/* 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_DGBILATERALCONSTRAINT_H__7C9E1F9A_5EC6_48BE_8C9F_FB90132C6619__INCLUDED_) #define AFX_DGBILATERALCONSTRAINT_H__7C9E1F9A_5EC6_48BE_8C9F_FB90132C6619__INCLUDED_ #include "dgConstraint.h" class dgBilateralConstraint: public dgConstraint { public: virtual void SetDestructorCallback(OnConstraintDestroy destructor); protected: dgBilateralConstraint(); virtual ~dgBilateralConstraint(); virtual void Init() { NEWTON_ASSERT(0); } virtual void Remove(dgWorld *world) { NEWTON_ASSERT(0); } virtual bool IsBilateral() const; virtual dgFloat32 GetStiffness() const; virtual void SetStiffness(dgFloat32 stiffness); void SetPivotAndPinDir(const dgVector &pivot, const dgVector &pinDirection); void SetPivotAndPinDir(const dgVector &pivot, const dgVector &pinDirection0, const dgVector &pinDirection1); dgVector CalculateGlobalMatrixAndAngle(dgMatrix &globalMatrix0, dgMatrix &globalMatrix1) const; void CalculateMatrixOffset(const dgVector &pivot, const dgVector &dir, dgMatrix &matrix0, dgMatrix &matrix1); virtual void JointAccelerations(const dgJointAccelerationDecriptor ¶ms); virtual void JointAccelerationsSimd(const dgJointAccelerationDecriptor ¶ms); virtual void JointVelocityCorrection(const dgJointAccelerationDecriptor ¶ms); void SetMotorAcceleration(dgInt32 index, dgFloat32 accelration, dgContraintDescritor &desc); void SetJacobianDerivative(dgInt32 index, dgContraintDescritor &desc, const dgFloat32 *jacobianA, const dgFloat32 *jacobianB, dgFloat32 *jointForce); void CalculatePointDerivative(dgInt32 index, dgContraintDescritor &desc, const dgVector &normalGlobal, const dgPointParam ¶m, dgFloat32 *jointForce); void CalculateAngularDerivative(dgInt32 index, dgContraintDescritor &desc, const dgVector &normalGlobal, dgFloat32 stiffness, dgFloat32 jointAngle, dgFloat32 *jointForce); dgFloat32 CalculateSpringDamperAcceleration(dgInt32 index, const dgContraintDescritor &desc, dgFloat32 jointAngle, const dgVector &p0Global, const dgVector &p1Global, dgFloat32 springK, dgFloat32 springD); dgMatrix m_localMatrix0; dgMatrix m_localMatrix1; dgFloat32 m_stiffness; dgFloat32 m_jointForce[32]; dgInt32 m_rowIsMotor[32]; dgFloat32 m_motorAcceleration[32]; OnConstraintDestroy m_destructor; }; #endif // !defined(AFX_DGBILATERALCONSTRAINT_H__7C9E1F9A_5EC6_48BE_8C9F_FB90132C6619__INCLUDED_)