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Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\numeric\interval\arith.hpp
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/* Boost interval/arith.hpp template implementation file * * Copyright 2000 Jens Maurer * Copyright 2002-2003 Herv� Br�nnimann, Guillaume Melquiond, Sylvain Pion * * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or * copy at http://www.boost.org/LICENSE_1_0.txt) */ #ifndef BOOST_NUMERIC_INTERVAL_ARITH_HPP #define BOOST_NUMERIC_INTERVAL_ARITH_HPP #include
#include
#include
#include
#include
#include
namespace boost { namespace numeric { /* * Basic arithmetic operators */ template
inline const interval
& operator+(const interval
& x) { return x; } template
inline interval
operator-(const interval
& x) { if (interval_lib::detail::test_input(x)) return interval
::empty(); return interval
(-x.upper(), -x.lower(), true); } template
inline interval
& interval
::operator+=(const interval
& r) { if (interval_lib::detail::test_input(*this, r)) set_empty(); else { typename Policies::rounding rnd; set(rnd.add_down(low, r.low), rnd.add_up(up, r.up)); } return *this; } template
inline interval
& interval
::operator+=(const T& r) { if (interval_lib::detail::test_input(*this, r)) set_empty(); else { typename Policies::rounding rnd; set(rnd.add_down(low, r), rnd.add_up(up, r)); } return *this; } template
inline interval
& interval
::operator-=(const interval
& r) { if (interval_lib::detail::test_input(*this, r)) set_empty(); else { typename Policies::rounding rnd; set(rnd.sub_down(low, r.up), rnd.sub_up(up, r.low)); } return *this; } template
inline interval
& interval
::operator-=(const T& r) { if (interval_lib::detail::test_input(*this, r)) set_empty(); else { typename Policies::rounding rnd; set(rnd.sub_down(low, r), rnd.sub_up(up, r)); } return *this; } template
inline interval
& interval
::operator*=(const interval
& r) { return *this = *this * r; } template
inline interval
& interval
::operator*=(const T& r) { return *this = r * *this; } template
inline interval
& interval
::operator/=(const interval
& r) { return *this = *this / r; } template
inline interval
& interval
::operator/=(const T& r) { return *this = *this / r; } template
inline interval
operator+(const interval
& x, const interval
& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); typename Policies::rounding rnd; return interval
(rnd.add_down(x.lower(), y.lower()), rnd.add_up (x.upper(), y.upper()), true); } template
inline interval
operator+(const T& x, const interval
& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); typename Policies::rounding rnd; return interval
(rnd.add_down(x, y.lower()), rnd.add_up (x, y.upper()), true); } template
inline interval
operator+(const interval
& x, const T& y) { return y + x; } template
inline interval
operator-(const interval
& x, const interval
& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); typename Policies::rounding rnd; return interval
(rnd.sub_down(x.lower(), y.upper()), rnd.sub_up (x.upper(), y.lower()), true); } template
inline interval
operator-(const T& x, const interval
& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); typename Policies::rounding rnd; return interval
(rnd.sub_down(x, y.upper()), rnd.sub_up (x, y.lower()), true); } template
inline interval
operator-(const interval
& x, const T& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); typename Policies::rounding rnd; return interval
(rnd.sub_down(x.lower(), y), rnd.sub_up (x.upper(), y), true); } template
inline interval
operator*(const interval
& x, const interval
& y) { BOOST_USING_STD_MIN(); BOOST_USING_STD_MAX(); typedef interval
I; if (interval_lib::detail::test_input(x, y)) return I::empty(); typename Policies::rounding rnd; const T& xl = x.lower(); const T& xu = x.upper(); const T& yl = y.lower(); const T& yu = y.upper(); if (interval_lib::user::is_neg(xl)) if (interval_lib::user::is_pos(xu)) if (interval_lib::user::is_neg(yl)) if (interval_lib::user::is_pos(yu)) // M * M return I(min BOOST_PREVENT_MACRO_SUBSTITUTION(rnd.mul_down(xl, yu), rnd.mul_down(xu, yl)), max BOOST_PREVENT_MACRO_SUBSTITUTION(rnd.mul_up (xl, yl), rnd.mul_up (xu, yu)), true); else // M * N return I(rnd.mul_down(xu, yl), rnd.mul_up(xl, yl), true); else if (interval_lib::user::is_pos(yu)) // M * P return I(rnd.mul_down(xl, yu), rnd.mul_up(xu, yu), true); else // M * Z return I(static_cast
(0), static_cast
(0), true); else if (interval_lib::user::is_neg(yl)) if (interval_lib::user::is_pos(yu)) // N * M return I(rnd.mul_down(xl, yu), rnd.mul_up(xl, yl), true); else // N * N return I(rnd.mul_down(xu, yu), rnd.mul_up(xl, yl), true); else if (interval_lib::user::is_pos(yu)) // N * P return I(rnd.mul_down(xl, yu), rnd.mul_up(xu, yl), true); else // N * Z return I(static_cast
(0), static_cast
(0), true); else if (interval_lib::user::is_pos(xu)) if (interval_lib::user::is_neg(yl)) if (interval_lib::user::is_pos(yu)) // P * M return I(rnd.mul_down(xu, yl), rnd.mul_up(xu, yu), true); else // P * N return I(rnd.mul_down(xu, yl), rnd.mul_up(xl, yu), true); else if (interval_lib::user::is_pos(yu)) // P * P return I(rnd.mul_down(xl, yl), rnd.mul_up(xu, yu), true); else // P * Z return I(static_cast
(0), static_cast
(0), true); else // Z * ? return I(static_cast
(0), static_cast
(0), true); } template
inline interval
operator*(const T& x, const interval
& y) { typedef interval
I; if (interval_lib::detail::test_input(x, y)) return I::empty(); typename Policies::rounding rnd; const T& yl = y.lower(); const T& yu = y.upper(); // x is supposed not to be infinite if (interval_lib::user::is_neg(x)) return I(rnd.mul_down(x, yu), rnd.mul_up(x, yl), true); else if (interval_lib::user::is_zero(x)) return I(static_cast
(0), static_cast
(0), true); else return I(rnd.mul_down(x, yl), rnd.mul_up(x, yu), true); } template
inline interval
operator*(const interval
& x, const T& y) { return y * x; } template
inline interval
operator/(const interval
& x, const interval
& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); if (zero_in(y)) if (!interval_lib::user::is_zero(y.lower())) if (!interval_lib::user::is_zero(y.upper())) return interval_lib::detail::div_zero(x); else return interval_lib::detail::div_negative(x, y.lower()); else if (!interval_lib::user::is_zero(y.upper())) return interval_lib::detail::div_positive(x, y.upper()); else return interval
::empty(); else return interval_lib::detail::div_non_zero(x, y); } template
inline interval
operator/(const T& x, const interval
& y) { if (interval_lib::detail::test_input(x, y)) return interval
::empty(); if (zero_in(y)) if (!interval_lib::user::is_zero(y.lower())) if (!interval_lib::user::is_zero(y.upper())) return interval_lib::detail::div_zero
(x); else return interval_lib::detail::div_negative
(x, y.lower()); else if (!interval_lib::user::is_zero(y.upper())) return interval_lib::detail::div_positive
(x, y.upper()); else return interval
::empty(); else return interval_lib::detail::div_non_zero(x, y); } template
inline interval
operator/(const interval
& x, const T& y) { if (interval_lib::detail::test_input(x, y) || interval_lib::user::is_zero(y)) return interval
::empty(); typename Policies::rounding rnd; const T& xl = x.lower(); const T& xu = x.upper(); if (interval_lib::user::is_neg(y)) return interval
(rnd.div_down(xu, y), rnd.div_up(xl, y), true); else return interval
(rnd.div_down(xl, y), rnd.div_up(xu, y), true); } } // namespace numeric } // namespace boost #endif // BOOST_NUMERIC_INTERVAL_ARITH_HPP
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