// UniBioMessageDataPlugin::attachmentList() // @see header //--------------------------------------------------------------- UniMessageInfoList UniBioMessageDataPlugin::attachmentList() { RFile file; QT_TRAP_THROWING(file = d_ptr->attachmentL()); if(attachmentCount() == 0) { file.Close(); return QList<UniMessageInfo*> (); } UniMessageInfoList attlist; QString path; QString mimetype; int size = 0; TFileName fullName; qt_symbian_throwIfError(file.FullName(fullName)); qt_symbian_throwIfError(file.Size(size)); path = XQConversions::s60DescToQString(*fullName.AllocL()); UniMessageInfo *msgobj = new UniMessageInfo(path, size, mimetype); attlist << msgobj; file.Close(); return attlist; }
QWaitConditionPrivate() : waiters(0), wakeups(0) { qt_symbian_throwIfError(mutex.CreateLocal()); int err = cond.CreateLocal(); if (err != KErrNone) { mutex.Close(); qt_symbian_throwIfError(err); } }
QIdleDetectorThread() : m_state(STATE_RUN), m_stop(false) { qt_symbian_throwIfError(m_lock.CreateLocal(0)); TInt err = m_idleDetectorThread.Create(KNullDesC(), &idleDetectorThreadFunc, 1024, NULL, this); if (err != KErrNone) m_lock.Close(); qt_symbian_throwIfError(err); m_idleDetectorThread.SetPriority(EPriorityAbsoluteBackgroundNormal); m_idleDetectorThread.Resume(); }
QSymbianSocketManager::QSymbianSocketManager() : iNextSocket(0), iDefaultConnection(0) { TSessionPref preferences; // ### In future this could be changed to KAfInet6 when that is more common than IPv4 preferences.iAddrFamily = KAfInet; preferences.iProtocol = KProtocolInetIp; //use global message pool, as we do not know how many sockets app will use //TODO: is this the right choice? qt_symbian_throwIfError(iSocketServ.Connect(preferences, -1)); qt_symbian_throwIfError(iSocketServ.ShareAuto()); }
void MsgAudioSelectionEngine::LeaveIfSessionClosedL() { if (!iSession || !iSessionOpen) { qt_symbian_throwIfError (KErrDisconnected); } }
PhoneUiHouseHoldPrivate::PhoneUiHouseHoldPrivate(HbMainWindow &window) : iAppsReady (0), iStartupSignalRecoveryId (0), iLightIdleReached (EFalse), iPhoneUIController (0), m_window (window) { PHONE_DEBUG("phoneui - Start phoneapp"); TRAPD( error, ConstructL() ); qt_symbian_throwIfError(error); }
QT_BEGIN_NAMESPACE QMutexPrivate::QMutexPrivate(QMutex::RecursionMode mode) : QMutexData(mode), maximumSpinTime(MaximumSpinTimeThreshold), averageWaitTime(0), owner(0), count(0) { int r = lock.CreateLocal(0); if (r != KErrNone) qWarning("QMutex: failed to create lock, error %d", r); qt_symbian_throwIfError(r); }
QS60RFsSession() { qt_symbian_throwIfError(iFs.Connect()); qt_symbian_throwIfError(iFs.ShareProtected()); //BC with 4.7: create private path on system drive TInt sysdrive = iFs.GetSystemDrive(); TInt err = iFs.CreatePrivatePath(sysdrive); if (err != KErrNone && err != KErrAlreadyExists) qWarning("Failed to create private path on system drive."); TFileName pfn = RProcess().FileName(); TInt drive; if (pfn.Length() > 0 && iFs.CharToDrive(pfn[0], drive) == KErrNone) { //BC with 4.7: create private path on application drive (except rom or system drive which is done above) if (drive != sysdrive && drive != EDriveZ) { err = iFs.CreatePrivatePath(drive); if (err != KErrNone && err != KErrAlreadyExists) qWarning("Failed to create private path on application drive."); } //BC with 4.7: set working directory to same drive as application iFs.SetSessionToPrivate(drive); } }
CMdEPropertyDef& MsgAudioSelectionEngine::PropertyDefL(CMdESession* aSession, TInt aAttr) { CMdENamespaceDef& defNS = aSession->GetDefaultNamespaceDefL(); CMdEObjectDef& objectDef = defNS.GetObjectDefL( MdeConstants::Audio::KAudioObject); if (aAttr == EAttrFileSize) { return objectDef.GetPropertyDefL(MdeConstants::Object::KSizeProperty); } else if (aAttr == EAttrMediaType) { return objectDef.GetPropertyDefL( MdeConstants::Object::KItemTypeProperty); } else if (aAttr == EAttrSongName || aAttr == EAttrFileName) { return objectDef.GetPropertyDefL(MdeConstants::Object::KTitleProperty); } else if (aAttr == EAttrArtist) { return objectDef.GetPropertyDefL( MdeConstants::MediaObject::KArtistProperty); } else if (aAttr == EAttrAlbum) { return objectDef.GetPropertyDefL(MdeConstants::Audio::KAlbumProperty); } else if (aAttr == EAttrGenre) { return objectDef.GetPropertyDefL( MdeConstants::MediaObject::KGenreProperty); } else if (aAttr == EAttrComposer) { return objectDef.GetPropertyDefL( MdeConstants::Audio::KComposerProperty); } else { qt_symbian_throwIfError(KErrNotSupported); } return objectDef.GetPropertyDefL(MdeConstants::Object::KTitleProperty); }
QS60WindowSurface::QS60WindowSurface(QWidget* widget) : QWindowSurface(widget), d_ptr(new QS60WindowSurfacePrivate) { QWidgetPrivate *widgetPrivate = qt_widget_private(widget); const bool opaque = widgetPrivate->isOpaque && !blitWriteAlpha(widgetPrivate); TDisplayMode mode = displayMode(opaque); // We create empty CFbsBitmap here -> it will be resized in setGeometry CFbsBitmap *bitmap = new CFbsBitmap; // CBase derived object needs check on new Q_CHECK_PTR(bitmap); qt_symbian_throwIfError( bitmap->Create( TSize(0, 0), mode ) ); QSymbianRasterPixmapData *data = new QSymbianRasterPixmapData(QPixmapData::PixmapType); if (data) { data->fromSymbianBitmap(bitmap, true); d_ptr->device = QPixmap(data); } }
/* * Loads a single cursor shape from resources and appends it to a native sprite. * Animated cursors (e.g. the busy cursor) have multiple members. */ void QCursorData::loadShapeFromResource(RWsSpriteBase& target, QString resource, int hx, int hy, int interval) { QPixmap pix; CFbsBitmap* native; QScopedPointer<TSpriteMember> member(new TSpriteMember); member->iInterval = interval; member->iInvertMask = false; member->iMaskBitmap = 0; // all shapes are RGBA member->iDrawMode = CGraphicsContext::EDrawModePEN; member->iOffset = TPoint(-hx, -hy); QString res(QLatin1String(":/trolltech/symbian/cursors/images/%1.png")); pix.load(res.arg(resource)); native = pix.toSymbianCFbsBitmap(); member->iBitmap = native; qt_symbian_throwIfError(nativeSpriteMembers.Append(member.data())); target.AppendMember(*(member.take())); }
void QTimerActiveObject::Start() { CActiveScheduler::Add(this); m_timerInfo->msLeft = m_timerInfo->interval; if (m_timerInfo->interval > 0) { if (!m_rTimer.Handle()) { qt_symbian_throwIfError(m_rTimer.CreateLocal()); } m_timeoutTimer.start(); m_expectedTimeSinceLastEvent = 0; StartTimer(); } else { iStatus = KRequestPending; SetActive(); TRequestStatus *status = &iStatus; QEventDispatcherSymbian::RequestComplete(status, KErrNone); } }
/* * Common code between the sprite workaround and standard modes of operation. * RWsSpriteBase is the base class for both RWsSprite and RWsPointerCursor. * It is called from both handle() and qt_s60_show_pointer_sprite() */ void QCursorData::constructCursorSprite(RWsSpriteBase& target) { int count = nativeSpriteMembers.Count(); if (count) { // already constructed for (int i = 0; i < count; i++) target.AppendMember(*(nativeSpriteMembers[i])); return; } if (pixmap.isNull() && !bm) { #ifndef Q_SYMBIAN_HAS_SYSTEM_CURSORS //shape cursor constructShapeSprite(target); #endif return; } QScopedPointer<TSpriteMember> member(new TSpriteMember); if (pixmap.isNull()) { //construct mono cursor member->iBitmap = bm->toSymbianCFbsBitmap(); member->iMaskBitmap = bmm->toSymbianCFbsBitmap(); } else { //construct normal cursor member->iBitmap = pixmap.toSymbianCFbsBitmap(); if (pixmap.hasAlphaChannel()) { member->iMaskBitmap = 0; //use alpha blending } else if (pixmap.hasAlpha()) { member->iMaskBitmap = pixmap.mask().toSymbianCFbsBitmap(); } else { member->iMaskBitmap = 0; //opaque rectangle cursor (due to EDrawModePEN) } } member->iDrawMode = CGraphicsContext::EDrawModePEN; member->iInvertMask = EFalse; member->iInterval = 0; member->iOffset = TPoint(-(hx), -(hy)); //Symbian hotspot coordinates are negative qt_symbian_throwIfError(nativeSpriteMembers.Append(member.data())); target.AppendMember(*(member.take())); }
QS60WindowSurface::QS60WindowSurface(QWidget* widget) : QWindowSurface(widget), d_ptr(new QS60WindowSurfacePrivate) { TDisplayMode mode = S60->screenDevice()->DisplayMode(); bool isOpaque = qt_widget_private(widget)->isOpaque; if (mode == EColor16MA && isOpaque) mode = EColor16MU; // Faster since 16MU -> 16MA is typically accelerated else if (mode == EColor16MU && !isOpaque) mode = EColor16MA; // Try for transparency anyway // We create empty CFbsBitmap here -> it will be resized in setGeometry CFbsBitmap *bitmap = q_check_ptr(new CFbsBitmap); // CBase derived object needs check on new qt_symbian_throwIfError( bitmap->Create( TSize(0, 0), mode ) ); QS60PixmapData *data = new QS60PixmapData(QPixmapData::PixmapType); data->fromSymbianBitmap(bitmap); d_ptr->device = QPixmap(data); setStaticContentsSupport(true); }
QS60RFsSession() { qt_symbian_throwIfError(iFs.Connect()); qt_symbian_throwIfError(iFs.ShareProtected()); }
static void set_thread_data(QThreadData *data) { qt_symbian_throwIfError(Dll::SetTls(data)); }
DirChecker::DirChecker() { qt_symbian_throwIfError(rfs.Connect()); }
static void init_symbian_thread_handle(RThread &thread) { thread = RThread(); TThreadId threadId = thread.Id(); qt_symbian_throwIfError(thread.Open(threadId, EOwnerProcess)); }