/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd. ** Contact: http://www.qt.io/licensing/ ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see http://www.qt.io/terms-conditions. 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These rights are described in The Qt Company 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 #import #ifdef QT_MAC_USE_COCOA #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include @interface NSEvent (Qt_Compile_Leopard_DeviceDelta) // SnowLeopard: - (CGFloat)deviceDeltaX; - (CGFloat)deviceDeltaY; - (CGFloat)deviceDeltaZ; // Lion: - (CGFloat)scrollingDeltaX; - (CGFloat)scrollingDeltaY; - (CGFloat)scrollingDeltaZ; @end @interface NSEvent (Qt_Compile_Leopard_Gestures) - (CGFloat)magnification; @end QT_BEGIN_NAMESPACE extern void qt_mac_update_cursor(); // qcursor_mac.mm extern bool qt_sendSpontaneousEvent(QObject *, QEvent *); // qapplication.cpp extern QPointer qt_last_mouse_receiver; // qapplication_mac.cpp extern QPointer qt_last_native_mouse_receiver; // qt_cocoa_helpers_mac.mm extern OSViewRef qt_mac_nativeview_for(const QWidget *w); // qwidget_mac.mm extern OSViewRef qt_mac_effectiveview_for(const QWidget *w); // qwidget_mac.mm extern QPointer qt_button_down; //qapplication_mac.cpp extern Qt::MouseButton cocoaButton2QtButton(NSInteger buttonNum); extern QWidget *mac_mouse_grabber; extern bool qt_mac_clearDirtyOnWidgetInsideDrawWidget; // qwidget.cpp static QColor colorFrom(NSColor *color) { QColor qtColor; NSString *colorSpace = [color colorSpaceName]; if (colorSpace == NSDeviceCMYKColorSpace) { CGFloat cyan, magenta, yellow, black, alpha; [color getCyan:&cyan magenta:&magenta yellow:&yellow black:&black alpha:&alpha]; qtColor.setCmykF(cyan, magenta, yellow, black, alpha); } else { NSColor *tmpColor; tmpColor = [color colorUsingColorSpaceName:NSDeviceRGBColorSpace]; CGFloat red, green, blue, alpha; [tmpColor getRed:&red green:&green blue:&blue alpha:&alpha]; qtColor.setRgbF(red, green, blue, alpha); } return qtColor; } QT_END_NAMESPACE QT_FORWARD_DECLARE_CLASS(QMacCocoaAutoReleasePool) QT_FORWARD_DECLARE_CLASS(QCFString) QT_FORWARD_DECLARE_CLASS(QDragManager) QT_FORWARD_DECLARE_CLASS(QMimeData) QT_FORWARD_DECLARE_CLASS(QPoint) QT_FORWARD_DECLARE_CLASS(QApplication) QT_FORWARD_DECLARE_CLASS(QApplicationPrivate) QT_FORWARD_DECLARE_CLASS(QDragEnterEvent) QT_FORWARD_DECLARE_CLASS(QDragMoveEvent) QT_FORWARD_DECLARE_CLASS(QStringList) QT_FORWARD_DECLARE_CLASS(QString) QT_FORWARD_DECLARE_CLASS(QRect) QT_FORWARD_DECLARE_CLASS(QRegion) QT_FORWARD_DECLARE_CLASS(QAbstractScrollArea) QT_FORWARD_DECLARE_CLASS(QAbstractScrollAreaPrivate) QT_FORWARD_DECLARE_CLASS(QPaintEvent) QT_FORWARD_DECLARE_CLASS(QPainter) QT_FORWARD_DECLARE_CLASS(QHoverEvent) QT_FORWARD_DECLARE_CLASS(QCursor) QT_USE_NAMESPACE extern "C" { extern NSString *NSTextInputReplacementRangeAttributeName; } //#define ALIEN_DEBUG 1 #ifdef ALIEN_DEBUG static int qCocoaViewCount = 0; #endif @implementation QT_MANGLE_NAMESPACE(QCocoaView) - (id)initWithQWidget:(QWidget *)widget widgetPrivate:(QWidgetPrivate *)widgetprivate { self = [super init]; if (self) { [self finishInitWithQWidget:widget widgetPrivate:widgetprivate]; } [self setFocusRingType:NSFocusRingTypeNone]; composingText = new QString(); #ifdef ALIEN_DEBUG ++qCocoaViewCount; qDebug() << "Alien: create native view for" << widget << ". qCocoaViewCount is:" << qCocoaViewCount; #endif composing = false; sendKeyEvents = true; fromKeyDownEvent = false; alienTouchCount = 0; [self setHidden:YES]; return self; } - (void) finishInitWithQWidget:(QWidget *)widget widgetPrivate:(QWidgetPrivate *)widgetprivate { qwidget = widget; qwidgetprivate = widgetprivate; [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(frameDidChange:) name:@"NSViewFrameDidChangeNotification" object:self]; } - (void)dealloc { QMacCocoaAutoReleasePool pool; delete composingText; [[NSNotificationCenter defaultCenter] removeObserver:self]; #ifdef ALIEN_DEBUG --qCocoaViewCount; qDebug() << "Alien: widget deallocated. qCocoaViewCount is:" << qCocoaViewCount; #endif [super dealloc]; } - (BOOL)isOpaque { if (!qwidgetprivate) return [super isOpaque]; return qwidgetprivate->isOpaque; } - (BOOL)isFlipped { return YES; } // We preserve the content of the view if WA_StaticContents is defined. // // More info in the Cocoa documentation: // http://developer.apple.com/mac/library/documentation/cocoa/conceptual/CocoaViewsGuide/Optimizing/Optimizing.html - (BOOL) preservesContentDuringLiveResize { return qwidget->testAttribute(Qt::WA_StaticContents); } - (void) setFrameSize:(NSSize)newSize { [super setFrameSize:newSize]; // A change in size has required the view to be invalidated. if ([self inLiveResize]) { NSRect rects[4]; NSInteger count; [self getRectsExposedDuringLiveResize:rects count:&count]; while (count-- > 0) { [self setNeedsDisplayInRect:rects[count]]; } } else { [self setNeedsDisplay:YES]; } // Make sure the opengl context is updated on resize. if (qwidgetprivate && qwidgetprivate->isGLWidget && [self window]) { qwidgetprivate->needWindowChange = true; QEvent event(QEvent::MacGLWindowChange); qApp->sendEvent(qwidget, &event); } } // We catch the 'setNeedsDisplay:' message in order to avoid a useless full repaint. // During the resize, the top of the widget is repainted, probably because of the // change of coordinate space (Quartz vs Qt). This is then followed by this message: // -[NSView _setNeedsDisplayIfTopLeftChanged] // which force a full repaint by sending the message 'setNeedsDisplay:'. // That is what we are preventing here. - (void)setNeedsDisplay:(BOOL)flag { if (![self inLiveResize] || !(qwidget->testAttribute(Qt::WA_StaticContents))) { [super setNeedsDisplay:flag]; } } - (void)drawRect:(NSRect)aRect { if (!qwidget) return; // Getting context. CGContextRef context = (CGContextRef)[[NSGraphicsContext currentContext] graphicsPort]; qt_mac_retain_graphics_context(context); // We use a different graphics system. // // Widgets that are set to paint on screen, specifically QGLWidget, // requires the native engine to execute in order to be drawn. if (QApplicationPrivate::graphicsSystem() != 0 && !qwidget->testAttribute(Qt::WA_PaintOnScreen)) { // Raster engine. if (QApplicationPrivate::graphics_system_name == QLatin1String("raster")) { if (!qwidgetprivate->isInUnifiedToolbar) { // Qt handles the painting occuring inside the window. // Cocoa also keeps track of all widgets as NSView and therefore might // ask for a repainting of a widget even if Qt is already taking care of it. // // The only valid reason for Cocoa to call drawRect: is for window manipulation // (ie. resize, ...). // // Qt will then forward the update to the children. if (!qwidget->isWindow()) { qt_mac_release_graphics_context(context); return; } QRasterWindowSurface *winSurface = dynamic_cast(qwidget->windowSurface()); if (!winSurface || !winSurface->needsFlush) { qt_mac_release_graphics_context(context); return; } // Clip to region. const QVector &rects = winSurface->regionToFlush.rects(); for (int i = 0; i < rects.size(); ++i) { const QRect &rect = rects.at(i); CGContextAddRect(context, CGRectMake(rect.x(), rect.y(), rect.width(), rect.height())); } CGContextClip(context); QRect r = winSurface->regionToFlush.boundingRect(); const CGRect area = CGRectMake(r.x(), r.y(), r.width(), r.height()); qt_mac_draw_image(context, winSurface->imageContext(), area, area); winSurface->needsFlush = false; winSurface->regionToFlush = QRegion(); } else { QUnifiedToolbarSurface *unifiedSurface = qwidgetprivate->unifiedSurface; if (!unifiedSurface) { qt_mac_release_graphics_context(context); return; } int areaX = qwidgetprivate->toolbar_offset.x(); int areaY = qwidgetprivate->toolbar_offset.y(); int areaWidth = qwidget->geometry().width(); int areaHeight = qwidget->geometry().height(); const CGRect area = CGRectMake(areaX, areaY, areaWidth, areaHeight); const CGRect drawingArea = CGRectMake(0, 0, areaWidth, areaHeight); qt_mac_draw_image(context, unifiedSurface->imageContext(), area, drawingArea); qwidgetprivate->flushRequested = false; } CGContextSynchronize(context); qt_mac_release_graphics_context(context); return; } // Qt handles the painting occuring inside the window. // Cocoa also keeps track of all widgets as NSView and therefore might // ask for a repainting of a widget even if Qt is already taking care of it. // // The only valid reason for Cocoa to call drawRect: is for window manipulation // (ie. resize, ...). // // Qt will then forward the update to the children. if (qwidget->isWindow()) { qwidget->update(qwidget->rect()); qwidgetprivate->syncBackingStore(qwidget->rect()); } } // Native engine. qwidgetprivate->hd = context; if (qwidget->isVisible() && qwidget->updatesEnabled()) { //process the actual paint event. if (qwidget->testAttribute(Qt::WA_WState_InPaintEvent)) qWarning("QWidget::repaint: Recursive repaint detected"); const QRect qrect = QRect(aRect.origin.x, aRect.origin.y, aRect.size.width, aRect.size.height); QRegion qrgn; const NSRect *rects; NSInteger count; [self getRectsBeingDrawn:&rects count:&count]; for (int i = 0; i < count; ++i) { QRect tmpRect = QRect(rects[i].origin.x, rects[i].origin.y, rects[i].size.width, rects[i].size.height); qrgn += tmpRect; } if (!qwidget->isWindow() && !qobject_cast(qwidget->parent())) { const QRegion &parentMask = qwidget->window()->mask(); if (!parentMask.isEmpty()) { const QPoint mappedPoint = qwidget->mapTo(qwidget->window(), qrect.topLeft()); qrgn.translate(mappedPoint); qrgn &= parentMask; qrgn.translate(-mappedPoint.x(), -mappedPoint.y()); } } QPoint redirectionOffset(0, 0); //setup the context qwidget->setAttribute(Qt::WA_WState_InPaintEvent); QPaintEngine *engine = qwidget->paintEngine(); if (engine) engine->setSystemClip(qrgn); if (qwidgetprivate->extra && qwidgetprivate->extra->hasMask) { CGRect widgetRect = CGRectMake(0, 0, qwidget->width(), qwidget->height()); CGContextTranslateCTM (context, 0, widgetRect.size.height); CGContextScaleCTM(context, 1, -1); if (qwidget->isWindow()) CGContextClearRect(context, widgetRect); CGContextClipToMask(context, widgetRect, qwidgetprivate->extra->imageMask); CGContextScaleCTM(context, 1, -1); CGContextTranslateCTM (context, 0, -widgetRect.size.height); } if (qwidget->isWindow() && !qwidgetprivate->isOpaque && !qwidget->testAttribute(Qt::WA_MacBrushedMetal)) { CGContextClearRect(context, NSRectToCGRect(aRect)); } qwidget->setAttribute(Qt::WA_WState_InPaintEvent, false); QWidgetPrivate *qwidgetPrivate = qt_widget_private(qwidget); // We specify that we want to draw the widget itself, and // all its children recursive. But we skip native children, because // they will receive drawRect calls by themselves as needed: int flags = QWidgetPrivate::DrawPaintOnScreen | QWidgetPrivate::DrawRecursive | QWidgetPrivate::DontDrawNativeChildren; if (qwidget->isWindow()) flags |= QWidgetPrivate::DrawAsRoot; // Start to draw: qt_mac_clearDirtyOnWidgetInsideDrawWidget = true; qwidgetPrivate->drawWidget(qwidget, qrgn, QPoint(), flags, 0); qt_mac_clearDirtyOnWidgetInsideDrawWidget = false; if (!redirectionOffset.isNull()) QPainter::restoreRedirected(qwidget); if (engine) engine->setSystemClip(QRegion()); qwidget->setAttribute(Qt::WA_WState_InPaintEvent, false); if(!qwidget->testAttribute(Qt::WA_PaintOutsidePaintEvent) && qwidget->paintingActive()) qWarning("QWidget: It is dangerous to leave painters active on a" " widget outside of the PaintEvent"); } qwidgetprivate->hd = 0; qt_mac_release_graphics_context(context); } - (BOOL)acceptsFirstMouse:(NSEvent *)theEvent { // Find the widget that should receive the event: QPoint qlocal, qglobal; QWidget *widgetToGetMouse = qt_mac_getTargetForMouseEvent(theEvent, QEvent::MouseButtonPress, qlocal, qglobal, qwidget, 0); if (!widgetToGetMouse) return NO; return !widgetToGetMouse->testAttribute(Qt::WA_MacNoClickThrough); } - (NSView *)hitTest:(NSPoint)aPoint { if (!qwidget) return [super hitTest:aPoint]; if (qwidget->testAttribute(Qt::WA_TransparentForMouseEvents)) return nil; // You cannot hit a transparent for mouse event widget. return [super hitTest:aPoint]; } - (void)updateTrackingAreas { if (!qwidget) return; // [NSView addTrackingArea] is slow, so bail out early if we can: if (NSIsEmptyRect([self visibleRect])) return; QMacCocoaAutoReleasePool pool; if (NSArray *trackingArray = [self trackingAreas]) { NSUInteger size = [trackingArray count]; for (NSUInteger i = 0; i < size; ++i) { NSTrackingArea *t = [trackingArray objectAtIndex:i]; [self removeTrackingArea:t]; } } // Ideally, we shouldn't have NSTrackingMouseMoved events included below, it should // only be turned on if mouseTracking, hover is on or a tool tip is set. // Unfortunately, Qt will send "tooltip" events on mouse moves, so we need to // turn it on in ALL case. That means EVERY QCocoaView gets to pay the cost of // mouse moves delivered to it (Apple recommends keeping it OFF because there // is a performance hit). So it goes. NSUInteger trackingOptions = NSTrackingMouseEnteredAndExited | NSTrackingActiveInActiveApp | NSTrackingInVisibleRect | NSTrackingMouseMoved; NSTrackingArea *ta = [[NSTrackingArea alloc] initWithRect:NSMakeRect(0, 0, qwidget->width(), qwidget->height()) options:trackingOptions owner:self userInfo:nil]; [self addTrackingArea:ta]; [ta release]; } - (void)mouseEntered:(NSEvent *)event { // Cocoa will not send a move event on mouseEnter. But since // Qt expect this, we fake one now. See also mouseExited below // for info about enter/leave event handling NSEvent *nsmoveEvent = [NSEvent mouseEventWithType:NSMouseMoved location:[[self window] mouseLocationOutsideOfEventStream] modifierFlags: [event modifierFlags] timestamp: [event timestamp] windowNumber: [event windowNumber] context: [event context] eventNumber: [event eventNumber] clickCount: 0 pressure: 0]; // Important: Cocoa sends us mouseEnter on all views under the mouse // and not just the one on top. Therefore, to we cannot use qwidget // as native widget for this case. Instead, we let qt_mac_handleMouseEvent // resolve it (last argument set to 0): qt_mac_handleMouseEvent(nsmoveEvent, QEvent::MouseMove, Qt::NoButton, 0, true); } - (void)mouseExited:(NSEvent *)event { // Note: normal enter/leave handling is done from within mouseMove. This handler // catches the case when the mouse moves out of the window (which mouseMove do not). // Updating the mouse cursor follows the same logic as enter/leave. And we update // neither if a grab exists (even if the grab points to this widget, it seems, ref X11) Q_UNUSED(event); if (self == [[self window] contentView] && !qt_button_down && !QWidget::mouseGrabber()) { qt_mac_update_cursor(); // If the mouse exits the content view, but qt_mac_getTargetForMouseEvent still // reports a target, it means that either there is a grab involved, or the mouse // hovered over another window in the application. In both cases, move events will // cause qt_mac_handleMouseEvent to be called, which will handle enter/leave. QPoint qlocal, qglobal; QWidget *widgetUnderMouse = 0; qt_mac_getTargetForMouseEvent(event, QEvent::Leave, qlocal, qglobal, qwidget, &widgetUnderMouse); if (widgetUnderMouse == 0) { QApplicationPrivate::dispatchEnterLeave(0, qt_last_mouse_receiver); qt_last_mouse_receiver = 0; qt_last_native_mouse_receiver = 0; } } } - (void)flagsChanged:(NSEvent *)theEvent { QWidget *widgetToGetKey = qt_mac_getTargetForKeyEvent(qwidget); if (!widgetToGetKey) return; qt_dispatchModifiersChanged(theEvent, widgetToGetKey); [super flagsChanged:theEvent]; } - (void)mouseMoved:(NSEvent *)theEvent { // Important: this method will only be called when the view's window is _not_ inside // QCocoaWindow/QCocoaPanel. Otherwise, [QCocoaWindow sendEvent] will handle the event // before it ends up here. So, this method is added for supporting QMacNativeWidget. // TODO: Cocoa send move events to all views under the mouse. So make sure we only // handle the event for the widget on top when using QMacNativeWidget. qt_mac_handleMouseEvent(theEvent, QEvent::MouseMove, Qt::NoButton, qwidget); } - (void)mouseDown:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseButtonPress, Qt::LeftButton, qwidget); // Don't call super here. This prevents us from getting the mouseUp event, // which we need to send even if the mouseDown event was not accepted. // (this is standard Qt behavior.) } - (void)mouseUp:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseButtonRelease, Qt::LeftButton, qwidget); } - (void)rightMouseDown:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseButtonPress, Qt::RightButton, qwidget); } - (void)rightMouseUp:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseButtonRelease, Qt::RightButton, qwidget); } - (void)otherMouseDown:(NSEvent *)theEvent { Qt::MouseButton mouseButton = cocoaButton2QtButton([theEvent buttonNumber]); qt_mac_handleMouseEvent(theEvent, QEvent::MouseButtonPress, mouseButton, qwidget); } - (void)otherMouseUp:(NSEvent *)theEvent { Qt::MouseButton mouseButton = cocoaButton2QtButton([theEvent buttonNumber]); qt_mac_handleMouseEvent(theEvent, QEvent::MouseButtonRelease, mouseButton, qwidget); } - (void)mouseDragged:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseMove, Qt::NoButton, qwidget); } - (void)rightMouseDragged:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseMove, Qt::NoButton, qwidget); } - (void)otherMouseDragged:(NSEvent *)theEvent { qt_mac_handleMouseEvent(theEvent, QEvent::MouseMove, Qt::NoButton, qwidget); } - (void)scrollWheel:(NSEvent *)theEvent { // Give the Input Manager a chance to process the wheel event. NSInputManager *currentIManager = [NSInputManager currentInputManager]; if (currentIManager && [currentIManager wantsToHandleMouseEvents]) { [currentIManager handleMouseEvent:theEvent]; } Qt::MouseButtons buttons = QApplication::mouseButtons(); Qt::KeyboardModifiers keyMods = qt_cocoaModifiers2QtModifiers([theEvent modifierFlags]); // Find the widget that should receive the event: QPoint qlocal, qglobal; QWidget *widgetToGetMouse = qt_mac_getTargetForMouseEvent(theEvent, QEvent::Wheel, qlocal, qglobal, qwidget, 0); if (!widgetToGetMouse) return; int deltaX = 0; int deltaY = 0; const EventRef carbonEvent = (EventRef)[theEvent eventRef]; const UInt32 carbonEventKind = carbonEvent ? ::GetEventKind(carbonEvent) : 0; const bool scrollEvent = carbonEventKind == kEventMouseScroll; if (scrollEvent) { // The mouse device containts pixel scroll wheel support (Mighty Mouse, Trackpad). // Since deviceDelta is delivered as pixels rather than degrees, we need to // convert from pixels to degrees in a sensible manner. // It looks like 1/4 degrees per pixel behaves most native. // (NB: Qt expects the unit for delta to be 8 per degree): const int pixelsToDegrees = 2; // 8 * 1/4 if (QSysInfo::MacintoshVersion <= QSysInfo::MV_10_6) { // Mac OS 10.6 deltaX = [theEvent deviceDeltaX] * pixelsToDegrees; deltaY = [theEvent deviceDeltaY] * pixelsToDegrees; } else { // Mac OS 10.7+ deltaX = [theEvent scrollingDeltaX] * pixelsToDegrees; deltaY = [theEvent scrollingDeltaY] * pixelsToDegrees; } } else { // carbonEventKind == kEventMouseWheelMoved // Remove acceleration, and use either -120 or 120 as delta: deltaX = qBound(-120, int([theEvent deltaX] * 10000), 120); deltaY = qBound(-120, int([theEvent deltaY] * 10000), 120); } #ifndef QT_NO_WHEELEVENT // ### Qt 5: Send one QWheelEvent with dx, dy and dz if (deltaX != 0 && deltaY != 0) QMacScrollOptimization::initDelayedScroll(); if (deltaX != 0) { QWheelEvent qwe(qlocal, qglobal, deltaX, buttons, keyMods, Qt::Horizontal); qt_sendSpontaneousEvent(widgetToGetMouse, &qwe); } if (deltaY != 0) { QWheelEvent qwe(qlocal, qglobal, deltaY, buttons, keyMods, Qt::Vertical); qt_sendSpontaneousEvent(widgetToGetMouse, &qwe); } if (deltaX != 0 && deltaY != 0) QMacScrollOptimization::performDelayedScroll(); #endif //QT_NO_WHEELEVENT } - (void)tabletProximity:(NSEvent *)tabletEvent { qt_dispatchTabletProximityEvent(tabletEvent); } - (void)tabletPoint:(NSEvent *)tabletEvent { if (!qt_mac_handleTabletEvent(self, tabletEvent)) [super tabletPoint:tabletEvent]; } - (void)magnifyWithEvent:(NSEvent *)event { QPoint qlocal, qglobal; QWidget *widgetToGetGesture = 0; qt_mac_getTargetForMouseEvent(event, QEvent::Gesture, qlocal, qglobal, qwidget, &widgetToGetGesture); if (!widgetToGetGesture) return; if (!QApplicationPrivate::tryModalHelper(widgetToGetGesture, 0)) return; #ifndef QT_NO_GESTURES QNativeGestureEvent qNGEvent; qNGEvent.gestureType = QNativeGestureEvent::Zoom; NSPoint p = [[event window] convertBaseToScreen:[event locationInWindow]]; qNGEvent.position = flipPoint(p).toPoint(); qNGEvent.percentage = [event magnification]; qt_sendSpontaneousEvent(widgetToGetGesture, &qNGEvent); #endif // QT_NO_GESTURES } - (void)rotateWithEvent:(NSEvent *)event { QPoint qlocal, qglobal; QWidget *widgetToGetGesture = 0; qt_mac_getTargetForMouseEvent(event, QEvent::Gesture, qlocal, qglobal, qwidget, &widgetToGetGesture); if (!widgetToGetGesture) return; if (!QApplicationPrivate::tryModalHelper(widgetToGetGesture, 0)) return; #ifndef QT_NO_GESTURES QNativeGestureEvent qNGEvent; qNGEvent.gestureType = QNativeGestureEvent::Rotate; NSPoint p = [[event window] convertBaseToScreen:[event locationInWindow]]; qNGEvent.position = flipPoint(p).toPoint(); qNGEvent.percentage = -[event rotation]; qt_sendSpontaneousEvent(widgetToGetGesture, &qNGEvent); #endif // QT_NO_GESTURES } - (void)swipeWithEvent:(NSEvent *)event { QPoint qlocal, qglobal; QWidget *widgetToGetGesture = 0; qt_mac_getTargetForMouseEvent(event, QEvent::Gesture, qlocal, qglobal, qwidget, &widgetToGetGesture); if (!widgetToGetGesture) return; if (!QApplicationPrivate::tryModalHelper(widgetToGetGesture, 0)) return; #ifndef QT_NO_GESTURES QNativeGestureEvent qNGEvent; qNGEvent.gestureType = QNativeGestureEvent::Swipe; NSPoint p = [[event window] convertBaseToScreen:[event locationInWindow]]; qNGEvent.position = flipPoint(p).toPoint(); if ([event deltaX] == 1) qNGEvent.angle = 180.0f; else if ([event deltaX] == -1) qNGEvent.angle = 0.0f; else if ([event deltaY] == 1) qNGEvent.angle = 90.0f; else if ([event deltaY] == -1) qNGEvent.angle = 270.0f; qt_sendSpontaneousEvent(widgetToGetGesture, &qNGEvent); #endif // QT_NO_GESTURES } - (void)beginGestureWithEvent:(NSEvent *)event { QPoint qlocal, qglobal; QWidget *widgetToGetGesture = 0; qt_mac_getTargetForMouseEvent(event, QEvent::Gesture, qlocal, qglobal, qwidget, &widgetToGetGesture); if (!widgetToGetGesture) return; if (!QApplicationPrivate::tryModalHelper(widgetToGetGesture, 0)) return; #ifndef QT_NO_GESTURES QNativeGestureEvent qNGEvent; qNGEvent.gestureType = QNativeGestureEvent::GestureBegin; NSPoint p = [[event window] convertBaseToScreen:[event locationInWindow]]; qNGEvent.position = flipPoint(p).toPoint(); qt_sendSpontaneousEvent(widgetToGetGesture, &qNGEvent); #endif // QT_NO_GESTURES } - (void)endGestureWithEvent:(NSEvent *)event { QPoint qlocal, qglobal; QWidget *widgetToGetGesture = 0; qt_mac_getTargetForMouseEvent(event, QEvent::Gesture, qlocal, qglobal, qwidget, &widgetToGetGesture); if (!widgetToGetGesture) return; if (!QApplicationPrivate::tryModalHelper(widgetToGetGesture, 0)) return; #ifndef QT_NO_GESTURES QNativeGestureEvent qNGEvent; qNGEvent.gestureType = QNativeGestureEvent::GestureEnd; NSPoint p = [[event window] convertBaseToScreen:[event locationInWindow]]; qNGEvent.position = flipPoint(p).toPoint(); qt_sendSpontaneousEvent(widgetToGetGesture, &qNGEvent); } #endif // QT_NO_GESTURES - (void)frameDidChange:(NSNotification *)note { Q_UNUSED(note); if (!qwidget) return; if (qwidget->isWindow()) return; NSRect newFrame = [self frame]; QRect newGeo(newFrame.origin.x, newFrame.origin.y, newFrame.size.width, newFrame.size.height); bool moved = qwidget->testAttribute(Qt::WA_Moved); bool resized = qwidget->testAttribute(Qt::WA_Resized); qwidget->setGeometry(newGeo); qwidget->setAttribute(Qt::WA_Moved, moved); qwidget->setAttribute(Qt::WA_Resized, resized); qwidgetprivate->syncCocoaMask(); } - (BOOL)isEnabled { if (!qwidget) return [super isEnabled]; return [super isEnabled] && qwidget->isEnabled(); } - (void)setEnabled:(BOOL)flag { QMacCocoaAutoReleasePool pool; [super setEnabled:flag]; if (qwidget && qwidget->isEnabled() != flag) qwidget->setEnabled(flag); } + (Class)cellClass { return [NSActionCell class]; } - (BOOL)acceptsFirstResponder { if (!qwidget) return NO; // Disabled widget shouldn't get focus even if it's a window. // hence disabled windows will not get any key or mouse events. if (!qwidget->isEnabled()) return NO; if (qwidget->isWindow() && !qt_widget_private(qwidget)->topData()->embedded) { QWidget *focusWidget = qApp->focusWidget(); if (!focusWidget) { // There is no focus widget, but we still want to receive key events // for shortcut handling etc. So we accept first responer for the // content view as a last resort: return YES; } if (!focusWidget->internalWinId() && focusWidget->nativeParentWidget() == qwidget) { // The current focus widget is alien, and hence, cannot get acceptsFirstResponder // calls. Since the focus widget is a child of qwidget, we let this view say YES: return YES; } if (focusWidget->window() != qwidget) { // The current focus widget is in another window. Since cocoa // suggest that this window should be key now, we accept: return YES; } } return qwidget->focusPolicy() != Qt::NoFocus; } - (BOOL)resignFirstResponder { if (!qwidget) return YES; // Seems like the following test only triggers if this // view is inside a QMacNativeWidget: // if (QWidget *fw = QApplication::focusWidget()) { // if (qwidget == fw || qwidget == fw->nativeParentWidget()) // fw->clearFocus(); // } return YES; } - (BOOL)becomeFirstResponder { // see the comment in the acceptsFirstResponder - if the window "stole" focus // let it become the responder, but don't tell Qt if (qwidget && qt_widget_private(qwidget->window())->topData()->embedded && !QApplication::focusWidget() && qwidget->focusPolicy() != Qt::NoFocus) qwidget->setFocus(Qt::OtherFocusReason); return YES; } - (NSDragOperation)draggingSourceOperationMaskForLocal:(BOOL)isLocal { Q_UNUSED(isLocal); return supportedActions; } - (void)setSupportedActions:(NSDragOperation)actions { supportedActions = actions; } - (void)draggedImage:(NSImage *)anImage endedAt:(NSPoint)aPoint operation:(NSDragOperation)operation { Q_UNUSED(anImage); Q_UNUSED(aPoint); macCurrentDnDParameters()->performedAction = operation; if (QDragManager::self()->object && QDragManager::self()->dragPrivate()->executed_action != Qt::ActionMask) { macCurrentDnDParameters()->performedAction = qt_mac_mapDropAction(QDragManager::self()->dragPrivate()->executed_action); } } - (QWidget *)qt_qwidget { return qwidget; } - (void) qt_clearQWidget { qwidget = 0; qwidgetprivate = 0; } - (void)keyDown:(NSEvent *)theEvent { if (!qwidget) return; QWidget *widgetToGetKey = qt_mac_getTargetForKeyEvent(qwidget); if (!widgetToGetKey) return; sendKeyEvents = true; if (widgetToGetKey->testAttribute(Qt::WA_InputMethodEnabled) && !(widgetToGetKey->inputMethodHints() & Qt::ImhDigitsOnly || widgetToGetKey->inputMethodHints() & Qt::ImhFormattedNumbersOnly || widgetToGetKey->inputMethodHints() & Qt::ImhHiddenText)) { fromKeyDownEvent = true; [qt_mac_nativeview_for(qwidget) interpretKeyEvents:[NSArray arrayWithObject: theEvent]]; fromKeyDownEvent = false; } if (sendKeyEvents && !composing) { bool keyEventEaten = qt_dispatchKeyEvent(theEvent, widgetToGetKey); if (!keyEventEaten && qwidget) { // The event is not yet eaten, and if Qt is embedded inside a native // cocoa application, send it to first responder not owned by Qt. // The exception is if widgetToGetKey was redirected to a popup. QWidget *toplevel = qwidget->window(); if (toplevel == widgetToGetKey->window()) { if (qt_widget_private(toplevel)->topData()->embedded) { if (NSResponder *w = [qt_mac_nativeview_for(toplevel) superview]) [w keyDown:theEvent]; } } } } } - (void)keyUp:(NSEvent *)theEvent { if (sendKeyEvents) { QWidget *widgetToGetKey = qt_mac_getTargetForKeyEvent(qwidget); if (!widgetToGetKey) return; bool keyEventEaten = qt_dispatchKeyEvent(theEvent, widgetToGetKey); if (!keyEventEaten && qwidget) { // The event is not yet eaten, and if Qt is embedded inside a native // cocoa application, send it to first responder not owned by Qt. // The exception is if widgetToGetKey was redirected to a popup. QWidget *toplevel = qwidget->window(); if (toplevel == widgetToGetKey->window()) { if (qt_widget_private(toplevel)->topData()->embedded) { if (NSResponder *w = [qt_mac_nativeview_for(toplevel) superview]) [w keyUp:theEvent]; } } } } } - (void)viewWillMoveToWindow:(NSWindow *)window { if (qwidget == 0) return; if (qwidget->windowFlags() & Qt::MSWindowsOwnDC && (window != [self window])) { // OpenGL Widget QEvent event(QEvent::MacGLClearDrawable); qApp->sendEvent(qwidget, &event); } } - (void)viewDidMoveToWindow { if (qwidget == 0) return; if (qwidget->windowFlags() & Qt::MSWindowsOwnDC && [self window]) { // call update paint event qwidgetprivate->needWindowChange = true; QEvent event(QEvent::MacGLWindowChange); qApp->sendEvent(qwidget, &event); } } // NSTextInput Protocol implementation - (void) insertText:(id)aString { QString commitText; if ([aString length]) { if ([aString isKindOfClass:[NSAttributedString class]]) { commitText = QCFString::toQString(reinterpret_cast([aString string])); } else { commitText = QCFString::toQString(reinterpret_cast(aString)); }; } // When entering characters through Character Viewer or Keyboard Viewer, the text is passed // through this insertText method. Since we dont receive a keyDown Event in such cases, the // composing flag will be false. // // Characters can be sent through input method directly without composing process as well, // for instance a Chinese input method will send "," (U+FF0C) to insertText: when "," key // is pressed. In that case we want to set commit string directly instead of going through // key events handling again. Hence we only leave the string with Unicode value less than // 256 to the key events handling process. if (([aString length] && (composing || commitText.at(0).unicode() > 0xff)) || !fromKeyDownEvent) { // Send the commit string to the widget. QInputMethodEvent e; e.setCommitString(commitText); QWidget *widgetToGetKey = 0; if (!composing || qApp->focusWidget()) widgetToGetKey = qt_mac_getTargetForKeyEvent(qwidget); #ifndef QT_NO_IM else if (QMacInputContext *mic = qobject_cast(qApp->inputContext())) widgetToGetKey = mic->lastFocusWidget(); #endif if (widgetToGetKey) qt_sendSpontaneousEvent(widgetToGetKey, &e); composing = false; sendKeyEvents = false; } else { // The key sequence "`q" on a French Keyboard will generate two calls to insertText before // it returns from interpretKeyEvents. The first call will turn off 'composing' and accept // the "`" key. The last keyDown event needs to be processed by the widget to get the // character "q". The string parameter is ignored for the second call. sendKeyEvents = true; } composingText->clear(); } - (void) setMarkedText:(id)aString selectedRange:(NSRange)selRange { // Generate the QInputMethodEvent with preedit string and the attributes // for rendering it. The attributes handled here are 'underline', // 'underline color' and 'cursor position'. sendKeyEvents = false; composing = true; QString qtText; // Cursor position is retrived from the range. QList attrs; attrs<([aString string])); composingLength = qtText.length(); int index = 0; // Create attributes for individual sections of preedit text while (index < composingLength) { NSRange effectiveRange; NSRange range = NSMakeRange(index, composingLength-index); NSDictionary *attributes = [aString attributesAtIndex:index longestEffectiveRange:&effectiveRange inRange:range]; NSNumber *underlineStyle = [attributes objectForKey:NSUnderlineStyleAttributeName]; if (underlineStyle) { QColor clr (Qt::black); NSColor *color = [attributes objectForKey:NSUnderlineColorAttributeName]; if (color) { clr = colorFrom(color); } QTextCharFormat format; format.setFontUnderline(true); format.setUnderlineColor(clr); attrs<(aString)); composingLength = qtText.length(); } // Make sure that we have at least one text format. if (attrs.size() <= 1) { QTextCharFormat format; format.setFontUnderline(true); attrs<clear(); composing = false; } - (BOOL) hasMarkedText { return (composing ? YES: NO); } - (void) doCommandBySelector:(SEL)aSelector { Q_UNUSED(aSelector); } - (BOOL)isComposing { return composing; } - (NSInteger) conversationIdentifier { // Return a unique identifier fot this ime conversation return (NSInteger)self; } - (NSAttributedString *) attributedSubstringFromRange:(NSRange)theRange { QString selectedText(qwidget->inputMethodQuery(Qt::ImCurrentSelection).toString()); if (!selectedText.isEmpty()) { QCFString string(selectedText.mid(theRange.location, theRange.length)); const NSString *tmpString = reinterpret_cast((CFStringRef)string); return [[[NSAttributedString alloc] initWithString:const_cast(tmpString)] autorelease]; } else { return nil; } } - (NSRange) markedRange { NSRange range; if (composing) { range.location = 0; range.length = composingLength; } else { range.location = NSNotFound; range.length = 0; } return range; } - (NSRange) selectedRange { NSRange selRange; QString selectedText(qwidget->inputMethodQuery(Qt::ImCurrentSelection).toString()); if (!selectedText.isEmpty()) { // Consider only the selected text. selRange.location = 0; selRange.length = selectedText.length(); } else { // No selected text. selRange.location = NSNotFound; selRange.length = 0; } return selRange; } - (NSRect) firstRectForCharacterRange:(NSRange)theRange { Q_UNUSED(theRange); // The returned rect is always based on the internal cursor. QWidget *widgetToGetKey = qt_mac_getTargetForKeyEvent(qwidget); if (!widgetToGetKey) return NSZeroRect; QRect mr(widgetToGetKey->inputMethodQuery(Qt::ImMicroFocus).toRect()); QPoint mp(widgetToGetKey->mapToGlobal(QPoint(mr.bottomLeft()))); NSRect rect ; rect.origin.x = mp.x(); rect.origin.y = flipYCoordinate(mp.y()); rect.size.width = mr.width(); rect.size.height = mr.height(); return rect; } - (NSUInteger)characterIndexForPoint:(NSPoint)thePoint { // We dont support cursor movements using mouse while composing. Q_UNUSED(thePoint); return NSNotFound; } - (NSArray*) validAttributesForMarkedText { QWidget *widgetToGetKey = qt_mac_getTargetForKeyEvent(qwidget); if (!widgetToGetKey) return nil; if (!widgetToGetKey->testAttribute(Qt::WA_InputMethodEnabled)) return nil; // Not sure if that's correct, but it's saves a malloc. // Support only underline color/style. return [NSArray arrayWithObjects:NSUnderlineColorAttributeName, NSUnderlineStyleAttributeName, nil]; } @end QT_BEGIN_NAMESPACE #ifndef QT_NO_IM void QMacInputContext::reset() { QWidget *w = QInputContext::focusWidget(); if (w) { NSView *view = qt_mac_effectiveview_for(w); if ([view isKindOfClass:[QT_MANGLE_NAMESPACE(QCocoaView) class]]) { QMacCocoaAutoReleasePool pool; QT_MANGLE_NAMESPACE(QCocoaView) *qc = static_cast(view); NSInputManager *currentIManager = [NSInputManager currentInputManager]; if (currentIManager) { [currentIManager markedTextAbandoned:view]; [qc unmarkText]; } } } } bool QMacInputContext::isComposing() const { QWidget *w = QInputContext::focusWidget(); if (w) { NSView *view = qt_mac_effectiveview_for(w); if ([view isKindOfClass:[QT_MANGLE_NAMESPACE(QCocoaView) class]]) { return [static_cast(view) isComposing]; } } return false; } #endif // QT_NO_IM extern bool qt_mac_in_drag; void * /*NSImage */qt_mac_create_nsimage(const QPixmap &pm); static const int default_pm_hotx = -2; static const int default_pm_hoty = -16; static const char* default_pm[] = { "13 9 3 1", ". c None", " c #000000", "X c #FFFFFF", "X X X X X X X", " X X X X X X ", "X ......... X", " X.........X ", "X ......... X", " X.........X ", "X ......... X", " X X X X X X ", "X X X X X X X", }; Qt::DropAction QDragManager::drag(QDrag *o) { if(qt_mac_in_drag) { //just make sure.. qWarning("Qt: Internal error: WH0A, unexpected condition reached"); return Qt::IgnoreAction; } if(object == o) return Qt::IgnoreAction; /* At the moment it seems clear that Mac OS X does not want to drag with a non-left button so we just bail early to prevent it */ if (!(GetCurrentEventButtonState() & kEventMouseButtonPrimary)) { o->setMimeData(0); o->deleteLater(); return Qt::IgnoreAction; } if(object) { dragPrivate()->source->removeEventFilter(this); cancel(); beingCancelled = false; } object = o; dragPrivate()->target = 0; #ifndef QT_NO_ACCESSIBILITY QAccessible::updateAccessibility(this, 0, QAccessible::DragDropStart); #endif // setup the data QMacPasteboard dragBoard((CFStringRef) NSDragPboard, QMacPasteboardMime::MIME_DND); dragPrivate()->data->setData(QLatin1String("application/x-qt-mime-type-name"), QByteArray("dummy")); dragBoard.setMimeData(dragPrivate()->data); // create the image QPoint hotspot; QPixmap pix = dragPrivate()->pixmap; if(pix.isNull()) { if(dragPrivate()->data->hasText() || dragPrivate()->data->hasUrls()) { // get the string QString s = dragPrivate()->data->hasText() ? dragPrivate()->data->text() : dragPrivate()->data->urls().first().toString(); if(s.length() > 26) s = s.left(23) + QChar(0x2026); if(!s.isEmpty()) { // draw it QFont f(qApp->font()); f.setPointSize(12); QFontMetrics fm(f); QPixmap tmp(fm.width(s), fm.height()); if(!tmp.isNull()) { QPainter p(&tmp); p.fillRect(0, 0, tmp.width(), tmp.height(), Qt::color0); p.setPen(Qt::color1); p.setFont(f); p.drawText(0, fm.ascent(), s); // save it pix = tmp; hotspot = QPoint(tmp.width() / 2, tmp.height() / 2); } } } else { pix = QPixmap(default_pm); hotspot = QPoint(default_pm_hotx, default_pm_hoty); } } else { hotspot = dragPrivate()->hotspot; } // Convert the image to NSImage: NSImage *image = (NSImage *)qt_mac_create_nsimage(pix); DnDParams *dndParams = macCurrentDnDParameters(); QT_MANGLE_NAMESPACE(QCocoaView) *theView = static_cast(dndParams->view); // Save supported actions: [theView setSupportedActions: qt_mac_mapDropActions(dragPrivate()->possible_actions)]; QPoint pointInView = [theView qt_qwidget]->mapFromGlobal(dndParams->globalPoint); NSPoint imageLoc = {pointInView.x() - hotspot.x(), pointInView.y() + pix.height() - hotspot.y()}; NSSize mouseOffset = {0.0, 0.0}; NSPasteboard *pboard = [NSPasteboard pasteboardWithName:NSDragPboard]; dragPrivate()->executed_action = Qt::ActionMask; // Execute the drag: [theView retain]; [theView dragImage:image at:imageLoc offset:mouseOffset event:dndParams->theEvent pasteboard:pboard source:theView slideBack:YES]; // Reset the implicit grab widget when drag ends because we will not // receive the mouse release event when DND is active: qt_button_down = 0; [theView release]; [image release]; if (dragPrivate()) dragPrivate()->executed_action = Qt::IgnoreAction; object = 0; Qt::DropAction performedAction(qt_mac_mapNSDragOperation(dndParams->performedAction)); // Do post drag processing, if required. if (performedAction != Qt::IgnoreAction) { // Check if the receiver points us to a file location. // if so, we need to do the file copy/move ourselves. QCFType pasteLocation = 0; PasteboardCopyPasteLocation(dragBoard.pasteBoard(), &pasteLocation); if (pasteLocation) { QList urls = o->mimeData()->urls(); for (int i = 0; i < urls.size(); ++i) { QUrl fromUrl = urls.at(i); QString filename = QFileInfo(fromUrl.path()).fileName(); QUrl toUrl(QCFString::toQString(CFURLGetString(pasteLocation)) + filename); if (performedAction == Qt::MoveAction) QFile::rename(fromUrl.path(), toUrl.path()); else if (performedAction == Qt::CopyAction) QFile::copy(fromUrl.path(), toUrl.path()); } } } // Clean-up: o->setMimeData(0); o->deleteLater(); return performedAction; } QT_END_NAMESPACE #endif // QT_MAC_USE_COCOA