// The contents of this file are in the public domain. See LICENSE_FOR_EXAMPLE_PROGRAMS.txt /* This is an example illustrating the use of the ffmpeg wrappers, in this case the muxing API. This is a pretty simple example. It loads a video file, extracts images and audio frames (if present) and re-encodes them into a video file. Please see the following examples on how to decode, demux, and get information on your installation of ffmpeg: - ffmpeg_info_ex.cpp - ffmpeg_video_decoding_ex.cpp - ffmpeg_video_demuxing_ex.cpp */ #include #include #include using namespace std; using namespace dlib; using namespace dlib::ffmpeg; int main(const int argc, const char** argv) try { command_line_parser parser; parser.add_option("i", "input video", 1); parser.add_option("o", "output file", 1); parser.add_option("codec_video", "video codec name. e.g. `h264`. Defaults to `mpeg4`", 1); parser.add_option("codec_audio", "audio codec name. e.g. `aac`. Defaults to `ac3`", 1); parser.add_option("height", "height of encoded stream. Defaults to whatever is in the video file", 1); parser.add_option("width", "width of encoded stream. Defaults to whatever is in the video file", 1); parser.add_option("sample_rate", "sample rate of encoded stream. Defaults to whatever is in the video file", 1); parser.set_group_name("Help Options"); parser.add_option("h", "alias of --help"); parser.add_option("help", "display this message and exit"); parser.parse(argc, argv); const char* one_time_opts[] = {"i", "o", "codec_video", "codec_audio", "height", "width", "sample_rate"}; parser.check_one_time_options(one_time_opts); if (parser.option("h") || parser.option("help")) { parser.print_options(); return 0; } if (!parser.option("i")) { cout << "Missing -i" << endl; parser.print_options(); return 0; } if (!parser.option("o")) { cout << "Missing -o" << endl; parser.print_options(); return 0; } const std::string input_filepath = parser.option("i").argument(); const std::string output_filepath = parser.option("o").argument(); demuxer cap(input_filepath); if (!cap.is_open()) { cout << "Failed to open " << input_filepath << endl; return EXIT_FAILURE; } muxer writer([&] { muxer::args args; args.filepath = output_filepath; args.enable_image = cap.video_enabled(); args.enable_audio = cap.audio_enabled(); if (args.enable_image) { args.args_image.codec_name = get_option(parser, "codec_video", "mpeg4");; args.args_image.h = get_option(parser, "height", cap.height()); args.args_image.w = get_option(parser, "width", cap.width()); args.args_image.fmt = cap.pixel_fmt(); args.args_image.framerate = cap.fps(); } if (args.enable_audio) { args.args_audio.codec_name = get_option(parser, "codec_audio", "aac");; args.args_audio.sample_rate = get_option(parser, "sample_rate", cap.sample_rate()); args.args_audio.channel_layout = cap.channel_layout(); args.args_audio.fmt = cap.sample_fmt(); } return args; }()); if (!writer.is_open()) { cout << "Failed to open " << output_filepath << endl; return EXIT_FAILURE; } frame f; while (cap.read(f)) writer.push(std::move(f)); // writer.flush(); // You don't have to call flush() here because it's called in the destructor of muxer // If you call it more than once, it becomes a no-op basically. return EXIT_SUCCESS; } catch (const std::exception& e) { cout << e.what() << '\n'; return EXIT_FAILURE; }