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.
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.
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.
map-ir-children single-sourced the child layout for rewrite passes; the read-only
analyses each re-enumerated ops by hand. Add a fold companion, reduce-ir-children,
and rebuild body-size, pure?, and body-closed? on it (each reduces to a leaf value
+ the special ops it actually needs). local-escapes? stays an explicit walk — its
default is conservatively true and it inspects node shape beyond child purity, so
folding an unhandled op over its children would be unsound for scalar replacement.
Round 1 (correctness + dead code):
- Fix duplicate java.util.HashMap registration in host-static.ss: the alist
impl shadowed the hashtable ctor while leaving the hashtable methods bound,
so .keySet/.values/.remove/.clear crashed. Drop the alist version.
- Delete jolt-core/jolt/reader.clj: a 463-line dead duplicate reader, never
required or compiled (the live reader is host/chez/reader.ss) and drifted.
- Remove dead defs: ir/rt + :rt op + unused ir/op; the Janet branch in
clojure.edn/drain-reader; a shadowed first clojure.string/trim-newline;
io.ss jolt-char-array + the reader def-var (both shadowed by natives-array);
concurrency.ss jolt-future-done?*; compile-eval.ss jolt-analyze-emit.
Round 2 (perf + determinism):
- emit-quoted-map-value / quoted sets now emit sorted by emitted text instead
of host-hash order, which isn't stable across Chez versions (jolt-8479).
- jolt-into folds through a transient, so into/vec/mapv/filterv onto a vector
are O(n) instead of O(n^2).
- deps resolve-deps walks its queue with an index cursor (was subvec-per-pop).
- async channel and agent action queues use amortized-O(1) FIFOs; ArrayList is
backed by a growable vector (O(1) add/get) instead of a list.
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.
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.
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.
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.
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
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.
(.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.
Six bottom-up IR rewrites (const-fold, inline-node, subst, flatten-lets,
subst-lookup, scalar-replace) each hand-listed every op's child positions —
~250 lines of identical "recurse children, rebuild" arms that had to be kept in
sync whenever an op was added. Extract one map-ir-children into ir.clj that
knows each op's child layout; each walk keeps only its genuine specials
(const-fold's invoke/if, inline-node's invoke, subst's local/let alpha-rename,
scalar-replace's invoke/let folds) and delegates the rest.
The combinator is total over the op set, so the walks are now total too: a
couple soundly gain coverage they previously skipped (const-fold now folds
inside :try; subst-lookup now recurses :def inits, which fixes a latent dangling
ref where a dropped const-key-map binding was referenced inside a def). These
are sound — all six are result-preserving optimizations — and 3-mode conformance
+ fixpoint confirm identical program behavior.
map-ir-children is shape-preserving for :try (recurses :catch-body/:finally only
when present, never assoc's nil) so it can't turn a struct node into a phm.
Written with cond/get only, matching the passes' tier, so no new load-order dep.
Predicates (body-closed?/pure?/local-escapes?), the type-threading infer, and the
Janet backend emit stay as-is: their conservative :else defaults / [type node]
threading / host language don't fit a node-rebuilding combinator.
Adds ir-passes-test coverage for folding reaching fn/loop/try bodies. Full gate
green (conformance x3, suite >=4695/88, fixpoint stage1==2==3, inline-sra + devirt).
* core: Stage 2 Task 2 tier 2a — compile defprotocol/extend-type/extend-protocol
Applies the proven enabler: stateful primitives become per-ctx closures
captured over ctx, interned in clojure.core (install-stateful-fns!), so
they resolve + compile as plain :var invokes and work for deferred calls.
- protocol-dispatch / register-method: extracted from the interpreter
special handlers into ctx-taking impls (protocol-dispatch-impl /
register-method-impl) + interned as ctx-capturing clojure.core fns.
Removed their special-symbol? entries + handler arms, and dropped them
from host_iface special-names + compiler uncompilable-heads.
- defprotocol/extend-type/extend-protocol macros now pass the protocol/
method/type NAMES as strings (not symbols), so the emitted calls compile
as ordinary invokes; removed the three macros from special-names so the
analyzer expands+compiles them instead of punting to the interpreter.
- Both interpreter and compiled paths now call the same ctx-capturing
closures (one dispatch implementation, no special-form duplication).
reify/make-reified deferred to tier 2b (map-eval shape); defrecord waits
on deftype (tier 5).
Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, clojure-test-suite >=4034/67,
features 78/78, all unit + spec (protocols 7/7, multimethods 9/9).
* core: Stage 2 Task 2 tier 2b — compile reify (make-reified as a fn)
Completes the protocol machinery: make-reified joins protocol-dispatch/
register-method as a ctx-capturing clojure.core fn (install-stateful-fns!).
- make-reified-impl takes the EVALUATED {keyword fn} method map (a phm when
compiled, struct/table when interpreted) and builds the reified object.
- reify macro passes the protocol NAME as a string; method map is an ordinary
map literal evaluating to {keyword fn}.
- Removed make-reified's special-symbol? entry + handler arm, and dropped
make-reified + reify from host_iface special-names + compiler
uncompilable-heads.
reify now compiles and dispatches in both modes (single- and multi-method).
With tier 2a, the full protocol surface (defprotocol/extend-type/
extend-protocol/reify) compiles; defrecord still waits on deftype (tier 5).
Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, clojure-test-suite >=4034/67,
features 78/78, all unit + spec (protocols 7/7x3).
* core: Stage 2 Task 2 tier 3 — compile (var x) + binding
binding keys its thread-binding frame on var cells via (var x), so it
needed (var x) to compile. Added a the-var IR node that emits the embedded
var cell itself (vs var-ref, which derefs):
- ir.clj: the-var node.
- analyzer: 'var' added to handled; analyze-special resolves the symbol to
its var and emits the-var (uncompilable for a non-var, matching Clojure).
- backend: :the-var emits (quote cell) — the exact per-ctx cell var-get
keys on, so a compiled binding overrides + restores correctly.
- removed var from loader stateful-head? + host_iface special-names, and
binding from special-names so it expands+compiles.
Dynamic binding now compiles end-to-end (override/restore, and a compiled
fn reading the dynamic var under the binding) in both modes.
Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, clojure-test-suite >=4034/67, features 78/78,
all unit + spec (state/metadata).
---------
Co-authored-by: Yogthos <yogthos@gmail.com>
adds self-hosted compiler is functionally:
- The default compile path is the portable pipeline using jolt.analyzer (Clojure) → host-neutral IR → backend.janet.
- The analyzer is itself Clojure, compiled by jolt for true self-hosting.
- bootstrap-fixpoint passes (stage1 == stage2 == stage3): rebuilding the compiler on its own output.
- clojure.core is now self-hosted in the overlay.
- Stateful forms (defmacro/ns/deftype/defmulti/require/in-ns) are interpreted by design.