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For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** 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 and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #ifdef SYMBIAN_E32_ATOMIC_API #include #endif #include QT_BEGIN_NAMESPACE // Heap and handle info printer. // This way we can report on heap cells and handles that are really not owned by anything which still exists. // This information can be used to detect whether memory leaks are happening, particularly if these numbers grow as the app is used more. // This code is placed here as it happens to make it the very last static to be destroyed in a Qt app. The // reason assumed is that this file appears before any other file declaring static data in the generated // Symbian MMP file. This particular file was chosen as it is the earliest symbian specific file. struct QSymbianPrintExitInfo { QSymbianPrintExitInfo() { RThread().HandleCount(initProcessHandleCount, initThreadHandleCount); initCells = User::CountAllocCells(); } ~QSymbianPrintExitInfo() { RProcess myProc; TFullName fullName = myProc.FileName(); TInt cells = User::CountAllocCells(); TInt processHandleCount=0; TInt threadHandleCount=0; RThread().HandleCount(processHandleCount, threadHandleCount); RDebug::Print(_L("%S exiting with %d allocated cells, %d handles"), &fullName, cells - initCells, (processHandleCount + threadHandleCount) - (initProcessHandleCount + initThreadHandleCount)); } TInt initCells; TInt initProcessHandleCount; TInt initThreadHandleCount; } symbian_printExitInfo; Q_CORE_EXPORT bool QBasicAtomicInt::isReferenceCountingNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } Q_CORE_EXPORT bool QBasicAtomicInt::isTestAndSetNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } Q_CORE_EXPORT bool QBasicAtomicInt::isFetchAndStoreNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } Q_CORE_EXPORT bool QBasicAtomicInt::isFetchAndAddNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } Q_CORE_EXPORT bool QBasicAtomicPointer_isTestAndSetNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } Q_CORE_EXPORT bool QBasicAtomicPointer_isFetchAndStoreNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } Q_CORE_EXPORT bool QBasicAtomicPointer_isFetchAndAddNative() { #if !defined(SYMBIAN_E32_ATOMIC_API) && defined(QT_HAVE_ARMV6) return true; #else return false; #endif } #ifdef SYMBIAN_E32_ATOMIC_API //Symbian's API is SMP-safe when using SMP kernel, and cheap when using uniprocessor kernel //generate compiler error if casting assumptions are wrong (symbian64?) __ASSERT_COMPILE(sizeof(int) == sizeof(TUint32)); __ASSERT_COMPILE(sizeof(void *) == sizeof(TUint32)); Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetOrdered(volatile int *_q_value, int expectedValue, int newValue) { return static_cast(__e32_atomic_cas_ord32(_q_value, reinterpret_cast(&expectedValue), newValue)); } Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetRelaxed(volatile int *_q_value, int expectedValue, int newValue) { return static_cast(__e32_atomic_cas_rlx32(_q_value, reinterpret_cast(&expectedValue), newValue)); } Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetAcquire(volatile int *_q_value, int expectedValue, int newValue) { return static_cast(__e32_atomic_cas_acq32(_q_value, reinterpret_cast(&expectedValue), newValue)); } Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetRelease(volatile int *_q_value, int expectedValue, int newValue) { return static_cast(__e32_atomic_cas_rel32(_q_value, reinterpret_cast(&expectedValue), newValue)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreOrdered(volatile int *_q_value, int newValue) { return static_cast(__e32_atomic_swp_ord32(_q_value, newValue)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreRelaxed(volatile int *_q_value, int newValue) { return static_cast(__e32_atomic_swp_rlx32(_q_value, newValue)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreAcquire(volatile int *_q_value, int newValue) { return static_cast(__e32_atomic_swp_acq32(_q_value, newValue)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreRelease(volatile int *_q_value, int newValue) { return static_cast(__e32_atomic_swp_rel32(_q_value, newValue)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddOrdered(volatile int *_q_value, int valueToAdd) { return static_cast(__e32_atomic_add_ord32(_q_value, valueToAdd)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddRelaxed(volatile int *_q_value, int valueToAdd) { return static_cast(__e32_atomic_add_rlx32(_q_value, valueToAdd)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddAcquire(volatile int *_q_value, int valueToAdd) { return static_cast(__e32_atomic_add_acq32(_q_value, valueToAdd)); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddRelease(volatile int *_q_value, int valueToAdd) { return static_cast(__e32_atomic_add_rel32(_q_value, valueToAdd)); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetOrdered(void * volatile *_q_value, void *expectedValue, void *newValue) { return static_cast(__e32_atomic_cas_ord_ptr(_q_value, &expectedValue, newValue)); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetRelaxed(void * volatile *_q_value, void *expectedValue, void *newValue) { return static_cast(__e32_atomic_cas_rlx_ptr(_q_value, &expectedValue, newValue)); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetAcquire(void * volatile *_q_value, void *expectedValue, void *newValue) { return static_cast(__e32_atomic_cas_acq_ptr(_q_value, &expectedValue, newValue)); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetRelease(void * volatile *_q_value, void *expectedValue, void *newValue) { return static_cast(__e32_atomic_cas_rel_ptr(_q_value, &expectedValue, newValue)); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreOrdered(void * volatile *_q_value, void *newValue) { return __e32_atomic_swp_ord_ptr(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreRelaxed(void * volatile *_q_value, void *newValue) { return __e32_atomic_swp_rlx_ptr(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreAcquire(void * volatile *_q_value, void *newValue) { return __e32_atomic_swp_acq_ptr(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreRelease(void * volatile *_q_value, void *newValue) { return __e32_atomic_swp_rel_ptr(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddOrdered(void * volatile *_q_value, qptrdiff valueToAdd) { return __e32_atomic_add_ord_ptr(_q_value, valueToAdd); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddRelaxed(void * volatile *_q_value, qptrdiff valueToAdd) { return __e32_atomic_add_rlx_ptr(_q_value, valueToAdd); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddAcquire(void * volatile *_q_value, qptrdiff valueToAdd) { return __e32_atomic_add_acq_ptr(_q_value, valueToAdd); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddRelease(void * volatile *_q_value, qptrdiff valueToAdd) { return __e32_atomic_add_rel_ptr(_q_value, valueToAdd); } #else //Symbian kernels 9.4 and earlier don't expose a suitable API //For ARMv6, the generic atomics are machine coded #ifndef QT_HAVE_ARMV6 class QCriticalSection { public: QCriticalSection() { fastlock.CreateLocal(); } ~QCriticalSection() { fastlock.Close(); } void lock() { fastlock.Wait(); } void unlock() { fastlock.Signal(); } private: RFastLock fastlock; }; QCriticalSection qAtomicCriticalSection; Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetOrdered(volatile int *_q_value, int expectedValue, int newValue) { bool returnValue = false; qAtomicCriticalSection.lock(); if (*_q_value == expectedValue) { *_q_value = newValue; returnValue = true; } qAtomicCriticalSection.unlock(); return returnValue; } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreOrdered(volatile int *_q_value, int newValue) { int returnValue; qAtomicCriticalSection.lock(); returnValue = *_q_value; *_q_value = newValue; qAtomicCriticalSection.unlock(); return returnValue; } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddOrdered(volatile int *_q_value, int valueToAdd) { int returnValue; qAtomicCriticalSection.lock(); returnValue = *_q_value; *_q_value += valueToAdd; qAtomicCriticalSection.unlock(); return returnValue; } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetOrdered(void * volatile *_q_value, void *expectedValue, void *newValue) { bool returnValue = false; qAtomicCriticalSection.lock(); if (*_q_value == expectedValue) { *_q_value = newValue; returnValue = true; } qAtomicCriticalSection.unlock(); return returnValue; } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreOrdered(void * volatile *_q_value, void *newValue) { void *returnValue; qAtomicCriticalSection.lock(); returnValue = *_q_value; *_q_value = newValue; qAtomicCriticalSection.unlock(); return returnValue; } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddOrdered(void * volatile *_q_value, qptrdiff valueToAdd) { void *returnValue; qAtomicCriticalSection.lock(); returnValue = *_q_value; *_q_value = reinterpret_cast(returnValue) + valueToAdd; qAtomicCriticalSection.unlock(); return returnValue; } Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetRelaxed(volatile int *_q_value, int expectedValue, int newValue) { return QBasicAtomicInt_testAndSetOrdered(_q_value, expectedValue, newValue); } Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetAcquire(volatile int *_q_value, int expectedValue, int newValue) { return QBasicAtomicInt_testAndSetOrdered(_q_value, expectedValue, newValue); } Q_CORE_EXPORT bool QBasicAtomicInt_testAndSetRelease(volatile int *_q_value, int expectedValue, int newValue) { return QBasicAtomicInt_testAndSetOrdered(_q_value, expectedValue, newValue); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreRelaxed(volatile int *_q_value, int newValue) { return QBasicAtomicInt_fetchAndStoreOrdered(_q_value, newValue); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreAcquire(volatile int *_q_value, int newValue) { return QBasicAtomicInt_fetchAndStoreOrdered(_q_value, newValue); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndStoreRelease(volatile int *_q_value, int newValue) { return QBasicAtomicInt_fetchAndStoreOrdered(_q_value, newValue); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddRelaxed(volatile int *_q_value, int valueToAdd) { return QBasicAtomicInt_fetchAndAddOrdered(_q_value, valueToAdd); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddAcquire(volatile int *_q_value, int valueToAdd) { return QBasicAtomicInt_fetchAndAddOrdered(_q_value, valueToAdd); } Q_CORE_EXPORT int QBasicAtomicInt_fetchAndAddRelease(volatile int *_q_value, int valueToAdd) { return QBasicAtomicInt_fetchAndAddOrdered(_q_value, valueToAdd); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetRelaxed(void * volatile *_q_value, void *expectedValue, void *newValue) { return QBasicAtomicPointer_testAndSetOrdered(_q_value, expectedValue, newValue); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetAcquire(void * volatile *_q_value, void *expectedValue, void *newValue) { return QBasicAtomicPointer_testAndSetOrdered(_q_value, expectedValue, newValue); } Q_CORE_EXPORT bool QBasicAtomicPointer_testAndSetRelease(void * volatile *_q_value, void *expectedValue, void *newValue) { return QBasicAtomicPointer_testAndSetOrdered(_q_value, expectedValue, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreRelaxed(void * volatile *_q_value, void *newValue) { return QBasicAtomicPointer_fetchAndStoreOrdered(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreAcquire(void * volatile *_q_value, void *newValue) { return QBasicAtomicPointer_fetchAndStoreOrdered(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndStoreRelease(void * volatile *_q_value, void *newValue) { return QBasicAtomicPointer_fetchAndStoreOrdered(_q_value, newValue); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddRelaxed(void * volatile *_q_value, qptrdiff valueToAdd) { return QBasicAtomicPointer_fetchAndAddOrdered(_q_value, valueToAdd); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddAcquire(void * volatile *_q_value, qptrdiff valueToAdd) { return QBasicAtomicPointer_fetchAndAddOrdered(_q_value, valueToAdd); } Q_CORE_EXPORT void *QBasicAtomicPointer_fetchAndAddRelease(void * volatile *_q_value, qptrdiff valueToAdd) { return QBasicAtomicPointer_fetchAndAddOrdered(_q_value, valueToAdd); } #endif // QT_HAVE_ARMV6 #endif // SYMBIAN_E32_ATOMIC_API QT_END_NAMESPACE