diff --git a/dune/gfe/cosseratenergystiffness.hh b/dune/gfe/cosseratenergystiffness.hh
index 93de487c793f15eb96a79e814521a75cdb9ba5d2..8b8fa35197c30e2e48ebc54f4779d0b96890da32 100644
--- a/dune/gfe/cosseratenergystiffness.hh
+++ b/dune/gfe/cosseratenergystiffness.hh
@@ -386,20 +386,20 @@ energy(const Entity& element,
if (not neumannFunction_)
return energy;
- for (typename Entity::LeafIntersectionIterator it = element.ileafbegin(); it != element.ileafend(); ++it) {
-
- if (not neumannBoundary_ or not neumannBoundary_->contains(*it))
+ for (auto&& it : intersections(neumannBoundary_->gridView(),element) )
+ {
+ if (not neumannBoundary_ or not neumannBoundary_->contains(it))
continue;
const Dune::QuadratureRule<DT, gridDim-1>& quad
- = Dune::QuadratureRules<DT, gridDim-1>::rule(it->type(), quadOrder);
+ = Dune::QuadratureRules<DT, gridDim-1>::rule(it.type(), quadOrder);
for (size_t pt=0; pt<quad.size(); pt++) {
// Local position of the quadrature point
- const Dune::FieldVector<DT,gridDim>& quadPos = it->geometryInInside().global(quad[pt].position());
+ const Dune::FieldVector<DT,gridDim>& quadPos = it.geometryInInside().global(quad[pt].position());
- const DT integrationElement = it->geometry().integrationElement(quad[pt].position());
+ const DT integrationElement = it.geometry().integrationElement(quad[pt].position());
// The value of the local function
RigidBodyMotion<field_type,dim> value = localGeodesicFEFunction.evaluate(quadPos);
@@ -410,7 +410,7 @@ energy(const Entity& element,
if (dynamic_cast<const VirtualGridViewFunction<GridView,Dune::FieldVector<double,3> >*>(neumannFunction_))
dynamic_cast<const VirtualGridViewFunction<GridView,Dune::FieldVector<double,3> >*>(neumannFunction_)->evaluateLocal(element, quadPos, neumannValue);
else
- neumannFunction_->evaluate(it->geometry().global(quad[pt].position()), neumannValue);
+ neumannFunction_->evaluate(it.geometry().global(quad[pt].position()), neumannValue);
// Only translational dofs are affected by the Neumann force
for (size_t i=0; i<neumannValue.size(); i++)