boost/multiprecision/debug_adaptor.hpp
///////////////////////////////////////////////////////////////
// Copyright 2012 John Maddock. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at https://www.boost.org/LICENSE_1_0.txt
#ifndef BOOST_MP_DEBUG_ADAPTOR_HPP
#define BOOST_MP_DEBUG_ADAPTOR_HPP
#include <boost/multiprecision/detail/standalone_config.hpp>
#include <boost/multiprecision/traits/extract_exponent_type.hpp>
#include <boost/multiprecision/detail/integer_ops.hpp>
namespace boost {
namespace multiprecision {
namespace backends {
template <class Backend>
struct debug_adaptor
{
using signed_types = typename Backend::signed_types ;
using unsigned_types = typename Backend::unsigned_types;
using float_types = typename Backend::float_types ;
using exponent_type = typename extract_exponent_type<Backend, number_category<Backend>::value>::type;
private:
std::string debug_value;
Backend m_value;
public:
void update_view()
{
#ifndef BOOST_NO_EXCEPTIONS
try
{
#endif
debug_value = m_value.str(0, static_cast<std::ios_base::fmtflags>(0));
#ifndef BOOST_NO_EXCEPTIONS
}
catch (const std::exception& e)
{
debug_value = "String conversion failed with message: \"";
debug_value += e.what();
debug_value += "\"";
}
#endif
}
debug_adaptor()
{
update_view();
}
debug_adaptor(const debug_adaptor& o) : debug_value(o.debug_value), m_value(o.m_value)
{
}
debug_adaptor& operator=(const debug_adaptor& o)
{
debug_value = o.debug_value;
m_value = o.m_value;
return *this;
}
template <class T>
debug_adaptor(const T& i, const typename std::enable_if<std::is_convertible<T, Backend>::value>::type* = nullptr)
: m_value(i)
{
update_view();
}
template <class T>
debug_adaptor(const debug_adaptor<T>& i, const typename std::enable_if<std::is_convertible<T, Backend>::value>::type* = nullptr)
: m_value(i.value())
{
update_view();
}
template <class T, class U>
debug_adaptor(const T& i, const U& j, typename std::enable_if<std::is_constructible<Backend, const T&, const U&>::value>::type* = nullptr)
: m_value(i, j)
{
update_view();
}
template <class B2>
debug_adaptor(const B2& i, unsigned digits10, typename std::enable_if<std::is_same<B2, Backend>::value && std::is_constructible<Backend, const Backend&, unsigned>::value>::type* = nullptr)
: m_value(i, digits10)
{
update_view();
}
template <class T>
typename std::enable_if<boost::multiprecision::detail::is_arithmetic<T>::value || std::is_assignable<Backend, T>::value, debug_adaptor&>::type operator=(const T& i)
{
m_value = i;
update_view();
return *this;
}
debug_adaptor& operator=(const char* s)
{
m_value = s;
update_view();
return *this;
}
void swap(debug_adaptor& o)
{
std::swap(m_value, o.value());
std::swap(debug_value, o.debug_value);
}
std::string str(std::streamsize digits, std::ios_base::fmtflags f) const
{
return m_value.str(digits, f);
}
void negate()
{
m_value.negate();
update_view();
}
int compare(const debug_adaptor& o) const
{
return m_value.compare(o.value());
}
template <class T>
int compare(const T& i) const
{
return m_value.compare(i);
}
Backend& value()
{
return m_value;
}
const Backend& value() const
{
return m_value;
}
#ifndef BOOST_MP_STANDALONE
template <class Archive>
void serialize(Archive& ar, const unsigned int /*version*/)
{
ar & boost::make_nvp("value", m_value);
using tag = typename Archive::is_loading;
if (tag::value)
update_view();
}
#endif
static unsigned default_precision() noexcept
{
return Backend::default_precision();
}
static void default_precision(unsigned v) noexcept
{
Backend::default_precision(v);
}
static unsigned thread_default_precision() noexcept
{
return Backend::thread_default_precision();
}
static void thread_default_precision(unsigned v) noexcept
{
Backend::thread_default_precision(v);
}
unsigned precision() const noexcept
{
return value().precision();
}
void precision(unsigned digits10) noexcept
{
value().precision(digits10);
}
//
// Variable precision options:
//
static constexpr variable_precision_options default_variable_precision_options()noexcept
{
return Backend::default_variable_precision_options();
}
static constexpr variable_precision_options thread_default_variable_precision_options()noexcept
{
return Backend::thread_default_variable_precision_options();
}
static BOOST_MP_CXX14_CONSTEXPR void default_variable_precision_options(variable_precision_options opts)
{
Backend::default_variable_precision_options(opts);
}
static BOOST_MP_CXX14_CONSTEXPR void thread_default_variable_precision_options(variable_precision_options opts)
{
Backend::thread_default_variable_precision_options(opts);
}
};
template <class Backend>
inline Backend const& unwrap_debug_type(debug_adaptor<Backend> const& val)
{
return val.value();
}
template <class T>
inline const T& unwrap_debug_type(const T& val)
{
return val;
}
template <class Backend, class V, class U>
inline BOOST_MP_CXX14_CONSTEXPR void assign_components(debug_adaptor<Backend>& result, const V& v1, const U& v2)
{
using default_ops::assign_components;
assign_components(result.value(), unwrap_debug_type(v1), unwrap_debug_type(v2));
result.update_view();
}
#define NON_MEMBER_OP1(name, str) \
template <class Backend> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value()); \
result.update_view(); \
}
#define NON_MEMBER_OP2(name, str) \
template <class Backend, class T> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const T& a) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a)); \
result.update_view(); \
} \
template <class Backend> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a)); \
result.update_view(); \
}
#define NON_MEMBER_OP3(name, str) \
template <class Backend, class T, class U> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const T& a, const U& b) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b)); \
result.update_view(); \
} \
template <class Backend, class T> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a, const T& b) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b)); \
result.update_view(); \
} \
template <class Backend, class T> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const T& a, const debug_adaptor<Backend>& b) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b)); \
result.update_view(); \
} \
template <class Backend> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a, const debug_adaptor<Backend>& b) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b)); \
result.update_view(); \
}
#define NON_MEMBER_OP4(name, str) \
template <class Backend, class T, class U, class V> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const T& a, const U& b, const V& c) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b), unwrap_debug_type(c)); \
result.update_view(); \
} \
template <class Backend, class T> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a, const debug_adaptor<Backend>& b, const T& c) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b), unwrap_debug_type(c)); \
result.update_view(); \
} \
template <class Backend, class T> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a, const T& b, const debug_adaptor<Backend>& c) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b), unwrap_debug_type(c)); \
result.update_view(); \
} \
template <class Backend, class T> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const T& a, const debug_adaptor<Backend>& b, const debug_adaptor<Backend>& c) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b), unwrap_debug_type(c)); \
result.update_view(); \
} \
template <class Backend> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a, const debug_adaptor<Backend>& b, const debug_adaptor<Backend>& c) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b), unwrap_debug_type(c)); \
result.update_view(); \
} \
template <class Backend, class T, class U> \
inline void BOOST_JOIN(eval_, name)(debug_adaptor<Backend> & result, const debug_adaptor<Backend>& a, const T& b, const U& c) \
{ \
using default_ops::BOOST_JOIN(eval_, name); \
BOOST_JOIN(eval_, name) \
(result.value(), unwrap_debug_type(a), unwrap_debug_type(b), unwrap_debug_type(c)); \
result.update_view(); \
}
NON_MEMBER_OP2(add, "+=")
NON_MEMBER_OP2(subtract, "-=")
NON_MEMBER_OP2(multiply, "*=")
NON_MEMBER_OP2(divide, "/=")
template <class Backend, class R>
inline void eval_convert_to(R* result, const debug_adaptor<Backend>& val)
{
using default_ops::eval_convert_to;
eval_convert_to(result, val.value());
}
template <class Backend, class R>
inline void eval_convert_to(debug_adaptor<R>* result, const debug_adaptor<Backend>& val)
{
using default_ops::eval_convert_to;
eval_convert_to(&result->value(), val.value());
}
template <class Backend, class R>
inline void eval_convert_to(debug_adaptor<R>* result, const Backend& val)
{
using default_ops::eval_convert_to;
eval_convert_to(&result->value(), val);
}
template <class Backend>
inline void eval_convert_to(std::complex<float>* result, const debug_adaptor<Backend>& val)
{
using default_ops::eval_convert_to;
eval_convert_to(result, val.value());
}
template <class Backend>
inline void eval_convert_to(std::complex<double>* result, const debug_adaptor<Backend>& val)
{
using default_ops::eval_convert_to;
eval_convert_to(result, val.value());
}
template <class Backend>
inline void eval_convert_to(std::complex<long double>* result, const debug_adaptor<Backend>& val)
{
using default_ops::eval_convert_to;
eval_convert_to(result, val.value());
}
template <class Backend, class Exp>
inline void eval_frexp(debug_adaptor<Backend>& result, const debug_adaptor<Backend>& arg, Exp* exp)
{
eval_frexp(result.value(), arg.value(), exp);
result.update_view();
}
template <class Backend, class Exp>
inline void eval_ldexp(debug_adaptor<Backend>& result, const debug_adaptor<Backend>& arg, Exp exp)
{
eval_ldexp(result.value(), arg.value(), exp);
result.update_view();
}
template <class Backend, class Exp>
inline void eval_scalbn(debug_adaptor<Backend>& result, const debug_adaptor<Backend>& arg, Exp exp)
{
using default_ops::eval_scalbn;
eval_scalbn(result.value(), arg.value(), exp);
result.update_view();
}
template <class Backend>
inline typename Backend::exponent_type eval_ilogb(const debug_adaptor<Backend>& arg)
{
using default_ops::eval_ilogb;
return eval_ilogb(arg.value());
}
NON_MEMBER_OP2(floor, "floor")
NON_MEMBER_OP2(ceil, "ceil")
NON_MEMBER_OP2(sqrt, "sqrt")
NON_MEMBER_OP2(logb, "logb")
template <class Backend>
inline int eval_fpclassify(const debug_adaptor<Backend>& arg)
{
using default_ops::eval_fpclassify;
return eval_fpclassify(arg.value());
}
/*********************************************************************
*
* Optional arithmetic operations come next:
*
*********************************************************************/
NON_MEMBER_OP3(add, "+")
NON_MEMBER_OP3(subtract, "-")
NON_MEMBER_OP3(multiply, "*")
NON_MEMBER_OP3(divide, "/")
NON_MEMBER_OP3(multiply_add, "fused-multiply-add")
NON_MEMBER_OP3(multiply_subtract, "fused-multiply-subtract")
NON_MEMBER_OP4(multiply_add, "fused-multiply-add")
NON_MEMBER_OP4(multiply_subtract, "fused-multiply-subtract")
NON_MEMBER_OP1(increment, "increment")
NON_MEMBER_OP1(decrement, "decrement")
/*********************************************************************
*
* Optional integer operations come next:
*
*********************************************************************/
NON_MEMBER_OP2(modulus, "%=")
NON_MEMBER_OP3(modulus, "%")
NON_MEMBER_OP2(bitwise_or, "|=")
NON_MEMBER_OP3(bitwise_or, "|")
NON_MEMBER_OP2(bitwise_and, "&=")
NON_MEMBER_OP3(bitwise_and, "&")
NON_MEMBER_OP2(bitwise_xor, "^=")
NON_MEMBER_OP3(bitwise_xor, "^")
NON_MEMBER_OP4(qr, "quotient-and-remainder")
NON_MEMBER_OP2(complement, "~")
template <class Backend>
inline void eval_left_shift(debug_adaptor<Backend>& arg, std::size_t a)
{
using default_ops::eval_left_shift;
eval_left_shift(arg.value(), a);
arg.update_view();
}
template <class Backend>
inline void eval_left_shift(debug_adaptor<Backend>& arg, const debug_adaptor<Backend>& a, std::size_t b)
{
using default_ops::eval_left_shift;
eval_left_shift(arg.value(), a.value(), b);
arg.update_view();
}
template <class Backend>
inline void eval_right_shift(debug_adaptor<Backend>& arg, std::size_t a)
{
using default_ops::eval_right_shift;
eval_right_shift(arg.value(), a);
arg.update_view();
}
template <class Backend>
inline void eval_right_shift(debug_adaptor<Backend>& arg, const debug_adaptor<Backend>& a, std::size_t b)
{
using default_ops::eval_right_shift;
eval_right_shift(arg.value(), a.value(), b);
arg.update_view();
}
template <class Backend, class T>
inline T eval_integer_modulus(const debug_adaptor<Backend>& arg, const T& a)
{
using default_ops::eval_integer_modulus;
return eval_integer_modulus(arg.value(), a);
}
template <class Backend>
inline std::size_t eval_lsb(const debug_adaptor<Backend>& arg)
{
using default_ops::eval_lsb;
return eval_lsb(arg.value());
}
template <class Backend>
inline std::size_t eval_msb(const debug_adaptor<Backend>& arg)
{
using default_ops::eval_msb;
return eval_msb(arg.value());
}
template <class Backend>
inline bool eval_bit_test(const debug_adaptor<Backend>& arg, std::size_t a)
{
using default_ops::eval_bit_test;
return eval_bit_test(arg.value(), a);
}
template <class Backend>
inline void eval_bit_set(const debug_adaptor<Backend>& arg, std::size_t a)
{
using default_ops::eval_bit_set;
eval_bit_set(arg.value(), a);
arg.update_view();
}
template <class Backend>
inline void eval_bit_unset(const debug_adaptor<Backend>& arg, std::size_t a)
{
using default_ops::eval_bit_unset;
eval_bit_unset(arg.value(), a);
arg.update_view();
}
template <class Backend>
inline void eval_bit_flip(const debug_adaptor<Backend>& arg, std::size_t a)
{
using default_ops::eval_bit_flip;
eval_bit_flip(arg.value(), a);
arg.update_view();
}
NON_MEMBER_OP3(gcd, "gcd")
NON_MEMBER_OP3(lcm, "lcm")
NON_MEMBER_OP4(powm, "powm")
/*********************************************************************
*
* abs/fabs:
*
*********************************************************************/
NON_MEMBER_OP2(abs, "abs")
NON_MEMBER_OP2(fabs, "fabs")
/*********************************************************************
*
* Floating point functions:
*
*********************************************************************/
NON_MEMBER_OP2(trunc, "trunc")
NON_MEMBER_OP2(round, "round")
NON_MEMBER_OP2(exp, "exp")
NON_MEMBER_OP2(log, "log")
NON_MEMBER_OP2(log10, "log10")
NON_MEMBER_OP2(sin, "sin")
NON_MEMBER_OP2(cos, "cos")
NON_MEMBER_OP2(tan, "tan")
NON_MEMBER_OP2(asin, "asin")
NON_MEMBER_OP2(acos, "acos")
NON_MEMBER_OP2(atan, "atan")
NON_MEMBER_OP2(sinh, "sinh")
NON_MEMBER_OP2(cosh, "cosh")
NON_MEMBER_OP2(tanh, "tanh")
NON_MEMBER_OP2(asinh, "asinh")
NON_MEMBER_OP2(acosh, "acosh")
NON_MEMBER_OP2(atanh, "atanh")
NON_MEMBER_OP3(fmod, "fmod")
NON_MEMBER_OP3(pow, "pow")
NON_MEMBER_OP3(atan2, "atan2")
NON_MEMBER_OP2(conj, "conj")
template <class Backend>
int eval_signbit(const debug_adaptor<Backend>& val)
{
using default_ops::eval_signbit;
return eval_signbit(val.value());
}
template <class Backend>
std::size_t hash_value(const debug_adaptor<Backend>& val)
{
return hash_value(val.value());
}
template <class Backend, expression_template_option ExpressionTemplates>
inline typename std::enable_if<number_category<Backend>::value == number_kind_rational, typename number<debug_adaptor<Backend>, ExpressionTemplates>::value_type>::type
numerator(const number<debug_adaptor<Backend>, ExpressionTemplates>& arg)
{
number<Backend, ExpressionTemplates> t(arg.backend().value());
return numerator(t).backend();
}
template <class Backend, expression_template_option ExpressionTemplates>
inline typename std::enable_if<number_category<Backend>::value == number_kind_rational, typename number<debug_adaptor<Backend>, ExpressionTemplates>::value_type>::type
denominator(const number<debug_adaptor<Backend>, ExpressionTemplates>& arg)
{
number<Backend, ExpressionTemplates> t(arg.backend().value());
return denominator(t).backend();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_real(To& to, const debug_adaptor<From>& from)
{
using default_ops::eval_real;
eval_real(to, from.value());
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_real(debug_adaptor<To>& to, const debug_adaptor<From>& from)
{
using default_ops::eval_real;
eval_real(to.value(), from.value());
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_real(debug_adaptor<To>& to, const From& from)
{
using default_ops::eval_real;
eval_real(to.value(), from);
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_imag(To& to, const debug_adaptor<From>& from)
{
using default_ops::eval_imag;
eval_imag(to, from.value());
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_imag(debug_adaptor<To>& to, const debug_adaptor<From>& from)
{
using default_ops::eval_imag;
eval_imag(to.value(), from.value());
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_imag(debug_adaptor<To>& to, const From& from)
{
using default_ops::eval_imag;
eval_imag(to.value(), from);
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_set_real(To& to, const debug_adaptor<From>& from)
{
using default_ops::eval_set_real;
eval_set_real(to, from.value());
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_set_real(debug_adaptor<To>& to, const debug_adaptor<From>& from)
{
using default_ops::eval_set_real;
eval_set_real(to.value(), from.value());
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_set_real(debug_adaptor<To>& to, const From& from)
{
using default_ops::eval_set_real;
eval_set_real(to.value(), from);
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_set_imag(To& to, const debug_adaptor<From>& from)
{
using default_ops::eval_set_imag;
eval_set_imag(to, from.value());
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_set_imag(debug_adaptor<To>& to, const debug_adaptor<From>& from)
{
using default_ops::eval_set_imag;
eval_set_imag(to.value(), from.value());
to.update_view();
}
template <class To, class From>
inline BOOST_MP_CXX14_CONSTEXPR void eval_set_imag(debug_adaptor<To>& to, const From& from)
{
using default_ops::eval_set_imag;
eval_set_imag(to.value(), from);
to.update_view();
}
} // namespace backends
using backends::debug_adaptor;
namespace detail {
template <class Backend>
struct is_variable_precision<debug_adaptor<Backend> > : public is_variable_precision<Backend>
{};
#ifdef BOOST_HAS_INT128
template <class Backend>
struct is_convertible_arithmetic<int128_type, debug_adaptor<Backend> > : public is_convertible_arithmetic<int128_type, Backend>
{};
template <class Backend>
struct is_convertible_arithmetic<uint128_type, debug_adaptor<Backend> > : public is_convertible_arithmetic<uint128_type, Backend>
{};
#endif
#ifdef BOOST_HAS_FLOAT128
template <class Backend>
struct is_convertible_arithmetic<float128_type, debug_adaptor<Backend> > : public is_convertible_arithmetic<float128_type, Backend>
{};
#endif
} // namespace detail
template <class Backend>
struct number_category<backends::debug_adaptor<Backend> > : public number_category<Backend>
{};
template <class Number>
using debug_adaptor_t = number<debug_adaptor<typename Number::backend_type>, Number::et>;
template <class Backend, expression_template_option ExpressionTemplates>
struct component_type<number<debug_adaptor<Backend>, ExpressionTemplates>>
{
//
// We'll make the component_type also a debug_adaptor:
//
using base_component_type = typename component_type<number<Backend, ExpressionTemplates>>::type;
using base_component_backend = typename base_component_type::backend_type;
using type = number<debug_adaptor<base_component_backend>, ExpressionTemplates>;
};
template <class Backend>
struct is_interval_number<backends::debug_adaptor<Backend> > : public is_interval_number<Backend> {};
}} // namespace boost::multiprecision
namespace std {
template <class Backend, boost::multiprecision::expression_template_option ExpressionTemplates>
class numeric_limits<boost::multiprecision::number<boost::multiprecision::backends::debug_adaptor<Backend>, ExpressionTemplates> >
: public std::numeric_limits<boost::multiprecision::number<Backend, ExpressionTemplates> >
{
using base_type = std::numeric_limits<boost::multiprecision::number<Backend, ExpressionTemplates> > ;
using number_type = boost::multiprecision::number<boost::multiprecision::backends::debug_adaptor<Backend>, ExpressionTemplates>;
public:
static number_type(min)() noexcept { return (base_type::min)(); }
static number_type(max)() noexcept { return (base_type::max)(); }
static number_type lowest() noexcept { return -(max)(); }
static number_type epsilon() noexcept { return base_type::epsilon(); }
static number_type round_error() noexcept { return epsilon() / 2; }
static number_type infinity() noexcept { return base_type::infinity(); }
static number_type quiet_NaN() noexcept { return base_type::quiet_NaN(); }
static number_type signaling_NaN() noexcept { return base_type::signaling_NaN(); }
static number_type denorm_min() noexcept { return base_type::denorm_min(); }
};
} // namespace std
#ifdef BOOST_MP_MATH_AVAILABLE
namespace boost {
namespace math {
namespace policies {
template <class Backend, boost::multiprecision::expression_template_option ExpressionTemplates, class Policy>
struct precision<boost::multiprecision::number<boost::multiprecision::debug_adaptor<Backend>, ExpressionTemplates>, Policy>
: public precision<boost::multiprecision::number<Backend, ExpressionTemplates>, Policy>
{};
#undef NON_MEMBER_OP1
#undef NON_MEMBER_OP2
#undef NON_MEMBER_OP3
#undef NON_MEMBER_OP4
}
}} // namespace boost::math::policies
#else
#undef NON_MEMBER_OP1
#undef NON_MEMBER_OP2
#undef NON_MEMBER_OP3
#undef NON_MEMBER_OP4
#endif // BOOST_MP_MATH_AVAILABLE
#endif