// Copyright 2011 Google Inc. All Rights Reserved. // // Use of this source code is governed by a BSD-style license // that can be found in the COPYING file in the root of the source // tree. An additional intellectual property rights grant can be found // in the file PATENTS. All contributing project authors may // be found in the AUTHORS file in the root of the source tree. // ----------------------------------------------------------------------------- // // simple command line calling the WebPEncode function. // Encodes a raw .YUV into WebP bitstream // // Author: Skal (pascal.massimino@gmail.com) #include #include #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "webp/encode.h" #include "./metadata.h" #include "./stopwatch.h" #include "./jpegdec.h" #include "./pngdec.h" #include "./tiffdec.h" #include "./wicdec.h" #ifndef WEBP_DLL #ifdef __cplusplus extern "C" { #endif extern void* VP8GetCPUInfo; // opaque forward declaration. #ifdef __cplusplus } // extern "C" #endif #endif // WEBP_DLL //------------------------------------------------------------------------------ static int verbose = 0; static int ReadYUV(FILE* in_file, WebPPicture* const pic) { const int use_argb = pic->use_argb; const int uv_width = (pic->width + 1) / 2; const int uv_height = (pic->height + 1) / 2; int y; int ok = 0; pic->use_argb = 0; if (!WebPPictureAlloc(pic)) return ok; for (y = 0; y < pic->height; ++y) { if (fread(pic->y + y * pic->y_stride, pic->width, 1, in_file) != 1) { goto End; } } for (y = 0; y < uv_height; ++y) { if (fread(pic->u + y * pic->uv_stride, uv_width, 1, in_file) != 1) goto End; } for (y = 0; y < uv_height; ++y) { if (fread(pic->v + y * pic->uv_stride, uv_width, 1, in_file) != 1) goto End; } ok = 1; if (use_argb) ok = WebPPictureYUVAToARGB(pic); End: return ok; } #ifdef HAVE_WINCODEC_H static int ReadPicture(const char* const filename, WebPPicture* const pic, int keep_alpha, Metadata* const metadata) { int ok; if (pic->width != 0 && pic->height != 0) { // If image size is specified, infer it as YUV format. FILE* in_file = fopen(filename, "rb"); if (in_file == NULL) { fprintf(stderr, "Error! Cannot open input file '%s'\n", filename); return 0; } ok = ReadYUV(in_file, pic); fclose(in_file); } else { // If no size specified, try to decode it using WIC. ok = ReadPictureWithWIC(filename, pic, keep_alpha, metadata); } if (!ok) { fprintf(stderr, "Error! Could not process file %s\n", filename); } return ok; } #else // !HAVE_WINCODEC_H typedef enum { PNG_ = 0, JPEG_, TIFF_, // 'TIFF' clashes with libtiff UNSUPPORTED } InputFileFormat; static InputFileFormat GetImageType(FILE* in_file) { InputFileFormat format = UNSUPPORTED; uint32_t magic; uint8_t buf[4]; if ((fread(&buf[0], 4, 1, in_file) != 1) || (fseek(in_file, 0, SEEK_SET) != 0)) { return format; } magic = ((uint32_t)buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; if (magic == 0x89504E47U) { format = PNG_; } else if (magic >= 0xFFD8FF00U && magic <= 0xFFD8FFFFU) { format = JPEG_; } else if (magic == 0x49492A00 || magic == 0x4D4D002A) { format = TIFF_; } return format; } static int ReadPicture(const char* const filename, WebPPicture* const pic, int keep_alpha, Metadata* const metadata) { int ok = 0; FILE* in_file = fopen(filename, "rb"); if (in_file == NULL) { fprintf(stderr, "Error! Cannot open input file '%s'\n", filename); return ok; } if (pic->width == 0 || pic->height == 0) { // If no size specified, try to decode it as PNG/JPEG (as appropriate). const InputFileFormat format = GetImageType(in_file); if (format == PNG_) { ok = ReadPNG(in_file, pic, keep_alpha, metadata); } else if (format == JPEG_) { ok = ReadJPEG(in_file, pic, metadata); } else if (format == TIFF_) { ok = ReadTIFF(filename, pic, keep_alpha, metadata); } } else { // If image size is specified, infer it as YUV format. ok = ReadYUV(in_file, pic); } if (!ok) { fprintf(stderr, "Error! Could not process file %s\n", filename); } fclose(in_file); return ok; } #endif // !HAVE_WINCODEC_H static void AllocExtraInfo(WebPPicture* const pic) { const int mb_w = (pic->width + 15) / 16; const int mb_h = (pic->height + 15) / 16; pic->extra_info = (uint8_t*)malloc(mb_w * mb_h * sizeof(*pic->extra_info)); } static void PrintByteCount(const int bytes[4], int total_size, int* const totals) { int s; int total = 0; for (s = 0; s < 4; ++s) { fprintf(stderr, "| %7d ", bytes[s]); total += bytes[s]; if (totals) totals[s] += bytes[s]; } fprintf(stderr, "| %7d (%.1f%%)\n", total, 100.f * total / total_size); } static void PrintPercents(const int counts[4], int total) { int s; for (s = 0; s < 4; ++s) { fprintf(stderr, "| %2d%%", 100 * counts[s] / total); } fprintf(stderr, "| %7d\n", total); } static void PrintValues(const int values[4]) { int s; for (s = 0; s < 4; ++s) { fprintf(stderr, "| %7d ", values[s]); } fprintf(stderr, "|\n"); } static void PrintFullLosslessInfo(const WebPAuxStats* const stats, const char* const description) { fprintf(stderr, "Lossless-%s compressed size: %d bytes\n", description, stats->lossless_size); if (stats->lossless_features) { fprintf(stderr, " * Lossless features used:"); if (stats->lossless_features & 1) fprintf(stderr, " PREDICTION"); if (stats->lossless_features & 2) fprintf(stderr, " CROSS-COLOR-TRANSFORM"); if (stats->lossless_features & 4) fprintf(stderr, " SUBTRACT-GREEN"); if (stats->lossless_features & 8) fprintf(stderr, " PALETTE"); fprintf(stderr, "\n"); } fprintf(stderr, " * Precision Bits: histogram=%d transform=%d cache=%d\n", stats->histogram_bits, stats->transform_bits, stats->cache_bits); if (stats->palette_size > 0) { fprintf(stderr, " * Palette size: %d\n", stats->palette_size); } } static void PrintExtraInfoLossless(const WebPPicture* const pic, int short_output, const char* const file_name) { const WebPAuxStats* const stats = pic->stats; if (short_output) { fprintf(stderr, "%7d %2.2f\n", stats->coded_size, stats->PSNR[3]); } else { fprintf(stderr, "File: %s\n", file_name); fprintf(stderr, "Dimension: %d x %d\n", pic->width, pic->height); fprintf(stderr, "Output: %d bytes\n", stats->coded_size); PrintFullLosslessInfo(stats, "ARGB"); } } static void PrintExtraInfoLossy(const WebPPicture* const pic, int short_output, int full_details, const char* const file_name) { const WebPAuxStats* const stats = pic->stats; if (short_output) { fprintf(stderr, "%7d %2.2f\n", stats->coded_size, stats->PSNR[3]); } else { const int num_i4 = stats->block_count[0]; const int num_i16 = stats->block_count[1]; const int num_skip = stats->block_count[2]; const int total = num_i4 + num_i16; fprintf(stderr, "File: %s\n", file_name); fprintf(stderr, "Dimension: %d x %d%s\n", pic->width, pic->height, stats->alpha_data_size ? " (with alpha)" : ""); fprintf(stderr, "Output: " "%d bytes Y-U-V-All-PSNR %2.2f %2.2f %2.2f %2.2f dB\n", stats->coded_size, stats->PSNR[0], stats->PSNR[1], stats->PSNR[2], stats->PSNR[3]); if (total > 0) { int totals[4] = { 0, 0, 0, 0 }; fprintf(stderr, "block count: intra4: %d\n" " intra16: %d (-> %.2f%%)\n", num_i4, num_i16, 100.f * num_i16 / total); fprintf(stderr, " skipped block: %d (%.2f%%)\n", num_skip, 100.f * num_skip / total); fprintf(stderr, "bytes used: header: %6d (%.1f%%)\n" " mode-partition: %6d (%.1f%%)\n", stats->header_bytes[0], 100.f * stats->header_bytes[0] / stats->coded_size, stats->header_bytes[1], 100.f * stats->header_bytes[1] / stats->coded_size); if (stats->alpha_data_size > 0) { fprintf(stderr, " transparency: %6d (%.1f dB)\n", stats->alpha_data_size, stats->PSNR[4]); } if (stats->layer_data_size) { fprintf(stderr, " enhancement: %6d\n", stats->layer_data_size); } fprintf(stderr, " Residuals bytes " "|segment 1|segment 2|segment 3" "|segment 4| total\n"); if (full_details) { fprintf(stderr, " intra4-coeffs: "); PrintByteCount(stats->residual_bytes[0], stats->coded_size, totals); fprintf(stderr, " intra16-coeffs: "); PrintByteCount(stats->residual_bytes[1], stats->coded_size, totals); fprintf(stderr, " chroma coeffs: "); PrintByteCount(stats->residual_bytes[2], stats->coded_size, totals); } fprintf(stderr, " macroblocks: "); PrintPercents(stats->segment_size, total); fprintf(stderr, " quantizer: "); PrintValues(stats->segment_quant); fprintf(stderr, " filter level: "); PrintValues(stats->segment_level); if (full_details) { fprintf(stderr, "------------------+---------"); fprintf(stderr, "+---------+---------+---------+-----------------\n"); fprintf(stderr, " segments total: "); PrintByteCount(totals, stats->coded_size, NULL); } } if (stats->lossless_size > 0) { PrintFullLosslessInfo(stats, "alpha"); } } } static void PrintMapInfo(const WebPPicture* const pic) { if (pic->extra_info != NULL) { const int mb_w = (pic->width + 15) / 16; const int mb_h = (pic->height + 15) / 16; const int type = pic->extra_info_type; int x, y; for (y = 0; y < mb_h; ++y) { for (x = 0; x < mb_w; ++x) { const int c = pic->extra_info[x + y * mb_w]; if (type == 1) { // intra4/intra16 printf("%c", "+."[c]); } else if (type == 2) { // segments printf("%c", ".-*X"[c]); } else if (type == 3) { // quantizers printf("%.2d ", c); } else if (type == 6 || type == 7) { printf("%3d ", c); } else { printf("0x%.2x ", c); } } printf("\n"); } } } //------------------------------------------------------------------------------ static int MyWriter(const uint8_t* data, size_t data_size, const WebPPicture* const pic) { FILE* const out = (FILE*)pic->custom_ptr; return data_size ? (fwrite(data, data_size, 1, out) == 1) : 1; } // Dumps a picture as a PGM file using the IMC4 layout. static int DumpPicture(const WebPPicture* const picture, const char* PGM_name) { int y; const int uv_width = (picture->width + 1) / 2; const int uv_height = (picture->height + 1) / 2; const int stride = (picture->width + 1) & ~1; const int alpha_height = WebPPictureHasTransparency(picture) ? picture->height : 0; const int height = picture->height + uv_height + alpha_height; FILE* const f = fopen(PGM_name, "wb"); if (f == NULL) return 0; fprintf(f, "P5\n%d %d\n255\n", stride, height); for (y = 0; y < picture->height; ++y) { if (fwrite(picture->y + y * picture->y_stride, picture->width, 1, f) != 1) return 0; if (picture->width & 1) fputc(0, f); // pad } for (y = 0; y < uv_height; ++y) { if (fwrite(picture->u + y * picture->uv_stride, uv_width, 1, f) != 1) return 0; if (fwrite(picture->v + y * picture->uv_stride, uv_width, 1, f) != 1) return 0; } for (y = 0; y < alpha_height; ++y) { if (fwrite(picture->a + y * picture->a_stride, picture->width, 1, f) != 1) return 0; if (picture->width & 1) fputc(0, f); // pad } fclose(f); return 1; } // ----------------------------------------------------------------------------- // Metadata writing. enum { METADATA_EXIF = (1 << 0), METADATA_ICC = (1 << 1), METADATA_XMP = (1 << 2), METADATA_ALL = METADATA_EXIF | METADATA_ICC | METADATA_XMP }; static const int kChunkHeaderSize = 8; static const int kTagSize = 4; static void PrintMetadataInfo(const Metadata* const metadata, int metadata_written) { if (metadata == NULL || metadata_written == 0) return; fprintf(stderr, "Metadata:\n"); if (metadata_written & METADATA_ICC) { fprintf(stderr, " * ICC profile: %6d bytes\n", (int)metadata->iccp.size); } if (metadata_written & METADATA_EXIF) { fprintf(stderr, " * EXIF data: %6d bytes\n", (int)metadata->exif.size); } if (metadata_written & METADATA_XMP) { fprintf(stderr, " * XMP data: %6d bytes\n", (int)metadata->xmp.size); } } // Outputs, in little endian, 'num' bytes from 'val' to 'out'. static int WriteLE(FILE* const out, uint32_t val, int num) { uint8_t buf[4]; int i; for (i = 0; i < num; ++i) { buf[i] = (uint8_t)(val & 0xff); val >>= 8; } return (fwrite(buf, num, 1, out) == 1); } static int WriteLE24(FILE* const out, uint32_t val) { return WriteLE(out, val, 3); } static int WriteLE32(FILE* const out, uint32_t val) { return WriteLE(out, val, 4); } static int WriteMetadataChunk(FILE* const out, const char fourcc[4], const MetadataPayload* const payload) { const uint8_t zero = 0; const size_t need_padding = payload->size & 1; int ok = (fwrite(fourcc, kTagSize, 1, out) == 1); ok = ok && WriteLE32(out, (uint32_t)payload->size); ok = ok && (fwrite(payload->bytes, payload->size, 1, out) == 1); return ok && (fwrite(&zero, need_padding, need_padding, out) == need_padding); } // Sets 'flag' in 'vp8x_flags' and updates 'metadata_size' with the size of the // chunk if there is metadata and 'keep' is true. static int UpdateFlagsAndSize(const MetadataPayload* const payload, int keep, int flag, uint32_t* vp8x_flags, uint64_t* metadata_size) { if (keep && payload->bytes != NULL && payload->size > 0) { *vp8x_flags |= flag; *metadata_size += kChunkHeaderSize + payload->size + (payload->size & 1); return 1; } return 0; } // Writes a WebP file using the image contained in 'memory_writer' and the // metadata from 'metadata'. Metadata is controlled by 'keep_metadata' and the // availability in 'metadata'. Returns true on success. // For details see doc/webp-container-spec.txt#extended-file-format. static int WriteWebPWithMetadata(FILE* const out, const WebPPicture* const picture, const WebPMemoryWriter* const memory_writer, const Metadata* const metadata, int keep_metadata, int* const metadata_written) { const char kVP8XHeader[] = "VP8X\x0a\x00\x00\x00"; const int kAlphaFlag = 0x10; const int kEXIFFlag = 0x08; const int kICCPFlag = 0x20; const int kXMPFlag = 0x04; const size_t kRiffHeaderSize = 12; const size_t kMaxChunkPayload = ~0 - kChunkHeaderSize - 1; const size_t kMinSize = kRiffHeaderSize + kChunkHeaderSize; uint32_t flags = 0; uint64_t metadata_size = 0; const int write_exif = UpdateFlagsAndSize(&metadata->exif, !!(keep_metadata & METADATA_EXIF), kEXIFFlag, &flags, &metadata_size); const int write_iccp = UpdateFlagsAndSize(&metadata->iccp, !!(keep_metadata & METADATA_ICC), kICCPFlag, &flags, &metadata_size); const int write_xmp = UpdateFlagsAndSize(&metadata->xmp, !!(keep_metadata & METADATA_XMP), kXMPFlag, &flags, &metadata_size); uint8_t* webp = memory_writer->mem; size_t webp_size = memory_writer->size; *metadata_written = 0; if (webp_size < kMinSize) return 0; if (webp_size - kChunkHeaderSize + metadata_size > kMaxChunkPayload) { fprintf(stderr, "Error! Addition of metadata would exceed " "container size limit.\n"); return 0; } if (metadata_size > 0) { const int kVP8XChunkSize = 18; const int has_vp8x = !memcmp(webp + kRiffHeaderSize, "VP8X", kTagSize); const uint32_t riff_size = (uint32_t)(webp_size - kChunkHeaderSize + (has_vp8x ? 0 : kVP8XChunkSize) + metadata_size); // RIFF int ok = (fwrite(webp, kTagSize, 1, out) == 1); // RIFF size (file header size is not recorded) ok = ok && WriteLE32(out, riff_size); webp += kChunkHeaderSize; webp_size -= kChunkHeaderSize; // WEBP ok = ok && (fwrite(webp, kTagSize, 1, out) == 1); webp += kTagSize; webp_size -= kTagSize; if (has_vp8x) { // update the existing VP8X flags webp[kChunkHeaderSize] |= (uint8_t)(flags & 0xff); ok = ok && (fwrite(webp, kVP8XChunkSize, 1, out) == 1); webp_size -= kVP8XChunkSize; } else { const int is_lossless = !memcmp(webp, "VP8L", kTagSize); if (is_lossless) { // Presence of alpha is stored in the 29th bit of VP8L data. if (webp[kChunkHeaderSize + 3] & (1 << 5)) flags |= kAlphaFlag; } ok = ok && (fwrite(kVP8XHeader, kChunkHeaderSize, 1, out) == 1); ok = ok && WriteLE32(out, flags); ok = ok && WriteLE24(out, picture->width - 1); ok = ok && WriteLE24(out, picture->height - 1); } if (write_iccp) { ok = ok && WriteMetadataChunk(out, "ICCP", &metadata->iccp); *metadata_written |= METADATA_ICC; } // Image ok = ok && (fwrite(webp, webp_size, 1, out) == 1); if (write_exif) { ok = ok && WriteMetadataChunk(out, "EXIF", &metadata->exif); *metadata_written |= METADATA_EXIF; } if (write_xmp) { ok = ok && WriteMetadataChunk(out, "XMP ", &metadata->xmp); *metadata_written |= METADATA_XMP; } return ok; } else { // No metadata, just write the original image file. return (fwrite(webp, webp_size, 1, out) == 1); } } //------------------------------------------------------------------------------ static int ProgressReport(int percent, const WebPPicture* const picture) { printf("[%s]: %3d %% \r", (char*)picture->user_data, percent); fflush(stdout); return 1; // all ok } //------------------------------------------------------------------------------ static void HelpShort(void) { printf("Usage:\n\n"); printf(" cwebp [options] -q quality input.png -o output.webp\n\n"); printf("where quality is between 0 (poor) to 100 (very good).\n"); printf("Typical value is around 80.\n\n"); printf("Try -longhelp for an exhaustive list of advanced options.\n"); } static void HelpLong(void) { printf("Usage:\n"); printf(" cwebp [-preset <...>] [options] in_file [-o out_file]\n\n"); printf("If input size (-s) for an image is not specified, " "it is assumed to be a PNG, JPEG or TIFF file.\n"); #ifdef HAVE_WINCODEC_H printf("Windows builds can take as input any of the files handled by WIC\n"); #endif printf("options:\n"); printf(" -h / -help ............ short help\n"); printf(" -H / -longhelp ........ long help\n"); printf(" -q ............. quality factor (0:small..100:big)\n"); printf(" -alpha_q ......... Transparency-compression quality " "(0..100).\n"); printf(" -preset ....... Preset setting, one of:\n"); printf(" default, photo, picture,\n"); printf(" drawing, icon, text\n"); printf(" -preset must come first, as it overwrites other parameters."); printf("\n"); printf(" -m ............... compression method (0=fast, 6=slowest)\n"); printf(" -segments ........ number of segments to use (1..4)\n"); printf(" -size ............ Target size (in bytes)\n"); printf(" -psnr .......... Target PSNR (in dB. typically: 42)\n"); printf("\n"); printf(" -s ......... Input size (width x height) for YUV\n"); printf(" -sns ............. Spatial Noise Shaping (0:off, 100:max)\n"); printf(" -f ............... filter strength (0=off..100)\n"); printf(" -sharpness ....... " "filter sharpness (0:most .. 7:least sharp)\n"); printf(" -strong ................ use strong filter instead " "of simple (default).\n"); printf(" -nostrong .............. use simple filter instead of strong.\n"); printf(" -partition_limit . limit quality to fit the 512k limit on\n"); printf(" " "the first partition (0=no degradation ... 100=full)\n"); printf(" -pass ............ analysis pass number (1..10)\n"); printf(" -crop .. crop picture with the given rectangle\n"); printf(" -resize ........ resize picture (after any cropping)\n"); printf(" -mt .................... use multi-threading if available\n"); printf(" -low_memory ............ reduce memory usage (slower encoding)\n"); #ifdef WEBP_EXPERIMENTAL_FEATURES printf(" -444 / -422 / -gray ..... Change colorspace\n"); #endif printf(" -map ............. print map of extra info.\n"); printf(" -print_psnr ............ prints averaged PSNR distortion.\n"); printf(" -print_ssim ............ prints averaged SSIM distortion.\n"); printf(" -print_lsim ............ prints local-similarity distortion.\n"); printf(" -d .......... dump the compressed output (PGM file).\n"); printf(" -alpha_method .... Transparency-compression method (0..1)\n"); printf(" -alpha_filter . predictive filtering for alpha plane.\n"); printf(" One of: none, fast (default) or best.\n"); printf(" -alpha_cleanup ......... Clean RGB values in transparent area.\n"); printf(" -blend_alpha ..... Blend colors against background color\n" " expressed as RGB values written in\n" " hexadecimal, e.g. 0xc0e0d0 for red=0xc0\n" " green=0xe0 and blue=0xd0.\n"); printf(" -noalpha ............... discard any transparency information.\n"); printf(" -lossless .............. Encode image losslessly.\n"); printf(" -hint ......... Specify image characteristics hint.\n"); printf(" One of: photo, picture or graph\n"); printf("\n"); printf(" -metadata ..... comma separated list of metadata to\n"); printf(" "); printf("copy from the input to the output if present.\n"); printf(" " "Valid values: all, none (default), exif, icc, xmp\n"); printf("\n"); printf(" -short ................. condense printed message\n"); printf(" -quiet ................. don't print anything.\n"); printf(" -version ............... print version number and exit.\n"); #ifndef WEBP_DLL printf(" -noasm ................. disable all assembly optimizations.\n"); #endif printf(" -v ..................... verbose, e.g. print encoding/decoding " "times\n"); printf(" -progress .............. report encoding progress\n"); printf("\n"); printf("Experimental Options:\n"); printf(" -jpeg_like ............. Roughly match expected JPEG size.\n"); printf(" -af .................... auto-adjust filter strength.\n"); printf(" -pre ............. pre-processing filter\n"); printf("\n"); } //------------------------------------------------------------------------------ // Error messages static const char* const kErrorMessages[] = { "OK", "OUT_OF_MEMORY: Out of memory allocating objects", "BITSTREAM_OUT_OF_MEMORY: Out of memory re-allocating byte buffer", "NULL_PARAMETER: NULL parameter passed to function", "INVALID_CONFIGURATION: configuration is invalid", "BAD_DIMENSION: Bad picture dimension. Maximum width and height " "allowed is 16383 pixels.", "PARTITION0_OVERFLOW: Partition #0 is too big to fit 512k.\n" "To reduce the size of this partition, try using less segments " "with the -segments option, and eventually reduce the number of " "header bits using -partition_limit. More details are available " "in the manual (`man cwebp`)", "PARTITION_OVERFLOW: Partition is too big to fit 16M", "BAD_WRITE: Picture writer returned an I/O error", "FILE_TOO_BIG: File would be too big to fit in 4G", "USER_ABORT: encoding abort requested by user" }; //------------------------------------------------------------------------------ int main(int argc, const char *argv[]) { int return_value = -1; const char *in_file = NULL, *out_file = NULL, *dump_file = NULL; FILE *out = NULL; int c; int short_output = 0; int quiet = 0; int keep_alpha = 1; int blend_alpha = 0; uint32_t background_color = 0xffffffu; int crop = 0, crop_x = 0, crop_y = 0, crop_w = 0, crop_h = 0; int resize_w = 0, resize_h = 0; int show_progress = 0; int keep_metadata = 0; int metadata_written = 0; WebPPicture picture; int print_distortion = -1; // -1=off, 0=PSNR, 1=SSIM, 2=LSIM WebPPicture original_picture; // when PSNR or SSIM is requested WebPConfig config; WebPAuxStats stats; WebPMemoryWriter memory_writer; Metadata metadata; Stopwatch stop_watch; MetadataInit(&metadata); WebPMemoryWriterInit(&memory_writer); if (!WebPPictureInit(&picture) || !WebPPictureInit(&original_picture) || !WebPConfigInit(&config)) { fprintf(stderr, "Error! Version mismatch!\n"); return -1; } if (argc == 1) { HelpShort(); return 0; } for (c = 1; c < argc; ++c) { if (!strcmp(argv[c], "-h") || !strcmp(argv[c], "-help")) { HelpShort(); return 0; } else if (!strcmp(argv[c], "-H") || !strcmp(argv[c], "-longhelp")) { HelpLong(); return 0; } else if (!strcmp(argv[c], "-o") && c < argc - 1) { out_file = argv[++c]; } else if (!strcmp(argv[c], "-d") && c < argc - 1) { dump_file = argv[++c]; config.show_compressed = 1; } else if (!strcmp(argv[c], "-print_psnr")) { config.show_compressed = 1; print_distortion = 0; } else if (!strcmp(argv[c], "-print_ssim")) { config.show_compressed = 1; print_distortion = 1; } else if (!strcmp(argv[c], "-print_lsim")) { config.show_compressed = 1; print_distortion = 2; } else if (!strcmp(argv[c], "-short")) { ++short_output; } else if (!strcmp(argv[c], "-s") && c < argc - 2) { picture.width = strtol(argv[++c], NULL, 0); picture.height = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-m") && c < argc - 1) { config.method = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-q") && c < argc - 1) { config.quality = (float)strtod(argv[++c], NULL); } else if (!strcmp(argv[c], "-alpha_q") && c < argc - 1) { config.alpha_quality = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-alpha_method") && c < argc - 1) { config.alpha_compression = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-alpha_cleanup")) { keep_alpha = keep_alpha ? 2 : 0; } else if (!strcmp(argv[c], "-blend_alpha") && c < argc - 1) { blend_alpha = 1; background_color = strtol(argv[++c], NULL, 16); // <- parses '0x' prefix background_color = background_color & 0x00ffffffu; } else if (!strcmp(argv[c], "-alpha_filter") && c < argc - 1) { ++c; if (!strcmp(argv[c], "none")) { config.alpha_filtering = 0; } else if (!strcmp(argv[c], "fast")) { config.alpha_filtering = 1; } else if (!strcmp(argv[c], "best")) { config.alpha_filtering = 2; } else { fprintf(stderr, "Error! Unrecognized alpha filter: %s\n", argv[c]); goto Error; } } else if (!strcmp(argv[c], "-noalpha")) { keep_alpha = 0; } else if (!strcmp(argv[c], "-lossless")) { config.lossless = 1; } else if (!strcmp(argv[c], "-hint") && c < argc - 1) { ++c; if (!strcmp(argv[c], "photo")) { config.image_hint = WEBP_HINT_PHOTO; } else if (!strcmp(argv[c], "picture")) { config.image_hint = WEBP_HINT_PICTURE; } else if (!strcmp(argv[c], "graph")) { config.image_hint = WEBP_HINT_GRAPH; } else { fprintf(stderr, "Error! Unrecognized image hint: %s\n", argv[c]); goto Error; } } else if (!strcmp(argv[c], "-size") && c < argc - 1) { config.target_size = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-psnr") && c < argc - 1) { config.target_PSNR = (float)strtod(argv[++c], NULL); } else if (!strcmp(argv[c], "-sns") && c < argc - 1) { config.sns_strength = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-f") && c < argc - 1) { config.filter_strength = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-af")) { config.autofilter = 1; } else if (!strcmp(argv[c], "-jpeg_like")) { config.emulate_jpeg_size = 1; } else if (!strcmp(argv[c], "-mt")) { ++config.thread_level; // increase thread level } else if (!strcmp(argv[c], "-low_memory")) { config.low_memory = 1; } else if (!strcmp(argv[c], "-strong")) { config.filter_type = 1; } else if (!strcmp(argv[c], "-nostrong")) { config.filter_type = 0; } else if (!strcmp(argv[c], "-sharpness") && c < argc - 1) { config.filter_sharpness = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-pass") && c < argc - 1) { config.pass = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-pre") && c < argc - 1) { config.preprocessing = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-segments") && c < argc - 1) { config.segments = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-partition_limit") && c < argc - 1) { config.partition_limit = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-map") && c < argc - 1) { picture.extra_info_type = strtol(argv[++c], NULL, 0); #ifdef WEBP_EXPERIMENTAL_FEATURES } else if (!strcmp(argv[c], "-444")) { picture.colorspace = WEBP_YUV444; } else if (!strcmp(argv[c], "-422")) { picture.colorspace = WEBP_YUV422; } else if (!strcmp(argv[c], "-gray")) { picture.colorspace = WEBP_YUV400; #endif } else if (!strcmp(argv[c], "-crop") && c < argc - 4) { crop = 1; crop_x = strtol(argv[++c], NULL, 0); crop_y = strtol(argv[++c], NULL, 0); crop_w = strtol(argv[++c], NULL, 0); crop_h = strtol(argv[++c], NULL, 0); } else if (!strcmp(argv[c], "-resize") && c < argc - 2) { resize_w = strtol(argv[++c], NULL, 0); resize_h = strtol(argv[++c], NULL, 0); #ifndef WEBP_DLL } else if (!strcmp(argv[c], "-noasm")) { VP8GetCPUInfo = NULL; #endif } else if (!strcmp(argv[c], "-version")) { const int version = WebPGetEncoderVersion(); printf("%d.%d.%d\n", (version >> 16) & 0xff, (version >> 8) & 0xff, version & 0xff); return 0; } else if (!strcmp(argv[c], "-progress")) { show_progress = 1; } else if (!strcmp(argv[c], "-quiet")) { quiet = 1; } else if (!strcmp(argv[c], "-preset") && c < argc - 1) { WebPPreset preset; ++c; if (!strcmp(argv[c], "default")) { preset = WEBP_PRESET_DEFAULT; } else if (!strcmp(argv[c], "photo")) { preset = WEBP_PRESET_PHOTO; } else if (!strcmp(argv[c], "picture")) { preset = WEBP_PRESET_PICTURE; } else if (!strcmp(argv[c], "drawing")) { preset = WEBP_PRESET_DRAWING; } else if (!strcmp(argv[c], "icon")) { preset = WEBP_PRESET_ICON; } else if (!strcmp(argv[c], "text")) { preset = WEBP_PRESET_TEXT; } else { fprintf(stderr, "Error! Unrecognized preset: %s\n", argv[c]); goto Error; } if (!WebPConfigPreset(&config, preset, config.quality)) { fprintf(stderr, "Error! Could initialize configuration with preset.\n"); goto Error; } } else if (!strcmp(argv[c], "-metadata") && c < argc - 1) { static const struct { const char* option; int flag; } kTokens[] = { { "all", METADATA_ALL }, { "none", 0 }, { "exif", METADATA_EXIF }, { "icc", METADATA_ICC }, { "xmp", METADATA_XMP }, }; const size_t kNumTokens = sizeof(kTokens) / sizeof(kTokens[0]); const char* start = argv[++c]; const char* const end = start + strlen(start); while (start < end) { size_t i; const char* token = strchr(start, ','); if (token == NULL) token = end; for (i = 0; i < kNumTokens; ++i) { if ((size_t)(token - start) == strlen(kTokens[i].option) && !strncmp(start, kTokens[i].option, strlen(kTokens[i].option))) { if (kTokens[i].flag != 0) { keep_metadata |= kTokens[i].flag; } else { keep_metadata = 0; } break; } } if (i == kNumTokens) { fprintf(stderr, "Error! Unknown metadata type '%.*s'\n", (int)(token - start), start); HelpLong(); return -1; } start = token + 1; } #ifdef HAVE_WINCODEC_H if (keep_metadata != 0 && keep_metadata != METADATA_ICC) { // TODO(jzern): remove when -metadata is supported on all platforms. fprintf(stderr, "Warning: only ICC profile extraction is currently" " supported on this platform!\n"); } #endif } else if (!strcmp(argv[c], "-v")) { verbose = 1; } else if (!strcmp(argv[c], "--")) { if (c < argc - 1) in_file = argv[++c]; break; } else if (argv[c][0] == '-') { fprintf(stderr, "Error! Unknown option '%s'\n", argv[c]); HelpLong(); return -1; } else { in_file = argv[c]; } } if (in_file == NULL) { fprintf(stderr, "No input file specified!\n"); HelpShort(); goto Error; } // Check for unsupported command line options for lossless mode and log // warning for such options. if (!quiet && config.lossless == 1) { if (config.target_size > 0 || config.target_PSNR > 0) { fprintf(stderr, "Encoding for specified size or PSNR is not supported" " for lossless encoding. Ignoring such option(s)!\n"); } if (config.partition_limit > 0) { fprintf(stderr, "Partition limit option is not required for lossless" " encoding. Ignoring this option!\n"); } } if (!WebPValidateConfig(&config)) { fprintf(stderr, "Error! Invalid configuration.\n"); goto Error; } // Read the input if (verbose) { StopwatchReset(&stop_watch); } if (!ReadPicture(in_file, &picture, keep_alpha, (keep_metadata == 0) ? NULL : &metadata)) { fprintf(stderr, "Error! Cannot read input picture file '%s'\n", in_file); goto Error; } picture.progress_hook = (show_progress && !quiet) ? ProgressReport : NULL; if (blend_alpha) { WebPBlendAlpha(&picture, background_color); } if (keep_alpha == 2) { WebPCleanupTransparentArea(&picture); } if (verbose) { const double read_time = StopwatchReadAndReset(&stop_watch); fprintf(stderr, "Time to read input: %.3fs\n", read_time); } // Open the output if (out_file) { out = fopen(out_file, "wb"); if (out == NULL) { fprintf(stderr, "Error! Cannot open output file '%s'\n", out_file); goto Error; } else { if (!short_output && !quiet) { fprintf(stderr, "Saving file '%s'\n", out_file); } } if (keep_metadata == 0) { picture.writer = MyWriter; picture.custom_ptr = (void*)out; } else { picture.writer = WebPMemoryWrite; picture.custom_ptr = (void*)&memory_writer; } } else { out = NULL; if (!quiet && !short_output) { fprintf(stderr, "No output file specified (no -o flag). Encoding will\n"); fprintf(stderr, "be performed, but its results discarded.\n\n"); } } if (!quiet) { picture.stats = &stats; picture.user_data = (void*)in_file; } // Compress if (verbose) { StopwatchReset(&stop_watch); } if (crop != 0) { // We use self-cropping using a view. if (!WebPPictureView(&picture, crop_x, crop_y, crop_w, crop_h, &picture)) { fprintf(stderr, "Error! Cannot crop picture\n"); goto Error; } } if ((resize_w | resize_h) > 0) { if (!WebPPictureRescale(&picture, resize_w, resize_h)) { fprintf(stderr, "Error! Cannot resize picture\n"); goto Error; } } if (picture.extra_info_type > 0) { AllocExtraInfo(&picture); } if (print_distortion >= 0) { // Save original picture for later comparison WebPPictureCopy(&picture, &original_picture); } if (!WebPEncode(&config, &picture)) { fprintf(stderr, "Error! Cannot encode picture as WebP\n"); fprintf(stderr, "Error code: %d (%s)\n", picture.error_code, kErrorMessages[picture.error_code]); goto Error; } if (verbose) { const double encode_time = StopwatchReadAndReset(&stop_watch); fprintf(stderr, "Time to encode picture: %.3fs\n", encode_time); } // Write info if (dump_file) { if (picture.use_argb) { fprintf(stderr, "Warning: can't dump file (-d option) in lossless mode."); } else if (!DumpPicture(&picture, dump_file)) { fprintf(stderr, "Warning, couldn't dump picture %s\n", dump_file); } } if (keep_metadata != 0) { if (out != NULL) { if (!WriteWebPWithMetadata(out, &picture, &memory_writer, &metadata, keep_metadata, &metadata_written)) { fprintf(stderr, "Error writing WebP file with metadata!\n"); goto Error; } } else { // output is disabled, just display the metadata stats. const struct { const MetadataPayload* const payload; int flag; } *iter, info[] = { { &metadata.exif, METADATA_EXIF }, { &metadata.iccp, METADATA_ICC }, { &metadata.xmp, METADATA_XMP }, { NULL, 0 } }; uint32_t unused1 = 0; uint64_t unused2 = 0; for (iter = info; iter->payload != NULL; ++iter) { if (UpdateFlagsAndSize(iter->payload, !!(keep_metadata & iter->flag), 0, &unused1, &unused2)) { metadata_written |= iter->flag; } } } } if (!quiet) { if (!short_output || print_distortion < 0) { if (config.lossless) { PrintExtraInfoLossless(&picture, short_output, in_file); } else { PrintExtraInfoLossy(&picture, short_output, config.low_memory, in_file); } } if (!short_output && picture.extra_info_type > 0) { PrintMapInfo(&picture); } if (print_distortion >= 0) { // print distortion static const char* distortion_names[] = { "PSNR", "SSIM", "LSIM" }; float values[5]; // Comparison is performed in YUVA colorspace. if (original_picture.use_argb && !WebPPictureARGBToYUVA(&original_picture, WEBP_YUV420A)) { fprintf(stderr, "Error while converting original picture to YUVA.\n"); goto Error; } if (picture.use_argb && !WebPPictureARGBToYUVA(&picture, WEBP_YUV420A)) { fprintf(stderr, "Error while converting compressed picture to YUVA.\n"); goto Error; } if (!WebPPictureDistortion(&picture, &original_picture, print_distortion, values)) { fprintf(stderr, "Error while computing the distortion.\n"); goto Error; } if (!short_output) { fprintf(stderr, "%s: Y:%.2f U:%.2f V:%.2f A:%.2f Total:%.2f\n", distortion_names[print_distortion], values[0], values[1], values[2], values[3], values[4]); } else { fprintf(stderr, "%7d %.4f\n", picture.stats->coded_size, values[4]); } } if (!short_output) { PrintMetadataInfo(&metadata, metadata_written); } } return_value = 0; Error: free(memory_writer.mem); free(picture.extra_info); MetadataFree(&metadata); WebPPictureFree(&picture); WebPPictureFree(&original_picture); if (out != NULL) { fclose(out); } return return_value; } //------------------------------------------------------------------------------