def filletPolyline(self):
layer = self.entity1.layer
transformedRadius = qad_utils.distMapToLayerCoordinates(self.radius, self.plugIn.canvas, layer)
tolerance2ApproxCurve = qad_utils.distMapToLayerCoordinates(QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE")), \
self.plugin.canvas, \
layer)
f = self.entity1.getFeature()
geom = f.geometry()
self.linearObjectList1.fillet(transformedRadius)
updSubGeom = QgsGeometry.fromPolyline(self.linearObjectList1.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom1)
if updGeom is None:
return False
f.setGeometry(updGeom)
self.plugIn.beginEditCommand("Feature edited", layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def move(self, entity, offSetX, offSetY):
# entity = entità da spostare
# offSetX, offSetY = spostamento da fare
# tolerance2ApproxCurve = tolleranza per ricreare le curve
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
# sposto l'entità
movedGeom = qad_utils.moveQgsGeometry(entity.getGeometry(), offSetX, offSetY)
if movedGeom is not None:
f = entity.getFeature()
f.setGeometry(movedGeom)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f, False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f, None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.move(offSetX, offSetY)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
return True
def move(self, f, offSetX, offSetY, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = QadDimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# sposto la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(
qad_utils.moveQgsGeometry(f.geometry(), offSetX, offSetY))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn,
layerEntitySet.layer, f, False,
False) == False:
return False
del layerEntitySet.featureIds[0]
else:
# sposto la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
if dimEntity.move(offSetX, offSetY) == False:
return False
if dimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
return True
def scale(self, entity, basePt, scale, sizeFldName):
# entity = entità da scalare
# basePt = punto base
# scale = fattore di scala
# sizeFldName = campo della tabella che memorizza la scala
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
f = entity.getFeature()
# ruoto l'entità
f.setGeometry(qad_utils.scaleQgsGeometry(entity.getGeometry(), basePt, scale))
if len(sizeFldName) > 0:
sizeValue = f.attribute(sizeFldName)
if sizeValue is None:
sizeValue = 1
sizeValue = sizeValue * scale
f.setAttribute(sizeFldName, sizeValue)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f, False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f, None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
entity.scale(self.plugIn, basePt, scale)
if entity.addToLayers(self.plugIn) == False:
return False
def filletPolyline(self):
layer = self.entity1.layer
tolerance2ApproxCurve = QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
f = self.entity1.getFeature()
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(layer, f.getGeometry())
self.linearObjectList1.fillet(self.radius)
updSubGeom = QgsGeometry.fromPolyline(self.linearObjectList1.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom1)
if updGeom is None:
return False
# trasformo la geometria nel crs del layer
f.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
self.plugIn.beginEditCommand("Feature edited", layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def rotate(self, entity, basePt, angle, rotFldName):
# entity = entità da ruotare
# basePt = punto base
# angle = angolo di rotazione in gradi
# rotFldName = campo della tabella che memorizza la rotazione
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
f = entity.getFeature()
# ruoto l'entità
f.setGeometry(qad_utils.rotateQgsGeometry(entity.getGeometry(), basePt, angle))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
rotValue = 0 if rotValue is None else qad_utils.toRadians(rotValue) # la rotazione é in gradi nel campo della feature
rotValue = rotValue + angle
f.setAttribute(rotFldName, qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f, False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f, None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
entity.rotate(self.plugIn, basePt, angle)
if entity.addToLayers(self.plugIn) == False:
return False
return True
def filletPolyline(self):
layer = self.entity1.layer
tolerance2ApproxCurve = QadVariables.get(
QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
f = self.entity1.getFeature()
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(layer, f.getGeometry())
self.linearObjectList1.fillet(self.radius)
updSubGeom = QgsGeometry.fromPolyline(
self.linearObjectList1.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom1)
if updGeom is None:
return False
# trasformo la geometria nel crs del layer
f.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
self.plugIn.beginEditCommand("Feature edited", layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False,
False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def delCurrentSubGeomToPolygon(self):
"""
Cancella la sotto-geometria corrente dal poligono da modificare
"""
geom = self.poligonEntity.getGeometry()
# la posizione é espressa con una lista (<index ogg. princ> [<index ogg. sec.>])
part = self.currAtSubGeom[0]
if len(self.currAtSubGeom) == 2:
ring = self.currAtSubGeom[1]
if geom.deleteRing(ring + 1, part) == False: # cancello una isola (Ring 0 is outer ring and can't be deleted)
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
else:
if geom.deletePart(part) == False: # cancello una parte
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", self.poligonEntity.layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
def delCurrentSubGeomToPolygon(self):
"""
Cancella la sotto-geometria corrente dal poligono da modificare
"""
geom = self.poligonEntity.getGeometry()
# la posizione é espressa con una lista (<index ogg. princ> [<index ogg. sec.>])
part = self.currAtSubGeom[0]
if len(self.currAtSubGeom) == 2:
ring = self.currAtSubGeom[1]
if geom.deleteRing(ring + 1, part) == False: # cancello una isola (Ring 0 is outer ring and can't be deleted)
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
else:
if geom.deletePart(part) == False: # cancello una parte
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", self.poligonEntity.layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
def move(self, entity, offSetX, offSetY):
# entity = entità da spostare
# offSetX, offSetY = spostamento da fare
# tolerance2ApproxCurve = tolleranza per ricreare le curve
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
# sposto l'entità
movedGeom = qad_utils.moveQgsGeometry(entity.getGeometry(), offSetX, offSetY)
if movedGeom is not None:
f = entity.getFeature()
f.setGeometry(movedGeom)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f, False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f, None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.move(offSetX, offSetY)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
return True
def stretch(self, f, containerGeom, offSetX, offSetY, tolerance2ApproxCurve, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = self.plugIn.dimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# stiro la feature e la rimuovo da entitySet (é la prima)
stretchedGeom = qad_utils.stretchQgsGeometry(f.geometry(), containerGeom, \
offSetX, offSetY, \
tolerance2ApproxCurve)
if stretchedGeom is not None:
f.setGeometry(stretchedGeom)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layerEntitySet.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# ruoto la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
dimEntity.stretch(self.plugIn, containerGeom, offSetX, offSetY)
if dimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
return True
def addEntitySetToPolyline(self, entitySet, removeOriginals = True):
"""
Aggiunge il set di entità alla polilinea da modificare
"""
geom = self.entity.getGeometry()
layerList = []
layerList.append(self.entity.layer)
for layerEntitySet in entitySet.layerEntitySetList:
layer = layerEntitySet.layer
if layer.geometryType() != QGis.Polygon and layer.geometryType() != QGis.Line:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals: layerList.append(layer)
coordTransform = QgsCoordinateTransform(layer.crs(), self.entity.layer.crs())
for featureId in layerEntitySet.featureIds:
# se la feature è quella di entity è errore
if layer.id() == self.entity.layerId() and featureId == self.entity.featureId:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer dell'entità da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geomToAdd)
for simplifiedGeom in simplifiedGeoms:
points = simplifiedGeom.asPolyline() # vettore di punti
# aggiungo una parte
if geom.addPart(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.entity.getFeature()
f.setGeometry(geom)
layerList = entitySet.getLayerList()
layerList.append(self.entity.layer)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn, layerEntitySet.layer, layerEntitySet.featureIds, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
return True
def convexHullEntitySetToPolygon(self, entitySet, removeOriginals=False):
"""
modifica il poligono corrente in modo che includa tutti i punti delle geometrie di entitySet
"""
layerList = []
layerList.append(self.poligonEntity.layer)
pointsForConvexHull = []
for layerEntitySet in entitySet.layerEntitySetList:
layer = layerEntitySet.layer
coordTransform = QgsCoordinateTransform(layer.crs(), self.poligonEntity.layer.crs())
for featureId in layerEntitySet.featureIds:
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geom = f.geometry()
geom.transform(coordTransform)
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geom)
for simplifiedGeom in simplifiedGeoms:
if simplifiedGeom.wkbType() == QGis.WKBLineString:
pointsForConvexHull.extend(simplifiedGeom.asPolyline())
else:
pointsForConvexHull.append(simplifiedGeom.asPoint())
if removeOriginals and layer.id() != self.poligonEntity.layerId():
layerList.append(layer)
geom = QgsGeometry.fromMultiPoint(pointsForConvexHull)
geom = geom.convexHull()
if geom is None:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if (
qad_layer.deleteFeaturesToLayer(self.plugIn, layerEntitySet.layer, layerEntitySet.featureIds, False)
== False
):
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def stretch(self, entity, ptList, offSetX, offSetY, tolerance2ApproxCurve):
# entity = entità da stirare
# ptList = lista dei punti da stirare
# offSetX, offSetY = spostamento da fare
# tolerance2ApproxCurve = tolleranza per ricreare le curve
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
stretchedGeom = entity.getGeometry()
# controllo inserito perchè con le quote, questa viene cancellata e ricreata quindi alcuni oggetti potrebbero non esistere più
if stretchedGeom is None: # se non c'è lo salto senza errore
return True
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
coordTransform = QgsCoordinateTransform(
entity.layer.crs(),
self.plugIn.canvas.mapSettings().destinationCrs())
stretchedGeom.transform(coordTransform)
# stiro la feature
stretchedGeom = qad_stretch_fun.gripStretchQgsGeometry(stretchedGeom, self.basePt, ptList, \
offSetX, offSetY, \
tolerance2ApproxCurve)
if stretchedGeom is not None:
# trasformo la geometria nel crs del layer
coordTransform = QgsCoordinateTransform(
self.plugIn.canvas.mapSettings().destinationCrs(),
entity.layer.crs())
stretchedGeom.transform(coordTransform)
f = entity.getFeature()
f.setGeometry(stretchedGeom)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn,
entity.layer, f, False,
False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer,
f, None, False,
False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.stretch(ptList, offSetX, offSetY)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
# non so per quale motivo a volte non si aggiorna la mappa quindi forzo l'aggiornamento
self.plugIn.canvas.refresh()
return True
def splitPolygon(self, splitLine, createNewEntities):
"""
divide il poligono corrente usando una polilinea con i vertci in <plineVertices> in modo da generare o meno nuove entità
"""
layerList = []
layerList.append(self.poligonEntity.layer)
splitLineTransformed = self.mapToLayerCoordinates(
self.poligonEntity.layer, splitLine)
f = self.poligonEntity.getFeature()
geom = f.geometry()
result, newGeoms, topologyTestPts = geom.splitGeometry(
splitLineTransformed, False)
if result <> 0 or len(newGeoms) == 0:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newfeatures = []
if createNewEntities:
for newGeom in newGeoms:
newfeature = QgsFeature(f)
newfeature.setGeometry(newGeom)
newfeatures.append(newfeature)
else:
for newGeom in newGeoms:
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(newGeom)
for simplifiedGeom in simplifiedGeoms:
points = simplifiedGeom.asPolyline() # vettore di punti
res = geom.addPart(points)
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn,
self.poligonEntity.layer, f, False,
False) == False:
self.plugIn.destroyEditCommand()
return False
if len(newfeatures) > 0:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeaturesToLayer(self.plugIn,
self.poligonEntity.layer,
newfeatures, None, False,
False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def convexHullEntitySetToPolygon(self, entitySet, removeOriginals = False):
"""
modifica il poligono corrente in modo che includa tutti i punti delle geometrie di entitySet
"""
layerList = []
layerList.append(self.poligonEntity.layer)
pointsForConvexHull = []
for layerEntitySet in entitySet.layerEntitySetList:
layer = layerEntitySet.layer
coordTransform = QgsCoordinateTransform(layer.crs(), self.poligonEntity.layer.crs())
for featureId in layerEntitySet.featureIds:
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geom = f.geometry()
geom.transform(coordTransform)
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geom)
for simplifiedGeom in simplifiedGeoms:
if simplifiedGeom.wkbType() == QGis.WKBLineString:
pointsForConvexHull.extend(simplifiedGeom.asPolyline())
else:
pointsForConvexHull.append(simplifiedGeom.asPoint())
if removeOriginals and layer.id() != self.poligonEntity.layerId():
layerList.append(layer)
geom = QgsGeometry.fromMultiPoint(pointsForConvexHull)
geom = geom.convexHull()
if geom is None:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn, layerEntitySet.layer, layerEntitySet.featureIds, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def splitPolygon(self, splitLine, createNewEntities):
"""
divide il poligono corrente usando una polilinea con i vertci in <plineVertices> in modo da generare o meno nuove entità
"""
layerList = []
layerList.append(self.poligonEntity.layer)
splitLineTransformed = self.mapToLayerCoordinates(self.poligonEntity.layer, splitLine)
f = self.poligonEntity.getFeature()
geom = f.geometry()
result, newGeoms, topologyTestPts = geom.splitGeometry(splitLineTransformed, False)
if result <> 0 or len(newGeoms) == 0:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newfeatures = []
if createNewEntities:
for newGeom in newGeoms:
newfeature = QgsFeature(f)
newfeature.setGeometry(newGeom)
newfeatures.append(newfeature)
else:
for newGeom in newGeoms:
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(newGeom)
for simplifiedGeom in simplifiedGeoms:
points = simplifiedGeom.asPolyline() # vettore di punti
res = geom.addPart(points)
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if len(newfeatures) > 0:
# plugIn, layer, features, coordTransform, refresh, check_validity
if (
qad_layer.addFeaturesToLayer(self.plugIn, self.poligonEntity.layer, newfeatures, None, False, False)
== False
):
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def mirror(self, f, pt1, pt2, rotFldName, layerEntitySet, entitySet,
dimEntity):
if dimEntity is None:
# scalo la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(qad_utils.mirrorQgsGeometry(f.geometry(), pt1, pt2))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(
rotValue, QPyNullVariant) else qad_utils.toRadians(
rotValue
) # la rotazione é in gradi nel campo della feature
ptDummy = qad_utils.getPolarPointByPtAngle(pt1, rotValue, 1)
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
ptDummy = qad_utils.mirrorPoint(ptDummy, pt1, mirrorAngle)
rotValue = qad_utils.getAngleBy2Pts(pt1, ptDummy)
f.setAttribute(
rotFldName,
qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyFeatures == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn,
layerEntitySet.layer, f,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn,
layerEntitySet.layer, f, None,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# scalo la quota e la rimuovo da entitySet
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
dimEntitySet = dimEntity.getEntitySet()
if self.copyFeatures == False:
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(dimEntity) # la copio
newDimEntity.mirror(pt1, mirrorAngle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
def stretch(self, entity, ptList, offSetX, offSetY, tolerance2ApproxCurve):
# entity = entità da stirare
# ptList = lista dei punti da stirare
# offSetX, offSetY = spostamento da fare
# tolerance2ApproxCurve = tolleranza per ricreare le curve
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
stretchedGeom = entity.getGeometry()
# controllo inserito perchè con le quote, questa viene cancellata e ricreata quindi alcuni oggetti potrebbero non esistere più
if stretchedGeom is None: # se non c'è lo salto senza errore
return True
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
coordTransform = QgsCoordinateTransform(entity.layer.crs(), self.plugIn.canvas.mapSettings().destinationCrs())
stretchedGeom.transform(coordTransform)
# stiro la feature
stretchedGeom = qad_stretch_fun.gripStretchQgsGeometry(stretchedGeom, self.basePt, ptList, \
offSetX, offSetY, \
tolerance2ApproxCurve)
if stretchedGeom is not None:
# trasformo la geometria nel crs del layer
coordTransform = QgsCoordinateTransform(self.plugIn.canvas.mapSettings().destinationCrs(), entity.layer.crs())
stretchedGeom.transform(coordTransform)
f = entity.getFeature()
f.setGeometry(stretchedGeom)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f, False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f, None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.stretch(ptList, offSetX, offSetY)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
# non so per quale motivo a volte non si aggiorna la mappa quindi forzo l'aggiornamento
self.plugIn.canvas.refresh()
return True
def rotate(self, f, basePt, angle, rotFldName, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = QadDimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# ruoto la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(
qad_utils.rotateQgsGeometry(f.geometry(), basePt, angle))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(
rotValue, QPyNullVariant) else qad_utils.toRadians(
rotValue
) # la rotazione é in gradi nel campo della feature
rotValue = rotValue + angle
f.setAttribute(
rotFldName,
qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyFeatures == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn,
layerEntitySet.layer, f,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn,
layerEntitySet.layer, f, None,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# ruoto la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if self.copyFeatures == False:
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(dimEntity) # la copio
newDimEntity.rotate(basePt, angle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
return True
def mirror(self, entity, pt1, pt2, rotFldName):
# entity = entità da specchiare
# pt1 e pt2 = linea di simmetria
# rotFldName = campo della tabella che memorizza la rotazione
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
f = entity.getFeature()
# specchio l'entità
f.setGeometry(
qad_utils.mirrorQgsGeometry(entity.getGeometry(), pt1, pt2))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(
rotValue, QPyNullVariant) else qad_utils.toRadians(
rotValue
) # la rotazione é in gradi nel campo della feature
ptDummy = qad_utils.getPolarPointByPtAngle(pt1, rotValue, 1)
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
ptDummy = qad_utils.mirrorPoint(ptDummy, pt1, mirrorAngle)
rotValue = qad_utils.getAngleBy2Pts(pt1, ptDummy)
f.setAttribute(
rotFldName,
qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f,
False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f,
None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
# specchio la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.mirror(pt1, mirrorAngle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
return True
def rotate(self, entity, basePt, angle, rotFldName):
# entity = entità da ruotare
# basePt = punto base
# angle = angolo di rotazione in gradi
# rotFldName = campo della tabella che memorizza la rotazione
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
f = entity.getFeature()
# ruoto l'entità
f.setGeometry(
qad_utils.rotateQgsGeometry(entity.getGeometry(), basePt,
angle))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(
rotValue, QPyNullVariant) else qad_utils.toRadians(
rotValue
) # la rotazione é in gradi nel campo della feature
rotValue = rotValue + angle
f.setAttribute(
rotFldName,
qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f,
False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f,
None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.rotate(basePt, angle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
return True
def scale(self, f, basePt, scale, sizeFldName, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = QadDimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# scalo la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(
qad_utils.scaleQgsGeometry(f.geometry(), basePt, scale))
if sizeFldName is not None:
sizeValue = f.attribute(sizeFldName)
# a volte vale None e a volte null (vai a capire...)
if sizeValue is None or isinstance(sizeValue, QPyNullVariant):
sizeValue = 1
sizeValue = sizeValue * scale
f.setAttribute(sizeFldName, sizeValue)
if self.copyFeatures == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn,
layerEntitySet.layer, f,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn,
layerEntitySet.layer, f, None,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# scalo la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if self.copyFeatures == False:
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(dimEntity) # la copio
newDimEntity.scale(basePt, scale)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
def mirror(self, entity, pt1, pt2, rotFldName):
# entity = entità da specchiare
# pt1 e pt2 = linea di simmetria
# rotFldName = campo della tabella che memorizza la rotazione
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
f = entity.getFeature()
# specchio l'entità
f.setGeometry(qad_utils.mirrorQgsGeometry(entity.getGeometry(), pt1, pt2))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(rotValue, QPyNullVariant) else qad_utils.toRadians(rotValue) # la rotazione é in gradi nel campo della feature
ptDummy = qad_utils.getPolarPointByPtAngle(pt1, rotValue, 1)
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
ptDummy = qad_utils.mirrorPoint(ptDummy, pt1, mirrorAngle)
rotValue = qad_utils.getAngleBy2Pts(pt1, ptDummy)
f.setAttribute(rotFldName, qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f, False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f, None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
# specchio la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.mirror(pt1, mirrorAngle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
return True
def scale(self, entity, basePt, scale, sizeFldName):
# entity = entità da scalare
# basePt = punto base
# scale = fattore di scala
# sizeFldName = campo della tabella che memorizza la scala
# verifico se l'entità appartiene ad uno stile di quotatura
if entity.whatIs() == "ENTITY":
f = entity.getFeature()
# ruoto l'entità
f.setGeometry(
qad_utils.scaleQgsGeometry(entity.getGeometry(), basePt,
scale))
if len(sizeFldName) > 0:
sizeValue = f.attribute(sizeFldName)
# a volte vale None e a volte null (vai a capire...)
if sizeValue is None or isinstance(sizeValue, QPyNullVariant):
sizeValue = 1
sizeValue = sizeValue * scale
f.setAttribute(sizeFldName, sizeValue)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, entity.layer, f,
False, False) == False:
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, entity.layer, f,
None, False, False) == False:
return False
elif entity.whatIs() == "DIMENTITY":
# stiro la quota
if self.copyEntities == False:
if entity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(entity) # la copio
newDimEntity.scale(basePt, scale)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
def mirror(self, f, pt1, pt2, rotFldName, layerEntitySet, entitySet, dimEntity):
if dimEntity is None:
# scalo la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(qad_utils.mirrorQgsGeometry(f.geometry(), pt1, pt2))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(rotValue, QPyNullVariant) else qad_utils.toRadians(rotValue) # la rotazione é in gradi nel campo della feature
ptDummy = qad_utils.getPolarPointByPtAngle(pt1, rotValue, 1)
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
ptDummy = qad_utils.mirrorPoint(ptDummy, pt1, mirrorAngle)
rotValue = qad_utils.getAngleBy2Pts(pt1, ptDummy)
f.setAttribute(rotFldName, qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyFeatures == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layerEntitySet.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layerEntitySet.layer, f, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# scalo la quota e la rimuovo da entitySet
mirrorAngle = qad_utils.getAngleBy2Pts(pt1, pt2)
dimEntitySet = dimEntity.getEntitySet()
if self.copyFeatures == False:
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(dimEntity) # la copio
newDimEntity.mirror(pt1, mirrorAngle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
def rotate(self, f, basePt, angle, rotFldName, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = QadDimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# ruoto la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(qad_utils.rotateQgsGeometry(f.geometry(), basePt, angle))
if len(rotFldName) > 0:
rotValue = f.attribute(rotFldName)
# a volte vale None e a volte null (vai a capire...)
rotValue = 0 if rotValue is None or isinstance(rotValue, QPyNullVariant) else qad_utils.toRadians(rotValue) # la rotazione é in gradi nel campo della feature
rotValue = rotValue + angle
f.setAttribute(rotFldName, qad_utils.toDegrees(qad_utils.normalizeAngle(rotValue)))
if self.copyFeatures == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layerEntitySet.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layerEntitySet.layer, f, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# ruoto la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if self.copyFeatures == False:
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(dimEntity) # la copio
newDimEntity.rotate(basePt, angle)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
return True
def scale(self, f, basePt, scale, sizeFldName, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = QadDimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# scalo la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(qad_utils.scaleQgsGeometry(f.geometry(), basePt, scale))
if sizeFldName is not None:
sizeValue = f.attribute(sizeFldName)
# a volte vale None e a volte null (vai a capire...)
if sizeValue is None or isinstance(sizeValue, QPyNullVariant):
sizeValue = 1
sizeValue = sizeValue * scale
f.setAttribute(sizeFldName, sizeValue)
if self.copyFeatures == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layerEntitySet.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layerEntitySet.layer, f, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
del layerEntitySet.featureIds[0]
else:
# scalo la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if self.copyFeatures == False:
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
newDimEntity = QadDimEntity(dimEntity) # la copio
newDimEntity.scale(basePt, scale)
if newDimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
def move(self, f, offSetX, offSetY, layerEntitySet, entitySet):
# verifico se l'entità appartiene ad uno stile di quotatura
dimEntity = self.plugIn.dimStyles.getDimEntity(layerEntitySet.layer, f.id())
if dimEntity is None:
# sposto la feature e la rimuovo da entitySet (é la prima)
f.setGeometry(qad_utils.moveQgsGeometry(f.geometry(), offSetX, offSetY))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layerEntitySet.layer, f, False, False) == False:
return False
del layerEntitySet.featureIds[0]
else:
# sposto la quota e la rimuovo da entitySet
dimEntitySet = dimEntity.getEntitySet()
if dimEntity.deleteToLayers(self.plugIn) == False:
return False
if dimEntity.move(offSetX, offSetY) == False:
return False
if dimEntity.addToLayers(self.plugIn) == False:
return False
entitySet.subtract(dimEntitySet)
return True
def breakFeatures(self):
f = self.entSelClass.entity.getFeature()
if f is None:
return
layer = self.entSelClass.entity.layer
LineTempLayer = None
self.plugIn.beginEditCommand("Feature broken", layer)
tolerance2ApproxCurve = QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
g = self.layerToMapCoordinates(layer, f.geometry())
result = qad_utils.breakQgsGeometry(g, self.firstPt, self.secondPt, \
tolerance2ApproxCurve)
if result is not None:
line1 = result[0]
line2 = result[1]
atSubGeom = result[2]
if layer.geometryType() == QGis.Line:
if line1 is not None:
updGeom = qad_utils.setSubGeom(g, line1, atSubGeom)
if updGeom is None:
self.plugIn.destroyEditCommand()
return
brokenFeature1 = QgsFeature(f)
# trasformo la geometria nel crs del layer
brokenFeature1.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, brokenFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
if line2 is not None:
brokenFeature2 = QgsFeature(f)
# trasformo la geometria nel crs del layer
brokenFeature2.setGeometry(self.mapToLayerCoordinates(layer, line2))
# plugIn, layer, feature, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layer, brokenFeature2, None, False, False) == False:
self.plugIn.destroyEditCommand()
return
else:
# aggiungo le linee nei layer temporanei di QAD
if LineTempLayer is None:
LineTempLayer = qad_layer.createQADTempLayer(self.plugIn, QGis.Line)
self.plugIn.addLayerToLastEditCommand("Feature broken", LineTempLayer)
lineGeoms = []
if line1 is not None:
lineGeoms.append(line1)
if line2 is not None:
lineGeoms.append(line2)
# trasformo la geometria in quella dei layer temporanei
# plugIn, pointGeoms, lineGeoms, polygonGeoms, coord, refresh
if qad_layer.addGeometriesToQADTempLayers(self.plugIn, None, lineGeoms, None, None, False) == False:
self.plugIn.destroyEditCommand()
return
updGeom = qad_utils.delSubGeom(g, atSubGeom)
if updGeom is None or updGeom.isGeosEmpty(): # da cancellare
# plugIn, layer, feature id, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, layer, f.id(), False) == False:
self.plugIn.destroyEditCommand()
return
else:
brokenFeature1 = QgsFeature(f)
# trasformo la geometria nel crs del layer
brokenFeature1.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, brokenFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
def breakFeatures(self):
f = self.EntSelClass.entity.getFeature()
if f is None:
return
layer = self.EntSelClass.entity.layer
LineTempLayer = None
self.plugIn.beginEditCommand("Feature broken", layer)
tolerance2ApproxCurve = QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
g = self.layerToMapCoordinates(layer, f.geometry())
result = qad_utils.breakQgsGeometry(g, self.firstPt, self.secondPt, tolerance2ApproxCurve)
if result is not None:
line1 = result[0]
line2 = result[1]
atSubGeom = result[2]
if layer.geometryType() == QGis.Line:
if line1 is not None:
updGeom = qad_utils.setSubGeom(g, line1, atSubGeom)
if updGeom is None:
self.plugIn.destroyEditCommand()
return
brokenFeature1 = QgsFeature(f)
# trasformo la geometria nel crs del layer
brokenFeature1.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, brokenFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
if line2 is not None:
brokenFeature2 = QgsFeature(f)
# trasformo la geometria nel crs del layer
brokenFeature2.setGeometry(self.mapToLayerCoordinates(layer, line2))
# plugIn, layer, feature, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layer, brokenFeature2, None, False, False) == False:
self.plugIn.destroyEditCommand()
return
else:
# aggiungo le linee nei layer temporanei di QAD
if LineTempLayer is None:
LineTempLayer = qad_layer.createQADTempLayer(self.plugIn, QGis.Line)
self.plugIn.addLayerToLastEditCommand("Feature broken", LineTempLayer)
lineGeoms = []
if line1 is not None:
lineGeoms.append(line1)
if line2 is not None:
lineGeoms.append(line2)
# trasformo la geometria in quella dei layer temporanei
# plugIn, pointGeoms, lineGeoms, polygonGeoms, coord, refresh
if qad_layer.addGeometriesToQADTempLayers(self.plugIn, None, lineGeoms, None, None, False) == False:
self.plugIn.destroyEditCommand()
return
updGeom = qad_utils.delSubGeom(g, atSubGeom)
if updGeom is None or updGeom.isGeosEmpty(): # da cancellare
# plugIn, layer, feature id, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, layer, f.id(), False) == False:
self.plugIn.destroyEditCommand()
return
else:
brokenFeature1 = QgsFeature(f)
# trasformo la geometria nel crs del layer
brokenFeature1.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, brokenFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
def breakFeatures(self):
layer = self.EntSelClass.entity.layer
LineTempLayer = None
self.plugIn.beginEditCommand("Feature broken", layer)
tolerance2ApproxCurve = qad_utils.distMapToLayerCoordinates(QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE")), \
self.plugIn.canvas,\
layer)
f = self.EntSelClass.entity.getFeature()
g = f.geometry()
if self.plugIn.canvas.mapRenderer().destinationCrs() != layer.crs():
# Trasformo i punti di break nel sistema di coordinate del layer
self.firstPt = self.mapToLayerCoordinates(layer, self.firstPt)
self.secondPt = self.mapToLayerCoordinates(layer, self.secondPt)
result = qad_utils.breakQgsGeometry(layer, f.geometry(), self.firstPt, self.secondPt, \
tolerance2ApproxCurve)
if result is not None:
line1 = result[0]
line2 = result[1]
atSubGeom = result[2]
if layer.geometryType() == QGis.Line:
updGeom = qad_utils.setSubGeom(f.geometry(), line1, atSubGeom)
if updGeom is None:
self.plugIn.destroyEditCommand()
return
brokenFeature1 = QgsFeature(f)
brokenFeature1.setGeometry(updGeom)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, brokenFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
if line2 is not None:
brokenFeature2 = QgsFeature(f)
brokenFeature2.setGeometry(line2)
# plugIn, layer, feature, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layer, brokenFeature2, None, False, False) == False:
self.plugIn.destroyEditCommand()
return
else:
# aggiungo le linee nei layer temporanei di QAD
if LineTempLayer is None:
LineTempLayer = qad_layer.createQADTempLayer(self.plugIn, QGis.Line)
self.plugIn.addLayerToLastEditCommand("Feature broken", LineTempLayer)
lineGeoms = [line1]
if line2 is not None:
lineGeoms.append(line2)
# trasformo la geometria in quella dei layer temporanei
# plugIn, pointGeoms, lineGeoms, polygonGeoms, coord, refresh
if qad_layer.addGeometriesToQADTempLayers(self.plugIn, None, lineGeoms, None, layer.crs(), False) == False:
self.plugIn.destroyEditCommand()
return
updGeom = qad_utils.delSubGeom(f.geometry(), atSubGeom)
if updGeom is None or updGeom.isGeosEmpty(): # da cancellare
# plugIn, layer, feature id, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, layer, f.id(), False) == False:
self.plugIn.destroyEditCommand()
return
else:
brokenFeature1 = QgsFeature(f)
brokenFeature1.setGeometry(updGeom)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, brokenFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
def unionIntersSubtractEntitySetToPolygon(self, entitySet, opType, removeOriginals = False):
"""
Unisce o interseca i poligoni di entitySet al poligono corrente
"""
geom = self.poligonEntity.getGeometry()
layerList = []
layerList.append(self.poligonEntity.layer)
geomList = []
geomList.append(geom)
for layerEntitySet in entitySet.layerEntitySetList:
del geomList[:]
layer = layerEntitySet.layer
coordTransform = QgsCoordinateTransform(layer.crs(), self.poligonEntity.layer.crs())
if layer.geometryType() == QGis.Polygon:
for featureId in layerEntitySet.featureIds:
# se la feature è quella di polygonEntity è errore
if layer.id() == self.poligonEntity.layerId() and featureId == self.poligonEntity.featureId:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
if opType == QadMAPMPEDITCommandOpTypeEnum.UNION: geom = geom.combine(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.INTERSECTION: geom = geom.intersection(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.DIFFERENCE: geom = geom.difference(geomToAdd)
if geom is None:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals and layer.id() != self.poligonEntity.layerId():
layerList.append(layer)
elif layer.geometryType() == QGis.Line:
for featureId in layerEntitySet.featureIds:
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geomToAdd)
for simplifiedGeom in simplifiedGeoms:
if simplifiedGeom.wkbType() != QGis.WKBLineString:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
points = simplifiedGeom.asPolyline() # vettore di punti
if len(points) < 4 or points[0] != points[-1]: # polilinea chiusa con almeno 4 punti (primo e ultimo uguali)
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
geomToAdd = QgsGeometry.fromPolygon([points])
if opType == QadMAPMPEDITCommandOpTypeEnum.UNION: geom = geom.combine(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.INTERSECTION: geom = geom.intersection(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.DIFFERENCE: geom = geom.difference(geomToAdd)
if geom is None or geom.type() != QGis.Polygon:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals: layerList.append(layer)
else:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn, layerEntitySet.layer, layerEntitySet.featureIds, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def lengthen(self, point):
layer = self.entity.layer
f = self.entity.getFeature()
if f is None: # non c'è più la feature
return False
geom = self.entity.getGeometry()
# ritorna una tupla (<The squared cartesian distance>,
# <minDistPoint>
# <afterVertex>
# <leftOf>)
res = False
if self.OpMode == "DElta":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
if self.OpType == "length":
res = newLinearObjectList.lengthen_delta(self.move_startPt, self.value)
elif self.OpType == "Angle":
res = newLinearObjectList.lengthen_deltaAngle(self.move_startPt, self.value)
elif self.OpMode == "Percent":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
value = newLinearObjectList.length() * self.value / 100
value = value - newLinearObjectList.length()
res = newLinearObjectList.lengthen_delta(self.move_startPt, value)
elif self.OpMode == "Total":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
if self.OpType == "length":
value = self.value - newLinearObjectList.length()
res = newLinearObjectList.lengthen_delta(self.move_startPt, value)
elif self.OpType == "Angle":
if newLinearObjectList.qty() == 1:
linearObject = newLinearObjectList.getLinearObjectAt(0)
if linearObject.isArc() == True: # se è un arco
value = self.value - linearObject.getArc().totalAngle()
res = newLinearObjectList.lengthen_deltaAngle(self.move_startPt, value)
elif self.OpMode == "DYnamic":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
transformedPt = self.mapToLayerCoordinates(layer, point)
if self.move_startPt:
linearObject = newLinearObjectList.getLinearObjectAt(0)
else:
linearObject = newLinearObjectList.getLinearObjectAt(-1)
if linearObject.isSegment():
newPt = qad_utils.getPerpendicularPointOnInfinityLine(linearObject.getStartPt(), linearObject.getEndPt(), transformedPt)
else: # arco
newPt = qad_utils.getPolarPointByPtAngle(linearObject.getArc().center, \
qad_utils.getAngleBy2Pts(linearObject.getArc().center, transformedPt), \
linearObject.getArc().radius)
if newLinearObjectList.qty() > 1 and linearObject.isSegment():
ang = linearObject.getTanDirectionOnStartPt()
if self.move_startPt:
linearObject.setStartPt(newPt)
else:
linearObject.setEndPt(newPt)
if newLinearObjectList.qty() > 1 and linearObject.isSegment() and \
qad_utils.TanDirectionNear(ang, linearObject.getTanDirectionOnStartPt()) == False:
res = False
else:
res = True
if res == False: # allungamento impossibile
return False
pts = newLinearObjectList.asPolyline()
updSubGeom = QgsGeometry.fromPolyline(pts)
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom)
if updGeom is None:
return False
f.setGeometry(updGeom)
self.plugIn.beginEditCommand("Feature edited", layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def fillet(self):
transformedRadius = qad_utils.distMapToLayerCoordinates(self.radius, self.plugIn.canvas, self.entity1.layer)
tolerance2ApproxCurve = qad_utils.distMapToLayerCoordinates(QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE")), \
self.plugIn.canvas,\
self.entity1.layer)
if self.entity1.layer.crs() != self.entity2.layer.crs():
coordTransform = QgsCoordinateTransform(self.entity1.layer.crs(),\
self.entity2.layer.crs()) # trasformo la geometria
transformedLinearObjectList2 = self.linearObjectList2.transform(coordTransform)
transformedPointAt2 = coordTransform.transform(self.pointAt2)
else:
# stessa entità e stessa parte
if self.entity1.layer.id() == self.entity2.layer.id() and \
self.entity1.featureId == self.entity2.featureId and \
self.partAt1 == self.partAt2:
return False
transformedLinearObjectList2 = qad_utils.QadLinearObjectList(self.linearObjectList2)
transformedPointAt2 = self.pointAt2
epsg = self.entity1.layer.crs().authid()
res = qad_utils.getFilletLinearObjectList(self.linearObjectList1, self.partAt1, self.pointAt1, \
transformedLinearObjectList2, self.partAt2, transformedPointAt2,\
self.filletMode, transformedRadius, epsg)
if res is None: # raccordo non possibile
msg = QadMsg.translate("Command_FILLET", "\nFillet with radius <{0}> impossible.")
#showMsg
self.showMsg(msg.format(str(self.radius)))
return False
filletLinearObjectList = res[0]
whatToDoPoly1 = res[1]
whatToDoPoly2 = res[2]
self.plugIn.beginEditCommand("Feature edited", [self.entity1.layer, self.entity2.layer])
if whatToDoPoly1 == 1: # 1=modificare
f = self.entity1.getFeature()
geom = f.geometry()
updSubGeom = QgsGeometry.fromPolyline(filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom1)
if updGeom is None:
self.plugIn.destroyEditCommand()
return False
f.setGeometry(updGeom)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity1.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
elif whatToDoPoly1 == 2: # 2=cancellare
# plugIn, layer, featureId, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, self.entity1.layer, \
self.entity1.featureId, False) == False:
self.plugIn.destroyEditCommand()
return False
if whatToDoPoly2 == 1: # 1=modificare
if self.entity1.layer.crs() != self.entity2.layer.crs():
coordTransform = QgsCoordinateTransform(self.entity2.layer.crs(),\
self.entity1.layer.crs()) # trasformo la geometria
transformedLinearObjectList2 = self.filletLinearObjectList.transform(coordTransform)
else:
transformedLinearObjectList2 = filletLinearObjectList
tolerance2ApproxCurve = qad_utils.distMapToLayerCoordinates(QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE")), \
self.plugIn.canvas,\
self.entity2.layer)
f = self.entity2.getFeature()
geom = f.geometry()
updSubGeom = QgsGeometry.fromPolyline(transformedLinearObjectList2.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom2)
if updGeom is None:
self.plugIn.destroyEditCommand()
return False
f.setGeometry(updGeom)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity2.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
elif whatToDoPoly2 == 2: # 2=cancellare
# plugIn, layer, featureId, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, self.entity2.layer, \
self.entity2.featureId, False) == False:
self.plugIn.destroyEditCommand()
return False
if whatToDoPoly1 == 0 and whatToDoPoly2 == 0: # 0=niente
geom = QgsGeometry.fromPolyline(filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
# plugIn, layer, geom, coordTransform, refresh, check_validity
if qad_layer.addGeomToLayer(self.plugIn, self.entity1.layer, geom, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def disjoinCurrentSubGeomToPolygon(self):
"""
Sconnette la sotto-geometria corrente del poligono da modificare creando una nuova entità
"""
layer = self.entity.layer
# la posizione é espressa con una lista (<index ogg. princ> [<index ogg. sec.>])
part = self.currAtSubGeom[0]
ring = self.currAtSubGeom[1] if len(self.currAtSubGeom) == 2 else None
geom = self.entity.getGeometry()
wkbType = geom.wkbType()
if wkbType == QGis.WKBMultiPoint or wkbType == QGis.WKBMultiLineString:
if geom.deletePart(part) == False: # disgrego una parte
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newGeom = self.mapToLayerCoordinates(layer, self.currSubGeom)
elif wkbType == QGis.WKBPolygon or wkbType == QGis.WKBMultiPolygon:
if ring is not None: # disgrego un'isola
if geom.deleteRing(
ring + 1, part
) == False: # cancello una isola (Ring 0 is outer ring and can't be deleted)
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newGeom = QgsGeometry.fromPolygon([
self.mapToLayerCoordinates(layer,
self.currSubGeom).asPolyline()
])
else: # disgrego una parte
if wkbType == QGis.WKBPolygon:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newGeom = QgsGeometry.fromPolygon([
self.mapToLayerCoordinates(layer,
self.currSubGeom).asPolyline()
])
ring = 0
ringGeom = qad_utils.getSubGeomAt(geom, [part, ring])
# se la parte ha delle isole
while ringGeom is not None:
# aggiungo un'isola
points = ringGeom.asPolyline() # vettore di punti
if newGeom.addRing(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD",
"Invalid object."))
return False
ring = ring + 1
ringGeom = qad_utils.getSubGeomAt(geom, [part, ring])
if geom.deletePart(part) == False: # cancello una parte
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
else:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.entity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", self.entity.layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity.layer, f,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
# Aggiungo nuova feature
newF = QgsFeature(f)
newF.setGeometry(newGeom)
if qad_layer.addFeatureToLayer(self.plugIn, self.entity.layer, newF,
None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
return True
def lengthen(self, point):
layer = self.entity.layer
f = self.entity.getFeature()
if f is None: # non c'è più la feature
return False
geom = self.entity.getGeometry()
# ritorna una tupla (<The squared cartesian distance>,
# <minDistPoint>
# <afterVertex>
# <leftOf>)
res = False
if self.OpMode == "DElta":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
if self.OpType == "length":
res = newLinearObjectList.lengthen_delta(self.move_startPt, self.value)
elif self.OpType == "Angle":
res = newLinearObjectList.lengthen_deltaAngle(self.move_startPt, self.value)
elif self.OpMode == "Percent":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
value = newLinearObjectList.length() * self.value / 100
value = value - newLinearObjectList.length()
res = newLinearObjectList.lengthen_delta(self.move_startPt, value)
elif self.OpMode == "Total":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
if self.OpType == "length":
value = self.value - newLinearObjectList.length()
res = newLinearObjectList.lengthen_delta(self.move_startPt, value)
elif self.OpType == "Angle":
if newLinearObjectList.qty() == 1:
linearObject = newLinearObjectList.getLinearObjectAt(0)
if linearObject.isArc() == True: # se è un arco
value = self.value - linearObject.getArc().totalAngle()
res = newLinearObjectList.lengthen_deltaAngle(self.move_startPt, value)
elif self.OpMode == "DYnamic":
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
transformedPt = self.mapToLayerCoordinates(layer, point)
if self.move_startPt:
linearObject = newLinearObjectList.getLinearObjectAt(0)
else:
linearObject = newLinearObjectList.getLinearObjectAt(-1)
if linearObject.isSegment():
newPt = qad_utils.getPerpendicularPointOnInfinityLine(linearObject.getStartPt(), linearObject.getEndPt(), transformedPt)
else: # arco
newPt = qad_utils.getPolarPointByPtAngle(linearObject.getArc().center, \
qad_utils.getAngleBy2Pts(linearObject.getArc().center, transformedPt), \
linearObject.getArc().radius)
if newLinearObjectList.qty() > 1 and linearObject.isSegment():
ang = linearObject.getTanDirectionOnStartPt()
if self.move_startPt:
linearObject.setStartPt(newPt)
else:
linearObject.setEndPt(newPt)
if newLinearObjectList.qty() > 1 and linearObject.isSegment() and \
qad_utils.TanDirectionNear(ang, linearObject.getTanDirectionOnStartPt()) == False:
res = False
else:
res = True
if res == False: # allungamento impossibile
return False
pts = newLinearObjectList.asPolyline()
updSubGeom = QgsGeometry.fromPolyline(pts)
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom)
if updGeom is None:
return False
f.setGeometry(updGeom)
self.plugIn.beginEditCommand("Feature edited", layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def lengthen(self, point):
layer = self.entity.layer
f = self.entity.getFeature()
if f is None: # non c'è più la feature
return False
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(layer, self.entity.getGeometry())
# ritorna una tupla (<The squared cartesian distance>,
# <minDistPoint>
# <afterVertex>
# <leftOf>)
res = False
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
if self.move_startPt:
linearObject = newLinearObjectList.getLinearObjectAt(0)
else:
linearObject = newLinearObjectList.getLinearObjectAt(-1)
if linearObject.isSegment():
newPt = qad_utils.getPerpendicularPointOnInfinityLine(linearObject.getStartPt(), linearObject.getEndPt(), point)
else: # arco
newPt = qad_utils.getPolarPointByPtAngle(linearObject.getArc().center, \
qad_utils.getAngleBy2Pts(linearObject.getArc().center, point), \
linearObject.getArc().radius)
if newLinearObjectList.qty() > 1 and linearObject.isSegment():
ang = linearObject.getTanDirectionOnStartPt()
if self.move_startPt:
linearObject.setStartPt(newPt)
else:
linearObject.setEndPt(newPt)
if newLinearObjectList.qty() > 1 and linearObject.isSegment() and \
qad_utils.TanDirectionNear(ang, linearObject.getTanDirectionOnStartPt()) == False:
res = False
else:
res = True
if res == False: # allungamento impossibile
return False
pts = newLinearObjectList.asPolyline()
updSubGeom = QgsGeometry.fromPolyline(pts)
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom)
if updGeom is None:
return False
# trasformo la geometria nel crs del layer
f.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
self.plugIn.beginEditCommand("Feature edited", layer)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layer, f, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def disjoinCurrentSubGeomToPolygon(self):
"""
Sconnette la sotto-geometria corrente del poligono da modificare creando una nuova entità
"""
layer = self.entity.layer
# la posizione é espressa con una lista (<index ogg. princ> [<index ogg. sec.>])
part = self.currAtSubGeom[0]
ring = self.currAtSubGeom[1] if len(self.currAtSubGeom) == 2 else None
geom = self.entity.getGeometry()
wkbType = geom.wkbType()
if wkbType == QGis.WKBMultiPoint or wkbType == QGis.WKBMultiLineString:
if geom.deletePart(part) == False: # disgrego una parte
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newGeom = self.mapToLayerCoordinates(layer, self.currSubGeom)
elif wkbType == QGis.WKBPolygon or wkbType == QGis.WKBMultiPolygon:
if ring is not None: # disgrego un'isola
if geom.deleteRing(ring + 1, part) == False: # cancello una isola (Ring 0 is outer ring and can't be deleted)
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newGeom = QgsGeometry.fromPolygon([self.mapToLayerCoordinates(layer, self.currSubGeom).asPolyline()])
else: # disgrego una parte
if wkbType == QGis.WKBPolygon:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
newGeom = QgsGeometry.fromPolygon([self.mapToLayerCoordinates(layer, self.currSubGeom).asPolyline()])
ring = 0
ringGeom = qad_utils.getSubGeomAt(geom, [part, ring])
# se la parte ha delle isole
while ringGeom is not None:
# aggiungo un'isola
points = ringGeom.asPolyline() # vettore di punti
if newGeom.addRing(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
ring = ring + 1
ringGeom = qad_utils.getSubGeomAt(geom, [part, ring])
if geom.deletePart(part) == False: # cancello una parte
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
else:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.entity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", self.entity.layer)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
# Aggiungo nuova feature
newF = QgsFeature(f)
newF.setGeometry(newGeom)
if qad_layer.addFeatureToLayer(self.plugIn, self.entity.layer, newF, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
return True
def addEntitySetToPolygon(self, entitySet, removeOriginals = False):
"""
Aggiunge il set di entità al poligono da modificare
"""
geom = self.poligonEntity.getGeometry()
layerList = []
layerList.append(self.poligonEntity.layer)
for layerEntitySet in entitySet.layerEntitySetList:
layer = layerEntitySet.layer
if layer.geometryType() != QGis.Polygon and layer.geometryType() != QGis.Line:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals: layerList.append(layer)
coordTransform = QgsCoordinateTransform(layer.crs(), self.poligonEntity.layer.crs())
for featureId in layerEntitySet.featureIds:
# se la feature è quella di polygonEntity è errore
if layer.id() == self.poligonEntity.layerId() and featureId == self.poligonEntity.featureId:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
# se il poligono è contenuto nella geometria da aggiungere
if geomToAdd.contains(geom):
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geom)
# deve essere un poligono senza ring
if len(simplifiedGeoms) != 1 or simplifiedGeoms[0].wkbType() != QGis.WKBLineString:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
points = simplifiedGeoms[0].asPolyline() # vettore di punti
# aggiungo un'isola
if geomToAdd.addRing(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
del geom
geom = QgsGeometry.fromPolygon(geomToAdd.asPolygon())
else: # se il poligono non è contenuto nella geometria da aggiungere
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geomToAdd)
for simplifiedGeom in simplifiedGeoms:
points = simplifiedGeom.asPolyline() # vettore di punti
# se la geometria da aggiungere è contenuta nel poligono
if geom.contains(QgsGeometry.fromPolyline(points)):
# aggiungo un'isola
if geom.addRing(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
else:
# aggiungo una parte
if geom.addPart(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
layerList = entitySet.getLayerList()
layerList.append(self.poligonEntity.layer)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn, layerEntitySet.layer, layerEntitySet.featureIds, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def fillet(self):
tolerance2ApproxCurve = QadVariables.get(
QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
# stessa entità e stessa parte
if self.entity1.layer.id() == self.entity2.layer.id() and \
self.entity1.featureId == self.entity2.featureId and \
self.partAt1 == self.partAt2:
return False
# uso il crs del canvas per lavorare con coordinate piane xy
epsg = self.plugIn.canvas.mapSettings().destinationCrs().authid()
res = qad_utils.getFilletLinearObjectList(self.linearObjectList1, self.partAt1, self.pointAt1, \
self.linearObjectList2, self.partAt2, self.pointAt2,\
self.filletMode, self.radius, epsg)
if res is None: # raccordo non possibile
msg = QadMsg.translate("Command_FILLET",
"\nFillet with radius <{0}> impossible.")
#showMsg
self.showMsg(msg.format(str(self.radius)))
return False
filletLinearObjectList = res[0]
whatToDoPoly1 = res[1]
whatToDoPoly2 = res[2]
self.plugIn.beginEditCommand("Feature edited",
[self.entity1.layer, self.entity2.layer])
if whatToDoPoly1 == 1: # 1=modificare
f = self.entity1.getFeature()
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(self.entity1.layer, f.geometry())
updSubGeom = QgsGeometry.fromPolyline(
filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom1)
if updGeom is None:
self.plugIn.destroyEditCommand()
return False
# trasformo la geometria nel crs del layer
f.setGeometry(
self.mapToLayerCoordinates(self.entity1.layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity1.layer,
f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
elif whatToDoPoly1 == 2: # 2=cancellare
# se non si tratta della stessa entità
if self.entity1 != self.entity2:
# plugIn, layer, featureId, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, self.entity1.layer, \
self.entity1.featureId, False) == False:
self.plugIn.destroyEditCommand()
return False
if whatToDoPoly2 == 1: # 1=modificare
tolerance2ApproxCurve = QadVariables.get(
QadMsg.translate("Environment variables",
"TOLERANCE2APPROXCURVE"))
f = self.entity2.getFeature()
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(self.entity2.layer, f.geometry())
updSubGeom = QgsGeometry.fromPolyline(
filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom2)
if updGeom is None:
self.plugIn.destroyEditCommand()
return False
# trasformo la geometria nel crs del layer
f.setGeometry(
self.mapToLayerCoordinates(self.entity2.layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity2.layer,
f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
elif whatToDoPoly2 == 2: # 2=cancellare
# se non si tratta della stessa entità
if self.entity1 != self.entity2:
# plugIn, layer, featureId, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, self.entity2.layer, \
self.entity2.featureId, False) == False:
self.plugIn.destroyEditCommand()
return False
if whatToDoPoly1 == 0 and whatToDoPoly2 == 0: # 0=niente
geom = QgsGeometry.fromPolyline(
filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
# trasformo la geometria nel crs del layer
geom = self.mapToLayerCoordinates(self.entity1.layer, geom)
# plugIn, layer, geom, coordTransform, refresh, check_validity
if qad_layer.addGeomToLayer(self.plugIn, self.entity1.layer, geom,
None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def addEntitySetToPoint(self, entitySet, removeOriginals=True):
"""
Aggiunge il set di entità al punto da modificare
"""
geom = self.entity.getGeometry()
layerList = []
layerList.append(self.entity.layer)
for layerEntitySet in entitySet.layerEntitySetList:
layer = layerEntitySet.layer
if layer.geometryType() != QGis.Point:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals: layerList.append(layer)
coordTransform = QgsCoordinateTransform(layer.crs(),
self.entity.layer.crs())
for featureId in layerEntitySet.featureIds:
# se la feature è quella di entity è errore
if layer.id() == self.entity.layerId(
) and featureId == self.entity.featureId:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer dell'entità da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
simplifiedGeoms = qad_utils.asPointOrPolyline(geomToAdd)
for simplifiedGeom in simplifiedGeoms:
point = simplifiedGeom.asPoint()
# aggiungo una parte
if geom.addPart([point]) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD",
"Invalid object."))
return False
f = self.entity.getFeature()
f.setGeometry(geom)
layerList = entitySet.getLayerList()
layerList.append(self.entity.layer)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity.layer, f,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn,
layerEntitySet.layer,
layerEntitySet.featureIds,
False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
return True
def lengthen(self, point):
layer = self.entity.layer
f = self.entity.getFeature()
if f is None: # non c'è più la feature
return False
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(layer, self.entity.getGeometry())
# ritorna una tupla (<The squared cartesian distance>,
# <minDistPoint>
# <afterVertex>
# <leftOf>)
res = False
newLinearObjectList = qad_utils.QadLinearObjectList(self.linearObjectList)
if self.move_startPt:
linearObject = newLinearObjectList.getLinearObjectAt(0)
else:
linearObject = newLinearObjectList.getLinearObjectAt(-1)
if linearObject.isSegment():
newPt = qad_utils.getPerpendicularPointOnInfinityLine(linearObject.getStartPt(), linearObject.getEndPt(), point)
else: # arco
newPt = qad_utils.getPolarPointByPtAngle(linearObject.getArc().center, \
qad_utils.getAngleBy2Pts(linearObject.getArc().center, point), \
linearObject.getArc().radius)
if newLinearObjectList.qty() > 1 and linearObject.isSegment():
ang = linearObject.getTanDirectionOnStartPt()
if self.move_startPt:
linearObject.setStartPt(newPt)
else:
linearObject.setEndPt(newPt)
if newLinearObjectList.qty() > 1 and linearObject.isSegment() and \
qad_utils.TanDirectionNear(ang, linearObject.getTanDirectionOnStartPt()) == False:
res = False
else:
res = True
if res == False: # allungamento impossibile
return False
pts = newLinearObjectList.asPolyline()
updSubGeom = QgsGeometry.fromPolyline(pts)
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom)
if updGeom is None:
return False
# trasformo la geometria nel crs del layer
f.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
self.plugIn.beginEditCommand("Feature edited", layer)
if self.copyEntities == False:
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
else:
# plugIn, layer, features, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layer, f, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def addEntitySetToPolygon(self, entitySet, removeOriginals=True):
"""
Aggiunge il set di entità al poligono da modificare
"""
geom = self.entity.getGeometry()
layerList = []
layerList.append(self.entity.layer)
for layerEntitySet in entitySet.layerEntitySetList:
layer = layerEntitySet.layer
if layer.geometryType() != QGis.Polygon and layer.geometryType(
) != QGis.Line:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals: layerList.append(layer)
coordTransform = QgsCoordinateTransform(layer.crs(),
self.entity.layer.crs())
for featureId in layerEntitySet.featureIds:
# se la feature è quella di entity è errore
if layer.id() == self.entity.layerId(
) and featureId == self.entity.featureId:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
# se il poligono è contenuto nella geometria da aggiungere
if geomToAdd.contains(geom):
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geom)
# deve essere un poligono senza ring
if len(simplifiedGeoms) != 1 or simplifiedGeoms[0].wkbType(
) != QGis.WKBLineString:
self.showMsg(QadMsg.translate("QAD",
"Invalid object."))
return False
points = simplifiedGeoms[0].asPolyline(
) # vettore di punti
# aggiungo un'isola
if geomToAdd.addRing(points) != 0: # 0 in case of success
self.showMsg(QadMsg.translate("QAD",
"Invalid object."))
return False
del geom
geom = QgsGeometry.fromPolygon(geomToAdd.asPolygon())
else: # se il poligono non è contenuto nella geometria da aggiungere
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geomToAdd)
for simplifiedGeom in simplifiedGeoms:
points = simplifiedGeom.asPolyline(
) # vettore di punti
# se la geometria da aggiungere è contenuta nel poligono
if geom.contains(QgsGeometry.fromPolyline(points)):
# aggiungo un'isola
if geom.addRing(
points) != 0: # 0 in case of success
self.showMsg(
QadMsg.translate("QAD", "Invalid object."))
return False
else:
# aggiungo una parte
if geom.addPart(
points) != 0: # 0 in case of success
self.showMsg(
QadMsg.translate("QAD", "Invalid object."))
return False
f = self.entity.getFeature()
f.setGeometry(geom)
layerList = entitySet.getLayerList()
layerList.append(self.entity.layer)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity.layer, f,
False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn,
layerEntitySet.layer,
layerEntitySet.featureIds,
False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
return True
def unionIntersSubtractEntitySetToPolygon(self, entitySet, opType, removeOriginals = False):
"""
Unisce o interseca i poligoni di entitySet al poligono corrente
"""
geom = self.poligonEntity.getGeometry()
layerList = []
layerList.append(self.poligonEntity.layer)
geomList = []
geomList.append(geom)
for layerEntitySet in entitySet.layerEntitySetList:
del geomList[:]
layer = layerEntitySet.layer
coordTransform = QgsCoordinateTransform(layer.crs(), self.poligonEntity.layer.crs())
if layer.geometryType() == QGis.Polygon:
for featureId in layerEntitySet.featureIds:
# se la feature è quella di polygonEntity è errore
if layer.id() == self.poligonEntity.layerId() and featureId == self.poligonEntity.featureId:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
if opType == QadMAPMPEDITCommandOpTypeEnum.UNION: geom = geom.combine(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.INTERSECTION: geom = geom.intersection(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.DIFFERENCE: geom = geom.difference(geomToAdd)
if geom is None:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals and layer.id() != self.poligonEntity.layerId():
layerList.append(layer)
elif layer.geometryType() == QGis.Line:
for featureId in layerEntitySet.featureIds:
f = layerEntitySet.getFeature(featureId)
# trasformo la geometria nel crs del layer del poligono da modificare
geomToAdd = f.geometry()
geomToAdd.transform(coordTransform)
# Riduco la geometria in point o polyline
simplifiedGeoms = qad_utils.asPointOrPolyline(geomToAdd)
for simplifiedGeom in simplifiedGeoms:
if simplifiedGeom.wkbType() != QGis.WKBLineString:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
points = simplifiedGeom.asPolyline() # vettore di punti
if len(points) < 4 or points[0] != points[-1]: # polilinea chiusa con almeno 4 punti (primo e ultimo uguali)
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
geomToAdd = QgsGeometry.fromPolygon([points])
if opType == QadMAPMPEDITCommandOpTypeEnum.UNION: geom = geom.combine(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.INTERSECTION: geom = geom.intersection(geomToAdd)
elif opType == QadMAPMPEDITCommandOpTypeEnum.DIFFERENCE: geom = geom.difference(geomToAdd)
if geom is None or geom.type() != QGis.Polygon:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
if removeOriginals: layerList.append(layer)
else:
self.showMsg(QadMsg.translate("QAD", "Invalid object."))
return False
f = self.poligonEntity.getFeature()
f.setGeometry(geom)
self.plugIn.beginEditCommand("Feature edited", layerList)
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.poligonEntity.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
if removeOriginals:
for layerEntitySet in entitySet.layerEntitySetList:
if qad_layer.deleteFeaturesToLayer(self.plugIn, layerEntitySet.layer, layerEntitySet.featureIds, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
def trimFeatures(self, geom, toExtend):
# geom è in map coordinates
tolerance2ApproxCurve = QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
LineTempLayer = None
self.plugIn.beginEditCommand("Feature extended" if toExtend else "Feature trimmed", \
self.entitySet.getLayerList())
for layerEntitySet in self.entitySet.layerEntitySetList:
layer = layerEntitySet.layer
for featureId in layerEntitySet.featureIds:
f = qad_utils.getFeatureById(layer, featureId)
if f is None:
continue
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
f_geom = self.layerToMapCoordinates(layer, f.geometry())
if geom.type() == QGis.Point:
# ritorna una tupla (<The squared cartesian distance>,
# <minDistPoint>
# <afterVertex>
# <leftOf>)
dummy = qad_utils.closestSegmentWithContext(geom.asPoint(), f_geom)
if dummy[1] is not None:
intPts = [dummy[1]]
else:
intPts = qad_utils.getIntersectionPoints(geom, f_geom)
for intPt in intPts:
if toExtend:
newGeom = qad_utils.extendQgsGeometry(self.plugIn.canvas.mapRenderer().destinationCrs(), f_geom, intPt, \
self.limitEntitySet, self.edgeMode, \
tolerance2ApproxCurve)
if newGeom is not None:
# aggiorno la feature con la geometria estesa
extendedFeature = QgsFeature(f)
# trasformo la geometria nel crs del layer
extendedFeature.setGeometry(self.mapToLayerCoordinates(layer, newGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, extendedFeature, False, False) == False:
self.plugIn.destroyEditCommand()
return
else: # trim
result = qad_utils.trimQgsGeometry(self.plugIn.canvas.mapRenderer().destinationCrs(), f_geom, intPt, \
self.limitEntitySet, self.edgeMode, \
tolerance2ApproxCurve)
if result is not None:
line1 = result[0]
line2 = result[1]
atSubGeom = result[2]
if layer.geometryType() == QGis.Line:
updGeom = qad_utils.setSubGeom(f_geom, line1, atSubGeom)
if updGeom is None:
self.plugIn.destroyEditCommand()
return
trimmedFeature1 = QgsFeature(f)
# trasformo la geometria nel crs del layer
trimmedFeature1.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, trimmedFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
if line2 is not None:
trimmedFeature2 = QgsFeature(f)
# trasformo la geometria nel crs del layer
trimmedFeature2.setGeometry(self.mapToLayerCoordinates(layer, line2))
# plugIn, layer, feature, coordTransform, refresh, check_validity
if qad_layer.addFeatureToLayer(self.plugIn, layer, trimmedFeature2, None, False, False) == False:
self.plugIn.destroyEditCommand()
return
else:
# aggiungo le linee nei layer temporanei di QAD
if LineTempLayer is None:
LineTempLayer = qad_layer.createQADTempLayer(self.plugIn, QGis.Line)
self.plugIn.addLayerToLastEditCommand("Feature trimmed", LineTempLayer)
lineGeoms = [line1]
if line2 is not None:
lineGeoms.append(line2)
# trasformo la geometria in quella dei layer temporanei
# plugIn, pointGeoms, lineGeoms, polygonGeoms, coord, refresh
if qad_layer.addGeometriesToQADTempLayers(self.plugIn, None, lineGeoms, None, None, False) == False:
self.plugIn.destroyEditCommand()
return
updGeom = qad_utils.delSubGeom(f_geom, atSubGeom)
if updGeom is None or updGeom.isGeosEmpty(): # da cancellare
# plugIn, layer, feature id, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, layer, f.id(), False) == False:
self.plugIn.destroyEditCommand()
return
else:
trimmedFeature1 = QgsFeature(f)
# trasformo la geometria nel crs del layer
trimmedFeature1.setGeometry(self.mapToLayerCoordinates(layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, layer, trimmedFeature1, False, False) == False:
self.plugIn.destroyEditCommand()
return
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
def fillet(self):
tolerance2ApproxCurve = QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
# stessa entità e stessa parte
if self.entity1.layer.id() == self.entity2.layer.id() and \
self.entity1.featureId == self.entity2.featureId and \
self.partAt1 == self.partAt2:
return False
# uso il crs del canvas per lavorare con coordinate piane xy
epsg = self.plugIn.canvas.mapRenderer().destinationCrs().authid()
res = qad_utils.getFilletLinearObjectList(self.linearObjectList1, self.partAt1, self.pointAt1, \
self.linearObjectList2, self.partAt2, self.pointAt2,\
self.filletMode, self.radius, epsg)
if res is None: # raccordo non possibile
msg = QadMsg.translate("Command_FILLET", "\nFillet with radius <{0}> impossible.")
#showMsg
self.showMsg(msg.format(str(self.radius)))
return False
filletLinearObjectList = res[0]
whatToDoPoly1 = res[1]
whatToDoPoly2 = res[2]
self.plugIn.beginEditCommand("Feature edited", [self.entity1.layer, self.entity2.layer])
if whatToDoPoly1 == 1: # 1=modificare
f = self.entity1.getFeature()
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(self.entity1.layer, f.geometry())
updSubGeom = QgsGeometry.fromPolyline(filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom1)
if updGeom is None:
self.plugIn.destroyEditCommand()
return False
# trasformo la geometria nel crs del layer
f.setGeometry(self.mapToLayerCoordinates(self.entity1.layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity1.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
elif whatToDoPoly1 == 2: # 2=cancellare
# se non si tratta della stessa entità
if self.entity1 != self.entity2:
# plugIn, layer, featureId, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, self.entity1.layer, \
self.entity1.featureId, False) == False:
self.plugIn.destroyEditCommand()
return False
if whatToDoPoly2 == 1: # 1=modificare
tolerance2ApproxCurve = QadVariables.get(QadMsg.translate("Environment variables", "TOLERANCE2APPROXCURVE"))
f = self.entity2.getFeature()
# trasformo la geometria nel crs del canvas per lavorare con coordinate piane xy
geom = self.layerToMapCoordinates(self.entity2.layer, f.geometry())
updSubGeom = QgsGeometry.fromPolyline(filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
updGeom = qad_utils.setSubGeom(geom, updSubGeom, self.atSubGeom2)
if updGeom is None:
self.plugIn.destroyEditCommand()
return False
# trasformo la geometria nel crs del layer
f.setGeometry(self.mapToLayerCoordinates(self.entity2.layer, updGeom))
# plugIn, layer, feature, refresh, check_validity
if qad_layer.updateFeatureToLayer(self.plugIn, self.entity2.layer, f, False, False) == False:
self.plugIn.destroyEditCommand()
return False
elif whatToDoPoly2 == 2: # 2=cancellare
# se non si tratta della stessa entità
if self.entity1 != self.entity2:
# plugIn, layer, featureId, refresh
if qad_layer.deleteFeatureToLayer(self.plugIn, self.entity2.layer, \
self.entity2.featureId, False) == False:
self.plugIn.destroyEditCommand()
return False
if whatToDoPoly1 == 0 and whatToDoPoly2 == 0: # 0=niente
geom = QgsGeometry.fromPolyline(filletLinearObjectList.asPolyline(tolerance2ApproxCurve))
# trasformo la geometria nel crs del layer
geom = self.mapToLayerCoordinates(self.entity1.layer, geom)
# plugIn, layer, geom, coordTransform, refresh, check_validity
if qad_layer.addGeomToLayer(self.plugIn, self.entity1.layer, geom, None, False, False) == False:
self.plugIn.destroyEditCommand()
return False
self.plugIn.endEditCommand()
self.nOperationsToUndo = self.nOperationsToUndo + 1
return True
