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The following sections describe how Qt code can interoperate with Symbian's exception safety system. \tableofcontents \section1 What the problem is Qt and Symbian have different exception systems. Qt works with standard C++ exceptions, whereas Symbian has its TRAP/Leave/CleanupStack system. So, what would happen if you mix the two systems? It could go wrong in a number of ways. Clean-up ordering would be different between the two. When Symbian code leaves, the clean-up stack is cleaned up before anything else happens. After that, the objects on the call stack would be cleaned up as with a normal exception. So if there are any dependencies between stack-based and objects owned by the clean-up stack, there could be problems due to this ordering. Symbian's \c XLeaveException, which is used when Symbian implements leaves as exceptions, is not derived from \c std::exception, so would not be caught in Qt catch statements designed to catch \c std::exception. Qt's and standard C++'s \c std::exception derived exceptions result in program termination if they fall back to a Symbian TRAP. These problems can be solved with barrier macros and helper functions that will translate between the two exception systems. Use them, in Qt code, whenever calling into or being called from Symbian code. \section1 Qt calls to Symbian When calling Symbian leaving functions from Qt code, we want to translate Symbian leaves to standard C++ exceptions. The following help is provided: \list \o \l qt_symbian_throwIfError() takes a Symbian error code and throws an appropriate exception to represent it. This will do nothing if the error code is not in fact an error. The function is equivalent to Symbian's \c User::LeaveIfError. \o \l q_check_ptr() takes a pointer and throws a std::bad_alloc exception if it is 0, otherwise the pointer is returned. This can be used to check the success of a non-throwing allocation, eg from \c malloc(). The function is equivalent to Symbian's \c User::LeaveIfNull. \o \l QT_TRAP_THROWING() takes a Symbian leaving code fragment f and runs it under a trap harness converting any resulting error into an exception. \o \c TRAP and \c TRAPD from the Symbian libraries can be used to convert leaves to error codes. \endlist \code HBufC* buf=0; // this will throw a std::bad_alloc because we've asked for too much memory QT_TRAP_THROWING(buf = HBufC::NewL(100000000)); _LIT(KStr,"abc"); TInt pos = KStr().Locate('c'); // pos is a good value, >= 0, so no exception is thrown qt_symbian_throwIfError(pos); pos = KStr().Locate('d'); // pos == KErrNotFound, so this throws an exception qt_symbian_throwIfError(pos); // we are asking for a lot of memory, HBufC::New may return NULL, so check it HBufC *buffer = q_check_ptr(HBufC::New(1000000)); \endcode \section2 Be careful with new and CBase When writing Qt code, \c new will normally throw a \c std::bad_alloc if the allocation fails. However this may not happen if the object being created has its own \c {operator new}. For example, CBase and derived classes have their own \c {operator new} which returns 0 and the \c {new(ELeave)} overload for a leaving \c {operator new}, neither of which does what we want. When using 2-phase construction of CBase derived objects, use \c new and \l q_check_ptr(). \oldcode CFbsBitmap* fbsBitmap = new(ELeave) CFbsBitmap; \newcode CFbsBitmap* fbsBitmap = q_check_ptr(new CFbsBitmap); \endcode \section1 Qt called from Symbian When Qt code is called from Symbian, we want to translate standard C++ exceptions to Symbian leaves or error codes. The following help is provided: \list \o \l qt_symbian_exception2Error() - this takes a standard exception and gives an appropriate Symbian error code. If no mapping is known for the exception type, \c KErrGeneral is returned. \o \l qt_symbian_exception2LeaveL() - this takes a standard exception and generates an appropriate Symbian leave. \o \l QT_TRYCATCH_ERROR() - this macro takes the standard C++ code fragment \c f, catches any std::exceptions thrown from it, and sets err to the corresponding Symbian error code. err is set to \c KErrNone otherwise. \o \l QT_TRYCATCH_LEAVING() - this macro takes the standard C++ code fragment \c f, catches any std::exceptions thrown from it, and throws a corresponding Symbian leave. \endlist \code TInt DoTickL() // called from an active object RunL, ie Symbian leaves expected { // without the translation to Symbian Leave, we get a USER:0 panic QT_TRYCATCH_LEAVING({ int* x = new int[100000000]; // compiled as Qt code, will throw std::bad_alloc delete [] x; }); return 0; } \endcode \section1 Common sense things Try to minimise the interleaving of Symbian and Qt code, every switch requires a barrier. Grouping the code styles in different blocks will minimise the problems. For instance, examine the following code. \code 1. TRAPD(err, m_playUtility = CMdaAudioPlayerUtility::NewL(*this); 2. QString filepath = QFileInfo( m_sound->fileName() ).absoluteFilePath(); 3. filepath = QDir::toNativeSeparators(filepath); 4. m_playUtility->OpenFileL(qt_QString2TPtrC(filepath))); \endcode Line 1 starts a Symbian leave handling block, which is good because it also uses a Symbian leave generating function. Line 2 creates a \l QString, uses \l QFileInfo and various member functions. These could all throw exceptions, which is not good inside a \c TRAP block. Line 3 is unclear as to whether it might throw an exception, but since it's dealing with strings it probably does, again bad. Line 4 is tricky, it calls a leaving function which is ok within a \c TRAP, but it also uses a helper function to convert string types. In this case the helper function may cause an unwelcome exception. We could rewrite this with nested exception translations, but it's much easier to refactor it. \code QString filepath = QFileInfo( m_sound->fileName() ).absoluteFilePath(); filepath = QDir::toNativeSeparators(filepath); TPtrC filepathPtr(qt_QString2TPtrC(filepath)); TRAPD(err, m_playUtility = CMdaAudioPlayerUtility::NewL(*this); m_playUtility->OpenFileL(filepathPtr)); \endcode Now the exception generating functions are separated from the leaving functions. \section1 Advanced technique When using Symbian APIs in Qt code, you may find that Symbian leaving code and Qt exception throwing code are just too mixed up to have them interoperate through barriers. In some circumstances you can allow code to both leave and throw exceptions. But you must be aware of the following issues: \list \o Depending on whether a leave or exception is thrown, or a normal exit happens, the cleanup order will vary. If the code leaves, cleanup stack cleanup will happen first. On an exception however, cleanup stack cleanup will happen last. \o There must not be any destructor dependencies between different code styles. That is, you must not have symbian objects using Qt objects in their destructors, and vice versa. This is because the cleanup order varies, and may result in objects being used after they are deleted. \o The cleanup stack must not refer to any stack based object. For instance, in Symbian you may use \c CleanupClosePushL() to push stack based R-classes onto the cleanup stack. However if the stack has unwound due to an exception before the cleanup stack cleanup happens, stack based objects will now be invalid. Instead of using the cleanup stack, consider Symbian's new \c LManagedHandle<> (or a custom cleanup object) to tie R-class cleanup to the stack. \o Mixed throwing code must be called within both a TRAP and a try/catch harness. Standard exceptions must not propagate to the TRAP and cleanup stack cleanup will only happen if a leave is thrown, so the correct pattern is either \c {TRAPD(err, QT_TRYCATCH_LEAVING( f ));} or \c {QT_TRAP_THROWING( QT_TRYCATCH_LEAVING( f ));}, depending if you want an error code or exception as a result. \endlist */