/usr/include/fcl/BVH/BVH_utility.h is in libfcl-dev 0.5.0-5.
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* Software License Agreement (BSD License)
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* Copyright (c) 2014-2016, Open Source Robotics Foundation
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/** \author Jia Pan */
#ifndef FCL_BVH_UTILITY_H
#define FCL_BVH_UTILITY_H
#include "fcl/BVH/BVH_model.h"
namespace fcl
{
/// @brief Expand the BVH bounding boxes according to the variance matrix corresponding to the data stored within each BV node
template<typename BV>
void BVHExpand(BVHModel<BV>& model, const Variance3f* ucs, FCL_REAL r)
{
for(int i = 0; i < model.num_bvs; ++i)
{
BVNode<BV>& bvnode = model.getBV(i);
BV bv;
for(int j = 0; j < bvnode.num_primitives; ++j)
{
int v_id = bvnode.first_primitive + j;
const Variance3f& uc = ucs[v_id];
Vec3f& v = model.vertices[bvnode.first_primitive + j];
for(int k = 0; k < 3; ++k)
{
bv += (v + uc.axis[k] * (r * uc.sigma[k]));
bv += (v - uc.axis[k] * (r * uc.sigma[k]));
}
}
bvnode.bv = bv;
}
}
/// @brief Expand the BVH bounding boxes according to the corresponding variance information, for OBB
void BVHExpand(BVHModel<OBB>& model, const Variance3f* ucs, FCL_REAL r);
/// @brief Expand the BVH bounding boxes according to the corresponding variance information, for RSS
void BVHExpand(BVHModel<RSS>& model, const Variance3f* ucs, FCL_REAL r);
/// @brief Compute the covariance matrix for a set or subset of points. if ts = null, then indices refer to points directly; otherwise refer to triangles
void getCovariance(Vec3f* ps, Vec3f* ps2, Triangle* ts, unsigned int* indices, int n, Matrix3f& M);
/// @brief Compute the RSS bounding volume parameters: radius, rectangle size and the origin, given the BV axises.
void getRadiusAndOriginAndRectangleSize(Vec3f* ps, Vec3f* ps2, Triangle* ts, unsigned int* indices, int n, Vec3f axis[3], Vec3f& origin, FCL_REAL l[2], FCL_REAL& r);
/// @brief Compute the bounding volume extent and center for a set or subset of points, given the BV axises.
void getExtentAndCenter(Vec3f* ps, Vec3f* ps2, Triangle* ts, unsigned int* indices, int n, Vec3f axis[3], Vec3f& center, Vec3f& extent);
/// @brief Compute the center and radius for a triangle's circumcircle
void circumCircleComputation(const Vec3f& a, const Vec3f& b, const Vec3f& c, Vec3f& center, FCL_REAL& radius);
/// @brief Compute the maximum distance from a given center point to a point cloud
FCL_REAL maximumDistance(Vec3f* ps, Vec3f* ps2, Triangle* ts, unsigned int* indices, int n, const Vec3f& query);
}
#endif
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