ellipt.cc 3.08 KB
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#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
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#include <iostream>

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#include <amdis/AMDiS.hpp>
#include <amdis/ProblemStat.hpp>
#include <amdis/Operators.hpp>
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#include <amdis/common/FieldMatVec.hpp>
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#include <amdis/common/Literals.hpp>
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#include <amdis/gridfunctions/Integrate.hpp>
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using namespace AMDiS;
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using namespace Dune::Indices;
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// 1 component with polynomial degree 1
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using Param   = YaspGridBasis<AMDIS_DIM, 2>;
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using ElliptProblem = ProblemStat<Param>;
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int main(int argc, char** argv)
{
  AMDiS::init(argc, argv);
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  int numLevels = AMDIS_DIM == 2 ? 8 : 5;
  if (argc > 2)
    numLevels = std::atoi(argv[2]);

  auto f = [](auto const& x) {
    double r2 = dot(x,x);
    double ux = std::exp(-10.0 * r2);
    return -(400.0 * r2 - 20.0 * x.size()) * ux;
  };
  auto g = [](auto const& x){ return std::exp(-10.0 * dot(x,x)); };
  auto grad_g = [](auto const& x) -> FieldMatrix<double,1,AMDIS_DIM> {
    return {-20.0 * std::exp(-10.0 * dot(x,x)) * x};
  };
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  ElliptProblem prob("ellipt");
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  prob.initialize(INIT_ALL);
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  auto opL = makeOperator(tag::gradtest_gradtrial{}, 1.0);
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  prob.addMatrixOperator(opL, _0, _0);
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  auto opForce = makeOperator(tag::test{}, f, 6);
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  prob.addVectorOperator(opForce, _0);
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  // set boundary condition
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  auto boundary = [](auto const& x){ return x[0] < 1.e-8 || x[1] < 1.e-8 || x[0] > 1.0-1.e-8 || x[1] > 1.0-1.e-8; };
  prob.addDirichletBC(boundary, _0, _0, g);

  AdaptInfo adaptInfo("adapt");
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  std::vector<double> errL2; errL2.reserve(numLevels);
  std::vector<double> errH1; errH1.reserve(numLevels);
  std::vector<double> widths; widths.reserve(numLevels);
  for (int i = 0; i < numLevels; ++i) {
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    prob.grid().globalRefine(1);
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    auto gridView = prob.gridView();
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    double h = 0;
    for (auto const& e : edges(gridView))
      h = std::max(h, e.geometry().volume());
    widths.push_back(h);

    prob.buildAfterCoarsen(adaptInfo, Flag(0));
    prob.solve(adaptInfo);

    double errorL2 = integrate(sqr(g - prob.getSolution(_0)), gridView, 6);
    errL2.push_back(std::sqrt(errorL2));
    double errorH1 = errorL2 + integrate(unary_dot(grad_g - gradientAtQP(prob.getSolution(_0))), gridView, 6);
    errH1.push_back(std::sqrt(errorH1));

#if WRITE_FILES
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    Dune::VTKWriter<typename ElliptProblem::GridView> vtkWriter(gridView);
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    vtkWriter.addVertexData(prob.getSolution(_0), Dune::VTK::FieldInfo("u", Dune::VTK::FieldInfo::Type::scalar, 1));
    vtkWriter.write("u_" + std::to_string(i));
#endif
  }
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  std::cout << "\n";
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  msg("{:5} | {:12} | {:12} | {:12} | {:12} | {:12}\n",
      "level", "h", "|u - u*|_L2","|u - u*|_H1","eoc_L2","eoc_H1");
  msg("{0:->7}{0:->15}{0:->15}{0:->15}{0:->15}{1:->14}","+","\n");
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  std::vector<double> eocL2(numLevels, 0.0), eocH1(numLevels, 0.0);
  for (int i = 1; i < numLevels; ++i) {
    eocL2[i] = std::log(errL2[i]/errL2[i-1]) / std::log(widths[i]/widths[i-1]);
    eocH1[i] = std::log(errH1[i]/errH1[i-1]) / std::log(widths[i]/widths[i-1]);
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  }
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  for (int i = 0; i < numLevels; ++i)
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    msg("{:<5} | {:<12} | {:<12} | {:<12} | {:<12} | {:<12}\n",
        i+1, widths[i], errL2[i], errH1[i], eocL2[i], eocH1[i]);
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  AMDiS::finalize();
  return 0;
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}