/************************************************************************ * This file has been generated automatically from * * * * src/analysis/network/qgsgraph.h * * * * Do not edit manually ! Edit header and run scripts/sipify.py again * ************************************************************************/ class QgsGraphEdge { %Docstring(signature="appended") This class implements a graph edge %End %TypeHeaderCode #include "qgsgraph.h" %End public: QgsGraphEdge(); QVariant cost( int strategyIndex ) const; %Docstring Returns edge cost calculated using specified strategy :param strategyIndex: strategy index %End QVector< QVariant > strategies() const; %Docstring Returns array of available strategies %End int toVertex() const; %Docstring Returns the index of the vertex at the end of this edge. .. seealso:: :py:func:`fromVertex` %End int fromVertex() const; %Docstring Returns the index of the vertex at the start of this edge. .. seealso:: :py:func:`toVertex` %End }; typedef QList< int > QgsGraphEdgeIds; class QgsGraphVertex { %Docstring(signature="appended") This class implements a graph vertex %End %TypeHeaderCode #include "qgsgraph.h" %End public: QgsGraphVertex(); QgsGraphVertex( const QgsPointXY &point ); %Docstring This constructor initializes QgsGraphVertex object and associates a vertex with a point %End QgsGraphEdgeIds incomingEdges() const; %Docstring Returns the incoming edge ids, i.e. edges which end at this node. .. seealso:: :py:func:`outgoingEdges` %End QgsGraphEdgeIds outgoingEdges() const; %Docstring Returns outgoing edge ids, i.e. edges which start at this node. .. seealso:: :py:func:`incomingEdges` %End QgsPointXY point() const; %Docstring Returns point associated with graph vertex. %End }; class QgsGraph { %Docstring(signature="appended") Mathematical graph representation %End %TypeHeaderCode #include "qgsgraph.h" %End public: QgsGraph(); int addVertex( const QgsPointXY &pt ); %Docstring Add a vertex to the graph %End int addEdge( int fromVertexIdx, int toVertexIdx, const QVector< QVariant > &strategies ); %Docstring Add an edge to the graph, going from the ``fromVertexIdx`` to ``toVertexIdx``. %End int vertexCount() const; %Docstring Returns number of graph vertices %End QgsGraphVertex vertex( int idx ) const; %Docstring Returns the vertex at the given index. :raises IndexError: if the vertex is not found. %End %MethodCode if ( sipCpp->hasVertex( a0 ) ) { return sipConvertFromNewType( new QgsGraphVertex( sipCpp->vertex( a0 ) ), sipType_QgsGraphVertex, Py_None ); } else { PyErr_SetString( PyExc_IndexError, QByteArray::number( a0 ) ); sipIsErr = 1; } %End void removeVertex( int index ); %Docstring Removes the vertex at specified ``index``. All edges which are incoming or outgoing edges for the vertex will also be removed. :raises IndexError: if the vertex is not found. .. versionadded:: 3.24 %End %MethodCode if ( sipCpp->hasVertex( a0 ) ) { sipCpp->removeVertex( a0 ); } else { PyErr_SetString( PyExc_IndexError, QByteArray::number( a0 ) ); sipIsErr = 1; } %End int edgeCount() const; %Docstring Returns number of graph edges %End QgsGraphEdge edge( int idx ) const; %Docstring Returns the edge at the given index. :raises IndexError: if the edge is not found. %End %MethodCode if ( sipCpp->hasEdge( a0 ) ) { return sipConvertFromNewType( new QgsGraphEdge( sipCpp->edge( a0 ) ), sipType_QgsGraphEdge, Py_None ); } else { PyErr_SetString( PyExc_IndexError, QByteArray::number( a0 ) ); sipIsErr = 1; } %End void removeEdge( int index ); %Docstring Removes the edge at specified ``index``. The incoming and outgoing edges for all graph vertices will be updated accordingly. Vertices which no longer have any incoming or outgoing edges as a result will be removed from the graph automatically. :raises IndexError: if the vertex is not found. .. versionadded:: 3.24 %End %MethodCode if ( sipCpp->hasEdge( a0 ) ) { sipCpp->removeEdge( a0 ); } else { PyErr_SetString( PyExc_IndexError, QByteArray::number( a0 ) ); sipIsErr = 1; } %End int findVertex( const QgsPointXY &pt ) const; %Docstring Find vertex by associated point :return: vertex index %End int findOppositeEdge( int index ) const; %Docstring Finds the first edge which is the opposite of the edge with the specified index. This represents the edge which has the same vertices as the specified edge, but the opposite direction in the graph.(I.e. the edge which starts at the "from" vertex of the specified edge and ends at the "to" vertex.) Returns -1 if no opposite edge exists. :raises IndexError: if the edge with the specified ``index`` is not found. .. versionadded:: 3.24 %End %MethodCode if ( sipCpp->hasEdge( a0 ) ) { sipRes = sipCpp->findOppositeEdge( a0 ); } else { PyErr_SetString( PyExc_IndexError, QByteArray::number( a0 ) ); sipIsErr = 1; } %End bool hasEdge( int index ) const; %Docstring Returns whether the edge of the given index exists. .. versionadded:: 3.24 %End bool hasVertex( int index ) const; %Docstring Returns whether the vertex of the given index exists. .. versionadded:: 3.24 %End protected: }; /************************************************************************ * This file has been generated automatically from * * * * src/analysis/network/qgsgraph.h * * * * Do not edit manually ! Edit header and run scripts/sipify.py again * ************************************************************************/