#----------------------------------------------------------- # # Join Attributes # # A QGIS plugin for performing an attribute join between vector layers. # Attributes from one vector layer are appended to the attribute table of # another layer through a field common to both vector layers. # # Copyright (C) 2008 Carson Farmer # # EMAIL: carson.farmer (at) gmail.com # WEB : www.geog.uvic.ca/spar/carson # #----------------------------------------------------------- # # licensed under the terms of GNU GPL 2 # # 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. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # #--------------------------------------------------------------------- from PyQt4.QtCore import * from PyQt4.QtGui import * from qgis.core import * import struct, itertools, datetime, decimal, ftools_utils from frmJoinAttributes import Ui_Dialog class Dialog(QDialog, Ui_Dialog): def __init__(self, iface): QDialog.__init__(self) self.iface = iface # Set up the user interface from Designer. self.setupUi(self) QObject.connect(self.toolOut, SIGNAL("clicked()"), self.outFile) QObject.connect(self.inShape, SIGNAL("currentIndexChanged(QString)"), self.iupdate) QObject.connect(self.joinShape, SIGNAL("currentIndexChanged(QString)"), self.jupdate) QObject.connect(self.toolTable, SIGNAL("clicked()"), self.inFile) QObject.connect(self.rdoTable, SIGNAL("clicked()"), self.updateTableFields) QObject.connect(self.rdoVector, SIGNAL("clicked()"), self.jupdate) self.setWindowTitle("Join attributes") # populate layer list self.progressBar.setValue(0) mapCanvas = self.iface.mapCanvas() for i in range(mapCanvas.layerCount()): layer = mapCanvas.layer(i) if layer.type() == layer.VectorLayer: self.inShape.addItem(layer.name()) self.joinShape.addItem(layer.name()) def iupdate(self, inputLayer): changedLayer = self.getVectorLayerByName(unicode(inputLayer)) changedField = self.getFieldList(changedLayer) for i in changedField: self.inField.addItem(unicode(changedField[i].name())) def jupdate(self): inputLayer = self.joinShape.currentText() if inputLayer != "": changedLayer = self.getVectorLayerByName(unicode(inputLayer)) changedField = self.getFieldList(changedLayer) for i in changedField: self.joinField.addItem(unicode(changedField[i].name())) def accept(self): if self.inShape.currentText() == "": QMessageBox.information(self, "Join Attributes", "Please specify target vector layer") elif self.outShape.text() == "": QMessageBox.information(self, "Join Attributes", "Please specify output shapefile") elif self.joinShape.currentText() == "" and self.rdoVector.isChecked(): QMessageBox.information(self, "Join Attributes", "Please specify join vector layer") elif self.inField.currentText() == "": QMessageBox.information(self, "Join Attributes", "Please specify target join field") elif self.joinField.currentText() == "": QMessageBox.information(self, "Join Attributes", "Please specify join field") elif self.inTable.text() == "" and self.rdoTable.isChecked(): QMessageBox.information(self, "Join Attributes", "Please specify input table") else: keep = self.rdoKeep.isChecked() inName = self.inShape.currentText() inField = self.inField.currentText() if self.rdoVector.isChecked(): joinName = self.joinShape.currentText() useTable = False else: joinName = self.inTable.text() useTable = True joinField = self.joinField.currentText() outPath = self.outShape.text() if outPath.contains("\\"): outName = outPath.right((outPath.length() - outPath.lastIndexOf("\\")) - 1) else: outName = outPath.right((outPath.length() - outPath.lastIndexOf("/")) - 1) if outName.endsWith(".shp"): outName = outName.left(outName.length() - 4) self.compute(inName, inField, joinName, joinField, outPath, keep, useTable, self.progressBar) self.outShape.clear() addToTOC = QMessageBox.question(self, "Join Attributes", "Created output Shapefile:\n" + self.shapefileName + "\n\nWould you like to add the new layer to the TOC?", QMessageBox.Yes, QMessageBox.No, QMessageBox.NoButton) if addToTOC == QMessageBox.Yes: vlayer = QgsVectorLayer(self.shapefileName, outName, "ogr") QgsMapLayerRegistry.instance().addMapLayer(vlayer) self.progressBar.setValue(0) def outFile(self): self.outShape.clear() ( self.shapefileName, self.encoding ) = ftools_utils.saveDialog( self ) if self.shapefileName is None or self.encoding is None: return self.outShape.setText( QString( self.shapefileName ) ) def inFile(self): self.outShape.clear() fileDialog = QFileDialog() fileDialog.setConfirmOverwrite(False) outName = fileDialog.getOpenFileName(self, "Join Table",".", "DBase Files (*.dbf)") fileCheck = QFile(outName) if fileCheck.exists(): filePath = QFileInfo(outName).absoluteFilePath() if filePath.right(4) != ".dbf": filePath = filePath + ".dbf" if not outName.isEmpty(): self.inTable.clear() self.inTable.insert(filePath) self.updateTableFields() else: QMessageBox.warning(self, "Join Attributes", "Input table does not exist") def updateTableFields(self): if self.inTable.text() != "": filePath = self.inTable.text() f = open(unicode(filePath), 'rb') table = list(self.dbfreader(f)) f.close() for i in table[0]: self.joinField.addItem(unicode(i)) table = None def compute(self, inName, inField, joinName, joinField, outName, keep, useTable, progressBar): layer1 = self.getVectorLayerByName(inName) provider1 = layer1.dataProvider() allAttrs = provider1.attributeIndexes() provider1.select(allAttrs) fieldList1 = self.getFieldList(layer1).values() index1 = provider1.fieldNameIndex(inField) if useTable: f = open(unicode(joinName), 'rb') table = list(self.dbfreader(f)) f.close() (fieldList2, index2) = self.createFieldList(table, joinField) table = table[2:] func = lambda x: (unicode(type(x)) != "" and QVariant(float(x))) or (QVariant(x)) table = map(lambda f: map(func, f), table) else: layer2 = self.getVectorLayerByName(joinName) provider2 = layer2.dataProvider() allAttrs = provider2.attributeIndexes() provider2.select(allAttrs) fieldList2 = self.getFieldList(layer2) index2 = provider2.fieldNameIndex(joinField) fieldList2 = self.testForUniqueness(fieldList1, fieldList2.values()) seq = range(0, len(fieldList1) + len(fieldList2)) fieldList1.extend(fieldList2) fieldList1 = dict(zip(seq, fieldList1)) sRs = provider1.crs() progressBar.setValue(13) check = QFile(self.shapefileName) if check.exists(): if not QgsVectorFileWriter.deleteShapeFile(self.shapefileName): return writer = QgsVectorFileWriter(self.shapefileName, self.encoding, fieldList1, provider1.geometryType(), sRs) inFeat = QgsFeature() outFeat = QgsFeature() joinFeat = QgsFeature() inGeom = QgsGeometry() nElement = 0 nFeats = provider1.featureCount() progressBar.setRange(nElement, nFeats) count = 0 provider1.rewind() while provider1.nextFeature(inFeat): inGeom = inFeat.geometry() atMap1 = inFeat.attributeMap() outFeat.setAttributeMap(atMap1) outFeat.setGeometry(inGeom) none = True if useTable: for i in table: #sequence = range(0, len(table[0])) #atMap2 = dict(zip(sequence, i)) if atMap1[index1].toString().trimmed() == i[index2].toString().trimmed(): count = count + 1 none = False atMap = atMap1.values() atMap2 = i atMap.extend(atMap2) atMap = dict(zip(seq, atMap)) break else: provider2.rewind() while provider2.nextFeature(joinFeat): atMap2 = joinFeat.attributeMap() if atMap1[index1] == atMap2[index2]: none = False atMap = atMap1.values() atMap2 = atMap2.values() atMap.extend(atMap2) atMap = dict(zip(seq, atMap)) break if none: outFeat.setAttributeMap(atMap1) else: outFeat.setAttributeMap(atMap) if keep: # keep all records writer.addFeature(outFeat) else: # keep only matching records if not none: writer.addFeature(outFeat) nElement += 1 progressBar.setValue(nElement) del writer def createFieldList(self, table, joinField): fieldList = {} item = 0 for i in table[0]: if unicode(i) == unicode(joinField): index2 = item info = table[1][item] name = i if info[0] == "C" or info[0] == "M" or info[0] == "D": qtype = QVariant.String ntype = "string" else: ntype = "double" qtype = QVariant.Double length = info[1] prec = info[2] field = QgsField(name, qtype, ntype, length, prec, "joined fields") fieldList[item] = field item = item + 1 return (fieldList, index2) def testForUniqueness(self, fieldList1, fieldList2): changed = True while changed: changed = False for i in fieldList1: for j in fieldList2: if j.name() == i.name(): j = self.createUniqueFieldName(j) changed = True return fieldList2 def createUniqueFieldName(self, field): check = field.name().right(2) if check.startsWith("_"): (val,test) = check.right(1).toInt() if test: if val < 2: val = 2 else: val = val + 1 field.setName(field.name().left(len(field.name())-1) + unicode(val)) else: field.setName(field.name() + "_2") else: field.setName(field.name() + "_2") return field def getVectorLayerByName(self, myName): mc = self.iface.mapCanvas() nLayers = mc.layerCount() for l in range(nLayers): layer = mc.layer(l) if layer.name() == unicode(myName): vlayer = QgsVectorLayer(unicode(layer.source()), unicode(myName), unicode(layer.dataProvider().name())) if vlayer.isValid(): return vlayer else: QMessageBox.information(self, "Join Attributes", "Vector layer is not valid") def getFieldList(self, vlayer): fProvider = vlayer.dataProvider() feat = QgsFeature() allAttrs = fProvider.attributeIndexes() fProvider.select(allAttrs) myFields = fProvider.fields() return myFields def dbfreader(self, f): """Returns an iterator over records in a Xbase DBF file. The first row returned contains the field names. The second row contains field specs: (type, size, decimal places). Subsequent rows contain the data records. If a record is marked as deleted, it is skipped. File should be opened for binary reads. """ numrec, lenheader = struct.unpack('