Dune Core Modules (unstable)

hierarchy.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_AMGHIERARCHY_HH
6#define DUNE_AMGHIERARCHY_HH
7
8#include <list>
9#include <memory>
10#include <limits>
12#include <dune/common/timer.hh>
15
16namespace Dune
17{
18 namespace Amg
19 {
38 template<typename T, typename A=std::allocator<T> >
40 {
41 public:
45 typedef T MemberType;
46
47 template<typename T1, typename T2>
48 class LevelIterator;
49
50 private:
54 struct Element
55 {
56 friend class LevelIterator<Hierarchy<T,A>, T>;
57 friend class LevelIterator<const Hierarchy<T,A>, const T>;
58
60 std::weak_ptr<Element> coarser_;
61
63 std::shared_ptr<Element> finer_;
64
66 std::shared_ptr<MemberType> element_;
67
69 std::shared_ptr<MemberType> redistributed_;
70 };
71 public:
72
76 using Allocator = typename std::allocator_traits<A>::template rebind_alloc<Element>;
77
78 typedef typename ConstructionTraits<T>::Arguments Arguments;
79
84 Hierarchy(const std::shared_ptr<MemberType> & first);
85
89 Hierarchy() : levels_(0)
90 {}
91
95 Hierarchy(const Hierarchy& other);
96
101 void addCoarser(Arguments& args);
102
103 void addRedistributedOnCoarsest(Arguments& args);
104
109 void addFiner(Arguments& args);
110
117 template<class C, class T1>
119 : public BidirectionalIteratorFacade<LevelIterator<C,T1>,T1,T1&>
120 {
121 friend class LevelIterator<typename std::remove_const<C>::type,
122 typename std::remove_const<T1>::type >;
123 friend class LevelIterator<const typename std::remove_const<C>::type,
124 const typename std::remove_const<T1>::type >;
125
126 public:
128 LevelIterator() = default;
129
130 LevelIterator(std::shared_ptr<Element> element)
131 : element_(std::move(element))
132 {}
133
135 template <class C_, class T1_,
136 std::enable_if_t<std::is_same_v<std::remove_const_t<C>, std::remove_const_t<C_>>, int> = 0,
137 std::enable_if_t<std::is_same_v<std::remove_const_t<T1>, std::remove_const_t<T1_>>, int> = 0>
139 : element_(other.element_)
140 {}
141
142 template <class C_, class T1_,
143 std::enable_if_t<std::is_same_v<std::remove_const_t<C>, std::remove_const_t<C_>>, int> = 0,
144 std::enable_if_t<std::is_same_v<std::remove_const_t<T1>, std::remove_const_t<T1_>>, int> = 0>
145 LevelIterator& operator=(const LevelIterator<C_,T1_>& other)
146 {
147 element_ = other.element_;
148 return *this;
149 }
150
154 bool equals(const LevelIterator<typename std::remove_const<C>::type,
155 typename std::remove_const<T1>::type>& other) const
156 {
157 return element_ == other.element_;
158 }
159
163 bool equals(const LevelIterator<const typename std::remove_const<C>::type,
164 const typename std::remove_const<T1>::type>& other) const
165 {
166 return element_ == other.element_;
167 }
168
170 T1& dereference() const
171 {
172 return *(element_->element_);
173 }
174
177 {
178 element_ = element_->coarser_.lock();
179 }
180
183 {
184 element_ = element_->finer_;
185 }
186
191 bool isRedistributed() const
192 {
193 return (bool)element_->redistributed_;
194 }
195
201 {
202 assert(element_->redistributed_);
203 return *element_->redistributed_;
204 }
205 void addRedistributed(std::shared_ptr<T1> t)
206 {
207 element_->redistributed_ = t;
208 }
209
210 void deleteRedistributed()
211 {
212 element_->redistributed_ = nullptr;
213 }
214
215 private:
216 std::shared_ptr<Element> element_ = {};
217 };
218
221
224
230
236
237
243
249
254 std::size_t levels() const;
255
256 private:
262 std::shared_ptr<MemberType> originalFinest_;
264 std::shared_ptr<Element> finest_;
266 std::shared_ptr<Element> coarsest_;
268 Allocator allocator_;
270 int levels_;
271 };
272
273 template<class T, class A>
274 Hierarchy<T,A>::Hierarchy(const std::shared_ptr<MemberType> & first)
275 : originalFinest_(first)
276 {
277 finest_ = std::allocate_shared<Element>(allocator_);
278 finest_->element_ = originalFinest_;
279 coarsest_ = finest_;
280 levels_ = 1;
281 }
282
284 //TODO: do we actually want to support this? This might be very expensive?!
285 template<class T, class A>
287 : allocator_(other.allocator_),
288 levels_(other.levels_)
289 {
290 if(!other.finest_)
291 {
292 finest_=coarsest_=nullptr;
293 return;
294 }
295 finest_ = std::allocate_shared<Element>(allocator_);
296 std::shared_ptr<Element> finer_;
297 std::shared_ptr<Element> current_ = finest_;
298 std::weak_ptr<Element> otherWeak_ = other.finest_;
299
300 while(! otherWeak_.expired())
301 {
302 // create shared_ptr from weak_ptr, we just checked that this is safe
303 std::shared_ptr<Element> otherCurrent_ = std::shared_ptr<Element>(otherWeak_);
304 // clone current level
305 //TODO: should we use the allocator?
306 current_->element_ =
307 std::make_shared<MemberType>(*(otherCurrent_->element_));
308 current_->finer_=finer_;
309 if(otherCurrent_->redistributed_)
310 current_->redistributed_ =
311 std::make_shared<MemberType>(*(otherCurrent_->redistributed_));
312 finer_=current_;
313 if(not otherCurrent_->coarser_.expired())
314 {
315 auto c = std::allocate_shared<Element>(allocator_);
316 current_->coarser_ = c;
317 current_ = c;
318 }
319 // go to coarser level
320 otherWeak_ = otherCurrent_->coarser_;
321 }
322 coarsest_=current_;
323 }
324
325 template<class T, class A>
326 std::size_t Hierarchy<T,A>::levels() const
327 {
328 return levels_;
329 }
330
331 template<class T, class A>
333 {
334 coarsest_->redistributed_ = ConstructionTraits<MemberType>::construct(args);
335 }
336
337 template<class T, class A>
338 void Hierarchy<T,A>::addCoarser(Arguments& args)
339 {
340 if(!coarsest_) {
341 // we have no levels at all...
342 assert(!finest_);
343 // allocate into the shared_ptr
344 originalFinest_ = ConstructionTraits<MemberType>::construct(args);
345 coarsest_ = std::allocate_shared<Element>(allocator_);
346 coarsest_->element_ = originalFinest_;
347 finest_ = coarsest_;
348 }else{
349 auto old_coarsest = coarsest_;
350 coarsest_ = std::allocate_shared<Element>(allocator_);
351 coarsest_->finer_ = old_coarsest;
352 coarsest_->element_ = ConstructionTraits<MemberType>::construct(args);
353 old_coarsest->coarser_ = coarsest_;
354 }
355 ++levels_;
356 }
357
358
359 template<class T, class A>
360 void Hierarchy<T,A>::addFiner(Arguments& args)
361 {
362 //TODO: wouldn't it be better to do this in the constructor?'
363 if(!finest_) {
364 // we have no levels at all...
365 assert(!coarsest_);
366 // allocate into the shared_ptr
367 originalFinest_ = ConstructionTraits<MemberType>::construct(args);
368 finest_ = std::allocate_shared<Element>(allocator_);
369 finest_->element = originalFinest_;
370 coarsest_ = finest_;
371 }else{
372 finest_->finer_ = std::allocate_shared<Element>(allocator_);
373 finest_->finer_->coarser_ = finest_;
374 finest_ = finest_->finer_;
375 finest_->element = ConstructionTraits<T>::construct(args);
376 }
377 ++levels_;
378 }
379
380 template<class T, class A>
382 {
383 return Iterator(finest_);
384 }
385
386 template<class T, class A>
388 {
389 return Iterator(coarsest_);
390 }
391
392 template<class T, class A>
394 {
395 return ConstIterator(finest_);
396 }
397
398 template<class T, class A>
400 {
401 return ConstIterator(coarsest_);
402 }
404 } // namespace Amg
405} // namespace Dune
406
407#endif
Portable very large unsigned integers.
Iterator over the levels in the hierarchy.
Definition: hierarchy.hh:120
T1 & dereference() const
Dereference the iterator.
Definition: hierarchy.hh:170
bool equals(const LevelIterator< typename std::remove_const< C >::type, typename std::remove_const< T1 >::type > &other) const
Equality check.
Definition: hierarchy.hh:154
bool isRedistributed() const
Check whether there was a redistribution at the current level.
Definition: hierarchy.hh:191
bool equals(const LevelIterator< const typename std::remove_const< C >::type, const typename std::remove_const< T1 >::type > &other) const
Equality check.
Definition: hierarchy.hh:163
void increment()
Move to the next coarser level.
Definition: hierarchy.hh:176
void decrement()
Move to the next fine level.
Definition: hierarchy.hh:182
LevelIterator(const LevelIterator< C_, T1_ > &other)
Copy constructor.
Definition: hierarchy.hh:138
T1 & getRedistributed() const
Get the redistributed container.
Definition: hierarchy.hh:200
A hierarchy of containers (e.g. matrices or vectors)
Definition: hierarchy.hh:40
T MemberType
The type of the container we store.
Definition: hierarchy.hh:45
LevelIterator< Hierarchy< T, A >, T > Iterator
Type of the mutable iterator.
Definition: hierarchy.hh:220
LevelIterator< const Hierarchy< T, A >, const T > ConstIterator
Type of the const iterator.
Definition: hierarchy.hh:223
Hierarchy()
Construct an empty hierarchy.
Definition: hierarchy.hh:89
typename std::allocator_traits< A >::template rebind_alloc< Element > Allocator
The allocator to use for the list elements.
Definition: hierarchy.hh:76
Facade class for stl conformant bidirectional iterators.
Definition: iteratorfacades.hh:275
Helper classes for the construction of classes without empty constructor.
Hierarchy(const Hierarchy &other)
Copy constructor (deep copy!).
Definition: hierarchy.hh:286
std::size_t levels() const
Get the number of levels in the hierarchy.
Definition: hierarchy.hh:326
ConstIterator coarsest() const
Get an iterator positioned at the coarsest level.
Definition: hierarchy.hh:399
void addCoarser(Arguments &args)
Add an element on a coarser level.
Definition: hierarchy.hh:338
void addFiner(Arguments &args)
Add an element on a finer level.
Definition: hierarchy.hh:360
Hierarchy(const std::shared_ptr< MemberType > &first)
Construct a new hierarchy.
Definition: hierarchy.hh:274
const void * Arguments
A type holding all the arguments needed to call the constructor.
Definition: construction.hh:44
static std::shared_ptr< T > construct(Arguments &args)
Construct an object with the specified arguments.
Definition: construction.hh:52
Iterator coarsest()
Get an iterator positioned at the coarsest level.
Definition: hierarchy.hh:387
ConstIterator finest() const
Get an iterator positioned at the finest level.
Definition: hierarchy.hh:393
Iterator finest()
Get an iterator positioned at the finest level.
Definition: hierarchy.hh:381
Dune namespace.
Definition: alignedallocator.hh:13
STL namespace.
Standard Dune debug streams.
A simple timing class.
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