Dune Core Modules (2.5.0)

dependency.hh
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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_AMG_DEPENDENCY_HH
4#define DUNE_AMG_DEPENDENCY_HH
5
6
7#include <bitset>
8#include <ostream>
9
10#include "graph.hh"
11#include "properties.hh"
12#include <dune/common/propertymap.hh>
13#include <dune/common/unused.hh>
14
15
16namespace Dune
17{
18 namespace Amg
19 {
38 {
39 friend std::ostream& operator<<(std::ostream& os, const EdgeProperties& props);
40 public:
42 enum {INFLUENCE, DEPEND, SIZE};
43
44 private:
45
46 std::bitset<SIZE> flags_;
47 public:
50
52 std::bitset<SIZE>::reference operator[](std::size_t v);
53
55 bool operator[](std::size_t v) const;
56
62 bool depends() const;
63
68 void setDepends();
69
73 void resetDepends();
74
79 bool influences() const;
80
84 void setInfluences();
85
89 void resetInfluences();
90
95 bool isOneWay() const;
96
101 bool isTwoWay() const;
102
107 bool isStrong() const;
108
112 void reset();
113
117 void printFlags() const;
118 };
119
126 friend std::ostream& operator<<(std::ostream& os, const VertexProperties& props);
127 public:
128 enum { ISOLATED, VISITED, FRONT, BORDER, SIZE };
129 private:
130
132 std::bitset<SIZE> flags_;
133
134 public:
137
139 std::bitset<SIZE>::reference operator[](std::size_t v);
140
142 bool operator[](std::size_t v) const;
143
150 void setIsolated();
151
155 bool isolated() const;
156
160 void resetIsolated();
161
165 void setVisited();
166
170 bool visited() const;
171
175 void resetVisited();
176
180 void setFront();
181
185 bool front() const;
186
190 void resetFront();
191
195 void setExcludedBorder();
196
201 bool excludedBorder() const;
202
206 void resetExcludedBorder();
207
211 void reset();
212
213 };
214
215 template<typename G, std::size_t i>
216 class PropertyGraphVertexPropertyMap
217 : public RAPropertyMapHelper<typename std::bitset<VertexProperties::SIZE>::reference,
218 PropertyGraphVertexPropertyMap<G,i> >
219 {
220 public:
221
222 typedef ReadWritePropertyMapTag Category;
223
224 enum {
226 index = i
227 };
228
232 typedef G Graph;
233
237 typedef std::bitset<VertexProperties::SIZE> BitSet;
238
242 typedef typename BitSet::reference Reference;
243
247 typedef bool ValueType;
248
252 typedef typename G::VertexDescriptor Vertex;
253
259 : graph_(&g)
260 {}
261
266 : graph_(0)
267 {}
268
269
274 Reference operator[](const Vertex& vertex) const
275 {
276 return graph_->getVertexProperties(vertex)[index];
277 }
278 private:
279 Graph* graph_;
280 };
281
282 } // end namespace Amg
283
284 template<typename G, typename EP, typename VM, typename EM>
285 struct PropertyMapTypeSelector<Amg::VertexVisitedTag,Amg::PropertiesGraph<G,Amg::VertexProperties,EP,VM,EM> >
286 {
287 typedef Amg::PropertyGraphVertexPropertyMap<Amg::PropertiesGraph<G,Amg::VertexProperties,EP,VM,EM>, Amg::VertexProperties::VISITED> Type;
288 };
289
290 template<typename G, typename EP, typename VM, typename EM>
291 typename PropertyMapTypeSelector<Amg::VertexVisitedTag,Amg::PropertiesGraph<G,Amg::VertexProperties,EP,VM,EM> >::Type
292 get(const Amg::VertexVisitedTag& tag, Amg::PropertiesGraph<G,Amg::VertexProperties,EP,VM,EM>& graph)
293 {
295 return Amg::PropertyGraphVertexPropertyMap<Amg::PropertiesGraph<G,Amg::VertexProperties,EP,VM,EM>, Amg::VertexProperties::VISITED>(graph);
296 }
297
298 namespace Amg
299 {
300 inline std::ostream& operator<<(std::ostream& os, const EdgeProperties& props)
301 {
302 return os << props.flags_;
303 }
304
306 : flags_()
307 {}
308
309 inline std::bitset<EdgeProperties::SIZE>::reference
311 {
312 return flags_[v];
313 }
314
315 inline bool EdgeProperties::operator[](std::size_t i) const
316 {
317 return flags_[i];
318 }
319
321 {
322 flags_.reset();
323 }
324
326 {
327 // Set the INFLUENCE bit
328 //flags_ |= (1<<INFLUENCE);
329 flags_.set(INFLUENCE);
330 }
331
332 inline bool EdgeProperties::influences() const
333 {
334 // Test the INFLUENCE bit
335 return flags_.test(INFLUENCE);
336 }
337
339 {
340 // Set the first bit.
341 //flags_ |= (1<<DEPEND);
342 flags_.set(DEPEND);
343 }
344
346 {
347 // reset the first bit.
348 //flags_ &= ~(1<<DEPEND);
349 flags_.reset(DEPEND);
350 }
351
352 inline bool EdgeProperties::depends() const
353 {
354 // Return the first bit.
355 return flags_.test(DEPEND);
356 }
357
359 {
360 // reset the second bit.
361 flags_ &= ~(1<<INFLUENCE);
362 }
363
364 inline bool EdgeProperties::isOneWay() const
365 {
366 // Test whether only the first bit is set
367 //return isStrong() && !isTwoWay();
368 return ((flags_) & std::bitset<SIZE>((1<<INFLUENCE)|(1<<DEPEND)))==(1<<DEPEND);
369 }
370
371 inline bool EdgeProperties::isTwoWay() const
372 {
373 // Test whether the first and second bit is set
374 return ((flags_) & std::bitset<SIZE>((1<<INFLUENCE)|(1<<DEPEND)))==((1<<INFLUENCE)|(1<<DEPEND));
375 }
376
377 inline bool EdgeProperties::isStrong() const
378 {
379 // Test whether the first or second bit is set
380 return ((flags_) & std::bitset<SIZE>((1<<INFLUENCE)|(1<<DEPEND))).to_ulong();
381 }
382
383
384 inline std::ostream& operator<<(std::ostream& os, const VertexProperties& props)
385 {
386 return os << props.flags_;
387 }
388
390 : flags_()
391 {}
392
393
394 inline std::bitset<VertexProperties::SIZE>::reference
396 {
397 return flags_[v];
398 }
399
400 inline bool VertexProperties::operator[](std::size_t v) const
401 {
402 return flags_[v];
403 }
404
406 {
407 flags_.set(ISOLATED);
408 }
409
410 inline bool VertexProperties::isolated() const
411 {
412 return flags_.test(ISOLATED);
413 }
414
416 {
417 flags_.reset(ISOLATED);
418 }
419
421 {
422 flags_.set(VISITED);
423 }
424
425 inline bool VertexProperties::visited() const
426 {
427 return flags_.test(VISITED);
428 }
429
431 {
432 flags_.reset(VISITED);
433 }
434
436 {
437 flags_.set(FRONT);
438 }
439
440 inline bool VertexProperties::front() const
441 {
442 return flags_.test(FRONT);
443 }
444
446 {
447 flags_.reset(FRONT);
448 }
449
451 {
452 flags_.set(BORDER);
453 }
454
456 {
457 return flags_.test(BORDER);
458 }
459
461 {
462 flags_.reset(BORDER);
463 }
464
466 {
467 flags_.reset();
468 }
469
471 }
472}
473#endif
Class representing the properties of an ede in the matrix graph.
Definition: dependency.hh:38
Class representing a node in the matrix graph.
Definition: dependency.hh:125
Provides classes for building the matrix graph.
bool depends() const
Checks wether the vertex the edge points to depends on the vertex the edge starts.
Definition: dependency.hh:352
void resetFront()
Resets the front node flag.
Definition: dependency.hh:445
std::bitset< VertexProperties::SIZE > BitSet
The type of the bitset.
Definition: dependency.hh:237
bool isolated() const
Checks wether the node is isolated.
Definition: dependency.hh:410
bool ValueType
The value type.
Definition: dependency.hh:247
BitSet::reference Reference
The reference type.
Definition: dependency.hh:242
bool isTwoWay() const
Checks wether the edge is two way. I.e. both the influence flag and the depends flag are that.
Definition: dependency.hh:371
void setInfluences()
Marks the edge as one of which the start vertex by the end vertex.
Definition: dependency.hh:325
VertexProperties()
Constructor.
Definition: dependency.hh:389
void setDepends()
Marks the edge as one of which the end point depends on the starting point.
Definition: dependency.hh:338
PropertyGraphVertexPropertyMap()
Default constructor.
Definition: dependency.hh:265
PropertyGraphVertexPropertyMap(G &g)
Constructor.
Definition: dependency.hh:258
G::VertexDescriptor Vertex
The vertex descriptor.
Definition: dependency.hh:252
void resetExcludedBorder()
Marks the vertex as included in the aggregation.
Definition: dependency.hh:460
void setFront()
Marks the node as belonging to the current clusters front.
Definition: dependency.hh:435
void reset()
Reset all flags.
Definition: dependency.hh:465
void setVisited()
Mark the node as already visited.
Definition: dependency.hh:420
EdgeProperties()
Constructor.
Definition: dependency.hh:305
void resetInfluences()
Resets the influence flag.
Definition: dependency.hh:358
G Graph
The type of the graph with internal properties.
Definition: dependency.hh:232
std::bitset< SIZE >::reference operator[](std::size_t v)
Access the bits directly.
Definition: dependency.hh:395
void printFlags() const
Prints the attributes of the edge for debugging.
bool influences() const
Checks wether the start vertex is influenced by the end vertex.
Definition: dependency.hh:332
void setIsolated()
Marks that node as being isolated.
Definition: dependency.hh:405
bool excludedBorder() const
Tests whether the vertex is excluded from the aggregation.
Definition: dependency.hh:455
void resetVisited()
Resets the visited flag.
Definition: dependency.hh:430
bool visited() const
Checks wether the node is marked as visited.
Definition: dependency.hh:425
Reference operator[](const Vertex &vertex) const
Get the properties associated to a vertex.
Definition: dependency.hh:274
void reset()
Reset all flags.
Definition: dependency.hh:320
void resetDepends()
Resets the depends flag.
Definition: dependency.hh:345
void resetIsolated()
Resets the isolated flag.
Definition: dependency.hh:415
bool isStrong() const
Checks wether the edge is strong. I.e. the influence or depends flag is set.
Definition: dependency.hh:377
bool front() const
Checks wether the node is marked as a front node.
Definition: dependency.hh:440
std::bitset< SIZE >::reference operator[](std::size_t v)
Access the bits directly.
Definition: dependency.hh:310
void setExcludedBorder()
Marks the vertex as excluded from the aggregation.
Definition: dependency.hh:450
bool isOneWay() const
Checks wether the edge is one way. I.e. either the influence or the depends flag but is set.
Definition: dependency.hh:364
Dune namespace.
Definition: alignment.hh:11
Provides classes for handling internal properties in a graph.
Tag for the category of readable and writable property maps.
Definition: propertymap.hh:48
Definition of the DUNE_UNUSED macro for the case that config.h is not available.
#define DUNE_UNUSED_PARAMETER(parm)
A macro to mark intentionally unused function parameters with.
Definition: unused.hh:18
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