// Copyright 2013 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // // Author: lode.vandevenne@gmail.com (Lode Vandevenne) // Author: jyrki.alakuijala@gmail.com (Jyrki Alakuijala) // Command line tool to recompress and optimize PNG images, using zopflipng_lib. #include #include #include "lodepng/lodepng.h" #include "zopflipng_lib.h" // Returns directory path (including last slash) in dir, filename without // extension in file, extension (including the dot) in ext void GetFileNameParts(const std::string& filename, std::string* dir, std::string* file, std::string* ext) { size_t npos = (size_t)(-1); size_t slashpos = filename.find_last_of("/\\"); std::string nodir; if (slashpos == npos) { *dir = ""; nodir = filename; } else { *dir = filename.substr(0, slashpos + 1); nodir = filename.substr(slashpos + 1); } size_t dotpos = nodir.find_last_of('.'); if (dotpos == (size_t)(-1)) { *file = nodir; *ext = ""; } else { *file = nodir.substr(0, dotpos); *ext = nodir.substr(dotpos); } } // Returns the size of the file size_t GetFileSize(const std::string& filename) { size_t size; FILE* file = fopen(filename.c_str(), "rb"); if (!file) return 0; fseek(file , 0 , SEEK_END); size = static_cast(ftell(file)); fclose(file); return size; } void ShowHelp() { printf("ZopfliPNG, a Portable Network Graphics (PNG) image optimizer.\n" "\n" "Usage: zopflipng [options]... infile.png outfile.png\n" " zopflipng [options]... --prefix=[fileprefix] [files.png]...\n" "\n" "If the output file exists, it is considered a result from a" " previous run and not overwritten if its filesize is smaller.\n" "\n" "Options:\n" "-m: compress more: use more iterations (depending on file size) and" " use block split strategy 3\n" "--prefix=[fileprefix]: Adds a prefix to output filenames. May also" " contain a directory path. When using a prefix, multiple input files" " can be given and the output filenames are generated with the" " prefix\n" " If --prefix is specified without value, 'zopfli_' is used.\n" " If input file names contain the prefix, they are not processed but" " considered as output from previous runs. This is handy when using" " *.png wildcard expansion with multiple runs.\n" "-y: do not ask about overwriting files.\n" "--lossy_transparent: remove colors behind alpha channel 0. No visual" " difference, removes hidden information.\n" "--lossy_8bit: convert 16-bit per channel image to 8-bit per" " channel.\n" "-d: dry run: don't save any files, just see the console output" " (e.g. for benchmarking)\n" "--always_zopflify: always output the image encoded by Zopfli, even if" " it's bigger than the original, for benchmarking the algorithm. Not" " good for real optimization.\n" "-q: use quick, but not very good, compression" " (e.g. for only trying the PNG filter and color types)\n" "--iterations=[number]: number of iterations, more iterations makes it" " slower but provides slightly better compression. Default: 15 for" " small files, 5 for large files.\n" "--splitting=[0-3]: block split strategy:" " 0=none, 1=first, 2=last, 3=try both and take the best\n" "--filters=[types]: filter strategies to try:\n" " 0-4: give all scanlines PNG filter type 0-4\n" " m: minimum sum\n" " e: entropy\n" " p: predefined (keep from input, this likely overlaps another" " strategy)\n" " b: brute force (experimental)\n" " By default, if this argument is not given, one that is most likely" " the best for this image is chosen by trying faster compression with" " each type.\n" " If this argument is used, all given filter types" " are tried with slow compression and the best result retained. A good" " set of filters to try is --filters=0me.\n" "--keepchunks=nAME,nAME,...: keep metadata chunks with these names" " that would normally be removed, e.g. tEXt,zTXt,iTXt,gAMA, ... \n" " Due to adding extra data, this increases the result size. By default" " ZopfliPNG only keeps the following chunks because they are" " essential: IHDR, PLTE, tRNS, IDAT and IEND.\n" "\n" "Usage examples:\n" "Optimize a file and overwrite if smaller: zopflipng infile.png" " outfile.png\n" "Compress more: zopflipng -m infile.png outfile.png\n" "Optimize multiple files: zopflipng --prefix a.png b.png c.png\n" "Compress really good and trying all filter strategies: zopflipng" " --iterations=500 --splitting=3 --filters=01234mepb" " --lossy_8bit --lossy_transparent infile.png outfile.png\n"); } void PrintSize(const char* label, size_t size) { printf("%s: %d (%dK)\n", label, (int) size, (int) size / 1024); } void PrintResultSize(const char* label, size_t oldsize, size_t newsize) { printf("%s: %d (%dK). Percentage of original: %.3f%%\n", label, (int) newsize, (int) newsize / 1024, newsize * 100.0 / oldsize); } int main(int argc, char *argv[]) { if (argc < 2) { ShowHelp(); return 0; } ZopfliPNGOptions png_options; // cmd line options bool always_zopflify = false; // overwrite file even if we have bigger result bool yes = false; // do not ask to overwrite files bool dryrun = false; // never save anything std::string user_out_filename; // output filename if no prefix is used bool use_prefix = false; std::string prefix = "zopfli_"; // prefix for output filenames std::vector files; std::vector options; for (int i = 1; i < argc; i++) { std::string arg = argv[i]; if (arg[0] == '-' && arg.size() > 1 && arg[1] != '-') { for (size_t pos = 1; pos < arg.size(); pos++) { char c = arg[pos]; if (c == 'y') { yes = true; } else if (c == 'd') { dryrun = true; } else if (c == 'm') { png_options.num_iterations *= 4; png_options.num_iterations_large *= 4; png_options.block_split_strategy = 3; } else if (c == 'q') { png_options.use_zopfli = false; } else if (c == 'h') { ShowHelp(); return 0; } else { printf("Unknown flag: %c\n", c); return 0; } } } else if (arg[0] == '-' && arg.size() > 1 && arg[1] == '-') { size_t eq = arg.find('='); std::string name = arg.substr(0, eq); std::string value = eq >= arg.size() - 1 ? "" : arg.substr(eq + 1); int num = atoi(value.c_str()); if (name == "--always_zopflify") { always_zopflify = true; } else if (name == "--lossy_transparent") { png_options.lossy_transparent = true; } else if (name == "--lossy_8bit") { png_options.lossy_8bit = true; } else if (name == "--iterations") { if (num < 1) num = 1; png_options.num_iterations = num; png_options.num_iterations_large = num; } else if (name == "--splitting") { if (num < 0 || num > 3) num = 1; png_options.block_split_strategy = num; } else if (name == "--filters") { for (size_t j = 0; j < value.size(); j++) { ZopfliPNGFilterStrategy strategy = kStrategyZero; char f = value[j]; switch (f) { case '0': strategy = kStrategyZero; break; case '1': strategy = kStrategyOne; break; case '2': strategy = kStrategyTwo; break; case '3': strategy = kStrategyThree; break; case '4': strategy = kStrategyFour; break; case 'm': strategy = kStrategyMinSum; break; case 'e': strategy = kStrategyEntropy; break; case 'p': strategy = kStrategyPredefined; break; case 'b': strategy = kStrategyBruteForce; break; default: printf("Unknown filter strategy: %c\n", f); return 1; } png_options.filter_strategies.push_back(strategy); // Enable auto filter strategy only if no user-specified filter is // given. png_options.auto_filter_strategy = false; } } else if (name == "--keepchunks") { bool correct = true; if ((value.size() + 1) % 5 != 0) correct = false; for (size_t i = 0; i + 4 <= value.size() && correct; i += 5) { png_options.keepchunks.push_back(value.substr(i, 4)); if (i > 4 && value[i - 1] != ',') correct = false; } if (!correct) { printf("Error: keepchunks format must be like for example:\n" " --keepchunks=gAMA,cHRM,sRGB,iCCP\n"); return 0; } } else if (name == "--prefix") { use_prefix = true; if (!value.empty()) prefix = value; } else if (name == "--help") { ShowHelp(); return 0; } else { printf("Unknown flag: %s\n", name.c_str()); return 0; } } else { files.push_back(argv[i]); } } if (!use_prefix) { if (files.size() == 2) { // The second filename is the output instead of an input if no prefix is // given. user_out_filename = files[1]; files.resize(1); } else { printf("Please provide one input and output filename\n\n"); ShowHelp(); return 0; } } size_t total_in_size = 0; // Total output size, taking input size if the input file was smaller size_t total_out_size = 0; // Total output size that zopfli produced, even if input was smaller, for // benchmark information size_t total_out_size_zopfli = 0; size_t total_errors = 0; size_t total_files = 0; size_t total_files_smaller = 0; size_t total_files_saved = 0; size_t total_files_equal = 0; for (size_t i = 0; i < files.size(); i++) { if (use_prefix && files.size() > 1) { std::string dir, file, ext; GetFileNameParts(files[i], &dir, &file, &ext); // avoid doing filenames which were already output by this so that you // don't get zopfli_zopfli_zopfli_... files after multiple runs. if (file.find(prefix) == 0) continue; } total_files++; printf("Optimizing %s\n", files[i].c_str()); std::vector image; unsigned w, h; std::vector origpng; unsigned error; lodepng::State inputstate; std::vector resultpng; lodepng::load_file(origpng, files[i]); error = ZopfliPNGOptimize(origpng, png_options, true, &resultpng); if (error) { printf("Decoding error %i: %s\n", error, lodepng_error_text(error)); } // Verify result, check that the result causes no decoding errors if (!error) { error = lodepng::decode(image, w, h, inputstate, resultpng); if (error) printf("Error: verification of result failed.\n"); } if (error) { printf("There was an error\n"); total_errors++; } else { size_t origsize = GetFileSize(files[i]); size_t resultsize = resultpng.size(); if (resultsize < origsize) { printf("Result is smaller\n"); } else if (resultsize == origsize) { printf("Result has exact same size\n"); } else { printf(always_zopflify ? "Original was smaller\n" : "Preserving original PNG since it was smaller\n"); } PrintSize("Input size", origsize); PrintResultSize("Result size", origsize, resultsize); std::string out_filename = user_out_filename; if (use_prefix) { std::string dir, file, ext; GetFileNameParts(files[i], &dir, &file, &ext); out_filename = dir + prefix + file + ext; } bool different_output_name = out_filename != files[i]; total_in_size += origsize; total_out_size_zopfli += resultpng.size(); if (resultpng.size() < origsize) total_files_smaller++; else if (resultpng.size() == origsize) total_files_equal++; if (!always_zopflify && resultpng.size() > origsize) { // Set output file to input since input was smaller. resultpng = origpng; } size_t origoutfilesize = GetFileSize(out_filename); bool already_exists = true; if (origoutfilesize == 0) already_exists = false; // When using a prefix, and the output file already exist, assume it's // from a previous run. If that file is smaller, it may represent a // previous run with different parameters that gave a smaller PNG image. // In that case, do not overwrite it. This behaviour can be removed by // adding the always_zopflify flag. bool keep_earlier_output_file = already_exists && resultpng.size() >= origoutfilesize && !always_zopflify && use_prefix; if (keep_earlier_output_file) { // An output file from a previous run is kept, add that files' size // to the output size statistics. total_out_size += origoutfilesize; if (different_output_name) { printf(resultpng.size() == origoutfilesize ? "File not written because a previous run was as good.\n" : "File not written because a previous run was better.\n"); } } else { bool confirmed = true; if (!yes && !dryrun && already_exists) { printf("File %s exists, overwrite? (y/N) ", out_filename.c_str()); char answer = 0; // Read the first character, the others and enter with getchar. while (int input = getchar()) { if (input == '\n' || input == EOF) break; else if (!answer) answer = input; } confirmed = answer == 'y' || answer == 'Y'; } if (confirmed) { if (!dryrun) { lodepng::save_file(resultpng, out_filename); total_files_saved++; } total_out_size += resultpng.size(); } else { // An output file from a previous run is kept, add that files' size // to the output size statistics. total_out_size += origoutfilesize; } } } printf("\n"); } if (total_files > 1) { printf("Summary for all files:\n"); printf("Files tried: %d\n", (int) total_files); printf("Files smaller: %d\n", (int) total_files_smaller); if (total_files_equal) { printf("Files equal: %d\n", (int) total_files_equal); } printf("Files saved: %d\n", (int) total_files_saved); if (total_errors) printf("Errors: %d\n", (int) total_errors); PrintSize("Total input size", total_in_size); PrintResultSize("Total output size", total_in_size, total_out_size); PrintResultSize("Benchmark result size", total_in_size, total_out_size_zopfli); } if (dryrun) printf("No files were written because dry run was specified\n"); return total_errors; }