diff --git a/dune/gfe/globalgfetestfunction.hh b/dune/gfe/globalgfetestfunction.hh
index a8b3b9efef603b6367a504b7d35de9be0a3c3f6d..1bd85faa30fda01769f9fad84f1bcd0959f13f52 100644
--- a/dune/gfe/globalgfetestfunction.hh
+++ b/dune/gfe/globalgfetestfunction.hh
@@ -10,7 +10,7 @@
#include <dune/gfe/localgfetestfunction.hh>
-#include <dune/fufem/functions/virtualgridfunction.hh>
+#include <dune/fufem/functions/basisgridfunction.hh>
/** \brief Global geodesic finite element test function.
*
@@ -19,7 +19,7 @@
* \tparam CoefficientType - The coefficient vector type.
*/
template<class Basis, class TargetSpace, class CoefficientType>
-GlobalGFETestFunction : public VirtualGridFunction<typename Basis::GridView::Grid, typename TargetSpace::EmbeddedTangentVector> {
+GlobalGFETestFunction : public BasisGridFunction<Basis, CoefficientType> {
typedef typename Basis::LocalFiniteElement LocalFiniteElement;
typedef typename Basis::GridView GridView;
@@ -41,9 +41,7 @@ public:
//! Create global function by a global gfe test basis and the corresponding coefficient vectors
GlobalGFETestFunction(const Basis& basis, const CoefficientType& coefficients) :
- VirtualGridFunction<typename GridView::Grid, EmbeddedTangentVector>(basis.getGridView().grid()),
- basis_(basis),
- coefficients_(coefficients)
+ BasisGridFunction<Basis,CoefficientType>(basis,coefficients),
{}
/** \brief Evaluate the function at local coordinates. */
@@ -53,33 +51,27 @@ public:
void evaluateDerivativeLocal(const Element& element, const Dune::FieldVector<gridDim,ctype>& local,
Dune::FieldMatrix<ctype, embeddedDim, gridDim>& out) const;
-private:
-
- //! The global basis
- const Basis& basis_;
- //! The coefficient vector for the global test function
- const CoefficientType& coefficients_;
};
template<class Basis, class TargetSpace, class CoefficientType>
void GlobalGFETestFunction<Basis,TargetSpace>::evaluateLocal(const Element& element, const Dune::FieldVector<gridDim,ctype>& local,
EmbeddedTangentVector& out) const
{
- int numOfBasisFct = basis_.getLocalFiniteElement(element).size();
+ int numOfBasisFct = this->basis_.getLocalFiniteElement(element).size();
// values of the test basis functions
std::vector<Dune::array<EmbeddedTangentVector, tangentDim> > values;
// create local gfe test function
- basis_.getLocalFiniteElement(element).localBasis().evaluateFunction(local, values);
+ this->basis_.getLocalFiniteElement(element).localBasis().evaluateFunction(local, values);
// multiply values with the corresponding test coefficients and sum them up
out = 0;
for (int i=0; i<values.size(); i++) {
- int index = basis_.index(element,i);
+ int index = this->basis_.index(element,i);
for (int j=0; j<tangentDim; j++) {
- values[i][j] *= coefficients_[index][j];
+ values[i][j] *= this->coefficients_[index][j];
out += values[i][j];
}
}
@@ -93,15 +85,15 @@ void GlobalGFETestFunction<Basis,TargetSpace>::evaluateDerivativeLocal(const Ele
std::vector<Dune::array<Dune::FieldMatrix<ctype, embeddedDim, gridDim>, tangentDim> > jacobians;
// evaluate local gfe test function basis
- basis_.getLocalFiniteElement(element).localBasis().evaluateJacobian(local, jacobians);
+ this->basis_.getLocalFiniteElement(element).localBasis().evaluateJacobian(local, jacobians);
// multiply values with the corresponding test coefficients and sum them up
out = 0;
for (int i=0; i<jacobians.size(); i++) {
- int index = basis_.index(element,i);
+ int index = this->basis_.index(element,i);
for (int j=0; j<tangentDim; j++) {
- jacobians[i][j] *= coefficients_[index][j];
+ jacobians[i][j] *= this->coefficients_[index][j];
out += jacobians[i][j];
}
}