#include #include #include #include "types.h" // Includes from SM64 //#include "buffers/buffers.h" //#include "decompress.h" //#include "game_init.h" #include "main.h" #include "memory.h" #include "variables.h" #include "common_structs.h" #include "math_util.h" #include //#include "segment_symbols.h" //#include "segments.h" s32 D_802BA270; s32 D_802BA274; u32 sPoolFreeSpace; struct MainPoolBlock *sPoolListHeadL; struct MainPoolBlock *sPoolListHeadR; struct MainPoolState *gMainPoolState = NULL; struct UnkStruct_802B8CD4 D_802B8CD4[] = { 0 }; s32 D_802B8CE4 = 0; // pad s32 func_802A7B70(s32 segment) { s32 old; old = gPrevLoadedAddress; segment = ALIGN16(segment); gPrevLoadedAddress += segment; return old; } uintptr_t set_segment_base_addr(s32 segment, void *addr) { gSegmentTable[segment] = (uintptr_t) addr & 0x1FFFFFFF; return gSegmentTable[segment]; } void *get_segment_base_addr(s32 segment) { return (void *) (gSegmentTable[segment] | 0x80000000); } /** * @brief converts an RSP segment + offset address to a normal memory address */ void *segmented_to_virtual(const void *addr) { size_t segment = (uintptr_t) addr >> 24; size_t offset = (uintptr_t) addr & 0x00FFFFFF; return (void *) ((gSegmentTable[segment] + offset) | 0x80000000); } void move_segment_table_to_dmem(void) { s32 i; for (i = 0; i < 16; i++) { gSPSegment(gDisplayListHead++, i, gSegmentTable[i]); } } void func_802A7CF0(s32 start, s32 end) { start = ALIGN16(start); end &= ~0xF; D_8015F724 = (end - start) - 0x10; gPrevLoadedAddress = start; } s32 func_802A7D1C(s32 arg0) { s32 addr; arg0 = ALIGN16(arg0); D_8015F724 -= arg0; addr = gPrevLoadedAddress; gPrevLoadedAddress += arg0; return addr; } UNUSED void func_802A7D54(s32 arg0, s32 arg1) { gD_80150158[arg0].unk0 = arg0; gD_80150158[arg0].unk8 = arg1; } s32 func_802A7D70(s32 arg0, s32 arg1) { s32 temp_v0; s32 temp_a2 = arg1 - arg0; temp_v0 = func_802A7D1C(temp_a2); if (temp_v0 != 0) { dma_copy(temp_v0, arg0, temp_a2); } return temp_v0; } UNUSED void main_pool_init(u32 start, u32 end) { start = ALIGN16(start); end = ALIGN16(end - 15); sPoolFreeSpace = (end - start) - 16; sPoolListHeadL = (struct MainPoolBlock *) start; sPoolListHeadR = (struct MainPoolBlock *) end; sPoolListHeadL->prev = NULL; sPoolListHeadL->next = NULL; sPoolListHeadR->prev = NULL; sPoolListHeadR->next = NULL; } /** * Allocate a block of memory from the pool of given size, and from the * specified side of the pool (MEMORY_POOL_LEFT or MEMORY_POOL_RIGHT). * If there is not enough space, return NULL. */ void *main_pool_alloc(u32 size, u32 side) { struct MainPoolBlock *newListHead; void *addr = NULL; size = ALIGN16(size) + 8; if (sPoolFreeSpace >= size) { sPoolFreeSpace -= size; if (side == MEMORY_POOL_LEFT) { newListHead = (struct MainPoolBlock *) ((u8 *) sPoolListHeadL + size); sPoolListHeadL->next = newListHead; newListHead->prev = sPoolListHeadL; addr = (u8 *) sPoolListHeadL + 8; sPoolListHeadL = newListHead; } else { newListHead = (struct MainPoolBlock *) ((u8 *) sPoolListHeadR - size); sPoolListHeadR->prev = newListHead; newListHead->next = sPoolListHeadR; sPoolListHeadR = newListHead; addr = (u8 *) sPoolListHeadR + 8; } } return addr; } /** * Free a block of memory that was allocated from the pool. The block must be * the most recently allocated block from its end of the pool, otherwise all * newer blocks are freed as well. * Return the amount of free space left in the pool. */ u32 main_pool_free(void *addr) { struct MainPoolBlock *block = (struct MainPoolBlock *) ((u8 *) addr - 8); struct MainPoolBlock *oldListHead = (struct MainPoolBlock *) ((u8 *) addr - 8); if (oldListHead < sPoolListHeadL) { while (oldListHead->next != NULL) { oldListHead = oldListHead->next; } sPoolListHeadL = block; sPoolListHeadL->next = NULL; sPoolFreeSpace += (uintptr_t) oldListHead - (uintptr_t) sPoolListHeadL; } else { while (oldListHead->prev != NULL) { oldListHead = oldListHead->prev; } sPoolListHeadR = block->next; sPoolListHeadR->prev = NULL; sPoolFreeSpace += (uintptr_t) sPoolListHeadR - (uintptr_t) oldListHead; } return sPoolFreeSpace; } // main_pool_realloc UNUSED void *main_pool_realloc(void *addr, u32 size) { void *newAddr = NULL; struct MainPoolBlock *block = (struct MainPoolBlock *) ((u8 *) addr - 8); if (block->next == sPoolListHeadL) { main_pool_free(addr); newAddr = main_pool_alloc(size, MEMORY_POOL_LEFT); } return newAddr; } UNUSED s32 main_pool_available(void) { return sPoolFreeSpace - 8; } UNUSED u32 main_pool_push_state(void) { struct MainPoolState *prevState = gMainPoolState; u32 freeSpace = sPoolFreeSpace; struct MainPoolBlock *lhead = sPoolListHeadL; struct MainPoolBlock *rhead = sPoolListHeadR; gMainPoolState = main_pool_alloc(sizeof(*gMainPoolState), MEMORY_POOL_LEFT); gMainPoolState->freeSpace = freeSpace; gMainPoolState->listHeadL = lhead; gMainPoolState->listHeadR = rhead; gMainPoolState->prev = prevState; return sPoolFreeSpace; } /** * Restore pool state from a previous call to main_pool_push_state. Return the * amount of free space left in the pool. */ UNUSED u32 main_pool_pop_state(void) { sPoolFreeSpace = gMainPoolState->freeSpace; sPoolListHeadL = gMainPoolState->listHeadL; sPoolListHeadR = gMainPoolState->listHeadR; gMainPoolState = gMainPoolState->prev; return sPoolFreeSpace; } // similar to sm64 dma_read void *func_802A80B0(u8 *dest, u8 *srcStart, u8 *srcEnd) { u32 addr; u32 size = srcStart - dest; addr = main_pool_alloc(size, srcEnd); if (addr != 0) { osInvalDCache(addr, size); osPiStartDma(&gDmaIoMesg, OS_MESG_PRI_NORMAL, OS_READ, dest, addr, size, &gDmaMesgQueue); osRecvMesg(&gDmaMesgQueue, &gMainReceivedMesg, OS_MESG_BLOCK); } return addr; } // replaces call to dynamic_dma_read with dma_read. UNUSED void *load_segment(s32 segment, u8 *srcStart, u8 *srcEnd, u32 side) { void *addr = func_802A80B0(srcStart, srcEnd, side); if (addr != NULL) { set_segment_base_addr(segment, addr); } return addr; } // Similar to sm64 load_to_fixed_pool_addr? void *func_802A8190(s32 arg0, s32 arg1) { //u32 srcSize = ALIGN16(srcEnd - srcStart); //u32 destSize = ALIGN16((u8 *) sPoolListHeadR - destAddr); u32 addr; u32 temp_v0 = D_802B8CD4[arg0].unk4; u32 temp_v1 = D_802B8CD4[arg0].unk8; u32 temp_v2 = D_802B8CD4[arg0].unk2; addr = func_802A80B0(temp_v0, temp_v1, arg1); //dest = main_pool_alloc(destSize, MEMORY_POOL_RIGHT); if (addr != 0) { set_segment_base_addr(temp_v2, addr); } return addr; } UNUSED void func_802A81EC(void) { u32 addr; s32 temp_s0; s16 *phi_s1; s32 phi_s0; phi_s1 = &D_802B8CD4; phi_s0 = 0; do { if ((*phi_s1 & 1) != 0) { func_802A8190(phi_s0, 0); } temp_s0 = phi_s0 + 1; phi_s1 += 8; phi_s0 = temp_s0; } while (phi_s0 != 3); } UNUSED struct AllocOnlyPool *alloc_only_pool_init(u32 size, u32 side) { void *addr; struct AllocOnlyPool *subPool = NULL; size = ALIGN4(size); addr = main_pool_alloc(size + sizeof(struct AllocOnlyPool), side); if (addr != NULL) { subPool = (struct AllocOnlyPool *) addr; subPool->totalSpace = size; subPool->usedSpace = (u8 *) addr + sizeof(struct AllocOnlyPool); subPool->startPtr = 0; subPool->freePtr = (u8 *) addr + sizeof(struct AllocOnlyPool); } return subPool; } UNUSED u32 func_802A82AC(s32 arg0) { u32 temp_v0; u32 phi_v1; temp_v0 = D_801502A0 - arg0; phi_v1 = 0; if (temp_v0 >= (u32) gDisplayListHead) { D_801502A0 = temp_v0; phi_v1 = temp_v0; } return phi_v1; } s32 func_802A82E4(u8 *start, u8 *end) { s32 dest; u32 size; size = ALIGN16(end - start); dest = gPrevLoadedAddress; dma_copy(dest, start, size); gPrevLoadedAddress += size; return dest; } // unused mio0 decode func. UNUSED s32 func_802A8348(s32 arg0, s32 arg1, s32 arg2) { s32 offset; UNUSED s32 *pad; s32 oldAddr; s32 newAddr; offset = ALIGN16(arg1 * arg2); oldAddr = gPrevLoadedAddress; newAddr = oldAddr + offset; pad = &newAddr; osInvalDCache(newAddr, offset); osPiStartDma(&gDmaIoMesg, 0, 0, &_other_texturesSegmentRomStart[arg0 & 0xFFFFFF], newAddr, offset, &gDmaMesgQueue); osRecvMesg(&gDmaMesgQueue, &gMainReceivedMesg, 1); func_80040030(newAddr, oldAddr); gPrevLoadedAddress += offset; return oldAddr; } UNUSED s32 func_802A841C(s32 arg0, s32 arg1, s32 arg2) { s32 temp_v0; s32 temp_a0; temp_v0 = gPrevLoadedAddress; temp_a0 = temp_v0 + arg2; arg1 = ALIGN16(arg1); arg2 = ALIGN16(arg2); osInvalDCache(temp_a0, arg1); osPiStartDma(&gDmaIoMesg, 0, 0, &_other_texturesSegmentRomStart[arg0 & 0xFFFFFF],temp_a0, arg1, &gDmaMesgQueue); osRecvMesg(&gDmaMesgQueue, &gMainReceivedMesg, 1); func_80040030(temp_a0, temp_v0); gPrevLoadedAddress += arg2; return temp_v0; } s32 func_802A84F4(s32 arg0, u32 arg1, u32 arg2) { u8 *temp_v0; u32 temp_a0; temp_v0 = gPrevLoadedAddress; temp_a0 = temp_v0 + arg2; arg1 = ALIGN16(arg1); arg2 = ALIGN16(arg2); osInvalDCache(temp_a0, arg1); osPiStartDma(&gDmaIoMesg, 0, 0, &_other_texturesSegmentRomStart[arg0 & 0xFFFFFF], temp_a0, arg1, &gDmaMesgQueue); osRecvMesg(&gDmaMesgQueue, &gMainReceivedMesg, (int) 1); mio0decode(temp_a0, temp_v0); gPrevLoadedAddress += arg2; return temp_v0; } u32 MIO0_0F(s32 arg0, u32 arg1, u32 arg2) { u32 oldHeapEndPtr; u8 *temp_v0; u32 temp_a0; arg1 = ALIGN16(arg1); arg2 = ALIGN16(arg2); oldHeapEndPtr = gHeapEndPtr; temp_v0 = gPrevLoadedAddress; osInvalDCache(temp_v0, arg1); osPiStartDma(&gDmaIoMesg, 0, 0, &_other_texturesSegmentRomStart[arg0 & 0xFFFFFF], temp_v0, arg1, &gDmaMesgQueue); osRecvMesg(&gDmaMesgQueue, &gMainReceivedMesg, 1); mio0decode(temp_v0, oldHeapEndPtr); gHeapEndPtr += arg2; return oldHeapEndPtr; } #ifdef MIPS_TO_C //generated by m2c commit 8267401fa4ef7a38942dcca43353cc1bcc6efabc extern f32 D_800DC608; extern s16 *gHeapEndPtr; void func_802A86A8(mk64_Vtx *arg0, u32 arg1) { f32 temp_f6; mk64_Vtx *var_v0; s16 *var_v1; s8 temp_a0; s8 temp_a3; u32 var_a2; var_v1 = gHeapEndPtr - (((arg1 * 0x10) + 0xF) & ~0xF); var_v0 = arg0; gHeapEndPtr = var_v1; var_a2 = 0; if (arg1 != 0) { do { if (gIsMirrorMode != 0) { *var_v1 = -var_v0->ob[0]; } else { *var_v1 = var_v0->ob[0]; } var_a2 += 1; var_v1 += 0x10; temp_f6 = (f32) var_v0->ob[1]; var_v0 += 0xE; var_v1->unk-E = (s16) (s32) (temp_f6 * D_800DC608); temp_a0 = var_v0->unk-4; temp_a3 = var_v0->unk-3; var_v1->unk-C = (s16) var_v0->unk-A; var_v1->unk-8 = (s16) var_v0->unk-8; var_v1->unk-4 = (s8) (temp_a0 & 0xFC); var_v1->unk-3 = (s8) (temp_a3 & 0xFC); var_v1->unk-6 = (s16) var_v0->unk-6; var_v1->unk-2 = (s8) var_v0->unk-2; var_v1->unk-A = (s16) (s8) ((temp_a0 & 3) | ((temp_a3 * 4) & 0xC)); var_v1->unk-1 = 0xFF; } while (var_a2 < arg1); } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A86A8.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 //void func_802A86A8(u8 *, s32); // extern void func_802A87A8(s32 arg0, u32 arg1) { //u8 *sp18; u8 temp_v0; u32 endptr; u32 *addr; temp_v0 = ALIGN16(arg1 * 0x18); gPrevLoadedAddress += temp_v0; addr = VIRTUAL_TO_PHYSICAL2(&gSegmentTable[((arg0 >> 0x18) * 4)] + arg0); // &gSegmentTable + ((arg0 >> 0x18) * 4)) + (arg0 & 0xFFFFFF) + 0x80000000 //sp18 = temp_v0; mio0decode(addr, temp_v0); func_802A86A8(temp_v0, arg1); endptr = gHeapEndPtr; set_segment_base_addr(4, endptr); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A87A8.s") #endif UNUSED void func_802A8844(void) { } void func_802A884C(Gfx *arg0, u8 arg1, s8 arg2) { s32 pad; s32 a = (arg2 * 0x18) + 0x9000008; s32 b = (arg2 * 0x18) + 0x9000000; Gfx macro[] = {gsSPNumLights(NUMLIGHTS_1)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; arg0[D_802BA270].words.w0 = 0x3860010; arg0[D_802BA270].words.w1 = a; D_802BA270++; arg0[D_802BA270].words.w0 = 0x3880010; arg0[D_802BA270].words.w1 = b; D_802BA270++; } void func_802A8940(Gfx *arg0, u8 *arg1, u8 arg2) { u32 temp_v0 = arg1[D_802BA274++]; u32 temp_t7 = ((arg1[D_802BA274++]) << 8 | temp_v0) * 8; arg0[D_802BA270].words.w0 = 0x6000000; arg0[D_802BA270].words.w1 = 0x7000000 + temp_t7; D_802BA270++; } // end display list void func_802A89C0(Gfx *arg0, u8 arg1, u8 arg2) { arg0[D_802BA270].words.w0 = G_ENDDL << 24; arg0[D_802BA270].words.w1 = 0; D_802BA270++; } void func_802A8A04(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsSPSetGeometryMode(G_CULL_BACK)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8A70(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsSPClearGeometryMode(G_CULL_BACK)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8ADC(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsSPCullDisplayList(0, 160)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8B48(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetCombineMode(G_CC_MODULATERGBA, G_CC_MODULATERGBA)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8BB4(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetCombineMode(G_CC_MODULATERGBDECALA, G_CC_MODULATERGBDECALA)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8C20(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetCombineMode(G_CC_SHADE, G_CC_SHADE)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8C8C(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetCombineMode(G_CC_MODULATERGBDECALA, G_CC_MODULATERGBDECALA)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8CF8(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetCombineMode(G_CC_DECALRGBA, G_CC_DECALRGBA)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8D64(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetRenderMode(G_RM_AA_ZB_OPA_SURF, G_RM_AA_ZB_OPA_SURF2)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8DD0(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetRenderMode(G_RM_AA_ZB_TEX_EDGE, G_RM_AA_ZB_TEX_EDGE2)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8E3C(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetRenderMode(G_RM_AA_ZB_XLU_SURF, G_RM_AA_ZB_XLU_SURF2)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8EA8(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetRenderMode(G_RM_AA_ZB_OPA_DECAL, G_RM_AA_ZB_OPA_DECAL)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A8F14(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = {gsDPSetRenderMode(G_RM_AA_ZB_XLU_DECAL, G_RM_AA_ZB_XLU_DECAL)}; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } Gfx D_802B8D58[] = {gsDPTileSync()}; #ifdef MIPS_TO_C //generated by mips_to_c commit bd0364fa19633bd6201f8007e2d0a7ed87825909 static Gfx D_802B8D58; /* unable to generate initializer */ void func_802A8F80(s32 arg0, s32 arg1, s8 arg2) { s32 sp58; s32 sp48; s32 sp44; s32 sp40; s32 temp_a1; s32 temp_t5; s32 temp_t8; s32 temp_t9; u8 temp_a0; u8 temp_a0_2; s32 phi_v1; s32 phi_v0; sp58.unk0 = D_802B8D58.unk0; sp58.unk4 = D_802B8D58.unk4; phi_v0 = 0; phi_v0 = 0; switch (arg2) { case 26: sp44 = 0x20; sp40 = 0; phi_v1 = 0x20; block_9: sp48 = phi_v1; break; case 44: sp44 = 0x20; sp40 = 0; phi_v1 = 0x20; phi_v0 = 0x100; goto block_9; case 27: sp44 = 0x20; sp40 = 0; phi_v1 = 0x40; goto block_9; case 28: sp44 = 0x40; sp40 = 0; phi_v1 = 0x20; goto block_9; case 29: sp44 = 0x20; sp40 = 3; phi_v1 = 0x20; goto block_9; case 30: sp44 = 0x20; sp40 = 3; phi_v1 = 0x40; goto block_9; case 31: sp44 = 0x40; sp40 = 3; phi_v1 = 0x20; goto block_9; } temp_a1 = D_802BA274; temp_a0 = *(temp_a1 + arg1); temp_t9 = temp_a1 + 1; D_802BA274 = temp_t9; temp_a0_2 = *(temp_t9 + arg1); D_802BA274 = temp_t9 + 1; *(arg0 + (D_802BA270 * 8)) = sp58; (arg0 + (D_802BA270 * 8))->unk4 = sp5C; D_802BA270 += 1; *(arg0 + (D_802BA270 * 8)) = (sp40 << 0x15) | 0xF5000000 | 0x100000 | ((((sp48 * 2) + 7) >> 3) << 9) | phi_v0; (arg0 + (D_802BA270 * 8))->unk4 = ((temp_a0_2 & 0xF) << 0x12) | (((temp_a0_2 & 0xF0) >> 4) << 0xE) | ((temp_a0 & 0xF) << 8) | (((temp_a0 & 0xF0) >> 4) * 0x10); temp_t5 = D_802BA270 + 1; temp_t8 = temp_t5 * 8; D_802BA270 = temp_t5; *(arg0 + temp_t8) = 0xF2000000; (arg0 + (D_802BA270 * 8))->unk4 = ((sp48 - 1) << 0xE) | ((sp44 - 1) * 4); D_802BA270 += 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A8F80.s") #endif Gfx D_802B8D60[] = { gsDPTileSync() }; Gfx D_802B8D68[] = { gsDPLoadSync() }; #ifdef MIPS_TO_C //generated by mips_to_c commit bd0364fa19633bd6201f8007e2d0a7ed87825909 static Gfx D_802B8D60; /* unable to generate initializer */ static Gfx D_802B8D68; /* unable to generate initializer */ void func_802A91E4(s32 arg0, s32 arg1, s8 arg2) { s32 sp48; s32 sp40; s32 sp2C; s32 sp28; s32 sp24; s32 temp_t1; s32 temp_t6; s32 temp_t6_2; s32 temp_t8; s32 temp_t9; s32 temp_t9_2; s32 temp_v1; u32 temp_t2; u32 temp_t6_3; u8 temp_a2; u8 temp_a3; s32 phi_v0; u32 phi_v0_2; u32 phi_a2; u32 phi_v1; sp48.unk0 = D_802B8D60.unk0; sp48.unk4 = D_802B8D60.unk4; sp40.unk0 = D_802B8D68.unk0; sp40.unk4 = D_802B8D68.unk4; switch (arg2) { case 32: sp28 = 0x20; sp24 = 0; phi_v0 = 0x20; block_8: sp2C = phi_v0; break; case 33: sp28 = 0x20; sp24 = 0; phi_v0 = 0x40; goto block_8; case 34: sp28 = 0x40; sp24 = 0; phi_v0 = 0x20; goto block_8; case 35: sp28 = 0x20; sp24 = 3; phi_v0 = 0x20; goto block_8; case 36: sp28 = 0x20; sp24 = 3; phi_v0 = 0x40; goto block_8; case 37: sp28 = 0x40; sp24 = 3; phi_v0 = 0x20; goto block_8; } temp_v1 = D_802BA274; temp_a2 = *(arg1 + temp_v1); temp_t9 = temp_v1 + 1; D_802BA274 = temp_t9; temp_t8 = temp_t9 + 1; D_802BA274 = temp_t8; temp_a3 = *(temp_t8 + arg1); D_802BA274 = temp_t8 + 1; temp_t6 = sp24 << 0x15; *(arg0 + (D_802BA270 * 8)) = temp_t6 | 0xFD000000 | 0x100000; (arg0 + (D_802BA270 * 8))->unk4 = (temp_a2 << 0xB) + 0x5000000; temp_t9_2 = D_802BA270 + 1; D_802BA270 = temp_t9_2; *(arg0 + (temp_t9_2 * 8)) = sp48; (arg0 + (D_802BA270 * 8))->unk4 = sp4C; D_802BA270 += 1; *(arg0 + (D_802BA270 * 8)) = temp_t6 | 0xF5000000 | 0x100000 | (temp_a3 & 0xF); temp_t1 = ((temp_a3 & 0xF0) >> 4) << 0x18; (arg0 + (D_802BA270 * 8))->unk4 = temp_t1; temp_t6_2 = D_802BA270 + 1; D_802BA270 = temp_t6_2; *(arg0 + (temp_t6_2 * 8)) = sp40; (arg0 + (D_802BA270 * 8))->unk4 = sp44; temp_t6_3 = (sp2C * 2) >> 3; D_802BA270 += 1; temp_t2 = (sp2C * sp28) - 1; phi_v1 = 0x7FF; if (temp_t2 < 0x7FF) { phi_v1 = temp_t2; } if (temp_t6_3 == 0) { phi_v0_2 = 1; } else { phi_v0_2 = temp_t6_3; } phi_a2 = temp_t6_3; if (temp_t6_3 == 0) { phi_a2 = 1; } *(arg0 + (D_802BA270 * 8)) = 0xF3000000; (arg0 + (D_802BA270 * 8))->unk4 = ((phi_v0_2 + 0x7FF) / phi_a2) | temp_t1 | (phi_v1 << 0xC); D_802BA270 += 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A91E4.s") #endif void func_802A94D8(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = { gsSPTexture(0xFFFF, 0xFFFF, 0, G_TX_RENDERTILE, G_ON) }; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } void func_802A9544(Gfx *arg0, u8 arg1, u8 arg2) { Gfx macro[] = { gsSPTexture(0x1, 0x1, 0, G_TX_RENDERTILE, G_OFF) }; arg0[D_802BA270].words.w0 = macro->words.w0; arg0[D_802BA270].words.w1 = macro->words.w1; D_802BA270++; } #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern s32 D_802BA270; extern s32 D_802BA274; void func_802A95B0(s32 arg0, s32 arg1, ? arg2) { s32 temp_t5; s32 temp_t7; s32 temp_t7_2; s32 temp_v1; u8 temp_v0; temp_v1 = D_802BA274; temp_t7 = temp_v1 + 1; temp_v0 = *(temp_v1 + arg1); D_802BA274 = temp_t7; temp_t5 = temp_t7 + 1; D_802BA274 = temp_t5; temp_t7_2 = temp_t5 + 1; D_802BA274 = temp_t7_2; D_802BA274 = temp_t7_2 + 1; *(arg0 + (D_802BA270 * 8)) = ((*(temp_t7_2 + arg1) & 0x3F) << 0x11) | 0x4000000 | (((*(temp_t5 + arg1) & 0x3F) * 0x410) - 1); (arg0 + (D_802BA270 * 8))->unk4 = (((*(temp_t7 + arg1) << 8) | temp_v0) * 0x10) + 0x4000000; D_802BA270 = D_802BA270 + 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A95B0.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern s32 D_802BA270; extern s32 D_802BA274; void func_802A9674(s32 arg0, s32 arg1, s8 arg2) { s32 temp_t9; s32 temp_v1; u8 temp_v0; temp_v1 = D_802BA274; temp_t9 = temp_v1 + 1; temp_v0 = *(temp_v1 + arg1); D_802BA274 = temp_t9; D_802BA274 = temp_t9 + 1; *(arg0 + (D_802BA270 * 8)) = (((arg2 - 0x32) * 0x410) - 1) | 0x4000000; (arg0 + (D_802BA270 * 8))->unk4 = (((*(temp_t9 + arg1) << 8) | temp_v0) * 0x10) + 0x4000000; D_802BA270 = D_802BA270 + 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A9674.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern s32 D_802BA270; extern s32 D_802BA274; void func_802A9714(s32 arg0, s32 arg1, ? arg2) { s32 temp_t7; s32 temp_v1; s32 temp_v1_2; u8 temp_v0; u8 temp_v0_2; u8 temp_v0_3; s32 phi_a3; s32 phi_a2; s32 phi_a0; temp_v1 = D_802BA274; temp_v0 = *(temp_v1 + arg1); temp_t7 = temp_v1 + 1; D_802BA274 = temp_t7; phi_a3 = temp_v0 & 0x1F; phi_a0 = temp_v0 & 0x1F; if (gIsMirrorMode != 0) { temp_v0_2 = *(temp_t7 + arg1); D_802BA274 = temp_t7 + 1; phi_a3 = (temp_v0_2 >> 2) & 0x1F; phi_a2 = ((temp_v0 >> 5) & 7) | ((temp_v0_2 & 3) * 8); } else { temp_v1_2 = D_802BA274; temp_v0_3 = *(temp_v1_2 + arg1); D_802BA274 = temp_v1_2 + 1; phi_a2 = ((temp_v0 >> 5) & 7) | ((temp_v0_3 & 3) * 8); phi_a0 = (temp_v0_3 >> 2) & 0x1F; } *(arg0 + (D_802BA270 * 8)) = 0xBF000000; (arg0 + (D_802BA270 * 8))->unk4 = (phi_a3 << 0x11) | (phi_a2 << 9) | (phi_a0 * 2); D_802BA270 = D_802BA270 + 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A9714.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern s32 D_802BA270; extern s32 D_802BA274; void func_802A980C(s32 arg0, s32 arg1, ? arg2) { s32 temp_a2; s32 temp_t7; s32 temp_t8; s32 temp_t9; s32 temp_t9_2; s32 temp_v1; s32 temp_v1_2; s32 temp_v1_3; s32 temp_v1_4; u8 temp_v0; u8 temp_v0_2; u8 temp_v0_3; u8 temp_v0_4; u8 temp_v0_5; u8 temp_v0_6; s32 phi_t0; s32 phi_a3; s32 phi_a0; s32 phi_t2; s32 phi_t1; s32 phi_a2; temp_v1 = D_802BA274; temp_v0 = *(temp_v1 + arg1); temp_t7 = temp_v1 + 1; D_802BA274 = temp_t7; temp_a2 = gIsMirrorMode; phi_t0 = temp_v0 & 0x1F; phi_a0 = temp_v0 & 0x1F; if (temp_a2 != 0) { temp_v0_2 = *(temp_t7 + arg1); D_802BA274 = temp_t7 + 1; phi_t0 = (temp_v0_2 >> 2) & 0x1F; phi_a3 = ((temp_v0 >> 5) & 7) | ((temp_v0_2 & 3) * 8); } else { temp_v1_2 = D_802BA274; temp_v0_3 = *(temp_v1_2 + arg1); D_802BA274 = temp_v1_2 + 1; phi_a3 = ((temp_v0 >> 5) & 7) | ((temp_v0_3 & 3) * 8); phi_a0 = (temp_v0_3 >> 2) & 0x1F; } temp_v1_3 = D_802BA274; temp_v0_4 = *(temp_v1_3 + arg1); temp_t9 = temp_v1_3 + 1; D_802BA274 = temp_t9; if (temp_a2 != 0) { temp_v0_5 = *(temp_t9 + arg1); D_802BA274 = temp_t9 + 1; phi_t2 = (temp_v0_5 >> 2) & 0x1F; phi_t1 = ((temp_v0_4 >> 5) & 7) | ((temp_v0_5 & 3) * 8); phi_a2 = temp_v0_4 & 0x1F; } else { temp_v1_4 = D_802BA274; temp_v0_6 = *(temp_v1_4 + arg1); temp_t8 = (temp_v0_6 & 3) * 8; temp_t9_2 = (temp_v0_6 >> 2) & 0x1F; D_802BA274 = temp_v1_4 + 1; phi_t2 = temp_v0_4 & 0x1F; phi_t1 = ((temp_v0_4 >> 5) & 7) | temp_t8; phi_a2 = temp_t9_2; } *(arg0 + (D_802BA270 * 8)) = (phi_t0 << 0x11) | 0xB1000000 | (phi_a3 << 9) | (phi_a0 * 2); (arg0 + (D_802BA270 * 8))->unk4 = (phi_t2 << 0x11) | (phi_t1 << 9) | (phi_a2 * 2); D_802BA270 = D_802BA270 + 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A980C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern s32 D_802BA270; extern s32 D_802BA274; void func_802A99A4(s32 arg0, s32 arg1, ? arg2) { s32 temp_t3; s32 temp_t6; s32 temp_t7; s32 temp_v1; s32 temp_v1_2; u8 temp_v0; u8 temp_v0_2; u8 temp_v0_3; s32 phi_a0; s32 phi_t0; s32 phi_a3; s32 phi_a2; temp_v1 = D_802BA274; temp_v0 = *(temp_v1 + arg1); temp_t7 = temp_v1 + 1; D_802BA274 = temp_t7; phi_a0 = temp_v0 & 0x1F; phi_t0 = temp_v0 & 0x1F; if (gIsMirrorMode != 0) { temp_v0_2 = *(temp_t7 + arg1); temp_t3 = temp_t7 + 1; D_802BA274 = temp_t3; D_802BA274 = temp_t3 + 1; phi_t0 = ((temp_v0_2 >> 7) & 1) | ((*(temp_t3 + arg1) & 0xF) * 2); phi_a3 = (temp_v0_2 >> 2) & 0x1F; phi_a2 = ((temp_v0 >> 5) & 7) | ((temp_v0_2 & 3) * 8); } else { temp_v1_2 = D_802BA274; temp_v0_3 = *(temp_v1_2 + arg1); temp_t6 = temp_v1_2 + 1; D_802BA274 = temp_t6; D_802BA274 = temp_t6 + 1; phi_a0 = ((temp_v0_3 >> 7) & 1) | ((*(temp_t6 + arg1) & 0xF) * 2); phi_a3 = ((temp_v0 >> 5) & 7) | ((temp_v0_3 & 3) * 8); phi_a2 = (temp_v0_3 >> 2) & 0x1F; } *(arg0 + (D_802BA270 * 8)) = 0xB5000000; (arg0 + (D_802BA270 * 8))->unk4 = (phi_a0 << 0x19) | (phi_t0 << 0x11) | (phi_a3 << 9) | (phi_a2 * 2); D_802BA270 = D_802BA270 + 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802A99A4.s") #endif #ifdef MIPS_TO_C //generated by m2c commit 8267401fa4ef7a38942dcca43353cc1bcc6efabc void func_802A8F80(Gfx *, u8, s8, s32 *); /* extern */ void func_802A91E4(Gfx *, u8, s8, s32 *); /* extern */ void func_802A95B0(Gfx *, u8, s8, s32 *); /* extern */ void func_802A9674(Gfx *, u8, s8, s32 *); /* extern */ void func_802A9714(Gfx *, u8, s8, s32 *); /* extern */ void func_802A980C(Gfx *, u8, s8, s32 *); /* extern */ void func_802A99A4(Gfx *, u8, s8, s32 *); /* extern */ extern s32 D_802BA270; extern s32 D_802BA274; extern Gfx *gHeapEndPtr; void display_list_unpack(u32 arg0, s32 arg1, u8 arg2) { Gfx *sp2C; Gfx *temp_s1; s32 temp_v1; u8 temp_a0; u8 temp_s0; temp_s0 = gSegmentTable[arg0 >> 0x18] + (arg0 & 0xFFFFFF) + 0x80000000; temp_s1 = gHeapEndPtr - (((arg1 + 0xF) & ~0xF) + 8); gHeapEndPtr = temp_s1; D_802BA270 = 0; sp2C = temp_s1; D_802BA274 = 0; case 0x31: case 0x32: loop_1: temp_v1 = D_802BA274; temp_a0 = *(temp_v1 + temp_s0); D_802BA274 = temp_v1 + 1; switch (temp_a0) { /* irregular */ case 0x0: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x1: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x2: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x3: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x4: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x5: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x6: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x7: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x8: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x9: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0xA: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0xB: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0xC: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0xD: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0xE: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0xF: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x10: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x11: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x12: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x13: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x14: func_802A884C(temp_s1, temp_s0, (s8) temp_a0); goto loop_1; case 0x15: func_802A8B48(temp_s1, temp_s0, arg2); goto loop_1; case 0x16: func_802A8BB4(temp_s1, temp_s0, arg2); goto loop_1; case 0x17: func_802A8C20(temp_s1, temp_s0, arg2); goto loop_1; case 0x2E: func_802A8C8C(temp_s1, temp_s0, arg2); goto loop_1; case 0x53: func_802A8CF8(temp_s1, temp_s0, arg2); goto loop_1; case 0x18: func_802A8D64(temp_s1, temp_s0, arg2); goto loop_1; case 0x19: func_802A8DD0(temp_s1, temp_s0, arg2); goto loop_1; case 0x2F: func_802A8E3C(temp_s1, temp_s0, arg2); goto loop_1; case 0x54: func_802A8EA8(temp_s1, temp_s0, arg2); goto loop_1; case 0x55: func_802A8F14(temp_s1, temp_s0, arg2); goto loop_1; case 0x1A: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x2C: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x1B: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x1C: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x1D: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x1E: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x1F: func_802A8F80(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x20: func_802A91E4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x21: func_802A91E4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x22: func_802A91E4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x23: func_802A91E4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x24: func_802A91E4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x25: func_802A91E4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x26: func_802A94D8(temp_s1, temp_s0, (u8) (s8) temp_a0); goto loop_1; case 0x27: func_802A9544(temp_s1, temp_s0, (u8) (s8) temp_a0); goto loop_1; case 0x28: func_802A95B0(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x33: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x34: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x35: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x36: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x37: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x38: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x39: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x3A: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x3B: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x3C: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x3D: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x3E: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x3F: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x40: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x41: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x42: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x43: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x44: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x45: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x46: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x47: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x48: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x49: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x4A: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x4B: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x4C: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x4D: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x4E: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x4F: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x50: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x51: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x52: func_802A9674(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x29: func_802A9714(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x58: func_802A980C(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x30: func_802A99A4(temp_s1, temp_s0, (s8) temp_a0, &D_802BA274); goto loop_1; case 0x2D: func_802A8ADC(temp_s1, temp_s0, (u8) (s8) temp_a0); goto loop_1; case 0x2A: func_802A89C0(temp_s1, temp_s0, (u8) (s8) temp_a0); goto loop_1; case 0x56: func_802A8A04(temp_s1, temp_s0, (u8) (s8) temp_a0); goto loop_1; case 0x57: func_802A8A70(temp_s1, temp_s0, (u8) (s8) temp_a0); goto loop_1; case 0x2B: func_802A8940(temp_s1, (u8 *) temp_s0, (u8) (s8) temp_a0); goto loop_1; } set_segment_base_addr(7, sp2C); } #else GLOBAL_ASM("asm/non_matchings/memory/display_list_unpack.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 u32 MIO0_0F(s32, s32, s32); // extern extern uintptr_t gSegmentTable; void func_802AA7C8(u32 arg0) { void *sp20; s32 temp_a0; void *temp_s0; void *temp_t2; void *phi_s0; s32 phi_v0; void *phi_s0_2; temp_s0 = *(&gSegmentTable + ((arg0 >> 0x18) * 4)) + (arg0 & 0xFFFFFF) + 0x80000000; phi_s0 = temp_s0; phi_v0 = 0; loop_1: if (phi_s0->unk0 != 0) { phi_s0 += 0x10; phi_v0 += phi_s0->unk8; goto loop_1; } temp_t2 = gHeapEndPtr - phi_v0; gHeapEndPtr = temp_t2; sp20 = temp_t2; phi_s0_2 = temp_s0; loop_4: temp_a0 = phi_s0_2->unk0; if (temp_a0 != 0) { MIO0_0F(temp_a0, phi_s0_2->unk4, phi_s0_2->unk8); phi_s0_2 += 0x10; goto loop_4; } gHeapEndPtr = sp20; set_segment_base_addr(5, sp20); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AA7C8.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void dma_copy(u8 *, s32, s32, s32); // extern extern u8 *gPrevLoadedAddress; s32 func_802AA88C(s32 arg0, s32 arg1) { s32 sp28; u8 *sp20; u8 *sp1C; s32 temp_t6; u8 *temp_a0; u8 *temp_a1; temp_t6 = ((arg1 - arg0) + 0xF) & ~0xF; temp_a0 = gHeapEndPtr - temp_t6; sp20 = temp_a0; dma_copy(temp_a0, arg0, temp_t6, arg1); temp_a1 = gPrevLoadedAddress; sp1C = temp_a1; sp28 = (temp_a0->unk4 + 0xF) & ~0xF; mio0decode(temp_a0, temp_a1); gPrevLoadedAddress = &gPrevLoadedAddress[sp28]; return sp1C; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AA88C.s") #endif #ifdef MIPS_TO_C //generated by m2c commit 8267401fa4ef7a38942dcca43353cc1bcc6efabc void display_list_unpack(u32 *, u32 *, s32); /* extern */ void func_802A87A8(mk64_Vtx *, u32); /* extern */ void func_802AA7C8(u32 *); /* extern */ void *func_802AA88C(u32 *, u32 *); /* extern */ extern s32 gGamestate; extern s32 gHeapEndPtr; extern s32 gPrevLoadedAddress; s32 load_course(s32 arg0) { s32 sp4C; u32 *sp48; u32 *sp44; u32 *sp40; u32 *sp3C; u32 *sp30; mk64_Vtx *sp2C; u32 *sp28; u32 sp24; u32 *sp20; s32 sp1C; s32 sp18; s32 temp_v0; s32 temp_v1; struct courseTable *temp_v0_2; temp_v0_2 = &gCourseTable[arg0]; temp_v1 = gGamestate; sp48 = temp_v0_2->dlRomStart; sp44 = temp_v0_2->dlRomEnd; sp40 = temp_v0_2->vertexRomStart; sp3C = temp_v0_2->vertexRomEnd; sp30 = temp_v0_2->textures; sp2C = temp_v0_2->vertexStart; sp28 = temp_v0_2->packedStart; sp24 = temp_v0_2->vertexCount; sp20 = temp_v0_2->finalDL; sp1C = (s32) temp_v0_2->unknown1; if ((temp_v1 == 5) || (temp_v1 == 9)) { gHeapEndPtr = 0x80280000; } else { gHeapEndPtr = 0x8028DF00; } set_segment_base_addr(9, func_802A7D70((s32) temp_v0_2->offsetRomStart, (s32) temp_v0_2->offsetRomEnd)); if (gGamestate != ENDING_SEQUENCE) { set_segment_base_addr(6, func_802AA88C(sp48, sp44)); } sp18 = gPrevLoadedAddress; temp_v0 = func_802A82E4((u8 *) sp40, (u8 *) sp3C); sp4C = temp_v0; set_segment_base_addr(0x0000000F, (void *) temp_v0); func_802A87A8(sp2C, sp24); display_list_unpack(sp28, sp20, sp1C); func_802AA7C8(sp30); gPrevLoadedAddress = sp18; return temp_v0; } #else GLOBAL_ASM("asm/non_matchings/memory/load_course.s") #endif void func_802AAA70(uintptr_t addr) { s32 segment = SEGMENT_NUMBER2(addr); s32 offset = SEGMENT_OFFSET(addr); Gfx *macro; macro = VIRTUAL_TO_PHYSICAL2(gSegmentTable[segment] + offset); macro->words.w0 = G_ENDDL << 24; macro->words.w1 = G_SPNOOP; } void func_802AAAAC(UnkActorInner *arg0) { arg0->unk36 = 0x1388; arg0->unk38 = 0x1388; arg0->unk3A = 0x1388; arg0->unk30 = 0; arg0->unk32 = 0; arg0->unk34 = 0; arg0->unk3C[0] = 0; arg0->unk3C[1] = 0; arg0->unk3C[2] = 0; vec3f_set(arg0->unk48, 0.0f, 0.0f, 1.0f); vec3f_set(arg0->unk54, 1.0f, 0.0f, 0.0f); vec3f_set(arg0->unk60, 0.0f, 1.0f, 0.0f); } #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802ABD10(u16, void *); // extern s32 func_802ABD40(u16, void *); // extern extern f32 D_802B9E00; extern f32 D_802B9E04; extern f32 D_802B9E08; extern f32 D_802B9E0C; extern f32 D_802B9E10; extern f32 D_802B9E14; extern f32 D_802B9E18; extern f32 D_802B9E1C; extern f32 D_802B9E20; extern f32 D_802B9E24; extern f32 D_802B9E28; extern f32 D_802B9E2C; extern f32 D_802B9E30; extern f32 D_802B9E34; extern f32 D_802B9E38; extern f32 D_802B9E3C; extern f32 D_802B9E40; extern f32 D_802B9E44; f32 func_802AAB4C(void *arg0) { f32 sp1C; f32 sp18; f32 temp_f0; f32 temp_f2; s16 temp_v0; s32 temp_v1; u16 temp_a0; void *temp_a1; temp_v0 = gCurrentCourseId; temp_a1 = arg0; temp_f0 = arg0->unk14; temp_f2 = arg0->unk1C; if (temp_v0 != 2) { if (temp_v0 != 6) { if (temp_v0 != 0xC) { if (temp_v0 != 0x12) { goto block_43; } temp_a0 = temp_a1->unk11A; sp18 = temp_f2; sp1C = temp_f0; arg0 = temp_a1; temp_v1 = func_802ABD40(temp_a0, temp_a1) & 0xFF; if (temp_v1 == 0xFF) { sp18 = temp_f2; sp1C = temp_f0; if ((func_802ABD10(arg0->unk11A, arg0) & 0xFF) == 0xF) { return D_802B9E1C; } if (temp_f0 > -478.0f) { return D_802B9E20; } if (temp_f0 < D_802B9E24) { return D_802B9E28; } if (temp_f2 > -436.0f) { return D_802B9E2C; } if (temp_f2 < D_802B9E30) { return D_802B9E34; } if (temp_f2 < temp_f0) { return D_802B9E38; } return D_802B9E3C; } if (temp_v1 >= 0x14) { return D_802B9E40; } return D_802B9E44; } if ((func_802ABD10(temp_a1->unk11A, temp_a1) & 0xFF) == 5) { return D_8015F6EE - 0xA; } goto block_43; } if (temp_f0 > 239.0f) { goto block_43; } if (temp_f0 < 67.0f) { goto block_43; } if (D_802B9E10 < temp_f2) { goto block_43; } if (temp_f2 < D_802B9E14) { goto block_43; } return D_802B9E18; } if (D_802B9E00 < temp_f0) { goto block_43; } if (temp_f0 < D_802B9E04) { goto block_43; } if (D_802B9E08 < temp_f2) { goto block_43; } if (temp_f2 < D_802B9E0C) { block_43: return D_8015F8E4; } return 20.0f; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AAB4C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern f32 D_802B9E48; s32 func_802AAE4C(void *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, u16 arg5) { f32 sp6C; f32 sp64; f32 sp3C; f32 sp2C; f32 sp28; f32 sp24; f32 sp20; f32 sp1C; f32 sp18; f32 sp14; f32 sp10; f32 spC; f32 sp8; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f0_5; f32 temp_f10; f32 temp_f12; f32 temp_f12_2; f32 temp_f14; f32 temp_f14_2; f32 temp_f16; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f4; f32 temp_f8; void *temp_a0; void *temp_a2; void *temp_a3; void *temp_v1; s32 phi_v0; f32 phi_f18; s32 phi_v0_2; temp_v1 = (arg5 * 0x2C) + D_8015F580; temp_f0 = temp_v1->unk20; phi_v0 = 1; phi_v0_2 = 1; if (temp_f0 < D_802B9E48) { return 0; } if (arg2 < temp_v1->unk4) { return 0; } if (arg4 < temp_v1->unk8) { return 0; } if (temp_v1->unkA < arg2) { return 0; } if (temp_v1->unkE < arg4) { return 0; } sp2C = temp_f0; arg2 = arg2; if (arg3 < (temp_v1->unk6 - (arg1 * 3.0f))) { return 0; } temp_a0 = temp_v1->unk10; temp_a3 = temp_v1->unk18; temp_a2 = temp_v1->unk14; sp6C = temp_a3->unk0; sp8 = arg4; sp10 = arg2; temp_f8 = temp_a0->unk4 - arg4; sp64 = temp_a3->unk4; temp_f4 = temp_a2->unk0 - arg2; sp28 = temp_f8; sp24 = temp_f4; sp20 = temp_a0->unk0 - arg2; temp_f0_2 = temp_f8 * temp_f4; sp8 = temp_f8; spC = temp_f4; sp1C = temp_a2->unk4 - arg4; temp_f2 = sp20 * sp1C; temp_f10 = temp_f0_2 - temp_f2; sp18 = temp_f10; sp3C = temp_f10; if (temp_f2 == temp_f0_2) { sp14 = arg4; temp_f0_3 = sp6C - sp10; temp_f2_2 = sp64 - arg4; phi_f18 = 0.0f; if ((((sp1C * temp_f0_3) - (spC * temp_f2_2)) * ((temp_f2_2 * sp20) - (temp_f0_3 * sp8))) < 0.0f) { goto block_22; } } else { temp_f2_3 = sp64 - arg4; temp_f0_4 = sp6C - arg2; temp_f14 = sp24 * temp_f2_3; temp_f12 = sp1C * temp_f0_4; if (temp_f14 == temp_f12) { phi_f18 = 0.0f; if ((sp3C * ((temp_f2_3 * sp20) - (temp_f0_4 * sp28))) < 0.0f) { goto block_22; } } else { temp_f16 = temp_f12 - temp_f14; if ((sp18 * temp_f16) < 0.0f) { goto block_22; } temp_f14_2 = temp_f0_4 * sp28; temp_f12_2 = temp_f2_3 * sp20; phi_f18 = 0.0f; if (temp_f14_2 != temp_f12_2) { phi_f18 = 0.0f; if ((temp_f16 * (temp_f12_2 - temp_f14_2)) < 0.0f) { block_22: phi_v0 = 0; phi_f18 = 0.0f; } } } } if (phi_v0 == 0) { return 0; } temp_f0_5 = ((temp_v1->unk1C * arg2) + (sp2C * arg3) + (temp_v1->unk24 * arg4) + temp_v1->unk28) - arg1; if (phi_f18 < temp_f0_5) { if (temp_f0_5 < arg0->unk14) { arg0->unk4 = 1; arg0->unkA = arg5; arg0->unk14 = temp_f0_5; arg0->unk30 = temp_v1->unk1C; arg0->unk34 = temp_v1->unk20; arg0->unk38 = temp_v1->unk24; } return 0; } phi_v0_2 = 0; if (temp_f0_5 > -16.0f) { arg0->unk4 = 1; arg0->unkA = arg5; arg0->unk14 = temp_f0_5; arg0->unk30 = temp_v1->unk1C; arg0->unk34 = temp_v1->unk20; arg0->unk38 = temp_v1->unk24; } return phi_v0_2; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AAE4C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802AB288(void *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, u16 arg5) { f32 sp70; f32 sp6C; f32 sp3C; f32 sp2C; f32 sp28; f32 sp24; f32 sp20; f32 sp1C; f32 sp14; f32 sp10; f32 spC; f32 sp8; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f12; f32 temp_f12_2; f32 temp_f14; f32 temp_f14_2; f32 temp_f16; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f2_4; f32 temp_f4; f32 temp_f6; f32 temp_f8; void *temp_a0; void *temp_a2; void *temp_a3; void *temp_v1; s32 phi_v0; f32 phi_f18; s32 phi_v0_2; temp_v1 = (arg5 * 0x2C) + D_8015F580; phi_v0 = 1; phi_v0_2 = 1; if (arg2 < temp_v1->unk4) { return 0; } if (temp_v1->unkA < arg2) { return 0; } if (temp_v1->unkC < arg3) { return 0; } if (arg3 < temp_v1->unk6) { return 0; } temp_f2 = arg1 * 3.0f; if (arg4 < (temp_v1->unk8 - temp_f2)) { return 0; } arg2 = arg2; arg3 = arg3; if ((temp_v1->unkE + temp_f2) < arg4) { return 0; } temp_a0 = temp_v1->unk10; temp_a3 = temp_v1->unk18; temp_a2 = temp_v1->unk14; sp70 = temp_a3->unk0; sp8 = arg3; sp10 = arg2; temp_f4 = temp_a0->unk2 - arg3; sp6C = temp_a3->unk2; temp_f8 = temp_a2->unk0 - arg2; sp2C = temp_f4; sp28 = temp_f8; sp24 = temp_a0->unk0 - arg2; temp_f0 = temp_f4 * temp_f8; sp8 = temp_f4; spC = temp_f8; sp20 = temp_a2->unk2 - arg3; temp_f2_2 = sp24 * sp20; temp_f6 = temp_f0 - temp_f2_2; sp1C = temp_f6; sp3C = temp_f6; if (temp_f2_2 == temp_f0) { sp14 = arg3; temp_f0_2 = sp70 - sp10; temp_f2_3 = sp6C - arg3; phi_f18 = 0.0f; if ((((sp20 * temp_f0_2) - (spC * temp_f2_3)) * ((temp_f2_3 * sp24) - (temp_f0_2 * sp8))) < 0.0f) { goto block_22; } } else { temp_f2_4 = sp6C - arg3; temp_f0_3 = sp70 - arg2; temp_f14 = sp28 * temp_f2_4; temp_f12 = sp20 * temp_f0_3; if (temp_f14 == temp_f12) { phi_f18 = 0.0f; if ((sp3C * ((temp_f2_4 * sp24) - (temp_f0_3 * sp2C))) < 0.0f) { goto block_22; } } else { temp_f16 = temp_f12 - temp_f14; if ((sp1C * temp_f16) < 0.0f) { goto block_22; } temp_f14_2 = temp_f0_3 * sp2C; temp_f12_2 = temp_f2_4 * sp24; phi_f18 = 0.0f; if (temp_f14_2 != temp_f12_2) { phi_f18 = 0.0f; if ((temp_f16 * (temp_f12_2 - temp_f14_2)) < 0.0f) { block_22: phi_v0 = 0; phi_f18 = 0.0f; } } } } if (phi_v0 == 0) { return 0; } temp_f0_4 = ((temp_v1->unk1C * arg2) + (temp_v1->unk20 * arg3) + (temp_v1->unk24 * arg4) + temp_v1->unk28) - arg1; if (phi_f18 < temp_f0_4) { if (temp_f0_4 < arg0->unkC) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_4; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; arg0->unk20 = temp_v1->unk24; } return 0; } phi_v0_2 = 0; if (temp_f0_4 > -16.0f) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_4; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; arg0->unk20 = temp_v1->unk24; } return phi_v0_2; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AB288.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802AB6C4(void *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, u16 arg5) { f32 sp68; f32 sp64; f32 sp38; f32 sp2C; f32 sp28; f32 sp24; f32 sp20; f32 sp1C; f32 sp14; f32 sp10; f32 spC; f32 sp8; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f0_5; f32 temp_f10; f32 temp_f12; f32 temp_f12_2; f32 temp_f14; f32 temp_f14_2; f32 temp_f16; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f4; f32 temp_f6; void *temp_a0; void *temp_a2; void *temp_a3; void *temp_v1; s32 phi_v0; f32 phi_f18; s32 phi_v0_2; temp_v1 = (arg5 * 0x2C) + D_8015F580; phi_v0 = 1; phi_v0_2 = 1; if (arg4 < temp_v1->unk8) { return 0; } if (temp_v1->unkE < arg4) { return 0; } if (temp_v1->unkC < arg3) { return 0; } if (arg3 < temp_v1->unk6) { return 0; } temp_f0 = arg1 * 3.0f; if (arg2 < (temp_v1->unk4 - temp_f0)) { return 0; } arg3 = arg3; if ((temp_v1->unkA + temp_f0) < arg2) { return 0; } temp_a0 = temp_v1->unk10; temp_a3 = temp_v1->unk18; temp_a2 = temp_v1->unk14; sp64 = temp_a3->unk4; sp8 = arg3; sp10 = arg4; temp_f6 = temp_a0->unk2 - arg3; sp68 = temp_a3->unk2; temp_f10 = temp_a2->unk4 - arg4; sp2C = temp_f6; sp28 = temp_f10; sp24 = temp_a0->unk4 - arg4; temp_f0_2 = temp_f6 * temp_f10; sp8 = temp_f6; spC = temp_f10; sp20 = temp_a2->unk2 - arg3; temp_f2 = sp24 * sp20; temp_f4 = temp_f0_2 - temp_f2; sp1C = temp_f4; sp38 = temp_f4; if (temp_f2 == temp_f0_2) { sp14 = arg3; temp_f0_3 = sp64 - sp10; temp_f2_2 = sp68 - arg3; phi_f18 = 0.0f; if ((((sp20 * temp_f0_3) - (spC * temp_f2_2)) * ((temp_f2_2 * sp24) - (temp_f0_3 * sp8))) < 0.0f) { goto block_22; } } else { temp_f2_3 = sp68 - arg3; temp_f0_4 = sp64 - arg4; temp_f14 = sp28 * temp_f2_3; temp_f12 = sp20 * temp_f0_4; if (temp_f14 == temp_f12) { phi_f18 = 0.0f; if ((sp38 * ((temp_f2_3 * sp24) - (temp_f0_4 * sp2C))) < 0.0f) { goto block_22; } } else { temp_f16 = temp_f12 - temp_f14; if ((sp1C * temp_f16) < 0.0f) { goto block_22; } temp_f14_2 = temp_f0_4 * sp2C; temp_f12_2 = temp_f2_3 * sp24; phi_f18 = 0.0f; if (temp_f14_2 != temp_f12_2) { phi_f18 = 0.0f; if ((temp_f16 * (temp_f12_2 - temp_f14_2)) < 0.0f) { block_22: phi_v0 = 0; phi_f18 = 0.0f; } } } } if (phi_v0 == 0) { return 0; } temp_f0_5 = ((temp_v1->unk1C * arg2) + (temp_v1->unk20 * arg3) + (temp_v1->unk24 * arg4) + temp_v1->unk28) - arg1; if (phi_f18 < temp_f0_5) { if (temp_f0_5 < arg0->unk10) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_5; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; arg0->unk2C = temp_v1->unk24; } return 0; } phi_v0_2 = 0; if (temp_f0_5 > -16.0f) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_5; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; arg0->unk2C = temp_v1->unk24; } return phi_v0_2; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AB6C4.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802ABB04(f32 arg0, f32 arg1, s32 arg2) { f32 sp6C; f32 sp64; f32 sp60; f32 sp58; f32 sp3C; f32 sp28; f32 sp20; f32 sp1C; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f10; f32 temp_f12; f32 temp_f14; f32 temp_f16; f32 temp_f16_2; f32 temp_f18; f32 temp_f20; f32 temp_f22; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f6; void *temp_a0; void *temp_a1; void *temp_a3; void *temp_v0; ? phi_v1; temp_v0 = ((arg2 & 0xFFFF) * 0x2C) + D_8015F580; temp_a1 = temp_v0->unk14; temp_a0 = temp_v0->unk10; sp60 = temp_a1->unk0; temp_f20 = temp_a0->unk4 - arg1; sp58 = temp_a1->unk4; temp_a3 = temp_v0->unk18; temp_f22 = temp_a0->unk0 - arg0; sp6C = temp_a3->unk0; temp_f10 = sp60 - arg0; temp_f0 = temp_f20 * temp_f10; sp28 = temp_f10; sp64 = temp_a3->unk4; temp_f6 = sp58 - arg1; temp_f2 = temp_f22 * temp_f6; sp20 = temp_f6; sp1C = temp_f0 - temp_f2; sp3C = sp1C; phi_v1 = 1; if (temp_f2 == temp_f0) { temp_f0_2 = sp6C - arg0; temp_f2_2 = sp64 - arg1; if ((((temp_f6 * temp_f0_2) - (temp_f10 * temp_f2_2)) * ((temp_f2_2 * temp_f22) - (temp_f0_2 * temp_f20))) < 0.0f) { goto block_10; } } else { temp_f2_3 = sp64 - arg1; temp_f0_3 = sp6C - arg0; temp_f18 = sp28 * temp_f2_3; temp_f16 = sp20 * temp_f0_3; if (temp_f18 == temp_f16) { if ((sp3C * ((temp_f2_3 * temp_f22) - (temp_f0_3 * temp_f20))) < 0.0f) { goto block_10; } } else { temp_f12 = temp_f16 - temp_f18; if ((sp1C * temp_f12) < 0.0f) { goto block_10; } temp_f16_2 = temp_f0_3 * temp_f20; temp_f14 = temp_f2_3 * temp_f22; if ((temp_f16_2 != temp_f14) && ((temp_f12 * (temp_f14 - temp_f16_2)) < 0.0f)) { block_10: phi_v1 = 0; } } } return phi_v1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802ABB04.s") #endif s8 func_802ABD10(u16 arg0) { mk64_surface_map_ram *tile = &D_8015F580[arg0]; return tile->surfaceType; } s16 func_802ABD40(u16 arg0) { mk64_surface_map_ram *tile = &D_8015F580[arg0]; return tile->flags & 0xFF; } s16 func_802ABD7C(u16 arg0) { mk64_surface_map_ram *tile = &D_8015F580[arg0]; return tile->flags & 0x1000; } s16 func_802ABDB8(u16 arg0) { mk64_surface_map_ram *tile = &D_8015F580[arg0]; return tile->flags & 0x400; } s16 func_802ABDF4(u16 arg0) { mk64_surface_map_ram *tile = &D_8015F580[arg0]; return tile->flags & 0x800; } f32 func_802ABE30(f32 arg0, f32 arg1, f32 arg2, u16 arg3) { mk64_surface_map_ram *tile = &D_8015F580[arg3]; if (tile->gravity == 0.0f) { return arg1; } return ((tile->height * arg0) + (tile->rotation * arg2) + tile->height2) / -tile->gravity; } f32 func_802ABEAC(UnkActorInner *arg0, Vec3f arg1) { if (arg0->unk34 == 1) { return func_802ABE30(arg1[0], arg1[1], arg1[2], arg0->unk3A); } if (arg0->unk30 == 1) { return func_802ABE30(arg1[0], arg1[1], arg1[2], arg0->unk36); } if (arg0->unk32 == 1) { return func_802ABE30(arg1[0], arg1[1], arg1[2], arg0->unk38); } return arg1[1]; } #ifdef MIPS_TO_C //generated by m2c commit b04a67bbeb29101ca8f4ea8a24a81fe594677b33 void process_shell_collision(f32 *arg0, f32 arg1, f32 *velocity, f32 arg3) { f32 sp40; f32 sp3C; f32 sp38; f32 sp24; f32 spC; f32 sp8; f32 sp4; f32 sp0; f32 temp_f0; f32 temp_f0_2; f32 temp_f10; f32 temp_f10_2; f32 temp_f12; f32 temp_f12_2; f32 temp_f14; f32 temp_f14_2; f32 temp_f16_2; f32 temp_f16_3; f32 temp_f18; f32 temp_f2; f32 temp_f2_2; f32 temp_f6; f32 temp_f8; f64 temp_f16; temp_f2 = velocity->unk0; temp_f12 = velocity->unk4; temp_f14 = velocity->unk8; temp_f0 = sqrtf((temp_f2 * temp_f2) + (temp_f12 * temp_f12) + (temp_f14 * temp_f14)); temp_f16 = (f64) temp_f0; sp24 = temp_f0; if ((temp_f16 > 4.5) || (temp_f16 < 3.5)) { sp24 = 4.0f; } temp_f10 = arg0->unk8; sp4 = temp_f10; temp_f16_2 = arg0->unk0; temp_f18 = arg0->unk4; temp_f0_2 = (temp_f10 * temp_f14) + ((temp_f16_2 * temp_f2) + (temp_f18 * temp_f12)); sp0 = temp_f16_2 * temp_f0_2; spC = temp_f18 * temp_f0_2; sp40 = temp_f2 - sp0; sp3C = temp_f12 - spC; temp_f6 = temp_f10 * temp_f0_2; sp8 = temp_f6; sp38 = temp_f14 - temp_f6; temp_f2_2 = sp40 - sp0; temp_f12_2 = sp3C - spC; temp_f14_2 = sp38 - temp_f6; temp_f16_3 = (1.0f / sqrtf((temp_f2_2 * temp_f2_2) + (temp_f12_2 * temp_f12_2) + (temp_f14_2 * temp_f14_2))) * sp24; temp_f10_2 = temp_f12_2 * temp_f16_3; temp_f8 = temp_f14_2 * temp_f16_3; velocity->unk0 = temp_f2_2 * temp_f16_3; velocity->unk4 = temp_f10_2; velocity->unk8 = temp_f8; } #else GLOBAL_ASM("asm/non_matchings/memory/process_shell_collision.s") #endif void func_802AC098(UnkActorInner *arg0, f32 *velocity) { if (arg0->unk3C[0] < 0.0f) { process_shell_collision(arg0->unk48, arg0->unk3C[0], velocity, 2.0f); } if (arg0->unk3C[1] < 0.0f) { process_shell_collision(arg0->unk54, arg0->unk3C[1], velocity, 2.0f); } } #ifdef MIPS_TO_C //generated by m2c commit bece1d6db17040749f77dbbd090363cc6fb926f9 void func_802AC114(Vec3f arg0, f32 arg1, Vec3f arg2, f32 arg3) { f32 temp_f0; f32 temp_f12; f32 temp_f14; f32 temp_f16; f32 temp_f18; f32 temp_f20; f32 temp_f2; temp_f0 = arg2[0]; temp_f2 = arg2[1]; temp_f12 = arg2[2]; temp_f14 = -arg0[0]; temp_f16 = -arg0[1]; temp_f18 = -arg0[2]; temp_f20 = (temp_f14 * temp_f0) + (temp_f16 * temp_f2) + (temp_f18 * temp_f12); if (arg1 < -3.5) { arg2[0] = temp_f0 - (temp_f20 * temp_f14) - (0.5f * temp_f14 * temp_f20); arg2[1] = temp_f2 - (temp_f20 * temp_f16) - (0.5f * temp_f16 * temp_f20); arg2[2] = temp_f12 - (temp_f20 * temp_f18) - (0.5f * temp_f18 * temp_f20); } else { arg2[0] = temp_f0 - (temp_f20 * temp_f14); arg2[1] = temp_f2 - (temp_f20 * temp_f16); arg2[2] = temp_f12 - (temp_f20 * temp_f18); } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AC114.s") #endif #ifdef MIPS_TO_C //generated by m2c commit bece1d6db17040749f77dbbd090363cc6fb926f9 mk64_surface_map_ram *func_802AAE4C(s16 *, ?, f32, f32, f32, s32); /* extern */ mk64_surface_map_ram *func_802AB288(s16 *, ?, f32, f32, f32, s32); /* extern */ mk64_surface_map_ram *func_802AB6C4(s16 *, ?, f32, f32, f32, s32); /* extern */ extern u8 D_8014F110; extern s32 D_8015F584; extern s16 D_8015F6E8; extern s16 D_8015F6EA; extern s16 D_8015F6F0; extern s16 D_8015F6F2; UNUSED mk64_surface_map_ram *func_802AC22C(void *arg0) { f32 spE4; f32 spE0; f32 spDC; s16 spD4; s16 spD2; s16 spD0; s32 sp70; f32 temp_f22; f32 temp_f24; f32 temp_f26; s16 temp_v0_2; s16 temp_v1; s32 temp_at; s32 temp_f4; s32 temp_f6; s32 temp_t3; s32 var_s2; u16 temp_s0; u16 temp_v1_3; u16 var_s1; u16 var_v0; u8 temp_v0; void *temp_v1_2; spD0 = 0; spD2 = 0; spD4 = 0; spDC = 1000.0f; spE0 = 1000.0f; spE4 = 1000.0f; temp_v0 = arg0->unkD; temp_f22 = arg0->unk0; temp_f24 = arg0->unk4; temp_f26 = arg0->unk8; switch (temp_v0) { /* irregular */ case 0x80: if (func_802AB6C4(&spD0, 0x40A00000, temp_f22, temp_f24, temp_f26, (s32) arg0->unkE) == (mk64_surface_map_ram *)1) { arg0->unk10 = func_802ABE30(temp_f22, temp_f24, temp_f26, arg0->unkE); return (mk64_surface_map_ram *)1; } default: block_10: temp_v0_2 = D_8015F6EA; temp_v1 = D_8015F6F2; temp_f4 = (s32) ((temp_f22 - (f32) temp_v0_2) / (f32) ((s32) (D_8015F6E8 - temp_v0_2) / 32)); temp_f6 = (s32) ((temp_f26 - (f32) temp_v1) / (f32) ((s32) (D_8015F6F0 - temp_v1) / 32)); if ((s16) temp_f4 < 0) { return NULL; } if ((s16) temp_f6 < 0) { return NULL; } if ((s16) temp_f4 >= 0x20) { return NULL; } if ((s16) temp_f6 >= 0x20) { return NULL; } temp_v1_2 = ((s16) ((s16) temp_f4 + ((s16) temp_f6 << 5)) * 4) + &D_8014F110; var_v0 = temp_v1_2->unk2; sp70 = (s32) var_v0; if (var_v0 == 0) { return NULL; } var_s1 = temp_v1_2->unk0; var_s2 = 0; if (sp70 > 0) { loop_22: temp_s0 = *(D_8015F584 + (var_s1 * 2)); var_v0 = (u16) &D_8015F580[temp_s0]; temp_v1_3 = var_v0->unk0; if ((temp_v1_3 & 0x4000) != 0) { if (arg0->unkE != temp_s0) { var_v0 = func_802AAE4C(&spD0, 0x40A00000, temp_f22, temp_f24, temp_f26, (s32) temp_s0); if (var_v0 == (u16) (mk64_surface_map_ram *)1) { arg0->unk10 = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); arg0->unkD = 0x40U; arg0->unkE = temp_s0; arg0->unkC = (s8) D_8015F580[temp_s0].surfaceType; if ((D_8015F580[temp_s0].flags & 0x1000) != 0) { arg0->unk14 = (mk64_surface_map_ram *)1; return (mk64_surface_map_ram *)1; } arg0->unk14 = NULL; return (mk64_surface_map_ram *)1; } } goto block_37; } if ((temp_v1_3 & 0x8000) != 0) { if ((var_v0->unk1C != 1.0f) && (arg0->unkE != temp_s0)) { var_v0 = func_802AB6C4(&spD0, 0x40A00000, temp_f22, temp_f24, temp_f26, (s32) temp_s0); if (var_v0 == (u16) (mk64_surface_map_ram *)1) { arg0->unk10 = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); arg0->unkD = 0x80U; arg0->unkE = temp_s0; arg0->unkC = (s8) D_8015F580[temp_s0].surfaceType; return (mk64_surface_map_ram *)1; } } goto block_37; } if ((var_v0->unk24 != 1.0f) && (arg0->unkE != temp_s0)) { var_v0 = func_802AB288(&spD0, 0x40A00000, temp_f22, temp_f24, temp_f26, (s32) temp_s0); if (var_v0 == (u16) (mk64_surface_map_ram *)1) { arg0->unk10 = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); arg0->unkD = 0x20U; arg0->unkE = temp_s0; arg0->unkC = (s8) D_8015F580[temp_s0].surfaceType; return (mk64_surface_map_ram *)1; } } block_37: temp_t3 = (var_s2 + 1) & 0xFFFF; temp_at = temp_t3 < sp70; var_s2 = temp_t3; var_s1 = (var_s1 + 1) & 0xFFFF; if (temp_at == 0) { goto block_38; } goto loop_22; } block_38: arg0->unk10 = temp_f24; arg0->unkC = 0; return (mk64_surface_map_ram *) var_v0; case 0x40: if (func_802AAE4C(&spD0, 0x40A00000, temp_f22, temp_f24, temp_f26, (s32) arg0->unkE) == (mk64_surface_map_ram *)1) { arg0->unk10 = func_802ABE30(temp_f22, temp_f24, temp_f26, arg0->unkE); return (mk64_surface_map_ram *)1; } goto block_10; case 0x20: if (func_802AB288(&spD0, 0x40A00000, temp_f22, temp_f24, temp_f26, (s32) arg0->unkE) == (mk64_surface_map_ram *)1) { arg0->unk10 = func_802ABE30(temp_f22, temp_f24, temp_f26, arg0->unkE); return (mk64_surface_map_ram *)1; } goto block_10; } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AC22C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802AC760(void *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, u16 arg5, f32 arg6, f32 arg7, f32 arg8) { f32 sp6C; f32 sp64; f32 sp38; f32 sp28; f32 sp24; f32 sp20; f32 sp1C; f32 sp18; f32 sp10; f32 spC; f32 sp8; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f10; f32 temp_f12; f32 temp_f12_2; f32 temp_f12_3; f32 temp_f14; f32 temp_f14_2; f32 temp_f14_3; f32 temp_f16; f32 temp_f16_2; f32 temp_f18; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f2_4; f32 temp_f4; f32 temp_f6; void *temp_a0; void *temp_a2; void *temp_a3; void *temp_v1; s32 phi_v0; temp_v1 = (arg5 * 0x2C) + D_8015F580; phi_v0 = 1; if (arg2 < temp_v1->unk4) { return 0; } if (arg4 < temp_v1->unk8) { return 0; } if (temp_v1->unkA < arg2) { return 0; } if (temp_v1->unkE < arg4) { return 0; } arg2 = arg2; if (arg3 < (temp_v1->unk6 - (arg1 * 3.0f))) { return 0; } temp_a0 = temp_v1->unk10; temp_a3 = temp_v1->unk18; temp_a2 = temp_v1->unk14; sp6C = temp_a3->unk0; sp8 = arg4; sp10 = arg2; temp_f6 = temp_a0->unk4 - arg4; sp64 = temp_a3->unk4; temp_f4 = temp_a2->unk0 - arg2; sp28 = temp_f6; sp24 = temp_f4; sp20 = temp_a0->unk0 - arg2; temp_f0 = temp_f6 * temp_f4; sp8 = temp_f6; spC = temp_f4; temp_f18 = sp8; sp1C = temp_a2->unk4 - arg4; temp_f2 = sp20 * sp1C; temp_f10 = temp_f0 - temp_f2; sp18 = temp_f10; sp38 = temp_f10; if (temp_f2 == temp_f0) { sp8 = arg4; temp_f0_2 = sp6C - sp10; temp_f2_2 = sp64 - arg4; if ((((sp1C * temp_f0_2) - (spC * temp_f2_2)) * ((temp_f2_2 * sp20) - (temp_f0_2 * temp_f18))) < 0.0f) { goto block_20; } } else { temp_f2_3 = sp64 - arg4; temp_f0_3 = sp6C - arg2; temp_f14 = sp24 * temp_f2_3; temp_f12 = sp1C * temp_f0_3; if (temp_f14 == temp_f12) { if ((sp38 * ((temp_f2_3 * sp20) - (temp_f0_3 * sp28))) < 0.0f) { goto block_20; } } else { temp_f16 = temp_f12 - temp_f14; if ((sp18 * temp_f16) < 0.0f) { goto block_20; } temp_f14_2 = temp_f0_3 * sp28; temp_f12_2 = temp_f2_3 * sp20; if ((temp_f14_2 != temp_f12_2) && ((temp_f16 * (temp_f12_2 - temp_f14_2)) < 0.0f)) { block_20: phi_v0 = 0; } } } if (phi_v0 == 0) { return 0; } temp_f2_4 = temp_v1->unk1C; temp_f12_3 = temp_v1->unk20; temp_f14_3 = temp_v1->unk24; temp_f16_2 = temp_v1->unk28; temp_f0_4 = (temp_f2_4 * arg2) + (temp_f12_3 * arg3) + (temp_f14_3 * arg4) + temp_f16_2; if (arg1 < temp_f0_4) { if (temp_f0_4 < arg0->unk14) { arg0->unk4 = 1; arg0->unkA = arg5; arg0->unk14 = temp_f0_4 - arg1; arg0->unk30 = temp_v1->unk1C; arg0->unk34 = temp_v1->unk20; arg0->unk38 = temp_v1->unk24; } return 0; } if (((temp_f2_4 * arg6) + (temp_f12_3 * arg7) + (temp_f14_3 * arg8) + temp_f16_2) < 0.0f) { return 0; } arg0->unk4 = 1; arg0->unkA = arg5; arg0->unk14 = temp_f0_4 - arg1; arg0->unk30 = temp_v1->unk1C; arg0->unk34 = temp_v1->unk20; arg0->unk38 = temp_v1->unk24; return 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AC760.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802ACBA4(void *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, u16 arg5, f32 arg6, f32 arg7, f32 arg8) { f32 sp70; f32 sp6C; f32 sp48; f32 sp3C; f32 sp2C; f32 sp28; f32 sp24; f32 sp20; f32 sp1C; f32 sp14; f32 sp10; f32 spC; f32 sp8; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f0_5; f32 temp_f10; f32 temp_f12; f32 temp_f12_2; f32 temp_f12_3; f32 temp_f14; f32 temp_f14_2; f32 temp_f14_3; f32 temp_f16; f32 temp_f16_2; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f2_4; f32 temp_f2_5; f32 temp_f4; f32 temp_f4_2; f32 temp_f6; f32 temp_f8; void *temp_a0; void *temp_a2; void *temp_a3; void *temp_v1; s32 phi_v0; f32 phi_f18; f32 phi_f10; temp_v1 = (arg5 * 0x2C) + D_8015F580; phi_v0 = 1; if (arg2 < temp_v1->unk4) { return 0; } if (temp_v1->unkA < arg2) { return 0; } if (temp_v1->unkC < arg3) { return 0; } if (arg3 < temp_v1->unk6) { return 0; } temp_f2 = arg1 * 3.0f; if (arg4 < (temp_v1->unk8 - temp_f2)) { return 0; } arg2 = arg2; arg3 = arg3; if ((temp_v1->unkE + temp_f2) < arg4) { return 0; } temp_a0 = temp_v1->unk10; temp_a3 = temp_v1->unk18; temp_a2 = temp_v1->unk14; sp70 = temp_a3->unk0; sp8 = arg3; sp10 = arg2; temp_f10 = temp_a0->unk2 - arg3; sp6C = temp_a3->unk2; temp_f6 = temp_a2->unk0 - arg2; sp2C = temp_f10; sp28 = temp_f6; sp24 = temp_a0->unk0 - arg2; temp_f0 = temp_f10 * temp_f6; sp8 = temp_f10; spC = temp_f6; sp20 = temp_a2->unk2 - arg3; temp_f2_2 = sp24 * sp20; temp_f4 = temp_f0 - temp_f2_2; sp1C = temp_f4; sp3C = temp_f4; if (temp_f2_2 == temp_f0) { sp14 = arg3; temp_f0_2 = sp70 - sp10; temp_f2_3 = sp6C - arg3; phi_f18 = 0.0f; if ((((sp20 * temp_f0_2) - (spC * temp_f2_3)) * ((temp_f2_3 * sp24) - (temp_f0_2 * sp8))) < 0.0f) { goto block_22; } } else { temp_f2_4 = sp6C - arg3; temp_f0_3 = sp70 - arg2; temp_f14 = sp28 * temp_f2_4; temp_f12 = sp20 * temp_f0_3; if (temp_f14 == temp_f12) { phi_f18 = 0.0f; if ((sp3C * ((temp_f2_4 * sp24) - (temp_f0_3 * sp2C))) < 0.0f) { goto block_22; } } else { temp_f16 = temp_f12 - temp_f14; if ((sp1C * temp_f16) < 0.0f) { goto block_22; } temp_f14_2 = temp_f0_3 * sp2C; temp_f12_2 = temp_f2_4 * sp24; phi_f18 = 0.0f; if (temp_f14_2 != temp_f12_2) { phi_f18 = 0.0f; if ((temp_f16 * (temp_f12_2 - temp_f14_2)) < 0.0f) { block_22: phi_v0 = 0; phi_f18 = 0.0f; } } } } if (phi_v0 == 0) { return 0; } temp_f2_5 = temp_v1->unk1C; temp_f12_3 = temp_v1->unk20; temp_f14_3 = temp_v1->unk24; temp_f16_2 = temp_v1->unk28; temp_f0_4 = (temp_f2_5 * arg2) + (temp_f12_3 * arg3) + (temp_f14_3 * arg4) + temp_f16_2; if ((temp_v1->unk0 & 0x200) != 0) { temp_f4_2 = (temp_f2_5 * arg6) + (temp_f12_3 * arg7) + (temp_f14_3 * arg8) + temp_f16_2; sp48 = temp_f4_2; if ((phi_f18 < temp_f0_4) && (phi_f18 < temp_f4_2)) { if (temp_f0_4 < arg1) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_4 - arg1; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; arg0->unk20 = temp_v1->unk24; return 1; } return 0; } if ((temp_f0_4 < phi_f18) && (sp48 < phi_f18)) { temp_f0_5 = temp_f0_4 * -1.0f; if (temp_f0_5 < arg1) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_5 - arg1; arg0->unk18 = -temp_v1->unk1C; arg0->unk1C = -temp_v1->unk20; arg0->unk20 = -temp_v1->unk24; return 1; } return 0; } if ((phi_f18 < temp_f0_4) && (sp48 < phi_f18)) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = -(temp_f0_4 + arg1); arg0->unk18 = -temp_v1->unk1C; arg0->unk1C = -temp_v1->unk20; phi_f10 = -temp_v1->unk24; goto block_54; } if ((temp_f0_4 < phi_f18) && (phi_f18 < sp48)) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_4 + arg1; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; arg0->unk20 = temp_v1->unk24; return 1; } if (temp_f0_4 == phi_f18) { if (phi_f18 <= sp48) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = sp48 + arg1; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; arg0->unk20 = temp_v1->unk24; return 1; } arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = -(sp48 + arg1); arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; phi_f10 = temp_v1->unk24; goto block_54; } return 0; } if (arg1 < temp_f0_4) { if (temp_f0_4 < arg0->unkC) { arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_4 - arg1; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; arg0->unk20 = temp_v1->unk24; } return 0; } temp_f8 = (temp_f2_5 * arg6) + (temp_f12_3 * arg7) + (temp_f14_3 * arg8) + temp_f16_2; sp48 = temp_f8; if (temp_f8 < phi_f18) { return 0; } arg0->unk0 = 1; arg0->unk6 = arg5; arg0->unkC = temp_f0_4 - arg1; arg0->unk18 = temp_v1->unk1C; arg0->unk1C = temp_v1->unk20; phi_f10 = temp_v1->unk24; block_54: arg0->unk20 = phi_f10; return 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802ACBA4.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802AD278(void *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, u16 arg5, f32 arg6, f32 arg7, f32 arg8) { f32 sp68; f32 sp64; f32 sp44; f32 sp38; f32 sp2C; f32 sp28; f32 sp24; f32 sp20; f32 sp1C; f32 sp14; f32 sp10; f32 spC; f32 sp8; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f0_5; f32 temp_f0_6; f32 temp_f10; f32 temp_f10_2; f32 temp_f12; f32 temp_f12_2; f32 temp_f12_3; f32 temp_f14; f32 temp_f14_2; f32 temp_f14_3; f32 temp_f16; f32 temp_f16_2; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f2_4; f32 temp_f4; f32 temp_f6; f32 temp_f8; void *temp_a0; void *temp_a2; void *temp_a3; void *temp_v1; s32 phi_v0; f32 phi_f18; f32 phi_f8; temp_v1 = (arg5 * 0x2C) + D_8015F580; phi_v0 = 1; if (arg4 < temp_v1->unk8) { return 0; } if (temp_v1->unkE < arg4) { return 0; } if (temp_v1->unkC < arg3) { return 0; } if (arg3 < temp_v1->unk6) { return 0; } temp_f0 = arg1 * 3.0f; if (arg2 < (temp_v1->unk4 - temp_f0)) { return 0; } arg3 = arg3; if ((temp_v1->unkA + temp_f0) < arg2) { return 0; } temp_a0 = temp_v1->unk10; temp_a3 = temp_v1->unk18; temp_a2 = temp_v1->unk14; sp64 = temp_a3->unk4; sp8 = arg3; sp10 = arg4; temp_f8 = temp_a0->unk2 - arg3; sp68 = temp_a3->unk2; temp_f6 = temp_a2->unk4 - arg4; sp2C = temp_f8; sp28 = temp_f6; sp24 = temp_a0->unk4 - arg4; temp_f0_2 = temp_f8 * temp_f6; sp8 = temp_f8; spC = temp_f6; sp20 = temp_a2->unk2 - arg3; temp_f2 = sp24 * sp20; temp_f10 = temp_f0_2 - temp_f2; sp1C = temp_f10; sp38 = temp_f10; if (temp_f2 == temp_f0_2) { sp14 = arg3; temp_f0_3 = sp64 - sp10; temp_f2_2 = sp68 - arg3; phi_f18 = 0.0f; if ((((sp20 * temp_f0_3) - (spC * temp_f2_2)) * ((temp_f2_2 * sp24) - (temp_f0_3 * sp8))) < 0.0f) { goto block_22; } } else { temp_f2_3 = sp68 - arg3; temp_f0_4 = sp64 - arg4; temp_f14 = sp28 * temp_f2_3; temp_f12 = sp20 * temp_f0_4; if (temp_f14 == temp_f12) { phi_f18 = 0.0f; if ((sp38 * ((temp_f2_3 * sp24) - (temp_f0_4 * sp2C))) < 0.0f) { goto block_22; } } else { temp_f16 = temp_f12 - temp_f14; if ((sp1C * temp_f16) < 0.0f) { goto block_22; } temp_f14_2 = temp_f0_4 * sp2C; temp_f12_2 = temp_f2_3 * sp24; phi_f18 = 0.0f; if (temp_f14_2 != temp_f12_2) { phi_f18 = 0.0f; if ((temp_f16 * (temp_f12_2 - temp_f14_2)) < 0.0f) { block_22: phi_v0 = 0; phi_f18 = 0.0f; } } } } if (phi_v0 == 0) { return 0; } temp_f2_4 = temp_v1->unk1C; temp_f12_3 = temp_v1->unk20; temp_f14_3 = temp_v1->unk24; temp_f16_2 = temp_v1->unk28; temp_f0_5 = (temp_f2_4 * arg2) + (temp_f12_3 * arg3) + (temp_f14_3 * arg4) + temp_f16_2; if ((temp_v1->unk0 & 0x200) != 0) { temp_f10_2 = (temp_f2_4 * arg6) + (temp_f12_3 * arg7) + (temp_f14_3 * arg8) + temp_f16_2; sp44 = temp_f10_2; if ((phi_f18 < temp_f0_5) && (phi_f18 < temp_f10_2)) { if (temp_f0_5 < arg1) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_5 - arg1; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; arg0->unk2C = temp_v1->unk24; return 1; } return 0; } if ((temp_f0_5 < phi_f18) && (sp44 < phi_f18)) { temp_f0_6 = temp_f0_5 * -1.0f; if (temp_f0_6 < arg1) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_6 - arg1; arg0->unk24 = -temp_v1->unk1C; arg0->unk28 = -temp_v1->unk20; arg0->unk2C = -temp_v1->unk24; return 1; } return 0; } if ((phi_f18 < temp_f0_5) && (sp44 < phi_f18)) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = -(temp_f0_5 + arg1); arg0->unk24 = -temp_v1->unk1C; arg0->unk28 = -temp_v1->unk20; phi_f8 = -temp_v1->unk24; goto block_54; } if ((temp_f0_5 < phi_f18) && (phi_f18 < sp44)) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_5 + arg1; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; arg0->unk2C = temp_v1->unk24; return 1; } if (temp_f0_5 == phi_f18) { if (phi_f18 <= sp44) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = sp44 + arg1; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; arg0->unk2C = temp_v1->unk24; return 1; } arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = -(sp44 + arg1); arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; phi_f8 = temp_v1->unk24; goto block_54; } return 0; } if (arg1 < temp_f0_5) { if (temp_f0_5 < arg0->unk10) { arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_5 - arg1; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; arg0->unk2C = temp_v1->unk24; } return 0; } temp_f4 = (temp_f2_4 * arg6) + (temp_f12_3 * arg7) + (temp_f14_3 * arg8) + temp_f16_2; sp44 = temp_f4; if (temp_f4 < phi_f18) { return 0; } arg0->unk2 = 1; arg0->unk8 = arg5; arg0->unk10 = temp_f0_5 - arg1; arg0->unk24 = temp_v1->unk1C; arg0->unk28 = temp_v1->unk20; phi_f8 = temp_v1->unk24; block_54: arg0->unk2C = phi_f8; return 1; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AD278.s") #endif #ifdef MIPS_TO_C //generated by m2c commit a8f43e46d33dcb7e04d9cdc44a10b3daf4c92c3b s32 func_802AC760(f32, f32, f32, f32, f32, f32, f32, f32, f32); /* extern */ s32 func_802ACBA4(UnkActorInner *, f32, f32, f32, f32, s32, f32, f32, f32); /* extern */ s32 func_802AD278(UnkActorInner *, f32, f32, f32, f32, s32, f32, f32, f32); /* extern */ extern u8 D_8014F110; extern s32 D_8015F584; extern s16 D_8015F6E8; extern s16 D_8015F6EA; extern s16 D_8015F6F0; extern s16 D_8015F6F2; s32 func_802AD950(UnkActorInner *arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4, f32 arg5, f32 arg6, f32 arg7) { s16 temp_v0_4; s16 temp_v1; s32 temp_f10; s32 temp_f16; s32 temp_t7; u16 temp_s6; u16 temp_v0; u16 temp_v0_2; u16 temp_v0_3; u16 temp_v0_5; u16 temp_v1_3; void *temp_v1_2; s32 phi_s4; s32 phi_s4_2; u16 phi_s2; s32 phi_s3; s32 phi_s4_3; s32 phi_s4_4; s32 phi_s4_5; s32 phi_s4_6; arg0->unk30 = 0; arg0->unk32 = 0; arg0->unk34 = 0; arg0->unk3C = 1000.0f; arg0->unk40 = 1000.0f; arg0->unk44 = 1000.0f; temp_v0 = arg0->unk3A; phi_s4_6 = 0; if (((s32) temp_v0 < (s32) D_8015F588) && (func_802AC760(arg1, arg2, arg3, arg4, (bitwise f32) temp_v0, arg5, arg6, arg7) == 1)) { phi_s4_6 = 0x00004000; } temp_v0_2 = arg0->unk36; phi_s4_4 = phi_s4_6; if (((s32) temp_v0_2 < (s32) D_8015F588) && (func_802ACBA4(arg0, arg1, arg2, arg3, arg4, (s32) temp_v0_2, arg5, arg6, arg7) == 1)) { phi_s4_4 = (phi_s4_6 | 0x2000) & 0xFFFF; } temp_v0_3 = arg0->unk38; phi_s4 = phi_s4_4; if (((s32) temp_v0_3 < (s32) D_8015F588) && (func_802AD278(arg0, arg1, arg2, arg3, arg4, (s32) temp_v0_3, arg5, arg6, arg7) == 1)) { phi_s4 = (phi_s4_4 | 0x8000) & 0xFFFF; } phi_s4_2 = phi_s4; phi_s4_3 = phi_s4; if (phi_s4 == 0x0000E000) { goto block_39; } temp_v0_4 = D_8015F6EA; temp_v1 = D_8015F6F2; temp_f10 = (s32) ((arg2 - (f32) temp_v0_4) / (f32) ((s32) (D_8015F6E8 - temp_v0_4) / 32)); temp_f16 = (s32) ((arg4 - (f32) temp_v1) / (f32) ((s32) (D_8015F6F0 - temp_v1) / 32)); if ((s16) temp_f10 < 0) { return 0; } if ((s16) temp_f16 < 0) { return 0; } if ((s16) temp_f10 >= 0x20) { return 0; } if ((s16) temp_f16 >= 0x20) { return 0; } temp_v1_2 = ((s16) ((s16) temp_f10 + ((s16) temp_f16 << 5)) * 4) + &D_8014F110; temp_s6 = temp_v1_2->unk2; phi_s3 = 0; if (temp_s6 == 0) { } else { phi_s2 = temp_v1_2->unk0; if ((s32) temp_s6 > 0) { loop_22: phi_s4_3 = phi_s4_2; phi_s4_5 = phi_s4_2; if (phi_s4_2 == 0x0000E000) { } else { temp_v0_5 = *(D_8015F584 + (phi_s2 * 2)); temp_v1_3 = D_8015F580[temp_v0_5].flags; if ((temp_v1_3 & 0x4000) != 0) { if (((phi_s4_2 & 0x4000) == 0) && (arg0->unk3A != temp_v0_5) && (func_802AC760((bitwise f32) arg0, arg1, arg2, arg3, arg4, (bitwise f32) temp_v0_5, arg5, arg6, arg7) == 1)) { phi_s4_5 = (phi_s4_2 | 0x4000) & 0xFFFF; } } else if ((temp_v1_3 & 0x8000) != 0) { if (((phi_s4_2 & 0x8000) == 0) && (arg0->unk38 != temp_v0_5) && (func_802AD278(arg0, arg1, arg2, arg3, arg4, (s32) temp_v0_5, arg5, arg6, arg7) == 1)) { phi_s4_5 = (phi_s4_2 | 0x8000) & 0xFFFF; } } else if (((phi_s4_2 & 0x2000) == 0) && (arg0->unk36 != temp_v0_5) && (func_802ACBA4(arg0, arg1, arg2, arg3, arg4, (s32) temp_v0_5, arg5, arg6, arg7) == 1)) { phi_s4_5 = (phi_s4_2 | 0x2000) & 0xFFFF; } temp_t7 = (phi_s3 + 1) & 0xFFFF; phi_s4_2 = phi_s4_5; phi_s2 = (phi_s2 + 1) & 0xFFFF; phi_s3 = temp_t7; phi_s4_3 = phi_s4_5; if (temp_t7 < (s32) temp_s6) { goto loop_22; } } } } block_39: return phi_s4_3; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AD950.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802AAE4C(void *, f32, f32, f32, f32, s32); // extern s32 func_802AB288(void *, void *, f32, f32, f32, s32); // extern s32 func_802AB6C4(void *, void *, f32, f32, f32, s32); // extern extern u8 D_8014F110; extern s32 D_8015F584; s32 func_802ADDC8(void *arg0, void *arg1, f32 arg2, f32 arg3, f32 arg4) { s16 temp_v0_4; s16 temp_v1; s32 temp_f4; s32 temp_f6; s32 temp_t7; u16 temp_s6; u16 temp_v0; u16 temp_v0_2; u16 temp_v0_3; u16 temp_v0_5; u16 temp_v1_3; void *temp_v1_2; s32 phi_s4; s32 phi_s4_2; u16 phi_s2; s32 phi_s3; s32 phi_s4_3; s32 phi_s4_4; s32 phi_s4_5; s32 phi_s4_6; arg0->unk0 = 0; arg0->unk2 = 0; arg0->unk4 = 0; arg0->unkC = 1000.0f; arg0->unk10 = 1000.0f; arg0->unk14 = 1000.0f; temp_v0 = arg0->unkA; phi_s4_6 = 0; if ((temp_v0 < D_8015F588) && (func_802AAE4C(arg1, arg2, arg3, arg4, (bitwise f32) temp_v0) == 1)) { phi_s4_6 = 0x4000; } temp_v0_2 = arg0->unk6; phi_s4_4 = phi_s4_6; if ((temp_v0_2 < D_8015F588) && (func_802AB288(arg0, arg1, arg2, arg3, arg4, temp_v0_2) == 1)) { phi_s4_4 = (phi_s4_6 | 0x2000) & 0xFFFF; } temp_v0_3 = arg0->unk8; phi_s4 = phi_s4_4; if ((temp_v0_3 < D_8015F588) && (func_802AB6C4(arg0, arg1, arg2, arg3, arg4, temp_v0_3) == 1)) { phi_s4 = (phi_s4_4 | 0x8000) & 0xFFFF; } phi_s4_2 = phi_s4; phi_s4_3 = phi_s4; if (phi_s4 == 0xE000) { goto block_39; } temp_v0_4 = D_8015F6EA; temp_v1 = D_8015F6F2; temp_f4 = (arg2 - temp_v0_4) / ((D_8015F6E8 - temp_v0_4) / 0x20); temp_f6 = (arg4 - temp_v1) / ((D_8015F6F0 - temp_v1) / 0x20); if (temp_f4 < 0) { return 0; } if (temp_f6 < 0) { return 0; } if (temp_f4 >= 0x20) { return 0; } if (temp_f6 >= 0x20) { return 0; } temp_v1_2 = ((temp_f4 + (temp_f6 << 5)) * 4) + &D_8014F110; temp_s6 = temp_v1_2->unk2; phi_s3 = 0; if (temp_s6 == 0) { } else { phi_s2 = temp_v1_2->unk0; if (temp_s6 > 0) { loop_22: phi_s4_3 = phi_s4_2; phi_s4_5 = phi_s4_2; if (phi_s4_2 == 0xE000) { } else { temp_v0_5 = *(D_8015F584 + (phi_s2 * 2)); temp_v1_3 = *(D_8015F580 + (temp_v0_5 * 0x2C)); if ((temp_v1_3 & 0x4000) != 0) { if (((phi_s4_2 & 0x4000) == 0) && (arg0->unkA != temp_v0_5) && (func_802AAE4C(arg0, (bitwise f32) arg1, arg2, arg3, arg4, temp_v0_5) == 1)) { phi_s4_5 = (phi_s4_2 | 0x4000) & 0xFFFF; } } else if ((temp_v1_3 & 0x8000) != 0) { if (((phi_s4_2 & 0x8000) == 0) && (arg0->unk8 != temp_v0_5) && (func_802AB6C4(arg0, arg1, arg2, arg3, arg4, temp_v0_5) == 1)) { phi_s4_5 = (phi_s4_2 | 0x8000) & 0xFFFF; } } else if (((phi_s4_2 & 0x2000) == 0) && (arg0->unk6 != temp_v0_5) && (func_802AB288(arg0, arg1, arg2, arg3, arg4, temp_v0_5) == 1)) { phi_s4_5 = (phi_s4_2 | 0x2000) & 0xFFFF; } temp_t7 = (phi_s3 + 1) & 0xFFFF; phi_s4_2 = phi_s4_5; phi_s2 = (phi_s2 + 1) & 0xFFFF; phi_s3 = temp_t7; phi_s4_3 = phi_s4_5; if (temp_t7 < temp_s6) { goto loop_22; } } } } block_39: return phi_s4_3; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802ADDC8.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 792017ad9d422c2467bd42686f383a5c41f41c75 s32 func_802ABB04(f32, f32, s32); /* extern */ f32 func_802ABE30(f32, f32, f32, s32); /* extern */ extern u8 D_8014F110; extern s32 D_8015F584; extern s16 D_8015F6E8; extern s16 D_8015F6EA; extern s16 D_8015F6F0; extern s16 D_8015F6F2; static f32 D_802B9E4C = -3000.0f; static f32 D_802B9E50 = 3000.0f; static f32 D_802B9E54 = 3000.0f; static f32 D_802B9E58 = 3000.0f; static f32 D_802B9E5C = 3000.0f; static f32 D_802B9E60 = 3000.0f; f32 func_802AE1C0(f32 arg0, f32 arg1, f32 arg2) { f32 temp_f0; f32 temp_f20; s16 temp_v0; s16 temp_v1; s32 temp_f4; s32 temp_f6; s32 temp_t0; s32 temp_t9; u16 temp_s0; u16 temp_t1; void *temp_t2; u16 phi_s1; f32 phi_f20; s32 phi_s2; f32 phi_f20_2; f32 phi_f20_3; temp_v0 = D_8015F6EA; temp_f20 = D_802B9E4C; temp_v1 = D_8015F6F2; temp_f4 = (s32) ((arg0 - (f32) temp_v0) / (f32) ((s32) (D_8015F6E8 - temp_v0) / 32)); temp_f6 = (s32) ((arg2 - (f32) temp_v1) / (f32) ((s32) (D_8015F6F0 - temp_v1) / 32)); temp_t0 = (s16) temp_f6 << 5; temp_t2 = ((s16) ((s16) temp_f4 + temp_t0) * 4) + &D_8014F110; temp_t1 = temp_t2->unk2; phi_f20 = temp_f20; phi_f20_2 = temp_f20; if ((s32) (s16) temp_f4 < 0) { return D_802B9E50; } if ((s16) temp_f6 & 0x04000000) { return D_802B9E54; } if ((s32) (s16) temp_f4 >= 0x20) { return D_802B9E58; } if (temp_t0 >= 0x400) { return D_802B9E5C; } if (temp_t1 == 0) { return D_802B9E60; } phi_s1 = temp_t2->unk0; phi_s2 = 0; if ((s32) temp_t1 > 0) { do { temp_s0 = *(D_8015F584 + (phi_s1 * 2)); phi_f20_3 = phi_f20; if ((((*D_8015F580)[temp_s0].flags & 0x4000) != 0) && (func_802ABB04(arg0, arg2, temp_s0 & 0xFFFF) == 1)) { temp_f0 = func_802ABE30(arg0, arg1, arg2, temp_s0 & 0xFFFF); if ((temp_f0 <= arg1) && (phi_f20 < temp_f0)) { phi_f20_3 = temp_f0; } } temp_t9 = (phi_s2 + 1) & 0xFFFF; phi_s1 = (phi_s1 + 1) & 0xFFFF; phi_f20 = phi_f20_3; phi_s2 = temp_t9; phi_f20_2 = phi_f20_3; } while (temp_t9 < (s32) temp_t1); } return phi_f20_2; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AE1C0.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 06ada559d7a32fdab49fa2d619cdfa027615bcda extern s32 D_8015F59C; extern s32 D_8015F5A0; extern s32 D_8015F5A4; extern s16 D_8015F6E8; extern s16 D_8015F6EA; extern s16 D_8015F6EC; extern s16 D_8015F6EE; extern s16 D_8015F6F0; extern s16 D_8015F6F2; extern s16 D_8015F6FA; extern s16 D_8015F6FC; static f32 D_802B9E64 = -0.9f; static f32 D_802B9E68 = 0.9f; static f32 D_802B9E6C = 0.1f; static f32 D_802B9E70 = -0.1f; void func_802AE434(Vtx *arg0, Vtx *arg1, Vtx *arg2, s8 arg3, u16 arg4) { s16 spBA; s16 spB8; s16 spB6; s16 spB2; s16 spAC; s16 spAA; f32 sp58; f32 sp54; f32 sp50; f32 sp4C; s16 sp4A; s16 sp48; s16 sp44; s16 sp42; Vtx *sp1C; /* compiler-managed */ f64 sp10; f64 sp8; f64 sp0; Vtx *temp_t1; Vtx *temp_t2; Vtx *temp_t6; f32 temp_f0; f32 temp_f18_2; f32 temp_f4_2; f64 temp_f12; f64 temp_f14; f64 temp_f16; f64 temp_f18; f64 temp_f2; f64 temp_f4; f64 temp_f8; mk64_surface_map_ram *temp_t0; s16 temp_a0; s16 temp_a1; s16 temp_t3; s16 temp_t4; s32 temp_a0_2; s32 temp_a1_2; s32 temp_a2; s32 temp_a3; s32 temp_v0; s32 temp_v1; u16 temp_a0_3; u16 temp_a3_2; u16 temp_v1_2; s32 phi_a0; s32 phi_t3; s32 phi_t5; s32 phi_a1; s32 phi_t4; s32 phi_v1; s32 phi_a2; s32 phi_a3; s32 phi_v0; s16 phi_t1; s16 phi_t2; u16 phi_a1_2; u16 phi_t9; u16 phi_t8; temp_t0 = &(*D_8015F580)[D_8015F588]; temp_t0->vtxs[0] = arg0; temp_t0->vtxs[1] = arg1; temp_t0->vtxs[2] = arg2; if ((arg0->v.flag != 4) || (arg1->v.flag != 4) || (temp_t0->vtxs[2]->v.flag != 4)) { temp_t6 = temp_t0->vtxs[0]; sp1C = temp_t6; temp_t1 = temp_t0->vtxs[1]; temp_t2 = temp_t0->vtxs[2]; temp_a0 = temp_t6->v.ob[0]; temp_t3 = temp_t1->v.ob[0]; temp_a1 = temp_t6->v.ob[2]; temp_t4 = temp_t1->v.ob[2]; phi_a0 = (s32) temp_a0; phi_t3 = (s32) temp_t3; phi_t5 = (s32) temp_t2->v.ob[0]; phi_a1 = (s32) temp_a1; phi_t4 = (s32) temp_t4; phi_v1 = (s32) temp_t2->v.ob[2]; phi_a2 = (s32) temp_t6->v.ob[1]; phi_a3 = (s32) temp_t1->v.ob[1]; phi_v0 = (s32) temp_t2->v.ob[1]; if ((temp_a0 == temp_t3) && (temp_a1 == temp_t4)) { temp_t0->vtxs[2] = arg1; temp_t0->vtxs[1] = arg2; phi_a0 = (s32) arg0->v.ob[0]; phi_t3 = (s32) arg1->v.ob[0]; phi_t5 = (s32) arg2->v.ob[0]; phi_a1 = (s32) arg0->v.ob[2]; phi_t4 = (s32) arg1->v.ob[2]; phi_v1 = (s32) arg2->v.ob[2]; phi_a2 = (s32) arg0->v.ob[1]; phi_a3 = (s32) arg1->v.ob[1]; phi_v0 = (s32) arg2->v.ob[1]; } if (phi_a0 >= phi_t3) { if (phi_a0 >= phi_t5) { sp4A = (s16) phi_a0; } else { goto block_12; } } else if (phi_t3 >= phi_t5) { sp4A = (s16) phi_t3; } else { block_12: sp4A = (s16) phi_t5; } if (phi_a1 >= phi_t4) { if (phi_a1 >= phi_v1) { sp48 = (s16) phi_a1; } else { goto block_19; } } else if (phi_t4 >= phi_v1) { sp48 = (s16) phi_t4; } else { block_19: sp48 = (s16) phi_v1; } if (phi_a2 >= phi_a3) { if (phi_a2 >= phi_v0) { sp42 = (s16) phi_a2; } else { goto block_26; } } else if (phi_a3 >= phi_v0) { sp42 = (s16) phi_a3; } else { block_26: sp42 = (s16) phi_v0; } if (phi_t3 >= phi_a0) { if (phi_t5 >= phi_a0) { sp44 = (s16) phi_a0; } else { goto block_33; } } else if (phi_t5 >= phi_t3) { sp44 = (s16) phi_t3; } else { block_33: sp44 = (s16) phi_t5; } if (phi_a3 >= phi_a2) { if (phi_v0 >= phi_a2) { phi_t2 = (s16) phi_a2; } else { phi_t2 = (s16) phi_v0; } } else if (phi_v0 >= phi_a3) { phi_t2 = (s16) phi_a3; } else { phi_t2 = (s16) phi_v0; } if (phi_t4 >= phi_a1) { if (phi_v1 >= phi_a1) { phi_t1 = (s16) phi_a1; } else { phi_t1 = (s16) phi_v1; } } else if (phi_v1 >= phi_t4) { phi_t1 = (s16) phi_t4; } else { phi_t1 = (s16) phi_v1; } spAA = (s16) phi_v1; spB8 = (s16) phi_a2; spB2 = (s16) phi_a3; spAC = (s16) phi_v0; temp_v0 = spB2 - spB8; temp_v1 = spAA - phi_t4; spB6 = (s16) phi_a1; spBA = (s16) phi_a0; temp_a0_2 = phi_t4 - spB6; temp_a1_2 = spAC - spB2; temp_a2 = phi_t5 - phi_t3; temp_a3 = phi_t3 - spBA; temp_f12 = (f64) ((temp_v0 * temp_v1) - (temp_a0_2 * temp_a1_2)); temp_f18 = temp_f12 * temp_f12; sp10 = temp_f18; temp_f14 = (f64) ((temp_a0_2 * temp_a2) - (temp_a3 * temp_v1)); temp_f8 = temp_f14 * temp_f14; sp8 = temp_f8; temp_f16 = (f64) ((temp_a3 * temp_a1_2) - (temp_v0 * temp_a2)); temp_f4 = temp_f16 * temp_f16; sp0 = temp_f4; temp_f2 = (f64) sqrtf((f32) (temp_f18 + temp_f8 + temp_f4)); if ((temp_f2 != 0.0) && ((temp_f0 = (f32) ((f64) (f32) temp_f12 / temp_f2), sp58 = temp_f0, temp_f4_2 = (f32) ((f64) (f32) temp_f14 / temp_f2), sp1C = temp_f4_2, sp54 = temp_f4_2, temp_f18_2 = (f32) ((f64) (f32) temp_f16 / temp_f2), sp50 = temp_f18_2, sp4C = -(((f32) spBA * temp_f0) + (temp_f4_2 * (f32) spB8) + (temp_f18_2 * (f32) spB6)), (D_8015F59C == 0)) || (!(temp_f4_2 < D_802B9E64) && !(D_802B9E68 < temp_f4_2))) && ((D_8015F5A0 == 0) || !(sp1C < D_802B9E6C) || !(D_802B9E70 < sp1C))) { temp_t0->vtx2[0] = sp4A; temp_t0->vtx3[2] = phi_t1; temp_t0->vtx3[1] = phi_t2; temp_t0->vtx3[0] = sp44; temp_t0->vtx2[1] = sp42; temp_t0->vtx2[2] = sp48; if ((s32) sp44 < (s32) D_8015F6EA) { D_8015F6EA = sp44; } if ((s32) phi_t2 < (s32) D_8015F6EE) { D_8015F6EE = phi_t2; } if ((s32) phi_t1 < (s32) D_8015F6F2) { D_8015F6F2 = phi_t1; } if ((s32) D_8015F6E8 < (s32) sp4A) { D_8015F6E8 = sp4A; } if ((s32) D_8015F6EC < (s32) sp42) { D_8015F6EC = sp42; } if ((s32) D_8015F6F0 < (s32) sp48) { D_8015F6F0 = sp48; } temp_t0->height = sp58; temp_t0->gravity = sp54; temp_t0->rotation = sp50; temp_t0->height2 = sp4C; temp_t0->surfaceType = (u16) arg3; D_8015F6FA = 0; D_8015F6FC = 0; temp_a3_2 = temp_t0->vtxs[0]->v.flag; temp_v1_2 = temp_t0->vtxs[1]->v.flag; temp_a0_3 = temp_t0->vtxs[2]->v.flag; phi_a1_2 = arg4; if ((temp_a3_2 == 1) && (temp_v1_2 == 1) && (temp_a0_3 == 1)) { phi_t8 = (arg4 | 0x400) & 0xFFFF; goto block_81; } if ((temp_a3_2 == 2) && (temp_v1_2 == 2) && (temp_a0_3 == 2)) { phi_a1_2 = (arg4 | 0x800) & 0xFFFF; } else if ((temp_a3_2 == 3) && (temp_v1_2 == 3) && (temp_a0_3 == 3)) { phi_a1_2 = (arg4 | 0x1000) & 0xFFFF; } else if (D_8015F5A4 != 0) { phi_t8 = (arg4 | 0x200) & 0xFFFF; block_81: phi_a1_2 = phi_t8; } temp_t0->flags = phi_a1_2; if (sp10 <= sp8) { phi_t9 = phi_a1_2 | 0x4000; if (sp0 <= sp8) { goto block_89; } } if ((sp8 < sp10) && (sp0 <= sp10)) { temp_t0->flags |= 0x8000; } else { phi_t9 = temp_t0->flags | 0x2000; block_89: temp_t0->flags = phi_t9; } D_8015F588 = D_8015F588 + 1; } } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AE434.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void func_802AE434(s32, s32, s32, s8, s32); // extern extern ? D_8015F668; void func_802AEB14(s32 arg0, s8 arg1, u16 arg2) { func_802AE434(*(&D_8015F668 + ((((arg0 & 0xFF0000) >> 0x10) >> 1) * 4)), *(&D_8015F668 + ((((arg0 & 0xFF00) >> 8) >> 1) * 4)), *(&D_8015F668 + (((arg0 & 0xFF) >> 1) * 4)), arg1, arg2); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AEB14.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void func_802AE434(s32, s32, s32, s8, s32); // extern extern ? D_8015F668; void func_802AEBA4(s32 arg0, s32 arg1, s8 arg2, u16 arg3) { s32 sp28; s32 sp24; s32 sp20; sp28 = *(&D_8015F668 + ((((arg1 & 0xFF0000) >> 0x10) >> 1) * 4)); sp24 = *(&D_8015F668 + ((((arg1 & 0xFF00) >> 8) >> 1) * 4)); sp20 = *(&D_8015F668 + (((arg1 & 0xFF) >> 1) * 4)); func_802AE434(*(&D_8015F668 + ((((arg0 & 0xFF0000) >> 0x10) >> 1) * 4)), *(&D_8015F668 + ((((arg0 & 0xFF00) >> 8) >> 1) * 4)), *(&D_8015F668 + (((arg0 & 0xFF) >> 1) * 4)), arg2, arg3); func_802AE434(sp28, sp24, sp20, arg2, arg3); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AEBA4.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void func_802AE434(s32, s32, s32, s8, s32); // extern extern ? D_8015F668; void func_802AECA0(s32 arg0, s8 arg1, u16 arg2) { s32 sp2C; s32 sp24; s32 sp20; s32 temp_a0; s32 temp_a2; temp_a0 = *(&D_8015F668 + ((((arg0 & 0xFF0000) >> 0x10) >> 1) * 4)); temp_a2 = *(&D_8015F668 + (((arg0 & 0xFF) >> 1) * 4)); sp2C = temp_a0; sp24 = temp_a2; sp20 = *(&D_8015F668 + ((((arg0 & 0xFF000000) >> 0x18) >> 1) * 4)); func_802AE434(temp_a0, *(&D_8015F668 + ((((arg0 & 0xFF00) >> 8) >> 1) * 4)), temp_a2, arg1, arg2); func_802AE434(temp_a0, sp24, sp20, arg1, arg2); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AECA0.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern ? D_8015F668; extern uintptr_t gSegmentTable; void func_802AED6C(u32 arg0, s32 arg1, s32 arg2) { s32 temp_a2; s32 temp_t0; s32 temp_v0; s32 temp_v0_2; s32 temp_v0_3; s32 temp_v0_4; s32 temp_v0_5; s32 temp_v1; s32 temp_v1_2; s32 phi_v0; s32 *phi_a0; s32 phi_v1; s32 phi_v0_2; void *phi_a0_2; s32 phi_v1_2; s32 phi_a2; s32 phi_a2_2; temp_v0 = *(&gSegmentTable + ((arg0 >> 0x18) * 4)) + (arg0 & 0xFFFFFF) + 0x80000000; phi_v0 = temp_v0; phi_v1 = 0; phi_v0_2 = temp_v0; phi_a2 = arg2; phi_v1_2 = 0; phi_a2_2 = arg2; if (arg1 != 0) { temp_t0 = arg1 & 3; if (temp_t0 != 0) { phi_a0 = (arg2 * 4) + &D_8015F668; do { *phi_a0 = phi_v0; temp_v1 = phi_v1 + 1; temp_v0_2 = phi_v0 + 0x10; temp_a2 = phi_a2_2 + 1; phi_v0 = temp_v0_2; phi_a0 += 4; phi_v1 = temp_v1; phi_v0_2 = temp_v0_2; phi_a2 = temp_a2; phi_v1_2 = temp_v1; phi_a2_2 = temp_a2; } while (temp_t0 != temp_v1); if (temp_v1 != arg1) { goto block_5; } } else { block_5: phi_a0_2 = (phi_a2 * 4) + &D_8015F668; do { phi_a0_2->unk0 = phi_v0_2; temp_v0_3 = phi_v0_2 + 0x10; phi_a0_2->unk4 = temp_v0_3; temp_v0_4 = temp_v0_3 + 0x10; phi_a0_2->unk8 = temp_v0_4; temp_v0_5 = temp_v0_4 + 0x10; phi_a0_2->unkC = temp_v0_5; temp_v1_2 = phi_v1_2 + 4; phi_v0_2 = temp_v0_5 + 0x10; phi_a0_2 += 0x10; phi_v1_2 = temp_v1_2; } while (temp_v1_2 != arg1); } } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AED6C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 s32 func_802AEE1C(s16 arg0, s16 arg1, s16 arg2, s16 arg3, s16 arg4, s16 arg5, s16 arg6, s16 arg7) { f32 temp_f0; f32 temp_f0_2; f32 temp_f12; f32 temp_f12_2; f32 temp_f14; f32 temp_f14_2; f32 temp_f16; f32 temp_f16_2; f32 temp_f18; f32 temp_f18_2; f32 temp_f18_3; f32 temp_f2; temp_f0 = arg6 - arg4; if (temp_f0 == 0.0f) { if (arg4 < arg0) { return 0; } if (arg1 < arg4) { return 0; } if ((arg7 - arg5) > 0.0f) { if ((arg5 < arg2) && (arg3 < arg7)) { return 1; } // Duplicate return node #36. Try simplifying control flow for better match return 0; } if ((arg7 < arg2) && (arg3 < arg5)) { return 1; } // Duplicate return node #36. Try simplifying control flow for better match return 0; } temp_f2 = arg7 - arg5; if (temp_f2 == 0.0f) { if (arg5 < arg2) { return 0; } if (arg3 < arg5) { return 0; } if (temp_f0 > 0.0f) { if ((arg4 < arg0) && (arg1 < arg6)) { return 1; } // Duplicate return node #36. Try simplifying control flow for better match return 0; } if ((arg6 < arg0) && (arg1 < arg4)) { return 1; } // Duplicate return node #36. Try simplifying control flow for better match return 0; } temp_f16 = temp_f0 / temp_f2; temp_f12 = arg4; temp_f14 = arg0; temp_f18 = (temp_f16 * (arg2 - arg5)) + temp_f12; if ((temp_f14 <= temp_f18) && (temp_f18 <= arg1)) { return 1; } temp_f18_2 = (temp_f16 * (arg3 - arg5)) + temp_f12; if ((temp_f14 <= temp_f18_2) && (temp_f18_2 <= arg1)) { return 1; } temp_f16_2 = temp_f2 / temp_f0; temp_f12_2 = arg5; temp_f14_2 = arg2; temp_f18_3 = (temp_f16_2 * (arg0 - arg4)) + temp_f12_2; if ((temp_f14_2 <= temp_f18_3) && (temp_f18_3 <= arg3)) { return 1; } temp_f0_2 = (temp_f16_2 * (arg1 - arg4)) + temp_f12_2; if ((temp_f14_2 <= temp_f0_2) && (temp_f0_2 <= arg3)) { return 1; } return 0; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AEE1C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 06ada559d7a32fdab49fa2d619cdfa027615bcda s32 func_802AEE1C(s16, s16, s16, s16, s32, s32, s32, s32); /* extern */ s32 func_802AF0FC(s16 arg0, s16 arg1, s16 arg2, s16 arg3, u16 arg4) { s16 sp32; s16 sp30; s16 sp2E; s16 sp2C; s16 sp2A; s16 sp28; Vtx *temp_t0; Vtx *temp_t1; Vtx *temp_v1; mk64_surface_map_ram *temp_v0; s16 temp_a0; s16 temp_a0_2; s16 temp_a1; s16 temp_a1_2; s16 temp_a2; s16 temp_a2_2; s16 temp_a3; s16 temp_a3_2; s16 temp_ra; s16 temp_t2; s16 temp_t3; s16 temp_t4; s16 temp_t5; temp_a0 = arg0; temp_a2 = arg2; temp_a1 = arg1; temp_a3 = arg3; temp_v0 = &(*D_8015F580)[arg4]; temp_v1 = temp_v0->vtxs[0]; temp_t0 = temp_v0->vtxs[1]; temp_t1 = temp_v0->vtxs[2]; temp_t2 = temp_v1->v.ob[0]; temp_t3 = temp_v1->v.ob[2]; temp_t4 = temp_t0->v.ob[0]; temp_t5 = temp_t0->v.ob[2]; temp_ra = temp_t1->v.ob[0]; sp28 = temp_t1->v.ob[2]; if (((s32) temp_t2 >= (s32) temp_a0) && ((s32) temp_a1 >= (s32) temp_t2) && ((s32) temp_t3 >= (s32) temp_a2) && ((s32) temp_a3 >= (s32) temp_t3)) { return 1; } if (((s32) temp_t4 >= (s32) temp_a0) && ((s32) temp_a1 >= (s32) temp_t4) && ((s32) temp_t5 >= (s32) temp_a2) && ((s32) temp_a3 >= (s32) temp_t5)) { return 1; } if (((s32) temp_ra >= (s32) temp_a0) && ((s32) temp_a1 >= (s32) temp_ra) && ((s32) sp28 >= (s32) temp_a2) && ((s32) temp_a3 >= (s32) sp28)) { return 1; } sp2A = temp_ra; arg0 = temp_a0; arg1 = temp_a1; arg2 = temp_a2; arg3 = temp_a3; sp32 = temp_t2; sp30 = temp_t3; sp2E = temp_t4; sp2C = temp_t5; temp_a0_2 = arg0; temp_a1_2 = arg1; temp_a2_2 = arg2; temp_a3_2 = arg3; if (func_802AEE1C(temp_a0, temp_a1, temp_a2, temp_a3, (s32) temp_t2, (s32) temp_t3, (s32) temp_t4, (s32) temp_t5) == 1) { return 1; } sp2A = temp_ra; arg0 = temp_a0_2; arg1 = temp_a1_2; arg2 = temp_a2_2; arg3 = temp_a3_2; sp32 = temp_t2; sp30 = temp_t3; if (func_802AEE1C(temp_a0_2, temp_a1_2, temp_a2_2, temp_a3_2, (s32) temp_t4, (s32) temp_t5, (s32) temp_ra, (s32) sp28) == 1) { return 1; } if (func_802AEE1C(arg0, arg1, arg2, arg3, (s32) temp_ra, (s32) sp28, (s32) temp_t2, (s32) temp_t3) == 1) { return 1; } return 0; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AF0FC.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 792017ad9d422c2467bd42686f383a5c41f41c75 s32 func_802AF0FC(s16, s16, s16, s16, s32); /* extern */ extern u8 D_8014F110; extern u16 gNumActors; extern s32 D_8015F584; extern u16 D_8015F58A; extern s16 D_8015F6E8; extern s16 D_8015F6EA; extern s16 D_8015F6F0; extern s16 D_8015F6F2; extern s32 gPrevLoadedAddress; void func_802AF314(void) { s32 sp4C; ? *temp_v0; s16 temp_a1; s16 temp_a3; s16 temp_s1; s16 temp_s2; s32 temp_fp; s32 temp_s0; s32 temp_s5; s32 temp_s6; s32 temp_s7; void *temp_v0_2; void *temp_v0_3; ? *phi_v0; s32 phi_s7; s32 phi_v1; s32 phi_s3; s32 phi_s5; s32 phi_s0; s32 phi_v1_2; s32 phi_v1_3; phi_v0 = &D_8014F110; do { temp_v0 = phi_v0 + 0x10; temp_v0->unk-A = 0; temp_v0->unk-6 = 0; temp_v0->unk-2 = 0; temp_v0->unk-E = 0; phi_v0 = temp_v0; } while (temp_v0 != &gNumActors); D_8015F58A = 0; D_8015F584 = gPrevLoadedAddress; temp_s6 = (s32) (D_8015F6E8 - D_8015F6EA) / 32; temp_fp = (s32) (D_8015F6F0 - D_8015F6F2) / 32; phi_s7 = 0; phi_v1 = (s32) D_8015F588; do { sp4C = temp_fp * phi_s7; phi_s5 = 0; loop_4: temp_s2 = (D_8015F6F2 + sp4C) - 0x14; temp_s1 = (D_8015F6EA + (temp_s6 * phi_s5)) - 0x14; phi_s3 = 0; phi_s0 = 0; phi_v1_3 = phi_v1; phi_v1_2 = phi_v1; if (phi_v1 > 0) { do { temp_a3 = temp_s2 + temp_fp + 0x28; temp_v0_2 = phi_s3 + D_8015F580; if (((s32) temp_v0_2->unkE >= (s32) temp_s2) && ((s32) temp_a3 >= (s32) temp_v0_2->unk8)) { temp_a1 = temp_s1 + temp_s6 + 0x28; if (((s32) temp_v0_2->unkA >= (s32) temp_s1) && ((s32) temp_a1 >= (s32) temp_v0_2->unk4)) { if (func_802AF0FC(temp_s1, temp_a1, temp_s2, temp_a3, phi_s0) == 1) { temp_v0_3 = (((phi_s7 << 5) + phi_s5) * 4) + &D_8014F110; if (temp_v0_3->unk2 == 0) { temp_v0_3->unk0 = (u16) D_8015F58A; } temp_v0_3->unk2 = (u16) (temp_v0_3->unk2 + 1); *(D_8015F584 + (D_8015F58A * 2)) = (s16) phi_s0; D_8015F58A += 1; } phi_v1_2 = (s32) D_8015F588; } } temp_s0 = phi_s0 + 1; phi_s3 += 0x2C; phi_s0 = temp_s0; phi_v1_3 = phi_v1_2; } while (temp_s0 < phi_v1_2); } temp_s5 = phi_s5 + 1; phi_v1 = phi_v1_3; phi_s5 = temp_s5; phi_v1 = phi_v1_3; if (temp_s5 != 0x20) { goto loop_4; } temp_s7 = phi_s7 + 1; phi_s7 = temp_s7; } while (temp_s7 != 0x20); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AF314.s") #endif void func_802AF588(s32 arg0) { func_802AF5D8(arg0, -1, 0xFF); } void func_802AF5AC(s32 arg0, s8 arg1) { func_802AF5D8(arg0, arg1, 0xFF); } #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void func_802AEB14(u32, s8, s32); // extern void func_802AEBA4(u32, u32, s8, s32); // extern void func_802AECA0(u32, s8, s32); // extern void func_802AED6C(u32, s32, u32); // extern extern s16 D_8015F6FA; extern s16 D_8015F6FC; extern uintptr_t gSegmentTable; void func_802AF5D8(u32 arg0, s8 arg1, s32 arg2) { s32 temp_s5; s32 temp_v0; u32 temp_s0; u32 temp_s1; void *phi_s3; s32 phi_s6; s32 phi_s6_2; D_8015F6FA = 0; temp_s5 = arg2 & 0xFFFF; D_8015F6FC = 0; phi_s3 = *(&gSegmentTable + ((arg0 >> 0x18) * 4)) + (arg0 & 0xFFFFFF) + 0x80000000; phi_s6_2 = 0; loop_1: temp_s0 = phi_s3->unk0; temp_s1 = phi_s3->unk4; temp_v0 = temp_s0 & 0xFF000000; if (temp_v0 == 0x6000000) { func_802AF5D8(temp_s1, arg1, temp_s5 & 0xFFFF); phi_s6 = phi_s6_2 + 1; goto block_12; } if (temp_v0 == 0x4000000) { func_802AED6C(temp_s1, (temp_s0 >> 0xA) & 0x3F, ((temp_s0 >> 0x10) & 0xFF) >> 1); phi_s6 = phi_s6_2 + 1; goto block_12; } if (temp_v0 == 0xBF000000) { D_8015F58C += 1; func_802AEB14(temp_s1, arg1, temp_s5 & 0xFFFF); phi_s6 = phi_s6_2 + 1; goto block_12; } if (temp_v0 == 0xB1000000) { D_8015F58C += 2; func_802AEBA4(temp_s0, temp_s1, arg1, temp_s5 & 0xFFFF); phi_s6 = phi_s6_2 + 1; goto block_12; } if (temp_v0 == 0xB5000000) { D_8015F58C += 2; func_802AECA0(temp_s1, arg1, temp_s5 & 0xFFFF); phi_s6 = phi_s6_2 + 1; goto block_12; } phi_s6 = phi_s6_2 + 1; if (temp_v0 != 0xB8000000) { block_12: phi_s3 += 8; phi_s6_2 = phi_s6; if (phi_s6 != 0x1FFF) { goto loop_1; } } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AF5D8.s") #endif void func_802AF7B4(uintptr_t addr, s32 arg1, s32 arg2) { s32 segment = SEGMENT_NUMBER2(addr); s32 offset = SEGMENT_OFFSET(addr); struct UnkStruct802AF7B4 *phi_v0 = VIRTUAL_TO_PHYSICAL2(gSegmentTable[segment] + offset); s32 temp_v1; arg1 = (arg1 << 12) & 0xFFF000; arg2 &= 0xFFF; while(1) { temp_v1 = phi_v0->unk0 & 0xFF000000; if (temp_v1 == G_ENDDL << 24) { break; } else if (temp_v1 == G_SETTILESIZE << 24) { phi_v0->unk0 = 0xF2000000 | arg1 | arg2; break; } phi_v0++; } } #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 extern uintptr_t gSegmentTable; void func_802AF83C(u32 arg0, u32 arg1, ? arg2, s8 arg3, u8 arg4, u8 arg5, u8 arg6) { u32 temp_v1; void *phi_v0; u32 phi_v1; phi_v0 = *(&gSegmentTable + ((arg0 >> 0x18) * 4)) + (arg0 & 0xFFFFFF) + 0x80000000; phi_v1 = 0; if (arg1 != 0) { do { temp_v1 = phi_v1 + 1; phi_v1 = temp_v1; if (arg4 != 0) { phi_v0->unkC = arg4; phi_v0->unkD = arg5; phi_v0->unkE = arg6; } phi_v0->unkF = arg3; phi_v0 += 0x10; } while (temp_v1 < arg1); } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AF83C.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void func_802AF83C(u32, s32, u32, s8, s32, s32, s32); // extern extern uintptr_t gSegmentTable; void func_802AF8BC(u32 arg0, s8 arg1, s32 arg2, s32 arg3, u8 arg4) { s32 temp_s2; s32 temp_s3; s32 temp_v1; u32 temp_a0; u32 temp_v0; void *phi_s0; temp_s2 = arg2 & 0xFF; temp_s3 = arg3 & 0xFF; phi_s0 = *(&gSegmentTable + ((arg0 >> 0x18) * 4)) + (arg0 & 0xFFFFFF) + 0x80000000; loop_1: temp_v0 = phi_s0->unk0; temp_a0 = phi_s0->unk4; temp_v1 = temp_v0 & 0xFF000000; if (temp_v1 != 0xB8000000) { if (temp_v1 == 0x6000000) { func_802AF8BC(temp_a0, arg1, temp_s2 & 0xFF, temp_s3 & 0xFF, arg4); phi_s0 += 8; } else { if (temp_v1 == 0x4000000) { func_802AF83C(temp_a0, (temp_v0 >> 0xA) & 0x3F, ((temp_v0 >> 0x10) & 0xFF) >> 1, arg1, temp_s2, temp_s3, arg4); } phi_s0 += 8; } goto loop_1; } } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AF8BC.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 3c3b0cede1a99430bfd3edf8d385802b94f91307 void func_802AF9F0(void *arg0, f32 arg1, void *arg2) { arg2->unk0 = arg2->unk0 - (arg0->unk0 * arg1); arg2->unk4 = arg2->unk4 - (arg0->unk4 * arg1); arg2->unk8 = arg2->unk8 - (arg0->unk8 * arg1); } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AF9F0.s") #endif #ifdef MIPS_TO_C //generated by mips_to_c commit 792017ad9d422c2467bd42686f383a5c41f41c75 f32 func_802ABE30(f32, f32, f32, u16); /* extern */ s32 func_802AC760(s16 *, f32, f32, f32, f32, s32, f32, f32, f32); /* extern */ s32 func_802ACBA4(s16 *, f32, f32, f32, f32, s32, f32, f32, f32); /* extern */ s32 func_802AD278(s16 *, f32, f32, f32, f32, s32, f32, f32, f32); /* extern */ void func_802AF9F0(f32, ? *, ?32, kartBoundingBoxCorner *); /* extern */ extern u8 D_8014F110; extern s32 D_8015F584; extern s16 D_8015F6E8; extern s16 D_8015F6EA; extern s16 D_8015F6F0; extern s16 D_8015F6F2; s32 func_802AFA34(Player *player, kartBoundingBoxCorner *corner, f32 cornerX, f32 cornerY, f32 cornerZ) { ? sp128; ? sp11C; ? sp110; ?32 sp10C; ?32 sp108; ?32 sp104; s16 sp102; s16 sp100; s16 spFE; s16 spFC; s16 spFA; s16 spF8; f32 spD4; s32 sp8C; f32 temp_f0; f32 temp_f0_2; f32 temp_f0_3; f32 temp_f0_4; f32 temp_f0_5; f32 temp_f0_6; f32 temp_f20; f32 temp_f22; f32 temp_f24; f32 temp_f26; f32 temp_f2; f32 temp_f2_2; f32 temp_f2_3; f32 temp_f2_4; f32 temp_f2_5; f32 temp_f2_6; mk64_surface_map_ram *temp_v0_4; s16 temp_v0_2; s16 temp_v1; s32 temp_f10; s32 temp_f16; s32 temp_t6; u16 temp_s0; u16 temp_v0_3; u16 temp_v1_3; u8 temp_v0; void *temp_v1_2; u16 phi_s1; s16 *phi_s7; f32 phi_f30; s32 phi_s2; sp104 = 0x447A0000; sp108 = 0x447A0000; sp10C = 0x447A0000; temp_f20 = player->boundingBoxSize; spFE = 0x1388; sp100 = 0x1388; sp102 = 0x1388; spF8 = 0; spFA = 0; spFC = 0; temp_v0 = corner->surfaceFlags; temp_f22 = corner->cornerX; temp_f24 = corner->cornerY; temp_f26 = corner->cornerZ; if (temp_v0 != 0) { phi_s7 = &spF8; if (temp_v0 != 0x20) { phi_s7 = &spF8; if (temp_v0 != 0x40) { phi_s7 = &spF8; if (temp_v0 != 0x80) { goto block_21; } if (func_802AD278(&spF8, temp_f20, temp_f22, temp_f24, temp_f26, (s32) corner->surfaceMapIndex, cornerX, cornerY, cornerZ) == 1) { temp_f0 = func_802ABE30(temp_f22, temp_f24, temp_f26, corner->surfaceMapIndex); temp_f2 = player->pos[1]; if (!(temp_f2 < temp_f0) && !((2.0f * temp_f20) < (temp_f2 - temp_f0))) { corner->cornerGroundY = temp_f0; func_802AF9F0(temp_f0, &sp11C, sp108, corner); return 1; } } phi_f30 = 2.0f; goto block_22; } if (func_802AC760(&spF8, temp_f20, temp_f22, temp_f24, temp_f26, (s32) corner->surfaceMapIndex, cornerX, cornerY, cornerZ) == 1) { temp_f0_2 = func_802ABE30(temp_f22, temp_f24, temp_f26, corner->surfaceMapIndex); temp_f2_2 = player->pos[1]; if (!(temp_f2_2 < temp_f0_2) && !((2.0f * temp_f20) < (temp_f2_2 - temp_f0_2))) { corner->cornerGroundY = temp_f0_2; func_802AF9F0(temp_f0_2, &sp128, sp10C, corner); return 1; } } phi_f30 = 2.0f; goto block_22; } if (func_802ACBA4(&spF8, temp_f20, temp_f22, temp_f24, temp_f26, (s32) corner->surfaceMapIndex, cornerX, cornerY, cornerZ) == 1) { temp_f0_3 = func_802ABE30(temp_f22, temp_f24, temp_f26, corner->surfaceMapIndex); temp_f2_3 = player->pos[1]; if (!(temp_f2_3 < temp_f0_3) && !((2.0f * temp_f20) < (temp_f2_3 - temp_f0_3))) { corner->cornerGroundY = temp_f0_3; func_802AF9F0(temp_f0_3, &sp110, sp104, corner); return 1; } } phi_f30 = 2.0f; goto block_22; } block_21: phi_s7 = &spF8; phi_f30 = 2.0f; block_22: temp_v0_2 = D_8015F6EA; temp_v1 = D_8015F6F2; temp_f10 = (s32) ((temp_f22 - (f32) temp_v0_2) / (f32) ((s32) (D_8015F6E8 - temp_v0_2) / 32)); temp_f16 = (s32) ((temp_f26 - (f32) temp_v1) / (f32) ((s32) (D_8015F6F0 - temp_v1) / 32)); if ((s32) (s16) temp_f10 < 0) { goto block_57; } if ((s32) (s16) temp_f16 < 0) { goto block_57; } if ((s32) (s16) temp_f10 >= 0x20) { goto block_57; } if ((s32) (s16) temp_f16 >= 0x20) { goto block_57; } temp_v1_2 = ((s16) ((s16) temp_f10 + ((s16) temp_f16 << 5)) * 4) + &D_8014F110; temp_v0_3 = temp_v1_2->unk2; sp8C = (s32) temp_v0_3; if (temp_v0_3 == 0) { goto block_57; } phi_s1 = temp_v1_2->unk0; phi_s2 = 0; if (sp8C > 0) { loop_34: temp_s0 = *(D_8015F584 + (phi_s1 * 2)); temp_v0_4 = &(*D_8015F580)[temp_s0]; temp_v1_3 = temp_v0_4->flags; if ((temp_v1_3 & 0x4000) != 0) { if ((corner->surfaceMapIndex != temp_s0) && (func_802AC760(phi_s7, temp_f20, temp_f22, temp_f24, temp_f26, (s32) temp_s0, cornerX, cornerY, cornerZ) == 1)) { temp_f0_4 = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); temp_f2_4 = player->pos[1]; if (!(temp_f2_4 < temp_f0_4) && !((phi_f30 * temp_f20) < (temp_f2_4 - temp_f0_4))) { spD4 = temp_f0_4; func_802AF9F0(temp_f0_4, &sp128, sp10C, corner); corner->cornerGroundY = spD4; corner->surfaceFlags = 0x40; corner->surfaceMapIndex = temp_s0; corner->surfaceType = (u8) (*D_8015F580)[temp_s0].surfaceType; if (((*D_8015F580)[temp_s0].flags & 0x1000) != 0) { corner->unk_14 = 1; return 1; } corner->unk_14 = 0; return 1; } } goto block_55; } if ((temp_v1_3 & 0x8000) != 0) { if ((temp_v0_4->gravity != 0.0f) && (corner->surfaceMapIndex != temp_s0) && (func_802AD278(phi_s7, temp_f20, temp_f22, temp_f24, temp_f26, (s32) temp_s0, cornerX, cornerY, cornerZ) == 1)) { temp_f0_5 = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); temp_f2_5 = player->pos[1]; if (!(temp_f2_5 < temp_f0_5) && !((phi_f30 * temp_f20) < (temp_f2_5 - temp_f0_5))) { corner->cornerGroundY = temp_f0_5; func_802AF9F0(temp_f0_5, &sp11C, sp108, corner); corner->cornerGroundY = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); corner->surfaceFlags = 0x80; corner->surfaceMapIndex = temp_s0; corner->surfaceType = (u8) (*D_8015F580)[temp_s0].surfaceType; return 1; } } goto block_55; } if ((temp_v0_4->gravity != 0.0f) && (corner->surfaceMapIndex != temp_s0) && (func_802ACBA4(phi_s7, temp_f20, temp_f22, temp_f24, temp_f26, (s32) temp_s0, cornerX, cornerY, cornerZ) == 1)) { temp_f0_6 = func_802ABE30(temp_f22, temp_f24, temp_f26, temp_s0 & 0xFFFF); temp_f2_6 = player->pos[1]; if (!(temp_f2_6 < temp_f0_6) && !((phi_f30 * temp_f20) < (temp_f2_6 - temp_f0_6))) { corner->cornerGroundY = temp_f0_6; func_802AF9F0(temp_f0_6, &sp110, sp104, corner); corner->surfaceFlags = 0x20; corner->surfaceMapIndex = temp_s0; corner->surfaceType = (u8) (*D_8015F580)[temp_s0].surfaceType; return 1; } } block_55: temp_t6 = (phi_s2 + 1) & 0xFFFF; phi_s1 = (phi_s1 + 1) & 0xFFFF; phi_s2 = temp_t6; if (temp_t6 >= sp8C) { goto block_56; } goto loop_34; } block_56: corner->cornerGroundY = temp_f24; corner->surfaceType = 0; block_57: return 0; } #else GLOBAL_ASM("asm/non_matchings/memory/func_802AFA34.s") #endif