forked from reanahub/reana-demo-alice-lego-train-test-run
-
Notifications
You must be signed in to change notification settings - Fork 0
/
globalvariables.C
584 lines (464 loc) · 27.1 KB
/
globalvariables.C
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
{
TString passNumber = "0";
TString PIDresponseSetting = "";
TString periodName = "LHC11h";
TString periodNameV0Reader = "";
TString periodNameAnchor = "";
passNumber = "2";
PIDresponseSetting = "TPC:$ALICE_PHYSICS/OADB/COMMON/PID/data/TPCPIDResponse_special.root; TPC-Maps:$ALICE_PHYSICS/OADB/COMMON/PID/data/TPCetaMaps_special.root";
periodName = "LHC11h";
periodNameV0Reader ="LHC11h";
periodNameAnchor ="LHC11h";
/*************************************/
/* Some definitions */
/*************************************/
// Dec 11, 2015 - this parameter undefined from AddTaskEmcalClusterMaker
// DO NOT UNCOMMENT: this parameter should be defined in the global variables of each period!!!
//const UInt_t kNonLinFunct = AliEMCALRecoUtils::kBeamTestCorrected;
// Necessary in new jet framework
// DO NOT UNCOMMENT: this parameter should be defined in the global variables of each period!!!
//AliTrackContainer::SetDefTrackCutsPeriod("lhc11h"); // for correct hybrid track selection/track tagging
/*************************************/
/*************************************/
/* Trigger & Centralities */
/*************************************/
Int_t nCentBins = 4;
Double_t minCent = 0;
Double_t maxCent = 100;
UInt_t kComPhysSel = AliVEvent::kAny;
//UInt_t kComPhysSel = AliVEvent::kAnyINT | AliVEvent::kEMCEGA | AliVEvent::kCentral | AliVEvent::kSemiCentral;
//UInt_t kComPhysSel = AliVEvent::kINT7 + AliVEvent::kEMCEGA + AliVEvent::kEMCEJE + AliVEvent::kEMC7;
UInt_t kPhysSel = 1<<31; //AliEmcalPhysicsSelection::kEmcalOk
//UInt_t kPhysSel = AliVEvent::kAnyINT + AliVEvent::kSemiCentral + AliVEvent::kCentral;
//UInt_t kPhysSel = AliVEvent::kAny;
//UInt_t kPhysSel = AliVEvent::kMB;
//UInt_t kPhysSel = AliVEvent::kEMCEGA;
//UInt_t kPhysSelCentral = AliVEvent::kCentral;
//UInt_t kComPhysSel = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral + AliVEvent::kEMCEGA + AliVEvent::kEMCEJE;
//UInt_t kComPhysSel = AliVEvent::kAny;
//UInt_t kComPhysSel = AliVEvent::kEMCEGA;
//UInt_t kComPhysSel = AliVEvent::kEMCEJE;
//UInt_t kComPhysSel = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral;
//UInt_t kComPhysSel = AliVEvent::kMB + AliVEvent::kCentral;
//UInt_t kComPhysSel = AliVEvent::kEMCEJE;
//UInt_t kComPhysSel = AliVEvent::kMB;
// Some trigger definitions for Joel
UInt_t kPhysSelJetHadEMCEJE = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral + AliVEvent::kEMCEJE;
UInt_t kPhysSelJetHadEMCEJGA = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral + AliVEvent::kEMCEJE + AliVEvent::kEMCEGA;
UInt_t kPhysSelJetHadEMCEGA = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral + AliVEvent::kEMCEGA;
UInt_t kPhysSelJetHadMB = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral;
/*************************************/
// Some definitions for Ruediger
// ### Settings
Double_t kRHMinLeadingHadronPt = 0.15;
Double_t kRHMaxLeadingHadronPt = 100.;
Double_t kRHTrackPtCut = 0.15;//0.15; // constituent cut for the jet finder
Int_t kRHNumberEmbeddedJets = 2;
Bool_t kRHUseFakefactorRejection = kFALSE;
Bool_t kRHDoRandomize = kFALSE;
Bool_t kRHExportEventPool = kFALSE;
Bool_t kRHImportEventPool = kFALSE;
// Dijet trigger
Bool_t kRHUseDijetTrigger = kFALSE;
Int_t kRHDijetTriggerMode = 1; // 1: leading, 2: subleading, 3: all
Double_t kRHDijetTriggerLeadingPt = 20.;
Double_t kRHDijetTriggerSubleadingPt = 20.;
const char* kRHRhoName = "RhoR020KT";//RhoR020KT
TString kRHCustomBinning = "";
kRHCustomBinning = "p_t_assoc: 0.15, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 4.0, 6.0, 10.0, 20.0, 60.0\n
delta_phi: -1.5708, -1.45664, -1.34248, -1.22832, -1.11416, -1, -0.9, -0.8, -0.7, -0.6, -0.55, -0.5, -0.45, -0.4, -0.35, -0.3, -0.275, -0.25, -0.225, -0.2, -0.175, -0.15, -0.125, -0.1, -0.075, -0.05, -0.025, 0, 0.025, 0.05, 0.075, 0.1, 0.125, 0.15, 0.175, 0.2, 0.225, 0.25, 0.275, 0.3, 0.35, 0.4, 0.45, 0.5, 0.55, 0.6, 0.7, 0.8, 0.9, 1, 1.11416, 1.22832, 1.34248, 1.45664, 1.5708, 1.68496, 1.79911, 1.91327, 2.02743, 2.14159, 2.19159, 2.24159, 2.29159, 2.34159, 2.39159, 2.44159, 2.49159, 2.54159, 2.59159, 2.64159, 2.69159, 2.74159, 2.79159, 2.84159, 2.89159, 2.94159, 2.99159, 3.04159, 3.09159, 3.14159, 3.19159, 3.24159, 3.29159, 3.34159, 3.39159, 3.44159, 3.49159, 3.54159, 3.59159, 3.64159, 3.69159, 3.74159, 3.79159, 3.84159, 3.89159, 3.94159, 3.99159, 4.04159, 4.09159, 4.14159, 4.25575, 4.36991, 4.48407, 4.59823, 4.71239\n
delta_eta: -2.4, -2.0, -1.5, -1.4, -1.3, -1.2, -1.1, -1.0, -0.9, -0.8, -0.7, -0.6, -0.55, -0.5, -0.45, -0.4, -0.35, -0.3, -0.275, -0.25, -0.225, -0.2, -0.175, -0.15, -0.125, -0.1, -0.075, -0.05, -0.025, 0, 0.025, 0.05, 0.075, 0.1, 0.125, 0.15, 0.175, 0.2, 0.225, 0.25, 0.275, 0.3, 0.35, 0.4, 0.45, 0.5, 0.55, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 2.0, 2.4
p_t_leading: 15.0, 20.0, 30.0, 40.0, 60.0, 80.0, 100.0, 120.0 \np_t_leading_course: 15.0, 20.0, 30.0, 40.0, 60.0, 80.0, 100.0, 120.0 \n";
// ### Variables
UInt_t kPhysSelRH = AliVEvent::kMB + AliVEvent::kSemiCentral + AliVEvent::kCentral;
TString kTracksRH = "";
kTracksRH = "tracks";
TString kJetsAKTR040RH = Form("Jet_AKTChargedR040_%s_pT%04d_pt_scheme", kTracksRH.Data(), (Int_t)(kRHTrackPtCut*1000));
TString kJetsAKTR030RH = Form("Jet_AKTChargedR030_%s_pT%04d_pt_scheme", kTracksRH.Data(), (Int_t)(kRHTrackPtCut*1000));
TString kJetsAKTR020RH = Form("Jet_AKTChargedR020_%s_pT%04d_pt_scheme", kTracksRH.Data(), (Int_t)(kRHTrackPtCut*1000));
TString kJetsKTR020RH = Form("Jet_KTChargedR020_%s_pT%04d_pt_scheme", kTracksRH.Data(), (Int_t)(kRHTrackPtCut*1000));
TString kJetsKTR020RHEmbedded = Form("Jet_KTChargedR020_%s_pT%04d_pt_scheme", "tracks_generated_embedded", (Int_t)(kRHTrackPtCut*1000));
TString kJetsAKTR030RHEmbedded = Form("JetEmb_AKTChargedR030_%s_pT%04d_pt_scheme", "tracks_generated_embedded", (Int_t)(kRHTrackPtCut*1000));
TString kJetsAKTR030RHEmbeddedPbPb = Form("Jet_AKTChargedR030_%s_pT%04d_pt_scheme", "tracks", (Int_t)(kRHTrackPtCut*1000));
TString kJetsAKTR030RHPYTHIA = Form("JetPY_AKTChargedR030_%s_pT%04d_pt_scheme", "tracks_generated_PY", (Int_t)(kRHTrackPtCut*1000));
TString kTracksRHJetRemoval = Form("tracks_jetremoval");
TString kJetsAKTR030RHJetRemoval = Form("JetJR_AKTChargedR030_%s_pT%04d_pt_scheme", kTracksRHJetRemoval.Data(), (Int_t)(kRHTrackPtCut*1000));
/*************************************/
/*************************************/
/*************************************/
/* Analysis Cuts & Settings */
/*************************************/
Bool_t kDoAODTrackProp = kTRUE;
Bool_t kDoTender = kTRUE;
Double_t kClusPtCut = 0.30;
Double_t kTrackPtCut = 0.15;
Double_t kMinPtHadCorr = 0.15;
Bool_t kMakeEmcalTriggers = kFALSE;
const char* kEmcalTriggers = "";
if(kMakeEmcalTriggers) kEmcalTriggers = "EmcalTriggers";
Double_t kTrackEff = 1.0;
Double_t kPropDist = 440;
Double_t kHadCorr = 2.0;
Bool_t kDoEmbedding = kFALSE;
Bool_t kDoReclusterize = kTRUE;
if (kDoEmbedding) kDoReclusterize = kTRUE;
UInt_t kClusterizerType = AliEMCALRecParam::kClusterizerv2;
Double_t kEMCtimeMin = -50e-6;
Double_t kEMCtimeMax = 100e-6;
Double_t kEMCtimeCut = 75e-6;
Double_t kGhostArea = 0.005;
Double_t kKtJetRadius = 0.2;
Double_t kJetAreaCut = 0.;
Double_t kJetPtCut = 1;
Double_t kJetBiasTrack = 5;
Double_t kJetBiasClus = 1000;
Double_t kRhoMinEta = -0.5;
Double_t kRhoMaxEta = 0.5;
Double_t kRhoMinPhi = 30*TMath::DegToRad()+0.2;
Double_t kRhoMaxPhi = 230*TMath::DegToRad()-0.2;
Double_t kEmcalMinEta = -0.7;
Double_t kEmcalMaxEta = 0.7;
Double_t kEmcalMinPhi = 80*TMath::DegToRad();
Double_t kEmcalMaxPhi = 180*TMath::DegToRad();
Int_t kLeadHadType = 1; // 0 = charged, 1 = neutral, 2 = both
Int_t kHistoType = 1; // 1 = THnSparse, 0 = TH1/TH2/TH3
// Apply Level1 Phase Shift correction in LHC15o data
Bool_t kApplyL1PhaseShiftCorrection = kFALSE;
/*************************************/
/*************************************/
/* PYTHIA Embedding */
/*************************************/
Double_t kJetLeadingTrackBias = 0;
Int_t kNcent = 3;
Int_t kNjetResp = 1;
if (kJetLeadingTrackBias > 1)
kNjetResp = 2;
if (kJetLeadingTrackBias > 5)
kNjetResp = 3;
kNjetResp *= kNcent;
Bool_t kMakeTrigger = kFALSE;
if (1) {
UInt_t kPythiaR020Charged = 0;
UInt_t kPythiaR030Charged = 0;
UInt_t kPythiaR040Charged = 0;
UInt_t kPythiaR020Full = 0;
UInt_t kPythiaR030Full = 0;
}
// Code not compiling - please leave this commented out!
//else {
// UInt_t kPythiaR020Charged = kAKT|kR020Jet|kChargedJet;
// UInt_t kPythiaR030Charged = kAKT|kR030Jet|kChargedJet;
// UInt_t kPythiaR040Charged = kAKT|kR040Jet|kChargedJet;
//
// UInt_t kPythiaR020Full = kAKT|kR020Jet|kFullJet;
// UInt_t kPythiaR030Full = kAKT|kR030Jet|kFullJet;
//}
TString kPYTHIAPath = "alien:///alice/sim/2012/LHC12a15e_fix/%d/%d/AOD149/%04d/AliAOD.root";
Int_t nAODFiles = 140;
Int_t kNpTHardBins = 11;
Double_t kPtHardBinsScaling[11] = {0, 0, 3.27317e-05, 2.57606e-06, 2.5248e-07, 2.92483e-08, 4.15631e-09, 6.6079e-10, 1.49042e-10, 3.5571e-11, 1.29474e-11};
//Double_t kPtHardBinsScaling[11] = {0.000000E+00, 5.206101E-05, 5.859497E-06, 4.444755E-07, 4.344664E-08, 5.154750E-09, 6.956634E-10, 1.149828E-10, 2.520137E-11, 6.222240E-12, 2.255832E-12};
//kPtHardBinsScaling[6] = 1;
//kPtHardBinsScaling[1] = 0;
//kPtHardBinsScaling[2] = 0;
//Separate train for each pt hard bin
for(Int_t i =1; i<11; i++) kPtHardBinsScaling[i] = 0;
Int_t kPtHardBin = 7; // set here the bin
kPtHardBinsScaling[kPtHardBin] = 1;
// Uncomment the line below to have a flat distribution of pt hard bins
//for(Int_t i =1; i<11; i++) kPtHardBinsScaling[i] = 1;
Double_t kMinPythiaJetPt = 0;//20; //changed by Marta
/*************************************/
/* Containers' names */
/*************************************/
TString kTracksName = "tracks";
TString kClusName = "EmcCaloClusters";
TString kCorrClusName = "CaloClustersCorr";
TString kEmcalTracksName = "EmcalTracks_";
kEmcalTracksName += kTracksName;
TString kEmcalClusName = "EmcalClusters_";
kEmcalClusName += kClusName;
// TEST name schemes:
// added July13th for memory tests - KEEP
TString kTracksNameTEST = "AODFilterTracks"; // "PicoTracks";
TString kEmcalTracksNameTEST = "EmcalTracks_";
kEmcalTracksNameTEST += kTracksNameTEST;
TString kTpcRhoNameTEST = "TpcRho";
TString kTpcRhoNameExLJTEST = "TpcRho_ExLJ";
TString kTpcRhoNameExLJTEST1 = "TpcRho_ExLJ1"; // for 1+ GeV constituent jets
TString kTpcRhoNameExLJTEST2 = "TpcRho_ExLJ2"; // for 2+ GeV constituent jets
TString kTpcRhoNameExLJTEST3 = "TpcRho_ExLJ3"; // for 3+ GeV constituent jets
TString kTpcKtJetsNameTEST(Form("Jet_KTChargedR020_%s_pT0150_pt_scheme",kTracksNameTEST.Data()));
TString kTpcJetsR02NameTEST(Form("Jet_AKTChargedR020_%s_pT0150_pt_scheme",kTracksNameTEST.Data()));
TString kTpcRhoExLJScaledNameTEST = "TpcRho_ExLJ_Scaled";
// **** noticed on May4, 2016 - for below strings, there is no more "ET" is now "E" for scheme of jet name
TString kEmcalJets3GeVR02NameTEST(Form("Jet_AKTFullR020_%s_pT3000_%s_E3000_pt_scheme",kTracksNameTEST.Data(),kCorrClusName.Data()));
TString kEmcalJets3GeVR02NameTEST2(Form("Jet_AKTFullR020_%s_pT3000_%s_E3000_pt_scheme",kTracksNameTEST.Data(),kClusName.Data()));
TString kEmcalJets5GeVR02NameTEST2(Form("Jet_AKTFullR020_%s_pT5000_%s_E5000_pt_scheme",kTracksNameTEST.Data(),kClusName.Data()));
TString kEmcalJets3GeVR01NameTEST(Form("Jet_AKTFullR010_%s_pT3000_%s_E3000_pt_scheme",kTracksNameTEST.Data(),kCorrClusName.Data()));
// NEW name scheme for framework changes - Dec 12, 2015
TString kTracksNameNEW = "tracks";
TString kTpcKtJetsNameNEW(Form("Jet_KTChargedR020_%s_pT0150_pt_scheme",kTracksNameNEW.Data()));
TString kTpcKtJetsNameNEW1(Form("Jet_KTChargedR020_%s_pT1000_pt_scheme",kTracksNameNEW.Data()));
TString kTpcKtJetsNameNEW2(Form("Jet_KTChargedR020_%s_pT2000_pt_scheme",kTracksNameNEW.Data()));
TString kTpcKtJetsNameNEW3(Form("Jet_KTChargedR020_%s_pT3000_pt_scheme",kTracksNameNEW.Data()));
TString kTpcJetsR02NameNEW(Form("Jet_AKTChargedR020_%s_pT0150_pt_scheme",kTracksNameNEW.Data()));
TString kClusRandName = "CaloClustersCorrRandomized";
TString kClusEmbName = "CaloClustersCorrEmbedded";
TString kTrackRandName = "PicoTracksRandomized";
TString kTrackEmbName = "PicoTracksEmbedded";
TString kTrackEmcalEmbName = "PicoTracksEmcalEmbedded";
TString kTrackEmbSpectrumName = "PicoTracksEmbeddedSpectrum";
TString kTpcRhoName = "TpcRho";
TString kTpcRhoNameExLJ = "TpcRho_ExLJ";
TString kTpcRhoSmallName = "TpcRho_Small";
TString kEmcalRhoMeth2Name = "TpcRho_Small_Scaled";
TString kTpcRhoExLJScaledName = "TpcRho_ExLJ_Scaled";
TString kTpcKtJetsName(Form("Jet_KTChargedR020_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcKtJetsR04Name(Form("Jet_KTChargedR040_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR01Name(Form("Jet_AKTChargedR010_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR02Name(Form("Jet_AKTChargedR020_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR03Name(Form("Jet_AKTChargedR030_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR04Name(Form("Jet_AKTChargedR040_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcEmbJetsR02Name(Form("Jet_AKTChargedR020_%s_pT0150_pt_scheme",kTrackEmbName.Data()));
TString kTpcEmbJetsR03Name(Form("Jet_AKTChargedR030_%s_pT0150_pt_scheme",kTrackEmbName.Data()));
TString kTpcEmbJetsR04Name(Form("Jet_AKTChargedR040_%s_pT0150_pt_scheme",kTrackEmbName.Data()));
TString kEmcalKtJetsName(Form("Jet_KTFullR020_%s_pT0150_%s_ET0300_pt_scheme",kTracksName.Data(),kCorrClusName.Data()));
TString kEmcalJets01Name(Form("Jet_AKTFullR010_%s_pT0150_%s_ET0%d_pt_scheme",kTracksName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalJets015Name(Form("Jet_AKTFullR015_%s_pT0150_%s_ET0%d_pt_scheme",kTracksName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalJets02Name(Form("Jet_AKTFullR020_%s_pT0150_%s_ET0%d_pt_scheme",kTracksName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalJets025Name(Form("Jet_AKTFullR025_%s_pT0150_%s_ET0%d_pt_scheme",kTracksName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalJets03Name(Form("Jet_AKTFullR030_%s_pT0150_%s_ET0%d_pt_scheme",kTracksName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalJets04Name(Form("Jet_AKTFullR040_%s_pT0150_%s_ET0%d_pt_scheme",kTracksName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kNeutralRhoName = "NeutralRho";
TString kNeutralEMCalRhoName = "NeutralRhoEMCal";
TString kNeutralDCalRhoName = "NeutralRhoDCal";
TString kNeutralKtJets02Name(Form("Jet_KTFullR020_%s_ET0%d_pt_scheme","CaloClusters",TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kNeutralJets02Name(Form("Jet_AKTFullR020_%s_ET0%d_pt_scheme","CaloClusters",TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kNeutralJets04Name(Form("Jet_AKTFullR040_%s_ET0%d_pt_scheme","CaloClusters",TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmalJet02UncorrName = "Jet_AKTNeutralR020_EmcCaloClusters_ET0300_pt_scheme";
TString kEmcalEmbJets015Name(Form("Jet_AKTFullR015_%s_pT0150_%s_ET0%d_pt_scheme",kTrackEmcalEmbName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalEmbJets02Name(Form("Jet_AKTFullR020_%s_pT0150_%s_ET0%d_pt_scheme",kTrackEmcalEmbName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalEmbJets025Name(Form("Jet_AKTFullR025_%s_pT0150_%s_ET0%d_pt_scheme",kTrackEmcalEmbName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalEmbJets03Name(Form("Jet_AKTFullR030_%s_pT0150_%s_ET0%d_pt_scheme",kTrackEmcalEmbName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
TString kEmcalEmbJets04Name(Form("Jet_AKTFullR040_%s_pT0150_%s_ET0%d_pt_scheme",kTrackEmcalEmbName.Data(),kCorrClusName.Data(),TMath::FloorNint(kClusPtCut*1000+0.5)));
// 1GeV constituent cut
TString kTpcKtJets1GeVName(Form("Jet_KTChargedR020_%s_pT1000_pt_scheme",kTracksName.Data()));
TString kTpcRho1GeVNameExLJ = "TpcRho_1GeV_ExLJ";
TString kTpcRho1GeVSmallName = "TpcRho_1GeV_Small";
TString kEmcalRho1GeVMeth2Name = "TpcRho_1GeV_Small_Scaled";
TString kTpcJets1GeVR02Name(Form("Jet_AKTChargedR020_%s_pT1000_pt_scheme",kTracksName.Data()));
TString kTpcJets1GeVR03Name(Form("Jet_AKTChargedR030_%s_pT1000_pt_scheme",kTracksName.Data()));
TString kEmcalJets1GeVR02Name(Form("Jet_AKTFullR020_%s_pT1000_%s_ET1000_pt_scheme",kTracksName.Data(),kCorrClusName.Data()));
TString kEmcalJets1GeVR03Name(Form("Jet_AKTFullR030_%s_pT1000_%s_ET1000_pt_scheme",kTracksName.Data(),kCorrClusName.Data()));
// 3GeV constituent cut
TString kTpcJets3GeVR02Name(Form("Jet_AKTChargedR020_%s_pT3000_pt_scheme",kTracksName.Data()));
TString kTpcJets3GeVR03Name(Form("Jet_AKTChargedR030_%s_pT3000_pt_scheme",kTracksName.Data()));
TString kEmcalJets3GeVR02Name(Form("Jet_AKTFullR020_%s_pT3000_%s_ET3000_pt_scheme",kTracksName.Data(),kCorrClusName.Data()));
TString kEmcalJets3GeVR03Name(Form("Jet_AKTFullR030_%s_pT3000_%s_ET3000_pt_scheme",kTracksName.Data(),kCorrClusName.Data()));
// Toy model Single Particle embedding
TString kTpcEmbSpectrumJets02Name(Form("Jet_AKTChargedR020_%s_pT0150_pt_scheme",kTrackEmbSpectrumName.Data()));
TString kTpcEmbSpectrumJets03Name(Form("Jet_AKTChargedR030_%s_pT0150_pt_scheme",kTrackEmbSpectrumName.Data()));
TString kTpcEmbSpectrumJets04Name(Form("Jet_AKTChargedR040_%s_pT0150_pt_scheme",kTrackEmbSpectrumName.Data()));
//Jets with E recombination scheme (added by Marta)
TString kTpcKtJetsESchemeName(Form("Jet_KTChargedR020_%s_pT0150_E_scheme",kTracksNameNEW.Data()));
TString kTpcJetsR02ESchemeName(Form("Jet_AKTChargedR020_%s_pT0150_E_scheme",kTracksNameNEW.Data()));
TString kTpcJetsR04ESchemeName(Form("Jet_AKTChargedR040_%s_pT0150_E_scheme",kTracksNameNEW.Data()));
TString kNeutralKtJetsESchemeName(Form("Jet_KTNeutralR020_%s_ET0300_E_scheme",kCorrClusName.Data()));
//Jets with E recombination scheme (added by Davide&Leticia)
TString kTpcKtJetsESchemeName1GeV(Form("Jet_KTChargedR020_%s_pT1000_E_scheme",kTracksName.Data()));
TString kTpcKtJetsESchemeNameEmb(Form("Jet_KTChargedR020_%s_pT0150_E_scheme","PicoTracksEmb"));
TString kTpcAKtJetsESchemeNameEmb(Form("Jet_AKTChargedR040_%s_pT0150_E_scheme","PicoTracksEmb"));
TString kTpcAKtJetsMCESchemeNameEmb(Form("JetMCOnly_AKTChargedR040_%s_pT0150_E_scheme","PicoTracksEmb"));
Double_t kPtQG=0.15;
//Double_t kHolePos=0;
//Double_t kHoleWidth=0;
//Int_t kSemigoodRun=0;
//IROC13
Double_t kHolePos=4.71;
Double_t kHoleWidth=0.35;
//Int_t kSemigoodRun=1;
//OROC08
//Double_t kHolePos=2.97;
//Double_t kHoleWidth=0.7;
//Int_t kSemigoodRun=1;
/*************************************/
/*************************************/
/* Trigger Tasks */
/*************************************/
TString kTriggerClusName = "L1TriggerClusters";
TString kTriggerClusFastORName = "L1TriggerClustersFastOR";
TF1 *kTriggerThreshold = new TF1("eth","[0] + [1]*x + [2]*x*x",0,100);
//kTriggerThreshold->SetParameter(0,137.8);
//kTriggerThreshold->SetParameter(1,-1.28);
//kTriggerThreshold->SetParameter(0,79.9);
//kTriggerThreshold->SetParameter(1,-0.701);
kTriggerThreshold->SetParameter(0,5.);
kTriggerThreshold->SetParameter(1,0.0031);
kTriggerThreshold->SetParameter(2,0.);
Int_t kManual = 0, kEmcalJet = 1;
/*************************************/
// Containers' names
TString kMCTracksName = "MCSelectedParticles";
const char* kUsedMCParticles = "MCParticlesSelected";
TString kMCChargedJetsR02Name(Form("Jet_AKTChargedR020_%s_pT0000_pt_scheme",kMCTracksName.Data()));
TString kMCChargedJetsR03Name(Form("Jet_AKTChargedR030_%s_pT0000_pt_scheme",kMCTracksName.Data()));
TString kMCChargedJetsR04Name(Form("Jet_AKTChargedR040_%s_pT0000_pt_scheme",kMCTracksName.Data()));
TString kMCFullJetsR02Name(Form("Jet_AKTFullR020_%s_pT3000_pt_scheme",kMCTracksName.Data()));
TString kMCFullJetsR03Name(Form("Jet_AKTFullR030_%s_pT0000_pt_scheme",kMCTracksName.Data()));
//Exclude embedding
TString kOrigClusExcludeEmbName = "CaloClustersExcludeEmb";
TString kClusExcludeEmbName = "EmcCaloClustersExcludeEmb";
TString kCorrClusExcludeEmbName = "CaloClustersCorrExcludeEmb";
TString kEmcalClusExcludeEmbName = "EmcalClusters_";
kEmcalClusExcludeEmbName += kClusExcludeEmbName;
TString kEmcalTracksExcludeEmbName = "EmcalTracks_";
kEmcalTracksExcludeEmbName += "ExcludeEmb";
kEmcalTracksExcludeEmbName += kTracksName;
TString kTpcJetsR02ExcludeEmbName(Form("JetExcludeEmb_AKTChargedR020_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR03ExcludeEmbName(Form("JetExcludeEmb_AKTChargedR030_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR04ExcludeEmbName(Form("JetExcludeEmb_AKTChargedR040_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kEmcalJetsR02ExcludeEmbName(Form("JetExcludeEmb_AKTFullR020_%s_pT0150_%s_ET0300_pt_scheme",kTracksName.Data(),kCorrClusExcludeEmbName.Data()));
TString kEmcalJetsR03ExcludeEmbName(Form("JetExcludeEmb_AKTFullR030_%s_pT0150_%s_ET0300_pt_scheme",kTracksName.Data(),kCorrClusExcludeEmbName.Data()));
TString kTpcKtJetsExcludeEmbName(Form("JetExcludeEmb_KTChargedR020_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcRhoExLJExcludeEmbName = "TpcRho_ExLJ_ExcludeEmb";
TString kTpcRhoSmallExcludeEmbName = "TpcRho_Small_ExcludeEmb";
TString kEmcalRhoMeth2ExcludeEmbName = "TpcRho_Small_ExcludeEmb_Scaled";
//Embedding only
TString kOrigClusEmbOnlyName = "CaloClustersEmbOnly";
TString kClusEmbOnlyName = "EmcCaloClustersEmbOnly";
TString kCorrClusEmbOnlyName = "CaloClustersCorrEmbOnly";
TString kEmcalClusEmbOnlyName = "EmcalClusters_";
kEmcalClusEmbOnlyName += kClusEmbOnlyName;
TString kEmcalTracksEmbOnlyName = "EmcalTracks_";
kEmcalTracksEmbOnlyName += "EmbOnly";
kEmcalTracksEmbOnlyName += kTracksName;
TString kTpcJetsR02EmbOnlyName(Form("JetEmbOnly_AKTChargedR020_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR03EmbOnlyName(Form("JetEmbOnly_AKTChargedR030_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kTpcJetsR04EmbOnlyName(Form("JetEmbOnly_AKTChargedR040_%s_pT0150_pt_scheme",kTracksName.Data()));
TString kEmcalJetsR02EmbOnlyName(Form("JetEmbOnly_AKTFullR020_%s_pT0150_%s_ET0300_pt_scheme",kTracksName.Data(),kCorrClusEmbOnlyName.Data()));
TString kEmcalJetsR03EmbOnlyName(Form("JetEmbOnly_AKTFullR030_%s_pT0150_%s_ET0300_pt_scheme",kTracksName.Data(),kCorrClusEmbOnlyName.Data()));
//PbPb only
TString kTpcJetsR02PbPbOnlyName(Form("JetPbPbOnly_AKTChargedR020_%s_pT0150_pt_scheme",kTracksName.Data()));
// Other settings
UInt_t kMatching = 1; //1=geometrical, 2=MClabel, 3=same collections
Double_t kMaxDistance02a = 1;
Double_t kMaxDistance03a = 1;
Double_t kMaxDistance04a = 1;
Double_t kMaxDistance02b = 1;
Double_t kMaxDistance03b = 1;
Double_t kMaxDistance04b = 1;
Double_t kMaxGeoDistance02 = 1.2;
Double_t kMaxGeoDistance03 = 1.2;
Double_t kMaxGeoDistance04 = 1.2;
Double_t kPartLevPtCut = 3;
/*************************************/
/*************************************/
/* Redmer */
/*************************************/
AliAnalysisTaskSE* kRhoVnMod[10];
/*************************************/
/*************************************/
/* Darius */
/*************************************/
/*************************************/
/* Marta */
/*************************************/
TString kRhoMassName = "RhoMass";
Float_t kChJetPhiMin = -1;
Float_t kChJetPhiMax = -1;
Float_t kChJetPhiOffset = 0.;
TF1* srhomfunc = new TF1("srhomfunc","[0]*x*x+[1]*x+[2]",-1,100);
srhomfunc->SetParameter(2, 1.68354);
srhomfunc->SetParameter(1, -2.86991e-03);
srhomfunc->SetParameter(0, -1.49981e-05);
/*************************************/
/* Scale Factors */
/*************************************/
TF1* sfunc = new TF1("sfunc","[0]*x*x+[1]*x+[2]",-1,100);
//TF1* sfunc = NULL;
TF1* sfunc1GeV = new TF1("sfunc","[0]*x*x+[1]*x+[2]",-1,100);
if (kHadCorr > 1.9) { // had corr = 2
if (kClusterizerType==AliEMCALRecParam::kClusterizerv2) { // v2 clusterizer
// used for train n. 374
sfunc->SetParameter(2, 1.76458);
sfunc->SetParameter(1, -0.0111656);
sfunc->SetParameter(0, 0.000107296);
// fit from full train n. 374
//sfunc->SetParameter(2, 1.78067);
//sfunc->SetParameter(1, -0.0116032);
//sfunc->SetParameter(0, 0.000114951);
// fit from test train n. 457
sfunc1GeV->SetParameter(2, 1.63498);
sfunc1GeV->SetParameter(1, -0.0208189);
sfunc1GeV->SetParameter(0, 0.000303435);
} // end v2 clusterizer
else { // 3x3 clusterizer
// used for train n. 408 (fit test train n.408)
//sfunc->SetParameter(2, 1.85043);
//sfunc->SetParameter(1, -0.0116461);
//sfunc->SetParameter(0, 9.65308e-05);
// fit from full train n.408
sfunc->SetParameter(2, 1.8528);
sfunc->SetParameter(1, -0.0121015);
sfunc->SetParameter(0, 0.000109308);
} // end 3x3 clusterizer
} // end had corr = 2.0
else if (kHadCorr > 1.6) { // had corr = 1.7
// fit from test run of train n. 387
sfunc->SetParameter(2, 1.8171);
sfunc->SetParameter(1, -0.0150141);
sfunc->SetParameter(0, 0.000193964);
} // end had corr = 1.7
else if (kHadCorr > 1.2) { // had corr = 1.3
// fit from test run of train n. 389
sfunc->SetParameter(2, 1.90496);
sfunc->SetParameter(1, -0.016978);
sfunc->SetParameter(0, 0.000215038);
} // end had corr = 1.3
else { // had corr = 0
if (kClusterizerType==AliEMCALRecParam::kClusterizerv2) { // v2 clusterizer
// 300 MeV, had corr = 2
// fit from full train n. 401
sfunc->SetParameter(2, 2.0418);
sfunc->SetParameter(1, -0.0157904);
sfunc->SetParameter(0, 0.000148058);
} // end v2 clusterizer
else { // 3x3 clusterizer
// fit from full train n. 407
sfunc->SetParameter(2, 2.13631);
sfunc->SetParameter(1, -0.0165245);
sfunc->SetParameter(0, 0.000142767);
} // end 3x3 clusterizer
} // end had corr = 0
if (0) { // GA trigger
if (kHadCorr > 1.9) { // had corr = 2
// old
//sfunc->SetParameter(2,1.92213);
//sfunc->SetParameter(1,-0.0175260);
//sfunc->SetParameter(0,0.000152385);
sfunc->SetParameter(2, 1.81208);
sfunc->SetParameter(1, -0.0105506);
sfunc->SetParameter(0, 0.000145519);
} // end had corr = 2.0
} //end ga trigger
///////////////////////////////////////////////////////////////////////////////
// added 19 Jun 2017 (From AOD Analysis QA Train)
////////////////////////////////////////////////////////////////////////////Load correct variables from central production information///////
const char* kPeriod = gSystem->Getenv("ALIEN_JDL_LPMPRODUCTIONTAG");
const char* kTrackCuts = kPeriod; //same as kPeriod on default. Separate in order to change tender and track config separately.
const char* kColType = gSystem->Getenv("ALIEN_JDL_LPMINTERACTIONTYPE"); //either "pp", "pPb" or "PbPb"
const char* kProdType = "xxx"; //gSystem->Getenv("ALIEN_JDL_LPMPRODUCTIONTYPE");
Bool_t kMC = kFALSE;
if( !strcmp("MC",kProdType) ) kMC = kTRUE;
// Determine if it's Run2
TString tempPeriod(kPeriod);
TString tempYearStr(tempPeriod(3,2));
Int_t tempYear = tempYearStr.Atoi();
Bool_t kIsRun2 = tempYear > 14;
/*************************************/
//std::cout << "_____________________________________________________________________" << std::endl << "Printing all global variables" << //std::endl << "_____________________________________________________________________" << std::endl;
//gSystem->Exec("printenv");
//std::cout << "_____________________________________________________________________" << std::endl;
/*************************************/
}