User-directed redirection. The compiler should expose ONLY declare() and
define(handle, info) as comptime type-table primitives; reify / make_enum /
RecvResult / TryResult all become plain sx in meta.sx (reify ==
{ h := declare(); define(h, info); return h; }). The AST-walking reifyType
and every syntactic reify recognition (decl.zig E :: reify hook, generic.zig
findReturnReifyCall routing) are to be DELETED, replaced by generic comptime
evaluation of a Type-returning expression.
PLAN-REIFY gains a RE-ARCHITECTURE section: the irreducible compiler floor
(declare = empty nominal slot; define = decode a TypeInfo VALUE + fill via
updatePreservingKey; comptime-eval a Type-returning ::-RHS/type-fn body),
the resolved naming/identity story (declare mints anonymous, the binding site
names it; identity via the existing instantiation cache), and an F1-F5 phase
table that re-greens 0614/0615/0617 on the floor.
No code change in this commit — the in-session Phase 3.2 attempt (make_enum +
eval-decode reader) was reverted (reset to 9306ad5) so the floor is built
first. Checkpoint records the revert + sets next step = F1.
REIFY Phase 3.1. Add RecvResult($T) and TryResult($T) to meta.sx as
type-fns over reify (value-or-closed; value-or-empty-or-closed). They
need NO new compiler machinery — reify-of-a-literal in a type-fn body is
exactly the Phase 1 path — so the channel result types are pure sx
library code. examples/0617 green (both construct + match, incl.
payload-less .closed / .empty). Suite green (673 examples, 447 unit).
make_enum(variants) (3.2) and type_info (2.2) remain — both blocked on a
generalized reify reader (reifyType currently AST-walks a literal
TypeInfo). Plan/checkpoint updated.
REIFY Phase 2.1. fieldTypeOf (lower/generic.zig, re-exported on Lowering)
returns the i-th member type of T: struct field / tagged-union + union
variant payload (.void for a tagless variant) / tuple element / array +
vector element. Out-of-range and memberless types poison to .unresolved
with a loud diagnostic (never a silent default). Wired into
resolveTypeCallWithBindings (replacing the Phase-2 bail); since it folds
to a TypeId at lower time it composes inside type_eq / type_name / any
type-arg slot.
examples/0616 green: struct fields (name via field_name + type via
field_type), type_eq fold, tagged-union payloads incl. quit -> void.
Suite green (672 examples, 447 unit).
type_info($T) -> TypeInfo (reflect into a value, inverse of reify) is
NOT done — still bails loudly; it's the larger Phase 2.2 step (widen the
TypeInfo data model + comptime value construction). Plan/checkpoint updated.
REIFY Phase 1.1 (Phase 1 complete). instantiateTypeFunction detects a
type-fn body that returns reify(...) (findReturnReifyCall) and routes it
to reifyType under the instantiation's name — mangled for inline use,
the alias name for `Foo :: Box(i64)` — with the type-arg bindings active
so reify payloads (`payload = T`) resolve against the instantiation args.
Placed before the general case, whose resolveTypeWithBindings would
route the reify call to the inline-position loud bail.
Registering under the mangled name lets the top-of-instantiation cache
return the SAME TypeId on a second instantiation, so Box(i64) resolved
at two independent sites is ONE type (Contract 1). examples/0615 green
(build()->consume() cross-site + `b : Box(i64) = .none`). Suite green
(671 examples, 447 unit).
User picked the declaration-vs-definition split over reserve/complete.
declare() returns a forward nominal Type handle (named from the :: LHS);
define(handle, info) fills its body. reify(info) stays the one-shot
sugar. Updated PLAN-REIFY Phase 4 + Contract 5 + CHECKPOINT-REIFY.
User-directed API decision: replace the reify_rec((self)=>...) closure
with an explicit reserve() -> Type handle + complete(handle, info) pair.
reserve() returns a forward nominal Type usable freely in any later
TypeInfo (*List, []List, and across types for mutual recursion the
one-self closure couldn't express); reify(info) stays as the one-shot
sugar. Maps onto existing reserve->complete machinery. Captured in
PLAN-REIFY Phase 4 + Contract 5 + CHECKPOINT-REIFY.
REIFY Phase 0.2 (Phase 0 complete). Lowering.reifyType (lower/nominal.zig)
reads the flat-enum TypeInfo literal off the AST, synthesizes an
ast.EnumDecl, and feeds it through the SAME type_bridge.buildEnumInfo
path source enums use — so the minted type is byte-identical to a
hand-written `enum { value: i64; closed; }` and flows through enum
codegen (layout / construct / match) UNMODIFIED (Contract 2).
Wired at the `E :: reify(...)` const-decl hook in lower/decl.zig
(replacing the Phase-0.0 loud bail). Unsupported argument shapes bail
loudly via reifyBail — never a silent default. The generic.zig inline
reify path now reports it's only supported in a `::` binding (Phase 0).
examples/0614 green: reify a {value: i64, closed} enum, construct
.value(3) and .closed, match both -> "value 3" / "closed". Full suite
green (670 examples, 447 unit).
Add the async-first execution-model roadmap (comptime JIT spine, colorblind
fibers/Io, atomics, hot-reload) with all seven decisions resolved and
three-way reviewed, and carve the first stream: comptime type_info/reify
(PLAN-REIFY + checkpoint) — the codebase-validated foundation for channel
result types and race's synthesized tagged union.
