QGIS/python/core/auto_generated/processing/qgsprocessingutils.sip.in

/************************************************************************
 * This file has been generated automatically from                      *
 *                                                                      *
 * src/core/processing/qgsprocessingutils.h                             *
 *                                                                      *
 * Do not edit manually ! Edit header and run scripts/sipify.py again   *
 ************************************************************************/







class QgsProcessingUtils
{
%Docstring(signature="appended")
Utility functions for use with processing classes.
%End

%TypeHeaderCode
#include "qgsprocessingutils.h"
%End
  public:
    static const QMetaObject staticMetaObject;

  public:

    static QList< QgsRasterLayer * > compatibleRasterLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of raster layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`
%End

    static QList< QgsVectorLayer * > compatibleVectorLayers( QgsProject *project,
        const QList< int > &sourceTypes = QList< int >(),
        bool sort = true );
%Docstring
Returns a list of vector layers from a ``project`` which are compatible with the processing
framework.

The ``sourceTypes`` list should be filled with a list of :py:class:`QgsProcessing`.SourceType values.
If the ``sourceTypes`` list is non-empty then the layers will be sorted so that only
layers with the specified source type included in the list will be returned. Leaving the ``sourceTypes``
list empty will cause all vector layers, regardless of their geometry type, to be returned.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`
%End

    static QList<QgsMeshLayer *> compatibleMeshLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of mesh layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`

.. versionadded:: 3.6
%End

    static QList<QgsPluginLayer *> compatiblePluginLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of plugin layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`

.. versionadded:: 3.22
%End

    static QList<QgsPointCloudLayer *> compatiblePointCloudLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of point cloud layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`

.. versionadded:: 3.22
%End

    static QList<QgsAnnotationLayer *> compatibleAnnotationLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of annotation layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`

.. versionadded:: 3.22
%End

    static QList<QgsVectorTileLayer *> compatibleVectorTileLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of vector tile layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleTiledSceneLayers`

.. seealso:: :py:func:`compatibleLayers`

.. versionadded:: 3.32
%End

    static QList<QgsTiledSceneLayer *> compatibleTiledSceneLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of tiled scene layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`

.. seealso:: :py:func:`compatibleMeshLayers`

.. seealso:: :py:func:`compatiblePluginLayers`

.. seealso:: :py:func:`compatiblePointCloudLayers`

.. seealso:: :py:func:`compatibleAnnotationLayers`

.. seealso:: :py:func:`compatibleVectorTileLayers`

.. seealso:: :py:func:`compatibleLayers`

.. versionadded:: 3.34
%End

    static QList< QgsMapLayer * > compatibleLayers( QgsProject *project, bool sort = true );
%Docstring
Returns a list of map layers from a ``project`` which are compatible with the processing
framework.

If the ``sort`` argument is ``True`` then the layers will be sorted by their :py:func:`QgsMapLayer.name()`
value.

.. seealso:: :py:func:`compatibleRasterLayers`

.. seealso:: :py:func:`compatibleVectorLayers`
%End

    static QString encodeProviderKeyAndUri( const QString &providerKey, const QString &uri );
%Docstring
Encodes a provider key and layer ``uri`` to a single string, for use with
:py:func:`~QgsProcessingUtils.decodeProviderKeyAndUri`

.. versionadded:: 3.14
%End

    static bool decodeProviderKeyAndUri( const QString &string, QString &providerKey /Out/, QString &uri /Out/ );
%Docstring
Decodes a provider key and layer ``uri`` from an encoded string, for use with
:py:func:`~QgsProcessingUtils.encodeProviderKeyAndUri`

:param string: encoded string, as returned by :py:func:`~QgsProcessingUtils.encodeProviderKeyAndUri`

:return: - ``True`` if ``string`` was successfully decoded
         - providerKey: ID key for corresponding data provider
         - uri: decoded layer uri

.. versionadded:: 3.14
%End

    enum class LayerHint
    {
      UnknownType,
      Vector,
      Raster,
      Mesh,
      PointCloud,
      Annotation,
      VectorTile,
      TiledScene,
    };

    static QgsMapLayer *mapLayerFromString( const QString &string, QgsProcessingContext &context, bool allowLoadingNewLayers = true, QgsProcessingUtils::LayerHint typeHint = QgsProcessingUtils::LayerHint::UnknownType, QgsProcessing::LayerOptionsFlags flags = QgsProcessing::LayerOptionsFlags() );
%Docstring
Interprets a string as a map layer within the supplied ``context``.

The method will attempt to
load a layer matching the passed ``string``. E.g. if the string matches a layer ID or name
within the context's project or temporary layer store then this layer will be returned.
If the string is a file path and ``allowLoadingNewLayers`` is ``True``, then the layer at this
file path will be loaded and added to the context's temporary layer store.
Ownership of the layer remains with the ``context`` or the context's current project.

The ``typeHint`` can be used to dictate the type of map layer expected.
%End

    static QgsProcessingFeatureSource *variantToSource( const QVariant &value, QgsProcessingContext &context, const QVariant &fallbackValue = QVariant() ) /Factory/;
%Docstring
Converts a variant ``value`` to a new feature source.

Sources will either be taken from ``context``'s active project, or loaded from external
sources and stored temporarily in the ``context``.

The optional ``fallbackValue`` can be used to specify a "default" value which is used
if ``value`` cannot be successfully converted to a source.

This function creates a new object and the caller takes responsibility for deleting the returned object.
%End

    static QgsCoordinateReferenceSystem variantToCrs( const QVariant &value, QgsProcessingContext &context, const QVariant &fallbackValue = QVariant() );
%Docstring
Converts a variant ``value`` to a coordinate reference system.

The optional ``fallbackValue`` can be used to specify a "default" value which is used
if ``value`` cannot be successfully converted to a CRS.

.. versionadded:: 3.12
%End

    static QString normalizeLayerSource( const QString &source ) /HoldGIL/;
%Docstring
Normalizes a layer ``source`` string for safe comparison across different
operating system environments.
%End

    static QString layerToStringIdentifier( const QgsMapLayer *layer ) /HoldGIL/;
%Docstring
Returns a string representation of the source for a ``layer``. The returned
value is suitable for storage for subsequent executions of an algorithm
using the same layer source.

.. versionadded:: 3.34
%End

    static QString variantToPythonLiteral( const QVariant &value );
%Docstring
Converts a variant to a Python literal.

.. seealso:: :py:func:`stringToPythonLiteral`

.. versionadded:: 3.6
%End

    static QString stringToPythonLiteral( const QString &string ) /HoldGIL/;
%Docstring
Converts a string to a Python string literal. E.g. by replacing ' with \'.

.. seealso:: :py:func:`variantToPythonLiteral`
%End


    static void createFeatureSinkPython( QgsFeatureSink **sink /Out,TransferBack/, QString &destination /In,Out/, QgsProcessingContext &context, const QgsFields &fields, Qgis::WkbType geometryType, const QgsCoordinateReferenceSystem &crs, const QVariantMap &createOptions = QVariantMap() ) throw( QgsProcessingException ) /PyName=createFeatureSink/;
%Docstring
Creates a feature sink ready for adding features. The ``destination`` specifies a destination
URI for the resultant layer. It may be updated in place to reflect the actual destination
for the layer.

Sink parameters such as desired ``fields``, ``geometryType`` and ``crs`` must be specified.

The ``createOptions`` map can be used to specify additional sink creation options, which
are passed to the underlying provider when creating new layers. Known options also
include 'fileEncoding', which is used to specify a file encoding to use for created
files. If 'fileEncoding' is not specified, the default encoding from the ``context`` will be used.

If a layer is created for the feature sink, the layer will automatically be added to the ``context``'s
temporary layer store.

.. note::

   this version of the :py:func:`~QgsProcessingUtils.createFeatureSink` function has an API designed around use from the
   SIP bindings. c++ code should call the other :py:func:`~QgsProcessingUtils.createFeatureSink` version.

.. note::

   available in Python bindings as :py:func:`~QgsProcessingUtils.createFeatureSink`
%End


    static QgsRectangle combineLayerExtents( const QList<QgsMapLayer *> &layers, const QgsCoordinateReferenceSystem &crs, QgsProcessingContext &context );
%Docstring
Combines the extent of several map ``layers``. If specified, the target ``crs``
will be used to transform the layer's extent to the desired output reference system
using the specified ``context``.

.. versionadded:: 3.8
%End

 static QgsRectangle combineLayerExtents( const QList<QgsMapLayer *> &layers, const QgsCoordinateReferenceSystem &crs = QgsCoordinateReferenceSystem() ) /Deprecated="Since 3.40. Use version with QgsProcessingContext argument instead."/;
%Docstring
Combines the extent of several map ``layers``. If specified, the target ``crs``
will be used to transform the layer's extent to the desired output reference system.

.. deprecated:: 3.40

   Use version with :py:class:`QgsProcessingContext` argument instead.
%End

    static QVariant generateIteratingDestination( const QVariant &input, const QVariant &id, QgsProcessingContext &context );
%Docstring
Converts an ``input`` parameter value for use in source iterating mode, where one individual sink
is created per input feature.
The ``id`` parameter represents the unique ID for this output, which is embedded into the resulting
parameter value.
%End

    static QString tempFolder( const QgsProcessingContext *context = 0 );
%Docstring
Returns a session specific processing temporary folder for use in processing algorithms.

.. seealso:: :py:func:`generateTempFilename`
%End

    static QString generateTempFilename( const QString &basename, const QgsProcessingContext *context = 0 );
%Docstring
Returns a temporary filename for a given file, putting it into
a temporary folder (creating that folder in the process),
but not changing the ``basename``.

.. seealso:: :py:func:`tempFolder`
%End

    static QString formatHelpMapAsHtml( const QVariantMap &map, const QgsProcessingAlgorithm *algorithm );
%Docstring
Returns a HTML formatted version of the help text encoded in a variant ``map`` for
a specified ``algorithm``.
%End

    static QString convertToCompatibleFormat( const QgsVectorLayer *layer,
        bool selectedFeaturesOnly,
        const QString &baseName,
        const QStringList &compatibleFormats,
        const QString &preferredFormat,
        QgsProcessingContext &context,
        QgsProcessingFeedback *feedback,
        long long featureLimit = -1,
        const QString &filterExpression = QString() );
%Docstring
Converts a source vector ``layer`` to a file path of a vector layer of compatible format.

If the specified ``layer`` is not of the format listed in the
``compatibleFormats`` argument, then the layer will first be exported to a compatible format
in a temporary location using ``baseName``. The function will then return the path to that temporary file.

``compatibleFormats`` should consist entirely of lowercase file extensions, e.g. 'shp'.

The ``preferredFormat`` argument is used to specify to desired file extension to use when a temporary
layer export is required. This defaults to shapefiles.

The ``featureLimit`` argument can be used to specify a limit on the number of features read from the layer.

Since QGIS 3.32, the optional ``filterExpression`` argument can be used to specify a expression to use
to filter the features read from the layer.

When an algorithm is capable of handling multi-layer input files (such as Geopackage), it is preferable
to use :py:func:`~QgsProcessingUtils.convertToCompatibleFormatAndLayerName` which may avoid conversion in more situations.

.. seealso:: :py:func:`convertToCompatibleFormatAndLayerName`
%End

    static QString convertToCompatibleFormatAndLayerName( const QgsVectorLayer *layer,
        bool selectedFeaturesOnly,
        const QString &baseName,
        const QStringList &compatibleFormats,
        const QString &preferredFormat,
        QgsProcessingContext &context,
        QgsProcessingFeedback *feedback,
        QString &layerName /Out/,
        long long featureLimit = -1,
        const QString &filterExpression = QString() );
%Docstring
Converts a source vector ``layer`` to a file path and layer name of a vector layer of compatible format.

If the specified ``layer`` is not of the format listed in the
``compatibleFormats`` argument, then the layer will first be exported to a compatible format
in a temporary location using ``baseName``. The function will then return the path to that temporary file.

``compatibleFormats`` should consist entirely of lowercase file extensions, e.g. 'shp'.

The ``featureLimit`` argument can be used to specify a limit on the number of features read from the layer.

The ``preferredFormat`` argument is used to specify to desired file extension to use when a temporary
layer export is required. This defaults to shapefiles.

This method should be preferred over :py:func:`~QgsProcessingUtils.convertToCompatibleFormat` when an algorithm is able
to correctly handle files with multiple layers. Unlike :py:func:`~QgsProcessingUtils.convertToCompatibleFormat`, it will not force
a conversion in this case and will return the target layer name in the ``layerName`` argument.

:param layer: source layer to convert (if required)
:param selectedFeaturesOnly: ``True`` if only selected features from the layer should be used
:param baseName: base file name for converted layer, if required
:param compatibleFormats: a list of lowercase file extensions compatible with the algorithm
:param preferredFormat: preferred format extension to use if conversion if required
:param context: processing context
:param feedback: feedback object
:param featureLimit: can be used to place a limit on the maximum number of features read from the layer
:param filterExpression: optional expression for filtering features read from the layer (since QGIS 3.32)

:return: - path to source layer, or nearly converted compatible layer
         - layerName: the target layer name for multi-layer sources (e.g. Geopackage)

.. seealso:: :py:func:`convertToCompatibleFormat`

.. versionadded:: 3.10
%End

    static QgsFields combineFields( const QgsFields &fieldsA, const QgsFields &fieldsB, const QString &fieldsBPrefix = QString() ) /HoldGIL/;
%Docstring
Combines two field lists, avoiding duplicate field names (in a case-insensitive manner).

Duplicate field names will be altered to "name_2", "name_3", etc, finding the first
non-duplicate name.

.. note::

   Some output file formats (e.g. shapefiles) have restrictions on the maximum
   length of field names, so be aware that the results of calling this method may
   be truncated when saving to these formats.
%End

    static QList<int> fieldNamesToIndices( const QStringList &fieldNames, const QgsFields &fields ) /HoldGIL/;
%Docstring
Returns a list of field indices parsed from the given list of field names. Unknown field names are ignored.
If the list of field names is empty, it is assumed that all fields are required.

.. versionadded:: 3.2
%End

    static QgsFields indicesToFields( const QList<int> &indices, const QgsFields &fields ) /HoldGIL/;
%Docstring
Returns a subset of fields based on the indices of desired fields.

.. versionadded:: 3.2
%End

    static QString defaultVectorExtension();
%Docstring
Returns the default vector extension to use, in the absence of all other constraints (e.g.
provider based support for extensions).

This method returns the user-set default extension from the processing settings, or
a fallback value of "gpkg".

.. seealso:: :py:func:`defaultRasterExtension`

.. seealso:: :py:func:`defaultPointCloudExtension`

.. seealso:: :py:func:`defaultVectorTileExtension`

.. versionadded:: 3.10
%End

    static QString defaultRasterExtension();
%Docstring
Returns the default raster extension to use, in the absence of all other constraints (e.g.
provider based support for extensions).

This method returns the user-set default extension from the processing settings, or
a fallback value of "tif".

.. seealso:: :py:func:`defaultVectorExtension`

.. seealso:: :py:func:`defaultPointCloudExtension`

.. seealso:: :py:func:`defaultVectorTileExtension`

.. versionadded:: 3.10
%End

    static QString defaultPointCloudExtension();
%Docstring
Returns the default point cloud extension to use, in the absence of all other constraints (e.g.
provider based support for extensions).

This method returns a fallback value of "las".

.. seealso:: :py:func:`defaultVectorExtension`

.. seealso:: :py:func:`defaultRasterExtension`

.. seealso:: :py:func:`defaultVectorTileExtension`

.. versionadded:: 3.24
%End

    static QString defaultVectorTileExtension();
%Docstring
Returns the default vector tile extension to use, in the absence of all other constraints (e.g.
provider based support for extensions).

This method returns a fallback value of "mbtiles".

.. seealso:: :py:func:`defaultVectorExtension`

.. seealso:: :py:func:`defaultRasterExtension`

.. seealso:: :py:func:`defaultPointCloudExtension`

.. versionadded:: 3.32
%End

    static QVariantMap removePointerValuesFromMap( const QVariantMap &map );
%Docstring
Removes any raw pointer values from an input ``map``, replacing them with
appropriate string values where possible.

.. versionadded:: 3.26
%End

    static QVariantMap preprocessQgisProcessParameters( const QVariantMap &parameters, bool &ok, QString &error );
%Docstring
Pre-processes a set of ``parameter`` values for the qgis_process command.

In particular, this function upgrades encoded data defined values to :py:class:`QgsProperty` objects.

.. versionadded:: 3.30
%End

    static QString resolveDefaultEncoding( const QString &defaultEncoding = "System" );
%Docstring
Returns the default encoding.

The default encoding could be the one from "/Processing/encoding" or when it's not an allowed encoding name
like "System", the default encoding system (mostly UTF-8 on Unix-like, windows-1252 on Windows).

.. versionadded:: 3.32
%End

};

class QgsProcessingFeatureSource : QgsFeatureSource
{
%Docstring(signature="appended")
:py:class:`QgsFeatureSource` subclass which proxies methods to an underlying :py:class:`QgsFeatureSource`, modifying
results according to the settings in a :py:class:`QgsProcessingContext`.
%End

%TypeHeaderCode
#include "qgsprocessingutils.h"
%End
  public:

    QgsProcessingFeatureSource( QgsFeatureSource *originalSource, const QgsProcessingContext &context, bool ownsOriginalSource = false,
                                long long featureLimit = -1, const QString &filterExpression = QString() );
%Docstring
Constructor for QgsProcessingFeatureSource, accepting an original feature source ``originalSource``
and processing ``context``.
Ownership of ``originalSource`` is dictated by ``ownsOriginalSource``. If ``ownsOriginalSource`` is ``False``,
ownership is not transferred, and callers must ensure that ``originalSource`` exists for the lifetime of this object.
If ``ownsOriginalSource`` is ``True``, then this object will take ownership of ``originalSource``.

If ``featureLimit`` is set to a value > 0, then a limit is placed on the maximum number of features which will be
read from the source.

Since QGIS 3.32, the optional ``filterExpression`` can be used to specify an expression based filter for the source.
%End

    ~QgsProcessingFeatureSource();

    QgsFeatureIterator getFeatures( const QgsFeatureRequest &request, Qgis::ProcessingFeatureSourceFlags flags ) const;
%Docstring
Returns an iterator for the features in the source, respecting the supplied feature ``flags``.
An optional ``request`` can be used to optimise the returned
iterator, eg by restricting the returned attributes or geometry.
%End

    virtual Qgis::FeatureAvailability hasFeatures() const;


    virtual QgsFeatureIterator getFeatures( const QgsFeatureRequest &request = QgsFeatureRequest() ) const;

    virtual QgsCoordinateReferenceSystem sourceCrs() const;

    virtual QgsFields fields() const;

    virtual Qgis::WkbType wkbType() const;

    virtual long long featureCount() const;

    virtual QString sourceName() const;

    virtual QSet<QVariant> uniqueValues( int fieldIndex, int limit = -1 ) const;

    virtual QVariant minimumValue( int fieldIndex ) const;

    virtual QVariant maximumValue( int fieldIndex ) const;

    virtual QgsRectangle sourceExtent() const;

    virtual QgsFeatureIds allFeatureIds() const;

    virtual Qgis::SpatialIndexPresence hasSpatialIndex() const;


    QgsExpressionContextScope *createExpressionContextScope() const /Factory/;
%Docstring
Returns an expression context scope suitable for this source.
%End

    void setInvalidGeometryCheck( Qgis::InvalidGeometryCheck method );
%Docstring
Overrides the default geometry check method for the source.

.. seealso:: :py:func:`invalidGeometryCheck`

.. versionadded:: 3.14
%End

    Qgis::InvalidGeometryCheck invalidGeometryCheck() const;
%Docstring
Returns the geometry check method for the source.

.. seealso:: :py:func:`setInvalidGeometryCheck`

.. versionadded:: 3.36
%End

};




/************************************************************************
 * This file has been generated automatically from                      *
 *                                                                      *
 * src/core/processing/qgsprocessingutils.h                             *
 *                                                                      *
 * Do not edit manually ! Edit header and run scripts/sipify.py again   *
 ************************************************************************/