101 const int size = mHashtable.size();
103 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPoint() > 0 ? std::min( mPal->globalCandidatesLimitPoint(), 4 ) : 4 );
104 else if ( size > 500 )
105 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPoint() > 0 ? std::min( mPal->globalCandidatesLimitPoint(), 6 ) : 6 );
106 else if ( size > 200 )
107 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPoint() > 0 ? std::min( mPal->globalCandidatesLimitPoint(), 8 ) : 8 );
108 else if ( size > 100 )
109 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPoint() > 0 ? std::min( mPal->globalCandidatesLimitPoint(), 12 ) : 12 );
111 return static_cast< std::size_t
>( std::max( mPal->globalCandidatesLimitPoint(), 0 ) );
122 const int size = mHashtable.size();
124 return static_cast< std::size_t
>( mPal->globalCandidatesLimitLine() > 0 ? std::min( mPal->globalCandidatesLimitLine(), 5 ) : 5 );
125 else if ( size > 500 )
126 return static_cast< std::size_t
>( mPal->globalCandidatesLimitLine() > 0 ? std::min( mPal->globalCandidatesLimitLine(), 10 ) : 10 );
127 else if ( size > 200 )
128 return static_cast< std::size_t
>( mPal->globalCandidatesLimitLine() > 0 ? std::min( mPal->globalCandidatesLimitLine(), 20 ) : 20 );
129 else if ( size > 100 )
130 return static_cast< std::size_t
>( mPal->globalCandidatesLimitLine() > 0 ? std::min( mPal->globalCandidatesLimitLine(), 40 ) : 40 );
132 return static_cast< std::size_t
>( std::max( mPal->globalCandidatesLimitLine(), 0 ) );
143 const int size = mHashtable.size();
145 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPolygon() > 0 ? std::min( mPal->globalCandidatesLimitPolygon(), 5 ) : 5 );
146 else if ( size > 500 )
147 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPolygon() > 0 ? std::min( mPal->globalCandidatesLimitPolygon(), 15 ) : 15 );
148 else if ( size > 200 )
149 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPolygon() > 0 ? std::min( mPal->globalCandidatesLimitPolygon(), 20 ) : 20 );
150 else if ( size > 100 )
151 return static_cast< std::size_t
>( mPal->globalCandidatesLimitPolygon() > 0 ? std::min( mPal->globalCandidatesLimitPolygon(), 25 ) : 25 );
153 return static_cast< std::size_t
>( std::max( mPal->globalCandidatesLimitPolygon(), 0 ) );
162 QString
name()
const {
return mName; }
236 void setPriority(
double priority );
243 double priority()
const {
return mDefaultPriority; }
299 void joinConnectedFeatures();
309 void chopFeaturesAtRepeatDistance();
330 bool mCentroidInside =
false;
335 bool mMergeLines =
false;
348 void addFeaturePart( std::unique_ptr< FeaturePart > fpart,
const QString &labelText = QString() );
LabelPlacement
Placement modes which determine how label candidates are generated for a feature.
@ Curved
Arranges candidates following the curvature of a line feature. Applies to line layers only.
@ PerimeterCurved
Arranges candidates following the curvature of a polygon's boundary. Applies to polygon layers only.
UpsideDownLabelHandling
Polygon placement flags, which control how candidates are generated for a polygon feature.
@ FlipUpsideDownLabels
Upside-down labels (90 <= angle < 270) are shown upright.
The QgsAbstractLabelProvider class is an interface class.
The QgsLabelFeature class describes a feature that should be used within the labeling engine.
ObstacleType
Valid obstacle types, which affect how features within the layer will act as obstacles for labels.
Main class to handle feature.
LabelPosition is a candidate feature label position.
A set of features which influence the labeling process.
void setUpsidedownLabels(Qgis::UpsideDownLabelHandling ud)
Sets how upside down labels will be handled within the layer.
QHash< QString, QVector< FeaturePart * > > mConnectedHashtable
std::deque< std::unique_ptr< FeaturePart > > mFeatureParts
List of feature parts.
QList< FeaturePart * > mObstacleParts
List of obstacle parts.
QString name() const
Returns the layer's name.
QgsAbstractLabelProvider * provider() const
Returns pointer to the associated provider.
std::size_t maximumPolygonLabelCandidates() const
Returns the maximum number of polygon label candidates to generate for features in this layer.
bool active() const
Returns whether the layer is currently active.
void setObstacleType(QgsLabelObstacleSettings::ObstacleType obstacleType)
Sets the obstacle type, which controls how features within the layer act as obstacles for labels.
QgsAbstractLabelProvider * mProvider
Qgis::LabelPlacement arrangement() const
Returns the layer's arrangement policy.
std::size_t maximumPointLabelCandidates() const
Returns the maximum number of point label candidates to generate for features in this layer.
bool mergeConnectedLines() const
Returns whether connected lines will be merged before labeling.
void setMergeConnectedLines(bool merge)
Sets whether connected lines should be merged before labeling.
void setActive(bool active)
Sets whether the layer is currently active.
QHash< QgsFeatureId, int > mConnectedFeaturesIds
Qgis::UpsideDownLabelHandling upsidedownLabels() const
Returns how upside down labels are handled within the layer.
void setArrangement(Qgis::LabelPlacement arrangement)
Sets the layer's arrangement policy.
QHash< QgsFeatureId, QgsLabelFeature * > mHashtable
Lookup table of label features (owned by the label feature provider that created them)
void setLabelLayer(bool toLabel)
Sets whether the layer will be labeled.
std::vector< geos::unique_ptr > mGeosObstacleGeometries
int featureCount()
Returns the number of features in layer.
Qgis::LabelPlacement mArrangement
Optional flags used for some placement methods.
bool labelLayer() const
Returns whether the layer will be labeled or not.
bool centroidInside() const
Returns whether labels placed at the centroid of features within the layer are forced to be placed in...
bool isCurved() const
Returns true if the layer has curved labels.
void setCentroidInside(bool forceInside)
Sets whether labels placed at the centroid of features within the layer are forced to be placed insid...
QgsLabelObstacleSettings::ObstacleType obstacleType() const
Returns the obstacle type, which controls how features within the layer act as obstacles for labels.
double priority() const
Returns the layer's priority, between 0 and 1.
std::size_t maximumLineLabelCandidates() const
Returns the maximum number of line label candidates to generate for features in this layer.
Representation of a labeling problem.
qint64 QgsFeatureId
64 bit feature ids negative numbers are used for uncommitted/newly added features