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16 commits

Author SHA1 Message Date
Yogthos
d79642b844 Devirtualize monomorphic protocol calls
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.
2026-06-26 07:12:32 -04:00
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
Yogthos
e0c1564ff9 Tree-shake: count #'x references; multi-app soundness smoke
Two things, both from studying Stalin's closed-world DCE:

1. Soundness fix: dce-collect-refs now counts a :the-var (#'x / (var x)) reference,
   not just a :var. Stalin's rule is that ANY reference — value position, not only a
   direct call — keeps the target live; a var referenced as #'x would otherwise be
   wrongly dropped. (My :var collection already covered value-position refs; this
   closes the the-var hole.)

2. host/chez/tree-shake-smoke.sh (make shakesmoke): builds example apps default vs
   --tree-shake and requires identical output — the real risk is shaking a binary
   that pulled libraries via deps.edn. Covers markdown/malli/commonmark/hiccup
   (git-lib apps). All produce byte-identical output shaken vs not, and drop
   ~0.8-1MB (malli 10.0MB -> 9.0MB) from the compiler-drop. Slow; not in the default
   gate. Skips without the examples repo.
2026-06-23 20:27:21 -04:00
Yogthos
79fa22eeab Enable IR inlining: splice small defns at call sites (lever 1/4)
jolt.passes.inline was fully written but dormant — it fetched bodies via the
inline-ir host hook, which was a stub returning nil. Wire it up: run-passes stashes
each inline-eligible defn (single fixed arity) as its form is optimized, and
inline-ir hands the body back at call sites under --opt.

The catch was the ^double/^long coercion: an inlined fn drops its param-entry and
return coercion, so (work 3 4) on a ^double fn would return 25 instead of 25.0. New
:coerce IR node carries the coercion inside the spliced body — the inline pass wraps
a hinted param's arg and the return in :coerce, the back end lowers it
(exact->inexact / jolt->fx), and jolt.passes.numeric reads its :kind. So an inlined
call matches the called one and the body's fl*/fx* fast path still fires.

Only under --opt (closed world); the seed mint and -e don't inline, so selfhost and
the corpus are unaffected. test/chez/inline-test.ss 12/12 (make inline); full make
test green, 0 new corpus divergences.

Bench (hot loop, body is a ^double helper call): direct-link 500ms -> --opt
(inlined) 184ms = 2.7x, by eliminating the call + coercion wrappers and letting Chez
fuse the fl-ops unboxed. ~26x over the default dispatched build.
2026-06-23 17:43:13 -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
7bc277b2e8 Direct-linking for closed-world builds (jolt build)
A release/optimized `jolt build` is a closed world: every app def is final, so
an app->app call can bind to the def's Scheme binding directly instead of going
through (jolt-invoke (var-deref ns name)).

The emitter gains a direct-link mode (off for the seed mint, runtime -e/repl, and
dev builds). With it on, a top-level app def also emits a binding jv$<ns>$<name>
that def-var! aliases; an app->app call or value-ref to a name already emitted in
the unit lowers to that binding, skipping both the var-table lookup and the
generic IFn dispatch. ^:dynamic/^:redef defs and nested defs (a defonce's inner
def) opt out and stay indirect. Off direct-link mode, emit-top-form is exactly
emit, so the seed and runtime eval are byte-unchanged (selfhost holds).

build.ss turns it on for release + optimized; the defined-set accumulates across
the dependency-ordered namespaces so a dep's defs are linkable by the time the
entry that calls them is emitted. App->core calls stay indirect for now (core is
the baked seed); that's a later stage.

~1.74x on a hot cross-namespace call loop (26.5s -> 15.2s).
2026-06-23 15:51:34 -04:00
Yogthos
9c5e46e91b Add inference gate (jolt.passes.types)
The corpus/unit gates compile through run-passes' const-fold-only branch, so
the type-inference walk runs only under jolt build --opt — buildsmoke hit one
trivial app and checked stdout. run-infer.ss drives the pass directly: analyze
a source string, then call check-form / infer-body / the set-*! registries and
assert diagnostic counts and collected calls/escapes. Wired into make ci.

Gives the inference pass real behavior coverage so refactoring its internal
state is gate-validatable. jolt-ogib.10 groundwork.
2026-06-23 09:11:21 -04:00
Yogthos
43778eafd7 jolt build: compile an app to a standalone binary (Phase 4 stages 1-2)
Restores the standalone-binary capability the Janet host had. `bin/joltc build
-m NS -o OUT` AOT-compiles an app into a single self-contained executable — the
whole runtime, clojure.core, stdlib and compiler embedded, no Chez install or
jolt source needed at runtime.

Pipeline (host/chez/build.ss, host primitive jolt.host/build-binary driven by
jolt.main's build command): resolve deps, load the entry namespace recording the
app namespaces in dependency order, re-emit each to Scheme, textually inline the
cli.ss runtime load sequence into one flat source + the app + a launcher, then
compile-file -> make-boot-file -> embed the boot as C bytes -> cc-link against
libkernel.a.

Two non-obvious bits: the compile pass runs in a fresh Chez, not the loaded
runtime (regex.ss shadows top-level `error`, which otherwise bakes a broken
reference into the boot); and the launcher installs scheme-start rather than
running -main at top level, since boot top-level forms execute during heap build
before argv is set, so args only reach -main through scheme-start.

Loader: a require of an in-memory namespace with no source file now no-ops, so
AOT'd app namespaces satisfy require in a built binary.

Mode flags (--opt/--dev, default release) are plumbed; the optimization passes
they gate come in a later stage. RFC 0007 has the design. Gated by `make
buildsmoke`.
2026-06-22 23:01:36 -04:00
Yogthos
b7bd144321 Remove built-in jolt.http.server (ring-janet-adapter library replaces it)
The HTTP server moves out of the host into the jolt-lang/ring-janet-adapter
library, which binds sockets itself via jolt.ffi and shuts down cleanly. Drop
host/chez/http-server.ss and the obsolete ffi-server-test (the FFI collect-safe
path is covered by ffi-binding-test; the server by the adapter's own CI).
2026-06-22 12:19:04 -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
fe3fdf6b9c Transients: mutable backing instead of copy-on-write
The Chez port had landed transients as copy-on-write — each conj!/assoc!/etc.
rebuilt the whole persistent collection. Semantics were right but a transient
vector was O(n^2) to build (the persistent vector is a flat array, so every
conj! copied it); maps/sets were ~O(n log n) since the HAMT only path-copies.
This restores the Janet host's approach: true mutable backing, snapshot once on
persistent!.

  vec : a growable Scheme vector (capacity + fill count); conj!/pop! amortized
        O(1), persistent! hands off the buffer (exact fit) or trims once.
  map : a Chez hashtable keyed by key-hash/jolt= (value equality, nil-safe);
        persistent! folds it into a pmap.
  set : a Chez hashtable; persistent! folds into a pset.
  cow : fallback for anything else (e.g. a sorted coll) keeps the old
        copy-on-write path, preserving jolt's superset.

get/count/contains?/nth see through each representation. Building a 400k vector
went from minutes (quadratic) to ~50ms (linear). assoc! keeps the variadic
dangling-key nil-pad on both vectors and maps. test/chez/transient-test.ss pins
the invariants and the linear-time property; wired in as `make transient`.
2026-06-22 08:38:22 -04:00
Yogthos
6f433a1b3c Make blocking socket FFI collect-safe; fix http-client temp-file race
Two thread-safety bugs in the native FFI layer.

The HTTP server's accept/recv/send were plain foreign-procedures. A thread
inside a foreign call stays active for the stop-the-world collector, so the
accept loop sitting idle in accept() froze GC for the whole process whenever
another thread (a future, an async block) allocated. Mark the three blocking
calls __collect_safe so the thread deactivates for the call's duration —
collection proceeds while the accept thread waits. The args are an fd and
foreign-alloc'd buffers (outside the Scheme heap), so a collection mid-call has
nothing to move.

jolt.http-client built its -D header-file path from an unguarded (set! counter
(+ counter 1)) and counter mod 90000, with no per-process component. Concurrent
requests could compute the same path and clobber each other's headers. Use a
mutex-guarded monotonic counter plus the pid.

test/chez/ffi-server-test.ss exercises both (a (collect) while the server is
idle in accept(), temp-path uniqueness across threads, and a live request) and
is wired into the gate as `make ffi`.
2026-06-22 08:12:53 -04:00
Yogthos
9ca30a236d CI runs behavior gates; self-host fixpoint is dev-only (jolt-8479)
The self-host byte-fixpoint (make selfhost) only holds on the Chez that minted
the seed — CI's Debian Chez emits byte-different output for some constructs
(isolated to the dedupe re-mint), so it failed there. The checked-in seed RUNS
correctly on any Chez, so CI now runs 'make ci' (corpus/unit/smoke/sci/certify);
'make test' keeps selfhost for local dev. Cross-version emit determinism tracked
in jolt-8479.
2026-06-21 15:46:40 -04:00
Yogthos
017a1bc8c4 SCI conformance gate (pure Chez)
Re-port the SCI compatibility stress test to joltc: host/chez/run-sci.ss loads
borkdude/sci's own source (vendor/sci, re-vendored) through the spine and
requires its forms to compile+eval. Floor-gated at 160/218 forms (the tail is
genuine host gaps — set! on vars, some macro/def shapes); raise as they close.
Wired into 'make test' (skips if the submodule isn't checked out).

jolt-cf1q.6
2026-06-21 12:06:18 -04:00
Yogthos
58d03d67be Delete the Janet host — Chez is the sole substrate
Remove the Janet seed (src/jolt/*.janet: reader, value layer, vars/ns, the
tree-walking interpreter, the Janet backend, the optimizing compiler), the
Janet->Scheme cross-compiler (host/chez/{driver,emit,jolt-chez}.janet),
bin/jolt-chez, the jpm build (project.janet) and the Janet test runner
(run-tests.janet), plus the entire Janet test suite. jolt now builds and runs
on Chez alone: bin/joltc off the checked-in seed, bootstrap.ss to rebuild it.

The portable Clojure stays: jolt-core/**, host/chez/**.ss, and the stdlib +
tooling under src/jolt/clojure + src/jolt/jolt (read by the seed build, no
Janet). The gate is 'make test' (self-host, corpus, unit, cli smoke, certify).
Drop the sci and clojure-test-suite submodules (used only by deleted Janet
integration tests); irregex stays.

Filesystem corpus/unit cases that probed project.janet now probe README.md.

jolt-cf1q.6
2026-06-21 11:29:03 -04:00
Yogthos
5c1fdfc336 Pure-Chez test gates (no Janet)
Add a Janet-free gate so correctness can be judged with only Chez + Clojure:
- host/chez/run-corpus.ss: corpus.edn vs JVM expecteds, lifting the per-case ns
  isolation from the old Janet driver; reads corpus.edn via the jolt reader.
- host/chez/run-unit.ss + test/chez/unit.edn: the host-specific unit cases,
  evaluated in-process and compared to baked expecteds.
- host/chez/selfcheck.sh: self-host fixpoint (bootstrap.ss rebuild == checked-in seed).
- host/chez/smoke.sh: real bin/joltc CLI smoke.
- host/chez/remint.sh: re-mint the seed to a byte-fixpoint after a source change.
- Makefile: 'make test' runs the lot; 'make remint' rebuilds the seed.

Numbers match the Janet gate: corpus 2679/2757 0 new div, unit 450/450, certify
0 new/0 stale.

jolt-cf1q.6
2026-06-21 11:22:32 -04:00