public void RemoveAudioEncoding(AudioEncodingViewModel audioEncodingVM) { this.audioEncodings.Remove(audioEncodingVM); audioEncodingVM.Dispose(); this.RefreshAudioPreview(); this.UpdateAudioEncodings(); }
public void RemoveAudioEncoding(AudioEncodingViewModel audioEncodingVM) { this.AudioEncodings.Remove(audioEncodingVM); this.RaisePropertyChanged(() => this.HasAudioTracks); this.RefreshAudioPreview(); this.UpdateAudioEncodings(); this.IsModified = true; }
public AudioOutputPreview GetAudioPreview(SourceAudioTrack inputTrack, AudioEncodingViewModel audioVM) { HBAudioEncoder encoder = audioVM.HBAudioEncoder; var outputPreviewTrack = new AudioOutputPreview { Name = inputTrack.Description, Encoder = encoder.DisplayName }; if (encoder.IsPassthrough) { // For passthrough encodes, we need to make sure the input track is of the right type if (!HandBrakeEncoderHelpers.AudioEncoderIsCompatible(inputTrack.Codec, encoder) && encoder.ShortName != "copy") { return(null); } } if (encoder.ShortName == "copy") { if (this.copyMaskChoices.Items.Any( choice => { if (!choice.Enabled) { return(false); } return((HandBrakeEncoderHelpers.GetAudioEncoder("copy:" + choice.Codec).Id & inputTrack.Codec) > 0); })) { return(outputPreviewTrack); } if (this.Profile.AudioEncoderFallback == null) { encoder = HandBrakeEncoderHelpers.AudioEncoders.First(a => !a.IsPassthrough); } else { // The fallback is explicitly set to "None", so drop the track. if (this.Profile.AudioEncoderFallback == "none") { return(null); } encoder = HandBrakeEncoderHelpers.GetAudioEncoder(this.Profile.AudioEncoderFallback); } // Get the default output values for the input track and encoder var defaultSettings = AudioUtilities.GetDefaultSettings(inputTrack, encoder); // Apply the output values to the preview object UpdateAudioPreviewTrack(outputPreviewTrack, defaultSettings); } else { HBMixdown previewMixdown; previewMixdown = HandBrakeEncoderHelpers.SanitizeMixdown(audioVM.SelectedMixdown.Mixdown, encoder, (ulong)inputTrack.ChannelLayout); int previewSampleRate = audioVM.SampleRate; if (previewSampleRate == 0) { previewSampleRate = inputTrack.SampleRate; } // Collect the output values in the AudioTrack object var outputTrack = new OutputAudioTrackInfo { Encoder = encoder, Mixdown = previewMixdown, SampleRate = HandBrakeEncoderHelpers.SanitizeSampleRate(encoder, previewSampleRate), EncodeRateType = audioVM.EncodeRateType }; if (audioVM.EncodeRateType == AudioEncodeRateType.Bitrate) { int previewBitrate = audioVM.SelectedBitrate.Bitrate; if (previewBitrate == 0) { previewBitrate = HandBrakeEncoderHelpers.GetDefaultBitrate(encoder, previewSampleRate, previewMixdown); } else { previewBitrate = HandBrakeEncoderHelpers.SanitizeAudioBitrate(previewBitrate, encoder, previewSampleRate, previewMixdown); } outputTrack.Bitrate = previewBitrate; } else { outputTrack.Quality = audioVM.AudioQuality; } outputTrack.Gain = audioVM.Gain; outputTrack.Drc = audioVM.Drc; // Apply the output values to the preview object UpdateAudioPreviewTrack(outputPreviewTrack, outputTrack); } return(outputPreviewTrack); }
public AudioOutputPreview GetAudioPreview(AudioTrack inputTrack, AudioEncodingViewModel audioVM) { HBAudioEncoder encoder = audioVM.HBAudioEncoder; var outputPreviewTrack = new AudioOutputPreview { Name = inputTrack.NoTrackDisplay, Encoder = encoder.DisplayName }; if (encoder.IsPassthrough) { // For passthrough encodes, we need to make sure the input track is of the right type if (!Encoders.AudioEncoderIsCompatible(inputTrack, encoder) && encoder.ShortName != "copy") { return null; } HBContainer container = Encoders.GetContainer(this.Profile.ContainerName); if (encoder.ShortName == "copy" && (inputTrack.Codec == AudioCodec.Dts || inputTrack.Codec == AudioCodec.DtsHD) && container.DefaultExtension == "mp4") { this.PassthroughWarningText = EncodingRes.DtsMp4Warning; this.PassthroughWarningVisible = true; return outputPreviewTrack; } } // Find out what the real mixdown, sample rate and bitrate will be. HBMixdown mixdown; int sampleRate, bitrate; if (encoder.ShortName == "copy") { if (Encoders.AudioEncoderIsCompatible(inputTrack, encoder)) { return outputPreviewTrack; } if (this.Profile.AudioEncoderFallback == null) { encoder = Encoders.AudioEncoders.First(a => !a.IsPassthrough); } else { encoder = Encoders.GetAudioEncoder(this.Profile.AudioEncoderFallback); } mixdown = Encoders.GetDefaultMixdown(encoder, inputTrack.ChannelLayout); sampleRate = 0; bitrate = 0; outputPreviewTrack.Encoder = encoder.DisplayName; } else { mixdown = audioVM.SelectedMixdown.Mixdown; sampleRate = audioVM.SampleRate; bitrate = audioVM.SelectedBitrate.Bitrate; } HBMixdown previewMixdown; previewMixdown = Encoders.SanitizeMixdown(mixdown, encoder, inputTrack.ChannelLayout); int previewSampleRate = sampleRate; if (previewSampleRate == 0) { previewSampleRate = inputTrack.SampleRate; } int previewBitrate = bitrate; if (previewBitrate == 0) { previewBitrate = Encoders.GetDefaultBitrate(encoder, previewSampleRate, previewMixdown); } else { previewBitrate = Encoders.SanitizeAudioBitrate(previewBitrate, encoder, previewSampleRate, previewMixdown); } outputPreviewTrack.Mixdown = previewMixdown.DisplayName; outputPreviewTrack.SampleRate = DisplayConversions.DisplaySampleRate(previewSampleRate); if (audioVM.EncodeRateType == AudioEncodeRateType.Bitrate) { if (previewBitrate >= 0) { outputPreviewTrack.Quality = previewBitrate + " kbps"; } else { outputPreviewTrack.Quality = string.Empty; } } else { outputPreviewTrack.Quality = "CQ " + audioVM.AudioQuality; } var modifiers = new List<string>(); if (audioVM.Gain != 0) { modifiers.Add(string.Format("{0}{1} dB", audioVM.Gain > 0 ? "+" : string.Empty, audioVM.Gain)); } if (audioVM.Drc != 0) { modifiers.Add("DRC " + audioVM.Drc.ToString()); } outputPreviewTrack.Modifiers = string.Join(", ", modifiers); return outputPreviewTrack; }
public void RemoveAudioEncoding(AudioEncodingViewModel audioEncodingVM) { this.AudioEncodings.Remove(audioEncodingVM); this.RaisePropertyChanged(() => this.HasAudioTracks); this.RefreshAudioPreview(); this.UpdateAudioEncodings(); this.IsModified = true; }
public AudioOutputPreview GetAudioPreview(AudioTrack inputTrack, AudioEncodingViewModel audioVM) { HBAudioEncoder encoder = audioVM.HBAudioEncoder; var outputPreviewTrack = new AudioOutputPreview { Name = inputTrack.NoTrackDisplay, Encoder = encoder.DisplayName }; if (encoder.IsPassthrough) { // For passthrough encodes, we need to make sure the input track is of the right type if (!Encoders.AudioEncoderIsCompatible(inputTrack, encoder) && encoder.ShortName != "copy") { return(null); } HBContainer container = Encoders.GetContainer(this.Profile.ContainerName); if (encoder.ShortName == "copy" && (inputTrack.Codec == AudioCodec.Dts || inputTrack.Codec == AudioCodec.DtsHD) && container.DefaultExtension == "mp4") { this.PassthroughWarningText = EncodingRes.DtsMp4Warning; this.PassthroughWarningVisible = true; return(outputPreviewTrack); } } // Find out what the real mixdown, sample rate and bitrate will be. HBMixdown mixdown; int sampleRate, bitrate; if (encoder.ShortName == "copy") { if (Encoders.AudioEncoderIsCompatible(inputTrack, encoder)) { return(outputPreviewTrack); } if (this.Profile.AudioEncoderFallback == null) { encoder = Encoders.AudioEncoders.First(a => !a.IsPassthrough); } else { encoder = Encoders.GetAudioEncoder(this.Profile.AudioEncoderFallback); } mixdown = Encoders.GetDefaultMixdown(encoder, inputTrack.ChannelLayout); sampleRate = 0; bitrate = 0; outputPreviewTrack.Encoder = encoder.DisplayName; } else { mixdown = audioVM.SelectedMixdown.Mixdown; sampleRate = audioVM.SampleRate; bitrate = audioVM.SelectedBitrate.Bitrate; } HBMixdown previewMixdown; previewMixdown = Encoders.SanitizeMixdown(mixdown, encoder, inputTrack.ChannelLayout); int previewSampleRate = sampleRate; if (previewSampleRate == 0) { previewSampleRate = inputTrack.SampleRate; } int previewBitrate = bitrate; if (previewBitrate == 0) { previewBitrate = Encoders.GetDefaultBitrate(encoder, previewSampleRate, previewMixdown); } else { previewBitrate = Encoders.SanitizeAudioBitrate(previewBitrate, encoder, previewSampleRate, previewMixdown); } outputPreviewTrack.Mixdown = previewMixdown.DisplayName; outputPreviewTrack.SampleRate = DisplayConversions.DisplaySampleRate(previewSampleRate); if (audioVM.EncodeRateType == AudioEncodeRateType.Bitrate) { if (previewBitrate >= 0) { outputPreviewTrack.Quality = previewBitrate + " kbps"; } else { outputPreviewTrack.Quality = string.Empty; } } else { outputPreviewTrack.Quality = "CQ " + audioVM.AudioQuality; } var modifiers = new List <string>(); if (audioVM.Gain != 0) { modifiers.Add(string.Format("{0}{1} dB", audioVM.Gain > 0 ? "+" : string.Empty, audioVM.Gain)); } if (audioVM.Drc != 0) { modifiers.Add("DRC " + audioVM.Drc.ToString()); } outputPreviewTrack.Modifiers = string.Join(", ", modifiers); return(outputPreviewTrack); }
public AudioOutputPreview GetAudioPreview(SourceAudioTrack inputTrack, AudioEncodingViewModel audioVM) { HBAudioEncoder encoder = audioVM.HBAudioEncoder; var outputPreviewTrack = new AudioOutputPreview { Name = inputTrack.Description, Encoder = encoder.DisplayName }; if (encoder.IsPassthrough) { // For passthrough encodes, we need to make sure the input track is of the right type if (!HandBrakeEncoderHelpers.AudioEncoderIsCompatible(inputTrack.Codec, encoder) && encoder.ShortName != "copy") { return(null); } } // Find out what the real mixdown, sample rate and bitrate will be. HBMixdown mixdown; int sampleRate, bitrate; if (encoder.ShortName == "copy") { if (this.CopyMaskChoices.Any( choice => { if (!choice.Enabled) { return(false); } return((HandBrakeEncoderHelpers.GetAudioEncoder("copy:" + choice.Codec).Id & inputTrack.Codec) > 0); })) { return(outputPreviewTrack); } if (this.Profile.AudioEncoderFallback == null) { encoder = HandBrakeEncoderHelpers.AudioEncoders.First(a => !a.IsPassthrough); } else { encoder = HandBrakeEncoderHelpers.GetAudioEncoder(this.Profile.AudioEncoderFallback); } mixdown = HandBrakeEncoderHelpers.GetDefaultMixdown(encoder, (ulong)inputTrack.ChannelLayout); sampleRate = 0; bitrate = 0; outputPreviewTrack.Encoder = encoder.DisplayName; } else { mixdown = audioVM.SelectedMixdown.Mixdown; sampleRate = audioVM.SampleRate; bitrate = audioVM.SelectedBitrate.Bitrate; } HBMixdown previewMixdown; previewMixdown = HandBrakeEncoderHelpers.SanitizeMixdown(mixdown, encoder, (ulong)inputTrack.ChannelLayout); int previewSampleRate = sampleRate; if (previewSampleRate == 0) { previewSampleRate = inputTrack.SampleRate; } int previewBitrate = bitrate; if (previewBitrate == 0) { previewBitrate = HandBrakeEncoderHelpers.GetDefaultBitrate(encoder, previewSampleRate, previewMixdown); } else { previewBitrate = HandBrakeEncoderHelpers.SanitizeAudioBitrate(previewBitrate, encoder, previewSampleRate, previewMixdown); } outputPreviewTrack.Mixdown = previewMixdown.DisplayName; outputPreviewTrack.SampleRate = DisplayConversions.DisplaySampleRate(previewSampleRate); if (audioVM.EncodeRateType == AudioEncodeRateType.Bitrate) { if (previewBitrate >= 0) { outputPreviewTrack.Quality = previewBitrate + " kbps"; } else { outputPreviewTrack.Quality = string.Empty; } } else { outputPreviewTrack.Quality = "CQ " + audioVM.AudioQuality; } var modifiers = new List <string>(); if (audioVM.Gain != 0) { modifiers.Add(string.Format("{0}{1} dB", audioVM.Gain > 0 ? "+" : string.Empty, audioVM.Gain)); } if (audioVM.Drc != 0) { modifiers.Add("DRC " + audioVM.Drc.ToString()); } outputPreviewTrack.Modifiers = string.Join(", ", modifiers); return(outputPreviewTrack); }