returnValue SIMexport::checkConsistency( ) const
{
// consistency checks:
// only time-continuous DAEs without parameter and disturbances supported!
DifferentialEquation f;
modelData.getModel(f);
if ( f.isDiscretized( ) == true )
return ACADOERROR( RET_NO_DISCRETE_ODE_FOR_CODE_EXPORT );
if ( ( f.getNUI( ) > 0 ) ||
/*( f.getNP( ) > 0 ) ||*/ ( f.getNPI( ) > 0 ) || ( f.getNW( ) > 0 ) )
return ACADOERROR( RET_ONLY_STATES_AND_CONTROLS_FOR_CODE_EXPORT );
int mode;
get( IMPLICIT_INTEGRATOR_MODE, mode );
if( (ImplicitIntegratorMode) mode == LIFTED ) return ACADOERROR( RET_NOT_IMPLEMENTED_YET );
return SUCCESSFUL_RETURN;
}
returnValue SIMexport::checkConsistency( ) const
{
// Number of differential state derivatives must be either zero or equal to the number of differential states:
if( !modelData.checkConsistency() ) {
return ACADOERROR( RET_INVALID_OPTION );
}
// consistency checks:
// only time-continuous DAEs without parameter and disturbances supported!
DifferentialEquation f;
modelData.getModel(f);
if ( f.isDiscretized( ) == BT_TRUE )
return ACADOERROR( RET_NO_DISCRETE_ODE_FOR_CODE_EXPORT );
if ( ( f.getNUI( ) > 0 ) ||
/*( f.getNP( ) > 0 ) ||*/ ( f.getNPI( ) > 0 ) || ( f.getNW( ) > 0 ) )
return ACADOERROR( RET_ONLY_STATES_AND_CONTROLS_FOR_CODE_EXPORT );
// only equidistant evaluation grids supported!
return SUCCESSFUL_RETURN;
}
