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00038 #ifndef SPLINE_SMOOTHER_UTILS_H_
00039 #define SPLINE_SMOOTHER_UTILS_H_
00040
00041 #include <motion_planning_msgs/JointTrajectoryWithLimits.h>
00042 #include <trajectory_msgs/JointTrajectory.h>
00043 #include <motion_planning_msgs/JointLimits.h>
00044 #include <spline_smoother/LSPBTrajectoryMsg.h>
00045 #include <spline_smoother/SplineTrajectory.h>
00046 #include <angles/angles.h>
00047 #include <ros/ros.h>
00048 #include <float.h>
00049 namespace spline_smoother
00050 {
00051
00052
00053 template <typename T>
00054 void differentiate(const std::vector<T>& x, std::vector<T>& xd);
00055
00067 template <typename T>
00068 void tridiagonalSolve(std::vector<T>& a,
00069 std::vector<T>& b,
00070 std::vector<T>& c,
00071 std::vector<T>& d,
00072 std::vector<T>& x);
00073
00075
00076 template <typename T>
00077 void differentiate(const std::vector<T>& x, std::vector<T>& xd)
00078 {
00079 int size = x.size();
00080 xd.resize(size-1);
00081 for (int i=0; i<size-1; ++i)
00082 {
00083 xd[i] = x[i+1] - x[i];
00084 }
00085 }
00086
00087 template <typename T>
00088 void tridiagonalSolve(std::vector<T>& a,
00089 std::vector<T>& b,
00090 std::vector<T>& c,
00091 std::vector<T>& d,
00092 std::vector<T>& x)
00093 {
00094 int n = (int)d.size();
00095
00096 x.resize(n);
00097
00098
00099 for (int i=1; i<n; i++)
00100 {
00101 double m = a[i] / b[i-1];
00102 b[i] -= m*c[i-1];
00103 d[i] -= m*d[i-1];
00104 }
00105
00106
00107 x[n-1] = d[n-1]/b[n-1];
00108 for (int i=n-2; i>=0; i--)
00109 {
00110 x[i] = (d[i] - c[i]*x[i+1])/b[i];
00111 }
00112 }
00113
00121 template <typename T>
00122 bool checkTrajectoryConsistency(T& waypoint_traj)
00123 {
00124 unsigned int length = waypoint_traj.trajectory.points.size();
00125 unsigned int num_joints = waypoint_traj.trajectory.joint_names.size();
00126
00127 double prev_time = -1.0;
00128
00129 for (unsigned int i=0; i<length; i++)
00130 {
00131 if (waypoint_traj.trajectory.points[i].positions.size() != num_joints)
00132 {
00133 ROS_ERROR("Number of positions (%d) at trajectory index %d doesn't match number of joint names (%d)",
00134 (int) waypoint_traj.trajectory.points[i].positions.size(), (int) i, (int) num_joints);
00135 return false;
00136 }
00137 if (waypoint_traj.trajectory.points[i].time_from_start.toSec() < prev_time)
00138 {
00139 ROS_ERROR("Time of waypoint at trajectory index %d (%f) is not greater than or equal to the previous time (%f)",
00140 (int) i, waypoint_traj.trajectory.points[i].time_from_start.toSec(), prev_time);
00141 return false;
00142 }
00143 if(waypoint_traj.trajectory.points[i].time_from_start.toSec() < 0.0)
00144 {
00145 ROS_ERROR("Time of waypoint at trajectory index %d (%f) is negative",
00146 (int) i, waypoint_traj.trajectory.points[i].time_from_start.toSec());
00147 return false;
00148 }
00149 prev_time = waypoint_traj.trajectory.points[i].time_from_start.toSec();
00150 if(waypoint_traj.trajectory.points[i].velocities.size() != waypoint_traj.trajectory.points[i].positions.size())
00151 waypoint_traj.trajectory.points[i].velocities.resize(num_joints, 0.0);
00152 if(waypoint_traj.trajectory.points[i].accelerations.size() != waypoint_traj.trajectory.points[i].positions.size())
00153 waypoint_traj.trajectory.points[i].accelerations.resize(num_joints, 0.0);
00154 }
00155 return true;
00156 }
00157
00169 inline double jointDiff(const double &from, const double &to, const motion_planning_msgs::JointLimits &limit)
00170 {
00171 if(!limit.has_position_limits)
00172 {
00173 return angles::shortest_angular_distance(from,to);
00174 }
00175 else
00176 {
00177 return (to-from);
00178 }
00179 }
00180
00181
00182
00183
00184
00195 bool findSplineSegment(const spline_smoother::SplineTrajectory &spline,
00196 const double& time,
00197 spline_smoother::SplineTrajectorySegment& spline_segment,
00198 double& segment_time,
00199 int start_index=0,
00200 int end_index=-1);
00201
00202 bool findSplineSegment(const spline_smoother::LSPBTrajectoryMsg &spline,
00203 const double& time,
00204 spline_smoother::LSPBTrajectorySegmentMsg& spline_segment,
00205 double& segment_time,
00206 int start_index=0,
00207 int end_index=-1);
00208
00209
00216 bool getTotalTime(const spline_smoother::SplineTrajectory &spline,
00217 double &t);
00218
00219
00226 bool getTotalTime(const spline_smoother::LSPBTrajectoryMsg &spline,
00227 double &t);
00228
00229 bool sampleSplineTrajectory(const spline_smoother::SplineTrajectorySegment &spline,
00230 const double& input_time,
00231 trajectory_msgs::JointTrajectoryPoint &point_out);
00232
00233 bool sampleSplineTrajectory(const spline_smoother::LSPBTrajectorySegmentMsg &spline,
00234 const double& input_time,
00235 trajectory_msgs::JointTrajectoryPoint &point_out);
00236
00237 bool sampleSplineTrajectory(const spline_smoother::SplineTrajectory& spline,
00238 const std::vector<double> ×,
00239 trajectory_msgs::JointTrajectory& traj_out);
00240
00241 bool sampleSplineTrajectory(const spline_smoother::LSPBTrajectoryMsg& spline,
00242 const std::vector<double> ×,
00243 trajectory_msgs::JointTrajectory& traj_out);
00244
00252 bool write(const spline_smoother::SplineTrajectory &spline,
00253 const std::vector<double> ×,
00254 const std::string &filename);
00255
00262 bool writeSpline(const spline_smoother::SplineTrajectory &spline,
00263 const std::string &filename);
00264
00272 bool write(const spline_smoother::LSPBTrajectoryMsg &spline,
00273 const std::vector<double> ×,
00274 const std::string &filename);
00275
00282 bool writeSpline(const spline_smoother::LSPBTrajectoryMsg &spline,
00283 const std::string &filename);
00284
00285 static const double MAX_ALLOWABLE_TIME = FLT_MAX;
00287 }
00288 #endif