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484 lines
16 KiB
Python
484 lines
16 KiB
Python
# -*- coding: utf-8 -*-
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#-----------------------------------------------------------
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#
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# fTools
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# Copyright (C) 2008-2011 Carson Farmer
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# EMAIL: carson.farmer (at) gmail.com
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# WEB : http://www.ftools.ca/fTools.html
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#
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# A collection of data management and analysis tools for vector data
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#
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#-----------------------------------------------------------
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#
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# licensed under the terms of GNU GPL 2
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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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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along
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# with this program; if not, write to the Free Software Foundation, Inc.,
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# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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#
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#---------------------------------------------------------------------
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from PyQt4.QtCore import *
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from PyQt4.QtGui import *
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from qgis.core import *
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from qgis.gui import *
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import ftools_utils
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from ui_frmSimplify import Ui_Dialog
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class Dialog( QDialog, Ui_Dialog ):
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def __init__( self, iface, function ):
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QDialog.__init__( self, iface.mainWindow() )
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self.setupUi( self )
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self.iface = iface
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self.myFunction = function
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self.workThread = None
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if self.myFunction == 2:
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self.setWindowTitle( self.tr( "Densify geometries" ) )
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self.lblTolerance.setText( self.tr( "Vertices to add" ) )
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self.spnTolerance.setDecimals( 0 )
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self.spnTolerance.setMinimum( 1 )
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self.spnTolerance.setSingleStep( 1 )
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self.spnTolerance.setValue( 1.0 )
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self.btnOk = self.buttonBox.button( QDialogButtonBox.Ok )
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self.btnClose = self.buttonBox.button( QDialogButtonBox.Close )
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QObject.connect( self.chkWriteShapefile, SIGNAL( "stateChanged( int )" ), self.updateGui )
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QObject.connect( self.btnSelectOutputFile, SIGNAL( "clicked()" ), self.selectOutputFile )
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self.populateLayers()
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def populateLayers( self ):
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layers = ftools_utils.getLayerNames( [ QGis.Polygon, QGis.Line ] )
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self.cmbInputLayer.clear()
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self.cmbInputLayer.addItems( layers )
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def updateGui( self ):
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if self.chkWriteShapefile.isChecked():
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self.edOutputFile.setEnabled( True )
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self.btnSelectOutputFile.setEnabled( True )
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self.chkAddToCanvas.setEnabled( True )
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else:
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self.edOutputFile.setEnabled( False )
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self.btnSelectOutputFile.setEnabled( False )
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self.chkAddToCanvas.setEnabled( False )
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self.encoding = None
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def selectOutputFile( self ):
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self.edOutputFile.clear()
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( self.shapeFileName, self.encoding ) = ftools_utils.saveDialog( self )
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if self.shapeFileName is None or self.encoding is None:
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return
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self.edOutputFile.setText( QString( self.shapeFileName ) )
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def accept( self ):
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vLayer = ftools_utils.getVectorLayerByName( self.cmbInputLayer.currentText() )
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self.btnOk.setEnabled( False )
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if self.chkWriteShapefile.isChecked():
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outFileName = self.edOutputFile.text()
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outFile = QFile( outFileName )
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if outFile.exists():
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if not QgsVectorFileWriter.deleteShapeFile( outFileName ):
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QMessageBox.warning( self, self.tr( "Delete error" ),
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self.tr( "Can't delete file %1" ).arg( outFileName ) )
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return
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self.workThread = GeomThread( self.myFunction, vLayer, self.chkUseSelection.isChecked(),
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self.spnTolerance.value(), True, outFileName, self.encoding )
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else:
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self.workThread = GeomThread( self.myFunction, vLayer, self.chkUseSelection.isChecked(),
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self.spnTolerance.value(), False, None, None )
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QObject.connect( self.workThread, SIGNAL( "rangeCalculated( PyQt_PyObject )" ), self.setProgressRange )
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QObject.connect( self.workThread, SIGNAL( "featureProcessed()" ), self.featureProcessed )
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QObject.connect( self.workThread, SIGNAL( "processingFinished( PyQt_PyObject )" ), self.processFinished )
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QObject.connect( self.workThread, SIGNAL( "processingInterrupted()" ), self.processInterrupted )
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self.btnClose.setText( self.tr( "Cancel" ) )
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QObject.disconnect( self.buttonBox, SIGNAL( "rejected()" ), self.reject )
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QObject.connect( self.btnClose, SIGNAL( "clicked()" ), self.stopProcessing )
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self.workThread.start()
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def setProgressRange( self, maximum ):
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self.progressBar.setRange( 0, maximum )
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def featureProcessed( self ):
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self.progressBar.setValue( self.progressBar.value() + 1 )
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def processFinished( self, pointsCount ):
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self.stopProcessing()
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if self.myFunction == 1:
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QMessageBox.information( self, self.tr( "Simplify results" ),
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self.tr( "There were %1 vertices in original dataset which\nwere reduced to %2 vertices after simplification" )
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.arg( pointsCount[ 0 ] )
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.arg( pointsCount[ 1 ] ) )
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self.restoreGui()
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if self.chkAddToCanvas.isEnabled() and self.chkAddToCanvas.isChecked():
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if not ftools_utils.addShapeToCanvas( unicode( self.shapeFileName ) ):
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QMessageBox.warning( self, self.tr( "Error" ),
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self.tr( "Error loading output shapefile:\n%1" )
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.arg( unicode( self.shapeFileName ) ) )
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self.populateLayers()
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QMessageBox.information( self, self.tr( "Finished" ), self.tr( "Processing completed." ) )
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self.iface.mapCanvas().refresh()
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def processInterrupted( self ):
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self.restoreGui()
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def stopProcessing( self ):
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if self.workThread != None:
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self.workThread.stop()
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self.workThread = None
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def restoreGui( self ):
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self.progressBar.setValue( 0 )
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QObject.connect( self.buttonBox, SIGNAL( "rejected()" ), self.reject )
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self.btnClose.setText( self.tr( "Close" ) )
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self.btnOk.setEnabled( True )
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def geomVertexCount( geometry ):
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geomType = geometry.type()
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if geomType == 1: # line
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points = geometry.asPolyline()
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return len( points )
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elif geomType == 2: # polygon
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polylines = geometry.asPolygon()
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points = []
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for l in polylines:
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points.extend( l )
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return len( points )
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else:
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return None
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def densify( polyline, pointsNumber ):
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output = []
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if pointsNumber != 1:
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multiplier = 1.0 / float( pointsNumber + 1 )
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else:
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multiplier = 1
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for i in xrange( len( polyline ) - 1 ):
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p1 = polyline[ i ]
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p2 = polyline[ i + 1 ]
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output.append( p1 )
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for j in xrange( pointsNumber ):
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delta = multiplier * ( j + 1 )
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x = p1.x() + delta * ( p2.x() - p1.x() )
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y = p1.y() + delta * ( p2.y() - p1.y() )
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output.append( QgsPoint( x, y ) )
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if j + 1 == pointsNumber:
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break
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output.append( polyline[ len( polyline ) - 1 ] )
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return output
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def densifyGeometry( geometry, pointsNumber, isPolygon ):
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if isPolygon:
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rings = geometry.asPolygon()
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output = []
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for ring in rings:
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ring = densify( ring, pointsNumber )
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output.append( ring )
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return QgsGeometry.fromPolygon( output )
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else:
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points = geometry.asPolyline()
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output = densify( points, pointsNumber )
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return QgsGeometry.fromPolyline( output )
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class GeomThread( QThread ):
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def __init__( self, function, inputLayer, useSelection, tolerance, writeShape, shapePath, shapeEncoding ):
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QThread.__init__( self, QThread.currentThread() )
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self.inputLayer = inputLayer
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self.useSelection = useSelection
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self.tolerance = tolerance
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self.writeShape = writeShape
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self.outputFileName = shapePath
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self.outputEncoding = shapeEncoding
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self.myFunction = function
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self.mutex = QMutex()
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self.stopMe = 0
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def run( self ):
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if self.myFunction == 1:
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self.runSimplify()
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else:
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self.runDensify()
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def runSimplify( self ):
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self.mutex.lock()
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self.stopMe = 0
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self.mutex.unlock()
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interrupted = False
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shapeFileWriter = None
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pointsBefore = 0
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pointsAfter = 0
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if self.writeShape:
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vProvider = self.inputLayer.dataProvider()
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allAttrs = vProvider.attributeIndexes()
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vProvider.select( allAttrs )
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shapeFields = vProvider.fields()
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crs = vProvider.crs()
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wkbType = self.inputLayer.wkbType()
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if not crs.isValid():
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crs = None
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shapeFileWriter = QgsVectorFileWriter( self.outputFileName, self.outputEncoding, shapeFields, wkbType, crs )
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featureId = 0
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if self.useSelection:
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selection = self.inputLayer.selectedFeatures()
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), len( selection ) )
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for f in selection:
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featGeometry = QgsGeometry( f.geometry() )
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attrMap = f.attributeMap()
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pointsBefore += geomVertexCount( featGeometry )
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newGeometry = featGeometry.simplify( self.tolerance )
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pointsAfter += geomVertexCount( newGeometry )
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feature = QgsFeature()
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feature.setGeometry( newGeometry )
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feature.setAttributeMap( attrMap )
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shapeFileWriter.addFeature( feature )
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featureId += 1
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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else:
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), vProvider.featureCount() )
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f = QgsFeature()
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while vProvider.nextFeature( f ):
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featGeometry = QgsGeometry( f.geometry() )
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attrMap = f.attributeMap()
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pointsBefore += geomVertexCount( featGeometry )
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newGeometry = featGeometry.simplify( self.tolerance )
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pointsAfter += geomVertexCount( newGeometry )
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feature = QgsFeature()
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feature.setGeometry( newGeometry )
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feature.setAttributeMap( attrMap )
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shapeFileWriter.addFeature( feature )
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featureId += 1
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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else: # modify existing shapefile
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if not self.inputLayer.isEditable():
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self.inputLayer.startEditing()
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self.inputLayer.beginEditCommand( QString( "Simplify line(s)" ) )
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if self.useSelection:
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selection = self.inputLayer.selectedFeatures()
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), len( selection ) )
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for f in selection:
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featureId = f.id()
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featGeometry = QgsGeometry( f.geometry() )
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pointsBefore += geomVertexCount( featGeometry )
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newGeometry = featGeometry.simplify( self.tolerance )
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pointsAfter += geomVertexCount( newGeometry )
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self.inputLayer.changeGeometry( featureId, newGeometry )
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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else:
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vProvider = self.inputLayer.dataProvider()
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), vProvider.featureCount() )
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f = QgsFeature()
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while vProvider.nextFeature( f ):
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featureId = f.id()
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featGeometry = QgsGeometry( f.geometry() )
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pointsBefore += geomVertexCount( featGeometry )
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newGeometry = featGeometry.simplify( self.tolerance )
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pointsAfter += geomVertexCount( newGeometry )
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self.inputLayer.changeGeometry( featureId, newGeometry )
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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# cleanup
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if self.inputLayer.isEditable():
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self.inputLayer.endEditCommand()
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if shapeFileWriter != None:
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del shapeFileWriter
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if not interrupted:
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self.emit( SIGNAL( "processingFinished( PyQt_PyObject )" ), ( pointsBefore, pointsAfter ) )
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else:
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self.emit( SIGNAL( "processingInterrupted()" ) )
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def runDensify( self ):
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self.mutex.lock()
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self.stopMe = 0
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self.mutex.unlock()
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interrupted = False
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shapeFileWriter = None
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isPolygon = self.inputLayer.geometryType() == QGis.Polygon
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if self.writeShape:
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# prepare writer
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vProvider = self.inputLayer.dataProvider()
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allAttrs = vProvider.attributeIndexes()
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vProvider.select( allAttrs )
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shapeFields = vProvider.fields()
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crs = vProvider.crs()
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wkbType = self.inputLayer.wkbType()
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if not crs.isValid():
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crs = None
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shapeFileWriter = QgsVectorFileWriter( self.outputFileName, self.outputEncoding, shapeFields, wkbType, crs )
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featureId = 0
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if self.useSelection:
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selection = self.inputLayer.selectedFeatures()
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), len( selection ) )
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for f in selection:
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featGeometry = QgsGeometry( f.geometry() )
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attrMap = f.attributeMap()
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newGeometry = densifyGeometry( featGeometry, int( self.tolerance ), isPolygon )
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feature = QgsFeature()
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feature.setGeometry( newGeometry )
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feature.setAttributeMap( attrMap )
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shapeFileWriter.addFeature( feature )
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featureId += 1
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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else:
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), vProvider.featureCount() )
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f = QgsFeature()
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while vProvider.nextFeature( f ):
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featGeometry = QgsGeometry( f.geometry() )
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attrMap = f.attributeMap()
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newGeometry = densifyGeometry( featGeometry, int( self.tolerance ), isPolygon )
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feature = QgsFeature()
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feature.setGeometry( newGeometry )
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feature.setAttributeMap( attrMap )
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shapeFileWriter.addFeature( feature )
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featureId += 1
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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else: # modify existing shapefile
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if not self.inputLayer.isEditable():
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self.inputLayer.startEditing()
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self.inputLayer.beginEditCommand( QString( "Densify line(s)" ) )
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if self.useSelection:
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selection = self.inputLayer.selectedFeatures()
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), len( selection ) )
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for f in selection:
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featureId = f.id()
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featGeometry = QgsGeometry( f.geometry() )
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newGeometry = densifyGeometry( featGeometry, int( self.tolerance ), isPolygon )
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self.inputLayer.changeGeometry( featureId, newGeometry )
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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else:
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vProvider = self.inputLayer.dataProvider()
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self.emit( SIGNAL( "rangeCalculated( PyQt_PyObject )" ), vProvider.featureCount() )
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f = QgsFeature()
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while vProvider.nextFeature( f ):
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featureId = f.id()
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featGeometry = QgsGeometry( f.geometry() )
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newGeometry = densifyGeometry( featGeometry, int( self.tolerance ), isPolygon )
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self.inputLayer.changeGeometry( featureId, newGeometry )
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self.emit( SIGNAL( "featureProcessed()" ) )
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self.mutex.lock()
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s = self.stopMe
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self.mutex.unlock()
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if s == 1:
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interrupted = True
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break
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# cleanup
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if self.inputLayer.isEditable():
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self.inputLayer.endEditCommand()
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if shapeFileWriter != None:
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del shapeFileWriter
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if not interrupted:
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self.emit( SIGNAL( "processingFinished( PyQt_PyObject )" ), None )
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else:
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self.emit( SIGNAL( "processingInterrupted()" ) )
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def stop( self ):
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self.mutex.lock()
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self.stopMe = 1
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self.mutex.unlock()
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QThread.wait( self )
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