Dune Core Modules (2.10.0)

globalaggregates.hh
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1// SPDX-FileCopyrightText: Copyright © DUNE Project contributors, see file LICENSE.md in module root
2// SPDX-License-Identifier: LicenseRef-GPL-2.0-only-with-DUNE-exception
3// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
4// vi: set et ts=4 sw=2 sts=2:
5#ifndef DUNE_GLOBALAGGREGATES_HH
6#define DUNE_GLOBALAGGREGATES_HH
7
18#include "aggregates.hh"
19#include "pinfo.hh"
21
22namespace Dune
23{
24 namespace Amg
25 {
26
27 template<typename T, typename TI>
28 struct GlobalAggregatesMap
29 {
30 public:
31 typedef TI ParallelIndexSet;
32
33 typedef typename ParallelIndexSet::GlobalIndex GlobalIndex;
34
35 typedef typename ParallelIndexSet::GlobalIndex IndexedType;
36
37 typedef typename ParallelIndexSet::LocalIndex LocalIndex;
38
39 typedef T Vertex;
40
41 GlobalAggregatesMap(AggregatesMap<Vertex>& aggregates,
42 const GlobalLookupIndexSet<ParallelIndexSet>& indexset)
43 : aggregates_(aggregates), indexset_(indexset)
44 {}
45
46 inline const GlobalIndex& operator[](std::size_t index) const
47 {
48 const Vertex& aggregate = aggregates_[index];
49 if(aggregate >= AggregatesMap<Vertex>::ISOLATED) {
50 assert(aggregate != AggregatesMap<Vertex>::UNAGGREGATED);
51 return isolatedMarker;
52 }else{
53 const Dune::IndexPair<GlobalIndex,LocalIndex >* pair = indexset_.pair(aggregate);
54 assert(pair!=0);
55 return pair->global();
56 }
57 }
58
59
60 inline GlobalIndex& get(std::size_t index)
61 {
62 const Vertex& aggregate = aggregates_[index];
63 assert(aggregate < AggregatesMap<Vertex>::ISOLATED);
64 const Dune::IndexPair<GlobalIndex,LocalIndex >* pair = indexset_.pair(aggregate);
65 assert(pair!=0);
66 return const_cast<GlobalIndex&>(pair->global());
67 }
68
69 class Proxy
70 {
71 public:
72 Proxy(const GlobalLookupIndexSet<ParallelIndexSet>& indexset, Vertex& aggregate)
73 : indexset_(&indexset), aggregate_(&aggregate)
74 {}
75
76 Proxy& operator=(const GlobalIndex& global)
77 {
78 if(global==isolatedMarker)
80 else{
81 //assert(global < AggregatesMap<Vertex>::ISOLATED);
82 *aggregate_ = indexset_->operator[](global).local();
83 }
84 return *this;
85 }
86 private:
87 const GlobalLookupIndexSet<ParallelIndexSet>* indexset_;
88 Vertex* aggregate_;
89 };
90
91 inline Proxy operator[](std::size_t index)
92 {
93 return Proxy(indexset_, aggregates_[index]);
94 }
95
96 inline void put(const GlobalIndex& global, size_t i)
97 {
98 aggregates_[i]=indexset_[global].local();
99
100 }
101
102 private:
103 AggregatesMap<Vertex>& aggregates_;
104 const GlobalLookupIndexSet<ParallelIndexSet>& indexset_;
105 static const GlobalIndex isolatedMarker;
106 };
107
108 template<typename T, typename TI>
109 const typename TI::GlobalIndex GlobalAggregatesMap<T,TI>::isolatedMarker =
111
112 template<typename T, typename TI>
113 struct AggregatesGatherScatter
114 {
115 typedef TI ParallelIndexSet;
116 typedef typename ParallelIndexSet::GlobalIndex GlobalIndex;
117
118 static const GlobalIndex& gather(const GlobalAggregatesMap<T,TI>& ga, size_t i)
119 {
120 return ga[i];
121 }
122
123 static void scatter(GlobalAggregatesMap<T,TI>& ga, GlobalIndex global, size_t i)
124 {
125 ga[i]=global;
126 }
127 };
128
129 template<typename T, typename O, typename I>
130 struct AggregatesPublisher
131 {};
132
133#if HAVE_MPI
134
135#endif
136
137 } // namespace Amg
138
139#if HAVE_MPI
140 // forward declaration
141 template<class T1, class T2>
142 class OwnerOverlapCopyCommunication;
143#endif
144
145 namespace Amg
146 {
147
148#if HAVE_MPI
158 template<typename T, typename O, typename T1, typename T2>
159 struct AggregatesPublisher<T,O,OwnerOverlapCopyCommunication<T1,T2> >
160 {
161 typedef T Vertex;
162 typedef O OverlapFlags;
166
167 static void publish(AggregatesMap<Vertex>& aggregates,
168 ParallelInformation& pinfo,
169 const GlobalLookupIndexSet& globalLookup)
170 {
171 typedef Dune::Amg::GlobalAggregatesMap<Vertex,IndexSet> GlobalMap;
172 GlobalMap gmap(aggregates, globalLookup);
173 pinfo.copyOwnerToAll(gmap,gmap);
174 // communication only needed for ALU
175 // (ghosts with same global id as owners on the same process)
176 if (SolverCategory::category(pinfo) == static_cast<int>(SolverCategory::nonoverlapping))
177 pinfo.copyCopyToAll(gmap,gmap);
178
179 typedef typename ParallelInformation::RemoteIndices::const_iterator Lists;
180 Lists lists = pinfo.remoteIndices().find(pinfo.communicator().rank());
181 if(lists!=pinfo.remoteIndices().end()) {
182
183 // For periodic boundary conditions we must renumber
184 // the aggregates of vertices in the overlap whose owners are
185 // on the same process
186 Vertex maxAggregate =0;
187 typedef typename AggregatesMap<Vertex>::const_iterator Iter;
188 for(Iter i=aggregates.begin(), end=aggregates.end(); i!=end; ++i)
189 maxAggregate = std::max(maxAggregate, *i);
190
191 // Compute new mapping of aggregates in the overlap that we also own
192 std::map<Vertex,Vertex> newMapping;
193
194 // insert all elements into map
195 typedef typename ParallelInformation::RemoteIndices::RemoteIndexList
196 ::const_iterator RIter;
197 for(RIter ri=lists->second.first->begin(), rend = lists->second.first->end();
198 ri!=rend; ++ri)
199 if(O::contains(ri->localIndexPair().local().attribute()))
200 newMapping.insert(std::make_pair(aggregates[ri->localIndexPair().local()],
201 maxAggregate));
202 // renumber
203 typedef typename std::map<Vertex,Vertex>::iterator MIter;
204 for(MIter mi=newMapping.begin(), mend=newMapping.end();
205 mi != mend; ++mi)
206 mi->second=++maxAggregate;
207
208
209 for(RIter ri=lists->second.first->begin(), rend = lists->second.first->end();
210 ri!=rend; ++ri)
211 if(O::contains(ri->localIndexPair().local().attribute()))
212 aggregates[ri->localIndexPair().local()] =
213 newMapping[aggregates[ri->localIndexPair().local()]];
214 }
215 }
216 };
217#endif
218
219 template<typename T, typename O>
220 struct AggregatesPublisher<T,O,SequentialInformation>
221 {
222 typedef T Vertex;
223 typedef SequentialInformation ParallelInformation;
224 typedef typename ParallelInformation::GlobalLookupIndexSet GlobalLookupIndexSet;
225
226 static void publish([[maybe_unused]] AggregatesMap<Vertex>& aggregates,
227 [[maybe_unused]] ParallelInformation& pinfo,
228 [[maybe_unused]] const GlobalLookupIndexSet& globalLookup)
229 {}
230 };
231
232 } // end Amg namespace
233
234
235#if HAVE_MPI
236 template<typename T, typename TI>
237 struct CommPolicy<Amg::GlobalAggregatesMap<T,TI> >
238 {
239 typedef Amg::AggregatesMap<T> Type;
240 typedef typename Amg::GlobalAggregatesMap<T,TI>::IndexedType IndexedType;
241 typedef SizeOne IndexedTypeFlag;
242 static int getSize(const Type&, int)
243 {
244 return 1;
245 }
246 };
247#endif
248
249} // end Dune namespace
251#endif
Provides classes for the Coloring process of AMG.
int rank() const
Return rank, is between 0 and size()-1.
Definition: mpicommunication.hh:133
A pair consisting of a global and local index.
Definition: indexset.hh:85
A class setting up standard communication for a two-valued attribute set with owner/overlap/copy sema...
Definition: owneroverlapcopy.hh:174
void copyCopyToAll(const T &source, T &dest) const
Communicate values from copy data points to all other data points.
Definition: owneroverlapcopy.hh:328
void copyOwnerToAll(const T &source, T &dest) const
Communicate values from owner data points to all other data points.
Definition: owneroverlapcopy.hh:311
const RemoteIndices & remoteIndices() const
Get the underlying remote indices.
Definition: owneroverlapcopy.hh:471
const_iterator end() const
Get an iterator over all remote index lists.
Definition: remoteindices.hh:1528
TL LocalIndex
The type of the local index, e.g. ParallelLocalIndex.
Definition: indexset.hh:239
const GlobalIndex & global() const
Get the global index.
TG GlobalIndex
the type of the global index. This type has to provide at least a operator< for sorting.
Definition: indexset.hh:226
const_iterator find(int proc) const
Find an iterator over the remote index lists of a specific process.
Definition: remoteindices.hh:1514
constexpr auto max
Function object that returns the greater of the given values.
Definition: hybridutilities.hh:484
static const Vertex ISOLATED
Identifier of isolated vertices.
Definition: aggregates.hh:571
static const Vertex UNAGGREGATED
Identifier of not yet aggregated vertices.
Definition: aggregates.hh:566
Provides a map between global and local indices.
Dune namespace.
Definition: alignedallocator.hh:13
constexpr auto get(std::integer_sequence< T, II... >, std::integral_constant< std::size_t, pos >={})
Return the entry at position pos of the given sequence.
Definition: integersequence.hh:22
V::value_type IndexedType
The type we get at each index with operator[].
Definition: communicator.hh:147
static int getSize(const V &, int index)
Get the number of primitive elements at that index.
SizeOne IndexedTypeFlag
Whether the indexed type has variable size or there is always one value at each index.
Definition: communicator.hh:153
V Type
The type the policy is for.
Definition: communicator.hh:140
@ nonoverlapping
Category for non-overlapping solvers.
Definition: solvercategory.hh:27
static Category category(const OP &op, decltype(op.category()) *=nullptr)
Helperfunction to extract the solver category either from an enum, or from the newly introduced virtu...
Definition: solvercategory.hh:34
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