#ifndef BOOST_ATOMIC_DETAIL_GCC_PPC_HPP #define BOOST_ATOMIC_DETAIL_GCC_PPC_HPP // Copyright (c) 2009 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 #include #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif /* Refer to: Motorola: "Programming Environments Manual for 32-Bit Implementations of the PowerPC Architecture", Appendix E: "Synchronization Programming Examples" for an explanation of what is going on here (can be found on the web at various places by the name "MPCFPE32B.pdf", Google is your friend...) Most of the atomic operations map to instructions in a relatively straight-forward fashion, but "load"s may at first glance appear a bit strange as they map to: lwz %rX, addr cmpw %rX, %rX bne- 1f 1: That is, the CPU is forced to perform a branch that "formally" depends on the value retrieved from memory. This scheme has an overhead of about 1-2 clock cycles per load, but it allows to map "acquire" to the "isync" instruction instead of "sync" uniformly and for all type of atomic operations. Since "isync" has a cost of about 15 clock cycles, while "sync" hast a cost of about 50 clock cycles, the small penalty to atomic loads more than compensates for this. Byte- and halfword-sized atomic values are realized by encoding the value to be represented into a word, performing sign/zero extension as appropriate. This means that after add/sub operations the value needs fixing up to accurately preserve the wrap-around semantic of the smaller type. (Nothing special needs to be done for the bit-wise and the "exchange type" operators as the compiler already sees to it that values carried in registers are extended appropriately and everything falls into place naturally). The register constraint "b" instructs gcc to use any register except r0; this is sometimes required because the encoding for r0 is used to signify "constant zero" in a number of instructions, making r0 unusable in this place. For simplicity this constraint is used everywhere since I am to lazy to look this up on a per-instruction basis, and ppc has enough registers for this not to pose a problem. */ namespace boost { namespace atomics { namespace detail { inline void ppc_fence_before(memory_order order) { switch(order) { case memory_order_release: case memory_order_acq_rel: #if defined(__powerpc64__) __asm__ __volatile__ ("lwsync" ::: "memory"); break; #endif case memory_order_seq_cst: __asm__ __volatile__ ("sync" ::: "memory"); default:; } } inline void ppc_fence_after(memory_order order) { switch(order) { case memory_order_acquire: case memory_order_acq_rel: case memory_order_seq_cst: __asm__ __volatile__ ("isync"); case memory_order_consume: __asm__ __volatile__ ("" ::: "memory"); default:; } } inline void ppc_fence_after_store(memory_order order) { switch(order) { case memory_order_seq_cst: __asm__ __volatile__ ("sync"); default:; } } } } 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::ppc_fence_before(order); const_cast(v_) = 0; atomics::detail::ppc_fence_after_store(order); } bool test_and_set(memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { uint32_t original; atomics::detail::ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (1) : "cr0" ); atomics::detail::ppc_fence_after(order); return original; } }; } /* 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_POINTER_LOCK_FREE 2 #if defined(__powerpc64__) #define BOOST_ATOMIC_LLONG_LOCK_FREE 2 #else #define BOOST_ATOMIC_LLONG_LOCK_FREE 0 #endif #define BOOST_ATOMIC_BOOL_LOCK_FREE 2 /* Would like to move the slow-path of failed compare_exchange (that clears the "success" bit) out-of-line. gcc can in principle do that using ".subsection"/".previous", but Apple's binutils seemingly does not understand that. Therefore wrap the "clear" of the flag in a macro and let it remain in-line for Apple */ #if !defined(__APPLE__) #define BOOST_ATOMIC_ASM_SLOWPATH_CLEAR \ "9:\n" \ ".subsection 2\n" \ "2: addi %1,0,0\n" \ "b 9b\n" \ ".previous\n" \ #else #define BOOST_ATOMIC_ASM_SLOWPATH_CLEAR \ "b 9f\n" \ "2: addi %1,0,0\n" \ "9:\n" \ #endif namespace boost { namespace atomics { namespace detail { /* integral types */ template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef int32_t storage_type; typedef T difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m"(v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=&r" (v) : "m" (v_) ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "extsb %1, %1\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "extsb %1, %1\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "and %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "or %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "xor %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; typedef T difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m"(v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=&r" (v) : "m" (v_) ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "rlwinm %1, %1, 0, 0xff\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "rlwinm %1, %1, 0, 0xff\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "and %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "or %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "xor %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef int32_t storage_type; typedef T difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m"(v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=&r" (v) : "m" (v_) ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "extsh %1, %1\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "extsh %1, %1\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "and %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "or %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "xor %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; typedef T difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m"(v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=&r" (v) : "m" (v_) ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "rlwinm %1, %1, 0, 0xffff\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "rlwinm %1, %1, 0, 0xffff\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "and %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "or %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "xor %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef T difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); const_cast(v_) = v; ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); __asm__ __volatile__ ( "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "+b"(v) : : "cr0" ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "and %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "or %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "xor %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: value_type v_; }; #if defined(__powerpc64__) template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef T difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); const_cast(v_) = v; ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v = const_cast(v_); __asm__ __volatile__ ( "cmpd %0, %0\n" "bne- 1f\n" "1:\n" : "+b"(v) : : "cr0" ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y1\n" "stdcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "add %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "sub %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_and(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "and %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_or(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "or %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_xor(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "xor %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_INTEGRAL_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: value_type v_; }; #endif /* pointer types */ #if !defined(__powerpc64__) template class base_atomic { private: typedef base_atomic this_type; typedef std::ptrdiff_t difference_type; typedef void * value_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m" (v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(v) : "m"(v_) : "cr0" ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } 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 original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } BOOST_ATOMIC_DECLARE_VOID_POINTER_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: value_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T * value_type; typedef std::ptrdiff_t difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m" (v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(v) : "m"(v_) : "cr0" ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { v = v * sizeof(*v_); value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "add %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { v = v * sizeof(*v_); value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y2\n" "sub %1,%0,%3\n" "stwcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_POINTER_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: value_type v_; }; #else template class base_atomic { private: typedef base_atomic this_type; typedef std::ptrdiff_t difference_type; typedef void * value_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "std %1, %0\n" : "+m" (v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ ( "ld %0, %1\n" "cmpd %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(v) : "m"(v_) : "cr0" ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y1\n" "stdcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } 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 original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "add %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "sub %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } BOOST_ATOMIC_DECLARE_VOID_POINTER_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: value_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T * value_type; typedef std::ptrdiff_t difference_type; protected: typedef value_type value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) BOOST_CONSTEXPR explicit base_atomic(value_type v) BOOST_NOEXCEPT : v_(v) {} void store(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { ppc_fence_before(order); __asm__ ( "std %1, %0\n" : "+m" (v_) : "r" (v) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { value_type v; __asm__ ( "ld %0, %1\n" "cmpd %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(v) : "m"(v_) : "cr0" ); ppc_fence_after(order); return v; } value_type exchange(value_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { value_type original; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y1\n" "stdcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (v) : "cr0" ); ppc_fence_after(order); return original; } bool compare_exchange_weak( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } bool compare_exchange_strong( value_type & expected, value_type desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { int success; ppc_fence_before(success_order); __asm__( "0: ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected), "=&b" (success), "+Z"(v_) : "b" (expected), "b" (desired) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); return success; } value_type fetch_add(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { v = v * sizeof(*v_); value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "add %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } value_type fetch_sub(difference_type v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { v = v * sizeof(*v_); value_type original, tmp; ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y2\n" "sub %1,%0,%3\n" "stdcx. %1,%y2\n" "bne- 1b\n" : "=&b" (original), "=&b" (tmp), "+Z"(v_) : "b" (v) : "cc"); ppc_fence_after(order); return original; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_POINTER_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: value_type v_; }; #endif /* generic */ template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; protected: typedef value_type const& value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } 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)); ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m" (v_) : "r" (tmp) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { storage_type tmp; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(tmp) : "m"(v_) : "cr0" ); ppc_fence_after(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 { storage_type tmp = 0, original; memcpy(&tmp, &v, sizeof(value_type)); ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (tmp) : "cr0" ); ppc_fence_after(order); value_type res; memcpy(&res, &original, sizeof(value_type)); return res; } bool compare_exchange_weak( 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)); int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } 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)); int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; protected: typedef value_type const& value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } 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)); ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m" (v_) : "r" (tmp) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { storage_type tmp; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(tmp) : "m"(v_) : "cr0" ); ppc_fence_after(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 { storage_type tmp = 0, original; memcpy(&tmp, &v, sizeof(value_type)); ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (tmp) : "cr0" ); ppc_fence_after(order); value_type res; memcpy(&res, &original, sizeof(value_type)); return res; } bool compare_exchange_weak( 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)); int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } 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)); int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef uint32_t storage_type; protected: typedef value_type const& value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } 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)); ppc_fence_before(order); __asm__ ( "stw %1, %0\n" : "+m" (v_) : "r" (tmp) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { storage_type tmp; __asm__ __volatile__ ( "lwz %0, %1\n" "cmpw %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(tmp) : "m"(v_) : "cr0" ); ppc_fence_after(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 { storage_type tmp = 0, original; memcpy(&tmp, &v, sizeof(value_type)); ppc_fence_before(order); __asm__ ( "1:\n" "lwarx %0,%y1\n" "stwcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (tmp) : "cr0" ); ppc_fence_after(order); value_type res; memcpy(&res, &original, sizeof(value_type)); return res; } bool compare_exchange_weak( 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)); int success; ppc_fence_before(success_order); __asm__( "lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } 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)); int success; ppc_fence_before(success_order); __asm__( "0: lwarx %0,%y2\n" "cmpw %0, %3\n" "bne- 2f\n" "stwcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; #if defined(__powerpc64__) template class base_atomic { private: typedef base_atomic this_type; typedef T value_type; typedef uint64_t storage_type; protected: typedef value_type const& value_arg_type; public: BOOST_DEFAULTED_FUNCTION(base_atomic(void), {}) explicit base_atomic(value_type const& v) BOOST_NOEXCEPT : v_(0) { memcpy(&v_, &v, sizeof(value_type)); } void store(value_type const& v, memory_order order = memory_order_seq_cst) volatile BOOST_NOEXCEPT { storage_type tmp; memcpy(&tmp, &v, sizeof(value_type)); ppc_fence_before(order); __asm__ ( "std %1, %0\n" : "+m" (v_) : "r" (tmp) ); ppc_fence_after_store(order); } value_type load(memory_order order = memory_order_seq_cst) const volatile BOOST_NOEXCEPT { storage_type tmp; __asm__ __volatile__ ( "ld %0, %1\n" "cmpd %0, %0\n" "bne- 1f\n" "1:\n" : "=r"(tmp) : "m"(v_) : "cr0" ); ppc_fence_after(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 { storage_type tmp = 0, original; memcpy(&tmp, &v, sizeof(value_type)); ppc_fence_before(order); __asm__ ( "1:\n" "ldarx %0,%y1\n" "stdcx. %2,%y1\n" "bne- 1b\n" : "=&b" (original), "+Z"(v_) : "b" (tmp) : "cr0" ); ppc_fence_after(order); value_type res; memcpy(&res, &original, sizeof(value_type)); return res; } bool compare_exchange_weak( value_type & expected, value_type const& desired, memory_order success_order, memory_order failure_order) volatile BOOST_NOEXCEPT { storage_type expected_s, desired_s; memcpy(&expected_s, &expected, sizeof(value_type)); memcpy(&desired_s, &desired, sizeof(value_type)); int success; ppc_fence_before(success_order); __asm__( "ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 2f\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } 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, desired_s; memcpy(&expected_s, &expected, sizeof(value_type)); memcpy(&desired_s, &desired, sizeof(value_type)); int success; ppc_fence_before(success_order); __asm__( "0: ldarx %0,%y2\n" "cmpd %0, %3\n" "bne- 2f\n" "stdcx. %4,%y2\n" "bne- 0b\n" "addi %1,0,1\n" "1:" BOOST_ATOMIC_ASM_SLOWPATH_CLEAR : "=&b" (expected_s), "=&b" (success), "+Z"(v_) : "b" (expected_s), "b" (desired_s) : "cr0" ); if (success) ppc_fence_after(success_order); else ppc_fence_after(failure_order); memcpy(&expected, &expected_s, sizeof(value_type)); return success; } bool is_lock_free(void) const volatile BOOST_NOEXCEPT { return true; } BOOST_ATOMIC_DECLARE_BASE_OPERATORS BOOST_DELETED_FUNCTION(base_atomic(base_atomic const&)) BOOST_DELETED_FUNCTION(base_atomic& operator=(base_atomic const&)) private: storage_type v_; }; #endif } } #define BOOST_ATOMIC_THREAD_FENCE 2 inline void atomic_thread_fence(memory_order order) { switch(order) { case memory_order_acquire: __asm__ __volatile__ ("isync" ::: "memory"); break; case memory_order_release: #if defined(__powerpc64__) __asm__ __volatile__ ("lwsync" ::: "memory"); break; #endif case memory_order_acq_rel: case memory_order_seq_cst: __asm__ __volatile__ ("sync" ::: "memory"); default:; } } #define BOOST_ATOMIC_SIGNAL_FENCE 2 inline void atomic_signal_fence(memory_order order) { switch(order) { case memory_order_acquire: case memory_order_release: case memory_order_acq_rel: case memory_order_seq_cst: __asm__ __volatile__ ("" ::: "memory"); break; default:; } } } #endif /* !defined(BOOST_ATOMIC_FORCE_FALLBACK) */ #endif