#! /usr/bin/env python # -*- encoding: UTF-8 -*- """Example: Use transphormInterpolation Method""" import qi import argparse import sys import almath import motion def main(session): """ This example uses the transphormInterpolation method. """ # Get the services ALMotion & ALRobotPosture. motion_service = session.service("ALMotion") posture_service = session.service("ALRobotPosture") # Wake up robot motion_service.wakeUp() # Send robot to Pose Init posture_service.goToPosture("StandInit", 0.5) # Example showing how to use transformInterpolations frame = motion.FRAME_ROBOT useSensorValues = False # Motion of Arms with block process effectorList = ["LArm", "RArm"] axisMaskList = [motion.AXIS_MASK_VEL, motion.AXIS_MASK_VEL] timeList = [[1.0], [1.0]] # seconds dy = 0.04 pathList = [] targetLArmTf = almath.Transform(motion_service.getTransform("LArm", frame, useSensorValues)) targetLArmTf.r2_c4 -= dy pathList.append(list(targetLArmTf.toVector())) targetRArmTf = almath.Transform(motion_service.getTransform("RArm", frame, useSensorValues)) targetRArmTf.r2_c4 += dy pathList.append(list(targetRArmTf.toVector())) motion_service.transformInterpolations(effectorList, frame, pathList, axisMaskList, timeList) # Motion of Arms and Torso with block process effectorList = ["LArm", "RArm", "Torso"] axisMaskList = [motion.AXIS_MASK_VEL, motion.AXIS_MASK_VEL, motion.AXIS_MASK_ALL] timeList = [[4.0], [4.0], [1.0, 2.0, 3.0, 4.0]] # seconds dx = 0.03 # translation axis X (meters) dy = 0.05 # translation axis Y (meters) pathList = [] targetLArmTf = almath.Transform(motion_service.getTransform("LArm", frame, useSensorValues)) pathList.append(list(targetLArmTf.toVector())) targetRArmTf = almath.Transform(motion_service.getTransform("RArm", frame, useSensorValues)) pathList.append(list(targetRArmTf.toVector())) pathTorsoList = [] # point 1 initTorsoTf = almath.Transform(motion_service.getTransform("Torso", frame, useSensorValues)) targetTorsoTf = initTorsoTf targetTorsoTf.r2_c4 += dy pathTorsoList.append(list(targetTorsoTf.toVector())) # point 2 initTorsoTf = almath.Transform(motion_service.getTransform("Torso", frame, useSensorValues)) targetTorsoTf = initTorsoTf targetTorsoTf.r1_c4 += -dx pathTorsoList.append(list(targetTorsoTf.toVector())) # point 3 initTorsoTf = almath.Transform(motion_service.getTransform("Torso", frame, useSensorValues)) targetTorsoTf = initTorsoTf targetTorsoTf.r2_c4 += -dy pathTorsoList.append(list(targetTorsoTf.toVector())) # point 4 initTorsoTf = almath.Transform(motion_service.getTransform("Torso", frame, useSensorValues)) pathTorsoList.append(list(initTorsoTf.toVector())) pathList.append(pathTorsoList) motion_service.transformInterpolations(effectorList, frame, pathList, axisMaskList, timeList) # Go to rest position motion_service.rest() if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument("--ip", type=str, default="127.0.0.1", help="Robot IP address. On robot or Local Naoqi: use '127.0.0.1'.") parser.add_argument("--port", type=int, default=9559, help="Naoqi port number") args = parser.parse_args() session = qi.Session() try: session.connect("tcp://" + args.ip + ":" + str(args.port)) except RuntimeError: print ("Can't connect to Naoqi at ip \"" + args.ip + "\" on port " + str(args.port) +".\n" "Please check your script arguments. Run with -h option for help.") sys.exit(1) main(session)