Esempio n. 1
0
class ProfileTool(QgsMapTool):
    """ Narzędzie do tworzenia krzywej """

    def __init__(self, parent):
        canvas = iface.mapCanvas()
        super(ProfileTool, self).__init__(canvas)
        
        set_cursor(self)
        self.editing = False
        self.parent = parent
        self.task = None

        self.tempGeom = QgsRubberBand(canvas, QgsWkbTypes.LineGeometry)
        self.tempGeom.setColor(QColor('red'))
        self.tempGeom.setWidth(2)

        self.tempLine = QgsRubberBand(canvas, QgsWkbTypes.LineGeometry)
        self.tempLine.setColor(QColor('red'))
        self.tempLine.setWidth(2)
        self.tempLine.setLineStyle(Qt.DotLine)

    def keyPressEvent(self, e):
        if e.key() == Qt.Key_Delete:
            pointsCount = self.tempLine.numberOfVertices() 
            if pointsCount > 2 and self.editing:
                self.tempGeom.removePoint(pointsCount-2)
                self.tempLine.removePoint(pointsCount-2)
                len_m = self.calculateDistance(self.tempGeom.asGeometry())
                self.parent.dsbLineLength.setValue(len_m)
                if self.tempGeom.numberOfVertices() == 1:
                    self.tempGeom.reset(QgsWkbTypes.LineGeometry)
                    self.tempLine.reset(QgsWkbTypes.LineGeometry)
                    self.parent.dsbLineLength.setValue(0)           
            else:
                self.reset()
        elif e.key() == Qt.Key_Escape:
            self.reset()

    def canvasMoveEvent(self, e):
        #Poruszanie" wierzchołkiem linii tymczasowej zgodnie z ruchem myszki
        if self.tempGeom.numberOfVertices()>1:
            point = e.snapPoint()
            self.tempLine.movePoint(point)

    def canvasReleaseEvent(self, e):
        point = e.snapPoint()
        if self.task:
            self.parent.on_message.emit('Trwa genrowanie profilu. Aby wygenerować następny poczekaj na pobranie danych', Qgis.Warning, 4)
            return
        if e.button() == int(Qt.LeftButton):
            #Dodawanie kolejnych wierzchołków
            if not self.editing:
                #Nowy obiekt, pierwszy wierzchołek
                self.tempLine.reset(QgsWkbTypes.LineGeometry)
                self.tempGeom.reset(QgsWkbTypes.LineGeometry)
                self.editing = True
            self.tempGeom.addPoint(point)
            self.tempLine.addPoint(point)
            len_m = self.calculateDistance(self.tempGeom.asGeometry())
            self.parent.dsbLineLength.setValue(len_m)
        elif e.button() == int(Qt.RightButton):
            if self.tempGeom.numberOfVertices() < 2:
                return
            #Zakończenie rysowania obiektu
            self.tempLine.reset()
            self.editing = False
            geometry = self.tempGeom.asGeometry()
            errors = geometry.validateGeometry()
            if errors:
            #Niepoprawna geometria                    
                for error in errors:
                    if self.tempGeom.numberOfVertices() > 2:
                        self.parent.on_message.emit('Niepoprawna geometria', Qgis.Critical, 4)
                    self.tempGeom.reset()
                return
            self.get_interval()

    def get_interval(self):
        interval, ok = QInputDialog.getDouble(self.parent, 'Podaj interwał', 'Interwał [m]:')
        if not ok:
            self.reset()
            return
        geom = self.tempGeom.asGeometry()
        
        activeCrs = QgsProject.instance().crs().authid()
        fromCrs = QgsCoordinateReferenceSystem(activeCrs)
        toCrs = QgsCoordinateReferenceSystem(2180)
        transformation = QgsCoordinateTransform(fromCrs, toCrs, QgsProject.instance())
        geom.transform(transformation)
        
        meters_len = geom.length()
        if meters_len <= interval:
            self.parent.on_message.emit('Długość linii krótsza lub równa podanemu interwałowi', Qgis.Critical, 5)
            self.reset()
            return
        try:
            num_points = meters_len/interval
        except ZeroDivisionError:
            self.parent.on_message.emit('Interwał musi być większy od 0', Qgis.Critical, 4)
            self.reset()
            return
        points_on_line = []
        max_interval = 0
        intervals = []
        for i in range(int(num_points)+1):
            pt = geom.interpolate(float(max_interval))
            points_on_line.append(pt)
            intervals.append(max_interval)
            max_interval += interval
        data = {'points':points_on_line, 'intervals':intervals}
        self.task = QgsTask.fromFunction('Pobieranie wysokości dla przekroju...', self.generateProfileFromPoints, data=data)
        QgsApplication.taskManager().addTask(self.task)

    def generateProfileFromPoints(self, task: QgsTask, data):
        points_on_line = data.get('points')
        intervals = data.get('intervals')
        heights = []
        total = 100/len(points_on_line)
        for idx, pt in enumerate(points_on_line):
            height = self.parent.getHeight(pt, special=True)
            heights.append(height)
        try:
            self.task.setProgress( idx*total )
        except AttributeError as e:
            pass
        if heights and intervals:   
            self.fillTable(heights, intervals)
        self.parent.on_message.emit('Pomyślnie wygenerowano profil', Qgis.Success, 4)
        self.task = None

    def fillTable(self, heights, intervals):
        for idx, interval in enumerate(intervals):
            self.parent.twData.setRowCount(idx+1)
            self.parent.twData.setItem(idx, 0, QTableWidgetItem(f'{interval}'))
            self.parent.twData.setItem(idx, 1, QTableWidgetItem(heights[idx]))

    def calculateDistance(self, geometry):
        distanceArea = QgsDistanceArea()
        distanceArea.setEllipsoid('GRS80')
        distanceArea.setSourceCrs(QgsProject.instance().crs(), QgsCoordinateTransformContext())
        length = distanceArea.measureLength(geometry)
        result = distanceArea.convertLengthMeasurement(length, QgsUnitTypes.DistanceMeters)
        return result
        
    def reset(self):
        self.tempLine.reset(QgsWkbTypes.LineGeometry)
        self.tempGeom.reset(QgsWkbTypes.LineGeometry)
        self.parent.dsbLineLength.setValue(0)
        self.parent.twData.setRowCount(0)

    def deactivate(self):
        self.reset()
        self.parent.dsbLineLength.setEnabled(False) 
        self.button().setChecked(False)
Esempio n. 2
0
class VideoWidget(QVideoWidget):

    def __init__(self, parent=None):
        ''' Constructor '''
        super().__init__(parent)
        self.surface = VideoWidgetSurface(self)
        self.setAttribute(Qt.WA_OpaquePaintEvent)

        self.Tracking_Video_RubberBand = QRubberBand(QRubberBand.Rectangle, self)
        self.Censure_RubberBand = QRubberBand(QRubberBand.Rectangle, self)

        color_blue = QColor(Qt.blue)
        color_black = QColor(Qt.black)
        color_amber = QColor(252, 215, 108)

        pal_blue = QPalette()
        pal_blue.setBrush(QPalette.Highlight, QBrush(color_blue))
        self.Tracking_Video_RubberBand.setPalette(pal_blue)

        pal_black = QPalette()
        pal_black.setBrush(QPalette.Highlight, QBrush(color_black))
        self.Censure_RubberBand.setPalette(pal_black)

        self._interaction = InteractionState()
        self._filterSatate = FilterState()

        self._isinit = False
        self._MGRS = False
        self.gt = None

        self.drawCesure = []
        self.poly_coordinates, self.drawPtPos, self.drawLines, self.drawMeasureDistance, self.drawMeasureArea, self.drawPolygon = [], [], [], [], [], []
        # Draw Polygon Canvas Rubberband
        self.poly_Canvas_RubberBand = QgsRubberBand(
            iface.mapCanvas(), True)  # Polygon type
        # set rubber band style
        self.poly_Canvas_RubberBand.setColor(color_amber)
        self.poly_Canvas_RubberBand.setWidth(3)

        # Tracking Canvas Rubberband
        self.Track_Canvas_RubberBand = QgsRubberBand(
            iface.mapCanvas(), QgsWkbTypes.LineGeometry)
        # set rubber band style
        self.Track_Canvas_RubberBand.setColor(color_blue)
        self.Track_Canvas_RubberBand.setWidth(5)

        # Cursor Canvas Rubberband
        self.Cursor_Canvas_RubberBand = QgsRubberBand(
            iface.mapCanvas(), QgsWkbTypes.PointGeometry)
        self.Cursor_Canvas_RubberBand.setWidth(4)
        self.Cursor_Canvas_RubberBand.setColor(QColor(255, 100, 100, 250))
        self.Cursor_Canvas_RubberBand.setIcon(QgsRubberBand.ICON_FULL_DIAMOND)

        self.parent = parent.parent()

        palette = self.palette()
        palette.setColor(QPalette.Background, Qt.transparent)
        self.setPalette(palette)

        self.origin, self.dragPos = QPoint(), QPoint()
        self.tapTimer = QBasicTimer()
        self.brush = QBrush(color_black)
        self.blue_Pen = QPen(color_blue, 3)

    def removeLastLine(self):
        ''' Remove Last Line Objects '''
        if self.drawLines:
            try:
                if self.drawLines[-1][3] == "mouseMoveEvent":
                    del self.drawLines[-1]  # Remove mouseMoveEvent element
            except Exception:
                None
            for pt in range(len(self.drawLines) - 1, -1, -1):
                del self.drawLines[pt]
                try:
                    if self.drawLines[pt - 1][0] is None:
                        break
                except Exception:
                    None
            self.UpdateSurface()
            AddDrawLineOnMap(self.drawLines)
        return

    def removeLastSegmentLine(self):
        ''' Remove Last Segment Line Objects '''
        try:
            if self.drawLines[-1][3] == "mouseMoveEvent":
                del self.drawLines[-1]  # Remove mouseMoveEvent element
        except Exception:
            None
        if self.drawLines:
            if self.drawLines[-1][0] is None:
                del self.drawLines[-1]

            del self.drawLines[-1]
            self.UpdateSurface()
            AddDrawLineOnMap(self.drawLines)
        return

    def removeAllLines(self):
        ''' Resets Line List '''
        if self.drawLines:
            self.drawLines = []
            self.UpdateSurface()
            # Clear all Layer
            RemoveAllDrawLineOnMap()

    def ResetDrawMeasureDistance(self):
        ''' Resets Measure Distance List '''
        self.drawMeasureDistance = []

    def ResetDrawMeasureArea(self):
        ''' Resets Measure Area List '''
        self.drawMeasureArea = []

    def removeAllCensure(self):
        ''' Remove All Censure Objects '''
        if self.drawCesure:
            self.drawCesure = []
            self.UpdateSurface()

    def removeLastCensured(self):
        ''' Remove Last Censure Objects '''
        if self.drawCesure:
            del self.drawCesure[-1]
            self.UpdateSurface()

    def removeLastPoint(self):
        ''' Remove All Point Drawer Objects '''
        if self.drawPtPos:
            del self.drawPtPos[-1]
            self.UpdateSurface()
            RemoveLastDrawPointOnMap()
        return

    def removeAllPoint(self):
        ''' Remove All Point Drawer Objects '''
        if self.drawPtPos:
            self.drawPtPos = []
            self.UpdateSurface()
            # Clear all Layer
            RemoveAllDrawPointOnMap()
        return

    def removeAllPolygon(self):
        ''' Remove All Polygon Drawer Objects '''
        if self.drawPolygon:
            self.drawPolygon = []
            self.UpdateSurface()
            # Clear all Layer
            RemoveAllDrawPolygonOnMap()

    def removeLastPolygon(self):
        ''' Remove Last Polygon Drawer Objects '''
        if self.drawPolygon:
            try:
                if self.drawPolygon[-1][3] == "mouseMoveEvent":
                    del self.drawPolygon[-1]  # Remove mouseMoveEvent element
            except Exception:
                None
            for pt in range(len(self.drawPolygon) - 1, -1, -1):
                del self.drawPolygon[pt]
                try:
                    if self.drawPolygon[pt - 1][0] is None:
                        break
                except Exception:
                    None

            self.UpdateSurface()
            # remove last index layer
            RemoveLastDrawPolygonOnMap()

    def keyPressEvent(self, event):
        '''Exit fullscreen
        :type event: QKeyEvent
        :param event:
        :return:
        '''
        if event.key() == Qt.Key_Escape and self.isFullScreen():
            self.setFullScreen(False)
            event.accept()
        elif event.key() == Qt.Key_Enter and event.modifiers() & Qt.Key_Alt:
            self.setFullScreen(not self.isFullScreen())
            event.accept()
        else:
            super().keyPressEvent(event)

    def mouseDoubleClickEvent(self, event):
        """
         Mouse double click event
        :type event: QMouseEvent
        :param event:
        :return:
        """
        if GetImageHeight() == 0:
            return

        if(not vut.IsPointOnScreen(event.x(), event.y(), self.surface)):
            return

        if self.gt is not None and self._interaction.lineDrawer:
            self.drawLines.append([None, None, None])
            return

        if self.gt is not None and self._interaction.measureDistance:
            self.drawMeasureDistance.append([None, None, None])
            return

        if self.gt is not None and self._interaction.measureArea:
            self.drawMeasureArea.append([None, None, None])
            return

        if self.gt is not None and self._interaction.polygonDrawer:

            ok = AddDrawPolygonOnMap(self.poly_coordinates)
            # Prevent invalid geometry (Polygon with 2 points)
            if not ok:
                return

            self.drawPolygon.append([None, None, None])

            # Empty RubberBand
            for _ in range(self.poly_Canvas_RubberBand.numberOfVertices()):
                self.poly_Canvas_RubberBand.removeLastPoint()
            # Empty List
            self.poly_coordinates = []
            return

        self.UpdateSurface()
        self.setFullScreen(not self.isFullScreen())
        event.accept()

    def videoSurface(self):
        ''' Return video Surface '''
        return self.surface

    def UpdateSurface(self):
        ''' Update Video Surface only is is stopped or paused '''
        if self.parent.playerState in (QMediaPlayer.StoppedState,
                                       QMediaPlayer.PausedState):
            self.update()
        QApplication.processEvents()

    def sizeHint(self):
        ''' This property holds the recommended size for the widget '''
        return self.surface.surfaceFormat().sizeHint()

    def currentFrame(self):
        ''' Return current frame QImage '''
        return self.surface.image

    def SetInvertColor(self, value):
        '''Set Invert color filter
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.invertColorFilter = value

    def SetObjectTracking(self, value):
        '''Set Object Tracking
        @type value: bool
        @param value:
        @return:
        '''
        self._interaction.objectTracking = value

    def SetMeasureDistance(self, value):
        '''Set measure Distance
        @type value: bool
        @param value:
        @return:
        '''
        self._interaction.measureDistance = value

    def SetMeasureArea(self, value):
        '''Set measure Area
        @type value: bool
        @param value:
        @return:
        '''
        self._interaction.measureArea = value

    def SetHandDraw(self, value):
        '''Set Hand Draw
        @type value: bool
        @param value:
        @return:
        '''
        self._interaction.HandDraw = value

    def SetCensure(self, value):
        '''Set Censure Video Parts
        @type value: bool
        @param value:
        @return:
        '''
        self._interaction.censure = value

    def SetMGRS(self, value):
        '''Set MGRS Cursor Coordinates
        @type value: bool
        @param value:
        @return:
        '''
        self._MGRS = value

    def SetGray(self, value):
        '''Set gray scale
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.grayColorFilter = value

    def SetMirrorH(self, value):
        '''Set Horizontal Mirror
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.MirroredHFilter = value

    def SetNDVI(self, value):
        '''Set NDVI
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.NDVI = value

    def SetEdgeDetection(self, value):
        '''Set Canny Edge filter
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.edgeDetectionFilter = value

    def SetAutoContrastFilter(self, value):
        '''Set Automatic Contrast filter
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.contrastFilter = value

    def SetMonoFilter(self, value):
        '''Set mono filter
        @type value: bool
        @param value:
        @return:
        '''
        self._filterSatate.monoFilter = value

    def RestoreFilters(self):
        ''' Remove and restore all video filters '''
        self._filterSatate.clear()

    def RestoreDrawer(self):
        ''' Remove and restore all Drawer Options '''
        self._interaction.clear()
        # Magnifier Glass
        self.dragPos = QPoint()
        self.tapTimer.stop()

    def RemoveCanvasRubberbands(self):
        ''' Remove Canvas Rubberbands '''
        self.poly_Canvas_RubberBand.reset()
        self.Track_Canvas_RubberBand.reset(QgsWkbTypes.LineGeometry)
        self.Cursor_Canvas_RubberBand.reset(QgsWkbTypes.PointGeometry)

    def paintEvent(self, event):
        """
        @type event: QPaintEvent
        @param event:
        @return:
        """
        if not self.surface.isActive():
            return

        self.painter = QPainter(self)
        self.painter.setRenderHint(QPainter.HighQualityAntialiasing)

        region = event.region()
        self.painter.fillRect(region.boundingRect(), self.brush)  # Background painter color

        try:
            self.surface.paint(self.painter)
            SetImageSize(self.currentFrame().width(),
                         self.currentFrame().height())
        except Exception:
            None

        # Prevent draw on video if not started or finished
        if self.parent.player.position() == 0:
            self.painter.end()
            return

        self.gt = GetGCPGeoTransform()

        # Draw On Video
        draw.drawOnVideo(self.drawPtPos, self.drawLines, self.drawPolygon,
                         self.drawMeasureDistance, self.drawMeasureArea, self.drawCesure, self.painter, self.surface, self.gt)

        # Draw On Video Object tracking test
        if self._interaction.objectTracking and self._isinit:
            frame = convertQImageToMat(self.currentFrame())
            offset = self.surface.videoRect()
            # Update tracker
            result = resize(frame, (offset.width(), offset.height()))
            ok, bbox = self.tracker.update(result)
            # Draw bounding box
            if ok:
                # check negative values
                x = bbox[0] + offset.x()
                y = bbox[1] + offset.y()
                if vut.IsPointOnScreen(x, y, self.surface):
                    self.painter.setPen(self.blue_Pen)
                    self.painter.drawRect(x, y, bbox[2], bbox[3])

                    # Get Track object center
                    xc = x + (bbox[2] / 2)
                    yc = y + (bbox[3] / 2)
                    p = QPoint(xc, yc)
                    Longitude, Latitude, _ = vut.GetPointCommonCoords(
                        p, self.surface)
                    # Draw Rubber Band on canvas
                    self.Track_Canvas_RubberBand.addPoint(QgsPointXY(Longitude, Latitude))

            else:
                self._isinit = False
                del self.tracker

        # Magnifier Glass
        if self._interaction.magnifier and not self.dragPos.isNull():
            draw.drawMagnifierOnVideo(self, self.dragPos, self.currentFrame(), self.painter)

        # Stamp On Video
        if self._interaction.stamp:
            draw.drawStampOnVideo(self, self.painter)

        self.painter.end()
        return

    def resizeEvent(self, _):
        """
        @type _: QMouseEvent
        @param _:
        @return:
        """
        self.surface.updateVideoRect()
        self.update()
        # Magnifier Glass
        if self._interaction.magnifier and not self.dragPos.isNull():
            draw.drawMagnifierOnVideo(self, self.dragPos, self.currentFrame(), self.painter)
        # QApplication.processEvents()

    def AddMoveEventValue(self, values, Longitude, Latitude, Altitude):
        """
        Remove and Add move value for fluid drawing

        @type values: list
        @param values: Points list

        @type Longitude: float
        @param Longitude: Longitude value

        @type Latitude: float
        @param Latitude: Latitude value

        @type Altitude: float
        @param Altitude: Altitude value

        """
        for idx, pt in enumerate(values):
            if pt[-1] == "mouseMoveEvent":
                del values[idx]
        values.append([Longitude, Latitude, Altitude, "mouseMoveEvent"])

        self.UpdateSurface()

    def mouseMoveEvent(self, event):
        """
        @type event: QMouseEvent
        @param event:
        @return:
        """
        # Magnifier mouseMoveEvent
        # Magnifier can move on black screen for show image borders
        if self._interaction.magnifier:
            if event.buttons():
                self.dragPos = event.pos()
                self.UpdateSurface()

        # check if the point  is on picture (not in black borders)
        if(not vut.IsPointOnScreen(event.x(), event.y(), self.surface)):
            self.setCursor(QCursor(Qt.ArrowCursor))
            self.Cursor_Canvas_RubberBand.reset(QgsWkbTypes.PointGeometry)
            return

        # Prevent draw on video if not started or finished
        if self.parent.player.position() == 0:
            return

        # Mouser cursor drawing
        if self._interaction.pointDrawer or self._interaction.polygonDrawer or self._interaction.lineDrawer or self._interaction.measureDistance or self._interaction.measureArea or self._interaction.censure or self._interaction.objectTracking:
            self.setCursor(QCursor(Qt.CrossCursor))

        # Cursor Coordinates
        if self.gt is not None:

            Longitude, Latitude, Altitude = vut.GetPointCommonCoords(
                event, self.surface)

            tr = QgsCoordinateTransform( QgsCoordinateReferenceSystem( 'EPSG:4326' ), iface.mapCanvas().mapSettings().destinationCrs(), QgsProject.instance().transformContext() )
            mapPt = tr.transform( QgsPointXY(Longitude, Latitude) )
            
            vertices = self.Cursor_Canvas_RubberBand.numberOfVertices()
            if vertices > 0:
                self.Cursor_Canvas_RubberBand.removePoint(0, True, 0)
                self.Cursor_Canvas_RubberBand.movePoint( mapPt, 0)
            else:
                self.Cursor_Canvas_RubberBand.addPoint( mapPt )

            if self._MGRS:
                try:
                    mgrsCoords = mgrs.toMgrs(Latitude, Longitude)
                except Exception:
                    mgrsCoords = ""

                txt = "<span style='font-size:9pt; font-weight:normal;'>" + \
                    ("%s" % mgrsCoords) + "</span>"

            else:

                txt = "<span style='font-size:10pt; font-weight:bold;'>Lon : </span>"
                txt += "<span style='font-size:9pt; font-weight:normal;'>" + \
                    ("%.3f" % Longitude) + "</span>"
                txt += "<span style='font-size:10pt; font-weight:bold;'> Lat : </span>"
                txt += "<span style='font-size:9pt; font-weight:normal;'>" + \
                    ("%.3f" % Latitude) + "</span>"

                if hasElevationModel():
                    txt += "<span style='font-size:10pt; font-weight:bold;'> Alt : </span>"
                    txt += "<span style='font-size:9pt; font-weight:normal;'>" + \
                        ("%.0f" % Altitude) + "</span>"
                else:
                    txt += "<span style='font-size:10pt; font-weight:bold;'> Alt : </span>"
                    txt += "<span style='font-size:9pt; font-weight:normal;'>-</span>"

            self.parent.lb_cursor_coord.setText(txt)

            # Polygon drawer mouseMoveEvent
            if self._interaction.polygonDrawer:
                self.AddMoveEventValue(self.drawPolygon, Longitude, Latitude, Altitude)

            # Line drawer mouseMoveEvent
            if self._interaction.lineDrawer:
                self.AddMoveEventValue(self.drawLines, Longitude, Latitude, Altitude)

            # Measure Distance drawer mouseMoveEvent
            if self._interaction.measureDistance and self.drawMeasureDistance:
                self.AddMoveEventValue(self.drawMeasureDistance, Longitude, Latitude, Altitude)

            # Measure Area drawer mouseMoveEvent
            if self._interaction.measureArea and self.drawMeasureArea:
                self.AddMoveEventValue(self.drawMeasureArea, Longitude, Latitude, Altitude)

        else:
            self.parent.lb_cursor_coord.setText("<span style='font-size:10pt; font-weight:bold;'>Lon :</span>" +
                                                "<span style='font-size:9pt; font-weight:normal;'>-</span>" +
                                                "<span style='font-size:10pt; font-weight:bold;'> Lat :</span>" +
                                                "<span style='font-size:9pt; font-weight:normal;'>-</span>" +
                                                "<span style='font-size:10pt; font-weight:bold;'> Alt :</span>" +
                                                "<span style='font-size:9pt; font-weight:normal;'>-</span>")

        if not event.buttons():
            return

        # Object tracking rubberband
        if not self.Tracking_Video_RubberBand.isHidden():
            self.Tracking_Video_RubberBand.setGeometry(
                QRect(self.origin, event.pos()).normalized())

        # Censure rubberband
        if not self.Censure_RubberBand.isHidden():
            self.Censure_RubberBand.setGeometry(
                QRect(self.origin, event.pos()).normalized())

    def timerEvent(self, _):
        """ Time Event (Magnifier method)"""
        if not self._interaction.magnifier:
            self.activateMagnifier()

    def mousePressEvent(self, event):
        """
        @type event: QMouseEvent
        @param event:
        @return:
        """
        if GetImageHeight() == 0:
            return

        # Prevent draw on video if not started or finished
        if self.parent.player.position() == 0:
            return

        if event.button() == Qt.LeftButton:

            # Magnifier Glass
            if self._interaction.magnifier:
                self.dragPos = event.pos()
                self.tapTimer.stop()
                self.tapTimer.start(10, self)

            if(not vut.IsPointOnScreen(event.x(), event.y(), self.surface)):
                return

            # point drawer
            if self.gt is not None and self._interaction.pointDrawer:
                Longitude, Latitude, Altitude = vut.GetPointCommonCoords(
                    event, self.surface)

                pointIndex = len(self.drawPtPos) + 1
                AddDrawPointOnMap(pointIndex, Longitude,
                                  Latitude, Altitude)

                self.drawPtPos.append([Longitude, Latitude, Altitude])

            # polygon drawer
            if self.gt is not None and self._interaction.polygonDrawer:
                Longitude, Latitude, Altitude = vut.GetPointCommonCoords(
                    event, self.surface)
                self.poly_Canvas_RubberBand.addPoint(QgsPointXY(Longitude, Latitude))
                self.poly_coordinates.extend(QgsPointXY(Longitude, Latitude))
                self.drawPolygon.append([Longitude, Latitude, Altitude])

            # line drawer
            if self.gt is not None and self._interaction.lineDrawer:
                Longitude, Latitude, Altitude = vut.GetPointCommonCoords(
                    event, self.surface)

                self.drawLines.append([Longitude, Latitude, Altitude])

                AddDrawLineOnMap(self.drawLines)

            self.origin = event.pos()
            # Object Tracking Interaction
            if self._interaction.objectTracking:
                self.Tracking_Video_RubberBand.setGeometry(
                    QRect(self.origin, QSize()))
                self.Tracking_Video_RubberBand.show()

            # Censure Interaction
            if self._interaction.censure:
                self.Censure_RubberBand.setGeometry(
                    QRect(self.origin, QSize()))
                self.Censure_RubberBand.show()

            # Measure Distance drawer
            if self.gt is not None and self._interaction.measureDistance:
                Longitude, Latitude, Altitude = vut.GetPointCommonCoords(
                    event, self.surface)
                self.drawMeasureDistance.append([Longitude, Latitude, Altitude])

            # Measure Distance drawer
            if self.gt is not None and self._interaction.measureArea:
                Longitude, Latitude, Altitude = vut.GetPointCommonCoords(
                    event, self.surface)
                self.drawMeasureArea.append([Longitude, Latitude, Altitude])

            # if not called, the paint event is not triggered.
            self.UpdateSurface()

    def activateMagnifier(self):
        """ Activate Magnifier Glass """
        self.tapTimer.stop()
        self.UpdateSurface()

    def SetMagnifier(self, value):
        """Set Magnifier Glass
        @type value: bool
        @param value:
        """
        self._interaction.magnifier = value
        # We avoid that the second time we activate the tool, save the previous position.
        # Always keep the same behavior of the tool
        if not value:
            self.dragPos = QPoint()
            self.tapTimer.stop()

    def SetStamp(self, value):
        """Set Stamp
        @type value: bool
        @param value:
        """
        self._interaction.stamp = value

    def SetPointDrawer(self, value):
        """Set Point Drawer
        @type value: bool
        @param value:
        """
        self._interaction.pointDrawer = value

    def SetLineDrawer(self, value):
        """Set Line Drawer
        @type value: bool
        @param value:
        """
        self._interaction.lineDrawer = value

    def SetPolygonDrawer(self, value):
        """Set Polygon Drawer
        @type value: bool
        @param value:
        """
        self._interaction.polygonDrawer = value

    def mouseReleaseEvent(self, _):
        """
        @type event: QMouseEvent
        @param event:
        @return:
        """
        # Prevent draw on video if not started or finished
        if self.parent.player.position() == 0:
            return

        # Censure Draw Interaction
        if self._interaction.censure:
            geom = self.Censure_RubberBand.geometry()
            self.Censure_RubberBand.hide()
            self.drawCesure.append([geom])

        # Object Tracking Interaction
        if self._interaction.objectTracking:
            geom = self.Tracking_Video_RubberBand.geometry()
            offset = self.surface.videoRect()
            bbox = (geom.x() - offset.x(), geom.y() - offset.y(), geom.width(), geom.height())
            img = self.currentFrame()
            frame = convertQImageToMat(img)
            # Remo rubberband on canvas and video
            self.Tracking_Video_RubberBand.hide()
            self.Track_Canvas_RubberBand.reset()

            self.tracker = TrackerMOSSE_create()
            result = resize(frame, (offset.width(), offset.height()))

            try:
                ok = self.tracker.init(result, bbox)
            except Exception:
                return
            if ok:
                self._isinit = True
                # Get Traker center
                xc = bbox[0] + (geom.width() / 2)
                yc = bbox[1] + (geom.height() / 2)
                p = QPoint(xc, yc)
                Longitude, Latitude, _ = vut.GetPointCommonCoords(
                    p, self.surface)
                # Draw Rubber Band on canvas
                self.Track_Canvas_RubberBand.addPoint(QgsPointXY(Longitude, Latitude))
            else:
                self._isinit = False

    def leaveEvent(self, _):
        """
        @type _: QEvent
        @param _:
        @return:
        """
        # Remove coordinates label value
        self.parent.lb_cursor_coord.setText("")
        # Change cursor
        self.setCursor(QCursor(Qt.ArrowCursor))
        # Reset mouse rubberband
        self.Cursor_Canvas_RubberBand.reset(QgsWkbTypes.PointGeometry)
class SplitMapTool(QgsMapToolEdit):
    def __init__(self, canvas, layer, actionMoveVertices, actionAddVertices,
                 actionRemoveVertices, actionMoveSegment, actionLineClose,
                 actionLineOpen, actionMoveLine):
        super(SplitMapTool, self).__init__(canvas)
        self.canvas = canvas
        self.scene = canvas.scene()
        self.layer = layer
        self.actionMoveVertices = actionMoveVertices
        self.actionAddVertices = actionAddVertices
        self.actionRemoveVertices = actionRemoveVertices
        self.actionMoveSegment = actionMoveSegment
        self.actionLineClose = actionLineClose
        self.actionLineOpen = actionLineOpen
        self.actionMoveLine = actionMoveLine
        self.initialize()

    def initialize(self):
        try:
            self.canvas.renderStarting.disconnect(self.mapCanvasChanged)
        except:
            pass
        self.canvas.renderStarting.connect(self.mapCanvasChanged)
        try:
            self.layer.editingStopped.disconnect(self.stopCapturing)
        except:
            pass
        self.layer.editingStopped.connect(self.stopCapturing)

        self.selectedFeatures = self.layer.selectedFeatures()
        self.rubberBand = None
        self.tempRubberBand = None
        self.capturedPoints = []
        self.capturing = False
        self.setCursor(Qt.CrossCursor)
        self.proj = QgsProject.instance()
        self.labels = []
        self.vertices = []
        self.calculator = QgsDistanceArea()
        self.calculator.setSourceCrs(self.layer.dataProvider().crs(),
                                     QgsProject.instance().transformContext())
        self.calculator.setEllipsoid(
            self.layer.dataProvider().crs().ellipsoidAcronym())
        self.drawingLine = False
        self.movingVertices = False
        self.addingVertices = False
        self.removingVertices = False
        self.movingSegment = False
        self.movingLine = False
        self.showingVertices = False
        self.movingVertex = -1
        self.movingSegm = -1
        self.movingLineInitialPoint = None
        self.lineClosed = False

    def restoreAction(self):
        self.addingVertices = False
        self.removingVertices = False
        self.movingVertices = False
        self.movingSegment = False
        self.movingLine = False
        self.showingVertices = False
        self.drawingLine = True
        self.movingVertex = -1
        self.movingLineInitialPoint = None
        self.deleteVertices()
        self.redrawRubberBand()
        self.redrawTempRubberBand()
        self.canvas.scene().addItem(self.tempRubberBand)
        self.redrawActions()

    def mapCanvasChanged(self):
        self.redrawAreas()
        if self.showingVertices:
            self.redrawVertices()

    def canvasMoveEvent(self, event):
        if self.drawingLine and not self.lineClosed:
            if self.tempRubberBand != None and self.capturing:
                mapPoint = self.toMapCoordinates(event.pos())
                self.tempRubberBand.movePoint(mapPoint)
                self.redrawAreas(event.pos())

        if self.movingVertices and self.movingVertex >= 0:
            layerPoint = self.toLayerCoordinates(self.layer, event.pos())
            self.capturedPoints[self.movingVertex] = layerPoint

            if self.lineClosed and self.movingVertex == 0:
                self.capturedPoints[len(self.capturedPoints) - 1] = layerPoint

            self.redrawRubberBand()
            self.redrawVertices()
            self.redrawAreas()

        if self.movingSegment and self.movingSegm >= 0:
            currentPoint = self.toLayerCoordinates(self.layer, event.pos())
            distance = self.distancePoint(currentPoint,
                                          self.movingLineInitialPoint)
            bearing = self.movingLineInitialPoint.azimuth(currentPoint)

            self.capturedPoints[self.movingSegm] = self.projectPoint(
                self.capturedPoints[self.movingSegm], distance, bearing)
            self.capturedPoints[self.movingSegm + 1] = self.projectPoint(
                self.capturedPoints[self.movingSegm + 1], distance, bearing)

            if self.lineClosed:
                if self.movingSegm == 0:
                    self.capturedPoints[
                        len(self.capturedPoints) - 1] = self.projectPoint(
                            self.capturedPoints[len(self.capturedPoints) - 1],
                            distance, bearing)
                elif self.movingSegm == len(self.capturedPoints) - 2:
                    self.capturedPoints[0] = self.projectPoint(
                        self.capturedPoints[0], distance, bearing)

            self.redrawRubberBand()
            self.redrawVertices()
            self.redrawAreas()
            self.movingLineInitialPoint = currentPoint

        if self.movingLine and self.movingLineInitialPoint != None:
            currentPoint = self.toLayerCoordinates(self.layer, event.pos())
            distance = self.distancePoint(currentPoint,
                                          self.movingLineInitialPoint)
            bearing = self.movingLineInitialPoint.azimuth(currentPoint)
            for i in range(len(self.capturedPoints)):
                self.capturedPoints[i] = self.projectPoint(
                    self.capturedPoints[i], distance, bearing)
            self.redrawRubberBand()
            self.redrawAreas()
            self.movingLineInitialPoint = currentPoint

    def projectPoint(self, point, distance, bearing):
        rads = bearing * pi / 180.0
        dx = distance * sin(rads)
        dy = distance * cos(rads)
        return QgsPointXY(point.x() + dx, point.y() + dy)

    def redrawAreas(self, mousePos=None):
        self.deleteLabels()

        if self.capturing and len(self.capturedPoints) > 0:
            for i in range(len(self.selectedFeatures)):
                geometry = QgsGeometry(self.selectedFeatures[i].geometry())
                movingPoints = list(self.capturedPoints)

                if mousePos != None:
                    movingPoints.append(
                        self.toLayerCoordinates(self.layer, mousePos))

                result, newGeometries, topoTestPoints = geometry.splitGeometry(
                    movingPoints, self.proj.topologicalEditing())

                self.addLabel(geometry)
                if newGeometries != None and len(newGeometries) > 0:
                    for i in range(len(newGeometries)):
                        self.addLabel(newGeometries[i])

    def addLabel(self, geometry):
        area = self.calculator.measureArea(geometry)
        labelPoint = geometry.pointOnSurface().vertexAt(0)
        label = QGraphicsTextItem("%.2f" % round(area, 2))
        label.setHtml(
            "<div style=\"color:#ffffff;background:#111111;padding:5px\">" +
            "%.2f" % round(area, 2) + " " +
            areaUnits[self.calculator.areaUnits()] + "</div>")
        point = self.toMapCoordinatesV2(self.layer, labelPoint)
        label.setPos(self.toCanvasCoordinates(QgsPointXY(point.x(),
                                                         point.y())))

        self.scene.addItem(label)
        self.labels.append(label)

    def deleteLabels(self):
        for i in range(len(self.labels)):
            self.scene.removeItem(self.labels[i])
        self.labels = []

    def canvasPressEvent(self, event):
        if self.movingVertices:
            for i in range(len(self.capturedPoints)):
                point = self.toMapCoordinates(self.layer,
                                              self.capturedPoints[i])
                currentVertex = self.toCanvasCoordinates(
                    QgsPointXY(point.x(), point.y()))
                if self.distancePoint(event.pos(),
                                      currentVertex) <= maxDistanceHitTest:
                    self.movingVertex = i
                    break

        if self.movingSegment:
            for i in range(len(self.capturedPoints) - 1):
                vertex1 = self.toMapCoordinates(self.layer,
                                                self.capturedPoints[i])
                currentVertex1 = self.toCanvasCoordinates(
                    QgsPointXY(vertex1.x(), vertex1.y()))
                vertex2 = self.toMapCoordinates(self.layer,
                                                self.capturedPoints[i + 1])
                currentVertex2 = self.toCanvasCoordinates(
                    QgsPointXY(vertex2.x(), vertex2.y()))
                if self.distancePointLine(
                        event.pos().x(),
                        event.pos().y(), currentVertex1.x(),
                        currentVertex1.y(), currentVertex2.x(),
                        currentVertex2.y()) <= maxDistanceHitTest:
                    self.movingSegm = i
                    break

        self.movingLineInitialPoint = self.toLayerCoordinates(
            self.layer, event.pos())

    def distancePoint(self, eventPos, vertexPos):
        return sqrt((eventPos.x() - vertexPos.x())**2 +
                    (eventPos.y() - vertexPos.y())**2)

    def canvasReleaseEvent(self, event):
        if self.movingVertices or self.movingSegment or self.movingLine:
            if event.button() == Qt.RightButton:
                self.finishOperation()
        elif self.addingVertices:
            if event.button() == Qt.LeftButton:
                self.addVertex(event.pos())
            elif event.button() == Qt.RightButton:
                self.finishOperation()
        elif self.removingVertices:
            if event.button() == Qt.LeftButton:
                self.removeVertex(event.pos())
            elif event.button() == Qt.RightButton:
                self.finishOperation()
        else:
            if event.button() == Qt.LeftButton:
                if not self.lineClosed:
                    if not self.capturing:
                        self.startCapturing()
                    self.addEndingVertex(event.pos())
            elif event.button() == Qt.RightButton:
                self.finishOperation()

        self.movingVertex = -1
        self.movingSegm = -1
        self.movingLineInitialPoint = None
        self.redrawActions()

    def keyReleaseEvent(self, event):
        if event.key() == Qt.Key_Escape:
            self.stopCapturing()
        if event.key() == Qt.Key_Backspace or event.key() == Qt.Key_Delete:
            self.removeLastVertex()
        if event.key() == Qt.Key_Return or event.key() == Qt.Key_Enter:
            self.finishOperation()

        event.accept()
        self.redrawActions()

    def finishOperation(self):
        self.doSplit()
        self.stopCapturing()
        self.initialize()
        self.startCapturing()

    def doSplit(self):
        if self.capturedPoints != None:
            self.layer.splitFeatures(self.capturedPoints,
                                     self.proj.topologicalEditing())

    def startCapturing(self):
        self.prepareRubberBand()
        self.prepareTempRubberBand()

        self.drawingLine = True
        self.capturing = True

        self.redrawActions()

    def prepareRubberBand(self):
        color = QColor("red")
        color.setAlphaF(0.78)

        self.rubberBand = QgsRubberBand(self.canvas, QgsWkbTypes.LineGeometry)
        self.rubberBand.setWidth(1)
        self.rubberBand.setColor(color)
        self.rubberBand.show()

    def prepareTempRubberBand(self):
        color = QColor("red")
        color.setAlphaF(0.78)

        self.tempRubberBand = QgsRubberBand(self.canvas,
                                            QgsWkbTypes.LineGeometry)
        self.tempRubberBand.setWidth(1)
        self.tempRubberBand.setColor(color)
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()

    def redrawRubberBand(self):
        self.canvas.scene().removeItem(self.rubberBand)
        self.prepareRubberBand()
        for i in range(len(self.capturedPoints)):
            point = self.capturedPoints[i]
            if point.__class__ == QgsPoint:
                vertexCoord = self.toMapCoordinatesV2(self.layer,
                                                      self.capturedPoints[i])
                vertexCoord = QgsPointXY(vertexCoord.x(), vertexCoord.y())
            else:
                vertexCoord = self.toMapCoordinates(self.layer,
                                                    self.capturedPoints[i])

            self.rubberBand.addPoint(vertexCoord)

    def redrawTempRubberBand(self):
        if self.tempRubberBand != None:
            self.tempRubberBand.reset(QgsWkbTypes.LineGeometry)
            self.tempRubberBand.addPoint(
                self.toMapCoordinates(
                    self.layer,
                    self.capturedPoints[len(self.capturedPoints) - 1]))

    def stopCapturing(self):
        self.deleteLabels()
        self.deleteVertices()
        if self.rubberBand:
            self.canvas.scene().removeItem(self.rubberBand)
            self.rubberBand = None
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None
        self.drawingLine = False
        self.movingVertices = False
        self.showingVertices = False
        self.capturing = False
        self.capturedPoints = []
        self.canvas.refresh()

        self.redrawActions()

    def addEndingVertex(self, canvasPoint):
        mapPoint = self.toMapCoordinates(canvasPoint)
        layerPoint = self.toLayerCoordinates(self.layer, canvasPoint)

        self.rubberBand.addPoint(mapPoint)
        self.capturedPoints.append(layerPoint)

        self.tempRubberBand.reset(QgsWkbTypes.LineGeometry)
        self.tempRubberBand.addPoint(mapPoint)

    def removeLastVertex(self):
        if not self.capturing: return

        rubberBandSize = self.rubberBand.numberOfVertices()
        tempRubberBandSize = self.tempRubberBand.numberOfVertices()
        numPoints = len(self.capturedPoints)

        if rubberBandSize < 1 or numPoints < 1:
            return

        self.rubberBand.removePoint(-1)

        if rubberBandSize > 1:
            if tempRubberBandSize > 1:
                point = self.rubberBand.getPoint(0, rubberBandSize - 2)
                self.tempRubberBand.movePoint(tempRubberBandSize - 2, point)
        else:
            self.tempRubberBand.reset(self.bandType())

        del self.capturedPoints[-1]

    def addVertex(self, pos):
        newCapturedPoints = []
        for i in range(len(self.capturedPoints) - 1):
            newCapturedPoints.append(self.capturedPoints[i])
            vertex1 = self.toMapCoordinates(self.layer, self.capturedPoints[i])
            currentVertex1 = self.toCanvasCoordinates(
                QgsPointXY(vertex1.x(), vertex1.y()))
            vertex2 = self.toMapCoordinates(self.layer,
                                            self.capturedPoints[i + 1])
            currentVertex2 = self.toCanvasCoordinates(
                QgsPointXY(vertex2.x(), vertex2.y()))

            distance = self.distancePointLine(pos.x(), pos.y(),
                                              currentVertex1.x(),
                                              currentVertex1.y(),
                                              currentVertex2.x(),
                                              currentVertex2.y())
            if distance <= maxDistanceHitTest:
                layerPoint = self.toLayerCoordinates(self.layer, pos)
                newCapturedPoints.append(layerPoint)

        newCapturedPoints.append(self.capturedPoints[len(self.capturedPoints) -
                                                     1])
        self.capturedPoints = newCapturedPoints

        self.redrawRubberBand()
        self.redrawVertices()
        self.redrawAreas()
        self.redrawActions()

    def removeVertex(self, pos):
        deletedFirst = False
        deletedLast = False
        newCapturedPoints = []
        for i in range(len(self.capturedPoints)):
            vertex = self.toMapCoordinates(self.layer, self.capturedPoints[i])
            currentVertex = self.toCanvasCoordinates(
                QgsPointXY(vertex.x(), vertex.y()))
            if not self.distancePoint(pos,
                                      currentVertex) <= maxDistanceHitTest:
                newCapturedPoints.append(self.capturedPoints[i])
            elif i == 0:
                deletedFirst = True
            elif i == len(self.capturedPoints) - 1:
                deletedLast = True

        self.capturedPoints = newCapturedPoints

        if deletedFirst and deletedLast:
            self.lineClosed = False

        self.redrawRubberBand()
        self.redrawVertices()
        self.redrawAreas()
        self.redrawActions()

        if len(self.capturedPoints) <= 2:
            self.stopRemovingVertices()

    def startMovingVertices(self):
        self.stopMovingLine()
        self.stopAddingVertices()
        self.stopRemovingVertices()
        self.stopMovingSegment()

        self.actionMoveVertices.setChecked(True)
        self.movingVertices = True
        self.showingVertices = True
        self.drawingLine = False
        self.canvas.scene().removeItem(self.tempRubberBand)
        self.redrawVertices()
        self.redrawAreas()
        self.redrawActions()

    def stopMovingVertices(self):
        self.movingVertices = False
        self.actionMoveVertices.setChecked(False)
        self.restoreAction()

    def startAddingVertices(self):
        self.stopMovingVertices()
        self.stopRemovingVertices()
        self.stopMovingLine()
        self.stopMovingSegment()

        self.actionAddVertices.setChecked(True)
        self.addingVertices = True
        self.showingVertices = True
        self.drawingLine = False
        self.canvas.scene().removeItem(self.tempRubberBand)
        self.redrawVertices()
        self.redrawAreas()
        self.redrawActions()

    def stopAddingVertices(self):
        self.addVertices = False
        self.actionAddVertices.setChecked(False)
        self.restoreAction()

    def startRemovingVertices(self):
        self.stopMovingVertices()
        self.stopAddingVertices()
        self.stopMovingLine()
        self.stopMovingSegment()

        self.actionRemoveVertices.setChecked(True)
        self.removingVertices = True
        self.showingVertices = True
        self.drawingLine = False
        self.canvas.scene().removeItem(self.tempRubberBand)
        self.redrawVertices()
        self.redrawAreas()
        self.redrawActions()

    def stopRemovingVertices(self):
        self.removingVertices = False
        self.actionRemoveVertices.setChecked(False)
        self.restoreAction()

    def startMovingSegment(self):
        self.stopMovingVertices()
        self.stopMovingLine()
        self.stopAddingVertices()
        self.stopRemovingVertices()

        self.actionMoveSegment.setChecked(True)
        self.movingSegment = True
        self.showingVertices = False
        self.drawingLine = False
        self.canvas.scene().removeItem(self.tempRubberBand)
        self.redrawVertices()
        self.redrawAreas()
        self.redrawActions()

    def stopMovingSegment(self):
        self.movingSegment = False
        self.actionMoveSegment.setChecked(False)
        self.restoreAction()

    def startMovingLine(self):
        self.stopMovingVertices()
        self.stopAddingVertices()
        self.stopRemovingVertices()
        self.stopMovingSegment()

        self.actionMoveLine.setChecked(True)
        self.movingLine = True
        self.showingVertices = False
        self.drawingLine = False
        self.canvas.scene().removeItem(self.tempRubberBand)
        self.redrawAreas()
        self.redrawActions()

    def stopMovingLine(self):
        self.actionMoveLine.setChecked(False)
        self.restoreAction()

    def lineClose(self):
        self.lineClosed = True
        self.capturedPoints.append(self.capturedPoints[0])
        self.redrawRubberBand()
        self.redrawTempRubberBand()
        self.redrawAreas()
        self.redrawActions()

    def lineOpen(self):
        self.lineClosed = False
        del self.capturedPoints[-1]
        self.redrawRubberBand()
        self.redrawTempRubberBand()
        self.redrawAreas()
        self.redrawActions()

    def showVertices(self):
        for i in range(len(self.capturedPoints)):
            vertexc = self.toMapCoordinates(self.layer, self.capturedPoints[i])
            vertexCoords = self.toCanvasCoordinates(
                QgsPointXY(vertexc.x(), vertexc.y()))
            if i == self.movingVertex:
                vertex = self.scene.addRect(vertexCoords.x() - 5,
                                            vertexCoords.y() - 5, 10, 10,
                                            QPen(QColor("green")),
                                            QBrush(QColor("green")))
                self.vertices.append(vertex)
            elif i == len(self.capturedPoints
                          ) - 1 and self.movingVertex == 0 and self.lineClosed:
                vertex = self.scene.addRect(vertexCoords.x() - 5,
                                            vertexCoords.y() - 5, 10, 10,
                                            QPen(QColor("green")),
                                            QBrush(QColor("green")))
                self.vertices.append(vertex)
            else:
                vertex = self.scene.addRect(vertexCoords.x() - 4,
                                            vertexCoords.y() - 4, 8, 8,
                                            QPen(QColor("red")),
                                            QBrush(QColor("red")))
                self.vertices.append(vertex)

    def deleteVertices(self):
        for i in range(len(self.vertices)):
            self.scene.removeItem(self.vertices[i])
        self.vertices = []

    def lineMagnitude(self, x1, y1, x2, y2):
        return sqrt(pow((x2 - x1), 2) + pow((y2 - y1), 2))

    def distancePointLine(self, px, py, x1, y1, x2, y2):
        magnitude = self.lineMagnitude(x1, y1, x2, y2)

        if magnitude < 0.00000001:
            distance = 9999
            return distance

        u1 = (((px - x1) * (x2 - x1)) + ((py - y1) * (y2 - y1)))
        u = u1 / (magnitude * magnitude)

        if (u < 0.00001) or (u > 1):
            ix = self.lineMagnitude(px, py, x1, y1)
            iy = self.lineMagnitude(px, py, x2, y2)
            if ix > iy:
                distance = iy
            else:
                distance = ix
        else:
            ix = x1 + u * (x2 - x1)
            iy = y1 + u * (y2 - y1)
            distance = self.lineMagnitude(px, py, ix, iy)

        return distance

    def redrawVertices(self):
        self.deleteVertices()
        self.showVertices()

    def redrawActions(self):
        self.redrawActionMoveVertices()
        self.redrawActionAddVertices()
        self.redrawActionRemoveVertices()
        self.redrawActionMoveSegment()
        self.redrawActionLineClose()
        self.redrawActionLineOpen()
        self.redrawActionMoveLine()

    def redrawActionMoveVertices(self):
        self.actionMoveVertices.setEnabled(False)
        if len(self.capturedPoints) > 0:
            self.actionMoveVertices.setEnabled(True)

    def redrawActionAddVertices(self):
        self.actionAddVertices.setEnabled(False)
        if len(self.capturedPoints) >= 2:
            self.actionAddVertices.setEnabled(True)

    def redrawActionRemoveVertices(self):
        self.actionRemoveVertices.setEnabled(False)
        if len(self.capturedPoints) > 2:
            self.actionRemoveVertices.setEnabled(True)

    def redrawActionMoveSegment(self):
        self.actionMoveSegment.setEnabled(False)
        if len(self.capturedPoints) > 2:
            self.actionMoveSegment.setEnabled(True)

    def redrawActionLineClose(self):
        self.actionLineClose.setEnabled(False)
        if not self.lineClosed and len(self.capturedPoints) >= 3:
            self.actionLineClose.setEnabled(True)

    def redrawActionLineOpen(self):
        self.actionLineOpen.setEnabled(False)
        if self.lineClosed:
            self.actionLineOpen.setEnabled(True)

    def redrawActionMoveLine(self):
        self.actionMoveLine.setEnabled(False)
        if len(self.capturedPoints) > 0:
            self.actionMoveLine.setEnabled(True)
class APISMapToolEmitPolygonAndPoint(QgsMapTool, APISMapToolMixin):

    mappingFinished = pyqtSignal(QgsGeometry, QgsGeometry,
                                 QgsCoordinateReferenceSystem)

    def __init__(self, canvas):
        QgsMapTool.__init__(self, canvas)

        self.canvas = canvas
        self.rubberBand = None
        self.tempRubberBand = None
        self.vertexMarker = None
        self.capturedPoints = []
        self.derivedPoint = None
        self.capturing = False
        self.setCursor(Qt.CrossCursor)

    def canvasReleaseEvent(self, event):
        if event.button() == Qt.LeftButton:
            if not self.capturing:
                self.startCapturing()
            self.addVertex(event.pos())
        elif event.button() == Qt.RightButton:
            point = self.getDerivedPoint()
            polygon = self.getCapturedPolygon()
            self.stopCapturing()
            if point is not None and polygon is not None:
                pointGeom = self.getPointGeometry(point)
                polygonGeom = self.getPolygonGeometry(polygon)
                if pointGeom is not None and polygonGeom is not None:
                    self.mappingFinished.emit(
                        pointGeom, polygonGeom,
                        self.canvas.mapSettings().destinationCrs())
                else:
                    self.clearScene()
            else:
                self.clearScene()

    def canvasMoveEvent(self, event):
        if self.tempRubberBand is not None and self.capturing:
            mapPt = self.transformCoordinates(event.pos())
            self.tempRubberBand.movePoint(mapPt)

    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_Escape:
            self.stopCapturing()
            self.clearScene()
        if event.key() == Qt.Key_Return or event.key() == Qt.Key_Enter:
            point = self.getDerivedPoint()
            polygon = self.getCapturedPolygon()
            self.stopCapturing()
            if point is not None and polygon is not None:
                pointGeom = self.getPointGeometry(point)
                polygonGeom = self.getPolygonGeometry(polygon)
                if pointGeom is not None and polygonGeom is not None:
                    self.mappingFinished.emit(
                        pointGeom, polygonGeom,
                        self.canvas.mapSettings().destinationCrs())
                else:
                    self.clearScene()
            else:
                self.clearScene()

    def startCapturing(self):
        self.clearScene()

        self.rubberBand = QgsRubberBand(self.canvas,
                                        QgsWkbTypes.PolygonGeometry)
        self.rubberBand.setWidth(2)
        self.rubberBand.setFillColor(QColor(220, 0, 0, 120))
        self.rubberBand.setStrokeColor(QColor(220, 0, 0))
        self.rubberBand.setLineStyle(Qt.DotLine)
        self.rubberBand.show()

        self.tempRubberBand = QgsRubberBand(self.canvas,
                                            QgsWkbTypes.PolygonGeometry)
        self.tempRubberBand.setWidth(2)
        self.tempRubberBand.setFillColor(QColor(0, 0, 0, 0))
        self.tempRubberBand.setStrokeColor(QColor(220, 0, 0))
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()

        self.vertexMarker = QgsVertexMarker(self.canvas)
        self.vertexMarker.setIconType(1)
        self.vertexMarker.setColor(QColor(220, 0, 0))
        self.vertexMarker.setIconSize(16)
        self.vertexMarker.setPenWidth(3)
        self.vertexMarker.show()

        self.capturing = True

    def clearScene(self):
        if self.vertexMarker:
            self.canvas.scene().removeItem(self.vertexMarker)
            self.vertexMarker = None
        if self.rubberBand:
            self.canvas.scene().removeItem(self.rubberBand)
            self.rubberBand = None
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None

    def stopCapturing(self):
        if self.vertexMarker and self.rubberBand and self.rubberBand.numberOfVertices(
        ) < 3:
            self.canvas.scene().removeItem(self.vertexMarker)
            self.vertexMarker = None
        if self.rubberBand and self.rubberBand.numberOfVertices() < 3:
            self.canvas.scene().removeItem(self.rubberBand)
            self.rubberBand = None
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None
        self.capturing = False
        self.capturedPoints = []
        self.derivedPoint = None
        self.canvas.refresh()

    def addVertex(self, canvasPoint):
        mapPt = self.transformCoordinates(canvasPoint)

        self.rubberBand.addPoint(mapPt)
        self.capturedPoints.append(mapPt)

        bandSize = self.rubberBand.numberOfVertices()
        if bandSize > 2:

            rubGeom = self.rubberBand.asGeometry()
            cpGeom = rubGeom.centroid()
            if not rubGeom.contains(cpGeom):
                cpGeom = rubGeom.pointOnSurface()
            #nearestCp = rubGeom.nearestPoint(cpGeom)
            self.vertexMarker.setCenter(cpGeom.asPoint())
            self.derivedPoint = cpGeom.asPoint()
            self.vertexMarker.show()

        self.tempRubberBand.reset(QgsWkbTypes.PolygonGeometry)
        firstPoint = self.rubberBand.getPoint(0, 0)
        self.tempRubberBand.addPoint(firstPoint)
        self.tempRubberBand.movePoint(mapPt)
        self.tempRubberBand.addPoint(mapPt)

    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(QgsWkbTypes.PolygonGeometry)

        bandSize = self.rubberBand.numberOfVertices()
        if bandSize < 3:
            self.vertexMarker.hide()
        else:
            rubGeom = self.rubberBand.asGeometry()
            cpGeom = rubGeom.centroid()
            if not rubGeom.contains(cpGeom):
                cpGeom = rubGeom.pointOnSurface()
            #nearestCp = rubGeom.nearestPoint(cpGeom)
            self.vertexMarker.setCenter(cpGeom.asPoint())
            self.derivedPoint = cpGeom.asPoint()
            self.vertexMarker.show()

        del self.capturedPoints[-1]

    def getCapturedPolygon(self):
        polygon = self.capturedPoints

        if len(polygon) < 3:
            return None
        else:
            return polygon

    def getDerivedPoint(self):
        point = self.derivedPoint

        if point is None:
            return None
        else:
            return point

    def getPointGeometry(self, geom):
        p = QgsGeometry.fromPointXY(geom)
        if p.isGeosValid() and not p.isEmpty():
            return p
        else:
            return None

    def getPolygonGeometry(self, geom):
        p = QgsGeometry.fromPolygonXY([geom])
        if p.isGeosValid() and not p.isEmpty():
            return p
        else:
            return None
Esempio n. 5
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class SignatureTool(QgsMapTool):
    """
        On Double click it will callback with an array with a single pixel.
        On Single click without releasing it will draw a square and callback
        the starting and ending point in an array.
        On Single click with releasing it will start drawing a polygon and
        every subsequent single click will add a new vertex in the polygon.
        On Right click it will callback with an array with all the vertex in
        the polygon.
        On Escape it will clean up the array and start over.
    """
    def __init__(self, canvas, layer, callback):
        QgsMapTool.__init__(self, canvas)
        self._canvas = canvas
        self._layer = layer
        self._callback = callback
        self._pixels = []
        self._start_point = None
        self._mode = Mode.NONE
        self._rubber_band = QgsRubberBand(self._canvas)
        self._rubber_band.setColor(Qt.red)
        self._rubber_band.setWidth(1)
        self.parent().setCursor(Qt.CrossCursor)

    def getPoint(self, pos):
        x = pos.x()
        y = pos.y()
        return self._canvas.getCoordinateTransform().toMapCoordinates(x, y)

    def getRowCol(self, point):
        # clicked position on screen to map coordinates
        data_provider = self._layer.dataProvider()
        extent = data_provider.extent()
        width = data_provider.xSize() if data_provider.capabilities() \
            & data_provider.Size else 1000
        height = data_provider.ySize() if data_provider.capabilities() \
            & data_provider.Size else 1000
        xres = extent.width() / width
        yres = extent.height() / height
        if extent.xMinimum() <= point.x() <= extent.xMaximum() and \
            extent.yMinimum() <= point.y() <= extent.yMaximum():
            col = int(floor((point.x() - extent.xMinimum()) / xres))
            row = int(floor((extent.yMaximum() - point.y()) / yres))
            return (row, col)
        else:
            return None

    def keyReleaseEvent(self, event):
        if event.key() == Qt.Key_Escape:
            self._pixels = []
            self.finish()

    def canvasMoveEvent(self, event):
        point = self.getPoint(event.pos())
        if self._mode is Mode.SQUARE:
            if not point.compare(self._start_point):
                self._rubber_band.reset()
                self._rubber_band.addPoint(self._start_point, False)
                self._rubber_band.addPoint(
                    QgsPointXY(self._start_point.x(), point.y()), False)
                self._rubber_band.addPoint(point, False)
                self._rubber_band.addPoint(
                    QgsPointXY(point.x(), self._start_point.y()), False)
                self._rubber_band.closePoints()
        elif self._mode is Mode.POLYGON:
            self._rubber_band.movePoint(
                self._rubber_band.numberOfVertices() - 1, point)

    def canvasReleaseEvent(self, event):
        if event.button() == Qt.LeftButton:
            point = self.getPoint(event.pos())
            if self._mode is Mode.SQUARE:
                if self._start_point.compare(point):
                    self._mode = Mode.POLYGON
                    self._rubber_band.addPoint(point)
                    self._start_point = None
                else:
                    self._pixels = []
                    # The last vertex is repeated
                    for i in range(self._rubber_band.numberOfVertices() - 1):
                        self._pixels.append(
                            self.getRowCol(self._rubber_band.getPoint(0, i)))
                    self.finish()
            elif self._mode is Mode.POLYGON:
                self._rubber_band.addPoint(point)

    def canvasPressEvent(self, event):
        if event.button() == Qt.LeftButton:
            point = self.getPoint(event.pos())
            pixel = self.getRowCol(point)
            if self._mode is Mode.NONE:
                self._mode = Mode.SQUARE
                self._start_point = QgsPointXY(point.x(), point.y())
            elif self._mode is Mode.POLYGON:
                self._rubber_band.removePoint(
                    self._rubber_band.numberOfVertices() - 1)
            else:
                self._mode = Mode.POLYGON
            if pixel:
                self._rubber_band.addPoint(point)
                self._pixels.append(pixel)
        elif event.button() == Qt.RightButton:
            self.finish()

    def finish(self):
        self._canvas.unsetMapTool(self)
        self._rubber_band.reset()
        self._mode = Mode.NONE
        self._start_point = None
        if len(self._pixels) > 0:
            self._callback(self._layer.hiperqube_id(), self._pixels)
Esempio n. 6
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class ProfileTool(QgsMapTool):
    """ Narzędzie do tworzenia krzywej """
    def __init__(self, parent):
        canvas = iface.mapCanvas()
        super(ProfileTool, self).__init__(canvas)

        set_cursor(self)
        self.editing = False
        self.parent = parent
        self.task = None
        #Konfiguracja geometrii tymczasowych
        self.tempGeom = QgsRubberBand(canvas, QgsWkbTypes.LineGeometry)
        self.tempGeom.setColor(QColor('red'))
        self.tempGeom.setWidth(2)
        self.tempLine = QgsRubberBand(canvas, QgsWkbTypes.LineGeometry)
        self.tempLine.setColor(QColor('red'))
        self.tempLine.setWidth(2)
        self.tempLine.setLineStyle(Qt.DotLine)

    def keyPressEvent(self, e):
        """ 
        Usuwanie ostatniego dodanego punktu/segmentu lub
        czyszczenie całości
        """
        if e.key() == Qt.Key_Delete:
            pointsCount = self.tempLine.numberOfVertices()
            if pointsCount > 2 and self.editing:
                self.tempGeom.removePoint(pointsCount - 2)
                self.tempLine.removePoint(pointsCount - 2)
                len_m = self.calculateDistance(self.tempGeom.asGeometry())
                self.parent.dsbLineLength.setValue(len_m)
                if self.tempGeom.numberOfVertices() == 1:
                    self.tempGeom.reset(QgsWkbTypes.LineGeometry)
                    self.tempLine.reset(QgsWkbTypes.LineGeometry)
                    self.parent.dsbLineLength.setValue(0)
            else:
                self.reset()
        elif e.key() == Qt.Key_Escape:
            self.reset()

    def canvasMoveEvent(self, e):
        """ 'Poruszanie' wierzchołkiem linii tymczasowej zgodnie z ruchem myszki """
        if self.tempGeom.numberOfVertices() > 1:
            point = e.snapPoint()
            self.tempLine.movePoint(point)

    def canvasReleaseEvent(self, e):
        """ Rysowanie obiektu """
        point = e.snapPoint()
        if self.task is not None:
            self.parent.on_message.emit(
                'Trwa genrowanie profilu. Aby wygenerować następny poczekaj na pobranie danych',
                Qgis.Warning, 4)
            return
        if e.button() == int(Qt.LeftButton):
            #Dodawanie kolejnych wierzchołków
            if not self.editing:
                #Nowy obiekt, pierwszy wierzchołek
                self.tempLine.reset(QgsWkbTypes.LineGeometry)
                self.tempGeom.reset(QgsWkbTypes.LineGeometry)
                self.editing = True
            self.tempGeom.addPoint(point)
            self.tempLine.addPoint(point)
            len_m = self.calculateDistance(self.tempGeom.asGeometry())
            self.parent.dsbLineLength.setValue(len_m)
        elif e.button() == int(Qt.RightButton):
            if self.tempGeom.numberOfVertices() < 2:
                return
            #Zakończenie rysowania obiektu
            self.tempLine.reset()
            self.editing = False
            geometry = self.tempGeom.asGeometry()
            errors = geometry.validateGeometry()
            if errors:
                #Niepoprawna geometria
                for error in errors:
                    if self.tempGeom.numberOfVertices() > 2:
                        self.parent.on_message.emit('Niepoprawna geometria',
                                                    Qgis.Critical, 4)
                    self.tempGeom.reset()
                return
            self.getInterval()

    def getInterval(self):
        """ Zebranie geometrii punktów na linii zgodnie z zadanym interwałem """
        interval, ok = QInputDialog.getDouble(self.parent, 'Podaj interwał',
                                              'Interwał [m]:')
        if not ok:
            self.reset()
            return
        geom = self.parent.transformGeometry(
            self.tempGeom.asGeometry(),
            current_crs=QgsProject.instance().crs().authid(),
        )
        meters_len = geom.length()
        if meters_len <= interval:
            self.parent.on_message.emit(
                'Długość linii krótsza lub równa podanemu interwałowi',
                Qgis.Critical, 5)
            self.reset()
            return
        try:
            num_points = meters_len / interval
        except ZeroDivisionError:
            self.parent.on_message.emit('Interwał musi być większy od 0',
                                        Qgis.Critical, 4)
            self.reset()
            return
        points_on_line = []
        max_interval = 0
        intervals = []
        for i in range(int(num_points) + 1):
            pt = geom.interpolate(float(max_interval)).asPoint()
            points_on_line.append(f'{pt.y()}%20{pt.x()}')
            intervals.append(max_interval)
            max_interval += interval
        data = {'points': points_on_line, 'intervals': intervals}
        self.task = QgsTask.fromFunction(
            'Pobieranie wysokości dla przekroju...',
            self.generateProfileFromPoints,
            data=data)
        QgsApplication.taskManager().addTask(self.task)

    def generateProfileFromPoints(self, task: QgsTask, data):
        """ Pobranie wysokości dla punktów na linii """
        points_on_line = data.get('points')
        intervals = data.get('intervals')
        response = self.parent.getPointsHeights(points_on_line).split(',')
        heights = []
        for r in response:
            _, height = r.rsplit(' ', 1)
            heights.append(height)
        if heights and intervals:
            self.fillTable(heights, intervals)
        self.parent.on_message.emit('Pomyślnie wygenerowano profil',
                                    Qgis.Success, 4)
        self.task = None

    def fillTable(self, heights, intervals):
        """ Wypełnienie tabelii interwałami i wysokościami dla nich """
        for idx, interval in enumerate(intervals):
            try:
                self.parent.twData.setRowCount(idx + 1)
                self.parent.twData.setItem(idx, 0,
                                           QTableWidgetItem(f'{interval}'))
                self.parent.twData.setItem(idx, 1,
                                           QTableWidgetItem(heights[idx]))
            except:
                return

    def calculateDistance(self, geometry):
        """ Obliczenie długości linii w odpowiedniej jednostce """
        distance_area = QgsDistanceArea()
        distance_area.setEllipsoid('GRS80')
        distance_area.setSourceCrs(QgsProject.instance().crs(),
                                   QgsCoordinateTransformContext())
        length = distance_area.measureLength(geometry)
        result = distance_area.convertLengthMeasurement(
            length, QgsUnitTypes.DistanceMeters)
        return result

    def reset(self):
        """ Czyszczenie narzędzia """
        self.tempLine.reset(QgsWkbTypes.LineGeometry)
        self.tempGeom.reset(QgsWkbTypes.LineGeometry)
        self.parent.dsbLineLength.setValue(0)
        self.parent.twData.setRowCount(0)

    def deactivate(self):
        """ Reagowanie zmiany aktywności narzędzia """
        self.reset()
        self.parent.dsbLineLength.setEnabled(False)
        self.button().setChecked(False)
Esempio n. 7
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class ApisMapToolEmitPolygonAndPoint(QgsMapTool, ApisMapToolMixin):

    mappingFinished = pyqtSignal(QgsGeometry, QgsGeometry, QgsCoordinateReferenceSystem)

    def __init__(self, canvas):
        QgsMapTool.__init__(self, canvas)

        self.canvas = canvas
        self.rubberBand = None
        self.tempRubberBand = None
        self.vertexMarker = None
        self.capturedPoints = []
        self.derivedPoint = None
        self.capturing = False
        self.setCursor(Qt.CrossCursor)

    def canvasReleaseEvent(self, event):
        if event.button() == Qt.LeftButton:
            if not self.capturing:
                self.startCapturing()
            self.addVertex(event.pos())
        elif event.button() == Qt.RightButton:
            point = self.getDerivedPoint()
            polygon = self.getCapturedPolygon()
            self.stopCapturing()
            if point != None and polygon != None:
                pointGeom = self.getPointGeometry(point)
                polygonGeom = self.getPolygonGeometry(polygon)
                if pointGeom != None and polygonGeom != None:
                    self.mappingFinished.emit(pointGeom, polygonGeom, self.canvas.mapSettings().destinationCrs())
                else:
                    self.clearScene()
            else:
                self.clearScene()

    def canvasMoveEvent(self, event):
        if self.tempRubberBand != None and self.capturing:
            mapPt = self.transformCoordinates(event.pos())
            self.tempRubberBand.movePoint(mapPt)

    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_Escape:
            self.stopCapturing()
            self.clearScene()
        if event.key() == Qt.Key_Return or event.key() == Qt.Key_Enter:
            point = self.getDerivedPoint()
            polygon = self.getCapturedPolygon()
            self.stopCapturing()
            if point != None and polygon != None:
                pointGeom = self.getPointGeometry(point)
                polygonGeom = self.getPolygonGeometry(polygon)
                if pointGeom != None and polygonGeom != None:
                    self.mappingFinished.emit(pointGeom, polygonGeom, self.canvas.mapSettings().destinationCrs())
                else:
                    self.clearScene()
            else:
                self.clearScene()

    def startCapturing(self):
        self.clearScene()

        self.rubberBand = QgsRubberBand(self.canvas, QGis.Polygon)
        self.rubberBand.setWidth(2)
        self.rubberBand.setFillColor(QColor(220, 0, 0, 120))
        self.rubberBand.setBorderColor(QColor(220, 0, 0))
        self.rubberBand.setLineStyle(Qt.DotLine)
        self.rubberBand.show()

        self.tempRubberBand = QgsRubberBand(self.canvas, QGis.Polygon)
        self.tempRubberBand.setWidth(2)
        self.tempRubberBand.setFillColor(QColor(0, 0, 0, 0))
        self.tempRubberBand.setBorderColor(QColor(220, 0, 0))
        self.tempRubberBand.setLineStyle(Qt.DotLine)
        self.tempRubberBand.show()

        self.vertexMarker = QgsVertexMarker(self.canvas)
        self.vertexMarker.setIconType(1)
        self.vertexMarker.setColor(QColor(220, 0, 0))
        self.vertexMarker.setIconSize(16)
        self.vertexMarker.setPenWidth(3)
        self.vertexMarker.show()

        self.capturing = True

    def clearScene(self):
        if self.vertexMarker:
            self.canvas.scene().removeItem(self.vertexMarker)
            self.vertexMarker = None
        if self.rubberBand:
            self.canvas.scene().removeItem(self.rubberBand)
            self.rubberBand = None
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None

    def stopCapturing(self):
        if self.vertexMarker and self.rubberBand and self.rubberBand.numberOfVertices() < 3:
            self.canvas.scene().removeItem(self.vertexMarker)
            self.vertexMarker = None
        if self.rubberBand and self.rubberBand.numberOfVertices() < 3:
            self.canvas.scene().removeItem(self.rubberBand)
            self.rubberBand = None
        if self.tempRubberBand:
            self.canvas.scene().removeItem(self.tempRubberBand)
            self.tempRubberBand = None
        self.capturing = False
        self.capturedPoints = []
        self.derivedPoint = None
        self.canvas.refresh()

    def addVertex(self, canvasPoint):
        mapPt = self.transformCoordinates(canvasPoint)

        self.rubberBand.addPoint(mapPt)
        self.capturedPoints.append(mapPt)

        bandSize = self.rubberBand.numberOfVertices()
        if bandSize > 2:

            rubGeom = self.rubberBand.asGeometry()
            cpGeom = rubGeom.centroid()
            if not rubGeom.contains(cpGeom):
                cpGeom = rubGeom.pointOnSurface()
            #nearestCp = rubGeom.nearestPoint(cpGeom)
            self.vertexMarker.setCenter(cpGeom.asPoint())
            self.derivedPoint = cpGeom.asPoint()
            self.vertexMarker.show()



        self.tempRubberBand.reset(QGis.Polygon)
        firstPoint = self.rubberBand.getPoint(0, 0)
        self.tempRubberBand.addPoint(firstPoint)
        self.tempRubberBand.movePoint(mapPt)
        self.tempRubberBand.addPoint(mapPt)

    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(QGis.Polygon)

        bandSize = self.rubberBand.numberOfVertices()
        if bandSize < 3:
            self.vertexMarker.hide()
        else:
            rubGeom = self.rubberBand.asGeometry()
            cpGeom = rubGeom.centroid()
            if not rubGeom.contains(cpGeom):
                cpGeom = rubGeom.pointOnSurface()
            #nearestCp = rubGeom.nearestPoint(cpGeom)
            self.vertexMarker.setCenter(cpGeom.asPoint())
            self.derivedPoint = cpGeom.asPoint()
            self.vertexMarker.show()


        del self.capturedPoints[-1]

    def getCapturedPolygon(self):
        polygon = self.capturedPoints

        if len(polygon) < 3:
            return None
        else:
            return polygon

    def getDerivedPoint(self):
        point = self.derivedPoint

        if point == None:
            return None
        else:
            return point

    def getPointGeometry(self, geom):
        p = QgsGeometry.fromPoint(geom)
        if p.isGeosValid() and not p.isGeosEmpty():
            return p
        else:
            return None

    def getPolygonGeometry(self, geom):
        p = QgsGeometry.fromPolygon([geom])
        if p.isGeosValid() and not p.isGeosEmpty():
            return p
        else:
            return None