static IEnumerable <VideoEdit> _GetRaceEdits(this IEnumerable <OverlayData.RaceEvent> raceEvents) { var totalRaceEvents = GetInterestingRaceEvents(raceEvents); var previousEvent = totalRaceEvents.First(); foreach (var re in totalRaceEvents.Skip(1)) { if (re.StartTime - previousEvent.EndTime >= 10d / Settings.AppliedTimingFactor) { TraceDebug.WriteLine("Applying edit between {0}:{1}:{2} and {3}:{4}:{5}", previousEvent.Interest, previousEvent.Position, previousEvent.EndTime, re.Interest, re.Position, re.StartTime); yield return(new VideoEdit { StartTime = previousEvent.EndTime - 1, EndTime = re.StartTime + 1 }); } else { TraceDebug.WriteLine("Not apply edit between {0}:{1}:{2} and {3}:{4}:{5}", previousEvent.Interest, previousEvent.Position, previousEvent.EndTime, re.Interest, re.Position, re.StartTime); } previousEvent = re; } }
public void _AnalyseRace(Action onComplete) { var hwnd = Win32.Messages.FindWindow(null, "iRacing.com Simulator"); Win32.Messages.ShowWindow(hwnd, Win32.Messages.SW_SHOWNORMAL); Win32.Messages.SetForegroundWindow(hwnd); Thread.Sleep(Settings.Default.PeriodWaitForIRacingSwitch); var data = iRacing.GetDataFeed() .WithCorrectedPercentages() .AtSpeed(16) .RaceOnly() .First(d => d.Telemetry.SessionState == SessionState.Racing); raceStartFrameNumber = data.Telemetry.ReplayFrameNum - (60 * 20); if (raceStartFrameNumber < 0) { TraceInfo.WriteLine("Unable to start capturing at 20 seconds prior to race start. Starting at start of replay file."); raceStartFrameNumber = 0; } TraceDebug.WriteLine(data.Telemetry.ToString()); AnalyseIncidents(); //Analyse incidents AnalyseRaceSituations(new iRacingConnection().GetBufferedDataFeed()); //Analyse race situation (all) by playing out replay at 16x speed. onComplete(); }
/// <summary> /// If the supplied function returns true for the period, then iteration stops /// </summary> /// <param name="condition"></param> /// <returns></returns> public IEnumerable <DataSample> Of(Func <DataSample, bool> condition) { bool conditionMet = false; TimeSpan conditionMetAt = new TimeSpan(); foreach (var data in samples) { if (condition(data)) { if (!conditionMet) { TraceDebug.WriteLine("{0}: Condition met".F(data.Telemetry.SessionTimeSpan)); conditionMet = true; conditionMetAt = data.Telemetry.SessionTimeSpan; } } else { if (conditionMet) { TraceDebug.WriteLine("{0}: Condition unmet".F(data.Telemetry.SessionTimeSpan)); } conditionMet = false; } if (conditionMet && conditionMetAt + period < data.Telemetry.SessionTimeSpan) { break; } yield return(data); } }
void LogSystemInformation() { var StringBuilder1 = new StringBuilder(string.Empty); try { var config = System.Configuration.ConfigurationManager.OpenExeConfiguration(System.Configuration.ConfigurationUserLevel.PerUserRoamingAndLocal); TraceDebug.WriteLine("Local user config path: {0}", config.FilePath); TraceDebug.WriteLine("Application Version: {0}", AboutBox1.AssemblyVersion); TraceDebug.WriteLine(Environment.Is64BitOperatingSystem ? "OS: 64x" : "OS: 32x"); TraceDebug.WriteLine("ProcessorCount: {0}".F(Environment.ProcessorCount)); foreach (DriveInfo DriveInfo1 in DriveInfo.GetDrives()) { TraceDebug.WriteLine("Drive: {0}, Type: {1}, Format: {2}, Size: {3}, AvailableFreeSpace: {4}".F( GetValue(() => DriveInfo1.Name), GetValue(() => DriveInfo1.DriveType.ToString()), GetValue(() => DriveInfo1.DriveFormat), GetValue(() => DriveInfo1.TotalSize.ToString()), GetValue(() => DriveInfo1.AvailableFreeSpace.ToString()))); } TraceDebug.WriteLine("SystemPageSize: {0}".F(Environment.SystemPageSize)); TraceDebug.WriteLine("Version: {0}".F(Environment.Version)); LogDeviceInformation("Win32_Processor"); LogDeviceInformation("Win32_VideoController"); } catch { } }
public void Process(DataSample data, TimeSpan relativeTime) { try { var cameraGroupName = ""; var cameraName = ""; var cameraGroup = data.SessionData.CameraInfo.Groups.FirstOrDefault(g => g.GroupNum == data.Telemetry.CamGroupNumber); if (cameraGroup != null) { cameraGroupName = cameraGroup.GroupName; var camera = cameraGroup.Cameras.FirstOrDefault(c => c.CameraNum == data.Telemetry.CamCameraNumber); if (camera != null) { cameraName = camera.CameraName; } } TraceDebug.WriteLine("{0} Camera: Driver: {1}, GroupNumber: {2}, Number: {3}, State: {4}, GroupName: {5}, Name: {6}", data.Telemetry.SessionTimeSpan, data.Telemetry.CamCar.Details.Driver.UserName, data.Telemetry.CamGroupNumber, data.Telemetry.CamCameraNumber, data.Telemetry.CamCameraState, cameraGroupName, cameraName); } catch (Exception e) { TraceError.WriteLine(e.Message); TraceError.WriteLine(e.StackTrace); } }
public SourceReaderExtra CreateSourceReader(ReadWriteClassFactory readWriteFactory, Attributes attributes) { TraceDebug.WriteLine("Attempting to open file {0}".F(this.FileName)); var reader = readWriteFactory.CreateSourceReaderFromURL(this.FileName, attributes); TraceDebug.WriteLine("Opened file {0}. Duration: {1}".F(this.FileName, reader.Duration.FromNanoToSeconds())); return(new SourceReaderExtra(this.FileName, this.State, reader)); }
static List <DataSample> GetIncidentsForward(IEnumerable <DataSample> samples, int sampleScanSettle, int maxTotalIncidents) { TraceDebug.WriteLine("Scanning for incidents forwards from start"); return(IncidentsSupport.FindIncidents( samples.TakeWhile(data => data.Telemetry.SessionState != SessionState.CoolDown), sampleScanSettle, maxTotalIncidents)); }
private void Default_SettingChanging(object sender, System.Configuration.SettingChangingEventArgs e) { try { TraceDebug.WriteLine("Setting Changed: key: {0}, name: {1}, value: {2}".F(e.SettingKey, e.SettingName, e.NewValue)); } catch (Exception ex) { TraceDebug.WriteLine("Unable to log setting change"); TraceDebug.WriteLine(ex.Message); } }
void LogDeviceInformation(string stringIn) { var mc = new ManagementClass(stringIn); var instances = mc.GetInstances(); var properties = mc.Properties; foreach (var instance in instances) { foreach (var property in properties) { TraceDebug.WriteLine("{0}: {1}".F(property.Name, GetValue(() => instance.Properties[property.Name].Value.ToString()))); } } }
private static void CopyFromOldSettings(Settings settings) { var pp = settings.Providers.OfType <IracingReplayDirectorProvider>().First(); var currentValues = new Dictionary <string, object>(); foreach (SettingsProperty p in settings.Properties) { currentValues[p.Name] = settings[p.Name]; TraceDebug.WriteLine("Capturing settings -- {0}: {1}", p.Name, currentValues[p.Name]); p.Provider = pp; } settings.Reload(); foreach (var kv in currentValues) { settings[kv.Key] = kv.Value; } settings.NewSettings = true; settings.Save(); }
MediaType CreateTargetAudioMediaType(MediaType nativeMediaType) { var numberOfChannels = nativeMediaType.AudioNumberOfChannels; var sampleRate = nativeMediaType.AudioSamplesPerSecond; var availableTypes = MFSystem.TranscodeGetAudioOutputAvailableTypes(TARGET_AUDIO_FORMAT, MFT_EnumFlag.All); TraceDebug.WriteLine("Searching for audio transcoding for sampleRate of {0}khz and {1} channels".F(sampleRate / 1000, numberOfChannels)); var type = availableTypes .OrderByDescending(t => t.AudioAverageBytesPerSecond) .ThenByDescending(t => t.AudioNumberOfChannels) .FirstOrDefault(t => t.AudioSamplesPerSecond == sampleRate && t.AudioNumberOfChannels == numberOfChannels); if (type == null) { TraceDebug.WriteLine("No audio transcoder found. Searching for transcoding with 2 or fewer channels at any sample rate"); type = availableTypes .OrderByDescending(t => t.AudioAverageBytesPerSecond) .ThenByDescending(t => t.AudioNumberOfChannels) .FirstOrDefault(t => t.AudioNumberOfChannels <= 2); } if (type == null) { TraceDebug.WriteLine("No audio transcoder found. Search for first compatible transcoder"); type = availableTypes .OrderByDescending(t => t.AudioAverageBytesPerSecond) .ThenByDescending(t => t.AudioNumberOfChannels) .FirstOrDefault(); } if (type != null) { TraceDebug.WriteLine("Found audio track. SampleRate: {0}, Channels: {1}, BitRate: {2}kbs".F(type.AudioSamplesPerSecond / 1000, type.AudioNumberOfChannels, type.AudioAverageBytesPerSecond * 8 / 1000)); return(new MediaType(type)); } throw new Exception("Unable to find target audio format"); }
//worker thread to switch cameras. private void CameraSwitcherWorkerTask() { for (var iCamDriverIndex = 0; iCamDriverIndex < overlayData.CamDrivers.Count; iCamDriverIndex++) { //get object of current CamDriver var curCamDriver = overlayData.CamDrivers[iCamDriverIndex]; //Set camera to current camDriver Object ReplayControl.cameraControl.CameraOnDriver(short.Parse(curCamDriver.CurrentDriver.CarNumber), (short)curCamDriver.camGroupNumber); //remember start-time of current camers double startTimeCurCamera = curCamDriver.StartTime; try { double startTimeNextCamera = overlayData.CamDrivers[iCamDriverIndex + 1].StartTime; int camDuration = (int)(1000 * (startTimeNextCamera - startTimeCurCamera)); TraceDebug.WriteLine("Camera switched to driver {0} using camera-group {1}. Remaining Time: {2}".F(curCamDriver.CurrentDriver.UserName, curCamDriver.camGroupNumber, camDuration)); Thread.Sleep(camDuration); } catch { TraceDebug.Write("No more entries in list of CamDriver -> no more camera switches"); } } }
//Analyse race situations at maximum replay speed w/o recording. void AnalyseRaceSituations(IEnumerable <DataSample> samples) { int iReplaySpeedForAnalysis = (int)replaySpeeds.FF16x; //set speed for analysis phase to FF16x //Start iRacing Replay from the beginning with maximum speed (16x) iRacing.Replay.MoveToFrame(raceStartFrameNumber); //---------------------------- // copied from iRacing.Capturing because race events in app V1.0.x.x are identified during capturing the whole video. // necessity of classes in analysis phase to be reviewed //---------------------------- //var overlayData = new OverlayData(); removalEdits = new RemovalEdits(overlayData.RaceEvents); commentaryMessages = new CommentaryMessages(overlayData); recordPitStop = new RecordPitStop(commentaryMessages); fastestLaps = new RecordFastestLaps(overlayData); replayControl = new ReplayControl(samples.First().SessionData, incidents, removalEdits, TrackCameras); sessionDataCapture = new SessionDataCapture(overlayData); //CAPTURING LEADERBOARD, CAMERAS will be done at FF16x. TO BE DETERMINED WHETHER STANDARD INTERVALS HAVE TO BE REDUCED BY FACTOR OF 16?! captureLeaderBoardEveryHalfSecond = new SampleFilter(TimeSpan.FromSeconds(0.5), new CaptureLeaderBoard(overlayData, commentaryMessages, removalEdits).Process); captureCamDriverEveryQuaterSecond = new SampleFilter(TimeSpan.FromSeconds(0.25), new CaptureCamDriver(overlayData).Process); captureCamDriverEvery4Seconds = new SampleFilter(TimeSpan.FromSeconds(4), new LogCamDriver().Process); //---------------------------- //end copy / end review //---------------------------- ApplyFirstLapCameraDirection(samples, replayControl); samples = samples .VerifyReplayFrames() .WithCorrectedPercentages() .WithCorrectedDistances() .WithFastestLaps() .WithFinishingStatus() .WithPitStopCounts() .TakeUntil(3.Seconds()).Of(d => d.Telemetry.LeaderHasFinished && d.Telemetry.RaceCars.All(c => c.HasSeenCheckeredFlag || c.HasRetired || c.TrackSurface != TrackLocation.OnTrack)) .TakeUntil(3.Seconds()).AfterReplayPaused(); samples = samples.AtSpeed(iReplaySpeedForAnalysis); overlayData.CapturedVersion = Assembly.GetExecutingAssembly().GetName().Version.ToString(); ulong numberOfDataProcessed = 0; var startTime = DateTime.Now; foreach (var data in samples) { var relativeTime = (DateTime.Now - startTime).Multiply(iReplaySpeedForAnalysis); //calculate relative time in Replay taking into account replay speed (FF) replayControl.Process(data); sessionDataCapture.Process(data); captureLeaderBoardEveryHalfSecond.Process(data, relativeTime); captureCamDriverEveryQuaterSecond.Process(data, relativeTime); recordPitStop.Process(data, relativeTime); fastestLaps.Process(data, relativeTime); removalEdits.Process(data, relativeTime); captureCamDriverEvery4Seconds.Process(data, relativeTime); numberOfDataProcessed += 1; } removalEdits.Stop(); TraceDebug.WriteLine("Race analysis phase completed. {0} data samples processed with replay speed {1}".F(numberOfDataProcessed, iReplaySpeedForAnalysis)); //save OverlayData into target folder for video ("working folder") SaveReplayScript(overlayData); TraceDebug.WriteLine("Replay Script saved to disk"); iRacing.Replay.SetSpeed(0); }
void ReplaySearch(ReplaySearchMode mode) { TraceDebug.WriteLine("Replay Search {0}", mode.ToString()); SendMessage(BroadcastMessage.ReplaySearch, (short)mode); }
static bool IsAPerferredDriver(GapMetric d) { TraceDebug.WriteLine("IsAPreferred Driver called for carIdx {0} Preferred: {1}, Leader: {2} : return: {3}", d.CarIdx, preferredCarIdxs.Contains(d.CarIdx), preferredCarIdxs.Contains(d.LeaderCarIdx), preferredCarIdxs.Contains(d.CarIdx) || preferredCarIdxs.Contains(d.LeaderCarIdx)); return(preferredCarIdxs.Contains(d.CarIdx)); /* || preferredCarIdxs.Contains(d.LeaderCarIdx);*/ }
internal void _CaptureRaceTest(Action <string> onComplete, IEnumerable <DataSample> samples) { var overlayData = new OverlayData(); var removalEdits = new RemovalEdits(overlayData.RaceEvents); var commentaryMessages = new CommentaryMessages(overlayData); var videoCapture = new VideoCapture(); var recordPitStop = new RecordPitStop(commentaryMessages); var fastestLaps = new RecordFastestLaps(overlayData); var replayControl = new ReplayControl(samples.First().SessionData, incidents, removalEdits, TrackCameras); var sessionDataCapture = new SessionDataCapture(overlayData); var captureLeaderBoardEveryHalfSecond = new SampleFilter(TimeSpan.FromSeconds(0.5), new CaptureLeaderBoard(overlayData, commentaryMessages, removalEdits).Process); var captureCamDriverEveryQuaterSecond = new SampleFilter(TimeSpan.FromSeconds(0.25), new CaptureCamDriver(overlayData).Process); var captureCamDriverEvery4Seconds = new SampleFilter(TimeSpan.FromSeconds(4), new LogCamDriver().Process); TraceDebug.WriteLine("Cameras:"); TraceDebug.WriteLine(TrackCameras.ToString()); ApplyFirstLapCameraDirection(samples, replayControl); samples = samples .VerifyReplayFrames() .WithCorrectedPercentages() .WithCorrectedDistances() .WithFastestLaps() .WithFinishingStatus() .WithPitStopCounts() .TakeUntil(3.Seconds()).Of(d => d.Telemetry.LeaderHasFinished && d.Telemetry.RaceCars.All(c => c.HasSeenCheckeredFlag || c.HasRetired || c.TrackSurface != TrackLocation.OnTrack)) .TakeUntil(3.Seconds()).AfterReplayPaused(); if (shortTestOnly) { samples = samples.AtSpeed(Settings.Default.TimingFactorForShortTest); Settings.AppliedTimingFactor = 1.0 / Settings.Default.TimingFactorForShortTest; } videoCapture.Activate(workingFolder); var startTime = DateTime.Now; overlayData.CapturedVersion = Assembly.GetExecutingAssembly().GetName().Version.ToString(); foreach (var data in samples) { var relativeTime = DateTime.Now - startTime; replayControl.Process(data); sessionDataCapture.Process(data); captureLeaderBoardEveryHalfSecond.Process(data, relativeTime); captureCamDriverEveryQuaterSecond.Process(data, relativeTime); recordPitStop.Process(data, relativeTime); fastestLaps.Process(data, relativeTime); removalEdits.Process(data, relativeTime); captureCamDriverEvery4Seconds.Process(data, relativeTime); } var files = videoCapture.Deactivate(); removalEdits.Stop(); var overlayFile = SaveOverlayData(overlayData, files); //terminate iRacing after video capture completed try { //ToBe added: Option to select/deselect termination of iRacing after capturing video in new settings Dialog Process[] iRacingProc = Process.GetProcessesByName("iRacingSim64DX11"); iRacingProc[0].Kill(); } catch { throw new Exception("Could not terminate iRacing Simulator".F(workingFolder)); } iRacing.Replay.SetSpeed(0); AltTabBackToApp(); if (files.Count == 0) { throw new Exception("Unable to find video files in '{0}' - possible wrong working folder".F(workingFolder)); } _WithOverlayFile(overlayFile); onComplete(overlayFile); }
/// <summary> /// Assumes the game is in paused mode /// Filters the samples to just single frame numbers, that the game moves after invoking the moveReplay action (eg: which sends message to the game - MoveToNextIncident) /// If the game does not advance to another frame within about 1second, it will stop enumerating /// </summary> /// <param name="samples"></param> /// <param name="moveReplay"></param> /// <param name="sampleScanSettle">The number of samples to take, which must all have the same frame number - to identify that iRacing has paused.</param> /// <returns></returns> static IEnumerable <DataSample> PositionsOf(this IEnumerable <DataSample> samples, int sampleScanSettle) { var lastSamples = new List <int>(); var lastFrameNumber = -2; Func <DataSample, states> waitForMessage = ignored => states.RequestPaceCar; foreach (var dx in samples) { switch (waitForMessage(dx)) { case states.Continue: break; case states.RequestPaceCar: iRacing.Replay.NoWait.CameraOnDriver(0, 0); waitForMessage = d => d.Telemetry.CamCarIdx == 0 ? states.RequestNextIncident : states.Continue; break; case states.RequestNextIncident: iRacing.Replay.NoWait.MoveToNextIncident(); waitForMessage = d => { lastSamples.Add(d.Telemetry.ReplayFrameNum); if (lastSamples.Count == sampleScanSettle) { lastSamples.RemoveAt(0); } if (lastSamples.Count == (sampleScanSettle - 1) && lastSamples.All(f => f == d.Telemetry.ReplayFrameNum)) { if (d.Telemetry.ReplayFrameNum == lastFrameNumber) { TraceDebug.WriteLine("Incidents: Frame number did not change - asuming no more incidents. Current Frame: {0}", d.Telemetry.ReplayFrameNum); return(states.Break); } if (d.Telemetry.CamCarIdx == 0) //Pace Car { TraceWarning.WriteLine("Incident scan aborted - iRacing has not progressed to incident. Frame Number: {0}", d.Telemetry.ReplayFrameNum); return(states.Break); } lastFrameNumber = d.Telemetry.ReplayFrameNum; TraceDebug.WriteLine("Incidents: last {0} samples have settled on frame number {1}", sampleScanSettle, d.Telemetry.ReplayFrameNum); lastSamples.Add(-1); lastSamples.RemoveAt(0); return(states.Yield); } ; return(states.Continue); }; break; case states.Yield: yield return(dx); waitForMessage = ignored => states.RequestPaceCar; break; case states.Break: yield break; } } }
internal void _CaptureRaceTest(Action <string> onComplete, IEnumerable <DataSample> samples) { //identify wheather highlights video only is selected and OBS pause/resume can be used (to be implemented) if (bRecordUsingPauseResume) { //Retrieve list of raceEvents selected depending on the duration of the highlight video var totalRaceEvents = RaceEventExtension.GetInterestingRaceEvents(overlayData.RaceEvents.ToList()); ApplyFirstLapCameraDirection(samples, replayControl); //Record the selected race events into a highlight video raceVideo.Activate(workingFolder); //Active video-capturing and send start command to recording software. OverlayData.CamDriver curCamDriver = overlayData.CamDrivers.First(); //start thread to control / switch cameras while recording ReplayControl.cameraControl.ReplayCameraControlTask(overlayData); //ReplayControl.cameraControl.CameraOnDriver(short.Parse(curCamDriver.CurrentDriver.CarNumber), (short)curCamDriver.camGroupNumber); //cycle through all raceEvents selected for the highlight video and record them (REMARK: Camera switching not implemented yet) foreach (var raceEvent in totalRaceEvents) { TraceInfo.WriteLine("ADV_RECORDING: Type: {0} | Durations-Span: {1} | ".F(raceEvent.GetType(), raceEvent.Duration)); //jump to selected RaceEvent in iRacing Replay int framePositionInRace = raceStartFrameNumber + (int)Math.Round(raceEvent.StartTime * 60.0); iRacing.Replay.MoveToFrame(raceStartFrameNumber + (int)Math.Round(raceEvent.StartTime * 60.0)); iRacing.Replay.SetSpeed((int)replaySpeeds.normal); //start iRacing Replay at selected position raceVideo.Resume(); //resume recording TraceDebug.WriteLine("Recording Race-Event. Frame-Position: {0} | Duration: {1} ms".F(framePositionInRace, 1000 * raceEvent.Duration)); Thread.Sleep((int)(1000 * raceEvent.Duration)); //pause thread until scene is fully recorded. raceVideo.Pause(); //pause recording software before jumping to new position in iRacing Replay } TraceDebug.WriteLine("Video Capture of Race-Events completed"); raceVideo.Stop(); } else //Code to be removed after being able to implment working solution where analysis phase and replay-capture phase are distinct processes. //use local variables for original code instead of global variables introduced to support full analysis in analysis-phase { var overlayData = new OverlayData(); var removalEdits = new RemovalEdits(overlayData.RaceEvents); var commentaryMessages = new CommentaryMessages(overlayData); var recordPitStop = new RecordPitStop(commentaryMessages); var fastestLaps = new RecordFastestLaps(overlayData); var replayControl = new ReplayControl(samples.First().SessionData, incidents, removalEdits, TrackCameras); var sessionDataCapture = new SessionDataCapture(overlayData); var captureLeaderBoardEveryHalfSecond = new SampleFilter(TimeSpan.FromSeconds(0.5), new CaptureLeaderBoard(overlayData, commentaryMessages, removalEdits).Process); var captureCamDriverEveryQuaterSecond = new SampleFilter(TimeSpan.FromSeconds(0.25), new CaptureCamDriver(overlayData).Process); var captureCamDriverEvery4Seconds = new SampleFilter(TimeSpan.FromSeconds(4), new LogCamDriver().Process); TraceDebug.WriteLine("Cameras:"); TraceDebug.WriteLine(TrackCameras.ToString()); var videoCapture = new VideoCapture(); ApplyFirstLapCameraDirection(samples, replayControl); samples = samples .VerifyReplayFrames() .WithCorrectedPercentages() .WithCorrectedDistances() .WithFastestLaps() .WithFinishingStatus() .WithPitStopCounts() .TakeUntil(3.Seconds()).Of(d => d.Telemetry.LeaderHasFinished && d.Telemetry.RaceCars.All(c => c.HasSeenCheckeredFlag || c.HasRetired || c.TrackSurface != TrackLocation.OnTrack)) .TakeUntil(3.Seconds()).AfterReplayPaused(); if (shortTestOnly) { samples = samples.AtSpeed(Settings.Default.TimingFactorForShortTest); Settings.AppliedTimingFactor = 1.0 / Settings.Default.TimingFactorForShortTest; } videoCapture.Activate(workingFolder); //Start video capturing FileName will be given by recording software. var startTime = DateTime.Now; overlayData.CapturedVersion = Assembly.GetExecutingAssembly().GetName().Version.ToString(); foreach (var data in samples) { var relativeTime = DateTime.Now - startTime; TraceDebug.WriteLine("Recording at time: {0}", relativeTime); replayControl.Process(data); sessionDataCapture.Process(data); captureLeaderBoardEveryHalfSecond.Process(data, relativeTime); captureCamDriverEveryQuaterSecond.Process(data, relativeTime); recordPitStop.Process(data, relativeTime); fastestLaps.Process(data, relativeTime); removalEdits.Process(data, relativeTime); captureCamDriverEvery4Seconds.Process(data, relativeTime); } var files = videoCapture.Deactivate(); //Stop video capturing - returns list with "guessed" filename. Filenmae being different from replay-script due to different time stamp. //investigate whether renaming of video file is necessary. removalEdits.Stop(); var overlayFile = SaveOverlayData(overlayData, files); iRacing.Replay.SetSpeed(0); AltTabBackToApp(); if (files.Count == 0) { throw new Exception("Unable to find video files in '{0}' - possible wrong working folder".F(workingFolder)); } _WithOverlayFile(overlayFile); onComplete(overlayFile); } //terminate iRacing after video capture completed to free up CPU resources if (bCloseiRacingAfterRecording) { try { //To be added: Option to select/deselect termination of iRacing after capturing video in new settings Dialog Process[] iRacingProc = Process.GetProcessesByName("iRacingSim64DX11"); iRacingProc[0].Kill(); } catch { throw new Exception("Could not terminate iRacing Simulator".F(workingFolder)); } } }