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oot/src/code/ucode_disas.c
Dragorn421 ccae1f7387
Split z64.h: move various things, state, sram, gfx, jpeg, prerender, speedmeter (#1487) 
* Split z64.h more

* fix speedmeter.h (expect this kind of issue resolution to pop up eventually)

* fix z64object.h

* fix z64state.h

* fix (probably only partially) z64play.h

* fix fix speedmeter.h :)

* revert making a play header (sadge), add/split transition & transition_instances

* move stuff to cutscene, interface

* Move `TransitionCircle%` enums to `z64transition_instances.h`

* z64state.h -> z64game.h with a "this is not final" comment

* forward declare GraphicsContext in z64game.h instead of including the header file for it

* don't comment on where the forward declarations are from

reasoning:
1) it's easy to go out of sync (like this comment, it was outdated anyway)
2) any IDE can easily find the struct anyway
2023-08-15 12:21:19 -04:00

1240 lines
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Raw Blame History

#include "global.h"
typedef struct {
/* 0x00 */ u32 value;
/* 0x04 */ const char* name;
} F3dzexConst; // size = 0x8
typedef struct {
/* 0x00 */ u32 value;
/* 0x04 */ const char* setName;
/* 0x08 */ const char* unsetName;
} F3dzexFlag; // size = 0x0C
typedef struct {
/* 0x00 */ const char* name;
/* 0x04 */ u32 value;
/* 0x08 */ u32 mask;
} F3dzexRenderMode; // size = 0x0C
typedef struct {
/* 0x00 */ const char* name;
/* 0x04 */ u32 value;
} F3dzexSetModeMacroValue; // size = 0x8
typedef struct {
/* 0x00 */ const char* name;
/* 0x04 */ u32 shift;
/* 0x08 */ u32 len;
/* 0x0C */ F3dzexSetModeMacroValue values[4];
} F3dzexSetModeMacro; // size = 0x2C
typedef void (*UcodeDisasCallback)(UCodeDisas*, u32);
#define F3DZEX_CONST(name) \
{ name, #name }
#define F3DZEX_FLAG(set, unset) \
{ set, #set, #unset }
#define F3DZEX_RENDERMODE(name, mask) \
{ #name, name, mask }
#define F3DZEX_SETRENDERMACRO(name, shift, len, value0, value1, value2, value3) \
{ \
name, shift, len, { \
{ #value0, value0 }, { #value1, value1 }, { #value2, value2 }, { #value3, value3 }, \
} \
}
#define DISAS_LOG \
if (this->enableLog) \
osSyncPrintf
void* UCodeDisas_TranslateAddr(UCodeDisas* this, uintptr_t addr) {
uintptr_t physical = this->segments[SEGMENT_NUMBER(addr)] + SEGMENT_OFFSET(addr);
return PHYSICAL_TO_VIRTUAL(physical);
}
F3dzexConst sUCodeDisasGeometryModes[] = {
F3DZEX_CONST(G_ZBUFFER), F3DZEX_CONST(G_TEXTURE_ENABLE),
F3DZEX_CONST(G_SHADE), F3DZEX_CONST(G_SHADING_SMOOTH),
F3DZEX_CONST(G_CULL_FRONT), F3DZEX_CONST(G_CULL_BACK),
F3DZEX_CONST(G_FOG), F3DZEX_CONST(G_LIGHTING),
F3DZEX_CONST(G_TEXTURE_GEN), F3DZEX_CONST(G_TEXTURE_GEN_LINEAR),
F3DZEX_CONST(G_LOD),
};
F3dzexFlag sUCodeDisasMtxFlags[] = {
F3DZEX_FLAG(G_MTX_PROJECTION, G_MTX_MODELVIEW),
F3DZEX_FLAG(G_MTX_LOAD, G_MTX_MUL),
F3DZEX_FLAG(G_MTX_PUSH, G_MTX_NOPUSH),
};
typedef enum { COMBINER_A = 1, COMBINER_B, COMBINER_C, COMBINER_D } CombinerArg;
const char* UCodeDisas_GetCombineColorName(u32 value, u32 arg) {
const char* ret = "?";
switch (value) {
case G_CCMUX_COMBINED:
ret = "COMBINED";
break;
case G_CCMUX_TEXEL0:
ret = "TEXEL0";
break;
case G_CCMUX_TEXEL1:
ret = "TEXEL1";
break;
case G_CCMUX_PRIMITIVE:
ret = "PRIMITIVE";
break;
case G_CCMUX_SHADE:
ret = "SHADE";
break;
case G_CCMUX_ENVIRONMENT:
ret = "ENVIRONMENT";
break;
case 6: // G_CCMUX_CENTER, G_CCMUX_SCALE, G_CCMUX_1
ret = (arg == COMBINER_B) ? "CENTER" : (arg == COMBINER_C) ? "SCALE" : "1";
break;
case 7: // G_CCMUX_NOISE, G_CCMUX_K4, G_CCMUX_COMBINED_ALPHA, G_CCMUX_0
ret = (arg == COMBINER_A) ? "NOISE"
: (arg == COMBINER_B) ? "K4"
: (arg == COMBINER_C) ? "COMBINED_ALPHA"
: "0";
break;
default:
if (arg == COMBINER_C) {
switch (value) {
case G_CCMUX_TEXEL0_ALPHA:
ret = "TEXEL0_ALPHA";
break;
case G_CCMUX_TEXEL1_ALPHA:
ret = "TEXEL1_ALPHA";
break;
case G_CCMUX_PRIMITIVE_ALPHA:
ret = "PRIMITIVE_ALPHA";
break;
case G_CCMUX_SHADE_ALPHA:
ret = "SHADE_ALPHA";
break;
case G_CCMUX_ENV_ALPHA:
ret = "ENV_ALPHA";
break;
case G_CCMUX_LOD_FRACTION:
ret = "LOD_FRACTION";
break;
case G_CCMUX_PRIM_LOD_FRAC:
ret = "PRIM_LOD_FRAC";
break;
case G_CCMUX_K5:
ret = "K5";
break;
default:
ret = "0";
break;
}
} else {
ret = "0";
}
}
return ret;
}
const char* UCodeDisas_GetCombineAlphaName(u32 value, u32 arg) {
const char* ret = "?";
switch (value) {
case 0: // G_ACMUX_LOD_FRACTION, G_ACMUX_COMBINED
ret = (arg == COMBINER_C) ? "LOD_FRACTION" : "COMBINED";
break;
case G_ACMUX_TEXEL0:
ret = "TEXEL0";
break;
case G_ACMUX_TEXEL1:
ret = "TEXEL1";
break;
case G_ACMUX_PRIMITIVE:
ret = "PRIMITIVE";
break;
case G_ACMUX_SHADE:
ret = "SHADE";
break;
case G_ACMUX_ENVIRONMENT:
ret = "ENVIRONMENT";
break;
case 6: // G_ACMUX_PRIM_LOD_FRAC, G_ACMUX_1
ret = (arg == COMBINER_C) ? "PRIM_LOD_FRAC" : "1";
break;
case G_ACMUX_0:
ret = "0";
break;
}
return ret;
}
void UCodeDisas_Init(UCodeDisas* this) {
u32 i;
bzero(this, sizeof(UCodeDisas));
for (i = 0; i < NUM_SEGMENTS; i++) {
this->segments[i] = gSegments[i];
}
}
void UCodeDisas_Destroy(UCodeDisas* this) {
}
void UCodeDisas_SetCurUCodeImpl(UCodeDisas* this, void* ptr) {
s32 i;
for (i = 0; i < this->ucodeInfoCount; i++) {
if (ptr == this->ucodeInfo[i].ptr) {
this->ucodeType = this->ucodeInfo[i].type;
break;
}
}
if (i >= this->ucodeInfoCount) {
DISAS_LOG("マイクロコードが一致しなかった\n"); // "Microcode did not match"
this->ucodeType = UCODE_NULL;
}
}
void UCodeDisas_PrintGeometryMode(UCodeDisas* this, u32 mode) {
u32 first = true;
s32 i;
for (i = 0; i < ARRAY_COUNT(sUCodeDisasGeometryModes); i++) {
if ((sUCodeDisasGeometryModes[i].value & mode) == 0) {
continue;
}
if (first) {
} else {
DISAS_LOG("|");
}
first = false;
DISAS_LOG("%s", sUCodeDisasGeometryModes[i].name);
}
}
void UCodeDisas_PrintRenderMode(UCodeDisas* this, u32 mode) {
static F3dzexRenderMode sUCodeDisasRenderModeFlags[] = {
F3DZEX_RENDERMODE(AA_EN, 0x8),
F3DZEX_RENDERMODE(Z_CMP, 0x10),
F3DZEX_RENDERMODE(Z_UPD, 0x20),
F3DZEX_RENDERMODE(IM_RD, 0x40),
F3DZEX_RENDERMODE(CLR_ON_CVG, 0x80),
F3DZEX_RENDERMODE(CVG_DST_CLAMP, 0x300),
F3DZEX_RENDERMODE(CVG_DST_WRAP, 0x300),
F3DZEX_RENDERMODE(CVG_DST_FULL, 0x300),
F3DZEX_RENDERMODE(CVG_DST_SAVE, 0x300),
F3DZEX_RENDERMODE(ZMODE_OPA, 0xC00),
F3DZEX_RENDERMODE(ZMODE_INTER, 0xC00),
F3DZEX_RENDERMODE(ZMODE_XLU, 0xC00),
F3DZEX_RENDERMODE(ZMODE_DEC, 0xC00),
F3DZEX_RENDERMODE(CVG_X_ALPHA, 0x1000),
F3DZEX_RENDERMODE(ALPHA_CVG_SEL, 0x2000),
F3DZEX_RENDERMODE(FORCE_BL, 0x4000),
};
static const char* sBlenderInputNames[4][4] = {
{ "G_BL_CLR_IN", "G_BL_CLR_MEM", "G_BL_CLR_BL", "G_BL_CLR_FOG" },
{ "G_BL_A_IN", "G_BL_A_FOG", "G_BL_A_SHADE", "G_BL_0" },
{ "G_BL_CLR_IN", "G_BL_CLR_MEM", "G_BL_CLR_BL", "G_BL_CLR_FOG" },
{ "G_BL_1MA", "G_BL_A_MEM", "G_BL_1", "G_BL_0" },
};
s32 i;
s32 a;
s32 b;
for (i = 0; i < ARRAY_COUNT(sUCodeDisasRenderModeFlags); i++) {
if ((mode & sUCodeDisasRenderModeFlags[i].mask) != sUCodeDisasRenderModeFlags[i].value) {
continue;
}
DISAS_LOG("%s|", sUCodeDisasRenderModeFlags[i].name);
}
a = (mode >> 18) & 0x3333;
b = (mode >> 16) & 0x3333;
// clang-format off
if (this->enableLog == 0) {} else { osSyncPrintf("\nGBL_c1(%s, %s, %s, %s)|",
sBlenderInputNames[0][a >> 12 & 3], sBlenderInputNames[1][a >> 8 & 3], sBlenderInputNames[2][a >> 4 & 3], sBlenderInputNames[3][a >> 0 & 3]);
}
// clang-format on
if (this->enableLog) {
osSyncPrintf("\nGBL_c2(%s, %s, %s, %s)", sBlenderInputNames[0][b >> 12 & 3], sBlenderInputNames[1][b >> 8 & 3],
sBlenderInputNames[2][b >> 4 & 3], sBlenderInputNames[3][b >> 0 & 3]);
}
}
void UCodeDisas_PrintVertices(UCodeDisas* this, Vtx* vtx, s32 count, s32 start) {
s32 i;
for (i = 0; i < count; i++) {
if (this->geometryMode & G_LIGHTING) {
DISAS_LOG("\n{{%6d, %6d, %6d, %d, %6d, %6d, %3d, %3d, %3d, %3d}}, /* vc%d */", vtx->n.ob[0], vtx->n.ob[1],
vtx->n.ob[2], vtx->n.flag, vtx->n.tc[0], vtx->n.tc[1], vtx->n.n[0], vtx->n.n[1], vtx->n.n[2],
vtx->n.a, start + i);
} else {
DISAS_LOG("\n{{%6d, %6d, %6d, %d, %6d, %6d, %3d, %3d, %3d, %3d}}, /* vn%d */", vtx->v.ob[0], vtx->v.ob[1],
vtx->v.ob[2], vtx->v.flag, vtx->v.tc[0], vtx->v.tc[1], vtx->v.cn[0], vtx->v.cn[1], vtx->v.cn[2],
vtx->v.cn[3], start + i);
}
vtx++;
if (1) {}
}
}
void UCodeDisas_Disassemble(UCodeDisas* this, Gfx* ptr) {
u32 pad;
uintptr_t addr;
u32 rdpHalf;
u16 linkDlLow;
u8 sid;
u8 cmd;
s32 i;
u32 exit;
Gfx curGfx[1];
exit = false;
while (!exit) {
this->dlCnt++;
ptr = UCodeDisas_TranslateAddr(this, (uintptr_t)ptr);
DISAS_LOG("%08x:", ptr);
*curGfx = *ptr;
cmd = curGfx->noop.cmd;
addr = (uintptr_t)UCodeDisas_TranslateAddr(this, (uintptr_t)curGfx->noop.value.addr);
DISAS_LOG("%08x-%08x:", curGfx->words.w0, curGfx->words.w1);
for (i = 0; i < this->dlDepth; i++) {
DISAS_LOG(" ");
}
switch (cmd) {
case G_SPNOOP: {
DISAS_LOG("gsSPNoOp(),");
} break;
case G_DL: {
Gdma dma = ptr->dma;
switch (dma.par) {
case G_DL_PUSH: {
DISAS_LOG("gsSPDisplayList(0x%08x),", dma.addr);
this->dlStack[this->dlDepth++] = (Gfx*)(ptr + 1);
ptr = (Gfx*)addr - 1;
} break;
case G_DL_NOPUSH: {
DISAS_LOG("gsSPBranchList(0x%08x),", dma.addr);
ptr = (Gfx*)addr - 1;
} break;
}
} break;
case G_RDPHALF_1: {
DISAS_LOG("RDPHALF_1(0x%08x),", curGfx->dma.addr);
rdpHalf = curGfx->dma.addr;
} break;
case G_TEXRECT: {
Gtexrect rect = *(Gtexrect*)ptr;
DISAS_LOG("gsSPTextureRectangle(%d,%d,%d,%d,%d,%d,%d,%d,%d),", rect.xl, rect.yl, rect.xh, rect.yh,
rect.tile, ptr[1].words.w1 >> 16, ptr[1].words.w1 & 0xFFFF, ptr[2].words.w1 >> 16,
ptr[2].words.w1 & 0xFFFF);
ptr += 3 - 1;
this->pipeSyncRequired = true;
} break;
case G_LOAD_UCODE: {
if (curGfx->dma.len == SP_UCODE_DATA_SIZE - 1) {
DISAS_LOG("gsSPLoadUcode(0x%08x, 0x%08x),", curGfx->dma.addr, rdpHalf);
} else {
DISAS_LOG("gsSPLoadUcodeEx(0x%08x, 0x%08x, 0x%05x),", curGfx->dma.addr, rdpHalf,
curGfx->dma.len + 1);
}
UCodeDisas_SetCurUCodeImpl(this, UCodeDisas_TranslateAddr(this, curGfx->dma.addr));
this->loaducodeCnt++;
} break;
case G_ENDDL: {
DISAS_LOG("gsSPEndDisplayList(),");
if (this->dlDepth <= 0) {
exit = true;
} else {
ptr = this->dlStack[--this->dlDepth] - 1;
}
} break;
case G_SETTILE: {
Gsettile settile = ptr->settile;
DISAS_LOG("gsDPSetTile(%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d),", settile.fmt, settile.siz, settile.line,
settile.tmem, settile.tile, settile.palette, (settile.ct << 1) + settile.mt, settile.maskt,
settile.shiftt, (settile.cs << 1) + settile.ms, settile.masks, settile.shifts);
if (this->tileSyncRequired) {
DISAS_LOG("### TileSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_LOADTILE: {
Gloadtile loadtile = ptr->loadtile;
DISAS_LOG("gsDPLoadTile(%d,%d,%d,%d,%d),", loadtile.tile, loadtile.sl, loadtile.tl, loadtile.sh,
loadtile.th);
} break;
case G_LOADBLOCK: {
Gloadtile loadtile = ptr->loadtile;
DISAS_LOG("gsDPLoadBlock(%d,%d,%d,%d,%d),", loadtile.tile, loadtile.sl, loadtile.tl, loadtile.sh,
loadtile.th);
if (this->loadSyncRequired) {
DISAS_LOG("### LoadSyncが必要です。\n");
this->syncErr++;
}
this->pipeSyncRequired = true;
} break;
case G_SETTILESIZE: {
Gloadtile loadtile = ptr->loadtile;
DISAS_LOG("gsDPSetTileSize(%d,%d,%d,%d,%d),", loadtile.tile, loadtile.sl, loadtile.tl, loadtile.sh,
loadtile.th);
} break;
case G_LOADTLUT: {
Gloadtlut loadtlut = ptr->loadtlut;
DISAS_LOG("gsDPLoadTLUTCmd(%d,%d),", loadtlut.tile, loadtlut.sh >> 2);
} break;
case G_SETCOMBINE: {
Gsetcombine setcombine = ptr->setcombine;
DISAS_LOG("gsDPSetCombineLERP(%s,%s,%s,%s, %s,%s,%s,%s, %s,%s,%s,%s, %s,%s,%s,%s),",
UCodeDisas_GetCombineColorName(setcombine.a0, COMBINER_A),
UCodeDisas_GetCombineColorName(setcombine.b0, COMBINER_B),
UCodeDisas_GetCombineColorName(setcombine.c0, COMBINER_C),
UCodeDisas_GetCombineColorName(setcombine.d0, COMBINER_D),
UCodeDisas_GetCombineAlphaName(setcombine.Aa0, COMBINER_A),
UCodeDisas_GetCombineAlphaName(setcombine.Ab0, COMBINER_B),
UCodeDisas_GetCombineAlphaName(setcombine.Ac0, COMBINER_C),
UCodeDisas_GetCombineAlphaName(setcombine.Ad0, COMBINER_D),
UCodeDisas_GetCombineColorName(setcombine.a1, COMBINER_A),
UCodeDisas_GetCombineColorName(setcombine.b1, COMBINER_B),
UCodeDisas_GetCombineColorName(setcombine.c1, COMBINER_C),
UCodeDisas_GetCombineColorName(setcombine.d1, COMBINER_D),
UCodeDisas_GetCombineAlphaName(setcombine.Aa1, COMBINER_A),
UCodeDisas_GetCombineAlphaName(setcombine.Ab1, COMBINER_B),
UCodeDisas_GetCombineAlphaName(setcombine.Ac1, COMBINER_C),
UCodeDisas_GetCombineAlphaName(setcombine.Ad1, COMBINER_D));
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETOTHERMODE_H: {
static F3dzexSetModeMacro sUCodeDisasModeHMacros[] = {
F3DZEX_SETRENDERMACRO("SetAlphaDither", G_MDSFT_ALPHADITHER, 2, G_AD_PATTERN, G_AD_NOTPATTERN,
G_AD_NOISE, G_AD_DISABLE),
F3DZEX_SETRENDERMACRO("SetColorDither", G_MDSFT_RGBDITHER, 2, G_CD_MAGICSQ, G_CD_BAYER, G_CD_NOISE,
-1),
F3DZEX_SETRENDERMACRO("SetCombineKey", G_MDSFT_COMBKEY, 1, G_CK_NONE, G_CK_KEY, -1, -1),
F3DZEX_SETRENDERMACRO("SetTextureConvert", G_MDSFT_TEXTCONV, 3, G_TC_CONV, G_TC_FILTCONV, G_TC_FILT,
-1),
F3DZEX_SETRENDERMACRO("SetTextureFilter", G_MDSFT_TEXTFILT, 2, G_TF_POINT, G_TF_AVERAGE,
G_TF_BILERP, -1),
F3DZEX_SETRENDERMACRO("SetTextureLUT", G_MDSFT_TEXTLUT, 2, G_TT_NONE, G_TT_RGBA16, G_TT_IA16, -1),
F3DZEX_SETRENDERMACRO("SetTextureLOD", G_MDSFT_TEXTLOD, 1, G_TL_TILE, G_TL_LOD, -1, -1),
F3DZEX_SETRENDERMACRO("SetTextureDetail", G_MDSFT_TEXTDETAIL, 2, G_TD_CLAMP, G_TD_SHARPEN,
G_TD_DETAIL, -1),
F3DZEX_SETRENDERMACRO("SetTexturePersp", G_MDSFT_TEXTPERSP, 1, G_TP_PERSP, G_TP_NONE, -1, -1),
F3DZEX_SETRENDERMACRO("SetCycleType", G_MDSFT_CYCLETYPE, 2, G_CYC_1CYCLE, G_CYC_2CYCLE, G_CYC_COPY,
G_CYC_FILL),
F3DZEX_SETRENDERMACRO("SetColorDither", G_MDSFT_COLORDITHER, 2, G_CD_MAGICSQ, G_CD_BAYER,
G_CD_NOISE, -1),
F3DZEX_SETRENDERMACRO("PipelineMode", G_MDSFT_PIPELINE, 1, G_PM_1PRIMITIVE, G_PM_NPRIMITIVE, -1,
-1),
};
u32 len = curGfx->setothermodeH.len + 1;
u32 sft = (-curGfx->setothermodeH.sft - len) + 32;
u32 s2 = curGfx->setothermodeH.data * 1;
u32 j;
u32 k;
for (j = 0; j < ARRAY_COUNTU(sUCodeDisasModeHMacros); j++) {
if (sft == sUCodeDisasModeHMacros[j].shift) {
for (k = 0; k < ARRAY_COUNTU(sUCodeDisasModeHMacros[j].values); k++) {
if (s2 == sUCodeDisasModeHMacros[j].values[k].value) {
DISAS_LOG("gsDP%s(%s),", sUCodeDisasModeHMacros[j].name,
sUCodeDisasModeHMacros[j].values[k].name);
goto found_othermode_hi_macro;
}
}
}
}
DISAS_LOG("gsSPSetOtherModeH(%d, %d, 0x%08x),", sft, len, s2);
found_othermode_hi_macro:
this->modeH &= ((1 - (1 << len)) << sft) - 1;
this->modeH |= s2;
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETOTHERMODE_L: {
static F3dzexSetModeMacro sUCodeDisasModeLMacros[] = {
F3DZEX_SETRENDERMACRO("gsDPSetAlphaCompare", G_MDSFT_ALPHACOMPARE, 2, G_AC_NONE, G_AC_THRESHOLD,
G_AC_DITHER, -1),
F3DZEX_SETRENDERMACRO("gsDPSetDepthSource", G_MDSFT_ZSRCSEL, 1, G_ZS_PIXEL, G_ZS_PRIM, -1, -1),
};
u32 len = curGfx->setothermodeL.len + 1;
u32 sft = (-curGfx->setothermodeL.sft - len) + 32;
u32 s2 = curGfx->setothermodeL.data * 1;
u32 j;
u32 k;
if (sft == G_MDSFT_RENDERMODE) {
DISAS_LOG("\ngsDPSetRenderBlender(");
UCodeDisas_PrintRenderMode(this, s2);
DISAS_LOG("\n),");
} else {
for (j = 0; j * 1 < ARRAY_COUNTU(sUCodeDisasModeLMacros); j++) {
if (sft == sUCodeDisasModeLMacros[j].shift) {
for (k = 0; k < ARRAY_COUNTU(sUCodeDisasModeLMacros[j].values); k++) {
if (s2 == sUCodeDisasModeLMacros[j].values[k].value) {
DISAS_LOG("gsDP%s(%s),", sUCodeDisasModeLMacros[j].name,
sUCodeDisasModeLMacros[j].values[k].name);
goto found_othermode_lo_macro;
}
}
}
}
DISAS_LOG("gsSPSetOtherModeL(%d, %d, 0x%08x),", sft, len, s2);
}
found_othermode_lo_macro:
this->modeL &= (((1 - (1 << len)) << sft) - 1);
this->modeL |= s2;
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_RDPSETOTHERMODE: {
DISAS_LOG("gsDPSetOtherMode(0x%08x, 0x%08x),", curGfx->words.w0 & 0xFFFFFF, curGfx->words.w1);
this->modeH = curGfx->words.w0 & 0xFFF;
this->modeL = curGfx->words.w1;
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETSCISSOR: {
Gfillrect setscissor = ptr->fillrect;
const char* modeStr;
modeStr = (setscissor.pad == G_SC_NON_INTERLACE) ? "G_SC_NON_INTERLACE"
: (setscissor.pad == G_SC_ODD_INTERLACE) ? "G_SC_ODD_INTERLACE"
: (setscissor.pad == G_SC_EVEN_INTERLACE) ? "G_SC_EVEN_INTERLACE"
: "???";
if (setscissor.x0frac | setscissor.y0frac | setscissor.x1frac | setscissor.y1frac) {
if (1) {}
DISAS_LOG("gsDPSetScissorFrac(%s, %d, %d, %d, %d),", modeStr,
(setscissor.x0 << 2) + setscissor.x0frac, (setscissor.y0 << 2) + setscissor.y0frac,
(setscissor.x1 << 2) + setscissor.x1frac, (setscissor.y1 << 2) + setscissor.y1frac);
} else {
DISAS_LOG("gsDPSetScissor(%s, %d, %d, %d, %d),", modeStr, setscissor.x0, setscissor.y0,
setscissor.x1, setscissor.y1);
}
} break;
case G_FILLRECT: {
Gfillrect fillrect = ptr->fillrect;
DISAS_LOG("gsDPFillRectangle(%d, %d, %d, %d),", fillrect.x1, fillrect.y1, fillrect.x0, fillrect.y0);
this->pipeSyncRequired = true;
} break;
case G_SETCIMG: {
u32 fmt = ((curGfx->words.w0 & 0xE00000) >> 0x15) & 0xFF;
u32 siz = ((curGfx->words.w0 & 0x180000) >> 0x13) & 0xFF;
DISAS_LOG("gsDPSetColorImage(G_IM_FMT_%s, G_IM_SIZ_%s, %d, 0x%08x(0x%08x) ),",
(fmt == G_IM_FMT_RGBA) ? "RGBA"
: (fmt == G_IM_FMT_YUV) ? "YUV"
: (fmt == G_IM_FMT_CI) ? "CI"
: (fmt == G_IM_FMT_IA) ? "IA"
: "I",
(siz == G_IM_SIZ_4b) ? "4b"
: (siz == G_IM_SIZ_8b) ? "8b"
: (siz == G_IM_SIZ_16b) ? "16b"
: "32b",
(curGfx->dma.len & 0xFFF) + 1, curGfx->setimg.dram, addr);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETZIMG: {
DISAS_LOG("gsDPSetDepthImage(0x%08x(0x%08x)),", curGfx->setimg.dram, addr);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETTIMG: {
u32 fmt = ((curGfx->words.w0 & 0xE00000) >> 0x15) & 0xFF;
u32 siz = ((curGfx->words.w0 & 0x180000) >> 0x13) & 0xFF;
DISAS_LOG("gsDPSetTextureImage(G_IM_FMT_%s, G_IM_SIZ_%s, %d, 0x%08x(0x%08x)),",
(fmt == G_IM_FMT_RGBA) ? "RGBA"
: (fmt == G_IM_FMT_YUV) ? "YUV"
: (fmt == G_IM_FMT_CI) ? "CI"
: (fmt == G_IM_FMT_IA) ? "IA"
: "I",
(siz == G_IM_SIZ_4b) ? "4b"
: (siz == G_IM_SIZ_8b) ? "8b"
: (siz == G_IM_SIZ_16b) ? "16b"
: "32b",
(curGfx->dma.len & 0xFFF) + 1, curGfx->setimg.dram, addr);
} break;
case G_SETENVCOLOR: {
DISAS_LOG("gsDPSetEnvColor(%d, %d, %d, %d),", curGfx->setcolor.r, curGfx->setcolor.g,
curGfx->setcolor.b, curGfx->setcolor.a);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETBLENDCOLOR: {
DISAS_LOG("gsDPSetBlendColor(%d, %d, %d, %d),", curGfx->setcolor.r, curGfx->setcolor.g,
curGfx->setcolor.b, curGfx->setcolor.a);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETFOGCOLOR: {
DISAS_LOG("gsDPSetFogColor(%d, %d, %d, %d),", curGfx->setcolor.r, curGfx->setcolor.g,
curGfx->setcolor.b, curGfx->setcolor.a);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETFILLCOLOR: {
DISAS_LOG("gsDPSetFillColor(0x%08x),", curGfx->setcolor.color);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETPRIMDEPTH: {
DISAS_LOG("gsDPSetPrimDepth(%d, %d),", curGfx->setprimdepth.z, curGfx->setprimdepth.dz);
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_SETPRIMCOLOR: {
DISAS_LOG("gsDPSetPrimColor(%d, %d, %d, %d, %d, %d),", curGfx->setcolor.prim_min_level,
curGfx->setcolor.prim_level, curGfx->setcolor.r, curGfx->setcolor.g, curGfx->setcolor.b,
curGfx->setcolor.a);
} break;
case G_RDPFULLSYNC: {
DISAS_LOG("gsDPFullSync(),");
if (this->pipeSyncRequired) {
DISAS_LOG("### PipeSyncが必要です。\n");
this->syncErr++;
}
} break;
case G_RDPTILESYNC: {
DISAS_LOG("gsDPTileSync(),");
this->tileSyncRequired = false;
} break;
case G_RDPPIPESYNC: {
DISAS_LOG("gsDPPipeSync(),");
this->pipeSyncRequired = false;
} break;
case G_RDPLOADSYNC: {
DISAS_LOG("gsDPLoadSync(),");
this->loadSyncRequired = false;
} break;
case G_NOOP: {
switch (curGfx->noop.type) {
case 0: {
if (curGfx->noop.value.u32 == 0) {
DISAS_LOG("gsDPNoOp(),");
} else {
DISAS_LOG("gsDPNoOpTag(%08x),", curGfx->noop.value.u32);
}
} break;
case 1: {
DISAS_LOG("count_gsDPNoOpHere([%s:%d]),", curGfx->noop.value.str, curGfx->noop.len);
} break;
case 7: {
DISAS_LOG("count_gsDPNoOpOpenDisp([%s:%d]),", curGfx->noop.value.str, curGfx->noop.len);
} break;
case 8: {
DISAS_LOG("count_gsDPNoOpCloseDisp([%s:%d]),", curGfx->noop.value.str, curGfx->noop.len);
} break;
case 2: {
DISAS_LOG("count_gsDPNoOpString(%c%s%c, %d),", '"', curGfx->noop.value.str, '"',
curGfx->noop.len);
} break;
case 3: {
DISAS_LOG("count_gsDPNoOpWord(0x%08x, %d),", curGfx->noop.value.u32, curGfx->noop.len);
} break;
case 4: {
DISAS_LOG("count_gsDPNoOpFloat(%8.3f, %d),", curGfx->noop.value.f32, curGfx->noop.len);
} break;
case 5: {
if (curGfx->noop.len == 0) {
DISAS_LOG("count_gsDPNoOpQuiet(),");
} else {
DISAS_LOG("count_gsDPNoOpVerbose(),");
}
this->enableLog = curGfx->noop.len;
} break;
case 6: {
//! @bug arguments are not printed
DISAS_LOG("count_gsDPNoOpCallBack(%08x,%d),");
((UcodeDisasCallback)curGfx->noop.value.callback)(this, curGfx->noop.len);
} break;
default: {
DISAS_LOG("gsDPNoOpTag3(%02x, %08x, %04x),", curGfx->noop.type, curGfx->noop.value.u32,
curGfx->noop.len);
} break;
}
} break;
default: {
switch (this->ucodeType) {
case UCODE_F3DZEX:
case UCODE_UNK: {
switch (cmd) {
case G_MTX: {
Gdma2 gmtx = ptr->dma2;
u32 params;
MtxF mtxF;
s32 j = 0;
DISAS_LOG("gsSPMatrix(0x%08x(%08x), 0", gmtx.addr, addr);
params = gmtx.par ^ G_MTX_PUSH;
for (; j != ARRAY_COUNT(sUCodeDisasMtxFlags); j++) {
DISAS_LOG("|%s", (sUCodeDisasMtxFlags[j].value & params)
? sUCodeDisasMtxFlags[j].setName
: sUCodeDisasMtxFlags[j].unsetName);
}
DISAS_LOG("),", gmtx.addr); //! @bug gmtx.addr shouldn't be here
if (this->enableLog >= 2) {
MtxConv_L2F(&mtxF, (Mtx*)addr);
DISAS_LOG("\n");
//! @bug %.04x.%04x is a typo, should be %04x.%04x
// clang-format off
DISAS_LOG(
"/ %04x.%04x %04x.%04x %04x.%04x %.04x.%04x \\/ %12.6f %12.6f %12.6f %12.6f \\\n"
"| %04x.%04x %04x.%04x %04x.%04x %.04x.%04x || %12.6f %12.6f %12.6f %12.6f |\n"
"| %04x.%04x %04x.%04x %04x.%04x %.04x.%04x || %12.6f %12.6f %12.6f %12.6f |\n"
"\\ %04x.%04x %04x.%04x %04x.%04x %.04x.%04x /\\ %12.6f %12.6f %12.6f %12.6f /\n",
((Mtx*)addr)->intPart[0][0], ((Mtx*)addr)->fracPart[0][0],
((Mtx*)addr)->intPart[1][0], ((Mtx*)addr)->fracPart[1][0],
((Mtx*)addr)->intPart[2][0], ((Mtx*)addr)->fracPart[2][0],
((Mtx*)addr)->intPart[3][0], ((Mtx*)addr)->fracPart[3][0],
mtxF.mf[0][0], mtxF.mf[1][0], mtxF.mf[2][0], mtxF.mf[3][0],
((Mtx*)addr)->intPart[0][1], ((Mtx*)addr)->fracPart[0][1],
((Mtx*)addr)->intPart[1][1], ((Mtx*)addr)->fracPart[1][1],
((Mtx*)addr)->intPart[2][1], ((Mtx*)addr)->fracPart[2][1],
((Mtx*)addr)->intPart[3][1], ((Mtx*)addr)->fracPart[3][1],
mtxF.mf[0][1], mtxF.mf[1][1], mtxF.mf[2][1], mtxF.mf[3][1],
((Mtx*)addr)->intPart[0][2], ((Mtx*)addr)->fracPart[0][2],
((Mtx*)addr)->intPart[1][2], ((Mtx*)addr)->fracPart[1][2],
((Mtx*)addr)->intPart[2][2], ((Mtx*)addr)->fracPart[2][2],
((Mtx*)addr)->intPart[3][2], ((Mtx*)addr)->fracPart[3][2],
mtxF.mf[0][2], mtxF.mf[1][2], mtxF.mf[2][2], mtxF.mf[3][2],
((Mtx*)addr)->intPart[0][3], ((Mtx*)addr)->fracPart[0][3],
((Mtx*)addr)->intPart[1][3], ((Mtx*)addr)->fracPart[1][3],
((Mtx*)addr)->intPart[2][3], ((Mtx*)addr)->fracPart[2][3],
((Mtx*)addr)->intPart[3][3], ((Mtx*)addr)->fracPart[3][3],
mtxF.mf[0][3], mtxF.mf[1][3], mtxF.mf[2][3], mtxF.mf[3][3]);
// clang-format on
}
} break;
case G_VTX: {
u32 numv = curGfx->words.w0;
u32 vbidx;
numv >>= 12;
numv &= 0xFF;
vbidx = (curGfx->vtx.par >> 1) - numv;
DISAS_LOG("gsSPVertex(0x%08x(0x%08x), %d, %d),", curGfx->vtx.addr, addr, numv, vbidx);
this->vtxCnt += numv;
this->spvtxCnt++;
if (this->enableLog >= 2) {
UCodeDisas_PrintVertices(this, (Vtx*)addr, numv, vbidx);
}
} break;
case G_MODIFYVTX: {
DISAS_LOG("gsSPModifyVertex(%d, %s, %08x),", curGfx->dma.par,
(curGfx->dma.len == G_MWO_POINT_RGBA) ? "G_MWO_POINT_RGBA"
: (curGfx->dma.len == G_MWO_POINT_ST) ? "G_MWO_POINT_ST"
: (curGfx->dma.len == G_MWO_POINT_XYSCREEN) ? "G_MWO_POINT_XYSCREEN"
: (curGfx->dma.len == G_MWO_POINT_ZSCREEN) ? "G_MWO_POINT_ZSCREEN"
: "G_MWO_POINT_????",
curGfx->dma.addr);
this->vtxCnt += curGfx->dma.par;
this->spvtxCnt++;
} break;
case G_TRI1: {
Gtri gtri = ptr->tri;
Tri tri = gtri.tri;
DISAS_LOG("gsSP1Triangle(%d, %d, %d),", tri.v[0] / 2, tri.v[1] / 2, tri.v[2] / 2);
this->tri1Cnt++;
this->pipeSyncRequired = true;
} break;
case G_LINE3D: {
if (curGfx->line.wd == 0) {
DISAS_LOG("gsSPLine3D(%d, %d),", curGfx->line.v0, curGfx->line.v1);
} else {
DISAS_LOG("gsSPLineW3D(%d, %d, %d),", curGfx->line.v0, curGfx->line.v1,
curGfx->line.wd);
}
this->lineCnt++;
this->pipeSyncRequired = true;
} break;
case G_TRI2: {
Gtri2 tri2 = ptr->tri2;
u32 v0, v1, v2;
u32 v3, v4, v5;
v0 = tri2.tri1.v[0] / 2;
v1 = tri2.tri1.v[1] / 2;
v2 = tri2.tri1.v[2] / 2;
v3 = tri2.tri2.v[0] / 2;
v4 = tri2.tri2.v[1] / 2;
v5 = tri2.tri2.v[2] / 2;
DISAS_LOG("gsSP2Triangles(%d, %d, %d, 0, %d, %d, %d, 0),", v0, v1, v2, v3, v4, v5);
this->tri2Cnt++;
this->pipeSyncRequired = true;
} break;
case G_QUAD: {
Gquad quad = ptr->quad;
u32 v0, v1, v2, v3;
v0 = quad.tri1.v[0] / 2;
v1 = quad.tri1.v[1] / 2;
v2 = quad.tri1.v[2] / 2;
v3 = quad.tri2.v[2] / 2;
DISAS_LOG("gsSP1Quadrangle(%d, %d, %d, %d, 0),", v0, v1, v2, v3);
this->quadCnt++;
this->pipeSyncRequired = true;
} break;
case G_CULLDL: {
DISAS_LOG("gsSPCullDisplayList(%d, %d),", (curGfx->cull.vstart_x2) / 2,
(curGfx->cull.vend_x2) / 2);
} break;
case G_BRANCH_Z: {
addr = (uintptr_t)UCodeDisas_TranslateAddr(this, rdpHalf);
DISAS_LOG("gsSPBranchLessZraw(0x%08x(0x%08x), %d, 0x%08x),", rdpHalf, addr,
(curGfx->words.w0 & 0xFFF) / 2, curGfx->words.w1);
ptr = (Gfx*)addr - 1;
} break;
case G_TEXTURE: {
Gtexture texture = ptr->texture;
if (texture.lodscale == 0) {
DISAS_LOG("gsSPTexture(%d, %d, %d, %d, %s),", texture.s, texture.t, texture.level,
texture.tile, texture.on ? "G_ON" : "G_OFF");
} else {
DISAS_LOG("gsSPTextureL(%d, %d, %d, %d, %d, %s),", texture.s, texture.t,
texture.level, texture.lodscale, texture.tile,
texture.on ? "G_ON" : "G_OFF");
}
} break;
case G_POPMTX: {
Gpopmtx popmtx = ptr->popmtx;
if (popmtx.param / 64 == 1) {
DISAS_LOG("gsSPPopMatrix(G_MTX_MODELVIEW),");
} else {
DISAS_LOG("gsSPPopMatrixN(G_MTX_MODELVIEW, %d),", popmtx.param / 64);
}
} break;
case G_GEOMETRYMODE: {
u32 clearbits = curGfx->words.w0 & 0xFFFFFF;
u32 setbits = curGfx->words.w1 & 0xFFFFFF;
if (clearbits == 0) {
DISAS_LOG("gsSPLoadGeometryMode(");
UCodeDisas_PrintGeometryMode(this, setbits);
DISAS_LOG("),");
} else if (setbits == 0) {
DISAS_LOG("gsSPClearGeometryMode(");
UCodeDisas_PrintGeometryMode(this, ~clearbits);
DISAS_LOG("),");
} else if (clearbits == 0xFFFFFF) {
DISAS_LOG("gsSPSetGeometryMode(");
UCodeDisas_PrintGeometryMode(this, setbits);
DISAS_LOG("),");
} else {
DISAS_LOG("gsSPGeometryMode(");
UCodeDisas_PrintGeometryMode(this, ~clearbits);
DISAS_LOG(", ");
UCodeDisas_PrintGeometryMode(this, setbits);
DISAS_LOG("),");
}
this->geometryMode &= clearbits;
this->geometryMode |= setbits;
break; // this break needs to be inside, but the other cases need their breaks to be
// outside...
}
case G_MOVEWORD: {
u32 pad;
Gdma dma = ptr->dma;
Gmovewd movewd = ptr->movewd;
movewd.index = dma.par;
movewd.offset = dma.len;
movewd.data = dma.addr;
switch (movewd.index) {
case G_MW_SEGMENT: {
DISAS_LOG("gsSPSegment(%d, 0x%08x),", movewd.offset / 4, movewd.data);
this->segments[movewd.offset / 4] = movewd.data & 0xFFFFFF;
} break;
case G_MW_CLIP: {
DISAS_LOG("gsSPClipRatio(FRUSTRATIO_%d), ",
(movewd.data != 0) ? movewd.data : -movewd.data);
ptr += 4 - 1;
} break;
case G_MW_NUMLIGHT: {
DISAS_LOG("gsSPNumLights(%d), ", movewd.data / 24);
} break;
case G_MW_LIGHTCOL: {
DISAS_LOG("gsSPLightColor(%d, %d), ", ((movewd.offset & 0xF0) >> 5) + 1,
movewd.data);
ptr += 2 - 1;
} break;
case G_MW_FOG: {
DISAS_LOG("gsSPFogFactor(%d, %d),", movewd.data >> 16, movewd.data & 0xFFFF);
} break;
case G_MW_PERSPNORM: {
DISAS_LOG("gsSPPerspNormalize(%d),", movewd.data);
} break;
default: {
DISAS_LOG("gsMoveWd(%d, %d, %d), ", movewd.index, movewd.offset, movewd.data);
} break;
}
} break;
case G_MOVEMEM: {
Gmovemem movemem = ptr->movemem;
Vp_t* vp = (Vp_t*)addr;
switch (movemem.index) {
case G_MV_VIEWPORT: {
DISAS_LOG("gsSPViewport(0x%08x(0x%08x)),", movemem.data, vp);
DISAS_LOG("\t# vscale=[%d %d %d %d], ", vp->vscale[0], vp->vscale[1],
vp->vscale[2], vp->vscale[3]);
DISAS_LOG("vtrans=[%d %d %d %d] ", vp->vtrans[0], vp->vtrans[1], vp->vtrans[2],
vp->vtrans[3]);
} break;
case G_MV_MATRIX: {
DISAS_LOG("gsSPForceMatrix(0x%08x),", movemem.data);
ptr += 2 - 1;
} break;
case G_MV_LIGHT: {
switch (movemem.offset * 8) {
case G_MVO_LOOKATX: {
DISAS_LOG("gsSPLookAtX(0x%08x),", movemem.data);
} break;
case G_MVO_LOOKATY: {
DISAS_LOG("gsSPLookAtY(0x%08x),", movemem.data);
} break;
default: {
DISAS_LOG("gsSPLight(0x%08x,%d),", movemem.data,
(movemem.offset * 8 - 0x18) / 0x18);
} break;
}
} break;
default: {
DISAS_LOG("gsMoveMem(0x%08x, %d, %d, %d),", movemem.data,
((movemem.size >> 3) + 1) * 8, movemem.index, movemem.offset * 8);
} break;
}
} break;
default: {
DISAS_LOG("AnyDisplayList(),");
} break;
}
} break;
case UCODE_S2DEX: {
switch (cmd) {
case G_BG_COPY: {
Gwords words = ptr->words;
DISAS_LOG("gsSPBgRectCopy(0x%08x(0x%08x)),", words.w1, addr);
this->pipeSyncRequired = true;
} break;
case G_BG_1CYC: {
Gwords words = ptr->words;
DISAS_LOG("gsSPBgRect1Cyc(0x%08x(0x%08x)),", words.w1, addr);
this->pipeSyncRequired = true;
} break;
case G_OBJ_SPRITE: {
Gwords words = ptr->words;
DISAS_LOG("gsSPObjSprite(0x%08x(0x%08x)),", words.w1, addr);
this->pipeSyncRequired = true;
} break;
case G_OBJ_RECTANGLE: {
Gwords words = ptr->words;
DISAS_LOG("gsSPObjRectangle(0x%08x(0x%08x)),", words.w1, addr);
this->pipeSyncRequired = true;
} break;
case G_OBJ_RECTANGLE_R: {
Gwords words = ptr->words;
DISAS_LOG("gsSPObjRectangleR(0x%08x(0x%08x)),", words.w1, addr);
this->pipeSyncRequired = true;
} break;
case G_RDPHALF_0: {
DISAS_LOG("RDPHALF_0(0x%02x, 0x%08x, 0x%04x),", curGfx->dma.par, curGfx->dma.addr,
curGfx->dma.len);
sid = curGfx->dma.par;
rdpHalf = curGfx->dma.addr;
linkDlLow = curGfx->dma.len;
} break;
case G_OBJ_MOVEMEM: {
Gdma dma = ptr->dma;
if (dma.par == 23) {
DISAS_LOG("gsSPObjMatrix(0x%08x(0x%08x)),", dma.addr, addr);
} else {
DISAS_LOG("gsSPObjSubMatrix(0x%08x(0x%08x)),", dma.addr, addr);
}
} break;
case G_OBJ_LOADTXTR: {
Gdma dma = ptr->dma;
DISAS_LOG("gsSPObjLoadTxtr(0x%08x(0x%08x)),", dma.addr, addr);
} break;
case G_OBJ_LDTX_SPRITE: {
Gdma dma = ptr->dma;
DISAS_LOG("gsSPObjLoadTxSprite(0x%08x(0x%08x)),", dma.addr, addr);
} break;
case G_OBJ_LDTX_RECT: {
Gdma dma = ptr->dma;
DISAS_LOG("gsSPObjLoadTxRect(0x%08x(0x%08x)),", dma.addr, addr);
} break;
case G_OBJ_LDTX_RECT_R: {
Gdma dma = ptr->dma;
DISAS_LOG("gsSPObjLoadTxRectR(0x%08x(0x%08x)),", dma.addr, addr);
} break;
case G_SELECT_DL: {
Gdma dma = ptr->dma;
uintptr_t dlAddr =
(uintptr_t)UCodeDisas_TranslateAddr(this, (dma.len << 16) | (linkDlLow));
uintptr_t dmaAddr = dma.addr;
if (dma.par == 0) {
DISAS_LOG("gsSPSelectDL(0x%08x, %d, 0x%08x, 0x%08x),", dlAddr, sid, rdpHalf,
dmaAddr);
} else {
DISAS_LOG("gsSPSelectBranchDL(0x%08x, %d, 0x%08x, 0x%08x),", dlAddr, sid, rdpHalf,
dmaAddr);
}
} break;
case G_MOVEWORD: {
u32 pad[2];
Gmovewd movewd = ptr->movewd;
switch (movewd.index) {
case 6: {
u32 segId = movewd.offset / 4;
DISAS_LOG("gsSPSegment(%d, 0x%08x),", segId, movewd.data);
this->segments[segId] = movewd.data & 0xFFFFFF;
} break;
case 8: {
DISAS_LOG("gsSPSetStatus(0x%08x, 0x%08x),", movewd.offset, movewd.data);
} break;
default: {
DISAS_LOG("gsMoveWd(%d, %d, %d), ", movewd.index, movewd.offset, movewd.data);
} break;
}
} break;
case G_OBJ_RENDERMODE: {
Gdma dma = ptr->dma;
DISAS_LOG("gsSPObjRenderMode(0x%08x),", dma.addr);
} break;
default: {
DISAS_LOG("AnyDisplayList(),");
} break;
}
}
}
} break;
}
DISAS_LOG("\n");
ptr++;
}
}
void UCodeDisas_RegisterUCode(UCodeDisas* this, s32 count, UCodeInfo* ucodeArray) {
this->ucodeInfoCount = count;
this->ucodeInfo = ucodeArray;
}
void UCodeDisas_SetCurUCode(UCodeDisas* this, void* ptr) {
UCodeDisas_SetCurUCodeImpl(this, ptr);
}
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