// Copyright (c) 1997-2000 Max-Planck-Institute Saarbruecken (Germany). // All rights reserved. // // This file is part of CGAL (www.cgal.org). // // $URL: https://github.com/CGAL/cgal/blob/v5.1/Nef_3/include/CGAL/Nef_3/SNC_simplify.h $ // $Id: SNC_simplify.h 0779373 2020-03-26T13:31:46+01:00 Sébastien Loriot // SPDX-License-Identifier: GPL-3.0-or-later OR LicenseRef-Commercial // // // Author(s) : Peter Hachenberger // Micahel Seel #ifndef CGAL_SNC_SIMPLIFY_H #define CGAL_SNC_SIMPLIFY_H #include #include #include #include #undef CGAL_NEF_DEBUG #define CGAL_NEF_DEBUG 41 #include namespace CGAL { template class SNC_simplify_base : public SNC_decorator { typedef CGAL::SNC_simplify_base Self; typedef CGAL::SNC_decorator SNC_decorator; typedef typename SNC_structure::Sphere_map Sphere_map; typedef CGAL::SM_decorator SM_decorator; typedef typename SNC_structure::Vertex_handle Vertex_handle; typedef typename SNC_structure::Halfedge_handle Halfedge_handle; typedef typename SNC_structure::Halffacet_handle Halffacet_handle; typedef typename SNC_structure::Volume_handle Volume_handle; typedef typename SNC_structure::SVertex_handle SVertex_handle; typedef typename SNC_structure::SHalfedge_handle SHalfedge_handle; typedef typename SNC_structure::SHalfloop_handle SHalfloop_handle; typedef typename SNC_structure::SFace_handle SFace_handle; typedef typename SNC_structure::Vertex_iterator Vertex_iterator; typedef typename SNC_structure::Halfedge_iterator Halfedge_iterator; typedef typename SNC_structure::Halffacet_iterator Halffacet_iterator; typedef typename SNC_structure::Volume_iterator Volume_iterator; typedef typename SNC_structure::SVertex_iterator SVertex_iterator; typedef typename SNC_structure::SHalfedge_iterator SHalfedge_iterator; typedef typename SNC_structure::SHalfloop_iterator SHalfloop_iterator; typedef typename SNC_structure::SFace_iterator SFace_iterator; typedef typename SNC_structure::SHalfedge_around_facet_circulator SHalfedge_around_facet_circulator; typedef typename SNC_structure::SHalfedge_around_svertex_circulator SHalfedge_around_svertex_circulator; typedef typename SNC_structure::SHalfedge_around_sface_circulator SHalfedge_around_sface_circulator; typedef typename SNC_structure::Halffacet_cycle_iterator Halffacet_cycle_iterator; typedef typename SNC_structure::SFace_cycle_iterator SFace_cycle_iterator; typedef typename SNC_decorator::Sphere_kernel Sphere_kernel; typedef typename SNC_decorator::Sphere_point Sphere_point; typedef typename SNC_decorator::Sphere_segment Sphere_segment; typedef typename SNC_decorator::Sphere_circle Sphere_circle; typedef typename SNC_decorator::Sphere_direction Sphere_direction; typedef typename SNC_structure::Infi_box Infi_box; bool simplified; public: SNC_simplify_base(SNC_structure& sncs) : SNC_decorator(sncs), simplified(false) {} virtual ~SNC_simplify_base() {} typedef typename Union_find< Volume_handle>::handle UFH_volume; typedef typename Union_find< Halffacet_handle>::handle UFH_facet; typedef typename Union_find< SFace_handle>::handle UFH_sface; void remove_f_including_all_edge_uses_in_its_boundary_cycles ( Halffacet_handle f, Unique_hash_map< SFace_handle, UFH_sface>& hash, Union_find< SFace_handle>& uf ) /* removes f and its boundary cycles, and merges up the sphere facets incident to them. */ { Halffacet_cycle_iterator fc; CGAL_forall_facet_cycles_of(fc, f) { if(fc.is_shalfedge() ) { SHalfedge_handle e(fc); SHalfedge_around_facet_circulator u(e), eend(e); //CGAL_For_all(u, eend) { for ( bool _circ_loop_flag = ! ::CGAL::is_empty_range( u, eend); _circ_loop_flag; \ _circ_loop_flag = ( u != eend ) ) { SFace_handle fu = u->incident_sface(), ftu = u->twin()->incident_sface(); // CGAL_NEF_TRACEN("sfUNION of "<index(fu)<<" & "<index(ftu)); merge_sets( fu, ftu, hash, uf); SM_decorator SD(&*u->source()->source()); // CGAL_NEF_TRACEN("removing "<index(u)<<" & "<index(u->twin())); Halfedge_handle src(u->source()), tgt(u->target()); if ( SD.is_closed_at_source(u) ) SD.set_face( src, fu); if ( SD.is_closed_at_source( u->twin()) ) SD.set_face( tgt, fu); /* TO VERIFY: does is_closed_at_source(u) imply is_isolated(src)? if it is true, the svertex face update is not necesary. */ SHalfedge_around_facet_circulator next = u; ++next; SD.delete_edge_pair(u); if( SD.is_isolated(src)) SD.set_face(src,fu); SM_decorator SD2(&*tgt->source()); if( SD2.is_isolated(tgt)) SD2.set_face(tgt,fu); u = next; /* TO VERIFY: can both svertices be isolated at the same time? */ } } else if(fc.is_shalfloop()) { SHalfloop_handle l(fc); // this code is currenlty not used, but it is potentially need // in the future, e.g for complex marks or a relative interior // function SFace_handle fu = l->incident_sface(), ftu = l->twin()->incident_sface(); // CGAL_NEF_TRACEN("UNION of "<index(fu)<<" & "<index(ftu)); merge_sets( fu, ftu, hash, uf); SM_decorator SD(&*l->incident_sface()->center_vertex()); // CGAL_NEF_TRACEN("removing "<index(l)<<" & "<index(l->twin())); SD.delete_loop_only(); } } // CGAL_NEF_TRACEN("removing "<index(f)<<" & "<index(f->twin())); this->sncp()->delete_halffacet_pair(f); return; } bool is_part_of_volume(Vertex_handle v) /* determines if a vertex v is part of a volume, cheking if its local graph is trivial (only one sface with no boundary). */ { SM_decorator SD(&*v); CGAL_assertion( !is_empty_range( SD.sfaces_begin(), SD.sfaces_end())); if( is_empty_range( SD.svertices_begin(), SD.svertices_end()) && is_empty_range( SD.shalfedges_begin(), SD.shalfedges_end()) && !SD.has_shalfloop()) return true; return false; } bool is_part_of_facet(Vertex_handle v) /* determines if a vertex v is part of a the relative interior of a facet, checking if its local graph consists just of a sloop and two incident sfaces. */ { SM_decorator SD(&*v); CGAL_assertion( !is_empty_range( SD.svertices_begin(), SD.svertices_end()) || is_empty_range( SD.shalfedges_begin(), SD.shalfedges_end())); return( SD.has_shalfloop() && is_empty_range( SD.svertices_begin(), SD.svertices_end())); } bool is_part_of_edge(Vertex_handle v) { /* determines if a vertex v is part of a edge, checking at its local graph for exactly two antipodal vertices */ SM_decorator SD(&*v); if(SD.has_shalfloop()) return false; if(SD.svertices_begin() == SD.svertices_end()) return false; if(++(SD.svertices_begin()) == SD.svertices_end()) return false; CGAL_NEF_TRACE(v->point()<<" is in edge interior? "); SVertex_iterator sv(SD.svertices_begin()); SVertex_handle p1(sv++), p2(sv++); if( sv != SD.svertices_end()) return false; CGAL_NEF_TRACE("has two svertices "); Sphere_point sp1(p1->point()), sp2(p2->point()); return (sp1 == sp2.antipode()); } bool simplify_redundant_box_vertex(Vertex_handle v, bool snc_computed) { //CGAL_warning("altered code"); return false; if(snc_computed) return false; if(!Infi_box::is_redundant_box_vertex(*v)) return false; this->sncp()->delete_vertex(v); simplified = true; return true; } bool simplify_redundant_vertex_in_volume(Vertex_handle v) { if(is_part_of_volume(v)) { // CGAL_NEF_TRACEN("mark("<index(v)<<")="<mark()<<", "<< // "mark("<index(v->sfaces_begin()->volume())<<")="<< // v->sfaces_begin()->mark()); if(v->mark() == v->sfaces_begin()->mark()) { // CGAL_NEF_TRACEN("removing isolated vertex "<index(v)); this->sncp()->delete_vertex(v); simplified = true; } return true; } return false; } bool simplify_redundant_vertex_on_facet(Vertex_handle v) { if( is_part_of_facet(v)) { if( v->mark() == v->shalfloop()->mark()) { // CGAL_NEF_TRACEN("removing "<index(v)<< // ", " << v->point() << " on facet "); this->sncp()->delete_vertex(v); simplified = true; } return true; } return false; } bool simplify_redundant_vertex_on_edge(Vertex_handle v, bool snc_computed) { if( is_part_of_edge(v)) { SVertex_iterator sv(v->svertices_begin()); Halfedge_handle e1(sv++), e2(sv++); CGAL_assertion( sv == v->svertices_end()); if( e1->mark() == v->mark() && e1->mark() == e2->mark()) { // CGAL_NEF_TRACEN("merging "<index(e1)<<" & "<index(e2)<< // " in "<index(v)); if(snc_computed) merge_halfedge_pairs( e1, e2); else this->sncp()->delete_vertex(v); simplified = true; } return true; } return false; } bool simplify_redundant_vertex_on_edgeI(Vertex_handle v) { if( is_part_of_edge(v)) { SVertex_iterator sv(v->svertices_begin()); Halfedge_handle e1(sv++), e2(sv++); CGAL_assertion( sv == v->svertices_end()); if( e1->mark() == v->mark() && e1->mark() == e2->mark()) { SHalfedge_around_svertex_circulator sec(e1->out_sedge()), send(sec); CGAL_For_all(sec,send) { sec->next()->prev() = sec->prev(); sec->prev()->next() = sec->next(); sec->twin()->next()->prev() = sec->twin()->prev(); sec->twin()->prev()->next() = sec->twin()->next(); } if(e2->get_index() < e1->get_index()) e1->twin()->set_index(e2->twin()->get_index()); else e2->twin()->set_index(e1->twin()->get_index()); e1->twin()->twin() = e2->twin(); e2->twin()->twin() = e1->twin(); this->sncp()->delete_vertex(v); } return true; } return false; } bool vertex_in_volume_simplification() { simplified = false; Vertex_iterator v = (*this->sncp()).vertices_begin(); while( v != (*this->sncp()).vertices_end()) { Vertex_iterator v_next(v); ++v_next; simplify_redundant_vertex_in_volume(v); v = v_next; } return simplified; } bool vertex_simplification(bool snc_computed = true) { simplified = false; Vertex_iterator v = (*this->sncp()).vertices_begin(); while( v != (*this->sncp()).vertices_end()) { Vertex_iterator v_next(v); ++v_next; if(!simplify_redundant_box_vertex(v, snc_computed)) if(!simplify_redundant_vertex_in_volume(v)) if(!simplify_redundant_vertex_on_facet(v)) simplify_redundant_vertex_on_edge(v, snc_computed); v = v_next; } return simplified; } void vertex_simplificationI() { simplified = false; Vertex_iterator v = (*this->sncp()).vertices_begin(); while( v != (*this->sncp()).vertices_end()) { Vertex_iterator v_next(v); ++v_next; if(!simplify_redundant_vertex_in_volume(v)) if(!simplify_redundant_vertex_on_facet(v)) simplify_redundant_vertex_on_edgeI(v); v = v_next; } } bool simplify() { bool update_facets = false; bool update_sfaces = false; bool update_volumes = false; CGAL_NEF_TRACEN(">>> simplifying"); SNC_decorator D(*this->sncp()); Unique_hash_map< Volume_handle, UFH_volume> hash_volume; Unique_hash_map< Halffacet_handle, UFH_facet> hash_facet; Unique_hash_map< SFace_handle, UFH_sface> hash_sface; Union_find< Volume_handle> uf_volume; Union_find< Halffacet_handle> uf_facet; Union_find< SFace_handle> uf_sface; /* We discard the information about boundary entry points, first on volumes, facets on sfacets. Since during the volumes simplification is required the remotion of facet cycles, the information about those cycles is keep until the this simplification step is performed. */ this->sncp()->clear_boundary(); Volume_iterator c; CGAL_forall_volumes( c, *this->sncp()) { hash_volume[c] = uf_volume.make_set(c); this->sncp()->reset_object_list(c->shell_entry_objects()); } SFace_iterator sf; CGAL_forall_sfaces( sf, *this->sncp()) { hash_sface[sf] = uf_sface.make_set(sf); this->sncp()->reset_sm_object_list(sf->boundary_entry_objects()); } /* * Volumes simplification */ Halffacet_handle f(D.halffacets_begin()); while( f != D.halffacets_end() && f->is_twin()) f++; while( f != D.halffacets_end()) { CGAL_assertion( !f->is_twin()); Halffacet_iterator f_next(f); do ++f_next; while( f_next != D.halffacets_end() && f_next->is_twin()); CGAL_assertion( f != f->twin()); Volume_handle c1 = f->incident_volume(), c2 = f->twin()->incident_volume(); CGAL_NEF_TRACEN(" mark(c1)="<mark()<< " mark(f)="<mark() << " mark(c2)="<mark()<< " is_f->twin()="<is_twin()); if( c1->mark() == f->mark() && c1->mark() == c2->mark() && D.is_standard(f)) { merge_sets( c1, c2, hash_volume, uf_volume); remove_f_including_all_edge_uses_in_its_boundary_cycles (f, hash_sface, uf_sface); update_sfaces = update_volumes = true; CGAL_NEF_TRACEN("UNION of c1 & c2"); } f = f_next; } CGAL_forall_halffacets( f, *this->sncp()) { hash_facet[f] = uf_facet.make_set(f); this->sncp()->reset_object_list(f->boundary_entry_objects()); } /* * Edges simplification */ Halfedge_iterator e(D.halfedges_begin()); while( e != D.halfedges_end() && e->is_twin()) e++; while( e != (*this->sncp()).halfedges_end()) { CGAL_assertion( !e->is_twin()); Halfedge_iterator e_next(e); do e_next++; while( e_next != D.halfedges_end() && e_next->is_twin()); SM_decorator SD(&*e->source()); if( SD.is_isolated(e)) { if(e->mark() == e->incident_sface()->volume()->mark()) { CGAL_NEF_TRACEN("removing pair "); this->sncp()->delete_halfedge_pair(e); update_facets = true; } } else { if( D.has_outdeg_two(e)) { SHalfedge_handle e1(SD.first_out_edge(e)); SHalfedge_handle e2(SD.cyclic_adj_succ(e1)); if( e1->circle()==e2->twin()->circle() && e1->mark()==e->mark() && e1->mark()==e2->mark()) { Halffacet_handle f1(e1->facet()); Halffacet_handle f2(e2->facet()); CGAL_NEF_TRACEN("UNION of f1 & f2->twin()"); merge_sets( f1, f2->twin(), hash_facet, uf_facet); merge_sets( f1->twin(), f2, hash_facet, uf_facet); CGAL_NEF_TRACEN("removing e"); remove_edge_and_merge_facet_cycles(e); update_facets = true; } } } e = e_next; } update_facets = vertex_simplification() || update_facets; purge_no_find_objects(hash_volume, hash_facet, hash_sface, uf_volume, uf_facet, uf_sface); create_boundary_links_forall_sfaces( hash_sface, uf_sface); create_boundary_links_forall_facets( hash_facet, uf_facet); create_boundary_links_forall_volumes( hash_volume, uf_volume); CGAL_NEF_TRACEN(">>> simplifying done "); return update_sfaces || update_facets || update_volumes; } void remove_edge_and_merge_facet_cycles( Halfedge_handle e) { CGAL_assertion_code(SNC_decorator D(*this->sncp())); CGAL_assertion( D.has_outdeg_two(e)); Halfedge_handle et = e->twin(); CGAL_assertion( D.has_outdeg_two(et)); CGAL_NEF_TRACEN("source " << e->source()->point()); CGAL_NEF_TRACEN("target " << et->source()->point()); SHalfedge_handle e1 = e->out_sedge(); SHalfedge_handle e2 = e1->prev()->snext(); merge_sedges_at_target_and_remove_svertex( e1->twin(), e); merge_sedges_at_target_and_remove_svertex( e2->twin(), et); } void merge_sedges_at_target_and_remove_svertex( SHalfedge_handle s1, SVertex_handle v) { SNC_decorator D(*this->sncp()); SM_decorator SD(&*v->source()); CGAL_assertion( s1->twin()->source() == v); SHalfedge_handle s2(s1->snext()); CGAL_assertion( s2->source() == v); // CGAL_NEF_TRACEN("s1 = " << IO->index(s1)); // CGAL_NEF_TRACEN("s2 = " << IO->index(s2)); if( s1 == s2) { // CGAL_NEF_TRACEN(IO->index(s1)<<'('<index(s2->twin())<<") to sloop"); Halffacet_handle f = s1->facet(); // Halffacet_handle facet = s1->facet(); SD.convert_edge_to_loop(s1); CGAL_assertion(SD.shalfloop() != SHalfloop_handle()); D.add_sloop_to_facet( SD.shalfloop(), f); // CGAL_NEF_TRACEN(IO->index(s2)<<" removed"); } else { CGAL_assertion( D.has_outdeg_two(v)); D.link_as_prev_next_pair( s1, s2->next()); // CGAL_NEF_TRACEN(IO->index(s1)<<" "<index(s2->next())<<" linked."); D.link_as_prev_next_pair(s2->next()->twin(), s1->twin()); // CGAL_NEF_TRACEN(IO->index(s2->next()->twin())<<" "<< // IO->index(s1->twin())<<" linked."); SD.merge_edge_pairs_at_target( s1); // s2 is removed // CGAL_NEF_TRACEN(IO->index(s2)<<" removed"); } } virtual void merge_halfedge_pairs( SVertex_handle p, SVertex_handle q) { SNC_decorator D(*this->sncp()); CGAL_assertion( p->source() == q->source()); Vertex_handle v(p->source()); CGAL_assertion( is_part_of_edge(v)); SM_decorator SD(&*v); SHalfedge_around_svertex_circulator s(SD.first_out_edge(p)), se(s); CGAL_For_all( s, se) { D.link_as_prev_next_pair( s->prev(), s->next()); D.link_as_prev_next_pair( s->twin()->prev(), s->twin()->next()); } D.make_twins( p->twin(), q->twin()); SD.delete_vertex(p); SD.delete_vertex(q); this->sncp()->delete_vertex(v); } void purge_no_find_objects( Unique_hash_map< Volume_handle, UFH_volume>& hash_volume, Unique_hash_map< Halffacet_handle, UFH_facet>& hash_facet, Unique_hash_map< SFace_handle, UFH_sface>& hash_sface, Union_find< Volume_handle>& uf_volume, Union_find< Halffacet_handle>& uf_facet, Union_find< SFace_handle>& uf_sface ) { SNC_decorator D(*this->sncp()); SFace_iterator sf; std::list sflist; CGAL_forall_sfaces( sf, *this->sncp()) { if( uf_sface.find(hash_sface[sf]) != hash_sface[sf]) { // CGAL_NEF_TRACEN("no find object "<index(sf)); sflist.push_back(sf); } } typename std::list::const_iterator sfli; for(sfli = sflist.begin(); sfli != sflist.end(); sfli++){ SM_decorator SD(&*(*sfli)->center_vertex()); SD.delete_face_only(*sfli); } Halffacet_iterator f; std::list flist; CGAL_forall_facets( f, *this->sncp()) { // CGAL_NEF_TRACEN("facet "<index(f)); if( uf_facet.find(hash_facet[f]) != hash_facet[f]) { // CGAL_NEF_TRACEN("no find object "<index(f)); flist.push_back(f); } } typename std::list::const_iterator fli; for(fli = flist.begin(); fli != flist.end(); fli++) this->sncp()->delete_halffacet_pair(*fli); Volume_iterator c; std::list clist; CGAL_forall_volumes( c, *this->sncp()) { if( uf_volume.find(hash_volume[c]) != hash_volume[c]) { // CGAL_NEF_TRACEN("no find object "<index(c)); clist.push_back(c); } } typename std::list::const_iterator cli; for(cli = clist.begin(); cli != clist.end(); cli++){ this->sncp()->delete_volume(*cli); } } void create_boundary_links_forall_sfaces( Unique_hash_map< SFace_handle, UFH_sface>& hash, Union_find< SFace_handle>& uf ) { Unique_hash_map< SHalfedge_handle, bool> linked(false); SNC_decorator D(*this->sncp()); SHalfedge_iterator e; CGAL_forall_shalfedges(e, *this->sncp()) { if( linked[e]) continue; SM_decorator SD(&*e->source()->source()); SFace_handle sf = *(uf.find(hash[e->incident_sface()])); CGAL_assertion( sf != SFace_handle()); SHalfedge_around_sface_circulator c(e), cend(c); CGAL_For_all( c, cend) { SD.set_face(c, sf); linked[c] = true; } SD.store_sm_boundary_object( e, sf); } SVertex_handle sv; CGAL_forall_svertices(sv, *this->sncp()) { SM_decorator SD(&*sv->source()); if( SD.is_isolated(sv)) { SFace_handle sf = *(uf.find(hash[sv->incident_sface()])); CGAL_assertion( sf != SFace_handle()); SD.set_face( sv, sf); SD.store_sm_boundary_object( sv, sf); } } SHalfloop_handle sl; CGAL_forall_shalfloops(sl, *this->sncp()) { SM_decorator SD(&*sl->incident_sface()->center_vertex()); //I added the following 'if' because even if the map has been cleared, when merging edges //if one sloop is created and the vertex not simplified, then the map is updated. //In the example below, the edge e is removed and a sloop is create on the sphere map //of a vertex v. But since three edges are still incident to v, v is not simplified. //There is one point where the distance between two non-edge-adjacent facets is 0. // // | | // | | \ | / | | // | / \ | / | / // | / \|/ | / // | / / | / // | / / e | / // |/______/_______|/ // if (!SD.map()->is_sm_boundary_object(sl)) SD.store_sm_boundary_object( sl, sl->incident_sface()); } } void create_boundary_links_forall_facets( Unique_hash_map< Halffacet_handle, UFH_facet>& hash, Union_find< Halffacet_handle>& uf) { Unique_hash_map< SHalfedge_handle, bool> linked(false); SNC_decorator D(*this->sncp()); SHalfedge_iterator u; CGAL_forall_shalfedges(u, *this->sncp()) { if( linked[u]) continue; /* set find(f) as incident facet of every edge use on the cycle of u */ SHalfedge_handle u_min = u; Halffacet_handle f = *(uf.find(hash[u->facet()])); SHalfedge_around_facet_circulator c(u), cend(c); CGAL_For_all( c, cend) { D.set_facet( c, f); if( lexicographically_xyz_smaller(c->source()->source()->point(), u_min->source()->source()->point())) u_min = c; linked[c] = true; } /* store the edge use at the lexicographicaly minimum facet vertex, as a cycle entry of f. The outermost cycle is stored at first on the facet's cycles list. */ if( is_empty_range( f->boundary_entry_objects().begin(), f->boundary_entry_objects().end())) { D.store_boundary_object( u_min, f); CGAL_NEF_TRACEN("new outer cycle min. vertex: "<< u_min->source()->source()->point()); } else { SHalfedge_handle f_sedge; CGAL_assertion( CGAL::assign( f_sedge, f->boundary_entry_objects().front())); CGAL::assign( f_sedge, f->boundary_entry_objects().front()); if( lexicographically_xyz_smaller(u_min->source()->source()->point(), f_sedge->source()->source()->point())) D.store_as_first_boundary_object( u_min, f); else D.store_boundary_object( u_min, f); } } SHalfloop_iterator l; CGAL_forall_shalfloops( l, *this->sncp()) { Halffacet_handle f = *(uf.find(hash[l->facet()])); D.set_facet( l, f); D.store_boundary_object( l, f); } } void create_boundary_links_forall_volumes( Unique_hash_map< Volume_handle, UFH_volume>& hash, Union_find< Volume_handle>& uf) { typedef typename SNC_decorator::template Shell_volume_setter Volume_setter; // typedef Unique_hash_map< SFace_handle, bool> SFace_map; // SFace_map linked(false); SNC_decorator D(*this->sncp()); Volume_setter setter(D); SFace_iterator sf; Volume_handle c; CGAL_forall_sfaces(sf, *this->sncp()) { // CGAL_NEF_TRACEN("SFace " << IO->index(sf)); if( setter.is_linked(sf)) continue; c = *(uf.find(hash[sf->volume()])); // CGAL_NEF_TRACEN("Volume " << IO->index(c)); setter.set_volume(c); D.visit_shell_objects( sf, setter ); D.store_boundary_object( sf, c); } } }; template class SNC_simplify : public SNC_simplify_base { public: SNC_simplify(SNC_structure& sncs) : SNC_simplify_base(sncs) {} }; template class SNC_simplify : public SNC_simplify_base { typedef SNC_simplify_base Base; typedef CGAL::SNC_decorator SNC_decorator; typedef typename SNC_structure::Sphere_map Sphere_map; typedef CGAL::SM_decorator SM_decorator; typedef typename SNC_structure::Vertex_handle Vertex_handle; typedef typename SNC_structure::SVertex_handle SVertex_handle; typedef typename SNC_structure::SHalfedge_handle SHalfedge_handle; typedef typename SNC_structure::SHalfloop_handle SHalfloop_handle; typedef typename SNC_structure::Halffacet_iterator Halffacet_iterator; typedef typename SNC_structure::Halffacet_cycle_iterator Halffacet_cycle_iterator; typedef typename SNC_structure::SHalfedge_around_svertex_circulator SHalfedge_around_svertex_circulator; typedef typename SNC_structure::SHalfedge_around_facet_circulator SHalfedge_around_facet_circulator; using Base::is_part_of_edge; public: SNC_simplify(SNC_structure& sncs) : Base(sncs) {} bool simplify() { bool result = Base::simplify(); Halffacet_iterator fit; CGAL_forall_halffacets(fit, *this) { Halffacet_cycle_iterator fci = fit->facet_cycles_begin(); SHalfedge_handle se_first = fci; int index = se_first->get_index(); for(; fci!=fit->facet_cycles_end(); ++fci) { if(fci.is_shalfedge()) { SHalfedge_around_facet_circulator sc1(fci), sc2(sc1); CGAL_For_all(sc1,sc2) sc1->set_index(index); } else if(fci.is_shalfloop()) { SHalfloop_handle sl(fci); sl->set_index(index); } else CGAL_error_msg( "wrong handle"); } } return result; } void merge_halfedge_pairs( SVertex_handle p, SVertex_handle q) { SNC_decorator D(*this->sncp()); CGAL_assertion( p->source() == q->source()); Vertex_handle v(p->source()); CGAL_assertion( is_part_of_edge(v)); SM_decorator SD(&*v); SHalfedge_around_svertex_circulator s(SD.first_out_edge(p)), se(s); CGAL_For_all( s, se) { D.link_as_prev_next_pair( s->prev(), s->next()); D.link_as_prev_next_pair( s->twin()->prev(), s->twin()->next()); } D.make_twins( p->twin(), q->twin()); if(q->get_index() < p->get_index()) p->twin()->set_index(q->twin()->get_index()); else q->twin()->set_index(p->twin()->get_index()); SD.delete_vertex(p); SD.delete_vertex(q); this->sncp()->delete_vertex(v); } }; } //namespace CGAL #endif // CGAL_SNC_STRUCTURE_H