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235 lines
9.5 KiB
Python
235 lines
9.5 KiB
Python
# -*- coding: utf-8 -*-
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"""
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***************************************************************************
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Gridify.py
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---------------------
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Date : May 2010
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Copyright : (C) 2010 by Michael Minn
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Email : pyqgis at michaelminn dot com
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***************************************************************************
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License as published by *
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* the Free Software Foundation; either version 2 of the License, or *
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* (at your option) any later version. *
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* *
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***************************************************************************
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"""
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__author__ = 'Michael Minn'
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__date__ = 'May 2010'
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__copyright__ = '(C) 2010, Michael Minn'
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# This will get replaced with a git SHA1 when you do a git archive
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__revision__ = '$Format:%H$'
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from qgis.core import (QgsFeature,
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QgsGeometry,
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QgsMultiPointV2,
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QgsMultiLineString,
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QgsLineString,
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QgsPolygonV2,
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QgsFeatureSink,
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QgsWkbTypes,
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QgsProcessingException,
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QgsProcessingParameterFeatureSource,
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QgsProcessingParameterEnum,
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QgsProcessingParameterFeatureSink)
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from processing.algs.qgis.QgisAlgorithm import QgisAlgorithm
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class GeometryConvert(QgisAlgorithm):
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INPUT = 'INPUT'
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TYPE = 'TYPE'
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OUTPUT = 'OUTPUT'
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def group(self):
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return self.tr('Vector geometry')
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def __init__(self):
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super().__init__()
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def initAlgorithm(self, config=None):
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self.types = [self.tr('Centroids'),
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self.tr('Nodes'),
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self.tr('Linestrings'),
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self.tr('Multilinestrings'),
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self.tr('Polygons')]
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self.addParameter(QgsProcessingParameterFeatureSource(self.INPUT,
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self.tr('Input layer')))
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self.addParameter(QgsProcessingParameterEnum(self.TYPE,
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self.tr('New geometry type'), options=self.types))
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self.addParameter(QgsProcessingParameterFeatureSink(self.OUTPUT,
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self.tr('Converted')))
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def name(self):
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return 'convertgeometrytype'
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def displayName(self):
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return self.tr('Convert geometry type')
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def processAlgorithm(self, parameters, context, feedback):
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source = self.parameterAsSource(parameters, self.INPUT, context)
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index = self.parameterAsEnum(parameters, self.TYPE, context)
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if index == 0:
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newType = QgsWkbTypes.Point
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elif index == 1:
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newType = QgsWkbTypes.Point
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if QgsWkbTypes.hasM(source.wkbType()):
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newType = QgsWkbTypes.addM(newType)
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if QgsWkbTypes.hasZ(source.wkbType()):
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newType = QgsWkbTypes.addZ(newType)
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elif index == 2:
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newType = QgsWkbTypes.LineString
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if QgsWkbTypes.hasM(source.wkbType()):
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newType = QgsWkbTypes.addM(newType)
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if QgsWkbTypes.hasZ(source.wkbType()):
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newType = QgsWkbTypes.addZ(newType)
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elif index == 3:
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newType = QgsWkbTypes.MultiLineString
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if QgsWkbTypes.hasM(source.wkbType()):
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newType = QgsWkbTypes.addM(newType)
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if QgsWkbTypes.hasZ(source.wkbType()):
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newType = QgsWkbTypes.addZ(newType)
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else:
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newType = QgsWkbTypes.Polygon
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if QgsWkbTypes.hasM(source.wkbType()):
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newType = QgsWkbTypes.addM(newType)
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if QgsWkbTypes.hasZ(source.wkbType()):
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newType = QgsWkbTypes.addZ(newType)
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(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT, context,
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source.fields(), newType, source.sourceCrs())
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features = source.getFeatures()
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total = 100.0 / source.featureCount() if source.featureCount() else 0
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for current, f in enumerate(features):
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if feedback.isCanceled():
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break
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if not f.hasGeometry():
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sink.addFeature(f, QgsFeatureSink.FastInsert)
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else:
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for p in self.convertGeometry(f.geometry(), index):
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feat = QgsFeature()
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feat.setAttributes(f.attributes())
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feat.setGeometry(p)
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sink.addFeature(feat, QgsFeatureSink.FastInsert)
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feedback.setProgress(int(current * total))
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return {self.OUTPUT: dest_id}
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def convertGeometry(self, geom, target_type):
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# returns an array of output geometries for the input geometry
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if target_type == 0:
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#centroid
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return self.convertToCentroid(geom)
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elif target_type == 1:
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#nodes
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return self.convertToNodes(geom)
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elif target_type == 2:
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#linestrings
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return self.convertToLineStrings(geom)
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elif target_type == 3:
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#multilinestrings
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return self.convertToMultiLineStrings(geom)
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elif target_type == 4:
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#polygon
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return self.convertToPolygon(geom)
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def convertToCentroid(self, geom):
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return [geom.centroid()]
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def convertToNodes(self, geom):
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mp = QgsMultiPointV2()
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# TODO: mega inefficient - needs rework when geometry iterators land
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# (but at least it doesn't lose Z/M values)
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for g in geom.geometry().coordinateSequence():
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for r in g:
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for p in r:
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mp.addGeometry(p)
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return [QgsGeometry(mp)]
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def convertToLineStrings(self, geom):
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if QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.PointGeometry:
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raise QgsProcessingException(
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self.tr('Cannot convert from {0} to LineStrings').format(QgsWkbTypes.displayString(geom.wkbType())))
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elif QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.LineGeometry:
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if QgsWkbTypes.isMultiType(geom.wkbType()):
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return geom.asGeometryCollection()
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else:
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#line to line
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return [geom]
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else:
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# polygons to lines
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# we just use the boundary here - that consists of all rings in the (multi)polygon
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boundary = QgsGeometry(geom.geometry().boundary())
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# boundary will be multipart
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return boundary.asGeometryCollection()
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def convertToMultiLineStrings(self, geom):
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if QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.PointGeometry:
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raise QgsProcessingException(
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self.tr('Cannot convert from {0} to MultiLineStrings').format(QgsWkbTypes.displayString(geom.wkbType())))
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elif QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.LineGeometry:
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if QgsWkbTypes.isMultiType(geom.wkbType()):
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return [geom]
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else:
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# line to multiLine
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ml = QgsMultiLineString()
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ml.addGeometry(geom.geometry().clone())
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return [QgsGeometry(ml)]
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else:
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# polygons to multilinestring
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# we just use the boundary here - that consists of all rings in the (multi)polygon
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return [QgsGeometry(geom.geometry().boundary())]
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def convertToPolygon(self, geom):
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if QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.PointGeometry and geom.geometry().nCoordinates() < 3:
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raise QgsProcessingException(
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self.tr('Cannot convert from Point to Polygon').format(QgsWkbTypes.displayString(geom.wkbType())))
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elif QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.PointGeometry:
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# multipoint with at least 3 points
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# TODO: mega inefficient - needs rework when geometry iterators land
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# (but at least it doesn't lose Z/M values)
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points = []
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for g in geom.geometry().coordinateSequence():
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for r in g:
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for p in r:
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points.append(p)
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linestring = QgsLineString(points)
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linestring.close()
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p = QgsPolygonV2()
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p.setExteriorRing(linestring)
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return [QgsGeometry(p)]
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elif QgsWkbTypes.geometryType(geom.wkbType()) == QgsWkbTypes.LineGeometry:
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if QgsWkbTypes.isMultiType(geom):
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parts = []
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for i in range(geom.geometry().numGeometries()):
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p = QgsPolygonV2()
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linestring = geom.geometry().geometryN(i).clone()
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linestring.close()
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p.setExteriorRing(linestring)
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parts.append(QgsGeometry(p))
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return QgsGeometry.collectGeometry(parts)
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else:
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# linestring to polygon
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p = QgsPolygonV2()
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linestring = geom.geometry().clone()
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linestring.close()
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p.setExteriorRing(linestring)
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return [QgsGeometry(p)]
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else:
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#polygon
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if QgsWkbTypes.isMultiType(geom):
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return geom.asGeometryCollection()
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else:
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return [geom]
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