protot/3rdparty/bgfx/tools/texturec/texturec.cpp

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/*
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* Copyright 2011-2017 Branimir Karadzic. All rights reserved.
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* License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause
*/
#include <stdio.h>
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#include <bx/allocator.h>
#include <bx/readerwriter.h>
#include <bx/endian.h>
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#include <bimg/decode.h>
#include <bimg/encode.h>
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#if 0
# define BX_TRACE(_format, ...) fprintf(stderr, "" _format "\n", ##__VA_ARGS__)
#endif // DEBUG
#include <bx/bx.h>
#include <bx/commandline.h>
#include <bx/crtimpl.h>
#include <bx/uint32_t.h>
extern "C" {
#include <iqa.h>
}
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void help(const char* _error = NULL)
{
if (NULL != _error)
{
fprintf(stderr, "Error:\n%s\n\n", _error);
}
fprintf(stderr
, "texturec, bgfx texture compiler tool\n"
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"Copyright 2011-2017 Branimir Karadzic. All rights reserved.\n"
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"License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause\n\n"
);
fprintf(stderr
, "Usage: texturec -f <in> -o <out> [-t <format>]\n"
"\n"
"Supported input file types:\n"
" *.png Portable Network Graphics\n"
" *.tga Targa\n"
" *.dds Direct Draw Surface\n"
" *.ktx Khronos Texture\n"
" *.pvr PowerVR\n"
"\n"
"Options:\n"
" -f <file path> Input file path.\n"
" -o <file path> Output file path (file will be written in KTX format).\n"
" -t <format> Output format type (BC1/2/3/4/5, ETC1, PVR14, etc.).\n"
" -m, --mips Generate mip-maps.\n"
" -n, --normalmap Input texture is normal map.\n"
" --sdf <edge> Compute SDF texture.\n"
" --iqa Image Quality Assesment\n"
"\n"
"For additional information, see https://github.com/bkaradzic/bgfx\n"
);
}
int main(int _argc, const char* _argv[])
{
bx::CommandLine cmdLine(_argc, _argv);
if (cmdLine.hasArg('h', "help") )
{
help();
return EXIT_FAILURE;
}
const char* inputFileName = cmdLine.findOption('f');
if (NULL == inputFileName)
{
help("Input file must be specified.");
return EXIT_FAILURE;
}
const char* outputFileName = cmdLine.findOption('o');
if (NULL == outputFileName)
{
help("Output file must be specified.");
return EXIT_FAILURE;
}
bool sdf = false;
double edge = 16.0;
const char* edgeOpt = cmdLine.findOption("sdf");
if (NULL != edgeOpt)
{
sdf = true;
edge = atof(edgeOpt);
}
BX_UNUSED(sdf, edge);
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const bool mips = cmdLine.hasArg('m', "mips");
const bool normalMap = cmdLine.hasArg('n', "normalmap");
const bool iqa = cmdLine.hasArg('\0', "iqa");
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bx::CrtFileReader reader;
if (!bx::open(&reader, inputFileName) )
{
help("Failed to open input file.");
return EXIT_FAILURE;
}
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bx::CrtAllocator allocator;
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uint32_t inputSize = (uint32_t)bx::getSize(&reader);
uint8_t* inputData = (uint8_t*)BX_ALLOC(&allocator, inputSize);
bx::read(&reader, inputData, inputSize);
bx::close(&reader);
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{
using namespace bimg;
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ImageContainer* input = imageParse(&allocator, inputData, inputSize);
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if (NULL != input)
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{
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BX_FREE(&allocator, inputData);
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const char* type = cmdLine.findOption('t');
bimg::TextureFormat::Enum format = input->m_format;
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if (NULL != type)
{
format = bimg::getFormat(type);
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if (!isValid(format) )
{
help("Invalid format specified.");
return EXIT_FAILURE;
}
}
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ImageContainer* output = NULL;
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ImageMip mip;
if (imageGetRawData(*input, 0, 0, input->m_data, input->m_size, mip) )
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{
uint8_t numMips = mips
? imageGetNumMips(format, uint16_t(mip.m_width), uint16_t(mip.m_height) )
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: 1
;
void* temp = NULL;
if (normalMap)
{
output = imageAlloc(&allocator, format, uint16_t(mip.m_width), uint16_t(mip.m_height), 0, 1, false, mips);
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ImageMip dstMip;
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imageGetRawData(*output, 0, 0, NULL, 0, dstMip);
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if (mip.m_width != dstMip.m_width
&& mip.m_height != dstMip.m_height)
{
printf("Invalid input image size %dx%d, it must be at least %dx%d to be converted to %s format.\n"
, mip.m_width
, mip.m_height
, dstMip.m_width
, dstMip.m_height
, getName(format)
);
return EXIT_FAILURE;
}
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uint32_t size = imageGetSize(
NULL
, uint16_t(dstMip.m_width)
, uint16_t(dstMip.m_height)
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, 0
, false
, false
, 1
, TextureFormat::RGBA32F
);
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temp = BX_ALLOC(&allocator, size);
float* rgba = (float*)temp;
float* rgbaDst = (float*)BX_ALLOC(&allocator, size);
imageDecodeToRgba32f(&allocator
, rgba
, mip.m_data
, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, mip.m_format
);
if (TextureFormat::BC5 != mip.m_format)
{
for (uint32_t yy = 0; yy < mip.m_height; ++yy)
{
for (uint32_t xx = 0; xx < mip.m_width; ++xx)
{
const uint32_t offset = (yy*mip.m_width + xx) * 4;
float* inout = &rgba[offset];
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inout[0] = inout[0] * 2.0f - 1.0f;
inout[1] = inout[1] * 2.0f - 1.0f;
inout[2] = inout[2] * 2.0f - 1.0f;
inout[3] = inout[3] * 2.0f - 1.0f;
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}
}
}
imageRgba32f11to01(rgbaDst, dstMip.m_width, dstMip.m_height, dstMip.m_width*16, rgba);
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imageEncodeFromRgba32f(&allocator, output->m_data, rgbaDst, dstMip.m_width, dstMip.m_height, format);
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for (uint8_t lod = 1; lod < numMips; ++lod)
{
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imageRgba32fDownsample2x2NormalMap(rgba, dstMip.m_width, dstMip.m_height, dstMip.m_width*16, rgba);
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imageRgba32f11to01(rgbaDst, dstMip.m_width, dstMip.m_height, dstMip.m_width*16, rgba);
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imageGetRawData(*output, 0, lod, output->m_data, output->m_size, dstMip);
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uint8_t* data = const_cast<uint8_t*>(dstMip.m_data);
imageEncodeFromRgba32f(&allocator, data, rgbaDst, dstMip.m_width, dstMip.m_height, format);
}
BX_FREE(&allocator, rgbaDst);
}
else if (8 != getBlockInfo(input->m_format).rBits)
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{
output = imageAlloc(&allocator, format, uint16_t(mip.m_width), uint16_t(mip.m_height), 0, 1, false, mips);
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ImageMip dstMip;
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imageGetRawData(*output, 0, 0, NULL, 0, dstMip);
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if (mip.m_width != dstMip.m_width
&& mip.m_height != dstMip.m_height)
{
printf("Invalid input image size %dx%d, it must be at least %dx%d to be converted to %s format.\n"
, mip.m_width
, mip.m_height
, dstMip.m_width
, dstMip.m_height
, getName(format)
);
return EXIT_FAILURE;
}
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uint32_t size = imageGetSize(
NULL
, uint16_t(dstMip.m_width)
, uint16_t(dstMip.m_height)
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, 0
, false
, false
, 1
, TextureFormat::RGBA32F
);
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temp = BX_ALLOC(&allocator, size);
float* rgba = (float*)temp;
float* rgbaDst = (float*)BX_ALLOC(&allocator, size);
imageDecodeToRgba32f(&allocator
, rgba
, mip.m_data
, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, mip.m_format
);
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imageEncodeFromRgba32f(&allocator, output->m_data, rgba, dstMip.m_width, dstMip.m_height, format);
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imageRgba32fToLinear(rgba
, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, rgba
);
for (uint8_t lod = 1; lod < numMips; ++lod)
{
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imageRgba32fLinearDownsample2x2(rgba, dstMip.m_width, dstMip.m_height, dstMip.m_width*16, rgba);
imageGetRawData(*output, 0, lod, output->m_data, output->m_size, dstMip);
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uint8_t* data = const_cast<uint8_t*>(dstMip.m_data);
imageRgba32fToGamma(rgbaDst
, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, rgba
);
imageEncodeFromRgba32f(&allocator, data, rgbaDst, dstMip.m_width, dstMip.m_height, format);
}
BX_FREE(&allocator, rgbaDst);
}
else
{
output = imageAlloc(&allocator, format, uint16_t(mip.m_width), uint16_t(mip.m_height), 0, 1, false, mips);
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ImageMip dstMip;
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imageGetRawData(*output, 0, 0, NULL, 0, dstMip);
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if (mip.m_width != dstMip.m_width
&& mip.m_height != dstMip.m_height)
{
printf("Invalid input image size %dx%d, it must be at least %dx%d to be converted to %s format.\n"
, mip.m_width
, mip.m_height
, dstMip.m_width
, dstMip.m_height
, getName(format)
);
return EXIT_FAILURE;
}
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uint32_t size = imageGetSize(
NULL
, uint16_t(dstMip.m_width)
, uint16_t(dstMip.m_height)
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, 0
, false
, false
, 1
, TextureFormat::RGBA8
);
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temp = BX_ALLOC(&allocator, size);
bx::memSet(temp, 0, size);
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uint8_t* rgba = (uint8_t*)temp;
imageDecodeToRgba8(rgba
, mip.m_data
, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, mip.m_format
);
void* ref = NULL;
if (iqa)
{
ref = BX_ALLOC(&allocator, size);
bx::memCopy(ref, rgba, size);
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}
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imageEncodeFromRgba8(output->m_data, rgba, dstMip.m_width, dstMip.m_height, format);
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for (uint8_t lod = 1; lod < numMips; ++lod)
{
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imageRgba8Downsample2x2(rgba, dstMip.m_width, dstMip.m_height, dstMip.m_width*4, rgba);
imageGetRawData(*output, 0, lod, output->m_data, output->m_size, dstMip);
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uint8_t* data = const_cast<uint8_t*>(dstMip.m_data);
imageEncodeFromRgba8(data, rgba, dstMip.m_width, dstMip.m_height, format);
}
if (NULL != ref)
{
imageDecodeToRgba8(rgba
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, output->m_data
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, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, format
);
static const iqa_ssim_args args =
{
0.39f, // alpha
0.731f, // beta
1.12f, // gamma
187, // L
0.025987f, // K1
0.0173f, // K2
1 // factor
};
float result = iqa_ssim( (uint8_t*)ref
, rgba
, mip.m_width
, mip.m_height
, mip.m_width*mip.m_bpp/8
, 0
, &args
);
printf("%f\n", result);
BX_FREE(&allocator, ref);
}
}
BX_FREE(&allocator, temp);
}
if (NULL != output)
{
bx::CrtFileWriter writer;
if (bx::open(&writer, outputFileName) )
{
if (NULL != bx::stristr(outputFileName, ".ktx") )
{
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imageWriteKtx(&writer, *output, output->m_data, output->m_size);
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}
bx::close(&writer);
}
else
{
help("Failed to open output file.");
return EXIT_FAILURE;
}
imageFree(output);
}
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else
{
help("No output generated.");
return EXIT_FAILURE;
}
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}
else
{
help("Failed to load input file.");
return EXIT_FAILURE;
}
}
return EXIT_SUCCESS;
}