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QGIS/python/plugins/processing/algs/qgis/PointDistance.py
Andrea Giudiceandrea 81fb58f997 [processing] Fix deprecated QgsField constructor 
Using QMetaType.Type in place of QVariant types for:
- "Check validity" qgis:checkvalidity
- "Climb along line" qgis:climbalongline
- "Add geometry attributes" qgis:exportaddgeometrycolumns
- "Advanced Python field calculator" qgis:advancedpythonfieldcalculator
- "Find projection" qgis:findprojection
- "Distance to nearest hub (line to hub)" qgis:distancetonearesthublinetohub
- "Distance to nearest hub (points)"  qgis:distancetonearesthubpoints
- "Concave hull (k-nearest neighbor)" qgis:knearestconcavehull
- "Minimum bounding geometry" qgis:minimumboundinggeometry
- "Distance matrix" qgis:distancematrix
- "Generate points (pixel centroids) along line" qgis:generatepointspixelcentroidsalongline
- "Random points along line" qgis:randompointsalongline
- "Random points in layer bounds" qgis:randompointsinlayerbounds
- "Random points inside polygons" qgis:randompointsinsidepolygons
- "Regular points" qgis:regularpoints
- "Statistics by categories" qgis:statisticsbycategories
- "Text to float" qgis:texttofloat
- "Topological coloring" qgis:topologicalcoloring
2024-09-16 08:48:01 +10:00

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"""
***************************************************************************
PointDistance.py
---------------------
Date : August 2012
Copyright : (C) 2012 by Victor Olaya
Email : volayaf at gmail dot com
***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************
"""
__author__ = 'Victor Olaya'
__date__ = 'August 2012'
__copyright__ = '(C) 2012, Victor Olaya'
import os
import math
from qgis.PyQt.QtGui import QIcon
from qgis.PyQt.QtCore import QMetaType
from qgis.core import (QgsApplication,
QgsFeatureRequest,
QgsField,
QgsFields,
QgsProject,
QgsFeature,
QgsGeometry,
QgsDistanceArea,
QgsFeatureSink,
QgsProcessingParameterFeatureSource,
QgsProcessing,
QgsProcessingException,
QgsProcessingParameterEnum,
QgsProcessingParameterField,
QgsProcessingParameterNumber,
QgsProcessingParameterFeatureSink,
QgsSpatialIndex,
QgsWkbTypes)
from processing.algs.qgis.QgisAlgorithm import QgisAlgorithm
pluginPath = os.path.split(os.path.split(os.path.dirname(__file__))[0])[0]
class PointDistance(QgisAlgorithm):
INPUT = 'INPUT'
INPUT_FIELD = 'INPUT_FIELD'
TARGET = 'TARGET'
TARGET_FIELD = 'TARGET_FIELD'
MATRIX_TYPE = 'MATRIX_TYPE'
NEAREST_POINTS = 'NEAREST_POINTS'
OUTPUT = 'OUTPUT'
def icon(self):
return QgsApplication.getThemeIcon("/algorithms/mAlgorithmDistanceMatrix.svg")
def svgIconPath(self):
return QgsApplication.iconPath("/algorithms/mAlgorithmDistanceMatrix.svg")
def group(self):
return self.tr('Vector analysis')
def groupId(self):
return 'vectoranalysis'
def __init__(self):
super().__init__()
def initAlgorithm(self, config=None):
self.mat_types = [self.tr('Linear (N*k x 3) distance matrix'),
self.tr('Standard (N x T) distance matrix'),
self.tr('Summary distance matrix (mean, std. dev., min, max)')]
self.addParameter(QgsProcessingParameterFeatureSource(self.INPUT,
self.tr('Input point layer'),
[QgsProcessing.SourceType.TypeVectorPoint]))
self.addParameter(QgsProcessingParameterField(self.INPUT_FIELD,
self.tr('Input unique ID field'),
parentLayerParameterName=self.INPUT,
type=QgsProcessingParameterField.DataType.Any))
self.addParameter(QgsProcessingParameterFeatureSource(self.TARGET,
self.tr('Target point layer'),
[QgsProcessing.SourceType.TypeVectorPoint]))
self.addParameter(QgsProcessingParameterField(self.TARGET_FIELD,
self.tr('Target unique ID field'),
parentLayerParameterName=self.TARGET,
type=QgsProcessingParameterField.DataType.Any))
self.addParameter(QgsProcessingParameterEnum(self.MATRIX_TYPE,
self.tr('Output matrix type'), options=self.mat_types, defaultValue=0))
self.addParameter(QgsProcessingParameterNumber(self.NEAREST_POINTS,
self.tr('Use only the nearest (k) target points'), type=QgsProcessingParameterNumber.Type.Integer, minValue=0, defaultValue=0))
self.addParameter(QgsProcessingParameterFeatureSink(self.OUTPUT, self.tr('Distance matrix'), QgsProcessing.SourceType.TypeVectorPoint))
def name(self):
return 'distancematrix'
def displayName(self):
return self.tr('Distance matrix')
def processAlgorithm(self, parameters, context, feedback):
source = self.parameterAsSource(parameters, self.INPUT, context)
if source is None:
raise QgsProcessingException(self.invalidSourceError(parameters, self.INPUT))
if QgsWkbTypes.isMultiType(source.wkbType()):
raise QgsProcessingException(self.tr('Input point layer is a MultiPoint layer - first convert to single points before using this algorithm.'))
source_field = self.parameterAsString(parameters, self.INPUT_FIELD, context)
target_source = self.parameterAsSource(parameters, self.TARGET, context)
if target_source is None:
raise QgsProcessingException(self.invalidSourceError(parameters, self.TARGET))
if QgsWkbTypes.isMultiType(target_source.wkbType()):
raise QgsProcessingException(self.tr('Target point layer is a MultiPoint layer - first convert to single points before using this algorithm.'))
target_field = self.parameterAsString(parameters, self.TARGET_FIELD, context)
same_source_and_target = parameters[self.INPUT] == parameters[self.TARGET]
matType = self.parameterAsEnum(parameters, self.MATRIX_TYPE, context)
nPoints = self.parameterAsInt(parameters, self.NEAREST_POINTS, context)
if nPoints < 1:
nPoints = target_source.featureCount()
if matType == 0:
# Linear distance matrix
return self.linearMatrix(parameters, context, source, source_field, target_source, target_field, same_source_and_target,
matType, nPoints, feedback)
elif matType == 1:
# Standard distance matrix
return self.regularMatrix(parameters, context, source, source_field, target_source, target_field,
nPoints, feedback)
elif matType == 2:
# Summary distance matrix
return self.linearMatrix(parameters, context, source, source_field, target_source, target_field, same_source_and_target,
matType, nPoints, feedback)
def linearMatrix(self, parameters, context, source, inField, target_source, targetField, same_source_and_target,
matType, nPoints, feedback):
if same_source_and_target:
# need to fetch an extra point from the index, since the closest match will always be the same
# as the input feature
nPoints += 1
inIdx = source.fields().lookupField(inField)
outIdx = target_source.fields().lookupField(targetField)
fields = QgsFields()
input_id_field = source.fields()[inIdx]
input_id_field.setName('InputID')
fields.append(input_id_field)
if matType == 0:
target_id_field = target_source.fields()[outIdx]
target_id_field.setName('TargetID')
fields.append(target_id_field)
fields.append(QgsField('Distance', QMetaType.Type.Double))
else:
fields.append(QgsField('MEAN', QMetaType.Type.Double))
fields.append(QgsField('STDDEV', QMetaType.Type.Double))
fields.append(QgsField('MIN', QMetaType.Type.Double))
fields.append(QgsField('MAX', QMetaType.Type.Double))
out_wkb = QgsWkbTypes.multiType(source.wkbType()) if matType == 0 else source.wkbType()
(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT, context,
fields, out_wkb, source.sourceCrs())
if sink is None:
raise QgsProcessingException(self.invalidSinkError(parameters, self.OUTPUT))
index = QgsSpatialIndex(target_source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([]).setDestinationCrs(source.sourceCrs(), context.transformContext())), feedback)
distArea = QgsDistanceArea()
distArea.setSourceCrs(source.sourceCrs(), context.transformContext())
distArea.setEllipsoid(context.ellipsoid())
features = source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([inIdx]))
total = 100.0 / source.featureCount() if source.featureCount() else 0
for current, inFeat in enumerate(features):
if feedback.isCanceled():
break
inGeom = inFeat.geometry()
inID = str(inFeat[inIdx])
featList = index.nearestNeighbor(inGeom.asPoint(), nPoints)
distList = []
vari = 0.0
request = QgsFeatureRequest().setFilterFids(featList).setSubsetOfAttributes([outIdx]).setDestinationCrs(source.sourceCrs(), context.transformContext())
for outFeat in target_source.getFeatures(request):
if feedback.isCanceled():
break
if same_source_and_target and inFeat.id() == outFeat.id():
continue
outID = outFeat[outIdx]
outGeom = outFeat.geometry()
dist = distArea.measureLine(inGeom.asPoint(),
outGeom.asPoint())
if matType == 0:
out_feature = QgsFeature()
out_geom = QgsGeometry.unaryUnion([inFeat.geometry(), outFeat.geometry()])
out_feature.setGeometry(out_geom)
out_feature.setAttributes([inID, outID, dist])
sink.addFeature(out_feature, QgsFeatureSink.Flag.FastInsert)
else:
distList.append(float(dist))
if matType != 0:
mean = sum(distList) / len(distList)
for i in distList:
vari += (i - mean) * (i - mean)
vari = math.sqrt(vari / len(distList))
out_feature = QgsFeature()
out_feature.setGeometry(inFeat.geometry())
out_feature.setAttributes([inID, mean, vari, min(distList), max(distList)])
sink.addFeature(out_feature, QgsFeatureSink.Flag.FastInsert)
feedback.setProgress(int(current * total))
return {self.OUTPUT: dest_id}
def regularMatrix(self, parameters, context, source, inField, target_source, targetField,
nPoints, feedback):
distArea = QgsDistanceArea()
distArea.setSourceCrs(source.sourceCrs(), context.transformContext())
distArea.setEllipsoid(context.ellipsoid())
inIdx = source.fields().lookupField(inField)
targetIdx = target_source.fields().lookupField(targetField)
index = QgsSpatialIndex(target_source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([]).setDestinationCrs(source.sourceCrs(), context.transformContext())), feedback)
first = True
sink = None
dest_id = None
features = source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([inIdx]))
total = 100.0 / source.featureCount() if source.featureCount() else 0
for current, inFeat in enumerate(features):
if feedback.isCanceled():
break
inGeom = inFeat.geometry()
if first:
featList = index.nearestNeighbor(inGeom.asPoint(), nPoints)
first = False
fields = QgsFields()
input_id_field = source.fields()[inIdx]
input_id_field.setName('ID')
fields.append(input_id_field)
for f in target_source.getFeatures(QgsFeatureRequest().setFilterFids(featList).setSubsetOfAttributes([targetIdx]).setDestinationCrs(source.sourceCrs(), context.transformContext())):
fields.append(QgsField(str(f[targetField]), QMetaType.Type.Double))
(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT, context,
fields, source.wkbType(), source.sourceCrs())
if sink is None:
raise QgsProcessingException(self.invalidSinkError(parameters, self.OUTPUT))
data = [inFeat[inField]]
for target in target_source.getFeatures(QgsFeatureRequest().setSubsetOfAttributes([]).setFilterFids(featList).setDestinationCrs(source.sourceCrs(), context.transformContext())):
if feedback.isCanceled():
break
outGeom = target.geometry()
dist = distArea.measureLine(inGeom.asPoint(),
outGeom.asPoint())
data.append(dist)
out_feature = QgsFeature()
out_feature.setGeometry(inGeom)
out_feature.setAttributes(data)
sink.addFeature(out_feature, QgsFeatureSink.Flag.FastInsert)
feedback.setProgress(int(current * total))
return {self.OUTPUT: dest_id}
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