]> https://gitweb.dealii.org/ - dealii-svn.git/commitdiff
be less strict to enable formulas with many iterations
authorkanschat <kanschat@0785d39b-7218-0410-832d-ea1e28bc413d>
Fri, 12 Nov 2010 03:00:06 +0000 (03:00 +0000)
committerkanschat <kanschat@0785d39b-7218-0410-832d-ea1e28bc413d>
Fri, 12 Nov 2010 03:00:06 +0000 (03:00 +0000)
git-svn-id: https://svn.dealii.org/trunk@22705 0785d39b-7218-0410-832d-ea1e28bc413d

deal.II/source/base/quadrature.cc

index 764e145b1654907dcac7a794cf8276d32d7380ea..89b43f7bdbf5ac7b1892b9558721c3a2cbb13810 100644 (file)
@@ -1469,6 +1469,109 @@ QIterated<1>::uses_both_endpoints (const Quadrature<1> &base_quadrature)
 }
 
 
+// template<>
+// void
+// QIterated<1>::fill(Quadrature<1>& dst,
+//                const Quadrature<1> &base_quadrature,
+//                const unsigned int   n_copies)
+// {
+//   Assert (n_copies > 0, ExcZero());
+//   Assert (base_quadrature.size() > 0, ExcZero());
+  
+//   const unsigned int np =
+//     uses_both_endpoints(base_quadrature)
+//     ? (base_quadrature.size()-1) * n_copies + 1
+//     : base_quadrature.size() * n_copies;
+  
+//   dst.quadrature_points.resize(np);
+//   dst.weights.resize(np);
+  
+//   if (!uses_both_endpoints(base_quadrature))
+//                                  // we don't have to skip some
+//                                  // points in order to get a
+//                                  // reasonable quadrature formula
+//     {
+//       unsigned int next_point = 0;
+//       for (unsigned int copy=0; copy<n_copies; ++copy)
+//     for (unsigned int q_point=0; q_point<base_quadrature.size(); ++q_point)
+//       {
+//         dst.quadrature_points[next_point](0)
+//           = (copy + base_quadrature.point(q_point)(0)) / n_copies;
+//         dst.weights[next_point]
+//           = base_quadrature.weight(q_point) / n_copies;
+//         ++next_point;
+//       };
+//     }
+//   else
+//                                  // skip doubly available points
+//     {
+//       unsigned int next_point = 0;
+
+//                                    // first find out the weights of
+//                                    // the left and the right boundary
+//                                    // points. note that these usually
+//                                    // are but need not necessarily be
+//                                    // the same
+//       double double_point_weight = 0;
+//       unsigned int n_end_points = 0;
+//       for (unsigned int i=0; i<base_quadrature.size(); ++i)
+//                                      // add up the weight if this
+//                                      // is an endpoint
+//     if ((base_quadrature.point(i)(0) == 0.) ||
+//         (base_quadrature.point(i)(0) == 1.))
+//       {
+//         double_point_weight += base_quadrature.weight(i);
+//         ++n_end_points;
+//       };
+//                                    // scale the weight correctly
+//       double_point_weight /= n_copies;
+
+//                                    // make sure the base quadrature formula
+//                                    // has only one quadrature point
+//                                    // per end point
+//       Assert (n_end_points == 2, ExcInvalidQuadratureFormula());
+
+
+//       for (unsigned int copy=0; copy<n_copies; ++copy)
+//     for (unsigned int q_point=0; q_point<base_quadrature.size(); ++q_point)
+//       {
+//                                          // skip the left point of
+//                                          // this copy since we
+//                                          // have already entered
+//                                          // it the last time
+//         if ((copy > 0) &&
+//             (base_quadrature.point(q_point)(0) == 0.))
+//           continue;
+           
+//         dst.quadrature_points[next_point](0)
+//           = (copy+base_quadrature.point(q_point)(0)) / n_copies;
+
+//                                          // if this is the
+//                                          // rightmost point of one
+//                                          // of the non-last
+//                                          // copies: give it the
+//                                          // double weight
+//         if ((copy != n_copies-1) &&
+//             (base_quadrature.point(q_point)(0) == 1.))
+//           dst.weights[next_point] = double_point_weight;
+//         else
+//           dst.weights[next_point] = base_quadrature.weight(q_point) /
+//                                       n_copies;
+           
+//         ++next_point;
+//       };
+//     };
+
+// #if DEBUG
+//   double sum_of_weights = 0;
+//   for (unsigned int i=0; i<dst.size(); ++i)
+//     sum_of_weights += dst.weight(i);
+//   Assert (std::fabs(sum_of_weights-1) < 1e-15,
+//       ExcInternalError());
+// #endif
+
+// }
+
 
 template <>
 QIterated<1>::QIterated (const Quadrature<1> &base_quadrature,
@@ -1478,6 +1581,8 @@ QIterated<1>::QIterated (const Quadrature<1> &base_quadrature,
                               (base_quadrature.size()-1) * n_copies + 1 :
                               base_quadrature.size() * n_copies) 
 {
+//  fill(*this, base_quadrature, n_copies);
+  Assert (base_quadrature.size() > 0, ExcNotInitialized());
   Assert (n_copies > 0, ExcZero());
   
   if (!uses_both_endpoints(base_quadrature))
@@ -1565,12 +1670,19 @@ QIterated<1>::QIterated (const Quadrature<1> &base_quadrature,
   double sum_of_weights = 0;
   for (unsigned int i=0; i<this->size(); ++i)
     sum_of_weights += this->weight(i);
-  Assert (std::fabs(sum_of_weights-1) < 1e-15,
+  Assert (std::fabs(sum_of_weights-1) < 1e-13,
          ExcInternalError());
 #endif
 }
 
 
+// template <int dim>
+// void
+// QIterated<dim>::fill(Quadrature<dim>&, const Quadrature<1>&, unsigned int)
+// {
+//   Assert(false, ExcNotImplemented());
+// }
+
 
 // construct higher dimensional quadrature formula by tensor product
 // of lower dimensional iterated quadrature formulae

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