Exemplo n.º 1
0
RCP<Thyra::VectorBase<Scalar> > eval_f_t(
    const Thyra::ModelEvaluator<Scalar>& me,
    Scalar t
    ) {
  typedef Teuchos::ScalarTraits<Scalar> ST;
  typedef Thyra::ModelEvaluatorBase MEB;
  MEB::InArgs<Scalar> inArgs = me.createInArgs();
  inArgs.set_t(t);
  MEB::OutArgs<Scalar> outArgs = me.createOutArgs();
  RCP<Thyra::VectorBase<Scalar> > f_out = Thyra::createMember(me.get_f_space());
  V_S(outArg(*f_out),ST::zero());
  outArgs.set_f(f_out);
  me.evalModel(inArgs,outArgs);
  return f_out;
}
bool setDefaultInitialConditionFromNominalValues(
  const Thyra::ModelEvaluator<Scalar>& model,
  const Ptr<StepperBase<Scalar> >& stepper
  )
{

  typedef ScalarTraits<Scalar> ST;
  typedef Thyra::ModelEvaluatorBase MEB;

  if (isInitialized(*stepper))
    return false;  // Already has an initial condition
  
  MEB::InArgs<Scalar> initCond = model.getNominalValues();

  if (!is_null(initCond.get_x())) {
    // IC has x, we will assume that initCont.get_t() is the valid start time.
    // Therefore, we just need to check that x_dot is also set or we will
    // create a zero x_dot
#ifdef RYTHMOS_DEBUG
    THYRA_ASSERT_VEC_SPACES( "setInitialConditionIfExists(...)", 
      *model.get_x_space(), *initCond.get_x()->space() );
#endif
    if (initCond.supports(MEB::IN_ARG_x_dot)) {
      if (is_null(initCond.get_x_dot())) {
        const RCP<Thyra::VectorBase<Scalar> > x_dot =
          createMember(model.get_x_space());
        assign(x_dot.ptr(), ST::zero());
      }
      else {
#ifdef RYTHMOS_DEBUG
        THYRA_ASSERT_VEC_SPACES( "setInitialConditionIfExists(...)", 
          *model.get_x_space(), *initCond.get_x_dot()->space() );
#endif
      }
    }
    stepper->setInitialCondition(initCond);
    return true;
  }

  // The model has not nominal values for which to set the initial
  // conditions so wo don't do anything!  The stepper will still have not
  return false;

}
void eval_model_explicit(
    const Thyra::ModelEvaluator<Scalar> &model,
    Thyra::ModelEvaluatorBase::InArgs<Scalar> &basePoint,
    const VectorBase<Scalar>& x_in,
    const typename Thyra::ModelEvaluatorBase::InArgs<Scalar>::ScalarMag &t_in,
    const Ptr<VectorBase<Scalar> >& f_out
    )
{
  typedef Thyra::ModelEvaluatorBase MEB;
  MEB::InArgs<Scalar> inArgs = model.createInArgs();
  MEB::OutArgs<Scalar> outArgs = model.createOutArgs();
  inArgs.setArgs(basePoint);
  inArgs.set_x(Teuchos::rcp(&x_in,false));
  if (inArgs.supports(MEB::IN_ARG_t)) {
    inArgs.set_t(t_in);
  }
  outArgs.set_f(Teuchos::rcp(&*f_out,false));
  model.evalModel(inArgs,outArgs);
}
Exemplo n.º 4
0
RCP<Thyra::VectorBase<Scalar> > computeArea(
    const Thyra::ModelEvaluator<Scalar>& me, 
    const TimeRange<Scalar>& tr, 
    const GaussQuadrature1D<Scalar>& gq
    ) {
  typedef Teuchos::ScalarTraits<Scalar> ST;
  RCP<Thyra::VectorBase<Scalar> > area = Thyra::createMember(me.get_x_space());
  V_S(outArg(*area),ST::zero());
  RCP<const TimeRange<Scalar> > sourceRange = gq.getRange();
  RCP<const Array<Scalar> > sourcePts = gq.getPoints();
  RCP<const Array<Scalar> > sourceWts = gq.getWeights();
  Array<Scalar> destPts(*sourcePts);
  for (unsigned int i=0 ; i<sourcePts->size() ; ++i) {
    destPts[i] = translateTimeRange<Scalar>((*sourcePts)[i],*sourceRange,tr);
  }
  Scalar r = tr.length()/sourceRange->length();
  for (unsigned int i=0 ; i<destPts.size() ; ++i) {
    RCP<Thyra::VectorBase<Scalar> > tmpVec = eval_f_t<Scalar>(me,destPts[i]);
    Vp_StV(outArg(*area),r*(*sourceWts)[i],*tmpVec);
  }
  return area;
}