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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. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \class QGraphicsItem \brief The QGraphicsItem class is the base class for all graphical items in a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api It provides a light-weight foundation for writing your own custom items. This includes defining the item's geometry, collision detection, its painting implementation and item interaction through its event handlers. QGraphicsItem is part of \l{The Graphics View Framework} \img graphicsview-items.png For convenience, Qt provides a set of standard graphics items for the most common shapes. These are: \list \o QGraphicsEllipseItem provides an ellipse item \o QGraphicsLineItem provides a line item \o QGraphicsPathItem provides an arbitrary path item \o QGraphicsPixmapItem provides a pixmap item \o QGraphicsPolygonItem provides a polygon item \o QGraphicsRectItem provides a rectangular item \o QGraphicsSimpleTextItem provides a simple text label item \o QGraphicsTextItem provides an advanced text browser item \endlist All of an item's geometric information is based on its local coordinate system. The item's position, pos(), is the only function that does not operate in local coordinates, as it returns a position in parent coordinates. \l {The Graphics View Coordinate System} describes the coordinate system in detail. You can set whether an item should be visible (i.e., drawn, and accepting events), by calling setVisible(). Hiding an item will also hide its children. Similarly, you can enable or disable an item by calling setEnabled(). If you disable an item, all its children will also be disabled. By default, items are both visible and enabled. To toggle whether an item is selected or not, first enable selection by setting the ItemIsSelectable flag, and then call setSelected(). Normally, selection is toggled by the scene, as a result of user interaction. To write your own graphics item, you first create a subclass of QGraphicsItem, and then start by implementing its two pure virtual public functions: boundingRect(), which returns an estimate of the area painted by the item, and paint(), which implements the actual painting. For example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 0 The boundingRect() function has many different purposes. QGraphicsScene bases its item index on boundingRect(), and QGraphicsView uses it both for culling invisible items, and for determining the area that needs to be recomposed when drawing overlapping items. In addition, QGraphicsItem's collision detection mechanisms use boundingRect() to provide an efficient cut-off. The fine grained collision algorithm in collidesWithItem() is based on calling shape(), which returns an accurate outline of the item's shape as a QPainterPath. QGraphicsScene expects all items boundingRect() and shape() to remain unchanged unless it is notified. If you want to change an item's geometry in any way, you must first call prepareGeometryChange() to allow QGraphicsScene to update its bookkeeping. Collision detection can be done in two ways: \list 1 \o Reimplement shape() to return an accurate shape for your item, and rely on the default implementation of collidesWithItem() to do shape-shape intersection. This can be rather expensive if the shapes are complex. \o Reimplement collidesWithItem() to provide your own custom item and shape collision algorithm. \endlist The contains() function can be called to determine whether the item \e contains a point or not. This function can also be reimplemented by the item. The default behavior of contains() is based on calling shape(). Items can contain other items, and also be contained by other items. All items can have a parent item and a list of children. Unless the item has no parent, its position is in \e parent coordinates (i.e., the parent's local coordinates). Parent items propagate both their position and their transformation to all children. \img graphicsview-parentchild.png QGraphicsItem supports affine transformations in addition to its base position, pos(). To change the item's transformation, you can either pass a transformation matrix to setTransform(), or call one of the convenience functions rotate(), scale(), translate(), or shear(). Item transformations accumulate from parent to child, so if both a parent and child item are rotated 90 degrees, the child's total transformation will be 180 degrees. Similarly, if the item's parent is scaled to 2x its original size, its children will also be twice as large. An item's transformation does not affect its own local geometry; all geometry functions (e.g., contains(), update(), and all the mapping functions) still operate in local coordinates. For convenience, QGraphicsItem provides the functions sceneTransform(), which returns the item's total transformation matrix (including its position and all parents' positions and transformations), and scenePos(), which returns its position in scene coordinates. To reset an item's matrix, call resetTransform(). The paint() function is called by QGraphicsView to paint the item's contents. The item has no background or default fill of its own; whatever is behind the item will shine through all areas that are not explicitly painted in this function. You can call update() to schedule a repaint, optionally passing the rectangle that needs a repaint. Depending on whether or not the item is visible in a view, the item may or may not be repainted; there is no equivalent to QWidget::repaint() in QGraphicsItem. Items are painted by the view, starting with the parent items and then drawing children, in ascending stacking order. You can set an item's stacking order by calling setZValue(), and test it by calling zValue(), where items with low z-values are painted before items with high z-values. Stacking order applies to sibling items; parents are always drawn before their children. QGraphicsItem receives events from QGraphicsScene through the virtual function sceneEvent(). This function distributes the most common events to a set of convenience event handlers: \list \o contextMenuEvent() handles context menu events \o focusInEvent() and focusOutEvent() handle focus in and out events \o hoverEnterEvent(), hoverMoveEvent(), and hoverLeaveEvent() handles hover enter, move and leave events \o inputMethodEvent() handles input events, for accessibility support \o keyPressEvent() and keyReleaseEvent handle key press and release events \o mousePressEvent(), mouseMoveEvent(), mouseReleaseEvent(), and mouseDoubleClickEvent() handles mouse press, move, release, click and doubleclick events \endlist You can filter events for any other item by installing event filters. This functionaly is separate from from Qt's regular event filters (see QObject::installEventFilter()), which only work on subclasses of QObject. After installing your item as an event filter for another item by calling installSceneEventFilter(), the filtered events will be received by the virtual function sceneEventFilter(). You can remove item event filters by calling removeSceneEventFilter(). Sometimes it's useful to register custom data with an item, be it a custom item, or a standard item. You can call setData() on any item to store data in it using a key-value pair (the key being an integer, and the value is a QVariant). To get custom data from an item, call data(). This functionality is completely untouched by Qt itself; it is provided for the user's convenience. \sa QGraphicsScene, QGraphicsView, {The Graphics View Framework} */ /*! \variable QGraphicsItem::UserType The lowest permitted type value for custom items (subclasses of QGraphicsItem or any of the standard items). This value is used in conjunction with a reimplementation of QGraphicsItem::type() and declaring a Type enum value. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 1 */ /*! \enum QGraphicsItem::GraphicsItemFlag This enum describes different flags that you can set on an item to toggle different features in the item's behavior. All flags are disabled by default. \value ItemIsMovable The item supports interactive movement using the mouse. By clicking on the item and then dragging, the item will move together with the mouse cursor. If the item has children, all children are also moved. If the item is part of a selection, all selected items are also moved. This feature is provided as a convenience through the base implementation of QGraphicsItem's mouse event handlers. \value ItemIsSelectable The item supports selection. Enabling this feature will enable setSelected() to toggle selection for the item. It will also let the item be selected automatically as a result of calling QGraphicsScene::setSelectionArea(), by clicking on an item, or by using rubber band selection in QGraphicsView. \value ItemIsFocusable The item supports keyboard input focus (i.e., it is an input item). Enabling this flag will allow the item to accept focus, which again allows the delivery of key events to QGraphicsItem::keyPressEvent() and QGraphicsItem::keyReleaseEvent(). \value ItemClipsToShape The item clips to its own shape. The item cannot draw or receive mouse, tablet, drag and drop or hover events outside ts shape. It is disabled by default. This behavior is enforced by QGraphicsView::drawItems() or QGraphicsScene::drawItems(). This flag was introduced in Qt 4.3. \value ItemClipsChildrenToShape The item clips the painting of all its descendants to its own shape. Items that are either direct or indirect children of this item cannot draw outside this item's shape. By default, this flag is disabled; children can draw anywhere. This behavior is enforced by QGraphicsView::drawItems() or QGraphicsScene::drawItems(). This flag was introduced in Qt 4.3. \value ItemIgnoresTransformations The item ignores inherited transformations (i.e., its position is still anchored to its parent, but the parent or view rotation, zoom or shear transformations are ignored). This flag is useful for keeping text label items horizontal and unscaled, so they will still be readable if the view is transformed. When set, the item's view geometry and scene geometry will be maintained separately. You must call deviceTransform() to map coordinates and detect collisions in the view. By default, this flag is disabled. This flag was introduced in Qt 4.3. \note With this flag set you can still scale the item itself, and that scale transformation will influence the item's children. \value ItemIgnoresParentOpacity The item ignores its parent's opacity. The item's effective opacity is the same as its own; it does not combine with the parent's opacity. This flags allows your item to keep its absolute opacity even if the parent is semitransparent. This flag was introduced in Qt 4.5. \value ItemDoesntPropagateOpacityToChildren The item doesn't propagate its opacity to its children. This flag allows you to create a semitransparent item that does not affect the opacity of its children. This flag was introduced in Qt 4.5. \value ItemStacksBehindParent The item is stacked behind its parent. By default, child items are stacked on top of the parent item. But setting this flag, the child will be stacked behind it. This flag is useful for drop shadow effects and for decoration objects that follow the parent item's geometry without drawing on top of it. */ /*! \enum QGraphicsItem::GraphicsItemChange ItemVisibleHasChanged, ItemEnabledHasChanged, ItemSelectedHasChanged, ItemParentHasChanged, ItemSceneHasChanged This enum describes the state changes that are notified by QGraphicsItem::itemChange(). The notifications are sent as the state changes, and in some cases, adjustments can be made (see the documentation for each change for details). Note: Be careful with calling functions on the QGraphicsItem itself inside itemChange(), as certain function calls can lead to unwanted recursion. For example, you cannot call setPos() in itemChange() on an ItemPositionChange notification, as the setPos() function will again call itemChange(ItemPositionChange). Instead, you can return the new, adjusted position from itemChange(). \value ItemEnabledChange The item's enabled state changes. If the item is presently enabled, it will become disabled, and vice verca. The value argument is the new enabled state (i.e., true or false). Do not call setEnabled() in itemChange() as this notification is delivered. Instead, you can return the new state from itemChange(). \value ItemEnabledHasChanged The item's enabled state has changed. The value argument is the new enabled state (i.e., true or false). Do not call setEnabled() in itemChange() as this notification is delivered. The return value is ignored. \value ItemMatrixChange The item's affine transformation matrix is changing. This value is obsolete; you can use ItemTransformChange instead. \value ItemPositionChange The item's position changes. This notification is only sent when the item's local position changes, relative to its parent, has changed (i.e., as a result of calling setPos() or moveBy()). The value argument is the new position (i.e., a QPointF). You can call pos() to get the original position. Do not call setPos() or moveBy() in itemChange() as this notification is delivered; instead, you can return the new, adjusted position from itemChange(). After this notification, QGraphicsItem immediately sends the ItemPositionHasChanged notification if the position changed. \value ItemPositionHasChanged The item's position has changed. This notification is only sent after the item's local position, relative to its parent, has changed. The value argument is the new position (the same as pos()), and QGraphicsItem ignores the return value for this notification (i.e., a read-only notification). \value ItemTransformChange The item's transformation matrix changes. This notification is only sent when the item's local transformation matrix changes (i.e., as a result of calling setTransform(), or one of the convenience transformation functions, such as rotate()). The value argument is the new matrix (i.e., a QTransform); to get the old matrix, call transform(). Do not call setTransform() or any of the transformation convenience functions in itemChange() as this notification is delivered; instead, you can return the new matrix from itemChange(). \value ItemTransformHasChanged The item's transformation matrix has changed. This notification is only sent after the item's local trasformation matrix has changed. The value argument is the new matrix (same as transform()), and QGraphicsItem ignores the return value for this notification (i.e., a read-only notification). \value ItemSelectedChange The item's selected state changes. If the item is presently selected, it will become unselected, and vice verca. The value argument is the new selected state (i.e., true or false). Do not call setSelected() in itemChange() as this notification is delivered(); instead, you can return the new selected state from itemChange(). \value ItemSelectedHasChanged The item's selected state has changed. The value argument is the new selected state (i.e., true or false). Do not call setSelected() in itemChange() as this notification is delivered. The return value is ignored. \value ItemVisibleChange The item's visible state changes. If the item is presently visible, it will become invisible, and vice verca. The value argument is the new visible state (i.e., true or false). Do not call setVisible() in itemChange() as this notification is delivered; instead, you can return the new visible state from itemChange(). \value ItemVisibleHasChanged The item's visible state has changed. The value argument is the new visible state (i.e., true or false). Do not call setVisible() in itemChange() as this notification is delivered. The return value is ignored. \value ItemParentChange The item's parent changes. The value argument is the new parent item (i.e., a QGraphicsItem pointer). Do not call setParentItem() in itemChange() as this notification is delivered; instead, you can return the new parent from itemChange(). \value ItemParentHasChanged The item's parent has changed. The value argument is the new parent (i.e., a pointer to a QGraphicsItem). Do not call setParentItem() in itemChange() as this notification is delivered. The return value is ignored. \value ItemChildAddedChange A child is added to this item. The value argument is the new child item (i.e., a QGraphicsItem pointer). Do not pass this item to any item's setParentItem() function as this notification is delivered. The return value is unused; you cannot adjust anything in this notification. Note that the new child might not be fully constructed when this notification is sent; calling pure virtual functions on the child can lead to a crash. \value ItemChildRemovedChange A child is removed from this item. The value argument is the child item that is about to be removed (i.e., a QGraphicsItem pointer). The return value is unused; you cannot adjust anything in this notification. \value ItemSceneChange The item is moved to a new scene. This notification is also sent when the item is added to its initial scene, and when it is removed. The value argument is the new scene (i.e., a QGraphicsScene pointer), or a null pointer if the item is removed from a scene. Do not override this change by passing this item to QGraphicsScene::addItem() as this notification is delivered; instead, you can return the new scene from itemChange(). Use this feature with caution; objecting to a scene change can quickly lead to unwanted recursion. \value ItemSceneHasChanged The item's scene has changed. The value argument is the new scene (i.e., a pointer to a QGraphicsScene). Do not call setScene() in itemChange() as this notification is delivered. The return value is ignored. \value ItemCursorChange The item's cursor changes. The value argument is the new cursor (i.e., a QCursor). Do not call setCursor() in itemChange() as this notification is delivered. Instead, you can return a new cursor from itemChange(). \value ItemCursorHasChanged The item's cursor has changed. The value argument is the new cursor (i.e., a QCursor). Do not call setCursor() as this notification is delivered. The return value is ignored. \value ItemToolTipChange The item's tooltip changes. The value argument is the new tooltip (i.e., a QToolTip). Do not call setToolTip() in itemChange() as this notification is delivered. Instead, you can return a new tooltip from itemChange(). \value ItemToolTipHasChanged The item's tooltip has changed. The value argument is the new tooltip (i.e., a QToolTip). Do not call setToolTip() as this notification is delivered. The return value is ignored. \value ItemFlagsChange The item's flags change. The value argument is the new flags (i.e., a quint32). Do not call setFlags() in itemChange() as this notification is delivered. Instead, you can return the new flags from itemChange(). \value ItemFlagsHaveChanged The item's flags have changed. The value argument is the new flags (i.e., a quint32). Do not call setFlags() in itemChange() as this notification is delivered. The return value is ignored. \value ItemZValueChange The item's Z-value changes. The value argument is the new Z-value (i.e., a double). Do not call setZValue() in itemChange() as this notification is delivered. Instead, you can return a new Z-value from itemChange(). \value ItemZValueHasChanged The item's Z-value has changed. The value argument is the new Z-value (i.e., a double). Do not call setZValue() as this notification is delivered. The return value is ignored. \value ItemOpacityChange The item's opacity changes. The value argument is the new opacity (i.e., a double). Do not call setOpacity() in itemChange() as this notification is delivered. Instead, you can return a new opacity from itemChange(). \value ItemOpacityHasChanged The item's opacity has changed. The value argument is the new opacity (i.e., a double). Do not call setOpacity() as this notification is delivered. The return value is ignored. */ /*! \enum QGraphicsItem::CacheMode \since 4.4 This enum describes QGraphicsItem's cache modes. Caching is used to speed up rendering by allocating and rendering to an off-screen pixel buffer, which can be reused when the item requires redrawing. For some paint devices, the cache is stored directly in graphics memory, which makes rendering very quick. \value NoCache The default; all item caching is disabled. QGraphicsItem::paint() is called every time the item needs redrawing. \value ItemCoordinateCache Caching is enabled for the item's logical (local) coordinate system. QGraphicsItem creates an off-screen pixel buffer with a configurable size / resolution that you can pass to QGraphicsItem::setCacheMode(). Rendering quality will typically degrade, depending on the resolution of the cache and the item transformation. The first time the item is redrawn, it will render itself into the cache, and the cache is then reused for every subsequent expose. The cache is also reused as the item is transformed. To adjust the resolution of the cache, you can call setCacheMode() again. \value DeviceCoordinateCache Caching is enabled at the paint device level, in device coordinates. This mode is for items that can move, but are not rotated, scaled or sheared. If the item is transformed directly or indirectly, the cache will be regenerated automatically. Unlike ItemCoordinateCacheMode, DeviceCoordinateCache always renders at maximum quality. \sa QGraphicsItem::setCacheMode() */ /*! \enum QGraphicsItem::Extension \internal Note: This is provided as a hook to avoid future problems related to adding virtual functions. See also extension(), supportsExtension() and setExtension(). */ #include "qgraphicsitem.h" #ifndef QT_NO_GRAPHICSVIEW #include "qgraphicsscene.h" #include "qgraphicsscene_p.h" #include "qgraphicssceneevent.h" #include "qgraphicsview.h" #include "qgraphicswidget.h" #include "qgraphicsproxywidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE // QRectF::intersects() returns false always if either the source or target // rectangle's width or height are 0. This works around that problem. static inline void _q_adjustRect(QRectF *rect) { Q_ASSERT(rect); if (!rect->width()) rect->adjust(-0.00001, 0, 0.00001, 0); if (!rect->height()) rect->adjust(0, -0.00001, 0, 0.00001); } static inline void _q_adjustRect(QRect *rect) { Q_ASSERT(rect); if (!rect->width()) rect->adjust(0, 0, 1, 0); if (!rect->height()) rect->adjust(0, 0, 0, 1); } /* ### Move this into QGraphicsItemPrivate */ class QGraphicsItemCustomDataStore { public: QMap > data; }; Q_GLOBAL_STATIC(QGraphicsItemCustomDataStore, qt_dataStore) /*! \internal Removes the first instance of \a child from \a children. This is a heuristic approach that assumes that it's common to remove items from the start or end of the list. */ static void qt_graphicsitem_removeChild(QGraphicsItem *child, QList *children) { const int n = children->size(); for (int i = 0; i < (n + 1) / 2; ++i) { if (children->at(i) == child) { children->removeAt(i); return; } int j = n - i - 1; if (children->at(j) == child) { children->removeAt(j); return; } } } /*! \internal Returns a QPainterPath of \a path when stroked with the \a pen. Ignoring dash pattern. */ static QPainterPath qt_graphicsItem_shapeFromPath(const QPainterPath &path, const QPen &pen) { // We unfortunately need this hack as QPainterPathStroker will set a width of 1.0 // if we pass a value of 0.0 to QPainterPathStroker::setWidth() const qreal penWidthZero = qreal(0.00000001); if (path == QPainterPath()) return path; QPainterPathStroker ps; ps.setCapStyle(pen.capStyle()); if (pen.widthF() <= 0.0) ps.setWidth(penWidthZero); else ps.setWidth(pen.widthF()); ps.setJoinStyle(pen.joinStyle()); ps.setMiterLimit(pen.miterLimit()); QPainterPath p = ps.createStroke(path); p.addPath(path); return p; } /*! \internal Propagates the ancestor flag \a flag with value \a enabled to all this item's children. If \a root is false, the flag is also set on this item (default is true). */ void QGraphicsItemPrivate::updateAncestorFlag(QGraphicsItem::GraphicsItemFlag childFlag, AncestorFlag flag, bool enabled, bool root) { Q_Q(QGraphicsItem); if (root) { // For root items only. This is the item that has either enabled or // disabled \a childFlag, or has been reparented. switch (int(childFlag)) { case -1: flag = AncestorHandlesChildEvents; enabled = q->handlesChildEvents(); break; case QGraphicsItem::ItemClipsChildrenToShape: flag = AncestorClipsChildren; enabled = flags & QGraphicsItem::ItemClipsChildrenToShape; invalidateCachedClipPathRecursively(/*childrenOnly=*/true); break; case QGraphicsItem::ItemIgnoresTransformations: flag = AncestorIgnoresTransformations; enabled = flags & QGraphicsItem::ItemIgnoresTransformations; break; default: return; } // Inherit the enabled-state from our parents. if ((parent && ((parent->d_ptr->ancestorFlags & flag) || (int(parent->d_ptr->flags & childFlag) == childFlag) || (childFlag == -1 && parent->d_ptr->handlesChildEvents)))) { enabled = true; ancestorFlags |= flag; } // Top-level root items don't have any ancestors, so there are no // ancestor flags either. if (!parent) ancestorFlags = 0; } else { // Don't set or propagate the ancestor flag if it's already correct. if (((ancestorFlags & flag) && enabled) || (!(ancestorFlags & flag) && !enabled)) return; // Set the flag. if (enabled) ancestorFlags |= flag; else ancestorFlags &= ~flag; // Don't process children if the item has the main flag set on itself. if ((childFlag != -1 && int(flags & childFlag) == childFlag) || (int(childFlag) == -1 && handlesChildEvents)) return; } foreach (QGraphicsItem *child, children) child->d_ptr->updateAncestorFlag(childFlag, flag, enabled, false); } /*! \internal Propagates item group membership. */ void QGraphicsItemPrivate::setIsMemberOfGroup(bool enabled) { Q_Q(QGraphicsItem); isMemberOfGroup = enabled; if (!qgraphicsitem_cast(q)) { foreach (QGraphicsItem *child, children) child->d_func()->setIsMemberOfGroup(enabled); } } /*! \internal Maps any item pos properties of \a event to \a item's coordinate system. */ void QGraphicsItemPrivate::remapItemPos(QEvent *event, QGraphicsItem *item) { Q_Q(QGraphicsItem); switch (event->type()) { case QEvent::GraphicsSceneMouseMove: case QEvent::GraphicsSceneMousePress: case QEvent::GraphicsSceneMouseRelease: case QEvent::GraphicsSceneMouseDoubleClick: { QGraphicsSceneMouseEvent *mouseEvent = static_cast(event); mouseEvent->setPos(item->mapFromItem(q, mouseEvent->pos())); mouseEvent->setLastPos(item->mapFromItem(q, mouseEvent->pos())); for (int i = 0x1; i <= 0x10; i <<= 1) { if (mouseEvent->buttons() & i) { Qt::MouseButton button = Qt::MouseButton(i); mouseEvent->setButtonDownPos(button, item->mapFromItem(q, mouseEvent->buttonDownPos(button))); } } break; } case QEvent::GraphicsSceneWheel: { QGraphicsSceneWheelEvent *wheelEvent = static_cast(event); wheelEvent->setPos(item->mapFromItem(q, wheelEvent->pos())); break; } case QEvent::GraphicsSceneContextMenu: { QGraphicsSceneContextMenuEvent *contextEvent = static_cast(event); contextEvent->setPos(item->mapFromItem(q, contextEvent->pos())); break; } case QEvent::GraphicsSceneHoverMove: { QGraphicsSceneHoverEvent *hoverEvent = static_cast(event); hoverEvent->setPos(item->mapFromItem(q, hoverEvent->pos())); break; } default: break; } } /*! \internal Maps the point \a pos from scene to item coordinates. If \a view is passed and the item is untransformable, this function will correctly map \a pos from the scene using the view's transformation. */ QPointF QGraphicsItemPrivate::genericMapFromScene(const QPointF &pos, const QWidget *viewport) const { Q_Q(const QGraphicsItem); if (!itemIsUntransformable()) return q->mapFromScene(pos); QGraphicsView *view = 0; if (viewport) view = qobject_cast(viewport->parentWidget()); if (!view) return q->mapFromScene(pos); // ### More ping pong than needed. return q->deviceTransform(view->viewportTransform()).inverted().map(view->mapFromScene(pos)); } /*! \internal Returns true if this item or any of its ancestors are untransformable. */ bool QGraphicsItemPrivate::itemIsUntransformable() const { return (flags & QGraphicsItem::ItemIgnoresTransformations) || (ancestorFlags & AncestorIgnoresTransformations); } /*! \internal This helper function helped us add input method query support in Qt 4.4.1 without having to reimplement the inputMethodQuery() function in QGraphicsProxyWidget. ### Qt 5: Remove. We cannot remove it in 4.5+ even if we do reimplement the function properly, because apps compiled with 4.4 will not be able to call the reimplementation. */ QVariant QGraphicsItemPrivate::inputMethodQueryHelper(Qt::InputMethodQuery query) const { Q_UNUSED(query); return QVariant(); } /*! \internal Empty all cached pixmaps from the pixmap cache. */ void QGraphicsItemCache::purge() { QPixmapCache::remove(key); QMutableMapIterator it(deviceData); while (it.hasNext()) { DeviceData &data = it.next().value(); QPixmapCache::remove(data.key); data.cacheIndent = QPoint(); } deviceData.clear(); allExposed = true; exposed.clear(); } /*! Constructs a QGraphicsItem with the given \a parent. If \a parent is 0, you can add the item to a scene by calling QGraphicsScene::addItem(). The item will then become a top-level item. \sa QGraphicsScene::addItem(), setParentItem() */ QGraphicsItem::QGraphicsItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : d_ptr(new QGraphicsItemPrivate) { d_ptr->q_ptr = this; setParentItem(parent); if (scene && parent && parent->scene() != scene) { qWarning("QGraphicsItem::QGraphicsItem: ignoring scene (%p), which is" " different from parent's scene (%p)", scene, parent->scene()); return; } if (scene && !parent) scene->addItem(this); } /*! \internal */ QGraphicsItem::QGraphicsItem(QGraphicsItemPrivate &dd, QGraphicsItem *parent, QGraphicsScene *scene) : d_ptr(&dd) { d_ptr->q_ptr = this; setParentItem(parent); if (scene && parent && parent->scene() != scene) { qWarning("QGraphicsItem::QGraphicsItem: ignoring scene (%p), which is" " different from parent's scene (%p)", scene, parent->scene()); return; } if (scene && !parent) scene->addItem(this); } /*! Destroys the QGraphicsItem and all its children. If this item is currently associated with a scene, the item will be removed from the scene before it is deleted. */ QGraphicsItem::~QGraphicsItem() { clearFocus(); d_ptr->removeExtraItemCache(); QVariant variant; foreach (QGraphicsItem *child, d_ptr->children) { if (QGraphicsItem *parent = child->parentItem()) { qVariantSetValue(variant, child); parent->itemChange(ItemChildRemovedChange, variant); } delete child; } d_ptr->children.clear(); if (QGraphicsItem *parent = parentItem()) { qVariantSetValue(variant, this); parent->itemChange(ItemChildRemovedChange, variant); qt_graphicsitem_removeChild(this, &parent->d_func()->children); } if (d_ptr->scene) d_ptr->scene->d_func()->_q_removeItemLater(this); delete d_ptr; qt_dataStore()->data.remove(this); } /*! Returns the current scene for the item, or 0 if the item is not stored in a scene. To add or move an item to a scene, call QGraphicsScene::addItem(). */ QGraphicsScene *QGraphicsItem::scene() const { return d_ptr->scene; } /*! Returns a pointer to this item's item group, or 0 if this item is not member of a group. \sa QGraphicsItemGroup, QGraphicsScene::createItemGroup() */ QGraphicsItemGroup *QGraphicsItem::group() const { if (!d_ptr->isMemberOfGroup) return 0; QGraphicsItem *parent = const_cast(this); while ((parent = parent->d_ptr->parent)) { if (QGraphicsItemGroup *group = qgraphicsitem_cast(parent)) return group; } // Unreachable; if d_ptr->isMemberOfGroup is != 0, then one parent of this // item is a group item. return 0; } /*! Adds this item to the item group \a group. If \a group is 0, this item is removed from any current group and added as a child of the previous group's parent. \sa group(), QGraphicsScene::createItemGroup() */ void QGraphicsItem::setGroup(QGraphicsItemGroup *group) { if (!group) { if (QGraphicsItemGroup *group = this->group()) group->removeFromGroup(this); } else { group->addToGroup(this); } } /*! Returns a pointer to this item's parent item. If this item does not have a parent, 0 is returned. \sa setParentItem(), children() */ QGraphicsItem *QGraphicsItem::parentItem() const { return d_ptr->parent; } /*! Returns this item's top-level item. The top-level item is the item's topmost ancestor item whose parent is 0. If an item has no parent, its own pointer is returned (i.e., a top-level item is its own top-level item). \sa parentItem() */ QGraphicsItem *QGraphicsItem::topLevelItem() const { QGraphicsItem *parent = const_cast(this); while (QGraphicsItem *grandPa = parent->parentItem()) parent = grandPa; return parent; } /*! \since 4.4 Returns a pointer to the item's parent widget. The item's parent widget is the closest parent item that is a widget. \sa parentItem(), childItems() */ QGraphicsWidget *QGraphicsItem::parentWidget() const { QGraphicsItem *p = parentItem(); while (p && !p->isWidget()) p = p->parentItem(); return (p && p->isWidget()) ? static_cast(p) : 0; } /*! \since 4.4 Returns a pointer to the item's top level widget (i.e., the item's ancestor whose parent is 0, or whose parent is not a widget), or 0 if this item does not have a top level widget. If the item is its own top level widget, this function returns a pointer to the item itself. */ QGraphicsWidget *QGraphicsItem::topLevelWidget() const { if (const QGraphicsWidget *p = parentWidget()) return p->topLevelWidget(); return isWidget() ? static_cast(const_cast(this)) : 0; } /*! \since 4.4 Returns the item's window, or 0 if this item does not have a window. If the item is a window, it will return itself. Otherwise it will return the closest ancestor that is a window. \sa QGraphicsWidget::isWindow() */ QGraphicsWidget *QGraphicsItem::window() const { if (isWidget() && static_cast(this)->isWindow()) return static_cast(const_cast(this)); if (QGraphicsWidget *parent = parentWidget()) return parent->window(); return 0; } /*! Sets this item's parent item to \a parent. If this item already has a parent, it is first removed from the previous parent. If \a parent is 0, this item will become a top-level item. Note that this implicitly adds this graphics item to the scene of the parent. You should not \l{QGraphicsScene::addItem()}{add} the item to the scene yourself. \sa parentItem(), children() */ void QGraphicsItem::setParentItem(QGraphicsItem *parent) { if (parent == this) { qWarning("QGraphicsItem::setParentItem: cannot assign %p as a parent of itself", this); return; } if (parent == d_ptr->parent) return; const QVariant newParentVariant(itemChange(ItemParentChange, qVariantFromValue(parent))); parent = qVariantValue(newParentVariant); if (parent == d_ptr->parent) return; if (QGraphicsWidget *w = d_ptr->isWidget ? static_cast(this) : parentWidget()) { // Update the child focus chain; when reparenting a widget that has a // focus child, ensure that that focus child clears its focus child // chain from our parents before it's reparented. if (QGraphicsWidget *focusChild = w->focusWidget()) focusChild->clearFocus(); } // We anticipate geometry changes prepareGeometryChange(); const QVariant thisPointerVariant(qVariantFromValue(this)); if (d_ptr->parent) { // Remove from current parent qt_graphicsitem_removeChild(this, &d_ptr->parent->d_func()->children); d_ptr->parent->itemChange(ItemChildRemovedChange, thisPointerVariant); } if ((d_ptr->parent = parent)) { bool implicitUpdate = false; if (parent->d_func()->scene && parent->d_func()->scene != d_ptr->scene) { // Move this item to its new parent's scene parent->d_func()->scene->addItem(this); implicitUpdate = true; } else if (!parent->d_func()->scene && d_ptr->scene) { // Remove this item from its former scene d_ptr->scene->removeItem(this); } d_ptr->parent->d_func()->children << this; d_ptr->parent->itemChange(ItemChildAddedChange, thisPointerVariant); if (!implicitUpdate) d_ptr->updateHelper(QRectF(), false, true); // Inherit ancestor flags from the new parent. d_ptr->updateAncestorFlag(QGraphicsItem::GraphicsItemFlag(-1)); d_ptr->updateAncestorFlag(ItemClipsChildrenToShape); d_ptr->updateAncestorFlag(ItemIgnoresTransformations); // Update item visible / enabled. if (d_ptr->parent->isVisible() != d_ptr->visible) { if (!d_ptr->parent->isVisible() || !d_ptr->explicitlyHidden) d_ptr->setVisibleHelper(d_ptr->parent->isVisible(), /* explicit = */ false, /* update = */ !implicitUpdate); } if (d_ptr->parent->isEnabled() != d_ptr->enabled) { if (!d_ptr->parent->isEnabled() || !d_ptr->explicitlyDisabled) d_ptr->setEnabledHelper(d_ptr->parent->isEnabled(), /* explicit = */ false, /* update = */ !implicitUpdate); } } else { // Inherit ancestor flags from the new parent. d_ptr->updateAncestorFlag(QGraphicsItem::GraphicsItemFlag(-1)); d_ptr->updateAncestorFlag(ItemClipsChildrenToShape); d_ptr->updateAncestorFlag(ItemIgnoresTransformations); // Update item visible / enabled. if (!d_ptr->visible && !d_ptr->explicitlyHidden) d_ptr->setVisibleHelper(true, /* explicit = */ false); if (!d_ptr->enabled && !d_ptr->explicitlyDisabled) d_ptr->setEnabledHelper(true, /* explicit = */ false); d_ptr->updateHelper(QRectF(), false, true); } if (d_ptr->scene) { // Invalidate any sort caching; arrival of a new item means we need to // resort. d_ptr->scene->d_func()->invalidateSortCache(); } // Resolve opacity. d_ptr->updateEffectiveOpacity(); // Resolve depth. d_ptr->resolveDepth(parent ? parent->d_ptr->depth : -1); // Invalidate transform cache. d_ptr->invalidateSceneTransformCache(); // Deliver post-change notification itemChange(QGraphicsItem::ItemParentHasChanged, newParentVariant); } /*! \obsolete Use childItems() instead. \sa setParentItem() */ QList QGraphicsItem::children() const { return childItems(); } /*! \since 4.4 Returns a list of this item's children. The items are returned in no particular order. \sa setParentItem() */ QList QGraphicsItem::childItems() const { return d_ptr->children; } /*! \since 4.4 Returns true if this item is a widget (i.e., QGraphicsWidget); otherwise, returns false. */ bool QGraphicsItem::isWidget() const { return d_ptr->isWidget; } /*! \since 4.4 Returns true if the item is a QGraphicsWidget window, otherwise returns false. \sa QGraphicsWidget::windowFlags() */ bool QGraphicsItem::isWindow() const { return isWidget() && (static_cast(this)->windowType() & Qt::Window); } /*! Returns this item's flags. The flags describe what configurable features of the item are enabled and not. For example, if the flags include ItemIsFocusable, the item can accept input focus. By default, no flags are enabled. \sa setFlags(), setFlag() */ QGraphicsItem::GraphicsItemFlags QGraphicsItem::flags() const { return GraphicsItemFlags(d_ptr->flags); } /*! If \a enabled is true, the item flag \a flag is enabled; otherwise, it is disabled. \sa flags(), setFlags() */ void QGraphicsItem::setFlag(GraphicsItemFlag flag, bool enabled) { if (enabled) setFlags(flags() | flag); else setFlags(flags() & ~flag); } /*! \internal Sets the flag \a flag on \a item and all its children, to \a enabled. */ static void _q_qgraphicsItemSetFlag(QGraphicsItem *item, QGraphicsItem::GraphicsItemFlag flag, bool enabled) { if (item->flags() & flag) { // If this item already has the correct flag set, we don't have to // propagate it. return; } item->setFlag(flag, enabled); foreach (QGraphicsItem *child, item->children()) _q_qgraphicsItemSetFlag(child, flag, enabled); } /*! Sets the item flags to \a flags. All flags in \a flags are enabled; all flags not in \a flags are disabled. If the item had focus and \a flags does not enable ItemIsFocusable, the item loses focus as a result of calling this function. Similarly, if the item was selected, and \a flags does not enabled ItemIsSelectable, the item is automatically unselected. By default, no flags are enabled. \sa flags(), setFlag() */ void QGraphicsItem::setFlags(GraphicsItemFlags flags) { // Notify change and check for adjustment. if (quint32(d_ptr->flags) == quint32(flags)) return; flags = GraphicsItemFlags(itemChange(ItemFlagsChange, quint32(flags)).toUInt()); if (quint32(d_ptr->flags) == quint32(flags)) return; // Flags that alter the geometry of the item (or its children). const quint32 geomChangeFlagsMask = (ItemClipsChildrenToShape | ItemClipsToShape | ItemIgnoresTransformations); bool fullUpdate = (quint32(flags) & geomChangeFlagsMask) != (d_ptr->flags & geomChangeFlagsMask); if (fullUpdate) d_ptr->fullUpdateHelper(false, true); // Keep the old flags to compare the diff. GraphicsItemFlags oldFlags = this->flags(); // Update flags. d_ptr->flags = flags; // Reresolve effective opacity if the opacity flags change. static const quint32 opacityFlagsMask = ItemIgnoresParentOpacity | ItemDoesntPropagateOpacityToChildren; if ((flags & opacityFlagsMask) != (oldFlags & opacityFlagsMask)) d_ptr->updateEffectiveOpacity(); if (!(d_ptr->flags & ItemIsFocusable) && hasFocus()) { // Clear focus on the item if it has focus when the focusable flag // is unset. clearFocus(); } if (!(d_ptr->flags & ItemIsSelectable) && isSelected()) { // Unselect the item if it is selected when the selectable flag is // unset. setSelected(false); } if ((flags & ItemClipsChildrenToShape) != (oldFlags & ItemClipsChildrenToShape)) { // Item children clipping changes. Propagate the ancestor flag to // all children. d_ptr->updateAncestorFlag(ItemClipsChildrenToShape); } if ((flags & ItemClipsToShape) != (oldFlags & ItemClipsToShape)) d_ptr->invalidateCachedClipPath(); if ((flags & ItemIgnoresTransformations) != (oldFlags & ItemIgnoresTransformations)) { // Item children clipping changes. Propagate the ancestor flag to // all children. d_ptr->updateAncestorFlag(ItemIgnoresTransformations); } // ### Why updateHelper? d_ptr->updateHelper(QRectF(), false, true); // Notify change. itemChange(ItemFlagsHaveChanged, quint32(flags)); } /*! \since 4.4 Returns the cache mode for this item. The default mode is NoCache (i.e., cache is disabled and all painting is immediate). \sa setCacheMode() */ QGraphicsItem::CacheMode QGraphicsItem::cacheMode() const { return QGraphicsItem::CacheMode(d_ptr->cacheMode); } /*! \since 4.4 Sets the item's cache mode to \a mode. The optional \a logicalCacheSize argument is used only by ItemCoordinateCache mode, and describes the resolution of the cache buffer; if \a logicalCacheSize is (100, 100), QGraphicsItem will fit the item into 100x100 pixels in graphics memory, regardless of the logical size of the item itself. By default QGraphicsItem uses the size of boundingRect(). For all other cache modes than ItemCoordinateCache, \a logicalCacheSize is ignored. Caching can speed up rendering if your item spends a significant time redrawing itself. In some cases the cache can also slow down rendering, in particular when the item spends less time redrawing than QGraphicsItem spends redrawing from the cache. When enabled, the item's paint() function will be called only once for each call to update(); for any subsequent repaint requests, the Graphics View framework will redraw from the cache. This approach works particularly well with QGLWidget, which stores all the cache as OpenGL textures. Be aware that QPixmapCache's cache limit may need to be changed to obtain optimal performance. You can read more about the different cache modes in the CacheMode documentation. \sa CacheMode, QPixmapCache::setCacheLimit() */ void QGraphicsItem::setCacheMode(CacheMode mode, const QSize &logicalCacheSize) { CacheMode lastMode = CacheMode(d_ptr->cacheMode); d_ptr->cacheMode = mode; bool noVisualChange = (mode == NoCache && lastMode == NoCache) || (mode == NoCache && lastMode == DeviceCoordinateCache) || (mode == DeviceCoordinateCache && lastMode == NoCache); if (mode == NoCache) { d_ptr->removeExtraItemCache(); } else { QGraphicsItemCache *cache = d_ptr->extraItemCache(); // Reset old cache cache->purge(); if (mode == ItemCoordinateCache) { if (cache->key.isEmpty()) { // Generate new simple pixmap cache key. QString tmp; tmp.sprintf("qgv-%p", this); cache->key = tmp; } if (lastMode == mode && cache->fixedSize == logicalCacheSize) noVisualChange = true; cache->fixedSize = logicalCacheSize; } } if (!noVisualChange) update(); } #ifndef QT_NO_TOOLTIP /*! Returns the item's tool tip, or an empty QString if no tool tip has been set. \sa setToolTip(), QToolTip */ QString QGraphicsItem::toolTip() const { return d_ptr->extra(QGraphicsItemPrivate::ExtraToolTip).toString(); } /*! Sets the item's tool tip to \a toolTip. If \a toolTip is empty, the item's tool tip is cleared. \sa toolTip(), QToolTip */ void QGraphicsItem::setToolTip(const QString &toolTip) { const QVariant toolTipVariant(itemChange(ItemToolTipChange, toolTip)); d_ptr->setExtra(QGraphicsItemPrivate::ExtraToolTip, toolTipVariant.toString()); itemChange(ItemToolTipHasChanged, toolTipVariant); } #endif // QT_NO_TOOLTIP #ifndef QT_NO_CURSOR /*! Returns the current cursor shape for the item. The mouse cursor will assume this shape when it's over this item. See the \link Qt::CursorShape list of predefined cursor objects\endlink for a range of useful shapes. An editor item might want to use an I-beam cursor: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 2 If no cursor has been set, the parent's cursor is used. \sa setCursor(), hasCursor(), unsetCursor(), QWidget::cursor, QApplication::overrideCursor() */ QCursor QGraphicsItem::cursor() const { return qVariantValue(d_ptr->extra(QGraphicsItemPrivate::ExtraCursor)); } /*! Sets the current cursor shape for the item to \a cursor. The mouse cursor will assume this shape when it's over this item. See the \link Qt::CursorShape list of predefined cursor objects\endlink for a range of useful shapes. An editor item might want to use an I-beam cursor: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 3 If no cursor has been set, the cursor of the item beneath is used. \sa cursor(), hasCursor(), unsetCursor(), QWidget::cursor, QApplication::overrideCursor() */ void QGraphicsItem::setCursor(const QCursor &cursor) { const QVariant cursorVariant(itemChange(ItemCursorChange, qVariantFromValue(cursor))); d_ptr->setExtra(QGraphicsItemPrivate::ExtraCursor, qVariantValue(cursorVariant)); d_ptr->hasCursor = 1; if (d_ptr->scene) { foreach (QGraphicsView *view, d_ptr->scene->views()) { // Note: Some of this logic is duplicated in QGraphicsView's mouse events. if (view->underMouse()) { foreach (QGraphicsItem *itemUnderCursor, view->items(view->mapFromGlobal(QCursor::pos()))) { if (itemUnderCursor->hasCursor()) { QMetaObject::invokeMethod(view, "_q_setViewportCursor", Q_ARG(QCursor, itemUnderCursor->cursor())); break; } } break; } } } itemChange(ItemCursorHasChanged, cursorVariant); } /*! Returns true if this item has a cursor set; otherwise, false is returned. By default, items don't have any cursor set. cursor() will return a standard pointing arrow cursor. \sa unsetCursor() */ bool QGraphicsItem::hasCursor() const { return d_ptr->hasCursor; } /*! Clears the cursor from this item. \sa hasCursor(), setCursor() */ void QGraphicsItem::unsetCursor() { d_ptr->unsetExtra(QGraphicsItemPrivate::ExtraCursor); d_ptr->hasCursor = 0; if (d_ptr->scene) { foreach (QGraphicsView *view, d_ptr->scene->views()) { if (view->underMouse() && view->itemAt(view->mapFromGlobal(QCursor::pos())) == this) { QMetaObject::invokeMethod(view, "_q_unsetViewportCursor"); break; } } } } #endif // QT_NO_CURSOR /*! Returns true if the item is visible; otherwise, false is returned. Note that the item's general visibility is unrelated to whether or not it is actually being visualized by a QGraphicsView. \sa setVisible() */ bool QGraphicsItem::isVisible() const { return d_ptr->visible; } /*! \since 4.4 Returns true if the item is visible to \a parent; otherwise, false is returned. \a parent can be 0, in which case this function will return whether the item is visible to the scene or not. An item may not be visible to its ancestors even if isVisible() is true. If any ancestor is hidden, the item itself will be implicitly hidden, in which case this function will return false. \sa isVisible(), setVisible() */ bool QGraphicsItem::isVisibleTo(const QGraphicsItem *parent) const { if (!d_ptr->visible) return false; if (parent == this) return true; if (parentItem() && parentItem()->isVisibleTo(parent)) return true; if (!parent && !parentItem()) return true; return false; } /*! \internal Sets this item's visibility to \a newVisible. If \a explicitly is true, this item will be "explicitly" \a newVisible; otherwise, it.. will not be. */ void QGraphicsItemPrivate::setVisibleHelper(bool newVisible, bool explicitly, bool update) { Q_Q(QGraphicsItem); // Update explicit bit. if (explicitly) explicitlyHidden = newVisible ? 0 : 1; // Check if there's nothing to do. if (visible == quint32(newVisible)) return; // Don't show child if parent is not visible if (parent && newVisible && !parent->d_ptr->visible) return; // Modify the property. const QVariant newVisibleVariant(q_ptr->itemChange(QGraphicsItem::ItemVisibleChange, quint32(newVisible))); newVisible = newVisibleVariant.toBool(); if (visible == quint32(newVisible)) return; visible = newVisible; // Schedule redrawing if (update) { QGraphicsItemCache *c = (QGraphicsItemCache *)qVariantValue(extra(ExtraCacheData)); if (c) c->purge(); updateHelper(QRectF(), /* force = */ true); } // Certain properties are dropped as an item becomes invisible. if (!newVisible) { if (scene) { if (scene->d_func()->mouseGrabberItems.contains(q)) q->ungrabMouse(); if (scene->d_func()->keyboardGrabberItems.contains(q)) q->ungrabKeyboard(); } if (q_ptr->hasFocus() && scene) { // Hiding the closest non-window ancestor of the focus item QGraphicsItem *focusItem = scene->focusItem(); bool clear = true; if (isWidget && !focusItem->isWindow()) { do { if (focusItem == q_ptr) { clear = !static_cast(q_ptr)->focusNextPrevChild(true); break; } } while ((focusItem = focusItem->parentWidget()) && !focusItem->isWindow()); } if (clear) q_ptr->clearFocus(); } if (q_ptr->isSelected()) q_ptr->setSelected(false); } else { if (isWidget && scene) { QGraphicsWidget *widget = static_cast(q_ptr); if (widget->windowType() == Qt::Popup) scene->d_func()->addPopup(widget); } } // Update children with explicitly = false. const bool updateChildren = update && !(flags & QGraphicsItem::ItemClipsChildrenToShape); foreach (QGraphicsItem *child, children) { if (!newVisible || !child->d_ptr->explicitlyHidden) child->d_ptr->setVisibleHelper(newVisible, false, updateChildren); } // Enable subfocus if (newVisible && isWidget) { QGraphicsWidget *widget = static_cast(q_ptr); QGraphicsWidget *fw = widget->focusWidget(); if (fw && fw != scene->focusItem()) scene->setFocusItem(fw); } // Deliver post-change notification. q_ptr->itemChange(QGraphicsItem::ItemVisibleHasChanged, newVisibleVariant); } /*! If \a visible is true, the item is made visible. Otherwise, the item is made invisible. Invisible items are not painted, nor do they receive any events. In particular, mouse events pass right through invisible items, and are delivered to any item that may be behind. Invisible items are also unselectable, they cannot take input focus, and are not detected by QGraphicsScene's item location functions. If an item becomes invisible while grabbing the mouse, (i.e., while it is receiving mouse events,) it will automatically lose the mouse grab, and the grab is not regained by making the item visible again; it must receive a new mouse press to regain the mouse grab. Similarly, an invisible item cannot have focus, so if the item has focus when it becomes invisible, it will lose focus, and the focus is not regained by simply making the item visible again. If you hide a parent item, all its children will also be hidden. If you show a parent item, all children will be shown, unless they have been explicitly hidden (i.e., if you call setVisible(false) on a child, it will not be reshown even if its parent is hidden, and then shown again). Items are visible by default; it is unnecessary to call setVisible() on a new item. \sa isVisible(), show(), hide() */ void QGraphicsItem::setVisible(bool visible) { d_ptr->setVisibleHelper(visible, /* explicit = */ true); } /*! \fn void QGraphicsItem::hide() Hides the item. (Items are visible by default.) This convenience function is equivalent to calling \c setVisible(false). \sa show(), setVisible() */ /*! \fn void QGraphicsItem::show() Shows the item. (Items are visible by default.) This convenience function is equivalent to calling \c setVisible(true). \sa hide(), setVisible() */ /*! Returns true if the item is enabled; otherwise, false is returned. \sa setEnabled() */ bool QGraphicsItem::isEnabled() const { return d_ptr->enabled; } /*! \internal Sets this item's visibility to \a newEnabled. If \a explicitly is true, this item will be "explicitly" \a newEnabled; otherwise, it.. will not be. */ void QGraphicsItemPrivate::setEnabledHelper(bool newEnabled, bool explicitly, bool update) { // Update explicit bit. if (explicitly) explicitlyDisabled = newEnabled ? 0 : 1; // Check if there's nothing to do. if (enabled == quint32(newEnabled)) return; // Certain properties are dropped when an item is disabled. if (!newEnabled) { if (scene && scene->mouseGrabberItem() == q_ptr) q_ptr->ungrabMouse(); if (q_ptr->hasFocus()) { // Disabling the closest non-window ancestor of the focus item // causes focus to pop to the next item, otherwise it's cleared. QGraphicsItem *focusItem = scene->focusItem(); bool clear = true; if (isWidget && !focusItem->isWindow() && q_ptr->isAncestorOf(focusItem)) { do { if (focusItem == q_ptr) { clear = !static_cast(q_ptr)->focusNextPrevChild(true); break; } } while ((focusItem = focusItem->parentWidget()) && !focusItem->isWindow()); } if (clear) q_ptr->clearFocus(); } if (q_ptr->isSelected()) q_ptr->setSelected(false); } // Modify the property. const QVariant newEnabledVariant(q_ptr->itemChange(QGraphicsItem::ItemEnabledChange, quint32(newEnabled))); enabled = newEnabledVariant.toBool(); // Schedule redraw. if (update) updateHelper(); foreach (QGraphicsItem *child, children) { if (!newEnabled || !child->d_ptr->explicitlyDisabled) child->d_ptr->setEnabledHelper(newEnabled, /* explicitly = */ false); } // Deliver post-change notification. q_ptr->itemChange(QGraphicsItem::ItemEnabledHasChanged, newEnabledVariant); } /*! If \a enabled is true, the item is enabled; otherwise, it is disabled. Disabled items are visible, but they do not receive any events, and cannot take focus nor be selected. Mouse events are discarded; they are not propagated unless the item is also invisible, or if it does not accept mouse events (see acceptedMouseButtons()). A disabled item cannot become the mouse grabber, and as a result of this, an item loses the grab if it becomes disabled when grabbing the mouse, just like it loses focus if it had focus when it was disabled. Disabled items are traditionally drawn using grayed-out colors (see \l QPalette::Disabled). If you disable a parent item, all its children will also be disabled. If you enable a parent item, all children will be enabled, unless they have been explicitly disabled (i.e., if you call setEnabled(false) on a child, it will not be reenabled if its parent is disabled, and then enabled again). Items are enabled by default. \note If you install an event filter, you can still intercept events before they are delivered to items; this mechanism disregards the item's enabled state. \sa isEnabled() */ void QGraphicsItem::setEnabled(bool enabled) { d_ptr->setEnabledHelper(enabled, /* explicitly = */ true); } /*! Returns true if this item is selected; otherwise, false is returned. Items that are in a group inherit the group's selected state. Items are not selected by default. \sa setSelected(), QGraphicsScene::setSelectionArea() */ bool QGraphicsItem::isSelected() const { if (QGraphicsItemGroup *group = this->group()) return group->isSelected(); return d_ptr->selected; } /*! If \a selected is true and this item is selectable, this item is selected; otherwise, it is unselected. If the item is in a group, the whole group's selected state is toggled by this function. If the group is selected, all items in the group are also selected, and if the group is not selected, no item in the group is selected. Only visible, enabled, selectable items can be selected. If \a selected is true and this item is either invisible or disabled or unselectable, this function does nothing. By default, items cannot be selected. To enable selection, set the ItemIsSelectable flag. This function is provided for convenience, allowing individual toggling of the selected state of an item. However, a more common way of selecting items is to call QGraphicsScene::setSelectionArea(), which will call this function for all visible, enabled, and selectable items within a specified area on the scene. \sa isSelected(), QGraphicsScene::selectedItems() */ void QGraphicsItem::setSelected(bool selected) { if (QGraphicsItemGroup *group = this->group()) { group->setSelected(selected); return; } if (!(d_ptr->flags & ItemIsSelectable) || !d_ptr->enabled || !d_ptr->visible) selected = false; if (d_ptr->selected == selected) return; const QVariant newSelectedVariant(itemChange(ItemSelectedChange, quint32(selected))); bool newSelected = newSelectedVariant.toBool(); if (d_ptr->selected == newSelected) return; d_ptr->selected = newSelected; d_ptr->updateHelper(); if (d_ptr->scene) { QGraphicsScenePrivate *sceneD = d_ptr->scene->d_func(); if (selected) { sceneD->selectedItems << this; } else { // QGraphicsScene::selectedItems() lazily pulls out all items that are // no longer selected. } if (!sceneD->selectionChanging) emit d_ptr->scene->selectionChanged(); } // Deliver post-change notification. itemChange(QGraphicsItem::ItemSelectedHasChanged, newSelectedVariant); } /*! \since 4.5 Returns this item's local opacity, which is between 0.0 (transparent) and 1.0 (opaque). This value is combined with parent and ancestor values into the effectiveOpacity(). The effective opacity decides how the item is rendered. The opacity property decides the state of the painter passed to the paint() function. If the item is cached, i.e., ItemCoordinateCache or DeviceCoordinateCache, the effective property will be applied to the item's cache as it is rendered. The default opacity is 1.0; fully opaque. \sa setOpacity(), paint(), ItemIgnoresParentOpacity, ItemDoesntPropagateOpacityToChildren */ qreal QGraphicsItem::opacity() const { if (d_ptr->hasOpacity) { QVariant o = d_ptr->extra(QGraphicsItemPrivate::ExtraOpacity); if (!o.isNull()) return o.toDouble(); } return qreal(1.0); } /*! \since 4.5 Returns this item's \e effective opacity, which is between 0.0 (transparent) and 1.0 (opaque). This value is a combination of this item's local opacity, and its parent and ancestors' opacities. The effective opacity decides how the item is rendered. \sa opacity(), setOpacity(), paint(), ItemIgnoresParentOpacity, ItemDoesntPropagateOpacityToChildren */ qreal QGraphicsItem::effectiveOpacity() const { if (!d_ptr->hasEffectiveOpacity) return qreal(1.0); QVariant effectiveOpacity = d_ptr->extra(QGraphicsItemPrivate::ExtraEffectiveOpacity); return effectiveOpacity.isNull() ? qreal(1.0) : qreal(effectiveOpacity.toDouble()); } /*! \since 4.5 Sets this item's local \a opacity, between 0.0 (transparent) and 1.0 (opaque). The item's local opacity is combined with parent and ancestor opacities into the effectiveOpacity(). By default, opacity propagates from parent to child, so if a parent's opacity is 0.5 and the child is also 0.5, the child's effective opacity will be 0.25. The opacity property decides the state of the painter passed to the paint() function. If the item is cached, i.e., ItemCoordinateCache or DeviceCoordinateCache, the effective property will be applied to the item's cache as it is rendered. There are two item flags that affect how the item's opacity is combined with the parent: ItemIgnoresParentOpacity and ItemDoesntPropagateOpacityToChildren. \sa opacity(), effectiveOpacity() */ void QGraphicsItem::setOpacity(qreal opacity) { // Notify change. const QVariant newOpacityVariant(itemChange(ItemOpacityChange, double(opacity))); qreal newOpacity = newOpacityVariant.toDouble(); // Normalize. newOpacity = qBound(0.0, newOpacity, 1.0); // No change? Done. if (qFuzzyCompare(newOpacity, this->opacity())) return; // Assign local opacity. if (qFuzzyCompare(newOpacity, qreal(1.0))) { // Opaque, unset opacity. d_ptr->hasOpacity = 0; d_ptr->unsetExtra(QGraphicsItemPrivate::ExtraOpacity); } else { d_ptr->hasOpacity = 1; d_ptr->setExtra(QGraphicsItemPrivate::ExtraOpacity, double(newOpacity)); } // Resolve effective opacity. if (QGraphicsItem *p = d_ptr->parent) d_ptr->resolveEffectiveOpacity(p->effectiveOpacity()); else d_ptr->resolveEffectiveOpacity(1.0); // Notify change. itemChange(ItemOpacityHasChanged, newOpacity); // Update. d_ptr->fullUpdateHelper(/*childrenOnly=*/false, /*maybeDirtyClipPath=*/false, /*ignoreOpacity=*/true); } /*! Returns true if this item can accept drag and drop events; otherwise, returns false. By default, items do not accept drag and drop events; items are transparent to drag and drop. \sa setAcceptDrops() */ bool QGraphicsItem::acceptDrops() const { return d_ptr->acceptDrops; } /*! If \a on is true, this item will accept drag and drop events; otherwise, it is transparent for drag and drop events. By default, items do not accept drag and drop events. \sa acceptDrops() */ void QGraphicsItem::setAcceptDrops(bool on) { d_ptr->acceptDrops = on; } /*! Returns the mouse buttons that this item accepts mouse events for. By default, all mouse buttons are accepted. If an item accepts a mouse button, it will become the mouse grabber item when a mouse press event is delivered for that mouse button. However, if the item does not accept the button, QGraphicsScene will forward the mouse events to the first item beneath it that does. \sa setAcceptedMouseButtons(), mousePressEvent() */ Qt::MouseButtons QGraphicsItem::acceptedMouseButtons() const { return Qt::MouseButtons(d_ptr->acceptedMouseButtons); } /*! Sets the mouse \a buttons that this item accepts mouse events for. By default, all mouse buttons are accepted. If an item accepts a mouse button, it will become the mouse grabber item when a mouse press event is delivered for that button. However, if the item does not accept the mouse button, QGraphicsScene will forward the mouse events to the first item beneath it that does. To disable mouse events for an item (i.e., make it transparent for mouse events), call setAcceptedMouseButtons(0). \sa acceptedMouseButtons(), mousePressEvent() */ void QGraphicsItem::setAcceptedMouseButtons(Qt::MouseButtons buttons) { if (Qt::MouseButtons(d_ptr->acceptedMouseButtons) != buttons) { if (buttons == 0 && d_ptr->scene && d_ptr->scene->mouseGrabberItem() == this && d_ptr->scene->d_func()->lastMouseGrabberItemHasImplicitMouseGrab) { ungrabMouse(); } d_ptr->acceptedMouseButtons = quint32(buttons); } } /*! \since 4.4 Returns true if an item accepts hover events (QGraphicsSceneHoverEvent); otherwise, returns false. By default, items do not accept hover events. \sa setAcceptedMouseButtons() */ bool QGraphicsItem::acceptHoverEvents() const { return d_ptr->acceptsHover; } /*! \obsolete Call acceptHoverEvents() instead. */ bool QGraphicsItem::acceptsHoverEvents() const { return d_ptr->acceptsHover; } /*! \since 4.4 If \a enabled is true, this item will accept hover events; otherwise, it will ignore them. By default, items do not accept hover events. Hover events are delivered when there is no current mouse grabber item. They are sent when the mouse cursor enters an item, when it moves around inside the item, and when the cursor leaves an item. Hover events are commonly used to highlight an item when it's entered, and for tracking the mouse cursor as it hovers over the item (equivalent to QWidget::mouseTracking). Parent items receive hover enter events before their children, and leave events after their children. The parent does not receive a hover leave event if the cursor enters a child, though; the parent stays "hovered" until the cursor leaves its area, including its children's areas. If a parent item handles child events (setHandlesChildEvents()), it will receive hover move, drag move, and drop events as the cursor passes through its children, but it does not receive hover enter and hover leave, nor drag enter and drag leave events on behalf of its children. A QGraphicsWidget with window decorations will accept hover events regardless of the value of acceptHoverEvents(). \sa acceptHoverEvents(), hoverEnterEvent(), hoverMoveEvent(), hoverLeaveEvent() */ void QGraphicsItem::setAcceptHoverEvents(bool enabled) { d_ptr->acceptsHover = quint32(enabled); } /*! \obsolete Use setAcceptHoverEvents(\a enabled) instead. */ void QGraphicsItem::setAcceptsHoverEvents(bool enabled) { d_ptr->acceptsHover = quint32(enabled); } /*! Returns true if this item handles child events (i.e., all events intended for any of its children are instead sent to this item); otherwise, false is returned. This property is useful for item groups; it allows one item to handle events on behalf of its children, as opposed to its children handling their events individually. The default is to return false; children handle their own events. The exception for this is if the item is a QGraphicsItemGroup, then it defaults to return true. \sa setHandlesChildEvents() */ bool QGraphicsItem::handlesChildEvents() const { return d_ptr->handlesChildEvents; } /*! If \a enabled is true, this item is set to handle all events for all its children (i.e., all events intented for any of its children are instead sent to this item); otherwise, if \a enabled is false, this item will only handle its own events. The default value is false. This property is useful for item groups; it allows one item to handle events on behalf of its children, as opposed to its children handling their events individually. If a child item accepts hover events, its parent will receive hover move events as the cursor passes through the child, but it does not receive hover enter and hover leave events on behalf of its child. \sa handlesChildEvents() */ void QGraphicsItem::setHandlesChildEvents(bool enabled) { if (d_ptr->handlesChildEvents == enabled) return; d_ptr->handlesChildEvents = enabled; d_ptr->updateAncestorFlag(QGraphicsItem::GraphicsItemFlag(-1)); } /*! Returns true if this item has keyboard input focus; otherwise, returns false. \sa QGraphicsScene::focusItem(), setFocus(), QGraphicsScene::setFocusItem() */ bool QGraphicsItem::hasFocus() const { return (d_ptr->scene && d_ptr->scene->focusItem() == this); } /*! Gives keyboard input focus to this item. The \a focusReason argument will be passed into any focus event generated by this function; it is used to give an explanation of what caused the item to get focus. Only items that set the ItemIsFocusable flag can accept keyboard focus. If this item is not visible (i.e., isVisible() returns false), not enabled, not associated with a scene, or if it already has input focus, this function will do nothing. As a result of calling this function, this item will receive a focus in event with \a focusReason. If another item already has focus, that item will first receive a focus out event indicating that it has lost input focus. \sa clearFocus(), hasFocus() */ void QGraphicsItem::setFocus(Qt::FocusReason focusReason) { if (!d_ptr->scene || !isEnabled() || hasFocus() || !(d_ptr->flags & ItemIsFocusable)) return; if (isVisible()) { // Visible items immediately gain focus from scene. d_ptr->scene->setFocusItem(this, focusReason); } else if (d_ptr->isWidget) { // Just set up subfocus. static_cast(this)->d_func()->setFocusWidget(); } } /*! Takes keyboard input focus from the item. If it has focus, a focus out event is sent to this item to tell it that it is about to lose the focus. Only items that set the ItemIsFocusable flag, or widgets that set an appropriate focus policy, can accept keyboard focus. \sa setFocus(), QGraphicsWidget::focusPolicy */ void QGraphicsItem::clearFocus() { if (!d_ptr->scene) return; if (d_ptr->isWidget) { // Invisible widget items with focus must explicitly clear subfocus. static_cast(this)->d_func()->clearFocusWidget(); } if (d_ptr->scene->focusItem() == this) { // If this item has the scene's input focus, clear it. d_ptr->scene->setFocusItem(0); } } /*! \since 4.4 Grabs the mouse input. This item will receive all mouse events for the scene until any of the following events occurs: \list \o The item becomes invisible \o The item is removed from the scene \o The item is deleted \o The item call ungrabMouse() \o Another item calls grabMouse(); the item will regain the mouse grab when the other item calls ungrabMouse(). \endlist When an item gains the mouse grab, it receives a QEvent::GrabMouse event. When it loses the mouse grab, it receives a QEvent::UngrabMouse event. These events can be used to detect when your item gains or loses the mouse grab through other means than receiving mouse button events. It is almost never necessary to explicitly grab the mouse in Qt, as Qt grabs and releases it sensibly. In particular, Qt grabs the mouse when you press a mouse button, and keeps the mouse grabbed until you release the last mouse button. Also, Qt::Popup widgets implicitly call grabMouse() when shown, and ungrabMouse() when hidden. Note that only visible items can grab mouse input. Calling grabMouse() on an invisible item has no effect. Keyboard events are not affected. \sa QGraphicsScene::mouseGrabberItem(), ungrabMouse(), grabKeyboard() */ void QGraphicsItem::grabMouse() { if (!d_ptr->scene) { qWarning("QGraphicsItem::grabMouse: cannot grab mouse without scene"); return; } if (!d_ptr->visible) { qWarning("QGraphicsItem::grabMouse: cannot grab mouse while invisible"); return; } d_ptr->scene->d_func()->grabMouse(this); } /*! \since 4.4 Releases the mouse grab. \sa grabMouse(), ungrabKeyboard() */ void QGraphicsItem::ungrabMouse() { if (!d_ptr->scene) { qWarning("QGraphicsItem::ungrabMouse: cannot ungrab mouse without scene"); return; } d_ptr->scene->d_func()->ungrabMouse(this); } /*! \since 4.4 Grabs the keyboard input. The item will receive all keyboard input to the scene until one of the following events occur: \list \o The item becomes invisible \o The item is removed from the scene \o The item is deleted \o The item calls ungrabKeyboard() \o Another item calls grabKeyboard(); the item will regain the keyboard grab when the other item calls ungrabKeyboard(). \endlist When an item gains the keyboard grab, it receives a QEvent::GrabKeyboard event. When it loses the keyboard grab, it receives a QEvent::UngrabKeyboard event. These events can be used to detect when your item gains or loses the keyboard grab through other means than gaining input focus. It is almost never necessary to explicitly grab the keyboard in Qt, as Qt grabs and releases it sensibly. In particular, Qt grabs the keyboard when your item gains input focus, and releases it when your item loses input focus, or when the item is hidden. Note that only visible items can grab keyboard input. Calling grabKeyboard() on an invisible item has no effect. Keyboard events are not affected. \sa ungrabKeyboard(), grabMouse(), setFocus() */ void QGraphicsItem::grabKeyboard() { if (!d_ptr->scene) { qWarning("QGraphicsItem::grabKeyboard: cannot grab keyboard without scene"); return; } if (!d_ptr->visible) { qWarning("QGraphicsItem::grabKeyboard: cannot grab keyboard while invisible"); return; } d_ptr->scene->d_func()->grabKeyboard(this); } /*! \since 4.4 Releases the keyboard grab. \sa grabKeyboard(), ungrabMouse() */ void QGraphicsItem::ungrabKeyboard() { if (!d_ptr->scene) { qWarning("QGraphicsItem::ungrabKeyboard: cannot ungrab keyboard without scene"); return; } d_ptr->scene->d_func()->ungrabKeyboard(this); } /*! Returns the position of the item in parent coordinates. If the item has no parent, its position is given in scene coordinates. The position of the item describes its origin (local coordinate (0, 0)) in parent coordinates; this function returns the same as mapToParent(0, 0). For convenience, you can also call scenePos() to determine the item's position in scene coordinates, regardless of its parent. \sa x(), y(), setPos(), matrix(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::pos() const { return d_ptr->pos; } /*! \fn QGraphicsItem::x() const This convenience function is equivalent to calling pos().x(). \sa y() */ /*! \fn QGraphicsItem::y() const This convenience function is equivalent to calling pos().y(). \sa x() */ /*! Returns the item's position in scene coordinates. This is equivalent to calling \c mapToScene(0, 0). \sa pos(), sceneTransform(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::scenePos() const { return mapToScene(0, 0); } /*! \internal Sets the position \a pos and notifies the change. If \a update is true, the item is also updated; otherwise it is not updated before and after the change. */ void QGraphicsItemPrivate::setPosHelper(const QPointF &pos) { Q_Q(QGraphicsItem); if (this->pos == pos) return; // Notify the item that the position is changing. const QVariant newPosVariant(q->itemChange(QGraphicsItem::ItemPositionChange, pos)); QPointF newPos = newPosVariant.toPointF(); if (newPos == this->pos) return; // Update and repositition. inSetPosHelper = 1; updateCachedClipPathFromSetPosHelper(newPos); if (scene) { fullUpdateHelper(true); q->prepareGeometryChange(); } this->pos = newPos; invalidateSceneTransformCache(); // Send post-notification. q->itemChange(QGraphicsItem::ItemPositionHasChanged, newPosVariant); inSetPosHelper = 0; } /*! Sets the position of the item to \a pos, which is in parent coordinates. For items with no parent, \a pos is in scene coordinates. The position of the item describes its origin (local coordinate (0, 0)) in parent coordinates. \sa pos(), scenePos(), {The Graphics View Coordinate System} */ void QGraphicsItem::setPos(const QPointF &pos) { d_ptr->setPosHelper(pos); } /*! \fn void QGraphicsItem::setPos(qreal x, qreal y) \overload This convenience function is equivalent to calling setPos(QPointF(\a x, \a y)). */ /*! \fn void QGraphicsItem::moveBy(qreal dx, qreal dy) Moves the item by \a dx points horizontally, and \a dy point vertically. This function is equivalent to calling setPos(pos() + QPointF(\a dx, \a dy)). */ /*! If this item is part of a scene that is viewed by a QGraphicsView, this convenience function will attempt to scroll the view to ensure that \a rect is visible inside the view's viewport. If \a rect is a null rect (the default), QGraphicsItem will default to the item's bounding rect. \a xmargin and \a ymargin are the number of pixels the view should use for margins. If the specified rect cannot be reached, the contents are scrolled to the nearest valid position. If this item is not viewed by a QGraphicsView, this function does nothing. \sa QGraphicsView::ensureVisible() */ void QGraphicsItem::ensureVisible(const QRectF &rect, int xmargin, int ymargin) { if (d_ptr->scene) { QRectF sceneRect; if (!rect.isNull()) sceneRect = sceneTransform().mapRect(rect); else sceneRect = sceneBoundingRect(); foreach (QGraphicsView *view, d_ptr->scene->d_func()->views) view->ensureVisible(sceneRect, xmargin, ymargin); } } /*! \fn void QGraphicsItem::ensureVisible(qreal x, qreal y, qreal w, qreal h, int xmargin = 50, int ymargin = 50) This convenience function is equivalent to calling ensureVisible(QRectF(\a x, \a y, \a w, \a h), \a xmargin, \a ymargin): */ /*! \obsolete Returns the item's affine transformation matrix. This is a subset or the item's full transformation matrix, and might not represent the item's full transformation. Use transform() instead. \sa setTransform(), sceneTransform() */ QMatrix QGraphicsItem::matrix() const { return transform().toAffine(); } /*! \since 4.3 Returns this item's transformation matrix. If no matrix has been set, the identity matrix is returned. \sa setTransform(), sceneTransform() */ QTransform QGraphicsItem::transform() const { if (!d_ptr->hasTransform) return QTransform(); return qVariantValue(d_ptr->extra(QGraphicsItemPrivate::ExtraTransform)); } /*! \obsolete Use sceneTransform() instead. \sa transform(), setTransform(), scenePos(), {The Graphics View Coordinate System} */ QMatrix QGraphicsItem::sceneMatrix() const { return sceneTransform().toAffine(); } /*! \since 4.3 Returns this item's scene transformation matrix. This matrix can be used to map coordinates and geometrical shapes from this item's local coordinate system to the scene's coordinate system. To map coordinates from the scene, you must first invert the returned matrix. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 4 Unlike transform(), which returns only an item's local transformation, this function includes the item's (and any parents') position. \sa transform(), setTransform(), scenePos(), {The Graphics View Coordinate System} */ QTransform QGraphicsItem::sceneTransform() const { // Check if there's any entry in the transform cache. QGraphicsScenePrivate *sd = d_ptr->scene ? d_ptr->scene->d_func() : 0; int index = d_ptr->sceneTransformIndex; if (sd && index != -1 && sd->validTransforms.testBit(index)) return sd->sceneTransformCache[index]; // Calculate local transform. QTransform m; if (d_ptr->hasTransform) { m = transform(); if (!d_ptr->pos.isNull()) m *= QTransform::fromTranslate(d_ptr->pos.x(), d_ptr->pos.y()); } else if (!d_ptr->pos.isNull()) { m = QTransform::fromTranslate(d_ptr->pos.x(), d_ptr->pos.y()); } // Combine with parent and add to cache. if (d_ptr->parent) { m *= d_ptr->parent->sceneTransform(); // Don't cache toplevels if (sd) { if (index == -1) { if (!sd->freeSceneTransformSlots.isEmpty()) { index = sd->freeSceneTransformSlots.last(); sd->freeSceneTransformSlots.pop_back(); } else { index = sd->sceneTransformCache.size(); } d_ptr->sceneTransformIndex = index; if (index >= sd->validTransforms.size()) { sd->validTransforms.resize(index + 1); sd->sceneTransformCache.resize(index + 1); } } sd->validTransforms.setBit(index, 1); sd->sceneTransformCache[index] = m; } } return m; } /*! \since 4.3 Returns this item's device transformation matrix, using \a viewportTransform to map from scene to device coordinates. This matrix can be used to map coordinates and geometrical shapes from this item's local coordinate system to the viewport's (or any device's) coordinate system. To map coordinates from the viewport, you must first invert the returned matrix. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 5 This function is the same as combining this item's scene transform with the view's viewport transform, but it also understands the ItemIgnoresTransformations flag. The device transform can be used to do accurate coordinate mapping (and collision detection) for untransformable items. \sa transform(), setTransform(), scenePos(), {The Graphics View Coordinate System}, itemTransform() */ QTransform QGraphicsItem::deviceTransform(const QTransform &viewportTransform) const { // Ensure we return the standard transform if we're not untransformable. if (!d_ptr->itemIsUntransformable()) return sceneTransform() * viewportTransform; // Find the topmost item that ignores view transformations. const QGraphicsItem *untransformedAncestor = this; QList parents; while (untransformedAncestor && ((untransformedAncestor->d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorIgnoresTransformations))) { parents.prepend(untransformedAncestor); untransformedAncestor = untransformedAncestor->parentItem(); } if (!untransformedAncestor) { // Assert in debug mode, continue in release. Q_ASSERT_X(untransformedAncestor, "QGraphicsItem::deviceTransform", "Invalid object structure!"); return QTransform(); } // First translate the base untransformable item. QPointF mappedPoint = (untransformedAncestor->sceneTransform() * viewportTransform).map(QPointF(0, 0)); QTransform matrix; matrix.translate(mappedPoint.x(), mappedPoint.y()); matrix = untransformedAncestor->transform() * matrix; // Then transform and translate all children. for (int i = 0; i < parents.size(); ++i) { const QGraphicsItem *parent = parents.at(i); QPointF pos = parent->pos(); QTransform moveMatrix; moveMatrix.translate(pos.x(), pos.y()); matrix = (parent->transform() * moveMatrix) * matrix; } return matrix; } /*! \since 4.5 Returns a QTransform that maps coordinates from this item to \a other. If \a ok is not null, and if there is no such transform, the boolean pointed to by \a ok will be set to false; otherwise it will be set to true. This transform provides an alternative to the mapToItem() or mapFromItem() functions, by returning the appropriate transform so that you can map shapes and coordinates yourself. It also helps you write more efficient code when repeatedly mapping between the same two items. \note In rare circumstances, there is no transform that maps between two items. \sa mapToItem(), mapFromItem(), deviceTransform() */ QTransform QGraphicsItem::itemTransform(const QGraphicsItem *other, bool *ok) const { // Catch simple cases first. if (other == 0) { qWarning("QGraphicsItem::itemTransform: null pointer passed"); return QTransform(); } if (other == this) { if (ok) *ok = true; return QTransform(); } QGraphicsItem *parent = d_ptr->parent; const QGraphicsItem *otherParent = other->d_ptr->parent; // This is other's child if (parent == other) { if (ok) *ok = true; const QPointF &itemPos = d_ptr->pos; if (itemPos.isNull()) return d_ptr->hasTransform ? transform() : QTransform(); if (d_ptr->hasTransform) return transform() * QTransform::fromTranslate(itemPos.x(), itemPos.y()); return QTransform::fromTranslate(itemPos.x(), itemPos.y()); } // This is other's parent if (otherParent == this) { const QPointF &otherPos = other->d_ptr->pos; if (other->d_ptr->hasTransform) { QTransform otherToParent = other->transform(); if (!otherPos.isNull()) otherToParent *= QTransform::fromTranslate(otherPos.x(), otherPos.y()); return otherToParent.inverted(ok); } else { if (ok) *ok = true; return QTransform::fromTranslate(-otherPos.x(), -otherPos.y()); } } // Siblings if (parent == otherParent) { bool hasTr = d_ptr->hasTransform; bool otherHasTr = other->d_ptr->hasTransform; const QPointF &itemPos = d_ptr->pos; const QPointF &otherPos = other->d_ptr->pos; if (!hasTr && !otherHasTr) { QPointF delta = itemPos - otherPos; if (ok) *ok = true; return QTransform::fromTranslate(delta.x(), delta.y()); } QTransform itemToParent = QTransform::fromTranslate(itemPos.x(), itemPos.y()); if (hasTr) itemToParent = itemPos.isNull() ? transform() : transform() * itemToParent; QTransform otherToParent = QTransform::fromTranslate(otherPos.x(), otherPos.y()); if (otherHasTr) otherToParent = otherPos.isNull() ? other->transform() : other->transform() * otherToParent; return itemToParent * otherToParent.inverted(ok); } // Find the closest common ancestor. If the two items don't share an // ancestor, then the only way is to combine their scene transforms. const QGraphicsItem *commonAncestor = commonAncestorItem(other); if (!commonAncestor) return sceneTransform() * other->sceneTransform().inverted(ok); // If the two items are cousins (in sibling branches), map both to the // common ancestor, and combine the two transforms. bool cousins = other != commonAncestor && this != commonAncestor; if (cousins) { bool good = false; QTransform thisToScene; QTransform otherToScene; thisToScene = itemTransform(commonAncestor, &good); if (good) otherToScene = other->itemTransform(commonAncestor, &good); if (!good) { if (ok) *ok = false; return QTransform(); } return thisToScene * otherToScene.inverted(ok); } // One is an ancestor of the other; walk the chain. bool parentOfOther = isAncestorOf(other); const QGraphicsItem *child = parentOfOther ? other : this; const QGraphicsItem *root = parentOfOther ? this : other; QTransform x; const QGraphicsItem *p = child; do { const QGraphicsItemPrivate *pd = p->d_ptr; if (pd->hasTransform) x *= p->transform(); if (!pd->pos.isNull()) x *= QTransform::fromTranslate(pd->pos.x(), pd->pos.y()); } while ((p = p->d_ptr->parent) && p != root); if (parentOfOther) return x.inverted(ok); if (ok) *ok = true; return x; } /*! \obsolete Sets the item's affine transformation matrix. This is a subset or the item's full transformation matrix, and might not represent the item's full transformation. Use setTransform() instead. \sa transform(), rotate(), scale(), shear(), translate(), {The Graphics View Coordinate System} */ void QGraphicsItem::setMatrix(const QMatrix &matrix, bool combine) { QTransform oldTransform = this->transform(); QTransform newTransform; if (!combine) newTransform = QTransform(matrix); else newTransform = QTransform(matrix) * oldTransform; if (oldTransform == newTransform) return; // Notify the item that the matrix is changing. QVariant newTransformVariant(itemChange(ItemMatrixChange, qVariantFromValue(newTransform.toAffine()))); newTransform = QTransform(qVariantValue(newTransformVariant)); if (oldTransform == newTransform) return; // Update and set the new transformation. d_ptr->fullUpdateHelper(true, true); prepareGeometryChange(); d_ptr->hasTransform = !newTransform.isIdentity(); d_ptr->setExtra(QGraphicsItemPrivate::ExtraTransform, newTransform); d_ptr->invalidateSceneTransformCache(); // Send post-notification. // NB! We have to change the value from QMatrix to QTransform. qVariantSetValue(newTransformVariant, newTransform); itemChange(ItemTransformHasChanged, newTransformVariant); } /*! \since 4.3 Sets the item's current transformation matrix to \a matrix. If \a combine is true, then \a matrix is combined with the current matrix; otherwise, \a matrix \e replaces the current matrix. \a combine is false by default. To simplify interation with items using a transformed view, QGraphicsItem provides mapTo... and mapFrom... functions that can translate between items' and the scene's coordinates. For example, you can call mapToScene() to map an item coordiate to a scene coordinate, or mapFromScene() to map from scene coordinates to item coordinates. \sa transform(), rotate(), scale(), shear(), translate(), {The Graphics View Coordinate System} */ void QGraphicsItem::setTransform(const QTransform &matrix, bool combine) { QTransform oldTransform = this->transform(); QTransform newTransform; if (!combine) newTransform = matrix; else newTransform = matrix * oldTransform; if (oldTransform == newTransform) return; // Notify the item that the transformation matrix is changing. const QVariant newTransformVariant(itemChange(ItemTransformChange, qVariantFromValue(newTransform))); newTransform = qVariantValue(newTransformVariant); if (oldTransform == newTransform) return; // Update and set the new transformation. d_ptr->fullUpdateHelper(true, true); prepareGeometryChange(); d_ptr->hasTransform = !newTransform.isIdentity(); d_ptr->setExtra(QGraphicsItemPrivate::ExtraTransform, newTransform); d_ptr->invalidateSceneTransformCache(); // Send post-notification. itemChange(ItemTransformHasChanged, newTransformVariant); } /*! \obsolete Use resetTransform() instead. */ void QGraphicsItem::resetMatrix() { resetTransform(); } /*! \since 4.3 Resets this item's transformation matrix to the identity matrix. This is equivalent to calling \c setTransform(QTransform()). \sa setTransform(), transform() */ void QGraphicsItem::resetTransform() { setTransform(QTransform(), false); } /*! Rotates the current item transformation \a angle degrees clockwise around its origin. To translate around an arbitrary point (x, y), you need to combine translation and rotation with setTransform(). Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 6 \sa setTransform(), transform(), scale(), shear(), translate() */ void QGraphicsItem::rotate(qreal angle) { setTransform(QTransform().rotate(angle), true); } /*! Scales the current item transformation by (\a sx, \a sy) around its origin. To scale from an arbitrary point (x, y), you need to combine translation and scaling with setTransform(). Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 7 \sa setTransform(), transform(), rotate(), shear(), translate() */ void QGraphicsItem::scale(qreal sx, qreal sy) { setTransform(QTransform::fromScale(sx, sy), true); } /*! Shears the current item transformation by (\a sh, \a sv). \sa setTransform(), transform(), rotate(), scale(), translate() */ void QGraphicsItem::shear(qreal sh, qreal sv) { setTransform(QTransform().shear(sh, sv), true); } /*! Translates the current item transformation by (\a dx, \a dy). If all you want is to move an item, you should call moveBy() or setPos() instead; this function changes the item's translation, which is conceptually separate from its position. \sa setTransform(), transform(), rotate(), scale(), shear() */ void QGraphicsItem::translate(qreal dx, qreal dy) { setTransform(QTransform::fromTranslate(dx, dy), true); } /*! This virtual function is called twice for all items by the QGraphicsScene::advance() slot. In the first phase, all items are called with \a phase == 0, indicating that items on the scene are about to advance, and then all items are called with \a phase == 1. Reimplement this function to update your item if you need simple scene-controlled animation. The default implementation does nothing. For individual item animation, an alternative to this function is to either use QGraphicsItemAnimation, or to multiple-inherit from QObject and QGraphicsItem, and animate your item using QObject::startTimer() and QObject::timerEvent(). \sa QGraphicsItemAnimation, QTimeLine */ void QGraphicsItem::advance(int phase) { Q_UNUSED(phase); } /*! Returns the Z-value, or the elevation, of the item. The Z-value decides the stacking order of sibling (neighboring) items. The default Z-value is 0. \sa setZValue() */ qreal QGraphicsItem::zValue() const { return d_ptr->z; } /*! Sets the Z-value, or the elevation, of the item, to \a z. The elevation decides the stacking order of sibling (neighboring) items. An item of high Z-value will be drawn on top of an item with a lower Z-value if they share the same parent item. In addition, children of an item will always be drawn on top of the parent, regardless of the child's Z-value. Sibling items that share the same Z-value will be drawn in an undefined order, although the order will stay the same for as long as the items live. \img graphicsview-zorder.png Children of different parents are stacked according to the Z-value of each item's ancestor item which is an immediate child of the two items' closest common ancestor. For example, a robot item might define a torso item as the parent of a head item, two arm items, and two upper-leg items. The upper-leg items would each be parents of one lower-leg item, and each lower-leg item would be parents of one foot item. The stacking order of the feet is the same as the stacking order of each foot's ancestor that is an immediate child of the two feet's common ancestor (i.e., the torso item); so the feet are stacked in the same order as the upper-leg items, regardless of each foot's Z-value. The Z-value does not affect the item's size in any way. The default Z-value is 0. \sa zValue() */ void QGraphicsItem::setZValue(qreal z) { const QVariant newZVariant(itemChange(ItemZValueChange, double(z))); qreal newZ = qreal(newZVariant.toDouble()); if (newZ == d_ptr->z) return; d_ptr->z = z; d_ptr->fullUpdateHelper(); if (d_ptr->scene) { // Invalidate any sort caching; arrival of a new item means we need to // resort. d_ptr->scene->d_func()->invalidateSortCache(); } itemChange(ItemZValueHasChanged, newZVariant); } /*! Returns the bounding rect of this item's descendants (i.e., its children, their children, etc.) in local coordinates. The rectangle will contain all descendants after they have been mapped to local coordinates. If the item has no children, this function returns an empty QRectF. This does not include this item's own bounding rect; it only returns its descendants' accumulated bounding rect. If you need to include this item's bounding rect, you can add boundingRect() to childrenBoundingRect() using QRectF::operator|(). This function is linear in complexity; it determines the size of the returned bounding rect by iterating through all descendants. \sa boundingRect(), sceneBoundingRect() */ QRectF QGraphicsItem::childrenBoundingRect() const { QRectF childRect; foreach (QGraphicsItem *child, children()) { QPointF childPos = child->pos(); QTransform matrix = child->transform(); if (!childPos.isNull()) matrix *= QTransform::fromTranslate(childPos.x(), childPos.y()); childRect |= matrix.mapRect(child->boundingRect() | child->childrenBoundingRect()); } return childRect; } /*! \fn virtual QRectF QGraphicsItem::boundingRect() const = 0 This pure virtual function defines the outer bounds of the item as a rectangle; all painting must be restricted to inside an item's bounding rect. QGraphicsView uses this to determine whether the item requires redrawing. Although the item's shape can be arbitrary, the bounding rect is always rectangular, and it is unaffected by the items' transformation (scale(), rotate(), etc.). If you want to change the item's bounding rectangle, you must first call prepareGeometryChange(). This notifies the scene of the imminent change, so that its can update its item geometry index; otherwise, the scene will be unaware of the item's new geometry, and the results are undefined (typically, rendering artifacts are left around in the view). Reimplement this function to let QGraphicsView determine what parts of the widget, if any, need to be redrawn. Note: For shapes that paint an outline / stroke, it is important to include half the pen width in the bounding rect. It is not necessary to compensate for antialiasing, though. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 8 \sa boundingRegion(), shape(), contains(), {The Graphics View Coordinate System}, prepareGeometryChange() */ /*! Returns the bounding rect of this item in scene coordinates, by combining sceneTransform() with boundingRect(). \sa boundingRect(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::sceneBoundingRect() const { // Find translate-only offset QPointF offset; const QGraphicsItem *parentItem = this; const QGraphicsItemPrivate *itemd; do { itemd = parentItem->d_ptr; if (itemd->hasTransform) break; offset += itemd->pos; } while ((parentItem = itemd->parent)); QRectF br = boundingRect(); br.translate(offset); return !parentItem ? br : parentItem->sceneTransform().mapRect(br); } /*! Returns the shape of this item as a QPainterPath in local coordinates. The shape is used for many things, including collision detection, hit tests, and for the QGraphicsScene::items() functions. The default implementation calls boundingRect() to return a simple rectangular shape, but subclasses can reimplement this function to return a more accurate shape for non-rectangular items. For example, a round item may choose to return an elliptic shape for better collision detection. For example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 9 The outline of a shape can vary depending on the width and style of the pen used when drawing. If you want to include this outline in the item's shape, you can create a shape from the stroke using QPainterPathStroker. This function is called by the default implementations of contains() and collidesWithPath(). \sa boundingRect(), contains(), prepareGeometryChange(), QPainterPathStroker */ QPainterPath QGraphicsItem::shape() const { QPainterPath path; path.addRect(boundingRect()); return path; } /*! Returns true if this item is clipped. An item is clipped if it has either set the \l ItemClipsToShape flag, or if it or any of its ancestors has set the \l ItemClipsChildrenToShape flag. Clipping affects the item's appearance (i.e., painting), as well as mouse and hover event delivery. \sa clipPath(), shape(), setFlags() */ bool QGraphicsItem::isClipped() const { Q_D(const QGraphicsItem); return (d->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren) || (d->flags & QGraphicsItem::ItemClipsToShape); } /*! \since 4.5 Returns this item's clip path, or an empty QPainterPath if this item is not clipped. The clip path constrains the item's appearance and interaction (i.e., restricts the area the item can draw, and it also restricts the area that the item receives events). You can enable clipping by setting the ItemClipsToShape or ItemClipsChildrenToShape flags. The item's clip path is calculated by intersecting all clipping ancestors' shapes. If the item sets ItemClipsToShape, the final clip is intersected with the item's own shape. \note Clipping introduces a performance penalty for all items involved; you should generally avoid using clipping if you can (e.g., if your items always draw inside boundingRect() or shape() boundaries, clipping is not necessary). \sa isClipped(), shape(), setFlags() */ QPainterPath QGraphicsItem::clipPath() const { Q_D(const QGraphicsItem); if (!d->dirtyClipPath) return d->emptyClipPath ? QPainterPath() : d->cachedClipPath; if (!isClipped()) { d_ptr->setCachedClipPath(QPainterPath()); return d->cachedClipPath; } const QRectF thisBoundingRect(boundingRect()); if (thisBoundingRect.isEmpty()) { if (d_ptr->flags & ItemClipsChildrenToShape) d_ptr->setEmptyCachedClipPathRecursively(); else d_ptr->setEmptyCachedClipPath(); return QPainterPath(); } QPainterPath clip; // Start with the item's bounding rect. clip.addRect(thisBoundingRect); if (d->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren) { const QGraphicsItem *parent = this; const QGraphicsItem *lastParent = this; // Intersect any in-between clips starting at the top and moving downwards. bool foundValidClipPath = false; while ((parent = parent->d_ptr->parent)) { if (parent->d_ptr->flags & ItemClipsChildrenToShape) { // Map clip to the current parent and intersect with its shape/clipPath clip = lastParent->itemTransform(parent).map(clip); if ((foundValidClipPath = !parent->d_ptr->dirtyClipPath && parent->isClipped())) { if (parent->d_ptr->emptyClipPath) { if (d_ptr->flags & ItemClipsChildrenToShape) d_ptr->setEmptyCachedClipPathRecursively(); else d_ptr->setEmptyCachedClipPath(); return QPainterPath(); } clip = clip.intersected(parent->d_ptr->cachedClipPath); if (!(parent->d_ptr->flags & ItemClipsToShape)) clip = clip.intersected(parent->shape()); } else { clip = clip.intersected(parent->shape()); } if (clip.isEmpty()) { if (d_ptr->flags & ItemClipsChildrenToShape) d_ptr->setEmptyCachedClipPathRecursively(); else d_ptr->setEmptyCachedClipPath(); return clip; } lastParent = parent; } if (!(parent->d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren) || foundValidClipPath) { break; } } if (lastParent != this) { // Map clip back to the item's transform. // ### what if itemtransform fails clip = lastParent->itemTransform(this).map(clip); } } if (d->flags & ItemClipsToShape) clip = clip.intersected(shape()); d_ptr->setCachedClipPath(clip); return clip; } /*! Returns true if this item contains \a point, which is in local coordinates; otherwise, false is returned. It is most often called from QGraphicsView to determine what item is under the cursor, and for that reason, the implementation of this function should be as light-weight as possible. By default, this function calls shape(), but you can reimplement it in a subclass to provide a (perhaps more efficient) implementation. \sa shape(), boundingRect(), collidesWithPath() */ bool QGraphicsItem::contains(const QPointF &point) const { return isClipped() ? clipPath().contains(point) : shape().contains(point); } /*! Returns true if this item collides with \a other; otherwise returns false. The \a mode is applied to \a other, and the resulting shape or bounding rectangle is then compared to this item's shape. The default value for \a mode is Qt::IntersectsItemShape; \a other collides with this item if it either intersects, contains, or is contained by this item's shape (see Qt::ItemSelectionMode for details). The default implementation is based on shape intersection, and it calls shape() on both items. Because the complexity of arbitrary shape-shape intersection grows with an order of magnitude when the shapes are complex, this operation can be noticably time consuming. You have the option of reimplementing this function in a subclass of QGraphicsItem to provide a custom algorithm. This allows you to make use of natural constraints in the shapes of your own items, in order to improve the performance of the collision detection. For instance, two untransformed perfectly circular items' collision can be determined very efficiently by comparing their positions and radii. Keep in mind that when reimplementing this function and calling shape() or boundingRect() on \a other, the returned coordinates must be mapped to this item's coordinate system before any intersection can take place. \sa contains(), shape() */ bool QGraphicsItem::collidesWithItem(const QGraphicsItem *other, Qt::ItemSelectionMode mode) const { if (other == this) return true; if (!other) return false; // The items share the same clip if their closest clipper is the same, or // if one clips the other. bool clips = (d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren); bool otherClips = (other->d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren); if (clips || otherClips) { const QGraphicsItem *closestClipper = isAncestorOf(other) ? this : parentItem(); while (closestClipper && !(closestClipper->flags() & ItemClipsChildrenToShape)) closestClipper = closestClipper->parentItem(); const QGraphicsItem *otherClosestClipper = other->isAncestorOf(this) ? other : other->parentItem(); while (otherClosestClipper && !(otherClosestClipper->flags() & ItemClipsChildrenToShape)) otherClosestClipper = otherClosestClipper->parentItem(); if (closestClipper == otherClosestClipper) { d_ptr->localCollisionHack = 1; bool res = collidesWithPath(mapFromItem(other, other->shape()), mode); d_ptr->localCollisionHack = 0; return res; } } QPainterPath otherShape = other->isClipped() ? other->clipPath() : other->shape(); return collidesWithPath(mapFromItem(other, otherShape), mode); } /*! Returns true if this item collides with \a path. The collision is determined by \a mode. The default value for \a mode is Qt::IntersectsItemShape; \a path collides with this item if it either intersects, contains, or is contained by this item's shape. Note that this function checks whether the item's shape or bounding rectangle (depending on \a mode) is contained within \a path, and not whether \a path is contained within the items shape or bounding rectangle. \sa collidesWithItem(), contains(), shape() */ bool QGraphicsItem::collidesWithPath(const QPainterPath &path, Qt::ItemSelectionMode mode) const { if (path.isEmpty()) { // No collision with empty paths. return false; } QRectF rectA(boundingRect()); _q_adjustRect(&rectA); QRectF rectB(path.controlPointRect()); _q_adjustRect(&rectB); if (!rectA.intersects(rectB)) { // This we can determine efficiently. If the two rects neither // intersect nor contain eachother, then the two items do not collide. return false; } // For further testing, we need this item's shape or bounding rect. QPainterPath thisShape; if (mode == Qt::IntersectsItemShape || mode == Qt::ContainsItemShape) thisShape = (isClipped() && !d_ptr->localCollisionHack) ? clipPath() : shape(); else thisShape.addRect(rectA); if (thisShape == QPainterPath()) { // Empty shape? No collision. return false; } // Use QPainterPath boolean operations to determine the collision, O(N*logN). if (mode == Qt::IntersectsItemShape || mode == Qt::IntersectsItemBoundingRect) return path.intersects(thisShape); return path.contains(thisShape); } /*! Returns a list of all items that collide with this item. The way collisions are detected is determined by applying \a mode to items that are compared to this item, i.e., each item's shape or bounding rectangle is checked against this item's shape. The default value for \a mode is Qt::IntersectsItemShape. \sa collidesWithItem() */ QList QGraphicsItem::collidingItems(Qt::ItemSelectionMode mode) const { if (d_ptr->scene) return d_ptr->scene->collidingItems(this, mode); return QList(); } /*! Returns true if this item's bounding rect is completely obscured by the opaque shape of any of colliding items above it (i.e., with a higher Z value than this item). Its implementation is based on calling isObscuredBy(), which you can reimplement to provide a custom obscurity algorithm. \sa opaqueArea() */ bool QGraphicsItem::isObscured() const { return isObscured(QRectF()); } /*! \internal Item obscurity helper function. Returns true if the subrect \a rect of \a item's bounding rect is obscured by \a other (i.e., \a other's opaque area covers \a item's \a rect completely. \a other is assumed to already be "on top of" \a item wrt. stacking order. */ static bool qt_QGraphicsItem_isObscured(const QGraphicsItem *item, const QGraphicsItem *other, const QRectF &rect) { return other->mapToItem(item, other->opaqueArea()).contains(rect); } /*! \overload \since 4.3 Returns true if \a rect is completely obscured by the opaque shape of any of colliding items above it (i.e., with a higher Z value than this item). Unlike the default isObscured() function, this function does not call isObscuredBy(). \sa opaqueArea() */ bool QGraphicsItem::isObscured(const QRectF &rect) const { Q_D(const QGraphicsItem); if (!d->scene) return false; QRectF br = boundingRect(); QRectF testRect = rect.isNull() ? br : rect; foreach (QGraphicsItem *item, d->scene->items(mapToScene(br), Qt::IntersectsItemBoundingRect)) { if (item == this) break; if (qt_QGraphicsItem_isObscured(this, item, testRect)) return true; } return false; } /*! \fn bool QGraphicsItem::isObscured(qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling isObscured(QRectF(\a x, \a y, \a w, \a h)). */ /*! Returns true if this item's bounding rect is completely obscured by the opaque shape of \a item. The base implementation maps \a item's opaqueArea() to this item's coordinate system, and then checks if this item's boundingRect() is fully contained within the mapped shape. You can reimplement this function to provide a custom algorithm for determining whether this item is obscured by \a item. \sa opaqueArea(), isObscured() */ bool QGraphicsItem::isObscuredBy(const QGraphicsItem *item) const { if (!item) return false; return QGraphicsScenePrivate::closestItemFirst_withoutCache(item, this) && qt_QGraphicsItem_isObscured(this, item, boundingRect()); } /*! This virtual function returns a shape representing the area where this item is opaque. An area is opaque if it is filled using an opaque brush or color (i.e., not transparent). This function is used by isObscuredBy(), which is called by underlying items to determine if they are obscured by this item. The default implementation returns an empty QPainterPath, indicating that this item is completely transparent and does not obscure any other items. \sa isObscuredBy(), isObscured(), shape() */ QPainterPath QGraphicsItem::opaqueArea() const { return QPainterPath(); } /*! \since 4.4 Returns the bounding region for this item. The coordinate space of the returned region depends on \a itemToDeviceTransform. If you pass an identity QTransform as a parameter, this function will return a local coordinate region. The bounding region describes a coarse outline of the item's visual contents. Although it's expensive to calculate, it's also more precise than boundingRect(), and it can help to avoid unnecessary repainting when an item is updated. This is particularily efficient for thin items (e.g., lines or simple polygons). You can tune the granularity for the bounding region by calling setBoundingRegionGranularity(). The default granularity is 0; in which the item's bounding region is the same as its bounding rect. \a itemToDeviceTransform is the transformation from item coordinates to device coordinates. If you want this function to return a QRegion in scene coordinates, you can pass sceneTransform() as an argument. \sa boundingRegionGranularity() */ QRegion QGraphicsItem::boundingRegion(const QTransform &itemToDeviceTransform) const { // ### Ideally we would have a better way to generate this region, // preferably something in the lines of QPainterPath::toRegion(QTransform) // coupled with a way to generate a painter path from a set of painter // operations (e.g., QPicture::toPainterPath() or so). The current // approach generates a bitmap with the size of the item's bounding rect // in device coordinates, scaled by b.r.granularity, then paints the item // into the bitmap, converts the result to a QRegion and scales the region // back to device space with inverse granularity. qreal granularity = boundingRegionGranularity(); QRect deviceRect = itemToDeviceTransform.mapRect(boundingRect()).toRect(); _q_adjustRect(&deviceRect); if (granularity == 0.0) return QRegion(deviceRect); int pad = 1; QSize bitmapSize(qMax(1, int(deviceRect.width() * granularity) + pad * 2), qMax(1, int(deviceRect.height() * granularity) + pad * 2)); QImage mask(bitmapSize, QImage::Format_ARGB32_Premultiplied); mask.fill(0); QPainter p(&mask); p.setRenderHints(QPainter::Antialiasing); // Transform painter (### this code is from QGraphicsScene::drawItemHelper // and doesn't work properly with perspective transformations). QPointF viewOrigo = itemToDeviceTransform.map(QPointF(0, 0)); QPointF offset = viewOrigo - deviceRect.topLeft(); p.scale(granularity, granularity); p.translate(offset); p.translate(pad, pad); p.setWorldTransform(itemToDeviceTransform, true); p.translate(itemToDeviceTransform.inverted().map(QPointF(0, 0))); // Render QStyleOptionGraphicsItem option; const_cast(this)->paint(&p, &option, 0); p.end(); // Transform QRegion back to device space QTransform unscale; unscale.scale(1 / granularity, 1 / granularity); QRegion r; QBitmap colorMask = QBitmap::fromImage(mask.createMaskFromColor(0)); foreach (const QRect &rect, QRegion( colorMask ).rects()) { QRect xrect = unscale.mapRect(rect).translated(deviceRect.topLeft() - QPoint(pad, pad)); r += xrect.adjusted(-1, -1, 1, 1) & deviceRect; } return r; } /*! \since 4.4 Returns the item's bounding region granularity; a value between and including 0 and 1. The default value is 0 (i.e., the lowest granularity, where the bounding region corresponds to the item's bounding rectangle). \omit ### NOTE \endomit \sa setBoundingRegionGranularity() */ qreal QGraphicsItem::boundingRegionGranularity() const { return d_ptr->hasBoundingRegionGranularity ? qVariantValue(d_ptr->extra(QGraphicsItemPrivate::ExtraBoundingRegionGranularity)) : 0; } /*! \since 4.4 Sets the bounding region granularity to \a granularity; a value between and including 0 and 1. The default value is 0 (i.e., the lowest granularity, where the bounding region corresponds to the item's bounding rectangle). The granularity is used by boundingRegion() to calculate how fine the bounding region of the item should be. The highest achievable granularity is 1, where boundingRegion() will return the finest outline possible for the respective device (e.g., for a QGraphicsView viewport, this gives you a pixel-perfect bounding region). The lowest possible granularity is 0. The value of \a granularity describes the ratio between device resolution and the resolution of the bounding region (e.g., a value of 0.25 will provide a region where each chunk corresponds to 4x4 device units / pixels). \sa boundingRegionGranularity() */ void QGraphicsItem::setBoundingRegionGranularity(qreal granularity) { if (granularity < 0.0 || granularity > 1.0) { qWarning("QGraphicsItem::setBoundingRegionGranularity: invalid granularity %g", granularity); return; } if (granularity == 0.0) { d_ptr->unsetExtra(QGraphicsItemPrivate::ExtraBoundingRegionGranularity); d_ptr->hasBoundingRegionGranularity = 0; return; } d_ptr->hasBoundingRegionGranularity = 1; d_ptr->setExtra(QGraphicsItemPrivate::ExtraBoundingRegionGranularity, qVariantFromValue(granularity)); } /*! \fn virtual void QGraphicsItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget = 0) = 0 This function, which is usually called by QGraphicsView, paints the contents of an item in local coordinates. Reimplement this function in a QGraphicsItem subclass to provide the item's painting implementation, using \a painter. The \a option parameter provides style options for the item, such as its state, exposed area and its level-of-detail hints. The \a widget argument is optional. If provided, it points to the widget that is being painted on; otherwise, it is 0. For cached painting, \a widget is always 0. \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 10 The painter's pen is 0-width by default, and its pen is initialized to the QPalette::Text brush from the paint device's palette. The brush is initialized to QPalette::Window. Make sure to constrain all painting inside the boundaries of boundingRect() to avoid rendering artifacts (as QGraphicsView does not clip the painter for you). In particular, when QPainter renders the outline of a shape using an assigned QPen, half of the outline will be drawn outside, and half inside, the shape you're rendering (e.g., with a pen width of 2 units, you must draw outlines 1 unit inside boundingRect()). QGraphicsItem does not support use of cosmetic pens with a non-zero width. All painting is done in local coordinates. \sa setCacheMode(), QPen::width(), {Item Coordinates} */ /*! \internal Returns true if we can discard an update request; otherwise false. */ bool QGraphicsItemPrivate::discardUpdateRequest(bool ignoreClipping, bool ignoreVisibleBit, bool ignoreDirtyBit, bool ignoreOpacity) const { // No scene, or if the scene is updating everything, means we have nothing // to do. The only exception is if the scene tracks the growing scene rect. return (!visible && !ignoreVisibleBit) || (dirty && !ignoreDirtyBit) || !scene || (scene->d_func()->updateAll && scene->d_func()->hasSceneRect) || (!ignoreClipping && (childrenClippedToShape() && isClippedAway())) || (!ignoreOpacity && childrenCombineOpacity() && isFullyTransparent()); } /*! \internal Asks the scene to mark this item's scene rect as dirty, requesting a redraw. This does not invalidate any cache. The \a force argument is for the update call in setVisible(), which is the only case where the item's background should be marked as dirty even when the item isn't visible. */ void QGraphicsItemPrivate::updateHelper(const QRectF &rect, bool force, bool maybeDirtyClipPath) { // No scene, or if the scene is updating everything, means we have nothing // to do. The only exception is if the scene tracks the growing scene rect. if (discardUpdateRequest(/*ignoreClipping=*/maybeDirtyClipPath, /*ignoreVisibleBit=*/force)) return; if (rect.isNull()) dirty = 1; scene->itemUpdated(q_ptr, rect); } /*! \internal Propagates updates to \a item and all its children. */ void QGraphicsItemPrivate::fullUpdateHelper(bool childrenOnly, bool maybeDirtyClipPath, bool ignoreOpacity) { if (discardUpdateRequest(/*ignoreClipping=*/maybeDirtyClipPath, /*ignoreVisibleBit=*/false, /*ignoreDirtyBit=*/true, ignoreOpacity)) { return; } if (!childrenOnly && !dirty) { // Effectively the same as updateHelper(QRectF(), false, maybeDirtyClipPath). dirty = 1; scene->itemUpdated(q_ptr, QRectF()); } if (dirtyChildren || childrenClippedToShape()) { // Unnecessary to update children as well. return; } if (ancestorFlags & AncestorClipsChildren) { Q_Q(QGraphicsItem); // Check if we can avoid updating all children. QGraphicsItem *p = parent; QRectF br = q->boundingRect(); while (p) { if (p->d_ptr->flags & QGraphicsItem::ItemClipsChildrenToShape) { bool ok; QTransform x = q->itemTransform(p, &ok); if (!ok) break; if (x.mapRect(br).contains(p->boundingRect())) return; } p = p->d_ptr->parent; if (!p || !(p->d_ptr->ancestorFlags & AncestorClipsChildren)) break; // ### check one level only break; } } foreach (QGraphicsItem *child, children) child->d_ptr->fullUpdateHelper(false, maybeDirtyClipPath, ignoreOpacity); dirtyChildren = 1; } static inline bool qt_allChildrenCombineOpacity(QGraphicsItem *parent) { Q_ASSERT(parent); if (parent->flags() & QGraphicsItem::ItemDoesntPropagateOpacityToChildren) return false; const QList children(parent->childItems()); for (int i = 0; i < children.size(); ++i) { if (children.at(i)->flags() & QGraphicsItem::ItemIgnoresParentOpacity) return false; } return true; } void QGraphicsItemPrivate::updateEffectiveOpacity() { Q_Q(QGraphicsItem); if (parent) { resolveEffectiveOpacity(parent->effectiveOpacity()); parent->d_ptr->allChildrenCombineOpacity = qt_allChildrenCombineOpacity(parent); } else { resolveEffectiveOpacity(1.0); } allChildrenCombineOpacity = qt_allChildrenCombineOpacity(q); } /*! \internal Resolves and propagates this item's effective opacity to its children. */ void QGraphicsItemPrivate::resolveEffectiveOpacity(qreal parentEffectiveOpacity) { Q_Q(QGraphicsItem); QGraphicsItem::GraphicsItemFlags myFlags = q->flags(); QGraphicsItem::GraphicsItemFlags parentFlags = parent ? parent->flags() : QGraphicsItem::GraphicsItemFlags(0); // My local opacity is always part of my effective opacity. qreal myEffectiveOpacity = q->opacity(); // If I have a parent, and I don't ignore my parent's opacity, and my // parent propagates to me, then combine my local opacity with my parent's // effective opacity into my effective opacity. if (parent && !(myFlags & QGraphicsItem::ItemIgnoresParentOpacity) && !(parentFlags & QGraphicsItem::ItemDoesntPropagateOpacityToChildren)) { myEffectiveOpacity *= parentEffectiveOpacity; } // Set this item's resolved opacity. if (qFuzzyCompare(myEffectiveOpacity, qreal(1.0))) { // Opaque, unset effective opacity. hasEffectiveOpacity = 0; unsetExtra(ExtraEffectiveOpacity); } else { hasEffectiveOpacity = 1; setExtra(ExtraEffectiveOpacity, myEffectiveOpacity); } // Resolve children always. for (int i = 0; i < children.size(); ++i) children.at(i)->d_ptr->resolveEffectiveOpacity(myEffectiveOpacity); } /*! \internal Resolves the stacking depth of this object and all its children. */ void QGraphicsItemPrivate::resolveDepth(int parentDepth) { depth = parentDepth + 1; for (int i = 0; i < children.size(); ++i) children.at(i)->d_ptr->resolveDepth(depth); } /*! \internal */ void QGraphicsItemPrivate::invalidateSceneTransformCache() { if (!scene || (parent && sceneTransformIndex == -1)) return; if (sceneTransformIndex != -1) scene->d_func()->validTransforms.setBit(sceneTransformIndex, 0); for (int i = 0; i < children.size(); ++i) children.at(i)->d_ptr->invalidateSceneTransformCache(); } QGraphicsItemCache *QGraphicsItemPrivate::extraItemCache() const { QGraphicsItemCache *c = (QGraphicsItemCache *)qVariantValue(extra(ExtraCacheData)); if (!c) { QGraphicsItemPrivate *that = const_cast(this); c = new QGraphicsItemCache; that->setExtra(ExtraCacheData, qVariantFromValue(c)); } return c; } void QGraphicsItemPrivate::removeExtraItemCache() { QGraphicsItemCache *c = (QGraphicsItemCache *)qVariantValue(extra(ExtraCacheData)); if (c) { c->purge(); delete c; } unsetExtra(ExtraCacheData); } void QGraphicsItemPrivate::setEmptyCachedClipPathRecursively(const QRectF &emptyIfOutsideThisRect) { setEmptyCachedClipPath(); const bool checkRect = !emptyIfOutsideThisRect.isNull() && !(flags & QGraphicsItem::ItemClipsChildrenToShape); for (int i = 0; i < children.size(); ++i) { if (!checkRect) { children.at(i)->d_ptr->setEmptyCachedClipPathRecursively(); continue; } QGraphicsItem *child = children.at(i); const QRectF rect = child->mapRectFromParent(emptyIfOutsideThisRect); if (rect.intersects(child->boundingRect())) child->d_ptr->invalidateCachedClipPathRecursively(false, rect); else child->d_ptr->setEmptyCachedClipPathRecursively(rect); } } void QGraphicsItemPrivate::invalidateCachedClipPathRecursively(bool childrenOnly, const QRectF &emptyIfOutsideThisRect) { if (!childrenOnly) invalidateCachedClipPath(); const bool checkRect = !emptyIfOutsideThisRect.isNull(); for (int i = 0; i < children.size(); ++i) { if (!checkRect) { children.at(i)->d_ptr->invalidateCachedClipPathRecursively(false); continue; } QGraphicsItem *child = children.at(i); const QRectF rect = child->mapRectFromParent(emptyIfOutsideThisRect); if (rect.intersects(child->boundingRect())) child->d_ptr->invalidateCachedClipPathRecursively(false, rect); else child->d_ptr->setEmptyCachedClipPathRecursively(rect); } } void QGraphicsItemPrivate::updateCachedClipPathFromSetPosHelper(const QPointF &newPos) { Q_ASSERT(inSetPosHelper); if (!(ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren)) return; // Not clipped by any ancestor. // Find closest clip ancestor and transform. Q_Q(QGraphicsItem); QTransform thisToParentTransform = hasTransform ? q->transform() * QTransform::fromTranslate(newPos.x(), newPos.y()) : QTransform::fromTranslate(newPos.x(), newPos.y()); QGraphicsItem *clipParent = parent; while (clipParent && !(clipParent->d_ptr->flags & QGraphicsItem::ItemClipsChildrenToShape)) { if (clipParent->d_ptr->hasTransform) thisToParentTransform *= clipParent->transform(); if (!clipParent->d_ptr->pos.isNull()) { thisToParentTransform *= QTransform::fromTranslate(clipParent->d_ptr->pos.x(), clipParent->d_ptr->pos.y()); } clipParent = clipParent->d_ptr->parent; } // thisToParentTransform is now the same as q->itemTransform(clipParent), except // that the new position (which is not yet set on the item) is taken into account. Q_ASSERT(clipParent); Q_ASSERT(clipParent->d_ptr->flags & QGraphicsItem::ItemClipsChildrenToShape); // From here everything is calculated in clip parent's coordinates. const QRectF parentBoundingRect(clipParent->boundingRect()); const QRectF thisBoundingRect(thisToParentTransform.mapRect(q->boundingRect())); if (!parentBoundingRect.intersects(thisBoundingRect)) { // Item is moved outside the clip parent's bounding rect, // i.e. it is fully clipped and the clip path is empty. if (flags & QGraphicsItem::ItemClipsChildrenToShape) setEmptyCachedClipPathRecursively(); else setEmptyCachedClipPathRecursively(thisToParentTransform.inverted().mapRect(parentBoundingRect)); return; } const QPainterPath parentClip(clipParent->isClipped() ? clipParent->clipPath() : clipParent->shape()); if (parentClip.contains(thisBoundingRect)) return; // Item is inside the clip parent's shape. No update required. const QRectF parentClipRect(parentClip.controlPointRect()); if (!parentClipRect.intersects(thisBoundingRect)) { // Item is moved outside the clip parent's shape, // i.e. it is fully clipped and the clip path is empty. if (flags & QGraphicsItem::ItemClipsChildrenToShape) setEmptyCachedClipPathRecursively(); else setEmptyCachedClipPathRecursively(thisToParentTransform.inverted().mapRect(parentClipRect)); } else { // Item is partially inside the clip parent's shape, // i.e. the cached clip path must be invalidated. invalidateCachedClipPathRecursively(false, thisToParentTransform.inverted().mapRect(parentClipRect)); } } /*! \internal Tells us if it is a proxy widget */ bool QGraphicsItemPrivate::isProxyWidget() const { return false; } /*! Schedules a redraw of the area covered by \a rect in this item. You can call this function whenever your item needs to be redrawn, such as if it changes appearance or size. This function does not cause an immediate paint; instead it schedules a paint request that is processed by QGraphicsView after control reaches the event loop. The item will only be redrawn if it is visible in any associated view. As a side effect of the item being repainted, other items that overlap the area \a rect may also be repainted. If the item is invisible (i.e., isVisible() returns false), this function does nothing. \sa paint(), boundingRect() */ void QGraphicsItem::update(const QRectF &rect) { if (rect.isEmpty() && !rect.isNull()) return; if (CacheMode(d_ptr->cacheMode) != NoCache) { QGraphicsItemCache *cache = d_ptr->extraItemCache(); if (d_ptr->discardUpdateRequest(/* ignoreVisibleBit = */ false, /* ignoreClipping = */ false, /* ignoreDirtyBit = */ true)) { return; } // Invalidate cache. if (rect.isNull()) { cache->allExposed = true; cache->exposed.clear(); } else { cache->exposed.append(rect); } // Only invalidate cache; item is already dirty. if (d_ptr->dirty) return; } else if (d_ptr->discardUpdateRequest()) { return; } // Effectively the same as updateHelper(rect); if (rect.isNull()) d_ptr->dirty = 1; d_ptr->scene->itemUpdated(this, rect); } /*! \since 4.4 Scrolls the contents of \a rect by \a dx, \a dy. If \a rect is a null rect (the default), the item's bounding rect is scrolled. Scrolling provides a fast alternative to simply redrawing when the contents of the item (or parts of the item) are shifted vertically or horizontally. Depending on the current transformation and the capabilities of the paint device (i.e., the viewport), this operation may consist of simply moving pixels from one location to another using memmove(). In most cases this is faster than rerendering the entire area. After scrolling, the item will issue an update for the newly exposed areas. If scrolling is not supported (e.g., you are rendering to an OpenGL viewport, which does not benefit from scroll optimizations), this function is equivalent to calling update(\a rect). \sa boundingRect() */ void QGraphicsItem::scroll(qreal dx, qreal dy, const QRectF &rect) { Q_D(QGraphicsItem); if (dx == 0.0 && dy == 0.0) return; if (!d->scene) return; if (d->cacheMode != NoCache) { // ### This is very slow, and can be done much better. If the cache is // local and matches the below criteria for rotation and scaling, we // can easily scroll. And if the cache is in device coordinates, we // can scroll both the viewport and the cache. update(rect); return; } QRectF scrollRect = !rect.isNull() ? rect : boundingRect(); int couldntScroll = d->scene->views().size(); foreach (QGraphicsView *view, d->scene->views()) { if (view->viewport()->inherits("QGLWidget")) { // ### Please replace with a widget attribute; any widget that // doesn't support partial updates / doesn't support scrolling // should be skipped in this code. Qt::WA_NoPartialUpdates or so. continue; } static const QLineF up(0, 0, 0, -1); static const QLineF down(0, 0, 0, 1); static const QLineF left(0, 0, -1, 0); static const QLineF right(0, 0, 1, 0); QTransform deviceTr; if (d->itemIsUntransformable()) { deviceTr = deviceTransform(view->viewportTransform()); } else { deviceTr = sceneTransform() * view->viewportTransform(); } QRect deviceScrollRect = deviceTr.mapRect(scrollRect).toRect(); QLineF v1 = deviceTr.map(right); QLineF v2 = deviceTr.map(down); QLineF u1 = v1.unitVector(); u1.translate(-v1.p1()); QLineF u2 = v2.unitVector(); u2.translate(-v2.p1()); bool noScroll = false; // Check if the delta resolves to ints in device space. QPointF deviceDelta = deviceTr.map(QPointF(dx, dy)); if ((deviceDelta.x() - int(deviceDelta.x())) || (deviceDelta.y() - int(deviceDelta.y()))) { noScroll = true; } else { // Check if the unit vectors have no fraction in device space. qreal v1l = v1.length(); if (v1l - int(v1l)) { noScroll = true; } else { dx *= v1.length(); } qreal v2l = v2.length(); if (v2l - int(v2l)) { noScroll = true; } else { dy *= v2.length(); } } if (!noScroll) { if (u1 == right) { if (u2 == up) { // flipped dy = -dy; } else if (u2 == down) { // normal } else { noScroll = true; } } else if (u1 == left) { if (u2 == up) { // mirrored & flipped / rotated 180 degrees dx = -dx; dy = -dy; } else if (u2 == down) { // mirrored dx = -dx; } else { noScroll = true; } } else if (u1 == up) { if (u2 == left) { // rotated -90 & mirrored qreal tmp = dy; dy = -dx; dx = -tmp; } else if (u2 == right) { // rotated -90 qreal tmp = dy; dy = -dx; dx = tmp; } else { noScroll = true; } } else if (u1 == down) { if (u2 == left) { // rotated 90 qreal tmp = dy; dy = dx; dx = -tmp; } else if (u2 == right) { // rotated 90 & mirrored qreal tmp = dy; dy = dx; dx = tmp; } else { noScroll = true; } } } if (!noScroll) { view->viewport()->scroll(int(dx), int(dy), deviceScrollRect); --couldntScroll; } } if (couldntScroll) update(rect); } /*! \fn void QGraphicsItem::update(qreal x, qreal y, qreal width, qreal height) \overload This convenience function is equivalent to calling update(QRectF(\a x, \a y, \a width, \a height)). */ /*! Maps the point \a point, which is in this item's coordinate system, to \a item's coordinate system, and returns the mapped coordinate. If \a item is 0, this function returns the same as mapToScene(). \sa itemTransform(), mapToParent(), mapToScene(), transform(), mapFromItem(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::mapToItem(const QGraphicsItem *item, const QPointF &point) const { if (item) return itemTransform(item).map(point); return mapToScene(point); } /*! \fn QPointF QGraphicsItem::mapToItem(const QGraphicsItem *item, qreal x, qreal y) const \overload This convenience function is equivalent to calling mapToItem(\a item, QPointF(\a x, \a y)). */ /*! Maps the point \a point, which is in this item's coordinate system, to its parent's coordinate system, and returns the mapped coordinate. If the item has no parent, \a point will be mapped to the scene's coordinate system. \sa mapToItem(), mapToScene(), transform(), mapFromParent(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::mapToParent(const QPointF &point) const { return d_ptr->pos + (d_ptr->hasTransform ? transform().map(point) : point); } /*! \fn QPointF QGraphicsItem::mapToParent(qreal x, qreal y) const \overload This convenience function is equivalent to calling mapToParent(QPointF(\a x, \a y)). */ /*! Maps the point \a point, which is in this item's coordinate system, to the scene's coordinate system, and returns the mapped coordinate. \sa mapToItem(), mapToParent(), transform(), mapFromScene(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::mapToScene(const QPointF &point) const { return sceneTransform().map(point); } /*! \fn QPointF QGraphicsItem::mapToScene(qreal x, qreal y) const \overload This convenience function is equivalent to calling mapToScene(QPointF(\a x, \a y)). */ /*! Maps the rectangle \a rect, which is in this item's coordinate system, to \a item's coordinate system, and returns the mapped rectangle as a polygon. If \a item is 0, this function returns the same as mapToScene(). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapToItem(const QGraphicsItem *item, const QRectF &rect) const { if (item) return itemTransform(item).map(rect); return mapToScene(rect); } /*! \fn QPolygonF QGraphicsItem::mapToItem(const QGraphicsItem *item, qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling mapToItem(item, QRectF(\a x, \a y, \a w, \a h)). */ /*! Maps the rectangle \a rect, which is in this item's coordinate system, to its parent's coordinate system, and returns the mapped rectangle as a polygon. If the item has no parent, \a rect will be mapped to the scene's coordinate system. \sa mapToScene(), mapToItem(), mapFromParent(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapToParent(const QRectF &rect) const { QPolygonF p = !d_ptr->hasTransform ? rect : transform().map(rect); p.translate(d_ptr->pos); return p; } /*! \fn QPolygonF QGraphicsItem::mapToParent(qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling mapToParent(QRectF(\a x, \a y, \a w, \a h)). */ /*! Maps the rectangle \a rect, which is in this item's coordinate system, to the scene's coordinate system, and returns the mapped rectangle as a polygon. \sa mapToParent(), mapToItem(), mapFromScene(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapToScene(const QRectF &rect) const { return sceneTransform().map(rect); } /*! \fn QPolygonF QGraphicsItem::mapToScene(qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling mapToScene(QRectF(\a x, \a y, \a w, \a h)). */ /*! \since 4.5 Maps the rectangle \a rect, which is in this item's coordinate system, to \a item's coordinate system, and returns the mapped rectangle as a new rectangle (i.e., the bounding rectangle of the resulting polygon). If \a item is 0, this function returns the same as mapRectToScene(). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::mapRectToItem(const QGraphicsItem *item, const QRectF &rect) const { if (item) return itemTransform(item).mapRect(rect); return mapRectToScene(rect); } /*! \fn QRectF QGraphicsItem::mapRectToItem(const QGraphicsItem *item, qreal x, qreal y, qreal w, qreal h) const \since 4.5 This convenience function is equivalent to calling mapRectToItem(item, QRectF(\a x, \a y, \a w, \a h)). */ /*! \since 4.5 Maps the rectangle \a rect, which is in this item's coordinate system, to its parent's coordinate system, and returns the mapped rectangle as a new rectangle (i.e., the bounding rectangle of the resulting polygon). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::mapRectToParent(const QRectF &rect) const { QRectF r = !d_ptr->hasTransform ? rect : transform().mapRect(rect); return r.translated(d_ptr->pos); } /*! \fn QRectF QGraphicsItem::mapRectToParent(qreal x, qreal y, qreal w, qreal h) const \since 4.5 This convenience function is equivalent to calling mapRectToParent(QRectF(\a x, \a y, \a w, \a h)). */ /*! \since 4.5 Maps the rectangle \a rect, which is in this item's coordinate system, to the scene coordinate system, and returns the mapped rectangle as a new rectangle (i.e., the bounding rectangle of the resulting polygon). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::mapRectToScene(const QRectF &rect) const { return sceneTransform().mapRect(rect); } /*! \fn QRectF QGraphicsItem::mapRectToScene(qreal x, qreal y, qreal w, qreal h) const \since 4.5 This convenience function is equivalent to calling mapRectToScene(QRectF(\a x, \a y, \a w, \a h)). */ /*! \since 4.5 Maps the rectangle \a rect, which is in \a item's coordinate system, to this item's coordinate system, and returns the mapped rectangle as a new rectangle (i.e., the bounding rectangle of the resulting polygon). If \a item is 0, this function returns the same as mapRectFromScene(). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::mapRectFromItem(const QGraphicsItem *item, const QRectF &rect) const { if (item) return item->itemTransform(this).mapRect(rect); return mapRectFromScene(rect); } /*! \fn QRectF QGraphicsItem::mapRectFromItem(const QGraphicsItem *item, qreal x, qreal y, qreal w, qreal h) const \since 4.5 This convenience function is equivalent to calling mapRectFromItem(item, QRectF(\a x, \a y, \a w, \a h)). */ /*! \since 4.5 Maps the rectangle \a rect, which is in this item's parent's coordinate system, to this item's coordinate system, and returns the mapped rectangle as a new rectangle (i.e., the bounding rectangle of the resulting polygon). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::mapRectFromParent(const QRectF &rect) const { QRectF r = rect.translated(-d_ptr->pos); return d_ptr->hasTransform ? transform().inverted().mapRect(r) : r; } /*! \fn QRectF QGraphicsItem::mapRectFromParent(qreal x, qreal y, qreal w, qreal h) const \since 4.5 This convenience function is equivalent to calling mapRectFromParent(QRectF(\a x, \a y, \a w, \a h)). */ /*! \since 4.5 Maps the rectangle \a rect, which is in scene coordinates, to this item's coordinate system, and returns the mapped rectangle as a new rectangle (i.e., the bounding rectangle of the resulting polygon). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QRectF QGraphicsItem::mapRectFromScene(const QRectF &rect) const { return sceneTransform().inverted().mapRect(rect); } /*! \fn QRectF QGraphicsItem::mapRectFromScene(qreal x, qreal y, qreal w, qreal h) const \since 4.5 This convenience function is equivalent to calling mapRectFromScene(QRectF(\a x, \a y, \a w, \a h)). */ /*! Maps the polygon \a polygon, which is in this item's coordinate system, to \a item's coordinate system, and returns the mapped polygon. If \a item is 0, this function returns the same as mapToScene(). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapToItem(const QGraphicsItem *item, const QPolygonF &polygon) const { if (item) return itemTransform(item).map(polygon); return mapToScene(polygon); } /*! Maps the polygon \a polygon, which is in this item's coordinate system, to its parent's coordinate system, and returns the mapped polygon. If the item has no parent, \a polygon will be mapped to the scene's coordinate system. \sa mapToScene(), mapToItem(), mapFromParent(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapToParent(const QPolygonF &polygon) const { QPolygonF p = !d_ptr->hasTransform ? polygon : transform().map(polygon); p.translate(d_ptr->pos); return p; } /*! Maps the polygon \a polygon, which is in this item's coordinate system, to the scene's coordinate system, and returns the mapped polygon. \sa mapToParent(), mapToItem(), mapFromScene(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapToScene(const QPolygonF &polygon) const { return sceneTransform().map(polygon); } /*! Maps the path \a path, which is in this item's coordinate system, to \a item's coordinate system, and returns the mapped path. If \a item is 0, this function returns the same as mapToScene(). \sa itemTransform(), mapToParent(), mapToScene(), mapFromItem(), {The Graphics View Coordinate System} */ QPainterPath QGraphicsItem::mapToItem(const QGraphicsItem *item, const QPainterPath &path) const { if (item) return itemTransform(item).map(path); return mapToScene(path); } /*! Maps the path \a path, which is in this item's coordinate system, to its parent's coordinate system, and returns the mapped path. If the item has no parent, \a path will be mapped to the scene's coordinate system. \sa mapToScene(), mapToItem(), mapFromParent(), {The Graphics View Coordinate System} */ QPainterPath QGraphicsItem::mapToParent(const QPainterPath &path) const { QTransform x = QTransform::fromTranslate(d_ptr->pos.x(), d_ptr->pos.y()); if (d_ptr->hasTransform) x = transform() * x; return x.map(path); } /*! Maps the path \a path, which is in this item's coordinate system, to the scene's coordinate system, and returns the mapped path. \sa mapToParent(), mapToItem(), mapFromScene(), {The Graphics View Coordinate System} */ QPainterPath QGraphicsItem::mapToScene(const QPainterPath &path) const { return sceneTransform().map(path); } /*! Maps the point \a point, which is in \a item's coordinate system, to this item's coordinate system, and returns the mapped coordinate. If \a item is 0, this function returns the same as mapFromScene(). \sa itemTransform(), mapFromParent(), mapFromScene(), transform(), mapToItem(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::mapFromItem(const QGraphicsItem *item, const QPointF &point) const { if (item) return item->itemTransform(this).map(point); return mapFromScene(point); } /*! \fn QPointF QGraphicsItem::mapFromItem(const QGraphicsItem *item, qreal x, qreal y) const \overload This convenience function is equivalent to calling mapFromItem(\a item, QPointF(\a x, \a y)). */ /*! Maps the point \a point, which is in this item's parent's coordinate system, to this item's coordinate system, and returns the mapped coordinate. \sa mapFromItem(), mapFromScene(), transform(), mapToParent(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::mapFromParent(const QPointF &point) const { if (d_ptr->hasTransform) return transform().inverted().map(point - d_ptr->pos); return point - d_ptr->pos; } /*! \fn QPointF QGraphicsItem::mapFromParent(qreal x, qreal y) const \overload This convenience function is equivalent to calling mapFromParent(QPointF(\a x, \a y)). */ /*! Maps the point \a point, which is in this item's scene's coordinate system, to this item's coordinate system, and returns the mapped coordinate. \sa mapFromItem(), mapFromParent(), transform(), mapToScene(), {The Graphics View Coordinate System} */ QPointF QGraphicsItem::mapFromScene(const QPointF &point) const { return sceneTransform().inverted().map(point); } /*! \fn QPointF QGraphicsItem::mapFromScene(qreal x, qreal y) const \overload This convenience function is equivalent to calling mapFromScene(QPointF(\a x, \a y)). */ /*! Maps the rectangle \a rect, which is in \a item's coordinate system, to this item's coordinate system, and returns the mapped rectangle as a polygon. If \a item is 0, this function returns the same as mapFromScene() \sa itemTransform(), mapToItem(), mapFromParent(), transform(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapFromItem(const QGraphicsItem *item, const QRectF &rect) const { if (item) return item->itemTransform(this).map(rect); return mapFromScene(rect); } /*! \fn QPolygonF QGraphicsItem::mapFromItem(const QGraphicsItem *item, qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling mapFromItem(item, QRectF(\a x, \a y, \a w, \a h)). */ /*! Maps the rectangle \a rect, which is in this item's parent's coordinate system, to this item's coordinate system, and returns the mapped rectangle as a polygon. \sa mapToParent(), mapFromItem(), transform(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapFromParent(const QRectF &rect) const { QRectF r = rect.translated(-d_ptr->pos); return d_ptr->hasTransform ? transform().inverted().map(r) : r; } /*! \fn QPolygonF QGraphicsItem::mapFromParent(qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling mapFromItem(QRectF(\a x, \a y, \a w, \a h)). */ /*! Maps the rectangle \a rect, which is in this item's scene's coordinate system, to this item's coordinate system, and returns the mapped rectangle as a polygon. \sa mapToScene(), mapFromItem(), transform(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapFromScene(const QRectF &rect) const { return sceneTransform().inverted().map(rect); } /*! \fn QPolygonF QGraphicsItem::mapFromScene(qreal x, qreal y, qreal w, qreal h) const \since 4.3 This convenience function is equivalent to calling mapFromScene(QRectF(\a x, \a y, \a w, \a h)). */ /*! Maps the polygon \a polygon, which is in \a item's coordinate system, to this item's coordinate system, and returns the mapped polygon. If \a item is 0, this function returns the same as mapFromScene(). \sa itemTransform(), mapToItem(), mapFromParent(), transform(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapFromItem(const QGraphicsItem *item, const QPolygonF &polygon) const { if (item) return item->itemTransform(this).map(polygon); return mapFromScene(polygon); } /*! Maps the polygon \a polygon, which is in this item's parent's coordinate system, to this item's coordinate system, and returns the mapped polygon. \sa mapToParent(), mapToItem(), transform(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapFromParent(const QPolygonF &polygon) const { QPolygonF p = polygon; p.translate(-d_ptr->pos); return d_ptr->hasTransform ? transform().inverted().map(p) : p; } /*! Maps the polygon \a polygon, which is in this item's scene's coordinate system, to this item's coordinate system, and returns the mapped polygon. \sa mapToScene(), mapFromParent(), transform(), {The Graphics View Coordinate System} */ QPolygonF QGraphicsItem::mapFromScene(const QPolygonF &polygon) const { return sceneTransform().inverted().map(polygon); } /*! Maps the path \a path, which is in \a item's coordinate system, to this item's coordinate system, and returns the mapped path. If \a item is 0, this function returns the same as mapFromScene(). \sa itemTransform(), mapFromParent(), mapFromScene(), mapToItem(), {The Graphics View Coordinate System} */ QPainterPath QGraphicsItem::mapFromItem(const QGraphicsItem *item, const QPainterPath &path) const { if (item) return item->itemTransform(this).map(path); return mapFromScene(path); } /*! Maps the path \a path, which is in this item's parent's coordinate system, to this item's coordinate system, and returns the mapped path. \sa mapFromScene(), mapFromItem(), mapToParent(), {The Graphics View Coordinate System} */ QPainterPath QGraphicsItem::mapFromParent(const QPainterPath &path) const { if (d_ptr->parent) return d_ptr->parent->itemTransform(this).map(path); return mapFromScene(path); } /*! Maps the path \a path, which is in this item's scene's coordinate system, to this item's coordinate system, and returns the mapped path. \sa mapFromParent(), mapFromItem(), mapToScene(), {The Graphics View Coordinate System} */ QPainterPath QGraphicsItem::mapFromScene(const QPainterPath &path) const { return sceneTransform().inverted().map(path); } /*! Returns true if this item is an ancestor of \a child (i.e., if this item is \a child's parent, or one of \a child's parent's ancestors). \sa parentItem() */ bool QGraphicsItem::isAncestorOf(const QGraphicsItem *child) const { if (!child || child == this) return false; const QGraphicsItem *ancestor = child; while ((ancestor = ancestor->d_ptr->parent)) { if (ancestor == this) return true; } return false; } /*! \since 4.4 Returns the closest common ancestor item of this item and \a other, or 0 if either \a other is 0, or there is no common ancestor. \sa isAncestorOf() */ QGraphicsItem *QGraphicsItem::commonAncestorItem(const QGraphicsItem *other) const { if (!other) return 0; if (other == this) return const_cast(this); const QGraphicsItem *thisw = this; const QGraphicsItem *otherw = other; int thisDepth = d_ptr->depth; int otherDepth = other->d_ptr->depth; while (thisDepth > otherDepth) { thisw = thisw->d_ptr->parent; --thisDepth; } while (otherDepth > thisDepth) { otherw = otherw->d_ptr->parent; --otherDepth; } while (thisw && thisw != otherw) { thisw = thisw->d_ptr->parent; otherw = otherw->d_ptr->parent; } return const_cast(thisw); } /*! \since 4,4 Returns true if this item is currently under the mouse cursor in one of the views; otherwise, false is returned. \sa QGraphicsScene::views(), QCursor::pos() */ bool QGraphicsItem::isUnderMouse() const { Q_D(const QGraphicsItem); if (!d->scene) return false; QPoint cursorPos = QCursor::pos(); foreach (QGraphicsView *view, d->scene->views()) { if (contains(mapFromScene(view->mapToScene(view->mapFromGlobal(cursorPos))))) return true; } return false; } /*! Returns this item's custom data for the key \a key as a QVariant. Custom item data is useful for storing arbitrary properties in any item. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 11 Qt does not use this feature for storing data; it is provided solely for the convenience of the user. \sa setData() */ QVariant QGraphicsItem::data(int key) const { QGraphicsItemCustomDataStore *store = qt_dataStore(); if (!store->data.contains(this)) return QVariant(); return store->data.value(this).value(key); } /*! Sets this item's custom data for the key \a key to \a value. Custom item data is useful for storing arbitrary properties for any item. Qt does not use this feature for storing data; it is provided solely for the convenience of the user. \sa data() */ void QGraphicsItem::setData(int key, const QVariant &value) { qt_dataStore()->data[this][key] = value; } /*! \fn T qgraphicsitem_cast(QGraphicsItem *item) \relates QGraphicsItem \since 4.2 Returns the given \a item cast to type T if \a item is of type T; otherwise, 0 is returned. \note To make this function work correctly with custom items, reimplement the \l{QGraphicsItem::}{type()} function for each custom QGraphicsItem subclass. \sa QGraphicsItem::type(), QGraphicsItem::UserType */ /*! Returns the type of an item as an int. All standard graphicsitem classes are associated with a unique value; see QGraphicsItem::Type. This type information is used by qgraphicsitem_cast() to distinguish between types. The default implementation (in QGraphicsItem) returns UserType. To enable use of qgraphicsitem_cast() with a custom item, reimplement this function and declare a Type enum value equal to your custom item's type. Custom items must return a value larger than or equal to UserType (65536). For example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp QGraphicsItem type \sa UserType */ int QGraphicsItem::type() const { return (int)UserType; } /*! Installs an event filter for this item on \a filterItem, causing all events for this item to first pass through \a filterItem's sceneEventFilter() function. To filter another item's events, install this item as an event filter for the other item. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 12 An item can only filter events for other items in the same scene. Also, an item cannot filter its own events; instead, you can reimplement sceneEvent() directly. Items must belong to a scene for scene event filters to be installed and used. \sa removeSceneEventFilter(), sceneEventFilter(), sceneEvent() */ void QGraphicsItem::installSceneEventFilter(QGraphicsItem *filterItem) { if (!d_ptr->scene) { qWarning("QGraphicsItem::installSceneEventFilter: event filters can only be installed" " on items in a scene."); return; } if (d_ptr->scene != filterItem->scene()) { qWarning("QGraphicsItem::installSceneEventFilter: event filters can only be installed" " on items in the same scene."); return; } d_ptr->scene->d_func()->installSceneEventFilter(this, filterItem); } /*! Removes an event filter on this item from \a filterItem. \sa installSceneEventFilter() */ void QGraphicsItem::removeSceneEventFilter(QGraphicsItem *filterItem) { if (!d_ptr->scene || d_ptr->scene != filterItem->scene()) return; d_ptr->scene->d_func()->removeSceneEventFilter(this, filterItem); } /*! Filters events for the item \a watched. \a event is the filtered event. Reimplementing this function in a subclass makes it possible for the item to be used as an event filter for other items, intercepting all the events send to those items before they are able to respond. Reimplementations must return true to prevent further processing of a given event, ensuring that it will not be delivered to the watched item, or return false to indicate that the event should be propagated further by the event system. \sa installSceneEventFilter() */ bool QGraphicsItem::sceneEventFilter(QGraphicsItem *watched, QEvent *event) { Q_UNUSED(watched); Q_UNUSED(event); return false; } /*! This virtual function receives events to this item. Reimplement this function to intercept events before they are dispatched to the specialized event handlers contextMenuEvent(), focusInEvent(), focusOutEvent(), hoverEnterEvent(), hoverMoveEvent(), hoverLeaveEvent(), keyPressEvent(), keyReleaseEvent(), mousePressEvent(), mouseReleaseEvent(), mouseMoveEvent(), and mouseDoubleClickEvent(). Returns true if the event was recognized and handled; otherwise, (e.g., if the event type was not recognized,) false is returned. \a event is the intercepted event. */ bool QGraphicsItem::sceneEvent(QEvent *event) { if (d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorHandlesChildEvents) { if (event->type() == QEvent::HoverEnter || event->type() == QEvent::HoverLeave || event->type() == QEvent::DragEnter || event->type() == QEvent::DragLeave) { // Hover enter and hover leave events for children are ignored; // hover move events are forwarded. return true; } QGraphicsItem *handler = this; do { handler = handler->d_ptr->parent; Q_ASSERT(handler); } while (handler->d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorHandlesChildEvents); // Forward the event to the closest parent that handles child // events, mapping existing item-local coordinates to its // coordinate system. d_ptr->remapItemPos(event, handler); handler->sceneEvent(event); return true; } if (!d_ptr->visible) { // Eaten return true; } switch (event->type()) { case QEvent::FocusIn: focusInEvent(static_cast(event)); break; case QEvent::FocusOut: focusOutEvent(static_cast(event)); break; case QEvent::GraphicsSceneContextMenu: contextMenuEvent(static_cast(event)); break; case QEvent::GraphicsSceneDragEnter: dragEnterEvent(static_cast(event)); break; case QEvent::GraphicsSceneDragMove: dragMoveEvent(static_cast(event)); break; case QEvent::GraphicsSceneDragLeave: dragLeaveEvent(static_cast(event)); break; case QEvent::GraphicsSceneDrop: dropEvent(static_cast(event)); break; case QEvent::GraphicsSceneHoverEnter: hoverEnterEvent(static_cast(event)); break; case QEvent::GraphicsSceneHoverMove: hoverMoveEvent(static_cast(event)); break; case QEvent::GraphicsSceneHoverLeave: hoverLeaveEvent(static_cast(event)); break; case QEvent::GraphicsSceneMouseMove: mouseMoveEvent(static_cast(event)); break; case QEvent::GraphicsSceneMousePress: mousePressEvent(static_cast(event)); break; case QEvent::GraphicsSceneMouseRelease: mouseReleaseEvent(static_cast(event)); break; case QEvent::GraphicsSceneMouseDoubleClick: mouseDoubleClickEvent(static_cast(event)); break; case QEvent::GraphicsSceneWheel: wheelEvent(static_cast(event)); break; case QEvent::KeyPress: { QKeyEvent *k = static_cast(event); if (k->key() == Qt::Key_Tab || k->key() == Qt::Key_Backtab) { if (!(k->modifiers() & (Qt::ControlModifier | Qt::AltModifier))) { //### Add MetaModifier? bool res = false; if (k->key() == Qt::Key_Backtab || (k->key() == Qt::Key_Tab && (k->modifiers() & Qt::ShiftModifier))) { if (d_ptr->isWidget) { res = static_cast(this)->focusNextPrevChild(false); } else if (d_ptr->scene) { res = d_ptr->scene->focusNextPrevChild(false); } } else if (k->key() == Qt::Key_Tab) { if (d_ptr->isWidget) { res = static_cast(this)->focusNextPrevChild(true); } else if (d_ptr->scene) { res = d_ptr->scene->focusNextPrevChild(true); } } if (!res) event->ignore(); return true; } } keyPressEvent(static_cast(event)); break; } case QEvent::KeyRelease: keyReleaseEvent(static_cast(event)); break; case QEvent::InputMethod: inputMethodEvent(static_cast(event)); break; default: return false; } return true; } /*! This event handler can be reimplemented in a subclass to process context menu events. The \a event parameter contains details about the event to be handled. If you ignore the event, (i.e., by calling QEvent::ignore(),) \a event will propagate to any item beneath this item. If no items accept the event, it will be ignored by the scene, and propagate to the view. It's common to open a QMenu in response to receiving a context menu event. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 13 The default implementation ignores the event. \sa sceneEvent() */ void QGraphicsItem::contextMenuEvent(QGraphicsSceneContextMenuEvent *event) { event->ignore(); } /*! This event handler, for event \a event, can be reimplemented to receive drag enter events for this item. Drag enter events are generated as the cursor enters the item's area. By accepting the event, (i.e., by calling QEvent::accept(),) the item will accept drop events, in addition to receiving drag move and drag leave. Otherwise, the event will be ignored and propagate to the item beneath. If the event is accepted, the item will receive a drag move event before control goes back to the event loop. A common implementation of dragEnterEvent accepts or ignores \a event depending on the associated mime data in \a event. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 14 Items do not receive drag and drop events by default; to enable this feature, call \c setAcceptDrops(true). The default implementation does nothing. \sa dropEvent(), dragMoveEvent(), dragLeaveEvent() */ void QGraphicsItem::dragEnterEvent(QGraphicsSceneDragDropEvent *event) { Q_D(QGraphicsItem); // binary compatibility workaround between 4.4 and 4.5 if (d->isProxyWidget()) static_cast(this)->dragEnterEvent(event); } /*! This event handler, for event \a event, can be reimplemented to receive drag leave events for this item. Drag leave events are generated as the cursor leaves the item's area. Most often you will not need to reimplement this function, but it can be useful for resetting state in your item (e.g., highlighting). Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. Items do not receive drag and drop events by default; to enable this feature, call \c setAcceptDrops(true). The default implementation does nothing. \sa dragEnterEvent(), dropEvent(), dragMoveEvent() */ void QGraphicsItem::dragLeaveEvent(QGraphicsSceneDragDropEvent *event) { Q_D(QGraphicsItem); // binary compatibility workaround between 4.4 and 4.5 if (d->isProxyWidget()) static_cast(this)->dragLeaveEvent(event); } /*! This event handler, for event \a event, can be reimplemented to receive drag move events for this item. Drag move events are generated as the cursor moves around inside the item's area. Most often you will not need to reimplement this function; it is used to indicate that only parts of the item can accept drops. Calling QEvent::ignore() or QEvent::accept() on \a event toggles whether or not the item will accept drops at the position from the event. By default, \a event is accepted, indicating that the item allows drops at the specified position. Items do not receive drag and drop events by default; to enable this feature, call \c setAcceptDrops(true). The default implementation does nothing. \sa dropEvent(), dragEnterEvent(), dragLeaveEvent() */ void QGraphicsItem::dragMoveEvent(QGraphicsSceneDragDropEvent *event) { Q_D(QGraphicsItem); // binary compatibility workaround between 4.4 and 4.5 if (d->isProxyWidget()) static_cast(this)->dragMoveEvent(event); } /*! This event handler, for event \a event, can be reimplemented to receive drop events for this item. Items can only receive drop events if the last drag move event was accepted. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. Items do not receive drag and drop events by default; to enable this feature, call \c setAcceptDrops(true). The default implementation does nothing. \sa dragEnterEvent(), dragMoveEvent(), dragLeaveEvent() */ void QGraphicsItem::dropEvent(QGraphicsSceneDragDropEvent *event) { Q_D(QGraphicsItem); // binary compatibility workaround between 4.4 and 4.5 if (d->isProxyWidget()) static_cast(this)->dropEvent(event); } /*! This event handler, for event \a event, can be reimplemented to receive focus in events for this item. The default implementation calls ensureVisible(). \sa focusOutEvent(), sceneEvent() */ void QGraphicsItem::focusInEvent(QFocusEvent *event) { Q_UNUSED(event); } /*! This event handler, for event \a event, can be reimplemented to receive focus out events for this item. The default implementation does nothing. \sa focusInEvent(), sceneEvent() */ void QGraphicsItem::focusOutEvent(QFocusEvent *event) { Q_UNUSED(event); } /*! This event handler, for event \a event, can be reimplemented to receive hover enter events for this item. The default implementation calls update(); otherwise it does nothing. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. \sa hoverMoveEvent(), hoverLeaveEvent(), sceneEvent(), setAcceptHoverEvents() */ void QGraphicsItem::hoverEnterEvent(QGraphicsSceneHoverEvent *event) { Q_UNUSED(event); d_ptr->updateHelper(); } /*! This event handler, for event \a event, can be reimplemented to receive hover move events for this item. The default implementation does nothing. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. \sa hoverEnterEvent(), hoverLeaveEvent(), sceneEvent(), setAcceptHoverEvents() */ void QGraphicsItem::hoverMoveEvent(QGraphicsSceneHoverEvent *event) { Q_UNUSED(event); } /*! This event handler, for event \a event, can be reimplemented to receive hover leave events for this item. The default implementation calls update(); otherwise it does nothing. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. \sa hoverEnterEvent(), hoverMoveEvent(), sceneEvent(), setAcceptHoverEvents() */ void QGraphicsItem::hoverLeaveEvent(QGraphicsSceneHoverEvent *event) { Q_UNUSED(event); d_ptr->updateHelper(); } /*! This event handler, for event \a event, can be reimplemented to receive key press events for this item. The default implementation ignores the event. If you reimplement this handler, the event will by default be accepted. Note that key events are only received for items that set the ItemIsFocusable flag, and that have keyboard input focus. \sa keyReleaseEvent(), setFocus(), QGraphicsScene::setFocusItem(), sceneEvent() */ void QGraphicsItem::keyPressEvent(QKeyEvent *event) { event->ignore(); } /*! This event handler, for event \a event, can be reimplemented to receive key release events for this item. The default implementation ignores the event. If you reimplement this handler, the event will by default be accepted. Note that key events are only received for items that set the ItemIsFocusable flag, and that have keyboard input focus. \sa keyPressEvent(), setFocus(), QGraphicsScene::setFocusItem(), sceneEvent() */ void QGraphicsItem::keyReleaseEvent(QKeyEvent *event) { event->ignore(); } /*! This event handler, for event \a event, can be reimplemented to receive mouse press events for this item. Mouse press events are only delivered to items that accept the mouse button that is pressed. By default, an item accepts all mouse buttons, but you can change this by calling setAcceptedMouseButtons(). The mouse press event decides which item should become the mouse grabber (see QGraphicsScene::mouseGrabberItem()). If you do not reimplement this function, the press event will propagate to any topmost item beneath this item, and no other mouse events will be delivered to this item. If you do reimplement this function, \a event will by default be accepted (see QEvent::accept()), and this item is then the mouse grabber. This allows the item to receive future move, release and doubleclick events. If you call QEvent::ignore() on \a event, this item will lose the mouse grab, and \a event will propagate to any topmost item beneath. No further mouse events will be delivered to this item unless a new mouse press event is received. The default implementation handles basic item interaction, such as selection and moving. If you want to keep the base implementation when reimplementing this function, call QGraphicsItem::mousePressEvent() in your reimplementation. The event is \l{QEvent::ignore()}d for items that are neither \l{QGraphicsItem::ItemIsMovable}{movable} nor \l{QGraphicsItem::ItemIsSelectable}{selectable}. \sa mouseMoveEvent(), mouseReleaseEvent(), mouseDoubleClickEvent(), sceneEvent() */ void QGraphicsItem::mousePressEvent(QGraphicsSceneMouseEvent *event) { if (event->button() == Qt::LeftButton && (flags() & ItemIsSelectable)) { bool multiSelect = (event->modifiers() & Qt::ControlModifier) != 0; if (!multiSelect) { if (!d_ptr->selected) { if (QGraphicsScene *scene = d_ptr->scene) { ++scene->d_func()->selectionChanging; scene->clearSelection(); --scene->d_func()->selectionChanging; } setSelected(true); } } } else if (!(flags() & ItemIsMovable)) { event->ignore(); } if (d_ptr->isWidget) { // Qt::Popup closes when you click outside. QGraphicsWidget *w = static_cast(this); if (w->windowFlags() & Qt::Popup) { event->accept(); if (!w->rect().contains(event->pos())) w->close(); } } } /*! obsolete */ bool _qt_movableAncestorIsSelected(const QGraphicsItem *item) { const QGraphicsItem *parent = item->parentItem(); return parent && (((parent->flags() & QGraphicsItem::ItemIsMovable) && parent->isSelected()) || _qt_movableAncestorIsSelected(parent)); } bool QGraphicsItemPrivate::movableAncestorIsSelected(const QGraphicsItem *item) { const QGraphicsItem *parent = item->d_ptr->parent; return parent && (((parent->flags() & QGraphicsItem::ItemIsMovable) && parent->isSelected()) || _qt_movableAncestorIsSelected(parent)); } /*! This event handler, for event \a event, can be reimplemented to receive mouse move events for this item. If you do receive this event, you can be certain that this item also received a mouse press event, and that this item is the current mouse grabber. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. The default implementation handles basic item interaction, such as selection and moving. If you want to keep the base implementation when reimplementing this function, call QGraphicsItem::mouseMoveEvent() in your reimplementation. Please note that mousePressEvent() decides which graphics item it is that receives mouse events. See the mousePressEvent() description for details. \sa mousePressEvent(), mouseReleaseEvent(), mouseDoubleClickEvent(), sceneEvent() */ void QGraphicsItem::mouseMoveEvent(QGraphicsSceneMouseEvent *event) { if ((event->buttons() & Qt::LeftButton) && (flags() & ItemIsMovable)) { // Determine the list of items that need to be moved. QList selectedItems; QMap initialPositions; if (d_ptr->scene) { selectedItems = d_ptr->scene->selectedItems(); initialPositions = d_ptr->scene->d_func()->movingItemsInitialPositions; if (initialPositions.isEmpty()) { foreach (QGraphicsItem *item, selectedItems) initialPositions[item] = item->pos(); initialPositions[this] = pos(); } d_ptr->scene->d_func()->movingItemsInitialPositions = initialPositions; } // Find the active view. QGraphicsView *view = 0; if (event->widget()) view = qobject_cast(event->widget()->parentWidget()); // Move all selected items int i = 0; bool movedMe = false; while (i <= selectedItems.size()) { QGraphicsItem *item = 0; if (i < selectedItems.size()) item = selectedItems.at(i); else item = this; if (item == this) { // Slightly clumsy-looking way to ensure that "this" is part // of the list of items to move, this is to avoid allocations // (appending this item to the list of selected items causes a // detach). if (movedMe) break; movedMe = true; } if ((item->flags() & ItemIsMovable) && !QGraphicsItemPrivate::movableAncestorIsSelected(item)) { QPointF currentParentPos; QPointF buttonDownParentPos; if (item->d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorIgnoresTransformations) { // Items whose ancestors ignore transformations need to // map screen coordinates to local coordinates, then map // those to the parent. QTransform viewToItemTransform = (item->deviceTransform(view->viewportTransform())).inverted(); currentParentPos = mapToParent(viewToItemTransform.map(QPointF(view->mapFromGlobal(event->screenPos())))); buttonDownParentPos = mapToParent(viewToItemTransform.map(QPointF(view->mapFromGlobal(event->buttonDownScreenPos(Qt::LeftButton))))); } else if (item->flags() & ItemIgnoresTransformations) { // Root items that ignore transformations need to // calculate their diff by mapping viewport coordinates // directly to parent coordinates. QTransform viewToParentTransform = (item->transform().translate(item->d_ptr->pos.x(), item->d_ptr->pos.y())) * (item->sceneTransform() * view->viewportTransform()).inverted(); currentParentPos = viewToParentTransform.map(QPointF(view->mapFromGlobal(event->screenPos()))); buttonDownParentPos = viewToParentTransform.map(QPointF(view->mapFromGlobal(event->buttonDownScreenPos(Qt::LeftButton)))); } else { // All other items simply map from the scene. currentParentPos = item->mapToParent(item->mapFromScene(event->scenePos())); buttonDownParentPos = item->mapToParent(item->mapFromScene(event->buttonDownScenePos(Qt::LeftButton))); } item->setPos(initialPositions.value(item) + currentParentPos - buttonDownParentPos); if (item->flags() & ItemIsSelectable) item->setSelected(true); } ++i; } } else { event->ignore(); } } /*! This event handler, for event \a event, can be reimplemented to receive mouse release events for this item. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. The default implementation handles basic item interaction, such as selection and moving. If you want to keep the base implementation when reimplementing this function, call QGraphicsItem::mouseReleaseEvent() in your reimplementation. Please note that mousePressEvent() decides which graphics item it is that receives mouse events. See the mousePressEvent() description for details. \sa mousePressEvent(), mouseMoveEvent(), mouseDoubleClickEvent(), sceneEvent() */ void QGraphicsItem::mouseReleaseEvent(QGraphicsSceneMouseEvent *event) { if (flags() & ItemIsSelectable) { bool multiSelect = (event->modifiers() & Qt::ControlModifier) != 0; if (event->scenePos() == event->buttonDownScenePos(Qt::LeftButton)) { // The item didn't move if (multiSelect) { setSelected(!isSelected()); } else { bool selectionChanged = false; if (QGraphicsScene *scene = d_ptr->scene) { ++scene->d_func()->selectionChanging; // Clear everything but this item. Bypass // QGraphicsScene::clearSelection()'s default behavior by // temporarily removing this item from the selection list. if (d_ptr->selected) { scene->d_func()->selectedItems.remove(this); foreach (QGraphicsItem *item, scene->d_func()->selectedItems) { if (item->isSelected()) { selectionChanged = true; break; } } } scene->clearSelection(); if (d_ptr->selected) scene->d_func()->selectedItems.insert(this); --scene->d_func()->selectionChanging; if (selectionChanged) emit d_ptr->scene->selectionChanged(); } setSelected(true); } } } if (d_ptr->scene && !event->buttons()) d_ptr->scene->d_func()->movingItemsInitialPositions.clear(); } /*! This event handler, for event \a event, can be reimplemented to receive mouse doubleclick events for this item. When doubleclicking an item, the item will first receive a mouse press event, followed by a release event (i.e., a click), then a doubleclick event, and finally a release event. Calling QEvent::ignore() or QEvent::accept() on \a event has no effect. The default implementation calls mousePressEvent(). If you want to keep the base implementation when reimplementing this function, call QGraphicsItem::mouseDoubleClickEvent() in your reimplementation. Note that an item will not receive double click events if it is neither \l {QGraphicsItem::ItemIsSelectable}{selectable} nor \l{QGraphicsItem::ItemIsMovable}{movable} (single mouse clicks are ignored in this case, and that stops the generation of double clicks). \sa mousePressEvent(), mouseMoveEvent(), mouseReleaseEvent(), sceneEvent() */ void QGraphicsItem::mouseDoubleClickEvent(QGraphicsSceneMouseEvent *event) { mousePressEvent(event); } /*! This event handler, for event \a event, can be reimplemented to receive wheel events for this item. If you reimplement this function, \a event will be accepted by default. If you ignore the event, (i.e., by calling QEvent::ignore(),) it will propagate to any item beneath this item. If no items accept the event, it will be ignored by the scene, and propagate to the view (e.g., the view's vertical scroll bar). The default implementation ignores the event. \sa sceneEvent() */ void QGraphicsItem::wheelEvent(QGraphicsSceneWheelEvent *event) { event->ignore(); } /*! This event handler, for event \a event, can be reimplemented to receive input method events for this item. The default implementation ignores the event. \sa inputMethodQuery(), sceneEvent() */ void QGraphicsItem::inputMethodEvent(QInputMethodEvent *event) { event->ignore(); } /*! This method is only relevant for input items. It is used by the input method to query a set of properties of the item to be able to support complex input method operations, such as support for surrounding text and reconversions. \a query specifies which property is queried. \sa inputMethodEvent() */ QVariant QGraphicsItem::inputMethodQuery(Qt::InputMethodQuery query) const { if (isWidget()) { // ### Qt 5: Remove. The reimplementation in // QGraphicsProxyWidget solves this problem (but requires a // recompile to take effect). return d_ptr->inputMethodQueryHelper(query); } Q_UNUSED(query); return QVariant(); } /*! This virtual function is called by QGraphicsItem to notify custom items that some part of the item's state changes. By reimplementing this function, your can react to a change, and in some cases, (depending on \a change,) adjustments can be made. \a change is the parameter of the item that is changing. \a value is the new value; the type of the value depends on \a change. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 15 The default implementation does nothing, and returns \a value. Note: Certain QGraphicsItem functions cannot be called in a reimplementation of this function; see the GraphicsItemChange documentation for details. \sa GraphicsItemChange */ QVariant QGraphicsItem::itemChange(GraphicsItemChange change, const QVariant &value) { Q_UNUSED(change); return value; } /*! \internal Note: This is provided as a hook to avoid future problems related to adding virtual functions. */ bool QGraphicsItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal Note: This is provided as a hook to avoid future problems related to adding virtual functions. */ void QGraphicsItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal Note: This is provided as a hook to avoid future problems related to adding virtual functions. */ QVariant QGraphicsItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \internal Adds this item to the scene's index. Called in conjunction with removeFromIndex() to ensure the index bookkeeping is correct when the item's position, transformation or shape changes. */ void QGraphicsItem::addToIndex() { if (d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren) { // ### add to child index only if applicable return; } if (d_ptr->scene) d_ptr->scene->d_func()->addToIndex(this); d_ptr->updateHelper(); } /*! \internal Removes this item from the scene's index. Called in conjunction with addToIndex() to ensure the index bookkeeping is correct when the item's position, transformation or shape changes. */ void QGraphicsItem::removeFromIndex() { if (d_ptr->ancestorFlags & QGraphicsItemPrivate::AncestorClipsChildren) { // ### remove from child index only if applicable return; } d_ptr->updateHelper(); if (d_ptr->scene) d_ptr->scene->d_func()->removeFromIndex(this); } /*! Prepares the item for a geometry change. Call this function before changing the bounding rect of an item to keep QGraphicsScene's index up to date. prepareGeometryChange() will call update() if this is necessary. Example: \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 16 \sa boundingRect() */ void QGraphicsItem::prepareGeometryChange() { if (d_ptr->scene) { d_ptr->updateHelper(QRectF(), false, /*maybeDirtyClipPath=*/!d_ptr->inSetPosHelper); QGraphicsScenePrivate *scenePrivate = d_ptr->scene->d_func(); scenePrivate->removeFromIndex(this); } if (d_ptr->inSetPosHelper) return; if (d_ptr->flags & ItemClipsChildrenToShape) d_ptr->invalidateCachedClipPathRecursively(); else d_ptr->invalidateCachedClipPath(); } /*! \internal Highlights \a item as selected. NOTE: This function is a duplicate of qt_graphicsItem_highlightSelected() in qgraphicssvgitem.cpp! */ static void qt_graphicsItem_highlightSelected( QGraphicsItem *item, QPainter *painter, const QStyleOptionGraphicsItem *option) { const QRectF murect = painter->transform().mapRect(QRectF(0, 0, 1, 1)); if (qFuzzyCompare(qMax(murect.width(), murect.height()) + 1, 1)) return; const QRectF mbrect = painter->transform().mapRect(item->boundingRect()); if (qMin(mbrect.width(), mbrect.height()) < qreal(1.0)) return; qreal itemPenWidth; switch (item->type()) { case QGraphicsEllipseItem::Type: itemPenWidth = static_cast(item)->pen().widthF(); break; case QGraphicsPathItem::Type: itemPenWidth = static_cast(item)->pen().widthF(); break; case QGraphicsPolygonItem::Type: itemPenWidth = static_cast(item)->pen().widthF(); break; case QGraphicsRectItem::Type: itemPenWidth = static_cast(item)->pen().widthF(); break; case QGraphicsSimpleTextItem::Type: itemPenWidth = static_cast(item)->pen().widthF(); break; case QGraphicsLineItem::Type: itemPenWidth = static_cast(item)->pen().widthF(); break; default: itemPenWidth = 1.0; } const qreal pad = itemPenWidth / 2; const qreal penWidth = 0; // cosmetic pen const QColor fgcolor = option->palette.windowText().color(); const QColor bgcolor( // ensure good contrast against fgcolor fgcolor.red() > 127 ? 0 : 255, fgcolor.green() > 127 ? 0 : 255, fgcolor.blue() > 127 ? 0 : 255); painter->setPen(QPen(bgcolor, penWidth, Qt::SolidLine)); painter->setBrush(Qt::NoBrush); painter->drawRect(item->boundingRect().adjusted(pad, pad, -pad, -pad)); painter->setPen(QPen(option->palette.windowText(), 0, Qt::DashLine)); painter->setBrush(Qt::NoBrush); painter->drawRect(item->boundingRect().adjusted(pad, pad, -pad, -pad)); } /*! \class QAbstractGraphicsShapeItem \brief The QAbstractGraphicsShapeItem class provides a common base for all path items. \since 4.2 \ingroup multimedia This class does not fully implement an item by itself; in particular, it does not implement boundingRect() and paint(), which are inherited by QGraphicsItem. You can subclass this item to provide a simple base implementation of accessors for the item's pen and brush. \sa QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsPathItem, QGraphicsPolygonItem, QGraphicsTextItem, QGraphicsLineItem, QGraphicsPixmapItem, {The Graphics View Framework} */ class QAbstractGraphicsShapeItemPrivate : public QGraphicsItemPrivate { Q_DECLARE_PUBLIC(QAbstractGraphicsShapeItem) public: QBrush brush; QPen pen; // Cached bounding rectangle mutable QRectF boundingRect; }; /*! Constructs a QAbstractGraphicsShapeItem. \a parent is passed to QGraphicsItem's constructor. */ QAbstractGraphicsShapeItem::QAbstractGraphicsShapeItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QAbstractGraphicsShapeItemPrivate, parent, scene) { } /*! \internal */ QAbstractGraphicsShapeItem::QAbstractGraphicsShapeItem(QAbstractGraphicsShapeItemPrivate &dd, QGraphicsItem *parent, QGraphicsScene *scene) : QGraphicsItem(dd, parent, scene) { } /*! Destroys a QAbstractGraphicsShapeItem. */ QAbstractGraphicsShapeItem::~QAbstractGraphicsShapeItem() { } /*! Returns the item's pen. If no pen has been set, this function returns QPen(), a default black solid line pen with 0 width. */ QPen QAbstractGraphicsShapeItem::pen() const { Q_D(const QAbstractGraphicsShapeItem); return d->pen; } /*! Sets the pen for this item to \a pen. The pen is used to draw the item's outline. \sa pen() */ void QAbstractGraphicsShapeItem::setPen(const QPen &pen) { Q_D(QAbstractGraphicsShapeItem); prepareGeometryChange(); d->pen = pen; d->boundingRect = QRectF(); update(); } /*! Returns the item's brush, or an empty brush if no brush has been set. \sa setBrush() */ QBrush QAbstractGraphicsShapeItem::brush() const { Q_D(const QAbstractGraphicsShapeItem); return d->brush; } /*! Sets the item's brush to \a brush. The item's brush is used to fill the item. If you use a brush with a QGradient, the gradient is relative to the item's coordinate system. \sa brush() */ void QAbstractGraphicsShapeItem::setBrush(const QBrush &brush) { Q_D(QAbstractGraphicsShapeItem); d->brush = brush; update(); } /*! \reimp */ bool QAbstractGraphicsShapeItem::isObscuredBy(const QGraphicsItem *item) const { return QGraphicsItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QAbstractGraphicsShapeItem::opaqueArea() const { Q_D(const QAbstractGraphicsShapeItem); if (d->brush.isOpaque()) return isClipped() ? clipPath() : shape(); return QGraphicsItem::opaqueArea(); } /*! \class QGraphicsPathItem \brief The QGraphicsPathItem class provides a path item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api To set the item's path, pass a QPainterPath to QGraphicsPathItem's constructor, or call the setPath() function. The path() function returns the current path. \image graphicsview-pathitem.png QGraphicsPathItem uses the path to provide a reasonable implementation of boundingRect(), shape(), and contains(). The paint() function draws the path using the item's associated pen and brush, which you can set by calling the setPen() and setBrush() functions. \sa QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsPolygonItem, QGraphicsTextItem, QGraphicsLineItem, QGraphicsPixmapItem, {The Graphics View Framework} */ class QGraphicsPathItemPrivate : public QAbstractGraphicsShapeItemPrivate { Q_DECLARE_PUBLIC(QGraphicsPathItem) public: QPainterPath path; }; /*! Constructs a QGraphicsPath item using \a path as the default path. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsPathItem::QGraphicsPathItem(const QPainterPath &path, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsPathItemPrivate, parent, scene) { if (!path.isEmpty()) setPath(path); } /*! Constructs a QGraphicsPath. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsPathItem::QGraphicsPathItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsPathItemPrivate, parent, scene) { } /*! Destroys the QGraphicsPathItem. */ QGraphicsPathItem::~QGraphicsPathItem() { } /*! Returns the item's path as a QPainterPath. If no item has been set, an empty QPainterPath is returned. \sa setPath() */ QPainterPath QGraphicsPathItem::path() const { Q_D(const QGraphicsPathItem); return d->path; } /*! Sets the item's path to be the given \a path. \sa path() */ void QGraphicsPathItem::setPath(const QPainterPath &path) { Q_D(QGraphicsPathItem); if (d->path == path) return; prepareGeometryChange(); d->path = path; d->boundingRect = QRectF(); update(); } /*! \reimp */ QRectF QGraphicsPathItem::boundingRect() const { Q_D(const QGraphicsPathItem); if (d->boundingRect.isNull()) { qreal pw = pen().widthF(); if (pw == 0.0) d->boundingRect = d->path.controlPointRect(); else { d->boundingRect = shape().controlPointRect(); } } return d->boundingRect; } /*! \reimp */ QPainterPath QGraphicsPathItem::shape() const { Q_D(const QGraphicsPathItem); return qt_graphicsItem_shapeFromPath(d->path, d->pen); } /*! \reimp */ bool QGraphicsPathItem::contains(const QPointF &point) const { return QAbstractGraphicsShapeItem::contains(point); } /*! \reimp */ void QGraphicsPathItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_D(QGraphicsPathItem); Q_UNUSED(widget); painter->setPen(d->pen); painter->setBrush(d->brush); painter->drawPath(d->path); if (option->state & QStyle::State_Selected) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsPathItem::isObscuredBy(const QGraphicsItem *item) const { return QAbstractGraphicsShapeItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsPathItem::opaqueArea() const { return QAbstractGraphicsShapeItem::opaqueArea(); } /*! \reimp */ int QGraphicsPathItem::type() const { return Type; } /*! \internal */ bool QGraphicsPathItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsPathItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsPathItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsRectItem \brief The QGraphicsRectItem class provides a rectangle item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api To set the item's rectangle, pass a QRectF to QGraphicsRectItem's constructor, or call the setRect() function. The rect() function returns the current rectangle. \image graphicsview-rectitem.png QGraphicsRectItem uses the rectangle and the pen width to provide a reasonable implementation of boundingRect(), shape(), and contains(). The paint() function draws the rectangle using the item's associated pen and brush, which you can set by calling the setPen() and setBrush() functions. \note The rendering of invalid rectangles, such as those with negative widths or heights, is undefined. If you cannot be sure that you are using valid rectangles (for example, if you are creating rectangles using data from an unreliable source) then you should use QRectF::normalized() to create normalized rectangles, and use those instead. \sa QGraphicsPathItem, QGraphicsEllipseItem, QGraphicsPolygonItem, QGraphicsTextItem, QGraphicsLineItem, QGraphicsPixmapItem, {The Graphics View Framework} */ class QGraphicsRectItemPrivate : public QAbstractGraphicsShapeItemPrivate { Q_DECLARE_PUBLIC(QGraphicsRectItem) public: QRectF rect; }; /*! Constructs a QGraphicsRectItem, using \a rect as the default rectangle. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsRectItem::QGraphicsRectItem(const QRectF &rect, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsRectItemPrivate, parent, scene) { setRect(rect); } /*! \fn QGraphicsRectItem::QGraphicsRectItem(qreal x, qreal y, qreal width, qreal height, QGraphicsItem *parent) Constructs a QGraphicsRectItem with a default rectangle defined by (\a x, \a y) and the given \a width and \a height. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsRectItem::QGraphicsRectItem(qreal x, qreal y, qreal w, qreal h, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsRectItemPrivate, parent, scene) { setRect(QRectF(x, y, w, h)); } /*! Constructs a QGraphicsRectItem. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsRectItem::QGraphicsRectItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsRectItemPrivate, parent, scene) { } /*! Destroys the QGraphicsRectItem. */ QGraphicsRectItem::~QGraphicsRectItem() { } /*! Returns the item's rectangle. \sa setRect() */ QRectF QGraphicsRectItem::rect() const { Q_D(const QGraphicsRectItem); return d->rect; } /*! \fn void QGraphicsRectItem::setRect(const QRectF &rectangle) Sets the item's rectangle to be the given \a rectangle. \sa rect() */ void QGraphicsRectItem::setRect(const QRectF &rect) { Q_D(QGraphicsRectItem); if (d->rect == rect) return; prepareGeometryChange(); d->rect = rect; d->boundingRect = QRectF(); update(); } /*! \fn void QGraphicsRectItem::setRect(qreal x, qreal y, qreal width, qreal height) \fn void QGraphicsEllipseItem::setRect(qreal x, qreal y, qreal width, qreal height) Sets the item's rectangle to the rectangle defined by (\a x, \a y) and the given \a width and \a height. This convenience function is equivalent to calling \c {setRect(QRectF(x, y, width, height))} \sa rect() */ /*! \reimp */ QRectF QGraphicsRectItem::boundingRect() const { Q_D(const QGraphicsRectItem); if (d->boundingRect.isNull()) { qreal halfpw = pen().widthF() / 2; d->boundingRect = d->rect; if (halfpw > 0.0) d->boundingRect.adjust(-halfpw, -halfpw, halfpw, halfpw); } return d->boundingRect; } /*! \reimp */ QPainterPath QGraphicsRectItem::shape() const { Q_D(const QGraphicsRectItem); QPainterPath path; path.addRect(d->rect); return qt_graphicsItem_shapeFromPath(path, d->pen); } /*! \reimp */ bool QGraphicsRectItem::contains(const QPointF &point) const { return QAbstractGraphicsShapeItem::contains(point); } /*! \reimp */ void QGraphicsRectItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_D(QGraphicsRectItem); Q_UNUSED(widget); painter->setPen(d->pen); painter->setBrush(d->brush); painter->drawRect(d->rect); if (option->state & QStyle::State_Selected) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsRectItem::isObscuredBy(const QGraphicsItem *item) const { return QAbstractGraphicsShapeItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsRectItem::opaqueArea() const { return QAbstractGraphicsShapeItem::opaqueArea(); } /*! \reimp */ int QGraphicsRectItem::type() const { return Type; } /*! \internal */ bool QGraphicsRectItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsRectItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsRectItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsEllipseItem \brief The QGraphicsEllipseItem class provides an ellipse item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api QGraphicsEllipseItem respresents an ellipse with a fill and an outline, and you can also use it for ellipse segments (see startAngle(), spanAngle()). \table \row \o \inlineimage graphicsview-ellipseitem.png \o \inlineimage graphicsview-ellipseitem-pie.png \endtable To set the item's ellipse, pass a QRectF to QGraphicsEllipseItem's constructor, or call setRect(). The rect() function returns the current ellipse geometry. QGraphicsEllipseItem uses the rect and the pen width to provide a reasonable implementation of boundingRect(), shape(), and contains(). The paint() function draws the ellipse using the item's associated pen and brush, which you can set by calling setPen() and setBrush(). \sa QGraphicsPathItem, QGraphicsRectItem, QGraphicsPolygonItem, QGraphicsTextItem, QGraphicsLineItem, QGraphicsPixmapItem, {The Graphics View Framework} */ class QGraphicsEllipseItemPrivate : public QAbstractGraphicsShapeItemPrivate { Q_DECLARE_PUBLIC(QGraphicsEllipseItem) public: inline QGraphicsEllipseItemPrivate() : startAngle(0), spanAngle(360 * 16) { } QRectF rect; int startAngle; int spanAngle; }; /*! Constructs a QGraphicsEllipseItem using \a rect as the default rectangle. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsEllipseItem::QGraphicsEllipseItem(const QRectF &rect, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsEllipseItemPrivate, parent, scene) { setRect(rect); } /*! \fn QGraphicsEllipseItem::QGraphicsEllipseItem(qreal x, qreal y, qreal width, qreal height, QGraphicsItem *parent) \since 4.3 Constructs a QGraphicsEllipseItem using the rectangle defined by (\a x, \a y) and the given \a width and \a height, as the default rectangle. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsEllipseItem::QGraphicsEllipseItem(qreal x, qreal y, qreal w, qreal h, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsEllipseItemPrivate, parent, scene) { setRect(x,y,w,h); } /*! Constructs a QGraphicsEllipseItem. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsEllipseItem::QGraphicsEllipseItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsEllipseItemPrivate, parent, scene) { } /*! Destroys the QGraphicsEllipseItem. */ QGraphicsEllipseItem::~QGraphicsEllipseItem() { } /*! Returns the item's ellipse geometry as a QRectF. \sa setRect(), QPainter::drawEllipse() */ QRectF QGraphicsEllipseItem::rect() const { Q_D(const QGraphicsEllipseItem); return d->rect; } /*! Sets the item's ellipse geometry to \a rect. The rectangle's left edge defines the left edge of the ellipse, and the rectangle's top edge describes the top of the ellipse. The height and width of the rectangle describe the height and width of the ellipse. \sa rect(), QPainter::drawEllipse() */ void QGraphicsEllipseItem::setRect(const QRectF &rect) { Q_D(QGraphicsEllipseItem); if (d->rect == rect) return; prepareGeometryChange(); d->rect = rect; d->boundingRect = QRectF(); update(); } /*! Returns the start angle for an ellipse segment in 16ths of a degree. This angle is used together with spanAngle() for representing an ellipse segment (a pie). By default, the start angle is 0. \sa setStartAngle(), spanAngle() */ int QGraphicsEllipseItem::startAngle() const { Q_D(const QGraphicsEllipseItem); return d->startAngle; } /*! Sets the start angle for an ellipse segment to \a angle, which is in 16ths of a degree. This angle is used together with spanAngle() for representing an ellipse segment (a pie). By default, the start angle is 0. \sa startAngle(), setSpanAngle(), QPainter::drawPie() */ void QGraphicsEllipseItem::setStartAngle(int angle) { Q_D(QGraphicsEllipseItem); if (angle != d->startAngle) { prepareGeometryChange(); d->boundingRect = QRectF(); d->startAngle = angle; update(); } } /*! Returns the span angle of an ellipse segment in 16ths of a degree. This angle is used together with startAngle() for representing an ellipse segment (a pie). By default, this function returns 5760 (360 * 16, a full ellipse). \sa setSpanAngle(), startAngle() */ int QGraphicsEllipseItem::spanAngle() const { Q_D(const QGraphicsEllipseItem); return d->spanAngle; } /*! Sets the span angle for an ellipse segment to \a angle, which is in 16ths of a degree. This angle is used together with startAngle() to represent an ellipse segment (a pie). By default, the span angle is 5760 (360 * 16, a full ellipse). \sa spanAngle(), setStartAngle(), QPainter::drawPie() */ void QGraphicsEllipseItem::setSpanAngle(int angle) { Q_D(QGraphicsEllipseItem); if (angle != d->spanAngle) { prepareGeometryChange(); d->boundingRect = QRectF(); d->spanAngle = angle; update(); } } /*! \reimp */ QRectF QGraphicsEllipseItem::boundingRect() const { Q_D(const QGraphicsEllipseItem); if (d->boundingRect.isNull()) { qreal pw = pen().widthF(); if (pw == 0.0 && d->spanAngle == 360 * 16) d->boundingRect = d->rect; else d->boundingRect = shape().controlPointRect(); } return d->boundingRect; } /*! \reimp */ QPainterPath QGraphicsEllipseItem::shape() const { Q_D(const QGraphicsEllipseItem); QPainterPath path; if (d->rect.isNull()) return path; if (d->spanAngle != 360 * 16) { path.moveTo(d->rect.center()); path.arcTo(d->rect, d->startAngle / 16.0, d->spanAngle / 16.0); } else { path.addEllipse(d->rect); } return qt_graphicsItem_shapeFromPath(path, d->pen); } /*! \reimp */ bool QGraphicsEllipseItem::contains(const QPointF &point) const { return QAbstractGraphicsShapeItem::contains(point); } /*! \reimp */ void QGraphicsEllipseItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_D(QGraphicsEllipseItem); Q_UNUSED(widget); painter->setPen(d->pen); painter->setBrush(d->brush); if ((d->spanAngle != 0) && (qAbs(d->spanAngle) % (360 * 16) == 0)) painter->drawEllipse(d->rect); else painter->drawPie(d->rect, d->startAngle, d->spanAngle); if (option->state & QStyle::State_Selected) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsEllipseItem::isObscuredBy(const QGraphicsItem *item) const { return QAbstractGraphicsShapeItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsEllipseItem::opaqueArea() const { return QAbstractGraphicsShapeItem::opaqueArea(); } /*! \reimp */ int QGraphicsEllipseItem::type() const { return Type; } /*! \internal */ bool QGraphicsEllipseItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsEllipseItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsEllipseItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsPolygonItem \brief The QGraphicsPolygonItem class provides a polygon item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api To set the item's polygon, pass a QPolygonF to QGraphicsPolygonItem's constructor, or call the setPolygon() function. The polygon() function returns the current polygon. \image graphicsview-polygonitem.png QGraphicsPolygonItem uses the polygon and the pen width to provide a reasonable implementation of boundingRect(), shape(), and contains(). The paint() function draws the polygon using the item's associated pen and brush, which you can set by calling the setPen() and setBrush() functions. \sa QGraphicsPathItem, QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsTextItem, QGraphicsLineItem, QGraphicsPixmapItem, {The Graphics View Framework} */ class QGraphicsPolygonItemPrivate : public QAbstractGraphicsShapeItemPrivate { Q_DECLARE_PUBLIC(QGraphicsPolygonItem) public: inline QGraphicsPolygonItemPrivate() : fillRule(Qt::OddEvenFill) { } QPolygonF polygon; Qt::FillRule fillRule; }; /*! Constructs a QGraphicsPolygonItem with \a polygon as the default polygon. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsPolygonItem::QGraphicsPolygonItem(const QPolygonF &polygon, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsPolygonItemPrivate, parent, scene) { setPolygon(polygon); } /*! Constructs a QGraphicsPolygonItem. \a parent is passed to QAbstractGraphicsShapeItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsPolygonItem::QGraphicsPolygonItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsPolygonItemPrivate, parent, scene) { } /*! Destroys the QGraphicsPolygonItem. */ QGraphicsPolygonItem::~QGraphicsPolygonItem() { } /*! Returns the item's polygon, or an empty polygon if no polygon has been set. \sa setPolygon() */ QPolygonF QGraphicsPolygonItem::polygon() const { Q_D(const QGraphicsPolygonItem); return d->polygon; } /*! Sets the item's polygon to be the given \a polygon. \sa polygon() */ void QGraphicsPolygonItem::setPolygon(const QPolygonF &polygon) { Q_D(QGraphicsPolygonItem); if (d->polygon == polygon) return; prepareGeometryChange(); d->polygon = polygon; d->boundingRect = QRectF(); update(); } /*! Returns the fill rule of the polygon. The default fill rule is Qt::OddEvenFill. \sa setFillRule(), QPainterPath::fillRule(), QPainter::drawPolygon() */ Qt::FillRule QGraphicsPolygonItem::fillRule() const { Q_D(const QGraphicsPolygonItem); return d->fillRule; } /*! Sets the fill rule of the polygon to \a rule. The default fill rule is Qt::OddEvenFill. \sa fillRule(), QPainterPath::fillRule(), QPainter::drawPolygon() */ void QGraphicsPolygonItem::setFillRule(Qt::FillRule rule) { Q_D(QGraphicsPolygonItem); if (rule != d->fillRule) { d->fillRule = rule; update(); } } /*! \reimp */ QRectF QGraphicsPolygonItem::boundingRect() const { Q_D(const QGraphicsPolygonItem); if (d->boundingRect.isNull()) { qreal pw = pen().widthF(); if (pw == 0.0) d->boundingRect = d->polygon.boundingRect(); else d->boundingRect = shape().controlPointRect(); } return d->boundingRect; } /*! \reimp */ QPainterPath QGraphicsPolygonItem::shape() const { Q_D(const QGraphicsPolygonItem); QPainterPath path; path.addPolygon(d->polygon); return qt_graphicsItem_shapeFromPath(path, d->pen); } /*! \reimp */ bool QGraphicsPolygonItem::contains(const QPointF &point) const { return QAbstractGraphicsShapeItem::contains(point); } /*! \reimp */ void QGraphicsPolygonItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_D(QGraphicsPolygonItem); Q_UNUSED(widget); painter->setPen(d->pen); painter->setBrush(d->brush); painter->drawPolygon(d->polygon, d->fillRule); if (option->state & QStyle::State_Selected) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsPolygonItem::isObscuredBy(const QGraphicsItem *item) const { return QAbstractGraphicsShapeItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsPolygonItem::opaqueArea() const { return QAbstractGraphicsShapeItem::opaqueArea(); } /*! \reimp */ int QGraphicsPolygonItem::type() const { return Type; } /*! \internal */ bool QGraphicsPolygonItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsPolygonItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsPolygonItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsLineItem \brief The QGraphicsLineItem class provides a line item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api To set the item's line, pass a QLineF to QGraphicsLineItem's constructor, or call the setLine() function. The line() function returns the current line. By default the line is black with a width of 0, but you can change this by calling setPen(). \img graphicsview-lineitem.png QGraphicsLineItem uses the line and the pen width to provide a reasonable implementation of boundingRect(), shape(), and contains(). The paint() function draws the line using the item's associated pen. \sa QGraphicsPathItem, QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsTextItem, QGraphicsPolygonItem, QGraphicsPixmapItem, {The Graphics View Framework} */ class QGraphicsLineItemPrivate : public QGraphicsItemPrivate { Q_DECLARE_PUBLIC(QGraphicsLineItem) public: QLineF line; QPen pen; }; /*! Constructs a QGraphicsLineItem, using \a line as the default line. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsLineItem::QGraphicsLineItem(const QLineF &line, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QGraphicsLineItemPrivate, parent, scene) { setLine(line); } /*! Constructs a QGraphicsLineItem, using the line between (\a x1, \a y1) and (\a x2, \a y2) as the default line. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsLineItem::QGraphicsLineItem(qreal x1, qreal y1, qreal x2, qreal y2, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QGraphicsLineItemPrivate, parent, scene) { setLine(x1, y1, x2, y2); } /*! Constructs a QGraphicsLineItem. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsLineItem::QGraphicsLineItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QGraphicsLineItemPrivate, parent, scene) { } /*! Destroys the QGraphicsLineItem. */ QGraphicsLineItem::~QGraphicsLineItem() { } /*! Returns the item's pen, or a black solid 0-width pen if no pen has been set. \sa setPen() */ QPen QGraphicsLineItem::pen() const { Q_D(const QGraphicsLineItem); return d->pen; } /*! Sets the item's pen to \a pen. If no pen is set, the line will be painted using a black solid 0-width pen. \sa pen() */ void QGraphicsLineItem::setPen(const QPen &pen) { Q_D(QGraphicsLineItem); prepareGeometryChange(); d->pen = pen; update(); } /*! Returns the item's line, or a null line if no line has been set. \sa setLine() */ QLineF QGraphicsLineItem::line() const { Q_D(const QGraphicsLineItem); return d->line; } /*! Sets the item's line to be the given \a line. \sa line() */ void QGraphicsLineItem::setLine(const QLineF &line) { Q_D(QGraphicsLineItem); if (d->line == line) return; prepareGeometryChange(); d->line = line; update(); } /*! \fn void QGraphicsLineItem::setLine(qreal x1, qreal y1, qreal x2, qreal y2) \overload Sets the item's line to be the line between (\a x1, \a y1) and (\a x2, \a y2). This is the same as calling \c {setLine(QLineF(x1, y1, x2, y2))}. */ /*! \reimp */ QRectF QGraphicsLineItem::boundingRect() const { Q_D(const QGraphicsLineItem); if (d->pen.widthF() == 0.0) { const qreal x1 = d->line.p1().x(); const qreal x2 = d->line.p2().x(); const qreal y1 = d->line.p1().y(); const qreal y2 = d->line.p2().y(); qreal lx = qMin(x1, x2); qreal rx = qMax(x1, x2); qreal ty = qMin(y1, y2); qreal by = qMax(y1, y2); return QRectF(lx, ty, rx - lx, by - ty); } return shape().controlPointRect(); } /*! \reimp */ QPainterPath QGraphicsLineItem::shape() const { Q_D(const QGraphicsLineItem); QPainterPath path; if (d->line == QLineF()) return path; path.moveTo(d->line.p1()); path.lineTo(d->line.p2()); return qt_graphicsItem_shapeFromPath(path, d->pen); } /*! \reimp */ bool QGraphicsLineItem::contains(const QPointF &point) const { return QGraphicsItem::contains(point); } /*! \reimp */ void QGraphicsLineItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_D(QGraphicsLineItem); Q_UNUSED(widget); painter->setPen(d->pen); painter->drawLine(d->line); if (option->state & QStyle::State_Selected) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsLineItem::isObscuredBy(const QGraphicsItem *item) const { return QGraphicsItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsLineItem::opaqueArea() const { return QGraphicsItem::opaqueArea(); } /*! \reimp */ int QGraphicsLineItem::type() const { return Type; } /*! \internal */ bool QGraphicsLineItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsLineItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsLineItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsPixmapItem \brief The QGraphicsPixmapItem class provides a pixmap item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api To set the item's pixmap, pass a QPixmap to QGraphicsPixmapItem's constructor, or call the setPixmap() function. The pixmap() function returns the current pixmap. QGraphicsPixmapItem uses pixmap's optional alpha mask to provide a reasonable implementation of boundingRect(), shape(), and contains(). \image graphicsview-pixmapitem.png The pixmap is drawn at the item's (0, 0) coordinate, as returned by offset(). You can change the drawing offset by calling setOffset(). You can set the pixmap's transformation mode by calling setTransformationMode(). By default, Qt::FastTransformation is used, which provides fast, non-smooth scaling. Qt::SmoothTransformation enables QPainter::SmoothPixmapTransform on the painter, and the quality depends on the platform and viewport. The result is usually not as good as calling QPixmap::scale() directly. Call transformationMode() to get the current transformation mode for the item. \sa QGraphicsPathItem, QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsTextItem, QGraphicsPolygonItem, QGraphicsLineItem, {The Graphics View Framework} */ /*! \enum QGraphicsPixmapItem::ShapeMode This enum describes how QGraphicsPixmapItem calculates its shape and opaque area. The default value is MaskShape. \value MaskShape The shape is determined by calling QPixmap::mask(). This shape includes only the opaque pixels of the pixmap. Because the shape is more complex, however, it can be slower than the other modes, and uses more memory. \value BoundingRectShape The shape is determined by tracing the outline of the pixmap. This is the fastest shape mode, but it does not take into account any transparent areas on the pixmap. \value HeuristicMaskShape The shape is determine by calling QPixmap::createHeuristicMask(). The performance and memory consumption is similar to MaskShape. */ extern QPainterPath qt_regionToPath(const QRegion ®ion); class QGraphicsPixmapItemPrivate : public QGraphicsItemPrivate { Q_DECLARE_PUBLIC(QGraphicsPixmapItem) public: QGraphicsPixmapItemPrivate() : transformationMode(Qt::FastTransformation), shapeMode(QGraphicsPixmapItem::MaskShape), hasShape(false) {} QPixmap pixmap; Qt::TransformationMode transformationMode; QPointF offset; QGraphicsPixmapItem::ShapeMode shapeMode; QPainterPath shape; bool hasShape; void updateShape() { shape = QPainterPath(); switch (shapeMode) { case QGraphicsPixmapItem::MaskShape: { QBitmap mask = pixmap.mask(); if (!mask.isNull()) { shape = qt_regionToPath(QRegion(mask).translated(offset.toPoint())); break; } // FALL THROUGH } case QGraphicsPixmapItem::BoundingRectShape: shape.addRect(QRectF(offset.x(), offset.y(), pixmap.width(), pixmap.height())); break; case QGraphicsPixmapItem::HeuristicMaskShape: #ifndef QT_NO_IMAGE_HEURISTIC_MASK shape = qt_regionToPath(QRegion(pixmap.createHeuristicMask()).translated(offset.toPoint())); #else shape.addRect(QRectF(offset.x(), offset.y(), pixmap.width(), pixmap.height())); #endif break; } } }; /*! Constructs a QGraphicsPixmapItem, using \a pixmap as the default pixmap. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsPixmapItem::QGraphicsPixmapItem(const QPixmap &pixmap, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QGraphicsPixmapItemPrivate, parent, scene) { setPixmap(pixmap); } /*! Constructs a QGraphicsPixmapItem. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsPixmapItem::QGraphicsPixmapItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QGraphicsPixmapItemPrivate, parent, scene) { } /*! Destroys the QGraphicsPixmapItem. */ QGraphicsPixmapItem::~QGraphicsPixmapItem() { } /*! Sets the item's pixmap to \a pixmap. \sa pixmap() */ void QGraphicsPixmapItem::setPixmap(const QPixmap &pixmap) { Q_D(QGraphicsPixmapItem); prepareGeometryChange(); d->pixmap = pixmap; d->hasShape = false; update(); } /*! Returns the item's pixmap, or an invalid QPixmap if no pixmap has been set. \sa setPixmap() */ QPixmap QGraphicsPixmapItem::pixmap() const { Q_D(const QGraphicsPixmapItem); return d->pixmap; } /*! Returns the transformation mode of the pixmap. The default mode is Qt::FastTransformation, which provides quick transformation with no smoothing. \sa setTransformationMode() */ Qt::TransformationMode QGraphicsPixmapItem::transformationMode() const { Q_D(const QGraphicsPixmapItem); return d->transformationMode; } /*! Sets the pixmap item's transformation mode to \a mode, and toggles an update of the item. The default mode is Qt::FastTransformation, which provides quick transformation with no smoothing. Qt::SmoothTransformation enables QPainter::SmoothPixmapTransform on the painter, and the quality depends on the platform and viewport. The result is usually not as good as calling QPixmap::scale() directly. \sa transformationMode() */ void QGraphicsPixmapItem::setTransformationMode(Qt::TransformationMode mode) { Q_D(QGraphicsPixmapItem); if (mode != d->transformationMode) { d_ptr->updateHelper(); d->transformationMode = mode; update(); } } /*! Returns the pixmap item's \e offset, which defines the point of the top-left corner of the pixmap, in local coordinates. \sa setOffset() */ QPointF QGraphicsPixmapItem::offset() const { Q_D(const QGraphicsPixmapItem); return d->offset; } /*! Sets the pixmap item's offset to \a offset. QGraphicsPixmapItem will draw its pixmap using \a offset for its top-left corner. \sa offset() */ void QGraphicsPixmapItem::setOffset(const QPointF &offset) { Q_D(QGraphicsPixmapItem); if (d->offset == offset) return; prepareGeometryChange(); d->offset = offset; d->hasShape = false; update(); } /*! \fn void QGraphicsPixmapItem::setOffset(qreal x, qreal y) \since 4.3 This convenience function is equivalent to calling setOffset(QPointF(\a x, \a y)). */ /*! \reimp */ QRectF QGraphicsPixmapItem::boundingRect() const { Q_D(const QGraphicsPixmapItem); qreal pw = 1.0; if (d->pixmap.isNull()) return QRectF(); return QRectF(d->offset, d->pixmap.size()).adjusted(-pw/2, -pw/2, pw/2, pw/2); } /*! \reimp */ QPainterPath QGraphicsPixmapItem::shape() const { Q_D(const QGraphicsPixmapItem); if (!d->hasShape) { QGraphicsPixmapItemPrivate *thatD = const_cast(d); thatD->updateShape(); thatD->hasShape = true; } return d_func()->shape; } /*! \reimp */ bool QGraphicsPixmapItem::contains(const QPointF &point) const { return QGraphicsItem::contains(point); } /*! \reimp */ void QGraphicsPixmapItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_D(QGraphicsPixmapItem); Q_UNUSED(widget); painter->setRenderHint(QPainter::SmoothPixmapTransform, (d->transformationMode == Qt::SmoothTransformation)); QRectF exposed = option->exposedRect.adjusted(-1, -1, 1, 1); exposed &= QRectF(d->offset.x(), d->offset.y(), d->pixmap.width(), d->pixmap.height()); painter->drawPixmap(exposed, d->pixmap, exposed.translated(-d->offset)); if (option->state & QStyle::State_Selected) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsPixmapItem::isObscuredBy(const QGraphicsItem *item) const { return QGraphicsItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsPixmapItem::opaqueArea() const { return shape(); } /*! \reimp */ int QGraphicsPixmapItem::type() const { return Type; } /*! Returns the item's shape mode. The shape mode describes how QGraphicsPixmapItem calculates its shape. The default mode is MaskShape. \sa setShapeMode(), ShapeMode */ QGraphicsPixmapItem::ShapeMode QGraphicsPixmapItem::shapeMode() const { return d_func()->shapeMode; } /*! Sets the item's shape mode to \a mode. The shape mode describes how QGraphicsPixmapItem calculates its shape. The default mode is MaskShape. \sa shapeMode(), ShapeMode */ void QGraphicsPixmapItem::setShapeMode(ShapeMode mode) { Q_D(QGraphicsPixmapItem); if (d->shapeMode == mode) return; d->shapeMode = mode; d->hasShape = false; } /*! \internal */ bool QGraphicsPixmapItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsPixmapItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsPixmapItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsTextItem \brief The QGraphicsTextItem class provides a text item that you can add to a QGraphicsScene to display formatted text. \since 4.2 \ingroup multimedia \ingroup graphicsview-api If you only need to show plain text in an item, consider using QGraphicsSimpleTextItem instead. To set the item's text, pass a QString to QGraphicsTextItem's constructor, or call setHtml()/setPlainText(). QGraphicsTextItem uses the text's formatted size and the associated font to provide a reasonable implementation of boundingRect(), shape(), and contains(). You can set the font by calling setFont(). It is possible to make the item editable by setting the Qt::TextEditorInteraction flag using setTextInteractionFlags(). The item's preferred text width can be set using setTextWidth() and obtained using textWidth(). \note In order to align HTML text in the center, the item's text width must be set. \img graphicsview-textitem.png \note QGraphicsTextItem accepts \l{QGraphicsItem::acceptHoverEvents()}{hover events} by default. You can change this with \l{QGraphicsItem::}{setAcceptHoverEvents()}. \sa QGraphicsSimpleTextItem, QGraphicsPathItem, QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsPixmapItem, QGraphicsPolygonItem, QGraphicsLineItem, {The Graphics View Framework} */ class QGraphicsTextItemPrivate { public: QGraphicsTextItemPrivate() : control(0), pageNumber(0), useDefaultImpl(false), tabChangesFocus(false) { } mutable QTextControl *control; QTextControl *textControl() const; inline QPointF controlOffset() const { return QPointF(0., pageNumber * control->document()->pageSize().height()); } inline void sendControlEvent(QEvent *e) { if (control) control->processEvent(e, controlOffset()); } void _q_updateBoundingRect(const QSizeF &); void _q_update(QRectF); void _q_ensureVisible(QRectF); bool _q_mouseOnEdge(QGraphicsSceneMouseEvent *); QRectF boundingRect; int pageNumber; bool useDefaultImpl; bool tabChangesFocus; QGraphicsTextItem *qq; }; /*! Constructs a QGraphicsTextItem, using \a text as the default plain text. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsTextItem::QGraphicsTextItem(const QString &text, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(parent, scene), dd(new QGraphicsTextItemPrivate) { dd->qq = this; if (!text.isEmpty()) setPlainText(text); setAcceptDrops(true); setAcceptHoverEvents(true); } /*! Constructs a QGraphicsTextItem. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsTextItem::QGraphicsTextItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(parent, scene), dd(new QGraphicsTextItemPrivate) { dd->qq = this; setAcceptDrops(true); setAcceptHoverEvents(true); } /*! Destroys the QGraphicsTextItem. */ QGraphicsTextItem::~QGraphicsTextItem() { delete dd; } /*! Returns the item's text converted to HTML, or an empty QString if no text has been set. \sa setHtml() */ QString QGraphicsTextItem::toHtml() const { #ifndef QT_NO_TEXTHTMLPARSER if (dd->control) return dd->control->toHtml(); #endif return QString(); } /*! Sets the item's text to \a text, assuming that text is HTML formatted. If the item has keyboard input focus, this function will also call ensureVisible() to ensure that the text is visible in all viewports. \sa toHtml(), hasFocus(), QGraphicsSimpleTextItem */ void QGraphicsTextItem::setHtml(const QString &text) { dd->textControl()->setHtml(text); } /*! Returns the item's text converted to plain text, or an empty QString if no text has been set. \sa setPlainText() */ QString QGraphicsTextItem::toPlainText() const { if (dd->control) return dd->control->toPlainText(); return QString(); } /*! Sets the item's text to \a text. If the item has keyboard input focus, this function will also call ensureVisible() to ensure that the text is visible in all viewports. \sa toHtml(), hasFocus() */ void QGraphicsTextItem::setPlainText(const QString &text) { dd->textControl()->setPlainText(text); } /*! Returns the item's font, which is used to render the text. \sa setFont() */ QFont QGraphicsTextItem::font() const { if (!dd->control) return QFont(); return dd->control->document()->defaultFont(); } /*! Sets the font used to render the text item to \a font. \sa font() */ void QGraphicsTextItem::setFont(const QFont &font) { dd->textControl()->document()->setDefaultFont(font); } /*! Sets the color for unformatted text to \a col. */ void QGraphicsTextItem::setDefaultTextColor(const QColor &col) { QTextControl *c = dd->textControl(); QPalette pal = c->palette(); pal.setColor(QPalette::Text, col); c->setPalette(pal); } /*! Returns the default text color that is used to for unformatted text. */ QColor QGraphicsTextItem::defaultTextColor() const { return dd->textControl()->palette().color(QPalette::Text); } /*! \reimp */ QRectF QGraphicsTextItem::boundingRect() const { return dd->boundingRect; } /*! \reimp */ QPainterPath QGraphicsTextItem::shape() const { if (!dd->control) return QPainterPath(); QPainterPath path; path.addRect(dd->boundingRect); return path; } /*! \reimp */ bool QGraphicsTextItem::contains(const QPointF &point) const { return dd->boundingRect.contains(point); } /*! \reimp */ void QGraphicsTextItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_UNUSED(widget); if (dd->control) { painter->save(); QRectF r = option->exposedRect; painter->translate(-dd->controlOffset()); r.translate(dd->controlOffset()); QTextDocument *doc = dd->control->document(); QTextDocumentLayout *layout = qobject_cast(doc->documentLayout()); // the layout might need to expand the root frame to // the viewport if NoWrap is set if (layout) layout->setViewport(dd->boundingRect); dd->control->drawContents(painter, r); if (layout) layout->setViewport(QRect()); painter->restore(); } if (option->state & (QStyle::State_Selected | QStyle::State_HasFocus)) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsTextItem::isObscuredBy(const QGraphicsItem *item) const { return QGraphicsItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsTextItem::opaqueArea() const { return QGraphicsItem::opaqueArea(); } /*! \reimp */ int QGraphicsTextItem::type() const { return Type; } /*! Sets the preferred width for the item's text. If the actual text is wider than the specified width then it will be broken into multiple lines. If \a width is set to -1 then the text will not be broken into multiple lines unless it is enforced through an explicit line break or a new paragraph. The default value is -1. Note that QGraphicsTextItem keeps a QTextDocument internally, which is used to calculate the text width. \sa textWidth(), QTextDocument::setTextWidth() */ void QGraphicsTextItem::setTextWidth(qreal width) { dd->textControl()->setTextWidth(width); } /*! Returns the text width. The width is calculated with the QTextDocument that QGraphicsTextItem keeps internally. \sa setTextWidth(), QTextDocument::textWidth() */ qreal QGraphicsTextItem::textWidth() const { if (!dd->control) return -1; return dd->control->textWidth(); } /*! Adjusts the text item to a reasonable size. */ void QGraphicsTextItem::adjustSize() { if (dd->control) dd->control->adjustSize(); } /*! Sets the text document \a document on the item. */ void QGraphicsTextItem::setDocument(QTextDocument *document) { dd->textControl()->setDocument(document); dd->_q_updateBoundingRect(dd->control->size()); } /*! Returns the item's text document. */ QTextDocument *QGraphicsTextItem::document() const { return dd->textControl()->document(); } /*! \reimp */ bool QGraphicsTextItem::sceneEvent(QEvent *event) { QEvent::Type t = event->type(); if (!dd->tabChangesFocus && (t == QEvent::KeyPress || t == QEvent::KeyRelease)) { int k = ((QKeyEvent *)event)->key(); if (k == Qt::Key_Tab || k == Qt::Key_Backtab) { dd->sendControlEvent(event); return true; } } return QGraphicsItem::sceneEvent(event); } /*! \reimp */ void QGraphicsTextItem::mousePressEvent(QGraphicsSceneMouseEvent *event) { if ((QGraphicsItem::d_ptr->flags & (ItemIsSelectable | ItemIsMovable)) && (event->buttons() & Qt::LeftButton) && dd->_q_mouseOnEdge(event)) { // User left-pressed on edge of selectable/movable item, use // base impl. dd->useDefaultImpl = true; } else if (event->buttons() == event->button() && dd->control->textInteractionFlags() == Qt::NoTextInteraction) { // User pressed first button on non-interactive item. dd->useDefaultImpl = true; } if (dd->useDefaultImpl) { QGraphicsItem::mousePressEvent(event); if (!event->isAccepted()) dd->useDefaultImpl = false; return; } dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::mouseMoveEvent(QGraphicsSceneMouseEvent *event) { if (dd->useDefaultImpl) { QGraphicsItem::mouseMoveEvent(event); return; } dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::mouseReleaseEvent(QGraphicsSceneMouseEvent *event) { if (dd->useDefaultImpl) { QGraphicsItem::mouseReleaseEvent(event); if (dd->control->textInteractionFlags() == Qt::NoTextInteraction && !event->buttons()) { // User released last button on non-interactive item. dd->useDefaultImpl = false; } else if ((event->buttons() & Qt::LeftButton) == 0) { // User released the left button on an interactive item. dd->useDefaultImpl = false; } return; } dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::mouseDoubleClickEvent(QGraphicsSceneMouseEvent *event) { if (dd->useDefaultImpl) { QGraphicsItem::mouseDoubleClickEvent(event); return; } if (!hasFocus()) { QGraphicsItem::mouseDoubleClickEvent(event); return; } dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::contextMenuEvent(QGraphicsSceneContextMenuEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::keyPressEvent(QKeyEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::keyReleaseEvent(QKeyEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::focusInEvent(QFocusEvent *event) { dd->sendControlEvent(event); update(); } /*! \reimp */ void QGraphicsTextItem::focusOutEvent(QFocusEvent *event) { dd->sendControlEvent(event); update(); } /*! \reimp */ void QGraphicsTextItem::dragEnterEvent(QGraphicsSceneDragDropEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::dragLeaveEvent(QGraphicsSceneDragDropEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::dragMoveEvent(QGraphicsSceneDragDropEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::dropEvent(QGraphicsSceneDragDropEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::inputMethodEvent(QInputMethodEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::hoverEnterEvent(QGraphicsSceneHoverEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::hoverMoveEvent(QGraphicsSceneHoverEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ void QGraphicsTextItem::hoverLeaveEvent(QGraphicsSceneHoverEvent *event) { dd->sendControlEvent(event); } /*! \reimp */ QVariant QGraphicsTextItem::inputMethodQuery(Qt::InputMethodQuery query) const { QVariant v; if (dd->control) v = dd->control->inputMethodQuery(query); if (v.type() == QVariant::RectF) v = v.toRectF().translated(-dd->controlOffset()); else if (v.type() == QVariant::PointF) v = v.toPointF() - dd->controlOffset(); else if (v.type() == QVariant::Rect) v = v.toRect().translated(-dd->controlOffset().toPoint()); else if (v.type() == QVariant::Point) v = v.toPoint() - dd->controlOffset().toPoint(); return v; } /*! \internal */ bool QGraphicsTextItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsTextItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsTextItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \internal */ void QGraphicsTextItemPrivate::_q_update(QRectF rect) { if (rect.isValid()) { rect.translate(-controlOffset()); } else { rect = boundingRect; } if (rect.intersects(boundingRect)) qq->update(rect); } /*! \internal */ void QGraphicsTextItemPrivate::_q_updateBoundingRect(const QSizeF &size) { if (!control) return; // can't happen const QSizeF pageSize = control->document()->pageSize(); // paged items have a constant (page) size if (size == boundingRect.size() || pageSize.height() != -1) return; qq->prepareGeometryChange(); boundingRect.setSize(size); qq->update(); } /*! \internal */ void QGraphicsTextItemPrivate::_q_ensureVisible(QRectF rect) { if (qq->hasFocus()) { rect.translate(-controlOffset()); qq->ensureVisible(rect, /*xmargin=*/0, /*ymargin=*/0); } } QTextControl *QGraphicsTextItemPrivate::textControl() const { if (!control) { QGraphicsTextItem *that = const_cast(qq); control = new QTextControl(that); control->setTextInteractionFlags(Qt::NoTextInteraction); QObject::connect(control, SIGNAL(updateRequest(QRectF)), qq, SLOT(_q_update(QRectF))); QObject::connect(control, SIGNAL(documentSizeChanged(QSizeF)), qq, SLOT(_q_updateBoundingRect(QSizeF))); QObject::connect(control, SIGNAL(visibilityRequest(QRectF)), qq, SLOT(_q_ensureVisible(QRectF))); QObject::connect(control, SIGNAL(linkActivated(QString)), qq, SIGNAL(linkActivated(QString))); QObject::connect(control, SIGNAL(linkHovered(QString)), qq, SIGNAL(linkHovered(QString))); const QSizeF pgSize = control->document()->pageSize(); if (pgSize.height() != -1) { qq->prepareGeometryChange(); that->dd->boundingRect.setSize(pgSize); qq->update(); } else { that->dd->_q_updateBoundingRect(control->size()); } } return control; } /*! \internal */ bool QGraphicsTextItemPrivate::_q_mouseOnEdge(QGraphicsSceneMouseEvent *event) { QPainterPath path; path.addRect(qq->boundingRect()); QPainterPath docPath; const QTextFrameFormat format = control->document()->rootFrame()->frameFormat(); docPath.addRect( qq->boundingRect().adjusted( format.leftMargin(), format.topMargin(), -format.rightMargin(), -format.bottomMargin())); return path.subtracted(docPath).contains(event->pos()); } /*! \fn QGraphicsTextItem::linkActivated(const QString &link) This signal is emitted when the user clicks on a link on a text item that enables Qt::LinksAccessibleByMouse or Qt::LinksAccessibleByKeyboard. \a link is the link that was clicked. \sa setTextInteractionFlags() */ /*! \fn QGraphicsTextItem::linkHovered(const QString &link) This signal is emitted when the user hovers over a link on a text item that enables Qt::LinksAccessibleByMouse. \a link is the link that was hovered over. \sa setTextInteractionFlags() */ /*! Sets the flags \a flags to specify how the text item should react to user input. The default for a QGraphicsTextItem is Qt::NoTextInteraction. Setting a value different to Qt::NoTextInteraction will also set the ItemIsFocusable QGraphicsItem flag. By default, the text is read-only. To transform the item into an editor, set the Qt::TextEditable flag. */ void QGraphicsTextItem::setTextInteractionFlags(Qt::TextInteractionFlags flags) { if (flags == Qt::NoTextInteraction) setFlags(this->flags() & ~QGraphicsItem::ItemIsFocusable); else setFlags(this->flags() | QGraphicsItem::ItemIsFocusable); dd->textControl()->setTextInteractionFlags(flags); } /*! Returns the current text interaction flags. \sa setTextInteractionFlags() */ Qt::TextInteractionFlags QGraphicsTextItem::textInteractionFlags() const { if (!dd->control) return Qt::NoTextInteraction; return dd->control->textInteractionFlags(); } /*! \since 4.5 If \a b is true, the \gui Tab key will cause the widget to change focus; otherwise, the tab key will insert a tab into the document. In some occasions text edits should not allow the user to input tabulators or change indentation using the \gui Tab key, as this breaks the focus chain. The default is false. \sa tabChangesFocus(), ItemIsFocusable, textInteractionFlags() */ void QGraphicsTextItem::setTabChangesFocus(bool b) { dd->tabChangesFocus = b; } /*! \since 4.5 Returns true if the \gui Tab key will cause the widget to change focus; otherwise, false is returned. By default, this behavior is disabled, and this function will return false. \sa setTabChangesFocus() */ bool QGraphicsTextItem::tabChangesFocus() const { return dd->tabChangesFocus; } /*! \property QGraphicsTextItem::openExternalLinks Specifies whether QGraphicsTextItem should automatically open links using QDesktopServices::openUrl() instead of emitting the linkActivated signal. The default value is false. */ void QGraphicsTextItem::setOpenExternalLinks(bool open) { dd->textControl()->setOpenExternalLinks(open); } bool QGraphicsTextItem::openExternalLinks() const { if (!dd->control) return false; return dd->control->openExternalLinks(); } /*! \property QGraphicsTextItem::textCursor This property represents the visible text cursor in an editable text item. By default, if the item's text has not been set, this property contains a null text cursor; otherwise it contains a text cursor placed at the start of the item's document. */ void QGraphicsTextItem::setTextCursor(const QTextCursor &cursor) { dd->textControl()->setTextCursor(cursor); } QTextCursor QGraphicsTextItem::textCursor() const { if (!dd->control) return QTextCursor(); return dd->control->textCursor(); } class QGraphicsSimpleTextItemPrivate : public QAbstractGraphicsShapeItemPrivate { Q_DECLARE_PUBLIC(QGraphicsSimpleTextItem) public: inline QGraphicsSimpleTextItemPrivate() { pen.setStyle(Qt::NoPen); brush.setStyle(Qt::SolidPattern); } QString text; QFont font; QRectF boundingRect; void updateBoundingRect(); }; static QRectF setupTextLayout(QTextLayout *layout) { layout->setCacheEnabled(true); layout->beginLayout(); while (layout->createLine().isValid()) ; layout->endLayout(); qreal maxWidth = 0; qreal y = 0; for (int i = 0; i < layout->lineCount(); ++i) { QTextLine line = layout->lineAt(i); maxWidth = qMax(maxWidth, line.naturalTextWidth()); line.setPosition(QPointF(0, y)); y += line.height(); } return QRectF(0, 0, maxWidth, y); } void QGraphicsSimpleTextItemPrivate::updateBoundingRect() { Q_Q(QGraphicsSimpleTextItem); QRectF br; if (text.isEmpty()) { br = QRectF(); } else { QString tmp = text; tmp.replace(QLatin1Char('\n'), QChar::LineSeparator); QStackTextEngine engine(tmp, font); QTextLayout layout(&engine); br = setupTextLayout(&layout); } if (br != boundingRect) { q->prepareGeometryChange(); boundingRect = br; q->update(); } } /*! \class QGraphicsSimpleTextItem \brief The QGraphicsSimpleTextItem class provides a simple text path item that you can add to a QGraphicsScene. \since 4.2 \ingroup multimedia \ingroup graphicsview-api To set the item's text, you can either pass a QString to QGraphicsSimpleTextItem's constructor, or call setText() to change the text later. To set the text fill color, call setBrush(). The simple text item can have both a fill and an outline; setBrush() will set the text fill (i.e., text color), and setPen() sets the pen that will be used to draw the text outline. (The latter can be slow, especially for complex pens, and items with long text content.) If all you want is to draw a simple line of text, you should call setBrush() only, and leave the pen unset; QGraphicsSimpleTextItem's pen is by default Qt::NoPen. QGraphicsSimpleTextItem uses the text's formatted size and the associated font to provide a reasonable implementation of boundingRect(), shape(), and contains(). You can set the font by calling setFont(). QGraphicsSimpleText does not display rich text; instead, you can use QGraphicsTextItem, which provides full text control capabilities. \img graphicsview-simpletextitem.png \sa QGraphicsTextItem, QGraphicsPathItem, QGraphicsRectItem, QGraphicsEllipseItem, QGraphicsPixmapItem, QGraphicsPolygonItem, QGraphicsLineItem, {The Graphics View Framework} */ /*! Constructs a QGraphicsSimpleTextItem. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsSimpleTextItem::QGraphicsSimpleTextItem(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsSimpleTextItemPrivate, parent, scene) { } /*! Constructs a QGraphicsSimpleTextItem, using \a text as the default plain text. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsSimpleTextItem::QGraphicsSimpleTextItem(const QString &text, QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QAbstractGraphicsShapeItem(*new QGraphicsSimpleTextItemPrivate, parent, scene) { setText(text); } /*! Destroys the QGraphicsSimpleTextItem. */ QGraphicsSimpleTextItem::~QGraphicsSimpleTextItem() { } /*! Sets the item's text to \a text. The text will be displayed as plain text. Newline characters ('\n') as well as characters of type QChar::LineSeparator will cause item to break the text into multiple lines. */ void QGraphicsSimpleTextItem::setText(const QString &text) { Q_D(QGraphicsSimpleTextItem); if (d->text == text) return; d->text = text; d->updateBoundingRect(); update(); } /*! Returns the item's text. */ QString QGraphicsSimpleTextItem::text() const { Q_D(const QGraphicsSimpleTextItem); return d->text; } /*! Sets the font that is used to draw the item's text to \a font. */ void QGraphicsSimpleTextItem::setFont(const QFont &font) { Q_D(QGraphicsSimpleTextItem); d->font = font; d->updateBoundingRect(); } /*! Returns the font that is used to draw the item's text. */ QFont QGraphicsSimpleTextItem::font() const { Q_D(const QGraphicsSimpleTextItem); return d->font; } /*! \reimp */ QRectF QGraphicsSimpleTextItem::boundingRect() const { Q_D(const QGraphicsSimpleTextItem); return d->boundingRect; } /*! \reimp */ QPainterPath QGraphicsSimpleTextItem::shape() const { Q_D(const QGraphicsSimpleTextItem); QPainterPath path; path.addRect(d->boundingRect); return path; } /*! \reimp */ bool QGraphicsSimpleTextItem::contains(const QPointF &point) const { Q_D(const QGraphicsSimpleTextItem); return d->boundingRect.contains(point); } /*! \reimp */ void QGraphicsSimpleTextItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_UNUSED(widget); Q_D(QGraphicsSimpleTextItem); painter->setFont(d->font); QString tmp = d->text; tmp.replace(QLatin1Char('\n'), QChar::LineSeparator); QStackTextEngine engine(tmp, d->font); QTextLayout layout(&engine); setupTextLayout(&layout); QPen p; p.setBrush(d->brush); painter->setPen(p); if (d->pen.style() == Qt::NoPen && d->brush.style() == Qt::SolidPattern) { painter->setBrush(Qt::NoBrush); } else { QTextLayout::FormatRange range; range.start = 0; range.length = layout.text().length(); range.format.setTextOutline(d->pen); QList formats; formats.append(range); layout.setAdditionalFormats(formats); } layout.draw(painter, QPointF(0, 0)); if (option->state & (QStyle::State_Selected | QStyle::State_HasFocus)) qt_graphicsItem_highlightSelected(this, painter, option); } /*! \reimp */ bool QGraphicsSimpleTextItem::isObscuredBy(const QGraphicsItem *item) const { return QAbstractGraphicsShapeItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsSimpleTextItem::opaqueArea() const { return QAbstractGraphicsShapeItem::opaqueArea(); } /*! \reimp */ int QGraphicsSimpleTextItem::type() const { return Type; } /*! \internal */ bool QGraphicsSimpleTextItem::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! \internal */ void QGraphicsSimpleTextItem::setExtension(Extension extension, const QVariant &variant) { Q_UNUSED(extension); Q_UNUSED(variant); } /*! \internal */ QVariant QGraphicsSimpleTextItem::extension(const QVariant &variant) const { Q_UNUSED(variant); return QVariant(); } /*! \class QGraphicsItemGroup \brief The QGraphicsItemGroup class provides treating a group of items as one. \since 4.2 \ingroup multimedia \ingroup graphicsview-api A QGraphicsItemGroup is a special type of compound item that treats itself and all its children as one item (i.e., all events and geometries for all children are merged together). It's common to use item groups in presentation tools, when the user wants to group several smaller items into one big item in order to simplify moving and copying of items. If all you want is to store items inside other items, you can use any QGraphicsItem directly by passing a suitable parent to setParentItem(). The boundingRect() function of QGraphicsItemGroup returns the bounding rectangle of all items in the item group. In addition, item groups have handlesChildEvents() enabled by default, so all events sent to a member of the group go to the item group (i.e., selecting one item in a group will select them all). QGraphicsItemGroup ignores the ItemIgnoresTransformations flag on its children (i.e., with respect to the geometry of the group item, the children are treated as if they were transformable). There are two ways to construct an item group. The easiest and most common approach is to pass a list of items (e.g., all selected items) to QGraphicsScene::createItemGroup(), which returns a new QGraphicsItemGroup item. The other approach is to manually construct a QGraphicsItemGroup item, add it to the scene calling QGraphicsScene::addItem(), and then add items to the group manually, one at a time by calling addToGroup(). To dismantle ("ungroup") an item group, you can either call QGraphicsScene::destroyItemGroup(), or you can manually remove all items from the group by calling removeFromGroup(). \snippet doc/src/snippets/code/src_gui_graphicsview_qgraphicsitem.cpp 17 The operation of adding and removing items preserves the items' scene-relative position and transformation, as opposed to calling setParentItem(), where only the child item's parent-relative position and transformation are kept. The addtoGroup() function reparents the target item to this item group, keeping the item's position and transformation intact relative to the scene. Visually, this means that items added via addToGroup() will remain completely unchanged as a result of this operation, regardless of the item or the group's current position or transformation; although the item's position and matrix are likely to change. The removeFromGroup() function has similar semantics to setParentItem(); it reparents the item to the parent item of the item group. As with addToGroup(), the item's scene-relative position and transformation remain intact. \sa QGraphicsItem, {The Graphics View Framework} */ class QGraphicsItemGroupPrivate : public QGraphicsItemPrivate { public: QRectF itemsBoundingRect; }; /*! Constructs a QGraphicsItemGroup. \a parent is passed to QGraphicsItem's constructor. \sa QGraphicsScene::addItem() */ QGraphicsItemGroup::QGraphicsItemGroup(QGraphicsItem *parent #ifndef Q_QDOC // obsolete argument , QGraphicsScene *scene #endif ) : QGraphicsItem(*new QGraphicsItemGroupPrivate, parent, scene) { setHandlesChildEvents(true); } /*! Destroys the QGraphicsItemGroup. */ QGraphicsItemGroup::~QGraphicsItemGroup() { } /*! Adds the given \a item to this item group. The item will be reparented to this group, but its position and transformation relative to the scene will stay intact. \sa removeFromGroup(), QGraphicsScene::createItemGroup() */ void QGraphicsItemGroup::addToGroup(QGraphicsItem *item) { Q_D(QGraphicsItemGroup); if (!item) { qWarning("QGraphicsItemGroup::addToGroup: cannot add null item"); return; } if (item == this) { qWarning("QGraphicsItemGroup::addToGroup: cannot add a group to itself"); return; } QTransform oldSceneMatrix = item->sceneTransform(); item->setPos(mapFromItem(item, 0, 0)); item->setParentItem(this); QTransform newItemTransform(oldSceneMatrix); newItemTransform *= sceneTransform().inverted(); if (!item->pos().isNull()) newItemTransform *= QTransform::fromTranslate(-item->x(), -item->y()); item->setTransform(newItemTransform); item->d_func()->setIsMemberOfGroup(true); prepareGeometryChange(); QTransform itemTransform(item->transform()); if (!item->pos().isNull()) itemTransform *= QTransform::fromTranslate(item->x(), item->y()); d->itemsBoundingRect |= itemTransform.mapRect(item->boundingRect() | item->childrenBoundingRect()); update(); } /*! Removes the specified \a item from this group. The item will be reparented to this group's parent item, or to 0 if this group has no parent. Its position and transformation relative to the scene will stay intact. \sa addToGroup(), QGraphicsScene::destroyItemGroup() */ void QGraphicsItemGroup::removeFromGroup(QGraphicsItem *item) { Q_D(QGraphicsItemGroup); if (!item) { qWarning("QGraphicsItemGroup::removeFromGroup: cannot remove null item"); return; } QGraphicsItem *newParent = d_ptr->parent; QPointF oldPos = item->mapToItem(newParent, 0, 0); item->setParentItem(newParent); // ### This function should remap the item's matrix to keep the item's // transformation unchanged relative to the scene. item->setPos(oldPos); item->d_func()->setIsMemberOfGroup(item->group() != 0); // ### Quite expensive. But removeFromGroup() isn't called very often. prepareGeometryChange(); d->itemsBoundingRect = childrenBoundingRect(); } /*! \reimp Returns the bounding rect of this group item, and all its children. */ QRectF QGraphicsItemGroup::boundingRect() const { Q_D(const QGraphicsItemGroup); return d->itemsBoundingRect; } /*! \reimp */ void QGraphicsItemGroup::paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_UNUSED(widget); if (option->state & QStyle::State_Selected) { Q_D(QGraphicsItemGroup); painter->setBrush(Qt::NoBrush); painter->drawRect(d->itemsBoundingRect); } } /*! \reimp */ bool QGraphicsItemGroup::isObscuredBy(const QGraphicsItem *item) const { return QGraphicsItem::isObscuredBy(item); } /*! \reimp */ QPainterPath QGraphicsItemGroup::opaqueArea() const { return QGraphicsItem::opaqueArea(); } /*! \reimp */ int QGraphicsItemGroup::type() const { return Type; } #ifndef QT_NO_DEBUG_STREAM QDebug operator<<(QDebug debug, QGraphicsItem *item) { if (!item) { debug << "QGraphicsItem(0)"; return debug; } QStringList flags; if (item->isVisible()) flags << QLatin1String("isVisible"); if (item->isEnabled()) flags << QLatin1String("isEnabled"); if (item->isSelected()) flags << QLatin1String("isSelected"); if (item->hasFocus()) flags << QLatin1String("HasFocus"); debug << "QGraphicsItem(this =" << ((void*)item) << ", parent =" << ((void*)item->parentItem()) << ", pos =" << item->pos() << ", z =" << item->zValue() << ", flags = {" << flags.join(QLatin1String("|")) << " })"; return debug; } QDebug operator<<(QDebug debug, QGraphicsItem::GraphicsItemChange change) { const char *str = "UnknownChange"; switch (change) { case QGraphicsItem::ItemChildAddedChange: str = "ItemChildAddedChange"; break; case QGraphicsItem::ItemChildRemovedChange: str = "ItemChildRemovedChange"; break; case QGraphicsItem::ItemCursorChange: str = "ItemCursorChange"; break; case QGraphicsItem::ItemCursorHasChanged: str = "ItemCursorHasChanged"; break; case QGraphicsItem::ItemEnabledChange: str = "ItemEnabledChange"; break; case QGraphicsItem::ItemEnabledHasChanged: str = "ItemEnabledHasChanged"; break; case QGraphicsItem::ItemFlagsChange: str = "ItemFlagsChange"; break; case QGraphicsItem::ItemFlagsHaveChanged: str = "ItemFlagsHaveChanged"; break; case QGraphicsItem::ItemMatrixChange: str = "ItemMatrixChange"; break; case QGraphicsItem::ItemParentChange: str = "ItemParentChange"; break; case QGraphicsItem::ItemParentHasChanged: str = "ItemParentHasChanged"; break; case QGraphicsItem::ItemPositionChange: str = "ItemPositionChange"; break; case QGraphicsItem::ItemPositionHasChanged: str = "ItemPositionHasChanged"; break; case QGraphicsItem::ItemSceneChange: str = "ItemSceneChange"; break; case QGraphicsItem::ItemSceneHasChanged: str = "ItemSceneHasChanged"; break; case QGraphicsItem::ItemSelectedChange: str = "ItemSelectedChange"; break; case QGraphicsItem::ItemSelectedHasChanged: str = "ItemSelectedHasChanged"; break; case QGraphicsItem::ItemToolTipChange: str = "ItemToolTipChange"; break; case QGraphicsItem::ItemToolTipHasChanged: str = "ItemToolTipHasChanged"; break; case QGraphicsItem::ItemTransformChange: str = "ItemTransformChange"; break; case QGraphicsItem::ItemTransformHasChanged: str = "ItemTransformHasChanged"; break; case QGraphicsItem::ItemVisibleChange: str = "ItemVisibleChange"; break; case QGraphicsItem::ItemVisibleHasChanged: str = "ItemVisibleHasChanged"; break; case QGraphicsItem::ItemZValueChange: str = "ItemZValueChange"; break; case QGraphicsItem::ItemZValueHasChanged: str = "ItemZValueHasChanged"; break; case QGraphicsItem::ItemOpacityChange: str = "ItemOpacityChange"; break; case QGraphicsItem::ItemOpacityHasChanged: str = "ItemOpacityHasChanged"; break; } debug << str; return debug; } QDebug operator<<(QDebug debug, QGraphicsItem::GraphicsItemFlag flag) { const char *str = "UnknownFlag"; switch (flag) { case QGraphicsItem::ItemIsMovable: str = "ItemIsMovable"; break; case QGraphicsItem::ItemIsSelectable: str = "ItemIsSelectable"; break; case QGraphicsItem::ItemIsFocusable: str = "ItemIsFocusable"; break; case QGraphicsItem::ItemClipsToShape: str = "ItemClipsToShape"; break; case QGraphicsItem::ItemClipsChildrenToShape: str = "ItemClipsChildrenToShape"; break; case QGraphicsItem::ItemIgnoresTransformations: str = "ItemIgnoresTransformations"; break; case QGraphicsItem::ItemIgnoresParentOpacity: str = "ItemIgnoresParentOpacity"; break; case QGraphicsItem::ItemDoesntPropagateOpacityToChildren: str = "ItemDoesntPropagateOpacityToChildren"; break; case QGraphicsItem::ItemStacksBehindParent: str = "ItemStacksBehindParent"; break; } debug << str; return debug; } QDebug operator<<(QDebug debug, QGraphicsItem::GraphicsItemFlags flags) { debug << "("; bool f = false; for (int i = 0; i < 9; ++i) { if (flags & (1 << i)) { if (f) debug << "|"; f = true; debug << QGraphicsItem::GraphicsItemFlag(int(flags & (1 << i))); } } debug << ")"; return debug; } #endif QT_END_NAMESPACE #include "moc_qgraphicsitem.cpp" #endif // QT_NO_GRAPHICSVIEW