Program Listing for File VFUpstreamCriterionOptimizationObjective.h
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/* Authors: Caleb Voss, Wilson Beebe */
#ifndef OMPL_BASE_OBJECTIVES_VF_UPSTREAM_CRITERION_OPTIMIZATION_OBJECTIVE_
#define OMPL_BASE_OBJECTIVES_VF_UPSTREAM_CRITERION_OPTIMIZATION_OBJECTIVE_
#include <utility>
#include "ompl/base/OptimizationObjective.h"
#include "ompl/geometric/planners/rrt/VFRRT.h"
namespace ompl
{
namespace base
{
class VFUpstreamCriterionOptimizationObjective : public ompl::base::OptimizationObjective
{
public:
VFUpstreamCriterionOptimizationObjective(const ompl::base::SpaceInformationPtr &si,
geometric::VFRRT::VectorField vf)
: ompl::base::OptimizationObjective(si), vf_(std::move(vf))
{
description_ = "Upstream Criterion";
}
bool isSatisfied(ompl::base::Cost) const override
{
return false;
}
Cost stateCost(const State *) const override
{
return Cost(0.);
}
ompl::base::Cost motionCost(const State *s1, const State *s2) const override
{
const base::StateSpacePtr &space = si_->getStateSpace();
// Per equation 1 in the paper, Riemann approximation on the left
unsigned int vfdim = space->getValueLocations().size();
Eigen::VectorXd qprime(vfdim);
unsigned int numSegments = space->validSegmentCount(s1, s2);
std::vector<ompl::base::State *> interp;
for (unsigned int i = 0; i < vfdim; i++)
qprime[i] = *space->getValueAddressAtIndex(s2, i) - *space->getValueAddressAtIndex(s1, i);
qprime.normalize();
si_->getMotionStates(s1, s2, interp, numSegments - 1, true, true);
double cost = 0;
for (unsigned int i = 0; i < interp.size() - 1; i++)
{
Eigen::VectorXd f = vf_(interp[i]);
cost += si_->distance(interp[i], interp[i + 1]) * (f.norm() - f.dot(qprime));
si_->freeState(interp[i]);
}
si_->freeState(interp[interp.size() - 1]);
return ompl::base::Cost(cost);
}
bool isSymmetric() const override
{
return false;
}
protected:
geometric::VFRRT::VectorField vf_;
};
}
}
#endif