#include #include #include namespace { class OpenMeshTrimeshCirculatorVertexEdge : public OpenMeshBase { protected: // This function is called before each test is run virtual void SetUp() { } // 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 * ==================================================================== */ /* * Small VertexEdgeIterator Test without holes in it */ TEST_F(OpenMeshTrimeshCirculatorVertexEdge, VertexEdgeIterWithoutHolesIncrement) { mesh_.clear(); // Add some vertices Mesh::VertexHandle vhandle[5]; vhandle[0] = mesh_.add_vertex(Mesh::Point(0, 1, 0)); vhandle[1] = mesh_.add_vertex(Mesh::Point(1, 0, 0)); vhandle[2] = mesh_.add_vertex(Mesh::Point(2, 1, 0)); vhandle[3] = mesh_.add_vertex(Mesh::Point(0,-1, 0)); vhandle[4] = mesh_.add_vertex(Mesh::Point(2,-1, 0)); // Add two faces std::vector face_vhandles; face_vhandles.push_back(vhandle[0]); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[2]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[3]); face_vhandles.push_back(vhandle[4]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[0]); face_vhandles.push_back(vhandle[3]); face_vhandles.push_back(vhandle[1]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[2]); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[4]); mesh_.add_face(face_vhandles); /* Test setup: 0 ==== 2 |\ 0 /| | \ / | |2 1 3| | / \ | |/ 1 \| 3 ==== 4 */ // Iterate around vertex 1 at the middle (with holes in between) Mesh::VertexEdgeIter ve_it = mesh_.ve_begin(vhandle[1]); Mesh::VertexEdgeIter ve_end = mesh_.ve_end(vhandle[1]); EXPECT_EQ(5, ve_it->idx() ) << "Index wrong in VertexEdgeIter at initialization"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at initialization"; ++ve_it ; EXPECT_EQ(3, ve_it->idx() ) << "Index wrong in VertexEdgeIter at step 1"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at step 1"; ++ve_it ; EXPECT_EQ(0, ve_it->idx() ) << "Index wrong in VertexEdgeIter at step 2"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at step 2"; ++ve_it ; EXPECT_EQ(1, ve_it->idx() ) << "Index wrong in VertexEdgeIter at step 3"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at step 3"; ++ve_it ; EXPECT_EQ(5, ve_it->idx() ) << "Index wrong in VertexEdgeIter at end"; EXPECT_FALSE(ve_it.is_valid()) << "Iterator not invalid in VertexEdgeIter at end"; EXPECT_TRUE( ve_it == ve_end ) << "End iterator for VertexEdgeIter not matching"; // Iterate around vertex 1 at the middle (with holes in between) with const iterator Mesh::ConstVertexEdgeIter cve_it = mesh_.cve_begin(vhandle[1]); Mesh::ConstVertexEdgeIter cve_end = mesh_.cve_end(vhandle[1]); EXPECT_EQ(5, cve_it->idx() ) << "Index wrong in ConstVertexEdgeIter at initialization"; EXPECT_TRUE(cve_it.is_valid()) << "Iterator invalid in ConstVertexEdgeIter at initialization"; ++cve_it ; EXPECT_EQ(3, cve_it->idx() ) << "Index wrong in ConstVertexEdgeIter at step 1"; EXPECT_TRUE(cve_it.is_valid()) << "Iterator invalid in ConstVertexEdgeIter at step 1"; ++cve_it ; EXPECT_EQ(0, cve_it->idx() ) << "Index wrong in ConstVertexEdgeIter at step 2"; EXPECT_TRUE(cve_it.is_valid()) << "Iterator invalid in ConstVertexEdgeIter at step 2"; ++cve_it ; EXPECT_EQ(1, cve_it->idx() ) << "Index wrong in ConstVertexEdgeIter at step 3"; EXPECT_TRUE(cve_it.is_valid()) << "Iterator invalid in ConstVertexEdgeIter at step 3"; ++cve_it ; EXPECT_EQ(5, cve_it->idx() ) << "Index wrong in ConstVertexEdgeIter at end"; EXPECT_FALSE(cve_it.is_valid()) << "Iterator not invalid in VertexEdgeIter at end"; EXPECT_TRUE( cve_it == cve_end ) << "End iterator for ConstVertexEdgeIter not matching"; } /* * Small VertexEdgeIterator Test without holes in it */ TEST_F(OpenMeshTrimeshCirculatorVertexEdge, VertexEdgeIterBoundaryIncrement) { mesh_.clear(); // Add some vertices Mesh::VertexHandle vhandle[5]; vhandle[0] = mesh_.add_vertex(Mesh::Point(0, 1, 0)); vhandle[1] = mesh_.add_vertex(Mesh::Point(1, 0, 0)); vhandle[2] = mesh_.add_vertex(Mesh::Point(2, 1, 0)); vhandle[3] = mesh_.add_vertex(Mesh::Point(0,-1, 0)); vhandle[4] = mesh_.add_vertex(Mesh::Point(2,-1, 0)); // Add two faces std::vector face_vhandles; face_vhandles.push_back(vhandle[0]); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[2]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[3]); face_vhandles.push_back(vhandle[4]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[0]); face_vhandles.push_back(vhandle[3]); face_vhandles.push_back(vhandle[1]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[2]); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[4]); mesh_.add_face(face_vhandles); /* Test setup: 0 ==== 2 |\ 0 /| | \ / | |2 1 3| | / \ | |/ 1 \| 3 ==== 4 */ // Iterate around vertex 1 at the middle (with holes in between) Mesh::VertexEdgeIter ve_it = mesh_.ve_begin(vhandle[2]); Mesh::VertexEdgeIter ve_end = mesh_.ve_end(vhandle[2]); EXPECT_EQ(7, ve_it->idx() ) << "Index wrong in VertexEdgeIter at initialization"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at initialization"; ++ve_it ; EXPECT_EQ(1, ve_it->idx() ) << "Index wrong in VertexEdgeIter at step 1"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at step 1"; ++ve_it ; EXPECT_EQ(2, ve_it->idx() ) << "Index wrong in VertexEdgeIter at step 2"; EXPECT_TRUE(ve_it.is_valid()) << "Iterator invalid in VertexEdgeIter at step 2"; ++ve_it ; EXPECT_EQ(7, ve_it->idx() ) << "Index wrong in VertexEdgeIter at step 3"; EXPECT_FALSE(ve_it.is_valid()) << "Iterator not invalid in VertexEdgeIter at end"; EXPECT_TRUE( ve_it == ve_end ) << "End iterator for VertexEdgeIter not matching"; } /* * Test if the end iterator stays invalid after one lap * DISABLED as long as the normal iterators using old behavior */ //TEST_F(OpenMeshTrimeshCirculatorVertexEdge, VertexEdgeIterCheckInvalidationAtEnds) { // // mesh_.clear(); // // // Add some vertices // Mesh::VertexHandle vhandle[5]; // // vhandle[0] = mesh_.add_vertex(Mesh::Point(0, 1, 0)); // vhandle[1] = mesh_.add_vertex(Mesh::Point(1, 0, 0)); // vhandle[2] = mesh_.add_vertex(Mesh::Point(2, 1, 0)); // vhandle[3] = mesh_.add_vertex(Mesh::Point(0,-1, 0)); // vhandle[4] = mesh_.add_vertex(Mesh::Point(2,-1, 0)); // // // Add two faces // std::vector face_vhandles; // // face_vhandles.push_back(vhandle[0]); // face_vhandles.push_back(vhandle[1]); // face_vhandles.push_back(vhandle[2]); // Mesh::FaceHandle fh0 = mesh_.add_face(face_vhandles); // // face_vhandles.clear(); // // face_vhandles.push_back(vhandle[1]); // face_vhandles.push_back(vhandle[3]); // face_vhandles.push_back(vhandle[4]); // mesh_.add_face(face_vhandles); // // face_vhandles.clear(); // // face_vhandles.push_back(vhandle[0]); // face_vhandles.push_back(vhandle[3]); // face_vhandles.push_back(vhandle[1]); // mesh_.add_face(face_vhandles); // // face_vhandles.clear(); // // face_vhandles.push_back(vhandle[2]); // face_vhandles.push_back(vhandle[1]); // face_vhandles.push_back(vhandle[4]); // mesh_.add_face(face_vhandles); // // /* Test setup: // 0 ==== 2 // |\ 0 /| // | \ / | // |2 1 3| // | / \ | // |/ 1 \| // 3 ==== 4 */ // // // // Check if the end iterator stays invalid after end // Mesh::VertexEdgeIter endIter = mesh_.ve_end(vhandle[1]); // EXPECT_FALSE(endIter.is_valid()) << "EndIter is not invalid"; // ++endIter ; // EXPECT_FALSE(endIter.is_valid()) << "EndIter is not invalid after increment"; // // // Check if the end iterators becomes valid after decrement // endIter = mesh_.ve_end(vhandle[1]); // EXPECT_FALSE(endIter.is_valid()) << "EndIter is not invalid"; // --endIter; // EXPECT_TRUE(endIter.is_valid()) << "EndIter is invalid after decrement"; // EXPECT_EQ(1,endIter->idx()) << "EndIter points on the wrong element"; // // // // Check if the start iterator decrement is invalid // Mesh::VertexEdgeIter startIter = mesh_.ve_begin(vhandle[1]); // EXPECT_TRUE(startIter.is_valid()) << "StartIter is not valid"; // --startIter; // EXPECT_FALSE(startIter.is_valid()) << "StartIter decrement is not invalid"; // // // Check if the start iterator becomes valid // ++startIter; // EXPECT_TRUE(startIter.is_valid()) << "StarIter is invalid after re-incrementing"; // EXPECT_EQ(startIter->idx(), mesh_.ve_begin(vhandle[1])->idx()) << "StartIter points on the wrong element"; // //} /* * Test CW and CCW iterators */ TEST_F(OpenMeshTrimeshCirculatorVertexEdge, CWAndCCWCheck) { mesh_.clear(); // Add some vertices Mesh::VertexHandle vhandle[5]; vhandle[0] = mesh_.add_vertex(Mesh::Point(0, 1, 0)); vhandle[1] = mesh_.add_vertex(Mesh::Point(1, 0, 0)); vhandle[2] = mesh_.add_vertex(Mesh::Point(2, 1, 0)); vhandle[3] = mesh_.add_vertex(Mesh::Point(0,-1, 0)); vhandle[4] = mesh_.add_vertex(Mesh::Point(2,-1, 0)); // Add two faces std::vector face_vhandles; face_vhandles.push_back(vhandle[0]); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[2]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[3]); face_vhandles.push_back(vhandle[4]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[0]); face_vhandles.push_back(vhandle[3]); face_vhandles.push_back(vhandle[1]); mesh_.add_face(face_vhandles); face_vhandles.clear(); face_vhandles.push_back(vhandle[2]); face_vhandles.push_back(vhandle[1]); face_vhandles.push_back(vhandle[4]); mesh_.add_face(face_vhandles); /* Test setup: 0 ==== 2 |\ 0 /| | \ / | |2 1 3| | / \ | |/ 1 \| 3 ==== 4 */ int indices[5] = {5, 1, 0, 3, 5}; int rev_indices[5]; std::reverse_copy(indices,indices+5,rev_indices); Mesh::VertexHandle vh = vhandle[1]; //CCW Mesh::VertexEdgeCCWIter ve_ccwit = mesh_.ve_ccwbegin(vh); Mesh::VertexEdgeCCWIter ve_ccwend = mesh_.ve_ccwend(vh); size_t i = 0; for (;ve_ccwit != ve_ccwend; ++ve_ccwit, ++i) { EXPECT_EQ(indices[i], ve_ccwit->idx()) << "Index wrong in VertexEdgeCCWIter"; } EXPECT_FALSE(ve_ccwit.is_valid()) << "Iterator invalid in VertexEdgeCCWIter at end"; EXPECT_TRUE( ve_ccwit == ve_ccwend ) << "End iterator for VertexEdgeCCWIter not matching"; //constant CCW Mesh::ConstVertexEdgeCCWIter cve_ccwit = mesh_.cve_ccwbegin(vh); Mesh::ConstVertexEdgeCCWIter cve_ccwend = mesh_.cve_ccwend(vh); i = 0; for (;cve_ccwit != cve_ccwend; ++cve_ccwit, ++i) { EXPECT_EQ(indices[i], cve_ccwit->idx()) << "Index wrong in ConstVertexEdgeCCWIter"; } EXPECT_FALSE(cve_ccwit.is_valid()) << "Iterator invalid in ConstVertexEdgeCCWIter at end"; EXPECT_TRUE( cve_ccwit == cve_ccwend ) << "End iterator for ConstVertexEdgeCCWIter not matching"; //CW Mesh::VertexEdgeCWIter ve_cwit = mesh_.ve_cwbegin(vh); Mesh::VertexEdgeCWIter ve_cwend = mesh_.ve_cwend(vh); i = 0; for (;ve_cwit != ve_cwend; ++ve_cwit, ++i) { EXPECT_EQ(rev_indices[i], ve_cwit->idx()) << "Index wrong in VertexEdgeCWIter"; } EXPECT_FALSE(ve_cwit.is_valid()) << "Iterator invalid in VertexEdgeCWIter at end"; EXPECT_TRUE( ve_cwit == ve_cwend ) << "End iterator for VertexEdgeCWIter not matching"; //constant CW Mesh::ConstVertexEdgeCWIter cve_cwit = mesh_.cve_cwbegin(vh); Mesh::ConstVertexEdgeCWIter cve_cwend = mesh_.cve_cwend(vh); i = 0; for (;cve_cwit != cve_cwend; ++cve_cwit, ++i) { EXPECT_EQ(rev_indices[i], cve_cwit->idx()) << "Index wrong in ConstVertexEdgeCWIter"; } EXPECT_FALSE(cve_cwit.is_valid()) << "Iterator invalid in ConstVertexEdgeCWIter at end"; EXPECT_TRUE( cve_cwit == cve_cwend ) << "End iterator for ConstVertexEdgeCWIter not matching"; /* * conversion properties: * a) cw_begin == CWIter(ccw_begin()) * b) cw_iter->idx() == CCWIter(cw_iter)->idx() for valid iterators * c) --cw_iter == CWIter(++ccwIter) for valid iterators * d) cw_end == CWIter(ccw_end()) => --cw_end != CWIter(++ccw_end()) * */ Mesh::VertexEdgeCWIter ve_cwIter = mesh_.ve_cwbegin(vh); // a) EXPECT_TRUE( ve_cwIter == Mesh::VertexEdgeCWIter(mesh_.ve_ccwbegin(vh)) ) << "ccw to cw conversion failed"; EXPECT_TRUE( Mesh::VertexEdgeCCWIter(ve_cwIter) == mesh_.ve_ccwbegin(vh) ) << "cw to ccw conversion failed"; // b) EXPECT_EQ( ve_cwIter->idx(), Mesh::VertexEdgeCCWIter(ve_cwIter)->idx()) << "iterators doesnt point on the same element"; // c) ++ve_cwIter; ve_ccwend = mesh_.ve_ccwend(vh); --ve_ccwend; EXPECT_EQ(ve_cwIter->idx(),ve_ccwend->idx()) << "iteratoes are not equal after inc/dec"; // additional conversion check ve_ccwend = Mesh::VertexEdgeCCWIter(ve_cwIter); EXPECT_EQ(ve_cwIter->idx(),ve_ccwend->idx())<< "iterators doesnt point on the same element"; // d) ve_cwIter = Mesh::VertexEdgeCWIter(mesh_.ve_ccwend(vh)); EXPECT_FALSE(ve_cwIter.is_valid()) << "end iterator is not invalid"; EXPECT_TRUE(Mesh::VertexEdgeCCWIter(mesh_.ve_cwend(vh)) == mesh_.ve_ccwend(vh)) << "end iterators are not equal"; } }