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00001 /********************************************************************* 00002 * Software License Agreement (BSD License) 00003 * 00004 * Copyright (c) 2008, Willow Garage, Inc. 00005 * All rights reserved. 00006 * 00007 * Redistribution and use in source and binary forms, with or without 00008 * modification, are permitted provided that the following conditions 00009 * are met: 00010 * 00011 * * Redistributions of source code must retain the above copyright 00012 * notice, this list of conditions and the following disclaimer. 00013 * * Redistributions in binary form must reproduce the above 00014 * copyright notice, this list of conditions and the following 00015 * disclaimer in the documentation and/or other materials provided 00016 * with the distribution. 00017 * * Neither the name of Willow Garage nor the names of its 00018 * contributors may be used to endorse or promote products derived 00019 * from this software without specific prior written permission. 00020 * 00021 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 00022 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 00023 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 00024 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE 00025 * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 00026 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 00027 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 00028 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER 00029 * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 00030 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN 00031 * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 00032 * POSSIBILITY OF SUCH DAMAGE. 00033 * 00034 * 00035 *********************************************************************/ 00036 00037 /* \author: Ioan Sucan, Sachin Chitta */ 00038 00039 #include <ros/ros.h> 00040 #include <actionlib/client/simple_action_client.h> 00041 #include <arm_navigation_msgs/MoveArmAction.h> 00042 00043 #include <stdio.h> 00044 #include <stdlib.h> 00045 #include <time.h> 00046 #include <boost/thread.hpp> 00047 #include <ros/ros.h> 00048 #include <gtest/gtest.h> 00049 00050 #include <arm_navigation_msgs/Shape.h> 00051 00052 typedef actionlib::SimpleActionClient<arm_navigation_msgs::MoveArmAction> MoveArmClient; 00053 00054 void spinThread() 00055 { 00056 ros::spin(); 00057 } 00058 00059 TEST(MoveArm, goToPoseGoal) 00060 { 00061 ros::NodeHandle nh; 00062 ros::NodeHandle private_handle("~"); 00063 actionlib::SimpleActionClient<arm_navigation_msgs::MoveArmAction> move_arm(nh, "move_right_arm"); 00064 boost::thread spin_thread(&spinThread); 00065 00066 move_arm.waitForServer(); 00067 ROS_INFO("Connected to server"); 00068 arm_navigation_msgs::MoveArmGoal goalA; 00069 00070 goalA.motion_plan_request.group_name = "right_arm"; 00071 goalA.motion_plan_request.num_planning_attempts = 1; 00072 private_handle.param<std::string>("planner_id",goalA.motion_plan_request.planner_id,std::string("chomp_planner_longrange")); 00073 private_handle.param<std::string>("planner_service_name",goalA.planner_service_name,std::string("/chomp_planner_longrange/plan_path")); 00074 00075 goalA.motion_plan_request.allowed_planning_time = ros::Duration(5.0); 00076 00077 goalA.motion_plan_request.goal_constraints.set_position_constraints_size(1); 00078 goalA.motion_plan_request.goal_constraints.position_constraints[0].header.stamp = ros::Time::now(); 00079 goalA.motion_plan_request.goal_constraints.position_constraints[0].header.frame_id = "torso_lift_link"; 00080 00081 goalA.motion_plan_request.goal_constraints.position_constraints[0].link_name = "r_wrist_roll_link"; 00082 goalA.motion_plan_request.goal_constraints.position_constraints[0].position.x = 0.75; 00083 goalA.motion_plan_request.goal_constraints.position_constraints[0].position.y = -0.188; 00084 goalA.motion_plan_request.goal_constraints.position_constraints[0].position.z = 0; 00085 00086 goalA.motion_plan_request.goal_constraints.position_constraints[0].constraint_region_shape.type = arm_navigation_msgs::Shape::BOX; 00087 goalA.motion_plan_request.goal_constraints.position_constraints[0].constraint_region_shape.dimensions.push_back(0.02); 00088 goalA.motion_plan_request.goal_constraints.position_constraints[0].constraint_region_shape.dimensions.push_back(0.02); 00089 goalA.motion_plan_request.goal_constraints.position_constraints[0].constraint_region_shape.dimensions.push_back(0.02); 00090 00091 goalA.motion_plan_request.goal_constraints.position_constraints[0].constraint_region_orientation.w = 1.0; 00092 goalA.motion_plan_request.goal_constraints.position_constraints[0].weight = 1.0; 00093 00094 goalA.motion_plan_request.goal_constraints.set_orientation_constraints_size(1); 00095 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].header.stamp = ros::Time::now(); 00096 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].header.frame_id = "torso_lift_link"; 00097 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].link_name = "r_wrist_roll_link"; 00098 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].orientation.x = 0.0; 00099 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].orientation.y = 0.0; 00100 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].orientation.z = 0.0; 00101 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].orientation.w = 1.0; 00102 00103 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].absolute_roll_tolerance = 0.04; 00104 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].absolute_pitch_tolerance = 0.04; 00105 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].absolute_yaw_tolerance = 0.04; 00106 00107 goalA.motion_plan_request.goal_constraints.orientation_constraints[0].weight = 1.0; 00108 00109 /* 00110 // These are in here just for reference 00111 std::vector<std::string> names(7); 00112 names[0] = "r_shoulder_pan_joint"; 00113 names[1] = "r_shoulder_lift_joint"; 00114 names[2] = "r_upper_arm_roll_joint"; 00115 names[3] = "r_elbow_flex_joint"; 00116 names[4] = "r_forearm_roll_joint"; 00117 names[5] = "r_wrist_flex_joint"; 00118 names[6] = "r_wrist_roll_joint"; 00119 */ 00120 00121 int num_test_attempts = 0; 00122 int max_attempts = 5; 00123 bool success = false; 00124 while (nh.ok()) 00125 { 00126 bool finished_within_time = false; 00127 move_arm.sendGoal(goalA); 00128 finished_within_time = move_arm.waitForResult(ros::Duration(100.0)); 00129 actionlib::SimpleClientGoalState state = move_arm.getState(); 00130 success = (state == actionlib::SimpleClientGoalState::SUCCEEDED); 00131 if ((!finished_within_time || !success) && num_test_attempts < max_attempts) 00132 { 00133 move_arm.cancelGoal(); 00134 ROS_INFO("Timed out achieving goal A, trying again. Trying again, attempt: %d",num_test_attempts); 00135 num_test_attempts++; 00136 } 00137 else 00138 { 00139 if(!success) 00140 { 00141 ROS_INFO("Action finished: %s",state.toString().c_str()); 00142 move_arm.cancelGoal(); 00143 } 00144 ROS_INFO("Action finished: %s",state.toString().c_str()); 00145 break; 00146 } 00147 } 00148 EXPECT_TRUE(success); 00149 ros::shutdown(); 00150 spin_thread.join(); 00151 } 00152 00153 int main(int argc, char **argv){ 00154 testing::InitGoogleTest(&argc, argv); 00155 ros::init (argc, argv, "move_arm_regression_test"); 00156 return RUN_ALL_TESTS(); 00157 }