//------------------------------------------------------------------------------------- // Compression //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT Compress( const Image& srcImage, DXGI_FORMAT format, DWORD compress, float alphaRef, ScratchImage& image ) { if ( IsCompressed(srcImage.format) || !IsCompressed(format) || IsTypeless(format) ) return E_INVALIDARG; // Image size must be a multiple of 4 (degenerate cases for mipmaps are allowed) bool degenerate = false; size_t width = srcImage.width; if ( (width % 4) != 0 ) { if ( width != 1 && width != 2 ) return E_INVALIDARG; degenerate = true; } size_t height = srcImage.height; if ( (height % 4) != 0 ) { if ( height != 1 && height != 2 ) return E_INVALIDARG; degenerate = true; } // Create compressed image HRESULT hr = image.Initialize2D( format, width, height, 1, 1 ); if ( FAILED(hr) ) return hr; const Image *img = image.GetImage( 0, 0, 0 ); if ( !img ) { image.Release(); return E_POINTER; } // Compress single image if ( (compress & TEX_COMPRESS_PARALLEL) && !degenerate ) { #ifndef _OPENMP return E_NOTIMPL; #else hr = _CompressBC_Parallel( srcImage, *img, _GetBCFlags( compress ), alphaRef ); #endif // _OPENMP } else { hr = _CompressBC( srcImage, *img, _GetBCFlags( compress ), alphaRef, degenerate ); } if ( FAILED(hr) ) image.Release(); return hr; }
//------------------------------------------------------------------------------------- // Decompression //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT DirectX::Decompress( const Image& cImage, DXGI_FORMAT format, ScratchImage& image) { if (!IsCompressed(cImage.format) || IsCompressed(format)) return E_INVALIDARG; if (format == DXGI_FORMAT_UNKNOWN) { // Pick a default decompressed format based on BC input format format = DefaultDecompress(cImage.format); if (format == DXGI_FORMAT_UNKNOWN) { // Input is not a compressed format return E_INVALIDARG; } } else { if (!IsValid(format)) return E_INVALIDARG; if (IsTypeless(format) || IsPlanar(format) || IsPalettized(format)) return HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED); } // Create decompressed image HRESULT hr = image.Initialize2D(format, cImage.width, cImage.height, 1, 1); if (FAILED(hr)) return hr; const Image *img = image.GetImage(0, 0, 0); if (!img) { image.Release(); return E_POINTER; } // Decompress single image hr = DecompressBC(cImage, *img); if (FAILED(hr)) image.Release(); return hr; }
//------------------------------------------------------------------------------------- // Converts to/from a premultiplied alpha version of the texture //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT DirectX::PremultiplyAlpha( const Image& srcImage, DWORD flags, ScratchImage& image) { if (!srcImage.pixels) return E_POINTER; if (IsCompressed(srcImage.format) || IsPlanar(srcImage.format) || IsPalettized(srcImage.format) || IsTypeless(srcImage.format) || !HasAlpha(srcImage.format)) return HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED); if ((srcImage.width > UINT32_MAX) || (srcImage.height > UINT32_MAX)) return E_INVALIDARG; HRESULT hr = image.Initialize2D(srcImage.format, srcImage.width, srcImage.height, 1, 1); if (FAILED(hr)) return hr; const Image *rimage = image.GetImage(0, 0, 0); if (!rimage) { image.Release(); return E_POINTER; } if (flags & TEX_PMALPHA_REVERSE) { hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? DemultiplyAlpha(srcImage, *rimage) : DemultiplyAlphaLinear(srcImage, flags, *rimage); } else { hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? PremultiplyAlpha_(srcImage, *rimage) : PremultiplyAlphaLinear(srcImage, flags, *rimage); } if (FAILED(hr)) { image.Release(); return hr; } return S_OK; }
//------------------------------------------------------------------------------------- // Compression //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT DirectX::Compress( const Image& srcImage, DXGI_FORMAT format, DWORD compress, float threshold, ScratchImage& image) { if (IsCompressed(srcImage.format) || !IsCompressed(format)) return E_INVALIDARG; if (IsTypeless(format) || IsTypeless(srcImage.format) || IsPlanar(srcImage.format) || IsPalettized(srcImage.format)) return HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED); // Create compressed image HRESULT hr = image.Initialize2D(format, srcImage.width, srcImage.height, 1, 1); if (FAILED(hr)) return hr; const Image *img = image.GetImage(0, 0, 0); if (!img) { image.Release(); return E_POINTER; } // Compress single image if (compress & TEX_COMPRESS_PARALLEL) { #ifndef _OPENMP return E_NOTIMPL; #else hr = CompressBC_Parallel(srcImage, *img, GetBCFlags(compress), GetSRGBFlags(compress), threshold); #endif // _OPENMP } else { hr = CompressBC(srcImage, *img, GetBCFlags(compress), GetSRGBFlags(compress), threshold); } if (FAILED(hr)) image.Release(); return hr; }
//------------------------------------------------------------------------------------- // Resize image //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT Resize( const Image& srcImage, size_t width, size_t height, DWORD filter, ScratchImage& image ) { if ( width == 0 || height == 0 ) return E_INVALIDARG; #ifdef _M_X64 if ( (srcImage.width > 0xFFFFFFFF) || (srcImage.height > 0xFFFFFFFF) ) return E_INVALIDARG; if ( (width > 0xFFFFFFFF) || (height > 0xFFFFFFFF) ) return E_INVALIDARG; #endif if ( !srcImage.pixels ) return E_POINTER; if ( IsCompressed( srcImage.format ) ) { // We don't support resizing compressed images return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED ); } HRESULT hr = image.Initialize2D( srcImage.format, width, height, 1, 1 ); if ( FAILED(hr) ) return hr; const Image *rimage = image.GetImage( 0, 0, 0 ); if ( !rimage ) return E_POINTER; if ( _UseWICFiltering( srcImage.format, filter ) ) { WICPixelFormatGUID pfGUID; if ( _DXGIToWIC( srcImage.format, pfGUID, true ) ) { // Case 1: Source format is supported by Windows Imaging Component hr = _PerformResizeUsingWIC( srcImage, filter, pfGUID, *rimage ); } else { // Case 2: Source format is not supported by WIC, so we have to convert, resize, and convert back hr = _PerformResizeViaF32( srcImage, filter, *rimage ); } } else { hr = _PerformResizeUsingCustomFilters( srcImage, filter, *rimage ); } if ( FAILED(hr) ) { image.Release(); return hr; } return S_OK; }
//------------------------------------------------------------------------------------- // Decompression //------------------------------------------------------------------------------------- HRESULT Decompress( const Image& cImage, DXGI_FORMAT format, ScratchImage& image ) { if ( IsCompressed(format) || IsTypeless(format) ) return E_INVALIDARG; if ( format == DXGI_FORMAT_UNKNOWN ) { // Pick a default decompressed format based on BC input format format = _DefaultDecompress( cImage.format ); if ( format == DXGI_FORMAT_UNKNOWN ) { // Input is not a compressed format return E_INVALIDARG; } } else if ( !IsCompressed(cImage.format) || !IsValid(format) ) return E_INVALIDARG; // Create decompressed image HRESULT hr = image.Initialize2D( format, cImage.width, cImage.height, 1, 1 ); if ( FAILED(hr) ) return hr; const Image *img = image.GetImage( 0, 0, 0 ); if ( !img ) { image.Release(); return E_POINTER; } // Decompress single image hr = _DecompressBC( cImage, *img ); if ( FAILED(hr) ) image.Release(); return hr; }
//------------------------------------------------------------------------------------- // Converts to a premultiplied alpha version of the texture //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT PremultiplyAlpha( const Image& srcImage, ScratchImage& image ) { if ( !srcImage.pixels ) return E_POINTER; if ( IsCompressed(srcImage.format) || IsVideo(srcImage.format) || IsTypeless(srcImage.format) || !HasAlpha(srcImage.format) ) return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED ); #ifdef _M_X64 if ( (srcImage.width > 0xFFFFFFFF) || (srcImage.height > 0xFFFFFFFF) ) return E_INVALIDARG; #endif HRESULT hr = image.Initialize2D( srcImage.format, srcImage.width, srcImage.height, 1, 1 ); if ( FAILED(hr) ) return hr; const Image *rimage = image.GetImage( 0, 0, 0 ); if ( !rimage ) { image.Release(); return E_POINTER; } hr = _PremultiplyAlpha( srcImage, *rimage ); if ( FAILED(hr) ) { image.Release(); return hr; } return S_OK; }
//------------------------------------------------------------------------------------- // Do conversion, flip/rotate using WIC, conversion cycle //------------------------------------------------------------------------------------- static HRESULT _PerformFlipRotateViaF32( _In_ const Image& srcImage, _In_ DWORD flags, _In_ const Image& destImage ) { if ( !srcImage.pixels || !destImage.pixels ) return E_POINTER; assert( srcImage.format != DXGI_FORMAT_R32G32B32A32_FLOAT ); assert( srcImage.format == destImage.format ); ScratchImage temp; HRESULT hr = _ConvertToR32G32B32A32( srcImage, temp ); if ( FAILED(hr) ) return hr; const Image *tsrc = temp.GetImage( 0, 0, 0 ); if ( !tsrc ) return E_POINTER; ScratchImage rtemp; hr = rtemp.Initialize2D( DXGI_FORMAT_R32G32B32A32_FLOAT, destImage.width, destImage.height, 1, 1 ); if ( FAILED(hr) ) return hr; const Image *tdest = rtemp.GetImage( 0, 0, 0 ); if ( !tdest ) return E_POINTER; hr = _PerformFlipRotateUsingWIC( *tsrc, flags, GUID_WICPixelFormat128bppRGBAFloat, *tdest ); if ( FAILED(hr) ) return hr; temp.Release(); hr = _ConvertFromR32G32B32A32( *tdest, destImage ); if ( FAILED(hr) ) return hr; return S_OK; }
//------------------------------------------------------------------------------------- // Flip/rotate image (complex) //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT FlipRotate( const Image* srcImages, size_t nimages, const TexMetadata& metadata, DWORD flags, ScratchImage& result ) { if ( !srcImages || !nimages ) return E_INVALIDARG; if ( IsCompressed( metadata.format ) ) { // We don't support flip/rotate operations on compressed images return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED ); } static_assert( TEX_FR_ROTATE0 == WICBitmapTransformRotate0, "TEX_FR_ROTATE0 no longer matches WIC" ); static_assert( TEX_FR_ROTATE90 == WICBitmapTransformRotate90, "TEX_FR_ROTATE90 no longer matches WIC" ); static_assert( TEX_FR_ROTATE180 == WICBitmapTransformRotate180, "TEX_FR_ROTATE180 no longer matches WIC" ); static_assert( TEX_FR_ROTATE270 == WICBitmapTransformRotate270, "TEX_FR_ROTATE270 no longer matches WIC" ); static_assert( TEX_FR_FLIP_HORIZONTAL == WICBitmapTransformFlipHorizontal, "TEX_FR_FLIP_HORIZONTAL no longer matches WIC" ); static_assert( TEX_FR_FLIP_VERTICAL == WICBitmapTransformFlipVertical, "TEX_FR_FLIP_VERTICAL no longer matches WIC" ); // Only supports 90, 180, 270, or no rotation flags... not a combination of rotation flags switch ( flags & (TEX_FR_ROTATE90|TEX_FR_ROTATE180|TEX_FR_ROTATE270) ) { case 0: case TEX_FR_ROTATE90: case TEX_FR_ROTATE180: case TEX_FR_ROTATE270: break; default: return E_INVALIDARG; } TexMetadata mdata2 = metadata; bool flipwh = false; if (flags & (TEX_FR_ROTATE90|TEX_FR_ROTATE270)) { flipwh = true; mdata2.width = metadata.height; mdata2.height = metadata.width; } HRESULT hr = result.Initialize( mdata2 ); if ( FAILED(hr) ) return hr; if ( nimages != result.GetImageCount() ) { result.Release(); return E_FAIL; } const Image* dest = result.GetImages(); if ( !dest ) { result.Release(); return E_POINTER; } WICPixelFormatGUID pfGUID; bool wicpf = _DXGIToWIC( metadata.format, pfGUID ); for( size_t index=0; index < nimages; ++index ) { const Image& src = srcImages[ index ]; if ( src.format != metadata.format ) { result.Release(); return E_FAIL; } #ifdef _AMD64_ if ( (src.width > 0xFFFFFFFF) || (src.height > 0xFFFFFFFF) ) return E_FAIL; #endif const Image& dst = dest[ index ]; assert( dst.format == metadata.format ); if ( flipwh ) { if ( src.width != dst.height || src.height != dst.width ) { result.Release(); return E_FAIL; } } else { if ( src.width != dst.width || src.height != dst.height ) { result.Release(); return E_FAIL; } } if (wicpf) { // Case 1: Source format is supported by Windows Imaging Component hr = _PerformFlipRotateUsingWIC( src, flags, pfGUID, dst ); } else { // Case 2: Source format is not supported by WIC, so we have to convert, flip/rotate, and convert back hr = _PerformFlipRotateViaF32( src, flags, dst ); } if ( FAILED(hr) ) { result.Release(); return hr; } } return S_OK; }
//------------------------------------------------------------------------------------- // Flip/rotate image //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT FlipRotate( const Image& srcImage, DWORD flags, ScratchImage& image ) { if ( !srcImage.pixels ) return E_POINTER; if ( !flags ) return E_INVALIDARG; #ifdef _AMD64_ if ( (srcImage.width > 0xFFFFFFFF) || (srcImage.height > 0xFFFFFFFF) ) return E_INVALIDARG; #endif if ( IsCompressed( srcImage.format ) ) { // We don't support flip/rotate operations on compressed images return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED ); } static_assert( TEX_FR_ROTATE0 == WICBitmapTransformRotate0, "TEX_FR_ROTATE0 no longer matches WIC" ); static_assert( TEX_FR_ROTATE90 == WICBitmapTransformRotate90, "TEX_FR_ROTATE90 no longer matches WIC" ); static_assert( TEX_FR_ROTATE180 == WICBitmapTransformRotate180, "TEX_FR_ROTATE180 no longer matches WIC" ); static_assert( TEX_FR_ROTATE270 == WICBitmapTransformRotate270, "TEX_FR_ROTATE270 no longer matches WIC" ); static_assert( TEX_FR_FLIP_HORIZONTAL == WICBitmapTransformFlipHorizontal, "TEX_FR_FLIP_HORIZONTAL no longer matches WIC" ); static_assert( TEX_FR_FLIP_VERTICAL == WICBitmapTransformFlipVertical, "TEX_FR_FLIP_VERTICAL no longer matches WIC" ); // Only supports 90, 180, 270, or no rotation flags... not a combination of rotation flags switch ( flags & (TEX_FR_ROTATE90|TEX_FR_ROTATE180|TEX_FR_ROTATE270) ) { case 0: case TEX_FR_ROTATE90: case TEX_FR_ROTATE180: case TEX_FR_ROTATE270: break; default: return E_INVALIDARG; } size_t nwidth = srcImage.width; size_t nheight = srcImage.height; if (flags & (TEX_FR_ROTATE90|TEX_FR_ROTATE270)) { nwidth = srcImage.height; nheight = srcImage.width; } HRESULT hr = image.Initialize2D( srcImage.format, nwidth, nheight, 1, 1 ); if ( FAILED(hr) ) return hr; const Image *rimage = image.GetImage( 0, 0, 0 ); if ( !rimage ) return E_POINTER; WICPixelFormatGUID pfGUID; if ( _DXGIToWIC( srcImage.format, pfGUID ) ) { // Case 1: Source format is supported by Windows Imaging Component hr = _PerformFlipRotateUsingWIC( srcImage, flags, pfGUID, *rimage ); } else { // Case 2: Source format is not supported by WIC, so we have to convert, flip/rotate, and convert back hr = _PerformFlipRotateViaF32( srcImage, flags, *rimage ); } if ( FAILED(hr) ) { image.Release(); return hr; } return S_OK; }
HRESULT Decompress( const Image* cImages, size_t nimages, const TexMetadata& metadata, DXGI_FORMAT format, ScratchImage& images ) { if ( !cImages || !nimages ) return E_INVALIDARG; if ( IsCompressed(format) || IsTypeless(format) ) return E_INVALIDARG; if ( format == DXGI_FORMAT_UNKNOWN ) { // Pick a default decompressed format based on BC input format format = _DefaultDecompress( cImages[0].format ); if ( format == DXGI_FORMAT_UNKNOWN ) { // Input is not a compressed format return E_FAIL; } } else if ( !IsValid(format) ) return E_INVALIDARG; images.Release(); TexMetadata mdata2 = metadata; mdata2.format = format; HRESULT hr = images.Initialize( mdata2 ); if ( FAILED(hr) ) return hr; if ( nimages != images.GetImageCount() ) { images.Release(); return E_FAIL; } const Image* dest = images.GetImages(); if ( !dest ) { images.Release(); return E_POINTER; } for( size_t index=0; index < nimages; ++index ) { assert( dest[ index ].format == format ); const Image& src = cImages[ index ]; if ( !IsCompressed( src.format ) ) { images.Release(); return E_FAIL; } if ( src.width != dest[ index ].width || src.height != dest[ index ].height ) { images.Release(); return E_FAIL; } hr = _DecompressBC( src, dest[ index ] ); if ( FAILED(hr) ) { images.Release(); return hr; } } return S_OK; }
HRESULT Compress( const Image* srcImages, size_t nimages, const TexMetadata& metadata, DXGI_FORMAT format, DWORD compress, float alphaRef, ScratchImage& cImages ) { if ( !srcImages || !nimages ) return E_INVALIDARG; if ( !IsCompressed(format) || IsTypeless(format) ) return E_INVALIDARG; // Image size must be a multiple of 4 (degenerate cases for mipmaps are allowed) size_t width = srcImages[0].width; if ( (width % 4) != 0 ) { if ( width != 1 && width != 2 ) return E_INVALIDARG; } size_t height = srcImages[0].height; if ( (height % 4) != 0 ) { if ( height != 1 && height != 2 ) return E_INVALIDARG; } cImages.Release(); TexMetadata mdata2 = metadata; mdata2.format = format; HRESULT hr = cImages.Initialize( mdata2 ); if ( FAILED(hr) ) return hr; if ( nimages != cImages.GetImageCount() ) { cImages.Release(); return E_FAIL; } const Image* dest = cImages.GetImages(); if ( !dest ) { cImages.Release(); return E_POINTER; } for( size_t index=0; index < nimages; ++index ) { assert( dest[ index ].format == format ); const Image& src = srcImages[ index ]; height = src.height; width = src.width; if ( width != dest[ index ].width || height != dest[ index ].height ) { cImages.Release(); return E_FAIL; } bool degenerate = ((height < 4) || (width < 4)) != 0; if ( (compress & TEX_COMPRESS_PARALLEL) && !degenerate) { #ifndef _OPENMP return E_NOTIMPL; #else if ( compress & TEX_COMPRESS_PARALLEL ) { hr = _CompressBC_Parallel( src, dest[ index ], _GetBCFlags( compress ), alphaRef ); if ( FAILED(hr) ) { cImages.Release(); return hr; } } #endif // _OPENMP } else { hr = _CompressBC( src, dest[ index ], _GetBCFlags( compress ), alphaRef, degenerate ); if ( FAILED(hr) ) { cImages.Release(); return hr; } } } return S_OK; }
//------------------------------------------------------------------------------------- // Converts to/from a premultiplied alpha version of the texture (complex) //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT DirectX::PremultiplyAlpha( const Image* srcImages, size_t nimages, const TexMetadata& metadata, DWORD flags, ScratchImage& result) { if (!srcImages || !nimages) return E_INVALIDARG; if (IsCompressed(metadata.format) || IsPlanar(metadata.format) || IsPalettized(metadata.format) || IsTypeless(metadata.format) || !HasAlpha(metadata.format)) return HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED); if ((metadata.width > UINT32_MAX) || (metadata.height > UINT32_MAX)) return E_INVALIDARG; if (metadata.IsPMAlpha() != ((flags & TEX_PMALPHA_REVERSE) != 0)) return E_FAIL; TexMetadata mdata2 = metadata; mdata2.SetAlphaMode((flags & TEX_PMALPHA_REVERSE) ? TEX_ALPHA_MODE_STRAIGHT : TEX_ALPHA_MODE_PREMULTIPLIED); HRESULT hr = result.Initialize(mdata2); if (FAILED(hr)) return hr; if (nimages != result.GetImageCount()) { result.Release(); return E_FAIL; } const Image* dest = result.GetImages(); if (!dest) { result.Release(); return E_POINTER; } for (size_t index = 0; index < nimages; ++index) { const Image& src = srcImages[index]; if (src.format != metadata.format) { result.Release(); return E_FAIL; } if ((src.width > UINT32_MAX) || (src.height > UINT32_MAX)) return E_FAIL; const Image& dst = dest[index]; assert(dst.format == metadata.format); if (src.width != dst.width || src.height != dst.height) { result.Release(); return E_FAIL; } if (flags & TEX_PMALPHA_REVERSE) { hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? DemultiplyAlpha(src, dst) : DemultiplyAlphaLinear(src, flags, dst); } else { hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? PremultiplyAlpha_(src, dst) : PremultiplyAlphaLinear(src, flags, dst); } if (FAILED(hr)) { result.Release(); return hr; } } return S_OK; }
//------------------------------------------------------------------------------------- // Resize image (complex) //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT Resize( const Image* srcImages, size_t nimages, const TexMetadata& metadata, size_t width, size_t height, DWORD filter, ScratchImage& result ) { if ( !srcImages || !nimages || width == 0 || height == 0 ) return E_INVALIDARG; #ifdef _M_X64 if ( (width > 0xFFFFFFFF) || (height > 0xFFFFFFFF) ) return E_INVALIDARG; #endif TexMetadata mdata2 = metadata; mdata2.width = width; mdata2.height = height; mdata2.mipLevels = 1; HRESULT hr = result.Initialize( mdata2 ); if ( FAILED(hr) ) return hr; bool usewic = _UseWICFiltering( metadata.format, filter ); WICPixelFormatGUID pfGUID = {0}; bool wicpf = ( usewic ) ? _DXGIToWIC( metadata.format, pfGUID, true ) : false; switch ( metadata.dimension ) { case TEX_DIMENSION_TEXTURE1D: case TEX_DIMENSION_TEXTURE2D: assert( metadata.depth == 1 ); for( size_t item = 0; item < metadata.arraySize; ++item ) { size_t srcIndex = metadata.ComputeIndex( 0, item, 0 ); if ( srcIndex >= nimages ) { result.Release(); return E_FAIL; } const Image* srcimg = &srcImages[ srcIndex ]; const Image* destimg = result.GetImage( 0, item, 0 ); if ( !srcimg || !destimg ) { result.Release(); return E_POINTER; } if ( srcimg->format != metadata.format ) { result.Release(); return E_FAIL; } #ifdef _M_X64 if ( (srcimg->width > 0xFFFFFFFF) || (srcimg->height > 0xFFFFFFFF) ) { result.Release(); return E_FAIL; } #endif if ( usewic ) { if ( wicpf ) { // Case 1: Source format is supported by Windows Imaging Component hr = _PerformResizeUsingWIC( *srcimg, filter, pfGUID, *destimg ); } else { // Case 2: Source format is not supported by WIC, so we have to convert, resize, and convert back hr = _PerformResizeViaF32( *srcimg, filter, *destimg ); } } else { // Case 3: not using WIC resizing hr = _PerformResizeUsingCustomFilters( *srcimg, filter, *destimg ); } if ( FAILED(hr) ) { result.Release(); return hr; } } break; case TEX_DIMENSION_TEXTURE3D: assert( metadata.arraySize == 1 ); for( size_t slice = 0; slice < metadata.depth; ++slice ) { size_t srcIndex = metadata.ComputeIndex( 0, 0, slice ); if ( srcIndex >= nimages ) { result.Release(); return E_FAIL; } const Image* srcimg = &srcImages[ srcIndex ]; const Image* destimg = result.GetImage( 0, 0, slice ); if ( !srcimg || !destimg ) { result.Release(); return E_POINTER; } if ( srcimg->format != metadata.format ) { result.Release(); return E_FAIL; } #ifdef _M_X64 if ( (srcimg->width > 0xFFFFFFFF) || (srcimg->height > 0xFFFFFFFF) ) { result.Release(); return E_FAIL; } #endif if ( usewic ) { if ( wicpf ) { // Case 1: Source format is supported by Windows Imaging Component hr = _PerformResizeUsingWIC( *srcimg, filter, pfGUID, *destimg ); } else { // Case 2: Source format is not supported by WIC, so we have to convert, resize, and convert back hr = _PerformResizeViaF32( *srcimg, filter, *destimg ); } } else { // Case 3: not using WIC resizing hr = _PerformResizeUsingCustomFilters( *srcimg, filter, *destimg ); } if ( FAILED(hr) ) { result.Release(); return hr; } } break; default: result.Release(); return E_FAIL; } return S_OK; }
_Use_decl_annotations_ HRESULT Compress( const Image* srcImages, size_t nimages, const TexMetadata& metadata, DXGI_FORMAT format, DWORD compress, float alphaRef, ScratchImage& cImages ) { if ( !srcImages || !nimages ) return E_INVALIDARG; if ( IsCompressed(metadata.format) || !IsCompressed(format) ) return E_INVALIDARG; if ( IsTypeless(format) || IsTypeless(metadata.format) || IsPlanar(metadata.format) || IsPalettized(metadata.format) ) return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED ); cImages.Release(); TexMetadata mdata2 = metadata; mdata2.format = format; HRESULT hr = cImages.Initialize( mdata2 ); if ( FAILED(hr) ) return hr; if ( nimages != cImages.GetImageCount() ) { cImages.Release(); return E_FAIL; } const Image* dest = cImages.GetImages(); if ( !dest ) { cImages.Release(); return E_POINTER; } for( size_t index=0; index < nimages; ++index ) { assert( dest[ index ].format == format ); const Image& src = srcImages[ index ]; if ( src.width != dest[ index ].width || src.height != dest[ index ].height ) { cImages.Release(); return E_FAIL; } if ( (compress & TEX_COMPRESS_PARALLEL) ) { #ifndef _OPENMP return E_NOTIMPL; #else if ( compress & TEX_COMPRESS_PARALLEL ) { hr = _CompressBC_Parallel( src, dest[ index ], _GetBCFlags( compress ), _GetSRGBFlags( compress ), alphaRef ); if ( FAILED(hr) ) { cImages.Release(); return hr; } } #endif // _OPENMP } else { hr = _CompressBC( src, dest[ index ], _GetBCFlags( compress ), _GetSRGBFlags( compress ), alphaRef ); if ( FAILED(hr) ) { cImages.Release(); return hr; } } } return S_OK; }
//------------------------------------------------------------------------------------- // Converts to a premultiplied alpha version of the texture (complex) //------------------------------------------------------------------------------------- _Use_decl_annotations_ HRESULT PremultiplyAlpha( const Image* srcImages, size_t nimages, const TexMetadata& metadata, ScratchImage& result ) { if ( !srcImages || !nimages ) return E_INVALIDARG; if ( IsCompressed(metadata.format) || IsVideo(metadata.format) || IsTypeless(metadata.format) || !HasAlpha(metadata.format) ) return HRESULT_FROM_WIN32( ERROR_NOT_SUPPORTED ); #ifdef _M_X64 if ( (metadata.width > 0xFFFFFFFF) || (metadata.height > 0xFFFFFFFF) ) return E_INVALIDARG; #endif if ( metadata.IsPMAlpha() ) { // Already premultiplied return E_FAIL; } TexMetadata mdata2 = metadata; mdata2.SetAlphaMode(TEX_ALPHA_MODE_PREMULTIPLIED); HRESULT hr = result.Initialize( mdata2 ); if ( FAILED(hr) ) return hr; if ( nimages != result.GetImageCount() ) { result.Release(); return E_FAIL; } const Image* dest = result.GetImages(); if ( !dest ) { result.Release(); return E_POINTER; } for( size_t index=0; index < nimages; ++index ) { const Image& src = srcImages[ index ]; if ( src.format != metadata.format ) { result.Release(); return E_FAIL; } #ifdef _M_X64 if ( (src.width > 0xFFFFFFFF) || (src.height > 0xFFFFFFFF) ) return E_FAIL; #endif const Image& dst = dest[ index ]; assert( dst.format == metadata.format ); if ( src.width != dst.width || src.height != dst.height ) { result.Release(); return E_FAIL; } hr = _PremultiplyAlpha( src, dst ); if ( FAILED(hr) ) { result.Release(); return hr; } } return S_OK; }