int sched_integ( /* RETURN: -- Always return zero */
SCHEDULE *S ) /* INOUT: -- Schedule struct */
{
int ipass;
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&S->pos ,
&S->vel ,
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&S->vel ,
&S->acc ,
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&S->pos ,
&S->vel ,
NULL
);
/* RETURN */
return( ipass );
}
/*!
* @brief Bouncing ball state Trick compliant integration routine.
*
* This routine performs the following:
*
* - Loads position into the integrator states.
* - Loads velocity into the integrator states.
* - Loads velocity into the integrator derivatives.
* - Loads acceleration into the integrator derivatives.
* - Calls the Trick integration service.
* - Unloads the propagated position and velocity from the integrator states.
*
* @job_class{ integration }
*
* @return Returns the Trick integration pass for the selected integration method.
* @param [inout] state Ball EOM state parameters.
*/
int bounce_state_integ( /* RETURN: -- Integration multi-step id */
BounceState * state ) /* INOUT: -- Bounce EOM state parameters */
{
int ipass;
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&state->position,
&state->velocity,
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&state->velocity,
&state->acceleration,
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&state->position,
&state->velocity,
NULL
);
/* RETURN */
return( ipass );
}
/* The cannonball sim's integration job */
int cannon_integ( CANNON* C ) {
int ipass;
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&C->pos[0], &C->pos[1] ,
&C->vel[0], &C->vel[1] ,
&C->time,
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&C->vel[0], &C->vel[1] ,
&C->acc[0], &C->acc[1] ,
&C->timeRate,
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&C->pos[0], &C->pos[1] ,
&C->vel[0], &C->vel[1] ,
&C->time,
NULL
);
/* RETURN */
return( ipass );
}
int cannon_integ_aero(
CANNON_AERO* C)
{
int ipass;
/* GET SHORTHAND NOTATION FOR DATA STRUCTURES */
CANNON_AERO_OUT *CAO = &(C->out) ;
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&CAO->position[0] ,
&CAO->position[1] ,
&CAO->position[2] ,
&CAO->velocity[0] ,
&CAO->velocity[1] ,
&CAO->velocity[2] ,
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&CAO->velocity[0] ,
&CAO->velocity[1] ,
&CAO->velocity[2] ,
&CAO->acceleration[0] ,
&CAO->acceleration[1] ,
&CAO->acceleration[2] ,
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&CAO->position[0] ,
&CAO->position[1] ,
&CAO->position[2] ,
&CAO->velocity[0] ,
&CAO->velocity[1] ,
&CAO->velocity[2] ,
NULL
);
/* RETURN */
return( ipass );
}
int VehicleOne::state_integ() {
int integration_step;
load_state(
&heading,
&headingRate,
&position[0],
&position[1],
&velocity[0],
&velocity[1],
(double*)0
);
load_deriv(
&headingRate,
&headingAccel,
&velocity[0],
&velocity[1],
&acceleration[0],
&acceleration[1],
(double*)0
);
integration_step = integrate();
unload_state(
&heading,
&headingRate,
&position[0],
&position[1],
&velocity[0],
&velocity[1],
(double*)0
);
if (!integration_step) {
if (heading < -PI) heading += 2*PI;
if (heading > PI) heading += -2*PI;
}
return(integration_step);
}
/* ENTRY POINT */
int ball_state_integ( /* RETURN: -- Integration multi-step id */
BSTATE *S ) /* INOUT: -- Ball EOM state parameters */
{
int ipass;
/* GET SHORTHAND NOTATION FOR DATA STRUCTURES */
BSTATE_OUT *SO = &(S->output) ;
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&SO->position[0] ,
&SO->position[1] ,
&SO->velocity[0] ,
&SO->velocity[1] ,
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&SO->velocity[0] ,
&SO->velocity[1] ,
&SO->acceleration[0] ,
&SO->acceleration[1] ,
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&SO->position[0] ,
&SO->position[1] ,
&SO->velocity[0] ,
&SO->velocity[1] ,
NULL
);
/* RETURN */
return( ipass );
}
/* ENTRY POINT */
int Ball::state_integ() {
int ipass;
/* GET SHORTHAND NOTATION FOR DATA STRUCTURES */
BallStateOutput * state_out = &(this->state.output);
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&state_out->position[0] ,
&state_out->position[1] ,
&state_out->velocity[0] ,
&state_out->velocity[1] ,
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&state_out->velocity[0] ,
&state_out->velocity[1] ,
&state_out->acceleration[0] ,
&state_out->acceleration[1] ,
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&state_out->position[0] ,
&state_out->position[1] ,
&state_out->velocity[0] ,
&state_out->velocity[1] ,
NULL
);
/* RETURN */
return( ipass );
}
/*!
* @brief Ball state Trick compliant integration routine.
*
* This routine performs the following:
*
* - Loads position into the integrator states.
* - Loads velocity into the integrator states.
* - Loads velocity into the integrator derivatives.
* - Loads acceleration into the integrator derivatives.
* - Calls the Trick integration service.
* - Unloads the propagated position and velocity from the integrator states.
*
* @job_class{ integration }
*
* @return Returns the Trick integration pass for the selected integration method.
* @param [inout] state Ball EOM state parameters.
*/
int ball_state_integ(
BallState * state )
{
int ipass;
/* LOAD THE POSITION AND VELOCITY STATES */
load_state(
&state->position[0],
&state->position[1],
&state->velocity[0],
&state->velocity[1],
NULL
);
/* LOAD THE POSITION AND VELOCITY STATE DERIVATIVES */
load_deriv(
&state->velocity[0],
&state->velocity[1],
&state->acceleration[0],
&state->acceleration[1],
NULL
);
/* CALL THE TRICK INTEGRATION SERVICE */
ipass = integrate();
/* UNLOAD THE NEW POSITION AND VELOCITY STATES */
unload_state(
&state->position[0],
&state->position[1],
&state->velocity[0],
&state->velocity[1],
NULL
);
/* RETURN */
return( ipass );
}
