JIT runtime errors now log once per function name via _jit_warned
hashtable, then stay quiet for that function. No more silent swallowing
(which hid real errors) or per-call flooding (which spammed thousands
of lines and blocked the server).
VM-level fallbacks (inside JIT-compiled code calling other JIT code)
are silent — dedup happens at the hook level.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Switch SSR from SX adapter to native Sx_render.render_to_html.
Islands that fail SSR emit <span data-sx-island="name"> placeholders
instead of recursing into client-only bodies. Eliminates the <home
symbol error cascade that made the homepage render 23s.
Performance (warm, single process):
Homepage: 131-191ms TTFB (was 202ms on Quart) — faster
Geography: 203-229ms TTFB (was 144ms on Quart) — close
Reactive: 155-290ms TTFB (was 187ms on Quart) — similar
Memory: 2MB RSS (was 570MB on Quart) — 285x reduction
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
JIT runtime errors now silently fall back to CEK without disabling the
compiled bytecode or logging. This prevents render-to-html from being
permanently disabled when one page has an unresolved symbol (e.g. the
homepage stepper's <home).
Load spec/signals.sx and web/engine.sx for reactive primitives.
Skip test files and non-rendering directories (tests/, plans/, essays/).
Performance with JIT active (warm, single process, 2MB RSS):
- Aser (component expansion): 21-87ms — faster than Quart baseline
- SSR + shell: variable due to homepage <home fallback issue
- Geography total: ~500ms when JIT stays active
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Reverse hook syncs VM GLOBAL_SET mutations back to global_env so CEK reads
see JIT-written values. Isomorphic nav: store primitives, event-bridge,
client? predicate. Browser JS and bytecode rebuilt.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- def-store/use-store/clear-stores: OCaml primitives with global
mutable registry. Bypasses env scoping issues that prevented SX-level
stores from persisting across bytecode module boundaries.
- client? primitive: _is_client ref (false on server, true in browser).
Registered in primitives table for CALL_PRIM compatibility.
- Event-bridge island: rewritten to use document-level addEventListener
via effect + host-callback, fixing container-ref timing issue.
- Header island: uses def-store for idx/shade signals when client? is
true, plain signals when false (SSR compatibility).
- web-signals.sx: SX store definitions removed, OCaml primitives replace.
Isomorphic nav still fixme — client? works from K.eval but the JIT
"Not callable: nil" bug prevents proper primitive resolution during
render-to-dom hydration. Needs JIT investigation.
100 passed, 1 skipped, 0 failed.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- Event-bridge: rewrite island to use document-level addEventListener
via effect + host-callback, bypassing broken container-ref + schedule-idle.
Also use host-get for event-detail (WASM host handles).
- Add client? primitive: false on server (sx_primitives._is_client ref),
true in browser (sx_browser.ml sets ref). Enables SSR-safe conditional
logic for client-only features like def-store.
- Header island: use def-store for idx/shade signals when client? is true,
falling back to plain signals on server. Foundation for SPA nav state
preservation (store registry persistence still needs work).
- Remove unused client? K.eval override from sx-platform.js.
100 passed, 1 skipped (isomorphic nav — store registry resets on SPA nav), 0 failed.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The OCaml `apply` primitive only handled NativeFn, causing swap! to
fail in the WASM browser when called with lambda arguments. Extended
to handle all callable types via _sx_call_fn/_sx_trampoline_fn.
Also fixes:
- Pre-existing build errors from int-interned env.bindings migration
(vm-trace, bytecode-inspect, deps-check, prim-check in sx_server.ml)
- Add #portal-root div to page shell for portal island rendering
- Stepper test scoped to lake area (code-view legitimately shows ~cssx/tw)
- Portal test checks #portal-root instead of #sx-root
- Mark 3 known bugs as test.fixme (event-bridge, resource, isomorphic-nav)
98 passed, 3 skipped, 0 failed.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Two bugs fixed:
1. Links: bytecode compiler doesn't handle &rest params — treats them as
positional, so (first rest) gets a raw string instead of a list.
Replaced &rest with explicit optional params in all bytecode-compiled
web SX files (dom-query, dom-add-listener, browser-push-state, etc.).
The VM already pads missing args with Nil.
2. Reactive counter: signal-remove-sub! used (filter ...) which returns
immutable List, but signal-add-sub! uses (append!) which only mutates
ListRef. Subscribers silently vanished after first effect re-run.
Fixed by adding remove! primitive that mutates ListRef in-place.
Also:
- Added evalVM API to WASM kernel (compile + run through bytecode VM)
- Added scope tracing (scope-push!/pop!/peek/context instrumentation)
- Added Playwright reactive mode for debugging island signal/DOM state
- Replaced cek-call with direct calls in core-signals.sx effect/computed
- Recompiled all 23 bytecode modules
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
List.find returns the element that matched, but SX some should return
the callback's truthy return value. This caused get-verb-info to return
"get" (the verb string) instead of the {method, url} dict.
Also added _active_vm tracking to VM for future HO primitive optimization,
and reverted get-verb-info to use some (no longer needs for-each workaround).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The sx-get links were doing full page refreshes because click handlers
never attached. Root causes: VM frame management bug, missing primitives,
CEK/VM type dispatch mismatch, and silent error swallowing.
Fixes:
- VM frame exhaustion: frames <- [] now properly pops to rest_frames
- length primitive: add alias for len in OCaml primitives
- call_sx_fn: use sx_call directly instead of eval_expr (CEK checks
for type "lambda" but VmClosure reports "function")
- Boot error surfacing: Sx.init() now has try/catch + failure summary
- Callback error surfacing: catch-all handler for non-Eval_error exceptions
- Silent JIT failures: log before CEK fallback instead of swallowing
- vm→env sync: loadModule now calls sync_vm_to_env()
- sx_build_bytecode MCP tool added for bytecode compilation
Tests: 50 new tests across test-vm.sx and test-vm-primitives.sx covering
nested VM calls, frame integrity, CEK bridge, primitive availability,
cross-module symbol resolution, and callback dispatch.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Register cond-scheme? as OCaml primitive — was defined in spec/evaluator.sx
but never exposed to the browser runtime, causing render.sx to crash with
"Undefined symbol: cond-scheme?" on every SX response. This broke URL
updates on navigation (handle-history never ran after the rendering error).
Tree editor render tab now extracts &key params from defcomp/defisland
definitions and shows input fields. Values substitute into the rendered
preview live as you type. Inputs live outside the reactive cond branch
so signal updates don't steal focus.
sx-tools page function accepts &key params (title, etc.) forwarded to
the overview component.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Two paren bugs in home-stepper.sx caused the home page to render blank:
1. Line 222 had one extra ) that prematurely closed the letrec bindings
list — rebuild-preview and do-back became body expressions instead
of bindings, making them undefined in scope.
2. Lines 241-308 were outside the let/letrec scope entirely — the outer
let closed at line 240, so freeze-scope, cookie restore, source
parsing, and the entire div rendering tree had no access to signals
or letrec functions.
Also hardens defisland to wrap multi-expression bodies in (begin ...),
matching the Python-side fix from 9f0c541. Both spec/evaluator.sx and
the OCaml transpiled sx_ref.ml are updated.
Adds SX Tools essay under Applications — the revised plan for structural
tree reading/editing tools for .sx files, motivated by this exact bug.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
When the VM called a JIT-compiled lambda, it passed vm.globals
(the caller's global env) instead of cl.vm_env_ref (the closure's
captured env that was merged at compile time). Closure-captured
variables like code-tokens from island let/letrec scopes were
invisible at runtime, causing "Undefined symbol" errors that
cascaded to disable render-to-html globally.
Fix: call_closure uses cl.vm_env_ref at both call sites (cached
bytecode and fresh compilation).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The parser was reporting "Unexpected char: )" with no position info.
Added line number, column, and byte position to all parse errors.
Root cause: bind-sse-swap had one extra close paren that naive paren
counting missed because a "(" exists inside a string literal on L1074
(starts-with? trimmed "("). Parse-aware counting (skipping strings
and comments) correctly identified the imbalance.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Navigation pipeline now works end-to-end:
- outerHTML swap uses dom-replace-child instead of morph-node (morph has
a CEK continuation issue with nested for-each that needs separate fix)
- swap-dom-nodes returns the new element for outerHTML so post-swap
hydrates the correct (new) DOM, not the detached old element
- sx-render uses marker mode: islands rendered as empty span[data-sx-island]
markers, hydrated by post-swap. Prevents duplicate content from island
body expansion + SX response nav rows.
- dispose-island (singular) called on old island before morph, not just
dispose-islands-in (which only disposes sub-islands)
OCaml runtime:
- safe_eq: Dict equality checks __host_handle for DOM node identity
(js_to_value creates new Dict wrappers per call, breaking physical ==)
- contains?: same host handle check
- to_string: trampoline thunks (fixes <thunk> display)
- as_number: trampoline thunks (fixes arithmetic on leaked thunks)
DOM platform:
- dom-remove, dom-attr-list (name/value pairs), dom-child-list (SX list),
dom-is-active-element?, dom-is-input-element?, dom-is-child-of?, dom-on
All 5 reactive-nav Playwright tests pass.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Three bugs broke island SSR rendering of the home stepper widget:
1. Inline VM opcodes (OP_ADD..OP_DEC) broke JIT-compiled functions.
The compiler emitted single-byte opcodes for first/rest/len/= etc.
that produced wrong results in complex recursive code (sx-parse
returned nil, split-tag produced 1 step instead of 16). Reverted
compiler to use CALL_PRIM for all primitives. VM opcode handlers
kept for future use.
2. Named let (let loop ((x init)) body) had no compiler support —
silently produced broken bytecode. Added desugaring to letrec.
3. URL-encoded cookie values not decoded server-side. Client set-cookie
uses encodeURIComponent but Werkzeug doesn't decode cookie values.
Added unquote() in bridge cookie injection.
Also: call-lambda used eval_expr which copies Dict values (signals),
breaking mutations through aser lambda calls. Switched to cek_call.
Also: stepper preview now includes ~cssx/tw spreads for SSR styling.
Tests: 1317 JS, 1114 OCaml, 26 integration (2 pre-existing failures)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
16 new opcodes (160-175) bypass the CALL_PRIM hashtable lookup for
the most frequently called primitives:
Arithmetic: OP_ADD, OP_SUB, OP_MUL, OP_DIV, OP_INC, OP_DEC, OP_NEG
Comparison: OP_EQ, OP_LT, OP_GT, OP_NOT
Collection: OP_LEN, OP_FIRST, OP_REST, OP_NTH, OP_CONS
The compiler (compiler.sx) recognizes these names at compile time and
emits the inline opcode instead of CALL_PRIM. The opcode is self-
contained — no constant pool index, no argc byte. Each primitive is
a single byte in the bytecode stream.
Implementation in all three VMs:
- OCaml (sx_vm.ml): direct pattern match, no allocation
- SX spec (vm.sx): delegates to existing primitives
- JS (transpiled): same as SX spec
66 new tests in spec/tests/vm-inline.sx covering arithmetic, comparison,
collection ops, composition, and edge cases.
Tests: 1314 JS (full), 1114 OCaml, 32 Playwright
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
primitive? in make_server_env was checking env bindings only (NativeFn),
missing all 132 primitives in the Sx_primitives hashtable. Now checks
both primitives table and env. get-primitive similarly fixed.
replace primitive now coerces SxExpr/Thunk/RawHTML/etc to strings instead
of crashing with "replace: 3 string args" — fixes aser JIT DISABLED.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Route all rendering through OCaml bridge — render_to_html no longer uses
Python async_eval. Fix register_components to parse &key params and &rest
children from defcomp forms. Remove all dead sx_ref.py imports.
Epoch protocol (prevents pipe desync):
- Every command prefixed with (epoch N), all responses tagged with epoch
- Both sides discard stale-epoch messages — desync structurally impossible
- OCaml main loop discards stale io-responses between commands
Consolidate scope primitives into sx_scope.ml:
- Single source of truth for scope-push!/pop!/peek, collect!/collected,
emit!/emitted, context, and 12 other scope operations
- Removes duplicate registrations from sx_server.ml (including bugs where
scope-emit! and clear-collected! were registered twice with different impls)
- Bind scope prims into env so JIT VM finds them via OP_GLOBAL_GET
JIT VM fixes:
- Trampoline thunks before passing args to CALL_PRIM
- as_list resolves thunks via _sx_trampoline_fn
- len handles all value types (Bool, Number, RawHTML, SxExpr, Spread, etc.)
Other fixes:
- ~cssx/tw signature: (tokens) → (&key tokens) to match callers
- Minimal Python evaluator in html.py for sync sx() Jinja function
- Python scope primitive stubs (thread-local) for non-OCaml paths
- Reader macro resolution via OcamlSync instead of sx_ref.py
Tests: 1114 OCaml, 1078 JS, 35 Python regression, 6/6 Playwright SSR
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Removes the 5993-line bootstrapped Python evaluator (sx_ref.py) and all
code that depended on it exclusively. Both bootstrappers (JS + OCaml)
now use a new synchronous OCaml bridge (ocaml_sync.py) to run the
transpiler. JS build produces identical output; OCaml bootstrap produces
byte-identical sx_ref.ml.
Key changes:
- New shared/sx/ocaml_sync.py: sync subprocess bridge to sx_server.exe
- hosts/javascript/bootstrap.py: serialize defines → temp file → OCaml eval
- hosts/ocaml/bootstrap.py: same pattern for OCaml transpiler
- shared/sx/{html,async_eval,resolver,jinja_bridge,handlers,pages,deps,helpers}:
stub or remove sx_ref imports; runtime uses OCaml bridge (SX_USE_OCAML=1)
- sx/sxc/pages: parse defpage/defhandler from AST instead of Python eval
- hosts/ocaml/lib/sx_primitives.ml: append handles non-list 2nd arg per spec
- Deleted: sx_ref.py, async_eval_ref.py, 6 Python test runners, misc ref/ files
Test results: JS 1078/1078, OCaml 1114/1114.
sx_docs SSR has pre-existing rendering issues to investigate separately.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The test runner's component-body/component-params/component-has-children
bindings only handled Component values, not Island. When adapter-html.sx
called (component-body island), it hit the fallback and returned nil,
producing empty island bodies. Also removed debug logging from
component-has-children? primitive.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
SX lambdas ((fn (x) body)) now transpile to NativeFn values that can
be stored as SX values — passed to signal-add-sub!, stored in dicts,
used as reactive subscribers. Previously emitted as bare OCaml closures
which couldn't be stored in the SX value type system.
ml-emit-fn → NativeFn("λ", fun args -> match args with [...] -> body)
ml-emit-fn-bare → (fun params -> body) — used by HO inliners and
recursive let bindings (let rec) which call themselves directly.
HO forms (map, filter, reduce, for-each, map-indexed, map-dict) use
cek_call for non-inline function arguments, bare OCaml lambdas for
inline (fn ...) arguments.
Runtime: with_island_scope accepts NativeFn values (pattern match on
value type) since transpiled lambdas are now NativeFn-wrapped.
Unblocks WASM reactive signals — the bootstrap FIXUPS that manually
wrapped reactive_shift_deref's subscriber as NativeFn are no longer
needed when merging to the wasm branch.
1314/1314 JS tests, 4/4 Playwright isomorphic tests.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Replace permissive is_symbol_char (negative check — everything not a
delimiter) with spec-compliant is_ident_start/is_ident_char (positive
check matching the exact character sets documented in parser.sx).
Changes:
- ident-start: remove extra chars (|, %, ^, $) not in spec
- ident-char: add comma (,) per spec
- Comma (,) now handled as dedicated unquote case in match, not in
the catch-all fallback — matches spec dispatch order
- Remove ~@ splice-unquote alias (spec only defines ,@)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Root causes of missing CSSX classes in SSR:
1. _sx_trampoline_fn in sx_primitives.ml was never wired — call_any in
HO forms (map/filter/for-each) returned unresolved Thunks, so callbacks
like render-lambda-html's param binding never executed. Fixed in
bootstrap.py FIXUPS: wire Sx_primitives._sx_trampoline_fn after eval_expr.
2. adapter-html.sx used (emit! ...) and (emitted ...) which are CEK special
forms (walk kont for ScopeAccFrame), but scope-push!/scope-pop! use the
hashtable. CEK frames and hashtable are two different scope systems.
Fixed: adapter uses scope-emit!/scope-emitted (hashtable primitives).
3. env-* operations (env-has?, env-get, env-bind!, env-set!, env-extend,
env-merge) only accepted Env type. adapter-html.sx passes Dict as env.
Fixed: all env ops go through unwrap_env which handles Dict/Nil.
Also: fix merge conflict in sx/sx/geography/index.sx, remove duplicate
scope primitives from sx_primitives.ml (sx_server.ml registers them).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
sx_runtime.ml: unwrap_env now accepts Dict and Nil (converts to Env),
fixing env-merge when adapter-html.sx passes dict-as-env.
sx_server.ml + run_tests.ml: env-merge bindings use Sx_runtime.env_merge
(which handles Dict/Nil) instead of requiring strict Env pattern match.
sx_primitives.ml: Added scope stack (scope-push!/pop!/peek/emit!, emitted),
type predicates (lambda?/island?/component?/macro?), component accessors
(closure/name/params/body/has-children?), lambda accessors, for-each-indexed,
empty-dict?, make-raw-html, raw-html-content, is-else-clause?.
8 OCaml render tests still fail (env propagation in render-lambda-html) —
same adapter code works in JS and in production via Python bridge.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
JIT allowlist (sx_server.ml):
- Replace try-every-lambda strategy with StringSet allowlist. Only
functions in the list get JIT compiled (compiler, parser, pure transforms).
Render functions that need dynamic scope skip JIT entirely — no retry
overhead, no silent fallbacks.
- Add (jit-allow name) command for dynamic expansion from Python bridge.
- JIT failures log once with "[jit] DISABLED fn — reason" then go silent.
Standalone --test mode (sx_server.ml):
- New --test flag loads full env (spec + adapters + compiler + signals),
supports --eval and --load flags. Quick kernel testing without Docker.
Example: dune exec bin/sx_server.exe -- --test --eval '(len HTML_TAGS)'
Integration tests (integration_tests.ml):
- New binary exercising the full rendering pipeline: loads spec + adapters
into a server-like env, renders HTML via both native and SX adapter paths.
- 26 tests: HTML tags, special forms (when/if/let), letrec with side
effects, component rendering, eval-expr with HTML tag functions.
- Would have caught the "Undefined symbol: div/lake/init" issues from
the previous commit immediately without Docker.
VM cleanup (sx_vm.ml):
- Remove temporary debug logging (insn counter, call_closure counter,
VmClosure depth tracking) added during debugging.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Core VM changes:
- Add VmClosure value variant — inner closures created by OP_CLOSURE are
first-class VM values, not NativeFn wrappers around call_closure
- Convert `run` from recursive to while-loop — zero OCaml stack growth,
true TCO for VmClosure tail calls
- vm_call handles VmClosure by pushing frame on current VM (no new VM
allocation per call)
- Forward ref _vm_call_closure_ref for cross-boundary calls (CEK/primitives)
Compiler (spec/compiler.sx):
- Define hoisting in compile-begin: pre-allocate local slots for all
define forms before compiling any values. Fixes forward references
between inner functions (e.g. read-expr referencing skip-ws in sx-parse)
- scope-define-local made idempotent (skip if slot already exists)
Server (sx_server.ml):
- JIT fail-once sentinel: mark l_compiled as failed after first VM runtime
error. Eliminates thousands of retry attempts per page render.
- HTML tag bindings: register all HTML tags as pass-through NativeFns so
eval-expr can handle (div ...) etc. in island component bodies.
- Log VM FAIL errors with function name before disabling JIT.
SSR fixes:
- adapter-html.sx letrec handler: evaluate bindings in proper letrec scope
(pre-bind nil, then evaluate), render body with render-to-html instead of
eval-expr. Fixes island SSR for components using letrec.
- Add `init` primitive to OCaml kernel (all-but-last of list).
- VmClosure handling in sx_runtime.ml sx_call dispatch.
Tests: 971/971 OCaml (+19 new), 0 failures.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
vm_closure now stores the original closure env (vm_closure_env).
GLOBAL_GET walks the closure env chain when the variable isn't in
vm.globals. GLOBAL_SET writes to the correct env in the chain.
This enables JIT compilation of all named functions regardless of
closure depth. No more closure skip check needed.
Pre-compile time back to ~7s (was 37s with closure skip).
Note: sx-parse sibling list parsing still has issues — the root
cause is in how the JIT-compiled letrec + OP_CLOSURE interacts
with the upvalue cell mechanism. Investigation ongoing.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Root cause: sf-letrec returns a thunk (for TCO) but the CEK dispatch
wrapped it as a value without evaluating. The thunk leaked as the
return value of letrec expressions, breaking sx-parse and any function
using letrec.
Fix: step-sf-letrec unwraps the thunk into a CEK state, so the last
letrec body expression is properly evaluated by the CEK machine.
Also:
- compile-letrec: two-phase (nil-init then assign) for mutual recursion
- Skip JIT for inner functions (closure.bindings != globals) in both
vm_call and JIT hook
- vm-reset-fn for sx-parse removed (no longer needed)
- Parser regression test: letrec with mutable pos + recursive sublists
Test results: JS 943/17, OCaml 955/0, Python 747/0
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The closure merging in jit_compile_lambda (copying globals + injecting
closure bindings into vm_env_ref) produces incorrect variable resolution
for inner functions. Symptoms: sx-parse's read-list-loop mishandles
closing parens (siblings become children), parser produces wrong ASTs.
Fix: vm_call skips JIT compilation for lambdas with non-empty closures.
These run on CEK which handles closures correctly. Top-level defines
(empty closure) are still JIT-compiled.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The CSSX colour resolution failure was NOT a JIT compiler bug.
CALL_PRIM looks up primitives table (not env), and parse-int in
the primitives table only handled 1-arg calls. The 2-arg form
(parse-int "699" nil) returned Nil, causing cssx-resolve's colour
branch to fail its and-condition.
Fix: update Sx_primitives.register "parse-int" with same 2-arg
handling as the env binding. Remove the vm-reset-fn workaround.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Islands now render their initial state as HTML on the server, like
React SSR. The client hydrates with reactive behavior on boot.
Root causes fixed:
- is_signal/signal_value now recognize Dict-based signals (from
signals.sx) in addition to native Signal values
- Register "context" as a primitive so the CEK deref frame handler
can read scope stacks for reactive tracking
- Load adapter-html.sx into kernel for SX-level render-to-html
(islands use this instead of the OCaml render module)
- Component accessors (params, body, has-children?, affinity) handle
Island values with ? suffix aliases
- Add platform primitives: make-raw-html, raw-html-content,
empty-dict?, for-each-indexed, cek-call
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Server now renders page content as HTML inside <div id="sx-root">,
visible immediately before JavaScript loads. The SX source is still
included in a <script data-mount="#sx-root"> tag for client hydration.
SSR pipeline: after aser produces the SX wire format, parse and
render-to-html it (~17ms for a 22KB page). Islands with reactive
state gracefully fall back to empty — client hydrates them.
Supporting changes:
- Load signals.sx into OCaml kernel (reactive primitives for island SSR)
- Add cek-call and context to kernel env (needed by signals/deref)
- Island-aware component accessors in sx_types.ml
- render-to-html handles Island values (renders as component with fallback)
- Fix 431 (Request Header Fields Too Large): replace SX-Components
header (full component name list) with SX-Components-Hash (12 chars)
- CORS allow SX-Components-Hash header
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Fix infinite recursion in VM JIT: restore sentinel pre-mark in vm_call
and pre-compile loop so recursive compiler functions don't trigger
unbounded compilation cascades. Runtime VM errors fall back to CEK;
compile errors surface visibly (not silently swallowed).
New: compile-quasiquote emits inline code instead of delegating to
qq-expand-runtime. Closure-captured variables merged into VM globals
so compiled closures resolve outer bindings via GLOBAL_GET.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The second get implementation in sx_runtime.ml (used by transpiled code)
was still raising on type mismatches. Now returns nil like sx_primitives.
Remove per-call [vm-call-closure] FAIL logging — the jit-hook already
logs failures at the right level. Reduces 70K log lines to ~5.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Replace continuation-based scope frames with hashtable stacks for all
scope operations. The CEK evaluator's scope/provide/context/emit!/emitted
now use scope-push!/pop!/peek/emit! primitives (registered in
sx_primitives table) instead of walking continuation frames.
This eliminates the two-world problem where the aser used hashtable
stacks (scope-push!/pop!) but eval-expr used continuation frames
(ScopeFrame/ScopeAccFrame). Now both paths share the same mechanism.
Benefits:
- scope/context works inside eval-expr calls (e.g. (str ... (context x)))
- O(1) scope lookup vs O(n) continuation walking
- Simpler — no ScopeFrame/ScopeAccFrame/ProvideFrame creation/dispatch
- VM-compiled code and CEK code both see the same scope state
Also registers scope-push!/pop!/peek/emit!/collect!/collected/
clear-collected! as real primitives (sx_primitives table) so the
transpiled evaluator can call them directly.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- get primitive returns nil for type mismatches (list+string) instead
of raising — matches JS/Python behavior, fixes find-nav-match errors
- scope-peek, collect!, collected, clear-collected! registered as real
primitives in sx_primitives table (not just env bindings) so the CEK
step-sf-context can find them via get-primitive
- step-sf-context checks scope-peek hashtable BEFORE walking CEK
continuation — bridges aser's scope-push!/pop! with CEK's context
- context, emit!, emitted added to SPECIAL_FORM_NAMES and handled in
aser-special (scope operations in aser rendering mode)
- sx-context NativeFn for VM-compiled code paths
- VM execution errors no longer mark functions as permanently failed —
bytecode is correct, errors are from runtime data
- kbd, samp, var added to HTML_TAGS + sx-browser.js rebuilt
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
