コード例 #1
0
 def start_to_rotate(self, event):
     mapPt,layerPt = self.transformCoordinates(event.pos())
     color = QColor("black")
     color.setAlphaF(0.78)
     self.tempRubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
     self.tempRubberBand.setWidth(4)
     self.tempRubberBand.setColor(color)
     self.tempRubberBand.setLineStyle(Qt.DotLine)
     self.tempRubberBand.show()
     self.tempRubberBand.addPoint(mapPt) 
     self.startRotate = True
コード例 #2
0
 def __init__(self, canvas):
     self.canvas = canvas
     QgsMapToolEmitPoint.__init__(self, self.canvas)
     self.rubberband = QgsRubberBand(self.canvas, QGis.Polygon)
     self.point = None
     self.points = []
     attribs = ['id']
     types = [QtCore.QVariant.String]
     self.layer = uf.createTempLayer('Danger Zones', 'POLYGON', '28992',
                                     attribs, types, 50)
     self.symbols = self.layer.rendererV2().symbols()
     self.symbol = self.symbols[0]
     self.symbol.setColor(QColor.fromRgb(160, 160, 160))
コード例 #3
0
class PolyMapTool(QgsMapToolEmitPoint):
    def __init__(self, canvas):
        self.canvas = canvas
        QgsMapToolEmitPoint.__init__(self, self.canvas)
        self.rubberband = QgsRubberBand(self.canvas, QGis.Polygon)
        self.point = None
        self.points = []
        attribs = ['id']
        types = [QtCore.QVariant.String]
        self.layer = uf.createTempLayer('Danger Zones', 'POLYGON', '28992',
                                        attribs, types, 50)
        self.symbols = self.layer.rendererV2().symbols()
        self.symbol = self.symbols[0]
        self.symbol.setColor(QColor.fromRgb(160, 160, 160))

    def canvasPressEvent(self, e):
        self.point = self.toMapCoordinates(e.pos())
        self.points.append(self.point)
        self.showPoly(e)

    def showPoly(self, e):
        self.rubberband.reset(QGis.Polygon)
        for point in self.points[:-1]:
            self.rubberband.addPoint(point, False)
        self.rubberband.addPoint(self.points[-1], True)
        if e.button() == Qt.RightButton:
            self.poly()
            self.point = None
            self.points = []
            self.rubberband.reset(QGis.Polygon)

    def poly(self):
        geom = self.rubberband.asGeometry()

        # Set the provider to accept the data source
        pr = self.layer.dataProvider()

        # Add a new feature and assign the geometry
        feat = QgsFeature()
        feat.setGeometry(geom)
        pr.addFeatures([feat])

        # Update extent of the layer
        self.layer.updateExtents()
        self.refreshCanvas(self.layer)

        # Add the layer to the Layers panel
        QgsMapLayerRegistry.instance().addMapLayers([self.layer])

    def refreshCanvas(self, layer):
        if self.canvas.isCachingEnabled():
            layer.setCacheImage(None)
        else:
            self.canvas.refresh()
コード例 #4
0
ファイル: mapTool.py プロジェクト: Oostjoost/OIV_project-1
    def startCapturing(self):
        #rubberband voor de al vastgelegde punten
        color = QColor("red")
        color.setAlphaF(0.2)
        self.rubberBand = QgsRubberBand(self.canvas, self.bandType())
        self.rubberBand.setWidth(2)
        self.rubberBand.setColor(color)
        self.rubberBand.show()

        #gestippelde rubberband -> voor het tekenen
        self.tempRubberBand = QgsRubberBand(self.canvas, self.bandType())
        self.tempRubberBand.setWidth(2)
        self.tempRubberBand.setColor(color)
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()

        #2x loodrechte hulp tekenlijnen
        self.perpRubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.perpRubberBand.setWidth(1)
        self.perpRubberBand.setColor(QColor("blue"))
        self.perpRubberBand.setLineStyle(Qt.DotLine)
        self.perpRubberBand.show()

        self.perpRubberBand2 = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.perpRubberBand2.setWidth(1)
        self.perpRubberBand2.setColor(QColor("blue"))
        self.perpRubberBand2.setLineStyle(Qt.DotLine)
        self.perpRubberBand2.show()
        
        self.roundRubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.roundRubberBand.setWidth(1)
        borderColor = QColor("blue")
        borderColor.setAlphaF(0.5)
        fillColor = QColor("blue")
        fillColor.setAlphaF(0)
        self.roundRubberBand.setFillColor(fillColor)    
        self.roundRubberBand.setStrokeColor(borderColor)        
        self.roundRubberBand.setLineStyle(Qt.DotLine)
        self.roundRubberBand.show() 
        self.parent.straal.valueChanged.connect(self.roundrubberband_change_straal)        
        self.capturing = True
コード例 #5
0
ファイル: mapTool.py プロジェクト: Oostjoost/OIV_project-1
class CaptureTool(QgsMapTool):
    CAPTURE_LINE    = 1
    CAPTURE_POLYGON = 2

    def __init__(self, canvas):
        QgsMapTool.__init__(self, canvas)
        self.canvas          = canvas
        self.layer           = None
        self.captureMode     = None
        self.onGeometryAdded = None
        self.rubberBand      = None
        self.tempRubberBand  = None
        self.perpRubberBand  = None
        self.perpRubberBand2 = None
        self.capturedPoints  = []
        self.capturing       = False
        self.snapPt          = None
        self.snapFeature     = []
        self.vertexmarker    = None
        self.snapLayer       = []
        self.parent          = None
        self.shiftPressed    = False
        self.setCursor(Qt.CrossCursor)

    #actie gekoppeld aan the mouse release event
    def canvasReleaseEvent(self, event):
        #als the perpendicular rubberbands bestaan reset zodat ze opnieuw kunnen worden getekend
        if self.perpRubberBand != None:
            self.perpRubberBand.reset()
        if self.perpRubberBand2 != None:
            self.perpRubberBand2.reset()
        #als er met de linker muis geklikt wordt en er wordt nog niet getekend -> start het tekenen
        #anders voeg het aangeklikte punt toe aan de verzameling
        if event.button() == Qt.LeftButton:
            if not self.capturing:
                self.startCapturing()
            if not self.shiftPressed:
                self.addVertex(event.pos())
            else:
                self.drawParallel(event.pos())
        #indien het de rechter muisknop is -> stop het tekenen en vertaal de punten tot een geometrie
        elif event.button() == Qt.RightButton:
            points = self.getCapturedGeometry()
            self.stopCapturing()
            if points != None:
                self.geometryCaptured(points)     
  
    #acties gekoppeld aan het bewegen van de muis
    def canvasMoveEvent(self, event):
        #converteer de muislocatie naar laag en scherm coordinaten
        mapPt,layerPt = self.transformCoordinates(event.pos())
        #kijk of er mogelijk gesnapt kan worden
        self.snapPt = self.snap_to_point(event.pos(), layerPt)
        if self.capturing:
        	self.tempRubberBand.movePoint(mapPt)        
        #pas de "gestippelde" rubberband aan aan de muispositie
        if self.captureMode == CaptureTool.CAPTURE_LINE and self.tempRubberBand != None and self.capturing:
            try:
            	distance = QgsDistanceArea()
            	m = distance.measureLine(self.tempRubberBand.getPoint(0, 0), mapPt)
            	self.parent.lengte.setText(str(round(m,2)) + ' meter')
            	self.parent.oppervlakte.setText('n.v.t.')
            except:
            	None
        if self.captureMode == CaptureTool.CAPTURE_POLYGON and len(self.capturedPoints) >= 1 and self.capturing:
            distance = QgsDistanceArea()
            tempBandSize = self.tempRubberBand.numberOfVertices()
            m = distance.measureLine(self.tempRubberBand.getPoint(0, tempBandSize - 2), mapPt)
            self.parent.lengte.setText(str(round(m,2)) + ' meter')
            try:
            	polygon = self.rubberBand.asGeometry().asPolygon()[0]
            	temppolygon = self.tempRubberBand.asGeometry().asPolygon()[0]
            	area = QgsDistanceArea()
            	a = area.measurePolygon(polygon)
            	b = area.measurePolygon(temppolygon)
            	self.parent.oppervlakte.setText(str(round(a + b,2)) + ' vierkante-meter')
            except:
            	None
        #laat standaard het snappunt niet zien tenzij er gesnapt kan worden
        self.vertexmarker.hide()
        if self.snapPt != None:
            self.vertexmarker.setCenter(self.snapPt)
            self.vertexmarker.show()

    #check of er gesnapt kan worden
    def snap_to_point(self, pos, layerPt):
        snapPoints = []
        distance = []
        self.snapFeature.clear()
        snapPoint = None
        val = None
        idx = None
        #initialiseer the vertexmarker (virtueel snappunt)
        if self.vertexmarker == None:
            self.vertexmarker = QgsVertexMarker(self.canvas)
            self.vertexmarker.setColor(QColor(255, 0, 255))
            self.vertexmarker.setIconSize(8)
            self.vertexmarker.setIconType(QgsVertexMarker.ICON_X) # or ICON_CROSS, ICON_X
            self.vertexmarker.setPenWidth(5)
            self.vertexmarker.show()
        #creeer lijst met alle mogelijke snappunten
        self.snapFeature = []
        #max snap tolerantie
        tolerance = pow(self.calcTolerance(pos),2)
        #bereken snap "vierkant" rondom muis lokatie
        extent = self.calcExtent(layerPt, tolerance)
        #vraag mogelijke features op binnen het extent
        request = QgsFeatureRequest()
        request.setFilterRect(extent)
        request.setFlags(QgsFeatureRequest.ExactIntersect)
        #bereken voor alle mogelijke snap lagen:
        for ilayer in self.snapLayer:
            index           = None
            igeometry       = None
            ifeature        = None
            polygon         = []
            tuple           = None
            distSquared     = None
            vertexCoord     = None
            vertex          = None
            prevVertex      = None
            nextVertex      = None            
            #bereken een spatial index
            if type(ilayer) != QgsRubberBand:
                try:
                    index = QgsSpatialIndex(ilayer.getFeatures(request))
                    if index != None:
                        #bereken de dichtsbijzijnde feature per snaplaag
                        nearestId = index.nearestNeighbor(layerPt, 1)[0]
                        ifeature = next(ilayer.getFeatures(QgsFeatureRequest(nearestId)))
                        igeometry = ifeature.geometry()
                        #return dichtsbijzijnde lijnsegment van de features geometrie
                        tuple = igeometry.closestSegmentWithContext(layerPt)
                        #return dichtsbijzijnde punt van de features geometrie
                        vertexCoord,vertex,prevVertex,nextVertex,distSquared = igeometry.closestVertex(layerPt)
                except:
                    None                    
            #snappen op bestaande "rubberband" lagen moet ook mogelijk zijn
            elif type(ilayer) == QgsRubberBand:
                #converyt rubberband geometry to QgsGeometry
                igeometry = ilayer.asGeometry()
                if igeometry != None:
                    tuple = igeometry.closestSegmentWithContext(layerPt)
                    vertexCoord,vertex,prevVertex,nextVertex,distSquared = igeometry.closestVertex(layerPt)
            #als er een mogelijk snappunt is gevonden en deze valt binnen de tolerantie:
            #kijk eerst naar hoekpunt en dan pas naar lijnsegment(variabele -> tuple) (de voorkeur heeft snappen op hoekpunten)
            if distSquared != None and distSquared <= tolerance and igeometry != None and igeometry.isNull() == False:
                if type(ilayer) == QgsRubberBand:
                    polygon = igeometry.asPolyline()
                elif ilayer.wkbType() == QgsWkbTypes.MultiLineString:
                    polygon = igeometry.asMultiPolyline()[0]
                elif ilayer.wkbType() == 1003 or ilayer.wkbType() == 6:
                    polygon = igeometry.asMultiPolygon()[0][0]
                else:
                    polygon = igeometry.asPolygon()[0]
                #voeg dit punt toe aan de mogelijke snappunten
                if polygon != [] and vertexCoord != QgsPointXY(0,0):
                    distance.append(distSquared)
                    snapPoints.append([vertexCoord, vertex, prevVertex, polygon])
            elif tuple != None and tuple[1] != QgsPointXY(0,0):
                if tuple[0] <= tolerance:
                    distance.append(tuple[0])
                    snapPoints.append([tuple[1], None, None, None])
            else:
                #Als het snappunt niet binnen de tolerantie valt, voeg dan een grote integer toe als snap afstand
                distance.append(tolerance + 9999)
                snapPoints.append([None, None, None, None])
        #als er mogelijke snappunten zijn:
        if len(distance) > 0:
            #bereken de korste afstand met zijn id -> dit wordt het snappunt
            val, idx = min((val, idx) for (idx, val) in enumerate(distance))
        #construct the point to return as snappoint
        if val != None:
            if val <= tolerance:
                if type(ilayer) == QgsRubberBand:
                    snapPoint = snapPoints[idx][0]
                else:
                    snapPoint = self.toMapCoordinates(ilayer, snapPoints[idx][0])
                #sla zowel de feature als het punt op...de feature is nodig voor de perpendicular rubberbands
                if snapPoints[idx][1] != None:
                    self.snapFeature.extend((snapPoints[idx][1], snapPoints[idx][2], snapPoints[idx][3]))
                else:
                    self.snapFeature.extend((None, None, None))
        if snapPoint != None:
            return snapPoint
        else:
            return None

    #bereken snap extent
    def calcExtent(self, layerPt, tolerance):
        extent = QgsRectangle(layerPt.x() - tolerance,
                                  layerPt.y() - tolerance,
                                  layerPt.x() + tolerance,
                                  layerPt.y() + tolerance)
        return extent

    #bereken de tolerantie     
    def calcTolerance(self, pos):
        pt1 = QPoint(pos.x(), pos.y())
        pt2 = QPoint(pos.x() + 10, pos.y())
        mapPt1,layerPt1 = self.transformCoordinates(pt1)
        mapPt2,layerPt2 = self.transformCoordinates(pt2)
        tolerance = layerPt2.x() - layerPt1.x()
        return tolerance

    #indien de gebruiker op backspace of delete klikt verwijder het laatst geregistreerde punt
    #indien de gebruiker op enter drukt betekent hetzelfde als de rechtermuisknop
    def keyPressEvent(self, event):
        if event.key() == Qt.Key_Backspace or \
           event.key() == Qt.Key_Delete:
            self.removeLastVertex()
            event.ignore()
        if event.key() == Qt.Key_Return or event.key() == Qt.Key_Enter:
            points = self.getCapturedGeometry()
            self.stopCapturing()
            if points != None:
                self.geometryCaptured(points)
        if event.key() == Qt.Key_Shift:
            self.shiftPressed = True
            
    def keyReleaseEvent(self, event):
        if event.key() == Qt.Key_Shift:
            self.shiftPressed = False

    #transform een point to map coordinates and layer coordinates
    def transformCoordinates(self, canvasPt):
        return (self.toMapCoordinates(canvasPt),
                self.toLayerCoordinates(self.layer, canvasPt))

    #bij starten van het tekenen intialiseer de rubberbands
    def startCapturing(self):
        #rubberband voor de al vastgelegde punten
        color = QColor("red")
        color.setAlphaF(0.2)
        self.rubberBand = QgsRubberBand(self.canvas, self.bandType())
        self.rubberBand.setWidth(2)
        self.rubberBand.setColor(color)
        self.rubberBand.show()

        #gestippelde rubberband -> voor het tekenen
        self.tempRubberBand = QgsRubberBand(self.canvas, self.bandType())
        self.tempRubberBand.setWidth(2)
        self.tempRubberBand.setColor(color)
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()

        #2x loodrechte hulp tekenlijnen
        self.perpRubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.perpRubberBand.setWidth(1)
        self.perpRubberBand.setColor(QColor("blue"))
        self.perpRubberBand.setLineStyle(Qt.DotLine)
        self.perpRubberBand.show()

        self.perpRubberBand2 = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.perpRubberBand2.setWidth(1)
        self.perpRubberBand2.setColor(QColor("blue"))
        self.perpRubberBand2.setLineStyle(Qt.DotLine)
        self.perpRubberBand2.show()
        
        self.roundRubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.roundRubberBand.setWidth(1)
        borderColor = QColor("blue")
        borderColor.setAlphaF(0.5)
        fillColor = QColor("blue")
        fillColor.setAlphaF(0)
        self.roundRubberBand.setFillColor(fillColor)    
        self.roundRubberBand.setStrokeColor(borderColor)        
        self.roundRubberBand.setLineStyle(Qt.DotLine)
        self.roundRubberBand.show() 
        self.parent.straal.valueChanged.connect(self.roundrubberband_change_straal)        
        self.capturing = True

    #bepaal het type rubberband (polygoon of line)
    def bandType(self):
        if self.captureMode == CaptureTool.CAPTURE_POLYGON:
            return QgsWkbTypes.PolygonGeometry
        else:
            return QgsWkbTypes.LineGeometry

    #reset rubberbands als er gestopt wordt met tekenen
    def stopCapturing(self):
        if self.rubberBand:
            self.canvas.scene().removeItem(self.rubberBand)
            self.rubberBand = None
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None
        if self.roundRubberBand:
            self.canvas.scene().removeItem(self.roundRubberBand)
            self.roundRubberBand = None
        if self.perpRubberBand:
            self.canvas.scene().removeItem(self.perpRubberBand)
            self.perpRubberBand = None
        if self.perpRubberBand2:
            self.canvas.scene().removeItem(self.perpRubberBand2)
            self.perpRubberBand2 = None              
        self.vertexmarker.hide()
        self.capturing = False
        self.capturedPoints = []
        self.canvas.refresh()

    #bepaal het daadwerkelijk toe te voegen punt (snappunt of geklikt punt)
    def addVertex(self, canvasPoint):
        polygon = None
        clickedPt = None
        if self.snapPt != None:
            if self.snapFeature[2] != None and self.snapFeature[1] != None:
                polygon = self.snapFeature[2]
                clickedPt = polygon[self.snapFeature[1]]
            else:
                clickedPt = self.toLayerCoordinates(self.layer, canvasPoint)
            layerPt = self.toLayerCoordinates(self.layer, self.snapPt)
            mapPt = self.snapPt
            #bereken de snaphoek van het geklikte punt ten opzichte van het snappunt
            snapAngle = clickedPt.azimuth(layerPt)
            self.draw_perpendicularBand(layerPt, snapAngle)
        else:
            mapPt,layerPt = self.transformCoordinates(canvasPoint)
            if len(self.capturedPoints) > 0:
	            perpPt = self.capturedPoints[-1]
	            snapAngle = layerPt.azimuth(perpPt) + 90
	            self.draw_perpendicularBand(layerPt, snapAngle)
        #voeg het nieuwe map punt toe aan de rubberband
        self.rubberBand.addPoint(mapPt)
        #voeg het nieuwe layer punt toe aan de verzamelde punten
        self.capturedPoints.append(layerPt)
        #reset de temprubberband t.b.v. het volgende punt
        self.tempRubberBand.reset(self.bandType())
        if self.captureMode == CaptureTool.CAPTURE_LINE:
            self.tempRubberBand.addPoint(mapPt)
        elif self.captureMode == CaptureTool.CAPTURE_POLYGON:
            firstPoint = self.rubberBand.getPoint(0, 0)
            self.tempRubberBand.addPoint(firstPoint)
            self.tempRubberBand.movePoint(mapPt)
            self.tempRubberBand.addPoint(mapPt)
            
    #bepaal het daadwerkelijk toe te voegen punt (snappunt of geklikt punt)
    def drawParallel(self, canvasPoint):
        clickedPt = None
        if self.snapPt != None and self.snapFeature[2] == None and len(self.capturedPoints) > 0:
            clickedPt = self.toLayerCoordinates(self.layer, canvasPoint)
            layerPt = self.toLayerCoordinates(self.layer, self.snapPt)
            mapPt = self.snapPt
            #bereken de snaphoek van het geklikte punt ten opzichte van het snappunt
            snapAngle = clickedPt.azimuth(layerPt) + 90
            bandSize  = self.rubberBand.numberOfVertices()
            lastPt    = self.rubberBand.getPoint(0, bandSize-1)
            self.draw_perpendicularBand(lastPt, snapAngle)

    def roundrubberband_change_straal(self):
        straal = self.parent.straal.value()
        startPt = self.capturedPoints[-1]
        test = QgsCircle(QgsPoint(startPt), straal)
        geom_cString = test.toCircularString()
        geom_from_curve = QgsGeometry(geom_cString)
        self.roundRubberBand.setToGeometry(geom_from_curve)        

    def draw_perpendicularBand(self, startPt, angle):
        #bereken de haakse lijnen op basis van de gesnapte feature
        length = 100
        x1 = startPt.x() + length * sin(radians(angle))
        y1 = startPt.y() + length * cos(radians(angle))
        x2 = startPt.x() + length * sin(radians(angle + 180))
        y2 = startPt.y() + length * cos(radians(angle + 180))
        straal = self.parent.straal.value()
        test = QgsCircle(QgsPoint(startPt), straal)
        geom_cString = test.toCircularString()
        geom_from_curve = QgsGeometry(geom_cString)
        self.roundRubberBand.setToGeometry(geom_from_curve)
        self.snapLayer.append(self.roundRubberBand)
        #self.roundRubberBand.setToGeometry(geom_cString)
        self.perpRubberBand.addPoint(QgsPointXY(x1,y1))
        self.perpRubberBand.addPoint(QgsPointXY(x2,y2))
        self.perpRubberBand.show()
        #voeg de rubberband toe als mogelijke snap laag
        self.snapLayer.append(self.perpRubberBand)
        #als het een hoek betreft moeten er 2 haakse lijnen worden getekend
        if len(self.snapFeature) == 0 or self.snapFeature[2] == None:
            if self.perpRubberBand2 in self.snapLayer:
                self.snapLayer.remove(self.perpRubberBand2)
        try:
	        if self.snapFeature[2] != None:
	            x3 = startPt.x() + length * sin(radians(angle + 90))
	            y3 = startPt.y() + length * cos(radians(angle + 90))
	            x4 = startPt.x() + length * sin(radians(angle + 270))
	            y4 = startPt.y() + length * cos(radians(angle + 270))
	            self.perpRubberBand2.addPoint(QgsPointXY(x3,y3))
	            self.perpRubberBand2.addPoint(QgsPointXY(x4,y4))
	            self.perpRubberBand2.show()
	            #voeg de rubberband toe als mogelijke snap laag
	            self.snapLayer.append(self.perpRubberBand2)
        except:
	        None

    #verwijder het laatste punt (backspace of delete)
    def removeLastVertex(self):
        if not self.capturing: return
        bandSize     = self.rubberBand.numberOfVertices()
        tempBandSize = self.tempRubberBand.numberOfVertices()
        numPoints    = len(self.capturedPoints)
        if bandSize < 1 or numPoints < 1:
            return
        self.rubberBand.removePoint(-1)
        if bandSize > 1:
            if tempBandSize > 1:
                point = self.rubberBand.getPoint(0, bandSize-2)
                self.tempRubberBand.movePoint(tempBandSize-2,
                                              point)
        else:
            self.tempRubberBand.reset(self.bandType())
        del self.capturedPoints[-1]

    #return captured points
    def getCapturedGeometry(self):
        snapAngle = None
        points = self.capturedPoints
        #voor lijn -> minimaal 2 punten
        if self.captureMode == CaptureTool.CAPTURE_LINE:
            if len(points) < 2:
                return None
        #voor polygoon -> minimaal 3 punten
        if self.captureMode == CaptureTool.CAPTURE_POLYGON:
            if len(points) < 3:
                return None
        # Close polygon door het eerste punt ook als laatste toe te voegen
        if self.captureMode == CaptureTool.CAPTURE_POLYGON:
            points.append(points[0]) 
        #geeft zowel de punten als ook de hoek terug (niet nodig bij lijn en polygoon, maar uniformering ivm punten)
        self.onGeometryAdded(points, snapAngle)
コード例 #6
0
ファイル: polylinetool.py プロジェクト: skylning/Roam
    def __init__(self, canvas, config=None):
        super(PolylineTool, self).__init__(canvas)
        self.logger = roam.utils.logger
        if not config:
            self.config = {}
        else:
            self.config = config
        self.geom = None
        self.minpoints = 2
        self.editmode = False
        self.editvertex = None
        self.points = []
        self.is_tracking = False
        self.canvas = canvas
        self.valid_color = QColor.fromRgb(32, 218, 45, 100)
        self.invalid_color = QColor.fromRgb(216, 26, 96, 100)

        self.startcolour = self.valid_color
        self.editcolour = self.valid_color
        self.band = RubberBand(self.canvas,
                               QgsWkbTypes.LineGeometry,
                               width=5,
                               iconsize=20)
        self.band.setColor(self.startcolour)

        self.errorband = RubberBand(self.canvas,
                                    QgsWkbTypes.LineGeometry,
                                    width=5,
                                    iconsize=20)
        self.errorband.setColor(QColor.fromRgb(64, 64, 64, 90))
        self.errorlocations = QgsRubberBand(self.canvas,
                                            QgsWkbTypes.PointGeometry)
        self.errorlocations.setColor(self.invalid_color)
        self.errorlocations.setIconSize(20)
        self.errorlocations.setIcon(QgsRubberBand.ICON_BOX)

        self.pointband = QgsRubberBand(self.canvas, QgsWkbTypes.PointGeometry)
        self.pointband.setColor(self.startcolour)
        self.pointband.setIconSize(20)
        self.capturing = False
        self.cursor = QCursor(
            QPixmap([
                "16 16 3 1", "      c None", ".     c #FF0000",
                "+     c #FFFFFF", "                ", "       +.+      ",
                "      ++.++     ", "     +.....+    ", "    +.     .+   ",
                "   +.   .   .+  ", "  +.    .    .+ ", " ++.    .    .++",
                " ... ...+... ...", " ++.    .    .++", "  +.    .    .+ ",
                "   +.   .   .+  ", "   ++.     .+   ", "    ++.....+    ",
                "      ++.++     ", "       +.+      "
            ]))

        self.captureaction = CaptureAction(self, "line", text="Digitize")
        self.captureaction.toggled.connect(self.update_state)
        self.trackingaction = GPSTrackingAction(self)
        self.endcaptureaction = EndCaptureAction(self)

        self.undoaction = UndoAction(self)
        self.undoaction.setEnabled(False)
        self.undoaction.triggered.connect(self.undo)

        self.trackingaction.setEnabled(False)

        self.trackingaction.toggled.connect(self.set_tracking)

        self.captureaction.toggled.connect(self.update_end_capture_state)
        self.trackingaction.toggled.connect(self.update_end_capture_state)
        self.endcaptureaction.setEnabled(False)

        self.endcaptureaction.triggered.connect(self.endcapture)

        self.gpscapture = GPSCaptureAction(self, "line")
        self.gpscapture.setText("Add Vertex")
        self.gpscapture.triggered.connect(self.add_vertex)

        self.timer = QTimer()

        GPS.gpsfixed.connect(self.update_tracking_button)
        GPS.gpsdisconnected.connect(self.update_tracking_button_disconnect)
        RoamEvents.selectioncleared.connect(self.selection_updated)
        RoamEvents.selectionchanged.connect(self.selection_updated)

        self.snapping = True

        self.active_color = self.startcolour
コード例 #7
0
ファイル: polylinetool.py プロジェクト: skylning/Roam
class PolylineTool(QgsMapToolEdit):
    mouseClicked = pyqtSignal(QgsPoint)
    geometryComplete = pyqtSignal(QgsGeometry)
    error = pyqtSignal(str)
    MODE = "POLYLINE"

    def __init__(self, canvas, config=None):
        super(PolylineTool, self).__init__(canvas)
        self.logger = roam.utils.logger
        if not config:
            self.config = {}
        else:
            self.config = config
        self.geom = None
        self.minpoints = 2
        self.editmode = False
        self.editvertex = None
        self.points = []
        self.is_tracking = False
        self.canvas = canvas
        self.valid_color = QColor.fromRgb(32, 218, 45, 100)
        self.invalid_color = QColor.fromRgb(216, 26, 96, 100)

        self.startcolour = self.valid_color
        self.editcolour = self.valid_color
        self.band = RubberBand(self.canvas,
                               QgsWkbTypes.LineGeometry,
                               width=5,
                               iconsize=20)
        self.band.setColor(self.startcolour)

        self.errorband = RubberBand(self.canvas,
                                    QgsWkbTypes.LineGeometry,
                                    width=5,
                                    iconsize=20)
        self.errorband.setColor(QColor.fromRgb(64, 64, 64, 90))
        self.errorlocations = QgsRubberBand(self.canvas,
                                            QgsWkbTypes.PointGeometry)
        self.errorlocations.setColor(self.invalid_color)
        self.errorlocations.setIconSize(20)
        self.errorlocations.setIcon(QgsRubberBand.ICON_BOX)

        self.pointband = QgsRubberBand(self.canvas, QgsWkbTypes.PointGeometry)
        self.pointband.setColor(self.startcolour)
        self.pointband.setIconSize(20)
        self.capturing = False
        self.cursor = QCursor(
            QPixmap([
                "16 16 3 1", "      c None", ".     c #FF0000",
                "+     c #FFFFFF", "                ", "       +.+      ",
                "      ++.++     ", "     +.....+    ", "    +.     .+   ",
                "   +.   .   .+  ", "  +.    .    .+ ", " ++.    .    .++",
                " ... ...+... ...", " ++.    .    .++", "  +.    .    .+ ",
                "   +.   .   .+  ", "   ++.     .+   ", "    ++.....+    ",
                "      ++.++     ", "       +.+      "
            ]))

        self.captureaction = CaptureAction(self, "line", text="Digitize")
        self.captureaction.toggled.connect(self.update_state)
        self.trackingaction = GPSTrackingAction(self)
        self.endcaptureaction = EndCaptureAction(self)

        self.undoaction = UndoAction(self)
        self.undoaction.setEnabled(False)
        self.undoaction.triggered.connect(self.undo)

        self.trackingaction.setEnabled(False)

        self.trackingaction.toggled.connect(self.set_tracking)

        self.captureaction.toggled.connect(self.update_end_capture_state)
        self.trackingaction.toggled.connect(self.update_end_capture_state)
        self.endcaptureaction.setEnabled(False)

        self.endcaptureaction.triggered.connect(self.endcapture)

        self.gpscapture = GPSCaptureAction(self, "line")
        self.gpscapture.setText("Add Vertex")
        self.gpscapture.triggered.connect(self.add_vertex)

        self.timer = QTimer()

        GPS.gpsfixed.connect(self.update_tracking_button)
        GPS.gpsdisconnected.connect(self.update_tracking_button_disconnect)
        RoamEvents.selectioncleared.connect(self.selection_updated)
        RoamEvents.selectionchanged.connect(self.selection_updated)

        self.snapping = True

        self.active_color = self.startcolour

    def keyPressEvent(self, event):
        if event.key() == Qt.Key_Escape:
            self.reset()
        if event.key() == Qt.Key_S:
            self.toggle_snapping()
            RoamEvents.snappingChanged.emit(self.snapping)

    def setSnapping(self, snapping):
        self.snapping = snapping

    def toggle_snapping(self):
        self.snapping = not self.snapping

    def selection_updated(self, *args):
        if self.editmode:
            self.reset()
            self.setEditMode(False, None, None)

    def update_end_capture_state(self, *args):
        if self.trackingaction.isChecked() and self.captureaction.isChecked():
            self.endcaptureaction.setEnabled(self.capturing)
            self.undoaction.setEnabled(self.capturing)

    def update_tracking_button_disconnect(self):
        self.trackingaction.setEnabled(False)
        self.captureaction.toggle()

    def update_tracking_button(self, gps_fixed, info):
        self.trackingaction.setEnabled(gps_fixed)

    def update_state(self, toggled):
        if self.is_tracking:
            self.set_tracking(False)

    def set_tracking(self, enable_tracking):
        if not enable_tracking and not self.captureaction.isChecked():
            # Some other tool is grabbing us so we will keep trakcing
            return

        if enable_tracking:
            self.captureaction.setIcon(QIcon(":/icons/pause"))
            self.captureaction.setText("Pause")
            gpsettings = roam.config.settings.get("gps", {})
            config = gpsettings.get('tracking', {"time", 1})
            if "time" in config:
                self.band.removeLastPoint()
                self.timer.timeout.connect(self.add_vertex)
                value = config['time']
                value *= 1000
                self.timer.start(value)
                self.capturing = True
            elif "distance" in config:
                self.band.removeLastPoint()
                value = config['distance']
                self.add_point(GPS.position)
                GPS.gpsposition.connect(self.track_gps_location_changed)
        else:
            self.captureaction.setIcon(self.captureaction._defaulticon)
            self.captureaction.setText("Digitize")

            if self.capturing:
                point = self.pointband.getPoint(
                    0,
                    self.pointband.numberOfVertices() - 1)
                if point:
                    self.band.addPoint(point)
            try:
                self.timer.stop()
                self.timer.timeout.disconnect(self.add_vertex)
            except TypeError:
                pass

            try:
                GPS.gpsposition.disconnect(self.track_gps_location_changed)
            except TypeError:
                pass
        self.is_tracking = enable_tracking
        self.trackingaction.set_text(enable_tracking)

    @property
    def max_distance(self):
        gpsettings = roam.config.settings.get("gps", {})
        config = gpsettings.get('tracking', {"time", 1})
        value = config['distance']
        return value

    def track_gps_location_changed(self, point, info):
        lastpoint = self.pointband.getPoint(
            0,
            self.pointband.numberOfVertices() - 1)
        distance = point.sqrDist(lastpoint)
        if distance >= self.max_distance:
            self.add_point(point)

    @property
    def actions(self):
        return [
            self.captureaction, self.trackingaction, self.gpscapture,
            self.endcaptureaction, self.undoaction
        ]

    def add_vertex(self):
        location = GPS.position
        self.remove_last_point()
        self.add_point(location)
        # Add an extra point for the move band
        self.band.addPoint(location)

    def remove_last_vertex(self):
        self.remove_last_point()
        self.band.removeLastPoint(doUpdate=True)

    def canvasPressEvent(self, event):
        geom = self.band.asGeometry()
        if not geom:
            return

        point = point_from_event(event, self.snapping)
        if self.editmode:
            layer = self.currentVectorLayer()
            event.snapToGrid(layer.geometryOptions().geometryPrecision(),
                             layer.crs())
            tol = QgsTolerance.vertexSearchRadius(self.canvas.mapSettings())
            loc = self.canvas.snappingUtils().locatorForLayer(layer)
            matches = loc.verticesInRect(point, tol)
            if matches:
                for match in matches:
                    if match.featureId() != self.feature.id():
                        continue

                    self.editpart = 0
                    self.editvertex = match.vertexIndex()
                    break
            else:
                self.editvertex = None
                self.editpart = 0

    def vertex_at_point(self, point):
        layer = self.currentVectorLayer()
        tol = QgsTolerance.vertexSearchRadius(self.canvas.mapSettings())
        loc = self.canvas.snappingUtils().locatorForLayer(layer)
        matches = loc.verticesInRect(point, tol)
        return matches

    def canvasReleaseEvent(self, event: QgsMapMouseEvent):
        if event.button() == Qt.RightButton:
            self.endcapture()
            return

        if not self.editmode:
            point = event.snapPoint()
            self.add_point(point)
        else:
            self.editvertex = None

    def canvasMoveEvent(self, event: QgsMapMouseEvent):
        if self.is_tracking:
            return

        point = point_from_event(event, self.snapping)
        if not self.editmode:
            self.pointband.movePoint(point)

        if self.capturing:
            self.band.movePoint(point)

        if self.editmode and self.editvertex is not None:
            found, vertexid = self.geom.vertexIdFromVertexNr(self.editvertex)
            self.geom.get().moveVertex(vertexid, QgsPoint(point))
            self.currentVectorLayer().triggerRepaint()
            self.feature.setGeometry(self.geom)
            self.currentVectorLayer().updateFeature(self.feature)
            self.pointband.setToGeometry(self.toMultiPoint(self.geom),
                                         self.currentVectorLayer())
            self.band.setToGeometry(self.geom, self.currentVectorLayer())

        self.update_valid_state()

    @property
    def is_polygon_mode(self):
        """
        Returns true if this tool is in polygon mode
        :note: This is a gross hack to avoid a import issue until it's refactored
        :return:
        """
        return self.MODE == "POLYGON"

    def update_valid_state(self):
        geom = self.band.asGeometry()
        if geom and self.band.numberOfVertices() > 0:
            if self.has_errors():
                self.set_band_color(self.invalid_color)
            else:
                if not self.editmode:
                    self.set_band_color(self.startcolour)
                else:
                    self.set_band_color(self.editcolour)

    @property
    def active_color(self):
        return self._active_color

    @active_color.setter
    def active_color(self, color):
        self._active_color = color

    def has_errors(self):
        if self.geom is None:
            geom = self.band.asGeometry()
        else:
            geom = self.geom

        errors = geom.validateGeometry()

        skippable = ["duplicate node", "Geometry has"]
        othererrors = []

        def is_safe(message):
            for safe in skippable:
                if safe in message:
                    return True
            return False

        # We need to remove errors that are "ok" and not really that bad
        # We are harder on what is considered valid for polygons.
        if self.is_polygon_mode:
            for error in errors:
                if not is_safe(error.what()):
                    othererrors.append(error)

        if self.node_count < self.minpoints:
            error = QgsGeometry.Error("Number of nodes < {0}".format(
                self.minpoints))
            othererrors.append(error)

        return othererrors

    @property
    def node_count(self):
        if self.editmode:
            return self.band.numberOfVertices()
        else:
            return self.band.numberOfVertices() - 1

    def add_point(self, point):
        self.points.append(point)
        self.band.addPoint(point)
        self.pointband.addPoint(point)
        self.capturing = True
        self.endcaptureaction.setEnabled(True)
        self.undoaction.setEnabled(True)

    def remove_last_point(self):
        if len(self.points) > 1:
            del self.points[-1]
            self.band.removeLastPoint(doUpdate=True)
            self.pointband.removeLastPoint(doUpdate=True)

    def get_geometry(self):
        if self.geom is None:
            return self.band.asGeometry()
        else:
            return self.geom

    def endinvalidcapture(self, errors):
        self.errorband.setToGeometry(self.get_geometry(),
                                     self.currentVectorLayer())
        for error in errors:
            if error.hasWhere():
                self.errorlocations.addPoint(error.where())

        self.capturing = False
        self.set_tracking(False)
        self.captureaction.setChecked(True)
        self.undoaction.setEnabled(False)
        self.endcaptureaction.setEnabled(False)
        self.reset()

    def undo(self):
        self.remove_last_point()

    def endcapture(self):
        if not self.editmode:
            self.band.removeLastPoint()

        errors = self.has_errors()
        if errors and self.config.get("geometry_validation", True):
            self.error.emit("Invalid geometry. <br>"
                            "Please recapture. Last capture shown in grey <br>"
                            "<h2>Errors</h2> {0}".format("<br>".join(
                                error.what() for error in errors)))
            self.endinvalidcapture(errors)
            return

        self.capturing = False
        self.set_tracking(False)
        self.captureaction.setChecked(True)
        self.undoaction.setEnabled(False)
        self.endcaptureaction.setEnabled(False)
        self.clearErrors()
        self.geometryComplete.emit(self.get_geometry())

    def clearErrors(self):
        self.errorband.reset(QgsWkbTypes.LineGeometry)
        self.errorlocations.reset(QgsWkbTypes.PointGeometry)

    def clearBand(self):
        self.reset()

    def reset(self, *args):
        self.band.reset(QgsWkbTypes.LineGeometry)
        self.pointband.reset(QgsWkbTypes.PointGeometry)
        self.capturing = False
        self.set_tracking(False)
        self.undoaction.setEnabled(False)
        self.endcaptureaction.setEnabled(False)

    def activate(self):
        self.pointband.reset(QgsWkbTypes.PointGeometry)
        self.pointband.addPoint(QgsPointXY(0, 0))
        self.canvas.setCursor(self.cursor)

    def deactivate(self):
        """
        Deactive the tool.
        """
        self.clearBand()

    def isZoomTool(self):
        return False

    def isTransient(self):
        return False

    def isEditTool(self):
        return True

    def set_band_color(self, color):
        self.active_color = color
        self.band.setColor(color)
        self.pointband.setColor(color)

    def setEditMode(self, enabled, geom, feature):
        self.reset()
        self.editmode = enabled
        if self.geom != geom:
            self.clearErrors()

        self.geom = geom
        self.feature = feature
        if self.editmode:
            self.set_band_color(self.editcolour)
            self.pointband.setToGeometry(self.toMultiPoint(geom),
                                         self.currentVectorLayer())
            self.pointband.setVisible(True)
            self.band.setToGeometry(geom, self.currentVectorLayer())
        else:
            self.set_band_color(self.startcolour)

        self.endcaptureaction.setEnabled(self.editmode)
        self.endcaptureaction.setEditing(enabled)
        self.captureaction.setEditMode(enabled)

    def toMultiPoint(self, geom):
        points = QgsMultiPoint()
        for count, v in enumerate(geom.vertices()):
            points.addGeometry(v.clone())
        newgeom = QgsGeometry(points)
        return newgeom
コード例 #8
0
class SnapPointTool(QgsMapTool):
    def __init__(self, canvas):
        self.canvas = canvas
        QgsMapTool.__init__(self, canvas)
        self.layer           = None
        self.snapping        = False
        self.onGeometryAdded = None
        self.snapPt          = None
        self.startRotate     = False
        self.tempRubberBand  = None   
        self.vertexmarker    = None        
        self.snapLayer       = []
        self.setCursor(Qt.CrossCursor)

    def canvasReleaseEvent(self, event):
        clickedPt = None
        drawPoint = None
        snapAngle = None
        if event.button() == Qt.LeftButton:
            #als er gesnapt wordt -> bereken rotatie op basis van geklikt punt en snappunt
            if self.snapPt != None:
                mapPt,clickedPt = self.transformCoordinates(event.pos())
                drawPoint = self.toLayerCoordinates(self.layer, self.snapPt)
                snapAngle = clickedPt.azimuth(drawPoint)
                self.stopPointTool()
            #als er niets gesnapt wordt maar geroteerd bereken de rotatie op basis van de 2 punten in temprubberband
            elif self.startRotate:
                mapPt,clickedPt = self.transformCoordinates(event.pos())
                tempGeometry = self.tempRubberBand.asGeometry().asPolyline()
                drawPoint = self.toLayerCoordinates(self.layer, tempGeometry[0])
                snapAngle = drawPoint.azimuth(clickedPt)
                self.tempRubberBand.hide()
                self.stopPointTool()
            else:
            #als aan beide bovenstaande voorwaarden niet wordt voldaan wordt het pictogram gewoon geplaatst en is de hoek 0
                mapPt,drawPoint = self.transformCoordinates(event.pos())
            self.onGeometryAdded(drawPoint, snapAngle)
            self.snapPt = None
        #als de rechtermuisknop wordt gebruikt (1e keer) start het roteren
        if event.button() == Qt.RightButton:
            if not self.startRotate:
                self.start_to_rotate(event)
    
    #reset everything
    def stopPointTool(self):
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None
        if self.vertexmarker:
            self.canvas.scene().removeItem(self.vertexmarker)
            self.vertexmarker = None
        self.startRotate = False
        self.canvas.refresh()

    #indien roteren -> init temprubberband
    def start_to_rotate(self, event):
        mapPt,layerPt = self.transformCoordinates(event.pos())
        color = QColor("black")
        color.setAlphaF(0.78)
        self.tempRubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.tempRubberBand.setWidth(4)
        self.tempRubberBand.setColor(color)
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()
        self.tempRubberBand.addPoint(mapPt) 
        self.startRotate = True
    
    def canvasMoveEvent(self, event):
        mapPt,layerPt = self.transformCoordinates(event.pos())
        #indien er niet geroteerd wordt kan er worden gesnapt op vooraf gedfinieerde lagen
        if not self.startRotate:
            if self.snapping == True:
                self.snapPt = self.snap_to_point(event.pos(), layerPt)
                if self.vertexmarker != None:
                    self.vertexmarker.hide()
                if self.snapPt != None:
                    self.vertexmarker.setCenter(self.snapPt)
                    self.vertexmarker.show()
        else:
        #indien geroteerd wordt - teken de rubberband
            self.tempRubberBand.movePoint(mapPt)
            
    def snap_to_point(self, pos, layerPt):
        snapPoints  = []
        distance    = []
        snapPoint   = None
        val         = 0
        idx         = None
        if self.vertexmarker == None:
            self.vertexmarker    = QgsVertexMarker(self.canvas)
            self.vertexmarker.setColor(QColor(255, 0, 255))
            self.vertexmarker.setIconSize(5)
            self.vertexmarker.setIconType(QgsVertexMarker.ICON_X) # or ICON_CROSS, ICON_X
            self.vertexmarker.setPenWidth(5)
            self.vertexmarker.show()
        #berken snap toleratie en extent (rechthoek waarbinnen gesnapt kan worden)
        tolerance = pow(self.calcTolerance(pos),2)
        extent = self.calcExtent(layerPt, tolerance)
        #haal features op waarop gesnapt kan worden
        request = QgsFeatureRequest()
        request.setFilterRect(extent)
        request.setFlags(QgsFeatureRequest.ExactIntersect)
        for ilayer in self.snapLayer:
            try:
                index = None
                nearestId = None
                ifeature = None
                tuple = None
                #bereken voor elke snap laag de dichtsbijzinde feature
                index = QgsSpatialIndex(ilayer.getFeatures(request))
                nearestId = index.nearestNeighbor(layerPt, 2)[0]
                ifeature = next(ilayer.getFeatures(QgsFeatureRequest(nearestId)))
                #bereken per feature het dichtsbijzijnde lijn segment
                tuple = ifeature.geometry().closestSegmentWithContext(layerPt)
                #als de afstand tot het lijnsegment kleiner is als de tolerantie voeg toe als snappunt
                if tuple[0] != None and tuple[0] < tolerance:
                    distance.append(tuple[0])
                    snapPoints.append(tuple[1])
                else:
                    distance.append(tolerance + 1)
                    snapPoints.append('')             
            except:
                None
        #bereken het dichtsbijzijnde snappunt voor alle snap lagen
        if len(distance) > 0:
            val, idx = min((val, idx) for (idx, val) in enumerate(distance))
        if val <= tolerance and val != 0:
            snapPoint = self.toMapCoordinates(ilayer, snapPoints[idx])
        if snapPoint != None:
            return snapPoint
        else:
            return None
            
    #bereken snap extent
    def calcExtent(self, layerPt, tolerance):
        extent = QgsRectangle(layerPt.x() - tolerance,
                                  layerPt.y() - tolerance,
                                  layerPt.x() + tolerance,
                                  layerPt.y() + tolerance)
        return extent
                                  
    #bereken de tolerantie
    def calcTolerance(self, pos):
        pt1 = QPoint(pos.x(), pos.y())
        pt2 = QPoint(pos.x() + 20, pos.y())
        mapPt1,layerPt1 = self.transformCoordinates(pt1)
        mapPt2,layerPt2 = self.transformCoordinates(pt2)
        tolerance = layerPt2.x() - layerPt1.x()
        return tolerance
    
    #transormeer de coordinaten naar canvas en laag punten
    def transformCoordinates(self, canvasPt):
        return (self.toMapCoordinates(canvasPt),
                self.toLayerCoordinates(self.layer, canvasPt))
コード例 #9
0
class MovePointTool(QgsMapToolIdentify):
    def __init__(self, canvas, layer):
        QgsMapToolIdentify.__init__(self, canvas)
        self.canvas = canvas
        self.setCursor(Qt.CrossCursor)
        self.layer = layer
        self.dragging = False
        self.fields = None
        self.onMoved = None
        self.point = None
        self.startRotate = False
        self.tempRubberBand = None
        self.vertexMarker = None

    def canvasPressEvent(self, event):
        #op welke feature wordt er geklikt
        found_features = self.identify(event.x(), event.y(),
                                       self.TopDownStopAtFirst,
                                       self.VectorLayer)
        #check type van de laag, het werkt alleen voor point layers
        type_check = check_layer_type(found_features[0].mLayer)
        self.idlayer = found_features[0].mLayer
        feature = found_features[0].mFeature
        self.fid = feature.id()
        #indien de linkesmuisnop wordt geklikt, het betreft een point layer en er is een feature gevonden -> verslepen
        if event.button() == Qt.LeftButton:
            if (len(found_features) > 0 and type_check == "Point"):
                self.dragging = True
                #init drag point
                self.vertexmarker = QgsVertexMarker(self.canvas)
                self.vertexmarker.setColor(QColor(0, 0, 255))
                self.vertexmarker.setIconSize(5)
                self.vertexmarker.setIconType(QgsVertexMarker.ICON_X)
                self.vertexmarker.setPenWidth(3)
                self.vertexmarker.show()
            #anders doe niets
            else:
                self.dragging = False
                self.fid = None
        #indien de rechtermuisknop wordt geklikt -> roteren
        if event.button() == Qt.RightButton:
            if (len(found_features) > 0 and type_check == "Point"):
                if not self.startRotate:
                    self.start_to_rotate(event)
            else:
                self.startRotate = False
                self.fid = None

    def start_to_rotate(self, event):
        mapPt, layerPt = self.transformCoordinates(event.pos())
        #init tempRubberband indicating rotation
        color = QColor("black")
        color.setAlphaF(0.78)
        self.tempRubberBand = QgsRubberBand(self.canvas,
                                            QgsWkbTypes.LineGeometry)
        self.tempRubberBand.setWidth(4)
        self.tempRubberBand.setColor(color)
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()
        self.tempRubberBand.addPoint(mapPt)
        self.startRotate = True

    def canvasMoveEvent(self, event):
        #als verslepen -> verplaats de indicatieve marker
        if self.dragging:
            mapPt, layerPt = self.transformCoordinates(event.pos())
            self.point = layerPt
            self.vertexmarker.setCenter(mapPt)
        #als roteren -> teken de tempRubberband als lijn
        if self.startRotate:
            mapPt, layerPt = self.transformCoordinates(event.pos())
            self.tempRubberBand.movePoint(mapPt)

    #transformeer muis lokatie naar canvas punt en laag punt
    def transformCoordinates(self, canvasPt):
        return (self.toMapCoordinates(canvasPt),
                self.toLayerCoordinates(self.layer, canvasPt))

    def canvasReleaseEvent(self, event):
        #als verslepen -> pas de geometry van de betreffende feature aan
        if self.dragging:
            self.vertexmarker.hide()
            geom = QgsGeometry.fromPointXY(self.point)
            self.idlayer.dataProvider().changeGeometryValues({self.fid: geom})
            self.idlayer.commitChanges()
            self.idlayer.triggerRepaint()
            self.stop_moveTool()
        #als roteren -> pas de rotatie van de betreffende feature aan op basis van de loodrechte lijn tussen muisklik en bestaand punt
        if self.startRotate:
            self.tempRubberBand.hide()
            mapPt, clickedPt = self.transformCoordinates(event.pos())
            tempGeometry = self.tempRubberBand.asGeometry().asPolyline()
            drawPoint = self.toLayerCoordinates(self.layer, tempGeometry[0])
            field = self.idlayer.fields().indexOf("rotatie")
            rotation = drawPoint.azimuth(clickedPt)
            attrs = {field: rotation}
            self.idlayer.dataProvider().changeAttributeValues(
                {self.fid: attrs})
            self.idlayer.commitChanges()
            self.idlayer.triggerRepaint()
            self.stop_moveTool()

    #reset rubberbands
    def stop_moveTool(self):
        if self.tempRubberBand != None:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None
        if self.vertexMarker != None:
            self.canvas.scene().removeItem(self.vertexMarker)
            self.vertexMarker = None
        self.fid = None
        self.startRotate = False
        self.dragging = False
        self.onMoved()
        self.canvas.refresh()