public static IAudioDest GetAudioDest(AudioEncoderType audioEncoderType, string path, AudioPCMConfig pcm, long finalSampleCount, int padding, string extension, CUEConfig config) { IAudioDest dest; if (audioEncoderType == AudioEncoderType.NoAudio || extension == ".dummy") { dest = new DummyWriter(path, pcm); dest.FinalSampleCount = finalSampleCount; return dest; } CUEToolsFormat fmt; if (!extension.StartsWith(".") || !config.formats.TryGetValue(extension.Substring(1), out fmt)) throw new Exception("Unsupported audio type: " + path); CUEToolsUDC encoder = audioEncoderType == AudioEncoderType.Lossless ? fmt.encoderLossless : audioEncoderType == AudioEncoderType.Lossy ? fmt.encoderLossy : null; if (encoder == null) throw new Exception("Unsupported audio type: " + path); if (encoder.path != null) dest = new UserDefinedWriter(path, null, pcm, encoder.path, encoder.parameters, encoder.default_mode, padding); else if (encoder.type != null) { object o = Activator.CreateInstance(encoder.type, path, pcm); if (o == null || !(o is IAudioDest)) throw new Exception("Unsupported audio type: " + path + ": " + encoder.type.FullName); dest = o as IAudioDest; } else throw new Exception("Unsupported audio type: " + path); dest.CompressionLevel = encoder.DefaultModeIndex; dest.FinalSampleCount = finalSampleCount; dest.Padding = padding; dest.Settings = encoder.settings; return dest; }
private void audioProfile_SelectedProfileChanged(object sender, EventArgs e) { if (lastCodec == AudCodecSettings.EncoderType) return; lastCodec = AudCodecSettings.EncoderType; Util.ChangeItemsKeepingSelectedSame(audioContainer, AudioEncoderProvider.GetSupportedOutput(lastCodec)); }
static extern bool gst_video_encoder_set_encoding_format(IntPtr raw, VideoEncoderType video_codec, AudioEncoderType audio_codec, VideoMuxerType muxer, uint video_quality, uint audio_quality, uint width, uint height, uint fps_n, uint fps_d);
public EncodingProfile(string name, string extension, VideoEncoderType videoEncoder, AudioEncoderType audioEncoder, VideoMuxerType muxer) { Name = name; Extension = extension; VideoEncoder = videoEncoder; AudioEncoder = audioEncoder; Muxer = muxer; }
public bool SetAudioEncoder(AudioEncoderType type) { IntPtr error = IntPtr.Zero; bool raw_ret = gst_camera_capturer_set_audio_encoder(Handle, (int)type, out error); if (error != IntPtr.Zero) { throw new GLib.GException(error); } bool ret = raw_ret; return(ret); }
static extern bool gst_video_editor_set_encoding_format(IntPtr raw, string output_file, VideoEncoderType video_codec, AudioEncoderType audio_codec, VideoMuxerType muxer, uint video_quality, uint audio_quality, uint width, uint height, uint fps_n, uint fps_d, bool enable_audio, bool enable_video);
public void SetAudioEncoder(out string error, AudioEncoderType codec) { IntPtr error_ptr = IntPtr.Zero; gst_video_editor_set_audio_encoder(Handle, out error_ptr, (int)codec); if (error_ptr != IntPtr.Zero) { error = GLib.Marshaller.Utf8PtrToString(error_ptr); } else { error = null; } }
public static IAudioDest GetAudioDest(AudioEncoderType audioEncoderType, string path, AudioPCMConfig pcm, long finalSampleCount, int padding, string extension, CUEConfig config) { IAudioDest dest; if (audioEncoderType == AudioEncoderType.NoAudio || extension == ".dummy") { return new Codecs.NULL.AudioEncoder(path, new Codecs.WAV.EncoderSettings(pcm)) { FinalSampleCount = finalSampleCount } } ; CUEToolsFormat fmt; if (!extension.StartsWith(".") || !config.formats.TryGetValue(extension.Substring(1), out fmt)) { throw new Exception("Unsupported audio type: " + path); } AudioEncoderSettingsViewModel encoder = audioEncoderType == AudioEncoderType.Lossless ? fmt.encoderLossless : audioEncoderType == AudioEncoderType.Lossy ? fmt.encoderLossy : null; if (encoder == null) { throw new Exception("Unsupported audio type: " + path); } var settings = encoder.Settings.Clone(); settings.PCM = pcm; settings.Padding = padding; object o; try { o = Activator.CreateInstance(settings.EncoderType, settings, path, null); } catch (System.Reflection.TargetInvocationException ex) { throw ex.InnerException; } if (o == null || !(o is IAudioDest)) { throw new Exception("Unsupported audio type: " + path + ": " + settings.EncoderType.FullName); } dest = o as IAudioDest; dest.FinalSampleCount = finalSampleCount; return(dest); } }
static extern bool gst_video_encoder_set_encoding_format (IntPtr raw, VideoEncoderType video_codec, AudioEncoderType audio_codec, VideoMuxerType muxer, uint video_quality, uint audio_quality, uint width, uint height, uint fps_n, uint fps_d);
public static IAudioDest GetAudioDest(AudioEncoderType audioEncoderType, string path, long finalSampleCount, int bitsPerSample, int sampleRate, int padding, CUEConfig config) { string extension = Path.GetExtension(path).ToLower(); string filename = Path.GetFileNameWithoutExtension(path); AudioPCMConfig pcm = new AudioPCMConfig(bitsPerSample, 2, sampleRate); if (audioEncoderType == AudioEncoderType.NoAudio || audioEncoderType == AudioEncoderType.Lossless || Path.GetExtension(filename).ToLower() != ".lossy") return GetAudioDest(audioEncoderType, path, pcm, finalSampleCount, padding, extension, config); string lwcdfPath = Path.Combine(Path.GetDirectoryName(path), Path.GetFileNameWithoutExtension(filename) + ".lwcdf" + extension); AudioPCMConfig lossypcm = new AudioPCMConfig((config.detectHDCD && config.decodeHDCD && !config.decodeHDCDtoLW16) ? 24 : 16, 2, sampleRate); IAudioDest lossyDest = GetAudioDest(AudioEncoderType.Lossless, path, lossypcm, finalSampleCount, padding, extension, config); IAudioDest lwcdfDest = audioEncoderType == AudioEncoderType.Hybrid ? GetAudioDest(AudioEncoderType.Lossless, lwcdfPath, lossypcm, finalSampleCount, padding, extension, config) : null; return new LossyWAVWriter(lossyDest, lwcdfDest, config.lossyWAVQuality, pcm); }
public void GenerateFilenames(AudioEncoderType audioEncoderType, string format, string outputPath) { _audioEncoderType = audioEncoderType; _outputLossyWAV = format.StartsWith("lossy."); _outputFormat = format; _outputPath = outputPath; string extension = "." + format; string filename; int iTrack; NameValueCollection vars = new NameValueCollection(); vars.Add("unique", null); vars.Add("album artist", General.EmptyStringToNull(_config.CleanseString(Metadata.Artist))); vars.Add("artist", General.EmptyStringToNull(_config.CleanseString(Metadata.Artist))); vars.Add("album", General.EmptyStringToNull(_config.CleanseString(Metadata.Title))); vars.Add("year", General.EmptyStringToNull(_config.CleanseString(Metadata.Year))); vars.Add("catalog", General.EmptyStringToNull(_config.CleanseString(Metadata.Barcode))); vars.Add("discnumber", General.EmptyStringToNull(_config.CleanseString(Metadata.DiscNumber01))); vars.Add("totaldiscs", General.EmptyStringToNull(_config.CleanseString(Metadata.TotalDiscs))); vars.Add("filename", Path.GetFileNameWithoutExtension(outputPath)); vars.Add("tracknumber", null); vars.Add("title", null); if (_config.detectHDCD && _config.decodeHDCD && (!_outputLossyWAV || !_config.decodeHDCDtoLW16)) { if (_config.decodeHDCDto24bit) extension = ".24bit" + extension; else extension = ".20bit" + extension; } for (int maxLen = 255; maxLen >= 8; maxLen--) { ArLogFileName = General.ReplaceMultiple(_config.ArLogFilenameFormat, vars, "unique", CheckIfFileExists, maxLen); if (ArLogFileName == "" || ArLogFileName == null) { ArLogFileName = "ar.log"; break; } if (Path.Combine(OutputDir, ArLogFileName).Length < 255) break; } AlArtFileName = General.ReplaceMultiple(_config.AlArtFilenameFormat, vars, "unique", CheckIfFileExists, -1) ?? "folder.jpg"; if (OutputStyle == CUEStyle.SingleFileWithCUE) SingleFilename = Path.ChangeExtension(Path.GetFileName(outputPath), extension); else if (_config.keepOriginalFilenames && HasSingleFilename) SingleFilename = Path.ChangeExtension(SingleFilename, extension); else SingleFilename = (General.ReplaceMultiple(_config.singleFilenameFormat, vars, -1) ?? "range") + extension; for (iTrack = -1; iTrack < TrackCount; iTrack++) { bool htoa = (iTrack == -1); if (_config.keepOriginalFilenames && htoa && HasHTOAFilename) { HTOAFilename = Path.ChangeExtension(HTOAFilename, extension); } else if (_config.keepOriginalFilenames && !htoa && HasTrackFilenames) { TrackFilenames[iTrack] = Path.ChangeExtension( TrackFilenames[iTrack], extension); } else { string trackStr = htoa ? "00" : String.Format("{0:00}", iTrack + 1); string artist = Metadata.Tracks[htoa ? 0 : iTrack].Artist; string title = htoa ? "(HTOA)" : Metadata.Tracks[iTrack].Title; vars["tracknumber"] = trackStr; vars["artist"] = General.EmptyStringToNull(_config.CleanseString(artist)) ?? vars["album artist"]; vars["title"] = General.EmptyStringToNull(_config.CleanseString(title)); filename = ""; for (int maxLen = 255; maxLen >= 8; maxLen--) { filename = General.ReplaceMultiple(_config.trackFilenameFormat, vars, maxLen); if (filename == "" || filename == null) { filename = vars["tracknumber"]; break; } if (OutputDir.Length + filename.Length < 255) break; } filename = filename + extension; if (htoa) HTOAFilename = filename; else TrackFilenames[iTrack] = filename; } } if (OutputStyle == CUEStyle.SingleFile || OutputStyle == CUEStyle.SingleFileWithCUE) { _destPaths = new string[1]; _destPaths[0] = Path.Combine(OutputDir, _singleFilename); } else { bool htoaToFile = ((OutputStyle == CUEStyle.GapsAppended) && _config.preserveHTOA && (_toc.Pregap != 0)); _destPaths = new string[TrackCount + (htoaToFile ? 1 : 0)]; if (htoaToFile) _destPaths[0] = Path.Combine(OutputDir, _htoaFilename); for (int i = 0; i < TrackCount; i++) _destPaths[i + (htoaToFile ? 1 : 0)] = Path.Combine(OutputDir, _trackFilenames[i]); } }
static extern bool gst_video_editor_set_encoding_format (IntPtr raw, string output_file, VideoEncoderType video_codec, AudioEncoderType audio_codec, VideoMuxerType muxer, uint video_quality, uint audio_quality, uint width, uint height, uint fps_n, uint fps_d, bool enable_audio, bool enable_video);
public bool SetAudioEncoder(AudioEncoderType type) { IntPtr error = IntPtr.Zero; bool raw_ret = gst_camera_capturer_set_audio_encoder(Handle, (int) type, out error); if (error != IntPtr.Zero) throw new GLib.GException (error); bool ret = raw_ret; return ret; }
static int Main(string[] args) { bool ok = true; string sourceFile = null, destFile = null; int padding = 8192; string encoderMode = null; string decoderName = null; string encoderName = null; string encoderFormat = null; bool ignore_chunk_sizes = false; AudioEncoderType audioEncoderType = AudioEncoderType.NoAudio; var decoderOptions = new Dictionary <string, string>(); for (int arg = 0; arg < args.Length; arg++) { if (args[arg].Length == 0) { ok = false; } else if (args[arg] == "--ignore-chunk-sizes") { ignore_chunk_sizes = true; } else if (args[arg] == "--decoder" && ++arg < args.Length) { decoderName = args[arg]; } else if (args[arg] == "--decoder-option" && arg + 2 < args.Length) { var optionName = args[++arg]; var optionValue = args[++arg]; decoderOptions.Add(optionName, optionValue); } else if (args[arg] == "--encoder" && ++arg < args.Length) { encoderName = args[arg]; } else if (args[arg] == "--encoder-format" && ++arg < args.Length) { encoderFormat = args[arg]; } else if ((args[arg] == "-p" || args[arg] == "--padding") && ++arg < args.Length) { ok = int.TryParse(args[arg], out padding); } else if ((args[arg] == "-m" || args[arg] == "--mode") && ++arg < args.Length) { encoderMode = args[arg]; } else if (args[arg] == "--lossy") { audioEncoderType = AudioEncoderType.Lossy; } else if (args[arg] == "--lossless") { audioEncoderType = AudioEncoderType.Lossless; } else if ((args[arg][0] != '-' || args[arg] == "-") && sourceFile == null) { sourceFile = args[arg]; } else if ((args[arg][0] != '-' || args[arg] == "-") && sourceFile != null && destFile == null) { destFile = args[arg]; } else { ok = false; } if (!ok) { break; } } Console.Error.WriteLine("CUETools.Converter, Copyright (C) 2009-2020 Grigory Chudov."); Console.Error.WriteLine("This is free software under the GNU GPLv3+ license; There is NO WARRANTY, to"); Console.Error.WriteLine("the extent permitted by law. <http://www.gnu.org/licenses/> for details."); if (!ok || sourceFile == null || destFile == null) { Usage(); return(22); } if (destFile != "-" && destFile != "nul" && File.Exists(destFile)) { Console.Error.WriteLine("Error: file already exists."); return(17); } DateTime start = DateTime.Now; TimeSpan lastPrint = TimeSpan.FromMilliseconds(0); var config = new CUEConfigAdvanced(); config.Init(); #if !DEBUG try #endif { IAudioSource audioSource = null; IAudioDest audioDest = null; TagLib.UserDefined.AdditionalFileTypes.Config = config; TagLib.File sourceInfo = sourceFile == "-" ? null : TagLib.File.Create(new TagLib.File.LocalFileAbstraction(sourceFile)); #if !DEBUG try #endif { audioSource = Program.GetAudioSource(config, sourceFile, decoderName, ignore_chunk_sizes, decoderOptions); AudioBuffer buff = new AudioBuffer(audioSource, 0x10000); Console.Error.WriteLine("Filename : {0}", sourceFile); Console.Error.WriteLine("File Info : {0}kHz; {1} channel; {2} bit; {3}", audioSource.PCM.SampleRate, audioSource.PCM.ChannelCount, audioSource.PCM.BitsPerSample, audioSource.Duration); CUEToolsFormat fmt; if (encoderFormat == null) { if (destFile == "-" || destFile == "nul") { encoderFormat = "wav"; } else { string extension = Path.GetExtension(destFile).ToLower(); if (!extension.StartsWith(".")) { throw new Exception("Unknown encoder format: " + destFile); } encoderFormat = extension.Substring(1); } } if (!config.formats.TryGetValue(encoderFormat, out fmt)) { throw new Exception("Unsupported encoder format: " + encoderFormat); } AudioEncoderSettingsViewModel encoder = audioEncoderType == AudioEncoderType.Lossless ? Program.GetEncoder(config, fmt, true, encoderName) : audioEncoderType == AudioEncoderType.Lossy ? Program.GetEncoder(config, fmt, false, encoderName) : Program.GetEncoder(config, fmt, true, encoderName) ?? Program.GetEncoder(config, fmt, false, encoderName); if (encoder == null) { var lst = new List <AudioEncoderSettingsViewModel>(config.encodersViewModel).FindAll( e => e.Extension == fmt.extension && (audioEncoderType == AudioEncoderType.NoAudio || audioEncoderType == (e.Lossless ? AudioEncoderType.Lossless : AudioEncoderType.Lossy))). ConvertAll(e => e.Name + (e.Lossless ? " (lossless)" : " (lossy)")); throw new Exception("Encoders available for format " + fmt.extension + ": " + (lst.Count == 0 ? "none" : string.Join(", ", lst.ToArray()))); } var settings = encoder.Settings.Clone(); settings.PCM = audioSource.PCM; settings.Padding = padding; settings.EncoderMode = encoderMode ?? settings.EncoderMode; object o = null; try { o = destFile == "-" ? Activator.CreateInstance(settings.EncoderType, settings, "", Console.OpenStandardOutput()) : destFile == "nul" ? Activator.CreateInstance(settings.EncoderType, settings, "", new NullStream()) : Activator.CreateInstance(settings.EncoderType, settings, destFile, null); } catch (System.Reflection.TargetInvocationException ex) { throw ex.InnerException; } if (o == null || !(o is IAudioDest)) { throw new Exception("Unsupported audio type: " + destFile + ": " + settings.EncoderType.FullName); } audioDest = o as IAudioDest; audioDest.FinalSampleCount = audioSource.Length; bool keepRunning = true; Console.CancelKeyPress += delegate(object sender, ConsoleCancelEventArgs e) { keepRunning = false; if (e.SpecialKey == ConsoleSpecialKey.ControlC) { e.Cancel = true; } else { audioDest.Delete(); } }; while (audioSource.Read(buff, -1) != 0) { audioDest.Write(buff); TimeSpan elapsed = DateTime.Now - start; if ((elapsed - lastPrint).TotalMilliseconds > 60) { var duration = audioSource.Duration; var position = TimeSpan.FromSeconds((double)audioSource.Position / audioSource.PCM.SampleRate); if (duration == TimeSpan.Zero && sourceInfo != null) { duration = sourceInfo.Properties.Duration; } if (duration < position) { duration = position; } if (duration < TimeSpan.FromSeconds(1)) { duration = TimeSpan.FromSeconds(1); } Console.Error.Write("\rProgress : {0:00}%; {1:0.00}x; {2}/{3}", 100.0 * position.TotalSeconds / duration.TotalSeconds, position.TotalSeconds / elapsed.TotalSeconds, elapsed, TimeSpan.FromSeconds(elapsed.TotalSeconds / position.TotalSeconds * duration.TotalSeconds) ); lastPrint = elapsed; } if (!keepRunning) { throw new Exception("Aborted"); } } TimeSpan totalElapsed = DateTime.Now - start; Console.Error.Write("\r \r"); Console.Error.WriteLine("Results : {0:0.00}x; {1}", audioSource.Position / totalElapsed.TotalSeconds / audioSource.PCM.SampleRate, totalElapsed ); } #if !DEBUG catch (Exception ex) { if (audioSource != null) { audioSource.Close(); } if (audioDest != null) { audioDest.Delete(); } throw ex; } #endif audioSource.Close(); audioDest.Close(); if (sourceFile != "-" && destFile != "-" && destFile != "nul") { TagLib.File destInfo = TagLib.File.Create(new TagLib.File.LocalFileAbstraction(destFile)); if (Tagging.UpdateTags(destInfo, Tagging.Analyze(sourceInfo), config, false)) { sourceInfo.Tag.CopyTo(destInfo.Tag, true); destInfo.Tag.Pictures = sourceInfo.Tag.Pictures; destInfo.Save(); } } } #if !DEBUG catch (Exception ex) { Console.Error.Write("\r \r"); Console.Error.WriteLine("Error : {0}", ex.Message); return(1); //Console.WriteLine("{0}", ex.StackTrace); } #endif return(0); }
public void SetAudioEncoder(out string error, AudioEncoderType codec) { IntPtr error_ptr = IntPtr.Zero; gst_video_editor_set_audio_encoder(Handle,out error_ptr,(int)codec); if(error_ptr != IntPtr.Zero) error = GLib.Marshaller.Utf8PtrToString(error_ptr); else error = null; }
static int Main(string[] args) { bool ok = true; string sourceFile = null, destFile = null; int padding = 8192; int stream = 0; string encoderMode = null; string encoderName = null; string encoderFormat = null; AudioEncoderType audioEncoderType = AudioEncoderType.NoAudio; var decoderOptions = new Dictionary <string, string>(); bool queryMeta = false; for (int arg = 0; arg < args.Length; arg++) { if (args[arg].Length == 0) { ok = false; } else if (args[arg] == "--encoder" && ++arg < args.Length) { encoderName = args[arg]; } else if (args[arg] == "--encoder-format" && ++arg < args.Length) { encoderFormat = args[arg]; } else if ((args[arg] == "-p" || args[arg] == "--padding") && ++arg < args.Length) { ok = int.TryParse(args[arg], out padding); } else if ((args[arg] == "-m" || args[arg] == "--mode") && arg + 1 < args.Length) { encoderMode = args[++arg]; } else if (args[arg] == "--lossy") { audioEncoderType = AudioEncoderType.Lossy; } else if (args[arg] == "--lossless") { audioEncoderType = AudioEncoderType.Lossless; } else if (args[arg] == "--ctdb") { queryMeta = true; } else if (args[arg] == "--decoder-option" && arg + 2 < args.Length) { var optionName = args[++arg]; var optionValue = args[++arg]; decoderOptions.Add(optionName, optionValue); } else if ((args[arg][0] != '-' || args[arg] == "-") && sourceFile == null) { sourceFile = args[arg]; } else if ((args[arg][0] != '-' || args[arg] == "-") && sourceFile != null && destFile == null) { destFile = args[arg]; var x = destFile.Split(':'); if (x.Length > 1) { stream = int.Parse(x[0]); if (x[1] != "") { destFile = x[1]; } else { arg++; if (arg >= args.Length) { ok = false; break; } destFile = args[arg]; } } } else { ok = false; } if (!ok) { break; } } if (!ok || sourceFile == null) { Usage(); return(22); } if (destFile != null && destFile != "-" && destFile != "nul" && File.Exists(destFile)) { Console.Error.WriteLine("Error: file {0} already exists.", destFile); return(17); } DateTime start = DateTime.Now; TimeSpan lastPrint = TimeSpan.FromMilliseconds(0); var config = new CUEConfigAdvanced(); config.Init(); #if !DEBUG try #endif { IAudioSource audioSource = null; IAudioTitleSet audioContainer = null; IAudioDest audioDest = null; var videos = new List <Codecs.MPEG.MPLS.MPLSStream>(); List <IAudioTitle> audios = null; List <TimeSpan> chapters = null; TagLib.UserDefined.AdditionalFileTypes.Config = config; #if !DEBUG try #endif { if (true) { IAudioDecoderSettings decoderSettings = null; if (Path.GetExtension(sourceFile) == ".mpls") { decoderSettings = new Codecs.MPEG.MPLS.DecoderSettings(); } else { decoderSettings = new Codecs.MPEG.ATSI.DecoderSettings(); } foreach (var decOpt in decoderOptions) { var property = TypeDescriptor.GetProperties(decoderSettings).Find(decOpt.Key, true); if (property == null) { throw new Exception($"{decoderSettings.Name} {decoderSettings.Extension} decoder settings object (of type {decoderSettings.GetType().FullName}) doesn't have a property named {decOpt.Key}."); } property.SetValue(decoderSettings, TypeDescriptor.GetConverter(property.PropertyType).ConvertFromString(decOpt.Value)); } audioSource = decoderSettings.Open(sourceFile); audioContainer = audioSource as IAudioTitleSet; if (audioContainer == null) { audioContainer = new SingleAudioTitleSet(audioSource); } Console.ForegroundColor = ConsoleColor.White; int frameRate = 0; bool interlaced = false; audios = audioContainer.AudioTitles; audios.ForEach(t => chapters = t.Chapters); if (audioSource is Codecs.MPEG.MPLS.AudioDecoder) { var mpls = audioSource as Codecs.MPEG.MPLS.AudioDecoder; mpls.MPLSHeader.play_item.ForEach(i => i.video.ForEach(v => { if (!videos.Exists(v1 => v1.pid == v.pid)) { videos.Add(v); } })); } videos.ForEach(v => { frameRate = v.FrameRate; interlaced = v.Interlaced; }); Console.Error.Write($@"M2TS, { videos.Count} video track{(videos.Count != 1 ? "s" : "")}, { audios.Count} audio track{(audios.Count != 1 ? "s" : "")}, { CDImageLayout.TimeToString(audios[0].GetDuration(), "{0:0}:{1:00}:{2:00}")}, { (frameRate * (interlaced ? 2 : 1))}{ (interlaced ? "i" : "p")}"); Console.Error.WriteLine(); //foreach (var item in mpls.MPLSHeader.play_item) //Console.Error.WriteLine("{0}.m2ts", item.clip_id); { Console.ForegroundColor = ConsoleColor.Gray; int id = 1; if (chapters.Count > 1) { Console.ForegroundColor = ConsoleColor.White; Console.Error.Write(id++); Console.Error.Write(": "); Console.ForegroundColor = ConsoleColor.Gray; Console.Error.WriteLine("Chapters, {0} chapters", chapters.Count - 1); } foreach (var video in videos) { Console.ForegroundColor = ConsoleColor.White; Console.Error.Write(id++); Console.Error.Write(": "); Console.ForegroundColor = ConsoleColor.Gray; Console.Error.WriteLine("{0}, {1}{2}", video.CodecString, video.FormatString, video.FrameRate * (video.Interlaced ? 2 : 1)); } foreach (var audio in audios) { Console.ForegroundColor = ConsoleColor.White; Console.Error.Write(id++); Console.Error.Write(": "); Console.ForegroundColor = ConsoleColor.Gray; Console.Error.WriteLine("{0}, {1}, {2}, {3}", audio.Codec, audio.Language, audio.GetFormatString(), audio.GetRateString()); } } } if (destFile == null) { return(0); } string strtoc = ""; for (int i = 0; i < chapters.Count; i++) { strtoc += string.Format(" {0}", (int)Math.Round((chapters[i].TotalSeconds * 75))); } strtoc = strtoc.Substring(1); CDImageLayout toc = new CDImageLayout(strtoc); CTDBResponseMeta meta = null; if (queryMeta) { var ctdb = new CUEToolsDB(toc, null); Console.Error.WriteLine("Contacting CTDB..."); ctdb.ContactDB(null, "CUETools.eac3to 2.1.8", "", false, true, CTDBMetadataSearch.Extensive); foreach (var imeta in ctdb.Metadata) { meta = imeta; break; } } if (stream > 0) { int chapterStreams = chapters.Count > 1 ? 1 : 0; if (stream <= chapterStreams) { if (destFile == "-" || destFile == "nul") { encoderFormat = "txt"; } else { string extension = Path.GetExtension(destFile).ToLower(); if (!extension.StartsWith(".")) { encoderFormat = destFile; if (meta == null || meta.artist == null || meta.album == null) { destFile = string.Format("{0}.{1}", Path.GetFileNameWithoutExtension(sourceFile), destFile); } else { destFile = string.Format("{0} - {1} - {2}.{3}", meta.artist, meta.year, meta.album, destFile); } } else { encoderFormat = extension.Substring(1); } if (encoderFormat != "txt" && encoderFormat != "cue") { throw new Exception(string.Format("Unsupported chapters file format \"{0}\"", encoderFormat)); } } Console.Error.WriteLine("Creating file \"{0}\"...", destFile); if (encoderFormat == "txt") { using (TextWriter sw = destFile == "nul" ? (TextWriter) new StringWriter() : destFile == "-" ? Console.Out : (TextWriter) new StreamWriter(destFile)) { for (int i = 0; i < chapters.Count - 1; i++) { sw.WriteLine("CHAPTER{0:00}={1}", i + 1, CDImageLayout.TimeToString(chapters[i])); if (meta != null && meta.track.Length >= toc[i + 1].Number) { sw.WriteLine("CHAPTER{0:00}NAME={1}", i + 1, meta.track[(int)toc[i + 1].Number - 1].name); } else { sw.WriteLine("CHAPTER{0:00}NAME=", i + 1); } } } Console.BackgroundColor = ConsoleColor.DarkGreen; Console.Error.Write("Done."); Console.BackgroundColor = ConsoleColor.Black; Console.Error.WriteLine(); return(0); } if (encoderFormat == "cue") { using (StreamWriter cueWriter = new StreamWriter(destFile, false, Encoding.UTF8)) { cueWriter.WriteLine("REM COMMENT \"{0}\"", "Created by CUETools.eac3to"); if (meta != null && meta.year != null) { cueWriter.WriteLine("REM DATE {0}", meta.year); } else { cueWriter.WriteLine("REM DATE XXXX"); } if (meta != null) { cueWriter.WriteLine("PERFORMER \"{0}\"", meta.artist); cueWriter.WriteLine("TITLE \"{0}\"", meta.album); } else { cueWriter.WriteLine("PERFORMER \"\""); cueWriter.WriteLine("TITLE \"\""); } if (meta != null) { //cueWriter.WriteLine("FILE \"{0}\" WAVE", Path.GetFileNameWithoutExtension(destFile) + (extension ?? ".wav")); cueWriter.WriteLine("FILE \"{0}\" WAVE", Path.GetFileNameWithoutExtension(destFile) + (".wav")); } else { cueWriter.WriteLine("FILE \"{0}\" WAVE", ""); } for (int track = 1; track <= toc.TrackCount; track++) { if (toc[track].IsAudio) { cueWriter.WriteLine(" TRACK {0:00} AUDIO", toc[track].Number); if (meta != null && meta.track.Length >= toc[track].Number) { cueWriter.WriteLine(" TITLE \"{0}\"", meta.track[(int)toc[track].Number - 1].name); if (meta.track[(int)toc[track].Number - 1].artist != null) { cueWriter.WriteLine(" PERFORMER \"{0}\"", meta.track[(int)toc[track].Number - 1].artist); } } else { cueWriter.WriteLine(" TITLE \"\""); } if (toc[track].ISRC != null) { cueWriter.WriteLine(" ISRC {0}", toc[track].ISRC); } for (int index = toc[track].Pregap > 0 ? 0 : 1; index <= toc[track].LastIndex; index++) { cueWriter.WriteLine(" INDEX {0:00} {1}", index, toc[track][index].MSF); } } } } Console.BackgroundColor = ConsoleColor.DarkGreen; Console.Error.Write("Done."); Console.BackgroundColor = ConsoleColor.Black; Console.Error.WriteLine(); return(0); } throw new Exception("Unknown encoder format: " + destFile); } if (stream - chapterStreams <= videos.Count) { throw new Exception("Video extraction not supported."); } if (stream - chapterStreams - videos.Count > audios.Count) { throw new Exception(string.Format("The source file doesn't contain a track with the number {0}.", stream)); } int streamId = audios[stream - chapterStreams - videos.Count - 1].StreamId; if (audioSource is Codecs.MPEG.MPLS.AudioDecoder) { (audioSource.Settings as Codecs.MPEG.MPLS.DecoderSettings).StreamId = streamId; } } AudioBuffer buff = new AudioBuffer(audioSource, 0x10000); Console.Error.WriteLine("Filename : {0}", sourceFile); Console.Error.WriteLine("File Info : {0}kHz; {1} channel; {2} bit; {3}", audioSource.PCM.SampleRate, audioSource.PCM.ChannelCount, audioSource.PCM.BitsPerSample, audioSource.Duration); CUEToolsFormat fmt; if (encoderFormat == null) { if (destFile == "-" || destFile == "nul") { encoderFormat = "wav"; } else { string extension = Path.GetExtension(destFile).ToLower(); if (!extension.StartsWith(".")) { encoderFormat = destFile; if (meta == null || meta.artist == null || meta.album == null) { destFile = string.Format("{0} - {1}.{2}", Path.GetFileNameWithoutExtension(sourceFile), stream, destFile); } else { destFile = string.Format("{0} - {1} - {2}.{3}", meta.artist, meta.year, meta.album, destFile); } } else { encoderFormat = extension.Substring(1); } if (File.Exists(destFile)) { throw new Exception(string.Format("Error: file {0} already exists.", destFile)); } } } if (!config.formats.TryGetValue(encoderFormat, out fmt)) { throw new Exception("Unsupported encoder format: " + encoderFormat); } AudioEncoderSettingsViewModel encoder = audioEncoderType == AudioEncoderType.Lossless ? Program.GetEncoder(config, fmt, true, encoderName) : audioEncoderType == AudioEncoderType.Lossy ? Program.GetEncoder(config, fmt, false, encoderName) : Program.GetEncoder(config, fmt, true, encoderName) ?? Program.GetEncoder(config, fmt, false, encoderName); if (encoder == null) { var lst = new List <AudioEncoderSettingsViewModel>(config.encodersViewModel).FindAll( e => e.Extension == fmt.extension && (audioEncoderType == AudioEncoderType.NoAudio || audioEncoderType == (e.Lossless ? AudioEncoderType.Lossless : AudioEncoderType.Lossy))). ConvertAll(e => e.Name + (e.Lossless ? " (lossless)" : " (lossy)")); throw new Exception("Encoders available for format " + fmt.extension + ": " + (lst.Count == 0 ? "none" : string.Join(", ", lst.ToArray()))); } Console.Error.WriteLine("Output {0} : {1}", stream, destFile); var settings = encoder.Settings.Clone(); settings.PCM = audioSource.PCM; settings.Padding = padding; settings.EncoderMode = encoderMode ?? settings.EncoderMode; object o = null; try { o = destFile == "-" ? Activator.CreateInstance(settings.EncoderType, settings, "", Console.OpenStandardOutput()) : destFile == "nul" ? Activator.CreateInstance(settings.EncoderType, settings, "", new NullStream()) : Activator.CreateInstance(settings.EncoderType, settings, destFile, null); } catch (System.Reflection.TargetInvocationException ex) { throw ex.InnerException; } if (o == null || !(o is IAudioDest)) { throw new Exception("Unsupported audio type: " + destFile + ": " + settings.EncoderType.FullName); } audioDest = o as IAudioDest; audioDest.FinalSampleCount = audioSource.Length; bool keepRunning = true; Console.CancelKeyPress += delegate(object sender, ConsoleCancelEventArgs e) { keepRunning = false; if (e.SpecialKey == ConsoleSpecialKey.ControlC) { e.Cancel = true; } else { audioDest.Delete(); } }; while (audioSource.Read(buff, -1) != 0) { audioDest.Write(buff); TimeSpan elapsed = DateTime.Now - start; if ((elapsed - lastPrint).TotalMilliseconds > 60) { var duration = audioSource.Duration; var position = TimeSpan.FromSeconds((double)audioSource.Position / audioSource.PCM.SampleRate); if (duration < position) { duration = position; } if (duration < TimeSpan.FromSeconds(1)) { duration = TimeSpan.FromSeconds(1); } Console.Error.Write("\rProgress : {0:00}%; {1:0.00}x; {2}/{3}", 100.0 * position.TotalSeconds / duration.TotalSeconds, position.TotalSeconds / elapsed.TotalSeconds, elapsed, TimeSpan.FromSeconds(elapsed.TotalSeconds / position.TotalSeconds * duration.TotalSeconds) ); lastPrint = elapsed; } if (!keepRunning) { throw new Exception("Aborted"); } } TimeSpan totalElapsed = DateTime.Now - start; Console.Error.Write("\r \r"); Console.Error.WriteLine("Results : {0:0.00}x; {1}", audioSource.Position / totalElapsed.TotalSeconds / audioSource.PCM.SampleRate, totalElapsed ); } #if !DEBUG catch (Exception ex) { if (audioSource != null) { audioSource.Close(); } if (audioDest != null) { audioDest.Delete(); } throw ex; } #endif audioSource.Close(); audioDest.Close(); if (sourceFile != "-" && destFile != "-" && destFile != "nul") { //TagLib.File destInfo = TagLib.File.Create(new TagLib.File.LocalFileAbstraction(destFile)); //NameValueCollection tags; //if (Tagging.UpdateTags(destInfo, tags, config, false)) //{ // destInfo.Save(); //} } } #if !DEBUG catch (Exception ex) { Console.Error.Write("\r \r"); Console.BackgroundColor = ConsoleColor.DarkRed; Console.Error.Write("Error : {0}", ex.Message); Console.BackgroundColor = ConsoleColor.Black; Console.Error.WriteLine(); return(1); //Console.WriteLine("{0}", ex.StackTrace); } #endif return(0); }
public bool SetAudioEncoder(AudioEncoderType type) { return true; }
public bool SetAudioEncoder(AudioEncoderType type) { return(true); }