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1//STARTHEADER
2// $Id: JetDefinition.hh 2687 2011-11-14 11:17:51Z soyez $
3//
4// Copyright (c) 2005-2011, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
5//
6//----------------------------------------------------------------------
7// This file is part of FastJet.
8//
9// FastJet is free software; you can redistribute it and/or modify
10// it under the terms of the GNU General Public License as published by
11// the Free Software Foundation; either version 2 of the License, or
12// (at your option) any later version.
13//
14// The algorithms that underlie FastJet have required considerable
15// development and are described in hep-ph/0512210. If you use
16// FastJet as part of work towards a scientific publication, please
17// include a citation to the FastJet paper.
18//
19// FastJet is distributed in the hope that it will be useful,
20// but WITHOUT ANY WARRANTY; without even the implied warranty of
21// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22// GNU General Public License for more details.
23//
24// You should have received a copy of the GNU General Public License
25// along with FastJet. If not, see <http://www.gnu.org/licenses/>.
26//----------------------------------------------------------------------
27//ENDHEADER
28
29#ifndef __FASTJET_JETDEFINITION_HH__
30#define __FASTJET_JETDEFINITION_HH__
31
32#include<cassert>
33#include "fastjet/internal/numconsts.hh"
34#include "fastjet/PseudoJet.hh"
35#include<string>
36#include<memory>
37
38FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
39
40/// return a string containing information about the release
41// NB: (implemented in ClusterSequence.cc but defined here because
42// this is a visible location)
43std::string fastjet_version_string();
44
45//======================================================================
46/// the various options for the algorithmic strategy to adopt in
47/// clustering events with kt and cambridge style algorithms.
48enum Strategy {
49 /// fastest form about 500..10^4
50 N2MinHeapTiled = -4,
51 /// fastest from about 50..500
52 N2Tiled = -3,
53 /// legacy
54 N2PoorTiled = -2,
55 /// fastest below 50
56 N2Plain = -1,
57 /// worse even than the usual N^3 algorithms
58 N3Dumb = 0,
59 /// automatic selection of the best (based on N)
60 Best = 1,
61 /// best of the NlnN variants -- best overall for N>10^4.
62 /// (Does not work for R>=2pi)
63 NlnN = 2,
64 /// legacy N ln N using 3pi coverage of cylinder.
65 /// (Does not work for R>=2pi)
66 NlnN3pi = 3,
67 /// legacy N ln N using 4pi coverage of cylinder
68 NlnN4pi = 4,
69 /// Chan's closest pair method (in a variant with 4pi coverage),
70 /// for use exclusively with the Cambridge algorithm.
71 /// (Does not work for R>=2pi)
72 NlnNCam4pi = 14,
73 /// Chan's closest pair method (in a variant with 2pi+2R coverage),
74 /// for use exclusively with the Cambridge algorithm.
75 /// (Does not work for R>=2pi)
76 NlnNCam2pi2R = 13,
77 /// Chan's closest pair method (in a variant with 2pi+minimal extra
78 /// variant), for use exclusively with the Cambridge algorithm.
79 /// (Does not work for R>=2pi)
80 NlnNCam = 12, // 2piMultD
81 /// the plugin has been used...
82 plugin_strategy = 999
83};
84
85
86//======================================================================
87/// \enum JetAlgorithm
88/// the various families of jet-clustering algorithm
89enum JetAlgorithm {
90 /// the longitudinally invariant kt algorithm
91 kt_algorithm=0,
92 /// the longitudinally invariant variant of the cambridge algorithm
93 /// (aka Aachen algoithm).
94 cambridge_algorithm=1,
95 /// like the k_t but with distance measures
96 /// dij = min(1/kti^2,1/ktj^2) Delta R_{ij}^2 / R^2
97 /// diB = 1/kti^2
98 antikt_algorithm=2,
99 /// like the k_t but with distance measures
100 /// dij = min(kti^{2p},ktj^{2p}) Delta R_{ij}^2 / R^2
101 /// diB = 1/kti^{2p}
102 /// where p = extra_param()
103 genkt_algorithm=3,
104 /// a version of cambridge with a special distance measure for particles
105 /// whose pt is < extra_param()
106 cambridge_for_passive_algorithm=11,
107 /// a version of genkt with a special distance measure for particles
108 /// whose pt is < extra_param() [relevant for passive areas when p<=0]
109 genkt_for_passive_algorithm=13,
110 //.................................................................
111 /// the e+e- kt algorithm
112 ee_kt_algorithm=50,
113 /// the e+e- genkt algorithm (R > 2 and p=1 gives ee_kt)
114 ee_genkt_algorithm=53,
115 //.................................................................
116 /// any plugin algorithm supplied by the user
117 plugin_algorithm = 99,
118 //.................................................................
119 /// the value for the jet algorithm in a JetDefinition for which
120 /// no algorithm has yet been defined
121 undefined_jet_algorithm = 999
122};
123
124/// make standard Les Houches nomenclature JetAlgorithm (algorithm is general
125/// recipe without the parameters) backward-compatible with old JetFinder
126typedef JetAlgorithm JetFinder;
127
128/// provide other possible names for the Cambridge/Aachen algorithm
129const JetAlgorithm aachen_algorithm = cambridge_algorithm;
130const JetAlgorithm cambridge_aachen_algorithm = cambridge_algorithm;
131
132//======================================================================
133/// the various recombination schemes
134enum RecombinationScheme {
135 /// summing the 4-momenta
136 E_scheme=0,
137 /// pt weighted recombination of y,phi (and summing of pt's)
138 /// with preprocessing to make things massless by rescaling E=|\vec p|
139 pt_scheme=1,
140 /// pt^2 weighted recombination of y,phi (and summing of pt's)
141 /// with preprocessing to make things massless by rescaling E=|\vec p|
142 pt2_scheme=2,
143 /// pt weighted recombination of y,phi (and summing of pt's)
144 /// with preprocessing to make things massless by rescaling |\vec p|->=E
145 Et_scheme=3,
146 /// pt^2 weighted recombination of y,phi (and summing of pt's)
147 /// with preprocessing to make things massless by rescaling |\vec p|->=E
148 Et2_scheme=4,
149 /// pt weighted recombination of y,phi (and summing of pt's), with
150 /// no preprocessing
151 BIpt_scheme=5,
152 /// pt^2 weighted recombination of y,phi (and summing of pt's)
153 /// no preprocessing
154 BIpt2_scheme=6,
155 /// for the user's external scheme
156 external_scheme = 99
157};
158
159
160
161// forward declaration, needed in order to specify interface for the
162// plugin.
163class ClusterSequence;
164
165
166
167
168//======================================================================
169/// @ingroup basic_classes
170/// \class JetDefinition
171/// class that is intended to hold a full definition of the jet
172/// clusterer
173class JetDefinition {
174
175public:
176
177 /// forward declaration of a class that allows the user to introduce
178 /// their own plugin
179 class Plugin;
180
181 // forward declaration of a class that will provide the
182 // recombination scheme facilities and/or allow a user to
183 // extend these facilities
184 class Recombiner;
185
186
187 /// constructor with alternative ordering or arguments -- note that
188 /// we have not provided a default jet finder, to avoid ambiguous
189 /// JetDefinition() constructor.
190 JetDefinition(JetAlgorithm jet_algorithm_in,
191 double R_in,
192 RecombinationScheme recomb_scheme_in = E_scheme,
193 Strategy strategy_in = Best) {
194 *this = JetDefinition(jet_algorithm_in, R_in, strategy_in, recomb_scheme_in, 1);
195 }
196
197 /// constructor for algorithms that have no free parameters
198 /// (e.g. ee_kt_algorithm)
199 JetDefinition(JetAlgorithm jet_algorithm_in,
200 RecombinationScheme recomb_scheme_in = E_scheme,
201 Strategy strategy_in = Best) {
202 double dummyR = 0.0;
203 *this = JetDefinition(jet_algorithm_in, dummyR, strategy_in, recomb_scheme_in, 0);
204 }
205
206 /// constructor for algorithms that require R + one extra parameter to be set
207 /// (the gen-kt series for example)
208 JetDefinition(JetAlgorithm jet_algorithm_in,
209 double R_in,
210 double xtra_param_in,
211 RecombinationScheme recomb_scheme_in = E_scheme,
212 Strategy strategy_in = Best) {
213 *this = JetDefinition(jet_algorithm_in, R_in, strategy_in, recomb_scheme_in, 2);
214 set_extra_param(xtra_param_in);
215 }
216
217
218 /// constructor in a form that allows the user to provide a pointer
219 /// to an external recombiner class (which must remain valid for the
220 /// life of the JetDefinition object).
221 JetDefinition(JetAlgorithm jet_algorithm_in,
222 double R_in,
223 const Recombiner * recombiner_in,
224 Strategy strategy_in = Best) {
225 *this = JetDefinition(jet_algorithm_in, R_in, external_scheme, strategy_in);
226 _recombiner = recombiner_in;
227 }
228
229
230 /// constructor for case with 0 parameters (ee_kt_algorithm) and
231 /// and external recombiner
232 JetDefinition(JetAlgorithm jet_algorithm_in,
233 const Recombiner * recombiner_in,
234 Strategy strategy_in = Best) {
235 *this = JetDefinition(jet_algorithm_in, external_scheme, strategy_in);
236 _recombiner = recombiner_in;
237 }
238
239 /// constructor allowing the extra parameter to be set and a pointer to
240 /// a recombiner
241 JetDefinition(JetAlgorithm jet_algorithm_in,
242 double R_in,
243 double xtra_param_in,
244 const Recombiner * recombiner_in,
245 Strategy strategy_in = Best) {
246 *this = JetDefinition(jet_algorithm_in, R_in, external_scheme, strategy_in);
247 _recombiner = recombiner_in;
248 set_extra_param(xtra_param_in);
249 }
250
251 /// a default constructor which creates a jet definition that is in
252 /// a well-defined internal state, but not actually usable for jet
253 /// clustering.
254 JetDefinition() {
255 *this = JetDefinition(undefined_jet_algorithm, 1.0);
256 }
257
258
259 // /// a default constructor
260 // JetDefinition() {
261 // *this = JetDefinition(kt_algorithm, 1.0);
262 // }
263
264 /// constructor based on a pointer to a user's plugin; the object
265 /// pointed to must remain valid for the whole duration of existence
266 /// of the JetDefinition and any related ClusterSequences
267 JetDefinition(const Plugin * plugin_in) {
268 _plugin = plugin_in;
269 _strategy = plugin_strategy;
270 _Rparam = _plugin->R();
271 _jet_algorithm = plugin_algorithm;
272 set_recombination_scheme(E_scheme);
273 }
274
275
276 /// constructor to fully specify a jet-definition (together with
277 /// information about how algorithically to run it).
278 ///
279 /// the ordering of arguments here is old and deprecated (except
280 /// as the common constructor for internal use)
281 JetDefinition(JetAlgorithm jet_algorithm_in,
282 double R_in,
283 Strategy strategy_in,
284 RecombinationScheme recomb_scheme_in = E_scheme,
285 int nparameters_in = 1);
286
287 /// R values larger than max_allowable_R are not allowed.
288 ///
289 /// We use a value of 1000, substantially smaller than
290 /// numeric_limits<double>::max(), to leave room for the convention
291 /// within PseudoJet of setting unphysical (infinite) rapidities to
292 /// +-(MaxRap + abs(pz())), where MaxRap is 10^5.
293 static const double max_allowable_R; //= 1000.0;
294
295 /// set the recombination scheme to the one provided
296 void set_recombination_scheme(RecombinationScheme);
297
298 /// set the recombiner class to the one provided
299 void set_recombiner(const Recombiner * recomb) {
300 if (_recombiner_shared()) _recombiner_shared.reset(recomb);
301 _recombiner = recomb;
302 _default_recombiner = DefaultRecombiner(external_scheme);
303 }
304
305 /// calling this tells the JetDefinition to handle the deletion of
306 /// the recombiner when it is no longer used
307 void delete_recombiner_when_unused();
308
309 /// return a pointer to the plugin
310 const Plugin * plugin() const {return _plugin;};
311
312 /// allows to let the JetDefinition handle the deletion of the
313 /// plugin when it is no longer used
314 void delete_plugin_when_unused();
315
316 /// return information about the definition...
317 JetAlgorithm jet_algorithm () const {return _jet_algorithm ;}
318 /// same as above for backward compatibility
319 JetAlgorithm jet_finder () const {return _jet_algorithm ;}
320 double R () const {return _Rparam ;}
321 // a general purpose extra parameter, whose meaning depends on
322 // the algorithm, and may often be unused.
323 double extra_param () const {return _extra_param ;}
324 Strategy strategy () const {return _strategy ;}
325 RecombinationScheme recombination_scheme() const {
326 return _default_recombiner.scheme();}
327
328 /// (re)set the jet finder
329 void set_jet_algorithm(JetAlgorithm njf) {_jet_algorithm = njf;}
330 /// same as above for backward compatibility
331 void set_jet_finder(JetAlgorithm njf) {_jet_algorithm = njf;}
332 /// (re)set the general purpose extra parameter
333 void set_extra_param(double xtra_param) {_extra_param = xtra_param;}
334
335 /// return a pointer to the currently defined recombiner.
336 ///
337 /// Warning: the pointer may be to an internal recombiner (for
338 /// default recombination schemes), in which case if the
339 /// JetDefinition becomes invalid (e.g. is deleted), the pointer
340 /// will then point to an object that no longer exists.
341 ///
342 /// Note also that if you copy a JetDefinition with a default
343 /// recombination scheme, then the two copies will have distinct
344 /// recombiners, and return different recombiner() pointers.
345 const Recombiner * recombiner() const {
346 return _recombiner == 0 ? & _default_recombiner : _recombiner;}
347
348 /// returns true if the current jet definitions shares the same
349 /// recombiner as teh one passed as an argument
350 bool has_same_recombiner(const JetDefinition &other_jd) const;
351
352 /// return a textual description of the current jet definition
353 std::string description() const;
354
355
356public:
357 //======================================================================
358 /// @ingroup advanced_usage
359 /// \class Recombiner
360 /// An abstract base class that will provide the recombination scheme
361 /// facilities and/or allow a user to extend these facilities
362 class Recombiner {
363 public:
364 /// return a textual description of the recombination scheme
365 /// implemented here
366 virtual std::string description() const = 0;
367
368 /// recombine pa and pb and put result into pab
369 virtual void recombine(const PseudoJet & pa, const PseudoJet & pb,
370 PseudoJet & pab) const = 0;
371
372 /// routine called to preprocess each input jet (to make all input
373 /// jets compatible with the scheme requirements (e.g. massless).
374 virtual void preprocess(PseudoJet & ) const {};
375
376 /// a destructor to be replaced if necessary in derived classes...
377 virtual ~Recombiner() {};
378
379 /// pa += pb in the given recombination scheme. Not virtual -- the
380 /// user should have no reason to want to redefine this!
381 inline void plus_equal(PseudoJet & pa, const PseudoJet & pb) const {
382 // put result in a temporary location in case the recombiner
383 // does something funny (ours doesn't, but who knows about the
384 // user's)
385 PseudoJet pres;
386 recombine(pa,pb,pres);
387 pa = pres;
388 }
389
390 };
391
392
393 //======================================================================
394 /// @ingroup advanced_usage
395 /// \class DefaultRecombiner
396 /// A class that will provide the recombination scheme facilities and/or
397 /// allow a user to extend these facilities
398 ///
399 /// This class is derived from the (abstract) class Recombiner. It
400 /// simply "sums" PseudoJets using a specified recombination scheme
401 /// (E-scheme by default)
402 class DefaultRecombiner : public Recombiner {
403 public:
404 DefaultRecombiner(RecombinationScheme recomb_scheme = E_scheme) :
405 _recomb_scheme(recomb_scheme) {}
406
407 virtual std::string description() const;
408
409 /// recombine pa and pb and put result into pab
410 virtual void recombine(const PseudoJet & pa, const PseudoJet & pb,
411 PseudoJet & pab) const;
412
413 virtual void preprocess(PseudoJet & p) const;
414
415 /// return the index of the recombination scheme
416 RecombinationScheme scheme() const {return _recomb_scheme;}
417
418 private:
419 RecombinationScheme _recomb_scheme;
420 };
421
422
423 //======================================================================
424 /// @ingroup advanced_usage
425 /// \class Plugin
426 /// a class that allows a user to introduce their own "plugin" jet
427 /// finder
428 ///
429 /// Note that all the plugins provided with FastJet are derived from
430 /// this class
431 class Plugin{
432 public:
433 /// return a textual description of the jet-definition implemented
434 /// in this plugin
435 virtual std::string description() const = 0;
436
437 /// given a ClusterSequence that has been filled up with initial
438 /// particles, the following function should fill up the rest of the
439 /// ClusterSequence, using the following member functions of
440 /// ClusterSequence:
441 /// - plugin_do_ij_recombination(...)
442 /// - plugin_do_iB_recombination(...)
443 virtual void run_clustering(ClusterSequence &) const = 0;
444
445 virtual double R() const = 0;
446
447 /// return true if there is specific support for the measurement
448 /// of passive areas, in the sense that areas determined from all
449 /// particles below the ghost separation scale will be a passive
450 /// area. [If you don't understand this, ignore it!]
451 virtual bool supports_ghosted_passive_areas() const {return false;}
452
453 /// set the ghost separation scale for passive area determinations
454 /// in future runs (strictly speaking that makes the routine
455 /// a non const, so related internal info must be stored as a mutable)
456 virtual void set_ghost_separation_scale(double scale) const;
457 virtual double ghost_separation_scale() const {return 0.0;}
458
459 /// if this returns false then a warning will be given
460 /// whenever the user requests "exclusive" jets from the
461 /// cluster sequence
462 virtual bool exclusive_sequence_meaningful() const {return false;}
463
464 /// a destructor to be replaced if necessary in derived classes...
465 virtual ~Plugin() {};
466 };
467
468private:
469
470
471 JetAlgorithm _jet_algorithm;
472 double _Rparam;
473 double _extra_param ; ///< parameter whose meaning varies according to context
474 Strategy _strategy ;
475
476 const Plugin * _plugin;
477 SharedPtr<const Plugin> _plugin_shared;
478
479 // when we use our own recombiner it's useful to point to it here
480 // so that we don't have to worry about deleting it etc...
481 DefaultRecombiner _default_recombiner;
482 const Recombiner * _recombiner;
483 SharedPtr<const Recombiner> _recombiner_shared;
484
485};
486
487
488//-------------------------------------------------------------------------------
489// helper functions to build a jet made of pieces
490//
491// These functions include an options recombiner used to compute the
492// total composite jet momentum
493// -------------------------------------------------------------------------------
494
495/// build a "CompositeJet" from the vector of its pieces
496///
497/// In this case, E-scheme recombination is assumed to compute the
498/// total momentum
499PseudoJet join(const std::vector<PseudoJet> & pieces, const JetDefinition::Recombiner & recombiner);
500
501/// build a MergedJet from a single PseudoJet
502PseudoJet join(const PseudoJet & j1,
503 const JetDefinition::Recombiner & recombiner);
504
505/// build a MergedJet from 2 PseudoJet
506PseudoJet join(const PseudoJet & j1, const PseudoJet & j2,
507 const JetDefinition::Recombiner & recombiner);
508
509/// build a MergedJet from 3 PseudoJet
510PseudoJet join(const PseudoJet & j1, const PseudoJet & j2, const PseudoJet & j3,
511 const JetDefinition::Recombiner & recombiner);
512
513/// build a MergedJet from 4 PseudoJet
514PseudoJet join(const PseudoJet & j1, const PseudoJet & j2, const PseudoJet & j3, const PseudoJet & j4,
515 const JetDefinition::Recombiner & recombiner);
516
517
518
519
520
521FASTJET_END_NAMESPACE
522
523#endif // __FASTJET_JETDEFINITION_HH__
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