template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator-(const number<B, et_off>& v)
{
- BOOST_STATIC_ASSERT_MSG(is_signed_number<B>::value, "Negating an unsigned type results in ill-defined behavior.");
+ static_assert(is_signed_number<B>::value, "Negating an unsigned type results in ill-defined behavior.");
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(v);
number<B, et_off> result(v);
result.backend().negate();
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator+(const number<B, et_off>& a, const V& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
number<B, et_off> result;
using default_ops::eval_add;
eval_add(result.backend(), a.backend(), number<B, et_off>::canonical_value(b));
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator+(const V& a, const number<B, et_off>& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b, a);
number<B, et_off> result;
using default_ops::eval_add;
eval_add(result.backend(), b.backend(), number<B, et_off>::canonical_value(a));
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator-(const number<B, et_off>& a, const V& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
number<B, et_off> result;
using default_ops::eval_subtract;
eval_subtract(result.backend(), a.backend(), number<B, et_off>::canonical_value(b));
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator-(const V& a, const number<B, et_off>& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b, a);
number<B, et_off> result;
using default_ops::eval_subtract;
eval_subtract(result.backend(), number<B, et_off>::canonical_value(a), b.backend());
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator*(const number<B, et_off>& a, const V& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
number<B, et_off> result;
using default_ops::eval_multiply;
eval_multiply(result.backend(), a.backend(), number<B, et_off>::canonical_value(b));
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator*(const V& a, const number<B, et_off>& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b, a);
number<B, et_off> result;
using default_ops::eval_multiply;
eval_multiply(result.backend(), b.backend(), number<B, et_off>::canonical_value(a));
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator/(const number<B, et_off>& a, const V& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
number<B, et_off> result;
using default_ops::eval_divide;
eval_divide(result.backend(), a.backend(), number<B, et_off>::canonical_value(b));
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator/(const V& a, const number<B, et_off>& b)
{
- detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b);
+ detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b, a);
number<B, et_off> result;
using default_ops::eval_divide;
eval_divide(result.backend(), number<B, et_off>::canonical_value(a), b.backend());
// modulus:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator%(const number<B, et_off>& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator%(const number<B, et_off>& a, const number<B, et_off>& b)
{
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
number<B, et_off> result;
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator%(const number<B, et_off>& a, const V& b)
{
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a);
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator%(const V& a, const number<B, et_off>& b)
{
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(b);
// Bitwise or:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(const number<B, et_off>& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(const number<B, et_off>& a, const number<B, et_off>& b)
{
number<B, et_off> result;
using default_ops::eval_bitwise_or;
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator|(const number<B, et_off>& a, const V& b)
{
number<B, et_off> result;
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator|(const V& a, const number<B, et_off>& b)
{
number<B, et_off> result;
// Bitwise xor:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(const number<B, et_off>& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(const number<B, et_off>& a, const number<B, et_off>& b)
{
number<B, et_off> result;
using default_ops::eval_bitwise_xor;
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator^(const number<B, et_off>& a, const V& b)
{
number<B, et_off> result;
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator^(const V& a, const number<B, et_off>& b)
{
number<B, et_off> result;
// Bitwise and:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(const number<B, et_off>& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(const number<B, et_off>& a, const number<B, et_off>& b)
{
number<B, et_off> result;
using default_ops::eval_bitwise_and;
return result;
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator&(const number<B, et_off>& a, const V& b)
{
number<B, et_off> result;
return result;
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator&(const V& a, const number<B, et_off>& b)
{
number<B, et_off> result;
// shifts:
//
template <class B, class I>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<boost::multiprecision::detail::is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator<<(const number<B, et_off>& a, const I& b)
{
number<B, et_off> result(a);
using default_ops::eval_left_shift;
- detail::check_shift_range(b, mpl::bool_<(sizeof(I) > sizeof(std::size_t))>(), mpl::bool_<is_signed<I>::value>());
+ detail::check_shift_range(b, std::integral_constant<bool, (sizeof(I) > sizeof(std::size_t))>(), std::integral_constant<bool, boost::multiprecision::detail::is_signed<I>::value>());
eval_left_shift(result.backend(), b);
return result;
}
template <class B, class I>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<boost::multiprecision::detail::is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator>>(const number<B, et_off>& a, const I& b)
{
number<B, et_off> result(a);
using default_ops::eval_right_shift;
- detail::check_shift_range(b, mpl::bool_<(sizeof(I) > sizeof(std::size_t))>(), mpl::bool_<is_signed<I>::value>());
+ detail::check_shift_range(b, std::integral_constant<bool, (sizeof(I) > sizeof(std::size_t))>(), std::integral_constant<bool, boost::multiprecision::detail::is_signed<I>::value>());
eval_right_shift(result.backend(), b);
return result;
}
-#if !defined(BOOST_NO_CXX11_RVALUE_REFERENCES) && !(defined(__GNUC__) && ((__GNUC__ == 4) && (__GNUC_MINOR__ < 5)))
//
// If we have rvalue references go all over again with rvalue ref overloads and move semantics.
// Note that while it would be tempting to implement these so they return an rvalue reference
template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator-(number<B, et_off>&& v)
{
- BOOST_STATIC_ASSERT_MSG(is_signed_number<B>::value, "Negating an unsigned type results in ill-defined behavior.");
+ static_assert(is_signed_number<B>::value, "Negating an unsigned type results in ill-defined behavior.");
v.backend().negate();
- return static_cast<number<B, et_off>&&>(v);
+ return std::move(v);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator~(number<B, et_off>&& v)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator~(number<B, et_off>&& v)
{
eval_complement(v.backend(), v.backend());
- return static_cast<number<B, et_off>&&>(v);
+ return std::move(v);
}
//
// Addition:
using default_ops::eval_add;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_add(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator+(const number<B, et_off>& a, number<B, et_off>&& b)
using default_ops::eval_add;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_add(b.backend(), a.backend());
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator+(number<B, et_off>&& a, number<B, et_off>&& b)
using default_ops::eval_add;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_add(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator+(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_add;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_add(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator+(const V& a, number<B, et_off>&& b)
{
using default_ops::eval_add;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_add(b.backend(), number<B, et_off>::canonical_value(a));
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
//
// Subtraction:
using default_ops::eval_subtract;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_subtract(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_signed_number<B>, number<B, et_off> >::type operator-(const number<B, et_off>& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_signed_number<B>::value, number<B, et_off> >::type operator-(const number<B, et_off>& a, number<B, et_off>&& b)
{
using default_ops::eval_subtract;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_subtract(b.backend(), a.backend());
b.backend().negate();
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator-(number<B, et_off>&& a, number<B, et_off>&& b)
using default_ops::eval_subtract;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_subtract(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator-(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_subtract;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_subtract(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<(is_compatible_arithmetic_type<V, number<B, et_off> >::value && is_signed_number<B>::value), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<(is_compatible_arithmetic_type<V, number<B, et_off> >::value && is_signed_number<B>::value) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator-(const V& a, number<B, et_off>&& b)
{
using default_ops::eval_subtract;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_subtract(b.backend(), number<B, et_off>::canonical_value(a));
b.backend().negate();
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
//
// Multiply:
using default_ops::eval_multiply;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_multiply(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator*(const number<B, et_off>& a, number<B, et_off>&& b)
using default_ops::eval_multiply;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_multiply(b.backend(), a.backend());
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
template <class B>
BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR number<B, et_off> operator*(number<B, et_off>&& a, number<B, et_off>&& b)
using default_ops::eval_multiply;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_multiply(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator*(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_multiply;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_multiply(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator*(const V& a, number<B, et_off>&& b)
{
using default_ops::eval_multiply;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_multiply(b.backend(), number<B, et_off>::canonical_value(a));
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
//
// divide:
using default_ops::eval_divide;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_divide(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >, number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value, number<B, et_off> >::type
operator/(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_divide;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_divide(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
//
// modulus:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator%(number<B, et_off>&& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator%(number<B, et_off>&& a, const number<B, et_off>& b)
{
using default_ops::eval_modulus;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_modulus(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator%(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_modulus;
detail::scoped_default_precision<multiprecision::number<B, et_off> > precision_guard(a, b);
eval_modulus(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
//
// Bitwise or:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(number<B, et_off>&& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(number<B, et_off>&& a, const number<B, et_off>& b)
{
using default_ops::eval_bitwise_or;
eval_bitwise_or(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(const number<B, et_off>& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(const number<B, et_off>& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_or;
eval_bitwise_or(b.backend(), a.backend());
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(number<B, et_off>&& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator|(number<B, et_off>&& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_or;
eval_bitwise_or(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator|(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_bitwise_or;
eval_bitwise_or(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator|(const V& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_or;
eval_bitwise_or(b.backend(), number<B, et_off>::canonical_value(a));
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
//
// Bitwise xor:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(number<B, et_off>&& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(number<B, et_off>&& a, const number<B, et_off>& b)
{
using default_ops::eval_bitwise_xor;
eval_bitwise_xor(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(const number<B, et_off>& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(const number<B, et_off>& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_xor;
eval_bitwise_xor(b.backend(), a.backend());
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(number<B, et_off>&& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator^(number<B, et_off>&& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_xor;
eval_bitwise_xor(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator^(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_bitwise_xor;
eval_bitwise_xor(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator^(const V& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_xor;
eval_bitwise_xor(b.backend(), number<B, et_off>::canonical_value(a));
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
//
// Bitwise and:
//
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(number<B, et_off>&& a, const number<B, et_off>& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(number<B, et_off>&& a, const number<B, et_off>& b)
{
using default_ops::eval_bitwise_and;
eval_bitwise_and(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(const number<B, et_off>& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(const number<B, et_off>& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_and;
eval_bitwise_and(b.backend(), a.backend());
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
template <class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(number<B, et_off>&& a, number<B, et_off>&& b)
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<number_category<B>::value == number_kind_integer, number<B, et_off> >::type operator&(number<B, et_off>&& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_and;
eval_bitwise_and(a.backend(), b.backend());
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class V>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator&(number<B, et_off>&& a, const V& b)
{
using default_ops::eval_bitwise_and;
eval_bitwise_and(a.backend(), number<B, et_off>::canonical_value(b));
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class V, class B>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<is_compatible_arithmetic_type<V, number<B, et_off> >::value && (number_category<B>::value == number_kind_integer) && !is_equivalent_number_type<V, B>::value, number<B, et_off> >::type
operator&(const V& a, number<B, et_off>&& b)
{
using default_ops::eval_bitwise_and;
eval_bitwise_and(b.backend(), number<B, et_off>::canonical_value(a));
- return static_cast<number<B, et_off>&&>(b);
+ return std::move(b);
}
//
// shifts:
//
template <class B, class I>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<boost::multiprecision::detail::is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator<<(number<B, et_off>&& a, const I& b)
{
using default_ops::eval_left_shift;
eval_left_shift(a.backend(), b);
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
template <class B, class I>
- BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename enable_if_c<is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
+ BOOST_MP_FORCEINLINE BOOST_MP_CXX14_CONSTEXPR typename std::enable_if<boost::multiprecision::detail::is_integral<I>::value && (number_category<B>::value == number_kind_integer), number<B, et_off> >::type
operator>>(number<B, et_off>&& a, const I& b)
{
using default_ops::eval_right_shift;
eval_right_shift(a.backend(), b);
- return static_cast<number<B, et_off>&&>(a);
+ return std::move(a);
}
-#endif
}
} // namespace boost::multiprecision