/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#ifndef OS_CPU_WINDOWS_X86_ATOMIC_WINDOWS_X86_HPP
#define OS_CPU_WINDOWS_X86_ATOMIC_WINDOWS_X86_HPP
#include "runtime/os.hpp"
// Note that in MSVC, volatile memory accesses are explicitly
// guaranteed to have acquire release semantics (w.r.t. compiler
// reordering) and therefore does not even need a compiler barrier
// for normal acquire release accesses. And all generalized
// bound calls like release_store go through Atomic::load
// and Atomic::store which do volatile memory accesses.
template<> inline void ScopedFence<X_ACQUIRE>::postfix() { }
template<> inline void ScopedFence<RELEASE_X>::prefix() { }
template<> inline void ScopedFence<RELEASE_X_FENCE>::prefix() { }
template<> inline void ScopedFence<RELEASE_X_FENCE>::postfix() { OrderAccess::fence(); }
// The following alternative implementations are needed because
// Windows 95 doesn't support (some of) the corresponding Windows NT
// calls. Furthermore, these versions allow inlining in the caller.
// (More precisely: The documentation for InterlockedExchange says
// it is supported for Windows 95. However, when single-stepping
// through the assembly code we cannot step into the routine and
// when looking at the routine address we see only garbage code.
// Better safe then sorry!). Was bug 7/31/98 (gri).
//
// Performance note: On uniprocessors, the 'lock' prefixes are not
// necessary (and expensive). We should generate separate cases if
// this becomes a performance problem.
#pragma warning(disable: 4035) // Disables warnings reporting missing return statement
template<size_t byte_size>
struct Atomic::PlatformAdd
: Atomic::AddAndFetch<Atomic::PlatformAdd<byte_size> >
{
template<typename D, typename I>
D add_and_fetch(D volatile* dest, I add_value, atomic_memory_order order) const;
};
#ifdef AMD64
template<>
template<typename D, typename I>
inline D Atomic::PlatformAdd<4>::add_and_fetch(D volatile* dest, I add_value,
atomic_memory_order order) const {
return add_using_helper<int32_t>(os::atomic_add_func, dest, add_value);
}
template<>
template<typename D, typename I>
inline D Atomic::PlatformAdd<8>::add_and_fetch(D volatile* dest, I add_value,
atomic_memory_order order) const {
return add_using_helper<int64_t>(os::atomic_add_long_func, dest, add_value);
}
#define DEFINE_STUB_XCHG(ByteSize, StubType, StubName) \
template<> \
template<typename T> \
inline T Atomic::PlatformXchg<ByteSize>::operator()(T volatile* dest, \
T exchange_value, \
atomic_memory_order order) const { \
STATIC_ASSERT(ByteSize == sizeof(T)); \
return xchg_using_helper<StubType>(StubName, dest, exchange_value); \
}
DEFINE_STUB_XCHG(4, int32_t, os::atomic_xchg_func)
DEFINE_STUB_XCHG(8, int64_t, os::atomic_xchg_long_func)
#undef DEFINE_STUB_XCHG
#define DEFINE_STUB_CMPXCHG(ByteSize, StubType, StubName) \
template<> \
template<typename T> \
inline T Atomic::PlatformCmpxchg<ByteSize>::operator()(T volatile* dest, \
T compare_value, \
T exchange_value, \
atomic_memory_order order) const { \
STATIC_ASSERT(ByteSize == sizeof(T)); \
return cmpxchg_using_helper<StubType>(StubName, dest, compare_value, exchange_value); \
}
DEFINE_STUB_CMPXCHG(1, int8_t, os::atomic_cmpxchg_byte_func)
DEFINE_STUB_CMPXCHG(4, int32_t, os::atomic_cmpxchg_func)
DEFINE_STUB_CMPXCHG(8, int64_t, os::atomic_cmpxchg_long_func)
#undef DEFINE_STUB_CMPXCHG
#else // !AMD64
template<>
template<typename D, typename I>
inline D Atomic::PlatformAdd<4>::add_and_fetch(D volatile* dest, I add_value,
atomic_memory_order order) const {
STATIC_ASSERT(4 == sizeof(I));
STATIC_ASSERT(4 == sizeof(D));
__asm {
mov edx, dest;
mov eax, add_value;
mov ecx, eax;
lock xadd dword ptr [edx], eax;
add eax, ecx;
}
}
template<>
template<typename T>
inline T Atomic::PlatformXchg<4>::operator()(T volatile* dest,
T exchange_value,
atomic_memory_order order) const {
STATIC_ASSERT(4 == sizeof(T));
// alternative for InterlockedExchange
__asm {
mov eax, exchange_value;
mov ecx, dest;
xchg eax, dword ptr [ecx];
}
}
template<>
template<typename T>
inline T Atomic::PlatformCmpxchg<1>::operator()(T volatile* dest,
T compare_value,
T exchange_value,
atomic_memory_order order) const {
STATIC_ASSERT(1 == sizeof(T));
// alternative for InterlockedCompareExchange
__asm {
mov edx, dest
mov cl, exchange_value
mov al, compare_value
lock cmpxchg byte ptr [edx], cl
}
}
template<>
template<typename T>
inline T Atomic::PlatformCmpxchg<4>::operator()(T volatile* dest,
T compare_value,
T exchange_value,
atomic_memory_order order) const {
STATIC_ASSERT(4 == sizeof(T));
// alternative for InterlockedCompareExchange
__asm {
mov edx, dest
mov ecx, exchange_value
mov eax, compare_value
lock cmpxchg dword ptr [edx], ecx
}
}
template<>
template<typename T>
inline T Atomic::PlatformCmpxchg<8>::operator()(T volatile* dest,
T compare_value,
T exchange_value,
atomic_memory_order order) const {
STATIC_ASSERT(8 == sizeof(T));
int32_t ex_lo = (int32_t)exchange_value;
int32_t ex_hi = *( ((int32_t*)&exchange_value) + 1 );
int32_t cmp_lo = (int32_t)compare_value;
int32_t cmp_hi = *( ((int32_t*)&compare_value) + 1 );
__asm {
push ebx
push edi
mov eax, cmp_lo
mov edx, cmp_hi
mov edi, dest
mov ebx, ex_lo
mov ecx, ex_hi
lock cmpxchg8b qword ptr [edi]
pop edi
pop ebx
}
}
template<>
template<typename T>
inline T Atomic::PlatformLoad<8>::operator()(T const volatile* src) const {
STATIC_ASSERT(8 == sizeof(T));
volatile T dest;
volatile T* pdest = &dest;
__asm {
mov eax, src
fild qword ptr [eax]
mov eax, pdest
fistp qword ptr [eax]
}
return dest;
}
template<>
template<typename T>
inline void Atomic::PlatformStore<8>::operator()(T volatile* dest,
T store_value) const {
STATIC_ASSERT(8 == sizeof(T));
volatile T* src = &store_value;
__asm {
mov eax, src
fild qword ptr [eax]
mov eax, dest
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