26 QList<QgsLabelPosition *> searchResults;
29 searchResults.push_back( const_cast< QgsLabelPosition * >( pos ) );
35 QList<QgsLabelPosition *>::const_iterator resultIt = searchResults.constBegin();
36 for ( ; resultIt != searchResults.constEnd(); ++resultIt )
38 if ( ( *resultIt )->labelGeometry.contains( &p ) )
40 posList.push_back( *resultIt );
47 QList<QgsLabelPosition> res;
48 res.reserve( mOwnedPositions.size() );
49 for (
const std::unique_ptr< QgsLabelPosition > &pos : mOwnedPositions )
58 QList<QgsLabelPosition *> searchResults;
66 QList<QgsLabelPosition *>::const_iterator resultIt = searchResults.constBegin();
67 for ( ; resultIt != searchResults.constEnd(); ++resultIt )
69 if ( ( *resultIt )->labelGeometry.intersects( r ) )
71 posList.push_back( *resultIt );
83 QVector<QgsPointXY> cornerPoints;
84 cornerPoints.reserve( 4 );
85 double xMin = std::numeric_limits< double >::max();
86 double yMin = std::numeric_limits< double >::max();
87 double xMax = std::numeric_limits< double >::lowest();
88 double yMax = std::numeric_limits< double >::lowest();
89 for (
int i = 0; i < 4; ++i )
92 const QPointF res = mTransform.map( QPointF( labelPos->
getX( i ), labelPos->
getY( i ) ) );
94 xMin = std::min( xMin, res.x() );
95 xMax = std::max( xMax, res.x() );
96 yMin = std::min( yMin, res.y() );
97 yMax = std::max( yMax, res.y() );
101 long long uniqueLinkedId = 0;
103 uniqueLinkedId = linkedId;
105 uniqueLinkedId = mNextFeatureId++;
109 std::unique_ptr< QgsLabelPosition > newEntry = std::make_unique< QgsLabelPosition >( featureId, -labelPos->
getAlpha() * 180 / M_PI + mMapSettings.
rotation(), cornerPoints, bounds,
110 labelPos->
getWidth(), labelPos->
getHeight(), layerName, labeltext, labelfont, labelPos->
getUpsideDown(), diagram, pinned, providerId, labelGeometry, isUnplaced );
111 newEntry->groupedLabelId = uniqueLinkedId;
112 mSpatialIndex.
insert( newEntry.get(), bounds );
114 if ( uniqueLinkedId != 0 )
116 mLinkedLabelHash[ uniqueLinkedId ].append( newEntry.get() );
119 mOwnedPositions.emplace_back( std::move( newEntry ) );
123 return insertLabel( next, featureId, layerName, labeltext, labelfont, diagram, pinned, providerId, isUnplaced, uniqueLinkedId );
130 const QPointF origin = position.
origin();
131 const QPointF destination = position.
destination();
133 std::unique_ptr< QgsCalloutPosition > newEntry = std::make_unique< QgsCalloutPosition >( position );
135 mCalloutIndex.
insert( newEntry.get(),
QgsRectangle( origin.x(), origin.y(), origin.x(), origin.y() ) );
136 mCalloutIndex.
insert( newEntry.get(),
QgsRectangle( destination.x(), destination.y(), destination.x(), destination.y() ) );
138 mOwnedCalloutPositions.emplace_back( std::move( newEntry ) );
145 QList<const QgsCalloutPosition *> searchResults;
148 searchResults.push_back( pos );
152 std::sort( searchResults.begin(), searchResults.end() );
153 searchResults.erase( std::unique( searchResults.begin(), searchResults.end() ), searchResults.end() );
155 return searchResults;
160 return mLinkedLabelHash.value( groupId );
165 mMapSettings = settings;
171 mTransform = QTransform::fromTranslate( center.
x(), center.
y() );
172 mTransform.rotate( mMapSettings.
rotation() );
173 mTransform.translate( -center.
x(), -center.
y() );
177 mTransform = QTransform();
Represents the calculated placement of a map label callout line.
QPointF origin() const
Returns the origin of the callout line, in map coordinates.
QPointF destination() const
Returns the destination of the callout line, in map coordinates.
bool intersects(const QgsRectangle &bounds, const std::function< bool(T *data)> &callback) const
Performs an intersection check against the index, for data intersecting the specified bounds.
bool insert(T *data, const QgsRectangle &bounds)
Inserts new data into the spatial index, with the specified bounds.
A geometry is the spatial representation of a feature.
static QgsGeometry fromPolygonXY(const QgsPolygonXY &polygon)
Creates a new geometry from a QgsPolygonXY.
Represents the calculated placement of a map label.
QList< QgsLabelPosition * > groupedLabelPositions(long long groupId) const
Returns a list of all label positions sharing the same group ID (i.e.
bool insertLabel(pal::LabelPosition *labelPos, QgsFeatureId featureId, const QString &layerName, const QString &labeltext, const QFont &labelfont, bool diagram=false, bool pinned=false, const QString &providerId=QString(), bool isUnplaced=false, long long linkedId=0)
Inserts label position.
Q_DECL_DEPRECATED void clear()
Removes and deletes all the entries.
QgsLabelSearchTree()
Constructor for QgsLabelSearchTree.
void label(const QgsPointXY &p, QList< QgsLabelPosition * > &posList) const
Returns label position(s) at a given point.
void labelsInRect(const QgsRectangle &r, QList< QgsLabelPosition * > &posList) const
Returns label position(s) in given rectangle.
QList< const QgsCalloutPosition * > calloutsInRectangle(const QgsRectangle &rectangle) const
Returns the list of callouts with origins or destinations inside the given rectangle.
bool insertCallout(const QgsCalloutPosition &position)
Inserts a rendered callout position.
void setMapSettings(const QgsMapSettings &settings)
Sets the map settings associated with the labeling run.
QList< QgsLabelPosition > allLabels() const
Returns a list of all labels generated by the labeling run.
The QgsMapSettings class contains configuration for rendering of the map.
QgsRectangle visibleExtent() const
Returns the actual extent derived from requested extent that takes output image size into account.
double rotation() const
Returns the rotation of the resulting map image, in degrees clockwise.
A class to represent a 2D point.
A rectangle specified with double values.
QgsPointXY center() const
Returns the center point of the rectangle.
LabelPosition is a candidate feature label position.
double getAlpha() const
Returns the angle to rotate text (in radians).
double getX(int i=0) const
Returns the down-left x coordinate.
double getY(int i=0) const
Returns the down-left y coordinate.
bool getUpsideDown() const
LabelPosition * nextPart() const
Returns the next part of this label position (i.e.
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
qint64 QgsFeatureId
64 bit feature ids negative numbers are used for uncommitted/newly added features