cubic_spline_velocity_scaler.h
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00034 
00037 #ifndef CUBIC_SPLINE_VELOCITY_SCALER_H_
00038 #define CUBIC_SPLINE_VELOCITY_SCALER_H_
00039 
00040 #include <spline_smoother/spline_smoother.h>
00041 #include <spline_smoother/cubic_trajectory.h>
00042 namespace spline_smoother
00043 {
00044 
00048   template <typename T>
00049   class CubicSplineVelocityScaler: public SplineSmoother<T>
00050   {
00051     public:
00052     CubicSplineVelocityScaler();
00053     virtual ~CubicSplineVelocityScaler();
00054 
00055     virtual bool smooth(const T& trajectory_in, 
00056                         T& trajectory_out) const;
00057   };
00058 
00059   template <typename T>
00060   CubicSplineVelocityScaler<T>::CubicSplineVelocityScaler()
00061   {
00062   }
00063 
00064   template <typename T>
00065   CubicSplineVelocityScaler<T>::~CubicSplineVelocityScaler()
00066   {
00067   }
00068 
00069   template <typename T>
00070   bool CubicSplineVelocityScaler<T>::smooth(const T& trajectory_in, T& trajectory_out) const
00071   {
00072     spline_smoother::CubicTrajectory traj;
00073     spline_smoother::SplineTrajectory spline;
00074     T trajectory_local = trajectory_in;
00075     if (!checkTrajectoryConsistency(trajectory_local))
00076       return false;
00077     bool success = traj.parameterize(trajectory_local.request.trajectory,trajectory_local.request.limits,spline);
00078     if(!success)
00079       return false;
00080 
00081     trajectory_out = trajectory_local;
00082 
00083     double dT = 0.01;
00084     std::set<double> times;
00085     double total_time;
00086     spline_smoother::getTotalTime(spline,total_time);
00087     for(int i=1; i< (int) (total_time/dT); i++)
00088       times.insert(i*dT);
00089     times.insert(total_time);
00090 
00091     double insert_time = 0;
00092     for(unsigned int i=0; i < spline.segments.size(); i++)
00093     {
00094       insert_time += spline.segments[i].duration.toSec();
00095       times.insert(insert_time);
00096     }
00097 
00098     std::vector<double> times_vec;
00099     for(std::set<double>::iterator set_iter = times.begin(); set_iter != times.end(); set_iter++)
00100     {
00101       times_vec.push_back(*set_iter);
00102     }
00103     std::sort(times_vec.begin(), times_vec.end());
00104     //traj_gen->write(spline,times_vec,"shortcutter_robot.txt");    
00105     //traj_gen->sample(spline,times,trajectory_out.trajectory);
00106 
00107     if(!spline_smoother::sampleSplineTrajectory(spline,times_vec,trajectory_out.request.trajectory))
00108       return false;
00109 
00110     return true;
00111   }
00112 }
00113 
00114 #endif /* CUBIC_SPLINE_SMOOTHER_H_ */


spline_smoother
Author(s): Mrinal Kalakrishnan / mail@mrinal.net
autogenerated on Mon Dec 2 2013 12:35:44