/* * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or copy at * http://www.boost.org/LICENSE_1_0.txt) * * Copyright (c) 2011 Helge Bahmann * Copyright (c) 2013 Tim Blechmann * Copyright (c) 2014 Andrey Semashev */ /*! * \file atomic/detail/atomic_template.hpp * * This header contains interface definition of \c atomic template. */ #ifndef BOOST_ATOMIC_DETAIL_ATOMIC_TEMPLATE_HPP_INCLUDED_ #define BOOST_ATOMIC_DETAIL_ATOMIC_TEMPLATE_HPP_INCLUDED_ #include #include #include #include #include #include #include #include #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif #if defined(BOOST_MSVC) #pragma warning(push) // 'boost::atomics::atomic' : multiple assignment operators specified #pragma warning(disable: 4522) #endif /* * IMPLEMENTATION NOTE: All interface functions MUST be declared with BOOST_FORCEINLINE, * see comment for convert_memory_order_to_gcc in ops_gcc_atomic.hpp. */ namespace boost { namespace atomics { namespace detail { BOOST_FORCEINLINE BOOST_CONSTEXPR memory_order deduce_failure_order(memory_order order) BOOST_NOEXCEPT { return order == memory_order_acq_rel ? memory_order_acquire : (order == memory_order_release ? memory_order_relaxed : order); } BOOST_FORCEINLINE BOOST_CONSTEXPR bool cas_failure_order_must_not_be_stronger_than_success_order(memory_order success_order, memory_order failure_order) BOOST_NOEXCEPT { // 15 == (memory_order_seq_cst | memory_order_consume), see memory_order.hpp // Given the enum values we can test the strength of memory order requirements with this single condition. return (failure_order & 15u) <= (success_order & 15u); } template< typename T, bool IsInt = boost::is_integral< T >::value > struct classify { typedef void type; }; template< typename T > struct classify< T, true > { typedef int type; }; template< typename T > struct classify< T*, false > { typedef void* type; }; template< typename T, typename Kind > class base_atomic; //! Implementation for integers template< typename T > class base_atomic< T, int > { private: typedef T value_type; typedef T difference_type; protected: typedef atomics::detail::operations< storage_size_of< value_type >::value, boost::is_signed< T >::value > operations; typedef value_type value_arg_type; public: typedef typename operations::storage_type storage_type; protected: typename operations::aligned_storage_type m_storage; public: BOOST_DEFAULTED_FUNCTION(base_atomic(), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : m_storage(v) {} BOOST_FORCEINLINE void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_consume); BOOST_ASSERT(order != memory_order_acquire); BOOST_ASSERT(order != memory_order_acq_rel); operations::store(m_storage.value, static_cast< storage_type >(v), order); } BOOST_FORCEINLINE value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_release); BOOST_ASSERT(order != memory_order_acq_rel); return static_cast< value_type >(operations::load(m_storage.value, order)); } BOOST_FORCEINLINE value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return static_cast< value_type >(operations::fetch_add(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return static_cast< value_type >(operations::fetch_sub(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return static_cast< value_type >(operations::exchange(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = static_cast< storage_type >(expected); const bool res = operations::compare_exchange_strong(m_storage.value, old_value, static_cast< storage_type >(desired), success_order, failure_order); expected = static_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = static_cast< storage_type >(expected); const bool res = operations::compare_exchange_weak(m_storage.value, old_value, static_cast< storage_type >(desired), success_order, failure_order); expected = static_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_weak(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return static_cast< value_type >(operations::fetch_and(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return static_cast< value_type >(operations::fetch_or(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return static_cast< value_type >(operations::fetch_xor(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE bool is_lock_free() const volatile BOOST_NOEXCEPT { return operations::is_lock_free(m_storage.value); } BOOST_FORCEINLINE value_type operator++(int) volatile BOOST_NOEXCEPT { return fetch_add(1); } BOOST_FORCEINLINE value_type operator++() volatile BOOST_NOEXCEPT { return fetch_add(1) + 1; } BOOST_FORCEINLINE value_type operator--(int) volatile BOOST_NOEXCEPT { return fetch_sub(1); } BOOST_FORCEINLINE value_type operator--() volatile BOOST_NOEXCEPT { return fetch_sub(1) - 1; } BOOST_FORCEINLINE value_type operator+=(difference_type v) volatile BOOST_NOEXCEPT { return fetch_add(v) + v; } BOOST_FORCEINLINE value_type operator-=(difference_type v) volatile BOOST_NOEXCEPT { return fetch_sub(v) - v; } BOOST_FORCEINLINE value_type operator&=(value_type v) volatile BOOST_NOEXCEPT { return fetch_and(v) & v; } BOOST_FORCEINLINE value_type operator|=(value_type v) volatile BOOST_NOEXCEPT { return fetch_or(v) | v; } BOOST_FORCEINLINE value_type operator^=(value_type v) volatile BOOST_NOEXCEPT { return fetch_xor(v) ^ v; } BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) }; //! Implementation for bool template< > class base_atomic< bool, int > { private: typedef bool value_type; protected: typedef atomics::detail::operations< 1u, false > operations; typedef value_type value_arg_type; public: typedef operations::storage_type storage_type; protected: operations::aligned_storage_type m_storage; public: BOOST_DEFAULTED_FUNCTION(base_atomic(), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : m_storage(v) {} BOOST_FORCEINLINE void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_consume); BOOST_ASSERT(order != memory_order_acquire); BOOST_ASSERT(order != memory_order_acq_rel); operations::store(m_storage.value, static_cast< storage_type >(v), order); } BOOST_FORCEINLINE value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_release); BOOST_ASSERT(order != memory_order_acq_rel); return !!operations::load(m_storage.value, order); } BOOST_FORCEINLINE value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return !!operations::exchange(m_storage.value, static_cast< storage_type >(v), order); } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = static_cast< storage_type >(expected); const bool res = operations::compare_exchange_strong(m_storage.value, old_value, static_cast< storage_type >(desired), success_order, failure_order); expected = !!old_value; return res; } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = static_cast< storage_type >(expected); const bool res = operations::compare_exchange_weak(m_storage.value, old_value, static_cast< storage_type >(desired), success_order, failure_order); expected = !!old_value; return res; } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_weak(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool is_lock_free() const volatile BOOST_NOEXCEPT { return operations::is_lock_free(m_storage.value); } BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) }; //! Implementation for user-defined types, such as structs and enums template< typename T > class base_atomic< T, void > { private: typedef T value_type; protected: typedef atomics::detail::operations< storage_size_of< value_type >::value, false > operations; typedef value_type const& value_arg_type; public: typedef typename operations::storage_type storage_type; protected: typename operations::aligned_storage_type m_storage; public: BOOST_FORCEINLINE explicit base_atomic(value_type const& v = value_type()) BOOST_NOEXCEPT : m_storage(atomics::detail::bitwise_cast< storage_type >(v)) { } BOOST_FORCEINLINE void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_consume); BOOST_ASSERT(order != memory_order_acquire); BOOST_ASSERT(order != memory_order_acq_rel); operations::store(m_storage.value, atomics::detail::bitwise_cast< storage_type >(v), order); } BOOST_FORCEINLINE value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_release); BOOST_ASSERT(order != memory_order_acq_rel); return atomics::detail::bitwise_cast< value_type >(operations::load(m_storage.value, order)); } BOOST_FORCEINLINE value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::exchange(m_storage.value, atomics::detail::bitwise_cast< storage_type >(v), order)); } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = atomics::detail::bitwise_cast< storage_type >(expected); const bool res = operations::compare_exchange_strong(m_storage.value, old_value, atomics::detail::bitwise_cast< storage_type >(desired), success_order, failure_order); expected = atomics::detail::bitwise_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = atomics::detail::bitwise_cast< storage_type >(expected); const bool res = operations::compare_exchange_weak(m_storage.value, old_value, atomics::detail::bitwise_cast< storage_type >(desired), success_order, failure_order); expected = atomics::detail::bitwise_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_weak(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool is_lock_free() const volatile BOOST_NOEXCEPT { return operations::is_lock_free(m_storage.value); } BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) }; //! Implementation for pointers template< typename T > class base_atomic< T*, void* > { private: typedef T* value_type; typedef std::ptrdiff_t difference_type; protected: typedef atomics::detail::operations< storage_size_of< value_type >::value, false > operations; typedef value_type value_arg_type; public: typedef typename operations::storage_type storage_type; protected: typename operations::aligned_storage_type m_storage; public: BOOST_DEFAULTED_FUNCTION(base_atomic(), {}) BOOST_FORCEINLINE explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : m_storage(atomics::detail::bitwise_cast< storage_type >(v)) { } BOOST_FORCEINLINE void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_consume); BOOST_ASSERT(order != memory_order_acquire); BOOST_ASSERT(order != memory_order_acq_rel); operations::store(m_storage.value, atomics::detail::bitwise_cast< storage_type >(v), order); } BOOST_FORCEINLINE value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_release); BOOST_ASSERT(order != memory_order_acq_rel); return atomics::detail::bitwise_cast< value_type >(operations::load(m_storage.value, order)); } BOOST_FORCEINLINE value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::fetch_add(m_storage.value, static_cast< storage_type >(v * sizeof(T)), order)); } BOOST_FORCEINLINE value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::fetch_sub(m_storage.value, static_cast< storage_type >(v * sizeof(T)), order)); } BOOST_FORCEINLINE value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::exchange(m_storage.value, atomics::detail::bitwise_cast< storage_type >(v), order)); } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = atomics::detail::bitwise_cast< storage_type >(expected); const bool res = operations::compare_exchange_strong(m_storage.value, old_value, atomics::detail::bitwise_cast< storage_type >(desired), success_order, failure_order); expected = atomics::detail::bitwise_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = atomics::detail::bitwise_cast< storage_type >(expected); const bool res = operations::compare_exchange_weak(m_storage.value, old_value, atomics::detail::bitwise_cast< storage_type >(desired), success_order, failure_order); expected = atomics::detail::bitwise_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_weak(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool is_lock_free() const volatile BOOST_NOEXCEPT { return operations::is_lock_free(m_storage.value); } BOOST_FORCEINLINE value_type operator++(int) volatile BOOST_NOEXCEPT { return fetch_add(1); } BOOST_FORCEINLINE value_type operator++() volatile BOOST_NOEXCEPT { return fetch_add(1) + 1; } BOOST_FORCEINLINE value_type operator--(int) volatile BOOST_NOEXCEPT { return fetch_sub(1); } BOOST_FORCEINLINE value_type operator--() volatile BOOST_NOEXCEPT { return fetch_sub(1) - 1; } BOOST_FORCEINLINE value_type operator+=(difference_type v) volatile BOOST_NOEXCEPT { return fetch_add(v) + v; } BOOST_FORCEINLINE value_type operator-=(difference_type v) volatile BOOST_NOEXCEPT { return fetch_sub(v) - v; } BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) }; //! Implementation for void pointers template< > class base_atomic< void*, void* > { private: typedef void* value_type; typedef std::ptrdiff_t difference_type; protected: typedef atomics::detail::operations< storage_size_of< value_type >::value, false > operations; typedef value_type value_arg_type; public: typedef operations::storage_type storage_type; protected: operations::aligned_storage_type m_storage; public: BOOST_DEFAULTED_FUNCTION(base_atomic(), {}) BOOST_FORCEINLINE explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : m_storage(atomics::detail::bitwise_cast< storage_type >(v)) { } BOOST_FORCEINLINE void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_consume); BOOST_ASSERT(order != memory_order_acquire); BOOST_ASSERT(order != memory_order_acq_rel); operations::store(m_storage.value, atomics::detail::bitwise_cast< storage_type >(v), order); } BOOST_FORCEINLINE value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { BOOST_ASSERT(order != memory_order_release); BOOST_ASSERT(order != memory_order_acq_rel); return atomics::detail::bitwise_cast< value_type >(operations::load(m_storage.value, order)); } BOOST_FORCEINLINE value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::fetch_add(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::fetch_sub(m_storage.value, static_cast< storage_type >(v), order)); } BOOST_FORCEINLINE value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return atomics::detail::bitwise_cast< value_type >(operations::exchange(m_storage.value, atomics::detail::bitwise_cast< storage_type >(v), order)); } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = atomics::detail::bitwise_cast< storage_type >(expected); const bool res = operations::compare_exchange_strong(m_storage.value, old_value, atomics::detail::bitwise_cast< storage_type >(desired), success_order, failure_order); expected = atomics::detail::bitwise_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_strong(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { BOOST_ASSERT(failure_order != memory_order_release); BOOST_ASSERT(failure_order != memory_order_acq_rel); BOOST_ASSERT(cas_failure_order_must_not_be_stronger_than_success_order(success_order, failure_order)); storage_type old_value = atomics::detail::bitwise_cast< storage_type >(expected); const bool res = operations::compare_exchange_weak(m_storage.value, old_value, atomics::detail::bitwise_cast< storage_type >(desired), success_order, failure_order); expected = atomics::detail::bitwise_cast< value_type >(old_value); return res; } BOOST_FORCEINLINE bool compare_exchange_weak(value_type& expected, value_type desired, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { return compare_exchange_weak(expected, desired, order, atomics::detail::deduce_failure_order(order)); } BOOST_FORCEINLINE bool is_lock_free() const volatile BOOST_NOEXCEPT { return operations::is_lock_free(m_storage.value); } BOOST_FORCEINLINE value_type operator++(int) volatile BOOST_NOEXCEPT { return fetch_add(1); } BOOST_FORCEINLINE value_type operator++() volatile BOOST_NOEXCEPT { return (char*)fetch_add(1) + 1; } BOOST_FORCEINLINE value_type operator--(int) volatile BOOST_NOEXCEPT { return fetch_sub(1); } BOOST_FORCEINLINE value_type operator--() volatile BOOST_NOEXCEPT { return (char*)fetch_sub(1) - 1; } BOOST_FORCEINLINE value_type operator+=(difference_type v) volatile BOOST_NOEXCEPT { return (char*)fetch_add(v) + v; } BOOST_FORCEINLINE value_type operator-=(difference_type v) volatile BOOST_NOEXCEPT { return (char*)fetch_sub(v) - v; } BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) }; } // namespace detail template< typename T > class atomic : public atomics::detail::base_atomic< T, typename atomics::detail::classify< T >::type > { private: typedef T value_type; typedef atomics::detail::base_atomic< T, typename atomics::detail::classify< T >::type > base_type; typedef typename base_type::value_arg_type value_arg_type; public: typedef typename base_type::storage_type storage_type; public: static BOOST_CONSTEXPR_OR_CONST bool is_always_lock_free = base_type::operations::is_always_lock_free; public: BOOST_DEFAULTED_FUNCTION(atomic(), BOOST_NOEXCEPT {}) // NOTE: The constructor is made explicit because gcc 4.7 complains that // operator=(value_arg_type) is considered ambiguous with operator=(atomic const&) // in assignment expressions, even though conversion to atomic<> is less preferred // than conversion to value_arg_type. BOOST_FORCEINLINE explicit BOOST_CONSTEXPR atomic(value_arg_type v) BOOST_NOEXCEPT : base_type(v) {} BOOST_FORCEINLINE value_type operator= (value_arg_type v) volatile BOOST_NOEXCEPT { this->store(v); return v; } BOOST_FORCEINLINE operator value_type() volatile const BOOST_NOEXCEPT { return this->load(); } BOOST_FORCEINLINE storage_type& storage() BOOST_NOEXCEPT { return this->m_storage.value; } BOOST_FORCEINLINE storage_type volatile& storage() volatile BOOST_NOEXCEPT { return this->m_storage.value; } BOOST_FORCEINLINE storage_type const& storage() const BOOST_NOEXCEPT { return this->m_storage.value; } BOOST_FORCEINLINE storage_type const volatile& storage() const volatile BOOST_NOEXCEPT { return this->m_storage.value; } BOOST_DELETED_FUNCTION(atomic(atomic const&)) BOOST_DELETED_FUNCTION(atomic& operator= (atomic const&)) BOOST_DELETED_FUNCTION(atomic& operator= (atomic const&) volatile) }; template< typename T > BOOST_CONSTEXPR_OR_CONST bool atomic< T >::is_always_lock_free; typedef atomic< char > atomic_char; typedef atomic< unsigned char > atomic_uchar; typedef atomic< signed char > atomic_schar; typedef atomic< uint8_t > atomic_uint8_t; typedef atomic< int8_t > atomic_int8_t; typedef atomic< unsigned short > atomic_ushort; typedef atomic< short > atomic_short; typedef atomic< uint16_t > atomic_uint16_t; typedef atomic< int16_t > atomic_int16_t; typedef atomic< unsigned int > atomic_uint; typedef atomic< int > atomic_int; typedef atomic< uint32_t > atomic_uint32_t; typedef atomic< int32_t > atomic_int32_t; typedef atomic< unsigned long > atomic_ulong; typedef atomic< long > atomic_long; typedef atomic< uint64_t > atomic_uint64_t; typedef atomic< int64_t > atomic_int64_t; #ifdef BOOST_HAS_LONG_LONG typedef atomic< boost::ulong_long_type > atomic_ullong; typedef atomic< boost::long_long_type > atomic_llong; #endif typedef atomic< void* > atomic_address; typedef atomic< bool > atomic_bool; typedef atomic< wchar_t > atomic_wchar_t; #if !defined(BOOST_NO_CXX11_CHAR16_T) typedef atomic< char16_t > atomic_char16_t; #endif #if !defined(BOOST_NO_CXX11_CHAR32_T) typedef atomic< char32_t > atomic_char32_t; #endif typedef atomic< int_least8_t > atomic_int_least8_t; typedef atomic< uint_least8_t > atomic_uint_least8_t; typedef atomic< int_least16_t > atomic_int_least16_t; typedef atomic< uint_least16_t > atomic_uint_least16_t; typedef atomic< int_least32_t > atomic_int_least32_t; typedef atomic< uint_least32_t > atomic_uint_least32_t; typedef atomic< int_least64_t > atomic_int_least64_t; typedef atomic< uint_least64_t > atomic_uint_least64_t; typedef atomic< int_fast8_t > atomic_int_fast8_t; typedef atomic< uint_fast8_t > atomic_uint_fast8_t; typedef atomic< int_fast16_t > atomic_int_fast16_t; typedef atomic< uint_fast16_t > atomic_uint_fast16_t; typedef atomic< int_fast32_t > atomic_int_fast32_t; typedef atomic< uint_fast32_t > atomic_uint_fast32_t; typedef atomic< int_fast64_t > atomic_int_fast64_t; typedef atomic< uint_fast64_t > atomic_uint_fast64_t; typedef atomic< intmax_t > atomic_intmax_t; typedef atomic< uintmax_t > atomic_uintmax_t; typedef atomic< std::size_t > atomic_size_t; typedef atomic< std::ptrdiff_t > atomic_ptrdiff_t; #if defined(BOOST_HAS_INTPTR_T) typedef atomic< intptr_t > atomic_intptr_t; typedef atomic< uintptr_t > atomic_uintptr_t; #endif } // namespace atomics } // namespace boost #if defined(BOOST_MSVC) #pragma warning(pop) #endif #endif // BOOST_ATOMIC_DETAIL_ATOMIC_TEMPLATE_HPP_INCLUDED_