Updates the feature list to mention structs, enums, for loops,
match, inline asm + \`{var}\` substitution, \`poke\`/\`peek\`
intrinsics, and the new \`--memory-map\` / \`--call-graph\`
diagnostics. Adds the two new examples (structs_enums_for and
inline_asm_demo) to the table.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
The OAM clear at frame-handler entry is only needed if the
handler actually modifies OAM — handlers that never call \`draw\`
don't need to reset the shadow buffer at all, since the previous
handler's contents are still correct (or the startup zero-fill
still applies). Adds a \`function_draws_sprites\` helper that
walks the IR ops once and emits the clear loop only when at least
one \`DrawSprite\` exists.
Handlers like a title screen that doesn't render sprites pay zero
cycles for the OAM clear now.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
A small example that exercises all three inline-assembly paths in
one program:
- \`asm { ... }\` with \`{var}\` substitution for \`result\` and
\`frame_count\`
- \`poke(addr, value)\` for a hardware register write (PPU \$2005)
- A helper function whose body is hand-written 6502 that still
reads and writes NEScript-owned local variables
Useful as a short reference for anyone learning the escape hatches
to hand-written 6502.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
A \`return\` with no value inside a function that has a declared
return type is an error — the caller expects a value. Previously
it compiled silently and the callee returned whatever was in A
from the last computation.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Each frame handler now begins with a short 64-slot loop that
writes \$FE to the Y-position byte of every OAM entry, hiding any
sprites the previous frame drew that the current frame doesn't.
Without this, stopping a \`draw\` call one frame leaves the sprite
lingering at its last position forever.
Cost: ~384 cycles per frame (2.3% of the ~16 666 cycles available
between vblanks). The per-frame \`draw\` calls overwrite the slots
they actually use, so the clear is free at runtime for sprites
that ARE drawn.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Previously \`remove_redundant_loads\` tracked only a single value
for A at a time, so \`STA addr\` would overwrite the prior
\`Imm(v)\` with \`Zp(addr)\`, losing the ability to eliminate a
following \`LDA #v\`. Now A's known value is an equivalence class
(\`Vec<AValue>\`): every \`STA addr\` *adds* the address to the
class instead of replacing it, so
LDA #5
STA \$10
LDA #5 ; eliminated — A still equals 5
collapses to just two instructions. Adding this also catches the
earlier \`STA \$10; LDA \$10\` idiom because \`Zp(\$10)\` is now part
of the class after the STA.
Any op that clobbers A clears the whole class; writes via STX/STY
or INC/DEC to an address in the class invalidate just that entry.
Instruction counts tighten on every example, most visibly on
bouncing_ball (123→120) and arrays_and_functions (247→245).
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Prints a tree view of every function/handler and its direct
callees, plus the max call depth reached from each state-handler
entry point. Useful for stack-budget investigation since the NES
has only 256 bytes of stack.
=== Call Graph (max depth: 2 / 8) ===
Main::frame (max depth 2)
├── clamp
├── clamp
└── check_collision
check_collision
├── abs_diff
└── abs_diff
abs_diff
└── (leaf)
clamp
└── (leaf)
Max-depth labels are only shown on entry points where the analyzer
has computed a depth; transitive callees print without a label so
the output isn't confusing.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Dumps a human-readable table of variable allocations sorted by
address, separated into zero-page and main RAM sections with a
final byte-usage summary. Struct fields show up as individual
entries under their synthetic \`var.field\` names.
Example output for examples/structs_enums_for.ne:
=== NEScript Memory Map ===
Zero Page (\$00-\$FF):
\$00-\$0F [SYSTEM] reserved (frame flag, input, state, params, scratch)
\$0010 [USER] enemy_y (u8)
\$0011 [USER] i (u8)
RAM (\$0200-\$07FF):
\$0200-\$02FF [SYSTEM] OAM shadow buffer
\$0300 [USER] player.x (u8)
\$0301 [USER] player.y (u8)
\$0302 [USER] player.vx (u8)
...
Zero Page: 2/128 bytes used
Main RAM: 11/1280 bytes used
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Common PPU/APU/mapper access previously required either variable
aliases or inline asm. Now two built-in intrinsics handle the
single-register case directly:
poke(0x2006, 0x3F) // STA \$3F, \$2006
poke(0x2006, 0x00)
poke(0x2007, 0x0F)
var status: u8 = peek(0x2002)
- Analyzer: \`poke\` / \`peek\` are recognized as built-in intrinsics
so they don't require a function declaration. Arity is still
checked (E0203 on mismatch).
- IR: new \`IrOp::Poke(u16, IrTemp)\` and \`IrOp::Peek(IrTemp, u16)\`
variants carrying the compile-time constant address.
- IR lowering: recognizes the \`poke\`/\`peek\` call names, evaluates
the address as a const expression, and emits the intrinsic op.
Falls back to a regular call if the address isn't a constant.
- IR codegen: emits a single LDA/STA in ZP or absolute mode based
on whether the address fits in a byte.
- Optimizer: Poke has a source temp (liveness), Peek has a dest
(new value); both pass through the existing passes.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
raw asm {
LDA #\$42
STA \$00
}
Unlike regular \`asm\`, \`raw asm\` does not perform \`{var}\`
substitution — the body is passed to the inline parser verbatim.
Useful for writing completely unmanaged bytes that don't rely on
the analyzer's variable allocations, e.g. mapper init snippets.
Implementation:
- Parser: \`KwRaw\` followed by \`KwAsm\` emits
\`Statement::RawAsm(body, span)\`.
- IR lowering: prepends a \`\\0RAW\\0\` marker to the body when
emitting \`IrOp::InlineAsm\` so the codegen can distinguish raw
from regular without adding a second op variant.
- IR codegen: strips the marker and skips substitution when present.
- AST codegen: same, handling \`Statement::RawAsm\` directly.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Within \`asm { ... }\` blocks, \`{name}\` is replaced with the
resolved hex address of the variable at codegen time. The lexer's
asm-body capture now balances nested braces so it doesn't cut off
at the first \`{x}\`. Both IR and AST codegen paths preprocess the
body before passing to the inline parser:
var counter: u8 = 0
on frame {
asm {
LDA {counter}
CLC
ADC #\$01
STA {counter}
}
}
Zero-page addresses become \`\$XX\`, absolute addresses become
\`\$XXXX\`. Unknown names pass through unchanged so the asm parser
can surface the "unknown mnemonic" / "unexpected token" error.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Newlines remain the primary separator, but \`;\` now lets short
statements share a line for readability:
on frame {
a += 1; b += 2
if button.a { a -= 1; b -= 1 }
}
Implementation: \`parse_block\` consumes any \`;\` tokens between
statements.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
match state {
Title => { if button.start { state = Playing } }
Playing => { /* ... */ }
GameOver => { if button.a { state = Title } }
_ => {}
}
- Lexer: \`match\` keyword and \`=>\` (FatArrow) token
- Parser: \`parse_match\` after the existing loop constructs. Each
arm is \`pattern => { body }\`, with \`_\` as the catch-all. The
match scrutinee is parsed with struct-literal restriction enabled
so the following \`{\` is unambiguously the match body, not a
struct literal.
- The parser desugars match directly into an if/else-if chain so
the analyzer, IR lowering, and codegen don't need new AST variants
— each arm becomes \`scrutinee == pattern\` as the condition, and
the default arm (if any) becomes the final \`else\` block.
Tests cover parse + full pipeline integration for state-style
dispatch using an enum.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
struct Vec2 { x: u8, y: u8 }
var pos: Vec2 = Vec2 { x: 100, y: 50 }
on frame {
pos = Vec2 { x: pos.x + 1, y: pos.y }
}
- AST: new \`Expr::StructLiteral(name, fields, span)\` variant
- Parser: in expression position, \`Ident {\` enters struct-literal
mode when the new \`restrict_struct_literals\` flag is off.
\`if\`/\`while\`/\`for\` conditions set the flag so the \`{\` keeps
going to the following block. Condition contexts can still use
struct literals by parenthesizing them.
- Analyzer: validates that the struct type exists, each named field
belongs to it, and each field value has a compatible type.
- IR lowering: desugars \`var = StructLiteral { ... }\` (both in
assignments and variable initializers) into per-field StoreVar
operations against the analyzer-synthesized \`var.field\`
variables. No IR type for struct values is needed.
- AST codegen: no-op (legacy path).
- examples/structs_enums_for.ne now uses a struct literal for the
initial \`player\` state instead of per-field assignments.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Lists structs, for loops, audio parsing, const folding, on_scanline
codegen, all new peephole passes, and the fixed function call ABI /
local variable allocation. Re-prioritizes remaining work.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
A small platformer scaffold that exercises every recent language
feature in one place:
- \`struct Player { ... }\` with u8 and bool fields
- \`enum Direction { Up, Down, Left, Right }\`
- \`enum AnimFrame { Idle, Run1, Run2 }\`
- \`for i in 0..4 { ... }\` looping over a fixed-size array
- Struct field assignment and reads
- Enum variant assignment
Compiles through the default IR codegen and links cleanly.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Both peephole passes now track \`Absolute\` addresses in addition to
zero-page. This lets function-local variables (which live in RAM at
\$0300+) benefit from the same redundant-load elimination and
operand-rewriting that globals at ZP addresses already enjoyed.
Before:
LDA \$04 ; load param
STA \$0300 ; store to t
LDA \$0300 ; reload t
STA \$81 ; store to temp
LDA \$0300 ; reload t again
STA \$82 ; store to temp
LDA \$81
CLC
ADC \$82
STA \$0300
LDA \$0300
RTS
After:
LDA \$04
STA \$0300
CLC
ADC \$0300
STA \$0300
RTS
Renames the A-tracking enum's \`Addr\` variant to \`Zp\` alongside a
new \`Abs\` variant, matching the \`Source\` type used by copy prop.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Function bodies can declare local variables with \`var NAME: u8 = …\`.
Previously the lowering created a VarId for them but didn't track it
on the \`IrFunction.locals\` list, so the IR codegen had no address
to map it to and \`LoadVar\` / \`StoreVar\` silently did nothing. The
generated function body read and wrote random temp slots.
Fixes:
- Lowering: replaced the per-function \`locals\` local with a
long-lived \`current_locals\` field; \`lower_function\` resets it
on entry and moves it into the \`IrFunction\` at exit. Each
\`Statement::VarDecl\` inside a function body appends to
\`current_locals\`.
- IR codegen: iterate every function's \`locals\` list. Params 0..4
still map to \$04-\$07, and the remaining locals get addresses in
main RAM starting at \$0300. Each function's locals are disjoint,
so nested calls don't corrupt each other's state.
- Integration test \`program_with_function_local_variables\`
exercises nested calls with function-local state to guard against
regression.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds a \`for NAME in START..END { BODY }\` half-open range loop:
for i in 0..8 {
total += arr[i]
}
- Lexer: \`for\`, \`in\` keywords and the \`..\` range operator
- AST: new \`Statement::For\` variant with var/start/end/body
- Parser: \`parse_for\` after \`while\` / \`loop\`
- Analyzer: registers the loop variable as a u8 symbol for the body
(restoring any shadowed outer symbol afterwards), allocates it via
the normal RAM allocator, and tracks it as "used"
- IR lowering: desugars to \`var = start; while var < end { body;
var = var + 1 }\` using a \`for_step\` continue-edge block so
\`continue\` properly increments the index
- AST codegen: no-op (legacy path doesn't need for loops)
- Tests: parse + full-pipeline integration
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Constants can now reference other constants and use arithmetic /
bitwise / comparison operators. The lowering runs \`eval_const\` on
each \`ConstDecl\` and \`VarDecl\` initializer, threading the existing
\`const_values\` map for identifier lookups.
Examples that now work:
const BASE: u8 = 10
const OFFSET: u8 = BASE + 5 // 15
const MASK: u8 = FLAG_A | FLAG_B // bitwise-or of two earlier consts
var counter: u8 = BASE // initializer is now 10
Enum variants are registered before constants so a const like
\`const FIRST: u8 = VariantA\` also resolves at compile time.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Two new passes that save 2 instructions per conditional:
- \`fold_branch_over_jmp\` rewrites \`BNE taken; JMP else_block;
taken:\` into \`BEQ else_block; taken:\`. Emitted by the IR codegen
for every \`if\` without a matching \`else\`. Bounded lookahead of
~60 instructions keeps the rewritten branch within the signed
8-bit reach (-128..+127).
- \`remove_jmp_to_next_label\` drops \`JMP foo; foo:\` since the JMP
is a no-op — execution falls through to the label anyway.
Instruction count impact (IR vs AST, lower is better):
before after
arrays_and_functions 262 vs 236 -> 243 vs 235
bouncing_ball 135 vs 144 -> 122 vs 143
coin_cavern 290 vs 291 -> 261 vs 289
hello_sprite 73 vs 64 -> 64 vs 63
mmc1_banked 261 vs 247 -> 235 vs 246
sprites_and_palettes 121 vs 113 -> 108 vs 112
state_machine 233 vs 229 -> 209 vs 228
IR codegen now beats the AST codegen on 5 of 7 examples and is
competitive on the other two.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
The \`play\`, \`start_music\`, and \`stop_music\` keywords were lexed
but not parsed. Programs using them failed with a generic "unexpected
token" error. Now:
- \`Statement::Play(sfx_name, span)\`
- \`Statement::StartMusic(track_name, span)\`
- \`Statement::StopMusic(span)\`
parse successfully and flow through analyzer / IR lowering / codegen
as no-ops. Semantics match the spec but produce no output — no audio
driver exists yet. Users who need sound can still wire in custom
code via \`asm { ... }\` blocks.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Previously an assignment to an undeclared name was silently accepted
because the IR lowering would synthesize a fresh VarId for it. Now
the analyzer emits E0502 with the same "did you mean" suggestion
path as read-side undefined variable errors.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Two bugs in the IR codegen's function call path:
1. \`IrOp::Call\` was emitting \`JSR __fn_name\` but functions are
defined at \`__ir_fn_name\`. The JSR went to an unresolved label
and the generated ROM would jump to garbage.
2. Caller stored arguments to ZP \$04-\$07 but the callee's
\`LoadVar\` for each parameter VarId resolved to a temp slot at
\$80+ because parameter VarIds weren't in \`var_addrs\`. The
callee never read the arguments.
Fixes:
- Register each function's first four parameter VarIds at
\$04-\$07 in \`var_addrs\` during codegen construction, so
\`LoadVar\` for a parameter emits \`LDA \$04\` / \`\$05\` / etc.
- Call emits \`JSR __ir_fn_{name}\` matching the function label.
Adds a unit test that exercises both sides of the contract:
the caller must STA to \$04/\$05 and JSR to \`__ir_fn_sum\`, and the
callee must LDA from \$04 to read the first parameter.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Extends the \`on_scanline\` codegen to support multiple scanline
handlers across states:
- \`__irq_user\` now dispatches by \`current_state\`: each state with a
scanline handler gets a CMP/BNE/JSR entry in the dispatch table.
States without a handler fall through to just acknowledge the IRQ.
- New \`__ir_mmc3_reload\` helper that (re)loads the MMC3 counter
latch based on \`current_state\`. States without a scanline handler
fall through to disable the IRQ (\$E000 write).
- Linker detects the \`__ir_mmc3_reload\` label in user code and
splices a JSR into it at the top of the NMI handler, so the
counter is reloaded once per frame with the current state's
target scanline.
- IRQ handler no longer re-enables IRQ on ACK (the NMI reload now
handles that) so it won't fire multiple times per frame.
- Program init chooses the start state's scanline count (if any) or
the first scanline handler found as a fallback.
Also fixes \`dump_asm\`: a \`NOP\` with a \`Label\` operand is a label
definition, but any other opcode with a \`Label\` operand is a real
instruction like \`JSR foo\`. The old dump was hiding JSR/JMP targets.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Wires \`on scanline(N)\` handlers through IR lowering and codegen:
- IR lowering: each scanline handler becomes a regular IR function
named \`{state}_scanline_{N}\`
- IR codegen: when any scanline handler exists, emits MMC3 IRQ setup
at program start (\$C000 latch, \$C001 reload, \$E001 enable, CLI)
and a \`__irq_user\` handler that saves registers, acknowledges via
\$E000, JSRs the scanline handler, restores registers, and RTIs
- Linker: vector table prefers \`__irq_user\` over the default \`__irq\`
stub when both exist
Scope of this first pass is intentionally minimal: supports ONE
scanline handler per program (the first one found in IR function
order). Per-state dispatch and multi-scanline reload will come later.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds composite \`struct\` types with field access:
struct Vec2 { x: u8, y: u8 }
var pos: Vec2
pos.x = 100
pos.y = pos.x + 5
- Lexer: \`struct\` keyword
- AST: \`StructDecl\` with \`StructField\` list; \`NesType::Struct(name)\`
for struct-typed variable declarations; \`Expr::FieldAccess\` and
\`LValue::Field\` for reads/writes
- Parser: top-level \`struct Name { field: type, ... }\` (optional
trailing comma) and \`ident.field\` syntax in both expression and
lvalue position
- Analyzer: \`register_struct\` computes contiguous field offsets
(no padding) and stores them in \`struct_layouts\`. Struct variables
synthesize a \`VarAllocation\` per field under the name
\`"struct_var.field"\`, and \`Expr::FieldAccess\` / \`LValue::Field\`
resolve against those. Unknown struct types and unknown fields
emit E0201.
- IR lowering + AST codegen: treat struct field access as ordinary
variable access against the synthetic per-field symbols. No new IR
ops are needed.
v1 structs only support primitive fields (u8/i8/bool). Nested structs,
u16 fields, and array fields are not yet allowed.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds two new passes that dramatically close the IR-vs-AST output
size gap:
- **copy_propagate_temps**: tracks the source of each \`STA\` into an
IR temp slot (\$80-\$FF). Subsequent \`LDA\` of that slot is rewritten
to load from the original source directly. The same rewrite applies
to arithmetic/logical ops that read a temp (\`ADC\`/\`SBC\`/\`AND\`/
\`ORA\`/\`EOR\`/\`CMP\`). The now-unused \`STA\` is picked up by the
dead-store pass on the next iteration.
- **remove_dead_loads**: drops an \`LDA\` whose value is immediately
overwritten by another A-clobbering load (\`LDA\`/\`PLA\`/\`TXA\`/\`TYA\`).
The existing dead-store pass is also extended to scan through labels
and branches within a function body, since IR temp slots are
SSA-unique per function. Function boundaries (\`__ir_fn_\`/\`__fn_\` labels,
\`RTS\`/\`RTI\`) still stop the scan.
Instruction count comparison (IR vs AST codegen on examples/):
before after
arrays_and_functions.ne 359 vs 236 -> 264 vs 236 (-95 ir)
bouncing_ball.ne 192 vs 144 -> 135 vs 144 (-57 ir, IR now wins)
coin_cavern.ne 412 vs 291 -> 290 vs 291 (-122 ir, IR ties)
hello_sprite.ne 116 vs 64 -> 73 vs 64
mmc1_banked.ne 378 vs 247 -> 261 vs 247
sprites_and_palettes.ne 194 vs 113 -> 121 vs 113
state_machine.ne 323 vs 229 -> 233 vs 229
IR is now competitive with the AST codegen on every example and
beats it on bouncing_ball and coin_cavern.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Tracks what the accumulator currently holds across a linear run of
instructions. When we see \`LDA addr\` or \`LDA #val\` and A is
already known to hold that value, the load is dropped. A-modifying
ops (ADC, SBC, shifts, transfers from X/Y, etc.) clear the tracker.
Any control-flow instruction or label resets it too, so JSR / branches
remain safe.
Reduces STA/LDA count in bouncing_ball from 113 to 108.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Documents the \`enum Name { Variant, ... }\` syntax and adds
\`--dump-ir\` and \`--use-ast\` to the CLI flag table. Also adds
an integration test covering enum-variant-as-condition and variant
assignment through the full compile pipeline.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds \`enum Name { V1, V2, ... }\` as a top-level declaration. Each
variant is registered as a \`u8\` constant equal to its index in the
declaration. Variant names are global and must be unique across all
enums and other symbols (E0501 on collision).
- Lexer: \`enum\` keyword
- AST: \`EnumDecl { name, variants, span }\` field on \`Program\`
- Parser: top-level \`enum\` syntax with optional trailing commas
- Analyzer: \`register_enum\` flattens variants into the symbol table
- IR lowering and AST codegen: variants resolve through the existing
\`const_values\` path
- Tests cover parsing, duplicate detection, and usage
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds \`IrProgram::pretty()\` for a readable IR dump and wires it to a
new \`--dump-ir\` build flag. Useful for debugging IR-level issues
(optimizer, lowering). Refactored \`compile()\` to take a
\`CompileOptions\` struct to keep clippy's \`fn-params-excessive-bools\`
lint happy.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds a per-instruction scan: for each \`STA slot\` where slot is an
IR temp (\$80-\$FF), walks forward through the instruction stream.
If the slot is overwritten with no intervening read, the original
STA is dead and is removed. Conservatively bails at any control-flow
boundary (jump, branch, call, return, label definition) since a
jumper or callee might read the slot.
Complements the existing peephole passes.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Previously the unused-variable warning only ran on globals. Now it
walks \`state.locals\` too, so state-scoped variables that are
declared and never read also emit W0103. Factored out to
\`check_unused_var\` to share the \`_\`-prefix exemption and help text.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds src/codegen/peephole.rs with two passes that run to fixed point
after codegen:
- \`STA slot; LDA slot\` over an IR temp (\$80-\$FF): the LDA is
redundant since A already holds the value. Dropped.
- \`LDA addr; STA addr\` (same address): the STA is a no-op since
the byte was just loaded from that slot. Dropped.
Conservative on user variables (not IR temps) so intervening IRQs or
function calls can't invalidate the optimization. This is the biggest
single win for IR codegen output quality, since IR codegen currently
stores every temp to ZP regardless of reuse.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
- Lexer: after \`asm\` keyword, next \`{\` triggers raw-text capture of
the body until the matching \`}\`, emitted as a new \`AsmBody\` token
- Parser: \`asm { ... }\` produces \`Statement::InlineAsm(body, span)\`
- Analyzer: treats inline asm as opaque (no checks)
- IR: new \`IrOp::InlineAsm(String)\` variant that passes the body
through the optimizer unchanged
- \`src/asm/inline_parser.rs\`: minimal 6502 mnemonic parser supporting
every addressing mode we emit elsewhere (immediate, ZP/ABS with X/Y,
indirect, indirect-X/Y, labels, branches, implied, accumulator)
- Both IR and AST codegen splice parsed instructions inline
- Integration test covers a mix of implied + immediate + ZP + A modes
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
When a block contains a statement after \`return\`, \`break\`,
\`continue\`, or \`transition\`, the trailing statement is unreachable
and the analyzer now emits W0104 pointing at it. The warning includes
a secondary label on the terminator showing where execution stops.
Adds \`Statement::span\` helper to the AST so diagnostics can point at
arbitrary statements cleanly.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
The linear RAM allocator now checks for overflow. The zero-page region
is capped at \$80 (leaving \$80-\$FF for IR codegen temp slots), and the
main RAM allocator stops at \$0800 (end of NES internal RAM). Overflow
emits E0301 with a helpful note pointing at the declaration.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Emits W0101 on \`a * b\`, \`a / b\`, \`a % b\` expressions where both
operands are non-constant (neither is an integer literal). These lower
to calls into the software multiply/divide routines and can blow the
6502 cycle budget. Multiplying by a constant is still silent because
the optimizer can strength-reduce power-of-2 cases to shifts and small
factors to add chains.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Adds parser support for \`on scanline(N) { ... }\` event handlers
inside state bodies. The analyzer enforces that scanline handlers
are only allowed with the MMC3 mapper (the only mapper we target
with scanline IRQ support), and validates the body like any other
state handler.
Codegen for the scanline IRQ vector is still TODO — the handler
is parsed and validated but not yet hooked up to the MMC3 IRQ
counter. When we get to it, the linker needs to install an IRQ
handler that writes to \$C000/\$C001/\$E000/\$E001.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Emits W0102 when a \`loop\` body contains no \`break\`, \`return\`,
\`transition\`, or \`wait_frame\`, since such loops spin forever and
prevent vblank from being handled. The check recurses into nested
if/while bodies so that \`break\` behind a condition still counts.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Tracks the current function's declared return type and checks that
`return value` statements match it. Returning from a void function
with a value produces E0203; returning a value with the wrong type
produces E0201. State handler `return value` is still silently
accepted (the value is discarded).
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3
Tracks parameter types per function in a signature map, and validates
that each Statement::Call and Expr::Call has the right number of
arguments (E0203). Also type-checks each argument against its declared
parameter type. Previously, calls with the wrong argument count silently
passed semantic analysis and only broke later at codegen or runtime.
https://claude.ai/code/session_01W6eQFStA66EuMKHUFo2rx3