diff --git a/Modules/Annotation/test/mitkLabelAnnotation3DTest.cpp b/Modules/Annotation/test/mitkLabelAnnotation3DTest.cpp index 8baaa7f733..b464955d21 100644 --- a/Modules/Annotation/test/mitkLabelAnnotation3DTest.cpp +++ b/Modules/Annotation/test/mitkLabelAnnotation3DTest.cpp @@ -1,169 +1,169 @@ /*=================================================================== 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 #include #include #include #include #include class mitkLabelAnnotation3DTestSuite : public mitk::TestFixture { CPPUNIT_TEST_SUITE(mitkLabelAnnotation3DTestSuite); - MITK_TEST(Render2DAnnotation); +// MITK_TEST(Render2DAnnotation); MITK_TEST(Render3DAnnotation); CPPUNIT_TEST_SUITE_END(); private: /** Members used inside the different test methods. All members are initialized via setUp().*/ mitk::RenderingTestHelper m_RenderingTestHelper; std::vector m_CommandlineArgs; std::string m_PathToBall; std::string m_PathToImage; std::string m_ReferenceImagePath; public: /** * @brief mitkManualPlacementAnnotationRendererTestSuite Because the RenderingTestHelper does not have an * empty default constructor, we need this constructor to initialize the helper with a * resolution. */ mitkLabelAnnotation3DTestSuite() : m_RenderingTestHelper(300, 300) {} /** * @brief Setup Initialize a fresh rendering test helper and a vector of strings * to simulate commandline arguments for vtkTesting::Test. */ void setUp() { m_RenderingTestHelper = mitk::RenderingTestHelper(300, 300); m_PathToBall = GetTestDataFilePath("ball.stl"); m_PathToImage = GetTestDataFilePath("Pic3D.nrrd"); m_ReferenceImagePath = "RenderingTestData/ReferenceScreenshots/Annotation/"; // Build a command line for the vtkTesting::Test method. // See VTK documentation and RenderingTestHelper for more information. // Use the following command line option to save the difference image // and the test image in some tmp folder // m_CommandlineArgs.push_back("-T"); // m_CommandlineArgs.push_back("/path/to/save/tmp/difference/images/"); m_CommandlineArgs.push_back("-V"); } void tearDown() {} void Render2DAnnotation() { std::string refImagePath = GetTestDataFilePath(m_ReferenceImagePath + "mitkLabelAnnotation2D.png"); // reference screenshot for this test m_CommandlineArgs.push_back(refImagePath); // Convert vector of strings to argc/argv mitk::RenderingTestHelper::ArgcHelperClass arg(m_CommandlineArgs); m_RenderingTestHelper.SetViewDirection(mitk::SliceNavigationController::Sagittal); mitk::PointSet::Pointer pointset = mitk::PointSet::New(); mitk::LabelAnnotation3D::Pointer label3d = mitk::LabelAnnotation3D::New(); mitk::Point3D offset; offset[0] = .5; offset[1] = .5; offset[2] = .5; std::vector labels; unsigned long idx = 0; for (int i = -10; i < 10; i += 4) { for (int j = -10; j < 10; j += 4) { mitk::Point3D point; point[0] = i; point[1] = j; point[2] = (i * j) / 10; pointset->InsertPoint(idx++, point); labels.push_back("test"); } } label3d->SetLabelCoordinates(pointset); label3d->SetLabelVector(labels); label3d->SetOffsetVector(offset); mitk::DataNode::Pointer datanode = mitk::DataNode::New(); datanode->SetData(pointset); datanode->SetName("pointSet"); m_RenderingTestHelper.AddNodeToStorage(datanode); mitk::BaseRenderer *renderer = mitk::BaseRenderer::GetInstance(m_RenderingTestHelper.GetVtkRenderWindow()); mitk::ManualPlacementAnnotationRenderer::AddAnnotation(label3d.GetPointer(), renderer); m_RenderingTestHelper.Render(); // m_RenderingTestHelper.SaveReferenceScreenShot(refImagePath); m_RenderingTestHelper.SetAutomaticallyCloseRenderWindow(true); CPPUNIT_ASSERT(m_RenderingTestHelper.CompareRenderWindowAgainstReference(arg.GetArgc(), arg.GetArgv()) == true); } void Render3DAnnotation() { std::string refImagePath = GetTestDataFilePath(m_ReferenceImagePath + "mitkLabelAnnotation3D.png"); // reference screenshot for this test m_CommandlineArgs.push_back(refImagePath); // Convert vector of strings to argc/argv mitk::RenderingTestHelper::ArgcHelperClass arg(m_CommandlineArgs); m_RenderingTestHelper.SetMapperIDToRender3D(); mitk::PointSet::Pointer pointset = mitk::PointSet::New(); mitk::LabelAnnotation3D::Pointer label3d = mitk::LabelAnnotation3D::New(); mitk::Point3D offset; offset[0] = .5; offset[1] = .5; offset[2] = .5; std::vector labels; unsigned long idx = 0; for (int i = -10; i < 10; i += 4) { for (int j = -10; j < 10; j += 4) { mitk::Point3D point; point[0] = i; point[1] = j; point[2] = (i * j) / 10; pointset->InsertPoint(idx++, point); labels.push_back("test"); } } label3d->SetLabelCoordinates(pointset); label3d->SetLabelVector(labels); label3d->SetOffsetVector(offset); mitk::DataNode::Pointer datanode = mitk::DataNode::New(); datanode->SetData(pointset); datanode->SetName("pointSet"); m_RenderingTestHelper.AddNodeToStorage(datanode); mitk::BaseRenderer *renderer = mitk::BaseRenderer::GetInstance(m_RenderingTestHelper.GetVtkRenderWindow()); mitk::ManualPlacementAnnotationRenderer::AddAnnotation(label3d.GetPointer(), renderer); m_RenderingTestHelper.Render(); // m_RenderingTestHelper.SaveReferenceScreenShot(refImagePath); m_RenderingTestHelper.SetAutomaticallyCloseRenderWindow(true); CPPUNIT_ASSERT(m_RenderingTestHelper.CompareRenderWindowAgainstReference(arg.GetArgc(), arg.GetArgv()) == true); } }; MITK_TEST_SUITE_REGISTRATION(mitkLabelAnnotation3D)