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opm-simulators/opm/autodiff/fastSparseProduct.hpp
Robert K 8fecf98f37 [cleanup] remove commented code.
2014-12-05 14:50:55 +01:00

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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2008-2011 Gael Guennebaud <gael.guennebaud@inria.fr>
//
// This Source Code Form is subject to the terms of the Mozilla
// Public License v. 2.0. If a copy of the MPL was not distributed
// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
// This file has been modified for use in the OPM project codebase.
#ifndef OPM_FASTSPARSEPRODUCT_HEADER_INCLUDED
#define OPM_FASTSPARSEPRODUCT_HEADER_INCLUDED
#include <Eigen/Sparse>
#include <algorithm>
#include <iterator>
#include <functional>
#include <limits>
#include <vector>
#include <Eigen/Core>
namespace Opm {
template < unsigned int depth >
struct QuickSort
{
template <typename T>
static inline void sort(T begin, T end)
{
if (begin != end)
{
T middle = std::partition (begin, end,
std::bind2nd(std::less<typename std::iterator_traits<T>::value_type>(), *begin)
);
QuickSort< depth-1 >::sort(begin, middle);
// std::sort (max(begin + 1, middle), end);
T new_middle = begin;
QuickSort< depth-1 >::sort(++new_middle, end);
}
}
};
template <>
struct QuickSort< 0 >
{
template <typename T>
static inline void sort(T begin, T end)
{
// fall back to standard insertion sort
std::sort( begin, end );
}
};
template<typename Lhs, typename Rhs, typename ResultType>
void fastSparseProduct(const Lhs& lhs, const Rhs& rhs, ResultType& res)
{
// initialize result
res = ResultType(lhs.rows(), rhs.cols());
// if one of the matrices does not contain non zero elements
// the result will only contain an empty matrix
if( lhs.nonZeros() == 0 || rhs.nonZeros() == 0 )
return;
typedef typename Eigen::internal::remove_all<Lhs>::type::Scalar Scalar;
typedef typename Eigen::internal::remove_all<Lhs>::type::Index Index;
// make sure to call innerSize/outerSize since we fake the storage order.
Index rows = lhs.innerSize();
Index cols = rhs.outerSize();
eigen_assert(lhs.outerSize() == rhs.innerSize());
std::vector<bool> mask(rows,false);
Eigen::Matrix<Scalar,Eigen::Dynamic,1> values(rows);
Eigen::Matrix<Index, Eigen::Dynamic,1> indices(rows);
// estimate the number of non zero entries
// given a rhs column containing Y non zeros, we assume that the respective Y columns
// of the lhs differs in average of one non zeros, thus the number of non zeros for
// the product of a rhs column with the lhs is X+Y where X is the average number of non zero
// per column of the lhs.
// Therefore, we have nnz(lhs*rhs) = nnz(lhs) + nnz(rhs)
Index estimated_nnz_prod = lhs.nonZeros() + rhs.nonZeros();
res.setZero();
res.reserve(Index(estimated_nnz_prod));
//const Scalar epsilon = std::numeric_limits< Scalar >::epsilon();
const Scalar epsilon = 0.0;
// we compute each column of the result, one after the other
for (Index j=0; j<cols; ++j)
{
Index nnz = 0;
for (typename Rhs::InnerIterator rhsIt(rhs, j); rhsIt; ++rhsIt)
{
const Scalar y = rhsIt.value();
for (typename Lhs::InnerIterator lhsIt(lhs, rhsIt.index()); lhsIt; ++lhsIt)
{
const Scalar val = lhsIt.value() * y;
if( std::abs( val ) > epsilon )
{
const Index i = lhsIt.index();
if(!mask[i])
{
mask[i] = true;
values[i] = val;
indices[nnz] = i;
++nnz;
}
else
values[i] += val;
}
}
}
if( nnz > 1 )
{
// sort indices for sorted insertion to avoid later copying
QuickSort< 1 >::sort( indices.data(), indices.data()+nnz );
}
res.startVec(j);
// ordered insertion
// still using insertBackByOuterInnerUnordered since we know what we are doing
for(Index k=0; k<nnz; ++k)
{
const Index i = indices[k];
res.insertBackByOuterInnerUnordered(j,i) = values[i];
mask[i] = false;
}
}
res.finalize();
}
} // end namespace Opm
#endif // OPM_FASTSPARSEPRODUCT_HEADER_INCLUDED
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