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source: git/external/fastjet/tools/JetMedianBackgroundEstimator.cc@ b78adf8

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Last change on this file since b78adf8 was 35cdc46, checked in by Pavel Demin <demin@…>, 10 years ago

upgrade FastJet to version 3.1.0-beta.1, upgrade Nsubjettiness to version 2.1.0, add SoftKiller version 1.0.0

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1//FJSTARTHEADER
2// $Id: JetMedianBackgroundEstimator.cc 3517 2014-08-01 14:23:13Z soyez $
3//
4// Copyright (c) 2005-2014, 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. They are described in the original FastJet paper,
16// hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
17// FastJet as part of work towards a scientific publication, please
18// quote the version you use and include a citation to the manual and
19// optionally also to hep-ph/0512210.
20//
21// FastJet is distributed in the hope that it will be useful,
22// but WITHOUT ANY WARRANTY; without even the implied warranty of
23// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
24// GNU General Public License for more details.
25//
26// You should have received a copy of the GNU General Public License
27// along with FastJet. If not, see <http://www.gnu.org/licenses/>.
28//----------------------------------------------------------------------
29//FJENDHEADER
30
31#include "fastjet/tools/JetMedianBackgroundEstimator.hh"
32#include <fastjet/ClusterSequenceArea.hh>
33#include <fastjet/ClusterSequenceStructure.hh>
34#include <iostream>
35#include <sstream>
36
37FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
38
39using namespace std;
40
41double BackgroundJetScalarPtDensity::result(const PseudoJet & jet) const {
42 // do not include the ghosts in the list of constituents to have a
43 // correct behaviour when _pt_power is <= 0
44 std::vector<PseudoJet> constituents = (!SelectorIsPureGhost())(jet.constituents());
45 double scalar_pt = 0;
46 for (unsigned i = 0; i < constituents.size(); i++) {
47 scalar_pt += pow(constituents[i].perp(), _pt_power);
48 }
49 return scalar_pt / jet.area();
50}
51
52
53std::string BackgroundJetScalarPtDensity::description() const {
54 ostringstream oss;
55 oss << "BackgroundScalarJetPtDensity";
56 if (_pt_power != 1.0) oss << " with pt_power = " << _pt_power;
57 return oss.str();
58}
59
60
61//----------------------------------------------------------------------
62double BackgroundRescalingYPolynomial::result(const PseudoJet & jet) const {
63 double y = jet.rap();
64 double y2 = y*y;
65 double rescaling = _a0 + _a1*y + _a2*y2 + _a3*y2*y + _a4*y2*y2;
66 return rescaling;
67}
68
69/// allow for warnings
70LimitedWarning JetMedianBackgroundEstimator::_warnings;
71LimitedWarning JetMedianBackgroundEstimator::_warnings_zero_area;
72LimitedWarning JetMedianBackgroundEstimator::_warnings_preliminary;
73
74
75//---------------------------------------------------------------------
76// class JetMedianBackgroundEstimator
77// Class to estimate the density of the background per unit area
78//---------------------------------------------------------------------
79
80//----------------------------------------------------------------------
81// ctors and dtors
82//----------------------------------------------------------------------
83// ctor that allows to set only the particles later on
84JetMedianBackgroundEstimator::JetMedianBackgroundEstimator(const Selector &rho_range,
85 const JetDefinition &jet_def,
86 const AreaDefinition &area_def)
87 : _rho_range(rho_range), _jet_def(jet_def), _area_def(area_def){
88
89 // initialise things decently
90 reset();
91
92 // make a few checks
93 _check_jet_alg_good_for_median();
94}
95
96
97//----------------------------------------------------------------------
98// ctor from a cluster sequence
99// - csa the ClusterSequenceArea to use
100// - rho_range the Selector specifying which jets will be considered
101JetMedianBackgroundEstimator::JetMedianBackgroundEstimator( const Selector &rho_range, const ClusterSequenceAreaBase &csa)
102 : _rho_range(rho_range), _jet_def(JetDefinition()){
103
104 // initialise things properly
105 reset();
106
107 // tell the BGE about the cluster sequence
108 set_cluster_sequence(csa);
109}
110
111
112//----------------------------------------------------------------------
113// setting a new event
114//----------------------------------------------------------------------
115// tell the background estimator that it has a new event, composed
116// of the specified particles.
117void JetMedianBackgroundEstimator::set_particles(const vector<PseudoJet> & particles) {
118 // make sure that we have been provided a genuine jet definition
119 if (_jet_def.jet_algorithm() == undefined_jet_algorithm)
120 throw Error("JetMedianBackgroundEstimator::set_particles can only be called if you set the jet (and area) definition explicitly through the class constructor");
121
122 // initialise things decently (including setting uptodate to false!)
123 //reset();
124 _uptodate=false;
125
126 // cluster the particles
127 //
128 // One may argue that it is better to cache the particles and only
129 // do the clustering later but clustering the particles now has 2
130 // practical advantages:
131 // - it allows to une only '_included_jets' in all that follows
132 // - it avoids adding another flag to ensure particles are
133 // clustered only once
134 ClusterSequenceArea *csa = new ClusterSequenceArea(particles, _jet_def, _area_def);
135 _included_jets = csa->inclusive_jets();
136
137 // store the CS for later on
138 _csi = csa->structure_shared_ptr();
139 csa->delete_self_when_unused();
140}
141
142//----------------------------------------------------------------------
143// (re)set the cluster sequence (with area support) to be used by
144// future calls to rho() etc.
145//
146// \param csa the cluster sequence area
147//
148// Pre-conditions:
149// - one should be able to estimate the "empty area" (i.e. the area
150// not occupied by jets). This is feasible if at least one of the following
151// conditions is satisfied:
152// ( i) the ClusterSequence has explicit ghosts
153// (ii) the range selected has a computable area.
154// - the jet algorithm must be suited for median computation
155// (otherwise a warning will be issues)
156//
157// Note that selectors with e.g. hardest-jets exclusion do not have
158// a well-defined area. For this reasons, it is STRONGLY advised to
159// use an area with explicit ghosts.
160void JetMedianBackgroundEstimator::set_cluster_sequence(const ClusterSequenceAreaBase & csa) {
161 _csi = csa.structure_shared_ptr();
162
163 // sanity checks
164 //---------------
165 // (i) check the alg is appropriate
166 _check_jet_alg_good_for_median();
167
168 // (ii) check that, if there are no explicit ghosts, the selector has a finite area
169 if ((!csa.has_explicit_ghosts()) && (!_rho_range.has_finite_area())){
170 throw Error("JetMedianBackgroundEstimator: either an area with explicit ghosts (recommended) or a Selector with finite area is needed (to allow for the computation of the empty area)");
171 }
172
173 // get the initial list of jets
174 _included_jets = csa.inclusive_jets();
175
176 _uptodate = false;
177}
178
179
180//----------------------------------------------------------------------
181// (re)set the jets (which must have area support) to be used by future
182// calls to rho() etc.; for the conditions that must be satisfied
183// by the jets, see the Constructor that takes jets.
184void JetMedianBackgroundEstimator::set_jets(const vector<PseudoJet> &jets) {
185
186 if (! jets.size())
187 throw Error("JetMedianBackgroundEstimator::JetMedianBackgroundEstimator: At least one jet is needed to compute the background properties");
188
189 // sanity checks
190 //---------------
191 // (o) check that there is an underlying CS shared by all the jets
192 if (! (jets[0].has_associated_cluster_sequence()) && (jets[0].has_area()))
193 throw Error("JetMedianBackgroundEstimator::JetMedianBackgroundEstimator: the jets used to estimate the background properties must be associated with a valid ClusterSequenceAreaBase");
194
195 _csi = jets[0].structure_shared_ptr();
196 ClusterSequenceStructure * csi = dynamic_cast<ClusterSequenceStructure*>(_csi());
197 const ClusterSequenceAreaBase * csab = csi->validated_csab();
198
199 for (unsigned int i=1;i<jets.size(); i++){
200 if (! jets[i].has_associated_cluster_sequence()) // area automatic if the next test succeeds
201 throw Error("JetMedianBackgroundEstimator::set_jets(...): the jets used to estimate the background properties must be associated with a valid ClusterSequenceAreaBase");
202
203 if (jets[i].structure_shared_ptr().get() != _csi.get())
204 throw Error("JetMedianBackgroundEstimator::set_jets(...): all the jets used to estimate the background properties must share the same ClusterSequence");
205 }
206
207 // (i) check the alg is appropriate
208 _check_jet_alg_good_for_median();
209
210 // (ii) check that, if there are no explicit ghosts, the selector has a finite area
211 if ((!csab->has_explicit_ghosts()) && (!_rho_range.has_finite_area())){
212 throw Error("JetMedianBackgroundEstimator: either an area with explicit ghosts (recommended) or a Selector with finite area is needed (to allow for the computation of the empty area)");
213 }
214
215
216 // get the initial list of jets
217 _included_jets = jets;
218
219 // ensure recalculation of quantities that need it
220 _uptodate = false;
221}
222
223
224//----------------------------------------------------------------------
225// retrieving fundamental information
226//----------------------------------------------------------------
227
228// get rho, the median background density per unit area
229double JetMedianBackgroundEstimator::rho() const {
230 if (_rho_range.takes_reference())
231 throw Error("The background estimation is obtained from a selector that takes a reference jet. rho(PseudoJet) should be used in that case");
232 _recompute_if_needed();
233 return _rho;
234}
235
236// get sigma, the background fluctuations per unit area
237double JetMedianBackgroundEstimator::sigma() const {
238 if (_rho_range.takes_reference())
239 throw Error("The background estimation is obtained from a selector that takes a reference jet. rho(PseudoJet) should be used in that case");
240 _recompute_if_needed();
241 return _sigma;
242}
243
244// get rho, the median background density per unit area, locally at
245// the position of a given jet.
246//
247// If the Selector associated with the range takes a reference jet
248// (i.e. is relocatable), then for subsequent operations the
249// Selector has that jet set as its reference.
250double JetMedianBackgroundEstimator::rho(const PseudoJet & jet) {
251 _recompute_if_needed(jet);
252 double our_rho = _rho;
253 if (_rescaling_class != 0) {
254 our_rho *= (*_rescaling_class)(jet);
255 }
256 return our_rho;
257}
258
259// get sigma, the background fluctuations per unit area,
260// locally at the position of a given jet.
261//
262// If the Selector associated with the range takes a reference jet
263// (i.e. is relocatable), then for subsequent operations the
264// Selector has that jet set as its reference.
265double JetMedianBackgroundEstimator::sigma(const PseudoJet &jet) {
266 _recompute_if_needed(jet);
267 double our_sigma = _sigma;
268 if (_rescaling_class != 0) {
269 our_sigma *= (*_rescaling_class)(jet);
270 }
271 return our_sigma;
272}
273
274
275//----------------------------------------------------------------------
276// returns rho_m (particle-masses contribution to the 4-vector density)
277double JetMedianBackgroundEstimator::rho_m() const {
278 if (! has_rho_m()){
279 throw Error("JetMediamBackgroundEstimator: rho_m requested but rho_m calculation is disabled (either eplicitly or due to the presence of a jet density class).");
280 }
281 if (_rho_range.takes_reference())
282 throw Error("The background estimation is obtained from a selector that takes a reference jet. rho(PseudoJet) should be used in that case");
283 _recompute_if_needed();
284 return _rho_m;
285}
286
287
288//----------------------------------------------------------------------
289// returns sigma_m (particle-masses contribution to the 4-vector
290// density); must be multipled by sqrt(area) to get fluctuations
291// for a region of a given area.
292double JetMedianBackgroundEstimator::sigma_m() const{
293 if (! has_rho_m()){
294 throw Error("JetMediamBackgroundEstimator: sigma_m requested but rho_m/sigma_m calculation is disabled (either explicitly or due to the presence of a jet density class).");
295 }
296 if (_rho_range.takes_reference())
297 throw Error("The background estimation is obtained from a selector that takes a reference jet. rho(PseudoJet) should be used in that case");
298 _recompute_if_needed();
299 return _sigma_m;
300}
301
302//----------------------------------------------------------------------
303// returns rho_m locally at the position of a given jet. As for
304// rho(jet), it is non-const.
305double JetMedianBackgroundEstimator::rho_m(const PseudoJet & jet) {
306 _recompute_if_needed(jet);
307 double our_rho = _rho_m;
308 if (_rescaling_class != 0) {
309 our_rho *= (*_rescaling_class)(jet);
310 }
311 return our_rho;
312}
313
314
315//----------------------------------------------------------------------
316// returns sigma_m locally at the position of a given jet. As for
317// rho(jet), it is non-const.
318double JetMedianBackgroundEstimator::sigma_m(const PseudoJet & jet){
319 _recompute_if_needed(jet);
320 double our_sigma = _sigma_m;
321 if (_rescaling_class != 0) {
322 our_sigma *= (*_rescaling_class)(jet);
323 }
324 return our_sigma;
325}
326
327//----------------------------------------------------------------------
328// configuring behaviour
329//----------------------------------------------------------------------
330// reset to default values
331//
332// set the variou options to their default values
333void JetMedianBackgroundEstimator::reset(){
334 // set the remaining default parameters
335 set_use_area_4vector(); // true by default
336 set_provide_fj2_sigma(false);
337
338 _enable_rho_m = true;
339
340 // reset the computed values
341 _rho = _sigma = 0.0;
342 _rho_m = _sigma_m = 0.0;
343 _n_jets_used = _n_empty_jets = 0;
344 _empty_area = _mean_area = 0.0;
345
346 _included_jets.clear();
347
348 _jet_density_class = 0; // null pointer
349 _rescaling_class = 0; // null pointer
350
351 _uptodate = false;
352}
353
354
355// Set a pointer to a class that calculates the quantity whose
356// median will be calculated; if the pointer is null then pt/area
357// is used (as occurs also if this function is not called).
358void JetMedianBackgroundEstimator::set_jet_density_class(const FunctionOfPseudoJet<double> * jet_density_class_in) {
359 _warnings_preliminary.warn("JetMedianBackgroundEstimator::set_jet_density_class: density classes are still preliminary in FastJet 3.1. Their interface may differ in future releases (without guaranteeing backward compatibility). Note that since FastJet 3.1, rho_m and sigma_m are accessible direclty in JetMedianBackgroundEstimator and GridMedianBackgroundEstimator(with no need for a density class).");
360 _jet_density_class = jet_density_class_in;
361 _uptodate = false;
362}
363
364
365
366//----------------------------------------------------------------------
367// description
368//----------------------------------------------------------------------
369string JetMedianBackgroundEstimator::description() const {
370 ostringstream desc;
371 desc << "JetMedianBackgroundEstimator, using " << _jet_def.description()
372 << " with " << _area_def.description()
373 << " and selecting jets with " << _rho_range.description();
374 return desc.str();
375}
376
377
378
379//----------------------------------------------------------------------
380// computation of the background properties
381//----------------------------------------------------------------------
382// for estimation using a relocatable selector (i.e. local range)
383// this allows to set its position. Note that this HAS to be called
384// before any attempt to compute the background properties
385void JetMedianBackgroundEstimator::_recompute_if_needed(const PseudoJet &jet){
386 // if the range is relocatable, handles its relocation
387 if (_rho_range.takes_reference()){
388 // check that the reference is not the same as the previous one
389 // (would avoid an unnecessary recomputation)
390 if (jet == _current_reference) return;
391
392 // relocate the range and make sure things get recomputed the next
393 // time one tries to get some information
394 _rho_range.set_reference(jet);
395 _uptodate=false;
396 }
397
398 _recompute_if_needed();
399}
400
401// do the actual job
402void JetMedianBackgroundEstimator::_compute() const {
403 // check if the clustersequence is still valid
404 _check_csa_alive();
405
406 // fill the vector of pt/area (or the quantity from the jet density class)
407 // - in the range
408 vector<double> vector_for_median_pt;
409 vector<double> vector_for_median_dt;
410 double total_area = 0.0;
411 _n_jets_used = 0;
412
413 // apply the selector to the included jets
414 vector<PseudoJet> selected_jets = _rho_range(_included_jets);
415
416 // compute the pt/area for the selected jets
417 double median_input_pt, median_input_dt=0.0;
418 BackgroundJetPtMDensity m_density;
419 bool do_rho_m = has_rho_m();
420 for (unsigned i = 0; i < selected_jets.size(); i++) {
421 const PseudoJet & current_jet = selected_jets[i];
422
423 double this_area = (_use_area_4vector) ? current_jet.area_4vector().perp() : current_jet.area();
424 if (this_area>0){
425 // for the pt component, we either use pt or the user-provided
426 // density class
427 if (_jet_density_class == 0) {
428 median_input_pt = current_jet.perp()/this_area;
429 } else {
430 median_input_pt = (*_jet_density_class)(current_jet);
431 }
432
433 // handle the rho_m part if requested
434 // note that we're using the scalar area as a normalisation inside the
435 // density class!
436 if (do_rho_m)
437 median_input_dt = m_density(current_jet);
438
439 // perform rescaling if needed
440 if (_rescaling_class != 0) {
441 double resc = (*_rescaling_class)(current_jet);;
442 median_input_pt /= resc;
443 median_input_dt /= resc;
444 }
445
446 // store the result for future computation of the median
447 vector_for_median_pt.push_back(median_input_pt);
448 if (do_rho_m)
449 vector_for_median_dt.push_back(median_input_dt);
450
451 total_area += this_area;
452 _n_jets_used++;
453 } else {
454 _warnings_zero_area.warn("JetMedianBackgroundEstimator::_compute(...): discarded jet with zero area. Zero-area jets may be due to (i) too large a ghost area (ii) a jet being outside the ghost range (iii) the computation not being done using an appropriate algorithm (kt;C/A).");
455 }
456 }
457
458 // there is nothing inside our region, so answer will always be zero
459 if (vector_for_median_pt.size() == 0) {
460 _rho = 0.0;
461 _sigma = 0.0;
462 _rho_m = 0.0;
463 _sigma_m = 0.0;
464 _mean_area = 0.0;
465 return;
466 }
467
468 // determine the number of empty jets
469 const ClusterSequenceAreaBase * csab = (dynamic_cast<ClusterSequenceStructure*>(_csi()))->validated_csab();
470 if (csab->has_explicit_ghosts()) {
471 _empty_area = 0.0;
472 _n_empty_jets = 0;
473 } else {
474 _empty_area = csab->empty_area(_rho_range);
475 _n_empty_jets = csab->n_empty_jets(_rho_range);
476 }
477
478 double total_njets = _n_jets_used + _n_empty_jets;
479 total_area += _empty_area;
480
481 double stand_dev;
482 _median_and_stddev(vector_for_median_pt, _n_empty_jets, _rho, stand_dev,
483 _provide_fj2_sigma);
484
485 // process and store the results (_rho was already stored above)
486 _mean_area = total_area / total_njets;
487 _sigma = stand_dev * sqrt(_mean_area);
488
489 // compute the rho_m part now
490 if (do_rho_m){
491 _median_and_stddev(vector_for_median_dt, _n_empty_jets, _rho_m, stand_dev,
492 _provide_fj2_sigma);
493 _sigma_m = stand_dev * sqrt(_mean_area);
494 }
495
496 // record that the computation has been performed
497 _uptodate = true;
498}
499
500
501
502// check that the underlying structure is still alive;
503// throw an error otherwise
504void JetMedianBackgroundEstimator::_check_csa_alive() const{
505 ClusterSequenceStructure* csa = dynamic_cast<ClusterSequenceStructure*>(_csi());
506 if (csa == 0) {
507 throw Error("JetMedianBackgroundEstimator: there is no cluster sequence associated with the JetMedianBackgroundEstimator");
508 }
509 if (! dynamic_cast<ClusterSequenceStructure*>(_csi())->has_associated_cluster_sequence())
510 throw Error("JetMedianBackgroundEstimator: modifications are no longer possible as the underlying ClusterSequence has gone out of scope");
511}
512
513
514// check that the algorithm used for the clustering is suitable for
515// background estimation (i.e. either kt or C/A).
516// Issue a warning otherwise
517void JetMedianBackgroundEstimator::_check_jet_alg_good_for_median() const{
518 const JetDefinition * jet_def = &_jet_def;
519
520 // if no explicit jet def has been provided, fall back on the
521 // cluster sequence
522 if (_jet_def.jet_algorithm() == undefined_jet_algorithm){
523 const ClusterSequence * cs = dynamic_cast<ClusterSequenceStructure*>(_csi())->validated_cs();
524 jet_def = &(cs->jet_def());
525 }
526
527 if (jet_def->jet_algorithm() != kt_algorithm
528 && jet_def->jet_algorithm() != cambridge_algorithm
529 && jet_def->jet_algorithm() != cambridge_for_passive_algorithm) {
530 _warnings.warn("JetMedianBackgroundEstimator: jet_def being used may not be suitable for estimating diffuse backgrounds (good alternatives are kt, cam)");
531 }
532}
533
534
535
536FASTJET_END_NAMESPACE
537
538
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