comptime compiler-API: Phase 1 foundation + Phase 2.1 weld plan

Introduce the welded comptime `compiler` library (`#library "compiler"` +
`abi(.zig) extern compiler`), per design/comptime-compiler-api.md, and unify
`callconv(...)` into the new `abi(...)` annotation.

abi(...) replaces callconv(...):
- New ABI enum { default, c, zig, pure }; `abi(.c|.zig|.pure)` parses in the
  postfix slot before extern/export (and standalone). `kw_callconv` -> `kw_abi`.
- Migrated 52 sx files, the call-convention-mismatch diagnostic, and docs
  (readme/specs) from `callconv(.c)` to `abi(.c)`.

Phase 1 — welded compiler library (parse -> registry -> validation -> bridge):
- `abi(.zig) extern compiler` parses on fn decls (carries abi/extern_lib) and
  struct decls (StructDecl.abi/extern_lib).
- `#library "compiler"` is the comptime-only internal surface — never dlopen'd.
- src/ir/compiler_lib.zig: the binding registry (the safety boundary). `Field`
  welded to StructInfo.Field with layout baked from the real Zig type
  (@offsetOf/@sizeOf); `findType`/`findFn`. Welded structs are layout-validated
  at registration (field set + total size) as a header checked against the impl.
- Host-call bridge: a `fn abi(.zig) extern compiler` dispatches under the
  comptime interp to its registered Zig handler (intern/text_of round-trip),
  never dlsym. IR Function.compiler_welded; validated in declareFunction.
- Comptime-only enforcement: a runtime call to a welded fn is a clean
  build-gating error (emitCall), not an undefined-symbol link failure.

Phase 2.1 — byte-layout weld foundation:
- Decision: full byte-layout weld (sx struct laid out byte-identically to the
  bound Zig type). Registered StructInfo (first non-natural / Zig-reordered
  layout). `computeWeldPlan` — pure offset-ordered element plan + padding +
  sx-field->LLVM-element remap; unit-tested. Emit/interp wiring is the next
  sub-step (2.2+, see current/CHECKPOINT-COMPILER-API.md).

Examples: 0625/0626 (welded struct + fn round-trip), 1183/1184/1185
(layout-mismatch, unexported-fn, runtime-call diagnostics).

src/ir/interp.zig

@@ -162,6 +162,7 @@ pub const InterpError = error{
 
 const compiler_hooks = @import("compiler_hooks.zig");
 pub const BuildConfig = compiler_hooks.BuildConfig;
+const compiler_lib = @import("compiler_lib.zig");
 const host_ffi = @import("host_ffi.zig");
 
 // ── Interpreter ─────────────────────────────────────────────────────────
@@ -579,6 +580,15 @@ pub const Interpreter = struct {
         defer self.call_depth -= 1;
 
         const func = self.module.getFunction(func_id);
+        // Welded `compiler`-library function: dispatch to its registered Zig
+        // handler (comptime-only), never dlsym. The binding registry IS the
+        // safety boundary — a name not on the export list is a clean bail.
+        if (func.compiler_welded) {
+            const fname = self.module.types.getString(func.name);
+            const bf = compiler_lib.findFn(fname) orelse
+                return bailDetail("comptime compiler call: function not exported by the compiler library");
+            return bf.handler(self, args);
+        }
         if (func.is_extern or func.blocks.items.len == 0) {
             // Dispatch to host libc via dlsym. Lets `#run` (and the
             // post-link bundler) call ordinary extern symbols like