ViewVC Help

View File | Revision Log | Show Annotations | Root Listing

root/cvsroot/UserCode/MitPhysics/Utils/interface/PhotonTools.h

Comparing UserCode/MitPhysics/Utils/interface/PhotonTools.h (file contents):
Revision 1.9 by bendavid, Wed Jul 27 15:17:37 2011 UTC vs.
Revision 1.28 by mingyang, Fri Jun 21 13:16:20 2013 UTC

#	Line 12 | Line 12
12		#define MITPHYSICS_UTILS_PHOTONTOOLS_H
13
14		#include "MitAna/DataTree/interface/Photon.h"
15	+	#include "MitAna/DataTree/interface/PhotonCol.h"
16		#include "MitAna/DataTree/interface/TrackCol.h"
17		#include "MitAna/DataTree/interface/Electron.h"
18		#include "MitAna/DataTree/interface/ElectronCol.h"
#	Line 21 | Line 22
22		#include "MitAna/DataTree/interface/BeamSpotCol.h"
23		#include "MitAna/DataTree/interface/TriggerObjectCol.h"
24		#include "MitAna/DataTree/interface/MCParticleCol.h"
25	+	#include "MitAna/DataTree/interface/SuperCluster.h"
26	+	#include "MitAna/DataTree/interface/SuperClusterCol.h"
27		#include "MitCommon/MathTools/interface/MathUtils.h"
28
29	+	#include "MitAna/DataTree/interface/PFCandidateCol.h"
30	+
31		class TRandom3;
32
33		namespace mithep {
#	Line 37 | Line 42 | namespace mithep {
42		kCat4        //barrel-endcap+endcap-endcap highr9/lowr9 + lowr9-lowr9
43		};
44
45	+	enum DiphotonR9EtaPtCats {
46	+	kOctCat0,
47	+	kOctCat1,
48	+	kOctCat2,
49	+	kOctCat3,
50	+	kOctCat4,
51	+	kOctCat5,
52	+	kOctCat6,
53	+	kOctCat7
54	+	};
55	+
56		enum DiphotonR9EtaConversionCats {
57		kNewCat1 = 0,       //barrel-barrel highr9/highr9
58		kNewCat2,             //barrel-barrel highr9/lowr9+lowr9/lowr9 one/two conversion
#	Line 53 | Line 69 | namespace mithep {
69		kCiCCat3,
70		kCiCCat4
71		};
72	+
73	+	enum eScaleCats {
74	+	kEBlowEtaGoldCenter = 0,
75	+	kEBlowEtaGoldGap,
76	+	kEBlowEtaBad,
77	+	kEBlowEtaBadCenter,
78	+	kEBlowEtaBadGap,
79	+	kEBhighEtaGold,
80	+	kEBhighEtaBad,
81	+	kEElowEtaGold,
82	+	kEElowEtaBad,
83	+	kEEhighEtaGold,
84	+	kEEhighEtaBad
85	+	};
86	+
87	+	enum ShowerShapeScales {
88	+	kNoShowerShapeScaling = 0,
89	+	k2011ShowerShape,
90	+	k2012ShowerShape
91	+	};
92	+
93	+	static eScaleCats EScaleCat(const Photon *p);
94	+	static eScaleCats EScaleCatHCP(const Photon *p);
95
96		// Methods for scaling/smearing Photons
97		static void ScalePhoton(Photon* p, Double_t scale);
98		static void SmearPhoton(Photon* p, TRandom3* rng, Double_t width, UInt_t iSeed);
99	+	static void SmearPhotonError(Photon* p, Double_t width);
100	+	static void ScalePhotonR9(Photon *p, Double_t scale);
101	+	static void ScalePhotonError(Photon *p, Double_t scale);
102	+
103	+	static void ScalePhotonShowerShapes(Photon *p, ShowerShapeScales scale);
104	+
105
106	+	static Bool_t       PassSinglePhotonPresel(const Photon *p,const ElectronCol *els, const DecayParticleCol *conversions, const BaseVertex *bs, const TrackCol* trackCol, const Vertex *vtx, double rho, Bool_t applyElectronVeto = kTRUE, Bool_t invertElectronVeto = kFALSE);
107	+	static Bool_t       PassSinglePhotonPreselPFISO(const Photon *p,const ElectronCol *els, const DecayParticleCol *conversions, const BaseVertex *bs, const TrackCol* trackCol,const Vertex *vtx, double rho, const PFCandidateCol *fPFCands, Bool_t applyElectronVeto = kTRUE, Bool_t invertElectronVeto = kFALSE);
108	+	static Bool_t       PassSinglePhotonPreselPFISONoEcal(const Photon *p,const ElectronCol *els, const DecayParticleCol *conversions, const BaseVertex *bs, const TrackCol* trackCol,const Vertex *vtx, double rho, const PFCandidateCol *fPFCands, Bool_t applyElectronVeto = kTRUE, Bool_t invertElectronVeto = kFALSE);
109	+	static Bool_t       PassSinglePhotonPreselPFISONoEcalNoPFChargedIso(const Photon *p,const ElectronCol *els, const DecayParticleCol *conversions, const BaseVertex *bs, const TrackCol* trackCol,const Vertex *vtx, double rho, const PFCandidateCol *fPFCands, Bool_t applyElectronVeto = kTRUE, Bool_t invertElectronVeto = kFALSE);
110	+	static Bool_t       PassSinglePhotonPreselPFISO_NoTrigger(const Photon *p,const ElectronCol *els, const DecayParticleCol *conversions, const BaseVertex *bs, const TrackCol* trackCol,const Vertex *vtx, double rho, const PFCandidateCol *fPFCands, Bool_t applyElectronVeto = kTRUE, Bool_t invertElectronVeto = kFALSE);
111		static Bool_t       PassConversionId(const Photon *p, const DecayParticle *c);
112		static Bool_t       PassElectronVeto(const Photon *p, const ElectronCol *els);
113		static Double_t     ElectronVetoCiC(const Photon *p, const ElectronCol *els);
#	Line 65 | Line 115 | namespace mithep {
115		static Bool_t       PassTriggerMatching(const Photon *p, const TriggerObjectCol *trigobjs);
116		static const DecayParticle *MatchedConversion(const Photon *p, const DecayParticleCol *conversions,
117		const BaseVertex *vtx, Int_t nWrongHitsMax=1, Double_t probMin=1e-6,
118	<	Double_t lxyMin = 2.0, Double_t dRMin = 0.1);
118	>	Double_t lxyMin = 2.0, Double_t dRMin = 0.1);
119	>	static const DecayParticle *MatchedConversion(const SuperCluster *sc, const DecayParticleCol *conversions,
120	>	const BaseVertex *vtx, Int_t nWrongHitsMax=1, Double_t probMin=1e-6,
121	>	Double_t lxyMin = 2.0, Double_t dRMin = 0.1);
122		static const DecayParticle *MatchedConversion(const Track *t, const DecayParticleCol *conversions,
123		const BaseVertex *vtx, Int_t nWrongHitsMax=1, Double_t probMin=1e-6,
124		Double_t lxyMin = 2.0);
125		static DiphotonR9EtaCats DiphotonR9EtaCat(const Photon *p1, const Photon *p2);
126	+	static DiphotonR9EtaPtCats DiphotonR9EtaPtCat(const Photon *p1, const Photon *p2);
127		static DiphotonR9EtaConversionCats DiphotonR9EtaConversionCat(const Photon *p1, const Photon *p2, const DecayParticleCol *conversions, const BaseVertex *v);
128		static CiCBaseLineCats CiCBaseLineCat(const Photon *p);
129
130		static const DecayParticle *MatchedCiCConversion(const Photon *p, const DecayParticleCol *conversions,
131		Double_t dPhiMin=0.1, Double_t dEtaMin=0.1,Double_t dRMin=0.1,
132	<	bool print = false);
132	>	bool print   = false,
133	>	int* numLegs = NULL, int* convIdx = NULL);  // for debugging
134	>
135	>
136	>	static const Electron *MatchedElectron(const Photon *p, const ElectronCol *els);
137	>	static const Photon *MatchedPhoton(const Electron *e, const PhotonCol *phs);
138	>	static const SuperCluster *MatchedSC(const SuperCluster *psc, const SuperClusterCol *scs, Double_t drMin=0.3);
139	>
140	>	static const SuperCluster *MatchedPFSC(const SuperCluster *psc, const PhotonCol *pfphos, const ElectronCol *eles, Double_t drMin=0.1);
141
142		static bool PassCiCSelection(const Photon* ph,
143		const Vertex* vtx,
#	Line 86 | Line 148 | namespace mithep {
148		bool applyEleVeto = true,
149		bool print = false, float* kin=NULL);
150
151	<
152	<	static bool PassCiCSelection(Photon* ph,
153	<	const Vertex* vtx,
154	<	const TrackCol*    trackCol,
155	<	const ElectronCol* eleCol,
156	<	const VertexCol*   vtxCol,
157	<	double rho, double ptmin,
158	<	bool applyEleVeto = true,
159	<	bool print = false, float* kin=NULL);
160	<
161	<	static const MCParticle *MatchMC(const Photon *ph, const MCParticleCol *c);
151	>	static bool PassCiCPFIsoSelection(const Photon* ph,
152	>	const Vertex* vtx,
153	>	const PFCandidateCol*    pfCol,
154	>	const VertexCol*   vtxCol,
155	>	double rho, double ptmin,
156	>	std::vector<double>* kin = NULL);
157	>
158	>	static bool PassCiCPFIsoSelectionWithEleVeto(const Photon* ph,
159	>	const ElectronCol *els,
160	>	const DecayParticleCol *conversions, const BaseVertex *bs,
161	>	const Vertex* vtx,
162	>	const PFCandidateCol*    pfCol,
163	>	const VertexCol*   vtxCol,
164	>	double rho, double ptmin,
165	>	Bool_t applyElectronVeto, Bool_t invertElectronVeto,
166	>	std::vector<double>* kin= NULL  // store variables for debugging...
167	>	);// add for mono photon
168
169	+	static bool PassVgamma2011Selection(const Photon* ph, double rho);
170	+
171	+	static const MCParticle *MatchMC(const Particle *ph, const MCParticleCol *c, Bool_t matchElectrons = kFALSE);
172		ClassDef(PhotonTools, 0) // Muon tools
173		};
174		}

Diff Legend

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