[ViewVC] Diff of: cvsroot/UserCode/MitAna/DataTree/interface/Muon.h

Comparing UserCode/MitAna/DataTree/interface/Muon.h (file contents):
Revision 1.19 by ceballos, Fri Nov 28 18:05:53 2008 UTC vs.
Revision 1.25 by loizides, Wed Feb 18 15:38:54 2009 UTC

#	Line 3 \| Line 3
3		//
4		// Muon
5		//
6	<	// Details to be worked out... TODO by Phil
6	>	// Classified into 3 Types
7	>	// Standalone : Muon fit from hits in the muon chambers
8	>	// Tracker : Tracker matched track to muon chambers with segments
9	>	// Global : Combined track and muon chambers fit
10	>	//
11	>	// In the muon class all three muon classes exist and can be determined by checking
12	>	// whether a fit track exists for such a Muon (eg HasTrackerTrk() == kTRUE). When
13	>	// BestTrk function is called the global fit is returned, if that does not
14	>	// exist the tracker fit is returned upon that failure the standalone muon
15	>	// is subsequently returned. To consult more see:
16	>	// http://cmsdoc.cern.ch/cms/Physics/muon/MPOG/Notes/MuonReco.pdf
17	>	//
18	>	// Quality Varaibles for Selection
19	>	// Isolation : decomposed to IsoRNNXXXXX
20	>	// NN = 03,05 to denote R =0.3,0.5 in Isolation Cone
21	>	// XXXXX = SumPt - Sum of Pt of Tracks in Cone (using all Pt Tracks)
22	>	// XXXXX = EmEt - Sum of Et of Em component of Calo Towers (Veto=0.08)
23	>	// XXXXX = HadEt - Sum of Et of Had component of Calo Towers (Veto=0.1)
24	>	// XXXXX = HoEt - Sum of Pt of Ho component of Calo Towers (Veto=0.1)
25	>	// XXXXX = NTrk - Number of Tracks within Cone (using all Pt Tracks)
26	>	// XXXXX = NJet - Sum of Jets inside Cone
27	>	//
28	>	// Muon Quality Variables
29	>	// Extracted from the Muon Tracking Associator
30	>	// For more se https://twiki.cern.ch/twiki/bin/view/CMS/TrackAssociator
31	>	// Energy Variables : Energy within (5x5 Ecal Crystal/Hcal/Ho) along Track
32	>	// using calo towers
33	>	// S9 Energy Variables : Energy using reconstructed hits calo towers default
34	>	// Segment Variables :
35	>	// Segment variables are stored in array of 8:
36	>	// 0-3: Correspond to segments in 4 DT chambers in->outward(3 has no Y res)
37	>	// 4-7: Correspond to segments in 4 CSC chambers in->out
38	>	// If value undetermined 999999 is returned.
39	>	// Variables:
40	>	// DX,DY,PullX,PullY: Uncertainties/Pulls of propagated track
41	>	// with respect to local muon segment
42	>	// TrackDist,TrackDistErr: Summed Dist/Err (in X,Y) of segment with respect
43	>	// to propagated track
44	>	// NSegments : Number of segments in muon using Segment+Track Arbitration
45	>	// NChambers : Number of muon chambers traversed in propagated track
46	>	// LastHit : Returns farest (from center) station with a recorded segment
47	>	// LastStation : Returns farest station using Segment+Track Arbitration
48	>	//
49	>	// Muon Id Methods: Please see Muon Id Note(as of now unpublished):
50	>	// https://www.cmsaf.mit.edu/twiki/pub/CmsHep/HepWAnalysis/MuonID-ingo.pdf
51	>	// TMOneStation : Returns bool whether muon passes "Tracker Muon One StationId"
52	>	// -Matching criteria for one of all segments matched to muon
53	>	// TMLastStation : Returns bool whether muon passes "LastStation Id" criteria
54	>	// -Matching criteria for last most segment
55		//
56		// Authors: J.Bendavid, C.Loizides, C.Paus, P.Harris
57		//--------------------------------------------------------------------------------------------------
#	Line 11 \| Line 59
59		#ifndef MITANA_DATATREE_MUON_H
60		#define MITANA_DATATREE_MUON_H
61
14	–	#include <TRef.h>
62		#include "MitAna/DataTree/interface/Track.h"
63		#include "MitAna/DataTree/interface/ChargedParticle.h"
64
65		namespace mithep {
66		class Muon : public ChargedParticle {
67		public:
68	<	Muon() {}
22	<	~Muon() {}
68	>	Muon();
69
70		enum EClassType {
71		kNone, //no track assigned
#	Line 29 \| Line 75 \| namespace mithep {
75		kAny //any "best" of the above
76		};
77
78	<	const Track *BestTrk() const;
79	<	const Track *GlobalTrk() const;
80	<	const Track *StandaloneTrk() const;
81	<	const Track *TrackerTrk() const;
82	<	const Track *Trk() const { return BestTrk(); }
83	<	Double_t IsoR03SumPt() const { return fIsoR03SumPt; }
84	<	Double_t IsoR03EmEt() const { return fIsoR03EmEt; }
85	<	Double_t IsoR03HadEt() const { return fIsoR03HadEt; }
86	<	Double_t IsoR03HoEt() const { return fIsoR03HoEt; }
87	<	Int_t IsoR03NTracks() const { return fIsoR03NTracks; }
88	<	Int_t IsoR03NJets() const { return fIsoR03NJets; }
89	<	Double_t IsoR05SumPt() const { return fIsoR05SumPt; }
90	<	Double_t IsoR05EmEt() const { return fIsoR05EmEt; }
91	<	Double_t IsoR05HadEt() const { return fIsoR05HadEt; }
92	<	Double_t IsoR05HoEt() const { return fIsoR05HoEt; }
93	<	Int_t IsoR05NTracks() const { return fIsoR05NTracks; }
94	<	Int_t IsoR05NJets() const { return fIsoR05NJets; }
95	<	Double_t EmEnergy() const { return fEmEnergy; }
96	<	Double_t HadEnergy() const { return fHadEnergy; }
97	<	Double_t HoEnergy() const { return fHoEnergy; }
98	<	Double_t EmS9Energy() const { return fEmS9Energy; }
99	<	Double_t HadS9Energy() const { return fHadS9Energy; }
100	<	Double_t HoS9Energy() const { return fHoS9Energy; }
101	<	Double_t Mass() const { return 105.658369e-3; }
102	<	Int_t NChambers() const { return fNTraversedChambers; }
103	<	Int_t NSegments() const { return fStationMask.NBitsSet(); }
104	<	Bool_t StationBit(Int_t bit) const { return fStationMask.TestBit(bit); }
105	<	Double_t GetDX(Int_t iStation) const;
106	<	Double_t GetDY(Int_t iStation) const;
107	<	Double_t GetPullX(Int_t iStation) const;
108	<	Double_t GetPullY(Int_t iStation) const;
109	<	Double_t GetTrackDist(Int_t iStation) const;
110	<	Double_t GetTrackDistErr(Int_t iStation) const;
111	<	Int_t GetNSegments(Int_t iStation) const;
112	<	Bool_t Has(EClassType type) const;
113	<	EClassType Is() const;
114	<	Int_t LastHit() const;
78	>	const Track *BestTrk() const;
79	>	const Track *GlobalTrk() const { return fGlobalTrkRef.Obj(); }
80	>	const Track *StandaloneTrk() const { return fStaTrkRef.Obj(); }
81	>	const Track *TrackerTrk() const { return fTrkTrkRef.Obj(); }
82	>	const Track *Trk() const { return BestTrk(); }
83	>	Double_t EmEnergy() const { return fEmEnergy; }
84	>	Double_t EmS9Energy() const { return fEmS9Energy; }
85	>	Double_t GetDX(Int_t iStation) const;
86	>	Double_t GetDY(Int_t iStation) const;
87	>	Double_t GetPullX(Int_t iStation) const;
88	>	Double_t GetPullY(Int_t iStation) const;
89	>	Double_t GetTrackDist(Int_t iStation) const;
90	>	Double_t GetTrackDistErr(Int_t iStation) const;
91	>	Int_t GetNSegments(Int_t iStation) const;
92	>	Bool_t Has(EClassType type) const;
93	>	Bool_t HasTrk() const;
94	>	Bool_t HasGlobalTrk() const { return fGlobalTrkRef.IsValid(); }
95	>	Bool_t HasStandaloneTrk() const { return fStaTrkRef.IsValid(); }
96	>	Bool_t HasTrackerTrk() const { return fTrkTrkRef.IsValid(); }
97	>	Double_t HadEnergy() const { return fHadEnergy; }
98	>	Double_t HadS9Energy() const { return fHadS9Energy; }
99	>	Double_t HoEnergy() const { return fHoEnergy; }
100	>	Double_t HoS9Energy() const { return fHoS9Energy; }
101	>	EClassType Is() const;
102	>	Double_t IsoR03SumPt() const { return fIsoR03SumPt; }
103	>	Double_t IsoR03EmEt() const { return fIsoR03EmEt; }
104	>	Double_t IsoR03HadEt() const { return fIsoR03HadEt; }
105	>	Double_t IsoR03HoEt() const { return fIsoR03HoEt; }
106	>	Int_t IsoR03NTracks() const { return fIsoR03NTracks; }
107	>	Int_t IsoR03NJets() const { return fIsoR03NJets; }
108	>	Double_t IsoR05SumPt() const { return fIsoR05SumPt; }
109	>	Double_t IsoR05EmEt() const { return fIsoR05EmEt; }
110	>	Double_t IsoR05HadEt() const { return fIsoR05HadEt; }
111	>	Double_t IsoR05HoEt() const { return fIsoR05HoEt; }
112	>	Int_t IsoR05NTracks() const { return fIsoR05NTracks; }
113	>	Int_t IsoR05NJets() const { return fIsoR05NJets; }
114	>	Int_t NChambers() const { return fNTraversedChambers; }
115	>	Int_t NSegments() const { return fStationMask.NBitsSet(); }
116	>	Int_t LastHit() const;
117		Int_t LastStation(Double_t iMaxD, Double_t iMaxP) const;
118		Int_t LastStation(Int_t iMax=8) const;
119	+	EObjType ObjType() const { return kMuon; }
120		Bool_t PromptTight(EClassType type) const;
121	+	Bool_t StationBit(Int_t bit) const { return fStationMask.TestBit(bit); }
122		Bool_t TMLastStation(Double_t iDYMin = 3., Double_t iPYMin = 3.,
123		Double_t iDXMin = 3., Double_t iPXMin = 3.,Int_t iN = 2) const;
124		Bool_t TMOneStation(Double_t iDYMin = 3., Double_t iPYMin = 3.,
125		Double_t iDXMin = 3., Double_t iPXMin = 3.,Int_t iN = 1) const;
126	<	void SetGlobalTrk(Track* t) { fGlobalTrackRef = t; }
127	<	void SetStandaloneTrk(Track* t) { fStandaloneTrackRef = t; }
128	<	void SetTrackerTrk(Track* t) { fTrackerTrackRef = t; }
79	<	void SetIsoR03SumPt(Double_t isoR03SumPt) { fIsoR03SumPt = isoR03SumPt; }
80	<	void SetIsoR03EmEt(Double_t isoR03EmEt) { fIsoR03EmEt = isoR03EmEt; }
81	<	void SetIsoR03HadEt(Double_t isoR03HadEt) { fIsoR03HadEt = isoR03HadEt; }
82	<	void SetIsoR03HoEt(Double_t isoR03HoEt) { fIsoR03HoEt = isoR03HoEt; }
83	<	void SetIsoR03NTracks(Int_t isoR03NTracks) { fIsoR03NTracks = isoR03NTracks; }
84	<	void SetIsoR03NJets(Int_t isoR03NJets) { fIsoR03NJets = isoR03NJets; }
85	<	void SetIsoR05SumPt(Double_t isoR05SumPt) { fIsoR05SumPt = isoR05SumPt; }
86	<	void SetIsoR05EmEt(Double_t isoR05EmEt) { fIsoR05EmEt = isoR05EmEt; }
87	<	void SetIsoR05HadEt(Double_t isoR05HadEt) { fIsoR05HadEt = isoR05HadEt; }
88	<	void SetIsoR05HoEt(Double_t isoR05HoEt) { fIsoR05HoEt = isoR05HoEt; }
89	<	void SetIsoR05NTracks(Int_t isoR05NTracks) { fIsoR05NTracks = isoR05NTracks; }
90	<	void SetIsoR05NJets(Int_t isoR05NJets) { fIsoR05NJets = isoR05NJets; }
91	<	void SetEmEnergy(Double_t EmEnergy) { fEmEnergy = EmEnergy; }
92	<	void SetHadEnergy(Double_t HadEnergy) { fHadEnergy = HadEnergy; }
93	<	void SetHoEnergy(Double_t HoEnergy) { fHoEnergy = HoEnergy; }
94	<	void SetEmS9Energy(Double_t EmS9Energy) { fEmS9Energy = EmS9Energy; }
95	<	void SetHadS9Energy(Double_t HadS9Energy) { fHadS9Energy = HadS9Energy; }
96	<	void SetHoS9Energy(Double_t HoS9Energy) { fHoS9Energy = HoS9Energy; }
97	<	void SetNChambers(Int_t iNTraCh) { fNTraversedChambers = iNTraCh; }
98	<	void SetStationMask(UInt_t iStMask) { fStationMask.SetBits(iStMask); }
126	>	void SetGlobalTrk(const Track *t) { fGlobalTrkRef = t; }
127	>	void SetStandaloneTrk(const Track *t) { fStaTrkRef = t; }
128	>	void SetTrackerTrk(const Track *t) { fTrkTrkRef = t; }
129		void SetDX(Int_t iStation, Double_t iDX);
130		void SetDY(Int_t iStation, Double_t iDY);
131	+	void SetEmEnergy(Double_t EmEnergy) { fEmEnergy = EmEnergy; }
132	+	void SetEmS9Energy(Double_t EmS9Energy) { fEmS9Energy = EmS9Energy; }
133	+	void SetHadEnergy(Double_t HadEnergy) { fHadEnergy = HadEnergy; }
134	+	void SetHadS9Energy(Double_t HadS9Energy) { fHadS9Energy = HadS9Energy; }
135	+	void SetHoEnergy(Double_t HoEnergy) { fHoEnergy = HoEnergy; }
136	+	void SetHoS9Energy(Double_t HoS9Energy) { fHoS9Energy = HoS9Energy; }
137	+	void SetIsoR03SumPt(Double_t isoR03SumPt) { fIsoR03SumPt = isoR03SumPt; }
138	+	void SetIsoR03EmEt(Double_t isoR03EmEt) { fIsoR03EmEt = isoR03EmEt; }
139	+	void SetIsoR03HadEt(Double_t isoR03HadEt) { fIsoR03HadEt = isoR03HadEt; }
140	+	void SetIsoR03HoEt(Double_t isoR03HoEt) { fIsoR03HoEt = isoR03HoEt; }
141	+	void SetIsoR03NTracks(Int_t isoR03NTracks) { fIsoR03NTracks = isoR03NTracks; }
142	+	void SetIsoR03NJets(Int_t isoR03NJets) { fIsoR03NJets = isoR03NJets; }
143	+	void SetIsoR05SumPt(Double_t isoR05SumPt) { fIsoR05SumPt = isoR05SumPt; }
144	+	void SetIsoR05EmEt(Double_t isoR05EmEt) { fIsoR05EmEt = isoR05EmEt; }
145	+	void SetIsoR05HadEt(Double_t isoR05HadEt) { fIsoR05HadEt = isoR05HadEt; }
146	+	void SetIsoR05HoEt(Double_t isoR05HoEt) { fIsoR05HoEt = isoR05HoEt; }
147	+	void SetIsoR05NTracks(Int_t isoR05NTracks) { fIsoR05NTracks = isoR05NTracks; }
148	+	void SetIsoR05NJets(Int_t isoR05NJets) { fIsoR05NJets = isoR05NJets; }
149	+	void SetNChambers(Int_t iNTraCh) { fNTraversedChambers = iNTraCh; }
150	+	void SetNSegments(Int_t iStation, Int_t NSegments);
151		void SetPullX(Int_t iStation, Double_t iPullX);
152		void SetPullY(Int_t iStation, Double_t iPullY);
153	+	void SetStationMask(UInt_t iStMask) { fStationMask.SetBits(iStMask); }
154		void SetTrackDist(Int_t iStation, Double_t iDist);
155		void SetTrackDistErr(Int_t iStation, Double_t iDistErr);
105	–	void SetNSegments(Int_t iStation, Int_t NSegments);
156
157		protected:
158	<	TRef fGlobalTrackRef; //global combined track reference
159	<	TRef fStandaloneTrackRef; //standalone muon track reference
160	<	TRef fTrackerTrackRef; //tracker track reference
158	>	Double_t GetMass() const { return 105.658369e-3; }
159	>
160	>	Ref<Track> fGlobalTrkRef; //global combined track reference
161	>	Ref<Track> fStaTrkRef; //standalone muon track reference
162	>	Ref<Track> fTrkTrkRef; //tracker track reference
163		Double32_t fIsoR03SumPt; //isolation size R=0.3 sum pt
164		Double32_t fIsoR03EmEt; //isolation size R=0.3 em trans energy
165		Double32_t fIsoR03HadEt; //isolation size R=0.3 had trans energy
#	Line 123 \| Line 175 \| namespace mithep {
175		Double32_t fEmEnergy; //energy deposit in ecal
176		Double32_t fHadEnergy; //energy deposit in hcal
177		Double32_t fHoEnergy; //energy deposit in outer hcal
178	<	Double32_t fEmS9Energy; //?
179	<	Double32_t fHadS9Energy; //?
180	<	Double32_t fHoS9Energy; //?
178	>	Double32_t fEmS9Energy; //energy deposit in 3x3 ecal
179	>	Double32_t fHadS9Energy; //energy deposit in 3x3 hcal
180	>	Double32_t fHoS9Energy; //energy deposit in 3x3 outer hcal
181		Int_t fNTraversedChambers; //number of tranversed chambers
182		BitMask8 fStationMask; //bitmap of station with tracks, 0-3 DT, 4-7 CSCs
183		Double32_t fDX[8]; //uncertainty in x in given muon chamber
#	Line 145 \| Line 197 \| *inline const mithep::Track mithep::Muon**
197		{
198		// Return "best" track.
199
200	<	if (GlobalTrk())
200	>	if (HasGlobalTrk())
201		return GlobalTrk();
202	<	else if (TrackerTrk())
202	>	else if (HasTrackerTrk())
203		return TrackerTrk();
204	<	else if (StandaloneTrk())
204	>	else if (HasStandaloneTrk())
205		return StandaloneTrk();
206
207	+	Error("BestTrk", "No track reference found, returning NULL pointer.");
208		return 0;
209		}
210
211		//--------------------------------------------------------------------------------------------------
159	–	inline const mithep::Track *mithep::Muon::GlobalTrk() const
160	–	{
161	–	// Return global combined track.
162	–
163	–	return static_cast<const Track*>(fGlobalTrackRef.GetObject());
164	–	}
165	–
166	–	//--------------------------------------------------------------------------------------------------
167	–	inline const mithep::Track *mithep::Muon::StandaloneTrk() const
168	–	{
169	–	// Return standalone track.
170	–
171	–	return static_cast<const Track*>(fStandaloneTrackRef.GetObject());
172	–	}
173	–
174	–	//--------------------------------------------------------------------------------------------------
175	–	inline const mithep::Track *mithep::Muon::TrackerTrk() const
176	–	{
177	–	// Return tracker track.
178	–
179	–	return static_cast<const Track*>(fTrackerTrackRef.GetObject());
180	–	}
181	–
182	–	//--------------------------------------------------------------------------------------------------
212		inline Double_t mithep::Muon::GetDX(Int_t iStation) const
213		{
214		// Return uncertainty in x in given chamber.
#	Line 249 \| Line 278 \| inline Bool_t mithep::Muon::Has(EClassTy
278
279		switch (type) {
280		case kAny:
281	<	if (BestTrk())
281	>	if (HasTrk())
282		return kTRUE;
283		break;
284		case kGlobal:
285	<	if (GlobalTrk())
285	>	if (HasGlobalTrk())
286		return kTRUE;
287		break;
288		case kTrackerOnly:
289	<	if (TrackerTrk())
289	>	if (HasTrackerTrk())
290		return kTRUE;
291		break;
292		case kSta:
293	<	if (StandaloneTrk())
293	>	if (HasStandaloneTrk())
294		return kTRUE;
295		break;
296		case kNone:
297	<	if (!BestTrk())
297	>	if (!HasTrk())
298		return kTRUE;
299		break;
300		default:
#	Line 276 \| Line 305 \| inline Bool_t mithep::Muon::Has(EClassTy
305		}
306
307		//--------------------------------------------------------------------------------------------------
308	+	inline Bool_t mithep::Muon::HasTrk() const
309	+	{
310	+	// Return true if the muon has assigned any kind of track.
311	+
312	+	return (HasGlobalTrk() \|\| HasTrackerTrk() \|\| HasStandaloneTrk());
313	+	}
314	+
315	+	//--------------------------------------------------------------------------------------------------
316		inline mithep::Muon::EClassType mithep::Muon::Is() const
317		{
318		// Return the "best" classification of the muon according to the assigned tracks.
319
320	<	if (GlobalTrk())
320	>	if (HasGlobalTrk())
321		return kGlobal;
322	<	else if (TrackerTrk())
322	>	else if (HasTrackerTrk())
323		return kTrackerOnly;
324	<	else if (StandaloneTrk())
324	>	else if (HasStandaloneTrk())
325		return kSta;
326
327		return kNone;
#	Line 465 \| Line 502 \| inline void mithep::Muon::SetPullY(Int_t
502
503		//--------------------------------------------------------------------------------------------------
504		inline void mithep::Muon::SetTrackDist(Int_t iStation, Double_t iDist)
505	+
506		{
507		// Set track distance in given chamber.
508

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing UserCode/MitAna/DataTree/interface/Muon.h (file contents): Revision 1.19 by ceballos, Fri Nov 28 18:05:53 2008 UTC vs. Revision 1.25 by loizides, Wed Feb 18 15:38:54 2009 UTC

Diff Legend

Comparing UserCode/MitAna/DataTree/interface/Muon.h (file contents):
Revision 1.19 by ceballos, Fri Nov 28 18:05:53 2008 UTC vs.
Revision 1.25 by loizides, Wed Feb 18 15:38:54 2009 UTC