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|
#include "BH/Common.h"
#include <BH/Bitmap.h>
#include <stdlib.h>
#include <string.h>
#define MIN(a,b) ((a)<(b)?(a):(b))
#define MAX(a,b) ((a)>(b)?(a):(b))
#define TYPE_PACKED 0x0000
#define TYPE_INDEX 0x0100
#define TYPE_ARRAY 0x0200
#define TYPE_PACKED8 (0x00 | TYPE_PACKED)
#define TYPE_PACKED16 (0x01 | TYPE_PACKED)
#define TYPE_PACKED32 (0x02 | TYPE_PACKED)
#define TYPE_PACKED64 (0x03 | TYPE_PACKED)
#define TYPE_INDEX1 (0x00 | TYPE_INDEX)
#define TYPE_INDEX2 (0x01 | TYPE_INDEX)
#define TYPE_INDEX4 (0x02 | TYPE_INDEX)
#define TYPE_INDEX8 (0x03 | TYPE_INDEX)
#define TYPE_ARRAY8 (0x00 | TYPE_ARRAY)
#define TYPE_ARRAY16 (0x01 | TYPE_ARRAY)
typedef struct FormatInfo
{
int type;
size_t channels;
uint16_t masks[4];
uint8_t shifts[8];
size_t size;
} FormatInfo;
struct BH_Bitmap
{
uint32_t width;
uint32_t height;
int format;
const FormatInfo *formatInfo;
int flags;
size_t stride;
uint8_t *data;
BH_Color *palette;
};
static const struct FormatInfo formats[] =
{
/* BH_BITMAP_INDEX1 */
{TYPE_INDEX1, 7, {0x0001}, {7, 6, 5, 4, 3, 2, 1, 0}, 0},
/* BH_BITMAP_INDEX1_LSB */
{TYPE_INDEX1, 7, {0x0001}, {0, 1, 2, 3, 4, 5, 6, 7}, 0},
/* BH_BITMAP_INDEX2 */
{TYPE_INDEX2, 3, {0x0003}, {3, 2, 1, 0}, 0},
/* BH_BITMAP_INDEX2_LSB */
{TYPE_INDEX2, 3, {0x0003}, {0, 1, 2, 3}, 0},
/* BH_BITMAP_INDEX4 */
{TYPE_INDEX4, 1, {0x000F}, {1, 0}, 0},
/* BH_BITMAP_INDEX4_LSB */
{TYPE_INDEX4, 1, {0x000F}, {0, 1}, 0},
/* BH_BITMAP_INDEX8 */
{TYPE_INDEX8, 0, {0x00FF}, {0}, 1},
/* BH_BITMAP_GRAY8 */
{TYPE_PACKED8, 1, {0x00FF}, {0}, 1},
/* BH_BITMAP_GRAY16 */
{TYPE_PACKED16, 1, {0xFFFF}, {0}, 2},
/* BH_BITMAP_RGBA32 */
{TYPE_PACKED32, 4, {0x00FF, 0x00FF, 0x00FF, 0x00FF}, {16, 8, 0, 24}, 4},
/* BH_BITMAP_RGBA64 */
{TYPE_PACKED64, 4, {0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF}, {32, 16, 0, 48}, 8},
/* BH_BITMAP_RGB565 */
{TYPE_PACKED16, 3, {0x001F, 0x003F, 0x001F}, {11, 5, 0}, 2},
/* BH_BITMAP_BGR565 */
{TYPE_PACKED16, 3, {0x001F, 0x003F, 0x001F}, {0, 5, 11}, 2},
/* BH_BITMAP_RGBA5551 */
{TYPE_PACKED16, 4, {0x001F, 0x001F, 0x001F, 0x0001}, {11, 6, 1, 0}, 2},
/* BH_BITMAP_BGRA5551 */
{TYPE_PACKED16, 4, {0x001F, 0x001F, 0x001F, 0x0001}, {1, 6, 11, 0}, 2},
/* BH_BITMAP_ARGB1555 */
{TYPE_PACKED16, 4, {0x001F, 0x001F, 0x001F, 0x0001}, {10, 5, 0, 15}, 2},
/* BH_BITMAP_ABGR1555 */
{TYPE_PACKED16, 4, {0x001F, 0x001F, 0x001F, 0x0001}, {0, 5, 10, 15}, 2},
/* BH_BITMAP_RGB888 */
{TYPE_ARRAY8, 3, {0x00FF, 0x00FF, 0x00FF}, {0, 1, 2}, 3},
/* BH_BITMAP_BGR888 */
{TYPE_ARRAY8, 3, {0x00FF, 0x00FF, 0x00FF}, {2, 1, 0}, 3},
/* BH_BITMAP_RGBA8888 */
{TYPE_ARRAY8, 4, {0x00FF, 0x00FF, 0x00FF, 0x00FF}, {0, 1, 2, 3}, 4},
/* BH_BITMAP_BGRA8888 */
{TYPE_ARRAY8, 4, {0x00FF, 0x00FF, 0x00FF, 0x00FF}, {2, 1, 0, 3}, 4},
/* BH_BITMAP_ARGB8888 */
{TYPE_ARRAY8, 4, {0x00FF, 0x00FF, 0x00FF, 0x00FF}, {1, 2, 3, 0}, 4},
/* BH_BITMAP_ABGR8888 */
{TYPE_ARRAY8, 4, {0x00FF, 0x00FF, 0x00FF, 0x00FF}, {3, 2, 1, 0}, 4},
/* BH_BITMAP_RGB161616 */
{TYPE_ARRAY16, 3, {0xFFFF, 0xFFFF, 0xFFFF}, {0, 1, 2}, 6},
/* BH_BITMAP_BGR161616 */
{TYPE_ARRAY16, 3, {0xFFFF, 0xFFFF, 0xFFFF}, {2, 1, 0}, 6},
/* BH_BITMAP_RGBA16161616 */
{TYPE_ARRAY16, 4, {0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF}, {0, 1, 2, 3}, 8},
/* BH_BITMAP_BGRA16161616 */
{TYPE_ARRAY16, 4, {0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF}, {2, 1, 0, 3}, 8},
/* BH_BITMAP_ARGB16161616 */
{TYPE_ARRAY16, 4, {0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF}, {1, 2, 3, 0}, 8},
/* BH_BITMAP_ABGR16161616 */
{TYPE_ARRAY16, 4, {0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF}, {3, 2, 1, 0}, 8},
/* BH_BITMAP_RGBA1010102 */
{TYPE_PACKED32, 4, {0x03FF, 0x03FF, 0x03FF, 0x0003}, {22, 12, 2, 0}, 4},
/* BH_BITMAP_BGRA1010102 */
{TYPE_PACKED32, 4, {0x03FF, 0x03FF, 0x03FF, 0x0003}, {2, 12, 22, 0}, 4},
/* BH_BITMAP_ARGB2101010 */
{TYPE_PACKED32, 4, {0x03FF, 0x03FF, 0x03FF, 0x0003}, {20, 10, 0, 30}, 4},
/* BH_BITMAP_ABGR2101010 */
{TYPE_PACKED32, 4, {0x03FF, 0x03FF, 0x03FF, 0x0003}, {0, 10, 20, 30}, 4},
};
static uint16_t normilize(uint16_t mask,
uint16_t value)
{
return ((uint32_t)(value & mask) * 65535) / mask;
}
static uint16_t denormilize(uint16_t mask,
uint16_t value)
{
return (((uint32_t)(value * mask)) / 65535) & mask;
}
static size_t bestPaletteIndex(BH_Color *color,
const BH_Color *palette,
const FormatInfo *formatInfo)
{
uint32_t bestError = -1;
size_t i, bestIndex = 0, paletteSize;
switch (formatInfo->type)
{
case TYPE_INDEX1: paletteSize = 2; break;
case TYPE_INDEX2: paletteSize = 4; break;
case TYPE_INDEX4: paletteSize = 16; break;
case TYPE_INDEX8: paletteSize = 256; break;
}
for (i = 0; i < paletteSize; ++i) {
int32_t delta[4];
uint32_t currentError;
switch (palette[i].type)
{
case BH_COLOR_TYPE_HSLA: BH_ColorToHSLA(color, color); break;
case BH_COLOR_TYPE_HSVA: BH_ColorToHSVA(color, color); break;
case BH_COLOR_TYPE_RGBA: BH_ColorToRGBA(color, color); break;
}
delta[0] = (int32_t)color->data.channel[0] - palette[i].data.channel[0];
delta[1] = (int32_t)color->data.channel[1] - palette[i].data.channel[1];
delta[2] = (int32_t)color->data.channel[2] - palette[i].data.channel[2];
delta[3] = (int32_t)color->data.channel[3] - palette[i].data.channel[3];
currentError = delta[0] * delta[0] + delta[1] * delta[1] +
delta[2] * delta[2] + delta[3] * delta[3];
if (currentError < bestError)
{
bestError = currentError;
bestIndex = i;
}
}
return bestIndex;
}
static void readPacked(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
uint64_t raw;
switch (formatInfo->type)
{
case TYPE_PACKED8: raw = *(uint8_t *)data; break;
case TYPE_PACKED16: raw = *(uint16_t *)data; break;
case TYPE_PACKED32: raw = *(uint32_t *)data; break;
case TYPE_PACKED64: raw = *(uint64_t *)data; break;
}
switch (formatInfo->channels)
{
case 4: value->data.channel[3] = normilize(formatInfo->masks[3], raw >> formatInfo->shifts[3]);
case 3: value->data.channel[2] = normilize(formatInfo->masks[2], raw >> formatInfo->shifts[2]);
case 2: value->data.channel[1] = normilize(formatInfo->masks[1], raw >> formatInfo->shifts[1]);
case 1: value->data.channel[0] = normilize(formatInfo->masks[0], raw >> formatInfo->shifts[0]);
}
}
static void writePacked(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
uint64_t raw;
raw = 0;
switch (formatInfo->channels)
{
case 4: raw |= (uint64_t)denormilize(formatInfo->masks[3], value->data.channel[3]) << formatInfo->shifts[3];
case 3: raw |= (uint64_t)denormilize(formatInfo->masks[2], value->data.channel[2]) << formatInfo->shifts[2];
case 2: raw |= (uint64_t)denormilize(formatInfo->masks[1], value->data.channel[1]) << formatInfo->shifts[1];
case 1: raw |= (uint64_t)denormilize(formatInfo->masks[0], value->data.channel[0]) << formatInfo->shifts[0];
}
switch (formatInfo->type)
{
case TYPE_PACKED8: *(uint8_t *)data = raw; break;
case TYPE_PACKED16: *(uint16_t *)data = raw; break;
case TYPE_PACKED32: *(uint32_t *)data = raw; break;
case TYPE_PACKED64: *(uint64_t *)data = raw; break;
}
}
static void readArray8(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
switch (formatInfo->channels)
{
case 4: value->data.channel[3] = normilize(formatInfo->masks[3], ((uint8_t *)data)[formatInfo->shifts[3]]);
case 3: value->data.channel[2] = normilize(formatInfo->masks[2], ((uint8_t *)data)[formatInfo->shifts[2]]);
case 2: value->data.channel[1] = normilize(formatInfo->masks[1], ((uint8_t *)data)[formatInfo->shifts[1]]);
case 1: value->data.channel[0] = normilize(formatInfo->masks[0], ((uint8_t *)data)[formatInfo->shifts[0]]);
}
}
static void writeArray8(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
switch (formatInfo->channels)
{
case 4: ((uint8_t *)data)[formatInfo->shifts[3]] = denormilize(formatInfo->masks[3], value->data.channel[3]);
case 3: ((uint8_t *)data)[formatInfo->shifts[2]] = denormilize(formatInfo->masks[2], value->data.channel[2]);
case 2: ((uint8_t *)data)[formatInfo->shifts[1]] = denormilize(formatInfo->masks[1], value->data.channel[1]);
case 1: ((uint8_t *)data)[formatInfo->shifts[0]] = denormilize(formatInfo->masks[0], value->data.channel[0]);
}
}
static void readArray16(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
value->type = BH_COLOR_TYPE_RGBA;
switch (formatInfo->channels)
{
case 4: value->data.channel[3] = normilize(formatInfo->masks[3], ((uint16_t *)data)[formatInfo->shifts[3]]);
case 3: value->data.channel[2] = normilize(formatInfo->masks[2], ((uint16_t *)data)[formatInfo->shifts[2]]);
case 2: value->data.channel[1] = normilize(formatInfo->masks[1], ((uint16_t *)data)[formatInfo->shifts[1]]);
case 1: value->data.channel[0] = normilize(formatInfo->masks[0], ((uint16_t *)data)[formatInfo->shifts[0]]);
}
}
static void writeArray16(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
switch (formatInfo->channels)
{
case 4: ((uint16_t *)data)[formatInfo->shifts[3]] = denormilize(formatInfo->masks[3], value->data.channel[3]);
case 3: ((uint16_t *)data)[formatInfo->shifts[2]] = denormilize(formatInfo->masks[2], value->data.channel[2]);
case 2: ((uint16_t *)data)[formatInfo->shifts[1]] = denormilize(formatInfo->masks[1], value->data.channel[1]);
case 1: ((uint16_t *)data)[formatInfo->shifts[0]] = denormilize(formatInfo->masks[0], value->data.channel[0]);
}
}
static void readArray(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
switch (formatInfo->type)
{
case TYPE_ARRAY8: readArray8(formatInfo, data, value); break;
case TYPE_ARRAY16: readArray16(formatInfo, data, value); break;
}
}
static void writeArray(const FormatInfo *formatInfo,
void *data,
BH_Color *value)
{
switch (formatInfo->type)
{
case TYPE_ARRAY8: writeArray8(formatInfo, data, value); break;
case TYPE_ARRAY16: writeArray16(formatInfo, data, value); break;
}
}
static uint8_t readIndex(const FormatInfo *formatInfo,
void *data,
int x)
{
uint8_t value = *(uint8_t *)data;
return (value >> formatInfo->shifts[x & formatInfo->channels]) & formatInfo->masks[0];
}
static void writeIndex(const FormatInfo *formatInfo,
void *data,
int x,
uint8_t index)
{
uint8_t mask = ~(formatInfo->masks[0] << formatInfo->shifts[x & formatInfo->channels]);
uint8_t value = (index & formatInfo->masks[0]) << formatInfo->shifts[x & formatInfo->channels];
*(uint8_t *)data = (*(uint8_t *)data & mask) | value;
}
static void readData(const FormatInfo *formatInfo,
void *data,
int x,
BH_Color *value,
const BH_Color *palette)
{
switch (formatInfo->type & 0x0F00)
{
case TYPE_PACKED:
readPacked(formatInfo, data, value);
value->type = BH_COLOR_TYPE_RGBA;
break;
case TYPE_INDEX:
*value = palette[readIndex(formatInfo, data, x)];
break;
case TYPE_ARRAY:
readArray(formatInfo, data, value);
value->type = BH_COLOR_TYPE_RGBA;
break;
}
}
static void writeData(const FormatInfo *formatInfo,
void *data,
int x,
BH_Color *value,
const BH_Color *palette)
{
switch (formatInfo->type & 0x0F00)
{
case TYPE_PACKED:
BH_ColorToRGBA(value, value);
writePacked(formatInfo, data, value);
break;
case TYPE_INDEX:
writeIndex(formatInfo, data, x, bestPaletteIndex(value, palette, formatInfo));
break;
case TYPE_ARRAY:
BH_ColorToRGBA(value, value);
writeArray(formatInfo, data, value);
break;
}
}
static void *rowAt(const FormatInfo *formatInfo,
void *data,
uint32_t x)
{
switch (formatInfo->type)
{
case TYPE_INDEX1: return (uint8_t *)data + x / 8;
case TYPE_INDEX2: return (uint8_t *)data + x / 4;
case TYPE_INDEX4: return (uint8_t *)data + x / 2;
default: return (uint8_t *)data + formatInfo->size * x;
}
}
static size_t calculateStride(const FormatInfo *formatInfo,
uint32_t width)
{
switch (formatInfo->type)
{
case TYPE_INDEX1: return (width + 7) / 8;
case TYPE_INDEX2: return (width + 3) / 4;
case TYPE_INDEX4: return (width + 1) / 2;
}
if (BH_CHECK_UMUL_WRAP(formatInfo->size, width, size_t))
return 0;
return formatInfo->size * width;
}
static int isPaletteNeeded(const FormatInfo *formatInfo)
{
switch (formatInfo->type)
{
case TYPE_INDEX1:
case TYPE_INDEX2:
case TYPE_INDEX4:
case TYPE_INDEX8:
return 1;
}
return 0;
}
static size_t calculateTrailer(const FormatInfo *formatInfo)
{
switch (formatInfo->type)
{
case TYPE_INDEX1: return sizeof(BH_Color) * 2;
case TYPE_INDEX2: return sizeof(BH_Color) * 4;
case TYPE_INDEX4: return sizeof(BH_Color) * 16;
case TYPE_INDEX8: return sizeof(BH_Color) * 256;
}
return 0;
}
BH_Bitmap *BH_BitmapNew(uint32_t width,
uint32_t height,
int format,
int flags,
void *data,
BH_Color *palette,
int *result)
{
const FormatInfo *formatInfo;
size_t header, body, allocSize, stride;
int needPalette, code;
BH_Bitmap *bitmap;
bitmap = NULL;
code = BH_OK;
formatInfo = formats + (format & 0x0FFF);
/* Basic checks and format validation */
if (width == 0 || width >= 0x7FFFFFFF ||
height == 0 || height >= 0x7FFFFFFF ||
(format & 0x0FFF) > sizeof(formats) / sizeof(FormatInfo))
{
code = BH_INVALID;
goto done;
}
/* Unset internal flags */
flags &= ~BH_BITMAP_FLAG_EXT_DATA;
flags &= ~BH_BITMAP_FLAG_EXT_PALETTE;
/* Calculate size of the bitmap with headers */
stride = calculateStride(formatInfo, width);
needPalette = isPaletteNeeded(formatInfo);
/* Check stride overflow */
if (!stride)
{
code = BH_ERROR;
goto done;
}
if (flags & BH_BITMAP_FLAG_ALIGN32)
{
if (BH_CHECK_UADD_WRAP(stride, sizeof(uint32_t) - 1, size_t))
{
code = BH_ERROR;
goto done;
}
stride = (stride + sizeof(uint32_t) - 1) & ~(sizeof(uint32_t) - 1);
}
header = sizeof(*bitmap);
header = (header + (sizeof(uint64_t) - 1)) & ~(sizeof(uint64_t) - 1);
allocSize = calculateTrailer(formatInfo);
body = stride * height;
if (BH_CHECK_UMUL_WRAP(stride, height, size_t) ||
BH_CHECK_UADD_WRAP(body, sizeof(uint32_t) - 1, size_t))
{
code = BH_ERROR;
goto done;
}
body = (body + (sizeof(uint32_t) - 1)) & ~(sizeof(uint32_t) - 1);
/* Adjust body and trailer size if ext data or palette is provided */
if (palette)
{
flags |= BH_BITMAP_FLAG_EXT_PALETTE;
allocSize = 0;
}
if (data)
{
flags |= BH_BITMAP_FLAG_EXT_DATA;
body = 0;
}
if (BH_CHECK_UADD_WRAP(allocSize, header, size_t) ||
BH_CHECK_UADD_WRAP(allocSize + header, body, size_t))
{
code = BH_ERROR;
goto done;
}
allocSize += header + body;
/* Allocate and setup bitmap data */
bitmap = malloc(allocSize);
if (!bitmap)
{
code = BH_OOM;
goto done;
}
if (!data)
data = (uint8_t *)bitmap + header;
if (!palette && needPalette)
palette = (BH_Color *)((uint8_t *)bitmap + header + body);
bitmap->width = width;
bitmap->height = height;
bitmap->format = format;
bitmap->formatInfo = formatInfo;
bitmap->flags = flags;
bitmap->stride = stride;
bitmap->data = data;
bitmap->palette = palette;
done:
if (result)
*result = code;
return bitmap;
}
void BH_BitmapFree(BH_Bitmap *bitmap)
{
free(bitmap);
}
void BH_BitmapColor(const BH_Bitmap *bitmap,
uint32_t x,
uint32_t y,
BH_Color *value)
{
readData(bitmap->formatInfo, BH_BitmapAt(bitmap, x, y), x, value, bitmap->palette);
if (bitmap->format & BH_BITMAP_NOALPHA || bitmap->formatInfo->channels < 4)
value->data.rgba.a = 65535;
}
void BH_BitmapSetColor(BH_Bitmap *bitmap,
uint32_t x,
uint32_t y,
const BH_Color *value)
{
BH_Color tmp;
tmp = *value;
if (bitmap->format & BH_BITMAP_NOALPHA || bitmap->formatInfo->channels < 4)
tmp.data.rgba.a = 65535;
writeData(bitmap->formatInfo, BH_BitmapAt(bitmap, x, y), x, &tmp, bitmap->palette);
}
BH_Bitmap *BH_BitmapCopy(BH_Bitmap *bitmap,
uint32_t x,
uint32_t y,
uint32_t width,
uint32_t height,
int shallow,
int *result)
{
BH_Bitmap *resultBitmap;
uint32_t i, j;
/* Sanity checks */
if (!width || !height || x >= bitmap->width || y >= bitmap->height)
return NULL;
if (width < bitmap->width - x || height < bitmap->height - y)
return NULL;
/* Shallow copy can't go out of bounds of the source bitmap */
if (shallow)
{
resultBitmap = BH_BitmapNew(width, height, bitmap->format, bitmap->flags,
BH_BitmapAt(bitmap, x, y), bitmap->palette,
result);
resultBitmap->stride = bitmap->stride;
return resultBitmap;
}
/* Deep copy of the bitmap */
resultBitmap = BH_BitmapNew(width, height, bitmap->format, bitmap->flags,
NULL, NULL, result);
if (!resultBitmap)
return NULL;
/* Copy the palette if neccesery */
if (resultBitmap->palette)
memcpy(resultBitmap->palette, bitmap->palette, sizeof(uint32_t) * 256);
for (j = 0; j < height; ++j)
{
for (i = 0; i < width; ++i)
{
BH_Color color;
BH_BitmapColor(bitmap, i + x, j + y, &color);
BH_BitmapSetColor(resultBitmap, i, j, &color);
}
}
return resultBitmap;
}
uint8_t BH_BitmapIndex(const BH_Bitmap *bitmap,
uint32_t x,
uint32_t y)
{
return readIndex(bitmap->formatInfo, BH_BitmapAt(bitmap, x, y), x);
}
void BH_BitmapSetIndex(BH_Bitmap *bitmap,
uint32_t x,
uint32_t y,
uint8_t index)
{
writeIndex(bitmap->formatInfo, BH_BitmapAt(bitmap, x, y), x, index);
}
void *BH_BitmapScanline(const BH_Bitmap *bitmap,
uint32_t y)
{
return bitmap->data + y * bitmap->stride;
}
void *BH_BitmapAt(const BH_Bitmap *bitmap,
uint32_t x,
uint32_t y)
{
return rowAt(bitmap->formatInfo, BH_BitmapScanline(bitmap, y), x);
}
uint32_t BH_BitmapWidth(BH_Bitmap *bitmap)
{
return bitmap->width;
}
uint32_t BH_BitmapHeight(BH_Bitmap *bitmap)
{
return bitmap->height;
}
int BH_BitmapFormat(BH_Bitmap *bitmap)
{
return bitmap->format;
}
size_t BH_BitmapStride(BH_Bitmap *bitmap)
{
return bitmap->stride;
}
void *BH_BitmapData(BH_Bitmap *bitmap)
{
return bitmap->data;
}
void *BH_BitmapPalette(BH_Bitmap *bitmap)
{
return bitmap->palette;
}
int BH_BitmapFlags(BH_Bitmap *bitmap)
{
return bitmap->flags;
}
void BH_BitmapConvertRow(void *src,
int srcFormat,
const BH_Color *srcPalette,
void *dest,
int destFormat,
const BH_Color *destPalette,
size_t count)
{
size_t x;
const FormatInfo *srcInfo, *destInfo;
srcInfo = formats + (srcFormat & 0x0FFF);
destInfo = formats + (destFormat & 0x0FFF);
if ((srcFormat & 0x0FFF) > sizeof(formats) / sizeof(FormatInfo))
return;
if ((destFormat & 0x0FFF) > sizeof(formats) / sizeof(FormatInfo))
return;
for (x = 0; count; --count, ++x)
{
void *srcAt, *destAt;
BH_Color data;
srcAt = rowAt(srcInfo, src, x);
destAt = rowAt(destInfo, dest, x);
readData(srcInfo, srcAt, x, &data, srcPalette);
if (srcFormat & BH_BITMAP_NOALPHA || destFormat & BH_BITMAP_NOALPHA ||
srcInfo->channels < 4 || destInfo->channels < 4)
data.data.rgba.a = 65535;
writeData(destInfo, destAt, x, &data, destPalette);
}
}
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