diff --git a/dune/gfe/hyperbolichalfspacepoint.hh b/dune/gfe/hyperbolichalfspacepoint.hh
index 8239f1577b092b7bbee0d807428d5607fc82c105..cfa9dbe59a79d089767d535d37723118a391b3b8 100644
--- a/dune/gfe/hyperbolichalfspacepoint.hh
+++ b/dune/gfe/hyperbolichalfspacepoint.hh
@@ -78,6 +78,46 @@ class HyperbolicHalfspacePoint
return result;
}
+ /** \brief Compute second derivative of $F(p,q) = 1 + ||p-q||^2 / 2p_nq_n with respect to p and q
+ \param[in] diffNormSquared Expected to be ||p-q||^2, taken from the caller for efficiency reasons
+ */
+ static Dune::FieldMatrix<T,N,N> computeDFdpdq(const HyperbolicHalfspacePoint& a, const HyperbolicHalfspacePoint& b, const T& diffNormSquared)
+ {
+ // abbreviate notation
+ const Dune::FieldVector<T,N>& p = a.data_;
+ const Dune::FieldVector<T,N>& q = b.data_;
+
+ Dune::FieldMatrix<T,N,N> dFdpdq;
+
+ for (size_t i=0; i<N; i++) {
+
+ for (size_t j=0; j<N; j++) {
+
+ if (i!=N-1 and j!=N-1) {
+
+ dFdpdq[i][j] = -(i==j) / (p[N-1]*q[N-1]);
+
+ } else if (i!=N-1 and j==N-1) {
+
+ dFdpdq[i][j] = -(p[i] - q[i]) / (p[N-1]*q[N-1]*q[N-1]);
+
+ } else if (i!=N-1 and j==N-1) {
+
+ dFdpdq[i][j] = (p[j] - q[j]) / (p[N-1]*p[N-1]*q[N-1]);
+
+ } else if (i==N-1 and j==N-1) {
+
+ dFdpdq[i][j] = -1/(p[N-1]*p[N-1]*q[N-1]) - (p[N-1]-q[N-1]) / (p[N-1]*q[N-1]*q[N-1]) + diffNormSquared / (p[N-1]*p[N-1]*q[N-1]*q[N-1]);
+
+ }
+
+ }
+
+ }
+
+ return dFdpdq;
+ }
+
/** \brief Compute second derivative of $F(p,q) = 1 + ||p-q||^2 / 2p_nq_n with respect to q
\param[in] diffNormSquared Expected to be ||p-q||^2, taken from the caller for efficiency reasons
*/
@@ -271,33 +311,7 @@ public:
Dune::FieldVector<T,N> dFdq = computeDFdq(a,b,diffNormSquared);
// Compute second derivatives of F
- Dune::FieldMatrix<T,N,N> dFdpdq;
-
- for (size_t i=0; i<N; i++) {
-
- for (size_t j=0; j<N; j++) {
-
- if (i!=N-1 and j!=N-1) {
-
- dFdpdq[i][j] = -(i==j) / (p[N-1]*q[N-1]);
-
- } else if (i!=N-1 and j==N-1) {
-
- dFdpdq[i][j] = -(p[i] - q[i]) / (p[N-1]*q[N-1]*q[N-1]);
-
- } else if (i!=N-1 and j==N-1) {
-
- dFdpdq[i][j] = (p[j] - q[j]) / (p[N-1]*p[N-1]*q[N-1]);
-
- } else if (i==N-1 and j==N-1) {
-
- dFdpdq[i][j] = -1/(p[N-1]*p[N-1]*q[N-1]) - (p[N-1]-q[N-1]) / (p[N-1]*q[N-1]*q[N-1]) + diffNormSquared / (p[N-1]*p[N-1]*q[N-1]*q[N-1]);
-
- }
-
- }
-
- }
+ Dune::FieldMatrix<T,N,N> dFdpdq = computeDFdpdq(a,b,diffNormSquared);
//
T x = 1 + diffNormSquared/ (2*p[N-1]*q[N-1]);
@@ -422,33 +436,7 @@ public:
// Compute second derivatives of F
Dune::FieldMatrix<T,N,N> dFdqdq = computeDFdqdq(a,b,diffNormSquared);
- Dune::FieldMatrix<T,N,N> dFdpdq;
-
- for (size_t i=0; i<N; i++) {
-
- for (size_t j=0; j<N; j++) {
-
- if (i!=N-1 and j!=N-1) {
-
- dFdpdq[i][j] = -(i==j) / (p[N-1]*q[N-1]);
-
- } else if (i!=N-1 and j==N-1) {
-
- dFdpdq[i][j] = -(p[i] - q[i]) / (p[N-1]*q[N-1]*q[N-1]);
-
- } else if (i!=N-1 and j==N-1) {
-
- dFdpdq[i][j] = (p[j] - q[j]) / (p[N-1]*p[N-1]*q[N-1]);
-
- } else if (i==N-1 and j==N-1) {
-
- dFdpdq[i][j] = -1/(p[N-1]*p[N-1]*q[N-1]) - (p[N-1]-q[N-1]) / (p[N-1]*q[N-1]*q[N-1]) + diffNormSquared / (p[N-1]*p[N-1]*q[N-1]*q[N-1]);
-
- }
-
- }
-
- }
+ Dune::FieldMatrix<T,N,N> dFdpdq = computeDFdpdq(a,b,diffNormSquared);
// Compute third derivatives of F
Tensor3<T,N,N,N> dFdpdqdq;