# -*- encoding: UTF-8 -*- ''' Whole Body Motion: Left or Right Arm position control ''' ''' This example is only compatible with NAO ''' import argparse import motion import time from naoqi import ALProxy def main(robotIP, PORT, chainName): ''' Example of a whole body Left or Right Arm position control Warning: Needs a PoseInit before executing Whole body balancer must be inactivated at the end of the script ''' motionProxy = ALProxy("ALMotion", robotIP, PORT) postureProxy = ALProxy("ALRobotPosture", robotIP, PORT) # Wake up robot motionProxy.wakeUp() # Send robot to Stand Init #postureProxy.goToPosture("StandInit", 0.5) frame = motion.FRAME_ROBOT useSensor = False effectorInit = motionProxy.getPosition(chainName, frame, useSensor) # Active LArm tracking isEnabled = True motionProxy.wbEnableEffectorControl(chainName, isEnabled) # Example showing how to set position target for LArm # The 3 coordinates are absolute LArm position in FRAME_ROBOT # Position in meter in x, y and z axis. # X Axis LArm Position feasible movement = [ +0.00, +0.12] meter # Y Axis LArm Position feasible movement = [ -0.05, +0.10] meter # Y Axis RArm Position feasible movement = [ -0.10, +0.05] meter # Z Axis LArm Position feasible movement = [ -0.10, +0.10] meter coef = 1.0 if chainName == "LArm": coef = +1.0 elif chainName == "RArm": coef = -1.0 targetCoordinateList = [ [ +0.12, +0.00*coef, +0.00], # target 0 [ +0.12, +0.00*coef, -0.10], # target 1 [ +0.12, +0.05*coef, -0.10], # target 1 [ +0.12, +0.05*coef, +0.10], # target 2 [ +0.12, -0.10*coef, +0.10], # target 3 [ +0.12, -0.10*coef, -0.10], # target 4 [ +0.12, +0.00*coef, -0.10], # target 5 [ +0.12, +0.00*coef, +0.00], # target 6 [ +0.00, +0.00*coef, +0.00], # target 7 ] # wbSetEffectorControl is a non blocking function # time.sleep allow head go to his target # The recommended minimum period between two successives set commands is # 0.2 s. for targetCoordinate in targetCoordinateList: targetCoordinate = [targetCoordinate[i] + effectorInit[i] for i in range(3)] motionProxy.wbSetEffectorControl(chainName, targetCoordinate) time.sleep(4.0) # Deactivate Head tracking isEnabled = False motionProxy.wbEnableEffectorControl(chainName, isEnabled) # Go to rest position motionProxy.rest() if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument("--ip", type=str, default="127.0.0.1", help="Robot ip address") parser.add_argument("--port", type=int, default=9559, help="Robot port number") parser.add_argument("--chain", type=str, default="LArm", choices=["LArm", "RArm"], help="Chain name") args = parser.parse_args() main(args.ip, args.port, args.chain)