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/*
* Software License Agreement (BSD License)
*
* Copyright (c) 2011, Willow Garage, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of Willow Garage, Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/** \author Jia Pan */
#include "fcl/collision_func_matrix.h"
#include "fcl/narrowphase/narrowphase.h"
template<typename T_SH, typename NarrowPhaseSolver>
std::size_t ShapeOcTreeCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
ShapeOcTreeCollisionTraversalNode<T_SH, NarrowPhaseSolver> node;
const T_SH* obj1 = static_cast<const T_SH*>(o1);
const OcTree* obj2 = static_cast<const OcTree*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, request, result);
collide(&node);
}
template<typename T_SH, typename NarrowPhaseSolver>
std::size_t OcTreeShapeCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
OcTreeShapeCollisionTraversalNode<T_SH, NarrowPhaseSolver> node;
const OcTree* obj1 = static_cast<const OcTree*>(o1);
const T_SH* obj2 = static_cast<const T_SH*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, request, result);
collide(&node);
}
template<typename NarrowPhaseSolver>
std::size_t OcTreeCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
OcTreeCollisionTraversalNode<NarrowPhaseSolver> node;
const OcTree* obj1 = static_cast<const OcTree*>(o1);
const OcTree* obj2 = static_cast<const OcTree*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, request, result);
collide(&node);
}
template<typename T_BVH, typename NarrowPhaseSolver>
std::size_t OcTreeBVHCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
if(request.enable_cost && request.use_approximate_cost)
{
CollisionRequest no_cost_request(request); // request remove cost to avoid the exact but expensive cost computation between mesh and octree
no_cost_request.enable_cost = false; // disable cost computation
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OcTreeMeshCollisionTraversalNode<T_BVH, NarrowPhaseSolver> node;
const OcTree* obj1 = static_cast<const OcTree*>(o1);
const BVHModel<T_BVH>* obj2 = static_cast<const BVHModel<T_BVH>*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, no_cost_request, result);
collide(&node);
Box box;
Transform3f box_tf;
constructBox(obj2->getBV(0).bv, tf2, box, box_tf); // compute the box for BVH's root node
box.cost_density = obj2->cost_density;
box.threshold_occupied = obj2->threshold_occupied;
box.threshold_free = obj2->threshold_free;
CollisionRequest only_cost_request(result.numContacts(), false, request.num_max_cost_sources, true, false); // additional cost request, no contacts
OcTreeShapeCollide<Box, NarrowPhaseSolver>(o1, tf1, &box, box_tf, nsolver, only_cost_request, result);
}
else
{
OcTreeMeshCollisionTraversalNode<T_BVH, NarrowPhaseSolver> node;
const OcTree* obj1 = static_cast<const OcTree*>(o1);
const BVHModel<T_BVH>* obj2 = static_cast<const BVHModel<T_BVH>*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, request, result);
collide(&node);
}
}
template<typename T_BVH, typename NarrowPhaseSolver>
std::size_t BVHOcTreeCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
if(request.enable_cost && request.use_approximate_cost)
{
CollisionRequest no_cost_request(request); // request remove cost to avoid the exact but expensive cost computation between mesh and octree
no_cost_request.enable_cost = false; // disable cost computation
MeshOcTreeCollisionTraversalNode<T_BVH, NarrowPhaseSolver> node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>*>(o1);
const OcTree* obj2 = static_cast<const OcTree*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, no_cost_request, result);
collide(&node);
Box box;
Transform3f box_tf;
constructBox(obj1->getBV(0).bv, tf1, box, box_tf);
box.cost_density = obj1->cost_density;
box.threshold_occupied = obj1->threshold_occupied;
box.threshold_free = obj1->threshold_free;
CollisionRequest only_cost_request(result.numContacts(), false, request.num_max_cost_sources, true, false);
ShapeOcTreeCollide<Box, NarrowPhaseSolver>(&box, box_tf, o2, tf2, nsolver, only_cost_request, result);
}
else
{
MeshOcTreeCollisionTraversalNode<T_BVH, NarrowPhaseSolver> node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>*>(o1);
const OcTree* obj2 = static_cast<const OcTree*>(o2);
OcTreeSolver<NarrowPhaseSolver> otsolver(nsolver);
initialize(node, *obj1, tf1, *obj2, tf2, &otsolver, request, result);
collide(&node);
}
template<typename T_SH1, typename T_SH2, typename NarrowPhaseSolver>
std::size_t ShapeShapeCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
ShapeCollisionTraversalNode<T_SH1, T_SH2, NarrowPhaseSolver> node;
const T_SH1* obj1 = static_cast<const T_SH1*>(o1);
const T_SH2* obj2 = static_cast<const T_SH2*>(o2);
initialize(node, *obj1, tf1, *obj2, tf2, nsolver, request, result);
collide(&node);
template<typename T_BVH, typename T_SH, typename NarrowPhaseSolver>
struct BVHShapeCollider
static std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
{
if(request.isSatisfied(result)) return result.numContacts();
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if(request.enable_cost && request.use_approximate_cost)
{
CollisionRequest no_cost_request(request);
no_cost_request.enable_cost = false;
MeshShapeCollisionTraversalNode<T_BVH, T_SH, NarrowPhaseSolver> node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>* >(o1);
BVHModel<T_BVH>* obj1_tmp = new BVHModel<T_BVH>(*obj1);
Transform3f tf1_tmp = tf1;
const T_SH* obj2 = static_cast<const T_SH*>(o2);
initialize(node, *obj1_tmp, tf1_tmp, *obj2, tf2, nsolver, no_cost_request, result);
fcl::collide(&node);
delete obj1_tmp;
Box box;
Transform3f box_tf;
constructBox(obj1->getBV(0).bv, tf1, box, box_tf);
box.cost_density = obj1->cost_density;
box.threshold_occupied = obj1->threshold_occupied;
box.threshold_free = obj1->threshold_free;
CollisionRequest only_cost_request(result.numContacts(), false, request.num_max_cost_sources, true, false);
ShapeShapeCollide<Box, T_SH>(&box, box_tf, o2, tf2, nsolver, only_cost_request, result);
}
else
{
MeshShapeCollisionTraversalNode<T_BVH, T_SH, NarrowPhaseSolver> node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>* >(o1);
BVHModel<T_BVH>* obj1_tmp = new BVHModel<T_BVH>(*obj1);
Transform3f tf1_tmp = tf1;
const T_SH* obj2 = static_cast<const T_SH*>(o2);
initialize(node, *obj1_tmp, tf1_tmp, *obj2, tf2, nsolver, request, result);
fcl::collide(&node);
delete obj1_tmp;
}
return result.numContacts();
}
};
namespace details
{
template<typename OrientMeshShapeCollisionTraveralNode, typename T_BVH, typename T_SH, typename NarrowPhaseSolver>
std::size_t orientedBVHShapeCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
{
if(request.isSatisfied(result)) return result.numContacts();
if(request.enable_cost && request.use_approximate_cost)
{
CollisionRequest no_cost_request(request);
no_cost_request.enable_cost = false;
OrientMeshShapeCollisionTraveralNode node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>* >(o1);
const T_SH* obj2 = static_cast<const T_SH*>(o2);
initialize(node, *obj1, tf1, *obj2, tf2, nsolver, no_cost_request, result);
fcl::collide(&node);
Box box;
Transform3f box_tf;
constructBox(obj1->getBV(0).bv, tf1, box, box_tf);
box.cost_density = obj1->cost_density;
box.threshold_occupied = obj1->threshold_occupied;
box.threshold_free = obj1->threshold_free;
CollisionRequest only_cost_request(result.numContacts(), false, request.num_max_cost_sources, true, false);
ShapeShapeCollide<Box, T_SH>(&box, box_tf, o2, tf2, nsolver, only_cost_request, result);
}
else
{
OrientMeshShapeCollisionTraveralNode node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>* >(o1);
const T_SH* obj2 = static_cast<const T_SH*>(o2);
initialize(node, *obj1, tf1, *obj2, tf2, nsolver, request, result);
fcl::collide(&node);
}
template<typename T_SH, typename NarrowPhaseSolver>
struct BVHShapeCollider<OBB, T_SH, NarrowPhaseSolver>
static std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
{
return details::orientedBVHShapeCollide<MeshShapeCollisionTraversalNodeOBB<T_SH, NarrowPhaseSolver>, OBB, T_SH, NarrowPhaseSolver>(o1, tf1, o2, tf2, nsolver, request, result);
}
};
template<typename T_SH, typename NarrowPhaseSolver>
struct BVHShapeCollider<RSS, T_SH, NarrowPhaseSolver>
static std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
{
return details::orientedBVHShapeCollide<MeshShapeCollisionTraversalNodeRSS<T_SH, NarrowPhaseSolver>, RSS, T_SH, NarrowPhaseSolver>(o1, tf1, o2, tf2, nsolver, request, result);
}
};
template<typename T_SH, typename NarrowPhaseSolver>
struct BVHShapeCollider<kIOS, T_SH, NarrowPhaseSolver>
static std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
{
return details::orientedBVHShapeCollide<MeshShapeCollisionTraversalNodekIOS<T_SH, NarrowPhaseSolver>, kIOS, T_SH, NarrowPhaseSolver>(o1, tf1, o2, tf2, nsolver, request, result);
}
};
template<typename T_SH, typename NarrowPhaseSolver>
struct BVHShapeCollider<OBBRSS, T_SH, NarrowPhaseSolver>
{
static std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
return details::orientedBVHShapeCollide<MeshShapeCollisionTraversalNodeOBBRSS<T_SH, NarrowPhaseSolver>, OBBRSS, T_SH, NarrowPhaseSolver>(o1, tf1, o2, tf2, nsolver, request, result);
}
};
template<typename T_BVH>
std::size_t BVHCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2, const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
MeshCollisionTraversalNode<T_BVH> node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>* >(o1);
const BVHModel<T_BVH>* obj2 = static_cast<const BVHModel<T_BVH>* >(o2);
BVHModel<T_BVH>* obj1_tmp = new BVHModel<T_BVH>(*obj1);
BVHModel<T_BVH>* obj2_tmp = new BVHModel<T_BVH>(*obj2);
initialize(node, *obj1_tmp, tf1_tmp, *obj2_tmp, tf2_tmp, request, result);
collide(&node);
delete obj1_tmp;
delete obj2_tmp;
namespace details
{
template<typename OrientedMeshCollisionTraversalNode, typename T_BVH>
std::size_t orientedMeshCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2, const CollisionRequest& request, CollisionResult& result)
if(request.isSatisfied(result)) return result.numContacts();
OrientedMeshCollisionTraversalNode node;
const BVHModel<T_BVH>* obj1 = static_cast<const BVHModel<T_BVH>* >(o1);
const BVHModel<T_BVH>* obj2 = static_cast<const BVHModel<T_BVH>* >(o2);
initialize(node, *obj1, tf1, *obj2, tf2, request, result);
collide(&node);
std::size_t BVHCollide<OBB>(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2, const CollisionRequest& request, CollisionResult& result)
return details::orientedMeshCollide<MeshCollisionTraversalNodeOBB, OBB>(o1, tf1, o2, tf2, request, result);
}
template<>
std::size_t BVHCollide<OBBRSS>(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2, const CollisionRequest& request, CollisionResult& result)
{
return details::orientedMeshCollide<MeshCollisionTraversalNodeOBBRSS, OBBRSS>(o1, tf1, o2, tf2, request, result);
template<>
std::size_t BVHCollide<kIOS>(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2, const CollisionRequest& request, CollisionResult& result)
return details::orientedMeshCollide<MeshCollisionTraversalNodekIOS, kIOS>(o1, tf1, o2, tf2, request, result);
}
template<typename T_BVH, typename NarrowPhaseSolver>
std::size_t BVHCollide(const CollisionGeometry* o1, const Transform3f& tf1, const CollisionGeometry* o2, const Transform3f& tf2,
const NarrowPhaseSolver* nsolver,
const CollisionRequest& request, CollisionResult& result)
return BVHCollide<T_BVH>(o1, tf1, o2, tf2, request, result);
}
template<typename NarrowPhaseSolver>
CollisionFunctionMatrix<NarrowPhaseSolver>::CollisionFunctionMatrix()
for(int i = 0; i < NODE_COUNT; ++i)
for(int j = 0; j < NODE_COUNT; ++j)
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collision_matrix[GEOM_BOX][GEOM_BOX] = &ShapeShapeCollide<Box, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_SPHERE] = &ShapeShapeCollide<Box, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_CAPSULE] = &ShapeShapeCollide<Box, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_CONE] = &ShapeShapeCollide<Box, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_CYLINDER] = &ShapeShapeCollide<Box, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_CONVEX] = &ShapeShapeCollide<Box, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_PLANE] = &ShapeShapeCollide<Box, Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_BOX] = &ShapeShapeCollide<Sphere, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_SPHERE] = &ShapeShapeCollide<Sphere, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_CAPSULE] = &ShapeShapeCollide<Sphere, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_CONE] = &ShapeShapeCollide<Sphere, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_CYLINDER] = &ShapeShapeCollide<Sphere, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_CONVEX] = &ShapeShapeCollide<Sphere, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_PLANE] = &ShapeShapeCollide<Sphere, Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_BOX] = &ShapeShapeCollide<Capsule, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_SPHERE] = &ShapeShapeCollide<Capsule, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_CAPSULE] = &ShapeShapeCollide<Capsule, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_CONE] = &ShapeShapeCollide<Capsule, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_CYLINDER] = &ShapeShapeCollide<Capsule, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_CONVEX] = &ShapeShapeCollide<Capsule, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_PLANE] = &ShapeShapeCollide<Capsule, Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_BOX] = &ShapeShapeCollide<Cone, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_SPHERE] = &ShapeShapeCollide<Cone, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_CAPSULE] = &ShapeShapeCollide<Cone, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_CONE] = &ShapeShapeCollide<Cone, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_CYLINDER] = &ShapeShapeCollide<Cone, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_CONVEX] = &ShapeShapeCollide<Cone, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_PLANE] = &ShapeShapeCollide<Cone, Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_BOX] = &ShapeShapeCollide<Cylinder, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_SPHERE] = &ShapeShapeCollide<Cylinder, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_CAPSULE] = &ShapeShapeCollide<Cylinder, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_CONE] = &ShapeShapeCollide<Cylinder, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_CYLINDER] = &ShapeShapeCollide<Cylinder, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_CONVEX] = &ShapeShapeCollide<Cylinder, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_PLANE] = &ShapeShapeCollide<Cylinder, Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_BOX] = &ShapeShapeCollide<Convex, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_SPHERE] = &ShapeShapeCollide<Convex, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_CAPSULE] = &ShapeShapeCollide<Convex, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_CONE] = &ShapeShapeCollide<Convex, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_CYLINDER] = &ShapeShapeCollide<Convex, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_CONVEX] = &ShapeShapeCollide<Convex, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_PLANE] = &ShapeShapeCollide<Convex, Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_BOX] = &ShapeShapeCollide<Plane, Box, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_SPHERE] = &ShapeShapeCollide<Plane, Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_CAPSULE] = &ShapeShapeCollide<Plane, Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_CONE] = &ShapeShapeCollide<Plane, Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_CYLINDER] = &ShapeShapeCollide<Plane, Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_CONVEX] = &ShapeShapeCollide<Plane, Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_PLANE] = &ShapeShapeCollide<Plane, Plane, NarrowPhaseSolver>;
collision_matrix[BV_AABB][GEOM_BOX] = &BVHShapeCollider<AABB, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][GEOM_SPHERE] = &BVHShapeCollider<AABB, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][GEOM_CAPSULE] = &BVHShapeCollider<AABB, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][GEOM_CONE] = &BVHShapeCollider<AABB, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][GEOM_CYLINDER] = &BVHShapeCollider<AABB, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][GEOM_CONVEX] = &BVHShapeCollider<AABB, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][GEOM_PLANE] = &BVHShapeCollider<AABB, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_BOX] = &BVHShapeCollider<OBB, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_SPHERE] = &BVHShapeCollider<OBB, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_CAPSULE] = &BVHShapeCollider<OBB, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_CONE] = &BVHShapeCollider<OBB, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_CYLINDER] = &BVHShapeCollider<OBB, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_CONVEX] = &BVHShapeCollider<OBB, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBB][GEOM_PLANE] = &BVHShapeCollider<OBB, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_BOX] = &BVHShapeCollider<RSS, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_SPHERE] = &BVHShapeCollider<RSS, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_CAPSULE] = &BVHShapeCollider<RSS, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_CONE] = &BVHShapeCollider<RSS, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_CYLINDER] = &BVHShapeCollider<RSS, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_CONVEX] = &BVHShapeCollider<RSS, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_RSS][GEOM_PLANE] = &BVHShapeCollider<RSS, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_BOX] = &BVHShapeCollider<KDOP<16>, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_SPHERE] = &BVHShapeCollider<KDOP<16>, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_CAPSULE] = &BVHShapeCollider<KDOP<16>, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_CONE] = &BVHShapeCollider<KDOP<16>, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_CYLINDER] = &BVHShapeCollider<KDOP<16>, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_CONVEX] = &BVHShapeCollider<KDOP<16>, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP16][GEOM_PLANE] = &BVHShapeCollider<KDOP<16>, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_BOX] = &BVHShapeCollider<KDOP<18>, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_SPHERE] = &BVHShapeCollider<KDOP<18>, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_CAPSULE] = &BVHShapeCollider<KDOP<18>, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_CONE] = &BVHShapeCollider<KDOP<18>, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_CYLINDER] = &BVHShapeCollider<KDOP<18>, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_CONVEX] = &BVHShapeCollider<KDOP<18>, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP18][GEOM_PLANE] = &BVHShapeCollider<KDOP<18>, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_BOX] = &BVHShapeCollider<KDOP<24>, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_SPHERE] = &BVHShapeCollider<KDOP<24>, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_CAPSULE] = &BVHShapeCollider<KDOP<24>, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_CONE] = &BVHShapeCollider<KDOP<24>, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_CYLINDER] = &BVHShapeCollider<KDOP<24>, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_CONVEX] = &BVHShapeCollider<KDOP<24>, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_KDOP24][GEOM_PLANE] = &BVHShapeCollider<KDOP<24>, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_BOX] = &BVHShapeCollider<kIOS, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_SPHERE] = &BVHShapeCollider<kIOS, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_CAPSULE] = &BVHShapeCollider<kIOS, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_CONE] = &BVHShapeCollider<kIOS, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_CYLINDER] = &BVHShapeCollider<kIOS, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_CONVEX] = &BVHShapeCollider<kIOS, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_kIOS][GEOM_PLANE] = &BVHShapeCollider<kIOS, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_BOX] = &BVHShapeCollider<OBBRSS, Box, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_SPHERE] = &BVHShapeCollider<OBBRSS, Sphere, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_CAPSULE] = &BVHShapeCollider<OBBRSS, Capsule, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_CONE] = &BVHShapeCollider<OBBRSS, Cone, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_CYLINDER] = &BVHShapeCollider<OBBRSS, Cylinder, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_CONVEX] = &BVHShapeCollider<OBBRSS, Convex, NarrowPhaseSolver>::collide;
collision_matrix[BV_OBBRSS][GEOM_PLANE] = &BVHShapeCollider<OBBRSS, Plane, NarrowPhaseSolver>::collide;
collision_matrix[BV_AABB][BV_AABB] = &BVHCollide<AABB, NarrowPhaseSolver>;
collision_matrix[BV_OBB][BV_OBB] = &BVHCollide<OBB, NarrowPhaseSolver>;
collision_matrix[BV_RSS][BV_RSS] = &BVHCollide<RSS, NarrowPhaseSolver>;
collision_matrix[BV_KDOP16][BV_KDOP16] = &BVHCollide<KDOP<16>, NarrowPhaseSolver>;
collision_matrix[BV_KDOP18][BV_KDOP18] = &BVHCollide<KDOP<18>, NarrowPhaseSolver>;
collision_matrix[BV_KDOP24][BV_KDOP24] = &BVHCollide<KDOP<24>, NarrowPhaseSolver>;
collision_matrix[BV_kIOS][BV_kIOS] = &BVHCollide<kIOS, NarrowPhaseSolver>;
collision_matrix[BV_OBBRSS][BV_OBBRSS] = &BVHCollide<OBBRSS, NarrowPhaseSolver>;
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collision_matrix[GEOM_OCTREE][GEOM_BOX] = &OcTreeShapeCollide<Box, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_SPHERE] = &OcTreeShapeCollide<Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_CAPSULE] = &OcTreeShapeCollide<Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_CONE] = &OcTreeShapeCollide<Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_CYLINDER] = &OcTreeShapeCollide<Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_CONVEX] = &OcTreeShapeCollide<Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_PLANE] = &OcTreeShapeCollide<Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_BOX][GEOM_OCTREE] = &ShapeOcTreeCollide<Box, NarrowPhaseSolver>;
collision_matrix[GEOM_SPHERE][GEOM_OCTREE] = &ShapeOcTreeCollide<Sphere, NarrowPhaseSolver>;
collision_matrix[GEOM_CAPSULE][GEOM_OCTREE] = &ShapeOcTreeCollide<Capsule, NarrowPhaseSolver>;
collision_matrix[GEOM_CONE][GEOM_OCTREE] = &ShapeOcTreeCollide<Cone, NarrowPhaseSolver>;
collision_matrix[GEOM_CYLINDER][GEOM_OCTREE] = &ShapeOcTreeCollide<Cylinder, NarrowPhaseSolver>;
collision_matrix[GEOM_CONVEX][GEOM_OCTREE] = &ShapeOcTreeCollide<Convex, NarrowPhaseSolver>;
collision_matrix[GEOM_PLANE][GEOM_OCTREE] = &ShapeOcTreeCollide<Plane, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][GEOM_OCTREE] = &OcTreeCollide<NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_AABB] = &OcTreeBVHCollide<AABB, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_OBB] = &OcTreeBVHCollide<OBB, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_RSS] = &OcTreeBVHCollide<RSS, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_OBBRSS] = &OcTreeBVHCollide<OBBRSS, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_kIOS] = &OcTreeBVHCollide<kIOS, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_KDOP16] = &OcTreeBVHCollide<KDOP<16>, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_KDOP18] = &OcTreeBVHCollide<KDOP<18>, NarrowPhaseSolver>;
collision_matrix[GEOM_OCTREE][BV_KDOP24] = &OcTreeBVHCollide<KDOP<24>, NarrowPhaseSolver>;
collision_matrix[BV_AABB][GEOM_OCTREE] = &BVHOcTreeCollide<AABB, NarrowPhaseSolver>;
collision_matrix[BV_OBB][GEOM_OCTREE] = &BVHOcTreeCollide<OBB, NarrowPhaseSolver>;
collision_matrix[BV_RSS][GEOM_OCTREE] = &BVHOcTreeCollide<RSS, NarrowPhaseSolver>;
collision_matrix[BV_OBBRSS][GEOM_OCTREE] = &BVHOcTreeCollide<OBBRSS, NarrowPhaseSolver>;
collision_matrix[BV_kIOS][GEOM_OCTREE] = &BVHOcTreeCollide<kIOS, NarrowPhaseSolver>;
collision_matrix[BV_KDOP16][GEOM_OCTREE] = &BVHOcTreeCollide<KDOP<16>, NarrowPhaseSolver>;
collision_matrix[BV_KDOP18][GEOM_OCTREE] = &BVHOcTreeCollide<KDOP<18>, NarrowPhaseSolver>;
collision_matrix[BV_KDOP24][GEOM_OCTREE] = &BVHOcTreeCollide<KDOP<24>, NarrowPhaseSolver>;
template struct CollisionFunctionMatrix<GJKSolver_libccd>;
template struct CollisionFunctionMatrix<GJKSolver_indep>;