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ae75c3faa8
Also make CompactPair<A, B> a literal type if A and B are literal types, and add MaybeStorageBase that ought to be used as a basis of MaybeStorage in a follow-up patch. Differential Revision: https://phabricator.services.mozilla.com/D55930
245 lines
8.6 KiB
C++
245 lines
8.6 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/* A class holding a pair of objects that tries to conserve storage space. */
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#ifndef mozilla_CompactPair_h
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#define mozilla_CompactPair_h
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#include <type_traits>
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#include <tuple>
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#include <utility>
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#include "mozilla/Attributes.h"
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namespace mozilla {
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namespace detail {
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enum StorageType { AsBase, AsMember };
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// Optimize storage using the Empty Base Optimization -- that empty base classes
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// don't take up space -- to optimize size when one or the other class is
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// stateless and can be used as a base class.
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//
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// The extra conditions on storage for B are necessary so that CompactPairHelper
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// won't ambiguously inherit from either A or B, such that one or the other base
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// class would be inaccessible.
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template <typename A, typename B,
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detail::StorageType =
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std::is_empty_v<A> ? detail::AsBase : detail::AsMember,
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detail::StorageType = std::is_empty_v<B> &&
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!std::is_base_of<A, B>::value &&
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!std::is_base_of<B, A>::value
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? detail::AsBase
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: detail::AsMember>
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struct CompactPairHelper;
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template <typename A, typename B>
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struct CompactPairHelper<A, B, AsMember, AsMember> {
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protected:
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template <typename... AArgs, std::size_t... AIndexes, typename... BArgs,
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std::size_t... BIndexes>
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constexpr CompactPairHelper(std::tuple<AArgs...>& aATuple,
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std::tuple<BArgs...>& aBTuple,
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std::index_sequence<AIndexes...>,
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std::index_sequence<BIndexes...>)
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: mFirstA(std::forward<AArgs>(std::get<AIndexes>(aATuple))...),
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mSecondB(std::forward<BArgs>(std::get<BIndexes>(aBTuple))...) {}
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public:
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template <typename AArg, typename BArg>
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constexpr CompactPairHelper(AArg&& aA, BArg&& aB)
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: mFirstA(std::forward<AArg>(aA)), mSecondB(std::forward<BArg>(aB)) {}
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constexpr A& first() { return mFirstA; }
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constexpr const A& first() const { return mFirstA; }
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constexpr B& second() { return mSecondB; }
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constexpr const B& second() const { return mSecondB; }
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void swap(CompactPairHelper& aOther) {
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std::swap(mFirstA, aOther.mFirstA);
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std::swap(mSecondB, aOther.mSecondB);
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}
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private:
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A mFirstA;
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B mSecondB;
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};
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template <typename A, typename B>
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struct CompactPairHelper<A, B, AsMember, AsBase> : private B {
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protected:
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template <typename... AArgs, std::size_t... AIndexes, typename... BArgs,
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std::size_t... BIndexes>
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constexpr CompactPairHelper(std::tuple<AArgs...>& aATuple,
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std::tuple<BArgs...>& aBTuple,
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std::index_sequence<AIndexes...>,
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std::index_sequence<BIndexes...>)
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: B(std::forward<BArgs>(std::get<BIndexes>(aBTuple))...),
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mFirstA(std::forward<AArgs>(std::get<AIndexes>(aATuple))...) {}
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public:
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template <typename AArg, typename BArg>
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constexpr CompactPairHelper(AArg&& aA, BArg&& aB)
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: B(std::forward<BArg>(aB)), mFirstA(std::forward<AArg>(aA)) {}
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constexpr A& first() { return mFirstA; }
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constexpr const A& first() const { return mFirstA; }
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constexpr B& second() { return *this; }
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constexpr const B& second() const { return *this; }
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void swap(CompactPairHelper& aOther) {
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std::swap(mFirstA, aOther.mFirstA);
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std::swap(static_cast<B&>(*this), static_cast<B&>(aOther));
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}
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private:
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A mFirstA;
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};
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template <typename A, typename B>
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struct CompactPairHelper<A, B, AsBase, AsMember> : private A {
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protected:
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template <typename... AArgs, std::size_t... AIndexes, typename... BArgs,
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std::size_t... BIndexes>
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constexpr CompactPairHelper(std::tuple<AArgs...>& aATuple,
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std::tuple<BArgs...>& aBTuple,
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std::index_sequence<AIndexes...>,
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std::index_sequence<BIndexes...>)
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: A(std::forward<AArgs>(std::get<AIndexes>(aATuple))...),
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mSecondB(std::forward<BArgs>(std::get<BIndexes>(aBTuple))...) {}
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public:
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template <typename AArg, typename BArg>
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constexpr CompactPairHelper(AArg&& aA, BArg&& aB)
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: A(std::forward<AArg>(aA)), mSecondB(std::forward<BArg>(aB)) {}
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constexpr A& first() { return *this; }
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constexpr const A& first() const { return *this; }
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constexpr B& second() { return mSecondB; }
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constexpr const B& second() const { return mSecondB; }
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void swap(CompactPairHelper& aOther) {
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std::swap(static_cast<A&>(*this), static_cast<A&>(aOther));
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std::swap(mSecondB, aOther.mSecondB);
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}
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private:
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B mSecondB;
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};
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template <typename A, typename B>
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struct CompactPairHelper<A, B, AsBase, AsBase> : private A, private B {
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protected:
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template <typename... AArgs, std::size_t... AIndexes, typename... BArgs,
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std::size_t... BIndexes>
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constexpr CompactPairHelper(std::tuple<AArgs...>& aATuple,
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std::tuple<BArgs...>& aBTuple,
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std::index_sequence<AIndexes...>,
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std::index_sequence<BIndexes...>)
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: A(std::forward<AArgs>(std::get<AIndexes>(aATuple))...),
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B(std::forward<BArgs>(std::get<BIndexes>(aBTuple))...) {}
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public:
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template <typename AArg, typename BArg>
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constexpr CompactPairHelper(AArg&& aA, BArg&& aB)
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: A(std::forward<AArg>(aA)), B(std::forward<BArg>(aB)) {}
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constexpr A& first() { return static_cast<A&>(*this); }
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constexpr const A& first() const { return static_cast<A&>(*this); }
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constexpr B& second() { return static_cast<B&>(*this); }
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constexpr const B& second() const { return static_cast<B&>(*this); }
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void swap(CompactPairHelper& aOther) {
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std::swap(static_cast<A&>(*this), static_cast<A&>(aOther));
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std::swap(static_cast<B&>(*this), static_cast<B&>(aOther));
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}
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};
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} // namespace detail
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/**
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* CompactPair is the logical concatenation of an instance of A with an instance
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* B. Space is conserved when possible. Neither A nor B may be a final class.
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*
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* In general if space conservation is not critical is preferred to use
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* std::pair.
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*
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* It's typically clearer to have individual A and B member fields. Except if
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* you want the space-conserving qualities of CompactPair, you're probably
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* better off not using this!
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*
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* No guarantees are provided about the memory layout of A and B, the order of
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* initialization or destruction of A and B, and so on. (This is approximately
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* required to optimize space usage.) The first/second names are merely
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* conceptual!
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*/
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template <typename A, typename B>
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struct CompactPair : private detail::CompactPairHelper<A, B> {
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typedef typename detail::CompactPairHelper<A, B> Base;
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using Base::Base;
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template <typename... AArgs, typename... BArgs>
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constexpr CompactPair(std::piecewise_construct_t, std::tuple<AArgs...> aFirst,
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std::tuple<BArgs...> aSecond)
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: Base(aFirst, aSecond, std::index_sequence_for<AArgs...>(),
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std::index_sequence_for<BArgs...>()) {}
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CompactPair(CompactPair&& aOther) = default;
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CompactPair(const CompactPair& aOther) = default;
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CompactPair& operator=(CompactPair&& aOther) = default;
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CompactPair& operator=(const CompactPair& aOther) = default;
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/** The A instance. */
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using Base::first;
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/** The B instance. */
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using Base::second;
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/** Swap this pair with another pair. */
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void swap(CompactPair& aOther) { Base::swap(aOther); }
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};
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/**
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* MakeCompactPair allows you to construct a CompactPair instance using type
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* inference. A call like this:
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*
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* MakeCompactPair(Foo(), Bar())
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*
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* will return a CompactPair<Foo, Bar>.
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*/
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template <typename A, typename B>
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CompactPair<std::remove_cv_t<std::remove_reference_t<A>>,
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std::remove_cv_t<std::remove_reference_t<B>>>
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MakeCompactPair(A&& aA, B&& aB) {
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return CompactPair<std::remove_cv_t<std::remove_reference_t<A>>,
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std::remove_cv_t<std::remove_reference_t<B>>>(
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std::forward<A>(aA), std::forward<B>(aB));
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}
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/**
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* CompactPair equality comparison
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*/
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template <typename A, typename B>
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bool operator==(const CompactPair<A, B>& aLhs, const CompactPair<A, B>& aRhs) {
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return aLhs.first() == aRhs.first() && aLhs.second() == aRhs.second();
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}
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} // namespace mozilla
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namespace std {
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template <typename A, class B>
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void swap(mozilla::CompactPair<A, B>& aX, mozilla::CompactPair<A, B>& aY) {
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aX.swap(aY);
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}
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} // namespace std
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#endif /* mozilla_CompactPair_h */
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