//============================================================================= // // OpenMesh // Copyright (C) 2003 by Computer Graphics Group, RWTH Aachen // www.openmesh.org // //----------------------------------------------------------------------------- // // License // // This library is free software; you can redistribute it and/or modify it // under the terms of the GNU Lesser General Public License as published // by the Free Software Foundation, version 2.1. // // This library is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. // //----------------------------------------------------------------------------- // // $Revision: 2433 $ // $Date: 2008-08-27 13:43:05 +0200 (Mi, 27. Aug 2008) $ // //============================================================================= #define OPENMESH_MESHCHECKER_C //== INCLUDES ================================================================= #include //== NAMESPACES ============================================================== namespace OpenMesh { namespace Utils { //== IMPLEMENTATION ========================================================== template bool MeshCheckerT:: check(unsigned int _targets, std::ostream& _os) { bool ok(true); //--- vertex checks --- if (_targets & CHECK_VERTICES) { typename Mesh::ConstVertexIter v_it(mesh_.vertices_begin()), v_end(mesh_.vertices_end()); typename Mesh::VertexHandle vh; typename Mesh::ConstVertexVertexIter vv_it; typename Mesh::HalfedgeHandle heh; unsigned int count; const unsigned int max_valence(10000); for (; v_it != v_end; ++v_it) { if (!is_deleted(v_it)) { vh = v_it.handle(); /* The outgoing halfedge of a boundary vertex has to be a boundary halfedge */ heh = mesh_.halfedge_handle(vh); if (heh.is_valid() && !mesh_.is_boundary(heh)) { for (typename Mesh::ConstVertexOHalfedgeIter vh_it(mesh_, vh); vh_it; ++vh_it) { if (mesh_.is_boundary(vh_it.handle())) { _os << "MeshChecker: vertex " << vh << ": outgoing halfedge not on boundary error\n"; ok = false; } } } // outgoing halfedge has to refer back to vertex if (mesh_.halfedge_handle(vh).is_valid() && mesh_.from_vertex_handle(mesh_.halfedge_handle(vh)) != vh) { _os << "MeshChecker: vertex " << vh << ": outgoing halfedge does not reference vertex\n"; ok = false; } // check whether circulators are still in order vv_it = mesh_.cvv_iter(vh); for (count=0; vv_it && (count < max_valence); ++vv_it, ++count) {}; if (count == max_valence) { _os << "MeshChecker: vertex " << vh << ": ++circulator problem, one ring corrupt\n"; ok = false; } vv_it = mesh_.cvv_iter(vh); for (count=0; vv_it && (count < max_valence); --vv_it, ++count) {}; if (count == max_valence) { _os << "MeshChecker: vertex " << vh << ": --circulator problem, one ring corrupt\n"; ok = false; } } } } //--- halfedge checks --- if (_targets & CHECK_EDGES) { typename Mesh::ConstHalfedgeIter h_it(mesh_.halfedges_begin()), h_end(mesh_.halfedges_end()); typename Mesh::HalfedgeHandle hh, hstart, hhh; unsigned int count, n_halfedges = 2*mesh_.n_edges(); for (; h_it != h_end; ++h_it) { if (!is_deleted(mesh_.edge_handle(h_it.handle()))) { hh = h_it.handle(); // degenerated halfedge ? if (mesh_.from_vertex_handle(hh) == mesh_.to_vertex_handle(hh)) { _os << "MeshChecker: halfedge " << hh << ": to-vertex == from-vertex\n"; ok = false; } // next <-> prev check if (mesh_.next_halfedge_handle(mesh_.prev_halfedge_handle(hh)) != hh) { _os << "MeshChecker: halfedge " << hh << ": prev->next != this\n"; ok = false; } // halfedges should form a cycle count=0; hstart=hhh=hh; do { hhh = mesh_.next_halfedge_handle(hhh); ++count; } while (hhh != hstart && count < n_halfedges); if (count == n_halfedges) { _os << "MeshChecker: halfedges starting from " << hh << " do not form a cycle\n"; ok = false; } } } } //--- face checks --- if (_targets & CHECK_FACES) { typename Mesh::ConstFaceIter f_it(mesh_.faces_begin()), f_end(mesh_.faces_end()); typename Mesh::FaceHandle fh; typename Mesh::ConstFaceHalfedgeIter fh_it; for (; f_it != f_end; ++f_it) { if (!is_deleted(f_it)) { fh = f_it.handle(); for (fh_it=mesh_.cfh_iter(fh); fh_it; ++fh_it) { if (mesh_.face_handle(fh_it.handle()) != fh) { _os << "MeshChecker: face " << fh << ": its halfedge does not reference face\n"; ok = false; } } } } } return ok; } //============================================================================= } // naespace Utils } // namespace OpenMesh //=============================================================================