1 // *************************************************************************
3 // * Task for Fragmentation Function Analysis in PWG4 Jet Task Force Train *
5 // *************************************************************************
8 /**************************************************************************
9 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
11 * Author: The ALICE Off-line Project. *
12 * Contributors are mentioned in the code where appropriate. *
14 * Permission to use, copy, modify and distribute this software and its *
15 * documentation strictly for non-commercial purposes is hereby granted *
16 * without fee, provided that the above copyright notice appears in all *
17 * copies and that both the copyright notice and this permission notice *
18 * appear in the supporting documentation. The authors make no claims *
19 * about the suitability of this software for any purpose. It is *
20 * provided "as is" without express or implied warranty. *
21 **************************************************************************/
30 #include "THnSparse.h"
37 #include "AliAODInputHandler.h"
38 #include "AliAODHandler.h"
39 #include "AliESDEvent.h"
40 #include "AliAODMCParticle.h"
41 #include "AliAODJet.h"
42 #include "AliAODJetEventBackground.h"
43 #include "AliGenPythiaEventHeader.h"
44 #include "AliGenHijingEventHeader.h"
45 #include "AliInputEventHandler.h"
47 #include "AliAnalysisHelperJetTasks.h"
48 #include "AliAnalysisManager.h"
49 #include "AliAnalysisTaskSE.h"
50 #include "AliVParticle.h"
51 #include "AliVEvent.h"
53 #include "AliAnalysisTaskFragmentationFunction.h"
58 ClassImp(AliAnalysisTaskFragmentationFunction)
60 //____________________________________________________________________________
61 AliAnalysisTaskFragmentationFunction::AliAnalysisTaskFragmentationFunction()
68 ,fBranchRecJets("jets")
69 ,fBranchRecBckgClusters("")
71 ,fBranchEmbeddedJets("")
75 ,fUseAODInputJets(kTRUE)
77 ,fUsePhysicsSelection(kTRUE)
81 ,fRejectPileup(kFALSE)
88 ,fUseExtraTracksBgr(0)
89 ,fCutFractionPtEmbedded(0)
90 ,fUseEmbeddedJetAxis(0)
111 ,fTracksAODMCCharged(0)
112 ,fTracksAODMCChargedSecNS(0)
113 ,fTracksAODMCChargedSecS(0)
114 ,fTracksRecQualityCuts(0)
123 ,fQATrackHistosRecCuts(0)
124 ,fQATrackHistosGen(0)
126 ,fQAJetHistosRecCuts(0)
127 ,fQAJetHistosRecCutsLeading(0)
129 ,fQAJetHistosGenLeading(0)
130 ,fQAJetHistosRecEffLeading(0)
132 ,fFFHistosRecCutsInc(0)
133 ,fFFHistosRecLeadingTrack(0)
136 ,fFFHistosGenLeadingTrack(0)
137 ,fQATrackHighPtThreshold(0)
170 ,fh1VertexNContributors(0)
182 ,fh1nRecBckgJetsCuts(0)
184 ,fh2PtRecVsGenPrim(0)
186 ,fQATrackHistosRecEffGen(0)
187 ,fQATrackHistosRecEffRec(0)
188 ,fQATrackHistosSecRecNS(0)
189 ,fQATrackHistosSecRecS(0)
190 ,fQATrackHistosSecRecSsc(0)
191 ,fFFHistosRecEffRec(0)
192 ,fFFHistosSecRecNS(0)
194 ,fFFHistosSecRecSsc(0)
201 ,fh1FractionPtEmbedded(0)
203 ,fh2DeltaPtVsJetPtEmbedded(0)
204 ,fh2DeltaPtVsRecJetPtEmbedded(0)
205 ,fh1DeltaREmbedded(0)
206 ,fQABckgHisto0RecCuts(0)
208 ,fQABckgHisto1RecCuts(0)
210 ,fQABckgHisto2RecCuts(0)
212 ,fQABckgHisto3RecCuts(0)
214 ,fQABckgHisto4RecCuts(0)
216 ,fFFBckgHisto0RecCuts(0)
218 ,fFFBckgHisto1RecCuts(0)
220 ,fFFBckgHisto2RecCuts(0)
222 ,fFFBckgHisto3RecCuts(0)
224 ,fFFBckgHisto4RecCuts(0)
226 ,fFFBckgHisto0RecEffRec(0)
227 ,fFFBckgHisto0SecRecNS(0)
228 ,fFFBckgHisto0SecRecS(0)
229 ,fFFBckgHisto0SecRecSsc(0)
231 ,fProNtracksLeadingJet(0)
233 ,fProNtracksLeadingJetGen(0)
234 ,fProDelR80pcPtGen(0)
235 ,fProNtracksLeadingJetBgrPerp2(0)
236 ,fProNtracksLeadingJetRecPrim(0)
237 ,fProDelR80pcPtRecPrim(0)
238 ,fProNtracksLeadingJetRecSecNS(0)
239 ,fProNtracksLeadingJetRecSecS(0)
240 ,fProNtracksLeadingJetRecSecSsc(0)
244 // default constructor
251 for(Int_t ii=0; ii<5; ii++){
252 fProDelRPtSum[ii] = 0;
253 fProDelRPtSumGen[ii] = 0;
254 fProDelRPtSumBgrPerp2[ii] = 0;
255 fProDelRPtSumRecPrim[ii] = 0;
256 fProDelRPtSumRecSecNS[ii] = 0;
257 fProDelRPtSumRecSecS[ii] = 0;
258 fProDelRPtSumRecSecSsc[ii] = 0;
262 //_______________________________________________________________________________________________
263 AliAnalysisTaskFragmentationFunction::AliAnalysisTaskFragmentationFunction(const char *name)
264 : AliAnalysisTaskSE(name)
270 ,fBranchRecJets("jets")
271 ,fBranchRecBckgClusters("")
273 ,fBranchEmbeddedJets("")
277 ,fUseAODInputJets(kTRUE)
279 ,fUsePhysicsSelection(kTRUE)
280 ,fEvtSelectionMask(0)
283 ,fRejectPileup(kFALSE)
290 ,fUseExtraTracksBgr(0)
291 ,fCutFractionPtEmbedded(0)
292 ,fUseEmbeddedJetAxis(0)
293 ,fUseEmbeddedJetPt(0)
313 ,fTracksAODMCCharged(0)
314 ,fTracksAODMCChargedSecNS(0)
315 ,fTracksAODMCChargedSecS(0)
316 ,fTracksRecQualityCuts(0)
325 ,fQATrackHistosRecCuts(0)
326 ,fQATrackHistosGen(0)
328 ,fQAJetHistosRecCuts(0)
329 ,fQAJetHistosRecCutsLeading(0)
331 ,fQAJetHistosGenLeading(0)
332 ,fQAJetHistosRecEffLeading(0)
334 ,fFFHistosRecCutsInc(0)
335 ,fFFHistosRecLeadingTrack(0)
338 ,fFFHistosGenLeadingTrack(0)
339 ,fQATrackHighPtThreshold(0)
372 ,fh1VertexNContributors(0)
384 ,fh1nRecBckgJetsCuts(0)
386 ,fh2PtRecVsGenPrim(0)
388 ,fQATrackHistosRecEffGen(0)
389 ,fQATrackHistosRecEffRec(0)
390 ,fQATrackHistosSecRecNS(0)
391 ,fQATrackHistosSecRecS(0)
392 ,fQATrackHistosSecRecSsc(0)
393 ,fFFHistosRecEffRec(0)
394 ,fFFHistosSecRecNS(0)
396 ,fFFHistosSecRecSsc(0)
403 ,fh1FractionPtEmbedded(0)
405 ,fh2DeltaPtVsJetPtEmbedded(0)
406 ,fh2DeltaPtVsRecJetPtEmbedded(0)
407 ,fh1DeltaREmbedded(0)
408 ,fQABckgHisto0RecCuts(0)
410 ,fQABckgHisto1RecCuts(0)
412 ,fQABckgHisto2RecCuts(0)
414 ,fQABckgHisto3RecCuts(0)
416 ,fQABckgHisto4RecCuts(0)
418 ,fFFBckgHisto0RecCuts(0)
420 ,fFFBckgHisto1RecCuts(0)
422 ,fFFBckgHisto2RecCuts(0)
424 ,fFFBckgHisto3RecCuts(0)
426 ,fFFBckgHisto4RecCuts(0)
428 ,fFFBckgHisto0RecEffRec(0)
429 ,fFFBckgHisto0SecRecNS(0)
430 ,fFFBckgHisto0SecRecS(0)
431 ,fFFBckgHisto0SecRecSsc(0)
433 ,fProNtracksLeadingJet(0)
435 ,fProNtracksLeadingJetGen(0)
436 ,fProDelR80pcPtGen(0)
437 ,fProNtracksLeadingJetBgrPerp2(0)
438 ,fProNtracksLeadingJetRecPrim(0)
439 ,fProDelR80pcPtRecPrim(0)
440 ,fProNtracksLeadingJetRecSecNS(0)
441 ,fProNtracksLeadingJetRecSecS(0)
442 ,fProNtracksLeadingJetRecSecSsc(0)
452 for(Int_t ii=0; ii<5; ii++){
453 fProDelRPtSum[ii] = 0;
454 fProDelRPtSumGen[ii] = 0;
455 fProDelRPtSumBgrPerp2[ii] = 0;
456 fProDelRPtSumRecPrim[ii] = 0;
457 fProDelRPtSumRecSecNS[ii] = 0;
458 fProDelRPtSumRecSecS[ii] = 0;
459 fProDelRPtSumRecSecSsc[ii] = 0;
462 DefineOutput(1,TList::Class());
465 //__________________________________________________________________________________________________________________________
466 AliAnalysisTaskFragmentationFunction::AliAnalysisTaskFragmentationFunction(const AliAnalysisTaskFragmentationFunction ©)
467 : AliAnalysisTaskSE()
470 ,fAODJets(copy.fAODJets)
471 ,fAODExtension(copy.fAODExtension)
472 ,fNonStdFile(copy.fNonStdFile)
473 ,fBranchRecJets(copy.fBranchRecJets)
474 ,fBranchRecBckgClusters(copy.fBranchRecBckgClusters)
475 ,fBranchGenJets(copy.fBranchGenJets)
476 ,fBranchEmbeddedJets(copy.fBranchEmbeddedJets)
477 ,fTrackTypeGen(copy.fTrackTypeGen)
478 ,fJetTypeGen(copy.fJetTypeGen)
479 ,fJetTypeRecEff(copy.fJetTypeRecEff)
480 ,fUseAODInputJets(copy.fUseAODInputJets)
481 ,fFilterMask(copy.fFilterMask)
482 ,fUsePhysicsSelection(copy.fUsePhysicsSelection)
483 ,fEvtSelectionMask(copy.fEvtSelectionMask)
484 ,fEventClass(copy.fEventClass)
485 ,fMaxVertexZ(copy.fMaxVertexZ)
486 ,fRejectPileup(copy.fRejectPileup)
487 ,fTrackPtCut(copy.fTrackPtCut)
488 ,fTrackEtaMin(copy.fTrackEtaMin)
489 ,fTrackEtaMax(copy.fTrackEtaMax)
490 ,fTrackPhiMin(copy.fTrackPhiMin)
491 ,fTrackPhiMax(copy.fTrackPhiMax)
492 ,fUseExtraTracks(copy.fUseExtraTracks)
493 ,fUseExtraTracksBgr(copy.fUseExtraTracksBgr)
494 ,fCutFractionPtEmbedded(copy.fCutFractionPtEmbedded)
495 ,fUseEmbeddedJetAxis(copy.fUseEmbeddedJetAxis)
496 ,fUseEmbeddedJetPt(copy.fUseEmbeddedJetPt)
497 ,fJetPtCut(copy.fJetPtCut)
498 ,fJetEtaMin(copy.fJetEtaMin)
499 ,fJetEtaMax(copy.fJetEtaMax)
500 ,fJetPhiMin(copy.fJetPhiMin)
501 ,fJetPhiMax(copy.fJetPhiMax)
502 ,fJetMinArea(copy.fJetMinArea)
503 ,fFFRadius(copy.fFFRadius)
504 ,fFFMinLTrackPt(copy.fFFMinLTrackPt)
505 ,fFFMaxTrackPt(copy.fFFMaxTrackPt)
506 ,fFFMinnTracks(copy.fFFMinnTracks)
507 ,fFFBckgRadius(copy.fFFBckgRadius)
508 ,fBckgMode(copy.fBckgMode)
509 ,fQAMode(copy.fQAMode)
510 ,fFFMode(copy.fFFMode)
511 ,fEffMode(copy.fEffMode)
512 ,fJSMode(copy.fJSMode)
513 ,fAvgTrials(copy.fAvgTrials)
514 ,fTracksRecCuts(copy.fTracksRecCuts)
515 ,fTracksGen(copy.fTracksGen)
516 ,fTracksAODMCCharged(copy.fTracksAODMCCharged)
517 ,fTracksAODMCChargedSecNS(copy.fTracksAODMCChargedSecNS)
518 ,fTracksAODMCChargedSecS(copy.fTracksAODMCChargedSecS)
519 ,fTracksRecQualityCuts(copy.fTracksRecQualityCuts)
520 ,fJetsRec(copy.fJetsRec)
521 ,fJetsRecCuts(copy.fJetsRecCuts)
522 ,fJetsGen(copy.fJetsGen)
523 ,fJetsRecEff(copy.fJetsRecEff)
524 ,fJetsEmbedded(copy.fJetsEmbedded)
525 ,fBckgJetsRec(copy.fBckgJetsRec)
526 ,fBckgJetsRecCuts(copy.fBckgJetsRecCuts)
527 ,fBckgJetsGen(copy.fBckgJetsGen)
528 ,fQATrackHistosRecCuts(copy.fQATrackHistosRecCuts)
529 ,fQATrackHistosGen(copy.fQATrackHistosGen)
530 ,fQAJetHistosRec(copy.fQAJetHistosRec)
531 ,fQAJetHistosRecCuts(copy.fQAJetHistosRecCuts)
532 ,fQAJetHistosRecCutsLeading(copy.fQAJetHistosRecCutsLeading)
533 ,fQAJetHistosGen(copy.fQAJetHistosGen)
534 ,fQAJetHistosGenLeading(copy.fQAJetHistosGenLeading)
535 ,fQAJetHistosRecEffLeading(copy.fQAJetHistosRecEffLeading)
536 ,fFFHistosRecCuts(copy.fFFHistosRecCuts)
537 ,fFFHistosRecCutsInc(copy.fFFHistosRecCutsInc)
538 ,fFFHistosRecLeadingTrack(copy.fFFHistosRecLeadingTrack)
539 ,fFFHistosGen(copy.fFFHistosGen)
540 ,fFFHistosGenInc(copy.fFFHistosGenInc)
541 ,fFFHistosGenLeadingTrack(copy.fFFHistosGenLeadingTrack)
542 ,fQATrackHighPtThreshold(copy.fQATrackHighPtThreshold)
543 ,fFFNBinsJetPt(copy.fFFNBinsJetPt)
544 ,fFFJetPtMin(copy.fFFJetPtMin)
545 ,fFFJetPtMax(copy.fFFJetPtMax)
546 ,fFFNBinsPt(copy.fFFNBinsPt)
547 ,fFFPtMin(copy.fFFPtMin)
548 ,fFFPtMax(copy.fFFPtMax)
549 ,fFFNBinsXi(copy.fFFNBinsXi)
550 ,fFFXiMin(copy.fFFXiMin)
551 ,fFFXiMax(copy.fFFXiMax)
552 ,fFFNBinsZ(copy.fFFNBinsZ)
553 ,fFFZMin(copy.fFFZMin)
554 ,fFFZMax(copy.fFFZMax)
555 ,fQAJetNBinsPt(copy.fQAJetNBinsPt)
556 ,fQAJetPtMin(copy.fQAJetPtMin)
557 ,fQAJetPtMax(copy.fQAJetPtMax)
558 ,fQAJetNBinsEta(copy.fQAJetNBinsEta)
559 ,fQAJetEtaMin(copy.fQAJetEtaMin)
560 ,fQAJetEtaMax(copy.fQAJetEtaMax)
561 ,fQAJetNBinsPhi(copy.fQAJetNBinsPhi)
562 ,fQAJetPhiMin(copy.fQAJetPhiMin)
563 ,fQAJetPhiMax(copy.fQAJetPhiMax)
564 ,fQATrackNBinsPt(copy.fQATrackNBinsPt)
565 ,fQATrackPtMin(copy.fQATrackPtMin)
566 ,fQATrackPtMax(copy.fQATrackPtMax)
567 ,fQATrackNBinsEta(copy.fQATrackNBinsEta)
568 ,fQATrackEtaMin(copy.fQATrackEtaMin)
569 ,fQATrackEtaMax(copy.fQATrackEtaMax)
570 ,fQATrackNBinsPhi(copy.fQATrackNBinsPhi)
571 ,fQATrackPhiMin(copy.fQATrackPhiMin)
572 ,fQATrackPhiMax(copy.fQATrackPhiMax)
573 ,fCommonHistList(copy.fCommonHistList)
574 ,fh1EvtSelection(copy.fh1EvtSelection)
575 ,fh1VertexNContributors(copy.fh1VertexNContributors)
576 ,fh1VertexZ(copy.fh1VertexZ)
577 ,fh1EvtMult(copy.fh1EvtMult)
578 ,fh1EvtCent(copy.fh1EvtCent)
579 ,fh1Xsec(copy.fh1Xsec)
580 ,fh1Trials(copy.fh1Trials)
581 ,fh1PtHard(copy.fh1PtHard)
582 ,fh1PtHardTrials(copy.fh1PtHardTrials)
583 ,fh1nRecJetsCuts(copy.fh1nRecJetsCuts)
584 ,fh1nGenJets(copy.fh1nGenJets)
585 ,fh1nRecEffJets(copy.fh1nRecEffJets)
586 ,fh1nEmbeddedJets(copy.fh1nEmbeddedJets)
587 ,fh1nRecBckgJetsCuts(copy.fh1nRecBckgJetsCuts)
588 ,fh1nGenBckgJets(copy.fh1nGenBckgJets)
589 ,fh2PtRecVsGenPrim(copy.fh2PtRecVsGenPrim)
590 ,fh2PtRecVsGenSec(copy.fh2PtRecVsGenSec)
591 ,fQATrackHistosRecEffGen(copy.fQATrackHistosRecEffGen)
592 ,fQATrackHistosRecEffRec(copy.fQATrackHistosRecEffRec)
593 ,fQATrackHistosSecRecNS(copy.fQATrackHistosSecRecNS)
594 ,fQATrackHistosSecRecS(copy.fQATrackHistosSecRecS)
595 ,fQATrackHistosSecRecSsc(copy.fQATrackHistosSecRecSsc)
596 ,fFFHistosRecEffRec(copy.fFFHistosRecEffRec)
597 ,fFFHistosSecRecNS(copy.fFFHistosSecRecNS)
598 ,fFFHistosSecRecS(copy.fFFHistosSecRecS)
599 ,fFFHistosSecRecSsc(copy.fFFHistosSecRecSsc)
601 ,fh1BckgMult0(copy.fh1BckgMult0)
602 ,fh1BckgMult1(copy.fh1BckgMult1)
603 ,fh1BckgMult2(copy.fh1BckgMult2)
604 ,fh1BckgMult3(copy.fh1BckgMult3)
605 ,fh1BckgMult4(copy.fh1BckgMult4)
606 ,fh1FractionPtEmbedded(copy.fh1FractionPtEmbedded)
607 ,fh1IndexEmbedded(copy.fh1IndexEmbedded)
608 ,fh2DeltaPtVsJetPtEmbedded(copy.fh2DeltaPtVsJetPtEmbedded)
609 ,fh2DeltaPtVsRecJetPtEmbedded(copy.fh2DeltaPtVsRecJetPtEmbedded)
610 ,fh1DeltaREmbedded(copy.fh1DeltaREmbedded)
611 ,fQABckgHisto0RecCuts(copy.fQABckgHisto0RecCuts)
612 ,fQABckgHisto0Gen(copy.fQABckgHisto0Gen)
613 ,fQABckgHisto1RecCuts(copy.fQABckgHisto1RecCuts)
614 ,fQABckgHisto1Gen(copy.fQABckgHisto1Gen)
615 ,fQABckgHisto2RecCuts(copy.fQABckgHisto2RecCuts)
616 ,fQABckgHisto2Gen(copy.fQABckgHisto2Gen)
617 ,fQABckgHisto3RecCuts(copy.fQABckgHisto3RecCuts)
618 ,fQABckgHisto3Gen(copy.fQABckgHisto3Gen)
619 ,fQABckgHisto4RecCuts(copy.fQABckgHisto4RecCuts)
620 ,fQABckgHisto4Gen(copy.fQABckgHisto4Gen)
621 ,fFFBckgHisto0RecCuts(copy.fFFBckgHisto0RecCuts)
622 ,fFFBckgHisto0Gen(copy.fFFBckgHisto0Gen)
623 ,fFFBckgHisto1RecCuts(copy.fFFBckgHisto1RecCuts)
624 ,fFFBckgHisto1Gen(copy.fFFBckgHisto1Gen)
625 ,fFFBckgHisto2RecCuts(copy.fFFBckgHisto2RecCuts)
626 ,fFFBckgHisto2Gen(copy.fFFBckgHisto2Gen)
627 ,fFFBckgHisto3RecCuts(copy.fFFBckgHisto3RecCuts)
628 ,fFFBckgHisto3Gen(copy.fFFBckgHisto3Gen)
629 ,fFFBckgHisto4RecCuts(copy.fFFBckgHisto4RecCuts)
630 ,fFFBckgHisto4Gen(copy.fFFBckgHisto4Gen)
631 ,fFFBckgHisto0RecEffRec(copy.fFFBckgHisto0RecEffRec)
632 ,fFFBckgHisto0SecRecNS(copy.fFFBckgHisto0SecRecNS)
633 ,fFFBckgHisto0SecRecS(copy.fFFBckgHisto0SecRecS)
634 ,fFFBckgHisto0SecRecSsc(copy.fFFBckgHisto0SecRecSsc)
636 ,fProNtracksLeadingJet(copy.fProNtracksLeadingJet)
637 ,fProDelR80pcPt(copy.fProDelR80pcPt)
638 ,fProNtracksLeadingJetGen(copy.fProNtracksLeadingJetGen)
639 ,fProDelR80pcPtGen(copy.fProDelR80pcPtGen)
640 ,fProNtracksLeadingJetBgrPerp2(copy.fProNtracksLeadingJetBgrPerp2)
641 ,fProNtracksLeadingJetRecPrim(copy.fProNtracksLeadingJetRecPrim)
642 ,fProDelR80pcPtRecPrim(copy.fProDelR80pcPtRecPrim)
643 ,fProNtracksLeadingJetRecSecNS(copy.fProNtracksLeadingJetRecSecNS)
644 ,fProNtracksLeadingJetRecSecS(copy.fProNtracksLeadingJetRecSecS)
645 ,fProNtracksLeadingJetRecSecSsc(copy.fProNtracksLeadingJetRecSecSsc)
646 ,fRandom(copy.fRandom)
649 fBckgType[0] = copy.fBckgType[0];
650 fBckgType[1] = copy.fBckgType[1];
651 fBckgType[2] = copy.fBckgType[2];
652 fBckgType[3] = copy.fBckgType[3];
653 fBckgType[4] = copy.fBckgType[4];
656 for(Int_t ii=0; ii<5; ii++){
657 fProDelRPtSum[ii] = copy.fProDelRPtSum[ii];
658 fProDelRPtSumGen[ii] = copy.fProDelRPtSumGen[ii];
659 fProDelRPtSumBgrPerp2[ii] = copy.fProDelRPtSumBgrPerp2[ii];
660 fProDelRPtSumRecPrim[ii] = copy.fProDelRPtSumRecPrim[ii];
661 fProDelRPtSumRecSecNS[ii] = copy.fProDelRPtSumRecSecNS[ii];
662 fProDelRPtSumRecSecS[ii] = copy.fProDelRPtSumRecSecS[ii];
663 fProDelRPtSumRecSecSsc[ii] = copy.fProDelRPtSumRecSecSsc[ii];
667 // _________________________________________________________________________________________________________________________________
668 AliAnalysisTaskFragmentationFunction& AliAnalysisTaskFragmentationFunction::operator=(const AliAnalysisTaskFragmentationFunction& o)
674 AliAnalysisTaskSE::operator=(o);
677 fAODJets = o.fAODJets;
678 fAODExtension = o.fAODExtension;
679 fNonStdFile = o.fNonStdFile;
680 fBranchRecJets = o.fBranchRecJets;
681 fBranchRecBckgClusters = o.fBranchRecBckgClusters;
682 fBranchGenJets = o.fBranchGenJets;
683 fBranchEmbeddedJets = o.fBranchEmbeddedJets;
684 fTrackTypeGen = o.fTrackTypeGen;
685 fJetTypeGen = o.fJetTypeGen;
686 fJetTypeRecEff = o.fJetTypeRecEff;
687 fUseAODInputJets = o.fUseAODInputJets;
688 fFilterMask = o.fFilterMask;
689 fUsePhysicsSelection = o.fUsePhysicsSelection;
690 fEvtSelectionMask = o.fEvtSelectionMask;
691 fEventClass = o.fEventClass;
692 fMaxVertexZ = o.fMaxVertexZ;
693 fRejectPileup = o.fRejectPileup;
694 fTrackPtCut = o.fTrackPtCut;
695 fTrackEtaMin = o.fTrackEtaMin;
696 fTrackEtaMax = o.fTrackEtaMax;
697 fTrackPhiMin = o.fTrackPhiMin;
698 fTrackPhiMax = o.fTrackPhiMax;
699 fUseExtraTracks = o.fUseExtraTracks;
700 fUseExtraTracksBgr = o.fUseExtraTracksBgr;
701 fCutFractionPtEmbedded = o.fCutFractionPtEmbedded;
702 fUseEmbeddedJetAxis = o.fUseEmbeddedJetAxis;
703 fUseEmbeddedJetPt = o.fUseEmbeddedJetPt;
704 fJetPtCut = o.fJetPtCut;
705 fJetEtaMin = o.fJetEtaMin;
706 fJetEtaMax = o.fJetEtaMax;
707 fJetPhiMin = o.fJetPhiMin;
708 fJetPhiMax = o.fJetPhiMin;
709 fJetMinArea = o.fJetMinArea;
710 fFFRadius = o.fFFRadius;
711 fFFMinLTrackPt = o.fFFMinLTrackPt;
712 fFFMaxTrackPt = o.fFFMaxTrackPt;
713 fFFMinnTracks = o.fFFMinnTracks;
714 fFFBckgRadius = o.fFFBckgRadius;
715 fBckgMode = o.fBckgMode;
718 fEffMode = o.fEffMode;
720 fBckgType[0] = o.fBckgType[0];
721 fBckgType[1] = o.fBckgType[1];
722 fBckgType[2] = o.fBckgType[2];
723 fBckgType[3] = o.fBckgType[3];
724 fBckgType[4] = o.fBckgType[4];
725 fAvgTrials = o.fAvgTrials;
726 fTracksRecCuts = o.fTracksRecCuts;
727 fTracksGen = o.fTracksGen;
728 fTracksAODMCCharged = o.fTracksAODMCCharged;
729 fTracksAODMCChargedSecNS = o.fTracksAODMCChargedSecNS;
730 fTracksAODMCChargedSecS = o.fTracksAODMCChargedSecS;
731 fTracksRecQualityCuts = o.fTracksRecQualityCuts;
732 fJetsRec = o.fJetsRec;
733 fJetsRecCuts = o.fJetsRecCuts;
734 fJetsGen = o.fJetsGen;
735 fJetsRecEff = o.fJetsRecEff;
736 fJetsEmbedded = o.fJetsEmbedded;
737 fBckgJetsRec = o.fBckgJetsRec;
738 fBckgJetsRecCuts = o.fBckgJetsRecCuts;
739 fBckgJetsGen = o.fBckgJetsGen;
740 fQATrackHistosRecCuts = o.fQATrackHistosRecCuts;
741 fQATrackHistosGen = o.fQATrackHistosGen;
742 fQAJetHistosRec = o.fQAJetHistosRec;
743 fQAJetHistosRecCuts = o.fQAJetHistosRecCuts;
744 fQAJetHistosRecCutsLeading = o.fQAJetHistosRecCutsLeading;
745 fQAJetHistosGen = o.fQAJetHistosGen;
746 fQAJetHistosGenLeading = o.fQAJetHistosGenLeading;
747 fQAJetHistosRecEffLeading = o.fQAJetHistosRecEffLeading;
748 fFFHistosRecCuts = o.fFFHistosRecCuts;
749 fFFHistosRecCutsInc = o.fFFHistosRecCutsInc;
750 fFFHistosRecLeadingTrack = o.fFFHistosRecLeadingTrack;
751 fFFHistosGen = o.fFFHistosGen;
752 fFFHistosGenInc = o.fFFHistosGenInc;
753 fFFHistosGenLeadingTrack = o.fFFHistosGenLeadingTrack;
754 fQATrackHighPtThreshold = o.fQATrackHighPtThreshold;
755 fFFNBinsJetPt = o.fFFNBinsJetPt;
756 fFFJetPtMin = o.fFFJetPtMin;
757 fFFJetPtMax = o.fFFJetPtMax;
758 fFFNBinsPt = o.fFFNBinsPt;
759 fFFPtMin = o.fFFPtMin;
760 fFFPtMax = o.fFFPtMax;
761 fFFNBinsXi = o.fFFNBinsXi;
762 fFFXiMin = o.fFFXiMin;
763 fFFXiMax = o.fFFXiMax;
764 fFFNBinsZ = o.fFFNBinsZ;
767 fQAJetNBinsPt = o.fQAJetNBinsPt;
768 fQAJetPtMin = o.fQAJetPtMin;
769 fQAJetPtMax = o.fQAJetPtMax;
770 fQAJetNBinsEta = o.fQAJetNBinsEta;
771 fQAJetEtaMin = o.fQAJetEtaMin;
772 fQAJetEtaMax = o.fQAJetEtaMax;
773 fQAJetNBinsPhi = o.fQAJetNBinsPhi;
774 fQAJetPhiMin = o.fQAJetPhiMin;
775 fQAJetPhiMax = o.fQAJetPhiMax;
776 fQATrackNBinsPt = o.fQATrackNBinsPt;
777 fQATrackPtMin = o.fQATrackPtMin;
778 fQATrackPtMax = o.fQATrackPtMax;
779 fQATrackNBinsEta = o.fQATrackNBinsEta;
780 fQATrackEtaMin = o.fQATrackEtaMin;
781 fQATrackEtaMax = o.fQATrackEtaMax;
782 fQATrackNBinsPhi = o.fQATrackNBinsPhi;
783 fQATrackPhiMin = o.fQATrackPhiMin;
784 fQATrackPhiMax = o.fQATrackPhiMax;
785 fCommonHistList = o.fCommonHistList;
786 fh1EvtSelection = o.fh1EvtSelection;
787 fh1VertexNContributors = o.fh1VertexNContributors;
788 fh1VertexZ = o.fh1VertexZ;
789 fh1EvtMult = o.fh1EvtMult;
790 fh1EvtCent = o.fh1EvtCent;
792 fh1Trials = o.fh1Trials;
793 fh1PtHard = o.fh1PtHard;
794 fh1PtHardTrials = o.fh1PtHardTrials;
795 fh1nRecJetsCuts = o.fh1nRecJetsCuts;
796 fh1nGenJets = o.fh1nGenJets;
797 fh1nRecEffJets = o.fh1nRecEffJets;
798 fh1nEmbeddedJets = o.fh1nEmbeddedJets;
799 fh2PtRecVsGenPrim = o.fh2PtRecVsGenPrim;
800 fh2PtRecVsGenSec = o.fh2PtRecVsGenSec;
801 fQATrackHistosRecEffGen = o.fQATrackHistosRecEffGen;
802 fQATrackHistosRecEffRec = o.fQATrackHistosRecEffRec;
803 fQATrackHistosSecRecNS = o.fQATrackHistosSecRecNS;
804 fQATrackHistosSecRecS = o.fQATrackHistosSecRecS;
805 fQATrackHistosSecRecSsc = o.fQATrackHistosSecRecSsc;
806 fFFHistosRecEffRec = o.fFFHistosRecEffRec;
807 fFFHistosSecRecNS = o.fFFHistosSecRecNS;
808 fFFHistosSecRecS = o.fFFHistosSecRecS;
809 fFFHistosSecRecSsc = o.fFFHistosSecRecSsc;
811 fh1BckgMult0 = o.fh1BckgMult0;
812 fh1BckgMult1 = o.fh1BckgMult1;
813 fh1BckgMult2 = o.fh1BckgMult2;
814 fh1BckgMult3 = o.fh1BckgMult3;
815 fh1BckgMult4 = o.fh1BckgMult4;
816 fh1FractionPtEmbedded = o.fh1FractionPtEmbedded;
817 fh1IndexEmbedded = o.fh1IndexEmbedded;
818 fh2DeltaPtVsJetPtEmbedded = o.fh2DeltaPtVsJetPtEmbedded;
819 fh2DeltaPtVsRecJetPtEmbedded = o.fh2DeltaPtVsRecJetPtEmbedded;
820 fh1DeltaREmbedded = o.fh1DeltaREmbedded;
821 fQABckgHisto0RecCuts = o.fQABckgHisto0RecCuts;
822 fQABckgHisto0Gen = o.fQABckgHisto0Gen;
823 fQABckgHisto1RecCuts = o.fQABckgHisto1RecCuts;
824 fQABckgHisto1Gen = o.fQABckgHisto1Gen;
825 fQABckgHisto2RecCuts = o.fQABckgHisto2RecCuts;
826 fQABckgHisto2Gen = o.fQABckgHisto2Gen;
827 fQABckgHisto3RecCuts = o.fQABckgHisto3RecCuts;
828 fQABckgHisto3Gen = o.fQABckgHisto3Gen;
829 fQABckgHisto4RecCuts = o.fQABckgHisto4RecCuts;
830 fQABckgHisto4Gen = o.fQABckgHisto4Gen;
831 fFFBckgHisto0RecCuts = o.fFFBckgHisto0RecCuts;
832 fFFBckgHisto0Gen = o.fFFBckgHisto0Gen;
833 fFFBckgHisto1RecCuts = o.fFFBckgHisto1RecCuts;
834 fFFBckgHisto1Gen = o.fFFBckgHisto1Gen;
835 fFFBckgHisto2RecCuts = o.fFFBckgHisto2RecCuts;
836 fFFBckgHisto2Gen = o.fFFBckgHisto2Gen;
837 fFFBckgHisto3RecCuts = o.fFFBckgHisto3RecCuts;
838 fFFBckgHisto3Gen = o.fFFBckgHisto3Gen;
839 fFFBckgHisto4RecCuts = o.fFFBckgHisto4RecCuts;
840 fFFBckgHisto4Gen = o.fFFBckgHisto4Gen;
841 fFFBckgHisto0RecEffRec = o.fFFBckgHisto0RecEffRec;
842 fFFBckgHisto0SecRecNS = o.fFFBckgHisto0SecRecNS;
843 fFFBckgHisto0SecRecS = o.fFFBckgHisto0SecRecS;
844 fFFBckgHisto0SecRecSsc = o.fFFBckgHisto0SecRecSsc;
845 fProNtracksLeadingJet = o.fProNtracksLeadingJet;
846 fProDelR80pcPt = o.fProDelR80pcPt;
847 fProNtracksLeadingJetGen = o.fProNtracksLeadingJetGen;
848 fProDelR80pcPtGen = o.fProDelR80pcPtGen;
849 fProNtracksLeadingJetBgrPerp2 = o.fProNtracksLeadingJetBgrPerp2;
850 fProNtracksLeadingJetRecPrim = o.fProNtracksLeadingJetRecPrim;
851 fProDelR80pcPtRecPrim = o.fProDelR80pcPtRecPrim;
852 fProNtracksLeadingJetRecSecNS = o.fProNtracksLeadingJetRecSecNS;
853 fProNtracksLeadingJetRecSecS = o.fProNtracksLeadingJetRecSecS;
854 fProNtracksLeadingJetRecSecSsc = o.fProNtracksLeadingJetRecSecSsc;
857 for(Int_t ii=0; ii<5; ii++){
858 fProDelRPtSum[ii] = o.fProDelRPtSum[ii];
859 fProDelRPtSumGen[ii] = o.fProDelRPtSumGen[ii];
860 fProDelRPtSumBgrPerp2[ii] = o.fProDelRPtSumBgrPerp2[ii];
861 fProDelRPtSumRecPrim[ii] = o.fProDelRPtSumRecPrim[ii];
862 fProDelRPtSumRecSecNS[ii] = o.fProDelRPtSumRecSecNS[ii];
863 fProDelRPtSumRecSecS[ii] = o.fProDelRPtSumRecSecS[ii];
864 fProDelRPtSumRecSecSsc[ii] = o.fProDelRPtSumRecSecSsc[ii];
871 //___________________________________________________________________________
872 AliAnalysisTaskFragmentationFunction::~AliAnalysisTaskFragmentationFunction()
876 if(fTracksRecCuts) delete fTracksRecCuts;
877 if(fTracksGen) delete fTracksGen;
878 if(fTracksAODMCCharged) delete fTracksAODMCCharged;
879 if(fTracksAODMCChargedSecNS) delete fTracksAODMCChargedSecNS;
880 if(fTracksAODMCChargedSecS) delete fTracksAODMCChargedSecS;
881 if(fTracksRecQualityCuts) delete fTracksRecQualityCuts;
882 if(fJetsRec) delete fJetsRec;
883 if(fJetsRecCuts) delete fJetsRecCuts;
884 if(fJetsGen) delete fJetsGen;
885 if(fJetsRecEff) delete fJetsRecEff;
886 if(fJetsEmbedded) delete fJetsEmbedded;
889 (fBckgType[0]==kBckgClusters || fBckgType[1]==kBckgClusters || fBckgType[2]==kBckgClusters || fBckgType[3]==kBckgClusters || fBckgType[4]==kBckgClusters ||
890 fBckgType[0]==kBckgClustersOutLeading || fBckgType[1]==kBckgClustersOutLeading || fBckgType[2]==kBckgClustersOutLeading ||
891 fBckgType[3]==kBckgClustersOutLeading || fBckgType[4]==kBckgClustersOutLeading)){
893 if(fBckgJetsRec) delete fBckgJetsRec;
894 if(fBckgJetsRecCuts) delete fBckgJetsRecCuts;
895 if(fBckgJetsGen) delete fBckgJetsGen;
897 if(fRandom) delete fRandom;
900 //______________________________________________________________________________________________________
901 AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::AliFragFuncHistos(const char* name,
902 Int_t nJetPt, Float_t jetPtMin, Float_t jetPtMax,
903 Int_t nPt, Float_t ptMin, Float_t ptMax,
904 Int_t nXi, Float_t xiMin, Float_t xiMax,
905 Int_t nZ , Float_t zMin , Float_t zMax)
925 // default constructor
929 //___________________________________________________________________________
930 AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::AliFragFuncHistos(const AliFragFuncHistos& copy)
932 ,fNBinsJetPt(copy.fNBinsJetPt)
933 ,fJetPtMin(copy.fJetPtMin)
934 ,fJetPtMax(copy.fJetPtMax)
935 ,fNBinsPt(copy.fNBinsPt)
938 ,fNBinsXi(copy.fNBinsXi)
941 ,fNBinsZ(copy.fNBinsZ)
944 ,fh2TrackPt(copy.fh2TrackPt)
947 ,fh1JetPt(copy.fh1JetPt)
948 ,fNameFF(copy.fNameFF)
953 //_______________________________________________________________________________________________________________________________________________________________
954 AliAnalysisTaskFragmentationFunction::AliFragFuncHistos& AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::operator=(const AliAnalysisTaskFragmentationFunction::AliFragFuncHistos& o)
959 TObject::operator=(o);
960 fNBinsJetPt = o.fNBinsJetPt;
961 fJetPtMin = o.fJetPtMin;
962 fJetPtMax = o.fJetPtMax;
963 fNBinsPt = o.fNBinsPt;
966 fNBinsXi = o.fNBinsXi;
972 fh2TrackPt = o.fh2TrackPt;
975 fh1JetPt = o.fh1JetPt;
982 //_________________________________________________________
983 AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::~AliFragFuncHistos()
987 if(fh1JetPt) delete fh1JetPt;
988 if(fh2TrackPt) delete fh2TrackPt;
989 if(fh2Xi) delete fh2Xi;
990 if(fh2Z) delete fh2Z;
993 //_________________________________________________________________
994 void AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::DefineHistos()
998 fh1JetPt = new TH1F(Form("fh1FFJetPt%s", fNameFF.Data()),"",fNBinsJetPt,fJetPtMin,fJetPtMax);
999 fh2TrackPt = new TH2F(Form("fh2FFTrackPt%s",fNameFF.Data()),"",fNBinsJetPt, fJetPtMin, fJetPtMax,fNBinsPt, fPtMin, fPtMax);
1000 fh2Z = new TH2F(Form("fh2FFZ%s",fNameFF.Data()),"",fNBinsJetPt, fJetPtMin, fJetPtMax, fNBinsZ, fZMin, fZMax);
1001 fh2Xi = new TH2F(Form("fh2FFXi%s",fNameFF.Data()),"",fNBinsJetPt, fJetPtMin, fJetPtMax, fNBinsXi, fXiMin, fXiMax);
1003 AliAnalysisTaskFragmentationFunction::SetProperties(fh1JetPt, "p_{T} [GeV/c]", "entries");
1004 AliAnalysisTaskFragmentationFunction::SetProperties(fh2TrackPt,"jet p_{T} [GeV/c]","p_{T} [GeV/c]","entries");
1005 AliAnalysisTaskFragmentationFunction::SetProperties(fh2Xi,"jet p_{T} [GeV/c]","#xi", "entries");
1006 AliAnalysisTaskFragmentationFunction::SetProperties(fh2Z,"jet p_{T} [GeV/c]","z","entries");
1009 //_______________________________________________________________________________________________________________
1010 void AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::FillFF(Float_t trackPt, Float_t jetPt, Bool_t incrementJetPt, Float_t norm,
1011 Bool_t scaleStrangeness, Float_t scaleFacStrangeness)
1015 if(incrementJetPt && norm) fh1JetPt->Fill(jetPt,1/norm);
1016 else if(incrementJetPt) fh1JetPt->Fill(jetPt);
1018 // Added for proper normalization of FF background estimation
1019 // when zero track are found in the background region
1020 if((int)trackPt==-1) return;
1022 if(norm)fh2TrackPt->Fill(jetPt,trackPt,1/norm);
1023 else if(scaleStrangeness) fh2TrackPt->Fill(jetPt,trackPt,scaleFacStrangeness);
1024 else fh2TrackPt->Fill(jetPt,trackPt);
1027 if(jetPt>0) z = trackPt / jetPt;
1029 if(z>0) xi = TMath::Log(1/z);
1031 if(trackPt>(1-1e-06)*jetPt && trackPt<(1+1e-06)*jetPt){ // case z=1 : move entry to last histo bin <1
1038 fh2Xi->Fill(jetPt,xi,1/norm);
1039 fh2Z->Fill(jetPt,z,1/norm);
1041 else if(scaleStrangeness){
1042 fh2Xi->Fill(jetPt,xi,scaleFacStrangeness);
1043 fh2Z->Fill(jetPt,z,scaleFacStrangeness);
1046 fh2Xi->Fill(jetPt,xi);
1047 fh2Z->Fill(jetPt,z);
1051 //_________________________________________________________________________________
1052 void AliAnalysisTaskFragmentationFunction::AliFragFuncHistos::AddToOutput(TList* list) const
1054 // add histos to list
1056 list->Add(fh1JetPt);
1058 list->Add(fh2TrackPt);
1063 //_________________________________________________________________________________________________________
1064 AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::AliFragFuncQAJetHistos(const char* name,
1065 Int_t nPt, Float_t ptMin, Float_t ptMax,
1066 Int_t nEta, Float_t etaMin, Float_t etaMax,
1067 Int_t nPhi, Float_t phiMin, Float_t phiMax)
1082 // default constructor
1085 //____________________________________________________________________________________
1086 AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::AliFragFuncQAJetHistos(const AliFragFuncQAJetHistos& copy)
1088 ,fNBinsPt(copy.fNBinsPt)
1089 ,fPtMin(copy.fPtMin)
1090 ,fPtMax(copy.fPtMax)
1091 ,fNBinsEta(copy.fNBinsEta)
1092 ,fEtaMin(copy.fEtaMin)
1093 ,fEtaMax(copy.fEtaMax)
1094 ,fNBinsPhi(copy.fNBinsPhi)
1095 ,fPhiMin(copy.fPhiMin)
1096 ,fPhiMax(copy.fPhiMax)
1097 ,fh2EtaPhi(copy.fh2EtaPhi)
1099 ,fNameQAJ(copy.fNameQAJ)
1104 //________________________________________________________________________________________________________________________________________________________________________
1105 AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos& AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::operator=(const AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos& o)
1110 TObject::operator=(o);
1111 fNBinsPt = o.fNBinsPt;
1114 fNBinsEta = o.fNBinsEta;
1115 fEtaMin = o.fEtaMin;
1116 fEtaMax = o.fEtaMax;
1117 fNBinsPhi = o.fNBinsPhi;
1118 fPhiMin = o.fPhiMin;
1119 fPhiMax = o.fPhiMax;
1120 fh2EtaPhi = o.fh2EtaPhi;
1122 fNameQAJ = o.fNameQAJ;
1128 //______________________________________________________________
1129 AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::~AliFragFuncQAJetHistos()
1133 if(fh2EtaPhi) delete fh2EtaPhi;
1134 if(fh1Pt) delete fh1Pt;
1137 //____________________________________________________________________
1138 void AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::DefineHistos()
1140 // book jet QA histos
1142 fh2EtaPhi = new TH2F(Form("fh2JetQAEtaPhi%s", fNameQAJ.Data()), Form("%s: #eta - #phi distribution", fNameQAJ.Data()), fNBinsEta, fEtaMin, fEtaMax, fNBinsPhi, fPhiMin, fPhiMax);
1143 fh1Pt = new TH1F(Form("fh1JetQAPt%s", fNameQAJ.Data()), Form("%s: p_{T} distribution", fNameQAJ.Data()), fNBinsPt, fPtMin, fPtMax);
1145 AliAnalysisTaskFragmentationFunction::SetProperties(fh2EtaPhi, "#eta", "#phi");
1146 AliAnalysisTaskFragmentationFunction::SetProperties(fh1Pt, "p_{T} [GeV/c]", "entries");
1149 //____________________________________________________________________________________________________
1150 void AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::FillJetQA(Float_t eta, Float_t phi, Float_t pt)
1152 // fill jet QA histos
1154 fh2EtaPhi->Fill( eta, phi);
1158 //____________________________________________________________________________________
1159 void AliAnalysisTaskFragmentationFunction::AliFragFuncQAJetHistos::AddToOutput(TList* list) const
1161 // add histos to list
1163 list->Add(fh2EtaPhi);
1167 //___________________________________________________________________________________________________________
1168 AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::AliFragFuncQATrackHistos(const char* name,
1169 Int_t nPt, Float_t ptMin, Float_t ptMax,
1170 Int_t nEta, Float_t etaMin, Float_t etaMax,
1171 Int_t nPhi, Float_t phiMin, Float_t phiMax,
1183 ,fHighPtThreshold(ptThresh)
1190 // default constructor
1193 //__________________________________________________________________________________________
1194 AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::AliFragFuncQATrackHistos(const AliFragFuncQATrackHistos& copy)
1196 ,fNBinsPt(copy.fNBinsPt)
1197 ,fPtMin(copy.fPtMin)
1198 ,fPtMax(copy.fPtMax)
1199 ,fNBinsEta(copy.fNBinsEta)
1200 ,fEtaMin(copy.fEtaMin)
1201 ,fEtaMax(copy.fEtaMax)
1202 ,fNBinsPhi(copy.fNBinsPhi)
1203 ,fPhiMin(copy.fPhiMin)
1204 ,fPhiMax(copy.fPhiMax)
1205 ,fHighPtThreshold(copy.fHighPtThreshold)
1206 ,fh2EtaPhi(copy.fh2EtaPhi)
1208 ,fh2HighPtEtaPhi(copy.fh2HighPtEtaPhi)
1209 ,fh2PhiPt(copy.fh2PhiPt)
1210 ,fNameQAT(copy.fNameQAT)
1215 // _____________________________________________________________________________________________________________________________________________________________________________
1216 AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos& AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::operator=(const AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos& o)
1221 TObject::operator=(o);
1222 fNBinsPt = o.fNBinsPt;
1225 fNBinsEta = o.fNBinsEta;
1226 fEtaMin = o.fEtaMin;
1227 fEtaMax = o.fEtaMax;
1228 fNBinsPhi = o.fNBinsPhi;
1229 fPhiMin = o.fPhiMin;
1230 fPhiMax = o.fPhiMax;
1231 fHighPtThreshold = o.fHighPtThreshold;
1232 fh2EtaPhi = o.fh2EtaPhi;
1234 fh2HighPtEtaPhi = o.fh2HighPtEtaPhi;
1235 fh2PhiPt = o.fh2PhiPt;
1236 fNameQAT = o.fNameQAT;
1242 //___________________________________________________________________
1243 AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::~AliFragFuncQATrackHistos()
1247 if(fh2EtaPhi) delete fh2EtaPhi;
1248 if(fh2HighPtEtaPhi) delete fh2HighPtEtaPhi;
1249 if(fh1Pt) delete fh1Pt;
1250 if(fh2PhiPt) delete fh2PhiPt;
1253 //______________________________________________________________________
1254 void AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::DefineHistos()
1256 // book track QA histos
1258 fh2EtaPhi = new TH2F(Form("fh2TrackQAEtaPhi%s", fNameQAT.Data()), Form("%s: #eta - #phi distribution", fNameQAT.Data()), fNBinsEta, fEtaMin, fEtaMax, fNBinsPhi, fPhiMin, fPhiMax);
1259 fh2HighPtEtaPhi = new TH2F(Form("fh2TrackQAHighPtEtaPhi%s", fNameQAT.Data()), Form("%s: #eta - #phi distribution for high-p_{T}", fNameQAT.Data()), fNBinsEta, fEtaMin, fEtaMax, fNBinsPhi, fPhiMin, fPhiMax);
1260 fh1Pt = new TH1F(Form("fh1TrackQAPt%s", fNameQAT.Data()), Form("%s: p_{T} distribution", fNameQAT.Data()), fNBinsPt, fPtMin, fPtMax);
1261 fh2PhiPt = new TH2F(Form("fh2TrackQAPhiPt%s", fNameQAT.Data()), Form("%s: #phi - p_{T} distribution", fNameQAT.Data()), fNBinsPhi, fPhiMin, fPhiMax, fNBinsPt, fPtMin, fPtMax);
1263 AliAnalysisTaskFragmentationFunction::SetProperties(fh2EtaPhi, "#eta", "#phi");
1264 AliAnalysisTaskFragmentationFunction::SetProperties(fh2HighPtEtaPhi, "#eta", "#phi");
1265 AliAnalysisTaskFragmentationFunction::SetProperties(fh1Pt, "p_{T} [GeV/c]", "entries");
1266 AliAnalysisTaskFragmentationFunction::SetProperties(fh2PhiPt, "#phi", "p_{T} [GeV/c]");
1269 //________________________________________________________________________________________________________
1270 void AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::FillTrackQA(Float_t eta, Float_t phi, Float_t pt, Bool_t weightPt, Float_t norm,
1271 Bool_t scaleStrangeness, Float_t scaleFacStrangeness)
1273 // fill track QA histos
1274 Float_t weight = 1.;
1275 if(weightPt) weight = pt;
1276 fh2EtaPhi->Fill( eta, phi, weight);
1277 if(scaleStrangeness) fh2EtaPhi->Fill( eta, phi, scaleFacStrangeness);
1278 if(pt > fHighPtThreshold) fh2HighPtEtaPhi->Fill( eta, phi, weight);
1279 if(pt > fHighPtThreshold && scaleStrangeness) fh2HighPtEtaPhi->Fill( eta, phi, weight);
1280 if(norm) fh1Pt->Fill( pt, 1/norm );
1281 else if(scaleStrangeness) fh1Pt->Fill(pt,scaleFacStrangeness);
1282 else fh1Pt->Fill( pt );
1284 if(scaleFacStrangeness) fh2PhiPt->Fill(phi, pt, scaleFacStrangeness);
1285 else fh2PhiPt->Fill(phi, pt);
1288 //______________________________________________________________________________________
1289 void AliAnalysisTaskFragmentationFunction::AliFragFuncQATrackHistos::AddToOutput(TList* list) const
1291 // add histos to list
1293 list->Add(fh2EtaPhi);
1294 list->Add(fh2HighPtEtaPhi);
1296 list->Add(fh2PhiPt);
1299 //_________________________________________________________________________________
1300 Bool_t AliAnalysisTaskFragmentationFunction::Notify()
1303 // Implemented Notify() to read the cross sections
1304 // and number of trials from pyxsec.root
1305 // (taken from AliAnalysisTaskJetSpectrum2)
1307 TTree *tree = AliAnalysisManager::GetAnalysisManager()->GetTree();
1308 Float_t xsection = 0;
1309 Float_t ftrials = 1;
1313 TFile *curfile = tree->GetCurrentFile();
1315 Error("Notify","No current file");
1318 if(!fh1Xsec||!fh1Trials){
1319 Printf("%s%d No Histogram fh1Xsec",(char*)__FILE__,__LINE__);
1322 AliAnalysisHelperJetTasks::PythiaInfoFromFile(curfile->GetName(),xsection,ftrials);
1323 fh1Xsec->Fill("<#sigma>",xsection);
1324 // construct a poor man average trials
1325 Float_t nEntries = (Float_t)tree->GetTree()->GetEntries();
1326 if(ftrials>=nEntries && nEntries>0.)fAvgTrials = ftrials/nEntries;
1329 // Set seed for backg study
1330 fRandom = new TRandom3();
1331 fRandom->SetSeed(0);
1336 //__________________________________________________________________
1337 void AliAnalysisTaskFragmentationFunction::UserCreateOutputObjects()
1339 // create output objects
1341 if(fDebug > 1) Printf("AliAnalysisTaskFragmentationFunction::UserCreateOutputObjects()");
1343 // create list of tracks and jets
1345 fTracksRecCuts = new TList();
1346 fTracksRecCuts->SetOwner(kFALSE);
1348 fTracksGen = new TList();
1349 fTracksGen->SetOwner(kFALSE);
1351 fTracksAODMCCharged = new TList();
1352 fTracksAODMCCharged->SetOwner(kFALSE);
1354 fTracksAODMCChargedSecNS = new TList();
1355 fTracksAODMCChargedSecNS->SetOwner(kFALSE);
1357 fTracksAODMCChargedSecS = new TList();
1358 fTracksAODMCChargedSecS->SetOwner(kFALSE);
1360 fTracksRecQualityCuts = new TList();
1361 fTracksRecQualityCuts->SetOwner(kFALSE);
1363 fJetsRec = new TList();
1364 fJetsRec->SetOwner(kFALSE);
1366 fJetsRecCuts = new TList();
1367 fJetsRecCuts->SetOwner(kFALSE);
1369 fJetsGen = new TList();
1370 fJetsGen->SetOwner(kFALSE);
1372 fJetsRecEff = new TList();
1373 fJetsRecEff->SetOwner(kFALSE);
1375 fJetsEmbedded = new TList();
1376 fJetsEmbedded->SetOwner(kFALSE);
1380 (fBckgType[0]==kBckgClusters || fBckgType[1]==kBckgClusters || fBckgType[2]==kBckgClusters || fBckgType[3]==kBckgClusters || fBckgType[4]==kBckgClusters ||
1381 fBckgType[0]==kBckgClustersOutLeading || fBckgType[1]==kBckgClustersOutLeading || fBckgType[2]==kBckgClustersOutLeading ||
1382 fBckgType[3]==kBckgClustersOutLeading || fBckgType[4]==kBckgClustersOutLeading)){
1384 fBckgJetsRec = new TList();
1385 fBckgJetsRec->SetOwner(kFALSE);
1387 fBckgJetsRecCuts = new TList();
1388 fBckgJetsRecCuts->SetOwner(kFALSE);
1390 fBckgJetsGen = new TList();
1391 fBckgJetsGen->SetOwner(kFALSE);
1395 // Create histograms / output container
1399 fCommonHistList = new TList();
1400 fCommonHistList->SetOwner(kTRUE);
1402 Bool_t oldStatus = TH1::AddDirectoryStatus();
1403 TH1::AddDirectory(kFALSE);
1407 fh1EvtSelection = new TH1F("fh1EvtSelection", "Event Selection", 7, -0.5, 6.5);
1408 fh1EvtSelection->GetXaxis()->SetBinLabel(1,"ACCEPTED");
1409 fh1EvtSelection->GetXaxis()->SetBinLabel(2,"event selection: rejected");
1410 fh1EvtSelection->GetXaxis()->SetBinLabel(3,"event class: rejected");
1411 fh1EvtSelection->GetXaxis()->SetBinLabel(4,"vertex Ncontr: rejected");
1412 fh1EvtSelection->GetXaxis()->SetBinLabel(5,"vertex z: rejected");
1413 fh1EvtSelection->GetXaxis()->SetBinLabel(6,"vertex type: rejected");
1414 fh1EvtSelection->GetXaxis()->SetBinLabel(7,"pileup: rejected");
1416 fh1VertexNContributors = new TH1F("fh1VertexNContributors", "Vertex N contributors", 2500,-.5, 2499.5);
1417 fh1VertexZ = new TH1F("fh1VertexZ", "Vertex z distribution", 30, -15., 15.);
1418 fh1EvtMult = new TH1F("fh1EvtMult","Event multiplicity, track pT cut > 150 MeV/c, |#eta| < 0.9",120,0.,12000.);
1419 fh1EvtCent = new TH1F("fh1EvtCent","centrality",100,0.,100.);
1421 fh1Xsec = new TProfile("fh1Xsec","xsec from pyxsec.root",1,0,1);
1422 fh1Xsec->GetXaxis()->SetBinLabel(1,"<#sigma>");
1423 fh1Trials = new TH1F("fh1Trials","trials from pyxsec.root",1,0,1);
1424 fh1Trials->GetXaxis()->SetBinLabel(1,"#sum{ntrials}");
1425 fh1PtHard = new TH1F("fh1PtHard","PYTHIA Pt hard;p_{T,hard}",350,-.5,349.5);
1426 fh1PtHardTrials = new TH1F("fh1PtHardTrials","PYTHIA Pt hard weight with trials;p_{T,hard}",350,-.5,349.5);
1428 fh1nRecJetsCuts = new TH1F("fh1nRecJetsCuts","reconstructed jets per event",10,-0.5,9.5);
1429 fh1nGenJets = new TH1F("fh1nGenJets","generated jets per event",10,-0.5,9.5);
1430 fh1nRecEffJets = new TH1F("fh1nRecEffJets","reconstruction effiency: jets per event",10,-0.5,9.5);
1431 fh1nEmbeddedJets = new TH1F("fh1nEmbeddedJets","embedded jets per event",10,-0.5,9.5);
1433 fh2PtRecVsGenPrim = new TH2F("fh2PtRecVsGenPrim","rec vs gen pt",fQATrackNBinsPt,fQATrackPtMin,fQATrackPtMax,fQATrackNBinsPt,fQATrackPtMin,fQATrackPtMax);
1434 fh2PtRecVsGenSec = new TH2F("fh2PtRecVsGenSec","rec vs gen pt",fQATrackNBinsPt,fQATrackPtMin,fQATrackPtMax,fQATrackNBinsPt,fQATrackPtMin,fQATrackPtMax);
1437 if(fBranchEmbeddedJets.Length()){
1438 fh1FractionPtEmbedded = new TH1F("fh1FractionPtEmbedded","",200,0,2);
1439 fh1IndexEmbedded = new TH1F("fh1IndexEmbedded","",11,-1,10);
1440 fh2DeltaPtVsJetPtEmbedded = new TH2F("fh2DeltaPtVsJetPtEmbedded","",250,0,250,200,-100,100);
1441 fh2DeltaPtVsRecJetPtEmbedded = new TH2F("fh2DeltaPtVsRecJetPtEmbedded","",250,0,250,200,-100,100);
1442 fh1DeltaREmbedded = new TH1F("fh1DeltaREmbedded","",50,0,0.5);
1443 fh1nEmbeddedJets = new TH1F("fh1nEmbeddedJets","embedded jets per event",10,-0.5,9.5);
1448 if(fQAMode&1){ // track QA
1449 fQATrackHistosRecCuts = new AliFragFuncQATrackHistos("RecCuts", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1450 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1451 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1452 fQATrackHighPtThreshold);
1453 fQATrackHistosGen = new AliFragFuncQATrackHistos("Gen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1454 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1455 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1456 fQATrackHighPtThreshold);
1459 if(fQAMode&2){ // jet QA
1460 fQAJetHistosRec = new AliFragFuncQAJetHistos("Rec", fQAJetNBinsPt, fQAJetPtMin, fQAJetPtMax,
1461 fQAJetNBinsEta, fQAJetEtaMin, fQAJetEtaMax,
1462 fQAJetNBinsPhi, fQAJetPhiMin, fQAJetPhiMax);
1463 fQAJetHistosRecCuts = new AliFragFuncQAJetHistos("RecCuts", fQAJetNBinsPt, fQAJetPtMin, fQAJetPtMax,
1464 fQAJetNBinsEta, fQAJetEtaMin, fQAJetEtaMax,
1465 fQAJetNBinsPhi, fQAJetPhiMin, fQAJetPhiMax);
1466 fQAJetHistosRecCutsLeading = new AliFragFuncQAJetHistos("RecCutsLeading", fQAJetNBinsPt, fQAJetPtMin, fQAJetPtMax,
1467 fQAJetNBinsEta, fQAJetEtaMin, fQAJetEtaMax,
1468 fQAJetNBinsPhi, fQAJetPhiMin, fQAJetPhiMax);
1469 fQAJetHistosGen = new AliFragFuncQAJetHistos("Gen", fQAJetNBinsPt, fQAJetPtMin, fQAJetPtMax,
1470 fQAJetNBinsEta, fQAJetEtaMin, fQAJetEtaMax,
1471 fQAJetNBinsPhi, fQAJetPhiMin, fQAJetPhiMax);
1472 fQAJetHistosGenLeading = new AliFragFuncQAJetHistos("GenLeading", fQAJetNBinsPt, fQAJetPtMin, fQAJetPtMax,
1473 fQAJetNBinsEta, fQAJetEtaMin, fQAJetEtaMax,
1474 fQAJetNBinsPhi, fQAJetPhiMin, fQAJetPhiMax);
1475 if(fEffMode) fQAJetHistosRecEffLeading = new AliFragFuncQAJetHistos("RecEffLeading", fQAJetNBinsPt, fQAJetPtMin, fQAJetPtMax,
1476 fQAJetNBinsEta, fQAJetEtaMin, fQAJetEtaMax,fQAJetNBinsPhi, fQAJetPhiMin, fQAJetPhiMax);
1482 fFFHistosRecCuts = new AliFragFuncHistos("RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1483 fFFNBinsPt, fFFPtMin, fFFPtMax,
1484 fFFNBinsXi, fFFXiMin, fFFXiMax,
1485 fFFNBinsZ , fFFZMin , fFFZMax );
1488 fFFHistosRecCutsInc = new AliFragFuncHistos("RecCutsInc", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1489 fFFNBinsPt, fFFPtMin, fFFPtMax,
1490 fFFNBinsXi, fFFXiMin, fFFXiMax,
1491 fFFNBinsZ , fFFZMin , fFFZMax );
1494 fFFHistosRecLeadingTrack = new AliFragFuncHistos("RecLeadingTrack", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1495 fFFNBinsPt, fFFPtMin, fFFPtMax,
1496 fFFNBinsXi, fFFXiMin, fFFXiMax,
1497 fFFNBinsZ , fFFZMin , fFFZMax );
1499 fFFHistosGen = new AliFragFuncHistos("Gen", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1500 fFFNBinsPt, fFFPtMin, fFFPtMax,
1501 fFFNBinsXi, fFFXiMin, fFFXiMax,
1502 fFFNBinsZ , fFFZMin , fFFZMax);
1504 fFFHistosGenInc = new AliFragFuncHistos("GenInc", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1505 fFFNBinsPt, fFFPtMin, fFFPtMax,
1506 fFFNBinsXi, fFFXiMin, fFFXiMax,
1507 fFFNBinsZ , fFFZMin , fFFZMax);
1509 fFFHistosGenLeadingTrack = new AliFragFuncHistos("GenLeadingTrack", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1510 fFFNBinsPt, fFFPtMin, fFFPtMax,
1511 fFFNBinsXi, fFFXiMin, fFFXiMax,
1512 fFFNBinsZ , fFFZMin , fFFZMax);
1520 fQATrackHistosRecEffGen = new AliFragFuncQATrackHistos("RecEffGen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1521 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1522 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1523 fQATrackHighPtThreshold);
1525 fQATrackHistosRecEffRec = new AliFragFuncQATrackHistos("RecEffRec", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1526 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1527 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1528 fQATrackHighPtThreshold);
1530 fQATrackHistosSecRecNS = new AliFragFuncQATrackHistos("SecRecNS", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1531 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1532 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1533 fQATrackHighPtThreshold);
1535 fQATrackHistosSecRecS = new AliFragFuncQATrackHistos("SecRecS", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1536 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1537 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1538 fQATrackHighPtThreshold);
1540 fQATrackHistosSecRecSsc = new AliFragFuncQATrackHistos("SecRecSsc", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1541 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1542 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1543 fQATrackHighPtThreshold);
1547 fFFHistosRecEffRec = new AliFragFuncHistos("RecEffRec", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1548 fFFNBinsPt, fFFPtMin, fFFPtMax,
1549 fFFNBinsXi, fFFXiMin, fFFXiMax,
1550 fFFNBinsZ , fFFZMin , fFFZMax);
1552 fFFHistosSecRecNS = new AliFragFuncHistos("SecRecNS", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1553 fFFNBinsPt, fFFPtMin, fFFPtMax,
1554 fFFNBinsXi, fFFXiMin, fFFXiMax,
1555 fFFNBinsZ , fFFZMin , fFFZMax);
1557 fFFHistosSecRecS = new AliFragFuncHistos("SecRecS", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1558 fFFNBinsPt, fFFPtMin, fFFPtMax,
1559 fFFNBinsXi, fFFXiMin, fFFXiMax,
1560 fFFNBinsZ , fFFZMin , fFFZMax);
1562 fFFHistosSecRecSsc = new AliFragFuncHistos("SecRecSsc", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1563 fFFNBinsPt, fFFPtMin, fFFPtMax,
1564 fFFNBinsXi, fFFXiMin, fFFXiMax,
1565 fFFNBinsZ , fFFZMin , fFFZMax);
1568 } // end: efficiency
1572 if(fBckgType[0]==kBckgNone){
1573 AliError("no bgr method selected !");
1577 for(Int_t i=0; i<5; i++){
1578 if(fBckgType[i]==kBckgPerp) title[i]="Perp";
1579 else if(fBckgType[i]==kBckgPerp2) title[i]="Perp2";
1580 else if(fBckgType[i]==kBckgPerp2Area) title[i]="Perp2Area";
1581 else if(fBckgType[i]==kBckgPerpWindow) title[i]="PerpW";
1582 else if(fBckgType[i]==kBckgASide) title[i]="ASide";
1583 else if(fBckgType[i]==kBckgASideWindow) title[i]="ASideW";
1584 else if(fBckgType[i]==kBckgOutLJ) title[i]="OutLeadingJet";
1585 else if(fBckgType[i]==kBckgOut2J) title[i]="Out2Jets";
1586 else if(fBckgType[i]==kBckgOut3J) title[i]="Out3Jets";
1587 else if(fBckgType[i]==kBckgOutAJ) title[i]="AllJets";
1588 else if(fBckgType[i]==kBckgOutLJStat) title[i]="OutLeadingJetStat";
1589 else if(fBckgType[i]==kBckgOut2JStat) title[i]="Out2JetsStat";
1590 else if(fBckgType[i]==kBckgOut3JStat) title[i]="Out3JetsStat";
1591 else if(fBckgType[i]==kBckgOutAJStat) title[i]="AllJetsStat";
1592 else if(fBckgType[i]==kBckgClustersOutLeading) title[i]="OutClusters";
1593 else if(fBckgType[i]==kBckgClusters) title[i]="MedianClusters";
1594 else if(fBckgType[i]==kBckgNone) title[i]="";
1595 else printf("Please chose background method number %d!",i);
1599 if(fBckgType[0]==kBckgClusters || fBckgType[1]==kBckgClusters || fBckgType[2]==kBckgClusters || fBckgType[3]==kBckgClusters || fBckgType[4]==kBckgClusters ||
1600 fBckgType[0]==kBckgClustersOutLeading || fBckgType[1]==kBckgClustersOutLeading || fBckgType[2]==kBckgClustersOutLeading ||
1601 fBckgType[3]==kBckgClustersOutLeading || fBckgType[4]==kBckgClustersOutLeading){
1603 fh1nRecBckgJetsCuts = new TH1F("fh1nRecBckgJetsCuts","reconstructed background jets per event",10,-0.5,9.5);
1604 fh1nGenBckgJets = new TH1F("fh1nGenBckgJets","generated background jets per event",10,-0.5,9.5);
1608 fh1BckgMult0 = new TH1F("fh1BckgMult0","bckg mult "+title[0],500,0,500);
1609 if(fBckgType[1] != kBckgNone) fh1BckgMult1 = new TH1F("fh1BckgMult1","bckg mult "+title[1],500,0,500);
1610 if(fBckgType[2] != kBckgNone) fh1BckgMult2 = new TH1F("fh1BckgMult2","bckg mult "+title[2],500,0,500);
1611 if(fBckgType[3] != kBckgNone) fh1BckgMult3 = new TH1F("fh1BckgMult3","bckg mult "+title[3],500,0,500);
1612 if(fBckgType[4] != kBckgNone) fh1BckgMult4 = new TH1F("fh1BckgMult4","bckg mult "+title[4],500,0,500);
1616 fQABckgHisto0RecCuts = new AliFragFuncQATrackHistos("Bckg"+title[0]+"RecCuts", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1617 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1618 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1619 fQATrackHighPtThreshold);
1620 fQABckgHisto0Gen = new AliFragFuncQATrackHistos("Bckg"+title[0]+"Gen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1621 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1622 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1623 fQATrackHighPtThreshold);
1625 if(fBckgType[1] != kBckgNone){
1626 fQABckgHisto1RecCuts = new AliFragFuncQATrackHistos("Bckg"+title[1]+"RecCuts", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1627 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1628 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1629 fQATrackHighPtThreshold);
1630 fQABckgHisto1Gen = new AliFragFuncQATrackHistos("Bckg"+title[1]+"Gen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1631 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1632 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1633 fQATrackHighPtThreshold);
1635 if(fBckgType[2] != kBckgNone){
1636 fQABckgHisto2RecCuts = new AliFragFuncQATrackHistos("Bckg"+title[2]+"RecCuts", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1637 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1638 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1639 fQATrackHighPtThreshold);
1640 fQABckgHisto2Gen = new AliFragFuncQATrackHistos("Bckg"+title[2]+"Gen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1641 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1642 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1643 fQATrackHighPtThreshold);
1645 if(fBckgType[3] != kBckgNone){
1646 fQABckgHisto3RecCuts = new AliFragFuncQATrackHistos("Bckg"+title[3]+"RecCuts", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1647 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1648 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1649 fQATrackHighPtThreshold);
1650 fQABckgHisto3Gen = new AliFragFuncQATrackHistos("Bckg"+title[3]+"Gen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1651 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1652 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1653 fQATrackHighPtThreshold);
1655 if(fBckgType[4] != kBckgNone){
1656 fQABckgHisto4RecCuts = new AliFragFuncQATrackHistos("Bckg"+title[4]+"RecCuts", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1657 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1658 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1659 fQATrackHighPtThreshold);
1660 fQABckgHisto4Gen = new AliFragFuncQATrackHistos("Bckg"+title[4]+"Gen", fQATrackNBinsPt, fQATrackPtMin, fQATrackPtMax,
1661 fQATrackNBinsEta, fQATrackEtaMin, fQATrackEtaMax,
1662 fQATrackNBinsPhi, fQATrackPhiMin, fQATrackPhiMax,
1663 fQATrackHighPtThreshold);
1665 } // end: background QA
1668 fFFBckgHisto0RecCuts = new AliFragFuncHistos("Bckg"+title[0]+"RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1669 fFFNBinsPt, fFFPtMin, fFFPtMax,
1670 fFFNBinsXi, fFFXiMin, fFFXiMax,
1671 fFFNBinsZ , fFFZMin , fFFZMax);
1673 fFFBckgHisto0Gen = new AliFragFuncHistos("Bckg"+title[0]+"Gen", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1674 fFFNBinsPt, fFFPtMin, fFFPtMax,
1675 fFFNBinsXi, fFFXiMin, fFFXiMax,
1676 fFFNBinsZ , fFFZMin , fFFZMax);
1678 if(fBckgType[1] != kBckgNone){
1679 fFFBckgHisto1RecCuts = new AliFragFuncHistos("Bckg"+title[1]+"RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1680 fFFNBinsPt, fFFPtMin, fFFPtMax,
1681 fFFNBinsXi, fFFXiMin, fFFXiMax,
1682 fFFNBinsZ , fFFZMin , fFFZMax);
1683 fFFBckgHisto1Gen = new AliFragFuncHistos("Bckg"+title[1]+"Gen", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1684 fFFNBinsPt, fFFPtMin, fFFPtMax,
1685 fFFNBinsXi, fFFXiMin, fFFXiMax,
1686 fFFNBinsZ , fFFZMin , fFFZMax);
1688 if(fBckgType[2] != kBckgNone){
1689 fFFBckgHisto2RecCuts = new AliFragFuncHistos("Bckg"+title[2]+"RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1690 fFFNBinsPt, fFFPtMin, fFFPtMax,
1691 fFFNBinsXi, fFFXiMin, fFFXiMax,
1692 fFFNBinsZ , fFFZMin , fFFZMax);
1694 fFFBckgHisto2Gen = new AliFragFuncHistos("Bckg"+title[2]+"Gen", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1695 fFFNBinsPt, fFFPtMin, fFFPtMax,
1696 fFFNBinsXi, fFFXiMin, fFFXiMax,
1697 fFFNBinsZ , fFFZMin , fFFZMax);
1699 if(fBckgType[3] != kBckgNone){
1700 fFFBckgHisto3RecCuts = new AliFragFuncHistos("Bckg"+title[3]+"RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1701 fFFNBinsPt, fFFPtMin, fFFPtMax,
1702 fFFNBinsXi, fFFXiMin, fFFXiMax,
1703 fFFNBinsZ , fFFZMin , fFFZMax);
1705 fFFBckgHisto3Gen = new AliFragFuncHistos("Bckg"+title[3]+"Gen", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1706 fFFNBinsPt, fFFPtMin, fFFPtMax,
1707 fFFNBinsXi, fFFXiMin, fFFXiMax,
1708 fFFNBinsZ , fFFZMin , fFFZMax);
1710 if(fBckgType[4] != kBckgNone){
1711 fFFBckgHisto4RecCuts = new AliFragFuncHistos("Bckg"+title[4]+"RecCuts", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1712 fFFNBinsPt, fFFPtMin, fFFPtMax,
1713 fFFNBinsXi, fFFXiMin, fFFXiMax,
1714 fFFNBinsZ , fFFZMin , fFFZMax);
1716 fFFBckgHisto4Gen = new AliFragFuncHistos("Bckg"+title[4]+"Gen", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1717 fFFNBinsPt, fFFPtMin, fFFPtMax,
1718 fFFNBinsXi, fFFXiMin, fFFXiMax,
1719 fFFNBinsZ , fFFZMin , fFFZMax);
1722 fFFBckgHisto0RecEffRec = new AliFragFuncHistos("Bckg"+title[0]+"RecEffRec", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1723 fFFNBinsPt, fFFPtMin, fFFPtMax,
1724 fFFNBinsXi, fFFXiMin, fFFXiMax,
1725 fFFNBinsZ , fFFZMin , fFFZMax);
1727 fFFBckgHisto0SecRecNS = new AliFragFuncHistos("Bckg"+title[0]+"SecRecNS", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1728 fFFNBinsPt, fFFPtMin, fFFPtMax,
1729 fFFNBinsXi, fFFXiMin, fFFXiMax,
1730 fFFNBinsZ , fFFZMin , fFFZMax);
1732 fFFBckgHisto0SecRecS = new AliFragFuncHistos("Bckg"+title[0]+"SecRecS", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1733 fFFNBinsPt, fFFPtMin, fFFPtMax,
1734 fFFNBinsXi, fFFXiMin, fFFXiMax,
1735 fFFNBinsZ , fFFZMin , fFFZMax);
1737 fFFBckgHisto0SecRecSsc = new AliFragFuncHistos("Bckg"+title[0]+"SecRecSsc", fFFNBinsJetPt, fFFJetPtMin, fFFJetPtMax,
1738 fFFNBinsPt, fFFPtMin, fFFPtMax,
1739 fFFNBinsXi, fFFXiMin, fFFXiMax,
1740 fFFNBinsZ , fFFZMin , fFFZMax);
1743 } // end: background FF
1746 } // end: background
1749 // ____________ define histograms ____________________
1752 if(fQAMode&1){ // track QA
1753 fQATrackHistosRecCuts->DefineHistos();
1754 fQATrackHistosGen->DefineHistos();
1757 if(fQAMode&2){ // jet QA
1758 fQAJetHistosRec->DefineHistos();
1759 fQAJetHistosRecCuts->DefineHistos();
1760 fQAJetHistosRecCutsLeading->DefineHistos();
1761 fQAJetHistosGen->DefineHistos();
1762 fQAJetHistosGenLeading->DefineHistos();
1763 if(fEffMode) fQAJetHistosRecEffLeading->DefineHistos();
1768 fFFHistosRecCuts->DefineHistos();
1769 fFFHistosRecCutsInc->DefineHistos();
1770 fFFHistosRecLeadingTrack->DefineHistos();
1771 fFFHistosGen->DefineHistos();
1772 fFFHistosGenInc->DefineHistos();
1773 fFFHistosGenLeadingTrack->DefineHistos();
1778 fQATrackHistosRecEffGen->DefineHistos();
1779 fQATrackHistosRecEffRec->DefineHistos();
1780 fQATrackHistosSecRecNS->DefineHistos();
1781 fQATrackHistosSecRecS->DefineHistos();
1782 fQATrackHistosSecRecSsc->DefineHistos();
1785 fFFHistosRecEffRec->DefineHistos();
1786 fFFHistosSecRecNS->DefineHistos();
1787 fFFHistosSecRecS->DefineHistos();
1788 fFFHistosSecRecSsc->DefineHistos();
1790 } // end: efficiency
1795 fFFBckgHisto0RecCuts->DefineHistos();
1796 fFFBckgHisto0Gen->DefineHistos();
1797 if(fBckgType[1] != kBckgNone) fFFBckgHisto1RecCuts->DefineHistos();
1798 if(fBckgType[1] != kBckgNone) fFFBckgHisto1Gen->DefineHistos();
1799 if(fBckgType[2] != kBckgNone) fFFBckgHisto2RecCuts->DefineHistos();
1800 if(fBckgType[2] != kBckgNone) fFFBckgHisto2Gen->DefineHistos();
1801 if(fBckgType[3] != kBckgNone) fFFBckgHisto3RecCuts->DefineHistos();
1802 if(fBckgType[3] != kBckgNone) fFFBckgHisto3Gen->DefineHistos();
1803 if(fBckgType[4] != kBckgNone) fFFBckgHisto4RecCuts->DefineHistos();
1804 if(fBckgType[4] != kBckgNone) fFFBckgHisto4Gen->DefineHistos();
1807 fFFBckgHisto0RecEffRec->DefineHistos();
1808 fFFBckgHisto0SecRecNS->DefineHistos();
1809 fFFBckgHisto0SecRecS->DefineHistos();
1810 fFFBckgHisto0SecRecSsc->DefineHistos();
1815 fQABckgHisto0RecCuts->DefineHistos();
1816 fQABckgHisto0Gen->DefineHistos();
1817 if(fBckgType[1] != kBckgNone) fQABckgHisto1RecCuts->DefineHistos();
1818 if(fBckgType[1] != kBckgNone) fQABckgHisto1Gen->DefineHistos();
1819 if(fBckgType[2] != kBckgNone) fQABckgHisto2RecCuts->DefineHistos();
1820 if(fBckgType[2] != kBckgNone) fQABckgHisto2Gen->DefineHistos();
1821 if(fBckgType[3] != kBckgNone) fQABckgHisto3RecCuts->DefineHistos();
1822 if(fBckgType[3] != kBckgNone) fQABckgHisto3Gen->DefineHistos();
1823 if(fBckgType[4] != kBckgNone) fQABckgHisto4RecCuts->DefineHistos();
1824 if(fBckgType[4] != kBckgNone) fQABckgHisto4Gen->DefineHistos();
1826 } // end: background
1829 Bool_t genJets = (fJetTypeGen != kJetsUndef) ? kTRUE : kFALSE;
1830 Bool_t genTracks = (fTrackTypeGen != kTrackUndef) ? kTRUE : kFALSE;
1831 Bool_t recJetsEff = (fJetTypeRecEff != kJetsUndef) ? kTRUE : kFALSE;
1833 fCommonHistList->Add(fh1EvtSelection);
1834 fCommonHistList->Add(fh1EvtMult);
1835 fCommonHistList->Add(fh1EvtCent);
1836 fCommonHistList->Add(fh1VertexNContributors);
1837 fCommonHistList->Add(fh1VertexZ);
1838 fCommonHistList->Add(fh1nRecJetsCuts);
1839 fCommonHistList->Add(fh1Xsec);
1840 fCommonHistList->Add(fh1Trials);
1841 fCommonHistList->Add(fh1PtHard);
1842 fCommonHistList->Add(fh1PtHardTrials);
1844 if(genJets) fCommonHistList->Add(fh1nGenJets);
1848 fFFHistosRecCuts->AddToOutput(fCommonHistList);
1849 fFFHistosRecCutsInc->AddToOutput(fCommonHistList);
1850 fFFHistosRecLeadingTrack->AddToOutput(fCommonHistList);
1852 if(genJets && genTracks){
1853 fFFHistosGen->AddToOutput(fCommonHistList);
1854 fFFHistosGenInc->AddToOutput(fCommonHistList);
1855 fFFHistosGenLeadingTrack->AddToOutput(fCommonHistList);
1862 fFFBckgHisto0RecCuts->AddToOutput(fCommonHistList);
1863 if(fBckgType[1] != kBckgNone) fFFBckgHisto1RecCuts->AddToOutput(fCommonHistList);
1864 if(fBckgType[2] != kBckgNone) fFFBckgHisto2RecCuts->AddToOutput(fCommonHistList);
1865 if(fBckgType[3] != kBckgNone) fFFBckgHisto3RecCuts->AddToOutput(fCommonHistList);
1866 if(fBckgType[4] != kBckgNone) fFFBckgHisto4RecCuts->AddToOutput(fCommonHistList);
1868 if(genJets && genTracks){
1869 fFFBckgHisto0Gen->AddToOutput(fCommonHistList);
1870 if(fBckgType[1] != kBckgNone) fFFBckgHisto1Gen->AddToOutput(fCommonHistList);
1871 if(fBckgType[2] != kBckgNone) fFFBckgHisto2Gen->AddToOutput(fCommonHistList);
1872 if(fBckgType[3] != kBckgNone) fFFBckgHisto3Gen->AddToOutput(fCommonHistList);
1873 if(fBckgType[4] != kBckgNone) fFFBckgHisto4Gen->AddToOutput(fCommonHistList);
1877 fFFBckgHisto0RecEffRec->AddToOutput(fCommonHistList);
1878 fFFBckgHisto0SecRecNS->AddToOutput(fCommonHistList);
1879 fFFBckgHisto0SecRecS->AddToOutput(fCommonHistList);
1880 fFFBckgHisto0SecRecSsc->AddToOutput(fCommonHistList);
1885 fQABckgHisto0RecCuts->AddToOutput(fCommonHistList);
1886 if(fBckgType[1] != kBckgNone) fQABckgHisto1RecCuts->AddToOutput(fCommonHistList);
1887 if(fBckgType[2] != kBckgNone) fQABckgHisto2RecCuts->AddToOutput(fCommonHistList);
1888 if(fBckgType[3] != kBckgNone) fQABckgHisto3RecCuts->AddToOutput(fCommonHistList);
1889 if(fBckgType[4] != kBckgNone) fQABckgHisto4RecCuts->AddToOutput(fCommonHistList);
1890 if(genJets && genTracks){
1891 fQABckgHisto0Gen->AddToOutput(fCommonHistList);
1892 if(fBckgType[1] != kBckgNone) fQABckgHisto1Gen->AddToOutput(fCommonHistList);
1893 if(fBckgType[2] != kBckgNone) fQABckgHisto2Gen->AddToOutput(fCommonHistList);
1894 if(fBckgType[3] != kBckgNone) fQABckgHisto3Gen->AddToOutput(fCommonHistList);
1895 if(fBckgType[4] != kBckgNone) fQABckgHisto4Gen->AddToOutput(fCommonHistList);
1899 if(fh1BckgMult0) fCommonHistList->Add(fh1BckgMult0);
1900 if(fBckgType[1] != kBckgNone) fCommonHistList->Add(fh1BckgMult1);
1901 if(fBckgType[2] != kBckgNone) fCommonHistList->Add(fh1BckgMult2);
1902 if(fBckgType[3] != kBckgNone) fCommonHistList->Add(fh1BckgMult3);
1903 if(fBckgType[4] != kBckgNone) fCommonHistList->Add(fh1BckgMult4);
1907 if(fBranchEmbeddedJets.Length()){
1908 fCommonHistList->Add(fh1FractionPtEmbedded);
1909 fCommonHistList->Add(fh1IndexEmbedded);
1910 fCommonHistList->Add(fh2DeltaPtVsJetPtEmbedded);
1911 fCommonHistList->Add(fh2DeltaPtVsRecJetPtEmbedded);
1912 fCommonHistList->Add(fh1DeltaREmbedded);
1913 fCommonHistList->Add(fh1nEmbeddedJets);
1919 if(fQAMode&1){ // track QA
1920 fQATrackHistosRecCuts->AddToOutput(fCommonHistList);
1921 if(genTracks) fQATrackHistosGen->AddToOutput(fCommonHistList);
1924 if(fQAMode&2){ // jet QA
1925 fQAJetHistosRec->AddToOutput(fCommonHistList);
1926 fQAJetHistosRecCuts->AddToOutput(fCommonHistList);
1927 fQAJetHistosRecCutsLeading->AddToOutput(fCommonHistList);
1928 if(recJetsEff && fEffMode) fQAJetHistosRecEffLeading->AddToOutput(fCommonHistList);
1930 fQAJetHistosGen->AddToOutput(fCommonHistList);
1931 fQAJetHistosGenLeading->AddToOutput(fCommonHistList);
1937 (fBckgType[0]==kBckgClusters || fBckgType[1]==kBckgClusters || fBckgType[2]==kBckgClusters || fBckgType[3]==kBckgClusters || fBckgType[4]==kBckgClusters ||
1938 fBckgType[0]==kBckgClustersOutLeading || fBckgType[1]==kBckgClustersOutLeading || fBckgType[2]==kBckgClustersOutLeading ||
1939 fBckgType[3]==kBckgClustersOutLeading || fBckgType[4]==kBckgClustersOutLeading)) {
1940 fCommonHistList->Add(fh1nRecBckgJetsCuts);
1941 if(genJets) fCommonHistList->Add(fh1nGenBckgJets);
1945 if(fEffMode && recJetsEff && genTracks){
1947 fQATrackHistosRecEffGen->AddToOutput(fCommonHistList);
1948 fQATrackHistosRecEffRec->AddToOutput(fCommonHistList);
1949 fQATrackHistosSecRecNS->AddToOutput(fCommonHistList);
1950 fQATrackHistosSecRecS->AddToOutput(fCommonHistList);
1951 fQATrackHistosSecRecSsc->AddToOutput(fCommonHistList);
1954 fFFHistosRecEffRec->AddToOutput(fCommonHistList);
1955 fFFHistosSecRecNS->AddToOutput(fCommonHistList);
1956 fFFHistosSecRecS->AddToOutput(fCommonHistList);
1957 fFFHistosSecRecSsc->AddToOutput(fCommonHistList);
1959 fCommonHistList->Add(fh1nRecEffJets);
1960 fCommonHistList->Add(fh2PtRecVsGenPrim);
1961 fCommonHistList->Add(fh2PtRecVsGenSec);
1967 fProNtracksLeadingJet = new TProfile("AvgNoOfTracksLeadingJet","AvgNoOfTracksLeadingJet",100,0,250,0,50);
1968 fProDelR80pcPt = new TProfile("AvgdelR80pcPt","AvgdelR80pcPt",100,0,250,0,1);
1970 if(genJets && genTracks){
1971 fProNtracksLeadingJetGen = new TProfile("AvgNoOfTracksLeadingJetGen","AvgNoOfTracksLeadingJetGen",100,0,250,0,50);
1972 fProDelR80pcPtGen = new TProfile("AvgdelR80pcPtGen","AvgdelR80pcPtGen",100,0,250,0,1);
1976 fProNtracksLeadingJetBgrPerp2 = new TProfile("AvgNoOfTracksLeadingJetBgrPerp2","AvgNoOfTracksLeadingJetBgrPerp2",100,0,250,0,50);
1979 fProNtracksLeadingJetRecPrim = new TProfile("AvgNoOfTracksLeadingJetRecPrim","AvgNoOfTracksLeadingJetRecPrim",100,0,250,0,50);
1980 fProDelR80pcPtRecPrim = new TProfile("AvgdelR80pcPtRecPrim","AvgdelR80pcPtRecPrim",100,0,250,0,1);
1981 fProNtracksLeadingJetRecSecNS = new TProfile("AvgNoOfTracksLeadingJetRecSecNS","AvgNoOfTracksLeadingJetRecSecNS",100,0,250,0,50);
1982 fProNtracksLeadingJetRecSecS = new TProfile("AvgNoOfTracksLeadingJetRecSecS","AvgNoOfTracksLeadingJetRecSecS",100,0,250,0,50);
1983 fProNtracksLeadingJetRecSecSsc = new TProfile("AvgNoOfTracksLeadingJetRecSecSsc","AvgNoOfTracksLeadingJetRecSecSsc",100,0,250,0,50);
1987 for(Int_t ii=0; ii<5; ii++){
1988 if(ii==0)strTitJS = "_JetPt20to30";
1989 if(ii==1)strTitJS = "_JetPt30to40";
1990 if(ii==2)strTitJS = "_JetPt40to60";
1991 if(ii==3)strTitJS = "_JetPt60to80";
1992 if(ii==4)strTitJS = "_JetPt80to100";
1994 fProDelRPtSum[ii] = new TProfile(Form("AvgPtSumDelR%s",strTitJS.Data()),Form("AvgPtSumDelR%s",strTitJS.Data()),50,0,1,0,250);
1995 if(genJets && genTracks)
1996 fProDelRPtSumGen[ii] = new TProfile(Form("AvgPtSumDelRGen%s",strTitJS.Data()),Form("AvgPtSumDelRGen%s",strTitJS.Data()),50,0,1,0,250);
1998 fProDelRPtSumBgrPerp2[ii] = new TProfile(Form("AvgPtSumDelRBgrPerp2%s",strTitJS.Data()),Form("AvgPtSumDelRBgrPerp2%s",strTitJS.Data()),50,0,1,0,250);
2000 fProDelRPtSumRecPrim[ii] = new TProfile(Form("AvgPtSumDelRRecPrim%s",strTitJS.Data()),Form("AvgPtSumDelRRecPrim%s",strTitJS.Data()),50,0,1,0,250);
2001 fProDelRPtSumRecSecNS[ii] = new TProfile(Form("AvgPtSumDelRRecSecNS%s",strTitJS.Data()),Form("AvgPtSumDelRRecSecNS%s",strTitJS.Data()),50,0,1,0,250);
2002 fProDelRPtSumRecSecS[ii] = new TProfile(Form("AvgPtSumDelRRecSecS%s",strTitJS.Data()),Form("AvgPtSumDelRRecSecS%s",strTitJS.Data()),50,0,1,0,250);
2003 fProDelRPtSumRecSecSsc[ii] = new TProfile(Form("AvgPtSumDelRRecSecSsc%s",strTitJS.Data()),Form("AvgPtSumDelRRecSecSsc%s",strTitJS.Data()),50,0,1,0,250);
2007 fCommonHistList->Add(fProNtracksLeadingJet);
2008 fCommonHistList->Add(fProDelR80pcPt);
2009 for(int ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSum[ii]);
2011 if(genJets && genTracks){
2012 fCommonHistList->Add(fProNtracksLeadingJetGen);
2013 fCommonHistList->Add(fProDelR80pcPtGen);
2014 for(Int_t ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSumGen[ii]);
2018 fCommonHistList->Add(fProNtracksLeadingJetBgrPerp2);
2019 for(Int_t ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSumBgrPerp2[ii]);
2023 fCommonHistList->Add(fProNtracksLeadingJetRecPrim);
2024 fCommonHistList->Add(fProDelR80pcPtRecPrim);
2025 for(Int_t ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSumRecPrim[ii]);
2027 fCommonHistList->Add(fProNtracksLeadingJetRecSecNS);
2028 for(Int_t ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSumRecSecNS[ii]);
2030 fCommonHistList->Add(fProNtracksLeadingJetRecSecS);
2031 for(Int_t ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSumRecSecS[ii]);
2033 fCommonHistList->Add(fProNtracksLeadingJetRecSecSsc);
2034 for(Int_t ii=0; ii<5; ii++) fCommonHistList->Add(fProDelRPtSumRecSecSsc[ii]);
2038 // =========== Switch on Sumw2 for all histos ===========
2039 for (Int_t i=0; i<fCommonHistList->GetEntries(); ++i){
2040 TH1 *h1 = dynamic_cast<TH1*>(fCommonHistList->At(i));
2041 if (h1) h1->Sumw2();
2043 THnSparse *hnSparse = dynamic_cast<THnSparse*>(fCommonHistList->At(i));
2044 if(hnSparse) hnSparse->Sumw2();
2048 TH1::AddDirectory(oldStatus);
2050 PostData(1, fCommonHistList);
2053 //_______________________________________________
2054 void AliAnalysisTaskFragmentationFunction::Init()
2057 if(fDebug > 1) Printf("AliAnalysisTaskFragmentationFunction::Init()");
2061 //_____________________________________________________________
2062 void AliAnalysisTaskFragmentationFunction::UserExec(Option_t *)
2065 // Called for each event
2066 if(fDebug > 1) Printf("AliAnalysisTaskFragmentationFunction::UserExec()");
2069 if(fDebug > 1) Printf("Analysis event #%5d", (Int_t) fEntry);
2071 // Trigger selection
2072 AliInputEventHandler* inputHandler = (AliInputEventHandler*)
2073 ((AliAnalysisManager::GetAnalysisManager())->GetInputEventHandler());
2075 if(!(inputHandler->IsEventSelected() & fEvtSelectionMask)){
2076 fh1EvtSelection->Fill(1.);
2077 if (fDebug > 1 ) Printf(" Trigger Selection: event REJECTED ... ");
2078 PostData(1, fCommonHistList);
2082 fESD = dynamic_cast<AliESDEvent*>(InputEvent());
2084 if(fDebug>3) Printf("%s:%d ESDEvent not found in the input", (char*)__FILE__,__LINE__);
2087 fMCEvent = MCEvent();
2089 if(fDebug>3) Printf("%s:%d MCEvent not found in the input", (char*)__FILE__,__LINE__);
2092 // get AOD event from input/ouput
2093 TObject* handler = AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
2094 if( handler && handler->InheritsFrom("AliAODInputHandler") ) {
2095 fAOD = ((AliAODInputHandler*)handler)->GetEvent();
2096 if(fUseAODInputJets) fAODJets = fAOD;
2097 if (fDebug > 1) Printf("%s:%d AOD event from input", (char*)__FILE__,__LINE__);
2100 handler = AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler();
2101 if( handler && handler->InheritsFrom("AliAODHandler") ) {
2102 fAOD = ((AliAODHandler*)handler)->GetAOD();
2104 if (fDebug > 1) Printf("%s:%d AOD event from output", (char*)__FILE__,__LINE__);
2108 if(!fAODJets && !fUseAODInputJets){ // case we have AOD in input & output and want jets from output
2109 TObject* outHandler = AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler();
2110 if( outHandler && outHandler->InheritsFrom("AliAODHandler") ) {
2111 fAODJets = ((AliAODHandler*)outHandler)->GetAOD();
2112 if (fDebug > 1) Printf("%s:%d jets from output AOD", (char*)__FILE__,__LINE__);
2116 if(fNonStdFile.Length()!=0){
2117 // case we have an AOD extension - fetch the jets from the extended output
2119 AliAODHandler *aodH = dynamic_cast<AliAODHandler*>(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler());
2120 fAODExtension = (aodH?aodH->GetExtension(fNonStdFile.Data()):0);
2122 if(fDebug>1)Printf("AODExtension not found for %s",fNonStdFile.Data());
2127 Printf("%s:%d AODEvent not found", (char*)__FILE__,__LINE__);
2131 Printf("%s:%d AODEvent with jet branch not found", (char*)__FILE__,__LINE__);
2136 // event selection **************************************************
2137 // *** event class ***
2138 Double_t centPercent = -1;
2141 if(handler->InheritsFrom("AliAODInputHandler")){
2142 // since it is not supported by the helper task define own classes
2143 centPercent = fAOD->GetHeader()->GetCentrality();
2145 if(centPercent>10) cl = 2;
2146 if(centPercent>30) cl = 3;
2147 if(centPercent>50) cl = 4;
2150 cl = AliAnalysisHelperJetTasks::EventClass();
2151 if(fESD) centPercent = fESD->GetCentrality()->GetCentralityPercentile("V0M"); // retrieve value 'by hand'
2154 if(cl!=fEventClass){
2155 // event not in selected event class, reject event
2156 if (fDebug > 1) Printf("%s:%d event not in selected event class: event REJECTED ...",(char*)__FILE__,__LINE__);
2157 fh1EvtSelection->Fill(2.);
2158 PostData(1, fCommonHistList);
2163 // *** vertex cut ***
2164 AliAODVertex* primVtx = fAOD->GetPrimaryVertex();
2165 Int_t nTracksPrim = primVtx->GetNContributors();
2166 fh1VertexNContributors->Fill(nTracksPrim);
2169 if (fDebug > 1) Printf("%s:%d primary vertex selection: %d", (char*)__FILE__,__LINE__,nTracksPrim);
2171 if (fDebug > 1) Printf("%s:%d primary vertex selection: event REJECTED...",(char*)__FILE__,__LINE__);
2172 fh1EvtSelection->Fill(3.);
2173 PostData(1, fCommonHistList);
2177 fh1VertexZ->Fill(primVtx->GetZ());
2179 if(TMath::Abs(primVtx->GetZ())>fMaxVertexZ){
2180 if (fDebug > 1) Printf("%s:%d primary vertex z = %f: event REJECTED...",(char*)__FILE__,__LINE__,primVtx->GetZ());
2181 fh1EvtSelection->Fill(4.);
2182 PostData(1, fCommonHistList);
2186 TString primVtxName(primVtx->GetName());
2188 if(primVtxName.CompareTo("TPCVertex",TString::kIgnoreCase) == 1){
2189 if (fDebug > 1) Printf("%s:%d primary vertex selection: TPC vertex, event REJECTED...",(char*)__FILE__,__LINE__);
2190 fh1EvtSelection->Fill(5.);
2191 PostData(1, fCommonHistList);
2195 if(fRejectPileup && AliAnalysisHelperJetTasks::IsPileUp()){
2196 if (fDebug > 1) Printf("%s:%d SPD pileup: event REJECTED...",(char*)__FILE__,__LINE__);
2197 fh1EvtSelection->Fill(6.);
2198 PostData(1, fCommonHistList);
2202 if (fDebug > 1) Printf("%s:%d event ACCEPTED ...",(char*)__FILE__,__LINE__);
2203 fh1EvtSelection->Fill(0.);
2204 fh1EvtCent->Fill(centPercent);
2207 //___ get MC information __________________________________________________________________
2209 fh1Trials->Fill("#sum{ntrials}",fAvgTrials);
2211 Double_t ptHard = 0.;
2212 Double_t nTrials = 1; // trials for MC trigger weight for real data
2215 AliGenEventHeader* genHeader = fMCEvent->GenEventHeader();
2219 AliGenPythiaEventHeader* pythiaGenHeader = dynamic_cast<AliGenPythiaEventHeader*>(genHeader);
2220 AliGenHijingEventHeader* hijingGenHeader = 0x0;
2222 if(pythiaGenHeader){
2223 if(fDebug>3) Printf("%s:%d pythiaGenHeader found", (char*)__FILE__,__LINE__);
2224 nTrials = pythiaGenHeader->Trials();
2225 ptHard = pythiaGenHeader->GetPtHard();
2227 fh1PtHard->Fill(ptHard);
2228 fh1PtHardTrials->Fill(ptHard,nTrials);
2230 } else { // no pythia, hijing?
2232 if(fDebug>3) Printf("%s:%d no pythiaGenHeader found", (char*)__FILE__,__LINE__);
2234 hijingGenHeader = dynamic_cast<AliGenHijingEventHeader*>(genHeader);
2235 if(!hijingGenHeader){
2236 Printf("%s:%d no pythiaGenHeader or hjingGenHeader found", (char*)__FILE__,__LINE__);
2238 if(fDebug>3) Printf("%s:%d hijingGenHeader found", (char*)__FILE__,__LINE__);
2242 //fh1Trials->Fill("#sum{ntrials}",fAvgTrials);
2246 //___ fetch jets __________________________________________________________________________
2248 Int_t nJ = GetListOfJets(fJetsRec, kJetsRec);
2250 if(nJ>=0) nRecJets = fJetsRec->GetEntries();
2251 if(fDebug>2)Printf("%s:%d Selected Rec jets: %d %d",(char*)__FILE__,__LINE__,nJ,nRecJets);
2252 if(nJ != nRecJets) Printf("%s:%d Mismatch Selected Rec Jets: %d %d",(char*)__FILE__,__LINE__,nJ,nRecJets);
2254 Int_t nJCuts = GetListOfJets(fJetsRecCuts, kJetsRecAcceptance);
2255 Int_t nRecJetsCuts = 0;
2256 if(nJCuts>=0) nRecJetsCuts = fJetsRecCuts->GetEntries();
2257 if(fDebug>2)Printf("%s:%d Selected Rec jets after cuts: %d %d",(char*)__FILE__,__LINE__,nJCuts,nRecJetsCuts);
2258 if(nRecJetsCuts != nJCuts) Printf("%s:%d Mismatch selected Rec jets after cuts: %d %d",(char*)__FILE__,__LINE__,nJCuts,nRecJetsCuts);
2259 fh1nRecJetsCuts->Fill(nRecJetsCuts);
2261 if(fJetTypeGen==kJetsKine || fJetTypeGen == kJetsKineAcceptance) fJetsGen->SetOwner(kTRUE); // kine aod jets allocated on heap, delete them with TList::Clear()
2263 Int_t nJGen = GetListOfJets(fJetsGen, fJetTypeGen);
2265 if(nJGen>=0) nGenJets = fJetsGen->GetEntries();
2266 if(fDebug>2)Printf("%s:%d Selected Gen jets: %d %d",(char*)__FILE__,__LINE__,nJGen,nGenJets);
2268 if(nJGen != nGenJets) Printf("%s:%d Mismatch selected Gen jets: %d %d",(char*)__FILE__,__LINE__,nJGen,nGenJets);
2269 fh1nGenJets->Fill(nGenJets);
2272 if(fJetTypeRecEff==kJetsKine || fJetTypeRecEff == kJetsKineAcceptance) fJetsRecEff->SetOwner(kTRUE); // kine aod jets allocated on heap, delete them with TList::Clear()
2273 Int_t nJRecEff = GetListOfJets(fJetsRecEff, fJetTypeRecEff);
2274 Int_t nRecEffJets = 0;
2275 if(nJRecEff>=0) nRecEffJets = fJetsRecEff->GetEntries();
2276 if(fDebug>2)Printf("%s:%d Selected RecEff jets: %d %d",(char*)__FILE__,__LINE__,nJRecEff,nRecEffJets);
2277 if(nJRecEff != nRecEffJets) Printf("%s:%d Mismatch selected RecEff jets: %d %d",(char*)__FILE__,__LINE__,nJRecEff,nRecEffJets);
2278 fh1nRecEffJets->Fill(nRecEffJets);
2281 Int_t nEmbeddedJets = 0;
2282 TArrayI iEmbeddedMatchIndex;
2283 TArrayF fEmbeddedPtFraction;
2286 if(fBranchEmbeddedJets.Length()){
2287 Int_t nJEmbedded = GetListOfJets(fJetsEmbedded, kJetsEmbedded);
2288 if(nJEmbedded>=0) nEmbeddedJets = fJetsEmbedded->GetEntries();
2289 if(fDebug>2)Printf("%s:%d Selected Embedded jets: %d %d",(char*)__FILE__,__LINE__,nJEmbedded,nEmbeddedJets);
2290 if(nJEmbedded != nEmbeddedJets) Printf("%s:%d Mismatch Selected Embedded Jets: %d %d",(char*)__FILE__,__LINE__,nJEmbedded,nEmbeddedJets);
2291 fh1nEmbeddedJets->Fill(nEmbeddedJets);
2293 Float_t maxDist = 0.3;
2295 iEmbeddedMatchIndex.Set(nEmbeddedJets);
2296 fEmbeddedPtFraction.Set(nEmbeddedJets);
2298 iEmbeddedMatchIndex.Reset(-1);
2299 fEmbeddedPtFraction.Reset(0);
2301 AliAnalysisHelperJetTasks::GetJetMatching(fJetsEmbedded, nEmbeddedJets,
2302 fJetsRecCuts, nRecJetsCuts,
2303 iEmbeddedMatchIndex, fEmbeddedPtFraction,
2308 //____ fetch background clusters ___________________________________________________
2310 (fBckgType[0]==kBckgClusters || fBckgType[1]==kBckgClusters || fBckgType[2]==kBckgClusters || fBckgType[3]==kBckgClusters || fBckgType[4]==kBckgClusters ||
2311 fBckgType[0]==kBckgClustersOutLeading || fBckgType[1]==kBckgClustersOutLeading || fBckgType[2]==kBckgClustersOutLeading ||
2312 fBckgType[3]==kBckgClustersOutLeading || fBckgType[4]==kBckgClustersOutLeading)){
2314 Int_t nBJ = GetListOfBckgJets(fBckgJetsRec, kJetsRec);
2315 Int_t nRecBckgJets = 0;
2316 if(nBJ>=0) nRecBckgJets = fBckgJetsRec->GetEntries();
2317 if(fDebug>2)Printf("%s:%d Selected Rec background jets: %d %d",(char*)__FILE__,__LINE__,nBJ,nRecBckgJets);
2318 if(nBJ != nRecBckgJets) Printf("%s:%d Mismatch Selected Rec background jets: %d %d",(char*)__FILE__,__LINE__,nBJ,nRecBckgJets);
2320 Int_t nBJCuts = GetListOfBckgJets(fBckgJetsRecCuts, kJetsRecAcceptance);
2321 Int_t nRecBckgJetsCuts = 0;
2322 if(nBJCuts>=0) nRecBckgJetsCuts = fBckgJetsRecCuts->GetEntries();
2323 if(fDebug>2)Printf("%s:%d Selected Rec background jets after cuts: %d %d",(char*)__FILE__,__LINE__,nJCuts,nRecJetsCuts);
2324 if(nRecBckgJetsCuts != nBJCuts) Printf("%s:%d Mismatch selected Rec background jets after cuts: %d %d",(char*)__FILE__,__LINE__,nBJCuts,nRecBckgJetsCuts);
2325 fh1nRecBckgJetsCuts->Fill(nRecBckgJetsCuts);
2327 if(0){ // protection OB - not yet implemented
2328 if(fJetTypeGen==kJetsKine || fJetTypeGen == kJetsKineAcceptance) fBckgJetsGen->SetOwner(kTRUE); // kine aod jets allocated on heap, delete them with TList::Clear()
2329 Int_t nBJGen = GetListOfBckgJets(fBckgJetsGen, fJetTypeGen);
2330 Int_t nGenBckgJets = 0;
2331 if(nBJGen>=0) nGenBckgJets = fBckgJetsGen->GetEntries();
2332 if(fDebug>2)Printf("%s:%d Selected Gen background jets: %d %d",(char*)__FILE__,__LINE__,nBJGen,nGenBckgJets);
2333 if(nBJGen != nGenBckgJets) Printf("%s:%d Mismatch selected Gen background jets: %d %d",(char*)__FILE__,__LINE__,nBJGen,nGenBckgJets);
2334 fh1nGenBckgJets->Fill(nGenBckgJets);
2339 //____ fetch particles __________________________________________________________
2342 if(fUseExtraTracks == 1) nTCuts = GetListOfTracks(fTracksRecCuts, kTrackAODExtraCuts);
2343 else if(fUseExtraTracks == -1) nTCuts = GetListOfTracks(fTracksRecCuts, kTrackAODExtraonlyCuts);
2344 else nTCuts = GetListOfTracks(fTracksRecCuts, kTrackAODCuts);
2346 Int_t nRecPartCuts = 0;
2347 if(nTCuts>=0) nRecPartCuts = fTracksRecCuts->GetEntries();
2348 if(fDebug>2)Printf("%s:%d Selected Rec tracks after cuts: %d %d",(char*)__FILE__,__LINE__,nTCuts,nRecPartCuts);
2349 if(nRecPartCuts != nTCuts) Printf("%s:%d Mismatch selected Rec tracks after cuts: %d %d",(char*)__FILE__,__LINE__,nTCuts,nRecPartCuts);
2350 fh1EvtMult->Fill(nRecPartCuts);
2353 Int_t nTGen = GetListOfTracks(fTracksGen,fTrackTypeGen);
2355 if(nTGen>=0) nGenPart = fTracksGen->GetEntries();
2356 if(fDebug>2)Printf("%s:%d Selected Gen tracks: %d %d",(char*)__FILE__,__LINE__,nTGen,nGenPart);
2357 if(nGenPart != nTGen) Printf("%s:%d Mismatch selected Gen tracks: %d %d",(char*)__FILE__,__LINE__,nTGen,nGenPart);
2360 //____ analysis, fill histos ___________________________________________________
2365 for(Int_t it=0; it<nRecPartCuts; ++it){
2366 AliVParticle *part = dynamic_cast<AliVParticle*>(fTracksRecCuts->At(it));
2367 if(part)fQATrackHistosRecCuts->FillTrackQA( part->Eta(), TVector2::Phi_0_2pi(part->Phi()), part->Pt() );
2369 for(Int_t it=0; it<nGenPart; ++it){
2370 AliVParticle *part = dynamic_cast<AliVParticle*>(fTracksGen->At(it));
2371 if(part)fQATrackHistosGen->FillTrackQA( part->Eta(), TVector2::Phi_0_2pi(part->Phi()), part->Pt());
2377 for(Int_t ij=0; ij<nRecJets; ++ij){
2378 AliAODJet* jet = dynamic_cast<AliAODJet*>(fJetsRec->At(ij));
2379 if(jet)fQAJetHistosRec->FillJetQA( jet->Eta(), TVector2::Phi_0_2pi(jet->Phi()), jet->Pt());
2384 if(fQAMode || fFFMode){
2385 for(Int_t ij=0; ij<nRecJetsCuts; ++ij){
2387 AliAODJet* jet = (AliAODJet*)(fJetsRecCuts->At(ij));
2388 if(fQAMode&2) fQAJetHistosRecCuts->FillJetQA( jet->Eta(), TVector2::Phi_0_2pi(jet->Phi()), jet->Pt());
2390 if(fQAMode&2 && ij==0) fQAJetHistosRecCutsLeading->FillJetQA( jet->Eta(), TVector2::Phi_0_2pi(jet->Phi()), jet->Pt() );
2392 Double_t ptFractionEmbedded = 0;
2393 AliAODJet* embeddedJet = 0;
2395 if(fBranchEmbeddedJets.Length()){ // find embedded jet
2397 Int_t indexEmbedded = -1;
2398 for(Int_t i=0; i<nEmbeddedJets; i++){
2399 if(iEmbeddedMatchIndex[i] == ij){
2401 ptFractionEmbedded = fEmbeddedPtFraction[i];
2405 fh1IndexEmbedded->Fill(indexEmbedded);
2406 fh1FractionPtEmbedded->Fill(ptFractionEmbedded);
2408 if(indexEmbedded>-1){
2410 embeddedJet = dynamic_cast<AliAODJet*>(fJetsEmbedded->At(indexEmbedded));
2411 if(!embeddedJet) continue;
2413 Double_t deltaPt = jet->Pt() - embeddedJet->Pt();
2414 Double_t deltaR = jet->DeltaR((AliVParticle*) (embeddedJet));
2416 fh2DeltaPtVsJetPtEmbedded->Fill(embeddedJet->Pt(),deltaPt);
2417 fh2DeltaPtVsRecJetPtEmbedded->Fill(jet->Pt(),deltaPt);
2418 fh1DeltaREmbedded->Fill(deltaR);
2422 // get tracks in jet
2423 TList* jettracklist = new TList();
2424 Double_t sumPt = 0.;
2425 Bool_t isBadJet = kFALSE;
2427 if(GetFFRadius()<=0){
2428 GetJetTracksTrackrefs(jettracklist, jet, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJet);
2430 if(fUseEmbeddedJetAxis){
2431 if(embeddedJet) GetJetTracksPointing(fTracksRecCuts, jettracklist, embeddedJet,
2432 GetFFRadius(), sumPt, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJet);
2434 else GetJetTracksPointing(fTracksRecCuts, jettracklist, jet,
2435 GetFFRadius(), sumPt, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJet);
2438 if(GetFFMinNTracks()>0 && jettracklist->GetSize()<=GetFFMinNTracks()) isBadJet = kTRUE;
2440 if(isBadJet) continue;
2442 if(ptFractionEmbedded>=fCutFractionPtEmbedded){ // if no embedding: ptFraction = cutFraction = 0
2444 for(Int_t it=0; it<jettracklist->GetSize(); ++it){
2446 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(jettracklist->At(it));
2447 if(!trackVP)continue;
2449 AliAODTrack * aodtrack = dynamic_cast<AliAODTrack*>(jettracklist->At(it));
2450 if(!aodtrack) continue;
2452 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
2454 Float_t jetPt = jet->Pt();
2455 if(fUseEmbeddedJetPt){
2456 if(embeddedJet) jetPt = embeddedJet->Pt();
2459 Float_t trackPt = trackV->Pt();
2461 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
2463 if(fFFMode && (ij==0)) fFFHistosRecCuts->FillFF(trackPt, jetPt, incrementJetPt);
2464 if(fFFMode) fFFHistosRecCutsInc->FillFF(trackPt, jetPt, incrementJetPt);
2466 if(it==0){ // leading track
2467 if(fFFMode) fFFHistosRecLeadingTrack->FillFF( trackPt, jetPt, kTRUE);
2474 if(fBckgMode && (ij==0)){
2475 if(fBckgType[0]!=kBckgNone)
2476 FillBckgHistos(fBckgType[0], fTracksRecCuts, fJetsRecCuts, jet,
2477 fFFBckgHisto0RecCuts,fQABckgHisto0RecCuts, fh1BckgMult0);
2478 if(fBckgType[1]!=kBckgNone)
2479 FillBckgHistos(fBckgType[1], fTracksRecCuts, fJetsRecCuts, jet,
2480 fFFBckgHisto1RecCuts,fQABckgHisto1RecCuts, fh1BckgMult1);
2481 if(fBckgType[2]!=kBckgNone)
2482 FillBckgHistos(fBckgType[2], fTracksRecCuts, fJetsRecCuts, jet,
2483 fFFBckgHisto2RecCuts,fQABckgHisto2RecCuts, fh1BckgMult2);
2484 if(fBckgType[3]!=kBckgNone)
2485 FillBckgHistos(fBckgType[3], fTracksRecCuts, fJetsRecCuts, jet,
2486 fFFBckgHisto3RecCuts,fQABckgHisto3RecCuts, fh1BckgMult3);
2487 if(fBckgType[4]!=kBckgNone)
2488 FillBckgHistos(fBckgType[4], fTracksRecCuts, fJetsRecCuts, jet,
2489 fFFBckgHisto4RecCuts,fQABckgHisto4RecCuts, fh1BckgMult4);
2490 } // end if(fBckgMode)
2493 if(fJSMode && (ij==0)) FillJetShape(jet, jettracklist, fProNtracksLeadingJet, fProDelRPtSum, fProDelR80pcPt);
2495 delete jettracklist;
2497 } // end: cut embedded ratio
2498 } // end: rec. jets after cuts
2501 for(Int_t ij=0; ij<nGenJets; ++ij){
2503 AliAODJet* jet = dynamic_cast<AliAODJet*>(fJetsGen->At(ij));
2506 if(fQAMode&2) fQAJetHistosGen->FillJetQA( jet->Eta(), TVector2::Phi_0_2pi(jet->Phi()), jet->Pt());
2508 if(fQAMode&2 && (ij==0)) fQAJetHistosGenLeading->FillJetQA( jet->Eta(), TVector2::Phi_0_2pi(jet->Phi()), jet->Pt());
2510 TList* jettracklist = new TList();
2511 Double_t sumPt = 0.;
2512 Bool_t isBadJet = kFALSE;
2514 if(GetFFRadius()<=0){
2515 GetJetTracksTrackrefs(jettracklist, jet, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJet);
2517 GetJetTracksPointing(fTracksGen, jettracklist, jet, GetFFRadius(), sumPt, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJet);
2520 if(GetFFMinNTracks()>0 && jettracklist->GetSize()<=GetFFMinNTracks()) isBadJet = kTRUE;;
2522 if(isBadJet) continue;
2524 for(Int_t it=0; it<jettracklist->GetSize(); ++it){
2526 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(jettracklist->At(it));
2527 if(!trackVP)continue;
2528 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
2530 Float_t jetPt = jet->Pt();
2531 Float_t trackPt = trackV->Pt();
2533 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
2535 if(fFFMode && (ij==0)) fFFHistosGen->FillFF( trackPt, jetPt, incrementJetPt );
2536 if(fFFMode) fFFHistosGenInc->FillFF( trackPt, jetPt, incrementJetPt );
2538 if(it==0){ // leading track
2539 if(fFFMode) fFFHistosGenLeadingTrack->FillFF( trackPt, jetPt, kTRUE );
2545 if(fBckgMode && (ij==0)){
2546 if(fBckgType[0]!=kBckgNone)
2547 FillBckgHistos(fBckgType[0], fTracksGen, fJetsGen, jet,
2548 fFFBckgHisto0Gen, fQABckgHisto0Gen);
2549 if(fBckgType[1]!=kBckgNone)
2550 FillBckgHistos(fBckgType[1], fTracksGen, fJetsGen, jet,
2551 fFFBckgHisto1Gen, fQABckgHisto1Gen);
2552 if(fBckgType[2]!=kBckgNone)
2553 FillBckgHistos(fBckgType[2], fTracksGen, fJetsGen, jet,
2554 fFFBckgHisto2Gen, fQABckgHisto2Gen);
2555 if(fBckgType[3]!=kBckgNone)
2556 FillBckgHistos(fBckgType[3], fTracksGen, fJetsGen, jet,
2557 fFFBckgHisto3Gen, fQABckgHisto3Gen);
2558 if(fBckgType[4]!=kBckgNone)
2559 FillBckgHistos(fBckgType[4], fTracksGen, fJetsGen, jet,
2560 fFFBckgHisto4Gen, fQABckgHisto4Gen);
2561 } // end if(fBckgMode)
2563 if(fJSMode && (ij==0)) FillJetShape(jet, jettracklist, fProNtracksLeadingJetGen, fProDelRPtSumGen, fProDelR80pcPtGen);
2565 delete jettracklist;
2567 } // end: QA, FF and intra-jet
2570 // ____ efficiency _______________________________
2572 if(fEffMode && (fJetTypeRecEff != kJetsUndef)){
2574 // arrays holding for each generated particle the reconstructed AOD track index & isPrimary flag, are initialized in AssociateGenRec(...) function
2578 // array holding for each reconstructed AOD track generated particle index, initialized in AssociateGenRec(...) function
2581 // ... and another set for secondaries from strange/non strange mothers (secondary MC tracks are stored in different lists)
2582 TArrayI indexAODTrSecNS;
2584 TArrayI indexMCTrSecNS;
2586 TArrayI indexAODTrSecS;
2588 TArrayI indexMCTrSecS;
2590 Int_t nTracksAODMCCharged = GetListOfTracks(fTracksAODMCCharged, kTrackAODMCCharged);
2591 if(fDebug>2)Printf("%s:%d selected AODMC tracks: %d ",(char*)__FILE__,__LINE__,nTracksAODMCCharged);
2593 Int_t nTracksAODMCChargedSecNS = GetListOfTracks(fTracksAODMCChargedSecNS, kTrackAODMCChargedSecNS);
2594 if(fDebug>2)Printf("%s:%d selected AODMC secondary tracks NS: %d ",(char*)__FILE__,__LINE__,nTracksAODMCChargedSecNS);
2596 Int_t nTracksAODMCChargedSecS = GetListOfTracks(fTracksAODMCChargedSecS, kTrackAODMCChargedSecS);
2597 if(fDebug>2)Printf("%s:%d selected AODMC secondary tracks S: %d ",(char*)__FILE__,__LINE__,nTracksAODMCChargedSecS);
2599 Int_t nTracksRecQualityCuts = GetListOfTracks(fTracksRecQualityCuts, kTrackAODQualityCuts);
2600 if(fDebug>2)Printf("%s:%d selected rec tracks quality after cuts, full acceptance/pt : %d ",(char*)__FILE__,__LINE__,nTracksRecQualityCuts);
2602 // associate gen and rec tracks, store indices in TArrays
2603 AssociateGenRec(fTracksAODMCCharged,fTracksRecQualityCuts,indexAODTr,indexMCTr,isGenPrim,fh2PtRecVsGenPrim);
2604 AssociateGenRec(fTracksAODMCChargedSecNS,fTracksRecQualityCuts,indexAODTrSecNS,indexMCTrSecNS,isGenSecNS,fh2PtRecVsGenSec);
2605 AssociateGenRec(fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,indexMCTrSecS,isGenSecS,fh2PtRecVsGenSec);
2608 if(fQAMode&1) FillSingleTrackHistosRecGen(fQATrackHistosRecEffGen,fQATrackHistosRecEffRec,fTracksAODMCCharged,indexAODTr,isGenPrim);
2611 if(fQAMode&1) FillSingleTrackHistosRecGen(0x0,fQATrackHistosSecRecNS,fTracksAODMCChargedSecNS,indexAODTrSecNS,isGenSecNS);
2612 if(fQAMode&1) FillSingleTrackHistosRecGen(0x0,fQATrackHistosSecRecS,fTracksAODMCChargedSecS,indexAODTrSecS,isGenSecS);
2613 if(fQAMode&1) FillSingleTrackHistosRecGen(0x0,fQATrackHistosSecRecSsc,fTracksAODMCChargedSecS,indexAODTrSecS,isGenSecS,kTRUE);
2617 Double_t sumPtGenLeadingJetRecEff = 0;
2618 Double_t sumPtGenLeadingJetSec = 0;
2619 Double_t sumPtRecLeadingJetRecEff = 0;
2621 for(Int_t ij=0; ij<nRecEffJets; ++ij){ // jet loop
2623 AliAODJet* jet = (AliAODJet*)(fJetsRecEff->At(ij));
2625 Bool_t isBadJetGenPrim = kFALSE;
2626 Bool_t isBadJetGenSec = kFALSE;
2627 Bool_t isBadJetRec = kFALSE;
2630 if(ij==0){ // leading jet
2632 // for efficiency: gen tracks from pointing with gen/rec jet
2633 TList* jettracklistGenPrim = new TList();
2635 // if radius<0 -> trackRefs: collect gen tracks in wide radius + fill FF recEff rec histos with tracks contained in track refs
2636 // note : FF recEff gen histos will be somewhat useless in this approach
2638 if(GetFFRadius() >0)
2639 GetJetTracksPointing(fTracksAODMCCharged, jettracklistGenPrim, jet, GetFFRadius(), sumPtGenLeadingJetRecEff, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJetGenPrim);
2641 GetJetTracksPointing(fTracksAODMCCharged, jettracklistGenPrim, jet, TMath::Abs(GetFFRadius())+0.2, sumPtGenLeadingJetRecEff, GetFFMinLTrackPt(), GetFFMaxTrackPt(), isBadJetGenPrim);
2643 TList* jettracklistGenSecNS = new TList();
2644 if(GetFFRadius() >0)
2645 GetJetTracksPointing(fTracksAODMCChargedSecNS, jettracklistGenSecNS, jet, GetFFRadius(), sumPtGenLeadingJetSec, GetFFMinLTrackPt() , GetFFMaxTrackPt(), isBadJetGenSec);
2647 GetJetTracksPointing(fTracksAODMCChargedSecNS, jettracklistGenSecNS, jet, TMath::Abs(GetFFRadius())+0.2, sumPtGenLeadingJetSec, GetFFMinLTrackPt() , GetFFMaxTrackPt(), isBadJetGenSec);
2649 TList* jettracklistGenSecS = new TList();
2650 if(GetFFRadius() >0)
2651 GetJetTracksPointing(fTracksAODMCChargedSecS, jettracklistGenSecS, jet, GetFFRadius(), sumPtGenLeadingJetSec, GetFFMinLTrackPt() , GetFFMaxTrackPt(), isBadJetGenSec);
2653 GetJetTracksPointing(fTracksAODMCChargedSecS, jettracklistGenSecS, jet, TMath::Abs(GetFFRadius())+0.2, sumPtGenLeadingJetSec, GetFFMinLTrackPt() , GetFFMaxTrackPt(), isBadJetGenSec);
2656 // bin efficiency in jet pt bins using rec tracks
2657 TList* jettracklistRec = new TList();
2658 if(GetFFRadius() >0) GetJetTracksPointing(fTracksRecCuts,jettracklistRec, jet, GetFFRadius(), sumPtRecLeadingJetRecEff, GetFFMinLTrackPt() , GetFFMaxTrackPt(), isBadJetRec);
2659 else GetJetTracksTrackrefs(jettracklistRec, jet, GetFFMinLTrackPt() , GetFFMaxTrackPt(), isBadJetRec);
2662 Double_t jetEta = jet->Eta();
2663 Double_t jetPhi = TVector2::Phi_0_2pi(jet->Phi());
2665 if(GetFFMinNTracks()>0 && jettracklistGenPrim->GetSize()<=GetFFMinNTracks()) isBadJetGenPrim = kTRUE;
2666 if(GetFFMinNTracks()>0 && jettracklistGenSecNS->GetSize()<=GetFFMinNTracks()) isBadJetGenSec = kTRUE;
2667 if(GetFFMinNTracks()>0 && jettracklistRec->GetSize()<=GetFFMinNTracks()) isBadJetRec = kTRUE;
2669 if(isBadJetRec) continue;
2671 if(fQAMode&2) fQAJetHistosRecEffLeading->FillJetQA( jetEta, jetPhi, sumPtGenLeadingJetRecEff );
2675 if(GetFFRadius()>0) FillJetTrackHistosRec(fFFHistosRecEffRec,jet,
2676 jettracklistGenPrim,fTracksAODMCCharged,fTracksRecQualityCuts,indexAODTr,isGenPrim,
2677 0,kFALSE,fJSMode,fProNtracksLeadingJetRecPrim,fProDelRPtSumRecPrim,fProDelR80pcPtRecPrim);
2679 else FillJetTrackHistosRec(fFFHistosRecEffRec,jet,
2680 jettracklistGenPrim,fTracksAODMCCharged,fTracksRecQualityCuts,indexAODTr,isGenPrim,
2681 jettracklistRec,kFALSE,fJSMode,fProNtracksLeadingJetRecPrim,fProDelRPtSumRecPrim,fProDelR80pcPtRecPrim);
2684 // secondaries: use jet pt from primaries
2685 if(GetFFRadius()>0) FillJetTrackHistosRec(fFFHistosSecRecNS,jet,
2686 jettracklistGenSecNS,fTracksAODMCChargedSecNS,fTracksRecQualityCuts, indexAODTrSecNS,isGenSecNS,
2687 0,kFALSE,fJSMode,fProNtracksLeadingJetRecSecNS,fProDelRPtSumRecSecNS);
2689 else FillJetTrackHistosRec(fFFHistosSecRecNS,jet,
2690 jettracklistGenSecNS,fTracksAODMCChargedSecNS,fTracksRecQualityCuts,indexAODTrSecNS,isGenSecNS,
2691 jettracklistRec,kFALSE,fJSMode,fProNtracksLeadingJetRecSecNS,fProDelRPtSumRecSecNS);
2693 if(GetFFRadius()>0) FillJetTrackHistosRec(fFFHistosSecRecS,jet,
2694 jettracklistGenSecS,fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,isGenSecS,
2695 0,kFALSE,fJSMode,fProNtracksLeadingJetRecSecS,fProDelRPtSumRecSecS);
2697 else FillJetTrackHistosRec(fFFHistosSecRecS,jet,
2698 jettracklistGenSecS,fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,isGenSecS,
2699 jettracklistRec,kFALSE,fJSMode,fProNtracksLeadingJetRecSecS,fProDelRPtSumRecSecS);
2701 if(GetFFRadius()>0) FillJetTrackHistosRec(fFFHistosSecRecSsc,jet,
2702 jettracklistGenSecS,fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,isGenSecS,
2703 0,kTRUE,fJSMode,fProNtracksLeadingJetRecSecSsc,fProDelRPtSumRecSecSsc);
2705 else FillJetTrackHistosRec(fFFHistosSecRecSsc,jet,
2706 jettracklistGenSecS,fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,isGenSecS,
2707 jettracklistRec,kTRUE,fJSMode,fProNtracksLeadingJetRecSecSsc,fProDelRPtSumRecSecSsc);
2710 delete jettracklistGenPrim;
2711 delete jettracklistGenSecNS;
2712 delete jettracklistGenSecS;
2713 delete jettracklistRec;
2716 if(fBckgMode && fFFMode){
2718 TList* perpjettracklistGen = new TList();
2719 TList* perpjettracklistGen1 = new TList();
2720 TList* perpjettracklistGen2 = new TList();
2722 Double_t sumPtGenPerp = 0.;
2723 Double_t sumPtGenPerp1 = 0.;
2724 Double_t sumPtGenPerp2 = 0.;
2725 GetTracksTiltedwrpJetAxis(TMath::Pi()/2.,fTracksAODMCCharged, perpjettracklistGen1, jet, TMath::Abs(GetFFRadius()) , sumPtGenPerp1);
2726 GetTracksTiltedwrpJetAxis(-1*TMath::Pi()/2.,fTracksAODMCCharged, perpjettracklistGen2, jet, TMath::Abs(GetFFRadius()) , sumPtGenPerp2);
2728 perpjettracklistGen->AddAll(perpjettracklistGen1);
2729 perpjettracklistGen->AddAll(perpjettracklistGen2);
2730 sumPtGenPerp = 0.5*(sumPtGenPerp1+sumPtGenPerp2);
2732 TList* perpjettracklistGenSecNS = new TList();
2733 TList* perpjettracklistGenSecNS1 = new TList();
2734 TList* perpjettracklistGenSecNS2 = new TList();
2736 Double_t sumPtGenPerpNS;
2737 Double_t sumPtGenPerpNS1;
2738 Double_t sumPtGenPerpNS2;
2739 GetTracksTiltedwrpJetAxis(TMath::Pi()/2.,fTracksAODMCChargedSecNS, perpjettracklistGenSecNS1, jet, TMath::Abs(GetFFRadius()) , sumPtGenPerpNS1);
2740 GetTracksTiltedwrpJetAxis(-1*TMath::Pi()/2.,fTracksAODMCChargedSecNS, perpjettracklistGenSecNS2, jet, TMath::Abs(GetFFRadius()) , sumPtGenPerpNS2);
2742 perpjettracklistGenSecNS->AddAll(perpjettracklistGenSecNS1);
2743 perpjettracklistGenSecNS->AddAll(perpjettracklistGenSecNS2);
2744 sumPtGenPerpNS = 0.5*(sumPtGenPerpNS1+sumPtGenPerpNS2);
2747 TList* perpjettracklistGenSecS = new TList();
2748 TList* perpjettracklistGenSecS1 = new TList();
2749 TList* perpjettracklistGenSecS2 = new TList();
2751 Double_t sumPtGenPerpS;
2752 Double_t sumPtGenPerpS1;
2753 Double_t sumPtGenPerpS2;
2754 GetTracksTiltedwrpJetAxis(TMath::Pi()/2.,fTracksAODMCChargedSecS, perpjettracklistGenSecS1, jet, TMath::Abs(GetFFRadius()) , sumPtGenPerpS1);
2755 GetTracksTiltedwrpJetAxis(-1*TMath::Pi()/2.,fTracksAODMCChargedSecS, perpjettracklistGenSecS2, jet, TMath::Abs(GetFFRadius()) , sumPtGenPerpS2);
2757 perpjettracklistGenSecS->AddAll(perpjettracklistGenSecS1);
2758 perpjettracklistGenSecS->AddAll(perpjettracklistGenSecS2);
2759 sumPtGenPerpS = 0.5*(sumPtGenPerpS1+sumPtGenPerpS2);
2762 if(perpjettracklistGen->GetSize() != perpjettracklistGen1->GetSize() + perpjettracklistGen2->GetSize()){
2763 cout<<" ERROR: perpjettracklistGen size "<<perpjettracklistGen->GetSize()<<" perp1 "<<perpjettracklistGen1->GetSize()
2764 <<" perp2 "<<perpjettracklistGen2->GetSize()<<endl;
2768 if(perpjettracklistGenSecNS->GetSize() != perpjettracklistGenSecNS1->GetSize() + perpjettracklistGenSecNS2->GetSize()){
2769 cout<<" ERROR: perpjettracklistGenSecNS size "<<perpjettracklistGenSecNS->GetSize()<<" perp1 "<<perpjettracklistGenSecNS1->GetSize()
2770 <<" perp2 "<<perpjettracklistGenSecNS2->GetSize()<<endl;
2774 if(perpjettracklistGenSecS->GetSize() != perpjettracklistGenSecS1->GetSize() + perpjettracklistGenSecS2->GetSize()){
2775 cout<<" ERROR: perpjettracklistGenSecS size "<<perpjettracklistGenSecS->GetSize()<<" perp1 "<<perpjettracklistGenSecS1->GetSize()
2776 <<" perp2 "<<perpjettracklistGenSecS2->GetSize()<<endl;
2781 FillJetTrackHistosRec(fFFBckgHisto0RecEffRec,jet,
2782 perpjettracklistGen,fTracksAODMCCharged,fTracksRecQualityCuts,indexAODTr,isGenPrim);
2784 FillJetTrackHistosRec(fFFBckgHisto0SecRecNS,jet,
2785 perpjettracklistGenSecNS,fTracksAODMCChargedSecNS,fTracksRecQualityCuts,indexAODTrSecNS,isGenSecNS);
2787 FillJetTrackHistosRec(fFFBckgHisto0SecRecS,jet,
2788 perpjettracklistGenSecS,fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,isGenSecS);
2790 FillJetTrackHistosRec(fFFBckgHisto0SecRecSsc,jet,
2791 perpjettracklistGenSecS,fTracksAODMCChargedSecS,fTracksRecQualityCuts,indexAODTrSecS,isGenSecS,0,kTRUE);
2794 delete perpjettracklistGen;
2795 delete perpjettracklistGen1;
2796 delete perpjettracklistGen2;
2798 delete perpjettracklistGenSecNS;
2799 delete perpjettracklistGenSecNS1;
2800 delete perpjettracklistGenSecNS2;
2802 delete perpjettracklistGenSecS;
2803 delete perpjettracklistGenSecS1;
2804 delete perpjettracklistGenSecS2;
2811 //___________________
2813 fTracksRecCuts->Clear();
2814 fTracksGen->Clear();
2815 fTracksAODMCCharged->Clear();
2816 fTracksAODMCChargedSecNS->Clear();
2817 fTracksAODMCChargedSecS->Clear();
2818 fTracksRecQualityCuts->Clear();
2821 fJetsRecCuts->Clear();
2823 fJetsRecEff->Clear();
2824 fJetsEmbedded->Clear();
2828 (fBckgType[0]==kBckgClusters || fBckgType[1]==kBckgClusters || fBckgType[2]==kBckgClusters || fBckgType[3]==kBckgClusters || fBckgType[4]==kBckgClusters ||
2829 fBckgType[0]==kBckgClustersOutLeading || fBckgType[1]==kBckgClustersOutLeading || fBckgType[2]==kBckgClustersOutLeading ||
2830 fBckgType[3]==kBckgClustersOutLeading || fBckgType[4]==kBckgClustersOutLeading)){
2832 fBckgJetsRec->Clear();
2833 fBckgJetsRecCuts->Clear();
2834 fBckgJetsGen->Clear();
2839 PostData(1, fCommonHistList);
2842 //______________________________________________________________
2843 void AliAnalysisTaskFragmentationFunction::Terminate(Option_t *)
2847 if(fDebug > 1) printf("AliAnalysisTaskFragmentationFunction::Terminate() \n");
2850 //_________________________________________________________________________________
2851 Int_t AliAnalysisTaskFragmentationFunction::GetListOfTracks(TList *list, Int_t type)
2853 // fill list of tracks selected according to type
2855 if(fDebug > 2) Printf("%s:%d Selecting tracks with %d", (char*)__FILE__,__LINE__,type);
2858 if(fDebug>1) Printf("%s:%d no input list", (char*)__FILE__,__LINE__);
2862 if(!fAOD) return -1;
2864 if(!fAOD->GetTracks()) return 0;
2866 if(type==kTrackUndef) return 0;
2870 if(type==kTrackAODExtraCuts || type==kTrackAODExtraonlyCuts || type==kTrackAODExtra || type==kTrackAODExtraonly){
2872 TClonesArray *aodExtraTracks = dynamic_cast<TClonesArray*>(fAOD->FindListObject("aodExtraTracks"));
2873 if(!aodExtraTracks)return iCount;
2874 for(int it =0; it<aodExtraTracks->GetEntries(); it++) {
2875 AliVParticle *track = dynamic_cast<AliVParticle*> ((*aodExtraTracks)[it]);
2876 if (!track) continue;
2878 AliAODTrack *tr = dynamic_cast<AliAODTrack*> (track);
2881 if(type==kTrackAODExtraCuts || type==kTrackAODExtraonlyCuts){
2883 if((fFilterMask>0)&&!(tr->TestFilterBit(fFilterMask))) continue;
2885 if(tr->Eta() < fTrackEtaMin || tr->Eta() > fTrackEtaMax) continue;
2886 if(tr->Phi() < fTrackPhiMin || tr->Phi() > fTrackPhiMax) continue;
2887 if(tr->Pt() < fTrackPtCut) continue;
2895 if(type==kTrackAODCuts || type==kTrackAODQualityCuts || type==kTrackAOD || type==kTrackAODExtraCuts || type==kTrackAODExtra){
2897 // all rec. tracks, esd filter mask, eta range
2899 for(Int_t it=0; it<fAOD->GetNumberOfTracks(); ++it){
2900 AliAODTrack *tr = fAOD->GetTrack(it);
2902 if(type == kTrackAODCuts || type==kTrackAODQualityCuts || type==kTrackAODExtraCuts){
2904 if((fFilterMask>0)&&!(tr->TestFilterBit(fFilterMask))) continue;
2905 if(type == kTrackAODCuts){
2906 if(tr->Eta() < fTrackEtaMin || tr->Eta() > fTrackEtaMax) continue;
2907 if(tr->Phi() < fTrackPhiMin || tr->Phi() > fTrackPhiMax) continue;
2908 if(tr->Pt() < fTrackPtCut) continue;
2915 else if (type==kTrackKineAll || type==kTrackKineCharged || type==kTrackKineChargedAcceptance){
2916 // kine particles, all or rather charged
2917 if(!fMCEvent) return iCount;
2919 for(Int_t it=0; it<fMCEvent->GetNumberOfTracks(); ++it){
2920 AliMCParticle* part = (AliMCParticle*) fMCEvent->GetTrack(it);
2922 if(type == kTrackKineCharged || type == kTrackKineChargedAcceptance){
2923 if(part->Charge()==0) continue;
2925 if(type == kTrackKineChargedAcceptance &&
2926 ( part->Eta() < fTrackEtaMin
2927 || part->Eta() > fTrackEtaMax
2928 || part->Phi() < fTrackPhiMin
2929 || part->Phi() > fTrackPhiMax
2930 || part->Pt() < fTrackPtCut)) continue;
2937 else if (type==kTrackAODMCCharged || type==kTrackAODMCAll || type==kTrackAODMCChargedAcceptance || type==kTrackAODMCChargedSecNS || type==kTrackAODMCChargedSecS) {
2938 // MC particles (from AOD), physical primaries, all or rather charged or rather charged within acceptance
2939 if(!fAOD) return -1;
2941 TClonesArray *tca = dynamic_cast<TClonesArray*>(fAOD->FindListObject(AliAODMCParticle::StdBranchName()));
2942 if(!tca)return iCount;
2944 for(int it=0; it<tca->GetEntriesFast(); ++it){
2945 AliAODMCParticle *part = dynamic_cast<AliAODMCParticle*>(tca->At(it));
2947 if(type != kTrackAODMCChargedSecNS && type != kTrackAODMCChargedSecS && !part->IsPhysicalPrimary())continue;
2948 if((type == kTrackAODMCChargedSecNS || type == kTrackAODMCChargedSecS) && part->IsPhysicalPrimary())continue;
2950 if (type==kTrackAODMCCharged || type==kTrackAODMCChargedAcceptance || type==kTrackAODMCChargedSecNS || type==kTrackAODMCChargedSecS){
2951 if(part->Charge()==0) continue;
2953 if(type==kTrackAODMCChargedSecNS || type==kTrackAODMCChargedSecS){
2954 Bool_t isFromStrange = kFALSE;
2955 Int_t iMother = part->GetMother();
2957 if(iMother < 0) continue; // throw out PYTHIA stack partons + incoming protons
2959 AliAODMCParticle *partM = dynamic_cast<AliAODMCParticle*>(tca->At(iMother));
2960 if(!partM) continue;
2962 Int_t codeM = TMath::Abs(partM->GetPdgCode());
2963 Int_t mfl = Int_t (codeM/ TMath::Power(10, Int_t(TMath::Log10(codeM))));
2964 if (mfl == 3 && codeM != 3) isFromStrange = kTRUE;
2966 if(codeM == 130) isFromStrange = kTRUE; // K0 long
2967 if(part->IsSecondaryFromMaterial()) isFromStrange = kFALSE; // strange resonances from hadronic showers ?
2970 // cout<<" mfl "<<mfl<<" codeM "<<partM->GetPdgCode()<<" code this track "<<part->GetPdgCode()<<endl;
2971 // cout<<" index this track "<<it<<" index daughter 0 "<<partM->GetDaughter(0)<<" 1 "<<partM->GetDaughter(1)<<endl;
2974 if(type==kTrackAODMCChargedSecNS && isFromStrange) continue;
2975 if(type==kTrackAODMCChargedSecS && !isFromStrange) continue;
2979 if(type==kTrackAODMCChargedAcceptance &&
2980 ( part->Eta() > fTrackEtaMax
2981 || part->Eta() < fTrackEtaMin
2982 || part->Phi() > fTrackPhiMax
2983 || part->Phi() < fTrackPhiMin
2984 || part->Pt() < fTrackPtCut)) continue;
2996 // _______________________________________________________________________________
2997 Int_t AliAnalysisTaskFragmentationFunction::GetListOfJets(TList *list, Int_t type)
2999 // fill list of jets selected according to type
3002 if(fDebug>1) Printf("%s:%d no input list", (char*)__FILE__,__LINE__);
3006 if(type == kJetsRec || type == kJetsRecAcceptance){ // reconstructed jets
3008 if(fBranchRecJets.Length()==0){
3009 Printf("%s:%d no rec jet branch specified", (char*)__FILE__,__LINE__);
3010 if(fDebug>1)fAOD->Print();
3014 TClonesArray *aodRecJets = 0;
3015 if(fBranchRecJets.Length()) aodRecJets = dynamic_cast<TClonesArray*>(fAODJets->FindListObject(fBranchRecJets.Data()));
3016 if(!aodRecJets) aodRecJets = dynamic_cast<TClonesArray*>(fAODJets->GetList()->FindObject(fBranchRecJets.Data()));
3017 if(fAODExtension&&!aodRecJets) aodRecJets = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fBranchRecJets.Data()));
3020 if(fBranchRecJets.Length()) Printf("%s:%d no reconstructed jet array with name %s in AOD", (char*)__FILE__,__LINE__,fBranchRecJets.Data());
3021 if(fDebug>1)fAOD->Print();
3025 // Reorder jet pt and fill new temporary AliAODJet objects
3028 for(Int_t ij=0; ij<aodRecJets->GetEntries(); ++ij){
3030 AliAODJet *tmp = dynamic_cast<AliAODJet*>(aodRecJets->At(ij));
3033 if( tmp->Pt() < fJetPtCut ) continue;
3034 if( tmp->EffectiveAreaCharged() < fJetMinArea ) continue;
3035 if( type == kJetsRecAcceptance &&
3036 ( tmp->Eta() < fJetEtaMin
3037 || tmp->Eta() > fJetEtaMax
3038 || tmp->Phi() < fJetPhiMin
3039 || tmp->Phi() > fJetPhiMax )) continue;
3050 else if(type == kJetsKine || type == kJetsKineAcceptance){
3056 if(fDebug>1) Printf("%s:%d no mcEvent",(char*)__FILE__,__LINE__);
3060 AliGenEventHeader* genHeader = fMCEvent->GenEventHeader();
3061 AliGenPythiaEventHeader* pythiaGenHeader = dynamic_cast<AliGenPythiaEventHeader*>(genHeader);
3062 AliGenHijingEventHeader* hijingGenHeader = 0x0;
3064 if(!pythiaGenHeader){
3065 hijingGenHeader = dynamic_cast<AliGenHijingEventHeader*>(genHeader);
3067 if(!hijingGenHeader){
3068 Printf("%s:%d no pythiaGenHeader or hijingGenHeader found", (char*)__FILE__,__LINE__);
3071 TLorentzVector mom[4];
3073 hijingGenHeader->GetJets(mom[0], mom[1], mom[2], mom[3]);
3075 for(Int_t i=0; i<2; ++i){
3076 if(!mom[i].Pt()) continue;
3077 jet[i] = new AliAODJet(mom[i]);
3079 if( type == kJetsKineAcceptance &&
3080 ( jet[i]->Eta() < fJetEtaMin
3081 || jet[i]->Eta() > fJetEtaMax
3082 || jet[i]->Phi() < fJetPhiMin
3083 || jet[i]->Phi() > fJetPhiMax )) continue;
3093 // fetch the pythia generated jets
3094 for(int ip=0; ip<pythiaGenHeader->NTriggerJets(); ++ip){
3097 AliAODJet *jet = new AliAODJet();
3098 pythiaGenHeader->TriggerJet(ip, p);
3099 jet->SetPxPyPzE(p[0], p[1], p[2], p[3]);
3101 if( type == kJetsKineAcceptance &&
3102 ( jet->Eta() < fJetEtaMin
3103 || jet->Eta() > fJetEtaMax
3104 || jet->Phi() < fJetPhiMin
3105 || jet->Phi() > fJetPhiMax )) continue;
3113 else if(type == kJetsGen || type == kJetsGenAcceptance ){
3115 if(fBranchGenJets.Length()==0){
3116 if(fDebug>1) Printf("%s:%d no gen jet branch specified", (char*)__FILE__,__LINE__);
3120 TClonesArray *aodGenJets = 0;
3121 if(fBranchGenJets.Length()) aodGenJets = dynamic_cast<TClonesArray*>(fAODJets->FindListObject(fBranchGenJets.Data()));
3122 if(!aodGenJets) aodGenJets = dynamic_cast<TClonesArray*>(fAODJets->GetList()->FindObject(fBranchGenJets.Data()));
3123 if(fAODExtension&&!aodGenJets) aodGenJets = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fBranchGenJets.Data()));
3127 if(fBranchGenJets.Length()) Printf("%s:%d Generated jet branch %s not found",(char*)__FILE__,__LINE__,fBranchGenJets.Data());
3129 if(fDebug>1)fAOD->Print();
3135 for(Int_t ig=0; ig<aodGenJets->GetEntries(); ++ig){
3137 AliAODJet *tmp = dynamic_cast<AliAODJet*>(aodGenJets->At(ig));
3140 if( tmp->Pt() < fJetPtCut ) continue;
3141 if( tmp->EffectiveAreaCharged() < fJetMinArea ) continue;
3142 if( type == kJetsGenAcceptance &&
3143 ( tmp->Eta() < fJetEtaMin
3144 || tmp->Eta() > fJetEtaMax
3145 || tmp->Phi() < fJetPhiMin
3146 || tmp->Phi() > fJetPhiMax )) continue;
3154 else if(type == kJetsEmbedded){ // embedded jets
3156 if(fBranchEmbeddedJets.Length()==0){
3157 Printf("%s:%d no embedded jet branch specified", (char*)__FILE__,__LINE__);
3158 if(fDebug>1)fAOD->Print();
3162 TClonesArray *aodEmbeddedJets = 0;
3163 if(fBranchEmbeddedJets.Length()) aodEmbeddedJets = dynamic_cast<TClonesArray*>(fAODJets->FindListObject(fBranchEmbeddedJets.Data()));
3164 if(!aodEmbeddedJets) aodEmbeddedJets = dynamic_cast<TClonesArray*>(fAODJets->GetList()->FindObject(fBranchEmbeddedJets.Data()));
3165 if(fAODExtension&&!aodEmbeddedJets) aodEmbeddedJets = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fBranchEmbeddedJets.Data()));
3167 if(!aodEmbeddedJets){
3168 if(fBranchEmbeddedJets.Length()) Printf("%s:%d no reconstructed jet array with name %s in AOD", (char*)__FILE__,__LINE__,fBranchEmbeddedJets.Data());
3169 if(fDebug>1)fAOD->Print();
3173 // Reorder jet pt and fill new temporary AliAODJet objects
3174 Int_t nEmbeddedJets = 0;
3176 for(Int_t ij=0; ij<aodEmbeddedJets->GetEntries(); ++ij){
3178 AliAODJet *tmp = dynamic_cast<AliAODJet*>(aodEmbeddedJets->At(ij));
3181 if( tmp->Pt() < fJetPtCut ) continue;
3182 if( tmp->EffectiveAreaCharged() < fJetMinArea ) continue;
3183 if( tmp->Eta() < fJetEtaMin
3184 || tmp->Eta() > fJetEtaMax
3185 || tmp->Phi() < fJetPhiMin
3186 || tmp->Phi() > fJetPhiMax ) continue;
3194 return nEmbeddedJets;
3197 if(fDebug>0)Printf("%s:%d no such type %d",(char*)__FILE__,__LINE__,type);
3202 // ___________________________________________________________________________________
3203 Int_t AliAnalysisTaskFragmentationFunction::GetListOfBckgJets(TList *list, Int_t type)
3205 // fill list of bgr clusters selected according to type
3207 if(type == kJetsRec || type == kJetsRecAcceptance){ // reconstructed jets
3209 if(fBranchRecBckgClusters.Length()==0){
3210 Printf("%s:%d no rec jet branch specified", (char*)__FILE__,__LINE__);
3211 if(fDebug>1)fAOD->Print();
3215 TClonesArray *aodRecJets = 0;
3216 if(fBranchRecBckgClusters.Length()) aodRecJets = dynamic_cast<TClonesArray*>(fAODJets->FindListObject(fBranchRecBckgClusters.Data()));
3217 if(!aodRecJets) aodRecJets = dynamic_cast<TClonesArray*>(fAODJets->GetList()->FindObject(fBranchRecBckgClusters.Data()));
3218 if(fAODExtension&&!aodRecJets) aodRecJets = dynamic_cast<TClonesArray*>(fAODExtension->GetAOD()->FindListObject(fBranchRecBckgClusters.Data()));
3221 if(fBranchRecBckgClusters.Length()) Printf("%s:%d no reconstructed jet array with name %s in AOD", (char*)__FILE__,__LINE__,fBranchRecBckgClusters.Data());
3222 if(fDebug>1)fAOD->Print();
3226 // Reorder jet pt and fill new temporary AliAODJet objects
3229 for(Int_t ij=0; ij<aodRecJets->GetEntries(); ++ij){
3231 AliAODJet *tmp = dynamic_cast<AliAODJet*>(aodRecJets->At(ij));
3234 // if( tmp->Pt() < fJetPtCut ) continue; // no pt cut on bckg clusters !
3235 if( type == kJetsRecAcceptance &&
3236 ( tmp->Eta() < fJetEtaMin
3237 || tmp->Eta() > fJetEtaMax
3238 || tmp->Phi() < fJetPhiMin
3239 || tmp->Phi() > fJetPhiMax )) continue;
3253 // MC clusters still Under construction
3259 // _________________________________________________________________________________________________________
3260 void AliAnalysisTaskFragmentationFunction::SetProperties(THnSparse* h, Int_t dim, const char** labels)
3262 // Set properties of THnSparse
3264 for(Int_t i=0; i<dim; i++){
3265 h->GetAxis(i)->SetTitle(labels[i]);
3266 h->GetAxis(i)->SetTitleColor(1);
3270 // __________________________________________________________________________________________
3271 void AliAnalysisTaskFragmentationFunction::SetProperties(TH1* h,const char* x, const char* y)
3273 //Set properties of histos (x and y title)
3277 h->GetXaxis()->SetTitleColor(1);
3278 h->GetYaxis()->SetTitleColor(1);
3281 // _________________________________________________________________________________________________________
3282 void AliAnalysisTaskFragmentationFunction::SetProperties(TH1* h,const char* x, const char* y, const char* z)
3284 //Set properties of histos (x,y and z title)
3289 h->GetXaxis()->SetTitleColor(1);
3290 h->GetYaxis()->SetTitleColor(1);
3291 h->GetZaxis()->SetTitleColor(1);
3294 // ________________________________________________________________________________________________________________________________________________________
3295 void AliAnalysisTaskFragmentationFunction::GetJetTracksPointing(TList* inputlist, TList* outputlist, const AliAODJet* jet,
3296 Double_t radius, Double_t& sumPt, Double_t minPtL, Double_t maxPt, Bool_t& isBadPt)
3298 // fill list of tracks in cone around jet axis
3301 Bool_t isBadMaxPt = kFALSE;
3302 Bool_t isBadMinPt = kTRUE;
3305 jet->PxPyPz(jetMom);
3306 TVector3 jet3mom(jetMom);
3308 for (Int_t itrack=0; itrack<inputlist->GetSize(); itrack++){
3310 AliVParticle* track = dynamic_cast<AliVParticle*>(inputlist->At(itrack));
3312 Double_t trackMom[3];
3313 track->PxPyPz(trackMom);
3314 TVector3 track3mom(trackMom);
3316 Double_t dR = jet3mom.DeltaR(track3mom);
3320 outputlist->Add(track);
3322 sumPt += track->Pt();
3324 if(maxPt>0 && track->Pt()>maxPt) isBadMaxPt = kTRUE;
3325 if(minPtL>0 && track->Pt()>minPtL) isBadMinPt = kFALSE;
3330 if(minPtL>0 && isBadMinPt) isBadPt = kTRUE;
3331 if(maxPt>0 && isBadMaxPt) isBadPt = kTRUE;
3336 // _________________________________________________________________________________________________________________________________________________________________
3337 void AliAnalysisTaskFragmentationFunction::GetJetTracksTrackrefs(TList* list, const AliAODJet* jet, Double_t minPtL, Double_t maxPt, Bool_t& isBadPt)
3339 // list of jet tracks from trackrefs
3341 Int_t nTracks = jet->GetRefTracks()->GetEntriesFast();
3343 Bool_t isBadMaxPt = kFALSE;
3344 Bool_t isBadMinPt = kTRUE;
3346 for(Int_t itrack=0; itrack<nTracks; itrack++) {
3348 AliVParticle* track = dynamic_cast<AliVParticle*>(jet->GetRefTracks()->At(itrack));
3350 AliError("expected ref track not found ");
3354 if(track->Pt() < fTrackPtCut) continue; // track refs may contain low pt cut (bug in AliFastJetInput)
3355 if(maxPt>0 && track->Pt()>maxPt) isBadMaxPt = kTRUE;
3356 if(minPtL>0 && track->Pt()>minPtL) isBadMinPt = kFALSE;
3362 if(minPtL>0 && isBadMinPt) isBadPt = kTRUE;
3363 if(maxPt>0 && isBadMaxPt) isBadPt = kTRUE;
3368 // _ ________________________________________________________________________________________________________________________________
3369 void AliAnalysisTaskFragmentationFunction::AssociateGenRec(TList* tracksAODMCCharged,TList* tracksRec, TArrayI& indexAODTr,TArrayI& indexMCTr,
3370 TArrayS& isRefGen,TH2F* fh2PtRecVsGen)
3372 // associate generated and reconstructed tracks, fill TArrays of list indices
3374 Int_t nTracksRec = tracksRec->GetSize();
3375 Int_t nTracksGen = tracksAODMCCharged->GetSize();
3376 TClonesArray *tca = dynamic_cast<TClonesArray*>(fAOD->FindListObject(AliAODMCParticle::StdBranchName()));
3379 if(!nTracksGen) return;
3383 indexAODTr.Set(nTracksGen);
3384 indexMCTr.Set(nTracksRec);
3385 isRefGen.Set(nTracksGen);
3387 indexAODTr.Reset(-1);
3388 indexMCTr.Reset(-1);
3391 // loop over reconstructed tracks, get generated track
3393 for(Int_t iRec=0; iRec<nTracksRec; iRec++){
3395 AliAODTrack* rectrack = dynamic_cast<AliAODTrack*>(tracksRec->At(iRec));
3396 if(!rectrack)continue;
3397 Int_t label = TMath::Abs(rectrack->GetLabel());
3399 // find MC track in our list
3400 AliAODMCParticle* gentrack = dynamic_cast<AliAODMCParticle*> (tca->At(label));
3402 Int_t listIndex = -1;
3403 if(gentrack) listIndex = tracksAODMCCharged->IndexOf(gentrack);
3407 indexAODTr[listIndex] = iRec;
3408 indexMCTr[iRec] = listIndex;
3413 // define reference sample of primaries/secondaries (for reconstruction efficiency / contamination)
3415 for(Int_t iGen=0; iGen<nTracksGen; iGen++){
3417 AliAODMCParticle* gentrack = dynamic_cast<AliAODMCParticle*> (tracksAODMCCharged->At(iGen));
3418 if(!gentrack)continue;
3419 Int_t pdg = gentrack->GetPdgCode();
3421 // 211 - pi, 2212 - proton, 321 - Kaon, 11 - electron, 13 - muon
3422 if(TMath::Abs(pdg) == 211 || TMath::Abs(pdg) == 2212 || TMath::Abs(pdg) == 321 ||
3423 TMath::Abs(pdg) == 11 || TMath::Abs(pdg) == 13){
3425 isRefGen[iGen] = kTRUE;
3427 Int_t iRec = indexAODTr[iGen]; // can be -1 if no good reconstructed track
3430 Float_t genPt = gentrack->Pt();
3431 AliAODTrack* vt = dynamic_cast<AliAODTrack*>(tracksRec->At(iRec));
3433 Float_t recPt = vt->Pt();
3434 fh2PtRecVsGen->Fill(genPt,recPt);
3441 // _____________________________________________________________________________________________________________________________________________
3442 void AliAnalysisTaskFragmentationFunction::FillSingleTrackHistosRecGen(AliFragFuncQATrackHistos* trackQAGen, AliFragFuncQATrackHistos* trackQARec, TList* tracksGen,
3443 const TArrayI& indexAODTr, const TArrayS& isRefGen, Bool_t scaleStrangeness){
3445 // fill QA for single track reconstruction efficiency
3447 Int_t nTracksGen = tracksGen->GetSize();
3449 if(!nTracksGen) return;
3451 for(Int_t iGen=0; iGen<nTracksGen; iGen++){
3453 if(isRefGen[iGen] != 1) continue; // select primaries
3455 AliAODMCParticle* gentrack = dynamic_cast<AliAODMCParticle*> (tracksGen->At(iGen));
3456 if(!gentrack) continue;
3457 Double_t ptGen = gentrack->Pt();
3458 Double_t etaGen = gentrack->Eta();
3459 Double_t phiGen = TVector2::Phi_0_2pi(gentrack->Phi());
3461 // apply same acc & pt cuts as for FF
3463 if(etaGen < fTrackEtaMin || etaGen > fTrackEtaMax) continue;
3464 if(phiGen < fTrackPhiMin || phiGen > fTrackPhiMax) continue;
3465 if(ptGen < fTrackPtCut) continue;
3467 if(trackQAGen) trackQAGen->FillTrackQA(etaGen, phiGen, ptGen);
3469 Int_t iRec = indexAODTr[iGen]; // can be -1 if no good reconstructed track
3471 if(iRec>=0 && trackQARec){
3472 if(scaleStrangeness){
3473 //Double_t weight = GetMCStrangenessFactor(ptGen);
3474 Double_t weight = GetMCStrangenessFactorCMS(gentrack);
3475 trackQARec->FillTrackQA(etaGen, phiGen, ptGen, kFALSE, 0, kTRUE, weight);
3477 else trackQARec->FillTrackQA(etaGen, phiGen, ptGen);
3482 // ______________________________________________________________________________________________________________________________________________________
3484 void AliAnalysisTaskFragmentationFunction::FillJetTrackHistosRec(AliFragFuncHistos* ffhistRec, AliAODJet* jet,
3485 TList* jetTrackList, const TList* tracksGen, const TList* tracksRec, const TArrayI& indexAODTr,
3486 const TArrayS& isRefGen, TList* jetTrackListTR, Bool_t scaleStrangeness,
3487 Bool_t fillJS, TProfile* hProNtracksLeadingJet, TProfile** hProDelRPtSum, TProfile* hProDelR80pcPt)
3489 // fill objects for jet track reconstruction efficiency or secondaries contamination
3490 // arguments histGen/histRec can be of different type: AliFragFuncHistos*, AliFragFuncIntraJetHistos*, ...
3491 // jetTrackListTR pointer: track refs if not NULL
3494 // ensure proper normalization, even for secondaries
3495 Double_t jetPtRec = jet->Pt();
3496 ffhistRec->FillFF(-1, jetPtRec, kTRUE);
3498 Int_t nTracksJet = jetTrackList->GetSize(); // list with AODMC tracks
3499 if(nTracksJet == 0) return;
3501 TList* listRecTracks = new TList();
3502 listRecTracks->Clear();
3504 for(Int_t iTr=0; iTr<nTracksJet; iTr++){ // jet tracks loop
3506 AliAODMCParticle* gentrack = dynamic_cast<AliAODMCParticle*> (jetTrackList->At(iTr));
3507 if(!gentrack)continue;
3508 // find jet track in gen tracks list
3509 Int_t iGen = tracksGen->IndexOf(gentrack);
3512 if(fDebug>0) Printf("%s:%d gen jet track not found ",(char*)__FILE__,__LINE__);
3516 if(isRefGen[iGen] != 1) continue; // select primaries
3518 Double_t ptGen = gentrack->Pt();
3519 Double_t etaGen = gentrack->Eta();
3520 Double_t phiGen = TVector2::Phi_0_2pi(gentrack->Phi());
3522 // gen level acc & pt cuts - skip in case of track refs
3523 if(!jetTrackListTR && (etaGen < fTrackEtaMin || etaGen > fTrackEtaMax)) continue;
3524 if(!jetTrackListTR && (phiGen < fTrackPhiMin || phiGen > fTrackPhiMax)) continue;
3525 if(!jetTrackListTR && ptGen < fTrackPtCut) continue;
3528 Double_t ptRec = -1;
3530 Int_t iRec = indexAODTr[iGen]; // can be -1 if no good reconstructed track
3531 Bool_t isRec = (iRec>=0) ? kTRUE : kFALSE;
3533 Bool_t isJetTrack = kFALSE;
3534 if(!jetTrackListTR) isJetTrack = kTRUE; // skip trackRefs check for tracks in ideal cone
3538 AliAODTrack* rectrack = dynamic_cast<AliAODTrack*> (tracksRec->At(iRec));
3539 if(!rectrack) continue;
3541 ptRec = rectrack->Pt();
3544 Int_t iRecTR = jetTrackListTR->IndexOf(rectrack);
3545 if(iRecTR >=0 ) isJetTrack = kTRUE; // rec tracks assigned to jet
3550 Double_t trackPt = ptRec;
3551 Bool_t incrementJetPt = kFALSE;
3553 if(scaleStrangeness){
3554 //Double_t weight = GetMCStrangenessFactor(ptGen);
3555 Double_t weight = GetMCStrangenessFactorCMS(gentrack);
3557 ffhistRec->FillFF( trackPt, jetPtRec, incrementJetPt, 0, kTRUE, weight );
3560 ffhistRec->FillFF( trackPt, jetPtRec, incrementJetPt );
3563 listRecTracks->Add(rectrack);
3570 if(fillJS) FillJetShape(jet,listRecTracks,hProNtracksLeadingJet, hProDelRPtSum, hProDelR80pcPt,0,0,scaleStrangeness);
3572 delete listRecTracks;
3576 // _____________________________________________________________________________________________________________________________________________________________________
3577 void AliAnalysisTaskFragmentationFunction::GetTracksTiltedwrpJetAxis(Float_t alpha, TList* inputlist, TList* outputlist, const AliAODJet* jet, Double_t radius,Double_t& sumPt)
3579 // List of tracks in cone perpendicular to the jet azimuthal direction
3582 jet->PxPyPz(jetMom);
3584 TVector3 jet3mom(jetMom);
3585 // Rotate phi and keep eta unchanged
3586 Double_t etaTilted = jet3mom.Eta();
3587 Double_t phiTilted = TVector2::Phi_0_2pi(jet3mom.Phi()) + alpha;
3588 if(phiTilted > 2*TMath::Pi()) phiTilted = phiTilted - 2*TMath::Pi();
3590 for (Int_t itrack=0; itrack<inputlist->GetSize(); itrack++){
3593 if( fUseExtraTracksBgr != 1){
3594 if(AliAODTrack* trackAOD = dynamic_cast<AliAODTrack*> (inputlist->At(itrack))){
3595 if(fUseExtraTracksBgr == 0 && ((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3596 if(fUseExtraTracksBgr == -1 && !((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3600 AliVParticle* track = dynamic_cast<AliVParticle*>(inputlist->At(itrack));
3602 Double_t trackMom[3];
3603 track->PxPyPz(trackMom);
3604 TVector3 track3mom(trackMom);
3606 Double_t deta = track3mom.Eta() - etaTilted;
3607 Double_t dphi = TMath::Abs(track3mom.Phi() - phiTilted);
3608 if (dphi > TMath::Pi()) dphi = 2. * TMath::Pi() - dphi;
3609 Double_t dR = TMath::Sqrt(deta * deta + dphi * dphi);
3613 outputlist->Add(track);
3614 sumPt += track->Pt();
3620 // ________________________________________________________________________________________________________________________________________________________
3621 void AliAnalysisTaskFragmentationFunction::GetTracksTiltedwrpJetAxisWindow(Float_t alpha, TList* inputlist, TList* outputlist, const AliAODJet* jet, Double_t radius,Double_t& sumPt,Double_t &normFactor)
3623 // List of tracks in cone perpendicular to the jet azimuthal direction
3626 jet->PxPyPz(jetMom);
3628 TVector3 jet3mom(jetMom);
3629 // Rotate phi and keep eta unchanged
3630 Double_t etaTilted = jet3mom.Eta();
3631 Double_t phiTilted = TVector2::Phi_0_2pi(jet3mom.Phi()) + alpha;
3632 if(phiTilted > 2*TMath::Pi()) phiTilted = phiTilted - 2*TMath::Pi();
3634 for (Int_t itrack=0; itrack<inputlist->GetSize(); itrack++)
3638 if( fUseExtraTracksBgr != 1){
3639 if(AliAODTrack* trackAOD = dynamic_cast<AliAODTrack*> (inputlist->At(itrack))){
3640 if(fUseExtraTracksBgr == 0 && ((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3641 if(fUseExtraTracksBgr == -1 && !((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3645 AliVParticle* track = dynamic_cast<AliVParticle*>(inputlist->At(itrack));
3647 Float_t trackEta = track->Eta();
3648 Float_t trackPhi = track->Phi();
3650 if( ( phiTilted-radius >= 0 ) && ( phiTilted+radius <= 2*TMath::Pi()))
3652 if((trackPhi<=phiTilted+radius) &&
3653 (trackPhi>=phiTilted-radius) &&
3654 (trackEta<=fTrackEtaMax)&&(trackEta>=fTrackEtaMin)) // 0.9 and - 0.9
3656 outputlist->Add(track);
3657 sumPt += track->Pt();
3660 else if( phiTilted-radius < 0 )
3662 if((( trackPhi < phiTilted+radius ) ||
3663 ( trackPhi > 2*TMath::Pi()-(radius-phiTilted) )) &&
3664 (( trackEta <= fTrackEtaMax ) && ( trackEta >= fTrackEtaMin )))
3666 outputlist->Add(track);
3667 sumPt += track->Pt();
3670 else if( phiTilted+radius > 2*TMath::Pi() )
3672 if((( trackPhi > phiTilted-radius ) ||
3673 ( trackPhi < phiTilted+radius-2*TMath::Pi() )) &&
3674 (( trackEta <= fTrackEtaMax ) && ( trackEta >= fTrackEtaMin )))
3676 outputlist->Add(track);
3677 sumPt += track->Pt();
3682 // Jet area - Temporarily added should be modified with the proper jet area value
3683 Float_t areaJet = CalcJetArea(etaTilted,radius);
3684 Float_t areaTilted = 2*radius*(fTrackEtaMax-fTrackEtaMin);
3686 normFactor = (Float_t) 1. / (areaJet / areaTilted);
3691 // ________________________________________________________________________________________________________________________________________________________
3692 void AliAnalysisTaskFragmentationFunction::GetTracksOutOfNJets(Int_t nCases, TList* inputlist, TList* outputlist, TList* jetlist, Double_t& sumPt)
3694 // List of tracks outside cone around N jet axis
3695 // Particles taken randomly
3698 // Int_t nj = jetlist->GetSize();
3699 Float_t rc = TMath::Abs(GetFFRadius());
3700 Float_t rcl = GetFFBckgRadius();
3702 // Estimate jet and background areas
3703 Float_t* areaJet = new Float_t[nCases];
3704 memset(areaJet, 0, sizeof(Float_t) * nCases);
3705 Float_t* areaJetLarge = new Float_t[nCases];
3706 memset(areaJetLarge, 0, sizeof(Float_t) * nCases);
3707 Float_t areaFull = (fTrackEtaMax-fTrackEtaMin)*(fTrackPhiMax-fTrackPhiMin);
3708 Float_t areaOut = areaFull;
3710 //estimate jets and background areas
3713 TList* templist = new TList();
3714 TClonesArray *vect3Jet = new TClonesArray("TVector3",nCases);
3716 for(Int_t ij=0; ij<nCases; ++ij)
3718 // Get jet information
3719 AliAODJet* jet = dynamic_cast<AliAODJet*>(jetlist->At(ij));
3722 jet3mom.SetPtEtaPhi(jet->Pt(),jet->Eta(),jet->Phi());
3723 new((*vect3Jet)[ijet]) TVector3((TVector3)jet3mom);
3724 Float_t etaJet = (Float_t)((TVector3*) vect3Jet->At(ij))->Eta();
3727 areaJet[ij] = CalcJetArea(etaJet,rc);
3729 // Area jet larger angle
3730 areaJetLarge[ij] = CalcJetArea(etaJet,rcl);
3733 areaOut = areaOut - areaJetLarge[ij];
3737 // List of all tracks outside jet areas
3738 for (Int_t itrack=0; itrack<inputlist->GetSize(); itrack++){
3741 if( fUseExtraTracksBgr != 1){
3742 if(AliAODTrack* trackAOD = dynamic_cast<AliAODTrack*> (inputlist->At(itrack))){
3743 if(fUseExtraTracksBgr == 0 && ((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3744 if(fUseExtraTracksBgr == -1 && !((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3748 AliVParticle* track = dynamic_cast<AliVParticle*>(inputlist->At(itrack));
3751 Double_t trackMom[3];
3752 track->PxPyPz(trackMom);
3753 TVector3 track3mom(trackMom);
3755 Double_t *dR = new Double_t[nCases];
3756 for(Int_t ij=0; ij<nCases; ij++)
3757 dR[ij] = (Double_t)((TVector3*) vect3Jet->At(ij))->DeltaR(track3mom);
3759 if((nCases==1 && (dR[0]>rcl)) ||
3760 (nCases==2 && (dR[0]>rcl && dR[1]>rcl)) ||
3761 (nCases==3 && (dR[0]>rcl && dR[1]>rcl && dR[2]>rcl)))
3763 templist->Add(track);
3769 // Take tracks randomly
3770 Int_t nScaled = (Int_t) (nOut * areaJet[0] / areaOut + 0.5);
3771 TArrayI* ar = new TArrayI(nOut);
3773 for(Int_t init=0; init<nOut; init++)
3776 Int_t *randIndex = new Int_t[nScaled];
3777 for(Int_t init2=0; init2<nScaled; init2++)
3778 randIndex[init2] = -1;
3780 // Select nScaled different random numbers in nOut
3781 for(Int_t i=0; i<nScaled; i++)
3783 Int_t* tmpArr = new Int_t[nOut-i];
3784 Int_t temp = fRandom->Integer(nOut-i);
3785 for(Int_t ind = 0; ind< ar->GetSize()-1; ind++)
3787 if(ind<temp) tmpArr[ind] = (*ar)[ind];
3788 else tmpArr[ind] = (*ar)[ind+1];
3790 randIndex[i] = (*ar)[temp];
3792 ar->Set(nOut-i-1,tmpArr);
3798 for(Int_t ipart=0; ipart<nScaled; ipart++)
3800 AliVParticle* track = (AliVParticle*)(templist->At(randIndex[ipart]));
3801 outputlist->Add(track);
3802 sumPt += track->Pt();
3809 delete [] areaJetLarge;
3812 delete [] randIndex;
3816 // ________________________________________________________________________________________________________________________________________________________
3817 void AliAnalysisTaskFragmentationFunction::GetTracksOutOfNJetsStat(Int_t nCases, TList* inputlist, TList* outputlist, TList* jetlist, Double_t& sumPt, Double_t &normFactor)
3819 // List of tracks outside cone around N jet axis
3820 // All particles taken + final scaling factor
3823 Float_t rc = TMath::Abs(GetFFRadius());
3824 Float_t rcl = GetFFBckgRadius();
3826 // Estimate jet and background areas
3827 Float_t* areaJet = new Float_t[nCases];
3828 memset(areaJet, 0, sizeof(Float_t) * nCases);
3829 Float_t* areaJetLarge = new Float_t[nCases];
3830 memset(areaJetLarge, 0, sizeof(Float_t) * nCases);
3831 Float_t areaFull = (fTrackEtaMax-fTrackEtaMin)*(fTrackPhiMax-fTrackPhiMin);
3832 Float_t areaOut = areaFull;
3834 //estimate jets and background areas
3837 TClonesArray *vect3Jet = new TClonesArray("TVector3",nCases);
3839 for(Int_t ij=0; ij<nCases; ++ij)
3841 // Get jet information
3842 AliAODJet* jet = dynamic_cast<AliAODJet*>(jetlist->At(ij));
3845 jet3mom.SetPtEtaPhi(jet->Pt(),jet->Eta(),jet->Phi());
3846 new((*vect3Jet)[ijet]) TVector3((TVector3)jet3mom);
3847 Float_t etaJet = (Float_t)((TVector3*) vect3Jet->At(ij))->Eta();
3850 areaJet[ij] = CalcJetArea(etaJet,rc);
3852 // Area jet larger angle
3853 areaJetLarge[ij] = CalcJetArea(etaJet,rcl);
3855 // Outside jets area
3856 areaOut = areaOut - areaJetLarge[ij];
3860 for (Int_t itrack=0; itrack<inputlist->GetSize(); itrack++){
3863 if( fUseExtraTracksBgr != 1){
3864 if(AliAODTrack* trackAOD = dynamic_cast<AliAODTrack*> (inputlist->At(itrack))){
3865 if(fUseExtraTracksBgr == 0 && ((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3866 if(fUseExtraTracksBgr == -1 && !((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3870 AliVParticle* track = dynamic_cast<AliVParticle*>(inputlist->At(itrack));
3872 Double_t trackMom[3];
3873 track->PxPyPz(trackMom);
3874 TVector3 track3mom(trackMom);
3876 Double_t *dR = new Double_t[nCases];
3877 for(Int_t ij=0; ij<nCases; ij++)
3878 dR[ij] = (Double_t)((TVector3*) vect3Jet->At(ij))->DeltaR(track3mom);
3881 (nCases==1 && (dR[0]>rcl)) ||
3882 (nCases==2 && (dR[0]>rcl && dR[1]>rcl)) ||
3883 (nCases==3 && (dR[0]>rcl && dR[1]>rcl && dR[2]>rcl)))
3885 outputlist->Add(track);
3886 sumPt += track->Pt();
3892 if(nCases==0) areaJet[0] = TMath::Pi()*rc*rc;
3893 normFactor = (Float_t) 1./(areaJet[0] / areaOut);
3898 delete [] areaJetLarge;
3903 // ______________________________________________________________________________________________________________________________________________________
3904 Float_t AliAnalysisTaskFragmentationFunction::CalcJetArea(Float_t etaJet, Float_t rc) const
3906 // calculate area of jet with eta etaJet and radius rc
3908 Float_t detamax = etaJet + rc;
3909 Float_t detamin = etaJet - rc;
3910 Float_t accmax = 0.0; Float_t accmin = 0.0;
3911 if(detamax > fTrackEtaMax){ // sector outside etamax
3912 Float_t h = fTrackEtaMax - etaJet;
3913 accmax = rc*rc*TMath::ACos(h/rc) - h*TMath::Sqrt(rc*rc - h*h);
3915 if(detamin < fTrackEtaMin){ // sector outside etamin
3916 Float_t h = fTrackEtaMax + etaJet;
3917 accmin = rc*rc*TMath::ACos(h/rc) - h*TMath::Sqrt(rc*rc - h*h);
3919 Float_t areaJet = rc*rc*TMath::Pi() - accmax - accmin;
3925 // ___________________________________________________________________________________________________________________________
3926 void AliAnalysisTaskFragmentationFunction::GetClusterTracksOutOf1Jet(AliAODJet* jet, TList* outputlist, Double_t &normFactor)
3928 // fill tracks from bckgCluster branch in list,
3929 // for all clusters outside jet cone
3930 // sum up total area of clusters
3932 Double_t rc = GetFFRadius();
3933 Double_t rcl = GetFFBckgRadius();
3935 Double_t areaTotal = 0;
3936 Double_t sumPtTotal = 0;
3938 for(Int_t ij=0; ij<fBckgJetsRec->GetEntries(); ++ij){
3940 AliAODJet* bgrCluster = (AliAODJet*)(fBckgJetsRec->At(ij)); // not 'recCuts': use all clusters in full eta range
3942 Double_t dR = jet->DeltaR(bgrCluster);
3944 if(dR<rcl) continue;
3946 Double_t clusterPt = bgrCluster->Pt();
3947 Double_t area = bgrCluster->EffectiveAreaCharged();
3949 sumPtTotal += clusterPt;
3951 Int_t nTracksJet = bgrCluster->GetRefTracks()->GetEntries();
3953 for(Int_t it = 0; it<nTracksJet; it++){
3955 // embedded tracks - note: using ref tracks here, fBranchRecBckgClusters has to be consistent
3956 if( fUseExtraTracksBgr != 1){
3957 if(AliAODTrack* trackAOD = dynamic_cast<AliAODTrack*> (bgrCluster->GetTrack(it))){
3958 if(fUseExtraTracksBgr == 0 && ((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3959 if(fUseExtraTracksBgr == -1 && !((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
3963 AliVParticle* track = dynamic_cast<AliVParticle*>(bgrCluster->GetTrack(it));
3964 if(!track) continue;
3966 Float_t trackPt = track->Pt();
3967 Float_t trackEta = track->Eta();
3968 Float_t trackPhi = TVector2::Phi_0_2pi(track->Phi());
3970 if(trackEta < fTrackEtaMin || trackEta > fTrackEtaMax) continue;
3971 if(trackPhi < fTrackPhiMin || trackPhi > fTrackPhiMax) continue;
3972 if(trackPt < fTrackPtCut) continue;
3974 outputlist->Add(track);
3978 Double_t areaJet = TMath::Pi()*rc*rc;
3979 if(areaTotal) normFactor = (Float_t) 1./(areaJet / areaTotal);
3984 // _______________________________________________________________________________________________________________________
3985 void AliAnalysisTaskFragmentationFunction::GetClusterTracksMedian(TList* outputlist, Double_t &normFactor)
3987 // fill tracks from bckgCluster branch,
3988 // using cluster with median density (odd number of clusters)
3989 // or picking randomly one of the two closest to median (even number)
3993 Int_t nBckgClusters = fBckgJetsRec->GetEntries(); // not 'recCuts': use all clusters in full eta range
3995 if(nBckgClusters<3) return; // need at least 3 clusters (skipping 2 highest)
3997 Double_t* bgrDensity = new Double_t[nBckgClusters];
3998 Int_t* indices = new Int_t[nBckgClusters];
4000 for(Int_t ij=0; ij<nBckgClusters; ++ij){
4002 AliAODJet* bgrCluster = (AliAODJet*)(fBckgJetsRec->At(ij));
4003 Double_t clusterPt = bgrCluster->Pt();
4004 Double_t area = bgrCluster->EffectiveAreaCharged();
4006 Double_t density = 0;
4007 if(area>0) density = clusterPt/area;
4009 bgrDensity[ij] = density;
4013 TMath::Sort(nBckgClusters, bgrDensity, indices);
4015 // get median cluster
4017 AliAODJet* medianCluster = 0;
4018 Double_t medianDensity = 0;
4020 if(TMath::Odd(nBckgClusters)){
4022 Int_t medianIndex = indices[(Int_t) (0.5*(nBckgClusters-1))];
4023 medianCluster = (AliAODJet*)(fBckgJetsRec->At(medianIndex));
4025 Double_t clusterPt = medianCluster->Pt();
4026 Double_t area = medianCluster->EffectiveAreaCharged();
4028 if(area>0) medianDensity = clusterPt/area;
4032 Int_t medianIndex1 = indices[(Int_t) (0.5*nBckgClusters-1)];
4033 Int_t medianIndex2 = indices[(Int_t) (0.5*nBckgClusters)];
4035 AliAODJet* medianCluster1 = (AliAODJet*)(fBckgJetsRec->At(medianIndex1));
4036 AliAODJet* medianCluster2 = (AliAODJet*)(fBckgJetsRec->At(medianIndex2));
4038 Double_t density1 = 0;
4039 Double_t clusterPt1 = medianCluster1->Pt();
4040 Double_t area1 = medianCluster1->EffectiveAreaCharged();
4041 if(area1>0) density1 = clusterPt1/area1;
4043 Double_t density2 = 0;
4044 Double_t clusterPt2 = medianCluster2->Pt();
4045 Double_t area2 = medianCluster2->EffectiveAreaCharged();
4046 if(area2>0) density2 = clusterPt2/area2;
4048 medianDensity = 0.5*(density1+density2);
4050 medianCluster = ( (fRandom->Rndm()>0.5) ? medianCluster1 : medianCluster2 ); // select one randomly to avoid adding areas
4053 Int_t nTracksJet = medianCluster->GetRefTracks()->GetEntries();
4055 for(Int_t it = 0; it<nTracksJet; it++){
4057 // embedded tracks - note: using ref tracks here, fBranchRecBckgClusters has to be consistent
4058 if( fUseExtraTracksBgr != 1){
4059 if(AliAODTrack* trackAOD = dynamic_cast<AliAODTrack*> (medianCluster->GetTrack(it))){
4060 if(fUseExtraTracksBgr == 0 && ((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
4061 if(fUseExtraTracksBgr == -1 && !((trackAOD->GetFlags() & AliESDtrack::kEmbedded)>0)) continue;
4065 AliVParticle* track = dynamic_cast<AliVParticle*>(medianCluster->GetTrack(it));
4066 if(!track) continue;
4068 Float_t trackPt = track->Pt();
4069 Float_t trackEta = track->Eta();
4070 Float_t trackPhi = TVector2::Phi_0_2pi(track->Phi());
4072 if(trackEta < fTrackEtaMin || trackEta > fTrackEtaMax) continue;
4073 if(trackPhi < fTrackPhiMin || trackPhi > fTrackPhiMax) continue;
4074 if(trackPt < fTrackPtCut) continue;
4076 outputlist->Add(track);
4079 Double_t areaMedian = medianCluster->EffectiveAreaCharged();
4080 Double_t areaJet = TMath::Pi()*GetFFRadius()*GetFFRadius();
4082 if(areaMedian) normFactor = (Float_t) 1./(areaJet / areaMedian);
4086 delete[] bgrDensity;
4090 // ______________________________________________________________________________________________________________________________________________________
4091 void AliAnalysisTaskFragmentationFunction::FillBckgHistos(Int_t type, TList* inputtracklist, TList* inputjetlist, AliAODJet* jet,
4092 AliFragFuncHistos* ffbckghistocuts, AliFragFuncQATrackHistos* qabckghistocuts, TH1F* fh1Mult){
4094 // List of tracks outside jets for background study
4095 TList* tracklistout2jets = new TList();
4096 TList* tracklistout3jets = new TList();
4097 TList* tracklistout2jetsStat = new TList();
4098 TList* tracklistout3jetsStat = new TList();
4099 Double_t sumPtOut2Jets = 0.;
4100 Double_t sumPtOut3Jets = 0.;
4101 Double_t sumPtOut2JetsStat = 0.;
4102 Double_t sumPtOut3JetsStat = 0.;
4103 Double_t normFactor2Jets = 0.;
4104 Double_t normFactor3Jets = 0.;
4106 Int_t nRecJetsCuts = inputjetlist->GetEntries();
4108 if(nRecJetsCuts>1) {
4109 GetTracksOutOfNJets(2,inputtracklist, tracklistout2jets, inputjetlist, sumPtOut2Jets);
4110 GetTracksOutOfNJetsStat(2,inputtracklist, tracklistout2jetsStat, inputjetlist,sumPtOut2JetsStat, normFactor2Jets);
4113 if(nRecJetsCuts>2) {
4114 GetTracksOutOfNJets(3,inputtracklist, tracklistout3jets, inputjetlist, sumPtOut3Jets);
4115 GetTracksOutOfNJetsStat(3,inputtracklist, tracklistout3jetsStat, inputjetlist, sumPtOut3JetsStat, normFactor3Jets);
4118 if(type==kBckgOutLJ || type==kBckgOutAJ)
4120 TList* tracklistoutleading = new TList();
4121 Double_t sumPtOutLeading = 0.;
4122 GetTracksOutOfNJets(1,inputtracklist, tracklistoutleading, inputjetlist, sumPtOutLeading);
4123 if(type==kBckgOutLJ && fh1Mult) fh1Mult->Fill(tracklistoutleading->GetSize());
4125 for(Int_t it=0; it<tracklistoutleading->GetSize(); ++it){
4127 AliVParticle* trackVP = (AliVParticle*)(tracklistoutleading->At(it));
4128 if(!trackVP) continue;
4129 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4131 Float_t jetPt = jet->Pt();
4132 Float_t trackPt = trackV->Pt();
4134 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4136 if(type==kBckgOutLJ)
4138 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt);
4140 // Fill track QA for background
4141 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt);
4144 // All cases included
4145 if(nRecJetsCuts==1 && type==kBckgOutAJ)
4147 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt );
4151 // Increment jet pt with one entry in case #tracks outside jets = 0
4152 if(tracklistoutleading->GetSize()==0) {
4153 Float_t jetPt = jet->Pt();
4154 Bool_t incrementJetPt = kTRUE;
4155 if(type==kBckgOutLJ)
4157 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4159 // All cases included
4160 if(nRecJetsCuts==1 && type==kBckgOutAJ)
4162 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4165 delete tracklistoutleading;
4167 if(type==kBckgOutLJStat || type==kBckgOutAJStat)
4169 TList* tracklistoutleadingStat = new TList();
4170 Double_t sumPtOutLeadingStat = 0.;
4171 Double_t normFactorLeading = 0.;
4173 GetTracksOutOfNJetsStat(1,inputtracklist, tracklistoutleadingStat, inputjetlist, sumPtOutLeadingStat, normFactorLeading);
4174 if(type==kBckgOutLJStat && fh1Mult) fh1Mult->Fill(tracklistoutleadingStat->GetSize());
4176 for(Int_t it=0; it<tracklistoutleadingStat->GetSize(); ++it){
4178 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistoutleadingStat->At(it));
4179 if(!trackVP) continue;
4180 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4182 Float_t jetPt = jet->Pt();
4183 Float_t trackPt = trackV->Pt();
4184 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4187 if(type==kBckgOutLJStat)
4189 if(fFFMode)ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactorLeading);
4191 // Fill track QA for background
4192 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt); // OB added bgr QA
4195 // All cases included
4196 if(nRecJetsCuts==1 && type==kBckgOutAJStat)
4198 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactorLeading);
4199 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt ); // OB added bgr QA
4204 // Increment jet pt with one entry in case #tracks outside jets = 0
4205 if(tracklistoutleadingStat->GetSize()==0) {
4206 Float_t jetPt = jet->Pt();
4207 Bool_t incrementJetPt = kTRUE;
4208 if(type==kBckgOutLJStat)
4210 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactorLeading);
4212 // All cases included
4213 if(nRecJetsCuts==1 && type==kBckgOutLJStat)
4215 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactorLeading);
4219 delete tracklistoutleadingStat;
4222 if(type==kBckgPerp || type==kBckgPerp2 || type==kBckgPerp2Area)
4224 Double_t sumPtPerp1 = 0.;
4225 Double_t sumPtPerp2 = 0.;
4226 TList* tracklistperp = new TList();
4227 TList* tracklistperp1 = new TList();
4228 TList* tracklistperp2 = new TList();
4231 if(type == kBckgPerp2) norm = 2; // in FillFF() scaleFac = 1/norm = 0.5 - account for double area;
4232 if(type == kBckgPerp2Area) norm = 2*TMath::Pi()*TMath::Abs(GetFFRadius())*TMath::Abs(GetFFRadius()) / jet->EffectiveAreaCharged(); // in FillFF() scaleFac = 1/norm;
4234 GetTracksTiltedwrpJetAxis(TMath::Pi()/2., inputtracklist,tracklistperp1,jet,TMath::Abs(GetFFRadius()),sumPtPerp1);
4235 if(type==kBckgPerp2 || type==kBckgPerp2Area) GetTracksTiltedwrpJetAxis(-1*TMath::Pi()/2., inputtracklist,tracklistperp2,jet,TMath::Abs(GetFFRadius()),sumPtPerp2);
4237 tracklistperp->AddAll(tracklistperp1);
4238 tracklistperp->AddAll(tracklistperp2);
4240 if(tracklistperp->GetSize() != tracklistperp1->GetSize() + tracklistperp2->GetSize()){
4241 cout<<" ERROR: tracklistperp size "<<tracklistperp->GetSize()<<" perp1 "<<tracklistperp1->GetSize()<<" perp2 "<<tracklistperp2->GetSize()<<endl;
4245 if(fh1Mult) fh1Mult->Fill(tracklistperp->GetSize());
4247 for(Int_t it=0; it<tracklistperp->GetSize(); ++it){
4249 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistperp->At(it));
4250 if(!trackVP)continue;
4251 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4253 Float_t jetPt = jet->Pt();
4254 Float_t trackPt = trackV->Pt();
4256 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4258 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, norm );
4260 // Fill track QA for background
4261 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt);
4265 // Increment jet pt with one entry in case #tracks outside jets = 0
4266 if(tracklistperp->GetSize()==0) {
4267 Float_t jetPt = jet->Pt();
4268 Bool_t incrementJetPt = kTRUE;
4269 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4274 // fill for tracklistperp1/2 separately, divide norm by 2
4275 if(type==kBckgPerp){
4276 FillJetShape(jet, tracklistperp, fProNtracksLeadingJetBgrPerp2, fProDelRPtSumBgrPerp2, 0, TMath::Pi()/2., 0., kFALSE);
4278 if(type==kBckgPerp2){
4279 FillJetShape(jet, tracklistperp1, fProNtracksLeadingJetBgrPerp2, fProDelRPtSumBgrPerp2, 0, TMath::Pi()/2., 0., kFALSE);
4280 FillJetShape(jet, tracklistperp2, fProNtracksLeadingJetBgrPerp2, fProDelRPtSumBgrPerp2, 0, -1*TMath::Pi()/2., 0., kFALSE);
4282 if(type==kBckgPerp2Area){ // divide norm by 2: listperp1/2 filled separately
4283 FillJetShape(jet, tracklistperp1, fProNtracksLeadingJetBgrPerp2, fProDelRPtSumBgrPerp2, 0, TMath::Pi()/2., 0.5*norm, kFALSE);
4284 FillJetShape(jet, tracklistperp2, fProNtracksLeadingJetBgrPerp2, fProDelRPtSumBgrPerp2, 0, -1*TMath::Pi()/2., 0.5*norm, kFALSE);
4288 delete tracklistperp;
4289 delete tracklistperp1;
4290 delete tracklistperp2;
4293 if(type==kBckgASide)
4295 Double_t sumPtASide = 0.;
4296 TList* tracklistaside = new TList();
4297 GetTracksTiltedwrpJetAxis(TMath::Pi(),inputtracklist,tracklistaside,jet,TMath::Abs(GetFFRadius()),sumPtASide);
4298 if(fh1Mult) fh1Mult->Fill(tracklistaside->GetSize());
4300 for(Int_t it=0; it<tracklistaside->GetSize(); ++it){
4302 AliVParticle* trackVP = (AliVParticle*)(tracklistaside->At(it));
4303 if(!trackVP) continue;
4304 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4306 Float_t jetPt = jet->Pt();
4307 Float_t trackPt = trackV->Pt();
4309 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4311 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt );
4313 // Fill track QA for background
4314 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt);
4318 if(tracklistaside->GetSize()==0) {
4319 Float_t jetPt = jet->Pt();
4320 Bool_t incrementJetPt = kTRUE;
4321 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4324 delete tracklistaside;
4327 if(type==kBckgASideWindow)
4329 Double_t normFactorASide = 0.;
4330 Double_t sumPtASideW = 0.;
4331 TList* tracklistasidew = new TList();
4332 GetTracksTiltedwrpJetAxisWindow(TMath::Pi(),inputtracklist,tracklistasidew,jet,TMath::Abs(GetFFRadius()),sumPtASideW,normFactorASide);
4333 if(fh1Mult) fh1Mult->Fill(tracklistasidew->GetSize());
4335 for(Int_t it=0; it<tracklistasidew->GetSize(); ++it){
4337 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistasidew->At(it));
4338 if(!trackVP) continue;
4339 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4341 Float_t jetPt = jet->Pt();
4342 Float_t trackPt = trackV->Pt();
4343 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4345 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactorASide);
4347 // Fill track QA for background
4348 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt, kFALSE, normFactorASide);
4352 if(tracklistasidew->GetSize()==0) {
4353 Float_t jetPt = jet->Pt();
4354 Bool_t incrementJetPt = kTRUE;
4355 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactorASide);
4358 delete tracklistasidew;
4361 if(type==kBckgPerpWindow)
4363 Double_t normFactorPerp = 0.;
4364 Double_t sumPtPerpW = 0.;
4365 TList* tracklistperpw = new TList();
4366 GetTracksTiltedwrpJetAxisWindow(TMath::Pi()/2.,inputtracklist,tracklistperpw,jet,TMath::Abs(GetFFRadius()),sumPtPerpW,normFactorPerp);
4367 if(fh1Mult) fh1Mult->Fill(tracklistperpw->GetSize());
4369 for(Int_t it=0; it<tracklistperpw->GetSize(); ++it){
4371 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistperpw->At(it));
4372 if(!trackVP) continue;
4373 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4375 Float_t jetPt = jet->Pt();
4376 Float_t trackPt = trackV->Pt();
4377 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4379 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactorPerp);
4381 // Fill track QA for background
4382 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt, kFALSE, normFactorPerp);
4386 if(tracklistperpw->GetSize()==0) {
4387 Float_t jetPt = jet->Pt();
4388 Bool_t incrementJetPt = kTRUE;
4389 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactorPerp);
4392 delete tracklistperpw;
4396 if(type==kBckgOut2J || type==kBckgOutAJ)
4398 if(type==kBckgOut2J && fh1Mult) fh1Mult->Fill(tracklistout2jets->GetSize());
4399 for(Int_t it=0; it<tracklistout2jets->GetSize(); ++it){
4401 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistout2jets->At(it));
4402 if(!trackVP) continue;
4403 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4405 Float_t jetPt = jet->Pt();
4406 Float_t trackPt = trackV->Pt();
4408 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4410 if(type==kBckgOut2J)
4412 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt );
4413 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt);
4416 // All cases included
4417 if(nRecJetsCuts==2 && type==kBckgOutAJ)
4419 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt );
4424 // Increment jet pt with one entry in case #tracks outside jets = 0
4425 if(tracklistout2jets->GetSize()==0) {
4426 Float_t jetPt = jet->Pt();
4427 Bool_t incrementJetPt = kTRUE;
4428 if(type==kBckgOut2J)
4430 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4432 // All cases included
4433 if(nRecJetsCuts==2 && type==kBckgOutAJ)
4435 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4440 if(type==kBckgOut2JStat || type==kBckgOutAJStat)
4442 for(Int_t it=0; it<tracklistout2jetsStat->GetSize(); ++it){
4444 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistout2jetsStat->At(it));
4445 if(!trackVP) continue;
4446 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4448 Float_t jetPt = jet->Pt();
4449 Float_t trackPt = trackV->Pt();
4450 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4452 if(type==kBckgOut2JStat)
4454 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactor2Jets);
4456 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt ); // OB added bgr QA
4459 // All cases included
4460 if(nRecJetsCuts==2 && type==kBckgOutAJStat)
4462 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactor2Jets);
4464 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt ); // OB added bgr QA
4468 // Increment jet pt with one entry in case #tracks outside jets = 0
4469 if(tracklistout2jetsStat->GetSize()==0) {
4470 Float_t jetPt = jet->Pt();
4471 Bool_t incrementJetPt = kTRUE;
4472 if(type==kBckgOut2JStat)
4474 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactor2Jets);
4476 // All cases included
4477 if(nRecJetsCuts==2 && type==kBckgOutAJStat)
4479 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactor2Jets);
4485 if(type==kBckgOut3J || type==kBckgOutAJ)
4487 if(type==kBckgOut3J && fh1Mult) fh1Mult->Fill(tracklistout3jets->GetSize());
4489 for(Int_t it=0; it<tracklistout3jets->GetSize(); ++it){
4491 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistout3jets->At(it));
4492 if(!trackVP) continue;
4493 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4495 Float_t jetPt = jet->Pt();
4496 Float_t trackPt = trackV->Pt();
4498 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4500 if(type==kBckgOut3J)
4502 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt );
4504 qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt);
4507 // All cases included
4508 if(nRecJetsCuts==3 && type==kBckgOutAJ)
4510 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt );
4515 // Increment jet pt with one entry in case #tracks outside jets = 0
4516 if(tracklistout3jets->GetSize()==0) {
4517 Float_t jetPt = jet->Pt();
4518 Bool_t incrementJetPt = kTRUE;
4519 if(type==kBckgOut3J)
4521 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4523 // All cases included
4524 if(nRecJetsCuts==3 && type==kBckgOutAJ)
4526 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt );
4531 if(type==kBckgOut3JStat || type==kBckgOutAJStat)
4533 for(Int_t it=0; it<tracklistout3jetsStat->GetSize(); ++it){
4535 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistout3jetsStat->At(it));
4536 if(!trackVP) continue;
4537 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4539 Float_t jetPt = jet->Pt();
4540 Float_t trackPt = trackV->Pt();
4541 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4543 if(type==kBckgOut3JStat)
4545 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactor3Jets);
4547 //if(fQAMode&1) qabckghistocuts->FillTrackQA( trackEta, TVector2::Phi_0_2pi(trackPhi), trackPt);
4550 // All cases included
4551 if(nRecJetsCuts==3 && type==kBckgOutAJStat)
4553 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactor3Jets );
4555 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt );
4560 // Increment jet pt with one entry in case #tracks outside jets = 0
4561 if(tracklistout3jetsStat->GetSize()==0) {
4562 Float_t jetPt = jet->Pt();
4563 Bool_t incrementJetPt = kTRUE;
4564 if(type==kBckgOut3JStat)
4566 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactor3Jets);
4568 // All cases included
4569 if(nRecJetsCuts==3 && type==kBckgOutAJStat)
4571 if(fFFMode) ffbckghistocuts->FillFF( -1., jetPt, incrementJetPt, normFactor3Jets);
4577 if(type==kBckgClustersOutLeading){ // clusters bgr: all tracks in clusters out of leading jet
4579 TList* tracklistClustersOutLeading = new TList();
4580 Double_t normFactorClusters = 0;
4581 Float_t jetPt = jet->Pt();
4583 GetClusterTracksOutOf1Jet(jet, tracklistClustersOutLeading, normFactorClusters);
4584 if(fh1Mult) fh1Mult->Fill(tracklistClustersOutLeading->GetSize());
4586 for(Int_t it=0; it<tracklistClustersOutLeading->GetSize(); ++it){
4588 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistClustersOutLeading->At(it));
4589 if(!trackVP) continue;
4590 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4592 Float_t trackPt = trackVP->Pt();
4594 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4596 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactorClusters );
4597 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt );
4602 delete tracklistClustersOutLeading;
4606 if(type == kBckgClusters){ // clusters bgr: all tracks in 'median cluster'
4608 TList* tracklistClustersMedian = new TList();
4609 Double_t normFactorClusters = 0;
4610 Float_t jetPt = jet->Pt();
4612 GetClusterTracksMedian(tracklistClustersMedian, normFactorClusters);
4613 if(fh1Mult) fh1Mult->Fill(tracklistClustersMedian->GetSize());
4615 for(Int_t it=0; it<tracklistClustersMedian->GetSize(); ++it){
4617 AliVParticle* trackVP = dynamic_cast<AliVParticle*>(tracklistClustersMedian->At(it));
4618 if(!trackVP) continue;
4619 TLorentzVector* trackV = new TLorentzVector(trackVP->Px(),trackVP->Py(),trackVP->Pz(),trackVP->P());
4621 Float_t trackPt = trackVP->Pt();
4623 Bool_t incrementJetPt = (it==0) ? kTRUE : kFALSE;
4625 if(fFFMode) ffbckghistocuts->FillFF( trackPt, jetPt, incrementJetPt, normFactorClusters );
4626 if(fQAMode&1) qabckghistocuts->FillTrackQA( trackV->Eta(), TVector2::Phi_0_2pi(trackV->Phi()), trackPt );
4631 delete tracklistClustersMedian;
4634 delete tracklistout2jets;
4635 delete tracklistout3jets;
4636 delete tracklistout2jetsStat;
4637 delete tracklistout3jetsStat;
4640 //_____________________________________________________________________________________
4641 Double_t AliAnalysisTaskFragmentationFunction::GetMCStrangenessFactor(Double_t pt)
4643 // factor strangeness data/MC as function of pt from UE analysis (Sara Vallero)
4647 if(0.150<pt && pt<0.200) alpha = 3.639;
4648 if(0.200<pt && pt<0.250) alpha = 2.097;
4649 if(0.250<pt && pt<0.300) alpha = 1.930;
4650 if(0.300<pt && pt<0.350) alpha = 1.932;
4651 if(0.350<pt && pt<0.400) alpha = 1.943;
4652 if(0.400<pt && pt<0.450) alpha = 1.993;
4653 if(0.450<pt && pt<0.500) alpha = 1.989;
4654 if(0.500<pt && pt<0.600) alpha = 1.963;
4655 if(0.600<pt && pt<0.700) alpha = 1.917;
4656 if(0.700<pt && pt<0.800) alpha = 1.861;
4657 if(0.800<pt && pt<0.900) alpha = 1.820;
4658 if(0.900<pt && pt<1.000) alpha = 1.741;
4659 if(1.000<pt && pt<1.500) alpha = 0.878;
4664 //__________________________________________________________________________________________________
4665 Double_t AliAnalysisTaskFragmentationFunction::GetMCStrangenessFactorCMS(AliAODMCParticle* daughter)
4667 // strangeness ratio MC/data as function of mother pt from CMS data in |eta|<2.0
4669 TClonesArray *tca = dynamic_cast<TClonesArray*>(fAOD->FindListObject(AliAODMCParticle::StdBranchName()));
4672 AliAODMCParticle* currentMother = daughter;
4673 AliAODMCParticle* currentDaughter = daughter;
4676 // find first primary mother K0s, Lambda or Xi
4679 Int_t daughterPDG = currentDaughter->GetPdgCode();
4681 Int_t motherLabel = currentDaughter->GetMother();
4682 if(motherLabel >= tca->GetEntriesFast()){ // protection
4683 currentMother = currentDaughter;
4687 currentMother = (AliAODMCParticle*) tca->At(motherLabel);
4690 currentMother = currentDaughter;
4694 Int_t motherPDG = currentMother->GetPdgCode();
4696 // phys. primary found ?
4697 if(currentMother->IsPhysicalPrimary()) break;
4699 if(TMath::Abs(daughterPDG) == 321){ // K+/K- e.g. from phi (ref data not feeddown corrected)
4700 currentMother = currentDaughter; break;
4702 if(TMath::Abs(motherPDG) == 310 ){ // K0s e.g. from phi (ref data not feeddown corrected)
4705 if(TMath::Abs(motherPDG) == 3212 && TMath::Abs(daughterPDG) == 3122){ // mother Sigma0, daughter Lambda (this case not included in feeddown corr.)
4706 currentMother = currentDaughter; break;
4709 currentDaughter = currentMother;
4713 Int_t motherPDG = currentMother->GetPdgCode();
4714 Double_t motherPt = currentMother->Pt();
4718 if(TMath::Abs(motherPDG) == 310 || TMath::Abs(motherPDG)==321){ // K0s / K+ / K-
4720 if(0.00 <= motherPt && motherPt < 0.20) fac = 0.768049;
4721 else if(0.20 <= motherPt && motherPt < 0.40) fac = 0.732933;
4722 else if(0.40 <= motherPt && motherPt < 0.60) fac = 0.650298;
4723 else if(0.60 <= motherPt && motherPt < 0.80) fac = 0.571332;
4724 else if(0.80 <= motherPt && motherPt < 1.00) fac = 0.518734;
4725 else if(1.00 <= motherPt && motherPt < 1.20) fac = 0.492543;
4726 else if(1.20 <= motherPt && motherPt < 1.40) fac = 0.482704;
4727 else if(1.40 <= motherPt && motherPt < 1.60) fac = 0.488056;
4728 else if(1.60 <= motherPt && motherPt < 1.80) fac = 0.488861;
4729 else if(1.80 <= motherPt && motherPt < 2.00) fac = 0.492862;
4730 else if(2.00 <= motherPt && motherPt < 2.20) fac = 0.504332;
4731 else if(2.20 <= motherPt && motherPt < 2.40) fac = 0.501858;
4732 else if(2.40 <= motherPt && motherPt < 2.60) fac = 0.512970;
4733 else if(2.60 <= motherPt && motherPt < 2.80) fac = 0.524131;
4734 else if(2.80 <= motherPt && motherPt < 3.00) fac = 0.539130;
4735 else if(3.00 <= motherPt && motherPt < 3.20) fac = 0.554101;
4736 else if(3.20 <= motherPt && motherPt < 3.40) fac = 0.560348;
4737 else if(3.40 <= motherPt && motherPt < 3.60) fac = 0.568869;
4738 else if(3.60 <= motherPt && motherPt < 3.80) fac = 0.583310;
4739 else if(3.80 <= motherPt && motherPt < 4.00) fac = 0.604818;
4740 else if(4.00 <= motherPt && motherPt < 5.00) fac = 0.632630;
4741 else if(5.00 <= motherPt && motherPt < 6.00) fac = 0.710070;
4742 else if(6.00 <= motherPt && motherPt < 8.00) fac = 0.736365;
4743 else if(8.00 <= motherPt && motherPt < 10.00) fac = 0.835865;
4746 if(TMath::Abs(motherPDG) == 3122){ // Lambda
4748 if(0.00 <= motherPt && motherPt < 0.20) fac = 0.645162;
4749 else if(0.20 <= motherPt && motherPt < 0.40) fac = 0.627431;
4750 else if(0.40 <= motherPt && motherPt < 0.60) fac = 0.457136;
4751 else if(0.60 <= motherPt && motherPt < 0.80) fac = 0.384369;
4752 else if(0.80 <= motherPt && motherPt < 1.00) fac = 0.330597;
4753 else if(1.00 <= motherPt && motherPt < 1.20) fac = 0.309571;
4754 else if(1.20 <= motherPt && motherPt < 1.40) fac = 0.293620;
4755 else if(1.40 <= motherPt && motherPt < 1.60) fac = 0.283709;
4756 else if(1.60 <= motherPt && motherPt < 1.80) fac = 0.282047;
4757 else if(1.80 <= motherPt && motherPt < 2.00) fac = 0.277261;
4758 else if(2.00 <= motherPt && motherPt < 2.20) fac = 0.275772;
4759 else if(2.20 <= motherPt && motherPt < 2.40) fac = 0.280726;
4760 else if(2.40 <= motherPt && motherPt < 2.60) fac = 0.288540;
4761 else if(2.60 <= motherPt && motherPt < 2.80) fac = 0.288315;
4762 else if(2.80 <= motherPt && motherPt < 3.00) fac = 0.296619;
4763 else if(3.00 <= motherPt && motherPt < 3.20) fac = 0.302993;
4764 else if(3.20 <= motherPt && motherPt < 3.40) fac = 0.338121;
4765 else if(3.40 <= motherPt && motherPt < 3.60) fac = 0.349800;
4766 else if(3.60 <= motherPt && motherPt < 3.80) fac = 0.356802;
4767 else if(3.80 <= motherPt && motherPt < 4.00) fac = 0.391202;
4768 else if(4.00 <= motherPt && motherPt < 5.00) fac = 0.422573;
4769 else if(5.00 <= motherPt && motherPt < 6.00) fac = 0.573815;
4770 else if(6.00 <= motherPt && motherPt < 8.00) fac = 0.786984;
4771 else if(8.00 <= motherPt && motherPt < 10.00) fac = 1.020021;
4774 if(TMath::Abs(motherPDG) == 3312 || TMath::Abs(motherPDG) == 3322){ // xi
4776 if(0.00 <= motherPt && motherPt < 0.20) fac = 0.666620;
4777 else if(0.20 <= motherPt && motherPt < 0.40) fac = 0.575908;
4778 else if(0.40 <= motherPt && motherPt < 0.60) fac = 0.433198;
4779 else if(0.60 <= motherPt && motherPt < 0.80) fac = 0.340901;
4780 else if(0.80 <= motherPt && motherPt < 1.00) fac = 0.290896;
4781 else if(1.00 <= motherPt && motherPt < 1.20) fac = 0.236074;
4782 else if(1.20 <= motherPt && motherPt < 1.40) fac = 0.218681;
4783 else if(1.40 <= motherPt && motherPt < 1.60) fac = 0.207763;
4784 else if(1.60 <= motherPt && motherPt < 1.80) fac = 0.222848;
4785 else if(1.80 <= motherPt && motherPt < 2.00) fac = 0.208806;
4786 else if(2.00 <= motherPt && motherPt < 2.20) fac = 0.197275;
4787 else if(2.20 <= motherPt && motherPt < 2.40) fac = 0.183645;
4788 else if(2.40 <= motherPt && motherPt < 2.60) fac = 0.188788;
4789 else if(2.60 <= motherPt && motherPt < 2.80) fac = 0.188282;
4790 else if(2.80 <= motherPt && motherPt < 3.00) fac = 0.207442;
4791 else if(3.00 <= motherPt && motherPt < 3.20) fac = 0.240388;
4792 else if(3.20 <= motherPt && motherPt < 3.40) fac = 0.241916;
4793 else if(3.40 <= motherPt && motherPt < 3.60) fac = 0.208276;
4794 else if(3.60 <= motherPt && motherPt < 3.80) fac = 0.234550;
4795 else if(3.80 <= motherPt && motherPt < 4.00) fac = 0.251689;
4796 else if(4.00 <= motherPt && motherPt < 5.00) fac = 0.310204;
4797 else if(5.00 <= motherPt && motherPt < 6.00) fac = 0.343492;
4800 Double_t weight = 1;
4801 if(fac > 0) weight = 1/fac;
4806 // _________________________________________________________________________________
4807 void AliAnalysisTaskFragmentationFunction::FillJetShape(AliAODJet* jet, TList* list,
4808 TProfile* hProNtracksLeadingJet, TProfile** hProDelRPtSum, TProfile* hProDelR80pcPt,
4809 Double_t dPhiUE, Double_t normUE, Bool_t scaleStrangeness){
4811 const Int_t kNbinsR = 50;
4812 const Float_t kBinWidthR = 0.02;
4814 Int_t nJetTracks = list->GetEntries();
4816 Float_t PtSumA[kNbinsR] = {0.0};
4818 Float_t *delRA = new Float_t[nJetTracks];
4819 Float_t *trackPtA = new Float_t[nJetTracks];
4820 Int_t *index = new Int_t[nJetTracks];
4822 for(Int_t i=0; i<nJetTracks; i++){
4829 jet->PxPyPz(jetMom);
4830 TVector3 jet3mom(jetMom);
4832 if(TMath::Abs(dPhiUE)>0){
4833 Double_t phiTilted = jet3mom.Phi();
4834 phiTilted += dPhiUE;
4835 phiTilted = TVector2::Phi_0_2pi(phiTilted);
4836 jet3mom.SetPhi(phiTilted);
4839 Double_t jetPt = jet->Pt();
4840 Double_t sumWeights = 0;
4842 for (Int_t j =0; j<nJetTracks; j++){
4844 AliVParticle* track = dynamic_cast<AliVParticle*>(list->At(j));
4847 Double_t trackMom[3];
4848 track->PxPyPz(trackMom);
4849 TVector3 track3mom(trackMom);
4851 Double_t dR = jet3mom.DeltaR(track3mom);
4854 trackPtA[j] = track->Pt();
4856 Double_t weight = GetMCStrangenessFactor(track->Pt()); // more correctly should be gen pt
4857 sumWeights += weight;
4859 for(Int_t ibin=1; ibin<=kNbinsR; ibin++){
4860 Float_t xlow = kBinWidthR*(ibin-1);
4861 Float_t xup = kBinWidthR*ibin;
4862 if(xlow <= dR && dR < xup){
4864 if(scaleStrangeness) PtSumA[ibin-1] += track->Pt()*weight;
4865 else PtSumA[ibin-1] += track->Pt();
4873 for(Int_t ibin=0; ibin<kNbinsR; ibin++){
4874 Float_t fR = kBinWidthR*(ibin+0.5);
4876 for(Int_t k=0; k<5; k++){
4877 if(k==0){jetPtMin=20.0;jetPtMax=30.0;}
4878 if(k==1){jetPtMin=30.0;jetPtMax=40.0;}
4879 if(k==2){jetPtMin=40.0;jetPtMax=60.0;}
4880 if(k==3){jetPtMin=60.0;jetPtMax=80.0;}
4881 if(k==4){jetPtMin=80.0;jetPtMax=100.0;}
4882 if(jetPt>jetPtMin && jetPt<jetPtMax){
4884 hProDelRPtSum[k]->Fill(fR,PtSumA[ibin]);
4890 if(scaleStrangeness) hProNtracksLeadingJet->Fill(jetPt,sumWeights);
4891 else hProNtracksLeadingJet->Fill(jetPt,nJetTracks);
4893 if(normUE) hProNtracksLeadingJet->Fill(jetPt,nJetTracks/normUE);
4898 Float_t delRPtSum80pc = 0;
4900 TMath::Sort(nJetTracks,delRA,index,0);
4902 for(Int_t ii=0; ii<nJetTracks; ii++){
4904 if(scaleStrangeness){
4905 Double_t weight = GetMCStrangenessFactor(trackPtA[index[ii]]); // more correctly should be gen pt
4906 PtSum += weight*trackPtA[index[ii]];
4908 else PtSum += trackPtA[index[ii]];
4911 if(PtSum/jetPt >= 0.8000){
4912 delRPtSum80pc = delRA[index[ii]];
4916 hProDelR80pcPt->Fill(jetPt,delRPtSum80pc);