Generic 6 DOF constraint that allows to set spring motors to any translational and rotational DOF.
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| BT_DECLARE_ALIGNED_ALLOCATOR () |
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| btGeneric6DofSpringConstraint (btRigidBody &rbA, btRigidBody &rbB, const btTransform &frameInA, const btTransform &frameInB, bool useLinearReferenceFrameA) |
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| btGeneric6DofSpringConstraint (btRigidBody &rbB, const btTransform &frameInB, bool useLinearReferenceFrameB) |
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void | enableSpring (int index, bool onOff) |
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void | setStiffness (int index, btScalar stiffness) |
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void | setDamping (int index, btScalar damping) |
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void | setEquilibriumPoint () |
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void | setEquilibriumPoint (int index) |
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void | setEquilibriumPoint (int index, btScalar val) |
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virtual void | setAxis (const btVector3 &axis1, const btVector3 &axis2) |
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virtual void | getInfo2 (btConstraintInfo2 *info) |
| internal method used by the constraint solver, don't use them directly More...
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virtual int | calculateSerializeBufferSize () const |
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virtual const char * | serialize (void *dataBuffer, btSerializer *serializer) const |
| fills the dataBuffer and returns the struct name (and 0 on failure) More...
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| BT_DECLARE_ALIGNED_ALLOCATOR () |
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| btGeneric6DofConstraint (btRigidBody &rbA, btRigidBody &rbB, const btTransform &frameInA, const btTransform &frameInB, bool useLinearReferenceFrameA) |
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| btGeneric6DofConstraint (btRigidBody &rbB, const btTransform &frameInB, bool useLinearReferenceFrameB) |
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void | calculateTransforms (const btTransform &transA, const btTransform &transB) |
| Calcs global transform of the offsets. More...
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void | calculateTransforms () |
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const btTransform & | getCalculatedTransformA () const |
| Gets the global transform of the offset for body A. More...
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const btTransform & | getCalculatedTransformB () const |
| Gets the global transform of the offset for body B. More...
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const btTransform & | getFrameOffsetA () const |
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const btTransform & | getFrameOffsetB () const |
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btTransform & | getFrameOffsetA () |
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btTransform & | getFrameOffsetB () |
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virtual void | buildJacobian () |
| performs Jacobian calculation, and also calculates angle differences and axis More...
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virtual void | getInfo1 (btConstraintInfo1 *info) |
| internal method used by the constraint solver, don't use them directly More...
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void | getInfo1NonVirtual (btConstraintInfo1 *info) |
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void | getInfo2NonVirtual (btConstraintInfo2 *info, const btTransform &transA, const btTransform &transB, const btVector3 &linVelA, const btVector3 &linVelB, const btVector3 &angVelA, const btVector3 &angVelB) |
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void | updateRHS (btScalar timeStep) |
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btVector3 | getAxis (int axis_index) const |
| Get the rotation axis in global coordinates. More...
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btScalar | getAngle (int axis_index) const |
| Get the relative Euler angle. More...
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btScalar | getRelativePivotPosition (int axis_index) const |
| Get the relative position of the constraint pivot. More...
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void | setFrames (const btTransform &frameA, const btTransform &frameB) |
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bool | testAngularLimitMotor (int axis_index) |
| Test angular limit. More...
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void | setLinearLowerLimit (const btVector3 &linearLower) |
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void | getLinearLowerLimit (btVector3 &linearLower) |
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void | setLinearUpperLimit (const btVector3 &linearUpper) |
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void | getLinearUpperLimit (btVector3 &linearUpper) |
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void | setAngularLowerLimit (const btVector3 &angularLower) |
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void | getAngularLowerLimit (btVector3 &angularLower) |
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void | setAngularUpperLimit (const btVector3 &angularUpper) |
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void | getAngularUpperLimit (btVector3 &angularUpper) |
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btRotationalLimitMotor * | getRotationalLimitMotor (int index) |
| Retrieves the angular limit informacion. More...
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btTranslationalLimitMotor * | getTranslationalLimitMotor () |
| Retrieves the limit informacion. More...
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void | setLimit (int axis, btScalar lo, btScalar hi) |
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bool | isLimited (int limitIndex) |
| Test limit. More...
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virtual void | calcAnchorPos (void) |
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int | get_limit_motor_info2 (btRotationalLimitMotor *limot, const btTransform &transA, const btTransform &transB, const btVector3 &linVelA, const btVector3 &linVelB, const btVector3 &angVelA, const btVector3 &angVelB, btConstraintInfo2 *info, int row, btVector3 &ax1, int rotational, int rotAllowed=false) |
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bool | getUseFrameOffset () |
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void | setUseFrameOffset (bool frameOffsetOnOff) |
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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). More...
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virtual btScalar | getParam (int num, int axis=-1) const |
| return the local value of parameter More...
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void | setAxis (const btVector3 &axis1, const btVector3 &axis2) |
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| BT_DECLARE_ALIGNED_ALLOCATOR () |
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virtual | ~btTypedConstraint () |
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| btTypedConstraint (btTypedConstraintType type, btRigidBody &rbA) |
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| btTypedConstraint (btTypedConstraintType type, btRigidBody &rbA, btRigidBody &rbB) |
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int | getOverrideNumSolverIterations () const |
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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 More...
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virtual void | setupSolverConstraint (btConstraintArray &ca, int solverBodyA, int solverBodyB, btScalar timeStep) |
| internal method used by the constraint solver, don't use them directly More...
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void | internalSetAppliedImpulse (btScalar appliedImpulse) |
| internal method used by the constraint solver, don't use them directly More...
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btScalar | internalGetAppliedImpulse () |
| internal method used by the constraint solver, don't use them directly More...
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btScalar | getBreakingImpulseThreshold () const |
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void | setBreakingImpulseThreshold (btScalar threshold) |
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bool | isEnabled () const |
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void | setEnabled (bool enabled) |
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virtual void | solveConstraintObsolete (btSolverBody &, btSolverBody &, btScalar) |
| internal method used by the constraint solver, don't use them directly More...
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const btRigidBody & | getRigidBodyA () const |
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const btRigidBody & | getRigidBodyB () const |
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btRigidBody & | getRigidBodyA () |
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btRigidBody & | getRigidBodyB () |
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int | getUserConstraintType () const |
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void | setUserConstraintType (int userConstraintType) |
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void | setUserConstraintId (int uid) |
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int | getUserConstraintId () const |
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void | setUserConstraintPtr (void *ptr) |
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void * | getUserConstraintPtr () |
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void | setJointFeedback (btJointFeedback *jointFeedback) |
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const btJointFeedback * | getJointFeedback () const |
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btJointFeedback * | getJointFeedback () |
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int | getUid () const |
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bool | needsFeedback () const |
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void | enableFeedback (bool needsFeedback) |
| enableFeedback will allow to read the applied linear and angular impulse use getAppliedImpulse, getAppliedLinearImpulse and getAppliedAngularImpulse to read feedback information More...
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btScalar | getAppliedImpulse () const |
| getAppliedImpulse is an estimated total applied impulse. More...
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btTypedConstraintType | getConstraintType () const |
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void | setDbgDrawSize (btScalar dbgDrawSize) |
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btScalar | getDbgDrawSize () |
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| btTypedObject (int objectType) |
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int | getObjectType () const |
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Generic 6 DOF constraint that allows to set spring motors to any translational and rotational DOF.
DOF index used in enableSpring() and setStiffness() means: 0 : translation X 1 : translation Y 2 : translation Z 3 : rotation X (3rd Euler rotational around new position of X axis, range [-PI+epsilon, PI-epsilon] ) 4 : rotation Y (2nd Euler rotational around new position of Y axis, range [-PI/2+epsilon, PI/2-epsilon] ) 5 : rotation Z (1st Euler rotational around Z axis, range [-PI+epsilon, PI-epsilon] )
Definition at line 44 of file btGeneric6DofSpringConstraint.h.