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finish m415Dll

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CreateSource 2024-09-29 01:13:30 -04:00
parent 5531601f99
commit 1bb1ecd0b2
4 changed files with 979 additions and 67 deletions
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913
src/REL/m415Dll/map.c
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@ -1,6 +1,8 @@
#define HUSPR_USE_OLD_DEFS
#include "REL/m415Dll.h"
#include "game/hsfdraw.h"
#include "game/sprite.h"
void fn_1_8780(s16 arg0, s16 arg1) {
s32 var_r31;
@ -520,4 +522,915 @@ void fn_1_9DC8(unkSubStruct2* arg0) {
fn_1_A800(arg0->unk0);
}
}
}
s16 fn_1_A2D0(u8 arg0, u8 arg1) {
s32 var_r29;
s32 var_r28;
unkSubStruct* var_r30;
unkSubStruct2* var_r31;
void* temp_r25;
var_r31 = lbl_1_bss_36C.unk40 + 1;
for (var_r29 = 1; var_r29 < lbl_1_bss_36C.unk30; var_r29++, var_r31++) {
if (var_r31->unk8 == 0) {
break;
}
}
if (var_r29 == lbl_1_bss_36C.unk30) {
return 0;
}
var_r31->unk0 = var_r29;
var_r31->unk8 = 1;
var_r31->unk30 = NULL;
var_r31->unk2 = arg0;
var_r31->unk4 = arg1;
var_r30 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkSubStruct), 0x10000000);
var_r31->unk3C = var_r30;
var_r31->unk34 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * 2, 0x10000000);
var_r31->unk48 = 0;
var_r31->unk4C = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkType), 0x10000000);
var_r31->unk50 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(Vec[4]), 0x10000000);
var_r31->unk54 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkType2), 0x10000000);
var_r31->unk58 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(Vec), 0x10000000);
var_r31->unk5C = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * (arg0 * sizeof(unkSubStruct4)), 0x10000000);
DCFlushRangeNoSync(var_r31->unk4C, arg0 << 8);
var_r31->unkC.x = var_r31->unkC.y = var_r31->unkC.z = 0.0f;
var_r31->unk18.x = var_r31->unk18.y = var_r31->unk18.z = 0.0f;
var_r31->unk24.x = var_r31->unk24.y = var_r31->unk24.z = 1.0f;
var_r31->unk70.x = var_r31->unk70.y = var_r31->unk70.z = 0.0f;
var_r31->unk64.x = var_r31->unk64.y = var_r31->unk64.z = 0.0f;
var_r31->unk60 = 0;
for (var_r29 = 0; var_r29 < 0x20; var_r29++) {
var_r31->unk7C[var_r29] = 0;
}
for (var_r29 = 0; var_r29 < arg1; var_r29++) {
var_r31->unk34[var_r29] = 0;
}
for (var_r29 = 0; var_r29 < arg0; var_r29++, var_r30++) {
var_r30->unk34 = 1;
var_r30->unk33 = arg1;
var_r30->unk30 = 0;
var_r30->unk31 = 2;
var_r30->unk32 = 0;
var_r30->unk4C.r = var_r30->unk4C.g = var_r30->unk4C.b = 0;
var_r30->unk4C.a = 0xFF;
var_r30->unk50.r = var_r30->unk50.g = var_r30->unk50.b = 0xFF;
var_r30->unk50.a = 0xFF;
var_r30->unk54 = &var_r31->unk5C[var_r29 * arg1];
for (var_r28 = 0; var_r28 < arg1; var_r28++) {
var_r30->unk54[var_r28].unk0 = var_r30->unk54[var_r28].unk1 = 0;
var_r30->unk54[var_r28].unk28 = 1.0f;
var_r30->unk54[var_r28].unk2C = 0.0f;
}
var_r30->unk0.x = var_r30->unk0.y = var_r30->unk0.z = 0.0f;
var_r30->unkC.x = var_r30->unkC.y = var_r30->unkC.z = 0.0f;
var_r30->unk18.x = var_r30->unk18.y = var_r30->unk18.z = 1.0f;
var_r30->unk68.x = var_r30->unk68.y = var_r30->unk68.z = 0.0f;
var_r30->unk5C.x = var_r30->unk5C.y = var_r30->unk5C.z = 0.0f;
var_r30->unk58 = 0;
for (var_r28 = 0; var_r28 < 0x10; var_r28++) {
var_r30->unk74[var_r28] = 0;
}
var_r30->unk40 = &var_r31->unk50[var_r29 * 4];
var_r30->unk44 = &var_r31->unk54[var_r29 * 4];
var_r30->unk48 = &var_r31->unk58[var_r29];
var_r30->unk3C = var_r31->unk4C + var_r31->unk48;
fn_1_9B40(var_r30);
var_r31->unk48 += var_r30->unk38;
}
temp_r25 = var_r31->unk4C;
var_r31->unk4C = HuMemDirectMallocNum(HEAP_SYSTEM, var_r31->unk48, 0x10000000);
memcpy(var_r31->unk4C, temp_r25, var_r31->unk48);
HuMemDirectFree(temp_r25);
DCFlushRangeNoSync(var_r31->unk50, arg0 * 0x30);
DCFlushRangeNoSync(var_r31->unk54, arg0 * 0x10);
DCFlushRangeNoSync(var_r31->unk58, arg0 * 0xC);
DCFlushRangeNoSync(var_r31->unk4C, var_r31->unk48);
var_r30 = var_r31->unk3C;
var_r31->unk48 = 0;
for (var_r29 = 0; var_r29 < arg0; var_r29++, var_r30++) {
var_r30->unk3C = var_r31->unk4C + var_r31->unk48;
var_r31->unk48 += var_r30->unk38;
}
lbl_1_bss_36C.unk36 = var_r31->unk0;
lbl_1_bss_36C.unk38 = 0;
lbl_1_bss_36C.unk3A = 0;
return var_r31->unk0;
}
void fn_1_A800(s16 arg0) {
s32 var_r30;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk8 != 0) {
if (temp_r31->unk50 != NULL) {
HuMemDirectFree(temp_r31->unk50);
}
if (temp_r31->unk54 != NULL) {
HuMemDirectFree(temp_r31->unk54);
}
if (temp_r31->unk58 != NULL) {
HuMemDirectFree(temp_r31->unk58);
}
if (temp_r31->unk4C != NULL) {
HuMemDirectFree(temp_r31->unk4C);
}
if (temp_r31->unk5C != NULL) {
HuMemDirectFree(temp_r31->unk5C);
}
for (var_r30 = 0; var_r30 < temp_r31->unk4; var_r30++) {
fn_1_AF48(temp_r31->unk34[var_r30]);
}
HuMemDirectFree(temp_r31->unk3C);
HuMemDirectFree(temp_r31->unk34);
temp_r31->unk8 = 0;
}
}
}
void fn_1_A920(s16 arg0, s16 arg1, u8 arg2) {
lbl_1_bss_36C.unk36 = arg0;
lbl_1_bss_36C.unk38 = arg1;
lbl_1_bss_36C.unk3A = arg2;
}
s16 fn_1_A94C(u32 arg0, s16 arg1, s16 arg2) {
AnimData* var_r30;
f32 var_f31;
f32 var_f30;
s32 var_r29;
unkSubStruct3* var_r31;
var_r31 = lbl_1_bss_36C.unk3C + 1;
for (var_r29 = 1; var_r29 < lbl_1_bss_36C.unk32; var_r29++, var_r31++) {
if ((var_r31->unk6 != 0) && (var_r31->unk8 == arg0)) {
break;
}
}
if (var_r29 < lbl_1_bss_36C.unk32) {
var_r31->unk6++;
return var_r29;
}
var_r31 = lbl_1_bss_36C.unk3C + 1;
for (var_r29 = 1; var_r29 < lbl_1_bss_36C.unk32; var_r29++, var_r31++) {
if (var_r31->unk6 == 0) {
break;
}
}
var_r31->unk8 = arg0;
var_r31->unk6 = 1;
if (((arg0 & 0xFFFF0000) + 0x10000) == 0U) {
var_r30 = HuSprAnimMake(arg1, arg2, 2);
var_r30->bmp->data = HuMemDirectMallocNum(HEAP_SYSTEM, arg2 * (arg1 * 2), 0x10000000);
arg1 = arg2 = 0;
} else {
var_r30 = HuSprAnimRead(HuDataReadNum(arg0, 0x10000000));
}
if ((arg1 == 0) || (arg2 == 0)) {
arg1 = var_r30->bmp->sizeX;
arg2 = var_r30->bmp->sizeY;
var_f31 = var_f30 = 1.0f;
} else {
var_f31 = arg1 / (f32) var_r30->bmp->sizeX;
var_f30 = arg2 / (f32) var_r30->bmp->sizeY;
}
var_r31->unk0 = var_r30;
var_r31->unk4E = arg1;
var_r31->unk50 = arg2;
var_r31->unk54 = var_f31;
var_r31->unk58 = var_f30;
var_r31->unk5C = 1.0f / var_r30->bmp->sizeX;
var_r31->unk60 = 1.0f / var_r30->bmp->sizeY;
var_r31->unk4 = 0;
var_r31->unk4C = (var_r30->bmp->sizeY / arg2);
if (var_r31->unk4C < 1) {
var_r31->unk4C = 1;
}
var_r31->unk4D = 0;
if ((arg1 > var_r30->bmp->sizeX) || (arg2 > var_r30->bmp->sizeY)) {
var_r31->unk4D = 1;
}
var_r31->unk48.r = var_r31->unk48.g = var_r31->unk48.b = 0xFF;
var_r31->unk48.a = 0xFF;
PSMTXIdentity(var_r31->unk18);
var_r31->unkC.x = var_r31->unkC.y = var_r31->unkC.z = 0.0f;
return var_r29;
}
void fn_1_ACF4(s16 arg0, s16 arg1, s16 arg2, s16 arg3, s16 arg4, s16 arg5) {
f32 var_f31;
f32 var_f30;
AnimData* var_r30;
unkSubStruct3* var_r31;
var_r31 = &lbl_1_bss_36C.unk3C[arg0];
HuSprAnimKill(var_r31->unk0);
var_r31->unk8 |= 0xFFFF0000;
var_r30 = HuSprAnimMake(arg2, arg3, arg1);
var_r30->bmp->data = HuMemDirectMallocNum(HEAP_SYSTEM, arg3 * (var_r30->bmp->pixSize * arg2), 0x10000000U);
var_f31 = arg4 / (f32) var_r30->bmp->sizeX;
var_f30 = arg5 / (f32) var_r30->bmp->sizeY;
var_r31->unk0 = var_r30;
var_r31->unk4E = arg2;
var_r31->unk50 = arg3;
var_r31->unk54 = var_f31;
var_r31->unk58 = var_f30;
var_r31->unk5C = 1.0f / var_r30->bmp->sizeX;
var_r31->unk60 = 1.0f / var_r30->bmp->sizeY;
var_r31->unk4 = 0;
var_r31->unk4C = var_r30->bmp->sizeY / arg5;
var_r31->unk4D = 0;
var_r31->unk48.r = var_r31->unk48.g = var_r31->unk48.b = 0xFF;
var_r31->unk48.a = 0xFF;
}
void fn_1_AF48(s16 arg0) {
unkSubStruct3* temp_r31;
temp_r31 = &lbl_1_bss_36C.unk3C[arg0];
if (temp_r31->unk8 != 0) {
if (temp_r31->unk6 != 0) {
temp_r31->unk6 -= 1;
}
if (temp_r31->unk6 == 0) {
HuSprAnimKill(temp_r31->unk0);
temp_r31->unk8 = 0;
}
}
}
u8 fn_1_AFC8(s16 arg0, u8 arg1, s32 arg2, s16 arg3, s16 arg4) {
s32 temp_r3;
temp_r3 = fn_1_A94C(arg2, arg3, arg4);
if (temp_r3 == 0) {
return 0;
}
fn_1_B0B8(arg0, arg1, temp_r3);
return temp_r3;
}
u8 fn_1_B038(s16 arg0, u8 arg1, s32 arg2) {
u8 var_r31;
s32 var_r30;
u8 var_r29;
if ((var_r30 = fn_1_A94C(arg2, 0, 0)) == 0) {
var_r31 = 0;
} else {
fn_1_B0B8(arg0, arg1, var_r30);
var_r31 = var_r30;
}
var_r29 = var_r31;
return var_r29;
}
s32 fn_1_B0B8(s16 arg0, u8 arg1, s16 arg2) {
s32 var_r27;
unkSubStruct* var_r29;
unkSubStruct2* temp_r28;
unkSubStruct3* temp_r30;
unkSubStruct4* temp_r31;
if (arg2 == 0) {
return 0;
}
if (arg0 == 0) {
return 0;
}
temp_r28 = &lbl_1_bss_36C.unk40[arg0];
temp_r28->unk8 |= 2;
temp_r28->unk34[arg1] = arg2;
temp_r30 = &lbl_1_bss_36C.unk3C[arg2];
var_r29 = temp_r28->unk3C;
for (var_r27 = 0; var_r27 < temp_r28->unk2; var_r27++, var_r29++) {
if (arg1 == 0) {
var_r29->unk40[0].x = -0.5f * temp_r30->unk4E;
var_r29->unk40[0].y = 0.5f * temp_r30->unk50;
var_r29->unk40[1].x = (0.5f * temp_r30->unk4E);
var_r29->unk40[1].y = (0.5f * temp_r30->unk50);
var_r29->unk40[2].x = (0.5f * temp_r30->unk4E);
var_r29->unk40[2].y = (-0.5f * temp_r30->unk50);
var_r29->unk40[3].x = (-0.5f * temp_r30->unk4E);
var_r29->unk40[3].y = (-0.5f * temp_r30->unk50);
var_r29->unk40[0].z = var_r29->unk40[1].z = var_r29->unk40[2].z = var_r29->unk40[3].z = 0.0f;
}
temp_r31 = &var_r29->unk54[arg1];
temp_r31->unk24 = 0;
temp_r31->unk0 = temp_r31->unk1 = 0;
temp_r31->unk28 = 1.0f;
temp_r31->unk2C = 0.0f;
temp_r31->unk4[0].x = temp_r31->unk0 * temp_r30->unk54;
temp_r31->unk4[0].y = temp_r31->unk0 * temp_r30->unk58;
temp_r31->unk4[1].x = (temp_r31->unk0 + 1) * temp_r30->unk54;
temp_r31->unk4[1].y = temp_r31->unk0 * temp_r30->unk58;
temp_r31->unk4[2].x = (temp_r31->unk0 + 1) * temp_r30->unk54;
temp_r31->unk4[2].y = (temp_r31->unk0 + 1) * temp_r30->unk58;
temp_r31->unk4[3].x = temp_r31->unk0 * temp_r30->unk54;
temp_r31->unk4[3].y = (temp_r31->unk0 + 1) * temp_r30->unk58;
if ((temp_r31->unk0 + 1) < temp_r30->unk4C) {
temp_r31->unk4[2].y -= temp_r30->unk60;
temp_r31->unk4[3].y -= temp_r30->unk60;
}
DCFlushRangeNoSync(temp_r31->unk4, 0x20);
}
lbl_1_bss_36C.unk36 = arg0;
lbl_1_bss_36C.unk3A = arg1;
return 1;
}
void fn_1_B634(s32 arg0) {
s32 var_r28;
s32 var_r27;
s16 var_r26;
unkSubStruct2* temp_r31;
unkSubStruct3* temp_r30;
unkSubStruct3* temp_r29;
for (var_r28 = 1; var_r28 < lbl_1_bss_36C.unk30; var_r28++) {
if ((s16)var_r28 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[(s16)var_r28];
if (temp_r31->unk8 != 0) {
if (temp_r31->unk50 != NULL) {
HuMemDirectFree(temp_r31->unk50);
}
if (temp_r31->unk54 != NULL) {
HuMemDirectFree(temp_r31->unk54);
}
if (temp_r31->unk58 != NULL) {
HuMemDirectFree(temp_r31->unk58);
}
if (temp_r31->unk4C != NULL) {
HuMemDirectFree(temp_r31->unk4C);
}
if (temp_r31->unk5C != NULL) {
HuMemDirectFree(temp_r31->unk5C);
}
for (var_r27 = 0; var_r27 < temp_r31->unk4; var_r27++) {
var_r26 = temp_r31->unk34[var_r27];
temp_r29 = &lbl_1_bss_36C.unk3C[var_r26];
if (temp_r29->unk8 != 0) {
if (temp_r29->unk6 != 0) {
temp_r29->unk6--;
}
if (temp_r29->unk6 == 0) {
HuSprAnimKill(temp_r29->unk0);
temp_r29->unk8 = 0;
}
}
}
HuMemDirectFree(temp_r31->unk3C);
HuMemDirectFree(temp_r31->unk34);
temp_r31->unk8 = 0;
}
}
}
for (var_r28 = 1; var_r28 < lbl_1_bss_36C.unk32; var_r28++) {
temp_r30 = &lbl_1_bss_36C.unk3C[(s16)var_r28];
if (temp_r30->unk8 != 0) {
if (temp_r30->unk6 != 0) {
temp_r30->unk6 -= 1;
}
if (temp_r30->unk6 == 0) {
HuSprAnimKill(temp_r30->unk0);
temp_r30->unk8 = 0;
}
}
}
HuMemDirectFree(lbl_1_bss_36C.unk40);
HuMemDirectFree(lbl_1_bss_36C.unk3C);
Hu3DModelKill(lbl_1_bss_36C.unk34);
}
void fn_1_B864(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r31->unkC.x = arg8;
temp_r31->unkC.y = arg9;
temp_r31->unkC.z = argA;
if (temp_r31->unk2 == 1) {
temp_r31->unk3C->unk0 = temp_r31->unkC;
}
}
}
void fn_1_B8D0(s16 arg0, s16 arg1, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct* temp_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r30->unk2 > arg1) {
temp_r31 = &temp_r30->unk3C[arg1];
temp_r31->unk0.x = arg8;
temp_r31->unk0.y = arg9;
temp_r31->unk0.z = argA;
}
}
}
void fn_1_B940(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
s32 var_r29;
unkSubStruct* var_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
var_r31 = temp_r30->unk3C;
for (var_r29 = 0; var_r29 < temp_r30->unk2; var_r29++, var_r31++) {
var_r31->unk0.x = arg8;
var_r31->unk0.y = arg9;
var_r31->unk0.z = argA;
}
}
}
void fn_1_B9B4(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r31->unkC.x += arg8;
temp_r31->unkC.y += arg9;
temp_r31->unkC.z += argA;
if (temp_r31->unk2 == 1) {
temp_r31->unk3C->unk0 = temp_r31->unkC;
}
}
}
void fn_1_BA38(s16 arg0, s16 arg1, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct* temp_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r30->unk2 > arg1) {
temp_r31 = &temp_r30->unk3C[arg1];
temp_r31->unk0.x += arg8;
temp_r31->unk0.y += arg9;
temp_r31->unk0.z += argA;
}
}
}
void fn_1_BAC0(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
s32 var_r29;
unkSubStruct* var_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
var_r31 = temp_r30->unk3C;
for (var_r29 = 0; var_r29 < temp_r30->unk2; var_r29++, var_r31++) {
var_r31->unk0.x += arg8;
var_r31->unk0.y += arg9;
var_r31->unk0.z += argA;
}
}
}
void fn_1_BB4C(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r31->unk18.x = arg8;
temp_r31->unk18.y = arg9;
temp_r31->unk18.z = argA;
if (temp_r31->unk2 == 1) {
temp_r31->unk3C->unkC = temp_r31->unk18;
}
}
}
void fn_1_BBB8(s16 arg0, s16 arg1, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct* temp_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r30->unk2 > arg1) {
temp_r31 = &temp_r30->unk3C[arg1];
temp_r31->unkC.x = arg8;
temp_r31->unkC.y = arg9;
temp_r31->unkC.z = argA;
}
}
}
void fn_1_BC28(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
s32 var_r29;
unkSubStruct* var_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
var_r31 = temp_r30->unk3C;
for (var_r29 = 0; var_r29 < temp_r30->unk2; var_r29++, var_r31++) {
var_r31->unkC.x = arg8;
var_r31->unkC.y = arg9;
var_r31->unkC.z = argA;
}
}
}
void fn_1_BC9C(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r31->unk24.x = arg8;
temp_r31->unk24.y = arg9;
temp_r31->unk24.z = argA;
if (temp_r31->unk2 == 1) {
temp_r31->unk3C->unk18 = temp_r31->unk24;
}
}
}
void fn_1_BD08(s16 arg0, s16 arg1, f32 arg8, f32 arg9, f32 argA) {
unkSubStruct* temp_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r30->unk2 > arg1) {
temp_r31 = &temp_r30->unk3C[arg1];
temp_r31->unk18.x = arg8;
temp_r31->unk18.y = arg9;
temp_r31->unk18.z = argA;
}
}
}
void fn_1_BD78(s16 arg0, f32 arg8, f32 arg9, f32 argA) {
s32 var_r29;
unkSubStruct* var_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
var_r31 = temp_r30->unk3C;
for (var_r29 = 0; var_r29 < temp_r30->unk2; var_r29++, var_r31++) {
var_r31->unk18.x = arg8;
var_r31->unk18.y = arg9;
var_r31->unk18.z = argA;
}
}
}
void fn_1_BDEC(s16 arg0, s32 arg1) {
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r31->unk8 |= arg1;
}
}
void fn_1_BE30(s16 arg0, s16 arg1, s32 arg2) {
unkSubStruct* temp_r30;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
temp_r30 = &temp_r31->unk3C[arg1];
temp_r30->unk34 |= arg2;
}
}
}
void fn_1_BEA0(s16 arg0, s32 arg1) {
s32 var_r30;
unkSubStruct* temp_r29;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r29 = temp_r31->unk3C;
for (var_r30 = 0; var_r30 < temp_r31->unk2; var_r30++) {
temp_r29->unk34 |= arg1;
}
}
}
void fn_1_BF10(s16 arg0, u32 arg1) {
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r31->unk8 &= ~arg1;
}
}
void fn_1_BF54(s16 arg0, s16 arg1, u32 arg2) {
unkSubStruct* temp_r30;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
temp_r30 = &temp_r31->unk3C[arg1];
temp_r30->unk34 &= ~arg2;
}
}
}
void fn_1_BFC4(s16 arg0, u32 arg1) {
s32 var_r30;
unkSubStruct* temp_r29;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
temp_r29 = temp_r31->unk3C;
for (var_r30 = 0; var_r30 < temp_r31->unk2; var_r30++) {
temp_r29->unk34 &= ~arg1;
}
}
}
s32 fn_1_C034(s16 arg0, s32 arg1) {
unkSubStruct2* temp_r31;
if (arg0 == 0) {
return 0;
}
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if ((temp_r31->unk8 & arg1) != 0) {
return 1;
}
return 0;
}
s16 fn_1_C090(s16 arg0, s16 arg1, s32 arg2) {
unkSubStruct* temp_r30;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
temp_r30 = &temp_r31->unk3C[arg1];
if ((temp_r30->unk34 & arg2) != 0) {
arg0 = 1;
} else {
arg0 = 0;
}
}
}
return arg0;
}
void fn_1_C110(s16 arg0, s16 arg1, u8 arg2, u8 arg3, u8 arg4, u8 arg5) {
unkSubStruct* temp_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r30->unk2 > arg1) {
temp_r31 = &temp_r30->unk3C[arg1];
temp_r31->unk50.r = arg2;
temp_r31->unk50.g = arg3;
temp_r31->unk50.b = arg4;
temp_r31->unk50.a = arg5;
}
}
}
void fn_1_C184(s16 arg0, u8 arg1, u8 arg2, u8 arg3, u8 arg4) {
s32 var_r29;
unkSubStruct* var_r31;
unkSubStruct2* temp_r30;
if (arg0 != 0) {
temp_r30 = &lbl_1_bss_36C.unk40[arg0];
var_r31 = temp_r30->unk3C;
for (var_r29 = 0; var_r29 < temp_r30->unk2; var_r29++, var_r31++) {
var_r31->unk50.r = arg1;
var_r31->unk50.g = arg2;
var_r31->unk50.b = arg3;
var_r31->unk50.a = arg4;
}
}
}
void fn_1_C1FC(s16 arg0, s16 arg1, u8 arg2) {
unkSubStruct* temp_r30;
unkSubStruct2* temp_r31;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
temp_r30 = &temp_r31->unk3C[arg1];
temp_r30->unk30 = arg2;
}
}
}
void fn_1_C264(s16 arg0, u8 arg1) {
s32 var_r29;
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
var_r30 = temp_r31->unk3C;
for (var_r29 = 0; var_r29 < temp_r31->unk2; var_r29++, var_r30++) {
var_r30->unk30 = arg1;
}
}
}
void fn_1_C2D0(s16 arg0, s16 arg1, u8 arg2) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk31 = arg2;
}
}
}
void fn_1_C338(s16 arg0, u8 arg1) {
s32 var_r29;
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
var_r30 = temp_r31->unk3C;
for (var_r29 = 0; var_r29 < temp_r31->unk2; var_r29++, var_r30++) {
var_r30->unk31 = arg1;
}
}
}
void fn_1_C3A4(s16 arg0, s16 arg1, u8 arg2) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk54->unk24 = arg2;
}
}
}
void fn_1_C410(s16 arg0, s16 arg1, u8 arg2, u8 arg3) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk54[arg2].unk24 = arg3;
}
}
}
void fn_1_C488(s16 arg0, u8 arg1) {
s32 var_r28;
s32 var_r30;
unkSubStruct* var_r31;
unkSubStruct2* temp_r29;
if (arg0 != 0) {
temp_r29 = &lbl_1_bss_36C.unk40[arg0];
var_r31 = (unkSubStruct*)&temp_r29->unk3C; //! BAD WHY
(void)temp_r29;
for (var_r28 = 0; var_r28 < temp_r29->unk2; var_r28++, var_r31++) {
for (var_r30 = 0; var_r30 < var_r31->unk33; var_r30++) {
var_r31->unk54[var_r30].unk24 = arg1;
}
}
}
}
void fn_1_C520(s16 arg0, s16 arg1, f32 arg8) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk54->unk28 = arg8;
}
}
}
void fn_1_C58C(s16 arg0, s16 arg1, u8 arg2, f32 arg8) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk54[arg2].unk28 = arg8;
}
}
}
void fn_1_C604(s16 arg0, f32 arg8) {
unkSubStruct* volatile sp8;
s32 var_r29;
unkSubStruct2* temp_r31;
s32 var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
sp8 = temp_r31->unk3C;
for (var_r29 = 0; var_r29 < temp_r31->unk2; var_r29++) {
for (var_r30 = 0; var_r30 < sp8->unk33; var_r30++) {
sp8->unk54[var_r30].unk28 = arg8;
}
}
}
}
void fn_1_C69C(s16 arg0, s16 arg1, u8 arg2) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk54->unk0 = arg2;
}
}
}
void fn_1_C70C(s16 arg0, s16 arg1, u8 arg2, u8 arg3) {
unkSubStruct2* temp_r31;
unkSubStruct* var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
if (temp_r31->unk2 > arg1) {
var_r30 = &temp_r31->unk3C[arg1];
var_r30->unk54[arg2].unk0 = arg3;
}
}
}
// ...
void fn_1_C784(s16 arg0, u8 arg1) {
unkSubStruct* volatile sp8;
s32 var_r29;
unkSubStruct2* temp_r31;
s32 var_r30;
if (arg0 != 0) {
temp_r31 = &lbl_1_bss_36C.unk40[arg0];
sp8 = temp_r31->unk3C;
for (var_r29 = 0; var_r29 < temp_r31->unk2; var_r29++) {
for (var_r30 = 0; var_r30 < sp8->unk33; var_r30++) {
sp8->unk54[var_r30].unk0 = arg1;
}
}
}
}
void fn_1_C81C(s16 arg0, u8 arg1) {
unkSubStruct3* var_r31;
if (arg0 != 0) {
var_r31 = &lbl_1_bss_36C.unk3C[arg0];
var_r31->unk4 = arg1;
}
}