diff --git a/Modules/SegmentationUI/Qmitk/QmitkAdaptiveRegionGrowingToolGUI.cpp b/Modules/SegmentationUI/Qmitk/QmitkAdaptiveRegionGrowingToolGUI.cpp index 754658f509..75b5c52e80 100644 --- a/Modules/SegmentationUI/Qmitk/QmitkAdaptiveRegionGrowingToolGUI.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitkAdaptiveRegionGrowingToolGUI.cpp @@ -1,969 +1,968 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "QmitkAdaptiveRegionGrowingToolGUI.h" #include "QmitkStdMultiWidget.h" #include #include "mitkITKImageImport.h" #include "mitkImageAccessByItk.h" #include "mitkImageTimeSelector.h" #include "mitkNodePredicateDataType.h" #include "mitkProperties.h" #include "mitkTransferFunctionProperty.h" #include "mitkImageStatisticsHolder.h" #include "itkMaskImageFilter.h" #include "itkNumericTraits.h" #include #include #include #include #include "QmitkConfirmSegmentationDialog.h" #include "itkOrImageFilter.h" #include "mitkImageCast.h" #include "mitkImagePixelReadAccessor.h" #include "mitkPixelTypeMultiplex.h" #include "mitkImageCast.h" MITK_TOOL_GUI_MACRO(, QmitkAdaptiveRegionGrowingToolGUI, "") QmitkAdaptiveRegionGrowingToolGUI::QmitkAdaptiveRegionGrowingToolGUI(QWidget *parent) : QmitkToolGUI(), m_MultiWidget(nullptr), m_DataStorage(nullptr), m_UseVolumeRendering(false), m_UpdateSuggestedThreshold(true), m_SuggestedThValue(0.0) { this->setParent(parent); m_Controls.setupUi(this); m_Controls.m_ThresholdSlider->setDecimals(1); m_Controls.m_ThresholdSlider->setSpinBoxAlignment(Qt::AlignVCenter); m_Controls.m_PreviewSlider->setEnabled(false); m_Controls.m_PreviewSlider->setSingleStep(0.5); // Not yet available // m_Controls.m_PreviewSlider->InvertedAppearance(true); this->CreateConnections(); this->SetDataNodeNames("labeledRGSegmentation", "RGResult", "RGFeedbackSurface", "maskedSegmentation"); connect(this, SIGNAL(NewToolAssociated(mitk::Tool *)), this, SLOT(OnNewToolAssociated(mitk::Tool *))); } QmitkAdaptiveRegionGrowingToolGUI::~QmitkAdaptiveRegionGrowingToolGUI() { // Removing the observer of the PointSet node if (m_RegionGrow3DTool->GetPointSetNode().IsNotNull()) { m_RegionGrow3DTool->GetPointSetNode()->GetData()->RemoveObserver(m_PointSetAddObserverTag); m_RegionGrow3DTool->GetPointSetNode()->GetData()->RemoveObserver(m_PointSetMoveObserverTag); } this->RemoveHelperNodes(); } void QmitkAdaptiveRegionGrowingToolGUI::OnNewToolAssociated(mitk::Tool *tool) { m_RegionGrow3DTool = dynamic_cast(tool); if (m_RegionGrow3DTool.IsNotNull()) { SetInputImageNode(this->m_RegionGrow3DTool->GetReferenceData()); this->m_DataStorage = this->m_RegionGrow3DTool->GetDataStorage(); this->EnableControls(true); // Watch for point added or modified itk::SimpleMemberCommand::Pointer pointAddedCommand = itk::SimpleMemberCommand::New(); pointAddedCommand->SetCallbackFunction(this, &QmitkAdaptiveRegionGrowingToolGUI::OnPointAdded); m_PointSetAddObserverTag = m_RegionGrow3DTool->GetPointSetNode()->GetData()->AddObserver(mitk::PointSetAddEvent(), pointAddedCommand); m_PointSetMoveObserverTag = m_RegionGrow3DTool->GetPointSetNode()->GetData()->AddObserver(mitk::PointSetMoveEvent(), pointAddedCommand); } else { this->EnableControls(false); } } void QmitkAdaptiveRegionGrowingToolGUI::RemoveHelperNodes() { mitk::DataNode::Pointer imageNode = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); if (imageNode.IsNotNull()) { m_DataStorage->Remove(imageNode); } mitk::DataNode::Pointer maskedSegmentationNode = m_DataStorage->GetNamedNode(m_NAMEFORMASKEDSEGMENTATION); if (maskedSegmentationNode.IsNotNull()) { m_DataStorage->Remove(maskedSegmentationNode); } } void QmitkAdaptiveRegionGrowingToolGUI::CreateConnections() { // Connecting GUI components connect((QObject *)(m_Controls.m_pbRunSegmentation), SIGNAL(clicked()), this, SLOT(RunSegmentation())); connect(m_Controls.m_PreviewSlider, SIGNAL(valueChanged(double)), this, SLOT(ChangeLevelWindow(double))); connect((QObject *)(m_Controls.m_pbConfirmSegementation), SIGNAL(clicked()), this, SLOT(ConfirmSegmentation())); connect((QObject *)(m_Controls.m_cbVolumeRendering), SIGNAL(toggled(bool)), this, SLOT(UseVolumeRendering(bool))); connect( m_Controls.m_ThresholdSlider, SIGNAL(maximumValueChanged(double)), this, SLOT(SetUpperThresholdValue(double))); connect( m_Controls.m_ThresholdSlider, SIGNAL(minimumValueChanged(double)), this, SLOT(SetLowerThresholdValue(double))); } void QmitkAdaptiveRegionGrowingToolGUI::SetDataNodeNames(std::string labledSegmentation, std::string binaryImage, std::string surface, std::string maskedSegmentation) { m_NAMEFORLABLEDSEGMENTATIONIMAGE = labledSegmentation; m_NAMEFORBINARYIMAGE = binaryImage; m_NAMEFORSURFACE = surface; m_NAMEFORMASKEDSEGMENTATION = maskedSegmentation; } void QmitkAdaptiveRegionGrowingToolGUI::SetDataStorage(mitk::DataStorage *dataStorage) { m_DataStorage = dataStorage; } void QmitkAdaptiveRegionGrowingToolGUI::SetMultiWidget(QmitkStdMultiWidget *multiWidget) { m_MultiWidget = multiWidget; } void QmitkAdaptiveRegionGrowingToolGUI::SetInputImageNode(mitk::DataNode *node) { m_InputImageNode = node; mitk::Image *inputImage = dynamic_cast(m_InputImageNode->GetData()); if (inputImage) { mitk::ScalarType max = inputImage->GetStatistics()->GetScalarValueMax(); mitk::ScalarType min = inputImage->GetStatistics()->GetScalarValueMin(); m_Controls.m_ThresholdSlider->setMaximum(max); m_Controls.m_ThresholdSlider->setMinimum(min); // Just for initialization m_Controls.m_ThresholdSlider->setMaximumValue(max); m_Controls.m_ThresholdSlider->setMinimumValue(min); } } template static void AccessPixel(mitk::PixelType /*ptype*/, const mitk::Image::Pointer im, mitk::Point3D p, int &val) { mitk::ImagePixelReadAccessor access(im); val = access.GetPixelByWorldCoordinates(p); } void QmitkAdaptiveRegionGrowingToolGUI::OnPointAdded() { if (m_RegionGrow3DTool.IsNull()) return; mitk::DataNode *node = m_RegionGrow3DTool->GetPointSetNode(); if (node != nullptr) { mitk::PointSet::Pointer pointSet = dynamic_cast(node->GetData()); if (pointSet.IsNull()) { QMessageBox::critical(nullptr, "QmitkAdaptiveRegionGrowingToolGUI", "PointSetNode does not contain a pointset"); return; } m_Controls.m_lblSetSeedpoint->setText(""); mitk::Image *image = dynamic_cast(m_InputImageNode->GetData()); mitk::Point3D seedPoint = pointSet ->GetPointSet( mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget1"))->GetTimeStep()) ->GetPoints() ->ElementAt(0); if (image->GetGeometry()->IsInside(seedPoint)) mitkPixelTypeMultiplex3( AccessPixel, image->GetChannelDescriptor().GetPixelType(), image, seedPoint, m_SeedpointValue) else return; /* In this case the seedpoint is placed e.g. in the lung or bronchialtree * The lowerFactor sets the windowsize depending on the regiongrowing direction */ m_CurrentRGDirectionIsUpwards = true; if (m_SeedpointValue < -500) { m_CurrentRGDirectionIsUpwards = false; } // Initializing the region by the area around the seedpoint m_SeedPointValueMean = 0; itk::Index<3> currentIndex, runningIndex; mitk::ScalarType pixelValues[125]; unsigned int pos(0); image->GetGeometry(0)->WorldToIndex(seedPoint, currentIndex); runningIndex = currentIndex; for (int i = runningIndex[0] - 2; i <= runningIndex[0] + 2; i++) { for (int j = runningIndex[1] - 2; j <= runningIndex[1] + 2; j++) { for (int k = runningIndex[2] - 2; k <= runningIndex[2] + 2; k++) { currentIndex[0] = i; currentIndex[1] = j; currentIndex[2] = k; if (image->GetGeometry()->IsIndexInside(currentIndex)) { int component = 0; m_InputImageNode->GetIntProperty("Image.Displayed Component", component); mitkPixelTypeMultiplex4(mitk::FastSinglePixelAccess, image->GetChannelDescriptor().GetPixelType(), image, nullptr, currentIndex, pixelValues[pos]); pos++; } else { pixelValues[pos] = std::numeric_limits::min(); pos++; } } } } // Now calculation mean of the pixelValues // Now calculation mean of the pixelValues unsigned int numberOfValues(0); for (auto &pixelValue : pixelValues) { if (pixelValue > std::numeric_limits::min()) { m_SeedPointValueMean += pixelValue; numberOfValues++; } } m_SeedPointValueMean = m_SeedPointValueMean / numberOfValues; mitk::ScalarType var = 0; if (numberOfValues > 1) { for (auto &pixelValue : pixelValues) { if (pixelValue > std::numeric_limits::min()) { var += (pixelValue - m_SeedPointValueMean) * (pixelValue - m_SeedPointValueMean); } } var /= numberOfValues - 1; } mitk::ScalarType stdDev = sqrt(var); /* * Here the upper- and lower threshold is calculated: * The windowSize is 20% of the maximum range of the intensity values existing in the current image * If the RG direction is upwards the lower TH is meanSeedValue-0.15*windowSize and upper TH is * meanSeedValue+0.85*windowsSize * if the RG direction is downwards the lower TH is meanSeedValue-0.85*windowSize and upper TH is * meanSeedValue+0.15*windowsSize */ mitk::ScalarType min = image->GetStatistics()->GetScalarValueMin(); mitk::ScalarType max = image->GetStatistics()->GetScalarValueMax(); mitk::ScalarType windowSize = max - min; windowSize = 0.15 * windowSize; if (m_CurrentRGDirectionIsUpwards) { m_LOWERTHRESHOLD = m_SeedPointValueMean - stdDev; m_UPPERTHRESHOLD = m_SeedpointValue + windowSize; if (m_UPPERTHRESHOLD > max) m_UPPERTHRESHOLD = max; m_Controls.m_ThresholdSlider->setMaximumValue(m_UPPERTHRESHOLD); m_Controls.m_ThresholdSlider->setMinimumValue(m_LOWERTHRESHOLD); } else { m_UPPERTHRESHOLD = m_SeedPointValueMean; if (m_SeedpointValue > m_SeedPointValueMean) m_UPPERTHRESHOLD = m_SeedpointValue; m_LOWERTHRESHOLD = m_SeedpointValue - windowSize; if (m_LOWERTHRESHOLD < min) m_LOWERTHRESHOLD = min; m_Controls.m_ThresholdSlider->setMinimumValue(m_LOWERTHRESHOLD); m_Controls.m_ThresholdSlider->setMaximumValue(m_UPPERTHRESHOLD); } } } void QmitkAdaptiveRegionGrowingToolGUI::RunSegmentation() { if (m_InputImageNode.IsNull()) { QMessageBox::information(nullptr, "Adaptive Region Growing functionality", "Please specify the image in Datamanager!"); return; } mitk::DataNode::Pointer node = m_RegionGrow3DTool->GetPointSetNode(); if (node.IsNull()) { QMessageBox::information(nullptr, "Adaptive Region Growing functionality", "Please insert a seed point inside the " "image.\n\nFirst press the \"Define Seed " "Point\" button,\nthen click left mouse " "button inside the image."); return; } // safety if no pointSet or pointSet empty mitk::PointSet::Pointer seedPointSet = dynamic_cast(node->GetData()); if (seedPointSet.IsNull()) { m_Controls.m_pbRunSegmentation->setEnabled(true); QMessageBox::information( nullptr, "Adaptive Region Growing functionality", "The seed point is empty! Please choose a new seed point."); return; } int timeStep = mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget1"))->GetTimeStep(); if (!(seedPointSet->GetSize(timeStep))) { m_Controls.m_pbRunSegmentation->setEnabled(true); QMessageBox::information( nullptr, "Adaptive Region Growing functionality", "The seed point is empty! Please choose a new seed point."); return; } QApplication::setOverrideCursor(QCursor(Qt::WaitCursor)); mitk::PointSet::PointType seedPoint = seedPointSet->GetPointSet(timeStep)->GetPoints()->Begin().Value(); mitk::Image::Pointer orgImage = dynamic_cast(m_InputImageNode->GetData()); if (orgImage.IsNotNull()) { if (orgImage->GetDimension() == 4) { mitk::ImageTimeSelector::Pointer timeSelector = mitk::ImageTimeSelector::New(); timeSelector->SetInput(orgImage); timeSelector->SetTimeNr(timeStep); timeSelector->UpdateLargestPossibleRegion(); mitk::Image *timedImage = timeSelector->GetOutput(); AccessByItk_2(timedImage, StartRegionGrowing, timedImage->GetGeometry(), seedPoint); } else if (orgImage->GetDimension() == 3) { // QApplication::setOverrideCursor(QCursor(Qt::WaitCursor)); //set the cursor to waiting AccessByItk_2(orgImage, StartRegionGrowing, orgImage->GetGeometry(), seedPoint); // QApplication::restoreOverrideCursor();//reset cursor } else { QApplication::restoreOverrideCursor(); // reset cursor QMessageBox::information( nullptr, "Adaptive Region Growing functionality", "Only images of dimension 3 or 4 can be processed!"); return; } } EnableControls(true); // Segmentation ran successfully, so enable all controls. node->SetVisibility(true); QApplication::restoreOverrideCursor(); // reset cursor } template void QmitkAdaptiveRegionGrowingToolGUI::StartRegionGrowing(itk::Image *itkImage, mitk::BaseGeometry *imageGeometry, mitk::PointSet::PointType seedPoint) { typedef itk::Image InputImageType; typedef typename InputImageType::IndexType IndexType; typedef itk::ConnectedAdaptiveThresholdImageFilter RegionGrowingFilterType; typename RegionGrowingFilterType::Pointer regionGrower = RegionGrowingFilterType::New(); - typedef itk::MinimumMaximumImageCalculator MinMaxValueFilterType; typedef itk::BinaryThresholdImageFilter ThresholdFilterType; typedef itk::MaskImageFilter MaskImageFilterType; if (!imageGeometry->IsInside(seedPoint)) { QApplication::restoreOverrideCursor(); // reset cursor to be able to click ok with the regular mouse cursor QMessageBox::information(nullptr, "Segmentation functionality", "The seed point is outside of the image! Please choose a position inside the image!"); return; } IndexType seedIndex; imageGeometry->WorldToIndex(seedPoint, seedIndex); // convert world coordinates to image indices if (m_SeedpointValue > m_UPPERTHRESHOLD || m_SeedpointValue < m_LOWERTHRESHOLD) { QApplication::restoreOverrideCursor(); // reset cursor to be able to click ok with the regular mouse cursor QMessageBox::information( nullptr, "Segmentation functionality", "The seed point is outside the defined thresholds! Please set a new seed point or adjust the thresholds."); MITK_INFO << "Mean: " << m_SeedPointValueMean; return; } // Setting the direction of the regiongrowing. For dark structures e.g. the lung the regiongrowing // is performed starting at the upper value going to the lower one regionGrower->SetGrowingDirectionIsUpwards(m_CurrentRGDirectionIsUpwards); regionGrower->SetInput(itkImage); regionGrower->AddSeed(seedIndex); // In some cases we have to subtract 1 for the lower threshold and add 1 to the upper. // Otherwise no region growing is done. Maybe a bug in the ConnectiveAdaptiveThresholdFilter regionGrower->SetLower(m_LOWERTHRESHOLD - 1); regionGrower->SetUpper(m_UPPERTHRESHOLD + 1); try { regionGrower->Update(); } catch (itk::ExceptionObject &exc) { QMessageBox errorInfo; errorInfo.setWindowTitle("Adaptive RG Segmentation Functionality"); errorInfo.setIcon(QMessageBox::Critical); errorInfo.setText("An error occurred during region growing!"); errorInfo.setDetailedText(exc.what()); errorInfo.exec(); return; // can't work } catch (...) { QMessageBox::critical(nullptr, "Adaptive RG Segmentation Functionality", "An error occurred during region growing!"); return; } mitk::Image::Pointer resultImage = mitk::ImportItkImage(regionGrower->GetOutput())->Clone(); // initialize slider m_Controls.m_PreviewSlider->setMinimum(m_LOWERTHRESHOLD); mitk::ScalarType max = m_SeedpointValue + resultImage->GetStatistics()->GetScalarValueMax(); if (max < m_UPPERTHRESHOLD) m_Controls.m_PreviewSlider->setMaximum(max); else m_Controls.m_PreviewSlider->setMaximum(m_UPPERTHRESHOLD); this->m_DetectedLeakagePoint = regionGrower->GetLeakagePoint(); if (m_CurrentRGDirectionIsUpwards) { m_Controls.m_PreviewSlider->setValue(m_SeedPointValueMean - 1); } else { m_Controls.m_PreviewSlider->setValue(m_SeedPointValueMean + 1); } this->m_SliderInitialized = true; // create new node and then delete the old one if there is one mitk::DataNode::Pointer newNode = mitk::DataNode::New(); newNode->SetData(resultImage); // set some properties newNode->SetProperty("name", mitk::StringProperty::New(m_NAMEFORLABLEDSEGMENTATIONIMAGE)); newNode->SetProperty("helper object", mitk::BoolProperty::New(true)); newNode->SetProperty("color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); newNode->SetProperty("layer", mitk::IntProperty::New(1)); newNode->SetProperty("opacity", mitk::FloatProperty::New(0.7)); // delete the old image, if there was one: mitk::DataNode::Pointer binaryNode = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); m_DataStorage->Remove(binaryNode); // now add result to data tree m_DataStorage->Add(newNode, m_InputImageNode); typename InputImageType::Pointer inputImageItk; mitk::CastToItkImage(resultImage, inputImageItk); // volume rendering preview masking typename ThresholdFilterType::Pointer thresholdFilter = ThresholdFilterType::New(); thresholdFilter->SetInput(inputImageItk); thresholdFilter->SetInsideValue(1); thresholdFilter->SetOutsideValue(0); double sliderVal = this->m_Controls.m_PreviewSlider->value(); if (m_CurrentRGDirectionIsUpwards) { thresholdFilter->SetLowerThreshold(sliderVal); thresholdFilter->SetUpperThreshold(itk::NumericTraits::max()); } else { thresholdFilter->SetLowerThreshold(itk::NumericTraits::min()); thresholdFilter->SetUpperThreshold(sliderVal); } thresholdFilter->SetInPlace(false); typename MaskImageFilterType::Pointer maskFilter = MaskImageFilterType::New(); maskFilter->SetInput(inputImageItk); maskFilter->SetInPlace(false); maskFilter->SetMaskImage(thresholdFilter->GetOutput()); maskFilter->SetOutsideValue(0); maskFilter->UpdateLargestPossibleRegion(); mitk::Image::Pointer mitkMask; mitk::CastToMitkImage(maskFilter->GetOutput(), mitkMask); mitk::DataNode::Pointer maskedNode = mitk::DataNode::New(); maskedNode->SetData(mitkMask); // set some properties maskedNode->SetProperty("name", mitk::StringProperty::New(m_NAMEFORMASKEDSEGMENTATION)); maskedNode->SetProperty("helper object", mitk::BoolProperty::New(true)); maskedNode->SetProperty("color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); maskedNode->SetProperty("layer", mitk::IntProperty::New(1)); maskedNode->SetProperty("opacity", mitk::FloatProperty::New(0.0)); // delete the old image, if there was one: mitk::DataNode::Pointer deprecatedMask = m_DataStorage->GetNamedNode(m_NAMEFORMASKEDSEGMENTATION); m_DataStorage->Remove(deprecatedMask); // now add result to data tree m_DataStorage->Add(maskedNode, m_InputImageNode); this->InitializeLevelWindow(); if (m_UseVolumeRendering) this->EnableVolumeRendering(true); m_UpdateSuggestedThreshold = true; // reset first stored threshold value // Setting progress to finished mitk::ProgressBar::GetInstance()->Progress(357); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkAdaptiveRegionGrowingToolGUI::InitializeLevelWindow() { // get the preview from the datatree mitk::DataNode::Pointer newNode = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); mitk::LevelWindow tempLevelWindow; newNode->GetLevelWindow(tempLevelWindow, nullptr, "levelwindow"); mitk::ScalarType *level = new mitk::ScalarType(0.0); mitk::ScalarType *window = new mitk::ScalarType(1.0); int upper; if (m_CurrentRGDirectionIsUpwards) { upper = m_UPPERTHRESHOLD - m_SeedpointValue; } else { upper = m_SeedpointValue - m_LOWERTHRESHOLD; } tempLevelWindow.SetRangeMinMax(mitk::ScalarType(0), mitk::ScalarType(upper)); // get the suggested threshold from the detected leakage-point and adjust the slider if (m_CurrentRGDirectionIsUpwards) { this->m_Controls.m_PreviewSlider->setValue(m_SeedpointValue); *level = m_UPPERTHRESHOLD - (m_SeedpointValue) + 0.5; } else { this->m_Controls.m_PreviewSlider->setValue(m_SeedpointValue); *level = (m_SeedpointValue)-m_LOWERTHRESHOLD + 0.5; } tempLevelWindow.SetLevelWindow(*level, *window); newNode->SetLevelWindow(tempLevelWindow, nullptr, "levelwindow"); // update the widgets mitk::RenderingManager::GetInstance()->RequestUpdateAll(); m_SliderInitialized = true; // inquiry need to fix bug#1828 static int lastSliderPosition = 0; if ((this->m_SeedpointValue + this->m_DetectedLeakagePoint - 1) == lastSliderPosition) { this->ChangeLevelWindow(lastSliderPosition); } lastSliderPosition = this->m_SeedpointValue + this->m_DetectedLeakagePoint - 1; if (m_MultiWidget) { this->m_MultiWidget->levelWindowWidget->GetManager()->SetAutoTopMostImage(false); this->m_MultiWidget->levelWindowWidget->GetManager()->SetLevelWindowProperty( static_cast(newNode->GetProperty("levelwindow"))); } if (m_UseVolumeRendering) this->UpdateVolumeRenderingThreshold((int)(*level + 0.5)); // lower threshold for labeled image } void QmitkAdaptiveRegionGrowingToolGUI::ChangeLevelWindow(double newValue) { if (m_SliderInitialized) { // do nothing, if no preview exists mitk::DataNode::Pointer newNode = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); if (newNode.IsNull()) return; mitk::LevelWindow tempLevelWindow; newNode->GetLevelWindow(tempLevelWindow, nullptr, "levelwindow"); // get the levelWindow associated with the preview mitk::ScalarType level; // = this->m_UPPERTHRESHOLD - newValue + 0.5; mitk::ScalarType *window = new mitk::ScalarType(1); // adjust the levelwindow according to the position of the slider (newvalue) if (m_CurrentRGDirectionIsUpwards) { level = m_UPPERTHRESHOLD - newValue + 0.5; tempLevelWindow.SetLevelWindow(level, *window); } else { level = newValue - m_LOWERTHRESHOLD + 0.5; tempLevelWindow.SetLevelWindow(level, *window); } newNode->SetLevelWindow(tempLevelWindow, nullptr, "levelwindow"); if (m_UseVolumeRendering) this->UpdateVolumeRenderingThreshold((int)(level - 0.5)); // lower threshold for labeled image newNode->SetVisibility(true); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkAdaptiveRegionGrowingToolGUI::DecreaseSlider() { // moves the slider one step to the left, when the "-"-button is pressed if (this->m_Controls.m_PreviewSlider->value() != this->m_Controls.m_PreviewSlider->minimum()) { int newValue = this->m_Controls.m_PreviewSlider->value() - 1; this->ChangeLevelWindow(newValue); this->m_Controls.m_PreviewSlider->setValue(newValue); } } void QmitkAdaptiveRegionGrowingToolGUI::IncreaseSlider() { // moves the slider one step to the right, when the "+"-button is pressed if (this->m_Controls.m_PreviewSlider->value() != this->m_Controls.m_PreviewSlider->maximum()) { int newValue = this->m_Controls.m_PreviewSlider->value() + 1; this->ChangeLevelWindow(newValue); this->m_Controls.m_PreviewSlider->setValue(newValue); } } void QmitkAdaptiveRegionGrowingToolGUI::ConfirmSegmentation() { // get image node if (m_InputImageNode.IsNull()) { QMessageBox::critical(nullptr, "Adaptive region growing functionality", "Please specify the image in Datamanager!"); return; } // get image data mitk::Image::Pointer orgImage = dynamic_cast(m_InputImageNode->GetData()); if (orgImage.IsNull()) { QMessageBox::critical(nullptr, "Adaptive region growing functionality", "No Image found!"); return; } // get labeled segmentation mitk::Image::Pointer labeledSeg = (mitk::Image *)m_DataStorage->GetNamedObject(m_NAMEFORLABLEDSEGMENTATIONIMAGE); if (labeledSeg.IsNull()) { QMessageBox::critical(nullptr, "Adaptive region growing functionality", "No Segmentation Preview found!"); return; } mitk::DataNode::Pointer newNode = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); if (newNode.IsNull()) return; QmitkConfirmSegmentationDialog dialog; QString segName = QString::fromStdString(m_RegionGrow3DTool->GetCurrentSegmentationName()); dialog.SetSegmentationName(segName); int result = dialog.exec(); switch (result) { case QmitkConfirmSegmentationDialog::CREATE_NEW_SEGMENTATION: m_RegionGrow3DTool->SetOverwriteExistingSegmentation(false); break; case QmitkConfirmSegmentationDialog::OVERWRITE_SEGMENTATION: m_RegionGrow3DTool->SetOverwriteExistingSegmentation(true); break; case QmitkConfirmSegmentationDialog::CANCEL_SEGMENTATION: return; } mitk::Image::Pointer img = dynamic_cast(newNode->GetData()); AccessByItk(img, ITKThresholding); // disable volume rendering preview after the segmentation node was created this->EnableVolumeRendering(false); newNode->SetVisibility(false); m_Controls.m_cbVolumeRendering->setChecked(false); // TODO disable slider etc... if (m_RegionGrow3DTool.IsNotNull()) { m_RegionGrow3DTool->ConfirmSegmentation(); } } template void QmitkAdaptiveRegionGrowingToolGUI::ITKThresholding(itk::Image *itkImage) { mitk::Image::Pointer originalSegmentation = dynamic_cast(this->m_RegionGrow3DTool->GetTargetSegmentationNode()->GetData()); int timeStep = mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget1"))->GetTimeStep(); if (originalSegmentation) { typedef itk::Image InputImageType; typedef itk::Image SegmentationType; // select single 3D volume if we have more than one time step typename SegmentationType::Pointer originalSegmentationInITK = SegmentationType::New(); if (originalSegmentation->GetTimeGeometry()->CountTimeSteps() > 1) { mitk::ImageTimeSelector::Pointer timeSelector = mitk::ImageTimeSelector::New(); timeSelector->SetInput(originalSegmentation); timeSelector->SetTimeNr(timeStep); timeSelector->UpdateLargestPossibleRegion(); CastToItkImage(timeSelector->GetOutput(), originalSegmentationInITK); } else // use original { CastToItkImage(originalSegmentation, originalSegmentationInITK); } // Fill current preiview image in segmentation image originalSegmentationInITK->FillBuffer(0); itk::ImageRegionIterator itOutput(originalSegmentationInITK, originalSegmentationInITK->GetLargestPossibleRegion()); itk::ImageRegionIterator itInput(itkImage, itkImage->GetLargestPossibleRegion()); itOutput.GoToBegin(); itInput.GoToBegin(); // calculate threhold from slider value int currentTreshold = 0; if (m_CurrentRGDirectionIsUpwards) { currentTreshold = m_UPPERTHRESHOLD - m_Controls.m_PreviewSlider->value() + 1; } else { currentTreshold = m_Controls.m_PreviewSlider->value() - m_LOWERTHRESHOLD; } // iterate over image and set pixel in segmentation according to thresholded labeled image while (!itOutput.IsAtEnd() && !itInput.IsAtEnd()) { // Use threshold slider to determine if pixel is set to 1 if (itInput.Value() != 0 && itInput.Value() >= static_cast::PixelType>(currentTreshold)) { itOutput.Set(1); } ++itOutput; ++itInput; } // combine current working segmentation image with our region growing result originalSegmentation->SetVolume((void *)(originalSegmentationInITK->GetPixelContainer()->GetBufferPointer()), timeStep); originalSegmentation->Modified(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkAdaptiveRegionGrowingToolGUI::EnableControls(bool enable) { if (m_RegionGrow3DTool.IsNull()) return; // Check if seed point is already set, if not leave RunSegmentation disabled // if even m_DataStorage is nullptr leave node nullptr mitk::DataNode::Pointer node = m_RegionGrow3DTool->GetPointSetNode(); if (node.IsNull()) { this->m_Controls.m_pbRunSegmentation->setEnabled(false); } else { this->m_Controls.m_pbRunSegmentation->setEnabled(enable); } // Check if a segmentation exists, if not leave segmentation dependent disabled. // if even m_DataStorage is nullptr leave node nullptr node = m_DataStorage ? m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE) : nullptr; if (node.IsNull()) { this->m_Controls.m_PreviewSlider->setEnabled(false); this->m_Controls.m_pbConfirmSegementation->setEnabled(false); } else { this->m_Controls.m_PreviewSlider->setEnabled(enable); this->m_Controls.m_pbConfirmSegementation->setEnabled(enable); } this->m_Controls.m_cbVolumeRendering->setEnabled(enable); } void QmitkAdaptiveRegionGrowingToolGUI::EnableVolumeRendering(bool enable) { mitk::DataNode::Pointer node = m_DataStorage->GetNamedNode(m_NAMEFORMASKEDSEGMENTATION); if (node.IsNull()) return; if (m_MultiWidget) m_MultiWidget->SetWidgetPlanesVisibility(!enable); if (enable) { node->SetBoolProperty("volumerendering", enable); node->SetBoolProperty("volumerendering.uselod", true); } else { node->SetBoolProperty("volumerendering", enable); } double val = this->m_Controls.m_PreviewSlider->value(); this->ChangeLevelWindow(val); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } -void QmitkAdaptiveRegionGrowingToolGUI::UpdateVolumeRenderingThreshold(int thValue) +void QmitkAdaptiveRegionGrowingToolGUI::UpdateVolumeRenderingThreshold(int) { typedef short PixelType; typedef itk::Image InputImageType; typedef itk::BinaryThresholdImageFilter ThresholdFilterType; typedef itk::MaskImageFilter MaskImageFilterType; mitk::DataNode::Pointer grownImageNode = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); mitk::Image::Pointer grownImage = dynamic_cast(grownImageNode->GetData()); if (!grownImage) { MITK_ERROR << "Missing data node for labeled segmentation image."; return; } InputImageType::Pointer itkGrownImage; mitk::CastToItkImage(grownImage, itkGrownImage); ThresholdFilterType::Pointer thresholdFilter = ThresholdFilterType::New(); thresholdFilter->SetInput(itkGrownImage); thresholdFilter->SetInPlace(false); double sliderVal = this->m_Controls.m_PreviewSlider->value(); PixelType threshold = itk::NumericTraits::min(); if (m_CurrentRGDirectionIsUpwards) { threshold = static_cast(m_UPPERTHRESHOLD - sliderVal + 0.5); thresholdFilter->SetLowerThreshold(threshold); thresholdFilter->SetUpperThreshold(itk::NumericTraits::max()); } else { threshold = sliderVal - m_LOWERTHRESHOLD + 0.5; thresholdFilter->SetLowerThreshold(itk::NumericTraits::min()); thresholdFilter->SetUpperThreshold(threshold); } thresholdFilter->UpdateLargestPossibleRegion(); MaskImageFilterType::Pointer maskFilter = MaskImageFilterType::New(); maskFilter->SetInput(itkGrownImage); maskFilter->SetInPlace(false); maskFilter->SetMaskImage(thresholdFilter->GetOutput()); maskFilter->SetOutsideValue(0); maskFilter->UpdateLargestPossibleRegion(); mitk::Image::Pointer mitkMaskedImage; mitk::CastToMitkImage(maskFilter->GetOutput(), mitkMaskedImage); mitk::DataNode::Pointer maskNode = m_DataStorage->GetNamedNode(m_NAMEFORMASKEDSEGMENTATION); maskNode->SetData(mitkMaskedImage); } void QmitkAdaptiveRegionGrowingToolGUI::UseVolumeRendering(bool on) { m_UseVolumeRendering = on; this->EnableVolumeRendering(on); } void QmitkAdaptiveRegionGrowingToolGUI::SetLowerThresholdValue(double lowerThreshold) { m_LOWERTHRESHOLD = lowerThreshold; } void QmitkAdaptiveRegionGrowingToolGUI::SetUpperThresholdValue(double upperThreshold) { m_UPPERTHRESHOLD = upperThreshold; } void QmitkAdaptiveRegionGrowingToolGUI::Deactivated() { // make the segmentation preview node invisible mitk::DataNode::Pointer node = m_DataStorage->GetNamedNode(m_NAMEFORLABLEDSEGMENTATIONIMAGE); if (node.IsNotNull()) { node->SetVisibility(false); } // disable volume rendering preview after the segmentation node was created this->EnableVolumeRendering(false); m_Controls.m_cbVolumeRendering->setChecked(false); } void QmitkAdaptiveRegionGrowingToolGUI::Activated() { } diff --git a/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.cpp b/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.cpp index df9c914bf3..4020341172 100644 --- a/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.cpp @@ -1,1311 +1,1311 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "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 // itk #include // todo: // berry //#include QmitkLabelSetWidget::QmitkLabelSetWidget(QWidget *parent) - : QWidget(parent), m_ToolManager(nullptr), m_DataStorage(nullptr), m_Completer(nullptr) + : QWidget(parent), m_DataStorage(nullptr), m_Completer(nullptr), m_ToolManager(nullptr) { m_Controls.setupUi(this); m_ColorSequenceRainbow.GoToBegin(); m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); assert(m_ToolManager); 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())); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(labelListModified(const QStringList&)), this, SLOT( // OnLabelListModified(const QStringList&)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(mergeLabel(int)), this, SLOT( OnMergeLabel(int)) ); 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(); 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); QAction *combineAndCreateSurfaceAction = new QAction(QIcon(":/Qmitk/CreateSurface.png"), "Combine and create a surface", this); combineAndCreateSurfaceAction->setEnabled(true); QObject::connect( combineAndCreateSurfaceAction, SIGNAL(triggered(bool)), this, SLOT(OnCombineAndCreateSurface(bool))); // menu->addAction(combineAndCreateSurfaceAction); Not implemented QAction *createMasksAction = new QAction(QIcon(":/Qmitk/CreateMask.png"), "Create a mask for each selected label", this); createMasksAction->setEnabled(true); QObject::connect(createMasksAction, SIGNAL(triggered(bool)), this, SLOT(OnCreateMasks(bool))); // menu->addAction(createMasksAction); Not implemented QAction *combineAndCreateMaskAction = new QAction(QIcon(":/Qmitk/CreateMask.png"), "Combine and create a mask", this); combineAndCreateMaskAction->setEnabled(true); QObject::connect(combineAndCreateMaskAction, SIGNAL(triggered(bool)), this, SLOT(OnCombineAndCreateMask(bool))); // menu->addAction(combineAndCreateMaskAction); Not implemented } 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 *mergeAction = new QAction(QIcon(":/Qmitk/MergeLabels.png"), "Merge...", this); mergeAction->setEnabled(true); QObject::connect(mergeAction, SIGNAL(triggered(bool)), this, SLOT(OnMergeLabel(bool))); menu->addAction(mergeAction); 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))); // QAction* importAction = new QAction(QIcon(":/Qmitk/RenameLabel.png"), "Import...", this ); // importAction->setEnabled(true); // QObject::connect( importAction, SIGNAL( triggered(bool) ), this, SLOT( OnImportSegmentationSession(bool) ) ); // menu->addAction(importAction); 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() ) ); opacitySlider->setValue(static_cast(GetWorkingImage()->GetLabel(pixelValue, GetWorkingImage()->GetActiveLayer())->GetOpacity() * 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::OnMergeLabel(bool /*value*/) { QmitkSearchLabelDialog dialog(this); dialog.setWindowTitle("Select a second label.."); dialog.SetLabelSuggestionList(GetLabelStringList()); int dialogReturnValue = dialog.exec(); if (dialogReturnValue == QDialog::Rejected) return; int sourcePixelValue = -1; for (int i = 0; i < m_Controls.m_LabelSetTableWidget->rowCount(); i++) { if (dialog.GetLabelSetWidgetTableCompleteWord() == QString(m_Controls.m_LabelSetTableWidget->item(i, 0)->text())) sourcePixelValue = m_Controls.m_LabelSetTableWidget->item(i, 0)->data(Qt::UserRole).toInt(); } if (sourcePixelValue == -1) { MITK_INFO << "unknown label"; return; } int pixelValue = GetPixelValueOfSelectedItem(); GetWorkingImage()->MergeLabel(pixelValue, sourcePixelValue, GetWorkingImage()->GetActiveLayer()); 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()->GetActiveLabelSet()->RemoveLabel(pixelValue); GetWorkingImage()->EraseLabel(pixelValue); this->WaitCursorOff(); } ResetAllTableWidgetItems(); } void QmitkLabelSetWidget::OnRenameLabel(bool /*value*/) { int pixelValue = GetPixelValueOfSelectedItem(); QmitkNewSegmentationDialog dialog(this); dialog.setWindowTitle("Rename Label"); dialog.SetSuggestionList(m_OrganColors); dialog.SetColor(GetWorkingImage()->GetActiveLabelSet()->GetLabel(pixelValue)->GetColor()); dialog.SetSegmentationName(QString::fromStdString(GetWorkingImage()->GetActiveLabelSet()->GetLabel(pixelValue)->GetName())); if (dialog.exec() == QDialog::Rejected) { return; } QString segmentationName = dialog.GetSegmentationName(); if (segmentationName.isEmpty()) { segmentationName = "Unnamed"; } GetWorkingImage()->GetActiveLabelSet()->RenameLabel(pixelValue, segmentationName.toStdString(), dialog.GetColor()); GetWorkingImage()->GetActiveLabelSet()->UpdateLookupTable(pixelValue); UpdateAllTableWidgetItems(); } 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, GetWorkingImage()->GetActiveLayer()); this->WaitCursorOff(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } } void QmitkLabelSetWidget::OnRemoveLabels(bool /*value*/) { QString question = "Do you really want to remove 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; + 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; + 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); } } void QmitkLabelSetWidget::OnColorButtonClicked() { - int row; + 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, 0, 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(")"); 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::SetOrganColors(const QStringList &organColors) { m_OrganColors = organColors; } 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) { SelectLabelByPixelValue(pixelValue); OnActiveLabelChanged(pixelValue); 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) { // MITK_INFO << "QmitkLabelSetWidget::SelectLabelByPixelValue " << pixelValue; if (!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->setSelectionMode(QAbstractItemView::SingleSelection); m_Controls.m_LabelSetTableWidget->selectRow(row); m_Controls.m_LabelSetTableWidget->scrollToItem(m_Controls.m_LabelSetTableWidget->item(row, 0)); m_Controls.m_LabelSetTableWidget->setSelectionMode(QAbstractItemView::ExtendedSelection); // SelectTableWidgetItem(m_Controls.m_LabelSetTableWidget->item(i,0)); // emit resetView(); // GetWorkingImage()->Modified(); 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(")"); 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())); QPushButton *pbLocked = new QPushButton(tableWidget); pbLocked->setFixedSize(24, 24); QIcon *iconLocked = new QIcon(); iconLocked->addFile(QString::fromUtf8(":/Qmitk/lock.png"), QSize(), QIcon::Normal, QIcon::Off); iconLocked->addFile(QString::fromUtf8(":/Qmitk/unlock.png"), QSize(), QIcon::Normal, QIcon::On); pbLocked->setIcon(*iconLocked); pbLocked->setIconSize(QSize(24, 24)); pbLocked->setCheckable(true); pbLocked->setToolTip("Lock/unlock label"); pbLocked->setChecked(!label->GetLocked()); connect(pbLocked, SIGNAL(clicked()), this, SLOT(OnLockedButtonClicked())); QPushButton *pbVisible = new QPushButton(tableWidget); pbVisible->setFixedSize(24, 24); pbVisible->setAutoRepeat(false); QIcon *iconVisible = new QIcon(); iconVisible->addFile(QString::fromUtf8(":/Qmitk/visible.png"), QSize(), QIcon::Normal, QIcon::Off); iconVisible->addFile(QString::fromUtf8(":/Qmitk/invisible.png"), QSize(), QIcon::Normal, QIcon::On); pbVisible->setIcon(*iconVisible); pbVisible->setIconSize(QSize(24, 24)); pbVisible->setCheckable(true); pbVisible->setToolTip("Show/hide label"); pbVisible->setChecked(!label->GetVisible()); 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(")"); 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::LabelSetImage *workingImage = GetWorkingImage(); if (!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() == 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(); } 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 *tableWidged = m_Controls.m_LabelSetTableWidget; tableWidged->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Maximum); tableWidged->setTabKeyNavigation(false); tableWidged->setAlternatingRowColors(false); tableWidged->setFocusPolicy(Qt::NoFocus); tableWidged->setColumnCount(4); tableWidged->resizeColumnToContents(NAME_COL); tableWidged->setColumnWidth(LOCKED_COL, 25); tableWidged->setColumnWidth(COLOR_COL, 25); tableWidged->setColumnWidth(VISIBLE_COL, 25); #if QT_VERSION >= QT_VERSION_CHECK(5, 0, 0) tableWidged->horizontalHeader()->setSectionResizeMode(0, QHeaderView::Stretch); #else tableWidged->horizontalHeader()->setResizeMode(0, QHeaderView::Stretch); #endif tableWidged->setContextMenuPolicy(Qt::CustomContextMenu); tableWidged->horizontalHeader()->hide(); tableWidged->setSortingEnabled(false); tableWidged->verticalHeader()->hide(); tableWidged->setEditTriggers(QAbstractItemView::NoEditTriggers); tableWidged->setSelectionMode(QAbstractItemView::ExtendedSelection); tableWidged->setSelectionBehavior(QAbstractItemView::SelectRows); connect(tableWidged, SIGNAL(itemClicked(QTableWidgetItem *)), this, SLOT(OnItemClicked(QTableWidgetItem *))); connect( tableWidged, SIGNAL(itemDoubleClicked(QTableWidgetItem *)), this, SLOT(OnItemDoubleClicked(QTableWidgetItem *))); connect(tableWidged, SIGNAL(customContextMenuRequested(const QPoint &)), this, SLOT(OnTableViewContextMenuRequested(const QPoint &))); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(activeLabelChanged(int)), this, SLOT(OnActiveLabelChanged(int)) // ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(importSegmentation()), this, SLOT( OnImportSegmentation()) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(importLabeledImage()), this, SLOT( OnImportLabeledImage()) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(renameLabel(int, const mitk::Color&, const std::string&)), this, // SLOT(OnRenameLabel(int, const mitk::Color&, const std::string&)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(createSurface(int, bool)), this, SLOT(OnCreateSurface(int, bool)) // ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(toggleOutline(bool)), this, SLOT(OnToggleOutline(bool)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(goToLabel(const mitk::Point3D&)), this, SIGNAL(goToLabel(const // mitk::Point3D&)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(combineAndCreateSurface( const QList& // )), // this, SLOT(OnCombineAndCreateSurface( const QList&)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(createMask(int)), this, SLOT(OnCreateMask(int)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(createCroppedMask(int)), this, SLOT(OnCreateCroppedMask(int)) ); // connect( m_Controls.m_LabelSetTableWidget, SIGNAL(combineAndCreateMask( const QList& // )), // this, SLOT(OnCombineAndCreateMask( const QList&)) ); } 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->setSelectionMode(QAbstractItemView::SingleSelection); m_Controls.m_LabelSetTableWidget->selectRow(row); m_Controls.m_LabelSetTableWidget->scrollToItem(nameItem); m_Controls.m_LabelSetTableWidget->setSelectionMode(QAbstractItemView::ExtendedSelection); 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::OnImportLabeledImage() { /* m_ToolManager->ActivateTool(-1); mitk::DataNode* referenceNode = m_ToolManager->GetReferenceData(0); assert(referenceNode); // Ask the user for a list of files to open QStringList fileNames = QFileDialog::getOpenFileNames( this, "Open Image", m_LastFileOpenPath, mitk::CoreObjectFactory::GetInstance()->GetFileExtensions()); if (fileNames.empty()) return; try { this->WaitCursorOn(); mitk::Image::Pointer image = mitk::IOUtil::LoadImage( fileNames.front().toStdString() ); if (image.IsNull()) { this->WaitCursorOff(); QMessageBox::information(this, "Import Labeled Image", "Could not load the selected segmentation.\n"); return; } mitk::LabelSetImage::Pointer newImage = mitk::LabelSetImage::New(); newImage->InitializeByLabeledImage(image); this->WaitCursorOff(); mitk::DataNode::Pointer newNode = mitk::DataNode::New(); std::string newName = referenceNode->GetName(); newName += "-labels"; newNode->SetName(newName); newNode->SetData(newImage); m_DataStorage->Add(newNode, referenceNode); } catch (mitk::Exception & e) { this->WaitCursorOff(); MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::information(this, "Import Labeled Image", "Could not load the selected segmentation. See error log for details.\n"); return; } this->UpdateControls(); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); */ } void QmitkLabelSetWidget::OnImportSegmentation() { /* m_ToolManager->ActivateTool(-1); mitk::DataNode* workingNode = m_ToolManager->GetWorkingData(0); assert(workingNode); mitk::LabelSetImage* workingImage = dynamic_cast( workingNode->GetData() ); assert(workingImage); std::string fileExtensions("Segmentation files (*.lset);;"); QString qfileName = QFileDialog::getOpenFileName(this, "Import Segmentation", m_LastFileOpenPath, fileExtensions.c_str() ); if (qfileName.isEmpty() ) return; mitk::NrrdLabelSetImageReader::Pointer reader = mitk::NrrdLabelSetImageReader::New(); reader->SetFileName(qfileName.toLatin1()); try { this->WaitCursorOn(); reader->Update(); mitk::LabelSetImage::Pointer newImage = reader->GetOutput(); workingImage->Concatenate(newImage); this->WaitCursorOff(); } catch ( mitk::Exception& e ) { this->WaitCursorOff(); MITK_ERROR << "Exception caught: " << e.GetDescription(); QMessageBox::information(this, "Import Segmentation", "Could not import the selected segmentation session.\n See error log for details.\n"); } */ mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } 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/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.h b/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.h index 75a1c706aa..295947c04d 100644 --- a/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.h +++ b/Modules/SegmentationUI/Qmitk/QmitkLabelSetWidget.h @@ -1,175 +1,175 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #ifndef QmitkLabelSetWidget_h #define QmitkLabelSetWidget_h #include "MitkSegmentationUIExports.h" #include "mitkColorSequenceRainbow.h" #include "mitkLabel.h" #include "mitkNumericTypes.h" #include class QmitkDataStorageComboBox; class QCompleter; namespace mitk { class LabelSetImage; class LabelSet; class Label; class DataStorage; class ToolManager; class DataNode; } class MITKSEGMENTATIONUI_EXPORT QmitkLabelSetWidget : public QWidget { Q_OBJECT public: explicit QmitkLabelSetWidget(QWidget *parent = nullptr); ~QmitkLabelSetWidget(); void SetDataStorage(mitk::DataStorage *storage); void SetOrganColors(const QStringList &organColors); 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 resetView(); 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 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); // reaction to signal "mergeLabel" from QmitkLabelSetTableWidget void OnMergeLabel(bool); void OnMergeLabels(bool); // reaction to the button "Import Segmentation" void OnImportSegmentation(); // reaction to the button "Import Labeled Image" void OnImportLabeledImage(); // 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; - QCompleter *m_Completer; - mitk::DataStorage *m_DataStorage; + QCompleter *m_Completer; + mitk::ToolManager *m_ToolManager; QStringList m_OrganColors; QStringList m_LabelStringList; }; #endif diff --git a/Modules/SegmentationUI/Qmitk/QmitkSliceBasedInterpolatorWidget.h b/Modules/SegmentationUI/Qmitk/QmitkSliceBasedInterpolatorWidget.h index ec7142b8a9..9cdf12dd8d 100644 --- a/Modules/SegmentationUI/Qmitk/QmitkSliceBasedInterpolatorWidget.h +++ b/Modules/SegmentationUI/Qmitk/QmitkSliceBasedInterpolatorWidget.h @@ -1,202 +1,202 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #ifndef QmitkSliceBasedInterpolatorWidget_h_Included #define QmitkSliceBasedInterpolatorWidget_h_Included #include "MitkSegmentationUIExports.h" #include "mitkDataStorage.h" #include "mitkSliceBasedInterpolationController.h" #include #include #include "ui_QmitkSliceBasedInterpolatorWidgetGUIControls.h" namespace mitk { class PlaneGeometry; class SliceNavigationController; class LabelSetImage; class ToolManager; class DiffSliceOperation; } /** \brief GUI for slices interpolation. \ingroup ToolManagerEtAl \ingroup Widgets \sa QmitkInteractiveSegmentation \sa mitk::SegmentationInterpolation There is a separate page describing the general design of QmitkInteractiveSegmentation: \ref QmitkInteractiveSegmentationTechnicalPage While mitk::SegmentationInterpolation does the bookkeeping of interpolation (keeping track of which slices contain how much segmentation) and the algorithmic work, QmitkSliceBasedInterpolatorWidget is responsible to watch the GUI, to notice, which slice is currently visible. It triggers generation of interpolation suggestions and also triggers acception of suggestions. \todo show/hide feedback on demand Last contributor: $Author: maleike $ */ class MITKSEGMENTATIONUI_EXPORT QmitkSliceBasedInterpolatorWidget : public QWidget { Q_OBJECT public: QmitkSliceBasedInterpolatorWidget(QWidget *parent = 0, const char *name = 0); virtual ~QmitkSliceBasedInterpolatorWidget(); void SetDataStorage(mitk::DataStorage &storage); /** Sets the slice navigation controllers for getting slice changed events from the views. */ void SetSliceNavigationControllers(const QList &controllers); void OnToolManagerWorkingDataModified(); void OnTimeChanged(itk::Object *sender, const itk::EventObject &); void OnSliceChanged(itk::Object *sender, const itk::EventObject &); void OnSliceNavigationControllerDeleted(const itk::Object *sender, const itk::EventObject &); /** Just public because it is called by itk::Commands. You should not need to call this. */ void OnSliceInterpolationInfoChanged(const itk::EventObject &); Ui::QmitkSliceBasedInterpolatorWidgetGUIControls m_Controls; signals: void signalSliceBasedInterpolationEnabled(bool); public slots: /** \brief Reaction to "Start/Stop" button click */ void OnToggleWidgetActivation(bool); protected slots: /** \brief Reaction to "Accept Current Slice" button click. */ void OnAcceptInterpolationClicked(); /* \brief Reaction to "Accept All Slices" button click. Opens popup to ask about which orientation should be interpolated */ void OnAcceptAllInterpolationsClicked(); /* \brief Called from popup menu of OnAcceptAllInterpolationsClicked() Will trigger interpolation for all slices in given orientation */ void OnAcceptAllPopupActivated(QAction *action); protected: typedef std::map ActionToSliceDimensionMapType; const ActionToSliceDimensionMapType CreateActionToSliceDimension(); ActionToSliceDimensionMapType m_ActionToSliceDimensionMap; void AcceptAllInterpolations(mitk::SliceNavigationController *slicer); void WaitCursorOn(); void WaitCursorOff(); void RestoreOverrideCursor(); /** Gets the working slice based on the given plane geometry and last saved interaction \param planeGeometry a plane geometry */ mitk::Image::Pointer GetWorkingSlice(const mitk::PlaneGeometry *planeGeometry); /** Retrieves the currently selected PlaneGeometry from a SlicedGeometry3D that is generated by a SliceNavigationController and calls Interpolate to further process this PlaneGeometry into an interpolation. \param e is a actually a mitk::SliceNavigationController::GeometrySliceEvent, sent by a SliceNavigationController \param slice the SliceNavigationController */ void TranslateAndInterpolateChangedSlice(const itk::EventObject &e, mitk::SliceNavigationController *slicer); /** Given a PlaneGeometry, this method figures out which slice of the first working image (of the associated ToolManager) should be interpolated. The actual work is then done by our SegmentationInterpolation object. */ void Interpolate(mitk::PlaneGeometry *plane, unsigned int timeStep, mitk::SliceNavigationController *slicer); /** Called internally to update the interpolation suggestion. Finds out about the focused render window and requests an interpolation. */ void UpdateVisibleSuggestion(); private: mitk::SliceBasedInterpolationController::Pointer m_SliceInterpolatorController; mitk::ToolManager *m_ToolManager; bool m_Activated; template void WritePreviewOnWorkingImage(itk::Image *target, const mitk::Image *source, int overwritevalue); QHash m_ControllerToTimeObserverTag; QHash m_ControllerToSliceObserverTag; QHash m_ControllerToDeleteObserverTag; unsigned int m_InterpolationInfoChangedObserverTag; mitk::DiffSliceOperation *m_doOperation; mitk::DiffSliceOperation *m_undoOperation; mitk::DataNode::Pointer m_PreviewNode; mitk::Image::Pointer m_PreviewImage; mitk::LabelSetImage::Pointer m_WorkingImage; - mitk::SliceNavigationController *m_LastSNC; - - unsigned int m_LastSliceIndex; - QHash m_TimeStep; mitk::DataStorage::Pointer m_DataStorage; + + mitk::SliceNavigationController *m_LastSNC; + + unsigned int m_LastSliceIndex; }; #endif diff --git a/Modules/SegmentationUI/Qmitk/QmitkSurfaceBasedInterpolatorWidget.cpp b/Modules/SegmentationUI/Qmitk/QmitkSurfaceBasedInterpolatorWidget.cpp index 64cea6d27a..38ac3d9728 100644 --- a/Modules/SegmentationUI/Qmitk/QmitkSurfaceBasedInterpolatorWidget.cpp +++ b/Modules/SegmentationUI/Qmitk/QmitkSurfaceBasedInterpolatorWidget.cpp @@ -1,360 +1,360 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "QmitkSurfaceBasedInterpolatorWidget.h" #include "mitkColorProperty.h" #include "mitkInteractionConst.h" #include "mitkOperationEvent.h" #include "mitkProgressBar.h" #include "mitkProperties.h" #include "mitkRenderingManager.h" #include "mitkSegTool2D.h" #include "mitkSliceNavigationController.h" #include "mitkSurfaceToImageFilter.h" #include "mitkUndoController.h" #include "mitkVtkRepresentationProperty.h" #include #include "QmitkStdMultiWidget.h" #include #include #include QmitkSurfaceBasedInterpolatorWidget::QmitkSurfaceBasedInterpolatorWidget(QWidget *parent, const char * /*name*/) : QWidget(parent), m_SurfaceBasedInterpolatorController(mitk::SurfaceBasedInterpolationController::GetInstance()), m_ToolManager(nullptr), - m_DataStorage(nullptr), - m_Activated(false) + m_Activated(false), + m_DataStorage(nullptr) { m_Controls.setupUi(this); m_ToolManager = mitk::ToolManagerProvider::GetInstance()->GetToolManager(); Q_ASSERT(m_ToolManager); m_ToolManager->WorkingDataChanged += mitk::MessageDelegate( this, &QmitkSurfaceBasedInterpolatorWidget::OnToolManagerWorkingDataModified); connect(m_Controls.m_btStart, SIGNAL(toggled(bool)), this, SLOT(OnToggleWidgetActivation(bool))); connect(m_Controls.m_btAccept, SIGNAL(clicked()), this, SLOT(OnAcceptInterpolationClicked())); connect(m_Controls.m_cbShowPositionNodes, SIGNAL(toggled(bool)), this, SLOT(OnShowMarkers(bool))); itk::ReceptorMemberCommand::Pointer command = itk::ReceptorMemberCommand::New(); command->SetCallbackFunction(this, &QmitkSurfaceBasedInterpolatorWidget::OnSurfaceInterpolationInfoChanged); m_SurfaceInterpolationInfoChangedObserverTag = m_SurfaceBasedInterpolatorController->AddObserver(itk::ModifiedEvent(), command); m_InterpolatedSurfaceNode = mitk::DataNode::New(); m_InterpolatedSurfaceNode->SetName("Surface Interpolation feedback"); m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(255.0, 255.0, 0.0)); m_InterpolatedSurfaceNode->SetProperty("opacity", mitk::FloatProperty::New(0.5)); m_InterpolatedSurfaceNode->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_InterpolatedSurfaceNode->SetProperty("helper object", mitk::BoolProperty::New(true)); m_InterpolatedSurfaceNode->SetVisibility(false); m_3DContourNode = mitk::DataNode::New(); m_3DContourNode->SetName("Drawn Contours"); m_3DContourNode->SetProperty("color", mitk::ColorProperty::New(0.0, 0.0, 0.0)); m_3DContourNode->SetProperty("helper object", mitk::BoolProperty::New(true)); m_3DContourNode->SetProperty("material.representation", mitk::VtkRepresentationProperty::New(VTK_WIREFRAME)); m_3DContourNode->SetProperty("material.wireframeLineWidth", mitk::FloatProperty::New(2.0f)); m_3DContourNode->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_3DContourNode->SetVisibility( false, mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget1"))); m_3DContourNode->SetVisibility( false, mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget2"))); m_3DContourNode->SetVisibility( false, mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget3"))); m_3DContourNode->SetVisibility( false, mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))); connect(&m_Watcher, SIGNAL(started()), this, SLOT(StartUpdateInterpolationTimer())); connect(&m_Watcher, SIGNAL(finished()), this, SLOT(OnSurfaceInterpolationFinished())); connect(&m_Watcher, SIGNAL(finished()), this, SLOT(StopUpdateInterpolationTimer())); m_Timer = new QTimer(this); connect(m_Timer, SIGNAL(timeout()), this, SLOT(ChangeSurfaceColor())); m_Controls.m_btAccept->setEnabled(false); m_Controls.m_cbShowPositionNodes->setEnabled(false); this->setEnabled(false); } void QmitkSurfaceBasedInterpolatorWidget::SetDataStorage(mitk::DataStorage &storage) { m_DataStorage = &storage; } QmitkSurfaceBasedInterpolatorWidget::~QmitkSurfaceBasedInterpolatorWidget() { m_ToolManager->WorkingDataChanged -= mitk::MessageDelegate( this, &QmitkSurfaceBasedInterpolatorWidget::OnToolManagerWorkingDataModified); if (m_DataStorage->Exists(m_3DContourNode)) m_DataStorage->Remove(m_3DContourNode); if (m_DataStorage->Exists(m_InterpolatedSurfaceNode)) m_DataStorage->Remove(m_InterpolatedSurfaceNode); // remove observer m_SurfaceBasedInterpolatorController->RemoveObserver(m_SurfaceInterpolationInfoChangedObserverTag); delete m_Timer; } void QmitkSurfaceBasedInterpolatorWidget::ShowInterpolationResult(bool status) { if (m_InterpolatedSurfaceNode.IsNotNull()) m_InterpolatedSurfaceNode->SetVisibility(status); if (m_3DContourNode.IsNotNull()) m_3DContourNode->SetVisibility( status, mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSurfaceBasedInterpolatorWidget::OnSurfaceInterpolationFinished() { mitk::Surface::Pointer interpolatedSurface = m_SurfaceBasedInterpolatorController->GetInterpolationResult(); if (interpolatedSurface.IsNotNull()) { m_InterpolatedSurfaceNode->SetData(interpolatedSurface); m_3DContourNode->SetData(m_SurfaceBasedInterpolatorController->GetContoursAsSurface()); this->ShowInterpolationResult(true); } else { m_InterpolatedSurfaceNode->SetData(nullptr); m_3DContourNode->SetData(nullptr); this->ShowInterpolationResult(false); } } void QmitkSurfaceBasedInterpolatorWidget::OnShowMarkers(bool state) { mitk::DataStorage::SetOfObjects::ConstPointer allContourMarkers = m_DataStorage->GetSubset(mitk::NodePredicateProperty::New("isContourMarker", mitk::BoolProperty::New(true))); for (mitk::DataStorage::SetOfObjects::ConstIterator it = allContourMarkers->Begin(); it != allContourMarkers->End(); ++it) { it->Value()->SetProperty("helper object", mitk::BoolProperty::New(!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 (manualSegmentationTool) { manualSegmentationTool->SetShowMarkerNodes(state); } } } void QmitkSurfaceBasedInterpolatorWidget::StartUpdateInterpolationTimer() { m_Timer->start(500); } void QmitkSurfaceBasedInterpolatorWidget::StopUpdateInterpolationTimer() { m_Timer->stop(); m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(255.0, 255.0, 0.0)); mitk::RenderingManager::GetInstance()->RequestUpdate( mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))->GetRenderWindow()); } void QmitkSurfaceBasedInterpolatorWidget::ChangeSurfaceColor() { float currentColor[3]; m_InterpolatedSurfaceNode->GetColor(currentColor); float yellow[3] = {255.0, 255.0, 0.0}; if (currentColor[2] == yellow[2]) { m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(255.0, 255.0, 255.0)); } else { m_InterpolatedSurfaceNode->SetProperty("color", mitk::ColorProperty::New(yellow)); } m_InterpolatedSurfaceNode->Update(); mitk::RenderingManager::GetInstance()->RequestUpdate( mitk::BaseRenderer::GetInstance(mitk::BaseRenderer::GetRenderWindowByName("stdmulti.widget4"))->GetRenderWindow()); } void QmitkSurfaceBasedInterpolatorWidget::OnToolManagerWorkingDataModified() { mitk::DataNode *workingNode = this->m_ToolManager->GetWorkingData(0); if (!workingNode) { this->setEnabled(false); return; } mitk::LabelSetImage *workingImage = dynamic_cast(workingNode->GetData()); // TODO adapt tool manager so that this check is done there, e.g. convenience function // Q_ASSERT(workingImage); if (!workingImage) { this->setEnabled(false); return; } if (workingImage->GetDimension() > 4 || workingImage->GetDimension() < 3) { this->setEnabled(false); return; } m_WorkingImage = workingImage; this->setEnabled(true); } void QmitkSurfaceBasedInterpolatorWidget::OnRunInterpolation() { m_SurfaceBasedInterpolatorController->Interpolate(); } void QmitkSurfaceBasedInterpolatorWidget::OnToggleWidgetActivation(bool enabled) { Q_ASSERT(m_ToolManager); mitk::DataNode *workingNode = m_ToolManager->GetWorkingData(0); if (!workingNode) return; m_Controls.m_btAccept->setEnabled(enabled); m_Controls.m_cbShowPositionNodes->setEnabled(enabled); if (enabled) m_Controls.m_btStart->setText("Stop"); else m_Controls.m_btStart->setText("Start"); for (unsigned int i = 0; i < m_ToolManager->GetTools().size(); i++) { mitk::SegTool2D *tool = dynamic_cast(m_ToolManager->GetToolById(i)); if (tool) tool->SetEnable3DInterpolation(enabled); } if (enabled) { if (!m_DataStorage->Exists(m_InterpolatedSurfaceNode)) { m_DataStorage->Add(m_InterpolatedSurfaceNode); } if (!m_DataStorage->Exists(m_3DContourNode)) { m_DataStorage->Add(m_3DContourNode); } mitk::Vector3D spacing = m_WorkingImage->GetGeometry(0)->GetSpacing(); double minSpacing(100); double maxSpacing(0); for (int i = 0; i < 3; i++) { if (spacing[i] < minSpacing) { minSpacing = spacing[i]; } else if (spacing[i] > maxSpacing) { maxSpacing = spacing[i]; } } m_SurfaceBasedInterpolatorController->SetWorkingImage(m_WorkingImage); m_SurfaceBasedInterpolatorController->SetActiveLabel(m_WorkingImage->GetActiveLabel()->GetValue()); m_SurfaceBasedInterpolatorController->SetMaxSpacing(maxSpacing); m_SurfaceBasedInterpolatorController->SetMinSpacing(minSpacing); m_SurfaceBasedInterpolatorController->SetDistanceImageVolume(50000); int ret = QMessageBox::Yes; if (m_SurfaceBasedInterpolatorController->EstimatePortionOfNeededMemory() > 0.5) { QMessageBox msgBox; msgBox.setText("Due to short handed system memory the 3D interpolation may be very slow!"); msgBox.setInformativeText("Are you sure you want to activate the 3D interpolation?"); msgBox.setStandardButtons(QMessageBox::No | QMessageBox::Yes); ret = msgBox.exec(); } if (m_Watcher.isRunning()) m_Watcher.waitForFinished(); if (ret == QMessageBox::Yes) { m_Future = QtConcurrent::run(this, &QmitkSurfaceBasedInterpolatorWidget::OnRunInterpolation); m_Watcher.setFuture(m_Future); } } else { if (m_DataStorage->Exists(m_InterpolatedSurfaceNode)) { m_DataStorage->Remove(m_InterpolatedSurfaceNode); } if (m_DataStorage->Exists(m_3DContourNode)) { m_DataStorage->Remove(m_3DContourNode); } mitk::UndoController::GetCurrentUndoModel()->Clear(); } m_Activated = enabled; mitk::RenderingManager::GetInstance()->RequestUpdateAll(); } void QmitkSurfaceBasedInterpolatorWidget::OnAcceptInterpolationClicked() { if (m_InterpolatedSurfaceNode.IsNotNull() && m_InterpolatedSurfaceNode->GetData()) { // m_WorkingImage->SurfaceStamp(dynamic_cast(m_InterpolatedSurfaceNode->GetData()), false); this->ShowInterpolationResult(false); } } void QmitkSurfaceBasedInterpolatorWidget::OnSurfaceInterpolationInfoChanged(const itk::EventObject & /*e*/) { if (m_Activated) { if (m_Watcher.isRunning()) m_Watcher.waitForFinished(); m_Future = QtConcurrent::run(this, &QmitkSurfaceBasedInterpolatorWidget::OnRunInterpolation); m_Watcher.setFuture(m_Future); } }