed C signature lowers to a real Chez foreign-procedure (analyzer :ffi-fn ->
  backend foreign-procedure), so calls are typed and marshaled, not eval'd.
- host/chez/ffi.ss provides the rest under jolt.ffi: load-library, alloc/free,
  read/write/sizeof, ptr<->string, null/null?. Loaded after the loader snapshot
  so a library's (require '[jolt.ffi]) still loads the macro side.
- Types: int/uint/long/ulong/int64/uint64/size_t/ssize_t/iptr/uptr/double/float/
  pointer/string/void/uint8/char.

Validated end to end: a pure-Clojure file binds libc (getpid/strlen/abs) and
libsqlite3 (open/prepare/step/column/finalize over out-param pointers) and runs a
query. Gate test test/chez/ffi-binding-test.ss (make ffi); selfhost holds.
2026-06-22 10:59:51 -04:00
Yogthos
424ce75cf6 mutable deftype fields: (set! field val) in a method
deftype fields tagged ^:unsynchronized-mutable / ^:volatile-mutable can now be
reassigned in place from a method, as on the JVM. A jrec stores fields as cons
cells, so a new jolt-set-field! mutates the pair with set-cdr!. The deftype macro
rewrites (set! mutable-field v) in a method body to (set! (.-field inst) v), and
the analyzer compiles a (set! (.-field obj) v) target to jolt-set-field! — so
both the rewritten symbol form and an explicit interop (set! (.-root this) v) go
through one path. Field reads remain a snapshot at method entry, which is correct
for the universal read-then-set pattern (a repeated set! of the same field in one
call would read the entry value).

Closes the set!-of-local SCI failures: SCI load 202 -> 205/218.
2026-06-22 01:19:03 -04:00
Yogthos
212cd0399a special-form heads are not shadowable
Found in a read/eval review: a local named like a special form wrongly took
over operator position. (let [if (fn ...)] (if true 1 2)) returned the fn, but
per spec section 3 (and the reference) special-form heads are not shadowable;
only macros are. Two fixes: drop the (not shadowed) guard on the special-form
branch of analyze-list (so an (if ...) head is always the special), and prefix
a local whose name is a Scheme keyword when emitting (so a value local legally
named if does not shadow the (if ...) the back end emits). Value-position
locals named if/or/case still work.
2026-06-22 01:01:53 -04:00
Yogthos
f18ae3bd46 macroexpand-first analyzer order; one macro path; defmacro/letfn fixes
The analyzer checked special forms before expanding macros, the reverse of the
canonical read -> macroexpand -> analyze order (Clojure/CLJS analyze-seq). Move
macroexpansion to the front of analyze-list. Knock-on fixes:

- letfn was both a (broken) macro expanding to let* AND a primitive special
  (analyze-letfn, proper letrec*). Macroexpand-first surfaced the macro, breaking
  mutual recursion; remove the macro, keep letfn a primitive.
- defmacro is now compiled by the analyzer (a :set-var-style :defmacro node that
  defs the expander fn via the fn macro — so destructuring arglists desugar — and
  marks the var a macro), so a non-top-level (when … (defmacro …)) works. The
  runtime spine's separate top-level defmacro interception is removed: one path.

SCI load 162 -> 202/218.
2026-06-22 00:54:16 -04:00
Yogthos
e6ee17b055 compile (set! *var* val)
The analyzer punted set! as uncompilable. Add it as a special form: (set! sym
val) on a var emits jolt-var-set, which updates the innermost thread binding (or
the root when unbound), returning val. A local target (deftype mutable field) or
an interop (.-field) target stays uncompilable for now. Also defines
*warn-on-reflection* (false) so set! on it resolves. SCI load 186 -> 196/218.
2026-06-22 00:40:46 -04:00
Yogthos
86aa89c832 uniquify duplicate fn params (macro _ _ expanders)
Chez rejects duplicate lambda formals, so any (fn [_ _] ...) failed to compile
— including every macro expander, whose &form/&env slots both expand to _. The
analyzer now renames each earlier duplicate param to a fresh name (Clojure binds
the last occurrence, so the earlier ones are shadowed and unreferenceable). SCI
load 162 -> 186/218.
2026-06-22 00:35:16 -04:00
Yogthos
ab96650fbb real BigDecimal type (bigdec, M literals)
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.
2026-06-22 00:01:01 -04:00
Yogthos
7db5fabc8d resolve ^Type hint to canonical class name in var :tag
(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.
2026-06-21 23:52:47 -04:00
Yogthos
8ce00d29fd embed a namespace value spliced into a form (~*ns*)
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.
2026-06-21 23:40:59 -04:00
Yogthos
31a453d492 (. obj :kw) is a keyword lookup (JVM parity)
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.
2026-06-21 17:13:40 -04:00
Yogthos
547a8c6d17 The .. threading macro analyzes as a macro, not interop (jolt-c2l1 tail)
(.. 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.
2026-06-21 17:08:11 -04:00
Yogthos
48e2ef5910 Scrub dangling Janet references; drop dead Janet-coupled files
Rephrase comments that pointed at deleted Janet files (emit.janet, the seed
sources, 'the Janet back end punts ...') to present-tense descriptions of the
Chez behavior. Comment/docstring-only; the self-host fixpoint is unchanged
(comments don't affect the compiled seed).

Delete five files that were Janet-host shims with no Chez path: clojure.java.io
(provided natively by host/chez/io.ss), and jolt.{nrepl,png,interop,shell}
(the janet.* bridge, os/shell, janet.net — none exist on Chez).

jolt-cf1q.6
2026-06-21 12:01:04 -04:00
Yogthos
eb1c3298a4 Chez parity: trailing-apostrophe symbols + arglist return hints (jolt-vgrp, jolt-5540)
Two Chez reader bugs, both JVM-parity gaps:

inc'/+'/foo' (trailing apostrophe) were mis-read as a symbol followed by a
quote macro, because the reader treated ' as a terminator. In Clojure ' is a
NON-terminating macro char (constituent after the first char). Since the seed
is minted on Chez, (def inc' inc) became (def inc 'inc), clobbering inc's var
cell with its own symbol -- so (var-get (var inc)) returned the symbol, not the
fn. Drop ' from the token terminator set; a leading ' still quotes.

^bytes [b] / ^String [x y] return-type hints: the Chez reader lowered ^meta on
a collection to a (with-meta vec meta) form, but emitted a QUALIFIED
clojure.core/with-meta while the Janet reader emits a bare with-meta -- so the
fn/defn macros' unwrap logic (matching the bare head) slipped past it and choked
on a non-vector arglist. Emit bare with-meta to match Janet, and unwrap a
(with-meta <vec> _) arglist in analyze-fn as a backstop.

Re-minted the seed. zero-janet 2699, prelude 2652, Janet gate 155/0, fixpoint
10/10, bootstrap 6/6, all 0 new divergences.
2026-06-20 22:17:29 -04:00
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
1f96351acb Chez Phase 2 (inc R): . / .-field dot-form desugar (jolt-kuic)
The analyzer lowers the `.` special form (. target member arg*) and the
.-field field-access head to a :host-call instead of leaving them
uncompilable. Janet behaviour is unchanged — its back end punts :host-call
to the interpreter, which re-runs the original `.` form via eval-dot.

The Chez back end routes a non-shimmed :host-call through
record-method-dispatch, extended by a new host/chez/dot-forms.ss with the
arms dispatch-member covers but the record/string base did not, mirroring
src/jolt/interop/collections.janet precedence:

  - collection interop first (count/seq/nth/get/valAt/containsKey on a
    vector/map/set), so (. {:count 9} count) is the entry count like the seed
  - field access for a "-name" member (records and maps)
  - the seed's universal object-methods (getMessage/getCause/toString/
    hashCode/equals) on a non-record map, winning over a field lookup
  - non-record map member: a stored fn is a method called with self, else
    the field value

Raw seqs are excluded from coll interop — the seed's behaviour there is
representation-dependent (plain (seq v) vs a lazy-seq) and a normalized cseq
can't mirror it. Also added getMessage/getLocalizedMessage/equals to the
string method surface so a thrown string / Exception. ctor (which keeps the
message string) answers .getMessage.

Parity 2134 -> 2150, 0 new divergences. New test/chez/_dotform.janet 26/26;
emit-test 331/331.
2026-06-19 00:32:30 -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
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
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
d35783bf1b Reject a malformed catch clause with a clean error in both modes
jolt's catch is (catch class binding body*); the binding (3rd element) must be
a symbol. Neither the analyzer nor the interpreter validated it, so a non-symbol
binding crashed with an internal Janet error (expected integer key for array...)
and, in the interpreter, a malformed clause whose body never threw was silently
swallowed (returned the try value). Clojure rejects a non-class/non-symbol catch
clause; match that with an up-front error in analyze-try and eval-try.

Surfaced building the Chez try/throw emit. Regression rows in exceptions-spec
(runs x3 modes) plus a unit test asserting the clean message in interpret and
compile. jolt-kg6p.
2026-06-17 17:25:14 -04:00
Yogthos
130a6c5c4d Refactor phase 3b: keep :try IR nodes structs, not phms (jolt-26dm)
analyze-try assoc'd :catch-sym/:catch-body/:finally nil-when-absent, so a try
with no catch (or no finally) carried a nil-valued key — which makes the node a
phm in jolt's map representation and forces the back end to densify it
(norm-node) before reading :op. That's the map-nil-representation trap Phase 2
already cleaned up for def/fn/arity nodes. Add those keys only when the clause is
present, matching the arity :rest discipline; a try node stays a fast struct.

Behavior-invisible: emit-try reads each key with a nil-safe (node :k) and gates
on it, so an absent key and a present-nil key are indistinguishable to every
consumer. Adds ir-try-shape-test asserting the node shape across all four
try/catch/finally combinations plus end-to-end eval.

Note on scope: the plan's "delete the defensive norm-node calls" is NOT done — it
can't be. {:op :const :val nil} (e.g. (def x nil)) and nil map keys are
inherently phm, so the emit-dispatch norm-node guards a real case, not a
present-or-absent artifact. This PR removes a source of gratuitous phm nodes
rather than the densification itself. Full gate green.
2026-06-15 05:09:02 -04:00
Yogthos
1525c7adfb Record type hints resolve across namespace boundaries (fields and params)
A ^RecordType hint only resolved against the current namespace's ctor key, so a
hint naming a record defined in another namespace degraded to :any. That made a
decomposed multi-namespace program much slower than the monolith: per-namespace
inference can't see a record param's callers in other namespaces, and the
declared hint that could have typed it was dropped.

Resolution now works cross-namespace, for both record FIELD hints (defrecord)
and fn PARAM hints, in both spellings — ^Vec3 where the type is referred and
^v/Vec3 where the namespace is aliased:

- reader keeps a tag's namespace qualifier (^t/Ray -> "t/Ray", was "Ray").
- make-deftype-ctor-impl indexes each ctor closure by value; record-hint-ctor-key
  resolves a hint name against the COMPILE ns (referred names live there; aliases
  resolve through it) and maps the type var's root back to its home ctor key.
  Using the ctor value, not the var's :ns, is what makes :refer work — :refer
  re-interns a fresh var whose :ns is the referring ns.
- the analyzer captures record param hints as arity :phints [name ctor-key];
  reinfer-def seeds those param types, so a record param is typed even with no
  inferred caller — the open-world / cross-ns case.

Effect on the multi-namespace ray tracer: per-ns compile 30.4s -> 7.9s with
param hints, matching whole-program (8.1s) and the single-ns monolith (8.3s).
cross-ns-hints-test covers field + param hints, refer + as, and the reader tag.
2026-06-14 12:40:14 -04:00
Dmitri Sotnikov
52bea0b620
Merge pull request #95 from jolt-lang/migratus-fixes
Migratus fixes
2026-06-13 23:13:43 +00:00
Yogthos
9813186ef9 fix: def supports the 3-arg docstring form (def name doc value) in compile mode (jolt-6ym)
The analyzer always took (nth items 2) as the value, so (def x "doc" 42)
bound x to the docstring and dropped 42. Now it mirrors the interpreter:
when there are 4+ items and item 2 is a string, item 2 is the docstring
(attached as :doc meta) and item 3 is the value. Conformance 335/335 x3.
2026-06-13 15:41:59 -04:00
Yogthos
f2d65addc8 feat: precise file:line:col source locations for type errors (jolt-fqy)
RFC 0006 error reporting wanted file:line:col but IR nodes carried no
position, so diagnostics read only "type error in <ns>: <msg>". Now:

    type error /tmp/scene.clj:5:5: `inc` requires a number, but argument 1 is a string

The reader records each LIST form's absolute start offset in a table keyed
by form identity (lists are fresh arrays, never interned), gated behind a
flag the loaders enable only when JOLT_TYPE_CHECK is on — zero cost off.
Keying by identity makes positions survive macroexpansion exactly when the
user's own sub-form is spliced through, and absent for macro-synthesized
structure: a `(inc :k)` written inside `(when c ...)` reports at its own
line, never at the expansion's generated if/do.

The analyzer stamps the offset onto :invoke nodes (form-position host
contract fn); the checker carries it into each diagnostic as :pos; the
loaders stash the file's source + path on the env (save/restored across
nested requires); backend/type-check! converts offset -> line:col via the
reader's line-col and renders the RFC format. Falls back to the ns when no
position is available (synthetic forms), so it is never worse than before.

Gate green, conformance 335/335, suite 4718, runtime bench even (positions
are compile-time only; off by default).
2026-06-13 12:18:53 -04:00