Dune Core Modules (2.6.0)

fastamgsmoother.hh
1// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
2// vi: set et ts=4 sw=2 sts=2:
3#ifndef DUNE_ISTL_FASTAMGSMOOTHER_HH
4#define DUNE_ISTL_FASTAMGSMOOTHER_HH
5
6#include <cstddef>
7
8namespace Dune
9{
10 namespace Amg
11 {
12
13 template<std::size_t level>
14 struct GaussSeidelPresmoothDefect {
15
16 template<typename M, typename X, typename Y>
17 static void apply(const M& A, X& x, Y& d,
18 const Y& b)
19 {
20 typedef typename M::ConstRowIterator RowIterator;
21 typedef typename M::ConstColIterator ColIterator;
22
23 typename Y::iterator dIter=d.begin();
24 typename Y::const_iterator bIter=b.begin();
25 typename X::iterator xIter=x.begin();
26
27 for(RowIterator row=A.begin(), end=A.end(); row != end;
28 ++row, ++dIter, ++xIter, ++bIter)
29 {
30 ColIterator col=(*row).begin();
31 *dIter = *bIter;
32
33 for (; col.index()<row.index(); ++col)
34 (*col).mmv(x[col.index()],*dIter); // rhs -= sum_{j<i} a_ij * xnew_j
35 assert(row.index()==col.index());
36 ColIterator diag=col; // upper diagonal matrix not needed as x was 0 before.
37
38 // Not recursive yet. Just solve with the diagonal
39 diag->solve(*xIter,*dIter);
40 *dIter=0; //as r=v
41
42 // Update residual for the symmetric case
43 for(col=(*row).begin(); col.index()<row.index(); ++col)
44 col->mmv(*xIter, d[col.index()]); //d_j-=A_ij x_i
45 }
46 }
47 };
48
49 template<std::size_t level>
50 struct GaussSeidelPostsmoothDefect {
51
52 template<typename M, typename X, typename Y>
53 static void apply(const M& A, X& x, Y& d,
54 const Y& b)
55 {
56 typedef typename M::ConstRowIterator RowIterator;
57 typedef typename M::ConstColIterator ColIterator;
58 typedef typename Y::block_type YBlock;
59
60 typename Y::iterator dIter=d.beforeEnd();
61 typename X::iterator xIter=x.beforeEnd();
62 typename Y::const_iterator bIter=b.beforeEnd();
63
64 for(RowIterator row=A.beforeEnd(), end=A.beforeBegin(); row != end;
65 --row, --dIter, --xIter, --bIter)
66 {
67 ColIterator endCol=(*row).beforeBegin();
68 ColIterator col=(*row).beforeEnd();
69 *dIter = *bIter;
70
71 for (; col.index()>row.index(); --col)
72 (*col).mmv(x[col.index()],*dIter); // rhs -= sum_{i>j} a_ij * xnew_j
73 assert(row.index()==col.index());
74 ColIterator diag=col;
75 YBlock v=*dIter;
76 // upper diagonal matrix
77 for (--col; col!=endCol; --col)
78 (*col).mmv(x[col.index()],v); // v -= sum_{j<i} a_ij * xold_j
79
80 // Not recursive yet. Just solve with the diagonal
81 diag->solve(*xIter,v);
82
83 *dIter-=v;
84
85 // Update residual for the symmetric case
86 // Skip residual computation as it is not needed.
87 //for(col=(*row).begin();col.index()<row.index(); ++col)
88 //col.mmv(*xIter, d[col.index()]); //d_j-=A_ij x_i
89 }
90 }
91 };
92 } // end namespace Amg
93} // end namespace Dune
94#endif
decltype(auto) apply(F &&f, ArgTuple &&args)
Apply function with arguments given as tuple.
Definition: apply.hh:58
Dune namespace.
Definition: alignedallocator.hh:10
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