dust3d/thirdparty/cgal/CGAL-4.13/include/CGAL/NewKernel_d/KernelD_converter.h

// Copyright (c) 2014
// INRIA Saclay-Ile de France (France)
//
// This file is part of CGAL (www.cgal.org); 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; 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.
//
// $URL$
// $Id$
// SPDX-License-Identifier: LGPL-3.0+
//
// Author(s)     : Marc Glisse

#ifndef CGAL_KERNEL_D_CARTESIAN_CONVERTER_H
#define CGAL_KERNEL_D_CARTESIAN_CONVERTER_H

#include <CGAL/basic.h>
#include <CGAL/tuple.h>
#include <CGAL/typeset.h>
#include <CGAL/Object.h>
#include <CGAL/Origin.h>
#include <CGAL/NT_converter.h>
#include <CGAL/NewKernel_d/functor_tags.h>
#include <CGAL/Kernel/mpl.h>
#include <CGAL/is_iterator.h>
#include <CGAL/transforming_iterator.h>
#include <boost/utility/enable_if.hpp>
#include <boost/mpl/if.hpp>
#include <CGAL/NewKernel_d/store_kernel.h>
#include <CGAL/NewKernel_d/Kernel_object_converter.h>

namespace CGAL {
namespace internal {
// Reverses order, but that shouldn't matter.
template<class K,class T> struct Map_taglist_to_typelist :
  Map_taglist_to_typelist<K,typename T::tail>::type
  ::template add<typename Get_type<K, typename T::head>::type>
{};
template<class K> struct Map_taglist_to_typelist<K,typeset<> > : typeset<> {};
}

template<class List = typeset<> >
struct Object_converter {
	typedef Object result_type;
	template<class F>
	result_type operator()(Object const& o, F const& f) const {
	  typedef typename List::head H;
		if (H const* ptr = object_cast<H>(&o))
			return make_object(f(*ptr));
		else
			return Object_converter<typename List::tail>()(o,f);
	}
};
template<>
struct Object_converter <typeset<> > {
	typedef Object result_type;
	template<class F>
	result_type operator()(Object const&,F const&)const {
		CGAL_error_msg("Cartesiand_converter is unable to determine what is wrapped in the Object");
		return Object();
	}
};


	//TODO: special case when K1==K2 (or they are very close?)
template<class Final_, class K1, class K2, class List>
class KernelD_converter_
: public KernelD_converter_<Final_,K1,K2,typename List::tail>
{
	typedef typename List::head Tag_;
	typedef typename List::tail Rest;
	typedef KernelD_converter_<Final_,K1,K2,Rest> Base;
	typedef typename Get_type<K1,Tag_>::type K1_Obj;
	typedef typename Get_type<K2,Tag_>::type K2_Obj;
	typedef typename Get_functor<K1, Convert_ttag<Tag_> >::type K1_Conv;
	typedef KO_converter<Tag_,K1,K2> KOC;
	typedef CGAL_BOOSTD is_same<K1_Conv, Null_functor> no_converter;
	typedef typename internal::Map_taglist_to_typelist<K1,Rest>::type::template contains<K1_Obj> duplicate;

	// Disable the conversion in some cases:
	struct Do_not_use{};

        // Explicit calls to boost::mpl functions to avoid parenthesis
        // warning on some versions of GCC
	typedef typename boost::mpl::if_ <
                          // If Point==Vector, keep only one conversion
          boost::mpl::or_<boost::mpl::bool_<duplicate::value>,
                          // For iterator objects, the default is make_transforming_iterator
                          boost::mpl::bool_<(iterator_tag_traits<Tag_>::is_iterator && no_converter::value)> >,
	  Do_not_use,K1_Obj>::type argument_type;
	//typedef typename KOC::argument_type K1_Obj;
	//typedef typename KOC::result_type K2_Obj;
	public:
  using Base::operator(); // don't use directly, just make it accessible to the next level
	K2_Obj helper(K1_Obj const& o,CGAL_BOOSTD true_type)const{
		return KOC()(this->myself().kernel(),this->myself().kernel2(),this->myself(),o);
	}
	K2_Obj helper(K1_Obj const& o,CGAL_BOOSTD false_type)const{
		return K1_Conv(this->myself().kernel())(this->myself().kernel2(),this->myself(),o);
	}
	K2_Obj operator()(argument_type const& o)const{
	  return helper(o,no_converter());
	}
	template<class X,int=0> struct result:Base::template result<X>{};
	template<int i> struct result<Final_(argument_type),i> {typedef K2_Obj type;};
};

template<class Final_, class K1, class K2>
class KernelD_converter_<Final_,K1,K2,typeset<> > {
	public:
	struct Do_not_use2{};
	void operator()(Do_not_use2)const{}
	template<class T> struct result;
	Final_& myself(){return *static_cast<Final_*>(this);}
	Final_ const& myself()const{return *static_cast<Final_ const*>(this);}
};


// TODO: use the intersection of Kn::Object_list.
template<class K1, class K2, class List_=
typename typeset_intersection<typename K1::Object_list, typename K2::Object_list>::type
//typeset<Point_tag>::add<Vector_tag>::type/*::add<Segment_tag>::type*/
> class KernelD_converter
	: public Store_kernel<K1>, public Store_kernel2<K2>,
	public KernelD_converter_<KernelD_converter<K1,K2,List_>,K1,K2,List_>
{
	typedef KernelD_converter Self;
	typedef Self Final_;
	typedef KernelD_converter_<Self,K1,K2,List_> Base;
	typedef typename Get_type<K1, FT_tag>::type FT1;
	typedef typename Get_type<K2, FT_tag>::type FT2;
	typedef NT_converter<FT1, FT2> NTc;
	NTc c; // TODO: compressed storage as this is likely empty and the converter gets passed around (and stored in iterators)

	public:
	KernelD_converter(){}
	KernelD_converter(K1 const&a,K2 const&b):Store_kernel<K1>(a),Store_kernel2<K2>(b){}

	// For boost::result_of, used in transforming_iterator
	template<class T,int i=is_iterator<T>::value?42:0> struct result:Base::template result<T>{};
	template<class T> struct result<Final_(T),42> {
		typedef transforming_iterator<Final_,T> type;
	};
	template<int i> struct result<Final_(K1),i>{typedef K2 type;};
	template<int i> struct result<Final_(int),i>{typedef int type;};
	// Ideally the next 2 would come with Point_tag and Vector_tag, but that's hard...
	template<int i> struct result<Final_(Origin),i>{typedef Origin type;};
	template<int i> struct result<Final_(Null_vector),i>{typedef Null_vector type;};
	template<int i> struct result<Final_(Object),i>{typedef Object type;};
	template<int i> struct result<Final_(FT1),i>{typedef FT2 type;};

	using Base::operator();
	typename Store_kernel2<K2>::reference2_type operator()(K1 const&)const{return this->kernel2();}
	int operator()(int i)const{return i;}
	Origin operator()(Origin const&o)const{return o;}
	Null_vector operator()(Null_vector const&v)const{return v;}
	FT2 operator()(FT1 const&x)const{return c(x);}
	//RT2 operator()(typename First_if_different<RT1,FT1>::Type const&x)const{return cr(x);}

	typename Get_type<K2, Flat_orientation_tag>::type const&
	operator()(typename Get_type<K1, Flat_orientation_tag>::type const&o)const
	{ return o; } // Both kernels should have the same, returning a reference should warn if not.

	template<class It>
	transforming_iterator<Final_,typename boost::enable_if<is_iterator<It>,It>::type>
	operator()(It const& it) const {
		return make_transforming_iterator(it,*this);
	}

	template<class T>
	//TODO: use decltype in C++11 instead of result
	std::vector<typename result<Final_(T)>::type>
	operator()(const std::vector<T>& v) const {
		return std::vector<typename result<Final_(T)>::type>(operator()(v.begin()),operator()(v.begin()));
	}

	//TODO: convert std::list and other containers?

	Object
	operator()(const Object &obj) const
	{
		typedef typename internal::Map_taglist_to_typelist<K1,List_>::type Possibilities;
		//TODO: add Empty, vector<Point>, etc to the list.
		return Object_converter<Possibilities>()(obj,*this);
	}

	//TODO: convert boost::variant

};

} //namespace CGAL

#endif // CGAL_KERNEL_D_CARTESIAN_CONVERTER_H
Integrate Instant-Meshes 1. Drop windows 32bit support Add windows 64bit support. 2. Remove Script(quickjs) support The current integrated quickjs is a very old version which doesn’t support windows 64bit system. In the future, (TODO)WebAssembly should be integrate as plugin system. 3. Integrate Instant-Meshes Instant-Meshes take less than 1 second on all three platforms. 4. Remove QuadriFlow Current implementation of QuadriFlow is too slow (take about 5 seconds on the example model) to do realtime remeshing. 2020-01-04 10:29:10 +00:00			`// Copyright (c) 2014`
			`// INRIA Saclay-Ile de France (France)`
			`//`
			`// This file is part of CGAL (www.cgal.org); 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; 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.`
			`//`
			`// $URL$`
			`// $Id$`
			`// SPDX-License-Identifier: LGPL-3.0+`
			`//`
			`// Author(s) : Marc Glisse`

			`#ifndef CGAL_KERNEL_D_CARTESIAN_CONVERTER_H`
			`#define CGAL_KERNEL_D_CARTESIAN_CONVERTER_H`

			`#include <CGAL/basic.h>`
			`#include <CGAL/tuple.h>`
			`#include <CGAL/typeset.h>`
			`#include <CGAL/Object.h>`
			`#include <CGAL/Origin.h>`
			`#include <CGAL/NT_converter.h>`
			`#include <CGAL/NewKernel_d/functor_tags.h>`
			`#include <CGAL/Kernel/mpl.h>`
			`#include <CGAL/is_iterator.h>`
			`#include <CGAL/transforming_iterator.h>`
			`#include <boost/utility/enable_if.hpp>`
			`#include <boost/mpl/if.hpp>`
			`#include <CGAL/NewKernel_d/store_kernel.h>`
			`#include <CGAL/NewKernel_d/Kernel_object_converter.h>`

			`namespace CGAL {`
			`namespace internal {`
			`// Reverses order, but that shouldn't matter.`
			`template<class K,class T> struct Map_taglist_to_typelist :`
			`Map_taglist_to_typelist<K,typename T::tail>::type`
			`::template add<typename Get_type<K, typename T::head>::type>`
			`{};`
			`template<class K> struct Map_taglist_to_typelist<K,typeset<> > : typeset<> {};`
			`}`

			`template<class List = typeset<> >`
			`struct Object_converter {`
			`typedef Object result_type;`
			`template<class F>`
			`result_type operator()(Object const& o, F const& f) const {`
			`typedef typename List::head H;`
			`if (H const* ptr = object_cast<H>(&o))`
			`return make_object(f(*ptr));`
			`else`
			`return Object_converter<typename List::tail>()(o,f);`
			`}`
			`};`
			`template<>`
			`struct Object_converter <typeset<> > {`
			`typedef Object result_type;`
			`template<class F>`
			`result_type operator()(Object const&,F const&)const {`
			`CGAL_error_msg("Cartesiand_converter is unable to determine what is wrapped in the Object");`
			`return Object();`
			`}`
			`};`


			`//TODO: special case when K1==K2 (or they are very close?)`
			`template<class Final_, class K1, class K2, class List>`
			`class KernelD_converter_`
			`: public KernelD_converter_<Final_,K1,K2,typename List::tail>`
			`{`
			`typedef typename List::head Tag_;`
			`typedef typename List::tail Rest;`
			`typedef KernelD_converter_<Final_,K1,K2,Rest> Base;`
			`typedef typename Get_type<K1,Tag_>::type K1_Obj;`
			`typedef typename Get_type<K2,Tag_>::type K2_Obj;`
			`typedef typename Get_functor<K1, Convert_ttag<Tag_> >::type K1_Conv;`
			`typedef KO_converter<Tag_,K1,K2> KOC;`
			`typedef CGAL_BOOSTD is_same<K1_Conv, Null_functor> no_converter;`
			`typedef typename internal::Map_taglist_to_typelist<K1,Rest>::type::template contains<K1_Obj> duplicate;`

			`// Disable the conversion in some cases:`
			`struct Do_not_use{};`

			`// Explicit calls to boost::mpl functions to avoid parenthesis`
			`// warning on some versions of GCC`
			`typedef typename boost::mpl::if_ <`
			`// If Point==Vector, keep only one conversion`
			`boost::mpl::or_<boost::mpl::bool_<duplicate::value>,`
			`// For iterator objects, the default is make_transforming_iterator`
			`boost::mpl::bool_<(iterator_tag_traits<Tag_>::is_iterator && no_converter::value)> >,`
			`Do_not_use,K1_Obj>::type argument_type;`
			`//typedef typename KOC::argument_type K1_Obj;`
			`//typedef typename KOC::result_type K2_Obj;`
			`public:`
			`using Base::operator(); // don't use directly, just make it accessible to the next level`
			`K2_Obj helper(K1_Obj const& o,CGAL_BOOSTD true_type)const{`
			`return KOC()(this->myself().kernel(),this->myself().kernel2(),this->myself(),o);`
			`}`
			`K2_Obj helper(K1_Obj const& o,CGAL_BOOSTD false_type)const{`
			`return K1_Conv(this->myself().kernel())(this->myself().kernel2(),this->myself(),o);`
			`}`
			`K2_Obj operator()(argument_type const& o)const{`
			`return helper(o,no_converter());`
			`}`
			`template<class X,int=0> struct result:Base::template result<X>{};`
			`template<int i> struct result<Final_(argument_type),i> {typedef K2_Obj type;};`
			`};`

			`template<class Final_, class K1, class K2>`
			`class KernelD_converter_<Final_,K1,K2,typeset<> > {`
			`public:`
			`struct Do_not_use2{};`
			`void operator()(Do_not_use2)const{}`
			`template<class T> struct result;`
			`Final_& myself(){return static_cast<Final_>(this);}`
			`Final_ const& myself()const{return static_cast<Final_ const>(this);}`
			`};`


			`// TODO: use the intersection of Kn::Object_list.`
			`template<class K1, class K2, class List_=`
			`typename typeset_intersection<typename K1::Object_list, typename K2::Object_list>::type`
			`//typeset<Point_tag>::add<Vector_tag>::type/::add<Segment_tag>::type/`
			`> class KernelD_converter`
			`: public Store_kernel<K1>, public Store_kernel2<K2>,`
			`public KernelD_converter_<KernelD_converter<K1,K2,List_>,K1,K2,List_>`
			`{`
			`typedef KernelD_converter Self;`
			`typedef Self Final_;`
			`typedef KernelD_converter_<Self,K1,K2,List_> Base;`
			`typedef typename Get_type<K1, FT_tag>::type FT1;`
			`typedef typename Get_type<K2, FT_tag>::type FT2;`
			`typedef NT_converter<FT1, FT2> NTc;`
			`NTc c; // TODO: compressed storage as this is likely empty and the converter gets passed around (and stored in iterators)`

			`public:`
			`KernelD_converter(){}`
			`KernelD_converter(K1 const&a,K2 const&b):Store_kernel<K1>(a),Store_kernel2<K2>(b){}`

			`// For boost::result_of, used in transforming_iterator`
			`template<class T,int i=is_iterator<T>::value?42:0> struct result:Base::template result<T>{};`
			`template<class T> struct result<Final_(T),42> {`
			`typedef transforming_iterator<Final_,T> type;`
			`};`
			`template<int i> struct result<Final_(K1),i>{typedef K2 type;};`
			`template<int i> struct result<Final_(int),i>{typedef int type;};`
			`// Ideally the next 2 would come with Point_tag and Vector_tag, but that's hard...`
			`template<int i> struct result<Final_(Origin),i>{typedef Origin type;};`
			`template<int i> struct result<Final_(Null_vector),i>{typedef Null_vector type;};`
			`template<int i> struct result<Final_(Object),i>{typedef Object type;};`
			`template<int i> struct result<Final_(FT1),i>{typedef FT2 type;};`

			`using Base::operator();`
			`typename Store_kernel2<K2>::reference2_type operator()(K1 const&)const{return this->kernel2();}`
			`int operator()(int i)const{return i;}`
			`Origin operator()(Origin const&o)const{return o;}`
			`Null_vector operator()(Null_vector const&v)const{return v;}`
			`FT2 operator()(FT1 const&x)const{return c(x);}`
			`//RT2 operator()(typename First_if_different<RT1,FT1>::Type const&x)const{return cr(x);}`

			`typename Get_type<K2, Flat_orientation_tag>::type const&`
			`operator()(typename Get_type<K1, Flat_orientation_tag>::type const&o)const`
			`{ return o; } // Both kernels should have the same, returning a reference should warn if not.`

			`template<class It>`
			`transforming_iterator<Final_,typename boost::enable_if<is_iterator<It>,It>::type>`
			`operator()(It const& it) const {`
			`return make_transforming_iterator(it,*this);`
			`}`

			`template<class T>`
			`//TODO: use decltype in C++11 instead of result`
			`std::vector<typename result<Final_(T)>::type>`
			`operator()(const std::vector<T>& v) const {`
			`return std::vector<typename result<Final_(T)>::type>(operator()(v.begin()),operator()(v.begin()));`
			`}`

			`//TODO: convert std::list and other containers?`

			`Object`
			`operator()(const Object &obj) const`
			`{`
			`typedef typename internal::Map_taglist_to_typelist<K1,List_>::type Possibilities;`
			`//TODO: add Empty, vector<Point>, etc to the list.`
			`return Object_converter<Possibilities>()(obj,*this);`
			`}`

			`//TODO: convert boost::variant`

			`};`

			`} //namespace CGAL`

			`#endif // CGAL_KERNEL_D_CARTESIAN_CONVERTER_H`