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Diffstat (limited to 'thirdparty/bullet/src/BulletDynamics/Featherstone/btMultiBody.h')
| -rw-r--r-- | thirdparty/bullet/src/BulletDynamics/Featherstone/btMultiBody.h | 814 |
1 files changed, 0 insertions, 814 deletions
diff --git a/thirdparty/bullet/src/BulletDynamics/Featherstone/btMultiBody.h b/thirdparty/bullet/src/BulletDynamics/Featherstone/btMultiBody.h deleted file mode 100644 index 655165ac18..0000000000 --- a/thirdparty/bullet/src/BulletDynamics/Featherstone/btMultiBody.h +++ /dev/null @@ -1,814 +0,0 @@ -/* - * PURPOSE: - * Class representing an articulated rigid body. Stores the body's - * current state, allows forces and torques to be set, handles - * timestepping and implements Featherstone's algorithm. - * - * COPYRIGHT: - * Copyright (C) Stephen Thompson, <stephen@solarflare.org.uk>, 2011-2013 - * Portions written By Erwin Coumans: connection to LCP solver, various multibody constraints, replacing Eigen math library by Bullet LinearMath and a dedicated 6x6 matrix inverse (solveImatrix) - * Portions written By Jakub Stepien: support for multi-DOF constraints, introduction of spatial algebra and several other improvements - - 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 BT_MULTIBODY_H -#define BT_MULTIBODY_H - -#include "LinearMath/btScalar.h" -#include "LinearMath/btVector3.h" -#include "LinearMath/btQuaternion.h" -#include "LinearMath/btMatrix3x3.h" -#include "LinearMath/btAlignedObjectArray.h" - - -///serialization data, don't change them if you are not familiar with the details of the serialization mechanisms -#ifdef BT_USE_DOUBLE_PRECISION - #define btMultiBodyData btMultiBodyDoubleData - #define btMultiBodyDataName "btMultiBodyDoubleData" - #define btMultiBodyLinkData btMultiBodyLinkDoubleData - #define btMultiBodyLinkDataName "btMultiBodyLinkDoubleData" -#else - #define btMultiBodyData btMultiBodyFloatData - #define btMultiBodyDataName "btMultiBodyFloatData" - #define btMultiBodyLinkData btMultiBodyLinkFloatData - #define btMultiBodyLinkDataName "btMultiBodyLinkFloatData" -#endif //BT_USE_DOUBLE_PRECISION - -#include "btMultiBodyLink.h" -class btMultiBodyLinkCollider; - -ATTRIBUTE_ALIGNED16(class) btMultiBody -{ -public: - - - BT_DECLARE_ALIGNED_ALLOCATOR(); - - // - // initialization - // - - btMultiBody(int n_links, // NOT including the base - btScalar mass, // mass of base - const btVector3 &inertia, // inertia of base, in base frame; assumed diagonal - bool fixedBase, // whether the base is fixed (true) or can move (false) - bool canSleep, bool deprecatedMultiDof=true); - - - virtual ~btMultiBody(); - - //note: fixed link collision with parent is always disabled - void setupFixed(int linkIndex, - btScalar mass, - const btVector3 &inertia, - int parent, - const btQuaternion &rotParentToThis, - const btVector3 &parentComToThisPivotOffset, - const btVector3 &thisPivotToThisComOffset, bool deprecatedDisableParentCollision=true); - - - void setupPrismatic(int i, - btScalar mass, - const btVector3 &inertia, - int parent, - const btQuaternion &rotParentToThis, - const btVector3 &jointAxis, - const btVector3 &parentComToThisPivotOffset, - const btVector3 &thisPivotToThisComOffset, - bool disableParentCollision); - - void setupRevolute(int linkIndex, // 0 to num_links-1 - btScalar mass, - const btVector3 &inertia, - int parentIndex, - const btQuaternion &rotParentToThis, // rotate points in parent frame to this frame, when q = 0 - const btVector3 &jointAxis, // in my frame - const btVector3 &parentComToThisPivotOffset, // vector from parent COM to joint axis, in PARENT frame - const btVector3 &thisPivotToThisComOffset, // vector from joint axis to my COM, in MY frame - bool disableParentCollision=false); - - void setupSpherical(int linkIndex, // 0 to num_links-1 - btScalar mass, - const btVector3 &inertia, - int parent, - const btQuaternion &rotParentToThis, // rotate points in parent frame to this frame, when q = 0 - const btVector3 &parentComToThisPivotOffset, // vector from parent COM to joint axis, in PARENT frame - const btVector3 &thisPivotToThisComOffset, // vector from joint axis to my COM, in MY frame - bool disableParentCollision=false); - - void setupPlanar(int i, // 0 to num_links-1 - btScalar mass, - const btVector3 &inertia, - int parent, - const btQuaternion &rotParentToThis, // rotate points in parent frame to this frame, when q = 0 - const btVector3 &rotationAxis, - const btVector3 &parentComToThisComOffset, // vector from parent COM to this COM, in PARENT frame - bool disableParentCollision=false); - - const btMultibodyLink& getLink(int index) const - { - return m_links[index]; - } - - btMultibodyLink& getLink(int index) - { - return m_links[index]; - } - - - void setBaseCollider(btMultiBodyLinkCollider* collider)//collider can be NULL to disable collision for the base - { - m_baseCollider = collider; - } - const btMultiBodyLinkCollider* getBaseCollider() const - { - return m_baseCollider; - } - btMultiBodyLinkCollider* getBaseCollider() - { - return m_baseCollider; - } - - btMultiBodyLinkCollider* getLinkCollider(int index) - { - if (index >= 0 && index < getNumLinks()) - { - return getLink(index).m_collider; - } - return 0; - } - - // - // get parent - // input: link num from 0 to num_links-1 - // output: link num from 0 to num_links-1, OR -1 to mean the base. - // - int getParent(int link_num) const; - - - // - // get number of m_links, masses, moments of inertia - // - - int getNumLinks() const { return m_links.size(); } - int getNumDofs() const { return m_dofCount; } - int getNumPosVars() const { return m_posVarCnt; } - btScalar getBaseMass() const { return m_baseMass; } - const btVector3 & getBaseInertia() const { return m_baseInertia; } - btScalar getLinkMass(int i) const; - const btVector3 & getLinkInertia(int i) const; - - - - // - // change mass (incomplete: can only change base mass and inertia at present) - // - - void setBaseMass(btScalar mass) { m_baseMass = mass; } - void setBaseInertia(const btVector3 &inertia) { m_baseInertia = inertia; } - - - // - // get/set pos/vel/rot/omega for the base link - // - - const btVector3 & getBasePos() const { return m_basePos; } // in world frame - const btVector3 getBaseVel() const - { - return btVector3(m_realBuf[3],m_realBuf[4],m_realBuf[5]); - } // in world frame - const btQuaternion & getWorldToBaseRot() const - { - return m_baseQuat; - } // rotates world vectors into base frame - btVector3 getBaseOmega() const { return btVector3(m_realBuf[0],m_realBuf[1],m_realBuf[2]); } // in world frame - - void setBasePos(const btVector3 &pos) - { - m_basePos = pos; - } - - void setBaseWorldTransform(const btTransform& tr) - { - setBasePos(tr.getOrigin()); - setWorldToBaseRot(tr.getRotation().inverse()); - - } - - btTransform getBaseWorldTransform() const - { - btTransform tr; - tr.setOrigin(getBasePos()); - tr.setRotation(getWorldToBaseRot().inverse()); - return tr; - } - - void setBaseVel(const btVector3 &vel) - { - - m_realBuf[3]=vel[0]; m_realBuf[4]=vel[1]; m_realBuf[5]=vel[2]; - } - void setWorldToBaseRot(const btQuaternion &rot) - { - m_baseQuat = rot; //m_baseQuat asumed to ba alias!? - } - void setBaseOmega(const btVector3 &omega) - { - m_realBuf[0]=omega[0]; - m_realBuf[1]=omega[1]; - m_realBuf[2]=omega[2]; - } - - - // - // get/set pos/vel for child m_links (i = 0 to num_links-1) - // - - btScalar getJointPos(int i) const; - btScalar getJointVel(int i) const; - - btScalar * getJointVelMultiDof(int i); - btScalar * getJointPosMultiDof(int i); - - const btScalar * getJointVelMultiDof(int i) const ; - const btScalar * getJointPosMultiDof(int i) const ; - - void setJointPos(int i, btScalar q); - void setJointVel(int i, btScalar qdot); - void setJointPosMultiDof(int i, btScalar *q); - void setJointVelMultiDof(int i, btScalar *qdot); - - - - // - // direct access to velocities as a vector of 6 + num_links elements. - // (omega first, then v, then joint velocities.) - // - const btScalar * getVelocityVector() const - { - return &m_realBuf[0]; - } -/* btScalar * getVelocityVector() - { - return &real_buf[0]; - } - */ - - // - // get the frames of reference (positions and orientations) of the child m_links - // (i = 0 to num_links-1) - // - - const btVector3 & getRVector(int i) const; // vector from COM(parent(i)) to COM(i), in frame i's coords - const btQuaternion & getParentToLocalRot(int i) const; // rotates vectors in frame parent(i) to vectors in frame i. - - - // - // transform vectors in local frame of link i to world frame (or vice versa) - // - btVector3 localPosToWorld(int i, const btVector3 &vec) const; - btVector3 localDirToWorld(int i, const btVector3 &vec) const; - btVector3 worldPosToLocal(int i, const btVector3 &vec) const; - btVector3 worldDirToLocal(int i, const btVector3 &vec) const; - - // - // transform a frame in local coordinate to a frame in world coordinate - // - btMatrix3x3 localFrameToWorld(int i, const btMatrix3x3 &mat) const; - - // - // calculate kinetic energy and angular momentum - // useful for debugging. - // - - btScalar getKineticEnergy() const; - btVector3 getAngularMomentum() const; - - - // - // set external forces and torques. Note all external forces/torques are given in the WORLD frame. - // - - void clearForcesAndTorques(); - void clearConstraintForces(); - - void clearVelocities(); - - void addBaseForce(const btVector3 &f) - { - m_baseForce += f; - } - void addBaseTorque(const btVector3 &t) { m_baseTorque += t; } - void addLinkForce(int i, const btVector3 &f); - void addLinkTorque(int i, const btVector3 &t); - - void addBaseConstraintForce(const btVector3 &f) - { - m_baseConstraintForce += f; - } - void addBaseConstraintTorque(const btVector3 &t) { m_baseConstraintTorque += t; } - void addLinkConstraintForce(int i, const btVector3 &f); - void addLinkConstraintTorque(int i, const btVector3 &t); - - -void addJointTorque(int i, btScalar Q); - void addJointTorqueMultiDof(int i, int dof, btScalar Q); - void addJointTorqueMultiDof(int i, const btScalar *Q); - - const btVector3 & getBaseForce() const { return m_baseForce; } - const btVector3 & getBaseTorque() const { return m_baseTorque; } - const btVector3 & getLinkForce(int i) const; - const btVector3 & getLinkTorque(int i) const; - btScalar getJointTorque(int i) const; - btScalar * getJointTorqueMultiDof(int i); - - - // - // dynamics routines. - // - - // timestep the velocities (given the external forces/torques set using addBaseForce etc). - // also sets up caches for calcAccelerationDeltas. - // - // Note: the caller must provide three vectors which are used as - // temporary scratch space. The idea here is to reduce dynamic - // memory allocation: the same scratch vectors can be re-used - // again and again for different Multibodies, instead of each - // btMultiBody allocating (and then deallocating) their own - // individual scratch buffers. This gives a considerable speed - // improvement, at least on Windows (where dynamic memory - // allocation appears to be fairly slow). - // - - - void computeAccelerationsArticulatedBodyAlgorithmMultiDof(btScalar dt, - btAlignedObjectArray<btScalar> &scratch_r, - btAlignedObjectArray<btVector3> &scratch_v, - btAlignedObjectArray<btMatrix3x3> &scratch_m, - bool isConstraintPass=false - ); - -///stepVelocitiesMultiDof is deprecated, use computeAccelerationsArticulatedBodyAlgorithmMultiDof instead - void stepVelocitiesMultiDof(btScalar dt, - btAlignedObjectArray<btScalar> &scratch_r, - btAlignedObjectArray<btVector3> &scratch_v, - btAlignedObjectArray<btMatrix3x3> &scratch_m, - bool isConstraintPass=false) - { - computeAccelerationsArticulatedBodyAlgorithmMultiDof(dt,scratch_r,scratch_v,scratch_m,isConstraintPass); - } - - // calcAccelerationDeltasMultiDof - // input: force vector (in same format as jacobian, i.e.: - // 3 torque values, 3 force values, num_links joint torque values) - // output: 3 omegadot values, 3 vdot values, num_links q_double_dot values - // (existing contents of output array are replaced) - // calcAccelerationDeltasMultiDof must have been called first. - void calcAccelerationDeltasMultiDof(const btScalar *force, btScalar *output, - btAlignedObjectArray<btScalar> &scratch_r, - btAlignedObjectArray<btVector3> &scratch_v) const; - - - void applyDeltaVeeMultiDof2(const btScalar * delta_vee, btScalar multiplier) - { - for (int dof = 0; dof < 6 + getNumDofs(); ++dof) - { - m_deltaV[dof] += delta_vee[dof] * multiplier; - } - } - void processDeltaVeeMultiDof2() - { - applyDeltaVeeMultiDof(&m_deltaV[0],1); - - for (int dof = 0; dof < 6 + getNumDofs(); ++dof) - { - m_deltaV[dof] = 0.f; - } - } - - void applyDeltaVeeMultiDof(const btScalar * delta_vee, btScalar multiplier) - { - //for (int dof = 0; dof < 6 + getNumDofs(); ++dof) - // printf("%.4f ", delta_vee[dof]*multiplier); - //printf("\n"); - - //btScalar sum = 0; - //for (int dof = 0; dof < 6 + getNumDofs(); ++dof) - //{ - // sum += delta_vee[dof]*multiplier*delta_vee[dof]*multiplier; - //} - //btScalar l = btSqrt(sum); - - //if (l>m_maxAppliedImpulse) - //{ - // multiplier *= m_maxAppliedImpulse/l; - //} - - for (int dof = 0; dof < 6 + getNumDofs(); ++dof) - { - m_realBuf[dof] += delta_vee[dof] * multiplier; - btClamp(m_realBuf[dof],-m_maxCoordinateVelocity,m_maxCoordinateVelocity); - } - } - - - - // timestep the positions (given current velocities). - void stepPositionsMultiDof(btScalar dt, btScalar *pq = 0, btScalar *pqd = 0); - - - // - // contacts - // - - // This routine fills out a contact constraint jacobian for this body. - // the 'normal' supplied must be -n for body1 or +n for body2 of the contact. - // 'normal' & 'contact_point' are both given in world coordinates. - - void fillContactJacobianMultiDof(int link, - const btVector3 &contact_point, - const btVector3 &normal, - btScalar *jac, - btAlignedObjectArray<btScalar> &scratch_r, - btAlignedObjectArray<btVector3> &scratch_v, - btAlignedObjectArray<btMatrix3x3> &scratch_m) const { fillConstraintJacobianMultiDof(link, contact_point, btVector3(0, 0, 0), normal, jac, scratch_r, scratch_v, scratch_m); } - - //a more general version of fillContactJacobianMultiDof which does not assume.. - //.. that the constraint in question is contact or, to be more precise, constrains linear velocity only - void fillConstraintJacobianMultiDof(int link, - const btVector3 &contact_point, - const btVector3 &normal_ang, - const btVector3 &normal_lin, - btScalar *jac, - btAlignedObjectArray<btScalar> &scratch_r, - btAlignedObjectArray<btVector3> &scratch_v, - btAlignedObjectArray<btMatrix3x3> &scratch_m) const; - - - // - // sleeping - // - void setCanSleep(bool canSleep) - { - m_canSleep = canSleep; - } - - bool getCanSleep()const - { - return m_canSleep; - } - - bool isAwake() const { return m_awake; } - void wakeUp(); - void goToSleep(); - void checkMotionAndSleepIfRequired(btScalar timestep); - - bool hasFixedBase() const - { - return m_fixedBase; - } - - int getCompanionId() const - { - return m_companionId; - } - void setCompanionId(int id) - { - //printf("for %p setCompanionId(%d)\n",this, id); - m_companionId = id; - } - - void setNumLinks(int numLinks)//careful: when changing the number of m_links, make sure to re-initialize or update existing m_links - { - m_links.resize(numLinks); - } - - btScalar getLinearDamping() const - { - return m_linearDamping; - } - void setLinearDamping( btScalar damp) - { - m_linearDamping = damp; - } - btScalar getAngularDamping() const - { - return m_angularDamping; - } - void setAngularDamping( btScalar damp) - { - m_angularDamping = damp; - } - - bool getUseGyroTerm() const - { - return m_useGyroTerm; - } - void setUseGyroTerm(bool useGyro) - { - m_useGyroTerm = useGyro; - } - btScalar getMaxCoordinateVelocity() const - { - return m_maxCoordinateVelocity ; - } - void setMaxCoordinateVelocity(btScalar maxVel) - { - m_maxCoordinateVelocity = maxVel; - } - - btScalar getMaxAppliedImpulse() const - { - return m_maxAppliedImpulse; - } - void setMaxAppliedImpulse(btScalar maxImp) - { - m_maxAppliedImpulse = maxImp; - } - void setHasSelfCollision(bool hasSelfCollision) - { - m_hasSelfCollision = hasSelfCollision; - } - bool hasSelfCollision() const - { - return m_hasSelfCollision; - } - - - void finalizeMultiDof(); - - void useRK4Integration(bool use) { m_useRK4 = use; } - bool isUsingRK4Integration() const { return m_useRK4; } - void useGlobalVelocities(bool use) { m_useGlobalVelocities = use; } - bool isUsingGlobalVelocities() const { return m_useGlobalVelocities; } - - bool isPosUpdated() const - { - return __posUpdated; - } - void setPosUpdated(bool updated) - { - __posUpdated = updated; - } - - //internalNeedsJointFeedback is for internal use only - bool internalNeedsJointFeedback() const - { - return m_internalNeedsJointFeedback; - } - void forwardKinematics(btAlignedObjectArray<btQuaternion>& scratch_q,btAlignedObjectArray<btVector3>& scratch_m); - - void compTreeLinkVelocities(btVector3 *omega, btVector3 *vel) const; - - void updateCollisionObjectWorldTransforms(btAlignedObjectArray<btQuaternion>& scratch_q,btAlignedObjectArray<btVector3>& scratch_m); - - virtual int calculateSerializeBufferSize() const; - - ///fills the dataBuffer and returns the struct name (and 0 on failure) - virtual const char* serialize(void* dataBuffer, class btSerializer* serializer) const; - - const char* getBaseName() const - { - return m_baseName; - } - ///memory of setBaseName needs to be manager by user - void setBaseName(const char* name) - { - m_baseName = name; - } - - ///users can point to their objects, userPointer is not used by Bullet - void* getUserPointer() const - { - return m_userObjectPointer; - } - - int getUserIndex() const - { - return m_userIndex; - } - - int getUserIndex2() const - { - return m_userIndex2; - } - ///users can point to their objects, userPointer is not used by Bullet - void setUserPointer(void* userPointer) - { - m_userObjectPointer = userPointer; - } - - ///users can point to their objects, userPointer is not used by Bullet - void setUserIndex(int index) - { - m_userIndex = index; - } - - void setUserIndex2(int index) - { - m_userIndex2 = index; - } - -private: - btMultiBody(const btMultiBody &); // not implemented - void operator=(const btMultiBody &); // not implemented - - - void solveImatrix(const btVector3& rhs_top, const btVector3& rhs_bot, btScalar result[6]) const; - void solveImatrix(const btSpatialForceVector &rhs, btSpatialMotionVector &result) const; - - void updateLinksDofOffsets() - { - int dofOffset = 0, cfgOffset = 0; - for(int bidx = 0; bidx < m_links.size(); ++bidx) - { - m_links[bidx].m_dofOffset = dofOffset; m_links[bidx].m_cfgOffset = cfgOffset; - dofOffset += m_links[bidx].m_dofCount; cfgOffset += m_links[bidx].m_posVarCount; - } - } - - void mulMatrix(btScalar *pA, btScalar *pB, int rowsA, int colsA, int rowsB, int colsB, btScalar *pC) const; - - -private: - - btMultiBodyLinkCollider* m_baseCollider;//can be NULL - const char* m_baseName;//memory needs to be manager by user! - - btVector3 m_basePos; // position of COM of base (world frame) - btQuaternion m_baseQuat; // rotates world points into base frame - - btScalar m_baseMass; // mass of the base - btVector3 m_baseInertia; // inertia of the base (in local frame; diagonal) - - btVector3 m_baseForce; // external force applied to base. World frame. - btVector3 m_baseTorque; // external torque applied to base. World frame. - - btVector3 m_baseConstraintForce; // external force applied to base. World frame. - btVector3 m_baseConstraintTorque; // external torque applied to base. World frame. - - btAlignedObjectArray<btMultibodyLink> m_links; // array of m_links, excluding the base. index from 0 to num_links-1. - - - // - // realBuf: - // offset size array - // 0 6 + num_links v (base_omega; base_vel; joint_vels) MULTIDOF [sysdof x sysdof for D matrices (TOO MUCH!) + pos_delta which is sys-cfg sized] - // 6+num_links num_links D - // - // vectorBuf: - // offset size array - // 0 num_links h_top - // num_links num_links h_bottom - // - // matrixBuf: - // offset size array - // 0 num_links+1 rot_from_parent - // - btAlignedObjectArray<btScalar> m_deltaV; - btAlignedObjectArray<btScalar> m_realBuf; - btAlignedObjectArray<btVector3> m_vectorBuf; - btAlignedObjectArray<btMatrix3x3> m_matrixBuf; - - - btMatrix3x3 m_cachedInertiaTopLeft; - btMatrix3x3 m_cachedInertiaTopRight; - btMatrix3x3 m_cachedInertiaLowerLeft; - btMatrix3x3 m_cachedInertiaLowerRight; - bool m_cachedInertiaValid; - - bool m_fixedBase; - - // Sleep parameters. - bool m_awake; - bool m_canSleep; - btScalar m_sleepTimer; - - void* m_userObjectPointer; - int m_userIndex2; - int m_userIndex; - - int m_companionId; - btScalar m_linearDamping; - btScalar m_angularDamping; - bool m_useGyroTerm; - btScalar m_maxAppliedImpulse; - btScalar m_maxCoordinateVelocity; - bool m_hasSelfCollision; - - bool __posUpdated; - int m_dofCount, m_posVarCnt; - bool m_useRK4, m_useGlobalVelocities; - - ///the m_needsJointFeedback gets updated/computed during the stepVelocitiesMultiDof and it for internal usage only - bool m_internalNeedsJointFeedback; -}; - -struct btMultiBodyLinkDoubleData -{ - btQuaternionDoubleData m_zeroRotParentToThis; - btVector3DoubleData m_parentComToThisComOffset; - btVector3DoubleData m_thisPivotToThisComOffset; - btVector3DoubleData m_jointAxisTop[6]; - btVector3DoubleData m_jointAxisBottom[6]; - - btVector3DoubleData m_linkInertia; // inertia of the base (in local frame; diagonal) - double m_linkMass; - int m_parentIndex; - int m_jointType; - - int m_dofCount; - int m_posVarCount; - double m_jointPos[7]; - double m_jointVel[6]; - double m_jointTorque[6]; - - double m_jointDamping; - double m_jointFriction; - double m_jointLowerLimit; - double m_jointUpperLimit; - double m_jointMaxForce; - double m_jointMaxVelocity; - - char *m_linkName; - char *m_jointName; - btCollisionObjectDoubleData *m_linkCollider; - char *m_paddingPtr; - -}; - -struct btMultiBodyLinkFloatData -{ - btQuaternionFloatData m_zeroRotParentToThis; - btVector3FloatData m_parentComToThisComOffset; - btVector3FloatData m_thisPivotToThisComOffset; - btVector3FloatData m_jointAxisTop[6]; - btVector3FloatData m_jointAxisBottom[6]; - btVector3FloatData m_linkInertia; // inertia of the base (in local frame; diagonal) - int m_dofCount; - float m_linkMass; - int m_parentIndex; - int m_jointType; - - - - float m_jointPos[7]; - float m_jointVel[6]; - float m_jointTorque[6]; - int m_posVarCount; - float m_jointDamping; - float m_jointFriction; - float m_jointLowerLimit; - float m_jointUpperLimit; - float m_jointMaxForce; - float m_jointMaxVelocity; - - char *m_linkName; - char *m_jointName; - btCollisionObjectFloatData *m_linkCollider; - char *m_paddingPtr; - -}; - -///do not change those serialization structures, it requires an updated sBulletDNAstr/sBulletDNAstr64 -struct btMultiBodyDoubleData -{ - btTransformDoubleData m_baseWorldTransform; - btVector3DoubleData m_baseInertia; // inertia of the base (in local frame; diagonal) - double m_baseMass; - - char *m_baseName; - btMultiBodyLinkDoubleData *m_links; - btCollisionObjectDoubleData *m_baseCollider; - char *m_paddingPtr; - int m_numLinks; - char m_padding[4]; -}; - -///do not change those serialization structures, it requires an updated sBulletDNAstr/sBulletDNAstr64 -struct btMultiBodyFloatData -{ - char *m_baseName; - btMultiBodyLinkFloatData *m_links; - btCollisionObjectFloatData *m_baseCollider; - btTransformFloatData m_baseWorldTransform; - btVector3FloatData m_baseInertia; // inertia of the base (in local frame; diagonal) - - float m_baseMass; - int m_numLinks; -}; - - - -#endif |