#ifndef BOOST_ATOMIC_DETAIL_GCC_SPARC_HPP #define BOOST_ATOMIC_DETAIL_GCC_SPARC_HPP // Copyright (c) 2010 Helge Bahmann // Copyright (c) 2013 Tim Blechmann // // 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) #include #include #include #ifdef BOOST_ATOMIC_HAS_PRAGMA_ONCE #pragma once #endif namespace boost { namespace atomics { namespace detail { inline void platform_fence_before(memory_order order) { switch(order) { case memory_order_relaxed: case memory_order_acquire: case memory_order_consume: break; case memory_order_release: case memory_order_acq_rel: __asm__ __volatile__ ("membar #StoreStore | #LoadStore" ::: "memory"); /* release */ break; case memory_order_seq_cst: __asm__ __volatile__ ("membar #Sync" ::: "memory"); /* seq */ break; } } inline void platform_fence_after(memory_order order) { switch(order) { case memory_order_relaxed: case memory_order_release: break; case memory_order_acquire: case memory_order_acq_rel: __asm__ __volatile__ ("membar #LoadLoad | #LoadStore" ::: "memory"); /* acquire */ break; case memory_order_consume: /* consume */ break; case memory_order_seq_cst: __asm__ __volatile__ ("membar #Sync" ::: "memory"); /* seq */ break; default:; } } inline void platform_fence_after_store(memory_order order) { switch(order) { case memory_order_seq_cst: __asm__ __volatile__ ("membar #Sync" ::: "memory"); default:; } } inline void platform_fence_after_load(memory_order order) { platform_fence_after(order); } } } class atomic_flag { private: atomic_flag(const atomic_flag &) /* = delete */ ; atomic_flag & operator=(const atomic_flag &) /* = delete */ ; uint32_t v_; public: BOOST_CONSTEXPR atomic_flag(void) BOOST_NOEXCEPT : v_(0) {} void clear(memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { atomics::detail::platform_fence_before(order); const_cast(v_) = 0; atomics::detail::platform_fence_after_store(order); } bool test_and_set(memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { atomics::detail::platform_fence_before(order); uint32_t tmp = 1; __asm__ ( "cas [%1], %2, %0" : "+r" (tmp) : "r" (&v_), "r" (0) : "memory" ); atomics::detail::platform_fence_after(order); return tmp; } }; } /* namespace boost */ #define BOOST_ATOMIC_FLAG_LOCK_FREE 2 #include #if !defined(BOOST_ATOMIC_FORCE_FALLBACK) #define BOOST_ATOMIC_CHAR_LOCK_FREE 2 #define BOOST_ATOMIC_CHAR16_T_LOCK_FREE 2 #define BOOST_ATOMIC_CHAR32_T_LOCK_FREE 2 #define BOOST_ATOMIC_WCHAR_T_LOCK_FREE 2 #define BOOST_ATOMIC_SHORT_LOCK_FREE 2 #define BOOST_ATOMIC_INT_LOCK_FREE 2 #define BOOST_ATOMIC_LONG_LOCK_FREE 2 #define BOOST_ATOMIC_LLONG_LOCK_FREE 0 #define BOOST_ATOMIC_POINTER_LOCK_FREE 2 #define BOOST_ATOMIC_BOOL_LOCK_FREE 2 namespace boost { #define BOOST_ATOMIC_THREAD_FENCE 2 inline void atomic_thread_fence(memory_order order) { switch(order) { case memory_order_relaxed: break; case memory_order_release: __asm__ __volatile__ ("membar #StoreStore | #LoadStore" ::: "memory"); break; case memory_order_acquire: __asm__ __volatile__ ("membar #LoadLoad | #LoadStore" ::: "memory"); break; case memory_order_acq_rel: __asm__ __volatile__ ("membar #LoadLoad | #LoadStore | #StoreStore" ::: "memory"); break; case memory_order_consume: break; case memory_order_seq_cst: __asm__ __volatile__ ("membar #Sync" ::: "memory"); break; default:; } } #define BOOST_ATOMIC_SIGNAL_FENCE 2 inline void atomic_signal_fence(memory_order) { __asm__ __volatile__ ("" ::: "memory"); } namespace atomics { namespace detail { /* integral types */ template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef T difference_type; typedef int32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp - v, order, memory_order_relaxed)); return tmp; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); storage_type desired_s = desired; __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" ((storage_type)expected) : "memory" ); desired = desired_s; bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp & v, order, memory_order_relaxed)); return tmp; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp | v, order, memory_order_relaxed)); return tmp; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp ^ v, order, memory_order_relaxed)); return tmp; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef T difference_type; typedef uint32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp - v, order, memory_order_relaxed)); return tmp; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); storage_type desired_s = desired; __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" ((storage_type)expected) : "memory" ); desired = desired_s; bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp & v, order, memory_order_relaxed)); return tmp; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp | v, order, memory_order_relaxed)); return tmp; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp ^ v, order, memory_order_relaxed)); return tmp; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef T difference_type; typedef int32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp - v, order, memory_order_relaxed)); return tmp; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); storage_type desired_s = desired; __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" ((storage_type)expected) : "memory" ); desired = desired_s; bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp & v, order, memory_order_relaxed)); return tmp; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp | v, order, memory_order_relaxed)); return tmp; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp ^ v, order, memory_order_relaxed)); return tmp; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef T difference_type; typedef uint32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp - v, order, memory_order_relaxed)); return tmp; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); storage_type desired_s = desired; __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" ((storage_type)expected) : "memory" ); desired = desired_s; bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp & v, order, memory_order_relaxed)); return tmp; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp | v, order, memory_order_relaxed)); return tmp; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp ^ v, order, memory_order_relaxed)); return tmp; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef T difference_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst)const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp - v, order, memory_order_relaxed)); return tmp; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); __asm__ ( "cas [%1], %2, %0" : "+r" (desired) : "r" (&v_), "r" (expected) : "memory" ); bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp & v, order, memory_order_relaxed)); return tmp; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp | v, order, memory_order_relaxed)); return tmp; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp ^ v, order, memory_order_relaxed)); return tmp; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; value_type v_; }; /* pointer types */ template class base_atomic { typedef base_atomic this_type; typedef ptrdiff_t difference_type; typedef void * value_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst)const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); __asm__ ( "cas [%1], %2, %0" : "+r" (desired) : "r" (&v_), "r" (expected) : "memory" ); bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak(value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, (char*)tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, (char*)tmp - v, order, memory_order_relaxed)); return tmp; } BOOST_ATOMIC_DECLARE_VOID_POINTER_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; value_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T * value_type; typedef ptrdiff_t difference_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} base_atomic(void) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { platform_fence_before(order); const_cast(v_) = v; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst)const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); platform_fence_after_load(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { platform_fence_before(success_order); __asm__ ( "cas [%1], %2, %0" : "+r" (desired) : "r" (&v_), "r" (expected) : "memory" ); bool success = (desired == expected); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); expected = desired; return success; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp + v, order, memory_order_relaxed)); return tmp; } value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, tmp - v, order, memory_order_relaxed)); return tmp; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_POINTER_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; value_type v_; }; /* generic types */ template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } base_atomic(void) {} void store(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { storage_type tmp = 0; memcpy(&tmp, &v, sizeof(value_type)); platform_fence_before(order); const_cast(v_) = tmp; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst)const volatile BOOST_NOEXCEPT { storage_type tmp = const_cast(v_); platform_fence_after_load(order); value_type v; memcpy(&v, &tmp, sizeof(value_type)); return v; } value_type exchange(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { storage_type expected_s = 0, desired_s = 0; memcpy(&expected_s, &expected, sizeof(value_type)); memcpy(&desired_s, &desired, sizeof(value_type)); platform_fence_before(success_order); __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" (expected_s) : "memory" ); bool success = (desired_s == expected_s); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); memcpy(&expected, &desired_s, sizeof(value_type)); return success; } bool compare_exchange_weak( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } base_atomic(void) {} void store(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { storage_type tmp = 0; memcpy(&tmp, &v, sizeof(value_type)); platform_fence_before(order); const_cast(v_) = tmp; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst)const volatile BOOST_NOEXCEPT { storage_type tmp = const_cast(v_); platform_fence_after_load(order); value_type v; memcpy(&v, &tmp, sizeof(value_type)); return v; } value_type exchange(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { storage_type expected_s = 0, desired_s = 0; memcpy(&expected_s, &expected, sizeof(value_type)); memcpy(&desired_s, &desired, sizeof(value_type)); platform_fence_before(success_order); __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" (expected_s) : "memory" ); bool success = (desired_s == expected_s); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); memcpy(&expected, &desired_s, sizeof(value_type)); return success; } bool compare_exchange_weak( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; template class base_atomic { typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; public: BOOST_CONSTEXPR explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } base_atomic(void) {} void store(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { storage_type tmp = 0; memcpy(&tmp, &v, sizeof(value_type)); platform_fence_before(order); const_cast(v_) = tmp; platform_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst)const volatile BOOST_NOEXCEPT { storage_type tmp = const_cast(v_); platform_fence_after_load(order); value_type v; memcpy(&v, &tmp, sizeof(value_type)); return v; } value_type exchange(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type tmp = load(memory_order_relaxed); do {} while(!compare_exchange_weak(tmp, v, order, memory_order_relaxed)); return tmp; } bool compare_exchange_strong( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { storage_type expected_s = 0, desired_s = 0; memcpy(&expected_s, &expected, sizeof(value_type)); memcpy(&desired_s, &desired, sizeof(value_type)); platform_fence_before(success_order); __asm__ ( "cas [%1], %2, %0" : "+r" (desired_s) : "r" (&v_), "r" (expected_s) : "memory" ); bool success = (desired_s == expected_s); if (success) platform_fence_after(success_order); else platform_fence_after(failure_order); memcpy(&expected, &desired_s, sizeof(value_type)); return success; } bool compare_exchange_weak( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { return compare_exchange_strong(expected, desired, success_order, failure_order); } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS private: base_atomic(const base_atomic &) /* = delete */ ; void operator=(const base_atomic &) /* = delete */ ; storage_type v_; }; #endif /* !defined(BOOST_ATOMIC_FORCE_FALLBACK) */ } } } #endif