Jeng/scripts/ikstest.h

#include <vector>
#include <TROOT.h>
#include <TFile.h>
#include <TH1.h>
#include <TH2.h>
#include <THStack.h>
#include <TLatex.h>
#include <TCanvas.h>
#include <TMath.h>
#include <TLegend.h>
#include <TObject.h>
#include <iostream>
#include <sstream>
#include <fstream>
#include <iomanip>
#include <map>
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>

const double stepsize = 0.001;
//=================================
// Structure/Functions
//=================================

struct testMC {
  testMC(Double_t p = 0., Double_t sb = 0., Double_t ss = 0.){prob=p; scaleF_backg = sb; scaleF_sample = ss;}
  Double_t prob;
  Double_t scaleF_backg;
  Double_t scaleF_sample;
};

//function for doing KS test
vector<testMC> doKStest(const vector<Double_t>& vnevt, map<string,TH1F*>& mhisto) {
  vector<testMC> output;
  //define the scale factors
  Double_t sf1 = 0.0; // QCD
  Double_t sf2 = 0.0; // Wjets
  Double_t Ns  = 0.0; // non-Wjets (ttbar,Zjets,single top...)
  for (UInt_t i = 3; i < vnevt.size(); ++i)
    Ns += vnevt[i];
  //cout << "Total number of Non Wjets events = " << Ns << endl;
  //KS test
  do {
    sf1 = (vnevt.at(0) - Ns - vnevt.at(2)*sf2)/vnevt.at(1);
    if (sf1 < 0) break;
    //cout << "..........sf1 = " << sf1 << endl;
    int nbins = mhisto["Data"]->GetNbinsX();
    double xmin = mhisto["Data"]->GetXaxis()->GetBinLowEdge(1);
    double xmax = mhisto["Data"]->GetXaxis()->GetBinUpEdge(nbins);
    TH1F *test = new TH1F("test", "", nbins, xmin, xmax);
    test->Sumw2();
    test->Add(mhisto["QCD"],mhisto["WJets"],sf1,sf2);
    for (map<string,TH1F*>::iterator ihisto = mhisto.begin();
         ihisto != mhisto.end(); ++ihisto) {
      if (ihisto->first != "QCD" 
          && ihisto->first != "Data"
          && ihisto->first != "WJets"
          ) {
        test->Add(ihisto->second,1.);
      }
    }

    //test->Scale(1./(1.*test->Integral()));
    Double_t probability = mhisto["Data"]->KolmogorovTest(test,"");
    testMC temp = testMC(probability,sf1,sf2);
    output.push_back(temp);
/*     cout << "probability = " << setw(15) << temp.prob  */
/*       << "; sfQCD = "     << setw(10) << temp.scaleF_backg  */
/*       << "; sfWjets = "   << setw(6)  << temp.scaleF_sample << endl; */
    delete test;
    sf2 = sf2 + stepsize;
  } while(sf1 > 0 && sf2 <= 2.0);
  return output;
}

//get the maximum KS test result
testMC getMax(vector<testMC> vec) {
  testMC maxKSRes;
  Double_t maximum = 0.0;
  for (size_t i = 0; i < vec.size(); i++) {
    if (maximum < vec.at(i).prob)  {
      maximum = vec.at(i).prob;
      maxKSRes = vec.at(i);
    }
  }
  cout << "for maximum: " << setw(12) << maxKSRes.prob 
       << "; sb = " << setw(10) << maxKSRes.scaleF_backg 
       << "; ss = " << setw(5) << maxKSRes.scaleF_sample << endl; 
  return maxKSRes;
}
Revision:	1.3
Committed:	Wed Sep 8 04:51:35 2010 UTC (14 years, 7 months ago) by jengbou
Content type:	text/plain
Branch:	MAIN
Changes since 1.2:	+25 -11 lines
Log Message:	Update to include non Wjets contributions
#	User	Rev	Content
1	jengbou	1.1	#include <vector>
2			#include <TROOT.h>
3			#include <TFile.h>
4			#include <TH1.h>
5			#include <TH2.h>
6	jengbou	1.2	#include <THStack.h>
7	jengbou	1.1	#include <TLatex.h>
8			#include <TCanvas.h>
9			#include <TMath.h>
10			#include <TLegend.h>
11			#include <TObject.h>
12			#include <iostream>
13			#include <sstream>
14			#include <fstream>
15			#include <iomanip>
16			#include <map>
17			#include <sys/types.h>
18			#include <sys/stat.h>
19			#include <stdio.h>
20
21			const double stepsize = 0.001;
22			//=================================
23			// Structure/Functions
24			//=================================
25
26			struct testMC {
27			testMC(Double_t p = 0., Double_t sb = 0., Double_t ss = 0.){prob=p; scaleF_backg = sb; scaleF_sample = ss;}
28			Double_t prob;
29			Double_t scaleF_backg;
30			Double_t scaleF_sample;
31			};
32
33			//function for doing KS test
34	jengbou	1.3	vector<testMC> doKStest(const vector<Double_t>& vnevt, map<string,TH1F*>& mhisto) {
35	jengbou	1.1	vector<testMC> output;
36			//define the scale factors
37			Double_t sf1 = 0.0; // QCD
38			Double_t sf2 = 0.0; // Wjets
39	jengbou	1.3	Double_t Ns = 0.0; // non-Wjets (ttbar,Zjets,single top...)
40			for (UInt_t i = 3; i < vnevt.size(); ++i)
41			Ns += vnevt[i];
42			//cout << "Total number of Non Wjets events = " << Ns << endl;
43	jengbou	1.1	//KS test
44			do {
45	jengbou	1.3	sf1 = (vnevt.at(0) - Ns - vnevt.at(2)*sf2)/vnevt.at(1);
46	jengbou	1.1	if (sf1 < 0) break;
47			//cout << "..........sf1 = " << sf1 << endl;
48	jengbou	1.3	int nbins = mhisto["Data"]->GetNbinsX();
49			double xmin = mhisto["Data"]->GetXaxis()->GetBinLowEdge(1);
50			double xmax = mhisto["Data"]->GetXaxis()->GetBinUpEdge(nbins);
51	jengbou	1.1	TH1F *test = new TH1F("test", "", nbins, xmin, xmax);
52	jengbou	1.3	test->Sumw2();
53			test->Add(mhisto["QCD"],mhisto["WJets"],sf1,sf2);
54			for (map<string,TH1F*>::iterator ihisto = mhisto.begin();
55			ihisto != mhisto.end(); ++ihisto) {
56			if (ihisto->first != "QCD"
57			&& ihisto->first != "Data"
58			&& ihisto->first != "WJets"
59			) {
60			test->Add(ihisto->second,1.);
61			}
62			}
63
64	jengbou	1.1	//test->Scale(1./(1.*test->Integral()));
65	jengbou	1.3	Double_t probability = mhisto["Data"]->KolmogorovTest(test,"");
66	jengbou	1.1	testMC temp = testMC(probability,sf1,sf2);
67			output.push_back(temp);
68	jengbou	1.3	/* cout << "probability = " << setw(15) << temp.prob */
69			/* << "; sfQCD = " << setw(10) << temp.scaleF_backg */
70			/* << "; sfWjets = " << setw(6) << temp.scaleF_sample << endl; */
71	jengbou	1.1	delete test;
72			sf2 = sf2 + stepsize;
73			} while(sf1 > 0 && sf2 <= 2.0);
74			return output;
75			}
76
77			//get the maximum KS test result
78			testMC getMax(vector<testMC> vec) {
79			testMC maxKSRes;
80			Double_t maximum = 0.0;
81			for (size_t i = 0; i < vec.size(); i++) {
82			if (maximum < vec.at(i).prob) {
83			maximum = vec.at(i).prob;
84			maxKSRes = vec.at(i);
85			}
86			}
87			cout << "for maximum: " << setw(12) << maxKSRes.prob
88			<< "; sb = " << setw(10) << maxKSRes.scaleF_backg
89			<< "; ss = " << setw(5) << maxKSRes.scaleF_sample << endl;
90			return maxKSRes;
91			}