/* Copyright (c) <2003-2011> * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would be * appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * * 3. This notice may not be removed or altered from any source distribution. */ #if !defined(AFX_DGCOLLISIONCHAMFERCYLINDER_H__AS235640FER__INCLUDED_) #define AFX_DGCOLLISIONCHAMFERCYLINDER_H__AS235640FER__INCLUDED_ #include "dgCollisionConvex.h" #define DG_CHAMFERCYLINDER_SLICES 4 #define DG_CHAMFERCYLINDER_BRAKES 8 class dgCollisionChamferCylinder: public dgCollisionConvex { public: dgCollisionChamferCylinder(dgMemoryAllocator *const allocator, dgUnsigned32 signature, dgFloat32 radius, dgFloat32 height, const dgMatrix &matrix); dgCollisionChamferCylinder(dgWorld *const world, dgDeserialize deserialization, void *const userData); virtual ~dgCollisionChamferCylinder(); // private: protected: void Init(dgFloat32 radius, dgFloat32 height); // bool IsInside (const dgPlane& plane, dgVector& point) const; // bool GetPointOnSurface (const dgVector& origin, const dgVector& dir, dgVector& point) const; virtual dgFloat32 RayCast(const dgVector &localP0, const dgVector &localP1, dgContactPoint &contactOut, OnRayPrecastAction preFilter, const dgBody *const body, void *const userData) const; virtual dgFloat32 RayCastSimd(const dgVector &localP0, const dgVector &localP1, dgContactPoint &contactOut, OnRayPrecastAction preFilter, const dgBody *const body, void *const userData) const; virtual dgVector SupportVertex(const dgVector &dir) const; virtual dgVector SupportVertexSimd(const dgVector &dir) const; // dgVector ImplicitCylindexSupport (const dgVector& dir) const; virtual dgInt32 CalculatePlaneIntersection(const dgVector &normal, const dgVector &origin, dgVector *const contactsOut) const; virtual dgInt32 CalculatePlaneIntersectionSimd(const dgVector &normal, const dgVector &point, dgVector *const contactsOut) const; // virtual void DebugCollision (const dgBody& myBody, DebugCollisionMeshCallback callback) const; virtual void DebugCollision(const dgMatrix &matrix, OnDebugCollisionMeshCallback callback, void *const userData) const; virtual dgInt32 CalculateSignature() const; virtual void SetCollisionBBox(const dgVector &p0, const dgVector &p1); virtual void GetCollisionInfo(dgCollisionInfo *info) const; virtual void Serialize(dgSerialize callback, void *const userData) const; private: // dgVector QuatizedSupportVertex (const dgVector& dir) const; // dgVector QuatizedSupportVertexSimd (const dgVector& dir) const; dgFloat32 m_height; dgFloat32 m_radius; // dgFloat32 m_delCosTetha; // dgFloat32 m_delSinTetha; // dgFloat32 m_tethaStep; // dgFloat32 m_tethaStepInv; dgVector m_silhuette[4]; dgVector m_vertex[DG_CHAMFERCYLINDER_BRAKES * (DG_CHAMFERCYLINDER_SLICES + 1)]; static dgInt32 m_shapeRefCount; static dgConvexSimplexEdge m_edgeArray[]; friend class dgWorld; }; #endif