btGearConstraint Class Reference

The btGeatConstraint will couple the angular velocity for two bodies around given local axis and ratio. More...

#include <btGearConstraint.h>

Inheritance diagram for btGearConstraint:

Collaboration diagram for btGearConstraint:

Public Member Functions
	btGearConstraint (btRigidBody &rbA, btRigidBody &rbB, const btVector3 &axisInA, const btVector3 &axisInB, btScalar ratio=1.f)
	Implemented by Erwin Coumans. The idea for the constraint comes from Dimitris Papavasiliou.
virtual	~btGearConstraint ()
virtual void	getInfo1 (btConstraintInfo1 *info)
	internal method used by the constraint solver, don't use them directly
virtual void	getInfo2 (btConstraintInfo2 *info)
	internal method used by the constraint solver, don't use them directly
void	setAxisA (btVector3 &axisA)
void	setAxisB (btVector3 &axisB)
void	setRatio (btScalar ratio)
const btVector3 &	getAxisA () const
const btVector3 &	getAxisB () const
btScalar	getRatio () const
virtual void	setParam (int num, btScalar value, int axis=-1)
	override the default global value of a parameter (such as ERP or CFM), optionally provide the axis (0..5).
virtual btScalar	getParam (int num, int axis=-1) const
	return the local value of parameter
virtual int	calculateSerializeBufferSize () const
virtual const char *	serialize (void *dataBuffer, btSerializer *serializer) const
	fills the dataBuffer and returns the struct name (and 0 on failure)
Public Member Functions inherited from btTypedConstraint
	BT_DECLARE_ALIGNED_ALLOCATOR ()
virtual	~btTypedConstraint ()
	btTypedConstraint (btTypedConstraintType type, btRigidBody &rbA)
	btTypedConstraint (btTypedConstraintType type, btRigidBody &rbA, btRigidBody &rbB)
int	getOverrideNumSolverIterations () const
void	setOverrideNumSolverIterations (int overideNumIterations)
	override the number of constraint solver iterations used to solve this constraint -1 will use the default number of iterations, as specified in SolverInfo.m_numIterations
virtual void	buildJacobian ()
	internal method used by the constraint solver, don't use them directly
virtual void	setupSolverConstraint (btConstraintArray &ca, int solverBodyA, int solverBodyB, btScalar timeStep)
	internal method used by the constraint solver, don't use them directly
void	internalSetAppliedImpulse (btScalar appliedImpulse)
	internal method used by the constraint solver, don't use them directly
btScalar	internalGetAppliedImpulse ()
	internal method used by the constraint solver, don't use them directly
btScalar	getBreakingImpulseThreshold () const
void	setBreakingImpulseThreshold (btScalar threshold)
bool	isEnabled () const
void	setEnabled (bool enabled)
virtual void	solveConstraintObsolete (btSolverBody &, btSolverBody &, btScalar)
	internal method used by the constraint solver, don't use them directly
const btRigidBody &	getRigidBodyA () const
const btRigidBody &	getRigidBodyB () const
btRigidBody &	getRigidBodyA ()
btRigidBody &	getRigidBodyB ()
int	getUserConstraintType () const
void	setUserConstraintType (int userConstraintType)
void	setUserConstraintId (int uid)
int	getUserConstraintId () const
void	setUserConstraintPtr (void *ptr)
void *	getUserConstraintPtr ()
void	setJointFeedback (btJointFeedback *jointFeedback)
const btJointFeedback *	getJointFeedback () const
btJointFeedback *	getJointFeedback ()
int	getUid () const
bool	needsFeedback () const
void	enableFeedback (bool needsFeedback)
	enableFeedback will allow to read the applied linear and angular impulse use getAppliedImpulse, getAppliedLinearImpulse and getAppliedAngularImpulse to read feedback information
btScalar	getAppliedImpulse () const
	getAppliedImpulse is an estimated total applied impulse.
btTypedConstraintType	getConstraintType () const
void	setDbgDrawSize (btScalar dbgDrawSize)
btScalar	getDbgDrawSize ()
Public Member Functions inherited from btTypedObject
	btTypedObject (int objectType)
int	getObjectType () const

Protected Attributes
btVector3	m_axisInA
btVector3	m_axisInB
bool	m_useFrameA
btScalar	m_ratio
Protected Attributes inherited from btTypedConstraint
btRigidBody &	m_rbA
btRigidBody &	m_rbB
btScalar	m_appliedImpulse
btScalar	m_dbgDrawSize
btJointFeedback *	m_jointFeedback

Additional Inherited Members
Static Public Member Functions inherited from btTypedConstraint
static btRigidBody &	getFixedBody ()
Public Attributes inherited from btTypedObject
int	m_objectType
Protected Member Functions inherited from btTypedConstraint
btScalar	getMotorFactor (btScalar pos, btScalar lowLim, btScalar uppLim, btScalar vel, btScalar timeFact)
	internal method used by the constraint solver, don't use them directly

Detailed Description

The btGeatConstraint will couple the angular velocity for two bodies around given local axis and ratio.

See Bullet/Demos/ConstraintDemo for an example use.

Definition at line 36 of file btGearConstraint.h.

Constructor & Destructor Documentation

btGearConstraint::btGearConstraint	(	btRigidBody &	rbA,
		btRigidBody &	rbB,
		const btVector3 &	axisInA,
		const btVector3 &	axisInB,
		btScalar	ratio = 1.f
	)

Implemented by Erwin Coumans. The idea for the constraint comes from Dimitris Papavasiliou.

Definition at line 20 of file btGearConstraint.cpp.

btGearConstraint::~btGearConstraint ( )

virtual

Definition at line 28 of file btGearConstraint.cpp.

Member Function Documentation

int btGearConstraint::calculateSerializeBufferSize ( ) const

inlinevirtual

Reimplemented from btTypedConstraint.

Definition at line 128 of file btGearConstraint.h.

const btVector3& btGearConstraint::getAxisA ( ) const

inline

Definition at line 66 of file btGearConstraint.h.

const btVector3& btGearConstraint::getAxisB ( ) const

inline

Definition at line 70 of file btGearConstraint.h.

void btGearConstraint::getInfo1 ( btConstraintInfo1 *  info )

virtual

internal method used by the constraint solver, don't use them directly

Implements btTypedConstraint.

Definition at line 32 of file btGearConstraint.cpp.

void btGearConstraint::getInfo2 ( btConstraintInfo2 *  info )

virtual

internal method used by the constraint solver, don't use them directly

Implements btTypedConstraint.

Definition at line 38 of file btGearConstraint.cpp.

virtual btScalar btGearConstraint::getParam ( int  num, int  axis = -1  ) const

inlinevirtual

return the local value of parameter

Implements btTypedConstraint.

Definition at line 89 of file btGearConstraint.h.

btScalar btGearConstraint::getRatio ( ) const

inline

Definition at line 74 of file btGearConstraint.h.

const char * btGearConstraint::serialize ( void *  dataBuffer, btSerializer *  serializer  ) const

inlinevirtual

fills the dataBuffer and returns the struct name (and 0 on failure)

Reimplemented from btTypedConstraint.

Definition at line 134 of file btGearConstraint.h.

void btGearConstraint::setAxisA ( btVector3 &  axisA )

inline

Definition at line 54 of file btGearConstraint.h.

void btGearConstraint::setAxisB ( btVector3 &  axisB )

inline

Definition at line 58 of file btGearConstraint.h.

virtual void btGearConstraint::setParam ( int  num, btScalar  value, int  axis = -1  )

inlinevirtual

override the default global value of a parameter (such as ERP or CFM), optionally provide the axis (0..5).

If no axis is provided, it uses the default axis for this constraint.

Implements btTypedConstraint.

Definition at line 80 of file btGearConstraint.h.

void btGearConstraint::setRatio ( btScalar  ratio )

inline

Definition at line 62 of file btGearConstraint.h.

Member Data Documentation

btVector3 btGearConstraint::m_axisInA

protected

Definition at line 39 of file btGearConstraint.h.

btVector3 btGearConstraint::m_axisInB

protected

Definition at line 40 of file btGearConstraint.h.

btScalar btGearConstraint::m_ratio

protected

Definition at line 42 of file btGearConstraint.h.

bool btGearConstraint::m_useFrameA

protected

Definition at line 41 of file btGearConstraint.h.

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The documentation for this class was generated from the following files:

• btGearConstraint.h
• btGearConstraint.cpp