From 16aaf4cda5fd97da12a7f1da8b0a5168fac2e289 Mon Sep 17 00:00:00 2001 From: vrouvrea Date: Tue, 11 Oct 2016 13:57:03 +0000 Subject: Problem of merge with tangentialcomplex branch. Redo in an integration branch git-svn-id: svn+ssh://scm.gforge.inria.fr/svnroot/gudhi/branches/tangential_integration@1701 636b058d-ea47-450e-bf9e-a15bfbe3eedb Former-commit-id: fa029e8e90b3e203ea675f02098ec6fe95596f9f --- .../CGAL/Triangulation_ds_full_cell.h | 311 +++++++++++++++++++++ 1 file changed, 311 insertions(+) create mode 100644 src/common/include/gudhi_patches/CGAL/Triangulation_ds_full_cell.h (limited to 'src/common/include/gudhi_patches/CGAL/Triangulation_ds_full_cell.h') diff --git a/src/common/include/gudhi_patches/CGAL/Triangulation_ds_full_cell.h b/src/common/include/gudhi_patches/CGAL/Triangulation_ds_full_cell.h new file mode 100644 index 00000000..541a6a85 --- /dev/null +++ b/src/common/include/gudhi_patches/CGAL/Triangulation_ds_full_cell.h @@ -0,0 +1,311 @@ +// Copyright (c) 2009-2014 INRIA Sophia-Antipolis (France). +// All rights reserved. +// +// This file is part of CGAL (www.cgal.org). +// You can redistribute it and/or modify it under the terms of the GNU +// General Public License as published by the Free Software Foundation, +// either version 3 of the License, or (at your option) any later version. +// +// Licensees holding a valid commercial license may use this file in +// accordance with the commercial license agreement provided with the software. +// +// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE +// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. +// +// $URL$ +// $Id$ +// +// Author(s) : Samuel Hornus + +#ifndef CGAL_TRIANGULATION_DS_FULL_CELL_H +#define CGAL_TRIANGULATION_DS_FULL_CELL_H + +#include +#include +#include +#include +#include +#include + +namespace CGAL { + +template< class TDS = void, typename FullCellStoragePolicy = Default > +class Triangulation_ds_full_cell +{ + typedef typename Default::Get::type + Storage_policy; + typedef Triangulation_ds_full_cell Self; + typedef typename TDS::Maximal_dimension Maximal_dimension; + +public: + typedef TDS Triangulation_data_structure; + typedef typename TDS::Face Face; + typedef typename TDS::Vertex_handle Vertex_handle; /* Concept */ + typedef typename TDS::Vertex_const_handle Vertex_const_handle; + typedef typename TDS::Full_cell_handle Full_cell_handle; /* Concept */ + typedef typename TDS::Full_cell_const_handle Full_cell_const_handle; + typedef typename TDS::Full_cell_data TDS_data; /* data that the TDS wants to be stored here */ + template< typename TDS2 > + struct Rebind_TDS /* Concept */ + { + typedef Triangulation_ds_full_cell Other; + }; + +private: // STORAGE + typedef TFC_data< Vertex_handle, Full_cell_handle, + Maximal_dimension, Storage_policy > Combinatorics; + friend struct TFC_data< Vertex_handle, Full_cell_handle, + Maximal_dimension, Storage_policy >; + // array of vertices + typedef typename Combinatorics::Vertex_handle_array Vertex_handle_array; + // neighbor simplices + typedef typename Combinatorics::Full_cell_handle_array Full_cell_handle_array; + + // NOT DOCUMENTED... + typename Combinatorics::Xor_type xor_of_vertices(const int cur_dim) const + { + return combinatorics_.xor_of_vertices(cur_dim); + } + +public: + typedef typename Vertex_handle_array::const_iterator Vertex_handle_const_iterator; + typedef Vertex_handle_const_iterator Vertex_handle_iterator; /* Concept */ + + Triangulation_ds_full_cell(const int dmax) /* Concept */ + : combinatorics_(dmax), tds_data_() + { + CGAL_assertion( dmax > 0 ); + for( int i = 0; i <= dmax; ++i ) + { + set_neighbor(i, Full_cell_handle()); + set_vertex(i, Vertex_handle()); + set_mirror_index(i, -1); + } + } + + Triangulation_ds_full_cell(const Triangulation_ds_full_cell & s) /* Concept */ + : combinatorics_(s.combinatorics_), tds_data_(s.tds_data_) + {} + + ~Triangulation_ds_full_cell() {} + + int maximal_dimension() const /* Concept */ + { + return static_cast(vertices().size() - 1); + } + + Vertex_handle_const_iterator vertices_begin() const /* Concept */ + { + return vertices().begin(); + } + + Vertex_handle_const_iterator vertices_end() const /* Concept */ + { + return vertices().end(); + } + + Vertex_handle vertex(const int i) const /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + return vertices()[i]; + } + + Full_cell_handle neighbor(const int i) const /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + return neighbors()[i]; + } + + int mirror_index(const int i) const /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + return combinatorics_.mirror_index(i); + } + + // Advanced... + Vertex_handle mirror_vertex(const int i, const int cur_dim) const /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + return combinatorics_.mirror_vertex(i, cur_dim); + } + + int index(Full_cell_const_handle s) const /* Concept */ + { + // WE ASSUME THE FULL CELL WE ARE LOOKING FOR INDEED EXISTS ! + CGAL_precondition(has_neighbor(s)); + int index(0); + while( neighbor(index) != s ) + ++index; + return index; + } + + int index(Vertex_const_handle v) const /* Concept */ + { + // WE ASSUME THE VERTEX WE ARE LOOKING FOR INDEED EXISTS ! + CGAL_precondition(has_vertex(v)); + int index(0); + while( vertex(index) != v ) + ++index; + return index; + } + + void set_vertex(const int i, Vertex_handle v) /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + vertices()[i] = v; + } + + void set_neighbor(const int i, Full_cell_handle s) /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + neighbors()[i] = s; + } + + void set_mirror_index(const int i, const int index) /* Concept */ + { + CGAL_precondition(0<=i && i<=maximal_dimension()); + combinatorics_.set_mirror_index(i, index); + } + + bool has_vertex(Vertex_const_handle v) const /* Concept */ + { + int index; + return has_vertex(v, index); + } + + bool has_vertex(Vertex_const_handle v, int & index) const /* Concept */ + { + const int d = maximal_dimension(); + index = 0; + while( (index <= d) && (vertex(index) != v) ) + ++index; + return (index <= d); + } + + bool has_neighbor(Full_cell_const_handle s) const /* Concept */ + { + int index; + return has_neighbor(s, index); + } + + bool has_neighbor(Full_cell_const_handle s, int & index) const /* Concept */ + { + const int d = maximal_dimension(); + index = 0; + while( (index <= d) && (neighbor(index) != s) ) + ++index; + return (index <= d); + } + + void swap_vertices(const int d1, const int d2) /* Concept */ + { + CGAL_precondition(0 <= d1 && d1<=maximal_dimension()); + CGAL_precondition(0 <= d2 && d2<=maximal_dimension()); + combinatorics_.swap_vertices(d1, d2); + } + + const TDS_data & tds_data() const { return tds_data_; } /* Concept */ + TDS_data & tds_data() { return tds_data_; } /* Concept */ + + void* for_compact_container() const { return combinatorics_.for_compact_container(); } + void* & for_compact_container() { return combinatorics_.for_compact_container(); } + + bool is_valid(bool verbose = false, int = 0) const /* Concept */ + { + const int d = maximal_dimension(); + int i(0); + // test that the non-null Vertex_handles come first, before all null ones + while( i <= d && vertex(i) != Vertex_handle() ) ++i; + while( i <= d && vertex(i) == Vertex_handle() ) ++i; + if( i <= d ) + { + if( verbose ) CGAL_warning_msg(false, "full cell has garbage handles to vertices."); + return false; + } + for( i = 0; i <= d; ++i ) + { + if( Vertex_handle() == vertex(i) ) + break; // there are no more vertices + Full_cell_handle n(neighbor(i)); + if( Full_cell_handle() != n ) + { + int mirror_idx(mirror_index(i)); + if( n->neighbor(mirror_idx) == Full_cell_handle() ) + { + if( verbose ) CGAL_warning_msg(false, "neighbor has no back-neighbor."); + return false; + } + if( &(*(n->neighbor(mirror_idx))) != this ) + { + if( verbose ) CGAL_warning_msg(false, "neighbor does not point back to correct full cell."); + return false; + } + } + } + return true; + } + +private: + // access to data members: + Full_cell_handle_array & neighbors() {return combinatorics_.neighbors_; } + const Full_cell_handle_array & neighbors() const {return combinatorics_.neighbors_; } + Vertex_handle_array & vertices() {return combinatorics_.vertices_; } + const Vertex_handle_array & vertices() const {return combinatorics_.vertices_; } + + // DATA MEMBERS + Combinatorics combinatorics_; + mutable TDS_data tds_data_; +}; + +// FUNCTIONS THAT ARE NOT MEMBER FUNCTIONS: + +template < typename TDS, typename SSP > +std::ostream & +operator<<(std::ostream & O, const Triangulation_ds_full_cell &) /* Concept */ +{ + /*if( is_ascii(O) ) + { + // os << '\n'; + } + else {}*/ + return O; +} + +template < typename TDS, typename SSP > +std::istream & +operator>>(std::istream & I, Triangulation_ds_full_cell &) /* Concept */ +{ + /*if( is_ascii(I) ) + {} + else {}*/ + return I; +} + +// Special case: specialization when template parameter is void. + +// we must declare it for each possible full_cell storage policy because : +// (GCC error:) default template arguments may not be used in partial specializations +template< typename StoragePolicy > +class Triangulation_ds_full_cell +{ +public: + typedef internal::Triangulation::Dummy_TDS TDS; + typedef TDS Triangulation_data_structure; + typedef TDS::Vertex_handle Vertex_handle; + typedef TDS::Vertex_const_handle Vertex_const_handle; + typedef TDS::Full_cell_handle Full_cell_handle; + typedef TDS::Full_cell_const_handle Full_cell_const_handle; + typedef TDS::Vertex_handle_const_iterator Vertex_handle_const_iterator; + typedef TDS::Full_cell_data TDS_data; + template + struct Rebind_TDS + { + typedef Triangulation_ds_full_cell Other; + }; + Vertex_handle_const_iterator vertices_begin(); + Vertex_handle_const_iterator vertices_end(); +}; + +} //namespace CGAL + +#endif // CGAL_TRIANGULATION_DS_FULL_CELL_H -- cgit v1.2.3