opm-simulators/tests/test_milu.cpp

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#include<config.h>
#define BOOST_TEST_MODULE MILU0Test
#include<vector>
#include<memory>
#include<dune/istl/bcrsmatrix.hh>
#include<dune/istl/bvector.hh>
#include<dune/common/fmatrix.hh>
#include<dune/common/fvector.hh>
#include<opm/autodiff/ParallelOverlappingILU0.hpp>
#include <boost/test/unit_test.hpp>
#include <boost/test/floating_point_comparison.hpp>
template<class M>
void test_milu0(M& A)
{
auto ILU = A;
std::shared_ptr<std::vector<typename M::block_type>> diagonal = nullptr;
diagonal.reset(new std::vector<typename M::block_type>());
Opm::detail::milu0_decomposition(ILU, diagonal.get());
#ifdef DEBUG
if ( A.N() < 11)
{
Dune::printmatrix(std::cout, ILU, "ILU", "row");
std::cout << "Diagonal: ";
for (const auto& d : *diagonal)
std::cout << d << " ";
std::cout<<std::endl;
}
#endif
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Dune::BlockVector<Dune::FieldVector<typename M::field_type, M::block_type::rows>> e(A.N()), x1(A.N()), x2(A.N()), t(A.N());
e = 1;
A.mv(e, x1);
// Compute L*U*e;
// t=Ue
for ( auto irow = ILU.begin(), iend = ILU.end(); irow != iend; ++irow)
{
auto i = irow.index();
(*diagonal)[i].mv(e[0], t[i]);
auto col = irow->find(i);
auto colend = irow->end();
if ( col == colend )
{
OPM_THROW(std::logic_error, "Missing diagonal entry for row " << irow.index());
}
for (++col ;col != colend; ++col)
{
col->umv(e[0], t[i]);
}
}
for ( auto irow = ILU.begin(), iend = ILU.end(); irow != iend; ++irow)
{
auto i = irow.index();
x2[i] = 0;
for (auto col = irow->begin(); col.index() < irow.index(); ++col)
{
col->umv(t[col.index()], x2[i]);
}
x2[i] += t[i];
}
auto diff = x2;
diff-=x1;
for ( std::size_t i = 0, end = A.N(); i < end; ++i)
{
auto point_difference = diff[i].two_norm();
#ifdef DEBUG
std::cout<<"index "<<i<<" size "<<diff.size()<<" difference"<<point_difference<<std::endl;
#endif
BOOST_CHECK(point_difference < 1e-12);
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}
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// Test that (LU)^-1Ae=e
A.mv(e, x1);
bilu_backsolve(ILU, x2, x1);
diff = x2;
diff -= e;
for ( std::size_t i = 0, end = A.N(); i < end; ++i)
{
#ifdef DEBUG
auto point_difference = diff[i].two_norm();
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std::cout<<"index "<<i<<" size "<<diff.size()<<" point_difference "<<point_difference<<std::endl;
#endif
BOOST_CHECK_CLOSE(x2[i].two_norm(), e[i].two_norm(), 1e-12);
}
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}
template<class B, class Alloc>
void setupSparsityPattern(Dune::BCRSMatrix<B,Alloc>& A, int N)
{
typedef typename Dune::BCRSMatrix<B,Alloc> Matrix;
A.setSize(N*N, N*N, N*N*5);
A.setBuildMode(Matrix::row_wise);
for (typename Dune::BCRSMatrix<B,Alloc>::CreateIterator i = A.createbegin(); i != A.createend(); ++i) {
int x = i.index()%N; // x coordinate in the 2d field
int y = i.index()/N; // y coordinate in the 2d field
if(y>0)
// insert lower neighbour
i.insert(i.index()-N);
if(x>0)
// insert left neighbour
i.insert(i.index()-1);
// insert diagonal value
i.insert(i.index());
if(x<N-1)
//insert right neighbour
i.insert(i.index()+1);
if(y<N-1)
// insert upper neighbour
i.insert(i.index()+N);
}
}
template<class B, class Alloc>
void setupLaplacian(Dune::BCRSMatrix<B,Alloc>& A, int N)
{
typedef typename Dune::BCRSMatrix<B,Alloc>::field_type FieldType;
setupSparsityPattern(A,N);
B diagonal(static_cast<FieldType>(0)), bone(static_cast<FieldType>(0)),
beps(static_cast<FieldType>(0));
for(typename B::RowIterator b = diagonal.begin(); b != diagonal.end(); ++b)
b->operator[](b.index())=4;
for(typename B::RowIterator b=bone.begin(); b != bone.end(); ++b)
b->operator[](b.index())=-1.0;
for (typename Dune::BCRSMatrix<B,Alloc>::RowIterator i = A.begin(); i != A.end(); ++i) {
int x = i.index()%N; // x coordinate in the 2d field
int y = i.index()/N; // y coordinate in the 2d field
i->operator[](i.index())=diagonal;
if(y>0)
i->operator[](i.index()-N)=bone;
if(y<N-1)
i->operator[](i.index()+N)=bone;
if(x>0)
i->operator[](i.index()-1)=bone;
if(x < N-1)
i->operator[](i.index()+1)=bone;
}
}
template<int bsize>
void test()
{
std::size_t N = 32;
Dune::BCRSMatrix<Dune::FieldMatrix<double, bsize, bsize> > A;
setupLaplacian(A, N);
test_milu0(A);
#ifdef DEBUG
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std::cout<< "Tested block size "<< bsize<<std::endl;
#endif
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}
BOOST_AUTO_TEST_CASE(MILULaplace1)
{
test<1>();
}
BOOST_AUTO_TEST_CASE(MILULaplace2)
{
test<2>();
}
BOOST_AUTO_TEST_CASE(MILULaplace3)
{
test<3>();
}
BOOST_AUTO_TEST_CASE(MILULaplace4)
{
test<4>();
}