258 lines
7.0 KiB
C
258 lines
7.0 KiB
C
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// Copyright (c) 1999,2007
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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)
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//
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// $URL: https://github.com/CGAL/cgal/blob/v5.1/Number_types/include/CGAL/leda_integer.h $
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// $Id: leda_integer.h 0779373 2020-03-26T13:31:46+01:00 Sébastien Loriot
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// SPDX-License-Identifier: LGPL-3.0-or-later OR LicenseRef-Commercial
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//
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//
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// Author(s) : Andreas Fabri, Michael Hemmer
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#ifndef CGAL_LEDA_INTEGER_H
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#define CGAL_LEDA_INTEGER_H
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#include <CGAL/number_type_basic.h>
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#include <utility>
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#include <CGAL/leda_coercion_traits.h>
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#include <CGAL/Interval_nt.h>
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#include <CGAL/LEDA_basic.h>
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#include <LEDA/numbers/integer.h>
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#include <LEDA/numbers/bigfloat.h>// for To_interval
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#include <CGAL/Residue.h>
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#include <CGAL/Modular_traits.h>
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namespace CGAL {
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template <> class Algebraic_structure_traits< leda_integer >
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: public Algebraic_structure_traits_base< leda_integer,
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Euclidean_ring_tag > {
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public:
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typedef Tag_true Is_exact;
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typedef Tag_false Is_numerical_sensitive;
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typedef INTERN_AST::Is_square_per_sqrt< Type >
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Is_square;
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class Gcd
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: public CGAL::cpp98::binary_function< Type, Type,
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Type > {
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public:
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Type operator()( const Type& x,
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const Type& y ) const {
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// By definition gcd(0,0) == 0
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if( x == Type(0) && y == Type(0) )
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return Type(0);
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return CGAL_LEDA_SCOPE::gcd( x, y );
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}
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CGAL_IMPLICIT_INTEROPERABLE_BINARY_OPERATOR( Type )
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};
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// Unfortunately the behaviour of leda has changed here several times
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// The following Div_mod is invariant under these changes
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// However, the Div and Mod defined below might be more efficient
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// TODO: recover Div Mod implementation for all leda versions
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class Div_mod {
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public:
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typedef Type first_argument_type;
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typedef Type second_argument_type;
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typedef Type& third_argument_type;
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typedef Type& fourth_argument_type;
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typedef void result_type;
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void operator()(const Type& x, const Type& y, Type& q, Type& r) const {
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q = x / y;
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r = x - q*y;
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CGAL_postcondition(x == y*q + r);
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if (r == 0) return;
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// round q towards zero
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if ( r.sign() != x.sign() ){
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q -= x.sign();
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r -= x.sign()*y;
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}
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CGAL_postcondition(x == y*q + r);
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CGAL_postcondition(r.sign() == x.sign());
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}
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};
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// Div defined via base using Div_mod
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// Mod defined via base using Div_mod
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// This code results in an inconsisten div/mod for some leda versions
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// TODO: reactivate this code
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// typedef INTERN_AST::Div_per_operator< Type > Div;
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// class Mod
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// : public CGAL::cpp98::binary_function< Type, Type,
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// Type > {
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// public:
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// Type operator()( const Type& x, const Type& y ) const {
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// Type m = x % y;
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// return m;
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// }
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// CGAL_IMPLICIT_INTEROPERABLE_BINARY_OPERATOR( Type )
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// };
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class Sqrt
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: public CGAL::cpp98::unary_function< Type, Type > {
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public:
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Type operator()( const Type& x ) const {
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return CGAL_LEDA_SCOPE::sqrt( x );
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}
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};
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};
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template <> class Real_embeddable_traits< leda_integer >
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: public INTERN_RET::Real_embeddable_traits_base< leda_integer , CGAL::Tag_true > {
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public:
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class Abs
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: public CGAL::cpp98::unary_function< Type, Type > {
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public:
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Type operator()( const Type& x ) const {
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return CGAL_LEDA_SCOPE::abs( x );
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}
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};
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class Sgn
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: public CGAL::cpp98::unary_function< Type, ::CGAL::Sign > {
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public:
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::CGAL::Sign operator()( const Type& x ) const {
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return (::CGAL::Sign) CGAL_LEDA_SCOPE::sign( x );
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}
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};
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class Compare
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: public CGAL::cpp98::binary_function< Type, Type,
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Comparison_result > {
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public:
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Comparison_result operator()( const Type& x,
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const Type& y ) const {
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return (Comparison_result) CGAL_LEDA_SCOPE::compare( x, y );
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}
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};
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class To_double
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: public CGAL::cpp98::unary_function< Type, double > {
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public:
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double operator()( const Type& x ) const {
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return x.to_double();
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}
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};
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class To_interval
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: public CGAL::cpp98::unary_function< Type, std::pair< double, double > > {
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public:
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std::pair<double, double> operator()( const Type& x ) const {
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leda::bigfloat h(x);
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double abs_err = 0;
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double low =h.to_double(abs_err, leda::TO_N_INF);
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double high =h.to_double(abs_err, leda::TO_P_INF);
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return std::make_pair(low,high);
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}
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};
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};
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template<>
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class Modular_traits< ::leda::integer > {
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typedef Residue MOD;
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public:
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typedef ::leda::integer NT;
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typedef ::CGAL::Tag_true Is_modularizable;
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typedef MOD Residue_type;
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struct Modular_image{
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Residue_type operator()(const NT& a){
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return Residue_type ((a%NT(MOD::get_current_prime())).to_long());
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}
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};
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struct Modular_image_representative{
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NT operator()(const Residue_type& x){
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return NT(x.get_value());
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}
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};
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};
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//
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// Needs_parens_as_product
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//
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template <>
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struct Needs_parens_as_product<leda_integer> {
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bool operator()(const leda_integer& x) {
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return CGAL_NTS is_negative(x);
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}
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};
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// missing mixed operators
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inline
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bool
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operator==(int a, const leda_integer& b)
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{ return b == a; }
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inline
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bool
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operator!=(int a, const leda_integer& b)
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{ return b != a; }
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template <>
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struct Split_double<leda_integer>
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{
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void operator()(double d, leda_integer &num, leda_integer &den) const
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{
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std::pair<double, double> p = split_numerator_denominator(d);
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num = leda_integer(p.first);
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den = leda_integer(p.second);
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}
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};
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// Benchmark_rep specialization
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template<>
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class Benchmark_rep< leda_integer > {
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const leda_integer& t;
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public:
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//! initialize with a const reference to \a t.
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Benchmark_rep( const leda_integer& tt) : t(tt) {}
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//! perform the output, calls \c operator\<\< by default.
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std::ostream& operator()( std::ostream& out) const {
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out << t;
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return out;
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}
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static std::string get_benchmark_name() {
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return "Integer";
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}
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};
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} //namespace CGAL
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// Unary + is missing for leda::integer
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namespace leda {
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inline integer operator+( const integer& i) { return i; }
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} // namespace leda
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//since types are included by LEDA_coercion_traits.h:
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#include <CGAL/leda_rational.h>
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#include <CGAL/leda_bigfloat.h>
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#include <CGAL/leda_real.h>
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#include <CGAL/LEDA_arithmetic_kernel.h>
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#endif // CGAL_LEDA_INTEGER_H
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