diff --git a/Modules/Core/test/mitkPlaneGeometryTest.cpp b/Modules/Core/test/mitkPlaneGeometryTest.cpp index 9e3b222181..f1ee6e0b5e 100644 --- a/Modules/Core/test/mitkPlaneGeometryTest.cpp +++ b/Modules/Core/test/mitkPlaneGeometryTest.cpp @@ -1,1078 +1,1078 @@ /*=================================================================== 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 "mitkAffineTransform3D.h" #include "mitkBaseGeometry.h" #include "mitkGeometry3D.h" #include "mitkInteractionConst.h" #include "mitkLine.h" #include "mitkPlaneGeometry.h" #include "mitkRotationOperation.h" #include "mitkSlicedGeometry3D.h" #include "mitkThinPlateSplineCurvedGeometry.h" #include #include #include #include #include #include static const mitk::ScalarType testEps = 1E-9; // the epsilon used in this test == at least float precision. class mitkPlaneGeometryTestSuite : public mitk::TestFixture { CPPUNIT_TEST_SUITE(mitkPlaneGeometryTestSuite); MITK_TEST(TestInitializeStandardPlane); MITK_TEST(TestProjectPointOntoPlane); MITK_TEST(TestPlaneGeometryCloning); MITK_TEST(TestInheritance); MITK_TEST(TestSetExtendInMM); MITK_TEST(TestRotate); MITK_TEST(TestClone); MITK_TEST(TestPlaneComparison); MITK_TEST(TestAxialInitialization); MITK_TEST(TestFrontalInitialization); MITK_TEST(TestSaggitalInitialization); MITK_TEST(TestLefthandedCoordinateSystem); // Currently commented out, see See bug 15990 // MITK_TEST(testPlaneGeometryInitializeOrder); MITK_TEST(TestIntersectionPoint); MITK_TEST(TestCase1210); CPPUNIT_TEST_SUITE_END(); private: // private test members that are initialized by setUp() mitk::PlaneGeometry::Pointer planegeometry; mitk::Point3D origin; - mitk::Vector3D right, bottom, normal; + mitk::Vector3D right, bottom, normal, spacing; mitk::ScalarType width, height; mitk::ScalarType widthInMM, heightInMM, thicknessInMM; public: void setUp() override { planegeometry = mitk::PlaneGeometry::New(); width = 100; widthInMM = width; height = 200; heightInMM = height; thicknessInMM = 1.0; mitk::FillVector3D(origin, 4.5, 7.3, 11.2); mitk::FillVector3D(right, widthInMM, 0, 0); mitk::FillVector3D(bottom, 0, heightInMM, 0); mitk::FillVector3D(normal, 0, 0, thicknessInMM); + mitk::FillVector3D(spacing, 1.0, 1.0, thicknessInMM); - planegeometry->InitializeStandardPlane(right.GetVnlVector(), bottom.GetVnlVector()); + planegeometry->InitializeStandardPlane(right, bottom); planegeometry->SetOrigin(origin); + planegeometry->SetSpacing(spacing); } void tearDown() override {} // This test verifies inheritance behaviour, this test will fail if the behaviour changes in the future void TestInheritance() { mitk::PlaneGeometry::Pointer plane = mitk::PlaneGeometry::New(); mitk::Geometry3D::Pointer g3d = dynamic_cast(plane.GetPointer()); CPPUNIT_ASSERT_MESSAGE("Planegeometry should not be castable to Geometry 3D", g3d.IsNull()); mitk::BaseGeometry::Pointer base = dynamic_cast(plane.GetPointer()); CPPUNIT_ASSERT_MESSAGE("Planegeometry should be castable to BaseGeometry", base.IsNotNull()); g3d = mitk::Geometry3D::New(); base = dynamic_cast(g3d.GetPointer()); CPPUNIT_ASSERT_MESSAGE("Geometry3D should be castable to BaseGeometry", base.IsNotNull()); mitk::SlicedGeometry3D::Pointer sliced = mitk::SlicedGeometry3D::New(); g3d = dynamic_cast(sliced.GetPointer()); CPPUNIT_ASSERT_MESSAGE("SlicedGeometry3D should not be castable to Geometry3D", g3d.IsNull()); mitk::ThinPlateSplineCurvedGeometry::Pointer thin = mitk::ThinPlateSplineCurvedGeometry::New(); plane = dynamic_cast(thin.GetPointer()); CPPUNIT_ASSERT_MESSAGE("AbstractTransformGeometry should be castable to PlaneGeometry", plane.IsNotNull()); plane = mitk::PlaneGeometry::New(); mitk::AbstractTransformGeometry::Pointer atg = dynamic_cast(plane.GetPointer()); CPPUNIT_ASSERT_MESSAGE("PlaneGeometry should not be castable to AbstractTransofrmGeometry", atg.IsNull()); } void TestLefthandedCoordinateSystem() { /** * @brief This method tests InitializeStandardPlane() and IndexToWorld() * with a left-handed coordinate orientation or indexToWorldMatrix. * * Of course this test does not use standard Parameters, which are right-handed. * See also discussion of bug #11477: http://bugs.mitk.org/show_bug.cgi?id=11477 */ planegeometry = mitk::PlaneGeometry::New(); width = 100; widthInMM = 5; height = 200; heightInMM = 3; thicknessInMM = 1.0; mitk::FillVector3D(right, widthInMM, 0, 0); mitk::FillVector3D(bottom, 0, heightInMM, 0); // This one negative sign results in lefthanded coordinate orientation and det(matrix) < 0. mitk::FillVector3D(normal, 0, 0, -thicknessInMM); mitk::AffineTransform3D::Pointer transform = mitk::AffineTransform3D::New(); mitk::AffineTransform3D::MatrixType matrix; mitk::AffineTransform3D::MatrixType::InternalMatrixType &vnl_matrix = matrix.GetVnlMatrix(); vnl_matrix.set_column(0, right); vnl_matrix.set_column(1, bottom); vnl_matrix.set_column(2, normal); // making sure that we didn't screw up this special test case or else fail deadly: assert(vnl_determinant(vnl_matrix) < 0.0); transform->SetIdentity(); transform->SetMatrix(matrix); planegeometry->InitializeStandardPlane(width, height, transform); // Crux of the matter. CPPUNIT_ASSERT_MESSAGE( "Testing if IndexToWorldMatrix is correct after InitializeStandardPlane( width, height, transform ) ", mitk::MatrixEqualElementWise(planegeometry->GetIndexToWorldTransform()->GetMatrix(), matrix)); mitk::Point3D p_index; p_index[0] = 10.; p_index[1] = 10.; p_index[2] = 0.; mitk::Point3D p_world; mitk::Point3D p_expectedResult; p_expectedResult[0] = 50.; p_expectedResult[1] = 30.; p_expectedResult[2] = 0.; ((mitk::BaseGeometry::Pointer)planegeometry)->IndexToWorld(p_index, p_world); // Crux of the matter. CPPUNIT_ASSERT_MESSAGE("Testing if IndexToWorld(a,b) function works correctly with lefthanded matrix ", mitk::Equal(p_world, p_expectedResult, testEps)); } // See bug 1210 // Test does not use standard Parameters void TestCase1210() { mitk::PlaneGeometry::Pointer planegeometry = mitk::PlaneGeometry::New(); mitk::Point3D origin; mitk::Vector3D right, down, spacing; mitk::FillVector3D(origin, 4.5, 7.3, 11.2); mitk::FillVector3D(right, 1.015625, 1.015625, 1.1999969482421875); mitk::FillVector3D(down, 1.4012984643248170709237295832899161312802619418765e-45, 0, 0); mitk::FillVector3D(spacing, 0, 1.4713633875410579244699160624544119378442750389703e-43, 9.2806360452222355258639080851310540729807238879469e-32); std::cout << "Testing InitializeStandardPlane(rightVector, downVector, spacing = NULL): " << std::endl; CPPUNIT_ASSERT_NO_THROW(planegeometry->InitializeStandardPlane(right, down, &spacing)); /* std::cout << "Testing width, height and thickness (in units): "; if((mitk::Equal(planegeometry->GetExtent(0),width)==false) || (mitk::Equal(planegeometry->GetExtent(1),height)==false) || (mitk::Equal(planegeometry->GetExtent(2),1)==false) ) { std::cout<<"[FAILED]"<GetExtentInMM(0),widthInMM)==false) || (mitk::Equal(planegeometry->GetExtentInMM(1),heightInMM)==false) || (mitk::Equal(planegeometry->GetExtentInMM(2),thicknessInMM)==false) ) { std::cout<<"[FAILED]"< 0. * */ // Test does not use standard Parameters void TestIntersectionPoint() { // init plane with its parameter mitk::PlaneGeometry::Pointer myPlaneGeometry = mitk::PlaneGeometry::New(); mitk::Point3D origin; origin[0] = 0.0; origin[1] = 2.0; origin[2] = 0.0; mitk::Vector3D normal; normal[0] = 0.0; normal[1] = 1.0; normal[2] = 0.0; myPlaneGeometry->InitializePlane(origin, normal); // generate points and line for intersection testing // point distance of given line > 1 mitk::Point3D pointP1; pointP1[0] = 2.0; pointP1[1] = 1.0; pointP1[2] = 0.0; mitk::Point3D pointP2; pointP2[0] = 2.0; pointP2[1] = 4.0; pointP2[2] = 0.0; mitk::Vector3D lineDirection; lineDirection[0] = pointP2[0] - pointP1[0]; lineDirection[1] = pointP2[1] - pointP1[1]; lineDirection[2] = pointP2[2] - pointP1[2]; mitk::Line3D xingline(pointP1, lineDirection); mitk::Point3D calcXingPoint; myPlaneGeometry->IntersectionPoint(xingline, calcXingPoint); // point distance of given line < 1 mitk::Point3D pointP3; pointP3[0] = 2.0; pointP3[1] = 2.2; pointP3[2] = 0.0; mitk::Point3D pointP4; pointP4[0] = 2.0; pointP4[1] = 1.7; pointP4[2] = 0.0; mitk::Vector3D lineDirection2; lineDirection2[0] = pointP4[0] - pointP3[0]; lineDirection2[1] = pointP4[1] - pointP3[1]; lineDirection2[2] = pointP4[2] - pointP3[2]; mitk::Line3D xingline2(pointP3, lineDirection2); mitk::Point3D calcXingPoint2; myPlaneGeometry->IntersectionPoint(xingline2, calcXingPoint2); // intersection points must be the same CPPUNIT_ASSERT_MESSAGE("Failed to calculate Intersection Point", calcXingPoint == calcXingPoint2); } /** * @brief This method tests method ProjectPointOntoPlane. * * See also bug #3409. */ // Test does not use standard Parameters void TestProjectPointOntoPlane() { mitk::PlaneGeometry::Pointer myPlaneGeometry = mitk::PlaneGeometry::New(); // create normal mitk::Vector3D normal; normal[0] = 0.0; normal[1] = 0.0; normal[2] = 1.0; // create origin mitk::Point3D origin; origin[0] = -27.582859; origin[1] = 50; origin[2] = 200.27742; // initialize plane geometry myPlaneGeometry->InitializePlane(origin, normal); // output to descripe the test std::cout << "Testing PlaneGeometry according to bug #3409" << std::endl; std::cout << "Our normal is: " << normal << std::endl; std::cout << "So ALL projected points should have exactly the same z-value!" << std::endl; // create a number of points mitk::Point3D myPoints[5]; myPoints[0][0] = -27.582859; myPoints[0][1] = 50.00; myPoints[0][2] = 200.27742; myPoints[1][0] = -26.58662; myPoints[1][1] = 50.00; myPoints[1][2] = 200.19026; myPoints[2][0] = -26.58662; myPoints[2][1] = 50.00; myPoints[2][2] = 200.33124; myPoints[3][0] = 104.58662; myPoints[3][1] = 452.12313; myPoints[3][2] = 866.41236; myPoints[4][0] = -207.58662; myPoints[4][1] = 312.00; myPoints[4][2] = -300.12346; // project points onto plane mitk::Point3D myProjectedPoints[5]; for (unsigned int i = 0; i < 5; ++i) { myProjectedPoints[i] = myPlaneGeometry->ProjectPointOntoPlane(myPoints[i]); } // compare z-values with z-value of plane (should be equal) bool allPointsOnPlane = true; for (auto &myProjectedPoint : myProjectedPoints) { if (fabs(myProjectedPoint[2] - origin[2]) > mitk::sqrteps) { allPointsOnPlane = false; } } CPPUNIT_ASSERT_MESSAGE("All points lie not on the same plane", allPointsOnPlane); } void TestPlaneGeometryCloning() { mitk::PlaneGeometry::Pointer geometry2D = createPlaneGeometry(); try { mitk::PlaneGeometry::Pointer clone = geometry2D->Clone(); itk::Matrix matrix = clone->GetIndexToWorldTransform()->GetMatrix(); CPPUNIT_ASSERT_MESSAGE("Test if matrix element exists...", matrix[0][0] == 31); double origin = geometry2D->GetOrigin()[0]; CPPUNIT_ASSERT_MESSAGE("First Point of origin as expected...", mitk::Equal(origin, 8)); double spacing = geometry2D->GetSpacing()[0]; CPPUNIT_ASSERT_MESSAGE("First Point of spacing as expected...", mitk::Equal(spacing, 31)); } catch (...) { CPPUNIT_FAIL("Error during access on a member of cloned geometry"); } // direction [row] [coloum] MITK_TEST_OUTPUT(<< "Casting a rotated 2D ITK Image to a MITK Image and check if Geometry is still same"); } void TestPlaneGeometryInitializeOrder() { mitk::Vector3D mySpacing; mySpacing[0] = 31; mySpacing[1] = 0.1; mySpacing[2] = 5.4; mitk::Point3D myOrigin; myOrigin[0] = 8; myOrigin[1] = 9; myOrigin[2] = 10; mitk::AffineTransform3D::Pointer myTransform = mitk::AffineTransform3D::New(); itk::Matrix transMatrix; transMatrix.Fill(0); transMatrix[0][0] = 1; transMatrix[1][1] = 2; transMatrix[2][2] = 4; myTransform->SetMatrix(transMatrix); mitk::PlaneGeometry::Pointer geometry2D1 = mitk::PlaneGeometry::New(); geometry2D1->SetIndexToWorldTransform(myTransform); geometry2D1->SetSpacing(mySpacing); geometry2D1->SetOrigin(myOrigin); mitk::PlaneGeometry::Pointer geometry2D2 = mitk::PlaneGeometry::New(); geometry2D2->SetSpacing(mySpacing); geometry2D2->SetOrigin(myOrigin); geometry2D2->SetIndexToWorldTransform(myTransform); mitk::PlaneGeometry::Pointer geometry2D3 = mitk::PlaneGeometry::New(); geometry2D3->SetIndexToWorldTransform(myTransform); geometry2D3->SetSpacing(mySpacing); geometry2D3->SetOrigin(myOrigin); geometry2D3->SetIndexToWorldTransform(myTransform); CPPUNIT_ASSERT_MESSAGE("Origin of Geometry 1 matches that of Geometry 2.", mitk::Equal(geometry2D1->GetOrigin(), geometry2D2->GetOrigin())); CPPUNIT_ASSERT_MESSAGE("Origin of Geometry 1 match those of Geometry 3.", mitk::Equal(geometry2D1->GetOrigin(), geometry2D3->GetOrigin())); CPPUNIT_ASSERT_MESSAGE("Origin of Geometry 2 match those of Geometry 3.", mitk::Equal(geometry2D2->GetOrigin(), geometry2D3->GetOrigin())); CPPUNIT_ASSERT_MESSAGE("Spacing of Geometry 1 match those of Geometry 2.", mitk::Equal(geometry2D1->GetSpacing(), geometry2D2->GetSpacing())); CPPUNIT_ASSERT_MESSAGE("Spacing of Geometry 1 match those of Geometry 3.", mitk::Equal(geometry2D1->GetSpacing(), geometry2D3->GetSpacing())); CPPUNIT_ASSERT_MESSAGE("Spacing of Geometry 2 match those of Geometry 3.", mitk::Equal(geometry2D2->GetSpacing(), geometry2D3->GetSpacing())); CPPUNIT_ASSERT_MESSAGE("Transformation of Geometry 1 match those of Geometry 2.", compareMatrix(geometry2D1->GetIndexToWorldTransform()->GetMatrix(), geometry2D2->GetIndexToWorldTransform()->GetMatrix())); CPPUNIT_ASSERT_MESSAGE("Transformation of Geometry 1 match those of Geometry 3.", compareMatrix(geometry2D1->GetIndexToWorldTransform()->GetMatrix(), geometry2D3->GetIndexToWorldTransform()->GetMatrix())); CPPUNIT_ASSERT_MESSAGE("Transformation of Geometry 2 match those of Geometry 3.", compareMatrix(geometry2D2->GetIndexToWorldTransform()->GetMatrix(), geometry2D3->GetIndexToWorldTransform()->GetMatrix())); } void TestInitializeStandardPlane() { CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: width", mitk::Equal(planegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: height", mitk::Equal(planegeometry->GetExtent(1), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: depth", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: width in mm", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: heght in mm", mitk::Equal(planegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: depth in mm", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: AxisVectorRight", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: AxisVectorBottom", mitk::Equal(planegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with default Spacing: AxisVectorNormal", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); mitk::Vector3D spacing; thicknessInMM = 1.5; normal.Normalize(); normal *= thicknessInMM; mitk::FillVector3D(spacing, 1.0, 1.0, thicknessInMM); planegeometry->InitializeStandardPlane(right.GetVnlVector(), bottom.GetVnlVector(), &spacing); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: width", mitk::Equal(planegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: height", mitk::Equal(planegeometry->GetExtent(1), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: depth", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: width in mm", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: height in mm", mitk::Equal(planegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: depth in mm", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: AxisVectorRight", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: AxisVectorBottom", mitk::Equal(planegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing correct Standard Plane initialization with custom Spacing: AxisVectorNormal", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); ; } void TestSetExtendInMM() { normal.Normalize(); normal *= thicknessInMM; planegeometry->SetExtentInMM(2, thicknessInMM); CPPUNIT_ASSERT_MESSAGE("Testing SetExtentInMM(2, ...), querying by GetExtentInMM(2): ", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing SetExtentInMM(2, ...), querying by GetAxisVector(2) and comparing to normal: ", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); planegeometry->SetOrigin(origin); CPPUNIT_ASSERT_MESSAGE("Testing SetOrigin", mitk::Equal(planegeometry->GetOrigin(), origin, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() after SetOrigin: Right", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() after SetOrigin: Bottom", mitk::Equal(planegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() after SetOrigin: Normal", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); mappingTests2D(planegeometry, width, height, widthInMM, heightInMM, origin, right, bottom); } void TestRotate() { // Changing the IndexToWorldTransform to a rotated version by SetIndexToWorldTransform() (keep origin): mitk::AffineTransform3D::Pointer transform = mitk::AffineTransform3D::New(); mitk::AffineTransform3D::MatrixType::InternalMatrixType vnlmatrix; vnlmatrix = planegeometry->GetIndexToWorldTransform()->GetMatrix().GetVnlMatrix(); mitk::VnlVector axis(3); mitk::FillVector3D(axis, 1.0, 1.0, 1.0); axis.normalize(); vnl_quaternion rotation(axis, 0.223); vnlmatrix = rotation.rotation_matrix_transpose() * vnlmatrix; mitk::Matrix3D matrix; matrix = vnlmatrix; transform->SetMatrix(matrix); transform->SetOffset(planegeometry->GetIndexToWorldTransform()->GetOffset()); right.SetVnlVector(rotation.rotation_matrix_transpose() * right.GetVnlVector()); bottom.SetVnlVector(rotation.rotation_matrix_transpose() * bottom.GetVnlVector()); normal.SetVnlVector(rotation.rotation_matrix_transpose() * normal.GetVnlVector()); planegeometry->SetIndexToWorldTransform(transform); // The origin changed,because m_Origin=m_IndexToWorldTransform->GetOffset()+GetAxisVector(2)*0.5 // and the AxisVector changes due to the rotation. In other words: the rotation was done around // the corner of the box, not around the planes origin. Now change it to a rotation around // the origin, simply by re-setting the origin to the original one: planegeometry->SetOrigin(origin); CPPUNIT_ASSERT_MESSAGE("Testing whether SetIndexToWorldTransform kept origin: ", mitk::Equal(planegeometry->GetOrigin(), origin, testEps)); mitk::Point2D point; point[0] = 4; point[1] = 3; mitk::Point2D dummy; planegeometry->WorldToIndex(point, dummy); planegeometry->IndexToWorld(dummy, dummy); CPPUNIT_ASSERT_MESSAGE("Testing consistency of index and world coordinates.", dummy == point); CPPUNIT_ASSERT_MESSAGE("Testing width of rotated version: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height of rotated version: ", mitk::Equal(planegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness of rotated version: ", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of rotated version: right ", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of rotated version: bottom", mitk::Equal(planegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of rotated version: normal", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing GetAxisVector(direction).GetNorm() != planegeometry->GetExtentInMM(direction) of rotated version: ", mitk::Equal(planegeometry->GetAxisVector(0).GetNorm(), planegeometry->GetExtentInMM(0), testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing GetAxisVector(direction).GetNorm() != planegeometry->GetExtentInMM(direction) of rotated version: ", mitk::Equal(planegeometry->GetAxisVector(1).GetNorm(), planegeometry->GetExtentInMM(1), testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing GetAxisVector(direction).GetNorm() != planegeometry->GetExtentInMM(direction) of rotated version: ", mitk::Equal(planegeometry->GetAxisVector(2).GetNorm(), planegeometry->GetExtentInMM(2), testEps)); mappingTests2D(planegeometry, width, height, widthInMM, heightInMM, origin, right, bottom); width *= 2; height *= 3; planegeometry->SetSizeInUnits(width, height); CPPUNIT_ASSERT_MESSAGE("Testing SetSizeInUnits() of rotated version: ", mitk::Equal(planegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing SetSizeInUnits() of rotated version: ", mitk::Equal(planegeometry->GetExtent(1), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing SetSizeInUnits() of rotated version: ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width (in mm) of version with changed size in units: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in mm) of version with changed size in units: ", mitk::Equal(planegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness (in mm) of version with changed size in units: ", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of version with changed size in units: right ", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of version with changed size in units: bottom", mitk::Equal(planegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of version with changed size in units: normal", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing GetAxisVector(direction).GetNorm() != planegeometry->GetExtentInMM(direction) of rotated version: ", mitk::Equal(planegeometry->GetAxisVector(0).GetNorm(), planegeometry->GetExtentInMM(0), testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing GetAxisVector(direction).GetNorm() != planegeometry->GetExtentInMM(direction) of rotated version: ", mitk::Equal(planegeometry->GetAxisVector(1).GetNorm(), planegeometry->GetExtentInMM(1), testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing GetAxisVector(direction).GetNorm() != planegeometry->GetExtentInMM(direction) of rotated version: ", mitk::Equal(planegeometry->GetAxisVector(2).GetNorm(), planegeometry->GetExtentInMM(2), testEps)); mappingTests2D(planegeometry, width, height, widthInMM, heightInMM, origin, right, bottom); } void TestClone() { mitk::PlaneGeometry::Pointer clonedplanegeometry = dynamic_cast(planegeometry->Clone().GetPointer()); // Cave: Statement below is negated! CPPUNIT_ASSERT_MESSAGE("Testing Clone(): ", !((clonedplanegeometry.IsNull()) || (clonedplanegeometry->GetReferenceCount() != 1))); CPPUNIT_ASSERT_MESSAGE("Testing origin of cloned version: ", mitk::Equal(clonedplanegeometry->GetOrigin(), origin, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width (in units) of cloned version: ", mitk::Equal(clonedplanegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in units) of cloned version: ", mitk::Equal(clonedplanegeometry->GetExtent(1), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing extent (in units) of cloned version: ", mitk::Equal(clonedplanegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width (in mm) of cloned version: ", mitk::Equal(clonedplanegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in mm) of cloned version: ", mitk::Equal(clonedplanegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness (in mm) of cloned version: ", mitk::Equal(clonedplanegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of cloned version: right", mitk::Equal(clonedplanegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of cloned version: bottom", mitk::Equal(clonedplanegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of cloned version: normal", mitk::Equal(clonedplanegeometry->GetAxisVector(2), normal, testEps)); mappingTests2D(clonedplanegeometry, width, height, widthInMM, heightInMM, origin, right, bottom); } void TestSaggitalInitialization() { mitk::Point3D cornerpoint0 = planegeometry->GetCornerPoint(0); - - mitk::PlaneGeometry::Pointer clonedplanegeometry = - dynamic_cast(planegeometry->Clone().GetPointer()); + mitk::PlaneGeometry::Pointer clonedplanegeometry = planegeometry->Clone(); // Testing InitializeStandardPlane(clonedplanegeometry, planeorientation = Sagittal, zPosition = 0, frontside=true): planegeometry->InitializeStandardPlane(clonedplanegeometry, mitk::PlaneGeometry::Sagittal); mitk::Vector3D newright, newbottom, newnormal; mitk::ScalarType newthicknessInMM; newright = bottom; newthicknessInMM = widthInMM / width * 1.0; // extent in normal direction is 1; newnormal = right; newnormal.Normalize(); newnormal *= newthicknessInMM; newbottom = normal; newbottom.Normalize(); newbottom *= thicknessInMM; CPPUNIT_ASSERT_MESSAGE("Testing GetCornerPoint(0) of sagitally initialized version:", mitk::Equal(planegeometry->GetCornerPoint(0), cornerpoint0, testEps)); // ok, corner was fine, so we can dare to believe the origin is ok. origin = planegeometry->GetOrigin(); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in units) of sagitally initialized version: ", mitk::Equal(planegeometry->GetExtent(0), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in units) of sagitally initialized version: ", mitk::Equal(planegeometry->GetExtent(1), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in units) of sagitally initialized version: ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in mm) of sagitally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(0), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in mm) of sagitally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(1), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in mm) of sagitally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(2), newthicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of sagitally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(0), newright, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of sagitally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(1), newbottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of sagitally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(2), newnormal, testEps)); mappingTests2D(planegeometry, height, 1, heightInMM, thicknessInMM, origin, newright, newbottom); // set origin back to the one of the axial slice: origin = clonedplanegeometry->GetOrigin(); // Testing backside initialization: InitializeStandardPlane(clonedplanegeometry, planeorientation = Axial, zPosition // = 0, frontside=false, rotated=true): planegeometry->InitializeStandardPlane(clonedplanegeometry, mitk::PlaneGeometry::Axial, 0, false, true); mitk::Point3D backsideorigin; backsideorigin = origin + clonedplanegeometry->GetAxisVector(1); //+clonedplanegeometry->GetAxisVector(2); CPPUNIT_ASSERT_MESSAGE("Testing origin of backsidedly, axially initialized version: ", mitk::Equal(planegeometry->GetOrigin(), backsideorigin, testEps)); mitk::Point3D backsidecornerpoint0; backsidecornerpoint0 = cornerpoint0 + clonedplanegeometry->GetAxisVector(1); //+clonedplanegeometry->GetAxisVector(2); CPPUNIT_ASSERT_MESSAGE("Testing GetCornerPoint(0) of sagitally initialized version: ", mitk::Equal(planegeometry->GetCornerPoint(0), backsidecornerpoint0, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in units) of backsidedly, axially initialized version " "(should be same as in mm due to unit spacing, except for thickness, which is always 1): ", mitk::Equal(planegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in units) of backsidedly, axially initialized version " "(should be same as in mm due to unit spacing, except for thickness, which is always 1): ", mitk::Equal(planegeometry->GetExtent(1), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in units) of backsidedly, axially initialized version " "(should be same as in mm due to unit spacing, except for thickness, which is always 1): ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in mm) of backsidedly, axially initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in mm) of backsidedly, axially initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width, height and thickness (in mm) of backsidedly, axially initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of backsidedly, axially initialized version: ", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of backsidedly, axially initialized version: ", mitk::Equal(planegeometry->GetAxisVector(1), -bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of backsidedly, axially initialized version: ", - mitk::Equal(planegeometry->GetAxisVector(2), -normal, testEps)); + mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); // T22254: Flipped sign mappingTests2D(planegeometry, width, height, widthInMM, heightInMM, backsideorigin, right, -bottom); } void TestFrontalInitialization() { mitk::Point3D cornerpoint0 = planegeometry->GetCornerPoint(0); mitk::PlaneGeometry::Pointer clonedplanegeometry = dynamic_cast(planegeometry->Clone().GetPointer()); //-------- mitk::Vector3D newright, newbottom, newnormal; mitk::ScalarType newthicknessInMM; // Testing InitializeStandardPlane(clonedplanegeometry, planeorientation = Frontal, zPosition = 0, frontside=true) planegeometry->InitializeStandardPlane(clonedplanegeometry, mitk::PlaneGeometry::Frontal); newright = right; newbottom = normal; newbottom.Normalize(); newbottom *= thicknessInMM; newthicknessInMM = heightInMM / height * 1.0 /*extent in normal direction is 1*/; newnormal = -bottom; newnormal.Normalize(); newnormal *= newthicknessInMM; CPPUNIT_ASSERT_MESSAGE("Testing GetCornerPoint(0) of frontally initialized version: ", mitk::Equal(planegeometry->GetCornerPoint(0), cornerpoint0, testEps)); // ok, corner was fine, so we can dare to believe the origin is ok. origin = planegeometry->GetOrigin(); CPPUNIT_ASSERT_MESSAGE("Testing width (in units) of frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in units) of frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(1), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness (in units) of frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width (in mm) of frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in mm) of frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(1), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness (in mm) of frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(2), newthicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of frontally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(0), newright, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of frontally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(1), newbottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of frontally initialized version: ", - mitk::Equal(planegeometry->GetAxisVector(2), newnormal, testEps)); + mitk::Equal(planegeometry->GetAxisVector(2), -newnormal, testEps)); // T22254: Flipped sign mappingTests2D(planegeometry, width, 1, widthInMM, thicknessInMM, origin, newright, newbottom); // Changing plane to in-plane unit spacing using SetSizeInUnits: planegeometry->SetSizeInUnits(planegeometry->GetExtentInMM(0), planegeometry->GetExtentInMM(1)); CPPUNIT_ASSERT_MESSAGE("Testing origin of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetOrigin(), origin, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in units) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in units) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(1), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in units) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in mm) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in mm) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(1), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in mm) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(2), newthicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(0), newright, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(1), newbottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of unit spaced, frontally initialized version: ", - mitk::Equal(planegeometry->GetAxisVector(2), newnormal, testEps)); + mitk::Equal(planegeometry->GetAxisVector(2), -newnormal, testEps)); // T22254: Flipped sign mappingTests2D(planegeometry, widthInMM, thicknessInMM, widthInMM, thicknessInMM, origin, newright, newbottom); // Changing plane to unit spacing also in normal direction using SetExtentInMM(2, 1.0): planegeometry->SetExtentInMM(2, 1.0); newnormal.Normalize(); CPPUNIT_ASSERT_MESSAGE("Testing origin of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetOrigin(), origin, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in units) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in units) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(1), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in units) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in mm) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in mm) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(1), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE( "Testing width, height and thickness (in mm) of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(2), 1.0, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(0), newright, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of unit spaced, frontally initialized version: ", mitk::Equal(planegeometry->GetAxisVector(1), newbottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of unit spaced, frontally initialized version: ", - mitk::Equal(planegeometry->GetAxisVector(2), newnormal, testEps)); + mitk::Equal(planegeometry->GetAxisVector(2), -newnormal, testEps)); // T22254: Flipped sign mappingTests2D(planegeometry, widthInMM, thicknessInMM, widthInMM, thicknessInMM, origin, newright, newbottom); } void TestAxialInitialization() { mitk::Point3D cornerpoint0 = planegeometry->GetCornerPoint(0); // Clone, move, rotate and test for 'IsParallel' and 'IsOnPlane' mitk::PlaneGeometry::Pointer clonedplanegeometry = dynamic_cast(planegeometry->Clone().GetPointer()); CPPUNIT_ASSERT_MESSAGE("Testing Clone(): ", !((clonedplanegeometry.IsNull()) || (clonedplanegeometry->GetReferenceCount() != 1))); std::cout << "Testing InitializeStandardPlane(clonedplanegeometry, planeorientation = Axial, zPosition = 0, " "frontside=true): " << std::endl; planegeometry->InitializeStandardPlane(clonedplanegeometry); CPPUNIT_ASSERT_MESSAGE("Testing origin of axially initialized version: ", mitk::Equal(planegeometry->GetOrigin(), origin)); CPPUNIT_ASSERT_MESSAGE("Testing GetCornerPoint(0) of axially initialized version: ", mitk::Equal(planegeometry->GetCornerPoint(0), cornerpoint0)); CPPUNIT_ASSERT_MESSAGE("Testing width (in units) of axially initialized version (should be same as in mm due to " "unit spacing, except for thickness, which is always 1): ", mitk::Equal(planegeometry->GetExtent(0), width, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in units) of axially initialized version (should be same as in mm due to " "unit spacing, except for thickness, which is always 1): ", mitk::Equal(planegeometry->GetExtent(1), height, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness (in units) of axially initialized version (should be same as in mm due " "to unit spacing, except for thickness, which is always 1): ", mitk::Equal(planegeometry->GetExtent(2), 1, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing width (in mm) of axially initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(0), widthInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing height (in mm) of axially initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(1), heightInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing thickness (in mm) of axially initialized version: ", mitk::Equal(planegeometry->GetExtentInMM(2), thicknessInMM, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of axially initialized version: ", mitk::Equal(planegeometry->GetAxisVector(0), right, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of axially initialized version: ", mitk::Equal(planegeometry->GetAxisVector(1), bottom, testEps)); CPPUNIT_ASSERT_MESSAGE("Testing GetAxisVector() of axially initialized version: ", mitk::Equal(planegeometry->GetAxisVector(2), normal, testEps)); mappingTests2D(planegeometry, width, height, widthInMM, heightInMM, origin, right, bottom); } void TestPlaneComparison() { // Clone, move, rotate and test for 'IsParallel' and 'IsOnPlane' mitk::PlaneGeometry::Pointer clonedplanegeometry2 = dynamic_cast(planegeometry->Clone().GetPointer()); CPPUNIT_ASSERT_MESSAGE("Testing Clone(): ", !((clonedplanegeometry2.IsNull()) || (clonedplanegeometry2->GetReferenceCount() != 1))); CPPUNIT_ASSERT_MESSAGE("Testing wheter original and clone are at the same position", clonedplanegeometry2->IsOnPlane(planegeometry.GetPointer())); CPPUNIT_ASSERT_MESSAGE(" Asserting that origin is on the plane cloned plane:", clonedplanegeometry2->IsOnPlane(origin)); mitk::VnlVector newaxis(3); mitk::FillVector3D(newaxis, 1.0, 1.0, 1.0); newaxis.normalize(); vnl_quaternion rotation2(newaxis, 0.0); mitk::Vector3D clonednormal = clonedplanegeometry2->GetNormal(); mitk::Point3D clonedorigin = clonedplanegeometry2->GetOrigin(); auto planerot = new mitk::RotationOperation(mitk::OpROTATE, origin, clonedplanegeometry2->GetAxisVector(0), 180.0); clonedplanegeometry2->ExecuteOperation(planerot); CPPUNIT_ASSERT_MESSAGE(" Asserting that a flipped plane is still on the original plane: ", clonedplanegeometry2->IsOnPlane(planegeometry.GetPointer())); clonedorigin += clonednormal; clonedplanegeometry2->SetOrigin(clonedorigin); CPPUNIT_ASSERT_MESSAGE("Testing if the translated (cloned, flipped) plane is parallel to its origin plane: ", clonedplanegeometry2->IsParallel(planegeometry)); delete planerot; planerot = new mitk::RotationOperation(mitk::OpROTATE, origin, clonedplanegeometry2->GetAxisVector(0), 0.5); clonedplanegeometry2->ExecuteOperation(planerot); CPPUNIT_ASSERT_MESSAGE("Testing if a non-paralell plane gets recognized as not paralell [rotation +0.5 degree] : ", !clonedplanegeometry2->IsParallel(planegeometry)); delete planerot; planerot = new mitk::RotationOperation(mitk::OpROTATE, origin, clonedplanegeometry2->GetAxisVector(0), -1.0); clonedplanegeometry2->ExecuteOperation(planerot); CPPUNIT_ASSERT_MESSAGE("Testing if a non-paralell plane gets recognized as not paralell [rotation -0.5 degree] : ", !clonedplanegeometry2->IsParallel(planegeometry)); delete planerot; planerot = new mitk::RotationOperation(mitk::OpROTATE, origin, clonedplanegeometry2->GetAxisVector(0), 360.5); clonedplanegeometry2->ExecuteOperation(planerot); CPPUNIT_ASSERT_MESSAGE("Testing if a non-paralell plane gets recognized as paralell [rotation 360 degree] : ", clonedplanegeometry2->IsParallel(planegeometry)); } private: // helper Methods for the Tests mitk::PlaneGeometry::Pointer createPlaneGeometry() { mitk::Vector3D mySpacing; mySpacing[0] = 31; mySpacing[1] = 0.1; mySpacing[2] = 5.4; mitk::Point3D myOrigin; myOrigin[0] = 8; myOrigin[1] = 9; myOrigin[2] = 10; mitk::AffineTransform3D::Pointer myTransform = mitk::AffineTransform3D::New(); itk::Matrix transMatrix; transMatrix.Fill(0); transMatrix[0][0] = 1; transMatrix[1][1] = 2; transMatrix[2][2] = 4; myTransform->SetMatrix(transMatrix); mitk::PlaneGeometry::Pointer geometry2D = mitk::PlaneGeometry::New(); geometry2D->SetIndexToWorldTransform(myTransform); geometry2D->SetSpacing(mySpacing); geometry2D->SetOrigin(myOrigin); return geometry2D; } bool compareMatrix(itk::Matrix left, itk::Matrix right) { bool equal = true; for (int i = 0; i < 3; ++i) for (int j = 0; j < 3; ++j) equal &= mitk::Equal(left[i][j], right[i][j]); return equal; } /** * This function tests for correct mapping and is called several times from other tests **/ void mappingTests2D(const mitk::PlaneGeometry *planegeometry, const mitk::ScalarType &width, const mitk::ScalarType &height, const mitk::ScalarType &widthInMM, const mitk::ScalarType &heightInMM, const mitk::Point3D &origin, const mitk::Vector3D &right, const mitk::Vector3D &bottom) { std::cout << "Testing mapping Map(pt2d_mm(x=widthInMM/2.3,y=heightInMM/2.5), pt3d_mm) and compare with expected: "; mitk::Point2D pt2d_mm; mitk::Point3D pt3d_mm, expected_pt3d_mm; pt2d_mm[0] = widthInMM / 2.3; pt2d_mm[1] = heightInMM / 2.5; expected_pt3d_mm = origin + right * (pt2d_mm[0] / right.GetNorm()) + bottom * (pt2d_mm[1] / bottom.GetNorm()); planegeometry->Map(pt2d_mm, pt3d_mm); CPPUNIT_ASSERT_MESSAGE( "Testing mapping Map(pt2d_mm(x=widthInMM/2.3,y=heightInMM/2.5), pt3d_mm) and compare with expected", mitk::Equal(pt3d_mm, expected_pt3d_mm, testEps)); std::cout << "Testing mapping Map(pt3d_mm, pt2d_mm) and compare with expected: "; mitk::Point2D testpt2d_mm; planegeometry->Map(pt3d_mm, testpt2d_mm); std::cout << std::setprecision(12) << "Expected pt2d_mm " << pt2d_mm << std::endl; std::cout << std::setprecision(12) << "Result testpt2d_mm " << testpt2d_mm << std::endl; std::cout << std::setprecision(12) << "10*mitk::eps " << 10 * mitk::eps << std::endl; // This eps is temporarily set to 10*mitk::eps. See bug #15037 for details. CPPUNIT_ASSERT_MESSAGE("Testing mapping Map(pt3d_mm, pt2d_mm) and compare with expected", mitk::Equal(pt2d_mm, testpt2d_mm, 10 * mitk::eps)); std::cout << "Testing IndexToWorld(pt2d_units, pt2d_mm) and compare with expected: "; mitk::Point2D pt2d_units; pt2d_units[0] = width / 2.0; pt2d_units[1] = height / 2.0; pt2d_mm[0] = widthInMM / 2.0; pt2d_mm[1] = heightInMM / 2.0; planegeometry->IndexToWorld(pt2d_units, testpt2d_mm); std::cout << std::setprecision(12) << "Expected pt2d_mm " << pt2d_mm << std::endl; std::cout << std::setprecision(12) << "Result testpt2d_mm " << testpt2d_mm << std::endl; std::cout << std::setprecision(12) << "10*mitk::eps " << 10 * mitk::eps << std::endl; // This eps is temporarily set to 10*mitk::eps. See bug #15037 for details. CPPUNIT_ASSERT_MESSAGE("Testing IndexToWorld(pt2d_units, pt2d_mm) and compare with expected: ", mitk::Equal(pt2d_mm, testpt2d_mm, 10 * mitk::eps)); std::cout << "Testing WorldToIndex(pt2d_mm, pt2d_units) and compare with expected: "; mitk::Point2D testpt2d_units; planegeometry->WorldToIndex(pt2d_mm, testpt2d_units); std::cout << std::setprecision(12) << "Expected pt2d_units " << pt2d_units << std::endl; std::cout << std::setprecision(12) << "Result testpt2d_units " << testpt2d_units << std::endl; std::cout << std::setprecision(12) << "10*mitk::eps " << 10 * mitk::eps << std::endl; // This eps is temporarily set to 10*mitk::eps. See bug #15037 for details. CPPUNIT_ASSERT_MESSAGE("Testing WorldToIndex(pt2d_mm, pt2d_units) and compare with expected:", mitk::Equal(pt2d_units, testpt2d_units, 10 * mitk::eps)); } }; MITK_TEST_SUITE_REGISTRATION(mitkPlaneGeometry)