Class: QgsVectorLayerUtils¶
- class qgis.core.QgsVectorLayerUtils¶
Bases:
sip.wrapper
Contains utility methods for working with
QgsVectorLayers
.Methods
Creates a new feature ready for insertion into a layer.
Creates a set of new features ready for insertion into a layer.
Returns a new attribute value for the specified field index which is guaranteed to be unique.
Returns a new attribute value for the specified field index which is guaranteed to be unique within regard to
existingValues
.Duplicates a feature and it’s children (one level deep).
Returns
True
if the editability of the field at indexfieldIndex
fromlayer
may vary feature by feature.Tests whether a field is editable for a particular
feature
.- rtype
bool
Fetches all double values from a specified field name or expression.
- rtype
str
Fetches all values from a specified field name or expression.
Create a feature iterator for a specified field name or expression.
Given a set of
fields
, attempts to pick the “most useful” field for user-friendly identification of features.- rtype
Tuple[bool, QgsVectorLayerUtils.QgsDuplicateFeatureContext]
Converts input
feature
to be compatible with the givenlayer
.Converts input
features
to be compatible with the givenlayer
.Matches the attributes in
feature
to the specifiedfields
.Tests an attribute value to check whether it passes all constraints which are present on the corresponding field.
Returns
True
if the specified value already exists within a field.Attributes
- class CascadedFeatureFlag¶
Bases:
int
- class CascadedFeatureFlags¶
- class CascadedFeatureFlags(Union[QgsVectorLayerUtils.CascadedFeatureFlags, QgsVectorLayerUtils.CascadedFeatureFlag]) → None
- class CascadedFeatureFlags(QgsVectorLayerUtils.CascadedFeatureFlags) → None
Bases:
sip.wrapper
- IgnoreAuxiliaryLayers = 2¶
- class QgsDuplicateFeatureContext¶
Bases:
sip.wrapper
Constructor for QgsDuplicateFeatureContext
QgsVectorLayerUtils.QgsDuplicateFeatureContext(QgsVectorLayerUtils.:py:class:.QgsDuplicateFeatureContext)
Contains mainly the QMap with
QgsVectorLayer
andQgsFeatureIds
do list all the duplicated featuresNew in version 3.0.
- duplicatedFeatures(self, layer: QgsVectorLayer) → object¶
Returns the duplicated features in the given layer
New in version 3.0.
- Parameters
layer (QgsVectorLayer) –
- Return type
object
- layers(self) → List[QgsVectorLayer]¶
Returns all the layers on which features have been duplicated
New in version 3.0.
- Return type
List[QgsVectorLayer]
- class QgsFeatureData(geometry: QgsGeometry = QgsGeometry(), attributes: Dict[int, Any] = {})¶
Bases:
sip.wrapper
Constructs a new
QgsFeatureData
with givengeometry
andattributes
QgsVectorLayerUtils.QgsFeatureData(QgsVectorLayerUtils.:py:class:.QgsFeatureData)
Encapsulate geometry and attributes for new features, to be passed to createFeatures
See also
createFeatures()
New in version 3.6.
- attributes(self) → Dict[int, Any]¶
Returns attributes
- Return type
Dict[int, Any]
- geometry(self) → QgsGeometry¶
Returns geometry
- Return type
- createFeature(layer: QgsVectorLayer, geometry: QgsGeometry = QgsGeometry(), attributes: Dict[int, Any] = {}, context: QgsExpressionContext = None) → QgsFeature¶
Creates a new feature ready for insertion into a layer. Default values and constraints (e.g., unique constraints) will automatically be handled. An optional attribute map can be passed for the new feature to copy as many attribute values as possible from the map, assuming that they respect the layer’s constraints. Note that the created feature is not automatically inserted into the layer.
See also
- Parameters
layer (QgsVectorLayer) –
geometry (
QgsGeometry
= QgsGeometry()) –attributes (Dict[int) –
context (
QgsExpressionContext
= None) –
- Return type
- createFeatures(layer: QgsVectorLayer, featuresData: Iterable[QgsVectorLayerUtils.QgsFeatureData], context: QgsExpressionContext = None) → List[QgsFeature]¶
Creates a set of new features ready for insertion into a layer. Default values and constraints (e.g., unique constraints) will automatically be handled. Note that the created features are not automatically inserted into the layer.
See also
New in version 3.6.
- Parameters
layer (QgsVectorLayer) –
featuresData (Iterable[QgsVectorLayerUtils.QgsFeatureData]) –
context (
QgsExpressionContext
= None) –
- Return type
List[QgsFeature]
- createUniqueValue(layer: QgsVectorLayer, fieldIndex: int, seed: Any = None) → Any¶
Returns a new attribute value for the specified field index which is guaranteed to be unique. The optional seed value can be used as a basis for generated values.
See also
- Parameters
layer (QgsVectorLayer) –
fieldIndex (int) –
seed (Any = None) –
- Return type
Any
- createUniqueValueFromCache(layer: QgsVectorLayer, fieldIndex: int, existingValues: Iterable[Any], seed: Any = None) → Any¶
Returns a new attribute value for the specified field index which is guaranteed to be unique within regard to
existingValues
. The optional seed value can be used as a basis for generated values.New in version 3.6.
- Parameters
layer (QgsVectorLayer) –
fieldIndex (int) –
existingValues (Iterable[Any]) –
seed (Any = None) –
- Return type
Any
- duplicateFeature(layer: QgsVectorLayer, feature: QgsFeature, project: QgsProject, maxDepth: int = 0) → Tuple[QgsFeature, QgsVectorLayerUtils.QgsDuplicateFeatureContext]¶
Duplicates a feature and it’s children (one level deep). It calls CreateFeature, so default values and constraints (e.g., unique constraints) will automatically be handled. The duplicated feature will be automatically inserted into the layer.
duplicateFeatureContext
stores all the layers and the featureids of the duplicated features (incl. children)maxDepth
the maximum depth to duplicate children in relations, 0 is unlimited depth (in any case, limited to 100)depth
the current depth, not exposed in PythonreferencedLayersBranch
the current branch of layers across the relations, not exposed in Python, taken by copy not reference, used to avoid infinite loopNew in version 3.0.
- Parameters
layer (QgsVectorLayer) –
feature (QgsFeature) –
project (QgsProject) –
maxDepth (int = 0) –
- Return type
Tuple[
QgsFeature
, QgsVectorLayerUtils.QgsDuplicateFeatureContext]
- fieldEditabilityDependsOnFeature(layer: QgsVectorLayer, fieldIndex: int) → bool¶
Returns
True
if the editability of the field at indexfieldIndex
fromlayer
may vary feature by feature.I.e. if the field is taken from a joined layer, the value may or may not be editable for any individual feature depending on the join’s “upsert on edit” capabilities.
New in version 3.18.
- Parameters
layer (QgsVectorLayer) –
fieldIndex (int) –
- Return type
bool
- fieldIsEditable(layer: QgsVectorLayer, fieldIndex: int, feature: QgsFeature) → bool¶
Tests whether a field is editable for a particular
feature
.- Return type
bool
- Returns
True
if the field at indexfieldIndex
fromlayer
is editable,False
if the field is read only.
New in version 3.10.
- Parameters
layer (QgsVectorLayer) –
fieldIndex (int) –
feature (QgsFeature) –
- fieldIsReadOnly(layer: QgsVectorLayer, fieldIndex: int) → bool¶
- Return type
bool
- Returns
True
if the field at indexfieldIndex
fromlayer
is editable,False
if the field is read only.
If this function returns
True
then the editability of the field may still vary feature by feature. SeefieldIsEditable()
to determine this on a feature by feature basis.New in version 3.18.
- Parameters
layer (QgsVectorLayer) –
fieldIndex (int) –
- getDoubleValues(layer: QgsVectorLayer, fieldOrExpression: str, selectedOnly: bool = False, feedback: QgsFeedback = None) → Tuple[List[float], bool, int]¶
Fetches all double values from a specified field name or expression. Null values or invalid expression results are skipped.
- Parameters
layer (QgsVectorLayer) – vector layer to retrieve values from
fieldOrExpression (str) – field name or an expression string evaluating to a double value
ok – will be set to
False
if field or expression is invalid, otherwiseTrue
selectedOnly (bool = False) – set to
True
to get values from selected features onlynullCount – optional pointer to integer to store number of null values encountered in
feedback (
QgsFeedback
= None) – optional feedback object to allow cancellation
- Return type
Tuple[List[float], bool, int]
- Returns
list of fetched values
See also
New in version 3.0.
- getFeatureDisplayString(layer: QgsVectorLayer, feature: QgsFeature) → str¶
- Return type
str
- Returns
a descriptive string for a
feature
, suitable for displaying to the user. The definition is taken from thedisplayExpression
property oflayer
.
New in version 3.12.
- Parameters
layer (QgsVectorLayer) –
feature (QgsFeature) –
- getValues(layer: QgsVectorLayer, fieldOrExpression: str, selectedOnly: bool = False, feedback: QgsFeedback = None) → Tuple[List[Any], bool]¶
Fetches all values from a specified field name or expression.
- Parameters
layer (QgsVectorLayer) – vector layer to retrieve values from
fieldOrExpression (str) – field name or an expression string
ok – will be set to
False
if field or expression is invalid, otherwiseTrue
selectedOnly (bool = False) – set to
True
to get values from selected features onlyfeedback (
QgsFeedback
= None) – optional feedback object to allow cancellation
- Return type
Tuple[List[Any], bool]
- Returns
list of fetched values
See also
New in version 3.0.
- getValuesIterator(layer: QgsVectorLayer, fieldOrExpression: str, selectedOnly: bool) → Tuple[QgsFeatureIterator, bool]¶
Create a feature iterator for a specified field name or expression.
- Parameters
layer (QgsVectorLayer) – vector layer to retrieve values from
fieldOrExpression (str) – field name or an expression string
ok – will be set to
False
if field or expression is invalid, otherwiseTrue
selectedOnly (bool) – set to
True
to get values from selected features only
- Return type
Tuple[
QgsFeatureIterator
, bool]- Returns
feature iterator
New in version 3.0.
- guessFriendlyIdentifierField(fields: QgsFields) → str¶
Given a set of
fields
, attempts to pick the “most useful” field for user-friendly identification of features.For instance, if a field called “name” is present, this will be returned.
Assumes that the user has organized the data with the more “interesting” field names first. As such, “name” would be selected before “oldname”, “othername”, etc.
New in version 3.18.
- Parameters
fields (QgsFields) –
- Return type
str
- impactsCascadeFeatures(layer: QgsVectorLayer, fids: object, project: QgsProject, flags: Union[QgsVectorLayerUtils.CascadedFeatureFlags, QgsVectorLayerUtils.CascadedFeatureFlag] = QgsVectorLayerUtils.CascadedFeatureFlags()) → Tuple[bool, QgsVectorLayerUtils.QgsDuplicateFeatureContext]¶
- Return type
Tuple[bool, QgsVectorLayerUtils.QgsDuplicateFeatureContext]
- Returns
True
if at least one feature of thefids
onlayer
is connected as parent in at least one composition relation of theproject
or contains joins, where cascade delete is set. Details about cascading effects will be written tocontext
.
New in version 3.14.
- Parameters
layer (QgsVectorLayer) –
fids (object) –
project (QgsProject) –
flags (Union[QgsVectorLayerUtils.CascadedFeatureFlags) –
- makeFeatureCompatible(feature: QgsFeature, layer: QgsVectorLayer, sinkFlags: Union[QgsFeatureSink.SinkFlags, QgsFeatureSink.SinkFlag] = QgsFeatureSink.SinkFlags()) → List[QgsFeature]¶
Converts input
feature
to be compatible with the givenlayer
.This function returns a new list of transformed features compatible with the input layer, note that the number of features returned might be greater than one when converting a multi part geometry to single part
The following operations will be performed to convert the input features:
convert single geometries to multi part
drop additional attributes
drop geometry if layer is geometry-less
add missing attribute fields
add back M/Z values (initialized to 0)
drop Z/M
convert multi part geometries to single part
Optionally,
sinkFlags
can be specified to further refine the compatibility logic.New in version 3.4.
- Parameters
feature (QgsFeature) –
layer (QgsVectorLayer) –
sinkFlags (Union[QgsFeatureSink.SinkFlags) –
- Return type
List[QgsFeature]
- makeFeaturesCompatible(features: Iterable[QgsFeature], layer: QgsVectorLayer, sinkFlags: Union[QgsFeatureSink.SinkFlags, QgsFeatureSink.SinkFlag] = QgsFeatureSink.SinkFlags()) → List[QgsFeature]¶
Converts input
features
to be compatible with the givenlayer
.This function returns a new list of transformed features compatible with the input layer, note that the number of features returned might be greater than the number of input features.
The following operations will be performed to convert the input features:
convert single geometries to multi part
drop additional attributes
drop geometry if layer is geometry-less
add missing attribute fields
add back M/Z values (initialized to 0)
drop Z/M
convert multi part geometries to single part
Optionally,
sinkFlags
can be specified to further refine the compatibility logic.New in version 3.4.
- Parameters
features (Iterable[QgsFeature]) –
layer (QgsVectorLayer) –
sinkFlags (Union[QgsFeatureSink.SinkFlags) –
- Return type
List[QgsFeature]
- matchAttributesToFields(feature: QgsFeature, fields: QgsFields)¶
Matches the attributes in
feature
to the specifiedfields
.This causes the attributes contained within the given
feature
to be rearranged (or in some cases dropped) in order to match the fields and order indicated byfields
.The exact behavior depends on whether or not
feature
has a valid fields container set (seeQgsFeature.fields()
). If a fields container is set, then the names of the feature’s fields are matched tofields
. In this case attributes fromfeature
will be rearranged or dropped in order to match the field names fromfields
.If the
feature
does not have a valid fields container set, then the feature’s attributes are simply truncated to match the number of fields present infields
(or if less attributes are present infeature
than infields
, the feature’s attributes are padded with NULL values to match the required length). Finally, the feature’s fields are set tofields
.New in version 3.4.
- Parameters
feature (QgsFeature) –
fields (QgsFields) –
- validateAttribute(layer: QgsVectorLayer, feature: QgsFeature, attributeIndex: int, strength: QgsFieldConstraints.ConstraintStrength = QgsFieldConstraints.ConstraintStrengthNotSet, origin: QgsFieldConstraints.ConstraintOrigin = QgsFieldConstraints.ConstraintOriginNotSet) → Tuple[bool, List[str]]¶
Tests an attribute value to check whether it passes all constraints which are present on the corresponding field. Returns
True
if the attribute value is valid for the field. Any constraint failures will be reported in the errors argument. If the strength or origin parameter is set then only constraints with a matching strength/origin will be checked.- Parameters
layer (QgsVectorLayer) –
feature (QgsFeature) –
attributeIndex (int) –
strength (QgsFieldConstraints.ConstraintStrength = QgsFieldConstraints.ConstraintStrengthNotSet) –
origin (QgsFieldConstraints.ConstraintOrigin = QgsFieldConstraints.ConstraintOriginNotSet) –
- Return type
Tuple[bool, List[str]]
- valueExists(layer: QgsVectorLayer, fieldIndex: int, value: Any, ignoreIds: object = QgsFeatureIds()) → bool¶
Returns
True
if the specified value already exists within a field. This method can be used to test for uniqueness of values inside a layer’s attributes. An optional list of ignored feature IDs can be provided, if so, any features with IDs within this list are ignored when testing for existence of the value.See also
- Parameters
layer (QgsVectorLayer) –
fieldIndex (int) –
value (Any) –
ignoreIds (object = QgsFeatureIds()) –
- Return type
bool