36 , mAnnotation( annotation )
38 setFlag( QGraphicsItem::ItemIsSelectable,
true );
44 connect( mAnnotation, &
QgsAnnotation::moved,
this, &QgsMapCanvasAnnotationItem::setFeatureForMapPosition );
53 connect( mAnnotation, &QgsAnnotation::destroyed,
this, &QgsMapCanvasAnnotationItem::annotationDeleted );
56 setFeatureForMapPosition();
92void QgsMapCanvasAnnotationItem::updateBoundingRect()
94 prepareGeometryChange();
97 const double fillSymbolBleed = mAnnotation && mAnnotation->
fillSymbol() ?
100 const double mmToPixelScale =
mMapCanvas->logicalDpiX() / 25.4;
104 mBoundingRect = QRectF( - fillSymbolBleed, -fillSymbolBleed,
105 mmToPixelScale * mAnnotation->
frameSizeMm().width() + fillSymbolBleed * 2,
106 mmToPixelScale * mAnnotation->
frameSizeMm().height() + fillSymbolBleed * 2 );
110 double halfSymbolSize = 0.0;
113 halfSymbolSize = scaledSymbolSize() / 2.0;
119 const QSizeF frameSize = mAnnotation ? QSizeF( mAnnotation->
frameSizeMm().width() * mmToPixelScale,
120 mAnnotation->
frameSizeMm().height() * mmToPixelScale ) : QSizeF( 0.0, 0.0 );
122 const double xMinPos = std::min( -halfSymbolSize, offset.x() - fillSymbolBleed );
123 const double xMaxPos = std::max( halfSymbolSize, offset.x() + frameSize.width() + fillSymbolBleed );
124 const double yMinPos = std::min( -halfSymbolSize, offset.y() - fillSymbolBleed );
125 const double yMaxPos = std::max( halfSymbolSize, offset.y() + frameSize.height() + fillSymbolBleed );
126 mBoundingRect = QRectF( xMinPos, yMinPos, xMaxPos - xMinPos, yMaxPos - yMinPos );
130void QgsMapCanvasAnnotationItem::onCanvasLayersChanged()
138 else if ( !mAnnotation->
mapLayer() )
148void QgsMapCanvasAnnotationItem::setFeatureForMapPosition()
164 mapPosition = ct.transform( mapPosition );
170 QgsRectangle searchRect( mapPosition.
x() - halfIdentifyWidth, mapPosition.
y() - halfIdentifyWidth,
171 mapPosition.
x() + halfIdentifyWidth, mapPosition.
y() + halfIdentifyWidth );
182void QgsMapCanvasAnnotationItem::annotationDeleted()
184 mAnnotation =
nullptr;
188void QgsMapCanvasAnnotationItem::drawSelectionBoxes( QPainter *p )
const
195 const double handlerSize = 10;
196 p->setPen( Qt::NoPen );
197 p->setBrush( QColor( 200, 200, 210, 120 ) );
198 p->drawRect( QRectF( mBoundingRect.left(), mBoundingRect.top(), handlerSize, handlerSize ) );
199 p->drawRect( QRectF( mBoundingRect.right() - handlerSize, mBoundingRect.top(), handlerSize, handlerSize ) );
200 p->drawRect( QRectF( mBoundingRect.right() - handlerSize, mBoundingRect.bottom() - handlerSize, handlerSize, handlerSize ) );
201 p->drawRect( QRectF( mBoundingRect.left(), mBoundingRect.bottom() - handlerSize, handlerSize, handlerSize ) );
206 const QPointF itemPos = mapFromScene( pos );
208 const int cursorSensitivity = 7;
211 std::fabs( itemPos.x() ) < cursorSensitivity && std::fabs( itemPos.y() ) < cursorSensitivity )
216 const double mmToPixelScale =
mMapCanvas->logicalDpiX() / 25.4;
219 const QSizeF frameSize = mAnnotation ? mAnnotation->
frameSizeMm() * mmToPixelScale : QSizeF( 0, 0 );
221 bool left, right, up, down;
222 left = std::fabs( itemPos.x() - offset.x() ) < cursorSensitivity;
223 right = std::fabs( itemPos.x() - ( offset.x() + frameSize.width() ) ) < cursorSensitivity;
224 up = std::fabs( itemPos.y() - offset.y() ) < cursorSensitivity;
225 down = std::fabs( itemPos.y() - ( offset.y() + frameSize.height() ) ) < cursorSensitivity;
231 else if ( right && up )
235 else if ( left && down )
239 else if ( right && down )
261 if ( itemPos.x() >= offset.x() && itemPos.x() <= ( offset.x() + frameSize.width() )
262 && itemPos.y() >= offset.y() && itemPos.y() <= ( offset.y() + frameSize.height() ) )
271 switch ( moveAction )
274 return Qt::ArrowCursor;
277 return Qt::SizeAllCursor;
280 return Qt::SizeVerCursor;
283 return Qt::SizeHorCursor;
286 return Qt::SizeFDiagCursor;
289 return Qt::SizeBDiagCursor;
291 return Qt::ArrowCursor;
295double QgsMapCanvasAnnotationItem::scaledSymbolSize()
const
307 const double dpmm =
mMapCanvas->logicalDpiX() / 25.4;
313 if ( !mAnnotation || !mAnnotation->
isVisible() )
320 mAnnotation->
render( rc );
324 drawSelectionBoxes( painter );
@ Antialiasing
Use antialiasing while drawing.
Abstract base class for annotation items which are drawn over a map.
void appearanceChanged()
Emitted whenever the annotation's appearance changes.
QgsCoordinateReferenceSystem mapPositionCrs() const
Returns the CRS of the map position, or an invalid CRS if the annotation does not have a fixed map po...
QPointF frameOffsetFromReferencePointMm() const
Returns the annotation's frame's offset (in millimeters) from the mapPosition() reference point.
QgsMarkerSymbol * markerSymbol() const
Returns the symbol that is drawn at the annotation's map position.
void moved()
Emitted when the annotation's position has changed and items need to be moved to reflect this.
QgsMapLayer * mapLayer() const
Returns the map layer associated with the annotation.
virtual void setAssociatedFeature(const QgsFeature &feature)
Sets the feature associated with the annotation.
void render(QgsRenderContext &context) const
Renders the annotation to a target render context.
bool isVisible() const
Returns true if the annotation is visible and should be rendered.
QgsFillSymbol * fillSymbol() const
Returns the symbol that is used for rendering the annotation frame.
QSizeF frameSizeMm() const
Returns the size (in millimeters) of the annotation's frame (the main area in which the annotation's ...
QPointF relativePosition() const
Returns the relative position of the annotation, if it is not attached to a fixed map position.
void mapLayerChanged()
Emitted when the map layer associated with the annotation changes.
Custom exception class for Coordinate Reference System related exceptions.
Wrapper for iterator of features from vector data provider or vector layer.
bool nextFeature(QgsFeature &f)
This class wraps a request for features to a vector layer (or directly its vector data provider).
@ ExactIntersect
Use exact geometry intersection (slower) instead of bounding boxes.
The feature class encapsulates a single feature including its unique ID, geometry and a list of field...
QgsMapCanvasAnnotationItem(QgsAnnotation *annotation, QgsMapCanvas *mapCanvas)
Constructor for QgsMapCanvasAnnotationItem.
MouseMoveAction moveActionForPosition(QPointF pos) const
Returns the mouse move behavior for a given position in scene coordinates.
Qt::CursorShape cursorShapeForAction(MouseMoveAction moveAction) const
Returns matching cursor shape for a mouse move action.
void paint(QPainter *painter) override
function to be implemented by derived classes
QRectF boundingRect() const override
void updatePosition() override
called on changed extent or resize event to update position of the item
MouseMoveAction
Mouse actions for interacting with item.
@ ResizeFrameRight
Resize frame right.
@ ResizeFrameRightUp
Resize frame right up.
@ MoveFramePosition
Moving position of frame relative to annotation.
@ ResizeFrameUp
Resize frame up.
@ ResizeFrameRightDown
Resize frame right down.
@ MoveMapPosition
Moving annotation map position.
@ ResizeFrameDown
Resize frame down.
@ ResizeFrameLeftUp
Resize frame left up.
@ ResizeFrameLeft
Resize frame left.
@ ResizeFrameLeftDown
Resize frame left down.
An abstract class for items that can be placed on the map canvas.
QPointF toCanvasCoordinates(const QgsPointXY &point) const
transformation from map coordinates to screen coordinates
QgsMapCanvas * mMapCanvas
pointer to map canvas
Map canvas is a class for displaying all GIS data types on a canvas.
void destinationCrsChanged()
Emitted when map CRS has changed.
void layersChanged()
Emitted when a new set of layers has been received.
bool annotationsVisible() const
Returns true if annotations are visible within the map canvas.
const QgsMapSettings & mapSettings() const
Gets access to properties used for map rendering.
QList< QgsMapLayer * > layers(bool expandGroupLayers=false) const
Returns the list of layers which will be rendered in the map.
QgsPointXY mapToLayerCoordinates(const QgsMapLayer *layer, QgsPointXY point) const
transform point coordinates from output CRS to layer's CRS
QgsCoordinateReferenceSystem destinationCrs() const
Returns the destination coordinate reference system for the map render.
double size() const
Returns the estimated size for the whole symbol, which is the maximum size of all marker symbol layer...
A class to represent a 2D point.
static QgsProject * instance()
Returns the QgsProject singleton instance.
A rectangle specified with double values.
Contains information about the context of a rendering operation.
void setFlag(Qgis::RenderContextFlag flag, bool on=true)
Enable or disable a particular flag (other flags are not affected)
static QgsRenderContext fromQPainter(QPainter *painter)
Creates a default render context given a pixel based QPainter destination.
static double estimateMaxSymbolBleed(QgsSymbol *symbol, const QgsRenderContext &context)
Returns the maximum estimated bleed for the symbol.
Represents a vector layer which manages a vector based data sets.
QgsFeatureIterator getFeatures(const QgsFeatureRequest &request=QgsFeatureRequest()) const FINAL
Queries the layer for features specified in request.