Commit graph

32 commits

Author SHA1 Message Date
Yogthos
403c3f302f Clojure 1.13 parity: req!, checked-keys destructuring, keyword array maps
Bring the language up to the 1.13.0-alpha1 changes that apply off the JVM:

- req! (CLJ-2949): a get-variant that throws "Expected key: k" on a missing
  key, without nil-punning. The primitive behind checked destructuring.
- Checked-keys destructuring (CLJ-2961): :keys!/:syms!/:strs! bind and throw
  when a key is absent; keys after & are declared-only (required for the !
  variants, accepted otherwise) and create no binding.
- & is no longer a legal local binding in let/loop (CLJ-2954).
- Keyword-only array maps grow to 64 entries before going hash (was 8),
  across the literal, assoc, and transient paths, so the common keyword map
  keeps insertion order up to 64.

Skipped CLJ-2891 (JVM __init bytecode, JVM-only). 1.13 is still alpha, so
this tracks alpha1 and may shift. Regression tests in test/chez/unit.edn
(ahead of the JVM 1.12.5 the corpus certifies against). Seed re-minted.
2026-07-04 10:18:51 -04:00
Yogthos
b4d9eaa527 Read an unknown #tag as a tagged-literal value
An unknown reader tag produced the reader's internal form
{:jolt/type :jolt/tagged :tag :#foo :form bar}, which tagged-literal? didn't
recognize and which leaked as a raw map when printed:

  (tagged-literal? (read-string "#foo bar"))  => false   ; want true
  (pr-str (quote [#foo bar]))                 => "[{:jolt/type :jolt/tagged ...}]"

Both the data path (rdr-construct-tag) and the compile path (emit-quoted) now
build a real tagged-literal for a tag with no registered reader, like Clojure's
*default-data-reader-fn*, so tagged-literal? / :tag / :form / printing all work.
clojure.edn reads raw forms through a separate __read-form-raw path and applies
:readers/:default itself, so it is unaffected.

Re-mint (backend + reader are seed sources); prelude byte-identical, image only.
make test green (selfhost holds, 0 new/stale), +2 unit rows.
2026-07-01 16:17:52 -04:00
Yogthos
77e80dab9c Fix six JVM divergences surfaced by rewrite-clj
Running the rewrite-clj test suite under jolt exposed six bugs, each fixed here:

- `for`/`doseq` `:let` bindings never went through `destructure`, so a
  destructuring pattern (`:let [{:keys [y]} x]`) hit `let*` raw and failed to
  compile. Emit `let`, like Clojure.
- `with-open` couldn't close a deftype/defrecord that implements a `close` method
  (java.io.Closeable / AutoCloseable, e.g. tools.reader's readers) — `__close`
  only knew jhost readers and map `:close` fns. Dispatch a record's `close`.
- A deftype/defrecord method param named like a field didn't shadow the field
  (the field's let-binding wrapped the params). Params now shadow, as in Clojure.
- A deftype whose simple name collided with a built-in host class clobbered it in
  the global ctor table, so `(java.io.PushbackReader. …)` built tools.reader's
  same-named deftype. Register deftypes/built-ins by FQN, don't let a deftype
  overwrite a built-in's simple name, and qualify a bare `(Name. …)` to the
  deftype's FQN only in the ns that defined it.
- `clojure.walk` was lazy over a non-list seq (missing `doall`), so a walk whose
  fn has side effects read stale state. Make it eager, like Clojure.
- `Character/isWhitespace` used an ASCII-only check that missed U+2028 and other
  Unicode whitespace. Use the JVM's Unicode set (minus the no-break spaces it
  excludes).

Regressions: corpus rows (for-let destructure, method-param shadow, walk eager,
isWhitespace), a unit row (with-open closes a record), and smoke checks (the
class-name collision, run in a fresh -e process so the deftype doesn't leak).

One divergence remains unfixed: a submatch from a losing regex alternation branch
leaks when the winning branch has a quantified group (a bug in the vendored
irregex engine, not jolt) — tracked separately.
2026-07-01 12:25:05 -04:00
Yogthos
b879430618 seq fns are lazy by default, like Clojure (LazySeq, not eager-headed)
map/filter/remove/take/drop/concat/take-while/drop-while/mapcat/partition
built an eager-headed cseq: the first element (and the fn application) ran
at construction, so a side-effecting (map f coll) fired f immediately and
(class (map …)) was PersistentList instead of LazySeq. This diverged from
Clojure, which wraps the whole body in lazy-seq. It went unnoticed because
the conformance gate certifies values, not realization — eager and lazy
heads produce identical values — and unit.edn even baked PersistentList in
as expected. test.check's for-all-takes-multiple-expressions (which counts
side effects in a for-all body) exposed it.

Wrap each native producer's result in a lazy-seq node so the body, incl.
the first element, defers until forced — the forced cseq still has eager
heads, so reduce/count/dorun/etc. force on walk and there's no per-element
cost. dedupe's (seq coll) is moved inside its lazy-seq. A jolt LazySeq is
now recognized by coll?/empty, the analyzer's form predicates (a macro can
build its expansion with map), value-host-tags + instance? (LazySeq/ISeq/
Sequential), and reports clojure.lang.LazySeq.

Kept the native Scheme implementations rather than porting Clojure's: a
straight lazy-seq+cons port is 3x slower and Clojure's chunked fast path is
288x slower because jolt's chunk machinery is unoptimized (filed jolt-j9dz);
the wrapped natives are Clojure-lazy at native speed.

+12 corpus rows (laziness at construction, LazySeq type, both JVM-certified).
make test + shakesmoke green, selfhost holds, 0 new divergences.
2026-06-28 00:16:47 -04:00
Yogthos
0becba7f93 A fn def'd into a var reports a JVM-style class name (clojure.core$odd_QMARK_)
jolt fns reported (class f) = clojure.lang.IFn, so they carried no defining
symbol — clojure.spec.alpha's fn-sym (which reads a fn's class name to recover its
symbol) produced garbage, so explain-data's :pred for a bare-fn predicate was `/`
instead of e.g. clojure.core/keyword?.

Now def-var! records proc -> (ns . name) (first def of a proc wins, so an alias
like (def inc' inc) doesn't rename inc), and jolt-class-name returns "ns$munged"
for a known fn — matching the JVM, where (class odd?) is clojure.core$odd_QMARK_.
A munged fn class's ancestors include clojure.lang.AFunction's hierarchy
(IFn/AFn/Fn/Runnable/Callable), so (ancestors (class f)) still holds. Anonymous /
unregistered fns stay clojure.lang.IFn (fn-sym yields :unknown, as on the JVM).

This fixes explain-data / s/form / s/describe of bare-fn predicates in
clojure.spec.alpha (and unblocks parts of its suite + test.check's reporter test).

make test green (+1 corpus row, the (type inc) unit row updated to the JVM value),
shakesmoke byte-identical, runtime only (no re-mint).
2026-06-27 21:03:12 -04:00
Yogthos
f46772d576 fd subsystem: instance? name-boundary + ~ reads as clojure.core/unquote
Two general fixes that clear core.logic's finite-domain -difference, safefd, and
the defne quoted-list patterns (form->ast), taking the suite to 532/5/0.

- instance? on a deftype matched a simple type name against the qualified tag by
  raw string suffix, so "a.b.MultiIntervalFD" tested true for IntervalFD. The
  suffix must land on a "." boundary. core.logic's fd dispatches on
  (interval? x) = (instance? IntervalFD x), and a MultiIntervalFD wrongly counted
  as an interval, so -difference/safefd computed the wrong set.
- the reader reads ~ / ~@ as clojure.core/unquote(-splicing), like the JVM reader,
  instead of a bare unquote. Code that inspects quoted pattern/template data —
  core.logic's defne checks (= f 'clojure.core/unquote) — now sees the symbol it
  expects, so '(fn ~args . ~body) patterns compile. hc-head-is? accepts the
  qualified head in syntax-quote lowering; the value-preserving change leaves the
  minted seed byte-identical.

corpus.edn: 2 JVM-certified unquote rows. unit.edn: two reader rows updated to the
qualified unquote. make test + shakesmoke green, 0 new divergences, self-host holds.
2026-06-27 11:22:01 -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
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
5cd8d15ae7 A set literal reaches a macro as a set value
#{...} reads as the tagged set-form for the analyzer, but a macro saw that
map instead of a set (set? false / map? true, unlike a vector). hc-expand-1
now converts a set-form argument to a real set before calling the expander, so
(set? arg)/conj/seq work — hiccup's compiler introspects a literal set this way
(str (html #{"<>"}) was empty, now #{&quot;&lt;&gt;&quot;}). Elements stay as
read; a deeply-nested set literal inside another form is left for the analyzer.
hiccup 382->383. Jolt-side unit guards (macro def+use in one form isn't
JVM-portable).
2026-06-26 22:42:19 -04:00
Yogthos
3dc5de91e5 Fix map? for a deftype implementing IPersistentMap
The deftype-is-not-a-map change (#245) gated map? on jrec-record?, so only a
defrecord was map?. But a deftype that implements clojure.lang.IPersistentMap is
map? on the JVM — clojure.core.cache's caches are exactly that, and its TTL
factory asserts (map? base) on an LRUCache passed as the base (its suite went
1314 -> 2 errors). map? now also covers a deftype whose without/dissoc method is
registered — the IPersistentMap-distinctive op a vector or set lacks. An opaque
deftype (RawString) stays non-map?; a defrecord stays both. Guards added to
unit.edn (jolt-side: a full IPersistentMap impl will not compile on the JVM
corpus oracle).
2026-06-26 21:37:32 -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
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
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
c26fd175f2 read-string constructs sets; format %x lowercase; extend/extends? on nil
read-string/read now return real sets for #{...} literals (top-level and
nested) instead of the reader's {:jolt/type :jolt/set} form — the data
seams convert set forms to sets (recursing, preserving metadata and source
map-key order); clojure.edn already did this. The compiler keeps reading
via the raw reader, so set literals in code stay forms the analyzer lowers.

format %x now emits lowercase hex (Chez number->string is uppercase); %X
unchanged.

extend and extends? handle a nil target type (host tag "nil"), matching
extend-type — protocols can be extended to nil via the function form, not
just the macro.

Found porting transit/data.json and shaking out aero.
2026-06-24 14:03:47 -04:00
Yogthos
6d56982abe Auto-resolve ::keywords; honor clojure.edn reader opts
The reader dropped the namespace on ::kw (read ::foo as :foo), so auto-resolved
keywords never matched their qualified form — code that round-trips them (spec
keys, aero's :aero.core/* expansion keys) silently broke. Resolve ::name against
the current ns and ::alias/name through the alias table, as Clojure does. The
runtime loader reads form-by-form with the ns set after the ns form; the
cross-compile reads all forms up front, so ei-emit-ns*/ei-emit-ns-records set the
ns before reading.

clojure.edn/read over a reader discarded its opts map — :readers/:default/:eof
were ignored, so a custom :default never saw the tag. Route the reader arity
through read-string so opts apply, and pass the tag to :default as a symbol (not
the internal :#name keyword), matching Clojure.

Seed re-minted (the ::halt transducer key in clojure.core now reads as
:clojure.core/halt). Corpus gains ::-keyword rows; the unit case that asserted the
old ns-dropping behavior now asserts the qualified result.
2026-06-24 09:13:14 -04:00
Yogthos
980ec73933 Real Thread/yield + Thread/interrupted (jolt-l2gc)
Thread/yield was a no-op and Thread/interrupted always returned false. Now:

- yield calls libc sched_yield (resolved once via the process symbols), so a
  spin loop relinquishes the CPU. Falls back to a zero-length park if the symbol
  can't be resolved.
- each OS thread carries an interrupt flag (a box, thread-local). currentThread
  returns a handle wrapping the calling thread's flag, so .interrupt from another
  thread sets the target's flag. .isInterrupted reads without clearing; the static
  Thread/interrupted reads and clears — JVM semantics.

Consolidates the Thread surface: currentThread + the instance methods live in
io.ss (where the handle and its classloader are built), the flag box + yield +
the interrupted static in host-static.ss. Unit cases cover yield, the read/clear
split, and a cross-thread interrupt over a future.
2026-06-23 00:06:04 -04:00
Yogthos
c18f8087f0 Real nREPL interrupt + thread-local *ns* (jolt-amzy, jolt-6rld)
Two nREPL divergences the library shakeout surfaced — both have a real host
mechanism on Chez.

Interrupt (jolt-amzy): Chez's engine timer (set-timer + thread-local
timer-interrupt-handler) is polled at procedure-call / loop back-edges, so a
running computation — even a tight loop — can be aborted from another thread.
concurrency.ss adds jolt.host/{make-interrupt, interrupt!, run-interruptible}: an
interrupt token is a shared box; run-interruptible arms a periodic timer whose
handler escapes (call/cc) when the token is set, throwing {:jolt/interrupted true}.
The eval thread is reused, not abandoned. (A thread blocked in a __collect_safe
foreign call only sees it on return — like the JVM not killing native code.)

Thread-local *ns* (jolt-6rld): chez-current-ns is now a Chez thread-parameter, so
each session worker / future has its own current ns (vars stay global, only the
pointer is per-thread). *ns* reads derive from it (dyn-binding.ss), and a bound
*ns* drives chez-current-ns — so (binding [*ns* the-ns] (load-string code))
resolves against the-ns, and concurrent in-ns across threads don't clobber each
other. Single-threaded behaviour is unchanged. All runtime .ss — no re-mint.
2026-06-22 18:57:16 -04:00
Yogthos
f30a517cf7 Conformance: reify falls back to a protocol's default extension (jolt-az9a)
A reify that doesn't implement a given protocol method now dispatches to that
protocol's extended impls over the reify's host tags (e.g. an Object/default
extension) instead of erroring 'No reified method'. This is malli's pattern: it
reifies some protocols and relies on RegexSchema's default for the rest. A method
with neither a reify impl nor a default still errors.
2026-06-22 18:30:44 -04:00
Yogthos
47864403e8 Conformance: throwable chaining, URL ctor/getProtocol, ClassLoader/Thread shims
Surfaced running the DB libraries (migratus) on the jolt db library:
- java.sql.SQLException .getNextException / .getStackTrace / .printStackTrace on
  jolt throwables (conditions + ex-info) return nil/empty, so a library walking
  the exception chain doesn't crash.
- java.net.URL ctor + .getProtocol (file/http), alongside the existing url shim.
- A generic java.lang.ClassLoader: getSystemClassLoader / a thread's
  contextClassLoader resolve a named resource against the source roots (the same
  model as clojure.java.io/resource) — file: URL or nil. Thread/currentThread.
  These are generic host capabilities, not DB-specific.

The jolt-lang/db next.jdbc surface now runs migratus far enough to connect, build
the migrations table, and discover migrations; migratus's remaining dependency is
java.nio.file (FileSystems/Path/PathMatcher glob), a JVM filesystem API kept out
of core.
2026-06-22 18:27:27 -04:00
Yogthos
5c9c5ed6e1 Conformance: String/format static + java.text.NumberFormat
Part of the java.* host-class gap (jolt-1nnn). String/format delegates to the
core format engine; NumberFormat getInstance/getNumberInstance/getIntegerInstance
group the integer part and honor min/max fraction digits.
2026-06-22 18:04:51 -04:00
Yogthos
c7bbdea11d Conformance: SimpleDateFormat parse + read over host readers
- java.text.SimpleDateFormat.parse parses the RFC1123/1036/asctime patterns
  (day/month names, 2-digit-year sliding window, tz token), and .format renders
  z/Z/X timezone tokens (GMT/+0000/Z) instead of emitting them literally. Date
  gains toLocalDate/toLocalDateTime/before/after/equals. Fixes ring.util.time.
- read / read+string work over a host java.io reader (StringReader wrapped in a
  PushbackReader): drain, parse one form, push the tail back. Fixes cuerdas
  istr / << string interpolation (and selmer's <<), which read embedded forms
  from the template via (read pushback-reader).
2026-06-22 18:02:25 -04:00
Yogthos
d83175b8c2 Fix conformance gaps: exception types, byte/getBytes, host classes
Shake-out from the conformance-library sweep. Host-side fixes (runtime .ss,
no re-mint) plus one analyzer change (re-minted):

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

unit.edn gains exinfo/hostobj/queue/hostctor/destructure regression rows.
2026-06-22 17:52:38 -04:00
Yogthos
3253df979a Byte-array <-> bytevector interop + charset-aware (String. bytes cs)
The host carries bytes two ways: Chez bytevectors (what String/.getBytes
produce) and jolt byte-arrays (what byte-array / the Java-array shims use). They
didn't interconvert, so code mixing the two — like clj-http-lite, which buffers
into (byte-array n) but encodes via .getBytes and decodes via (String. ^[B body
charset) — broke.

- byte-array now also accepts a bytevector or a string (UTF-8 bytes), so the two
  representations convert freely at interop seams.
- (String. bytes [charset]) decodes a bytevector OR a jolt byte-array with the
  named charset (UTF-8 default; ISO-8859-1/latin1/ascii = one byte/char). It
  previously only took a bytevector and ignored the charset.

Runtime .ss shims, no re-mint. Unit covers both directions + charset.
2026-06-22 13:20:27 -04:00
Yogthos
8c6623503f Host hooks for library class shims: __register-class-methods! + __register-instance-check!
clj-http-lite drives java.net URL/HttpURLConnection and java.io byte streams
through .method interop. The Chez host had __register-class-ctor!/-statics! (what
router/reitit needs) but no way to register instance methods on a shim object or
to extend instance?. Add both, plus jolt.host/table?:

- tagged-table .method dispatch: an htable-arm on record-method-dispatch routes
  (.m obj a*) through a per-tag method registry keyed off the table's jolt/type;
  unregistered methods fall through (sorted colls are htables too).
- __register-instance-check! installs (fn [class-name val] -> true|false|nil),
  nil = fall through; chained ahead of the base instance-check.

Runtime .ss shims, no re-mint. Unit covers dispatch, args, instance? both ways.
2026-06-22 13:06:12 -04:00
Yogthos
424ce75cf6 mutable deftype fields: (set! field val) in a method
deftype fields tagged ^:unsynchronized-mutable / ^:volatile-mutable can now be
reassigned in place from a method, as on the JVM. A jrec stores fields as cons
cells, so a new jolt-set-field! mutates the pair with set-cdr!. The deftype macro
rewrites (set! mutable-field v) in a method body to (set! (.-field inst) v), and
the analyzer compiles a (set! (.-field obj) v) target to jolt-set-field! — so
both the rewritten symbol form and an explicit interop (set! (.-root this) v) go
through one path. Field reads remain a snapshot at method entry, which is correct
for the universal read-then-set pattern (a repeated set! of the same field in one
call would read the entry value).

Closes the set!-of-local SCI failures: SCI load 202 -> 205/218.
2026-06-22 01:19:03 -04:00
Yogthos
212cd0399a special-form heads are not shadowable
Found in a read/eval review: a local named like a special form wrongly took
over operator position. (let [if (fn ...)] (if true 1 2)) returned the fn, but
per spec section 3 (and the reference) special-form heads are not shadowable;
only macros are. Two fixes: drop the (not shadowed) guard on the special-form
branch of analyze-list (so an (if ...) head is always the special), and prefix
a local whose name is a Scheme keyword when emitting (so a value local legally
named if does not shadow the (if ...) the back end emits). Value-position
locals named if/or/case still work.
2026-06-22 01:01:53 -04:00
Yogthos
0e4ccc97e0 (type record) returns its class-name string, not a symbol
(type r) returned a symbol user.TyR, so (= (symbol (str (type r))) (type r))
was true; the JVM's type is a Class (not a Symbol) so it's false. jolt models
classes as strings, so a record's type is now its ns-qualified class-name
string — equal to (class r), as on the JVM where type and class coincide for a
record. The symbol-keyed print-method defmethods already fall through to the
default record printing, so they're unaffected. Closes type-of-record.
2026-06-22 00:05:08 -04:00
Yogthos
7db5fabc8d resolve ^Type hint to canonical class name in var :tag
(def ^String tv ...) left (:tag (meta (var tv))) as the unresolved "String";
the JVM compiler resolves the hint to java.lang.String at def time. Add a
resolve-class-hint host seam (built from the existing class-token table) and
resolve a def's :tag through it in the analyzer. The reader path
(read-string "^String x") stays unresolved, matching the JVM (only the
compiler resolves). Closes ^Type-tag-on-var.
2026-06-21 23:52:47 -04:00
Yogthos
9e0a930eb4 Typed-array identity + JVM flonum printing (Inc 3) 2026-06-21 22:36:14 -04:00
Yogthos
bb6c9eeb29 Class refinements: per-type class names, FQN tokens, instance? built-ins
- (class x) returns per-type JVM class names (Long/Double/Ratio/Character/Atom),
  not a blanket java.lang.Number.
- register fully-qualified class tokens (java.lang.Long, clojure.lang.Keyword,
  clojure.lang.Atom, ...) that self-evaluate to their name, so (= (class 1)
  java.lang.Long) and (instance? clojure.lang.Atom x) resolve.
- instance? recognizes Long/Double/Ratio/Character/Symbol/Atom/IFn built-ins.

Closes class number/string/keyword/name, instance? Atom, atom?. Corpus 2699->2705.
2026-06-21 19:12:40 -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