def set_led_light(self, led_number, intensity=0):
     if led_number > 7 or led_number < 0:
         if self.debug:
             err_print(prefix="SET LED LIGHT",
                       message=["LED NUMBER SHOULD BE BETWEEN 0 AND 7"])
     elif intensity not in (0, 1):
         pass
     else:
         self.led_lights[led_number] = intensity
         pack = vrep.simxPackInts([led_number, intensity])
         vrep.simxSetStringSignal(self.client_id, 'EPUCK_LED' + self.suffix,
                                  pack, vrep.simx_opmode_oneshot_wait)
Beispiel #2
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    def _write_actuators(self):
        """
        Write in the robot the actuators values. Don't use directly,
        instead use 'step()'
        """

        # We make a copy of the actuators list
        actuators = self._actuators_to_write[:]

        for m in actuators:
            if m[0] == 'L':
                # Leds
                # Sent as packed string to ensure update of the wanted LED
                test = vrep.simxPackInts([m[1] + 1, m[2]])
                vrep.simxSetStringSignal(self._clientID, 'EPUCK_LED', test,
                                         vrep.simx_opmode_oneshot_wait)

            elif m[0] == 'D':
                # Set motor speed
                # maxVel = 120.0 * math.pi / 180.0
                # maxVel of ePuck firmware is 1000
                # => 120 * pi / (180*1000) = pi/1500
                velLeft = m[1] * math.pi / 1500.0
                velRight = m[2] * math.pi / 1500.0
                if velLeft > 120.0 * math.pi / 180.0:
                    velLeft = 120.0 * math.pi / 180.0
                    self._debug("velLeft too high, thresholded")
                if velLeft < -120.0 * math.pi / 180.0:
                    velLeft = -120.0 * math.pi / 180.0
                    self._debug("velLeft too high, thresholded")
                if velRight > 120.0 * math.pi / 180.0:
                    velRight = 120.0 * math.pi / 180.0
                    self._debug("velRight too high, thresholded")
                if velRight < -120.0 * math.pi / 180.0:
                    velRight = -120.0 * math.pi / 180.0
                    self._debug("velRRight too high, thresholded")
                vrep.simxSetFloatSignal(self._clientID, 'EPUCK_velLeft',
                                        velLeft, vrep.simx_opmode_oneshot)
                vrep.simxSetFloatSignal(self._clientID, 'EPUCK_velRight',
                                        velRight, vrep.simx_opmode_oneshot)

            elif m[0] == 'P':
                # Motor position
                self._debug('WARNING: Motor position not yet implemented!')

            else:
                self._debug('Unknown actuator to write')

            self._actuators_to_write.remove(m)
        return
Beispiel #3
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    def _write_actuators(self):
        """
        Write in the robot the actuators values. Don't use directly,
        instead use 'step()'
        """

        # We make a copy of the actuators list
        actuators = self._actuators_to_write[:]

        for m in actuators:
            if m[0] == 'L':
                # Leds
                # Sent as packed string to ensure update of the wanted LED
                test = vrep.simxPackInts([m[1]+1, m[2]])
                vrep.simxSetStringSignal(self._clientID, 'EPUCK_LED', test, vrep.simx_opmode_oneshot_wait)

            elif m[0] == 'D':
                # Set motor speed
                # maxVel = 120.0 * math.pi / 180.0
                # maxVel of ePuck firmware is 1000
                # => 120 * pi / (180*1000) = pi/1500
                velLeft = m[1] * math.pi / 1500.0
                velRight = m[2] * math.pi / 1500.0
                if velLeft > 120.0 * math.pi / 180.0:
                    velLeft = 120.0 * math.pi / 180.0
                    self._debug("velLeft too high, thresholded")
                if velLeft < -120.0 * math.pi / 180.0:
                    velLeft = -120.0 * math.pi / 180.0
                    self._debug("velLeft too high, thresholded")
                if velRight > 120.0 * math.pi / 180.0:
                    velRight = 120.0 * math.pi / 180.0
                    self._debug("velRight too high, thresholded")
                if velRight < -120.0 * math.pi / 180.0:
                    velRight = -120.0 * math.pi / 180.0
                    self._debug("velRRight too high, thresholded")
                vrep.simxSetFloatSignal(self._clientID, 'EPUCK_velLeft', velLeft, vrep.simx_opmode_oneshot)
                vrep.simxSetFloatSignal(self._clientID, 'EPUCK_velRight', velRight, vrep.simx_opmode_oneshot)
                
            elif m[0] == 'P':
                # Motor position
                self._debug('WARNING: Motor position not yet implemented!')
                
            else:
                self._debug('Unknown actuator to write')

            self._actuators_to_write.remove(m)
        return