public ResumePrintingStream(GCodeFileStream internalStream, double percentDone) { this.internalStream = internalStream; this.percentDone = percentDone; queuedCommands = new QueuedCommandsStream(null); }
public ResumePrintingStream(GCodeFileStream internalStream, double percentDone) { this.internalStream = internalStream; this.percentDone = percentDone; queuedCommands = new QueuedCommandsStream(null); }
public ToolChangeStream(PrinterConfig printer, GCodeStream internalStream, QueuedCommandsStream queuedCommandsStream) : base(printer, internalStream) { this.queuedCommandsStream = queuedCommandsStream; extruderCount = printer.Settings.GetValue <int>(SettingsKey.extruder_count); activeTool = printer.Connection.ActiveExtruderIndex; }
public ToolChangeStream(PrinterConfig printer, GCodeStream internalStream, QueuedCommandsStream queuedCommandsStream, IGCodeLineReader gcodeLineReader) : base(printer, internalStream) { this.gcodeLineReader = gcodeLineReader; if (gcodeLineReader != null) { this.gCodeMemoryFile = gcodeLineReader.GCodeFile as GCodeMemoryFile; } this.queuedCommandsStream = queuedCommandsStream; extruderCount = printer.Settings.GetValue <int>(SettingsKey.extruder_count); activeTool = printer.Connection.ActiveExtruderIndex; }
public RunSceneGCodeProcesorsStream(PrinterConfig printer, GCodeStream internalStream, QueuedCommandsStream queueStream) : base(printer, internalStream) { this.queueStream = queueStream; // get all the gcode processors that are in the scene gcodeTransformers = printer.Bed.Scene.Descendants().Where(i => i is IGCodeTransformer).Select(i => (IGCodeTransformer)i).ToList(); foreach (var gcodeTransformer in gcodeTransformers) { gcodeTransformer.Reset(); } }
public PrintRecoveryStream(GCodeFileStream internalStream, double percentDone) { this.internalStream = internalStream; this.percentDone = percentDone; recoverFeedRate = ActiveSliceSettings.Instance.GetValue <double>(SettingsKey.recover_first_layer_speed); if (recoverFeedRate == 0) { recoverFeedRate = 10; } recoverFeedRate *= 60; queuedCommands = new QueuedCommandsStream(null); }
public PrintRecoveryStream(GCodeFileStream internalStream, double percentDone) { this.internalStream = internalStream; this.percentDone = percentDone; recoverFeedRate = ActiveSliceSettings.Instance.GetValue<double>(SettingsKey.recover_first_layer_speed); if (recoverFeedRate == 0) { recoverFeedRate = 10; } recoverFeedRate *= 60; queuedCommands = new QueuedCommandsStream(null); }
public ResumePrintingStream(GCodeFileStream internalStream, double percentDone) { this.internalStream = internalStream; this.percentDone = percentDone; resumeFeedRate = ActiveSliceSettings.Instance.GetValue <double>("resume_first_layer_speed"); if (resumeFeedRate == 0) { resumeFeedRate = 10; } resumeFeedRate *= 60; queuedCommands = new QueuedCommandsStream(null); }
public PrintRecoveryStream(GCodeSwitcher internalStream, PrinterConfig printer, double percentDone) : base(printer) { this.internalStream = internalStream; this.percentDone = percentDone; recoverFeedRate = printer.Settings.GetValue <double>(SettingsKey.recover_first_layer_speed); if (recoverFeedRate == 0) { recoverFeedRate = 10; } recoverFeedRate *= 60; queuedCommands = new QueuedCommandsStream(printer, null); }
private void loadGCodeWorker_DoWork(object sender, DoWorkEventArgs e) { totalGCodeStream?.Dispose(); string gcodeFilename = e.Argument as string; loadedGCode = GCodeFile.Load(gcodeFilename); gCodeFileStream0 = new GCodeFileStream(loadedGCode); pauseHandlingStream1 = new PauseHandlingStream(gCodeFileStream0); queuedCommandStream2 = new QueuedCommandsStream(pauseHandlingStream1); relativeToAbsoluteStream3 = new RelativeToAbsoluteStream(queuedCommandStream2); printLevelingStream4 = new PrintLevelingStream(relativeToAbsoluteStream3); waitForTempStream5 = new WaitForTempStream(printLevelingStream4); babyStepsStream6 = new BabyStepsStream(waitForTempStream5); extrusionMultiplyerStream7 = new ExtrusionMultiplyerStream(babyStepsStream6); feedrateMultiplyerStream8 = new FeedRateMultiplyerStream(extrusionMultiplyerStream7); requestTemperaturesStream9 = new RequestTemperaturesStream(feedrateMultiplyerStream8); totalGCodeStream = requestTemperaturesStream9; }
void CreateStreamProcessors(string gcodeFilename, bool recoveryEnabled) { totalGCodeStream?.Dispose(); GCodeStream firstStream = null; if (gcodeFilename != null) { loadedGCode = GCodeFile.Load(gcodeFilename); gCodeFileStream0 = new GCodeFileStream(loadedGCode); if (ActiveSliceSettings.Instance.GetValue<bool>(SettingsKey.recover_is_enabled) && activePrintTask != null) // We are resuming a failed print (do lots of interesting stuff). { pauseHandlingStream1 = new PauseHandlingStream(new PrintRecoveryStream(gCodeFileStream0, activePrintTask.PercentDone)); } else { pauseHandlingStream1 = new PauseHandlingStream(gCodeFileStream0); } firstStream = pauseHandlingStream1; } else { firstStream = new NotPrintingStream(); } queuedCommandStream2 = new QueuedCommandsStream(firstStream); relativeToAbsoluteStream3 = new RelativeToAbsoluteStream(queuedCommandStream2); printLevelingStream4 = new PrintLevelingStream(relativeToAbsoluteStream3, true); waitForTempStream5 = new WaitForTempStream(printLevelingStream4); babyStepsStream6 = new BabyStepsStream(waitForTempStream5); if (activePrintTask != null) { // make sure we are in the position we were when we stopped printing babyStepsStream6.Offset = new Vector3(activePrintTask.PrintingOffsetX, activePrintTask.PrintingOffsetY, activePrintTask.PrintingOffsetZ); } extrusionMultiplyerStream7 = new ExtrusionMultiplyerStream(babyStepsStream6); feedrateMultiplyerStream8 = new FeedRateMultiplyerStream(extrusionMultiplyerStream7); requestTemperaturesStream9 = new RequestTemperaturesStream(feedrateMultiplyerStream8); totalGCodeStream = requestTemperaturesStream9; }
public MacroProcessingStream(QueuedCommandsStream queuedCommandsStream, PrinterConfig printer) : base(queuedCommandsStream) { this.queuedCommandsStream = queuedCommandsStream; this.printer = printer; }
private void LoadGCodeToPrint(string gcodeFilename) { totalGCodeStream?.Dispose(); loadedGCode = GCodeFile.Load(gcodeFilename); gCodeFileStream0 = new GCodeFileStream(loadedGCode); if(activePrintTask != null) // We are resuming a failed print (do lots of interesting stuff). { pauseHandlingStream1 = new PauseHandlingStream(new ResumePrintingStream(gCodeFileStream0, activePrintTask.PercentDone)); } else { pauseHandlingStream1 = new PauseHandlingStream(gCodeFileStream0); } queuedCommandStream2 = new QueuedCommandsStream(pauseHandlingStream1); relativeToAbsoluteStream3 = new RelativeToAbsoluteStream(queuedCommandStream2); printLevelingStream4 = new PrintLevelingStream(relativeToAbsoluteStream3); waitForTempStream5 = new WaitForTempStream(printLevelingStream4); babyStepsStream6 = new BabyStepsStream(waitForTempStream5); if(activePrintTask != null) { // make sure we are in the position we were when we stopped printing babyStepsStream6.Offset = new Vector3(activePrintTask.PrintingOffsetX, activePrintTask.PrintingOffsetY, activePrintTask.PrintingOffsetZ); } extrusionMultiplyerStream7 = new ExtrusionMultiplyerStream(babyStepsStream6); feedrateMultiplyerStream8 = new FeedRateMultiplyerStream(extrusionMultiplyerStream7); requestTemperaturesStream9 = new RequestTemperaturesStream(feedrateMultiplyerStream8); totalGCodeStream = requestTemperaturesStream9; }
public ProcessWriteRegexStream(PrinterConfig printer, GCodeStream internalStream, QueuedCommandsStream queueStream) : base(printer, internalStream) { this.queueStream = queueStream; }