bool mitk::CorrectorTool2D::OnMouseReleased(Action* action, const StateEvent* stateEvent)
{
// 1. Hide the feedback contour, find out which slice the user clicked, find out which slice of the toolmanager's working image corresponds to that
FeedbackContourTool::SetFeedbackContourVisible(false);
const PositionEvent* positionEvent = dynamic_cast<const PositionEvent*>(stateEvent->GetEvent());
if (!positionEvent) return false;
assert( positionEvent->GetSender()->GetRenderWindow() );
mitk::RenderingManager::GetInstance()->RequestUpdate( positionEvent->GetSender()->GetRenderWindow() );
if ( FeedbackContourTool::CanHandleEvent(stateEvent) < 1.0 ) return false;
DataNode* workingNode( m_ToolManager->GetWorkingData(0) );
if (!workingNode) return false;
Image* image = dynamic_cast<Image*>(workingNode->GetData());
const PlaneGeometry* planeGeometry( dynamic_cast<const PlaneGeometry*> (positionEvent->GetSender()->GetCurrentWorldGeometry2D() ) );
if ( !image || !planeGeometry ) return false;
// 2. Slice is known, now we try to get it as a 2D image and project the contour into index coordinates of this slice
m_WorkingSlice = FeedbackContourTool::GetAffectedImageSliceAs2DImage( positionEvent, image );
if ( m_WorkingSlice.IsNull() )
{
MITK_ERROR << "Unable to extract slice." << std::endl;
return false;
}
CorrectorAlgorithm::Pointer algorithm = CorrectorAlgorithm::New();
algorithm->SetInput( m_WorkingSlice );
algorithm->SetContour( FeedbackContourTool::GetFeedbackContour() );
try
{
algorithm->UpdateLargestPossibleRegion();
}
catch ( std::exception& e )
{
MITK_ERROR << "Caught exception '" << e.what() << "'" << std::endl;
}
mitk::Image::Pointer resultSlice = mitk::Image::New();
resultSlice->Initialize(algorithm->GetOutput());
resultSlice->SetVolume(algorithm->GetOutput()->GetData());
this->WriteBackSegmentationResult(positionEvent, resultSlice);
return true;
}
bool mitk::CorrectorTool2D::OnMouseReleased(Action* action, const StateEvent* stateEvent)
{
// 1. Hide the feedback contour, find out which slice the user clicked, find out which slice of the toolmanager's working image corresponds to that
FeedbackContourTool::SetFeedbackContourVisible(false);
const PositionEvent* positionEvent = dynamic_cast<const PositionEvent*>(stateEvent->GetEvent());
if (!positionEvent) return false;
assert( positionEvent->GetSender()->GetRenderWindow() );
mitk::RenderingManager::GetInstance()->RequestUpdate( positionEvent->GetSender()->GetRenderWindow() );
if (!FeedbackContourTool::OnMouseReleased( action, stateEvent )) return false;
DataNode* workingNode( m_ToolManager->GetWorkingData(0) );
if (!workingNode) return false;
Image* image = dynamic_cast<Image*>(workingNode->GetData());
const PlaneGeometry* planeGeometry( dynamic_cast<const PlaneGeometry*> (positionEvent->GetSender()->GetCurrentWorldGeometry2D() ) );
if ( !image || !planeGeometry ) return false;
int affectedDimension( -1 );
int affectedSlice( -1 );
FeedbackContourTool::DetermineAffectedImageSlice( image, planeGeometry, affectedDimension, affectedSlice );
// 2. Slice is known, now we try to get it as a 2D image and project the contour into index coordinates of this slice
m_WorkingSlice = FeedbackContourTool::GetAffectedImageSliceAs2DImage( positionEvent, image );
if ( m_WorkingSlice.IsNull() )
{
MITK_ERROR << "Unable to extract slice." << std::endl;
return false;
}
CorrectorAlgorithm::Pointer algorithm = CorrectorAlgorithm::New();
algorithm->SetInput( m_WorkingSlice );
algorithm->SetContour( FeedbackContourTool::GetFeedbackContour() );
try
{
algorithm->UpdateLargestPossibleRegion();
}
catch ( std::exception& e )
{
MITK_ERROR << "Caught exception '" << e.what() << "'" << std::endl;
}
if ( affectedDimension != -1 )
{
// 5. Write the modified 2D working data slice back into the image
OverwriteSliceImageFilter::Pointer slicewriter = OverwriteSliceImageFilter::New();
slicewriter->SetInput( image );
slicewriter->SetCreateUndoInformation( true );
slicewriter->SetSliceImage( algorithm->GetOutput() );
slicewriter->SetSliceDimension( affectedDimension );
slicewriter->SetSliceIndex( affectedSlice );
slicewriter->SetTimeStep( positionEvent->GetSender()->GetTimeStep( image ) );
slicewriter->Update();
if( m_RememberContourPositions )
{
this->AddContourmarker( positionEvent );
}
}
else if ( affectedDimension == -1 )
{
OverwriteDirectedPlaneImageFilter::Pointer slicewriter = OverwriteDirectedPlaneImageFilter::New();
slicewriter->SetInput( image );
slicewriter->SetCreateUndoInformation( false );
slicewriter->SetSliceImage( m_WorkingSlice );
slicewriter->SetPlaneGeometry3D( m_WorkingSlice->GetGeometry() );
slicewriter->SetTimeStep( positionEvent->GetSender()->GetTimeStep( image ) );
slicewriter->Update();
if( m_RememberContourPositions )
{
this->AddContourmarker( positionEvent );
}
}
else
{
InteractiveSegmentationBugMessage( "FeedbackContourTool could not determine which slice of the image you are drawing on." );
}
// 6. Make sure the result is drawn again --> is visible then.
assert( positionEvent->GetSender()->GetRenderWindow() );
mitk::RenderingManager::GetInstance()->RequestUpdate( positionEvent->GetSender()->GetRenderWindow() );
return true;
}
