/// <summary> /// Add an audio track /// </summary> /// <param name="xmlWriter"> /// The xml writer. /// </param> /// <param name="audioTrack"> /// The audio track. /// </param> private static void AddAudioItem(XmlTextWriter xmlWriter, AudioTrack audioTrack) { xmlWriter.WriteStartElement("dict"); xmlWriter.WriteElementString("key", "AudioBitrate"); xmlWriter.WriteElementString("string", audioTrack.Bitrate.ToString()); xmlWriter.WriteElementString("key", "AudioEncoder"); xmlWriter.WriteElementString("string", EnumHelper<AudioEncoder>.GetDisplay(audioTrack.Encoder)); xmlWriter.WriteElementString("key", "AudioMixdown"); xmlWriter.WriteElementString("string", EnumHelper<Mixdown>.GetDisplay(audioTrack.MixDown)); xmlWriter.WriteElementString("key", "AudioSamplerate"); xmlWriter.WriteElementString("string", audioTrack.SampleRate.ToString().Replace("0", "Auto")); xmlWriter.WriteElementString("key", "AudioTrack"); xmlWriter.WriteElementString("integer", audioTrack.Track.ToString()); xmlWriter.WriteElementString("key", "AudioTrackDRCSlider"); xmlWriter.WriteElementString("real", audioTrack.DRC.ToString()); xmlWriter.WriteElementString("key", "AudioTrackDescription"); xmlWriter.WriteElementString("string", "Unknown"); xmlWriter.WriteElementString("key", "AudioTrackGainSlider"); xmlWriter.WriteElementString("real", audioTrack.Gain.ToString()); xmlWriter.WriteEndElement(); }
/// <summary> /// Parse an audio track's parameters. /// </summary> /// <param name="audioTrack"> /// The audio track params /// </param> /// <returns> /// An <see cref="AudioTrack"/> Object /// </returns> private static AudioTrack ParseAudioTrackParameters(Dictionary<string, dynamic> audioTrack) { AudioTrack track = new AudioTrack(); foreach (var item in audioTrack) { switch (item.Key) { case "AudioBitrate": track.Bitrate = int.Parse(item.Value); break; case "AudioEncoder": track.Encoder = Converters.GetAudioEncoder(item.Value.Trim()); break; case "AudioMixdown": track.MixDown = Converters.GetAudioMixDown(item.Value.Trim()); break; case "AudioSamplerate": track.SampleRate = item.Value == "Auto" ? 0 : double.Parse(item.Value, CultureInfo.InvariantCulture); break; case "AudioTrack": // track.SourceTrack = value; We don't do anything with this one. break; case "AudioTrackDRCSlider": track.DRC = double.Parse(item.Value.ToString(), CultureInfo.InvariantCulture); break; case "AudioTrackGainSlider": track.Gain = int.Parse(item.Value.ToString(), CultureInfo.InvariantCulture); break; } } return track; }
/// <summary> /// Takes in a query which can be in any order and parses it. /// All varibles are then set so they can be used elsewhere. /// </summary> /// <param name="input">A ClI Query</param> /// <returns>A Parsed Query</returns> public static EncodeTask Parse(string input) { var parsed = new EncodeTask(); #region Regular Expressions // Source Match title = Regex.Match(input, @"-t ([0-9]*)"); Match chapters = Regex.Match(input, @"-c ([0-9-]*)"); // Output Settings Match format = Regex.Match(input, @"-f ([a-zA-Z0-9]*)"); Match grayscale = Regex.Match(input, @" -g"); Match largerMp4 = Regex.Match(input, @" -4"); Match ipodAtom = Regex.Match(input, @" -I"); // Picture Settings Tab Match width = Regex.Match(input, @"-w ([0-9]*)"); Match height = Regex.Match(input, @"-l ([0-9]*)"); Match maxWidth = Regex.Match(input, @"-X ([0-9]*)"); Match maxHeight = Regex.Match(input, @"-Y ([0-9]*)"); Match crop = Regex.Match(input, @"--crop ([0-9]*):([0-9]*):([0-9]*):([0-9]*)"); Match looseAnamorphic = Regex.Match(input, @"--loose-anamorphic"); Match strictAnamorphic = Regex.Match(input, @"--strict-anamorphic"); Match customAnamorphic = Regex.Match(input, @"--custom-anamorphic"); Match keepDisplayAsect = Regex.Match(input, @"--keep-display-aspect"); Match displayWidth = Regex.Match(input, @"--display-width ([0-9]*)"); Match pixelAspect = Regex.Match(input, @"--pixel-aspect ([0-9]*):([0-9]*)"); Match modulus = Regex.Match(input, @"--modulus ([0-9]*)"); // Picture Settings - Filters Match decomb = Regex.Match(input, @" --decomb"); Match decombValue = Regex.Match(input, @" --decomb=\""([a-zA-Z0-9.:]*)\"""); Match deinterlace = Regex.Match(input, @"--deinterlace=\""([a-zA-Z0-9.:]*)\"""); Match denoise = Regex.Match(input, @"--denoise=\""([a-zA-Z0-9.:]*)\"""); Match deblock = Regex.Match(input, @"--deblock=([0-9:]*)"); Match detelecine = Regex.Match(input, @"--detelecine"); Match detelecineValue = Regex.Match(input, @" --detelecine=\""([a-zA-Z0-9.:]*)\"""); // Video Settings Tab Match videoEncoder = Regex.Match(input, @"-e ([a-zA-Z0-9]*)"); Match videoFramerate = Regex.Match(input, @"-r ([0-9.]*)"); Match videoBitrate = Regex.Match(input, @"-b ([0-9]*)"); Match videoQuality = Regex.Match(input, @"-q ([0-9.]*)"); Match twoPass = Regex.Match(input, @" -2"); Match turboFirstPass = Regex.Match(input, @" -T"); Match optimizeMP4 = Regex.Match(input, @" -O"); Match pfr = Regex.Match(input, @" --pfr"); Match vfr = Regex.Match(input, @" --vfr"); Match cfr = Regex.Match(input, @" --cfr"); // Audio Settings Tab Match noAudio = Regex.Match(input, @"-a none"); Match audioTracks = Regex.Match(input, @"-a ([0-9,]*)"); Match audioTrackMixes = Regex.Match(input, @"-6 ([0-9a-zA-Z,]*)"); Match audioEncoders = Regex.Match(input, @"-E ([a-zA-Z0-9+,:]*)"); Match audioBitrates = Regex.Match(input, @"-B ([0-9a-zA-Z,]*)"); // Auto = a-z Match audioSampleRates = Regex.Match(input, @"-R ([0-9a-zA-Z.,]*)"); // Auto = a-z Match drcValues = Regex.Match(input, @"-D ([0-9.,]*)"); Match gainValues = Regex.Match(input, @"--gain=([0-9.,-]*)"); // Chapters Tab Match chapterMarkers = Regex.Match(input, @" -m"); Match chapterMarkersFileMode = Regex.Match(input, @"--markers"); // Advanced Tab Match advanced = Regex.Match(input, @"-x ([.,/a-zA-Z0-9=:-]*)"); #endregion #region Set Varibles try { #region Source Tab if (title.Success) { parsed.Title = int.Parse(title.ToString().Replace("-t ", string.Empty)); } if (chapters.Success) { parsed.PointToPointMode = PointToPointMode.Chapters; string[] actTitles = chapters.ToString().Replace("-c ", string.Empty).Split('-'); parsed.StartPoint = int.Parse(actTitles[0]); if (actTitles.Length > 1) { parsed.EndPoint = int.Parse(actTitles[1]); } if ((parsed.StartPoint == 1) && (parsed.EndPoint == 0)) { parsed.EndPoint = parsed.StartPoint; } } #endregion #region Output Settings if (format.Success) { parsed.OutputFormat = Converters.GetFileFormat(format.Groups[1].ToString()); } parsed.LargeFile = largerMp4.Success; parsed.IPod5GSupport = ipodAtom.Success; parsed.OptimizeMP4 = optimizeMP4.Success; #endregion #region Picture Tab if (width.Success) parsed.Width = int.Parse(width.Groups[0].Value.Replace("-w ", string.Empty)); if (height.Success) parsed.Height = int.Parse(height.Groups[0].Value.Replace("-l ", string.Empty)); if (maxWidth.Success) parsed.MaxWidth = int.Parse(maxWidth.Groups[0].Value.Replace("-X ", string.Empty)); if (maxHeight.Success) parsed.MaxHeight = int.Parse(maxHeight.Groups[0].Value.Replace("-Y ", string.Empty)); if (crop.Success) { try { string values = crop.ToString().Replace("--crop ", string.Empty); string[] actCropValues = values.Split(':'); parsed.Cropping = new Cropping( int.Parse(actCropValues[0]), int.Parse(actCropValues[1]), int.Parse(actCropValues[2]), int.Parse(actCropValues[3])); } catch (Exception) { // No need to do anything. } } if (strictAnamorphic.Success) parsed.Anamorphic = Anamorphic.Strict; else if (looseAnamorphic.Success) parsed.Anamorphic = Anamorphic.Loose; else if (customAnamorphic.Success) parsed.Anamorphic = Anamorphic.Custom; else parsed.Anamorphic = Anamorphic.None; parsed.KeepDisplayAspect = keepDisplayAsect.Success; if (displayWidth.Success) parsed.DisplayWidth = double.Parse(displayWidth.Groups[0].Value.Replace("--display-width ", string.Empty), Culture); if (pixelAspect.Success) parsed.PixelAspectX = int.Parse(pixelAspect.Groups[1].Value.Replace("--pixel-aspect ", string.Empty)); if (pixelAspect.Success && pixelAspect.Groups.Count >= 3) parsed.PixelAspectY = int.Parse(pixelAspect.Groups[2].Value.Replace("--pixel-aspect ", string.Empty)); if (modulus.Success) parsed.Modulus = int.Parse(modulus.Groups[0].Value.Replace("--modulus ", string.Empty)); #endregion #region Filters parsed.Decomb = Decomb.Off; if (decomb.Success) { parsed.Decomb = Decomb.Default; if (decombValue.Success) { parsed.CustomDecomb = decombValue.ToString().Replace("--decomb=", string.Empty).Replace("\"", string.Empty); } } parsed.Deinterlace = Deinterlace.Off; if (deinterlace.Success) { switch (deinterlace.ToString().Replace("--deinterlace=", string.Empty).Replace("\"", string.Empty).ToLower()) { case "fast": parsed.Deinterlace = Deinterlace.Fast; break; case "slow": parsed.Deinterlace = Deinterlace.Slow; break; case "slower": parsed.Deinterlace = Deinterlace.Slower; break; default: parsed.Deinterlace = Deinterlace.Custom; parsed.CustomDeinterlace = deinterlace.ToString().Replace("--deinterlace=", string.Empty).Replace("\"", string.Empty).ToLower(); break; } } parsed.Denoise = Denoise.Off; if (denoise.Success) { switch (denoise.ToString().Replace("--denoise=", string.Empty).Replace("\"", string.Empty)) { case "weak": parsed.Denoise = Denoise.Weak; break; case "medium": parsed.Denoise = Denoise.Medium; break; case "strong": parsed.Denoise = Denoise.Strong; break; default: parsed.Denoise = Denoise.Custom; parsed.CustomDenoise = denoise.ToString().Replace("--denoise=", string.Empty).Replace("\"", string.Empty); break; } } parsed.Deblock = 0; if (deblock.Success) { int dval; int.TryParse(deblock.ToString().Replace("--deblock=", string.Empty), out dval); parsed.Deblock = dval; } parsed.Detelecine = Detelecine.Off; if (detelecine.Success) { parsed.Detelecine = Detelecine.Default; if (detelecineValue.Success) { parsed.CustomDetelecine = detelecineValue.ToString().Replace("--detelecine=", string.Empty).Replace("\"", string.Empty); parsed.Detelecine = Detelecine.Custom; } } #endregion #region Video Settings Tab parsed.VideoEncoder = Converters.GetVideoEncoder(videoEncoder.ToString().Replace("-e ", string.Empty)); if (videoFramerate.Success) { double fps; double.TryParse(videoFramerate.Groups[1].ToString(), out fps); parsed.Framerate = fps; } if (pfr.Success) parsed.FramerateMode = FramerateMode.PFR; else if (cfr.Success) parsed.FramerateMode = FramerateMode.CFR; else parsed.FramerateMode = FramerateMode.VFR; // Default to VFR parsed.Grayscale = grayscale.Success; parsed.TwoPass = twoPass.Success; parsed.TurboFirstPass = turboFirstPass.Success; if (videoBitrate.Success) { parsed.VideoEncodeRateType = VideoEncodeRateType.AverageBitrate; parsed.VideoBitrate = int.Parse(videoBitrate.ToString().Replace("-b ", string.Empty)); } if (videoQuality.Success) { float quality = float.Parse(videoQuality.ToString().Replace("-q ", string.Empty), Culture); parsed.Quality = quality; } #endregion #region Audio Tab // Find out how many tracks we need to add by checking how many encoders or audio tracks are selected. int encoderCount = 0; if (audioEncoders.Success) { string[] audioDataCounters = audioEncoders.ToString().Replace("-E ", string.Empty).Split(','); encoderCount = audioDataCounters.Length; } // Get the data from the regular expression results string[] trackData = null; string[] trackMixes = null; string[] trackEncoders = null; string[] trackBitrates = null; string[] trackSamplerates = null; string[] trackDRCvalues = null; string[] trackGainValues = null; if (audioTracks.Success) trackData = audioTracks.ToString().Replace("-a ", string.Empty).Split(','); if (audioTrackMixes.Success) trackMixes = audioTrackMixes.ToString().Replace("-6 ", string.Empty).Split(','); if (audioEncoders.Success) trackEncoders = audioEncoders.ToString().Replace("-E ", string.Empty).Split(','); if (audioBitrates.Success) trackBitrates = audioBitrates.ToString().Replace("-B ", string.Empty).Split(','); if (audioSampleRates.Success) trackSamplerates = audioSampleRates.ToString().Replace("-R ", string.Empty).Split(','); if (drcValues.Success) trackDRCvalues = drcValues.ToString().Replace("-D ", string.Empty).Split(','); if (gainValues.Success) trackGainValues = gainValues.ToString().Replace("--gain=", string.Empty).Split(','); // Create new Audio Track Classes and store them in the ArrayList List<AudioTrack> allAudioTrackInfo = new List<AudioTrack>(); for (int x = 0; x < encoderCount; x++) { AudioTrack track = new AudioTrack(); //if (trackData != null) // if (trackData.Length >= (x + 1)) // Audio Track // track.ScannedTrack = trackData[x].Trim(); if (trackMixes != null) if (trackMixes.Length >= (x + 1)) // Audio Mix track.MixDown = Converters.GetAudioMixDown(Converters.GetMixDown(trackMixes[x].Trim())); if (trackEncoders != null) if (trackEncoders.Length >= (x + 1)) // Audio Mix track.Encoder = Converters.GetAudioEncoderFromCliString(trackEncoders[x].Trim()); if (trackBitrates != null) if (trackBitrates.Length >= (x + 1)) // Audio Encoder track.Bitrate = int.Parse(trackBitrates[x].Trim() == "auto" ? "0" : trackBitrates[x].Trim()); if (trackSamplerates != null) if (trackSamplerates.Length >= (x + 1)) // Audio SampleRate track.SampleRate = double.Parse(trackSamplerates[x].Replace("Auto", "0").Trim(), Culture); if (trackDRCvalues != null) if (trackDRCvalues.Length >= (x + 1)) // Audio DRC Values track.DRC = double.Parse(trackDRCvalues[x].Trim(), Culture); if (trackGainValues != null) if (trackGainValues.Length >= (x + 1)) // Audio DRC Values track.Gain = int.Parse(trackGainValues[x].Trim()); allAudioTrackInfo.Add(track); } parsed.AudioTracks = allAudioTrackInfo; #endregion #region Chapters Tab if (chapterMarkersFileMode.Success || chapterMarkers.Success) parsed.IncludeChapterMarkers = true; #endregion #region Advanced and other if (advanced.Success) parsed.AdvancedEncoderOptions = advanced.ToString().Replace("-x ", string.Empty); #endregion } catch (Exception exc) { throw new Exception("An error has occured in the QueryParser Utility.", exc); } #endregion return parsed; }
/// <summary> /// Import a Plist Preset /// </summary> /// <param name="filename"> /// The filename. /// </param> /// <returns> /// A Preset Object /// </returns> public static Preset Import(string filename) { Preset preset = new Preset(); XmlNode root = loadFile(filename); if (root == null) return null; // We'll query a query parser object and use it's public var structures to store all the data. // This will allow the preset loader logic to be used instead of writing custom logic just for this file. EncodeTask parsed = new EncodeTask(); bool useFilters = false; PresetPictureSettingsMode pictureSettingsMode = PresetPictureSettingsMode.None; string qualityMode = string.Empty; #region Get a List of Audio Track Objects // This is the main <dict> with all the values XmlNode mainDict = root.ChildNodes[2].ChildNodes[0].FirstChild; XmlNode audioListDict = null; ObservableCollection<AudioTrack> audioTracks = new ObservableCollection<AudioTrack>(); // Look for the AudioList key bool found = false; foreach (XmlNode node in mainDict.ChildNodes) { if (found) { audioListDict = node; break; } if (node.InnerText == "AudioList") { found = true; // We want the next node, as it is the value object. } } for (int i = 0; i < audioListDict.ChildNodes.Count; i++) { XmlNode audioChannel = audioListDict.ChildNodes[i]; AudioTrack track = new AudioTrack(); for (int subi = 0; subi < audioChannel.ChildNodes.Count; subi += 2) { // Audio Channel Information is here. string key = audioChannel.ChildNodes[subi].InnerText; string value = audioChannel.ChildNodes[subi + 1].InnerText; switch (key) { case "AudioBitrate": track.Bitrate = int.Parse(value); break; case "AudioEncoder": track.Encoder = Converters.GetAudioEncoder(value.Trim()); break; case "AudioMixdown": track.MixDown = Converters.GetAudioMixDown(value.Trim()); break; case "AudioSamplerate": track.SampleRate = value == "Auto" ? 0 : double.Parse(value); break; case "AudioTrack": //track.SourceTrack = value; break; case "AudioTrackDRCSlider": track.DRC = double.Parse(value); break; case "AudioTrackGainSlider": track.Gain = int.Parse(value.Replace("0.0", "0")); break; } } audioTracks.Add(track); parsed.AudioTracks = audioTracks; } #endregion #region Parse the reset of the plist keys into local variables XmlNode presetSettings = root.ChildNodes[2].ChildNodes[0].FirstChild; // Start from 2 to avoid the audio settings which we don't need. for (int i = 0; i < presetSettings.ChildNodes.Count; i += 2) { string key = presetSettings.ChildNodes[i].InnerText; string value = presetSettings.ChildNodes[i + 1].InnerText; switch (key) { // Output Settings case "FileFormat": parsed.OutputFormat = Converters.GetFileFormat(value.Replace("file", string.Empty).Trim()); break; case "Mp4HttpOptimize": parsed.OptimizeMP4 = value == "1"; break; case "Mp4LargeFile": parsed.LargeFile = value == "1"; break; case "Mp4iPodCompatible": parsed.IPod5GSupport = value == "1"; break; // Picture Settings case "PictureAutoCrop": parsed.HasCropping = value != "1"; break; case "PictureTopCrop": parsed.Cropping.Top = int.Parse(value); break; case "PictureBottomCrop": parsed.Cropping.Bottom = int.Parse(value); break; case "PictureLeftCrop": parsed.Cropping.Left = int.Parse(value); break; case "PictureRightCrop": parsed.Cropping.Right = int.Parse(value); break; case "PictureHeight": parsed.Height = int.Parse(value); break; case "PictureWidth": parsed.Width = int.Parse(value); break; case "PictureKeepRatio": parsed.KeepDisplayAspect = value == "1"; break; case "PicturePAR": switch (value) { case "0": parsed.Anamorphic = Anamorphic.None; break; default: parsed.Anamorphic = Anamorphic.Strict; break; case "2": parsed.Anamorphic = Anamorphic.Loose; break; case "3": parsed.Anamorphic = Anamorphic.Custom; break; } break; // Filters case "PictureDeblock": parsed.Deblock = int.Parse(value); break; case "PictureDecomb": parsed.Decomb = Decomb.Off; switch (value) { case "1": parsed.Decomb = Decomb.Custom; break; case "2": parsed.Decomb = Decomb.Default; break; case "3": parsed.Decomb = Decomb.Fast; break; } break; case "PictureDecombCustom": if (value != string.Empty) { parsed.CustomDecomb = value; } break; case "PictureDecombDeinterlace": // Not Used break; case "PictureDeinterlace": switch (value) { case "0": parsed.Deinterlace = Deinterlace.Off; break; case "1": parsed.Deinterlace = Deinterlace.Custom; break; case "2": parsed.Deinterlace = Deinterlace.Fast; break; case "3": parsed.Deinterlace = Deinterlace.Slow; break; case "4": parsed.Deinterlace = Deinterlace.Slower; break; } break; case "PictureDeinterlaceCustom": if (value != string.Empty) { parsed.CustomDeinterlace = value; } break; case "PictureDenoise": switch (value) { case "0": parsed.Denoise = Denoise.Off; break; case "1": parsed.Denoise = Denoise.Custom; break; case "2": parsed.Denoise = Denoise.Weak; break; case "3": parsed.Denoise = Denoise.Medium; break; case "4": parsed.Denoise = Denoise.Strong; break; } break; case "PictureDenoiseCustom": if (value != string.Empty) { parsed.CustomDenoise = value; } break; case "PictureDetelecine": parsed.Detelecine = Detelecine.Off; if (value == "1") { parsed.Detelecine = Detelecine.Custom; } if (value == "2") { parsed.Detelecine = Detelecine.Default; } break; case "PictureDetelecineCustom": if (value != string.Empty) { parsed.CustomDetelecine = value; } break; // Video Tab case "VideoAvgBitrate": if (!string.IsNullOrEmpty(value)) { parsed.VideoBitrate = int.Parse(value); } break; case "VideoEncoder": parsed.VideoEncoder = EnumHelper<VideoEncoder>.GetValue(value); break; case "VideoFramerate": if (value == "Same as source") { parsed.Framerate = null; } else if (!string.IsNullOrEmpty(value)) { parsed.Framerate = double.Parse(value); } break; case "VideoFramerateMode": switch (value) { case "vfr": parsed.FramerateMode = FramerateMode.VFR; break; case "cfr": parsed.FramerateMode = FramerateMode.CFR; break; default: parsed.FramerateMode = FramerateMode.PFR; break; } break; case "VideoGrayScale": parsed.Grayscale = value == "1"; break; case "VideoQualitySlider": if (!string.IsNullOrEmpty(value)) { parsed.Quality = double.Parse(value); } break; case "VideoQualityType": // The Type of Quality Mode used qualityMode = value; break; case "VideoTurboTwoPass": parsed.TurboFirstPass = value == "1"; break; case "VideoTwoPass": parsed.TwoPass = value == "1"; break; // Chapter Markers Tab case "ChapterMarkers": parsed.IncludeChapterMarkers = value == "1"; break; // Advanced x264 tab case "x264Option": parsed.AdvancedEncoderOptions = value; break; // Preset Information case "PresetBuildNumber": preset.Version = value; break; case "PresetDescription": preset.Description = value; break; case "PresetName": preset.Name = value; break; case "Type": //parsed.Type = value; // TODO find out what this is break; case "UsesMaxPictureSettings": pictureSettingsMode = PresetPictureSettingsMode.SourceMaximum; break; case "UsesPictureFilters": useFilters = value == "1"; break; case "UsesPictureSettings": pictureSettingsMode = PresetPictureSettingsMode.Custom; break; // Allowed Passthru case "AudioAllowAACPass": parsed.AllowedPassthruOptions.AudioAllowAACPass = value == "1"; break; case "AudioAllowAC3Pass": parsed.AllowedPassthruOptions.AudioAllowAC3Pass = value == "1"; break; case "AudioAllowDTSHDPass": parsed.AllowedPassthruOptions.AudioAllowDTSHDPass = value == "1"; break; case "AudioAllowDTSPass": parsed.AllowedPassthruOptions.AudioAllowDTSPass = value == "1"; break; case "AudioAllowMP3Pass": parsed.AllowedPassthruOptions.AudioAllowMP3Pass = value == "1"; break; case "AudioEncoderFallback": parsed.AllowedPassthruOptions.AudioEncoderFallback = EnumHelper<AudioEncoder>.GetValue(value); break; } } // Kill any Quality values we don't need. switch (qualityMode) { case "1": // Avg Bitrate parsed.VideoEncodeRateType = VideoEncodeRateType.AverageBitrate; break; case "2": // CQ parsed.VideoEncodeRateType = VideoEncodeRateType.ConstantQuality; break; } // Default filters if we have to if (!useFilters) { parsed.Detelecine = Detelecine.Off; parsed.Denoise = Denoise.Off; parsed.Deinterlace = Deinterlace.Off; parsed.Decomb = Decomb.Off; parsed.Deblock = 0; parsed.Grayscale = false; } if (pictureSettingsMode == PresetPictureSettingsMode.SourceMaximum) { parsed.MaxWidth = parsed.Height; parsed.MaxHeight = parsed.Width; } #endregion preset.Task = parsed; preset.PictureSettingsMode = pictureSettingsMode; preset.UsePictureFilters = useFilters; preset.Category = PresetService.UserPresetCatgoryName; return preset; }
public static EncodeTask Import(string filename) { XmlNode root = loadFile(filename); if (root == null) return null; // We'll query a query parser object and use it's public var structures to store all the data. // This will allow the preset loader logic to be used instead of writing custom logic just for this file. EncodeTask parsed = new EncodeTask(); string qualityMode = string.Empty; #region Get a List of Audio Track Objects XmlNode audioListDict = root.ChildNodes[2].ChildNodes[0].FirstChild.ChildNodes[1]; List<AudioTrack> audioTracks = new List<AudioTrack>(); for (int i = 0; i < audioListDict.ChildNodes.Count; i++) { XmlNode audioChannel = audioListDict.ChildNodes[i]; AudioTrack track = new AudioTrack(); for (int subi = 0; subi < audioChannel.ChildNodes.Count; subi += 2) { // Audio Channel Information is here. string key = audioChannel.ChildNodes[subi].InnerText; string value = audioChannel.ChildNodes[subi + 1].InnerText; switch (key) { case "AudioBitrate": track.Bitrate = int.Parse(value); break; case "AudioEncoder": track.Encoder = Converters.GetAudioEncoder(value.Trim()); break; case "AudioMixdown": track.MixDown = Converters.GetAudioMixDown(value.Trim()); break; case "AudioSamplerate": track.SampleRate = value == "Auto" ? 0 : double.Parse(value); break; case "AudioTrack": //track.SourceTrack = value; break; case "AudioTrackDRCSlider": track.DRC = double.Parse(value); break; } } audioTracks.Add(track); parsed.AudioTracks = audioTracks; } #endregion #region Parse the reset of the plist keys into local variables XmlNode presetSettings = root.ChildNodes[2].ChildNodes[0].FirstChild; // Start from 2 to avoid the audio settings which we don't need. for (int i = 2; i < presetSettings.ChildNodes.Count; i += 2) { string key = presetSettings.ChildNodes[i].InnerText; string value = presetSettings.ChildNodes[i + 1].InnerText; switch (key) { // Output Settings case "FileFormat": parsed.OutputFormat = Converters.GetFileFormat(value); break; case "Mp4HttpOptimize": parsed.OptimizeMP4 = value == "1"; break; case "Mp4LargeFile": parsed.IPod5GSupport = value == "1"; break; case "Mp4iPodCompatible": parsed.IPod5GSupport = value == "1"; break; // Picture Settings case "PictureAutoCrop": // Not used break; case "PictureTopCrop": parsed.Cropping.Top = int.Parse(value); break; case "PictureBottomCrop": parsed.Cropping.Bottom = int.Parse(value); break; case "PictureLeftCrop": parsed.Cropping.Left = int.Parse(value); break; case "PictureRightCrop": parsed.Cropping.Right = int.Parse(value); break; case "PictureHeight": parsed.Height = int.Parse(value); break; case "PictureWidth": parsed.Width = int.Parse(value); break; case "PictureKeepRatio": parsed.KeepDisplayAspect = value == "1"; break; case "PicturePAR": switch (value) { case "0": parsed.Anamorphic = Anamorphic.None; break; default: parsed.Anamorphic = Anamorphic.Strict; break; case "2": parsed.Anamorphic = Anamorphic.Loose; break; case "3": parsed.Anamorphic = Anamorphic.Custom; break; } break; // Filters case "PictureDeblock": parsed.Deblock = int.Parse(value); break; case "PictureDecomb": parsed.Decomb = Decomb.Off; // Don't place custom here as it's handled in the filter panel if (value == "2") { parsed.Decomb = Decomb.Default; } break; case "PictureDecombCustom": if (value != string.Empty) { parsed.CustomDecomb = value; } break; case "PictureDecombDeinterlace": // Not Used break; case "PictureDeinterlace": switch (value) { case "0": parsed.Deinterlace = Deinterlace.Off; break; // Don't place custom here as it's handled in the filter panel case "2": parsed.Deinterlace = Deinterlace.Fast; break; case "3": parsed.Deinterlace = Deinterlace.Slow; break; case "4": parsed.Deinterlace = Deinterlace.Slower; break; } break; case "PictureDeinterlaceCustom": if (value != string.Empty) { parsed.CustomDeinterlace = value; } break; case "PictureDenoise": switch (value) { case "0": parsed.Denoise = Denoise.Off; break; // Don't place custom here as it's handled in the filter panel case "2": parsed.Denoise = Denoise.Weak; break; case "3": parsed.Denoise = Denoise.Medium; break; case "4": parsed.Denoise = Denoise.Strong; break; } break; case "PictureDenoiseCustom": if (value != string.Empty) { parsed.CustomDenoise = value; } break; case "PictureDetelecine": parsed.Detelecine = Detelecine.Off; if (value == "1") { parsed.Detelecine = Detelecine.Default; } break; case "PictureDetelecineCustom": if (value != string.Empty) { parsed.CustomDetelecine = value; } break; // Video Tab case "VideoAvgBitrate": if (!string.IsNullOrEmpty(value)) { parsed.VideoBitrate = int.Parse(value); } break; case "VideoEncoder": parsed.VideoEncoder = Converters.GetVideoEncoder(value); break; case "VideoFramerate": if (value == "Same as source") { parsed.Framerate = null; } else if (!string.IsNullOrEmpty(value)) { parsed.Framerate = int.Parse(value); } break; case "VideoGrayScale": parsed.Grayscale = value == "1"; break; case "VideoQualitySlider": parsed.Quality = double.Parse(value); break; case "VideoQualityType": // The Type of Quality Mode used qualityMode = value; break; case "VideoTurboTwoPass": parsed.TurboFirstPass = value == "1"; break; case "VideoTwoPass": parsed.TwoPass = value == "1"; break; // Chapter Markers Tab case "ChapterMarkers": parsed.IncludeChapterMarkers = value == "1"; break; // Advanced x264 tab case "x264Option": parsed.AdvancedEncoderOptions = value; break; // Preset Information case "PresetBuildNumber": parsed.PresetBuildNumber = int.Parse(value); break; case "PresetDescription": parsed.PresetDescription = value; break; case "PresetName": parsed.PresetName = value; break; case "Type": parsed.Type = value; break; case "UsesMaxPictureSettings": parsed.UsesMaxPictureSettings = value == "1"; break; case "UsesPictureFilters": parsed.UsesPictureFilters = value == "1"; break; case "UsesPictureSettings": parsed.UsesPictureSettings = value == "1"; break; } } // Kill any Quality values we don't need. switch (qualityMode) { case "1": // Avg Bitrate parsed.VideoEncodeRateType = VideoEncodeRateType.AverageBitrate; break; case "2": // CQ parsed.VideoEncodeRateType = VideoEncodeRateType.ConstantQuality; break; } #endregion return parsed; }
public static QueryParser Import(string filename) { XmlNode root = loadFile(filename); if (root == null) return null; // We'll query a query parser object and use it's public var structures to store all the data. // This will allow the preset loader logic to be used instead of writing custom logic just for this file. QueryParser queryParsed = new QueryParser(); string qualityMode = string.Empty; #region Get a List of Audio Track Objects XmlNode audioListDict = root.ChildNodes[2].ChildNodes[0].FirstChild.ChildNodes[1]; ArrayList audioTracks = new ArrayList(); for (int i = 0; i < audioListDict.ChildNodes.Count; i++) { XmlNode audioChannel = audioListDict.ChildNodes[i]; AudioTrack track = new AudioTrack(); for (int subi = 0; subi < audioChannel.ChildNodes.Count; subi += 2) { // Audio Channel Information is here. string key = audioChannel.ChildNodes[subi].InnerText; string value = audioChannel.ChildNodes[subi + 1].InnerText; switch (key) { case "AudioBitrate": track.Bitrate = value; break; case "AudioEncoder": track.Encoder = value.Replace("AAC (CoreAudio)", "AAC (faac)"); break; case "AudioMixdown": track.MixDown = value; break; case "AudioSamplerate": track.SampleRate = value; break; case "AudioTrack": track.Track = value; break; case "AudioTrackDRCSlider": track.DRC = value; break; } } audioTracks.Add(track); queryParsed.AudioInformation = audioTracks; } #endregion #region Parse the reset of the plist keys into local variables XmlNode presetSettings = root.ChildNodes[2].ChildNodes[0].FirstChild; // Start from 2 to avoid the audio settings which we don't need. for (int i = 2; i < presetSettings.ChildNodes.Count; i += 2) { string key = presetSettings.ChildNodes[i].InnerText; string value = presetSettings.ChildNodes[i + 1].InnerText; switch (key) { // Output Settings case "FileFormat": queryParsed.Format = value; break; case "Mp4HttpOptimize": queryParsed.OptimizeMP4 = value == "1"; break; case "Mp4LargeFile": queryParsed.LargeMP4 = value == "1"; break; case "Mp4iPodCompatible": queryParsed.IpodAtom = value == "1"; break; // Picture Settings case "PictureAutoCrop": // Not used break; case "PictureTopCrop": queryParsed.CropTop = value; break; case "PictureBottomCrop": queryParsed.CropBottom = value; break; case "PictureLeftCrop": queryParsed.CropLeft = value; break; case "PictureRightCrop": queryParsed.CropRight = value; break; case "PictureHeight": queryParsed.Height = int.Parse(value); break; case "PictureWidth": queryParsed.Width = int.Parse(value); break; case "PictureKeepRatio": queryParsed.KeepDisplayAsect = value == "1"; break; case "PicturePAR": queryParsed.AnamorphicMode = int.Parse(value); break; // Filters case "PictureDeblock": queryParsed.DeBlock = int.Parse(value); break; case "PictureDecomb": queryParsed.Decomb = "Off"; // Don't place custom here as it's handled in the filter panel if (value == "2") queryParsed.Decomb = "Default"; break; case "PictureDecombCustom": if (value != string.Empty) queryParsed.Decomb = value; break; case "PictureDecombDeinterlace": // Not Used break; case "PictureDeinterlace": switch (value) { case "0": queryParsed.DeInterlace = "Off"; break; // Don't place custom here as it's handled in the filter panel case "2": queryParsed.DeInterlace = "Fast"; break; case "3": queryParsed.DeInterlace = "Slow"; break; case "4": queryParsed.DeInterlace = "Slowest"; break; } break; case "PictureDeinterlaceCustom": if (value != string.Empty) queryParsed.DeInterlace = value; break; case "PictureDenoise": switch (value) { case "0": queryParsed.DeNoise = "Off"; break; // Don't place custom here as it's handled in the filter panel case "2": queryParsed.DeNoise = "Weak"; break; case "3": queryParsed.DeNoise = "Medium"; break; case "4": queryParsed.DeNoise = "Strong"; break; } break; case "PictureDenoiseCustom": if (value != string.Empty) queryParsed.DeNoise = value; break; case "PictureDetelecine": queryParsed.DeTelecine = "Off"; if (value == "1") queryParsed.DeTelecine = "Default"; break; case "PictureDetelecineCustom": if (value != string.Empty) queryParsed.DeTelecine = value; break; // Video Tab case "VideoAvgBitrate": queryParsed.AverageVideoBitrate = value; break; case "VideoEncoder": queryParsed.VideoEncoder = value; break; case "VideoFramerate": queryParsed.VideoFramerate = value; break; case "VideoGrayScale": queryParsed.Grayscale = value == "1"; break; case "VideoQualitySlider": queryParsed.VideoQuality = float.Parse(value); break; case "VideoQualityType": // The Type of Quality Mode used qualityMode = value; break; case "VideoTargetSize": queryParsed.VideoTargetSize = value; break; case "VideoTurboTwoPass": queryParsed.TurboFirstPass = value == "1"; break; case "VideoTwoPass": queryParsed.TwoPass = value == "1"; break; // Chapter Markers Tab case "ChapterMarkers": queryParsed.ChapterMarkers = value == "1"; break; // Advanced x264 tab case "x264Option": queryParsed.H264Query = value; break; // Preset Information case "PresetBuildNumber": queryParsed.PresetBuildNumber = int.Parse(value); break; case "PresetDescription": queryParsed.PresetDescription = value; break; case "PresetName": queryParsed.PresetName = value; break; case "Type": queryParsed.Type = value; break; case "UsesMaxPictureSettings": queryParsed.UsesMaxPictureSettings = value == "1"; break; case "UsesPictureFilters": queryParsed.UsesPictureFilters = value == "1"; break; case "UsesPictureSettings": queryParsed.UsesPictureSettings = value == "1"; break; } } // Kill any Quality values we don't need. switch (qualityMode) { case "0": // FileSize queryParsed.VideoQuality = -1; queryParsed.AverageVideoBitrate = null; break; case "1": // Avg Bitrate queryParsed.VideoQuality = -1; queryParsed.VideoTargetSize = null; break; case "2": // CQ queryParsed.AverageVideoBitrate = null; queryParsed.VideoTargetSize = null; break; } #endregion return queryParsed; }
/// <summary> /// Add an audio track /// </summary> /// <param name="xmlWriter"> /// The xml writer. /// </param> /// <param name="audioTrack"> /// The audio track. /// </param> private static void AddAudioItem(XmlTextWriter xmlWriter, AudioTrack audioTrack) { xmlWriter.WriteStartElement("dict"); xmlWriter.WriteElementString("key", "AudioBitrate"); xmlWriter.WriteElementString("string", audioTrack.Bitrate); xmlWriter.WriteElementString("key", "AudioEncoder"); xmlWriter.WriteElementString("string", audioTrack.Encoder); xmlWriter.WriteElementString("key", "AudioMixdown"); xmlWriter.WriteElementString("string", audioTrack.MixDown); xmlWriter.WriteElementString("key", "AudioSamplerate"); xmlWriter.WriteElementString("string", audioTrack.SampleRate); xmlWriter.WriteElementString("key", "AudioTrack"); xmlWriter.WriteElementString("integer", audioTrack.Track); xmlWriter.WriteElementString("key", "AudioTrackDRCSlider"); xmlWriter.WriteElementString("real", audioTrack.DRC); xmlWriter.WriteElementString("key", "AudioTrackDescription"); xmlWriter.WriteElementString("string", "Unknown"); xmlWriter.WriteEndElement(); }
/// <summary> /// The get best sample rate. /// </summary> /// <param name="track"> /// The track. /// </param> /// <returns> /// The System.Double. /// </returns> private int GetBestSampleRate(AudioTrack track) { int samplerate = 48000; // Default to 48 // Try get the users selected sample rate if (!track.SampleRate.Equals(0.0d)) { samplerate = this.samplerates[track.SampleRate]; } else if (track.ScannedTrack != null && track.ScannedTrack.SampleRate != 0) // If it's auto, try get the source { samplerate = track.ScannedTrack.SampleRate; } // THen Sanitize to make sure it's valid int bestSamplerate; if ((samplerate < 32000) && (track.Encoder == AudioEncoder.Ac3)) { // AC-3 < 32 kHz suffers from poor hardware compatibility bestSamplerate = 32000; } else if ((samplerate < 16000) && (track.Encoder == AudioEncoder.fdkheaac)) { bestSamplerate = 16000; } else { bestSamplerate = samplerate; foreach (KeyValuePair<double, int> item in this.samplerates) { // valid samplerate if (bestSamplerate.Equals(item.Value)) break; // samplerate is higher than the next valid samplerate, // or lower than the lowest valid samplerate if (bestSamplerate > item.Value && bestSamplerate < this.samplerates.First().Value) { bestSamplerate = item.Value; break; } } } return bestSamplerate; }
/// <summary> /// Takes in a query which can be in any order and parses it. /// All varibles are then set so they can be used elsewhere. /// </summary> /// <param name="input">A ClI Query</param> /// <returns>A Parsed Query</returns> public static QueryParser Parse(string input) { var thisQuery = new QueryParser(); #region Regular Expressions // Source Match title = Regex.Match(input, @"-t ([0-9]*)"); Match chapters = Regex.Match(input, @"-c ([0-9-]*)"); // Output Settings Match format = Regex.Match(input, @"-f ([a-z0-9a-z0-9a-z0-9]*)"); Match grayscale = Regex.Match(input, @" -g"); Match largerMp4 = Regex.Match(input, @" -4"); Match ipodAtom = Regex.Match(input, @" -I"); // Picture Settings Tab Match width = Regex.Match(input, @"-w ([0-9]*)"); Match height = Regex.Match(input, @"-l ([0-9]*)"); Match maxWidth = Regex.Match(input, @"-X ([0-9]*)"); Match maxHeight = Regex.Match(input, @"-Y ([0-9]*)"); Match crop = Regex.Match(input, @"--crop ([0-9]*):([0-9]*):([0-9]*):([0-9]*)"); Match looseAnamorphic = Regex.Match(input, @"--loose-anamorphic"); Match strictAnamorphic = Regex.Match(input, @"--strict-anamorphic"); Match customAnamorphic = Regex.Match(input, @"--custom-anamorphic"); Match keepDisplayAsect = Regex.Match(input, @"--keep-display-aspect"); Match displayWidth = Regex.Match(input, @"--display-width ([0-9]*)"); Match pixelAspect = Regex.Match(input, @"--pixel-aspect ([0-9]*):([0-9]*)"); Match modulus = Regex.Match(input, @"--modulus ([0-9]*)"); // Picture Settings - Filters Match decomb = Regex.Match(input, @" --decomb"); Match decombValue = Regex.Match(input, @" --decomb=\""([a-zA-Z0-9.:]*)\"""); Match deinterlace = Regex.Match(input, @"--deinterlace=\""([a-zA-Z0-9.:]*)\"""); Match denoise = Regex.Match(input, @"--denoise=\""([a-zA-Z0-9.:]*)\"""); Match deblock = Regex.Match(input, @"--deblock=([0-9:]*)"); Match detelecine = Regex.Match(input, @"--detelecine"); Match detelecineValue = Regex.Match(input, @" --detelecine=\""([a-zA-Z0-9.:]*)\"""); // Video Settings Tab Match videoEncoder = Regex.Match(input, @"-e ([a-zA-Z0-9]*)"); Match videoFramerate = Regex.Match(input, @"-r ([0-9.]*)"); Match videoBitrate = Regex.Match(input, @"-b ([0-9]*)"); Match videoQuality = Regex.Match(input, @"-q ([0-9.]*)"); Match videoFilesize = Regex.Match(input, @"-S ([0-9.]*)"); Match twoPass = Regex.Match(input, @" -2"); Match turboFirstPass = Regex.Match(input, @" -T"); Match optimizeMP4 = Regex.Match(input, @" -O"); Match pfr = Regex.Match(input, @" --pfr"); // Audio Settings Tab Match noAudio = Regex.Match(input, @"-a none"); Match audioTracks = Regex.Match(input, @"-a ([0-9,]*)"); Match audioTrackMixes = Regex.Match(input, @"-6 ([0-9a-zA-Z,]*)"); Match audioEncoders = Regex.Match(input, @"-E ([a-zA-Z0-9+,:]*)"); Match audioBitrates = Regex.Match(input, @"-B ([0-9a-zA-Z,]*)"); // Auto = a-z Match audioSampleRates = Regex.Match(input, @"-R ([0-9a-zA-Z.,]*)"); // Auto = a-z Match drcValues = Regex.Match(input, @"-D ([0-9.,]*)"); Match subtitles = Regex.Match(input, @"-s ([0-9a-zA-Z]*)"); Match subScan = Regex.Match(input, @" -U"); Match forcedSubtitles = Regex.Match(input, @" -F"); // Chapters Tab Match chapterMarkers = Regex.Match(input, @" -m"); Match chapterMarkersFileMode = Regex.Match(input, @"--markers"); // H264 Tab Match x264 = Regex.Match(input, @"-x ([.,/a-zA-Z0-9=:-]*)"); // Program Options Match verbose = Regex.Match(input, @" -v"); #endregion #region Set Varibles try { #region Source Tab if (title.Success) thisQuery.Title = int.Parse(title.ToString().Replace("-t ", string.Empty)); if (chapters.Success) { string[] actTitles = chapters.ToString().Replace("-c ", string.Empty).Split('-'); thisQuery.ChapterStart = int.Parse(actTitles[0]); if (actTitles.Length > 1) { thisQuery.ChapterFinish = int.Parse(actTitles[1]); } if ((thisQuery.ChapterStart == 1) && (thisQuery.ChapterFinish == 0)) thisQuery.ChapterFinish = thisQuery.ChapterStart; } #endregion #region Output Settings if (format.Success) thisQuery.Format = format.ToString().Replace("-f ", string.Empty); thisQuery.LargeMP4 = largerMp4.Success; thisQuery.IpodAtom = ipodAtom.Success; thisQuery.OptimizeMP4 = optimizeMP4.Success; #endregion #region Picture Tab if (width.Success) thisQuery.Width = int.Parse(width.Groups[0].Value.Replace("-w ", string.Empty)); if (height.Success) thisQuery.Height = int.Parse(height.Groups[0].Value.Replace("-l ", string.Empty)); if (maxWidth.Success) thisQuery.MaxWidth = int.Parse(maxWidth.Groups[0].Value.Replace("-X ", string.Empty)); if (maxHeight.Success) thisQuery.MaxHeight = int.Parse(maxHeight.Groups[0].Value.Replace("-Y ", string.Empty)); if (crop.Success) { thisQuery.CropValues = crop.ToString().Replace("--crop ", string.Empty); string[] actCropValues = thisQuery.CropValues.Split(':'); thisQuery.CropTop = actCropValues[0]; thisQuery.CropBottom = actCropValues[1]; thisQuery.CropLeft = actCropValues[2]; thisQuery.CropRight = actCropValues[3]; } if (strictAnamorphic.Success) thisQuery.AnamorphicMode = 1; else if (looseAnamorphic.Success) thisQuery.AnamorphicMode = 2; else if (customAnamorphic.Success) thisQuery.AnamorphicMode = 3; else thisQuery.AnamorphicMode = 0; thisQuery.KeepDisplayAsect = keepDisplayAsect.Success; if (displayWidth.Success) thisQuery.DisplayWidthValue = double.Parse(displayWidth.Groups[0].Value.Replace("--display-width ", string.Empty)); if (pixelAspect.Success) thisQuery.PixelAspectWidth = int.Parse(pixelAspect.Groups[1].Value.Replace("--pixel-aspect ", string.Empty)); if (pixelAspect.Success && pixelAspect.Groups.Count >= 3) thisQuery.PixelAspectHeight = int.Parse(pixelAspect.Groups[2].Value.Replace("--pixel-aspect ", string.Empty)); if (modulus.Success) thisQuery.AnamorphicModulus = int.Parse(modulus.Groups[0].Value.Replace("--modulus ", string.Empty)); #endregion #region Filters thisQuery.Decomb = "Off"; if (decomb.Success) { thisQuery.Decomb = "Default"; if (decombValue.Success) thisQuery.Decomb = decombValue.ToString().Replace("--decomb=", string.Empty).Replace("\"", string.Empty); } thisQuery.DeInterlace = "Off"; if (deinterlace.Success) { thisQuery.DeInterlace = deinterlace.ToString().Replace("--deinterlace=", string.Empty).Replace("\"", string.Empty); thisQuery.DeInterlace = thisQuery.DeInterlace.Replace("fast", "Fast").Replace("slow", "Slow").Replace("slower", "Slower"); thisQuery.DeInterlace = thisQuery.DeInterlace.Replace("slowest", "Slowest"); } thisQuery.DeNoise = "Off"; if (denoise.Success) { thisQuery.DeNoise = denoise.ToString().Replace("--denoise=", string.Empty).Replace("\"", string.Empty); thisQuery.DeNoise = thisQuery.DeNoise.Replace("weak", "Weak").Replace("medium", "Medium").Replace("strong", "Strong"); } string deblockValue = string.Empty; thisQuery.DeBlock = 0; if (deblock.Success) deblockValue = deblock.ToString().Replace("--deblock=", string.Empty); int dval = 0; if (deblockValue != string.Empty) int.TryParse(deblockValue, out dval); thisQuery.DeBlock = dval; thisQuery.DeTelecine = "Off"; if (detelecine.Success) { thisQuery.DeTelecine = "Default"; if (detelecineValue.Success) thisQuery.DeTelecine = detelecineValue.ToString().Replace("--detelecine=", string.Empty).Replace("\"", string.Empty); } #endregion #region Video Settings Tab string videoEncoderConvertion = videoEncoder.ToString().Replace("-e ", string.Empty); switch (videoEncoderConvertion) { case "ffmpeg": videoEncoderConvertion = "MPEG-4 (FFmpeg)"; break; case "x264": videoEncoderConvertion = "H.264 (x264)"; break; case "theora": videoEncoderConvertion = "VP3 (Theora)"; break; default: videoEncoderConvertion = "MPEG-4 (FFmpeg)"; break; } thisQuery.VideoEncoder = videoEncoderConvertion; thisQuery.VideoFramerate = videoFramerate.Success ? videoFramerate.ToString().Replace("-r ", string.Empty) : "Same as source"; thisQuery.Pfr = pfr.Success; thisQuery.Grayscale = grayscale.Success; thisQuery.TwoPass = twoPass.Success; thisQuery.TurboFirstPass = turboFirstPass.Success; if (videoBitrate.Success) thisQuery.AverageVideoBitrate = videoBitrate.ToString().Replace("-b ", string.Empty); if (videoFilesize.Success) thisQuery.VideoTargetSize = videoFilesize.ToString().Replace("-S ", string.Empty); if (videoQuality.Success) { float qConvert = float.Parse(videoQuality.ToString().Replace("-q ", string.Empty), Culture); thisQuery.VideoQuality = qConvert; } else thisQuery.VideoQuality = -1; #endregion #region Audio Tab // Find out how many tracks we need to add by checking how many encoders or audio tracks are selected. int encoderCount = 0; if (audioEncoders.Success) { string[] audioDataCounters = audioEncoders.ToString().Replace("-E ", string.Empty).Split(','); encoderCount = audioDataCounters.Length; } // Get the data from the regular expression results string[] trackData = null; string[] trackMixes = null; string[] trackEncoders = null; string[] trackBitrates = null; string[] trackSamplerates = null; string[] trackDRCvalues = null; if (audioTracks.Success) trackData = audioTracks.ToString().Replace("-a ", string.Empty).Split(','); if (audioTrackMixes.Success) trackMixes = audioTrackMixes.ToString().Replace("-6 ", string.Empty).Split(','); if (audioEncoders.Success) trackEncoders = audioEncoders.ToString().Replace("-E ", string.Empty).Split(','); if (audioBitrates.Success) trackBitrates = audioBitrates.ToString().Replace("-B ", string.Empty).Split(','); if (audioSampleRates.Success) trackSamplerates = audioSampleRates.ToString().Replace("-R ", string.Empty).Split(','); if (drcValues.Success) trackDRCvalues = drcValues.ToString().Replace("-D ", string.Empty).Split(','); // Create new Audio Track Classes and store them in the ArrayList ArrayList allAudioTrackInfo = new ArrayList(); for (int x = 0; x < encoderCount; x++) { AudioTrack track = new AudioTrack(); if (trackData != null) if (trackData.Length >= (x + 1)) // Audio Track track.Track = trackData[x].Trim(); if (trackMixes != null) if (trackMixes.Length >= (x + 1)) // Audio Mix track.MixDown = GetMixDown(trackMixes[x].Trim()); if (trackEncoders != null) if (trackEncoders.Length >= (x + 1)) // Audio Mix track.Encoder = GetAudioEncoder(trackEncoders[x].Trim()); if (trackBitrates != null) if (trackBitrates.Length >= (x + 1)) // Audio Encoder track.Bitrate = trackBitrates[x].Trim() == "auto" ? "Auto" : trackBitrates[x].Trim(); if (trackSamplerates != null) if (trackSamplerates.Length >= (x + 1)) // Audio SampleRate track.SampleRate = trackSamplerates[x].Trim() == "0" ? "Auto" : trackSamplerates[x].Trim(); if (trackDRCvalues != null) if (trackDRCvalues.Length >= (x + 1)) // Audio DRC Values track.DRC = trackDRCvalues[x].Trim(); allAudioTrackInfo.Add(track); } thisQuery.AudioInformation = allAudioTrackInfo; // Subtitle Stuff if (subtitles.Success) thisQuery.Subtitles = subtitles.ToString().Replace("-s ", string.Empty); else thisQuery.Subtitles = subScan.Success ? "Autoselect" : "None"; thisQuery.ForcedSubtitles = forcedSubtitles.Success; #endregion #region Chapters Tab if (chapterMarkersFileMode.Success || chapterMarkers.Success) thisQuery.ChapterMarkers = true; #endregion #region H.264 and other if (x264.Success) thisQuery.H264Query = x264.ToString().Replace("-x ", string.Empty); thisQuery.Verbose = verbose.Success; #endregion } catch (Exception exc) { Main.ShowExceptiowWindow("An error has occured in the Query Parser.", exc.ToString()); } #endregion return thisQuery; }
/// <summary> /// Takes in a query which can be in any order and parses it. /// All varibles are then set so they can be used elsewhere. /// </summary> /// <param name="input">A ClI Query</param> /// <returns>A Parsed Query</returns> public static EncodeTask Parse(string input) { var parsed = new EncodeTask(); #region Regular Expressions // Source Match title = Regex.Match(input, @"-t ([0-9]+)"); Match chapters = Regex.Match(input, @"-c ([0-9-]+)"); // Output Settings Match format = Regex.Match(input, @"-f ([a-zA-Z0-9]+)"); Match grayscale = Regex.Match(input, @" -g"); Match ipodAtom = Regex.Match(input, @" -I"); // Picture Settings Tab Match width = Regex.Match(input, @"-w ([0-9]+)"); Match height = Regex.Match(input, @"-l ([0-9]+)"); Match maxWidth = Regex.Match(input, @"-X ([0-9]+)"); Match maxHeight = Regex.Match(input, @"-Y ([0-9]+)"); Match crop = Regex.Match(input, @"--crop ([0-9]*):([0-9]*):([0-9]*):([0-9]*)"); Match looseAnamorphic = Regex.Match(input, @"--loose-anamorphic"); Match strictAnamorphic = Regex.Match(input, @"--strict-anamorphic"); Match customAnamorphic = Regex.Match(input, @"--custom-anamorphic"); Match keepDisplayAsect = Regex.Match(input, @"--keep-display-aspect"); Match displayWidth = Regex.Match(input, @"--display-width ([0-9]*)"); Match pixelAspect = Regex.Match(input, @"--pixel-aspect ([0-9]*):([0-9]*)"); Match modulus = Regex.Match(input, @"--modulus ([0-9]*)"); // Picture Settings - Filters Match decomb = Regex.Match(input, @" --decomb"); Match decombValue = Regex.Match(input, @" --decomb=([a-zA-Z0-9.:""\\]*)"); Match deinterlace = Regex.Match(input, @"--deinterlace=\""([a-zA-Z0-9.:]*)\"""); Match denoise = Regex.Match(input, @"--denoise=\""([a-zA-Z0-9.:]*)\"""); Match nlmeans = Regex.Match(input, @"--nlmeans=\""([a-zA-Z0-9.:]*)\"""); Match nlmeansTune = Regex.Match(input, @"--nlmeans-tune=\""([a-zA-Z0-9.:]*)\"""); Match deblock = Regex.Match(input, @"--deblock=([0-9:]*)"); Match detelecine = Regex.Match(input, @"--detelecine"); Match detelecineValue = Regex.Match(input, @" --detelecine=\""([a-zA-Z0-9.:]*)\"""); // Video Settings Tab Match videoEncoder = Regex.Match(input, @"-e ([a-zA-Z0-9]+)"); Match videoFramerate = Regex.Match(input, @"-r ([0-9.]+)"); Match videoBitrate = Regex.Match(input, @"-b ([0-9]+)"); Match videoQuality = Regex.Match(input, @"-q ([0-9.]+)"); Match twoPass = Regex.Match(input, @" -2"); Match turboFirstPass = Regex.Match(input, @" -T"); Match optimizeMP4 = Regex.Match(input, @" -O"); Match pfr = Regex.Match(input, @" --pfr"); Match cfr = Regex.Match(input, @" --cfr"); // Audio Settings Tab Match audioTrackMixes = Regex.Match(input, @"-6 ([0-9a-zA-Z,]+)"); Match audioEncoders = Regex.Match(input, @"-E ([a-zA-Z0-9+,:\*]+)"); Match audioBitrates = Regex.Match(input, @"-B ([0-9a-zA-Z,]+)"); // Auto = a-z Match audioSampleRates = Regex.Match(input, @"-R ([0-9a-zA-Z.,]+)"); // Auto = a-z Match drcValues = Regex.Match(input, @"-D ([0-9.,]+)"); Match gainValues = Regex.Match(input, @"--gain=([0-9.,-]+)"); Match fallbackEncoder = Regex.Match(input, @"--audio-fallback([a-zA-Z0-9:=\s ]*)"); Match allowedPassthru = Regex.Match(input, @"--audio-copy-mask([a-zA-Z0-9:,=\s ]*)"); // Chapters Tab Match chapterMarkers = Regex.Match(input, @" -m"); Match chapterMarkersFileMode = Regex.Match(input, @"--markers"); // Advanced Tab Match advanced = Regex.Match(input, @"-x ([.,/a-zA-Z0-9=:-]*)"); Match x264Preset = Regex.Match(input, @"--x264-preset([=a-zA-Z0-9\s ]*)"); Match x264Tune = Regex.Match(input, @"--x264-tune([=,a-zA-Z0-9\s ]*)"); Match h264Profile = Regex.Match(input, @"--h264-profile([=a-zA-Z0-9\s ]*)"); Match x264Profile = Regex.Match(input, @"--x264-profile([=a-zA-Z0-9\s ]*)"); Match h264Level = Regex.Match(input, @"--h264-level([=a-zA-Z0-9.\s ]*)"); Match x265Profile = Regex.Match(input, @"--x265-profile([=a-zA-Z0-9\s ]*)"); Match x265Tune = Regex.Match(input, @"--x265-tune([=,a-zA-Z0-9\s ]*)"); Match x265Preset = Regex.Match(input, @"--x265-preset([=a-zA-Z0-9\s ]*)"); #endregion #region Set Varibles try { #region Source Tab if (title.Success) { parsed.Title = int.Parse(title.ToString().Replace("-t ", string.Empty)); } if (chapters.Success) { parsed.PointToPointMode = PointToPointMode.Chapters; string[] actTitles = chapters.ToString().Replace("-c ", string.Empty).Split('-'); parsed.StartPoint = int.Parse(actTitles[0]); if (actTitles.Length > 1) { parsed.EndPoint = int.Parse(actTitles[1]); } if ((parsed.StartPoint == 1) && (parsed.EndPoint == 0)) { parsed.EndPoint = parsed.StartPoint; } } #endregion #region Output Settings if (format.Success) { parsed.OutputFormat = Converters.GetFileFormat(format.Groups[1].ToString()); } parsed.IPod5GSupport = ipodAtom.Success; parsed.OptimizeMP4 = optimizeMP4.Success; #endregion #region Picture Tab if (width.Success) parsed.Width = int.Parse(width.Groups[0].Value.Replace("-w ", string.Empty)); if (height.Success) parsed.Height = int.Parse(height.Groups[0].Value.Replace("-l ", string.Empty)); if (maxWidth.Success) parsed.MaxWidth = int.Parse(maxWidth.Groups[0].Value.Replace("-X ", string.Empty)); if (maxHeight.Success) parsed.MaxHeight = int.Parse(maxHeight.Groups[0].Value.Replace("-Y ", string.Empty)); if (crop.Success) { try { string values = crop.ToString().Replace("--crop ", string.Empty); string[] actCropValues = values.Split(':'); parsed.Cropping = new Cropping( int.Parse(actCropValues[0]), int.Parse(actCropValues[1]), int.Parse(actCropValues[2]), int.Parse(actCropValues[3])); parsed.HasCropping = true; } catch (Exception) { parsed.Cropping = null; parsed.HasCropping = false; // No need to do anything. } } if (strictAnamorphic.Success) parsed.Anamorphic = Anamorphic.Strict; else if (looseAnamorphic.Success) parsed.Anamorphic = Anamorphic.Loose; else if (customAnamorphic.Success) parsed.Anamorphic = Anamorphic.Custom; else parsed.Anamorphic = Anamorphic.None; parsed.KeepDisplayAspect = keepDisplayAsect.Success; if (displayWidth.Success) parsed.DisplayWidth = double.Parse(displayWidth.Groups[0].Value.Replace("--display-width ", string.Empty), Culture); if (pixelAspect.Success) parsed.PixelAspectX = int.Parse(pixelAspect.Groups[1].Value.Replace("--pixel-aspect ", string.Empty)); if (pixelAspect.Success && pixelAspect.Groups.Count >= 3) parsed.PixelAspectY = int.Parse(pixelAspect.Groups[2].Value.Replace("--pixel-aspect ", string.Empty)); if (modulus.Success) parsed.Modulus = int.Parse(modulus.Groups[0].Value.Replace("--modulus ", string.Empty)); #endregion #region Filters parsed.Decomb = Decomb.Off; if (decomb.Success) { parsed.Decomb = Decomb.Default; if (decombValue.Success) { string value = decombValue.ToString().Replace("--decomb=", string.Empty).Replace("\"", string.Empty).Trim(); if (value == "bob") { parsed.Decomb = Decomb.Bob; } else if (value == "fast") { parsed.Decomb = Decomb.Fast; } else { parsed.CustomDecomb = value; parsed.Decomb = parsed.CustomDecomb == "7:2:6:9:1:80" ? Decomb.Fast : Decomb.Custom; } } } parsed.Deinterlace = Deinterlace.Off; if (deinterlace.Success) { switch (deinterlace.ToString().Replace("--deinterlace=", string.Empty).Replace("\"", string.Empty).ToLower()) { case "fast": parsed.Deinterlace = Deinterlace.Fast; break; case "slow": parsed.Deinterlace = Deinterlace.Slow; break; case "slower": parsed.Deinterlace = Deinterlace.Slower; break; case "bob": parsed.Deinterlace = Deinterlace.Bob; break; default: parsed.Deinterlace = Deinterlace.Custom; parsed.CustomDeinterlace = deinterlace.ToString().Replace("--deinterlace=", string.Empty).Replace("\"", string.Empty).ToLower(); break; } } parsed.Denoise = Denoise.Off; if (denoise.Success) { parsed.Denoise = Denoise.hqdn3d; switch (denoise.ToString().Replace("--denoise=", string.Empty).Replace("\"", string.Empty)) { case "weak": parsed.DenoisePreset = DenoisePreset.Weak; break; case "medium": parsed.DenoisePreset = DenoisePreset.Medium; break; case "strong": parsed.DenoisePreset = DenoisePreset.Strong; break; default: parsed.DenoisePreset = DenoisePreset.Custom; parsed.CustomDenoise = denoise.ToString().Replace("--denoise=", string.Empty).Replace("\"", string.Empty); break; } } if (nlmeans.Success) { parsed.Denoise = Denoise.NlMeans; switch (nlmeans.ToString().Replace("--nlmeans=", string.Empty).Replace("\"", string.Empty)) { case "ultralight": parsed.DenoisePreset = DenoisePreset.Ultralight; break; case "light": parsed.DenoisePreset = DenoisePreset.Light; break; case "medium": parsed.DenoisePreset = DenoisePreset.Medium; break; case "strong": parsed.DenoisePreset = DenoisePreset.Strong; break; } if (nlmeansTune.Success) { switch (nlmeansTune.ToString().Replace("--nlmeans-tune=", string.Empty).Replace("\"", string.Empty)) { case "animation": parsed.DenoiseTune = DenoiseTune.Animation; break; case "film": parsed.DenoiseTune = DenoiseTune.Film; break; case "grain": parsed.DenoiseTune = DenoiseTune.Grain; break; case "highmotion": parsed.DenoiseTune = DenoiseTune.HighMotion; break; } } } parsed.Deblock = 0; if (deblock.Success) { int dval; int.TryParse(deblock.ToString().Replace("--deblock=", string.Empty), out dval); parsed.Deblock = dval; } parsed.Detelecine = Detelecine.Off; if (detelecine.Success) { parsed.Detelecine = Detelecine.Default; if (detelecineValue.Success) { parsed.CustomDetelecine = detelecineValue.ToString().Replace("--detelecine=", string.Empty).Replace("\"", string.Empty); parsed.Detelecine = Detelecine.Custom; } } #endregion #region Video Settings Tab parsed.VideoEncoder = videoEncoder.Success ? Converters.GetVideoEncoder(videoEncoder.ToString().Replace("-e ", string.Empty)) : VideoEncoder.FFMpeg; if (videoFramerate.Success) { double fps; double.TryParse(videoFramerate.Groups[1].ToString(), NumberStyles.Any, CultureInfo.InvariantCulture, out fps); parsed.Framerate = fps; } if (pfr.Success) parsed.FramerateMode = FramerateMode.PFR; else if (cfr.Success) parsed.FramerateMode = FramerateMode.CFR; else parsed.FramerateMode = FramerateMode.VFR; // Default to VFR parsed.Grayscale = grayscale.Success; parsed.TwoPass = twoPass.Success; parsed.TurboFirstPass = turboFirstPass.Success; if (videoBitrate.Success) { parsed.VideoEncodeRateType = VideoEncodeRateType.AverageBitrate; parsed.VideoBitrate = int.Parse(videoBitrate.ToString().Replace("-b ", string.Empty)); } if (videoQuality.Success) { float quality = float.Parse(videoQuality.ToString().Replace("-q ", string.Empty), Culture); parsed.Quality = quality; parsed.VideoEncodeRateType = VideoEncodeRateType.ConstantQuality; } #endregion #region Audio Tab // Find out how many tracks we need to add by checking how many encoders or audio tracks are selected. int encoderCount = 0; if (audioEncoders.Success) { string[] audioDataCounters = audioEncoders.ToString().Replace("-E ", string.Empty).Split(','); encoderCount = audioDataCounters.Length; } // Get the data from the regular expression results string[] trackMixes = null; string[] trackEncoders = null; string[] trackBitrates = null; string[] trackSamplerates = null; string[] trackDRCvalues = null; string[] trackGainValues = null; if (audioTrackMixes.Success) trackMixes = audioTrackMixes.ToString().Replace("-6 ", string.Empty).Split(','); if (audioEncoders.Success) trackEncoders = audioEncoders.ToString().Replace("-E ", string.Empty).Split(','); if (audioBitrates.Success) trackBitrates = audioBitrates.ToString().Replace("-B ", string.Empty).Split(','); if (audioSampleRates.Success) trackSamplerates = audioSampleRates.ToString().Replace("-R ", string.Empty).Split(','); if (drcValues.Success) trackDRCvalues = drcValues.ToString().Replace("-D ", string.Empty).Split(','); if (gainValues.Success) trackGainValues = gainValues.ToString().Replace("--gain=", string.Empty).Split(','); // Create new Audio Track Classes and store them in the ArrayList ObservableCollection<AudioTrack> allAudioTrackInfo = new ObservableCollection<AudioTrack>(); for (int x = 0; x < encoderCount; x++) { AudioTrack track = new AudioTrack(); if (trackMixes != null) if (trackMixes.Length >= (x + 1)) // Audio Mix track.MixDown = Converters.GetAudioMixDown(Converters.GetMixDown(trackMixes[x].Trim())); if (trackEncoders != null) if (trackEncoders.Length >= (x + 1)) // Audio Mix track.Encoder = Converters.GetAudioEncoderFromCliString(trackEncoders[x].Trim()); if (trackBitrates != null) if (trackBitrates.Length >= (x + 1)) // Audio Encoder track.Bitrate = int.Parse(trackBitrates[x].Trim() == "auto" ? "0" : trackBitrates[x].Trim()); if (trackSamplerates != null) if (trackSamplerates.Length >= (x + 1)) // Audio SampleRate track.SampleRate = double.Parse(trackSamplerates[x].Replace("Auto", "0").Trim(), Culture); if (trackDRCvalues != null) if (trackDRCvalues.Length >= (x + 1)) // Audio DRC Values track.DRC = double.Parse(trackDRCvalues[x].Trim(), Culture); if (trackGainValues != null) if (trackGainValues.Length >= (x + 1)) // Audio DRC Values track.Gain = int.Parse(trackGainValues[x].Trim()); allAudioTrackInfo.Add(track); } parsed.AudioTracks = allAudioTrackInfo; if (fallbackEncoder.Success) { parsed.AllowedPassthruOptions.AudioEncoderFallback = Converters.GetAudioEncoderFromCliString(fallbackEncoder.Groups[1].ToString().Trim()); } if (allowedPassthru.Success) { string[] allowedEncoders = allowedPassthru.Groups[1].ToString().Trim().Split(','); parsed.AllowedPassthruOptions.AudioAllowAACPass = allowedEncoders.Contains("aac"); parsed.AllowedPassthruOptions.AudioAllowAC3Pass = allowedEncoders.Contains("ac3"); parsed.AllowedPassthruOptions.AudioAllowDTSHDPass = allowedEncoders.Contains("dtshd"); parsed.AllowedPassthruOptions.AudioAllowDTSPass = allowedEncoders.Contains("dts"); parsed.AllowedPassthruOptions.AudioAllowMP3Pass = allowedEncoders.Contains("mp3"); } #endregion #region Chapters Tab if (chapterMarkersFileMode.Success || chapterMarkers.Success) parsed.IncludeChapterMarkers = true; #endregion #region Advanced and other if (advanced.Success) parsed.AdvancedEncoderOptions = advanced.ToString().Replace("-x ", string.Empty); if (x264Preset.Success) parsed.X264Preset = Converters.Getx264PresetFromCli(x264Preset.ToString().Replace("--x264-preset", string.Empty).Replace("=", string.Empty).Trim()); if (h264Profile.Success) parsed.H264Profile = Converters.Getx264ProfileFromCli(h264Profile.ToString().Replace("--h264-profile", string.Empty).Replace("=", string.Empty).Trim()); if (x264Profile.Success) parsed.H264Profile = Converters.Getx264ProfileFromCli(x264Profile.ToString().Replace("--x264-profile", string.Empty).Replace("=", string.Empty).Trim()); if (h264Level.Success) parsed.H264Level = h264Level.ToString().Replace("--h264-level", string.Empty).Replace("=", string.Empty).Trim(); if (x264Tune.Success) { string tuneOptions = x264Tune.ToString().Replace("--x264-tune", string.Empty).Replace("=", string.Empty).Trim(); parsed.FastDecode = tuneOptions.Contains("fastdecode"); // Remove these options. They are not in the dropdown. tuneOptions = tuneOptions.Replace("fastdecode", string.Empty).Replace( ",", string.Empty); parsed.X264Tune = Converters.Getx264TuneFromCli(tuneOptions); } if (x265Preset.Success) parsed.X265Preset = Converters.Getx265PresetFromCli(x265Preset.ToString().Replace("--x265-preset", string.Empty).Replace("=", string.Empty).Trim()); if (h264Profile.Success) parsed.H265Profile = Converters.Getx265ProfileFromCli(h264Profile.ToString().Replace("--h265-profile", string.Empty).Replace("=", string.Empty).Trim()); if (x265Profile.Success) parsed.H265Profile = Converters.Getx265ProfileFromCli(x265Profile.ToString().Replace("--x265-profile", string.Empty).Replace("=", string.Empty).Trim()); if (x265Tune.Success) { string tuneOptions = x265Tune.ToString().Replace("--x265-tune", string.Empty).Replace("=", string.Empty).Trim(); parsed.FastDecode = tuneOptions.Contains("fastdecode"); // Remove these options. They are not in the dropdown. tuneOptions = tuneOptions.Replace("fastdecode", string.Empty).Replace( ",", string.Empty); parsed.X265Tune = Converters.Getx265TuneFromCli(tuneOptions); } #endregion } catch (Exception exc) { throw new Exception("An error has occured in the QueryParser Utility.", exc); } #endregion return parsed; }