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4315665b64
the enum can only be used with a define, and that would just be a temporary solution in any case
449 lines
14 KiB
C++
449 lines
14 KiB
C++
/*
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Copyright 2015 Dr. Blatt - HPC-Simulation-Software & Services
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Copyright 2015 Statoil AS
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This file is part of the Open Porous Media project (OPM).
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OPM is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OPM is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OPM. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef OPM_PARALLELOVERLAPPINGILU0_HEADER_INCLUDED
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#define OPM_PARALLELOVERLAPPINGILU0_HEADER_INCLUDED
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#include <opm/common/Exceptions.hpp>
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#include <dune/common/version.hh>
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#include <dune/istl/preconditioner.hh>
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#include <dune/istl/paamg/smoother.hh>
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#include <dune/istl/paamg/pinfo.hh>
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#include <type_traits>
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namespace Opm
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{
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//template<class M, class X, class Y, class C>
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//class ParallelOverlappingILU0;
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template<class Matrix, class Domain, class Range, class ParallelInfo = Dune::Amg::SequentialInformation>
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class ParallelOverlappingILU0;
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} // end namespace Opm
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namespace Dune
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{
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namespace Amg
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{
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/// \brief Tells AMG how to construct the Opm::ParallelOverlappingILU0 smoother
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/// \tparam Matrix The type of the Matrix.
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/// \tparam Domain The type of the Vector representing the domain.
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/// \tparam Range The type of the Vector representing the range.
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/// \tparam ParallelInfo The type of the parallel information object
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/// used, e.g. Dune::OwnerOverlapCommunication
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template<class Matrix, class Domain, class Range, class ParallelInfo>
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struct ConstructionTraits<Opm::ParallelOverlappingILU0<Matrix,Domain,Range,ParallelInfo> >
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{
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typedef Dune::SeqILU0<Matrix,Domain,Range> T;
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typedef DefaultParallelConstructionArgs<T,ParallelInfo> Arguments;
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typedef ConstructionTraits<T> SeqConstructionTraits;
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static inline Opm::ParallelOverlappingILU0<Matrix,Domain,Range,ParallelInfo>* construct(Arguments& args)
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{
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return new Opm::ParallelOverlappingILU0<Matrix,Domain,Range,ParallelInfo>(args.getMatrix(),
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args.getComm(),
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args.getArgs().relaxationFactor);
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}
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static inline void deconstruct(Opm::ParallelOverlappingILU0<Matrix,Domain,Range,ParallelInfo>* bp)
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{
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delete bp;
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}
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};
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} // end namespace Amg
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} // end namespace Dune
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namespace Opm
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{
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namespace detail
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{
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//! compute ILU decomposition of A. A is overwritten by its decomposition
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template<class M, class CRS, class InvVector>
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void convertToCRS(const M& A, CRS& lower, CRS& upper, InvVector& inv )
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{
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typedef typename M :: size_type size_type;
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lower.resize( A.N() );
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upper.resize( A.N() );
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inv.resize( A.N() );
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lower.reserveAdditional( 2*A.N() );
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// implement left looking variant with stored inverse
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const auto endi = A.end();
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size_type row = 0;
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size_type colcount = 0;
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lower.rows_[ 0 ] = colcount;
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for (auto i=A.begin(); i!=endi; ++i, ++row)
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{
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const size_type iIndex = i.index();
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lower.reserveAdditional( (*i).size() );
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// eliminate entries left of diagonal; store L factor
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for (auto j=(*i).begin(); j.index() < iIndex; ++j )
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{
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lower.push_back( (*j), j.index() );
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++colcount;
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}
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lower.rows_[ iIndex+1 ] = colcount;
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}
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const auto rendi = A.beforeBegin();
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row = 0;
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colcount = 0;
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upper.rows_[ 0 ] = colcount ;
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upper.reserveAdditional( lower.nonZeros() + A.N() );
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// NOTE: upper and inv store entries in reverse order, reverse here
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// relative to ILU
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for (auto i=A.beforeEnd(); i!=rendi; --i, ++ row )
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{
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const size_type iIndex = i.index();
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upper.reserveAdditional( (*i).size() );
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// store in reverse row order
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// eliminate entries left of diagonal; store L factor
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for (auto j=(*i).beforeEnd(); j.index()>=iIndex; --j )
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{
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const size_type jIndex = j.index();
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if( j.index() == iIndex )
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{
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inv[ row ] = (*j);
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break;
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}
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else if ( j.index() >= i.index() )
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{
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upper.push_back( (*j), jIndex );
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++colcount ;
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}
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}
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upper.rows_[ row+1 ] = colcount;
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}
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}
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} // end namespace detail
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/// \brief A two-step version of an overlapping Schwarz preconditioner using one step ILU0 as
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///
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/// This preconditioner differs from a ParallelRestrictedOverlappingSchwarz with
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/// Dune:SeqILU0 in the follwing way:
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/// During apply we make sure that the current residual is consistent (i.e.
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/// each process knows the same value for each index. The we solve
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/// Ly= d for y and make y consistent again. Last we solve Ux = y and
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/// make sure that x is consistent.
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/// In contrast for ParallelRestrictedOverlappingSchwarz we solve (LU)x = d for x
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/// without forcing consistency between the two steps.
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/// \tparam Matrix The type of the Matrix.
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/// \tparam Domain The type of the Vector representing the domain.
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/// \tparam Range The type of the Vector representing the range.
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/// \tparam ParallelInfo The type of the parallel information object
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/// used, e.g. Dune::OwnerOverlapCommunication
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template<class Matrix, class Domain, class Range, class ParallelInfoT>
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class ParallelOverlappingILU0
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: public Dune::Preconditioner<Domain,Range>
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{
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typedef ParallelInfoT ParallelInfo;
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public:
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//! \brief The matrix type the preconditioner is for.
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typedef typename std::remove_const<Matrix>::type matrix_type;
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//! \brief The domain type of the preconditioner.
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typedef Domain domain_type;
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//! \brief The range type of the preconditioner.
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typedef Range range_type;
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//! \brief The field type of the preconditioner.
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typedef typename Domain::field_type field_type;
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typedef typename matrix_type::block_type block_type;
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typedef typename matrix_type::size_type size_type;
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protected:
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struct CRS
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{
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CRS() : nRows_( 0 ) {}
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size_type rows() const { return nRows_; }
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size_type nonZeros() const
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{
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assert( rows_[ rows() ] != size_type(-1) );
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return rows_[ rows() ];
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}
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void resize( const size_type nRows )
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{
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if( nRows_ != nRows )
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{
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nRows_ = nRows ;
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rows_.resize( nRows_+1, size_type(-1) );
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}
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}
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void reserveAdditional( const size_type nonZeros )
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{
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const size_type needed = values_.size() + nonZeros ;
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if( values_.capacity() < needed )
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{
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const size_type estimate = needed * 1.1;
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values_.reserve( estimate );
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cols_.reserve( estimate );
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}
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}
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void push_back( const block_type& value, const size_type index )
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{
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values_.push_back( value );
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cols_.push_back( index );
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}
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std::vector< size_type > rows_;
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std::vector< block_type > values_;
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std::vector< size_type > cols_;
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size_type nRows_;
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};
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public:
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#if DUNE_VERSION_NEWER(DUNE_ISTL, 2, 6)
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Dune::SolverCategory::Category category() const override
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{
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return std::is_same<ParallelInfoT, Dune::Amg::SequentialInformation>::value ?
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Dune::SolverCategory::sequential : Dune::SolverCategory::overlapping;
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}
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#else
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// define the category
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enum {
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//! \brief The category the preconditioner is part of.
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category = std::is_same<ParallelInfoT, Dune::Amg::SequentialInformation>::value ?
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Dune::SolverCategory::sequential : Dune::SolverCategory::overlapping
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};
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#endif
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/*! \brief Constructor.
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Constructor gets all parameters to operate the prec.
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\param A The matrix to operate on.
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\param n ILU fill in level (for testing). This does not work in parallel.
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\param w The relaxation factor.
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*/
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template<class BlockType, class Alloc>
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ParallelOverlappingILU0 (const Dune::BCRSMatrix<BlockType,Alloc>& A,
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const int n, const field_type w )
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: lower_(),
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upper_(),
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inv_(),
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comm_(nullptr), w_(w),
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relaxation_( std::abs( w - 1.0 ) > 1e-15 )
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{
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// BlockMatrix is a Subclass of FieldMatrix that just adds
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// methods. Therefore this cast should be safe.
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init( reinterpret_cast<const Matrix&>(A), n );
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}
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/*! \brief Constructor.
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Constructor gets all parameters to operate the prec.
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\param A The matrix to operate on.
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\param w The relaxation factor.
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*/
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template<class BlockType, class Alloc>
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ParallelOverlappingILU0 (const Dune::BCRSMatrix<BlockType,Alloc>& A,
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const field_type w)
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: ParallelOverlappingILU0( A, 0, w )
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{
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}
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/*! \brief Constructor.
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Constructor gets all parameters to operate the prec.
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\param A The matrix to operate on.
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\param comm communication object, e.g. Dune::OwnerOverlapCopyCommunication
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\param w The relaxation factor.
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*/
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template<class BlockType, class Alloc>
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ParallelOverlappingILU0 (const Dune::BCRSMatrix<BlockType,Alloc>& A,
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const ParallelInfo& comm, const field_type w)
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: lower_(),
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upper_(),
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inv_(),
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comm_(&comm), w_(w),
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relaxation_( std::abs( w - 1.0 ) > 1e-15 )
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{
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// BlockMatrix is a Subclass of FieldMatrix that just adds
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// methods. Therefore this cast should be safe.
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init( reinterpret_cast<const Matrix&>(A), 0 );
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}
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/*!
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\brief Prepare the preconditioner.
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\copydoc Preconditioner::pre(X&,Y&)
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*/
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virtual void pre (Domain& x, Range& b)
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{
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DUNE_UNUSED_PARAMETER(x);
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DUNE_UNUSED_PARAMETER(b);
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}
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/*!
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\brief Apply the preconditoner.
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\copydoc Preconditioner::apply(X&,const Y&)
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*/
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virtual void apply (Domain& v, const Range& d)
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{
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Range& md = const_cast<Range&>(d);
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copyOwnerToAll( md );
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// iterator types
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typedef typename Range ::block_type dblock;
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typedef typename Domain::block_type vblock;
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const size_type iEnd = lower_.rows();
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const size_type lastRow = iEnd - 1;
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if( iEnd != upper_.rows() )
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{
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std::abort();
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// OPM_THROW(std::logic_error,"ILU: lower and upper rows must be the same");
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}
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// lower triangular solve
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for( size_type i=0; i<iEnd; ++ i )
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{
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dblock rhs( d[ i ] );
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const size_type rowI = lower_.rows_[ i ];
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const size_type rowINext = lower_.rows_[ i+1 ];
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for( size_type col = rowI; col < rowINext; ++ col )
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{
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lower_.values_[ col ].mmv( v[ lower_.cols_[ col ] ], rhs );
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}
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v[ i ] = rhs; // Lii = I
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}
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copyOwnerToAll( v );
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for( size_type i=0; i<iEnd; ++ i )
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{
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vblock& vBlock = v[ lastRow - i ];
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vblock rhs ( vBlock );
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const size_type rowI = upper_.rows_[ i ];
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const size_type rowINext = upper_.rows_[ i+1 ];
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for( size_type col = rowI; col < rowINext; ++ col )
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{
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upper_.values_[ col ].mmv( v[ upper_.cols_[ col ] ], rhs );
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}
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// apply inverse and store result
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inv_[ i ].mv( rhs, vBlock);
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}
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copyOwnerToAll( v );
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if( relaxation_ ) {
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v *= w_;
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}
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}
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template <class V>
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void copyOwnerToAll( V& v ) const
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{
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if( comm_ ) {
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comm_->copyOwnerToAll(v, v);
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}
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}
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/*!
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\brief Clean up.
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\copydoc Preconditioner::post(X&)
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*/
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virtual void post (Range& x)
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{
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DUNE_UNUSED_PARAMETER(x);
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}
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protected:
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void init( const Matrix& A, const int iluIteration )
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{
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int ilu_setup_successful = 1;
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std::string message;
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const int rank = ( comm_ ) ? comm_->communicator().rank() : 0;
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std::unique_ptr< Matrix > ILU;
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try
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{
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if( iluIteration == 0 ) {
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// create ILU-0 decomposition
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ILU.reset( new Matrix( A ) );
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bilu0_decomposition( *ILU );
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}
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else {
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// create ILU-n decomposition
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ILU.reset( new Matrix( A.N(), A.M(), Matrix::row_wise) );
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bilu_decomposition( A, iluIteration, *ILU );
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}
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}
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catch ( Dune::MatrixBlockError error )
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{
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message = error.what();
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std::cerr<<"Exception occured on process " << rank << " during " <<
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"setup of ILU0 preconditioner with message: " <<
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message<<std::endl;
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ilu_setup_successful = 0;
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}
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// Check whether there was a problem on some process
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if ( comm_ && comm_->communicator().min(ilu_setup_successful) == 0 )
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{
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throw Dune::MatrixBlockError();
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}
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// store ILU in simple CRS format
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detail::convertToCRS( *ILU, lower_, upper_, inv_ );
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}
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protected:
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//! \brief The ILU0 decomposition of the matrix.
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CRS lower_;
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CRS upper_;
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std::vector< block_type > inv_;
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const ParallelInfo* comm_;
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//! \brief The relaxation factor to use.
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const field_type w_;
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const bool relaxation_;
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};
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} // end namespace Opm
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#endif
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