public ForwardSolverViewModel() { _showOpticalProperties = true; _useSpectralPanelData = false; _allRangeVMs = new[] { new RangeViewModel { Title = StringLookup.GetLocalizedString("IndependentVariableAxis_Rho") } }; #if WHITELIST ForwardSolverTypeOptionVM = new OptionViewModel <ForwardSolverType>("Forward Model", false, WhiteList.ForwardSolverTypes); #else ForwardSolverTypeOptionVM = new OptionViewModel <ForwardSolverType>("Forward Model", false); #endif SolutionDomainTypeOptionVM = new SolutionDomainOptionViewModel("Solution Domain", SolutionDomainType.ROfRho); ForwardAnalysisTypeOptionVM = new OptionViewModel <ForwardAnalysisType>(StringLookup.GetLocalizedString("Heading_ModelAnalysisOutput"), true); ForwardSolverTypeOptionVM.PropertyChanged += (sender, args) => { OnPropertyChanged("IsGaussianForwardModel"); OnPropertyChanged("IsMultiRegion"); OnPropertyChanged("IsSemiInfinite"); TissueInputVM = GetTissueInputVM(IsMultiRegion ? "MultiLayer" : "SemiInfinite"); UpdateAvailableOptions(); }; ForwardSolverTypeOptionVM.SelectedValue = ForwardSolverType.PointSourceSDA; // force the model choice here? Action <double> updateSolutionDomainWithWavelength = wv => { var wvAxis = SolutionDomainTypeOptionVM.ConstantAxesVMs.FirstOrDefault( axis => axis.AxisType == IndependentVariableAxis.Wavelength); if (wvAxis != null) { wvAxis.AxisValue = wv; } }; SolutionDomainTypeOptionVM.PropertyChanged += (sender, args) => { if (args.PropertyName == "UseSpectralInputs") { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (args.PropertyName == "IndependentAxesVMs") { var useSpectralPanelDataAndNotNull = SolutionDomainTypeOptionVM.UseSpectralInputs && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null; AllRangeVMs = (from i in Enumerable.Range(0, SolutionDomainTypeOptionVM.IndependentVariableAxisOptionVM.SelectedValues.Length) orderby i descending // descending so that wavelength takes highest priority, then time/time frequency, then space/spatial frequency select useSpectralPanelDataAndNotNull&& SolutionDomainTypeOptionVM.IndependentVariableAxisOptionVM.SelectedValues[i] == IndependentVariableAxis.Wavelength ? WindowViewModel.Current.SpectralMappingVM.WavelengthRangeVM // bind to same instance, not a copy : SolutionDomainTypeOptionVM.IndependentAxesVMs[i].AxisRangeVM).ToArray(); // if the independent axis is wavelength, then hide optical properties (because they come from spectral panel) ShowOpticalProperties = _allRangeVMs.All(value => value.AxisType != IndependentVariableAxis.Wavelength); // update solution domain wavelength constant if applicable if (useSpectralPanelDataAndNotNull && SolutionDomainTypeOptionVM.ConstantAxesVMs.Any( axis => axis.AxisType == IndependentVariableAxis.Wavelength)) { updateSolutionDomainWithWavelength(WindowViewModel.Current.SpectralMappingVM.Wavelength); } } }; ExecuteForwardSolverCommand = new RelayCommand(() => ExecuteForwardSolver_Executed(null, null)); OpticalPropertyVM.PropertyChanged += (sender, args) => { //need to get the value from the checkbox in case UseSpectralPanelData has not yet been updated if (SolutionDomainTypeOptionVM != null) { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (UseSpectralPanelData && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null) { updateSolutionDomainWithWavelength(WindowViewModel.Current.SpectralMappingVM.Wavelength); } }; if (WindowViewModel.Current.SpectralMappingVM != null) { WindowViewModel.Current.SpectralMappingVM.PropertyChanged += (sender, args) => { if (args.PropertyName == "Wavelength") { //need to get the value from the checkbox in case UseSpectralPanelData has not yet been updated if (SolutionDomainTypeOptionVM != null) { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (UseSpectralPanelData && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null) { updateSolutionDomainWithWavelength(WindowViewModel.Current.SpectralMappingVM.Wavelength); } } if (args.PropertyName == "OpticalProperties") { //need to get the value from the checkbox in case UseSpectralPanelData has not yet been updated if (SolutionDomainTypeOptionVM != null) { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (UseSpectralPanelData && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null) { if (IsMultiRegion && MultiRegionTissueVM != null) { MultiRegionTissueVM.RegionsVM.ForEach(region => ((dynamic)region).OpticalPropertyVM.SetOpticalProperties( WindowViewModel.Current.SpectralMappingVM.OpticalProperties)); } else if (OpticalPropertyVM != null) { OpticalPropertyVM.SetOpticalProperties( WindowViewModel.Current.SpectralMappingVM.OpticalProperties); } } } }; } }
public InverseSolverViewModel() { _showOpticalProperties = true; _useSpectralPanelData = false; _allRangeVMs = new[] { new RangeViewModel { Title = Strings.IndependentVariableAxis_Rho } }; SolutionDomainTypeOptionVM = new SolutionDomainOptionViewModel("Solution Domain", SolutionDomainType.ROfRho); SolutionDomainTypeOptionVM.EnableMultiAxis = false; SolutionDomainTypeOptionVM.AllowMultiAxis = false; Action <double> updateSolutionDomainWithWavelength = wv => { var wvAxis = SolutionDomainTypeOptionVM.ConstantAxesVMs.FirstOrDefault( axis => axis.AxisType == IndependentVariableAxis.Wavelength); if (wvAxis != null) { wvAxis.AxisValue = wv; } }; SolutionDomainTypeOptionVM.PropertyChanged += (sender, args) => { if (args.PropertyName == "UseSpectralInputs") { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (args.PropertyName == "IndependentAxesVMs") { var useSpectralPanelDataAndNotNull = UseSpectralPanelData && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null; AllRangeVMs = (from i in Enumerable.Range(0, SolutionDomainTypeOptionVM.IndependentVariableAxisOptionVM.SelectedValues.Length) orderby i descending // descending so that wavelength takes highest priority, then time/time frequency, then space/spatial frequency select useSpectralPanelDataAndNotNull&& SolutionDomainTypeOptionVM.IndependentVariableAxisOptionVM.SelectedValues[i] == IndependentVariableAxis.Wavelength ? WindowViewModel.Current.SpectralMappingVM.WavelengthRangeVM // bind to same instance, not a copy : SolutionDomainTypeOptionVM.IndependentAxesVMs[i].AxisRangeVM).ToArray(); // if the independent axis is wavelength, then hide optical properties (because they come from spectral panel) ShowOpticalProperties = !_allRangeVMs.Any(value => value.AxisType == IndependentVariableAxis.Wavelength); // update solution domain wavelength constant if applicable if (useSpectralPanelDataAndNotNull && SolutionDomainTypeOptionVM.ConstantAxesVMs.Any( axis => axis.AxisType == IndependentVariableAxis.Wavelength)) { updateSolutionDomainWithWavelength(WindowViewModel.Current.SpectralMappingVM.Wavelength); } } }; #if WHITELIST MeasuredForwardSolverTypeOptionVM = new OptionViewModel <ForwardSolverType>( "Forward Model Engine", false, WhiteList.InverseForwardSolverTypes); #else MeasuredForwardSolverTypeOptionVM = new OptionViewModel <ForwardSolverType>( "Forward Model Engine", false); //These titles are not diplayed so we can hard-code strings #endif #if WHITELIST InverseForwardSolverTypeOptionVM = new OptionViewModel <ForwardSolverType>("Inverse Model Engine", false, WhiteList.InverseForwardSolverTypes); #else InverseForwardSolverTypeOptionVM = new OptionViewModel <ForwardSolverType>("Inverse Model Engine", false); //These titles are not diplayed so we can hard-code strings #endif InverseForwardSolverTypeOptionVM.PropertyChanged += (sender, args) => OnPropertyChanged("InverseForwardSolver"); OptimizerTypeOptionVM = new OptionViewModel <OptimizerType>(StringLookup.GetLocalizedString("Heading_OptimizerType"), true); OptimizerTypeOptionVM.PropertyChanged += (sender, args) => OnPropertyChanged("Optimizer"); InverseFitTypeOptionVM = new OptionViewModel <InverseFitType>(StringLookup.GetLocalizedString("Heading_OptimizationParameters"), true); MeasuredOpticalPropertyVM = new OpticalPropertyViewModel { Title = "" }; InitialGuessOpticalPropertyVM = new OpticalPropertyViewModel { Title = "" }; ResultOpticalPropertyVM = new OpticalPropertyViewModel { Title = "" }; SimulateMeasuredDataCommand = new RelayCommand(() => SimulateMeasuredDataCommand_Executed(null, null)); CalculateInitialGuessCommand = new RelayCommand(() => CalculateInitialGuessCommand_Executed(null, null)); SolveInverseCommand = new RelayCommand(() => SolveInverseCommand_Executed(null, null)); if (WindowViewModel.Current.SpectralMappingVM != null) { WindowViewModel.Current.SpectralMappingVM.PropertyChanged += (sender, args) => { if (args.PropertyName == "Wavelength") { //need to get the value from the checkbox in case UseSpectralPanelData has not yet been updated if (SolutionDomainTypeOptionVM != null) { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (UseSpectralPanelData && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null) { updateSolutionDomainWithWavelength(WindowViewModel.Current.SpectralMappingVM.Wavelength); } } if (args.PropertyName == "OpticalProperties") { //need to get the value from the checkbox in case UseSpectralPanelData has not yet been updated if (SolutionDomainTypeOptionVM != null) { UseSpectralPanelData = SolutionDomainTypeOptionVM.UseSpectralInputs; } if (UseSpectralPanelData && WindowViewModel.Current != null && WindowViewModel.Current.SpectralMappingVM != null && MeasuredOpticalPropertyVM != null) { MeasuredOpticalPropertyVM.SetOpticalProperties( WindowViewModel.Current.SpectralMappingVM.OpticalProperties); } } }; } }