// File: crnlib.h - Advanced DXTn texture compression library. // Copyright (c) 2010-2016 Richard Geldreich, Jr. and Binomial LLC // See copyright notice and license at the end of this file. // // This header file contains the public crnlib declarations for DXTn, // clustered DXTn, and CRN compression/decompression. // // Note: This library does NOT need to be linked into your game executable if // all you want to do is transcode .CRN files to raw DXTn bits at run-time. // The crn_decomp.h header file library contains all the code necessary for // decompression. // // Important: If compiling with gcc, be sure strict aliasing is disabled: -fno-strict-aliasing #ifndef CRNLIB_H #define CRNLIB_H #ifdef _MSC_VER #pragma warning(disable : 4127) // conditional expression is constant #endif #define CRNLIB_VERSION 104 #define CRNLIB_SUPPORT_ATI_COMPRESS 0 #define CRNLIB_SUPPORT_SQUISH 0 typedef unsigned char crn_uint8; typedef unsigned short crn_uint16; typedef unsigned int crn_uint32; typedef signed char crn_int8; typedef signed short crn_int16; typedef signed int crn_int32; typedef unsigned int crn_bool; // crnlib can compress to these file types. enum crn_file_type { // .CRN cCRNFileTypeCRN = 0, // .DDS using regular DXT or clustered DXT cCRNFileTypeDDS, cCRNFileTypeForceDWORD = 0xFFFFFFFF }; // Supported compressed pixel formats. // Basically all the standard DX9 formats, with some swizzled DXT5 formats // (most of them supported by ATI's Compressonator), along with some ATI/X360 GPU specific formats. enum crn_format { cCRNFmtInvalid = -1, cCRNFmtDXT1 = 0, cCRNFmtFirstValid = cCRNFmtDXT1, // cCRNFmtDXT3 is not currently supported when writing to CRN - only DDS. cCRNFmtDXT3, cCRNFmtDXT5, // Various DXT5 derivatives cCRNFmtDXT5_CCxY, // Luma-chroma cCRNFmtDXT5_xGxR, // Swizzled 2-component cCRNFmtDXT5_xGBR, // Swizzled 3-component cCRNFmtDXT5_AGBR, // Swizzled 4-component // ATI 3DC and X360 DXN cCRNFmtDXN_XY, cCRNFmtDXN_YX, // DXT5 alpha blocks only cCRNFmtDXT5A, cCRNFmtETC1, cCRNFmtETC2, cCRNFmtETC2A, cCRNFmtETC1S, cCRNFmtETC2AS, cCRNFmtTotal, cCRNFmtForceDWORD = 0xFFFFFFFF }; // Various library/file format limits. enum crn_limits { // Max. mipmap level resolution on any axis. cCRNMaxLevelResolution = 4096, cCRNMinPaletteSize = 8, cCRNMaxPaletteSize = 8192, cCRNMaxFaces = 6, cCRNMaxLevels = 16, cCRNMaxHelperThreads = 15, cCRNMinQualityLevel = 0, cCRNMaxQualityLevel = 255 }; // CRN/DDS compression flags. // See the m_flags member in the crn_comp_params struct, below. enum crn_comp_flags { // Enables perceptual colorspace distance metrics if set. // Important: Be sure to disable this when compressing non-sRGB colorspace images, like normal maps! // Default: Set cCRNCompFlagPerceptual = 1, // Enables (up to) 8x8 macroblock usage if set. If disabled, only 4x4 blocks are allowed. // Compression ratio will be lower when disabled, but may cut down on blocky artifacts because the process used to determine // where large macroblocks can be used without artifacts isn't perfect. // Default: Set. cCRNCompFlagHierarchical = 2, // cCRNCompFlagQuick disables several output file optimizations - intended for things like quicker previews. // Default: Not set. cCRNCompFlagQuick = 4, // DXT1: OK to use DXT1 alpha blocks for better quality or DXT1A transparency. // DXT5: OK to use both DXT5 block types. // Currently only used when writing to .DDS files, as .CRN uses only a subset of the possible DXTn block types. // Default: Set. cCRNCompFlagUseBothBlockTypes = 8, // OK to use DXT1A transparent indices to encode black (assumes pixel shader ignores fetched alpha). // Currently only used when writing to .DDS files, .CRN never uses alpha blocks. // Default: Not set. cCRNCompFlagUseTransparentIndicesForBlack = 16, // Disables endpoint caching, for more deterministic output. // Currently only used when writing to .DDS files. // Default: Not set. cCRNCompFlagDisableEndpointCaching = 32, // If enabled, use the cCRNColorEndpointPaletteSize, etc. params to control the CRN palette sizes. Only useful when writing to .CRN files. // Default: Not set. cCRNCompFlagManualPaletteSizes = 64, // If enabled, DXT1A alpha blocks are used to encode single bit transparency. // Default: Not set. cCRNCompFlagDXT1AForTransparency = 128, // If enabled, the DXT1 compressor's color distance metric assumes the pixel shader will be converting the fetched RGB results to luma (Y part of YCbCr). // This increases quality when compressing grayscale images, because the compressor can spread the luma error amoung all three channels (i.e. it can generate blocks // with some chroma present if doing so will ultimately lead to lower luma error). // Only enable on grayscale source images. // Default: Not set. cCRNCompFlagGrayscaleSampling = 256, // If enabled, debug information will be output during compression. // Default: Not set. cCRNCompFlagDebugging = 0x80000000, cCRNCompFlagForceDWORD = 0xFFFFFFFF }; // Controls DXTn quality vs. speed control - only used when compressing to .DDS. enum crn_dxt_quality { cCRNDXTQualitySuperFast, cCRNDXTQualityFast, cCRNDXTQualityNormal, cCRNDXTQualityBetter, cCRNDXTQualityUber, cCRNDXTQualityTotal, cCRNDXTQualityForceDWORD = 0xFFFFFFFF }; // Which DXTn compressor to use when compressing to plain (non-clustered) .DDS. enum crn_dxt_compressor_type { cCRNDXTCompressorCRN, // Use crnlib's ETC1 or DXTc block compressor (default, highest quality, comparable or better than ati_compress or squish, and crnlib's ETC1 is a lot fasterw with similiar quality to Erricson's) cCRNDXTCompressorCRNF, // Use crnlib's "fast" DXTc block compressor cCRNDXTCompressorRYG, // Use RYG's DXTc block compressor (low quality, but very fast) #if CRNLIB_SUPPORT_ATI_COMPRESS cCRNDXTCompressorATI, #endif #if CRNLIB_SUPPORT_SQUISH cCRNDXTCompressorSquish, #endif cCRNTotalDXTCompressors, cCRNDXTCompressorForceDWORD = 0xFFFFFFFF }; // Progress callback function. // Processing will stop prematurely (and fail) if the callback returns false. // phase_index, total_phases - high level progress // subphase_index, total_subphases - progress within current phase typedef crn_bool (*crn_progress_callback_func)(crn_uint32 phase_index, crn_uint32 total_phases, crn_uint32 subphase_index, crn_uint32 total_subphases, void* pUser_data_ptr); // CRN/DDS compression parameters struct. struct crn_comp_params { inline crn_comp_params() { clear(); } // Clear struct to default parameters. inline void clear() { m_size_of_obj = sizeof(*this); m_file_type = cCRNFileTypeCRN; m_faces = 1; m_width = 0; m_height = 0; m_levels = 1; m_format = cCRNFmtDXT1; m_flags = cCRNCompFlagPerceptual | cCRNCompFlagHierarchical | cCRNCompFlagUseBothBlockTypes; for (crn_uint32 f = 0; f < cCRNMaxFaces; f++) for (crn_uint32 l = 0; l < cCRNMaxLevels; l++) m_pImages[f][l] = NULL; m_target_bitrate = 0.0f; m_quality_level = cCRNMaxQualityLevel; m_dxt1a_alpha_threshold = 128; m_dxt_quality = cCRNDXTQualityUber; m_dxt_compressor_type = cCRNDXTCompressorCRN; m_alpha_component = 3; m_crn_adaptive_tile_color_psnr_derating = 2.0f; m_crn_adaptive_tile_alpha_psnr_derating = 2.0f; m_crn_color_endpoint_palette_size = 0; m_crn_color_selector_palette_size = 0; m_crn_alpha_endpoint_palette_size = 0; m_crn_alpha_selector_palette_size = 0; m_num_helper_threads = 0; m_userdata0 = 0; m_userdata1 = 0; m_pProgress_func = NULL; m_pProgress_func_data = NULL; } inline bool operator==(const crn_comp_params& rhs) const { #define CRNLIB_COMP(x) \ do { \ if ((x) != (rhs.x)) \ return false; \ } while (0) CRNLIB_COMP(m_size_of_obj); CRNLIB_COMP(m_file_type); CRNLIB_COMP(m_faces); CRNLIB_COMP(m_width); CRNLIB_COMP(m_height); CRNLIB_COMP(m_levels); CRNLIB_COMP(m_format); CRNLIB_COMP(m_flags); CRNLIB_COMP(m_target_bitrate); CRNLIB_COMP(m_quality_level); CRNLIB_COMP(m_dxt1a_alpha_threshold); CRNLIB_COMP(m_dxt_quality); CRNLIB_COMP(m_dxt_compressor_type); CRNLIB_COMP(m_alpha_component); CRNLIB_COMP(m_crn_adaptive_tile_color_psnr_derating); CRNLIB_COMP(m_crn_adaptive_tile_alpha_psnr_derating); CRNLIB_COMP(m_crn_color_endpoint_palette_size); CRNLIB_COMP(m_crn_color_selector_palette_size); CRNLIB_COMP(m_crn_alpha_endpoint_palette_size); CRNLIB_COMP(m_crn_alpha_selector_palette_size); CRNLIB_COMP(m_num_helper_threads); CRNLIB_COMP(m_userdata0); CRNLIB_COMP(m_userdata1); CRNLIB_COMP(m_pProgress_func); CRNLIB_COMP(m_pProgress_func_data); for (crn_uint32 f = 0; f < cCRNMaxFaces; f++) for (crn_uint32 l = 0; l < cCRNMaxLevels; l++) CRNLIB_COMP(m_pImages[f][l]); #undef CRNLIB_COMP return true; } // Returns true if the input parameters are reasonable. inline bool check() const { if ((m_file_type > cCRNFileTypeDDS) || (((int)m_quality_level < (int)cCRNMinQualityLevel) || ((int)m_quality_level > (int)cCRNMaxQualityLevel)) || (m_dxt1a_alpha_threshold > 255) || ((m_faces != 1) && (m_faces != 6)) || ((m_width < 1) || (m_width > cCRNMaxLevelResolution)) || ((m_height < 1) || (m_height > cCRNMaxLevelResolution)) || ((m_levels < 1) || (m_levels > cCRNMaxLevels)) || ((m_format < cCRNFmtDXT1) || (m_format >= cCRNFmtTotal)) || ((m_crn_color_endpoint_palette_size) && ((m_crn_color_endpoint_palette_size < cCRNMinPaletteSize) || (m_crn_color_endpoint_palette_size > cCRNMaxPaletteSize))) || ((m_crn_color_selector_palette_size) && ((m_crn_color_selector_palette_size < cCRNMinPaletteSize) || (m_crn_color_selector_palette_size > cCRNMaxPaletteSize))) || ((m_crn_alpha_endpoint_palette_size) && ((m_crn_alpha_endpoint_palette_size < cCRNMinPaletteSize) || (m_crn_alpha_endpoint_palette_size > cCRNMaxPaletteSize))) || ((m_crn_alpha_selector_palette_size) && ((m_crn_alpha_selector_palette_size < cCRNMinPaletteSize) || (m_crn_alpha_selector_palette_size > cCRNMaxPaletteSize))) || (m_alpha_component > 3) || (m_num_helper_threads > cCRNMaxHelperThreads) || (m_dxt_quality > cCRNDXTQualityUber) || (m_dxt_compressor_type >= cCRNTotalDXTCompressors)) { return false; } return true; } // Helper to set/get flags from m_flags member. inline bool get_flag(crn_comp_flags flag) const { return (m_flags & flag) != 0; } inline void set_flag(crn_comp_flags flag, bool val) { m_flags &= ~flag; if (val) m_flags |= flag; } crn_uint32 m_size_of_obj; crn_file_type m_file_type; // Output file type: cCRNFileTypeCRN or cCRNFileTypeDDS. crn_uint32 m_faces; // 1 (2D map) or 6 (cubemap) crn_uint32 m_width; // [1,cCRNMaxLevelResolution], non-power of 2 OK, non-square OK crn_uint32 m_height; // [1,cCRNMaxLevelResolution], non-power of 2 OK, non-square OK crn_uint32 m_levels; // [1,cCRNMaxLevelResolution], non-power of 2 OK, non-square OK crn_format m_format; // Output pixel format. crn_uint32 m_flags; // see crn_comp_flags enum // Array of pointers to 32bpp input images. const crn_uint32* m_pImages[cCRNMaxFaces][cCRNMaxLevels]; // Target bitrate - if non-zero, the compressor will use an interpolative search to find the // highest quality level that is <= the target bitrate. If it fails to find a bitrate high enough, it'll // try disabling adaptive block sizes (cCRNCompFlagHierarchical flag) and redo the search. This process can be pretty slow. float m_target_bitrate; // Desired quality level. // Currently, CRN and DDS quality levels are not compatible with eachother from an image quality standpoint. crn_uint32 m_quality_level; // [cCRNMinQualityLevel, cCRNMaxQualityLevel] // DXTn compression parameters. crn_uint32 m_dxt1a_alpha_threshold; crn_dxt_quality m_dxt_quality; crn_dxt_compressor_type m_dxt_compressor_type; // Alpha channel's component. Defaults to 3. crn_uint32 m_alpha_component; // Various low-level CRN specific parameters. float m_crn_adaptive_tile_color_psnr_derating; float m_crn_adaptive_tile_alpha_psnr_derating; crn_uint32 m_crn_color_endpoint_palette_size; // [cCRNMinPaletteSize,cCRNMaxPaletteSize] crn_uint32 m_crn_color_selector_palette_size; // [cCRNMinPaletteSize,cCRNMaxPaletteSize] crn_uint32 m_crn_alpha_endpoint_palette_size; // [cCRNMinPaletteSize,cCRNMaxPaletteSize] crn_uint32 m_crn_alpha_selector_palette_size; // [cCRNMinPaletteSize,cCRNMaxPaletteSize] // Number of helper threads to create during compression. 0=no threading. crn_uint32 m_num_helper_threads; // CRN userdata0 and userdata1 members, which are written directly to the header of the output file. crn_uint32 m_userdata0; crn_uint32 m_userdata1; // User provided progress callback. crn_progress_callback_func m_pProgress_func; void* m_pProgress_func_data; }; // Mipmap generator's mode. enum crn_mip_mode { cCRNMipModeUseSourceOrGenerateMips, // Use source texture's mipmaps if it has any, otherwise generate new mipmaps cCRNMipModeUseSourceMips, // Use source texture's mipmaps if it has any, otherwise the output has no mipmaps cCRNMipModeGenerateMips, // Always generate new mipmaps cCRNMipModeNoMips, // Output texture has no mipmaps cCRNMipModeTotal, cCRNModeForceDWORD = 0xFFFFFFFF }; const char* crn_get_mip_mode_desc(crn_mip_mode m); const char* crn_get_mip_mode_name(crn_mip_mode m); // Mipmap generator's filter kernel. enum crn_mip_filter { cCRNMipFilterBox, cCRNMipFilterTent, cCRNMipFilterLanczos4, cCRNMipFilterMitchell, cCRNMipFilterKaiser, // Kaiser=default mipmap filter cCRNMipFilterTotal, cCRNMipFilterForceDWORD = 0xFFFFFFFF }; const char* crn_get_mip_filter_name(crn_mip_filter f); // Mipmap generator's scale mode. enum crn_scale_mode { cCRNSMDisabled, cCRNSMAbsolute, cCRNSMRelative, cCRNSMLowerPow2, cCRNSMNearestPow2, cCRNSMNextPow2, cCRNSMTotal, cCRNSMForceDWORD = 0xFFFFFFFF }; const char* crn_get_scale_mode_desc(crn_scale_mode sm); // Mipmap generator parameters. struct crn_mipmap_params { inline crn_mipmap_params() { clear(); } inline void clear() { m_size_of_obj = sizeof(*this); m_mode = cCRNMipModeUseSourceOrGenerateMips; m_filter = cCRNMipFilterKaiser; m_gamma_filtering = true; m_gamma = 2.2f; // Default "blurriness" factor of .9 actually sharpens the output a little. m_blurriness = .9f; m_renormalize = false; m_tiled = false; m_max_levels = cCRNMaxLevels; m_min_mip_size = 1; m_scale_mode = cCRNSMDisabled; m_scale_x = 1.0f; m_scale_y = 1.0f; m_window_left = 0; m_window_top = 0; m_window_right = 0; m_window_bottom = 0; m_clamp_scale = false; m_clamp_width = 0; m_clamp_height = 0; } inline bool check() const { return true; } inline bool operator==(const crn_mipmap_params& rhs) const { #define CRNLIB_COMP(x) \ do { \ if ((x) != (rhs.x)) \ return false; \ } while (0) CRNLIB_COMP(m_size_of_obj); CRNLIB_COMP(m_mode); CRNLIB_COMP(m_filter); CRNLIB_COMP(m_gamma_filtering); CRNLIB_COMP(m_gamma); CRNLIB_COMP(m_blurriness); CRNLIB_COMP(m_renormalize); CRNLIB_COMP(m_tiled); CRNLIB_COMP(m_max_levels); CRNLIB_COMP(m_min_mip_size); CRNLIB_COMP(m_scale_mode); CRNLIB_COMP(m_scale_x); CRNLIB_COMP(m_scale_y); CRNLIB_COMP(m_window_left); CRNLIB_COMP(m_window_top); CRNLIB_COMP(m_window_right); CRNLIB_COMP(m_window_bottom); CRNLIB_COMP(m_clamp_scale); CRNLIB_COMP(m_clamp_width); CRNLIB_COMP(m_clamp_height); return true; #undef CRNLIB_COMP } crn_uint32 m_size_of_obj; crn_mip_mode m_mode; crn_mip_filter m_filter; crn_bool m_gamma_filtering; float m_gamma; float m_blurriness; crn_uint32 m_max_levels; crn_uint32 m_min_mip_size; crn_bool m_renormalize; crn_bool m_tiled; crn_scale_mode m_scale_mode; float m_scale_x; float m_scale_y; crn_uint32 m_window_left; crn_uint32 m_window_top; crn_uint32 m_window_right; crn_uint32 m_window_bottom; crn_bool m_clamp_scale; crn_uint32 m_clamp_width; crn_uint32 m_clamp_height; }; // -------- High-level helper function definitions for CDN/DDS compression. #ifndef CRNLIB_MIN_ALLOC_ALIGNMENT #define CRNLIB_MIN_ALLOC_ALIGNMENT sizeof(size_t) * 2 #endif // Function to set an optional user provided memory allocation/reallocation/msize routines. // By default, crnlib just uses malloc(), free(), etc. for all allocations. typedef void* (*crn_realloc_func)(void* p, size_t size, size_t* pActual_size, bool movable, void* pUser_data); typedef size_t (*crn_msize_func)(void* p, void* pUser_data); void crn_set_memory_callbacks(crn_realloc_func pRealloc, crn_msize_func pMSize, void* pUser_data); // Frees memory blocks allocated by crn_compress(), crn_decompress_crn_to_dds(), or crn_decompress_dds_to_images(). void crn_free_block(void* pBlock); // Compresses a 32-bit/pixel texture to either: a regular DX9 DDS file, a "clustered" (or reduced entropy) DX9 DDS file, or a CRN file in memory. // Input parameters: // comp_params is the compression parameters struct, defined above. // compressed_size will be set to the size of the returned memory block containing the output file. // The returned block must be freed by calling crn_free_block(). // *pActual_quality_level will be set to the actual quality level used to compress the image. May be NULL. // *pActual_bitrate will be set to the output file's effective bitrate, possibly taking into account LZMA compression. May be NULL. // Return value: // The compressed file data, or NULL on failure. // compressed_size will be set to the size of the returned memory buffer. // Notes: // A "regular" DDS file is compressed using normal DXTn compression at the specified DXT quality level. // A "clustered" DDS file is compressed using clustered DXTn compression to either the target bitrate or the specified integer quality factor. // The output file is a standard DX9 format DDS file, except the compressor assumes you will be later losslessly compressing the DDS output file using the LZMA algorithm. // A texture is defined as an array of 1 or 6 "faces" (6 faces=cubemap), where each "face" consists of between [1,cCRNMaxLevels] mipmap levels. // Mipmap levels are simple 32-bit 2D images with a pitch of width*sizeof(uint32), arranged in the usual raster order (top scanline first). // The image pixels may be grayscale (YYYX bytes in memory), grayscale/alpha (YYYA in memory), 24-bit (RGBX in memory), or 32-bit (RGBA) colors (where "X"=don't care). // RGB color data is generally assumed to be in the sRGB colorspace. If not, be sure to clear the "cCRNCompFlagPerceptual" in the crn_comp_params struct! void* crn_compress(const crn_comp_params& comp_params, crn_uint32& compressed_size, crn_uint32* pActual_quality_level = NULL, float* pActual_bitrate = NULL); // Like the above function, except this function can also do things like generate mipmaps, and resize or crop the input texture before compression. // The actual operations performed are controlled by the crn_mipmap_params struct members. // Be sure to set the "m_gamma_filtering" member of crn_mipmap_params to false if the input texture is not sRGB. void* crn_compress(const crn_comp_params& comp_params, const crn_mipmap_params& mip_params, crn_uint32& compressed_size, crn_uint32* pActual_quality_level = NULL, float* pActual_bitrate = NULL); // Transcodes an entire CRN file to DDS using the crn_decomp.h header file library to do most of the heavy lifting. // The output DDS file's format is guaranteed to be one of the DXTn formats in the crn_format enum. // This is a fast operation, because the CRN format is explicitly designed to be efficiently transcodable to DXTn. // For more control over decompression, see the lower-level helper functions in crn_decomp.h, which do not depend at all on crnlib. void* crn_decompress_crn_to_dds(const void* pCRN_file_data, crn_uint32& file_size); // Decompresses an entire DDS file in any supported format to uncompressed 32-bit/pixel image(s). // See the crnlib::pixel_format enum in inc/dds_defs.h for a list of the supported DDS formats. // You are responsible for freeing each image block, either by calling crn_free_all_images() or manually calling crn_free_block() on each image pointer. struct crn_texture_desc { crn_uint32 m_faces; crn_uint32 m_width; crn_uint32 m_height; crn_uint32 m_levels; crn_uint32 m_fmt_fourcc; // Same as crnlib::pixel_format }; bool crn_decompress_dds_to_images(const void* pDDS_file_data, crn_uint32 dds_file_size, crn_uint32** ppImages, crn_texture_desc& tex_desc); // Frees all images allocated by crn_decompress_dds_to_images(). void crn_free_all_images(crn_uint32** ppImages, const crn_texture_desc& desc); // -------- crn_format related helpers functions. // Returns the FOURCC format equivalent to the specified crn_format. crn_uint32 crn_get_format_fourcc(crn_format fmt); // Returns the crn_format's bits per texel. crn_uint32 crn_get_format_bits_per_texel(crn_format fmt); // Returns the crn_format's number of bytes per block. crn_uint32 crn_get_bytes_per_dxt_block(crn_format fmt); // Returns the non-swizzled, basic DXTn version of the specified crn_format. // This is the format you would supply D3D or OpenGL. crn_format crn_get_fundamental_dxt_format(crn_format fmt); // -------- String helpers. // Converts a crn_file_type to a string. const char* crn_get_file_type_ext(crn_file_type file_type); // Converts a crn_format to a string. const char* crn_get_format_string(crn_format fmt); // Converts a crn_dxt_quality to a string. const char* crn_get_dxt_quality_string(crn_dxt_quality q); // -------- Low-level DXTn 4x4 block compressor API // crnlib's DXTn endpoint optimizer actually supports any number of source pixels (i.e. from 1 to thousands, not just 16), // but for simplicity this API only supports 4x4 texel blocks. typedef void* crn_block_compressor_context_t; // Create a DXTn block compressor. // This function only supports the basic/nonswizzled "fundamental" formats: DXT1, DXT3, DXT5, DXT5A, DXN_XY and DXN_YX. // Avoid calling this multiple times if you intend on compressing many blocks, because it allocates some memory. crn_block_compressor_context_t crn_create_block_compressor(const crn_comp_params& params); // Compresses a block of 16 pixels to the destination DXTn block. // pDst_block should be 8 (for DXT1/DXT5A) or 16 bytes (all the others). // pPixels should be an array of 16 crn_uint32's. Each crn_uint32 must be r,g,b,a (r is always first) in memory. void crn_compress_block(crn_block_compressor_context_t pContext, const crn_uint32* pPixels, void* pDst_block); // Frees a DXTn block compressor. void crn_free_block_compressor(crn_block_compressor_context_t pContext); // Unpacks a compressed block to pDst_pixels. // pSrc_block should be 8 (for DXT1/DXT5A) or 16 bytes (all the others). // pDst_pixel should be an array of 16 crn_uint32's. Each uint32 will be r,g,b,a (r is always first) in memory. // crn_fmt should be one of the "fundamental" formats: DXT1, DXT3, DXT5, DXT5A, DXN_XY and DXN_YX. // The various swizzled DXT5 formats (such as cCRNFmtDXT5_xGBR, etc.) will be unpacked as if they where plain DXT5. // Returns false if the crn_fmt is invalid. bool crn_decompress_block(const void* pSrc_block, crn_uint32* pDst_pixels, crn_format crn_fmt); #endif // CRNLIB_H //------------------------------------------------------------------------------ // // crnlib uses the ZLIB license: // http://opensource.org/licenses/Zlib // // Copyright (c) 2010-2016 Richard Geldreich, Jr. and Binomial LLC // // This software is provided 'as-is', without any express or implied // warranty. In no event will the authors be held liable for any damages // arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it // freely, subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; you must not // claim that you wrote the original software. If you use this software // in a product, an acknowledgment in the product documentation would be // appreciated but is not required. // // 2. Altered source versions must be plainly marked as such, and must not be // misrepresented as being the original software. // // 3. This notice may not be removed or altered from any source distribution. // //------------------------------------------------------------------------------