/usr/share/ompl/demos/HypercubeBenchmark.cpp is in ompl-demos 1.0.0+ds2-1build1.
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/* Author: Bryant Gipson, Mark Moll */
#include <ompl/base/spaces/RealVectorStateSpace.h>
#include <ompl/geometric/planners/rrt/RRT.h>
#include <ompl/geometric/planners/kpiece/KPIECE1.h>
#include <ompl/geometric/planners/est/EST.h>
#include <ompl/geometric/planners/prm/PRM.h>
#include <ompl/geometric/planners/stride/STRIDE.h>
#include <ompl/tools/benchmark/Benchmark.h>
#include <boost/math/constants/constants.hpp>
#include <boost/format.hpp>
#include <fstream>
unsigned ndim = 6;
const double edgeWidth = 0.1;
// Only states near some edges of a hypercube are valid. The valid edges form a
// narrow passage from (0,...,0) to (1,...,1). A state s is valid if there exists
// a k s.t. (a) 0<=s[k]<=1, (b) for all i<k s[i]<=edgeWidth, and (c) for all i>k
// s[i]>=1-edgewidth.
bool isStateValid(const ompl::base::State *state)
{
const ompl::base::RealVectorStateSpace::StateType *s
= static_cast<const ompl::base::RealVectorStateSpace::StateType*>(state);
bool foundMaxDim = false;
for (int i = ndim - 1; i >= 0; i--)
if (!foundMaxDim)
{
if ((*s)[i] > edgeWidth)
foundMaxDim = true;
}
else if ((*s)[i] < (1. - edgeWidth))
return false;
return true;
}
void addPlanner(ompl::tools::Benchmark& benchmark, ompl::base::PlannerPtr planner, double range)
{
ompl::base::ParamSet& params = planner->params();
if (params.hasParam(std::string("range")))
params.setParam(std::string("range"), boost::lexical_cast<std::string>(range));
benchmark.addPlanner(planner);
}
int main(int argc, char **argv)
{
if(argc > 1)
ndim = boost::lexical_cast<size_t>(argv[1]);
double range = edgeWidth * 0.5;
ompl::base::StateSpacePtr space(new ompl::base::RealVectorStateSpace(ndim));
ompl::base::RealVectorBounds bounds(ndim);
ompl::geometric::SimpleSetup ss(space);
ompl::base::ScopedState<> start(space), goal(space);
bounds.setLow(0.);
bounds.setHigh(1.);
space->as<ompl::base::RealVectorStateSpace>()->setBounds(bounds);
ss.setStateValidityChecker(&isStateValid);
ss.getSpaceInformation()->setStateValidityCheckingResolution(0.001);
for(unsigned int i = 0; i < ndim; ++i)
{
start[i] = 0.;
goal[i] = 1.;
}
ss.setStartAndGoalStates(start, goal);
// by default, use the Benchmark class
double runtime_limit = 1000, memory_limit = 4096;
int run_count = 20;
ompl::tools::Benchmark::Request request(runtime_limit, memory_limit, run_count);
ompl::tools::Benchmark b(ss, "HyperCube");
addPlanner(b, ompl::base::PlannerPtr(new ompl::geometric::STRIDE(ss.getSpaceInformation())), range);
addPlanner(b, ompl::base::PlannerPtr(new ompl::geometric::EST(ss.getSpaceInformation())), range);
addPlanner(b, ompl::base::PlannerPtr(new ompl::geometric::KPIECE1(ss.getSpaceInformation())), range);
addPlanner(b, ompl::base::PlannerPtr(new ompl::geometric::RRT(ss.getSpaceInformation())), range);
addPlanner(b, ompl::base::PlannerPtr(new ompl::geometric::PRM(ss.getSpaceInformation())), range);
b.benchmark(request);
b.saveResultsToFile(boost::str(boost::format("hypercube_%i.log") % ndim).c_str());
exit(0);
}
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