private bool PulseGTK() { if (cancel || !thread.IsAlive) { LogB.ThreadEnding(); if (cancel) { thread.Abort(); } LogB.Information("Connected = " + connectedNormalChronopic.ToString()); FakeButtonDone.Click(); //send signal to gui/chronojump.cs to read Detected Detecting = false; LogB.ThreadEnded(); return(false); } progressbar.Pulse(); if (needToChangeProgressbarText) { progressbar.Text = Constants.ChronopicNeedTouch; needToChangeProgressbarText = false; } Thread.Sleep(50); LogB.Debug(thread.ThreadState.ToString()); return(true); }
private bool pulseWebcamGTK() { if (webcamStartThreadBeforeTestStatus == statusEnum.NOT_STARTED) { label_video_feedback_text(WebcamManage.GuiContactsEncoder.CONTACTS, "Initializing camera."); pulsebar_webcam.Visible = true; webcamStartThreadBeforeTestStatus = statusEnum.STARTING; } if (!webcamStartThread.IsAlive) { pulsebar_webcam.Visible = false; if (webcamStartThreadBeforeTestStatus == statusEnum.FAILURE) { label_video_feedback_text(WebcamManage.GuiContactsEncoder.CONTACTS, "Problems starting camera."); } else if (webcamStartThreadBeforeTestStatus == statusEnum.SUCCESS) { webcamManage.ReallyStarted = true; label_video_feedback_text(WebcamManage.GuiContactsEncoder.CONTACTS, "Recording ..."); } on_button_execute_test_accepted(); LogB.ThreadEnded(); return(false); } pulsebar_webcam.Fraction = Util.DivideSafeFraction(swWebcamStart.Elapsed.TotalSeconds, 10); Thread.Sleep(50); //LogB.Debug(webcamStartThread.ThreadState.ToString()); return(true); }
protected bool PulseGTK() { onTimer(); //thread is (in jump, as an example), started in Manage: //thread = new Thread(new ThreadStart(waitEvent)); //GLib.Idle.Add (new GLib.IdleHandler (PulseGTK)); //thread.Start(); // //when waitEvent it's done (with success, for example) //then thread is dead if (!thread.IsAlive || cancel) { LogB.ThreadEnding(); fakeButtonThreadDyed.Click(); LogB.ThreadEnded(); return(false); } Thread.Sleep(50); //LogB.Debug(thread.ThreadState.ToString()); return(true); }
protected bool PulseGTK() { if (quitNow) { return(false); } //if( ( needEndSplashWin && pingEnd ) // || ! thread.IsAlive) { if (needEndSplashWin || !thread.IsAlive) { LogB.ThreadEnding(); fakeSplashButton.Click(); LogB.Information("splash window ending here"); LogB.ThreadEnded(); return(false); } //need to do this, if not it crashes because chronopicWin gets died by thread ending splashWin = SplashWindow.Show(); //Log.WriteLine("splash"); if (updatingDB) { splashWin.ShowProgressbar("updating"); splashWin.UpdateLabel(splashMessage + " " + Sqlite.PrintConversionText()); splashWin.UpdateProgressbar("version", Sqlite.PrintConversionVersion()); splashWin.UpdateProgressbar("rate", Sqlite.PrintConversionRate()); splashWin.UpdateProgressbar("subrate", Sqlite.PrintConversionSubRate()); } else if (creatingDB) { splashWin.ShowProgressbar("creating"); splashWin.UpdateProgressbar("version", Sqlite.PrintCreation()); //splashWin.UpdateProgressbar("rate", Sqlite.PrintConversionRate()); splashWin.UpdateProgressbar("subrate", Sqlite.PrintConversionSubRate()); } if (needUpdateSplashMessage) { splashWin.UpdateLabel(splashMessage); needUpdateSplashMessage = false; } Thread.Sleep(50); //Log.Write(" (PulseGTK:" + thread.ThreadState.ToString() + ") "); return(true); }
private bool PulseGTK() { if (!thread.IsAlive) { LogB.ThreadEnding(); endPulse(); LogB.ThreadEnded(); return(false); } pulsebar.Pulse(); Thread.Sleep(50); //LogB.Debug(thread.ThreadState.ToString()); return(true); }
bool pulseConnectContactsReal() { if (!connectContactsRealThread.IsAlive) { progressbar.Fraction = 1.0; LogB.ThreadEnding(); connectContactsRealEnd(); LogB.ThreadEnded(); return(false); } progressbar.Pulse(); Thread.Sleep(50); return(true); }
protected bool PulseGTK() { if (needUpdateChronopicWin || !thread.IsAlive) { LogB.ThreadEnding(); fakeConnectionButton.Click(); pulseEnd(); LogB.ThreadEnded(); return(false); } //need to do this, if not it crashes because chronopicConnectionWin gets died by thread ending //chronopicConnectionWin = ChronopicConnection.Show(); //chronopicConnectionWin.Pulse(); progressbar.Pulse(); Thread.Sleep(50); LogB.Debug(thread.ThreadState.ToString()); return(true); }
private bool pulseGTKRunEncoderCapture() { LogB.Information(" fc A "); if (runEncoderCaptureThread == null) { Thread.Sleep(25); return(true); } LogB.Information(" fc B "); //LogB.Information(capturingRunEncoder.ToString()) if (!runEncoderCaptureThread.IsAlive || runEncoderProcessFinish || runEncoderProcessCancel || runEncoderProcessError) { LogB.Information(" fc C "); if (runEncoderProcessFinish) { LogB.Information(" fc C finish"); if (capturingRunEncoder != arduinoCaptureStatus.COPIED_TO_TMP) { Thread.Sleep(25); //Wait file is copied return(true); } else { event_execute_label_message.Text = "Saved." + captureEndedMessage; Thread.Sleep(250); //Wait a bit to ensure is copied runEncoderAnalyzeOpenImage(); notebook_analyze.CurrentPage = Convert.ToInt32(notebook_analyze_pages.RACEENCODER); notebook_capture_analyze.CurrentPage = 1; /* * fscPoints.InitRealWidthHeight(); * forceSensorDoSignalGraphPlot(); * forceSensorDoRFDGraph(); * * //if drawingarea has still not shown, don't paint graph because GC screen is not defined * if(force_sensor_ai_drawingareaShown) * forceSensorDoGraphAI(); */ } LogB.Information(" fc C finish 2"); } else if (runEncoderProcessCancel || runEncoderProcessError) { LogB.Information(" fc C cancel "); if (runEncoderProcessCancel) { event_execute_label_message.Text = "Cancelled."; } else { event_execute_label_message.Text = runEncoderNotConnectedString; } LogB.Information(" fc C cancel 2"); } else { event_execute_label_message.Text = ""; } LogB.ThreadEnding(); /* * ensure runEncoderCaptureThread is ended: * called: portRE.WriteLine("end_capture:"); * and received feedback from device */ while (runEncoderCaptureThread.IsAlive) { Thread.Sleep(250); } LogB.Information(" fc D "); LogB.ThreadEnded(); runEncoderButtonsSensitive(true); /* * button_force_sensor_image_save_signal.Sensitive = true; * button_force_sensor_analyze_recalculate.Sensitive = true; */ //finish, cancel: sensitive = false hideButtons(); restTime.AddOrModify(currentPerson.UniqueID, currentPerson.Name, true); updateRestTimes(); return(false); } LogB.Information(" fc E "); /* * if(forceCaptureStartMark) * { * event_execute_label_message.Text = "Capturing ..."; * forceCaptureStartMark = false; * } */ LogB.Information(" fc F "); if (capturingRunEncoder == arduinoCaptureStatus.CAPTURING) { LogB.Information(" fc G "); LogB.Information(" fc H2 "); /* * if(usbDisconnectedLastTime == forceSensorValues.TimeLast) * { * usbDisconnectedCount ++; * if(usbDisconnectedCount >= 20) * { * event_execute_label_message.Text = "Disconnected!"; * runEncoderProcessError = true; * return true; * } * } * else * { * usbDisconnectedLastTime = forceSensorValues.TimeLast; * usbDisconnectedCount = 0; * } */ LogB.Information(" fc I "); LogB.Information(" fc Q "); } LogB.Information(" fc R "); Thread.Sleep(25); //LogB.Information(" RunEncoder:"+ runEncoderCaptureThread.ThreadState.ToString()); return(true); }