All VM tests green: closures with shared mutable upvalues, map/filter/
for-each via CALL_PRIM, recursive functions, nested closures.
Auto-compile disabled: replacing individual Lambdas with NativeFn VM
wrappers changes how the CEK dispatches calls, causing scope errors
when mixed CEK+VM execution hits aser-expand-component. The fix is
compiling the ENTIRE aser render path to run on the VM — no mixing.
The VM infrastructure is complete and tested. Next step: compile
adapter-sx.sx as a whole module, run the aser on the VM.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Two fixes:
1. HO forms (map/filter/for-each/reduce): registered as Python
primitives so compiler emits OP_CALL_PRIM (direct dispatch to
OCaml primitive) instead of OP_CALL (which routed through CEK
HO special forms and failed on NativeFn closure args).
2. Mutable closures: locals captured by closures now share an
upvalue_cell. OP_LOCAL_GET/SET check frame.local_cells first —
if the slot has a shared cell, read/write through it. OP_CLOSURE
creates or reuses cells for is_local=1 captures. Both parent
and closure see the same mutations.
Frame type extended with local_cells hashtable for captured slots.
40/40 tests pass:
- 12 compiler output tests
- 18 VM execution tests (arithmetic, control flow, closures,
nested let, higher-order, cond, string ops)
- 10 auto-compile pattern tests (recursive, map, filter,
for-each, mutable closures, multiple closures, type dispatch)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The vm-compile replaces Lambda values with NativeFn wrappers.
When the VM can't execute (missing env vars, unsupported ops),
it falls back to cek_call. But cek_call needs proper Env values
that the snapshot doesn't provide.
Fix needed: VM closures must capture the LIVE env (not snapshot),
or the CEK fallback must construct a proper Env from the globals.
Disabling until this is resolved.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Added vm-compile command: iterates env, compiles lambdas to bytecode,
replaces with NativeFn VM wrappers (with CEK fallback on error).
Tested: 3/109 compile, reduces CEK steps 23%.
Disabled auto-compile in production — the compiler doesn't handle
closures with upvalues yet, and compiled functions that reference
dynamic env vars crash. Infrastructure stays for when compiler
handles all SX features.
Also: added set-nth! and mutable-list primitives (needed by
compiler.sx for bytecode patching). Fixed compiler.sx to use
mutable lists on OCaml (ListRef for append!/set-nth! mutation).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
After loading .sx files, (vm-compile) iterates all named lambdas,
compiles each body to bytecode, replaces with NativeFn VM wrapper.
Results: 3/109 functions compiled (compiler needs more features).
CEK steps: 49911 → 38083 (23% fewer) for home page.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Eliminated double-aser for HTMX requests: build OOB wrapper AST
(~shared:layout/oob-sx :content wrapped_ast) and aser_slot in ONE
pass — same pattern as the full-page path. Halves aser_slot calls.
Added kernel-side timing to stderr:
[aser-slot] eval=3.6s io_flush=0.0s batched=3 result=22235 chars
Results show batch IO works (io_flush=0.0s for 3 highlight calls)
and the bottleneck is pure CEK evaluation time, not IO.
Performance after single-pass fix:
Home: 0.7s eval (was 2.2s total)
Reactive: 3.6s eval (was 6.8s total)
Language: 1.1s eval (was 18.9s total — double-aser eliminated)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
OCaml kernel (sx_server.ml):
- Batch IO mode for aser-slot: batchable helpers (highlight,
component-source) return placeholders during evaluation instead
of blocking on stdin. After aser completes, all batched requests
are flushed to Python at once.
- Python processes them concurrently with asyncio.gather.
- Placeholders (using «IO:N» markers) are replaced with actual
values in the result string.
- Non-batchable IO (query, action, ctx, request-arg) still uses
blocking mode — their results drive control flow.
Python bridge (ocaml_bridge.py):
- _read_until_ok handles batched protocol: collects io-request
lines with numeric IDs, processes on (io-done N) with gather.
- IO result cache for pure helpers — eliminates redundant calls.
- _handle_io_request strips batch ID from request format.
Component caching (jinja_bridge.py):
- Hash computed from FULL component env (all names + bodies),
not per-page subset. Stable across all pages — browser caches
once, no re-download on navigation between pages.
- invalidate_component_hash() called on hot-reload.
Tests: 15/15 OCaml helper tests pass (2 new batch IO tests).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Root cause: OcamlBridge._send() used write() without drain().
asyncio.StreamWriter buffers writes — without drain(), multiple
commands accumulate and flush as a batch. The kernel processes
them sequentially, sending responses, but Python only reads one
response per command → pipe desync → "unexpected response" errors.
Fix: _send() is now async, calls drain() after every write.
All 14 callers updated to await.
Playwright tests rewritten:
- test_home_has_header: verifies #logo-opacity visible (was only
checking for "sx" text — never caught missing header)
- test_home_has_nav_children: Geography link must be visible
- test_home_has_main_panel: #main-panel must have child elements
- TestDirectPageLoad: fresh browser.new_context() per test to
avoid stale component hash in localStorage
- _setup_error_capture + _check_no_fatal_errors helpers
_render_to_sx uses aser_slot (not aser) — layout wrappers contain
re-parsed content that needs full expansion capability.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Three fixes completing the aser_slot migration:
1. Single-pass full-page rendering: eval_sx_url builds layout+content
AST and aser_slots it in ONE call — avoids double-aser where
re-parsed content hits "Undefined symbol: title/deref" errors.
2. Pipe desync fix: _inject_helpers_locked runs INSIDE the aser_slot
lock acquisition (not as a separate lock). Prevents interleaved
commands from other coroutines between injection and aser-slot.
3. _render_to_sx uses aser_slot (not aser): layout wrappers like
oob_page_sx contain re-parsed content from earlier aser_slot
calls. Regular aser fails on symbols that were bound during
the earlier expansion. aser_slot handles them correctly.
HTMX path: aser_slot the content, then oob_page_sx wraps it.
Full page path: build (~shared:layout/app-body :content wrapped_ast),
aser_slot in one pass, pass directly to sx_page.
New Playwright tests: test_navigate_geography_to_reactive,
test_direct_load_reactive_page.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Fix: islands (defisland) pass component? check but must NEVER be
expanded server-side — they use browser-only reactive primitives
(signal, deref, computed). Added (not (island? comp)) guard in
adapter-sx.sx aser component dispatch.
New test file: shared/sx/tests/test_ocaml_helpers.py
- TestHelperInjection: 5 tests — helper IO proxy, 2-arg calls,
aser/aser_slot with helpers, undefined helper error
- TestHelperIOPerformance: 2 tests — 20 sequential IO round-trips
complete in <5s, aser_slot with 5 helpers in <3s
- TestAserSlotClientAffinity: 6 tests — island exclusion, client
affinity exclusion, server affinity expansion, auto affinity
behavior in aser vs aser_slot
eval_sx_url stays on bridge.aser() (server-affinity only) for now.
Switching to aser_slot requires fixing the double-aser issue in
_render_to_sx where content gets re-parsed and re-asered.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Three bugs in aser-expand-component (adapter-sx.sx):
- Keyword values were eval'd (eval-expr can't handle <>, HTML tags);
now asered, matching the aser's rendering capabilities
- Missing default nil binding for unset &key params (caused
"Undefined symbol" errors for optional params like header-rows)
- aserCall string-quoted keyword values that were already serialized
SX — now inlines values starting with "(" directly
Server-affinity annotations for layout/nav shells:
- ~shared:layout/app-body, ~shared:layout/oob-sx — page structure
- ~layouts/nav-sibling-row, ~layouts/nav-children — server-side data
- ~layouts/doc already had :affinity :server
- ~cssx/flush marked :affinity :client (browser-only state)
Navigation fix: restore oob_page_sx wrapper for HTMX responses
so #main-panel section exists for sx-select/sx-swap targeting.
OCaml bridge: lazy page helper injection into kernel via IO proxy
(define name (fn (...) (helper "name" ...))) — enables aser_slot
to evaluate highlight/component-source etc. via coroutine bridge.
Playwright tests: added pageerror listener to test_no_console_errors,
new test_navigate_from_home_to_geography for HTMX nav regression.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- ocaml_bridge: 10MB readline buffer for large spec explorer responses
- nav-data: evaluator.sx filename (was eval.sx, actual spec file is evaluator.sx)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Major architectural change: page function dispatch and handler execution
now go through the OCaml kernel instead of the Python bootstrapped evaluator.
OCaml integration:
- Page dispatch: bridge.eval() evaluates SX URL expressions (geography, marshes, etc.)
- Handler aser: bridge.aser() serializes handler responses as SX wire format
- _ensure_components loads all .sx files into OCaml kernel (spec, web adapter, handlers)
- defhandler/defpage registered as no-op special forms so handler files load
- helper IO primitive dispatches to Python page helpers + IO handlers
- ok-raw response format for SX wire format (no double-escaping)
- Natural list serialization in eval (no (list ...) wrapper)
- Clean pipe: _read_until_ok always sends io-response on error
SX adapter (aser):
- scope-emit!/scope-peek aliases to avoid CEK special form conflict
- aser-fragment/aser-call: strings starting with "(" pass through unserialized
- Registered cond-scheme?, is-else-clause?, primitive?, get-primitive in kernel
- random-int, parse-int as kernel primitives; json-encode, into via IO bridge
Handler migration:
- All IO calls converted to (helper "name" args...) pattern
- request-arg, request-form, state-get, state-set!, now, component-source etc.
- Fixed bare (effect ...) in island bodies leaking disposer functions as text
- Fixed lower-case → lower, ~search-results → ~examples/search-results
Reactive islands:
- sx-hydrate-islands called after client-side navigation swap
- force-dispose-islands-in for outerHTML swaps (clears hydration markers)
- clear-processed! platform primitive for re-hydration
Content restructuring:
- Design, event bridge, named stores, phase 2 consolidated into reactive overview
- Marshes split into overview + 5 example sub-pages
- Nav links use sx-get/sx-target for client-side navigation
Playwright test suite (sx/tests/test_demos.py):
- 83 tests covering hypermedia demos, reactive islands, marshes, spec explorer
- Server-side rendering, handler interactions, island hydration, navigation
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Evaluator: data-first higher-order forms — ho-swap-args auto-detects
(map coll fn) vs (map fn coll), both work. Threading + HO: (-> data
(map fn)) dispatches through CEK HO machinery via quoted-value splice.
17 new tests in test-cek-advanced.sx.
Fix plan pages: add mother-language, isolated-evaluator, rust-wasm-host
to page-functions.sx plan() — were in defpage but missing from URL router.
Aser error handling: pages.py now catches EvalError separately, renders
visible error banner instead of silently sending empty content. All
except blocks include traceback in logs.
Scope primitives: register collect!/collected/clear-collected!/emitted/
emit!/context in shared/sx/primitives.py so hand-written _aser can
resolve them (fixes ~cssx/flush expansion failure).
New test file: shared/sx/tests/test_aser_errors.py — 19 pytest tests
for error propagation through all aser control flow forms.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- Override evalExpr/trampoline in CEK_FIXUPS_JS to route through
cekRun (matching what Python already does)
- Always include frames+cek in JS builds (not just when DOM present)
- Remove CONTINUATIONS_JS extension (CEK handles shift/reset natively)
- Remove Continuation constructor guard (always define it)
- Add strict-mode type checking to CEK call path via head-name
propagation through ArgFrame
Standard build: 746/747 passing (1 dotimes macro edge case)
Full build: 858/870 passing (6 continuation edge cases, 5 deftype
issues, 1 dotimes — all pre-existing CEK behavioral differences)
The tree-walk eval-expr, eval-list, eval-call, and all sf-*/ho-*
forms in eval.sx are now dead code — never reached at runtime.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Python: bootstrap.py, platform.py, transpiler.sx, boundary_parser.py, tests/
JavaScript: bootstrap.py, cli.py, platform.py, transpiler.sx
Both bootstrappers verified — build from new locations, output to shared/.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Dedicated page documenting and demonstrating content-addressed
computation. How it works, why it matters, the path to IPFS.
Live demo: counter + name widget with CID generation, history,
and restore-from-CID input.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Hash frozen SX to a content identifier (djb2 → hex). Same state
always produces the same CID. Store by CID, retrieve by CID.
- content-hash: djb2 hash of SX text → hex string
- content-put/get: in-memory content store
- freeze-to-cid: freeze scope → store → return CID
- thaw-from-cid: look up CID → thaw signals
- char-code-at / to-hex primitives for both platforms
- Live demo: counter + name widget, content-address button,
CID display, restore from CID input, CID history
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- freeze-scope "home-stepper" captures step-idx signal
- Each step/back saves to localStorage via freeze-to-sx
- On mount, restores from localStorage via thaw-from-sx
- Invalid state resets to default (step 9)
- Clear preview lake before replay to prevent duplicates
- Register local-storage-get/set/remove as primitives
- Arrows 3x bigger
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Replace raw CEK state serialization with named freeze scopes.
A freeze scope collects signals registered within it. On freeze,
signal values are serialized to SX. On thaw, values are restored.
- freeze-scope: scoped effect delimiter for signal collection
- freeze-signal: register a signal with a name in the current scope
- cek-freeze-scope / cek-thaw-scope: freeze/thaw by scope name
- freeze-to-sx / thaw-from-sx: full SX text round-trip
- cek-freeze-all / cek-thaw-all: batch operations
Also: register boolean?, symbol?, keyword? predicates in both
Python and JS platforms with proper var aliases.
Demo: counter + name input with Freeze/Thaw buttons.
Frozen SX: {:name "demo" :signals {:count 5 :name "world"}}
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Documents and demonstrates serializable CEK state. Type an expression,
step to any point, click Freeze to see the frozen SX. Click Thaw to
resume from the frozen state and get the result.
- New page at /sx/(geography.(cek.freeze))
- Nav entry under CEK Machine
- Interactive island demo with step/run/freeze/thaw buttons
- Documentation: the idea, freeze format, thaw/resume, what it enables
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Freeze a CEK state to pure s-expressions. Thaw it back to a live
state and resume with cek-run. Full round-trip through SX text works:
freeze → sx-serialize → sx-parse → thaw → resume → same result.
- cek-freeze: serialize control/env/kont/value to SX dicts
- cek-thaw: reconstruct live state from frozen SX
- Native functions serialize as (primitive "name"), looked up on resume
- Lambdas serialize as (lambda (params) body)
- Environments serialize as flat dicts of visible bindings
- Continuation frames serialize as typed dicts
Enables: localStorage persistence, content-addressed computation,
cross-machine migration, time-travel debugging.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Home page stepper: reactive code view with syntax colouring where
tokens highlight as you step through DOM construction. Each token
is a span with signal-driven classes — current step bold+violet,
completed steps dimmed, upcoming normal. CSSX styling via ~cssx/tw
spreads. Lake preserves imperative DOM across reactive re-renders.
Also fixes: bare lowercase 'nil' in platform_js.py eventDetail and
domGetData — should be NIL (the SX sentinel object).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Cache the style element reference in _cssx-style-el so flush-cssx-to-dom
never creates more than one. Previous code called dom-query on every
flush, which could miss the element during rapid successive calls,
creating duplicates.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
A defisland that lets users type an SX expression, step through CEK
evaluation one transition at a time, and see C/E/K registers update
live. Demonstrates that cek-step is pure data->data.
- cek.sx geography: add ~geography/cek/demo-stepper island with
source input, step/run/reset buttons, state display, step history
- platform_js.py: register CEK stepping primitives (make-cek-state,
cek-step, cek-terminal?, cek-value, make-env, sx-serialize) so
island code can access them
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Higher-order forms now step element-by-element through the CEK machine
using dedicated frames instead of delegating to tree-walk ho-map etc.
Each callback invocation goes through continue-with-call, so deref-as-shift
works inside map/filter/reduce callbacks in reactive island contexts.
- cek.sx: rewrite step-ho-* to use CEK frames, add frame handlers in
step-continue for map, filter, reduce, for-each, some, every
- frames.sx: add SomeFrame, EveryFrame, MapIndexedFrame
- test-cek-reactive.sx: add 10 tests for CEK-native HO forms
89 tests pass (20 signal + 43 CEK + 26 CEK reactive).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Completes the invoke→cek-call migration across all spec .sx files:
- adapter-sx.sx: map/filter/for-each in aser wire format
- adapter-dom.sx: island render update-fn
- engine.sx: fetch transform callback
- test-cek-reactive.sx: disposal test
Only async-invoke (adapter-async.sx) remains — separate async pattern.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
All signal operations (computed, effect, batch, etc.) now dispatch
function calls through cek-call, which routes SX lambdas via cek-run
and native callables via apply. This replaces the invoke shim.
Key changes:
- cek.sx: add cek-call (defined before reactive-shift-deref), replace
invoke in subscriber disposal and ReactiveResetFrame handler
- signals.sx: replace all 11 invoke calls with cek-call
- js.sx: fix octal escape in js-quote-string (char-from-code 0)
- platform_js.py: fix JS append to match Python (list concat semantics),
add Continuation type guard in PLATFORM_CEK_JS, add scheduleIdle
safety check, module ordering (cek before signals)
- platform_py.py: fix ident-char regex (remove [ ] from valid chars),
module ordering (cek before signals)
- run_js_sx.py: emit PLATFORM_CEK_JS before transpiled spec files
- page-functions.sx: add cek and provide page functions for SX URLs
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Two bugs in _emit_define_as_def: (1) nested def's _current_cell_vars
was replaced instead of unioned with parent — inner functions lost
access to parent's cell vars (skip_ws/skip_comment used bare pos
instead of _cells['pos']). (2) statement-context set! didn't check
_current_cell_vars, always emitting bare assignment instead of
_cells[...]. (3) nested functions that access parent _cells no longer
shadow it with their own empty _cells = {}.
Fixes UnboundLocalError in bootstrapped parser (sx_parse skip_ws)
that crashed production URL routing.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Replace hand-written serialize/sx_serialize/sx_parse in Python with
spec-derived versions from parser.sx. Add parser as a Python adapter
alongside html/sx/async — all 48 parser spec tests pass.
Add reactive runtime plan to sx-docs: 7 feature layers (ref, foreign
FFI, state machines, commands with undo/redo, render loops, keyed
lists, client-first app shell) — zero new platform primitives.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
run_type_tests.py, run_signal_tests.py, run_continuation_tests.py all
needed the same sx_ref.eval_expr/trampoline override to tree-walk that
was applied to the CEK test runners. Without this, transpiled HO forms
(ho_map, etc.) re-entered CEK mid-evaluation causing "Unknown frame
type: map" errors. All 186 tests now pass across 5 suites.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
test-cek-reactive.sx: 9 tests across 4 suites — deref pass-through,
signal without reactive-reset, reactive-reset shift with continuation
capture, scope disposal cleanup. run_cek_reactive_tests.py: new runner
loading signals+frames+cek. Both test runners override sx_ref.eval_expr
back to tree-walk so interpreted .sx uses tree-walk internally.
Plan page added to sx-docs.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
frames.sx: ReactiveResetFrame + DerefFrame constructors,
kont-capture-to-reactive-reset, has-reactive-reset-frame?.
cek.sx: deref as CEK special form, step-sf-deref pushes DerefFrame,
reactive-shift-deref captures continuation as signal subscriber,
ReactiveResetFrame in step-continue calls update-fn on re-render.
adapter-dom.sx: cek-reactive-text/cek-reactive-attr using cek-run
with ReactiveResetFrame for implicit DOM bindings.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
SPEC_MODULES + SPEC_MODULE_ORDER for frames/cek in platform_js.py,
PLATFORM_CEK_JS + CEK_FIXUPS_JS constants, auto-inclusion in
run_js_sx.py, 70+ RENAMES in js.sx. Python: CEK always-include in
bootstrap_py.py, eval_expr/trampoline overridden to cek_run in
platform_py.py with _tree_walk_* preserved for test runners.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Replace _Signal class (Python) and SxSignal constructor (JS) with plain
dicts keyed by "__signal". Nine platform accessor functions become ~20
lines of pure SX in signals.sx. type-of returns "dict" for signals;
signal? is now a structural predicate (dict? + has-key?).
Net: -168 lines platform, +120 lines SX. Zero platform primitives for
reactivity — signals compile to any host via the bootstrappers.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Reactive tracking (deref/computed/effect dep discovery) and island lifecycle
now use the general scoped effects system instead of parallel infrastructure.
Two scope names: "sx-reactive" for tracking context, "sx-island-scope" for
island disposable collection. Eliminates ~98 net lines: _TrackingContext class,
7 tracking context platform functions (Python + JS), *island-scope* global,
and corresponding RENAME_MAP entries. All 20 signal tests pass (17 original +
3 new scope integration tests), plus CEK/continuation/type tests clean.
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
- Add `scope` special form to eval.sx: (scope name body...) or
(scope name :value v body...) — general dynamic scope primitive
- `provide` becomes sugar: (provide name value body...) calls scope
- Rename provide-push!/provide-pop! to scope-push!/scope-pop! throughout
all adapters (async, dom, html, sx) and platform implementations
- Update boundary.sx: Tier 5 now "Scoped effects" with scope-push!/
scope-pop! as primary, provide-push!/provide-pop! as aliases
- Add scope form handling to async adapter and aser wire format
- Update sx-browser.js, sx_ref.py (bootstrapped output)
- Add scopes.sx docs page, update provide/spreads/demo docs
- Update nav-data, page-functions, docs page definitions
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Spreads now emit their attrs into the nearest element's provide scope
instead of requiring per-child spread? checks at every intermediate
layer. emit! is tolerant (no-op when no provider), so spreads in
non-element contexts silently vanish.
- adapter-html: element/lake/marsh wrap children in provide, collect
emitted; removed 14 spread filters from fragment, forms, components
- adapter-sx: aser wraps result to catch spread values from fn calls;
aser-call uses provide with attr-parts/child-parts ordering
- adapter-async: same pattern for both render and aser paths
- adapter-dom: added emit! in spread dispatch + provide in element
rendering; kept spread? checks for reactive/island and DOM safety
- platform: emit! returns NIL when no provider instead of erroring
- 3 new aser tests: stored spread, nested element, silent drop
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
