test_base_odomxy_gt.py

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#!/usr/bin/env python
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## Gazebo test base controller vw

PKG = 'pr2_gazebo'
NAME = 'test_base_odomxy_gt'

import math
import roslib
roslib.load_manifest(PKG)

import sys, unittest
import os, os.path, threading, time
import rospy, rostest
from geometry_msgs.msg import Twist,Vector3
from nav_msgs.msg import Odometry

TEST_DURATION   = 10.0

TARGET_VX       =  0.5
TARGET_VY       =  0.5
TARGET_VW       =  0.0
TARGET_DURATION = 2.0
TARGET_TOL      = 0.1 # in percentage of absolute distance

from test_base import BaseTest, E, Q
class XY_GT(BaseTest):
    def __init__(self, *args):
        super(XY_GT, self).__init__(*args)

    def test_base(self):
        self.init_ros(NAME)
        timeout_t = time.time() + TEST_DURATION
        while not rospy.is_shutdown() and not self.success and time.time() < timeout_t:
            #do not start commanding base until p3d and odom are initialized
            if self.p3d_initialized == True and self.odom_initialized == True:
              self.pub.publish(Twist(Vector3(TARGET_VX,TARGET_VY, 0), Vector3(0,0,TARGET_VW)))
            time.sleep(0.001)
            #self.debug_pos()
            # display what the odom error is
            # print " error   " + " x: " + str(self.odom_x - self.p3d_x) + " y: " + str(self.odom_y - self.p3d_y) + " t: " + str(self.odom_t - self.p3d_t)

        # check total error
        total_error = abs(self.odom_x - self.p3d_x) + abs(self.odom_y - self.p3d_y) + abs(self.odom_t - self.p3d_t)
        total_dist  = math.sqrt(self.p3d_x*self.p3d_x + self.p3d_y*self.p3d_y + self.p3d_t*self.p3d_t)
        if total_error/total_dist  < TARGET_TOL:
            self.success = True

        if not self.success:
          rospy.logerr("Testing pr2 base odometry control against simulated ground truth with target (vx,vy) = (0.5,0.5), but odom data does not match gound truth from simulation.  Total deviation in position is %f percent over a distance of %f meters."%(total_error/total_dist, total_dist));
        else:
          rospy.loginfo("Testing pr2 base odometry control against simulated ground truth with target (vx,vy) = (0.5,0.5), total deviation in position is %f percent over a distance of %f meters."%(total_error/total_dist, total_dist));

        self.assert_(self.success)
        
if __name__ == '__main__':
    rostest.run(PKG, sys.argv[0], XY_GT, sys.argv) #, text_mode=True)