diff --git a/Core/Code/Algorithms/mitkExtractSliceFilter.h b/Core/Code/Algorithms/mitkExtractSliceFilter.h index 8dd9ac2a14..57b6d1813e 100644 --- a/Core/Code/Algorithms/mitkExtractSliceFilter.h +++ b/Core/Code/Algorithms/mitkExtractSliceFilter.h @@ -1,174 +1,174 @@ /*=================================================================== 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 mitkExtractSliceFilter_h_Included #define mitkExtractSliceFilter_h_Included #include "MitkExports.h" #include "mitkImageToImageFilter.h" #include #include #include #include #include #include #include namespace mitk { /** \brief ExtractSliceFilter extracts a 2D abitrary oriented slice from a 3D volume. The filter can reslice in all orthogonal planes such as sagittal, coronal and axial, and is also able to reslice a abitrary oriented oblique plane. Curved planes are specified via an AbstractTransformGeometry as the input worldgeometry. The convinient workflow is: 1. Set an image as input. 2. Set the worldGeometry2D. This defines a grid where the slice is being extracted 3. And then start the pipeline. There are a few more properties that can be set to modify the behavior of the slicing. The properties are: - interpolation mode either Nearestneighbor, Linear or Cubic. - a transform this is a convinient way to adapt the reslice axis for the case that the image is transformed e.g. rotated. - time step the time step in a timesliced volume. - resample by geometry wether the resampling grid corresponds to the specs of the worldgeometry or is directly derived from the input image By default the properties are set to: - interpolation mode Nearestneighbor. - a transform NULL (No transform is set). - time step 0. - resample by geometry false (Corresponds to input image). */ class MITK_CORE_EXPORT ExtractSliceFilter : public ImageToImageFilter { public: mitkClassMacro(ExtractSliceFilter, ImageToImageFilter); itkNewMacro(ExtractSliceFilter); mitkNewMacro1Param(Self, vtkImageReslice*); /** \brief Set the axis where to reslice at.*/ void SetWorldGeometry(const Geometry2D* geometry ){ this->m_WorldGeometry = geometry; this->Modified(); } /** \brief Set the time step in the 4D volume */ void SetTimeStep( unsigned int timestep){ this->m_TimeStep = timestep; } unsigned int GetTimeStep(){ return this->m_TimeStep; } /** \brief Set a transform for the reslice axes. * This transform is needed if the image volume itself is transformed. (Effects the reslice axis) */ void SetResliceTransformByGeometry(const Geometry3D* transform){ this->m_ResliceTransform = transform; } /** \brief Resampling grid corresponds to: false->image true->worldgeometry*/ void SetInPlaneResampleExtentByGeometry(bool inPlaneResampleExtentByGeometry){ this->m_InPlaneResampleExtentByGeometry = inPlaneResampleExtentByGeometry; } /** \brief Sets the output dimension of the slice*/ void SetOutputDimensionality(unsigned int dimension){ this->m_OutputDimension = dimension; } /** \brief Set the spacing in z direction manually. * Required if the outputDimension is > 2. */ void SetOutputSpacingZDirection(double zSpacing){ this->m_ZSpacing = zSpacing; } /** \brief Set the extent in pixel for direction z manualy. Required if the output dimension is > 2. */ void SetOutputExtentZDirection(int zMin, int zMax) { this->m_ZMin = zMin; this->m_ZMax = zMax; } /** \brief Get the bounding box of the slice [xMin, xMax, yMin, yMax, zMin, zMax] * The method uses the input of the filter to calculate the bounds. * It is recommended to use * GetClippedPlaneBounds(const Geometry3D*, const PlaneGeometry*, vtkFloatingPointType*) * if you are not sure about the input. */ bool GetClippedPlaneBounds(double bounds[6]); /** \brief Get the bounding box of the slice [xMin, xMax, yMin, yMax, zMin, zMax]*/ bool GetClippedPlaneBounds( const Geometry3D *boundingGeometry, const PlaneGeometry *planeGeometry, vtkFloatingPointType *bounds ); /** \brief Get the spacing of the slice. returns mitk::ScalarType[2] */ mitk::ScalarType* GetOutputSpacing(); /** \brief Get Output as vtkImageData. * Note: * SetVtkOutputRequest(true) has to be called at least once before * GetVtkOutput(). Otherwise the output is empty for the first update step. */ vtkImageData* GetVtkOutput(){ m_VtkOutputRequested = true; return m_Reslicer->GetOutput(); } /** Set VtkOutPutRequest to suppress the convertion of the image. * It is suggested to use this with GetVtkOutput(). * Note: * SetVtkOutputRequest(true) has to be called at least once before * GetVtkOutput(). Otherwise the output is empty for the first update step. */ void SetVtkOutputRequest(bool isRequested){ m_VtkOutputRequested = isRequested; } /** \brief Get the reslices axis matrix. * Note: the axis are recalculated when calling SetResliceTransformByGeometry. */ vtkMatrix4x4* GetResliceAxes(){ return this->m_Reslicer->GetResliceAxes(); } - enum ResliceInterpolation { RESLICE_NEAREST, RESLICE_LINEAR, RESLICE_CUBIC }; + enum ResliceInterpolation { RESLICE_NEAREST=0, RESLICE_LINEAR=1, RESLICE_CUBIC=3 }; void SetInterpolationMode( ExtractSliceFilter::ResliceInterpolation interpolation){ this->m_InterpolationMode = interpolation; } protected: ExtractSliceFilter(vtkImageReslice* reslicer = NULL); virtual ~ExtractSliceFilter(); virtual void GenerateData(); virtual void GenerateOutputInformation(); virtual void GenerateInputRequestedRegion(); const Geometry2D* m_WorldGeometry; vtkSmartPointer m_Reslicer; unsigned int m_TimeStep; unsigned int m_OutputDimension; double m_ZSpacing; int m_ZMin; int m_ZMax; ResliceInterpolation m_InterpolationMode; Geometry3D::ConstPointer m_ResliceTransform; bool m_InPlaneResampleExtentByGeometry;//Resampling grid corresponds to: false->image true->worldgeometry mitk::ScalarType* m_OutPutSpacing; bool m_VtkOutputRequested; }; } #endif // mitkExtractSliceFilter_h_Included diff --git a/Core/Code/Testing/CMakeLists.txt b/Core/Code/Testing/CMakeLists.txt index cdebc1245e..f66dbcc8d0 100644 --- a/Core/Code/Testing/CMakeLists.txt +++ b/Core/Code/Testing/CMakeLists.txt @@ -1,124 +1,140 @@ # 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) mitkFunctionCheckCompilerFlags2("/wd4996" CMAKE_C_FLAGS CMAKE_CXX_FLAGS) else() mitkFunctionCheckCompilerFlags2("-Wno-error=deprecated" CMAKE_C_FLAGS CMAKE_CXX_FLAGS) mitkFunctionCheckCompilerFlags2("-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(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) 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(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 ) +#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 # 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(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 #mitkSurfaceVtkMapper3DTest_TextureProperty #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 6ce2f66ba9..27fe260a26 100644 --- a/Core/Code/Testing/files.cmake +++ b/Core/Code/Testing/files.cmake @@ -1,145 +1,146 @@ # tests with no extra command line parameter set(MODULE_TESTS mitkAccessByItkTest.cpp mitkCoreObjectFactoryTest.cpp mitkMaterialTest.cpp mitkActionTest.cpp mitkDispatcherTest.cpp mitkEnumerationPropertyTest.cpp mitkEventTest.cpp #mitkEventConfigTest.cpp ## needs to be re-written, test indirect since EventConfig is no longer exported as interface Bug 14529 mitkFocusManagerTest.cpp mitkGenericPropertyTest.cpp mitkGeometry3DTest.cpp mitkGeometryDataToSurfaceFilterTest.cpp mitkGlobalInteractionTest.cpp mitkImageDataItemTest.cpp #mitkImageMapper2DTest.cpp mitkImageGeneratorTest.cpp mitkBaseDataTest.cpp #mitkImageToItkTest.cpp mitkInstantiateAccessFunctionTest.cpp mitkInteractorTest.cpp mitkInteractionEventTest.cpp mitkITKThreadingTest.cpp mitkLevelWindowTest.cpp mitkMessageTest.cpp #mitkPipelineSmartPointerCorrectnessTest.cpp mitkPixelTypeTest.cpp mitkPlaneGeometryTest.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 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 #QmitkRenderingTestHelper.cpp mitkExceptionTest.cpp mitkExtractSliceFilterTest.cpp mitkLogTest.cpp mitkImageDimensionConverterTest.cpp mitkLoggingAdapterTest.cpp mitkUIDGeneratorTest.cpp mitkShaderRepositoryTest.cpp ) # test with image filename as an extra command line parameter set(MODULE_IMAGE_TESTS mitkPlanePositionManagerTest.cpp mitkSurfaceVtkWriterTest.cpp #mitkImageSliceSelectorTest.cpp mitkImageTimeSelectorTest.cpp # mitkVtkPropRendererTest.cpp mitkDataNodeFactoryTest.cpp #mitkSTLFileReaderTest.cpp mitkImageAccessorTest.cpp ) # list of images for which the tests are run set(MODULE_TESTIMAGES # Pic-Factory no more available in Core, test images now in .nrrd format US4DCyl.nrrd Pic3D.nrrd Pic2DplusT.nrrd BallBinary30x30x30.nrrd binary.stl ball.stl ) set(MODULE_CUSTOM_TESTS #mitkLabeledImageToSurfaceFilterTest.cpp #mitkExternalToolsTest.cpp mitkDataStorageTest.cpp mitkDataNodeTest.cpp mitkDicomSeriesReaderTest.cpp mitkDICOMLocaleTest.cpp mitkEventMapperTest.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 mitkVolumeCalculatorTest.cpp mitkLevelWindowManagerTest.cpp ) 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 usFunctionGenerateModuleInit(testdriver_init_file NAME ${MODULE_NAME}TestDriver DEPENDS "Mitk" VERSION "0.1.0" EXECUTABLE ) # 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/mitkImageVtkMapper2DResliceInterpolationPropertyTest.cpp b/Core/Code/Testing/mitkImageVtkMapper2DResliceInterpolationPropertyTest.cpp new file mode 100644 index 0000000000..a83bfaf590 --- /dev/null +++ b/Core/Code/Testing/mitkImageVtkMapper2DResliceInterpolationPropertyTest.cpp @@ -0,0 +1,85 @@ +/*=================================================================== + +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 "mitkIOUtil.h" +#include "mitkDataNode.h" + +//VTK +#include +#include + + +int mitkImageVtkMapper2DResliceInterpolationPropertyTest(int argc, char* argv[]) +{ + //load all arguments into a datastorage, take last argument as reference + //setup a renderwindow of fixed size X*Y + //render the datastorage + //compare rendering to reference image + //note: this test is supposed to test the reslice interpolation modes not the swiveling itself + MITK_TEST_BEGIN("mitkImageVtkMapper2DResliceInterpolationPropertyTest") + + mitkRenderingTestHelper renderingHelper(640, 480, argc, argv); + + //get resliceInterpolation from comandline arg + int resliceInterpolation = atoi(argv[argc-4]); + + //Set interpolation mode for rendering + renderingHelper.SetImageProperty("reslice interpolation", mitk::VtkResliceInterpolationProperty::New( resliceInterpolation )); + + /*+++rotate plane+++*/ + //center point for rotation + mitk::Point3D centerPoint; + centerPoint.Fill(0.0f); + //vector for rotating the slice + mitk::Vector3D rotationVector; + rotationVector.SetElement(0, 0.2); + rotationVector.SetElement(1, 0.3); + rotationVector.SetElement(2, 0.5); + //sets a swivel direction for the image + + //new version of setting the center point: + mitk::Image::Pointer image = static_cast(renderingHelper.GetDataStorage()->GetNode(mitk::NodePredicateDataType::New("Image"))->GetData()); + + //get the center point of the image + centerPoint = image->GetGeometry()->GetCenter(); + + //rotate the image arround its own center + renderingHelper.ReorientSlices(centerPoint, rotationVector); + + + //use this to generate a reference screenshot or save the file: + bool generateReferenceScreenshot = false; + if(generateReferenceScreenshot) + { + renderingHelper.Render(); + renderingHelper.SaveReferenceScreenShot("C:\\Users\\schroedt\\Pictures\\RenderingTestData\\Pic3dRefLinear.png"); + } + + //threshold for CompareRenderWindowAgainstReference + double threshold = 0.15;//difference between interpolation modes is very small + + //### Usage of CompareRenderWindowAgainstReference: See docu of mitkRrenderingTestHelper + MITK_TEST_CONDITION( renderingHelper.CompareRenderWindowAgainstReference(argc, argv, threshold) == true, "CompareRenderWindowAgainstReference test result positive?" ); + + + + + MITK_TEST_END(); +}