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**
** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
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**
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** GNU Lesser General Public License Usage
** This file may be used under the terms of the GNU Lesser General Public
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**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU General
** Public License version 3.0 as published by the Free Software Foundation
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** Public License version 3.0 requirements will be met:
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****************************************************************************/
#ifndef QATOMIC_IA64_H
#define QATOMIC_IA64_H
QT_BEGIN_HEADER
QT_BEGIN_NAMESPACE
#define Q_ATOMIC_INT_REFERENCE_COUNTING_IS_ALWAYS_NATIVE
#define Q_ATOMIC_INT_REFERENCE_COUNTING_IS_WAIT_FREE
inline bool QBasicAtomicInt::isReferenceCountingNative()
{ return true; }
inline bool QBasicAtomicInt::isReferenceCountingWaitFree()
{ return true; }
#define Q_ATOMIC_INT_TEST_AND_SET_IS_ALWAYS_NATIVE
#define Q_ATOMIC_INT_TEST_AND_SET_IS_WAIT_FREE
inline bool QBasicAtomicInt::isTestAndSetNative()
{ return true; }
inline bool QBasicAtomicInt::isTestAndSetWaitFree()
{ return true; }
#define Q_ATOMIC_INT_FETCH_AND_STORE_IS_ALWAYS_NATIVE
#define Q_ATOMIC_INT_FETCH_AND_STORE_IS_WAIT_FREE
inline bool QBasicAtomicInt::isFetchAndStoreNative()
{ return true; }
inline bool QBasicAtomicInt::isFetchAndStoreWaitFree()
{ return true; }
#define Q_ATOMIC_INT_FETCH_AND_ADD_IS_ALWAYS_NATIVE
inline bool QBasicAtomicInt::isFetchAndAddNative()
{ return true; }
inline bool QBasicAtomicInt::isFetchAndAddWaitFree()
{ return false; }
#define Q_ATOMIC_POINTER_TEST_AND_SET_IS_ALWAYS_NATIVE
#define Q_ATOMIC_POINTER_TEST_AND_SET_IS_WAIT_FREE
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::isTestAndSetNative()
{ return true; }
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::isTestAndSetWaitFree()
{ return true; }
#define Q_ATOMIC_POINTER_FETCH_AND_STORE_IS_ALWAYS_NATIVE
#define Q_ATOMIC_POINTER_FETCH_AND_STORE_IS_WAIT_FREE
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::isFetchAndStoreNative()
{ return true; }
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::isFetchAndStoreWaitFree()
{ return true; }
#define Q_ATOMIC_POINTER_FETCH_AND_ADD_IS_ALWAYS_NATIVE
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::isFetchAndAddNative()
{ return true; }
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::isFetchAndAddWaitFree()
{ return false; }
inline bool _q_ia64_fetchadd_immediate(register int value)
{
return value == 1 || value == -1
|| value == 4 || value == -4
|| value == 8 || value == -8
|| value == 16 || value == -16;
}
#if defined(Q_CC_INTEL)
// intrinsics provided by the Intel C++ Compiler
#include <ia64intrin.h>
inline int QBasicAtomicInt::fetchAndStoreAcquire(int newValue)
{
return static_cast<int>(_InterlockedExchange(&_q_value, newValue));
}
inline int QBasicAtomicInt::fetchAndStoreRelease(int newValue)
{
__memory_barrier();
return static_cast<int>(_InterlockedExchange(&_q_value, newValue));
}
inline bool QBasicAtomicInt::testAndSetRelaxed(int expectedValue, int newValue)
{
register int expectedValueCopy = expectedValue;
return (static_cast<int>(_InterlockedCompareExchange(&_q_value,
newValue,
expectedValueCopy))
== expectedValue);
}
inline bool QBasicAtomicInt::testAndSetAcquire(int expectedValue, int newValue)
{
register int expectedValueCopy = expectedValue;
return (static_cast<int>(_InterlockedCompareExchange_acq(reinterpret_cast<volatile uint *>(&_q_value),
newValue,
expectedValueCopy))
== expectedValue);
}
inline bool QBasicAtomicInt::testAndSetRelease(int expectedValue, int newValue)
{
register int expectedValueCopy = expectedValue;
return (static_cast<int>(_InterlockedCompareExchange_rel(reinterpret_cast<volatile uint *>(&_q_value),
newValue,
expectedValueCopy))
== expectedValue);
}
inline bool QBasicAtomicInt::testAndSetOrdered(int expectedValue, int newValue)
{
__memory_barrier();
return testAndSetAcquire(expectedValue, newValue);
}
inline int QBasicAtomicInt::fetchAndAddAcquire(int valueToAdd)
{
if (__builtin_constant_p(valueToAdd)) {
if (valueToAdd == 1)
return __fetchadd4_acq((unsigned int *)&_q_value, 1);
if (valueToAdd == -1)
return __fetchadd4_acq((unsigned int *)&_q_value, -1);
}
return _InterlockedExchangeAdd(&_q_value, valueToAdd);
}
inline int QBasicAtomicInt::fetchAndAddRelease(int valueToAdd)
{
if (__builtin_constant_p(valueToAdd)) {
if (valueToAdd == 1)
return __fetchadd4_rel((unsigned int *)&_q_value, 1);
if (valueToAdd == -1)
return __fetchadd4_rel((unsigned int *)&_q_value, -1);
}
__memory_barrier();
return _InterlockedExchangeAdd(&_q_value, valueToAdd);
}
inline int QBasicAtomicInt::fetchAndAddOrdered(int valueToAdd)
{
__memory_barrier();
return fetchAndAddAcquire(valueToAdd);
}
inline bool QBasicAtomicInt::ref()
{
return _InterlockedIncrement(&_q_value) != 0;
}
inline bool QBasicAtomicInt::deref()
{
return _InterlockedDecrement(&_q_value) != 0;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreAcquire(T *newValue)
{
return (T *)_InterlockedExchangePointer(reinterpret_cast<void * volatile*>(&_q_value), newValue);
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreRelease(T *newValue)
{
__memory_barrier();
return fetchAndStoreAcquire(newValue);
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetRelaxed(T *expectedValue, T *newValue)
{
register T *expectedValueCopy = expectedValue;
return (_InterlockedCompareExchangePointer(reinterpret_cast<void * volatile*>(&_q_value),
newValue,
expectedValueCopy)
== expectedValue);
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetAcquire(T *expectedValue, T *newValue)
{
union {
volatile void *x;
volatile unsigned long *p;
};
x = &_q_value;
register T *expectedValueCopy = expectedValue;
return (_InterlockedCompareExchange64_acq(p, quintptr(newValue), quintptr(expectedValueCopy))
== quintptr(expectedValue));
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetRelease(T *expectedValue, T *newValue)
{
union {
volatile void *x;
volatile unsigned long *p;
};
x = &_q_value;
register T *expectedValueCopy = expectedValue;
return (_InterlockedCompareExchange64_rel(p, quintptr(newValue), quintptr(expectedValueCopy))
== quintptr(expectedValue));
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetOrdered(T *expectedValue, T *newValue)
{
__memory_barrier();
return testAndSetAcquire(expectedValue, newValue);
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddAcquire(qptrdiff valueToAdd)
{
return (T *)_InterlockedExchangeAdd64((volatile long *)&_q_value,
valueToAdd * sizeof(T));
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddRelease(qptrdiff valueToAdd)
{
__memory_barrier();
return (T *)_InterlockedExchangeAdd64((volatile long *)&_q_value,
valueToAdd * sizeof(T));
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddOrdered(qptrdiff valueToAdd)
{
__memory_barrier();
return fetchAndAddAcquire(valueToAdd);
}
#else // !Q_CC_INTEL
# if defined(Q_CC_GNU)
inline int QBasicAtomicInt::fetchAndStoreAcquire(int newValue)
{
int ret;
asm volatile("xchg4 %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "r" (newValue)
: "memory");
return ret;
}
inline int QBasicAtomicInt::fetchAndStoreRelease(int newValue)
{
int ret;
asm volatile("mf\n"
"xchg4 %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "r" (newValue)
: "memory");
return ret;
}
inline bool QBasicAtomicInt::testAndSetAcquire(int expectedValue, int newValue)
{
int ret;
asm volatile("mov ar.ccv=%2\n"
";;\n"
"cmpxchg4.acq %0=%1,%3,ar.ccv\n"
: "=r" (ret), "+m" (_q_value)
: "r" (expectedValue), "r" (newValue)
: "memory");
return ret == expectedValue;
}
inline bool QBasicAtomicInt::testAndSetRelease(int expectedValue, int newValue)
{
int ret;
asm volatile("mov ar.ccv=%2\n"
";;\n"
"cmpxchg4.rel %0=%1,%3,ar.ccv\n"
: "=r" (ret), "+m" (_q_value)
: "r" (expectedValue), "r" (newValue)
: "memory");
return ret == expectedValue;
}
inline int QBasicAtomicInt::fetchAndAddAcquire(int valueToAdd)
{
int ret;
#if (__GNUC__ >= 4)
// We implement a fast fetch-and-add when we can
if (__builtin_constant_p(valueToAdd) && _q_ia64_fetchadd_immediate(valueToAdd)) {
asm volatile("fetchadd4.acq %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "i" (valueToAdd)
: "memory");
return ret;
}
#endif
// otherwise, use a loop around test-and-set
ret = _q_value;
asm volatile("0:\n"
" mov r9=%0\n"
" mov ar.ccv=%0\n"
" add %0=%0, %2\n"
" ;;\n"
" cmpxchg4.acq %0=%1,%0,ar.ccv\n"
" ;;\n"
" cmp.ne p6,p0 = %0, r9\n"
"(p6) br.dptk 0b\n"
"1:\n"
: "+r" (ret), "+m" (_q_value)
: "r" (valueToAdd)
: "r9", "p6", "memory");
return ret;
}
inline int QBasicAtomicInt::fetchAndAddRelease(int valueToAdd)
{
int ret;
#if (__GNUC__ >= 4)
// We implement a fast fetch-and-add when we can
if (__builtin_constant_p(valueToAdd) && _q_ia64_fetchadd_immediate(valueToAdd)) {
asm volatile("fetchadd4.rel %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "i" (valueToAdd)
: "memory");
return ret;
}
#endif
// otherwise, use a loop around test-and-set
ret = _q_value;
asm volatile("0:\n"
" mov r9=%0\n"
" mov ar.ccv=%0\n"
" add %0=%0, %2\n"
" ;;\n"
" cmpxchg4.rel %0=%1,%0,ar.ccv\n"
" ;;\n"
" cmp.ne p6,p0 = %0, r9\n"
"(p6) br.dptk 0b\n"
"1:\n"
: "+r" (ret), "+m" (_q_value)
: "r" (valueToAdd)
: "r9", "p6", "memory");
return ret;
}
inline int QBasicAtomicInt::fetchAndAddOrdered(int valueToAdd)
{
asm volatile("mf" ::: "memory");
return fetchAndAddRelease(valueToAdd);
}
inline bool QBasicAtomicInt::ref()
{
int ret;
asm volatile("fetchadd4.acq %0=%1,1\n"
: "=r" (ret), "+m" (_q_value)
:
: "memory");
return ret != -1;
}
inline bool QBasicAtomicInt::deref()
{
int ret;
asm volatile("fetchadd4.rel %0=%1,-1\n"
: "=r" (ret), "+m" (_q_value)
:
: "memory");
return ret != 1;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreAcquire(T *newValue)
{
T *ret;
asm volatile("xchg8 %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "r" (newValue)
: "memory");
return ret;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreRelease(T *newValue)
{
T *ret;
asm volatile("mf\n"
"xchg8 %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "r" (newValue)
: "memory");
return ret;
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetAcquire(T *expectedValue, T *newValue)
{
T *ret;
asm volatile("mov ar.ccv=%2\n"
";;\n"
"cmpxchg8.acq %0=%1,%3,ar.ccv\n"
: "=r" (ret), "+m" (_q_value)
: "r" (expectedValue), "r" (newValue)
: "memory");
return ret == expectedValue;
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetRelease(T *expectedValue, T *newValue)
{
T *ret;
asm volatile("mov ar.ccv=%2\n"
";;\n"
"cmpxchg8.rel %0=%1,%3,ar.ccv\n"
: "=r" (ret), "+m" (_q_value)
: "r" (expectedValue), "r" (newValue)
: "memory");
return ret == expectedValue;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddAcquire(qptrdiff valueToAdd)
{
T *ret;
#if (__GNUC__ >= 4)
// We implement a fast fetch-and-add when we can
if (__builtin_constant_p(valueToAdd) && _q_ia64_fetchadd_immediate(valueToAdd * sizeof(T))) {
asm volatile("fetchadd8.acq %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "i" (valueToAdd * sizeof(T))
: "memory");
return ret;
}
#endif
// otherwise, use a loop around test-and-set
ret = _q_value;
asm volatile("0:\n"
" mov r9=%0\n"
" mov ar.ccv=%0\n"
" add %0=%0, %2\n"
" ;;\n"
" cmpxchg8.acq %0=%1,%0,ar.ccv\n"
" ;;\n"
" cmp.ne p6,p0 = %0, r9\n"
"(p6) br.dptk 0b\n"
"1:\n"
: "+r" (ret), "+m" (_q_value)
: "r" (valueToAdd * sizeof(T))
: "r9", "p6", "memory");
return ret;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddRelease(qptrdiff valueToAdd)
{
T *ret;
#if (__GNUC__ >= 4)
// We implement a fast fetch-and-add when we can
if (__builtin_constant_p(valueToAdd) && _q_ia64_fetchadd_immediate(valueToAdd * sizeof(T))) {
asm volatile("fetchadd8.rel %0=%1,%2\n"
: "=r" (ret), "+m" (_q_value)
: "i" (valueToAdd * sizeof(T))
: "memory");
return ret;
}
#endif
// otherwise, use a loop around test-and-set
ret = _q_value;
asm volatile("0:\n"
" mov r9=%0\n"
" mov ar.ccv=%0\n"
" add %0=%0, %2\n"
" ;;\n"
" cmpxchg8.rel %0=%1,%0,ar.ccv\n"
" ;;\n"
" cmp.ne p6,p0 = %0, r9\n"
"(p6) br.dptk 0b\n"
"1:\n"
: "+r" (ret), "+m" (_q_value)
: "r" (valueToAdd * sizeof(T))
: "r9", "p6", "memory");
return ret;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddOrdered(qptrdiff valueToAdd)
{
asm volatile("mf" ::: "memory");
return fetchAndAddRelease(valueToAdd);
}
#elif defined Q_CC_HPACC
QT_BEGIN_INCLUDE_NAMESPACE
#include <ia64/sys/inline.h>
QT_END_INCLUDE_NAMESPACE
#define FENCE (_Asm_fence)(_UP_CALL_FENCE | _UP_SYS_FENCE | _DOWN_CALL_FENCE | _DOWN_SYS_FENCE)
inline int QBasicAtomicInt::fetchAndStoreAcquire(int newValue)
{
return _Asm_xchg((_Asm_sz)_SZ_W, &_q_value, (unsigned)newValue,
(_Asm_ldhint)_LDHINT_NONE, FENCE);
}
inline int QBasicAtomicInt::fetchAndStoreRelease(int newValue)
{
_Asm_mf(FENCE);
return _Asm_xchg((_Asm_sz)_SZ_W, &_q_value, (unsigned)newValue,
(_Asm_ldhint)_LDHINT_NONE, FENCE);
}
inline bool QBasicAtomicInt::testAndSetAcquire(int expectedValue, int newValue)
{
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (unsigned)expectedValue, FENCE);
int ret = _Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, (unsigned)newValue, (_Asm_ldhint)_LDHINT_NONE);
return ret == expectedValue;
}
inline bool QBasicAtomicInt::testAndSetRelease(int expectedValue, int newValue)
{
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (unsigned)expectedValue, FENCE);
int ret = _Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_REL,
&_q_value, newValue, (_Asm_ldhint)_LDHINT_NONE);
return ret == expectedValue;
}
inline int QBasicAtomicInt::fetchAndAddAcquire(int valueToAdd)
{
if (valueToAdd == 1)
return _Asm_fetchadd((_Asm_fasz)_FASZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, 1, (_Asm_ldhint)_LDHINT_NONE, FENCE);
else if (valueToAdd == -1)
return _Asm_fetchadd((_Asm_fasz)_FASZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, -1, (_Asm_ldhint)_LDHINT_NONE, FENCE);
// implement the test-and-set loop
register int old, ret;
do {
old = _q_value;
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (unsigned)old, FENCE);
ret = _Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, old + valueToAdd, (_Asm_ldhint)_LDHINT_NONE);
} while (ret != old);
return old;
}
inline int QBasicAtomicInt::fetchAndAddRelease(int valueToAdd)
{
if (valueToAdd == 1)
return _Asm_fetchadd((_Asm_fasz)_FASZ_W, (_Asm_sem)_SEM_REL,
&_q_value, 1, (_Asm_ldhint)_LDHINT_NONE, FENCE);
else if (valueToAdd == -1)
return _Asm_fetchadd((_Asm_fasz)_FASZ_W, (_Asm_sem)_SEM_REL,
&_q_value, -1, (_Asm_ldhint)_LDHINT_NONE, FENCE);
// implement the test-and-set loop
register int old, ret;
do {
old = _q_value;
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (unsigned)old, FENCE);
ret = _Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_REL,
&_q_value, old + valueToAdd, (_Asm_ldhint)_LDHINT_NONE);
} while (ret != old);
return old;
}
inline int QBasicAtomicInt::fetchAndAddOrdered(int valueToAdd)
{
_Asm_mf(FENCE);
return fetchAndAddAcquire(valueToAdd);
}
inline bool QBasicAtomicInt::ref()
{
return (int)_Asm_fetchadd((_Asm_fasz)_FASZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, 1, (_Asm_ldhint)_LDHINT_NONE, FENCE) != -1;
}
inline bool QBasicAtomicInt::deref()
{
return (int)_Asm_fetchadd((_Asm_fasz)_FASZ_W, (_Asm_sem)_SEM_REL,
&_q_value, -1, (_Asm_ldhint)_LDHINT_NONE, FENCE) != 1;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreAcquire(T *newValue)
{
#ifdef __LP64__
return (T *)_Asm_xchg((_Asm_sz)_SZ_D, &_q_value, (quint64)newValue,
(_Asm_ldhint)_LDHINT_NONE, FENCE);
#else
return (T *)_Asm_xchg((_Asm_sz)_SZ_W, &_q_value, (quint32)newValue,
(_Asm_ldhint)_LDHINT_NONE, FENCE);
#endif
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreRelease(T *newValue)
{
_Asm_mf(FENCE);
return fetchAndStoreAcquire(newValue);
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetAcquire(T *expectedValue, T *newValue)
{
#ifdef __LP64__
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint64)expectedValue, FENCE);
T *ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_D, (_Asm_sem)_SEM_ACQ,
&_q_value, (quint64)newValue, (_Asm_ldhint)_LDHINT_NONE);
#else
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint32)expectedValue, FENCE);
T *ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, (quint32)newValue, (_Asm_ldhint)_LDHINT_NONE);
#endif
return ret == expectedValue;
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetRelease(T *expectedValue, T *newValue)
{
#ifdef __LP64__
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint64)expectedValue, FENCE);
T *ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_D, (_Asm_sem)_SEM_REL,
&_q_value, (quint64)newValue, (_Asm_ldhint)_LDHINT_NONE);
#else
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint32)expectedValue, FENCE);
T *ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_REL,
&_q_value, (quint32)newValue, (_Asm_ldhint)_LDHINT_NONE);
#endif
return ret == expectedValue;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddAcquire(qptrdiff valueToAdd)
{
// implement the test-and-set loop
register T *old, *ret;
do {
old = _q_value;
#ifdef __LP64__
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint64)old, FENCE);
ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_D, (_Asm_sem)_SEM_ACQ,
&_q_value, (quint64)(old + valueToAdd),
(_Asm_ldhint)_LDHINT_NONE);
#else
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint32)old, FENCE);
ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_ACQ,
&_q_value, (quint32)(old + valueToAdd),
(_Asm_ldhint)_LDHINT_NONE);
#endif
} while (old != ret);
return old;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddRelease(qptrdiff valueToAdd)
{
// implement the test-and-set loop
register T *old, *ret;
do {
old = _q_value;
#ifdef __LP64__
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint64)old, FENCE);
ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_D, (_Asm_sem)_SEM_REL,
&_q_value, (quint64)(old + valueToAdd),
(_Asm_ldhint)_LDHINT_NONE);
#else
_Asm_mov_to_ar((_Asm_app_reg)_AREG_CCV, (quint32)old, FENCE);
ret = (T *)_Asm_cmpxchg((_Asm_sz)_SZ_W, (_Asm_sem)_SEM_REL,
&_q_value, (quint32)(old + valueToAdd),
(_Asm_ldhint)_LDHINT_NONE);
#endif
} while (old != ret);
return old;
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddOrdered(qptrdiff valueToAdd)
{
_Asm_mf(FENCE);
return fetchAndAddAcquire(valueToAdd);
}
#else
extern "C" {
Q_CORE_EXPORT int q_atomic_test_and_set_int(volatile int *ptr, int expected, int newval);
Q_CORE_EXPORT int q_atomic_test_and_set_ptr(volatile void *ptr, void *expected, void *newval);
} // extern "C"
#endif
inline bool QBasicAtomicInt::testAndSetRelaxed(int expectedValue, int newValue)
{
return testAndSetAcquire(expectedValue, newValue);
}
inline bool QBasicAtomicInt::testAndSetOrdered(int expectedValue, int newValue)
{
return testAndSetAcquire(expectedValue, newValue);
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetRelaxed(T *expectedValue, T *newValue)
{
return testAndSetAcquire(expectedValue, newValue);
}
template <typename T>
Q_INLINE_TEMPLATE bool QBasicAtomicPointer<T>::testAndSetOrdered(T *expectedValue, T *newValue)
{
return testAndSetAcquire(expectedValue, newValue);
}
#endif // Q_CC_INTEL
inline int QBasicAtomicInt::fetchAndStoreRelaxed(int newValue)
{
return fetchAndStoreAcquire(newValue);
}
inline int QBasicAtomicInt::fetchAndStoreOrdered(int newValue)
{
return fetchAndStoreRelease(newValue);
}
inline int QBasicAtomicInt::fetchAndAddRelaxed(int valueToAdd)
{
return fetchAndAddAcquire(valueToAdd);
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreRelaxed(T *newValue)
{
return fetchAndStoreAcquire(newValue);
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndStoreOrdered(T *newValue)
{
return fetchAndStoreRelaxed(newValue);
}
template <typename T>
Q_INLINE_TEMPLATE T *QBasicAtomicPointer<T>::fetchAndAddRelaxed(qptrdiff valueToAdd)
{
return fetchAndAddAcquire(valueToAdd);
}
QT_END_NAMESPACE
QT_END_HEADER
#endif // QATOMIC_IA64_H
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