def getPixelValueFromPoint(self,
mousePosGeom,
rasterLayer,
fromCanvas=True):
"""
"""
rasterCrs = rasterLayer.crs()
if fromCanvas:
self.dsgGeometryHandler.reprojectFeature(
mousePosGeom, rasterCrs,
self.canvas.mapRenderer().destinationCrs())
else:
mousePosGeom = QgsGeometry(mousePosGeom)
self.dsgGeometryHandler.reprojectFeature(
mousePosGeom, rasterCrs,
self.canvas.currentLayer().crs())
# isMulti = QgsWKBTypes.isMultiType(int(layer.wkbType())) # tem que ver se serve pra QgsGeometry
mousePos = mousePosGeom.asMultiPoint()[0] if mousePosGeom.isMultipart(
) else mousePosGeom.asPoint()
# identify pixel(s) information
i = rasterLayer.dataProvider().identify(mousePos,
QgsRaster.IdentifyFormatValue)
if i.isValid():
value = i.results().values()[0]
if value:
value = int(value) if self.decimals == 0 else round(
value, self.decimals)
return value
else:
return None
def getPixelValueFromPoint(self,
mousePosGeom,
rasterLayer,
fromCanvas=True):
"""
"""
rasterCrs = rasterLayer.crs()
# if fromCanvas:
# self.geometryHandler.reprojectFeature(mousePosGeom, rasterCrs, QgsProject.instance().crs())
# else:
mousePosGeom = QgsGeometry(mousePosGeom)
self.geometryHandler.reprojectFeature(mousePosGeom, rasterCrs,
self.canvas.currentLayer().crs())
mousePos = mousePosGeom.asMultiPoint()[0] if mousePosGeom.isMultipart(
) else mousePosGeom.asPoint()
# identify pixel(s) information
i = rasterLayer.dataProvider().identify(mousePos,
QgsRaster.IdentifyFormatValue)
if i.isValid():
value = list(i.results().values())[0]
if value:
value = int(value) if self.decimals == 0 else round(
value, self.decimals)
return value
else:
return None
def qGeometry(feature):
try:
geom = QgsGeometry(feature.geometry())
fid = feature.id()
if not geom.isMultipart():
if not geom.convertToMultiType():
raise Exception("unable to extract feature geometry (invalid geometry type)")
if geom.type() == 0:
return qPoints(geom.asMultiPoint())
elif geom.type() == 1:
return qLines(geom.asMultiPolyline(), fid)
elif geom.type() == 2:
return qPolygons(geom.asMultiPolygon(), fid)
else:
raise Exception("unable to extract feature geometry (unknown geometry type)")
except Exception, e:
raise Exception("unable to extract feature geometry: %s" % unicode(e))
def processAlgorithm(self, parameters, context, feedback):
source = self.parameterAsSource(parameters, self.INPUT, context)
fields = QgsFields()
fields.append(QgsField('POINTA', QVariant.Double, '', 24, 15))
fields.append(QgsField('POINTB', QVariant.Double, '', 24, 15))
fields.append(QgsField('POINTC', QVariant.Double, '', 24, 15))
(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT,
context, fields,
QgsWkbTypes.Polygon,
source.sourceCrs())
pts = []
ptDict = {}
ptNdx = -1
c = voronoi.Context()
features = source.getFeatures()
total = 100.0 / source.featureCount() if source.featureCount() else 0
for current, inFeat in enumerate(features):
if feedback.isCanceled():
break
geom = QgsGeometry(inFeat.geometry())
if geom.isNull():
continue
if geom.isMultipart():
points = geom.asMultiPoint()
else:
points = [geom.asPoint()]
for n, point in enumerate(points):
x = point.x()
y = point.y()
pts.append((x, y))
ptNdx += 1
ptDict[ptNdx] = (inFeat.id(), n)
feedback.setProgress(int(current * total))
if len(pts) < 3:
raise QgsProcessingException(
self.tr('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) for i in uniqueSet])
c.triangulate = True
voronoi.voronoi(sl, c)
triangles = c.triangles
feat = QgsFeature()
total = 100.0 / len(triangles) if triangles else 1
for current, triangle in enumerate(triangles):
if feedback.isCanceled():
break
indices = list(triangle)
indices.append(indices[0])
polygon = []
attrs = []
step = 0
for index in indices:
fid, n = ptDict[ids[index]]
request = QgsFeatureRequest().setFilterFid(fid)
inFeat = next(source.getFeatures(request))
geom = QgsGeometry(inFeat.geometry())
if geom.isMultipart():
point = QgsPointXY(geom.asMultiPoint()[n])
else:
point = QgsPointXY(geom.asPoint())
polygon.append(point)
if step <= 3:
attrs.append(ids[index])
step += 1
feat.setAttributes(attrs)
geometry = QgsGeometry().fromPolygon([polygon])
feat.setGeometry(geometry)
sink.addFeature(feat, QgsFeatureSink.FastInsert)
feedback.setProgress(int(current * total))
return {self.OUTPUT: dest_id}
def processAlgorithm(self, feedback):
layer = dataobjects.getObjectFromUri(self.getParameterValue(
self.INPUT))
fields = [
QgsField('POINTA', QVariant.Double, '', 24, 15),
QgsField('POINTB', QVariant.Double, '', 24, 15),
QgsField('POINTC', QVariant.Double, '', 24, 15)
]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(
fields, QgsWkbTypes.Polygon, layer.crs())
pts = []
ptDict = {}
ptNdx = -1
c = voronoi.Context()
features = vector.features(layer)
total = 100.0 / len(features)
for current, inFeat in enumerate(features):
geom = QgsGeometry(inFeat.geometry())
if geom.isNull():
continue
if geom.isMultipart():
points = geom.asMultiPoint()
else:
points = [geom.asPoint()]
for n, point in enumerate(points):
x = point.x()
y = point.y()
pts.append((x, y))
ptNdx += 1
ptDict[ptNdx] = (inFeat.id(), n)
feedback.setProgress(int(current * total))
if len(pts) < 3:
raise GeoAlgorithmExecutionException(
self.tr('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) for i in uniqueSet])
c.triangulate = True
voronoi.voronoi(sl, c)
triangles = c.triangles
feat = QgsFeature()
total = 100.0 / len(triangles)
for current, triangle in enumerate(triangles):
indices = list(triangle)
indices.append(indices[0])
polygon = []
attrs = []
step = 0
for index in indices:
fid, n = ptDict[ids[index]]
request = QgsFeatureRequest().setFilterFid(fid)
inFeat = next(layer.getFeatures(request))
geom = QgsGeometry(inFeat.geometry())
if geom.isMultipart():
point = QgsPoint(geom.asMultiPoint()[n])
else:
point = QgsPoint(geom.asPoint())
polygon.append(point)
if step <= 3:
attrs.append(ids[index])
step += 1
feat.setAttributes(attrs)
geometry = QgsGeometry().fromPolygon([polygon])
feat.setGeometry(geometry)
writer.addFeature(feat)
feedback.setProgress(int(current * total))
del writer
def processAlgorithm(self, parameters, context, feedback):
source = self.parameterAsSource(parameters, self.INPUT, context)
fields = QgsFields()
fields.append(QgsField('POINTA', QVariant.Double, '', 24, 15))
fields.append(QgsField('POINTB', QVariant.Double, '', 24, 15))
fields.append(QgsField('POINTC', QVariant.Double, '', 24, 15))
(sink, dest_id) = self.parameterAsSink(parameters, self.OUTPUT, context,
fields, QgsWkbTypes.Polygon, source.sourceCrs())
pts = []
ptDict = {}
ptNdx = -1
c = voronoi.Context()
features = source.getFeatures()
total = 100.0 / source.featureCount() if source.featureCount() else 0
for current, inFeat in enumerate(features):
if feedback.isCanceled():
break
geom = QgsGeometry(inFeat.geometry())
if geom.isNull():
continue
if geom.isMultipart():
points = geom.asMultiPoint()
else:
points = [geom.asPoint()]
for n, point in enumerate(points):
x = point.x()
y = point.y()
pts.append((x, y))
ptNdx += 1
ptDict[ptNdx] = (inFeat.id(), n)
feedback.setProgress(int(current * total))
if len(pts) < 3:
raise QgsProcessingException(
self.tr('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) for i in uniqueSet])
c.triangulate = True
voronoi.voronoi(sl, c)
triangles = c.triangles
feat = QgsFeature()
total = 100.0 / len(triangles) if triangles else 1
for current, triangle in enumerate(triangles):
if feedback.isCanceled():
break
indices = list(triangle)
indices.append(indices[0])
polygon = []
attrs = []
step = 0
for index in indices:
fid, n = ptDict[ids[index]]
request = QgsFeatureRequest().setFilterFid(fid)
inFeat = next(source.getFeatures(request))
geom = QgsGeometry(inFeat.geometry())
if geom.isMultipart():
point = QgsPointXY(geom.asMultiPoint()[n])
else:
point = QgsPointXY(geom.asPoint())
polygon.append(point)
if step <= 3:
attrs.append(ids[index])
step += 1
feat.setAttributes(attrs)
geometry = QgsGeometry().fromPolygonXY([polygon])
feat.setGeometry(geometry)
sink.addFeature(feat, QgsFeatureSink.FastInsert)
feedback.setProgress(int(current * total))
return {self.OUTPUT: dest_id}
def processAlgorithm(self, progress):
layer = dataobjects.getObjectFromUri(
self.getParameterValue(self.INPUT))
fields = [QgsField('POINTA', QVariant.Double, '', 24, 15),
QgsField('POINTB', QVariant.Double, '', 24, 15),
QgsField('POINTC', QVariant.Double, '', 24, 15)]
writer = self.getOutputFromName(self.OUTPUT).getVectorWriter(fields,
QgsWkbTypes.Polygon, layer.crs())
pts = []
ptDict = {}
ptNdx = -1
c = voronoi.Context()
features = vector.features(layer)
total = 100.0 / len(features)
for current, inFeat in enumerate(features):
geom = QgsGeometry(inFeat.geometry())
if geom.isEmpty():
continue
if geom.isMultipart():
points = geom.asMultiPoint()
else:
points = [geom.asPoint()]
for n, point in enumerate(points):
x = point.x()
y = point.y()
pts.append((x, y))
ptNdx += 1
ptDict[ptNdx] = (inFeat.id(), n)
progress.setPercentage(int(current * total))
if len(pts) < 3:
raise GeoAlgorithmExecutionException(
self.tr('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) for i in uniqueSet])
c.triangulate = True
voronoi.voronoi(sl, c)
triangles = c.triangles
feat = QgsFeature()
total = 100.0 / len(triangles)
for current, triangle in enumerate(triangles):
indicies = list(triangle)
indicies.append(indicies[0])
polygon = []
attrs = []
step = 0
for index in indicies:
fid, n = ptDict[ids[index]]
request = QgsFeatureRequest().setFilterFid(fid)
inFeat = next(layer.getFeatures(request))
geom = QgsGeometry(inFeat.geometry())
if geom.isMultipart():
point = QgsPoint(geom.asMultiPoint()[n])
else:
point = QgsPoint(geom.asPoint())
polygon.append(point)
if step <= 3:
attrs.append(ids[index])
step += 1
feat.setAttributes(attrs)
geometry = QgsGeometry().fromPolygon([polygon])
feat.setGeometry(geometry)
writer.addFeature(feat)
progress.setPercentage(int(current * total))
del writer
class GeometryHighlight(QgsMapCanvasItem):
_mapCanvas = None # QgsMapCanvas
_geometry = None # QgsGeometry()
_brush = QBrush()
_pen = QPen()
def __init__(self, mapCanvas, geometry, layer):
super(GeometryHighlight, self).__init__(mapCanvas)
self._mapCanvas = mapCanvas
if not geometry or not isinstance(geometry, QgsGeometry) or geometry.isEmpty() or not geometry.isGeosValid():
return
self._geometry = QgsGeometry(geometry) # Force deep copy
self.setLineColor(Project.highlightLineColor())
self.setFillColor(Project.highlightFillColor())
if (layer and self._mapCanvas.mapSettings().hasCrsTransformEnabled()):
ct = self._mapCanvas.mapSettings().layerTransform(layer)
if ct:
self._geometry.transform(ct)
self.updateRect()
self.update()
def remove(self):
self._mapCanvas.scene().removeItem(self)
def setLineWidth(self, width):
self._pen.setWidth(width)
def setLineColor(self, color):
lineColor = QColor(color)
lineColor.setAlpha(255)
self._pen.setColor(lineColor)
def setFillColor(self, fillColor):
self._brush.setColor(fillColor)
self._brush.setStyle(Qt.SolidPattern)
def updatePosition(self):
pass
# protected:
def paint(self, painter, option=None, widget=None): # Override
if not self._geometry:
return
painter.setPen(self._pen)
painter.setBrush(self._brush)
wkbType = self._geometry.wkbType()
if wkbType == QGis.WKBPoint or wkbType == QGis.WKBPoint25D:
self._paintPoint(painter, self._geometry.asPoint())
elif wkbType == QGis.WKBMultiPoint or wkbType == QGis.WKBMultiPoint25D:
for point in self._geometry.asMultiPoint():
self._paintPoint(painter, point)
elif wkbType == QGis.WKBLineString or wkbType == QGis.WKBLineString25D:
self._paintLine(painter, self._geometry.asPolyline())
elif wkbType == QGis.WKBMultiLineString or wkbType == QGis.WKBMultiLineString25D:
for line in self._geometry.asMultiPolyline():
self._paintLine(painter, line)
elif wkbType == QGis.WKBPolygon or wkbType == QGis.WKBPolygon25D:
self._paintPolygon(painter, self._geometry.asPolygon())
elif wkbType == QGis.WKBMultiPolygon or wkbType == QGis.WKBMultiPolygon25D:
for polygon in self._geometry.asMultiPolygon():
self._paintPolygon(painter, polygon)
def updateRect(self):
if self._geometry:
r = self._geometry.boundingBox()
if r.isEmpty():
d = self._mapCanvas.extent().width() * 0.005
r.setXMinimum(r.xMinimum() - d)
r.setYMinimum(r.yMinimum() - d)
r.setXMaximum(r.xMaximum() + d)
r.setYMaximum(r.yMaximum() + d)
self.setRect(r)
self.setVisible(True)
else:
self.setRect(QgsRectangle())
# private:
def _paintPoint(self, painter, point):
painter.drawEllipse(self.toCanvasCoordinates(point) - self.pos(), 2, 2)
def _paintLine(self, painter, line):
polyline = QPolygonF()
for point in line:
polyline.append(self.toCanvasCoordinates(point) - self.pos())
painter.drawPolyline(polyline)
def _paintPolygon(self, painter, polygon):
path = QPainterPath()
for line in polygon:
ring = QPolygonF()
for point in line:
cur = self.toCanvasCoordinates(point) - self.pos()
ring.append(cur)
ring.append(ring[0])
path.addPolygon(ring)
painter.drawPath(path)
def processing(options, f, progressBar, progressMessage):
'''
Select trees which are on the contour of the forest and isolated trees.
'''
# Export Grid contour and isolated to crowns values
forestSelectedPath = options['dst'] + 'tif/' + f + \
'_forest_selected.tif'
crownsPath = options['dst'] + 'shp/' + f + '_crowns.shp'
# crownsStatsPath = options['dst'] + 'shp/' + f + '_crowns_stats.shp'
outputDir = options["dst"]
fileTxt = open(outputDir + "/log.txt", "a")
fileTxt.write("gridstatisticsforpolygons started\n")
fileTxt.close()
crowns = QgsVectorLayer(crownsPath, "crowns", "ogr")
inputStatRaster = QgsRasterLayer(forestSelectedPath, "forestSelected")
z_stat = QgsZonalStatistics(crowns, inputStatRaster, '_', 1,
QgsZonalStatistics.Max)
result_z_stat = z_stat.calculateStatistics(QgsFeedback())
outputDir = options["dst"]
fileTxt = open(outputDir + "/log.txt", "a")
fileTxt.write("gridstatisticsforpolygons passed\n")
fileTxt.close()
# crowns = QgsVectorLayer(crownsStatsPath, 'Crowns stats', 'ogr')
crowns.selectByExpression('"_max"=1.0')
selected_array = crowns.getValues("N", True)
crowns.invertSelection()
unselected_array = crowns.getValues("N", True)
unselected_crowns_ids = crowns.getValues("$id", True)
unselected_top_ids = crowns.getValues('"N" - 1', True)
crowns.dataProvider().deleteFeatures(unselected_crowns_ids[0])
treetopsPath = options['dst'] + 'shp/' + f + '_treetops.shp'
treetops = QgsVectorLayer(treetopsPath, 'Tree tops', 'ogr')
treetops.dataProvider().deleteFeatures(unselected_top_ids[0])
treetopsSelectedPath = options['dst'] + 'shp/' + f + \
'_treetops_selected.shp'
crownsSelectedPath = options['dst'] + 'shp/' + f + '_crowns_selected.shp'
treetopsTrianglesPath = options['dst'] + 'shp/' + f + \
'_treetops_triangles.shp'
outputDir = options["dst"]
fileTxt = open(outputDir + "/log.txt", "a")
fileTxt.write("advancedpythonfieldcalculator started\n")
fileTxt.close()
treetops.dataProvider().addAttributes([QgsField('N', QVariant.Int)])
treetops.updateFields()
treetops.startEditing()
for treetop in treetops.getFeatures():
treetops.changeAttributeValue(treetop.id(),
treetop.fieldNameIndex('N'),
treetop.id())
treetops.commitChanges()
outputDir = options["dst"]
fileTxt = open(outputDir + "/log.txt", "a")
fileTxt.write("joinattributesbylocation started\n")
fileTxt.close()
# Adapted from https://github.com/qgis/QGIS-Processing
# TODO: replace by native QGIS c++ algo when available...
crowns.dataProvider().addAttributes([QgsField('tid', QVariant.Int)])
crowns.updateFields()
crowns.startEditing()
fcount = crowns.featureCount()
counter = 0
for crown in crowns.getFeatures():
counter += 1
progressBar.setValue(100 + int(counter * (600 / fcount)))
progressMessage.setText('Joining crown ' + str(counter) + '/' +
str(fcount))
request = QgsFeatureRequest()
request.setFilterRect(crown.geometry().boundingBox())
dp = treetops.dataProvider()
for r in dp.getFeatures(request):
if crown.geometry().intersects(r.geometry()):
crowns.changeAttributeValue(crown.id(),
crown.fieldNameIndex('tid'),
r.id())
crowns.commitChanges()
fileTxt = open(outputDir + "/log.txt", "a")
fileTxt.write("delaunaytriangulation started\n")
fileTxt.close()
# delaunay triangulation Adapted from official Python plugin
# TODO: replace by native QGIS c++ algo when available...
fields = QgsFields()
fields.append(QgsField('POINTA', QVariant.Double, '', 24, 15))
fields.append(QgsField('POINTB', QVariant.Double, '', 24, 15))
fields.append(QgsField('POINTC', QVariant.Double, '', 24, 15))
crs = QgsCoordinateReferenceSystem('EPSG:2056')
triangleFile = QgsVectorFileWriter(treetopsTrianglesPath, 'utf-8', fields,
QgsWkbTypes.Polygon, crs,
'ESRI Shapefile')
pts = []
ptDict = {}
ptNdx = -1
c = voronoi.Context()
features = treetops.getFeatures()
total = 100.0 / treetops.featureCount() if treetops.featureCount() else 0
progressMessage.setText('Starting triangulation...')
for current, inFeat in enumerate(features):
geom = QgsGeometry(inFeat.geometry())
if geom.isNull():
continue
if geom.isMultipart():
points = geom.asMultiPoint()
else:
points = [geom.asPoint()]
for n, point in enumerate(points):
x = point.x()
y = point.y()
pts.append((x, y))
ptNdx += 1
ptDict[ptNdx] = (inFeat.id(), n)
progressMessage.setText('Triangulation step 1 ok')
if len(pts) < 3:
raise QgsProcessingException(
'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) for i in uniqueSet])
c.triangulate = True
voronoi.voronoi(sl, c)
triangles = c.triangles
feat = QgsFeature()
total = 100.0 / len(triangles) if triangles else 1
for current, triangle in enumerate(triangles):
indices = list(triangle)
indices.append(indices[0])
polygon = []
attrs = []
step = 0
for index in indices:
fid, n = ptDict[ids[index]]
request = QgsFeatureRequest().setFilterFid(fid)
inFeat = next(treetops.getFeatures(request))
geom = QgsGeometry(inFeat.geometry())
point = QgsPoint(geom.asPoint())
polygon.append(point)
if step <= 3:
attrs.append(ids[index])
step += 1
linestring = QgsLineString(polygon)
poly = QgsPolygon()
poly.setExteriorRing(linestring)
feat.setAttributes(attrs)
geometry = QgsGeometry().fromWkt(poly.asWkt())
feat.setGeometry(geometry)
triangleFile.addFeature(feat)
progressMessage.setText('Triangulation terminated')
# Remove triangles with perimeter higher than threshold
triangles = QgsVectorLayer(treetopsTrianglesPath, 'triangles', 'ogr')
maxPeri = str(options['MaxTrianglePerimeter'])
triangles.selectByExpression('$perimeter > ' + maxPeri)
triangles_to_delete_ids = triangles.getValues("$id", True)
triangles.dataProvider().deleteFeatures(triangles_to_delete_ids[0])
outputDir = options["dst"]
fileTxt = open(outputDir + "/log.txt", "a")
fileTxt.write("treeSelector passed\n")
fileTxt.close()
progressMessage.setText('Starting convexhull computing...')
