#ifdef INTELLISENSE_DIRECTIVES # include "duffle/gen/duffle.macs.h" # include "duffle/gen/duffle.offsets.h" # include "duffle/atom_dsl.h" # include "duffle/lottes_tape.h" # include "duffle/word_count.metadata.h" # include "gen/gte_hello.offsets.h" # include "hello_gte.h" #endif #pragma region MACs (Mips Atom components) #pragma endregion MACs #pragma region Baked Atoms typedef Struct_(Binds_CubeTri) { U4 PrimCursor; V4_S2* FaceCursor; V3_S2* VertBase; U4* OtBase; }; internal MipsAtom_(rbind_cube_g4_face) atom_info(atom_bind(Binds_CubeTri) , atom_reads(R_TapePtr) , atom_writes(R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase) ){ /* Pop 4 arguments from the tape directly into the workspace registers */ load_word(R_PrimCursor, R_TapePtr, O_(Binds_CubeTri,PrimCursor)), load_word(R_FaceCursor, R_TapePtr, O_(Binds_CubeTri,FaceCursor)), load_word(R_VertBase, R_TapePtr, O_(Binds_CubeTri,VertBase)), load_word(R_OtBase, R_TapePtr, O_(Binds_CubeTri,OtBase)), add_ui_self( R_TapePtr, S_(Binds_CubeTri)), mac_yield() }; /* ============================================================================ * cube_g4_face — Draw one cube face (Gouraud-shaded quad) via the GTE tape pipeline * ============================================================================ * Reads 4 indices from R_FaceCur (V4_S2 = 8 bytes), loads 4 vertices into * the GTE, runs the PsyQ RotAverageNclip4 sequence, and renders a Poly_G4. */ internal MipsAtom_(cube_g4_face) atom_info( atom_reads( R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase), atom_writes(R_PrimCursor, R_FaceCursor) ){ load_half_u(R_T0, R_FaceCursor, 0 * S_(S2)), load_half_u(R_T1, R_FaceCursor, 1 * S_(S2)), load_half_u(R_T2, R_FaceCursor, 2 * S_(S2)), load_half_u(R_T3, R_FaceCursor, 3 * S_(S2)), mac_gte_load_tri_verts(R_T0, R_T1, R_T2), nop2, gte_cmdw_rotate_translate_perspective_triple, nop2, gte_cmdw_nclip, nop2, gte_mv_from_data_r(R_T0, C2_MAC0), nop, branch_le_zero(R_T0, atom_offset(cull, cube_g4_face_exit)), nop, store_word(R_0, R_PrimCursor, O_(Poly_G4, tag)), mac_format_g4_color( /* c0 magenta */ 0xFF, 0x00, 0xFF, /* c1 yellow */ 0xFF, 0xFF, 0x00, /* c2 cyan */ 0x00, 0xFF, 0xFF, /* c3 green */ 0x00, 0xFF, 0x00), mac_gte_store_g4_p012_post_rtpt_pre_rtps(), shift_lleft(R_AT, R_T3, v3s2_byteoff), add_u(R_AT, R_AT, R_VertBase), load_word(R_V0, R_AT, O_(V3_S2, x)), load_word(R_V1, R_AT, O_(V3_S2, z)), gte_mv_to_data_r(R_V0, C2_VXY0), gte_mv_to_data_r(R_V1, C2_VZ0), nop2, gte_cmdw_rotate_translate_perspective_single, mac_gte_store_g4_p3_post_rtps(), nop2, gte_cmdw_avg_sort_z4, nop2, gte_mv_from_data_r(R_T1, C2_OTZ), add_ui( R_AT, R_0, OrderingTbl_Len), set_lt_u( R_AT, R_T1, R_AT), branch_equal(R_AT, R_0, atom_offset(bounds_chk, cube_g4_face_exit)), nop, mac_insert_ot_tag_g4(), atom_label(cube_g4_face_exit) add_ui_self(R_PrimCursor, S_(Poly_G4)), /* 9 words = Poly_G4 */ add_ui_self(R_FaceCursor, S_(S2) * 4), /* 4 × S2 = 8 bytes */ mac_yield() }; typedef Struct_(Binds_FloorTri) { U4 PrimCursor; V3_S2* FaceCursor; V3_S2* VertBase; U4* OtBase; }; internal MipsAtom_(rbind_floor_f3_face) atom_info(atom_bind(Binds_FloorTri) , atom_reads(R_TapePtr) , atom_writes(R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase) ){ /* Pop 4 arguments from the tape directly into the workspace registers */ load_word(R_PrimCursor, R_TapePtr, O_(Binds_FloorTri,PrimCursor)), load_word(R_FaceCursor, R_TapePtr, O_(Binds_FloorTri,FaceCursor)), load_word(R_VertBase, R_TapePtr, O_(Binds_FloorTri,VertBase)), load_word(R_OtBase, R_TapePtr, O_(Binds_FloorTri,OtBase)), add_ui_self( R_TapePtr, S_(Binds_FloorTri)), mac_yield() }; internal MipsAtom_(floor_f3_face) atom_info( , atom_reads( R_PrimCursor, R_FaceCursor, R_VertBase, R_OtBase) , atom_writes(R_PrimCursor, R_FaceCursor) ) { mac_load_tri_indices( R_T0, R_T1, R_T2), mac_gte_load_tri_verts(R_T0, R_T1, R_T2), nop2, gte_cmdw_rotate_translate_perspective_triple, nop2, gte_cmdw_nclip, /* Culling (Branch forward if Backface) */ nop2, gte_mv_from_data_r(R_T0, C2_MAC0), nop, branch_le_zero(R_T0, atom_offset(culling, floor_f3_face_exit)), nop, /* Format Primitive */ mac_format_f3_color(0xFF, 0xFF, 0xFF), // RGB-form (R=FF, G=FF, B=FF = white) mac_gte_store_f3_post_rtpt(), /* Calculate Depth */ nop2, gte_avg_sort_z3, nop2, gte_mv_from_data_r(R_T1, C2_OTZ), /* Bounds Check OTZ < 2048 (Branch forward to skip insertion) */ add_ui( R_AT, R_0, OrderingTbl_Len), set_lt_u( R_AT, R_T1, R_AT), branch_equal(R_AT, R_0, atom_offset(bounds_chk, floor_f3_face_exit)), nop, /* Insert into Ordering Table Linked List */ mac_insert_ot_tag_f3(), add_ui_self(R_PrimCursor, S_(Poly_F3)), /* Advance Prim Cursor (5 words) */ // Note(Ed): No bounds checking, should be checked before atom runs. /* Advance Input Cursor & Yield (Both branch targets land here) */ atom_label(floor_f3_face_exit) add_ui_self(R_FaceCursor, S_(S2) * 4), /* Advance Face Cursor (4 * S2 = 8 bytes) */ mac_yield() }; typedef Struct_(Binds_SyncPrimitiveArena) { U4 used; U4 cursor; }; internal MipsAtom_(sync_primitive_arena) atom_info(atom_bind(Binds_SyncPrimitiveArena) , atom_reads( R_TapePtr, R_PrimCursor) , atom_writes(R_TapePtr) ){ load_word(R_AT, R_TapePtr, O_(Binds_SyncPrimitiveArena,used)), load_word(R_T0, R_TapePtr, O_(Binds_SyncPrimitiveArena,cursor)), add_ui_self( R_TapePtr, S_(Binds_SyncPrimitiveArena)), /* Calculate byte offset and store directly back to RAM */ sub_u( R_T0, R_PrimCursor, R_T0), // R_T0 = R_PrimCursor - binds.cursor store_word(R_T0, R_AT, 0), // R_AT[0] = R_T0 mac_yield() }; #pragma endregion Baked Atoms