// Copyright 2011 Google Inc. All Rights Reserved. // // This code is licensed under the same terms as WebM: // Software License Agreement: http://www.webmproject.org/license/software/ // Additional IP Rights Grant: http://www.webmproject.org/license/additional/ // ----------------------------------------------------------------------------- // // Simple command-line to create a WebP container file and to extract or strip // relevant data from the container file. // // Compile with: gcc -o webpmux webpmux.c -lwebpmux -lwebp // // // Authors: Vikas (vikaas.arora@gmail.com), // Urvang (urvang@google.com) /* Usage examples: Create container WebP file: webpmux -tile tile_1.webp +0+0 \ -tile tile_2.webp +960+0 \ -tile tile_3.webp +0+576 \ -tile tile_4.webp +960+576 \ -o out_tile_container.webp webpmux -frame anim_1.webp +0+0+0 \ -frame anim_2.webp +25+25+100 \ -frame anim_3.webp +50+50+100 \ -frame anim_4.webp +0+0+100 \ -loop 10 \ -o out_animation_container.webp webpmux -set icc image_profile.icc in.webp -o out_icc_container.webp webpmux -set xmp image_metadata.xmp in.webp -o out_xmp_container.webp Extract relevant data from WebP container file: webpmux -get tile n in.webp -o out_tile.webp webpmux -get frame n in.webp -o out_frame.webp webpmux -get icc in.webp -o image_profile.icc webpmux -get xmp in.webp -o image_metadata.xmp Strip data from WebP Container file: webpmux -strip icc in.webp -o out.webp webpmux -strip xmp in.webp -o out.webp Misc: webpmux -info in.webp webpmux [ -h | -help ] */ #include #include #include #include #include "webp/mux.h" #include "./example_util.h" //------------------------------------------------------------------------------ // Config object to parse command-line arguments. typedef enum { NIL_ACTION = 0, ACTION_GET, ACTION_SET, ACTION_STRIP, ACTION_INFO, ACTION_HELP } ActionType; typedef enum { NIL_SUBTYPE = 0, SUBTYPE_FRM, SUBTYPE_LOOP } FeatureSubType; typedef struct { FeatureSubType subtype_; const char* filename_; const char* params_; } FeatureArg; typedef enum { NIL_FEATURE = 0, FEATURE_XMP, FEATURE_ICCP, FEATURE_FRM, FEATURE_TILE } FeatureType; typedef struct { FeatureType type_; FeatureArg* args_; int arg_count_; } Feature; typedef struct { ActionType action_type_; const char* input_; const char* output_; Feature feature_; } WebPMuxConfig; //------------------------------------------------------------------------------ // Helper functions. static int CountOccurrences(const char* arglist[], int list_length, const char* arg) { int i; int num_occurences = 0; for (i = 0; i < list_length; ++i) { if (!strcmp(arglist[i], arg)) { ++num_occurences; } } return num_occurences; } static int IsNotCompatible(int count1, int count2) { return (count1 > 0) != (count2 > 0); } // Allocate necessary storage for dst then copy the contents of src. // Returns 1 on success. static int WebPDataCopy(const WebPData* const src, WebPData* const dst) { if (src == NULL || dst == NULL) return 0; memset(dst, 0, sizeof(*dst)); if (src->bytes_ != NULL && src->size_ != 0) { dst->bytes_ = (uint8_t*)malloc(src->size_); if (dst->bytes_ == NULL) return 0; memcpy((void*)dst->bytes_, src->bytes_, src->size_); dst->size_ = src->size_; } return 1; } #define RETURN_IF_ERROR(ERR_MSG) \ if (err != WEBP_MUX_OK) { \ fprintf(stderr, ERR_MSG); \ return err; \ } #define RETURN_IF_ERROR2(ERR_MSG, FORMAT_STR) \ if (err != WEBP_MUX_OK) { \ fprintf(stderr, ERR_MSG, FORMAT_STR); \ return err; \ } #define ERROR_GOTO1(ERR_MSG, LABEL) \ do { \ fprintf(stderr, ERR_MSG); \ ok = 0; \ goto LABEL; \ } while (0) #define ERROR_GOTO2(ERR_MSG, FORMAT_STR, LABEL) \ do { \ fprintf(stderr, ERR_MSG, FORMAT_STR); \ ok = 0; \ goto LABEL; \ } while (0) #define ERROR_GOTO3(ERR_MSG, FORMAT_STR1, FORMAT_STR2, LABEL) \ do { \ fprintf(stderr, ERR_MSG, FORMAT_STR1, FORMAT_STR2); \ ok = 0; \ goto LABEL; \ } while (0) static WebPMuxError DisplayInfo(const WebPMux* mux) { uint32_t flag; WebPMuxError err = WebPMuxGetFeatures(mux, &flag); RETURN_IF_ERROR("Failed to retrieve features\n"); if (flag == 0) { fprintf(stderr, "No features present.\n"); return err; } // Print the features present. printf("Features present:"); if (flag & ANIMATION_FLAG) printf(" animation"); if (flag & TILE_FLAG) printf(" tiling"); if (flag & ICCP_FLAG) printf(" icc profile"); if (flag & META_FLAG) printf(" metadata"); if (flag & ALPHA_FLAG) printf(" transparency"); printf("\n"); if (flag & ANIMATION_FLAG) { int nFrames; uint32_t loop_count; err = WebPMuxGetLoopCount(mux, &loop_count); RETURN_IF_ERROR("Failed to retrieve loop count\n"); printf("Loop Count : %d\n", loop_count); err = WebPMuxNumNamedElements(mux, "frame", &nFrames); RETURN_IF_ERROR("Failed to retrieve number of frames\n"); printf("Number of frames: %d\n", nFrames); if (nFrames > 0) { int i; printf("No.: x_offset y_offset duration image_size"); if (flag & ALPHA_FLAG) printf(" alpha_size"); printf("\n"); for (i = 1; i <= nFrames; i++) { uint32_t x_offset, y_offset, duration; WebPData image, alpha; err = WebPMuxGetFrame(mux, i, &image, &alpha, &x_offset, &y_offset, &duration); RETURN_IF_ERROR2("Failed to retrieve frame#%d\n", i); printf("%3d: %8d %8d %8d %10zu", i, x_offset, y_offset, duration, image.size_); if (flag & ALPHA_FLAG) printf(" %10zu", alpha.size_); printf("\n"); } } } if (flag & TILE_FLAG) { int nTiles; err = WebPMuxNumNamedElements(mux, "tile", &nTiles); RETURN_IF_ERROR("Failed to retrieve number of tiles\n"); printf("Number of tiles: %d\n", nTiles); if (nTiles > 0) { int i; printf("No.: x_offset y_offset image_size"); if (flag & ALPHA_FLAG) printf(" alpha_size"); printf("\n"); for (i = 1; i <= nTiles; i++) { uint32_t x_offset, y_offset; WebPData image, alpha; err = WebPMuxGetTile(mux, i, &image, &alpha, &x_offset, &y_offset); RETURN_IF_ERROR2("Failed to retrieve tile#%d\n", i); printf("%3d: %8d %8d %10zu", i, x_offset, y_offset, image.size_); if (flag & ALPHA_FLAG) printf(" %10zu", alpha.size_); printf("\n"); } } } if (flag & ICCP_FLAG) { WebPData icc_profile; err = WebPMuxGetColorProfile(mux, &icc_profile); RETURN_IF_ERROR("Failed to retrieve the color profile\n"); printf("Size of the color profile data: %zu\n", icc_profile.size_); } if (flag & META_FLAG) { WebPData metadata; err = WebPMuxGetMetadata(mux, &metadata); RETURN_IF_ERROR("Failed to retrieve the XMP metadata\n"); printf("Size of the XMP metadata: %zu\n", metadata.size_); } if ((flag & ALPHA_FLAG) && !(flag & (ANIMATION_FLAG | TILE_FLAG))) { WebPData image, alpha; err = WebPMuxGetImage(mux, &image, &alpha); RETURN_IF_ERROR("Failed to retrieve the image\n"); printf("Size of the alpha data: %zu\n", alpha.size_); } return WEBP_MUX_OK; } static void PrintHelp(void) { printf("Usage: webpmux -get GET_OPTIONS INPUT -o OUTPUT\n"); printf(" webpmux -set SET_OPTIONS INPUT -o OUTPUT\n"); printf(" webpmux -strip STRIP_OPTIONS INPUT -o OUTPUT\n"); printf(" webpmux -tile TILE_OPTIONS [-tile...] -o OUTPUT\n"); printf(" webpmux -frame FRAME_OPTIONS [-frame...]"); printf(" -loop LOOP_COUNT -o OUTPUT\n"); printf(" webpmux -info INPUT\n"); printf(" webpmux [-h|-help]\n"); printf("\n"); printf("GET_OPTIONS:\n"); printf(" Extract relevant data.\n"); printf(" icc Get ICCP Color profile.\n"); printf(" xmp Get XMP metadata.\n"); printf(" tile n Get nth tile.\n"); printf(" frame n Get nth frame.\n"); printf("\n"); printf("SET_OPTIONS:\n"); printf(" Set color profile/metadata.\n"); printf(" icc Set ICC Color profile.\n"); printf(" xmp Set XMP metadata.\n"); printf("\n"); printf("STRIP_OPTIONS:\n"); printf(" Strip color profile/metadata.\n"); printf(" icc Strip ICCP color profile.\n"); printf(" xmp Strip XMP metadata.\n"); printf("\n"); printf("TILE_OPTIONS(i):\n"); printf(" Create tiled image.\n"); printf(" file_i +xi+yi\n"); printf(" where: 'file_i' is the i'th tile (webp format),\n"); printf(" 'xi','yi' specify the image offset for this tile.\n"); printf("\n"); printf("FRAME_OPTIONS(i):\n"); printf(" Create animation.\n"); printf(" file_i +xi+yi+di\n"); printf(" where: 'file_i' is the i'th animation frame (webp format),\n"); printf(" 'xi','yi' specify the image offset for this frame.\n"); printf(" 'di' is the pause duration before next frame.\n"); printf("\nINPUT & OUTPUT are in webp format.\n"); } static int ReadFileToWebPData(const char* const filename, WebPData* const webp_data) { const uint8_t* data; size_t size; if (!ExUtilReadFile(filename, &data, &size)) return 0; webp_data->bytes_ = data; webp_data->size_ = size; return 1; } static int CreateMux(const char* const filename, WebPMux** mux) { WebPData bitstream; assert(mux != NULL); if (!ReadFileToWebPData(filename, &bitstream)) return 0; *mux = WebPMuxCreate(&bitstream, 1); free((void*)bitstream.bytes_); if (*mux != NULL) return 1; fprintf(stderr, "Failed to create mux object from file %s.\n", filename); return 0; } static int ReadImage(const char* filename, WebPData* const image_ptr, WebPData* const alpha_ptr) { WebPData bitstream, image, alpha; WebPMux* mux; WebPMuxError err; int ok = 0; if (!ReadFileToWebPData(filename, &bitstream)) return 0; mux = WebPMuxCreate(&bitstream, 1); free((void*)bitstream.bytes_); if (mux == NULL) { fprintf(stderr, "Failed to create mux object from file %s.\n", filename); return 0; } err = WebPMuxGetImage(mux, &image, &alpha); if (err == WEBP_MUX_OK) { ok = 1; ok &= WebPDataCopy(&image, image_ptr); ok &= WebPDataCopy(&alpha, alpha_ptr); if (!ok) { fprintf(stderr, "Error allocating storage for image (%zu bytes) " "and alpha (%zu bytes) data\n", image.size_, alpha.size_); WebPDataClear(image_ptr); WebPDataClear(alpha_ptr); } } else { fprintf(stderr, "Failed to extract image data from file %s. Error: %d\n", filename, err); } WebPMuxDelete(mux); return ok; } static int WriteData(const char* filename, const WebPData* const webpdata) { int ok = 0; FILE* fout = strcmp(filename, "-") ? fopen(filename, "wb") : stdout; if (!fout) { fprintf(stderr, "Error opening output WebP file %s!\n", filename); return 0; } if (fwrite(webpdata->bytes_, webpdata->size_, 1, fout) != 1) { fprintf(stderr, "Error writing file %s!\n", filename); } else { fprintf(stderr, "Saved file %s (%zu bytes)\n", filename, webpdata->size_); ok = 1; } if (fout != stdout) fclose(fout); return ok; } static int WriteWebP(WebPMux* const mux, const char* filename) { int ok; WebPData webp_data; const WebPMuxError err = WebPMuxAssemble(mux, &webp_data); if (err != WEBP_MUX_OK) { fprintf(stderr, "Error (%d) assembling the WebP file.\n", err); return 0; } ok = WriteData(filename, &webp_data); WebPDataClear(&webp_data); return ok; } static int ParseFrameArgs(const char* args, uint32_t* x_offset, uint32_t* y_offset, uint32_t* duration) { return (sscanf(args, "+%d+%d+%d", x_offset, y_offset, duration) == 3); } static int ParseTileArgs(const char* args, uint32_t* x_offset, uint32_t* y_offset) { return (sscanf(args, "+%d+%d", x_offset, y_offset) == 2); } //------------------------------------------------------------------------------ // Clean-up. static void DeleteConfig(WebPMuxConfig* config) { if (config != NULL) { free(config->feature_.args_); free(config); } } //------------------------------------------------------------------------------ // Parsing. // Basic syntactic checks on the command-line arguments. // Returns 1 on valid, 0 otherwise. // Also fills up num_feature_args to be number of feature arguments given. // (e.g. if there are 4 '-frame's and 1 '-loop', then num_feature_args = 5). static int ValidateCommandLine(int argc, const char* argv[], int* num_feature_args) { int num_frame_args; int num_tile_args; int num_loop_args; int ok = 1; assert(num_feature_args != NULL); *num_feature_args = 0; // Simple checks. if (CountOccurrences(argv, argc, "-get") > 1) { ERROR_GOTO1("ERROR: Multiple '-get' arguments specified.\n", ErrValidate); } if (CountOccurrences(argv, argc, "-set") > 1) { ERROR_GOTO1("ERROR: Multiple '-set' arguments specified.\n", ErrValidate); } if (CountOccurrences(argv, argc, "-strip") > 1) { ERROR_GOTO1("ERROR: Multiple '-strip' arguments specified.\n", ErrValidate); } if (CountOccurrences(argv, argc, "-info") > 1) { ERROR_GOTO1("ERROR: Multiple '-info' arguments specified.\n", ErrValidate); } if (CountOccurrences(argv, argc, "-o") > 1) { ERROR_GOTO1("ERROR: Multiple output files specified.\n", ErrValidate); } // Compound checks. num_frame_args = CountOccurrences(argv, argc, "-frame"); num_tile_args = CountOccurrences(argv, argc, "-tile"); num_loop_args = CountOccurrences(argv, argc, "-loop"); if (num_loop_args > 1) { ERROR_GOTO1("ERROR: Multiple loop counts specified.\n", ErrValidate); } if (IsNotCompatible(num_frame_args, num_loop_args)) { ERROR_GOTO1("ERROR: Both frames and loop count have to be specified.\n", ErrValidate); } if (num_frame_args > 0 && num_tile_args > 0) { ERROR_GOTO1("ERROR: Only one of frames & tiles can be specified at a time." "\n", ErrValidate); } assert(ok == 1); if (num_frame_args == 0 && num_tile_args == 0) { // Single argument ('set' action for XMP or ICCP, OR a 'get' action). *num_feature_args = 1; } else { // Multiple arguments ('set' action for animation or tiling). if (num_frame_args > 0) { *num_feature_args = num_frame_args + num_loop_args; } else { *num_feature_args = num_tile_args; } } ErrValidate: return ok; } #define ACTION_IS_NIL (config->action_type_ == NIL_ACTION) #define FEATURETYPE_IS_NIL (feature->type_ == NIL_FEATURE) #define CHECK_NUM_ARGS_LESS(NUM, LABEL) \ if (argc < i + (NUM)) { \ fprintf(stderr, "ERROR: Too few arguments for '%s'.\n", argv[i]); \ goto LABEL; \ } #define CHECK_NUM_ARGS_NOT_EQUAL(NUM, LABEL) \ if (argc != i + (NUM)) { \ fprintf(stderr, "ERROR: Too many arguments for '%s'.\n", argv[i]); \ goto LABEL; \ } // Parses command-line arguments to fill up config object. Also performs some // semantic checks. static int ParseCommandLine(int argc, const char* argv[], WebPMuxConfig* config) { int i = 0; int feature_arg_index = 0; int ok = 1; while (i < argc) { Feature* const feature = &config->feature_; FeatureArg* const arg = &feature->args_[feature_arg_index]; if (argv[i][0] == '-') { // One of the action types or output. if (!strcmp(argv[i], "-set")) { if (ACTION_IS_NIL) { config->action_type_ = ACTION_SET; } else { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } ++i; } else if (!strcmp(argv[i], "-get")) { if (ACTION_IS_NIL) { config->action_type_ = ACTION_GET; } else { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } ++i; } else if (!strcmp(argv[i], "-strip")) { if (ACTION_IS_NIL) { config->action_type_ = ACTION_STRIP; feature->arg_count_ = 0; } else { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } ++i; } else if (!strcmp(argv[i], "-frame")) { CHECK_NUM_ARGS_LESS(3, ErrParse); if (ACTION_IS_NIL || config->action_type_ == ACTION_SET) { config->action_type_ = ACTION_SET; } else { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } if (FEATURETYPE_IS_NIL || feature->type_ == FEATURE_FRM) { feature->type_ = FEATURE_FRM; } else { ERROR_GOTO1("ERROR: Multiple features specified.\n", ErrParse); } arg->subtype_ = SUBTYPE_FRM; arg->filename_ = argv[i + 1]; arg->params_ = argv[i + 2]; ++feature_arg_index; i += 3; } else if (!strcmp(argv[i], "-loop")) { CHECK_NUM_ARGS_LESS(2, ErrParse); if (ACTION_IS_NIL || config->action_type_ == ACTION_SET) { config->action_type_ = ACTION_SET; } else { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } if (FEATURETYPE_IS_NIL || feature->type_ == FEATURE_FRM) { feature->type_ = FEATURE_FRM; } else { ERROR_GOTO1("ERROR: Multiple features specified.\n", ErrParse); } arg->subtype_ = SUBTYPE_LOOP; arg->params_ = argv[i + 1]; ++feature_arg_index; i += 2; } else if (!strcmp(argv[i], "-tile")) { CHECK_NUM_ARGS_LESS(3, ErrParse); if (ACTION_IS_NIL || config->action_type_ == ACTION_SET) { config->action_type_ = ACTION_SET; } else { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } if (FEATURETYPE_IS_NIL || feature->type_ == FEATURE_TILE) { feature->type_ = FEATURE_TILE; } else { ERROR_GOTO1("ERROR: Multiple features specified.\n", ErrParse); } arg->filename_ = argv[i + 1]; arg->params_ = argv[i + 2]; ++feature_arg_index; i += 3; } else if (!strcmp(argv[i], "-o")) { CHECK_NUM_ARGS_LESS(2, ErrParse); config->output_ = argv[i + 1]; i += 2; } else if (!strcmp(argv[i], "-info")) { CHECK_NUM_ARGS_NOT_EQUAL(2, ErrParse); if (config->action_type_ != NIL_ACTION) { ERROR_GOTO1("ERROR: Multiple actions specified.\n", ErrParse); } else { config->action_type_ = ACTION_INFO; feature->arg_count_ = 0; config->input_ = argv[i + 1]; } i += 2; } else if (!strcmp(argv[i], "-h") || !strcmp(argv[i], "-help")) { PrintHelp(); DeleteConfig(config); exit(0); } else { ERROR_GOTO2("ERROR: Unknown option: '%s'.\n", argv[i], ErrParse); } } else { // One of the feature types or input. if (ACTION_IS_NIL) { ERROR_GOTO1("ERROR: Action must be specified before other arguments.\n", ErrParse); } if (!strcmp(argv[i], "icc") || !strcmp(argv[i], "xmp")) { if (FEATURETYPE_IS_NIL) { feature->type_ = (!strcmp(argv[i], "icc")) ? FEATURE_ICCP : FEATURE_XMP; } else { ERROR_GOTO1("ERROR: Multiple features specified.\n", ErrParse); } if (config->action_type_ == ACTION_SET) { CHECK_NUM_ARGS_LESS(2, ErrParse); arg->filename_ = argv[i + 1]; ++feature_arg_index; i += 2; } else { ++i; } } else if ((!strcmp(argv[i], "frame") || !strcmp(argv[i], "tile")) && (config->action_type_ == ACTION_GET)) { CHECK_NUM_ARGS_LESS(2, ErrParse); feature->type_ = (!strcmp(argv[i], "frame")) ? FEATURE_FRM : FEATURE_TILE; arg->params_ = argv[i + 1]; ++feature_arg_index; i += 2; } else { // Assume input file. if (config->input_ == NULL) { config->input_ = argv[i]; } else { ERROR_GOTO2("ERROR at '%s': Multiple input files specified.\n", argv[i], ErrParse); } ++i; } } } ErrParse: return ok; } // Additional checks after config is filled. static int ValidateConfig(WebPMuxConfig* config) { int ok = 1; Feature* const feature = &config->feature_; // Action. if (ACTION_IS_NIL) { ERROR_GOTO1("ERROR: No action specified.\n", ErrValidate2); } // Feature type. if (FEATURETYPE_IS_NIL && config->action_type_ != ACTION_INFO) { ERROR_GOTO1("ERROR: No feature specified.\n", ErrValidate2); } // Input file. if (config->input_ == NULL) { if (config->action_type_ != ACTION_SET) { ERROR_GOTO1("ERROR: No input file specified.\n", ErrValidate2); } else if (feature->type_ != FEATURE_FRM && feature->type_ != FEATURE_TILE) { ERROR_GOTO1("ERROR: No input file specified.\n", ErrValidate2); } } // Output file. if (config->output_ == NULL && config->action_type_ != ACTION_INFO) { ERROR_GOTO1("ERROR: No output file specified.\n", ErrValidate2); } ErrValidate2: return ok; } // Create config object from command-line arguments. static int InitializeConfig(int argc, const char* argv[], WebPMuxConfig** config) { int num_feature_args = 0; int ok = 1; assert(config != NULL); *config = NULL; // Validate command-line arguments. if (!ValidateCommandLine(argc, argv, &num_feature_args)) { ERROR_GOTO1("Exiting due to command-line parsing error.\n", Err1); } // Allocate memory. *config = (WebPMuxConfig*)calloc(1, sizeof(**config)); if (*config == NULL) { ERROR_GOTO1("ERROR: Memory allocation error.\n", Err1); } (*config)->feature_.arg_count_ = num_feature_args; (*config)->feature_.args_ = (FeatureArg*)calloc(num_feature_args, sizeof(FeatureArg)); if ((*config)->feature_.args_ == NULL) { ERROR_GOTO1("ERROR: Memory allocation error.\n", Err1); } // Parse command-line. if (!ParseCommandLine(argc, argv, *config) || !ValidateConfig(*config)) { ERROR_GOTO1("Exiting due to command-line parsing error.\n", Err1); } Err1: return ok; } #undef ACTION_IS_NIL #undef FEATURETYPE_IS_NIL #undef CHECK_NUM_ARGS_LESS #undef CHECK_NUM_ARGS_MORE //------------------------------------------------------------------------------ // Processing. static int GetFrameTile(const WebPMux* mux, const WebPMuxConfig* config, int isFrame) { WebPData image, alpha; uint32_t x_offset = 0; uint32_t y_offset = 0; uint32_t duration = 0; WebPMuxError err = WEBP_MUX_OK; WebPMux* mux_single = NULL; long num = 0; int ok = 1; num = strtol(config->feature_.args_[0].params_, NULL, 10); if (num < 0) { ERROR_GOTO1("ERROR: Frame/Tile index must be non-negative.\n", ErrGet); } if (isFrame) { err = WebPMuxGetFrame(mux, num, &image, &alpha, &x_offset, &y_offset, &duration); if (err != WEBP_MUX_OK) { ERROR_GOTO3("ERROR#%d: Could not get frame %ld.\n", err, num, ErrGet); } } else { err = WebPMuxGetTile(mux, num, &image, &alpha, &x_offset, &y_offset); if (err != WEBP_MUX_OK) { ERROR_GOTO3("ERROR#%d: Could not get frame %ld.\n", err, num, ErrGet); } } mux_single = WebPMuxNew(); if (mux_single == NULL) { err = WEBP_MUX_MEMORY_ERROR; ERROR_GOTO2("ERROR#%d: Could not allocate a mux object.\n", err, ErrGet); } err = WebPMuxSetImage(mux_single, &image, &alpha, 1); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not create single image mux object.\n", err, ErrGet); } ok = WriteWebP(mux_single, config->output_); ErrGet: WebPMuxDelete(mux_single); return ok; } // Read and process config. static int Process(const WebPMuxConfig* config) { WebPMux* mux = NULL; WebPData webpdata; WebPData metadata, color_profile; uint32_t x_offset = 0; uint32_t y_offset = 0; WebPMuxError err = WEBP_MUX_OK; int index = 0; int ok = 1; const Feature* const feature = &config->feature_; switch (config->action_type_) { case ACTION_GET: ok = CreateMux(config->input_, &mux); if (!ok) goto Err2; switch (feature->type_) { case FEATURE_FRM: ok = GetFrameTile(mux, config, 1); break; case FEATURE_TILE: ok = GetFrameTile(mux, config, 0); break; case FEATURE_ICCP: err = WebPMuxGetColorProfile(mux, &webpdata); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not get color profile.\n", err, Err2); } ok = WriteData(config->output_, &webpdata); break; case FEATURE_XMP: err = WebPMuxGetMetadata(mux, &webpdata); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not get XMP metadata.\n", err, Err2); } ok = WriteData(config->output_, &webpdata); break; default: ERROR_GOTO1("ERROR: Invalid feature for action 'get'.\n", Err2); break; } break; case ACTION_SET: switch (feature->type_) { case FEATURE_FRM: mux = WebPMuxNew(); if (mux == NULL) { ERROR_GOTO2("ERROR#%d: Could not allocate a mux object.\n", WEBP_MUX_MEMORY_ERROR, Err2); } for (index = 0; index < feature->arg_count_; ++index) { if (feature->args_[index].subtype_ == SUBTYPE_LOOP) { const long num = strtol(feature->args_[index].params_, NULL, 10); if (num < 0) { ERROR_GOTO1("ERROR: Loop count must be non-negative.\n", Err2); } err = WebPMuxSetLoopCount(mux, num); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not set loop count.\n", err, Err2); } } else if (feature->args_[index].subtype_ == SUBTYPE_FRM) { WebPData image, alpha; uint32_t duration; ok = ReadImage(feature->args_[index].filename_, &image, &alpha); if (!ok) goto Err2; ok = ParseFrameArgs(feature->args_[index].params_, &x_offset, &y_offset, &duration); if (!ok) { WebPDataClear(&image); WebPDataClear(&alpha); ERROR_GOTO1("ERROR: Could not parse frame properties.\n", Err2); } err = WebPMuxSetFrame(mux, 0, &image, &alpha, x_offset, y_offset, duration, 1); WebPDataClear(&image); WebPDataClear(&alpha); if (err != WEBP_MUX_OK) { ERROR_GOTO3("ERROR#%d: Could not add a frame at index %d.\n", err, index, Err2); } } else { ERROR_GOTO1("ERROR: Invalid subtype for 'frame'", Err2); } } break; case FEATURE_TILE: mux = WebPMuxNew(); if (mux == NULL) { ERROR_GOTO2("ERROR#%d: Could not allocate a mux object.\n", WEBP_MUX_MEMORY_ERROR, Err2); } for (index = 0; index < feature->arg_count_; ++index) { WebPData image, alpha; ok = ReadImage(feature->args_[index].filename_, &image, &alpha); if (!ok) goto Err2; ok = ParseTileArgs(feature->args_[index].params_, &x_offset, &y_offset); if (!ok) { WebPDataClear(&image); WebPDataClear(&alpha); ERROR_GOTO1("ERROR: Could not parse tile properties.\n", Err2); } err = WebPMuxSetTile(mux, 0, &image, &alpha, x_offset, y_offset, 1); WebPDataClear(&image); WebPDataClear(&alpha); if (err != WEBP_MUX_OK) { ERROR_GOTO3("ERROR#%d: Could not add a tile at index %d.\n", err, index, Err2); } } break; case FEATURE_ICCP: ok = CreateMux(config->input_, &mux); if (!ok) goto Err2; ok = ReadFileToWebPData(feature->args_[0].filename_, &color_profile); if (!ok) goto Err2; err = WebPMuxSetColorProfile(mux, &color_profile, 1); free((void*)color_profile.bytes_); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not set color profile.\n", err, Err2); } break; case FEATURE_XMP: ok = CreateMux(config->input_, &mux); if (!ok) goto Err2; ok = ReadFileToWebPData(feature->args_[0].filename_, &metadata); if (!ok) goto Err2; err = WebPMuxSetMetadata(mux, &metadata, 1); free((void*)metadata.bytes_); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not set XMP metadata.\n", err, Err2); } break; default: ERROR_GOTO1("ERROR: Invalid feature for action 'set'.\n", Err2); break; } ok = WriteWebP(mux, config->output_); break; case ACTION_STRIP: ok = CreateMux(config->input_, &mux); if (!ok) goto Err2; switch (feature->type_) { case FEATURE_ICCP: err = WebPMuxDeleteColorProfile(mux); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not delete color profile.\n", err, Err2); } break; case FEATURE_XMP: err = WebPMuxDeleteMetadata(mux); if (err != WEBP_MUX_OK) { ERROR_GOTO2("ERROR#%d: Could not delete XMP metadata.\n", err, Err2); } break; default: ERROR_GOTO1("ERROR: Invalid feature for action 'strip'.\n", Err2); break; } ok = WriteWebP(mux, config->output_); break; case ACTION_INFO: ok = CreateMux(config->input_, &mux); if (!ok) goto Err2; ok = (DisplayInfo(mux) == WEBP_MUX_OK); break; default: assert(0); // Invalid action. break; } Err2: WebPMuxDelete(mux); return ok; } //------------------------------------------------------------------------------ // Main. int main(int argc, const char* argv[]) { WebPMuxConfig* config; int ok = InitializeConfig(argc - 1, argv + 1, &config); if (ok) { ok = Process(config); } else { PrintHelp(); } DeleteConfig(config); return !ok; } //------------------------------------------------------------------------------