AnalysisFramework/Plotting/various_studies.C

/*

to compile: just run make ... that should take care of it.

*/
#include <iostream>
#include <vector>
#include <sys/stat.h>
#include "Modules/GeneralToolBox.C"
#include "Modules/SampleClass.C"
#include "Modules/PeakFinder.C"
#include "Modules/Poisson_Calculator.C"
#include "Modules/setTDRStyle.C"
#include "Modules/ActiveSamples.C"
#include "Modules/UpperLimitsWithShape.C"
#include "Modules/Setup.C"
#include "Modules/external/cl95cms.c"
#include "Modules/Plotting_Functions.C" //also included for peak finding etc.
#include "Modules/StudyModule.C" //also included for peak finding etc.
#include "Modules/ExperimentalModule.C"
#include "Modules/ResultModule.C"
#include "Modules/LimitCalculation.C"
#include "Modules/Systematics.C"
#include "Modules/SUSYScan.C"

#include <TCut.h>
#include <TROOT.h>
#include <TCanvas.h>
#include <TMath.h>
#include <TColor.h>
#include <TPaveText.h>
#include <TRandom.h>
#include <TH1.h>
#include <TH2.h>
#include <TF1.h>
#include <TSQLResult.h>

#ifndef Verbosity
#define Verbosity 0
#endif
#ifndef HUSH
#define HUSH 1
#endif

using namespace std;

using namespace PlottingSetup;

int main()
{
  gROOT->SetStyle("Plain");
  setTDRStyle();
  gStyle->SetTextFont(42);
  bool showList=false;
  set_treename("events");//you can set the treename here to be used; options are "events" (for reco) for "PFevents" (for particle flow)
  define_samples(showList,allsamples,signalsamples,scansample);
  setlumi(luminosity);
  do_png(true);
  do_pdf(false);
  do_eps(false);
  do_C(false);
  set_directory("summer_mc");//here you can give it a name, for instance "1234pb" or whatever you like :-)
  setessentialcut(essential);//this sets the essential cut; this one is used in the draw command so it is AUTOMATICALLY applied everywhere. IMPORTANT: Do NOT store weights here!
  stringstream resultsummary;
  
  //what to do : 
  bool do_all=false;/// DONE
  bool do_peak_finding=false; /// DONE
  bool calculate_pred_and_observed=false; /// DONE
  bool study_sidebands=false; /// FOR REAL
  bool do_test=false;/// DONE    (just any test you wish)
  bool do_jzb_correction=false; //use this to find out the correction factor; originally this was done automatically but now you should do this separately and update Modules/Setup.C
  bool do_find_sideband_definition=false;
  bool do_pick_up_events=false; ///DONE
  bool do_ttbar_with_shapes=false;
  bool do_upper_limits=false;
  bool do_run_check=false;
  bool do_plot_list=true;
  
  bool do_show_dibosons=false;
  
  bool do_efficiency_scan_in_susy_space=false; /// NOW OUTSOURCED TO T3
       bool requireZ=true;
       
  //**** part 1 : peak finding
  float MCPeak=0,MCPeakError=0,DataPeak=0,DataPeakError=0,MCSigma=10,DataSigma=10;
  method=Kostasmethod;//Kostasmethod;//dogaus3sigma;// options: dogaus,doKM,dogaus2sigma,dogaus3sigma
  if(do_peak_finding||do_show_dibosons||calculate_pred_and_observed||do_all) find_peaks(MCPeak,MCPeakError, DataPeak, DataPeakError,MCSigma,DataSigma,resultsummary);
  
  stringstream datajzb;
  if(DataPeak>0) datajzb<<"("<<jzbvariabledata<<"-"<<TMath::Abs(DataPeak)<<")";
  else datajzb<<"("<<jzbvariabledata<<"+"<<TMath::Abs(DataPeak)<<")";
  stringstream mcjzb;
  if(MCPeak>0) mcjzb<<"("<<jzbvariablemc<<"-"<<TMath::Abs(MCPeak)<<")";
  else mcjzb<<"("<<jzbvariablemc<<"+"<<TMath::Abs(MCPeak)<<")";
  
  dout << "With peak correction, we get : " << endl;
  dout << "    Data : " << datajzb.str() << endl;
  dout << "    MC : " << datajzb.str() << endl;
  
  if(do_find_sideband_definition) find_sideband_definition();
  
  if(do_jzb_correction) {
    find_correction_factors(jzbvariabledata,jzbvariablemc);
    dout << "Please update Modules/Setup.C to reflect the following values (round them first ... )" <<endl;
    dout << "Corrected JZB variable definition " << endl << "  Data: " << jzbvariabledata << "  and MC: " << jzbvariablemc << endl;
    dout << endl;
    dout << "If you're feeling lazy, copy & paste this : " << endl;
    dout << "  string jzbvariabledata=\""<<jzbvariabledata<<"\";"<<endl;
    dout << "  string jzbvariablemc=\""  <<jzbvariablemc<<"\";"<<endl;
  }
  
  if(study_sidebands) look_at_sidebands(mcjzb.str(),datajzb.str());
  
  vector<float>jzb_limit_bins;
  jzb_limit_bins.push_back(50);
  //jzb_limit_bins.push_back(75);jzb_limit_bins.push_back(100);
  //jzb_limit_bins.push_back(150);jzb_limit_bins.push_back(200);jzb_limit_bins.push_back(500);

  
  if(do_ttbar_with_shapes) prepare_ttbar_limits(mcjzb.str(),datajzb.str(),DataPeakError,MCPeakError,jzb_limit_bins);
  
  if(do_upper_limits) calculate_upper_limits(mcjzb.str(),datajzb.str());
  
  if(do_efficiency_scan_in_susy_space) efficiency_scan_in_susy_space(mcjzb.str(),datajzb.str(),requireZ,MCPeakError);
  
  if(do_pick_up_events) {
    
    dout << "Observed: " << endl;
    pick_up_events((const char*)(cutmass&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)>100)"));
    dout << "Predicted (JZB<-100) OSSF" << endl;
    pick_up_events((const char*)(cutmass&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)<-100)"));
    dout << "Predicted (emu, JZB>100) OSOF" << endl;
    pick_up_events((const char*)(cutmass&&cutOSOF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)>100)"));
    dout << "Predicted (emu, JZB<-100) OSOF" << endl;
    pick_up_events((const char*)(cutmass&&cutOSOF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)<-100)"));
    dout << "Predicted (SB emu, JZB>100) OSOF" << endl;
    pick_up_events((const char*)(sidebandcut&&cutOSOF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)>100)"));
    dout << "Predicted (SB emu, JZB<-100) OSOF" << endl;
    pick_up_events((const char*)(cutOSOF&&cutnJets&&basiccut&&sidebandcut&&"((jzb[1]+0.06*pt-2.84727)<-100)"));
    dout << "Predicted (SB SF, JZB>100) OSSF" << endl;
    pick_up_events((const char*)(sidebandcut&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)>100)"));
    dout << "Predicted (SB SF, JZB<-100) OSSF" << endl;
    pick_up_events((const char*)(sidebandcut&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06*pt-2.84727)<-100)"));
  }
  
  if(do_run_check) run_check();
  if(do_show_dibosons) show_dibosons(datajzb.str(),mcjzb.str());
  
  if(do_plot_list) plot_list();
  
  if(do_test) test();
  
  return 0;  
}

 
Revision:	1.15
Committed:	Thu Jul 28 19:26:12 2011 UTC (13 years, 9 months ago) by buchmann
Content type:	text/plain
Branch:	MAIN
Changes since 1.14:	+7 -4 lines
Log Message:	Added function to plot kinematic distributions of predicted and observed events
#	User	Rev	Content
1	buchmann	1.1	/*
2
3			to compile: just run make ... that should take care of it.
4
5			*/
6			#include <iostream>
7			#include <vector>
8			#include <sys/stat.h>
9			#include "Modules/GeneralToolBox.C"
10			#include "Modules/SampleClass.C"
11			#include "Modules/PeakFinder.C"
12			#include "Modules/Poisson_Calculator.C"
13			#include "Modules/setTDRStyle.C"
14			#include "Modules/ActiveSamples.C"
15			#include "Modules/UpperLimitsWithShape.C"
16			#include "Modules/Setup.C"
17	buchmann	1.8	#include "Modules/external/cl95cms.c"
18	buchmann	1.1	#include "Modules/Plotting_Functions.C" //also included for peak finding etc.
19			#include "Modules/StudyModule.C" //also included for peak finding etc.
20	buchmann	1.8	#include "Modules/ExperimentalModule.C"
21			#include "Modules/ResultModule.C"
22			#include "Modules/LimitCalculation.C"
23	buchmann	1.9	#include "Modules/Systematics.C"
24			#include "Modules/SUSYScan.C"
25	buchmann	1.1
26			#include <TCut.h>
27			#include <TROOT.h>
28			#include <TCanvas.h>
29			#include <TMath.h>
30			#include <TColor.h>
31			#include <TPaveText.h>
32			#include <TRandom.h>
33			#include <TH1.h>
34			#include <TH2.h>
35			#include <TF1.h>
36			#include <TSQLResult.h>
37
38			#ifndef Verbosity
39			#define Verbosity 0
40			#endif
41			#ifndef HUSH
42			#define HUSH 1
43			#endif
44
45			using namespace std;
46
47			using namespace PlottingSetup;
48
49			int main()
50			{
51			gROOT->SetStyle("Plain");
52			setTDRStyle();
53			gStyle->SetTextFont(42);
54			bool showList=false;
55			set_treename("events");//you can set the treename here to be used; options are "events" (for reco) for "PFevents" (for particle flow)
56	buchmann	1.9	define_samples(showList,allsamples,signalsamples,scansample);
57	buchmann	1.1	setlumi(luminosity);
58			do_png(true);
59	buchmann	1.15	do_pdf(false);
60			do_eps(false);
61			do_C(false);
62	buchmann	1.3	set_directory("summer_mc");//here you can give it a name, for instance "1234pb" or whatever you like :-)
63	buchmann	1.1	setessentialcut(essential);//this sets the essential cut; this one is used in the draw command so it is AUTOMATICALLY applied everywhere. IMPORTANT: Do NOT store weights here!
64			stringstream resultsummary;
65
66			//what to do :
67			bool do_all=false;/// DONE
68			bool do_peak_finding=false; /// DONE
69			bool calculate_pred_and_observed=false; /// DONE
70	buchmann	1.5	bool study_sidebands=false; /// FOR REAL
71	buchmann	1.1	bool do_test=false;/// DONE (just any test you wish)
72			bool do_jzb_correction=false; //use this to find out the correction factor; originally this was done automatically but now you should do this separately and update Modules/Setup.C
73	buchmann	1.14	bool do_find_sideband_definition=false;
74	buchmann	1.9	bool do_pick_up_events=false; ///DONE
75	buchmann	1.8	bool do_ttbar_with_shapes=false;
76			bool do_upper_limits=false;
77	buchmann	1.14	bool do_run_check=false;
78	buchmann	1.15	bool do_plot_list=true;
79	buchmann	1.14
80	buchmann	1.15	bool do_show_dibosons=false;
81	buchmann	1.1
82	buchmann	1.12	bool do_efficiency_scan_in_susy_space=false; /// NOW OUTSOURCED TO T3
83	buchmann	1.9	bool requireZ=true;
84	buchmann	1.12
85	buchmann	1.1	//**** part 1 : peak finding
86			float MCPeak=0,MCPeakError=0,DataPeak=0,DataPeakError=0,MCSigma=10,DataSigma=10;
87			method=Kostasmethod;//Kostasmethod;//dogaus3sigma;// options: dogaus,doKM,dogaus2sigma,dogaus3sigma
88	buchmann	1.14	if(do_peak_finding\|\|do_show_dibosons\|\|calculate_pred_and_observed\|\|do_all) find_peaks(MCPeak,MCPeakError, DataPeak, DataPeakError,MCSigma,DataSigma,resultsummary);
89	buchmann	1.1
90			stringstream datajzb;
91			if(DataPeak>0) datajzb<<"("<<jzbvariabledata<<"-"<<TMath::Abs(DataPeak)<<")";
92			else datajzb<<"("<<jzbvariabledata<<"+"<<TMath::Abs(DataPeak)<<")";
93			stringstream mcjzb;
94			if(MCPeak>0) mcjzb<<"("<<jzbvariablemc<<"-"<<TMath::Abs(MCPeak)<<")";
95			else mcjzb<<"("<<jzbvariablemc<<"+"<<TMath::Abs(MCPeak)<<")";
96
97	buchmann	1.6	dout << "With peak correction, we get : " << endl;
98			dout << " Data : " << datajzb.str() << endl;
99			dout << " MC : " << datajzb.str() << endl;
100	buchmann	1.1
101	buchmann	1.3	if(do_find_sideband_definition) find_sideband_definition();
102
103			if(do_jzb_correction) {
104			find_correction_factors(jzbvariabledata,jzbvariablemc);
105	buchmann	1.6	dout << "Please update Modules/Setup.C to reflect the following values (round them first ... )" <<endl;
106			dout << "Corrected JZB variable definition " << endl << " Data: " << jzbvariabledata << " and MC: " << jzbvariablemc << endl;
107			dout << endl;
108			dout << "If you're feeling lazy, copy & paste this : " << endl;
109			dout << " string jzbvariabledata=\""<<jzbvariabledata<<"\";"<<endl;
110			dout << " string jzbvariablemc=\"" <<jzbvariablemc<<"\";"<<endl;
111	buchmann	1.3	}
112	buchmann	1.1
113			if(study_sidebands) look_at_sidebands(mcjzb.str(),datajzb.str());
114
115	buchmann	1.8	vector<float>jzb_limit_bins;
116	buchmann	1.10	jzb_limit_bins.push_back(50);
117			//jzb_limit_bins.push_back(75);jzb_limit_bins.push_back(100);
118			//jzb_limit_bins.push_back(150);jzb_limit_bins.push_back(200);jzb_limit_bins.push_back(500);
119	buchmann	1.8
120
121			if(do_ttbar_with_shapes) prepare_ttbar_limits(mcjzb.str(),datajzb.str(),DataPeakError,MCPeakError,jzb_limit_bins);
122
123			if(do_upper_limits) calculate_upper_limits(mcjzb.str(),datajzb.str());
124
125	buchmann	1.10	if(do_efficiency_scan_in_susy_space) efficiency_scan_in_susy_space(mcjzb.str(),datajzb.str(),requireZ,MCPeakError);
126	buchmann	1.9
127	buchmann	1.5	if(do_pick_up_events) {
128
129	buchmann	1.6	dout << "Observed: " << endl;
130	buchmann	1.5	pick_up_events((const char)(cutmass&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)>100)"));
131	buchmann	1.6	dout << "Predicted (JZB<-100) OSSF" << endl;
132	buchmann	1.5	pick_up_events((const char)(cutmass&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)<-100)"));
133	buchmann	1.6	dout << "Predicted (emu, JZB>100) OSOF" << endl;
134	buchmann	1.5	pick_up_events((const char)(cutmass&&cutOSOF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)>100)"));
135	buchmann	1.6	dout << "Predicted (emu, JZB<-100) OSOF" << endl;
136	buchmann	1.5	pick_up_events((const char)(cutmass&&cutOSOF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)<-100)"));
137	buchmann	1.6	dout << "Predicted (SB emu, JZB>100) OSOF" << endl;
138	buchmann	1.5	pick_up_events((const char)(sidebandcut&&cutOSOF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)>100)"));
139	buchmann	1.6	dout << "Predicted (SB emu, JZB<-100) OSOF" << endl;
140	buchmann	1.5	pick_up_events((const char)(cutOSOF&&cutnJets&&basiccut&&sidebandcut&&"((jzb[1]+0.06pt-2.84727)<-100)"));
141	buchmann	1.6	dout << "Predicted (SB SF, JZB>100) OSSF" << endl;
142	buchmann	1.5	pick_up_events((const char)(sidebandcut&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)>100)"));
143	buchmann	1.6	dout << "Predicted (SB SF, JZB<-100) OSSF" << endl;
144	buchmann	1.5	pick_up_events((const char)(sidebandcut&&cutOSSF&&cutnJets&&basiccut&&"((jzb[1]+0.06pt-2.84727)<-100)"));
145			}
146
147	buchmann	1.14	if(do_run_check) run_check();
148			if(do_show_dibosons) show_dibosons(datajzb.str(),mcjzb.str());
149
150	buchmann	1.15	if(do_plot_list) plot_list();
151
152	buchmann	1.1	if(do_test) test();
153
154			return 0;
155			}
156
157