test_kinematics_as_plugin.cpp
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00034 
00035 /* Author: Sachin Chitta */
00036 
00037 #include <ros/ros.h>
00038 #include <gtest/gtest.h>
00039 #include <pluginlib/class_loader.h>
00040 
00041 // MoveIt!
00042 #include <moveit/kinematics_base/kinematics_base.h>
00043 #include <moveit/robot_model/robot_model.h>
00044 #include <moveit/robot_state/robot_state.h>
00045 #include <moveit/rdf_loader/rdf_loader.h>
00046 #include <urdf/model.h>
00047 #include <srdfdom/model.h>
00048 
00049 #define IK_NEAR 1e-4
00050 #define IK_NEAR_TRANSLATE 1e-5
00051 
00052 class MyTest
00053 {
00054  public:
00055   bool initialize()
00056   {
00057     double search_discretization;
00058     ros::NodeHandle nh("~");
00059     kinematics_loader_.reset(new pluginlib::ClassLoader<kinematics::KinematicsBase>("moveit_core", "kinematics::KinematicsBase"));
00060     std::string plugin_name;
00061     if (!nh.getParam("plugin_name", plugin_name))
00062     {
00063       ROS_ERROR("No plugin name found on parameter server");
00064       EXPECT_TRUE(0);
00065       return false;
00066     }
00067     ROS_INFO("Plugin name: %s",plugin_name.c_str());
00068     try
00069     {
00070       kinematics_solver_ = kinematics_loader_->createInstance(plugin_name);
00071     }
00072     catch(pluginlib::PluginlibException& ex)//handle the class failing to load
00073     {
00074       ROS_ERROR("The plugin failed to load. Error: %s", ex.what());
00075       EXPECT_TRUE(0);
00076       return false;
00077     }
00078     std::string root_name, tip_name;
00079     ros::WallTime start_time = ros::WallTime::now();
00080     bool done = true;
00081     while((ros::WallTime::now()-start_time).toSec() <= 5.0)
00082     {
00083       if (!nh.getParam("root_name", root_name))
00084       {
00085         ROS_ERROR("No root name found on parameter server");
00086         done = false;
00087         EXPECT_TRUE(0);
00088         continue;
00089       }
00090       if (!nh.getParam("tip_name", tip_name))
00091       {
00092         ROS_ERROR("No tip name found on parameter server");
00093         done = false;
00094         EXPECT_TRUE(0);
00095         continue;
00096       }
00097       if (!nh.getParam("search_discretization", search_discretization))
00098       {
00099         ROS_ERROR("No search discretization found on parameter server");
00100         done = false;
00101         EXPECT_TRUE(0);
00102         continue;
00103       }
00104       done = true;
00105     }
00106 
00107     if(!done)
00108       return false;
00109 
00110     if(kinematics_solver_->initialize("robot_description","right_arm",root_name,tip_name,search_discretization))
00111       return true;
00112     else
00113     {
00114       EXPECT_TRUE(0);
00115       return false;
00116     }
00117 
00118   };
00119 
00120   void joint_state_callback(const geometry_msgs::Pose &ik_pose,
00121                             const std::vector<double> &joint_state,
00122                             moveit_msgs::MoveItErrorCodes &error_code)
00123   {
00124     std::vector<std::string> link_names;
00125     link_names.push_back("r_elbow_flex_link");
00126     std::vector<geometry_msgs::Pose> solutions;
00127     solutions.resize(1);
00128     if(!kinematics_solver_->getPositionFK(link_names,joint_state,solutions))
00129       error_code.val = error_code.PLANNING_FAILED;
00130     if(solutions[0].position.z > 0.0)
00131       error_code.val = error_code.SUCCESS;
00132     else
00133       error_code.val = error_code.PLANNING_FAILED;
00134   };
00135 
00136   kinematics::KinematicsBasePtr kinematics_solver_;
00137   boost::shared_ptr<pluginlib::ClassLoader<kinematics::KinematicsBase> > kinematics_loader_;
00138 };
00139 
00140 MyTest my_test;
00141 
00142 TEST(ArmIKPlugin, initialize)
00143 {
00144   ASSERT_TRUE(my_test.initialize());
00145   // Test getting chain information
00146   std::string root_name = my_test.kinematics_solver_->getBaseFrame();
00147   EXPECT_TRUE(root_name == std::string("torso_lift_link"));
00148   std::string tool_name = my_test.kinematics_solver_->getTipFrame();
00149   EXPECT_TRUE(tool_name == std::string("r_wrist_roll_link"));
00150   std::vector<std::string> joint_names = my_test.kinematics_solver_->getJointNames();
00151   EXPECT_EQ((int)joint_names.size(), 7);
00152 
00153   EXPECT_EQ(joint_names[0], "r_shoulder_pan_joint");
00154   EXPECT_EQ(joint_names[1], "r_shoulder_lift_joint");
00155   EXPECT_EQ(joint_names[2], "r_upper_arm_roll_joint");
00156   EXPECT_EQ(joint_names[3], "r_elbow_flex_joint");
00157   EXPECT_EQ(joint_names[4], "r_forearm_roll_joint");
00158   EXPECT_EQ(joint_names[5], "r_wrist_flex_joint");
00159   EXPECT_EQ(joint_names[6], "r_wrist_roll_joint");
00160 }
00161 
00162 TEST(ArmIKPlugin, getFK)
00163 {
00164   rdf_loader::RDFLoader rdf_loader_;
00165   robot_model::RobotModelPtr kinematic_model;
00166   const boost::shared_ptr<srdf::Model> &srdf = rdf_loader_.getSRDF();
00167   const boost::shared_ptr<urdf::ModelInterface>& urdf_model = rdf_loader_.getURDF();
00168   kinematic_model.reset(new robot_model::RobotModel(urdf_model, srdf));
00169   robot_model::JointModelGroup* joint_model_group = kinematic_model->getJointModelGroup(my_test.kinematics_solver_->getGroupName());
00170 
00171   std::vector<double> seed, fk_values, solution;
00172   moveit_msgs::MoveItErrorCodes error_code;
00173   solution.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00174 
00175   std::vector<std::string> fk_names;
00176   fk_names.push_back(my_test.kinematics_solver_->getTipFrame());
00177 
00178   robot_state::RobotState kinematic_state(kinematic_model);
00179 
00180   ros::NodeHandle nh("~");
00181   int number_fk_tests;
00182   nh.param("number_fk_tests", number_fk_tests, 100);
00183 
00184   for(unsigned int i=0; i < (unsigned int) number_fk_tests; ++i)
00185   {
00186     seed.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00187     fk_values.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00188 
00189     kinematic_state.setToRandomPositions(joint_model_group);
00190     kinematic_state.copyJointGroupPositions(joint_model_group, fk_values);
00191 
00192     std::vector<geometry_msgs::Pose> poses;
00193     poses.resize(1);
00194     bool result_fk = my_test.kinematics_solver_->getPositionFK(fk_names, fk_values, poses);
00195     ASSERT_TRUE(result_fk);
00196   }
00197 }
00198 
00199 TEST(ArmIKPlugin, searchIK)
00200 {
00201   rdf_loader::RDFLoader rdf_loader_;
00202   robot_model::RobotModelPtr kinematic_model;
00203   const boost::shared_ptr<srdf::Model> &srdf_model = rdf_loader_.getSRDF();
00204   const boost::shared_ptr<urdf::ModelInterface>& urdf_model = rdf_loader_.getURDF();
00205   kinematic_model.reset(new robot_model::RobotModel(urdf_model, srdf_model));
00206   robot_model::JointModelGroup* joint_model_group = kinematic_model->getJointModelGroup(my_test.kinematics_solver_->getGroupName());
00207 
00208   //Test inverse kinematics
00209   std::vector<double> seed, fk_values, solution;
00210   double timeout = 5.0;
00211   moveit_msgs::MoveItErrorCodes error_code;
00212   solution.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00213 
00214   std::vector<std::string> fk_names;
00215   fk_names.push_back(my_test.kinematics_solver_->getTipFrame());
00216 
00217   robot_state::RobotState kinematic_state(kinematic_model);
00218   //  robot_state::JointStateGroup* joint_state_group = kinematic_state.getJointStateGroup(my_test.kinematics_solver_->getGroupName());
00219 
00220   ros::NodeHandle nh("~");
00221   int number_ik_tests;
00222   nh.param("number_ik_tests", number_ik_tests, 10);
00223   unsigned int success = 0;
00224 
00225   ros::WallTime start_time = ros::WallTime::now();
00226   for(unsigned int i=0; i < (unsigned int) number_ik_tests; ++i)
00227   {
00228     seed.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00229     fk_values.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00230 
00231     kinematic_state.setToRandomPositions(joint_model_group);
00232     kinematic_state.copyJointGroupPositions(joint_model_group, fk_values);
00233 
00234     std::vector<geometry_msgs::Pose> poses;
00235     poses.resize(1);
00236     bool result_fk = my_test.kinematics_solver_->getPositionFK(fk_names, fk_values, poses);
00237     ASSERT_TRUE(result_fk);
00238 
00239     bool result = my_test.kinematics_solver_->searchPositionIK(poses[0], seed, timeout, solution, error_code);
00240     ROS_DEBUG("Pose: %f %f %f",poses[0].position.x, poses[0].position.y, poses[0].position.z);
00241     ROS_DEBUG("Orient: %f %f %f %f",poses[0].orientation.x, poses[0].orientation.y, poses[0].orientation.z, poses[0].orientation.w);
00242     if(result)
00243     {
00244       success++;
00245       result = my_test.kinematics_solver_->getPositionIK(poses[0], solution, solution, error_code);
00246       EXPECT_TRUE(result);
00247     }
00248 
00249     std::vector<geometry_msgs::Pose> new_poses;
00250     new_poses.resize(1);
00251     result_fk = my_test.kinematics_solver_->getPositionFK(fk_names, solution, new_poses);
00252 
00253     EXPECT_NEAR(poses[0].position.x, new_poses[0].position.x, IK_NEAR);
00254     EXPECT_NEAR(poses[0].position.y, new_poses[0].position.y, IK_NEAR);
00255     EXPECT_NEAR(poses[0].position.z, new_poses[0].position.z, IK_NEAR);
00256 
00257     EXPECT_NEAR(poses[0].orientation.x, new_poses[0].orientation.x, IK_NEAR);
00258     EXPECT_NEAR(poses[0].orientation.y, new_poses[0].orientation.y, IK_NEAR);
00259     EXPECT_NEAR(poses[0].orientation.z, new_poses[0].orientation.z, IK_NEAR);
00260     EXPECT_NEAR(poses[0].orientation.w, new_poses[0].orientation.w, IK_NEAR);
00261   }
00262   ROS_INFO("Success Rate: %f",(double)success/number_ik_tests);
00263   bool success_count = (success > 0.99 * number_ik_tests);
00264   EXPECT_TRUE(success_count);
00265   ROS_INFO("Elapsed time: %f", (ros::WallTime::now()-start_time).toSec());
00266 }
00267 
00268 TEST(ArmIKPlugin, searchIKWithCallbacks)
00269 {
00270   rdf_loader::RDFLoader rdf_loader_;
00271   robot_model::RobotModelPtr kinematic_model;
00272   const boost::shared_ptr<srdf::Model> &srdf = rdf_loader_.getSRDF();
00273   const boost::shared_ptr<urdf::ModelInterface>& urdf_model = rdf_loader_.getURDF();
00274   kinematic_model.reset(new robot_model::RobotModel(urdf_model, srdf));
00275   robot_model::JointModelGroup* joint_model_group = kinematic_model->getJointModelGroup(my_test.kinematics_solver_->getGroupName());
00276 
00277   //Test inverse kinematics
00278   std::vector<double> seed,fk_values,solution;
00279   double timeout = 5.0;
00280   moveit_msgs::MoveItErrorCodes error_code;
00281   solution.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00282 
00283   std::vector<std::string> fk_names;
00284   fk_names.push_back(my_test.kinematics_solver_->getTipFrame());
00285 
00286   robot_state::RobotState kinematic_state(kinematic_model);
00287   //  robot_state::JointStateGroup* joint_state_group = kinematic_state.getJointStateGroup(my_test.kinematics_solver_->getGroupName());
00288 
00289   ros::NodeHandle nh("~");
00290   int number_ik_tests;
00291   nh.param("number_ik_tests_with_callbacks", number_ik_tests, 10);
00292   unsigned int success = 0;
00293   unsigned int num_actual_tests = 0;
00294 
00295   for(unsigned int i=0; i < (unsigned int) number_ik_tests; ++i)
00296   {
00297     seed.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00298     fk_values.resize(my_test.kinematics_solver_->getJointNames().size(), 0.0);
00299 
00300     kinematic_state.setToRandomPositions(joint_model_group);
00301     kinematic_state.copyJointGroupPositions(joint_model_group, fk_values);
00302 
00303     std::vector<geometry_msgs::Pose> poses;
00304     poses.resize(1);
00305     bool result_fk = my_test.kinematics_solver_->getPositionFK(fk_names, fk_values, poses);
00306     ASSERT_TRUE(result_fk);
00307     if(poses[0].position.z < 0.0)
00308       continue;
00309 
00310     num_actual_tests++;
00311     bool result = my_test.kinematics_solver_->searchPositionIK(poses[0], seed, timeout, solution,
00312                                                               boost::bind(&MyTest::joint_state_callback, &my_test, _1, _2, _3), error_code);
00313 
00314     if(result)
00315     {
00316       success++;
00317       std::vector<geometry_msgs::Pose> new_poses;
00318       new_poses.resize(1);
00319       result_fk = my_test.kinematics_solver_->getPositionFK(fk_names, solution, new_poses);
00320 
00321       EXPECT_NEAR(poses[0].position.x, new_poses[0].position.x, IK_NEAR);
00322       EXPECT_NEAR(poses[0].position.y, new_poses[0].position.y, IK_NEAR);
00323       EXPECT_NEAR(poses[0].position.z, new_poses[0].position.z, IK_NEAR);
00324 
00325       EXPECT_NEAR(poses[0].orientation.x, new_poses[0].orientation.x, IK_NEAR);
00326       EXPECT_NEAR(poses[0].orientation.y, new_poses[0].orientation.y, IK_NEAR);
00327       EXPECT_NEAR(poses[0].orientation.z, new_poses[0].orientation.z, IK_NEAR);
00328       EXPECT_NEAR(poses[0].orientation.w, new_poses[0].orientation.w, IK_NEAR);
00329     }
00330 
00331     if(!ros::ok())
00332       break;
00333   }
00334   ROS_INFO("Success with callbacks (%%): %f",(double)success/num_actual_tests*100.0);
00335 }
00336 
00337 
00338 int main(int argc, char **argv)
00339 {
00340   testing::InitGoogleTest(&argc, argv);
00341   ros::init (argc, argv, "right_arm_kinematics");
00342   return RUN_ALL_TESTS();
00343 }


pr2_moveit_tests
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autogenerated on Thu Jul 4 2019 19:51:18