pokeemerald/src/rom_81520A8.c
nullableVoidPtr 3909b6408c Fix alloc.c as per #386, define INVALID_ constants and rename malloc to alloc as per #325
Some of the INVALID_ are likely erroneously placed, due to lack of documentation
2018-12-06 09:44:08 +08:00

219 lines
5.8 KiB
C

#include "global.h"
#include "rom_81520A8.h"
#include "alloc.h"
#include "main.h"
#include "rom_8034C54.h"
static EWRAM_DATA struct
{
u8 count;
struct UnkStruct_81520A8 *unk4;
} *sUnknown_0203ABB8 = NULL;
void sub_81520A8(void *dest, u16 value, u8 left, u8 top, u8 width, u8 height) // Unused.
{
u8 i;
u8 j;
u8 x;
u8 y;
for (i = 0, y = top; i < height; i++)
{
for (x = left, j = 0; j < width; j++)
{
*(u16 *)((dest) + (y * 64 + x * 2)) = value;
x = (x + 1) % 32;
}
y = (y + 1) % 32;
}
}
void sub_8152134(void *dest, const u16 *src, u8 left, u8 top, u8 width, u8 height) // Unused.
{
u8 i;
u8 j;
u8 x;
u8 y;
const u16 *_src;
for (i = 0, _src = src, y = top; i < height; i++)
{
for (x = left, j = 0; j < width; j++)
{
*(u16 *)((dest) + (y * 64 + x * 2)) = *(_src++);
x = (x + 1) % 32;
}
y = (y + 1) % 32;
}
}
bool32 sub_81521C0(u8 count)
{
u8 i = 0;
if (count == 0)
return FALSE;
if (count > 64)
count = 64;
sUnknown_0203ABB8 = AllocZeroed(sizeof(*sUnknown_0203ABB8));
if (sUnknown_0203ABB8 == NULL)
return FALSE;
sUnknown_0203ABB8->unk4 = AllocZeroed(count * sizeof(struct UnkStruct_81520A8));
if (sUnknown_0203ABB8->unk4 == NULL)
{
FREE_AND_SET_NULL(sUnknown_0203ABB8);
return FALSE;
}
sUnknown_0203ABB8->count = count;
for (i = 0; i < count; i++)
{
memcpy(&sUnknown_0203ABB8->unk4[i].oam, &gDummyOamData, sizeof(struct OamData));
sUnknown_0203ABB8->unk4[i].unk19_2 = TRUE;
}
return TRUE;
}
bool32 sub_8152254(void)
{
u8 i = 0;
if (sUnknown_0203ABB8 == NULL)
return FALSE;
for (i = 0; i < sUnknown_0203ABB8->count; i++)
memcpy(&gMain.oamBuffer[i + 64], &gDummyOamData, sizeof(struct OamData));
memset(sUnknown_0203ABB8->unk4, 0, sUnknown_0203ABB8->count * sizeof(struct UnkStruct_81520A8));
FREE_AND_SET_NULL(sUnknown_0203ABB8->unk4);
memset(sUnknown_0203ABB8, 0, sizeof(*sUnknown_0203ABB8));
FREE_AND_SET_NULL(sUnknown_0203ABB8);
return TRUE;
}
bool32 sub_81522D4(void)
{
u8 i = 0;
if (sUnknown_0203ABB8 == NULL || sUnknown_0203ABB8->unk4 == NULL)
return FALSE;
for (i = 0; i < sUnknown_0203ABB8->count; i++)
{
if (sUnknown_0203ABB8->unk4[i].unk19_0 && sUnknown_0203ABB8->unk4[i].unk19_1)
{
if (sUnknown_0203ABB8->unk4[i].callback != NULL)
sUnknown_0203ABB8->unk4[i].callback(&sUnknown_0203ABB8->unk4[i]);
if (sUnknown_0203ABB8->unk4[i].unk19_2)
{
memcpy(&gMain.oamBuffer[i + 64], &gDummyOamData, sizeof(struct OamData));
}
else
{
sUnknown_0203ABB8->unk4[i].oam.y = sUnknown_0203ABB8->unk4[i].y + sUnknown_0203ABB8->unk4[i].yDelta;
sUnknown_0203ABB8->unk4[i].oam.x = sUnknown_0203ABB8->unk4[i].x + sUnknown_0203ABB8->unk4[i].xDelta;
sUnknown_0203ABB8->unk4[i].oam.priority = sUnknown_0203ABB8->unk4[i].priority;
sUnknown_0203ABB8->unk4[i].oam.tileNum = sUnknown_0203ABB8->unk4[i].tileNum;
memcpy(&gMain.oamBuffer[i + 64], &sUnknown_0203ABB8->unk4[i], sizeof(struct OamData));
}
}
}
return TRUE;
}
static bool32 sub_81523F4(struct UnkStruct_81520A8 *structPtr, u8 arg1)
{
u16 tileStart;
if (structPtr == NULL)
return FALSE;
tileStart = GetSpriteTileStartByTag(structPtr->tileTag);
if (tileStart == 0xFFFF)
return FALSE;
structPtr->unk18 = arg1;
structPtr->tileNum = (sub_80355F8(structPtr->oam.shape, structPtr->oam.size) * arg1) + tileStart;
return TRUE;
}
u8 sub_8152438(u8 id, void (*func)(struct UnkStruct_81520A8 *))
{
if (sUnknown_0203ABB8 == NULL || id >= sUnknown_0203ABB8->count)
return 0xFF;
else if (!sUnknown_0203ABB8->unk4[id].unk19_0)
return 0xFF;
sUnknown_0203ABB8->unk4[id].callback = func;
return id;
}
u8 sub_8152474(u8 id, u8 dataArrayId, s16 dataValue)
{
if (sUnknown_0203ABB8 == NULL || id >= sUnknown_0203ABB8->count)
return 0xFF;
else if (!sUnknown_0203ABB8->unk4[id].unk19_0 || dataArrayId >= ARRAY_COUNT(sUnknown_0203ABB8->unk4[id].data))
return 0xFF;
sUnknown_0203ABB8->unk4[id].data[dataArrayId] = dataValue;
return id;
}
u8 sub_81524C4(const struct OamData *oam, u16 tileTag, u16 palTag, s16 x, s16 y, u8 arg5, u8 priority)
{
struct UnkStruct_81520A8 *structPtr = NULL;
u8 i;
if (sUnknown_0203ABB8 == NULL || oam == NULL)
return 0xFF;
for (i = 0; i < sUnknown_0203ABB8->count; i++)
{
if (!sUnknown_0203ABB8->unk4[i].unk19_0)
{
structPtr = &sUnknown_0203ABB8->unk4[i];
memset(structPtr, 0, sizeof(*structPtr));
structPtr->id = i;
structPtr->unk19_0 = TRUE;
structPtr->unk19_1 = TRUE;
break;
}
}
if (structPtr == NULL)
return 0xFF;
memcpy(&structPtr->oam, oam, sizeof(*oam));
structPtr->tileTag = tileTag;
structPtr->palTag = palTag;
structPtr->x = x;
structPtr->y = y;
structPtr->oam.paletteNum = IndexOfSpritePaletteTag(palTag);
if (priority < 4)
{
structPtr->priority = priority;
structPtr->oam.priority = priority;
}
sub_81523F4(structPtr, arg5);
return structPtr->id;
}
u8 sub_81525D0(u8 id)
{
if (sUnknown_0203ABB8 == NULL || !sUnknown_0203ABB8->unk4[id].unk19_0)
return 0xFF;
memset(&sUnknown_0203ABB8->unk4[id], 0, sizeof(struct UnkStruct_81520A8));
sUnknown_0203ABB8->unk4[id].oam.y = 160;
sUnknown_0203ABB8->unk4[id].oam.x = 240;
sUnknown_0203ABB8->unk4[id].unk19_2 = TRUE;
memcpy(&gMain.oamBuffer[id + 64], &gDummyOamData, sizeof(struct OamData));
return id;
}