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Applied DATA_MAKE_NUM and MAKE_MESSID macros

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This commit is contained in:
kabiskac 2024-08-09 01:37:36 +02:00
parent c1c506360c
commit a0ebc7588d
116 changed files with 38174 additions and 37156 deletions
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32
src/REL/m409Dll/cursor.c
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@ -13,10 +13,10 @@ void fn_1_BF88(s16 arg0, s16 arg1) {
lbl_1_bss_F0.unk4 = Hu3DHookFuncCreate(fn_1_CB98);
Hu3DModelLayerSet(lbl_1_bss_F0.unk4, 6);
lbl_1_bss_F0.unk0 = arg0;
var_r29 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkStruct8), 0x10000000);
var_r29 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkStruct8), MEMORY_DEFAULT_NUM);
lbl_1_bss_F0.unk10 = var_r29;
lbl_1_bss_F0.unk2 = arg1;
var_r30 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(unkStruct9Sub), 0x10000000);
var_r30 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(unkStruct9Sub), MEMORY_DEFAULT_NUM);
lbl_1_bss_F0.unkC = var_r30;
for (var_r31 = 0; var_r31 < arg0; var_r31++, var_r29++) {
@ -264,7 +264,7 @@ void fn_1_CCF8(unkStruct11** arg0, s16 arg1, f32 arg8, f32 arg9) {
s32 var_r30;
unkStruct11* var_r31;
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(unkStruct11), 0x10000000);
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(unkStruct11), MEMORY_DEFAULT_NUM);
for (var_r30 = 0; var_r30 < arg1; var_r31++, var_r30++) {
var_r31->unk0.x = (-0.5f * arg8);
@ -287,7 +287,7 @@ void fn_1_CE7C(Vec** arg0, s16 arg1, Vec* arg2) {
s32 var_r28;
Vec* var_r31;
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(Vec[4]), 0x10000000);
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(Vec[4]), MEMORY_DEFAULT_NUM);
for (var_r29 = 0; var_r29 < arg1; var_r29++) {
for (var_r28 = 0; var_r28 < 4; var_r31++, arg2++, var_r28++) {
@ -303,7 +303,7 @@ void fn_1_CF1C(GXColor** arg0, s16 arg1, GXColor* arg2) {
s32 var_r28;
GXColor* var_r31;
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(GXColor[4]), 0x10000000U);
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(GXColor[4]), MEMORY_DEFAULT_NUM);
for (var_r29 = 0; var_r29 < arg1; var_r29++) {
for (var_r28 = 0; var_r28 < 4; var_r31++, arg2++, var_r28++) {
@ -319,7 +319,7 @@ void fn_1_CFC4(Vec** arg0, s16 arg1, Vec* arg2) {
s32 var_r29;
Vec* var_r31;
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(Vec), 0x10000000U);
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(Vec), MEMORY_DEFAULT_NUM);
for (var_r29 = 0; var_r29 < arg1; var_r31++, arg2++, var_r29++) {
var_r31->x = arg2->x;
@ -333,7 +333,7 @@ void fn_1_D050(HsfVector2f** arg0, s16 arg1, HsfVector2f* arg2) {
s32 var_r29;
HsfVector2f* var_r31;
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(HsfVector2f[4]), 0x10000000U);
var_r31 = *arg0 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(HsfVector2f[4]), MEMORY_DEFAULT_NUM);
for (var_r28 = 0; var_r28 < arg1; var_r28++) {
for (var_r29 = 0; var_r29 < 4; var_r31++, arg2++, var_r29++) {
@ -371,14 +371,14 @@ void fn_1_D0E8(unkStruct8Sub* arg0) {
if (arg0->unk48 != NULL) {
HuMemDirectFree(arg0->unk48);
}
arg0->unk48 = HuMemDirectMallocNum(HEAP_SYSTEM, sizeof(Vec), 0x10000000);
arg0->unk48 = HuMemDirectMallocNum(HEAP_SYSTEM, sizeof(Vec), MEMORY_DEFAULT_NUM);
arg0->unk48->x = 0.0f;
arg0->unk48->y = 0.0f;
arg0->unk48->z = 1.0f;
if (arg0->unk3C != NULL) {
HuMemDirectFree(arg0->unk3C);
}
temp_r3_3 = HuMemDirectMallocNum(HEAP_SYSTEM, 0x1000, 0x10000000);
temp_r3_3 = HuMemDirectMallocNum(HEAP_SYSTEM, 0x1000, MEMORY_DEFAULT_NUM);
arg0->unk3C = temp_r3_3;
DCFlushRange(arg0->unk3C, 0x1000);
GXBeginDisplayList(temp_r3_3, 0x1000);
@ -526,9 +526,9 @@ s16 fn_1_DA48(u8 arg0, u8 arg1) {
var_r30->unk30 = NULL;
var_r30->unk2 = arg0;
var_r30->unk4 = arg1;
var_r31 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkStruct8Sub), 0x10000000);
var_r31 = HuMemDirectMallocNum(HEAP_SYSTEM, arg0 * sizeof(unkStruct8Sub), MEMORY_DEFAULT_NUM);
var_r30->unk3C = var_r31;
var_r30->unk34 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(s16), 0x10000000);
var_r30->unk34 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(s16), MEMORY_DEFAULT_NUM);
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 = 0.0f;
var_r30->unk24.x = var_r30->unk24.y = var_r30->unk24.z = 1.0f;
@ -551,7 +551,7 @@ s16 fn_1_DA48(u8 arg0, u8 arg1) {
var_r31->unk4C.a = 0xFF;
var_r31->unk50.r = var_r31->unk50.g = var_r31->unk50.b = 0xFF;
var_r31->unk50.a = 0xFF;
var_r31->unk54 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(unkStruct12), 0x10000000);
var_r31->unk54 = HuMemDirectMallocNum(HEAP_SYSTEM, arg1 * sizeof(unkStruct12), MEMORY_DEFAULT_NUM);
for (var_r28 = 0; var_r28 < arg1; var_r28++) {
var_r31->unk54[var_r28].unk0 = var_r31->unk54[var_r28].unk1 = 0;
@ -644,7 +644,7 @@ s16 fn_1_DF20(u32 arg0, s16 arg1, s16 arg2) {
}
var_r31->unk8 = arg0;
var_r31->unk6 = 1;
temp_r30 = HuSprAnimRead(HuDataReadNum(arg0, 0x10000000));
temp_r30 = HuSprAnimRead(HuDataReadNum(arg0, MEMORY_DEFAULT_NUM));
if ((arg1 == 0) || (arg2 == 0)) {
arg1 = temp_r30->bmp->sizeX;
arg2 = temp_r30->bmp->sizeY;
@ -716,7 +716,7 @@ s32 fn_1_E2A8(s16 arg0, u8 arg1, u32 arg2, s16 arg3, s16 arg4) {
}
temp_f30 = temp_r30->unk50;
temp_f31 = temp_r30->unk4E;
var_r29 = var_r28->unk40 = HuMemDirectMallocNum(HEAP_SYSTEM, 0x30, 0x10000000);
var_r29 = var_r28->unk40 = HuMemDirectMallocNum(HEAP_SYSTEM, 0x30, MEMORY_DEFAULT_NUM);
for (var_r25 = 0; var_r25 < 1; var_r29++, var_r25++) {
var_r29->unk0.x = (-0.5f * temp_f31);
@ -739,7 +739,7 @@ s32 fn_1_E2A8(s16 arg0, u8 arg1, u32 arg2, s16 arg3, s16 arg4) {
temp_r31->unkC = 1.0f;
temp_r31->unk10 = 0.0f;
if (temp_r31->unk4 == NULL) {
temp_r31->unk4 = HuMemDirectMallocNum(HEAP_SYSTEM, 0x20, 0x10000000U);
temp_r31->unk4 = HuMemDirectMallocNum(HEAP_SYSTEM, 0x20, MEMORY_DEFAULT_NUM);
}
temp_r31->unk4[0].x = temp_r31->unk0 * temp_r30->unk54;
temp_r31->unk4[0].y = temp_r31->unk0 * temp_r30->unk58;
@ -1205,4 +1205,4 @@ void fn_1_F4F0(s16 arg0, u8 arg1) {
}
}
}
}
}