diff --git a/Modules/Segmentation/Interactions/mitkTool.cpp b/Modules/Segmentation/Interactions/mitkTool.cpp index 81ce0c816a..f8a91f1ca7 100644 --- a/Modules/Segmentation/Interactions/mitkTool.cpp +++ b/Modules/Segmentation/Interactions/mitkTool.cpp @@ -1,339 +1,344 @@ /*============================================================================ 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 "mitkTool.h" #include "mitkDisplayActionEventBroadcast.h" #include "mitkImageReadAccessor.h" #include "mitkImageWriteAccessor.h" #include "mitkLevelWindowProperty.h" #include "mitkLookupTableProperty.h" #include "mitkProperties.h" #include "mitkVtkResliceInterpolationProperty.h" #include #include // us #include #include // itk #include namespace mitk { itkEventMacroDefinition(ToolEvent, itk::ModifiedEvent); } mitk::Tool::Tool(const char *type, const us::Module *interactorModule) : m_EventConfig(""), m_ToolManager(nullptr), m_PredicateImages(NodePredicateDataType::New("Image")), // for reference images m_PredicateDim3(NodePredicateDimension::New(3, 1)), m_PredicateDim4(NodePredicateDimension::New(4, 1)), m_PredicateDimension(mitk::NodePredicateOr::New(m_PredicateDim3, m_PredicateDim4)), m_PredicateImage3D(NodePredicateAnd::New(m_PredicateImages, m_PredicateDimension)), m_PredicateBinary(NodePredicateProperty::New("binary", BoolProperty::New(true))), m_PredicateNotBinary(NodePredicateNot::New(m_PredicateBinary)), m_PredicateSegmentation(NodePredicateProperty::New("segmentation", BoolProperty::New(true))), m_PredicateNotSegmentation(NodePredicateNot::New(m_PredicateSegmentation)), m_PredicateHelper(NodePredicateProperty::New("helper object", BoolProperty::New(true))), m_PredicateNotHelper(NodePredicateNot::New(m_PredicateHelper)), m_PredicateImageColorful(NodePredicateAnd::New(m_PredicateNotBinary, m_PredicateNotSegmentation)), m_PredicateImageColorfulNotHelper(NodePredicateAnd::New(m_PredicateImageColorful, m_PredicateNotHelper)), m_PredicateReference(NodePredicateAnd::New(m_PredicateImage3D, m_PredicateImageColorfulNotHelper)), m_IsSegmentationPredicate( NodePredicateAnd::New(NodePredicateOr::New(m_PredicateBinary, m_PredicateSegmentation), m_PredicateNotHelper)), m_InteractorType(type), m_DisplayInteractionConfigs(), m_InteractorModule(interactorModule) { } mitk::Tool::~Tool() { } bool mitk::Tool::CanHandle(const BaseData* referenceData, const BaseData* /*workingData*/) const { if (referenceData == nullptr) return false; return true; } void mitk::Tool::InitializeStateMachine() { if (m_InteractorType.empty()) return; try { auto isThisModule = nullptr == m_InteractorModule; auto module = isThisModule ? us::GetModuleContext()->GetModule() : m_InteractorModule; LoadStateMachine(m_InteractorType + ".xml", module); SetEventConfig(isThisModule ? "SegmentationToolsConfig.xml" : m_InteractorType + "Config.xml", module); } catch (const std::exception &e) { MITK_ERROR << "Could not load statemachine pattern " << m_InteractorType << ".xml with exception: " << e.what(); } } void mitk::Tool::Notify(InteractionEvent *interactionEvent, bool isHandled) { // to use the state machine pattern, // the event is passed to the state machine interface to be handled if (!isHandled) { this->HandleEvent(interactionEvent, nullptr); } } void mitk::Tool::ConnectActionsAndFunctions() { } bool mitk::Tool::FilterEvents(InteractionEvent *, DataNode *) { return true; } const char *mitk::Tool::GetGroup() const { return "default"; } void mitk::Tool::SetToolManager(ToolManager *manager) { m_ToolManager = manager; } mitk::ToolManager* mitk::Tool::GetToolManager() const { return m_ToolManager; } mitk::DataStorage* mitk::Tool::GetDataStorage() const { if (nullptr != m_ToolManager) { return m_ToolManager->GetDataStorage(); } return nullptr; } void mitk::Tool::Activated() { // As a legacy solution the display interaction of the new interaction framework is disabled here to avoid conflicts // with tools // Note: this only affects InteractionEventObservers (formerly known as Listeners) all DataNode specific interaction // will still be enabled m_DisplayInteractionConfigs.clear(); auto eventObservers = us::GetModuleContext()->GetServiceReferences(); for (const auto& eventObserver : eventObservers) { auto displayActionEventBroadcast = dynamic_cast( us::GetModuleContext()->GetService(eventObserver)); if (nullptr != displayActionEventBroadcast) { // remember the original configuration m_DisplayInteractionConfigs.insert(std::make_pair(eventObserver, displayActionEventBroadcast->GetEventConfig())); // here the alternative configuration is loaded displayActionEventBroadcast->AddEventConfig(m_EventConfig.c_str()); } } } void mitk::Tool::Deactivated() { // Re-enabling InteractionEventObservers that have been previously disabled for legacy handling of Tools // in new interaction framework for (const auto& displayInteractionConfig : m_DisplayInteractionConfigs) { if (displayInteractionConfig.first) { auto displayActionEventBroadcast = static_cast( us::GetModuleContext()->GetService(displayInteractionConfig.first)); if (nullptr != displayActionEventBroadcast) { // here the regular configuration is loaded again displayActionEventBroadcast->SetEventConfig(displayInteractionConfig.second); } } } m_DisplayInteractionConfigs.clear(); } itk::Object::Pointer mitk::Tool::GetGUI(const std::string &toolkitPrefix, const std::string &toolkitPostfix) { itk::Object::Pointer object; std::string classname = this->GetNameOfClass(); std::string guiClassname = toolkitPrefix + classname + toolkitPostfix; std::list allGUIs = itk::ObjectFactoryBase::CreateAllInstance(guiClassname.c_str()); for (auto iter = allGUIs.begin(); iter != allGUIs.end(); ++iter) { if (object.IsNull()) { object = dynamic_cast(iter->GetPointer()); } else { MITK_ERROR << "There is more than one GUI for " << classname << " (several factories claim ability to produce a " << guiClassname << " ) " << std::endl; return nullptr; // people should see and fix this error } } return object; } mitk::NodePredicateBase::ConstPointer mitk::Tool::GetReferenceDataPreference() const { return m_PredicateReference.GetPointer(); } mitk::NodePredicateBase::ConstPointer mitk::Tool::GetWorkingDataPreference() const { return m_IsSegmentationPredicate.GetPointer(); } mitk::DataNode::Pointer mitk::Tool::CreateEmptySegmentationNode(const Image *original, const std::string &organName, const mitk::Color &color) const { // we NEED a reference image for size etc. if (!original) return nullptr; // actually create a new empty segmentation PixelType pixelType(mitk::MakeScalarPixelType()); LabelSetImage::Pointer segmentation = LabelSetImage::New(); if (original->GetDimension() == 2) { const unsigned int dimensions[] = {original->GetDimension(0), original->GetDimension(1), 1}; segmentation->Initialize(pixelType, 3, dimensions); segmentation->AddLayer(); segmentation->SetActiveLayer(0); } else { segmentation->Initialize(original); } mitk::Label::Pointer label = mitk::Label::New(); label->SetName(organName); label->SetColor(color); label->SetValue(1); segmentation->AddLabel(label,segmentation->GetActiveLayer()); segmentation->SetActiveLabel(label->GetValue()); unsigned int byteSize = sizeof(mitk::Label::PixelType); if (segmentation->GetDimension() < 4) { for (unsigned int dim = 0; dim < segmentation->GetDimension(); ++dim) { byteSize *= segmentation->GetDimension(dim); } mitk::ImageWriteAccessor writeAccess(segmentation.GetPointer(), segmentation->GetVolumeData(0)); memset(writeAccess.GetData(), 0, byteSize); } else { // if we have a time-resolved image we need to set memory to 0 for each time step for (unsigned int dim = 0; dim < 3; ++dim) { byteSize *= segmentation->GetDimension(dim); } for (unsigned int volumeNumber = 0; volumeNumber < segmentation->GetDimension(3); volumeNumber++) { mitk::ImageWriteAccessor writeAccess(segmentation.GetPointer(), segmentation->GetVolumeData(volumeNumber)); memset(writeAccess.GetData(), 0, byteSize); } } if (original->GetTimeGeometry()) { TimeGeometry::Pointer originalGeometry = original->GetTimeGeometry()->Clone(); segmentation->SetTimeGeometry(originalGeometry); } else { Tool::ErrorMessage("Original image does not have a 'Time sliced geometry'! Cannot create a segmentation."); return nullptr; } return CreateSegmentationNode(segmentation, organName, color); } mitk::DataNode::Pointer mitk::Tool::CreateSegmentationNode(Image *image, const std::string &organName, const mitk::Color &color) const { if (!image) return nullptr; // decorate the datatreenode with some properties DataNode::Pointer segmentationNode = DataNode::New(); segmentationNode->SetData(image); // name segmentationNode->SetProperty("name", StringProperty::New(organName)); // visualization properties segmentationNode->SetProperty("binary", BoolProperty::New(true)); segmentationNode->SetProperty("color", ColorProperty::New(color)); mitk::LookupTable::Pointer lut = mitk::LookupTable::New(); lut->SetType(mitk::LookupTable::MULTILABEL); mitk::LookupTableProperty::Pointer lutProp = mitk::LookupTableProperty::New(); lutProp->SetLookupTable(lut); segmentationNode->SetProperty("LookupTable", lutProp); segmentationNode->SetProperty("texture interpolation", BoolProperty::New(false)); segmentationNode->SetProperty("layer", IntProperty::New(10)); segmentationNode->SetProperty("levelwindow", LevelWindowProperty::New(LevelWindow(0.5, 1))); segmentationNode->SetProperty("opacity", FloatProperty::New(0.3)); segmentationNode->SetProperty("segmentation", BoolProperty::New(true)); segmentationNode->SetProperty("reslice interpolation", VtkResliceInterpolationProperty::New()); // otherwise -> segmentation appears in 2 // slices sometimes (only visual effect, not // different data) // For MITK-3M3 release, the volume of all segmentations should be shown segmentationNode->SetProperty("showVolume", BoolProperty::New(true)); return segmentationNode; } us::ModuleResource mitk::Tool::GetIconResource() const { // Each specific tool should load its own resource. This one will be invalid return us::ModuleResource(); } us::ModuleResource mitk::Tool::GetCursorIconResource() const { // Each specific tool should load its own resource. This one will be invalid return us::ModuleResource(); } + +bool mitk::Tool::ConfirmBeforeExit() +{ + return false; +} diff --git a/Modules/Segmentation/Interactions/mitkTool.h b/Modules/Segmentation/Interactions/mitkTool.h index 662c9b64c8..48dd6da156 100644 --- a/Modules/Segmentation/Interactions/mitkTool.h +++ b/Modules/Segmentation/Interactions/mitkTool.h @@ -1,273 +1,280 @@ /*============================================================================ 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. ============================================================================*/ #ifndef mitkTool_h #define mitkTool_h #include "itkObjectFactoryBase.h" #include "itkVersion.h" #include "mitkCommon.h" #include "mitkDataNode.h" #include "mitkEventStateMachine.h" #include "mitkInteractionEventObserver.h" #include "mitkLabelSetImage.h" #include "mitkMessage.h" #include "mitkNodePredicateAnd.h" #include "mitkNodePredicateDataType.h" #include "mitkNodePredicateDimension.h" #include "mitkNodePredicateNot.h" #include "mitkNodePredicateOr.h" #include "mitkNodePredicateProperty.h" #include "mitkToolEvents.h" #include "mitkToolFactoryMacro.h" #include #include #include #include #include #include #include "usServiceRegistration.h" namespace us { class ModuleResource; } namespace mitk { class ToolManager; /** \brief Base class of all tools used by mitk::ToolManager. \sa ToolManager \sa SegTool2D \ingroup Interaction \ingroup ToolManagerEtAl Every tool is a mitk::EventStateMachine, which can follow any transition pattern that it likes. Every derived tool should always call SuperClass::Deactivated() at the end of its own implementation of Deactivated, because mitk::Tool resets the interaction configuration in this method. Only if you are very sure that you covered all possible things that might happen to your own tool, you should consider not to reset the configuration. To learn about the MITK implementation of state machines in general, have a look at \ref InteractionPage. To derive a non-abstract tool, you inherit from mitk::Tool (or some other base class further down the inheritance tree), and in your own parameterless constructor (that is called from the itkFactorylessNewMacro that you use) you pass a state machine name (interactor type). Names and .xml-files for valid state machines can be found in different "Interaction" directories (which might be enhanced by you). You have to implement at least GetXPM() and GetName() to provide some identification. Each Tool knows its ToolManager, which can provide the data that the tool should work on. \warning Only to be instantiated by mitk::ToolManager (because SetToolManager has to be called). All other uses are unsupported. $Author$ */ class MITKSEGMENTATION_EXPORT Tool : public EventStateMachine, public InteractionEventObserver { public: typedef mitk::Label::PixelType DefaultSegmentationDataType; /** * \brief To let GUI process new events (e.g. qApp->processEvents() ) */ Message<> GUIProcessEventsMessage; /** * \brief To send error messages (to be shown by some GUI) */ Message1 ErrorMessage; /** * \brief To send whether the tool is busy (to be shown by some GUI) */ Message1 CurrentlyBusy; /** * \brief To send general messages (to be shown by some GUI) */ Message1 GeneralMessage; mitkClassMacro(Tool, EventStateMachine); // no New(), there should only be subclasses /** \brief Returns an icon in the XPM format. This icon has to fit into some kind of button in most applications, so make it smaller than 25x25 pixels. XPM is e.g. supported by The Gimp. But if you open any XPM file in your text editor, you will see that you could also "draw" it with an editor. */ //[[deprecated]] DEPRECATED(virtual const char **GetXPM() const) = 0; /** * \brief Returns the path of an icon. * * This icon is preferred to the XPM icon. */ virtual std::string GetIconPath() const { return ""; } /** * \brief Returns the path of a cursor icon. * */ virtual us::ModuleResource GetCursorIconResource() const; /** * @brief Returns the tool button icon of the tool wrapped by a usModuleResource * @return a valid ModuleResource or an invalid if this function * is not reimplemented */ virtual us::ModuleResource GetIconResource() const; /** \brief Returns the name of this tool. Make it short! This name has to fit into some kind of button in most applications, so take some time to think of a good name! */ virtual const char *GetName() const = 0; /** \brief Name of a group. You can group several tools by assigning a group name. Graphical tool selectors might use this information to group tools. (What other reason could there be?) */ virtual const char *GetGroup() const; virtual void InitializeStateMachine(); /** * \brief Interface for GUI creation. * * This is the basic interface for creation of a GUI object belonging to one tool. * * Tools that support a GUI (e.g. for display/editing of parameters) should follow some rules: * * - A Tool and its GUI are two separate classes * - There may be several instances of a GUI at the same time. * - mitk::Tool is toolkit (Qt, wxWidgets, etc.) independent, the GUI part is of course dependent * - The GUI part inherits both from itk::Object and some GUI toolkit class * - The GUI class name HAS to be constructed like "toolkitPrefix" tool->GetClassName() + "toolkitPostfix", e.g. * MyTool -> wxMyToolGUI * - For each supported toolkit there is a base class for tool GUIs, which contains some convenience methods * - Tools notify the GUI about changes using ITK events. The GUI must observe interesting events. * - The GUI base class may convert all ITK events to the GUI toolkit's favoured messaging system (Qt -> signals) * - Calling methods of a tool by its GUI is done directly. * In some cases GUIs don't want to be notified by the tool when they cause a change in a tool. * There is a macro CALL_WITHOUT_NOTICE(method()), which will temporarily disable all notifications during a * method call. */ virtual itk::Object::Pointer GetGUI(const std::string &toolkitPrefix, const std::string &toolkitPostfix); virtual NodePredicateBase::ConstPointer GetReferenceDataPreference() const; virtual NodePredicateBase::ConstPointer GetWorkingDataPreference() const; DataNode::Pointer CreateEmptySegmentationNode(const Image *original, const std::string &organName, const mitk::Color &color) const; DataNode::Pointer CreateSegmentationNode(Image *image, const std::string &organName, const mitk::Color &color) const; /** Function used to check if a tool can handle the referenceData and (if specified) the working data. @pre referenceData must be a valid pointer @param referenceData Pointer to the data that should be checked as valid reference for the tool. @param workingData Pointer to the data that should be checked as valid working data for this tool. This parameter can be null if no working data is specified so far.*/ virtual bool CanHandle(const BaseData *referenceData, const BaseData *workingData) const; + /** + * @brief Method call to invoke a dialog box just before exiting. + * The method can be reimplemented in the respective tool class with business logic + * on when there should be a confirmation dialog from the user before the tool exits. + */ + virtual bool ConfirmBeforeExit(); + protected: friend class ToolManager; virtual void SetToolManager(ToolManager *); /** Returns the pointer to the tool manager of the tool. May be null.*/ ToolManager* GetToolManager() const; /** Returns the data storage provided by the toolmanager. May be null (e.g. if ToolManager is not set).*/ mitk::DataStorage* GetDataStorage() const; void ConnectActionsAndFunctions() override; /** \brief Called when the tool gets activated. Derived tools should call their parents implementation at the beginning of the overriding function. */ virtual void Activated(); /** \brief Called when the tool gets deactivated. Derived tools should call their parents implementation at the end of the overriding function. */ virtual void Deactivated(); /** \brief Let subclasses change their event configuration. */ std::string m_EventConfig; Tool(const char *, const us::Module *interactorModule = nullptr); // purposely hidden ~Tool() override; void Notify(InteractionEvent *interactionEvent, bool isHandled) override; bool FilterEvents(InteractionEvent *, DataNode *) override; private: ToolManager* m_ToolManager; // for reference data NodePredicateDataType::Pointer m_PredicateImages; NodePredicateDimension::Pointer m_PredicateDim3; NodePredicateDimension::Pointer m_PredicateDim4; NodePredicateOr::Pointer m_PredicateDimension; NodePredicateAnd::Pointer m_PredicateImage3D; NodePredicateProperty::Pointer m_PredicateBinary; NodePredicateNot::Pointer m_PredicateNotBinary; NodePredicateProperty::Pointer m_PredicateSegmentation; NodePredicateNot::Pointer m_PredicateNotSegmentation; NodePredicateProperty::Pointer m_PredicateHelper; NodePredicateNot::Pointer m_PredicateNotHelper; NodePredicateAnd::Pointer m_PredicateImageColorful; NodePredicateAnd::Pointer m_PredicateImageColorfulNotHelper; NodePredicateAnd::Pointer m_PredicateReference; // for working data NodePredicateAnd::Pointer m_IsSegmentationPredicate; std::string m_InteractorType; std::map m_DisplayInteractionConfigs; const us::Module *m_InteractorModule; }; } // namespace #endif diff --git a/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.cpp b/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.cpp index edab65b958..d9f68ee6af 100644 --- a/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.cpp +++ b/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.cpp @@ -1,348 +1,354 @@ /*============================================================================ 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. ============================================================================*/ // MITK #include "mitkTotalSegmentatorTool.h" #include #include #include #include #include #include // us #include #include #include #include #include namespace mitk { MITK_TOOL_MACRO(MITKSEGMENTATION_EXPORT, TotalSegmentatorTool, "Total Segmentator"); } mitk::TotalSegmentatorTool::~TotalSegmentatorTool() { std::filesystem::remove_all(this->GetMitkTempDir()); } mitk::TotalSegmentatorTool::TotalSegmentatorTool() : SegWithPreviewTool(true) // prevents auto-compute across all timesteps { this->IsTimePointChangeAwareOff(); } void mitk::TotalSegmentatorTool::Activated() { Superclass::Activated(); this->SetLabelTransferScope(LabelTransferScope::AllLabels); this->SetLabelTransferMode(LabelTransferMode::AddLabel); } const char **mitk::TotalSegmentatorTool::GetXPM() const { return nullptr; } us::ModuleResource mitk::TotalSegmentatorTool::GetIconResource() const { us::Module *module = us::GetModuleContext()->GetModule(); us::ModuleResource resource = module->GetResource("AI.svg"); return resource; } const char *mitk::TotalSegmentatorTool::GetName() const { return "TotalSegmentator"; } void mitk::TotalSegmentatorTool::onPythonProcessEvent(itk::Object * /*pCaller*/, const itk::EventObject &e, void *) { std::string testCOUT; std::string testCERR; const auto *pEvent = dynamic_cast(&e); if (pEvent) { testCOUT = testCOUT + pEvent->GetOutput(); MITK_INFO << testCOUT; } const auto *pErrEvent = dynamic_cast(&e); if (pErrEvent) { testCERR = testCERR + pErrEvent->GetOutput(); MITK_ERROR << testCERR; } } void mitk::TotalSegmentatorTool::DoUpdatePreview(const Image *inputAtTimeStep, const Image * /*oldSegAtTimeStep*/, LabelSetImage *previewImage, TimeStepType timeStep) { if (this->m_MitkTempDir.empty()) { this->SetMitkTempDir(IOUtil::CreateTemporaryDirectory("mitk-XXXXXX")); } ProcessExecutor::Pointer spExec = ProcessExecutor::New(); itk::CStyleCommand::Pointer spCommand = itk::CStyleCommand::New(); spCommand->SetCallback(&onPythonProcessEvent); spExec->AddObserver(ExternalProcessOutputEvent(), spCommand); m_ProgressCommand->SetProgress(5); std::string inDir, outDir, inputImagePath, outputImagePath, scriptPath; inDir = IOUtil::CreateTemporaryDirectory("totalseg-in-XXXXXX", this->GetMitkTempDir()); std::ofstream tmpStream; inputImagePath = IOUtil::CreateTemporaryFile(tmpStream, TEMPLATE_FILENAME, inDir + IOUtil::GetDirectorySeparator()); tmpStream.close(); std::size_t found = inputImagePath.find_last_of(IOUtil::GetDirectorySeparator()); std::string fileName = inputImagePath.substr(found + 1); std::string token = fileName.substr(0, fileName.find("_")); outDir = IOUtil::CreateTemporaryDirectory("totalseg-out-XXXXXX", this->GetMitkTempDir()); LabelSetImage::Pointer outputBuffer; m_ProgressCommand->SetProgress(20); IOUtil::Save(inputAtTimeStep, inputImagePath); m_ProgressCommand->SetProgress(50); outputImagePath = outDir + IOUtil::GetDirectorySeparator() + token + "_000.nii.gz"; const bool isSubTask = (this->GetSubTask() != DEFAULT_TOTAL_TASK); if (isSubTask) { outputImagePath = outDir; this->run_totalsegmentator( spExec, inputImagePath, outputImagePath, !isSubTask, !isSubTask, this->GetGpuId(), this->GetSubTask()); // Construct Label Id map std::vector files = SUBTASKS_MAP.at(this->GetSubTask()); // Agglomerate individual mask files into one multi-label image. std::for_each(files.begin(), files.end(), [&](std::string &fileName) { fileName = (outDir + IOUtil::GetDirectorySeparator() + fileName); }); outputBuffer = AgglomerateLabelFiles(files, inputAtTimeStep->GetDimensions(), inputAtTimeStep->GetGeometry()); } else { this->run_totalsegmentator( spExec, inputImagePath, outputImagePath, this->GetFast(), !isSubTask, this->GetGpuId(), DEFAULT_TOTAL_TASK); Image::Pointer outputImage = IOUtil::Load(outputImagePath); outputBuffer = mitk::LabelSetImage::New(); outputBuffer->InitializeByLabeledImage(outputImage); outputBuffer->SetGeometry(inputAtTimeStep->GetGeometry()); } m_ProgressCommand->SetProgress(180); mitk::ImageReadAccessor newMitkImgAcc(outputBuffer.GetPointer()); this->MapLabelsToSegmentation(outputBuffer, previewImage, m_LabelMapTotal); previewImage->SetVolume(newMitkImgAcc.GetData(), timeStep); + m_IsPreviewGenerated = true; } void mitk::TotalSegmentatorTool::UpdatePrepare() { Superclass::UpdatePrepare(); auto preview = this->GetPreviewSegmentation(); preview->RemoveLabels(preview->GetAllLabelValues()); if (m_LabelMapTotal.empty()) { this->ParseLabelMapTotalDefault(); } const bool isSubTask = (this->GetSubTask() != DEFAULT_TOTAL_TASK); if (isSubTask) { std::vector files = SUBTASKS_MAP.at(this->GetSubTask()); m_LabelMapTotal.clear(); mitk::Label::PixelType labelId = 1; for (auto const &file : files) { std::string labelName = file.substr(0, file.find('.')); m_LabelMapTotal[labelId] = labelName; labelId++; } } } mitk::LabelSetImage::Pointer mitk::TotalSegmentatorTool::AgglomerateLabelFiles(std::vector &filePaths, const unsigned int *dimensions, mitk::BaseGeometry *geometry) { Label::PixelType labelId = 1; auto aggloLabelImage = mitk::LabelSetImage::New(); auto initImage = mitk::Image::New(); initImage->Initialize(mitk::MakeScalarPixelType(), 3, dimensions); aggloLabelImage->Initialize(initImage); aggloLabelImage->SetGeometry(geometry); const auto layerIndex = aggloLabelImage->AddLayer(); aggloLabelImage->SetActiveLayer(layerIndex); for (auto const &outputImagePath : filePaths) { double rgba[4]; aggloLabelImage->GetLookupTable()->GetTableValue(labelId, rgba); mitk::Color color; color.SetRed(rgba[0]); color.SetGreen(rgba[1]); color.SetBlue(rgba[2]); auto label = mitk::Label::New(); label->SetName("object-" + std::to_string(labelId)); label->SetValue(labelId); label->SetColor(color); label->SetOpacity(rgba[3]); aggloLabelImage->AddLabel(label, layerIndex, false, false); Image::Pointer outputImage = IOUtil::Load(outputImagePath); auto source = mitk::LabelSetImage::New(); source->InitializeByLabeledImage(outputImage); source->SetGeometry(geometry); mitk::TransferLabelContent(source, aggloLabelImage, aggloLabelImage->GetConstLabelsByValue(aggloLabelImage->GetLabelValuesByGroup(layerIndex)), 0, 0, false, {{1, labelId}}); labelId++; } return aggloLabelImage; } void mitk::TotalSegmentatorTool::run_totalsegmentator(ProcessExecutor* spExec, const std::string &inputImagePath, const std::string &outputImagePath, bool isFast, bool isMultiLabel, unsigned int gpuId, const std::string &subTask) { ProcessExecutor::ArgumentListType args; std::string command = "TotalSegmentator"; #ifdef _WIN32 command += ".exe"; #endif args.clear(); args.push_back("-i"); args.push_back(inputImagePath); args.push_back("-o"); args.push_back(outputImagePath); if (subTask != DEFAULT_TOTAL_TASK) { args.push_back("-ta"); args.push_back(subTask); } if (isMultiLabel) { args.push_back("--ml"); } if (isFast) { args.push_back("--fast"); } try { std::string cudaEnv = "CUDA_VISIBLE_DEVICES=" + std::to_string(gpuId); itksys::SystemTools::PutEnv(cudaEnv.c_str()); std::stringstream logStream; for (const auto &arg : args) logStream << arg << " "; logStream << this->GetPythonPath(); MITK_INFO << logStream.str(); spExec->Execute(this->GetPythonPath(), command, args); } catch (const mitk::Exception &e) { MITK_ERROR << e.GetDescription(); return; } } void mitk::TotalSegmentatorTool::ParseLabelMapTotalDefault() { if (!this->GetLabelMapPath().empty()) { std::regex sanitizer(R"([^A-Za-z0-9_])"); std::fstream newfile; newfile.open(this->GetLabelMapPath(), ios::in); std::stringstream buffer; if (newfile.is_open()) { int line = 0; std::string temp; while (std::getline(newfile, temp)) { if (line > 111 && line < 229) { buffer << temp; } ++line; } } std::string key, val; while (std::getline(std::getline(buffer, key, ':'), val, ',')) { std::string sanitized = std::regex_replace(val, sanitizer, ""); m_LabelMapTotal[std::stoi(key)] = sanitized; } } } void mitk::TotalSegmentatorTool::MapLabelsToSegmentation(const mitk::LabelSetImage* source, mitk::LabelSetImage* dest, std::map &labelMap) { auto lookupTable = mitk::LookupTable::New(); lookupTable->SetType(mitk::LookupTable::LookupTableType::MULTILABEL); for (auto const &[key, val] : labelMap) { if (source->ExistLabel(key, source->GetActiveLayer())) { Label::Pointer label = Label::New(key, val); std::array lookupTableColor; lookupTable->GetColor(key, lookupTableColor.data()); Color color; color.SetRed(lookupTableColor[0]); color.SetGreen(lookupTableColor[1]); color.SetBlue(lookupTableColor[2]); label->SetColor(color); dest->AddLabel(label, 0,false); } } } std::string mitk::TotalSegmentatorTool::GetLabelMapPath() { std::string pythonFileName; std::filesystem::path pathToLabelMap(this->GetPythonPath()); pathToLabelMap = pathToLabelMap.parent_path(); #ifdef _WIN32 pythonFileName = pathToLabelMap.string() + "/Lib/site-packages/totalsegmentator/map_to_binary.py"; #else pathToLabelMap.append("lib"); for (auto const &dir_entry : std::filesystem::directory_iterator{pathToLabelMap}) { if (dir_entry.is_directory()) { auto dirName = dir_entry.path().filename().string(); if (dirName.rfind("python", 0) == 0) { pathToLabelMap.append(dir_entry.path().filename().string()); break; } } } pythonFileName = pathToLabelMap.string() + "/site-packages/totalsegmentator/map_to_binary.py"; #endif return pythonFileName; } + +bool mitk::TotalSegmentatorTool::ConfirmBeforeExit() +{ + return m_IsPreviewGenerated; +} diff --git a/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.h b/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.h index 6d75fe8d34..70cf08def6 100644 --- a/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.h +++ b/Modules/Segmentation/Interactions/mitkTotalSegmentatorTool.h @@ -1,150 +1,152 @@ /*============================================================================ 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. ============================================================================*/ #ifndef MITKTOTALSEGMENTATORTOOL_H #define MITKTOTALSEGMENTATORTOOL_H #include "mitkSegWithPreviewTool.h" #include #include "mitkProcessExecutor.h" namespace us { class ModuleResource; } namespace mitk { /** \brief TotalSegmentator segmentation tool. \ingroup Interaction \ingroup ToolManagerEtAl \warning Only to be instantiated by mitk::ToolManager. */ class MITKSEGMENTATION_EXPORT TotalSegmentatorTool : public SegWithPreviewTool { public: mitkClassMacro(TotalSegmentatorTool, SegWithPreviewTool); itkFactorylessNewMacro(Self); itkCloneMacro(Self); const char *GetName() const override; const char **GetXPM() const override; us::ModuleResource GetIconResource() const override; void Activated() override; itkSetMacro(MitkTempDir, std::string); itkGetConstMacro(MitkTempDir, std::string); itkSetMacro(SubTask, std::string); itkGetConstMacro(SubTask, std::string); itkSetMacro(PythonPath, std::string); itkGetConstMacro(PythonPath, std::string); itkSetMacro(GpuId, unsigned int); itkGetConstMacro(GpuId, unsigned int); itkSetMacro(Fast, bool); itkGetConstMacro(Fast, bool); itkBooleanMacro(Fast); /** * @brief Static function to print out everything from itk::EventObject. * Used as callback in mitk::ProcessExecutor object. * */ static void onPythonProcessEvent(itk::Object *, const itk::EventObject &e, void *); protected: TotalSegmentatorTool(); ~TotalSegmentatorTool(); /** * @brief Overriden method from the tool manager to execute the segmentation * Implementation: * 1. Creates temp directory, if not done already. * 2. Parses Label names from map_to_binary.py for using later on. * 3. Calls "run_totalsegmentator" method. * 4. Expects an output image to be saved in the temporary directory by the python proces. Loads it as * LabelSetImage and sets to previewImage. * * @param inputAtTimeStep * @param oldSegAtTimeStep * @param previewImage * @param timeStep */ void DoUpdatePreview(const Image* inputAtTimeStep, const Image* oldSegAtTimeStep, LabelSetImage* previewImage, TimeStepType timeStep) override; void UpdatePrepare() override; + bool ConfirmBeforeExit() override; private: /** * @brief Runs Totalsegmentator python process with desired arguments * */ void run_totalsegmentator(ProcessExecutor*, const std::string&, const std::string&, bool, bool, unsigned int, const std::string&); /** * @brief Applies the m_LabelMapTotal lookup table on the output segmentation LabelSetImage. * */ void MapLabelsToSegmentation(const mitk::LabelSetImage*, mitk::LabelSetImage*, std::map&); /** * @brief Parses map_to_binary.py file to extract label ids and names * and stores as a map for reference in m_LabelMapTotal * */ void ParseLabelMapTotalDefault(); /** * @brief Get the Label Map Path from the virtual environment location * * @return std::string */ std::string GetLabelMapPath(); /** * @brief Agglomerate many individual mask image files into one multi-label LabelSetImage in the * given filePath order. * * @param filePaths * @param dimension * @param geometry * @return LabelSetImage::Pointer */ LabelSetImage::Pointer AgglomerateLabelFiles(std::vector& filePaths, const unsigned int* dimension, mitk::BaseGeometry* geometry); std::string m_MitkTempDir; std::string m_PythonPath; std::string m_SubTask = "total"; unsigned int m_GpuId = 0; std::map m_LabelMapTotal; bool m_Fast = true; + bool m_IsPreviewGenerated = false; const std::string TEMPLATE_FILENAME = "XXXXXX_000_0000.nii.gz"; const std::string DEFAULT_TOTAL_TASK = "total"; const std::unordered_map> SUBTASKS_MAP = { {"body", { "body.nii.gz", "body_trunc.nii.gz", "body_extremities.nii.gz", "skin.nii.gz"}}, {"hip_implant", {"hip_implant.nii.gz"}}, {"cerebral_bleed", {"intracerebral_hemorrhage.nii.gz"}}, {"coronary_arteries", {"coronary_arteries.nii.gz"}}, {"lung_vessels", {"lung_vessels.nii.gz", "lung_trachea_bronchia.nii.gz"}}, {"pleural_pericard_effusion", {"pleural_effusion.nii.gz", "pericardial_effusion.nii.gz"}} }; }; // class } // namespace #endif diff --git a/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp b/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp index 995433d58e..20e2caac48 100755 --- a/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitkToolSelectionBox.cpp @@ -1,623 +1,635 @@ /*============================================================================ 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. ============================================================================*/ //#define MBILOG_ENABLE_DEBUG 1 #include #include "QmitkToolSelectionBox.h" #include "QmitkToolGUI.h" #include "mitkBaseRenderer.h" #include #include #include #include #include #include #include #include #include "usModuleResource.h" #include "usModuleResourceStream.h" #include "mitkToolManagerProvider.h" QmitkToolSelectionBox::QmitkToolSelectionBox(QWidget *parent, mitk::DataStorage *) : QWidget(parent), m_SelfCall(false), m_DisplayedGroups("default"), m_LayoutColumns(2), m_ShowNames(true), m_GenerateAccelerators(false), m_ToolGUIWidget(nullptr), m_LastToolGUI(nullptr), m_ToolButtonGroup(nullptr), m_ButtonLayout(nullptr) { QFont currentFont = QWidget::font(); currentFont.setBold(true); QWidget::setFont(currentFont); m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); // QButtonGroup m_ToolButtonGroup = new QButtonGroup(this); // some features of QButtonGroup m_ToolButtonGroup->setExclusive(false); // mutually exclusive toggle buttons RecreateButtons(); QWidget::setContentsMargins(0, 0, 0, 0); if (layout() != nullptr) { layout()->setContentsMargins(0, 0, 0, 0); } // reactions to signals connect(m_ToolButtonGroup, &QButtonGroup::idClicked, this, &QmitkToolSelectionBox::toolButtonClicked); // reactions to ToolManager events m_ToolManager->ActiveToolChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); // show active tool SetOrUnsetButtonForActiveTool(); QWidget::setEnabled(false); } QmitkToolSelectionBox::~QmitkToolSelectionBox() { m_ToolManager->ActiveToolChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); } mitk::ToolManager *QmitkToolSelectionBox::GetToolManager() { return m_ToolManager; } void QmitkToolSelectionBox::SetToolManager( mitk::ToolManager &newManager) // no nullptr pointer allowed here, a manager is required { // say bye to the old manager m_ToolManager->ActiveToolChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged -= mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); if (QWidget::isEnabled()) { m_ToolManager->UnregisterClient(); } m_ToolManager = &newManager; RecreateButtons(); // greet the new one m_ToolManager->ActiveToolChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerToolModified); m_ToolManager->ReferenceDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerReferenceDataModified); m_ToolManager->WorkingDataChanged += mitk::MessageDelegate(this, &QmitkToolSelectionBox::OnToolManagerWorkingDataModified); if (QWidget::isEnabled()) { m_ToolManager->RegisterClient(); } // ask the new one what the situation is like SetOrUnsetButtonForActiveTool(); } void QmitkToolSelectionBox::toolButtonClicked(int id) { if (!QWidget::isEnabled()) return; // this method could be triggered from the constructor, when we are still disabled MITK_DEBUG << "toolButtonClicked(" << id << "): id translates to tool ID " << m_ToolIDForButtonID[id]; QToolButton *toolButton = dynamic_cast(m_ToolButtonGroup->buttons().at(id)); + mitk::Tool *tool = m_ToolManager->GetActiveTool(); + if (tool && tool->ConfirmBeforeExit() && + QMessageBox::No == QMessageBox::question(nullptr, + QString(tool->GetName()), + QString("WARNING: Are you sure you want to exit the tool?"), + QMessageBox::Yes | QMessageBox::No, + QMessageBox::No)) + { + toolButton->setChecked(false); + return; + } + if (toolButton) { if ((m_ButtonIDForToolID.find(m_ToolManager->GetActiveToolID()) != m_ButtonIDForToolID.end()) // if we have this tool in our box && (m_ButtonIDForToolID[m_ToolManager->GetActiveToolID()] == id)) // the tool corresponding to this button is already active { // disable this button, disable all tools toolButton->setChecked(false); m_ToolManager->ActivateTool(-1); // disable everything } else { // enable the corresponding tool m_SelfCall = true; m_ToolManager->ActivateTool(m_ToolIDForButtonID[id]); m_SelfCall = false; } } } void QmitkToolSelectionBox::OnToolManagerToolModified() { SetOrUnsetButtonForActiveTool(); } void QmitkToolSelectionBox::SetOrUnsetButtonForActiveTool() { // we want to emit a signal in any case, whether we selected ourselves or somebody else changes "our" tool manager. // --> emit before check on m_SelfCall int id = m_ToolManager->GetActiveToolID(); // don't emit signal for shape model tools bool emitSignal = true; mitk::Tool *tool = m_ToolManager->GetActiveTool(); if (tool && std::string(tool->GetGroup()) == "organ_segmentation") emitSignal = false; if (emitSignal) emit ToolSelected(id); // delete old GUI (if any) if (m_LastToolGUI && m_ToolGUIWidget) { if (m_ToolGUIWidget->layout()) { m_ToolGUIWidget->layout()->removeWidget(m_LastToolGUI); } m_LastToolGUI->setParent(nullptr); delete m_LastToolGUI; // will hopefully notify parent and layouts m_LastToolGUI = nullptr; QLayout *layout = m_ToolGUIWidget->layout(); if (layout) { layout->activate(); } } QToolButton *toolButton(nullptr); if (m_ButtonIDForToolID.find(id) != m_ButtonIDForToolID.end()) // if this tool is in our box { toolButton = dynamic_cast(m_ToolButtonGroup->buttons().at(m_ButtonIDForToolID[id])); } if (toolButton) { // mmueller // uncheck all other buttons QAbstractButton *tmpBtn = nullptr; for (int i = 0; i < m_ToolButtonGroup->buttons().size(); ++i) { tmpBtn = m_ToolButtonGroup->buttons().at(i); if (tmpBtn != toolButton) dynamic_cast(tmpBtn)->setChecked(false); } toolButton->setChecked(true); if (m_ToolGUIWidget && tool) { // create and reparent new GUI (if any) itk::Object::Pointer possibleGUI = tool->GetGUI("Qmitk", "GUI").GetPointer(); // prefix and postfix if (possibleGUI.IsNull()) possibleGUI = tool->GetGUI("", "GUI").GetPointer(); QmitkToolGUI *gui = dynamic_cast(possibleGUI.GetPointer()); //! m_LastToolGUI = gui; if (gui) { gui->SetTool(tool); gui->setParent(m_ToolGUIWidget); gui->move(gui->geometry().topLeft()); gui->show(); QLayout *layout = m_ToolGUIWidget->layout(); if (!layout) { layout = new QVBoxLayout(m_ToolGUIWidget); } if (layout) { layout->addWidget(gui); layout->activate(); } } } } else { // disable all buttons QToolButton *selectedToolButton = dynamic_cast(m_ToolButtonGroup->checkedButton()); if (selectedToolButton) { selectedToolButton->setChecked(false); } } } void QmitkToolSelectionBox::OnToolManagerReferenceDataModified() { if (m_SelfCall) return; MITK_DEBUG << "OnToolManagerReferenceDataModified()"; this->UpdateButtonsEnabledState(); } void QmitkToolSelectionBox::OnToolManagerWorkingDataModified() { if (m_SelfCall) return; MITK_DEBUG << "OnToolManagerWorkingDataModified()"; this->UpdateButtonsEnabledState(); } void QmitkToolSelectionBox::setEnabled(bool enable) { if (QWidget::isEnabled() == enable) return; QWidget::setEnabled(enable); if (enable) { m_ToolManager->RegisterClient(); auto id = m_ToolManager->GetActiveToolID(); emit ToolSelected(id); } else { m_ToolManager->ActivateTool(-1); m_ToolManager->UnregisterClient(); emit ToolSelected(-1); } } void QmitkToolSelectionBox::UpdateButtonsEnabledState() { auto buttons = m_ToolButtonGroup->buttons(); const auto refDataNode = m_ToolManager->GetReferenceData(0); const mitk::BaseData* refData = nullptr; if (nullptr != refDataNode) { refData = refDataNode->GetData(); } const auto workingDataNode = m_ToolManager->GetWorkingData(0); const mitk::BaseData* workingData = nullptr; if (nullptr != workingDataNode) { workingData = workingDataNode->GetData(); } for (const auto& button : std::as_const(buttons)) { const auto buttonID = m_ToolButtonGroup->id(button); const auto toolID = m_ToolIDForButtonID[buttonID]; const auto tool = m_ToolManager->GetToolById(toolID); button->setEnabled(tool->CanHandle(refData, workingData)); } } void QmitkToolSelectionBox::RecreateButtons() { if (m_ToolManager.IsNull()) return; QList l = m_ToolButtonGroup->buttons(); // remove all buttons that are there QList::iterator it; QAbstractButton *btn; for (it = l.begin(); it != l.end(); ++it) { btn = *it; m_ToolButtonGroup->removeButton(btn); delete btn; } mitk::ToolManager::ToolVectorTypeConst allPossibleTools = m_ToolManager->GetTools(); mitk::ToolManager::ToolVectorTypeConst allTools; typedef std::pair SortPairType; typedef std::priority_queue SortedToolQueueType; SortedToolQueueType toolPositions; // clear and sort all tools // step one: find name/group of all tools in m_DisplayedGroups string. remember these positions for all tools. for (mitk::ToolManager::ToolVectorTypeConst::const_iterator iter = allPossibleTools.begin(); iter != allPossibleTools.end(); ++iter) { const mitk::Tool *tool = *iter; std::string::size_type namePos = m_DisplayedGroups.find(std::string("'") + tool->GetName() + "'"); std::string::size_type groupPos = m_DisplayedGroups.find(std::string("'") + tool->GetGroup() + "'"); if (!m_DisplayedGroups.empty() && namePos == std::string::npos && groupPos == std::string::npos) continue; // skip if (m_DisplayedGroups.empty() && std::string(tool->GetName()).length() > 0) { namePos = static_cast(tool->GetName()[0]); } SortPairType thisPair = std::make_pair(namePos < groupPos ? namePos : groupPos, *iter); toolPositions.push(thisPair); } // step two: sort tools according to previously found positions in m_DisplayedGroups MITK_DEBUG << "Sorting order of tools (lower number --> earlier in button group)"; while (!toolPositions.empty()) { SortPairType thisPair = toolPositions.top(); MITK_DEBUG << "Position " << thisPair.first << " : " << thisPair.second->GetName(); allTools.push_back(thisPair.second); toolPositions.pop(); } std::reverse(allTools.begin(), allTools.end()); MITK_DEBUG << "Sorted tools:"; for (mitk::ToolManager::ToolVectorTypeConst::const_iterator iter = allTools.begin(); iter != allTools.end(); ++iter) { MITK_DEBUG << (*iter)->GetName(); } if (m_ButtonLayout == nullptr) m_ButtonLayout = new QGridLayout; int row(0); int column(-1); int currentButtonID(0); m_ButtonIDForToolID.clear(); m_ToolIDForButtonID.clear(); QToolButton *button = nullptr; MITK_DEBUG << "Creating buttons for tools"; // fill group box with buttons for (mitk::ToolManager::ToolVectorTypeConst::const_iterator iter = allTools.begin(); iter != allTools.end(); ++iter) { const mitk::Tool *tool = *iter; int currentToolID(m_ToolManager->GetToolID(tool)); ++column; // new line if we are at the maximum columns if (column == m_LayoutColumns) { ++row; column = 0; } button = new QToolButton; button->setSizePolicy(QSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum)); // add new button to the group MITK_DEBUG << "Adding button with ID " << currentToolID; m_ToolButtonGroup->addButton(button, currentButtonID); // ... and to the layout MITK_DEBUG << "Adding button in row/column " << row << "/" << column; m_ButtonLayout->addWidget(button, row, column); if (m_LayoutColumns == 1) { button->setToolButtonStyle(Qt::ToolButtonTextBesideIcon); } else { button->setToolButtonStyle(Qt::ToolButtonTextUnderIcon); } button->setCheckable(true); if (currentToolID == m_ToolManager->GetActiveToolID()) button->setChecked(true); QString label; if (m_GenerateAccelerators) { label += "&"; } label += tool->GetName(); QString tooltip = tool->GetName(); MITK_DEBUG << tool->GetName() << ", " << label.toLocal8Bit().constData() << ", '" << tooltip.toLocal8Bit().constData(); if (m_ShowNames) { button->setText(label); // a label button->setToolTip(tooltip); QFont currentFont = button->font(); currentFont.setBold(false); button->setFont(currentFont); } us::ModuleResource iconResource = tool->GetIconResource(); if (!iconResource.IsValid()) { button->setIcon(QIcon(QPixmap(tool->GetXPM()))); } else { auto isSVG = "svg" == iconResource.GetSuffix(); auto openmode = isSVG ? std::ios_base::in : std::ios_base::binary; us::ModuleResourceStream resourceStream(iconResource, openmode); resourceStream.seekg(0, std::ios::end); std::ios::pos_type length = resourceStream.tellg(); resourceStream.seekg(0, std::ios::beg); char *data = new char[length]; resourceStream.read(data, length); if (isSVG) { button->setIcon(QmitkStyleManager::ThemeIcon(QByteArray::fromRawData(data, length))); } else { QPixmap pixmap; pixmap.loadFromData(QByteArray::fromRawData(data, length)); button->setIcon(QIcon(pixmap)); } delete[] data; if (m_ShowNames) { if (m_LayoutColumns == 1) button->setToolButtonStyle(Qt::ToolButtonTextBesideIcon); else button->setToolButtonStyle(Qt::ToolButtonTextUnderIcon); button->setIconSize(QSize(24, 24)); } else { button->setToolButtonStyle(Qt::ToolButtonIconOnly); button->setIconSize(QSize(32, 32)); button->setToolTip(tooltip); } } if (m_GenerateAccelerators) { QString firstLetter = QString(tool->GetName()); firstLetter.truncate(1); button->setShortcut( firstLetter); // a keyboard shortcut (just the first letter of the given name w/o any CTRL or something) } m_ButtonIDForToolID[currentToolID] = currentButtonID; m_ToolIDForButtonID[currentButtonID] = currentToolID; MITK_DEBUG << "m_ButtonIDForToolID[" << currentToolID << "] == " << currentButtonID; MITK_DEBUG << "m_ToolIDForButtonID[" << currentButtonID << "] == " << currentToolID; tool->GUIProcessEventsMessage += mitk::MessageDelegate( this, &QmitkToolSelectionBox::OnToolGUIProcessEventsMessage); // will never add a listener twice, so we don't have // to check here tool->ErrorMessage += mitk::MessageDelegate1( this, &QmitkToolSelectionBox::OnToolErrorMessage); // will never add a listener twice, so we don't have to check here tool->GeneralMessage += mitk::MessageDelegate1(this, &QmitkToolSelectionBox::OnGeneralToolMessage); ++currentButtonID; } // setting grid layout for this groupbox this->setLayout(m_ButtonLayout); this->UpdateButtonsEnabledState(); // this->update(); } void QmitkToolSelectionBox::OnToolGUIProcessEventsMessage() { qApp->processEvents(); } void QmitkToolSelectionBox::OnToolErrorMessage(std::string s) { QMessageBox::critical( this, "MITK", QString(s.c_str()), QMessageBox::Ok | QMessageBox::NoButton, QMessageBox::NoButton); } void QmitkToolSelectionBox::OnGeneralToolMessage(std::string s) { QMessageBox::information( this, "MITK", QString(s.c_str()), QMessageBox::Ok | QMessageBox::NoButton, QMessageBox::NoButton); } void QmitkToolSelectionBox::SetDisplayedToolGroups(const std::string &toolGroups) { if (m_DisplayedGroups != toolGroups) { QString q_DisplayedGroups = toolGroups.c_str(); // quote all unquoted single words q_DisplayedGroups = q_DisplayedGroups.replace(QRegularExpression("\\b(\\w+)\\b|'([^']+)'"), "'\\1\\2'"); MITK_DEBUG << "m_DisplayedGroups was \"" << toolGroups << "\""; m_DisplayedGroups = q_DisplayedGroups.toLocal8Bit().constData(); MITK_DEBUG << "m_DisplayedGroups is \"" << m_DisplayedGroups << "\""; RecreateButtons(); SetOrUnsetButtonForActiveTool(); } } void QmitkToolSelectionBox::SetLayoutColumns(int columns) { if (columns > 0 && columns != m_LayoutColumns) { m_LayoutColumns = columns; RecreateButtons(); } } void QmitkToolSelectionBox::SetShowNames(bool show) { if (show != m_ShowNames) { m_ShowNames = show; RecreateButtons(); } } void QmitkToolSelectionBox::SetGenerateAccelerators(bool accel) { if (accel != m_GenerateAccelerators) { m_GenerateAccelerators = accel; RecreateButtons(); } } void QmitkToolSelectionBox::SetToolGUIArea(QWidget *parentWidget) { m_ToolGUIWidget = parentWidget; } diff --git a/Modules/SegmentationUI/Qmitk/QmitknnUNetGPU.cpp b/Modules/SegmentationUI/Qmitk/QmitknnUNetGPU.cpp index 68dfb6aa6b..be53422f7e 100644 --- a/Modules/SegmentationUI/Qmitk/QmitknnUNetGPU.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitknnUNetGPU.cpp @@ -1,55 +1,55 @@ /*============================================================================ 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.s ============================================================================*/ #include "QmitknnUNetGPU.h" #include QmitkGPULoader::QmitkGPULoader() { QProcess process; - process.start("nvidia-smi --query-gpu=name,memory.total --format=csv"); + process.start("nvidia-smi", QStringList() << "--query-gpu=name,memory.total" << "--format=csv"); process.waitForFinished(-1); QStringList infoStringList; while (process.canReadLine()) { QString line = process.readLine(); if (!line.startsWith("name")) { infoStringList << line; } } unsigned int count = 0; foreach (QString infoString, infoStringList) { QmitkGPUSpec spec; QStringList gpuDetails; gpuDetails = infoString.split(","); if(gpuDetails.count() == 2) { spec.name = gpuDetails.at(0).trimmed(); spec.id = count; spec.memory = gpuDetails.at(1).trimmed(); this->m_Gpus.push_back(spec); ++count; } } } int QmitkGPULoader::GetGPUCount() const { return static_cast(m_Gpus.size()); } std::vector QmitkGPULoader::GetAllGPUSpecs() { return m_Gpus; }