337 lines
9.7 KiB
C++
Executable File
337 lines
9.7 KiB
C++
Executable File
// Copyright (c) 1999
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// Utrecht University (The Netherlands),
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// ETH Zurich (Switzerland),
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// INRIA Sophia-Antipolis (France),
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// Max-Planck-Institute Saarbruecken (Germany),
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// and Tel-Aviv University (Israel). All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public License as
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// published by the Free Software Foundation; either version 3 of the License,
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// 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: LGPL-3.0+
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//
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//
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// Author(s) : Stefan Schirra
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#ifndef CGAL_NUMBER_UTILS_H
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#define CGAL_NUMBER_UTILS_H
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#include <CGAL/number_type_config.h>
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#include <CGAL/Algebraic_structure_traits.h>
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#include <CGAL/Real_embeddable_traits.h>
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namespace CGAL {
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CGAL_NTS_BEGIN_NAMESPACE
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// AST-Functor adapting functions UNARY
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template< class AS >
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inline
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void
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simplify( AS& x ) {
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typename Algebraic_structure_traits< AS >::Simplify simplify;
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simplify( x );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Unit_part::result_type
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unit_part( const AS& x ) {
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typename Algebraic_structure_traits< AS >::Unit_part unit_part;
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return unit_part( x );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Is_square::result_type
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is_square( const AS& x,
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typename Algebraic_structure_traits< AS >::Is_square::second_argument_type y )
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{
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typename Algebraic_structure_traits< AS >::Is_square is_square;
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return is_square( x, y );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Is_square::result_type
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is_square( const AS& x){
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typename Algebraic_structure_traits< AS >::Is_square is_square;
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return is_square( x );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Square::result_type
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square( const AS& x ) {
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typename Algebraic_structure_traits< AS >::Square square;
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return square( x );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Inverse::result_type
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inverse( const AS& x ) {
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typename Algebraic_structure_traits< AS >::Inverse inverse;
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return inverse( x );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits<AS>::Is_one::result_type
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is_one( const AS& x ) {
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typename Algebraic_structure_traits< AS >::Is_one is_one;
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return is_one( x );
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}
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Sqrt::result_type
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sqrt( const AS& x ) {
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typename Algebraic_structure_traits< AS >::Sqrt sqrt;
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return sqrt( x );
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}
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// AST-Functor adapting functions BINARY
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template< class A, class B >
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inline
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typename Algebraic_structure_traits< typename Coercion_traits<A,B>::Type>
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::Integral_division::result_type
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integral_division( const A& x, const B& y ) {
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Algebraic_structure_traits< Type >::Integral_division
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integral_division;
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return integral_division( x, y );
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}
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template< class A, class B >
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inline
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typename Algebraic_structure_traits< typename Coercion_traits<A,B>::Type>
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::Divides::result_type
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divides( const A& x, const B& y ) {
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Algebraic_structure_traits< Type >::Divides divides;
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return divides( x, y );
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}
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template< class Type >
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inline
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typename Algebraic_structure_traits<Type>::Divides::result_type
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divides( const Type& x, const Type& y, Type& q ) {
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typename Algebraic_structure_traits< Type >::Divides divides;
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return divides( x, y, q);
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}
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template< class A, class B >
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inline
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typename Algebraic_structure_traits< typename Coercion_traits<A,B>::Type >
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::Gcd::result_type
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gcd( const A& x, const B& y ) {
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Algebraic_structure_traits< Type >::Gcd gcd;
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return gcd( x, y );
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}
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template< class A, class B >
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inline
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typename Algebraic_structure_traits< typename Coercion_traits<A,B>::Type >
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::Mod::result_type
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mod( const A& x, const B& y ) {
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Algebraic_structure_traits<Type >::Mod mod;
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return mod( x, y );
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}
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template< class A, class B >
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inline
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typename Algebraic_structure_traits< typename Coercion_traits<A,B>::Type>::Div::result_type
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div( const A& x, const B& y ) {
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Algebraic_structure_traits<Type >::Div div;
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return div( x, y );
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}
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template< class A, class B >
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inline
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void
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div_mod(
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const A& x,
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const B& y,
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typename Coercion_traits<A,B>::Type& q,
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typename Coercion_traits<A,B>::Type& r ) {
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Algebraic_structure_traits< Type >::Div_mod div_mod;
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div_mod( x, y, q, r );
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}
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// others
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template< class AS >
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inline
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typename Algebraic_structure_traits< AS >::Kth_root::result_type
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kth_root( int k, const AS& x ) {
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typename Algebraic_structure_traits< AS >::Kth_root
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kth_root;
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return kth_root( k, x );
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}
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template< class Input_iterator >
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inline
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typename Algebraic_structure_traits< typename std::iterator_traits<Input_iterator>::value_type >
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::Root_of::result_type
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root_of( int k, Input_iterator begin, Input_iterator end ) {
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typedef typename std::iterator_traits<Input_iterator>::value_type AS;
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return typename Algebraic_structure_traits<AS>::Root_of()( k, begin, end );
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}
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// AST- and RET-functor adapting function
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template< class Number_type >
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inline
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// select a Is_zero functor
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typename boost::mpl::if_c<
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::boost::is_same< typename Algebraic_structure_traits< Number_type >::Is_zero,
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Null_functor >::value ,
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typename Real_embeddable_traits< Number_type >::Is_zero,
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typename Algebraic_structure_traits< Number_type >::Is_zero
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>::type::result_type
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is_zero( const Number_type& x ) {
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// We take the Algebraic_structure_traits<>::Is_zero functor by default. If it
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// is not available, we take the Real_embeddable_traits functor
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typename ::boost::mpl::if_c<
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::boost::is_same<
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typename Algebraic_structure_traits< Number_type >::Is_zero,
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Null_functor >::value ,
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typename Real_embeddable_traits< Number_type >::Is_zero,
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typename Algebraic_structure_traits< Number_type >::Is_zero >::type
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is_zero;
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return is_zero( x );
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}
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template <class A, class B>
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inline
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typename Real_embeddable_traits< typename Coercion_traits<A,B>::Type >
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::Compare::result_type
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compare(const A& a, const B& b)
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{
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typedef typename Coercion_traits<A,B>::Type Type;
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typename Real_embeddable_traits<Type>::Compare compare;
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return compare (a,b);
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// return (a < b) ? SMALLER : (b < a) ? LARGER : EQUAL;
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}
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// RET-Functor adapting functions
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template< class Real_embeddable >
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inline
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//Real_embeddable
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typename Real_embeddable_traits< Real_embeddable >::Abs::result_type
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abs( const Real_embeddable& x ) {
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typename Real_embeddable_traits< Real_embeddable >::Abs abs;
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return abs( x );
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}
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template< class Real_embeddable >
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inline
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//::Sign
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typename Real_embeddable_traits< Real_embeddable >::Sgn::result_type
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sign( const Real_embeddable& x ) {
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typename Real_embeddable_traits< Real_embeddable >::Sgn sgn;
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return sgn( x );
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}
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template< class Real_embeddable >
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inline
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//bool
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typename Real_embeddable_traits< Real_embeddable >::Is_finite::result_type
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is_finite( const Real_embeddable& x ) {
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return typename Real_embeddable_traits< Real_embeddable >::Is_finite()( x );
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}
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template< class Real_embeddable >
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inline
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typename Real_embeddable_traits< Real_embeddable >::Is_positive::result_type
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is_positive( const Real_embeddable& x ) {
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typename Real_embeddable_traits< Real_embeddable >::Is_positive
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is_positive;
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return is_positive( x );
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}
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template< class Real_embeddable >
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inline
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typename Real_embeddable_traits< Real_embeddable >::Is_negative::result_type
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is_negative( const Real_embeddable& x ) {
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typename Real_embeddable_traits< Real_embeddable >::Is_negative
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is_negative;
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return is_negative( x );
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}
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/*
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template< class Real_embeddable >
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inline
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typename Real_embeddable_traits< Real_embeddable >::Compare::result_type
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//Comparison_result
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compare( const Real_embeddable& x, const Real_embeddable& y ) {
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typename Real_embeddable_traits< Real_embeddable >::Compare compare;
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return compare( x, y );
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}
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*/
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template< class Real_embeddable >
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inline
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typename Real_embeddable_traits< Real_embeddable >::To_double::result_type
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//double
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to_double( const Real_embeddable& x ) {
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typename Real_embeddable_traits< Real_embeddable >::To_double to_double;
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return to_double( x );
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}
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template< class Real_embeddable >
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inline
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typename Real_embeddable_traits< Real_embeddable >::To_interval::result_type
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//std::pair< double, double >
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to_interval( const Real_embeddable& x) {
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typename Real_embeddable_traits< Real_embeddable >::To_interval
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to_interval;
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return to_interval( x );
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}
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template <typename NT>
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NT approximate_sqrt(const NT& nt, CGAL::Field_tag)
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{
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return NT(sqrt(CGAL::to_double(nt)));
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}
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template <typename NT>
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NT approximate_sqrt(const NT& nt, CGAL::Field_with_sqrt_tag)
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{
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return sqrt(nt);
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}
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template <typename NT>
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NT approximate_sqrt(const NT& nt)
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{
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typedef CGAL::Algebraic_structure_traits<NT> AST;
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typedef typename AST::Algebraic_category Algebraic_category;
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return approximate_sqrt(nt, Algebraic_category());
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}
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CGAL_NTS_END_NAMESPACE
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} //namespace CGAL
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#endif // CGAL_NUMBER_UTILS_H
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