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Please review the following information to ** ensure the GNU General Public License version 2.0 requirements will be ** met: http://www.gnu.org/licenses/gpl-2.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qdeclarativegeomapquickitem_p.h" #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE /*! \qmltype MapQuickItem \instantiates QDeclarativeGeoMapQuickItem \inqmlmodule QtLocation \ingroup qml-QtLocation5-maps \since Qt Location 5.5 \brief The MapQuickItem type displays an arbitrary Qt Quick object on a Map. The MapQuickItem type is used to place an arbitrary Qt Quick object on a Map at a specified location and size. Compared to floating an item above the Map, a MapQuickItem will follow the panning (and optionally, the zooming) of the Map as if it is on the Map surface. The \l{sourceItem} property contains the Qt Quick item to be drawn, which can be any kind of visible type. \section2 Positioning and Sizing The positioning of the MapQuickItem on the Map is controlled by two properties: \l coordinate and \l anchorPoint. If only \l coordinate is set, it specifies a longitude/latitude coordinate for the item to be placed at. The set coordinate will line up with the top-left corner of the contained item when shown on the screen. The \l anchorPoint property provides a way to line up the coordinate with other parts of the item than just the top-left corner, by setting a number of pixels the item will be offset by. A simple way to think about it is to note that the point given by \l anchorPoint on the item itself is the point that will line up with the given \l coordinate when displayed. In addition to being anchored to the map, the MapQuickItem can optionally follow the scale of the map, and change size when the Map is zoomed in or zoomed out. This behaviour is controlled by the \l zoomLevel property. The default behaviour if \l zoomLevel is not set is for the item to be drawn "on the screen" rather than "on the map", so that its size remains the same regardless of the zoom level of the Map. \section2 Performance Performance of a MapQuickItem is normally in the same ballpark as the contained Qt Quick item alone. Overheads added amount to a translation and (possibly) scaling of the original item, as well as a transformation from longitude and latitude to screen position. \section2 Limitations \note Due to an implementation detail, items placed inside a MapQuickItem will have a \c{parent} item which is not the MapQuickItem. Refer to the MapQuickItem by its \c{id}, and avoid the use of \c{anchor} in the \c{sourceItem}. \section2 Example Usage The following snippet shows a MapQuickItem containing an Image object, to display a Marker on the Map. This strategy is used to show the map markers in the MapViewer example. \snippet mapviewer/map/Marker.qml mqi-top \snippet mapviewer/map/Marker.qml mqi-anchor \snippet mapviewer/map/Marker.qml mqi-closeimage \snippet mapviewer/map/Marker.qml mqi-close \image api-mapquickitem.png */ QMapQuickItemMatrix4x4::QMapQuickItemMatrix4x4(QObject *parent) : QQuickTransform(parent) { } void QMapQuickItemMatrix4x4::setMatrix(const QMatrix4x4 &matrix) { if (m_matrix == matrix) return; m_matrix = matrix; update(); } void QMapQuickItemMatrix4x4::applyTo(QMatrix4x4 *matrix) const { *matrix *= m_matrix; } QDeclarativeGeoMapQuickItem::QDeclarativeGeoMapQuickItem(QQuickItem *parent) : QDeclarativeGeoMapItemBase(parent), zoomLevel_(0.0), mapAndSourceItemSet_(false), updatingGeometry_(false), matrix_(nullptr) { setFlag(ItemHasContents, true); opacityContainer_ = new QQuickItem(this); opacityContainer_->setParentItem(this); opacityContainer_->setFlag(ItemHasContents, true); setFiltersChildMouseEvents(true); } QDeclarativeGeoMapQuickItem::~QDeclarativeGeoMapQuickItem() {} /*! \qmlproperty coordinate MapQuickItem::coordinate This property holds the anchor coordinate of the MapQuickItem. The point on the sourceItem that is specified by anchorPoint is kept aligned with this coordinate when drawn on the map. In the image below, there are 3 MapQuickItems that are identical except for the value of their anchorPoint properties. The values of anchorPoint for each are written on top of the item. \image api-mapquickitem-anchor.png */ void QDeclarativeGeoMapQuickItem::setCoordinate(const QGeoCoordinate &coordinate) { if (coordinate_ == coordinate) return; coordinate_ = coordinate; geoshape_.setTopLeft(coordinate_); geoshape_.setBottomRight(coordinate_); // TODO: Handle zoomLevel != 0.0 polishAndUpdate(); emit coordinateChanged(); } /*! \internal */ void QDeclarativeGeoMapQuickItem::setMap(QDeclarativeGeoMap *quickMap, QGeoMap *map) { QDeclarativeGeoMapItemBase::setMap(quickMap,map); if (map && quickMap) { connect(map, SIGNAL(cameraDataChanged(QGeoCameraData)), this, SLOT(polishAndUpdate())); polishAndUpdate(); } } // See QQuickMultiPointTouchArea::childMouseEventFilter for reference bool QDeclarativeGeoMapQuickItem::childMouseEventFilter(QQuickItem *receiver, QEvent *event) { if (isEnabled() && isVisible()) { switch (event->type()) { case QEvent::MouseButtonPress: case QEvent::TouchBegin: dragStartCoordinate_ = coordinate_; default: break; } } return QQuickItem::childMouseEventFilter(receiver, event); } /*! \internal */ void QDeclarativeGeoMapQuickItem::geometryChanged(const QRectF &newGeometry, const QRectF &oldGeometry) { if (!mapAndSourceItemSet_ || updatingGeometry_ || newGeometry.topLeft() == oldGeometry.topLeft()) { QDeclarativeGeoMapItemBase::geometryChanged(newGeometry, oldGeometry); return; } QGeoCoordinate newCoordinate; // with zoomLevel set the anchorPoint has to be factored into the transformation to properly transform around it. if (zoomLevel_ != 0.0) { // When dragStartCoordinate_ can't be projected to screen, dragging must be disabled. if (!map()->geoProjection().isProjectable(map()->geoProjection().geoToWrappedMapProjection(dragStartCoordinate_))) return; QDoubleVector2D pos = map()->geoProjection().coordinateToItemPosition(dragStartCoordinate_, false); // oldGeometry.topLeft() is always intended to be (0,0), even when for some reason it's not. pos.setX(pos.x() + newGeometry.topLeft().x()); pos.setY(pos.y() + newGeometry.topLeft().y()); newCoordinate = map()->geoProjection().itemPositionToCoordinate(pos, false); } else { newCoordinate = map()->geoProjection().itemPositionToCoordinate(QDoubleVector2D(x(), y()) + QDoubleVector2D(anchorPoint_), false); } if (newCoordinate.isValid()) setCoordinate(newCoordinate); // Not calling QDeclarativeGeoMapItemBase::geometryChanged() as it will be called from a nested // call to this function. } /*! \internal */ QGeoCoordinate QDeclarativeGeoMapQuickItem::coordinate() { return coordinate_; } /*! \qmlproperty object MapQuickItem::sourceItem This property holds the source item that will be drawn on the map. */ void QDeclarativeGeoMapQuickItem::setSourceItem(QQuickItem *sourceItem) { if (sourceItem_.data() == sourceItem) return; sourceItem_ = sourceItem; polishAndUpdate(); emit sourceItemChanged(); } QQuickItem *QDeclarativeGeoMapQuickItem::sourceItem() { return sourceItem_.data(); } /*! \internal */ void QDeclarativeGeoMapQuickItem::afterChildrenChanged() { QList kids = childItems(); if (kids.size() > 0) { bool printedWarning = false; foreach (QQuickItem *i, kids) { if (i->flags() & QQuickItem::ItemHasContents && !qobject_cast(i) && sourceItem_.data() != i && opacityContainer_ != i) { if (!printedWarning) { qmlWarning(this) << "Use the sourceItem property for the contained item, direct children are not supported"; printedWarning = true; } qmlWarning(i) << "deleting this child"; i->deleteLater(); } } } } /*! \qmlproperty QPointF MapQuickItem::anchorPoint This property determines which point on the sourceItem that will be lined up with the coordinate on the map. */ void QDeclarativeGeoMapQuickItem::setAnchorPoint(const QPointF &anchorPoint) { if (anchorPoint == anchorPoint_) return; anchorPoint_ = anchorPoint; polishAndUpdate(); emit anchorPointChanged(); } QPointF QDeclarativeGeoMapQuickItem::anchorPoint() const { return anchorPoint_; } /*! \qmlproperty real MapQuickItem::zoomLevel This property controls the scaling behaviour of the contents of the MapQuickItem. In particular, by setting this property it is possible to choose between objects that are drawn on the screen (and sized in screen pixels), and those drawn on the map surface (which change size with the zoom level of the map). The default value for this property is 0.0, which corresponds to drawing the object on the screen surface. If set to another value, the object will be drawn on the map surface instead. The value (if not zero) specifies the zoomLevel at which the object will be visible at a scale of 1:1 (ie, where object pixels and screen pixels are the same). At zoom levels lower than this, the object will appear smaller, and at higher zoom levels, appear larger. This is in contrast to when this property is set to zero, where the object remains the same size on the screen at all zoom levels. */ void QDeclarativeGeoMapQuickItem::setZoomLevel(qreal zoomLevel) { if (zoomLevel == zoomLevel_) return; zoomLevel_ = zoomLevel; // TODO: update geoshape_! polishAndUpdate(); emit zoomLevelChanged(); } qreal QDeclarativeGeoMapQuickItem::zoomLevel() const { return zoomLevel_; } const QGeoShape &QDeclarativeGeoMapQuickItem::geoShape() const { // TODO: return a QGeoRectangle representing the bounding geo rectangle of the quick item // when zoomLevel_ is != 0.0 return geoshape_; } QGeoMap::ItemType QDeclarativeGeoMapQuickItem::itemType() const { return QGeoMap::MapQuickItem; } /*! \internal */ void QDeclarativeGeoMapQuickItem::updatePolish() { if (!quickMap() && sourceItem_) { mapAndSourceItemSet_ = false; sourceItem_.data()->setParentItem(0); return; } if (!quickMap() || !map() || !sourceItem_) { mapAndSourceItemSet_ = false; return; } if (!mapAndSourceItemSet_ && quickMap() && map() && sourceItem_) { mapAndSourceItemSet_ = true; sourceItem_.data()->setParentItem(opacityContainer_); sourceItem_.data()->setTransformOrigin(QQuickItem::TopLeft); connect(sourceItem_.data(), SIGNAL(xChanged()), this, SLOT(polishAndUpdate())); connect(sourceItem_.data(), SIGNAL(yChanged()), this, SLOT(polishAndUpdate())); connect(sourceItem_.data(), SIGNAL(widthChanged()), this, SLOT(polishAndUpdate())); connect(sourceItem_.data(), SIGNAL(heightChanged()), this, SLOT(polishAndUpdate())); } if (!coordinate_.isValid()) { opacityContainer_->setVisible(false); return; } else { opacityContainer_->setVisible(true); } QScopedValueRollback rollback(updatingGeometry_); updatingGeometry_ = true; opacityContainer_->setOpacity(zoomLevelOpacity()); setWidth(sourceItem_.data()->width()); setHeight(sourceItem_.data()->height()); if (zoomLevel_ != 0.0) { // zoom level initialized to 0.0. If it's different, it has been set explicitly. if (!matrix_) { matrix_ = new QMapQuickItemMatrix4x4(this); matrix_->appendToItem(opacityContainer_); } matrix_->setMatrix(map()->geoProjection().quickItemTransformation(coordinate(), anchorPoint_, zoomLevel_)); setPosition(QPointF(0,0)); } else { // if the coordinate is behind the camera, we use the transformation to get the item out of the way if (map()->cameraData().tilt() > 0.0 && !map()->geoProjection().isProjectable(map()->geoProjection().geoToWrappedMapProjection(coordinate()))) { if (!matrix_) { matrix_ = new QMapQuickItemMatrix4x4(this); matrix_->appendToItem(opacityContainer_); } matrix_->setMatrix(map()->geoProjection().quickItemTransformation(coordinate(), anchorPoint_, map()->cameraData().zoomLevel())); setPosition(QPointF(0,0)); } else { if (matrix_) matrix_->setMatrix(QMatrix4x4()); setPositionOnMap(coordinate(), anchorPoint_); } } } /*! \internal */ void QDeclarativeGeoMapQuickItem::afterViewportChanged(const QGeoMapViewportChangeEvent &event) { Q_UNUSED(event); } /*! \internal */ qreal QDeclarativeGeoMapQuickItem::scaleFactor() { qreal scale = 1.0; // use 1+x to avoid fuzzy compare against zero if (!qFuzzyCompare(1.0 + zoomLevel_, 1.0)) scale = std::pow(0.5, zoomLevel_ - map()->cameraData().zoomLevel()); return scale; } QT_END_NAMESPACE