/************************************************************************* * * * Open Dynamics Engine, Copyright (C) 2001,2002 Russell L. Smith. * * All rights reserved. Email: russ@q12.org Web: www.q12.org * * * * This library is free software; you can redistribute it and/or * * modify it under the terms of EITHER: * * (1) The GNU Lesser General Public License as published by the Free * * Software Foundation; either version 2.1 of the License, or (at * * your option) any later version. The text of the GNU Lesser * * General Public License is included with this library in the * * file LICENSE.TXT. * * (2) The BSD-style license that is included with this library in * * the file LICENSE-BSD.TXT. * * * * This library is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the files * * LICENSE.TXT and LICENSE-BSD.TXT for more details. * * * *************************************************************************/ #ifndef _ODE_JOINT_AMOTOR_H_ #define _ODE_JOINT_AMOTOR_H_ #include "joint.h" // angular motor typedef dxJoint dxJointAMotor_Parent; class dxJointAMotor: public dxJointAMotor_Parent { public: dxJointAMotor(dxWorld *w); virtual ~dxJointAMotor(); public: virtual void getSureMaxInfo(SureMaxInfo* info); virtual void getInfo1(Info1* info); virtual void getInfo2(dReal worldFPS, dReal worldERP, int rowskip, dReal *J1, dReal *J2, int pairskip, dReal *pairRhsCfm, dReal *pairLoHi, int *findex); virtual dJointType type() const; virtual sizeint size() const; public: void setOperationMode(int mode); int getOperationMode() const { return m_mode; } void setNumAxes(unsigned num); int getNumAxes() const { return m_num; } dJointBodyRelativity getAxisBodyRelativity(unsigned anum) const; void setAxisValue(unsigned anum, dJointBodyRelativity rel, dReal x, dReal y, dReal z); void getAxisValue(dVector3 result, unsigned anum) const; private: void doGetUserAxis(dVector3 result, unsigned anum) const; void doGetEulerAxis(dVector3 result, unsigned anum) const; public: void setAngleValue(unsigned anum, dReal angle); dReal getAngleValue(unsigned anum) const { dAASSERT(dIN_RANGE(anum, dSA__MIN, dSA__MAX)); return m_angle[anum]; } dReal calculateAngleRate(unsigned anum) const; void setLimotParameter(unsigned anum, int limotParam, dReal value) { dAASSERT(dIN_RANGE(anum, dSA__MIN, dSA__MAX)); m_limot[anum].set(limotParam, value); } dReal getLimotParameter(unsigned anum, int limotParam) const { dAASSERT(dIN_RANGE(anum, dSA__MIN, dSA__MAX)); return m_limot[anum].get(limotParam); } public: void addTorques(dReal torque1, dReal torque2, dReal torque3); private: void computeGlobalAxes(dVector3 ax[dSA__MAX]) const; void doComputeGlobalUserAxes(dVector3 ax[dSA__MAX]) const; void doComputeGlobalEulerAxes(dVector3 ax[dSA__MAX]) const; void computeEulerAngles(dVector3 ax[dSA__MAX]); void setEulerReferenceVectors(); private: inline dSpaceAxis BuildFirstBodyEulerAxis() const; inline dJointConnectedBody BuildFirstEulerAxisBody() const; private: friend struct dxAMotorJointPrinter; private: int m_mode; // a dAMotorXXX constant unsigned m_num; // number of axes (0..3) dJointBodyRelativity m_rel[dSA__MAX]; // what the axes are relative to (global,b1,b2) dVector3 m_axis[dSA__MAX]; // three axes // these vectors are used for calculating Euler angles dVector3 m_references[dJCB__MAX]; // original axis[2], relative to body 1; original axis[0], relative to body 2 dReal m_angle[dSA__MAX]; // user-supplied angles for axes dxJointLimitMotor m_limot[dJBR__MAX]; // limit+motor info for axes }; #endif