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source: git/external/fastjet/tools/Recluster.hh@ 5eb063e

Last change on this file since 5eb063e was 1d208a2, checked in by Pavel Demin <pavel.demin@…>, 8 years ago

update FastJet library to 3.2.1 and Nsubjettiness library to 2.2.4

  • Property mode set to 100644
File size: 11.5 KB
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1#ifndef __FASTJET_TOOLS_RECLUSTER_HH__
2#define __FASTJET_TOOLS_RECLUSTER_HH__
3
4// $Id: Recluster.hh 3753 2014-12-17 15:19:55Z salam $
5//
6// Copyright (c) 2014, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
7//
8//----------------------------------------------------------------------
9// This file is part of FastJet
10//
11// It is free software; you can redistribute it and/or modify it under
12// the terms of the GNU General Public License as published by the
13// Free Software Foundation; either version 2 of the License, or (at
14// your option) any later version.
15//
16// It is distributed in the hope that it will be useful, but WITHOUT
17// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
18// or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
19// License for more details.
20//
21// You should have received a copy of the GNU General Public License
22// along with this code. If not, see <http://www.gnu.org/licenses/>.
23//----------------------------------------------------------------------
24
25#include <fastjet/JetDefinition.hh>
26#include <fastjet/FunctionOfPseudoJet.hh> // to derive Recluster from FOfPJ<PJ>
27#include <iostream>
28#include <string>
29
30// TODO:
31//
32// - maintain Voronoi areas? Requires CSAB:has_voronoi_area() {->UNASSIGNED}
33// - make sure the description of the class is OK
34
35
36
37FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
38
39//----------------------------------------------------------------------
40/// @ingroup tools_generic
41/// \class Recluster
42/// Recluster a jet's constituents with a new jet definition.
43///
44/// When Recluster is constructed from a JetDefinition, it is that
45/// definition that will be used to obtain the new jets. The user may
46/// then decide if the recombiner should be the one from that jet
47/// definition or if it should be acquired from the jet being
48/// processed (the default).
49///
50/// Alternatively, Recluster can be constructed from a jet algorithm
51/// and an optional radius. In that case the recombiner is
52/// systematically obtained from the jet being processed (unless you
53/// call set_acquire_recombiner(false)). If only the jet algorithm is
54/// specified, a default radius of max_allowable_R will be assumed if
55/// needed.
56///
57/// Recluster has two possible behaviours:
58///
59/// - if it is constructed with keep=keep_only_hardest the hardest
60/// inclusive jet is returned as a "standard" jet with an
61/// associated cluster sequence (unless there were no inclusive
62/// jets, in which case a zero jet is returned, with no associated
63/// cluster sequence)
64///
65/// - if it is constructed with keep=keep_all
66/// all the inclusive jets are joined into a composite jet
67///
68/// [Note that since the structure of the resulting PseudoJet depends
69/// on its usage, this class inherits from
70/// FunctionOfPseudoJet<PseudoJet> (including a description) rather
71/// than being a full-fledged Transformer]
72///
73class Recluster : public FunctionOfPseudoJet<PseudoJet> {
74public:
75 /// the various options for the output of Recluster
76 enum Keep{
77 /// keep only the hardest inclusive jet and return a "standard" jet with
78 /// an associated ClusterSequence [this will be the default]
79 keep_only_hardest,
80 /// keep all the inclusive jets. result() will join them into a composite
81 /// jet
82 keep_all
83 };
84
85 /// default constructor (uses an undefined JetDefinition, and so cannot
86 /// be used directly).
87 Recluster() : _new_jet_def(), _acquire_recombiner(true),
88 _keep(keep_only_hardest), _cambridge_optimisation_enabled(true){}
89
90 /// Constructs a Recluster object that reclusters a jet into a new jet
91 /// using a generic JetDefinition
92 ///
93 /// \param new_jet_def the jet definition applied to do the reclustering
94 /// \param acquire_recombiner
95 /// when true, the reclustering will guess the
96 /// recombiner from the input jet instead of
97 /// the one in new_jet_def. An error is then
98 /// thrown if no consistent recombiner is found
99 /// \param keep_in Recluster::keep_only_hardest: the result is
100 /// the hardest inclusive jet after reclustering,
101 /// returned as a "standard" jet.
102 /// Recluster::keep_all: the result is a
103 /// composite jet with the inclusive jets as pieces.
104 Recluster(const JetDefinition & new_jet_def,
105 bool acquire_recombiner_in = false,
106 Keep keep_in = keep_only_hardest)
107 : _new_jet_def(new_jet_def), _acquire_recombiner(acquire_recombiner_in),
108 _keep(keep_in), _cambridge_optimisation_enabled(true) {}
109
110 /// Constructs a Recluster object that reclusters a jet into a new jet
111 /// using a JetAlgorithm and its parameters
112 ///
113 /// \param new_jet_alg the jet algorithm applied to obtain the new clustering
114 /// \param new_jet_radius the jet radius
115 /// \param keep_in Recluster::keep_only_hardest: the result is
116 /// the hardest inclusive jet after reclustering,
117 /// returned as a "standard" jet.
118 /// Recluster::keep_all: the result is a
119 /// composite jet with the inclusive jets as pieces.
120 ///
121 /// This ctor will always acquire the recombiner from the jet being
122 /// reclustered (it will throw if none can be found). If you wish
123 /// to use Recluster with an algorithm that requires an extra
124 /// parameter (like the genkt algorithm), please specify the jet
125 /// definition fully using the constructor above.
126 Recluster(JetAlgorithm new_jet_alg, double new_jet_radius, Keep keep_in = keep_only_hardest);
127
128 /// constructor with just a jet algorithm, but no jet radius. If the
129 /// algorithm requires a jet radius, JetDefinition::max_allowable_R will be used.
130 ///
131 Recluster(JetAlgorithm new_jet_alg, Keep keep_in = keep_only_hardest);
132
133 /// default dtor
134 virtual ~Recluster(){}
135
136 //----------------------------------------------------------------------
137 // tweaking the behaviour and corresponding enquiry functions
138
139 /// set whether the reclustering should attempt to acquire a
140 /// recombiner from the input jet
141 void set_acquire_recombiner(bool acquire) {_acquire_recombiner = acquire;}
142
143 /// returns true if this reclusterer is set to acquire the
144 /// recombiner from the input jet
145 bool acquire_recombiner() const{ return _acquire_recombiner;}
146
147
148 /// sets whether to try to optimise reclustering with
149 /// Cambridge/Aachen algorithms (by not reclustering if the
150 /// requested C/A reclustering can be obtained by using subjets of
151 /// an input C/A jet or one composed of multiple C/A pieces from the
152 /// same clustering sequence). By default this is enabled, and
153 /// _should_ always be correct; disable it to test this statement!
154 void set_cambridge_optimisation(bool enabled){ _cambridge_optimisation_enabled = enabled;}
155 /// sets whether to try to optimise reclustering with Cambridge/Aachen algorithms (US spelling!)
156 void set_cambridge_optimization(bool enabled){ _cambridge_optimisation_enabled = enabled;}
157
158 /// returns true if the reclusterer tries to optimise reclustering
159 /// with Cambridge/Aachen algorithms
160 bool cambridge_optimization(){return _cambridge_optimisation_enabled;}
161 bool cambridge_optimisation(){return _cambridge_optimisation_enabled;}
162
163 /// set the behaviour with regards to keeping all resulting jets or
164 /// just the hardest.
165 void set_keep(Keep keep_in) {_keep = keep_in;}
166
167 /// returns the current "keep" mode i.e. whether only the hardest
168 /// inclusive jet is returned or all of them (see the Keep enum above)
169 Keep keep() const{ return _keep;}
170
171
172 //----------------------------------------------------------------------
173 // retrieving info about the behaviour
174
175 /// class description
176 virtual std::string description() const;
177
178
179 //----------------------------------------------------------------------
180 // core action of ths class
181
182 /// runs the reclustering and sets kept and rejected to be the jets
183 /// of interest (with non-zero rho, they will have been
184 /// subtracted). Normally this will be accessed through the base
185 /// class's operator().
186 ///
187 /// \param jet the jet that gets reclustered
188 /// \return the reclustered jet
189 virtual PseudoJet result(const PseudoJet & jet) const;
190
191 /// A lower-level method that does the actual work of reclustering
192 /// the input jet. The resulting jets are stored in output_jets.
193 /// The jet definition that has been used can be accessed from the
194 /// output_jets' ClusterSequence.
195 ///
196 /// \param input_jet the (input) jet that one wants to recluster
197 /// \param output_jets inclusive jets resulting from the new clustering
198 ///
199 /// Returns true if the C/A optimisation has been used (this means
200 /// that generate_output_jet then has to watch out for non-explicit-ghost
201 /// areas that might be leftover)
202 bool get_new_jets_and_def(const PseudoJet & input_jet,
203 std::vector<PseudoJet> & output_jets) const;
204
205 /// given a set of inclusive jets and a jet definition used, create the
206 /// resulting PseudoJet;
207 ///
208 /// If ca_optimisation_used then special care will be taken in
209 /// deciding whether the final jet can legitimately have an area.
210 PseudoJet generate_output_jet(std::vector<PseudoJet> & incljets,
211 bool ca_optimisation_used) const;
212
213
214private:
215 /// set the reclustered elements in the simple case of C/A+C/A
216 void _recluster_ca(const std::vector<PseudoJet> & all_pieces,
217 std::vector<PseudoJet> & incljets,
218 double Rfilt) const;
219
220 /// set the reclustered elements in the generic re-clustering case
221 void _recluster_generic(const PseudoJet & jet,
222 std::vector<PseudoJet> & incljets,
223 const JetDefinition & new_jet_def,
224 bool do_areas) const;
225
226 // a series of checks
227 //--------------------------------------------------------------------
228 /// get the pieces down to the fundamental pieces
229 bool _get_all_pieces(const PseudoJet &jet, std::vector<PseudoJet> &all_pieces) const;
230
231 /// associate the proper recombiner taken from the underlying pieces
232 /// (an error is thrown if the pieces do no share a common
233 /// recombiner)
234 void _acquire_recombiner_from_pieces(const std::vector<PseudoJet> &all_pieces,
235 JetDefinition &new_jet_def) const;
236
237 /// check if one can apply the simplified trick for C/A subjets
238 bool _check_ca(const std::vector<PseudoJet> &all_pieces,
239 const JetDefinition &new_jet_def) const;
240
241 /// check if the jet (or all its pieces) have explicit ghosts
242 /// (assuming the jet has area support
243 ///
244 /// Note that if the jet has an associated cluster sequence that is no
245 /// longer valid, an error will be thrown
246 bool _check_explicit_ghosts(const std::vector<PseudoJet> &all_pieces) const;
247
248 JetDefinition _new_jet_def; ///< the jet definition to use to extract the jets
249 bool _acquire_recombiner; ///< get the recombiner from the input
250 ///< jet rather than from _new_jet_def
251 Keep _keep; ///< dictates which inclusive jets are kept and
252 ///< which are returned (see Keep above)
253
254 bool _cambridge_optimisation_enabled; ///<enable the checks to
255 ///< perform optimisation when
256 ///< C/A reclustering is asked
257
258 static LimitedWarning _explicit_ghost_warning;
259};
260
261FASTJET_END_NAMESPACE // defined in fastjet/internal/base.hh
262
263#endif // __FASTJET_TOOLS_RECLUSTER_HH__
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