def handleAlgorithmResults(alg, progress, showResults = True):
wrongLayers = []
htmlResults = False;
progress.setText("Loading resulting layers")
i = 0
for out in alg.outputs:
progress.setPercentage(100 * i / float(len(alg.outputs)))
if out.hidden or not out.open:
continue
if isinstance(out, (OutputRaster, OutputVector, OutputTable)):
try:
if out.value.startswith("memory:"):
layer = out.memoryLayer
QgsMapLayerRegistry.instance().addMapLayers([layer])
else:
if ProcessingConfig.getSetting(ProcessingConfig.USE_FILENAME_AS_LAYER_NAME):
name = os.path.basename(out.value)
else:
name = out.description
QGisLayers.load(out.value, name, alg.crs, RenderingStyles.getStyle(alg.commandLineName(),out.name))
except Exception, e:
wrongLayers.append(out)
#QMessageBox.critical(None, "Error", str(e))
elif isinstance(out, OutputHTML):
ProcessingResults.addResult(out.description, out.value)
htmlResults = True
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
tolerance =self.getParameterValue(self.TOLERANCE)
pointsBefore = 0
pointsAfter = 0
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
layer.wkbType(), layer.crs())
current = 0
selection = QGisLayers.features(layer)
total = 100.0 / float(len(selection))
for f in selection:
featGeometry = QgsGeometry(f.geometry())
attrs = f.attributes()
pointsBefore += self.geomVertexCount(featGeometry)
newGeometry = featGeometry.simplify(tolerance)
pointsAfter += self.geomVertexCount(newGeometry)
feature = QgsFeature()
feature.setGeometry(newGeometry)
feature.setAttributes(attrs)
writer.addFeature(feature)
current += 1
progress.setPercentage(int(current * total))
del writer
ProcessingLog.addToLog(ProcessingLog.LOG_INFO, "Simplify: Input geometries have been simplified from"
+ str(pointsBefore) + " to " + str(pointsAfter) + " points.")
def processAlgorithm(self, progress):
fieldname = self.getParameterValue(self.FIELD)
output = self.getOutputFromName(self.OUTPUT)
vlayer = QGisLayers.getObjectFromUri(self.getParameterValue(
self.INPUT))
vprovider = vlayer.dataProvider()
fieldindex = vlayer.fieldNameIndex(fieldname)
fields = vprovider.fields()
fields.append(QgsField("NUM_FIELD", QVariant.Int))
writer = output.getVectorWriter(fields, vprovider.geometryType(),
vlayer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
nElement = 0
classes = {}
features = QGisLayers.features(vlayer)
nFeat = len(features)
for feature in features:
progress.setPercentage(int((100 * nElement) / nFeat))
nElement += 1
inGeom = feature.geometry()
outFeat.setGeometry(inGeom)
atMap = feature.attributes()
clazz = atMap[fieldindex]
if clazz not in classes:
classes[clazz] = len(classes.keys())
atMap.append(classes[clazz])
outFeat.setAttributes(atMap)
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
fieldname = self.getParameterValue(self.FIELD)
output = self.getOutputFromName(self.OUTPUT)
vlayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
vprovider = vlayer.dataProvider()
fieldindex = vlayer.fieldNameIndex(fieldname)
fields = vprovider.fields()
fields.append(QgsField("NUM_FIELD", QVariant.Int))
writer = output.getVectorWriter(fields, vprovider.geometryType(), vlayer.crs() )
outFeat = QgsFeature()
inGeom = QgsGeometry()
nElement = 0
classes = {}
features = QGisLayers.features(vlayer)
nFeat = len(features)
for feature in features:
progress.setPercentage(int((100 * nElement)/nFeat))
nElement += 1
inGeom = feature.geometry()
outFeat.setGeometry( inGeom )
atMap = feature.attributes()
clazz = atMap[fieldindex]
if clazz not in classes:
classes[clazz] = len(classes.keys())
atMap.append(classes[clazz])
outFeat.setAttributes(atMap)
writer.addFeature( outFeat )
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
interval = self.getParameterValue(self.INTERVAL)
isPolygon = layer.geometryType() == QGis.Polygon
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
layer.wkbType(), layer.crs())
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
current = 0
for f in features:
featGeometry = QgsGeometry(f.geometry())
attrs = f.attributes()
newGeometry = self.densifyGeometry(featGeometry, interval, isPolygon)
feature = QgsFeature()
feature.setGeometry(newGeometry)
feature.setAttributes(attrs)
writer.addFeature(feature)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
fieldType = self.getParameterValue(self.FIELD_TYPE)
fieldName = self.getParameterValue(self.FIELD_NAME)
fieldLength = self.getParameterValue(self.FIELD_LENGTH)
fieldPrecision = self.getParameterValue(self.FIELD_PRECISION)
output = self.getOutputFromName(self.OUTPUT_LAYER)
layer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.INPUT_LAYER))
provider = layer.dataProvider()
fields = provider.fields()
fields.append(
QgsField(fieldName, self.TYPES[fieldType], "", fieldLength,
fieldPrecision))
writer = output.getVectorWriter(fields, provider.geometryType(),
layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
nElement = 0
features = QGisLayers.features(layer)
nFeat = len(features)
for inFeat in features:
progress.setPercentage(int((100 * nElement) / nFeat))
nElement += 1
inGeom = inFeat.geometry()
outFeat.setGeometry(inGeom)
atMap = inFeat.attributes()
atMap.append(None)
outFeat.setAttributes(atMap)
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
QGis.WKBLineString, layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
outGeom = QgsGeometry()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
inGeom = f.geometry()
attrs = f.attributes()
lineList = self.extractAsLine(inGeom)
outFeat.setAttributes(attrs)
for h in lineList:
outFeat.setGeometry(outGeom.fromPolyline(h))
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
filename = self.getParameterValue(self.INPUT)
inputLayer = QGisLayers.getObjectFromUri(filename)
method = self.getParameterValue(self.METHOD)
filename = self.getParameterValue(self.INTERSECT)
selectLayer = QGisLayers.getObjectFromUri(filename)
oldSelection = set(inputLayer.selectedFeaturesIds())
index = spatialIndex = utils.createSpatialIndex(inputLayer)
feat = QgsFeature()
geom = QgsGeometry()
selectedSet = []
current = 0
features = QGisLayers.features(selectLayer)
total = 100.0 / float(len(features))
for f in features:
geom = QgsGeometry(f.geometry())
intersects = index.intersects(geom.boundingBox())
for i in intersects:
request = QgsFeatureRequest().setFilterFid(i)
feat = inputLayer.getFeatures(request).next()
tmpGeom = QgsGeometry(feat.geometry())
if geom.intersects(tmpGeom):
selectedSet.append(feat.id())
current += 1
progress.setPercentage(int(current * total))
if method == 1:
selectedSet = list(oldSelection.union(selectedSet))
elif method == 2:
selectedSet = list(oldSelection.difference(selectedSet))
inputLayer.setSelectedFeatures(selectedSet)
self.setOutputValue(self.OUTPUT, filename)
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.INPUT_LAYER))
writer = self.getOutputFromName(self.OUTPUT_LAYER).getVectorWriter(
layer.pendingFields().toList(), QGis.WKBPoint, layer.crs())
outFeat = QgsFeature()
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
current = 0
for inFeat in features:
inGeom = inFeat.geometry()
attrs = inFeat.attributes()
outGeom = QgsGeometry(inGeom.centroid())
if outGeom is None:
raise GeoAlgorithmExecutionException(
"Error calculating centroid")
outFeat.setGeometry(outGeom)
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
fieldType = self.getParameterValue(self.FIELD_TYPE)
fieldName = self.getParameterValue(self.FIELD_NAME)
fieldLength = self.getParameterValue(self.FIELD_LENGTH)
fieldPrecision = self.getParameterValue(self.FIELD_PRECISION)
output = self.getOutputFromName(self.OUTPUT_LAYER)
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT_LAYER))
provider = layer.dataProvider()
fields = provider.fields()
fields.append(QgsField(fieldName, self.TYPES[fieldType], "", fieldLength, fieldPrecision))
writer = output.getVectorWriter(fields, provider.geometryType(), layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
nElement = 0
features = QGisLayers.features(layer)
nFeat = len(features)
for inFeat in features:
progress.setPercentage(int((100 * nElement)/nFeat))
nElement += 1
inGeom = inFeat.geometry()
outFeat.setGeometry( inGeom )
atMap = inFeat.attributes()
atMap.append(None)
outFeat.setAttributes(atMap)
writer.addFeature( outFeat )
del writer
def convertUnsupportedFormats(self, progress):
i = 0
progress.setText("Converting outputs")
for out in self.outputs:
if isinstance(out, OutputVector):
if out.compatible is not None:
layer = QGisLayers.getObjectFromUri(out.compatible)
if layer is None: # for the case of memory layer, if the getCompatible method has been called
continue
provider = layer.dataProvider()
writer = out.getVectorWriter(provider.fields(),
provider.geometryType(),
layer.crs())
features = QGisLayers.features(layer)
for feature in features:
writer.addFeature(feature)
elif isinstance(out, OutputRaster):
if out.compatible is not None:
layer = QGisLayers.getObjectFromUri(out.compatible)
provider = layer.dataProvider()
writer = QgsRasterFileWriter(out.value)
format = self.getFormatShortNameFromFilename(out.value)
writer.setOutputFormat(format)
writer.writeRaster(layer.pipe(), layer.width(),
layer.height(), layer.extent(),
layer.crs())
elif isinstance(out, OutputTable):
if out.compatible is not None:
layer = QGisLayers.getObjectFromUri(out.compatible)
provider = layer.dataProvider()
writer = out.getTableWriter(provider.fields())
features = QGisLayers.features(layer)
for feature in features:
writer.addRecord(feature)
progress.setPercentage(100 * i / float(len(self.outputs)))
def getSafeExportedLayers(self):
'''Returns not the value entered by the user, but a string with semicolon-separated filenames
which contains the data of the selected layers, but saved in a standard format (currently
shapefiles for vector layers and GeoTiff for raster) so that they can be opened by most
external applications.
If there is a selection and QGIS is configured to use just the selection, if exports
the layer even if it is already in a suitable format.
Works only if the layer represented by the parameter value is currently loaded in QGIS.
Otherwise, it will not perform any export and return the current value string.
If the current value represents a layer in a suitable format, it does no export at all
and returns that value.
Currently, it works just for vector layer. In the case of raster layers, it returns the
parameter value.
The layers are exported just the first time the method is called. The method can be called
several times and it will always return the same string, performing the export only the first time.'''
if self.exported:
return self.exported
self.exported = self.value
layers = self.value.split(";")
if layers == None or len(layers) == 0:
return self.value
if self.datatype == ParameterMultipleInput.TYPE_RASTER:
for layerfile in layers:
layer = QGisLayers.getObjectFromUri(layerfile, False)
if layer:
filename = LayerExporter.exportRasterLayer(layer)
self.exported = self.exported.replace(layerfile, filename)
return self.exported
else:
for layerfile in layers:
layer = QGisLayers.getObjectFromUri(layerfile, False)
if layer:
filename = LayerExporter.exportVectorLayer(layer)
self.exported = self.exported.replace(layerfile, filename)
return self.exported
def exportVectorLayer(self, orgFilename):
#TODO: improve this. We are now exporting if it is not a shapefile,
#but the functionality of v.in.ogr could be used for this.
#We also export if there is a selection
if not os.path.exists(orgFilename) or not orgFilename.endswith("shp"):
layer = QGisLayers.getObjectFromUri(orgFilename, False)
if layer:
filename = LayerExporter.exportVectorLayer(layer)
else:
layer = QGisLayers.getObjectFromUri(orgFilename, False)
if layer:
useSelection = ProcessingConfig.getSetting(ProcessingConfig.USE_SELECTED)
if useSelection and layer.selectedFeatureCount() != 0:
filename = LayerExporter.exportVectorLayer(layer)
else:
filename = orgFilename
else:
filename = orgFilename
destFilename = self.getTempFilename()
self.exportedLayers[orgFilename]= destFilename
command = "v.in.ogr"
min_area = self.getParameterValue(self.GRASS_MIN_AREA_PARAMETER);
command += " min_area=" + str(min_area)
snap = self.getParameterValue(self.GRASS_SNAP_TOLERANCE_PARAMETER);
command += " snap=" + str(snap)
command += " dsn=\"" + os.path.dirname(filename) + "\""
command += " layer=" + os.path.basename(filename)[:-4]
command += " output=" + destFilename;
command += " --overwrite -o"
return command
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
geomType = self.multiToSingleGeom(layer.dataProvider().geometryType())
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
layer.pendingFields().toList(), geomType, layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
inGeom = f.geometry()
attrs = f.attributes()
geometries = self.extractAsSingle(inGeom)
outFeat.setAttributes(attrs)
for g in geometries:
outFeat.setGeometry(g)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
vertices = self.getParameterValue(self.VERTICES)
isPolygon = layer.geometryType() == QGis.Polygon
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
layer.pendingFields().toList(), layer.wkbType(), layer.crs())
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
current = 0
for f in features:
featGeometry = QgsGeometry(f.geometry())
attrs = f.attributes()
newGeometry = self.densifyGeometry(featGeometry, int(vertices),
isPolygon)
feature = QgsFeature()
feature.setGeometry(newGeometry)
feature.setAttributes(attrs)
writer.addFeature(feature)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
QGis.WKBPolygon, layer.crs())
outFeat = QgsFeature()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
outGeomList = []
if f.geometry().isMultipart():
outGeomList = f.geometry().asMultiPolyline()
else:
outGeomList.append(f.geometry().asPolyline())
polyGeom = self.removeBadLines(outGeomList)
if len(polyGeom) <> 0:
outFeat.setGeometry(QgsGeometry.fromPolygon(polyGeom))
attrs = f.attributes()
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
'''Here is where the processing itself takes place'''
#the first thing to do is retrieve the values of the parameters
#entered by the user
inputFilename = self.getParameterValue(self.INPUT_LAYER)
output = self.getOutputFromName(self.OUTPUT_LAYER)
#input layers values are always a string with its location.
#That string can be converted into a QGIS object (a QgsVectorLayer in this case))
#using the Processing.getObject() method
vectorLayer = QGisLayers.getObjectFromUri(inputFilename)
#And now we can process
#First we create the output layer.
#To do so, we call the getVectorWriter method in the Output object.
#That will give as a ProcessingVectorWriter, that we can later use to add features.
provider = vectorLayer.dataProvider()
writer = output.getVectorWriter( provider.fields(), provider.geometryType(), vectorLayer.crs() )
#Now we take the selected features and add them to the output layer
features = QGisLayers.features(vectorLayer)
total = len(features)
i = 0
for feat in features:
writer.addFeature(feat)
progress.setPercentage(100 * i / float(total))
i += 1
del writer
def processAlgorithm(self, progress):
inLayer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.INPUT_LAYER))
inField = self.getParameterValue(self.INPUT_FIELD)
targetLayer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.TARGET_LAYER))
targetField = self.getParameterValue(self.TARGET_FIELD)
matType = self.getParameterValue(self.MATRIX_TYPE)
nPoints = self.getParameterValue(self.NEAREST_POINTS)
outputFile = self.getOutputValue(self.DISTANCE_MATRIX)
if nPoints < 1:
nPoints = len(QGisLayers.features(targetLayer))
# prepare CSV file writer
csvFile = open(outputFile, "wb")
self.writer = UnicodeWriter(csvFile)
if matType == 0: # Linear distance matrix
self.linearMatrix(inLayer, inField, targetLayer, targetField,
matType, nPoints, progress)
elif matType == 1: # Standard distance matrix
self.regularMatrix(inLayer, inField, targetLayer, targetField,
nPoints, progress)
elif matType == 2: # Summary distance matrix
self.linearMatrix(inLayer, inField, targetLayer, targetField,
matType, nPoints, progress)
csvFile.close()
del self.writer
def processAlgorithm(self, progress):
inLayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT_LAYER))
inField = self.getParameterValue(self.INPUT_FIELD)
targetLayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.TARGET_LAYER))
targetField = self.getParameterValue(self.TARGET_FIELD)
matType = self.getParameterValue(self.MATRIX_TYPE)
nPoints = self.getParameterValue(self.NEAREST_POINTS)
outputFile = self.getOutputValue(self.DISTANCE_MATRIX)
if nPoints < 1:
nPoints = len(QGisLayers.features(targetLayer))
# prepare CSV file writer
csvFile = open(outputFile, "wb")
self.writer = UnicodeWriter(csvFile)
if matType == 0: # Linear distance matrix
self.linearMatrix(inLayer, inField, targetLayer, targetField, matType, nPoints, progress)
elif matType == 1: # Standard distance matrix
self.regularMatrix(inLayer, inField, targetLayer, targetField, nPoints, progress)
elif matType == 2: # Summary distance matrix
self.linearMatrix(inLayer, inField, targetLayer, targetField, matType, nPoints, progress)
csvFile.close()
del self.writer
def processAlgorithm(self, progress):
source = self.getParameterValue(self.INPUT)
vlayer = QGisLayers.getObjectFromUri(source)
output = self.getOutputFromName(self.OUTPUT)
vprovider = vlayer.dataProvider()
fields = vprovider.fields()
writer = output.getVectorWriter(fields, QGis.WKBPoint, self.crs)
xfieldindex = vlayer.fieldNameIndex(self.getParameterValue(self.XFIELD))
yfieldindex = vlayer.fieldNameIndex(self.getParameterValue(self.YFIELD))
crsId = self.getParameterValue(self.TARGET_CRS)
targetCrs = QgsCoordinateReferenceSystem(crsId)
self.crs = targetCrs
outFeat = QgsFeature()
nElement = 0
features = QGisLayers.features(vlayer)
nFeat = len(features)
for feature in features:
nElement += 1
progress.setPercentage((nElement*100)/nFeat)
attrs = feature.attributes()
try:
x = float(attrs[xfieldindex])
y = float(attrs[yfieldindex])
except:
continue
pt = QgsPoint(x, y)
outFeat.setGeometry(QgsGeometry.fromPoint(pt))
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT_LAYER))
writer = self.getOutputFromName(self.OUTPUT_LAYER).getVectorWriter(
layer.pendingFields().toList(), QGis.WKBPoint, layer.crs()
)
outFeat = QgsFeature()
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
current = 0
for inFeat in features:
inGeom = inFeat.geometry()
attrs = inFeat.attributes()
outGeom = QgsGeometry(inGeom.centroid())
if outGeom is None:
raise GeoAlgorithmExecutionException("Error calculating centroid")
outFeat.setGeometry(outGeom)
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.LAYERNAME))
attribute = self.getParameterValue(self.ATTRIBUTE)
idx = layer.fieldNameIndex(attribute)
fields = layer.pendingFields()
fields[idx] = QgsField(fields[idx].name(), QVariant.Double)
output = self.getOutputFromName(self.SAVENAME)
out = output.getVectorWriter(fields, layer.wkbType(), layer.crs())
i = 0
features = QGisLayers.features(layer)
featurecount = len(features)
for feature in features:
i+=1
progress.setPercentage(float(i) / featurecount * 100)
attributes = feature.attributes()
try:
v = unicode(attributes[idx])
if '%' in v:
v = v.replace('%', "")
attributes[idx] = float(attributes[idx]) / float(100)
else:
attributes[idx] = float(attributes[idx])
except:
attributes[idx] = None
feature.setAttributes(attributes)
out.addFeature(feature)
del out
def calculateResamplingExtent(self):
'''this method calculates the resampling extent, but it might set self.resample
to false if, with the current layers, there is no need to resample'''
auto = ProcessingConfig.getSetting(SagaUtils.SAGA_AUTO_RESAMPLING)
if auto:
first = True;
self.inputExtentsCount = 0
for param in self.parameters:
if param.value:
if isinstance(param, ParameterRaster):
if isinstance(param.value, QgsRasterLayer):
layer = param.value
else:
layer = QGisLayers.getObjectFromUri(param.value)
self.addToResamplingExtent(layer, first)
first = False
if isinstance(param, ParameterMultipleInput):
if param.datatype == ParameterMultipleInput.TYPE_RASTER:
layers = param.value.split(";")
for layername in layers:
layer = QGisLayers.getObjectFromUri(layername)
self.addToResamplingExtent(layer, first)
first = False
if self.inputExtentsCount < 2:
self.resample = False
else:
self.xmin = ProcessingConfig.getSetting(SagaUtils.SAGA_RESAMPLING_REGION_XMIN)
self.xmax = ProcessingConfig.getSetting(SagaUtils.SAGA_RESAMPLING_REGION_XMAX)
self.ymin = ProcessingConfig.getSetting(SagaUtils.SAGA_RESAMPLING_REGION_YMIN)
self.ymax = ProcessingConfig.getSetting(SagaUtils.SAGA_RESAMPLING_REGION_YMAX)
self.cellsize = ProcessingConfig.getSetting(SagaUtils.SAGA_RESAMPLING_REGION_CELLSIZE)
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.LAYERNAME))
idx = layer.fieldNameIndex(self.getParameterValue(self.COLUMN))
output = self.getOutputFromName(self.SAVENAME)
fields = layer.pendingFields()
newFields = []
i = 0
for field in fields:
if i != idx:
newFields.append(field)
i += 1
outfile = output.getVectorWriter(newFields, layer.wkbType(), layer.crs() )
features = QGisLayers.features(layer)
featurecount = len(features)
i = 0
outFeat = QgsFeature()
for feature in features:
progress.setPercentage(float(i) /featurecount * 100)
i += 1
outFeat.setGeometry(feature.geometry())
attributes = feature.attributes()
newAttributes = []
i = 0
for attr in attributes:
if i != idx:
newAttributes.append(attr)
i += 1
feature.setAttributes(newAttributes)
outfile.addFeature(feature)
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
crsId = self.getParameterValue(self.TARGET_CRS)
targetCrs = QgsCoordinateReferenceSystem(crsId)
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
layer.pendingFields().toList(), layer.wkbType(), targetCrs)
layerCrs = layer.crs()
crsTransform = QgsCoordinateTransform(layerCrs, targetCrs)
outFeat = QgsFeature()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
geom = f.geometry()
geom.transform(crsTransform)
outFeat.setGeometry(geom)
outFeat.setAttributes(f.attributes())
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
self.crs = targetCrs
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
geomType = self.multiToSingleGeom(layer.dataProvider().geometryType())
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
geomType, layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
inGeom = f.geometry()
attrs = f.attributes()
geometries = self.extractAsSingle(inGeom)
outFeat.setAttributes(attrs)
for g in geometries:
outFeat.setGeometry(g)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def getDefaultCellsize(self):
cellsize = 0
for param in self.parameters:
if param.value:
if isinstance(param, ParameterRaster):
if isinstance(param.value, QgsRasterLayer):
layer = param.value
else:
layer = QGisLayers.getObjectFromUri(param.value)
cellsize = max(cellsize,
(layer.extent().xMaximum() -
layer.extent().xMinimum()) / layer.width())
elif isinstance(param, ParameterMultipleInput):
layers = param.value.split(";")
for layername in layers:
layer = QGisLayers.getObjectFromUri(layername)
if isinstance(layer, QgsRasterLayer):
cellsize = max(cellsize,
(layer.extent().xMaximum() -
layer.extent().xMinimum()) /
layer.width())
if cellsize == 0:
cellsize = 1
return cellsize
def convertUnsupportedFormats(self, progress):
i = 0
progress.setText("Converting outputs")
for out in self.outputs:
if isinstance(out, OutputVector):
if out.compatible is not None:
layer = QGisLayers.getObjectFromUri(out.compatible)
if layer is None: # for the case of memory layer, if the getCompatible method has been called
continue
provider = layer.dataProvider()
writer = out.getVectorWriter( provider.fields(), provider.geometryType(), layer.crs())
features = QGisLayers.features(layer)
for feature in features:
writer.addFeature(feature)
elif isinstance(out, OutputRaster):
if out.compatible is not None:
layer = QGisLayers.getObjectFromUri(out.compatible)
provider = layer.dataProvider()
writer = QgsRasterFileWriter(out.value)
format = self.getFormatShortNameFromFilename(out.value)
writer.setOutputFormat(format);
writer.writeRaster(layer.pipe(), layer.width(), layer.height(), layer.extent(), layer.crs())
elif isinstance(out, OutputTable):
if out.compatible is not None:
layer = QGisLayers.getObjectFromUri(out.compatible)
provider = layer.dataProvider()
writer = out.getTableWriter(provider.fields())
features = QGisLayers.features(layer)
for feature in features:
writer.addRecord(feature)
progress.setPercentage(100 * i / float(len(self.outputs)))
def getMinCoveringExtent(self):
first = True
found = False
for param in self.params:
if param.value:
if isinstance(param, (ParameterRaster, ParameterVector)):
if isinstance(param.value, (QgsRasterLayer, QgsVectorLayer)):
layer = param.value
else:
layer = QGisLayers.getObjectFromUri(param.value)
if layer:
found = True
self.addToRegion(layer, first)
first = False
elif isinstance(param, ParameterMultipleInput):
layers = param.value.split(";")
for layername in layers:
layer = QGisLayers.getObjectFromUri(layername, first)
if layer:
found = True
self.addToRegion(layer, first)
first = False
if found:
return str(self.xmin) + "," + str(self.xmax) + "," + str(self.ymin) + "," + str(self.ymax)
else:
return None
def processAlgorithm(self, progress):
filename = self.getParameterValue(self.INPUT)
inputLayer = QGisLayers.getObjectFromUri(filename)
method = self.getParameterValue(self.METHOD)
filename = self.getParameterValue(self.INTERSECT)
selectLayer = QGisLayers.getObjectFromUri(filename)
oldSelection = set(inputLayer.selectedFeaturesIds())
index = spatialIndex = utils.createSpatialIndex(inputLayer)
feat = QgsFeature()
geom = QgsGeometry()
selectedSet = []
current = 0
features = QGisLayers.features(selectLayer)
total = 100.0 / float(len(features))
for f in features:
geom = QgsGeometry(f.geometry())
intersects = index.intersects(geom.boundingBox())
for i in intersects:
request = QgsFeatureRequest().setFilterFid(i)
feat = inputLayer.getFeatures(request).next()
tmpGeom = QgsGeometry(feat.geometry())
if geom.intersects(tmpGeom):
selectedSet.append(feat.id())
current += 1
progress.setPercentage(int(current * total))
if method == 1:
selectedSet = list(oldSelection.union(selectedSet))
elif method == 2:
selectedSet = list(oldSelection.difference(selectedSet))
inputLayer.setSelectedFeatures(selectedSet)
self.setOutputValue(self.OUTPUT, filename)
def processAlgorithm(self, progress):
source = self.getParameterValue(self.INPUT)
vlayer = QGisLayers.getObjectFromUri(source)
output = self.getOutputFromName(self.OUTPUT)
vprovider = vlayer.dataProvider()
fields = vprovider.fields()
writer = output.getVectorWriter(fields, QGis.WKBPoint, self.crs)
xfieldindex = vlayer.fieldNameIndex(self.getParameterValue(
self.XFIELD))
yfieldindex = vlayer.fieldNameIndex(self.getParameterValue(
self.YFIELD))
crsId = self.getParameterValue(self.TARGET_CRS)
targetCrs = QgsCoordinateReferenceSystem(crsId)
self.crs = targetCrs
outFeat = QgsFeature()
nElement = 0
features = QGisLayers.features(vlayer)
nFeat = len(features)
for feature in features:
nElement += 1
progress.setPercentage((nElement * 100) / nFeat)
attrs = feature.attributes()
try:
x = float(attrs[xfieldindex])
y = float(attrs[yfieldindex])
except:
continue
pt = QgsPoint(x, y)
outFeat.setGeometry(QgsGeometry.fromPoint(pt))
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
output = self.getOutputFromName(self.OUTPUT)
vlayer = QGisLayers.getObjectFromUri(self.getParameterValue(
self.INPUT))
vprovider = vlayer.dataProvider()
fields = vprovider.fields()
fields.append(QgsField("AUTO", QVariant.Int))
writer = output.getVectorWriter(fields, vprovider.geometryType(),
vlayer.crs())
inFeat = QgsFeature()
outFeat = QgsFeature()
inGeom = QgsGeometry()
nElement = 0
features = QGisLayers.features(vlayer)
nFeat = len(features)
for inFeat in features:
progress.setPercentage(int((100 * nElement) / nFeat))
nElement += 1
inGeom = inFeat.geometry()
outFeat.setGeometry(inGeom)
attrs = inFeat.attributes()
attrs.append(nElement)
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
del writer
def exportVectorLayer(self, orgFilename):
# TODO: improve this. We are now exporting if it is not a shapefile,
# but the functionality of v.in.ogr could be used for this.
# We also export if there is a selection
if not os.path.exists(orgFilename) or not orgFilename.endswith("shp"):
layer = QGisLayers.getObjectFromUri(orgFilename, False)
if layer:
filename = LayerExporter.exportVectorLayer(layer)
else:
layer = QGisLayers.getObjectFromUri(orgFilename, False)
if layer:
useSelection = ProcessingConfig.getSetting(ProcessingConfig.USE_SELECTED)
if useSelection and layer.selectedFeatureCount() != 0:
filename = LayerExporter.exportVectorLayer(layer)
else:
filename = orgFilename
else:
filename = orgFilename
destFilename = self.getTempFilename()
self.exportedLayers[orgFilename] = destFilename
command = "v.in.ogr"
min_area = self.getParameterValue(self.GRASS_MIN_AREA_PARAMETER)
command += " min_area=" + str(min_area)
snap = self.getParameterValue(self.GRASS_SNAP_TOLERANCE_PARAMETER)
command += " snap=" + str(snap)
command += ' dsn="' + os.path.dirname(filename) + '"'
command += " layer=" + os.path.basename(filename)[:-4]
command += " output=" + destFilename
command += " --overwrite -o"
return command
def getMinCoveringExtent(self):
first = True
found = False
for param in self.params:
if param.value:
if isinstance(param, (ParameterRaster, ParameterVector)):
if isinstance(param.value,
(QgsRasterLayer, QgsVectorLayer)):
layer = param.value
else:
layer = QGisLayers.getObjectFromUri(param.value)
if layer:
found = True
self.addToRegion(layer, first)
first = False
elif isinstance(param, ParameterMultipleInput):
layers = param.value.split(";")
for layername in layers:
layer = QGisLayers.getObjectFromUri(layername, first)
if layer:
found = True
self.addToRegion(layer, first)
first = False
if found:
return str(self.xmin) + "," + str(self.xmax) + "," + str(
self.ymin) + "," + str(self.ymax)
else:
return None
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT_LAYER))
valuesFieldName = self.getParameterValue(self.VALUES_FIELD_NAME)
categoriesFieldName = self.getParameterValue(self.CATEGORIES_FIELD_NAME)
output = self.getOutputFromName(self.OUTPUT)
valuesField = layer.fieldNameIndex(valuesFieldName)
categoriesField = layer.fieldNameIndex(categoriesFieldName)
features = QGisLayers.features(layer)
nFeats = len(features)
values = {}
nFeat = 0
for feat in features:
nFeat += 1
progress.setPercentage(int((100 * nFeats) / nFeat))
attrs = feat.attributes()
try:
value = float(attrs[valuesField])
cat = unicode(attrs[categoriesField])
if cat not in values:
values[cat] = []
values[cat].append(value)
except:
pass
fields = [QgsField("category", QVariant.String), QgsField("min", QVariant.Double),
QgsField("max", QVariant.Double), QgsField("mean", QVariant.Double),
QgsField("stddev", QVariant.Double)]
writer = output.getTableWriter(fields)
for cat, v in values.items():
min, max, mean, stddev = calculateStats(v)
record = [cat, min, max, mean, stddev]
writer.addRecord(record)
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
layer.pendingFields().toList(), QGis.WKBPoint, layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
outGeom = QgsGeometry()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
inGeom = f.geometry()
attrs = f.attributes()
points = utils.extractPoints(inGeom)
outFeat.setAttributes(attrs)
for i in points:
outFeat.setGeometry(outGeom.fromPoint(i))
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
crsId = self.getParameterValue(self.TARGET_CRS)
targetCrs = QgsCoordinateReferenceSystem(crsId)
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
layer.wkbType(), targetCrs)
layerCrs = layer.crs()
crsTransform = QgsCoordinateTransform(layerCrs, targetCrs)
outFeat = QgsFeature()
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
for f in features:
geom = f.geometry()
geom.transform(crsTransform)
outFeat.setGeometry(geom)
outFeat.setAttributes(f.attributes())
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
self.crs = targetCrs
def processAlgorithm(self, progress):
'''Here is where the processing itself takes place'''
# the first thing to do is retrieve the values of the parameters
# entered by the user
inputFilename = self.getParameterValue(self.INPUT_LAYER)
output = self.getOutputValue(self.OUTPUT_LAYER)
# input layers vales are always a string with its location.
# That string can be converted into a QGIS object (a QgsVectorLayer in
# this case) using the Processing.getObjectFromUri() method.
vectorLayer = QGisLayers.getObjectFromUri(inputFilename)
# And now we can process
# First we create the output layer. The output value entered by the user
# is a string containing a filename, so we can use it directly
settings = QSettings()
systemEncoding = settings.value( "/UI/encoding", "System" )
provider = vectorLayer.dataProvider()
writer = QgsVectorFileWriter(output,
systemEncoding,
provider.fields(),
provider.geometryType(),
provider.crs()
)
# Now we take the features from input layer and add them to the output.
# Method features() returns an iterator, considering the selection that
# might exist in layer and the configuration that indicates
# should algorithm use only selected features or all of them
features = QGisLayers.features(vectorLayer)
for f in features:
writer.addFeature(f)
def processAlgorithm(self, progress):
polyLayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.POLYGONS))
pointLayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.POINTS))
fieldName = self.getParameterValue(self.FIELD)
fieldIdx = pointLayer.fieldNameIndex(self.getParameterValue(self.WEIGHT))
polyProvider = polyLayer.dataProvider()
idxCount, fieldList = utils.findOrCreateField(polyLayer, polyLayer.pendingFields(), fieldName)
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fieldList.toList(),
polyProvider.geometryType(), polyProvider.crs())
spatialIndex = utils.createSpatialIndex(pointLayer)
ftPoint = QgsFeature()
outFeat = QgsFeature()
geom = QgsGeometry()
current = 0
hasIntersections = False
features = QGisLayers.features(polyLayer)
total = 100.0 / float(len(features))
for ftPoly in features:
geom = ftPoly.geometry()
attrs = ftPoly.attributes()
count = 0
hasIntersections = False
points = spatialIndex.intersects(geom.boundingBox())
if len(points) > 0:
hasIntersections = True
if hasIntersections:
progress.setText(str(len(points)))
for i in points:
request = QgsFeatureRequest().setFilterFid(i)
ftPoint = pointLayer.getFeatures(request).next()
tmpGeom = QgsGeometry(ftPoint.geometry())
if geom.contains(tmpGeom):
weight = str(ftPoint.attributes()[fieldIdx])
try:
count += float(weight)
except:
pass #ignore fields with non-numeric values
outFeat.setGeometry(geom)
if idxCount == len(attrs):
attrs.append(count)
else:
attrs[idxCount] = count
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def getFileFilter(self):
if self.datatype == ParameterMultipleInput.TYPE_RASTER:
exts = QGisLayers.getSupportedOutputRasterLayerExtensions()
else:
exts = QGisLayers.getSupportedOutputVectorLayerExtensions()
for i in range(len(exts)):
exts[i] = exts[i].upper() + " files(*." + exts[i].lower() + ")"
return ";;".join(exts)
def processAlgorithm(self, progress):
layerA = QGisLayers.getObjectFromUri(self.getParameterValue(Difference.INPUT))
layerB = QGisLayers.getObjectFromUri(self.getParameterValue(Difference.OVERLAY))
GEOS_EXCEPT = True
FEATURE_EXCEPT = True
writer = self.getOutputFromName(Difference.OUTPUT).getVectorWriter(layerA.pendingFields(),
layerA.dataProvider().geometryType(), layerA.dataProvider().crs())
inFeatA = QgsFeature()
inFeatB = QgsFeature()
outFeat = QgsFeature()
index = utils.createSpatialIndex(layerB)
selectionA = QGisLayers.features(layerA)
current = 0
total = 100.0 / float(len(selectionA))
for inFeatA in selectionA:
add = True
geom = QgsGeometry(inFeatA.geometry())
diff_geom = QgsGeometry(geom)
attrs = inFeatA.attributes()
intersections = index.intersects(geom.boundingBox())
for i in intersections:
request = QgsFeatureRequest().setFilterFid(i)
inFeatB = layerB.getFeatures(request).next()
tmpGeom = QgsGeometry(inFeatB.geometry())
try:
if diff_geom.intersects(tmpGeom):
diff_geom = QgsGeometry(diff_geom.difference(tmpGeom))
except:
GEOS_EXCEPT = False
add = False
break
if add:
try:
outFeat.setGeometry(diff_geom)
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
except:
FEATURE_EXCEPT = False
continue
current += 1
progress.setPercentage(int(current * total))
del writer
if not GEOS_EXCEPT:
ProcessingLog.addToLog(ProcessingLog.LOG_WARNING, "Geometry exception while computing difference")
if not FEATURE_EXCEPT:
ProcessingLog.addToLog(ProcessingLog.LOG_WARNING, "Feature exception while computing difference")
def processAlgorithm(self, progress):
layer1 = QGisLayers.getObjectFromUri(self.getParameterValue(self.LAYER1))
layer2 = QGisLayers.getObjectFromUri(self.getParameterValue(self.LAYER2))
fields = []
layers = [layer1, layer2]
totalfeaturecount = 0
if (layer1.dataProvider().geometryType() != layer2.dataProvider().geometryType()):
raise GeoAlgorithmExecutionException("Merged layers must all be same type of geometry (" + \
mmqgisx_wkbtype_to_text(layer2.dataProvider().geometryType()) + " != " + \
mmqgisx_wkbtype_to_text(layer2.dataProvider().geometryType()) + ")")
for layer in layers:
totalfeaturecount += layer.featureCount()
# Add any fields not in the composite field list
for sfield in layer.pendingFields():
found = None
for dfield in fields:
if (dfield.name() == sfield.name()) and (dfield.type() == sfield.type()):
found = dfield
break
if not found:
fields.append(sfield)
output = self.getOutputFromName(self.SAVENAME)
out = output.getVectorWriter(fields, layer1.wkbType(), layer1.crs())
# Copy layer features to output file
featurecount = 0
for layer in layers:
idx = {}
for dfield in fields:
i = 0
for sfield in layer.pendingFields():
if (sfield.name() == dfield.name()) and (sfield.type() == dfield.type()):
idx[dfield] = i
break
i += 1
features = QGisLayers.features(layer)
for feature in features:
sattributes = feature.attributes()
dattributes = []
for dfield in fields:
if (dfield in idx):
dattributes.append(sattributes[idx[dfield]])
else:
dattributes.append(dfield.type())
feature.setAttributes(dattributes)
out.addFeature(feature)
featurecount += 1
progress.setPercentage(float(featurecount) / totalfeaturecount * 100)
del out
def processAlgorithm(self, progress):
polyLayer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.POLYGONS))
pointLayer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.POINTS))
fieldName = self.getParameterValue(self.FIELD)
polyProvider = polyLayer.dataProvider()
idxCount, fieldList = utils.findOrCreateField(
polyLayer, polyLayer.pendingFields(), fieldName)
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fieldList.toList(), polyProvider.geometryType(),
polyProvider.crs())
spatialIndex = utils.createSpatialIndex(pointLayer)
ftPoly = QgsFeature()
ftPoint = QgsFeature()
outFeat = QgsFeature()
geom = QgsGeometry()
current = 0
hasIntersections = False
features = QGisLayers.features(polyLayer)
total = 100.0 / float(len(features))
for ftPoly in features:
geom = ftPoly.geometry()
attrs = ftPoly.attributes()
count = 0
hasIntersections = False
points = spatialIndex.intersects(geom.boundingBox())
if len(points) > 0:
hasIntersections = True
if hasIntersections:
for i in points:
request = QgsFeatureRequest().setFilterFid(i)
ftPoint = pointLayer.getFeatures(request).next()
tmpGeom = QgsGeometry(ftPoint.geometry())
if geom.contains(tmpGeom):
count += 1
outFeat.setGeometry(geom)
if idxCount == len(attrs):
attrs.append(count)
else:
attrs[idxCount] = count
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
polyLayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.POLYGONS))
pointLayer = QGisLayers.getObjectFromUri(self.getParameterValue(self.POINTS))
fieldName = self.getParameterValue(self.FIELD)
classFieldName = self.getParameterValue(self.CLASSFIELD)
polyProvider = polyLayer.dataProvider()
classFieldIndex = pointLayer.fieldNameIndex(classFieldName)
idxCount, fieldList = utils.findOrCreateField(polyLayer, polyLayer.pendingFields(), fieldName)
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fieldList.toList(), polyProvider.geometryType(), polyProvider.crs()
)
spatialIndex = utils.createSpatialIndex(pointLayer)
ftPoint = QgsFeature()
outFeat = QgsFeature()
geom = QgsGeometry()
current = 0
hasIntersections = False
features = QGisLayers.features(polyLayer)
total = 100.0 / float(len(features))
for ftPoly in features:
geom = ftPoly.geometry()
attrs = ftPoly.attributes()
classes = []
hasIntersections = False
points = spatialIndex.intersects(geom.boundingBox())
if len(points) > 0:
hasIntersections = True
if hasIntersections:
for i in points:
request = QgsFeatureRequest().setFilterFid(i)
ftPoint = pointLayer.getFeatures(request).next()
tmpGeom = QgsGeometry(ftPoint.geometry())
if geom.contains(tmpGeom):
clazz = ftPoint.attributes()[classFieldIndex]
if not clazz in classes:
classes.append(clazz)
outFeat.setGeometry(geom)
if idxCount == len(attrs):
attrs.append(len(classes))
else:
attrs[idxCount] = len(classes)
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
current += 1
progress.setPercentage(current / total)
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
layer.pendingFields().toList(), QGis.WKBPolygon, layer.crs())
inFeat = QgsFeature()
outFeat = QgsFeature()
extent = layer.extent()
height = extent.height()
width = extent.width()
c = voronoi.Context()
pts = []
ptDict = {}
ptNdx = -1
features = QGisLayers.features(layer)
for inFeat in features:
geom = QgsGeometry(inFeat.geometry())
point = geom.asPoint()
x = point.x() - extent.xMinimum()
y = point.y() - extent.yMinimum()
pts.append((x, y))
ptNdx += 1
ptDict[ptNdx] = inFeat.id()
if len(pts) < 3:
raise GeoAlgorithmExecutionException(
"Input file should contain at least 3 points. Choose another file and try again."
)
uniqueSet = Set(item for item in pts)
ids = [pts.index(item) for item in uniqueSet]
sl = voronoi.SiteList([
voronoi.Site(i[0], i[1], sitenum=j)
for j, i in enumerate(uniqueSet)
])
voronoi.voronoi(sl, c)
inFeat = QgsFeature()
current = 0
total = 100.0 / float(len(c.polygons))
for site, edges in c.polygons.iteritems():
request = QgsFeatureRequest().setFilterFid(ptDict[ids[site]])
inFeat = layer.getFeatures(request).next()
lines = self.clip_voronoi(edges, c, width, height, extent, 0, 0)
geom = QgsGeometry.fromMultiPoint(lines)
geom = QgsGeometry(geom.convexHull())
outFeat.setGeometry(geom)
outFeat.setAttributes(inFeat.attributes())
writer.addFeature(outFeat)
current += 1
progress.setPercentage(int(current * total))
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(
self.POINTS))
weightField = self.getParameterValue(self.WEIGHT)
uniqueField = self.getParameterValue(self.UID)
weightIndex = layer.fieldNameIndex(weightField)
uniqueIndex = layer.fieldNameIndex(uniqueField)
fieldList = [
QgsField("MEAN_X", QVariant.Double, "", 24, 15),
QgsField("MEAN_Y", QVariant.Double, "", 24, 15),
QgsField("UID", QVariant.String, "", 255)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fieldList, QGis.WKBPoint, layer.crs())
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
means = {}
for feat in features:
current += 1
progress.setPercentage(current * total)
clazz = str(feat.attributes()[uniqueIndex]).strip()
if weightIndex == -1:
weight = 1.00
else:
try:
weight = float(feat.attributes()[weightIndex])
except:
weight = 1.00
if clazz not in means:
means[clazz] = (0, 0, 0)
cx, cy, totalweight = means[clazz]
geom = QgsGeometry(feat.geometry())
geom = utils.extractPoints(geom)
for i in geom:
cx += i.x() * weight
cy += i.y() * weight
totalweight += weight
means[clazz] = (cx, cy, totalweight)
for clazz, values in means.iteritems():
outFeat = QgsFeature()
cx = values[0] / values[2]
cy = values[1] / values[2]
meanPoint = QgsPoint(cx, cy)
outFeat.setGeometry(QgsGeometry.fromPoint(meanPoint))
outFeat.setAttributes([cx, cy, clazz])
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
filename = self.getParameterValue(self.INPUT)
layer = QGisLayers.getObjectFromUri(filename)
field = self.getParameterValue(self.FIELD)
method = self.getParameterValue(self.METHOD)
layer.removeSelection()
index = layer.fieldNameIndex(field)
unique = utils.getUniqueValues(layer, index)
featureCount = layer.featureCount()
value = int(self.getParameterValue(self.NUMBER))
if method == 0:
if value > featureCount:
raise GeoAlgorithmExecutionException("Selected number is greater that feature count. Choose lesser value and try again.")
else:
if value > 100:
raise GeoAlgorithmExecutionException("Persentage can't be greater than 100. Set corrent value and try again.")
value = value / 100.0
selran = []
inFeat = QgsFeature()
current = 0
total = 100.0 / float(featureCount * len(unique))
features = QGisLayers.features(layer)
if not len(unique) == featureCount:
for i in unique:
FIDs= []
for inFeat in features:
attrs = inFeat.attributes()
if attrs[index] == i:
FIDs.append(inFeat.id())
current += 1
progress.setPercentage(int(current * total))
if method == 1:
selValue = int(round(value * len(FIDs), 0))
else:
selValue = value
if selValue >= len(FIDs):
selFeat = FIDs
else:
selFeat = random.sample(FIDs, selValue)
selran.extend(selFeat)
layer.setSelectedFeatures(selran)
else:
layer.setSelectedFeatures(range(0, featureCount))
self.setOutputValue(self.OUTPUT, filename)
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.POINTS))
weightField = self.getParameterValue(self.WEIGHT)
uniqueField = self.getParameterValue(self.UID)
weightIndex = layer.fieldNameIndex(weightField)
uniqueIndex = layer.fieldNameIndex(uniqueField)
fieldList = [QgsField("MEAN_X", QVariant.Double, "", 24, 15),
QgsField("MEAN_Y", QVariant.Double, "", 24, 15),
QgsField("UID", QVariant.String, "", 255)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fieldList,
QGis.WKBPoint, layer.crs())
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features))
means = {}
for feat in features:
current += 1
progress.setPercentage(current * total)
clazz = str(feat.attributes()[uniqueIndex]).strip()
if weightIndex == -1:
weight = 1.00
else:
try:
weight = float(feat.attributes()[weightIndex])
except:
weight = 1.00
if clazz not in means:
means[clazz] = (0,0,0)
cx,cy, totalweight = means[clazz]
geom = QgsGeometry(feat.geometry())
geom = utils.extractPoints(geom)
for i in geom:
cx += i.x() * weight
cy += i.y() * weight
totalweight += weight
means[clazz] = (cx, cy, totalweight)
for clazz, values in means.iteritems():
outFeat = QgsFeature()
cx = values[0] / values[2]
cy = values[1] / values[2]
meanPoint = QgsPoint(cx, cy)
outFeat.setGeometry(QgsGeometry.fromPoint(meanPoint))
outFeat.setAttributes([cx, cy, clazz])
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
try:
from shapely.ops import polygonize
from shapely.geometry import Point, MultiLineString
except ImportError:
raise GeoAlgorithmExecutionException(
'Polygonize algorithm requires shapely module!')
vlayer = QGisLayers.getObjectFromUri(self.getParameterValue(
self.INPUT))
output = self.getOutputFromName(self.OUTPUT)
vprovider = vlayer.dataProvider()
if self.getParameterValue(self.FIELDS):
fields = vprovider.fields()
else:
fields = QgsFields()
if self.getParameterValue(self.GEOMETRY):
fieldsCount = fields.count()
fields.append(QgsField("area", QVariant.Double, "double", 16, 2))
fields.append(
QgsField("perimeter", QVariant.Double, "double", 16, 2))
allLinesList = []
features = QGisLayers.features(vlayer)
current = 0
total = 40.0 / float(len(features))
for inFeat in features:
inGeom = inFeat.geometry()
if inGeom.isMultipart():
allLinesList.extend(inGeom.asMultiPolyline())
else:
allLinesList.append(inGeom.asPolyline())
current += 1
progress.setPercentage(int(current * total))
progress.setPercentage(40)
allLines = MultiLineString(allLinesList)
allLines = allLines.union(Point(0, 0))
progress.setPercentage(45)
polygons = list(polygonize([allLines]))
progress.setPercentage(50)
writer = output.getVectorWriter(fields, QGis.WKBPolygon, vlayer.crs())
outFeat = QgsFeature()
current = 0
total = 50.0 / float(len(polygons))
for polygon in polygons:
outFeat.setGeometry(QgsGeometry.fromWkt(polygon.wkt))
if self.getParameterValue(self.GEOMETRY):
outFeat.setAttributes([None] * fieldsCount +
[polygon.area, polygon.length])
writer.addFeature(outFeat)
current += 1
progress.setPercentage(50 + int(current * total))
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT))
output = self.getOutputValue(self.OUTPUT)
fieldName = self.getParameterValue(self.FIELD)
geomType = self.singleToMultiGeom(layer.dataProvider().geometryType())
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
layer.pendingFields().toList(), geomType, layer.crs())
inFeat = QgsFeature()
outFeat = QgsFeature()
inGeom = QgsGeometry()
outGeom = QgsGeometry()
index = layer.fieldNameIndex(fieldName)
unique = utils.getUniqueValues(layer, index)
current = 0
features = QGisLayers.features(layer)
total = 100.0 / float(len(features) * len(unique))
if not len(unique) == layer.featureCount():
for i in unique:
multi_feature = []
first = True
features = QGisLayers.features(layer)
for inFeat in features:
atMap = inFeat.attributes()
idVar = atMap[index]
if unicode(idVar).strip() == unicode(i).strip():
if first:
attrs = atMap
first = False
inGeom = QgsGeometry(inFeat.geometry())
vType = inGeom.type()
feature_list = self.extractAsMulti(inGeom)
multi_feature.extend(feature_list)
current += 1
progress.setPercentage(int(current * total))
outFeat.setAttributes(attrs)
outGeom = QgsGeometry(
self.convertGeometry(multi_feature, vType))
outFeat.setGeometry(outGeom)
writer.addFeature(outFeat)
del writer
else:
raise GeoAlgorithmExecutionException("Invalid unique ID field")
def processAlgorithm(self, progress):
fieldName = self.getParameterValue(self.FIELD_NAME)
fieldType = self.getParameterValue(self.FIELD_TYPE)
fieldLength = self.getParameterValue(self.FIELD_LENGTH)
fieldPrecision = self.getParameterValue(self.FIELD_PRECISION)
formula = self.getParameterValue(self.FORMULA)
output = self.getOutputFromName(self.OUTPUT_LAYER)
layer = QGisLayers.getObjectFromUri(
self.getParameterValue(self.INPUT_LAYER))
provider = layer.dataProvider()
fields = provider.fields()
fields.append(
QgsField(fieldName, self.TYPES[fieldType], "", fieldLength,
fieldPrecision))
writer = output.getVectorWriter(fields, provider.geometryType(),
layer.crs())
outFeat = QgsFeature()
inGeom = QgsGeometry()
nFeat = provider.featureCount()
nElement = 0
features = QGisLayers.features(layer)
fieldnames = [field.name() for field in provider.fields()]
fieldnames.sort(key=len, reverse=False)
fieldidx = [
fieldnames.index(field.name()) for field in provider.fields()
]
print fieldidx
for inFeat in features:
progress.setPercentage(int((100 * nElement) / nFeat))
attrs = inFeat.attributes()
expression = formula
for idx in fieldidx:
expression = expression.replace(unicode(fields[idx].name()),
unicode(attrs[idx]))
try:
result = eval(expression)
except Exception:
result = None
nElement += 1
inGeom = inFeat.geometry()
outFeat.setGeometry(inGeom)
attrs = inFeat.attributes()
attrs.append(result)
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
input = self.getParameterValue(self.INPUT_LAYER)
input2 = self.getParameterValue(self.INPUT_LAYER_2)
output = self.getOutputFromName(self.OUTPUT_LAYER)
field = self.getParameterValue(self.TABLE_FIELD)
field2 = self.getParameterValue(self.TABLE_FIELD_2)
# Layer 1
layer = QGisLayers.getObjectFromUri(input)
provider = layer.dataProvider()
joinField1Index = layer.fieldNameIndex(field)
# Layer 2
layer2 = QGisLayers.getObjectFromUri(input2)
provider2 = layer2.dataProvider()
joinField2Index = layer2.fieldNameIndex(field2)
# Output
outFields = []
outFields.extend(provider.fields())
outFields.extend(provider2.fields())
writer = output.getVectorWriter(outFields, provider.geometryType(), layer.crs())
inFeat = QgsFeature()
inFeat2 = QgsFeature()
outFeat = QgsFeature()
# Create output vector layer with additional attribute
features = QGisLayers.features(layer);
for inFeat in features:
inGeom = inFeat.geometry()
attrs = inFeat.attributes()
joinValue1 = attrs[joinField1Index]
features2 = QGisLayers.features(layer2);
for inFeat2 in features2:
## Maybe it should cache this entries...
attrs2 = inFeat2.attributes()
joinValue2 = attrs2[joinField2Index]
if joinValue1 == joinValue2:
# create the new feature
outFeat.setGeometry(inGeom)
attrs.extend(attrs2)
break;
outFeat.setAttributes(attrs)
writer.addFeature(outFeat)
del writer
def processAlgorithm(self, progress):
layer = QGisLayers.getObjectFromUri(self.getParameterValue(self.INPUT_LAYER))
byFeature = self.getParameterValue(self.BY_FEATURE)
fields = [ QgsField("MINX", QVariant.Double),
QgsField("MINY", QVariant.Double),
QgsField("MAXX", QVariant.Double),
QgsField("MAXY", QVariant.Double),
QgsField("CNTX", QVariant.Double),
QgsField("CNTY", QVariant.Double),
QgsField("AREA", QVariant.Double),
QgsField("PERIM", QVariant.Double),
QgsField("HEIGHT", QVariant.Double),
QgsField("WIDTH", QVariant.Double)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields,
QGis.WKBPolygon, layer.crs())
if byFeature:
self.featureExtent(layer, writer, progress)
else:
self.layerExtent(layer, writer, progress)
del writer
