/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** 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, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qapplication_p.h" #include "qsessionmanager.h" #include "qevent.h" #include "qsymbianevent.h" #include "qeventdispatcher_s60_p.h" #include "qwidget.h" #include "qdesktopwidget.h" #include "private/qbackingstore_p.h" #include "qt_s60_p.h" #include "private/qevent_p.h" #include "qstring.h" #include "qdebug.h" #include "qimage.h" #include "private/qkeymapper_p.h" #include "private/qfont_p.h" #ifndef QT_NO_STYLE_S60 #include "private/qs60style_p.h" #endif #include "private/qwindowsurface_s60_p.h" #include "qpaintengine.h" #include "private/qmenubar_p.h" #include "private/qsoftkeymanager_p.h" #include "apgwgnam.h" // For CApaWindowGroupName #include // For CMdaAudioToneUtility #if defined(Q_WS_S60) # if !defined(QT_NO_IM) # include "qinputcontext.h" # include # endif # include # include #endif #include "private/qstylesheetstyle_p.h" #include #include QT_BEGIN_NAMESPACE #if defined(QT_DEBUG) static bool appNoGrab = false; // Grabbing enabled #endif static bool app_do_modal = false; // modal mode Q_GLOBAL_STATIC(QS60Data, qt_s60Data); extern bool qt_sendSpontaneousEvent(QObject*,QEvent*); extern QWidgetList *qt_modal_stack; // stack of modal widgets extern QDesktopWidget *qt_desktopWidget; // qapplication.cpp QWidget *qt_button_down = 0; // widget got last button-down QSymbianControl *QSymbianControl::lastFocusedControl = 0; QS60Data* qGlobalS60Data() { return qt_s60Data(); } bool qt_nograb() // application no-grab option { #if defined(QT_DEBUG) return appNoGrab; #else return false; #endif } // Modified from http://www3.symbian.com/faq.nsf/0/0F1464EE96E737E780256D5E00503DD1?OpenDocument class QS60Beep : public CBase, public MMdaAudioToneObserver { public: static QS60Beep* NewL(TInt aFrequency, TTimeIntervalMicroSeconds iDuration); void Play(); ~QS60Beep(); private: void ConstructL(TInt aFrequency, TTimeIntervalMicroSeconds iDuration); void MatoPrepareComplete(TInt aError); void MatoPlayComplete(TInt aError); private: typedef enum { EBeepNotPrepared, EBeepPrepared, EBeepPlaying } TBeepState; private: CMdaAudioToneUtility* iToneUtil; TBeepState iState; TInt iFrequency; TTimeIntervalMicroSeconds iDuration; }; static QS60Beep* qt_S60Beep = 0; QS60Beep::~QS60Beep() { if (iToneUtil) { switch (iState) { case EBeepPlaying: iToneUtil->CancelPlay(); break; case EBeepNotPrepared: iToneUtil->CancelPrepare(); break; } } delete iToneUtil; } QS60Beep* QS60Beep::NewL(TInt aFrequency, TTimeIntervalMicroSeconds aDuration) { QS60Beep* self = new (ELeave) QS60Beep(); CleanupStack::PushL(self); self->ConstructL(aFrequency, aDuration); CleanupStack::Pop(); return self; } void QS60Beep::ConstructL(TInt aFrequency, TTimeIntervalMicroSeconds aDuration) { iToneUtil = CMdaAudioToneUtility::NewL(*this); iState = EBeepNotPrepared; iFrequency = aFrequency; iDuration = aDuration; iToneUtil->PrepareToPlayTone(iFrequency, iDuration); } void QS60Beep::Play() { if (iState == EBeepPlaying) { iToneUtil->CancelPlay(); iState = EBeepPrepared; } iToneUtil->Play(); iState = EBeepPlaying; } void QS60Beep::MatoPrepareComplete(TInt aError) { if (aError == KErrNone) { iState = EBeepPrepared; Play(); } } void QS60Beep::MatoPlayComplete(TInt aError) { Q_UNUSED(aError); iState = EBeepPrepared; } QHash QApplicationPrivate::scanCodeCache; static Qt::KeyboardModifiers mapToQtModifiers(TUint s60Modifiers) { Qt::KeyboardModifiers result = Qt::NoModifier; if (s60Modifiers & EModifierKeypad) result |= Qt::KeypadModifier; if (s60Modifiers & EModifierShift || s60Modifiers & EModifierLeftShift || s60Modifiers & EModifierRightShift) result |= Qt::ShiftModifier; if (s60Modifiers & EModifierCtrl || s60Modifiers & EModifierLeftCtrl || s60Modifiers & EModifierRightCtrl) result |= Qt::ControlModifier; if (s60Modifiers & EModifierAlt || s60Modifiers & EModifierLeftAlt || s60Modifiers & EModifierRightAlt) result |= Qt::AltModifier; return result; } static void mapS60MouseEventTypeToQt(QEvent::Type *type, Qt::MouseButton *button, const TPointerEvent *pEvent) { switch (pEvent->iType) { case TPointerEvent::EButton1Down: *type = QEvent::MouseButtonPress; *button = Qt::LeftButton; break; case TPointerEvent::EButton1Up: *type = QEvent::MouseButtonRelease; *button = Qt::LeftButton; break; case TPointerEvent::EButton2Down: *type = QEvent::MouseButtonPress; *button = Qt::MidButton; break; case TPointerEvent::EButton2Up: *type = QEvent::MouseButtonRelease; *button = Qt::MidButton; break; case TPointerEvent::EButton3Down: *type = QEvent::MouseButtonPress; *button = Qt::RightButton; break; case TPointerEvent::EButton3Up: *type = QEvent::MouseButtonRelease; *button = Qt::RightButton; break; case TPointerEvent::EDrag: *type = QEvent::MouseMove; *button = Qt::NoButton; break; case TPointerEvent::EMove: // Qt makes no distinction between move and drag *type = QEvent::MouseMove; *button = Qt::NoButton; break; default: *type = QEvent::None; *button = Qt::NoButton; break; } if (pEvent->iModifiers & EModifierDoubleClick){ *type = QEvent::MouseButtonDblClick; } if (*type == QEvent::MouseButtonPress || *type == QEvent::MouseButtonDblClick) QApplicationPrivate::mouse_buttons = QApplicationPrivate::mouse_buttons | (*button); else if (*type == QEvent::MouseButtonRelease) QApplicationPrivate::mouse_buttons = QApplicationPrivate::mouse_buttons &(~(*button)); QApplicationPrivate::mouse_buttons = QApplicationPrivate::mouse_buttons & Qt::MouseButtonMask; } //### Can be replaced with CAknLongTapDetector if animation is required. //NOTE: if CAknLongTapDetector is used make sure it gets variated out of 3.1 and 3.2,. //also MLongTapObserver needs to be changed to MAknLongTapDetectorCallBack if CAknLongTapDetector is used. class QLongTapTimer : public CTimer { public: static QLongTapTimer* NewL(QAbstractLongTapObserver *observer); QLongTapTimer(QAbstractLongTapObserver *observer); void ConstructL(); public: void PointerEventL(const TPointerEvent &event); void RunL(); protected: private: QAbstractLongTapObserver *m_observer; TPointerEvent m_event; QPoint m_pressedCoordinates; int m_dragDistance; }; QLongTapTimer* QLongTapTimer::NewL(QAbstractLongTapObserver *observer) { QLongTapTimer* self = new QLongTapTimer(observer); self->ConstructL(); return self; } void QLongTapTimer::ConstructL() { CTimer::ConstructL(); } QLongTapTimer::QLongTapTimer(QAbstractLongTapObserver *observer):CTimer(CActive::EPriorityHigh) { m_observer = observer; m_dragDistance = qApp->startDragDistance(); CActiveScheduler::Add(this); } void QLongTapTimer::PointerEventL(const TPointerEvent& event) { if ( event.iType == TPointerEvent::EDrag || event.iType == TPointerEvent::EButtonRepeat) { QPoint diff(QPoint(event.iPosition.iX,event.iPosition.iY) - m_pressedCoordinates); if (diff.manhattanLength() < m_dragDistance) return; } Cancel(); m_event = event; if (event.iType == TPointerEvent::EButton1Down) { m_pressedCoordinates = QPoint(event.iPosition.iX,event.iPosition.iY); // must be same as KLongTapDelay in aknlongtapdetector.h After(800000); } } void QLongTapTimer::RunL() { if (m_observer) m_observer->HandleLongTapEventL(m_event.iPosition, m_event.iParentPosition); } QSymbianControl::QSymbianControl(QWidget *w) : CCoeControl() , qwidget(w) , m_longTapDetector(0) , m_ignoreFocusChanged(0) , m_symbianPopupIsOpen(0) { } void QSymbianControl::ConstructL(bool isWindowOwning, bool desktop) { if (!desktop) { if (isWindowOwning or !qwidget->parentWidget()) CreateWindowL(S60->windowGroup()); else /** * TODO: in order to avoid creating windows for all ancestors of * this widget up to the root window, the parameter passed to * CreateWindowL should be * qwidget->parentWidget()->effectiveWinId(). However, if we do * this, then we need to take care of re-parenting when a window * is created for a widget between this one and the root window. */ CreateWindowL(qwidget->parentWidget()->winId()); // Necessary in order to be able to track the activation status of // the control's window qwidget->d_func()->createExtra(); SetFocusing(true); m_longTapDetector = QLongTapTimer::NewL(this); DrawableWindow()->SetPointerGrab(ETrue); } } QSymbianControl::~QSymbianControl() { if (S60->curWin == this) S60->curWin = 0; if (!QApplicationPrivate::is_app_closing) setFocusSafely(false); S60->appUi()->RemoveFromStack(this); delete m_longTapDetector; } void QSymbianControl::setWidget(QWidget *w) { qwidget = w; } void QSymbianControl::HandleLongTapEventL( const TPoint& aPenEventLocation, const TPoint& aPenEventScreenLocation ) { QWidget *alienWidget; QPoint widgetPos = QPoint(aPenEventLocation.iX, aPenEventLocation.iY); QPoint globalPos = QPoint(aPenEventScreenLocation.iX,aPenEventScreenLocation.iY); alienWidget = qwidget->childAt(widgetPos); if (!alienWidget) alienWidget = qwidget; #if !defined(QT_NO_CONTEXTMENU) QContextMenuEvent contextMenuEvent(QContextMenuEvent::Mouse, widgetPos, globalPos, Qt::NoModifier); qt_sendSpontaneousEvent(alienWidget, &contextMenuEvent); #endif } #ifdef QT_SYMBIAN_SUPPORTS_ADVANCED_POINTER void QSymbianControl::translateAdvancedPointerEvent(const TAdvancedPointerEvent *event) { QApplicationPrivate *d = QApplicationPrivate::instance(); QRect screenGeometry = qApp->desktop()->screenGeometry(qwidget); while (d->appAllTouchPoints.count() <= event->PointerNumber()) d->appAllTouchPoints.append(QTouchEvent::TouchPoint(d->appAllTouchPoints.count())); Qt::TouchPointStates allStates = 0; for (int i = 0; i < d->appAllTouchPoints.count(); ++i) { QTouchEvent::TouchPoint &touchPoint = d->appAllTouchPoints[i]; if (touchPoint.id() == event->PointerNumber()) { Qt::TouchPointStates state; switch (event->iType) { case TPointerEvent::EButton1Down: case TPointerEvent::EEnterHighPressure: state = Qt::TouchPointPressed; break; case TPointerEvent::EButton1Up: case TPointerEvent::EExitCloseProximity: state = Qt::TouchPointReleased; break; case TPointerEvent::EDrag: state = Qt::TouchPointMoved; break; default: // how likely is this to happen? state = Qt::TouchPointStationary; break; } if (event->PointerNumber() == 0) state |= Qt::TouchPointPrimary; touchPoint.setState(state); QPointF screenPos = QPointF(event->iPosition.iX, event->iPosition.iY); touchPoint.setScreenPos(screenPos); touchPoint.setNormalizedPos(QPointF(screenPos.x() / screenGeometry.width(), screenPos.y() / screenGeometry.height())); touchPoint.setPressure(event->Pressure() / qreal(d->maxTouchPressure)); } else if (touchPoint.state() != Qt::TouchPointReleased) { // all other active touch points should be marked as stationary touchPoint.setState(Qt::TouchPointStationary); } allStates |= touchPoint.state(); } if ((allStates & Qt::TouchPointStateMask) == Qt::TouchPointReleased) { // all touch points released d->appAllTouchPoints.clear(); } QApplicationPrivate::translateRawTouchEvent(qwidget, QTouchEvent::TouchScreen, d->appAllTouchPoints); } #endif void QSymbianControl::HandlePointerEventL(const TPointerEvent& pEvent) { #ifdef QT_SYMBIAN_SUPPORTS_ADVANCED_POINTER if (pEvent.IsAdvancedPointerEvent()) { const TAdvancedPointerEvent *advancedPointerEvent = pEvent.AdvancedPointerEvent(); translateAdvancedPointerEvent(advancedPointerEvent); if (advancedPointerEvent->PointerNumber() != 0) { // only send mouse events for the first touch point return; } } #endif m_longTapDetector->PointerEventL(pEvent); QT_TRYCATCH_LEAVING(HandlePointerEvent(pEvent)); } void QSymbianControl::HandlePointerEvent(const TPointerEvent& pEvent) { QMouseEvent::Type type; Qt::MouseButton button; mapS60MouseEventTypeToQt(&type, &button, &pEvent); Qt::KeyboardModifiers modifiers = mapToQtModifiers(pEvent.iModifiers); QPoint widgetPos = QPoint(pEvent.iPosition.iX, pEvent.iPosition.iY); TPoint controlScreenPos = PositionRelativeToScreen(); QPoint globalPos = QPoint(controlScreenPos.iX, controlScreenPos.iY) + widgetPos; S60->lastCursorPos = globalPos; S60->lastPointerEventPos = widgetPos; QWidget *mouseGrabber = QWidget::mouseGrabber(); QWidget *popupWidget = qApp->activePopupWidget(); QWidget *popupReceiver = 0; if (popupWidget) { QWidget *popupChild = popupWidget->childAt(popupWidget->mapFromGlobal(globalPos)); popupReceiver = popupChild ? popupChild : popupWidget; } if (mouseGrabber) { if (popupReceiver) { sendMouseEvent(popupReceiver, type, globalPos, button, modifiers); } else { sendMouseEvent(mouseGrabber, type, globalPos, button, modifiers); } // No Enter/Leave events in grabbing mode. return; } QWidget *widgetUnderPointer = qwidget->childAt(widgetPos); if (!widgetUnderPointer) widgetUnderPointer = qwidget; QApplicationPrivate::dispatchEnterLeave(widgetUnderPointer, S60->lastPointerEventTarget); S60->lastPointerEventTarget = widgetUnderPointer; QWidget *receiver; if (!popupReceiver && S60->mousePressTarget && type != QEvent::MouseButtonPress) { receiver = S60->mousePressTarget; if (type == QEvent::MouseButtonRelease) S60->mousePressTarget = 0; } else { receiver = popupReceiver ? popupReceiver : widgetUnderPointer; if (type == QEvent::MouseButtonPress) S60->mousePressTarget = receiver; } #if !defined(QT_NO_CURSOR) && !defined(Q_SYMBIAN_FIXED_POINTER_CURSORS) if (S60->brokenPointerCursors) qt_symbian_move_cursor_sprite(); #endif sendMouseEvent(receiver, type, globalPos, button, modifiers); } void QSymbianControl::sendMouseEvent( QWidget *receiver, QEvent::Type type, const QPoint &globalPos, Qt::MouseButton button, Qt::KeyboardModifiers modifiers) { Q_ASSERT(receiver); QMouseEvent mEvent(type, receiver->mapFromGlobal(globalPos), globalPos, button, QApplicationPrivate::mouse_buttons, modifiers); QEventDispatcherS60 *dispatcher; // It is theoretically possible for someone to install a different event dispatcher. if ((dispatcher = qobject_cast(receiver->d_func()->threadData->eventDispatcher)) != 0) { if (dispatcher->excludeUserInputEvents()) { dispatcher->saveInputEvent(this, receiver, new QMouseEvent(mEvent)); return; } } sendMouseEvent(receiver, &mEvent); } bool QSymbianControl::sendMouseEvent(QWidget *widget, QMouseEvent *mEvent) { return qt_sendSpontaneousEvent(widget, mEvent); } TKeyResponse QSymbianControl::OfferKeyEventL(const TKeyEvent& keyEvent, TEventCode type) { TKeyResponse r = EKeyWasNotConsumed; QT_TRYCATCH_LEAVING(r = OfferKeyEvent(keyEvent, type)); return r; } TKeyResponse QSymbianControl::OfferKeyEvent(const TKeyEvent& keyEvent, TEventCode type) { switch (type) { //case EEventKeyDown: // <-- Intentionally left out. See below. case EEventKeyUp: case EEventKey: { // S60 has a confusing way of delivering key events. There are three types of // events: EKeyEvent, EKeyEventDown and EKeyEventUp. When a key is pressed, the // two first events are generated. When releasing the key, the last one is // generated. // Because S60 does not generate keysyms for EKeyEventDown and EKeyEventUp events, // we need to do some special tricks to map it to the Qt way. First, we completely // discard EKeyEventDown events, since they are redundant. Second, since // EKeyEventUp does not give us a keysym, we need to cache the keysyms from // the EKeyEvent events. This is what resolveS60ScanCode does. // ### hackish way to send Qt application to background when pressing right softkey /* if( keyEvent.iScanCode == EStdKeyDevice1 ) { S60->window_group->SetOrdinalPosition(-1); qApp->setActiveWindow(0); return EKeyWasNotConsumed; } */ TUint s60Keysym = QApplicationPrivate::resolveS60ScanCode(keyEvent.iScanCode, keyEvent.iCode); int keyCode; if (s60Keysym >= 0x20 && s60Keysym < ENonCharacterKeyBase) { // Normal characters keys. keyCode = s60Keysym; } else { // Special S60 keys. keyCode = qt_keymapper_private()->mapS60KeyToQt(s60Keysym); } #ifndef QT_NO_CURSOR if (S60->mouseInteractionEnabled && S60->virtualMouseRequired) { //translate keys to pointer if (keyCode >= Qt::Key_Left && keyCode <= Qt::Key_Down || keyCode == Qt::Key_Select) { /*Explanation about virtualMouseAccel: Tapping an arrow key allows precise pixel positioning Holding an arrow key down, acceleration is applied to allow cursor to be quickly moved to another part of the screen by key repeats. */ if (S60->virtualMouseLastKey == keyCode) { S60->virtualMouseAccel *= 2; if (S60->virtualMouseAccel > S60->virtualMouseMaxAccel) S60->virtualMouseAccel = S60->virtualMouseMaxAccel; } else S60->virtualMouseAccel = 1; S60->virtualMouseLastKey = keyCode; QPoint pos = QCursor::pos(); TPointerEvent fakeEvent; TInt x = pos.x(); TInt y = pos.y(); if (type == EEventKeyUp) { if (keyCode == Qt::Key_Select) fakeEvent.iType = TPointerEvent::EButton1Up; S60->virtualMouseAccel = 1; S60->virtualMouseLastKey = 0; switch (keyCode) { case Qt::Key_Left: S60->virtualMousePressedKeys &= ~QS60Data::Left; break; case Qt::Key_Right: S60->virtualMousePressedKeys &= ~QS60Data::Right; break; case Qt::Key_Up: S60->virtualMousePressedKeys &= ~QS60Data::Up; break; case Qt::Key_Down: S60->virtualMousePressedKeys &= ~QS60Data::Down; break; case Qt::Key_Select: S60->virtualMousePressedKeys &= ~QS60Data::Select; break; } } else if (type == EEventKey) { switch (keyCode) { case Qt::Key_Left: S60->virtualMousePressedKeys |= QS60Data::Left; x -= S60->virtualMouseAccel; fakeEvent.iType = TPointerEvent::EMove; break; case Qt::Key_Right: S60->virtualMousePressedKeys |= QS60Data::Right; x += S60->virtualMouseAccel; fakeEvent.iType = TPointerEvent::EMove; break; case Qt::Key_Up: S60->virtualMousePressedKeys |= QS60Data::Up; y -= S60->virtualMouseAccel; fakeEvent.iType = TPointerEvent::EMove; break; case Qt::Key_Down: S60->virtualMousePressedKeys |= QS60Data::Down; y += S60->virtualMouseAccel; fakeEvent.iType = TPointerEvent::EMove; break; case Qt::Key_Select: // Platform bug. If you start pressing several keys simultaneously (for // example for drag'n'drop), Symbian starts producing spurious up and // down messages for some keys. Therefore, make sure we have a clean slate // of pressed keys before starting a new button press. if (S60->virtualMousePressedKeys != 0) { S60->virtualMousePressedKeys |= QS60Data::Select; return EKeyWasConsumed; } else { S60->virtualMousePressedKeys |= QS60Data::Select; fakeEvent.iType = TPointerEvent::EButton1Down; } break; } } //clip to screen size (window server allows a sprite hotspot to be outside the screen) if (x < 0) x = 0; else if (x >= S60->screenWidthInPixels) x = S60->screenWidthInPixels - 1; if (y < 0) y = 0; else if (y >= S60->screenHeightInPixels) y = S60->screenHeightInPixels - 1; TPoint epos(x, y); TPoint cpos = epos - PositionRelativeToScreen(); fakeEvent.iModifiers = keyEvent.iModifiers; fakeEvent.iPosition = cpos; fakeEvent.iParentPosition = epos; HandlePointerEvent(fakeEvent); return EKeyWasConsumed; } else { S60->virtualMouseLastKey = keyCode; S60->virtualMouseAccel = 1; } } #endif Qt::KeyboardModifiers mods = mapToQtModifiers(keyEvent.iModifiers); QKeyEventEx qKeyEvent(type == EEventKeyUp ? QEvent::KeyRelease : QEvent::KeyPress, keyCode, mods, qt_keymapper_private()->translateKeyEvent(keyCode, mods), (keyEvent.iRepeats != 0), 1, keyEvent.iScanCode, s60Keysym, keyEvent.iModifiers); // WId wid = reinterpret_cast(keyEvent.Handle())->Child(); // if (!wid) // Could happen if window isn't shown yet. // return EKeyWasNotConsumed; QWidget *widget; widget = QWidget::keyboardGrabber(); if (!widget) { if (QApplicationPrivate::popupWidgets != 0) { widget = QApplication::activePopupWidget()->focusWidget(); if (!widget) { widget = QApplication::activePopupWidget(); } } else { widget = QApplicationPrivate::focus_widget; if (!widget) { widget = qwidget; } } } QEventDispatcherS60 *dispatcher; // It is theoretically possible for someone to install a different event dispatcher. if ((dispatcher = qobject_cast(widget->d_func()->threadData->eventDispatcher)) != 0) { if (dispatcher->excludeUserInputEvents()) { dispatcher->saveInputEvent(this, widget, new QKeyEventEx(qKeyEvent)); return EKeyWasConsumed; } } return sendKeyEvent(widget, &qKeyEvent); } } return EKeyWasNotConsumed; } void QSymbianControl::sendInputEvent(QWidget *widget, QInputEvent *inputEvent) { switch (inputEvent->type()) { case QEvent::KeyPress: case QEvent::KeyRelease: sendKeyEvent(widget, static_cast(inputEvent)); break; case QEvent::MouseButtonDblClick: case QEvent::MouseButtonPress: case QEvent::MouseButtonRelease: case QEvent::MouseMove: sendMouseEvent(widget, static_cast(inputEvent)); break; default: // Shouldn't get here. Q_ASSERT_X(0 == 1, "QSymbianControl::sendInputEvent()", "inputEvent->type() is unknown"); break; } } TKeyResponse QSymbianControl::sendKeyEvent(QWidget *widget, QKeyEvent *keyEvent) { #if !defined(QT_NO_IM) && defined(Q_WS_S60) if (widget && widget->isEnabled() && widget->testAttribute(Qt::WA_InputMethodEnabled)) { QInputContext *qic = widget->inputContext(); if (qic && qic->filterEvent(keyEvent)) return EKeyWasConsumed; } #endif // !defined(QT_NO_IM) && defined(Q_WS_S60) if (widget && qt_sendSpontaneousEvent(widget, keyEvent)) if (keyEvent->isAccepted()) return EKeyWasConsumed; return EKeyWasNotConsumed; } #if !defined(QT_NO_IM) && defined(Q_WS_S60) TCoeInputCapabilities QSymbianControl::InputCapabilities() const { QWidget *w = 0; if (qwidget->hasFocus()) w = qwidget; else w = qwidget->focusWidget(); QCoeFepInputContext *ic; if (w && w->isEnabled() && w->testAttribute(Qt::WA_InputMethodEnabled) && (ic = qobject_cast(w->inputContext()))) { return ic->inputCapabilities(); } else { return TCoeInputCapabilities(TCoeInputCapabilities::ENone, 0, 0); } } #endif void QSymbianControl::Draw(const TRect& controlRect) const { // Set flag to avoid calling DrawNow in window surface QWExtra *extra = qwidget->d_func()->extraData(); if (extra && !extra->inExpose) { extra->inExpose = true; QRect exposeRect = qt_TRect2QRect(controlRect); qwidget->d_func()->syncBackingStore(exposeRect); extra->inExpose = false; } QWindowSurface *surface = qwidget->windowSurface(); QPaintEngine *engine = surface ? surface->paintDevice()->paintEngine() : NULL; if (!engine) return; const bool sendNativePaintEvents = qwidget->d_func()->extraData()->receiveNativePaintEvents; if (sendNativePaintEvents) { const QRect r = qt_TRect2QRect(controlRect); QMetaObject::invokeMethod(qwidget, "beginNativePaintEvent", Qt::DirectConnection, Q_ARG(QRect, r)); } // Map source rectangle into coordinates of the backing store. const QPoint controlBase(controlRect.iTl.iX, controlRect.iTl.iY); const QPoint backingStoreBase = qwidget->mapTo(qwidget->window(), controlBase); const TRect backingStoreRect(TPoint(backingStoreBase.x(), backingStoreBase.y()), controlRect.Size()); if (engine->type() == QPaintEngine::Raster) { QS60WindowSurface *s60Surface = static_cast(qwidget->windowSurface()); CFbsBitmap *bitmap = s60Surface->symbianBitmap(); CWindowGc &gc = SystemGc(); switch(qwidget->d_func()->extraData()->nativePaintMode) { case QWExtra::Disable: // Do nothing break; case QWExtra::Blit: if (qwidget->d_func()->isOpaque) gc.SetDrawMode(CGraphicsContext::EDrawModeWriteAlpha); gc.BitBlt(controlRect.iTl, bitmap, backingStoreRect); break; case QWExtra::ZeroFill: if (Window().DisplayMode() == EColor16MA) { gc.SetBrushStyle(CGraphicsContext::ESolidBrush); gc.SetDrawMode(CGraphicsContext::EDrawModeWriteAlpha); gc.SetBrushColor(TRgb::Color16MA(0)); gc.Clear(controlRect); } else { gc.SetBrushColor(TRgb(0x000000)); gc.Clear(controlRect); }; break; default: Q_ASSERT(false); } } if (sendNativePaintEvents) { const QRect r = qt_TRect2QRect(controlRect); // The draw ops aren't actually sent to WSERV until the graphics // context is deactivated, which happens in the function calling // this one. We therefore delay the delivery of endNativePaintEvent, // to ensure that drawing has completed by the time the widget // receives the event. Note that, if the widget needs to ensure // that the draw ops have actually been executed into the output // framebuffer, a call to RWsSession::Flush is required in the // endNativePaintEvent implementation. QMetaObject::invokeMethod(qwidget, "endNativePaintEvent", Qt::QueuedConnection, Q_ARG(QRect, r)); } } void QSymbianControl::SizeChanged() { CCoeControl::SizeChanged(); QSize oldSize = qwidget->size(); QSize newSize(Size().iWidth, Size().iHeight); if (oldSize != newSize) { QRect cr = qwidget->geometry(); cr.setSize(newSize); qwidget->data->crect = cr; if (qwidget->isVisible()) { QTLWExtra *tlwExtra = qwidget->d_func()->maybeTopData(); bool slowResize = qgetenv("QT_SLOW_TOPLEVEL_RESIZE").toInt(); if (!slowResize && tlwExtra) tlwExtra->inTopLevelResize = true; QResizeEvent e(newSize, oldSize); qt_sendSpontaneousEvent(qwidget, &e); if (!qwidget->testAttribute(Qt::WA_StaticContents)) qwidget->d_func()->syncBackingStore(); if (!slowResize && tlwExtra) tlwExtra->inTopLevelResize = false; } } // CCoeControl::SetExtent calls SizeChanged, but does not call // PositionChanged, so we call it here to ensure that the widget's // position is updated. PositionChanged(); } void QSymbianControl::PositionChanged() { CCoeControl::PositionChanged(); QPoint oldPos = qwidget->geometry().topLeft(); QPoint newPos(Position().iX, Position().iY); if (oldPos != newPos) { QRect cr = qwidget->geometry(); cr.moveTopLeft(newPos); qwidget->data->crect = cr; QTLWExtra *top = qwidget->d_func()->maybeTopData(); if (top) top->normalGeometry = cr; if (qwidget->isVisible()) { QMoveEvent e(newPos, oldPos); qt_sendSpontaneousEvent(qwidget, &e); } else { QMoveEvent * e = new QMoveEvent(newPos, oldPos); QApplication::postEvent(qwidget, e); } } } void QSymbianControl::FocusChanged(TDrawNow /* aDrawNow */) { if (m_ignoreFocusChanged || (qwidget->windowType() & Qt::WindowType_Mask) == Qt::Desktop) return; // Popups never get focused, but still receive the FocusChanged when they are hidden. if (QApplicationPrivate::popupWidgets != 0 || (qwidget->windowType() & Qt::Popup) == Qt::Popup) return; if (IsFocused() && IsVisible()) { if (m_symbianPopupIsOpen) { QWidget *fw = QApplication::focusWidget(); if (fw) { QFocusEvent event(QEvent::FocusIn, Qt::PopupFocusReason); QCoreApplication::sendEvent(fw, &event); } m_symbianPopupIsOpen = false; } QApplication::setActiveWindow(qwidget->window()); qwidget->d_func()->setWindowIcon_sys(true); qwidget->d_func()->setWindowTitle_sys(qwidget->windowTitle()); #ifdef Q_WS_S60 // If widget is fullscreen, hide status pane and button container // otherwise show them. CEikStatusPane* statusPane = S60->statusPane(); CEikButtonGroupContainer* buttonGroup = S60->buttonGroupContainer(); bool isFullscreen = qwidget->windowState() & Qt::WindowFullScreen; if (statusPane && (bool)statusPane->IsVisible() == isFullscreen) statusPane->MakeVisible(!isFullscreen); if (buttonGroup && (bool)buttonGroup->IsVisible() == isFullscreen) buttonGroup->MakeVisible(!isFullscreen); #endif } else if (QApplication::activeWindow() == qwidget->window()) { if (CCoeEnv::Static()->AppUi()->IsDisplayingMenuOrDialog()) { QWidget *fw = QApplication::focusWidget(); if (fw) { QFocusEvent event(QEvent::FocusOut, Qt::PopupFocusReason); QCoreApplication::sendEvent(fw, &event); } m_symbianPopupIsOpen = true; return; } QApplication::setActiveWindow(0); } // else { We don't touch the active window unless we were explicitly activated or deactivated } } void QSymbianControl::HandleResourceChange(int resourceType) { switch (resourceType) { case KInternalStatusPaneChange: if (qwidget->isFullScreen()) { SetExtentToWholeScreen(); } else if (qwidget->isMaximized()) { TRect r = static_cast(S60->appUi())->ClientRect(); SetExtent(r.iTl, r.Size()); } if (IsFocused() && IsVisible()) { qwidget->d_func()->setWindowIcon_sys(true); qwidget->d_func()->setWindowTitle_sys(qwidget->windowTitle()); } break; case KUidValueCoeFontChangeEvent: // font change event break; #ifdef Q_WS_S60 case KEikDynamicLayoutVariantSwitch: { if (qwidget->isFullScreen()) { SetExtentToWholeScreen(); } else if (qwidget->isMaximized()) { TRect r = static_cast(S60->appUi())->ClientRect(); SetExtent(r.iTl, r.Size()); } break; } #endif default: break; } CCoeControl::HandleResourceChange(resourceType); } void QSymbianControl::CancelLongTapTimer() { m_longTapDetector->Cancel(); } TTypeUid::Ptr QSymbianControl::MopSupplyObject(TTypeUid id) { if (id.iUid == ETypeId) return id.MakePtr(this); return CCoeControl::MopSupplyObject(id); } void QSymbianControl::setFocusSafely(bool focus) { // The stack hack in here is very unfortunate, but it is the only way to ensure proper // focus in Symbian. If this is not executed, the control which happens to be on // the top of the stack may randomly be assigned focus by Symbian, for example // when creating new windows (specifically in CCoeAppUi::HandleStackChanged()). if (focus) { S60->appUi()->RemoveFromStack(this); // Symbian doesn't automatically remove focus from the last focused control, so we need to // remember it and clear focus ourselves. if (lastFocusedControl && lastFocusedControl != this) lastFocusedControl->SetFocus(false); QT_TRAP_THROWING(S60->appUi()->AddToStackL(this, ECoeStackPriorityDefault + 1, ECoeStackFlagStandard)); // Note the + 1 lastFocusedControl = this; this->SetFocus(true); } else { S60->appUi()->RemoveFromStack(this); QT_TRAP_THROWING(S60->appUi()->AddToStackL(this, ECoeStackPriorityDefault, ECoeStackFlagStandard)); if(this == lastFocusedControl) lastFocusedControl = 0; this->SetFocus(false); } } /*! \typedef QApplication::QS60MainApplicationFactory \since 4.6 This is a typedef for a pointer to a function with the following signature: \snippet doc/src/snippets/code/src_corelib_global_qglobal.cpp 47 \sa QApplication::QApplication() */ /*! \since 4.6 Creates an application using the application factory given in \a factory, and using \a argc command line arguments in \a argv. \a factory can be leaving, but the error will be converted to a standard exception. This function is only available on S60. */ QApplication::QApplication(QApplication::QS60MainApplicationFactory factory, int &argc, char **argv) : QCoreApplication(*new QApplicationPrivate(argc, argv, GuiClient)) { Q_D(QApplication); S60->s60ApplicationFactory = factory; d->construct(); } QApplication::QApplication(QApplication::QS60MainApplicationFactory factory, int &argc, char **argv, int _internal) : QCoreApplication(*new QApplicationPrivate(argc, argv, GuiClient)) { Q_D(QApplication); S60->s60ApplicationFactory = factory; d->construct(); QApplicationPrivate::app_compile_version = _internal; } void qt_init(QApplicationPrivate * /* priv */, int) { if (!CCoeEnv::Static()) { // The S60 framework creates a new trap handler which will render any existing traps // invalid as long as it is active. This means that all code in main() that occurs after // the QApplication construction needs to be surrounded by a new trap, despite having // an outer one already. To avoid this, we save the original trap handler here, and set // it back after the S60 framework is constructed. Then we restore it right before the S60 // framework destruction. TTrapHandler *origTrapHandler = User::TrapHandler(); // The S60 framework has not been initalized. We need to do it. TApaApplicationFactory factory(S60->s60ApplicationFactory ? S60->s60ApplicationFactory : newS60Application); CApaCommandLine* commandLine = 0; TInt err = CApaCommandLine::GetCommandLineFromProcessEnvironment(commandLine); // After this construction, CEikonEnv will be available from CEikonEnv::Static(). // (much like our qApp). CEikonEnv* coe = new CEikonEnv; //not using QT_TRAP_THROWING, because coe owns the cleanupstack so it can't be pushed there. if(err == KErrNone) TRAP(err, coe->ConstructAppFromCommandLineL(factory,*commandLine)); delete commandLine; if(err != KErrNone) { qWarning() << "qt_init: Eikon application construct failed (" << err << "), maybe missing resource file on S60 3.1?"; delete coe; qt_symbian_throwIfError(err); } S60->s60InstalledTrapHandler = User::SetTrapHandler(origTrapHandler); S60->qtOwnsS60Environment = true; } else { S60->qtOwnsS60Environment = false; } #ifdef QT_NO_DEBUG if (!qgetenv("QT_S60_AUTO_FLUSH_WSERV").isEmpty()) #endif S60->wsSession().SetAutoFlush(ETrue); S60->updateScreenSize(); TDisplayMode mode = S60->screenDevice()->DisplayMode(); S60->screenDepth = TDisplayModeUtils::NumDisplayModeBitsPerPixel(mode); //NB: RWsSession::GetColorModeList tells you what window modes are supported, //not what bitmap formats. if(QSysInfo::symbianVersion() == QSysInfo::SV_9_2) S60->supportsPremultipliedAlpha = 0; else S60->supportsPremultipliedAlpha = 1; RProcess me; TSecureId securId = me.SecureId(); S60->uid = securId.operator TUid(); // enable focus events - used to re-enable mouse after focus changed between mouse and non mouse app, // and for dimming behind modal windows S60->windowGroup().EnableFocusChangeEvents(); //Check if mouse interaction is supported (either EMouse=1 in the HAL, or EMachineUID is one of the phones known to support this) const TInt KMachineUidSamsungI8510 = 0x2000C51E; // HAL::Get(HALData::EPen, TInt& result) may set 'result' to 1 on some 3.1 systems (e.g. N95). // But we know that S60 systems below 5.0 did not support touch. static const bool touchIsUnsupportedOnSystem = QSysInfo::s60Version() == QSysInfo::SV_S60_3_1 || QSysInfo::s60Version() == QSysInfo::SV_S60_3_2; TInt machineUID; TInt mouse; TInt touch; TInt err; err = HAL::Get(HALData::EMouse, mouse); if (err != KErrNone) mouse = 0; err = HAL::Get(HALData::EMachineUid, machineUID); if (err != KErrNone) machineUID = 0; err = HAL::Get(HALData::EPen, touch); if (err != KErrNone || touchIsUnsupportedOnSystem) touch = 0; #ifdef __WINS__ if(QSysInfo::symbianVersion() <= QSysInfo::SV_9_4) { //for symbian SDK emulator, force values to match typical devices. mouse = 0; touch = touchIsUnsupportedOnSystem ? 0 : 1; } #endif if (mouse || machineUID == KMachineUidSamsungI8510) { S60->hasTouchscreen = false; S60->virtualMouseRequired = false; } else if (!touch) { S60->hasTouchscreen = false; S60->virtualMouseRequired = true; } else { S60->hasTouchscreen = true; S60->virtualMouseRequired = false; } S60->avkonComponentsSupportTransparency = false; #ifdef Q_WS_S60 TUid KCRUidAvkon = { 0x101F876E }; TUint32 KAknAvkonTransparencyEnabled = 0x0000000D; CRepository* repository = 0; TRAP(err, repository = CRepository::NewL(KCRUidAvkon)); if(err == KErrNone) { TInt value = 0; err = repository->Get(KAknAvkonTransparencyEnabled, value); if(err == KErrNone) { S60->avkonComponentsSupportTransparency = (value==1) ? true : false; } } #endif if (touch) { QApplicationPrivate::navigationMode = Qt::NavigationModeNone; } else { QApplicationPrivate::navigationMode = Qt::NavigationModeKeypadDirectional; } #ifndef QT_NO_CURSOR //Check if window server pointer cursors are supported or not #ifndef Q_SYMBIAN_FIXED_POINTER_CURSORS //In generic binary, use the HAL and OS version //Any other known good phones should be added here. if (machineUID == KMachineUidSamsungI8510 || (QSysInfo::symbianVersion() != QSysInfo::SV_9_4 && QSysInfo::symbianVersion() != QSysInfo::SV_9_3 && QSysInfo::symbianVersion() != QSysInfo::SV_9_2)) { S60->brokenPointerCursors = false; qt_symbian_setWindowGroupCursor(Qt::ArrowCursor, S60->windowGroup()); } else S60->brokenPointerCursors = true; #endif if (S60->mouseInteractionEnabled) { #ifndef Q_SYMBIAN_FIXED_POINTER_CURSORS if (S60->brokenPointerCursors) { qt_symbian_set_pointer_sprite(Qt::ArrowCursor); qt_symbian_show_pointer_sprite(); } else #endif S60->wsSession().SetPointerCursorMode(EPointerCursorNormal); } #endif QFont systemFont; systemFont.setFamily(systemFont.defaultFamily()); QApplicationPrivate::setSystemFont(systemFont); /* ### Commented out for now as parameter handling not needed in SOS(yet). Code below will break testlib with -o flag int argc = priv->argc; char **argv = priv->argv; // Get command line params int j = argc ? 1 : 0; for (int i=1; i("WId"); } /***************************************************************************** qt_cleanup() - cleans up when the application is finished *****************************************************************************/ void qt_cleanup() { if(qt_S60Beep) { delete qt_S60Beep; qt_S60Beep = 0; } QFontCache::cleanup(); // Has to happen now, since QFontEngineS60 has FBS handles // S60 structure and window server session are freed in eventdispatcher destructor as they are needed there // It's important that this happens here, before the event dispatcher gets // deleted, because the input context needs the event loop one last time before // it dies. delete QApplicationPrivate::inputContext; QApplicationPrivate::inputContext = 0; //Change mouse pointer back S60->wsSession().SetPointerCursorMode(EPointerCursorNone); if (S60->qtOwnsS60Environment) { // Restore the S60 framework trap handler. See qt_init(). User::SetTrapHandler(S60->s60InstalledTrapHandler); CEikonEnv* coe = CEikonEnv::Static(); coe->PrepareToExit(); // The CEikonEnv itself is destroyed in here. coe->DestroyEnvironment(); } } void QApplicationPrivate::initializeWidgetPaletteHash() { // TODO: Implement QApplicationPrivate::initializeWidgetPaletteHash() // Possibly a task fot the S60Style guys } void QApplicationPrivate::createEventDispatcher() { Q_Q(QApplication); eventDispatcher = new QEventDispatcherS60(q); } QString QApplicationPrivate::appName() const { return QCoreApplicationPrivate::appName(); } bool QApplicationPrivate::modalState() { return app_do_modal; } void QApplicationPrivate::enterModal_sys(QWidget *widget) { if (widget) { static_cast(widget->effectiveWinId())->FadeBehindPopup(ETrue); // Modal partial screen dialogs (like queries) capture pointer events. // ### FixMe: Add specialized behaviour for fullscreen modal dialogs widget->effectiveWinId()->SetGloballyCapturing(ETrue); widget->effectiveWinId()->SetPointerCapture(ETrue); } if (!qt_modal_stack) qt_modal_stack = new QWidgetList; qt_modal_stack->insert(0, widget); app_do_modal = true; } void QApplicationPrivate::leaveModal_sys(QWidget *widget) { if (widget) { static_cast(widget->effectiveWinId())->FadeBehindPopup(EFalse); // ### FixMe: Add specialized behaviour for fullscreen modal dialogs widget->effectiveWinId()->SetGloballyCapturing(EFalse); widget->effectiveWinId()->SetPointerCapture(EFalse); } if (qt_modal_stack && qt_modal_stack->removeAll(widget)) { if (qt_modal_stack->isEmpty()) { delete qt_modal_stack; qt_modal_stack = 0; } } app_do_modal = qt_modal_stack != 0; } void QApplicationPrivate::openPopup(QWidget *popup) { if (!QApplicationPrivate::popupWidgets) QApplicationPrivate::popupWidgets = new QWidgetList; QApplicationPrivate::popupWidgets->append(popup); // Cancel focus widget pointer capture and long tap timer if (QApplication::focusWidget()) { static_cast(QApplication::focusWidget()->effectiveWinId())->CancelLongTapTimer(); QApplication::focusWidget()->effectiveWinId()->SetPointerCapture(false); } if (!qt_nograb()) { // Cancel pointer capture and long tap timer for earlier popup int popupCount = QApplicationPrivate::popupWidgets->count(); if (popupCount > 1) { QWidget* prevPopup = QApplicationPrivate::popupWidgets->at(popupCount-2); static_cast(prevPopup->effectiveWinId())->CancelLongTapTimer(); prevPopup->effectiveWinId()->SetPointerCapture(false); } // Enable pointer capture for this (topmost) popup Q_ASSERT(popup->testAttribute(Qt::WA_WState_Created)); WId id = popup->effectiveWinId(); id->SetPointerCapture(true); } // popups are not focus-handled by the window system (the first // popup grabbed the keyboard), so we have to do that manually: A // new popup gets the focus QWidget *fw = popup->focusWidget(); if (fw) { fw->setFocus(Qt::PopupFocusReason); } else if (QApplicationPrivate::popupWidgets->count() == 1) { // this was the first popup fw = QApplication::focusWidget(); if (fw) { QFocusEvent e(QEvent::FocusOut, Qt::PopupFocusReason); q_func()->sendEvent(fw, &e); } } } void QApplicationPrivate::closePopup(QWidget *popup) { if (!QApplicationPrivate::popupWidgets) return; QApplicationPrivate::popupWidgets->removeAll(popup); // Cancel pointer capture and long tap for this popup WId id = popup->effectiveWinId(); id->SetPointerCapture(false); static_cast(id)->CancelLongTapTimer(); if (QApplicationPrivate::popupWidgets->isEmpty()) { // this was the last popup delete QApplicationPrivate::popupWidgets; QApplicationPrivate::popupWidgets = 0; if (!qt_nograb()) { // grabbing not disabled Q_ASSERT(popup->testAttribute(Qt::WA_WState_Created)); if (QWidgetPrivate::mouseGrabber != 0) QWidgetPrivate::mouseGrabber->grabMouse(); if (QWidgetPrivate::keyboardGrabber != 0) QWidgetPrivate::keyboardGrabber->grabKeyboard(); QWidget *fw = QApplicationPrivate::active_window ? QApplicationPrivate::active_window->focusWidget() : q_func()->focusWidget(); if (fw) { if (fw != q_func()->focusWidget()) { fw->setFocus(Qt::PopupFocusReason); } else { QFocusEvent e(QEvent::FocusIn, Qt::PopupFocusReason); q_func()->sendEvent(fw, &e); } } } } else { // popups are not focus-handled by the window system (the // first popup grabbed the keyboard), so we have to do that // manually: A popup was closed, so the previous popup gets // the focus. QWidget* aw = QApplicationPrivate::popupWidgets->last(); if (QWidget *fw = QApplication::focusWidget()) { QFocusEvent e(QEvent::FocusOut, Qt::PopupFocusReason); q_func()->sendEvent(fw, &e); } // Enable pointer capture for previous popup if (aw) { aw->effectiveWinId()->SetPointerCapture(true); } } } QWidget * QApplication::topLevelAt(QPoint const& point) { QWidget *found = 0; int lowestZ = INT_MAX; QWidgetList list = QApplication::topLevelWidgets(); for (int i = 0; i < list.count(); ++i) { QWidget *widget = list.at(i); if (widget->isVisible() && !(widget->windowType() == Qt::Desktop)) { Q_ASSERT(widget->testAttribute(Qt::WA_WState_Created)); if (widget->geometry().adjusted(0,0,1,1).contains(point)) { // At this point we know there is a Qt widget under the point. // Now we need to make sure it is the top most in the z-order. RDrawableWindow *const window = widget->effectiveWinId()->DrawableWindow(); int z = window->OrdinalPosition(); if (z < lowestZ) { lowestZ = z; found = widget; } } } } return found; } void QApplication::alert(QWidget * /* widget */, int /* duration */) { // TODO: Implement QApplication::alert(QWidget *widget, int duration) } int QApplication::doubleClickInterval() { TTimeIntervalMicroSeconds32 us; TInt distance; S60->wsSession().GetDoubleClickSettings(us, distance); return (us.Int() / 1000); } void QApplication::setDoubleClickInterval(int ms) { TTimeIntervalMicroSeconds32 newUs( ms * 1000); TTimeIntervalMicroSeconds32 us; TInt distance; S60->wsSession().GetDoubleClickSettings(us, distance); if (us != newUs) S60->wsSession().SetDoubleClick(newUs, distance); } int QApplication::keyboardInputInterval() { return QApplicationPrivate::keyboard_input_time; } void QApplication::setKeyboardInputInterval(int ms) { QApplicationPrivate::keyboard_input_time = ms; } int QApplication::cursorFlashTime() { return QApplicationPrivate::cursor_flash_time; } void QApplication::setCursorFlashTime(int msecs) { QApplicationPrivate::cursor_flash_time = msecs; } void QApplication::beep() { if (!qt_S60Beep) { TInt frequency = 880; TTimeIntervalMicroSeconds duration(500000); TRAP_IGNORE(qt_S60Beep=QS60Beep::NewL(frequency, duration)); } if (qt_S60Beep) qt_S60Beep->Play(); } static inline bool callSymbianEventFilters(const QSymbianEvent *event) { long unused; return qApp->filterEvent(const_cast(event), &unused); } /*! \warning This function is only available on Symbian. \since 4.6 This function processes an individual Symbian event \a event. It returns 1 if the event was handled, 0 if the \a event was not handled, and -1 if the event was not handled because the event is not known to Qt. */ int QApplication::symbianProcessEvent(const QSymbianEvent *event) { Q_D(QApplication); QScopedLoopLevelCounter counter(d->threadData); if (d->eventDispatcher->filterEvent(const_cast(event))) return 1; QWidget *w = qApp ? qApp->focusWidget() : 0; if (w) { QInputContext *ic = w->inputContext(); if (ic && ic->symbianFilterEvent(w, event)) return 1; } if (symbianEventFilter(event)) return 1; switch (event->type()) { case QSymbianEvent::WindowServerEvent: return d->symbianProcessWsEvent(event); case QSymbianEvent::CommandEvent: return d->symbianHandleCommand(event); case QSymbianEvent::ResourceChangeEvent: return d->symbianResourceChange(event); default: return -1; } } int QApplicationPrivate::symbianProcessWsEvent(const QSymbianEvent *symbianEvent) { // Qt event handling. Handle some events regardless of if the handle is in our // widget map or not. const TWsEvent *event = symbianEvent->windowServerEvent(); CCoeControl* control = reinterpret_cast(event->Handle()); const bool controlInMap = QWidgetPrivate::mapper && QWidgetPrivate::mapper->contains(control); switch (event->Type()) { case EEventPointerEnter: if (controlInMap) { callSymbianEventFilters(symbianEvent); return 1; // Qt::Enter will be generated in HandlePointerL } break; case EEventPointerExit: if (controlInMap) { if (callSymbianEventFilters(symbianEvent)) return 1; if (S60) { // mouseEvent outside our window, send leave event to last focused widget QMouseEvent mEvent(QEvent::Leave, S60->lastPointerEventPos, S60->lastCursorPos, Qt::NoButton, QApplicationPrivate::mouse_buttons, Qt::NoModifier); if (S60->lastPointerEventTarget) qt_sendSpontaneousEvent(S60->lastPointerEventTarget,&mEvent); S60->lastPointerEventTarget = 0; } return 1; } break; case EEventScreenDeviceChanged: if (callSymbianEventFilters(symbianEvent)) return 1; if (S60) S60->updateScreenSize(); if (qt_desktopWidget) { QSize oldSize = qt_desktopWidget->size(); qt_desktopWidget->data->crect.setWidth(S60->screenWidthInPixels); qt_desktopWidget->data->crect.setHeight(S60->screenHeightInPixels); QResizeEvent e(qt_desktopWidget->size(), oldSize); QApplication::sendEvent(qt_desktopWidget, &e); } return 0; // Propagate to CONE case EEventWindowVisibilityChanged: if (controlInMap) { if (callSymbianEventFilters(symbianEvent)) return 1; const TWsVisibilityChangedEvent *visChangedEvent = event->VisibilityChanged(); QWidget *w = QWidgetPrivate::mapper->value(control); if (!w->d_func()->maybeTopData()) break; if (visChangedEvent->iFlags & TWsVisibilityChangedEvent::ENotVisible) { delete w->d_func()->topData()->backingStore; w->d_func()->topData()->backingStore = 0; // In order to ensure that any resources used by the window surface // are immediately freed, we flush the WSERV command buffer. S60->wsSession().Flush(); } else if ((visChangedEvent->iFlags & TWsVisibilityChangedEvent::EPartiallyVisible) && !w->d_func()->maybeBackingStore()) { w->d_func()->topData()->backingStore = new QWidgetBackingStore(w); w->d_func()->invalidateBuffer(w->rect()); w->repaint(); } return 1; } break; case EEventFocusGained: if (callSymbianEventFilters(symbianEvent)) return 1; #ifndef QT_NO_CURSOR //re-enable mouse interaction if (S60->mouseInteractionEnabled) { #ifndef Q_SYMBIAN_FIXED_POINTER_CURSORS if (S60->brokenPointerCursors) qt_symbian_show_pointer_sprite(); else #endif S60->wsSession().SetPointerCursorMode(EPointerCursorNormal); } #endif break; case EEventFocusLost: if (callSymbianEventFilters(symbianEvent)) return 1; #ifndef QT_NO_CURSOR //disable mouse as may be moving to application that does not support it if (S60->mouseInteractionEnabled) { #ifndef Q_SYMBIAN_FIXED_POINTER_CURSORS if (S60->brokenPointerCursors) qt_symbian_hide_pointer_sprite(); else #endif S60->wsSession().SetPointerCursorMode(EPointerCursorNone); } #endif break; default: break; } if (!controlInMap) return -1; return 0; } /*! \warning This virtual function is only available on Symbian. \since 4.6 If you create an application that inherits QApplication and reimplement this function, you get direct access to events that the are received from Symbian. The events are passed in the \a event parameter. Return true if you want to stop the event from being processed. Return false for normal event dispatching. The default implementation returns false, and does nothing with \a event. */ bool QApplication::symbianEventFilter(const QSymbianEvent *event) { Q_UNUSED(event); return false; } /*! \warning This function is only available on Symbian. \since 4.6 Handles \a{command}s which are typically handled by CAknAppUi::HandleCommandL(). Qts Ui integration into Symbian is partially achieved by deriving from CAknAppUi. Currently, exit, menu and softkey commands are handled. \sa s60EventFilter(), s60ProcessEvent() */ int QApplicationPrivate::symbianHandleCommand(const QSymbianEvent *symbianEvent) { Q_Q(QApplication); int ret = 0; if (callSymbianEventFilters(symbianEvent)) return 1; int command = symbianEvent->command(); switch (command) { #ifdef Q_WS_S60 case EAknSoftkeyExit: { QCloseEvent ev; QApplication::sendSpontaneousEvent(q, &ev); if (ev.isAccepted()) { q->quit(); ret = 1; } break; } #endif case EEikCmdExit: q->quit(); ret = 1; break; default: bool handled = QSoftKeyManager::handleCommand(command); if (handled) ret = 1; #ifdef Q_WS_S60 else ret = QMenuBarPrivate::symbianCommands(command); #endif break; } return ret; } /*! \warning This function is only available on Symbian. \since 4.6 Handles the resource change specified by \a type. Currently, KEikDynamicLayoutVariantSwitch and KAknsMessageSkinChange are handled. */ int QApplicationPrivate::symbianResourceChange(const QSymbianEvent *symbianEvent) { int ret = 0; int type = symbianEvent->resourceChangeType(); switch (type) { #ifdef Q_WS_S60 case KEikDynamicLayoutVariantSwitch: { if (callSymbianEventFilters(symbianEvent)) return 1; if (S60) S60->updateScreenSize(); #ifndef QT_NO_STYLE_S60 QS60Style *s60Style = 0; #ifndef QT_NO_STYLE_STYLESHEET QStyleSheetStyle *proxy = qobject_cast(QApplication::style()); if (proxy) s60Style = qobject_cast(proxy->baseStyle()); else #endif s60Style = qobject_cast(QApplication::style()); if (s60Style) { s60Style->d_func()->handleDynamicLayoutVariantSwitch(); ret = 1; } #endif } break; #ifndef QT_NO_STYLE_S60 case KAknsMessageSkinChange: if (callSymbianEventFilters(symbianEvent)) return 1; if (QS60Style *s60Style = qobject_cast(QApplication::style())) { s60Style->d_func()->handleSkinChange(); ret = 1; } break; #endif #endif // Q_WS_S60 default: break; } return ret; } #ifndef QT_NO_WHEELEVENT int QApplication::wheelScrollLines() { return QApplicationPrivate::wheel_scroll_lines; } void QApplication::setWheelScrollLines(int n) { QApplicationPrivate::wheel_scroll_lines = n; } #endif //QT_NO_WHEELEVENT bool QApplication::isEffectEnabled(Qt::UIEffect /* effect */) { // TODO: Implement QApplication::isEffectEnabled(Qt::UIEffect effect) return false; } void QApplication::setEffectEnabled(Qt::UIEffect /* effect */, bool /* enable */) { // TODO: Implement QApplication::setEffectEnabled(Qt::UIEffect effect, bool enable) } TUint QApplicationPrivate::resolveS60ScanCode(TInt scanCode, TUint keysym) { if (keysym) { // If keysym is specified, cache it. scanCodeCache.insert(scanCode, keysym); return keysym; } else { // If not, retrieve the cached version. return scanCodeCache[scanCode]; } } void QApplicationPrivate::initializeMultitouch_sys() { #ifdef QT_SYMBIAN_SUPPORTS_ADVANCED_POINTER if (HAL::Get(HALData::EPointer3DMaxPressure, maxTouchPressure) != KErrNone) maxTouchPressure = KMaxTInt; #endif } void QApplicationPrivate::cleanupMultitouch_sys() { } #ifndef QT_NO_SESSIONMANAGER QSessionManager::QSessionManager(QApplication * /* app */, QString & /* id */, QString& /* key */) { } QSessionManager::~QSessionManager() { } bool QSessionManager::allowsInteraction() { return false; } void QSessionManager::cancel() { } #endif //QT_NO_SESSIONMANAGER #ifdef QT_KEYPAD_NAVIGATION /* * Show/Hide the mouse cursor depending on phone type and chosen mode */ void QApplicationPrivate::setNavigationMode(Qt::NavigationMode mode) { #ifndef QT_NO_CURSOR const bool wasCursorOn = (QApplicationPrivate::navigationMode == Qt::NavigationModeCursorAuto && !S60->hasTouchscreen) || QApplicationPrivate::navigationMode == Qt::NavigationModeCursorForceVisible; const bool isCursorOn = (mode == Qt::NavigationModeCursorAuto && !S60->hasTouchscreen) || mode == Qt::NavigationModeCursorForceVisible; if (!wasCursorOn && isCursorOn) { //Show the cursor, when changing from another mode to cursor mode qt_symbian_set_cursor_visible(true); } else if (wasCursorOn && !isCursorOn) { //Hide the cursor, when leaving cursor mode qt_symbian_set_cursor_visible(false); } #endif QApplicationPrivate::navigationMode = mode; } #endif #ifndef QT_NO_CURSOR /***************************************************************************** QApplication cursor stack *****************************************************************************/ void QApplication::setOverrideCursor(const QCursor &cursor) { qApp->d_func()->cursor_list.prepend(cursor); qt_symbian_setGlobalCursor(cursor); } void QApplication::restoreOverrideCursor() { if (qApp->d_func()->cursor_list.isEmpty()) return; qApp->d_func()->cursor_list.removeFirst(); if (!qApp->d_func()->cursor_list.isEmpty()) { qt_symbian_setGlobalCursor(qApp->d_func()->cursor_list.first()); } else { //determine which widget has focus QWidget *w = QApplication::widgetAt(QCursor::pos()); #ifndef Q_SYMBIAN_FIXED_POINTER_CURSORS if (S60->brokenPointerCursors) { qt_symbian_set_pointer_sprite(w ? w->cursor() : Qt::ArrowCursor); } else #endif { //because of the internals of window server, we need to force the cursor //to be set in all child windows too, otherwise when the cursor is over //the child window it may show a widget cursor or arrow cursor instead, //depending on construction order. QListIterator iter(QWidgetPrivate::mapper->uniqueKeys()); while (iter.hasNext()) { CCoeControl *ctrl = iter.next(); if(ctrl->OwnsWindow()) { ctrl->DrawableWindow()->ClearPointerCursor(); } } if (w) qt_symbian_setWindowCursor(w->cursor(), w->effectiveWinId()); else qt_symbian_setWindowGroupCursor(Qt::ArrowCursor, S60->windowGroup()); } } } #endif // QT_NO_CURSOR QT_END_NAMESPACE