diff --git a/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/DoseVisualizationPreferencePage.cpp b/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/DoseVisualizationPreferencePage.cpp index 9f1092ab0b..1c06fa010c 100644 --- a/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/DoseVisualizationPreferencePage.cpp +++ b/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/DoseVisualizationPreferencePage.cpp @@ -1,391 +1,391 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "DoseVisualizationPreferencePage.h" #include "mitkRTUIConstants.h" #include #include #include #include #include #include #include #include #include #include #include "mitkIsoLevelsGenerator.h" #include "org_mitk_gui_qt_dosevisualization_Activator.h" DoseVisualizationPreferencePage::DoseVisualizationPreferencePage() : m_MainControl(0), m_Controls(0), m_referenceDoseChanged(false), m_presetMapChanged(false), m_globalVisChanged(false) { } DoseVisualizationPreferencePage::~DoseVisualizationPreferencePage() { delete m_LevelSetModel; delete m_DoseColorDelegate; delete m_DoseValueDelegate; delete m_DoseVisualDelegate; delete m_Controls; } void DoseVisualizationPreferencePage::Init(berry::IWorkbench::Pointer ) { } void DoseVisualizationPreferencePage::CreateQtControl(QWidget* parent) { berry::IPreferencesService* prefService = berry::Platform::GetPreferencesService(); m_DoseVisNode = prefService->GetSystemPreferences()->Node(mitk::RTUIConstants::ROOT_DOSE_VIS_PREFERENCE_NODE_ID.c_str()); m_LevelSetModel = new QmitkIsoDoseLevelSetModel(this); m_DoseColorDelegate = new QmitkDoseColorDelegate(this); m_DoseValueDelegate = new QmitkDoseValueDelegate(this); m_DoseVisualDelegate = new QmitkDoseVisualStyleDelegate(this); m_MainControl = new QWidget(parent); m_Controls = new Ui::DoseVisualizationPreferencePageControls; m_Controls->setupUi( m_MainControl ); this->m_Controls->isoLevelSetView->setModel(m_LevelSetModel); this->m_Controls->isoLevelSetView->setItemDelegateForColumn(0,m_DoseColorDelegate); this->m_Controls->isoLevelSetView->setItemDelegateForColumn(1,m_DoseValueDelegate); this->m_Controls->isoLevelSetView->setItemDelegateForColumn(2,m_DoseVisualDelegate); this->m_Controls->isoLevelSetView->setItemDelegateForColumn(3,m_DoseVisualDelegate); this->m_Controls->isoLevelSetView->setContextMenuPolicy(Qt::CustomContextMenu); connect(m_Controls->spinReferenceDose, SIGNAL(valueChanged(double)), m_LevelSetModel, SLOT(setReferenceDose(double))); connect(m_Controls->spinReferenceDose, SIGNAL(valueChanged(double)), this, SLOT(OnReferenceDoseChanged(double))); connect(m_Controls->checkGlobalSync, SIGNAL(toggled(bool)), m_Controls->spinReferenceDose, SLOT(setEnabled(bool))); connect(m_Controls->radioAbsDose, SIGNAL(toggled(bool)), m_LevelSetModel, SLOT(setShowAbsoluteDose(bool))); connect(m_Controls->isoLevelSetView, SIGNAL(customContextMenuRequested(const QPoint&)), this, SLOT(OnShowContextMenuIsoSet(const QPoint&))); connect(m_Controls->listPresets, SIGNAL(currentItemChanged ( QListWidgetItem *, QListWidgetItem *)), this, SLOT(OnCurrentItemChanged ( QListWidgetItem *, QListWidgetItem *))); connect(m_Controls->btnAddPreset, SIGNAL(clicked(bool)), this, SLOT(OnAddPresetClicked(bool))); connect(m_Controls->btnDelPreset, SIGNAL(clicked(bool)), this, SLOT(OnDelPresetClicked(bool))); connect(m_Controls->btnResetPreset, SIGNAL(clicked(bool)), this, SLOT(OnResetPresetClicked(bool))); connect(m_Controls->btnDelLevel, SIGNAL(clicked(bool)), this, SLOT(OnDelLevelClicked(bool))); connect(m_Controls->btnAddLevel, SIGNAL(clicked(bool)), this, SLOT(OnAddLevelClicked(bool))); connect(m_Controls->checkGlobalVisColorWash, SIGNAL(toggled(bool)), this, SLOT(OnGlobalVisChanged(bool))); connect(m_Controls->checkGlobalVisIsoLine, SIGNAL(toggled(bool)), this, SLOT(OnGlobalVisChanged(bool))); this->Update(); } QWidget* DoseVisualizationPreferencePage::GetQtControl() const { return m_MainControl; } bool DoseVisualizationPreferencePage::PerformOk() { m_DoseVisNode->PutBool(mitk::RTUIConstants::DOSE_DISPLAY_ABSOLUTE_ID.c_str(),m_Controls->radioAbsDose->isChecked()); m_DoseVisNode->PutBool(mitk::RTUIConstants::GLOBAL_VISIBILITY_COLORWASH_ID.c_str(),m_Controls->checkGlobalVisColorWash->isChecked()); m_DoseVisNode->PutBool(mitk::RTUIConstants::GLOBAL_VISIBILITY_ISOLINES_ID.c_str(),m_Controls->checkGlobalVisIsoLine->isChecked()); m_DoseVisNode->PutDouble(mitk::RTUIConstants::REFERENCE_DOSE_ID.c_str(),m_Controls->spinReferenceDose->value()); m_DoseVisNode->PutBool(mitk::RTUIConstants::GLOBAL_REFERENCE_DOSE_SYNC_ID.c_str(), m_Controls->checkGlobalSync->isChecked()); mitk::StorePresetsMap(this->m_Presets); if (this->m_Presets.find(this->m_selectedPresetName)==this->m_Presets.end()) { //the preset currently selected in the application is not available any more. Change it to a valid one. mitk::SetSelectedPresetName(this->m_Presets.begin()->first); } if (this->m_LevelSetModel->isModified()) { this->m_presetMapChanged = true; } if (m_referenceDoseChanged) { mitk::SignalReferenceDoseChange(m_Controls->checkGlobalSync->isChecked(), m_Controls->spinReferenceDose->value(), mitk::org_mitk_gui_qt_dosevisualization_Activator::GetContext()); } if (m_presetMapChanged) { mitk::SignalPresetMapChange(mitk::org_mitk_gui_qt_dosevisualization_Activator::GetContext()); } if(m_globalVisChanged) { mitk::SignalGlobalVisChange(m_Controls->checkGlobalSync->isChecked(), m_Controls->checkGlobalVisIsoLine->isChecked(), m_Controls->checkGlobalVisColorWash->isChecked(), mitk::org_mitk_gui_qt_dosevisualization_Activator::GetContext()); } return true; } void DoseVisualizationPreferencePage::PerformCancel() { } void DoseVisualizationPreferencePage::Update() { m_Controls->checkGlobalVisColorWash->setChecked(m_DoseVisNode->GetBool(mitk::RTUIConstants::GLOBAL_VISIBILITY_COLORWASH_ID.c_str(), true)); m_Controls->checkGlobalVisIsoLine->setChecked(m_DoseVisNode->GetBool(mitk::RTUIConstants::GLOBAL_VISIBILITY_ISOLINES_ID.c_str(), true)); m_Controls->radioAbsDose->setChecked(m_DoseVisNode->GetBool(mitk::RTUIConstants::DOSE_DISPLAY_ABSOLUTE_ID.c_str(), true)); m_Controls->radioRelDose->setChecked(!(m_DoseVisNode->GetBool(mitk::RTUIConstants::DOSE_DISPLAY_ABSOLUTE_ID.c_str(), false))); m_Controls->spinReferenceDose->setValue(m_DoseVisNode->GetDouble(mitk::RTUIConstants::REFERENCE_DOSE_ID.c_str(), mitk::RTUIConstants::DEFAULT_REFERENCE_DOSE_VALUE)); m_Controls->checkGlobalSync->setChecked(m_DoseVisNode->GetBool(mitk::RTUIConstants::GLOBAL_REFERENCE_DOSE_SYNC_ID.c_str(), true)); m_referenceDoseChanged = false; m_presetMapChanged = false; m_globalVisChanged = false; this->m_Presets = mitk::LoadPresetsMap(); if(m_Presets.empty()) return; this->m_selectedPresetName = mitk::GetSelectedPresetName(); UpdatePresetsWidgets(); } mitk::IsoDoseLevelSet* DoseVisualizationPreferencePage::GetSelectedIsoLevelSet() { QListWidgetItem* selectedItem = m_Controls->listPresets->currentItem(); mitk::IsoDoseLevelSet::Pointer result; if (selectedItem) { result = m_Presets[selectedItem->text().toStdString()]; } return result; } void DoseVisualizationPreferencePage::UpdateLevelSetWidgets() { this->m_Controls->btnAddLevel->setEnabled(this->GetSelectedIsoLevelSet()!=nullptr); QModelIndex selectedIndex = m_Controls->isoLevelSetView->currentIndex(); this->m_Controls->btnDelLevel->setEnabled(this->GetSelectedIsoLevelSet()!=nullptr && selectedIndex.isValid()); } void DoseVisualizationPreferencePage::UpdatePresetsWidgets() { m_Controls->listPresets->clear(); QListWidgetItem* selectedItem = nullptr; for (PresetMapType::iterator pos = m_Presets.begin(); pos != m_Presets.end(); ++pos) { QListWidgetItem* item = new QListWidgetItem(QString::fromStdString(pos->first)); if (!selectedItem) { selectedItem = item; } m_Controls->listPresets->addItem(item); } if (selectedItem) { m_Controls->listPresets->setCurrentItem(selectedItem); } if (this->m_LevelSetModel->isModified()) { this->m_presetMapChanged = true; } this->m_LevelSetModel->setIsoDoseLevelSet(this->GetSelectedIsoLevelSet()); m_Controls->btnDelPreset->setEnabled((m_Controls->listPresets->currentItem() != nullptr) && (m_Controls->listPresets->count()>1)); } -void DoseVisualizationPreferencePage::OnCurrentItemChanged ( QListWidgetItem * currentItem, QListWidgetItem * previousItem) +void DoseVisualizationPreferencePage::OnCurrentItemChanged (QListWidgetItem*, QListWidgetItem*) { this->m_LevelSetModel->setIsoDoseLevelSet(this->GetSelectedIsoLevelSet()); } void DoseVisualizationPreferencePage::OnShowContextMenuIsoSet(const QPoint& pos) { QPoint globalPos = m_Controls->isoLevelSetView->viewport()->mapToGlobal(pos); QModelIndex selectedIndex = m_Controls->isoLevelSetView->currentIndex(); QMenu viewMenu; QAction* addLevelAct = viewMenu.addAction("Add new level"); QAction* delLevelAct = viewMenu.addAction("Delete selected level"); delLevelAct->setEnabled(selectedIndex.isValid()); viewMenu.addSeparator(); QAction* invertIsoLineAct = viewMenu.addAction("Invert iso line visibility"); QAction* activateIsoLineAct = viewMenu.addAction("Activate all iso lines"); QAction* deactivateIsoLineAct = viewMenu.addAction("Deactivate all iso lines"); viewMenu.addSeparator(); QAction* invertColorWashAct = viewMenu.addAction("Invert color wash visibility"); QAction* activateColorWashAct = viewMenu.addAction("Activate all color wash levels"); QAction* deactivateColorWashAct = viewMenu.addAction("Deactivate all color wash levels"); viewMenu.addSeparator(); QAction* swapAct = viewMenu.addAction("Swap iso line/color wash visibility"); QAction* selectedItem = viewMenu.exec(globalPos); if (selectedItem == invertIsoLineAct) { this->m_LevelSetModel->invertVisibilityIsoLines(); } else if (selectedItem == activateIsoLineAct) { this->m_LevelSetModel->switchVisibilityIsoLines(true); } else if (selectedItem == deactivateIsoLineAct) { this->m_LevelSetModel->switchVisibilityIsoLines(false); } else if (selectedItem == invertColorWashAct) { this->m_LevelSetModel->invertVisibilityColorWash(); } else if (selectedItem == activateColorWashAct) { this->m_LevelSetModel->switchVisibilityColorWash(true); } else if (selectedItem == deactivateColorWashAct) { this->m_LevelSetModel->switchVisibilityColorWash(false); } else if (selectedItem == swapAct) { this->m_LevelSetModel->swapVisibility(); } else if (selectedItem == addLevelAct) { this->m_LevelSetModel->addLevel(); } else if (selectedItem == delLevelAct) { this->m_LevelSetModel->deleteLevel(selectedIndex); } } -void DoseVisualizationPreferencePage::OnAddPresetClicked(bool checked) +void DoseVisualizationPreferencePage::OnAddPresetClicked(bool) { bool done = false; QString name = tr("new_preset"); while (!done) { bool ok; name = QInputDialog::getText(m_MainControl, tr("Define name of new preset."), tr("Preset name:"), QLineEdit::Normal, name, &ok); if (!ok) { return; //cancled by user; } bool uniqueName = m_Presets.find(name.toStdString()) == m_Presets.end(); if (!uniqueName) { QMessageBox box; box.setText(tr("New preset name is not unique. Please, choose another one.")); box.exec(); } bool validName = name.indexOf(tr("/")) ==-1; if (!validName) { QMessageBox box; box.setText(tr("New preset name is not valid. Please don't use \"/\".")); box.exec(); } done = uniqueName && validName; } mitk::IsoDoseLevelSet::Pointer newSet = mitk::GeneratIsoLevels_Virtuos(); m_Presets.insert(std::make_pair(name.toStdString(),newSet)); m_presetMapChanged = true; UpdatePresetsWidgets(); } -void DoseVisualizationPreferencePage::OnDelPresetClicked(bool checked) +void DoseVisualizationPreferencePage::OnDelPresetClicked(bool) { QListWidgetItem* selectedItem = m_Controls->listPresets->currentItem(); if (selectedItem) { if (m_Controls->listPresets->count() > 1) { m_Presets.erase(selectedItem->text().toStdString()); m_presetMapChanged = true; this->UpdatePresetsWidgets(); } } } -void DoseVisualizationPreferencePage::OnResetPresetClicked(bool checked) +void DoseVisualizationPreferencePage::OnResetPresetClicked(bool) { QMessageBox box; box.setText("Do you want to reset the presets?"); box.setInformativeText("If you reset the presets. All user defined presets will be removed and the default presets will be loaded."); box.setStandardButtons(QMessageBox::Yes | QMessageBox::No); box.setDefaultButton(QMessageBox::No); int ret = box.exec(); if (ret == QMessageBox::Yes) { mitk::IsoDoseLevelSet::Pointer newSet = mitk::GeneratIsoLevels_Virtuos(); m_Presets.clear(); m_Presets.insert(std::make_pair("Virtuos",newSet)); m_presetMapChanged = true; UpdatePresetsWidgets(); } } -void DoseVisualizationPreferencePage::OnAddLevelClicked(bool checked) +void DoseVisualizationPreferencePage::OnAddLevelClicked(bool) { this->m_LevelSetModel->addLevel(); } -void DoseVisualizationPreferencePage::OnDelLevelClicked(bool checked) +void DoseVisualizationPreferencePage::OnDelLevelClicked(bool) { QModelIndex selectedIndex = m_Controls->isoLevelSetView->currentIndex(); if (!selectedIndex.isValid()) { selectedIndex = m_Controls->isoLevelSetView->indexAt(QPoint(1,1)); } this->m_LevelSetModel->deleteLevel(selectedIndex); } -void DoseVisualizationPreferencePage::OnReferenceDoseChanged(double dose) +void DoseVisualizationPreferencePage::OnReferenceDoseChanged(double) { this->m_referenceDoseChanged = true; } -void DoseVisualizationPreferencePage::OnGlobalVisChanged(bool vis) +void DoseVisualizationPreferencePage::OnGlobalVisChanged(bool) { this->m_globalVisChanged = true; } diff --git a/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/RTDoseVisualizer.cpp b/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/RTDoseVisualizer.cpp index e4e94787de..4570726c07 100644 --- a/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/RTDoseVisualizer.cpp +++ b/Plugins/org.mitk.gui.qt.dosevisualization/src/internal/RTDoseVisualizer.cpp @@ -1,750 +1,748 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ // Qt #include #include // Blueberry #include #include // MITK #include #include #include #include // Qmitk #include "RTDoseVisualizer.h" #include #include #include #include #include #include #include #include #include #include #include "org_mitk_gui_qt_dosevisualization_Activator.h" #include #include #include #include "QmitkRenderWindow.h" #include "vtkDecimatePro.h" const std::string RTDoseVisualizer::VIEW_ID = "org.mitk.views.rt.dosevisualization"; RTDoseVisualizer::RTDoseVisualizer() { m_selectedNode = nullptr; m_selectedPresetName = ""; m_internalUpdate = false; m_PrescribedDose_Data = 0.0; m_freeIsoValuesCount = 0; } RTDoseVisualizer::~RTDoseVisualizer() { delete m_LevelSetModel; delete m_DoseColorDelegate; delete m_DoseValueDelegate; delete m_DoseVisualDelegate; } void RTDoseVisualizer::SetFocus(){} void RTDoseVisualizer::CreateQtPartControl( QWidget *parent ) { // create GUI widgets from the Qt Designer's .ui file m_Controls.setupUi( parent ); m_LevelSetModel = new QmitkIsoDoseLevelSetModel(this); m_LevelSetModel->setVisibilityEditOnly(true); m_DoseColorDelegate = new QmitkDoseColorDelegate(this); m_DoseValueDelegate = new QmitkDoseValueDelegate(this); m_DoseVisualDelegate = new QmitkDoseVisualStyleDelegate(this); this->UpdateByPreferences(); this->ActualizeIsoLevelsForAllDoseDataNodes(); this->ActualizeReferenceDoseForAllDoseDataNodes(); this->ActualizeDisplayStyleForAllDoseDataNodes(); this->m_Controls.isoLevelSetView->setModel(m_LevelSetModel); this->m_Controls.isoLevelSetView->setItemDelegateForColumn(0,m_DoseColorDelegate); this->m_Controls.isoLevelSetView->setItemDelegateForColumn(1,m_DoseValueDelegate); this->m_Controls.isoLevelSetView->setItemDelegateForColumn(2,m_DoseVisualDelegate); this->m_Controls.isoLevelSetView->setItemDelegateForColumn(3,m_DoseVisualDelegate); this->m_Controls.isoLevelSetView->setContextMenuPolicy(Qt::CustomContextMenu); this->m_Controls.btnRemoveFreeValue->setDisabled(true); this->m_Controls.doseBtn->setVisible(false); connect(m_Controls.spinReferenceDose, SIGNAL(valueChanged(double)), this, SLOT(OnReferenceDoseChanged(double))); connect(m_Controls.spinReferenceDose, SIGNAL(valueChanged(double)), m_LevelSetModel, SLOT(setReferenceDose(double))); connect(m_Controls.radioAbsDose, SIGNAL(toggled(bool)), m_LevelSetModel, SLOT(setShowAbsoluteDose(bool))); connect(m_Controls.radioAbsDose, SIGNAL(toggled(bool)), this, SLOT(OnAbsDoseToggled(bool))); connect(m_Controls.btnAddFreeValue, SIGNAL(clicked()), this, SLOT(OnAddFreeValueClicked())); connect(m_Controls.btnRemoveFreeValue, SIGNAL(clicked()), this, SLOT(OnRemoveFreeValueClicked())); connect(m_Controls.checkGlobalVisColorWash, SIGNAL(toggled(bool)), this, SLOT(OnGlobalVisColorWashToggled(bool))); connect(m_Controls.checkGlobalVisIsoLine, SIGNAL(toggled(bool)), this, SLOT(OnGlobalVisIsoLineToggled(bool))); connect(m_Controls.isoLevelSetView, SIGNAL(customContextMenuRequested(const QPoint&)), this, SLOT(OnShowContextMenuIsoSet(const QPoint&))); connect(m_Controls.comboPresets, SIGNAL(currentIndexChanged ( const QString&)), this, SLOT(OnCurrentPresetChanged(const QString&))); connect(m_Controls.btnUsePrescribedDose, SIGNAL(clicked()), this, SLOT(OnUsePrescribedDoseClicked())); connect(m_Controls.isoLevelSetView->model(), SIGNAL( modelReset()), this, SLOT(OnDataChangedInIsoLevelSetView())); connect(m_Controls.doseBtn, SIGNAL(clicked()), this, SLOT(OnDoseClicked())); ctkServiceReference ref = mitk::org_mitk_gui_qt_dosevisualization_Activator::GetContext()->getServiceReference(); ctkDictionary propsForSlot; if (ref) { ctkEventAdmin* eventAdmin = mitk::org_mitk_gui_qt_dosevisualization_Activator::GetContext()->getService(ref); propsForSlot[ctkEventConstants::EVENT_TOPIC] = mitk::RTCTKEventConstants::TOPIC_ISO_DOSE_LEVEL_PRESETS_CHANGED.c_str(); eventAdmin->subscribeSlot(this, SLOT(OnHandleCTKEventPresetsChanged(ctkEvent)), propsForSlot); propsForSlot[ctkEventConstants::EVENT_TOPIC] = mitk::RTCTKEventConstants::TOPIC_REFERENCE_DOSE_CHANGED.c_str(); eventAdmin->subscribeSlot(this, SLOT(OnHandleCTKEventReferenceDoseChanged(ctkEvent)), propsForSlot); propsForSlot[ctkEventConstants::EVENT_TOPIC] = mitk::RTCTKEventConstants::TOPIC_GLOBAL_VISIBILITY_CHANGED.c_str(); eventAdmin->subscribeSlot(this, SLOT(OnHandleCTKEventGlobalVisChanged(ctkEvent)), propsForSlot); } this->UpdateBySelectedNode(); } void RTDoseVisualizer::OnReferenceDoseChanged(double value) { if (! m_internalUpdate) { mitk::DoseValueAbs referenceDose = 0.0; bool globalSync = mitk::GetReferenceDoseValue(referenceDose); if (globalSync) { mitk::SetReferenceDoseValue(globalSync, value); this->ActualizeReferenceDoseForAllDoseDataNodes(); } else { if (this->m_selectedNode.IsNotNull()) { this->m_selectedNode->SetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(), value); mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode.IsNotNull()) isoDoseNode->SetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(), value); } } if (this->m_selectedNode.IsNotNull()) { this->UpdateColorWashTransferFunction(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } } void RTDoseVisualizer::OnAddFreeValueClicked() { QColor newColor; //Use HSV schema of QColor to calculate a different color depending on the //number of already existing free iso lines. newColor.setHsv((m_freeIsoValuesCount*85)%360,255,255); mitk::IsoDoseLevel::ColorType mColor; mColor[0]=newColor.redF(); mColor[1]=newColor.greenF(); mColor[2]=newColor.blueF(); mitk::IsoDoseLevelVector::Pointer freeIsoDoseVector; mitk::IsoDoseLevelVectorProperty::Pointer propIsoVector; mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode.IsNotNull()) { propIsoVector = dynamic_cast(isoDoseNode->GetProperty(mitk::RTConstants::DOSE_FREE_ISO_VALUES_PROPERTY_NAME.c_str())); freeIsoDoseVector = propIsoVector->GetValue(); if (freeIsoDoseVector.IsNull()) mitk::IsoDoseLevelVector::Pointer freeIsoDoseVector = mitk::IsoDoseLevelVector::New(); mitk::IsoDoseLevel::Pointer newLevel = mitk::IsoDoseLevel::New(0.5, mColor, true, false); freeIsoDoseVector->InsertElement(m_freeIsoValuesCount, newLevel); propIsoVector = mitk::IsoDoseLevelVectorProperty::New(freeIsoDoseVector); isoDoseNode->SetProperty(mitk::RTConstants::DOSE_FREE_ISO_VALUES_PROPERTY_NAME.c_str(), propIsoVector); m_freeIsoValuesCount++; this->m_Controls.btnRemoveFreeValue->setEnabled(true); //Update Widget this->UpdateFreeIsoValues(); //Update Rendering this->ActualizeFreeIsoLine(); } } void RTDoseVisualizer::OnRemoveFreeValueClicked() { int index = this->m_Controls.listFreeValues->currentRow(); - if (index > m_freeIsoValuesCount || index < 0) + if (index > static_cast(m_freeIsoValuesCount) || index < 0) return; mitk::IsoDoseLevelVectorProperty::Pointer propfreeIsoVec; mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); propfreeIsoVec = dynamic_cast(isoDoseNode->GetProperty(mitk::RTConstants::DOSE_FREE_ISO_VALUES_PROPERTY_NAME.c_str())); mitk::IsoDoseLevelVector::Pointer freeIsoDoseLevelVec = propfreeIsoVec->GetValue(); if(freeIsoDoseLevelVec->IndexExists(index)) { //freeIsoDoseLevelVec->DeleteIndex(index); freeIsoDoseLevelVec->erase(freeIsoDoseLevelVec->begin()+index); --m_freeIsoValuesCount; if(m_freeIsoValuesCount == 0) this->m_Controls.btnRemoveFreeValue->setEnabled(true); this->UpdateFreeIsoValues(); this->ActualizeFreeIsoLine(); } } void RTDoseVisualizer::OnUsePrescribedDoseClicked() { m_Controls.spinReferenceDose->setValue(this->m_PrescribedDose_Data); } void RTDoseVisualizer::OnDoseClicked() { auto nodes = this->GetDataManagerSelection(); for (auto node : nodes) { mitk::ConfigureNodeAsDoseNode(node, 50); node->Modified(); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void RTDoseVisualizer::OnDataChangedInIsoLevelSetView() { //colorwash visibility changed, update the colorwash this->UpdateColorWashTransferFunction(); if(m_selectedNode.IsNotNull()) { //Hack: This is a dirty hack to reinit the isodose contour node. Only if the node (or property) has changed the rendering process register the RequestUpdateAll //Only way to render the isoline by changes without a global reinit mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode.IsNotNull()) isoDoseNode->Modified(); // Reinit if visibility of colorwash or isodoselevel changed mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void RTDoseVisualizer::OnShowContextMenuIsoSet(const QPoint& pos) { QPoint globalPos = m_Controls.isoLevelSetView->viewport()->mapToGlobal(pos); QMenu viewMenu; QAction* invertIsoLineAct = viewMenu.addAction("Invert iso line visibility"); QAction* activateIsoLineAct = viewMenu.addAction("Activate all iso lines"); QAction* deactivateIsoLineAct = viewMenu.addAction("Deactivate all iso lines"); viewMenu.addSeparator(); QAction* invertColorWashAct = viewMenu.addAction("Invert color wash visibility"); QAction* activateColorWashAct = viewMenu.addAction("Activate all color wash levels"); QAction* deactivateColorWashAct = viewMenu.addAction("Deactivate all color wash levels"); viewMenu.addSeparator(); QAction* swapAct = viewMenu.addAction("Swap iso line/color wash visibility"); // ... QAction* selectedItem = viewMenu.exec(globalPos); if (selectedItem == invertIsoLineAct) { this->m_LevelSetModel->invertVisibilityIsoLines(); } else if (selectedItem == activateIsoLineAct) { this->m_LevelSetModel->switchVisibilityIsoLines(true); } else if (selectedItem == deactivateIsoLineAct) { this->m_LevelSetModel->switchVisibilityIsoLines(false); } else if (selectedItem == invertColorWashAct) { this->m_LevelSetModel->invertVisibilityColorWash(); } else if (selectedItem == activateColorWashAct) { this->m_LevelSetModel->switchVisibilityColorWash(true); } else if (selectedItem == deactivateColorWashAct) { this->m_LevelSetModel->switchVisibilityColorWash(false); } else if (selectedItem == swapAct) { this->m_LevelSetModel->swapVisibility(); } } void RTDoseVisualizer::UpdateFreeIsoValues() { this->m_Controls.listFreeValues->clear(); mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode.IsNotNull()) { mitk::IsoDoseLevelVectorProperty::Pointer propfreeIsoVec; propfreeIsoVec = dynamic_cast(isoDoseNode->GetProperty(mitk::RTConstants::DOSE_FREE_ISO_VALUES_PROPERTY_NAME.c_str())); mitk::IsoDoseLevelVector::Pointer freeIsoDoseLevelVec = propfreeIsoVec->GetValue(); for (mitk::IsoDoseLevelVector::Iterator pos = freeIsoDoseLevelVec->Begin(); pos != freeIsoDoseLevelVec->End(); ++pos) { QListWidgetItem* item = new QListWidgetItem; item->setSizeHint(QSize(0, 25)); QmitkFreeIsoDoseLevelWidget* widget = new QmitkFreeIsoDoseLevelWidget; float pref; m_selectedNode->GetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(), pref); widget->setIsoDoseLevel(pos.Value()); widget->setReferenceDose(pref); connect(m_Controls.spinReferenceDose, SIGNAL(valueChanged(double)), widget, SLOT(setReferenceDose(double))); connect(widget, SIGNAL(ColorChanged(mitk::IsoDoseLevel*)), this, SLOT(ActualizeFreeIsoLine())); connect(widget, SIGNAL(ValueChanged(mitk::IsoDoseLevel*, mitk::DoseValueRel)), this, SLOT(ActualizeFreeIsoLine())); connect(widget, SIGNAL(VisualizationStyleChanged(mitk::IsoDoseLevel*)), this, SLOT(ActualizeFreeIsoLine())); this->m_Controls.listFreeValues->addItem(item); this->m_Controls.listFreeValues->setItemWidget(item, widget); } } } void RTDoseVisualizer::ActualizeFreeIsoLine() { if(m_selectedNode.IsNotNull()) { //Hack: This is a dirty hack to reinit the isodose contour node. Only if the node (or property) has changed the rendering process register the RequestUpdateAll //Only way to render the isoline by changes without a global reinit mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode.IsNotNull()) isoDoseNode->Modified(); // Reinit if visibility of colorwash or isodoselevel changed mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void RTDoseVisualizer::OnAbsDoseToggled(bool showAbs) { if (! m_internalUpdate) { mitk::SetDoseDisplayAbsolute(showAbs); this->ActualizeDisplayStyleForAllDoseDataNodes(); } } void RTDoseVisualizer::OnGlobalVisColorWashToggled(bool showColorWash) { if (m_selectedNode.IsNotNull()) { m_selectedNode->SetBoolProperty(mitk::RTConstants::DOSE_SHOW_COLORWASH_PROPERTY_NAME.c_str(), showColorWash); //The rendering mode could be set in the dose mapper: Refactoring! mitk::RenderingModeProperty::Pointer renderingMode = mitk::RenderingModeProperty::New(); if(showColorWash) renderingMode->SetValue(mitk::RenderingModeProperty::COLORTRANSFERFUNCTION_COLOR); else renderingMode->SetValue(mitk::RenderingModeProperty::LOOKUPTABLE_LEVELWINDOW_COLOR); m_selectedNode->SetProperty("Image Rendering.Mode", renderingMode); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void RTDoseVisualizer::OnGlobalVisIsoLineToggled(bool showIsoLines) { if (m_selectedNode.IsNotNull()) { mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode.IsNotNull()) { isoDoseNode->SetBoolProperty(mitk::RTConstants::DOSE_SHOW_ISOLINES_PROPERTY_NAME.c_str(), showIsoLines); //toggle the visibility of the free isolevel sliders this->m_Controls.listFreeValues->setEnabled(showIsoLines); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } } void RTDoseVisualizer::UpdateColorWashTransferFunction() { //Generating the Colorwash vtkSmartPointer transferFunction = vtkSmartPointer::New(); if(m_selectedNode.IsNotNull()) { mitk::IsoDoseLevelSetProperty::Pointer propIsoSet = dynamic_cast(m_selectedNode->GetProperty(mitk::RTConstants::DOSE_ISO_LEVELS_PROPERTY_NAME.c_str())); mitk::IsoDoseLevelSet::Pointer isoDoseLevelSet = propIsoSet->GetValue(); float referenceDose; m_selectedNode->GetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(),referenceDose); mitk::TransferFunction::ControlPoints scalarOpacityPoints; scalarOpacityPoints.push_back( std::make_pair(0, 1 ) ); //Backgroud transferFunction->AddHSVPoint(((isoDoseLevelSet->Begin())->GetDoseValue()*referenceDose)-0.001,0,0,0,1.0,1.0); for(mitk::IsoDoseLevelSet::ConstIterator itIsoDoseLevel = isoDoseLevelSet->Begin(); itIsoDoseLevel != isoDoseLevelSet->End(); ++itIsoDoseLevel) { float *hsv = new float[3]; //used for transfer rgb to hsv vtkSmartPointer cCalc = vtkSmartPointer::New(); if(itIsoDoseLevel->GetVisibleColorWash()) { cCalc->RGBToHSV(itIsoDoseLevel->GetColor()[0],itIsoDoseLevel->GetColor()[1],itIsoDoseLevel->GetColor()[2],&hsv[0],&hsv[1],&hsv[2]); transferFunction->AddHSVPoint(itIsoDoseLevel->GetDoseValue()*referenceDose,hsv[0],hsv[1],hsv[2],1.0,1.0); } else { scalarOpacityPoints.push_back( std::make_pair(itIsoDoseLevel->GetDoseValue()*referenceDose, 1 ) ); } } mitk::TransferFunction::Pointer mitkTransFunc = mitk::TransferFunction::New(); mitk::TransferFunctionProperty::Pointer mitkTransFuncProp = mitk::TransferFunctionProperty::New(); mitkTransFunc->SetColorTransferFunction(transferFunction); mitkTransFunc->SetScalarOpacityPoints(scalarOpacityPoints); mitkTransFuncProp->SetValue(mitkTransFunc); m_selectedNode->SetProperty("Image Rendering.Transfer Function", mitkTransFuncProp); } } -void RTDoseVisualizer::OnSelectionChanged( berry::IWorkbenchPart::Pointer /*source*/, - const QList& nodes ) +void RTDoseVisualizer::OnSelectionChanged( berry::IWorkbenchPart::Pointer, + const QList&) { QList dataNodes = this->GetDataManagerSelection(); mitk::DataNode* selectedNode = nullptr; if (!dataNodes.empty()) { bool isDoseNode = ModalityIsRTDose(dataNodes[0].GetPointer()); if (isDoseNode) { selectedNode = dataNodes[0]; } } if (selectedNode != m_selectedNode.GetPointer()) { m_selectedNode = selectedNode; } UpdateBySelectedNode(); } void RTDoseVisualizer::UpdateBySelectedNode() { m_Controls.groupNodeSpecific->setEnabled(m_selectedNode.IsNotNull()); m_Controls.groupFreeValues->setEnabled(m_selectedNode.IsNotNull()); m_Controls.checkGlobalVisColorWash->setEnabled(m_selectedNode.IsNotNull()); m_Controls.checkGlobalVisIsoLine->setEnabled(m_selectedNode.IsNotNull()); m_Controls.isoLevelSetView->setEnabled(m_selectedNode.IsNotNull()); if(m_selectedNode.IsNull()) { m_Controls.NrOfFractions->setText(QString("N/A. No dose selected")); m_Controls.prescribedDoseSpecific->setText(QString("N/A. No dose selected")); } else { //dose specific information int fracCount = 1; m_selectedNode->GetIntProperty(mitk::RTConstants::DOSE_FRACTION_COUNT_PROPERTY_NAME.c_str(), fracCount); m_Controls.NrOfFractions->setText(QString::number(fracCount)); m_PrescribedDose_Data = 0.0; auto prescibedDoseProperty = m_selectedNode->GetData()->GetProperty(mitk::RTConstants::PRESCRIBED_DOSE_PROPERTY_NAME.c_str()); auto prescribedDoseGenericProperty = dynamic_cast*>(prescibedDoseProperty.GetPointer()); m_PrescribedDose_Data = prescribedDoseGenericProperty->GetValue(); m_Controls.prescribedDoseSpecific->setText(QString::number(m_PrescribedDose_Data)); //free iso lines mitk::DataNode::Pointer isoDoseNode = this->GetIsoDoseNode(m_selectedNode); if (isoDoseNode) { mitk::IsoDoseLevelVectorProperty::Pointer propIsoVector; propIsoVector = dynamic_cast(isoDoseNode->GetProperty(mitk::RTConstants::DOSE_FREE_ISO_VALUES_PROPERTY_NAME.c_str())); if (propIsoVector.IsNull()) { mitk::IsoDoseLevelVector::Pointer freeIsoValues = mitk::IsoDoseLevelVector::New(); propIsoVector = mitk::IsoDoseLevelVectorProperty::New(freeIsoValues); isoDoseNode->SetProperty(mitk::RTConstants::DOSE_FREE_ISO_VALUES_PROPERTY_NAME.c_str(), propIsoVector); } UpdateFreeIsoValues(); //global dose issues //ATM the IsoDoseContours have an own (helper) node which is a child of dose node; Will be fixed with the doseMapper refactoring bool showIsoLine = mitk::GetGlobalIsolineVis(); isoDoseNode->GetBoolProperty(mitk::RTConstants::DOSE_SHOW_ISOLINES_PROPERTY_NAME.c_str(), showIsoLine); m_Controls.checkGlobalVisIsoLine->setChecked(showIsoLine); } bool showColorWash = mitk::GetGlobalColorwashVis(); m_selectedNode->GetBoolProperty(mitk::RTConstants::DOSE_SHOW_COLORWASH_PROPERTY_NAME.c_str(),showColorWash); m_Controls.checkGlobalVisColorWash->setChecked(showColorWash); float referenceDose = 0.0; m_selectedNode->GetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(),referenceDose); m_Controls.spinReferenceDose->setValue(referenceDose); mitk::IsoDoseLevelSetProperty::Pointer propIsoSet = dynamic_cast(m_selectedNode->GetProperty(mitk::RTConstants::DOSE_ISO_LEVELS_PROPERTY_NAME.c_str())); if (propIsoSet) { this->m_LevelSetModel->setIsoDoseLevelSet(propIsoSet->GetValue()); } } } void RTDoseVisualizer::NodeRemoved(const mitk::DataNode* node) { mitk::DataStorage::SetOfObjects::ConstPointer childNodes = this->GetDataStorage()->GetDerivations(node); mitk::DataStorage::SetOfObjects::const_iterator iterChildNodes = childNodes->begin(); while (iterChildNodes != childNodes->end()) { this->GetDataStorage()->Remove((*iterChildNodes)); ++iterChildNodes; } } void RTDoseVisualizer::NodeChanged(const mitk::DataNode *node) { bool isdose = ModalityIsRTDose(node); if(isdose) { bool isvisible = true; if(node->GetBoolProperty("visible", isvisible)) { mitk::DataStorage::SetOfObjects::ConstPointer childNodes = this->GetDataStorage()->GetDerivations(node); mitk::DataStorage::SetOfObjects::const_iterator iterChildNodes = childNodes->begin(); while (iterChildNodes != childNodes->end()) { (*iterChildNodes)->SetVisibility(isvisible); ++iterChildNodes; } } } } void RTDoseVisualizer::UpdateByPreferences() { m_Presets = mitk::LoadPresetsMap(); m_internalUpdate = true; m_Controls.comboPresets->clear(); this->m_selectedPresetName = mitk::GetSelectedPresetName(); m_Controls.checkGlobalVisIsoLine->setChecked(mitk::GetGlobalIsolineVis()); m_Controls.checkGlobalVisColorWash->setChecked(mitk::GetGlobalColorwashVis()); if(m_Presets.empty()) return; int index = 0; int selectedIndex = -1; for (mitk::PresetMapType::const_iterator pos = m_Presets.begin(); pos != m_Presets.end(); ++pos, ++index) { m_Controls.comboPresets->addItem(QString(pos->first.c_str())); if (this->m_selectedPresetName == pos->first) { selectedIndex = index; } } if (selectedIndex == -1) { selectedIndex = 0; MITK_WARN << "Error. Iso dose level preset specified in preferences does not exist. Preset name: "<m_selectedPresetName; this->m_selectedPresetName = m_Presets.begin()->first; mitk::SetSelectedPresetName(this->m_selectedPresetName); MITK_INFO << "Changed selected iso dose level preset to first existing preset. New preset name: "<m_selectedPresetName; } m_Controls.comboPresets->setCurrentIndex(selectedIndex); this->m_LevelSetModel->setIsoDoseLevelSet(this->m_Presets[this->m_selectedPresetName]); mitk::DoseValueAbs referenceDose = 0.0; bool globalSync = mitk::GetReferenceDoseValue(referenceDose); if (globalSync || this->m_selectedNode.IsNull()) { m_Controls.spinReferenceDose->setValue(referenceDose); } bool displayAbsoluteDose = mitk::GetDoseDisplayAbsolute(); m_Controls.radioAbsDose->setChecked(displayAbsoluteDose); m_Controls.radioRelDose->setChecked(!displayAbsoluteDose); this->m_LevelSetModel->setShowAbsoluteDose(displayAbsoluteDose); m_internalUpdate = false; } void RTDoseVisualizer::OnCurrentPresetChanged(const QString& presetName) { if (! m_internalUpdate) { mitk::SetSelectedPresetName(presetName.toStdString()); this->UpdateByPreferences(); this->ActualizeIsoLevelsForAllDoseDataNodes(); this->UpdateBySelectedNode(); } } void RTDoseVisualizer::ActualizeIsoLevelsForAllDoseDataNodes() { std::string presetName = mitk::GetSelectedPresetName(); mitk::PresetMapType presetMap = mitk::LoadPresetsMap(); mitk::NodePredicateProperty::Pointer isDoseNode = mitk::NodePredicateProperty::New("modality", mitk::StringProperty::New("RTDOSE")); mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->GetDataStorage()->GetSubset(isDoseNode); if(presetMap.empty()) return; mitk::IsoDoseLevelSet* selectedPreset = presetMap[presetName]; if (!selectedPreset) { mitkThrow() << "Error. Cannot actualize iso dose level preset. Selected preset does not exist. Preset name: "<begin(); pos != nodes->end(); ++pos) { mitk::IsoDoseLevelSet::Pointer clonedPreset = selectedPreset->Clone(); mitk::IsoDoseLevelSetProperty::Pointer propIsoSet = mitk::IsoDoseLevelSetProperty::New(clonedPreset); (*pos)->SetProperty(mitk::RTConstants::DOSE_ISO_LEVELS_PROPERTY_NAME.c_str(),propIsoSet); } } void RTDoseVisualizer::ActualizeReferenceDoseForAllDoseDataNodes() { /** @TODO Klären ob diese präsentations info genauso wie*/ mitk::DoseValueAbs value = 0; bool sync = mitk::GetReferenceDoseValue(value); if (sync) { mitk::NodePredicateProperty::Pointer isDoseNode = mitk::NodePredicateProperty::New("modality", mitk::StringProperty::New("RTDOSE")); mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->GetDataStorage()->GetSubset(isDoseNode); for(mitk::DataStorage::SetOfObjects::const_iterator pos = nodes->begin(); pos != nodes->end(); ++pos) { (*pos)->SetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(), value); //ATM the IsoDoseContours have an own (helper) node which is a child of dose node; Will be fixed with the doseMapper refactoring mitk::DataStorage::SetOfObjects::ConstPointer childNodes = this->GetDataStorage()->GetDerivations(*pos); mitk::DataStorage::SetOfObjects::const_iterator iterChildNodes = childNodes->begin(); while (iterChildNodes != childNodes->end()) { (*iterChildNodes)->SetFloatProperty(mitk::RTConstants::REFERENCE_DOSE_PROPERTY_NAME.c_str(), value); ++iterChildNodes; } } } } void RTDoseVisualizer::ActualizeDisplayStyleForAllDoseDataNodes() { /** @TODO Klären ob diese präsentations info global oder auch per node gespeichert wird*/ } -void RTDoseVisualizer::OnHandleCTKEventReferenceDoseChanged(const ctkEvent& event) +void RTDoseVisualizer::OnHandleCTKEventReferenceDoseChanged(const ctkEvent&) { mitk::DoseValueAbs referenceDose = 0.0; - bool globalSync = mitk::GetReferenceDoseValue(referenceDose); - this->m_Controls.spinReferenceDose->setValue(referenceDose); } -void RTDoseVisualizer::OnHandleCTKEventGlobalVisChanged(const ctkEvent& event) +void RTDoseVisualizer::OnHandleCTKEventGlobalVisChanged(const ctkEvent&) { this->m_Controls.checkGlobalVisIsoLine->setChecked(mitk::GetGlobalIsolineVis()); this->m_Controls.checkGlobalVisColorWash->setChecked(mitk::GetGlobalColorwashVis()); } -void RTDoseVisualizer::OnHandleCTKEventPresetsChanged(const ctkEvent& event) +void RTDoseVisualizer::OnHandleCTKEventPresetsChanged(const ctkEvent&) { std::string currentPresetName = mitk::GetSelectedPresetName(); this->OnCurrentPresetChanged(QString::fromStdString(currentPresetName)); } //ATM the IsoDoseContours have an own (helper) node which is a child of dose node; Will be fixed with the doseMapper refactoring mitk::DataNode::Pointer RTDoseVisualizer::GetIsoDoseNode(mitk::DataNode::Pointer doseNode) { mitk::DataStorage::SetOfObjects::ConstPointer childNodes = this->GetDataStorage()->GetDerivations(doseNode); if (childNodes->empty()) { return nullptr; } else { return doseNode = (*childNodes->begin()); } } bool RTDoseVisualizer::ModalityIsRTDose(const mitk::DataNode* dataNode) const { auto data = dataNode->GetData(); if (!data) { return false; } auto modalityProperty = data->GetProperty("modality"); auto modalityGenericProperty = dynamic_cast*>(modalityProperty.GetPointer()); if (!modalityGenericProperty) { return false; } std::string modality = modalityGenericProperty->GetValue(); return modality == "RTDOSE"; }