public OneClickPostprocessingProperties() { signalAR = false; autoCrop = true; keepInputResolution = false; ar = null; avsSettings = new AviSynthSettings(); horizontalOutputResolution = 720; customAR = 1.0; container = MeGUI.ContainerType.MKV; outputSize = null; splitSize = null; prerenderJob = false; deviceType = null; useChapterMarks = false; filesToDelete = new List <string>(); _audioTracks = new List <OneClickAudioTrack>(); _subtitleTrack = new List <OneClickStream>(); _videoFileToMux = null; _intermediateMKVFile = null; _oneClickSettings = null; _filesToProcess = new List <OneClickFilesToProcess>(); chapterExtracted = false; _titleNumberToProcess = 1; eac3toDemux = false; ifoFile = string.Empty; applyDelayCorrection = false; }
public DGIndexPostprocessingProperties() { autoDeriveAR = false; signalAR = false; ar = null; avsSettings = new AviSynthSettings(); horizontalOutputResolution = 640; customAR = 1.0; container = MeGUI.ContainerType.MKV; outputSize = null; splitSize = null; }
public DGIndexPostprocessingProperties() { autoDeriveAR = false; signalAR = false; ar = AspectRatio.A1x1; audioStreams = new OneClickWindow.PartialAudioStream[2]; avsSettings = new AviSynthSettings(); horizontalOutputResolution = 640; customAR = 1.0; container = MeGUI.ContainerType.MKV; outputSize = 734003200; // 700 mb splitSize = 0; }
public DGIndexPostprocessingProperties() { autoDeriveAR = false; signalAR = false; autoCrop = true; keepInputResolution = false; ar = null; avsSettings = new AviSynthSettings(); horizontalOutputResolution = 640; customAR = 1.0; container = MeGUI.ContainerType.MKV; outputSize = null; splitSize = null; prerenderJob = false; deviceType = null; useChapterMarks = false; }
/// <summary> /// creates the AVS Script file /// if the file can be properly opened, auto-cropping is performed, then depending on the AR settings /// the proper resolution for automatic resizing, taking into account the derived cropping values /// is calculated, and finally the avisynth script is written and its name returned /// </summary> /// <param name="path">dgindex script</param> /// <param name="aspectRatio">aspect ratio selection to be used</param> /// <param name="customDAR">custom display aspect ratio for this source</param> /// <param name="desiredOutputWidth">desired horizontal resolution of the output</param> /// <param name="settings">the codec settings (used only for x264)</param> /// <param name="sarX">pixel aspect ratio X</param> /// <param name="sarY">pixel aspect ratio Y</param> /// <param name="height">the final height of the video</param> /// <param name="signalAR">whether or not ar signalling is to be used for the output /// (depending on this parameter, resizing changes to match the source AR)</param> /// <param name="autoCrop">whether or not autoCrop is used for the input</param> /// <returns>the name of the AviSynth script created, empty if there was an error</returns> private string createAVSFile(string indexFile, string inputFile, Dar?AR, int desiredOutputWidth, bool signalAR, LogItem _log, AviSynthSettings avsSettings, bool autoDeint, VideoCodecSettings settings, out Dar?dar, bool autoCrop, bool keepInputResolution, bool useChaptersMarks) { dar = null; Dar customDAR; IMediaFile iMediaFile = null; IVideoReader reader; PossibleSources oPossibleSource; x264Device xTargetDevice = null; int outputWidthIncludingPadding = 0; int outputHeightIncludingPadding = 0; int outputWidthCropped = 0; int outputHeightCropped = 0; CropValues cropValues = new CropValues(); bool bAdjustResolution = false; bool bCropped = false; // open index file to retrieve information if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGI) { iMediaFile = new dgiFile(indexFile); oPossibleSource = PossibleSources.dgi; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.D2V) { iMediaFile = new d2vFile(indexFile); oPossibleSource = PossibleSources.d2v; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGA) { iMediaFile = new dgaFile(indexFile); oPossibleSource = PossibleSources.dga; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.FFMS) { iMediaFile = new ffmsFile(inputFile, indexFile); oPossibleSource = PossibleSources.ffindex; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.AVISOURCE) { string tempAvs = "AVISource(\"" + inputFile + "\", audio=false)" + VideoUtil.getAssumeFPS(0, inputFile); iMediaFile = AvsFile.ParseScript(tempAvs); oPossibleSource = PossibleSources.directShow; } else { iMediaFile = AvsFile.OpenScriptFile(inputFile); oPossibleSource = PossibleSources.avs; } reader = iMediaFile.GetVideoReader(); // abort if the index file is invalid if (reader.FrameCount < 1) { _log.Error("There are 0 frames in the index file. Aborting..."); return(""); } if (AR == null) { // AR needs to be detected automatically now _log.LogValue("Auto-detect aspect ratio", AR == null); customDAR = iMediaFile.VideoInfo.DAR; if (customDAR.ar <= 0) { customDAR = Dar.ITU16x9PAL; _log.Warn(string.Format("No aspect ratio found, defaulting to {0}.", customDAR)); } } else { customDAR = AR.Value; } _log.LogValue("Aspect ratio", customDAR); // check x264 settings (target device, chapter file) if (settings != null && settings is x264Settings) { x264Settings xs = (x264Settings)settings; xTargetDevice = xs.TargetDevice; // create qpf file if necessary if (!String.IsNullOrEmpty(job.PostprocessingProperties.ChapterFile) && useChaptersMarks) { qpfile = job.PostprocessingProperties.ChapterFile; if ((Path.GetExtension(qpfile).ToLower(System.Globalization.CultureInfo.InvariantCulture)) == ".txt") { qpfile = VideoUtil.convertChaptersTextFileTox264QPFile(job.PostprocessingProperties.ChapterFile, iMediaFile.VideoInfo.FPS); } if (File.Exists(qpfile)) { xs.UseQPFile = true; xs.QPFile = qpfile; } } } // if encoding for a specific device select the appropriate resolution setting if (xTargetDevice != null && xTargetDevice.Width > 0 && xTargetDevice.Height > 0) { if (keepInputResolution) { // resolution should not be changed - use input resolution outputWidthCropped = (int)iMediaFile.VideoInfo.Width; outputHeightCropped = (int)iMediaFile.VideoInfo.Height; } else { // crop input video if selected if (autoCrop) { if (Autocrop.autocrop(out cropValues, reader, signalAR, avsSettings.Mod16Method) == false) { _log.Error("Autocrop failed. Aborting..."); return(""); } bCropped = true; } outputWidthCropped = desiredOutputWidth; outputHeightCropped = Resolution.suggestResolution(iMediaFile.VideoInfo.Height, iMediaFile.VideoInfo.Width, (double)customDAR.ar, cropValues, outputWidthCropped, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); dar = null; } if (xTargetDevice.Width < outputWidthCropped) { // width must be lowered to be target conform bAdjustResolution = true; if (keepInputResolution) { keepInputResolution = false; _log.LogEvent("Disabling \"Keep Input Resolution\" as " + xTargetDevice.Name + " does not support a resolution width of " + outputWidthCropped + ". The maximum value is " + xTargetDevice.Width + "."); } } else if (xTargetDevice.Height < outputHeightCropped) { // height must be lowered to be target conform bAdjustResolution = true; if (keepInputResolution) { keepInputResolution = false; _log.LogEvent("Disabling \"Keep Input Resolution\" as " + xTargetDevice.Name + " does not support a resolution height of " + outputHeightCropped + ". The maximum value is " + xTargetDevice.Height + "."); } } else if (xTargetDevice.BluRay) { string strResolution = outputWidthCropped + "x" + outputHeightCropped; if (!strResolution.Equals("1920x1080") && !strResolution.Equals("1440x1080") && !strResolution.Equals("1280x720") && !strResolution.Equals("720x576") && !strResolution.Equals("720x480")) { bAdjustResolution = true; if (keepInputResolution) { keepInputResolution = false; _log.LogEvent("Disabling \"Keep Input Resolution\" as " + xTargetDevice.Name + " does not support a resolution of " + outputWidthCropped + "x" + outputHeightCropped + ". Supported are 1920x1080, 1440x1080, 1280x720, 720x576 and 720x480."); } } else { outputWidthIncludingPadding = outputWidthCropped; outputHeightIncludingPadding = outputHeightCropped; } } if (bAdjustResolution) { if (!autoCrop) { autoCrop = true; _log.LogEvent("Enabling \"AutoCrop\""); } } } else { outputWidthCropped = desiredOutputWidth; } if (!keepInputResolution && autoCrop && !bCropped) { // crop input video if required if (Autocrop.autocrop(out cropValues, reader, signalAR, avsSettings.Mod16Method) == false) { _log.Error("Autocrop failed. Aborting..."); return(""); } bCropped = true; } if (bAdjustResolution) { // adjust horizontal resolution as width or height are too large if (xTargetDevice.BluRay) { if (outputWidthCropped >= 1920) { outputWidthCropped = 1920; outputHeightIncludingPadding = 1080; _log.LogEvent("Force resolution of 1920x1080 as required for " + xTargetDevice.Name); } else if (outputWidthCropped >= 1280) { outputWidthCropped = 1280; outputHeightIncludingPadding = 720; _log.LogEvent("Force resolution of 1280x720 as required for " + xTargetDevice.Name); } else { outputWidthCropped = 720; Double dfps = Convert.ToDouble(iMediaFile.VideoInfo.FPS_N) / iMediaFile.VideoInfo.FPS_D; if (dfps == 25) { outputHeightIncludingPadding = 576; _log.LogEvent("Force resolution of 720x576 as required for " + xTargetDevice.Name); } else { outputHeightIncludingPadding = 480; _log.LogEvent("Force resolution of 720x480 as required for " + xTargetDevice.Name); } } outputWidthIncludingPadding = outputWidthCropped; } else if (outputWidthCropped > xTargetDevice.Width) { outputWidthCropped = xTargetDevice.Width; _log.LogEvent("Set resolution width to " + outputWidthCropped + " as required for " + xTargetDevice.Name); } // adjust cropped vertical resolution outputHeightCropped = Resolution.suggestResolution(iMediaFile.VideoInfo.Height, iMediaFile.VideoInfo.Width, (double)customDAR.ar, cropValues, outputWidthCropped, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); while (outputHeightCropped > xTargetDevice.Height || (xTargetDevice.BluRay && outputHeightCropped > outputHeightIncludingPadding)) { outputWidthCropped -= 16; outputHeightCropped = Resolution.suggestResolution(iMediaFile.VideoInfo.Height, iMediaFile.VideoInfo.Width, (double)customDAR.ar, cropValues, outputWidthCropped, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); } } if (keepInputResolution) { outputWidthCropped = outputWidthIncludingPadding = (int)iMediaFile.VideoInfo.Width; outputHeightCropped = outputHeightIncludingPadding = (int)iMediaFile.VideoInfo.Height; dar = customDAR; } else if (xTargetDevice == null || (xTargetDevice != null && !xTargetDevice.BluRay)) { // Minimise upsizing int sourceHorizontalResolution = (int)iMediaFile.VideoInfo.Width - cropValues.right - cropValues.left; if (autoCrop) { sourceHorizontalResolution = (int)iMediaFile.VideoInfo.Width; } if (outputWidthCropped > sourceHorizontalResolution) { if (avsSettings.Mod16Method == mod16Method.resize) { while (outputWidthCropped > sourceHorizontalResolution + 16) { outputWidthCropped -= 16; } } else { outputWidthCropped = sourceHorizontalResolution; } } } // calculate height if (!keepInputResolution) { outputHeightCropped = Resolution.suggestResolution(iMediaFile.VideoInfo.Height, iMediaFile.VideoInfo.Width, (double)customDAR.ar, cropValues, outputWidthCropped, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); } // set complete padding if required if (outputHeightIncludingPadding == 0 && outputWidthIncludingPadding > 0) { outputHeightIncludingPadding = outputHeightCropped; } if (outputWidthIncludingPadding == 0 && outputHeightIncludingPadding > 0) { outputWidthIncludingPadding = outputWidthCropped; } // write calculated output resolution into the log _log.LogValue("Input resolution", iMediaFile.VideoInfo.Width + "x" + iMediaFile.VideoInfo.Height); if (autoCrop && !keepInputResolution && cropValues.isCropped()) { _log.LogValue("Autocrop values", cropValues); _log.LogValue("Cropped output resolution", outputWidthCropped + "x" + outputHeightCropped); } else { _log.LogValue("Output resolution", outputWidthCropped + "x" + outputHeightCropped); } if (outputWidthIncludingPadding > 0 && (outputWidthIncludingPadding != outputWidthCropped || outputHeightIncludingPadding != outputHeightCropped)) { _log.LogValue("Padded output resolution", outputWidthIncludingPadding + "x" + outputHeightIncludingPadding); } if (outputWidthCropped <= 0 || outputHeightCropped <= 0) { _log.Error("Error in detection of output resolution"); return(""); } //Generate the avs script based on the template string inputLine = "#input"; string deinterlaceLines = "#deinterlace"; string denoiseLines = "#denoise"; string cropLine = "#crop"; string resizeLine = "#resize"; inputLine = ScriptServer.GetInputLine(inputFile, indexFile, false, oPossibleSource, false, false, false, 0, avsSettings.DSS2); if (!inputLine.EndsWith(")")) { inputLine += ")"; } _log.LogValue("Automatic deinterlacing", autoDeint); if (autoDeint) { raiseEvent("Automatic deinterlacing... ***PLEASE WAIT***"); string d2vPath = indexFile; SourceDetector sd = new SourceDetector(inputLine, d2vPath, false, mainForm.Settings.SourceDetectorSettings, new UpdateSourceDetectionStatus(analyseUpdate), new FinishedAnalysis(finishedAnalysis)); finished = false; sd.analyse(); waitTillAnalyseFinished(); sd.stop(); deinterlaceLines = filters[0].Script; if (interlaced) { _log.LogValue("Deinterlacing used", deinterlaceLines, ImageType.Warning); } else { _log.LogValue("Deinterlacing used", deinterlaceLines); } } raiseEvent("Finalizing preprocessing... ***PLEASE WAIT***"); inputLine = ScriptServer.GetInputLine(inputFile, indexFile, interlaced, oPossibleSource, avsSettings.ColourCorrect, avsSettings.MPEG2Deblock, false, 0, avsSettings.DSS2); if (!inputLine.EndsWith(")")) { inputLine += ")"; } if (!keepInputResolution && autoCrop) { cropLine = ScriptServer.GetCropLine(true, cropValues); } denoiseLines = ScriptServer.GetDenoiseLines(avsSettings.Denoise, (DenoiseFilterType)avsSettings.DenoiseMethod); if (!keepInputResolution) { resizeLine = ScriptServer.GetResizeLine(!signalAR || avsSettings.Mod16Method == mod16Method.resize || outputWidthIncludingPadding > 0 || (int)iMediaFile.VideoInfo.Width != outputWidthCropped, outputWidthCropped, outputHeightCropped, outputWidthIncludingPadding, outputHeightIncludingPadding, (ResizeFilterType)avsSettings.ResizeMethod, autoCrop, cropValues, (int)iMediaFile.VideoInfo.Width, (int)iMediaFile.VideoInfo.Height); } string newScript = ScriptServer.CreateScriptFromTemplate(avsSettings.Template, inputLine, cropLine, resizeLine, denoiseLines, deinterlaceLines); if (dar.HasValue) { newScript = string.Format("global MeGUI_darx = {0}\r\nglobal MeGUI_dary = {1}\r\n{2}", dar.Value.X, dar.Value.Y, newScript); } else { if (xTargetDevice != null && xTargetDevice.BluRay) { string strResolution = outputWidthIncludingPadding + "x" + outputHeightIncludingPadding; x264Settings _xs = (x264Settings)settings; if (strResolution.Equals("720x480")) { _xs.SampleAR = 4; _log.LogEvent("Set --sar to 10:11 as only 40:33 or 10:11 are supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("720x576")) { _xs.SampleAR = 5; _log.LogEvent("Set --sar to 12:11 as only 16:11 or 12:11 are supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("1280x720") || strResolution.Equals("1920x1080")) { _xs.SampleAR = 1; _log.LogEvent("Set --sar to 1:1 as only 1:1 is supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("1440x1080")) { _xs.SampleAR = 2; _log.LogEvent("Set --sar to 4:3 as only 4:3 is supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } } } _log.LogValue("Generated Avisynth script", newScript); string strOutputAVSFile; if (String.IsNullOrEmpty(indexFile)) { strOutputAVSFile = Path.ChangeExtension(Path.Combine(job.PostprocessingProperties.WorkingDirectory, Path.GetFileName(inputFile)), ".avs"); } else { strOutputAVSFile = Path.ChangeExtension(indexFile, ".avs"); } try { StreamWriter sw = new StreamWriter(strOutputAVSFile, false, System.Text.Encoding.Default); sw.Write(newScript); sw.Close(); } catch (IOException i) { _log.LogValue("Error saving AviSynth script", i, ImageType.Error); return(""); } return(strOutputAVSFile); }
void ProfileChanged(object sender, EventArgs e) { this.Settings = GetProfileSettings(); }
/// <summary> /// creates the AVS Script file /// if the file can be properly opened, auto-cropping is performed, then depending on the AR settings /// the proper resolution for automatic resizing, taking into account the derived cropping values /// is calculated, and finally the avisynth script is written and its name returned /// </summary> /// <param name="path">dgindex script</param> /// <param name="aspectRatio">aspect ratio selection to be used</param> /// <param name="customDAR">custom display aspect ratio for this source</param> /// <param name="desiredOutputWidth">desired horizontal resolution of the output</param> /// <param name="settings">the codec settings (used only for x264)</param> /// <param name="sarX">pixel aspect ratio X</param> /// <param name="sarY">pixel aspect ratio Y</param> /// <param name="height">the final height of the video</param> /// <param name="autoCrop">whether or not autoCrop is used for the input</param> /// <returns>the name of the AviSynth script created, empty if there was an error</returns> private string CreateAVSFile(string indexFile, string inputFile, Dar?AR, int desiredOutputWidth, LogItem _log, AviSynthSettings avsSettings, bool autoDeint, VideoCodecSettings settings, bool autoCrop, bool keepInputResolution, bool useChaptersMarks) { Dar? dar = null; Dar customDAR; IMediaFile iMediaFile = null; IVideoReader reader; PossibleSources oPossibleSource; x264Device xTargetDevice = null; CropValues cropValues = new CropValues(); int outputWidthIncludingPadding = 0; int outputHeightIncludingPadding = 0; int outputWidthCropped = 0; int outputHeightCropped = 0; // encode anamorph either when it is selected in the avs profile or the input resolution should not be touched bool signalAR = (avsSettings.Mod16Method != mod16Method.none) || keepInputResolution; // make sure the proper anamorphic encode is selected if the input resolution should not be touched if (keepInputResolution && avsSettings.Mod16Method != mod16Method.nonMod16) { avsSettings.Mod16Method = mod16Method.nonMod16; } // open index file to retrieve information if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGI) { iMediaFile = new dgiFile(indexFile); oPossibleSource = PossibleSources.dgi; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.D2V) { iMediaFile = new d2vFile(indexFile); oPossibleSource = PossibleSources.d2v; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGM) { iMediaFile = new dgmFile(indexFile); oPossibleSource = PossibleSources.dgm; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.FFMS) { iMediaFile = new ffmsFile(inputFile, indexFile); oPossibleSource = PossibleSources.ffindex; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.LSMASH) { iMediaFile = new lsmashFile(inputFile, indexFile); oPossibleSource = PossibleSources.lsmash; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.AVISOURCE) { string tempAvs = "AVISource(\"" + inputFile + "\", audio=false)" + VideoUtil.getAssumeFPS(0, inputFile); iMediaFile = AvsFile.ParseScript(tempAvs, true); oPossibleSource = PossibleSources.avisource; } else { iMediaFile = AvsFile.OpenScriptFile(inputFile, true); oPossibleSource = PossibleSources.avs; } reader = iMediaFile.GetVideoReader(); // abort if the index file is invalid if (reader.FrameCount < 1) { _log.Error("There are " + reader.FrameCount + " frames in the index file. Aborting..."); return(""); } if (AR == null) { // AR needs to be detected automatically now _log.LogValue("Auto-detect aspect ratio", AR == null); customDAR = iMediaFile.VideoInfo.DAR; if (customDAR.AR <= 0) { customDAR = Dar.ITU16x9PAL; _log.Warn(string.Format("No aspect ratio found, defaulting to {0}.", customDAR)); } } else { customDAR = AR.Value; } _log.LogValue("Aspect ratio", customDAR); // check x264 settings (target device, chapter file) if (settings != null && settings is x264Settings) { x264Settings xs = (x264Settings)settings; xTargetDevice = xs.TargetDevice; _log.LogValue("Target device", xTargetDevice.Name); } // get mod value for resizing int mod = Resolution.GetModValue(avsSettings.ModValue, avsSettings.Mod16Method, signalAR); // crop input as it may be required (autoCrop && !keepInputResolution or Blu-Ray) if (Autocrop.autocrop(out cropValues, reader, signalAR, avsSettings.Mod16Method, avsSettings.ModValue) == false) { _log.Error("Autocrop failed. Aborting..."); return(""); } int inputWidth = (int)iMediaFile.VideoInfo.Width; int inputHeight = (int)iMediaFile.VideoInfo.Height; int inputFPS_D = (int)iMediaFile.VideoInfo.FPS_D; int inputFPS_N = (int)iMediaFile.VideoInfo.FPS_N; int inputFrameCount = (int)iMediaFile.VideoInfo.FrameCount; // force destruction of AVS script iMediaFile.Dispose(); Dar?suggestedDar = null; if (desiredOutputWidth == 0) { desiredOutputWidth = outputWidthIncludingPadding = inputWidth; } else if (!avsSettings.Upsize && desiredOutputWidth > inputWidth) { outputWidthIncludingPadding = inputWidth; } else { outputWidthIncludingPadding = desiredOutputWidth; } CropValues paddingValues; bool resizeEnabled; int outputWidthWithoutUpsizing = outputWidthIncludingPadding; if (avsSettings.Upsize) { resizeEnabled = !keepInputResolution; CropValues cropValuesTemp = cropValues.Clone(); int outputHeightIncludingPaddingTemp = 0; Resolution.GetResolution(inputWidth, inputHeight, customDAR, ref cropValuesTemp, autoCrop && !keepInputResolution, mod, ref resizeEnabled, false, signalAR, true, avsSettings.AcceptableAspectError, xTargetDevice, Convert.ToDouble(inputFPS_N) / inputFPS_D, ref outputWidthWithoutUpsizing, ref outputHeightIncludingPaddingTemp, out paddingValues, out suggestedDar, _log); } resizeEnabled = !keepInputResolution; Resolution.GetResolution(inputWidth, inputHeight, customDAR, ref cropValues, autoCrop && !keepInputResolution, mod, ref resizeEnabled, avsSettings.Upsize, signalAR, true, avsSettings.AcceptableAspectError, xTargetDevice, Convert.ToDouble(inputFPS_N) / inputFPS_D, ref outputWidthIncludingPadding, ref outputHeightIncludingPadding, out paddingValues, out suggestedDar, _log); keepInputResolution = !resizeEnabled; if (signalAR && suggestedDar.HasValue) { dar = suggestedDar; } // log calculated output resolution outputWidthCropped = outputWidthIncludingPadding - paddingValues.left - paddingValues.right; outputHeightCropped = outputHeightIncludingPadding - paddingValues.bottom - paddingValues.top; _log.LogValue("Input resolution", inputWidth + "x" + inputHeight); _log.LogValue("Desired maximum width", desiredOutputWidth); if (!avsSettings.Upsize && outputWidthIncludingPadding < desiredOutputWidth) { _log.LogEvent("Desired maximum width not reached. Enable upsizing in the AviSynth profile if you want to force it."); } if (avsSettings.Upsize && outputWidthIncludingPadding > outputWidthWithoutUpsizing) { _log.LogValue("Desired maximum width reached with upsizing. Target width without upsizing", outputWidthWithoutUpsizing); } if (cropValues.isCropped()) { _log.LogValue("Autocrop values", cropValues); _log.LogValue("Cropped output resolution", outputWidthCropped + "x" + outputHeightCropped); } else { _log.LogValue("Output resolution", outputWidthCropped + "x" + outputHeightCropped); } if (paddingValues.isCropped()) { _log.LogValue("Padded output resolution", outputWidthIncludingPadding + "x" + outputHeightIncludingPadding); } // generate the avs script based on the template string inputLine = "#input"; string deinterlaceLines = "#deinterlace"; string denoiseLines = "#denoise"; string cropLine = "#crop"; string resizeLine = "#resize"; inputLine = ScriptServer.GetInputLine( inputFile, indexFile, false, oPossibleSource, false, false, false, 0, avsSettings.DSS2, NvDeinterlacerType.nvDeInterlacerNone, 0, 0, null); if (IsJobStopped()) { return(""); } _log.LogValue("Automatic deinterlacing", autoDeint); if (autoDeint) { su.Status = "Automatic deinterlacing... ***PLEASE WAIT***"; string d2vPath = indexFile; _sourceDetector = new SourceDetector(inputLine, d2vPath, avsSettings.PreferAnimeDeinterlace, inputFrameCount, Thread.CurrentThread.Priority, MainForm.Instance.Settings.SourceDetectorSettings, new UpdateSourceDetectionStatus(AnalyseUpdate), new FinishedAnalysis(FinishedAnalysis)); finished = false; _sourceDetector.Analyse(); WaitTillAnalyseFinished(); _sourceDetector = null; if (filters != null) { deinterlaceLines = filters[0].Script; if (interlaced) { _log.LogValue("Deinterlacing used", deinterlaceLines, ImageType.Warning); } else { _log.LogValue("Deinterlacing used", deinterlaceLines); } } } if (IsJobStopped()) { return(""); } su.Status = "Finalizing preprocessing... ***PLEASE WAIT***"; // get final input filter line inputLine = ScriptServer.GetInputLine( inputFile, indexFile, interlaced, oPossibleSource, avsSettings.ColourCorrect, avsSettings.MPEG2Deblock, false, 0, avsSettings.DSS2, NvDeinterlacerType.nvDeInterlacerNone, 0, 0, null); // get crop & resize lines if (!keepInputResolution) { if (autoCrop) { cropLine = ScriptServer.GetCropLine(cropValues); } resizeLine = ScriptServer.GetResizeLine(!signalAR || avsSettings.Mod16Method == mod16Method.resize || outputWidthIncludingPadding > 0 || inputWidth != outputWidthCropped, outputWidthCropped, outputHeightCropped, outputWidthIncludingPadding, outputHeightIncludingPadding, (ResizeFilterType)avsSettings.ResizeMethod, autoCrop, cropValues, inputWidth, inputHeight); } // get denoise line denoiseLines = ScriptServer.GetDenoiseLines(avsSettings.Denoise, (DenoiseFilterType)avsSettings.DenoiseMethod); string newScript = ScriptServer.CreateScriptFromTemplate(avsSettings.Template, inputLine, cropLine, resizeLine, denoiseLines, deinterlaceLines); if (dar.HasValue) { newScript = string.Format("global MeGUI_darx = {0}\r\nglobal MeGUI_dary = {1}\r\n{2}", dar.Value.X, dar.Value.Y, newScript); } else { if (xTargetDevice != null && xTargetDevice.BluRay) { string strResolution = outputWidthIncludingPadding + "x" + outputHeightIncludingPadding; x264Settings _xs = (x264Settings)settings; if (strResolution.Equals("720x480")) { _xs.SampleAR = 4; _log.LogEvent("Set --sar to 10:11 as only 40:33 or 10:11 are supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("720x576")) { _xs.SampleAR = 5; _log.LogEvent("Set --sar to 12:11 as only 16:11 or 12:11 are supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("1280x720") || strResolution.Equals("1920x1080")) { _xs.SampleAR = 1; _log.LogEvent("Set --sar to 1:1 as only 1:1 is supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("1440x1080")) { _xs.SampleAR = 2; _log.LogEvent("Set --sar to 4:3 as only 4:3 is supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } } } _log.LogValue("Generated AviSynth script", newScript); string strOutputAVSFile; if (String.IsNullOrEmpty(indexFile)) { strOutputAVSFile = Path.ChangeExtension(Path.Combine(job.PostprocessingProperties.WorkingDirectory, Path.GetFileName(inputFile)), ".avs"); } else { strOutputAVSFile = Path.ChangeExtension(indexFile, ".avs"); } try { StreamWriter sw = new StreamWriter(strOutputAVSFile, false, System.Text.Encoding.Default); sw.Write(newScript); sw.Close(); } catch (Exception i) { _log.LogValue("Error saving AviSynth script", i, ImageType.Error); return(""); } JobUtil.GetAllInputProperties(strOutputAVSFile, out ulong numberOfFrames, out double fps, out int fps_n, out int fps_d, out int hres, out int vres, out Dar d, out AviSynthColorspace colorspace); _log.LogEvent("resolution: " + hres + "x" + vres); _log.LogEvent("frame rate: " + fps_n + "/" + fps_d); _log.LogEvent("frames: " + numberOfFrames); TimeSpan oTime = TimeSpan.FromSeconds((double)numberOfFrames / fps); _log.LogEvent("length: " + string.Format("{0:00}:{1:00}:{2:00}.{3:000}", (int)(oTime.TotalHours), oTime.Minutes, oTime.Seconds, oTime.Milliseconds)); _log.LogValue("aspect ratio", d); _log.LogValue("color space", colorspace.ToString()); if (IsJobStopped()) { return(""); } // create qpf file if necessary and possible if (job.PostprocessingProperties.ChapterInfo.HasChapters && useChaptersMarks && settings != null && settings is x264Settings) { fps = (double)fps_n / fps_d; string strChapterFile = Path.ChangeExtension(strOutputAVSFile, ".qpf"); job.PostprocessingProperties.ChapterInfo.ChangeFps(fps); if (job.PostprocessingProperties.ChapterInfo.SaveQpfile(strChapterFile)) { job.PostprocessingProperties.FilesToDelete.Add(strChapterFile); _log.LogValue("qpf file created", strChapterFile); x264Settings xs = (x264Settings)settings; xs.UseQPFile = true; xs.QPFile = strChapterFile; } } // check if a timestamp file has to be used if (!String.IsNullOrEmpty(job.PostprocessingProperties.TimeStampFile) && settings != null && settings is x264Settings) { x264Settings xs = (x264Settings)settings; xs.TCFile = job.PostprocessingProperties.TimeStampFile; } return(strOutputAVSFile); }
/// <summary> /// opens a dgindex script /// if the file can be properly opened, auto-cropping is performed, then depending on the AR settings /// the proper resolution for automatic resizing, taking into account the derived cropping values /// is calculated, and finally the avisynth script is written and its name returned /// </summary> /// <param name="path">dgindex script</param> /// <param name="aspectRatio">aspect ratio selection to be used</param> /// <param name="customDAR">custom display aspect ratio for this source</param> /// <param name="horizontalResolution">desired horizontal resolution of the output</param> /// <param name="settings">the codec settings (used only for x264)</param> /// <param name="sarX">pixel aspect ratio X</param> /// <param name="sarY">pixel aspect ratio Y</param> /// <param name="height">the final height of the video</param> /// <param name="signalAR">whether or not ar signalling is to be used for the output /// (depending on this parameter, resizing changes to match the source AR)</param> /// <returns>the name of the AviSynth script created, empty of there was an error</returns> private string openVideo(string path, Dar?AR, int horizontalResolution, bool signalAR, LogItem log, AviSynthSettings avsSettings, bool autoDeint, VideoCodecSettings settings, out Dar?dar) { dar = null; IMediaFile d2v = new d2vFile(path); IVideoReader reader = d2v.GetVideoReader(); if (reader.FrameCount < 1) { log.Error("DGDecode reported 0 frames in this file. This is a fatal error. Please recreate the DGIndex project"); return(""); } //Autocrop CropValues final = Autocrop.autocrop(reader); if (signalAR) { if (avsSettings.Mod16Method == mod16Method.overcrop) { ScriptServer.overcrop(ref final); } else if (avsSettings.Mod16Method == mod16Method.mod4Horizontal) { ScriptServer.cropMod4Horizontal(ref final); } else if (avsSettings.Mod16Method == mod16Method.undercrop) { ScriptServer.undercrop(ref final); } } bool error = (final.left == -1); if (!error) { log.LogValue("Autocrop values", final); } else { log.Error("Autocrop failed, aborting now"); return(""); } decimal customDAR; log.LogValue("Auto-detect aspect ratio now", AR == null); //Check if AR needs to be autodetected now if (AR == null) // it does { customDAR = d2v.Info.DAR.ar; if (customDAR > 0) { log.LogValue("Aspect ratio", customDAR); } else { customDAR = Dar.ITU16x9PAL.ar; log.Warn(string.Format("No aspect ratio found, defaulting to {0}.", customDAR)); } } else { customDAR = AR.Value.ar; } // Minimise upsizing int sourceHorizontalResolution = (int)d2v.Info.Width - final.right - final.left; if (horizontalResolution > sourceHorizontalResolution) { if (avsSettings.Mod16Method == mod16Method.resize) { while (horizontalResolution > sourceHorizontalResolution + 16) { horizontalResolution -= 16; } } else { horizontalResolution = sourceHorizontalResolution; } } //Suggest a resolution (taken from AvisynthWindow.suggestResolution_CheckedChanged) int scriptVerticalResolution = Resolution.suggestResolution(d2v.Info.Height, d2v.Info.Width, (double)customDAR, final, horizontalResolution, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); log.LogValue("Output resolution", horizontalResolution + "x" + scriptVerticalResolution); if (settings != null && settings is x264Settings) // verify that the video corresponds to the chosen avc level, if not, change the resolution until it does fit { x264Settings xs = (x264Settings)settings; if (xs.Level != 15) { AVCLevels al = new AVCLevels(); log.LogValue("AVC level", al.getLevels()[xs.Level]); int compliantLevel = 15; while (!this.al.validateAVCLevel(horizontalResolution, scriptVerticalResolution, d2v.Info.FPS, xs, out compliantLevel)) { // resolution not profile compliant, reduce horizontal resolution by 16, get the new vertical resolution and try again string levelName = al.getLevels()[xs.Level]; horizontalResolution -= 16; scriptVerticalResolution = Resolution.suggestResolution(d2v.Info.Height, d2v.Info.Width, (double)customDAR, final, horizontalResolution, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); } log.LogValue("Resolution adjusted for AVC Level", horizontalResolution + "x" + scriptVerticalResolution); } } //Generate the avs script based on the template string inputLine = "#input"; string deinterlaceLines = "#deinterlace"; string denoiseLines = "#denoise"; string cropLine = "#crop"; string resizeLine = "#resize"; inputLine = ScriptServer.GetInputLine(path, false, PossibleSources.d2v, false, false, false, 0); log.LogValue("Automatic deinterlacing", autoDeint); if (autoDeint) { string d2vPath = path; SourceDetector sd = new SourceDetector(inputLine, d2vPath, false, mainForm.Settings.SourceDetectorSettings, new UpdateSourceDetectionStatus(analyseUpdate), new FinishedAnalysis(finishedAnalysis)); finished = false; sd.analyse(); waitTillAnalyseFinished(); deinterlaceLines = filters[0].Script; log.LogValue("Deinterlacing used", deinterlaceLines); } inputLine = ScriptServer.GetInputLine(path, interlaced, PossibleSources.d2v, avsSettings.ColourCorrect, avsSettings.MPEG2Deblock, false, 0); cropLine = ScriptServer.GetCropLine(true, final); denoiseLines = ScriptServer.GetDenoiseLines(avsSettings.Denoise, (DenoiseFilterType)avsSettings.DenoiseMethod); resizeLine = ScriptServer.GetResizeLine(!signalAR || avsSettings.Mod16Method == mod16Method.resize, horizontalResolution, scriptVerticalResolution, (ResizeFilterType)avsSettings.ResizeMethod); string newScript = ScriptServer.CreateScriptFromTemplate(avsSettings.Template, inputLine, cropLine, resizeLine, denoiseLines, deinterlaceLines); if (dar.HasValue) { newScript = string.Format("global MeGUI_darx = {0}\r\nglobal MeGUI_dary = {1}\r\n{2}", dar.Value.X, dar.Value.Y, newScript); } log.LogValue("Generated Avisynth script", newScript); try { StreamWriter sw = new StreamWriter(Path.ChangeExtension(path, ".avs")); sw.Write(newScript); sw.Close(); } catch (IOException i) { log.LogValue("Error saving AviSynth script", i, ImageType.Error); return(""); } return(Path.ChangeExtension(path, ".avs")); }
/// <summary> /// opens a dgindex script /// if the file can be properly opened, auto-cropping is performed, then depending on the AR settings /// the proper resolution for automatic resizing, taking into account the derived cropping values /// is calculated, and finally the avisynth script is written and its name returned /// </summary> /// <param name="path">dgindex script</param> /// <param name="aspectRatio">aspect ratio selection to be used</param> /// <param name="customDAR">custom display aspect ratio for this source</param> /// <param name="horizontalResolution">desired horizontal resolution of the output</param> /// <param name="settings">the codec settings (used only for x264)</param> /// <param name="sarX">pixel aspect ratio X</param> /// <param name="sarY">pixel aspect ratio Y</param> /// <param name="height">the final height of the video</param> /// <param name="signalAR">whether or not ar signalling is to be used for the output /// (depending on this parameter, resizing changes to match the source AR)</param> /// <param name="autoCrop">whether or not autoCrop is used for the input</param> /// <returns>the name of the AviSynth script created, empty of there was an error</returns> private string openVideo(string path, Dar? AR, int horizontalResolution, bool signalAR, LogItem log, AviSynthSettings avsSettings, bool autoDeint, VideoCodecSettings settings, out Dar? dar, bool autoCrop, bool keepInputResolution, bool useChaptersMarks) { dar = null; CropValues final = new CropValues(); Dar customDAR; IMediaFile d2v = new d2vFile(path); IVideoReader reader = d2v.GetVideoReader(); if (reader.FrameCount < 1) { log.Error("DGDecode reported 0 frames in this file. This is a fatal error. Please recreate the DGIndex project"); return ""; } if (!keepInputResolution) { //Autocrop final = Autocrop.autocrop(reader); if (signalAR) { if (avsSettings.Mod16Method == mod16Method.overcrop) ScriptServer.overcrop(ref final); else if (avsSettings.Mod16Method == mod16Method.mod4Horizontal) ScriptServer.cropMod4Horizontal(ref final); else if (avsSettings.Mod16Method == mod16Method.undercrop) ScriptServer.undercrop(ref final); } if (autoCrop) { bool error = (final.left == -1); if (!error) log.LogValue("Autocrop values", final); else { log.Error("Autocrop failed, aborting now"); return ""; } } } log.LogValue("Auto-detect aspect ratio now", AR == null); //Check if AR needs to be autodetected now if (AR == null) // it does { customDAR = d2v.Info.DAR; if (customDAR.ar > 0) log.LogValue("Aspect ratio", customDAR); else { customDAR = Dar.ITU16x9PAL; log.Warn(string.Format("No aspect ratio found, defaulting to {0}.", customDAR)); } } else customDAR = AR.Value; if (keepInputResolution) { horizontalResolution = (int)d2v.Info.Width; dar = customDAR; } else { // Minimise upsizing int sourceHorizontalResolution = (int)d2v.Info.Width - final.right - final.left; if (autoCrop) sourceHorizontalResolution = (int)d2v.Info.Width; if (horizontalResolution > sourceHorizontalResolution) { if (avsSettings.Mod16Method == mod16Method.resize) while (horizontalResolution > sourceHorizontalResolution + 16) horizontalResolution -= 16; else horizontalResolution = sourceHorizontalResolution; } } //Suggest a resolution (taken from AvisynthWindow.suggestResolution_CheckedChanged) int scriptVerticalResolution = 0; if (keepInputResolution) { scriptVerticalResolution = (int)d2v.Info.Height; log.LogValue("Output resolution", horizontalResolution + "x" + scriptVerticalResolution); } else { scriptVerticalResolution = Resolution.suggestResolution(d2v.Info.Height, d2v.Info.Width, (double)customDAR.ar, final, horizontalResolution, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); log.LogValue("Output resolution", horizontalResolution + "x" + scriptVerticalResolution); if (settings != null && settings is x264Settings) // verify that the video corresponds to the chosen avc level, if not, change the resolution until it does fit { x264Settings xs = (x264Settings)settings; if (xs.Level != 15) { AVCLevels al = new AVCLevels(); log.LogValue("AVC level", al.getLevels()[xs.Level]); int compliantLevel = 15; while (!this.al.validateAVCLevel(horizontalResolution, scriptVerticalResolution, d2v.Info.FPS, xs, out compliantLevel)) { // resolution not profile compliant, reduce horizontal resolution by 16, get the new vertical resolution and try again string levelName = al.getLevels()[xs.Level]; horizontalResolution -= 16; scriptVerticalResolution = Resolution.suggestResolution(d2v.Info.Height, d2v.Info.Width, (double)customDAR.ar, final, horizontalResolution, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); } log.LogValue("Resolution adjusted for AVC Level", horizontalResolution + "x" + scriptVerticalResolution); } if (useChaptersMarks) { qpfile = job.PostprocessingProperties.ChapterFile; if ((Path.GetExtension(qpfile).ToLower()) == ".txt") qpfile = VideoUtil.convertChaptersTextFileTox264QPFile(job.PostprocessingProperties.ChapterFile, d2v.Info.FPS); if (File.Exists(qpfile)) { xs.UseQPFile = true; xs.QPFile = qpfile; } } } } //Generate the avs script based on the template string inputLine = "#input"; string deinterlaceLines = "#deinterlace"; string denoiseLines = "#denoise"; string cropLine = "#crop"; string resizeLine = "#resize"; inputLine = ScriptServer.GetInputLine(path, false, PossibleSources.d2v, false, false, false, 0, false); log.LogValue("Automatic deinterlacing", autoDeint); if (autoDeint) { string d2vPath = path; SourceDetector sd = new SourceDetector(inputLine, d2vPath, false, mainForm.Settings.SourceDetectorSettings, new UpdateSourceDetectionStatus(analyseUpdate), new FinishedAnalysis(finishedAnalysis)); finished = false; sd.analyse(); waitTillAnalyseFinished(); deinterlaceLines = filters[0].Script; log.LogValue("Deinterlacing used", deinterlaceLines); } inputLine = ScriptServer.GetInputLine(path, interlaced, PossibleSources.d2v, avsSettings.ColourCorrect, avsSettings.MPEG2Deblock, false, 0, false); if (autoCrop) cropLine = ScriptServer.GetCropLine(true, final); else cropLine = ScriptServer.GetCropLine(false, final); denoiseLines = ScriptServer.GetDenoiseLines(avsSettings.Denoise, (DenoiseFilterType)avsSettings.DenoiseMethod); if (!keepInputResolution) resizeLine = ScriptServer.GetResizeLine(!signalAR || avsSettings.Mod16Method == mod16Method.resize, horizontalResolution, scriptVerticalResolution, (ResizeFilterType)avsSettings.ResizeMethod); string newScript = ScriptServer.CreateScriptFromTemplate(avsSettings.Template, inputLine, cropLine, resizeLine, denoiseLines, deinterlaceLines); if (dar.HasValue) newScript = string.Format("global MeGUI_darx = {0}\r\nglobal MeGUI_dary = {1}\r\n{2}", dar.Value.X, dar.Value.Y, newScript); log.LogValue("Generated Avisynth script", newScript); try { StreamWriter sw = new StreamWriter(Path.ChangeExtension(path, ".avs"),false, System.Text.Encoding.Default); sw.Write(newScript); sw.Close(); } catch (IOException i) { log.LogValue("Error saving AviSynth script", i, ImageType.Error); return ""; } return Path.ChangeExtension(path, ".avs"); }
/* private void getAudioStreams(Dictionary<int, string> audioFiles, OneClickWindow.PartialAudioStream[] partialAudioStream, out List<AudioJob> encodableAudioStreams, out List<MuxStream> muxOnlyAudioStreams) * { * muxOnlyAudioStreams = new List<MuxStream>(); * encodableAudioStreams = new List<AudioJob>(); * int counter = 0; * foreach (OneClickWindow.PartialAudioStream propertiesStream in job.PostprocessingProperties.AudioStreams) * { * counter++; // The track number starts at 1, so we increment right here. This also ensures it will always be incremented * * bool error = false; * string input = null, output = null, language = null; * AudioCodecSettings settings = null; * // Input * if (string.IsNullOrEmpty(propertiesStream.input)) * continue; // Here we have an unconfigured stream. Let's just go on to the next one * * if (propertiesStream.useExternalInput) * input = propertiesStream.input; * else if (audioFiles.ContainsKey(propertiesStream.trackNumber)) * input = audioFiles[propertiesStream.trackNumber]; * else * error = true; * * // Settings * if (propertiesStream.dontEncode) * settings = null; * else if (propertiesStream.settings != null) * settings = propertiesStream.settings; * else * error = true; * * // Output * if (propertiesStream.dontEncode) * output = input; * else if (!error) * output = Path.Combine( * Path.GetDirectoryName(input), * Path.GetFileNameWithoutExtension(input) + "_" + * propertiesStream.trackNumber + ".file"); * * // Language * if (!string.IsNullOrEmpty(propertiesStream.language)) * language = propertiesStream.language; * else * language = ""; * * if (error) * { * logBuilder.AppendFormat("Trouble with audio track {0}. Skipping track...{1}", counter, Environment.NewLine); * output = null; * input = null; * input = null; * } * else * { * if (propertiesStream.dontEncode) * { * MuxStream newStream = new MuxStream(); * newStream.path = input; * newStream.name = ""; * newStream.language = language; * muxOnlyAudioStreams.Add(newStream); * } * else * { * AudioJob encodeStream = new AudioJob(); * encodeStream.Input = input; * encodeStream.Output = output; * encodeStream.Settings = settings; * encodableAudioStreams.Add(encodeStream); * } * } * } * }*/ /// <summary> /// opens a dgindex script /// if the file can be properly opened, auto-cropping is performed, then depending on the AR settings /// the proper resolution for automatic resizing, taking into account the derived cropping values /// is calculated, and finally the avisynth script is written and its name returned /// </summary> /// <param name="path">dgindex script</param> /// <param name="aspectRatio">aspect ratio selection to be used</param> /// <param name="customDAR">custom display aspect ratio for this source</param> /// <param name="horizontalResolution">desired horizontal resolution of the output</param> /// <param name="logBuilder">stringbuilder where to append log messages</param> /// <param name="settings">the codec settings (used only for x264)</param> /// <param name="sarX">pixel aspect ratio X</param> /// <param name="sarY">pixel aspect ratio Y</param> /// <param name="height">the final height of the video</param> /// <param name="signalAR">whether or not ar signalling is to be used for the output /// (depending on this parameter, resizing changes to match the source AR)</param> /// <returns>the name of the AviSynth script created, empty of there was an error</returns> private string openVideo(string path, Dar?AR, int horizontalResolution, bool signalAR, StringBuilder logBuilder, AviSynthSettings avsSettings, bool autoDeint, VideoCodecSettings settings, out Dar?dar) { dar = null; IMediaFile d2v = new d2vFile(path); IVideoReader reader = d2v.GetVideoReader(); if (reader.FrameCount < 1) { logBuilder.Append("DGDecode reported 0 frames in this file.\r\nThis is a fatal error.\r\n\r\nPlease recreate the DGIndex project"); return(""); } //Autocrop CropValues final = Autocrop.autocrop(reader); if (signalAR) { if (avsSettings.Mod16Method == mod16Method.overcrop) { ScriptServer.overcrop(ref final); } else if (avsSettings.Mod16Method == mod16Method.mod4Horizontal) { ScriptServer.cropMod4Horizontal(ref final); } } bool error = (final.left == -1); if (!error) { logBuilder.Append("Autocropping successful. Using the following crop values: left: " + final.left + ", top: " + final.top + ", right: " + final.right + ", bottom: " + final.bottom + ".\r\n"); } else { logBuilder.Append("Autocropping did not find 3 frames that have matching crop values\r\n" + "Autocrop failed, aborting now"); return(""); } decimal customDAR; //Check if AR needs to be autodetected now if (AR == null) // it does { logBuilder.Append("Aspect Ratio set to auto-detect later, detecting now. "); customDAR = d2v.Info.DAR.ar; if (customDAR > 0) { logBuilder.AppendFormat("Found aspect ratio of {0}.{1}", customDAR, Environment.NewLine); } else { customDAR = Dar.ITU16x9PAL.ar; logBuilder.AppendFormat("No aspect ratio found, defaulting to {0}.{1}", customDAR, Environment.NewLine); } } else { customDAR = AR.Value.ar; } //Suggest a resolution (taken from AvisynthWindow.suggestResolution_CheckedChanged) int scriptVerticalResolution = Resolution.suggestResolution(d2v.Info.Height, d2v.Info.Width, (double)customDAR, final, horizontalResolution, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); if (settings != null && settings is x264Settings) // verify that the video corresponds to the chosen avc level, if not, change the resolution until it does fit { x264Settings xs = (x264Settings)settings; if (xs.Level != 15) { int compliantLevel = 15; while (!this.al.validateAVCLevel(horizontalResolution, scriptVerticalResolution, d2v.Info.FPS, xs, out compliantLevel)) { // resolution not profile compliant, reduce horizontal resolution by 16, get the new vertical resolution and try again AVCLevels al = new AVCLevels(); string levelName = al.getLevels()[xs.Level]; logBuilder.Append("Your chosen AVC level " + levelName + " is too strict to allow your chosen resolution of " + horizontalResolution + "*" + scriptVerticalResolution + ". Reducing horizontal resolution by 16.\r\n"); horizontalResolution -= 16; scriptVerticalResolution = Resolution.suggestResolution(d2v.Info.Height, d2v.Info.Width, (double)customDAR, final, horizontalResolution, signalAR, mainForm.Settings.AcceptableAspectErrorPercent, out dar); } logBuilder.Append("Final resolution that is compatible with the chosen AVC Level: " + horizontalResolution + "*" + scriptVerticalResolution + "\r\n"); } } //Generate the avs script based on the template string inputLine = "#input"; string deinterlaceLines = "#deinterlace"; string denoiseLines = "#denoise"; string cropLine = "#crop"; string resizeLine = "#resize"; inputLine = ScriptServer.GetInputLine(path, false, PossibleSources.d2v, false, false, false, 0); if (autoDeint) { logBuilder.AppendLine("Automatic deinterlacing was checked. Running now..."); string d2vPath = path; SourceDetector sd = new SourceDetector(inputLine, d2vPath, false, mainForm.Settings.SourceDetectorSettings, new UpdateSourceDetectionStatus(analyseUpdate), new FinishedAnalysis(finishedAnalysis)); finished = false; sd.analyse(); waitTillAnalyseFinished(); deinterlaceLines = filters[0].Script; logBuilder.AppendLine("Deinterlacing used: " + deinterlaceLines); } inputLine = ScriptServer.GetInputLine(path, interlaced, PossibleSources.d2v, avsSettings.ColourCorrect, avsSettings.MPEG2Deblock, false, 0); cropLine = ScriptServer.GetCropLine(true, final); denoiseLines = ScriptServer.GetDenoiseLines(avsSettings.Denoise, (DenoiseFilterType)avsSettings.DenoiseMethod); resizeLine = ScriptServer.GetResizeLine(!signalAR || avsSettings.Mod16Method == mod16Method.resize, horizontalResolution, scriptVerticalResolution, (ResizeFilterType)avsSettings.ResizeMethod); string newScript = ScriptServer.CreateScriptFromTemplate(avsSettings.Template, inputLine, cropLine, resizeLine, denoiseLines, deinterlaceLines); if (dar.HasValue) { newScript = string.Format("global MeGUI_darx = {0}\r\nglobal MeGUI_dary = {1}\r\n{2}", dar.Value.X, dar.Value.Y, newScript); } logBuilder.Append("Avisynth script created:\r\n"); logBuilder.Append(newScript); try { StreamWriter sw = new StreamWriter(Path.ChangeExtension(path, ".avs")); sw.Write(newScript); sw.Close(); } catch (IOException i) { logBuilder.Append("An error ocurred when trying to save the AviSynth script:\r\n" + i.Message); return(""); } return(Path.ChangeExtension(path, ".avs")); }
/// <summary> /// creates the AVS Script file /// if the file can be properly opened, auto-cropping is performed, then depending on the AR settings /// the proper resolution for automatic resizing, taking into account the derived cropping values /// is calculated, and finally the avisynth script is written and its name returned /// </summary> /// <param name="path">dgindex script</param> /// <param name="aspectRatio">aspect ratio selection to be used</param> /// <param name="customDAR">custom display aspect ratio for this source</param> /// <param name="desiredOutputWidth">desired horizontal resolution of the output</param> /// <param name="settings">the codec settings (used only for x264)</param> /// <param name="sarX">pixel aspect ratio X</param> /// <param name="sarY">pixel aspect ratio Y</param> /// <param name="height">the final height of the video</param> /// <param name="signalAR">whether or not ar signalling is to be used for the output /// (depending on this parameter, resizing changes to match the source AR)</param> /// <param name="autoCrop">whether or not autoCrop is used for the input</param> /// <returns>the name of the AviSynth script created, empty if there was an error</returns> private string createAVSFile(string indexFile, string inputFile, Dar?AR, int desiredOutputWidth, bool signalAR, LogItem _log, AviSynthSettings avsSettings, bool autoDeint, VideoCodecSettings settings, out Dar?dar, bool autoCrop, bool keepInputResolution, bool useChaptersMarks) { dar = null; Dar customDAR; IMediaFile iMediaFile = null; IVideoReader reader; PossibleSources oPossibleSource; x264Device xTargetDevice = null; CropValues cropValues = new CropValues(); int outputWidthIncludingPadding = 0; int outputHeightIncludingPadding = 0; int outputWidthCropped = 0; int outputHeightCropped = 0; // open index file to retrieve information if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGI) { iMediaFile = new dgiFile(indexFile); oPossibleSource = PossibleSources.dgi; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.D2V) { iMediaFile = new d2vFile(indexFile); oPossibleSource = PossibleSources.d2v; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGA) { iMediaFile = new dgaFile(indexFile); oPossibleSource = PossibleSources.dga; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.FFMS) { iMediaFile = new ffmsFile(inputFile, indexFile); oPossibleSource = PossibleSources.ffindex; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.LSMASH) { iMediaFile = new lsmashFile(inputFile, indexFile); oPossibleSource = PossibleSources.lsmash; } else if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.AVISOURCE) { string tempAvs = "AVISource(\"" + inputFile + "\", audio=false)" + VideoUtil.getAssumeFPS(0, inputFile); iMediaFile = AvsFile.ParseScript(tempAvs); oPossibleSource = PossibleSources.directShow; } else { iMediaFile = AvsFile.OpenScriptFile(inputFile); oPossibleSource = PossibleSources.avs; } reader = iMediaFile.GetVideoReader(); // abort if the index file is invalid if (reader.FrameCount < 1) { _log.Error("There are " + reader.FrameCount + " frames in the index file. Aborting..."); return(""); } if (AR == null) { // AR needs to be detected automatically now _log.LogValue("Auto-detect aspect ratio", AR == null); customDAR = iMediaFile.VideoInfo.DAR; if (customDAR.AR <= 0) { customDAR = Dar.ITU16x9PAL; _log.Warn(string.Format("No aspect ratio found, defaulting to {0}.", customDAR)); } } else { customDAR = AR.Value; } _log.LogValue("Aspect ratio", customDAR); // check x264 settings (target device, chapter file) if (settings != null && settings is x264Settings) { x264Settings xs = (x264Settings)settings; xTargetDevice = xs.TargetDevice; _log.LogValue("Target device", xTargetDevice.Name); // create qpf file if necessary if (!String.IsNullOrEmpty(job.PostprocessingProperties.ChapterFile) && useChaptersMarks) { qpfile = job.PostprocessingProperties.ChapterFile; if ((Path.GetExtension(qpfile).ToLowerInvariant()) == ".txt") { qpfile = VideoUtil.convertChaptersTextFileTox264QPFile(job.PostprocessingProperties.ChapterFile, iMediaFile.VideoInfo.FPS); } if (File.Exists(qpfile)) { xs.UseQPFile = true; xs.QPFile = qpfile; } } } // get mod value for resizing int mod = Resolution.GetModValue(avsSettings.ModValue, avsSettings.Mod16Method, signalAR); // crop input as it may be required (autoCrop && !keepInputResolution or Blu-Ray) if (Autocrop.autocrop(out cropValues, reader, signalAR, avsSettings.Mod16Method, avsSettings.ModValue) == false) { _log.Error("Autocrop failed. Aborting..."); return(""); } Dar?suggestedDar = null; if (desiredOutputWidth == 0) { desiredOutputWidth = outputWidthIncludingPadding = (int)iMediaFile.VideoInfo.Width; } else if (!avsSettings.Upsize && desiredOutputWidth > (int)iMediaFile.VideoInfo.Width) { outputWidthIncludingPadding = (int)iMediaFile.VideoInfo.Width; } else { outputWidthIncludingPadding = desiredOutputWidth; } CropValues paddingValues; bool resizeEnabled; int outputWidthWithoutUpsizing = outputWidthIncludingPadding; if (avsSettings.Upsize) { resizeEnabled = !keepInputResolution; CropValues cropValuesTemp = cropValues.Clone(); int outputHeightIncludingPaddingTemp = 0; Resolution.GetResolution((int)iMediaFile.VideoInfo.Width, (int)iMediaFile.VideoInfo.Height, customDAR, ref cropValuesTemp, autoCrop && !keepInputResolution, mod, ref resizeEnabled, false, signalAR, true, avsSettings.AcceptableAspectError, xTargetDevice, Convert.ToDouble(iMediaFile.VideoInfo.FPS_N) / iMediaFile.VideoInfo.FPS_D, ref outputWidthWithoutUpsizing, ref outputHeightIncludingPaddingTemp, out paddingValues, out suggestedDar, _log); } resizeEnabled = !keepInputResolution; Resolution.GetResolution((int)iMediaFile.VideoInfo.Width, (int)iMediaFile.VideoInfo.Height, customDAR, ref cropValues, autoCrop && !keepInputResolution, mod, ref resizeEnabled, avsSettings.Upsize, signalAR, true, avsSettings.AcceptableAspectError, xTargetDevice, Convert.ToDouble(iMediaFile.VideoInfo.FPS_N) / iMediaFile.VideoInfo.FPS_D, ref outputWidthIncludingPadding, ref outputHeightIncludingPadding, out paddingValues, out suggestedDar, _log); keepInputResolution = !resizeEnabled; if ((keepInputResolution || signalAR) && suggestedDar.HasValue) { dar = suggestedDar; } // log calculated output resolution outputWidthCropped = outputWidthIncludingPadding - paddingValues.left - paddingValues.right; outputHeightCropped = outputHeightIncludingPadding - paddingValues.bottom - paddingValues.top; _log.LogValue("Input resolution", iMediaFile.VideoInfo.Width + "x" + iMediaFile.VideoInfo.Height); _log.LogValue("Desired maximum width", desiredOutputWidth); if (!avsSettings.Upsize && outputWidthIncludingPadding < desiredOutputWidth) { _log.LogEvent("Desired maximum width not reached. Enable upsizing in the AviSynth profile if you want to force it."); } if (avsSettings.Upsize && outputWidthIncludingPadding > outputWidthWithoutUpsizing) { _log.LogValue("Desired maximum width reached with upsizing. Target width without upsizing", outputWidthWithoutUpsizing); } if (cropValues.isCropped()) { _log.LogValue("Autocrop values", cropValues); _log.LogValue("Cropped output resolution", outputWidthCropped + "x" + outputHeightCropped); } else { _log.LogValue("Output resolution", outputWidthCropped + "x" + outputHeightCropped); } if (paddingValues.isCropped()) { _log.LogValue("Padded output resolution", outputWidthIncludingPadding + "x" + outputHeightIncludingPadding); } // generate the avs script based on the template string inputLine = "#input"; string deinterlaceLines = "#deinterlace"; string denoiseLines = "#denoise"; string cropLine = "#crop"; string resizeLine = "#resize"; inputLine = ScriptServer.GetInputLine(inputFile, indexFile, false, oPossibleSource, false, false, false, 0, avsSettings.DSS2); if (!inputLine.EndsWith(")")) { inputLine += ")"; } _log.LogValue("Automatic deinterlacing", autoDeint); if (autoDeint) { raiseEvent("Automatic deinterlacing... ***PLEASE WAIT***"); string d2vPath = indexFile; _sourceDetector = new SourceDetector(inputLine, d2vPath, false, mainForm.Settings.SourceDetectorSettings, new UpdateSourceDetectionStatus(analyseUpdate), new FinishedAnalysis(finishedAnalysis)); finished = false; _sourceDetector.analyse(); waitTillAnalyseFinished(); _sourceDetector.stop(); _sourceDetector = null; deinterlaceLines = filters[0].Script; if (interlaced) { _log.LogValue("Deinterlacing used", deinterlaceLines, ImageType.Warning); } else { _log.LogValue("Deinterlacing used", deinterlaceLines); } } raiseEvent("Finalizing preprocessing... ***PLEASE WAIT***"); inputLine = ScriptServer.GetInputLine(inputFile, indexFile, interlaced, oPossibleSource, avsSettings.ColourCorrect, avsSettings.MPEG2Deblock, false, 0, avsSettings.DSS2); if (!inputLine.EndsWith(")")) { inputLine += ")"; } if (!keepInputResolution && autoCrop) { cropLine = ScriptServer.GetCropLine(true, cropValues); } denoiseLines = ScriptServer.GetDenoiseLines(avsSettings.Denoise, (DenoiseFilterType)avsSettings.DenoiseMethod); if (!keepInputResolution) { resizeLine = ScriptServer.GetResizeLine(!signalAR || avsSettings.Mod16Method == mod16Method.resize || outputWidthIncludingPadding > 0 || (int)iMediaFile.VideoInfo.Width != outputWidthCropped, outputWidthCropped, outputHeightCropped, outputWidthIncludingPadding, outputHeightIncludingPadding, (ResizeFilterType)avsSettings.ResizeMethod, autoCrop, cropValues, (int)iMediaFile.VideoInfo.Width, (int)iMediaFile.VideoInfo.Height); } string newScript = ScriptServer.CreateScriptFromTemplate(avsSettings.Template, inputLine, cropLine, resizeLine, denoiseLines, deinterlaceLines); if (dar.HasValue) { newScript = string.Format("global MeGUI_darx = {0}\r\nglobal MeGUI_dary = {1}\r\n{2}", dar.Value.X, dar.Value.Y, newScript); } else { if (xTargetDevice != null && xTargetDevice.BluRay) { string strResolution = outputWidthIncludingPadding + "x" + outputHeightIncludingPadding; x264Settings _xs = (x264Settings)settings; if (strResolution.Equals("720x480")) { _xs.SampleAR = 4; _log.LogEvent("Set --sar to 10:11 as only 40:33 or 10:11 are supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("720x576")) { _xs.SampleAR = 5; _log.LogEvent("Set --sar to 12:11 as only 16:11 or 12:11 are supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("1280x720") || strResolution.Equals("1920x1080")) { _xs.SampleAR = 1; _log.LogEvent("Set --sar to 1:1 as only 1:1 is supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } else if (strResolution.Equals("1440x1080")) { _xs.SampleAR = 2; _log.LogEvent("Set --sar to 4:3 as only 4:3 is supported with a resolution of " + strResolution + " as required for " + xTargetDevice.Name + "."); } } } _log.LogValue("Generated Avisynth script", newScript); string strOutputAVSFile; if (String.IsNullOrEmpty(indexFile)) { strOutputAVSFile = Path.ChangeExtension(Path.Combine(job.PostprocessingProperties.WorkingDirectory, Path.GetFileName(inputFile)), ".avs"); } else { strOutputAVSFile = Path.ChangeExtension(indexFile, ".avs"); } try { StreamWriter sw = new StreamWriter(strOutputAVSFile, false, System.Text.Encoding.Default); sw.Write(newScript); sw.Close(); } catch (IOException i) { _log.LogValue("Error saving AviSynth script", i, ImageType.Error); return(""); } return(strOutputAVSFile); }