Game-Decompilation/CTR-ModSDK
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This commit is contained in:
Niko 2023-11-09 11:17:52 -05:00
parent 2ac67fd2d0
commit 600160acff
4 changed files with 148 additions and 237 deletions
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2
decompile/General/MATH/MATH_Cos.c
View File

@ -2,5 +2,5 @@
int DECOMP_MATH_Cos(unsigned int angle)
{
return MATH_Sin(ANG_MODULO_TWO_PI(angle + ANG_HALF_PI));
return DECOMP_MATH_Sin(ANG_MODULO_TWO_PI(angle + ANG_HALF_PI));
}

377
decompile/General/TitleFlag/TitleFlag_t14_DrawSelf.c
View File

@ -1,7 +1,7 @@
#include <common.h>
#ifdef REBUILD_PC
u_char auStack_88 [96];
u_char auStack_88[96];
int scratchpadBuf[0x1000];
#endif
@ -9,41 +9,38 @@ void DECOMP_TitleFlag_DrawSelf()
{
char bVar1;
short sVar2;
u_long *puVar3;
u_long* puVar3;
u_char uVar4;
int iVar5;
int iVar6;
int iVar7;
int iVar8;
struct DB *psVar9;
struct DB* psVar9;
u_int uVar10;
SVECTOR *pSVar11;
SVECTOR* pSVar11;
u_int uVar12;
int iVar13;
u_int *puVar14;
u_int* puVar14;
int iVar15;
u_int uVar16;
SVECTOR *r0;
SVECTOR* r0;
int iVar17;
u_int uVar18;
u_int uVar19;
u_int *puVar20;
long *r0_00;
u_int *puVar21;
u_int *puVar22;
u_int *puVar23;
u_int* puVar20;
long* r0_00;
u_int* puVar21;
u_int* puVar23;
int iVar24;
u_int uVar25;
u_char *puVar26;
u_char *puVar27;
u_char* puVar27;
int iVar28;
struct GameTracker* gGT = sdata->gGT;
#ifndef REBUILD_PC
u_char auStack_88 [96];
#endif
puVar26 = &sdata->langBufferSize;
#ifndef REBUILD_PC
u_char auStack_88[96];
#endif
puVar27 = auStack_88;
if (sdata->TitleFlag_CanDraw == 0)
@ -58,7 +55,7 @@ void DECOMP_TitleFlag_DrawSelf()
sdata->TitleFlag_LoadingTextAnimFrame = 0;
}
// temporary test for PC port "LOADING..."
// temporary test for PC port "LOADING..."
#ifndef REBUILD_PS1
if (sdata->TitleFlag_LoadingTextAnimFrame < 0) goto LAB_80044568;
#endif
@ -67,14 +64,14 @@ void DECOMP_TitleFlag_DrawSelf()
DECOMP_TitleFlag_DrawLoadingString();
LAB_80044568:
sdata->TitleFlag_CopyLoadStage = sdata->Loading.stage;
puVar3 = (u_int *)DECOMP_TitleFlag_GetOT();
puVar3 = (u_int*)DECOMP_TitleFlag_GetOT();
gte_SetRotMatrix(&data.matrixTitleFlag);
gte_SetTransMatrix(&data.matrixTitleFlag);
gte_SetGeomOffset(0x100,0x78);
gte_SetGeomOffset(0x100, 0x78);
#ifndef REBUILD_PC
#define gte_ldH( r0 ) __asm__ volatile ( \
#define gte_ldH( r0 ) __asm__ volatile ( \
"lhu $12, 0( %0 );" \
"ctc2 $12, $31;" \
: \
@ -86,17 +83,17 @@ LAB_80044568:
iVar28 = data.checkerFlagVariables[3] * gGT->elapsedTimeMS;
puVar20 = 0;
#ifdef REBUILD_PC
r0_00 = &scratchpadBuf[0];
memset(&scratchpadBuf[0], 0, 0x1000*4);
memset(&scratchpadBuf[0], 0, 0x1000 * 4);
memset(&auStack_88[0], 0, 96);
#else
r0_00 = 0x1f800000;
#endif
uVar25 = 1;
uVar18 = *(int *)(puVar26 + 0x4ec) >> 5;
*(u_int *)(puVar27 + 0x4c) = uVar18;
uVar18 = sdata->TitleFlag_ElapsedTime >> 5;
*(u_int*)(puVar27 + 0x4c) = uVar18;
data.checkerFlagVariables[4] = data.checkerFlagVariables[4] + iVar28;
uVar16 = (int)data.checkerFlagVariables[4] >> 5;
@ -104,252 +101,164 @@ LAB_80044568:
{
data.checkerFlagVariables[4] = data.checkerFlagVariables[4] & 0x1ffff;
uVar16 = (int)data.checkerFlagVariables[4] >> 5;
data.checkerFlagVariables[0] = data.checkerFlagVariables[0] + 0x200;
uVar10 = *(int*)&data.trigApprox[data.checkerFlagVariables[0] & 0x3ff];
if ((data.checkerFlagVariables[0] & 0x400) == 0)
{
uVar10 = uVar10 << 0x10;
}
iVar28 = (int)uVar10 >> 0x10;
if ((data.checkerFlagVariables[0] & 0x800) != 0)
{
iVar28 = -iVar28;
}
// += 45 degrees
data.checkerFlagVariables[0] += 0x200;
iVar28 = DECOMP_MATH_Sin(data.checkerFlagVariables[0]);
data.checkerFlagVariables[1] = ((iVar28 + 0xfff) * 0x20 >> 0xd) + 0x96;
// += 18 degrees
data.checkerFlagVariables[2] = data.checkerFlagVariables[2] + 200;
uVar10 = *(int*)&data.trigApprox[data.checkerFlagVariables[2] & 0x3ff];
if ((data.checkerFlagVariables[2] & 0x400) == 0)
{
uVar10 = uVar10 << 0x10;
}
iVar28 = (int)uVar10 >> 0x10;
if ((data.checkerFlagVariables[2] & 0x800) != 0)
{
iVar28 = -iVar28;
}
iVar28 = DECOMP_MATH_Sin(data.checkerFlagVariables[2]);
data.checkerFlagVariables[3] = ((iVar28 + 0xfff) * 0x40 >> 0xd) + 0xb4;
}
uVar10 = *(int*)&data.trigApprox[uVar16 & 0x3ff];
iVar28 = DECOMP_MATH_Sin(uVar16);
if ((uVar16 & 0x400) == 0)
{
uVar10 = uVar10 << 0x10;
}
// 280 degrees (3/4 of 360)
uVar16 += 0xc80;
iVar28 = (int)uVar10 >> 0x10;
iVar5 = DECOMP_MATH_Sin(uVar16);
if ((uVar16 & 0x800) != 0)
{
iVar28 = -iVar28;
}
*(int*)(puVar27 + 0x48) = iVar5 + 0xfff;
uVar16 = uVar16 + 0xc80;
uVar10 = *(int*)&data.trigApprox[uVar16 & 0x3ff];
if ((uVar16 & 0x400) == 0)
{
uVar10 = uVar10 << 0x10;
}
iVar5 = (int)uVar10 >> 0x10;
if ((uVar16 & 0x800) != 0)
{
iVar5 = -iVar5;
}
iVar28 = (iVar28 + 0xfff) * data.checkerFlagVariables[1];
iVar28 = (iVar28 >> 0xd) + 0x280;
*(u_short*)(puVar27 + 0x12) = 0xfc72;
*(u_short*)(puVar27 + 0x1a) = 0xfcd0;
*(u_short*)(puVar27 + 0x22) = 0xfd2e;
sVar2 = sdata->TitleFlag_Position;
sVar2 = -0xbbe - sVar2;
*(short*)(puVar27 + 0x10) = sVar2;
*(short*)(puVar27 + 0x18) = sVar2;
*(short*)(puVar27 + 0x20) = sVar2;
iVar24 = 0;
puVar22 = data.trigApprox;
r0 = (SVECTOR *)(puVar27 + 0x10);
*(int *)(puVar27 + 0x48) = iVar5 + 0xfff;
iVar28 = (iVar28 + 0xfff) * data.checkerFlagVariables[1];
*(u_short *)(puVar27 + 0x12) = 0xfc72;
sVar2 = *(short *)(puVar26 + 0x4d8);
*(u_short *)(puVar27 + 0x1a) = 0xfcd0;
*(u_short *)(puVar27 + 0x22) = 0xfd2e;
sVar2 = -0xbbe - sVar2;
*(short *)(puVar27 + 0x10) = sVar2;
*(short *)(puVar27 + 0x18) = sVar2;
*(short *)(puVar27 + 0x20) = sVar2;
iVar28 = (iVar28 >> 0xd) + 0x280;
for(iVar5 = 0, pSVar11 = r0; iVar24 < 10; iVar24++, r0_00 += 3)
r0 = (SVECTOR*)(puVar27 + 0x10);
for (iVar5 = 0, pSVar11 = r0; iVar24 < 10; iVar24++, r0_00 += 3)
{
for(; iVar5 < 3; uVar18 += 300, iVar5++, pSVar11++)
for (; iVar5 < 3; uVar18 += 300, iVar5++, pSVar11++)
{
uVar16 = puVar22[uVar18 & 0x3ff];
if ((uVar18 & 0x400) == 0)
{
uVar16 = uVar16 << 0x10;
}
iVar6 = (int)uVar16 >> 0x10;
if ((uVar18 & 0x800) != 0)
{
iVar6 = -iVar6;
}
iVar6 = DECOMP_MATH_Sin(uVar18);
pSVar11->vz = (short)iVar28 + (short)((iVar6 + 0xfff) * 0x20 >> 0xd);
}
gte_ldv3(r0,(SVECTOR *)(puVar27 + 0x18),(SVECTOR *)(puVar27 + 0x20));
gte_ldv3(r0, (SVECTOR*)(puVar27 + 0x18), (SVECTOR*)(puVar27 + 0x20));
gte_rtpt();
*(short *)(puVar27 + 0x12) = *(short *)(puVar27 + 0x12) + 0x11a;
*(short *)(puVar27 + 0x22) = *(short *)(puVar27 + 0x22) + 0x11a;
*(short *)(puVar27 + 0x1a) = *(short *)(puVar27 + 0x1a) + 0x11a;
gte_stsxy3(r0_00,r0_00 + 1,r0_00 + 2);
*(short*)(puVar27 + 0x12) = *(short*)(puVar27 + 0x12) + 0x11a;
*(short*)(puVar27 + 0x22) = *(short*)(puVar27 + 0x22) + 0x11a;
*(short*)(puVar27 + 0x1a) = *(short*)(puVar27 + 0x1a) + 0x11a;
gte_stsxy3(r0_00, r0_00 + 1, r0_00 + 2);
}
iVar5 = 1;
puVar22 = data.trigApprox;
uVar16 = 0x80008000;
iVar24 = *(int *)(puVar27 + 0x48);
*(u_char **)(puVar27 + 0x50) = puVar27 + 0x48;
*(u_char **)(puVar27 + 0x5c) = puVar27 + 0x10;
iVar24 = *(int*)(puVar27 + 0x48);
*(u_char**)(puVar27 + 0x50) = puVar27 + 0x48;
*(u_char**)(puVar27 + 0x5c) = puVar27 + 0x10;
iVar28 = 0xd80200;
*(u_int *)(puVar27 + 0x28) = data.checkerFlagVariables[0];
*(int *)(puVar27 + 0x2c) = data.checkerFlagVariables[1];
*(u_int *)(puVar27 + 0x30) = data.checkerFlagVariables[2];
*(int *)(puVar27 + 0x34) = data.checkerFlagVariables[3];
*(u_int *)(puVar27 + 0x38) = data.checkerFlagVariables[4];
*(u_int*)(puVar27 + 0x28) = data.checkerFlagVariables[0];
*(int*)(puVar27 + 0x2c) = data.checkerFlagVariables[1];
*(u_int*)(puVar27 + 0x30) = data.checkerFlagVariables[2];
*(int*)(puVar27 + 0x34) = data.checkerFlagVariables[3];
*(u_int*)(puVar27 + 0x38) = data.checkerFlagVariables[4];
do
{
#ifdef REBUILD_PC
puVar21 = &scratchpadBuf[(uVar25 * 0x78/4)-1];
puVar21 = &scratchpadBuf[(uVar25 * 0x78 / 4) - 1];
uVar25 = uVar25 ^ 1;
puVar23 = &scratchpadBuf[(uVar25 * 0x78/4)-0];
puVar23 = &scratchpadBuf[(uVar25 * 0x78 / 4) - 0];
#else
puVar21 = (u_int *)((0x1f800000 + uVar25 * 0x78) - 4);
puVar21 = (u_int*)((0x1f800000 + uVar25 * 0x78) - 4);
uVar25 = uVar25 ^ 1;
puVar23 = (u_int *)(0x1f800000 + uVar25 * 0x78);
puVar23 = (u_int*)(0x1f800000 + uVar25 * 0x78);
#endif
uVar19 = *(int *)(puVar27 + 0x4c) + 0x100;
uVar18 = *(int *)(puVar27 + 0x38) + *(int *)(puVar27 + 0x34) * 0x40;
uVar19 = *(int*)(puVar27 + 0x4c) + 0x100;
uVar18 = *(int*)(puVar27 + 0x38) + *(int*)(puVar27 + 0x34) * 0x40;
uVar10 = (int)uVar18 >> 5;
*(u_int *)(puVar27 + 0x4c) = uVar19;
*(u_int *)(puVar27 + 0x38) = uVar18;
*(u_int*)(puVar27 + 0x4c) = uVar19;
*(u_int*)(puVar27 + 0x38) = uVar18;
if (0xfff < uVar10)
{
uVar10 = (int)(uVar18 & 0x1ffff) >> 5;
*(u_int *)(puVar27 + 0x38) = uVar18 & 0x1ffff;
uVar18 = *(int *)(puVar27 + 0x28) + 0x200;
*(u_int *)(puVar27 + 0x28) = uVar18;
uVar12 = puVar22[uVar18 & 0x3ff];
if ((uVar18 & 0x400) == 0)
{
uVar12 = uVar12 << 0x10;
}
iVar6 = (int)uVar12 >> 0x10;
if ((uVar18 & 0x800) != 0)
{
iVar6 = -iVar6;
}
*(int *)(puVar27 + 0x2c) = ((iVar6 + 0xfff) * 0x20 >> 0xd) + 0x96;
uVar18 = *(int *)(puVar27 + 0x30) + 200;
*(u_int *)(puVar27 + 0x30) = uVar18;
uVar12 = puVar22[uVar18 & 0x3ff];
if ((uVar18 & 0x400) == 0)
{
uVar12 = uVar12 << 0x10;
}
iVar6 = (int)uVar12 >> 0x10;
if ((uVar18 & 0x800) != 0)
{
iVar6 = -iVar6;
}
*(int *)(puVar27 + 0x34) = ((iVar6 + 0xfff) * 0x40 >> 0xd) + 0xb4;
}
uVar18 = puVar22[uVar10 & 0x3ff];
if ((uVar10 & 0x400) == 0)
{
uVar18 = uVar18 << 0x10;
}
iVar6 = (int)uVar18 >> 0x10;
if ((uVar10 & 0x800) != 0)
{
iVar6 = -iVar6;
}
uVar10 = uVar10 + 0xc80;
uVar18 = puVar22[uVar10 & 0x3ff];
if ((uVar10 & 0x400) == 0)
{
uVar18 = uVar18 << 0x10;
}
iVar7 = (int)uVar18 >> 0x10;
if ((uVar10 & 0x800) != 0)
{
iVar7 = -iVar7;
*(u_int*)(puVar27 + 0x38) = uVar18 & 0x1ffff;
uVar18 = *(int*)(puVar27 + 0x28) + 0x200;
*(u_int*)(puVar27 + 0x28) = uVar18;
iVar6 = DECOMP_MATH_Sin(uVar18);
*(int*)(puVar27 + 0x2c) = ((iVar6 + 0xfff) * 0x20 >> 0xd) + 0x96;
uVar18 = *(int*)(puVar27 + 0x30) + 200;
*(u_int*)(puVar27 + 0x30) = uVar18;
iVar6 = DECOMP_MATH_Sin(uVar18);
*(int*)(puVar27 + 0x34) = ((iVar6 + 0xfff) * 0x40 >> 0xd) + 0xb4;
}
iVar6 = DECOMP_MATH_Sin(uVar10);
// 280 degrees
uVar10 += 0xc80;
iVar7 = DECOMP_MATH_Sin(uVar10);
iVar15 = 0;
iVar17 = *(int *)(puVar27 + 0x5c);
**(int **)(puVar27 + 0x50) = iVar7 + 0xfff;
*(u_short *)(puVar27 + 0x12) = 0xfc72;
*(u_short *)(puVar27 + 0x1a) = 0xfcd0;
*(u_short *)(puVar27 + 0x22) = 0xfd2e;
*(short *)(puVar27 + 0x10) = *(short *)(puVar27 + 0x10) + 100;
*(short *)(puVar27 + 0x18) = *(short *)(puVar27 + 0x18) + 100;
*(short *)(puVar27 + 0x20) = *(short *)(puVar27 + 0x20) + 100;
iVar6 = ((iVar6 + 0xfff) * *(int *)(puVar27 + 0x2c) >> 0xd) + 0x280;
for(; iVar15 < 3; uVar19 += 300, iVar15++, iVar17 += 8)
iVar17 = *(int*)(puVar27 + 0x5c);
**(int**)(puVar27 + 0x50) = iVar7 + 0xfff;
*(u_short*)(puVar27 + 0x12) = 0xfc72;
*(u_short*)(puVar27 + 0x1a) = 0xfcd0;
*(u_short*)(puVar27 + 0x22) = 0xfd2e;
*(short*)(puVar27 + 0x10) = *(short*)(puVar27 + 0x10) + 100;
*(short*)(puVar27 + 0x18) = *(short*)(puVar27 + 0x18) + 100;
*(short*)(puVar27 + 0x20) = *(short*)(puVar27 + 0x20) + 100;
iVar6 = ((iVar6 + 0xfff) * *(int*)(puVar27 + 0x2c) >> 0xd) + 0x280;
for (; iVar15 < 3; uVar19 += 300, iVar15++, iVar17 += 8)
{
uVar18 = puVar22[uVar19 & 0x3ff];
if ((uVar19 & 0x400) == 0)
{
uVar18 = uVar18 << 0x10;
}
iVar7 = (int)uVar18 >> 0x10;
if ((uVar19 & 0x800) != 0)
{
iVar7 = -iVar7;
}
*(short *)(iVar17 + 4) = (short)iVar6 + (short)((iVar7 + 0xfff) * 0x20 >> 0xd);
iVar7 = DECOMP_MATH_Sin(uVar19);
*(short*)(iVar17 + 4) = (short)iVar6 + (short)((iVar7 + 0xfff) * 0x20 >> 0xd);
uVar19 = uVar19 + 300;
iVar15 = iVar15 + 1;
iVar17 = iVar17 + 8;
}
gte_ldv3(*(SVECTOR **)(puVar27 + 0x5c),(SVECTOR *)(puVar27 + 0x18),(SVECTOR *)(puVar27 + 0x20) );
gte_ldv3(*(SVECTOR**)(puVar27 + 0x5c), (SVECTOR*)(puVar27 + 0x18), (SVECTOR*)(puVar27 + 0x20));
gte_rtpt();
iVar15 = 0;
iVar7 = 1;
for(; iVar7 < 10; iVar7++)
iVar15 = 0;
for (iVar7 = 1; iVar7 < 10; iVar7++)
{
if (iVar7 < 0xb)
{
gte_stsxy3((long *)(puVar21 + 1),(long *)(puVar21 + 2),(long *)(puVar21 + 3));
gte_stsxy3((long*)(puVar21 + 1), (long*)(puVar21 + 2), (long*)(puVar21 + 3));
iVar17 = 0;
if (iVar7 < 10)
{
iVar13 = *(int *)(puVar27 + 0x5c);
iVar13 = *(int*)(puVar27 + 0x5c);
do
{
uVar18 = puVar22[uVar19 & 0x3ff];
if ((uVar19 & 0x400) == 0)
{
uVar18 = uVar18 << 0x10;
}
iVar8 = (int)uVar18 >> 0x10;
if ((uVar19 & 0x800) != 0)
{
iVar8 = -iVar8;
}
*(short *)(iVar13 + 4) = (short)iVar6 + (short)((iVar8 + 0xfff) * 0x20 >> 0xd);
iVar8 = DECOMP_MATH_Sin(uVar19);
*(short*)(iVar13 + 4) = (short)iVar6 + (short)((iVar8 + 0xfff) * 0x20 >> 0xd);
uVar19 = uVar19 + 300;
iVar17 = iVar17 + 1;
iVar13 = iVar13 + 8;
} while (iVar17 < 3);
*(short *)(puVar27 + 0x12) = *(short *)(puVar27 + 0x12) + 0x11a;
*(short *)(puVar27 + 0x22) = *(short *)(puVar27 + 0x22) + 0x11a;
*(short *)(puVar27 + 0x1a) = *(short *)(puVar27 + 0x1a) + 0x11a;
gte_ldv3(*(SVECTOR **)(puVar27 + 0x5c),(SVECTOR *)(puVar27 + 0x18), (SVECTOR *)(puVar27 + 0x20));
*(short*)(puVar27 + 0x12) = *(short*)(puVar27 + 0x12) + 0x11a;
*(short*)(puVar27 + 0x22) = *(short*)(puVar27 + 0x22) + 0x11a;
*(short*)(puVar27 + 0x1a) = *(short*)(puVar27 + 0x1a) + 0x11a;
gte_ldv3(*(SVECTOR**)(puVar27 + 0x5c), (SVECTOR*)(puVar27 + 0x18), (SVECTOR*)(puVar27 + 0x20));
gte_rtpt();
}
}
@ -358,21 +267,17 @@ LAB_80044568:
puVar21++;
}
uVar18 = (u_int)(iVar15 == 0);
*(int *)(puVar27 + 0x58) = iVar24 * 0x69 + (0x2000 - iVar24) * 0xa0 >> 0xd;
for(; (int)uVar18 < 3; puVar23++, puVar21++, uVar18++, iVar15++)
*(int*)(puVar27 + 0x58) = iVar24 * 0x69 + (0x2000 - iVar24) * 0xa0 >> 0xd;
for (; (int)uVar18 < 3; puVar23++, puVar21++, uVar18++, iVar15++)
{
if
(
((*puVar23 & puVar23[1] & uVar16 & uVar16 & *puVar21 & uVar16 & puVar21[1]) == 0) &&
(
(iVar28 - *puVar23 & iVar28 - puVar23[1] & uVar16 & uVar16 & iVar28 - *puVar21 & uVar16
& iVar28 - puVar21[1]) == 0
)
)
if(
((puVar23[0] & puVar23[1] & puVar21[0] & puVar21[1] & uVar16) == 0) &&
((iVar28 - puVar23[0] & iVar28 - puVar23[1] & iVar28 - puVar21[0] & iVar28 - puVar21[1] & uVar16) == 0)
)
{
psVar9 = gGT->backBuffer;
puVar14 = (u_int *)(psVar9->primMem).curr;
puVar14 = (u_int*)(psVar9->primMem).curr;
if (puVar14 <= (psVar9->primMem).endMin100)
{
(psVar9->primMem).curr = puVar14 + 9;
@ -385,11 +290,11 @@ LAB_80044568:
if (((iVar5 >> 2) + (iVar15 >> 2) & 1U) == 0)
{
puVar27[0x40] = (char)(iVar24 * 0x82 + (0x2000 - iVar24) * 0xff >> 0xd);
uVar4 = (u_char)(*(int *)(puVar27 + 0x48) * -0x7d + 0x1fe000 >> 0xd);
uVar4 = (u_char)(*(int*)(puVar27 + 0x48) * -0x7d + 0x1fe000 >> 0xd);
}
else
{
uVar4 = (u_char)(*(int *)(puVar27 + 0x48) * -0x37 + 0x140000 >> 0xd);
uVar4 = (u_char)(*(int*)(puVar27 + 0x48) * -0x37 + 0x140000 >> 0xd);
puVar27[0x40] = puVar27[0x58];
}
puVar27[0x41] = uVar4;
@ -402,8 +307,8 @@ LAB_80044568:
puVar20[1] = uVar10;
puVar20[5] = uVar10;
uVar10 = (u_int)(u_char)puVar27[0x41];
*(u_char *)((int)puVar20 + 3) = 8;
*(u_char *)((int)puVar20 + 7) = 0x38;
*(u_char*)((int)puVar20 + 3) = 8;
*(u_char*)((int)puVar20 + 7) = 0x38;
uVar10 = uVar10 | uVar10 << 0x10 | uVar10 << 8;
puVar20[3] = uVar10;
puVar20[7] = uVar10;
@ -413,12 +318,12 @@ LAB_80044568:
}
}
iVar24 = *(int *)(puVar27 + 0x48);
iVar24 = *(int*)(puVar27 + 0x48);
iVar5 = iVar5 + 1;
if (0x22 < iVar5)
{
*(int *)(puVar26 + 0x4ec) = *(int *)(puVar26 + 0x4ec) + gGT->elapsedTimeMS * 100;
sdata->TitleFlag_ElapsedTime += gGT->elapsedTimeMS * 100;
return;
}
} while( true );
} while (true);
}

3
include/decomp_functions.h
View File

@ -72,6 +72,9 @@ void DECOMP_MainInit_FinalizeInit(struct GameTracker* gGT);
void DECOMP_MainInit_VRAMClear();
void DECOMP_MainInit_VRAMDisplay();
int DECOMP_MATH_Sin(u_int angle);
int DECOMP_MATH_Cos(u_int angle);
void DECOMP_MEMCARD_InitCard(void);
void DECOMP_MEMPACK_Init(int ramSize);
void DECOMP_MEMPACK_SwapPacks(int index);

3
rebuild_PS1/main.c
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@ -118,6 +118,9 @@
#include "../decompile/General/MAIN/MainInit_VRAMClear.c"
#include "../decompile/General/MAIN/MainInit_VRAMDisplay.c"
#include "../decompile/General/MATH/MATH_Sin.c"
#include "../decompile/General/MATH/MATH_Cos.c"
#include "../decompile/General/MEMCARD/MEMCARD_InitCard.c"
#include "../decompile/General/MEMPACK/MEMPACK_Init.c"