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banks: implement multi-bank PRG layout and bank-switching runtime
Prior to this commit the linker always shipped a single 16 KB PRG
bank regardless of the declared mapper, so the README's MMC1/UxROM/
MMC3 support was aspirational. This commit gives the three banked
mappers a real multi-bank ROM layout:

  * RomBuilder.set_prg_banks() writes any number of 16 KB banks
    back-to-back so the iNES header reflects the true PRG size.
  * Linker.link_banked() places switchable banks first, fixed bank
    last, so the fixed bank maps to $C000-$FFFF (the address window
    where vectors and the runtime live).
  * runtime::gen_mapper_init() emits reset-time mapper config:
    MMC1 serial-writes a control-register value that pins the last
    bank at $C000 with the correct mirroring, UxROM relies on the
    power-on default, MMC3 writes the $8000/$8001/$A000/$E000
    registers to get a known PRG and mirroring state.
  * runtime::gen_bank_select() is a mapper-specific subroutine
    (callable with the target bank in A) that maps any physical
    bank to $8000-$BFFF.
  * runtime::gen_bank_trampoline() generates a cross-bank call
    stub in the fixed bank that saves the caller's bank, switches,
    JSRs the target, and restores the fixed bank.
  * The CLI and integration helper thread declared `bank X: prg`
    declarations through to the linker so MMC1/UxROM/MMC3 programs
    actually produce multi-bank ROMs.

Coverage:

  * Runtime unit tests (18 new): mapper init patterns for every
    supported mapper, bank-select signatures, trampoline dispatch
    order, UxROM bus-conflict table contents.
  * RomBuilder tests (6 new): multi-bank layout, padding,
    byte-level fidelity, per-bank size validation, legacy
    single-bank fallback.
  * Linker tests (13 new): multi-bank ROM sizes across MMC1/
    UxROM/MMC3, fixed-bank placement, switchable-bank payload
    fidelity, bank-select subroutine detection, NROM rejection
    of switchable banks.
  * Integration e2e tests (16 new): compile real .ne sources
    through the full pipeline and assert on iNES headers,
    mapper init signatures in the fixed bank, vector locations,
    and a regression check against `examples/mmc1_banked.ne`.

Total: 474 tests pass under `cargo test` with
`RUSTFLAGS="-D warnings"`.

https://claude.ai/code/session_01UCressA5e8k1XsuoJYLav2
2026-04-13 01:50:51 +00:00
.github/workflows tests/emulator: byte-exact golden-image diffs 2026-04-12 21:30:18 +00:00
docs audio: complete the subsystem — asset pipeline, user decls, tracker-style driver 2026-04-13 01:10:21 +00:00
examples audio: complete the subsystem — asset pipeline, user decls, tracker-style driver 2026-04-13 01:10:21 +00:00
fuzz Add fuzz testing and parser edge case regression tests 2026-04-12 00:52:35 +00:00
scripts
src banks: implement multi-bank PRG layout and bank-switching runtime 2026-04-13 01:50:51 +00:00
tests banks: implement multi-bank PRG layout and bank-switching runtime 2026-04-13 01:50:51 +00:00
.gitignore
Cargo.lock
Cargo.toml
LICENSE Add README, LICENSE, examples, fix draw parser lookahead 2026-04-12 00:38:19 +00:00
plan.md docs: scrub remaining stale AST-codegen references 2026-04-12 20:53:36 +00:00
README.md audio: complete the subsystem — asset pipeline, user decls, tracker-style driver 2026-04-13 01:10:21 +00:00
spec.md

NEScript

A statically-typed, compiled programming language for NES game development.

NEScript compiles .ne source files directly into playable iNES ROM files, with no external assembler or linker dependencies. The compiler handles everything from source text to a ROM you can run in any NES emulator.

Quick Start

# Build the compiler
cargo build --release

# Compile an example
cargo run -- build examples/hello_sprite.ne

# Run the output ROM in an emulator
# (produces examples/hello_sprite.nes)

Hello World

game "Hello" {
    mapper: NROM
}

var px: u8 = 128
var py: u8 = 120

on frame {
    if button.right { px += 2 }
    if button.left  { px -= 2 }
    if button.down  { py += 2 }
    if button.up    { py -= 2 }

    draw Smiley at: (px, py)
}

start Main

Features

  • Game-aware syntax -- states, sprites, palettes, and input are first-class constructs
  • Full type system -- u8, i8, u16, bool, fixed-size arrays (u8[N]), enum, struct
  • Rich control flow -- if/else, while, for i in 0..N, loop, match
  • Functions -- with parameters, return types, inline hint, recursion detection
  • State machines -- state with on enter, on exit, on frame, on scanline(N) handlers
  • Compile-time safety -- call depth limits, recursion detection, type checking, unused-var warnings
  • IR-based optimizer -- constant folding, dead code elimination, strength reduction, copy propagation, peephole passes including INC/DEC fold and live-range slot recycling
  • Full 16-bit arithmetic -- u16 add/sub/compare lower to carry-propagating paired operations
  • Multiple mappers -- NROM, MMC1, UxROM, MMC3 (including multi-scanline IRQ dispatch per state)
  • Audio subsystem -- frame-walking pulse driver with user-declared sfx/music blocks, builtin effects and tracks, period table, and zero-cost elision when unused
  • Asset pipeline -- PNG-to-CHR conversion, palette definitions, inline tile data, sfx envelopes, music note streams
  • Inline assembly -- asm { ... } with {var} substitution, plus raw asm { ... } for verbatim blocks
  • Hardware intrinsics -- poke(addr, value) / peek(addr) for direct register access
  • Debug support -- --debug flag, source maps, Mesen-compatible symbol export, debug.log / debug.assert
  • Compile-time diagnostics -- --dump-ir, --memory-map, --call-graph flags
  • Single binary -- no dependencies on ca65, Python, or any external tools

Documentation

Examples

Example Features demonstrated
hello_sprite.ne D-pad input, sprite drawing
bouncing_ball.ne Automatic movement, edge detection
coin_cavern.ne Multi-state game, functions, constants, gravity
arrays_and_functions.ne Arrays, functions, while loops, inline functions
state_machine.ne State transitions, on enter/exit, timers
sprites_and_palettes.ne Inline CHR data, palettes, scroll, type casting
mmc1_banked.ne MMC1 mapper, bank declarations, multiply
structs_enums_for.ne Structs, enums, for loops, struct literals
inline_asm_demo.ne Inline asm with {var} substitution, poke/peek
audio_demo.ne Audio subsystem: user sfx/music blocks, builtin effects, play/start_music/stop_music

Compiler Commands

# Compile to ROM
nescript build game.ne

# Compile with custom output path
nescript build game.ne --output my_game.nes

# Type-check only (no ROM output)
nescript check game.ne

# View generated 6502 assembly
nescript build game.ne --asm-dump

# Enable debug mode
nescript build game.ne --debug

Emulator Compatibility

Output ROMs are standard iNES format and work with any NES emulator:

Project Status

NEScript implements all five planned milestones:

Milestone Status Key Features
M1: Hello Sprite Done Full compiler pipeline, assembler, ROM builder
M2: Game Loop Done Functions, arrays, IR, optimizer, call graph analysis
M3: Asset Pipeline Done PNG-to-CHR, sprites, palettes, debug symbols
M4: Optimization Done Strength reduction, ZP promotion, type casting, asm-dump
M5: Bank Switching Done MMC1/UxROM/MMC3, bank declarations, software mul/div

210 tests across 14 modules, with CI running fmt, clippy, test, and example compilation on every push.

License

MIT