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216 commits

Author SHA1 Message Date
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
192ef66e7e ns: accept vector reference clauses; add Compiler/specials
Two general fixes shaken out by clojure/tools.macro.

- The ns macro now accepts a vector reference clause [:require …] / [:use …],
  not just the list form (:require …). Clojure dispatches on (first clause) and
  accepts both; jolt silently dropped vector clauses, so a ns written with them
  loaded with nothing required/used (tools.macro's test ns uses [:use …]).
- clojure.lang.Compiler/specials is now a static whose keys are the special-form
  symbols (matching Clojure 1.2/1.3). Macroexpansion tooling reads
  (keys Compiler/specials) to know which heads not to expand.

tools.macro itself isn't fully passing yet — its mexpand-all works, but the
macrolet/symbol-macrolet tests need letfn to macroexpand to letfn* (jolt models
letfn as a special form, not a macro over letfn*), so it stays off the list.

make test green (+1 corpus row, 0 new divergences), shakesmoke byte-identical.
One re-mint (the ns macro).
2026-06-27 17:08:50 -04:00
Yogthos
75f6bc79d1 data.priority-map: deftype interop fixes (rseq, arity-overload, empty, Sorted)
data.priority-map's whole suite passes (4/4). It leans on deftype/collection
interop jolt got wrong; four general fixes:

- rseq dispatches to a deftype's clojure.lang.Reversible.rseq method instead of
  always demanding a vector/sorted-coll (natives-seq.ss).
- a deftype method declared at two arities from two interfaces now dispatches by
  arity: the priority-map has seq[this] (Seqable) and seq[this ascending]
  (Sorted), so (.seq pm false) must reach the 2-arg one. find-method-any-protocol
  now matches the call's arg count via procedure-arity-mask, and a deftype's own
  declared method wins over the generic collection interop in dot-forms.
- (empty x) on a deftype/record with its own empty method uses it rather than
  returning {} (jolt.host/jrec-method? gate in clojure.core/empty).
- clojure.lang.Sorted (comparator / entryKey / seqFrom) works on jolt's
  sorted-map/set, so subseq/rsubseq run — including the priority-map delegating
  .comparator to its backing sorted-map (dot-forms.ss + host-static.ss).

Listed in docs/libraries.md + the site. One re-mint (clojure.core/empty);
everything else runtime. make test green (0 new divergences), shakesmoke
byte-identical.
2026-06-27 16:48:14 -04:00
Yogthos
3340635714 ^long is a 64-bit long: fast-path-with-fallback ops + logical unsigned shift
Completes the JVM long-compatibility gap so clojure.test.check (and the
property-based suites built on it, e.g. data.codec) run on jolt.

A ^long is 64-bit but a Chez fixnum is only 61-bit, so the backend's fast fx
comparison / quot / min / max / inc / dec ops raised on a full-width long (one
from the PRNG or wrapping arithmetic). They now go through the jolt-l* macros
(host/chez/seq.ss): the fx fast path when the operands ARE fixnums, the generic
op otherwise — so e.g. ((fn [^long a ^long b] (< a b)) Long/MAX 1) is false, not
an error. Arithmetic +/-/* keep the raw fx ops (under *unchecked-math* they're
already the wrapping unchecked-*).

Also fixes unsigned-bit-shift-right: it was an arithmetic (sign-propagating)
shift, now a logical shift over the 64-bit two's-complement window, so
(unsigned-bit-shift-right -1 1) is 2^63-1 like the JVM.

Result: test.check 1.1.3 loads and runs (generators, quick-check, shrinking);
data.codec's base64 property suite passes (12/12 defspecs; the 2 deftests check
clojure.lang.IFn$OLLOL, a JVM primitive-fn interface, N/A). Both added to
docs/libraries.md + the site.

re-mint (backend/seed). make test green (+3 corpus rows, 0 new divergences,
numeric gate updated to the jolt-l* ops), shakesmoke byte-identical.
2026-06-27 16:04:19 -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
Yogthos
bfa2cbf49d Small maps preserve insertion order
jolt maps were HAMTs with hash iteration order; Clojure keeps small maps as
PersistentArrayMap (insertion order), converting to PersistentHashMap past a
threshold. Map literals, array-map, assoc, into/transient, merge, zipmap,
select-keys, update-keys/vals, frequencies and group-by now iterate in insertion
order for <=8 entries, matching the JVM. hash-map and >8-entry maps stay hash
order; sets stay hash order.

The pmap record gains an order field (the insertion-order key list, or #f once
hashed); the HAMT still backs the values so equality/hash/lookup are unchanged.
pmap-fold visits an array-mode map last-to-first so the runtime's cons-accumulate
idiom reconstructs insertion order without touching its many call sites, and
hash-mode output stays byte-identical; pmap-fold-fwd visits in order for the few
sites that build a value directly. Transient maps track insertion order and
promote to hash past max(8, source-count), matching TransientArrayMap.

The hash-map native-op retargets to a hash-order builder so (hash-map ...) stays
hash-ordered while {...} literals are ordered; syntax-quote builds maps via the
hash builder (Clojure expands `{...} to apply hash-map). The core overlay map
builders seed from {} instead of (hash-map) to keep order.

Threshold is 8 for any key (the keyword exception in newer Clojure isn't in
1.12.5). honeysql now passes 832/0/0; 19 JVM-certified corpus rows added.
2026-06-27 05:48:17 -04:00
Yogthos
a99991a818 defn- marks :private; ns-publics drops private vars
defn- now adds :private to the var metadata (like Clojure), and ns-publics
filters those out while ns-interns/ns-map keep them — they were all the same
unfiltered scan before. A lib that introspects ns-publics (honeysql asserts
every public helper has a docstring, and that the clause set matches the public
helpers) saw the private defn- helpers and failed; now honeysql 636/8 -> 638/6
(the rest are map key-order).
2026-06-27 01:27:47 -04:00
Yogthos
6b99591266 Fix [_ _] inline method field binding + Var protocol dispatch
Two gaps reitit-core surfaced (now 322/0/1 -> 327/0/0):

- A deftype/defrecord inline method with two _ params, (m [_ _] field), read
  the field as nil: mk-clause bound fields off (get _ :field) where _ was the
  first param, but the second _ shadowed it. Each _ param is now renamed to a
  fresh symbol so the instance is unambiguous.

- A var did not dispatch to a protocol's clojure.lang.Var extension (reitit
  extends Expand to Var for a #'handler route): value-host-tags gained a var arm
  (Var/clojure.lang.Var/IDeref/IFn) and host-type-set gained Var/IDeref so the
  extension keys under Var.

deftype/defrecord is a seed source, re-minted.
2026-06-26 23:22:22 -04:00
Yogthos
bd645a68d6 defn: support the attr-map form
(defn name docstring? {:k v} arglists...) and the multi-arity name+attr-map
now merge the attr-map into the var metadata like Clojure — jolt was parsing
the map out of the body and discarding it. The metadata (the name's own ^{},
the attr-map, and the docstring as :doc) is attached to the def name symbol,
which analyze-def reads and evaluates. defn is in the earliest tier, so the
macro uses only conj/assoc/meta/with-meta (not merge/last). The rare trailing
attr-map (after the last arity) is not yet handled. Fixes hiccup's defelem
meta + honeysql docstring tests.
2026-06-26 22:29:47 -04:00
Yogthos
3d80bdc10b Fix general gaps the hiccup suite shook out
Six correctness fixes, each a general gap (not hiccup-specific):

- deftype is not a map. jolt treated every deftype instance as a map
  (map?/record?/seqable over its fields); in Clojure only a defrecord is
  map-like, a bare deftype is an opaque object. defrecord now marks its type;
  map?/record?/coll?/seq/empty? gate on it, while a deftype implementing a
  collection interface still dispatches through its methods.

- cross-ns extend-protocol on an imported deftype. register-method built the
  type tag from the *calling* ns + bare name, so (extend-protocol P Raw …) in
  one ns missed a Raw value defined in another. A simple-name index resolves
  the bare name to the type's real tag (local ns still wins).

- str vs print. str of a collection is its readable form (nested strings
  quoted: (str ["x"]) => ["x"]); print leaves them raw. jolt defined print
  as str, conflating the two. Split via a __print1 seam.

- clojure.test thrown? now honors the exception hierarchy (instance?), so
  (thrown? IllegalArgumentException …) matches an ArityException subclass.

- java.net.URI is value-equal (= and hash by string form).

- clojure.walk/macroexpand-all was missing; an unresolved qualified var made
  the analyzer report "Unknown class walk".

deftype/defrecord + print are seed sources, re-minted. hiccup 365->381 of its
own suite; the rest are charset-encoding / var-meta niches.
2026-06-26 20:15:39 -04:00
Yogthos
448611a5df Match Clojure's lazy seq realization model
jolt's seq layer realized one element ahead of Clojure, so a side-effecting
lazy seq ran its producer too eagerly. Four changes bring it in line:

- rest is Clojure's more(): it returns the tail without realizing it. An
  unforced tail (vector / string / lazy-seq cell) comes back as a deferred
  seq, so (rest (iterate f x)) does not call f. next still realizes one.
- iterate applies f lazily, inside the tail thunk, so (first (iterate f x))
  is x with no call to f (clojure.lang.Iterate parity).
- take realizes exactly n: the last element terminates without touching the
  rest, instead of forcing one more element of the source.
- an empty realized lazy seq is still a sequence value, printing "()" not
  "nil" (a JVM LazySeq is never nil).

Also: the map transducer's step fn now takes multiple inputs
([result input & inputs]) so a multi-collection transduce applies f across
all of them. Fixes medley's join/window/sequence-padded laziness and
multi-input transducer tests (now 293/293). The rest change also fixed a
latent overrun in distinct/dedupe over a map's empty tail.

iterate is a seed source, re-minted.
2026-06-26 19:41:02 -04:00
Dmitri Sotnikov
687dc60af6
type returns the JVM class (Clojure semantics) (#244)
(type x) was jolt's internal taxonomy keyword (:string/:set/:jolt/inst), which
breaks any library dispatching a multimethod on [(type a) (type b)] against
java/clojure.lang classes (e.g. clojure.tools.logging.test's matchers). Make the
PUBLIC clojure.core/type Clojure's (or (:type meta) (class x)).

The taxonomy keyword stays the core model: natives-meta.ss keeps jolt-type and
exposes it as __type-tag, which print-method/print-dup dispatch on (so #uuid/#regex/
records still print). The JVM mapping lives in the java host layer — host-class.ss
defines the public type next to (class …), and a jinst now reports java.util.Date
(was :jolt/inst). So the core emits the taxonomy and the java layer remaps it in one
place. unit.edn's type suite updated to the class names. make test green.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 21:14:06 +00:00
Dmitri Sotnikov
6c03dffd00
Class/forName honesty + class/isa? conformance for builtins (#243)
Class/forName claimed every java.*/clojure.* name found (and any "x.y.Class"
matched the registered Class via a short-name fallback), so a library's
(class-found? "optional.Dep") feature-probe always said yes — tools.logging then
tried to build the java.util.logging / log4j backends jolt lacks and crashed.
Resolve forName by exact registry lookup + an honest prefix that excludes the
unbacked optional packages (java.util.logging, javax.management), so the probe
sees them absent and skips the backend.

class of a persistent collection / namespace now reports its JVM class name
(clojure.lang.PersistentHashSet, …Namespace, …) instead of jolt's internal :set/
:object tag, and isa? consults JVM class assignability — Object as every class's
root plus a modeled clojure.lang/java.util hierarchy — so (isa? (class x) C) and a
class-keyed multimethod dispatch like the JVM (e.g. (isa? Keyword Object) was
false). Adds the bare class tokens (Fn/Namespace/Set/…) these dispatch on.

(type x) is unchanged — it keeps jolt's documented internal-keyword form. Six
JVM-certified corpus rows. make test green, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 21:02:44 +00:00
Dmitri Sotnikov
a31c1af8c4
Devirt: cache the resolved impl in a per-site cell (inline cache) (#237)
A devirtualized protocol call resolved its impl with devirt-resolve on EVERY call
— but the tag/proto/method are compile-time constants, so the resolved fn is a
runtime constant (closed world). That per-call find-protocol-method (three
hashtable lookups) was the cost: on mono-dispatch, dispatch was ~75% of the time
(ablation: same arithmetic direct-call 166ms vs dispatch 673ms).

Resolve once. When emitting a direct-link def, each devirt site gets a fresh cache
cell, bound to #f in a let wrapping the def (so it persists across calls and is
shared by every invocation); the site resolves into it on first use ((or cell
(let ((_f (devirt-resolve ..))) (set! cell _f) _f))) and reuses it after — the
inline cache the JVM gets for free. First call still passes the real receiver, so
the Object/host-tag fallback (devirt-resolve) is unchanged.

mono-dispatch 673ms -> 214ms (~3.15x), 47.5x -> ~15x JVM, near the 166ms
direct-call floor. run-devirt.ss gains the cached-path checks (cell present, 1st
call caches + 2nd reuses, both == dispatch). make test / shakesmoke green, selfhost
holds, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 18:34:13 +00:00
Dmitri Sotnikov
f920ff6ea2
Nilable record types + flow-sensitive nil narrowing (#235)
A record-or-nil (a protocol method whose impls return a record in one branch and
nil in another, or an `if` over a ctor and nil) now types as a NILABLE record
instead of widening to :any. A nilable record still bare-indexes its field reads
(jrec-field-at falls back to jolt-get on nil), but some?/nil? do NOT fold on it, so
a runtime guard is preserved — and inside (if (some? x) ..) / (if x ..) the then-
branch narrows x to the non-nil record, so its reads bare-index AND unbox there.

This is what lets the bounced ray type without a hint: scatter returns
ScatterResult-or-nil (Metal absorbs some rays), and the consumer reads
(:ray scattered) only under (if (some? scattered) ..). The narrowing proves
scattered non-nil there.

lattice: :nil type; :nil ∨ struct -> nilable struct, ∨ anything else -> :any;
nilability is contagious through a struct join, which also now preserves :type when
both sides agree (needed so a record ∨ its nilable self stays that record).
truthy-type?/field-type/pred-on treat a nilable struct as maybe-nil. types: nil
literal -> :nil; an `if` whose test is (some? x)/(nil? x)/x narrows the nilable
local x in the proven branch.

Ray tracer with NO hints: 38.4s -> 23.9s (~1.6x) — hit-sphere now types fully
(0 jolt-get, 57 jrec-field-at, 38 fl-ops), identical to the hand-hinted build.

run-narrow.ss gate, incl. the load-bearing check that the nil case still takes the
else branch (the guard is not folded away). make test / shakesmoke green, selfhost
holds, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 17:16:16 +00:00
Dmitri Sotnikov
f124701393
Infer monomorphic protocol-method return types (#234)
A protocol method whose impls all return the same record type has a monomorphic
return. collect-pm-rets! scans the unit's (register-(inline-)method ..) forms,
infers each impl fn's return type, and joins them per method; call-ret-type then
types a (method recv ..) call as that record, so a field read off the result
bare-indexes — e.g. (:ray (scatter m ..)) reads off a Ray. A disagreeing impl
joins to :any and keeps the generic path.

run-protoret.ss: a method with all-record impls bare-indexes + unboxes the field
read; a mixed-return method (one impl returns a number) stays generic. make test /
shakesmoke green, selfhost holds, 0 new divergences.

Foundation for auto-typing record values that flow through protocol dispatch. Does
not yet move the ray tracer: its scatter returns ScatterResult-or-nil (Metal
absorbs some rays), and the nil widens the join to :any — typing a nullable return
soundly needs flow-sensitive narrowing (a guarded (some? x) proves non-nil), filed
separately.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 16:59:35 +00:00
Dmitri Sotnikov
8c9cba44b3
WP: don't let a recursive pass-through poison a param to :any (#233)
The whole-program fixpoint collects a self-recursive call's arg types into the
fn's own params. When a recursive call threads a param straight through unchanged
(same arg, same position — e.g. ray-cast passing `hittables` to itself), that arg's
type is the param's own current type: :any until external callers determine it. And
:any is absorbing, so collecting it pinned the param at :any forever — the type a
caller supplied (a vector of records) was lost, and the fn's field reads stayed
generic.

Skip a same-position pass-through arg in the self-recursion collection (contribute
the join identity). It can't add information — param i ⊇ param i is trivial — so
dropping it is sound; the param is still constrained by every external caller and
by any non-pass-through recursive arg. Applies to both self-recursion paths: a
`defn` recursing through its var, and a named fn literal recursing via its
self-local.

This is why ray-cast's `ray` typed (its recursion passes a fresh ray) but
`hittables` didn't (passed through). With the fix, hittables keeps its
vec<Sphere> element type, so hit-all's reduce element — and hit-sphere's reads —
type without any hint: ray tracer 38.4s -> 31.3s (~1.23x) with no annotations.

run-wp.ss: a recursive fn threading a vec param through keeps its element type.
make test / shakesmoke green, selfhost holds, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 16:29:46 +00:00
Dmitri Sotnikov
4671e1b67e
Unbox ^double record field reads (#231)
A record field tagged ^double now reads back as a flonum and feeds the numeric
pass, so hintless arithmetic over those fields lowers to fl-ops — the leaf-numeric
analog of the ^Vec3 nested-field hints. Combined with the whole-program :double
param inference, a vec3-dot over a ^double-fielded record unboxes end to end with
no per-fn hints.

records.ss: a ^double field tag passes through resolution, and the ctor (and a
mutable-field set!) coerce a ^double field to a flonum — JVM primitive-field
parity (jolt returned an exact 1, not 1.0, before), and what makes reading the
field back as :double sound for an fl-op.

types.clj: field-type-from-tag maps "double" -> :double, and a keyword/get lookup
whose result is :double annotates the node :num-read :double. numeric.clj reads
that annotation and classifies the field read as a :double operand, so the
enclosing arithmetic specializes — the read itself keeps its jrec-field-at/jolt-get
emit.

run-fieldnum.ss gate: ctor coercion (int field -> flonum), field-field arithmetic
emitting fl*/fl+, and an untagged field staying generic. make test / shakesmoke
green, selfhost holds, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 14:43:00 +00:00
Dmitri Sotnikov
8ae45057d6
Hintless whole-program double inference (#230)
The closed-world fixpoint (#226) flowed record types across fn boundaries; this
adds a numeric refinement so a hintless fn whose every call site passes a flonum
has its param unboxed to fl-ops, no ^double hint needed.

Lattice gains :double, a flonum refinement of :num: two doubles join to :double,
a double joined with anything else widens to :num — so a param is :double only
when every contributing value is a flonum, which is what makes the fl-op sound.
infer types a flonum literal and flonum arithmetic (+ - * / min max inc dec over
double/int-literal operands) as :double, and the fixpoint joins those across call
sites and return types like any other lattice value.

The bridge to the existing hint-directed pass is a synthetic [param :double]
nhint: wp-infer! stashes the :double params separately from the structural seeds,
and run-passes injects them as nhints before numeric/annotate, so the fl-op
emission and the exact->inexact entry coercion (a no-op on a proven flonum) apply
unchanged.

Sound subset only: :double, never :long — an untyped integer can be a bignum and
fx-ops would overflow/diverge from jolt's arbitrary precision. So an integer
caller leaves a param generic; an escaped fn (unknown callers) keeps :any.

run-numwp.ss gate: cross-fn :double propagation incl. through a flonum-returning
helper, the integer-caller and escape negatives, and the full run-passes path
emitting fl* + entry coercion. make test / shakesmoke green, selfhost holds, 0
new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 14:18:10 +00:00
Dmitri Sotnikov
e6e3612332
Devirt: fall back to dispatch when the static tag has no direct impl (#229)
The devirtualized protocol call emitted find-protocol-method on the inferred
record tag, but a record can satisfy a protocol via an Object/host-tag default
rather than a direct impl — find-protocol-method on its own tag misses that,
while protocol-resolve walks to the default. So a record relying on
(extend-protocol P Object ...) resolved under ordinary dispatch but applied #f
under devirt and crashed. Closed-world opt builds only; the gate previously
covered just direct inline/extend-type impls so it shipped green.

Emit devirt-resolve, which tries the static tag and falls back to
protocol-resolve on a miss — same fast path, correct regardless of how the
record satisfies the protocol. Mirrors jrec-field-at falling back to jolt-get.
The receiver binds to one temp so it feeds the resolve and the application
without double-evaluating a side-effecting arg 0.

Also widen the whole-program fixpoint to :any on hitting the iteration cap: a
non-converged pre-fixpoint is more specific than the least fixpoint, so seeding
it would be unsound. Not reached in practice (~2 passes); a defensive floor.

run-devirt.ss gains an Object-default case. make test / shakesmoke green,
selfhost holds, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 13:58:23 +00:00
Dmitri Sotnikov
de31221573
Bare-index field reads for statically-known records (#228)
When the inference types a keyword-lookup receiver as a record — it carries the
field-order :shape and :hint :struct from the whole-program fixpoint — the back
end reads the field by its declared slot via jrec-field-at instead of jolt-get.
That skips the jolt-get case-lambda, the dispatch fn, and the field-key
hashtable lookup, leaving a jrec? check + a static-index vector-ref.

jrec-field-at falls back to jolt-get when the receiver isn't the expected record
(a map downgraded by dissoc, or a value the inference mistyped), so it stays
correct if the static type is wrong. Only the no-default form takes the bare
path (a declared field is always present).

Sound only for non-nil records: a self-recursive param that can be nil (e.g.
binary-trees check-tree, whose untagged child is nil at leaves) types :any and
keeps jolt-get — the whole-program fixpoint demotes it. The target is non-nil
record params, like a Vec3 dot product (~5% there; boxed-flonum arithmetic
dominates the rest, a separate numeric lever).

run-fieldread.ss gate: emitted form uses jrec-field-at at the right slot and
matches jolt-get for each declared field; a non-field key and a default-arg form
keep the generic path. make test / shakesmoke green, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 11:29:14 +00:00
Dmitri Sotnikov
af11aaa7ff
Devirtualize monomorphic protocol calls (#227)
When the inference proves a protocol call's receiver is one record type, the
back end resolves the impl by that static tag (find-protocol-method) instead of
routing through the protocol var -> jolt-invoke -> protocol-resolve, which
re-derives the tag and walks the type table. Same table lookup, minus the
var-deref, the rest-cons, and the receiver-type computation.

Fires only on a monomorphic site: a megamorphic receiver joins to :any and
carries no :devirt-type, so it keeps ordinary dispatch (the dispatch bench is
unaffected). The annotation comes from the whole-program fixpoint typing a
reduce/HOF element or a ctor return as a specific record.

Modest on the dispatch benchmarks (~6% on mono-dispatch) — float boxing in the
reduce accumulator dominates there, a separate numeric lever — but it removes
the dispatch overhead wherever a typed receiver is known.

run-devirt.ss gate: emitted form uses find-protocol-method, and evaluating it
matches ordinary dispatch for an inline impl, an extend-type impl, and the
non-devirt path. make test / shakesmoke green, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 11:16:19 +00:00
Dmitri Sotnikov
09712ec575
Whole-program param-type inference (closed world) (#226)
Re-derive each app fn's param types from its call sites under --opt, so a
record type flows across fn boundaries: a ctor's return reaches a callee
param, and a typed vector's element reaches a HOF closure's param. The back
end can then bare-index field reads and devirtualize protocol calls at those
sites (it reads the resulting :hint/:devirt annotations; consuming them is
separate work).

This rebuilds the inter-procedural driver the Janet host had — the API
(infer-body/reinfer-def) survived the rehost but nothing drove it, and the
record-shapes/protocol-methods registries were empty stubs.

- records.ss: populate record-shapes (ctor key -> fields/tags/type, resolving
  nested record field tags) and protocol-methods (method var -> [proto method])
  registries at deftype/defprotocol load time; jolt.host accessors materialize
  them.
- passes/types.clj: wp-infer! runs a closed-world fixpoint joining call-site
  arg types into callee params; reinfer-def re-seeds each def at emit. Self-
  recursive calls and fn-level recur are collected so a recursive fn's params
  are constrained by its recursion, not just external callers — else a param
  the recursion widens (e.g. binary-trees check-tree, whose untagged child can
  be nil) would be unsoundly typed non-nil. A fn used in value position keeps
  :any params (callers unknown). Megamorphic sites join to :any.
- build.ss: analyze all app forms and run the fixpoint before per-form emit.
- run-wp.ss: gate (cross-fn propagation, escape soundness, self-recursion).

make test / shakesmoke green, 0 new divergences, selfhost holds.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 10:57:45 +00:00
Dmitri Sotnikov
93be40f3fe
See through or/and in truthy-elision (#224)
A loop test like (or (>= i cap) (> ... 4.0)) desugars to
(let* [g (>= i cap)] (if (truthy? g) g (> ... 4.0))) and the whole thing was
wrapped in jolt-truthy? because returns-scheme-bool? only looked at :const and
:invoke nodes, not the let*/if an or/and expands to. The wrapper defeats Chez's
branch inlining on the hot loop edge.

Make returns-scheme-bool? recursive over :if (both branches bool), :let (body
bool, tracking which bound locals hold a Scheme boolean), and :local (in that
set). or/and over bool-returning ops then read as Scheme booleans and the outer
wrapper drops. Still sound: eliding only when the value is provably #t/#f — a
jolt-nil is a truthy record in Chez, so a false positive would be a real bug, and
the recursion only proves bool-ness through ops already known to return one.

No bench regression; the win lands on hinted float loops where the branch, not
boxed arithmetic, is the cost.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 06:11:35 +00:00
Dmitri Sotnikov
0a7e818700
Fixed-arity protocol dispatch shims (#223)
defprotocol emitted one variadic (fn [this & rest] (protocol-dispatch P m this
(list->cseq rest))) per method, so every protocol call — even a no-extra-arg one
like (area s) — consed a rest list, wrapped it in a cseq, var-deref'd
protocol-dispatch, and jolt-invoke'd it (consing again). On mono-dispatch that was
2.07GB of allocation, ~65% of the benchmark.

Emit one fixed-arity clause per declared arglist instead. The 1/2/3-param arities
call positional protocol-dispatch{1,2,3}, which resolve the impl (by record tag,
reify method, or host-tag extension — factored into protocol-resolve) and apply it
directly; no rest-list, no seq round-trip. The dispatchN entry points are in the
native-op table so the shim calls bind straight to the records.ss procedures
rather than var-deref. 4+ params fall back to the variadic protocol-dispatch.

mono-dispatch 1.5s/2.07GB -> 0.69s/280MB; dispatch 26x -> 12.2x, mono-dispatch
111x -> 51x vs JVM. 5 new corpus rows pin multi-arity methods, host-type args,
and protocol-method-as-value against JVM Clojure.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 05:57:42 +00:00
Dmitri Sotnikov
8bea1abe12
Native record representation + inline nil?/some? (#222)
Records were a jrec holding an alist of (kw . val) conses: ~113B/node, built
fresh per construction, field reads a list scan. Replace that with a shared
per-type descriptor (tag + field keywords + an eq?-keyed keyword->index table)
plus a flat per-instance value vector and an extension map for any non-field
keys assoc'd on (jolt-nil when there are none). Construction now allocates one
vector instead of a cons chain and a field read is an index lookup. binary-trees
construction allocation drops 2.085GB -> 1.19GB.

That alone barely moved binary-trees wall-time: profiling showed the read loop,
not allocation, dominates, and the read loop's own allocation came from (nil? l)
lowering to (jolt-invoke (var-deref "clojure.core" "nil?") l), which conses its
args every call. Add nil?/some? to the backend native-op table so they inline to
jolt-nil?/jolt-some? (and drop the truthy wrapper, like the other predicates).
check-tree's read loop goes from 1.476GB allocated to zero; binary-trees 18.9x
-> 9.7x vs JVM. The remaining gap is the field-read dispatch chain (jolt-c3mw).

Two JVM divergences fixed along the way, both certified:
- dissoc of a declared field downgrades a record to a plain map (was kept as a
  record); an extension key still drops cleanly.
- map->R keeps extension keys (was dropping anything outside the declared basis).

16 new corpus rows pin assoc/dissoc/count/keys/seq/=/hash/extension-field
behavior against JVM Clojure.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 05:42:24 +00:00
Dmitri Sotnikov
eacfa04e5b
Perf round 1: self-call, keyword interning, fast record field reads (#221)
* Make the benchmark harness build optimized binaries on Chez

bench/run.sh was Janet-era: it invoked a 'jolt' binary and set
JOLT_DIRECT_LINK/JOLT_WHOLE_PROGRAM, none of which exist on Chez, where
'joltc run -m' runs fully unoptimized (direct-link and inline default off). So
the suite was measuring jolt's unoptimized path.

run.sh now compiles each benchmark to an optimized AOT binary (joltc build
--direct-link --opt) and times it against JVM Clojure on the same portable
source, auto-detecting the Chez kernel dev files like build-smoke.sh. Adds
bench/deps.edn so joltc resolves the namespaces, NO_JVM to skip the reference.

mandelbrot.clj dropped its jolt.png require so the JVM reference can run it; the
picture demo moved to mandelbrot_png.clj (jolt-only). README scorecard refreshed
with current Chez numbers and the two-regime read (compute ~8-10x substrate floor;
dispatch/alloc ~120-330x architectural gaps the passes don't touch). Stale
'jolt -m' header lines point at bench/run.sh.

* Emit direct self-calls for named-fn self-recursion

A self-recursive call to a named fn compiled to (jolt-invoke fib ...) instead of
a direct (fib ...): emit-invoke handled a :local callee only when it was NOT a
known proc, so a :local that IS in *known-procs* (the letrec-bound self-name) fell
through to the :else jolt-invoke branch. Now a :local known proc emits a direct
Scheme call — no jolt-invoke, no per-call arg-list consing; case-lambda handles
arity.

fib 30: 63.3ms -> 4.7ms (faster than JVM Clojure's 7.1ms; was 9x slower). The win
is on every self-recursive non-loop fn, including the compiler's own. No semantic
change — selfhost holds, make test green, shakesmoke/buildsmoke byte-identical.

Re-mint (backend is seed). Corpus rows pin self-recursion across fixed/multi/
variadic arities.

* Intern no-ns keywords without per-call allocation

(keyword #f name) built a fresh combined-key string (string-append) on every
call just to do the intern-table lookup — ~80 bytes of garbage per (:kw x), map
literal, keyword arg, etc. A no-ns keyword now interns in a table keyed by the
name string directly, so a lookup of an already-interned keyword is one
hashtable-ref with no allocation. The ns table keeps the combined key; both share
the keyword-t khash (equal-hash of the combined key) so hash values are unchanged.

Small time win on its own (the field-read dispatch dominates hot record code —
see jolt-unx4) but removes per-call keyword allocation everywhere. Runtime .ss,
no re-mint; identity/=/hash unchanged, make test green.

* Fast record field reads: single eq? scan, skip the get-arm walk

(:field rec) / (get rec :field) lowers to (jolt-get rec kw), which walked the
get-arm list to reach the jrec arm, then did jrec-has? + jrec-lookup — TWO linear
scans, each comparing keys through the generic jolt=2 equality dispatcher. Field
keys are interned keywords, so:

- jrec-key=? compares a keyword query by eq? (jolt=2 only for non-keyword keys),
- jrec-ref does ONE scan (vs has?+lookup) and runs a deftype's ILookup valAt only
  when the field is genuinely absent (present-nil still returns nil, not default),
- jolt-get-dispatch checks jrec? first, skipping the get-arm walk for the hottest
  get target. jrec-lookup/jrec-has? (used by =, contains?, etc.) get the fast
  compare too.

binary-trees 135x->18.9x, dispatch 121x->26.4x, mono-dispatch 327x->108x vs JVM.
Runtime .ss (collections.ss + records.ss), no re-mint; make test + shakesmoke +
buildsmoke green, record get/assoc/keys/=/count semantics unchanged.

---------

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 05:00:28 +00:00
Dmitri Sotnikov
f3084f8043
Collection fns: JVM-faithful return types + laziness (#219)
A type-aware audit (~190 collection expressions vs reference Clojure) found four
divergences the corpus missed — value-equality (= [0 1] '(0 1)) hides type and
laziness differences. Fixed, with type-predicate + over-infinite corpus rows that
pin them.

- partition-all [n coll] built vector chunks; JVM chunks are seqs. (The [n step
  coll] arity was already correct, as is the partition-all transducer, whose
  chunks are vectors in JVM too.) Now builds seq chunks.
- replace always returned a vector (mapv) and was eager; JVM is type-preserving —
  a vector maps to a vector, any other seqable to a lazy seq.
- sequence eagerly realized its source (into-xform), so (first (sequence (map inc)
  (range))) hung. Rewrote as a transformer iterator: pull one input at a time,
  buffer the step outputs, emit lazily, run the completion to flush a stateful
  xform. eduction builds on it (lazy, no longer an eager vector).
- mapcat and (apply concat coll-of-colls) hung over an infinite source because
  jolt-apply seq->lists the trailing arg and mapcat seq->lists the map result.
  Added lazy-concat-seq (lazily flatten a seq of colls); mapcat uses it directly,
  and apply special-cases concat (its result is lazy) to route through it.

Docs: a cross-cutting return-type + laziness contract in docs/spec/09-core-library;
SPEC.md notes that = masks type/laziness so they need predicate / over-infinite
rows. EBNF is reader syntax only — unaffected.

Seed change (partition-all/replace/eduction are clojure.core overlay) -> re-mint;
selfhost holds. make test + shakesmoke + buildsmoke green, 0 new divergences.

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-26 03:01:36 +00:00
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
09a9ad8c75 Add bigdec min/max (review follow-up)
Review found (< 1M 2M) worked but (min 1M 2M) threw — incoherent. Wire min/max
the same way as the other ops: value-position jolt-min/jolt-max shims (new in
seq.ss, added to core-value-procs) and call-position via bd-spec/bd-ops ->
jbd-min/jbd-max.

min/max return the original operand by value, not a coerced copy, matching
Clojure: (min 1M 2.0) -> 1M, (max 1M 2.0) -> 2.0, (min 1.50M 2M) -> 1.50M; a tie
keeps the second operand ((max 1.5M 1.50M) -> 1.50M). bigdec mixed with a flonum
in call position stays in the documented :any/contagion gap (value position
handles it). Re-mint; 6 more JVM-certified rows.
2026-06-25 20:22:26 -04:00
Yogthos
6fcc9fa8e6 BigDecimal call-position arithmetic via :bigdec type (Phase 2)
A direct (+ 1.5M 2.5M) emits a raw Chez + that rejects the bigdec record. Rather
than guard every arithmetic call site (measured 2-4x on unhinted fixnum loops),
let the analyzer dispatch where it can prove the type.

jolt.passes.numeric seeds a :bigdec kind from the M-literal and flows it through
let/loop/if like the existing :double/:long kinds; an arithmetic/comparison invoke
whose operands are all bigdec (integer literals allowed) gets :num-kind :bigdec.
The back end (bd-ops + emit-numeric) lowers those to the bigdec.ss engine
(jbd-add/-sub/-mul/-div, jbd-lt?/…, jbd-zero?/-pos?/-neg?, jbd-quot/-rem).

Zero cost on non-bigdec code: with no bigdec literals present the kind never
arises, so emission is byte-identical — the re-mint leaves prelude.ss unchanged,
only image.ss (the compiler) moves. Gaps (filed): a bigdec mixed with a flonum in
call position, and a bigdec the analyzer types :any, still hit the raw op and
throw; use value position or a literal-typed let.

Re-mint (numeric/backend are seed sources). 16 JVM-certified corpus rows.
2026-06-25 19:49:17 -04:00
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
d77fd22bfe Drop the duplicate fresh-sym; clarify group-by-head vs parse-extend-impls
A post-conformance review (chiasmus) flagged fresh-sym defined byte-identically
in 00-syntax and 30-macros; 00-syntax loads first, so the second is redundant.
Also note why deftype uses group-by-head while extend-protocol uses
parse-extend-impls (the latter must treat a computed class type in head position).
No behavior change.
2026-06-25 17:35:18 -04:00
Yogthos
14ce46fb2a defn docstrings, assert throws AssertionError, Seqable covers collections
Conformance gaps surfaced re-running the library suites:

- defn now keeps a leading docstring as :doc metadata — it was dropped, so
  (:doc (meta #'f)) was always nil. Rides the def docstring slot.
- assert (and :pre/:post) throw a real AssertionError instead of an ex-info, so
  (catch AssertionError …) / (thrown? AssertionError …) match, with Clojure's
  "Assert failed: <msg>\n<form>" message.
- instance? clojure.lang.Seqable was conflated with ISeq, so a vector/map read
  as not-Seqable. Split them: Seqable covers every persistent collection, ISeq
  only seqs.
2026-06-25 17:23:24 -04:00
Yogthos
829c251bca Host shims and protocol fixes shaken out by aws-api
Running cognitect aws-api's pure test namespaces (signing/shapes/protocols/
util/retry/endpoints) surfaced general gaps:

- extend-protocol/extend-type accept a computed class type, e.g.
  (Class/forName "[B") for the byte-array class — the byte-array idiom data.json
  and aws-api use. The macro grouping handled only symbol/nil heads (it crashed on
  a list type); type->name resolves a Class value via .getName; a byte-array
  dispatches on the "[B" host tag.
- java.nio.ByteBuffer over a jolt byte-array (wrap/allocate/get/put/array/
  remaining/position/limit/duplicate/flip), plus extend-protocol to it.
- java.util.Arrays (equals/copyOf/copyOfRange/fill) and java.util.Random
  (nextBytes/nextInt/…).
- java.net.URI/create and clojure.lang.RT/baseLoader statics.
- clojure.core.async/promise-chan (deliver-once, peek-don't-pop).
- a failed java.time parse throws DateTimeParseException (typed), so
  (catch DateTimeParseException …) matches it instead of leaking an untyped
  condition.

The XML side lives in the jolt-lang/xml library (libxml2 over jolt.ffi); ByteBuffer
stays in core as a generic java.nio primitive.

Gate: make test green (corpus +6 JVM-certified rows, 0 NEW divergence; unit
553/553; SCI 211).
2026-06-25 16:56:48 -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
5d0989a860 delay exception memoization, deftype cross-protocol method merge, more map-like dispatch
Further clojure.core.cache fixes (198 -> 257 of its assertions):

- delay: a throwing body re-ran on every force and never became realized?. Run it
  once like Clojure's Delay — cache the exception, mark realized, re-throw the same
  on each deref. Fixes value-fn memoization / cache-stampede protection.
- deftype/defrecord: a method name appearing in two protocols with different
  arities (data.priority-map's seq is in IPersistentMap [this] AND Sorted
  [this asc]) registered per-protocol and shadowed; merge clauses by name across
  all protocols into one multi-arity fn.
- empty?/peek/pop (IPersistentStack) dispatch through a deftype's methods; (= a-
  deftype other) uses its equiv method (so caches compare to their backing map);
  seq handles a host iterator (iterator-seq over .iterator).
- pop of an empty PersistentQueue returns it, like the JVM (was an error).

JVM-certified corpus rows. make test + shakesmoke green.
2026-06-25 10:57:31 -04:00
Yogthos
b21b99b275 destructuring :or, fn :pre/:post, deftype field access + map-like dispatch
General fixes shaken out running clojure.core.cache (66 -> 198 of its assertions):

- Map destructuring applied an :or default only for :keys/:strs/:syms, not a
  direct {x :x} binding — so {x :x :or {x 9}} (and the & {…} kwargs form) ignored
  the default. Apply it for the direct binding too.
- fn didn't implement :pre/:post: a leading conditions map was evaluated as a body
  literal (so % was unbound and (.q %) blew up). Recognize it and assert pre
  before the body, bind % to the result, assert post, return %.
- (.q inst) on a deftype field with no matching method reads the field, like the
  JVM (was "No method q").
- A deftype implementing the clojure.lang collection interfaces now dispatches
  dissoc (without), contains? (containsKey), peek/pop (IPersistentStack), and
  keys/vals (via its Seqable seq) through its methods — they were field-only, so
  core.cache's caches and data.priority-map didn't behave as maps.

JVM-certified corpus rows for each. make test + shakesmoke green.
2026-06-25 10:06:33 -04:00
Yogthos
635cab0e49 host interop + deps fixes for running ring-defaults on jolt
Shaken out getting ring-defaults (and its ring-core/anti-forgery/session stack)
to load and serve static resources on jolt. All general fixes, all runtime:

- Class/forName throws a catchable ClassNotFoundException for a class jolt can't
  back (it returned a broken truthy value for any name, and crashed on use). Lets
  the common (try (Class/forName "optional.Dep") (catch ...)) probe libraries use
  to detect an absent dependency work — e.g. ring's joda-time check.
- deps: reconcile native libs (and source roots) in one step, deduped by library
  identity, instead of the ad-hoc distinct at each call site. An app pulling two
  libs that declare the same shared object (libcrypto via both jolt-crypto and
  http-client) now includes and loads it once.
- io: a File answers getProtocol ("file") / getFile so resource-serving
  middleware that expects io/resource to hand back a file: URL works; the
  classloader gains getResources (every source root holding the resource).
- clojure.string/replace accepts a char match/replacement, like the JVM.

JVM-certified corpus rows for the Class/forName and string/replace behavior.
2026-06-25 04:42:35 -04:00
Yogthos
67e642bdfb core.match: regex + array patterns (full support); library-conformance directive
Finishes core.match — its full test suite (115/115) now passes, including the
two patterns the earlier work left out:

- Regex-literal patterns. A #"…" now reads as a regex VALUE (Clojure parity: the
  reader constructs the Pattern, so a macro receives a regex, not jolt's tagged
  form), and the analyzer compiles a regex value to the same :regex IR leaf via
  its source. emit-quoted handles a quoted regex; a regex value carries the
  java.util.regex.Pattern host tag so extend-protocol/instance? dispatch on it.
- Primitive-array patterns. A ^Type hint's :tag is now the SYMBOL (e.g. `ints`),
  matching the JVM, so core.match's array-tag lookup engages the array
  specialization (alength/aget). jolt's :tag consumers already tolerate a symbol
  (hc-cell-num-ret normalizes; tag->nkind/def-meta handle both).

Also: a library-conformance directive in CLAUDE.md, and the supported-libraries
list (docs + site) simplified to one-line entries — a listed library is assumed
to work fully, so no tallies or feature enumerations. core.match + transit-jolt
added to the list.

Seed change (reader/backend/30-macros) -> re-minted; the rest runtime. JVM-
certified corpus rows; the stale `symbol hint -> :tag` divergence is dropped from
the allowlist (jolt now matches the JVM). make test + shakesmoke green.
2026-06-25 00:46:10 -04:00
Yogthos
f5455115a0 deftype/record: clojure.lang collection interfaces + protocol identity
Running clojure.core.match (a macro-heavy library that builds its compiler out
of deftypes implementing clojure.lang interfaces) shook out a cluster of general
gaps. Its own suite goes from not-loading to 111/115 assertions.

- deftype/defrecord implementing a clojure.lang collection interface now drives
  the core fns: Indexed -> nth, Counted -> count, Associative -> assoc, ILookup
  -> get/valAt (non-field keys only, so a method's own field bindings don't
  recurse), ISeq -> seq/first/rest, IPersistentCollection -> conj, IFn -> the
  value is callable. A jrec is still a map of fields by default; the interface
  method wins when declared.

- Multi-arity inline methods are grouped into one fn (a type with (nth [_ i]) and
  (nth [_ i x]) kept only the last before). Built as data, not a nested
  syntax-quote, so a `(= ~ocr ~l) method body keeps its unquotes.

- instance?/satisfies? recognize a protocol a type implements, including a MARKER
  protocol with no methods (core.match's IPseudoPattern) — deftype/defrecord now
  record protocol satisfaction even with zero methods. Added ILookup/Indexed/
  Counted to the instance? taxonomy for the built-in collections.

- Syntax-quote: a fully-qualified class name (clojure.lang.ILookup) stays bare
  instead of being namespace-qualified; (unquote x) is detected in a lazy seq
  (a macro that builds its template with map, e.g. deftype's rewrite-set).

- clojure.set union/intersection/difference are variadic (& sets) + union 0-arity.
- java map view methods: keySet/values/entrySet/size/isEmpty.
- deprecated java.util.Date getters (getYear/getMonth/...) + the multi-arg
  (Date. year-1900 month0 date hrs min) constructor.

Seed change (deftype/defrecord macros + clojure.set) -> re-minted; the rest are
runtime. 11 JVM-certified corpus rows; make test + shakesmoke green.
2026-06-25 00:14:19 -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
a05eeefb08 java.time Phase 3: zones, offsets, ZonedDateTime, formatters — tick runs
ZoneOffset/ZoneId (SHORT_IDS, fixed-offset + UTC + system; named zones via a
fixed-offset table), ZonedDateTime/OffsetDateTime/OffsetTime, Clock (fixed/
system, with now [clock] arity), and DateTimeFormatter integration (ofPattern
+ ISO_* constants, .format/.parse over the rich java.time values via the
inst-time.ss pattern engine). systemDefault resolves to UTC to keep the
#inst atZone/toInstant round-trip machine-tz-independent.

tick.core + tick.protocols + tick.locale-en-us load; tick's api_test runs
31 tests / 352 pass / 7 fail / 0 error. The 7 are host gaps: named-zone DST
(no tzdb), French locale month names (no locale DB), nanosecond Instant.

General fixes surfaced by tick: :ns/keys map destructuring ({:tick/keys [..]})
in 00-syntax.clj (re-minted), and extend-protocol to java.time classes
(records.ss host-type-set). 12 corpus rows certified vs JVM. make test +
shakesmoke green, selfhost holds, 0 new divergences, data.json stays 138/139.
2026-06-24 18:45:46 -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