示例#1
0
        /// <summary>
        ///  Handles assessment of whether the encoding options vary between two xvidSettings instances
        /// The following are excluded from the comparison:
        /// BitrateQuantizer
        /// CreditsQuantizer
        /// Logfile
        /// PAR
        /// PARs
        /// SARX
        /// SARY
        /// Zones
        /// </summary>
        /// <param name="otherSettings"></param>
        /// <returns>true if the settings differ</returns>
        public bool IsAltered(VideoCodecSettings settings)
        {
            if (!(settings is xvidSettings))
            {
                return(true);
            }
            xvidSettings otherSettings = (xvidSettings)settings;

            if (
                this.AveragingPeriod != otherSettings.AveragingPeriod ||
                this.BframeThreshold != otherSettings.BframeThreshold ||
                this.BQuantOffset != otherSettings.BQuantOffset ||
                this.BQuantRatio != otherSettings.BQuantRatio ||
                this.ChromaMotion != otherSettings.ChromaMotion ||
                this.ClosedGOP != otherSettings.ClosedGOP ||
                this.CustomEncoderOptions != otherSettings.CustomEncoderOptions ||
                this.EncodingMode != otherSettings.EncodingMode ||
                this.FrameDropRatio != otherSettings.FrameDropRatio ||
                this.GMC != otherSettings.GMC ||
                this.HighBitrateDegradation != otherSettings.HighBitrateDegradation ||
                this.Interlaced != otherSettings.Interlaced ||
                this.KeyFrameBoost != otherSettings.KeyFrameBoost ||
                this.KeyframeInterval != otherSettings.KeyframeInterval ||
                this.KeyframeReduction != otherSettings.KeyframeReduction ||
                this.KeyframeThreshold != otherSettings.KeyframeThreshold ||
                this.LowBitrateImprovement != otherSettings.LowBitrateImprovement ||
                this.MaxBQuant != otherSettings.MaxBQuant ||
                this.MaxOverflowDegradation != otherSettings.MaxOverflowDegradation ||
                this.MaxOverflowImprovement != otherSettings.MaxOverflowImprovement ||
                this.MaxPQuant != otherSettings.MaxPQuant ||
                this.MaxQuantizer != otherSettings.MaxQuantizer ||
                this.MinBQuant != otherSettings.MinBQuant ||
                this.MinPQuant != otherSettings.MinPQuant ||
                this.MinQuantizer != otherSettings.MinQuantizer ||
                this.MotionSearchPrecision != otherSettings.MotionSearchPrecision ||
                this.NbBframes != otherSettings.NbBframes ||
                this.OverflowControlStrength != otherSettings.OverflowControlStrength ||
                this.PackedBitstream != otherSettings.PackedBitstream ||
                this.QPel != otherSettings.QPel ||
                this.RateControlBuffer != otherSettings.RateControlBuffer ||
                this.ReactionDelayFactor != otherSettings.ReactionDelayFactor ||
                this.Trellis != otherSettings.Trellis ||
                this.Turbo != otherSettings.Turbo ||
                this.V4MV != otherSettings.V4MV ||
                this.VHQForBframes != otherSettings.VHQForBframes ||
                this.XvidProfile != otherSettings.XvidProfile ||
                this.VbvBuffer != otherSettings.VbvBuffer ||
                this.VbvMaxRate != otherSettings.VbvMaxRate ||
                this.VbvPeakRate != otherSettings.VbvPeakRate ||
                this.VHQMode != otherSettings.VHQMode ||
                this.HVSMasking != otherSettings.HVSMasking
                )
            {
                return(true);
            }
            else
            {
                return(false);
            }
        }
示例#2
0
        /// <summary>
        /// generates a videojob from the given settings
        /// returns the job and whether or not this is an automated job (in which case another job
        /// will have to be created)
        /// </summary>
        /// <param name="input">the video input (avisynth script)</param>
        /// <param name="output">the video output</param>
        /// <param name="settings">the codec settings for this job</param>
        /// <returns>the generated job or null if there was an error with the video source</returns>
        public VideoJob generateVideoJob(string input, string output, VideoCodecSettings settings, bool skipVideoCheck, Dar?dar, Zone[] zones)
        {
            VideoJob job = new VideoJob(input, output, settings, dar, zones);

            if (Path.GetDirectoryName(settings.Logfile).Equals(""))             // no path set
            {
                settings.Logfile = Path.ChangeExtension(output, ".stats");
            }
            if (job.Settings.SettingsID.Equals("x264"))
            {
                mbtreeFile = Path.ChangeExtension(output, ".stats.mbtree");
            }
            if (job.Settings.EncodingMode == 4)             // automated 2 pass, change type to 2 pass 2nd pass
            {
                job.Settings.EncodingMode = 3;
            }
            else if (job.Settings.EncodingMode == 8)             // automated 3 pass, change type to 3 pass first pass
            {
                if (mainForm.Settings.OverwriteStats)
                {
                    job.Settings.EncodingMode = 7;
                }
                else
                {
                    job.Settings.EncodingMode = 3;                     // 2 pass 2nd pass.. doesn't overwrite the stats file
                }
            }

            if (!skipVideoCheck)
            {
                checkVideo(job.Input);
            }

            return(job);
        }
示例#3
0
 public VideoJob(string input, string output,
                 VideoCodecSettings settings, Dar?dar)
     : base(input, output)
 {
     Settings = settings;
     DAR      = dar;
 }
示例#4
0
        /// <summary>
        /// generates a videojob from the given settings
        /// returns the job and whether or not this is an automated job (in which case another job
        /// will have to be created)
        /// </summary>
        /// <param name="input">the video input (avisynth script)</param>
        /// <param name="output">the video output</param>
        /// <param name="settings">the codec settings for this job</param>
        /// <returns>the generated job or null if there was an error with the video source</returns>
        public static VideoJob generateVideoJob(string input, string output, VideoCodecSettings settings, Dar?dar, Zone[] zones)
        {
            VideoJob job = new VideoJob(input, output, settings, dar, zones);

            if (Path.GetDirectoryName(settings.Logfile).Equals(""))             // no path set
            {
                settings.Logfile = Path.ChangeExtension(output, ".stats");
            }
            if (job.Settings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.twopassAutomated)             // automated 2 pass, change type to 2 pass 2nd pass
            {
                job.Settings.VideoEncodingType = VideoCodecSettings.VideoEncodingMode.twopass2;
            }
            else if (job.Settings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.threepassAutomated) // automated 3 pass, change type to 3 pass first pass
            {
                if (MainForm.Instance.Settings.OverwriteStats)
                {
                    job.Settings.VideoEncodingType = VideoCodecSettings.VideoEncodingMode.threepass3;
                }
                else
                {
                    job.Settings.VideoEncodingType = VideoCodecSettings.VideoEncodingMode.twopass2; // 2 pass 2nd pass.. doesn't overwrite the stats file
                }
            }

            return(job);
        }
示例#5
0
        /// <summary>
        ///  Handles assessment of whether the encoding options vary between two xvidSettings instances
        /// The following are excluded from the comparison:
        /// BitrateQuantizer
        /// CreditsQuantizer
        /// Logfile
        /// PAR
        /// PARs
        /// SARX
        /// SARY
        /// Zones
        /// </summary>
        /// <param name="otherSettings"></param>
        /// <returns>true if the settings differ</returns>
        public bool IsAltered(VideoCodecSettings settings)
        {
            if (!(settings is DivXAVCSettings))
            {
                return(true);
            }
            DivXAVCSettings otherSettings = (DivXAVCSettings)settings;

            if (
                this.EncodingMode != otherSettings.EncodingMode ||
                this.AQO != otherSettings.AQO ||
                this.GOPLength != otherSettings.GOPLength ||
                this.MaxBFrames != otherSettings.MaxBFrames ||
                this.InterlaceMode != otherSettings.InterlaceMode ||
                this.MaxRefFrames != otherSettings.MaxRefFrames ||
                this.Pyramid != otherSettings.Pyramid ||
                this.BasRef != otherSettings.BasRef ||
                this.Turbo != otherSettings.Turbo
                )
            {
                return(true);
            }
            else
            {
                return(false);
            }
        }
示例#6
0
文件: VideoJob.cs 项目: pphh77/MeGui
 public VideoJob(string input, string output, VideoCodecSettings settings, Dar?dar, Zone[] zones)
     : base(input, output)
 {
     Settings = settings;
     DAR      = dar;
     Zones    = zones;
 }
示例#7
0
        public void Run(MainForm info)
        {
            // normal video verification
            string error = null;

            if ((error = info.Video.verifyVideoSettings()) != null)
            {
                MessageBox.Show(error, "Unsupported video configuration", MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }
            if ((error = info.Audio.verifyAudioSettings()) != null && !error.Equals("No audio input defined."))
            {
                MessageBox.Show(error, "Unsupported audio configuration", MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }
            if (info.Video.CurrentSettings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.twopass1 ||
                info.Video.CurrentSettings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.threepass1)
            {
                MessageBox.Show("First pass encoding is not supported for automated encoding as no output is generated.\nPlease choose another encoding mode", "Improper configuration",
                                MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }

            // close video player so that the AviSynth script is also closed
            info.ClosePlayer();

            JobUtil.GetInputProperties(info.Video.VideoInput, out ulong frameCount, out double frameRate);

            VideoCodecSettings vSettings = info.Video.CurrentSettings.Clone();

            Zone[] zones = info.Video.Info.Zones; // We can't simply modify the zones in place because that would reveal the final zones config to the user, including the credits/start zones
            bool   cont  = JobUtil.GetFinalZoneConfiguration(vSettings, info.Video.Info.IntroEndFrame, info.Video.Info.CreditsStartFrame, ref zones, (int)frameCount);

            if (cont)
            {
                VideoStream myVideo = new VideoStream();
                myVideo.Input          = info.Video.Info.VideoInput;
                myVideo.Output         = info.Video.Info.VideoOutput;
                myVideo.NumberOfFrames = frameCount;
                myVideo.Framerate      = (decimal)frameRate;
                myVideo.VideoType      = info.Video.CurrentMuxableVideoType;
                myVideo.Settings       = vSettings;

                VideoInfo vInfo = info.Video.Info.Clone(); // so we don't modify the data on the main form
                vInfo.Zones = zones;

                using (AutoEncodeWindow aew = new AutoEncodeWindow(myVideo, info.Audio.AudioStreams, info.Video.PrerenderJob, vInfo))
                {
                    if (aew.init())
                    {
                        aew.ShowDialog();
                    }
                    else
                    {
                        MessageBox.Show("The currently selected combination of video and audio output cannot be muxed", "Unsupported configuration", MessageBoxButtons.OK, MessageBoxIcon.Warning);
                    }
                }
            }
        }
        private void queueVideoButton_Click(object sender, System.EventArgs e)
        {
            fileType_SelectedIndexChanged(sender, e);     // to select always correct output file extension
            string settingsError = verifyVideoSettings(); // basic input, logfile and output file settings are okay

            if (settingsError != null)
            {
                MessageBox.Show(settingsError, "Unsupported configuration", MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }
            VideoCodecSettings vSettings = this.CurrentSettings.Clone();

            string videoOutput = info.VideoOutput;

            if ((MainForm.Instance.Settings.UseExternalMuxerX264 || fileType.Text.Equals("MP4")) &&
                (!fileType.Text.StartsWith("RAW") && vSettings.SettingsID.StartsWith("x26")))
            {
                if (vSettings.SettingsID.Equals("x264"))
                {
                    videoOutput = Path.ChangeExtension(videoOutput, "264");
                }
                else if (vSettings.SettingsID.Equals("x265"))
                {
                    videoOutput = Path.ChangeExtension(videoOutput, "hevc");
                }
            }

            JobChain prepareJobs = mainForm.JobUtil.AddVideoJobs(info.VideoInput, videoOutput, this.CurrentSettings.Clone(),
                                                                 info.IntroEndFrame, info.CreditsStartFrame, info.DAR, PrerenderJob, true, info.Zones);

            if ((MainForm.Instance.Settings.UseExternalMuxerX264 || fileType.Text.Equals("MP4")) &&
                (!fileType.Text.StartsWith("RAW") && vSettings.SettingsID.StartsWith("x26")))
            {
                // create job
                MuxJob mJob = new MuxJob();
                mJob.Input = videoOutput;

                if (fileType.Text.Equals("MKV"))
                {
                    mJob.MuxType = MuxerType.MKVMERGE;
                    mJob.Output  = Path.ChangeExtension(videoOutput, "mkv");
                }
                else
                {
                    mJob.MuxType = MuxerType.MP4BOX;
                    mJob.Output  = Path.ChangeExtension(videoOutput, "mp4");
                }

                mJob.Settings.MuxAll      = true;
                mJob.Settings.Framerate   = decimal.Round((decimal)FrameRate, 3, MidpointRounding.AwayFromZero);
                mJob.Settings.MuxedInput  = mJob.Input;
                mJob.Settings.MuxedOutput = mJob.Output;
                mJob.FilesToDelete.Add(videoOutput);

                // add job to queue
                prepareJobs = new SequentialChain(prepareJobs, new SequentialChain(mJob));
            }
            mainForm.Jobs.addJobsWithDependencies(prepareJobs, true);
        }
示例#9
0
        public LogItem postprocess()
        {
            audioFiles = vUtil.getAllDemuxedAudio(job.AudioTracks, job.Output, 8);

            fillInAudioInformation();

            log.LogValue("Desired size", job.PostprocessingProperties.OutputSize);
            log.LogValue("Split size", job.PostprocessingProperties.Splitting);

            VideoCodecSettings videoSettings = job.PostprocessingProperties.VideoSettings;

            string videoOutput = Path.Combine(Path.GetDirectoryName(job.Output),
                                              Path.GetFileNameWithoutExtension(job.Output) + "_Video");
            string muxedOutput = job.PostprocessingProperties.FinalOutput;

            //Open the video
            Dar?   dar;
            string videoInput = openVideo(job.Output, job.PostprocessingProperties.DAR,
                                          job.PostprocessingProperties.HorizontalOutputResolution, job.PostprocessingProperties.SignalAR, log,
                                          job.PostprocessingProperties.AvsSettings, job.PostprocessingProperties.AutoDeinterlace, videoSettings, out dar);

            VideoStream myVideo = new VideoStream();
            ulong       length;
            double      framerate;

            JobUtil.getInputProperties(out length, out framerate, videoInput);
            myVideo.Input          = videoInput;
            myVideo.Output         = videoOutput;
            myVideo.NumberOfFrames = length;
            myVideo.Framerate      = (decimal)framerate;
            myVideo.DAR            = dar;
            myVideo.VideoType      = new MuxableType((new VideoEncoderProvider().GetSupportedOutput(videoSettings.EncoderType))[0], videoSettings.Codec);
            myVideo.Settings       = videoSettings;
            List <string> intermediateFiles = new List <string>();

            intermediateFiles.Add(videoInput);
            intermediateFiles.Add(job.Output);
            intermediateFiles.AddRange(audioFiles.Values);

            if (!string.IsNullOrEmpty(videoInput))
            {
                //Create empty subtitles for muxing (subtitles not supported in one click mode)
                MuxStream[] subtitles = new MuxStream[0];
                JobChain    c         = vUtil.GenerateJobSeries(myVideo, muxedOutput, job.PostprocessingProperties.AudioJobs, subtitles,
                                                                job.PostprocessingProperties.ChapterFile, job.PostprocessingProperties.OutputSize,
                                                                job.PostprocessingProperties.Splitting, job.PostprocessingProperties.Container,
                                                                false, job.PostprocessingProperties.DirectMuxAudio, log);
                if (c == null)
                {
                    log.Warn("Job creation aborted");
                    return(log);
                }

                c = CleanupJob.AddAfter(c, intermediateFiles);
                mainForm.Jobs.addJobsWithDependencies(c);
            }
            return(log);
        }
示例#10
0
        /// <summary>
        ///  Handles assessment of whether the encoding options vary between two lavcSettings instances
        /// The following are excluded from the comparison:
        /// BitrateQuantizer
        /// CreditsQuantizer
        /// Logfile
        /// Nbthreads
        /// SARX
        /// SARY
        /// Zones
        /// </summary>
        /// <param name="otherSettings"></param>
        /// <returns>true if the settings differ</returns>
        public override bool IsAltered(VideoCodecSettings settings)
        {
            if (!(settings is lavcSettings))
            {
                return(true);
            }
            lavcSettings otherSettings = (lavcSettings)settings;

            if (
                this.AvoidHighMoBframes != otherSettings.AvoidHighMoBframes ||
                this.BorderMask != otherSettings.BorderMask ||
                this.BQuantFactor != otherSettings.BQuantFactor ||
                this.BufferSize != otherSettings.BufferSize ||
                this.CustomEncoderOptions != otherSettings.CustomEncoderOptions ||
                this.DarkMask != otherSettings.DarkMask ||
                this.EncodingMode != otherSettings.EncodingMode ||
                this.FieldOrder != otherSettings.FieldOrder ||
                this.FilesizeTolerance != otherSettings.FilesizeTolerance ||
                this.FourCC != otherSettings.FourCC ||
                // this.FourCCs != otherSettings.FourCCs ||
                this.GreyScale != otherSettings.GreyScale ||
                this.InitialBufferOccupancy != otherSettings.InitialBufferOccupancy ||
                this.Interlaced != otherSettings.Interlaced ||
                this.InterMatrix != otherSettings.InterMatrix ||
                this.IntraMatrix != otherSettings.IntraMatrix ||
                this.IPFactor != otherSettings.IPFactor ||
                this.KeyframeInterval != otherSettings.KeyframeInterval ||
                this.LumiMasking != otherSettings.LumiMasking ||
                this.MaxBitrate != otherSettings.MaxBitrate ||
                this.MaxQuantDelta != otherSettings.MaxQuantDelta ||
                this.MaxQuantizer != otherSettings.MaxQuantizer ||
                this.MbDecisionAlgo != otherSettings.MbDecisionAlgo ||
                this.MERange != otherSettings.MERange ||
                this.MinBitrate != otherSettings.MinBitrate ||
                this.MinQuantizer != otherSettings.MinQuantizer ||
                this.NbBframes != otherSettings.NbBframes ||
                this.NbMotionPredictors != otherSettings.NbMotionPredictors ||
                this.PBFactor != otherSettings.PBFactor ||
                this.QPel != otherSettings.QPel ||
                this.QuantizerBlur != otherSettings.QuantizerBlur ||
                this.QuantizerCompression != otherSettings.QuantizerCompression ||
                this.SCD != otherSettings.SCD ||
                this.SpatialMask != otherSettings.SpatialMask ||
                this.SubpelRefinement != otherSettings.SubpelRefinement ||
                this.TemporalMask != otherSettings.TemporalMask ||
                this.Trellis != otherSettings.Trellis ||
                this.Turbo != otherSettings.Turbo ||
                this.V4MV != otherSettings.V4MV
                )
            {
                return(true);
            }
            else
            {
                return(false);
            }
        }
示例#11
0
        public void Run(MainForm info)
        {
            using (Calculator calc = new Calculator(info))
            {
                ulong  nbFrames = 0;
                double framerate = 0.0;
                int    hRes = 0, vRes = 0;
                Dar    dar = new Dar();

                if (!string.IsNullOrEmpty(info.Video.VideoInput))
                {
                    JobUtil.GetAllInputProperties(out nbFrames, out framerate, out hRes, out vRes, out dar, info.Video.VideoInput);
                }

                calc.SetDefaults(nbFrames, framerate, hRes, vRes, info.Video.CurrentSettings, info.Audio.AudioStreams);

                DialogResult dr = calc.ShowDialog();
                if (dr != DialogResult.OK)
                {
                    return;
                }

                if (info.Video.CurrentSettings.EncoderType != calc.SelectedVCodec)
                {
                    return;
                }

                VideoCodecSettings settings = info.Video.CurrentSettings;

                if (settings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.CQ ||
                    settings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.quality)
                {
                    dr = MessageBox.Show("Copy calculated bitrate into current video settings and change encoding mode to automated " + info.Settings.NbPasses + "-pass?", "Save calculated bitrate?", MessageBoxButtons.YesNo, MessageBoxIcon.Question);
                    if (dr != DialogResult.Yes)
                    {
                        return;
                    }
                    if (info.Settings.NbPasses == 3)
                    {
                        settings.VideoEncodingType = VideoCodecSettings.VideoEncodingMode.threepassAutomated;  // Automated 3-pass
                    }
                    else
                    {
                        settings.VideoEncodingType = VideoCodecSettings.VideoEncodingMode.twopassAutomated;  // Automated 2-pass
                    }
                }
                else
                {
                    dr = MessageBox.Show("Copy calculated bitrate into current video settings?", "Save calculated bitrate?", MessageBoxButtons.YesNo, MessageBoxIcon.Question);
                    if (dr != DialogResult.Yes)
                    {
                        return;
                    }
                }
                settings.BitrateQuantizer = calc.VideoBitrate;
            }
        }
示例#12
0
        public void postprocess()
        {
            audioFiles = vUtil.getAllDemuxedAudio(job.Output, 8);

            fillInAudioInformation();


            logBuilder.Append("Desired size of this automated encoding series: " + job.PostprocessingProperties.OutputSize
                              + " split size: " + job.PostprocessingProperties.Splitting + "\r\n");
            VideoCodecSettings videoSettings = job.PostprocessingProperties.VideoSettings;

            string videoOutput = Path.Combine(Path.GetDirectoryName(job.Output),
                                              Path.GetFileNameWithoutExtension(job.Output) + "_Video");
            string muxedOutput = job.PostprocessingProperties.FinalOutput;

            //Open the video
            Dar?   dar;
            string videoInput = openVideo(job.Output, job.PostprocessingProperties.DAR,
                                          job.PostprocessingProperties.HorizontalOutputResolution, job.PostprocessingProperties.SignalAR, logBuilder,
                                          job.PostprocessingProperties.AvsSettings, job.PostprocessingProperties.AutoDeinterlace, videoSettings, out dar);

            VideoStream myVideo = new VideoStream();
            ulong       length;
            double      framerate;

            JobUtil.getInputProperties(out length, out framerate, videoInput);
            myVideo.Input          = videoInput;
            myVideo.Output         = videoOutput;
            myVideo.NumberOfFrames = length;
            myVideo.Framerate      = (decimal)framerate;
            myVideo.DAR            = dar;
            myVideo.VideoType      = new MuxableType((new VideoEncoderProvider().GetSupportedOutput(videoSettings.EncoderType))[0], videoSettings.Codec);
            myVideo.Settings       = videoSettings;
            List <string> intermediateFiles = new List <string>();

            intermediateFiles.Add(videoInput);
            intermediateFiles.Add(job.Output);
            intermediateFiles.AddRange(audioFiles.Values);
            if (!string.IsNullOrEmpty(videoInput))
            {
                //Create empty subtitles for muxing (subtitles not supported in one click mode)
                MuxStream[] subtitles = new MuxStream[0];
                JobChain    c         = vUtil.GenerateJobSeries(myVideo, muxedOutput, job.PostprocessingProperties.AudioJobs, subtitles,
                                                                job.PostprocessingProperties.ChapterFile, job.PostprocessingProperties.OutputSize,
                                                                job.PostprocessingProperties.Splitting, job.PostprocessingProperties.Container,
                                                                false, job.PostprocessingProperties.DirectMuxAudio);

                /*                    vUtil.generateJobSeries(videoInput, videoOutput, muxedOutput, videoSettings,
                 *                      audioStreams, audio, subtitles, job.PostprocessingProperties.ChapterFile,
                 *                      job.PostprocessingProperties.OutputSize, job.PostprocessingProperties.SplitSize,
                 *                      containerOverhead, type, new string[] { job.Output, videoInput });*/
                c = CleanupJob.AddAfter(c, intermediateFiles);
                mainForm.Jobs.addJobsWithDependencies(c);
            }
            mainForm.addToLog(logBuilder.ToString());
        }
示例#13
0
        public void Run(MainForm info)
        {
            // normal video verification
            string error = null;

            // update the current audio stream with the latest data
            //            updateAudioStreams();
            if ((error = info.Video.verifyVideoSettings()) != null)
            {
                MessageBox.Show(error, "Unsupported video configuration", MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }
            if ((error = info.Audio.verifyAudioSettings()) != null && !error.Equals("No audio input defined."))
            {
                MessageBox.Show(error, "Unsupported audio configuration", MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }
#warning must be fixed up to be more generic
            if (info.Video.CurrentVideoCodecSettings.EncodingMode == 2 || info.Video.CurrentVideoCodecSettings.EncodingMode == 5)
            {
                MessageBox.Show("First pass encoding is not supported for automated encoding as no output is generated.\nPlease choose another encoding mode", "Improper configuration",
                                MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }

            VideoCodecSettings vSettings = info.Video.CurrentVideoCodecSettings.clone();
            bool cont = info.JobUtil.getFinalZoneConfiguration(vSettings, info.Video.Info.IntroEndFrame, info.Video.Info.CreditsStartFrame);
            if (cont)
            {
                ulong       length    = 0;
                double      framerate = 0.0;
                VideoStream myVideo   = new VideoStream();
                JobUtil.getInputProperties(out length, out framerate, info.Video.VideoInput);
                myVideo.Input          = info.Video.Info.VideoInput;
                myVideo.Output         = info.Video.Info.VideoOutput;
                myVideo.NumberOfFrames = length;
                myVideo.Framerate      = (decimal)framerate;
                myVideo.DAR            = info.Video.Info.DAR;
                myVideo.VideoType      = info.Video.CurrentMuxableVideoType;
                myVideo.Settings       = vSettings;

                using (AutoEncodeWindow aew = new AutoEncodeWindow(myVideo, info.Audio.AudioStreams, info, info.Video.PrerenderJob))
                {
                    if (aew.init())
                    {
                        info.ClosePlayer();
                        aew.ShowDialog();
                    }
                    else
                    {
                        MessageBox.Show("The currently selected combination of video and audio output cannot be muxed", "Unsupported configuration", MessageBoxButtons.OK, MessageBoxIcon.Warning);
                    }
                }
            }
        }
示例#14
0
        private string checkVideo(string avsFile, bool tryToFix)
        {
            try
            {
                using (AvsFile avi = AvsFile.OpenScriptFile(avsFile))
                {
                    if (avi.Clip.OriginalColorspace != AviSynthColorspace.YV12 && avi.Clip.OriginalColorspace != AviSynthColorspace.I420)
                    {
                        if (tryToFix && !isConvertedToYV12(avsFile))
                        {
                            bool convert = mainForm.DialogManager.addConvertToYV12(avi.Clip.OriginalColorspace.ToString());
                            if (convert)
                            {
                                if (appendConvertToYV12(avsFile))
                                {
                                    string sResult = checkVideo(avsFile, false); // Check everything again, to see if it is all fixed now
                                    if (sResult == null)
                                    {
                                        MessageBox.Show("Successfully converted to YV12.");
                                        return(null);
                                    }
                                    else
                                    {
                                        return(sResult);
                                    }
                                }
                            }
                            return("You didn't want me to append ConvertToYV12(). You'll have to fix the colorspace problem yourself.");
                        }
                        return(string.Format("AviSynth clip is in {0} not in YV12, even though ConvertToYV12() has been appended.", avi.Clip.OriginalColorspace.ToString()));
                    }

                    VideoCodecSettings settings = GetCurrentVideoSettings();

                    if (settings != null && settings.SettingsID != "x264") // mod16 restriction
                    {
                        if (avi.Clip.VideoHeight % 16 != 0 ||
                            avi.Clip.VideoWidth % 16 != 0)
                        {
                            return(string.Format("AviSynth clip doesn't have mod16 dimensions:\r\nWidth: {0}\r\nHeight:{1}\r\n" +
                                                 "This could cause problems with some encoders,\r\n" +
                                                 "and will also result in a loss of compressibility.\r\n" +
                                                 "I suggest you resize to a mod16 resolution.", avi.Clip.VideoWidth, avi.Clip.VideoHeight));
                        }
                    }
                }
            }
            catch (Exception e)
            {
                return("Error in AviSynth script:\r\n" + e.Message);
            }
            return(null);
        }
示例#15
0
        public JobChain AddVideoJobs(string movieInput, string movieOutput, VideoCodecSettings settings,
                                     int introEndFrame, int creditsStartFrame, Dar?dar, bool prerender, bool checkVideo, Zone[] zones)
        {
            JobChain jobs = null;
            bool     cont = getFinalZoneConfiguration(settings, introEndFrame, creditsStartFrame, ref zones);

            if (!cont) // abort
            {
                return(jobs);
            }
            return(prepareVideoJob(movieInput, movieOutput, settings, dar, prerender, checkVideo, zones));
        }
示例#16
0
        private bool isFirstPass()
        {
            VideoCodecSettings settings = CurrentVideoCodecSettings;

            if (settings.EncodingMode == 2 || settings.EncodingMode == 5)
            {
                return(true);
            }
            else
            {
                return(false);
            }
        }
示例#17
0
        private bool isFirstPass()
        {
            VideoCodecSettings settings = CurrentSettings;

            if (settings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.twopass1 ||
                settings.VideoEncodingType == VideoCodecSettings.VideoEncodingMode.threepass1)
            {
                return(true);
            }
            else
            {
                return(false);
            }
        }
/*        private void videoConfigButton_Click(object sender, System.EventArgs e)
 *      {
 #warning fix this
 *          /*if (player != null)
 *              player.Hide();
 *          VideoCodecSettings settings = CurrentVideoCodecSettingsProvider.GetCurrentSettings();
 *          string selectedProfile;
 *          if (CurrentVideoCodecSettingsProvider.EditSettings(mainForm, this.VideoProfile.Text,
 *              this.VideoIO, new int[] { this.introEndFrame, this.creditsStartFrame }, out selectedProfile))
 *          {
 *              this.VideoProfile.Items.Clear();
 *              foreach (string name in mainForm.Profiles.VideoProfiles.Keys)
 *              {
 *                  this.VideoProfile.Items.Add(name);
 *              }
 *              int index = this.VideoProfile.Items.IndexOf(selectedProfile);
 *              if (index != -1)
 *                  this.VideoProfile.SelectedIndex = index;
 *          }
 *          if (player != null)
 *              player.Show();
 *          updateIOConfig();*/
        //}
        private void queueVideoButton_Click(object sender, System.EventArgs e)
        {
            string settingsError = verifyVideoSettings();  // basic input, logfile and output file settings are okay

            if (settingsError != null)
            {
                MessageBox.Show(settingsError, "Unsupported configuration", MessageBoxButtons.OK, MessageBoxIcon.Stop);
                return;
            }
            VideoCodecSettings vSettings = this.CurrentVideoCodecSettings.clone();

            mainForm.JobUtil.AddVideoJobs(info.VideoInput, info.VideoOutput, this.CurrentVideoCodecSettings.clone(),
                                          info.IntroEndFrame, info.CreditsStartFrame, info.DAR, addPrerenderJob.Checked, true);
        }
示例#19
0
        /// <summary>
        /// sets the number of encoder threads in function of the number of processors found on the system
        /// </summary>
        /// <param name="settings"></param>
        private void adjustNbThreads(VideoCodecSettings settings)
        {
            string nbProc = System.Environment.GetEnvironmentVariable("NUMBER_OF_PROCESSORS");

            if (!String.IsNullOrEmpty(nbProc))
            {
                try
                {
                    int nbCPUs = int.Parse(nbProc);
                    settings.setAdjustedNbThreads(nbCPUs);
                }
                catch (Exception) { }
            }
        }
示例#20
0
        /// <summary>
        /// iteratees through all zones and makes sure we get no intersection by applying the current intro settings
        /// </summary>
        /// <param name="introEndFrame">the frame where the intro ends</param>
        /// <returns>true if the intro zone does not interesect with a zone, false otherwise</returns>
        private bool validateIntro(int introEndFrame)
        {
            VideoCodecSettings settings = this.CurrentVideoCodecSettings;

            foreach (Zone z in settings.Zones)
            {
                if (introEndFrame >= z.startFrame)
                {
                    MessageBox.Show("The end of the intro intersects with an already configured zone\ngoing from frame " + z.startFrame + " to frame " + z.endFrame +
                                    "\nPlease select another credits start frame or reconfigure the zone in the codec configuration.", "Zone intersection detected",
                                    MessageBoxButtons.OK, MessageBoxIcon.Stop);
                    return(false);
                }
            }
            return(true);
        }
示例#21
0
        public bool AddVideoJobs(string movieInput, string movieOutput, VideoCodecSettings settings,
                                 int introEndFrame, int creditsStartFrame, Dar?dar, bool prerender, bool checkVideo, Zone[] zones)
        {
            bool cont = getFinalZoneConfiguration(settings, introEndFrame, creditsStartFrame, ref zones);

            if (!cont) // abort
            {
                return(false);
            }
            JobChain jobs = prepareVideoJob(movieInput, movieOutput, settings, dar, prerender, checkVideo, zones);

            if (jobs == null)
            {
                return(false);
            }
            mainForm.Jobs.addJobsWithDependencies(jobs);

            return(false);
        }
示例#22
0
        public void InitializeDropdowns()
        {
            videoCodec.Items.Clear();
            videoCodec.Items.AddRange(mainForm.PackageSystem.VideoSettingsProviders.ValuesArray);
            try { videoCodec.SelectedItem = mainForm.PackageSystem.VideoSettingsProviders["x264"]; }
            catch (Exception)
            {
                try { videoCodec.SelectedIndex = 0; }
                catch (Exception) { MessageBox.Show("No valid video codecs are set up", "No valid video codecs", MessageBoxButtons.OK, MessageBoxIcon.Error); }
            }


            fileTypeHandler = new FileTypeHandler <VideoType>(fileType, videoCodec,
                                                              new FileTypeHandler <VideoType> .SupportedOutputGetter(delegate
            {
                return(videoEncoderProvider.GetSupportedOutput(codecHandler.CurrentSettingsProvider.EncoderType));
            }));

            fileTypeHandler.FileTypeChanged += new FileTypeHandler <VideoType> .FileTypeEvent(delegate
                                                                                              (object sender, VideoType currentType) {
                VideoCodecSettings settings = CurrentSettings;
                this.updateIOConfig();
                if (MainForm.verifyOutputFile(this.VideoOutput) == null)
                {
                    this.VideoOutput = Path.ChangeExtension(this.VideoOutput, currentType.Extension);
                }
            });

            codecHandler =
                new MultipleConfigurersHandler <VideoCodecSettings, VideoInfo, VideoCodec, VideoEncoderType>(videoCodec);

            profileHandler = new ProfilesControlHandler <VideoCodecSettings, VideoInfo>("Video", mainForm, profileControl1,
                                                                                        codecHandler.EditSettings, new InfoGetter <VideoInfo>(getInfo),
                                                                                        codecHandler.Getter, codecHandler.Setter);
            codecHandler.Register(profileHandler);
            fileTypeHandler.RefreshFiletypes();
        }
示例#23
0
        /// <summary>
        /// generates a videojob from the given settings
        /// returns the job and whether or not this is an automated job (in which case another job
        /// will have to be created)
        /// </summary>
        /// <param name="input">the video input (avisynth script)</param>
        /// <param name="output">the video output</param>
        /// <param name="settings">the codec settings for this job</param>
        /// <returns>the generated job or null if there was an error with the video source</returns>
        public VideoJob generateVideoJob(string input, string output, VideoCodecSettings settings, bool skipVideoCheck, Dar?dar)
        {
            VideoJob job = new VideoJob(input, output, settings, dar);

            if (mainForm.Settings.AutoSetNbThreads)
            {
                adjustNbThreads(settings);
            }
            if (Path.GetDirectoryName(settings.Logfile).Equals(""))             // no path set
            {
                settings.Logfile = Path.ChangeExtension(input, ".stats");
            }
            if (job.Settings.EncodingMode == 4)             // automated 2 pass, change type to 2 pass 2nd pass
            {
                job.Settings.EncodingMode = 3;
                job.Settings.Turbo        = false;
            }
            else if (job.Settings.EncodingMode == 8)             // automated 3 pass, change type to 3 pass first pass
            {
                if (mainForm.Settings.OverwriteStats)
                {
                    job.Settings.EncodingMode = 7;
                }
                else
                {
                    job.Settings.EncodingMode = 3;                     // 2 pass 2nd pass.. doesn't overwrite the stats file
                }
                job.Settings.Turbo = false;
            }

            if (!skipVideoCheck)
            {
                checkVideo(job.Input);
            }

            return(job);
        }
示例#24
0
        /// <summary>
        ///  Handles assessment of whether the encoding options vary between two snowSettings instances
        /// The following are excluded from the comparison:
        /// BitrateQuantizer
        /// CreditsQuantizer
        /// Logfile
        /// Quantizer
        /// SARX
        /// SARY
        /// Zones
        /// </summary>
        /// <param name="otherSettings"></param>
        /// <returns>true if the settings differ</returns>
        public override bool IsAltered(VideoCodecSettings settings)
        {
            if (!(settings is snowSettings))
            {
                return(true);
            }
            snowSettings otherSettings = (snowSettings)settings;

            if (
                this.CustomEncoderOptions != otherSettings.CustomEncoderOptions ||
                this.EncodingMode != otherSettings.EncodingMode ||
                this.FourCC != otherSettings.FourCC ||
                // this.FourCCs != otherSettings.FourCCs ||
                this.KeyframeInterval != otherSettings.KeyframeInterval ||
                this.LosslessMode != otherSettings.LosslessMode ||
                this.MaxQuantizer != otherSettings.MaxQuantizer ||
                this.MBComp != otherSettings.MBComp ||
                this.MECompFullpel != otherSettings.MECompFullpel ||
                this.MECompHpel != otherSettings.MECompHpel ||
                this.MinQuantizer != otherSettings.MinQuantizer ||
                this.NbBframes != otherSettings.NbBframes ||
                this.NbMotionPredictors != otherSettings.NbMotionPredictors ||
                this.PredictionMode != otherSettings.PredictionMode ||
                this.QPel != otherSettings.QPel ||
                this.Trellis != otherSettings.Trellis ||
                this.Turbo != otherSettings.Turbo ||
                this.V4MV != otherSettings.V4MV
                )
            {
                return(true);
            }
            else
            {
                return(false);
            }
        }
示例#25
0
        public void openVideoFile(string fileName)
        {
            info.CreditsStartFrame = -1;
            info.IntroEndFrame     = -1;
            info.VideoInput        = fileName;
            info.DARX = info.DARY = -1;
            //reset the zones for all codecs, zones are supposed to be source bound
            foreach (ISettingsProvider <VideoCodecSettings, VideoInfo, VideoCodec, VideoEncoderType> p in (videoCodec.Items))
            {
                VideoCodecSettings s = p.GetCurrentSettings();
                s.Zones = new Zone[0];
                p.LoadSettings(s);
            }
            if (mainForm.Settings.AutoOpenScript)
            {
                openAvisynthScript(fileName);
            }
            string filePath            = Path.GetDirectoryName(fileName);
            string fileNameNoExtension = Path.GetFileNameWithoutExtension(fileName);

            this.VideoOutput = Path.Combine(filePath, fileNameNoExtension) + mainForm.Settings.VideoExtension + ".extension";
            this.VideoOutput = Path.ChangeExtension(this.VideoOutput, this.CurrentVideoOutputType.Extension);
            updateIOConfig();
        }
        /// <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);
        }
        private void StartPostProcessing()
        {
            Thread t = null;

            try
            {
                _log.LogEvent("Processing thread started");
                raiseEvent("Preprocessing...   ***PLEASE WAIT***");
                _start = DateTime.Now;
                t      = new Thread(new ThreadStart(delegate
                {
                    while (true)
                    {
                        updateTime();
                        Thread.Sleep(1000);
                    }
                }));
                t.Start();

                List <string> arrAudioFilesDelete = new List <string>();
                audioFiles = new Dictionary <int, string>();
                List <AudioTrackInfo> arrAudioTracks    = new List <AudioTrackInfo>();
                List <AudioJob>       arrAudioJobs      = new List <AudioJob>();
                List <MuxStream>      arrMuxStreams     = new List <MuxStream>();
                List <string>         intermediateFiles = new List <string>();

                FileUtil.ensureDirectoryExists(job.PostprocessingProperties.WorkingDirectory);
                foreach (OneClickAudioTrack oAudioTrack in job.PostprocessingProperties.AudioTracks)
                {
                    if (oAudioTrack.ExtractMKVTrack)
                    {
                        audioFiles.Add(oAudioTrack.AudioTrackInfo.TrackID, job.PostprocessingProperties.WorkingDirectory + "\\" + oAudioTrack.AudioTrackInfo.DemuxFileName);
                        arrAudioFilesDelete.Add(job.PostprocessingProperties.WorkingDirectory + "\\" + oAudioTrack.AudioTrackInfo.DemuxFileName);
                    }
                    else if (oAudioTrack.AudioTrackInfo != null)
                    {
                        arrAudioTracks.Add(oAudioTrack.AudioTrackInfo);
                    }
                    if (oAudioTrack.AudioJob != null)
                    {
                        if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.NONE &&
                            String.IsNullOrEmpty(oAudioTrack.AudioJob.Input))
                        {
                            oAudioTrack.AudioJob.Input = job.Input;
                        }
                        arrAudioJobs.Add(oAudioTrack.AudioJob);
                    }
                    if (oAudioTrack.DirectMuxAudio != null)
                    {
                        arrMuxStreams.Add(oAudioTrack.DirectMuxAudio);
                    }
                }
                if (audioFiles.Count == 0 && job.PostprocessingProperties.IndexType != FileIndexerWindow.IndexType.NONE && !job.PostprocessingProperties.Eac3toDemux)
                {
                    audioFiles = vUtil.getAllDemuxedAudio(arrAudioTracks, new List <AudioTrackInfo>(), out arrAudioFilesDelete, job.IndexFile, _log);
                }

                fillInAudioInformation(arrAudioJobs, arrMuxStreams);

                if (!String.IsNullOrEmpty(job.PostprocessingProperties.VideoFileToMux))
                {
                    _log.LogEvent("Don't encode video: True");
                }
                else
                {
                    _log.LogEvent("Desired size: " + job.PostprocessingProperties.OutputSize);
                }
                _log.LogEvent("Split size: " + job.PostprocessingProperties.Splitting);


                // chapter file handling
                if (String.IsNullOrEmpty(job.PostprocessingProperties.ChapterFile))
                {
                    job.PostprocessingProperties.ChapterFile = null;
                }
                else if (job.PostprocessingProperties.Container == ContainerType.AVI)
                {
                    _log.LogEvent("Chapter handling disabled because of the AVI target container");
                    job.PostprocessingProperties.ChapterFile = null;
                }
                else if (!File.Exists(job.PostprocessingProperties.ChapterFile))
                {
                    if (job.PostprocessingProperties.ChapterFile.StartsWith("<") || job.PostprocessingProperties.ChapterExtracted)
                    {
                        // internal chapter file
                        string strTempFile = job.PostprocessingProperties.ChapterFile;
                        if (Path.GetExtension(job.PostprocessingProperties.VideoInput).ToLower(System.Globalization.CultureInfo.InvariantCulture).Equals(".mkv"))
                        {
                            MediaInfoFile oInfo = new MediaInfoFile(job.PostprocessingProperties.VideoInput, ref _log);
                            if (oInfo.hasMKVChapters())
                            {
                                job.PostprocessingProperties.ChapterFile = Path.Combine(job.PostprocessingProperties.WorkingDirectory, Path.GetFileNameWithoutExtension(job.IndexFile) + " - Chapter Information.txt");
                                if (oInfo.extractMKVChapters(job.PostprocessingProperties.ChapterFile))
                                {
                                    intermediateFiles.Add(job.PostprocessingProperties.ChapterFile);
                                    job.PostprocessingProperties.ChapterExtracted = true;
                                }
                                else
                                {
                                    job.PostprocessingProperties.ChapterFile = strTempFile;
                                }
                            }
                        }
                        else if (File.Exists(job.PostprocessingProperties.IFOInput))
                        {
                            job.PostprocessingProperties.ChapterFile = VideoUtil.getChaptersFromIFO(job.PostprocessingProperties.IFOInput, false, job.PostprocessingProperties.WorkingDirectory, job.PostprocessingProperties.TitleNumberToProcess);
                            if (!String.IsNullOrEmpty(job.PostprocessingProperties.ChapterFile))
                            {
                                intermediateFiles.Add(job.PostprocessingProperties.ChapterFile);
                                job.PostprocessingProperties.ChapterExtracted = true;
                            }
                            else
                            {
                                job.PostprocessingProperties.ChapterFile = strTempFile;
                            }
                        }
                    }
                    if (!File.Exists(job.PostprocessingProperties.ChapterFile))
                    {
                        _log.LogEvent("File not found: " + job.PostprocessingProperties.ChapterFile, ImageType.Error);
                        job.PostprocessingProperties.ChapterFile = null;
                    }
                }
                else if (job.PostprocessingProperties.ChapterExtracted)
                {
                    intermediateFiles.Add(job.PostprocessingProperties.ChapterFile);
                }

                string             avsFile       = String.Empty;
                VideoStream        myVideo       = new VideoStream();
                VideoCodecSettings videoSettings = job.PostprocessingProperties.VideoSettings;
                if (String.IsNullOrEmpty(job.PostprocessingProperties.VideoFileToMux))
                {
                    //Open the video
                    Dar?dar;
                    avsFile = createAVSFile(job.IndexFile, job.Input, job.PostprocessingProperties.DAR,
                                            job.PostprocessingProperties.HorizontalOutputResolution, job.PostprocessingProperties.SignalAR, _log,
                                            job.PostprocessingProperties.AvsSettings, job.PostprocessingProperties.AutoDeinterlace, videoSettings, out dar,
                                            job.PostprocessingProperties.AutoCrop, job.PostprocessingProperties.KeepInputResolution,
                                            job.PostprocessingProperties.UseChaptersMarks);

                    ulong  length;
                    double framerate;
                    JobUtil.getInputProperties(out length, out framerate, avsFile);
                    myVideo.Input  = avsFile;
                    myVideo.Output = Path.Combine(job.PostprocessingProperties.WorkingDirectory,
                                                  Path.GetFileNameWithoutExtension(job.Input) + "_Video");
                    myVideo.NumberOfFrames = length;
                    myVideo.Framerate      = (decimal)framerate;
                    myVideo.DAR            = dar;
                    myVideo.VideoType      = new MuxableType((new VideoEncoderProvider().GetSupportedOutput(videoSettings.EncoderType))[0], videoSettings.Codec);
                    myVideo.Settings       = videoSettings;
                }
                else
                {
                    myVideo.Output   = job.PostprocessingProperties.VideoFileToMux;
                    myVideo.Settings = videoSettings;

                    MediaInfoFile oInfo = new MediaInfoFile(myVideo.Output, ref _log);
                    videoSettings.VideoName = oInfo.VideoInfo.Track.Name;
                    myVideo.Framerate       = (decimal)oInfo.VideoInfo.FPS;
                }

                intermediateFiles.Add(avsFile);
                intermediateFiles.Add(job.IndexFile);
                intermediateFiles.AddRange(audioFiles.Values);
                if (!string.IsNullOrEmpty(qpfile))
                {
                    intermediateFiles.Add(qpfile);
                }
                foreach (string file in arrAudioFilesDelete)
                {
                    intermediateFiles.Add(file);
                }
                if (File.Exists(Path.Combine(Path.GetDirectoryName(job.Input), Path.GetFileNameWithoutExtension(job.Input) + "._log")))
                {
                    intermediateFiles.Add(Path.Combine(Path.GetDirectoryName(job.Input), Path.GetFileNameWithoutExtension(job.Input) + "._log"));
                }
                foreach (string file in job.PostprocessingProperties.FilesToDelete)
                {
                    intermediateFiles.Add(file);
                }

                if (!string.IsNullOrEmpty(avsFile) || !String.IsNullOrEmpty(job.PostprocessingProperties.VideoFileToMux))
                {
                    MuxStream[] subtitles;
                    if (job.PostprocessingProperties.SubtitleTracks.Count == 0)
                    {
                        //Create empty subtitles for muxing
                        subtitles = new MuxStream[0];
                    }
                    else
                    {
                        subtitles = new MuxStream[job.PostprocessingProperties.SubtitleTracks.Count];
                        int i = 0;
                        foreach (OneClickStream oTrack in job.PostprocessingProperties.SubtitleTracks)
                        {
                            if (oTrack.TrackInfo.IsMKVContainer())
                            {
                                //demuxed MKV
                                string trackFile = Path.GetDirectoryName(job.IndexFile) + "\\" + oTrack.TrackInfo.DemuxFileName;
                                if (File.Exists(trackFile))
                                {
                                    intermediateFiles.Add(trackFile);
                                    if (Path.GetExtension(trackFile).ToLower(System.Globalization.CultureInfo.InvariantCulture).Equals(".idx"))
                                    {
                                        intermediateFiles.Add(FileUtil.GetPathWithoutExtension(trackFile) + ".sub");
                                    }

                                    subtitles[i] = new MuxStream(trackFile, oTrack.Language, oTrack.Name, oTrack.Delay, oTrack.DefaultStream, oTrack.ForcedStream, null);
                                }
                                else
                                {
                                    _log.LogEvent("File not found: " + trackFile, ImageType.Error);
                                }
                            }
                            else
                            {
                                subtitles[i] = new MuxStream(oTrack.DemuxFilePath, oTrack.Language, oTrack.Name, oTrack.Delay, oTrack.DefaultStream, oTrack.ForcedStream, null);
                            }
                            i++;
                        }
                    }

                    JobChain c = vUtil.GenerateJobSeries(myVideo, job.PostprocessingProperties.FinalOutput, arrAudioJobs.ToArray(),
                                                         subtitles, job.PostprocessingProperties.ChapterFile, job.PostprocessingProperties.OutputSize,
                                                         job.PostprocessingProperties.Splitting, job.PostprocessingProperties.Container,
                                                         job.PostprocessingProperties.PrerenderJob, arrMuxStreams.ToArray(),
                                                         _log, job.PostprocessingProperties.DeviceOutputType, null, job.PostprocessingProperties.VideoFileToMux, job.PostprocessingProperties.AudioTracks.ToArray());
                    if (c == null)
                    {
                        _log.Warn("Job creation aborted");
                        return;
                    }

                    c = CleanupJob.AddAfter(c, intermediateFiles, job.PostprocessingProperties.FinalOutput);
                    mainForm.Jobs.addJobsWithDependencies(c);

                    // batch processing other input files if necessary
                    if (job.PostprocessingProperties.FilesToProcess.Count > 0)
                    {
                        OneClickWindow ocw = new OneClickWindow(mainForm);
                        ocw.setBatchProcessing(job.PostprocessingProperties.FilesToProcess, job.PostprocessingProperties.OneClickSetting);
                    }
                }
            }
            catch (Exception e)
            {
                t.Abort();
                if (e is ThreadAbortException)
                {
                    _log.LogEvent("Aborting...");
                    su.WasAborted = true;
                    su.IsComplete = true;
                    raiseEvent();
                }
                else
                {
                    _log.LogValue("An error occurred", e, ImageType.Error);
                    su.HasError   = true;
                    su.IsComplete = true;
                    raiseEvent();
                }
                return;
            }
            t.Abort();
            su.IsComplete = true;
            raiseEvent();
        }
示例#28
0
 public VideoJob generateVideoJob(string input, string output, VideoCodecSettings settings, Dar? dar, Zone[] zones)
 {
     return generateVideoJob(input, output, settings, false, dar, zones);
 }
示例#29
0
        protected override void RunInThread()
        {
            JobChain      c = null;
            List <string> intermediateFiles = new List <string>();
            bool          bError            = false;

            try
            {
                log.LogEvent("Processing thread started");
                su.Status = "Preprocessing...   ***PLEASE WAIT***";
                su.ResetTime();

                List <string> arrAudioFilesDelete = new List <string>();
                audioFiles = new Dictionary <int, string>();
                List <AudioTrackInfo> arrAudioTracks = new List <AudioTrackInfo>();
                List <AudioJob>       arrAudioJobs   = new List <AudioJob>();
                List <MuxStream>      arrMuxStreams  = new List <MuxStream>();
                FileUtil.ensureDirectoryExists(job.PostprocessingProperties.WorkingDirectory);

                // audio handling
                foreach (OneClickAudioTrack oAudioTrack in job.PostprocessingProperties.AudioTracks)
                {
                    if (IsJobStopped())
                    {
                        return;
                    }

                    if (oAudioTrack.AudioTrackInfo != null)
                    {
                        if (oAudioTrack.AudioTrackInfo.ExtractMKVTrack)
                        {
                            if (job.PostprocessingProperties.ApplyDelayCorrection && File.Exists(job.PostprocessingProperties.IntermediateMKVFile))
                            {
                                MediaInfoFile oFile  = new MediaInfoFile(job.PostprocessingProperties.IntermediateMKVFile, ref log);
                                bool          bFound = false;
                                foreach (AudioTrackInfo oAudioInfo in oFile.AudioInfo.Tracks)
                                {
                                    if (oAudioInfo.MMGTrackID == oAudioTrack.AudioTrackInfo.MMGTrackID)
                                    {
                                        bFound = true;
                                    }
                                }
                                int mmgTrackID = 0;
                                if (!bFound)
                                {
                                    mmgTrackID = oFile.AudioInfo.Tracks[oAudioTrack.AudioTrackInfo.TrackIndex].MMGTrackID;
                                }
                                else
                                {
                                    mmgTrackID = oAudioTrack.AudioTrackInfo.MMGTrackID;
                                }
                                foreach (AudioTrackInfo oAudioInfo in oFile.AudioInfo.Tracks)
                                {
                                    if (oAudioInfo.MMGTrackID == mmgTrackID)
                                    {
                                        if (oAudioTrack.DirectMuxAudio != null)
                                        {
                                            oAudioTrack.DirectMuxAudio.delay = oAudioInfo.Delay;
                                        }
                                        if (oAudioTrack.AudioJob != null)
                                        {
                                            oAudioTrack.AudioJob.Delay = oAudioInfo.Delay;
                                        }
                                        break;
                                    }
                                }
                            }
                            if (!audioFiles.ContainsKey(oAudioTrack.AudioTrackInfo.TrackID))
                            {
                                audioFiles.Add(oAudioTrack.AudioTrackInfo.TrackID, job.PostprocessingProperties.WorkingDirectory + "\\" + oAudioTrack.AudioTrackInfo.DemuxFileName);
                                arrAudioFilesDelete.Add(job.PostprocessingProperties.WorkingDirectory + "\\" + oAudioTrack.AudioTrackInfo.DemuxFileName);
                            }
                        }
                        else
                        {
                            arrAudioTracks.Add(oAudioTrack.AudioTrackInfo);
                        }
                    }
                    if (oAudioTrack.AudioJob != null)
                    {
                        if (job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.NONE &&
                            String.IsNullOrEmpty(oAudioTrack.AudioJob.Input))
                        {
                            oAudioTrack.AudioJob.Input = job.Input;
                        }
                        arrAudioJobs.Add(oAudioTrack.AudioJob);
                    }
                    if (oAudioTrack.DirectMuxAudio != null)
                    {
                        arrMuxStreams.Add(oAudioTrack.DirectMuxAudio);
                    }
                }
                if (audioFiles.Count == 0 && !job.PostprocessingProperties.Eac3toDemux &&
                    job.PostprocessingProperties.IndexType != FileIndexerWindow.IndexType.NONE &&
                    job.PostprocessingProperties.IndexType != FileIndexerWindow.IndexType.AVISOURCE)
                {
                    if ((job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGI || job.PostprocessingProperties.IndexType == FileIndexerWindow.IndexType.DGM) &&
                        File.Exists(Path.ChangeExtension(job.IndexFile, ".log")))
                    {
                        job.PostprocessingProperties.FilesToDelete.Add(Path.ChangeExtension(job.IndexFile, ".log"));
                        audioFiles = AudioUtil.GetAllDemuxedAudioFromDGI(arrAudioTracks, out arrAudioFilesDelete, job.IndexFile, log);
                    }
                    else
                    {
                        audioFiles = VideoUtil.getAllDemuxedAudio(arrAudioTracks, new List <AudioTrackInfo>(), out arrAudioFilesDelete, job.IndexFile, log);
                    }
                }

                FillInAudioInformation(ref arrAudioJobs, arrMuxStreams);

                if (!String.IsNullOrEmpty(job.PostprocessingProperties.VideoFileToMux))
                {
                    log.LogEvent("Don't encode video: True");
                }
                else
                {
                    log.LogEvent("Desired size: " + job.PostprocessingProperties.OutputSize);
                }
                log.LogEvent("Split size: " + job.PostprocessingProperties.Splitting);

                if (IsJobStopped())
                {
                    return;
                }

                // video file handling
                string             avsFile       = String.Empty;
                VideoStream        myVideo       = new VideoStream();
                VideoCodecSettings videoSettings = job.PostprocessingProperties.VideoSettings;
                if (String.IsNullOrEmpty(job.PostprocessingProperties.VideoFileToMux))
                {
                    //Open the video
                    try
                    {
                        avsFile = CreateAVSFile(job.IndexFile, job.Input, job.PostprocessingProperties.DAR,
                                                job.PostprocessingProperties.HorizontalOutputResolution, log,
                                                job.PostprocessingProperties.AvsSettings, job.PostprocessingProperties.AutoDeinterlace, videoSettings,
                                                job.PostprocessingProperties.AutoCrop, job.PostprocessingProperties.KeepInputResolution,
                                                job.PostprocessingProperties.UseChaptersMarks);
                    }
                    catch (Exception ex)
                    {
                        log.LogValue("An error occurred creating the AVS file", ex, ImageType.Error);
                    }

                    if (IsJobStopped())
                    {
                        return;
                    }

                    if (!String.IsNullOrEmpty(avsFile))
                    {
                        // check AVS file
                        JobUtil.GetInputProperties(avsFile, out ulong frameCount, out double frameRate);

                        myVideo.Input          = avsFile;
                        myVideo.Output         = Path.Combine(job.PostprocessingProperties.WorkingDirectory, Path.GetFileNameWithoutExtension(job.Input) + "_Video");
                        myVideo.NumberOfFrames = frameCount;
                        myVideo.Framerate      = (decimal)frameRate;
                        myVideo.VideoType      = new MuxableType((new VideoEncoderProvider().GetSupportedOutput(videoSettings.EncoderType))[0], videoSettings.Codec);
                        myVideo.Settings       = videoSettings;
                    }
                    else
                    {
                        bError = true;
                    }
                }
                else
                {
                    myVideo.DAR    = job.PostprocessingProperties.ForcedDAR;
                    myVideo.Output = job.PostprocessingProperties.VideoFileToMux;
                    MediaInfoFile oInfo = new MediaInfoFile(myVideo.Output, ref log);
                    if (Path.GetExtension(job.PostprocessingProperties.VideoFileToMux).Equals(".unknown") && !String.IsNullOrEmpty(oInfo.ContainerFileTypeString))
                    {
                        job.PostprocessingProperties.VideoFileToMux = Path.ChangeExtension(job.PostprocessingProperties.VideoFileToMux, oInfo.ContainerFileTypeString.ToLowerInvariant());
                        File.Move(myVideo.Output, job.PostprocessingProperties.VideoFileToMux);
                        myVideo.Output = job.PostprocessingProperties.VideoFileToMux;
                        job.PostprocessingProperties.FilesToDelete.Add(myVideo.Output);
                    }

                    myVideo.Settings       = videoSettings;
                    myVideo.Framerate      = (decimal)oInfo.VideoInfo.FPS;
                    myVideo.NumberOfFrames = oInfo.VideoInfo.FrameCount;
                }

                if (IsJobStopped())
                {
                    return;
                }

                intermediateFiles.Add(avsFile);
                intermediateFiles.Add(job.IndexFile);
                intermediateFiles.AddRange(audioFiles.Values);
                foreach (string file in arrAudioFilesDelete)
                {
                    intermediateFiles.Add(file);
                }
                intermediateFiles.Add(Path.ChangeExtension(job.Input, ".log"));
                foreach (string file in job.PostprocessingProperties.FilesToDelete)
                {
                    intermediateFiles.Add(file);
                }

                // subtitle handling
                List <MuxStream> subtitles = new List <MuxStream>();
                if (job.PostprocessingProperties.SubtitleTracks.Count > 0)
                {
                    foreach (OneClickStream oTrack in job.PostprocessingProperties.SubtitleTracks)
                    {
                        if (oTrack.TrackInfo.ExtractMKVTrack)
                        {
                            //demuxed MKV
                            string trackFile = Path.GetDirectoryName(job.IndexFile) + "\\" + oTrack.TrackInfo.DemuxFileName;
                            if (File.Exists(trackFile))
                            {
                                intermediateFiles.Add(trackFile);
                                if (Path.GetExtension(trackFile).ToLowerInvariant().Equals(".idx"))
                                {
                                    intermediateFiles.Add(FileUtil.GetPathWithoutExtension(trackFile) + ".sub");
                                }

                                subtitles.Add(new MuxStream(trackFile, oTrack.Language, oTrack.Name, oTrack.Delay, oTrack.DefaultStream, oTrack.ForcedStream, null));
                            }
                            else
                            {
                                log.LogEvent("Ignoring subtitle as the it cannot be found: " + trackFile, ImageType.Warning);
                            }
                        }
                        else
                        {
                            // sometimes the language is detected differently by vsrip and the IFO parser. Therefore search also for other files
                            string strDemuxFile = oTrack.DemuxFilePath;
                            if (!File.Exists(strDemuxFile) && Path.GetFileNameWithoutExtension(strDemuxFile).Contains("_"))
                            {
                                string strDemuxFileName = Path.GetFileNameWithoutExtension(strDemuxFile);
                                strDemuxFileName = strDemuxFileName.Substring(0, strDemuxFileName.LastIndexOf("_")) + "_*" + Path.GetExtension(strDemuxFile);
                                foreach (string strFileName in Directory.GetFiles(Path.GetDirectoryName(strDemuxFile), strDemuxFileName))
                                {
                                    strDemuxFile = Path.Combine(Path.GetDirectoryName(strDemuxFile), strFileName);
                                    intermediateFiles.Add(strDemuxFile);
                                    intermediateFiles.Add(Path.ChangeExtension(strDemuxFile, ".sub"));
                                    log.LogEvent("Subtitle + " + oTrack.DemuxFilePath + " cannot be found. " + strFileName + " will be used instead", ImageType.Information);
                                    break;
                                }
                            }
                            if (File.Exists(strDemuxFile))
                            {
                                string strTrackName = oTrack.Name;

                                // check if a forced stream is available
                                string strForcedFile = Path.Combine(Path.GetDirectoryName(strDemuxFile), Path.GetFileNameWithoutExtension(strDemuxFile) + "_forced.idx");
                                if (File.Exists(strForcedFile))
                                {
                                    subtitles.Add(new MuxStream(strForcedFile, oTrack.Language, SubtitleUtil.ApplyForcedStringToTrackName(true, oTrack.Name), oTrack.Delay, oTrack.DefaultStream, true, null));
                                    intermediateFiles.Add(strForcedFile);
                                    intermediateFiles.Add(Path.ChangeExtension(strForcedFile, ".sub"));
                                }
                                subtitles.Add(new MuxStream(strDemuxFile, oTrack.Language, SubtitleUtil.ApplyForcedStringToTrackName(false, oTrack.Name), oTrack.Delay, oTrack.DefaultStream, (File.Exists(strForcedFile) ? false : oTrack.ForcedStream), null));
                            }
                            else
                            {
                                log.LogEvent("Ignoring subtitle as the it cannot be found: " + oTrack.DemuxFilePath, ImageType.Warning);
                            }
                        }
                    }
                }

                if (IsJobStopped())
                {
                    return;
                }

                if (!bError)
                {
                    c = VideoUtil.GenerateJobSeries(myVideo, job.PostprocessingProperties.FinalOutput, arrAudioJobs.ToArray(),
                                                    subtitles.ToArray(), job.PostprocessingProperties.Attachments, job.PostprocessingProperties.TimeStampFile,
                                                    job.PostprocessingProperties.ChapterInfo, job.PostprocessingProperties.OutputSize,
                                                    job.PostprocessingProperties.Splitting, job.PostprocessingProperties.Container,
                                                    job.PostprocessingProperties.PrerenderJob, arrMuxStreams.ToArray(),
                                                    log, job.PostprocessingProperties.DeviceOutputType, null, job.PostprocessingProperties.VideoFileToMux,
                                                    job.PostprocessingProperties.AudioTracks.ToArray(), true);
                }

                if (c != null && !String.IsNullOrEmpty(job.PostprocessingProperties.TimeStampFile) &&
                    c.Jobs[c.Jobs.Length - 1].Job is MuxJob && (c.Jobs[c.Jobs.Length - 1].Job as MuxJob).MuxType == MuxerType.MP4BOX)
                {
                    // last job is a mp4box job and vfr timecode data has to be applied
                    MP4FpsModJob mp4FpsMod = new MP4FpsModJob(((MuxJob)c.Jobs[c.Jobs.Length - 1].Job).Output, job.PostprocessingProperties.TimeStampFile);
                    c = new SequentialChain(c, new SequentialChain(mp4FpsMod));
                }
            }
            catch (Exception e)
            {
                log.LogValue("An error occurred", e, ImageType.Error);
                bError = true;
            }

            if (c == null || bError)
            {
                log.Error("Job creation aborted");
                su.HasError = true;
            }

            // add cleanup job also in case of an error
            c = CleanupJob.AddAfter(c, intermediateFiles, job.PostprocessingProperties.FinalOutput);
            MainForm.Instance.Jobs.AddJobsWithDependencies(c, false);

            // batch processing other input files if necessary
            if (job.PostprocessingProperties.FilesToProcess.Count > 0)
            {
                OneClickWindow ocw = new OneClickWindow();
                ocw.setBatchProcessing(job.PostprocessingProperties.FilesToProcess, job.PostprocessingProperties.OneClickSetting);
            }

            su.IsComplete = true;
        }
示例#30
0
        /// <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);
        }
示例#31
0
        /// <summary>
        /// generates a videojob from the given settings
        /// returns the job and whether or not this is an automated job (in which case another job
        /// will have to be created)
        /// </summary>
        /// <param name="input">the video input (avisynth script)</param>
        /// <param name="output">the video output</param>
        /// <param name="settings">the codec settings for this job</param>
        /// <returns>the generated job or null if there was an error with the video source</returns>
        public VideoJob generateVideoJob(string input, string output, VideoCodecSettings settings, bool skipVideoCheck, Dar? dar, Zone[] zones)
        {
            VideoJob job = new VideoJob(input, output, settings, dar, zones);

            if (Path.GetDirectoryName(settings.Logfile).Equals("")) // no path set
                settings.Logfile = Path.ChangeExtension(output, ".stats");
            if (job.Settings.SettingsID.Equals("x264"))
                mbtreeFile = Path.ChangeExtension(output, ".stats.mbtree");
            if (job.Settings.EncodingMode == 4) // automated 2 pass, change type to 2 pass 2nd pass
            {
                job.Settings.EncodingMode = 3;
            }
            else if (job.Settings.EncodingMode == 8) // automated 3 pass, change type to 3 pass first pass
            {
                if (mainForm.Settings.OverwriteStats)
                    job.Settings.EncodingMode = 7;
                else
                    job.Settings.EncodingMode = 3; // 2 pass 2nd pass.. doesn't overwrite the stats file
            }

            if (!skipVideoCheck)
                checkVideo(job.Input);

            return job;
        }
示例#32
0
        /// <summary>
        /// compiles the final zone configuration based on intro end frame, credits start frame and the configured zones
        /// </summary>
        /// <param name="vSettings">the video settings containing the list of configured zones</param>
        /// <param name="introEndFrame">the frame where the intro ends</param>
        /// <param name="creditsStartFrame">the frame where the credits begin</param>
        /// <param name="newZones">the zones that are returned</param>
        /// <returns>an array of zones objects in the proper order</returns>
        public bool getFinalZoneConfiguration(VideoCodecSettings vSettings, int introEndFrame, int creditsStartFrame, ref Zone[] zones)
        {
            Zone  introZone = new Zone();
            Zone  creditsZone = new Zone();
            ulong nbOfFrames = getNumberOfFrames(mainForm.Video.VideoInput);
            bool  doIntroZone = false, doCreditsZone = false;
            int   flushZonesStart = 0, flushZonesEnd = 0;

            if (introEndFrame > 0)             // add the intro zone
            {
                introZone.startFrame = 0;
                introZone.endFrame   = introEndFrame;
                introZone.mode       = ZONEMODE.Quantizer;
                introZone.modifier   = vSettings.CreditsQuantizer;
                if (zones.Length > 0)
                {
                    Zone z = zones[0];
                    if (z.startFrame > introZone.endFrame)                     // the first configured zone starts after the intro zone
                    {
                        doIntroZone = true;
                    }
                    else
                    {
                        flushZonesStart = 1;
                        int numberOfConfiguredZones = zones.Length;
                        while (flushZonesStart <= numberOfConfiguredZones)                        // iterate through all zones backwards until we find the first that goes with the intro
                        {
                            Zone conflict = zones[flushZonesStart];
                            if (conflict.startFrame <= introZone.endFrame)                             // zone starts before the end of the intro -> conflict
                            {
                                flushZonesStart++;
                            }
                            else
                            {
                                break;
                            }
                        }
                        DialogResult dr = MessageBox.Show("Your intro zone overlaps " + flushZonesStart + " zone(s) configured\nin the codec settings.\n"
                                                          + "Do you want to remove those zones and add the intro zone instead?", "Zone overlap detected", MessageBoxButtons.YesNoCancel, MessageBoxIcon.Warning);
                        if (dr == DialogResult.Yes)
                        {
                            doIntroZone = true;
                        }
                        else if (dr == DialogResult.Cancel)                         // abort
                        {
                            return(false);
                        }
                        else                         // discard the intro zone
                        {
                            flushZonesStart = 0;
                        }
                    }
                }
                else
                {
                    doIntroZone = true;
                }
            }
            if (creditsStartFrame > 0)             // add the credits zone
            {
                creditsZone.startFrame = creditsStartFrame;
                creditsZone.endFrame   = (int)nbOfFrames - 1;
                creditsZone.mode       = ZONEMODE.Quantizer;
                creditsZone.modifier   = vSettings.CreditsQuantizer;
                if (zones.Length > 0)
                {
                    Zone z = zones[zones.Length - 1];                     // get the last zone
                    if (z.endFrame < creditsZone.startFrame)              // the last configured zone ends before the credits start zone
                    {
                        doCreditsZone = true;
                    }
                    else
                    {
                        flushZonesEnd = 1;
                        int numberOfConfiguredZones = zones.Length;
                        while (numberOfConfiguredZones - flushZonesEnd - 1 >= 0)                       // iterate through all zones backwards until we find the first that goes with the credits
                        {
                            Zone conflict = zones[numberOfConfiguredZones - flushZonesEnd - 1];
                            if (conflict.endFrame >= creditsZone.startFrame)                             // zone ends after the end of the credits -> conflict
                            {
                                flushZonesEnd++;
                            }
                            else
                            {
                                break;
                            }
                        }
                        DialogResult dr = MessageBox.Show("Your credits zone overlaps " + flushZonesEnd + " zone(s) configured\nin the codec settings.\n"
                                                          + "Do you want to remove those zones and add the credits zone instead?", "Zone overlap detected", MessageBoxButtons.YesNoCancel, MessageBoxIcon.Warning);
                        if (dr == DialogResult.Yes)
                        {
                            doCreditsZone = true;
                        }
                        else if (dr == DialogResult.Cancel)                         // abort
                        {
                            return(false);
                        }
                        else                         // discard the credits zone
                        {
                            flushZonesEnd = 0;
                        }
                    }
                }
                else                 // no additional zones configured
                {
                    doCreditsZone = true;
                }
            }
            int newZoneSize = zones.Length - flushZonesStart - flushZonesEnd;

            if (doIntroZone)
            {
                newZoneSize++;
            }
            if (doCreditsZone)
            {
                newZoneSize++;
            }
            Zone[] newZones = new Zone[newZoneSize];
            int    index    = 0;

            if (doIntroZone)
            {
                newZones[index] = introZone;
                index++;
            }
            for (int i = flushZonesStart; i < zones.Length - flushZonesEnd; i++)
            {
                newZones[index] = zones[i];
                index++;
            }
            if (doCreditsZone)
            {
                newZones[index] = creditsZone;
                index++;
            }
            if (vSettings is xvidSettings && newZones.Length > 0)
            {
                Zone[] xvidZones = createHelperZones(newZones, (int)nbOfFrames);
                if (xvidZones == null)
                {
                    return(false);
                }
                else
                {
                    zones = xvidZones;
                    return(true);
                }
            }
            zones = newZones;
            return(true);
        }
示例#33
0
 /// <summary>
 /// compiles the final zone configuration based on intro end frame, credits start frame and the configured zones
 /// </summary>
 /// <param name="vSettings">the video settings containing the list of configured zones</param>
 /// <param name="introEndFrame">the frame where the intro ends</param>
 /// <param name="creditsStartFrame">the frame where the credits begin</param>
 /// <param name="newZones">the zones that are returned</param>
 /// <returns>an array of zones objects in the proper order</returns>
 public bool getFinalZoneConfiguration(VideoCodecSettings vSettings, int introEndFrame, int creditsStartFrame, ref Zone[] zones)
 {
     Zone introZone = new Zone();
     Zone creditsZone = new Zone();
     ulong nbOfFrames = getNumberOfFrames(mainForm.Video.VideoInput);
     bool doIntroZone = false, doCreditsZone = false;
     int flushZonesStart = 0, flushZonesEnd = 0;
     if (introEndFrame > 0) // add the intro zone
     {
         introZone.startFrame = 0;
         introZone.endFrame = introEndFrame;
         introZone.mode = ZONEMODE.Quantizer;
         introZone.modifier = vSettings.CreditsQuantizer;
         if (zones.Length > 0)
         {
             Zone z = zones[0];
             if (z.startFrame > introZone.endFrame) // the first configured zone starts after the intro zone
                 doIntroZone = true;
             else
             {
                 flushZonesStart = 1;
                 int numberOfConfiguredZones = zones.Length;
                 while (flushZonesStart <= numberOfConfiguredZones)// iterate through all zones backwards until we find the first that goes with the intro
                 {
                     Zone conflict = zones[flushZonesStart];
                     if (conflict.startFrame <= introZone.endFrame) // zone starts before the end of the intro -> conflict
                         flushZonesStart++;
                     else
                         break;
                 }
                 DialogResult dr = MessageBox.Show("Your intro zone overlaps " + flushZonesStart + " zone(s) configured\nin the codec settings.\n"
                     + "Do you want to remove those zones and add the intro zone instead?", "Zone overlap detected", MessageBoxButtons.YesNoCancel, MessageBoxIcon.Warning);
                 if (dr == DialogResult.Yes)
                     doIntroZone = true;
                 else if (dr == DialogResult.Cancel) // abort
                     return false;
                 else // discard the intro zone
                     flushZonesStart = 0;
             }
         }
         else
             doIntroZone = true;
     }
     if (creditsStartFrame > 0) // add the credits zone
     {
         creditsZone.startFrame = creditsStartFrame;
         creditsZone.endFrame = (int)nbOfFrames-1;
         creditsZone.mode = ZONEMODE.Quantizer;
         creditsZone.modifier = vSettings.CreditsQuantizer;
         if (zones.Length > 0)
         {
             Zone z = zones[zones.Length - 1]; // get the last zone
             if (z.endFrame < creditsZone.startFrame) // the last configured zone ends before the credits start zone
                 doCreditsZone = true;
             else
             {
                 flushZonesEnd = 1;
                 int numberOfConfiguredZones = zones.Length;
                 while (numberOfConfiguredZones - flushZonesEnd -1 >= 0)// iterate through all zones backwards until we find the first that goes with the credits
                 {
                     Zone conflict = zones[numberOfConfiguredZones - flushZonesEnd -1];
                     if (conflict.endFrame >= creditsZone.startFrame) // zone ends after the end of the credits -> conflict
                         flushZonesEnd++;
                     else
                         break;
                 }
                 DialogResult dr = MessageBox.Show("Your credits zone overlaps " + flushZonesEnd + " zone(s) configured\nin the codec settings.\n"
                     + "Do you want to remove those zones and add the credits zone instead?", "Zone overlap detected", MessageBoxButtons.YesNoCancel, MessageBoxIcon.Warning);
                 if (dr == DialogResult.Yes)
                     doCreditsZone = true;
                 else if (dr == DialogResult.Cancel) // abort
                     return false;
                 else // discard the credits zone
                     flushZonesEnd = 0;
             }
         }
         else // no additional zones configured
             doCreditsZone = true;
     }
     int newZoneSize = zones.Length - flushZonesStart - flushZonesEnd;
     if (doIntroZone)
         newZoneSize++;
     if (doCreditsZone)
         newZoneSize++;
     Zone[] newZones = new Zone[newZoneSize];
     int index = 0;
     if (doIntroZone)
     {
         newZones[index] = introZone;
         index++;
     }
     for (int i = flushZonesStart; i < zones.Length - flushZonesEnd; i++)
     {
         newZones[index] = zones[i];
         index++;
     }
     if (doCreditsZone)
     {
         newZones[index] = creditsZone;
         index++;
     }
     if (vSettings is xvidSettings && newZones.Length > 0)
     {
         Zone[] xvidZones = createHelperZones(newZones, (int)nbOfFrames);
         if (xvidZones == null)
             return false;
         else
         {
             zones = xvidZones;
             return true;
         }
     }
     zones = newZones;
     return true;
 }
示例#34
0
        /// <summary>
        /// at first, the job from the currently configured settings is generated. In addition, we find out if this job is 
        /// a part of an automated series of jobs. If so, it means the first generated job was the second pass, and we have
        /// to create the first pass using the same settings
        /// then, all the generated jobs are returned
        /// </summary>
        /// <returns>an Array of VideoJobs in the order they are to be encoded</returns>
        public JobChain prepareVideoJob(string movieInput, string movieOutput, VideoCodecSettings settings, Dar? dar, bool prerender, bool checkVideo, Zone[] zones)
        {
            bool twoPasses = false, threePasses = false;
            if (settings.EncodingMode == 4) // automated twopass
                twoPasses = true;
            else if (settings.EncodingMode == 8) // automated threepass
                threePasses = true;

            VideoJob prerenderJob = null;
            string hfyuFile = null;
            string inputAVS = movieInput;
            if (prerender)
            {
                hfyuFile = Path.Combine(Path.GetDirectoryName(movieInput), "hfyu_" +
                    Path.GetFileNameWithoutExtension(movieInput) + ".avi");
                inputAVS = Path.ChangeExtension(hfyuFile, ".avs");
                if (File.Exists(hfyuFile))
                {
                    if (MessageBox.Show("The intended temporary file, " + hfyuFile + " already exists.\r\n" +
                        "Do you wish to over-write it?", "File already exists", MessageBoxButtons.YesNo, MessageBoxIcon.Exclamation)
                        == DialogResult.No)
                        return null;
                }
                if (File.Exists(inputAVS))
                {
                    if (MessageBox.Show("The intended temporary file, " + inputAVS + " already exists.\r\n" +
                        "Do you wish to over-write it?", "File already exists", MessageBoxButtons.YesNo, MessageBoxIcon.Exclamation)
                        == DialogResult.No)
                        return null;
                }
                try
                {
                    StreamWriter hfyuWrapper = new StreamWriter(inputAVS, false, Encoding.Default);
                    hfyuWrapper.WriteLine("AviSource(\"" + hfyuFile + "\")");
                    hfyuWrapper.Close();
                }
                catch (IOException)
                {
                    return null;
                }
                prerenderJob = this.generateVideoJob(movieInput, hfyuFile, new hfyuSettings(), dar, zones);
                if (prerenderJob == null)
                    return null;
            }
            if (checkVideo)
            {
                VideoUtil vUtil = new VideoUtil(mainForm);
                string error = vUtil.checkVideo(movieInput);
                if (error != null)
                {
                    bool bContinue = mainForm.DialogManager.createJobs(error);
                    if (!bContinue)
                    {
                        MessageBox.Show("Job creation aborted due to invalid AviSynth script");
                        return null;
                    }
                }
            }
            VideoJob job = this.generateVideoJob(inputAVS, movieOutput, settings, prerender, dar, zones);
            VideoJob firstpass = null;
            VideoJob middlepass = null;
            if (job != null)
            {
                if (twoPasses || threePasses) // we just created the last pass, now create previous one(s)
                {
                    job.FilesToDelete.Add(job.Settings.Logfile);
                    if (job.Settings.SettingsID.Equals("x264"))
                        job.FilesToDelete.Add(mbtreeFile);
                    firstpass = cloneJob(job);
                    firstpass.Output = ""; // the first pass has no output
                    firstpass.Settings.EncodingMode = 2;
                    firstpass.DAR = dar;
                    if (threePasses)
                    {
                        firstpass.Settings.EncodingMode = 5; // change to 3 pass 3rd pass just for show
                        middlepass = cloneJob(job);
                        middlepass.Settings.EncodingMode = 6; // 3 pass 2nd pass
                        if (mainForm.Settings.Keep2of3passOutput) // give the 2nd pass a new name
                        {
                            middlepass.Output = Path.Combine(Path.GetDirectoryName(job.Output), Path.GetFileNameWithoutExtension(job.Output)
                                + "-2ndpass" + Path.GetExtension(job.Output));
                            job.FilesToDelete.Add(middlepass.Output);
                        }
                        middlepass.DAR = dar;
                    }
                }
                if (prerender)
                {
                    job.FilesToDelete.Add(hfyuFile);
                    job.FilesToDelete.Add(inputAVS);
                }
                List<VideoJob> jobList = new List<VideoJob>();
                if (prerenderJob != null)
                    jobList.Add(prerenderJob);
                if (firstpass != null)
                    jobList.Add(firstpass);
                if (middlepass != null) // we have a middle pass
                    jobList.Add(middlepass);
                jobList.Add(job);

                return new SequentialChain(jobList.ToArray());
            }
            return null;
        }
示例#35
0
 /// <summary>
 /// sets the number of encoder threads in function of the number of processors found on the system
 /// </summary>
 /// <param name="settings"></param>
 private void adjustNbThreads(VideoCodecSettings settings)
 {
     string nbProc = System.Environment.GetEnvironmentVariable("NUMBER_OF_PROCESSORS");
     if (!String.IsNullOrEmpty(nbProc))
     {
         try
         {
             int nbCPUs = int.Parse(nbProc);
             settings.setAdjustedNbThreads(nbCPUs);
         }
         catch (Exception) { }
     }
 }
示例#36
0
        /// <summary>
        /// sets video, audio and codec defaults
        /// </summary>
        /// <param name="nbFrames">number of frames of the video source</param>
        /// <param name="framerate">framerate of the video source</param>
        /// <param name="codec">codec selected</param>
        /// <param name="container">container</param>
        /// <param name="audio1Bitrate">bitrate of the first audio track</param>
        /// <param name="audio2Bitrate">bitrate of the second audio track</param>
        public void SetDefaults(ulong nbFrames, double framerate, int hRes, int vRes, VideoCodecSettings vSettings, List<AudioJob> audioStreams)
        {
            fpsChooser.Value = (decimal)framerate;

            if (nbFrames > 0) this.nbFrames.Value = nbFrames;

            if (hRes > 0) this.width.Value = hRes;
            if (vRes > 0) this.height.Value = vRes;

            if (vSettings != null)
            {
                bframes.Checked = vSettings.NbBframes > 0;

                if (videoCodec.Items.Contains(vSettings.EncoderType))
                    videoCodec.SelectedItem = vSettings.EncoderType;
            }

            foreach (AudioJob job in audioStreams)
            {
                var a = AddAudio();
                a.SetAudioJob(job);
            }

            // make sure there is at least one audio displayed
            if (GetAudioStreams().Count() == 0) AddAudio();
        }
示例#37
0
        /// <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");
        }
示例#38
0
 /// <summary>
 ///  Handles assessment of whether the encoding options vary between two xvidSettings instances
 /// The following are excluded from the comparison:
 /// BitrateQuantizer
 /// CreditsQuantizer
 /// Logfile
 /// PAR
 /// PARs
 /// SARX
 /// SARY
 /// Zones
 /// </summary>
 /// <param name="otherSettings"></param>
 /// <returns>true if the settings differ</returns>
 public bool IsAltered(VideoCodecSettings settings)
 {
     if (!(settings is xvidSettings))
         return true;
     xvidSettings otherSettings = (xvidSettings)settings;
     if (
        this.AdaptiveQuant != otherSettings.AdaptiveQuant ||
        this.AveragingPeriod != otherSettings.AveragingPeriod ||
        this.BframeThreshold != otherSettings.BframeThreshold ||
        this.BQuantOffset != otherSettings.BQuantOffset ||
        this.BQuantRatio != otherSettings.BQuantRatio ||
        this.ChromaMotion != otherSettings.ChromaMotion ||
        this.ClosedGOP != otherSettings.ClosedGOP ||
        this.CustomEncoderOptions != otherSettings.CustomEncoderOptions ||
        this.EncodingMode != otherSettings.EncodingMode ||
        this.FrameDropRatio != otherSettings.FrameDropRatio ||
        this.GMC != otherSettings.GMC ||
        this.HighBitrateDegradation != otherSettings.HighBitrateDegradation ||
        this.Interlaced != otherSettings.Interlaced ||
        this.KeyFrameBoost != otherSettings.KeyFrameBoost ||
        this.KeyframeInterval != otherSettings.KeyframeInterval ||
        this.KeyframeReduction != otherSettings.KeyframeReduction ||
        this.KeyframeThreshold != otherSettings.KeyframeThreshold ||
        this.LowBitrateImprovement != otherSettings.LowBitrateImprovement ||
        this.MaxBQuant != otherSettings.MaxBQuant ||
        this.MaxOverflowDegradation != otherSettings.MaxOverflowDegradation ||
        this.MaxOverflowImprovement != otherSettings.MaxOverflowImprovement ||
        this.MaxPQuant != otherSettings.MaxPQuant ||
        this.MaxQuantizer != otherSettings.MaxQuantizer ||
        this.MinBQuant != otherSettings.MinBQuant ||
        this.MinPQuant != otherSettings.MinPQuant ||
        this.MinQuantizer != otherSettings.MinQuantizer ||
        this.MotionSearchPrecision != otherSettings.MotionSearchPrecision ||
        this.NbBframes != otherSettings.NbBframes ||
        this.OverflowControlStrength != otherSettings.OverflowControlStrength ||
        this.PackedBitstream != otherSettings.PackedBitstream ||
        this.QPel != otherSettings.QPel ||
        this.RateControlBuffer != otherSettings.RateControlBuffer ||
        this.ReactionDelayFactor != otherSettings.ReactionDelayFactor ||
        this.Trellis != otherSettings.Trellis ||
        this.Turbo != otherSettings.Turbo ||
        this.V4MV != otherSettings.V4MV ||
        this.VHQForBframes != otherSettings.VHQForBframes ||
        this.XvidProfile != otherSettings.XvidProfile ||
        this.VbvBuffer != otherSettings.VbvBuffer ||
        this.VbvMaxRate != otherSettings.VbvMaxRate ||
        this.VbvPeakRate != otherSettings.VbvPeakRate ||
        this.VHQMode != otherSettings.VHQMode ||
        this.HVSMasking != otherSettings.HVSMasking
        )
         return true;
     else
         return false;
 }
示例#39
0
        public bool AddVideoJobs(string movieInput, string movieOutput, VideoCodecSettings settings,
            int introEndFrame, int creditsStartFrame, Dar? dar, bool prerender, bool checkVideo, Zone[] zones)
        {
            bool cont = getFinalZoneConfiguration(settings, introEndFrame, creditsStartFrame, ref zones);
            if (!cont) // abort
                return false;
            JobChain jobs = prepareVideoJob(movieInput, movieOutput, settings, dar, prerender, checkVideo, zones);
            if (jobs == null)
                return false;
            mainForm.Jobs.addJobsWithDependencies(jobs);

            return false;
        }