diff --git a/Modules/ModelFit/autoload/IO/mitkModelFitIOActivator.cpp b/Modules/ModelFit/autoload/IO/mitkModelFitIOActivator.cpp index 1c7e72b7eb..9ce16f6958 100644 --- a/Modules/ModelFit/autoload/IO/mitkModelFitIOActivator.cpp +++ b/Modules/ModelFit/autoload/IO/mitkModelFitIOActivator.cpp @@ -1,100 +1,100 @@ /*============================================================================ The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center (DKFZ) All rights reserved. Use of this source code is governed by a 3-clause BSD license that can be found in the LICENSE file. ============================================================================*/ #include #include #include #include #include #include #include namespace mitk { /* * This is the module activator for the IO aspects of the "ModelFit" module. */ class ModelFitIOActivator : public us::ModuleActivator { public: void registerProperty(const std::string& name, const std::string& key, const std::string& description) { mitk::CoreServicePointer propDescService(mitk::CoreServices::GetPropertyDescriptions()); propDescService->AddDescription(name, description); mitk::PropertyPersistenceInfo::Pointer ppi = mitk::PropertyPersistenceInfo::New(); ppi->SetNameAndKey(name, key); mitk::CoreServicePointer propPersistenceService(mitk::CoreServices::GetPropertyPersistence()); propPersistenceService->AddInfo(ppi, true); } void registerProperty(const std::string& name, const std::string& key, const std::string& description, const PropertyPersistenceInfo::DeserializationFunctionType &deFnc, const PropertyPersistenceInfo::SerializationFunctionType &serFnc) { mitk::CoreServicePointer propDescService(mitk::CoreServices::GetPropertyDescriptions()); propDescService->AddDescription(name, description); mitk::PropertyPersistenceInfo::Pointer ppi = mitk::PropertyPersistenceInfo::New(); ppi->SetNameAndKey(name, key); ppi->SetDeserializationFunction(deFnc); ppi->SetSerializationFunction(serFnc); mitk::CoreServicePointer propPersistenceService(mitk::CoreServices::GetPropertyPersistence()); propPersistenceService->AddInfo(ppi, true); } void Load(us::ModuleContext* /*context*/) override { //register relevant properties registerProperty(mitk::ModelFitConstants::UID_PROPERTY_NAME(), "data_uid", "UID used to identify data in an MITK session."); registerProperty(mitk::ModelFitConstants::INPUT_VARIABLES_PROPERTY_NAME(), "modelfit_input_variables", "Array of input variables used in/for a model fit.", PropertyPersistenceDeserialization::deserializeXMLToScalarListLookupTableProperty, PropertyPersistenceSerialization::serializeScalarListLookupTablePropertyToXML); registerProperty(mitk::ModelFitConstants::PARAMETER_NAME_PROPERTY_NAME(), "modelfit_parameter_name", "Name of the parameter, that is represented by the data and how it is used in the function string (modelfit.model.function)."); registerProperty(mitk::ModelFitConstants::PARAMETER_UNIT_PROPERTY_NAME(), "modelfit_parameter_unit", "Unit string of the Parameter. Is only used for display. Default value: \"\" (no unit)"); registerProperty(mitk::ModelFitConstants::PARAMETER_SCALE_PROPERTY_NAME(), "modelfit_parameter_scale", "Scaling of the parameter. Default value: 1."); registerProperty(mitk::ModelFitConstants::PARAMETER_TYPE_PROPERTY_NAME(), "modelfit_parameter_type", "Type of the parameters. Default value: parameter. Other options: derived, criterion, evaluation."); registerProperty(mitk::ModelFitConstants::MODEL_TYPE_PROPERTY_NAME(), "modelfit_model_type", "Value specifies the type of model (helpfull for classification; e.g. MR perfusion)"); registerProperty(mitk::ModelFitConstants::MODEL_NAME_PROPERTY_NAME(), "modelfit_model_name", "Name of the specific fit. Only used for display."); - registerProperty(mitk::ModelFitConstants::MODEL_FUNCTION_PROPERTY_NAME(), "modelfit_model_function", "Functions string, that specifies the model and will be parsed, to plot the curves based on the parameter. Optional parameter that must not be set."); + registerProperty(mitk::ModelFitConstants::MODEL_FUNCTION_PROPERTY_NAME(), "modelfit_model_function", "Function string, that specifies the model and will be parsed, to plot the curves based on the parameter. Optional parameter that must not be set."); registerProperty(mitk::ModelFitConstants::MODEL_FUNCTION_CLASS_PROPERTY_NAME(), "modelfit_model_functionClass", "ID of the model class implementation."); - registerProperty(mitk::ModelFitConstants::MODEL_X_PROPERTY_NAME(), "modelfit_model_x", "Value identifies the model type."); + registerProperty(mitk::ModelFitConstants::MODEL_X_PROPERTY_NAME(), "modelfit_model_x", "Name of the forumar parameter 'x', that is specified on the x axis. Only needed if model function string is set and formular must be parsed."); - registerProperty(mitk::ModelFitConstants::XAXIS_NAME_PROPERTY_NAME(), "modelfit_xaxis_name", "Value identifies the model type."); - registerProperty(mitk::ModelFitConstants::XAXIS_UNIT_PROPERTY_NAME(), "modelfit_xaxis_unit", "Value identifies the model type."); + registerProperty(mitk::ModelFitConstants::XAXIS_NAME_PROPERTY_NAME(), "modelfit_xaxis_name", "Display name of the x axis."); + registerProperty(mitk::ModelFitConstants::XAXIS_UNIT_PROPERTY_NAME(), "modelfit_xaxis_unit", "Unit of the x axis."); - registerProperty(mitk::ModelFitConstants::YAXIS_NAME_PROPERTY_NAME(), "modelfit_yaxis_name", "Value identifies the model type."); - registerProperty(mitk::ModelFitConstants::YAXIS_UNIT_PROPERTY_NAME(), "modelfit_yaxis_unit", "Value identifies the model type."); + registerProperty(mitk::ModelFitConstants::YAXIS_NAME_PROPERTY_NAME(), "modelfit_yaxis_name", "Display name of the y axis."); + registerProperty(mitk::ModelFitConstants::YAXIS_UNIT_PROPERTY_NAME(), "modelfit_yaxis_unit", "Unit of the y axis."); - registerProperty(mitk::ModelFitConstants::FIT_UID_PROPERTY_NAME(), "modelfit_fit_uid", "Value identifies the model type."); + registerProperty(mitk::ModelFitConstants::FIT_UID_PROPERTY_NAME(), "modelfit_fit_uid", "UID of the fit."); registerProperty(mitk::ModelFitConstants::FIT_NAME_PROPERTY_NAME(), "modelfit_fit_name", "Human readable name for the fit."); - registerProperty(mitk::ModelFitConstants::FIT_TYPE_PROPERTY_NAME(), "modelfit_fit_type", "Value identifies the model type."); - registerProperty(mitk::ModelFitConstants::FIT_INPUT_IMAGEUID_PROPERTY_NAME(), "modelfit_fit_input_imageUID", "Value identifies the model type."); - registerProperty(mitk::ModelFitConstants::FIT_INPUT_ROIUID_PROPERTY_NAME(), "modelfit_fit_input_roiUID", "Value identifies the model type."); - registerProperty(mitk::ModelFitConstants::FIT_INPUT_DATA_PROPERTY_NAME(), "modelfit_fit_input_data", "Value identifies the model type."); - registerProperty(mitk::ModelFitConstants::FIT_STATIC_PARAMETERS_PROPERTY_NAME(), "modelfit_fit_staticParameters", "Value identifies the model type.", PropertyPersistenceDeserialization::deserializeXMLToScalarListLookupTableProperty, PropertyPersistenceSerialization::serializeScalarListLookupTablePropertyToXML); + registerProperty(mitk::ModelFitConstants::FIT_TYPE_PROPERTY_NAME(), "modelfit_fit_type", "Type of the fit (e.g. ROI based or pixel based)."); + registerProperty(mitk::ModelFitConstants::FIT_INPUT_IMAGEUID_PROPERTY_NAME(), "modelfit_fit_input_imageUID", "UID of the input image that used to fit the model."); + registerProperty(mitk::ModelFitConstants::FIT_INPUT_ROIUID_PROPERTY_NAME(), "modelfit_fit_input_roiUID", "UID of the ROI used for the fit."); + registerProperty(mitk::ModelFitConstants::FIT_INPUT_DATA_PROPERTY_NAME(), "modelfit_fit_input_data", "Property containing input data directly stored in the fit information."); + registerProperty(mitk::ModelFitConstants::FIT_STATIC_PARAMETERS_PROPERTY_NAME(), "modelfit_fit_staticParameters", "Property containing static parameters used for the fit.", PropertyPersistenceDeserialization::deserializeXMLToScalarListLookupTableProperty, PropertyPersistenceSerialization::serializeScalarListLookupTablePropertyToXML); } void Unload(us::ModuleContext* ) override { } private: }; } US_EXPORT_MODULE_ACTIVATOR(mitk::ModelFitIOActivator)