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| Direktori : /usr/include/xsimd/math/ |
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| Current File : //usr/include/xsimd/math/xsimd_numerical_constant.hpp |
/***************************************************************************
* Copyright (c) Johan Mabille, Sylvain Corlay, Wolf Vollprecht and *
* Martin Renou *
* Copyright (c) QuantStack *
* *
* Distributed under the terms of the BSD 3-Clause License. *
* *
* The full license is in the file LICENSE, distributed with this software. *
****************************************************************************/
#ifndef XSIMD_NUMERICAL_CONSTANT_HPP
#define XSIMD_NUMERICAL_CONSTANT_HPP
#include <limits>
#include "../types/xsimd_types_include.hpp"
namespace xsimd
{
#define XSIMD_DEFINE_CONSTANT(NAME, SINGLE, DOUBLE) \
template <class T> \
constexpr T NAME() noexcept \
{ \
return T(NAME<typename T::value_type>()); \
} \
template <> \
constexpr float NAME<float>() noexcept \
{ \
return SINGLE; \
} \
template <> \
constexpr double NAME<double>() noexcept \
{ \
return DOUBLE; \
}
#define XSIMD_DEFINE_CONSTANT_HEX(NAME, SINGLE, DOUBLE) \
template <class T> \
constexpr T NAME() noexcept \
{ \
return T(NAME<typename T::value_type>()); \
} \
template <> \
constexpr float NAME<float>() noexcept \
{ \
return detail::caster32_t(uint32_t(SINGLE)).f; \
} \
template <> \
constexpr double NAME<double>() noexcept \
{ \
return detail::caster64_t(uint64_t(DOUBLE)).f; \
}
XSIMD_DEFINE_CONSTANT(infinity, (std::numeric_limits<float>::infinity()), (std::numeric_limits<double>::infinity()))
XSIMD_DEFINE_CONSTANT(invlog_2, 1.442695040888963407359924681001892137426645954152986f, 1.442695040888963407359924681001892137426645954152986)
XSIMD_DEFINE_CONSTANT_HEX(invlog_2hi, 0x3fb8b000, 0x3ff7154765200000)
XSIMD_DEFINE_CONSTANT_HEX(invlog_2lo, 0xb9389ad4, 0x3de705fc2eefa200)
XSIMD_DEFINE_CONSTANT(invlog10_2, 3.32192809488736234787031942949f, 3.32192809488736234787031942949)
XSIMD_DEFINE_CONSTANT_HEX(invpi, 0x3ea2f983, 0x3fd45f306dc9c883)
XSIMD_DEFINE_CONSTANT(log_2, 0.6931471805599453094172321214581765680755001343602553f, 0.6931471805599453094172321214581765680755001343602553)
XSIMD_DEFINE_CONSTANT_HEX(log_2hi, 0x3f318000, 0x3fe62e42fee00000)
XSIMD_DEFINE_CONSTANT_HEX(log_2lo, 0xb95e8083, 0x3dea39ef35793c76)
XSIMD_DEFINE_CONSTANT_HEX(log10_2hi, 0x3e9a0000, 0x3fd3440000000000)
XSIMD_DEFINE_CONSTANT_HEX(log10_2lo, 0x39826a14, 0x3ed3509f79fef312)
XSIMD_DEFINE_CONSTANT_HEX(logeps, 0xc17f1402, 0xc04205966f2b4f12)
XSIMD_DEFINE_CONSTANT_HEX(logpi, 0x3f928682, 0x3ff250d048e7a1bd)
XSIMD_DEFINE_CONSTANT_HEX(logsqrt2pi, 0x3f6b3f8e, 0x3fed67f1c864beb5)
XSIMD_DEFINE_CONSTANT(maxflint, 16777216.0f, 9007199254740992.0)
XSIMD_DEFINE_CONSTANT(maxlog, 88.3762626647949f, 709.78271289338400)
XSIMD_DEFINE_CONSTANT(maxlog2, 127.0f, 1023.)
XSIMD_DEFINE_CONSTANT(maxlog10, 38.23080825805664f, 308.2547155599167)
XSIMD_DEFINE_CONSTANT_HEX(mediumpi, 0x43490fdb, 0x412921fb54442d18)
XSIMD_DEFINE_CONSTANT(minlog, -88.3762626647949f, -708.3964185322641)
XSIMD_DEFINE_CONSTANT(minlog2, -127.0f, -1023.)
XSIMD_DEFINE_CONSTANT(minlog10, -37.89999771118164f, -308.2547155599167)
XSIMD_DEFINE_CONSTANT(minusinfinity, (-infinity<float>()), (-infinity<double>()))
XSIMD_DEFINE_CONSTANT(minuszero, -0.0f, -0.0)
XSIMD_DEFINE_CONSTANT_HEX(nan, 0xffffffff, 0xffffffffffffffff)
XSIMD_DEFINE_CONSTANT_HEX(oneosqrteps, 0x453504f3, 0x4190000000000000)
XSIMD_DEFINE_CONSTANT_HEX(oneotwoeps, 0x4a800000, 0x4320000000000000)
XSIMD_DEFINE_CONSTANT_HEX(pi, 0x40490fdb, 0x400921fb54442d18)
XSIMD_DEFINE_CONSTANT_HEX(pio_2lo, 0xb33bbd2e, 0x3c91a62633145c07)
XSIMD_DEFINE_CONSTANT_HEX(pio_4lo, 0xb2bbbd2e, 0x3c81a62633145c07)
XSIMD_DEFINE_CONSTANT_HEX(pio2, 0x3fc90fdb, 0x3ff921fb54442d18)
XSIMD_DEFINE_CONSTANT_HEX(pio2_1, 0x3fc90f80, 0x3ff921fb54400000)
XSIMD_DEFINE_CONSTANT_HEX(pio2_1t, 0x37354443, 0x3dd0b4611a626331)
XSIMD_DEFINE_CONSTANT_HEX(pio2_2, 0x37354400, 0x3dd0b4611a600000)
XSIMD_DEFINE_CONSTANT_HEX(pio2_2t, 0x2e85a308, 0x3ba3198a2e037073)
XSIMD_DEFINE_CONSTANT_HEX(pio2_3, 0x2e85a300, 0x3ba3198a2e000000)
XSIMD_DEFINE_CONSTANT_HEX(pio2_3t, 0x248d3132, 0x397b839a252049c1)
XSIMD_DEFINE_CONSTANT_HEX(pio4, 0x3f490fdb, 0x3fe921fb54442d18)
XSIMD_DEFINE_CONSTANT_HEX(signmask, 0x80000000, 0x8000000000000000)
XSIMD_DEFINE_CONSTANT(smallestposval, 1.1754944e-38f, 2.225073858507201e-308)
XSIMD_DEFINE_CONSTANT_HEX(sqrt_2pi, 0x40206c99, 0x40040d931ff62704)
XSIMD_DEFINE_CONSTANT_HEX(sqrteps, 0x39b504f3, 0x3e50000000000000)
XSIMD_DEFINE_CONSTANT_HEX(tanpio8, 0x3ed413cd, 0x3fda827999fcef31)
XSIMD_DEFINE_CONSTANT_HEX(tan3pio8, 0x401a827a, 0x4003504f333f9de6)
XSIMD_DEFINE_CONSTANT_HEX(twentypi, 0x427b53d1, 0x404f6a7a2955385e)
XSIMD_DEFINE_CONSTANT_HEX(twoopi, 0x3f22f983, 0x3fe45f306dc9c883)
XSIMD_DEFINE_CONSTANT(twotonmb, 8388608.0f, 4503599627370496.0)
XSIMD_DEFINE_CONSTANT_HEX(twotonmbo3, 0x3ba14518, 0x3ed428a2f98d7286)
#undef XSIMD_DEFINE_CONSTANT
#undef XSIMD_DEFINE_CONSTANT_HEX
template <class T>
constexpr T allbits() noexcept;
template <class T>
constexpr as_integer_t<T> mask1frexp() noexcept;
template <class T>
constexpr as_integer_t<T> mask2frexp() noexcept;
template <class T>
constexpr as_integer_t<T> maxexponent() noexcept;
template <class T>
constexpr as_integer_t<T> maxexponentm1() noexcept;
template <class T>
constexpr int32_t nmb() noexcept;
template <class T>
constexpr T zero() noexcept;
template <class T>
constexpr T minvalue() noexcept;
template <class T>
constexpr T maxvalue() noexcept;
/**************************
* allbits implementation *
**************************/
namespace detail
{
template <class T, bool = std::is_integral<T>::value>
struct allbits_impl
{
static constexpr T get_value() noexcept
{
return T(~0);
}
};
template <class T>
struct allbits_impl<T, false>
{
static constexpr T get_value() noexcept
{
return nan<T>();
}
};
}
template <class T>
constexpr T allbits() noexcept
{
return T(detail::allbits_impl<typename T::value_type>::get_value());
}
/*****************************
* mask1frexp implementation *
*****************************/
template <class T>
constexpr as_integer_t<T> mask1frexp() noexcept
{
return as_integer_t<T>(mask1frexp<typename T::value_type>());
}
template <>
constexpr int32_t mask1frexp<float>() noexcept
{
return 0x7f800000;
}
template <>
constexpr int64_t mask1frexp<double>() noexcept
{
return 0x7ff0000000000000;
}
/*****************************
* mask2frexp implementation *
*****************************/
template <class T>
constexpr as_integer_t<T> mask2frexp() noexcept
{
return as_integer_t<T>(mask2frexp<typename T::value_type>());
}
template <>
constexpr int32_t mask2frexp<float>() noexcept
{
return 0x3f000000;
}
template <>
constexpr int64_t mask2frexp<double>() noexcept
{
return 0x3fe0000000000000;
}
/******************************
* maxexponent implementation *
******************************/
template <class T>
constexpr as_integer_t<T> maxexponent() noexcept
{
return as_integer_t<T>(maxexponent<typename T::value_type>());
}
template <>
constexpr int32_t maxexponent<float>() noexcept
{
return 127;
}
template <>
constexpr int64_t maxexponent<double>() noexcept
{
return 1023;
}
/******************************
* maxexponent implementation *
******************************/
template <class T>
constexpr as_integer_t<T> maxexponentm1() noexcept
{
return as_integer_t<T>(maxexponentm1<typename T::value_type>());
}
template <>
constexpr int32_t maxexponentm1<float>() noexcept
{
return 126;
}
template <>
constexpr int64_t maxexponentm1<double>() noexcept
{
return 1022;
}
/**********************
* nmb implementation *
**********************/
template <class T>
constexpr int32_t nmb() noexcept
{
return nmb<typename T::value_type>();
}
template <>
constexpr int32_t nmb<float>() noexcept
{
return 23;
}
template <>
constexpr int32_t nmb<double>() noexcept
{
return 52;
}
/***********************
* zero implementation *
***********************/
template <class T>
constexpr T zero() noexcept
{
return T(typename T::value_type(0));
}
/***************************
* minvalue implementation *
***************************/
namespace detail
{
template <class T>
struct minvalue_impl
{
static constexpr T get_value() noexcept
{
return std::numeric_limits<typename T::value_type>::min();
}
};
template <class T>
struct minvalue_common
{
static constexpr T get_value() noexcept
{
return std::numeric_limits<T>::min();
}
};
template <>
struct minvalue_impl<int8_t> : minvalue_common<int8_t> {};
template <>
struct minvalue_impl<uint8_t> : minvalue_common<uint8_t> {};
template <>
struct minvalue_impl<int16_t> : minvalue_common<int16_t> {};
template <>
struct minvalue_impl<uint16_t> : minvalue_common<uint16_t> {};
template <>
struct minvalue_impl<int32_t> : minvalue_common<int32_t> {};
template <>
struct minvalue_impl<uint32_t> : minvalue_common<uint32_t> {};
template <>
struct minvalue_impl<int64_t> : minvalue_common<int64_t> {};
template <>
struct minvalue_impl<uint64_t> : minvalue_common<uint64_t> {};
template <>
struct minvalue_impl<float>
{
static constexpr float get_value() noexcept
{
return detail::caster32_t(uint32_t(0xff7fffff)).f;
}
};
template <>
struct minvalue_impl<double>
{
static constexpr double get_value() noexcept
{
return detail::caster64_t(uint64_t(0xffefffffffffffff)).f;
}
};
}
template <class T>
constexpr T minvalue() noexcept
{
return T(detail::minvalue_impl<typename T::value_type>::get_value());
}
/***************************
* maxvalue implementation *
***************************/
template <class T>
constexpr T maxvalue() noexcept
{
return T(std::numeric_limits<typename T::value_type>::max());
}
}
#endif
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