private void BinningCB_SelectionChanged(object sender, SelectionChangedEventArgs e) { if (m_imager == null) { return; } m_camera.m_acqParams.HBin = vm.Binning; m_camera.m_acqParams.VBin = vm.Binning; m_imager.ConfigImageDisplaySurface(m_ID, m_camera.m_acqParams.BinnedFullImageWidth, m_camera.m_acqParams.BinnedFullImageHeight, false); UpdateImagingDictionary(); m_imager.SetupFlatFieldCorrection(FLATFIELD_SELECT.USE_FLUOR, vm.Binning); m_imager.SetupFlatFieldCorrection(FLATFIELD_SELECT.USE_LUMI, vm.Binning); }
public void Configure(Imager _imager, int indicatorID, bool AllowCameraConfiguration, bool IsManualMode) { m_imager = _imager; m_camera = m_imager.m_camera; vm = new CameraSetupModel(m_imager, m_wgDB, AllowCameraConfiguration, IsManualMode); m_ID = indicatorID; if (IsManualMode) // if this is manual operation (i.e. NOT a verify, prep-for-run, operation), then enable filter changes based on combo-box changes { EmissionFilterCB.SelectionChanged += EmissionFilterCB_SelectionChanged; ExcitationFilterCB.SelectionChanged += ExcitationFilterCB_SelectionChanged; } /////////////////////////////////////////////////////////////////////////////////// // Set ImagingParamsStruct ImagingParamsStruct ips; if (m_imager.m_ImagingDictionary.ContainsKey(m_ID)) { ips = m_imager.m_ImagingDictionary[m_ID]; vm.Exposure = (int)(ips.exposure * 1000); vm.EMGain = ips.gain; vm.Binning = ips.binning; vm.MinCycleTime = m_imager.m_camera.GetCycleTime(); if (ips.cycleTime < vm.MinCycleTime) { vm.CycleTime = vm.MinCycleTime; } else { vm.CycleTime = ips.cycleTime; } FilterContainer filter; if (m_wgDB.GetEmissionFilterAtPosition(ips.emissionFilterPos, out filter)) { vm.EmFilter = filter; } else { vm.EmFilter = null; } if (m_wgDB.GetExcitationFilterAtPosition(ips.excitationFilterPos, out filter)) { vm.ExFilter = filter; } else { vm.ExFilter = null; } ips.histBitmap = BitmapFactory.New(m_imager.m_histogramImageWidth, m_imager.m_histogramImageHeight); HistImage.Source = ips.histBitmap; ips.ImageControl = ImageDisplayControl; ips.indicatorName = "Setup"; m_imager.m_ImagingDictionary[m_ID] = ips; m_imager.ConfigImageDisplaySurface(m_ID, m_camera.m_acqParams.BinnedFullImageWidth, m_camera.m_acqParams.BinnedFullImageHeight, false); } else { ips = new ImagingParamsStruct(); float exposure = 0; float accum = 0; float kin = 0; m_imager.m_camera.MyCamera.GetAcquisitionTimings(ref exposure, ref accum, ref kin); if (exposure < 0.002) { exposure = 0.002f; } ips.exposure = exposure; ips.binning = 1; ips.cycleTime = (int)(exposure * 1000) + 50; ips.emissionFilterPos = 0; ips.excitationFilterPos = 0; ips.experimentIndicatorID = m_ID; ips.flatfieldType = FLATFIELD_SELECT.NONE; ips.gain = 5; ips.histBitmap = BitmapFactory.New(m_imager.m_histogramImageWidth, m_imager.m_histogramImageHeight); HistImage.Source = ips.histBitmap; ips.ImageControl = ImageDisplayControl; ips.indicatorName = "Setup"; vm.EMGain = 1; vm.Binning = 1; vm.Exposure = (int)(ips.exposure * 1000); vm.CycleTime = GlobalVars.Instance.CameraDefaultCycleTime; vm.MinCycleTime = 100; m_wgDB.GetAllEmissionFilters(); if (m_wgDB.m_filterList.Count > 0) { vm.EmFilter = m_wgDB.m_filterList[0]; } else { vm.EmFilter = null; } m_wgDB.GetAllExcitationFilters(); if (m_wgDB.m_filterList.Count > 0) { vm.ExFilter = m_wgDB.m_filterList[0]; } else { vm.ExFilter = null; } m_imager.m_ImagingDictionary.Add(m_ID, ips); m_imager.ConfigImageDisplaySurface(m_ID, m_camera.m_acqParams.BinnedFullImageWidth, m_camera.m_acqParams.BinnedFullImageHeight, false); m_imager.m_lambda.MoveFilterABandCloseShutterA((byte)vm.ExFilter.PositionNumber, (byte)vm.EmFilter.PositionNumber, GlobalVars.Instance.FilterChangeSpeed, GlobalVars.Instance.FilterChangeSpeed); } /////////////////////////////////////////////////////////////////////////////////// // Set CameraParams and AcquisitionParams CameraParams cParams; AcquisitionParams aParams; m_imager.m_camera.GetCurrentCameraSettings(out cParams, out aParams); vm.Binning = aParams.HBin; vm.ApplyMask = m_imager.m_UseMask; vm.EmFilterList = m_imager.m_emFilterList; vm.ExFilterList = m_imager.m_exFilterList; vm.PreAmpGainIndex = cParams.PreAmpGainIndex; vm.UseEMAmp = cParams.UseEMAmp; vm.UseFrameTransfer = cParams.UseFrameTransfer; vm.VertClockAmpIndex = cParams.VertClockAmpIndex; vm.VSSIndex = cParams.VSSIndex; vm.HSSIndex = cParams.HSSIndex; vm.SliderLowPosition = 0.0; vm.SliderHighPosition = 100.0; if (ips.optimizeWellList != null) { vm.WellSelectionPBLabel = ips.optimizeWellList.Count.ToString(); } else { vm.WellSelectionPBLabel = (m_imager.m_mask.Rows * m_imager.m_mask.Cols).ToString(); } if (m_imager.m_mask == null) { m_imager.SetMask(null); } this.DataContext = vm; m_imager.m_imagerEvent += m_imager_m_imagerEvent; m_camera.m_cameraParams.Updated += m_cameraParams_Updated; m_camera.m_acqParams.Updated += m_acqParams_Updated; RangeSlider.RangeChanged += RangeSlider_RangeChanged; m_imager.m_lambda.MoveFilterABandCloseShutterA((byte)vm.ExFilter.PositionNumber, (byte)vm.EmFilter.PositionNumber, GlobalVars.Instance.FilterChangeSpeed, GlobalVars.Instance.FilterChangeSpeed); }