Commit 76d0fd0 moved function-locals from a codegen-minted
`$0300+` absolute range into the analyzer's zero-page
allocations so inline-asm `{param}` substitutions resolve
correctly (compiler-bugs.md #1). Observable semantics are
preserved — the analyzer + codegen now agree, and every
primitive that used to work still does — but the emitted ROM
bytes change whenever a function reads or writes a local,
because zero-page addressing uses a 2-byte instruction and
absolute addressing uses 3.
Consequences that need regenerated artifacts:
- **Twelve committed `.nes` files are stale.** Same source, new
compiler, different bytes. The `Build Examples` CI job
rebuilds each example into a tmp path and diffs against the
committed ROM, so any drift is a hard failure. Rebuilt all
twelve (arrays_and_functions, bitwise_ops, coin_cavern,
function_chain, loop_break_continue, mmc1_banked, platformer,
pong, sprites_and_palettes, state_machine, structs_enums_for,
war).
- **Three goldens drift by one animation frame.** Zero-page
addressing shaves a cycle per local access, which over a full
frame handler shifts timing-sensitive sequences by a cycle or
two. war's dealing animation and platformer + pong's audio
tick stream catch the shift at frame 180 — war's card under
player A's deck is now one frame earlier in its slide, and all
three programs' captured audio buffers start from slightly
different envelope positions. The new goldens (`war.png` + the
three `.audio.hash` files) reflect the same code compiled with
the cycle-count-corrected primitives.
- **`platformer.gif` and `war.gif` rebuild.** Same one-frame
timing drift, integrated across 360 frames of captured
gameplay — the emulator job's gif-reproducibility check
wouldn't pass without the refresh. `pong.gif` happened to
byte-match the old capture after rebuild.
All verified:
- `cargo clippy --all-targets -- -D warnings` clean on both
rustc 1.94.1 and 1.95.0.
- `cargo test --all-targets` — 616 + 3 + 75 tests pass.
- Full emulator harness — 34/34 ROMs match goldens.
- Committed-ROM reproducibility diff clean — every
`examples/*.ne` compiles byte-identical to its committed
`.nes`.
- `docs/{platformer,war,pong}.gif` byte-match fresh captures.
- SHA-256 of "NES" still computes to `AE9145DB…4E0D`.
https://claude.ai/code/session_01FRmSBruVWCufm3LsUVMs8v
The compiler is deterministic: rebuilding any example produces
a byte-identical ROM, verified across all 22 examples and all
four mappers (NROM, MMC1, UxROM, MMC3). That means the .nes
files are reproducible artefacts and can live next to their
sources without drift.
Benefits:
- Users can clone the repo and open any example in an emulator
without installing a Rust toolchain or running the compiler.
- The emulator harness can trust examples/*.nes directly, so its
CI job no longer needs a compiler build or a "compile all
examples" loop — it just boots jsnes against the committed
ROMs and diffs each against its golden.
- ROM diffs in PRs are now meaningful: "this compiler change
flipped 17 bytes in hello_sprite.nes" is visible review
signal, not hidden behind the emulator golden.
Guard rails so the ROMs don't drift from their sources:
- .gitignore no longer excludes *.nes.
- The `examples` CI job rebuilds every .ne into /tmp and fails
loudly (with a GitHub error annotation pointing at the exact
cargo command to rerun) if any committed ROM differs.
- scripts/pre-commit does the same check locally.
- CLAUDE.md now states that editing a .ne file requires
rebuilding its .nes in the same commit, so future agents
won't miss the invariant.
Total footprint: 22 ROMs, 624 KB (avg 28 KB each — most are
NROM 24 KB; two banked examples are larger).
https://claude.ai/code/session_01BcCcHi6FUmTh8jC7UgkA3A