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00019 #include <ros/node_handle.h>
00020 #include <descartes_planner/dense_planner.h>
00021 #include <descartes_trajectory/cart_trajectory_pt.h>
00022 #include <descartes_core/utils.h>
00023 #include <descartes_trajectory_test/cartesian_robot.h>
00024 #include <gtest/gtest.h>
00025 #include <descartes_core/pretty_print.hpp>
00026 #include <tuple>
00027
00028 using namespace descartes_core;
00029 using namespace descartes_trajectory;
00030 typedef std::vector<descartes_core::TrajectoryPtPtr> Trajectory;
00031 const int NUM_DENSE_POINTS = 100;
00032 Trajectory createTestTrajectory();
00033 Trajectory TEST_TRAJECTORY = createTestTrajectory();
00034 descartes_planner::DensePlanner Planner;
00035
00036 class ThreeDOFRobot: public descartes_trajectory_test::CartesianRobot
00037 {
00038 public:
00039 ThreeDOFRobot():
00040 descartes_trajectory_test::CartesianRobot(0,0,3)
00041 {
00042
00043 }
00044
00045 virtual ~ThreeDOFRobot()
00046 {
00047
00048 }
00049
00050 };
00051
00052 class TestPoint: public descartes_trajectory::CartTrajectoryPt
00053 {
00054 public:
00055 TestPoint(const std::vector<double>& joints)
00056 {
00057 vals_.resize(joints.size());
00058 vals_.assign(joints.begin(),joints.end());
00059 }
00060
00061 virtual ~TestPoint()
00062 {
00063
00064 }
00065
00066 virtual bool getClosestJointPose(const std::vector<double> &seed_state,
00067 const RobotModel &model,
00068 std::vector<double> &joint_pose) const
00069 {
00070 joint_pose.clear();
00071 joint_pose.assign(vals_.begin(),vals_.end());
00072 return true;
00073 }
00074
00075 virtual void getJointPoses(const RobotModel &model,
00076 std::vector<std::vector<double> > &joint_poses) const
00077 {
00078 joint_poses.clear();
00079 joint_poses.push_back(vals_);
00080
00081 }
00082
00083 protected:
00084
00085 std::vector<double> vals_;
00086 };
00087
00088 Trajectory createTestTrajectory()
00089 {
00090 ROS_INFO_STREAM("Creating test trajectory with "<<NUM_DENSE_POINTS<<" points");
00091 Trajectory traj;
00092 std::vector<std::tuple<double, double>>joint_bounds = {std::make_tuple(0,M_PI),
00093 std::make_tuple(-M_PI_2,M_PI_2),
00094 std::make_tuple(M_PI/8,M_PI/3)};
00095 std::vector<double> deltas;
00096 for(auto& e:joint_bounds)
00097 {
00098 double d = (std::get<1>(e)- std::get<0>(e))/NUM_DENSE_POINTS;
00099 deltas.push_back(d);
00100 }
00101
00102
00103 std::vector<double> joint_vals(deltas.size(),0);
00104 traj.reserve(NUM_DENSE_POINTS);
00105 for(int i = 0 ; i < NUM_DENSE_POINTS; i++)
00106 {
00107 for(int j = 0; j < deltas.size(); j++)
00108 {
00109 joint_vals[j] = std::get<0>(joint_bounds[j]) + deltas[j]*i;
00110 }
00111
00112 TrajectoryPtPtr tp(new TestPoint(joint_vals));
00113 traj.push_back(tp);
00114 }
00115 return traj;
00116 }
00117
00118 TEST(DensePlanner, initialize)
00119 {
00120 ros::Time::init();
00121 RobotModelConstPtr robot(new ThreeDOFRobot());
00122 EXPECT_TRUE(Planner.initialize(robot));
00123 }
00124
00125 TEST(DensePlanner, configure)
00126 {
00127 descartes_core::PlannerConfig config;
00128 Planner.getConfig(config);
00129 EXPECT_TRUE(Planner.setConfig(config));
00130 }
00131
00132
00133 TEST(DensePlanner, planPath)
00134 {
00135 ROS_INFO_STREAM("Testing planPath() with "<<NUM_DENSE_POINTS<<" points");
00136 EXPECT_TRUE(Planner.planPath(TEST_TRAJECTORY));
00137 }
00138
00139 TEST(DensePlanner, getPath)
00140 {
00141 std::vector<descartes_core::TrajectoryPtPtr> path;
00142 EXPECT_TRUE(Planner.getPath(path));
00143 EXPECT_TRUE(path.size() == NUM_DENSE_POINTS);
00144 }
00145
00146