A focused review of the branch surfaced two correctness bugs and
four important polish items in the new features. None of the
existing example goldens shift — every fix is gated on conditions
that don't fire in the committed examples.
**debug.frame_overran() never reset between frames in implicit
wait_frame programs.** The IR-level WaitFrame op cleared $07FE,
but the implicit main-loop flag-clear that runs between dispatch
iterations only cleared ZP_FRAME_FLAG. A program whose
`on frame { ... }` body had no explicit `wait_frame` would latch
$07FE to 1 on the first miss and never reset, breaking
`debug.assert(not debug.frame_overran())` guards. The dispatch
loop now also clears $07FE in debug builds, mirroring the
WaitFrame path. New regression test asserts the main loop emits
exactly one STA $07FE in a no-wait_frame debug build.
**Metasprite base-tile resolution silently miscompiled for
`@chr` / `@binary` sprites.** The IR lowering walks
`program.sprites` to compute base tile indices but assumes
1 tile per non-Inline source, while the real asset resolver
reads the file. The analyzer now hard-rejects the combination
with a clear "use inline pixels" hint instead of letting it
compile to a visual glitch. New analyzer test
`analyze_metasprite_with_external_chr_sprite_errors` covers it.
**next_sprite_tile capping silently allowed CHR overlap.** The
pipeline used `.min(255)` which would let a background tile
overwrite a sprite tile when the sprite range filled the
pattern table. Now hard-errors via CompileError::AssetResolution
when the sprite range >= 256 *and* the program declares any
`@nametable(...)` background. Inline backgrounds aren't affected.
**Linker silently truncated background CHR overflow.** The
`if end <= chr.len()` guard at the CHR copy site dropped any
auto-CHR bytes that would have run past the pattern table.
Replaced with a debug assertion since the resolver should
have caught it upstream — defense in depth.
**Stale comment in nested_structs.ne** said struct literals
"don't accept array fields yet" while the example itself
demonstrates inline array fields working through
`expand_struct_literal_init`. Comment updated.
**Misleading sentinel comment in audio.rs** described the pitch
envelope's trailing zero as a runtime sentinel; in practice the
volume tick `JMP`s to `__audio_sfx_done` first and the pitch
update block never reads the trailing byte. Rewrote the comment
to clarify it's padding for predictable blob length.
Also tidies up two minor items the reviewer flagged:
- `flatten_struct_fields` rebuilt the `struct_sizes` HashMap on
every leaf field; hoisted the snapshot to the function entry.
- Integration tests called `resolve_backgrounds(..., 0)` (the new
`next_sprite_tile` parameter); changed to `1` so a future
PNG-nametable test fixture won't accidentally overwrite the
runtime smiley at tile 0.
https://claude.ai/code/session_01KEczoNUX3WmcFLfq6iAQxB
Struct field types beyond the v1 scalar set (`u8`, `i8`, `u16`,
`bool`) used to error out with `E0201: struct fields must be
u8/i8/u16/bool`. The size accumulator already handled them
correctly — what was missing was: (1) the analyzer side that
synthesizes per-leaf symbols and allocations for nested structs
plus a single array-typed symbol for array fields, (2) the
parser's chained-field-access path, and (3) the IR-lowering
recursion through nested struct literal initializers and array
literal field values.
The synthetic-variable model carries through unchanged: a
`var p: Player` where `Player { pos: Vec2, hp: u8, inv: u8[4] }`
and `Vec2 { x: u8, y: u8 }` produces flat allocations for
`p.pos.x`, `p.pos.y`, `p.hp`, and `p.inv`, plus an intermediate
`p.pos` Struct symbol so dotted-name lookups still resolve. Array
fields get a single allocation with the array type so the
existing `Expr::ArrayIndex` lowering path handles `p.inv[i]`
without changes. Array-of-structs is still rejected with E0201
because the synthetic model can't index per-element layouts
without further codegen work.
The parser change is the only structural move: `parse_primary`
and `parse_assign_or_call` now loop the dot chain into a single
joined identifier so `p.pos.x` becomes `FieldAccess("p.pos", "x")`
and `p.inv[0]` becomes `ArrayIndex("p.inv", 0)`. The downstream
analyzer and IR lowering use the same `format!("{name}.{field}")`
join they already used for one-level access — no plumbing
changes required.
Includes a new `examples/nested_structs.ne` that exercises both
features end-to-end with two `Hero` instances carrying nested
positions and inventory arrays. The reproducibility tripwire
ROM is committed alongside it and the emulator harness has a
matching pair of golden files.
https://claude.ai/code/session_01KEczoNUX3WmcFLfq6iAQxB