source: ThirdParty/vmg/src/level/level_operator_fas.cpp@ 1ca493a

Candidate_v1.7.0 stable
Last change on this file since 1ca493a was 7faa5c, checked in by Frederik Heber <heber@…>, 9 years ago

Merge commit 'de061d9d851257a04e924d4472df4523d33bb08b' as 'ThirdParty/vmg'
  • Property mode set to 100644
File size: 5.0 KB
Line 
1/*
2 * vmg - a versatile multigrid solver
3 * Copyright (C) 2012 Institute for Numerical Simulation, University of Bonn
4 *
5 * vmg is free software: you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation, either version 3 of the License, or
8 * (at your option) any later version.
9 *
10 * vmg is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
14 *
15 * You should have received a copy of the GNU General Public License
16 * along with this program. If not, see <http://www.gnu.org/licenses/>.
17 */
18
19/**
20 * @file level_operator_fas.cpp
21 * @author Julian Iseringhausen <isering@ins.uni-bonn.de>
22 * @date Mon Apr 18 13:00:23 2011
23 *
24 * @brief VMG::LevelOperatorFAS
25 *
26 */
27
28#ifdef HAVE_CONFIG_H
29#include <libvmg_config.h>
30#endif
31
32#include <limits>
33
34#include "base/discretization.hpp"
35#include "base/helper.hpp"
36#include "base/index.hpp"
37#include "comm/comm.hpp"
38#include "grid/grid_index_translations.hpp"
39#include "grid/multigrid.hpp"
40#include "grid/tempgrid.hpp"
41#include "level/level_operator_fas.hpp"
42#include "mg.hpp"
43
44using namespace VMG;
45
46void LevelOperatorFAS::Restrict(Multigrid& sol, Multigrid& rhs)
47{
48 Grid::iterator iter_f, iter_c;
49 Stencil::iterator stencil_iter;
50
51 Comm& comm = *MG::GetComm();
52
53 Grid& sol_f = sol(sol.Level());
54 Grid& rhs_f = rhs(rhs.Level());
55
56 Grid& sol_c_dist = sol(sol.Level()-1);
57 Grid& rhs_c_dist = rhs(rhs.Level()-1);
58
59 Grid& sol_c_undist = comm.GetCoarserGrid(sol);
60 Grid& rhs_c_undist = comm.GetCoarserGrid(rhs);
61
62 GridIteratorSet bounds_c, bounds_f;
63 GridIndexTranslations::GetGridAlignment(rhs_c_undist, bounds_c, rhs_f, bounds_f);
64
65 const Stencil& op_res = OperatorRestrict();
66 const Stencil& op_sol = OperatorSol();
67 const Stencil& op_pde = MG::GetDiscretization()->GetStencil();
68 const vmg_float prefactor = MG::GetDiscretization()->OperatorPrefactor(sol_c_undist);
69
70 // Communication step
71 comm.CommToGhosts(sol_f);
72 comm.CommSubgrid(sol_c_dist, sol_c_undist, 0);
73 comm.CommSubgrid(rhs_c_dist, rhs_c_undist, 0);
74
75 MG::GetDiscretization()->SetInnerBoundary(sol_f, rhs_f, sol_c_undist);
76
77 // Compute residual
78 VMG::TempGrid *res_grid = MG::GetTempGrid();
79 res_grid->SetProperties(rhs_f);
80 res_grid->ImportFromResidual(sol_f, rhs_f);
81
82 for (iter_f=bounds_f.Begin(), iter_c=bounds_c.Begin(); iter_c!=bounds_c.End(); iter_f+=2, ++iter_c) {
83 Helper::AssertVectorsEqual(sol_c_undist.GetSpatialPos(*iter_c), sol_f.GetSpatialPos(*iter_f), 1e6 * std::numeric_limits<vmg_float>::epsilon());
84 sol_c_undist(*iter_c) = op_sol.Apply(sol_f, *iter_f);
85 }
86
87 comm.CommToGhosts(sol_c_undist);
88
89 for (iter_f=bounds_f.Begin(), iter_c=bounds_c.Begin(); iter_c!=bounds_c.End(); iter_f+=2, ++iter_c) {
90 Helper::AssertVectorsEqual(rhs_c_undist.GetSpatialPos(*iter_c), (*res_grid).GetSpatialPos(*iter_f), 1e6 * std::numeric_limits<vmg_float>::epsilon());
91 rhs_c_undist(*iter_c) = op_res.Apply(*res_grid, *iter_f) + prefactor * op_pde.Apply(sol_c_undist, *iter_c);
92 }
93
94 /*
95 if (rhs_c_undist.Global().BoundaryType() == GlobalCoarsened)
96 rhs_c_undist.SetBoundary(sol_c_undist);
97 */
98
99 comm.CommSubgrid(sol_c_undist, sol_c_dist, 1);
100 comm.CommSubgrid(rhs_c_undist, rhs_c_dist, 1);
101
102 VMG::TempGrid* sol_old = this->GetTempGrid(sol_c_dist.Level());
103 sol_old->SetProperties(sol_c_dist);
104 sol_old->SetGrid(sol_c_dist);
105
106 // comm.CommToGhosts(rhs_c_dist);
107
108 sol.ToCoarserLevel();
109 rhs.ToCoarserLevel();
110}
111
112void LevelOperatorFAS::Prolongate(Multigrid& sol, Multigrid& rhs)
113{
114 Grid::iterator iter_f, iter_c;
115 Stencil::iterator stencil_iter;
116 vmg_float val;
117
118 Comm& comm = *MG::GetComm();
119
120 Grid& sol_c = sol(sol.Level());
121 Grid& sol_f_dist = sol(sol.Level()+1);
122 Grid& rhs_f_dist = rhs(rhs.Level()+1);
123 Grid& sol_f_undist = comm.GetFinerGrid(sol);
124
125 const Stencil& op = OperatorProlongate();
126
127 TempGrid *sol_old = this->GetTempGrid(sol_c.Level());
128
129 GridIteratorSet bounds_c, bounds_f;
130 GridIndexTranslations::GetGridAlignment(sol_c, bounds_c, sol_f_undist, bounds_f);
131
132 comm.CommSubgrid(sol_f_dist, sol_f_undist, 0);
133 sol_f_undist.ClearHalo();
134
135 for (iter_f=bounds_f.Begin(), iter_c=bounds_c.Begin(); iter_c!=bounds_c.End(); iter_f+=2, ++iter_c) {
136 Helper::AssertVectorsEqual(sol_c.GetSpatialPos(*iter_c), sol_f_undist.GetSpatialPos(*iter_f), 1e6 * std::numeric_limits<vmg_float>::epsilon());
137 val = sol_c.GetVal(*iter_c) - sol_old->GetVal(*iter_c);
138 sol_f_undist(*iter_f) += op.GetDiag() * val;
139 for (stencil_iter = op.begin(); stencil_iter != op.end(); ++stencil_iter)
140 sol_f_undist(*iter_f + stencil_iter->Disp()) += stencil_iter->Val() * val;
141 }
142
143 comm.CommFromGhosts(sol_f_undist);
144 comm.CommSubgrid(sol_f_undist, sol_f_dist, 1);
145
146 if (sol_f_dist.Global().BoundaryType() == LocallyRefined)
147 MG::GetDiscretization()->SetInnerBoundary(sol_f_dist, rhs_f_dist, sol_c);
148
149 sol.ToFinerLevel();
150 rhs.ToFinerLevel();
151}
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