QGIS/tests/src/python/provider_python.py at master · qgis/QGIS

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"""QGIS python layer provider test.

This module is a Python implementation of (a clone of) the core memory

vector layer provider, to be used for test_provider_python.py

.. note:: This program is free software; you can redistribute it and/or modify

it under the terms of the GNU General Public License as published by

the Free Software Foundation; either version 2 of the License, or

(at your option) any later version.

"""

__author__ = "Alessandro Pasotti"

__date__ = "2018-03-18"

from qgis._core import QgsUnsetAttributeValue

from qgis.core import (

Qgis,

QgsAbstractFeatureIterator,

QgsAbstractFeatureSource,

QgsCoordinateTransform,

QgsCsException,

QgsDataProvider,

QgsExpression,

QgsExpressionContext,

QgsExpressionContextUtils,

QgsFeature,

QgsFeatureIterator,

QgsFeatureRequest,

QgsFields,

QgsGeometry,

QgsProject,

QgsRectangle,

QgsSpatialIndex,

QgsUnsetAttributeValue,

QgsVectorDataProvider,

QgsVectorLayer,

)

from qgis.PyQt.QtCore import QVariant

class PyFeatureIterator(QgsAbstractFeatureIterator):

def __init__(self, source, request):

super().__init__(request)

self._request = request if request is not None else QgsFeatureRequest()

self._source = source

self._index = 0

self._transform = request.calculateTransform(self._source._provider.crs())

try:

self._filter_rect = self.filterRectToSourceCrs(self._transform)

except QgsCsException as e:

self.close()

return

self._filter_rect = self.filterRectToSourceCrs(self._transform)

if not self._filter_rect.isNull():

self._select_rect_geom = QgsGeometry.fromRect(self._filter_rect)

self._select_rect_engine = QgsGeometry.createGeometryEngine(

self._select_rect_geom.constGet()

)

self._select_rect_engine.prepareGeometry()

else:

self._select_rect_engine = None

self._select_rect_geom = None

if (

self._request.spatialFilterType() == Qgis.SpatialFilterType.DistanceWithin

and not self._request.referenceGeometry().isEmpty()

self._select_distance_within_geom = self._request.referenceGeometry()

self._select_distance_within_engine = QgsGeometry.createGeometryEngine(

self._select_distance_within_geom.constGet()

)

self._select_distance_within_engine.prepareGeometry()

else:

self._select_distance_within_geom = None

self._select_distance_within_engine = None

self._feature_id_list = None

if (

self._filter_rect is not None

and self._source._provider._spatialindex is not None

self._feature_id_list = self._source._provider._spatialindex.intersects(

self._filter_rect

)

if (

self._request.filterType() == QgsFeatureRequest.FilterType.FilterFid

or self._request.filterType() == QgsFeatureRequest.FilterType.FilterFids

fids = (

[self._request.filterFid()]

if self._request.filterType() == QgsFeatureRequest.FilterType.FilterFid

else self._request.filterFids()

)

self._feature_id_list = (

list(set(self._feature_id_list).intersection(set(fids)))

if self._feature_id_list

else fids

)

def fetchFeature(self, f):

"""fetch next feature, return true on success"""

# virtual bool nextFeature( QgsFeature &f );

if self._index < 0:

f.setValid(False)

return False

try:

found = False

while not found:

_f = self._source._features[

list(self._source._features.keys())[self._index]

]

self._index += 1

if (

self._feature_id_list is not None

and _f.id() not in self._feature_id_list

continue

if not self._filter_rect.isNull():

if not _f.hasGeometry():

continue

if self._request.flags() & QgsFeatureRequest.Flag.ExactIntersect:

# do exact check in case we're doing intersection

if not self._select_rect_engine.intersects(

_f.geometry().constGet()

continue

else:

if (

not _f.geometry()

.boundingBox()

.intersects(self._filter_rect)

continue

self._source._expression_context.setFeature(_f)

if (

self._request.filterType()

== QgsFeatureRequest.FilterType.FilterExpression

if not self._request.filterExpression().evaluate(

self._source._expression_context

continue

if self._source._subset_expression:

if not self._source._subset_expression.evaluate(

self._source._expression_context

continue

elif (

self._request.filterType()

== QgsFeatureRequest.FilterType.FilterFids

if not _f.id() in self._request.filterFids():

continue

elif (

self._request.filterType() == QgsFeatureRequest.FilterType.FilterFid

if _f.id() != self._request.filterFid():

continue

f.setGeometry(_f.geometry())

self.geometryToDestinationCrs(f, self._transform)

if (

self._select_distance_within_engine

and self._select_distance_within_engine.distance(

f.geometry().constGet()

)

> self._request.distanceWithin()

continue

f.setFields(_f.fields())

f.setAttributes(_f.attributes())

f.setValid(_f.isValid())

f.setId(_f.id())

return True

except IndexError as e:

f.setValid(False)

return False

def __iter__(self):

"""Returns self as an iterator object"""

self._index = 0

return self

def __next__(self):

"""Returns the next value till current is lower than high"""

f = QgsFeature()

if not self.nextFeature(f):

raise StopIteration

else:

return f

def rewind(self):

"""reset the iterator to the starting position"""

# virtual bool rewind() = 0;

if self._index < 0:

return False

self._index = 0

return True

def close(self):

"""end of iterating: free the resources / lock"""

# virtual bool close() = 0;

self._index = -1

return True

class PyFeatureSource(QgsAbstractFeatureSource):

def __init__(self, provider):

super().__init__()

self._provider = provider

self._features = provider._features

self._expression_context = QgsExpressionContext()

self._expression_context.appendScope(QgsExpressionContextUtils.globalScope())

self._expression_context.appendScope(

QgsExpressionContextUtils.projectScope(QgsProject.instance())

)

self._expression_context.setFields(self._provider.fields())

if self._provider.subsetString():

self._subset_expression = QgsExpression(self._provider.subsetString())

self._subset_expression.prepare(self._expression_context)

else:

self._subset_expression = None

def getFeatures(self, request):

return QgsFeatureIterator(PyFeatureIterator(self, request))

class PyProvider(QgsVectorDataProvider):

next_feature_id = 1

@classmethod

def providerKey(cls):

"""Returns the memory provider key"""

return "pythonprovider"

@classmethod

def description(cls):

"""Returns the memory provider description"""

return "Python Test Provider"

@classmethod

def createProvider(cls, uri, providerOptions, flags=QgsDataProvider.ReadFlags()):

return PyProvider(uri, providerOptions, flags)

# Implementation of functions from QgsVectorDataProvider

def __init__(

self,

uri="",

providerOptions=QgsDataProvider.ProviderOptions(),

flags=QgsDataProvider.ReadFlags(),

super().__init__(uri)

# Use the memory layer to parse the uri

mlayer = QgsVectorLayer(uri, "ml", "memory")

self.setNativeTypes(mlayer.dataProvider().nativeTypes())

self._uri = uri

self._fields = mlayer.fields()

self._wkbType = mlayer.wkbType()

self._features = {}

self._extent = QgsRectangle()

self._extent.setNull()

self._subset_string = ""

self._crs = mlayer.crs()

self._spatialindex = None

self._provider_options = providerOptions

self._flags = flags

if "index=yes" in self._uri:

self.createSpatialIndex()

def featureSource(self):

return PyFeatureSource(self)

def dataSourceUri(self, expandAuthConfig=True):

return self._uri

def storageType(self):

return "Python test memory storage"

def getFeatures(self, request=QgsFeatureRequest()):

return QgsFeatureIterator(PyFeatureIterator(PyFeatureSource(self), request))

def uniqueValues(self, fieldIndex, limit=1):

results = set()

if fieldIndex >= 0 and fieldIndex < self.fields().count():

req = QgsFeatureRequest()

req.setFlags(QgsFeatureRequest.Flag.NoGeometry)

req.setSubsetOfAttributes([fieldIndex])

for f in self.getFeatures(req):

results.add(f.attributes()[fieldIndex])

return results

def wkbType(self):

return self._wkbType

def featureCount(self):

if not self.subsetString():

return len(self._features)

else:

req = QgsFeatureRequest()

req.setFlags(QgsFeatureRequest.Flag.NoGeometry)

req.setSubsetOfAttributes([])

return len([f for f in self.getFeatures(req)])

def fields(self):

return self._fields

def addFeatures(self, flist, flags=None):

added = False

f_added = []

for f in flist:

if f.hasGeometry() and (f.geometry().wkbType() != self.wkbType()):

return added, f_added

for f in flist:

_f = QgsFeature(self.fields())

_f.setGeometry(f.geometry())

attrs = [None for i in range(_f.fields().count())]

for i in range(min(len(attrs), len(f.attributes()))):

attrs[i] = f.attributes()[i]

_f.setAttributes(attrs)

_f.setId(self.next_feature_id)

self._features[self.next_feature_id] = _f

self.next_feature_id += 1

added = True

f_added.append(_f)

if self._spatialindex is not None:

self._spatialindex.addFeature(_f)

if len(f_added):

self.clearMinMaxCache()

self.updateExtents()

return added, f_added

def deleteFeatures(self, ids):

if not ids:

return True

removed = False

for id in ids:

if id in self._features:

if self._spatialindex is not None:

self._spatialindex.deleteFeature(self._features[id])

del self._features[id]

removed = True

if removed:

self.clearMinMaxCache()

self.updateExtents()

return removed

def addAttributes(self, attrs):

try:

for new_f in attrs:

if new_f.type() not in (

QVariant.Int,

QVariant.Double,

QVariant.String,

QVariant.Date,

QVariant.Time,

QVariant.DateTime,

QVariant.LongLong,

QVariant.StringList,

QVariant.List,

continue

self._fields.append(new_f)

for f in self._features.values():

old_attrs = f.attributes()

old_attrs.append(None)

f.setAttributes(old_attrs)

self.clearMinMaxCache()

return True

except Exception:

return False

def renameAttributes(self, renamedAttributes):

result = True

# We need to replace all fields because python bindings return a copy from [] and at()

new_fields = [self._fields.at(i) for i in range(self._fields.count())]

for fieldIndex, new_name in renamedAttributes.items():

if fieldIndex < 0 or fieldIndex >= self._fields.count():

result = False

continue

if self._fields.indexFromName(new_name) >= 0:

# field name already in use

result = False

continue

new_fields[fieldIndex].setName(new_name)

if result:

self._fields = QgsFields()

for i in range(len(new_fields)):

self._fields.append(new_fields[i])

return result

def deleteAttributes(self, attributes):

attrIdx = sorted(attributes, reverse=True)

# delete attributes one-by-one with decreasing index

for idx in attrIdx:

self._fields.remove(idx)

for f in self._features.values():

attr = f.attributes()

del attr[idx]

f.setAttributes(attr)

self.clearMinMaxCache()

return True

def changeAttributeValues(self, attr_map):

for feature_id, attrs in attr_map.items():

try:

f = self._features[feature_id]

except KeyError:

continue

for k, v in attrs.items():

if isinstance(v, QgsUnsetAttributeValue):

continue

f.setAttribute(k, v)

self.clearMinMaxCache()

return True

def changeGeometryValues(self, geometry_map):

for feature_id, geometry in geometry_map.items():

try:

f = self._features[feature_id]

f.setGeometry(geometry)

except KeyError:

continue

self.updateExtents()

return True

def allFeatureIds(self):

return list(self._features.keys())

def subsetString(self):

return self._subset_string

def setSubsetString(self, subsetString):

if subsetString == self._subset_string:

return True

self._subset_string = subsetString

self.updateExtents()

self.clearMinMaxCache()

self.dataChanged.emit()

return True

def supportsSubsetString(self):

return True

def createSpatialIndex(self):

if self._spatialindex is None:

self._spatialindex = QgsSpatialIndex()

for f in self._features.values():

self._spatialindex.insertFeature(f)

return True

def capabilities(self):

return (

QgsVectorDataProvider.Capability.AddFeatures

| QgsVectorDataProvider.Capability.DeleteFeatures

| QgsVectorDataProvider.Capability.CreateSpatialIndex

| QgsVectorDataProvider.Capability.ChangeGeometries

| QgsVectorDataProvider.Capability.ChangeAttributeValues

| QgsVectorDataProvider.Capability.AddAttributes

| QgsVectorDataProvider.Capability.DeleteAttributes

| QgsVectorDataProvider.Capability.RenameAttributes

| QgsVectorDataProvider.Capability.SelectAtId

| QgsVectorDataProvider.Capability.CircularGeometries

)

# /* Implementation of functions from QgsDataProvider */

def name(self):

return self.providerKey()

def extent(self):

if self._extent.isEmpty() and self._features:

self._extent.setNull()

if not self._subset_string:

# fast way - iterate through all features

for feat in self._features.values():

if feat.hasGeometry():

self._extent.combineExtentWith(feat.geometry().boundingBox())

else:

for f in self.getFeatures(

QgsFeatureRequest().setSubsetOfAttributes([])

if f.hasGeometry():

self._extent.combineExtentWith(f.geometry().boundingBox())

elif not self._features:

self._extent.setNull()

return QgsRectangle(self._extent)

def updateExtents(self):

self._extent.setNull()

def isValid(self):

return True

def crs(self):

return self._crs

def handlePostCloneOperations(self, source):

self._features = source._features

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