scripts/arm_ros.py

   1 #!/usr/bin/env python
   2 # -*- coding: iso-8859-15 -*-
   3
   4 import sys
   5 import rospy
   6 import arm
   7 import actionlib
   8 import numpy as np
   9 from dynamic_reconfigure.server import Server
  10 from arm_ros_conn.cfg import ArmConfig
  11 from sensor_msgs.msg import JointState
  12 from control_msgs.msg import FollowJointTrajectoryAction, FollowJointTrajectoryActionResult, FollowJointTrajectoryActionFeedback, FollowJointTrajectoryResult
  13 from control_msgs.msg import GripperCommandAction, GripperCommandActionResult, GripperCommandFeedback
  14 from actionlib_msgs.msg import GoalStatus
  15 from time import sleep
  16 from math import *
  17
  18 lJointNames = ["arm_base_to_link1", "link_1_2_joint", "link_2_3_joint", "link_3_4_joint", "link_4_5_joint", "left_gripper_joint", "right_gripper_joint"]
  19
  20
  21 class ARMRosConn():
  22         _feedback = FollowJointTrajectoryActionFeedback()
  23         _result = FollowJointTrajectoryActionResult()
  24         _gripper_feedback = GripperCommandFeedback()
  25         _gripper_result = GripperCommandActionResult()
  26
  27         def __init__(self):
  28                 rospy.init_node('arm')
  29
  30                 self.lSpeeds = [220] * 6
  31                 self.lAngles = [0] * 6
  32                 arm.switch(0)
  33                 arm.switch(2)
  34                 arm.set_hall_mode(3, 0)
  35                 arm.set_hall_mode(5, 0)
  36                 arm.set_tolerance(3, 0)
  37                 arm.set_tolerance(5, 0)
  38
  39                 self._as_arm = actionlib.SimpleActionServer("arm_controller/follow_joint_trajectory", FollowJointTrajectoryAction, execute_cb=self.execute_joint_trajectory, auto_start = False)
  40                 self._as_arm.start()
  41                 self._as_gripper = actionlib.SimpleActionServer("gripper_controller/gripper_action", GripperCommandAction, execute_cb=self.execute_gripper_action, auto_start = False)
  42                 self._as_gripper.start()
  43                 self.pub_joint_states = rospy.Publisher("joint_states", JointState, queue_size=16)
  44                 self.dyn_conf = Server(ArmConfig, self.execute_dyn_reconf)
  45                 self.run()
  46
  47         def run(self):
  48                 rate = rospy.Rate(20)
  49                 while not rospy.is_shutdown():
  50                         self.publish_joint_states()
  51                         rate.sleep()
  52
  53         def execute_dyn_reconf(self, config, level):
  54                 self.lSpeeds = [config["speed_1"], config["speed_2"], config["speed_3"], config["speed_4"], config["speed_5"], config["speed_6"]]
  55                 return config
  56
  57         def publish_joint_states(self):
  58                 joint_state = JointState()
  59                 joint_state.header.stamp = rospy.Time.now()
  60                 joint_state.name = lJointNames
  61                 self.lAngles = [-arm.get_angle(0), arm.get_angle(1), -arm.get_angle(2), -arm.get_angle(3), arm.get_angle(4), 0.35-arm.get_angle(5)]
  62                 joint_state.position = self.lAngles[:-1] + [self.lAngles[-1], self.lAngles[-1]]
  63                 self.pub_joint_states.publish(joint_state)
  64
  65         def execute_joint_trajectory(self, goal):
  66                 self._result.status = FollowJointTrajectoryResult.SUCCESSFUL
  67                 for point in goal.trajectory.points:
  68                         print goal.trajectory.joint_names
  69                         print point.positions
  70                         lGoalPosOrdered = [
  71                                 point.positions[goal.trajectory.joint_names.index(lJointNames[0])],
  72                                 point.positions[goal.trajectory.joint_names.index(lJointNames[1])],
  73                                 point.positions[goal.trajectory.joint_names.index(lJointNames[2])],
  74                                 point.positions[goal.trajectory.joint_names.index(lJointNames[3])],
  75                                 point.positions[goal.trajectory.joint_names.index(lJointNames[4])],
  76                         ]
  77                         try:
  78                                 arm.to_angle(0, self.lSpeeds[0], -lGoalPosOrdered[0])
  79                                 arm.to_angle(1, self.lSpeeds[1],  lGoalPosOrdered[1])
  80                                 arm.to_angle(2, self.lSpeeds[2], -lGoalPosOrdered[2])
  81                                 arm.to_angle(3, self.lSpeeds[3], -lGoalPosOrdered[3])
  82                                 arm.to_angle(4, self.lSpeeds[4],  lGoalPosOrdered[4])
  83                         except arm.RangeError as e:
  84                                 print >> sys.stderr, e.message
  85                                 self._feedback.status = GoalStatus.REJECTED
  86                                 self._as_arm.publish_feedback(self._feedback.feedback)
  87                                 self._result.status = FollowJointTrajectoryResult.INVALID_GOAL
  88                                 break
  89
  90                         error = 0
  91                         while True:
  92                                 error = np.array(lGoalPosOrdered) - np.array(self.lAngles[:-1])
  93                                 print "Error", error
  94                                 if all(abs(f) < 0.02 for f in error):
  95                                         print "Position reached"
  96                                         break
  97
  98                                 if self._as_arm.is_preempt_requested():
  99                                         self._as_arm.set_preempted()
 100                                         break
 101                                 sleep(0.001)
 102
 103                         self._feedback.status = GoalStatus.SUCCEEDED
 104                         self._feedback.feedback.joint_names = lJointNames[:-1]
 105                         self._feedback.feedback.desired.positions = lGoalPosOrdered
 106                         self._feedback.feedback.actual.positions = self.lAngles[:-1]
 107                         self._feedback.feedback.error.positions = error
 108                         self._as_arm.publish_feedback(self._feedback.feedback)
 109                 self._as_arm.set_succeeded(self._result.result)
 110
 111
 112         def execute_gripper_action(self, goal):
 113                 arm.to_angle(5, self.lSpeeds[5], 0.35-goal.command.position)
 114                 while True:
 115                         error = goal.command.position - self.lAngles[-1]
 116                         if abs(error) < 0.02:
 117                                 break
 118
 119                         self._gripper_feedback.position = self.lAngles[-1]
 120                         self._gripper_feedback.stalled = False
 121                         self._gripper_feedback.reached_goal = False
 122
 123                         if self._as_gripper.is_preempt_requested():
 124                                 self._as_gripper.set_preempted()
 125                                 break
 126                         sleep(0.001)
 127                 self._gripper_result.status = GoalStatus.SUCCEEDED
 128                 self._gripper_result.result.position = goal.command.position
 129                 self._gripper_result.result.stalled = False
 130                 self._gripper_result.result.reached_goal = True
 131                 self._as_gripper.set_succeeded(self._gripper_result.result)
 132
 133 if __name__ == '__main__':
 134         ARMRosConn()