diff --git a/test/adolctest.cc b/test/adolctest.cc
index 80f007bda9b1a7ec0705f3d4649b065b84f0a39c..17fe246d1e8ac0938388ac41bc4efe086b70e54f 100644
--- a/test/adolctest.cc
+++ b/test/adolctest.cc
@@ -34,62 +34,11 @@
using namespace Dune;
-#if 1
-template <class GridView, class LocalFiniteElement, class TargetSpace>
-double
-energy(const typename GridView::template Codim<0>::Entity& element,
- const LocalFiniteElement& localFiniteElement,
- const std::vector<TargetSpace>& localPureSolution)
-{
- double pureEnergy;
-
- typedef typename TargetSpace::template rebind<adouble>::other ATargetSpace;
- std::vector<ATargetSpace> localSolution(localPureSolution.size());
-
-#if 0
- HarmonicEnergyLocalStiffness<GridView,LocalFiniteElement,ATargetSpace> assembler;
-#else
- ParameterTree parameterSet;
- ParameterTreeParser::readINITree("../cosserat-continuum.parset", parameterSet);
-
- const ParameterTree& materialParameters = parameterSet.sub("materialParameters");
- std::cout << "Material parameters:" << std::endl;
- materialParameters.report();
-
- CosseratEnergyLocalStiffness<GridView,LocalFiniteElement,3, adouble> assembler(materialParameters, NULL, NULL);
-#endif
-
- trace_on(1);
-
- adouble energy = 0;
-
- for (size_t i=0; i<localSolution.size(); i++)
- localSolution[i] <<=localPureSolution[i];
-
- energy = assembler.energy(element,localFiniteElement,localSolution);
-
- energy >>= pureEnergy;
-
- trace_off(1);
- size_t tape_stats[STAT_SIZE];
- tapestats(1,tape_stats); // reading of tape statistics
- cout<<"maxlive "<<tape_stats[NUM_MAX_LIVES]<<"\n";
- // ..... print other tape stats
-
- return pureEnergy;
-}
-#endif
-
-
-/****************************************************************************/
-/* MAIN PROGRAM */
int main() {
size_t nDofs = 4;
- //std::cout << className< decltype(adouble() / double()) >() << std::endl;
-
const int dim = 2;
typedef YaspGrid<dim> GridType;
FieldVector<double,dim> l(1);
@@ -114,52 +63,7 @@ int main() {
for (size_t i=0; i<localSolution.size(); i++)
std::cout << localSolution[i] << std::endl;
-#if 0
- double laplaceEnergy = energy<GridType::LeafGridView,LocalFE, TargetSpace>(*grid.leafbegin<0>(), localFiniteElement, localSolution);
-
- std::cout << "Laplace energy: " << laplaceEnergy << std::endl;
-
- size_t nDoubles = nDofs*sizeof(TargetSpace) / sizeof(double);
- std::vector<double> xp(nDoubles);
- int idx=0;
- for (size_t i=0; i<nDofs; i++)
- for (size_t j=0; j<sizeof(TargetSpace) / sizeof(double); j++)
- xp[idx++] = localSolution[i].globalCoordinates()[j];
-
- // Compute gradient
- double* g = new double[nDoubles];
- gradient(1,nDoubles,xp.data(),g); // gradient evaluation
-
- int idx2 = 0;
- for(size_t i=0; i<nDofs; i++) {
- for (size_t j=0; j<sizeof(TargetSpace) / sizeof(double); j++) {
- std::cout << g[idx2++] << " ";
- }
- std::cout << std::endl;
- }
-
-
- //exit(0);
- // Compute Hessian
- double** H = (double**) malloc(nDoubles*sizeof(double*));
- for(size_t i=0; i<nDoubles; i++)
- H[i] = (double*)malloc((i+1)*sizeof(double));
- hessian(1,nDoubles,xp.data(),H); // H equals (n-1)g since g is
-
- std::cout << "Hessian:" << std::endl;
- for(size_t i=0; i<nDoubles; i++) {
- for (size_t j=0; j<nDoubles; j++) {
- double value = (j<=i) ? H[i][j] : H[j][i];
- std::cout << value << " ";
- }
- std::cout << std::endl;
- }
-#endif
-
- //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////