Ejemplos de update en Python

Ejemplo n.º 1

 def moveNodeTo(cls, sta, pos):
     x = pos[0]
     y = pos[1]
     sta.params['position'] = x, y, 0
     # mobility.getAPsInRange(sta)
     if Mininet_wifi.DRAW:
         try:
             plot2d.update(sta)
         except:
             pass

Ejemplo n.º 2

Archivo: replaying.py Proyecto: koushikam/mininet-wifi

 def setPos(cls, Mininet_wifi, sta, ap, dist, ang):
     x = float('%.2f' % (dist * cos(ang) + int(ap.position[0])))
     y = float('%.2f' % (dist * sin(ang) + int(ap.position[1])))
     sta.position = x, y, 0
     mobility.configLinks(sta)
     if Mininet_wifi.draw:
         try:
             plot2d.update(sta)
         except:
             pass

Ejemplo n.º 3

Archivo: replaying.py Proyecto: intrig-unicamp/mininet-wifi

 def moveNodeTo(cls, sta, pos):
     x = pos[0]
     y = pos[1]
     sta.params['position'] = x, y, 0
     # mobility.getAPsInRange(sta)
     if Mininet_wifi.DRAW:
         try:
             plot2d.update(sta)
         except:
             pass

Ejemplo n.º 4

    def moveNodeTo(cls, sta, ap, dist, ang):

        x = float('%.2f' % (dist * cos(ang) + int(ap.params['position'][0])))
        y = float('%.2f' % (dist * sin(ang) + int(ap.params['position'][1])))
        sta.params['position'] = x, y, 0
        mobility.configLinks(sta)
        if Mininet_wifi.DRAW:
            try:
                plot2d.update(sta)
            except:
                pass

Ejemplo n.º 5

Archivo: replaying.py Proyecto: intrig-unicamp/mininet-wifi

    def moveNodeTo(cls, sta, ap, dist, ang):

        x = float('%.2f' %  (dist * cos(ang) + int(ap.params['position'][0])))
        y = float('%.2f' %  (dist * sin(ang) + int(ap.params['position'][1])))
        sta.params['position'] = x, y, 0
        mobility.configLinks(sta)
        if Mininet_wifi.DRAW:
            try:
                plot2d.update(sta)
            except:
                pass

Ejemplo n.º 6

Archivo: vanet.py Proyecto: intrig-unicamp/mininet-wifi

    def simulate_car_movement(self, cars, aps, scatter,
                              com_lines, mobility):
        # temporal variables
        points = [[], []]
        scatter.remove()

        nodes = cars + aps

        while com_lines:
            com_lines[0].remove()
            del com_lines[0]

        # iterate over each car
        for car in cars:
            # get all the properties of the car
            vel = round(np.random.uniform(car.speed[0], car.speed[1]))
            pos_x = car.prop[0]
            pos_y = car.prop[1]

            car.params['position'] = pos_x, pos_y, 0
            car.set_pos_wmediumd(car.params['position'])
            angle = car.prop[2]

            # calculate new position of the car
            pos_x = pos_x + vel * cos(angle) * self.time_per_iteration
            pos_y = pos_y + vel * sin(angle) * self.time_per_iteration

            if (pos_x < car.prop[3] or pos_x > car.prop[4]) \
                or (pos_y < car.prop[5] or pos_y > car.prop[6]):
                self.repeat(car)
                points[0].append(car.initial[0])
                points[1].append(car.initial[1])
            else:
                car.prop[0] = pos_x
                car.prop[1] = pos_y
                points[0].append(pos_x)
                points[1].append(pos_y)

                for node in nodes:
                    if nodes == car:
                        continue
                    else:
                        # compute to see if vehicle is in range
                        inside = math.pow((node.prop[0] - pos_x), 2) + \
                                 math.pow((node.prop[1] - pos_y), 2)
                        if inside <= math.pow(node.params['range'][0], 2):
                            if isinstance(node, AP):
                                color = 'black'
                            else:
                                color = 'r'
                            line = plot2d.line2d([pos_x, node.prop[0]],
                                                     [pos_y, node.prop[1]],
                                                     color=color)
                            com_lines.append(line)
                            plot2d.line(line)

            plot2d.update(car)

        plot2d.pause()
        if not mobility.thread_._keep_alive:
            exit()

        scatter = plot2d.scatter(points[0], points[1])
        plot2d.draw()

        return [scatter, com_lines]

Ejemplo n.º 7

Archivo: vanet.py Proyecto: kaustubhagarwal18/mininet-wifi

    def simulate_car_movement(self, cars, aps, scatter,
                              com_lines, mobility):
        # temporal variables
        points = [[], []]
        scatter.remove()

        nodes = cars + aps

        while com_lines:
            com_lines[0].remove()
            del com_lines[0]

        while mobility.pause_simulation:
            pass

        # iterate over each car
        for car in cars:
            # get all the properties of the car
            vel = round(np.random.uniform(car.speed[0], car.speed[1]))
            pos_x = car.prop[0]
            pos_y = car.prop[1]

            car.position = pos_x, pos_y, 0
            car.set_pos_wmediumd(car.position)
            angle = car.prop[2]

            # calculate new position of the car
            pos_x = pos_x + vel * cos(angle) * self.time_per_iteration
            pos_y = pos_y + vel * sin(angle) * self.time_per_iteration

            if (pos_x < car.prop[3] or pos_x > car.prop[4]) \
                or (pos_y < car.prop[5] or pos_y > car.prop[6]):
                self.repeat(car)
                points[0].append(car.initial[0])
                points[1].append(car.initial[1])
            else:
                car.prop[0] = pos_x
                car.prop[1] = pos_y
                points[0].append(pos_x)
                points[1].append(pos_y)

                for node in nodes:
                    if nodes == car:
                        continue
                    else:
                        # compute to see if vehicle is in range
                        inside = math.pow((node.prop[0] - pos_x), 2) + \
                                 math.pow((node.prop[1] - pos_y), 2)
                        if inside <= math.pow(node.wintfs[0].range, 2):
                            if isinstance(node, AP):
                                color = 'black'
                            else:
                                color = 'r'
                            line = plot2d.line2d([pos_x, node.prop[0]],
                                                 [pos_y, node.prop[1]],
                                                 color=color)
                            com_lines.append(line)
                            plot2d.line(line)

            plot2d.update(car)

        plot2d.pause()
        if not mobility.thread_._keep_alive:
            exit()

        scatter = plot2d.scatter(points[0], points[1])
        plot2d.draw()

        return [scatter, com_lines]