hpp-fcl 1.8.1
HPP fork of FCL -- The Flexible Collision Library
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collision.h
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36
40#ifndef HPP_FCL_COLLISION_H
41#define HPP_FCL_COLLISION_H
42
43#include <hpp/fcl/data_types.h>
47#include <hpp/fcl/timings.h>
48
49namespace hpp
50{
51namespace fcl
52{
53
58HPP_FCL_DLLAPI std::size_t collide(const CollisionObject* o1, const CollisionObject* o2,
59 const CollisionRequest& request, CollisionResult& result);
60
62HPP_FCL_DLLAPI std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1,
63 const CollisionGeometry* o2, const Transform3f& tf2,
64 const CollisionRequest& request, CollisionResult& result);
65
69inline std::size_t collide(const CollisionObject* o1, const CollisionObject* o2,
70 CollisionRequest& request, CollisionResult& result)
71{
72 std::size_t res = collide(o1, o2, (const CollisionRequest&) request, result);
73 request.updateGuess (result);
74 return res;
75}
76
80inline std::size_t collide(const CollisionGeometry* o1, const Transform3f& tf1,
81 const CollisionGeometry* o2, const Transform3f& tf2,
82 CollisionRequest& request, CollisionResult& result)
83{
84 std::size_t res = collide(o1, tf1, o2, tf2,
85 (const CollisionRequest&) request, result);
86 request.updateGuess (result);
87 return res;
88}
89
98public:
99
102
103 std::size_t operator()(const Transform3f& tf1, const Transform3f& tf2,
104 const CollisionRequest& request, CollisionResult& result) const
105 {
106 bool cached = request.enable_cached_gjk_guess;
107 solver.enable_cached_guess = cached;
108 if (cached) {
109 solver.cached_guess = request.cached_gjk_guess;
110 solver.support_func_cached_guess = request.cached_support_func_guess;
111 }
112
113 solver.distance_upper_bound = request.distance_upper_bound;
114
115 std::size_t res;
116 if(request.enable_timings)
117 {
118 Timer timer;
119 res = run(tf1, tf2, request, result);
120 result.timings = timer.elapsed();
121 }
122 else
123 res = run(tf1, tf2, request, result);
124
125 if (cached) {
126 result.cached_gjk_guess = solver.cached_guess;
127 result.cached_support_func_guess = solver.support_func_cached_guess;
128 }
129
130 return res;
131 }
132
133 inline std::size_t operator()(const Transform3f& tf1, const Transform3f& tf2,
134 CollisionRequest& request, CollisionResult& result) const
135 {
136 std::size_t res = operator()(tf1, tf2, (const CollisionRequest&) request, result);
137 request.updateGuess (result);
138 return res;
139 }
140
141 virtual ~ComputeCollision() {};
142
143protected:
146
147 CollisionFunctionMatrix::CollisionFunc func;
149
150 virtual std::size_t run(const Transform3f& tf1, const Transform3f& tf2,
151 const CollisionRequest& request, CollisionResult& result) const;
152public:
153
154 EIGEN_MAKE_ALIGNED_OPERATOR_NEW
155};
156
157
158} // namespace fcl
159} // namespace hpp
160
161#endif
The geometry for the object for collision or distance computation.
Definition: collision_object.h:67
the object for collision or distance computation, contains the geometry and the transform information
Definition: collision_object.h:200
This class reduces the cost of identifying the geometry pair. This is mostly useful for repeated shap...
Definition: collision.h:97
CollisionFunctionMatrix::CollisionFunc func
Definition: collision.h:147
virtual std::size_t run(const Transform3f &tf1, const Transform3f &tf2, const CollisionRequest &request, CollisionResult &result) const
std::size_t operator()(const Transform3f &tf1, const Transform3f &tf2, CollisionRequest &request, CollisionResult &result) const
Definition: collision.h:133
virtual ~ComputeCollision()
Definition: collision.h:141
GJKSolver solver
Definition: collision.h:145
ComputeCollision(const CollisionGeometry *o1, const CollisionGeometry *o2)
Default constructor from two Collision Geometries.
bool swap_geoms
Definition: collision.h:148
std::size_t operator()(const Transform3f &tf1, const Transform3f &tf2, const CollisionRequest &request, CollisionResult &result) const
Definition: collision.h:103
CollisionGeometry const * o1
Definition: collision.h:144
Simple transform class used locally by InterpMotion.
Definition: transform.h:59
#define HPP_FCL_DLLAPI
Definition: config.hh:64
std::size_t collide(const CollisionObject *o1, const CollisionObject *o2, const CollisionRequest &request, CollisionResult &result)
Main collision interface: given two collision objects, and the requirements for contacts,...
Main namespace.
Definition: AABB.h:44
request to the collision algorithm
Definition: collision_data.h:210
FCL_REAL distance_upper_bound
Distance above which GJK solver makes an early stopping. GJK stops searching for the closest points w...
Definition: collision_data.h:232
collision result
Definition: collision_data.h:277
collision and distance solver based on GJK algorithm implemented in fcl (rewritten the code from the ...
Definition: narrowphase.h:54
Vec3f cached_gjk_guess
the gjk initial guess set by user
Definition: collision_data.h:145
support_func_guess_t cached_support_func_guess
the support function initial guess set by user
Definition: collision_data.h:148
void updateGuess(const QueryResult &result)
Definition: collision_data.h:190
bool enable_timings
enable timings when performing collision/distance request
Definition: collision_data.h:151
bool enable_cached_gjk_guess
whether enable gjk initial guess
Definition: collision_data.h:142
support_func_guess_t cached_support_func_guess
stores the last support function vertex index, when relevant.
Definition: collision_data.h:179
Vec3f cached_gjk_guess
stores the last GJK ray when relevant.
Definition: collision_data.h:176
CPUTimes timings
timings for the given request
Definition: collision_data.h:182
This class mimics the way "boost/timer/timer.hpp" operates while using the modern std::chrono library...
Definition: timings.h:40
CPUTimes elapsed() const
Definition: timings.h:48