///////////////////////////////////////////////////////////////////////////////
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// Copyright 2011 John Maddock. Distributed under the Boost
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// Software License, Version 1.0. (See accompanying file
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// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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#ifndef BOOST_MATH_BIG_NUM_BASE_HPP
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#define BOOST_MATH_BIG_NUM_BASE_HPP
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#include <limits>
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#include <boost/utility/enable_if.hpp>
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#include <boost/core/nvp.hpp>
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#include <boost/type_traits/is_convertible.hpp>
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#include <boost/type_traits/is_constructible.hpp>
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#include <boost/type_traits/decay.hpp>
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#include <boost/math/tools/complex.hpp>
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#include <boost/multiprecision/traits/transcendental_reduction_type.hpp>
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#ifdef BOOST_MSVC
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#pragma warning(push)
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#pragma warning(disable : 4307)
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#endif
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#include <boost/lexical_cast.hpp>
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#ifdef BOOST_MSVC
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#pragma warning(pop)
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#endif
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#if defined(BOOST_NO_CXX11_RVALUE_REFERENCES) || defined(BOOST_NO_CXX11_TEMPLATE_ALIASES) || defined(BOOST_NO_CXX11_HDR_ARRAY)\
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|| defined(BOOST_NO_CXX11_ALLOCATOR) || defined(BOOST_NO_CXX11_UNIFIED_INITIALIZATION_SYNTAX) || defined(BOOST_NO_CXX11_CONSTEXPR)\
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|| defined(BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS) || defined(BOOST_NO_CXX11_REF_QUALIFIERS) || defined(BOOST_NO_CXX11_HDR_FUNCTIONAL)\
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|| defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES) || defined(BOOST_NO_CXX11_USER_DEFINED_LITERALS) || defined(BOOST_NO_CXX11_THREAD_LOCAL)\
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|| defined(BOOST_NO_CXX11_DECLTYPE) || defined(BOOST_NO_CXX11_STATIC_ASSERT) || defined(BOOST_NO_CXX11_DEFAULTED_FUNCTIONS)\
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|| defined(BOOST_NO_CXX11_NOEXCEPT) || defined(BOOST_NO_CXX11_REF_QUALIFIERS)
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//
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// The above list includes everything we use, plus a few we're likely to use soon.
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// As from March 2020, C++03 support is deprecated, and as from March 2021 will be removed,
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// so mark up as such:
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//
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#if (defined(_MSC_VER) || defined(__GNUC__)) && !defined(BOOST_MP_DISABLE_DEPRECATE_03_WARNING)
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#pragma message("CAUTION: One or more C++11 features were found to be unavailable")
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#pragma message("CAUTION: Compiling Boost.Multiprecision in non-C++11 or later conformance modes is now deprecated and will be removed from March 2021.")
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#pragma message("CAUTION: Define BOOST_MP_DISABLE_DEPRECATE_03_WARNING to suppress this message.")
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#endif
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#endif
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#if defined(NDEBUG) && !defined(_DEBUG)
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#define BOOST_MP_FORCEINLINE BOOST_FORCEINLINE
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#else
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#define BOOST_MP_FORCEINLINE inline
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#endif
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#if (defined(BOOST_GCC) && (BOOST_GCC <= 40700)) || BOOST_WORKAROUND(__SUNPRO_CC, < 0x5140) || (defined(__clang_major__) && (__clang_major__ == 3) && (__clang_minor__ < 5))
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#define BOOST_MP_NOEXCEPT_IF(x)
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#else
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#define BOOST_MP_NOEXCEPT_IF(x) BOOST_NOEXCEPT_IF(x)
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#endif
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#if defined(BOOST_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS) || BOOST_WORKAROUND(__SUNPRO_CC, < 0x5140)
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#define BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
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#endif
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//
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// Thread local storage:
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// Note fails on Mingw, see https://sourceforge.net/p/mingw-w64/bugs/527/
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//
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#if !defined(BOOST_NO_CXX11_THREAD_LOCAL) && !defined(BOOST_INTEL) && !defined(__MINGW32__)
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#define BOOST_MP_THREAD_LOCAL thread_local
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#define BOOST_MP_USING_THREAD_LOCAL
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#else
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#define BOOST_MP_THREAD_LOCAL
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#endif
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#ifdef __has_include
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# if __has_include(<version>)
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# include <version>
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# ifdef __cpp_lib_is_constant_evaluated
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# include <type_traits>
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# define BOOST_MP_HAS_IS_CONSTANT_EVALUATED
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# endif
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# endif
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#endif
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#ifdef __has_builtin
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#if __has_builtin(__builtin_is_constant_evaluated) && !defined(BOOST_NO_CXX14_CONSTEXPR) && !defined(BOOST_NO_CXX11_UNIFIED_INITIALIZATION_SYNTAX)
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#define BOOST_MP_HAS_BUILTIN_IS_CONSTANT_EVALUATED
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#endif
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#endif
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//
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// MSVC also supports __builtin_is_constant_evaluated if it's recent enough:
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//
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#if defined(_MSC_FULL_VER) && (_MSC_FULL_VER >= 192528326)
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# define BOOST_MP_HAS_BUILTIN_IS_CONSTANT_EVALUATED
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#endif
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//
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// As does GCC-9:
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//
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#if defined(BOOST_GCC) && !defined(BOOST_NO_CXX14_CONSTEXPR) && (__GNUC__ >= 9) && !defined(BOOST_MP_HAS_BUILTIN_IS_CONSTANT_EVALUATED)
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# define BOOST_MP_HAS_BUILTIN_IS_CONSTANT_EVALUATED
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#endif
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#if defined(BOOST_MP_HAS_IS_CONSTANT_EVALUATED) && !defined(BOOST_NO_CXX14_CONSTEXPR)
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# define BOOST_MP_IS_CONST_EVALUATED(x) std::is_constant_evaluated()
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#elif defined(BOOST_MP_HAS_BUILTIN_IS_CONSTANT_EVALUATED)
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# define BOOST_MP_IS_CONST_EVALUATED(x) __builtin_is_constant_evaluated()
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#elif !defined(BOOST_NO_CXX14_CONSTEXPR) && defined(BOOST_GCC) && (__GNUC__ >= 6)
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# define BOOST_MP_IS_CONST_EVALUATED(x) __builtin_constant_p(x)
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#else
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# define BOOST_MP_NO_CONSTEXPR_DETECTION
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#endif
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#define BOOST_MP_CXX14_CONSTEXPR BOOST_CXX14_CONSTEXPR
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//
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// Early compiler versions trip over the constexpr code:
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//
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#if defined(__clang__) && (__clang_major__ < 5)
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#undef BOOST_MP_CXX14_CONSTEXPR
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#define BOOST_MP_CXX14_CONSTEXPR
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#endif
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#if defined(__apple_build_version__) && (__clang_major__ < 9)
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#undef BOOST_MP_CXX14_CONSTEXPR
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#define BOOST_MP_CXX14_CONSTEXPR
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#endif
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#if defined(BOOST_GCC) && (__GNUC__ < 6)
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#undef BOOST_MP_CXX14_CONSTEXPR
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#define BOOST_MP_CXX14_CONSTEXPR
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#endif
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#if defined(BOOST_INTEL)
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#undef BOOST_MP_CXX14_CONSTEXPR
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#define BOOST_MP_CXX14_CONSTEXPR
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#define BOOST_MP_NO_CONSTEXPR_DETECTION
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#endif
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#ifdef BOOST_MP_NO_CONSTEXPR_DETECTION
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# define BOOST_CXX14_CONSTEXPR_IF_DETECTION
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#else
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# define BOOST_CXX14_CONSTEXPR_IF_DETECTION constexpr
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#endif
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#ifdef BOOST_MSVC
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#pragma warning(push)
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#pragma warning(disable : 6326)
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#endif
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namespace boost {
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namespace multiprecision {
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enum expression_template_option
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{
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et_off = 0,
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et_on = 1
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};
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template <class Backend>
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struct expression_template_default
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{
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static const expression_template_option value = et_on;
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};
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template <class Backend, expression_template_option ExpressionTemplates = expression_template_default<Backend>::value>
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class number;
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template <class T>
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struct is_number : public mpl::false_
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{};
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template <class Backend, expression_template_option ExpressionTemplates>
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struct is_number<number<Backend, ExpressionTemplates> > : public mpl::true_
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{};
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template <class T>
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struct is_et_number : public mpl::false_
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{};
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template <class Backend>
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struct is_et_number<number<Backend, et_on> > : public mpl::true_
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{};
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template <class T>
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struct is_no_et_number : public mpl::false_
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{};
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template <class Backend>
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struct is_no_et_number<number<Backend, et_off> > : public mpl::true_
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{};
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namespace detail {
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// Forward-declare an expression wrapper
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template <class tag, class Arg1 = void, class Arg2 = void, class Arg3 = void, class Arg4 = void>
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struct expression;
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} // namespace detail
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template <class T>
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struct is_number_expression : public mpl::false_
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{};
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template <class tag, class Arg1, class Arg2, class Arg3, class Arg4>
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struct is_number_expression<detail::expression<tag, Arg1, Arg2, Arg3, Arg4> > : public mpl::true_
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{};
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template <class T, class Num>
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struct is_compatible_arithmetic_type
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: public mpl::bool_<
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is_convertible<T, Num>::value && !is_same<T, Num>::value && !is_number_expression<T>::value>
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{};
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namespace detail {
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//
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// Workaround for missing abs(boost::long_long_type) and abs(__int128) on some compilers:
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//
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template <class T>
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BOOST_CONSTEXPR typename enable_if_c<(is_signed<T>::value || is_floating_point<T>::value), T>::type abs(T t) BOOST_NOEXCEPT
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{
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// This strange expression avoids a hardware trap in the corner case
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// that val is the most negative value permitted in boost::long_long_type.
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// See https://svn.boost.org/trac/boost/ticket/9740.
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return t < 0 ? T(1u) + T(-(t + 1)) : t;
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}
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template <class T>
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BOOST_CONSTEXPR typename enable_if_c<(is_unsigned<T>::value), T>::type abs(T t) BOOST_NOEXCEPT
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{
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return t;
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}
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#define BOOST_MP_USING_ABS using boost::multiprecision::detail::abs;
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template <class T>
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BOOST_CONSTEXPR typename enable_if_c<(is_signed<T>::value || is_floating_point<T>::value), typename make_unsigned<T>::type>::type unsigned_abs(T t) BOOST_NOEXCEPT
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{
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// This strange expression avoids a hardware trap in the corner case
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// that val is the most negative value permitted in boost::long_long_type.
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// See https://svn.boost.org/trac/boost/ticket/9740.
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return t < 0 ? static_cast<typename make_unsigned<T>::type>(1u) + static_cast<typename make_unsigned<T>::type>(-(t + 1)) : static_cast<typename make_unsigned<T>::type>(t);
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}
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template <class T>
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BOOST_CONSTEXPR typename enable_if_c<(is_unsigned<T>::value), T>::type unsigned_abs(T t) BOOST_NOEXCEPT
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{
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return t;
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}
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//
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// Move support:
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//
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#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
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#define BOOST_MP_MOVE(x) std::move(x)
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#else
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#define BOOST_MP_MOVE(x) x
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#endif
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template <class T>
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struct bits_of
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{
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BOOST_STATIC_ASSERT(is_integral<T>::value || is_enum<T>::value || std::numeric_limits<T>::is_specialized);
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static const unsigned value =
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std::numeric_limits<T>::is_specialized ? std::numeric_limits<T>::digits
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: sizeof(T) * CHAR_BIT - (is_signed<T>::value ? 1 : 0);
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};
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#if defined(_GLIBCXX_USE_FLOAT128) && defined(BOOST_GCC) && !defined(__STRICT_ANSI__)
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#define BOOST_MP_BITS_OF_FLOAT128_DEFINED
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template <>
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struct bits_of<__float128>
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{
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static const unsigned value = 113;
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};
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#endif
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template <int b>
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struct has_enough_bits
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{
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template <class T>
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struct type : public mpl::bool_<bits_of<T>::value >= b>
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{};
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};
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template <class Val, class Backend, class Tag>
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struct canonical_imp
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{
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typedef typename remove_cv<typename decay<const Val>::type>::type type;
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};
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template <class B, class Backend, class Tag>
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struct canonical_imp<number<B, et_on>, Backend, Tag>
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{
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typedef B type;
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};
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template <class B, class Backend, class Tag>
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struct canonical_imp<number<B, et_off>, Backend, Tag>
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{
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typedef B type;
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};
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#ifdef __SUNPRO_CC
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template <class B, class Backend>
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struct canonical_imp<number<B, et_on>, Backend, mpl::int_<3> >
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{
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typedef B type;
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};
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template <class B, class Backend>
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struct canonical_imp<number<B, et_off>, Backend, mpl::int_<3> >
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{
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typedef B type;
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};
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#endif
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template <class Val, class Backend>
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struct canonical_imp<Val, Backend, mpl::int_<0> >
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{
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typedef typename has_enough_bits<bits_of<Val>::value>::template type<mpl::_> pred_type;
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typedef typename mpl::find_if<
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typename Backend::signed_types,
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pred_type>::type iter_type;
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typedef typename mpl::end<typename Backend::signed_types>::type end_type;
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typedef typename mpl::eval_if<boost::is_same<iter_type, end_type>, mpl::identity<Val>, mpl::deref<iter_type> >::type type;
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};
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template <class Val, class Backend>
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struct canonical_imp<Val, Backend, mpl::int_<1> >
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{
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typedef typename has_enough_bits<bits_of<Val>::value>::template type<mpl::_> pred_type;
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typedef typename mpl::find_if<
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typename Backend::unsigned_types,
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pred_type>::type iter_type;
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typedef typename mpl::end<typename Backend::unsigned_types>::type end_type;
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typedef typename mpl::eval_if<boost::is_same<iter_type, end_type>, mpl::identity<Val>, mpl::deref<iter_type> >::type type;
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};
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template <class Val, class Backend>
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struct canonical_imp<Val, Backend, mpl::int_<2> >
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{
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typedef typename has_enough_bits<bits_of<Val>::value>::template type<mpl::_> pred_type;
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typedef typename mpl::find_if<
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typename Backend::float_types,
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pred_type>::type iter_type;
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typedef typename mpl::end<typename Backend::float_types>::type end_type;
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typedef typename mpl::eval_if<boost::is_same<iter_type, end_type>, mpl::identity<Val>, mpl::deref<iter_type> >::type type;
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};
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template <class Val, class Backend>
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struct canonical_imp<Val, Backend, mpl::int_<3> >
|
{
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typedef const char* type;
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};
|
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template <class Val, class Backend>
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struct canonical
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{
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typedef typename mpl::if_<
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is_signed<Val>,
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mpl::int_<0>,
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typename mpl::if_<
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is_unsigned<Val>,
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mpl::int_<1>,
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typename mpl::if_<
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is_floating_point<Val>,
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mpl::int_<2>,
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typename mpl::if_<
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mpl::or_<
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is_convertible<Val, const char*>,
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is_same<Val, std::string> >,
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mpl::int_<3>,
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mpl::int_<4> >::type>::type>::type>::type tag_type;
|
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typedef typename canonical_imp<Val, Backend, tag_type>::type type;
|
};
|
|
struct terminal
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{};
|
struct negate
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{};
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struct plus
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{};
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struct minus
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{};
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struct multiplies
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{};
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struct divides
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{};
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struct modulus
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{};
|
struct shift_left
|
{};
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struct shift_right
|
{};
|
struct bitwise_and
|
{};
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struct bitwise_or
|
{};
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struct bitwise_xor
|
{};
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struct bitwise_complement
|
{};
|
struct add_immediates
|
{};
|
struct subtract_immediates
|
{};
|
struct multiply_immediates
|
{};
|
struct divide_immediates
|
{};
|
struct modulus_immediates
|
{};
|
struct bitwise_and_immediates
|
{};
|
struct bitwise_or_immediates
|
{};
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struct bitwise_xor_immediates
|
{};
|
struct complement_immediates
|
{};
|
struct function
|
{};
|
struct multiply_add
|
{};
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struct multiply_subtract
|
{};
|
|
template <class T>
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struct backend_type;
|
|
template <class T, expression_template_option ExpressionTemplates>
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struct backend_type<number<T, ExpressionTemplates> >
|
{
|
typedef T type;
|
};
|
|
template <class tag, class A1, class A2, class A3, class A4>
|
struct backend_type<expression<tag, A1, A2, A3, A4> >
|
{
|
typedef typename backend_type<typename expression<tag, A1, A2, A3, A4>::result_type>::type type;
|
};
|
|
template <class T1, class T2>
|
struct combine_expression
|
{
|
#ifdef BOOST_NO_CXX11_DECLTYPE
|
typedef typename mpl::if_c<(sizeof(T1() + T2()) == sizeof(T1)), T1, T2>::type type;
|
#else
|
typedef decltype(T1() + T2()) type;
|
#endif
|
};
|
|
template <class T1, expression_template_option ExpressionTemplates, class T2>
|
struct combine_expression<number<T1, ExpressionTemplates>, T2>
|
{
|
typedef number<T1, ExpressionTemplates> type;
|
};
|
|
template <class T1, class T2, expression_template_option ExpressionTemplates>
|
struct combine_expression<T1, number<T2, ExpressionTemplates> >
|
{
|
typedef number<T2, ExpressionTemplates> type;
|
};
|
|
template <class T, expression_template_option ExpressionTemplates>
|
struct combine_expression<number<T, ExpressionTemplates>, number<T, ExpressionTemplates> >
|
{
|
typedef number<T, ExpressionTemplates> type;
|
};
|
|
template <class T1, expression_template_option ExpressionTemplates1, class T2, expression_template_option ExpressionTemplates2>
|
struct combine_expression<number<T1, ExpressionTemplates1>, number<T2, ExpressionTemplates2> >
|
{
|
typedef typename mpl::if_c<
|
is_convertible<number<T2, ExpressionTemplates2>, number<T1, ExpressionTemplates2> >::value,
|
number<T1, ExpressionTemplates1>,
|
number<T2, ExpressionTemplates2> >::type type;
|
};
|
|
template <class T>
|
struct arg_type
|
{
|
typedef expression<terminal, T> type;
|
};
|
|
template <class Tag, class Arg1, class Arg2, class Arg3, class Arg4>
|
struct arg_type<expression<Tag, Arg1, Arg2, Arg3, Arg4> >
|
{
|
typedef expression<Tag, Arg1, Arg2, Arg3, Arg4> type;
|
};
|
|
struct unmentionable
|
{
|
unmentionable* proc() { return 0; }
|
};
|
|
typedef unmentionable* (unmentionable::*unmentionable_type)();
|
|
template <class T, bool b>
|
struct expression_storage_base
|
{
|
typedef const T& type;
|
};
|
|
template <class T>
|
struct expression_storage_base<T, true>
|
{
|
typedef T type;
|
};
|
|
template <class T>
|
struct expression_storage : public expression_storage_base<T, boost::is_arithmetic<T>::value>
|
{};
|
|
template <class T>
|
struct expression_storage<T*>
|
{
|
typedef T* type;
|
};
|
|
template <class T>
|
struct expression_storage<const T*>
|
{
|
typedef const T* type;
|
};
|
|
template <class tag, class A1, class A2, class A3, class A4>
|
struct expression_storage<expression<tag, A1, A2, A3, A4> >
|
{
|
typedef expression<tag, A1, A2, A3, A4> type;
|
};
|
|
template <class tag, class Arg1>
|
struct expression<tag, Arg1, void, void, void>
|
{
|
typedef mpl::int_<1> arity;
|
typedef typename arg_type<Arg1>::type left_type;
|
typedef typename left_type::result_type left_result_type;
|
typedef typename left_type::result_type result_type;
|
typedef tag tag_type;
|
|
explicit BOOST_MP_CXX14_CONSTEXPR expression(const Arg1& a) : arg(a) {}
|
BOOST_MP_CXX14_CONSTEXPR expression(const expression& e) : arg(e.arg) {}
|
|
#ifndef BOOST_NO_CXX11_STATIC_ASSERT
|
//
|
// If we have static_assert we can give a more useful error message
|
// than if we simply have no operator defined at all:
|
//
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not assign to a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator+=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator+= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator-=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator-= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator*=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator*= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator/=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator/= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator%=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator%= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator|=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator|= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator&=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator&= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator^=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator^= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator<<=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator<<= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator>>=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator>>= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
#endif
|
|
BOOST_MP_CXX14_CONSTEXPR left_type left() const
|
{
|
return left_type(arg);
|
}
|
|
BOOST_MP_CXX14_CONSTEXPR const Arg1& left_ref() const BOOST_NOEXCEPT { return arg; }
|
|
static const unsigned depth = left_type::depth + 1;
|
#ifndef BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
|
#if (defined(__GNUC__) && (__GNUC__ == 4) && (__GNUC_MINOR__ < 7) && !defined(__clang__)) || (defined(BOOST_INTEL) && (BOOST_INTEL <= 1500))
|
//
|
// Horrible workaround for gcc-4.6.x which always prefers the template
|
// operator bool() rather than the non-template operator when converting to
|
// an arithmetic type:
|
//
|
template <class T, typename boost::enable_if<is_same<T, bool>, int>::type = 0>
|
explicit operator T() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
template <class T, typename boost::disable_if_c<is_same<T, bool>::value || is_void<T>::value || is_number<T>::value, int>::type = 0>
|
explicit operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
#else
|
template <class T
|
#ifndef __SUNPRO_CC
|
,
|
typename boost::disable_if_c<is_number<T>::value || is_constructible<T const&, result_type>::value || !is_constructible<T, result_type>::value, int>::type = 0
|
#endif
|
>
|
explicit BOOST_MP_CXX14_CONSTEXPR operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
BOOST_MP_FORCEINLINE explicit BOOST_MP_CXX14_CONSTEXPR operator bool() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
#if BOOST_WORKAROUND(BOOST_GCC_VERSION, < 40800)
|
BOOST_MP_FORCEINLINE explicit operator void() const
|
{}
|
#endif
|
#endif
|
#else
|
operator unmentionable_type() const
|
{
|
result_type r(*this);
|
return r ? &unmentionable::proc : 0;
|
}
|
#endif
|
|
template <class T>
|
BOOST_MP_CXX14_CONSTEXPR T convert_to()
|
{
|
result_type r(*this);
|
return r.template convert_to<T>();
|
}
|
|
private:
|
typename expression_storage<Arg1>::type arg;
|
expression& operator=(const expression&);
|
};
|
|
template <class Arg1>
|
struct expression<terminal, Arg1, void, void, void>
|
{
|
typedef mpl::int_<0> arity;
|
typedef Arg1 result_type;
|
typedef terminal tag_type;
|
|
explicit BOOST_MP_CXX14_CONSTEXPR expression(const Arg1& a) : arg(a) {}
|
BOOST_MP_CXX14_CONSTEXPR expression(const expression& e) : arg(e.arg) {}
|
|
#ifndef BOOST_NO_CXX11_STATIC_ASSERT
|
//
|
// If we have static_assert we can give a more useful error message
|
// than if we simply have no operator defined at all:
|
//
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not assign to a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator+=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator+= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator-=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator-= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator*=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator*= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator/=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator/= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator%=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator%= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator|=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator|= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator&=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator&= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator^=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator^= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator<<=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator<<= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator>>=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator>>= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
#endif
|
|
BOOST_MP_CXX14_CONSTEXPR const Arg1& value() const BOOST_NOEXCEPT
|
{
|
return arg;
|
}
|
|
static const unsigned depth = 0;
|
|
#ifndef BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
|
#if (defined(__GNUC__) && (__GNUC__ == 4) && (__GNUC_MINOR__ < 7) && !defined(__clang__)) || (defined(BOOST_INTEL) && (BOOST_INTEL <= 1500))
|
//
|
// Horrible workaround for gcc-4.6.x which always prefers the template
|
// operator bool() rather than the non-template operator when converting to
|
// an arithmetic type:
|
//
|
template <class T, typename boost::enable_if<is_same<T, bool>, int>::type = 0>
|
explicit operator T() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
template <class T, typename boost::disable_if_c<is_same<T, bool>::value || is_void<T>::value || is_number<T>::value, int>::type = 0>
|
explicit operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
#else
|
template <class T
|
#ifndef __SUNPRO_CC
|
,
|
typename boost::disable_if_c<is_number<T>::value || is_constructible<T const&, result_type>::value || !is_constructible<T, result_type>::value, int>::type = 0
|
#endif
|
>
|
explicit BOOST_MP_CXX14_CONSTEXPR operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
BOOST_MP_FORCEINLINE explicit BOOST_MP_CXX14_CONSTEXPR operator bool() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
#if BOOST_WORKAROUND(BOOST_GCC_VERSION, < 40800)
|
BOOST_MP_FORCEINLINE explicit operator void() const
|
{}
|
#endif
|
#endif
|
#else
|
operator unmentionable_type() const
|
{
|
return arg ? &unmentionable::proc : 0;
|
}
|
#endif
|
|
template <class T>
|
BOOST_MP_CXX14_CONSTEXPR T convert_to()
|
{
|
result_type r(*this);
|
return r.template convert_to<T>();
|
}
|
|
private:
|
typename expression_storage<Arg1>::type arg;
|
expression& operator=(const expression&);
|
};
|
|
template <class tag, class Arg1, class Arg2>
|
struct expression<tag, Arg1, Arg2, void, void>
|
{
|
typedef mpl::int_<2> arity;
|
typedef typename arg_type<Arg1>::type left_type;
|
typedef typename arg_type<Arg2>::type right_type;
|
typedef typename left_type::result_type left_result_type;
|
typedef typename right_type::result_type right_result_type;
|
typedef typename combine_expression<left_result_type, right_result_type>::type result_type;
|
typedef tag tag_type;
|
|
BOOST_MP_CXX14_CONSTEXPR expression(const Arg1& a1, const Arg2& a2) : arg1(a1), arg2(a2) {}
|
BOOST_MP_CXX14_CONSTEXPR expression(const expression& e) : arg1(e.arg1), arg2(e.arg2) {}
|
|
#ifndef BOOST_NO_CXX11_STATIC_ASSERT
|
//
|
// If we have static_assert we can give a more useful error message
|
// than if we simply have no operator defined at all:
|
//
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not assign to a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator+=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator+= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator-=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator-= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator*=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator*= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator/=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator/= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator%=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator%= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator|=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator|= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator&=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator&= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator^=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator^= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator<<=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator<<= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator>>=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator>>= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
#endif
|
|
BOOST_MP_CXX14_CONSTEXPR left_type left() const
|
{
|
return left_type(arg1);
|
}
|
BOOST_MP_CXX14_CONSTEXPR right_type right() const { return right_type(arg2); }
|
BOOST_MP_CXX14_CONSTEXPR const Arg1& left_ref() const BOOST_NOEXCEPT { return arg1; }
|
BOOST_MP_CXX14_CONSTEXPR const Arg2& right_ref() const BOOST_NOEXCEPT { return arg2; }
|
|
#ifndef BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
|
#if (defined(__GNUC__) && (__GNUC__ == 4) && (__GNUC_MINOR__ < 7) && !defined(__clang__)) || (defined(BOOST_INTEL) && (BOOST_INTEL <= 1500))
|
//
|
// Horrible workaround for gcc-4.6.x which always prefers the template
|
// operator bool() rather than the non-template operator when converting to
|
// an arithmetic type:
|
//
|
template <class T, typename boost::enable_if<is_same<T, bool>, int>::type = 0>
|
explicit operator T() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
template <class T, typename boost::disable_if_c<is_same<T, bool>::value || is_void<T>::value || is_number<T>::value, int>::type = 0>
|
explicit operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
#else
|
template <class T
|
#ifndef __SUNPRO_CC
|
,
|
typename boost::disable_if_c<is_number<T>::value || is_constructible<T const&, result_type>::value || !is_constructible<T, result_type>::value, int>::type = 0
|
#endif
|
>
|
explicit BOOST_MP_CXX14_CONSTEXPR operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
BOOST_MP_FORCEINLINE explicit BOOST_MP_CXX14_CONSTEXPR operator bool() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
#if BOOST_WORKAROUND(BOOST_GCC_VERSION, < 40800)
|
BOOST_MP_FORCEINLINE explicit operator void() const
|
{}
|
#endif
|
#endif
|
#else
|
operator unmentionable_type() const
|
{
|
result_type r(*this);
|
return r ? &unmentionable::proc : 0;
|
}
|
#endif
|
template <class T>
|
BOOST_MP_CXX14_CONSTEXPR T convert_to()
|
{
|
result_type r(*this);
|
return r.template convert_to<T>();
|
}
|
|
static const BOOST_MP_CXX14_CONSTEXPR unsigned left_depth = left_type::depth + 1;
|
static const BOOST_MP_CXX14_CONSTEXPR unsigned right_depth = right_type::depth + 1;
|
static const BOOST_MP_CXX14_CONSTEXPR unsigned depth = left_depth > right_depth ? left_depth : right_depth;
|
|
private:
|
typename expression_storage<Arg1>::type arg1;
|
typename expression_storage<Arg2>::type arg2;
|
expression& operator=(const expression&);
|
};
|
|
template <class tag, class Arg1, class Arg2, class Arg3>
|
struct expression<tag, Arg1, Arg2, Arg3, void>
|
{
|
typedef mpl::int_<3> arity;
|
typedef typename arg_type<Arg1>::type left_type;
|
typedef typename arg_type<Arg2>::type middle_type;
|
typedef typename arg_type<Arg3>::type right_type;
|
typedef typename left_type::result_type left_result_type;
|
typedef typename middle_type::result_type middle_result_type;
|
typedef typename right_type::result_type right_result_type;
|
typedef typename combine_expression<
|
left_result_type,
|
typename combine_expression<right_result_type, middle_result_type>::type>::type result_type;
|
typedef tag tag_type;
|
|
BOOST_MP_CXX14_CONSTEXPR expression(const Arg1& a1, const Arg2& a2, const Arg3& a3) : arg1(a1), arg2(a2), arg3(a3) {}
|
BOOST_MP_CXX14_CONSTEXPR expression(const expression& e) : arg1(e.arg1), arg2(e.arg2), arg3(e.arg3) {}
|
|
#ifndef BOOST_NO_CXX11_STATIC_ASSERT
|
//
|
// If we have static_assert we can give a more useful error message
|
// than if we simply have no operator defined at all:
|
//
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not assign to a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator+=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator+= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator-=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator-= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator*=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator*= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator/=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator/= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator%=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator%= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator|=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator|= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator&=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator&= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator^=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator^= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator<<=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator<<= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator>>=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator>>= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
#endif
|
|
BOOST_MP_CXX14_CONSTEXPR left_type left() const
|
{
|
return left_type(arg1);
|
}
|
BOOST_MP_CXX14_CONSTEXPR middle_type middle() const { return middle_type(arg2); }
|
BOOST_MP_CXX14_CONSTEXPR right_type right() const { return right_type(arg3); }
|
BOOST_MP_CXX14_CONSTEXPR const Arg1& left_ref() const BOOST_NOEXCEPT { return arg1; }
|
BOOST_MP_CXX14_CONSTEXPR const Arg2& middle_ref() const BOOST_NOEXCEPT { return arg2; }
|
BOOST_MP_CXX14_CONSTEXPR const Arg3& right_ref() const BOOST_NOEXCEPT { return arg3; }
|
|
#ifndef BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
|
#if (defined(__GNUC__) && (__GNUC__ == 4) && (__GNUC_MINOR__ < 7) && !defined(__clang__)) || (defined(BOOST_INTEL) && (BOOST_INTEL <= 1500))
|
//
|
// Horrible workaround for gcc-4.6.x which always prefers the template
|
// operator bool() rather than the non-template operator when converting to
|
// an arithmetic type:
|
//
|
template <class T, typename boost::enable_if<is_same<T, bool>, int>::type = 0>
|
explicit operator T() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
template <class T, typename boost::disable_if_c<is_same<T, bool>::value || is_void<T>::value || is_number<T>::value, int>::type = 0>
|
explicit operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
#else
|
template <class T
|
#ifndef __SUNPRO_CC
|
,
|
typename boost::disable_if_c<is_number<T>::value || is_constructible<T const&, result_type>::value || !is_constructible<T, result_type>::value, int>::type = 0
|
#endif
|
>
|
explicit BOOST_MP_CXX14_CONSTEXPR operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
BOOST_MP_FORCEINLINE explicit BOOST_MP_CXX14_CONSTEXPR operator bool() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
#if BOOST_WORKAROUND(BOOST_GCC_VERSION, < 40800)
|
BOOST_MP_FORCEINLINE explicit operator void() const
|
{}
|
#endif
|
#endif
|
#else
|
operator unmentionable_type() const
|
{
|
result_type r(*this);
|
return r ? &unmentionable::proc : 0;
|
}
|
#endif
|
template <class T>
|
BOOST_MP_CXX14_CONSTEXPR T convert_to()
|
{
|
result_type r(*this);
|
return r.template convert_to<T>();
|
}
|
|
static const unsigned left_depth = left_type::depth + 1;
|
static const unsigned middle_depth = middle_type::depth + 1;
|
static const unsigned right_depth = right_type::depth + 1;
|
static const unsigned depth = left_depth > right_depth ? (left_depth > middle_depth ? left_depth : middle_depth) : (right_depth > middle_depth ? right_depth : middle_depth);
|
|
private:
|
typename expression_storage<Arg1>::type arg1;
|
typename expression_storage<Arg2>::type arg2;
|
typename expression_storage<Arg3>::type arg3;
|
expression& operator=(const expression&);
|
};
|
|
template <class tag, class Arg1, class Arg2, class Arg3, class Arg4>
|
struct expression
|
{
|
typedef mpl::int_<4> arity;
|
typedef typename arg_type<Arg1>::type left_type;
|
typedef typename arg_type<Arg2>::type left_middle_type;
|
typedef typename arg_type<Arg3>::type right_middle_type;
|
typedef typename arg_type<Arg4>::type right_type;
|
typedef typename left_type::result_type left_result_type;
|
typedef typename left_middle_type::result_type left_middle_result_type;
|
typedef typename right_middle_type::result_type right_middle_result_type;
|
typedef typename right_type::result_type right_result_type;
|
typedef typename combine_expression<
|
left_result_type,
|
typename combine_expression<
|
left_middle_result_type,
|
typename combine_expression<right_middle_result_type, right_result_type>::type>::type>::type result_type;
|
typedef tag tag_type;
|
|
BOOST_MP_CXX14_CONSTEXPR expression(const Arg1& a1, const Arg2& a2, const Arg3& a3, const Arg4& a4) : arg1(a1), arg2(a2), arg3(a3), arg4(a4) {}
|
BOOST_MP_CXX14_CONSTEXPR expression(const expression& e) : arg1(e.arg1), arg2(e.arg2), arg3(e.arg3), arg4(e.arg4) {}
|
|
#ifndef BOOST_NO_CXX11_STATIC_ASSERT
|
//
|
// If we have static_assert we can give a more useful error message
|
// than if we simply have no operator defined at all:
|
//
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not assign to a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator++(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not increment a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--()
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
BOOST_MP_CXX14_CONSTEXPR expression& operator--(int)
|
{
|
// This should always fail:
|
static_assert(sizeof(*this) == INT_MAX, "You can not decrement a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator+=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator+= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator-=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator-= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator*=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator*= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator/=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator/= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator%=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator%= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator|=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator|= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator&=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator&= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator^=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator^= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator<<=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator<<= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
template <class Other>
|
BOOST_MP_CXX14_CONSTEXPR expression& operator>>=(const Other&)
|
{
|
// This should always fail:
|
static_assert(sizeof(Other) == INT_MAX, "You can not use operator>>= on a Boost.Multiprecision expression template: did you inadvertantly store an expression template in a \"auto\" variable? Or pass an expression to a template function with deduced temnplate arguments?");
|
return *this;
|
}
|
#endif
|
|
BOOST_MP_CXX14_CONSTEXPR left_type left() const
|
{
|
return left_type(arg1);
|
}
|
BOOST_MP_CXX14_CONSTEXPR left_middle_type left_middle() const { return left_middle_type(arg2); }
|
BOOST_MP_CXX14_CONSTEXPR right_middle_type right_middle() const { return right_middle_type(arg3); }
|
BOOST_MP_CXX14_CONSTEXPR right_type right() const { return right_type(arg4); }
|
BOOST_MP_CXX14_CONSTEXPR const Arg1& left_ref() const BOOST_NOEXCEPT { return arg1; }
|
BOOST_MP_CXX14_CONSTEXPR const Arg2& left_middle_ref() const BOOST_NOEXCEPT { return arg2; }
|
BOOST_MP_CXX14_CONSTEXPR const Arg3& right_middle_ref() const BOOST_NOEXCEPT { return arg3; }
|
BOOST_MP_CXX14_CONSTEXPR const Arg4& right_ref() const BOOST_NOEXCEPT { return arg4; }
|
|
#ifndef BOOST_MP_NO_CXX11_EXPLICIT_CONVERSION_OPERATORS
|
#if (defined(__GNUC__) && (__GNUC__ == 4) && (__GNUC_MINOR__ < 7) && !defined(__clang__)) || (defined(BOOST_INTEL) && (BOOST_INTEL <= 1500))
|
//
|
// Horrible workaround for gcc-4.6.x which always prefers the template
|
// operator bool() rather than the non-template operator when converting to
|
// an arithmetic type:
|
//
|
template <class T, typename boost::enable_if<is_same<T, bool>, int>::type = 0>
|
explicit operator T() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
template <class T, typename boost::disable_if_c<is_same<T, bool>::value || is_void<T>::value || is_number<T>::value, int>::type = 0>
|
explicit operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
#else
|
template <class T
|
#ifndef __SUNPRO_CC
|
,
|
typename boost::disable_if_c<is_number<T>::value || is_constructible<T const&, result_type>::value || !is_constructible<T, result_type>::value, int>::type = 0
|
#endif
|
>
|
explicit BOOST_MP_CXX14_CONSTEXPR operator T() const
|
{
|
return static_cast<T>(static_cast<result_type>(*this));
|
}
|
BOOST_MP_FORCEINLINE explicit BOOST_MP_CXX14_CONSTEXPR operator bool() const
|
{
|
result_type r(*this);
|
return static_cast<bool>(r);
|
}
|
#if BOOST_WORKAROUND(BOOST_GCC_VERSION, < 40800)
|
BOOST_MP_FORCEINLINE explicit operator void() const
|
{}
|
#endif
|
#endif
|
#else
|
operator unmentionable_type() const
|
{
|
result_type r(*this);
|
return r ? &unmentionable::proc : 0;
|
}
|
#endif
|
template <class T>
|
BOOST_MP_CXX14_CONSTEXPR T convert_to()
|
{
|
result_type r(*this);
|
return r.template convert_to<T>();
|
}
|
|
static const unsigned left_depth = left_type::depth + 1;
|
static const unsigned left_middle_depth = left_middle_type::depth + 1;
|
static const unsigned right_middle_depth = right_middle_type::depth + 1;
|
static const unsigned right_depth = right_type::depth + 1;
|
|
static const unsigned left_max_depth = left_depth > left_middle_depth ? left_depth : left_middle_depth;
|
static const unsigned right_max_depth = right_depth > right_middle_depth ? right_depth : right_middle_depth;
|
|
static const unsigned depth = left_max_depth > right_max_depth ? left_max_depth : right_max_depth;
|
|
private:
|
typename expression_storage<Arg1>::type arg1;
|
typename expression_storage<Arg2>::type arg2;
|
typename expression_storage<Arg3>::type arg3;
|
typename expression_storage<Arg4>::type arg4;
|
expression& operator=(const expression&);
|
};
|
|
template <class T>
|
struct digits2
|
{
|
BOOST_STATIC_ASSERT(std::numeric_limits<T>::is_specialized);
|
BOOST_STATIC_ASSERT((std::numeric_limits<T>::radix == 2) || (std::numeric_limits<T>::radix == 10));
|
// If we really have so many digits that this fails, then we're probably going to hit other problems anyway:
|
BOOST_STATIC_ASSERT(LONG_MAX / 1000 > (std::numeric_limits<T>::digits + 1));
|
static const long m_value = std::numeric_limits<T>::radix == 10 ? (((std::numeric_limits<T>::digits + 1) * 1000L) / 301L) : std::numeric_limits<T>::digits;
|
static inline BOOST_CONSTEXPR long value() BOOST_NOEXCEPT { return m_value; }
|
};
|
|
#ifndef BOOST_MP_MIN_EXPONENT_DIGITS
|
#ifdef _MSC_VER
|
#define BOOST_MP_MIN_EXPONENT_DIGITS 2
|
#else
|
#define BOOST_MP_MIN_EXPONENT_DIGITS 2
|
#endif
|
#endif
|
|
template <class S>
|
void format_float_string(S& str, boost::intmax_t my_exp, boost::intmax_t digits, std::ios_base::fmtflags f, bool iszero)
|
{
|
typedef typename S::size_type size_type;
|
bool scientific = (f & std::ios_base::scientific) == std::ios_base::scientific;
|
bool fixed = (f & std::ios_base::fixed) == std::ios_base::fixed;
|
bool showpoint = (f & std::ios_base::showpoint) == std::ios_base::showpoint;
|
bool showpos = (f & std::ios_base::showpos) == std::ios_base::showpos;
|
|
bool neg = str.size() && (str[0] == '-');
|
|
if (neg)
|
str.erase(0, 1);
|
|
if (digits == 0)
|
{
|
digits = (std::max)(str.size(), size_type(16));
|
}
|
|
if (iszero || str.empty() || (str.find_first_not_of('0') == S::npos))
|
{
|
// We will be printing zero, even though the value might not
|
// actually be zero (it just may have been rounded to zero).
|
str = "0";
|
if (scientific || fixed)
|
{
|
str.append(1, '.');
|
str.append(size_type(digits), '0');
|
if (scientific)
|
str.append("e+00");
|
}
|
else
|
{
|
if (showpoint)
|
{
|
str.append(1, '.');
|
if (digits > 1)
|
str.append(size_type(digits - 1), '0');
|
}
|
}
|
if (neg)
|
str.insert(static_cast<std::string::size_type>(0), 1, '-');
|
else if (showpos)
|
str.insert(static_cast<std::string::size_type>(0), 1, '+');
|
return;
|
}
|
|
if (!fixed && !scientific && !showpoint)
|
{
|
//
|
// Suppress trailing zeros:
|
//
|
std::string::iterator pos = str.end();
|
while (pos != str.begin() && *--pos == '0')
|
{
|
}
|
if (pos != str.end())
|
++pos;
|
str.erase(pos, str.end());
|
if (str.empty())
|
str = '0';
|
}
|
else if (!fixed || (my_exp >= 0))
|
{
|
//
|
// Pad out the end with zero's if we need to:
|
//
|
boost::intmax_t chars = str.size();
|
chars = digits - chars;
|
if (scientific)
|
++chars;
|
if (chars > 0)
|
{
|
str.append(static_cast<std::string::size_type>(chars), '0');
|
}
|
}
|
|
if (fixed || (!scientific && (my_exp >= -4) && (my_exp < digits)))
|
{
|
if (1 + my_exp > static_cast<boost::intmax_t>(str.size()))
|
{
|
// Just pad out the end with zeros:
|
str.append(static_cast<std::string::size_type>(1 + my_exp - str.size()), '0');
|
if (showpoint || fixed)
|
str.append(".");
|
}
|
else if (my_exp + 1 < static_cast<boost::intmax_t>(str.size()))
|
{
|
if (my_exp < 0)
|
{
|
str.insert(static_cast<std::string::size_type>(0), static_cast<std::string::size_type>(-1 - my_exp), '0');
|
str.insert(static_cast<std::string::size_type>(0), "0.");
|
}
|
else
|
{
|
// Insert the decimal point:
|
str.insert(static_cast<std::string::size_type>(my_exp + 1), 1, '.');
|
}
|
}
|
else if (showpoint || fixed) // we have exactly the digits we require to left of the point
|
str += ".";
|
|
if (fixed)
|
{
|
// We may need to add trailing zeros:
|
boost::intmax_t l = str.find('.') + 1;
|
l = digits - (str.size() - l);
|
if (l > 0)
|
str.append(size_type(l), '0');
|
}
|
}
|
else
|
{
|
BOOST_MP_USING_ABS
|
// Scientific format:
|
if (showpoint || (str.size() > 1))
|
str.insert(static_cast<std::string::size_type>(1u), 1, '.');
|
str.append(static_cast<std::string::size_type>(1u), 'e');
|
S e = boost::lexical_cast<S>(abs(my_exp));
|
if (e.size() < BOOST_MP_MIN_EXPONENT_DIGITS)
|
e.insert(static_cast<std::string::size_type>(0), BOOST_MP_MIN_EXPONENT_DIGITS - e.size(), '0');
|
if (my_exp < 0)
|
e.insert(static_cast<std::string::size_type>(0), 1, '-');
|
else
|
e.insert(static_cast<std::string::size_type>(0), 1, '+');
|
str.append(e);
|
}
|
if (neg)
|
str.insert(static_cast<std::string::size_type>(0), 1, '-');
|
else if (showpos)
|
str.insert(static_cast<std::string::size_type>(0), 1, '+');
|
}
|
|
template <class V>
|
BOOST_MP_CXX14_CONSTEXPR void check_shift_range(V val, const mpl::true_&, const mpl::true_&)
|
{
|
if (val > (std::numeric_limits<std::size_t>::max)())
|
BOOST_THROW_EXCEPTION(std::out_of_range("Can not shift by a value greater than std::numeric_limits<std::size_t>::max()."));
|
if (val < 0)
|
BOOST_THROW_EXCEPTION(std::out_of_range("Can not shift by a negative value."));
|
}
|
template <class V>
|
BOOST_MP_CXX14_CONSTEXPR void check_shift_range(V val, const mpl::false_&, const mpl::true_&)
|
{
|
if (val < 0)
|
BOOST_THROW_EXCEPTION(std::out_of_range("Can not shift by a negative value."));
|
}
|
template <class V>
|
BOOST_MP_CXX14_CONSTEXPR void check_shift_range(V val, const mpl::true_&, const mpl::false_&)
|
{
|
if (val > (std::numeric_limits<std::size_t>::max)())
|
BOOST_THROW_EXCEPTION(std::out_of_range("Can not shift by a value greater than std::numeric_limits<std::size_t>::max()."));
|
}
|
template <class V>
|
BOOST_MP_CXX14_CONSTEXPR void check_shift_range(V, const mpl::false_&, const mpl::false_&) BOOST_NOEXCEPT {}
|
|
template <class T>
|
BOOST_MP_CXX14_CONSTEXPR const T& evaluate_if_expression(const T& val) { return val; }
|
template <class tag, class Arg1, class Arg2, class Arg3, class Arg4>
|
BOOST_MP_CXX14_CONSTEXPR typename expression<tag, Arg1, Arg2, Arg3, Arg4>::result_type evaluate_if_expression(const expression<tag, Arg1, Arg2, Arg3, Arg4>& val) { return val; }
|
|
} // namespace detail
|
|
//
|
// Traits class, lets us know what kind of number we have, defaults to a floating point type:
|
//
|
enum number_category_type
|
{
|
number_kind_unknown = -1,
|
number_kind_integer = 0,
|
number_kind_floating_point = 1,
|
number_kind_rational = 2,
|
number_kind_fixed_point = 3,
|
number_kind_complex = 4
|
};
|
|
template <class Num, bool, bool>
|
struct number_category_base : public mpl::int_<number_kind_unknown>
|
{};
|
template <class Num>
|
struct number_category_base<Num, true, false> : public mpl::int_<std::numeric_limits<Num>::is_integer ? number_kind_integer : (std::numeric_limits<Num>::max_exponent ? number_kind_floating_point : number_kind_unknown)>
|
{};
|
template <class Num>
|
struct number_category : public number_category_base<Num, boost::is_class<Num>::value || boost::is_arithmetic<Num>::value, boost::is_abstract<Num>::value>
|
{};
|
template <class Backend, expression_template_option ExpressionTemplates>
|
struct number_category<number<Backend, ExpressionTemplates> > : public number_category<Backend>
|
{};
|
template <class tag, class A1, class A2, class A3, class A4>
|
struct number_category<detail::expression<tag, A1, A2, A3, A4> > : public number_category<typename detail::expression<tag, A1, A2, A3, A4>::result_type>
|
{};
|
//
|
// Specializations for types which do not always have numberic_limits specializations:
|
//
|
#ifdef BOOST_HAS_INT128
|
template <>
|
struct number_category<boost::int128_type> : public mpl::int_<number_kind_integer>
|
{};
|
template <>
|
struct number_category<boost::uint128_type> : public mpl::int_<number_kind_integer>
|
{};
|
#endif
|
#ifdef BOOST_HAS_FLOAT128
|
template <>
|
struct number_category<__float128> : public mpl::int_<number_kind_floating_point>
|
{};
|
#endif
|
|
template <class T>
|
struct component_type
|
{
|
typedef T type;
|
};
|
template <class tag, class A1, class A2, class A3, class A4>
|
struct component_type<detail::expression<tag, A1, A2, A3, A4> > : public component_type<typename detail::expression<tag, A1, A2, A3, A4>::result_type>
|
{};
|
|
template <class T>
|
struct scalar_result_from_possible_complex
|
{
|
typedef typename mpl::if_c<number_category<T>::value == number_kind_complex,
|
typename component_type<T>::type, T>::type type;
|
};
|
|
template <class T>
|
struct complex_result_from_scalar; // individual backends must specialize this trait.
|
|
template <class T>
|
struct is_unsigned_number : public mpl::false_
|
{};
|
template <class Backend, expression_template_option ExpressionTemplates>
|
struct is_unsigned_number<number<Backend, ExpressionTemplates> > : public is_unsigned_number<Backend>
|
{};
|
template <class T>
|
struct is_signed_number : public mpl::bool_<!is_unsigned_number<T>::value>
|
{};
|
template <class T>
|
struct is_interval_number : public mpl::false_
|
{};
|
template <class Backend, expression_template_option ExpressionTemplates>
|
struct is_interval_number<number<Backend, ExpressionTemplates> > : public is_interval_number<Backend>
|
{};
|
|
} // namespace multiprecision
|
} // namespace boost
|
|
namespace boost { namespace math {
|
namespace tools {
|
|
template <class T>
|
struct promote_arg;
|
|
template <class tag, class A1, class A2, class A3, class A4>
|
struct promote_arg<boost::multiprecision::detail::expression<tag, A1, A2, A3, A4> >
|
{
|
typedef typename boost::multiprecision::detail::expression<tag, A1, A2, A3, A4>::result_type type;
|
};
|
|
template <class R, class B, boost::multiprecision::expression_template_option ET>
|
inline R real_cast(const boost::multiprecision::number<B, ET>& val)
|
{
|
return val.template convert_to<R>();
|
}
|
|
template <class R, class tag, class A1, class A2, class A3, class A4>
|
inline R real_cast(const boost::multiprecision::detail::expression<tag, A1, A2, A3, A4>& val)
|
{
|
typedef typename boost::multiprecision::detail::expression<tag, A1, A2, A3, A4>::result_type val_type;
|
return val_type(val).template convert_to<R>();
|
}
|
|
template <class B, boost::multiprecision::expression_template_option ET>
|
struct is_complex_type<boost::multiprecision::number<B, ET> > : public boost::mpl::bool_<boost::multiprecision::number_category<B>::value == boost::multiprecision::number_kind_complex> {};
|
|
} // namespace tools
|
|
namespace constants {
|
|
template <class T>
|
struct is_explicitly_convertible_from_string;
|
|
template <class B, boost::multiprecision::expression_template_option ET>
|
struct is_explicitly_convertible_from_string<boost::multiprecision::number<B, ET> >
|
{
|
static const bool value = true;
|
};
|
|
} // namespace constants
|
|
}} // namespace boost::math
|
|
#ifdef BOOST_MSVC
|
#pragma warning(pop)
|
#endif
|
|
#endif // BOOST_MATH_BIG_NUM_BASE_HPP
|
