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source: svn/trunk/Utilities/HepMC/interface/GenVertex.h@ 666

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upgrade HepMC to version 2.06.05

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[349]1//--------------------------------------------------------------------------
2#ifndef HEPMC_GEN_VERTEX_H
3#define HEPMC_GEN_VERTEX_H
4
5//////////////////////////////////////////////////////////////////////////
6// Matt.Dobbs@Cern.CH, September 1999, refer to:
7// M. Dobbs and J.B. Hansen, "The HepMC C++ Monte Carlo Event Record for
8// High Energy Physics", Computer Physics Communications (to be published).
9//
10// GenVertex within an event
11// A vertex is indirectly (via particle "edges") linked to other
12// vertices ("nodes") to form a composite "graph"
13//////////////////////////////////////////////////////////////////////////
14
15// --> HANDLE COMPILER INCONSISTENCIES
16// This pre-compiler directive is included (2002-01-16) to allow compatibility
17// with several compilers.
18// Mar 27, 2004: HepMC is now standard compliant only.
19// I've removed forward_iterator, and it will no longer compile on gcc < 3.
20#ifdef __SUNPRO_CC // Solaris CC 5.2
21#define NEED_SOLARIS_FRIEND_FEATURE
22#endif // Platform
23
24#include "WeightContainer.h"
25#include "SimpleVector.h"
[572]26#include "IteratorRange.h"
[349]27#include <iostream>
28#include <iterator>
29#include <vector>
30#include <set>
31#include <algorithm>
[572]32#include <cstddef>
[349]33
34namespace HepMC {
35
[572]36 class GenVertexParticleRange;
37 class GenParticleProductionRange;
38 class ConstGenParticleProductionRange;
39 class GenParticleEndRange;
40 class ConstGenParticleEndRange;
41
[349]42 class GenParticle;
43 class GenEvent;
44
45 //! GenVertex contains information about decay vertices.
46
47 ///
48 /// \class GenVertex
49 /// HepMC::GenVertex contains the position in space and time of a decay.
50 /// It also contains lists of incoming and outgoing particles.
51 ///
52 class GenVertex {
53
54 /// print vertex information
55 friend std::ostream& operator<<( std::ostream&, const GenVertex& );
56 friend class GenEvent;
57
58#ifdef NEED_SOLARIS_FRIEND_FEATURE
59 // This bit of ugly code is only for CC-5.2 compiler.
60 // M.Dobbs 2002/02/19
61 // It is not needed by linux gcc, nor Windows Visual C++.
62 public:
63 class vertex_iterator;
64 friend class vertex_iterator;
65 class particle_iterator;
66 friend class particle_iterator;
67#endif // NEED_SOLARIS_FRIEND_FEATURE
68
69 public:
70 /// default constructor
71 GenVertex( const FourVector& position =FourVector(0,0,0,0),
72 int id = 0,
73 const WeightContainer& weights = std::vector<double>() );
74 GenVertex( const GenVertex& invertex ); //!< shallow copy
75 virtual ~GenVertex();
76
77 void swap( GenVertex & other); //!< swap
78 GenVertex& operator= ( const GenVertex& invertex ); //!< shallow
79 bool operator==( const GenVertex& a ) const; //!< equality
80 bool operator!=( const GenVertex& a ) const; //!< inequality
81 void print( std::ostream& ostr = std::cout ) const; //!< print vertex information
82
83 double check_momentum_conservation() const;//!< |Sum (mom_in-mom_out)|
84
85 /// add incoming particle
86 void add_particle_in( GenParticle* inparticle );
87 /// add outgoing particle
88 void add_particle_out( GenParticle* outparticle );
89 /// remove_particle finds *particle in the in and/or out list and
90 /// removes it from these lists ... it DOES NOT DELETE THE PARTICLE
91 /// or its relations. You could delete the particle too as follows:
92 /// delete vtx->remove_particle( particle );
93 GenParticle* remove_particle( GenParticle* particle ); //!< remove a particle
94
95 operator HepMC::FourVector() const; //!< conversion operator
96 operator HepMC::ThreeVector() const; //!< conversion operator
97
98 ////////////////////
99 // access methods //
100 ////////////////////
101
102 /// pointer to the event that owns this vertex
103 GenEvent* parent_event() const;
104 /// vertex position
105 ThreeVector point3d() const;
106 /// vertex position and time
107 const FourVector & position() const;
108 /// set vertex position and time
109 void set_position( const FourVector& position = FourVector(0,0,0,0) );
110 /// we don't define what you use the id for -- but we imagine,
111 /// for example it might code the meaning of the weights()
112 int id() const; //!< vertex ID
113 void set_id( int id ); //!< set vertex ID
114
115 ///
116 /// The barcode is the vertex's reference number, every vertex in the
[572]117 /// event has a unique barcode. Vertex barcodes are negative numbers,
118 /// particle barcodes are positive numbers.
119 ///
120 /// Please note that the barcodes are intended for internal use within
121 /// HepMC as a unique identifier for the particles and vertices.
122 /// Using the barcode to encode extra information is an abuse of
123 /// the barcode data member and causes confusion among users.
124 ///
[349]125 int barcode() const; //!< unique identifier
126
127 /// In general there is no reason to "suggest_barcode"
128 bool suggest_barcode( int the_bar_code );
129
130 /// direct access to the weights container is allowed.
131 WeightContainer& weights();
132 /// const direct access to the weights container
133 const WeightContainer& weights() const;
134
[572]135 /// particle range
136 GenVertexParticleRange particles( IteratorRange range = relatives );
137 /// incoming particle range
138 GenParticleProductionRange particles_in( GenParticle&, IteratorRange range = relatives );
139 /// incoming particle range
140 ConstGenParticleProductionRange particles_in( GenParticle const &, IteratorRange range = relatives ) const;
141 /// outgoing particle range
142 GenParticleEndRange particles_out( GenParticle&, IteratorRange range = relatives );
143 /// outgoing particle range
144 ConstGenParticleEndRange particles_out( GenParticle const &, IteratorRange range = relatives ) const;
145
[349]146 ////////////////////
147 // Iterators // users should use prefer to use particle_iterator
148 ////////////////////
149
150 /// const iterator for incoming particles
151 typedef std::vector<HepMC::GenParticle*>::const_iterator
152 particles_in_const_iterator;
153 /// const iterator for outgoing particles
154 typedef std::vector<HepMC::GenParticle*>::const_iterator
155 particles_out_const_iterator;
156 /// begin iteration of incoming particles
157 particles_in_const_iterator particles_in_const_begin() const;
158 /// end iteration of incoming particles
159 particles_in_const_iterator particles_in_const_end() const;
160 /// begin iteration of outgoing particles
161 particles_out_const_iterator particles_out_const_begin() const;
162 /// end iteration of outgoing particles
163 particles_out_const_iterator particles_out_const_end() const;
164 /// number of incoming particles
165 int particles_in_size() const;
166 /// number of outgoing particles
167 int particles_out_size() const;
168
169 protected:
170 //static unsigned int counter(); //!< temporary for debugging
171
172 /// only the GenEvent (friend) is allowed to set the parent_event,
173 /// and barcode. It is done automatically anytime you add a
174 /// vertex to an event
175 void set_parent_event_( GenEvent* evt ); //!< set parent event
176 void set_barcode_( int the_bar_code ); //!< set identifier
177 void change_parent_event_( GenEvent* evt ); //!< for use with swap
178
179 /////////////////////////////
180 // edge_iterator // (protected - for internal use only)
181 /////////////////////////////
182 // If the user wants the functionality of the edge_iterator, he should
183 // use particle_iterator with IteratorRange = family, parents, children
184 //
185
186 //! edge iterator
187
188 /// \class edge_iterator
189 /// iterate over the family of edges connected to m_vertex begins
190 /// with parents (incoming particles) then children (outgoing)
191 /// This is not a recursive iterator ... it is a building block
192 /// for the public iterators and is intended for internal use only.
193 /// The acceptable Iterator Ranges are: family, parents, children
194 class edge_iterator :
195 public std::iterator<std::forward_iterator_tag,HepMC::GenParticle*,ptrdiff_t>{
196 public:
197 edge_iterator();
198 /// used to set limits on the iteration
199 edge_iterator( const GenVertex& vtx, IteratorRange range =family );
200 /// copy
201 edge_iterator( const edge_iterator& p );
202 virtual ~edge_iterator();
203 /// make a copy
204 edge_iterator& operator=( const edge_iterator& p );
205 /// return a pointer to a particle
206 GenParticle* operator*(void) const;
207 /// Pre-fix increment
208 edge_iterator& operator++(void); // Pre-fix increment
209 /// Post-fix increment
210 edge_iterator operator++(int); // Post-fix increment
211 /// equality
212 bool operator==( const edge_iterator& a ) const;
213 /// inequality
214 bool operator!=( const edge_iterator& a ) const;
215 /// true if parent of root vtx
216 bool is_parent() const;
217 /// true if child of root vtx
218 bool is_child() const;
219 /// root vertex of this iteration
220 const GenVertex* vertex_root() const;
221 private:
[572]222 /// Pre-fix increment -- is not allowed
223 edge_iterator& operator--(void);
224 /// Post-fix increment -- is not allowed
225 edge_iterator operator--(int);
226 private:
[349]227 const GenVertex* m_vertex;
228 IteratorRange m_range;
229 std::vector<HepMC::GenParticle*>::const_iterator m_set_iter;
230 bool m_is_inparticle_iter;
231 bool m_is_past_end;
232 };
233 friend class edge_iterator;
234 /// size
235 int edges_size( IteratorRange range = family ) const;
236 /// begin range
237 edge_iterator edges_begin( IteratorRange range = family) const;
238 /// end range
239 edge_iterator edges_end( IteratorRange /* dummy_range */ ) const;
240
241 public:
242 ///////////////////////////////
243 // vertex_iterator //
244 ///////////////////////////////
245
246 //! vertex iterator
247
248 /// \class vertex_iterator
249 /// Iterates over all vertices connected via a graph to this vertex.
250 /// this is made friend to that it can access protected edge
251 /// iterator the range can be IteratorRange= ( parents, children,
252 /// family, ancestors, descendants, relatives )
253 /// example for range=descendants the iterator
254 /// will return all vertices
255 /// which are children (connected by an outgoing particle edge),
256 /// grandchildren, great-grandchildren, etc. of this vertex
257 /// In all cases the iterator always returns this vertex
258 /// (returned last).
259 /// The algorithm is accomplished by converting the graph to a tree
260 /// (by "chopping" the edges connecting to an already visited
261 /// vertex) and returning the vertices in POST ORDER traversal.
262 ///
263 class vertex_iterator :
264 public std::iterator<std::forward_iterator_tag,HepMC::GenVertex*,ptrdiff_t>{
265 public:
266 vertex_iterator();
267 /// used to set limits on the iteration
268 vertex_iterator( GenVertex& vtx_root, IteratorRange range );
269 /// next constructor is intended for internal use only
270 vertex_iterator( GenVertex& vtx_root, IteratorRange range,
271 std::set<const HepMC::GenVertex*>& visited_vertices );
272 /// copy
273 vertex_iterator( const vertex_iterator& v_iter );
274 virtual ~vertex_iterator();
275 /// make a copy
276 vertex_iterator& operator=( const vertex_iterator& );
277 /// return a pointer to a vertex
278 GenVertex* operator*(void) const;
279 /// Pre-fix increment
280 vertex_iterator& operator++(void); //Pre-fix increment
281 /// Post-fix increment
282 vertex_iterator operator++(int); //Post-fix increment
283 /// equality
284 bool operator==( const vertex_iterator& ) const;
285 /// inequality
286 bool operator!=( const vertex_iterator& ) const;
287 /// vertex that this iterator begins from
288 GenVertex* vertex_root() const;
289 /// iterator range
290 IteratorRange range() const;
291 /// intended for internal use only.
292 void copy_with_own_set( const vertex_iterator&
293 v_iter,
294 std::set<const HepMC::GenVertex*>&
295 visited_vertices );
296
297 protected: // intended for internal use only
298 /// non-null if recursive iter. created
299 GenVertex* follow_edge_();
300 /// copy recursive iterator
301 void copy_recursive_iterator_( const vertex_iterator*
302 recursive_v_iter );
303 private:
[572]304 /// Pre-fix increment -- is not allowed
305 vertex_iterator& operator--(void);
306 /// Post-fix increment -- is not allowed
307 vertex_iterator operator--(int);
308
309 private:
[349]310 GenVertex* m_vertex; // the vertex associated to this iter
311 IteratorRange m_range;
312 std::set<const HepMC::GenVertex*>* m_visited_vertices;
313 bool m_it_owns_set; // true if it is responsible for
314 // deleting the visited vertex set
315 edge_iterator m_edge; // particle edge pointing to return vtx
316 vertex_iterator* m_recursive_iterator;
317 };
318 friend class vertex_iterator;
319 /// begin vertex range
320 vertex_iterator vertices_begin( IteratorRange range = relatives );
321 /// end vertex range
322 vertex_iterator vertices_end( IteratorRange /* dummy_range */ );
323
324 public:
325 ///////////////////////////////
326 // particle_iterator //
327 ///////////////////////////////
328
329 //! particle iterator
330
331 /// \class particle_iterator
332 /// Iterates over all particles connected via a graph.
333 /// by iterating through all vertices in the m_range. For each
334 /// vertex it returns orphaned parent particles
335 /// (i.e. parents without production vertices)
336 /// then children ... in this way each particle is associated
337 /// to exactly one vertex and so it is returned exactly once.
338 /// Is made friend so that it can access protected edge iterator
339 class particle_iterator :
340 public std::iterator<std::forward_iterator_tag,GenParticle*,ptrdiff_t>{
341 public:
342 particle_iterator();
343 /// used to set limits on the iteration
344 particle_iterator( GenVertex& vertex_root, IteratorRange range );
345 /// copy
346 particle_iterator( const particle_iterator& );
347 virtual ~particle_iterator();
348 /// make a copy
349 particle_iterator& operator=( const particle_iterator& );
350 /// return a pointer to a particle
351 GenParticle* operator*(void) const;
352 /// Pre-fix increment
353 particle_iterator& operator++(void);
354 /// Post-fix increment
355 particle_iterator operator++(int);
356 /// equality
357 bool operator==( const particle_iterator& ) const;
358 /// inequality
359 bool operator!=( const particle_iterator& ) const;
360 protected:
361 GenParticle* advance_to_first_(); //!< "first" particle
362 private:
363 vertex_iterator m_vertex_iterator;
364 edge_iterator m_edge; // points to the return
365 };
366 friend class particle_iterator;
367 /// begin particle range
368 particle_iterator particles_begin( IteratorRange range
369 = relatives );
370 /// end particle range
371 particle_iterator particles_end( IteratorRange
372 /* dummy_range */ );
373
374 ////////////////////////////////////////////////
375 protected:
376 /// for internal use only
377 void delete_adopted_particles();
378 /// for internal use only - remove particle from incoming list
379 void remove_particle_in( GenParticle* );
380 /// for internal use only - remove particle from outgoing list
381 void remove_particle_out( GenParticle* );
382 /// scale the position vector
383 /// this method is only for use by GenEvent
384 void convert_position( const double& );
385
386 private: // GenVertex data members
387 FourVector m_position; //4-vec of vertex [mm]
388 std::vector<HepMC::GenParticle*> m_particles_in; //all incoming particles
389 std::vector<HepMC::GenParticle*> m_particles_out; //all outgoing particles
390 int m_id;
391 WeightContainer m_weights; // weights for this vtx
392 GenEvent* m_event;
393 int m_barcode; // unique identifier in the event
394
395 //static unsigned int s_counter;
396 };
397
398 ////////////////////////////
399 // INLINES access methods //
400 ////////////////////////////
401
402 inline GenVertex::operator HepMC::FourVector() const { return position(); }
403
404 inline GenVertex::operator HepMC::ThreeVector() const { return point3d(); }
405
406 inline const FourVector & GenVertex::position() const { return m_position; }
407
408 inline GenEvent* GenVertex::parent_event() const { return m_event; }
409
410 inline ThreeVector GenVertex::point3d() const {
411 return ThreeVector(m_position.x(),m_position.y(),m_position.z());
412 }
413
414 inline int GenVertex::id() const { return m_id; }
415
416 inline int GenVertex::barcode() const { return m_barcode; }
417 inline void GenVertex::set_barcode_( int bc ) { m_barcode = bc; }
418
419 inline WeightContainer& GenVertex::weights() { return m_weights; }
420
421 inline const WeightContainer& GenVertex::weights() const
422 { return m_weights; }
423
424 inline void GenVertex::set_position( const FourVector& position ) {
425 m_position = position;
426 }
427
428 inline void GenVertex::set_id( int id ) { m_id = id; }
429
430 //////////////
431 // INLINES //
432 //////////////
433
434 inline GenVertex::particles_in_const_iterator
435 GenVertex::particles_in_const_begin() const {
436 return m_particles_in.begin();
437 }
438
439 inline GenVertex::particles_in_const_iterator
440 GenVertex::particles_in_const_end() const {
441 return m_particles_in.end();
442 }
443
444 inline GenVertex::particles_out_const_iterator
445 GenVertex::particles_out_const_begin() const {
446 return m_particles_out.begin();
447 }
448
449 inline GenVertex::particles_out_const_iterator
450 GenVertex::particles_out_const_end() const {
451 return m_particles_out.end();
452 }
453
454 inline int GenVertex::particles_in_size() const {
455 return m_particles_in.size();
456 }
457
458 inline int GenVertex::particles_out_size() const {
459 return m_particles_out.size();
460 }
461
462 inline bool GenVertex::edge_iterator::operator==(
463 const edge_iterator& a ) const {
464 return **this == *a;
465 }
466
467 inline bool GenVertex::edge_iterator::operator!=(
468 const edge_iterator& a ) const {
469 return !(**this == *a);
470 }
471
472 inline const GenVertex* GenVertex::edge_iterator::vertex_root() const {
473 return m_vertex;
474 }
475
476 inline GenVertex::edge_iterator GenVertex::edges_begin( IteratorRange
477 range ) const {
478 return GenVertex::edge_iterator(*this, range);
479 }
480
481 inline GenVertex::edge_iterator GenVertex::edges_end( IteratorRange
482 /* dummy_range */ ) const {
483 return GenVertex::edge_iterator();
484 }
485
486 inline bool GenVertex::vertex_iterator::operator==(
487 const vertex_iterator& a ) const {
488 return **this == *a;
489 }
490
491 inline bool GenVertex::vertex_iterator::operator!=(
492 const vertex_iterator& a ) const {
493 return !(**this == *a);
494 }
495
496 inline GenVertex* GenVertex::vertex_iterator::vertex_root() const {
497 return m_vertex;
498 }
499
500 inline IteratorRange GenVertex::vertex_iterator::range() const {
501 return m_range;
502 }
503
504 inline GenVertex::vertex_iterator GenVertex::vertices_begin(
505 IteratorRange range ){
506 // this is not const because the it could return itself
507 return vertex_iterator( *this, range );
508 }
509
510 inline GenVertex::vertex_iterator GenVertex::vertices_end(
511 IteratorRange /* dummy_range */ ) {
512 return vertex_iterator();
513 }
514
515 inline bool GenVertex::particle_iterator::operator==(
516 const particle_iterator& a ) const {
517 return **this == *a;
518 }
519
520 inline bool GenVertex::particle_iterator::operator!=(
521 const particle_iterator& a ) const {
522 return !(**this == *a);
523 }
524
525 inline GenVertex::particle_iterator GenVertex::particles_begin(
526 IteratorRange range ) {
527 return particle_iterator( *this, range );
528 }
529
530 inline GenVertex::particle_iterator GenVertex::particles_end(
531 IteratorRange /* dummy_range */ ){
532 return particle_iterator();
533 }
534
535} // HepMC
536
537#endif // HEPMC_GEN_VERTEX_H
538//--------------------------------------------------------------------------
539
540
541
542
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