229 lines
6 KiB
C++
229 lines
6 KiB
C++
/*
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Bullet Continuous Collision Detection and Physics Library
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Copyright (c) 2003-2006 Erwin Coumans http://continuousphysics.com/Bullet/
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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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#include "btPoint2PointConstraint.h"
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#include "BulletDynamics/Dynamics/btRigidBody.h"
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#include <new>
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btPoint2PointConstraint::btPoint2PointConstraint(btRigidBody& rbA,btRigidBody& rbB, const btVector3& pivotInA,const btVector3& pivotInB)
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:btTypedConstraint(POINT2POINT_CONSTRAINT_TYPE,rbA,rbB),m_pivotInA(pivotInA),m_pivotInB(pivotInB),
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m_flags(0),
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m_useSolveConstraintObsolete(false)
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{
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}
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btPoint2PointConstraint::btPoint2PointConstraint(btRigidBody& rbA,const btVector3& pivotInA)
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:btTypedConstraint(POINT2POINT_CONSTRAINT_TYPE,rbA),m_pivotInA(pivotInA),m_pivotInB(rbA.getCenterOfMassTransform()(pivotInA)),
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m_flags(0),
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m_useSolveConstraintObsolete(false)
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{
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}
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void btPoint2PointConstraint::buildJacobian()
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{
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///we need it for both methods
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{
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m_appliedImpulse = btScalar(0.);
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btVector3 normal(0,0,0);
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for (int i=0;i<3;i++)
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{
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normal[i] = 1;
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new (&m_jac[i]) btJacobianEntry(
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m_rbA.getCenterOfMassTransform().getBasis().transpose(),
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m_rbB.getCenterOfMassTransform().getBasis().transpose(),
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m_rbA.getCenterOfMassTransform()*m_pivotInA - m_rbA.getCenterOfMassPosition(),
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m_rbB.getCenterOfMassTransform()*m_pivotInB - m_rbB.getCenterOfMassPosition(),
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normal,
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m_rbA.getInvInertiaDiagLocal(),
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m_rbA.getInvMass(),
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m_rbB.getInvInertiaDiagLocal(),
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m_rbB.getInvMass());
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normal[i] = 0;
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}
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}
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}
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void btPoint2PointConstraint::getInfo1 (btConstraintInfo1* info)
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{
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getInfo1NonVirtual(info);
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}
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void btPoint2PointConstraint::getInfo1NonVirtual (btConstraintInfo1* info)
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{
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if (m_useSolveConstraintObsolete)
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{
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info->m_numConstraintRows = 0;
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info->nub = 0;
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} else
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{
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info->m_numConstraintRows = 3;
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info->nub = 3;
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}
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}
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void btPoint2PointConstraint::getInfo2 (btConstraintInfo2* info)
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{
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getInfo2NonVirtual(info, m_rbA.getCenterOfMassTransform(),m_rbB.getCenterOfMassTransform());
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}
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void btPoint2PointConstraint::getInfo2NonVirtual (btConstraintInfo2* info, const btTransform& body0_trans, const btTransform& body1_trans)
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{
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btAssert(!m_useSolveConstraintObsolete);
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//retrieve matrices
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// anchor points in global coordinates with respect to body PORs.
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// set jacobian
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info->m_J1linearAxis[0] = 1;
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info->m_J1linearAxis[info->rowskip+1] = 1;
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info->m_J1linearAxis[2*info->rowskip+2] = 1;
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btVector3 a1 = body0_trans.getBasis()*getPivotInA();
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{
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btVector3* angular0 = (btVector3*)(info->m_J1angularAxis);
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btVector3* angular1 = (btVector3*)(info->m_J1angularAxis+info->rowskip);
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btVector3* angular2 = (btVector3*)(info->m_J1angularAxis+2*info->rowskip);
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btVector3 a1neg = -a1;
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a1neg.getSkewSymmetricMatrix(angular0,angular1,angular2);
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}
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info->m_J2linearAxis[0] = -1;
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info->m_J2linearAxis[info->rowskip+1] = -1;
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info->m_J2linearAxis[2*info->rowskip+2] = -1;
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btVector3 a2 = body1_trans.getBasis()*getPivotInB();
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{
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// btVector3 a2n = -a2;
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btVector3* angular0 = (btVector3*)(info->m_J2angularAxis);
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btVector3* angular1 = (btVector3*)(info->m_J2angularAxis+info->rowskip);
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btVector3* angular2 = (btVector3*)(info->m_J2angularAxis+2*info->rowskip);
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a2.getSkewSymmetricMatrix(angular0,angular1,angular2);
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}
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// set right hand side
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btScalar currERP = (m_flags & BT_P2P_FLAGS_ERP) ? m_erp : info->erp;
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btScalar k = info->fps * currERP;
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int j;
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for (j=0; j<3; j++)
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{
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info->m_constraintError[j*info->rowskip] = k * (a2[j] + body1_trans.getOrigin()[j] - a1[j] - body0_trans.getOrigin()[j]);
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//printf("info->m_constraintError[%d]=%f\n",j,info->m_constraintError[j]);
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}
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if(m_flags & BT_P2P_FLAGS_CFM)
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{
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for (j=0; j<3; j++)
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{
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info->cfm[j*info->rowskip] = m_cfm;
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}
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}
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btScalar impulseClamp = m_setting.m_impulseClamp;//
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for (j=0; j<3; j++)
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{
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if (m_setting.m_impulseClamp > 0)
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{
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info->m_lowerLimit[j*info->rowskip] = -impulseClamp;
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info->m_upperLimit[j*info->rowskip] = impulseClamp;
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}
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}
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info->m_damping = m_setting.m_damping;
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}
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void btPoint2PointConstraint::updateRHS(btScalar timeStep)
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{
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(void)timeStep;
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}
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///override the default global value of a parameter (such as ERP or CFM), optionally provide the axis (0..5).
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///If no axis is provided, it uses the default axis for this constraint.
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void btPoint2PointConstraint::setParam(int num, btScalar value, int axis)
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{
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if(axis != -1)
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{
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btAssertConstrParams(0);
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}
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else
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{
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switch(num)
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{
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case BT_CONSTRAINT_ERP :
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case BT_CONSTRAINT_STOP_ERP :
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m_erp = value;
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m_flags |= BT_P2P_FLAGS_ERP;
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break;
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case BT_CONSTRAINT_CFM :
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case BT_CONSTRAINT_STOP_CFM :
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m_cfm = value;
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m_flags |= BT_P2P_FLAGS_CFM;
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break;
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default:
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btAssertConstrParams(0);
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}
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}
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}
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///return the local value of parameter
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btScalar btPoint2PointConstraint::getParam(int num, int axis) const
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{
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btScalar retVal(SIMD_INFINITY);
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if(axis != -1)
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{
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btAssertConstrParams(0);
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}
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else
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{
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switch(num)
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{
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case BT_CONSTRAINT_ERP :
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case BT_CONSTRAINT_STOP_ERP :
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btAssertConstrParams(m_flags & BT_P2P_FLAGS_ERP);
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retVal = m_erp;
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break;
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case BT_CONSTRAINT_CFM :
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case BT_CONSTRAINT_STOP_CFM :
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btAssertConstrParams(m_flags & BT_P2P_FLAGS_CFM);
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retVal = m_cfm;
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break;
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default:
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btAssertConstrParams(0);
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}
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}
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return retVal;
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}
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