diff --git a/CMakeExternals/MITKData.cmake b/CMakeExternals/MITKData.cmake index 98cf17f0cf..c2b336f205 100644 --- a/CMakeExternals/MITKData.cmake +++ b/CMakeExternals/MITKData.cmake @@ -1,36 +1,36 @@ #----------------------------------------------------------------------------- # MITK Data #----------------------------------------------------------------------------- # Sanity checks if(DEFINED MITK_DATA_DIR AND NOT EXISTS ${MITK_DATA_DIR}) message(FATAL_ERROR "MITK_DATA_DIR variable is defined but corresponds to non-existing directory") endif() set(proj MITK-Data) set(proj_DEPENDENCIES) set(MITK-Data_DEPENDS ${proj}) if(BUILD_TESTING) - set(revision_tag d383b3f5) + set(revision_tag c06c1ea4) # ^^^^^^^^ these are just to check correct length of hash part ExternalProject_Add(${proj} URL ${MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL}/MITK-Data_${revision_tag}.tar.gz UPDATE_COMMAND "" CONFIGURE_COMMAND "" BUILD_COMMAND "" INSTALL_COMMAND "" DEPENDS ${proj_DEPENDENCIES} ) set(MITK_DATA_DIR ${ep_source_dir}/${proj}) else() mitkMacroEmptyExternalProject(${proj} "${proj_DEPENDENCIES}") endif(BUILD_TESTING) diff --git a/Core/Code/Rendering/mitkPointSetVtkMapper2D.cpp b/Core/Code/Rendering/mitkPointSetVtkMapper2D.cpp index 14d2cc4e74..ce68a76cc4 100644 --- a/Core/Code/Rendering/mitkPointSetVtkMapper2D.cpp +++ b/Core/Code/Rendering/mitkPointSetVtkMapper2D.cpp @@ -1,724 +1,734 @@ /*=================================================================== 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 "mitkPointSetVtkMapper2D.h" //mitk includes #include "mitkDataNode.h" #include "mitkProperties.h" #include "mitkVtkPropRenderer.h" #include "mitkPointSet.h" //vtk includes #include #include #include #include #include #include #include #include #include #include #include #include #include #include // constructor LocalStorage mitk::PointSetVtkMapper2D::LocalStorage::LocalStorage() { // points m_UnselectedPoints = vtkSmartPointer::New(); m_SelectedPoints = vtkSmartPointer::New(); m_ContourPoints = vtkSmartPointer::New(); // scales m_UnselectedScales = vtkSmartPointer::New(); m_SelectedScales = vtkSmartPointer::New(); // distances m_DistancesBetweenPoints = vtkSmartPointer::New(); // lines m_ContourLines = vtkSmartPointer::New(); // glyph source (provides the different shapes) m_UnselectedGlyphSource2D = vtkSmartPointer::New(); m_SelectedGlyphSource2D = vtkSmartPointer::New(); // glyphs m_UnselectedGlyph3D = vtkSmartPointer::New(); m_SelectedGlyph3D = vtkSmartPointer::New(); // polydata m_VtkUnselectedPointListPolyData = vtkSmartPointer::New(); m_VtkSelectedPointListPolyData = vtkSmartPointer ::New(); m_VtkContourPolyData = vtkSmartPointer::New(); // actors m_UnselectedActor = vtkSmartPointer ::New(); m_SelectedActor = vtkSmartPointer ::New(); m_ContourActor = vtkSmartPointer ::New(); // mappers m_VtkUnselectedPolyDataMapper = vtkSmartPointer::New(); m_VtkSelectedPolyDataMapper = vtkSmartPointer::New(); m_VtkContourPolyDataMapper = vtkSmartPointer::New(); // propassembly m_PropAssembly = vtkSmartPointer ::New(); } // destructor LocalStorage mitk::PointSetVtkMapper2D::LocalStorage::~LocalStorage() { } // input for this mapper ( = point set) const mitk::PointSet* mitk::PointSetVtkMapper2D::GetInput() const { return static_cast ( GetDataNode()->GetData() ); } // constructor PointSetVtkMapper2D mitk::PointSetVtkMapper2D::PointSetVtkMapper2D() : m_ShowContour(false), m_CloseContour(false), m_ShowPoints(true), m_ShowDistances(false), m_DistancesDecimalDigits(1), m_ShowAngles(false), m_ShowDistantLines(false), m_LineWidth(1), m_PointLineWidth(1), m_Point2DSize(6), m_IDShapeProperty(mitk::PointSetShapeProperty::CROSS), m_FillShape(false), m_DistanceToPlane(4.0f) { } // destructor mitk::PointSetVtkMapper2D::~PointSetVtkMapper2D() { } // reset mapper so that nothing is displayed e.g. toggle visiblity of the propassembly void mitk::PointSetVtkMapper2D::ResetMapper( BaseRenderer* renderer ) { LocalStorage *ls = m_LSH.GetLocalStorage(renderer); ls->m_PropAssembly->VisibilityOff(); } // returns propassembly vtkProp* mitk::PointSetVtkMapper2D::GetVtkProp(mitk::BaseRenderer * renderer) { LocalStorage *ls = m_LSH.GetLocalStorage(renderer); return ls->m_PropAssembly; } static bool makePerpendicularVector2D(const mitk::Vector2D& in, mitk::Vector2D& out) { // The dot product of orthogonal vectors is zero. // In two dimensions the slopes of perpendicular lines are negative reciprocals. if((fabs(in[0])>0) && ( (fabs(in[0])>fabs(in[1])) || (in[1] == 0) ) ) { // negative reciprocal out[0]=-in[1]/in[0]; out[1]=1; out.Normalize(); return true; } else if(fabs(in[1])>0) { out[0]=1; // negative reciprocal out[1]=-in[0]/in[1]; out.Normalize(); return true; } else return false; } void mitk::PointSetVtkMapper2D::CreateVTKRenderObjects(mitk::BaseRenderer* renderer) { LocalStorage *ls = m_LSH.GetLocalStorage(renderer); unsigned i = 0; // The vtk text actors need to be removed manually from the propassembly // since the same vtk text actors are not overwriten within this function, // but new actors are added to the propassembly each time this function is executed. // Thus, the actors from the last call must be removed in the beginning. for(i=0; i< ls->m_VtkTextLabelActors.size(); i++) { if(ls->m_PropAssembly->GetParts()->IsItemPresent(ls->m_VtkTextLabelActors.at(i))) ls->m_PropAssembly->RemovePart(ls->m_VtkTextLabelActors.at(i)); } for(i=0; i< ls->m_VtkTextDistanceActors.size(); i++) { if(ls->m_PropAssembly->GetParts()->IsItemPresent(ls->m_VtkTextDistanceActors.at(i))) ls->m_PropAssembly->RemovePart(ls->m_VtkTextDistanceActors.at(i)); } for(i=0; i< ls->m_VtkTextAngleActors.size(); i++) { if(ls->m_PropAssembly->GetParts()->IsItemPresent(ls->m_VtkTextAngleActors.at(i))) ls->m_PropAssembly->RemovePart(ls->m_VtkTextAngleActors.at(i)); } // initialize polydata here, otherwise we have update problems when // executing this function again ls->m_VtkUnselectedPointListPolyData = vtkSmartPointer::New(); ls->m_VtkSelectedPointListPolyData = vtkSmartPointer ::New(); ls->m_VtkContourPolyData = vtkSmartPointer::New(); // get input point set and update the PointSet mitk::PointSet::Pointer input = const_cast(this->GetInput()); // only update the input data, if the property tells us to bool update = true; this->GetDataNode()->GetBoolProperty("updateDataOnRender", update); if (update == true) input->Update(); int timestep = this->GetTimestep(); mitk::PointSet::DataType::Pointer itkPointSet = input->GetPointSet( timestep ); if ( itkPointSet.GetPointer() == NULL) { ls->m_PropAssembly->VisibilityOff(); return; } //iterator for point set mitk::PointSet::PointsContainer::Iterator pointsIter = itkPointSet->GetPoints()->Begin(); // PointDataContainer has additional information to each point, e.g. whether // it is selected or not mitk::PointSet::PointDataContainer::Iterator pointDataIter; pointDataIter = itkPointSet->GetPointData()->Begin(); //check if the list for the PointDataContainer is the same size as the PointsContainer. //If not, then the points were inserted manually and can not be visualized according to the PointData (selected/unselected) bool pointDataBroken = (itkPointSet->GetPointData()->Size() != itkPointSet->GetPoints()->Size()); if(itkPointSet->GetPointData()->size() == 0 || pointDataBroken) { return; } // empty point sets, cellarrays, scalars ls->m_UnselectedPoints->Reset(); ls->m_SelectedPoints->Reset(); ls->m_ContourPoints->Reset(); ls->m_ContourLines->Reset(); ls->m_UnselectedScales->Reset(); ls->m_SelectedScales->Reset(); ls->m_DistancesBetweenPoints->Reset(); ls->m_VtkTextLabelActors.clear(); ls->m_VtkTextDistanceActors.clear(); ls->m_VtkTextAngleActors.clear(); ls->m_UnselectedScales->SetNumberOfComponents(3); ls->m_SelectedScales->SetNumberOfComponents(3); int NumberContourPoints = 0; bool pointsOnSameSideOfPlane = false; const int text2dDistance = 10; // initialize points with a random start value // current point in point set itk::Point point = pointsIter->Value(); mitk::Point3D p = point; // currently visited point mitk::Point3D lastP = point; // last visited point (predecessor in point set of "point") mitk::Vector3D vec; // p - lastP mitk::Vector3D lastVec; // lastP - point before lastP vec.Fill(0); lastVec.Fill(0); mitk::Point3D projected_p = point; // p projected on viewplane mitk::Point2D pt2d; pt2d[0] = point[0]; // projected_p in display coordinates pt2d[1] = point[1]; mitk::Point2D lastPt2d = pt2d; // last projected_p in display coordinates (predecessor in point set of "pt2d") mitk::Point2D preLastPt2d = pt2d ; // projected_p in display coordinates before lastPt2 mitk::DisplayGeometry::Pointer displayGeometry = renderer->GetDisplayGeometry(); mitk::PlaneGeometry::ConstPointer planeGeometry = renderer->GetSliceNavigationController()->GetCurrentPlaneGeometry(); + vtkLinearTransform* dataNodeTransform = input->GetGeometry()->GetVtkTransform(); + int count = 0; for (pointsIter=itkPointSet->GetPoints()->Begin(); pointsIter!=itkPointSet->GetPoints()->End(); pointsIter++) { lastP = p; // valid for number of points count > 0 preLastPt2d = lastPt2d; // valid only for count > 1 lastPt2d = pt2d; // valid for number of points count > 0 lastVec = vec; // valid only for counter > 1 // get current point in point set point = pointsIter->Value(); + // transform point + { + float vtkp[3]; + itk2vtk(point, vtkp); + dataNodeTransform->TransformPoint(vtkp, vtkp); + vtk2itk(vtkp,point); + } + p[0] = point[0]; p[1] = point[1]; p[2] = point[2]; displayGeometry->Project(p, projected_p); displayGeometry->Map(projected_p, pt2d); displayGeometry->WorldToDisplay(pt2d, pt2d); vec = p-lastP; // valid only for counter > 0 // compute distance to current plane float diff = planeGeometry->DistanceFromPlane(point); diff = diff * diff; // draw markers on slices a certain distance away from the points true location according to the tolerance threshold (m_DistanceToPlane) if(diff < m_DistanceToPlane) { // is point selected or not? if (pointDataIter->Value().selected) { ls->m_SelectedPoints->InsertNextPoint(point[0],point[1],point[2]); // point is scaled according to its distance to the plane ls->m_SelectedScales->InsertNextTuple3(m_Point2DSize - (2*diff),0,0); } else { ls->m_UnselectedPoints->InsertNextPoint(point[0],point[1],point[2]); // point is scaled according to its distance to the plane ls->m_UnselectedScales->InsertNextTuple3(m_Point2DSize - (2*diff),0,0); } //---- LABEL -----// // paint label for each point if available if (dynamic_cast(this->GetDataNode()->GetProperty("label")) != NULL) { const char * pointLabel = dynamic_cast( this->GetDataNode()->GetProperty("label"))->GetValue(); std::string l = pointLabel; if (input->GetSize()>1) { std::stringstream ss; ss << pointsIter->Index(); l.append(ss.str()); } ls->m_VtkTextActor = vtkSmartPointer::New(); ls->m_VtkTextActor->SetPosition(pt2d[0] + text2dDistance, pt2d[1] + text2dDistance); ls->m_VtkTextActor->SetInput(l.c_str()); ls->m_VtkTextActor->GetTextProperty()->SetOpacity( 100 ); float unselectedColor[4]; //check if there is a color property GetDataNode()->GetColor(unselectedColor); if (unselectedColor != NULL) ls->m_VtkTextActor->GetTextProperty()->SetColor(unselectedColor[0], unselectedColor[1], unselectedColor[2]); else ls->m_VtkTextActor->GetTextProperty()->SetColor(0.0f, 1.0f, 0.0f); ls->m_VtkTextLabelActors.push_back(ls->m_VtkTextActor); } } // draw contour, distance text and angle text in render window // lines between points, which intersect the current plane, are drawn if( m_ShowContour && count > 0 ) { ScalarType distance = displayGeometry->GetWorldGeometry()->SignedDistance(point); ScalarType lastDistance = displayGeometry->GetWorldGeometry()->SignedDistance(lastP); pointsOnSameSideOfPlane = (distance * lastDistance) > 0.5; // Points must be on different side of plane in order to draw a contour. // If "show distant lines" is enabled this condition is disregarded. if ( !pointsOnSameSideOfPlane || m_ShowDistantLines) { vtkSmartPointer line = vtkSmartPointer::New(); ls->m_ContourPoints->InsertNextPoint(lastP[0],lastP[1],lastP[2]); line->GetPointIds()->SetId(0, NumberContourPoints); NumberContourPoints++; ls->m_ContourPoints->InsertNextPoint(point[0], point[1], point[2]); line->GetPointIds()->SetId(1, NumberContourPoints); NumberContourPoints++; ls->m_ContourLines->InsertNextCell(line); if(m_ShowDistances) // calculate and print distance between adjacent points { float distancePoints = point.EuclideanDistanceTo(lastP); std::stringstream buffer; buffer<m_VtkTextActor = vtkSmartPointer::New(); ls->m_VtkTextActor->SetPosition(pos2d[0],pos2d[1]); ls->m_VtkTextActor->SetInput(buffer.str().c_str()); ls->m_VtkTextActor->GetTextProperty()->SetColor(0.0, 1.0, 0.0); ls->m_VtkTextDistanceActors.push_back(ls->m_VtkTextActor); } if(m_ShowAngles && count > 1) // calculate and print angle between connected lines { std::stringstream buffer; //(char) 176 is the degree sign buffer << angle(vec.GetVnlVector(), -lastVec.GetVnlVector())*180/vnl_math::pi << (char)176; //compute desired display position of text Vector2D vec2d = pt2d-lastPt2d; // first arm enclosing the angle vec2d.Normalize(); Vector2D lastVec2d = lastPt2d-preLastPt2d; // second arm enclosing the angle lastVec2d.Normalize(); vec2d=vec2d-lastVec2d; // vector connecting both arms vec2d.Normalize(); // middle between two vectors that enclose the angle Vector2D pos2d = lastPt2d.GetVectorFromOrigin() + vec2d * text2dDistance * text2dDistance; ls->m_VtkTextActor = vtkSmartPointer::New(); ls->m_VtkTextActor->SetPosition(pos2d[0],pos2d[1]); ls->m_VtkTextActor->SetInput(buffer.str().c_str()); ls->m_VtkTextActor->GetTextProperty()->SetColor(0.0, 1.0, 0.0); ls->m_VtkTextAngleActors.push_back(ls->m_VtkTextActor); } } } if(pointDataIter != itkPointSet->GetPointData()->End()) { pointDataIter++; count++; } } // add each single text actor to the assembly for(i=0; i< ls->m_VtkTextLabelActors.size(); i++) { ls->m_PropAssembly->AddPart(ls->m_VtkTextLabelActors.at(i)); } for(i=0; i< ls->m_VtkTextDistanceActors.size(); i++) { ls->m_PropAssembly->AddPart(ls->m_VtkTextDistanceActors.at(i)); } for(i=0; i< ls->m_VtkTextAngleActors.size(); i++) { ls->m_PropAssembly->AddPart(ls->m_VtkTextAngleActors.at(i)); } //---- CONTOUR -----// //create lines between the points which intersect the plane if (m_ShowContour) { // draw line between first and last point which is rendered if(m_CloseContour && NumberContourPoints > 1){ vtkSmartPointer closingLine = vtkSmartPointer::New(); closingLine->GetPointIds()->SetId(0, 0); // index of first point closingLine->GetPointIds()->SetId(1, NumberContourPoints-1); // index of last point ls->m_ContourLines->InsertNextCell(closingLine); } ls->m_VtkContourPolyData->SetPoints(ls->m_ContourPoints); ls->m_VtkContourPolyData->SetLines(ls->m_ContourLines); ls->m_VtkContourPolyDataMapper->SetInput(ls->m_VtkContourPolyData); ls->m_ContourActor->SetMapper(ls->m_VtkContourPolyDataMapper); ls->m_ContourActor->GetProperty()->SetLineWidth(m_LineWidth); ls->m_PropAssembly->AddPart(ls->m_ContourActor); } // the point set must be transformed in order to obtain the appropriate glyph orientation // according to the current view vtkSmartPointer transform = vtkSmartPointer::New(); vtkSmartPointer a,b = vtkSmartPointer::New(); a = planeGeometry->GetVtkTransform()->GetMatrix(); b->DeepCopy( a ); // delete transformation from matrix, only take orientation b->SetElement(3,3,1); b->SetElement(2,3,0); b->SetElement(1,3,0); b->SetElement(0,3,0); b->SetElement(3,2,0); b->SetElement(3,1,0); b->SetElement(3,0,0); transform->SetMatrix( b ); //---- UNSELECTED POINTS -----// // apply properties to glyph ls->m_UnselectedGlyphSource2D->SetGlyphType(m_IDShapeProperty); if(m_FillShape) ls->m_UnselectedGlyphSource2D->FilledOn(); else ls->m_UnselectedGlyphSource2D->FilledOff(); // apply transform vtkSmartPointer transformFilterU = vtkSmartPointer::New(); transformFilterU->SetInputConnection(ls->m_UnselectedGlyphSource2D->GetOutputPort()); transformFilterU->SetTransform(transform); ls->m_VtkUnselectedPointListPolyData->SetPoints(ls->m_UnselectedPoints); ls->m_VtkUnselectedPointListPolyData->GetPointData()->SetVectors(ls->m_UnselectedScales); // apply transform of current plane to glyphs ls->m_UnselectedGlyph3D->SetSourceConnection(transformFilterU->GetOutputPort()); ls->m_UnselectedGlyph3D->SetInput(ls->m_VtkUnselectedPointListPolyData); ls->m_UnselectedGlyph3D->SetScaleModeToScaleByVector(); ls->m_UnselectedGlyph3D->SetVectorModeToUseVector(); ls->m_VtkUnselectedPolyDataMapper->SetInput(ls->m_UnselectedGlyph3D->GetOutput()); ls->m_UnselectedActor->SetMapper(ls->m_VtkUnselectedPolyDataMapper); ls->m_UnselectedActor->GetProperty()->SetLineWidth(m_PointLineWidth); ls->m_PropAssembly->AddPart(ls->m_UnselectedActor); //---- SELECTED POINTS -----// ls->m_SelectedGlyphSource2D->SetGlyphTypeToDiamond(); ls->m_SelectedGlyphSource2D->CrossOn(); ls->m_SelectedGlyphSource2D->FilledOff(); // apply transform vtkSmartPointer transformFilterS = vtkSmartPointer::New(); transformFilterS->SetInputConnection(ls->m_SelectedGlyphSource2D->GetOutputPort()); transformFilterS->SetTransform(transform); ls->m_VtkSelectedPointListPolyData->SetPoints(ls->m_SelectedPoints); ls->m_VtkSelectedPointListPolyData->GetPointData()->SetVectors(ls->m_SelectedScales); // apply transform of current plane to glyphs ls->m_SelectedGlyph3D->SetSourceConnection(transformFilterS->GetOutputPort()); ls->m_SelectedGlyph3D->SetInput(ls->m_VtkSelectedPointListPolyData); ls->m_SelectedGlyph3D->SetScaleModeToScaleByVector(); ls->m_SelectedGlyph3D->SetVectorModeToUseVector(); ls->m_VtkSelectedPolyDataMapper->SetInput(ls->m_SelectedGlyph3D->GetOutput()); ls->m_SelectedActor->SetMapper(ls->m_VtkSelectedPolyDataMapper); ls->m_SelectedActor->GetProperty()->SetLineWidth(m_PointLineWidth); ls->m_PropAssembly->AddPart(ls->m_SelectedActor); } void mitk::PointSetVtkMapper2D::GenerateDataForRenderer( mitk::BaseRenderer *renderer ) { const mitk::DataNode* node = GetDataNode(); if( node == NULL ) return; LocalStorage *ls = m_LSH.GetLocalStorage(renderer); // check whether the input data has been changed bool needGenerateData = ls->IsGenerateDataRequired( renderer, this, GetDataNode() ); // toggle visibility bool visible = true; node->GetVisibility(visible, renderer, "visible"); if(!visible) { ls->m_UnselectedActor->VisibilityOff(); ls->m_SelectedActor->VisibilityOff(); ls->m_ContourActor->VisibilityOff(); ls->m_PropAssembly->VisibilityOff(); return; }else{ ls->m_PropAssembly->VisibilityOn(); } node->GetBoolProperty("show contour", m_ShowContour, renderer); node->GetBoolProperty("close contour", m_CloseContour, renderer); node->GetBoolProperty("show points", m_ShowPoints, renderer); node->GetBoolProperty("show distances", m_ShowDistances, renderer); node->GetIntProperty("distance decimal digits", m_DistancesDecimalDigits, renderer); node->GetBoolProperty("show angles", m_ShowAngles, renderer); node->GetBoolProperty("show distant lines", m_ShowDistantLines, renderer); node->GetIntProperty("line width", m_LineWidth, renderer); node->GetIntProperty("point line width", m_PointLineWidth, renderer); node->GetIntProperty("point 2D size", m_Point2DSize, renderer); node->GetBoolProperty("Pointset.2D.fill shape", m_FillShape, renderer); node->GetFloatProperty("Pointset.2D.distance to plane", m_DistanceToPlane, renderer ); mitk::PointSetShapeProperty::Pointer shape = dynamic_cast(this->GetDataNode()->GetProperty( "Pointset.2D.shape", renderer )); if(shape.IsNotNull()) { m_IDShapeProperty = shape->GetPointSetShape(); } //check for color props and use it for rendering of selected/unselected points and contour //due to different params in VTK (double/float) we have to convert float unselectedColor[4]; vtkFloatingPointType selectedColor[4]={1.0f,0.0f,0.0f,1.0f}; //red vtkFloatingPointType contourColor[4]={1.0f,0.0f,0.0f,1.0f}; //red float opacity = 1.0; GetDataNode()->GetOpacity(opacity, renderer); // apply color and opacity if(m_ShowPoints) { ls->m_UnselectedActor->VisibilityOn(); ls->m_SelectedActor->VisibilityOn(); //check if there is a color property GetDataNode()->GetColor(unselectedColor); //get selected color property if (dynamic_cast(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("selectedcolor")) != NULL) { mitk::Color tmpColor = dynamic_cast(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("selectedcolor"))->GetValue(); selectedColor[0] = tmpColor[0]; selectedColor[1] = tmpColor[1]; selectedColor[2] = tmpColor[2]; selectedColor[3] = 1.0f; // alpha value } else if (dynamic_cast(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("selectedcolor")) != NULL) { mitk::Color tmpColor = dynamic_cast(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("selectedcolor"))->GetValue(); selectedColor[0] = tmpColor[0]; selectedColor[1] = tmpColor[1]; selectedColor[2] = tmpColor[2]; selectedColor[3] = 1.0f; // alpha value } ls->m_SelectedActor->GetProperty()->SetColor(selectedColor); ls->m_SelectedActor->GetProperty()->SetOpacity(opacity); ls->m_UnselectedActor->GetProperty()->SetColor(unselectedColor[0],unselectedColor[1],unselectedColor[2]); ls->m_UnselectedActor->GetProperty()->SetOpacity(opacity); } else { ls->m_UnselectedActor->VisibilityOff(); ls-> m_SelectedActor->VisibilityOff(); } if (m_ShowContour) { ls->m_ContourActor->VisibilityOn(); //get contour color property if (dynamic_cast(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("contourcolor")) != NULL) { mitk::Color tmpColor = dynamic_cast(this->GetDataNode()->GetPropertyList(renderer)->GetProperty("contourcolor"))->GetValue(); contourColor[0] = tmpColor[0]; contourColor[1] = tmpColor[1]; contourColor[2] = tmpColor[2]; contourColor[3] = 1.0f; } else if (dynamic_cast(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("contourcolor")) != NULL) { mitk::Color tmpColor = dynamic_cast(this->GetDataNode()->GetPropertyList(NULL)->GetProperty("contourcolor"))->GetValue(); contourColor[0] = tmpColor[0]; contourColor[1] = tmpColor[1]; contourColor[2] = tmpColor[2]; contourColor[3] = 1.0f; } ls->m_ContourActor->GetProperty()->SetColor(contourColor); ls->m_ContourActor->GetProperty()->SetOpacity(opacity); } else { ls->m_ContourActor->VisibilityOff(); } if(needGenerateData) { // create new vtk render objects (e.g. a circle for a point) this->CreateVTKRenderObjects(renderer); } } void mitk::PointSetVtkMapper2D::SetDefaultProperties(mitk::DataNode* node, mitk::BaseRenderer* renderer, bool overwrite) { node->AddProperty( "line width", mitk::IntProperty::New(2), renderer, overwrite ); node->AddProperty( "point line width", mitk::IntProperty::New(1), renderer, overwrite ); node->AddProperty( "point 2D size", mitk::IntProperty::New(6), renderer, overwrite ); node->AddProperty( "show contour", mitk::BoolProperty::New(false), renderer, overwrite ); node->AddProperty( "close contour", mitk::BoolProperty::New(false), renderer, overwrite ); node->AddProperty( "show points", mitk::BoolProperty::New(true), renderer, overwrite ); node->AddProperty( "show distances", mitk::BoolProperty::New(false), renderer, overwrite ); node->AddProperty( "distance decimal digits", mitk::IntProperty::New(2), renderer, overwrite ); node->AddProperty( "show angles", mitk::BoolProperty::New(false), renderer, overwrite ); node->AddProperty( "show distant lines", mitk::BoolProperty::New(false), renderer, overwrite ); node->AddProperty( "layer", mitk::IntProperty::New(1), renderer, overwrite ); node->AddProperty( "Pointset.2D.fill shape", mitk::BoolProperty::New(false), renderer, overwrite); // fill or do not fill the glyph shape mitk::PointSetShapeProperty::Pointer pointsetShapeProperty = mitk::PointSetShapeProperty::New(); node->AddProperty( "Pointset.2D.shape", pointsetShapeProperty, renderer, overwrite); node->AddProperty( "Pointset.2D.distance to plane", mitk::FloatProperty::New(4.0f), renderer, overwrite ); //show the point at a certain distance above/below the 2D imaging plane. Superclass::SetDefaultProperties(node, renderer, overwrite); } diff --git a/Core/Code/Testing/CMakeLists.txt b/Core/Code/Testing/CMakeLists.txt index fc8d3a6f6d..32ec236c8e 100644 --- a/Core/Code/Testing/CMakeLists.txt +++ b/Core/Code/Testing/CMakeLists.txt @@ -1,209 +1,213 @@ # The core tests need relaxed compiler flags... # TODO fix core tests to compile without these additional no-error flags if(MSVC_VERSION) # disable deprecated warnings (they would lead to errors) mitkFunctionCheckCAndCXXCompilerFlags("/wd4996" CMAKE_C_FLAGS CMAKE_CXX_FLAGS) else() mitkFunctionCheckCAndCXXCompilerFlags("-Wno-error=deprecated" CMAKE_C_FLAGS CMAKE_CXX_FLAGS) mitkFunctionCheckCAndCXXCompilerFlags("-Wno-error=deprecated-declarations" CMAKE_C_FLAGS CMAKE_CXX_FLAGS) endif() MITK_CREATE_MODULE_TESTS(LABELS MITK-Core) # MITK_INSTALL_TARGETS(EXECUTABLES MitkTestDriver) mitkAddCustomModuleTest(mitkDICOMLocaleTest_spacingOk_CT mitkDICOMLocaleTest ${MITK_DATA_DIR}/spacing-ok-ct.dcm) mitkAddCustomModuleTest(mitkDICOMLocaleTest_spacingOk_MR mitkDICOMLocaleTest ${MITK_DATA_DIR}/spacing-ok-mr.dcm) mitkAddCustomModuleTest(mitkDICOMLocaleTest_spacingOk_SC mitkDICOMLocaleTest ${MITK_DATA_DIR}/spacing-ok-sc.dcm) mitkAddCustomModuleTest(mitkVolumeCalculatorTest_Png2D-bw mitkVolumeCalculatorTest ${MITK_DATA_DIR}/Png2D-bw.png ${MITK_DATA_DIR}/Pic2DplusT.nrrd) mitkAddCustomModuleTest(mitkEventMapperTest_Test1And2 mitkEventMapperTest ${MITK_DATA_DIR}/TestStateMachine1.xml ${MITK_DATA_DIR}/TestStateMachine2.xml) mitkAddCustomModuleTest(mitkEventConfigTest_CreateObjectInDifferentWays mitkEventConfigTest ${MITK_SOURCE_DIR}/Core/Code/Testing/Resources/Interactions/StatemachineConfigTest.xml) #mitkAddCustomModuleTest(mitkNodeDependentPointSetInteractorTest mitkNodeDependentPointSetInteractorTest ${MITK_DATA_DIR}/Pic3D.pic.gz ${MITK_DATA_DIR}/BallBinary30x30x30.pic.gz) mitkAddCustomModuleTest(mitkNodeDependentPointSetInteractorTest mitkNodeDependentPointSetInteractorTest ${MITK_DATA_DIR}/Pic3D.nrrd ${MITK_DATA_DIR}/BallBinary30x30x30.nrrd) mitkAddCustomModuleTest(mitkDataStorageTest_US4DCyl mitkDataStorageTest ${MITK_DATA_DIR}/US4DCyl.nrrd) mitkAddCustomModuleTest(mitkStateMachineFactoryTest_TestStateMachine1_2 mitkStateMachineFactoryTest ${MITK_DATA_DIR}/TestStateMachine1.xml ${MITK_DATA_DIR}/TestStateMachine2.xml) mitkAddCustomModuleTest(mitkDicomSeriesReaderTest_CTImage mitkDicomSeriesReaderTest ${MITK_DATA_DIR}/TinyCTAbdomen ${MITK_DATA_DIR}/DICOMReader/Broken-Series) mitkAddCustomModuleTest(mitkPointSetReaderTest mitkPointSetReaderTest ${MITK_DATA_DIR}/PointSetReaderTestData.mps) mitkAddCustomModuleTest(mitkImageTest_4DImageData mitkImageTest ${MITK_DATA_DIR}/US4DCyl.nrrd) mitkAddCustomModuleTest(mitkImageTest_2D+tImageData mitkImageTest ${MITK_DATA_DIR}/Pic2DplusT.nrrd) mitkAddCustomModuleTest(mitkImageTest_3DImageData mitkImageTest ${MITK_DATA_DIR}/Pic3D.nrrd) mitkAddCustomModuleTest(mitkImageTest_brainImage mitkImageTest ${MITK_DATA_DIR}/brain.mhd) #mitkAddCustomModuleTest(mitkImageTest_color2DImage mitkImageTest ${MITK_DATA_DIR}/NrrdWritingTestImage.jpg) mitkAddCustomModuleTest(mitkImageTest_3DImageData mitkImageGeneratorTest ${MITK_DATA_DIR}/Pic3D.nrrd) mitkAddCustomModuleTest(mitkIOUtilTest mitkIOUtilTest #test for a randomly chosen Pic3D swivelled slice ${MITK_DATA_DIR}/Pic3D.nrrd ${MITK_DATA_DIR}/pointSet.mps ${MITK_DATA_DIR}/binary.stl ) mitkAddCustomModuleTest(mitkLevelWindowManagerTest mitkLevelWindowManagerTest ${MITK_DATA_DIR}/Pic3D.nrrd ) if(WIN32 OR APPLE OR MITK_ENABLE_GUI_TESTING) ### since the rendering test's do not run in ubuntu, yet, we build them only for other systems or if the user explicitly sets the variable MITK_ENABLE_GUI_TESTING mitkAddCustomModuleTest(mitkImageVtkMapper2D_rgbaImage640x480 mitkImageVtkMapper2DTest ${MITK_DATA_DIR}/RenderingTestData/rgbaImage.png #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/rgbaImage640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2D_pic3d640x480 mitkImageVtkMapper2DTest #test for standard Pic3D axial slice ${MITK_DATA_DIR}/Pic3D.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3d640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2D_pic3dColorBlue640x480 mitkImageVtkMapper2DColorTest #test for color property (=blue) Pic3D sagittal slice ${MITK_DATA_DIR}/Pic3D.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3dColorBlue640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2D_pic3dLevelWindow640x480 mitkImageVtkMapper2DLevelWindowTest #test for levelwindow property (=blood) #Pic3D sagittal slice ${MITK_DATA_DIR}/Pic3D.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3dLevelWindowBlood640x480REF.png #corresponding reference #screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2D_pic3dOpacity640x480 mitkImageVtkMapper2DOpacityTest #test for opacity (=0.5) Pic3D coronal slice ${MITK_DATA_DIR}/Pic3D.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3dOpacity640x480REF.png corresponding reference screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2D_pic3dSwivel640x480 mitkImageVtkMapper2DSwivelTest #test for a randomly chosen Pic3D swivelled slice ${MITK_DATA_DIR}/Pic3D.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3dSwivel640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkPointSetVtkMapper2D_openMeAlone640x480 mitkPointSetVtkMapper2DTest ${MITK_DATA_DIR}/RenderingTestData/openMeAlone.mps #input point set to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/openMeAlone640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkPointSetVtkMapper2D_Pic3DPointSetForPic3D640x480 mitkPointSetVtkMapper2DImageTest ${MITK_DATA_DIR}/Pic3D.nrrd ${MITK_DATA_DIR}/RenderingTestData/PointSetForPic3D.mps #input point set and image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/Pic3DPointSetForPic3D640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkPointSetVtkMapper2D_openMeAloneGlyphType640x480 mitkPointSetVtkMapper2DGlyphTypeTest ${MITK_DATA_DIR}/RenderingTestData/openMeAlone.mps #input point set to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/openMeAloneGlyphType640x480REF.png #corresponding reference screenshot ) +mitkAddCustomModuleTest(mitkPointSetVtkMapper2D_openMeAloneTransformed640x480 mitkPointSetVtkMapper2DTransformedPointsTest + ${MITK_DATA_DIR}/RenderingTestData/openMeAlone.mps #input point set to load in data storage + -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/openMeAloneTransformedPoints640x480REF.png #corresponding reference screenshot +) #Test reslice interpolation #note: nearest mode is already tested by swivel test mitkAddCustomModuleTest(ResliceInterpolationIsLinear mitkImageVtkMapper2DResliceInterpolationPropertyTest 1 #linear ${MITK_DATA_DIR}/Pic3D.nrrd -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3dRefLinear.png #corresponding reference screenshot LINEAR ) mitkAddCustomModuleTest(ResliceInterpolationIsCubic mitkImageVtkMapper2DResliceInterpolationPropertyTest 3 #cubic ${MITK_DATA_DIR}/Pic3D.nrrd -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/pic3dRefCubic.png #corresponding reference screenshot CUBIC ) #End test reslice interpolation #Overlays mitkAddCustomModuleTest(mitkLabelOverlay3DRendering2DTest mitkLabelOverlay3DRendering2DTest #OverlayTest -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkLabelOverlay3DRendering2DTest.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkLabelOverlay3DRendering3DTest mitkLabelOverlay3DRendering3DTest #OverlayTest -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkLabelOverlay3DRendering3DTest.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkTextOverlay2DRenderingTest_ball mitkTextOverlay2DRenderingTest #OverlayTest ${MITK_DATA_DIR}/ball.stl #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkTextOverlay2DRenderingTest_ball.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkTextOverlay2DLayouterRenderingTest_ball mitkTextOverlay2DLayouterRenderingTest #OverlayTest ${MITK_DATA_DIR}/ball.stl #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkTextOverlay2DLayouterRenderingTest_ball.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkTextOverlay3DRendering2DTest_ball mitkTextOverlay3DRendering2DTest #OverlayTest ${MITK_DATA_DIR}/ball.stl #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkTextOverlay3DRendering2DTest_ball.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkTextOverlay3DRendering3DTest_ball mitkTextOverlay3DRendering3DTest #OverlayTest ${MITK_DATA_DIR}/ball.stl #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkTextOverlay3DRendering3DTest_ball.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkTextOverlay3DColorRenderingTest_ball mitkTextOverlay3DColorRenderingTest #OverlayTest ${MITK_DATA_DIR}/ball.stl #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/mitkTextOverlay3DColorRenderingTest_ball.png #corresponding reference screenshot ) ##End of overlayTests # Testing of the rendering of binary images mitkAddCustomModuleTest(mitkImageVtkMapper2D_binaryTestImage640x480 mitkImageVtkMapper2DTest #test for standard Pic3D axial slice ${MITK_DATA_DIR}/RenderingTestData/binaryImage.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/binaryImage640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2D_binaryTestImageWithRef640x480 mitkImageVtkMapper2DTest #test for standard Pic3D axial slice ${MITK_DATA_DIR}/Pic3D.nrrd ${MITK_DATA_DIR}/RenderingTestData/binaryImage.nrrd #input image to load in data storage -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/binaryImageWithRef640x480REF.png #corresponding reference screenshot ) # End of binary image tests mitkAddCustomModuleTest(mitkSurfaceVtkMapper3DTest_TextureProperty mitkSurfaceVtkMapper3DTest ${MITK_DATA_DIR}/ToF-Data/Kinect_LiverPhantom.vtp ${MITK_DATA_DIR}/ToF-Data/Kinect_LiverPhantom_RGBImage.nrrd -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/texturedLiver640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkImageVtkMapper2DTransferFunctionTest_Png2D-bw mitkImageVtkMapper2DTransferFunctionTest ${MITK_DATA_DIR}/Png2D-bw.png -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/Png2D-bw-TransferFunctionRGBImage640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkSurfaceGLMapper2DColorTest_RedBall mitkSurfaceGLMapper2DColorTest ${MITK_DATA_DIR}/ball.stl -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/ballColorRed640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkSurfaceGLMapper2DColorTest_DasArmeSchwein mitkSurfaceGLMapper2DColorTest ${MITK_DATA_DIR}/binary.stl -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/binaryColorRed640x480REF.png #corresponding reference screenshot ) mitkAddCustomModuleTest(mitkSurfaceGLMapper2DOpacityTest_BallOpacity mitkSurfaceGLMapper2DOpacityTest #opacity = 50% (0.5) ${MITK_DATA_DIR}/ball.stl -V ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/ballOpacity640x480REF.png #corresponding reference screenshot ) #Removed due to high rendering error. #mitkAddCustomModuleTest(mitkSurfaceVtkMapper3DTexturedSphereTest_Football mitkSurfaceVtkMapper3DTexturedSphereTest # ${MITK_DATA_DIR}/RenderingTestData/texture.jpg #input texture # -V # ${MITK_DATA_DIR}/RenderingTestData/ReferenceScreenshots/texturedSphere640x480REF.png corresponding reference screenshot #) -SET_PROPERTY(TEST mitkImageVtkMapper2D_rgbaImage640x480 mitkImageVtkMapper2D_pic3d640x480 mitkImageVtkMapper2D_pic3dColorBlue640x480 mitkImageVtkMapper2D_pic3dLevelWindow640x480 mitkImageVtkMapper2D_pic3dSwivel640x480 mitkImageVtkMapper2DTransferFunctionTest_Png2D-bw mitkImageVtkMapper2D_pic3dOpacity640x480 mitkSurfaceGLMapper2DOpacityTest_BallOpacity mitkSurfaceGLMapper2DColorTest_DasArmeSchwein mitkSurfaceGLMapper2DColorTest_RedBall mitkSurfaceVtkMapper3DTest_TextureProperty mitkPointSetVtkMapper2D_Pic3DPointSetForPic3D640x480 mitkPointSetVtkMapper2D_openMeAlone640x480 mitkPointSetVtkMapper2D_openMeAloneGlyphType640x480 #mitkSurfaceVtkMapper3DTexturedSphereTest_Football +SET_PROPERTY(TEST mitkImageVtkMapper2D_rgbaImage640x480 mitkImageVtkMapper2D_pic3d640x480 mitkImageVtkMapper2D_pic3dColorBlue640x480 mitkImageVtkMapper2D_pic3dLevelWindow640x480 mitkImageVtkMapper2D_pic3dSwivel640x480 mitkImageVtkMapper2DTransferFunctionTest_Png2D-bw mitkImageVtkMapper2D_pic3dOpacity640x480 mitkSurfaceGLMapper2DOpacityTest_BallOpacity mitkSurfaceGLMapper2DColorTest_DasArmeSchwein mitkSurfaceGLMapper2DColorTest_RedBall mitkSurfaceVtkMapper3DTest_TextureProperty mitkPointSetVtkMapper2D_Pic3DPointSetForPic3D640x480 mitkPointSetVtkMapper2D_openMeAlone640x480 mitkPointSetVtkMapper2D_openMeAloneGlyphType640x480 mitkPointSetVtkMapper2D_openMeAloneTransformed640x480 #mitkSurfaceVtkMapper3DTexturedSphereTest_Football PROPERTY RUN_SERIAL TRUE) endif() add_test(mitkPointSetLocaleTest ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${TESTDRIVER} mitkPointSetLocaleTest ${MITK_DATA_DIR}/pointSet.mps) set_property(TEST mitkPointSetLocaleTest PROPERTY LABELS MITK-Core) add_test(mitkImageWriterTest_nrrdImage ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${TESTDRIVER} mitkImageWriterTest ${MITK_DATA_DIR}/NrrdWritingTestImage.jpg) add_test(mitkImageWriterTest_2DPNGImage ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${TESTDRIVER} mitkImageWriterTest ${MITK_DATA_DIR}/Png2D-bw.png) add_test(mitkImageWriterTest_rgbPNGImage ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${TESTDRIVER} mitkImageWriterTest ${MITK_DATA_DIR}/RenderingTestData/rgbImage.png) add_test(mitkImageWriterTest_rgbaPNGImage ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/${TESTDRIVER} mitkImageWriterTest ${MITK_DATA_DIR}/RenderingTestData/rgbaImage.png) set_property(TEST mitkImageWriterTest_nrrdImage PROPERTY LABELS MITK-Core) set_property(TEST mitkImageWriterTest_2DPNGImage PROPERTY LABELS MITK-Core) set_property(TEST mitkImageWriterTest_rgbPNGImage PROPERTY LABELS MITK-Core) set_property(TEST mitkImageWriterTest_rgbaPNGImage PROPERTY LABELS MITK-Core) add_subdirectory(DICOMTesting) diff --git a/Core/Code/Testing/files.cmake b/Core/Code/Testing/files.cmake index 50b17149b7..f7e02426cf 100644 --- a/Core/Code/Testing/files.cmake +++ b/Core/Code/Testing/files.cmake @@ -1,173 +1,174 @@ # tests with no extra command line parameter set(MODULE_TESTS mitkAccessByItkTest.cpp mitkCoreObjectFactoryTest.cpp mitkMaterialTest.cpp mitkActionTest.cpp mitkDispatcherTest.cpp mitkEnumerationPropertyTest.cpp mitkEventTest.cpp mitkFocusManagerTest.cpp mitkGenericPropertyTest.cpp mitkGeometry2DTest.cpp mitkGeometry3DTest.cpp mitkGeometry3DEqualTest.cpp mitkGeometryDataToSurfaceFilterTest.cpp mitkGlobalInteractionTest.cpp mitkImageEqualTest.cpp mitkImageDataItemTest.cpp #mitkImageMapper2DTest.cpp mitkImageGeneratorTest.cpp mitkBaseDataTest.cpp #mitkImageToItkTest.cpp mitkImportItkImageTest.cpp mitkGrabItkImageMemoryTest.cpp mitkInstantiateAccessFunctionTest.cpp mitkInteractorTest.cpp #mitkITKThreadingTest.cpp mitkLevelWindowTest.cpp mitkMessageTest.cpp #mitkPipelineSmartPointerCorrectnessTest.cpp mitkPixelTypeTest.cpp mitkPlaneGeometryTest.cpp mitkPointSetEqualTest.cpp mitkPointSetFileIOTest.cpp mitkPointSetTest.cpp mitkPointSetWriterTest.cpp mitkPointSetReaderTest.cpp mitkPointSetInteractorTest.cpp mitkPropertyTest.cpp mitkPropertyListTest.cpp #mitkRegistrationBaseTest.cpp #mitkSegmentationInterpolationTest.cpp mitkSlicedGeometry3DTest.cpp mitkSliceNavigationControllerTest.cpp mitkStateMachineTest.cpp ##mitkStateMachineContainerTest.cpp ## rewrite test, indirect since no longer exported Bug 14529 mitkStateTest.cpp mitkSurfaceTest.cpp mitkSurfaceEqualTest.cpp mitkSurfaceToSurfaceFilterTest.cpp mitkTimeSlicedGeometryTest.cpp mitkTransitionTest.cpp mitkUndoControllerTest.cpp mitkVtkWidgetRenderingTest.cpp mitkVerboseLimitedLinearUndoTest.cpp mitkWeakPointerTest.cpp mitkTransferFunctionTest.cpp #mitkAbstractTransformGeometryTest.cpp mitkStepperTest.cpp itkTotalVariationDenoisingImageFilterTest.cpp mitkRenderingManagerTest.cpp vtkMitkThickSlicesFilterTest.cpp mitkNodePredicateSourceTest.cpp mitkVectorTest.cpp mitkClippedSurfaceBoundsCalculatorTest.cpp mitkExceptionTest.cpp mitkExtractSliceFilterTest.cpp mitkLogTest.cpp mitkImageDimensionConverterTest.cpp mitkLoggingAdapterTest.cpp mitkUIDGeneratorTest.cpp mitkShaderRepositoryTest.cpp mitkPlanePositionManagerTest.cpp mitkAffineTransformBaseTest.cpp mitkPropertyAliasesTest.cpp mitkPropertyDescriptionsTest.cpp mitkPropertyExtensionsTest.cpp mitkPropertyFiltersTest.cpp ) # test with image filename as an extra command line parameter set(MODULE_IMAGE_TESTS mitkImageTimeSelectorTest.cpp #only runs on images mitkImageAccessorTest.cpp #only runs on images mitkDataNodeFactoryTest.cpp #runs on all types of data ) set(MODULE_SURFACE_TESTS mitkSurfaceVtkWriterTest.cpp #only runs on surfaces mitkDataNodeFactoryTest.cpp #runs on all types of data ) # list of images for which the tests are run set(MODULE_TESTIMAGES US4DCyl.nrrd Pic3D.nrrd Pic2DplusT.nrrd BallBinary30x30x30.nrrd Png2D-bw.png ) set(MODULE_TESTSURFACES binary.stl ball.stl ) set(MODULE_CUSTOM_TESTS #mitkLabeledImageToSurfaceFilterTest.cpp #mitkExternalToolsTest.cpp mitkDataStorageTest.cpp mitkDataNodeTest.cpp mitkDicomSeriesReaderTest.cpp mitkDICOMLocaleTest.cpp mitkEventMapperTest.cpp mitkEventConfigTest.cpp mitkNodeDependentPointSetInteractorTest.cpp mitkStateMachineFactoryTest.cpp mitkPointSetLocaleTest.cpp mitkImageTest.cpp mitkImageWriterTest.cpp mitkImageVtkMapper2DTest.cpp mitkImageVtkMapper2DLevelWindowTest.cpp mitkImageVtkMapper2DOpacityTest.cpp mitkImageVtkMapper2DResliceInterpolationPropertyTest.cpp mitkImageVtkMapper2DColorTest.cpp mitkImageVtkMapper2DSwivelTest.cpp mitkImageVtkMapper2DTransferFunctionTest.cpp mitkIOUtilTest.cpp mitkSurfaceVtkMapper3DTest mitkSurfaceVtkMapper3DTexturedSphereTest.cpp mitkSurfaceGLMapper2DColorTest.cpp mitkSurfaceGLMapper2DOpacityTest.cpp mitkVolumeCalculatorTest.cpp mitkLevelWindowManagerTest.cpp mitkPointSetVtkMapper2DTest.cpp mitkPointSetVtkMapper2DImageTest.cpp mitkPointSetVtkMapper2DGlyphTypeTest.cpp + mitkPointSetVtkMapper2DTransformedPointsTest.cpp mitkLabelOverlay3DRendering2DTest.cpp mitkLabelOverlay3DRendering3DTest.cpp mitkTextOverlay2DRenderingTest.cpp mitkTextOverlay2DLayouterRenderingTest.cpp mitkTextOverlay3DRendering2DTest.cpp mitkTextOverlay3DRendering3DTest.cpp mitkTextOverlay3DColorRenderingTest.cpp mitkVTKRenderWindowSizeTest.cpp ) if (${VTK_MAJOR_VERSION} VERSION_LESS 6) # test can be removed with VTK 6 set(MODULE_TESTS ${MODULE_TESTS} mitkVTKRenderWindowSizeTest.cpp) endif() set(MODULE_RESOURCE_FILES Interactions/AddAndRemovePoints.xml Interactions/globalConfig.xml Interactions/StatemachineTest.xml Interactions/StatemachineConfigTest.xml ) # Create an artificial module initializing class for # the usServiceListenerTest.cpp usFunctionGenerateExecutableInit(testdriver_init_file IDENTIFIER ${MODULE_NAME}TestDriver ) # Embed the resources set(testdriver_resources ) usFunctionEmbedResources(testdriver_resources EXECUTABLE_NAME ${MODULE_NAME}TestDriver ROOT_DIR ${CMAKE_CURRENT_SOURCE_DIR}/Resources FILES ${MODULE_RESOURCE_FILES} ) set(TEST_CPP_FILES ${testdriver_init_file} ${testdriver_resources}) diff --git a/Core/Code/Testing/mitkPointSetVtkMapper2DTransformedPointsTest.cpp b/Core/Code/Testing/mitkPointSetVtkMapper2DTransformedPointsTest.cpp new file mode 100644 index 0000000000..720a41d1c3 --- /dev/null +++ b/Core/Code/Testing/mitkPointSetVtkMapper2DTransformedPointsTest.cpp @@ -0,0 +1,70 @@ +/*=================================================================== + +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. + +===================================================================*/ + +//MITK +#include "mitkTestingMacros.h" +#include "mitkRenderingTestHelper.h" +#include +#include +#include +#include + +//VTK +#include + + +int mitkPointSetVtkMapper2DTransformedPointsTest(int argc, char* argv[]) +{ + // load all arguments into a datastorage, take last argument as reference rendering + // setup a renderwindow of fixed size X*Y + // render the datastorage + // compare rendering to reference image + MITK_TEST_BEGIN("mitkPointSetVtkMapper2DTransformedPointsTest") + + mitk::RenderingTestHelper renderingHelper(640, 480, argc, argv); + + renderingHelper.SetViewDirection(mitk::SliceNavigationController::Sagittal); + + mitk::DataNode* dataNode = renderingHelper.GetDataStorage()->GetNode(mitk::NodePredicateDataType::New("PointSet")); + + if(dataNode) + { + mitk::PointSet::Pointer pointSet = dynamic_cast ( dataNode->GetData() ); + + if(pointSet) + { + mitk::Point3D origin = pointSet->GetGeometry()->GetOrigin(); + + origin[1] += 10; + origin[2] += 15; + + pointSet->GetGeometry()->SetOrigin(origin); + pointSet->Modified(); + dataNode->Update(); + } + } + + //### Usage of CompareRenderWindowAgainstReference: See docu of mitkRenderingTestHelper + MITK_TEST_CONDITION( renderingHelper.CompareRenderWindowAgainstReference(argc, argv) == true, "CompareRenderWindowAgainstReference test result positive?" ); + + //use this to generate a reference screenshot or save the file: + if(false) + { + renderingHelper.SaveReferenceScreenShot("D:/test/output.png"); + } + + MITK_TEST_END(); +} \ No newline at end of file