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00039 #ifndef REGRESSION_TEST_ARM_HELPERS
00040 #define REGRESSION_TEST_ARM_HELPERS
00041
00042 #include <planning_environment/monitors/kinematic_model_state_monitor.h>
00043 #include <planning_environment/util/kinematic_state_constraint_evaluator.h>
00044 #include <move_arm/MoveArmAction.h>
00045
00046 #include <planning_models/kinematic_state.h>
00047
00048 void setupGoal(const std::vector<std::string> &names, move_arm::MoveArmGoal &goal)
00049 {
00050 goal.goal_constraints.joint_constraint.resize(names.size());
00051 for (unsigned int i = 0 ; i < goal.goal_constraints.joint_constraint.size(); ++i)
00052 {
00053 goal.goal_constraints.joint_constraint[i].header.stamp = ros::Time::now();
00054 goal.goal_constraints.joint_constraint[i].header.frame_id = "/base_link";
00055 goal.goal_constraints.joint_constraint[i].joint_name = names[i];
00056 goal.goal_constraints.joint_constraint[i].value.resize(1);
00057 goal.goal_constraints.joint_constraint[i].tolerance_above.resize(1);
00058 goal.goal_constraints.joint_constraint[i].tolerance_below.resize(1);
00059 goal.goal_constraints.joint_constraint[i].value[0] = 0.0;
00060 goal.goal_constraints.joint_constraint[i].tolerance_below[0] = 0.0;
00061 goal.goal_constraints.joint_constraint[i].tolerance_above[0] = 0.0;
00062 }
00063
00064 goal.contacts.resize(1);
00065 goal.contacts[0].links.push_back("r_gripper_l_finger_link");
00066 goal.contacts[0].links.push_back("r_gripper_r_finger_link");
00067 goal.contacts[0].links.push_back("r_gripper_l_finger_tip_link");
00068 goal.contacts[0].links.push_back("r_gripper_r_finger_tip_link");
00069 goal.contacts[0].links.push_back("r_gripper_palm_link");
00070 goal.contacts[0].links.push_back("r_wrist_roll_link");
00071 goal.contacts[0].depth = 0.04;
00072 goal.contacts[0].bound.type = mapping_msgs::Object::SPHERE;
00073 goal.contacts[0].bound.dimensions.push_back(0.5);
00074
00075 goal.contacts[0].pose.header.stamp = ros::Time::now();
00076 goal.contacts[0].pose.header.frame_id = "/base_link";
00077 goal.contacts[0].pose.pose.position.x = 1;
00078 goal.contacts[0].pose.pose.position.y = 0;
00079 goal.contacts[0].pose.pose.position.z = 0.5;
00080
00081 goal.contacts[0].pose.pose.orientation.x = 0;
00082 goal.contacts[0].pose.pose.orientation.y = 0;
00083 goal.contacts[0].pose.pose.orientation.z = 0;
00084 goal.contacts[0].pose.pose.orientation.w = 1;
00085 }
00086
00087 void goalToState(const move_arm::MoveArmGoal &goal, planning_models::KinematicState &sp)
00088 {
00089 for (unsigned int i = 0 ; i < goal.goal_constraints.joint_constraint.size() ; ++i)
00090 {
00091 sp.setParamsJoint(&goal.goal_constraints.joint_constraint[i].value[0],
00092 goal.goal_constraints.joint_constraint[i].joint_name);
00093 }
00094 }
00095
00096 btTransform effPosition(const planning_environment::KinematicModelStateMonitor &km, const move_arm::MoveArmGoal &goal)
00097 {
00098 planning_models::KinematicState sp(*km.getRobotState());
00099 goalToState(goal, sp);
00100 km.getKinematicModel()->computeTransforms(sp.getParams());
00101 return km.getKinematicModel()->getJoint("r_wrist_roll_joint")->after->globalTrans;
00102 }
00103
00104 void diffConfig(const planning_environment::KinematicModelStateMonitor &km, move_arm::MoveArmGoal &goal, double& dist, double& angle)
00105 {
00106
00107 btTransform pose1 = effPosition(km, goal);
00108
00109
00110 std::vector<std::string> names(7);
00111 names[0] = "r_shoulder_pan_joint";
00112 names[1] = "r_shoulder_lift_joint";
00113 names[2] = "r_upper_arm_roll_joint";
00114 names[3] = "r_elbow_flex_joint";
00115 names[4] = "r_forearm_roll_joint";
00116 names[5] = "r_wrist_flex_joint";
00117 names[6] = "r_wrist_roll_joint";
00118 move_arm::MoveArmGoal temp;
00119 setupGoal(names,temp);
00120
00121 planning_models::KinematicState sp(*(km.getRobotState()));
00122 sp.enforceBounds();
00123 for (unsigned int i = 0 ; i < names.size() ; ++i)
00124 {
00125 temp.goal_constraints.joint_constraint[i].value[0] =
00126 sp.getParamsJoint(names[i])[0];
00127 }
00128
00129 btTransform pose2 = effPosition(km, temp);
00130 dist = pose1.getOrigin().distance(pose2.getOrigin());
00131 angle = pose1.getRotation().angle(pose2.getRotation());
00132 }
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00162
00163 bool finalStateMatchesGoal(const planning_environment::KinematicModelStateMonitor &km, move_arm::MoveArmGoal &goal)
00164 {
00165 planning_models::KinematicState sp(*km.getRobotState());
00166
00167 km.getKinematicModel()->computeTransforms(sp.getParams());
00168
00169 planning_environment::KinematicConstraintEvaluatorSet ks;
00170 ks.add(km.getKinematicModel(),goal.goal_constraints.joint_constraint);
00171 ks.add(km.getKinematicModel(),goal.goal_constraints.pose_constraint);
00172
00173 ks.print(std::cout);
00174
00175 return ks.decide(sp.getParams(),true);
00176
00177 }
00178
00179 bool currentStateSatisfiesPathConstraints(const planning_environment::KinematicModelStateMonitor &km, move_arm::MoveArmGoal &goal) {
00180
00181 planning_models::KinematicState sp(*km.getRobotState());
00182
00183 km.getKinematicModel()->computeTransforms(sp.getParams());
00184
00185 planning_environment::KinematicConstraintEvaluatorSet ks;
00186 ks.add(km.getKinematicModel(),goal.path_constraints.joint_constraint);
00187 ks.add(km.getKinematicModel(),goal.path_constraints.pose_constraint);
00188
00189 ks.print(std::cout);
00190
00191 bool ok = ks.decide(sp.getParams(),true);
00192
00193 if(!ok) {
00194
00195 ks.decide(sp.getParams(),true);
00196 }
00197
00198 return ok;
00199 }
00200
00201 #endif