Plotting/Modules/Setup.C

#include <iostream>
#include <fstream>
#include <TCut.h>
#include <TColor.h>
#include <TStyle.h>

#ifndef SampleClassLoaded
#include "SampleClass.C"
#endif
#define SetupLoaded
#ifndef ResultLibraryClassLoaded
#include "ResultLibraryClass.C"
#endif


using namespace std;


namespace PlottingSetup {

  string directoryname="Jellyfish_tests";
  
  bool RestrictToMassPeak=true; //if you want to switch between offpeak ("false") and onpeak ("true") analysis please use this switch; the masscut below will be adapted automatically when adding samples :-)
  
  bool UseSidebandsForcJZB=true;
  bool FullMCAnalysis=false;
  bool DoBTag=false;
  
  // the 2012 switch is in GeneralToolBox
    
  float luminosity=4980;//4653.74;//p3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1}
//  float luminosity=3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1}
//  float luminosity=2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1}
  float lumiuncert=0.022;//0.045;// to be indicated in [0,1] range, e.g. for 4% write 0.04
  
  float luminosity2012=5100;
  float lumiuncert2012=0.022;

//  string jzbvariabledata="jzb[1]+0.06*pt";
//  string jzbvariablemc="jzb[1]+0.04*pt";
  string jzbvariabledata="(jzb[1]+0.062*pt)";
  string jzbvariablemc="(jzb[1]+0.036*pt)";
  float jzbHigh = 450.; // Range for JZB plots
  float iMllLow = 20.; // Range for Edge Fitting (and mll plot) for iJZB
  float iMllHigh = 400.; // Range for Edge Fitting (and mll plot) for iJZB

  samplecollection allsamples("completesamplecollection");
  samplecollection qcdsamples("QCDcollection");
  samplecollection signalsamples("signalsamplecollection");
  samplecollection systsamples("systematicssamplecollection");
  samplecollection scansample("scansamplecollection");
  samplecollection raresample("raresamplecollection");
  int data=1;
  int mc=0;
  int mcwithsignal=2;
  TCut leptoncut("(abs(eta1)<1.4 && abs(eta2)<1.4 && pt1>20&&pt2>10)");
  TCut passtrig("(passed_triggers||!is_data)"&&leptoncut);
  
  TCut openmasscut("mll>20"); // this is the mass cut used in the off peak analysis!
  TCut openGenmasscut("genMll>20");
  TCut opensidebandcut("mll>500&&mll<100"); // this won't let anything thru ...
  
  TCut Restrmasscut("abs(mll-91.2)<10"); // this is the mass cut used in the off peak analysis!
  TCut RestrGenmasscut("abs(genMll-91.2)<20");
  TCut Restrsidebandcut("((mll>55&&mll<70)||(mll>112&&mll<160))");
  
  TCut cutmass(Restrmasscut);
  TCut genMassCut(RestrGenmasscut);
  
  TCut bTagRequirement("bTagProbCSVBP[0]>0.679");
  
  //TCut cutmass("mll>2");
//  TCut basiccut("mll>2"&&leptoncut&&"(bTagProbTHighEff[0]>1.7)&&(bTagProbTHighEff[1]>1.7)");//basically nothing.
  TCut basiccut("mll>2"&&leptoncut);//basically nothing
  TCut basicqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0]!=0)&&(pfJetGoodNum>=2&&pfJetGoodID[1]!=0)"&&basiccut);//don't use this for the "essential cut", because we want to plot nJets as well as mll in the inclusive case; we thus use it as an addition nJets cut.
  //TCut jetqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0])&&(pfJetGoodNum>=2&&pfJetGoodID[1])");//now part of the basiccut
  //TCut jetqualitycut("mll>0");
  
  TCut cutnJets("pfJetGoodNum>=3"&&basicqualitycut);
  TCut cutnJetsJESdown("pfJetGoodNumn1sigma>=3"&&basicqualitycut);
  TCut cutnJetsJESup("pfJetGoodNump1sigma>=3"&&basicqualitycut);
  TCut cutOSOF("(id1!=id2)&&(ch1*ch2<0)");
  TCut cutOSSF("(id1==id2)&&(ch1*ch2<0)");
  TCut sidebandcut(Restrsidebandcut);

  // SUSY scan parameters
  float mglustart=25;float mgluend=1200;float mglustep=25;
  float mLSPstart=25;float mLSPend=1200;float mLSPstep=25;
  
  float m0start=0;  float m0end=3000;  float m0step=20;
  float m12start=0; float m12end=1000;  float m12step=20;

  int ScanXzones=15; // number of zones in x for (mSUGRA) scans
  int ScanYzones=15; // number of zones in y for (mSUGRA) scans
  
  string mSUGRAxsFile="Plotting/Modules/external/msugra_m0_m12_10_0_1_NLO_1.0.txt";
  string SMSReferenceXSFile="Plotting/Modules/external/reference_xSec_SMS-new.root";

  //scan types:
  int mSUGRA=1;
  int SMS=2;
  int GMSB=3;

  TCut essential(passtrig);//add here any cuts you ALWAYS want
  int dogaus=0;
  int doKM=1;
  int dogaus2sigma=2;
  int dogaus3sigma=3;
  int Kostasmethod=-99;
  
  float fitresultconstdata=0;//this is the result when fitting in the 0-30 GeV range
  float fitresultconstmc=0;//this is the result when fitting in the 0-30 GeV range
  
  int method=-1;//Fitting method
  
  //now some style issues:
  float DataMarkerSize=1.2;
  
  //here we save our number of predicted and observed events (with errors)
  vector<float> Nobs;
  vector<float> Npred;
  vector<float> Nprederr;
  
  //here we save our "flipped" number of predicted and observed events (with errors) -- this means that we consider JZB<-X as observed and construct the corresponding prediction
  bool alwaysflip=false;
  bool allowflipping=true;
  vector<float> flippedNobs;
  vector<float> flippedNpred;
  vector<float> flippedNprederr;
  
  int noJES=0;
  int JESdown=1;
  int JESup=2;
  
  // Uncertainties ONPEAK
  float zjetsestimateuncertONPEAK=0.25;
  float emuncertONPEAK=0.25;
  float emsidebanduncertONPEAK=0.25;
  float eemmsidebanduncertONPEAK=0.25;

  // Uncertainties OFFPEAK (iJZB)
  float zjetsestimateuncertOFFPEAK=0.25;
  float emuncertOFFPEAK=0.1;
  float emsidebanduncertOFFPEAK=0.0;
  float eemmsidebanduncertOFFPEAK=0.0;

  
  //some refinement: nicer color gradient
  Double_t stops[5] = { 0.00, 0.34, 0.61, 0.84, 1.00 };
  Double_t red[5]   = { 0.00, 0.00, 0.87, 1.00, 0.51 };
  Double_t green[5] = { 0.00, 0.81, 1.00, 0.20, 0.00 };
  Double_t blue[5]  = { 0.51, 1.00, 0.12, 0.00, 0.00 };
  int fi=TColor::CreateGradientColorTable(5, stops, red, green,blue, 255);
  
  // LIMITS
  int nlimittoys=1000; // how many toys for setting limits
  string limitmethod="cls";//what method to use to set limits
  int limitpatience=20; // for how many minutes should the limit calculation (for one configuration!) be allowed to run before being aborted? this only has an effect when when running on the t3 batch; the value for CRAB is on the next line
  int limitpatienceCRAB=60;
  bool ConsiderSignalContaminationForLimits=true; //whether or not to consider signal contamination when computing limits (standard:true)
  int nuisancemodel=1;
  
  float JZBPeakPositionData=-999;
  float JZBPeakPositionMC=-999;
  float JZBPeakWidthData=-999;
  float JZBPeakWidthMC=-999;

  // two possible future systematics that ATM only take up CPU time in SUSY scans
  bool computeJZBefficiency=false;
  bool computeJZBresponse=false;

  bool requireZ=true;//this is switched to "off" automatically when doing offpeak!
  
//  string ScanSampleDirectory="SMS_T5zzh_newslots";//DileptonmSUGRAScan__pieces

  string ScanSampleDirectory="DileptonmSUGRAScan__pieces"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/     note: this string needs to either contain "SMS", "GMSB", or "mSUGRA"
//  string ScanSampleDirectory="SMS_T1lh"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/     note: this string needs to either contain "SMS", "GMSB", or "mSUGRA"

  string FilterEfficiencyFile = "/shome/buchmann/JellyfishCBAF/DistributedModelCalculations/Limits/FilterEfficiencyv3.root";
  string CMSSW_dir = "/shome/buchmann/final_production_2011/CMSSW_4_2_8/src/";

  ResultLibrary allresults;
}
Revision:	1.29
Committed:	Fri Aug 17 13:09:10 2012 UTC (12 years, 8 months ago) by buchmann
Content type:	text/plain
Branch:	MAIN
Changes since 1.28:	+1 -1 lines
Log Message:	Tightened mass window for cJZB to be away from hot zone
#	User	Rev	Content
1	buchmann	1.1	#include <iostream>
2			#include <fstream>
3			#include <TCut.h>
4			#include <TColor.h>
5			#include <TStyle.h>
6
7			#ifndef SampleClassLoaded
8			#include "SampleClass.C"
9			#endif
10			#define SetupLoaded
11			#ifndef ResultLibraryClassLoaded
12			#include "ResultLibraryClass.C"
13			#endif
14
15
16			using namespace std;
17
18
19			namespace PlottingSetup {
20
21	buchmann	1.4	string directoryname="Jellyfish_tests";
22	buchmann	1.1
23	buchmann	1.19	bool RestrictToMassPeak=true; //if you want to switch between offpeak ("false") and onpeak ("true") analysis please use this switch; the masscut below will be adapted automatically when adding samples :-)
24	buchmann	1.27
25	buchmann	1.28	bool UseSidebandsForcJZB=true;
26	buchmann	1.17	bool FullMCAnalysis=false;
27	buchmann	1.18	bool DoBTag=false;
28	buchmann	1.1
29	buchmann	1.19	// the 2012 switch is in GeneralToolBox
30
31	buchmann	1.10	float luminosity=4980;//4653.74;//p3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1}
32	buchmann	1.1	// float luminosity=3523.18;//2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1}
33			// float luminosity=2096.0;//3172.73;//2096.0;//1936;//751.0;//486.0;//468.0//336.;//pb^{-1}
34	buchmann	1.10	float lumiuncert=0.022;//0.045;// to be indicated in [0,1] range, e.g. for 4% write 0.04
35	buchmann	1.19
36	buchmann	1.24	float luminosity2012=5100;
37	buchmann	1.19	float lumiuncert2012=0.022;
38	buchmann	1.1
39	buchmann	1.7	// string jzbvariabledata="jzb[1]+0.06*pt";
40			// string jzbvariablemc="jzb[1]+0.04*pt";
41	fronga	1.26	string jzbvariabledata="(jzb[1]+0.062*pt)";
42			string jzbvariablemc="(jzb[1]+0.036*pt)";
43	buchmann	1.24	float jzbHigh = 450.; // Range for JZB plots
44	buchmann	1.23	float iMllLow = 20.; // Range for Edge Fitting (and mll plot) for iJZB
45			float iMllHigh = 400.; // Range for Edge Fitting (and mll plot) for iJZB
46	buchmann	1.1
47			samplecollection allsamples("completesamplecollection");
48	buchmann	1.5	samplecollection qcdsamples("QCDcollection");
49	buchmann	1.1	samplecollection signalsamples("signalsamplecollection");
50			samplecollection systsamples("systematicssamplecollection");
51			samplecollection scansample("scansamplecollection");
52			samplecollection raresample("raresamplecollection");
53			int data=1;
54			int mc=0;
55			int mcwithsignal=2;
56	buchmann	1.25	TCut leptoncut("(abs(eta1)<1.4 && abs(eta2)<1.4 && pt1>20&&pt2>10)");
57	buchmann	1.9	TCut passtrig("(passed_triggers\|\|!is_data)"&&leptoncut);
58	buchmann	1.7
59	buchmann	1.13	TCut openmasscut("mll>20"); // this is the mass cut used in the off peak analysis!
60			TCut openGenmasscut("genMll>20");
61	buchmann	1.7	TCut opensidebandcut("mll>500&&mll<100"); // this won't let anything thru ...
62
63	buchmann	1.29	TCut Restrmasscut("abs(mll-91.2)<10"); // this is the mass cut used in the off peak analysis!
64	buchmann	1.7	TCut RestrGenmasscut("abs(genMll-91.2)<20");
65			TCut Restrsidebandcut("((mll>55&&mll<70)\|\|(mll>112&&mll<160))");
66
67			TCut cutmass(Restrmasscut);
68			TCut genMassCut(RestrGenmasscut);
69
70	buchmann	1.21	TCut bTagRequirement("bTagProbCSVBP[0]>0.679");
71	buchmann	1.7
72	buchmann	1.1	//TCut cutmass("mll>2");
73	buchmann	1.13	// TCut basiccut("mll>2"&&leptoncut&&"(bTagProbTHighEff[0]>1.7)&&(bTagProbTHighEff[1]>1.7)");//basically nothing.
74			TCut basiccut("mll>2"&&leptoncut);//basically nothing
75	buchmann	1.7	TCut basicqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0]!=0)&&(pfJetGoodNum>=2&&pfJetGoodID[1]!=0)"&&basiccut);//don't use this for the "essential cut", because we want to plot nJets as well as mll in the inclusive case; we thus use it as an addition nJets cut.
76	buchmann	1.1	//TCut jetqualitycut("(pfJetGoodNum>=2&&pfJetGoodID[0])&&(pfJetGoodNum>=2&&pfJetGoodID[1])");//now part of the basiccut
77			//TCut jetqualitycut("mll>0");
78
79			TCut cutnJets("pfJetGoodNum>=3"&&basicqualitycut);
80	buchmann	1.14	TCut cutnJetsJESdown("pfJetGoodNumn1sigma>=3"&&basicqualitycut);
81	buchmann	1.13	TCut cutnJetsJESup("pfJetGoodNump1sigma>=3"&&basicqualitycut);
82	buchmann	1.1	TCut cutOSOF("(id1!=id2)&&(ch1*ch2<0)");
83			TCut cutOSSF("(id1==id2)&&(ch1*ch2<0)");
84	buchmann	1.7	TCut sidebandcut(Restrsidebandcut);
85	buchmann	1.1
86			// SUSY scan parameters
87			float mglustart=25;float mgluend=1200;float mglustep=25;
88			float mLSPstart=25;float mLSPend=1200;float mLSPstep=25;
89
90	buchmann	1.7	float m0start=0; float m0end=3000; float m0step=20;
91			float m12start=0; float m12end=1000; float m12step=20;
92	buchmann	1.2
93	buchmann	1.7	int ScanXzones=15; // number of zones in x for (mSUGRA) scans
94			int ScanYzones=15; // number of zones in y for (mSUGRA) scans
95	buchmann	1.8
96	buchmann	1.16	string mSUGRAxsFile="Plotting/Modules/external/msugra_m0_m12_10_0_1_NLO_1.0.txt";
97	buchmann	1.15	string SMSReferenceXSFile="Plotting/Modules/external/reference_xSec_SMS-new.root";
98	buchmann	1.1
99			//scan types:
100			int mSUGRA=1;
101			int SMS=2;
102			int GMSB=3;
103
104			TCut essential(passtrig);//add here any cuts you ALWAYS want
105			int dogaus=0;
106			int doKM=1;
107			int dogaus2sigma=2;
108			int dogaus3sigma=3;
109			int Kostasmethod=-99;
110
111			float fitresultconstdata=0;//this is the result when fitting in the 0-30 GeV range
112			float fitresultconstmc=0;//this is the result when fitting in the 0-30 GeV range
113
114			int method=-1;//Fitting method
115
116			//now some style issues:
117			float DataMarkerSize=1.2;
118
119			//here we save our number of predicted and observed events (with errors)
120			vector<float> Nobs;
121			vector<float> Npred;
122			vector<float> Nprederr;
123
124			//here we save our "flipped" number of predicted and observed events (with errors) -- this means that we consider JZB<-X as observed and construct the corresponding prediction
125			bool alwaysflip=false;
126	buchmann	1.10	bool allowflipping=true;
127	buchmann	1.1	vector<float> flippedNobs;
128			vector<float> flippedNpred;
129			vector<float> flippedNprederr;
130
131			int noJES=0;
132			int JESdown=1;
133			int JESup=2;
134
135	buchmann	1.14	// Uncertainties ONPEAK
136			float zjetsestimateuncertONPEAK=0.25;
137			float emuncertONPEAK=0.25;
138			float emsidebanduncertONPEAK=0.25;
139			float eemmsidebanduncertONPEAK=0.25;
140
141			// Uncertainties OFFPEAK (iJZB)
142			float zjetsestimateuncertOFFPEAK=0.25;
143	buchmann	1.25	float emuncertOFFPEAK=0.1;
144	buchmann	1.14	float emsidebanduncertOFFPEAK=0.0;
145			float eemmsidebanduncertOFFPEAK=0.0;
146
147
148	buchmann	1.1	//some refinement: nicer color gradient
149			Double_t stops[5] = { 0.00, 0.34, 0.61, 0.84, 1.00 };
150			Double_t red[5] = { 0.00, 0.00, 0.87, 1.00, 0.51 };
151			Double_t green[5] = { 0.00, 0.81, 1.00, 0.20, 0.00 };
152			Double_t blue[5] = { 0.51, 1.00, 0.12, 0.00, 0.00 };
153			int fi=TColor::CreateGradientColorTable(5, stops, red, green,blue, 255);
154
155			// LIMITS
156			int nlimittoys=1000; // how many toys for setting limits
157			string limitmethod="cls";//what method to use to set limits
158	buchmann	1.12	int limitpatience=20; // for how many minutes should the limit calculation (for one configuration!) be allowed to run before being aborted? this only has an effect when when running on the t3 batch; the value for CRAB is on the next line
159	buchmann	1.1	int limitpatienceCRAB=60;
160			bool ConsiderSignalContaminationForLimits=true; //whether or not to consider signal contamination when computing limits (standard:true)
161			int nuisancemodel=1;
162
163			float JZBPeakPositionData=-999;
164			float JZBPeakPositionMC=-999;
165			float JZBPeakWidthData=-999;
166			float JZBPeakWidthMC=-999;
167
168			// two possible future systematics that ATM only take up CPU time in SUSY scans
169			bool computeJZBefficiency=false;
170			bool computeJZBresponse=false;
171
172	buchmann	1.7	bool requireZ=true;//this is switched to "off" automatically when doing offpeak!
173	buchmann	1.16
174	buchmann	1.20	// string ScanSampleDirectory="SMS_T5zzh_newslots";//DileptonmSUGRAScan__pieces
175	buchmann	1.1
176	buchmann	1.20	string ScanSampleDirectory="DileptonmSUGRAScan__pieces"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/ note: this string needs to either contain "SMS", "GMSB", or "mSUGRA"
177	buchmann	1.16	// string ScanSampleDirectory="SMS_T1lh"; // possibilities (atm) : SMS_T5zz/, SMS_T5zzl/, SMS_T5zzh/, GMSB/, mSUGRA/ note: this string needs to either contain "SMS", "GMSB", or "mSUGRA"
178	buchmann	1.11
179			string FilterEfficiencyFile = "/shome/buchmann/JellyfishCBAF/DistributedModelCalculations/Limits/FilterEfficiencyv3.root";
180	buchmann	1.13	string CMSSW_dir = "/shome/buchmann/final_production_2011/CMSSW_4_2_8/src/";
181	buchmann	1.1
182			ResultLibrary allresults;
183			}