`type_name` / `type_is_unsigned` on an `Any` argument unconditionally read
the Any's payload as a TypeId index. That is correct only when the Any holds
a Type value (`{ .any, tid }`); for an Any holding a runtime *value*
(`av : Any = 6`, tag s64, payload 6) it returned `types[6]` — `type_name(av)`
gave "u8" and `type_is_unsigned(av)` gave true.
Both backends now branch on the Any's runtime type-tag: tag == `.any` → the
box is a Type value, use the payload as the TypeId; otherwise the tag IS the
held value's type. So `type_name(av)` → "s64", `type_is_unsigned(av)` → false,
while `type_name(type_of(x))` still names the held type. The `{}` formatter is
unchanged (it already passed `type_of(val)`, a proper Type value).
- src/ir/interp.zig: shared `Value.reflectTypeId` tag-branching resolver; the
`type_name` / `type_is_unsigned` interp arms route through it.
- src/backend/llvm/ops.zig: shared `Ops.reflectArgTypeId` emits
extractvalue-tag / icmp-eq-.any / select for the runtime path; both
reflection arms route through it. The two backends agree.
- examples/0164-types-reflection-any-tag.sx: regression pinning type_name /
type_is_unsigned / print on an Any holding a value vs a Type.
- src/ir/interp.test.zig: unit test for `reflectTypeId`.
- 22 .ir snapshots: the new select appears in every std-importing program's
IR (any_to_string embeds these builtins) — benign, verified structurally
identical apart from the three new instructions.
- issues/0090, specs.md: documented the Any-tag rule.
Resolves issue 0090. The `{}` integer formatter mis-rendered both ends of
the 64-bit range:
- `int_to_string` computed the magnitude as `0 - n`, which overflows for
`s64::MIN` (its magnitude is unrepresentable as a positive s64) — the
value stayed negative, the digit loop ran zero times, so only `-`
printed. It now extracts digits straight from `n` (per-digit
`|n % 10|`, `n` truncating toward zero), never negating MIN.
- `any_to_string`'s `case int:` formatted every integer as s64, so a u64
all-ones value printed as `-1`. There was no `uint` type-category to
distinguish signedness. Added an additive `type_is_unsigned(T)`
reflection builtin (static fold + dynamic interp/LLVM paths, mirroring
`type_name`), backed by the new `TypeTable.isUnsignedInt` predicate, and
a `uint_to_string` formatter (unsigned decimal via long-division over
four 16-bit limbs). `case int:` routes through `type_is_unsigned(type)`.
The 16-bit-limb split is factored into a shared `decompose_u16x4`, now
reused by `int_to_hex_string` (no second unsigned-math routine).
Regression: examples/0046-basic-int-formatter-extremes pins both extremes
plus a width spread; unit tests cover `isUnsignedInt`. Docs (specs.md
representation note, readme std API) updated for unsigned/extreme `{}`
behavior. IR snapshots refreshed for the two new std functions.
Test-first scaffolding ahead of extracting src/ir/error_analysis.zig — no code
change to the convergence targets (convergeInferredErrorSets /
convergeClosureShapeSets / collectErrorSites / collectClosureShapes).
Adds 2 unit tests via the already-pub convergence functions (no new exposure):
- convergeInferredErrorSets transitive/SCC: a `caller :: () -> ! { try raiser(); }`
with no direct raise converges to raiser's {Foo} across the try edge — the
whole-program fixpoint A5.1 must preserve. (Today's E1.4b test only covered a
direct raiser + the empty-set warning.)
- convergeClosureShapeSets: a bare-`!` closure literal `() -> ! { raise error.Bar }`
inside a host fn unions {Bar} into one shape_inferred_sets entry.
Adds 2 .ir snapshots (first .ir for these error forms), vetted clean
(idempotent, path-free, no #run): 1006-errors-inferred-error-sets (inferred-set
error-channel shapes) and 1009-errors-catch (catch lowering). 1004-errors-try
was already pinned.
PLAN-ERR is complete/idle, so the A5 overlap risk is low (the target functions
are stable, not in-flight). The sub-step-2 module will be named
src/ir/error_analysis.zig, NOT errors.zig (src/errors.zig is the DiagnosticList).
zig build, zig build test, tests/run_examples.sh (357/0) all green.
