diff --git a/Core/Code/Common/mitkCoreObjectFactory.cpp b/Core/Code/Common/mitkCoreObjectFactory.cpp index 3f6e32fb5c..d4fce9c4a7 100644 --- a/Core/Code/Common/mitkCoreObjectFactory.cpp +++ b/Core/Code/Common/mitkCoreObjectFactory.cpp @@ -1,457 +1,466 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkConfig.h" #include "mitkCoreObjectFactory.h" #include "mitkAffineInteractor.h" #include "mitkColorProperty.h" #include "mitkDataNode.h" #include "mitkEnumerationProperty.h" #include "mitkPlaneGeometryData.h" #include "mitkPlaneGeometryDataMapper2D.h" #include "mitkPlaneGeometryDataVtkMapper3D.h" #include "mitkGeometry3D.h" #include "mitkGeometryData.h" #include "mitkImage.h" #include #include "mitkLevelWindowProperty.h" #include "mitkLookupTable.h" #include "mitkLookupTableProperty.h" #include "mitkPlaneGeometry.h" #include "mitkPointSet.h" #include "mitkPointSetVtkMapper2D.h" #include "mitkPointSetVtkMapper3D.h" #include "mitkProperties.h" #include "mitkPropertyList.h" #include "mitkSlicedGeometry3D.h" #include "mitkSmartPointerProperty.h" #include "mitkStringProperty.h" #include "mitkSurface.h" #include "mitkSurface.h" #include "mitkSurfaceGLMapper2D.h" #include "mitkSurfaceVtkMapper3D.h" #include "mitkTimeGeometry.h" #include "mitkTransferFunctionProperty.h" #include "mitkVolumeDataVtkMapper3D.h" #include "mitkVtkInterpolationProperty.h" #include "mitkVtkRepresentationProperty.h" #include "mitkVtkResliceInterpolationProperty.h" // Legacy Support: #include #include #include #include #include #include void mitk::CoreObjectFactory::RegisterExtraFactory(CoreObjectFactoryBase* factory) { MITK_DEBUG << "CoreObjectFactory: registering extra factory of type " << factory->GetNameOfClass(); m_ExtraFactories.insert(CoreObjectFactoryBase::Pointer(factory)); // Register Legacy Reader and Writer this->RegisterLegacyReaders(factory); this->RegisterLegacyWriters(factory); } void mitk::CoreObjectFactory::UnRegisterExtraFactory(CoreObjectFactoryBase *factory) { MITK_DEBUG << "CoreObjectFactory: un-registering extra factory of type " << factory->GetNameOfClass(); try { m_ExtraFactories.erase(factory); } catch( std::exception const& e) { MITK_ERROR << "Caugt exception while unregistering: " << e.what(); } } mitk::CoreObjectFactory::Pointer mitk::CoreObjectFactory::GetInstance() { static mitk::CoreObjectFactory::Pointer instance; if (instance.IsNull()) { instance = mitk::CoreObjectFactory::New(); } return instance; } mitk::CoreObjectFactory::~CoreObjectFactory() { for (std::list< mitk::LegacyFileReaderService* >::iterator it = m_LegacyReaders.begin(); it != m_LegacyReaders.end(); ++it) { delete *it; } for (std::list< mitk::LegacyFileWriterService* >::iterator it = m_LegacyWriters.begin(); it != m_LegacyWriters.end(); ++it) { delete *it; } } void mitk::CoreObjectFactory::SetDefaultProperties(mitk::DataNode* node) { if(node==NULL) return; mitk::DataNode::Pointer nodePointer = node; mitk::Image::Pointer image = dynamic_cast(node->GetData()); if(image.IsNotNull() && image->IsInitialized()) { mitk::ImageVtkMapper2D::SetDefaultProperties(node); mitk::VolumeDataVtkMapper3D::SetDefaultProperties(node); } mitk::Surface::Pointer surface = dynamic_cast(node->GetData()); if(surface.IsNotNull()) { mitk::SurfaceGLMapper2D::SetDefaultProperties(node); mitk::SurfaceVtkMapper3D::SetDefaultProperties(node); } mitk::PointSet::Pointer pointSet = dynamic_cast(node->GetData()); if(pointSet.IsNotNull()) { mitk::PointSetVtkMapper2D::SetDefaultProperties(node); mitk::PointSetVtkMapper3D::SetDefaultProperties(node); } for (ExtraFactoriesContainer::iterator it = m_ExtraFactories.begin(); it != m_ExtraFactories.end() ; it++ ) { (*it)->SetDefaultProperties(node); } } mitk::CoreObjectFactory::CoreObjectFactory() { static bool alreadyDone = false; if (!alreadyDone) { CreateFileExtensionsMap(); RegisterLegacyReaders(this); RegisterLegacyWriters(this); alreadyDone = true; } } mitk::Mapper::Pointer mitk::CoreObjectFactory::CreateMapper(mitk::DataNode* node, MapperSlotId id) { mitk::Mapper::Pointer newMapper = NULL; mitk::Mapper::Pointer tmpMapper = NULL; // check whether extra factories provide mapper for (ExtraFactoriesContainer::iterator it = m_ExtraFactories.begin(); it != m_ExtraFactories.end() ; it++ ) { tmpMapper = (*it)->CreateMapper(node,id); if(tmpMapper.IsNotNull()) newMapper = tmpMapper; } if (newMapper.IsNull()) { mitk::BaseData *data = node->GetData(); if ( id == mitk::BaseRenderer::Standard2D ) { if((dynamic_cast(data)!=NULL)) { newMapper = mitk::ImageVtkMapper2D::New(); newMapper->SetDataNode(node); } else if((dynamic_cast(data)!=NULL)) { newMapper = mitk::PlaneGeometryDataMapper2D::New(); newMapper->SetDataNode(node); } else if((dynamic_cast(data)!=NULL)) { newMapper = mitk::SurfaceGLMapper2D::New(); // cast because SetDataNode is not virtual mitk::SurfaceGLMapper2D *castedMapper = dynamic_cast(newMapper.GetPointer()); castedMapper->SetDataNode(node); } else if((dynamic_cast(data)!=NULL)) { newMapper = mitk::PointSetVtkMapper2D::New(); newMapper->SetDataNode(node); } } else if ( id == mitk::BaseRenderer::Standard3D ) { if((dynamic_cast(data) != NULL)) { newMapper = mitk::VolumeDataVtkMapper3D::New(); newMapper->SetDataNode(node); } else if((dynamic_cast(data)!=NULL)) { newMapper = mitk::PlaneGeometryDataVtkMapper3D::New(); newMapper->SetDataNode(node); } else if((dynamic_cast(data)!=NULL)) { newMapper = mitk::SurfaceVtkMapper3D::New(); newMapper->SetDataNode(node); } else if((dynamic_cast(data)!=NULL)) { newMapper = mitk::PointSetVtkMapper3D::New(); newMapper->SetDataNode(node); } } } return newMapper; } const char* mitk::CoreObjectFactory::GetFileExtensions() { MultimapType aMap; for (ExtraFactoriesContainer::iterator it = m_ExtraFactories.begin(); it != m_ExtraFactories.end() ; it++ ) { aMap = (*it)->GetFileExtensionsMap(); this->MergeFileExtensions(m_FileExtensionsMap, aMap); } this->CreateFileExtensions(m_FileExtensionsMap, m_FileExtensions); return m_FileExtensions.c_str(); } void mitk::CoreObjectFactory::MergeFileExtensions(MultimapType& fileExtensionsMap, MultimapType inputMap) { bool duplicateFound = false; std::pair pairOfIter; for (MultimapType::iterator it = inputMap.begin(); it != inputMap.end(); ++it) { duplicateFound = false; pairOfIter = fileExtensionsMap.equal_range((*it).first); for (MultimapType::iterator it2 = pairOfIter.first; it2 != pairOfIter.second; ++it2) { //cout << " [" << (*it).first << ", " << (*it).second << "]" << endl; std::string aString = (*it2).second; if (aString.compare((*it).second) == 0) { //cout << " DUP!! [" << (*it).first << ", " << (*it).second << "]" << endl; duplicateFound = true; break; } } if (!duplicateFound) { fileExtensionsMap.insert(std::pair((*it).first, (*it).second)); } } } mitk::CoreObjectFactoryBase::MultimapType mitk::CoreObjectFactory::GetFileExtensionsMap() { return m_FileExtensionsMap; } void mitk::CoreObjectFactory::CreateFileExtensionsMap() { m_FileExtensionsMap.insert(std::pair("*.dcm", "DICOM files")); m_FileExtensionsMap.insert(std::pair("*.DCM", "DICOM files")); m_FileExtensionsMap.insert(std::pair("*.dc3", "DICOM files")); m_FileExtensionsMap.insert(std::pair("*.DC3", "DICOM files")); m_FileExtensionsMap.insert(std::pair("*.gdcm", "DICOM files")); m_FileExtensionsMap.insert(std::pair("*.seq", "DKFZ Pic")); m_FileExtensionsMap.insert(std::pair("*.pic", "DKFZ Pic")); m_FileExtensionsMap.insert(std::pair("*.pic.gz", "DKFZ Pic")); m_FileExtensionsMap.insert(std::pair("*.mhd", "MetaImage")); m_FileExtensionsMap.insert(std::pair("*.seq.gz", "DKFZ Pic")); m_FileExtensionsMap.insert(std::pair("*.hdr", "Analyze Format")); m_FileExtensionsMap.insert(std::pair("*.img", "Analyze Format")); m_FileExtensionsMap.insert(std::pair("*.img.gz", "Analyze Format")); m_FileExtensionsMap.insert(std::pair("*.nrrd", "Nearly Raw Raster Data")); m_FileExtensionsMap.insert(std::pair("*.nhdr", "NRRD with detached header")); m_FileExtensionsMap.insert(std::pair("*.mps", "Point sets")); m_FileExtensionsMap.insert(std::pair("*.pic", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.pic.gz", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.bmp", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.png", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.jpg", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.jpeg", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.dcm", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.gdcm", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.ima", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.tiff", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.tif", "Sets of 2D slices")); m_FileExtensionsMap.insert(std::pair("*.stl", "Surface files")); m_FileExtensionsMap.insert(std::pair("*.vtk", "Surface files")); m_FileExtensionsMap.insert(std::pair("*.vtp", "Surface files")); m_FileExtensionsMap.insert(std::pair("*.obj", "Surface files")); m_FileExtensionsMap.insert(std::pair("*.nii", "NIfTI format")); m_FileExtensionsMap.insert(std::pair("*.nii.gz", "NIfTI format")); m_FileExtensionsMap.insert(std::pair("*.gipl", "UMDS GIPL Format Files")); m_FileExtensionsMap.insert(std::pair("*.gipl.gz", "UMDS GIPL Format Files")); //m_SaveFileExtensionsMap.insert(std::pair("*.pic", "DKFZ Pic")); m_SaveFileExtensionsMap.insert(std::pair("*.mhd", "MetaImage")); m_SaveFileExtensionsMap.insert(std::pair("*.vtk", "Surface Files")); m_SaveFileExtensionsMap.insert(std::pair("*.vti", "VTK Image Data Files")); m_SaveFileExtensionsMap.insert(std::pair("*.hdr", "Analyze Format")); m_SaveFileExtensionsMap.insert(std::pair("*.png", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.tiff", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.tif", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.jpg", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.jpeg", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.bmp", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.dcm", "Sets of 2D slices")); m_SaveFileExtensionsMap.insert(std::pair("*.gipl", "UMDS GIPL Format Files")); m_SaveFileExtensionsMap.insert(std::pair("*.gipl.gz", "UMDS compressed GIPL Format Files")); m_SaveFileExtensionsMap.insert(std::pair("*.nii", "NIfTI format")); m_SaveFileExtensionsMap.insert(std::pair("*.nii.gz", "NIfTI compressed format")); m_SaveFileExtensionsMap.insert(std::pair("*.nrrd", "Nearly Raw Raster Data")); m_SaveFileExtensionsMap.insert(std::pair("*.nhdr", "NRRD with detached header")); m_SaveFileExtensionsMap.insert(std::pair("*.lsm", "Microscope Images")); m_SaveFileExtensionsMap.insert(std::pair("*.dwi", "Diffusion Weighted Images")); m_SaveFileExtensionsMap.insert(std::pair("*.hdwi", "Diffusion Weighted Images")); m_SaveFileExtensionsMap.insert(std::pair("*.qbi", "Q-Ball Images")); m_SaveFileExtensionsMap.insert(std::pair("*.hqbi", "Q-Ball Images")); } const char* mitk::CoreObjectFactory::GetSaveFileExtensions() { MultimapType aMap; for (ExtraFactoriesContainer::iterator it = m_ExtraFactories.begin(); it != m_ExtraFactories.end() ; it++ ) { aMap = (*it)->GetSaveFileExtensionsMap(); this->MergeFileExtensions(m_SaveFileExtensionsMap, aMap); } this->CreateFileExtensions(m_SaveFileExtensionsMap, m_SaveFileExtensions); return m_SaveFileExtensions.c_str(); } mitk::CoreObjectFactoryBase::MultimapType mitk::CoreObjectFactory::GetSaveFileExtensionsMap() { return m_SaveFileExtensionsMap; } mitk::CoreObjectFactory::FileWriterList mitk::CoreObjectFactory::GetFileWriters() { FileWriterList allWriters = m_FileWriters; //sort to merge lists later on typedef std::set FileWriterSet; FileWriterSet fileWritersSet; fileWritersSet.insert(allWriters.begin(), allWriters.end()); //collect all extra factories for (ExtraFactoriesContainer::iterator it = m_ExtraFactories.begin(); it != m_ExtraFactories.end(); it++ ) { FileWriterList list2 = (*it)->GetFileWriters(); //add them to the sorted set fileWritersSet.insert(list2.begin(), list2.end()); } //write back to allWriters to return a list allWriters.clear(); allWriters.insert(allWriters.end(), fileWritersSet.begin(), fileWritersSet.end()); return allWriters; } void mitk::CoreObjectFactory::MapEvent(const mitk::Event*, const int) { } std::string mitk::CoreObjectFactory::GetDescriptionForExtension(const std::string& extension) { std::multimap fileExtensionMap = GetSaveFileExtensionsMap(); for(std::multimap::iterator it = fileExtensionMap.begin(); it != fileExtensionMap.end(); it++) if (it->first == extension) return it->second; return ""; // If no matching extension was found, return emtpy string } void mitk::CoreObjectFactory::RegisterLegacyReaders(mitk::CoreObjectFactoryBase* factory) { // We are not really interested in the string, just call the method since // many readers initialize the map the first time when this method is called factory->GetFileExtensions(); std::map > extensionsByCategories; std::multimap fileExtensionMap = factory->GetFileExtensionsMap(); for(std::multimap::iterator it = fileExtensionMap.begin(); it != fileExtensionMap.end(); it++) { std::string extension = it->first; // remove "*." extension = extension.erase(0,2); extensionsByCategories[it->second].push_back(extension); } for(std::map >::iterator iter = extensionsByCategories.begin(), endIter = extensionsByCategories.end(); iter != endIter; ++iter) { m_LegacyReaders.push_back(new mitk::LegacyFileReaderService(iter->second, iter->first)); } } void mitk::CoreObjectFactory::RegisterLegacyWriters(mitk::CoreObjectFactoryBase* factory) { // Get all external Writers mitk::CoreObjectFactory::FileWriterList writers = factory->GetFileWriters(); // We are not really interested in the string, just call the method since // many writers initialize the map the first time when this method is called factory->GetSaveFileExtensions(); MultimapType fileExtensionMap = factory->GetSaveFileExtensionsMap(); -// for(mitk::CoreObjectFactory::FileWriterList::iterator it = writers.begin(); it != writers.end(); it++) -// { -// std::vector extensions = (*it)->GetPossibleFileExtensions(); -// for(std::vector::iterator ext = extensions.begin(); ext != extensions.end(); ext++) -// { -// if (ext->empty()) continue; - -// std::string extension = *ext; -// std::string extensionWithStar = extension; -// if (extension.find_first_of('*') == 0) -// { -// // remove "*." -// extension = extension.substr(0, extension.size()-2); -// } -// else -// { -// extensionWithStar.insert(extensionWithStar.begin(), '*'); -// } - -// std::string description; -// for(MultimapType::iterator fileExtensionIter = fileExtensionMap.begin(); -// fileExtensionIter != fileExtensionMap.end(); fileExtensionIter++) -// { -// if (fileExtensionIter->first == extensionWithStar) -// { -// description = fileExtensionIter->second; -// break; -// } -// } - -// //extension = extension.erase(0,1); -// std::transform(extension.begin(), extension.end(), extension.begin(), ::tolower); -// mitk::LegacyFileWriterService* lfws = new mitk::LegacyFileWriterService(*it, "LegacyDataType", extension, description); -// m_LegacyWriters.push_back(lfws); -// } -// } + for(mitk::CoreObjectFactory::FileWriterList::iterator it = writers.begin(); it != writers.end(); it++) + { + std::vector extensions = (*it)->GetPossibleFileExtensions(); + if (extensions.empty()) continue; + + std::string description; + for(std::vector::iterator ext = extensions.begin(); ext != extensions.end(); ext++) + { + if (ext->empty()) continue; + + std::string extension = *ext; + std::string extensionWithStar = extension; + if (extension.find_first_of('*') == 0) + { + // remove "*." + extension = extension.substr(0, extension.size()-2); + } + else + { + extensionWithStar.insert(extensionWithStar.begin(), '*'); + } + + for(MultimapType::iterator fileExtensionIter = fileExtensionMap.begin(); + fileExtensionIter != fileExtensionMap.end(); fileExtensionIter++) + { + if (fileExtensionIter->first == extensionWithStar) + { + description = fileExtensionIter->second; + break; + } + } + if (!description.empty()) break; + } + if (description.empty()) + { + description = std::string("Legacy ") + (*it)->GetNameOfClass() + " Reader"; + } + + std::cout << "***** CREATING LEGACY WRITER for " << description << std::endl; + + mitk::FileWriter::Pointer fileWriter(it->GetPointer()); + mitk::LegacyFileWriterService* lfws = new mitk::LegacyFileWriterService(fileWriter, description); + m_LegacyWriters.push_back(lfws); + } + } diff --git a/Core/Code/Internal/mitkCoreActivator.cpp b/Core/Code/Internal/mitkCoreActivator.cpp index 09097e5236..b0f577a88d 100644 --- a/Core/Code/Internal/mitkCoreActivator.cpp +++ b/Core/Code/Internal/mitkCoreActivator.cpp @@ -1,374 +1,402 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkCoreActivator.h" // File IO #include #include #include #include #include #include +#include +#include "mitkLegacyFileWriterService.h" + // Micro Services #include #include #include #include #include #include #include #include #include #include #include void HandleMicroServicesMessages(us::MsgType type, const char* msg) { switch (type) { case us::DebugMsg: MITK_DEBUG << msg; break; case us::InfoMsg: MITK_INFO << msg; break; case us::WarningMsg: MITK_WARN << msg; break; case us::ErrorMsg: MITK_ERROR << msg; break; } } void AddMitkAutoLoadPaths(const std::string& programPath) { us::ModuleSettings::AddAutoLoadPath(programPath); #ifdef __APPLE__ // Walk up three directories since that is where the .dylib files are located // for build trees. std::string additionalPath = programPath; bool addPath = true; for(int i = 0; i < 3; ++i) { std::size_t index = additionalPath.find_last_of('/'); if (index != std::string::npos) { additionalPath = additionalPath.substr(0, index); } else { addPath = false; break; } } if (addPath) { us::ModuleSettings::AddAutoLoadPath(additionalPath); } #endif } class ShaderRepositoryTracker : public us::ServiceTracker { public: ShaderRepositoryTracker() : Superclass(us::GetModuleContext()) { } virtual void Close() { us::GetModuleContext()->RemoveModuleListener(this, &ShaderRepositoryTracker::HandleModuleEvent); Superclass::Close(); } virtual void Open() { us::GetModuleContext()->AddModuleListener(this, &ShaderRepositoryTracker::HandleModuleEvent); Superclass::Open(); } private: typedef us::ServiceTracker Superclass; TrackedType AddingService(const ServiceReferenceType &reference) { mitk::IShaderRepository* shaderRepo = Superclass::AddingService(reference); if (shaderRepo) { // Add all existing shaders from modules to the new shader repository. // If the shader repository is registered in a modules activator, the // GetLoadedModules() function call below will also return the module // which is currently registering the repository. The HandleModuleEvent // method contains code to avoid double registrations due to a fired // ModuleEvent::LOADED event after the activators Load() method finished. std::vector modules = us::ModuleRegistry::GetLoadedModules(); for (std::vector::const_iterator iter = modules.begin(), endIter = modules.end(); iter != endIter; ++iter) { this->AddModuleShaderToRepository(*iter, shaderRepo); } m_ShaderRepositories.push_back(shaderRepo); } return shaderRepo; } void RemovedService(const ServiceReferenceType& /*reference*/, TrackedType tracked) { m_ShaderRepositories.erase(std::remove(m_ShaderRepositories.begin(), m_ShaderRepositories.end(), tracked), m_ShaderRepositories.end()); } void HandleModuleEvent(const us::ModuleEvent moduleEvent) { if (moduleEvent.GetType() == us::ModuleEvent::LOADED) { std::vector shaderRepos; for (std::map > >::const_iterator shaderMapIter = m_ModuleIdToShaderIds.begin(), shaderMapEndIter = m_ModuleIdToShaderIds.end(); shaderMapIter != shaderMapEndIter; ++shaderMapIter) { if (shaderMapIter->second.find(moduleEvent.GetModule()->GetModuleId()) == shaderMapIter->second.end()) { shaderRepos.push_back(shaderMapIter->first); } } AddModuleShadersToRepositories(moduleEvent.GetModule(), shaderRepos); } else if (moduleEvent.GetType() == us::ModuleEvent::UNLOADED) { RemoveModuleShadersFromRepositories(moduleEvent.GetModule(), m_ShaderRepositories); } } void AddModuleShadersToRepositories(us::Module* module, const std::vector& shaderRepos) { // search and load shader files std::vector shaderResources = module->FindResources("Shaders", "*.xml", true); for (std::vector::iterator i = shaderResources.begin(); i != shaderResources.end(); ++i) { if (*i) { us::ModuleResourceStream rs(*i); for (std::vector::const_iterator shaderRepoIter = shaderRepos.begin(), shaderRepoEndIter = shaderRepos.end(); shaderRepoIter != shaderRepoEndIter; ++shaderRepoIter) { int id = (*shaderRepoIter)->LoadShader(rs, i->GetBaseName()); if (id >= 0) { m_ModuleIdToShaderIds[*shaderRepoIter][module->GetModuleId()].push_back(id); } } rs.seekg(0, std::ios_base::beg); } } } void AddModuleShaderToRepository(us::Module* module, mitk::IShaderRepository* shaderRepo) { std::vector shaderRepos; shaderRepos.push_back(shaderRepo); this->AddModuleShadersToRepositories(module, shaderRepos); } void RemoveModuleShadersFromRepositories(us::Module* module, const std::vector& shaderRepos) { for (std::vector::const_iterator shaderRepoIter = shaderRepos.begin(), shaderRepoEndIter = shaderRepos.end(); shaderRepoIter != shaderRepoEndIter; ++shaderRepoIter) { std::map >& moduleIdToShaderIds = m_ModuleIdToShaderIds[*shaderRepoIter]; std::map >::iterator shaderIdsIter = moduleIdToShaderIds.find(module->GetModuleId()); if (shaderIdsIter != moduleIdToShaderIds.end()) { for (std::vector::iterator idIter = shaderIdsIter->second.begin(); idIter != shaderIdsIter->second.end(); ++idIter) { (*shaderRepoIter)->UnloadShader(*idIter); } moduleIdToShaderIds.erase(shaderIdsIter); } } } private: // Maps to each shader repository a map containing module ids and related // shader registration ids std::map > > m_ModuleIdToShaderIds; std::vector m_ShaderRepositories; }; void MitkCoreActivator::Load(us::ModuleContext* context) { // Handle messages from CppMicroServices us::installMsgHandler(HandleMicroServicesMessages); this->m_Context = context; // Add the current application directory to the auto-load paths. // This is useful for third-party executables. std::string programPath = mitk::IOUtil::GetProgramPath(); if (programPath.empty()) { MITK_WARN << "Could not get the program path."; } else { AddMitkAutoLoadPaths(programPath); } m_ShaderRepositoryTracker.reset(new ShaderRepositoryTracker); //m_RenderingManager = mitk::RenderingManager::New(); //context->RegisterService(renderingManager.GetPointer()); m_PlanePositionManager.reset(new mitk::PlanePositionManagerService); context->RegisterService(m_PlanePositionManager.get()); m_PropertyAliases.reset(new mitk::PropertyAliases); context->RegisterService(m_PropertyAliases.get()); m_PropertyDescriptions.reset(new mitk::PropertyDescriptions); context->RegisterService(m_PropertyDescriptions.get()); m_PropertyExtensions.reset(new mitk::PropertyExtensions); context->RegisterService(m_PropertyExtensions.get()); m_PropertyFilters.reset(new mitk::PropertyFilters); context->RegisterService(m_PropertyFilters.get()); m_MimeTypeProvider.reset(new mitk::MimeTypeProvider); m_MimeTypeProvider->Start(); m_MimeTypeProviderReg = context->RegisterService(m_MimeTypeProvider.get()); this->RegisterDefaultMimeTypes(); this->RegisterItkReaderWriter(); // Add custom Reader / Writer Services m_FileReaders.push_back(new mitk::PointSetReaderService()); m_FileWriters.push_back(new mitk::PointSetWriterService()); m_FileReaders.push_back(new mitk::RawImageFileReader()); // Explicitly load the LegacyIO module us::SharedLibrary legacyIOLib(programPath, "MitkLegacyIO"); legacyIOLib.Load(); m_ShaderRepositoryTracker->Open(); /* There IS an option to exchange ALL vtkTexture instances against vtkNeverTranslucentTextureFactory. This code is left here as a reminder, just in case we might need to do that some time. vtkNeverTranslucentTextureFactory* textureFactory = vtkNeverTranslucentTextureFactory::New(); vtkObjectFactory::RegisterFactory( textureFactory ); textureFactory->Delete(); */ + + + + std::list possibleWriters; + std::list allobjects = itk::ObjectFactoryBase::CreateAllInstance("IOWriter"); + + for( std::list::iterator i = allobjects.begin(); + i != allobjects.end(); + ++i) + { + mitk::FileWriter* io = dynamic_cast(i->GetPointer()); + if(io) + { + std::cout << "**** FOUND IOWRITER " << io->GetNameOfClass() << std::endl; + std::string description = std::string("Legacy ") + io->GetNameOfClass() + " Reader"; + new mitk::LegacyFileWriterService(io, description); + possibleWriters.push_back(io); + } + else + { + MITK_ERROR << "Error BaseDataIO factory did not return an IOAdapterBase: " + << (*i)->GetNameOfClass() + << std::endl; + } + } } void MitkCoreActivator::Unload(us::ModuleContext* ) { for(std::vector::iterator iter = m_FileReaders.begin(), endIter = m_FileReaders.end(); iter != endIter; ++iter) { delete *iter; } for(std::vector::iterator iter = m_FileWriters.begin(), endIter = m_FileWriters.end(); iter != endIter; ++iter) { delete *iter; } for(std::vector::iterator iter = m_FileIOs.begin(), endIter = m_FileIOs.end(); iter != endIter; ++iter) { delete *iter; } // The mitk::ModuleContext* argument of the Unload() method // will always be 0 for the Mitk library. It makes no sense // to use it at this stage anyway, since all libraries which // know about the module system have already been unloaded. // we need to close the internal service tracker of the // MimeTypeProvider class here. Otherwise it // would hold on to the ModuleContext longer than it is // actually valid. m_MimeTypeProviderReg.Unregister(); m_MimeTypeProvider->Stop(); m_ShaderRepositoryTracker->Close(); } void MitkCoreActivator::RegisterDefaultMimeTypes() { // Register some default mime-types // Custom MITK point set format mitk::CustomMimeType pointSetMimeType("application/vnd.mitk.pointset"); pointSetMimeType.AddExtension("mps"); pointSetMimeType.SetCategory("Point Sets"); pointSetMimeType.SetComment("MITK Point Set"); m_DefaultMimeTypes.push_back(pointSetMimeType); m_Context->RegisterService(&m_DefaultMimeTypes.back()); // Register the NRRD format early on mitk::CustomMimeType nrrdMimeType("application/vnd.mitk.nrrd"); nrrdMimeType.AddExtension("nrrd"); nrrdMimeType.AddExtension("nhdr"); nrrdMimeType.SetCategory("Images"); nrrdMimeType.SetComment("NRRD"); m_DefaultMimeTypes.push_back(nrrdMimeType); m_Context->RegisterService(&m_DefaultMimeTypes.back()); } void MitkCoreActivator::RegisterItkReaderWriter() { std::list allobjects = itk::ObjectFactoryBase::CreateAllInstance("itkImageIOBase"); for (std::list::iterator i = allobjects.begin(), endIter = allobjects.end(); i != endIter; ++i) { itk::ImageIOBase* io = dynamic_cast(i->GetPointer()); if (io) { m_FileIOs.push_back(new mitk::ItkImageIO(io)); } else { MITK_WARN << "Error ImageIO factory did not return an ImageIOBase: " << ( *i )->GetNameOfClass(); } } } US_EXPORT_MODULE_ACTIVATOR(MitkCore, MitkCoreActivator) // Call CppMicroservices initialization code at the end of the file. // This especially ensures that VTK object factories have already // been registered (VTK initialization code is injected by implicitly // include VTK header files at the top of this file). US_INITIALIZE_MODULE("MitkCore", "MitkCore") diff --git a/Core/Code/Internal/mitkLegacyFileWriterService.cpp b/Core/Code/Internal/mitkLegacyFileWriterService.cpp index 8841e77e71..09d59d8440 100644 --- a/Core/Code/Internal/mitkLegacyFileWriterService.cpp +++ b/Core/Code/Internal/mitkLegacyFileWriterService.cpp @@ -1,71 +1,86 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkLegacyFileWriterService.h" #include +#include -#include - -mitk::LegacyFileWriterService::LegacyFileWriterService(mitk::FileWriterWithInformation::Pointer legacyWriter, - const std::string& basedataType, - const std::string& extension, +mitk::LegacyFileWriterService::LegacyFileWriterService(mitk::FileWriter::Pointer legacyWriter, const std::string& description) - : AbstractFileWriter(basedataType, extension, description) + : AbstractFileWriter(legacyWriter->GetSupportedBaseData()) , m_LegacyWriter(legacyWriter) { - if (extension.empty()) mitkThrow() << "LegacyFileWriterWrapper cannot be initialized without FileExtension." ; + this->SetMimeTypePrefix("application/vnd.mitk.legacy.writer."); + this->SetDescription(description); + + std::vector extensions = legacyWriter->GetPossibleFileExtensions(); + + CustomMimeType customMimeType; + for(std::vector::iterator ext = extensions.begin(); ext != extensions.end(); ext++) + { + if (ext->empty()) continue; + + std::string extension = *ext; + if (extension.size() > 1 && extension[0] == '*') + { + // remove "*" + extension = extension.substr(1); + } + if (extension.size() > 1 && extension[0] == '.') + { + // remove "." + extension = extension.substr(1); + } + std::transform(extension.begin(), extension.end(), extension.begin(), ::tolower); + customMimeType.AddExtension(extension); + } + this->SetMimeType(customMimeType); m_ServiceRegistration = RegisterService(); } mitk::LegacyFileWriterService::~LegacyFileWriterService() { - try - { - m_ServiceRegistration.Unregister(); - } - catch (const std::exception&) - {} } ////////////////////// Writing ///////////////////////// -void mitk::LegacyFileWriterService::Write(const BaseData* data, const std::string& path) +void mitk::LegacyFileWriterService::Write() { if (m_LegacyWriter.IsNull()) mitkThrow() << "LegacyFileWriterService was incorrectly initialized: Has no LegacyFileWriter."; - m_LegacyWriter->SetFileName(path.c_str()); - m_LegacyWriter->DoWrite(mitk::BaseData::Pointer(const_cast(data))); -} + LocalFile localFile(this); -void mitk::LegacyFileWriterService::Write(const BaseData* data, std::ostream& stream) -{ - mitk::AbstractFileWriter::Write(data, stream); + m_LegacyWriter->SetFileName(localFile.GetFileName().c_str()); + m_LegacyWriter->SetInput(const_cast(this->GetInput())); + m_LegacyWriter->Write(); } -bool mitk::LegacyFileWriterService::CanWrite(const mitk::BaseData* data) const +mitk::IFileWriter::ConfidenceLevel mitk::LegacyFileWriterService::GetConfidenceLevel() const { - return mitk::AbstractFileWriter::CanWrite(data) && - m_LegacyWriter->CanWriteBaseDataType(mitk::BaseData::Pointer(const_cast(data))); + if (mitk::AbstractFileWriter::GetConfidenceLevel() == Unsupported) return Unsupported; + DataNode::Pointer node = DataNode::New(); + node->SetData(const_cast(this->GetInput())); + return m_LegacyWriter->CanWriteDataType(node) ? Supported : Unsupported; } mitk::LegacyFileWriterService* mitk::LegacyFileWriterService::Clone() const { return new LegacyFileWriterService(*this); } diff --git a/Core/Code/Internal/mitkLegacyFileWriterService.h b/Core/Code/Internal/mitkLegacyFileWriterService.h index 8740496eed..92b35c7b15 100644 --- a/Core/Code/Internal/mitkLegacyFileWriterService.h +++ b/Core/Code/Internal/mitkLegacyFileWriterService.h @@ -1,63 +1,52 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #ifndef LegacyFileWriterService_H_HEADER_INCLUDED_C1E7E521 #define LegacyFileWriterService_H_HEADER_INCLUDED_C1E7E521 -// Macro -#include - -// MITK #include -#include +#include namespace mitk { -//##Documentation -//## @brief -//## @ingroup Process class LegacyFileWriterService : public mitk::AbstractFileWriter { public: - LegacyFileWriterService(mitk::FileWriterWithInformation::Pointer legacyWriter, const std::string& basedataType, - const std::string& extension, const std::string& description); + LegacyFileWriterService(mitk::FileWriter::Pointer legacyWriter, + const std::string& description); ~LegacyFileWriterService(); using AbstractFileWriter::Write; - virtual void Write(const BaseData* data, const std::string& path); - - virtual void Write(const BaseData* data, std::ostream& stream ); - - virtual bool CanWrite(const BaseData *data) const; + virtual void Write(); -protected: - - mitk::FileWriterWithInformation::Pointer m_LegacyWriter; + virtual ConfidenceLevel GetConfidenceLevel() const; private: LegacyFileWriterService* Clone() const; + mitk::FileWriter::Pointer m_LegacyWriter; + us::ServiceRegistration m_ServiceRegistration; }; } // namespace mitk #endif /* LegacyFileWriterService_H_HEADER_INCLUDED_C1E7E521 */ diff --git a/Core/Code/files.cmake b/Core/Code/files.cmake index 7d7d1deded..a878071e8e 100644 --- a/Core/Code/files.cmake +++ b/Core/Code/files.cmake @@ -1,412 +1,412 @@ set(H_FILES Algorithms/itkImportMitkImageContainer.h Algorithms/itkImportMitkImageContainer.txx Algorithms/itkMITKScalarImageToHistogramGenerator.h Algorithms/itkMITKScalarImageToHistogramGenerator.txx Algorithms/mitkInstantiateAccessFunctions.h Algorithms/mitkPixelTypeList.h Algorithms/mitkPPArithmeticDec.h Algorithms/mitkPPArgCount.h Algorithms/mitkPPCat.h Algorithms/mitkPPConfig.h Algorithms/mitkPPControlExprIIf.h Algorithms/mitkPPControlIf.h Algorithms/mitkPPControlIIf.h Algorithms/mitkPPDebugError.h Algorithms/mitkPPDetailAutoRec.h Algorithms/mitkPPDetailDMCAutoRec.h Algorithms/mitkPPExpand.h Algorithms/mitkPPFacilitiesEmpty.h Algorithms/mitkPPFacilitiesExpand.h Algorithms/mitkPPLogicalBool.h Algorithms/mitkPPRepetitionDetailDMCFor.h Algorithms/mitkPPRepetitionDetailEDGFor.h Algorithms/mitkPPRepetitionDetailFor.h Algorithms/mitkPPRepetitionDetailMSVCFor.h Algorithms/mitkPPRepetitionFor.h Algorithms/mitkPPSeqElem.h Algorithms/mitkPPSeqForEach.h Algorithms/mitkPPSeqForEachProduct.h Algorithms/mitkPPSeq.h Algorithms/mitkPPSeqEnum.h Algorithms/mitkPPSeqSize.h Algorithms/mitkPPSeqToTuple.h Algorithms/mitkPPStringize.h Algorithms/mitkPPTupleEat.h Algorithms/mitkPPTupleElem.h Algorithms/mitkPPTupleRem.h Algorithms/mitkClippedSurfaceBoundsCalculator.h Algorithms/mitkExtractSliceFilter.h Algorithms/mitkConvert2Dto3DImageFilter.h Algorithms/mitkPlaneClipping.h Common/mitkCommon.h Common/mitkExceptionMacro.h DataManagement/mitkProportionalTimeGeometry.h DataManagement/mitkTimeGeometry.h DataManagement/mitkImageAccessByItk.h DataManagement/mitkImageCast.h DataManagement/mitkImagePixelAccessor.h DataManagement/mitkImagePixelReadAccessor.h DataManagement/mitkImagePixelWriteAccessor.h DataManagement/mitkImageReadAccessor.h DataManagement/mitkImageWriteAccessor.h DataManagement/mitkITKImageImport.h DataManagement/mitkITKImageImport.txx DataManagement/mitkImageToItk.h DataManagement/mitkShaderProperty.h DataManagement/mitkImageToItk.txx DataManagement/mitkTimeSlicedGeometry.h # Deprecated, empty for compatibility reasons. DataManagement/mitkPropertyListReplacedObserver.cpp DataManagement/mitkVectorDeprecated.h DataManagement/mitkArray.h DataManagement/mitkQuaternion.h DataManagement/mitkNumericTypes.h DataManagement/mitkVector.h DataManagement/mitkPoint.h DataManagement/mitkMatrix.h Interactions/mitkEventMapperAddOn.h Interfaces/mitkIDataNodeReader.h Interfaces/mitkIFileWriter.h Interfaces/mitkIFileWriter.cpp Interfaces/mitkIFileReader.h Interfaces/mitkIFileReader.cpp Rendering/mitkLocalStorageHandler.h Rendering/Colortables/HotIron.h Rendering/Colortables/Jet.h Rendering/Colortables/PET20.h Rendering/Colortables/PETColor.h IO/mitkPixelTypeTraits.h ) set(CPP_FILES Algorithms/mitkBaseDataSource.cpp Algorithms/mitkCompareImageDataFilter.cpp Algorithms/mitkMultiComponentImageDataComparisonFilter.cpp Algorithms/mitkDataNodeSource.cpp Algorithms/mitkPlaneGeometryDataToSurfaceFilter.cpp Algorithms/mitkHistogramGenerator.cpp Algorithms/mitkImageChannelSelector.cpp Algorithms/mitkImageSliceSelector.cpp Algorithms/mitkImageSource.cpp Algorithms/mitkImageTimeSelector.cpp Algorithms/mitkImageToImageFilter.cpp Algorithms/mitkImageToSurfaceFilter.cpp Algorithms/mitkPointSetSource.cpp Algorithms/mitkPointSetToPointSetFilter.cpp Algorithms/mitkRGBToRGBACastImageFilter.cpp Algorithms/mitkSubImageSelector.cpp Algorithms/mitkSurfaceSource.cpp Algorithms/mitkSurfaceToImageFilter.cpp Algorithms/mitkSurfaceToSurfaceFilter.cpp Algorithms/mitkUIDGenerator.cpp Algorithms/mitkVolumeCalculator.cpp Algorithms/mitkClippedSurfaceBoundsCalculator.cpp Algorithms/mitkExtractSliceFilter.cpp Algorithms/mitkConvert2Dto3DImageFilter.cpp Controllers/mitkBaseController.cpp Controllers/mitkCallbackFromGUIThread.cpp Controllers/mitkCameraController.cpp Controllers/mitkCameraRotationController.cpp Controllers/mitkFocusManager.cpp Controllers/mitkLimitedLinearUndo.cpp Controllers/mitkOperationEvent.cpp Controllers/mitkPlanePositionManager.cpp Controllers/mitkProgressBar.cpp Controllers/mitkRenderingManager.cpp Controllers/mitkSliceNavigationController.cpp Controllers/mitkSlicesCoordinator.cpp Controllers/mitkSlicesRotator.cpp Controllers/mitkSlicesSwiveller.cpp Controllers/mitkStatusBar.cpp Controllers/mitkStepper.cpp Controllers/mitkTestManager.cpp Controllers/mitkUndoController.cpp Controllers/mitkVerboseLimitedLinearUndo.cpp Controllers/mitkVtkInteractorCameraController.cpp Controllers/mitkVtkLayerController.cpp DataManagement/mitkProportionalTimeGeometry.cpp DataManagement/mitkTimeGeometry.cpp DataManagement/mitkAbstractTransformGeometry.cpp DataManagement/mitkAnnotationProperty.cpp DataManagement/mitkApplicationCursor.cpp DataManagement/mitkBaseData.cpp DataManagement/mitkBaseGeometry.cpp DataManagement/mitkBaseProperty.cpp DataManagement/mitkClippingProperty.cpp DataManagement/mitkChannelDescriptor.cpp DataManagement/mitkColorProperty.cpp DataManagement/mitkDataStorage.cpp # DataManagement/mitkDataTree.cpp DataManagement/mitkDataNode.cpp # DataManagement/mitkDataTreeStorage.cpp DataManagement/mitkDisplayGeometry.cpp DataManagement/mitkEnumerationProperty.cpp DataManagement/mitkPlaneGeometryData.cpp DataManagement/mitkGeometry3D.cpp DataManagement/mitkGeometryData.cpp DataManagement/mitkGroupTagProperty.cpp DataManagement/mitkImage.cpp DataManagement/mitkImageAccessorBase.cpp DataManagement/mitkImageCaster.cpp DataManagement/mitkImageCastPart1.cpp DataManagement/mitkImageCastPart2.cpp DataManagement/mitkImageCastPart3.cpp DataManagement/mitkImageCastPart4.cpp DataManagement/mitkImageDataItem.cpp DataManagement/mitkImageDescriptor.cpp DataManagement/mitkImageReadAccessor.cpp DataManagement/mitkImageStatisticsHolder.cpp DataManagement/mitkImageVtkAccessor.cpp DataManagement/mitkImageVtkReadAccessor.cpp DataManagement/mitkImageVtkWriteAccessor.cpp DataManagement/mitkImageWriteAccessor.cpp DataManagement/mitkLandmarkProjectorBasedCurvedGeometry.cpp DataManagement/mitkLandmarkProjector.cpp DataManagement/mitkLine.cpp DataManagement/mitkLevelWindow.cpp DataManagement/mitkLevelWindowManager.cpp DataManagement/mitkLevelWindowPreset.cpp DataManagement/mitkLevelWindowProperty.cpp DataManagement/mitkLookupTable.cpp DataManagement/mitkLookupTableProperty.cpp DataManagement/mitkLookupTables.cpp # specializations of GenericLookupTable DataManagement/mitkMemoryUtilities.cpp DataManagement/mitkModalityProperty.cpp DataManagement/mitkModeOperation.cpp DataManagement/mitkModifiedLock.cpp DataManagement/mitkNodePredicateAnd.cpp DataManagement/mitkNodePredicateBase.cpp DataManagement/mitkNodePredicateCompositeBase.cpp DataManagement/mitkNodePredicateData.cpp DataManagement/mitkNodePredicateDataType.cpp DataManagement/mitkNodePredicateDimension.cpp DataManagement/mitkNodePredicateFirstLevel.cpp DataManagement/mitkNodePredicateNot.cpp DataManagement/mitkNodePredicateOr.cpp DataManagement/mitkNodePredicateProperty.cpp DataManagement/mitkNodePredicateSource.cpp DataManagement/mitkPlaneOrientationProperty.cpp DataManagement/mitkPlaneGeometry.cpp DataManagement/mitkPlaneOperation.cpp DataManagement/mitkPointOperation.cpp DataManagement/mitkPointSet.cpp DataManagement/mitkProperties.cpp DataManagement/mitkPropertyList.cpp DataManagement/mitkPropertyObserver.cpp DataManagement/mitkRestorePlanePositionOperation.cpp DataManagement/mitkApplyTransformMatrixOperation.cpp DataManagement/mitkRotationOperation.cpp DataManagement/mitkSlicedData.cpp DataManagement/mitkSlicedGeometry3D.cpp DataManagement/mitkSmartPointerProperty.cpp DataManagement/mitkStandaloneDataStorage.cpp DataManagement/mitkStateTransitionOperation.cpp DataManagement/mitkStringProperty.cpp DataManagement/mitkSurface.cpp DataManagement/mitkSurfaceOperation.cpp DataManagement/mitkThinPlateSplineCurvedGeometry.cpp DataManagement/mitkTransferFunction.cpp DataManagement/mitkTransferFunctionProperty.cpp DataManagement/mitkTransferFunctionInitializer.cpp DataManagement/mitkVector.cpp DataManagement/mitkNumericConstants.cpp DataManagement/mitkVtkInterpolationProperty.cpp DataManagement/mitkVtkRepresentationProperty.cpp DataManagement/mitkVtkResliceInterpolationProperty.cpp DataManagement/mitkVtkScalarModeProperty.cpp DataManagement/mitkVtkVolumeRenderingProperty.cpp DataManagement/mitkWeakPointerProperty.cpp DataManagement/mitkRenderingModeProperty.cpp DataManagement/mitkResliceMethodProperty.cpp DataManagement/mitkMaterial.cpp DataManagement/mitkPointSetShapeProperty.cpp DataManagement/mitkFloatPropertyExtension.cpp DataManagement/mitkIntPropertyExtension.cpp DataManagement/mitkPropertyExtension.cpp DataManagement/mitkPropertyFilter.cpp DataManagement/mitkPropertyAliases.cpp DataManagement/mitkPropertyDescriptions.cpp DataManagement/mitkPropertyExtensions.cpp DataManagement/mitkPropertyFilters.cpp DataManagement/mitkShaderProperty.cpp Interactions/mitkAction.cpp Interactions/mitkAffineInteractor.cpp Interactions/mitkBindDispatcherInteractor.cpp Interactions/mitkCoordinateSupplier.cpp Interactions/mitkDataInteractor.cpp Interactions/mitkDispatcher.cpp Interactions/mitkDisplayCoordinateOperation.cpp Interactions/mitkDisplayInteractor.cpp Interactions/mitkDisplayPositionEvent.cpp # Interactions/mitkDisplayVectorInteractorLevelWindow.cpp # legacy, prob even now unneeded # Interactions/mitkDisplayVectorInteractorScroll.cpp Interactions/mitkEvent.cpp Interactions/mitkEventConfig.cpp Interactions/mitkEventDescription.cpp Interactions/mitkEventFactory.cpp Interactions/mitkInteractionEventHandler.cpp Interactions/mitkEventMapper.cpp Interactions/mitkEventRecorder.cpp Interactions/mitkEventStateMachine.cpp Interactions/mitkGlobalInteraction.cpp Interactions/mitkInteractor.cpp Interactions/mitkInternalEvent.cpp Interactions/mitkInteractionEvent.cpp Interactions/mitkInteractionEventConst.cpp Interactions/mitkInteractionPositionEvent.cpp Interactions/mitkInteractionKeyEvent.cpp Interactions/mitkMousePressEvent.cpp Interactions/mitkMouseMoveEvent.cpp Interactions/mitkMouseReleaseEvent.cpp Interactions/mitkMouseWheelEvent.cpp Interactions/mitkMouseDoubleClickEvent.cpp Interactions/mitkMouseModeSwitcher.cpp Interactions/mitkMouseMovePointSetInteractor.cpp Interactions/mitkMoveBaseDataInteractor.cpp Interactions/mitkNodeDepententPointSetInteractor.cpp Interactions/mitkPointSetDataInteractor.cpp Interactions/mitkPointSetInteractor.cpp Interactions/mitkPositionEvent.cpp Interactions/mitkPositionTracker.cpp Interactions/mitkSinglePointDataInteractor.cpp Interactions/mitkStateMachineAction.cpp Interactions/mitkStateMachineCondition.cpp Interactions/mitkStateMachineState.cpp Interactions/mitkStateMachineTransition.cpp Interactions/mitkState.cpp Interactions/mitkStateMachineContainer.cpp Interactions/mitkStateEvent.cpp Interactions/mitkStateMachine.cpp Interactions/mitkStateMachineFactory.cpp Interactions/mitkTransition.cpp Interactions/mitkWheelEvent.cpp Interactions/mitkKeyEvent.cpp Interactions/mitkVtkEventAdapter.cpp Interactions/mitkVtkInteractorStyle.cxx Interactions/mitkCrosshairPositionEvent.cpp Interactions/mitkXML2EventParser.cpp Interfaces/mitkIMimeTypeProvider.cpp Interfaces/mitkInteractionEventObserver.cpp Interfaces/mitkIShaderRepository.cpp Interfaces/mitkIPropertyAliases.cpp Interfaces/mitkIPropertyDescriptions.cpp Interfaces/mitkIPropertyExtensions.cpp Interfaces/mitkIPropertyFilters.cpp Interfaces/mitkIPersistenceService.cpp IO/mitkAbstractFileReader.cpp IO/mitkAbstractFileWriter.cpp IO/mitkAbstractFileIO.cpp IO/mitkCustomMimeType.cpp IO/mitkDicomSeriesReader.cpp IO/mitkDicomSR_LoadDICOMScalar.cpp IO/mitkDicomSR_LoadDICOMScalar4D.cpp IO/mitkDicomSR_LoadDICOMRGBPixel.cpp IO/mitkDicomSR_LoadDICOMRGBPixel4D.cpp IO/mitkDicomSR_ImageBlockDescriptor.cpp IO/mitkDicomSR_GantryTiltInformation.cpp IO/mitkDicomSR_SliceGroupingResult.cpp IO/mitkFileReader.cpp IO/mitkFileReaderRegistry.cpp IO/mitkFileReaderSelector.cpp IO/mitkFileWriter.cpp IO/mitkFileWriterRegistry.cpp IO/mitkFileWriterSelector.cpp IO/mitkIFileIO.cpp # IO/mitkIpPicGet.c IO/mitkImageGenerator.cpp IO/mitkIOConstants.cpp IO/mitkIOUtil.cpp IO/mitkItkLoggingAdapter.cpp IO/mitkMimeType.cpp IO/mitkOperation.cpp # IO/mitkPicFileIOFactory.cpp # IO/mitkPicFileReader.cpp # IO/mitkPicFileWriter.cpp # IO/mitkPicHelper.cpp # IO/mitkPicVolumeTimeSeriesIOFactory.cpp # IO/mitkPicVolumeTimeSeriesReader.cpp IO/mitkPixelType.cpp IO/mitkStandardFileLocations.cpp IO/mitkVtkLoggingAdapter.cpp IO/mitkLog.cpp Rendering/mitkBaseRenderer.cpp Rendering/mitkVtkMapper.cpp Rendering/mitkRenderWindowFrame.cpp Rendering/mitkPlaneGeometryDataMapper2D.cpp Rendering/mitkPlaneGeometryDataVtkMapper3D.cpp Rendering/mitkGLMapper.cpp Rendering/mitkGradientBackground.cpp Rendering/mitkManufacturerLogo.cpp Rendering/mitkMapper.cpp Rendering/mitkPointSetGLMapper2D.cpp Rendering/mitkPointSetVtkMapper2D.cpp Rendering/mitkPointSetVtkMapper3D.cpp Rendering/mitkSurfaceGLMapper2D.cpp Rendering/mitkSurfaceVtkMapper3D.cpp Rendering/mitkVolumeDataVtkMapper3D.cpp Rendering/mitkVtkPropRenderer.cpp Rendering/mitkVtkWidgetRendering.cpp Rendering/vtkMitkRectangleProp.cpp Rendering/vtkMitkRenderProp.cpp Rendering/mitkVtkEventProvider.cpp Rendering/mitkRenderWindow.cpp Rendering/mitkRenderWindowBase.cpp Rendering/mitkImageVtkMapper2D.cpp Rendering/vtkMitkThickSlicesFilter.cpp Rendering/vtkMitkLevelWindowFilter.cpp Rendering/vtkNeverTranslucentTexture.cpp Rendering/mitkOverlay.cpp Rendering/mitkVtkOverlay.cpp Rendering/mitkVtkOverlay2D.cpp Rendering/mitkVtkOverlay3D.cpp Rendering/mitkOverlayManager.cpp Rendering/mitkAbstractOverlayLayouter.cpp Common/mitkException.cpp Common/mitkCommon.h Common/mitkCoreObjectFactoryBase.cpp Common/mitkCoreObjectFactory.cpp Common/mitkCoreServices.cpp Internal/mitkCoreActivator.cpp Internal/mitkFileReaderWriterBase.cpp Internal/mitkItkImageIO.cpp Internal/mitkLegacyFileReaderService.cpp - #Internal/mitkLegacyFileWriterService.cpp + Internal/mitkLegacyFileWriterService.cpp Internal/mitkMimeTypeProvider.cpp Internal/mitkPointSetReaderService.cpp Internal/mitkPointSetWriterService.cpp Internal/mitkRawImageFileReader.cpp ) set(RESOURCE_FILES Interactions/globalConfig.xml Interactions/DisplayInteraction.xml Interactions/DisplayConfig.xml Interactions/DisplayConfigPACS.xml Interactions/DisplayConfigPACSPan.xml Interactions/DisplayConfigPACSScroll.xml Interactions/DisplayConfigPACSZoom.xml Interactions/DisplayConfigPACSLevelWindow.xml Interactions/DisplayConfigMITK.xml Interactions/PointSet.xml Interactions/Legacy/StateMachine.xml Interactions/Legacy/DisplayConfigMITKTools.xml Interactions/PointSetConfig.xml mitkLevelWindowPresets.xml )