void PointSetCompare(mitk::PointSet::Pointer pointSet2, mitk::PointSet::Pointer pointSet1, bool& /*identical*/) { MITK_TEST_CONDITION(pointSet1->GetSize() == pointSet2->GetSize(), "Testing if PointSet size is correct" ); for (unsigned int t = 0; t < numberOfTimeSeries; t++) { for (unsigned int i = 0; i < (unsigned int) pointSet1->GetSize(t); ++i) { mitk::Point3D p1 = pointSet1->GetPoint(i); mitk::Point3D p2 = pointSet2->GetPoint(i); //test std::cout << "r point: " << p2 << std::endl; std::cout << "w point: " << p1 << std::endl; //test end MITK_TEST_CONDITION((p1[0] - p2[0]) <= 0.0001, "Testing if X coordinates of the Point are at the same Position" ); MITK_TEST_CONDITION((p1[1] - p2[1]) <= 0.0001, "Testing if Y coordinates of the Point are at the same Position" ); MITK_TEST_CONDITION((p1[2] - p2[2]) <= 0.0001, "Testing if Z coordinates of the Point are at the same Position" ); } } // testing geometry MITK_TEST_CONDITION( mitk::Equal( *(pointSet1->GetGeometry()), *(pointSet2->GetGeometry()), 0.000001, true), "Restored geometry must equal original one."); }
void Equal_DifferentGeometries_ReturnsFalse() { mitk::Point3D origin; origin[0] = 0.0; origin[1] = 0.0; origin[2] = 1.0 + 2*mitk::eps; m_AnotherPointSet->GetGeometry()->SetOrigin(origin); MITK_ASSERT_NOT_EQUAL( m_PointSet, m_AnotherPointSet, "Origin was modified. Result should be false."); }