historical/toontown-classic.git/panda/include/odeAMotorJoint.I
2024-01-16 11:20:27 -06:00

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/**
* PANDA 3D SOFTWARE
* Copyright (c) Carnegie Mellon University. All rights reserved.
*
* All use of this software is subject to the terms of the revised BSD
* license. You should have received a copy of this license along
* with this source code in a file named "LICENSE."
*
* @file odeAMotorJoint.I
* @author joswilso
* @date 2006-12-27
*/
INLINE void OdeAMotorJoint::
set_num_axes(int num) {
dJointSetAMotorNumAxes(_id, num);
}
INLINE void OdeAMotorJoint::
set_axis(int anum, int rel, dReal x, dReal y, dReal z) {
dJointSetAMotorAxis(_id, anum, rel, x, y, z);
}
INLINE void OdeAMotorJoint::
set_axis(int anum, int rel, const LVecBase3f &axis) {
dJointSetAMotorAxis(_id, anum, rel, axis[0], axis[1], axis[2]);
}
INLINE void OdeAMotorJoint::
set_angle(int anum, dReal angle) {
dJointSetAMotorAngle(_id, anum, angle);
}
INLINE void OdeAMotorJoint::
set_mode(int mode) {
dJointSetAMotorMode(_id, mode);
}
INLINE void OdeAMotorJoint::
add_torques(dReal torque1, dReal torque2, dReal torque3) {
dJointAddAMotorTorques(_id, torque1, torque2, torque3);
}
INLINE int OdeAMotorJoint::
get_num_axes() const {
return dJointGetAMotorNumAxes(_id);
}
INLINE LVecBase3f OdeAMotorJoint::
get_axis(int anum) const {
dVector3 result;
dJointGetAMotorAxis(_id, anum, result);
return LVecBase3f(result[0], result[1], result[2]);
}
INLINE int OdeAMotorJoint::
get_axis_rel(int anum) const {
return dJointGetAMotorAxisRel(_id, anum);
}
INLINE dReal OdeAMotorJoint::
get_angle(int anum) const {
return dJointGetAMotorAngle(_id, anum);
}
INLINE dReal OdeAMotorJoint::
get_angle_rate(int anum) const {
return dJointGetAMotorAngleRate(_id, anum);
}
INLINE int OdeAMotorJoint::
get_mode() const {
return dJointGetAMotorMode(_id);
}
INLINE void OdeAMotorJoint::
set_param_lo_stop(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamLoStop, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamLoStop, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamLoStop, val);
}
}
INLINE void OdeAMotorJoint::
set_param_hi_stop(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamHiStop, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamHiStop, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamHiStop, val);
}
}
INLINE void OdeAMotorJoint::
set_param_vel(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamVel, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamVel, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamVel, val);
}
}
INLINE void OdeAMotorJoint::
set_param_f_max(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamFMax, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamFMax, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamFMax, val);
}
}
INLINE void OdeAMotorJoint::
set_param_fudge_factor(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamFudgeFactor, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamFudgeFactor, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamFudgeFactor, val);
}
}
INLINE void OdeAMotorJoint::
set_param_bounce(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamBounce, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamBounce, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamBounce, val);
}
}
INLINE void OdeAMotorJoint::
set_param_CFM(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamCFM, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamCFM, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamCFM, val);
}
}
INLINE void OdeAMotorJoint::
set_param_stop_ERP(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamStopERP, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamStopERP, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamStopERP, val);
}
}
INLINE void OdeAMotorJoint::
set_param_stop_CFM(int axis, dReal val) {
nassertv( _id != 0 );
nassertv( 0 <= axis && axis <= 2 );
if ( axis == 0 ) {
dJointSetAMotorParam(_id, dParamStopCFM, val);
} else if ( axis == 1 ) {
dJointSetAMotorParam(_id, dParamStopCFM, val);
} else if ( axis == 2 ) {
dJointSetAMotorParam(_id, dParamStopCFM, val);
}
}
INLINE dReal OdeAMotorJoint::
get_param_lo_stop(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamLoStop);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamLoStop);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamLoStop);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_hi_stop(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamHiStop);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamHiStop);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamHiStop);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_vel(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamVel);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamVel);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamVel);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_f_max(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamFMax);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamFMax);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamFMax);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_fudge_factor(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamFudgeFactor);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamFudgeFactor);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamFudgeFactor);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_bounce(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamBounce);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamBounce);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamBounce);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_CFM(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamCFM);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamCFM);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamCFM);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_stop_ERP(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamStopERP);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamStopERP);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamStopERP);
}
return 0;
}
INLINE dReal OdeAMotorJoint::
get_param_stop_CFM(int axis) const {
nassertr( _id != 0, 0 );
nassertr( 0 <= axis && axis <= 2, 0 );
if ( axis == 0 ) {
return dJointGetAMotorParam(_id, dParamStopCFM);
} else if ( axis == 1 ) {
return dJointGetAMotorParam(_id, dParamStopCFM);
} else if ( axis == 2 ) {
return dJointGetAMotorParam(_id, dParamStopCFM);
}
return 0;
}