Server (sx_server.ml):
- HTTP mode: JIT hook now opt-in via SX_SERVING_JIT, matching epoch mode
(was unconditional — live serving-JIT miscompiles J1/J2/J3 de-risked)
- command channel: malformed/non-ASCII line returns an error response
instead of killing the shared process (C1/C1b)
- response cache: soft error pages no longer cached (S4);
http_render_page returns (html, is_error)
Kernel spec + regen:
- crit-2: signal-return frame stored the saved kont under :f but the reader
looked up "saved-kont" — handler value became the whole program's result
and the covering test passed vacuously. Fixed; raise-continuable now also
resumes at the raise site (rest-k, not unwound-k), mirroring signal-condition
- quasiquote: R7RS longhand unquote-splicing aliased to splice-unquote
(used to serialize literally — silent zero-splice)
- guard: re-raise sentinel gensym'd per execution (was forgeable by any
(list '__guard-reraise__ x) value)
- do: IIFE-head form no longer misparses as a Scheme do-loop
- render: area/base/embed/param/track added to HTML_TAGS (were void-only
and rendered as Undefined symbol)
- REGEN REPAIR: checked-in sx_ref.ml carried hand-written additions that
every regeneration silently lost (let-values/define-values/delay/
delay-force registrations, AdtValue define-type) plus 5 regen blockers
(arrow-name mangling, 3-arg get, &rest defines, HO-position helper refs,
transpiler prim-table gaps). Moved into bootstrap.py FIXUPS/skips and the
transpiler prim table — regen is now reproducible, compiles, and tests
at baseline (CI Dockerfile.test steps 3-4 could not previously have
produced a compiling kernel)
Primitives:
- contains?: dict key-check arm per its spec doc
- expt: promotes to float on int63 overflow ((expt 2 100) returned 0)
- mcp_tree parity with sx_primitives: get (Integer indices + 3-arg default),
split (literal substring, was char-class — the historical gotcha lived
here), empty? on ""/{}, contains?, equal?, keyword-name, char-code
(Integer), parse-number (Integer-aware)
Python/docs:
- shared/sx/boundary.py: dead validation now logs a one-time WARNING instead
of silently no-oping (full revival gated: tier-1 declarations deleted and
SX_BOUNDARY_STRICT=1 is live in production compose)
- CLAUDE.md: canonical reference now points at spec/*.sx; island authoring
rules corrected (let IS sequential, bodies ARE implicit begin)
Verification: full suite 5762 passed / 274 failed — fail set byte-identical
to the pre-change baseline (273 in-progress hs-* + pre-existing r7rs radix
shadow). All repros verified fixed on both the native binary and the rebuilt
WASM browser kernel. Review findings: /tmp/sx-review/*.md
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
web/console-render.sx: render-to-console walks a live DOM element tree through the
engine's own dom-* accessors and prints it as terminal text — the results <ul>
becomes a bulleted list, the filter <input> a text field, the load-more sentinel a
"…" line, an .sx-error element a flagged line. It's the console platform's draw
step: the browser PAINTS the engine's tree, the harness ASSERTS it, this PRINTS it
— one tree, three bindings, the proof the engine is a general runtime not a browser
library.
Wired into the picker's SX engine tests (web/tests/test-relate-picker.sx): the load
and error tests now ALSO assert their console rendering — the same tree the engine
built drives both the DOM assertion and the terminal output, so Phase 1's suite is
the console renderer's regression suite for free. Plus a relate-picker:console suite
for the field/bullet/sentinel/error shapes. 7/7 green, no web-suite regressions.
(Class membership reads the live classList via dom-has-class?, not the static class
attribute — the engine adds .sx-error through classList.)
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Port the rest of the relate-picker's interactive behaviours from Playwright into
the SX harness, driving the real engine against the mock DOM:
- load: the form's "load" trigger populates the results on first render
- filter: a debounced "input" re-fetches and narrows the candidates
- paging: revealing the load-more sentinel pages in the next page (outerHTML
swap replaces the sentinel)
- error-retry: a dropped fetch marks .sx-error, and the next request clears it
Models two browser natives the OCaml runner lacks: observe-intersection (a
recording stub the test fires to simulate the sentinel scrolling into view) and
the synchronous-timer retry (stripped in the error test — backoff timing is a
test-engine.sx concern; here we assert the visible state).
Mock-DOM completeness (run_tests.ml): firstChild/lastChild on elements, so
children-to-fragment can drain a parsed fragment into an innerHTML/outerHTML swap
target. (Also repairs one pre-existing web test that needed firstChild.)
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Port the relate-picker's relate-delete behaviour from Playwright into an SX
harness test that drives the real engine (web/engine.sx + web/orchestration.sx)
against the OCaml runner's in-memory mock DOM. Builds the candidate row, runs
process-elements to bind the form's submit, mocks fetch-request to return the
host's empty 200, fires submit, and asserts the row is deleted in place — the
full fetch→swap→DOM-mutation loop in pure SX.
Mock-DOM completeness (run_tests.ml): NodeList.item(i) so dom-query-all can
iterate querySelectorAll results, and a DOMParser mock so the empty-body
sx-swap=delete path (handle-html-response → parseFromString) works as in a
browser.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Enabling the epoch serving-mode JIT globally regressed continuation-based guest
interpreters (the epoch mode is the shared command channel every loop's
conformance runner uses). Two-part fix:
1. SAFE DEFAULT GATE. register_jit_hook in the persistent server branch is now
opt-in via SX_SERVING_JIT=1 (default OFF). Default behaviour is unchanged
(no JIT in epoch serving) → zero regression for sibling loops. The
content/Smalltalk page server opts in.
2. GENERAL FIXES + per-guest interpret-only declarations:
- callable? (sx_server/run_tests/integration_tests/mcp_tree) now accepts
VmClosure. A JIT-compiled higher-order function returns its inner closure
as a VmClosure; callable? previously rejected it, so scheme-apply's
(callable? proc) guard failed with "not a procedure: <vm:anon>".
- jit-exclude! gains a trailing-"*" namespace-prefix form
(Sx_types.jit_excluded_prefixes), the robust way to mark a whole guest
interpreter interpret-only (a name-list misses functions in extra files —
it left erlang's vm/dispatcher JIT'd and 13 tests short).
- Per-guest exclusions in each guest's runtime.sx:
scheme "scheme-*" "scm-*" erlang "er-*" "erlang-*"
prolog "pl-*" common-lisp "cl-*" "clos-*"
js "js-*" haskell "hk-*"
Verified under opt-in JIT (== CEK, no hang): smalltalk 847/847, scheme/flow
166/166, erlang 530/530, prolog 590/590, apl 152/152, js 147/148. Residual
(documented, protected by the default gate): common-lisp 6 fails in advanced
suites (parser-recovery/debugger/CLOS/MOP). lua (0/16) and tcl (3/4) fail
identically on CEK — pre-existing, not JIT. run_tests --jit/no-jit unchanged.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Adds Sx_vm.bytecode_uses_extension_opcodes — an operand-aware
bytecode scanner that walks past CONST u16, CALL_PRIM u16+u8, and
CLOSURE u16+dynamic upvalue descriptors so operand bytes that happen
to be ≥200 don't false-positive as extension opcodes.
jit_compile_lambda calls the scanner on the inner closure's bytecode.
On hit it returns None — the lambda then runs through CEK
interpretation. The VM's dispatch fallthrough still routes the
extension opcodes themselves through the registry; this change just
prevents the JIT from claiming code it has no plan for.
Tests: 7 new foundation cases — pure core eligible, head/middle/
post-CLOSURE detection, CONST + CALL_PRIM + CLOSURE-descriptor false-
positive avoidance. +7 pass vs Phase D baseline, no regressions
across 11 conformance suites.
Loop complete: acceptance criteria 1-4 met. Hand-off to the Erlang
loop — lib/erlang/vm/dispatcher.sx's Phase 9b stub can now be
replaced with a real hosts/ocaml/lib/extensions/erlang.ml consumer.
lib/extensions/ becomes the new home for VM extensions, wired in via
(include_subdirs unqualified). README documents the registration
pattern, opcode-ID range conventions (200-209 guest_vm, 210-219
inline test, 220-229 test_ext, 230-247 ports), and naming rules.
extensions/test_ext.ml is the canonical worked example — two
operand-less opcodes (220 push 42, 221 double TOS) carrying a per-
extension state slot (TestExtState invocation counter). Test_ext.register
called from run_tests.ml at the start of the Phase D suite, on top of
the inline test_reg from earlier suites (disjoint opcode IDs).
Sx_vm.opcode_name now consults extension_opcode_name_ref (forward ref
in the same style as extension_dispatch_ref), so disassemble shows
extension opcodes by name instead of UNKNOWN_n. Registry maintains
name_of_id_table and installs the lookup at module init.
Tests: 5 new foundation cases — primitive resolves test_ext name,
end-to-end bytecode (push + double + return → 84), disassemble shows
"test_ext.OP_TEST_PUSH_42" / "test_ext.OP_TEST_DOUBLE_TOS",
unregistered ext opcodes still fall back to UNKNOWN_n, invocation
counter records the two dispatches. +5 pass vs Phase C baseline, no
regressions across 11 conformance suites.
Registers extension-opcode-id from sx_vm_extensions.ml module init.
Lives downstream of both sx_primitives and sx_vm to avoid a build
cycle. Accepts a string or symbol; returns Integer id when the opcode
is registered, Nil otherwise.
Compilers (lib/compiler.sx) call this to emit extension opcodes by
name. Returning Nil rather than failing on unknown names lets a port's
optimization opt in per-build — missing extensions degrade to slower
correct execution.
Tests: 5 new foundation cases — registered lookup, unknown → nil,
symbol arg, zero-arg + integer-arg rejection. +5 pass vs Phase B
baseline, no regressions across 11 conformance suites.
sx_vm_extension.ml: handler type, extensible extension_state variant,
EXTENSION first-class module signature.
sx_vm_extensions.ml: register / dispatch / id_of_name /
state_of_extension. install_dispatch () runs at module init,
swapping Phase A's stub for the real registry. Rejects out-of-range
opcode IDs (must be 200-247), duplicate IDs, duplicate names, and
duplicate extension names.
Tests: 9 new foundation cases — lookup hits/misses, end-to-end VM
dispatch including opcode composition, all four rejection paths.
+9 pass vs Phase A baseline, no regressions across 11 conformance
suites.
Adds Invalid_opcode of int exception and extension_dispatch_ref forward
ref (default raises Invalid_opcode op), plus the |op when op >= 200 arm
before the catch-all in the bytecode dispatch loop. Partition comment
documents 1-199 core / 200-247 extensions / 248-255 reserved.
Phase B will install the real registry's dispatch into the ref at module
init, replacing this stub.
Tests: 4 new foundation cases (Invalid_opcode for 200/224/247, Eval_error
for 199 to pin the threshold). +4 pass vs baseline, no regressions.
Adds Sx_vm.bytecode_uses_extension_opcodes — an operand-aware
bytecode scanner that walks past CONST u16, CALL_PRIM u16+u8, and
CLOSURE u16+dynamic upvalue descriptors so operand bytes that happen
to be ≥200 don't false-positive as extension opcodes.
jit_compile_lambda calls the scanner on the inner closure's bytecode.
On hit it returns None — the lambda then runs through CEK
interpretation. The VM's dispatch fallthrough still routes the
extension opcodes themselves through the registry; this change just
prevents the JIT from claiming code it has no plan for.
Tests: 7 new foundation cases — pure core eligible, head/middle/
post-CLOSURE detection, CONST + CALL_PRIM + CLOSURE-descriptor false-
positive avoidance. +7 pass vs Phase D baseline, no regressions
across 11 conformance suites.
Loop complete: acceptance criteria 1-4 met. Hand-off to the Erlang
loop — lib/erlang/vm/dispatcher.sx's Phase 9b stub can now be
replaced with a real hosts/ocaml/lib/extensions/erlang.ml consumer.
lib/extensions/ becomes the new home for VM extensions, wired in via
(include_subdirs unqualified). README documents the registration
pattern, opcode-ID range conventions (200-209 guest_vm, 210-219
inline test, 220-229 test_ext, 230-247 ports), and naming rules.
extensions/test_ext.ml is the canonical worked example — two
operand-less opcodes (220 push 42, 221 double TOS) carrying a per-
extension state slot (TestExtState invocation counter). Test_ext.register
called from run_tests.ml at the start of the Phase D suite, on top of
the inline test_reg from earlier suites (disjoint opcode IDs).
Sx_vm.opcode_name now consults extension_opcode_name_ref (forward ref
in the same style as extension_dispatch_ref), so disassemble shows
extension opcodes by name instead of UNKNOWN_n. Registry maintains
name_of_id_table and installs the lookup at module init.
Tests: 5 new foundation cases — primitive resolves test_ext name,
end-to-end bytecode (push + double + return → 84), disassemble shows
"test_ext.OP_TEST_PUSH_42" / "test_ext.OP_TEST_DOUBLE_TOS",
unregistered ext opcodes still fall back to UNKNOWN_n, invocation
counter records the two dispatches. +5 pass vs Phase C baseline, no
regressions across 11 conformance suites.
Registers extension-opcode-id from sx_vm_extensions.ml module init.
Lives downstream of both sx_primitives and sx_vm to avoid a build
cycle. Accepts a string or symbol; returns Integer id when the opcode
is registered, Nil otherwise.
Compilers (lib/compiler.sx) call this to emit extension opcodes by
name. Returning Nil rather than failing on unknown names lets a port's
optimization opt in per-build — missing extensions degrade to slower
correct execution.
Tests: 5 new foundation cases — registered lookup, unknown → nil,
symbol arg, zero-arg + integer-arg rejection. +5 pass vs Phase B
baseline, no regressions across 11 conformance suites.
sx_vm_extension.ml: handler type, extensible extension_state variant,
EXTENSION first-class module signature.
sx_vm_extensions.ml: register / dispatch / id_of_name /
state_of_extension. install_dispatch () runs at module init,
swapping Phase A's stub for the real registry. Rejects out-of-range
opcode IDs (must be 200-247), duplicate IDs, duplicate names, and
duplicate extension names.
Tests: 9 new foundation cases — lookup hits/misses, end-to-end VM
dispatch including opcode composition, all four rejection paths.
+9 pass vs Phase A baseline, no regressions across 11 conformance
suites.
Adds Invalid_opcode of int exception and extension_dispatch_ref forward
ref (default raises Invalid_opcode op), plus the |op when op >= 200 arm
before the catch-all in the bytecode dispatch loop. Partition comment
documents 1-199 core / 200-247 extensions / 248-255 reserved.
Phase B will install the real registry's dispatch into the ref at module
init, replacing this stub.
Tests: 4 new foundation cases (Invalid_opcode for 200/224/247, Eval_error
for 199 to pin the threshold). +4 pass vs baseline, no regressions.
sx_types.ml:
- Add l_uid field on lambda (unique identity for cache tracking)
- Add lambda_uid_counter + next_lambda_uid () minted on construction
- Add jit_budget (default 5000) and jit_evicted_count counter
- Add jit_cache_queue : (int * value) Queue.t — FIFO of compiled lambdas
- jit_cache_size () helper for stats
sx_vm.ml:
- On successful JIT compile, push (uid, Lambda l) onto jit_cache_queue
- While queue length exceeds jit_budget, pop head (oldest entry) and
clear that lambda's l_compiled slot — evicted entries fall through
to cek_call_or_suspend on next call (correct, just slower)
- Guard JIT trigger by !jit_budget > 0 (budget=0 disables JIT entirely)
sx_primitives.ml:
Phase 2:
- jit-set-budget! N — change cache budget at runtime
- jit-stats includes budget, cache-size, evicted
Phase 3:
- jit-reset-cache! — clear all compiled VmClosures (hot paths re-JIT
on next threshold crossing)
- jit-reset-counters! also resets evicted counter
run_tests.ml:
- Update test-fixture lambda construction to include l_uid
Effect: cache size bounded regardless of input pattern. The HS test harness
compiles ~3000 distinct one-shot lambdas, but tiered compilation (Phase 1)
keeps most below threshold so they never enter the cache. Steady-state count
stays in single digits for typical workloads. When a misbehaving caller
saturates the cache (eval-hs in a tight loop, REPL-style host), LRU
eviction caps memory at jit_budget compiled closures × ~1KB each.
Verification: 4771 passed, 1111 failed in run_tests — identical to
pre-Phase-2 baseline. No regressions.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
OCaml kernel changes:
sx_types.ml:
- Add l_call_count : int field to lambda type — counts how many times
a named lambda has been invoked through the VM dispatch path.
- Add module-level refs jit_threshold (default 4), jit_compiled_count,
jit_skipped_count, jit_threshold_skipped_count for stats.
Refs live here (not sx_vm) so sx_primitives can read them without
creating a sx_primitives → sx_vm dependency cycle.
sx_vm.ml:
- In the Lambda case of cek_call_or_suspend, before triggering the JIT,
increment l.l_call_count. Only call jit_compile_ref if count >= the
runtime-tunable threshold. Below threshold, fall through to the
existing cek_call_or_suspend path (interpreter-style).
sx_primitives.ml:
- Register jit-stats — returns dict {threshold, compiled, compile-failed,
below-threshold}.
- Register jit-set-threshold! N — change threshold at runtime.
- Register jit-reset-counters! — zero the stats counters.
bin/run_tests.ml:
- Add l_call_count = 0 to the test-fixture lambda construction.
Effect: lambdas only get JIT-compiled after the 4th invocation. One-shot
lambdas (test harness wrappers, eval-hs throwaways, REPL inputs) never enter
the JIT cache, eliminating the cumulative slowdown that the batched runner
currently works around. Hot paths (component renders, event handlers) cross
the threshold within a handful of calls and get the full JIT speed.
Phase 2 (LRU eviction) and Phase 3 (jit-reset! / jit-clear-cold!) follow.
Verified: 4771 passed, 1111 failed in OCaml run_tests.exe — identical to
baseline before this change. No regressions; tiered logic is correct.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Move `hs-prolog-hook` / `hs-set-prolog-hook!` / `prolog` out of
`lib/hyperscript/runtime.sx` into a self-contained plugin file at
`lib/hyperscript/plugins/prolog.sx`. The API surface is preserved —
`lib/prolog/hs-bridge.sx::pl-install-hs-hook!` still calls
`hs-set-prolog-hook!` exactly as before, just resolved to the plugin
file's binding rather than runtime.sx's.
Move the E39 worker stub registration out of `lib/hyperscript/parser.sx`
into `lib/hyperscript/plugins/worker.sx`. The plugin calls
`(hs-register-feature! "worker" ...)` at file load time. Behaviour is
identical — `worker MyWorker ...` raises the same helpful "plugin not
installed" error, just routed through the registry from a separate
file. The pre-existing `behavioral` test for the helpful error
("raises a helpful error when the worker plugin is not installed")
still passes via the new path.
Wire-up:
- OCaml `bin/run_tests.ml`: load `plugins/worker.sx` and
`plugins/prolog.sx` after `runtime.sx`, before `integration.sx`.
- JS `tests/hs-kernel-eval.js`: extend HS module list with
`hs-worker` / `hs-prolog`; add `HS_PLUGINS` resolver branch so the
`hs-` prefix maps to `lib/hyperscript/plugins/`.
- WASM `hosts/ocaml/browser/bundle.sh`: copy plugin files into
`dist/sx/hs-<name>.sx`.
- WASM `hosts/ocaml/browser/compile-modules.js`: add `hs-worker` /
`hs-prolog` to `FILES`, `HS_DEPS`, and `HS_LAZY` so the lazy loader
resolves them on first reference.
- Worker plugin carries a sentinel `(define hs-worker-loaded? true)`
so `extractDefines` indexes it in the module manifest (the lazy
loader skips files with no defines).
Mirrors `shared/static/wasm/sx/hs-{parser,runtime}.sx` are byte-identical
to source; new mirrors `hs-{prolog,worker}.sx` written via sx_write_file.
OCaml: 4545 passed, 1339 failed — matches baseline.
JS: 2591 passed, 2465 failed — matches baseline.
Smoke tests: `(prolog ...)` raises "prolog hook not installed" cleanly,
`(hs-set-prolog-hook! ...)` then `(prolog ...)` returns the hook result,
`(hs-compile "worker MyWorker def noop() end end")` raises the worker
stub error via the registry path.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
28 tests, passes on both JS and OCaml.
- spec/stdlib.sx: pure SX format function
- spec/primitives.sx: format primitive declaration
- lib/r7rs.sx: fix number->string to support optional radix arg
- hosts/ocaml: add format-decimal primitive, load stdlib.sx in test runner
- hosts/javascript: load stdlib.sx in test runner
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
25 tests pass on both JS and OCaml hosts. Uses dict marker
{:_values true :_list [...]} for 0/2+ values; 1 value passes
through directly. step-sf-define extended to desugar shorthand
(define (name params) body) forms on both hosts.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
- parser `empty` no-target → (ref "me") (was bogus (sym "me"))
- parser `halt` modes distinguish: "all"/"bubbling"/"default" halt execution
(raise hs-return), "the-event"/"the event's" only stop propagation/default.
"'s" now matched as op token, not keyword.
- parser `get` cmd: dispatch + cmd-kw list + parse-get-cmd (parses expr with
optional `as TYPE`). Required for `get result as JSON` in fetch chains.
- compiler empty-target for (local X): emit (set! X (hs-empty-like X)) so
arrays/sets/maps clear the variable, not call DOM empty on the value.
- runtime hs-empty-like: container-of-same-type empty value.
- runtime hs-empty-target!: drop dead FORM branch that was short-circuiting
to innerHTML=""; the querySelectorAll-over-inputs branch now runs.
- runtime hs-halt!: take ev param (was free `event` lookup); raise hs-return
to stop execution unless mode is "the-event".
- runtime hs-reset!: type-aware — FORM → reset, INPUT/TEXTAREA → value/checked
from defaults, SELECT → defaultSelected option.
- runtime hs-open!/hs-close!: toggle `open` attribute on details elements
(not just the prop) so dom-has-attr? assertions work.
- runtime hs-coerce JSON: json-stringify dict/list (was str).
- test-runner mock: host-get on List + "length"/"size" (was only Dict);
dom-set-attr tracks defaultChecked / defaultSelected / defaultValue;
mock_query_all supports comma-separated selector groups.
- generator: emit boolean attrs (checked/selected/etc) even with null value;
drop overcautious "skip HS with bare quotes or embedded HTML" guard so
morph tests (source contains embedded <div>) emit properly.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Load sx/sx/geography/cek/ recursively so content/demo/freeze index.sx
pages bind as ~geography/cek/{content,demo,freeze}. Update docs.sx
cek-page dispatch + test-examples cek:content-pages suite to reference
those real names (were stale ~geography/cek/cek-content etc.).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Update test-examples.sx to reference the real path-derived names
(~geography/<domain>/<stem>) instead of short aliases, drop the
alias chains in run_tests.ml, and add marshes/_islands loading so
the migrated one-per-file islands resolve. Fix the try-rerender-page
stub in boot-helpers.sx to accept the 3 args its callers pass.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Why: the one-per-file migration leaves `defcomp`/`defisland` unnamed in each
file; the test runner now walks `_islands/` recursively and injects a name
derived from the relative path (e.g. `geography/cek/_islands/demo-counter.sx`
→ `~geography/cek/demo-counter`), matching the runtime's path-based naming.
JIT-vs-CEK test parity: both now pass 3938/534 (identical failures).
Three fixes in sx_vm.ml + run_tests.ml:
1. OP_CALL_PRIM: fallback to Sx_primitives.get_primitive when vm.globals
misses. Primitives registered after JIT setup (host-global, host-get,
etc. bound inside run_spec_tests) become resolvable at call time.
2. jit_compile_lambda: early-exit for anonymous lambdas, nested lambdas
(closure has parent — recreated per outer call), and a known-broken
name list: parser combinators, hyperscript parse/compile orchestrators,
test helpers, compile-timeout functions, and hs loop runtime (which
uses guard/raise for break/continue). Lives inside jit_compile_lambda
so both the CEK _jit_try_call_fn hook and VM OP_CALL Lambda path
honor the skip list.
3. run_tests.ml _jit_try_call_fn: catch TIMEOUT during jit_compile_lambda.
Sentinel is set before compile, so subsequent calls skip JIT; this
ensures the first call of a suite also falls back to CEK cleanly when
compile exceeds the 5s test budget.
Also includes run_tests.ml 'reset' form helpers refactor (form-element
reset command) that was pending in the working tree.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
- call: use make-symbol for fn name, rest-rest for args (was string + nth)
- on: extract (ref ...) nodes from body as event.detail let-bindings
- host-set!: add ListRef+Number case for array index mutation
- append!: support index 0 for prepend
- hs-put!: branch on list? for array start/end operations
- hs-reset!: form reset restoring defaultValue/checked/textContent
- 522/793 pass (was 493/754)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Parser:
- halt default/bubbling: match ident type (not just keyword)
- halt the event's: consume possessive marker
Runtime:
- hs-halt! dispatches: default→preventDefault, bubbling→stopPropagation,
event→both
Mock DOM:
- Add event method dispatch: preventDefault, stopPropagation,
stopImmediatePropagation set correct flags on event dict
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>