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DirectXTex/Texassemble/texassemble.cpp

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//--------------------------------------------------------------------------------------
// File: Texassemble.cpp
//
// DirectX Texture assembler for cube maps, volume maps, and arrays
//
// Copyright (c) Microsoft Corporation.
// Licensed under the MIT License.
//
// http://go.microsoft.com/fwlink/?LinkId=248926
//--------------------------------------------------------------------------------------
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4005)
#endif
#define WIN32_LEAN_AND_MEAN
#define NOMINMAX
#define NODRAWTEXT
#define NOGDI
#define NOMCX
#define NOSERVICE
#define NOHELP
#ifdef _MSC_VER
#pragma warning(pop)
#endif
#if __cplusplus < 201703L
#error Requires C++17 (and /Zc:__cplusplus with MSVC)
#endif
#include <algorithm>
#include <cassert>
#include <cstddef>
#include <cstdint>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <cwchar>
#include <cwctype>
#include <filesystem>
#include <fstream>
#include <iterator>
#include <list>
#include <locale>
#include <memory>
#include <new>
#include <string>
#include <tuple>
#include <utility>
#include <vector>
#include <wrl/client.h>
#include <dxgiformat.h>
#include <DirectXPackedVector.h>
#include <wincodec.h>
#ifdef _MSC_VER
#pragma warning(disable : 4619 4616 26812)
#endif
#include "DirectXTex.h"
#ifdef USE_OPENEXR
// See <https://github.com/Microsoft/DirectXTex/wiki/Adding-OpenEXR> for details
#include "DirectXTexEXR.h"
#endif
// See <https://github.com/Microsoft/DirectXTex/wiki/Using-JPEG-PNG-OSS> for details
#ifdef USE_LIBJPEG
#include "DirectXTexJPEG.h"
#endif
#ifdef USE_LIBPNG
#include "DirectXTexPNG.h"
#endif
#define TOOL_VERSION DIRECTX_TEX_VERSION
#include "CmdLineHelpers.h"
using namespace Helpers;
using namespace DirectX;
using Microsoft::WRL::ComPtr;
namespace
{
const wchar_t* g_ToolName = L"texassemble";
const wchar_t* g_Description = L"Microsoft (R) DirectX Texture Assembler [DirectXTex]";
enum COMMANDS : uint32_t
{
CMD_CUBE = 1,
CMD_VOLUME,
CMD_ARRAY,
CMD_CUBEARRAY,
CMD_H_CROSS,
CMD_V_CROSS,
CMD_V_CROSS_FNZ,
CMD_H_TEE,
CMD_H_STRIP,
CMD_V_STRIP,
CMD_MERGE,
CMD_GIF,
CMD_ARRAY_STRIP,
CMD_CUBE_FROM_HC,
CMD_CUBE_FROM_VC,
CMD_CUBE_FROM_VC_FNZ,
CMD_CUBE_FROM_HT,
CMD_CUBE_FROM_HS,
CMD_CUBE_FROM_VS,
CMD_FROM_MIPS,
CMD_MAX
};
enum OPTIONS : uint32_t
{
OPT_RECURSIVE = 1,
OPT_FILELIST,
OPT_WIDTH,
OPT_HEIGHT,
OPT_FORMAT,
OPT_FILTER,
OPT_SRGBI,
OPT_SRGBO,
OPT_SRGB,
OPT_OUTPUTFILE,
OPT_TOLOWER,
OPT_OVERWRITE,
OPT_USE_DX10,
OPT_NOLOGO,
OPT_SEPALPHA,
OPT_NO_WIC,
OPT_DEMUL_ALPHA,
OPT_TA_WRAP,
OPT_TA_MIRROR,
OPT_FEATURE_LEVEL,
OPT_TONEMAP,
OPT_GIF_BGCOLOR,
OPT_SWIZZLE,
OPT_STRIP_MIPS,
OPT_MAX
};
static_assert(OPT_MAX <= 32, "dwOptions is a unsigned int bitfield");
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
const SValue<uint32_t> g_pCommands[] =
{
{ L"cube", CMD_CUBE },
{ L"volume", CMD_VOLUME },
{ L"array", CMD_ARRAY },
{ L"cubearray", CMD_CUBEARRAY },
{ L"h-cross", CMD_H_CROSS },
{ L"v-cross", CMD_V_CROSS },
{ L"v-cross-fnz", CMD_V_CROSS_FNZ },
{ L"h-tee", CMD_H_TEE },
{ L"h-strip", CMD_H_STRIP },
{ L"v-strip", CMD_V_STRIP },
{ L"merge", CMD_MERGE },
{ L"gif", CMD_GIF },
{ L"array-strip", CMD_ARRAY_STRIP },
{ L"cube-from-hc", CMD_CUBE_FROM_HC },
{ L"cube-from-vc", CMD_CUBE_FROM_VC },
{ L"cube-from-vc-fnz", CMD_CUBE_FROM_VC_FNZ },
{ L"cube-from-ht", CMD_CUBE_FROM_HT },
{ L"cube-from-hs", CMD_CUBE_FROM_HS },
{ L"cube-from-vs", CMD_CUBE_FROM_VS },
{ L"from-mips", CMD_FROM_MIPS },
{ nullptr, 0 }
};
const SValue<uint32_t> g_pOptions[] =
{
{ L"r", OPT_RECURSIVE },
{ L"flist", OPT_FILELIST },
{ L"w", OPT_WIDTH },
{ L"h", OPT_HEIGHT },
{ L"f", OPT_FORMAT },
{ L"if", OPT_FILTER },
{ L"srgbi", OPT_SRGBI },
{ L"srgbo", OPT_SRGBO },
{ L"srgb", OPT_SRGB },
{ L"o", OPT_OUTPUTFILE },
{ L"l", OPT_TOLOWER },
{ L"y", OPT_OVERWRITE },
{ L"dx10", OPT_USE_DX10 },
{ L"nologo", OPT_NOLOGO },
{ L"sepalpha", OPT_SEPALPHA },
{ L"nowic", OPT_NO_WIC },
{ L"alpha", OPT_DEMUL_ALPHA },
{ L"wrap", OPT_TA_WRAP },
{ L"mirror", OPT_TA_MIRROR },
{ L"fl", OPT_FEATURE_LEVEL },
{ L"tonemap", OPT_TONEMAP },
{ L"bgcolor", OPT_GIF_BGCOLOR },
{ L"swizzle", OPT_SWIZZLE },
{ L"stripmips", OPT_STRIP_MIPS },
{ nullptr, 0 }
};
#define DEFFMT(fmt) { L## #fmt, DXGI_FORMAT_ ## fmt }
const SValue<DXGI_FORMAT> g_pFormats[] =
{
// List does not include _TYPELESS or depth/stencil formats
DEFFMT(R32G32B32A32_FLOAT),
DEFFMT(R32G32B32A32_UINT),
DEFFMT(R32G32B32A32_SINT),
DEFFMT(R32G32B32_FLOAT),
DEFFMT(R32G32B32_UINT),
DEFFMT(R32G32B32_SINT),
DEFFMT(R16G16B16A16_FLOAT),
DEFFMT(R16G16B16A16_UNORM),
DEFFMT(R16G16B16A16_UINT),
DEFFMT(R16G16B16A16_SNORM),
DEFFMT(R16G16B16A16_SINT),
DEFFMT(R32G32_FLOAT),
DEFFMT(R32G32_UINT),
DEFFMT(R32G32_SINT),
DEFFMT(R10G10B10A2_UNORM),
DEFFMT(R10G10B10A2_UINT),
DEFFMT(R11G11B10_FLOAT),
DEFFMT(R8G8B8A8_UNORM),
DEFFMT(R8G8B8A8_UNORM_SRGB),
DEFFMT(R8G8B8A8_UINT),
DEFFMT(R8G8B8A8_SNORM),
DEFFMT(R8G8B8A8_SINT),
DEFFMT(R16G16_FLOAT),
DEFFMT(R16G16_UNORM),
DEFFMT(R16G16_UINT),
DEFFMT(R16G16_SNORM),
DEFFMT(R16G16_SINT),
DEFFMT(R32_FLOAT),
DEFFMT(R32_UINT),
DEFFMT(R32_SINT),
DEFFMT(R8G8_UNORM),
DEFFMT(R8G8_UINT),
DEFFMT(R8G8_SNORM),
DEFFMT(R8G8_SINT),
DEFFMT(R16_FLOAT),
DEFFMT(R16_UNORM),
DEFFMT(R16_UINT),
DEFFMT(R16_SNORM),
DEFFMT(R16_SINT),
DEFFMT(R8_UNORM),
DEFFMT(R8_UINT),
DEFFMT(R8_SNORM),
DEFFMT(R8_SINT),
DEFFMT(A8_UNORM),
//DEFFMT(R1_UNORM)
DEFFMT(R9G9B9E5_SHAREDEXP),
DEFFMT(R8G8_B8G8_UNORM),
DEFFMT(G8R8_G8B8_UNORM),
DEFFMT(B5G6R5_UNORM),
DEFFMT(B5G5R5A1_UNORM),
// DXGI 1.1 formats
DEFFMT(B8G8R8A8_UNORM),
DEFFMT(B8G8R8X8_UNORM),
DEFFMT(R10G10B10_XR_BIAS_A2_UNORM),
DEFFMT(B8G8R8A8_UNORM_SRGB),
DEFFMT(B8G8R8X8_UNORM_SRGB),
// DXGI 1.2 formats
DEFFMT(AYUV),
DEFFMT(Y410),
DEFFMT(Y416),
DEFFMT(YUY2),
DEFFMT(Y210),
DEFFMT(Y216),
// No support for legacy paletted video formats (AI44, IA44, P8, A8P8)
DEFFMT(B4G4R4A4_UNORM),
// D3D11on12 format
{ L"A4B4G4R4_UNORM", DXGI_FORMAT(191) },
{ nullptr, DXGI_FORMAT_UNKNOWN }
};
#undef DEFFMT
const SValue<DXGI_FORMAT> g_pFormatAliases[] =
{
{ L"RGBA", DXGI_FORMAT_R8G8B8A8_UNORM },
{ L"BGRA", DXGI_FORMAT_B8G8R8A8_UNORM },
{ L"BGR", DXGI_FORMAT_B8G8R8X8_UNORM },
{ L"FP16", DXGI_FORMAT_R16G16B16A16_FLOAT },
{ L"FP32", DXGI_FORMAT_R32G32B32A32_FLOAT },
{ nullptr, DXGI_FORMAT_UNKNOWN }
};
const SValue<uint32_t> g_pFilters[] =
{
{ L"POINT", TEX_FILTER_POINT },
{ L"LINEAR", TEX_FILTER_LINEAR },
{ L"CUBIC", TEX_FILTER_CUBIC },
{ L"FANT", TEX_FILTER_FANT },
{ L"BOX", TEX_FILTER_BOX },
{ L"TRIANGLE", TEX_FILTER_TRIANGLE },
{ L"POINT_DITHER", TEX_FILTER_POINT | TEX_FILTER_DITHER },
{ L"LINEAR_DITHER", TEX_FILTER_LINEAR | TEX_FILTER_DITHER },
{ L"CUBIC_DITHER", TEX_FILTER_CUBIC | TEX_FILTER_DITHER },
{ L"FANT_DITHER", TEX_FILTER_FANT | TEX_FILTER_DITHER },
{ L"BOX_DITHER", TEX_FILTER_BOX | TEX_FILTER_DITHER },
{ L"TRIANGLE_DITHER", TEX_FILTER_TRIANGLE | TEX_FILTER_DITHER },
{ L"POINT_DITHER_DIFFUSION", TEX_FILTER_POINT | TEX_FILTER_DITHER_DIFFUSION },
{ L"LINEAR_DITHER_DIFFUSION", TEX_FILTER_LINEAR | TEX_FILTER_DITHER_DIFFUSION },
{ L"CUBIC_DITHER_DIFFUSION", TEX_FILTER_CUBIC | TEX_FILTER_DITHER_DIFFUSION },
{ L"FANT_DITHER_DIFFUSION", TEX_FILTER_FANT | TEX_FILTER_DITHER_DIFFUSION },
{ L"BOX_DITHER_DIFFUSION", TEX_FILTER_BOX | TEX_FILTER_DITHER_DIFFUSION },
{ L"TRIANGLE_DITHER_DIFFUSION", TEX_FILTER_TRIANGLE | TEX_FILTER_DITHER_DIFFUSION },
{ nullptr, TEX_FILTER_DEFAULT }
};
#define CODEC_DDS 0xFFFF0001
#define CODEC_TGA 0xFFFF0002
#define CODEC_HDR 0xFFFF0005
#ifdef USE_OPENEXR
#define CODEC_EXR 0xFFFF0006
#endif
#ifdef USE_LIBJPEG
#define CODEC_JPEG 0xFFFF0007
#endif
#ifdef USE_LIBPNG
#define CODEC_PNG 0xFFFF0008
#endif
const SValue<uint32_t> g_pExtFileTypes[] =
{
{ L".BMP", WIC_CODEC_BMP },
#ifdef USE_LIBJPEG
{ L".JPG", CODEC_JPEG },
{ L".JPEG", CODEC_JPEG },
#else
{ L".JPG", WIC_CODEC_JPEG },
{ L".JPEG", WIC_CODEC_JPEG },
#endif
#ifdef USE_LIBPNG
{ L".PNG", CODEC_PNG },
#else
{ L".PNG", WIC_CODEC_PNG },
#endif
{ L".DDS", CODEC_DDS },
{ L".TGA", CODEC_TGA },
{ L".HDR", CODEC_HDR },
{ L".TIF", WIC_CODEC_TIFF },
{ L".TIFF", WIC_CODEC_TIFF },
{ L".WDP", WIC_CODEC_WMP },
{ L".HDP", WIC_CODEC_WMP },
{ L".JXR", WIC_CODEC_WMP },
#ifdef USE_OPENEXR
{ L".EXR", CODEC_EXR },
#endif
{ nullptr, CODEC_DDS }
};
const SValue<uint32_t> g_pFeatureLevels[] = // valid feature levels for -fl for maximimum size
{
{ L"9.1", 2048 },
{ L"9.2", 2048 },
{ L"9.3", 4096 },
{ L"10.0", 8192 },
{ L"10.1", 8192 },
{ L"11.0", 16384 },
{ L"11.1", 16384 },
{ L"12.0", 16384 },
{ L"12.1", 16384 },
{ L"12.2", 16384 },
{ nullptr, 0 },
};
const SValue<uint32_t> g_pFeatureLevelsCube[] = // valid feature levels for -fl for maximum cubemap size
{
{ L"9.1", 512 },
{ L"9.2", 512 },
{ L"9.3", 4096 },
{ L"10.0", 8192 },
{ L"10.1", 8192 },
{ L"11.0", 16384 },
{ L"11.1", 16384 },
{ L"12.0", 16384 },
{ L"12.1", 16384 },
{ L"12.2", 16384 },
{ nullptr, 0 },
};
const SValue<uint32_t> g_pFeatureLevelsArray[] = // valid feature levels for -fl for maximum array size
{
{ L"9.1", 1 },
{ L"9.2", 1 },
{ L"9.3", 1 },
{ L"10.0", 512 },
{ L"10.1", 512 },
{ L"11.0", 2048 },
{ L"11.1", 2048 },
{ L"12.0", 2048 },
{ L"12.1", 2048 },
{ L"12.2", 2048 },
{ nullptr, 0 },
};
const SValue<uint32_t> g_pFeatureLevelsVolume[] = // valid feature levels for -fl for maximum depth size
{
{ L"9.1", 256 },
{ L"9.2", 256 },
{ L"9.3", 256 },
{ L"10.0", 2048 },
{ L"10.1", 2048 },
{ L"11.0", 2048 },
{ L"11.1", 2048 },
{ L"12.0", 2048 },
{ L"12.1", 2048 },
{ L"12.2", 2048 },
{ nullptr, 0 },
};
}
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
HRESULT LoadAnimatedGif(const wchar_t* szFile,
std::vector<std::unique_ptr<ScratchImage>>& loadedImages,
bool usebgcolor);
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
namespace
{
void PrintInfo(const TexMetadata& info)
{
wprintf(L" (%zux%zu", info.width, info.height);
if (TEX_DIMENSION_TEXTURE3D == info.dimension)
wprintf(L"x%zu", info.depth);
if (info.mipLevels > 1)
wprintf(L",%zu", info.mipLevels);
if (info.arraySize > 1)
wprintf(L",%zu", info.arraySize);
wprintf(L" ");
PrintFormat(info.format, g_pFormats);
switch (info.dimension)
{
case TEX_DIMENSION_TEXTURE1D:
wprintf(L"%ls", (info.arraySize > 1) ? L" 1DArray" : L" 1D");
break;
case TEX_DIMENSION_TEXTURE2D:
if (info.IsCubemap())
{
wprintf(L"%ls", (info.arraySize > 6) ? L" CubeArray" : L" Cube");
}
else
{
wprintf(L"%ls", (info.arraySize > 1) ? L" 2DArray" : L" 2D");
}
break;
case TEX_DIMENSION_TEXTURE3D:
wprintf(L" 3D");
break;
}
switch (info.GetAlphaMode())
{
case TEX_ALPHA_MODE_OPAQUE:
wprintf(L" \x0e0:Opaque");
break;
case TEX_ALPHA_MODE_PREMULTIPLIED:
wprintf(L" \x0e0:PM");
break;
case TEX_ALPHA_MODE_STRAIGHT:
wprintf(L" \x0e0:NonPM");
break;
case TEX_ALPHA_MODE_CUSTOM:
wprintf(L" \x0e0:Custom");
break;
case TEX_ALPHA_MODE_UNKNOWN:
break;
}
wprintf(L")");
}
void PrintUsage()
{
PrintLogo(false, g_ToolName, g_Description);
static const wchar_t* const s_usage =
L"Usage: texassemble <command> <options> [--] <files>\n"
L"\n"
L" cube create cubemap\n"
L" volume create volume map\n"
L" array create texture array\n"
L" cubearray create cubemap array\n"
L" h-cross or v-cross create a cross image from a cubemap\n"
L" v-cross-fnz create a cross image flipping the -Z face\n"
L" h-tee create a 'T' image from a cubemap\n"
L" h-strip or v-strip create a strip image from a cubemap\n"
L" array-strip create a strip image from a 1D/2D array\n"
L" merge create texture from rgb image and alpha image\n"
L" gif create array from animated gif\n"
L" cube-from-hc create cubemap from a h-cross image\n"
L" cube-from-vc create cubemap from a v-cross image\n"
L" cube-from-vc-fnz create cubemap from a v-cross image flipping the -Z face\n"
L" cube-from-ht create cubemap from a h-tee image\n"
L" cube-from-hs create cubemap from a h-strip image\n"
L" cube-from-vs create cubemap from a v-strip image\n"
L"\n"
L" -r wildcard filename search is recursive\n"
L" -flist <filename> use text file with a list of input files (one per line)\n"
L" -w <n> width\n"
L" -h <n> height\n"
L" -f <format> format\n"
L" -if <filter> image filtering\n"
L" -srgb{i|o} sRGB {input, output}\n"
L" -o <filename> output filename\n"
L" -l force output filename to lower case\n"
L" -y overwrite existing output file (if any)\n"
L" -sepalpha resize alpha channel separately from color channels\n"
L" -nowic Force non-WIC filtering\n"
L" -wrap, -mirror texture addressing mode (wrap, mirror, or clamp)\n"
L" -alpha convert premultiplied alpha to straight alpha\n"
L" -dx10 Force use of 'DX10' extended header\n"
L" -nologo suppress copyright message\n"
L" -fl <feature-level> Set maximum feature level target (defaults to 11.0)\n"
L" -tonemap Apply a tonemap operator based on maximum luminance\n"
L"\n"
L" (gif only)\n"
L" -bgcolor Use background color instead of transparency\n"
L"\n"
L" (merge only)\n"
L" -swizzle <rgba> Select channels for merge (defaults to rgbB)\n"
L"\n"
L" (cube, volume, array, cubearray, merge only)\n"
L" -stripmips Use only base image from input dds files\n"
L"\n"
L" '-- ' is needed if any input filepath starts with the '-' or '/' character\n";
wprintf(L"%ls", s_usage);
wprintf(L"\n <format>: ");
PrintList(13, g_pFormats);
wprintf(L" ");
PrintList(13, g_pFormatAliases);
wprintf(L"\n <filter>: ");
PrintList(13, g_pFilters);
wprintf(L"\n <feature-level>: ");
PrintList(13, g_pFeatureLevels);
}
HRESULT SaveImageFile(const Image& img, uint32_t fileType, const wchar_t* szOutputFile)
{
switch (fileType)
{
case CODEC_DDS:
return SaveToDDSFile(img, DDS_FLAGS_NONE, szOutputFile);
case CODEC_TGA:
return SaveToTGAFile(img, TGA_FLAGS_NONE, szOutputFile);
case CODEC_HDR:
return SaveToHDRFile(img, szOutputFile);
#ifdef USE_OPENEXR
case CODEC_EXR:
return SaveToEXRFile(img, szOutputFile);
#endif
#ifdef USE_LIBJPEG
case CODEC_JPEG:
return SaveToJPEGFile(img, szOutputFile);
#endif
#ifdef USE_LIBPNG
case CODEC_PNG:
return SaveToPNGFile(img, szOutputFile);
#endif
default:
{
HRESULT hr = SaveToWICFile(img, WIC_FLAGS_NONE, GetWICCodec(static_cast<WICCodecs>(fileType)), szOutputFile);
if ((hr == static_cast<HRESULT>(0xc00d5212) /* MF_E_TOPO_CODEC_NOT_FOUND */) && (fileType == WIC_CODEC_HEIF))
{
wprintf(L"\nINFO: This format requires installing the HEIF Image Extensions - https://aka.ms/heif\n");
}
return hr;
}
}
}
bool ParseSwizzleMask(
_In_reads_(4) const wchar_t* mask,
_Out_writes_(4) uint32_t* permuteElements,
_Out_writes_(4) uint32_t* zeroElements,
_Out_writes_(4) uint32_t* oneElements)
{
if (!mask || !permuteElements || !zeroElements || !oneElements)
return false;
if (!mask[0])
return false;
for (uint32_t j = 0; j < 4; ++j)
{
if (!mask[j])
break;
switch (mask[j])
{
case L'r':
case L'x':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 0;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'R':
case L'X':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 4;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'g':
case L'y':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 1;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'G':
case L'Y':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 5;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'b':
case L'z':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 2;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'B':
case L'Z':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 6;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'a':
case L'w':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 3;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'A':
case L'W':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = 7;
zeroElements[k] = 0;
oneElements[k] = 0;
}
break;
case L'0':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = k;
zeroElements[k] = 1;
oneElements[k] = 0;
}
break;
case L'1':
for (uint32_t k = j; k < 4; ++k)
{
permuteElements[k] = k;
zeroElements[k] = 0;
oneElements[k] = 1;
}
break;
default:
return false;
}
}
return true;
}
}
//--------------------------------------------------------------------------------------
// Entry-point
//--------------------------------------------------------------------------------------
#ifdef _PREFAST_
#pragma prefast(disable : 28198, "Command-line tool, frees all memory on exit")
#endif
int __cdecl wmain(_In_ int argc, _In_z_count_(argc) wchar_t* argv[])
{
// Parameters and defaults
size_t width = 0;
size_t height = 0;
DXGI_FORMAT format = DXGI_FORMAT_UNKNOWN;
TEX_FILTER_FLAGS dwFilter = TEX_FILTER_DEFAULT;
TEX_FILTER_FLAGS dwSRGB = TEX_FILTER_DEFAULT;
TEX_FILTER_FLAGS dwFilterOpts = TEX_FILTER_DEFAULT;
uint32_t fileType = WIC_CODEC_BMP;
uint32_t maxSize = 16384;
uint32_t maxCube = 16384;
uint32_t maxArray = 2048;
uint32_t maxVolume = 2048;
// DXTex's Open Alpha onto Surface always loaded alpha from the blue channel
uint32_t permuteElements[4] = { 0, 1, 2, 6 };
uint32_t zeroElements[4] = {};
uint32_t oneElements[4] = {};
std::wstring outputFile;
// Set locale for output since GetErrorDesc can get localized strings.
std::locale::global(std::locale(""));
// Initialize COM (needed for WIC)
HRESULT hr = hr = CoInitializeEx(nullptr, COINIT_MULTITHREADED);
if (FAILED(hr))
{
wprintf(L"Failed to initialize COM (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
// Process command line
if (argc < 2)
{
PrintUsage();
return 0;
}
if (('-' == argv[1][0]) && ('-' == argv[1][1]))
{
if (!_wcsicmp(argv[1], L"--version"))
{
PrintLogo(true, g_ToolName, g_Description);
return 0;
}
else if (!_wcsicmp(argv[1], L"--help"))
{
PrintUsage();
return 0;
}
}
const uint32_t dwCommand = LookupByName(argv[1], g_pCommands);
switch (dwCommand)
{
case CMD_CUBE:
case CMD_VOLUME:
case CMD_ARRAY:
case CMD_CUBEARRAY:
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
case CMD_MERGE:
case CMD_GIF:
case CMD_ARRAY_STRIP:
case CMD_CUBE_FROM_HC:
case CMD_CUBE_FROM_VC:
case CMD_CUBE_FROM_VC_FNZ:
case CMD_CUBE_FROM_HT:
case CMD_CUBE_FROM_HS:
case CMD_CUBE_FROM_VS:
case CMD_FROM_MIPS:
break;
default:
wprintf(L"Must use one of: ");
PrintList(4, g_pCommands);
return 1;
}
uint32_t dwOptions = 0;
std::list<SConversion> conversion;
bool allowOpts = true;
for (int iArg = 2; iArg < argc; iArg++)
{
PWSTR pArg = argv[iArg];
if (allowOpts
&& ('-' == pArg[0]) && ('-' == pArg[1]))
{
if (pArg[2] == 0)
{
// "-- " is the POSIX standard for "end of options" marking to escape the '-' and '/' characters at the start of filepaths.
allowOpts = false;
}
else if (!_wcsicmp(pArg, L"--version"))
{
PrintLogo(true, g_ToolName, g_Description);
return 0;
}
else if (!_wcsicmp(pArg, L"--help"))
{
PrintUsage();
return 0;
}
else
{
wprintf(L"Unknown option: %ls\n", pArg);
return 1;
}
}
else if (allowOpts
&& (('-' == pArg[0]) || ('/' == pArg[0])))
{
pArg++;
PWSTR pValue;
for (pValue = pArg; *pValue && (':' != *pValue); pValue++);
if (*pValue)
*pValue++ = 0;
const uint32_t dwOption = LookupByName(pArg, g_pOptions);
if (!dwOption || (dwOptions & (1 << dwOption)))
{
PrintUsage();
return 1;
}
dwOptions |= 1 << dwOption;
// Handle options with additional value parameter
switch (dwOption)
{
case OPT_FILELIST:
case OPT_WIDTH:
case OPT_HEIGHT:
case OPT_FORMAT:
case OPT_FILTER:
case OPT_OUTPUTFILE:
case OPT_FEATURE_LEVEL:
case OPT_SWIZZLE:
if (!*pValue)
{
if ((iArg + 1 >= argc))
{
PrintUsage();
return 1;
}
iArg++;
pValue = argv[iArg];
}
break;
default:
break;
}
switch (dwOption)
{
case OPT_WIDTH:
if (swscanf_s(pValue, L"%zu", &width) != 1)
{
wprintf(L"Invalid value specified with -w (%ls)\n", pValue);
return 1;
}
break;
case OPT_HEIGHT:
if (swscanf_s(pValue, L"%zu", &height) != 1)
{
wprintf(L"Invalid value specified with -h (%ls)\n", pValue);
return 1;
}
break;
case OPT_FORMAT:
format = static_cast<DXGI_FORMAT>(LookupByName(pValue, g_pFormats));
if (!format)
{
format = static_cast<DXGI_FORMAT>(LookupByName(pValue, g_pFormatAliases));
if (!format)
{
wprintf(L"Invalid value specified with -f (%ls)\n", pValue);
return 1;
}
}
break;
case OPT_FILTER:
dwFilter = static_cast<TEX_FILTER_FLAGS>(LookupByName(pValue, g_pFilters));
if (!dwFilter)
{
wprintf(L"Invalid value specified with -if (%ls)\n", pValue);
return 1;
}
break;
case OPT_SRGBI:
dwSRGB |= TEX_FILTER_SRGB_IN;
break;
case OPT_SRGBO:
dwSRGB |= TEX_FILTER_SRGB_OUT;
break;
case OPT_SRGB:
dwSRGB |= TEX_FILTER_SRGB;
break;
case OPT_SEPALPHA:
dwFilterOpts |= TEX_FILTER_SEPARATE_ALPHA;
break;
case OPT_NO_WIC:
dwFilterOpts |= TEX_FILTER_FORCE_NON_WIC;
break;
case OPT_OUTPUTFILE:
{
std::filesystem::path path(pValue);
outputFile = path.make_preferred().native();
fileType = LookupByName(path.extension().c_str(), g_pExtFileTypes);
switch (dwCommand)
{
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
case CMD_MERGE:
case CMD_ARRAY_STRIP:
case CMD_FROM_MIPS:
break;
default:
if (fileType != CODEC_DDS)
{
wprintf(L"Assembled output file must be a dds\n");
return 1;
}
}
break;
}
case OPT_TA_WRAP:
if (dwFilterOpts & TEX_FILTER_MIRROR)
{
wprintf(L"Can't use -wrap and -mirror at same time\n\n");
PrintUsage();
return 1;
}
dwFilterOpts |= TEX_FILTER_WRAP;
break;
case OPT_TA_MIRROR:
if (dwFilterOpts & TEX_FILTER_WRAP)
{
wprintf(L"Can't use -wrap and -mirror at same time\n\n");
PrintUsage();
return 1;
}
dwFilterOpts |= TEX_FILTER_MIRROR;
break;
case OPT_FILELIST:
{
std::filesystem::path path(pValue);
std::wifstream inFile(path.make_preferred().c_str());
if (!inFile)
{
wprintf(L"Error opening -flist file %ls\n", pValue);
return 1;
}
inFile.imbue(std::locale::classic());
ProcessFileList(inFile, conversion);
}
break;
case OPT_FEATURE_LEVEL:
maxSize = LookupByName(pValue, g_pFeatureLevels);
maxCube = LookupByName(pValue, g_pFeatureLevelsCube);
maxArray = LookupByName(pValue, g_pFeatureLevelsArray);
maxVolume = LookupByName(pValue, g_pFeatureLevelsVolume);
if (!maxSize || !maxCube || !maxArray || !maxVolume)
{
wprintf(L"Invalid value specified with -fl (%ls)\n", pValue);
wprintf(L"\n");
PrintUsage();
return 1;
}
break;
case OPT_GIF_BGCOLOR:
if (dwCommand != CMD_GIF)
{
wprintf(L"-bgcolor only applies to gif command\n");
return 1;
}
break;
case OPT_SWIZZLE:
if (dwCommand != CMD_MERGE)
{
wprintf(L"-swizzle only applies to merge command\n");
return 1;
}
if (!*pValue || wcslen(pValue) > 4)
{
wprintf(L"Invalid value specified with -swizzle (%ls)\n\n", pValue);
PrintUsage();
return 1;
}
else if (!ParseSwizzleMask(pValue, permuteElements, zeroElements, oneElements))
{
wprintf(L"-swizzle requires a 1 to 4 character mask composed of these letters: r, g, b, a, x, y, w, z, 0, 1.\n Lowercase letters are from the first image, upper-case letters are from the second image.\n");
return 1;
}
break;
case OPT_STRIP_MIPS:
switch (dwCommand)
{
case CMD_CUBE:
case CMD_VOLUME:
case CMD_ARRAY:
case CMD_CUBEARRAY:
case CMD_MERGE:
break;
default:
wprintf(L"-stripmips only applies to cube, volume, array, cubearray, or merge commands\n");
return 1;
}
break;
default:
break;
}
}
else if (wcspbrk(pArg, L"?*") != nullptr)
{
const size_t count = conversion.size();
std::filesystem::path path(pArg);
SearchForFiles(path.make_preferred(), conversion, (dwOptions & (1 << OPT_RECURSIVE)) != 0, nullptr);
if (conversion.size() <= count)
{
wprintf(L"No matching files found for %ls\n", pArg);
return 1;
}
}
else
{
SConversion conv = {};
std::filesystem::path path(pArg);
conv.szSrc = path.make_preferred().native();
conversion.push_back(conv);
}
}
if (conversion.empty())
{
PrintUsage();
return 0;
}
if (~dwOptions & (1 << OPT_NOLOGO))
PrintLogo(false, g_ToolName, g_Description);
switch (dwCommand)
{
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
case CMD_GIF:
case CMD_ARRAY_STRIP:
case CMD_CUBE_FROM_HC:
case CMD_CUBE_FROM_VC:
case CMD_CUBE_FROM_VC_FNZ:
case CMD_CUBE_FROM_HT:
case CMD_CUBE_FROM_HS:
case CMD_CUBE_FROM_VS:
if (conversion.size() > 1)
{
wprintf(L"ERROR: cross/strip/gif/cube-from-* output only accepts 1 input file\n");
return 1;
}
break;
case CMD_MERGE:
if (conversion.size() > 2)
{
wprintf(L"ERROR: merge output only accepts 2 input files\n");
return 1;
}
break;
default:
break;
}
// Convert images
size_t images = 0;
std::vector<std::unique_ptr<ScratchImage>> loadedImages;
if (dwCommand == CMD_GIF)
{
std::filesystem::path curpath(conversion.front().szSrc);
wprintf(L"reading %ls", curpath.c_str());
fflush(stdout);
if (outputFile.empty())
{
outputFile = curpath.stem().concat(L".dds").native();
}
hr = LoadAnimatedGif(curpath.c_str(), loadedImages, (dwOptions & (1 << OPT_GIF_BGCOLOR)) != 0);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
else
{
size_t conversionIndex = 0;
for (auto pConv = conversion.begin(); pConv != conversion.end(); ++pConv)
{
std::filesystem::path curpath(pConv->szSrc);
auto const ext = curpath.extension();
// Load source image
if (pConv != conversion.begin())
wprintf(L"\n");
else if (outputFile.empty())
{
switch (dwCommand)
{
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
case CMD_ARRAY_STRIP:
outputFile = curpath.stem().concat(L".bmp").native();
break;
default:
if (_wcsicmp(curpath.extension().c_str(), L".dds") == 0)
{
wprintf(L"ERROR: Need to specify output file via -o\n");
return 1;
}
outputFile = curpath.stem().concat(L".dds").native();
break;
}
}
wprintf(L"reading %ls", curpath.c_str());
fflush(stdout);
TexMetadata info;
std::unique_ptr<ScratchImage> image(new (std::nothrow) ScratchImage);
if (!image)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
switch (dwCommand)
{
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
if (_wcsicmp(ext.c_str(), L".dds") == 0)
{
hr = LoadFromDDSFile(curpath.c_str(), DDS_FLAGS_ALLOW_LARGE_FILES, &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
if (!info.IsCubemap())
{
wprintf(L"\nERROR: Input must be a cubemap\n");
return 1;
}
else if (info.arraySize != 6)
{
wprintf(L"\nWARNING: Only the first cubemap in an array is written out as a cross/strip\n");
}
}
else
{
wprintf(L"\nERROR: Input must be a dds of a cubemap\n");
return 1;
}
break;
case CMD_ARRAY_STRIP:
if (_wcsicmp(ext.c_str(), L".dds") == 0)
{
hr = LoadFromDDSFile(curpath.c_str(), DDS_FLAGS_ALLOW_LARGE_FILES, &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
if (info.dimension == TEX_DIMENSION_TEXTURE3D || info.arraySize < 2 || info.IsCubemap())
{
wprintf(L"\nERROR: Input must be a 1D/2D array\n");
return 1;
}
}
else
{
wprintf(L"\nERROR: Input must be a dds of a 1D/2D array\n");
return 1;
}
break;
default:
if (_wcsicmp(ext.c_str(), L".dds") == 0)
{
hr = LoadFromDDSFile(curpath.c_str(), DDS_FLAGS_ALLOW_LARGE_FILES, &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
if (info.IsVolumemap() || info.IsCubemap())
{
wprintf(L"\nERROR: Can't assemble complex surfaces\n");
return 1;
}
else if ((info.mipLevels > 1) && ((dwOptions & (1 << OPT_STRIP_MIPS)) == 0))
{
switch (dwCommand)
{
case CMD_CUBE:
case CMD_VOLUME:
case CMD_ARRAY:
case CMD_CUBEARRAY:
case CMD_MERGE:
wprintf(L"\nERROR: Can't assemble using input mips. To ignore mips, try again with -stripmips\n");
return 1;
default:
break;
}
}
}
else if (_wcsicmp(ext.c_str(), L".tga") == 0)
{
TGA_FLAGS tgaFlags = (IsBGR(format)) ? TGA_FLAGS_BGR : TGA_FLAGS_NONE;
hr = LoadFromTGAFile(curpath.c_str(), tgaFlags, &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
else if (_wcsicmp(ext.c_str(), L".hdr") == 0)
{
hr = LoadFromHDRFile(curpath.c_str(), &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
#ifdef USE_OPENEXR
else if (_wcsicmp(ext.c_str(), L".exr") == 0)
{
hr = LoadFromEXRFile(curpath.c_str(), &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
#endif
#ifdef USE_LIBJPEG
else if (_wcsicmp(ext.c_str(), L".jpg") == 0 || _wcsicmp(ext.c_str(), L".jpeg") == 0)
{
hr = LoadFromJPEGFile(curpath.c_str(), &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
#endif
#ifdef USE_LIBPNG
else if (_wcsicmp(ext.c_str(), L".png") == 0)
{
hr = LoadFromPNGFile(curpath.c_str(), &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
#endif
else
{
// WIC shares the same filter values for mode and dither
static_assert(static_cast<int>(WIC_FLAGS_DITHER) == static_cast<int>(TEX_FILTER_DITHER), "WIC_FLAGS_* & TEX_FILTER_* should match");
static_assert(static_cast<int>(WIC_FLAGS_DITHER_DIFFUSION) == static_cast<int>(TEX_FILTER_DITHER_DIFFUSION), "WIC_FLAGS_* & TEX_FILTER_* should match");
static_assert(static_cast<int>(WIC_FLAGS_FILTER_POINT) == static_cast<int>(TEX_FILTER_POINT), "WIC_FLAGS_* & TEX_FILTER_* should match");
static_assert(static_cast<int>(WIC_FLAGS_FILTER_LINEAR) == static_cast<int>(TEX_FILTER_LINEAR), "WIC_FLAGS_* & TEX_FILTER_* should match");
static_assert(static_cast<int>(WIC_FLAGS_FILTER_CUBIC) == static_cast<int>(TEX_FILTER_CUBIC), "WIC_FLAGS_* & TEX_FILTER_* should match");
static_assert(static_cast<int>(WIC_FLAGS_FILTER_FANT) == static_cast<int>(TEX_FILTER_FANT), "WIC_FLAGS_* & TEX_FILTER_* should match");
hr = LoadFromWICFile(curpath.c_str(), WIC_FLAGS_ALL_FRAMES | dwFilter, &info, *image);
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
if (hr == static_cast<HRESULT>(0xc00d5212) /* MF_E_TOPO_CODEC_NOT_FOUND */)
{
if (_wcsicmp(ext.c_str(), L".heic") == 0 || _wcsicmp(ext.c_str(), L".heif") == 0)
{
wprintf(L"INFO: This format requires installing the HEIF Image Extensions - https://aka.ms/heif\n");
}
else if (_wcsicmp(ext.c_str(), L".webp") == 0)
{
wprintf(L"INFO: This format requires installing the WEBP Image Extensions - https://www.microsoft.com/p/webp-image-extensions/9pg2dk419drg\n");
}
}
return 1;
}
}
break;
}
PrintInfo(info);
// Convert texture
fflush(stdout);
// --- Planar ------------------------------------------------------------------
if (IsPlanar(info.format))
{
auto img = image->GetImage(0, 0, 0);
assert(img);
const size_t nimg = image->GetImageCount();
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
hr = ConvertToSinglePlane(img, nimg, info, *timage);
if (FAILED(hr))
{
wprintf(L" FAILED [converttosingleplane] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto& tinfo = timage->GetMetadata();
info.format = tinfo.format;
assert(info.width == tinfo.width);
assert(info.height == tinfo.height);
assert(info.depth == tinfo.depth);
assert(info.arraySize == tinfo.arraySize);
assert(info.mipLevels == tinfo.mipLevels);
assert(info.miscFlags == tinfo.miscFlags);
assert(info.dimension == tinfo.dimension);
image.swap(timage);
}
// --- Decompress --------------------------------------------------------------
if (IsCompressed(info.format))
{
const Image* img = image->GetImage(0, 0, 0);
assert(img);
const size_t nimg = image->GetImageCount();
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
hr = Decompress(img, nimg, info, DXGI_FORMAT_UNKNOWN /* picks good default */, *timage.get());
if (FAILED(hr))
{
wprintf(L" FAILED [decompress] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto& tinfo = timage->GetMetadata();
info.format = tinfo.format;
assert(info.width == tinfo.width);
assert(info.height == tinfo.height);
assert(info.depth == tinfo.depth);
assert(info.arraySize == tinfo.arraySize);
assert(info.mipLevels == tinfo.mipLevels);
assert(info.miscFlags == tinfo.miscFlags);
assert(info.dimension == tinfo.dimension);
image.swap(timage);
}
// --- Strip Mips (if requested) -----------------------------------------------
if ((info.mipLevels > 1) && (dwOptions & (1 << OPT_STRIP_MIPS)))
{
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
TexMetadata mdata = info;
mdata.mipLevels = 1;
hr = timage->Initialize(mdata);
if (FAILED(hr))
{
wprintf(L" FAILED [copy to single level] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
if (info.dimension == TEX_DIMENSION_TEXTURE3D)
{
for (size_t d = 0; d < info.depth; ++d)
{
hr = CopyRectangle(*image->GetImage(0, 0, d), Rect(0, 0, info.width, info.height),
*timage->GetImage(0, 0, d), TEX_FILTER_DEFAULT, 0, 0);
if (FAILED(hr))
{
wprintf(L" FAILED [copy to single level] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
}
else
{
for (size_t i = 0; i < info.arraySize; ++i)
{
hr = CopyRectangle(*image->GetImage(0, i, 0), Rect(0, 0, info.width, info.height),
*timage->GetImage(0, i, 0), TEX_FILTER_DEFAULT, 0, 0);
if (FAILED(hr))
{
wprintf(L" FAILED [copy to single level] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
}
image.swap(timage);
info.mipLevels = 1;
}
// --- Undo Premultiplied Alpha (if requested) ---------------------------------
if ((dwOptions & (1 << OPT_DEMUL_ALPHA))
&& HasAlpha(info.format)
&& info.format != DXGI_FORMAT_A8_UNORM)
{
if (info.GetAlphaMode() == TEX_ALPHA_MODE_STRAIGHT)
{
printf("\nWARNING: Image is already using straight alpha\n");
}
else if (!info.IsPMAlpha())
{
printf("\nWARNING: Image is not using premultipled alpha\n");
}
else
{
auto img = image->GetImage(0, 0, 0);
assert(img);
const size_t nimg = image->GetImageCount();
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
hr = PremultiplyAlpha(img, nimg, info, TEX_PMALPHA_REVERSE | dwSRGB, *timage);
if (FAILED(hr))
{
wprintf(L" FAILED [demultiply alpha] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto& tinfo = timage->GetMetadata();
info.miscFlags2 = tinfo.miscFlags2;
assert(info.width == tinfo.width);
assert(info.height == tinfo.height);
assert(info.depth == tinfo.depth);
assert(info.arraySize == tinfo.arraySize);
assert(info.mipLevels == tinfo.mipLevels);
assert(info.miscFlags == tinfo.miscFlags);
assert(info.dimension == tinfo.dimension);
image.swap(timage);
}
}
// --- Resize ------------------------------------------------------------------
if (!width)
{
width = info.width;
}
if (!height)
{
height = info.height;
}
size_t targetWidth = width;
size_t targetHeight = height;
if (dwCommand == CMD_FROM_MIPS)
{
size_t mipdiv = 1;
for (size_t i = 0; i < conversionIndex; ++i)
{
mipdiv = mipdiv + mipdiv;
}
targetWidth /= mipdiv;
targetHeight /= mipdiv;
if (targetWidth == 0 || targetHeight == 0)
{
wprintf(L"\nERROR: Too many input mips provided. For the dimensions of the first mip provided, only %zu input mips can be used.\n", conversionIndex);
return 1;
}
}
if (info.width != targetWidth || info.height != targetHeight)
{
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
hr = Resize(image->GetImages(), image->GetImageCount(), image->GetMetadata(), targetWidth, targetHeight, dwFilter | dwFilterOpts, *timage.get());
if (FAILED(hr))
{
wprintf(L" FAILED [resize] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto& tinfo = timage->GetMetadata();
assert(tinfo.width == targetWidth && tinfo.height == targetHeight && tinfo.mipLevels == 1);
info.width = tinfo.width;
info.height = tinfo.height;
info.mipLevels = 1;
assert(info.depth == tinfo.depth);
assert(info.arraySize == tinfo.arraySize);
assert(info.miscFlags == tinfo.miscFlags);
assert(info.format == tinfo.format);
assert(info.dimension == tinfo.dimension);
image.swap(timage);
}
// --- Tonemap (if requested) --------------------------------------------------
if (dwOptions & (1 << OPT_TONEMAP))
{
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
// Compute max luminosity across all images
XMVECTOR maxLum = XMVectorZero();
hr = EvaluateImage(image->GetImages(), image->GetImageCount(), image->GetMetadata(),
[&](const XMVECTOR* pixels, size_t w, size_t y)
{
UNREFERENCED_PARAMETER(y);
for (size_t j = 0; j < w; ++j)
{
static const XMVECTORF32 s_luminance = { { { 0.3f, 0.59f, 0.11f, 0.f } } };
XMVECTOR v = *pixels++;
v = XMVector3Dot(v, s_luminance);
maxLum = XMVectorMax(v, maxLum);
}
});
if (FAILED(hr))
{
wprintf(L" FAILED [tonemap maxlum] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
// Reinhard et al, "Photographic Tone Reproduction for Digital Images"
// http://www.cs.utah.edu/~reinhard/cdrom/
maxLum = XMVectorMultiply(maxLum, maxLum);
hr = TransformImage(image->GetImages(), image->GetImageCount(), image->GetMetadata(),
[&](XMVECTOR* outPixels, const XMVECTOR* inPixels, size_t w, size_t y)
{
UNREFERENCED_PARAMETER(y);
for (size_t j = 0; j < w; ++j)
{
XMVECTOR value = inPixels[j];
const XMVECTOR scale = XMVectorDivide(
XMVectorAdd(g_XMOne, XMVectorDivide(value, maxLum)),
XMVectorAdd(g_XMOne, value));
const XMVECTOR nvalue = XMVectorMultiply(value, scale);
value = XMVectorSelect(value, nvalue, g_XMSelect1110);
outPixels[j] = value;
}
}, *timage);
if (FAILED(hr))
{
wprintf(L" FAILED [tonemap apply] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
#ifndef NDEBUG
auto& tinfo = timage->GetMetadata();
#endif
assert(info.width == tinfo.width);
assert(info.height == tinfo.height);
assert(info.depth == tinfo.depth);
assert(info.arraySize == tinfo.arraySize);
assert(info.mipLevels == tinfo.mipLevels);
assert(info.miscFlags == tinfo.miscFlags);
assert(info.format == tinfo.format);
assert(info.dimension == tinfo.dimension);
image.swap(timage);
}
// --- Convert -----------------------------------------------------------------
if (format == DXGI_FORMAT_UNKNOWN)
{
format = info.format;
}
else if (info.format != format && !IsCompressed(format))
{
std::unique_ptr<ScratchImage> timage(new (std::nothrow) ScratchImage);
if (!timage)
{
wprintf(L"\nERROR: Memory allocation failed\n");
return 1;
}
hr = Convert(image->GetImages(), image->GetImageCount(), image->GetMetadata(), format,
dwFilter | dwFilterOpts | dwSRGB, TEX_THRESHOLD_DEFAULT, *timage.get());
if (FAILED(hr))
{
wprintf(L" FAILED [convert] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto& tinfo = timage->GetMetadata();
assert(tinfo.format == format);
info.format = tinfo.format;
assert(info.width == tinfo.width);
assert(info.height == tinfo.height);
assert(info.depth == tinfo.depth);
assert(info.arraySize == tinfo.arraySize);
assert(info.mipLevels == tinfo.mipLevels);
assert(info.miscFlags == tinfo.miscFlags);
assert(info.dimension == tinfo.dimension);
image.swap(timage);
}
images += info.arraySize;
loadedImages.emplace_back(std::move(image));
++conversionIndex;
}
}
switch (dwCommand)
{
case CMD_CUBE:
if (images != 6)
{
wprintf(L"\nERROR: cube requires six images to form the faces of the cubemap\n");
return 1;
}
break;
case CMD_CUBEARRAY:
if ((images < 6) || (images % 6) != 0)
{
wprintf(L"cubearray requires a multiple of 6 images to form the faces of the cubemaps\n");
return 1;
}
break;
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
case CMD_GIF:
case CMD_CUBE_FROM_HC:
case CMD_CUBE_FROM_VC:
case CMD_CUBE_FROM_VC_FNZ:
case CMD_CUBE_FROM_HT:
case CMD_CUBE_FROM_HS:
case CMD_CUBE_FROM_VS:
break;
default:
if (images < 2)
{
wprintf(L"\nERROR: Need at least 2 images to assemble\n\n");
return 1;
}
break;
}
// --- Create result ---------------------------------------------------------------
switch (dwCommand)
{
case CMD_H_CROSS:
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
case CMD_H_TEE:
case CMD_H_STRIP:
case CMD_V_STRIP:
{
size_t twidth = 0;
size_t theight = 0;
switch (dwCommand)
{
case CMD_H_CROSS:
case CMD_H_TEE:
twidth = width * 4;
theight = height * 3;
break;
case CMD_V_CROSS:
case CMD_V_CROSS_FNZ:
twidth = width * 3;
theight = height * 4;
break;
case CMD_H_STRIP:
twidth = width * 6;
theight = height;
break;
case CMD_V_STRIP:
twidth = width;
theight = height * 6;
break;
default:
break;
}
ScratchImage result;
hr = result.Initialize2D(format, twidth, theight, 1, 1);
if (FAILED(hr))
{
wprintf(L"FAILED setting up result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto src = loadedImages.cbegin();
auto dest = result.GetImage(0, 0, 0);
for (size_t index = 0; index < 6; ++index)
{
auto img = (*src)->GetImage(0, index, 0);
if (!img)
{
wprintf(L"FAILED: Unexpected error\n");
return 1;
}
const Rect rect(0, 0, width, height);
size_t offsetx = 0;
size_t offsety = 0;
TEX_FR_FLAGS flipRotate = TEX_FR_ROTATE0;
switch (dwCommand)
{
case CMD_H_CROSS:
{
// +Y
// -X +Z +X -Z
// -Y
static const size_t s_offsetx[6] = { 2, 0, 1, 1, 1, 3 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 1 };
offsetx = s_offsetx[index] * width;
offsety = s_offsety[index] * height;
break;
}
case CMD_V_CROSS:
{
// +Y
// -X +Z +X
// -Y
// -Z
static const size_t s_offsetx[6] = { 2, 0, 1, 1, 1, 1 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 3 };
offsetx = s_offsetx[index] * width;
offsety = s_offsety[index] * height;
break;
}
case CMD_V_CROSS_FNZ:
{
// +Y
// -X +Z +X
// -Y
// -Z (flipped H/V)
static const size_t s_offsetx[6] = { 2, 0, 1, 1, 1, 1 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 3 };
offsetx = s_offsetx[index] * width;
offsety = s_offsety[index] * height;
if (index == 5)
{
flipRotate = TEX_FR_ROTATE180;
}
break;
}
case CMD_H_TEE:
{
// +Y
// +Z +X -Z -X
// -Y
static const size_t s_offsetx[6] = { 1, 3, 0, 0, 0, 2 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 1 };
offsetx = s_offsetx[index] * width;
offsety = s_offsety[index] * height;
break;
}
case CMD_H_STRIP:
// +X -X +Y -Y +Z -Z
offsetx = index * width;
break;
case CMD_V_STRIP:
// +X
// -X
// +Y
// -Y
// +Z
// -Z
offsety = index * height;
break;
default:
break;
}
if (flipRotate != TEX_FR_ROTATE0)
{
ScratchImage tmp;
hr = FlipRotate(*img, flipRotate, tmp);
if (SUCCEEDED(hr))
{
hr = CopyRectangle(*tmp.GetImage(0,0,0), rect, *dest, dwFilter | dwFilterOpts, offsetx, offsety);
}
}
else
{
hr = CopyRectangle(*img, rect, *dest, dwFilter | dwFilterOpts, offsetx, offsety);
}
if (FAILED(hr))
{
wprintf(L"FAILED building result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
// Write cross/strip
wprintf(L"\nWriting %ls ", outputFile.c_str());
PrintInfo(result.GetMetadata());
wprintf(L"\n");
fflush(stdout);
if (dwOptions & (1 << OPT_TOLOWER))
{
std::transform(outputFile.begin(), outputFile.end(), outputFile.begin(), towlower);
}
if (~dwOptions & (1 << OPT_OVERWRITE))
{
if (GetFileAttributesW(outputFile.c_str()) != INVALID_FILE_ATTRIBUTES)
{
wprintf(L"\nERROR: Output file already exists, use -y to overwrite\n");
return 1;
}
}
hr = SaveImageFile(*dest, fileType, outputFile.c_str());
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
break;
}
case CMD_MERGE:
{
// Capture data from our second source image
ScratchImage tempImage;
hr = Convert(*loadedImages[1]->GetImage(0, 0, 0), DXGI_FORMAT_R32G32B32A32_FLOAT,
dwFilter | dwFilterOpts | dwSRGB, TEX_THRESHOLD_DEFAULT, tempImage);
if (FAILED(hr))
{
wprintf(L" FAILED [convert second input] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
const Image& img = *tempImage.GetImage(0, 0, 0);
// Merge with our first source image
const Image& rgb = *loadedImages[0]->GetImage(0, 0, 0);
const XMVECTOR zc = XMVectorSelectControl(zeroElements[0], zeroElements[1], zeroElements[2], zeroElements[3]);
const XMVECTOR oc = XMVectorSelectControl(oneElements[0], oneElements[1], oneElements[2], oneElements[3]);
ScratchImage result;
hr = TransformImage(rgb, [&, zc, oc](XMVECTOR* outPixels, const XMVECTOR* inPixels, size_t w, size_t y)
{
const XMVECTOR *inPixels2 = reinterpret_cast<XMVECTOR*>(img.pixels + img.rowPitch * y);
for (size_t j = 0; j < w; ++j)
{
XMVECTOR pixel = XMVectorPermute(inPixels[j], inPixels2[j],
permuteElements[0], permuteElements[1], permuteElements[2], permuteElements[3]);
pixel = XMVectorSelect(pixel, g_XMZero, zc);
outPixels[j] = XMVectorSelect(pixel, g_XMOne, oc);
}
}, result);
if (FAILED(hr))
{
wprintf(L" FAILED [merge image] (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
// Write merged texture
wprintf(L"\nWriting %ls ", outputFile.c_str());
PrintInfo(result.GetMetadata());
wprintf(L"\n");
fflush(stdout);
if (dwOptions & (1 << OPT_TOLOWER))
{
std::transform(outputFile.begin(), outputFile.end(), outputFile.begin(), towlower);
}
if (~dwOptions & (1 << OPT_OVERWRITE))
{
if (GetFileAttributesW(outputFile.c_str()) != INVALID_FILE_ATTRIBUTES)
{
wprintf(L"\nERROR: Output file already exists, use -y to overwrite\n");
return 1;
}
}
hr = SaveImageFile(*result.GetImage(0, 0, 0), fileType, outputFile.c_str());
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
break;
}
case CMD_ARRAY_STRIP:
{
const size_t twidth = width;
const size_t theight = height * images;
ScratchImage result;
hr = result.Initialize2D(format, twidth, theight, 1, 1);
if (FAILED(hr))
{
wprintf(L"FAILED setting up result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
auto src = loadedImages.cbegin();
auto dest = result.GetImage(0, 0, 0);
for (size_t index = 0; index < images; ++index)
{
auto img = (*src)->GetImage(0, index, 0);
if (!img)
{
wprintf(L"FAILED: Unexpected error\n");
return 1;
}
const Rect rect(0, 0, width, height);
constexpr size_t offsetx = 0;
size_t offsety = 0;
offsety = index * height;
hr = CopyRectangle(*img, rect, *dest, dwFilter | dwFilterOpts, offsetx, offsety);
if (FAILED(hr))
{
wprintf(L"FAILED building result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
}
// Write array strip
wprintf(L"\nWriting %ls ", outputFile.c_str());
PrintInfo(result.GetMetadata());
wprintf(L"\n");
fflush(stdout);
if (dwOptions & (1 << OPT_TOLOWER))
{
std::transform(outputFile.begin(), outputFile.end(), outputFile.begin(), towlower);
}
if (~dwOptions & (1 << OPT_OVERWRITE))
{
if (GetFileAttributesW(outputFile.c_str()) != INVALID_FILE_ATTRIBUTES)
{
wprintf(L"\nERROR: Output file already exists, use -y to overwrite\n");
return 1;
}
}
hr = SaveImageFile(*dest, fileType, outputFile.c_str());
if (FAILED(hr))
{
wprintf(L" FAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
break;
}
case CMD_CUBE_FROM_HC:
case CMD_CUBE_FROM_VC:
case CMD_CUBE_FROM_VC_FNZ:
case CMD_CUBE_FROM_HT:
case CMD_CUBE_FROM_HS:
case CMD_CUBE_FROM_VS:
{
auto src = loadedImages.cbegin();
auto img = (*src)->GetImage(0, 0, 0);
size_t ratio_w = 1;
size_t ratio_h = 1;
switch (dwCommand)
{
case CMD_CUBE_FROM_HC:
case CMD_CUBE_FROM_HT:
ratio_w = 4;
ratio_h = 3;
break;
case CMD_CUBE_FROM_VC:
case CMD_CUBE_FROM_VC_FNZ:
ratio_w = 3;
ratio_h = 4;
break;
case CMD_CUBE_FROM_HS:
ratio_w = 6;
break;
case CMD_CUBE_FROM_VS:
ratio_h = 6;
break;
default:
break;
}
size_t twidth = width / ratio_w;
size_t theight = height / ratio_h;
if (((width % ratio_w) != 0) || ((height % ratio_h) != 0))
{
wprintf(L"\nWARNING: %ls expects %zu:%zu aspect ratio\n", g_pCommands[dwCommand - 1].name, ratio_w, ratio_h);
}
if (twidth > maxCube || theight > maxCube)
{
wprintf(L"\nWARNING: Target size exceeds maximum cube dimensions for feature level (%u)\n", maxCube);
}
ScratchImage result;
hr = result.InitializeCube(format, twidth, theight, 1, 1);
if (FAILED(hr))
{
wprintf(L"FAILED setting up result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
for (size_t index = 0; index < 6; ++index)
{
size_t offsetx = 0;
size_t offsety = 0;
TEX_FR_FLAGS flipRotate = TEX_FR_ROTATE0;
switch (dwCommand)
{
case CMD_CUBE_FROM_HC:
{
// +Y
// -X +Z +X -Z
// -Y
static const size_t s_offsetx[6] = { 2, 0, 1, 1, 1, 3 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 1 };
offsetx = s_offsetx[index] * twidth;
offsety = s_offsety[index] * theight;
break;
}
case CMD_CUBE_FROM_VC:
{
// +Y
// -X +Z +X
// -Y
// -Z
static const size_t s_offsetx[6] = { 2, 0, 1, 1, 1, 1 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 3 };
offsetx = s_offsetx[index] * twidth;
offsety = s_offsety[index] * theight;
break;
}
case CMD_CUBE_FROM_VC_FNZ:
{
// +Y
// -X +Z +X
// -Y
// -Z (flipped H/V)
static const size_t s_offsetx[6] = { 2, 0, 1, 1, 1, 1 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 3 };
offsetx = s_offsetx[index] * twidth;
offsety = s_offsety[index] * theight;
if (index == 5)
{
flipRotate = TEX_FR_ROTATE180;
}
break;
}
case CMD_CUBE_FROM_HT:
{
// +Y
// +Z +X -Z -X
// -Y
static const size_t s_offsetx[6] = { 1, 3, 0, 0, 0, 2 };
static const size_t s_offsety[6] = { 1, 1, 0, 2, 1, 1 };
offsetx = s_offsetx[index] * twidth;
offsety = s_offsety[index] * theight;
break;
}
case CMD_CUBE_FROM_HS:
// +X -X +Y -Y +Z -Z
offsetx = index * twidth;
break;
case CMD_CUBE_FROM_VS:
// +X
// -X
// +Y
// -Y
// +Z
// -Z
offsety = index * theight;
break;
default:
break;
}
const Rect rect(offsetx, offsety, twidth, theight);
const Image* dest = result.GetImage(0, index, 0);
hr = CopyRectangle(*img, rect, *dest, dwFilter | dwFilterOpts, 0, 0);
if (FAILED(hr))
{
wprintf(L"FAILED building result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
if (flipRotate != TEX_FR_ROTATE0)
{
ScratchImage tmp;
hr = FlipRotate(*dest, flipRotate, tmp);
if (SUCCEEDED(hr))
{
hr = CopyRectangle(*tmp.GetImage(0,0,0), Rect(0, 0, twidth, theight), *dest, dwFilter | dwFilterOpts, 0, 0);
}
}
}
// Write texture
wprintf(L"\nWriting %ls ", outputFile.c_str());
PrintInfo(result.GetMetadata());
wprintf(L"\n");
fflush(stdout);
if (dwOptions & (1 << OPT_TOLOWER))
{
std::transform(outputFile.begin(), outputFile.end(), outputFile.begin(), towlower);
}
if (~dwOptions & (1 << OPT_OVERWRITE))
{
if (GetFileAttributesW(outputFile.c_str()) != INVALID_FILE_ATTRIBUTES)
{
wprintf(L"\nERROR: Output file already exists, use -y to overwrite\n");
return 1;
}
}
hr = SaveToDDSFile(result.GetImages(), result.GetImageCount(), result.GetMetadata(),
(dwOptions & (1 << OPT_USE_DX10)) ? (DDS_FLAGS_FORCE_DX10_EXT | DDS_FLAGS_FORCE_DX10_EXT_MISC2) : DDS_FLAGS_NONE,
outputFile.c_str());
if (FAILED(hr))
{
wprintf(L"\nFAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
break;
}
case CMD_FROM_MIPS:
{
auto src = loadedImages.cbegin();
ScratchImage result;
hr = result.Initialize2D(format, width, height, 1, images);
if (FAILED(hr))
{
wprintf(L"FAILED setting up result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
size_t mipdiv = 1;
size_t index = 0;
for (auto it = src; it != loadedImages.cend(); ++it)
{
auto dest = result.GetImage(index, 0, 0);
const ScratchImage* simage = it->get();
assert(simage != nullptr);
const Image* img = simage->GetImage(0, 0, 0);
assert(img != nullptr);
hr = CopyRectangle(*img, Rect(0, 0, width / mipdiv, height / mipdiv), *dest, dwFilter | dwFilterOpts, 0, 0);
if (FAILED(hr))
{
wprintf(L"FAILED building result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
index++;
mipdiv *= 2;
}
// Write texture2D
wprintf(L"\nWriting %ls ", outputFile.c_str());
PrintInfo(result.GetMetadata());
wprintf(L"\n");
fflush(stdout);
if (dwOptions & (1 << OPT_TOLOWER))
{
std::transform(outputFile.begin(), outputFile.end(), outputFile.begin(), towlower);
}
if (~dwOptions & (1 << OPT_OVERWRITE))
{
if (GetFileAttributesW(outputFile.c_str()) != INVALID_FILE_ATTRIBUTES)
{
wprintf(L"\nERROR: Output file already exists, use -y to overwrite\n");
return 1;
}
}
hr = SaveToDDSFile(result.GetImages(), result.GetImageCount(), result.GetMetadata(),
(dwOptions & (1 << OPT_USE_DX10)) ? (DDS_FLAGS_FORCE_DX10_EXT | DDS_FLAGS_FORCE_DX10_EXT_MISC2) : DDS_FLAGS_NONE,
outputFile.c_str());
if (FAILED(hr))
{
wprintf(L"\nFAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
break;
}
default:
{
std::vector<Image> imageArray;
imageArray.reserve(images);
for (auto it = loadedImages.cbegin(); it != loadedImages.cend(); ++it)
{
const ScratchImage* simage = it->get();
assert(simage != nullptr);
for (size_t j = 0; j < simage->GetMetadata().arraySize; ++j)
{
const Image* img = simage->GetImage(0, j, 0);
assert(img != nullptr);
imageArray.push_back(*img);
}
}
switch (dwCommand)
{
case CMD_CUBE:
if (imageArray[0].width > maxCube || imageArray[0].height > maxCube)
{
wprintf(L"\nWARNING: Target size exceeds maximum cube dimensions for feature level (%u)\n", maxCube);
}
break;
case CMD_VOLUME:
if (imageArray[0].width > maxVolume || imageArray[0].height > maxVolume || imageArray.size() > maxVolume)
{
wprintf(L"\nWARNING: Target size exceeds volume extent for feature level (%u)\n", maxVolume);
}
break;
case CMD_ARRAY:
if (imageArray[0].width > maxSize || imageArray[0].height > maxSize || imageArray.size() > maxArray)
{
wprintf(L"\nWARNING: Target size exceeds maximum size for feature level (size %u, array %u)\n", maxSize, maxArray);
}
break;
case CMD_CUBEARRAY:
if (imageArray[0].width > maxCube || imageArray[0].height > maxCube || imageArray.size() > maxArray)
{
wprintf(L"\nWARNING: Target size exceeds maximum cube dimensions for feature level (size %u, array %u)\n", maxCube, maxArray);
}
break;
default:
if (imageArray[0].width > maxSize || imageArray[0].height > maxSize)
{
wprintf(L"\nWARNING: Target size exceeds maximum size for feature level (%u)\n", maxSize);
}
break;
}
ScratchImage result;
switch (dwCommand)
{
case CMD_VOLUME:
hr = result.Initialize3DFromImages(&imageArray[0], imageArray.size());
break;
case CMD_ARRAY:
case CMD_GIF:
hr = result.InitializeArrayFromImages(&imageArray[0], imageArray.size(), (dwOptions & (1 << OPT_USE_DX10)) != 0);
break;
case CMD_CUBE:
case CMD_CUBEARRAY:
hr = result.InitializeCubeFromImages(&imageArray[0], imageArray.size());
break;
default:
break;
}
if (FAILED(hr))
{
wprintf(L"FAILED building result image (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
// Write texture
wprintf(L"\nWriting %ls ", outputFile.c_str());
PrintInfo(result.GetMetadata());
wprintf(L"\n");
fflush(stdout);
if (dwOptions & (1 << OPT_TOLOWER))
{
std::transform(outputFile.begin(), outputFile.end(), outputFile.begin(), towlower);
}
if (~dwOptions & (1 << OPT_OVERWRITE))
{
if (GetFileAttributesW(outputFile.c_str()) != INVALID_FILE_ATTRIBUTES)
{
wprintf(L"\nERROR: Output file already exists, use -y to overwrite\n");
return 1;
}
}
hr = SaveToDDSFile(result.GetImages(), result.GetImageCount(), result.GetMetadata(),
(dwOptions & (1 << OPT_USE_DX10)) ? (DDS_FLAGS_FORCE_DX10_EXT | DDS_FLAGS_FORCE_DX10_EXT_MISC2) : DDS_FLAGS_NONE,
outputFile.c_str());
if (FAILED(hr))
{
wprintf(L"\nFAILED (%08X%ls)\n", static_cast<unsigned int>(hr), GetErrorDesc(hr));
return 1;
}
break;
}
}
return 0;
}
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