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source: git/external/fastjet/plugins/D0RunIICone/ILConeAlgorithm.hpp@ 5862d1f

Last change on this file since 5862d1f 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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[d7d2da3]1#ifndef D0RunIIconeJets_ILCONEALGORITHM
2#define D0RunIIconeJets_ILCONEALGORITHM
3// ---------------------------------------------------------------------------
4// ILConeAlgorithm.hpp
5//
6// Created: 28-JUL-2000 Francois Touze (+ Laurent Duflot)
7//
8// Purpose: Implements the Improved Legacy Cone Algorithm
9//
10// Modified:
11// 31-JUL-2000 Laurent Duflot
12// + introduce support for additional informations (ConeJetInfo)
13// 1-AUG-2000 Laurent Duflot
14// + seedET for midpoint jet is -999999., consistent with seedET ordering
15// in ConeSplitMerge: final jets with seedET=-999999. will be midpoint
16// jets which were actually different from stable cones.
17// 4-Aug-2000 Laurent Duflot
18// + remove unecessary copy in TemporaryJet::is_stable()
19// 11-Aug-2000 Laurent Duflot
20// + remove using namespace std
21// + add threshold on item. The input list to makeClusters() IS modified
22// 20-June-2002 John Krane
23// + remove bug in midpoint calculation based on pT weight
24// + started to add new midpoint calculation based on 4-vectors,
25// but not enough info held by this class
26// 24-June-2002 John Krane
27// + modify is_stable() to not iterate if desired
28// (to expand search cone w/out moving it)
29// + added search cone logic for initial jets but not midpoint jets as per
30// agreement with CDF
31// 19-July-2002 John Krane
32// + _SEARCH_CONE size factor now provided by calreco/CalClusterReco.cpp
33// + (default = 1.0 = like original ILCone behavior)
34// 10-Oct-2002 John Krane
35// + Check min Pt of cone with full size first, then iterate with search cone
36// 07-Dec-2002 John Krane
37// + speed up the midpoint phi-wrap solution
38// 01-May-2007 Lars Sonnenschein
39// extracted from D0 software framework and modified to remove subsequent dependencies
40//
41//
42// This file is distributed with FastJet under the terms of the GNU
43// General Public License (v2). Permission to do so has been granted
44// by Lars Sonnenschein and the D0 collaboration (see COPYING for
45// details)
46//
47// History of changes in FastJet compared tothe original version of
48// ProtoJet.hpp
49//
50// 2012-06-12 Gregory Soyez <soyez@fastjet.fr>
51// * Replaced addItem(...) by this->addItem(...) to allow
52// compilation with gcc 4.7 which no longer performs
53// unqualified template lookups. See
54// e.g. http://gcc.gnu.org/gcc-4.7/porting_to.html
55//
56// 2011-12-13 Gregory Soyez <soyez@fastjet.fr>
57//
58// * added license information
59//
60// 2011-11-14 Gregory Soyez <soyez@fastjet.fr>
61//
62// * changed the name of a few parameters to avoid a gcc
63// -Wshadow warning
64//
65// 2009-01-17 Gregory Soyez <soyez@fastjet.fr>
66//
67// * put the code in the fastjet::d0 namespace
68//
69// 2007-12-14 Gavin Salam <salam@lpthe.jussieu.fr>
70//
71// * moved the 'std::vector<ProtoJet<Item> > ilcv' structure
72// containing the info about the final jets from a local
73// variable to a class variable (for integration in the
74// FastJet plugin core)
75//
76// ---------------------------------------------------------------------------
77
78#include <vector>
79#include <list>
80#include <utility> // defines pair<,>
81#include <map>
82#include <algorithm>
83#include <iostream>
84
85
86//#include "energycluster/EnergyClusterReco.hpp"
87//#include "energycluster/ProtoJet.hpp"
88#include "ProtoJet.hpp"
89//#include "energycluster/ConeSplitMerge.hpp"
90#include "ConeSplitMerge.hpp"
91//#include "energycluster/ConeJetInfoChunk.hpp"
92
93#include "inline_maths.h"
94
95///////////////////////////////////////////////////////////////////////////////
96#include <fastjet/internal/base.hh>
97
98FASTJET_BEGIN_NAMESPACE
99
100namespace d0{
101
102using namespace inline_maths;
103
104/*
105 NB: Some attempt at optimizing the code has been made by ordering the object
106 along rapidity but this did not improve the speed. There are traces of
107 these atemps in the code, that will be cleaned up in the future.
108 */
109
110// at most one of those !
111// order the input list and use lower_bound() and upper_bound() to restrict the
112// on item to those that could possibly be in the cone.
113//#define ILCA_USE_ORDERED_LIST
114
115// idem but use an intermediate multimap in hope that lower_bound() and
116// upper_bound() are faster in this case.
117//#define ILCA_USE_MMAP
118
119
120#ifdef ILCA_USE_ORDERED_LIST
121// this class is used to order the item list along rapidity
122template <class Item>
123class rapidity_order
124{
125public:
126 bool operator()(const Item* first, const Item* second)
127 {
128 return (first->y() < second->y());
129 }
130 bool operator()(float const & first, const Item* second)
131 {
132 return (first < second->y());
133 }
134 bool operator()(const Item* first, float const& second)
135 {
136 return (first->y() < second);
137 }
138};
139#endif
140
141
142//template <class Item,class ItemAddress,class IChunk>
143template <class Item>
144class ILConeAlgorithm
145{
146
147public:
148
149 // default constructor (default parameters are crazy: you should not use that
150 // constructor !)
151 ILConeAlgorithm():
152 _CONE_RADIUS(0.),
153 _MIN_JET_ET(99999.),
154 _ET_MIN_RATIO(0.5),
155 _FAR_RATIO(0.5),
156 _SPLIT_RATIO(0.5),
157 _DUPLICATE_DR(0.005),
158 _DUPLICATE_DPT(0.01),
159 _SEARCH_CONE(0.5),
160 _PT_MIN_LEADING_PROTOJET(0),
161 _PT_MIN_SECOND_PROTOJET(0),
162 _MERGE_MAX(10000),
163 _PT_MIN_noMERGE_MAX(0)
164 {;}
165
166 // full constructor
167 ILConeAlgorithm(float cone_radius, float min_jet_Et, float split_ratio,
168 float far_ratio=0.5, float Et_min_ratio=0.5,
169 bool kill_duplicate=true, float duplicate_dR=0.005,
170 float duplicate_dPT=0.01, float search_factor=1.0,
171 float pT_min_leading_protojet=0., float pT_min_second_protojet=0.,
172 int merge_max=10000, float pT_min_nomerge=0.) :
173 // cone radius
174 _CONE_RADIUS(cone_radius),
175 // minimum jet ET
176 _MIN_JET_ET(min_jet_Et),
177 // stable cones must have ET > _ET_MIN_RATIO*_MIN_JET_ET at any iteration
178 _ET_MIN_RATIO(Et_min_ratio),
179 // precluster at least _FAR_RATIO*_CONE_RADIUS away from stable cones
180 _FAR_RATIO(far_ratio),
181 // split or merge criterium
182 _SPLIT_RATIO(split_ratio),
183 _DUPLICATE_DR(duplicate_dR),
184 _DUPLICATE_DPT(duplicate_dPT),
185 _SEARCH_CONE(cone_radius/search_factor),
186 // kill stable cone if within _DUPLICATE_DR and delta(pT)<_DUPLICATE_DPT
187 // of another stable cone.
188 _KILL_DUPLICATE(kill_duplicate),
189 _PT_MIN_LEADING_PROTOJET(pT_min_leading_protojet),
190 _PT_MIN_SECOND_PROTOJET(pT_min_second_protojet),
191 _MERGE_MAX(merge_max),
192 _PT_MIN_noMERGE_MAX(pT_min_nomerge)
193 {;}
194
195 //destructor
196 ~ILConeAlgorithm() {;}
197
198 // make jet clusters using improved legacy cone algorithm
199 //void makeClusters(const EnergyClusterReco* r,
200 void makeClusters(
201 // the input list modified (ordered)
202 std::list<Item> &jets,
203 std::list<const Item*>& itemlist,
204 //float zvertex,
205 ////std::list<const Item*>& itemlist);
206 //const EnergyClusterCollection<ItemAddress>& preclu,
207 //IChunk* chunkptr, ConeJetInfoChunk* infochunkptr,
208 const float Item_ET_Threshold);
209
210 // this will hold the final jets + contents
211 std::vector<ProtoJet<Item> > ilcv;
212
213private:
214
215 float _CONE_RADIUS;
216 float _MIN_JET_ET;
217 float _ET_MIN_RATIO;
218 float _FAR_RATIO;
219 float _SPLIT_RATIO;
220 float _DUPLICATE_DR;
221 float _DUPLICATE_DPT;
222 float _SEARCH_CONE;
223
224 bool _KILL_DUPLICATE;
225
226 float _PT_MIN_LEADING_PROTOJET;
227 float _PT_MIN_SECOND_PROTOJET;
228 int _MERGE_MAX;
229 float _PT_MIN_noMERGE_MAX;
230
231 // private class
232 // This is a ProtoJet with additional methods dist(), midpoint() and
233 // is_stable()
234 class TemporaryJet : public ProtoJet<Item>
235 {
236
237 public :
238
239 TemporaryJet(float seedET) : ProtoJet<Item>(seedET) {;}
240
241 TemporaryJet(float seedET,float y_in,float phi_in) :
242 ProtoJet<Item>(seedET,y_in,phi_in) {;}
243
244 ~TemporaryJet() {;}
245
246 float dist(TemporaryJet& jet) const
247 {
248 return RDelta(this->_y,this->_phi,jet.y(),jet.phi());
249 }
250
251 void midpoint(const TemporaryJet& jet,float & y_out, float & phi_out) const
252 {
253 // Midpoint should probably be computed w/4-vectors but don't
254 // have that info. Preserving Pt-weighted calculation - JPK
255 float pTsum = this->_pT + jet.pT();
256 y_out = (this->_y*this->_pT + jet.y()*jet.pT())/pTsum;
257
258 phi_out = (this->_phi*this->_pT + jet.phi()*jet.pT())/pTsum;
259 // careful with phi-wrap area: convert from [0,2pi] to [-pi,pi]
260 //ls: original D0 code, as of 23/Mar/2007
261 //if ( abs(phi-this->_phi)>2.0 ) { // assumes cones R=1.14 or smaller, merge within 2R only
262 //ls: abs bug fixed 26/Mar/2007
263 if ( fabs(phi_out-this->_phi)>2.0 ) { // assumes cones R=1.14 or smaller, merge within 2R only
264 phi_out = fmod( this->_phi+PI, TWOPI);
265 if (phi_out < 0.0) phi_out += TWOPI;
266 phi_out -= PI;
267
268 float temp=fmod( jet.phi()+PI, TWOPI);
269 if (temp < 0.0) temp += TWOPI;
270 temp -= PI;
271
272 phi_out = (phi_out*this->_pT + temp*jet.pT()) /pTsum;
273 }
274
275 if ( phi_out < 0. ) phi_out += TWOPI;
276 }
277
278
279////////////////////////////////////////
280#ifdef ILCA_USE_MMAP
281 bool is_stable(const std::multimap<float,const Item*>& items,
282 float radius, float min_ET, int max_iterations=50)
283#else
284 bool is_stable(const std::list<const Item*>& itemlist, float radius,
285 float min_ET, int max_iterations=50)
286#endif
287 // Note: max_iterations = 0 will just recompute the jet using the specified cone
288 {
289 float radius2 = radius*radius;
290 float Rcut= 1.E-06;
291
292
293 // ?? if(_Increase_Delta_R) Rcut= 1.E-04;
294 bool stable= true;
295 int trial= 0;
296 float Yst;
297 float PHIst;
298 do {
299 trial++;
300 //std::cout << " trial " << trial << " " << _y << " " << _phi << std::endl;
301 Yst = this->_y;
302 PHIst= this->_phi;
303 //cout << "is_stable beginning do loop: this->_pT=" << this->_pT << " this->_y=" << this->_y << " this->_phi=" << this->_phi << endl;
304 this->erase();
305
306 this->setJet(Yst,PHIst,0.0);
307
308
309#ifdef ILCA_USE_ORDERED_LIST
310 std::list<const Item*>::const_iterator lower =
311 lower_bound(itemlist.begin(),itemlist.end(),Yst-radius,
312 rapidity_order<Item>());
313 std::list<const Item*>::const_iterator upper =
314 upper_bound(itemlist.begin(),itemlist.end(),Yst+radius,
315 rapidity_order<Item>());
316 for(std::list<const Item*>::const_iterator tk = lower; tk != upper; ++tk) {
317 //std::cout << " is_stable: item y=" << (*tk)->y() << " phi=" << (*tk)->phi() << " RD2=" << RD2((*tk)->y(),(*tk)->phi(),Yst,PHIst) << " " << Yst-radius << " " << Yst+radius << endl;
318 if(RD2((*tk)->y(),(*tk)->phi(),Yst,PHIst) <= radius2)
319 {
320 this->addItem(*tk);
321 }
322 }
323#else
324#ifdef ILCA_USE_MMAP
325 // need to loop only on the subset with Yst-R < y < Yst+R
326 for ( std::multimap<float,const Item*>::const_iterator
327 tk = items.lower_bound(Yst-radius);
328 tk != items.upper_bound(Yst+radius); ++tk )
329 {
330 //std::cout << " item " << (*tk)->y() << " " << (*tk)->phi() << " " << RD2((*tk)->y(),(*tk)->phi(),Yst,PHIst) << " " << Yst-radius << " " << Yst+radius << endl;
331 if(RD2(((*tk).second)->y(),((*tk).second)->phi(),Yst,PHIst) <= radius2)
332 {
333 this->addItem((*tk).second);
334 }
335 }
336
337#else
338
339 //cout << " is_stable: itemlist.size()=" << itemlist.size() << endl;
340 for(typename std::list<const Item*>::const_iterator tk = itemlist.begin(); tk != itemlist.end(); ++tk)
341 {
342 //std::cout << " is_stable: item (*tk)->y()=" << (*tk)->y() << " (*tk)->phi=" << (*tk)->phi() << " RD2=" << RD2((*tk)->y(),(*tk)->phi(),Yst,PHIst) << " Yst-rad=" << Yst-radius << " Yst+rad=" << Yst+radius << endl;
343 if(RD2((*tk)->y(),(*tk)->phi(),Yst,PHIst) <= radius2)
344 {
345 //cout << "add item to *tk" << endl;
346 this->addItem(*tk);
347 }
348 }
349#endif
350#endif
351
352 //std::cout << "is_stable, before update: jet this->_y=" << this->_y << " _phi=" << this->_phi << " _pT=" << this->_pT << " min_ET=" << min_ET << std::endl;
353 this->updateJet();
354 //std::cout << "is_stable, after update: jet this->_y=" << this->_y << " _phi=" << this->_phi << " _pT=" << this->_pT << " min_ET=" << min_ET << std::endl;
355
356 if(this->_pT < min_ET )
357 {
358 stable= false;
359 break;
360 }
361 //cout << "is_stable end while loop: this->_pT=" << this->_pT << " this->_y=" << this->_y << " this->_phi=" << this->_phi << endl;
362 } while(RD2(this->_y,this->_phi,Yst,PHIst) >= Rcut && trial <= max_iterations);
363 //std::cout << " trial stable " << trial << " " << stable << std::endl;
364 return stable;
365 }
366
367 private :
368
369 };
370};
371///////////////////////////////////////////////////////////////////////////////
372//template <class Item,class ItemAddress,class IChunk>
373//void ILConeAlgorithm <Item,ItemAddress,IChunk>::
374template <class Item>
375void ILConeAlgorithm <Item>::
376//makeClusters(const EnergyClusterReco* r,
377makeClusters(
378 std::list<Item> &jets,
379 std::list<const Item*>& ilist,
380 //float Zvertex,
381 ////std::list<const Item*>& ilist)
382 //const EnergyClusterCollection<ItemAddress>& preclu,
383 //IChunk* chunkptr, ConeJetInfoChunk* infochunkptr,
384 const float Item_ET_Threshold)
385{
386 // remove items below threshold
387 for ( typename std::list<const Item*>::iterator it = ilist.begin();
388
389 it != ilist.end(); )
390 {
391 if ( (*it)->pT() < Item_ET_Threshold )
392 {
393 it = ilist.erase(it);
394 }
395 else ++it;
396 }
397
398 // create an energy cluster collection for jets
399 //EnergyClusterCollection<ItemAddress>* ptrcol;
400 //Item* ptrcol;
401 //r->createClusterCollection(chunkptr,ptrcol);
402 ////std::vector<const EnergyCluster<ItemAddress>*> ecv;
403 std::vector<const Item*> ecv;
404 for ( typename std::list<const Item*>::iterator it = ilist.begin();
405 it != ilist.end(); it++) {
406 ecv.push_back(*it);
407 }
408
409
410 //preclu.getClusters(ecv);
411 //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% need to fill here vector ecv
412
413 //std::cout << " number of seed clusters: " << ecv.size() << std::endl;
414
415 // skip precluster close to jets
416 float far_def = _FAR_RATIO*_CONE_RADIUS * _FAR_RATIO*_CONE_RADIUS;
417
418 // skip if jet Et is below some value
419 float ratio= _MIN_JET_ET*_ET_MIN_RATIO;
420
421
422#ifdef ILCA_USE_ORDERED_LIST
423 // sort the list in rapidity order
424 ilist.sort(rapidity_order<Item>());
425#else
426#ifdef ILCA_USE_MMAP
427 // create a y ordered list of items
428 std::multimap<float,const Item*> items;
429 std::list<const Item*>::const_iterator it;
430 for(it = ilist.begin(); it != ilist.end(); ++it)
431 {
432 pair<float,const Item*> p((*it)->y(),*it);
433 items.insert(p);
434 }
435#endif
436#endif
437
438 std::vector<ProtoJet<Item> > mcoll;
439 std::vector<TemporaryJet> scoll;
440
441
442 // find stable jets around seeds
443 //typename std::vector<const EnergyCluster<ItemAddress>* >::iterator jclu;
444 typename std::vector<const Item*>::iterator jclu;
445 for(jclu = ecv.begin(); jclu != ecv.end(); ++jclu)
446 {
447 //const EnergyCluster<ItemAddress>* ptr= *jclu;
448 const Item* ptr= *jclu;
449 float p[4];
450 ptr->p4vec(p);
451 float Yst = P2y(p);
452 float PHIst= P2phi(p);
453
454 // don't keep preclusters close to jet
455 bool is_far= true;
456 // ?? if(_Kill_Far_Clusters) {
457 for(unsigned int i = 0; i < scoll.size(); ++i)
458 {
459 float y = scoll[i].y();
460 float phi= scoll[i].phi();
461 if(RD2(Yst,PHIst,y,phi) < far_def)
462 {
463 is_far= false;
464 break;
465 }
466 }
467 // ?? }
468
469 if(is_far)
470 {
471 TemporaryJet jet(ptr->pT(),Yst,PHIst);
472 //cout << "temporary jet: pt=" << ptr->pT() << " y=" << Yst << " phi=" << PHIst << endl;
473
474 // Search cones are smaller, so contain less jet Et
475 // Don't throw out too many little jets during search phase!
476 // Strategy: check Et first with full cone, then search with low-GeV min_et thresh
477#ifdef ILCA_USE_MMAP
478 if(jet.is_stable(items,_CONE_RADIUS,ratio,0) && jet.is_stable(items,_SEARCH_CONE,3.0))
479#else
480 if(jet.is_stable(ilist,_CONE_RADIUS,ratio,0) && jet.is_stable(ilist,_SEARCH_CONE,3.0))
481#endif
482 {
483
484 //cout << "temporary jet is stable" << endl;
485
486// jpk Resize the found jets
487#ifdef ILCA_USE_MMAP
488 jet.is_stable(items,_CONE_RADIUS,ratio,0) ;
489#else
490 jet.is_stable(ilist,_CONE_RADIUS,ratio,0) ;
491#endif
492 //cout << "found jet has been resized if any" << endl;
493
494 if ( _KILL_DUPLICATE )
495 {
496 // check if we are not finding the same jet again
497 float distmax = 999.; int imax = -1;
498 for(unsigned int i = 0; i < scoll.size(); ++i)
499 {
500 float dist = jet.dist(scoll[i]);
501 if ( dist < distmax )
502 {
503 distmax = dist;
504 imax = i;
505 }
506 }
507 if ( distmax > _DUPLICATE_DR ||
508 fabs((jet.pT()-scoll[imax].pT())/scoll[imax].pT())>_DUPLICATE_DPT )
509 {
510 scoll.push_back(jet);
511 mcoll.push_back(jet);
512 //std::cout << " stable cone " << jet.y() << " " << jet.phi() << " " << jet.pT() << std::endl;
513 }
514 /*
515 else
516 {
517 std::cout << " jet too close to a found jet " << distmax << " " <<
518 fabs((jet.pT()-scoll[imax].pT())/scoll[imax].pT()) << std::endl;
519 }
520 */
521 }
522 else
523 {
524 scoll.push_back(jet);
525 mcoll.push_back(jet);
526 //std::cout << " stable cone " << jet.y() << " " << jet.phi() << " " << jet.pT() << std::endl;
527 }
528
529 }
530 }
531 }
532
533 // find stable jets around midpoints
534 for(unsigned int i = 0; i < scoll.size(); ++i)
535 {
536 for(unsigned int k = i+1; k < scoll.size(); ++k)
537 {
538 float djet= scoll[i].dist(scoll[k]);
539 if(djet > _CONE_RADIUS && djet < 2.*_CONE_RADIUS)
540 {
541 float y_mid,phi_mid;
542 scoll[i].midpoint(scoll[k],y_mid,phi_mid);
543 TemporaryJet jet(-999999.,y_mid,phi_mid);
544 //std::cout << " midpoint: " << scoll[i].pT() << " " << scoll[i].info().seedET() << " " << scoll[k].pT() << " " << scoll[k].info().seedET() << " " << y_mid << " " << phi_mid << std::endl;
545
546// midpoint jets are full size
547#ifdef ILCA_USE_MMAP
548 if(jet.is_stable(items,_CONE_RADIUS,ratio))
549#else
550 if(jet.is_stable(ilist,_CONE_RADIUS,ratio))
551#endif
552 {
553 mcoll.push_back(jet);
554 //std::cout << " stable midpoint cone " << jet.y() << " " << jet.phi() << " " << jet.pT() << std::endl;
555 }
556 }
557 }
558 }
559
560
561 // do a pT ordered splitting/merging
562 ConeSplitMerge<Item> pjets(mcoll);
563 ilcv.clear();
564 pjets.split_merge(ilcv,_SPLIT_RATIO, _PT_MIN_LEADING_PROTOJET, _PT_MIN_SECOND_PROTOJET, _MERGE_MAX, _PT_MIN_noMERGE_MAX);
565
566
567 for(unsigned int i = 0; i < ilcv.size(); ++i)
568 {
569 if ( ilcv[i].pT() > _MIN_JET_ET )
570 {
571 //EnergyCluster<ItemAddress>* ptrclu;
572 Item ptrclu;
573 //r->createCluster(ptrcol,ptrclu);
574
575 std::list<const Item*> tlist=ilcv[i].LItems();
576 typename std::list<const Item*>::iterator tk;
577 for(tk = tlist.begin(); tk != tlist.end(); ++tk)
578 {
579 //ItemAddress addr= (*tk)->address();
580 float pk[4];
581 (*tk)->p4vec(pk);
582 //std::cout << (*tk)->index <<" " << (*tk) << std::endl;
583 //float emE= (*tk)->emE();
584 //r->addClusterItem(ptrclu,addr,pk,emE);
585 //ptrclu->Add(*tk);
586 ptrclu.Add(**tk);
587 }
588 // print out
589 //ptrclu->print(cout);
590
591 //infochunkptr->addInfo(ilcv[i].info());
592 jets.push_back(ptrclu);
593 }
594 }
595}
596
597} // namespace d0
598
599FASTJET_END_NAMESPACE
600
601#endif
602
603
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