mirror of
https://github.com/Ed94/pikuma_ps1.git
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202 lines
8.9 KiB
C
202 lines
8.9 KiB
C
/*
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* atom_dsl.h
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* ============================================================================
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*
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* ATOM DSL: Annotation layer for tape atoms (lottes_tape.h).
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*
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* WHAT THIS HEADER IS
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* -------------------
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* The metaprogram (scripts/passes/annotation.lua) reads source-as-written
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* and validates:
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* - atom_info(...) shape: up to three sub-calls (atom_bind(Binds_X),
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* atom_reads(...), atom_writes(...)) in any order. All optional.
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* (No phase token for now; phases may be reintroduced later.)
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* - rbind atoms (atom_info(..., atom_bind(Binds_X), ...)) reference a
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* real Binds_* struct declaration.
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* - wave-context positions only reference the canonical 4-register
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* set: R_PrimCursor / R_FaceCursor / R_VertBase / R_OtBase.
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* - atom word-counts in word_counts.metadata.h agree with the body's
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* actual .word count.
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*
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* WHY A PURE MACRO (atom_info, atom_bind, atom_reads, atom_writes, atom_label)
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* -----------------------------------------------------------------
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* Each of these expands to a C comment or to nothing. The C preprocessor
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* strips them to whitespace. The metaprogram reads the literal token from
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* source-as-written, NOT from the preprocessed output. This means:
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* - the C compiler does no work for them (no __attribute__, no
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* _Pragma, no asm side-effects)
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* - they can never silently drift from the metaprogram's view
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* (the metaprogram re-reads the source on every build)
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* - the annotation is invisible to the linker, debugger, and IDE
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*
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* ============================================================================
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*
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* Usage:
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* MipsAtom_(cube_tri) atom_info(
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* atom_reads (R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase)
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* , atom_writes(R_PrimCursor, R_FaceCursor)
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* ){
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* atom_label(culling),
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* // ... atom body ...
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* atom_offset(culling, bounds_chk) // branch target, validated
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* // ... atom body ...
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* atom_label(bounds_chk),
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* };
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*
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*
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* Data Binding pattern -- atom_bind as a sub-call of atom_info
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*
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* // Wave-context register layout (declarative):
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* typedef Struct_(Binds_TrackFaceBatch) {
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* U4 PrimCursor;
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* U4 FaceCursor;
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* U4 VertBase;
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* U4 OtBase;
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* };
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* MipsAtom_(rbind_track_face_batch) atom_info(
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* atom_bind(Binds_TrackFaceBatch)
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* , atom_writes(R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase)
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* ){ ... };
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*
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* Annotation rules
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* ----------------
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* 1. atom_info(...) is OPTIONAL. Most atoms have no annotation.
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* Atoms without atom_info are silently skipped by the metaprogram.
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*
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* 2. If present, atom_info takes up to three sub-calls, all
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* order-independent within the arg list:
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* - atom_bind(Binds_X) (optional; only for rbind atoms)
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* - atom_reads(...) (optional; wave-context registers)
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* - atom_writes(...) (optional; wave-context registers)
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*
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* 3. atom_bind(Binds_X) pins the ABI-struct shape -- the metaprogram
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* cross-references Binds_X against the
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* `typedef struct Binds_X { ... } Binds_X;` declaration.
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*
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* 4. atom_reads(...) and atom_writes(...) args are wave-context
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* registers: R_PrimCursor / R_FaceCursor / R_VertBase / R_OtBase.
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* Closed set. GTE / SP / DMA / I/O state is declared in source
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* comments, not in atom_reads/atom_writes.
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*
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* 5. atom_label(name) is an anchor -- the macro is empty in C; the
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* metaprogram records the marker at the current pos for offset
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* calculation.
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*
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* 6. atom_offset(F, T) is resolved by gen/atom_offsets.h, generated
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* from the atom_label markers.
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*/
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#ifdef INTELLISENSE_DIRECTIVES
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#pragma once
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// #include <stdint.h>
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#endif
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/* ============================================================================
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* WAVE-CONTEXT REGISTERS -- canonical register set for the tape wave model.
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*
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* R_PrimCursor output pointer into the prim arena (next OT entry to write)
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* R_FaceCursor input pointer into the face array (next face to consume)
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* R_VertBase base pointer into the vertex arena (this wave's vertices)
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* R_OtBase base pointer into the ordering table (this wave's OT slot)
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*
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* Closed set. If your atom needs to touch GTE / SP / DMA / other side state,
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* declare it at the source level as you normally would -- but DO NOT put
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* those registers in atom_reads/atom_writes.
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*
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* ============================================================================*/
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/* ============================================================================
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* atom_reads(...) / atom_writes(...) -- wave-context register list
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*
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* atom_reads(R_PrimCursor, R_FaceCursor)
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* -> (R_PrimCursor, R_FaceCursor) // comma-evaluated, discarded
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*
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* The macro produces a comma-evaluated expression that the C compiler
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* silently discards (it sits in an unused arg position -- the result is
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* never bound). The Lua tool pattern-matches the "atom_reads(...)" /
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* "atom_writes(...)" token to extract the list.
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*
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* You can have at most one atom_reads(...) and at most one atom_writes(...)
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* in an atom_info(...) call. To declare multiple disjoint sets (rare), just
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* declare the union -- the metaprogram doesn't track which reads need which
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* writes at this granularity.
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*
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* ============================================================================*/
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#define atom_reads(...) (__VA_ARGS__)
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#define atom_writes(...) (__VA_ARGS__)
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/* ============================================================================
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* ATOM ANNOTATION MACROS
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*
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* atom_info -- single unified annotation. OPTIONAL. Most atoms have none.
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*
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* MipsAtom_(cube_tri) atom_info(
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* atom_reads (R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase)
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* , atom_writes(R_PrimCursor, R_FaceCursor)
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* ){ ... };
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*
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* Shape (sub-args order-independent; all optional):
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* - atom_bind(Binds_X): at most one; pins the ABI-struct shape
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* - atom_reads(...): at most one; comma-list of wave-context registers
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* - atom_writes(...): at most one; comma-list of wave-context registers
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*
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* No phase token for now. The metaprogram doesn't check ordering across
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* atoms -- phases (init / bind / setup / work / commit / terminate) will
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* be reintroduced when ordering checks are added.
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*
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* The macro expands to a C comment (or to nothing). The C compiler does
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* no work. The metaprogram reads the source-as-written directly.
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*
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* ============================================================================*/
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#define atom_info(...) /* atom_info(__VA_ARGS__) */
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/* ----------------------------------------------------------------------------
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* atom_bind(Binds_X) -- rbind sub-call of atom_info
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*
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* MipsAtom_(rbind_cube_tri) atom_info(
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* atom_bind(Binds_CubeTri)
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* , atom_writes(R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase)
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* ){ ... };
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*
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* The Binds_X MUST be a typedef'd type (declared via
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* `typedef struct Binds_X { ... } Binds_X;` somewhere in the source).
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* The Lua tool cross-references this. Missing struct = error.
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*
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* atom_bind is a SUB-CALL of atom_info, not a standalone annotation macro.
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*
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* The macro expands to a C comment. The metaprogram reads source-as-written.
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* ----------------------------------------------------------------------------*/
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#define atom_bind(binds_struct) /* atom_bind(binds_struct) */
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/* ============================================================================
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* atom_label / atom_offset — branch target machinery
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*
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* atom_label(culling) ← nothing in C; anchor only
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* ... body ...
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* atom_label(bounds_chk) ← another anchor
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*
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* atom_offset(culling, bounds_chk) ← resolved by gen/.offsets.h
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*
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* The metaprogram generates gen/atom_offsets.h with one
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* #define atom_offset__culling__bounds_chk ((target - branch_pos - 1))
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* per atom_offset(F, T) call. The preprocessor then expands your call to
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* the right immediate value.
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*
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* If gen/atom_offsets.h is stale (or atom_label(name) is undefined),
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* `atom_offset__F__T` becomes an undefined macro and the C build fails.
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* This catches:
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* - typo in atom_label (no anchor → metaprogram doesn't emit the macro)
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* - .offsets.h not regenerated after body edits
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* - body edit that broke the offset math (recompile + retest picks it up
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* in CPU emulator)
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*
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* ============================================================================*/
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#define atom_offset(F, T) atom_offset_ ## F ## _ ## T
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/* atom_label is a pure annotation for the metaprogram's offset calculations.
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* The macro expands to a C comment, so the C preprocessor strips it to
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* whitespace — NO instruction word is emitted in the asm. The metaprogram
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* still recognises the literal `atom_label(name)` token in source and
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* records the marker at the current pos. */
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#define atom_label(name) /* atom_label anchor: name */
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