#include #include namespace { class OpenMeshReadWriteSTL : public OpenMeshBase { protected: // This function is called before each test is run virtual void SetUp() { // Do some initial stuff with the member data here... } // This function is called after all tests are through virtual void TearDown() { // Do some final stuff with the member data here... } // Member already defined in OpenMeshBase //Mesh mesh_; }; /* * ==================================================================== * Define tests below * ==================================================================== */ /* * Just load a simple mesh file in stla format and count whether * the right number of entities has been loaded. */ TEST_F(OpenMeshReadWriteSTL, LoadSimpleSTLFile) { mesh_.clear(); bool ok = OpenMesh::IO::read_mesh(mesh_, "cube1.stl"); EXPECT_TRUE(ok); EXPECT_EQ(7526u , mesh_.n_vertices()) << "The number of loaded vertices is not correct!"; EXPECT_EQ(22572u , mesh_.n_edges()) << "The number of loaded edges is not correct!"; EXPECT_EQ(15048u , mesh_.n_faces()) << "The number of loaded faces is not correct!"; } /* * Just load a simple mesh file in stla format and count whether * the right number of entities has been loaded. Also check facet normals. */ TEST_F(OpenMeshReadWriteSTL, LoadSimpleSTLFileWithNormals) { mesh_.clear(); mesh_.request_face_normals(); OpenMesh::IO::Options opt; opt += OpenMesh::IO::Options::FaceNormal; bool ok = OpenMesh::IO::read_mesh(mesh_, "cube1.stl", opt); EXPECT_TRUE(ok); EXPECT_TRUE(opt.face_has_normal()); EXPECT_FALSE(opt.vertex_has_normal()); EXPECT_NEAR(-0.038545f, mesh_.normal(mesh_.face_handle(0))[0], 0.0001 ) << "Wrong face normal at face 0 component 0"; EXPECT_NEAR(-0.004330f, mesh_.normal(mesh_.face_handle(0))[1], 0.0001 ) << "Wrong face normal at face 0 component 1"; EXPECT_NEAR(0.999247f, mesh_.normal(mesh_.face_handle(0))[2], 0.0001 ) << "Wrong face normal at face 0 component 2"; EXPECT_EQ(7526u , mesh_.n_vertices()) << "The number of loaded vertices is not correct!"; EXPECT_EQ(22572u , mesh_.n_edges()) << "The number of loaded edges is not correct!"; EXPECT_EQ(15048u , mesh_.n_faces()) << "The number of loaded faces is not correct!"; mesh_.release_face_normals(); } /* * Just load a simple mesh file in stlb format and count whether * the right number of entities has been loaded. */ TEST_F(OpenMeshReadWriteSTL, LoadSimpleSTLBinaryFile) { mesh_.clear(); bool ok = OpenMesh::IO::read_mesh(mesh_, "cube1Binary.stl"); EXPECT_TRUE(ok); EXPECT_EQ(7526u , mesh_.n_vertices()) << "The number of loaded vertices is not correct!"; EXPECT_EQ(22572u , mesh_.n_edges()) << "The number of loaded edges is not correct!"; EXPECT_EQ(15048u , mesh_.n_faces()) << "The number of loaded faces is not correct!"; } /* * Just load a simple mesh file in stlb format and count whether * the right number of entities has been loaded. Also check facet normals. */ TEST_F(OpenMeshReadWriteSTL, LoadSimpleSTLBinaryFileWithNormals) { mesh_.clear(); mesh_.request_face_normals(); OpenMesh::IO::Options opt; opt += OpenMesh::IO::Options::FaceNormal; opt += OpenMesh::IO::Options::Binary; bool ok = OpenMesh::IO::read_mesh(mesh_, "cube1Binary.stl", opt); EXPECT_TRUE(ok); EXPECT_TRUE(opt.is_binary()); EXPECT_TRUE(opt.face_has_normal()); EXPECT_FALSE(opt.vertex_has_normal()); EXPECT_NEAR(-0.038545f, mesh_.normal(mesh_.face_handle(0))[0], 0.0001 ) << "Wrong face normal at face 0 component 0"; EXPECT_NEAR(-0.004330f, mesh_.normal(mesh_.face_handle(0))[1], 0.0001 ) << "Wrong face normal at face 0 component 1"; EXPECT_NEAR(0.999247f, mesh_.normal(mesh_.face_handle(0))[2], 0.0001 ) << "Wrong face normal at face 0 component 2"; EXPECT_EQ(7526u , mesh_.n_vertices()) << "The number of loaded vertices is not correct!"; EXPECT_EQ(22572u , mesh_.n_edges()) << "The number of loaded edges is not correct!"; EXPECT_EQ(15048u , mesh_.n_faces()) << "The number of loaded faces is not correct!"; mesh_.release_face_normals(); } }