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source: svn/trunk/Utilities/HepMC/interface/Flow.h@ 517

Last change on this file since 517 was 349, checked in by severine ovyn, 16 years ago

first test

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[349]1//--------------------------------------------------------------------------
2#ifndef HEPMC_FLOW_H
3#define HEPMC_FLOW_H
4
5//////////////////////////////////////////////////////////////////////////
6// Matt.Dobbs@Cern.CH, January 2000, 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// particle's flow object
11// keeps track of an arbitrary number of flow patterns within a graph
12// (i.e. color flow, charge flow, lepton number flow, ...)
13// Flow patterns are coded with an integer, in the same manner as in Herwig.
14// Note: 0 is NOT allowed as code index nor as flow code since it
15// is used to indicate null.
16//////////////////////////////////////////////////////////////////////////
17
18// This class can be used to keep track of flow patterns within
19// a graph. An example is color flow. If we have two quarks going through
20// an s-channel gluon to form two more quarks:
21//
22// \q1 /q3 then we can keep track of the color flow with the
23// \_______/ HepMC::Flow class as follows:
24// / g \.
25// /q2 \q4
26//
27// lets say the color flows from q2-->g-->q3 and q1-->g-->q4
28// the individual colors are unimportant, but the flow pattern is.
29// We can capture this flow by assigning the first pattern (q2-->g-->q3)
30// a unique (arbitrary) flow code 678 and the second pattern (q1-->g-->q4)
31// flow code 269 ( you can ask HepMC::Flow to choose
32// a unique code for you using Flow::set_unique_icode() ).
33// The first two code indices are reserved for color codes, so we store
34// these codes with the particles as follows:
35// q2->flow().set_icode(1,678);
36// g->flow().set_icode(1,678);
37// q3->flow().set_icode(1,678);
38// q1->flow().set_icode(1,269);
39// g->flow().set_icode(2,269);
40// q4->flow().set_icode(1,269);
41// later on if we wish to know the color partner of q1 we can ask for a list
42// of all particles connected via this code to q1 which do have less than
43// 2 color partners using:
44// vector<GenParticle*> result=q1->dangling_connected_partners(q1->icode(1),1,2);
45// this will return a list containing q1 and q4.
46// vector<GenParticle*> result=q1->connected_partners(q1->icode(1),1,2);
47// would return a list containing q1, g, and q4.
48//
49
50#include <iostream>
51#include <map>
52#include <vector>
53
54namespace HepMC {
55
56 class GenParticle;
57
58 //! The flow object
59
60 ///
61 /// \class Flow
62 /// The particle's flow object
63 /// keeps track of an arbitrary number of flow patterns within a graph
64 /// (i.e. color flow, charge flow, lepton number flow, ...)
65 /// Flow patterns are coded with an integer, in the same manner as in Herwig.
66 class Flow {
67
68 /// for printing
69 friend std::ostream& operator<<( std::ostream& ostr, const Flow& f );
70
71 public:
72 /// default constructor
73 Flow( GenParticle* particle_owner = 0 );
74 /// copy
75 Flow( const Flow& );
76 virtual ~Flow();
77 /// swap
78 void swap( Flow & other);
79 /// make a copy
80 Flow& operator=( const Flow& );
81 /// equality
82 bool operator==( const Flow& a ) const; //compares only flow
83 /// inequality
84 bool operator!=( const Flow& a ) const; //patterns not owner
85
86 /// print Flow information to ostr
87 void print( std::ostream& ostr = std::cout ) const;
88
89 /// returns all connected particles which have "code" in any of the
90 /// num_indices beginning with index code_index.
91 std::vector<HepMC::GenParticle*> connected_partners( int code, int code_index =1,
92 int num_indices = 2 ) const;
93 /// same as connected_partners, but returns only those particles which
94 /// are connected to <=1 other particles (i.e. the flow line "dangles"
95 /// at these particles)
96 std::vector<HepMC::GenParticle*> dangling_connected_partners( int code,
97 int code_index = 1, int num_indices = 2 ) const;
98
99 ////////////////////
100 // access methods //
101 ////////////////////
102
103 /// find particle owning this Flow
104 const GenParticle* particle_owner() const;
105 /// flow code
106 int icode( int code_index = 1 ) const;
107 /// set flow code
108 Flow set_icode( int code_index, int code );
109 /// set unique flow code
110 Flow set_unique_icode( int code_index = 1 );
111
112 //////////////////////
113 // container access //
114 //////////////////////
115
116 /// return true if there is no flow container
117 bool empty() const;
118 /// size of flow pattern container
119 int size() const;
120 /// clear flow patterns
121 void clear();
122 /// empty flow pattern container
123 bool erase( int code_index );
124
125 /// iterator for flow pattern container
126 typedef std::map<int,int>::iterator iterator;
127 /// const iterator for flow pattern container
128 typedef std::map<int,int>::const_iterator const_iterator;
129 /// beginning of flow pattern container
130 iterator begin();
131 /// end of flow pattern container
132 iterator end();
133 /// beginning of flow pattern container
134 const_iterator begin() const;
135 /// end of flow pattern container
136 const_iterator end() const;
137
138 protected: // intended for internal use only
139 /// for internal use only
140 void connected_partners( std::vector<HepMC::GenParticle*>* output,
141 int code,
142 int code_index,
143 int num_indices ) const;
144 /// for internal use only
145 void dangling_connected_partners( std::vector<HepMC::GenParticle*>*
146 output,
147 std::vector<HepMC::GenParticle*>*
148 visited_particles,
149 int code, int code_index,
150 int num_indices ) const;
151 private:
152 GenParticle* m_particle_owner;
153 std::map<int,int> m_icode; // stores flow patterns as(code_index,icode)
154 };
155
156 ///////////////////////////
157 // INLINE Access Methods //
158 ///////////////////////////
159
160 inline const GenParticle* Flow::particle_owner() const {
161 return m_particle_owner;
162 }
163 inline int Flow::icode( int code_index ) const {
164 std::map<int,int>::const_iterator a = m_icode.find(code_index);
165 return a==m_icode.end() ? 0 : (*a).second;
166 }
167 inline Flow Flow::set_icode( int code_index, int code ) {
168 m_icode[code_index] = code;
169 return *this;
170 }
171 inline Flow Flow::set_unique_icode( int flow_num ) {
172 /// use this method if you want to assign a unique flow code, but
173 /// do not want the burden of choosing it yourself
174 m_icode[flow_num] = size_t(this);
175 return *this;
176 }
177 inline bool Flow::empty() const { return (bool)m_icode.empty(); }
178 inline int Flow::size() const { return (int)m_icode.size(); }
179 inline void Flow::clear() { m_icode.clear(); }
180 inline bool Flow::erase( int code_index ) {
181 return (bool)m_icode.erase( code_index );
182 }
183 inline Flow::iterator Flow::begin() { return m_icode.begin(); }
184 inline Flow::iterator Flow::end() { return m_icode.end(); }
185 inline Flow::const_iterator Flow::begin() const { return m_icode.begin(); }
186 inline Flow::const_iterator Flow::end() const { return m_icode.end(); }
187
188 ///////////////////////////
189 // INLINE Operators //
190 ///////////////////////////
191
192 inline bool Flow::operator==( const Flow& a ) const {
193 /// equivalent flows have the same flow codes for all flow_numbers
194 /// (i.e. their m_icode maps are identical), but they need not have the
195 /// same m_particle owner
196 return (m_icode == a.m_icode);
197 }
198 inline bool Flow::operator!=( const Flow& a ) const {
199 return !( *this == a );
200 }
201 inline Flow& Flow::operator=( const Flow& inflow ) {
202 /// copies only the m_icode ... not the particle_owner
203 /// this is intuitive behaviour so you can do
204 /// oneparticle->flow() = otherparticle->flow()
205 //
206 m_icode = inflow.m_icode;
207 return *this;
208 }
209
210} // HepMC
211
212#endif // HEPMC_FLOW_H
213//--------------------------------------------------------------------------
214
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