lowerAsmExpr stops bailing and builds the inline_asm op: resolves each operand's
effective name (§II.5 — explicit [name] else the {reg} pin), interns
template/constraints/clobbers, lowers input Refs, derives the result TypeId
(0→void, 1→T). Adds the last deferred validation (every %[name] must name an
operand). Multi-output (N>1) bails with a named "Phase E" diagnostic.
emitInlineAsm (backend/llvm/ops.zig) ports Zig's airAssembly: assembles the LLVM
constraint string (outputs → inputs → ~{clobber}, ',' → '|'), rewrites the
template (%[name]→${N}, %%→%, $→$$, %=→${:uid}), then LLVMGetInlineAsm +
LLVMBuildCall2 (AT&T dialect). Dispatch wired in emit_llvm.zig (replacing the C.0
@panic tripwire).
inferType gains an .asm_expr arm (expr_typer.zig) so a bare `x := asm {…-> T}`
binding types correctly — without it the binding inferred .unresolved and
silently produced 0.
llvm_shim.c: LLVMInitializeNativeAsmParser() — the JIT must assemble inline asm
at run time.
Verified end-to-end on the aarch64 host: `mov`/`add` with register-class inputs
and a value output run (exit 42/99), `nop volatile` runs (exit 0). IR is
textbook: `call i64 asm "add ${0},${1},${2}", "=r,r,r"(…)`.
Locked with 1645 (aarch64 add, runs; ir-only on non-aarch64) + 1646 (:= binding).
Updated 1640 (now Phase-E bail) + 1642 (now runs).
zig build test green (654 corpus, 446 unit).
Adds the `inline_asm: InlineAsm` opcode to the IR Op union (inst.zig): interned
template + operand list (role/name/constraint/operand) + interned clobber names
+ has_side_effects; the result rides on Inst.ty (void / scalar / tuple).
The new variant forces coverage in the exhaustive Op switches:
- interp.zig: loud bailDetail — inline asm is never comptime-evaluable.
- print.zig: an IR-dump arm.
- emit_llvm.zig: a @panic TRIPWIRE — emit lands in Phase D, and until then
lowerAsmExpr still bails, so no inline_asm op is ever created. Reaching emit
would mean lowering switched over before emit was ready; crash loudly rather
than miscompile.
No behavior change: lowering still bails, the op is constructed only in the new
`inline_asm op shape` unit test (inst.test.zig).
zig build test green (652 corpus, 446 unit).
Extends lowerAsmExpr with a pinnedRegister(constraint) helper and two §II.5
operand-naming checks, in the compile path before the codegen bail:
- reject the echo form `[eax] "={eax}"` — a label identical to the register its
own constraint pins is redundant (the operand is already auto-named after the
register); the useful form is a label that differs (`[quot] "={rax}"`);
- reject duplicate operand names (ambiguous %[name] / result field).
Locked with 1643-platform-asm-echo-name and 1644-platform-asm-duplicate-name.
zig build test green (652 corpus, 445 unit).
Restructures the .asm_expr lowering arm into lowerAsmExpr, which validates the
asm shape with specific named diagnostics BEFORE the not-yet-implemented codegen
bail, so the user sees the real problem first. Two checklist items enforced:
- template must be a compile-time-known string ("..." or #string), not a
runtime expression;
- an asm with no value outputs must be `volatile` (else its effects could be
deleted) — mirrors Zig's rule.
Valid shapes still bail with the "codegen not yet implemented" message. Result-
type derivation + the operand auto-naming rule stay deferred to Phase C, where a
real IR op makes the result type observable/testable.
Locked with 1641-platform-asm-missing-volatile (the volatile error) and
1642-platform-asm-nop-volatile (no-output + volatile accepted → codegen bail).
zig build test green (650 corpus, 445 unit).
`asm volatile? { "tmpl", [name]? "constraint" (-> Type | = expr), …,
clobbers(.…) }` now parses into a flat-operand AsmExpr/AsmOperand (ast.zig +
parser.zig parseAsmExpr, dispatched from parsePrimary on .kw_asm). `volatile`
and `clobbers` are recognized contextually (not reserved). `-> @place`
write-through is rejected with a clear "Phase 2" parse error.
Codegen is not implemented yet (IR op + LLVM emit are Phases C–E), so lowering
bails LOUD + named via an explicit .asm_expr arm in lower/expr.zig (not the
generic unknown_expr else) — emitPlaceholder makes hasErrors() abort the build
on the message.
The new asm_expr tag forced (and got) arms in three exhaustive Node.Data
switches: sema.zig analyzeNode + findNodeAtOffset, semantic_diagnostics.zig
checkBindingNames — each recurses into template + operand payloads.
Design: adopted the operand auto-naming rule (design §II.5) — name auto-derived
from a {reg} pin, explicit [name] only when it differs or for register-class
operands, echo form rejected. Typing-stage rule; parser stores name: ?[]const u8.
Locked with examples/1640-platform-asm-parse.sx (multi-output divmod: named
operands, register pins, clobbers — parses then bails, called from main).
Also files issue 0137 (pre-existing, orthogonal: `sx run` with no `main`
segfaults via an unguarded JIT entry lookup in target.zig — not an asm bug).
zig build test green (648 corpus, 445 unit).
`asm` now lexes as a dedicated `kw_asm` keyword (Token.Tag + keyword map entry).
`volatile` and `clobbers` stay out of the global keyword table — they are
recognized contextually only inside an `asm { … }` body (PLAN-ASM Deviation 4).
- token.zig: kw_asm tag + `.{ "asm", .kw_asm }` map entry.
- lsp/server.zig: classifyToken exhaustive switch gained the .kw_asm arm
(the new enum value forced coverage — intended tripwire).
- lexer.test.zig (new, wired into root.zig barrel): locks `asm`->kw_asm and
`volatile`/`clobbers`->identifier.
Lock commit (behavior-locking passing test). zig build test green (445 unit).
When a `.build` target doesn't match the host, the runner can't execute the
example here, so it verifies via `sx ir --target` only: asserts exit + the `.ir`
snapshot (stdout) + diagnostics (stderr), never `.stdout`. An `.ir` snapshot is
REQUIRED in ir-only mode — its absence is a loud failure, never a silent pass.
- corpus_run.test.zig: ir_only flag (target set & !hostMatchesTarget); first
dispatch arm runs `sx ir`, sets act_exit/act_err/act_ir; skip stdout in both
update and verify modes; require ir_raw.
- lock fixture 1639-platform-target-cross (asm-free main, target x86_64-linux,
checked-in .ir). Verified: corrupt .ir => IR mismatch; delete .ir => require
failure.
Test-infra only; no compiler code. zig build test green (647 corpus, 444 unit).
A parse error raised while resolving an `#import` was rendered against the
ROOT file's source — the caret landed on an unrelated line (often a comment)
even though the message named the correct imported file.
Two compounding causes:
- core.zig wired `diagnostics.import_sources` only AFTER import resolution
returned, but a parse error aborts mid-resolution (before that wiring), so
the renderer had no imported sources and fell back to the root file. Wire it
(and seed the main-file source) BEFORE resolving.
- imports.zig emitted the diagnostic at the importer's `#import` span instead
of the parser's actual error offset inside the imported file, and didn't pin
the diagnostic's source_file to that file.
parser.zig now records `err_end` alongside `err_offset` for a proper caret
width. New `DiagnosticList.addFmtInFile` renders against an explicit source
file; imports.zig uses it with `importErrSpan(&p)`.
Regression test: examples/1176-diagnostics-import-parse-error-location
(importer + deliberately-broken companion; caret must land in the companion).
Two post-stream follow-ups flagged in CHECKPOINT-EXTERN-EXPORT.md, plus a
reproducible vscode-extension packaging setup:
- parser: drop the vestigial `RuntimeClassPrefix.is_extern` field and
`parseRuntimeClassDecl`'s `is_extern` param. Always false since the
`#foreign` token was deleted; the postfix `extern`/`export` keyword is the
sole reference-vs-define decider. No behavior change (644 corpus / 442 unit).
- vscode grammar: highlight `extern`/`export` as `storage.modifier.sx`.
- vscode packaging: declare `@vscode/vsce` as a devDep + add `package` /
`vscode:prepublish` scripts so the vsix rebuilds reproducibly (was an
ambient tool). Add repository/homepage/bugs (Gitea), icon (swipelab logo,
256x256), galleryBanner, README with cover banner. Rebuilt the vsix.
Per user directive (total purge): remove the hash_foreign token entirely rather than
keep it for a friendly deprecation message. Deleted: the token enum (token.zig), the
lexer keyword entry + directive-list mention + lex test (lexer.zig), the 4 parser
rejection sites + 2 lookahead clauses + the runtime-class prefix #foreign peek arm
(parser.zig), and the lsp completion arm (server.zig). '#foreign' now lexes as an
invalid '#' token → a generic 'expected ;' parse error (no migration hint — the
accepted UX cost of zero-foreign). Deleted examples/1176-diagnostics-foreign-removed
(its purpose, the friendly rejection, no longer exists).
src/ now contains ZERO 'foreign' (case-insensitive). Suite green (645 corpus / 443
unit, 0 failed). Remaining for the 9.4 gate: issues/*.md prose + example filenames.
Reword every 'foreign' comment to the extern/runtime-class vocabulary matching the
renamed identifiers (foreign call→extern call, foreign class→runtime class, foreign
path→runtime path, the #foreign-literal comment mentions → extern, etc.). Also fixes
two USER-FACING issues: the 'expected … #foreign … after type annotation' parse error
no longer advertises the removed keyword, and the Android 'no #jni_main' help
diagnostic now shows '#jni_class(…) extern' instead of the rejected '#foreign
#jni_class'. Removed the now-dead prefix-#foreign-vs-postfix conflict branch in
parseRuntimeClassDecl (the caller rejects #foreign before it runs).
src/ now contains 'foreign' ONLY in the hash_foreign token machinery + its 4
rejection messages — the deprecation mechanism (kept per the 9.0 recommendation; the
message MUST name #foreign to guide migration). Snapshot-neutral; suite green
(646 corpus / 444 unit, 0 failed).
The JNI/runtime-class path (Decision 5, Runtime* family). Coordinated across the
hook boundary so the BuildOptions accessor + its registered hook string stay in sync:
- src/: RuntimeClassDecl.foreign_path→runtime_path, splitForeignPath→splitRuntimePath,
foreignPathToJavaName→runtimePathToJavaName, jni_main_foreign_paths→
jni_main_runtime_paths, hookJniMainForeignPathAt→hookJniMainRuntimePathAt, and the
hook string 'BuildOptions.jni_main_foreign_path_at'→'…runtime_path_at'.
- library/: build.sx accessor jni_main_foreign_path_at→jni_main_runtime_path_at +
bundle.sx call sites + the local var → runtime_path + a comment.
- specs.md: the accessor name + <foreign_path_with_dots> doc refs.
- Regenerated 37 .ir snapshots: every program importing build declares the renamed
@BuildOptions.jni_main_runtime_path_at hook stub — symbol-name change only (verified
the .ir diff is ONLY this rename; reverted orthogonal empty-file normalization).
Suite green (646 corpus / 444 unit, 0 failed).
Per user feedback: don't introduce new terminology. The RuntimeClassDecl
reference-vs-define flag (set by the postfix 'extern' modifier, == old prefix
'#foreign #objc_class') is named is_extern, matching the keyword that drives it
and the existing is_extern on VarDecl/IR. Renamed is_reference→is_extern,
is_reference_eff→is_extern_eff; updated the field comment. Snapshot-neutral; green.
checkForeignRefs→checkExternRefs, validateForeignRefs→validateExternRefs,
collectForeignRefTargets→collectExternRefTargets — these police 'extern LIB' library
references (linkage axis), so Extern not Runtime. Snapshot-neutral; suite green.
The runtime-class object-model identifiers (Decision 5): parse/lower/find/resolve/
register/stamp fns Foreign→Runtime (parseRuntimeClassDecl, lowerRuntimeMethodCall,
findRuntimeMethodInChain, resolveRuntimeMethodReturnType, registerRuntimeClassDecl,
runtimeClassStructType, runtimeKindForOffset, …); state foreign_class_map→
runtime_class_map, current_foreign_class/_method→current_runtime_*, the
foreign_class_decl union variant→runtime_class_decl, foreign_method/static/instance/
class→runtime_*; and the reference-vs-define flag is_foreign→is_reference (+
is_foreign_eff→is_reference_eff) now that it only lives on RuntimeClassDecl.
Snapshot-neutral; suite green (646/444).
Remaining 9.2: the foreign_path family (coupled .sx hooks: jni_main_foreign_path_at
spans build.sx/bundle.sx/compiler_hooks.zig/specs.md) + the extern-ref validators
(checkForeignRefs etc. → Extern, linkage not runtime) + bare 'foreign' comments.
The last linkage-family 'foreign' carrier. Migrated c_import.zig auto-synthesis
(#import c {#include}) to build the extern shape (empty-block body + extern_export
= .extern_) instead of a foreign_expr body — the Phase 5.0 fn-body flip applied to
auto-synth. With nothing left building it, deleted the foreign_expr union variant +
ForeignExpr struct (ast.zig) and every reader: the dead-arm switch cases (sema,
resolver, generic, call, semantic_diagnostics, lsp), the coalescing reads in
decl.zig (is_foreign local, cc/rename/dedup/variadic/visibility gates) + pack.zig,
and checkForeignRefs (now reads extern_lib only). 9.1 LINKAGE PURGE COMPLETE — all
that remains in src/ is the runtime-class family (9.2) + comments. Snapshot-neutral
(the #import c examples 1215/1216/1217 + sqlite 1624 exercise the synth path); suite
green (646 corpus / 444 unit, 0 failed).
VarDecl carried BOTH the legacy is_foreign/foreign_lib/foreign_name AND the new
is_extern/extern_lib/extern_name (parallel forms coalesced during the migration).
The global #foreign parse path now rejects, so the legacy trio is write-dead and
read in only 3 coalescing sites (decl.zig). Simplified those readers
(vd.extern_name orelse vd.name; vd.is_extern) and deleted the dead fields. Build
confirms no other setter/reader. Snapshot-neutral; suite green (646/444).
Remaining linkage (9.1): foreign_expr (25, still built by c_import.zig auto-synth)
+ ForeignClassDecl.is_foreign (runtime-class, → 9.2). Runtime-class family (9.2,
Decision 5) is the big remaining src/ rename.
The dup-C-symbol diagnostic (decl.zig) and the resolveFuncByName panic (call.zig)
now say 'extern symbol' instead of 'foreign symbol' — the keyword-neutral internal
wording catches up to the extern-only surface. Intentional snapshot regen of 1172
(the only assertion of this message). Suite green (646/444).
Mechanical src/ rename of the linkage-family identifiers whose extern_* target is
collision-free: callForeign→callExtern, marshalForeignArg→marshalExternArg,
dedupeForeignSymbol→dedupeExternSymbol, foreign_name_map→extern_name_map,
is_foreign_c_api→is_extern_c_api. Snapshot-neutral (internal only); suite green
(646 corpus / 444 unit, 0 failed).
Deferred (need per-site analysis — target name already exists): is_foreign↔is_extern
(38 existing), foreign_lib/foreign_name↔extern_lib/extern_name (15/16 existing),
foreign_expr (still built by c_import.zig auto-synthesis). Runtime-class family
(ForeignClassDecl etc. → Runtime*, Decision 5) is Phase 9.2.
The prefix #foreign linkage directive is removed. All four parse sites
(const-with-type, data global, fn body, runtime-class prefix) now reject it with
a migration message ('#foreign has been removed; use the postfix extern (import) /
export (define) linkage keyword instead'); added a span-aware failAt for the
runtime-class case (the lookahead consumes the token before the reject decision).
Greens the Phase 8.0 xfail 1176.
- Deleted obsolete tests: 1174 (#foreign+postfix conflict — unreachable now that
#foreign alone is rejected) and 1620 (#foreign nosuchunit lib-ref — superseded by
the extern twin 1231). Their assertions tested #foreign-specific behavior.
- Removed the GATE A→B unit test + lowerSrcToIr helper (lower.test.zig): it locked
#foreign ≡ extern through the migration; with #foreign gone there is nothing to
compare. Converted the in-source 'parse void function with foreign body' parser
test to the surviving postfix 'extern' spelling (identical resulting AST).
- specs.md + readme.md drop #foreign; document extern/export as the sole C-linkage
surface.
extern_export in parseFnDecl is now const (the fn-body arm that mutated it is gone).
Suite green (646 corpus / 444 unit, 0 failed). NOTE: comment-only #foreign in
examples + issues/*.md prose + internal foreign_* identifiers remain for Phase 9
(now unblocked: Decision 6 = purge everything).
Phase 5.0 flipped the fn-decl and data-global #foreign parser paths onto the
same extern-named AST that postfix extern produces, so the A→B gate's fn/global
cases are now STRUCTURALLY identical (guaranteed by construction, not empirically
equal). Annotate the gate header to record this and keep it as a regression
tripwire against a future reader re-diverging the two spellings or a revert of
the flip. Add a fn-rename case (extern_name axis: c_abs -> "abs") to broaden
coverage beyond bare import. Test-only; suite green (647 corpus / 444 unit, 0
failed). PHASE 5.1 COMPLETE → PART B Phase 5 done; next Phase 6 (migrate stdlib).
The fn-body `#foreign [LIB] ["csym"]` marker now builds the SAME shape postfix
`extern` produces — extern_export = .extern_ + extern_lib/extern_name + an
empty-block body — instead of a `foreign_expr` body. With all four prereqs
landed (visibility, variadic, plain-free classification, lib-ref validation),
every downstream reader coalesces is_foreign with extern_export, so the IR and
runtime behavior are byte-identical (full corpus + the A->B gate stay green).
The surface keyword is no longer on the AST, so a `#foreign`-spelled decl now
yields `extern`-worded diagnostics — the single accepted churn (Decision 7):
example 1620's lib-ref error flips '#foreign library' -> 'extern library'.
Parser-surface diagnostics (conflict/expected-token) fire on the literal keyword
and are unaffected. c_import auto-synthesis still emits foreign_expr bodies (not
this step), so both shapes still coexist. Parser unit test updated to assert the
extern shape.
647 corpus / 444 unit, 0 failed. The const-with-type (dead) + runtime-class
(already coalesced) paths need no flip — Phase 5.0 parser routing is complete.
checkForeignRefs now reads a library reference from either spelling — the
legacy #foreign body (foreign_expr.library_ref) or the new extern keyword
(extern_lib) — and validates both against the declared #library / #import c
units. The diagnostic names the surface keyword the user wrote (#foreign vs
extern), so example 1620 (#foreign) is byte-unchanged and example 1231
(extern) gets the parallel 'extern library ... not declared'. Greens 1231.
647 corpus / 444 unit, 0 failed.
isPlainFreeFn / isPlainFreeFnDecl excluded a #foreign body but classified
an empty-block extern fn as a plain free function, so existing extern fns
were wrongly counted in the bare-call ambiguity verdict (and eligible for
the out-of-line-slot / shadow-author pass). Both predicates now also
exclude extern_export == .extern_ (an external C symbol with no
sx-lowerable body, name-keyed first-wins dispatch like #foreign); export
keeps a real body and stays plain-free. Greens example 1230 — same-name
extern authors compile like their #foreign twins (0729).
646 corpus / 444 unit, 0 failed.
Two gates were keyed on the `#foreign` (foreign_expr) body shape only:
- declareFunction: the is_variadic drop (decl.zig) — a variadic extern
kept its trailing slice param in the IR signature.
- packVariadicCallArgs: the call-site early-out (pack.zig) — extras were
slice-packed instead of passed through the C `...` slot.
Both now also fire for `extern_export == .extern_`, so a variadic
`extern` drops the trailing `..args: []T`, sets is_variadic, and passes
extras through the C ABI with default argument promotion — byte-identical
to its `#foreign` twin. Greens example 1229.
645 corpus / 444 unit, 0 failed.
The non-transitive C-import visibility gate (`isVisible(.c_import_bare)`)
only recognised the legacy `#foreign` body shape; a bare `extern` fn
(empty-block body + extern_export == .extern_) escaped via the
`body != foreign_expr -> return true` arm and was caught only by the
general isNameVisible gate, yielding the generic 'not visible' wording
instead of the C-specific 'C function not visible; add #import' one.
Now both lib-less spellings route to visibleOverEdges, and a library-
bound `extern LIB` (like a library-bound `#foreign LIB`) stays
unconditionally visible. This makes a future fn-decl `#foreign`->`extern`
migration byte-identical at this gate. Greens example 1228.
644 corpus / 444 unit, 0 failed.
Part B begins: `#foreign` becomes an alias for `extern`. First of the four
`#foreign` parser paths to migrate — the data-global form
(`name : T #foreign [lib] ["csym"];`). It now builds the SAME extern-named
VarDecl (`is_extern`/`extern_lib`/`extern_name`) that the postfix `extern`
global path already produces, instead of `is_foreign`/`foreign_lib`/`foreign_name`.
Behavior-preserving: lowering coalesces the two forms identically — the symbol
name is `extern_name orelse foreign_name orelse name` (decl.zig:1119), and both
`is_foreign` and `is_extern` feed the same `.is_extern` IR flag + early-return
(decl.zig:1127,1141). The A->B gate already proved fn/global/class lower to
byte-identical IR, so the corpus locks this with zero snapshot churn.
Suite green: 10/10 steps, 444/444 unit, 643 corpus, 0 failed.
The fn-decl, const-with-type, and runtime-class `#foreign` paths still build the
legacy AST; they migrate next (the fn path needs the deferred visibility-gate +
variadic alignment first).
The define path now honors the optional `export … "csym"` symbol-name
override (gap iii). declareFunction's rename branch fires for `export` too:
the extern stub is declared under the C name and the sx→C mapping recorded
in foreign_name_map. lazyLowerFunction then resolves the stub by that C
name (via foreign_name_map) so the body promotes into the C-named function
— emitting `define @triple_c` instead of `@sx_triple`. sx-side call sites
to the sx name resolve through the same map (verified: 5*5 prints 25).
example/1227 greens: the companion C calls `triple_c` and prints
call_triple(7) = 22. Bare export (1226) is unaffected (no rename → sx
name). Suite green (638 corpus / 443 unit). Phase 2 (`export`) complete.
`export` (define + expose) now lowers to a defined C-ABI symbol with
external linkage and no implicit sx context — the four export-gap
conditions in src/ir/lower/decl.zig:
- (i) linkage: force `.external` for `extern_export == .export_` on both
define paths (lowerFunctionBodyInto, lowerFunction), beside the
OS-called entry points.
- (ii) C ABI: promote call_conv to `.c` on the define paths and in the
declareFunction extern-stub cc.
- (iv) no ctx: funcWantsImplicitCtx returns false for any non-`.none`
modifier (extern AND export), so no `__sx_ctx` slot is prepended.
- force-lower: an `export` fn is a lowering root (like `main`) in
lowerMainAndComptime — its purpose is external consumption, so it must
emit a body even when no sx code calls it; otherwise lazy lowering
leaves it a bodiless `declare`.
example/1226 now builds + runs via the AOT corpus mode: the companion C
calls `sx_square` by name and prints 37 / 82. Suite green (637 corpus /
443 unit). The optional `export "csym"` rename (gap iii) is Phase 2.2.
Phase 2 of the extern/export stream verifies `export` (define + expose a
C-ABI sx symbol) end-to-end. C->sx-by-name linkage cannot work under the
corpus's `sx run` JIT mode — a JIT-resident symbol is invisible to a
dlopen'd C dylib's flat-namespace lookup — so this lands a new AOT
execution mode for the corpus: an `expected/<name>.aot` marker switches an
example from JIT `sx run` to a `sx build` + execute flow, linking the sx
object with its C `#source` companions into a native binary.
example/1226 defines `sx_square :: (n: i32) -> i32 export { ... }` and a
companion .c that declares `extern int sx_square(int)` and calls it back.
RED: with `export` not yet lowered, the AOT link fails with an undefined
`_sx_square` (the define path still emits it `internal` + with an implicit
ctx slot, and lazy lowering leaves an uncalled export fn as a bodiless
declare). Phase 2.1 greens it.
Also retires the standalone `tests/run_examples.sh` runner — `zig build
test` (src/corpus_run.test.zig) is now the sole corpus runner, and the
shell mirror would have needed its own AOT-mode port to stay in lockstep.
verify-step.sh drops its redundant step (zig build test already runs the
corpus); CLAUDE.md documents the `.aot` mode.
Parser: a 'kw_extern' branch in the var-decl-with-type-annotation path
(beside #foreign) parses 'name : type extern [LIB] ["csym"];' into
VarDecl.is_extern/extern_lib/extern_name; the trailing diagnostic now
lists 'extern'. Lowering: registerTopLevelGlobal uses
extern_name orelse foreign_name orelse name for the C symbol and sets
is_extern = is_foreign or is_extern; globalInitValue returns null (no
initializer) for extern globals too.
examples/1225 green: '__stdinp : *void extern;' lowers to
'@__stdinp = external global ptr'; @__stdinp reads non-null. Suite
green (636 corpus / 443 unit).
Phase 1 done: extern functions (bare + rename) and data globals (bare +
rename) all work, behavior-equivalent to the matching #foreign form.
export (Phase 2), aggregates (Phase 3), docs + A->B gate (Phase 4)
remain. green commit.
parseFnDecl parses the optional [LIB] ["csym"] tail after the
extern/export keyword into FnDecl.extern_lib/extern_name (mirrors
'#foreign LIB "csym"'). declareFunction unifies the symbol-name
override: rename_c_name = foreign_expr.c_name (for #foreign) OR
fd.extern_name (for extern) -> declare under the C name and map sx->C
in foreign_name_map; the dedupe guard now covers extern too.
examples/1224 green: 'c_abs :: (n) -> i32 extern "abs";' resolves
c_abs to libc abs -> c_abs(-42) = 42. 1223 (bare extern) unregressed.
Suite green (635 corpus / 443 unit).
extern_lib is parsed + stored but not a linking driver — like
'#foreign libc', it references a lib; the #library decl + build flags
remain the separate linking axis (decision 4). green commit.
Route a bare 'extern' fn declare-only, exactly like a lib-less #foreign
import. Six edits in decl.zig, each mirroring an existing foreign_expr
guard so the empty-block placeholder body is never lowered:
1. funcWantsImplicitCtx: suppress the implicit __sx_ctx for .extern_
2. declareFunction: add is_extern_decl
3. ...and include it in the C-ABI calling-convention promotion
4. lazyLowerFunction: .extern_ -> declareFunction (declare-only)
5. lowerFunction: .extern_ in the declare-only guard
6. lowerFunctionBodyInto: never promote/lower an extern stub
examples/1223 now green: 'extern' abs lowers to 'declare i32 @abs(i32)'
(external linkage, C ABI, no ctx param) and the call resolves against
the default-linked libc -> abs(-7)=7, abs(42)=42. The 1.0b hand-authored
snapshot matched byte-exact (no regen). Suite green (634 corpus / 443
unit). green commit (makes the 1.0b xfail pass; adds no new test).
parseFnDecl now calls parseOptionalExternExport() after the callconv
slot and stores the modifier on FnDecl.extern_export. For 'extern' the
body is ';' (an empty-block placeholder — the modifier carries the
linkage, no *_expr node, per the naming constraint). Both fn-decl
lookahead predicates (isFunctionDef, hasFnBodyAfterArrow) now treat
kw_extern/kw_export as fn-body markers beside kw_callconv, so
'(...) -> R extern;' is recognized as a fn def rather than a fn-type
const.
Per user feedback, decision 4 ("library separate") is REVISED: extern
carries an optional LIB + "csym" axis mirroring '#foreign LIB "csym"',
so it is a true #foreign superset (Gate A->B requirement — the Part B
migration of 466 #foreign uses across 6 libs must preserve each
symbol's library). Added FnDecl.extern_lib/extern_name and
VarDecl.extern_lib (beside is_extern/extern_name).
All unconsumed by lowering: extern parses, but a fn still errors at
sema (body produces no value). Suite green (443 unit / 633 corpus).
lock commit.
Add ast.ExternExportModifier { none, extern_, export_ } beside
CallingConvention; FnDecl.extern_export and VarDecl.is_extern/extern_name
fields (all defaulting to absent); and Parser.parseOptionalExternExport()
mirroring parseOptionalCallConv.
None of this is consumed by a decl path yet — no user-facing behavior
change, corpus diff empty. Two inline parser unit tests pin the helper's
keyword mapping and the field defaults. Phase 1.0 wires the helper into
the fn-decl path. lock commit.
Lex 'extern' and 'export' as keywords beside 'callconv': new token.Tag
variants + keywords StaticStringMap entries + LSP semantic-token keyword
classification. Adds a 'lex linkage keywords' unit test.
Tokens only — parser/AST plumbing and lowering land in later phases.
Corpus sweep confirmed no .sx identifier collides with the new reserved
words. lock commit per the cadence rule.
A tagged union (enum-with-payload) is laid out { tag, payload }, but a
direct member write `s.rect = payload` lowered to a payload-only store
(union_gep into field 1) with no tag store — the discriminant went stale,
so a later match/== took the wrong arm with no diagnostic (issue 0136).
The read path already distinguishes tagged unions (enum_payload/enum_tag);
the write path treated them like plain unions.
A variant is set via construction (`s = .variant(payload)`, which writes
both tag and payload). A direct member write can't safely set the tag (the
active variant isn't known at the write site), so it is now rejected with a
diagnostic pointing to construction. A new diagTaggedUnionVariantWrite guard
— reusing the shared fieldLvalueResolve matcher, applied at both store sites
(lowerAssignment, lowerMultiAssign) — fires only for a whole-variant write
on a tagged union. Plain `union` writes and nested sub-field writes
(`s.rect.w = ...`) are unaffected.
Resolves issue 0136. Tests: examples/0185 (rejected), 0186 (nested write +
construction still work). specs.md / readme.md updated.
Assigning a struct literal to a named-struct member of a plain union
(`u.b = .{ ... }`) lowered the RHS as .unresolved and tripped the
LLVM-emission tripwire: lowerAssignment's .field_access target-type
path used getStructFields, which returns nothing for a union, so the
literal never received its target type.
Unify the lvalue field matcher into a pure fieldLvalueResolve consumed
by both fieldLvaluePtr (GEP builder) and the target-type path, so the
store slot and the RHS target type can't diverge (covers union direct +
promoted members, tuple/vector lanes, and structs).
Resolves issue 0133 (depended on 0135). Regression test: examples/0184.
Notes the now end-to-end union path in issue 0132.
Erasing a single comptime-pack element to a protocol value
(`xx sources[0]` with a protocol target) tripped the pack-as-value
error: buildProtocolErasure treated the index_expr as an lvalue and
took its address via lowerExprAsPtr, whose .index_expr arm lowers the
bare pack as a value (a pack is comptime-only with no runtime storage).
isLvalueExpr now reports a comptime pack index as an rvalue, decided
via the same packArgNodeAt predicate the value path uses — so the value
and lvalue paths can't diverge on what counts as a pack element — and
erasure heap-copies the already-materialized element instead.
Resolves issue 0135. Regression tests: examples/0547, 0548.
`registerProtocolDecl` resolved each method's param/return type NAME
through the flat, visibility-unaware `type_bridge.resolveAstType`, so a
type name colliding across modules bound to the wrong author. In the
repro the user's `Event` enum collides with the stdlib `event.Event`
struct (pulled in by `modules/std.sx`): the protocol grabbed the stdlib
struct, typed an inferred `g_plat.one_event()` as a fieldless struct,
bound the `case .key_up:(e)` payload to `.unresolved`, and emitted
"enum literal '.escape' has no destination type to resolve against".
Resolve both param and return types through
`resolveTypeInSource(pd.source_file, …)` — the visibility-aware resolver
pinned to the protocol's own declaring module, keeping the `Self → *void`
short-circuit. Brings the non-parameterized path to parity with
`instantiateParamProtocol` and concrete-fn signatures. No silent default:
not-visible / ambiguous names still diagnose and poison with `.unresolved`.
Closes issue 0132 — the protocol-return case left open by f13f4ab (which
fixed the enum/union/inline/error-set registration class). Regression
test: examples/0417-protocols-protocol-return-name-collision.sx.
Enum payloads, union fields, inline struct/enum/union field types, and
named error-set references now resolve through the visibility-aware
`inner` recursion hook (the same seam `resolveCompound` uses) instead of
the flat `findByName`. A bare type name in any of these positions now
selects the querying module's OWN author over a same-name namespaced
import -- the own-wins rule already applied to top-level named references
and struct fields.
- buildEnumInfo / buildUnionInfo / resolveInlineEnum / resolveInlineStruct
/ resolveInlineUnion / resolveErrorType take the `inner: anytype` seam;
registerEnumDecl / registerUnionDecl and the struct-const annotation
pass `self` (visibility-aware); resolveAstType passes the stateless `si`.
- resolveTypeWithBindings routes inline type decls and named error refs
through `self` instead of delegating to flat resolveAstType.
Regression tests: examples/0781 (top-level enum payload over a namespaced
import), examples/0784 (inline struct field). Addresses issue 0132's
broader latent class; the protocol-return case (0132 primary) is a
separate registerProtocolDecl fix and stays open. The error-set reference
path is in place but dormant pending error-set per-decl nominal identity
(issue 0134).
`zig build test` now runs the full examples/ + issues/ regression corpus
alongside the Zig unit tests, driven by a pure-Zig test
(src/corpus_run.test.zig) — no shell script in the build path. It spawns
the installed `sx` per example (subprocess-isolated, per-run timeout),
diffs stdout/stderr/exit and optional `sx ir` snapshots, and fails the
build on any mismatch. The file list is enumerated at runtime, so new
examples are covered with no test edit.
- `sx ir` / `ir-dump` now write to stdout (fd 1) instead of stderr, so
the dumps can be piped/redirected.
- `zig build test -Dupdate-goldens` regenerates snapshots in-build,
byte-identical to the legacy `run_examples.sh --update`; on mismatch
the runner prints how to regenerate.
- run_examples.sh kept (still used by tools/verify-step.sh) and made
portable to a bare macOS: timeout/gtimeout fallback, bash 3.2-safe
empty-array handling.
- CLAUDE.md: document the new workflow.
emitProtocolDispatch now requires the user-arg count to equal the
protocol method's parameter list — exact, since protocol signatures
have no defaults, packs, or variadics — and emits the same
"expects N arguments, but M were given" diagnostic plain calls get.
Previously extra args were silently dropped (and missing args left the
thunk reading garbage). The dispatch gains the call-site span for the
diagnostic. examples/1634 pins the rejection; full sweep confirms no
existing code relied on the leniency.
