diff --git a/Modules/Multilabel/mitkLabelSet.cpp b/Modules/Multilabel/mitkLabelSet.cpp index 47f5472fdf..71d5c4908f 100644 --- a/Modules/Multilabel/mitkLabelSet.cpp +++ b/Modules/Multilabel/mitkLabelSet.cpp @@ -1,360 +1,355 @@ /*============================================================================ 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 "mitkLabelSet.h" #include "mitkDICOMSegmentationPropertyHelper.h" #include mitk::LabelSet::LabelSet() : m_ActiveLabelValue(0), m_Layer(0) { m_LookupTable = mitk::LookupTable::New(); m_LookupTable->SetType(mitk::LookupTable::MULTILABEL); } mitk::LabelSet::~LabelSet() { m_LabelContainer.clear(); } mitk::LabelSet::LabelSet(const LabelSet &other) : itk::Object(), m_LookupTable(other.GetLookupTable()->Clone()), m_ActiveLabelValue(other.GetActiveLabel()->GetValue()), m_Layer(other.GetLayer()) { // clone Labels auto otherIt = other.IteratorConstBegin(); for (; otherIt != other.IteratorConstEnd(); ++otherIt) { m_LabelContainer[otherIt->first] = otherIt->second->Clone(); itk::SimpleMemberCommand::Pointer command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &LabelSet::OnLabelModified); m_LabelContainer[otherIt->first]->AddObserver(itk::ModifiedEvent(), command); } } void mitk::LabelSet::OnLabelModified() { ModifyLabelEvent.Send(); Superclass::Modified(); } mitk::LabelSet::LabelContainerConstIteratorType mitk::LabelSet::IteratorConstEnd() const { return m_LabelContainer.end(); } mitk::LabelSet::LabelContainerConstIteratorType mitk::LabelSet::IteratorConstBegin() const { return m_LabelContainer.begin(); } mitk::LabelSet::LabelContainerIteratorType mitk::LabelSet::IteratorEnd() { return m_LabelContainer.end(); } mitk::LabelSet::LabelContainerIteratorType mitk::LabelSet::IteratorBegin() { return m_LabelContainer.begin(); } unsigned int mitk::LabelSet::GetNumberOfLabels() const { return m_LabelContainer.size(); } void mitk::LabelSet::SetLayer(unsigned int layer) { m_Layer = layer; Modified(); } void mitk::LabelSet::SetActiveLabel(PixelType pixelValue) { m_ActiveLabelValue = pixelValue; ActiveLabelEvent.Send(pixelValue); Modified(); } bool mitk::LabelSet::ExistLabel(PixelType pixelValue) { return m_LabelContainer.count(pixelValue) > 0 ? true : false; } // TODO Parameter as Smartpointer void mitk::LabelSet::AddLabel(mitk::Label *label) { unsigned int max_size = mitk::Label::MAX_LABEL_VALUE + 1; if (m_LabelContainer.size() >= max_size) return; mitk::Label::Pointer newLabel(label->Clone()); // TODO use layer of label parameter newLabel->SetLayer(m_Layer); PixelType pixelValue; if (m_LabelContainer.empty()) { pixelValue = newLabel->GetValue(); } else { pixelValue = m_LabelContainer.rbegin()->first; if (pixelValue >= newLabel->GetValue() && m_LabelContainer.find(newLabel->GetValue()) != m_LabelContainer.end()) { ++pixelValue; newLabel->SetValue(pixelValue); } else { pixelValue = newLabel->GetValue(); } } // new map entry m_LabelContainer[pixelValue] = newLabel; UpdateLookupTable(pixelValue); // add DICOM information of the label DICOMSegmentationPropertyHelper::SetDICOMSegmentProperties(newLabel); itk::SimpleMemberCommand::Pointer command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &LabelSet::OnLabelModified); newLabel->AddObserver(itk::ModifiedEvent(), command); // newLabel->AddObserver(itk::ModifiedEvent(),command); SetActiveLabel(newLabel->GetValue()); AddLabelEvent.Send(); Modified(); } void mitk::LabelSet::AddLabel(const std::string &name, const mitk::Color &color) { mitk::Label::Pointer newLabel = mitk::Label::New(); newLabel->SetName(name); newLabel->SetColor(color); AddLabel(newLabel); } void mitk::LabelSet::RenameLabel(PixelType pixelValue, const std::string &name, const mitk::Color &color) { mitk::Label *label = GetLabel(pixelValue); label->SetName(name); label->SetColor(color); // change DICOM information of the label DICOMSegmentationPropertyHelper::SetDICOMSegmentProperties(label); } void mitk::LabelSet::SetLookupTable(mitk::LookupTable *lut) { m_LookupTable = lut; Modified(); } void mitk::LabelSet::PrintSelf(std::ostream & /*os*/, itk::Indent /*indent*/) const { } void mitk::LabelSet::RemoveLabel(PixelType pixelValue) { auto it = m_LabelContainer.rbegin(); PixelType nextActivePixelValue = it->first; for (; it != m_LabelContainer.rend(); ++it) { if (it->first == pixelValue) { it->second->RemoveAllObservers(); m_LabelContainer.erase(pixelValue); break; } nextActivePixelValue = it->first; } if (m_ActiveLabelValue == pixelValue) { if (ExistLabel(nextActivePixelValue)) SetActiveLabel(nextActivePixelValue); else SetActiveLabel(m_LabelContainer.rbegin()->first); } RemoveLabelEvent.Send(); Modified(); } void mitk::LabelSet::RemoveAllLabels() { auto _it = IteratorBegin(); for (; _it != IteratorConstEnd();) { RemoveLabelEvent.Send(); m_LabelContainer.erase(_it++); } AllLabelsModifiedEvent.Send(); } void mitk::LabelSet::SetNextActiveLabel() { - auto it = m_LabelContainer.begin(); + auto it = m_LabelContainer.find(m_ActiveLabelValue); - for (; it != m_LabelContainer.end(); ++it) + if (it != m_LabelContainer.end()) + ++it; + + if (it == m_LabelContainer.end()) { - if (it->first == m_ActiveLabelValue) - { - // go to next label - ++it; - if (it == m_LabelContainer.end()) - { - // end of container; next label is first label - it = m_LabelContainer.begin(); - } - break; // found the active label; finish loop - } + it = m_LabelContainer.begin(); + if (m_LabelContainer.size() > 1) + ++it; // ...skip background label! } SetActiveLabel(it->first); } void mitk::LabelSet::SetAllLabelsLocked(bool value) { auto _end = m_LabelContainer.end(); auto _it = m_LabelContainer.begin(); for (; _it != _end; ++_it) _it->second->SetLocked(value); AllLabelsModifiedEvent.Send(); Modified(); } void mitk::LabelSet::SetAllLabelsVisible(bool value) { auto _end = m_LabelContainer.end(); auto _it = m_LabelContainer.begin(); for (; _it != _end; ++_it) { _it->second->SetVisible(value); UpdateLookupTable(_it->first); } AllLabelsModifiedEvent.Send(); Modified(); } void mitk::LabelSet::UpdateLookupTable(PixelType pixelValue) { const mitk::Color &color = GetLabel(pixelValue)->GetColor(); double rgba[4]; m_LookupTable->GetTableValue(static_cast(pixelValue), rgba); rgba[0] = color.GetRed(); rgba[1] = color.GetGreen(); rgba[2] = color.GetBlue(); if (GetLabel(pixelValue)->GetVisible()) rgba[3] = GetLabel(pixelValue)->GetOpacity(); else rgba[3] = 0.0; m_LookupTable->SetTableValue(static_cast(pixelValue), rgba); } mitk::Label *mitk::LabelSet::GetLabel(PixelType pixelValue) { if (m_LabelContainer.find(pixelValue) == m_LabelContainer.end()) return nullptr; return m_LabelContainer[pixelValue]; } const mitk::Label *mitk::LabelSet::GetLabel(PixelType pixelValue) const { auto it = m_LabelContainer.find(pixelValue); if (it == m_LabelContainer.end()) return nullptr; return it->second.GetPointer(); } bool mitk::Equal(const mitk::LabelSet &leftHandSide, const mitk::LabelSet &rightHandSide, ScalarType eps, bool verbose) { bool returnValue = true; // LabelSetmembers MITK_INFO(verbose) << "--- LabelSet Equal ---"; // m_LookupTable; const mitk::LookupTable *lhsLUT = leftHandSide.GetLookupTable(); const mitk::LookupTable *rhsLUT = rightHandSide.GetLookupTable(); returnValue = *lhsLUT == *rhsLUT; if (!returnValue) { MITK_INFO(verbose) << "Lookup tabels not equal."; return returnValue; ; } // m_ActiveLabel; returnValue = mitk::Equal(*leftHandSide.GetActiveLabel(), *rightHandSide.GetActiveLabel(), eps, verbose); if (!returnValue) { MITK_INFO(verbose) << "Active label not equal."; return returnValue; ; } // m_Layer; returnValue = leftHandSide.GetLayer() == rightHandSide.GetLayer(); if (!returnValue) { MITK_INFO(verbose) << "Layer index not equal."; return returnValue; ; } // container size; returnValue = leftHandSide.GetNumberOfLabels() == rightHandSide.GetNumberOfLabels(); if (!returnValue) { MITK_INFO(verbose) << "Number of labels not equal."; return returnValue; ; } // Label container (map) // m_LabelContainer; auto lhsit = leftHandSide.IteratorConstBegin(); auto rhsit = rightHandSide.IteratorConstBegin(); for (; lhsit != leftHandSide.IteratorConstEnd(); ++lhsit, ++rhsit) { returnValue = rhsit->first == lhsit->first; if (!returnValue) { MITK_INFO(verbose) << "Label in label container not equal."; return returnValue; ; } returnValue = mitk::Equal(*(rhsit->second), *(lhsit->second), eps, verbose); if (!returnValue) { MITK_INFO(verbose) << "Label in label container not equal."; return returnValue; ; } } return returnValue; } diff --git a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.cpp b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.cpp index 17fe83363b..5fbb4736b0 100644 --- a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.cpp +++ b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.cpp @@ -1,181 +1,208 @@ /*============================================================================ 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 "org_mitk_gui_qt_flow_segmentation_Activator.h" // Blueberry #include #include #include #include #include //MITK #include #include #include #include #include #include #include +#include // Qmitk #include "QmitkSegmentationFlowControlView.h" #include // Qt #include #include +#include const std::string QmitkSegmentationFlowControlView::VIEW_ID = "org.mitk.views.flow.control"; QmitkSegmentationFlowControlView::QmitkSegmentationFlowControlView() : m_Controls(new Ui::SegmentationFlowControlView), m_Parent(nullptr) { auto notHelperObject = mitk::NodePredicateNot::New( mitk::NodePredicateProperty::New("helper object")); m_SegmentationPredicate = mitk::NodePredicateAnd::New( mitk::TNodePredicateDataType::New(), notHelperObject); m_SegmentationTaskListPredicate = mitk::NodePredicateAnd::New( mitk::TNodePredicateDataType::New(), notHelperObject); berry::PlatformUI::GetWorkbench()->AddWorkbenchListener(this); } QmitkSegmentationFlowControlView::~QmitkSegmentationFlowControlView() { berry::PlatformUI::GetWorkbench()->RemoveWorkbenchListener(this); } bool QmitkSegmentationFlowControlView::PreShutdown(berry::IWorkbench*, bool) { return m_Controls->segmentationTaskListWidget != nullptr ? m_Controls->segmentationTaskListWidget->OnPreShutdown() : true; } void QmitkSegmentationFlowControlView::SetFocus() { m_Controls->btnStoreAndAccept->setFocus(); } void QmitkSegmentationFlowControlView::CreateQtPartControl(QWidget* parent) { m_Controls->setupUi(parent); m_Parent = parent; using Self = QmitkSegmentationFlowControlView; connect(m_Controls->btnStore, &QPushButton::clicked, this, &Self::OnStoreButtonClicked); connect(m_Controls->btnStoreAndAccept, &QPushButton::clicked, this, &Self::OnAcceptButtonClicked); connect(m_Controls->segmentationTaskListWidget, &QmitkSegmentationTaskListWidget::ActiveTaskChanged, this, &Self::OnActiveTaskChanged); connect(m_Controls->segmentationTaskListWidget, &QmitkSegmentationTaskListWidget::CurrentTaskChanged, this, &Self::OnCurrentTaskChanged); + auto* prevShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::ALT | Qt::Key::Key_S), parent); + connect(prevShortcut, &QShortcut::activated, this, &Self::OnStoreInterimResultShortcutActivated); + + auto* nextShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::ALT | Qt::Key::Key_A), parent); + connect(nextShortcut, &QShortcut::activated, this, &Self::OnAcceptSegmentationShortcutActivated); + m_Controls->btnStore->setIcon(berry::QtStyleManager::ThemeIcon(QStringLiteral(":/org_mitk_icons/icons/awesome/scalable/actions/document-save.svg"))); m_Controls->btnStore->setVisible(false); m_Controls->segmentationTaskListWidget->setVisible(false); m_Controls->labelStored->setVisible(false); this->UpdateControls(); m_OutputDir = QString::fromStdString(mitk::BaseApplication::instance().config().getString("flow.outputdir", itksys::SystemTools::GetCurrentWorkingDirectory())); m_OutputDir = QDir::fromNativeSeparators(m_OutputDir); m_FileExtension = QString::fromStdString(mitk::BaseApplication::instance().config().getString("flow.outputextension", "nrrd")); } void QmitkSegmentationFlowControlView::OnStoreButtonClicked() { m_Controls->segmentationTaskListWidget->SaveActiveTask(true); } void QmitkSegmentationFlowControlView::OnAcceptButtonClicked() { if (m_Controls->segmentationTaskListWidget->isVisible()) { + auto* toolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); + int activeToolId = -1; + + if (toolManager != nullptr) + activeToolId = toolManager->GetActiveToolID(); + m_Controls->segmentationTaskListWidget->SaveActiveTask(); m_Controls->segmentationTaskListWidget->LoadNextUnfinishedTask(); + + if (toolManager != nullptr) + toolManager->ActivateTool(activeToolId); } else { auto nodes = this->GetDataStorage()->GetSubset(m_SegmentationPredicate); for (auto node : *nodes) { QString outputpath = m_OutputDir + "/" + QString::fromStdString(node->GetName()) + "." + m_FileExtension; outputpath = QDir::toNativeSeparators(QDir::cleanPath(outputpath)); mitk::IOUtil::Save(node->GetData(), outputpath.toStdString()); } m_Controls->labelStored->setVisible(true); } } void QmitkSegmentationFlowControlView::OnActiveTaskChanged(const std::optional&) { this->UpdateControls(); } void QmitkSegmentationFlowControlView::OnCurrentTaskChanged(const std::optional&) { this->UpdateControls(); } void QmitkSegmentationFlowControlView::UpdateControls() { auto dataStorage = this->GetDataStorage(); auto hasTaskList = !dataStorage->GetSubset(m_SegmentationTaskListPredicate)->empty(); m_Controls->segmentationTaskListWidget->setVisible(hasTaskList); if (hasTaskList) { auto activeTaskIsShown = m_Controls->segmentationTaskListWidget->ActiveTaskIsShown(); m_Controls->btnStore->setVisible(activeTaskIsShown); m_Controls->btnStoreAndAccept->setEnabled(activeTaskIsShown); } else { auto hasSegmentation = !dataStorage->GetSubset(m_SegmentationPredicate)->empty(); m_Controls->btnStore->setVisible(false); m_Controls->btnStoreAndAccept->setEnabled(hasSegmentation); } } void QmitkSegmentationFlowControlView::NodeAdded(const mitk::DataNode* node) { if (dynamic_cast(node->GetData()) != nullptr) this->UpdateControls(); } void QmitkSegmentationFlowControlView::NodeChanged(const mitk::DataNode* node) { if (dynamic_cast(node->GetData()) != nullptr) this->UpdateControls(); } void QmitkSegmentationFlowControlView::NodeRemoved(const mitk::DataNode* node) { if (dynamic_cast(node->GetData()) != nullptr) this->UpdateControls(); } + +void QmitkSegmentationFlowControlView::OnStoreInterimResultShortcutActivated() +{ + m_Controls->btnStore->click(); +} + +void QmitkSegmentationFlowControlView::OnAcceptSegmentationShortcutActivated() +{ + m_Controls->btnStoreAndAccept->click(); +} diff --git a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.h b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.h index beeffc7401..8d3a9bf48a 100644 --- a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.h +++ b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationFlowControlView.h @@ -1,87 +1,89 @@ /*============================================================================ 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 __Q_MITK_MATCHPOINT_MAPPER_H #define __Q_MITK_MATCHPOINT_MAPPER_H #include #include #include #include "mitkNodePredicateBase.h" #include namespace Ui { class SegmentationFlowControlView; } /*! \brief QmitkSegmentationFlowControlView Class that "controls" the segmentation view. It offers the possibility to accept a segmentation. Accepting the segmentation stores the segmentation to the given working directory. The working directory is specified by command line arguments. If no commandline flag is set the current working directory will be used. */ class QmitkSegmentationFlowControlView : public QmitkAbstractView, public berry::IWorkbenchListener { // this is needed for all Qt objects that should have a Qt meta-object // (everything that derives from QObject and wants to have signal/slots) Q_OBJECT public: static const std::string VIEW_ID; /** * Creates smartpointer typedefs */ berryObjectMacro(QmitkSegmentationFlowControlView) QmitkSegmentationFlowControlView(); ~QmitkSegmentationFlowControlView() override; void CreateQtPartControl(QWidget *parent) override; protected slots: void OnStoreButtonClicked(); void OnAcceptButtonClicked(); void OnActiveTaskChanged(const std::optional& index); void OnCurrentTaskChanged(const std::optional& index); + void OnStoreInterimResultShortcutActivated(); + void OnAcceptSegmentationShortcutActivated(); protected: void SetFocus() override; void NodeAdded(const mitk::DataNode* node) override; void NodeChanged(const mitk::DataNode* node) override; void NodeRemoved(const mitk::DataNode* node) override; bool PreShutdown(berry::IWorkbench*, bool) override; void UpdateControls(); Ui::SegmentationFlowControlView* m_Controls; private: QWidget *m_Parent; mitk::NodePredicateBase::Pointer m_SegmentationPredicate; mitk::NodePredicateBase::Pointer m_SegmentationTaskListPredicate; QString m_OutputDir; QString m_FileExtension; }; #endif // MatchPoint_h diff --git a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.cpp b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.cpp index 4a3eed1028..2b24622e95 100644 --- a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.cpp +++ b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.cpp @@ -1,787 +1,813 @@ /*============================================================================ 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 "QmitkSegmentationTaskListWidget.h" #include "org_mitk_gui_qt_flow_segmentation_Activator.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include +#include #include namespace { berry::IPreferences::Pointer GetSegmentationPreferences() { return berry::Platform::GetPreferencesService()->GetSystemPreferences()->Node("/org.mitk.views.segmentation"); } mitk::DataStorage* GetDataStorage() { auto* pluginContext = org_mitk_gui_qt_flow_segmentation_Activator::GetContext(); auto dataStorageServiceReference = pluginContext->getServiceReference(); if (dataStorageServiceReference) { auto* dataStorageService = pluginContext->getService(dataStorageServiceReference); if (dataStorageService != nullptr) { auto dataStorageReference = dataStorageService->GetDataStorage(); pluginContext->ungetService(dataStorageServiceReference); return dataStorageReference->GetDataStorage(); } } return nullptr; } std::filesystem::path GetInputLocation(const mitk::BaseData* data) { std::string result; if (data != nullptr) data->GetPropertyList()->GetStringProperty("MITK.IO.reader.inputlocation", result); return result; } QString ColorString(const QString& string, const QColor& color, const QColor& backgroundColor = QColor::Invalid) { if (!color.isValid() && !backgroundColor.isValid()) return string; auto result = QStringLiteral("%1").arg(string); return result; } } /* This constructor has three objectives: * 1. Do widget initialization that cannot be done in the .ui file * 2. Connect signals and slots * 3. Explicitly trigger a reset to a valid initial widget state */ QmitkSegmentationTaskListWidget::QmitkSegmentationTaskListWidget(QWidget* parent) : QWidget(parent), m_Ui(new Ui::QmitkSegmentationTaskListWidget), m_FileSystemWatcher(new QFileSystemWatcher(this)), m_UnsavedChanges(false) { m_Ui->setupUi(this); m_Ui->selectionWidget->SetDataStorage(GetDataStorage()); m_Ui->selectionWidget->SetSelectionIsOptional(true); m_Ui->selectionWidget->SetEmptyInfo(QStringLiteral("Select a segmentation task list")); m_Ui->selectionWidget->SetAutoSelectNewNodes(true); m_Ui->selectionWidget->SetNodePredicate(mitk::TNodePredicateDataType::New()); m_Ui->progressBar->setStyleSheet(QString("QProgressBar::chunk { background-color: %1; }").arg(QmitkStyleManager::GetIconAccentColor())); using Self = QmitkSegmentationTaskListWidget; connect(m_Ui->selectionWidget, &QmitkSingleNodeSelectionWidget::CurrentSelectionChanged, this, &Self::OnSelectionChanged); connect(m_Ui->previousButton, &QToolButton::clicked, this, &Self::OnPreviousButtonClicked); connect(m_Ui->nextButton, &QToolButton::clicked, this, &Self::OnNextButtonClicked); connect(m_Ui->loadButton, &QPushButton::clicked, this, &Self::OnLoadButtonClicked); connect(m_FileSystemWatcher, &QFileSystemWatcher::directoryChanged, this, &Self::OnResultDirectoryChanged); + auto* prevShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::ALT | Qt::Key::Key_P), this); + connect(prevShortcut, &QShortcut::activated, this, &Self::OnPreviousTaskShortcutActivated); + + auto* nextShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::ALT | Qt::Key::Key_N), this); + connect(nextShortcut, &QShortcut::activated, this, &Self::OnNextTaskShortcutActivated); + + auto* loadShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::ALT | Qt::Key::Key_L), this); + connect(loadShortcut, &QShortcut::activated, this, &Self::OnLoadTaskShortcutActivated); + this->OnSelectionChanged(m_Ui->selectionWidget->GetSelectedNodes()); } QmitkSegmentationTaskListWidget::~QmitkSegmentationTaskListWidget() { } void QmitkSegmentationTaskListWidget::OnUnsavedChangesSaved() { if (m_UnsavedChanges) { m_UnsavedChanges = false; if (this->ActiveTaskIsShown()) this->UpdateDetailsLabel(); } } /* Make sure that the widget transitions into a valid state whenever the * selection changes. */ void QmitkSegmentationTaskListWidget::OnSelectionChanged(const QmitkSingleNodeSelectionWidget::NodeList& nodes) { this->UnloadTasks(); this->ResetControls(); if (!nodes.empty()) { m_TaskListNode = nodes.front(); auto taskList = dynamic_cast(m_TaskListNode->GetData()); if (taskList != nullptr) { this->OnTaskListChanged(taskList); return; } } this->SetTaskList(nullptr); m_TaskListNode = nullptr; } /* Reset all controls to a default state as a common basis for further * adjustments. */ void QmitkSegmentationTaskListWidget::ResetControls() { m_Ui->progressBar->setEnabled(false); m_Ui->progressBar->setFormat(""); m_Ui->progressBar->setValue(0); m_Ui->progressBar->setMaximum(1); m_Ui->previousButton->setEnabled(false); m_Ui->nextButton->setEnabled(false); this->UpdateLoadButton(); this->UpdateDetailsLabel(); } /* If the segmentation task changed, reset all member variables to expected * default values and reset the file system watcher. */ void QmitkSegmentationTaskListWidget::SetTaskList(mitk::SegmentationTaskList* taskList) { if (m_TaskList != taskList) { m_TaskList = taskList; if (taskList != nullptr) { this->SetCurrentTaskIndex(0); } else { this->SetCurrentTaskIndex(std::nullopt); } this->ResetFileSystemWatcher(); } } void QmitkSegmentationTaskListWidget::ResetFileSystemWatcher() { auto paths = m_FileSystemWatcher->directories(); if (!paths.empty()) m_FileSystemWatcher->removePaths(paths); if (m_TaskList.IsNotNull()) { for (const auto& task : *m_TaskList) { auto resultPath = m_TaskList->GetAbsolutePath(task.GetResult()).remove_filename(); if (!std::filesystem::exists(resultPath)) { try { std::filesystem::create_directories(resultPath); } catch (const std::filesystem::filesystem_error& e) { MITK_ERROR << e.what(); } } if (std::filesystem::exists(resultPath)) m_FileSystemWatcher->addPath(QString::fromStdString(resultPath.string())); } } } void QmitkSegmentationTaskListWidget::OnResultDirectoryChanged(const QString&) { // TODO: If a segmentation was modified ("Unsaved changes"), saved ("Done"), and then the file is deleted, the status should be "Unsaved changes" instead of "Not done". this->UpdateProgressBar(); this->UpdateDetailsLabel(); } void QmitkSegmentationTaskListWidget::UpdateProgressBar() { int progress = 0; for (size_t i = 0; i < m_TaskList->GetNumberOfTasks(); ++i) { if (m_TaskList->IsDone(i)) ++progress; } m_Ui->progressBar->setValue(progress); } /* Provided that a valid segmentation task list is currently selected and the * widget is in its default state, update all controls accordingly. */ void QmitkSegmentationTaskListWidget::OnTaskListChanged(mitk::SegmentationTaskList* taskList) { this->SetTaskList(taskList); const auto numTasks = taskList->GetNumberOfTasks(); m_Ui->progressBar->setMaximum(numTasks); m_Ui->progressBar->setFormat(QStringLiteral("%v/%m Task(s) done")); m_Ui->progressBar->setEnabled(true); this->UpdateProgressBar(); m_Ui->loadButton->setEnabled(true); if (numTasks > 1) m_Ui->nextButton->setEnabled(true); } /* If possible, change the currently displayed task to the previous task. * Enable/disable navigation buttons according to the task's position. */ void QmitkSegmentationTaskListWidget::OnPreviousButtonClicked() { auto current = m_CurrentTaskIndex.value(); if (current != 0) this->SetCurrentTaskIndex(current - 1); this->UpdateNavigationButtons(); } /* If possible, change the currently displayed task to the next task. * Enable/disable navigation buttons according to the task's position. */ void QmitkSegmentationTaskListWidget::OnNextButtonClicked() { + MITK_INFO << "NEXT"; const auto maxIndex = m_TaskList->GetNumberOfTasks() - 1; auto current = m_CurrentTaskIndex.value(); if (current < maxIndex) this->SetCurrentTaskIndex(current + 1); this->UpdateNavigationButtons(); } void QmitkSegmentationTaskListWidget::UpdateNavigationButtons() { const auto maxIndex = m_TaskList->GetNumberOfTasks() - 1; const auto current = m_CurrentTaskIndex.value(); m_Ui->previousButton->setEnabled(current != 0); m_Ui->nextButton->setEnabled(current != maxIndex); } /* Update affected controls when the currently displayed task changed. */ void QmitkSegmentationTaskListWidget::OnCurrentTaskChanged() { this->UpdateLoadButton(); this->UpdateNavigationButtons(); this->UpdateDetailsLabel(); } /* Update the load button according to the currently displayed task. */ void QmitkSegmentationTaskListWidget::UpdateLoadButton() { auto text = !this->ActiveTaskIsShown() ? QStringLiteral("Load task") : QStringLiteral("Task"); if (m_CurrentTaskIndex.has_value()) { const auto current = m_CurrentTaskIndex.value(); if (m_TaskList.IsNotNull()) { text += QString(" %1/%2").arg(current + 1).arg(m_TaskList->GetNumberOfTasks()); if (m_TaskList->HasName(current)) text += QStringLiteral(":\n") + QString::fromStdString(m_TaskList->GetName(current)); } m_Ui->loadButton->setDisabled(this->ActiveTaskIsShown()); } else { m_Ui->loadButton->setEnabled(false); } m_Ui->loadButton->setText(text); } /* Update the details label according to the currently display task. * The text is composed of the status of the task and a variable number * of text blocks according to the optional values provided by the task. */ void QmitkSegmentationTaskListWidget::UpdateDetailsLabel() { if (!m_CurrentTaskIndex.has_value()) { m_Ui->detailsLabel->clear(); return; } const auto current = m_CurrentTaskIndex.value(); bool isDone = m_TaskList->IsDone(current); auto details = QString("

Status: %1 / ").arg(this->ActiveTaskIsShown() ? ColorString("Active", Qt::white, QColor(Qt::green).darker()) : ColorString("Inactive", Qt::white, QColor(Qt::red).darker())); if (m_UnsavedChanges && this->ActiveTaskIsShown()) { details += QString("%1

").arg(ColorString("Unsaved changes", Qt::white, QColor(Qt::red).darker())); } else { details += QString("%1

").arg(isDone ? ColorString("Done", Qt::white, QColor(Qt::green).darker()) : ColorString("Not done", Qt::white, QColor(Qt::red).darker())); } if (m_TaskList->HasDescription(current)) details += QString("

Description: %1

").arg(QString::fromStdString(m_TaskList->GetDescription(current))); QStringList stringList; if (m_TaskList->HasImage(current)) stringList << QString::fromStdString("Image: " + m_TaskList->GetImage(current).string()); if (m_TaskList->HasSegmentation(current)) stringList << QString::fromStdString("Segmentation: " + m_TaskList->GetSegmentation(current).string()); if (m_TaskList->HasLabelName(current)) stringList << QString::fromStdString("Label name: " + m_TaskList->GetLabelName(current)); if (m_TaskList->HasLabelNameSuggestions(current)) stringList << QString::fromStdString("Label name suggestions: " + m_TaskList->GetLabelNameSuggestions(current).string()); if (m_TaskList->HasPreset(current)) stringList << QString::fromStdString("Label set preset: " + m_TaskList->GetPreset(current).string()); if (m_TaskList->HasDynamic(current)) stringList << QString("Segmentation type: %1").arg(m_TaskList->GetDynamic(current) ? "Dynamic" : "Static"); if (!stringList.empty()) details += QString("

%1

").arg(stringList.join(QStringLiteral("
"))); m_Ui->detailsLabel->setText(details); } /* Load/activate the currently displayed task. Unload all data nodes from * previously active tasks first, but spare and reuse the image if possible. */ void QmitkSegmentationTaskListWidget::OnLoadButtonClicked() { if (!this->HandleUnsavedChanges() || m_UnsavedChanges) return; m_Ui->loadButton->setEnabled(false); QApplication::setOverrideCursor(Qt::BusyCursor); this->LoadTask(this->GetImageDataNode(m_CurrentTaskIndex.value())); QApplication::restoreOverrideCursor(); } /* If present, return the image data node for the task with the specified * index. Otherwise, return nullptr. */ mitk::DataNode* QmitkSegmentationTaskListWidget::GetImageDataNode(size_t index) const { const auto imagePath = m_TaskList->GetAbsolutePath(m_TaskList->GetImage(index)); auto imageNodes = GetDataStorage()->GetDerivations(m_TaskListNode, mitk::NodePredicateFunction::New([imagePath](const mitk::DataNode* node) { return imagePath == GetInputLocation(node->GetData()); })); return !imageNodes->empty() ? imageNodes->front() : nullptr; } /* If present, return the segmentation data node for the task with the * specified index. Otherwise, return nullptr. */ mitk::DataNode* QmitkSegmentationTaskListWidget::GetSegmentationDataNode(size_t index) const { const auto* imageNode = this->GetImageDataNode(index); if (imageNode != nullptr) { auto segmentations = GetDataStorage()->GetDerivations(imageNode, mitk::TNodePredicateDataType::New()); if (!segmentations->empty()) return segmentations->front(); } return nullptr; } /* Unload all task data nodes but spare the passed image data node. */ void QmitkSegmentationTaskListWidget::UnloadTasks(const mitk::DataNode* skip) { this->UnsubscribeFromActiveSegmentation(); if (m_TaskListNode.IsNotNull()) { mitk::DataStorage::Pointer dataStorage = GetDataStorage(); auto imageNodes = dataStorage->GetDerivations(m_TaskListNode, mitk::TNodePredicateDataType::New()); for (auto imageNode : *imageNodes) { dataStorage->Remove(dataStorage->GetDerivations(imageNode, nullptr, false)); if (imageNode != skip) dataStorage->Remove(imageNode); } } this->SetActiveTaskIndex(std::nullopt); } void QmitkSegmentationTaskListWidget::LoadNextUnfinishedTask() { const auto current = m_CurrentTaskIndex.value(); const auto numTasks = m_TaskList->GetNumberOfTasks(); for (size_t unboundNext = current; unboundNext < current + numTasks; ++unboundNext) { auto next = unboundNext % numTasks; if (!m_TaskList->IsDone(next)) { this->SetCurrentTaskIndex(next); this->OnLoadButtonClicked(); break; } } } /* Load/activate the currently displayed task. The task must specify * an image. The segmentation is either created from scratch with an optional * name for the first label, possibly based on a label set preset specified by * the task, or loaded as specified by the task. If a result file does * exist, it is chosen as segmentation instead. */ void QmitkSegmentationTaskListWidget::LoadTask(mitk::DataNode::Pointer imageNode) { this->UnloadTasks(imageNode); const auto current = m_CurrentTaskIndex.value(); mitk::Image::Pointer image; mitk::LabelSetImage::Pointer segmentation; try { if (imageNode.IsNull()) { const auto path = m_TaskList->GetAbsolutePath(m_TaskList->GetImage(current)); image = mitk::IOUtil::Load(path.string()); } const auto path = m_TaskList->GetAbsolutePath(m_TaskList->GetResult(current)); const auto interimPath = m_TaskList->GetInterimPath(path); if (std::filesystem::exists(path)) { segmentation = mitk::IOUtil::Load(path.string()); } else if (std::filesystem::exists(interimPath)) { segmentation = mitk::IOUtil::Load(interimPath.string()); } else if (m_TaskList->HasSegmentation(current)) { const auto path = m_TaskList->GetAbsolutePath(m_TaskList->GetSegmentation(current)); segmentation = mitk::IOUtil::Load(path.string()); } } catch (const mitk::Exception&) { return; } auto dataStorage = GetDataStorage(); if (imageNode.IsNull()) { imageNode = mitk::DataNode::New(); imageNode->SetData(image); dataStorage->Add(imageNode, m_TaskListNode); mitk::RenderingManager::GetInstance()->InitializeViews(image->GetTimeGeometry()); } else { image = static_cast(imageNode->GetData()); } auto name = "Task " + std::to_string(current + 1); imageNode->SetName(name); if (segmentation.IsNull()) { mitk::Image::ConstPointer templateImage = image; if (templateImage->GetDimension() > 3) { if (m_TaskList->HasDynamic(current)) { if (!m_TaskList->GetDynamic(current)) templateImage = mitk::SegmentationHelper::GetStaticSegmentationTemplate(image); } else { QmitkStaticDynamicSegmentationDialog dialog(this); dialog.SetReferenceImage(templateImage); dialog.exec(); templateImage = dialog.GetSegmentationTemplate(); } } auto segmentationNode = mitk::LabelSetImageHelper::CreateNewSegmentationNode(imageNode, templateImage, name); segmentation = static_cast(segmentationNode->GetData()); if (m_TaskList->HasPreset(current)) { const auto path = m_TaskList->GetAbsolutePath(m_TaskList->GetPreset(current)); mitk::LabelSetIOHelper::LoadLabelSetImagePreset(path.string(), segmentation); } else { auto label = mitk::LabelSetImageHelper::CreateNewLabel(segmentation); if (m_TaskList->HasLabelName(current)) label->SetName(m_TaskList->GetLabelName(current)); segmentation->GetActiveLabelSet()->AddLabel(label); } dataStorage->Add(segmentationNode, imageNode); } else { auto segmentationNode = mitk::DataNode::New(); segmentationNode->SetName(name); segmentationNode->SetData(segmentation); dataStorage->Add(segmentationNode, imageNode); } auto prefs = GetSegmentationPreferences(); if (prefs.IsNotNull()) { if (m_TaskList->HasLabelNameSuggestions(current)) { auto path = m_TaskList->GetAbsolutePath(m_TaskList->GetLabelNameSuggestions(current)); prefs->PutBool("default label naming", false); prefs->Put("label suggestions", QString::fromStdString(path.string())); prefs->PutBool("replace standard suggestions", true); prefs->PutBool("suggest once", true); } else { prefs->PutBool("default label naming", true); prefs->Put("label suggestions", ""); } } m_UnsavedChanges = false; this->SetActiveTaskIndex(current); this->SubscribeToActiveSegmentation(); this->OnCurrentTaskChanged(); } void QmitkSegmentationTaskListWidget::SubscribeToActiveSegmentation() { if (m_ActiveTaskIndex.has_value()) { auto segmentationNode = this->GetSegmentationDataNode(m_ActiveTaskIndex.value()); if (segmentationNode != nullptr) { auto segmentation = static_cast(segmentationNode->GetData()); auto command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSegmentationTaskListWidget::OnSegmentationModified); m_SegmentationModifiedObserverTag = segmentation->AddObserver(itk::ModifiedEvent(), command); } } } void QmitkSegmentationTaskListWidget::UnsubscribeFromActiveSegmentation() { if (m_ActiveTaskIndex.has_value() && m_SegmentationModifiedObserverTag.has_value()) { auto segmentationNode = this->GetSegmentationDataNode(m_ActiveTaskIndex.value()); if (segmentationNode != nullptr) { auto segmentation = static_cast(segmentationNode->GetData()); segmentation->RemoveObserver(m_SegmentationModifiedObserverTag.value()); } m_SegmentationModifiedObserverTag.reset(); } } void QmitkSegmentationTaskListWidget::OnSegmentationModified() { if (!m_UnsavedChanges) { m_UnsavedChanges = true; if (m_ActiveTaskIndex.value() == m_CurrentTaskIndex) this->UpdateDetailsLabel(); } } void QmitkSegmentationTaskListWidget::SetActiveTaskIndex(const std::optional& index) { if (m_ActiveTaskIndex != index) { m_ActiveTaskIndex = index; emit ActiveTaskChanged(m_ActiveTaskIndex); } } void QmitkSegmentationTaskListWidget::SetCurrentTaskIndex(const std::optional& index) { if (m_CurrentTaskIndex != index) { m_CurrentTaskIndex = index; this->OnCurrentTaskChanged(); emit CurrentTaskChanged(m_CurrentTaskIndex); } } bool QmitkSegmentationTaskListWidget::ActiveTaskIsShown() const { return m_ActiveTaskIndex.has_value() && m_CurrentTaskIndex.has_value() && m_ActiveTaskIndex == m_CurrentTaskIndex; } bool QmitkSegmentationTaskListWidget::HandleUnsavedChanges(const QString& alternativeTitle) { if (m_UnsavedChanges) { const auto active = m_ActiveTaskIndex.value(); const auto current = m_CurrentTaskIndex.value(); QString title; if (alternativeTitle.isEmpty()) { title = QString("Load task %1").arg(current + 1); if (m_TaskList->HasName(current)) title += ": " + QString::fromStdString(m_TaskList->GetName(current)); } else { title = alternativeTitle; } auto text = QString("The currently active task %1 ").arg(active + 1); if (m_TaskList->HasName(active)) text += "(" + QString::fromStdString(m_TaskList->GetName(active)) + ") "; text += "has unsaved changes."; auto reply = QMessageBox::question(this, title, text, QMessageBox::Save | QMessageBox::Discard | QMessageBox::Cancel, QMessageBox::Cancel); switch (reply) { case QMessageBox::Save: this->SaveActiveTask(!std::filesystem::exists(m_TaskList->GetResult(active))); break; case QMessageBox::Discard: m_UnsavedChanges = false; break; default: return false; } } return true; } void QmitkSegmentationTaskListWidget::SaveActiveTask(bool saveAsIntermediateResult) { if (!m_ActiveTaskIndex.has_value()) return; QApplication::setOverrideCursor(Qt::BusyCursor); try { const auto active = m_ActiveTaskIndex.value(); m_TaskList->SaveTask(active, this->GetSegmentationDataNode(active)->GetData(), saveAsIntermediateResult); this->OnUnsavedChangesSaved(); } catch (const mitk::Exception& e) { MITK_ERROR << e; } QApplication::restoreOverrideCursor(); } bool QmitkSegmentationTaskListWidget::OnPreShutdown() { return this->HandleUnsavedChanges(QStringLiteral("Application shutdown")); } + +void QmitkSegmentationTaskListWidget::OnPreviousTaskShortcutActivated() +{ + m_Ui->previousButton->click(); +} + +void QmitkSegmentationTaskListWidget::OnNextTaskShortcutActivated() +{ + m_Ui->nextButton->click(); +} + +void QmitkSegmentationTaskListWidget::OnLoadTaskShortcutActivated() +{ + m_Ui->loadButton->click(); +} diff --git a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.h b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.h index e1e11c235a..4ce97a712b 100644 --- a/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.h +++ b/Plugins/org.mitk.gui.qt.flow.segmentation/src/internal/QmitkSegmentationTaskListWidget.h @@ -1,87 +1,90 @@ /*============================================================================ 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 QmitkSegmentationTaskListWidget_h #define QmitkSegmentationTaskListWidget_h #include #include #include #include #include class QFileSystemWatcher; namespace Ui { class QmitkSegmentationTaskListWidget; } class QmitkSegmentationTaskListWidget : public QWidget { Q_OBJECT public: explicit QmitkSegmentationTaskListWidget(QWidget* parent = nullptr); ~QmitkSegmentationTaskListWidget() override; bool ActiveTaskIsShown() const; void LoadNextUnfinishedTask(); void SaveActiveTask(bool saveAsIntermediateResult = false); bool OnPreShutdown(); signals: void ActiveTaskChanged(const std::optional& index); void CurrentTaskChanged(const std::optional& index); private: void OnSelectionChanged(const QmitkSingleNodeSelectionWidget::NodeList& nodes); void ResetControls(); void SetTaskList(mitk::SegmentationTaskList* task); void ResetFileSystemWatcher(); void OnResultDirectoryChanged(const QString&); void UpdateProgressBar(); void OnTaskListChanged(mitk::SegmentationTaskList* task); void OnPreviousButtonClicked(); void OnNextButtonClicked(); void OnCurrentTaskChanged(); void UpdateLoadButton(); void UpdateNavigationButtons(); void UpdateDetailsLabel(); void OnLoadButtonClicked(); mitk::DataNode* GetImageDataNode(size_t index) const; void UnloadTasks(const mitk::DataNode* skip = nullptr); void LoadTask(mitk::DataNode::Pointer imageNode = nullptr); void SubscribeToActiveSegmentation(); void UnsubscribeFromActiveSegmentation(); void OnSegmentationModified(); void SetActiveTaskIndex(const std::optional& index); void SetCurrentTaskIndex(const std::optional& index); bool HandleUnsavedChanges(const QString& alternativeTitle = QString()); mitk::DataNode* GetSegmentationDataNode(size_t index) const; void OnUnsavedChangesSaved(); + void OnPreviousTaskShortcutActivated(); + void OnNextTaskShortcutActivated(); + void OnLoadTaskShortcutActivated(); Ui::QmitkSegmentationTaskListWidget* m_Ui; QFileSystemWatcher* m_FileSystemWatcher; mitk::SegmentationTaskList::Pointer m_TaskList; mitk::DataNode::Pointer m_TaskListNode; std::optional m_CurrentTaskIndex; std::optional m_ActiveTaskIndex; std::optional m_SegmentationModifiedObserverTag; bool m_UnsavedChanges; }; #endif diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.cpp b/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.cpp index 0742129dfa..ee964c22aa 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.cpp +++ b/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.cpp @@ -1,1147 +1,1157 @@ /*============================================================================ 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 "QmitkLabelSetWidget.h" // mitk #include #include #include #include #include #include #include #include #include #include #include // Qmitk #include #include #include // Qt #include #include #include #include #include #include #include +#include #include #include // itk #include QmitkLabelSetWidget::QmitkLabelSetWidget(QWidget *parent) : QWidget(parent), m_DataStorage(nullptr), m_Completer(nullptr), m_ToolManager(nullptr), m_ProcessingManualSelection(false) { m_Controls.setupUi(this); m_ColorSequenceRainbow.GoToBegin(); m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); m_Controls.m_LabelSearchBox->setAlwaysShowClearIcon(true); m_Controls.m_LabelSearchBox->setShowSearchIcon(true); QStringList completionList; completionList << ""; m_Completer = new QCompleter(completionList, this); m_Completer->setCaseSensitivity(Qt::CaseInsensitive); m_Controls.m_LabelSearchBox->setCompleter(m_Completer); connect(m_Controls.m_LabelSearchBox, SIGNAL(returnPressed()), this, SLOT(OnSearchLabel())); + auto* renameLabelShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_L, Qt::CTRL | Qt::Key::Key_R), this); + connect(renameLabelShortcut, &QShortcut::activated, this, &QmitkLabelSetWidget::OnRenameLabelShortcutActivated); + QStringListModel *completeModel = static_cast(m_Completer->model()); completeModel->setStringList(GetLabelStringList()); m_Controls.m_LabelSearchBox->setEnabled(false); m_Controls.m_lblCaption->setText(""); InitializeTableWidget(); } QmitkLabelSetWidget::~QmitkLabelSetWidget() {} void QmitkLabelSetWidget::OnTableViewContextMenuRequested(const QPoint & /*pos*/) { int pixelValue = GetPixelValueOfSelectedItem(); if (-1 == pixelValue) return; QMenu *menu = new QMenu(m_Controls.m_LabelSetTableWidget); if (m_Controls.m_LabelSetTableWidget->selectedItems().size() > 1) { QAction *mergeAction = new QAction(QIcon(":/Qmitk/MergeLabels.png"), "Merge selection on current label", this); mergeAction->setEnabled(true); QObject::connect(mergeAction, SIGNAL(triggered(bool)), this, SLOT(OnMergeLabels(bool))); menu->addAction(mergeAction); QAction *removeLabelsAction = new QAction(QIcon(":/Qmitk/RemoveLabel.png"), "Remove selected labels", this); removeLabelsAction->setEnabled(true); QObject::connect(removeLabelsAction, SIGNAL(triggered(bool)), this, SLOT(OnRemoveLabels(bool))); menu->addAction(removeLabelsAction); QAction *eraseLabelsAction = new QAction(QIcon(":/Qmitk/EraseLabel.png"), "Erase selected labels", this); eraseLabelsAction->setEnabled(true); QObject::connect(eraseLabelsAction, SIGNAL(triggered(bool)), this, SLOT(OnEraseLabels(bool))); menu->addAction(eraseLabelsAction); } else { QAction *renameAction = new QAction(QIcon(":/Qmitk/RenameLabel.png"), "Rename...", this); renameAction->setEnabled(true); QObject::connect(renameAction, SIGNAL(triggered(bool)), this, SLOT(OnRenameLabel(bool))); menu->addAction(renameAction); QAction *removeAction = new QAction(QIcon(":/Qmitk/RemoveLabel.png"), "Remove...", this); removeAction->setEnabled(true); QObject::connect(removeAction, SIGNAL(triggered(bool)), this, SLOT(OnRemoveLabel(bool))); menu->addAction(removeAction); QAction *eraseAction = new QAction(QIcon(":/Qmitk/EraseLabel.png"), "Erase...", this); eraseAction->setEnabled(true); QObject::connect(eraseAction, SIGNAL(triggered(bool)), this, SLOT(OnEraseLabel(bool))); menu->addAction(eraseAction); QAction *randomColorAction = new QAction(QIcon(":/Qmitk/RandomColor.png"), "Random color", this); randomColorAction->setEnabled(true); QObject::connect(randomColorAction, SIGNAL(triggered(bool)), this, SLOT(OnRandomColor(bool))); menu->addAction(randomColorAction); QAction *viewOnlyAction = new QAction(QIcon(":/Qmitk/visible.png"), "View only", this); viewOnlyAction->setEnabled(true); QObject::connect(viewOnlyAction, SIGNAL(triggered(bool)), this, SLOT(OnSetOnlyActiveLabelVisible(bool))); menu->addAction(viewOnlyAction); QAction *viewAllAction = new QAction(QIcon(":/Qmitk/visible.png"), "View all", this); viewAllAction->setEnabled(true); QObject::connect(viewAllAction, SIGNAL(triggered(bool)), this, SLOT(OnSetAllLabelsVisible(bool))); menu->addAction(viewAllAction); QAction *hideAllAction = new QAction(QIcon(":/Qmitk/invisible.png"), "Hide all", this); hideAllAction->setEnabled(true); QObject::connect(hideAllAction, SIGNAL(triggered(bool)), this, SLOT(OnSetAllLabelsInvisible(bool))); menu->addAction(hideAllAction); QAction *lockAllAction = new QAction(QIcon(":/Qmitk/lock.png"), "Lock all", this); lockAllAction->setEnabled(true); QObject::connect(lockAllAction, SIGNAL(triggered(bool)), this, SLOT(OnLockAllLabels(bool))); menu->addAction(lockAllAction); QAction *unlockAllAction = new QAction(QIcon(":/Qmitk/unlock.png"), "Unlock all", this); unlockAllAction->setEnabled(true); QObject::connect(unlockAllAction, SIGNAL(triggered(bool)), this, SLOT(OnUnlockAllLabels(bool))); menu->addAction(unlockAllAction); QAction *createSurfaceAction = new QAction(QIcon(":/Qmitk/CreateSurface.png"), "Create surface", this); createSurfaceAction->setEnabled(true); createSurfaceAction->setMenu(new QMenu()); QAction *tmp1 = createSurfaceAction->menu()->addAction(QString("Detailed")); QAction *tmp2 = createSurfaceAction->menu()->addAction(QString("Smoothed")); QObject::connect(tmp1, SIGNAL(triggered(bool)), this, SLOT(OnCreateDetailedSurface(bool))); QObject::connect(tmp2, SIGNAL(triggered(bool)), this, SLOT(OnCreateSmoothedSurface(bool))); menu->addAction(createSurfaceAction); QAction *createMaskAction = new QAction(QIcon(":/Qmitk/CreateMask.png"), "Create mask", this); createMaskAction->setEnabled(true); QObject::connect(createMaskAction, SIGNAL(triggered(bool)), this, SLOT(OnCreateMask(bool))); menu->addAction(createMaskAction); QAction *createCroppedMaskAction = new QAction(QIcon(":/Qmitk/CreateMask.png"), "Create cropped mask", this); createCroppedMaskAction->setEnabled(true); QObject::connect(createCroppedMaskAction, SIGNAL(triggered(bool)), this, SLOT(OnCreateCroppedMask(bool))); menu->addAction(createCroppedMaskAction); QSlider *opacitySlider = new QSlider; opacitySlider->setMinimum(0); opacitySlider->setMaximum(100); opacitySlider->setOrientation(Qt::Horizontal); QObject::connect(opacitySlider, SIGNAL(valueChanged(int)), this, SLOT(OnOpacityChanged(int))); QLabel *_OpacityLabel = new QLabel("Opacity: "); QVBoxLayout *_OpacityWidgetLayout = new QVBoxLayout; _OpacityWidgetLayout->setContentsMargins(4, 4, 4, 4); _OpacityWidgetLayout->addWidget(_OpacityLabel); _OpacityWidgetLayout->addWidget(opacitySlider); QWidget *_OpacityWidget = new QWidget; _OpacityWidget->setLayout(_OpacityWidgetLayout); QWidgetAction *OpacityAction = new QWidgetAction(this); OpacityAction->setDefaultWidget(_OpacityWidget); // QObject::connect( m_OpacityAction, SIGNAL( changed() ), this, SLOT( OpacityActionChanged() ) ); auto workingImage = this->GetWorkingImage(); auto activeLayer = workingImage->GetActiveLayer(); auto label = workingImage->GetLabel(pixelValue, activeLayer); if (nullptr != label) { auto opacity = label->GetOpacity(); opacitySlider->setValue(static_cast(opacity * 100)); } menu->addAction(OpacityAction); } menu->popup(QCursor::pos()); } void QmitkLabelSetWidget::OnUnlockAllLabels(bool /*value*/) { GetWorkingImage()->GetActiveLabelSet()->SetAllLabelsLocked(false); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::OnLockAllLabels(bool /*value*/) { GetWorkingImage()->GetActiveLabelSet()->SetAllLabelsLocked(true); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::OnSetAllLabelsVisible(bool /*value*/) { GetWorkingImage()->GetActiveLabelSet()->SetAllLabelsVisible(true); UpdateAllTableWidgetItems(); } void QmitkLabelSetWidget::OnSetAllLabelsInvisible(bool /*value*/) { GetWorkingImage()->GetActiveLabelSet()->SetAllLabelsVisible(false); UpdateAllTableWidgetItems(); } void QmitkLabelSetWidget::OnSetOnlyActiveLabelVisible(bool /*value*/) { mitk::LabelSetImage *workingImage = GetWorkingImage(); int pixelValue = GetPixelValueOfSelectedItem(); workingImage->GetActiveLabelSet()->SetAllLabelsVisible(false); workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->SetVisible(true); workingImage->GetActiveLabelSet()->UpdateLookupTable(pixelValue); this->WaitCursorOn(); const mitk::Point3D &pos = workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->GetCenterOfMassCoordinates(); this->WaitCursorOff(); if (pos.GetVnlVector().max_value() > 0.0) { emit goToLabel(pos); } UpdateAllTableWidgetItems(); } void QmitkLabelSetWidget::OnEraseLabel(bool /*value*/) { int pixelValue = GetPixelValueOfSelectedItem(); QString question = "Do you really want to erase the contents of label \""; question.append( QString::fromStdString(GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetName())); question.append("\"?"); QMessageBox::StandardButton answerButton = QMessageBox::question(this, "Erase label", question, QMessageBox::Yes | QMessageBox::Cancel, QMessageBox::Yes); if (answerButton == QMessageBox::Yes) { this->WaitCursorOn(); GetWorkingImage()->EraseLabel(pixelValue); this->WaitCursorOff(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkLabelSetWidget::OnRemoveLabel(bool /*value*/) { int pixelValue = GetPixelValueOfSelectedItem(); QString question = "Do you really want to remove label \""; question.append( QString::fromStdString(GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetName())); question.append("\"?"); QMessageBox::StandardButton answerButton = QMessageBox::question(this, "Remove label", question, QMessageBox::Yes | QMessageBox::Cancel, QMessageBox::Yes); if (answerButton == QMessageBox::Yes) { this->WaitCursorOn(); GetWorkingImage()->RemoveLabel(pixelValue, GetWorkingImage()->GetActiveLayer()); this->WaitCursorOff(); } ResetAllTableWidgetItems(); } void QmitkLabelSetWidget::OnRenameLabel(bool /*value*/) { int pixelValue = GetPixelValueOfSelectedItem(); QmitkNewSegmentationDialog dialog(this, this->GetWorkingImage(), QmitkNewSegmentationDialog::RenameLabel); dialog.SetColor(GetWorkingImage()->GetActiveLabelSet()->GetLabel(pixelValue)->GetColor()); dialog.SetName(QString::fromStdString(GetWorkingImage()->GetActiveLabelSet()->GetLabel(pixelValue)->GetName())); if (dialog.exec() == QDialog::Rejected) { return; } QString segmentationName = dialog.GetName(); if (segmentationName.isEmpty()) { segmentationName = "Unnamed"; } GetWorkingImage()->GetActiveLabelSet()->RenameLabel(pixelValue, segmentationName.toStdString(), dialog.GetColor()); GetWorkingImage()->GetActiveLabelSet()->UpdateLookupTable(pixelValue); UpdateAllTableWidgetItems(); } +void QmitkLabelSetWidget::OnRenameLabelShortcutActivated() +{ + if (m_Controls.m_LabelSetTableWidget->selectedItems().size() == 1) + this->OnRenameLabel(true); +} + void QmitkLabelSetWidget::OnCombineAndCreateMask(bool /*value*/) { m_Controls.m_LabelSetTableWidget->selectedRanges(); // ...to do... // } void QmitkLabelSetWidget::OnCreateMasks(bool /*value*/) { m_Controls.m_LabelSetTableWidget->selectedRanges(); // ..to do.. // } void QmitkLabelSetWidget::OnCombineAndCreateSurface(bool /*value*/) { m_Controls.m_LabelSetTableWidget->selectedRanges(); // ..to do.. // } void QmitkLabelSetWidget::OnEraseLabels(bool /*value*/) { QString question = "Do you really want to erase the selected labels?"; QMessageBox::StandardButton answerButton = QMessageBox::question( this, "Erase selected labels", question, QMessageBox::Yes | QMessageBox::Cancel, QMessageBox::Yes); if (answerButton == QMessageBox::Yes) { QList ranges = m_Controls.m_LabelSetTableWidget->selectedRanges(); if (ranges.isEmpty()) return; std::vector VectorOfLablePixelValues; foreach (QTableWidgetSelectionRange a, ranges) for (int i = a.topRow(); i <= a.bottomRow(); i++) VectorOfLablePixelValues.push_back(m_Controls.m_LabelSetTableWidget->item(i, 0)->data(Qt::UserRole).toInt()); this->WaitCursorOn(); GetWorkingImage()->EraseLabels(VectorOfLablePixelValues); this->WaitCursorOff(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkLabelSetWidget::OnRemoveLabels(bool /*value*/) { QString question = "Do you really want to remove the selected labels?"; QMessageBox::StandardButton answerButton = QMessageBox::question( this, "Remove selected labels", question, QMessageBox::Yes | QMessageBox::Cancel, QMessageBox::Yes); if (answerButton == QMessageBox::Yes) { QList ranges = m_Controls.m_LabelSetTableWidget->selectedRanges(); if (ranges.isEmpty()) { return; } std::vector VectorOfLablePixelValues; foreach (QTableWidgetSelectionRange a, ranges) { for (int i = a.topRow(); i <= a.bottomRow(); ++i) { VectorOfLablePixelValues.push_back(m_Controls.m_LabelSetTableWidget->item(i, 0)->data(Qt::UserRole).toInt()); } } this->WaitCursorOn(); GetWorkingImage()->RemoveLabels(VectorOfLablePixelValues, GetWorkingImage()->GetActiveLayer()); this->WaitCursorOff(); } ResetAllTableWidgetItems(); } void QmitkLabelSetWidget::OnMergeLabels(bool /*value*/) { int pixelValue = GetPixelValueOfSelectedItem(); QString question = "Do you really want to merge selected labels into \""; question.append( QString::fromStdString(GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetName())); question.append("\"?"); QMessageBox::StandardButton answerButton = QMessageBox::question( this, "Merge selected label", question, QMessageBox::Yes | QMessageBox::Cancel, QMessageBox::Yes); if (answerButton == QMessageBox::Yes) { QList ranges = m_Controls.m_LabelSetTableWidget->selectedRanges(); if (ranges.isEmpty()) { return; } std::vector vectorOfSourcePixelValues; foreach (QTableWidgetSelectionRange a, ranges) { for (int i = a.topRow(); i <= a.bottomRow(); ++i) { vectorOfSourcePixelValues.push_back(m_Controls.m_LabelSetTableWidget->item(i, 0)->data(Qt::UserRole).toInt()); } } this->WaitCursorOn(); GetWorkingImage()->MergeLabels(pixelValue, vectorOfSourcePixelValues, GetWorkingImage()->GetActiveLayer()); this->WaitCursorOff(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkLabelSetWidget::OnLockedButtonClicked() { int row = -1; for (int i = 0; i < m_Controls.m_LabelSetTableWidget->rowCount(); ++i) { if (sender() == m_Controls.m_LabelSetTableWidget->cellWidget(i, LOCKED_COL)) { row = i; } } if (row >= 0 && row < m_Controls.m_LabelSetTableWidget->rowCount()) { int pixelValue = m_Controls.m_LabelSetTableWidget->item(row, 0)->data(Qt::UserRole).toInt(); GetWorkingImage() ->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer()) ->SetLocked(!GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetLocked()); } } void QmitkLabelSetWidget::OnVisibleButtonClicked() { int row = -1; for (int i = 0; i < m_Controls.m_LabelSetTableWidget->rowCount(); ++i) { if (sender() == m_Controls.m_LabelSetTableWidget->cellWidget(i, VISIBLE_COL)) { row = i; break; } } if (row >= 0 && row < m_Controls.m_LabelSetTableWidget->rowCount()) { QTableWidgetItem *item = m_Controls.m_LabelSetTableWidget->item(row, 0); int pixelValue = item->data(Qt::UserRole).toInt(); GetWorkingImage() ->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer()) ->SetVisible(!GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetVisible()); GetWorkingImage()->GetActiveLabelSet()->UpdateLookupTable(pixelValue); } mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::OnColorButtonClicked() { int row = -1; for (int i = 0; i < m_Controls.m_LabelSetTableWidget->rowCount(); ++i) { if (sender() == m_Controls.m_LabelSetTableWidget->cellWidget(i, COLOR_COL)) { row = i; } } if (row >= 0 && row < m_Controls.m_LabelSetTableWidget->rowCount()) { int pixelValue = m_Controls.m_LabelSetTableWidget->item(row, 0)->data(Qt::UserRole).toInt(); const mitk::Color &color = GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetColor(); QColor initial(color.GetRed() * 255, color.GetGreen() * 255, color.GetBlue() * 255); QColor qcolor = QColorDialog::getColor(initial, nullptr, QString("Change color")); if (!qcolor.isValid()) { return; } QPushButton *button = static_cast(m_Controls.m_LabelSetTableWidget->cellWidget(row, COLOR_COL)); if (!button) { return; } button->setAutoFillBackground(true); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(qcolor.red())); styleSheet.append(","); styleSheet.append(QString::number(qcolor.green())); styleSheet.append(","); styleSheet.append(QString::number(qcolor.blue())); styleSheet.append("); border: 0;"); button->setStyleSheet(styleSheet); mitk::Color newColor; newColor.SetRed(qcolor.red() / 255.0); newColor.SetGreen(qcolor.green() / 255.0); newColor.SetBlue(qcolor.blue() / 255.0); GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->SetColor(newColor); GetWorkingImage()->GetActiveLabelSet()->UpdateLookupTable(pixelValue); } } void QmitkLabelSetWidget::OnRandomColor(bool /*value*/) { int pixelValue = GetPixelValueOfSelectedItem(); GetWorkingImage() ->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer()) ->SetColor(m_ColorSequenceRainbow.GetNextColor()); GetWorkingImage()->GetActiveLabelSet()->UpdateLookupTable(pixelValue); UpdateAllTableWidgetItems(); } void QmitkLabelSetWidget::OnActiveLabelChanged(int pixelValue) { mitk::LabelSetImage *workingImage = GetWorkingImage(); assert(workingImage); workingImage->GetActiveLabelSet()->SetActiveLabel(pixelValue); // MITK_INFO << "Active Label set to << " << pixelValue; mitk::SurfaceBasedInterpolationController *interpolator = mitk::SurfaceBasedInterpolationController::GetInstance(); if (interpolator) { interpolator->SetActiveLabel(pixelValue); } workingImage->Modified(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::OnItemClicked(QTableWidgetItem *item) { if (!item) return; int pixelValue = item->data(Qt::UserRole).toInt(); QList ranges = m_Controls.m_LabelSetTableWidget->selectedRanges(); if (!ranges.empty() && ranges.back().rowCount() == 1) { m_ProcessingManualSelection = true; OnActiveLabelChanged(pixelValue); m_ProcessingManualSelection = false; mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkLabelSetWidget::OnItemDoubleClicked(QTableWidgetItem *item) { if (!item) return; int pixelValue = item->data(Qt::UserRole).toInt(); // OnItemClicked(item); <<-- Double click first call OnItemClicked WaitCursorOn(); mitk::LabelSetImage *workingImage = GetWorkingImage(); workingImage->UpdateCenterOfMass(pixelValue, workingImage->GetActiveLayer()); const mitk::Point3D &pos = workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->GetCenterOfMassCoordinates(); WaitCursorOff(); if (pos.GetVnlVector().max_value() > 0.0) { emit goToLabel(pos); } workingImage->Modified(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::SelectLabelByPixelValue(mitk::Label::PixelType pixelValue) { if (m_ProcessingManualSelection || !GetWorkingImage()->ExistLabel(pixelValue)) return; for (int row = 0; row < m_Controls.m_LabelSetTableWidget->rowCount(); row++) { if (m_Controls.m_LabelSetTableWidget->item(row, 0)->data(Qt::UserRole).toInt() == pixelValue) { m_Controls.m_LabelSetTableWidget->clearSelection(); m_Controls.m_LabelSetTableWidget->selectRow(row); m_Controls.m_LabelSetTableWidget->scrollToItem(m_Controls.m_LabelSetTableWidget->item(row, 0)); return; } } } void QmitkLabelSetWidget::InsertTableWidgetItem(mitk::Label *label) { const mitk::Color &color = label->GetColor(); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color[0] * 255)); styleSheet.append(","); styleSheet.append(QString::number(color[1] * 255)); styleSheet.append(","); styleSheet.append(QString::number(color[2] * 255)); styleSheet.append("); border: 0;"); QTableWidget *tableWidget = m_Controls.m_LabelSetTableWidget; int colWidth = (tableWidget->columnWidth(NAME_COL) < 180) ? 180 : tableWidget->columnWidth(NAME_COL) - 2; QString text = fontMetrics().elidedText(label->GetName().c_str(), Qt::ElideMiddle, colWidth); QTableWidgetItem *nameItem = new QTableWidgetItem(text); nameItem->setTextAlignment(Qt::AlignCenter | Qt::AlignLeft); // ---!--- // IMPORTANT: ADD PIXELVALUE TO TABLEWIDGETITEM.DATA nameItem->setData(Qt::UserRole, QVariant(label->GetValue())); // ---!--- QPushButton *pbColor = new QPushButton(tableWidget); pbColor->setFixedSize(24, 24); pbColor->setCheckable(false); pbColor->setAutoFillBackground(true); pbColor->setToolTip("Change label color"); pbColor->setStyleSheet(styleSheet); connect(pbColor, SIGNAL(clicked()), this, SLOT(OnColorButtonClicked())); QString transparentStyleSheet = QLatin1String("background-color: transparent; border: 0;"); QPushButton *pbLocked = new QPushButton(tableWidget); pbLocked->setFixedSize(24, 24); QIcon *iconLocked = new QIcon(); auto lockIcon = QmitkStyleManager::ThemeIcon(QLatin1String(":/Qmitk/lock.svg")); auto unlockIcon = QmitkStyleManager::ThemeIcon(QLatin1String(":/Qmitk/unlock.svg")); iconLocked->addPixmap(lockIcon.pixmap(64), QIcon::Normal, QIcon::Off); iconLocked->addPixmap(unlockIcon.pixmap(64), QIcon::Normal, QIcon::On); pbLocked->setIcon(*iconLocked); pbLocked->setIconSize(QSize(24, 24)); pbLocked->setCheckable(true); pbLocked->setToolTip("Lock/unlock label"); pbLocked->setChecked(!label->GetLocked()); pbLocked->setStyleSheet(transparentStyleSheet); connect(pbLocked, SIGNAL(clicked()), this, SLOT(OnLockedButtonClicked())); QPushButton *pbVisible = new QPushButton(tableWidget); pbVisible->setFixedSize(24, 24); pbVisible->setAutoRepeat(false); QIcon *iconVisible = new QIcon(); auto visibleIcon = QmitkStyleManager::ThemeIcon(QLatin1String(":/Qmitk/visible.svg")); auto invisibleIcon = QmitkStyleManager::ThemeIcon(QLatin1String(":/Qmitk/invisible.svg")); iconVisible->addPixmap(visibleIcon.pixmap(64), QIcon::Normal, QIcon::Off); iconVisible->addPixmap(invisibleIcon.pixmap(64), QIcon::Normal, QIcon::On); pbVisible->setIcon(*iconVisible); pbVisible->setIconSize(QSize(24, 24)); pbVisible->setCheckable(true); pbVisible->setToolTip("Show/hide label"); pbVisible->setChecked(!label->GetVisible()); pbVisible->setStyleSheet(transparentStyleSheet); connect(pbVisible, SIGNAL(clicked()), this, SLOT(OnVisibleButtonClicked())); int row = tableWidget->rowCount(); tableWidget->insertRow(row); tableWidget->setRowHeight(row, 24); tableWidget->setItem(row, 0, nameItem); tableWidget->setCellWidget(row, 1, pbLocked); tableWidget->setCellWidget(row, 2, pbColor); tableWidget->setCellWidget(row, 3, pbVisible); tableWidget->selectRow(row); // m_LabelSetImage->SetActiveLabel(label->GetPixelValue()); // m_ToolManager->WorkingDataModified.Send(); // emit activeLabelChanged(label->GetPixelValue()); if (row == 0) { tableWidget->hideRow(row); // hide exterior label } } void QmitkLabelSetWidget::UpdateAllTableWidgetItems() { mitk::LabelSetImage *workingImage = GetWorkingImage(); if (!workingImage) return; // add all labels QTableWidget *tableWidget = m_Controls.m_LabelSetTableWidget; m_LabelStringList.clear(); for (int i = 0; i < tableWidget->rowCount(); ++i) { UpdateTableWidgetItem(tableWidget->item(i, 0)); m_LabelStringList.append(tableWidget->item(i, 0)->text()); } OnLabelListModified(m_LabelStringList); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::UpdateTableWidgetItem(QTableWidgetItem *item) { mitk::LabelSetImage *workingImage = GetWorkingImage(); mitk::Label *label = workingImage->GetLabel(item->data(Qt::UserRole).toInt(), workingImage->GetActiveLayer()); const mitk::Color &color = label->GetColor(); QString styleSheet = "background-color:rgb("; styleSheet.append(QString::number(color[0] * 255)); styleSheet.append(","); styleSheet.append(QString::number(color[1] * 255)); styleSheet.append(","); styleSheet.append(QString::number(color[2] * 255)); styleSheet.append("); border: 0;"); QTableWidget *tableWidget = m_Controls.m_LabelSetTableWidget; int colWidth = (tableWidget->columnWidth(NAME_COL) < 180) ? 180 : tableWidget->columnWidth(NAME_COL) - 2; QString text = fontMetrics().elidedText(label->GetName().c_str(), Qt::ElideMiddle, colWidth); item->setText(text); QPushButton *pbLocked = dynamic_cast(tableWidget->cellWidget(item->row(), 1)); pbLocked->setChecked(!label->GetLocked()); QPushButton *pbColor = dynamic_cast(tableWidget->cellWidget(item->row(), 2)); pbColor->setStyleSheet(styleSheet); QPushButton *pbVisible = dynamic_cast(tableWidget->cellWidget(item->row(), 3)); pbVisible->setChecked(!label->GetVisible()); if (item->row() == 0) { tableWidget->hideRow(item->row()); // hide exterior label } } void QmitkLabelSetWidget::ResetAllTableWidgetItems() { QTableWidget *tableWidget = m_Controls.m_LabelSetTableWidget; // remove all rows while (tableWidget->rowCount()) { tableWidget->removeRow(0); } mitk::DataNode * workingNode = GetWorkingNode(); auto workingImage = dynamic_cast(workingNode->GetData()); if (nullptr == workingImage) { return; } // add all labels m_LabelStringList.clear(); mitk::LabelSet::LabelContainerConstIteratorType it = workingImage->GetActiveLabelSet()->IteratorConstBegin(); mitk::LabelSet::LabelContainerConstIteratorType end = workingImage->GetActiveLabelSet()->IteratorConstEnd(); int pixelValue = -1; while (it != end) { InsertTableWidgetItem(it->second); if (workingImage->GetActiveLabel(workingImage->GetActiveLayer()) == it->second) // get active pixelValue = it->first; m_LabelStringList.append(QString(it->second->GetName().c_str())); it++; } SelectLabelByPixelValue(pixelValue); OnLabelListModified(m_LabelStringList); std::stringstream captionText; captionText << "Number of labels: " << workingImage->GetNumberOfLabels(workingImage->GetActiveLayer()) - 1; m_Controls.m_lblCaption->setText(captionText.str().c_str()); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); emit LabelSetWidgetReset(); } int QmitkLabelSetWidget::GetPixelValueOfSelectedItem() { if (m_Controls.m_LabelSetTableWidget->currentItem()) { return m_Controls.m_LabelSetTableWidget->currentItem()->data(Qt::UserRole).toInt(); } return -1; } QStringList &QmitkLabelSetWidget::GetLabelStringList() { return m_LabelStringList; } void QmitkLabelSetWidget::InitializeTableWidget() { QTableWidget *tableWidget = m_Controls.m_LabelSetTableWidget; tableWidget->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Maximum); tableWidget->setTabKeyNavigation(false); tableWidget->setAlternatingRowColors(false); tableWidget->setFocusPolicy(Qt::NoFocus); tableWidget->setColumnCount(4); tableWidget->resizeColumnToContents(NAME_COL); tableWidget->setColumnWidth(LOCKED_COL, 25); tableWidget->setColumnWidth(COLOR_COL, 25); tableWidget->setColumnWidth(VISIBLE_COL, 25); tableWidget->horizontalHeader()->setSectionResizeMode(0, QHeaderView::Stretch); tableWidget->setContextMenuPolicy(Qt::CustomContextMenu); tableWidget->horizontalHeader()->hide(); tableWidget->setSortingEnabled(false); tableWidget->verticalHeader()->hide(); tableWidget->setEditTriggers(QAbstractItemView::NoEditTriggers); connect(tableWidget, SIGNAL(itemClicked(QTableWidgetItem *)), this, SLOT(OnItemClicked(QTableWidgetItem *))); connect( tableWidget, SIGNAL(itemDoubleClicked(QTableWidgetItem *)), this, SLOT(OnItemDoubleClicked(QTableWidgetItem *))); connect(tableWidget, SIGNAL(customContextMenuRequested(const QPoint &)), this, SLOT(OnTableViewContextMenuRequested(const QPoint &))); } void QmitkLabelSetWidget::OnOpacityChanged(int value) { int pixelValue = GetPixelValueOfSelectedItem(); float opacity = static_cast(value) / 100.0f; GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->SetOpacity(opacity); GetWorkingImage()->GetActiveLabelSet()->UpdateLookupTable(pixelValue); } void QmitkLabelSetWidget::setEnabled(bool enabled) { QWidget::setEnabled(enabled); UpdateControls(); } void QmitkLabelSetWidget::SetDataStorage(mitk::DataStorage *storage) { m_DataStorage = storage; } void QmitkLabelSetWidget::OnSearchLabel() { std::string text = m_Controls.m_LabelSearchBox->text().toStdString(); int pixelValue = -1; int row = -1; for (int i = 0; i < m_Controls.m_LabelSetTableWidget->rowCount(); ++i) { if (m_Controls.m_LabelSetTableWidget->item(i, 0)->text().toStdString().compare(text) == 0) { pixelValue = m_Controls.m_LabelSetTableWidget->item(i, 0)->data(Qt::UserRole).toInt(); row = i; break; } } if (pixelValue == -1) { return; } GetWorkingImage()->GetActiveLabelSet()->SetActiveLabel(pixelValue); QTableWidgetItem *nameItem = m_Controls.m_LabelSetTableWidget->item(row, NAME_COL); if (!nameItem) { return; } m_Controls.m_LabelSetTableWidget->clearSelection(); m_Controls.m_LabelSetTableWidget->selectRow(row); m_Controls.m_LabelSetTableWidget->scrollToItem(nameItem); GetWorkingImage()->GetActiveLabelSet()->SetActiveLabel(pixelValue); this->WaitCursorOn(); mitk::Point3D pos = GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetCenterOfMassCoordinates(); m_ToolManager->WorkingDataChanged(); if (pos.GetVnlVector().max_value() > 0.0) { emit goToLabel(pos); } else { GetWorkingImage()->UpdateCenterOfMass(pixelValue, GetWorkingImage()->GetActiveLayer()); mitk::Point3D pos = GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetCenterOfMassCoordinates(); emit goToLabel(pos); } this->WaitCursorOff(); } void QmitkLabelSetWidget::OnLabelListModified(const QStringList &list) { QStringListModel *completeModel = static_cast(m_Completer->model()); completeModel->setStringList(list); } mitk::LabelSetImage *QmitkLabelSetWidget::GetWorkingImage() { mitk::DataNode *workingNode = GetWorkingNode(); mitk::LabelSetImage *workingImage = dynamic_cast(workingNode->GetData()); assert(workingImage); return workingImage; } mitk::DataNode *QmitkLabelSetWidget::GetWorkingNode() { mitk::DataNode *workingNode = m_ToolManager->GetWorkingData(0); assert(workingNode); return workingNode; } void QmitkLabelSetWidget::UpdateControls() { mitk::DataNode *workingNode = m_ToolManager->GetWorkingData(0); bool hasWorkingData = (workingNode != nullptr); m_Controls.m_LabelSetTableWidget->setEnabled(hasWorkingData); m_Controls.m_LabelSearchBox->setEnabled(hasWorkingData); if (!hasWorkingData) return; QStringListModel *completeModel = static_cast(m_Completer->model()); completeModel->setStringList(GetLabelStringList()); } void QmitkLabelSetWidget::OnCreateCroppedMask(bool) { m_ToolManager->ActivateTool(-1); mitk::LabelSetImage *workingImage = GetWorkingImage(); mitk::Image::Pointer maskImage; int pixelValue = GetPixelValueOfSelectedItem(); try { this->WaitCursorOn(); mitk::AutoCropImageFilter::Pointer cropFilter = mitk::AutoCropImageFilter::New(); cropFilter->SetInput(workingImage->CreateLabelMask(pixelValue)); cropFilter->SetBackgroundValue(0); cropFilter->SetMarginFactor(1.15); cropFilter->Update(); maskImage = cropFilter->GetOutput(); this->WaitCursorOff(); } catch (mitk::Exception &e) { this->WaitCursorOff(); MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::information(this, "Create Mask", "Could not create a mask out of the selected label.\n"); return; } if (maskImage.IsNull()) { QMessageBox::information(this, "Create Mask", "Could not create a mask out of the selected label.\n"); return; } mitk::DataNode::Pointer maskNode = mitk::DataNode::New(); std::string name = workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->GetName(); name += "-mask"; maskNode->SetName(name); maskNode->SetData(maskImage); maskNode->SetBoolProperty("binary", true); maskNode->SetBoolProperty("outline binary", true); maskNode->SetBoolProperty("outline binary shadow", true); maskNode->SetFloatProperty("outline width", 2.0); maskNode->SetColor(workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->GetColor()); maskNode->SetOpacity(1.0); m_DataStorage->Add(maskNode, GetWorkingNode()); } void QmitkLabelSetWidget::OnCreateMask(bool /*triggered*/) { m_ToolManager->ActivateTool(-1); mitk::LabelSetImage *workingImage = GetWorkingImage(); mitk::Image::Pointer maskImage; int pixelValue = GetPixelValueOfSelectedItem(); try { this->WaitCursorOn(); maskImage = workingImage->CreateLabelMask(pixelValue); this->WaitCursorOff(); } catch (mitk::Exception &e) { this->WaitCursorOff(); MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::information(this, "Create Mask", "Could not create a mask out of the selected label.\n"); return; } if (maskImage.IsNull()) { QMessageBox::information(this, "Create Mask", "Could not create a mask out of the selected label.\n"); return; } mitk::DataNode::Pointer maskNode = mitk::DataNode::New(); std::string name = workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->GetName(); name += "-mask"; maskNode->SetName(name); maskNode->SetData(maskImage); maskNode->SetBoolProperty("binary", true); maskNode->SetBoolProperty("outline binary", true); maskNode->SetBoolProperty("outline binary shadow", true); maskNode->SetFloatProperty("outline width", 2.0); maskNode->SetColor(workingImage->GetLabel(pixelValue, workingImage->GetActiveLayer())->GetColor()); maskNode->SetOpacity(1.0); m_DataStorage->Add(maskNode, GetWorkingNode()); } void QmitkLabelSetWidget::OnToggleOutline(bool value) { mitk::DataNode *workingNode = m_ToolManager->GetWorkingData(0); assert(workingNode); workingNode->SetBoolProperty("labelset.contour.active", value); workingNode->GetData()->Modified(); // fixme: workaround to force data-type rendering (and not only property-type) mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkLabelSetWidget::OnCreateSmoothedSurface(bool /*triggered*/) { m_ToolManager->ActivateTool(-1); mitk::DataNode::Pointer workingNode = GetWorkingNode(); mitk::LabelSetImage *workingImage = GetWorkingImage(); int pixelValue = GetPixelValueOfSelectedItem(); mitk::LabelSetImageToSurfaceThreadedFilter::Pointer surfaceFilter = mitk::LabelSetImageToSurfaceThreadedFilter::New(); itk::SimpleMemberCommand::Pointer successCommand = itk::SimpleMemberCommand::New(); successCommand->SetCallbackFunction(this, &QmitkLabelSetWidget::OnThreadedCalculationDone); surfaceFilter->AddObserver(mitk::ResultAvailable(), successCommand); itk::SimpleMemberCommand::Pointer errorCommand = itk::SimpleMemberCommand::New(); errorCommand->SetCallbackFunction(this, &QmitkLabelSetWidget::OnThreadedCalculationDone); surfaceFilter->AddObserver(mitk::ProcessingError(), errorCommand); mitk::DataNode::Pointer groupNode = workingNode; surfaceFilter->SetPointerParameter("Group node", groupNode); surfaceFilter->SetPointerParameter("Input", workingImage); surfaceFilter->SetParameter("RequestedLabel", pixelValue); surfaceFilter->SetParameter("Smooth", true); surfaceFilter->SetDataStorage(*m_DataStorage); mitk::StatusBar::GetInstance()->DisplayText("Surface creation is running in background..."); try { surfaceFilter->StartAlgorithm(); } catch (mitk::Exception &e) { MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::information(this, "Create Surface", "Could not create a surface mesh out of the selected label. See error log for details.\n"); } } void QmitkLabelSetWidget::OnCreateDetailedSurface(bool /*triggered*/) { m_ToolManager->ActivateTool(-1); mitk::DataNode::Pointer workingNode = GetWorkingNode(); mitk::LabelSetImage *workingImage = GetWorkingImage(); int pixelValue = GetPixelValueOfSelectedItem(); mitk::LabelSetImageToSurfaceThreadedFilter::Pointer surfaceFilter = mitk::LabelSetImageToSurfaceThreadedFilter::New(); itk::SimpleMemberCommand::Pointer successCommand = itk::SimpleMemberCommand::New(); successCommand->SetCallbackFunction(this, &QmitkLabelSetWidget::OnThreadedCalculationDone); surfaceFilter->AddObserver(mitk::ResultAvailable(), successCommand); itk::SimpleMemberCommand::Pointer errorCommand = itk::SimpleMemberCommand::New(); errorCommand->SetCallbackFunction(this, &QmitkLabelSetWidget::OnThreadedCalculationDone); surfaceFilter->AddObserver(mitk::ProcessingError(), errorCommand); mitk::DataNode::Pointer groupNode = workingNode; surfaceFilter->SetPointerParameter("Group node", groupNode); surfaceFilter->SetPointerParameter("Input", workingImage); surfaceFilter->SetParameter("RequestedLabel", pixelValue); surfaceFilter->SetParameter("Smooth", false); surfaceFilter->SetDataStorage(*m_DataStorage); mitk::StatusBar::GetInstance()->DisplayText("Surface creation is running in background..."); try { surfaceFilter->StartAlgorithm(); } catch (mitk::Exception &e) { MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::information(this, "Create Surface", "Could not create a surface mesh out of the selected label. See error log for details.\n"); } } void QmitkLabelSetWidget::WaitCursorOn() { QApplication::setOverrideCursor(QCursor(Qt::WaitCursor)); } void QmitkLabelSetWidget::WaitCursorOff() { this->RestoreOverrideCursor(); } void QmitkLabelSetWidget::RestoreOverrideCursor() { QApplication::restoreOverrideCursor(); } void QmitkLabelSetWidget::OnThreadedCalculationDone() { mitk::StatusBar::GetInstance()->Clear(); } diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.h b/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.h index 9fb7a1c0e8..a1d6146b4d 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.h +++ b/Plugins/org.mitk.gui.qt.segmentation/src/QmitkLabelSetWidget.h @@ -1,165 +1,166 @@ /*============================================================================ 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 QmitkLabelSetWidget_h #define QmitkLabelSetWidget_h #include #include #include #include #include class QmitkDataStorageComboBox; class QCompleter; namespace mitk { class LabelSetImage; class LabelSet; class Label; class DataStorage; class ToolManager; class DataNode; } class MITK_QT_SEGMENTATION QmitkLabelSetWidget : public QWidget { Q_OBJECT public: explicit QmitkLabelSetWidget(QWidget *parent = nullptr); ~QmitkLabelSetWidget() override; void SetDataStorage(mitk::DataStorage *storage); void UpdateControls(); virtual void setEnabled(bool enabled); QStringList &GetLabelStringList(); signals: /// \brief Send a signal when it was requested to go to a label. void goToLabel(const mitk::Point3D &); void LabelSetWidgetReset(); public slots: /** * @brief Updates the current labels in the label set widget table. For each label (widget item) the 'UpdateTableWidgetItem' is called. * * Updating means setting the color box of the table, setting the column with and fill it with the label name. * Furthermore the two push buttons for locking and showing/hiding the layer are checked/unchecked. * This functions only changes the appearance of the table widget and no render window update is necessary. */ void UpdateAllTableWidgetItems(); /** * @brief Resets the current labels in the label set widget table. For each label a widget item is inserted into the table. * * Resetting means removing all rows of the widget table and inserting new rows (labels) from the active label set (= layer) of the current working node. * The currently active label is selected and 'Number of labels' is set. * As this function is typically used after one label has been removed or the reference node has been changed (e.g.) the render windows have to be updated. */ void ResetAllTableWidgetItems(); void SelectLabelByPixelValue(mitk::Label::PixelType pixelValue); private slots: // LabelSet dependent void OnOpacityChanged(int); void OnUnlockAllLabels(bool); void OnLockAllLabels(bool); void OnSetAllLabelsVisible(bool); void OnSetAllLabelsInvisible(bool); void OnSetOnlyActiveLabelVisible(bool); void OnRandomColor(bool); void OnRemoveLabel(bool); void OnRemoveLabels(bool); void OnRenameLabel(bool); + void OnRenameLabelShortcutActivated(); void OnLockedButtonClicked(); void OnVisibleButtonClicked(); void OnColorButtonClicked(); void OnItemClicked(QTableWidgetItem *item); void OnItemDoubleClicked(QTableWidgetItem *item); void OnTableViewContextMenuRequested(const QPoint &); void InsertTableWidgetItem(mitk::Label *label); void UpdateTableWidgetItem(QTableWidgetItem *item); // reaction to "returnPressed" signal from ... void OnSearchLabel(); // reaction to the button "Change Label" void OnActiveLabelChanged(int pixelValue); // LabelSetImage Dependet void OnCreateDetailedSurface(bool); void OnCreateSmoothedSurface(bool); // reaction to the signal "createMask" from QmitkLabelSetTableWidget void OnCreateMask(bool); void OnCreateMasks(bool); // reaction to the signal "createCroppedMask" from QmitkLabelSetTableWidget void OnCreateCroppedMask(bool); void OnCombineAndCreateMask(bool); void OnCombineAndCreateSurface(bool); void OnEraseLabel(bool); void OnEraseLabels(bool); void OnMergeLabels(bool); // reaction to signal "labelListModified" from QmitkLabelSetTableWidget void OnLabelListModified(const QStringList &list); // reaction to the signal "toggleOutline" from QmitkLabelSetTableWidget void OnToggleOutline(bool); private: enum TableColumns { NAME_COL = 0, LOCKED_COL, COLOR_COL, VISIBLE_COL }; void WaitCursorOn(); void WaitCursorOff(); void RestoreOverrideCursor(); void OnThreadedCalculationDone(); void InitializeTableWidget(); int GetPixelValueOfSelectedItem(); mitk::LabelSetImage *GetWorkingImage(); mitk::DataNode *GetWorkingNode(); Ui::QmitkLabelSetWidgetControls m_Controls; mitk::ColorSequenceRainbow m_ColorSequenceRainbow; mitk::DataStorage *m_DataStorage; QCompleter *m_Completer; mitk::ToolManager *m_ToolManager; QStringList m_OrganColors; QStringList m_LabelStringList; bool m_ProcessingManualSelection; }; #endif diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.cpp b/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.cpp index 9e354d92ae..656bd0c271 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.cpp +++ b/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.cpp @@ -1,196 +1,205 @@ /*============================================================================ 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 "QmitkLabelsWidget.h" #include // mitk #include #include #include #include #include // Qmitk #include #include #include #include "../QmitkSaveMultiLabelPresetAction.h" #include "../QmitkLoadMultiLabelPresetAction.h" // Qt #include +#include QmitkLabelsWidget::QmitkLabelsWidget(QWidget *parent) : QWidget(parent) , m_Controls(new Ui::QmitkLabelsWidgetControls) , m_ToolManager(nullptr) , m_DefaultLabelNaming(true) { m_Controls->setupUi(this); m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); m_Controls->savePresetButton->setIcon(QmitkStyleManager::ThemeIcon(QStringLiteral(":/org_mitk_icons/icons/awesome/scalable/actions/document-save.svg"))); m_Controls->loadPresetButton->setIcon(QmitkStyleManager::ThemeIcon(QStringLiteral(":/org_mitk_icons/icons/awesome/scalable/actions/document-open.svg"))); connect(m_Controls->newLabelButton, &QToolButton::clicked, this, &QmitkLabelsWidget::OnNewLabel); connect(m_Controls->lockExteriorButton, &QToolButton::toggled, this, &QmitkLabelsWidget::OnLockExterior); connect(m_Controls->savePresetButton, &QToolButton::clicked, this, &QmitkLabelsWidget::OnSavePreset); connect(m_Controls->loadPresetButton, &QToolButton::clicked, this, &QmitkLabelsWidget::OnLoadPreset); connect(m_Controls->showLabelTableButton, &QToolButton::toggled, this, &QmitkLabelsWidget::ShowLabelTable); + auto* newLabelShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_L, Qt::CTRL | Qt::Key::Key_N), this); + connect(newLabelShortcut, &QShortcut::activated, this, &QmitkLabelsWidget::OnNewLabelShortcutActivated); + this->UpdateGUI(); } QmitkLabelsWidget::~QmitkLabelsWidget() { delete m_Controls; } void QmitkLabelsWidget::UpdateGUI() { m_Controls->newLabelButton->setEnabled(false); m_Controls->lockExteriorButton->setEnabled(false); m_Controls->lockExteriorButton->setChecked(false); m_Controls->savePresetButton->setEnabled(false); m_Controls->loadPresetButton->setEnabled(false); m_Controls->showLabelTableButton->setEnabled(false); m_Controls->showLabelTableButton->setChecked(false); mitk::LabelSetImage* workingImage = this->GetWorkingImage(); if (nullptr == workingImage) { return; } int activeLayer = workingImage->GetActiveLayer(); m_Controls->lockExteriorButton->setEnabled(true); m_Controls->lockExteriorButton->setChecked(workingImage->GetLabel(0, activeLayer)->GetLocked()); m_Controls->showLabelTableButton->setEnabled(true); m_Controls->showLabelTableButton->setChecked(true); m_Controls->newLabelButton->setEnabled(true); m_Controls->savePresetButton->setEnabled(true); m_Controls->loadPresetButton->setEnabled(true); } void QmitkLabelsWidget::SetDefaultLabelNaming(bool defaultLabelNaming) { m_DefaultLabelNaming = defaultLabelNaming; } mitk::LabelSetImage* QmitkLabelsWidget::GetWorkingImage() { mitk::DataNode* workingNode = this->GetWorkingNode(); if (nullptr == workingNode) { return nullptr; } auto workingImage = dynamic_cast(workingNode->GetData()); return workingImage; } mitk::DataNode* QmitkLabelsWidget::GetWorkingNode() { mitk::DataNode* referenceNode = m_ToolManager->GetWorkingData(0); return referenceNode; } void QmitkLabelsWidget::OnNewLabel() { m_ToolManager->ActivateTool(-1); mitk::DataNode* workingNode = this->GetWorkingNode(); if (nullptr == workingNode) { return; } auto workingImage = dynamic_cast(workingNode->GetData()); if (nullptr == workingImage) { return; } mitk::Label::Pointer newLabel = mitk::LabelSetImageHelper::CreateNewLabel(workingImage); if (!m_DefaultLabelNaming) { QmitkNewSegmentationDialog dialog(this, workingImage); dialog.SetName(QString::fromStdString(newLabel->GetName())); dialog.SetColor(newLabel->GetColor()); if (QDialog::Rejected == dialog.exec()) return; auto name = dialog.GetName(); if (!name.isEmpty()) newLabel->SetName(name.toStdString()); newLabel->SetColor(dialog.GetColor()); } workingImage->GetActiveLabelSet()->AddLabel(newLabel); this->UpdateGUI(); emit LabelsChanged(); } +void QmitkLabelsWidget::OnNewLabelShortcutActivated() +{ + m_Controls->newLabelButton->click(); +} + void QmitkLabelsWidget::OnLockExterior(bool checked) { auto workingImage = this->GetWorkingImage(); if (nullptr == workingImage) { return; } workingImage->GetLabel(0)->SetLocked(checked); } void QmitkLabelsWidget::OnSavePreset() { auto workingNode = this->GetWorkingNode(); QmitkAbstractNodeSelectionWidget::NodeList nodes; nodes.append(workingNode); QmitkSaveMultiLabelPresetAction action; action.Run(nodes); } void QmitkLabelsWidget::OnLoadPreset() { auto workingNode = this->GetWorkingNode(); QmitkAbstractNodeSelectionWidget::NodeList nodes; nodes.append(workingNode); QmitkLoadMultiLabelPresetAction action; action.Run(nodes); } void QmitkLabelsWidget::WaitCursorOn() { QApplication::setOverrideCursor(QCursor(Qt::WaitCursor)); } void QmitkLabelsWidget::WaitCursorOff() { this->RestoreOverrideCursor(); } void QmitkLabelsWidget::RestoreOverrideCursor() { QApplication::restoreOverrideCursor(); } diff --git a/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.h b/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.h index 127775d686..5b18994b6a 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.h +++ b/Plugins/org.mitk.gui.qt.segmentation/src/internal/Common/QmitkLabelsWidget.h @@ -1,86 +1,87 @@ /*============================================================================ 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 QMITKLABELSWIDGET_H #define QMITKLABELSWIDGET_H // mitk core #include // Qt #include namespace Ui { class QmitkLabelsWidgetControls; } namespace mitk { class DataNode; class Image; class LabelSetImage; class ToolManager; } class QmitkLabelsWidget : public QWidget { Q_OBJECT public: explicit QmitkLabelsWidget(QWidget* parent = nullptr); ~QmitkLabelsWidget() override; void UpdateGUI(); void SetDefaultLabelNaming(bool defaultLabelNaming); Q_SIGNALS: void LabelsChanged(); void ShowLabelTable(bool); private: mitk::LabelSetImage* GetWorkingImage(); mitk::DataNode* GetWorkingNode(); // reaction to button "New Label" void OnNewLabel(); + void OnNewLabelShortcutActivated(); // reaction to the button "Lock exterior" void OnLockExterior(bool); // reaction to button "Save Preset" void OnSavePreset(); // reaction to button "Load Preset" void OnLoadPreset(); void WaitCursorOn(); void WaitCursorOff(); void RestoreOverrideCursor(); Ui::QmitkLabelsWidgetControls* m_Controls; mitk::ToolManager* m_ToolManager; bool m_DefaultLabelNaming; }; #endif 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 62b582b93c..be1d26e65a 100644 --- a/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp +++ b/Plugins/org.mitk.gui.qt.segmentation/src/internal/QmitkSegmentationView.cpp @@ -1,989 +1,989 @@ /*============================================================================ 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 // Qmitk #include #include #include // us #include #include // Qt #include #include #include #include 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) { 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); auto isBinary = mitk::NodePredicateProperty::New("binary", mitk::BoolProperty::New(true)); auto isMask = mitk::NodePredicateAnd::New(isBinary, isImage); auto validSegmentations = mitk::NodePredicateOr::New(); validSegmentations->AddPredicate(mitk::TNodePredicateDataType::New()); validSegmentations->AddPredicate(isMask); m_SegmentationPredicate = mitk::NodePredicateAnd::New(); m_SegmentationPredicate->AddPredicate(validSegmentations); 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) { OnLooseLabelSetConnection(); // deactivate all tools m_ToolManager->ActivateTool(-1); // removing all observers for (NodeTagMapType::iterator dataIter = m_WorkingDataObserverTags.begin(); dataIter != m_WorkingDataObserverTags.end(); ++dataIter) { (*dataIter).first->GetProperty("visible")->RemoveObserver((*dataIter).second); } m_WorkingDataObserverTags.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); } delete m_Controls; } /**********************************************************************/ /* private Q_SLOTS */ /**********************************************************************/ void QmitkSegmentationView::OnReferenceSelectionChanged(QList nodes) { m_ToolManager->ActivateTool(-1); if (nodes.empty()) { m_Controls->workingNodeSelector->SetNodePredicate(m_SegmentationPredicate); m_ReferenceNode = nullptr; m_ToolManager->SetReferenceData(m_ReferenceNode); this->UpdateGUI(); return; } m_ReferenceNode = nodes.first(); m_ToolManager->SetReferenceData(m_ReferenceNode); if (m_ReferenceNode.IsNotNull()) { // set a predicate such that a segmentation fits the selected reference image geometry auto segPredicate = mitk::NodePredicateAnd::New(m_SegmentationPredicate.GetPointer(), mitk::NodePredicateSubGeometry::New(m_ReferenceNode->GetData()->GetGeometry())); m_Controls->workingNodeSelector->SetNodePredicate(segPredicate); if (m_SelectionMode) { // hide all image nodes to later show only the automatically selected ones mitk::DataStorage::SetOfObjects::ConstPointer imageNodes = this->GetDataStorage()->GetSubset(m_ReferencePredicate); for (mitk::DataStorage::SetOfObjects::const_iterator iter = imageNodes->begin(); iter != imageNodes->end(); ++iter) { (*iter)->SetVisibility(false); } } m_ReferenceNode->SetVisibility(true); } this->UpdateGUI(); } void QmitkSegmentationView::OnSegmentationSelectionChanged(QList nodes) { m_ToolManager->ActivateTool(-1); // Remove observer if one was registered auto finding = m_WorkingDataObserverTags.find(m_WorkingNode); if (finding != m_WorkingDataObserverTags.end()) { m_WorkingNode->GetProperty("visible")->RemoveObserver(m_WorkingDataObserverTags[m_WorkingNode]); m_WorkingDataObserverTags.erase(m_WorkingNode); } if (nodes.empty()) { m_WorkingNode = nullptr; m_ToolManager->SetWorkingData(m_WorkingNode); this->UpdateGUI(); return; } if (m_ReferenceNode.IsNull()) { this->UpdateGUI(); return; } mitk::Image::ConstPointer referenceImage = dynamic_cast(m_ReferenceNode->GetData()); if (referenceImage.IsNull()) { this->UpdateGUI(); return; } m_WorkingNode = nodes.first(); m_ToolManager->SetWorkingData(m_WorkingNode); if (m_WorkingNode.IsNotNull()) { if (m_SelectionMode) { // hide all segmentation nodes to later show only the selected ones mitk::DataStorage::SetOfObjects::ConstPointer segmentationNodes = this->GetDataStorage()->GetSubset(m_SegmentationPredicate); for (mitk::DataStorage::SetOfObjects::const_iterator iter = segmentationNodes->begin(); iter != segmentationNodes->end(); ++iter) { (*iter)->SetVisibility(false); } } m_WorkingNode->SetVisibility(true); this->OnEstablishLabelSetConnection(); m_Controls->labelSetWidget->ResetAllTableWidgetItems(); auto command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSegmentationView::ValidateSelectionInput); m_WorkingDataObserverTags.insert(std::pair(m_WorkingNode, m_WorkingNode->GetProperty("visible")->AddObserver(itk::ModifiedEvent(), command))); this->InitializeRenderWindows(referenceImage->GetTimeGeometry(), mitk::RenderingManager::REQUEST_UPDATE_ALL, false); } this->UpdateGUI(); } 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::LabelSetIOHelper::LoadLabelSetImagePreset(labelSetPreset, newLabelSetImage)) { auto newLabel = mitk::LabelSetImageHelper::CreateNewLabel(newLabelSetImage); if (!m_DefaultLabelNaming) { QmitkNewSegmentationDialog dialog(m_Parent); dialog.SetName(QString::fromStdString(newLabel->GetName())); dialog.SetColor(newLabel->GetColor()); if (QDialog::Rejected == dialog.exec()) return; auto name = dialog.GetName(); if (!name.isEmpty()) newLabel->SetName(name.toStdString()); newLabel->SetColor(dialog.GetColor()); } 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::OnLayersChanged() { this->OnEstablishLabelSetConnection(); m_Controls->labelSetWidget->ResetAllTableWidgetItems(); } void QmitkSegmentationView::OnShowLabelTable(bool value) { m_Controls->labelSetWidget->setVisible(value); } void QmitkSegmentationView::OnGoToLabel(const mitk::Point3D& pos) { if (m_RenderWindowPart) { m_RenderWindowPart->SetSelectedPosition(pos); } } void QmitkSegmentationView::OnLabelSetWidgetReset() { this->ValidateSelectionInput(); } /**********************************************************************/ /* private */ /**********************************************************************/ void QmitkSegmentationView::CreateQtPartControl(QWidget* parent) { m_Parent = parent; m_Controls = new Ui::QmitkSegmentationViewControls; m_Controls->setupUi(parent); // *------------------------ // * SHORTCUTS // *------------------------ - QShortcut* visibilityShortcut = new QShortcut(QKeySequence("CTRL+H"), parent); + QShortcut* visibilityShortcut = new QShortcut(QKeySequence(Qt::CTRL | Qt::Key::Key_H), parent); connect(visibilityShortcut, &QShortcut::activated, this, &QmitkSegmentationView::OnVisibilityShortcutActivated); - QShortcut* labelToggleShortcut = new QShortcut(QKeySequence("CTRL+L"), parent); + 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); // *------------------------ // * 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); connect(m_Controls->workingNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkSegmentationView::OnSegmentationSelectionChanged); // *------------------------ // * TOOLMANAGER // *------------------------ m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); m_ToolManager->SetDataStorage(*(this->GetDataStorage())); m_ToolManager->InitializeTools(); QString segTools2D = tr("Add Subtract Lasso Fill Erase Paint Wipe 'Region Growing' 'Live Wire'"); QString segTools3D = tr("Threshold 'UL Threshold' Otsu 'Region Growing 3D' Picking"); #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()); m_Controls->toolSelectionBox2D->SetLayoutColumns(3); m_Controls->toolSelectionBox2D->SetEnabledMode( QmitkToolSelectionBox::EnabledWithReferenceAndWorkingDataVisible); connect(m_Controls->toolSelectionBox2D, &QmitkToolSelectionBox::ToolSelected, this, &QmitkSegmentationView::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->toolSelectionBox3D->SetLayoutColumns(3); m_Controls->toolSelectionBox3D->SetEnabledMode( QmitkToolSelectionBox::EnabledWithReferenceAndWorkingDataVisible); m_Controls->slicesInterpolator->SetDataStorage(this->GetDataStorage()); // create general signal / slot connections connect(m_Controls->newSegmentationButton, &QToolButton::clicked, this, &QmitkSegmentationView::OnNewSegmentation); connect(m_Controls->slicesInterpolator, &QmitkSlicesInterpolator::SignalShowMarkerNodes, this, &QmitkSegmentationView::OnShowMarkerNodes); connect(m_Controls->layersWidget, &QmitkLayersWidget::LayersChanged, this, &QmitkSegmentationView::OnLayersChanged); connect(m_Controls->labelsWidget, &QmitkLabelsWidget::ShowLabelTable, this, &QmitkSegmentationView::OnShowLabelTable); // *------------------------ // * LABELSETWIDGET // *------------------------ connect(m_Controls->labelSetWidget, &QmitkLabelSetWidget::goToLabel, this, &QmitkSegmentationView::OnGoToLabel); connect(m_Controls->labelSetWidget, &QmitkLabelSetWidget::LabelSetWidgetReset, this, &QmitkSegmentationView::OnLabelSetWidgetReset); m_Controls->labelSetWidget->SetDataStorage(this->GetDataStorage()); m_Controls->labelSetWidget->hide(); auto command = itk::SimpleMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSegmentationView::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::RenderWindowPartActivated(mitk::IRenderWindowPart* renderWindowPart) { if (m_RenderWindowPart != renderWindowPart) { m_RenderWindowPart = renderWindowPart; } if (nullptr != m_Parent) { m_Parent->setEnabled(true); } if (nullptr == m_Controls) { return; } // tell the interpolation about tool manager, data storage and render window part if (nullptr != m_RenderWindowPart) { QList controllers; controllers.push_back(m_RenderWindowPart->GetQmitkRenderWindow("axial")->GetSliceNavigationController()); controllers.push_back(m_RenderWindowPart->GetQmitkRenderWindow("sagittal")->GetSliceNavigationController()); controllers.push_back(m_RenderWindowPart->GetQmitkRenderWindow("coronal")->GetSliceNavigationController()); m_Controls->slicesInterpolator->Initialize(m_ToolManager, controllers); } } void QmitkSegmentationView::RenderWindowPartDeactivated(mitk::IRenderWindowPart* /*renderWindowPart*/) { m_RenderWindowPart = nullptr; if (nullptr != m_Parent) { m_Parent->setEnabled(false); } } void QmitkSegmentationView::OnPreferencesChanged(const berry::IBerryPreferences* 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->labelsWidget->SetDefaultLabelNaming(m_DefaultLabelNaming); bool slimView = prefs->GetBool("slim view", false); m_Controls->toolSelectionBox2D->SetShowNames(!slimView); m_Controls->toolSelectionBox3D->SetShowNames(!slimView); } m_DrawOutline = prefs->GetBool("draw outline", true); m_SelectionMode = prefs->GetBool("selection mode", false); m_LabelSetPresetPreference = prefs->Get("label set preset", ""); this->ApplyDisplayOptions(); } void QmitkSegmentationView::NodeAdded(const mitk::DataNode* node) { if (m_SegmentationPredicate->CheckNode(node)) { this->ApplyDisplayOptions(const_cast(node)); } } 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::OnEstablishLabelSetConnection() { if (m_WorkingNode.IsNull()) { return; } auto workingImage = dynamic_cast(m_WorkingNode->GetData()); if (nullptr == workingImage) { return; } workingImage->GetActiveLabelSet()->AddLabelEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->RemoveLabelEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->ModifyLabelEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->AllLabelsModifiedEvent += mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->ActiveLabelEvent += mitk::MessageDelegate1(m_Controls->labelSetWidget, &QmitkLabelSetWidget::SelectLabelByPixelValue); // Removed in T27851 to have a chance to react to AfterChangeLayerEvent. Did it brake something? // workingImage->BeforeChangeLayerEvent += mitk::MessageDelegate( // this, &QmitkMultiLabelSegmentationView::OnLooseLabelSetConnection); workingImage->AfterChangeLayerEvent += mitk::MessageDelegate( this, &QmitkSegmentationView::UpdateGUI); } void QmitkSegmentationView::OnLooseLabelSetConnection() { if (m_WorkingNode.IsNull()) { return; } auto workingImage = dynamic_cast(m_WorkingNode->GetData()); if (nullptr == workingImage) { return; } // Reset LabelSetWidget Events workingImage->GetActiveLabelSet()->AddLabelEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->RemoveLabelEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::ResetAllTableWidgetItems); workingImage->GetActiveLabelSet()->ModifyLabelEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->AllLabelsModifiedEvent -= mitk::MessageDelegate( m_Controls->labelSetWidget, &QmitkLabelSetWidget::UpdateAllTableWidgetItems); workingImage->GetActiveLabelSet()->ActiveLabelEvent -= mitk::MessageDelegate1(m_Controls->labelSetWidget, &QmitkLabelSetWidget::SelectLabelByPixelValue); // Removed in T27851 to have a chance to react to AfterChangeLayerEvent. Did it brake something? // workingImage->BeforeChangeLayerEvent -= mitk::MessageDelegate( // this, &QmitkMultiLabelSegmentationView::OnLooseLabelSetConnection); workingImage->AfterChangeLayerEvent -= mitk::MessageDelegate( this, &QmitkSegmentationView::UpdateGUI); } 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) { // node is a multi label segmentation // its 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 node->GetData()->Modified(); } else if (nullptr != node->GetData()) { // node is a legacy binary segmentation bool isBinary = false; node->GetBoolProperty("binary", isBinary); if (isBinary) { node->SetProperty("outline binary", mitk::BoolProperty::New(m_DrawOutline)); node->SetProperty("outline width", mitk::FloatProperty::New(2.0)); // force render window update to show outline node->GetData()->Modified(); } } } 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); } m_Controls->layersWidget->UpdateGUI(); m_Controls->labelsWidget->UpdateGUI(); this->ValidateSelectionInput(); } void QmitkSegmentationView::ValidateSelectionInput() { this->UpdateWarningLabel(""); m_Controls->layersWidget->setEnabled(false); m_Controls->labelsWidget->setEnabled(false); m_Controls->labelSetWidget->setEnabled(false); // the argument is actually not used // enable status depends on the tool manager selection m_Controls->toolSelectionBox2D->setEnabled(false); m_Controls->toolSelectionBox3D->setEnabled(false); m_Controls->slicesInterpolator->setEnabled(false); m_Controls->interpolatorWarningLabel->hide(); mitk::DataNode* referenceNode = m_Controls->referenceNodeSelector->GetSelectedNode(); mitk::DataNode* workingNode = m_Controls->workingNodeSelector->GetSelectedNode(); if (nullptr == referenceNode) { return; } if (nullptr == workingNode) { return; } mitk::IRenderWindowPart* renderWindowPart = this->GetRenderWindowPart(); auto workingNodeIsVisible = renderWindowPart && workingNode->IsVisible(renderWindowPart->GetQmitkRenderWindow("axial")->GetRenderer()); if (!workingNodeIsVisible) { this->UpdateWarningLabel(tr("The selected segmentation is currently not visible!")); return; } /* * Here we check whether the geometry of the selected segmentation image is aligned with the worldgeometry. * At the moment it is not supported to use a geometry different from the selected image for reslicing. * For further information see Bug 16063 */ const mitk::BaseGeometry* workingNodeGeo = workingNode->GetData()->GetGeometry(); const mitk::BaseGeometry* worldGeo = renderWindowPart->GetQmitkRenderWindow("3d")->GetSliceNavigationController()->GetCurrentGeometry3D(); if (nullptr != workingNodeGeo && nullptr != worldGeo) { if (mitk::Equal(*workingNodeGeo->GetBoundingBox(), *worldGeo->GetBoundingBox(), mitk::eps, true)) { m_ToolManager->SetReferenceData(referenceNode); m_ToolManager->SetWorkingData(workingNode); m_Controls->layersWidget->setEnabled(true); m_Controls->labelsWidget->setEnabled(true); m_Controls->labelSetWidget->setEnabled(true); m_Controls->toolSelectionBox2D->setEnabled(true); m_Controls->toolSelectionBox3D->setEnabled(true); auto labelSetImage = dynamic_cast(workingNode->GetData()); if (nullptr != labelSetImage) { int numberOfLabels = labelSetImage->GetNumberOfLabels(labelSetImage->GetActiveLayer()); if (2 == numberOfLabels) // fix for T27319: exterior is label 0, first label is label 1 { m_Controls->slicesInterpolator->setEnabled(true); } else { m_Controls->interpolatorWarningLabel->show(); m_Controls->interpolatorWarningLabel->setText("Interpolation only works for single label segmentations."); } } return; } } m_ToolManager->SetReferenceData(referenceNode); m_ToolManager->SetWorkingData(nullptr); this->UpdateWarningLabel(tr("Please perform a reinit on the segmentation image!")); } void QmitkSegmentationView::UpdateWarningLabel(QString text) { if (text.size() == 0) { m_Controls->selectionWarningLabel->hide(); } else { m_Controls->selectionWarningLabel->show(); m_Controls->selectionWarningLabel->setText("" + text + ""); } }