C++ (Cpp) AbstractGroup::getX示例

编程语言: C++ (Cpp)

命名空间/包名称: loca::multicontinuation

类/类型: AbstractGroup

方法/功能: getX

hotexamples.com的示例: 3

C++ (Cpp) AbstractGroup::getX - 已找到3个示例。这些是从开源项目中提取的最受好评的loca::multicontinuation::AbstractGroup::getX现实C++ (Cpp)示例。您可以评价示例，以帮助我们提高示例质量。

常用方法

显示隐藏

computeJacobian(5)

applyJacobian(4)

setParam(4)

getX(3)

setX(3)

applyJacobianTranspose(2)

applyJacobianTransposeMultiVector(1)

computeF(1)

getF(1)

getParam(1)

isJacobian(1)

示例#1

显示文件

NOX::Abstract::Group::ReturnType 
LOCA::Epetra::ModelEvaluatorInterface::
computeDfDp(LOCA::MultiContinuation::AbstractGroup& grp, 
	    const vector<int>& param_ids,
	    NOX::Abstract::MultiVector& result,
	    bool isValidF) const
{
  // Break result into f and df/dp
  NOX::Epetra::Vector& f = dynamic_cast<NOX::Epetra::Vector&>(result[0]);
  Epetra_Vector& epetra_f = f.getEpetraVector();

  std::vector<int> dfdp_index(result.numVectors()-1);
  for (unsigned int i=0; i<dfdp_index.size(); i++)
    dfdp_index[i] = i+1;
  Teuchos::RefCountPtr<NOX::Epetra::MultiVector> dfdp =
    Teuchos::rcp_dynamic_cast<NOX::Epetra::MultiVector>(result.subView(dfdp_index));
  Epetra_MultiVector& epetra_dfdp = dfdp->getEpetraMultiVector();

  // Create inargs
  EpetraExt::ModelEvaluator::InArgs inargs = model_->createInArgs();
  const NOX::Epetra::Vector& x = 
    dynamic_cast<const NOX::Epetra::Vector&>(grp.getX());
  const Epetra_Vector& epetra_x = x.getEpetraVector();
  inargs.set_x(Teuchos::rcp(&epetra_x, false));
  inargs.set_p(0, Teuchos::rcp(&param_vec, false));
  if (inargs.supports(EpetraExt::ModelEvaluator::IN_ARG_x_dot)) {
    // Create x_dot, filled with zeros
    if (x_dot == NULL)
      x_dot = new Epetra_Vector(epetra_x.Map());
    inargs.set_x_dot(Teuchos::rcp(x_dot, false));
  }

  // Create outargs
  EpetraExt::ModelEvaluator::OutArgs outargs = model_->createOutArgs();
  if (!isValidF) {
    EpetraExt::ModelEvaluator::Evaluation<Epetra_Vector> eval_f;
    Teuchos::RefCountPtr<Epetra_Vector> F = Teuchos::rcp(&epetra_f, false);
    eval_f.reset(F, EpetraExt::ModelEvaluator::EVAL_TYPE_EXACT); 
    outargs.set_f(eval_f);
  }
  Teuchos::RefCountPtr<Epetra_MultiVector> DfDp = 
    Teuchos::rcp(&epetra_dfdp, false);
  Teuchos::Array<int> param_indexes(param_ids.size());
  for (unsigned int i=0; i<param_ids.size(); i++)
    param_indexes[i] = param_ids[i];
  EpetraExt::ModelEvaluator::DerivativeMultiVector dmv(DfDp, EpetraExt::ModelEvaluator::DERIV_MV_BY_COL,
						       param_indexes);
  EpetraExt::ModelEvaluator::Derivative deriv(dmv);
  outargs.set_DfDp(0, deriv);

  model_->evalModel(inargs, outargs);

  return NOX::Abstract::Group::Ok;
}

示例#2

显示文件

NOX::Abstract::Group::ReturnType 
LOCA::DerivUtils::computeDwtJnDx(LOCA::MultiContinuation::AbstractGroup& grp,
				 const NOX::Abstract::MultiVector& w,
				 const NOX::Abstract::Vector& nullVector,
				 NOX::Abstract::MultiVector& result) const
{
  string callingFunction = 
    "LOCA::DerivUtils::computeDwtJnDx()";
  NOX::Abstract::Group::ReturnType status, finalStatus;

  // Vector to store w^T*J
  Teuchos::RCP<NOX::Abstract::MultiVector> wtJ = 
    w.clone(NOX::ShapeCopy);
  
  // Compute base w^T*J
  finalStatus = grp.computeJacobian();
  globalData->locaErrorCheck->checkReturnType(finalStatus, callingFunction);

  status = grp.applyJacobianTransposeMultiVector(w, *wtJ);
  finalStatus = 
    globalData->locaErrorCheck->combineAndCheckReturnTypes(status, finalStatus,
							   callingFunction);
  
  // Copy original solution vector
  Teuchos::RCP<NOX::Abstract::Vector> Xvec = 
    grp.getX().clone(NOX::DeepCopy);

  // Perturb solution vector in direction of nullVector, return perturbation
  double eps = perturbXVec(grp, *Xvec, nullVector);

  // Fill perturbed w^T*J vector
  finalStatus = grp.computeJacobian();
  globalData->locaErrorCheck->checkReturnType(finalStatus, callingFunction);
    
  status = grp.applyJacobianTransposeMultiVector(w, result);
  finalStatus = 
    globalData->locaErrorCheck->combineAndCheckReturnTypes(status, 
							   finalStatus,
							   callingFunction);

  // Difference perturbed and base vector 
  result.update(-1.0, *wtJ, 1.0);
  result.scale(1.0/eps);
  
  // Restore original solution vector
  grp.setX(*Xvec);

  return finalStatus;
}

示例#3

显示文件

NOX::Abstract::Group::ReturnType 
LOCA::DerivUtils::computeDJnDxa(LOCA::MultiContinuation::AbstractGroup& grp,
				const NOX::Abstract::Vector& nullVector,
				const NOX::Abstract::MultiVector& aVector,
				const NOX::Abstract::Vector& JnVector,
				NOX::Abstract::MultiVector& result) const
{
  string callingFunction = 
    "LOCA::DerivUtils::computeDJnDxa()";
  NOX::Abstract::Group::ReturnType status, finalStatus;

  // Copy original solution vector
  Teuchos::RCP<NOX::Abstract::Vector> Xvec = 
    grp.getX().clone(NOX::DeepCopy);

  // Loop over each column of multivector
  for (int i=0; i<aVector.numVectors(); i++) {

    // Perturb solution vector in direction of aVector, return perturbation
    double eps = perturbXVec(grp, *Xvec, aVector[i]);

    // Fill perturbed Jn vector
    finalStatus = grp.computeJacobian();
    globalData->locaErrorCheck->checkReturnType(finalStatus, callingFunction);
    
    status = grp.applyJacobian(nullVector, result[i]);
    finalStatus = 
      globalData->locaErrorCheck->combineAndCheckReturnTypes(status, 
							     finalStatus,
							     callingFunction);

    // Difference perturbed and base vector 
    result[i].update(-1.0, JnVector, 1.0);
    result[i].scale(1.0/eps);

  }
  
  // Restore original solution vector
  grp.setX(*Xvec);

  return finalStatus;
}