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btSequentialImpulseConstraintSolver.h - Hosted on DriveHQ Cloud IT Platform
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路径: \\game3dprogramming\materials\DarkPuzzle\libs\bullet_src\BulletDynamics\ConstraintSolver\btSequentialImpulseConstraintSolver.h
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/* Bullet Continuous Collision Detection and Physics Library Copyright (c) 2003-2006 Erwin Coumans http://continuousphysics.com/Bullet/ 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. */ #ifndef SEQUENTIAL_IMPULSE_CONSTRAINT_SOLVER_H #define SEQUENTIAL_IMPULSE_CONSTRAINT_SOLVER_H #include "btConstraintSolver.h" class btIDebugDraw; #include "btContactConstraint.h" #include "btSolverBody.h" #include "btSolverConstraint.h" /// btSequentialImpulseConstraintSolver uses a Propagation Method and Sequentially applies impulses /// The approach is the 3D version of Erin Catto's GDC 2006 tutorial. See http://www.gphysics.com /// Although Sequential Impulse is more intuitive, it is mathematically equivalent to Projected Successive Overrelaxation (iterative LCP) /// Applies impulses for combined restitution and penetration recovery and to simulate friction class btSequentialImpulseConstraintSolver : public btConstraintSolver { btAlignedObjectArray
m_tmpSolverBodyPool; btAlignedObjectArray
m_tmpSolverConstraintPool; btAlignedObjectArray
m_tmpSolverFrictionConstraintPool; btAlignedObjectArray
m_orderTmpConstraintPool; btAlignedObjectArray
m_orderFrictionConstraintPool; protected: btScalar solve(btRigidBody* body0,btRigidBody* body1, btManifoldPoint& cp, const btContactSolverInfo& info,int iter,btIDebugDraw* debugDrawer); btScalar solveFriction(btRigidBody* body0,btRigidBody* body1, btManifoldPoint& cp, const btContactSolverInfo& info,int iter,btIDebugDraw* debugDrawer); void prepareConstraints(btPersistentManifold* manifoldPtr, const btContactSolverInfo& info,btIDebugDraw* debugDrawer); void addFrictionConstraint(const btVector3& normalAxis,int solverBodyIdA,int solverBodyIdB,int frictionIndex,btManifoldPoint& cp,const btVector3& rel_pos1,const btVector3& rel_pos2,btCollisionObject* colObj0,btCollisionObject* colObj1, btScalar relaxation); ContactSolverFunc m_contactDispatch[MAX_CONTACT_SOLVER_TYPES][MAX_CONTACT_SOLVER_TYPES]; ContactSolverFunc m_frictionDispatch[MAX_CONTACT_SOLVER_TYPES][MAX_CONTACT_SOLVER_TYPES]; //choose between several modes, different friction model etc. int m_solverMode; ///m_btSeed2 is used for re-arranging the constraint rows. improves convergence/quality of friction unsigned long m_btSeed2; public: enum eSolverMode { SOLVER_RANDMIZE_ORDER = 1, SOLVER_FRICTION_SEPARATE = 2, SOLVER_USE_WARMSTARTING = 4, SOLVER_CACHE_FRIENDLY = 8 }; btSequentialImpulseConstraintSolver(); ///Advanced: Override the default contact solving function for contacts, for certain types of rigidbody ///See btRigidBody::m_contactSolverType and btRigidBody::m_frictionSolverType void setContactSolverFunc(ContactSolverFunc func,int type0,int type1) { m_contactDispatch[type0][type1] = func; } ///Advanced: Override the default friction solving function for contacts, for certain types of rigidbody ///See btRigidBody::m_contactSolverType and btRigidBody::m_frictionSolverType void SetFrictionSolverFunc(ContactSolverFunc func,int type0,int type1) { m_frictionDispatch[type0][type1] = func; } virtual ~btSequentialImpulseConstraintSolver(); virtual btScalar solveGroup(btCollisionObject** bodies,int numBodies,btPersistentManifold** manifold,int numManifolds,btTypedConstraint** constraints,int numConstraints,const btContactSolverInfo& info, btIDebugDraw* debugDrawer, btStackAlloc* stackAlloc,btDispatcher* dispatcher); virtual btScalar solveGroupCacheFriendly(btCollisionObject** bodies,int numBodies,btPersistentManifold** manifoldPtr, int numManifolds,btTypedConstraint** constraints,int numConstraints,const btContactSolverInfo& infoGlobal,btIDebugDraw* debugDrawer,btStackAlloc* stackAlloc); btScalar solveGroupCacheFriendlyIterations(btCollisionObject** bodies,int numBodies,btPersistentManifold** manifoldPtr, int numManifolds,btTypedConstraint** constraints,int numConstraints,const btContactSolverInfo& infoGlobal,btIDebugDraw* debugDrawer,btStackAlloc* stackAlloc); btScalar solveGroupCacheFriendlySetup(btCollisionObject** bodies,int numBodies,btPersistentManifold** manifoldPtr, int numManifolds,btTypedConstraint** constraints,int numConstraints,const btContactSolverInfo& infoGlobal,btIDebugDraw* debugDrawer,btStackAlloc* stackAlloc); ///clear internal cached data and reset random seed virtual void reset(); btScalar solveCombinedContactFriction(btRigidBody* body0,btRigidBody* body1, btManifoldPoint& cp, const btContactSolverInfo& info,int iter,btIDebugDraw* debugDrawer); void setSolverMode(int mode) { m_solverMode = mode; } int getSolverMode() const { return m_solverMode; } unsigned long btRand2(); int btRandInt2 (int n); void setRandSeed(unsigned long seed) { m_btSeed2 = seed; } unsigned long getRandSeed() const { return m_btSeed2; } }; #ifndef BT_PREFER_SIMD typedef btSequentialImpulseConstraintSolver btSequentialImpulseConstraintSolverPrefered; #endif #endif //SEQUENTIAL_IMPULSE_CONSTRAINT_SOLVER_H
btSequentialImpulseConstraintSolver.h
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