diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp index 182470da6c..53b3af6b51 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp +++ b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp @@ -1,1031 +1,1083 @@ /*============================================================================ 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 "QmitkSegmentationView.h" #include "mitkPluginActivator.h" // blueberry #include // mitk #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Qmitk #include #include #include #include // us #include #include // Qt #include #include #include // vtk #include #include namespace { QList Get2DWindows(const QList allWindows) { QList all2DWindows; for (auto* window : allWindows) { if (window->GetRenderer()->GetMapperID() == mitk::BaseRenderer::Standard2D) { all2DWindows.append(window); } } return all2DWindows; } } const std::string QmitkSegmentationView::VIEW_ID = "org.mitk.views.segmentation"; QmitkSegmentationView::QmitkSegmentationView() : m_Parent(nullptr) , m_Controls(nullptr) , m_RenderWindowPart(nullptr) , m_ToolManager(nullptr) , m_ReferenceNode(nullptr) , m_WorkingNode(nullptr) , m_DrawOutline(true) , m_SelectionMode(false) , m_MouseCursorSet(false) , m_DefaultLabelNaming(true) , m_SelectionChangeIsAlreadyBeingHandled(false) { auto isImage = mitk::TNodePredicateDataType::New(); auto isDwi = mitk::NodePredicateDataType::New("DiffusionImage"); auto isDti = mitk::NodePredicateDataType::New("TensorImage"); auto isOdf = mitk::NodePredicateDataType::New("OdfImage"); auto isSegment = mitk::NodePredicateDataType::New("Segment"); auto validImages = mitk::NodePredicateOr::New(); validImages->AddPredicate(mitk::NodePredicateAnd::New(isImage, mitk::NodePredicateNot::New(isSegment))); validImages->AddPredicate(isDwi); validImages->AddPredicate(isDti); validImages->AddPredicate(isOdf); m_SegmentationPredicate = mitk::NodePredicateAnd::New(); m_SegmentationPredicate->AddPredicate(mitk::TNodePredicateDataType::New()); m_SegmentationPredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("helper object"))); m_SegmentationPredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("hidden object"))); m_ReferencePredicate = mitk::NodePredicateAnd::New(); m_ReferencePredicate->AddPredicate(validImages); m_ReferencePredicate->AddPredicate(mitk::NodePredicateNot::New(m_SegmentationPredicate)); m_ReferencePredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("helper object"))); m_ReferencePredicate->AddPredicate(mitk::NodePredicateNot::New(mitk::NodePredicateProperty::New("hidden object"))); } QmitkSegmentationView::~QmitkSegmentationView() { if (nullptr != m_Controls) { // deactivate all tools m_ToolManager->ActivateTool(-1); // removing all observers from working data for (NodeTagMapType::iterator dataIter = m_WorkingDataObserverTags.begin(); dataIter != m_WorkingDataObserverTags.end(); ++dataIter) { (*dataIter).first->GetProperty("visible")->RemoveObserver((*dataIter).second); } m_WorkingDataObserverTags.clear(); + this->RemoveObserversFromWorkingImage(); + // removing all observers from reference data for (NodeTagMapType::iterator dataIter = m_ReferenceDataObserverTags.begin(); dataIter != m_ReferenceDataObserverTags.end(); ++dataIter) { (*dataIter).first->GetProperty("visible")->RemoveObserver((*dataIter).second); } m_ReferenceDataObserverTags.clear(); mitk::RenderingManager::GetInstance()->RemoveObserver(m_RenderingManagerObserverTag); ctkPluginContext* context = mitk::PluginActivator::getContext(); ctkServiceReference ppmRef = context->getServiceReference(); mitk::PlanePositionManagerService* service = context->getService(ppmRef); service->RemoveAllPlanePositions(); context->ungetService(ppmRef); m_ToolManager->SetReferenceData(nullptr); m_ToolManager->SetWorkingData(nullptr); } m_ToolManager->ActiveToolChanged -= - mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); + mitk::MessageDelegate(this, &Self::ActiveToolChanged); delete m_Controls; } /**********************************************************************/ /* private Q_SLOTS */ /**********************************************************************/ void QmitkSegmentationView::OnReferenceSelectionChanged(QList) { this->OnAnySelectionChanged(); } void QmitkSegmentationView::OnSegmentationSelectionChanged(QList) { this->OnAnySelectionChanged(); } void QmitkSegmentationView::OnAnySelectionChanged() { // When only a segmentation has been selected and the method is then called by a reference image selection, // the already selected segmentation may not match the geometry predicate of the new reference image anymore. // This will trigger a recursive call of this method further below. While it would be resolved gracefully, we // can spare the extra call with an early-out. The original call of this method will handle the segmentation // selection change afterwards anyway. if (m_SelectionChangeIsAlreadyBeingHandled) return; auto selectedReferenceNode = m_Controls->referenceNodeSelector->GetSelectedNode(); bool referenceNodeChanged = false; m_ToolManager->ActivateTool(-1); if (m_ReferenceNode != selectedReferenceNode) { referenceNodeChanged = true; // Remove visibility observer for the current reference node if (m_ReferenceDataObserverTags.find(m_ReferenceNode) != m_ReferenceDataObserverTags.end()) { m_ReferenceNode->GetProperty("visible")->RemoveObserver(m_ReferenceDataObserverTags[m_ReferenceNode]); m_ReferenceDataObserverTags.erase(m_ReferenceNode); } // Set new reference node m_ReferenceNode = selectedReferenceNode; m_ToolManager->SetReferenceData(m_ReferenceNode); // Prepare for a potential recursive call when changing node predicates of the working node selector m_SelectionChangeIsAlreadyBeingHandled = true; if (m_ReferenceNode.IsNull()) { // Without a reference image, allow all segmentations to be selected m_Controls->workingNodeSelector->SetNodePredicate(m_SegmentationPredicate); m_SelectionChangeIsAlreadyBeingHandled = false; } else { // With a reference image, only allow segmentations that fit the geometry of the reference image to be selected. m_Controls->workingNodeSelector->SetNodePredicate(mitk::NodePredicateAnd::New( mitk::NodePredicateSubGeometry::New(m_ReferenceNode->GetData()->GetGeometry()), m_SegmentationPredicate.GetPointer())); m_SelectionChangeIsAlreadyBeingHandled = false; this->ApplySelectionModeOnReferenceNode(); // Add visibility observer for the new reference node - auto command = itk::SimpleMemberCommand::New(); - command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); + auto command = itk::SimpleMemberCommand::New(); + command->SetCallbackFunction(this, &Self::ValidateSelectionInput); m_ReferenceDataObserverTags[m_ReferenceNode] = m_ReferenceNode->GetProperty("visible")->AddObserver(itk::ModifiedEvent(), command); } } auto selectedWorkingNode = m_Controls->workingNodeSelector->GetSelectedNode(); bool workingNodeChanged = false; if (m_WorkingNode != selectedWorkingNode) { workingNodeChanged = true; + this->RemoveObserversFromWorkingImage(); + // Remove visibility observer for the current working node if (m_WorkingDataObserverTags.find(m_WorkingNode) != m_WorkingDataObserverTags.end()) { m_WorkingNode->GetProperty("visible")->RemoveObserver(m_WorkingDataObserverTags[m_WorkingNode]); m_WorkingDataObserverTags.erase(m_WorkingNode); } // Set new working node m_WorkingNode = selectedWorkingNode; m_ToolManager->SetWorkingData(m_WorkingNode); if (m_WorkingNode.IsNotNull()) { this->ApplySelectionModeOnWorkingNode(); // Add visibility observer for the new segmentation node - auto command = itk::SimpleMemberCommand::New(); - command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); + auto command = itk::SimpleMemberCommand::New(); + command->SetCallbackFunction(this, &Self::ValidateSelectionInput); m_WorkingDataObserverTags[m_WorkingNode] = m_WorkingNode->GetProperty("visible")->AddObserver(itk::ModifiedEvent(), command); + + this->AddObserversToWorkingImage(); } } // Reset camera if any selection changed but only if both reference node and working node are set if ((referenceNodeChanged || workingNodeChanged) && (m_ReferenceNode.IsNotNull() && m_WorkingNode.IsNotNull())) { if (nullptr != m_RenderWindowPart) { m_RenderWindowPart->InitializeViews(m_ReferenceNode->GetData()->GetTimeGeometry(), false); } } this->UpdateGUI(); } +void QmitkSegmentationView::OnLabelAdded(mitk::LabelSetImage::LabelValueType) +{ + this->ValidateSelectionInput(); +} + +void QmitkSegmentationView::OnLabelRemoved(mitk::LabelSetImage::LabelValueType) +{ + this->ValidateSelectionInput(); +} + +void QmitkSegmentationView::OnGroupRemoved(mitk::LabelSetImage::GroupIndexType) +{ + this->ValidateSelectionInput(); +} + +mitk::LabelSetImage* QmitkSegmentationView::GetWorkingImage() +{ + if (m_WorkingNode.IsNull()) + return nullptr; + + return dynamic_cast(m_WorkingNode->GetData()); +} + +void QmitkSegmentationView::AddObserversToWorkingImage() +{ + auto* workingImage = this->GetWorkingImage(); + + if (workingImage != nullptr) + { + workingImage->AddLabelAddedListener(mitk::MessageDelegate1(this, &Self::OnLabelAdded)); + workingImage->AddLabelRemovedListener(mitk::MessageDelegate1(this, &Self::OnLabelRemoved)); + workingImage->AddGroupRemovedListener(mitk::MessageDelegate1(this, &Self::OnGroupRemoved)); + } +} + +void QmitkSegmentationView::RemoveObserversFromWorkingImage() +{ + auto* workingImage = this->GetWorkingImage(); + + if (workingImage != nullptr) + { + workingImage->RemoveLabelAddedListener(mitk::MessageDelegate1(this, &Self::OnLabelAdded)); + workingImage->RemoveLabelRemovedListener(mitk::MessageDelegate1(this, &Self::OnLabelRemoved)); + workingImage->RemoveGroupRemovedListener(mitk::MessageDelegate1(this, &Self::OnGroupRemoved)); + } +} + void QmitkSegmentationView::OnVisibilityShortcutActivated() { if (m_WorkingNode.IsNull()) { return; } bool isVisible = false; m_WorkingNode->GetBoolProperty("visible", isVisible); m_WorkingNode->SetVisibility(!isVisible); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::OnLabelToggleShortcutActivated() { if (m_WorkingNode.IsNull()) { return; } auto workingImage = dynamic_cast(m_WorkingNode->GetData()); if (nullptr == workingImage) { return; } this->WaitCursorOn(); workingImage->GetActiveLabelSet()->SetNextActiveLabel(); workingImage->Modified(); this->WaitCursorOff(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::OnNewSegmentation() { m_ToolManager->ActivateTool(-1); if (m_ReferenceNode.IsNull()) { MITK_ERROR << "'Create new segmentation' button should never be clickable unless a reference image is selected."; return; } mitk::Image::ConstPointer referenceImage = dynamic_cast(m_ReferenceNode->GetData()); if (referenceImage.IsNull()) { QMessageBox::information( m_Parent, "New segmentation", "Please load and select an image before starting some action."); return; } if (referenceImage->GetDimension() <= 1) { QMessageBox::information( m_Parent, "New segmentation", "Segmentation is currently not supported for 2D images"); return; } auto segTemplateImage = referenceImage; if (referenceImage->GetDimension() > 3) { QmitkStaticDynamicSegmentationDialog dialog(m_Parent); dialog.SetReferenceImage(referenceImage.GetPointer()); dialog.exec(); segTemplateImage = dialog.GetSegmentationTemplate(); } mitk::DataNode::Pointer newSegmentationNode; try { this->WaitCursorOn(); newSegmentationNode = mitk::LabelSetImageHelper::CreateNewSegmentationNode(m_ReferenceNode, segTemplateImage); this->WaitCursorOff(); } catch (mitk::Exception& e) { this->WaitCursorOff(); MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::warning(m_Parent, "New segmentation", "Could not create a new segmentation."); return; } auto newLabelSetImage = dynamic_cast(newSegmentationNode->GetData()); if (nullptr == newLabelSetImage) { // something went wrong return; } const auto labelSetPreset = this->GetDefaultLabelSetPreset(); if (labelSetPreset.empty() || !mitk::MultiLabelIOHelper::LoadLabelSetImagePreset(labelSetPreset, newLabelSetImage)) { auto newLabel = mitk::LabelSetImageHelper::CreateNewLabel(newLabelSetImage); if (!m_DefaultLabelNaming) QmitkNewSegmentationDialog::DoRenameLabel(newLabel, nullptr, m_Parent); newLabelSetImage->GetActiveLabelSet()->AddLabel(newLabel); } if (!this->GetDataStorage()->Exists(newSegmentationNode)) { this->GetDataStorage()->Add(newSegmentationNode, m_ReferenceNode); } if (m_ToolManager->GetWorkingData(0)) { m_ToolManager->GetWorkingData(0)->SetSelected(false); } newSegmentationNode->SetSelected(true); m_Controls->workingNodeSelector->SetCurrentSelectedNode(newSegmentationNode); } std::string QmitkSegmentationView::GetDefaultLabelSetPreset() const { auto labelSetPreset = mitk::BaseApplication::instance().config().getString(mitk::BaseApplication::ARG_SEGMENTATION_LABELSET_PRESET.toStdString(), ""); if (labelSetPreset.empty()) labelSetPreset = m_LabelSetPresetPreference.toStdString(); return labelSetPreset; } void QmitkSegmentationView::OnManualTool2DSelected(int id) { this->ResetMouseCursor(); mitk::StatusBar::GetInstance()->DisplayText(""); if (id >= 0) { std::string text = "Active Tool: \""; text += m_ToolManager->GetToolById(id)->GetName(); text += "\""; mitk::StatusBar::GetInstance()->DisplayText(text.c_str()); us::ModuleResource resource = m_ToolManager->GetToolById(id)->GetCursorIconResource(); this->SetMouseCursor(resource, 0, 0); } } void QmitkSegmentationView::OnShowMarkerNodes(bool state) { mitk::SegTool2D::Pointer manualSegmentationTool; unsigned int numberOfExistingTools = m_ToolManager->GetTools().size(); for (unsigned int i = 0; i < numberOfExistingTools; i++) { manualSegmentationTool = dynamic_cast(m_ToolManager->GetToolById(i)); if (nullptr == manualSegmentationTool) { continue; } manualSegmentationTool->SetShowMarkerNodes(state); } } void QmitkSegmentationView::OnCurrentLabelSelectionChanged(QmitkMultiLabelManager::LabelValueVectorType labels) { auto segmentation = this->GetCurrentSegmentation(); const auto labelValue = labels.front(); const auto groupID = segmentation->GetGroupIndexOfLabel(labelValue); if (groupID != segmentation->GetActiveLayer()) segmentation->SetActiveLayer(groupID); if (labelValue != segmentation->GetActiveLabelSet()->GetActiveLabel()->GetValue()) segmentation->GetActiveLabelSet()->SetActiveLabel(labelValue); segmentation->Modified(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::OnGoToLabel(mitk::LabelSetImage::LabelValueType /*label*/, const mitk::Point3D& pos) { if (m_RenderWindowPart) { m_RenderWindowPart->SetSelectedPosition(pos); } } void QmitkSegmentationView::OnLabelRenameRequested(mitk::Label* label, bool rename) const { auto segmentation = this->GetCurrentSegmentation(); if (rename) { QmitkNewSegmentationDialog::DoRenameLabel(label, segmentation, this->m_Parent, QmitkNewSegmentationDialog::Mode::RenameLabel); return; } QmitkNewSegmentationDialog::DoRenameLabel(label, nullptr, this->m_Parent, QmitkNewSegmentationDialog::Mode::NewLabel); } mitk::LabelSetImage* QmitkSegmentationView::GetCurrentSegmentation() const { auto workingNode = m_Controls->workingNodeSelector->GetSelectedNode(); if (workingNode.IsNull()) mitkThrow() << "Segmentation view is in an invalid state. Working node is null, but a label selection change has been triggered."; auto segmentation = dynamic_cast(workingNode->GetData()); if (nullptr == segmentation) mitkThrow() << "Segmentation view is in an invalid state. Working node contains no segmentation, but a label selection change has been triggered."; return segmentation; } /**********************************************************************/ /* private */ /**********************************************************************/ void QmitkSegmentationView::CreateQtPartControl(QWidget* parent) { m_Parent = parent; m_Controls = new Ui::QmitkSegmentationViewControls; m_Controls->setupUi(parent); // *------------------------ // * SHORTCUTS // *------------------------ QShortcut* visibilityShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_H), parent); - connect(visibilityShortcut, &QShortcut::activated, this, &QmitkSegmentationView::OnVisibilityShortcutActivated); + connect(visibilityShortcut, &QShortcut::activated, this, &Self::OnVisibilityShortcutActivated); QShortcut* labelToggleShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_L, Qt::CTRL | Qt::Key::Key_I), parent); - connect(labelToggleShortcut, &QShortcut::activated, this, &QmitkSegmentationView::OnLabelToggleShortcutActivated); + connect(labelToggleShortcut, &QShortcut::activated, this, &Self::OnLabelToggleShortcutActivated); // *------------------------ // * DATA SELECTION WIDGETS // *------------------------ m_Controls->referenceNodeSelector->SetDataStorage(GetDataStorage()); m_Controls->referenceNodeSelector->SetNodePredicate(m_ReferencePredicate); m_Controls->referenceNodeSelector->SetInvalidInfo("Select an image"); m_Controls->referenceNodeSelector->SetPopUpTitel("Select an image"); m_Controls->referenceNodeSelector->SetPopUpHint("Select an image that should be used to define the geometry and bounds of the segmentation."); m_Controls->workingNodeSelector->SetDataStorage(GetDataStorage()); m_Controls->workingNodeSelector->SetNodePredicate(m_SegmentationPredicate); m_Controls->workingNodeSelector->SetInvalidInfo("Select a segmentation"); m_Controls->workingNodeSelector->SetPopUpTitel("Select a segmentation"); m_Controls->workingNodeSelector->SetPopUpHint("Select a segmentation that should be modified. Only segmentation with the same geometry and within the bounds of the reference image are selected."); connect(m_Controls->referenceNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, - this, &QmitkSegmentationView::OnReferenceSelectionChanged); + this, &Self::OnReferenceSelectionChanged); connect(m_Controls->workingNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, - this, &QmitkSegmentationView::OnSegmentationSelectionChanged); + this, &Self::OnSegmentationSelectionChanged); // *------------------------ // * TOOLMANAGER // *------------------------ m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); m_ToolManager->SetDataStorage(*(this->GetDataStorage())); m_ToolManager->InitializeTools(); QString segTools2D = tr("Add Subtract Lasso Fill Erase Close Paint Wipe 'Region Growing' 'Live Wire'"); QString segTools3D = tr("Threshold 'UL Threshold' Otsu 'Region Growing 3D' Picking GrowCut TotalSegmentator"); #ifdef __linux__ segTools3D.append(" nnUNet"); // plugin not enabled for MacOS / Windows #endif std::regex extSegTool2DRegEx("SegTool2D$"); std::regex extSegTool3DRegEx("SegTool3D$"); auto tools = m_ToolManager->GetTools(); for (const auto &tool : tools) { if (std::regex_search(tool->GetNameOfClass(), extSegTool2DRegEx)) { segTools2D.append(QString(" '%1'").arg(tool->GetName())); } else if (std::regex_search(tool->GetNameOfClass(), extSegTool3DRegEx)) { segTools3D.append(QString(" '%1'").arg(tool->GetName())); } } // setup 2D tools m_Controls->toolSelectionBox2D->SetToolManager(*m_ToolManager); m_Controls->toolSelectionBox2D->SetGenerateAccelerators(true); m_Controls->toolSelectionBox2D->SetToolGUIArea(m_Controls->toolGUIArea2D); m_Controls->toolSelectionBox2D->SetDisplayedToolGroups(segTools2D.toStdString()); connect(m_Controls->toolSelectionBox2D, &QmitkToolSelectionBox::ToolSelected, - this, &QmitkSegmentationView::OnManualTool2DSelected); + this, &Self::OnManualTool2DSelected); // setup 3D Tools m_Controls->toolSelectionBox3D->SetToolManager(*m_ToolManager); m_Controls->toolSelectionBox3D->SetGenerateAccelerators(true); m_Controls->toolSelectionBox3D->SetToolGUIArea(m_Controls->toolGUIArea3D); m_Controls->toolSelectionBox3D->SetDisplayedToolGroups(segTools3D.toStdString()); m_Controls->slicesInterpolator->SetDataStorage(this->GetDataStorage()); // create general signal / slot connections - connect(m_Controls->newSegmentationButton, &QToolButton::clicked, this, &QmitkSegmentationView::OnNewSegmentation); + connect(m_Controls->newSegmentationButton, &QToolButton::clicked, this, &Self::OnNewSegmentation); - connect(m_Controls->slicesInterpolator, &QmitkSlicesInterpolator::SignalShowMarkerNodes, this, &QmitkSegmentationView::OnShowMarkerNodes); + connect(m_Controls->slicesInterpolator, &QmitkSlicesInterpolator::SignalShowMarkerNodes, this, &Self::OnShowMarkerNodes); - connect(m_Controls->multiLabelWidget, &QmitkMultiLabelManager::CurrentSelectionChanged, this, &QmitkSegmentationView::OnCurrentLabelSelectionChanged); - connect(m_Controls->multiLabelWidget, &QmitkMultiLabelManager::GoToLabel, this, &QmitkSegmentationView::OnGoToLabel); - connect(m_Controls->multiLabelWidget, &QmitkMultiLabelManager::LabelRenameRequested, this, &QmitkSegmentationView::OnLabelRenameRequested); + connect(m_Controls->multiLabelWidget, &QmitkMultiLabelManager::CurrentSelectionChanged, this, &Self::OnCurrentLabelSelectionChanged); + connect(m_Controls->multiLabelWidget, &QmitkMultiLabelManager::GoToLabel, this, &Self::OnGoToLabel); + connect(m_Controls->multiLabelWidget, &QmitkMultiLabelManager::LabelRenameRequested, this, &Self::OnLabelRenameRequested); - auto command = itk::SimpleMemberCommand::New(); - command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); + auto command = itk::SimpleMemberCommand::New(); + command->SetCallbackFunction(this, &Self::ValidateSelectionInput); m_RenderingManagerObserverTag = mitk::RenderingManager::GetInstance()->AddObserver(mitk::RenderingManagerViewsInitializedEvent(), command); m_RenderWindowPart = this->GetRenderWindowPart(); if (nullptr != m_RenderWindowPart) { this->RenderWindowPartActivated(m_RenderWindowPart); } // Make sure the GUI notices if appropriate data is already present on creation. // Should be done last, if everything else is configured because it triggers the autoselection of data. m_Controls->referenceNodeSelector->SetAutoSelectNewNodes(true); m_Controls->workingNodeSelector->SetAutoSelectNewNodes(true); this->UpdateGUI(); } void QmitkSegmentationView::ActiveToolChanged() { if (nullptr == m_RenderWindowPart) { return; } mitk::TimeGeometry* interactionReferenceGeometry = nullptr; auto activeTool = m_ToolManager->GetActiveTool(); if (nullptr != activeTool && m_ReferenceNode.IsNotNull()) { mitk::Image::ConstPointer referenceImage = dynamic_cast(m_ReferenceNode->GetData()); if (referenceImage.IsNotNull()) { // tool activated, reference image available: set reference geometry interactionReferenceGeometry = m_ReferenceNode->GetData()->GetTimeGeometry(); } } // set the interaction reference geometry for the render window part (might be nullptr) m_RenderWindowPart->SetInteractionReferenceGeometry(interactionReferenceGeometry); } void QmitkSegmentationView::RenderWindowPartActivated(mitk::IRenderWindowPart* renderWindowPart) { if (m_RenderWindowPart != renderWindowPart) { m_RenderWindowPart = renderWindowPart; } if (nullptr != m_Parent) { m_Parent->setEnabled(true); } if (nullptr == m_Controls) { return; } if (nullptr != m_RenderWindowPart) { auto all2DWindows = Get2DWindows(m_RenderWindowPart->GetQmitkRenderWindows().values()); m_Controls->slicesInterpolator->Initialize(m_ToolManager, all2DWindows); if (!m_RenderWindowPart->HasCoupledRenderWindows()) { // react if the active tool changed, only if a render window part with decoupled render windows is used m_ToolManager->ActiveToolChanged += - mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); + mitk::MessageDelegate(this, &Self::ActiveToolChanged); } } } void QmitkSegmentationView::RenderWindowPartDeactivated(mitk::IRenderWindowPart* /*renderWindowPart*/) { m_RenderWindowPart = nullptr; if (nullptr != m_Parent) { m_Parent->setEnabled(false); } // remove message-connection to make sure no message is processed if no render window part is available m_ToolManager->ActiveToolChanged -= - mitk::MessageDelegate(this, &QmitkSegmentationView::ActiveToolChanged); + mitk::MessageDelegate(this, &Self::ActiveToolChanged); m_Controls->slicesInterpolator->Uninitialize(); } void QmitkSegmentationView::RenderWindowPartInputChanged(mitk::IRenderWindowPart* /*renderWindowPart*/) { if (nullptr == m_RenderWindowPart) { return; } m_Controls->slicesInterpolator->Uninitialize(); auto all2DWindows = Get2DWindows(m_RenderWindowPart->GetQmitkRenderWindows().values()); m_Controls->slicesInterpolator->Initialize(m_ToolManager, all2DWindows); } void QmitkSegmentationView::OnPreferencesChanged(const mitk::IPreferences* prefs) { auto labelSuggestions = mitk::BaseApplication::instance().config().getString(mitk::BaseApplication::ARG_SEGMENTATION_LABEL_SUGGESTIONS.toStdString(), ""); m_DefaultLabelNaming = labelSuggestions.empty() ? prefs->GetBool("default label naming", true) : false; // No default label naming when label suggestions are enforced via command-line argument if (nullptr != m_Controls) { m_Controls->multiLabelWidget->SetDefaultLabelNaming(m_DefaultLabelNaming); bool compactView = prefs->GetBool("compact view", false); int numberOfColumns = compactView ? 6 : 4; m_Controls->toolSelectionBox2D->SetLayoutColumns(numberOfColumns); m_Controls->toolSelectionBox2D->SetShowNames(!compactView); m_Controls->toolSelectionBox3D->SetLayoutColumns(numberOfColumns); m_Controls->toolSelectionBox3D->SetShowNames(!compactView); } m_DrawOutline = prefs->GetBool("draw outline", true); m_SelectionMode = prefs->GetBool("selection mode", false); m_LabelSetPresetPreference = QString::fromStdString(prefs->Get("label set preset", "")); this->ApplyDisplayOptions(); this->ApplySelectionMode(); } void QmitkSegmentationView::NodeAdded(const mitk::DataNode* node) { if (m_SegmentationPredicate->CheckNode(node)) this->ApplyDisplayOptions(const_cast(node)); this->ApplySelectionMode(); } void QmitkSegmentationView::NodeRemoved(const mitk::DataNode* node) { if (!m_SegmentationPredicate->CheckNode(node)) { return; } // remove all possible contour markers of the segmentation mitk::DataStorage::SetOfObjects::ConstPointer allContourMarkers = this->GetDataStorage()->GetDerivations( node, mitk::NodePredicateProperty::New("isContourMarker", mitk::BoolProperty::New(true))); ctkPluginContext* context = mitk::PluginActivator::getContext(); ctkServiceReference ppmRef = context->getServiceReference(); mitk::PlanePositionManagerService* service = context->getService(ppmRef); for (mitk::DataStorage::SetOfObjects::ConstIterator it = allContourMarkers->Begin(); it != allContourMarkers->End(); ++it) { std::string nodeName = node->GetName(); unsigned int t = nodeName.find_last_of(" "); unsigned int id = atof(nodeName.substr(t + 1).c_str()) - 1; service->RemovePlanePosition(id); this->GetDataStorage()->Remove(it->Value()); } context->ungetService(ppmRef); service = nullptr; mitk::Image* image = dynamic_cast(node->GetData()); mitk::SurfaceInterpolationController::GetInstance()->RemoveInterpolationSession(image); } void QmitkSegmentationView::ApplyDisplayOptions() { if (nullptr == m_Parent) { return; } if (nullptr == m_Controls) { return; // might happen on initialization (preferences loaded) } mitk::DataStorage::SetOfObjects::ConstPointer allImages = this->GetDataStorage()->GetSubset(m_SegmentationPredicate); for (mitk::DataStorage::SetOfObjects::const_iterator iter = allImages->begin(); iter != allImages->end(); ++iter) { this->ApplyDisplayOptions(*iter); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::ApplyDisplayOptions(mitk::DataNode* node) { if (nullptr == node) { return; } auto labelSetImage = dynamic_cast(node->GetData()); if (nullptr == labelSetImage) { return; } // the outline property can be set in the segmentation preference page node->SetProperty("labelset.contour.active", mitk::BoolProperty::New(m_DrawOutline)); // force render window update to show outline mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSegmentationView::ApplySelectionMode() { if (!m_SelectionMode) return; this->ApplySelectionModeOnReferenceNode(); this->ApplySelectionModeOnWorkingNode(); } void QmitkSegmentationView::ApplySelectionModeOnReferenceNode() { this->ApplySelectionMode(m_ReferenceNode, m_ReferencePredicate); } void QmitkSegmentationView::ApplySelectionModeOnWorkingNode() { this->ApplySelectionMode(m_WorkingNode, m_SegmentationPredicate); } void QmitkSegmentationView::ApplySelectionMode(mitk::DataNode* node, mitk::NodePredicateBase* predicate) { if (!m_SelectionMode || node == nullptr || predicate == nullptr) return; auto nodes = this->GetDataStorage()->GetSubset(predicate); for (auto iter = nodes->begin(); iter != nodes->end(); ++iter) (*iter)->SetVisibility(*iter == node); } void QmitkSegmentationView::OnContourMarkerSelected(const mitk::DataNode* node) { QmitkRenderWindow* selectedRenderWindow = nullptr; auto* renderWindowPart = this->GetRenderWindowPart(mitk::WorkbenchUtil::OPEN); auto* axialRenderWindow = renderWindowPart->GetQmitkRenderWindow("axial"); auto* sagittalRenderWindow = renderWindowPart->GetQmitkRenderWindow("sagittal"); auto* coronalRenderWindow = renderWindowPart->GetQmitkRenderWindow("coronal"); auto* threeDRenderWindow = renderWindowPart->GetQmitkRenderWindow("3d"); bool PlanarFigureInitializedWindow = false; // find initialized renderwindow if (node->GetBoolProperty("PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, axialRenderWindow->GetRenderer())) { selectedRenderWindow = axialRenderWindow; } if (!selectedRenderWindow && node->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, sagittalRenderWindow->GetRenderer())) { selectedRenderWindow = sagittalRenderWindow; } if (!selectedRenderWindow && node->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, coronalRenderWindow->GetRenderer())) { selectedRenderWindow = coronalRenderWindow; } if (!selectedRenderWindow && node->GetBoolProperty( "PlanarFigureInitializedWindow", PlanarFigureInitializedWindow, threeDRenderWindow->GetRenderer())) { selectedRenderWindow = threeDRenderWindow; } // make node visible if (nullptr != selectedRenderWindow) { std::string nodeName = node->GetName(); unsigned int t = nodeName.find_last_of(" "); unsigned int id = atof(nodeName.substr(t + 1).c_str()) - 1; ctkPluginContext* context = mitk::PluginActivator::getContext(); ctkServiceReference ppmRef = context->getServiceReference(); mitk::PlanePositionManagerService* service = context->getService(ppmRef); selectedRenderWindow->GetSliceNavigationController()->ExecuteOperation(service->GetPlanePosition(id)); context->ungetService(ppmRef); selectedRenderWindow->GetRenderer()->GetCameraController()->Fit(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkSegmentationView::OnSelectionChanged(berry::IWorkbenchPart::Pointer /*part*/, const QList& nodes) { if (0 == nodes.size()) { return; } std::string markerName = "Position"; unsigned int numberOfNodes = nodes.size(); std::string nodeName = nodes.at(0)->GetName(); if ((numberOfNodes == 1) && (nodeName.find(markerName) == 0)) { this->OnContourMarkerSelected(nodes.at(0)); return; } } void QmitkSegmentationView::ResetMouseCursor() { if (m_MouseCursorSet) { mitk::ApplicationCursor::GetInstance()->PopCursor(); m_MouseCursorSet = false; } } void QmitkSegmentationView::SetMouseCursor(const us::ModuleResource& resource, int hotspotX, int hotspotY) { // Remove previously set mouse cursor if (m_MouseCursorSet) { this->ResetMouseCursor(); } if (resource) { us::ModuleResourceStream cursor(resource, std::ios::binary); mitk::ApplicationCursor::GetInstance()->PushCursor(cursor, hotspotX, hotspotY); m_MouseCursorSet = true; } } void QmitkSegmentationView::UpdateGUI() { mitk::DataNode* referenceNode = m_ToolManager->GetReferenceData(0); bool hasReferenceNode = referenceNode != nullptr; mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); bool hasWorkingNode = workingNode != nullptr; m_Controls->newSegmentationButton->setEnabled(false); if (hasReferenceNode) { m_Controls->newSegmentationButton->setEnabled(true); } if (hasWorkingNode && hasReferenceNode) { int layer = -1; referenceNode->GetIntProperty("layer", layer); workingNode->SetIntProperty("layer", layer + 1); } this->ValidateSelectionInput(); } void QmitkSegmentationView::ValidateSelectionInput() { auto referenceNode = m_Controls->referenceNodeSelector->GetSelectedNode(); auto workingNode = m_Controls->workingNodeSelector->GetSelectedNode(); bool hasReferenceNode = referenceNode.IsNotNull(); bool hasWorkingNode = workingNode.IsNotNull(); bool hasBothNodes = hasReferenceNode && hasWorkingNode; QString warning; bool toolSelectionBoxesEnabled = hasReferenceNode && hasWorkingNode; unsigned int numberOfLabels = 0; m_Controls->multiLabelWidget->setEnabled(hasWorkingNode); m_Controls->toolSelectionBox2D->setEnabled(hasBothNodes); m_Controls->toolSelectionBox3D->setEnabled(hasBothNodes); m_Controls->slicesInterpolator->setEnabled(false); m_Controls->interpolatorWarningLabel->hide(); if (hasReferenceNode) { if (nullptr != m_RenderWindowPart && m_RenderWindowPart->HasCoupledRenderWindows() && !referenceNode->IsVisible(nullptr)) { warning += tr("The selected reference image is currently not visible!"); toolSelectionBoxesEnabled = false; } } if (hasWorkingNode) { if (nullptr != m_RenderWindowPart && m_RenderWindowPart->HasCoupledRenderWindows() && !workingNode->IsVisible(nullptr)) { warning += (!warning.isEmpty() ? "
" : "") + tr("The selected segmentation is currently not visible!"); toolSelectionBoxesEnabled = false; } m_ToolManager->SetReferenceData(referenceNode); m_ToolManager->SetWorkingData(workingNode); m_Controls->multiLabelWidget->setEnabled(true); m_Controls->toolSelectionBox2D->setEnabled(true); m_Controls->toolSelectionBox3D->setEnabled(true); auto labelSetImage = dynamic_cast(workingNode->GetData()); - auto activeLayer = labelSetImage->GetActiveLayer(); - numberOfLabels = labelSetImage->GetNumberOfLabels(activeLayer); + numberOfLabels = labelSetImage->GetTotalNumberOfLabels(); if (numberOfLabels > 0) m_Controls->slicesInterpolator->setEnabled(true); m_Controls->multiLabelWidget->SetMultiLabelSegmentation(dynamic_cast(workingNode->GetData())); } else { m_Controls->multiLabelWidget->SetMultiLabelSegmentation(nullptr); } toolSelectionBoxesEnabled &= numberOfLabels > 0; // Here we need to check whether the geometry of the selected segmentation image (working image geometry) // is aligned with the geometry of the 3D render window. // It is not allowed to use a geometry different from the working image geometry for segmenting. // We only need to this if the tool selection box would be enabled without this check. // Additionally this check only has to be performed for render window parts with coupled render windows. // For different render window parts the user is given the option to reinitialize each render window individually // (see QmitkRenderWindow::ShowOverlayMessage). if (toolSelectionBoxesEnabled && nullptr != m_RenderWindowPart && m_RenderWindowPart->HasCoupledRenderWindows()) { const mitk::BaseGeometry* workingNodeGeometry = workingNode->GetData()->GetGeometry(); const mitk::BaseGeometry* renderWindowGeometry = m_RenderWindowPart->GetQmitkRenderWindow("3d")->GetSliceNavigationController()->GetCurrentGeometry3D(); if (nullptr != workingNodeGeometry && nullptr != renderWindowGeometry) { if (!mitk::Equal(*workingNodeGeometry->GetBoundingBox(), *renderWindowGeometry->GetBoundingBox(), mitk::eps, true)) { warning += (!warning.isEmpty() ? "
" : "") + tr("Please reinitialize the selected segmentation image!"); toolSelectionBoxesEnabled = false; } } } m_Controls->toolSelectionBox2D->setEnabled(toolSelectionBoxesEnabled); m_Controls->toolSelectionBox3D->setEnabled(toolSelectionBoxesEnabled); this->UpdateWarningLabel(warning); m_ToolManager->SetReferenceData(referenceNode); m_ToolManager->SetWorkingData(workingNode); } void QmitkSegmentationView::UpdateWarningLabel(QString text) { if (text.isEmpty()) { m_Controls->selectionWarningLabel->hide(); } else { m_Controls->selectionWarningLabel->setText("" + text + ""); m_Controls->selectionWarningLabel->show(); } } diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.h b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.h index 93d2058441..0d71e0274c 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.h +++ b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.h @@ -1,184 +1,175 @@ /*============================================================================ 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 QmitkSegmentationView_h #define QmitkSegmentationView_h #include "ui_QmitkSegmentationViewControls.h" #include #include /** * @brief The segmentation view provides a set of tool to use different segmentation algorithms. * It provides two selection widgets to load an image node and a segmentation node * on which to perform the segmentation. Creating new segmentation nodes is also possible. * The available segmentation tools are grouped into "2D"- and "3D"-tools. * * Most segmentation tools / algorithms need some kind of user interaction, where the * user is asked to draw something in the image display or set some seed points / start values. * The tools also often provide additional propeties so that a user can modify the * algorithm's behavior. * * This class additionally provides options to work with different layers (create new layers, * switch between layers). * Moreover, a multilabel widget displays all the existing labels of a multilabel segmentation * for the currently active layer. * The multilabel widget allows to control the labels by creatin new one, removing existing ones, * showing / hiding single labels, merging labels, (re-)naming them etc. * * Additionally the view provides an option to create "2D"- and "3D"-interpolations between * neighboring segmentation masks on unsegmented slices. * Interpolation for multilabel segmentations is currently not implemented. */ class QmitkSegmentationView : public QmitkAbstractView, public mitk::IRenderWindowPartListener { Q_OBJECT public: static const std::string VIEW_ID; QmitkSegmentationView(); ~QmitkSegmentationView() override; private Q_SLOTS: // reaction to the selection of a new reference image in the selection widget void OnReferenceSelectionChanged(QList nodes); // reaction to the selection of a new segmentation image in the selection widget void OnSegmentationSelectionChanged(QList nodes); // reaction to the shortcut ("CTRL+H") for toggling the visibility of the working node void OnVisibilityShortcutActivated(); // reaction to the shortcut ("CTRL+L") for iterating over all labels void OnLabelToggleShortcutActivated(); // reaction to the button "New segmentation" void OnNewSegmentation(); void OnManualTool2DSelected(int id); void OnShowMarkerNodes(bool); void OnCurrentLabelSelectionChanged(QmitkMultiLabelManager::LabelValueVectorType labels); void OnGoToLabel(mitk::LabelSetImage::LabelValueType label, const mitk::Point3D&); void OnLabelRenameRequested(mitk::Label* label, bool rename) const; + void OnLabelAdded(mitk::LabelSetImage::LabelValueType labelValue); + void OnLabelRemoved(mitk::LabelSetImage::LabelValueType labelValue); + void OnGroupRemoved(mitk::LabelSetImage::GroupIndexType groupIndex); + private: + using Self = QmitkSegmentationView; + + mitk::LabelSetImage* GetWorkingImage(); + void AddObserversToWorkingImage(); + void RemoveObserversFromWorkingImage(); + void CreateQtPartControl(QWidget* parent) override; void SetFocus() override {} /** * @brief Enable or disable the SegmentationInteractor. * * The active tool is retrieved from the tool manager. * If the active tool is valid, the SegmentationInteractor is enabled * to listen to 'SegmentationInteractionEvent's. */ void ActiveToolChanged(); - /** - * @brief Test whether the geometry of the reference image - * fits the world geometry of the respective renderer. - * - * The respective renderer is retrieved from the given event, which - * needs to be a 'SegmentationInteractionEvent'. - * This event provides not only the sending base renderer but also a - * bool that indicates whether the mouse cursor entered or left the - * base renderer. - * This information is used to compare the renderer's world geometry - * with the oriented time geometry of the current reference image. - * If the geometries align, the renderer is not blocked anymore and the - * view's warning message is removed. - * If the geometries do not align, 'ShowRenderWindowWarning' is called - * and a warning message is added to the top of this plugin view. - * - * @param event The observed mitk::SegmentationInteractionEvent. - */ - void ValidateRendererGeometry(const itk::EventObject& event); void RenderWindowPartActivated(mitk::IRenderWindowPart* renderWindowPart) override; void RenderWindowPartDeactivated(mitk::IRenderWindowPart* renderWindowPart) override; void RenderWindowPartInputChanged(mitk::IRenderWindowPart* renderWindowPart) override; void OnPreferencesChanged(const mitk::IPreferences* prefs) override; void NodeAdded(const mitk::DataNode* node) override; void NodeRemoved(const mitk::DataNode* node) override; void OnAnySelectionChanged(); // make sure all images / segmentations look according to the user preference settings void ApplyDisplayOptions(); // decorates a DataNode according to the user preference settings void ApplyDisplayOptions(mitk::DataNode* node); void ApplySelectionMode(); void ApplySelectionModeOnReferenceNode(); void ApplySelectionModeOnWorkingNode(); void ApplySelectionMode(mitk::DataNode* node, mitk::NodePredicateBase* predicate); // If a contourmarker is selected, the plane in the related widget will be reoriented according to the marker`s geometry void OnContourMarkerSelected(const mitk::DataNode* node); void OnSelectionChanged(berry::IWorkbenchPart::Pointer part, const QList &nodes) override; void ResetMouseCursor(); void SetMouseCursor(const us::ModuleResource&, int hotspotX, int hotspotY); void UpdateGUI(); void ValidateSelectionInput(); void UpdateWarningLabel(QString text); std::string GetDefaultLabelSetPreset() const; mitk::LabelSetImage* GetCurrentSegmentation() const; QWidget* m_Parent; Ui::QmitkSegmentationViewControls* m_Controls; mitk::IRenderWindowPart* m_RenderWindowPart; mitk::ToolManager* m_ToolManager; mitk::DataNode::Pointer m_ReferenceNode; mitk::DataNode::Pointer m_WorkingNode; typedef std::map NodeTagMapType; NodeTagMapType m_WorkingDataObserverTags; NodeTagMapType m_ReferenceDataObserverTags; unsigned int m_RenderingManagerObserverTag; mitk::NodePredicateAnd::Pointer m_ReferencePredicate; mitk::NodePredicateAnd::Pointer m_SegmentationPredicate; bool m_DrawOutline; bool m_SelectionMode; bool m_MouseCursorSet; QString m_LabelSetPresetPreference; bool m_DefaultLabelNaming; bool m_SelectionChangeIsAlreadyBeingHandled; }; #endif