/usr/include/fcl/narrowphase/gjk_libccd.h is in libfcl-dev 0.5.0-5.
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* Software License Agreement (BSD License)
*
* Copyright (c) 2011-2014, Willow Garage, Inc.
* Copyright (c) 2014-2016, Open Source Robotics Foundation
* All rights reserved.
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* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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/** \author Jia Pan */
#ifndef FCL_GJK_LIBCCD_H
#define FCL_GJK_LIBCCD_H
#include "fcl/shape/geometric_shapes.h"
#include "fcl/math/transform.h"
#include <ccd/ccd.h>
#include <ccd/quat.h>
namespace fcl
{
namespace details
{
/// @brief callback function used by GJK algorithm
typedef void (*GJKSupportFunction)(const void* obj, const ccd_vec3_t* dir_, ccd_vec3_t* v);
typedef void (*GJKCenterFunction)(const void* obj, ccd_vec3_t* c);
/// @brief initialize GJK stuffs
template<typename T>
class GJKInitializer
{
public:
/// @brief Get GJK support function
static GJKSupportFunction getSupportFunction() { return NULL; }
/// @brief Get GJK center function
static GJKCenterFunction getCenterFunction() { return NULL; }
/// @brief Get GJK object from a shape
/// Notice that only local transformation is applied.
/// Gloal transformation are considered later
static void* createGJKObject(const T& /* s */, const Transform3f& /*tf*/) { return NULL; }
/// @brief Delete GJK object
static void deleteGJKObject(void* o) {}
};
/// @brief initialize GJK Cylinder
template<>
class GJKInitializer<Cylinder>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Cylinder& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Sphere
template<>
class GJKInitializer<Sphere>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Sphere& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Ellipsoid
template<>
class GJKInitializer<Ellipsoid>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Ellipsoid& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Box
template<>
class GJKInitializer<Box>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Box& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Capsule
template<>
class GJKInitializer<Capsule>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Capsule& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Cone
template<>
class GJKInitializer<Cone>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Cone& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Convex
template<>
class GJKInitializer<Convex>
{
public:
static GJKSupportFunction getSupportFunction();
static GJKCenterFunction getCenterFunction();
static void* createGJKObject(const Convex& s, const Transform3f& tf);
static void deleteGJKObject(void* o);
};
/// @brief initialize GJK Triangle
GJKSupportFunction triGetSupportFunction();
GJKCenterFunction triGetCenterFunction();
void* triCreateGJKObject(const Vec3f& P1, const Vec3f& P2, const Vec3f& P3);
void* triCreateGJKObject(const Vec3f& P1, const Vec3f& P2, const Vec3f& P3, const Transform3f& tf);
void triDeleteGJKObject(void* o);
/// @brief GJK collision algorithm
bool GJKCollide(void* obj1, ccd_support_fn supp1, ccd_center_fn cen1,
void* obj2, ccd_support_fn supp2, ccd_center_fn cen2,
unsigned int max_iterations, FCL_REAL tolerance,
Vec3f* contact_points, FCL_REAL* penetration_depth, Vec3f* normal);
bool GJKDistance(void* obj1, ccd_support_fn supp1,
void* obj2, ccd_support_fn supp2,
unsigned int max_iterations, FCL_REAL tolerance,
FCL_REAL* dist, Vec3f* p1, Vec3f* p2);
} // details
}
#endif
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