/************************************************************************ * This file has been generated automatically from * * * * src/core/processing/qgsprocessingcontext.h * * * * Do not edit manually ! Edit header and run scripts/sipify.pl again * ************************************************************************/ class QgsProcessingContext { %Docstring Contains information about the context in which a processing algorithm is executed. Contextual information includes settings such as the associated project, and expression context. .. versionadded:: 3.0 %End %TypeHeaderCode #include "qgsprocessingcontext.h" %End public: enum Flag { // UseSelectionIfPresent, }; typedef QFlags Flags; QgsProcessingContext(); %Docstring Constructor for QgsProcessingContext. %End QgsProcessingContext::Flags flags() const; %Docstring Returns any flags set in the context. .. seealso:: setFlags() :rtype: QgsProcessingContext.Flags %End void setFlags( const QgsProcessingContext::Flags &flags ); %Docstring Sets ``flags`` for the context. .. seealso:: flags() %End QgsProject *project() const; %Docstring Returns the project in which the algorithm is being executed. .. seealso:: setProject() :rtype: QgsProject %End void setProject( QgsProject *project ); %Docstring Sets the ``project`` in which the algorithm will be executed. .. seealso:: project() %End QgsExpressionContext &expressionContext(); %Docstring Returns the expression context. :rtype: QgsExpressionContext %End void setExpressionContext( const QgsExpressionContext &context ); %Docstring Sets the expression ``context``. %End QgsMapLayerStore *temporaryLayerStore(); %Docstring Returns a reference to the layer store used for storing temporary layers during algorithm execution. :rtype: QgsMapLayerStore %End struct LayerDetails { LayerDetails( const QString &name, QgsProject *project ); %Docstring Constructor for LayerDetails. %End QString name; %Docstring Friendly name for layer, to use when loading layer into project. %End QgsProject *project; %Docstring Destination project %End }; QMap< QString, QgsProcessingContext::LayerDetails > layersToLoadOnCompletion() const; %Docstring Returns a map of layers (by ID or datasource) to LayerDetails, to load into the canvas upon completion of the algorithm or model. .. seealso:: setLayersToLoadOnCompletion() .. seealso:: addLayerToLoadOnCompletion() :rtype: QMap< str, QgsProcessingContext.LayerDetails > %End void setLayersToLoadOnCompletion( const QMap< QString, QgsProcessingContext::LayerDetails > &layers ); %Docstring Sets the map of ``layers`` (by ID or datasource) to LayerDetails, to load into the canvas upon completion of the algorithm or model. .. seealso:: addLayerToLoadOnCompletion() .. seealso:: layersToLoadOnCompletion() %End void addLayerToLoadOnCompletion( const QString &layer, const QgsProcessingContext::LayerDetails &details ); %Docstring Adds a ``layer`` to load (by ID or datasource) into the canvas upon completion of the algorithm or model. The ``details`` parameter dictates the LayerDetails. .. seealso:: setLayersToLoadOnCompletion() .. seealso:: layersToLoadOnCompletion() %End QgsFeatureRequest::InvalidGeometryCheck invalidGeometryCheck() const; %Docstring Returns the behavior used for checking invalid geometries in input layers. .. seealso:: setInvalidGeometryCheck() :rtype: QgsFeatureRequest.InvalidGeometryCheck %End void setInvalidGeometryCheck( const QgsFeatureRequest::InvalidGeometryCheck &check ); %Docstring Sets the behavior used for checking invalid geometries in input layers. .. seealso:: invalidGeometryCheck() %End void setInvalidGeometryCallback( SIP_PYCALLABLE / AllowNone / ); %Docstring Sets a callback function to use when encountering an invalid geometry and invalidGeometryCheck() is set to GeometryAbortOnInvalid. This function will be called using the feature with invalid geometry as a parameter. .. versionadded:: 3.0 .. seealso:: invalidGeometryCallback() %End %MethodCode Py_BEGIN_ALLOW_THREADS sipCpp->setInvalidGeometryCallback( [a0]( const QgsFeature &arg ) { SIP_BLOCK_THREADS Py_XDECREF( sipCallMethod( NULL, a0, "D", &arg, sipType_QgsFeature, NULL ) ); SIP_UNBLOCK_THREADS } ); Py_END_ALLOW_THREADS %End void setTransformErrorCallback( SIP_PYCALLABLE / AllowNone / ); %Docstring Sets a callback function to use when encountering a transform error when iterating features. This function will be called using the feature which encountered the transform error as a parameter. .. versionadded:: 3.0 .. seealso:: transformErrorCallback() %End %MethodCode Py_BEGIN_ALLOW_THREADS sipCpp->setTransformErrorCallback( [a0]( const QgsFeature &arg ) { SIP_BLOCK_THREADS Py_XDECREF( sipCallMethod( NULL, a0, "D", &arg, sipType_QgsFeature, NULL ) ); SIP_UNBLOCK_THREADS } ); Py_END_ALLOW_THREADS %End QString defaultEncoding() const; %Docstring Returns the default encoding to use for newly created files. .. seealso:: setDefaultEncoding() :rtype: str %End void setDefaultEncoding( const QString &encoding ); %Docstring Sets the default ``encoding`` to use for newly created files. .. seealso:: defaultEncoding() %End private: QgsProcessingContext( const QgsProcessingContext &other ); }; QFlags operator|(QgsProcessingContext::Flag f1, QFlags f2); /************************************************************************ * This file has been generated automatically from * * * * src/core/processing/qgsprocessingcontext.h * * * * Do not edit manually ! Edit header and run scripts/sipify.pl again * ************************************************************************/