add-watch/remove-watch/set-validator!/get-validator were atom-only; the
atom ctor ignored :meta and :validator; watching a var crashed. Now the
ARef contract is one seam: atoms keep their record slots (hot path
unchanged), every other reference type registers a predicate and stores
watches/validators in identity-keyed side tables, and notifies at its
mutation points. Vars notify on root changes (def on a watched var,
var-set outside a thread binding, alter-var-root — thread-binding sets
don't notify, like the JVM); agents notify per action. The def-var! wrap
costs two weak-table probes per def and does IRef work only on a watched
var.
Ctor options follow ARef: the validator gates the initial value
(IllegalStateException 'Invalid reference state' — also the class for
rejected swap!/reset!), :meta must be a map (else ClassCastException),
nil allowed. meta reads any reference through the identity side-table
(the type-gated fall-through is gone); alter-meta!/reset-meta! work on
non-var references.
Runtime-only (no re-mint). 9 JVM-certified corpus rows; spec entry; cts
baseline 5781 -> 5805 pass, 73 baselined namespaces (the residual error
in the watch namespaces is their STM ref section — refs stay out of
scope).
joltc failed to start on Windows — "Exception in foreign-procedure: no entry for
pthread_sigmask". concurrency.ss resolves pthread_sigmask/sigemptyset/sigaddset at
load with a top-level (foreign-procedure …), which resolves its symbol eagerly;
those POSIX signal fns don't exist on Windows, so the whole runtime aborted.
Guard the three resolutions (like sched_yield/chmod already are) so a non-POSIX
host yields #f, and make jolt-set-sigint-blocked a no-op when they're unavailable.
The per-thread SIGINT mask is a POSIX-only optimization for the nREPL accept loop;
Windows delivers ^C through the console, and park-until-interrupt still parks on a
condition variable. macOS/Linux resolve the symbols as before — unchanged.
^C to a running `joltc --nrepl-server` aborted with "thread does not
own mutex" because the accept-loop thread absorbed SIGINT in its foreign
accept() call, where Chez can't run the keyboard-interrupt handler, and
run-main-pump's tight condition-wait loop wasn't interruptible anyway.
Block SIGINT in the primordial thread before starting the server so the
accept loop inherits a blocked mask, park in a single interruptible
condition-wait via the new park-until-interrupt, and run registered
shutdown hooks (newest-first, each isolated) from the keyboard-interrupt
handler before (exit 0). The stop fn now drops .nrepl-port via the new
jolt.host/delete-file seam — clojure.java.io/delete-file doesn't exist
in Jolt and silently no-ops, so .nrepl-port was never removed.
PR #269 added the main-thread executor (call-on-main-thread, run-main-pump,
stop-main-pump) so the nREPL accept loop can run on a worker thread while the
primordial thread owns the GUI main loop. Two problems made stop-main-pump
unusable as a graceful-shutdown or external API.
run-main-pump set jolt-main-pump-active to #t on entry but never cleared it on
exit, so after the pump returned the flag stayed #t. call-on-main-thread also
read that flag outside the queue mutex, so even with a reset there was a window
where a job could be enqueued just as the pump left, then block forever on a
pump that was gone.
Both are now decided under jolt-main-queue-mu. The pump clears active in the
same critical section where it sees the stop flag and an empty queue, and
call-on-main-thread reads active and enqueues atomically under that lock. A
caller that loses the race sees the pump inactive and runs the thunk inline,
the same fallback used when no pump is running, rather than blocking. A
dynamic-wind around the loop also clears active on an abnormal exit so a later
run-main-pump starts clean.
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).