directionalSubDiff works on BlockVectors!

c801a0e8 · Elias Pipping · Elias Pipping · 109bc227 · c801a0e8 · c801a0e8
Commit c801a0e8 authored 13 years ago by Elias Pipping Committed by Elias Pipping 13 years ago
--- a/src/bisection-example-new.cc
+++ b/src/bisection-example-new.cc
@@ -62,22 +62,28 @@ class SampleFunctional {
       since A is symmetric.
     */

-    SmallVector tmp2;
-    A_.mv(descDir, tmp2);
-    double const rest_A = tmp2 * descDir;
-
-    SmallVector tmp3;
-    A_.mv(x, tmp3);
-    double const rest_b = (b_ - tmp3) * descDir;
-
-    Dune::BlockVector<SmallVector> xx; // FIXME: we actually want x here
-    Dune::BlockVector<SmallVector> dd; // FIXME: we actually want descDir here
-
-    typedef MyNonlinearity<dimension, SampleFunction> MyNonlinearityType;
-    MyNonlinearityType phi;
-    typedef DirectionalConvexFunction<MyNonlinearityType>
-    MyDirectionalConvexFunctionType;
-    MyDirectionalConvexFunctionType rest(rest_A, rest_b, phi, xx, dd);
+    {
+      SmallVector tmp2;
+      A_.mv(descDir, tmp2);
+      double const rest_A = tmp2 * descDir;
+
+      SmallVector tmp3;
+      A_.mv(x, tmp3);
+      double const rest_b = (b_ - tmp3) * descDir;
+
+      Dune::BlockVector<SmallVector> xx; // FIXME: we actually want x here
+      Dune::BlockVector<SmallVector> dd; // FIXME: we actually want descDir here
+
+      typedef MyNonlinearity<dimension, SampleFunction> MyNonlinearityType;
+      MyNonlinearityType phi;
+      typedef DirectionalConvexFunction<MyNonlinearityType>
+      MyDirectionalConvexFunctionType;
+      MyDirectionalConvexFunctionType rest(rest_A, rest_b, phi, xx, dd);
+
+      // Experiment a bit
+      Interval<double> D;
+      rest.subDiff(0, D);
+    }

    if (descDir == SmallVector(0.0))
      return SmallVector(0.0);

--- a/src/mynonlinearity.cc
+++ b/src/mynonlinearity.cc
@@ -24,16 +24,16 @@ class MyNonlinearity {
  typedef Dune::BlockVector<SmallVector> VectorType;
  typedef Dune::BlockVector<SmallMatrix> MatrixType;

-  void directionalSubDiff(SmallVector u, SmallVector v, Interval<double>& D) {
-    if (u == SmallVector(0.0)) {
-      D[0] = D[1] = func_.rightDifferential(0);
-    } else if (u * v > 0) {
-      D[1] = (v * u) * func_.rightDifferential(u.two_norm()) / u.two_norm();
-      D[0] = (v * u) * func_.leftDifferential(u.two_norm()) / u.two_norm();
-    } else {
-      D[1] = (v * u) * func_.leftDifferential(u.two_norm()) / u.two_norm();
-      D[0] = (v * u) * func_.rightDifferential(u.two_norm()) / u.two_norm();
-    }
+  void directionalSubDiff(VectorType u, VectorType v, Interval<double>& D) {
+    // if (u == SmallVector(0.0)) {
+    //   D[0] = D[1] = func_.rightDifferential(0);
+    // } else if (u * v > 0) {
+    //   D[1] = (v * u) * func_.rightDifferential(u.two_norm())/u.two_norm();
+    //   D[0] = (v * u) * func_.leftDifferential(u.two_norm())/u.two_norm();
+    // } else {
+    //   D[1] = (v * u) * func_.leftDifferential(u.two_norm())/u.two_norm();
+    //   D[0] = (v * u) * func_.rightDifferential(u.two_norm())/u.two_norm();
+    // }
  }

  void directionalDomain(const VectorType&, const VectorType&,