130 lines
6.5 KiB
C++
130 lines
6.5 KiB
C++
/*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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* Copyright 2015 Danny Robson <danny@nerdcruft.net>
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*/
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#ifndef __UTIL_STRONGDEF_HPP
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#define __UTIL_STRONGDEF_HPP
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#include <limits>
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#include <type_traits>
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namespace util {
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/// A transparent wrapper around a (typically lightweight) type for the
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/// purposes of overload disambiguation. It acts like a typesafe typedef.
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template <typename T,typename Tag>
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struct strongdef {
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public:
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using value_type = T;
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using tag_type = Tag;
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constexpr strongdef () = delete;
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constexpr explicit strongdef (const T &_data): data (_data) { ; }
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// explicitly disable assignment with unequal types or tags. this
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// prevents the converion operator getting invoked and falsely
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// allowing assignment with differing types or tags.
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template <typename U, typename TagU>
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std::enable_if_t<
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!std::is_same<T,U>::value || !std::is_same<Tag,TagU>::value,
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strongdef<T,Tag>&
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>
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operator= (const strongdef<U,TagU> &rhs) = delete;
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template <typename U, typename TagU>
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std::enable_if_t<
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std::is_same<T,U>::value && std::is_same<Tag,TagU>::value,
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strongdef<T,Tag>&
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>
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operator= (const strongdef<U,TagU> &rhs)
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{ data = rhs.data; return *this; }
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// simple value_type assignment.
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strongdef& operator= (const T &rhs)&
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{ data = rhs; return *this; }
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// conversion operators must not be explicit or it defeats the point
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// of this class (ease of use, transparency).
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operator const T& (void) const& { return data; }
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operator T& (void) & { return data; }
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// explicitly disable equality with unequal types or tags. this
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// prevents the conversion operator getting invoked and falsely
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// allowing equality with different types or tags.
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template <typename U, typename TagU>
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std::enable_if_t<
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!std::is_same<T,U>::value ||
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!std::is_same<Tag,TagU>::value,
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bool
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>
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operator== (const strongdef<U,TagU> &rhs) const = delete;
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// provide a usable equality for equal types and tags
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template <typename U, typename TagU>
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constexpr
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std::enable_if_t<
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std::is_same<T,U>::value &&
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std::is_same<Tag,TagU>::value,
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bool
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>
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operator== (const strongdef<U,TagU> &rhs) const { return data == rhs.data; }
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T data;
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};
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}
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namespace std {
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template <typename T, typename Tag>
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struct numeric_limits<util::strongdef<T,Tag>> {
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using value_type = typename util::strongdef<T,Tag>::value_type;
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static constexpr bool is_specialized = numeric_limits<value_type>::is_specialized;
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static constexpr bool is_signed = numeric_limits<value_type>::is_signed;
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static constexpr bool is_integer = numeric_limits<value_type>::is_integer;
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static constexpr bool is_exact = numeric_limits<value_type>::is_exact;
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static constexpr bool has_infinity = numeric_limits<value_type>::has_infinity;
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static constexpr bool has_quiet_NaN = numeric_limits<value_type>::has_quiet_NaN;
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static constexpr bool has_signaling_NaN = numeric_limits<value_type>::has_signaling_NaN;
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static constexpr bool has_denorm = numeric_limits<value_type>::has_denorm;
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static constexpr bool has_denorm_loss = numeric_limits<value_type>::has_denorm_loss;
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static constexpr std::float_round_style round_style = numeric_limits<value_type>::round_style;
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static constexpr bool is_iec559 = numeric_limits<value_type>::is_iec559;
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static constexpr bool is_bounded = numeric_limits<value_type>::is_bounded;
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static constexpr bool is_modulo = numeric_limits<value_type>::is_modulo;
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static constexpr int digits = numeric_limits<value_type>::digits;
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static constexpr int digits10 = numeric_limits<value_type>::digits10;
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static constexpr int max_digits10 = numeric_limits<value_type>::max_digits10;
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static constexpr int radix = numeric_limits<value_type>::radix;
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static constexpr int min_exponent = numeric_limits<value_type>::min_exponent;
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static constexpr int min_exponent10 = numeric_limits<value_type>::min_exponent10;
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static constexpr int max_exponent = numeric_limits<value_type>::max_exponent;
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static constexpr int max_exponent10 = numeric_limits<value_type>::max_exponent10;
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static constexpr bool traps = numeric_limits<value_type>::traps;
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static constexpr bool tinyness_before = numeric_limits<value_type>::tinyness_before;
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static constexpr value_type min (void) { return numeric_limits<value_type>::min (); }
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static constexpr value_type lowest (void) { return numeric_limits<value_type>::lowest (); }
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static constexpr value_type max (void) { return numeric_limits<value_type>::max (); }
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static constexpr value_type epsilon (void) { return numeric_limits<value_type>::epsilon (); }
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static constexpr value_type round_error (void) { return numeric_limits<value_type>::round_error (); }
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static constexpr value_type infinity (void) { return numeric_limits<value_type>::infinity (); }
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static constexpr value_type quiet_NaN (void) { return numeric_limits<value_type>::quiet_NaN (); }
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static constexpr value_type signaling_NaN (void) { return numeric_limits<value_type>::signaling_NaN (); }
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static constexpr value_type denorm_min (void) { return numeric_limits<value_type>::denorm_min (); }
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};
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}
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#endif
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