metaforce/DataSpec/DNACommon/TXTR.cpp

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#include <png.h>
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#include <squish.h>
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#include "TXTR.hpp"
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#include "PAK.hpp"
#include "athena/FileWriter.hpp"
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namespace DataSpec
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{
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static logvisor::Module Log("libpng");
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static int CountBits(uint32_t n)
{
int ret = 0;
for (int i=0 ; i<32 ; ++i)
if (((n >> i) & 1) != 0)
++ret;
return ret;
}
/* Box filter algorithm (for mipmapping) */
static void BoxFilter(const uint8_t* input, unsigned chanCount,
unsigned inWidth, unsigned inHeight, uint8_t* output)
{
unsigned mipWidth = 1;
unsigned mipHeight = 1;
if (inWidth > 1)
mipWidth = inWidth / 2;
if (inHeight > 1)
mipHeight = inHeight / 2;
unsigned y,x,c;
for (y=0 ; y<mipHeight ; ++y)
{
unsigned miplineBase = mipWidth * y;
unsigned in1LineBase = inWidth * (y*2);
unsigned in2LineBase = inWidth * (y*2+1);
for (x=0 ; x<mipWidth ; ++x)
{
uint8_t* out = &output[(miplineBase+x)*chanCount];
for (c=0 ; c<chanCount ; ++c)
{
uint32_t tmp = 0;
tmp += input[(in1LineBase+(x*2))*chanCount+c];
tmp += input[(in1LineBase+(x*2+1))*chanCount+c];
tmp += input[(in2LineBase+(x*2))*chanCount+c];
tmp += input[(in2LineBase+(x*2+1))*chanCount+c];
out[c] = tmp / 4;
}
}
}
}
static size_t ComputeMippedTexelCount(unsigned inWidth, unsigned inHeight)
{
size_t ret = 0;
while (inWidth > 0 && inHeight > 0)
{
ret += inWidth * inHeight;
inWidth /= 2;
inHeight /= 2;
}
return ret;
}
/* GX uses this upsampling technique to extract full 8-bit range */
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static inline uint8_t Convert3To8(uint8_t v)
{
/* Swizzle bits: 00000123 -> 12312312 */
return (v << 5) | (v << 2) | (v >> 1);
}
static inline uint8_t Convert4To8(uint8_t v)
{
/* Swizzle bits: 00001234 -> 12341234 */
return (v << 4) | v;
}
static inline uint8_t Convert5To8(uint8_t v)
{
/* Swizzle bits: 00012345 -> 12345123 */
return (v << 3) | (v >> 2);
}
static inline uint8_t Convert6To8(uint8_t v)
{
/* Swizzle bits: 00123456 -> 12345612 */
return (v << 2) | (v >> 4);
}
static inline uint8_t Lookup4BPP(const uint8_t* texels, int width, int x, int y)
{
int bwidth = (width + 7) / 8;
int bx = x / 8;
int by = y / 8;
int rx = x % 8;
int ry = y % 8;
int bidx = by * bwidth + bx;
const uint8_t* btexels = &texels[32*bidx];
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return btexels[ry*4+rx/2] >> ((rx&1)?0:4) & 0xf;
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}
static inline uint8_t Lookup8BPP(const uint8_t* texels, int width, int x, int y)
{
int bwidth = (width + 7) / 8;
int bx = x / 8;
int by = y / 4;
int rx = x % 8;
int ry = y % 4;
int bidx = by * bwidth + bx;
const uint8_t* btexels = &texels[32*bidx];
return btexels[ry*8+rx];
}
static inline uint16_t Lookup16BPP(const uint8_t* texels, int width, int x, int y)
{
int bwidth = (width + 3) / 4;
int bx = x / 4;
int by = y / 4;
int rx = x % 4;
int ry = y % 4;
int bidx = by * bwidth + bx;
const uint16_t* btexels = (uint16_t*)&texels[32*bidx];
return btexels[ry*4+rx];
}
static inline void LookupRGBA8(const uint8_t* texels, int width, int x, int y,
uint8_t* r, uint8_t* g, uint8_t* b, uint8_t* a)
{
int bwidth = (width + 3) / 4;
int bx = x / 4;
int by = y / 4;
int rx = x % 4;
int ry = y % 4;
int bidx = (by * bwidth + bx) * 2;
const uint16_t* artexels = (uint16_t*)&texels[32*bidx];
const uint16_t* gbtexels = (uint16_t*)&texels[32*(bidx+1)];
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uint16_t ar = hecl::SBig(artexels[ry*4+rx]);
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*a = ar >> 8 & 0xff;
*r = ar & 0xff;
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uint16_t gb = hecl::SBig(gbtexels[ry*4+rx]);
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*g = gb >> 8 & 0xff;
*b = gb & 0xff;
}
static void DecodeI4(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
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png_set_IHDR(png, info, width, height, 8,
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PNG_COLOR_TYPE_GRAY, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width]);
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//memset(buf.get(), 0, width);
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for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
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buf[x] = Convert4To8(Lookup4BPP(texels, width, x, y));
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png_write_row(png, buf.get());
}
}
static void DecodeI8(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
png_set_IHDR(png, info, width, height, 8,
PNG_COLOR_TYPE_GRAY, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width]);
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for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
buf[x] = Lookup8BPP(texels, width, x, y);
png_write_row(png, buf.get());
}
}
static void DecodeIA4(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
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png_set_IHDR(png, info, width, height, 8,
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PNG_COLOR_TYPE_GRAY_ALPHA, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
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std::unique_ptr<uint8_t[]> buf(new uint8_t[width*2]);
for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
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{
uint8_t texel = Lookup8BPP(texels, width, x, y);
buf[x*2] = texel >> 4 & 0xf;
buf[x*2+1] = texel & 0xf;
}
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png_write_row(png, buf.get());
}
}
static void DecodeIA8(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
png_set_IHDR(png, info, width, height, 8,
PNG_COLOR_TYPE_GRAY_ALPHA, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
std::unique_ptr<uint16_t[]> buf(new uint16_t[width]);
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for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
buf[x] = Lookup16BPP(texels, width, x, y);
png_write_row(png, (png_bytep)buf.get());
}
}
static const uint8_t* DecodePalette(png_structrp png, png_infop info,
int numEntries, const uint8_t* data)
{
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uint32_t format = hecl::SBig(*(uint32_t*)data);
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data += 8;
png_color cEntries[256];
png_byte aEntries[256];
switch (format)
{
case 0:
{
/* IA8 */
for (int e=0 ; e<numEntries ; ++e)
{
cEntries[e].red = data[e*2];
cEntries[e].green = data[e*2];
cEntries[e].blue = data[e*2];
aEntries[e] = data[e*2+1];
}
break;
}
case 1:
{
/* RGB565 */
const uint16_t* data16 = (uint16_t*)data;
for (int e=0 ; e<numEntries ; ++e)
{
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uint16_t texel = hecl::SBig(data16[e]);
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cEntries[e].red = Convert5To8(texel >> 11 & 0x1f);
cEntries[e].green = Convert6To8(texel >> 5 & 0x3f);
cEntries[e].blue = Convert5To8(texel & 0x1f);
}
break;
}
case 2:
{
/* RGB5A3 */
const uint16_t* data16 = (uint16_t*)data;
for (int e=0 ; e<numEntries ; ++e)
{
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uint16_t texel = hecl::SBig(data16[e]);
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if (texel & 0x8000)
{
cEntries[e].red = Convert5To8(texel >> 10 & 0x1f);
cEntries[e].green = Convert5To8(texel >> 5 & 0x1f);
cEntries[e].blue = Convert5To8(texel & 0x1f);
aEntries[e] = 0xff;
}
else
{
cEntries[e].red = Convert4To8(texel >> 8 & 0xf);
cEntries[e].green = Convert4To8(texel >> 4 & 0xf);
cEntries[e].blue = Convert4To8(texel & 0xf);
aEntries[e] = Convert3To8(texel >> 12 & 0x7);
}
}
break;
}
}
png_set_PLTE(png, info, cEntries, numEntries);
if (format == 0 || format == 2)
png_set_tRNS(png, info, aEntries, numEntries, nullptr);
data += numEntries * 2;
return data;
}
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static const uint8_t* DecodePaletteSPLT(png_structrp png, png_infop info,
int numEntries, const uint8_t* data)
{
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uint32_t format = hecl::SBig(*(uint32_t*)data);
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data += 8;
png_sPLT_entry entries[256] = {};
png_sPLT_t GXEntry =
{
(char*)"GXPalette",
8,
entries,
numEntries
};
switch (format)
{
case 0:
{
/* IA8 */
GXEntry.name = (char*)"GX_IA8";
for (int e=0 ; e<numEntries ; ++e)
{
entries[e].red = data[e*2];
entries[e].green = data[e*2];
entries[e].blue = data[e*2];
entries[e].alpha = data[e*2+1];
}
break;
}
case 1:
{
/* RGB565 */
GXEntry.name = (char*)"GX_RGB565";
const uint16_t* data16 = (uint16_t*)data;
for (int e=0 ; e<numEntries ; ++e)
{
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uint16_t texel = hecl::SBig(data16[e]);
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entries[e].red = Convert5To8(texel >> 11 & 0x1f);
entries[e].green = Convert6To8(texel >> 5 & 0x3f);
entries[e].blue = Convert5To8(texel & 0x1f);
entries[e].alpha = 0xff;
}
break;
}
case 2:
{
/* RGB5A3 */
GXEntry.name = (char*)"GX_RGB5A3";
const uint16_t* data16 = (uint16_t*)data;
for (int e=0 ; e<numEntries ; ++e)
{
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uint16_t texel = hecl::SBig(data16[e]);
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if (texel & 0x8000)
{
entries[e].red = Convert5To8(texel >> 10 & 0x1f);
entries[e].green = Convert5To8(texel >> 5 & 0x1f);
entries[e].blue = Convert5To8(texel & 0x1f);
entries[e].alpha = 0xff;
}
else
{
entries[e].red = Convert4To8(texel >> 8 & 0xf);
entries[e].green = Convert4To8(texel >> 4 & 0xf);
entries[e].blue = Convert4To8(texel & 0xf);
entries[e].alpha = Convert3To8(texel >> 12 & 0x7);
}
}
break;
}
}
png_set_sPLT(png, info, &GXEntry, 1);
data += numEntries * 2;
return data;
}
static const png_color C4Colors[] =
{
{0,0,0},
{155,0,0},
{0,155,0},
{0,0,155},
{155,155,0},
{155,0,155},
{0,155,155},
{155,155,155},
{55,55,55},
{255,0,0},
{0,255,0},
{0,0,255},
{255,255,0},
{255,0,255},
{0,255,255},
{255,255,255}
};
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static void C4Palette(png_structrp png, png_infop info)
{
png_set_PLTE(png, info, C4Colors, 16);
}
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static void DecodeC4(png_structrp png, png_infop info,
const uint8_t* data, int width, int height)
{
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png_set_IHDR(png, info, width, height, 8,
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PNG_COLOR_TYPE_PALETTE, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
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C4Palette(png, info);
const uint8_t* texels = DecodePaletteSPLT(png, info, 16, data);
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png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width]);
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for (int y=0 ; y<height ; ++y)
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{
for (int x=0 ; x<width ; ++x)
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buf[x] = Lookup4BPP(texels, width, x, y);
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png_write_row(png, buf.get());
}
}
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static void DecodeC8(png_structrp png, png_infop info,
const uint8_t* data, int width, int height)
{
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png_set_IHDR(png, info, width, height, 8,
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PNG_COLOR_TYPE_PALETTE, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
const uint8_t* texels = DecodePalette(png, info, 256, data);
png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width]);
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for (int y=0 ; y<height ; ++y)
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{
for (int x=0 ; x<width ; ++x)
buf[x] = Lookup8BPP(texels, width, x, y);
png_write_row(png, buf.get());
}
}
static void DecodeRGB565(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
png_set_IHDR(png, info, width, height, 8,
PNG_COLOR_TYPE_RGB, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width*3]);
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for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
{
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uint16_t texel = hecl::SBig(Lookup16BPP(texels, width, x, y));
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buf[x*3] = Convert5To8(texel >> 11 & 0x1f);
buf[x*3+1] = Convert6To8(texel >> 5 & 0x3f);
buf[x*3+2] = Convert5To8(texel & 0x1f);
}
png_write_row(png, buf.get());
}
}
static void DecodeRGB5A3(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
png_set_IHDR(png, info, width, height, 8,
PNG_COLOR_TYPE_RGB_ALPHA, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width*4]);
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for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
{
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uint16_t texel = hecl::SBig(Lookup16BPP(texels, width, x, y));
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if (texel & 0x8000)
{
buf[x*4] = Convert5To8(texel >> 10 & 0x1f);
buf[x*4+1] = Convert5To8(texel >> 5 & 0x1f);
buf[x*4+2] = Convert5To8(texel & 0x1f);
buf[x*4+3] = 0xff;
}
else
{
buf[x*4] = Convert4To8(texel >> 8 & 0xf);
buf[x*4+1] = Convert4To8(texel >> 4 & 0xf);
buf[x*4+2] = Convert4To8(texel & 0xf);
buf[x*4+3] = Convert3To8(texel >> 12 & 0x7);
}
}
png_write_row(png, buf.get());
}
}
static void DecodeRGBA8(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
png_set_IHDR(png, info, width, height, 8,
PNG_COLOR_TYPE_RGB_ALPHA, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
std::unique_ptr<uint8_t[]> buf(new uint8_t[width*4]);
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for (int y=height-1 ; y>=0 ; --y)
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{
for (int x=0 ; x<width ; ++x)
LookupRGBA8(texels, width, x, y, &buf[x*4], &buf[x*4+1], &buf[x*4+2], &buf[x*4+3]);
png_write_row(png, buf.get());
}
}
struct DXTBlock
{
uint16_t color1;
uint16_t color2;
uint8_t lines[4];
};
static void DecodeCMPR(png_structrp png, png_infop info,
const uint8_t* texels, int width, int height)
{
png_set_IHDR(png, info, width, height, 8,
PNG_COLOR_TYPE_RGB_ALPHA, PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);
png_write_info(png, info);
/* Decode 8 rows at a time */
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int bwidth = (width + 7) / 8;
int bpwidth = bwidth * 8;
std::unique_ptr<uint32_t[]> buf(new uint32_t[bpwidth*8]);
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uint32_t* bTargets[4] = {
buf.get(),
buf.get() + 4,
buf.get() + 4 * width,
buf.get() + 4 * width + 4
};
for (int y=height/8-1 ; y>=0 ; --y)
{
const DXTBlock* blks = (DXTBlock*)(texels + 32 * bwidth * y);
for (int x=0 ; x<width ; x+=8)
{
uint32_t blkOut[4][4][4];
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squish::Decompress((uint8_t*)blkOut[0][0], blks++, squish::kDxt1GCN);
squish::Decompress((uint8_t*)blkOut[1][0], blks++, squish::kDxt1GCN);
squish::Decompress((uint8_t*)blkOut[2][0], blks++, squish::kDxt1GCN);
squish::Decompress((uint8_t*)blkOut[3][0], blks++, squish::kDxt1GCN);
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for (int bt=0 ; bt<4 ; ++bt)
for (int by=0 ; by<4 ; ++by)
memcpy(bTargets[bt] + x + width * by, blkOut[bt][by], 16);
}
for (int r=7 ; r>=0 ; --r)
png_write_row(png, (png_bytep)(bTargets[0] + width * r));
}
}
static void PNGErr(png_structp png, png_const_charp msg)
{
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Log.report(logvisor::Error, msg);
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}
static void PNGWarn(png_structp png, png_const_charp msg)
{
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Log.report(logvisor::Warning, msg);
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}
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bool TXTR::Extract(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath)
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{
uint32_t format = rs.readUint32Big();
uint16_t width = rs.readUint16Big();
uint16_t height = rs.readUint16Big();
uint32_t numMips = rs.readUint32Big();
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FILE* fp = hecl::Fopen(outPath.getAbsolutePath().c_str(), _S("wb"));
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if (!fp)
{
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Log.report(logvisor::Error,
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_S("Unable to open '%s' for writing"),
outPath.getAbsolutePath().c_str());
return false;
}
png_structp png = png_create_write_struct(PNG_LIBPNG_VER_STRING, nullptr, PNGErr, PNGWarn);
png_init_io(png, fp);
png_infop info = png_create_info_struct(png);
png_text textStruct = {};
textStruct.key = png_charp("urde_nomip");
if (numMips == 1)
png_set_text(png, info, &textStruct, 1);
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switch (format)
{
case 0:
DecodeI4(png, info, rs.data() + 12, width, height);
break;
case 1:
DecodeI8(png, info, rs.data() + 12, width, height);
break;
case 2:
DecodeIA4(png, info, rs.data() + 12, width, height);
break;
case 3:
DecodeIA8(png, info, rs.data() + 12, width, height);
break;
case 4:
DecodeC4(png, info, rs.data() + 12, width, height);
break;
case 5:
DecodeC8(png, info, rs.data() + 12, width, height);
break;
case 7:
DecodeRGB565(png, info, rs.data() + 12, width, height);
break;
case 8:
DecodeRGB5A3(png, info, rs.data() + 12, width, height);
break;
case 9:
DecodeRGBA8(png, info, rs.data() + 12, width, height);
break;
case 10:
DecodeCMPR(png, info, rs.data() + 12, width, height);
break;
}
png_write_end(png, info);
png_write_flush(png);
png_destroy_write_struct(&png, &info);
fclose(fp);
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return true;
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}
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bool TXTR::Cook(const hecl::ProjectPath& inPath, const hecl::ProjectPath& outPath)
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{
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return false;
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}
bool TXTR::CookPC(const hecl::ProjectPath& inPath, const hecl::ProjectPath& outPath)
{
FILE* inf = hecl::Fopen(inPath.getAbsolutePath().c_str(), _S("rb"));
if (!inf)
{
Log.report(logvisor::Error,
_S("Unable to open '%s' for reading"),
inPath.getAbsolutePath().c_str());
return false;
}
/* Validate PNG */
char header[8];
fread(header, 1, 8, inf);
if (png_sig_cmp((png_const_bytep)header, 0, 8))
{
Log.report(logvisor::Error, _S("invalid PNG signature in '%s'"),
inPath.getAbsolutePath().c_str());
fclose(inf);
return false;
}
/* Setup PNG reader */
png_structp pngRead = png_create_read_struct(PNG_LIBPNG_VER_STRING, nullptr, nullptr, nullptr);
if (!pngRead)
{
Log.report(logvisor::Error, "unable to initialize libpng");
fclose(inf);
return false;
}
png_infop info = png_create_info_struct(pngRead);
if (!info)
{
Log.report(logvisor::Error, "unable to initialize libpng info");
fclose(inf);
png_destroy_read_struct(&pngRead, nullptr, nullptr);
return false;
}
if (setjmp(png_jmpbuf(pngRead)))
{
Log.report(logvisor::Error, _S("unable to initialize libpng I/O for '%s'"),
inPath.getAbsolutePath().c_str());
fclose(inf);
png_destroy_read_struct(&pngRead, &info, nullptr);
return false;
}
png_init_io(pngRead, inf);
png_set_sig_bytes(pngRead, 8);
png_read_info(pngRead, info);
png_uint_32 width = png_get_image_width(pngRead, info);
png_uint_32 height = png_get_image_height(pngRead, info);
png_byte colorType = png_get_color_type(pngRead, info);
png_byte bitDepth = png_get_bit_depth(pngRead, info);
/* Disable mipmapping if urde_nomip embedded */
bool mipmap = true;
png_text* textStruct;
int numText;
png_get_text(pngRead, info, &textStruct, &numText);
for (int i=0 ; i<numText ; ++i)
if (!strcmp(textStruct[i].key, "urde_nomip"))
mipmap = false;
/* Compute mipmap levels */
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size_t numMips = 1;
if (mipmap && CountBits(width) == 1 && CountBits(height) == 1)
{
size_t index = std::min(width, height);
while (index >>= 1) ++numMips;
}
if (bitDepth != 8)
{
Log.report(logvisor::Error, _S("'%s' is not 8 bits-per-channel"),
inPath.getAbsolutePath().c_str());
fclose(inf);
png_destroy_read_struct(&pngRead, &info, nullptr);
return false;
}
size_t rowSize = 0;
switch (colorType)
{
case PNG_COLOR_TYPE_GRAY:
rowSize = width;
break;
case PNG_COLOR_TYPE_GRAY_ALPHA:
rowSize = width * 2;
break;
case PNG_COLOR_TYPE_RGB:
rowSize = width * 3;
break;
case PNG_COLOR_TYPE_RGB_ALPHA:
rowSize = width * 4;
break;
default:
Log.report(logvisor::Error, _S("unsupported color type in '%s'"),
inPath.getAbsolutePath().c_str());
fclose(inf);
png_destroy_read_struct(&pngRead, &info, nullptr);
return false;
}
/* Intermediate row-read buf (file components) */
std::unique_ptr<uint8_t[]> rowBuf(new uint8_t[rowSize]);
/* Final mipmapped buf (RGBA components) */
std::unique_ptr<uint8_t[]> bufOut;
size_t bufLen = 0;
if (numMips > 1)
bufLen = ComputeMippedTexelCount(width, height) * 4;
else
bufLen = width * height * 4;
bufOut.reset(new uint8_t[bufLen]);
if (setjmp(png_jmpbuf(pngRead)))
{
Log.report(logvisor::Error, _S("unable to read image in '%s'"),
inPath.getAbsolutePath().c_str());
fclose(inf);
png_destroy_read_struct(&pngRead, &info, nullptr);
return false;
}
/* Read and make RGBA */
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for (int r=height-1 ; r>=0 ; --r)
{
png_read_row(pngRead, rowBuf.get(), nullptr);
switch (colorType)
{
case PNG_COLOR_TYPE_GRAY:
for (int i=0 ; i<width ; ++i)
{
size_t outbase = (r*width+i)*4;
bufOut[outbase] = rowBuf[i];
bufOut[outbase+1] = rowBuf[i];
bufOut[outbase+2] = rowBuf[i];
bufOut[outbase+3] = rowBuf[i];
}
break;
case PNG_COLOR_TYPE_GRAY_ALPHA:
for (unsigned i=0 ; i<width ; ++i)
{
size_t inbase = i*2;
size_t outbase = (r*width+i)*4;
bufOut[outbase] = rowBuf[inbase];
bufOut[outbase+1] = rowBuf[inbase];
bufOut[outbase+2] = rowBuf[inbase];
bufOut[outbase+3] = rowBuf[inbase+1];
}
break;
case PNG_COLOR_TYPE_RGB:
for (unsigned i=0 ; i<width ; ++i)
{
size_t inbase = i*3;
size_t outbase = (r*width+i)*4;
bufOut[outbase] = rowBuf[inbase];
bufOut[outbase+1] = rowBuf[inbase+1];
bufOut[outbase+2] = rowBuf[inbase+2];
bufOut[outbase+3] = 0xff;
}
break;
case PNG_COLOR_TYPE_RGB_ALPHA:
for (unsigned i=0 ; i<width ; ++i)
{
size_t inbase = i*4;
size_t outbase = (r*width+i)*4;
bufOut[outbase] = rowBuf[inbase];
bufOut[outbase+1] = rowBuf[inbase+1];
bufOut[outbase+2] = rowBuf[inbase+2];
bufOut[outbase+3] = rowBuf[inbase+3];
}
break;
default: break;
}
}
png_destroy_read_struct(&pngRead, &info, nullptr);
fclose(inf);
/* Perform box-filter mipmap */
if (numMips > 1)
{
const uint8_t* filterIn = bufOut.get();
uint8_t* filterOut = bufOut.get() + width * height * 4;
unsigned filterWidth = width;
unsigned filterHeight = height;
for (size_t i=1 ; i<numMips ; ++i)
{
BoxFilter(filterIn, 4, filterWidth, filterHeight, filterOut);
filterIn += filterWidth * filterHeight * 4;
filterWidth /= 2;
filterHeight /= 2;
filterOut += filterWidth * filterHeight * 4;
}
}
/* Do write out */
athena::io::FileWriter outf(outPath.getAbsolutePath(), true, false);
if (outf.hasError())
{
Log.report(logvisor::Error,
_S("Unable to open '%s' for writing"),
outPath.getAbsolutePath().c_str());
return false;
}
outf.writeInt32Big(16);
outf.writeInt16Big(width);
outf.writeInt16Big(height);
outf.writeInt32Big(numMips);
outf.writeUBytes(bufOut.get(), bufLen);
return true;
}
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}