#include "global.h" Gfx D_8012AFB0[] = { gsDPPipeSync(), gsDPSetCycleType(G_CYC_FILL), gsDPSetColorImage(G_IM_FMT_RGBA, G_IM_SIZ_16b, 320, 0x0F000000), gsDPSetFillColor((GPACK_RGBA5551(65, 65, 65, 1) << 16) | GPACK_RGBA5551(65, 65, 65, 1)), gsDPFillRectangle(0, 0, 319, 239), gsDPPipeSync(), gsDPSetFillColor((GPACK_RGBA5551(65, 65, 255, 1) << 16) | GPACK_RGBA5551(65, 65, 255, 1)), gsDPFillRectangle(20, 20, 300, 220), gsDPPipeSync(), gsSPEndDisplayList(), }; Gfx D_8012B000[] = { gsDPPipeSync(), gsSPTexture(0x8000, 0x8000, 0, G_TX_RENDERTILE, G_ON), gsSPClearGeometryMode(G_ZBUFFER | G_SHADE | G_CULL_BOTH | G_FOG | G_LIGHTING | G_TEXTURE_GEN | G_TEXTURE_GEN_LINEAR | G_LOD | G_SHADING_SMOOTH), gsDPSetCombineMode(G_CC_DECALRGB, G_CC_DECALRGB), gsDPSetOtherMode(G_AD_DISABLE | G_CD_MAGICSQ | G_CK_NONE | G_TC_FILT | G_TF_BILERP | G_TT_NONE | G_TL_TILE | G_TD_CLAMP | G_TP_PERSP | G_CYC_1CYCLE | G_PM_1PRIMITIVE, G_AC_NONE | G_ZS_PIXEL | G_RM_AA_OPA_SURF | G_RM_AA_OPA_SURF2), gsSPEndDisplayList(), }; #ifdef NON_EQUIVALENT // The general control flow is correct and nothing is especially out of order but there are // many small reoderings and regalloc all over so functional equivalence cannot be verified // The first loop is down to regalloc. The second needs work. void TransitionUnk_InitGraphics(TransitionUnk* this) { s32 pad; s32 pad2; s32 pad3; Vtx_t* vtx2; s32 frame; s32 rowTex; s32 row; Gfx* gfx; Vtx* vtx; s32 col; s32 colTex; guMtxIdent(&this->modelView); guMtxIdent(&this->unk_98); guOrtho(&this->projection, 0.0f, SCREEN_WIDTH, SCREEN_HEIGHT, 0.0f, -1000.0f, 1000.0f, 1.0f); for (frame = 0; frame < 2; frame++) { this->frame = frame; vtx = (frame == 0) ? this->vtxFrame1 : this->vtxFrame2; for (colTex = 0, col = 0; col < this->col + 1; colTex += 0x20, col++) { for (rowTex = 0, row = 0; row < this->row + 1; rowTex += 0x20, row++) { vtx2 = &vtx->v; vtx++; vtx2->tc[0] = rowTex << 6; vtx2->ob[0] = row * 0x20; vtx2->ob[1] = col * 0x20; vtx2->ob[2] = -5; vtx2->flag = 0; vtx2->tc[1] = colTex << 6; vtx2->cn[0] = 0; vtx2->cn[1] = 0; vtx2->cn[2] = 120; vtx2->cn[3] = 255; } } } gfx = this->gfx; for (col = 0, colTex = 0; col < this->col; col++, colTex += 0x20) { gSPVertex(gfx++, SEGMENT_ADDR(0xA, col * (this->row + 1) * sizeof(Vtx)), this->row + 1, 0); for (row = 0, rowTex = 0; row < this->row; row++, rowTex += 0x20) { gDPPipeSync(gfx++); gDPSetTextureImage(gfx++, G_IM_FMT_RGBA, G_IM_SIZ_16b, SCREEN_WIDTH, SEGMENT_ADDR(0xB, 0)); gDPSetTile(gfx++, G_IM_FMT_RGBA, G_IM_SIZ_16b, 9, 0x0000, G_TX_LOADTILE, 0, G_TX_NOMIRROR | G_TX_WRAP, G_TX_NOMASK, G_TX_NOLOD, G_TX_NOMIRROR | G_TX_WRAP, G_TX_NOMASK, G_TX_NOLOD); gDPLoadSync(gfx++); gDPLoadTile(gfx++, G_TX_LOADTILE, rowTex, colTex, rowTex + 0x20, colTex + 0x20); gDPPipeSync(gfx++); gDPSetTile(gfx++, G_IM_FMT_RGBA, G_IM_SIZ_16b, 9, 0x0000, G_TX_RENDERTILE, 0, G_TX_NOMIRROR | G_TX_WRAP, G_TX_NOMASK, G_TX_NOLOD, G_TX_NOMIRROR | G_TX_WRAP, G_TX_NOMASK, G_TX_NOLOD); gDPSetTileSize(gfx++, G_TX_RENDERTILE, rowTex, colTex, rowTex + 0x20, colTex + 0x20); gSP1Quadrangle(gfx++, row, row + 1, row + this->row, row + this->row + 1, 0); } } gDPPipeSync(gfx++); gSPEndDisplayList(gfx++); LOG("this->col * (1 + this->row * (1 + 7 + 1)) + 1 + 1", this->col * (1 + this->row * 9) + 2, "%d", "../z_fbdemo.c", 144); LOG("gp - this->gfxtbl", gfx - this->gfx, "%d", "../z_fbdemo.c", 145); } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_fbdemo/TransitionUnk_InitGraphics.s") #endif void TransitionUnk_InitData(TransitionUnk* this) { s32 col; s32 row; for (col = 0; col < this->col + 1; col++) { for (row = 0; row < this->row + 1; row++) { (this->unk_0C + row + col * (this->row + 1))->unk_0 = row * 32; (this->unk_0C + row + col * (this->row + 1))->unk_4 = col * 32; } } } void TransitionUnk_Destroy(TransitionUnk* this) { osSyncPrintf("fbdemo_cleanup(%08x)\n", this); osSyncPrintf("msleep(100);\n"); Sleep_Msec(100); if (this->unk_0C != NULL) { SystemArena_FreeDebug(this->unk_0C, "../z_fbdemo.c", 180); this->unk_0C = NULL; } if (this->vtxFrame1 != NULL) { SystemArena_FreeDebug(this->vtxFrame1, "../z_fbdemo.c", 181); this->vtxFrame1 = NULL; } if (this->vtxFrame2 != NULL) { SystemArena_FreeDebug(this->vtxFrame2, "../z_fbdemo.c", 182); this->vtxFrame2 = NULL; } if (this->gfx != NULL) { SystemArena_FreeDebug(this->gfx, "../z_fbdemo.c", 183); this->gfx = NULL; } } TransitionUnk* TransitionUnk_Init(TransitionUnk* this, s32 row, s32 col) { osSyncPrintf("fbdemo_init(%08x, %d, %d)\n", this, row, col); bzero(this, sizeof(*this)); this->frame = 0; this->row = row; this->col = col; this->unk_0C = SystemArena_MallocDebug((row + 1) * sizeof(TransitionUnkData) * (col + 1), "../z_fbdemo.c", 195); this->vtxFrame1 = SystemArena_MallocDebug((row + 1) * sizeof(Vtx) * (col + 1), "../z_fbdemo.c", 196); this->vtxFrame2 = SystemArena_MallocDebug((row + 1) * sizeof(Vtx) * (col + 1), "../z_fbdemo.c", 197); this->gfx = SystemArena_MallocDebug((this->col * (1 + this->row * 9) + 2) * sizeof(Gfx), "../z_fbdemo.c", 198); if (this->unk_0C == NULL || this->vtxFrame1 == NULL || this->vtxFrame2 == NULL || this->gfx == NULL) { osSyncPrintf("fbdemo_init allocation error\n"); if (this->unk_0C != NULL) { SystemArena_FreeDebug(this->unk_0C, "../z_fbdemo.c", 202); this->unk_0C = NULL; } if (this->vtxFrame1 != NULL) { SystemArena_FreeDebug(this->vtxFrame1, "../z_fbdemo.c", 203); this->vtxFrame1 = NULL; } if (this->vtxFrame2 != NULL) { SystemArena_FreeDebug(this->vtxFrame2, "../z_fbdemo.c", 204); this->vtxFrame2 = NULL; } if (this->gfx != NULL) { SystemArena_FreeDebug(this->gfx, "../z_fbdemo.c", 205); this->gfx = NULL; } return NULL; } TransitionUnk_InitGraphics(this); TransitionUnk_InitData(this); this->frame = 0; return this; } void TransitionUnk_SetData(TransitionUnk* this) { s32 col; Vtx* vtx; s32 row; for (col = 0; col < this->col + 1; col++) { for (row = 0; row < this->row + 1; row++) { vtx = (this->frame == 0) ? this->vtxFrame1 : this->vtxFrame2; (vtx + row + col * (this->row + 1))->v.ob[0] = (this->unk_0C + row + col * (this->row + 1))->unk_0; vtx = (this->frame == 0) ? this->vtxFrame1 : this->vtxFrame2; (vtx + row + col * (this->row + 1))->v.ob[1] = (this->unk_0C + row + col * (this->row + 1))->unk_4; } } } void TransitionUnk_Draw(TransitionUnk* this, Gfx** gfxP) { Gfx* gfx = *gfxP; gSPDisplayList(gfx++, D_8012B000); TransitionUnk_SetData(this); gSPMatrix(gfx++, &this->projection, G_MTX_NOPUSH | G_MTX_LOAD | G_MTX_PROJECTION); gSPMatrix(gfx++, &this->modelView, G_MTX_NOPUSH | G_MTX_LOAD | G_MTX_MODELVIEW); gSPSegment(gfx++, 0xA, this->frame == 0 ? this->vtxFrame1 : this->vtxFrame2); gSPSegment(gfx++, 0xB, this->zBuffer); gSPDisplayList(gfx++, D_8012B000); gSPDisplayList(gfx++, this->gfx); gDPPipeSync(gfx++); this->frame ^= 1; *gfxP = gfx; } void TransitionUnk_Update(TransitionUnk* this) { f32 temp_f00; f32 temp_f12; s32 col; f32 phi_f14; s32 row; for (col = 0; col < this->col + 1; col++) { for (row = 0; row < this->row + 1; row++) { temp_f00 = (this->unk_0C + row + col * (this->row + 1))->unk_0 - (this->unk_0C + 5 + 4 * (this->row + 1))->unk_0; temp_f12 = (this->unk_0C + row + col * (this->row + 1))->unk_4 - (this->unk_0C + 5 + 4 * (this->row + 1))->unk_4; phi_f14 = (SQ(temp_f00) + SQ(temp_f12)) / 100.0f; if (phi_f14 != 0.0f) { if (phi_f14 < 1.0f) { phi_f14 = 1.0f; } (this->unk_0C + row + col * (this->row + 1))->unk_0 -= temp_f00 / phi_f14; (this->unk_0C + row + col * (this->row + 1))->unk_4 -= temp_f12 / phi_f14; } } } } void func_800B23E8(TransitionUnk* this) { } s32 func_800B23F0(TransitionUnk* this) { return 0; }