520 lines
16 KiB
C++
Executable File
520 lines
16 KiB
C++
Executable File
// Copyright (c) 2009 INRIA Sophia-Antipolis (France).
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// All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org).
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// You can redistribute it and/or modify it under the terms of the GNU
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// General Public License as published by the Free Software Foundation,
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// either version 3 of the License, or (at your option) any later version.
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//
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// Licensees holding a valid commercial license may use this file in
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// accordance with the commercial license agreement provided with the software.
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//
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// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
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// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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//
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// $URL$
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// $Id$
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// SPDX-License-Identifier: GPL-3.0+
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//
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//
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// Author(s) : Stéphane Tayeb
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//
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//******************************************************************************
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// File Description : make_mesh_3 function definition.
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//******************************************************************************
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#ifndef CGAL_MAKE_MESH_3_H
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#define CGAL_MAKE_MESH_3_H
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#include <CGAL/license/Mesh_3.h>
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#include <CGAL/disable_warnings.h>
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#include <CGAL/Mesh_3/config.h>
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#include <CGAL/boost/parameter.h>
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#include <CGAL/refine_mesh_3.h>
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#include <CGAL/tags.h>
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#include <CGAL/Mesh_3/Protect_edges_sizing_field.h>
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#include <CGAL/Mesh_3/Has_features.h>
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#include <CGAL/Mesh_3/C3T3_helpers.h>
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#include <boost/mpl/has_xxx.hpp>
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#include <boost/parameter/preprocessor.hpp>
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namespace CGAL {
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namespace parameters {
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namespace internal {
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// Features
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struct Features_options
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{
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Features_options(bool b) : b_(b) {}
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bool features() const { return b_; }
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private:
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bool b_;
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};
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// -----------------------------------
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// Features generator
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// -----------------------------------
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// struct Features_option_generator
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template <typename HasFeatures>
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struct Features_options_generator {};
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template<>
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struct Features_options_generator<CGAL::Tag_true>
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{
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Features_options operator()() { return Features_options(true); }
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};
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template<>
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struct Features_options_generator<CGAL::Tag_false>
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{
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Features_options operator()() { return Features_options(false); }
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};
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// struct Domain_features_generator is designed to handle cases where
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// MeshDomain::Has_features is not a valid type
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template< typename MeshDomain, bool MeshDomainHasHasFeatures >
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struct Domain_features_generator {};
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template< typename MeshDomain >
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struct Domain_features_generator< MeshDomain, false >
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{
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Features_options operator()()
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{
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return Features_options_generator<CGAL::Tag_false>()();
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}
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};
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template< typename MeshDomain >
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struct Domain_features_generator< MeshDomain, true >
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{
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Features_options operator()()
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{
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return Features_options_generator<typename MeshDomain::Has_features>()();
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}
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};
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} // end namespace internal
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// -----------------------------------
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// Features_options
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// -----------------------------------
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inline internal::Features_options
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features() { return internal::Features_options(true); }
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inline internal::Features_options
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no_features() { return internal::Features_options(false); }
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template < typename MeshDomain >
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inline internal::Features_options
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features(const MeshDomain& /*domain*/)
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{
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typedef typename internal::Domain_features_generator<
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MeshDomain,
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CGAL::Mesh_3::internal::has_Has_features<MeshDomain>::value > Generator;
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return Generator()();
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}
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// -----------------------------------
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// Parameters
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// -----------------------------------
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// see <CGAL/config.h>
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CGAL_PRAGMA_DIAG_PUSH
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// see <CGAL/boost/parameter.h>
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CGAL_IGNORE_BOOST_PARAMETER_NAME_WARNINGS
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BOOST_PARAMETER_NAME( features_param )
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CGAL_PRAGMA_DIAG_POP
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} // end namespace parameters::internal
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// -----------------------------------
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// Initialize c3t3 stuff
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// -----------------------------------
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namespace Mesh_3 {
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namespace internal {
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template < typename C3T3, typename MeshDomain, typename MeshCriteria >
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void
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init_c3t3(C3T3& c3t3, const MeshDomain& domain, const MeshCriteria&,
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const int nb_initial_points)
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{
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typedef typename MeshDomain::Point_3 Point_3;
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typedef typename MeshDomain::Index Index;
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typedef std::vector<std::pair<Point_3, Index> > Initial_points_vector;
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typedef typename Initial_points_vector::iterator Ipv_iterator;
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typedef typename C3T3::Vertex_handle Vertex_handle;
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// Mesh initialization : get some points and add them to the mesh
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Initial_points_vector initial_points;
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if (nb_initial_points > -1)
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domain.construct_initial_points_object()(std::back_inserter(initial_points),
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nb_initial_points);
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else //use default number of points
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domain.construct_initial_points_object()(std::back_inserter(initial_points));
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typename C3T3::Triangulation::Geom_traits::Construct_weighted_point_3 cwp =
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c3t3.triangulation().geom_traits().construct_weighted_point_3_object();
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// Insert points and set their index and dimension
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for ( Ipv_iterator it = initial_points.begin() ;
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it != initial_points.end() ;
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++it )
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{
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Vertex_handle v = c3t3.triangulation().insert(cwp(it->first));
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// v could be null if point is hidden
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if ( v != Vertex_handle() )
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{
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c3t3.set_dimension(v,2); // by construction, points are on surface
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c3t3.set_index(v,it->second);
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}
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}
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}
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template < typename EdgeCriteria >
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struct Edge_criteria_sizing_field_wrapper
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{
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typedef typename EdgeCriteria::Index Index;
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typedef typename EdgeCriteria::FT FT;
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typedef typename EdgeCriteria::Point_3 Point_3;
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Edge_criteria_sizing_field_wrapper(const EdgeCriteria& ec) : ec_(ec) {}
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FT operator()(const Point_3& p, const int dim, const Index& index) const
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{ return ec_.sizing_field(p,dim,index); }
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private:
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// No need to copy EdgeCriteria here
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const EdgeCriteria& ec_;
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};
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template < typename C3T3, typename MeshDomain, typename MeshCriteria>
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void init_c3t3_with_features(C3T3& c3t3,
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const MeshDomain& domain,
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const MeshCriteria& criteria,
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bool nonlinear = false)
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{
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typedef typename MeshCriteria::Edge_criteria Edge_criteria;
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typedef Edge_criteria_sizing_field_wrapper<Edge_criteria> Sizing_field;
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CGAL::Mesh_3::Protect_edges_sizing_field<C3T3,MeshDomain,Sizing_field>
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protect_edges(c3t3, domain, Sizing_field(criteria.edge_criteria_object()));
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protect_edges.set_nonlinear_growth_of_balls(nonlinear);
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protect_edges(true);
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}
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// This class is only used as base for specializations of C3t3_initializer
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// when MeshDomain::Has_features is a valid type and is defined to CGAL::Tag_true
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//
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// Its purpose is to make the protection process virtual because Periodic_3_mesh_3
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// handles sharp features differently and has its own 'init_c3t3_with_features()' function,
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// but everything else is identical.
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template < typename C3T3, typename MeshDomain, typename MeshCriteria>
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struct C3t3_initializer_base
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{
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virtual ~C3t3_initializer_base() { }
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// Not calling 'init_c3t3_with_features' directly to leave it as a free function
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// outside of the C3T3_initializer class
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virtual void initialize_features(C3T3& c3t3,
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const MeshDomain& domain,
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const MeshCriteria& criteria,
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bool nonlinear = false)
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{
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return Mesh_3::internal::init_c3t3_with_features(c3t3, domain, criteria, nonlinear);
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}
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};
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// C3t3_initializer: initialize c3t3
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template < typename C3T3,
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typename MeshDomain,
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typename MeshCriteria,
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bool MeshDomainHasHasFeatures,
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typename HasFeatures = int>
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struct C3t3_initializer { };
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// Partial specialization of C3t3_initializer
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// Handle cases where MeshDomain::Has_features is not a valid type
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template < typename C3T3, typename MD, typename MC, typename HasFeatures >
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struct C3t3_initializer < C3T3, MD, MC, false, HasFeatures >
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{
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void operator()(C3T3& c3t3,
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const MD& domain,
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const MC& criteria,
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bool with_features,
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bool /* nonlinear */= false,
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const int nb_initial_points = -1)
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{
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if ( with_features )
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{
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std::cerr << "Warning: you requested a mesh with features from a domain"
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<< " without features !" << std::endl;
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}
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init_c3t3(c3t3,domain,criteria,nb_initial_points);
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}
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};
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// Partial specialization of C3t3_initializer
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// Handles cases where MeshDomain::Has_features is a valid type
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template < typename C3T3, typename MD, typename MC, typename HasFeatures >
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struct C3t3_initializer < C3T3, MD, MC, true, HasFeatures >
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{
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void operator()(C3T3& c3t3,
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const MD& domain,
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const MC& criteria,
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bool with_features,
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bool nonlinear = false,
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const int nb_initial_points = -1)
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{
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C3t3_initializer < C3T3, MD, MC, true, typename MD::Has_features >()
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(c3t3,domain,criteria,with_features,nonlinear,nb_initial_points);
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}
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};
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// Partial specialization of C3t3_initializer
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// Handles cases where MeshDomain::Has_features is a valid type and is defined
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// to CGAL::Tag_true
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template < typename C3T3, typename MD, typename MC >
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struct C3t3_initializer < C3T3, MD, MC, true, CGAL::Tag_true >
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: public C3t3_initializer_base < C3T3, MD, MC >
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{
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virtual ~C3t3_initializer() { }
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void operator()(C3T3& c3t3,
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const MD& domain,
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const MC& criteria,
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bool with_features,
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bool nonlinear = false,
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const int nb_initial_points = -1)
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{
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if ( with_features ) {
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this->initialize_features(c3t3, domain, criteria, nonlinear);
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// If c3t3 initialization is not sufficient (may happen if there is only
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// a planar curve as feature for example), add some surface points
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bool need_more_init = c3t3.triangulation().dimension() != 3;
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if(!need_more_init) {
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CGAL::Mesh_3::C3T3_helpers<C3T3, MD> helper(c3t3, domain);
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helper.update_restricted_facets();
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if (c3t3.number_of_facets() == 0) {
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need_more_init = true;
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}
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}
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if(need_more_init) {
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init_c3t3(c3t3, domain, criteria, nb_initial_points);
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}
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}
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else { init_c3t3(c3t3,domain,criteria,nb_initial_points); }
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}
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};
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// Partial specialization of C3t3_initializer
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// Handles cases where MeshDomain::Has_features is a valid type and is defined
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// to CGAL::Tag_false
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template < typename C3T3, typename MD, typename MC >
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struct C3t3_initializer < C3T3, MD, MC, true, CGAL::Tag_false >
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{
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void operator()(C3T3& c3t3,
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const MD& domain,
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const MC& criteria,
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bool with_features,
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bool /* nonlinear */ = false,
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const int nb_initial_points = -1)
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{
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if ( with_features )
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{
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std::cerr << "Warning: you requested a mesh with features from a domain"
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<< " without features !" << std::endl;
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}
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init_c3t3(c3t3,domain,criteria,nb_initial_points);
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}
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};
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} // end namespace internal
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} // end namespace Mesh_3
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// -----------------------------------
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// make_mesh_3 stuff
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// -----------------------------------
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// Manual redirections
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// boost::parameter can't handle make_mesh_3 return_type alone...
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#ifndef CGAL_CFG_NO_CPP0X_VARIADIC_TEMPLATES
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template <typename C3T3, typename MD, typename MC, typename ... T>
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C3T3 make_mesh_3(const MD& md, const MC& mc, const T& ...t)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc,t...);
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return c3t3;
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}
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#else
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template <typename C3T3, typename MD, typename MC>
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C3T3 make_mesh_3(const MD& md, const MC& mc)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc);
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return c3t3;
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}
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template <typename C3T3, typename MD, typename MC,
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typename Arg1>
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C3T3 make_mesh_3(const MD& md, const MC& mc, const Arg1& a1)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc,a1);
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return c3t3;
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}
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template <typename C3T3, typename MD, typename MC,
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typename Arg1, typename Arg2>
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C3T3 make_mesh_3(const MD& md, const MC& mc, const Arg1& a1, const Arg2& a2)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc,a1,a2);
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return c3t3;
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}
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template <typename C3T3, typename MD, typename MC,
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typename Arg1, typename Arg2, typename Arg3>
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C3T3 make_mesh_3(const MD& md, const MC& mc, const Arg1& a1, const Arg2& a2,
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const Arg3& a3)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc,a1,a2,a3);
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return c3t3;
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}
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template <typename C3T3, typename MD, typename MC,
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typename Arg1, typename Arg2, typename Arg3, typename Arg4>
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C3T3 make_mesh_3(const MD& md, const MC& mc, const Arg1& a1, const Arg2& a2,
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const Arg3& a3, const Arg4& a4)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc,a1,a2,a3,a4);
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return c3t3;
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}
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template <typename C3T3, typename MD, typename MC,
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typename Arg1, typename Arg2, typename Arg3, typename Arg4, typename Arg5>
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C3T3 make_mesh_3(const MD& md, const MC& mc, const Arg1& a1, const Arg2& a2,
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const Arg3& a3, const Arg4& a4, const Arg5& a5)
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{
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C3T3 c3t3;
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make_mesh_3_bp(c3t3,md,mc,a1,a2,a3,a4,a5);
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return c3t3;
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}
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#endif
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#if defined(BOOST_MSVC)
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# pragma warning(push)
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# pragma warning(disable:4003) // not enough actual parameters for macro
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#endif
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// see <CGAL/config.h>
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CGAL_PRAGMA_DIAG_PUSH
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// see <CGAL/boost/parameter.h>
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CGAL_IGNORE_BOOST_PARAMETER_NAME_WARNINGS
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BOOST_PARAMETER_FUNCTION(
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(void),
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make_mesh_3_bp,
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parameters::tag,
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(required (in_out(c3t3),*) (domain,*) (criteria,*) ) // nondeduced
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(deduced
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(optional
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(features_param, (parameters::internal::Features_options), parameters::features(domain))
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(exude_param, (parameters::internal::Exude_options), parameters::exude())
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(perturb_param, (parameters::internal::Perturb_options), parameters::perturb())
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(odt_param, (parameters::internal::Odt_options), parameters::no_odt())
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(lloyd_param, (parameters::internal::Lloyd_options), parameters::no_lloyd())
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(mesh_options_param, (parameters::internal::Mesh_3_options),
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parameters::internal::Mesh_3_options())
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(manifold_options_param, (parameters::internal::Manifold_options),
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parameters::internal::Manifold_options())
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)
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)
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)
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{
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make_mesh_3_impl(c3t3, domain, criteria,
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exude_param, perturb_param, odt_param, lloyd_param,
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features_param.features(), mesh_options_param,
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manifold_options_param);
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}
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CGAL_PRAGMA_DIAG_POP
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#if defined(BOOST_MSVC)
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# pragma warning(pop)
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#endif
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/**
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* @brief This function meshes the domain defined by mesh_traits
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* (respecting criteria), and outputs the mesh to c3t3
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*
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* @param domain the domain to be discretized
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* @param criteria the criteria
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* @param exude if it is set to \c true, an exudation step will be done at
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* the end of the Delaunay refinement process
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*
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* @return The mesh as a C3T3 object
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*/
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template<class C3T3, class MeshDomain, class MeshCriteria>
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void make_mesh_3_impl(C3T3& c3t3,
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const MeshDomain& domain,
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const MeshCriteria& criteria,
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const parameters::internal::Exude_options& exude,
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const parameters::internal::Perturb_options& perturb,
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const parameters::internal::Odt_options& odt,
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const parameters::internal::Lloyd_options& lloyd,
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const bool with_features,
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const parameters::internal::Mesh_3_options&
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mesh_options = parameters::internal::Mesh_3_options(),
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const parameters::internal::Manifold_options&
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manifold_options = parameters::internal::Manifold_options())
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{
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#ifdef CGAL_MESH_3_INITIAL_POINTS_NO_RANDOM_SHOOTING
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CGAL::get_default_random() = CGAL::Random(0);
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#endif
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// Initialize c3t3
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Mesh_3::internal::C3t3_initializer<
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C3T3,
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MeshDomain,
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MeshCriteria,
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Mesh_3::internal::has_Has_features<MeshDomain>::value > () (c3t3,
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domain,
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criteria,
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with_features,
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mesh_options.nonlinear_growth_of_balls,
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mesh_options.number_of_initial_points);
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CGAL_assertion( c3t3.triangulation().dimension() == 3 );
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// Build mesher and launch refinement process
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// Don't reset c3t3 as we just created it
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refine_mesh_3(c3t3, domain, criteria,
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exude, perturb, odt, lloyd, parameters::no_reset_c3t3(), mesh_options,
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manifold_options);
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}
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} // end namespace CGAL
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#include <CGAL/enable_warnings.h>
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#endif // CGAL_MAKE_MESH_3_H
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