204 lines
6.0 KiB
C++
204 lines
6.0 KiB
C++
/*
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Bullet Continuous Collision Detection and Physics Library
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Copyright (c) 2013 Erwin Coumans http://bulletphysics.org
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This software is provided 'as-is', without any express or implied warranty.
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In no event will the authors be held liable for any damages arising from the use of this software.
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Permission is granted to anyone to use this software for any purpose,
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including commercial applications, and to alter it and redistribute it freely,
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subject to the following restrictions:
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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.
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2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source distribution.
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*/
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#ifndef BT_MULTIBODY_CONSTRAINT_H
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#define BT_MULTIBODY_CONSTRAINT_H
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#include "LinearMath/btScalar.h"
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#include "LinearMath/btAlignedObjectArray.h"
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#include "btMultiBody.h"
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class btMultiBody;
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struct btSolverInfo;
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#include "btMultiBodySolverConstraint.h"
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struct btMultiBodyJacobianData
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{
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btAlignedObjectArray<btScalar> m_jacobians;
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btAlignedObjectArray<btScalar> m_deltaVelocitiesUnitImpulse; //holds the joint-space response of the corresp. tree to the test impulse in each constraint space dimension
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btAlignedObjectArray<btScalar> m_deltaVelocities; //holds joint-space vectors of all the constrained trees accumulating the effect of corrective impulses applied in SI
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btAlignedObjectArray<btScalar> scratch_r;
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btAlignedObjectArray<btVector3> scratch_v;
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btAlignedObjectArray<btMatrix3x3> scratch_m;
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btAlignedObjectArray<btSolverBody>* m_solverBodyPool;
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int m_fixedBodyId;
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};
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ATTRIBUTE_ALIGNED16(class) btMultiBodyConstraint
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{
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protected:
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btMultiBody* m_bodyA;
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btMultiBody* m_bodyB;
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int m_linkA;
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int m_linkB;
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int m_numRows;
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int m_jacSizeA;
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int m_jacSizeBoth;
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int m_posOffset;
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bool m_isUnilateral;
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int m_numDofsFinalized;
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btScalar m_maxAppliedImpulse;
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// warning: the data block lay out is not consistent for all constraints
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// data block laid out as follows:
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// cached impulses. (one per row.)
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// jacobians. (interleaved, row1 body1 then row1 body2 then row2 body 1 etc)
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// positions. (one per row.)
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btAlignedObjectArray<btScalar> m_data;
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void applyDeltaVee(btMultiBodyJacobianData& data, btScalar* delta_vee, btScalar impulse, int velocityIndex, int ndof);
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btScalar fillMultiBodyConstraint(btMultiBodySolverConstraint& solverConstraint,
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btMultiBodyJacobianData& data,
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btScalar* jacOrgA, btScalar* jacOrgB,
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const btVector3& constraintNormalAng,
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const btVector3& constraintNormalLin,
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const btVector3& posAworld, const btVector3& posBworld,
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btScalar posError,
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const btContactSolverInfo& infoGlobal,
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btScalar lowerLimit, btScalar upperLimit,
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bool angConstraint = false,
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btScalar relaxation = 1.f,
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bool isFriction = false, btScalar desiredVelocity=0, btScalar cfmSlip=0);
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public:
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BT_DECLARE_ALIGNED_ALLOCATOR();
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btMultiBodyConstraint(btMultiBody* bodyA,btMultiBody* bodyB,int linkA, int linkB, int numRows, bool isUnilateral);
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virtual ~btMultiBodyConstraint();
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void updateJacobianSizes();
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void allocateJacobiansMultiDof();
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//many constraints have setFrameInB/setPivotInB. Will use 'getConstraintType' later.
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virtual void setFrameInB(const btMatrix3x3& frameInB) {}
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virtual void setPivotInB(const btVector3& pivotInB){}
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virtual void finalizeMultiDof()=0;
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virtual int getIslandIdA() const =0;
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virtual int getIslandIdB() const =0;
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virtual void createConstraintRows(btMultiBodyConstraintArray& constraintRows,
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btMultiBodyJacobianData& data,
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const btContactSolverInfo& infoGlobal)=0;
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int getNumRows() const
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{
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return m_numRows;
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}
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btMultiBody* getMultiBodyA()
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{
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return m_bodyA;
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}
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btMultiBody* getMultiBodyB()
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{
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return m_bodyB;
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}
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int getLinkA() const
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{
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return m_linkA;
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}
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int getLinkB() const
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{
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return m_linkB;
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}
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void internalSetAppliedImpulse(int dof, btScalar appliedImpulse)
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{
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btAssert(dof>=0);
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btAssert(dof < getNumRows());
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m_data[dof] = appliedImpulse;
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}
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btScalar getAppliedImpulse(int dof)
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{
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btAssert(dof>=0);
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btAssert(dof < getNumRows());
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return m_data[dof];
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}
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// current constraint position
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// constraint is pos >= 0 for unilateral, or pos = 0 for bilateral
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// NOTE: ignored position for friction rows.
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btScalar getPosition(int row) const
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{
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return m_data[m_posOffset + row];
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}
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void setPosition(int row, btScalar pos)
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{
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m_data[m_posOffset + row] = pos;
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}
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bool isUnilateral() const
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{
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return m_isUnilateral;
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}
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// jacobian blocks.
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// each of size 6 + num_links. (jacobian2 is null if no body2.)
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// format: 3 'omega' coefficients, 3 'v' coefficients, then the 'qdot' coefficients.
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btScalar* jacobianA(int row)
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{
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return &m_data[m_numRows + row * m_jacSizeBoth];
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}
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const btScalar* jacobianA(int row) const
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{
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return &m_data[m_numRows + (row * m_jacSizeBoth)];
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}
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btScalar* jacobianB(int row)
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{
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return &m_data[m_numRows + (row * m_jacSizeBoth) + m_jacSizeA];
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}
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const btScalar* jacobianB(int row) const
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{
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return &m_data[m_numRows + (row * m_jacSizeBoth) + m_jacSizeA];
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}
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btScalar getMaxAppliedImpulse() const
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{
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return m_maxAppliedImpulse;
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}
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void setMaxAppliedImpulse(btScalar maxImp)
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{
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m_maxAppliedImpulse = maxImp;
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}
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virtual void debugDraw(class btIDebugDraw* drawer)=0;
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virtual void setGearRatio(btScalar ratio) {}
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virtual void setGearAuxLink(int gearAuxLink) {}
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virtual void setRelativePositionTarget(btScalar relPosTarget){}
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virtual void setErp(btScalar erp){}
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};
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#endif //BT_MULTIBODY_CONSTRAINT_H
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