26QString QgsShortestPathPointToLayerAlgorithm::name()
const
28 return QStringLiteral(
"shortestpathpointtolayer" );
31QString QgsShortestPathPointToLayerAlgorithm::displayName()
const
33 return QObject::tr(
"Shortest path (point to layer)" );
36QStringList QgsShortestPathPointToLayerAlgorithm::tags()
const
38 return QObject::tr(
"network,path,shortest,fastest" ).split(
',' );
41QString QgsShortestPathPointToLayerAlgorithm::shortHelpString()
const
43 return QObject::tr(
"This algorithm computes optimal (shortest or fastest) route between given start point and multiple end points defined by point vector layer." );
51QgsShortestPathPointToLayerAlgorithm *QgsShortestPathPointToLayerAlgorithm::createInstance()
const
53 return new QgsShortestPathPointToLayerAlgorithm();
56void QgsShortestPathPointToLayerAlgorithm::initAlgorithm(
const QVariantMap & )
62 std::unique_ptr< QgsProcessingParameterNumber > maxEndPointDistanceFromNetwork = std::make_unique < QgsProcessingParameterDistance >( QStringLiteral(
"POINT_TOLERANCE" ), QObject::tr(
"Maximum point distance from network" ), QVariant(), QStringLiteral(
"INPUT" ),
true, 0 );
64 maxEndPointDistanceFromNetwork->setHelp( QObject::tr(
"Specifies an optional limit on the distance from the start and end points to the network layer.If the start point is further from the network than this distance an error will be raised. If the end feature is further from the network than this distance it will be treated as non-routable." ) );
65 addParameter( maxEndPointDistanceFromNetwork.release() );
69 std::unique_ptr< QgsProcessingParameterFeatureSink > outputNonRoutable = std::make_unique< QgsProcessingParameterFeatureSink >( QStringLiteral(
"OUTPUT_NON_ROUTABLE" ), QObject::tr(
"Non-routable features" ),
71 outputNonRoutable->setHelp( QObject::tr(
"An optional output which will be used to store any input features which could not be routed (e.g. those which are too far from the network layer)." ) );
72 outputNonRoutable->setCreateByDefault(
false );
73 addParameter( outputNonRoutable.release() );
78 loadCommonParams( parameters, context, feedback );
80 const QgsPointXY startPoint = parameterAsPoint( parameters, QStringLiteral(
"START_POINT" ), context, mNetwork->sourceCrs() );
82 std::unique_ptr< QgsFeatureSource > endPoints( parameterAsSource( parameters, QStringLiteral(
"END_POINTS" ), context ) );
87 fields.
append(
QgsField( QStringLiteral(
"start" ), QMetaType::Type::QString ) );
88 fields.
append(
QgsField( QStringLiteral(
"end" ), QMetaType::Type::QString ) );
89 fields.
append(
QgsField( QStringLiteral(
"cost" ), QMetaType::Type::Double ) );
96 QString nonRoutableSinkId;
97 std::unique_ptr< QgsFeatureSink > nonRoutableSink( parameterAsSink( parameters, QStringLiteral(
"OUTPUT_NON_ROUTABLE" ), context, nonRoutableSinkId, endPoints->fields(),
100 const double pointDistanceThreshold = parameters.value( QStringLiteral(
"POINT_TOLERANCE" ) ).isValid() ? parameterAsDouble( parameters, QStringLiteral(
"POINT_TOLERANCE" ), context ) : -1;
102 QVector< QgsPointXY > points;
103 points.push_front( startPoint );
104 QHash< int, QgsAttributes > sourceAttributes;
105 loadPoints( endPoints.get(), points, sourceAttributes, context, feedback );
107 feedback->
pushInfo( QObject::tr(
"Building graph…" ) );
108 QVector< QgsPointXY > snappedPoints;
109 mDirector->makeGraph( mBuilder.get(), points, snappedPoints, feedback );
111 const QgsPointXY snappedStartPoint = snappedPoints[0];
113 if ( pointDistanceThreshold >= 0 )
115 double distanceStartPointToNetwork = 0;
118 distanceStartPointToNetwork = mBuilder->distanceArea()->measureLine( startPoint, snappedStartPoint );
125 if ( distanceStartPointToNetwork > pointDistanceThreshold )
127 throw QgsProcessingException( QObject::tr(
"Start point is too far from the network layer (%1, maximum permitted is %2)" ).arg( distanceStartPointToNetwork ).arg( pointDistanceThreshold ) );
131 feedback->
pushInfo( QObject::tr(
"Calculating shortest paths…" ) );
132 std::unique_ptr< QgsGraph > graph( mBuilder->takeGraph() );
133 const int idxStart = graph->findVertex( snappedStartPoint );
137 QVector< double > costs;
140 QVector<QgsPointXY> route;
147 const double step = points.size() > 0 ? 100.0 / points.size() : 1;
148 for (
int i = 1; i < points.size(); i++ )
155 const QgsPointXY snappedPoint = snappedPoints.at( i );
156 const QgsPointXY originalPoint = points.at( i );
158 if ( pointDistanceThreshold >= 0 )
160 double distancePointToNetwork = 0;
163 distancePointToNetwork = mBuilder->distanceArea()->measureLine( originalPoint, snappedPoint );
170 if ( distancePointToNetwork > pointDistanceThreshold )
172 feedback->
pushWarning( QObject::tr(
"Point is too far from the network layer (%1, maximum permitted is %2)" ).arg( distancePointToNetwork ).arg( pointDistanceThreshold ) );
173 if ( nonRoutableSink )
176 attributes = sourceAttributes.value( i );
179 throw QgsProcessingException( writeFeatureError( nonRoutableSink.get(), parameters, QStringLiteral(
"OUTPUT_NON_ROUTABLE" ) ) );
187 idxEnd = graph->findVertex( snappedPoint );
188 if ( tree.at( idxEnd ) == -1 )
190 feedback->
reportError( QObject::tr(
"There is no route from start point (%1) to end point (%2)." )
194 attributes = sourceAttributes.value( i );
195 attributes.append( QVariant() );
196 attributes.append( originalPoint.
toString() );
204 route.push_front( graph->vertex( idxEnd ).point() );
205 cost = costs.at( idxEnd );
206 while ( idxEnd != idxStart )
208 idxEnd = graph->edge( tree.at( idxEnd ) ).fromVertex();
209 route.push_front( graph->vertex( idxEnd ).point() );
215 attributes = sourceAttributes.value( i );
216 attributes.append( startPoint.
toString() );
217 attributes.append( originalPoint.
toString() );
218 attributes.append( cost / mMultiplier );
230 outputs.insert( QStringLiteral(
"OUTPUT" ), dest );
231 if ( nonRoutableSink )
233 nonRoutableSink->finalize();
234 outputs.insert( QStringLiteral(
"OUTPUT_NON_ROUTABLE" ), nonRoutableSinkId );
@ VectorPoint
Vector point layers.
@ VectorLine
Vector line layers.
@ RegeneratesPrimaryKey
Algorithm always drops any existing primary keys or FID values and regenerates them in outputs.
QFlags< ProcessingAlgorithmDocumentationFlag > ProcessingAlgorithmDocumentationFlags
Flags describing algorithm behavior for documentation purposes.
@ Advanced
Parameter is an advanced parameter which should be hidden from users by default.
Custom exception class for Coordinate Reference System related exceptions.
@ FastInsert
Use faster inserts, at the cost of updating the passed features to reflect changes made at the provid...
@ RegeneratePrimaryKey
This flag indicates, that a primary key field cannot be guaranteed to be unique and the sink should i...
The feature class encapsulates a single feature including its unique ID, geometry and a list of field...
void setAttributes(const QgsAttributes &attrs)
Sets the feature's attributes.
void setFields(const QgsFields &fields, bool initAttributes=false)
Assigns a field map with the feature to allow attribute access by attribute name.
void clearGeometry()
Removes any geometry associated with the feature.
void setGeometry(const QgsGeometry &geometry)
Set the feature's geometry.
bool isCanceled() const
Tells whether the operation has been canceled already.
void setProgress(double progress)
Sets the current progress for the feedback object.
Encapsulate a field in an attribute table or data source.
Container of fields for a vector layer.
bool append(const QgsField &field, Qgis::FieldOrigin origin=Qgis::FieldOrigin::Provider, int originIndex=-1)
Appends a field.
A geometry is the spatial representation of a feature.
static QgsGeometry fromPolylineXY(const QgsPolylineXY &polyline)
Creates a new LineString geometry from a list of QgsPointXY points.
static QgsGeometry fromPointXY(const QgsPointXY &point)
Creates a new geometry from a QgsPointXY object.
static void dijkstra(const QgsGraph *source, int startVertexIdx, int criterionNum, QVector< int > *resultTree=nullptr, QVector< double > *resultCost=nullptr)
Solve shortest path problem using Dijkstra algorithm.
A class to represent a 2D point.
QString toString(int precision=-1) const
Returns a string representation of the point (x, y) with a preset precision.
Contains information about the context in which a processing algorithm is executed.
Custom exception class for processing related exceptions.
Base class for providing feedback from a processing algorithm.
virtual void pushInfo(const QString &info)
Pushes a general informational message from the algorithm.
virtual void pushWarning(const QString &warning)
Pushes a warning informational message from the algorithm.
virtual void reportError(const QString &error, bool fatalError=false)
Reports that the algorithm encountered an error while executing.
A feature sink output for processing algorithms.
An input feature source (such as vector layers) parameter for processing algorithms.
A point parameter for processing algorithms.