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#include "VecGeom/volumes/LogicalVolume.h"
#include "VecGeom/volumes/SExtru.h"
#include "VecGeom/volumes/Box.h"
#include "VecGeomTest/Benchmarker.h"
#include "VecGeom/management/GeoManager.h"
#include "ArgParser.h"
#include "VecGeom/base/Stopwatch.h"
#include <iostream>
using namespace vecgeom;
int main(int argc, char *argv[])
{
OPTION_INT(npoints, 1024);
OPTION_INT(nrep, 4);
OPTION_INT(N, 12);
Precision dx = 5;
Precision dy = 5;
Precision dz = 5;
UnplacedBox worldUnplaced(dx * 4, dy * 4, dz * 4);
Precision x[N], y[N];
for (size_t i = 0; i < (size_t)N; ++i) {
x[i] = dx * std::sin(i * (2. * M_PI) / N);
y[i] = dy * std::cos(i * (2. * M_PI) / N);
}
// make it concave by overwriting on of the points
// to be at origin
x[0] = 0.;
y[1] = 0.;
UnplacedSExtruVolume extru(N, x, y, -dz, dz);
LogicalVolume world("world", &worldUnplaced);
LogicalVolume extrul("extrul", &extru);
Transformation3D placement(0., 0, 0);
world.PlaceDaughter("extrul", &extrul, &placement);
VPlacedVolume *worldPlaced = world.Place();
GeoManager::Instance().SetWorldAndClose(worldPlaced);
Benchmarker tester(GeoManager::Instance().GetWorld());
tester.SetVerbosity(3);
tester.SetRepetitions(nrep);
tester.SetPointCount(npoints);
tester.SetPoolMultiplier(1);
auto errcode = tester.RunBenchmark();
tester.RunToOutFromBoundaryBenchmark();
tester.RunToOutFromBoundaryExitingBenchmark();
tester.RunToInFromBoundaryBenchmark();
return errcode;
}
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