tumbledemerald-legacy/src/digit_obj_util.c

451 lines
11 KiB
C
Raw Normal View History

2022-05-19 19:14:13 +02:00
#include "global.h"
#include "digit_obj_util.h"
#include "malloc.h"
#include "decompress.h"
#include "main.h"
#include "battle_main.h"
struct DigitPrinter
{
bool8 isActive;
u8 firstOamId;
u8 strConvMode;
u8 oamCount;
u8 palTagIndex;
u8 size;
u8 shape;
u8 priority;
u8 xDelta;
u8 tilesPerImage;
u16 tileStart;
s16 x;
s16 y;
u16 tileTag;
u16 palTag;
u32 pow10;
s32 lastPrinted;
};
struct DigitPrinterAlloc
{
u32 count;
struct DigitPrinter *array;
};
// this file's functions
static u8 GetFirstOamId(u8 oamCount);
static void CopyWorkToOam(struct DigitPrinter *objWork);
static void DrawNumObjsLeadingZeros(struct DigitPrinter *objWork, s32 num, bool32 sign);
static void DrawNumObjsMinusInFront(struct DigitPrinter *objWork, s32 num, bool32 sign);
static void DrawNumObjsMinusInBack(struct DigitPrinter *objWork, s32 num, bool32 sign);
static bool32 SharesTileWithAnyActive(u32 id);
static bool32 SharesPalWithAnyActive(u32 id);
// ewram
static EWRAM_DATA struct DigitPrinterAlloc *sOamWork = {0};
// const rom data
static const u8 sTilesPerImage[4][4] =
{
[ST_OAM_SQUARE] = {
[ST_OAM_SIZE_0] = 0x01, // SPRITE_SIZE_8x8
[ST_OAM_SIZE_1] = 0x04, // SPRITE_SIZE_16x16
[ST_OAM_SIZE_2] = 0x10, // SPRITE_SIZE_32x32
[ST_OAM_SIZE_3] = 0x40 // SPRITE_SIZE_64x64
},
[ST_OAM_H_RECTANGLE] = {
[ST_OAM_SIZE_0] = 0x02, // SPRITE_SIZE_16x8
[ST_OAM_SIZE_1] = 0x04, // SPRITE_SIZE_32x8
[ST_OAM_SIZE_2] = 0x08, // SPRITE_SIZE_32x16
[ST_OAM_SIZE_3] = 0x20 // SPRITE_SIZE_64x32
},
[ST_OAM_V_RECTANGLE] = {
[ST_OAM_SIZE_0] = 0x02, // SPRITE_SIZE_8x16
[ST_OAM_SIZE_1] = 0x04, // SPRITE_SIZE_8x32
[ST_OAM_SIZE_2] = 0x08, // SPRITE_SIZE_16x32
[ST_OAM_SIZE_3] = 0x20 // SPRITE_SIZE_32x64
}
};
// code
bool32 DigitObjUtil_Init(u32 count)
{
u32 i;
if (sOamWork != NULL)
DigitObjUtil_Free();
sOamWork = Alloc(sizeof(*sOamWork));
if (sOamWork == NULL)
return FALSE;
sOamWork->array = Alloc(sizeof(struct DigitPrinter) * count);
if (sOamWork->array == NULL)
{
Free(sOamWork);
return FALSE;
}
sOamWork->count = count;
for (i = 0; i < count; i++)
{
sOamWork->array[i].isActive = FALSE;
sOamWork->array[i].firstOamId = 0xFF;
}
return TRUE;
}
void DigitObjUtil_Free(void)
{
if (sOamWork != NULL)
{
if (sOamWork->array != NULL)
{
u32 i;
for (i = 0; i < sOamWork->count; i++)
DigitObjUtil_DeletePrinter(i);
Free(sOamWork->array);
}
FREE_AND_SET_NULL(sOamWork);
}
}
bool32 DigitObjUtil_CreatePrinter(u32 id, s32 num, const struct DigitObjUtilTemplate *template)
{
u32 i;
if (sOamWork == NULL)
return FALSE;
if (sOamWork->array[id].isActive)
return FALSE;
sOamWork->array[id].firstOamId = GetFirstOamId(template->oamCount);
if (sOamWork->array[id].firstOamId == 0xFF)
return FALSE;
sOamWork->array[id].tileStart = GetSpriteTileStartByTag(template->spriteSheet->tag);
if (sOamWork->array[id].tileStart == 0xFFFF)
{
if (template->spriteSheet->size != 0)
{
sOamWork->array[id].tileStart = LoadSpriteSheet(template->spriteSheet);
}
else
{
struct CompressedSpriteSheet compSpriteSheet;
compSpriteSheet = *(struct CompressedSpriteSheet*)(template->spriteSheet);
compSpriteSheet.size = GetDecompressedDataSize(template->spriteSheet->data);
sOamWork->array[id].tileStart = LoadCompressedSpriteSheet(&compSpriteSheet);
}
if (sOamWork->array[id].tileStart == 0xFFFF)
return FALSE;
}
sOamWork->array[id].palTagIndex = IndexOfSpritePaletteTag(template->spritePal->tag);
if (sOamWork->array[id].palTagIndex == 0xFF)
sOamWork->array[id].palTagIndex = LoadSpritePalette(template->spritePal);
sOamWork->array[id].strConvMode = template->strConvMode;
sOamWork->array[id].oamCount = template->oamCount;
sOamWork->array[id].x = template->x;
sOamWork->array[id].y = template->y;
sOamWork->array[id].shape = template->shape;
sOamWork->array[id].size = template->size;
sOamWork->array[id].priority = template->priority;
sOamWork->array[id].xDelta = template->xDelta;
sOamWork->array[id].tilesPerImage = GetTilesPerImage(template->shape, template->size);
sOamWork->array[id].tileTag = template->spriteSheet->tag;
sOamWork->array[id].palTag = template->spritePal->tag;
sOamWork->array[id].isActive = TRUE;
// Decimal left shift
sOamWork->array[id].pow10 = 1;
for (i = 1; i < template->oamCount; i++)
sOamWork->array[id].pow10 *= 10;
CopyWorkToOam(&sOamWork->array[id]);
DigitObjUtil_PrintNumOn(id, num);
return TRUE;
}
static void CopyWorkToOam(struct DigitPrinter *objWork)
{
u32 i;
u32 oamId = objWork->firstOamId;
u32 x = objWork->x;
u32 oamCount = objWork->oamCount + 1;
CpuFill16(0, &gMain.oamBuffer[oamId], sizeof(struct OamData) * oamCount);
for (i = 0, oamId = objWork->firstOamId; i < oamCount; i++, oamId++)
{
gMain.oamBuffer[oamId].y = objWork->y;
gMain.oamBuffer[oamId].x = x;
gMain.oamBuffer[oamId].shape = objWork->shape;
gMain.oamBuffer[oamId].size = objWork->size;
gMain.oamBuffer[oamId].tileNum = objWork->tileStart;
gMain.oamBuffer[oamId].priority = objWork->priority;
gMain.oamBuffer[oamId].paletteNum = objWork->palTagIndex;
x += objWork->xDelta;
}
oamId--;
gMain.oamBuffer[oamId].x = objWork->x - objWork->xDelta;
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
gMain.oamBuffer[oamId].tileNum = objWork->tileStart + (objWork->tilesPerImage * 10);
}
void DigitObjUtil_PrintNumOn(u32 id, s32 num)
{
bool32 sign;
if (sOamWork == NULL)
return;
if (!sOamWork->array[id].isActive)
return;
sOamWork->array[id].lastPrinted = num;
if (num < 0)
{
sign = TRUE;
num *= -1;
}
else
{
sign = FALSE;
}
switch (sOamWork->array[id].strConvMode)
{
case 0:
default:
DrawNumObjsLeadingZeros(&sOamWork->array[id], num, sign);
break;
case 1:
DrawNumObjsMinusInFront(&sOamWork->array[id], num, sign);
break;
case 2:
DrawNumObjsMinusInBack(&sOamWork->array[id], num, sign);
break;
}
}
static void DrawNumObjsLeadingZeros(struct DigitPrinter *objWork, s32 num, bool32 sign)
{
u32 pow10 = objWork->pow10;
u32 oamId = objWork->firstOamId;
while (pow10 != 0)
{
u32 digit = num / pow10;
num -= (digit * pow10);
pow10 /= 10;
gMain.oamBuffer[oamId].tileNum = (digit * objWork->tilesPerImage) + objWork->tileStart;
oamId++;
}
if (sign)
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_OFF;
else
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
}
static void DrawNumObjsMinusInFront(struct DigitPrinter *objWork, s32 num, bool32 sign)
{
u32 pow10 = objWork->pow10;
static int oamId;
static int curDigit;
static int firstDigit;
oamId = objWork->firstOamId;
curDigit = 0;
firstDigit = -1;
while (pow10 != 0)
{
u32 digit = num / pow10;
num -= (digit * pow10);
pow10 /= 10;
if (digit != 0 || firstDigit != -1 || pow10 == 0)
{
gMain.oamBuffer[oamId].tileNum = (digit * objWork->tilesPerImage) + objWork->tileStart;
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_OFF;
if (firstDigit == -1)
firstDigit = curDigit;
}
else
{
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
}
oamId++;
curDigit++;
}
if (sign)
{
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_OFF;
gMain.oamBuffer[oamId].x = objWork->x + ((firstDigit - 1) * objWork->xDelta);
}
else
{
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
}
}
static void DrawNumObjsMinusInBack(struct DigitPrinter *objWork, s32 num, bool32 sign)
{
u32 pow10 = objWork->pow10;
u32 oamId = objWork->firstOamId;
bool32 printingDigits = FALSE;
s32 nsprites = 0;
while (pow10 != 0)
{
u32 digit = num / pow10;
num -= (digit * pow10);
pow10 /= 10;
if (digit != 0 || printingDigits || pow10 == 0)
{
printingDigits = TRUE;
gMain.oamBuffer[oamId].tileNum = (digit * objWork->tilesPerImage) + objWork->tileStart;
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_OFF;
oamId++;
nsprites++;
}
}
while (nsprites < objWork->oamCount)
{
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
oamId++;
nsprites++;
}
if (sign)
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_OFF;
else
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
}
void DigitObjUtil_DeletePrinter(u32 id)
{
s32 oamId, oamCount, i;
if (sOamWork == NULL)
return;
if (!sOamWork->array[id].isActive)
return;
oamCount = sOamWork->array[id].oamCount + 1;
oamId = sOamWork->array[id].firstOamId;
for (i = 0; i < oamCount; i++, oamId++)
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
if (!SharesTileWithAnyActive(id))
FreeSpriteTilesByTag(sOamWork->array[id].tileTag);
if (!SharesPalWithAnyActive(id))
FreeSpritePaletteByTag(sOamWork->array[id].palTag);
sOamWork->array[id].isActive = FALSE;
}
void DigitObjUtil_HideOrShow(u32 id, bool32 hide)
{
s32 oamId, oamCount, i;
if (sOamWork == NULL)
return;
if (!sOamWork->array[id].isActive)
return;
oamCount = sOamWork->array[id].oamCount + 1;
oamId = sOamWork->array[id].firstOamId;
if (hide)
{
for (i = 0; i < oamCount; i++, oamId++)
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_ERASE;
}
else
{
for (i = 0; i < oamCount; i++, oamId++)
gMain.oamBuffer[oamId].affineMode = ST_OAM_AFFINE_OFF;
DigitObjUtil_PrintNumOn(id, sOamWork->array[id].lastPrinted);
}
}
static u8 GetFirstOamId(u8 oamCount)
{
u32 i;
u16 firstOamId = 64;
for (i = 0; i < sOamWork->count; i++)
{
if (!sOamWork->array[i].isActive)
{
if (sOamWork->array[i].firstOamId != 0xFF && sOamWork->array[i].oamCount <= oamCount)
return sOamWork->array[i].firstOamId;
}
else
{
firstOamId += 1 + sOamWork->array[i].oamCount;
}
}
if (firstOamId + oamCount + 1 > 128)
return 0xFF;
else
return firstOamId;
}
static bool32 SharesTileWithAnyActive(u32 id)
{
u32 i;
for (i = 0; i < sOamWork->count; i++)
{
if (sOamWork->array[i].isActive && i != id
&& sOamWork->array[i].tileTag == sOamWork->array[id].tileTag)
{
return TRUE;
}
}
return FALSE;
}
static bool32 SharesPalWithAnyActive(u32 id)
{
u32 i;
for (i = 0; i < sOamWork->count; i++)
{
if (sOamWork->array[i].isActive && i != id
&& sOamWork->array[i].palTag == sOamWork->array[id].palTag)
{
return TRUE;
}
}
return FALSE;
}
u8 GetTilesPerImage(u32 shape, u32 size)
{
return sTilesPerImage[shape][size];
}