Plotting/Modules/SUSYScan.C

#include <iostream>
#include <vector>
#include <sys/stat.h>
#include <fstream>
#include <pthread.h>

#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>
#include <TProfile.h>

//#include "TTbar_stuff.C"
using namespace std;

using namespace PlottingSetup;

void susy_scan_axis_labeling(TH2F *histo) {
  histo->GetXaxis()->SetTitle("#Chi_{2}^{0}-LSP");
  histo->GetXaxis()->CenterTitle();
  histo->GetYaxis()->SetTitle("m_{#tilde{q}}");
  histo->GetYaxis()->CenterTitle();
}

bool isThreadActive=false;

struct limit_args {
  float mceff;
  float toterr;
  int ibin;
  string mcjzb;
  vector<float> sigmas;
  string plotfilename;
}; 

void* compute_one_upper_limit_wrapper(void* data) {
  isThreadActive=true;
  limit_args* args = (limit_args*) data;
  std::cout << "Thread to compute limits has been started" << std::endl;
  args->sigmas=compute_one_upper_limit(args->mceff,args->toterr,args->ibin,args->mcjzb,args->plotfilename,true);
  std::cout << "Thread to compute limits has finished" << std::endl;
  isThreadActive=false;
  return NULL; // oder in C++: return 0;// Damit kann man Werte zurückgeben
}

void do_limit_wrapper(float mceff,float toterr,int ibin,string mcjzb,vector<float> &sigmas,string plotfilename) {
  pthread_t limitthread;
  limit_args limargs={mceff,toterr,ibin,mcjzb,sigmas,plotfilename};
  pthread_create( &limitthread, NULL, compute_one_upper_limit_wrapper, (void*) &limargs);
  int counter=0;
  sleep(1); //waiting a second for the process to become active
  while(counter<limitpatience*60 && isThreadActive) {
    std::cout << "Limits are being calculated; Checking round " << counter << " ( corresponds to " << seconds_to_time(counter) << " ) , patience will end in " << seconds_to_time(60*60*limitpatience-counter) << std::endl;
    counter++;
    sleep(1);
  }

  if(!isThreadActive) {
    cout << "Thread finished sucessfully" << endl;
    pthread_join( limitthread, NULL );
    std::cout<< __FUNCTION__ << " : going to save sigmas " << std::endl;
    sigmas=limargs.sigmas;
  } else {
    pthread_cancel(limitthread);
    std::cout << "DID NOT TERMINATE IN TIME - ABORTED!" << std::endl;
    sigmas.push_back(-1);sigmas.push_back(-1);sigmas.push_back(-1);
  }
}

void prepare_scan_axis(TH2 *variablemap,bool ismSUGRA) {
  variablemap->GetXaxis()->SetTitle("m_{glu}");
  variablemap->GetYaxis()->SetTitle("m_{LSP}");
  
  if(ismSUGRA) {
    variablemap->GetXaxis()->SetTitle("m_{0}");
    variablemap->GetYaxis()->SetTitle("m_{1/2}");
  }
  
  variablemap->GetXaxis()->CenterTitle();
  variablemap->GetYaxis()->CenterTitle();
}

void scan_SUSY_parameter_space(string mcjzb,string datajzb,vector<float> jzb_cut,bool requireZ, float peakerror, int ibin,float njobs=-1, float jobnumber=-1, bool systematicsonly=false,bool efficiencyonly=false) {
  bool runninglocally=true;
  if(njobs>-1&&jobnumber>-1) {
    runninglocally=false;
    dout << "Running on the GRID (this is job " << jobnumber << "/" << njobs << ") for a jzb cut at " << jzb_cut[ibin] << endl;
  } else {
    dout << "Running locally " << endl;
    dout << "This will take a really, really long time - if  you want to see the results THIS week try running the LimitWorkerScript on the grid (DistributedModelCalculation/Limits/)" << endl;
  }
  
cout << "FILE USED: " << (scansample.collection)[0].filename << endl;
cout << "FILE USED (name): " << (scansample.collection)[0].samplename << endl;
  jzbSel=jzb_cut[ibin];
  geqleq="geq";
  automatized=true;
  mcjzbexpression=mcjzb;
  
  string massgluname="MassGlu";
  string massLSPname="MassLSP";
  
  string prefix="SMS_";
  // up to here, everything is set up for SMS; now we need to switch stuff around if we're dealing with an mSUGRA scan!
  bool ismSUGRA=false;
  if(Contains((scansample.collection)[0].samplename,"mSUGRA")) ismSUGRA=true;
  if(ismSUGRA) {
    massgluname="M0"; // this is the "x axis" in the limit plot (like the gluino in the SMS case)
    massLSPname="M12"; // this is the "y axis" in the limit plot (like the LSP in the SMS case)
    mglustart=m0start;
    mgluend=m0end;
    mglustep=m0step;
    mLSPstart=m12start;
    mLSPend=m12end;
    mLSPstep=m12step;
    prefix="mSUGRA_";
    cout << "mSUGRA scan has been set up." << endl;
  } else {
    cout << "SMS scan has been set up." << endl;
}
  
  Int_t MyPalette[100];
  Double_t r[]    = {0., 0.0, 1.0, 1.0, 1.0};
  Double_t g[]    = {0., 0.0, 0.0, 1.0, 1.0};
  Double_t b[]    = {0., 1.0, 0.0, 0.0, 1.0};
  Double_t stop[] = {0., .25, .50, .75, 1.0};
  Int_t FI = TColor::CreateGradientColorTable(5, stop, r, g, b, 110);
  for (int i=0;i<100;i++) MyPalette[i] = FI+i;
   
  gStyle->SetPalette(100, MyPalette);
  
  TH2F *limitmap  = new TH2F((prefix+"limitmap"+any2string(jzbSel)).c_str(), "",(mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *exclmap  = new TH2F((prefix+"exclusionmap"+any2string(jzbSel)).c_str(), "",(mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *sysjesmap = new TH2F((prefix+"sysjes"+any2string(jzbSel)).c_str(),   "",(mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *sysjsumap = new TH2F((prefix+"sysjsu"+any2string(jzbSel)).c_str(),   "",(mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *sysresmap = new TH2F((prefix+"sysresmap"+any2string(jzbSel)).c_str(),"",(mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *efficiencymap = new TH2F((prefix+"efficiencymap").c_str(),"",(mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *Neventsmap    = new TH2F((prefix+"Neventsmap").c_str(),"",   (mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  TH2F *ipointmap    = new TH2F((prefix+"ipointmap").c_str(),"",   (mgluend-mglustart)/mglustep+1,mglustart-0.5*mglustep,mgluend+0.5*mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5*mLSPstep,mLSPend+0.5*mLSPstep);
  float rightmargin=gStyle->GetPadRightMargin();
  gStyle->SetPadRightMargin(0.15);
  
  TCanvas *limcanvas = new TCanvas("limcanvas","Limit canvas");
  
  int Npoints=0;
  for(int mglu=mglustart;mglu<=mgluend;mglu+=mglustep) {
    for (int mlsp=mLSPstart;mlsp<=mLSPend&&mlsp<=mglu;mlsp+=mLSPstep) Npoints++;
  }
  
  int ipoint=-1;
  for(int mglu=mglustart;mglu<=mgluend;mglu+=mglustep) {
    for (int mlsp=mLSPstart;mlsp<=mLSPend&&mlsp<=mglu;mlsp+=mLSPstep)
    {
      ipoint++;
      if(!runninglocally&&!do_this_point(ipoint,Npoints,jobnumber,njobs)) continue;
      float result=-987,resulterr=-987;
      stringstream addcut;
      addcut << "(TMath::Abs("<<massgluname<<"-"<<mglu<<")<5)&&(TMath::Abs("<<massLSPname<<"-"<<mlsp<<")<5)";
      (scansample.collection)[0].events->Draw("eventNum",addcut.str().c_str(),"goff");
      float nevents = (scansample.collection)[0].events->GetSelectedRows();
      vector<vector<float> > systematics;
      if(nevents==0) {
        dout << "This point ("<<ipoint<<") with configuration ("<<massgluname<<"="<<mglu<<" , "<<massLSPname<<"="<<mlsp << ") contains no events and will be skipped."<< endl;
        continue;
      } else {
        dout << "OK! This point ("<<ipoint<<") with configuration ("<<massgluname<<"="<<mglu<<" , "<<massLSPname<<"="<<mlsp << ") contains " << nevents << " and will therefore not be skipped."<< endl;
      }
      if(nevents!=0&&efficiencyonly) {
        MCefficiency((scansample.collection)[0].events,result,resulterr,mcjzb,requireZ,nevents,addcut.str());
        efficiencymap->Fill(mglu,mlsp,result);
      }
      Neventsmap->Fill(mglu,mlsp,nevents);
      ipointmap->Fill(mglu,mlsp,ipoint);
      if(efficiencyonly) continue;

      do_systematics_for_one_file((scansample.collection)[0].events,nevents,"SUSY SCAN", systematics,mcjzb,datajzb,peakerror,requireZ, addcut.str(),ismSUGRA);
      float JZBcutat = systematics[0][0];
      float mceff    = systematics[0][1];
      float mcefferr = systematics[0][2];//MC stat error
      float toterr   = systematics[0][4];
      float sys_jes  = systematics[0][5]; // Jet Energy Scale
      float sys_jsu  = systematics[0][6]; // JZB scale uncertainty
      float sys_res  = systematics[0][7]; // resolution
      efficiencymap->Fill(mglu,mlsp,mceff);
      efficiencymap->SetBinError(efficiencymap->FindBin(mglu,mlsp),mcefferr);//blublu
      
      if(mceff!=mceff||toterr!=toterr||mceff<0) {
        dout << "Limits can't be calculated for this configuration (mglu="<<mglu<<" , mlsp="<<mlsp << ") as either the efficiency or its error are not positive numbers! (mceff="<<mceff<<" and toterr="<<toterr<<")"<< endl;
        continue;
      } else {
        if(!systematicsonly&&!efficiencyonly) {
          dout << "Calculating limit now for "<<massgluname<<"="<<mglu<<" , "<<massLSPname<<"="<<mlsp <<endl;
          vector<float> sigmas;
          string plotfilename=(string)(TString((scansample.collection)[0].samplename)+TString(massgluname)+TString(any2string(mglu))+TString("__")+TString(massLSPname)+TString(any2string(mlsp)))+TString(".png");
          do_limit_wrapper(mceff,toterr,ibin,mcjzb,sigmas,plotfilename);
          cout << "back in " << __FUNCTION__ << endl;
          if(sigmas[0]>-0.5) { // negative sigmas are the error signature of do_limit_wrapper, so we want to exclude them.
            limitmap->Fill(mglu,mlsp,sigmas[0]);
            sysjesmap->Fill(mglu,mlsp,sys_jes);
            sysjsumap->Fill(mglu,mlsp,sys_jsu);
            sysresmap->Fill(mglu,mlsp,sys_res);
            efficiencymap->Fill(mglu,mlsp,result);
            dout << "A limit has been added at " << sigmas[0] << " for m_{glu}="<<mglu << " and m_{lsp}="<<mlsp<<endl;
          } //end of if sigma is positive
        //end of not systematics only condition
        }
        if(systematicsonly) { 
            sysjesmap->Fill(mglu,mlsp,sys_jes);
            sysjsumap->Fill(mglu,mlsp,sys_jsu);
            sysresmap->Fill(mglu,mlsp,sys_res);
            efficiencymap->Fill(mglu,mlsp,result);
        }
      }//efficiency is valid
    }
  }
  
  prepare_scan_axis(limitmap,ismSUGRA);
  prepare_scan_axis(sysjesmap,ismSUGRA);
  prepare_scan_axis(sysjsumap,ismSUGRA);
  prepare_scan_axis(sysresmap,ismSUGRA);
  
  if(!systematicsonly&&!efficiencyonly) {
    limcanvas->cd();
    limitmap->Draw("COLZ");
    string titletobewritten="Limits in LSP-Glu plane";
    if(ismSUGRA) titletobewritten="Limits in m_{1/2}-m_{0} plane";
    TText *title = write_title(titletobewritten);
    title->Draw();
    if(runninglocally) {
      CompleteSave(limcanvas,"SUSYScan/Limits_JZB_geq"+any2string(jzb_cut[ibin]));
    } else {
      TFile *outputfile;
      if(systematicsonly) outputfile=new TFile(("output/DistributedSystematics_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");//needs to be "UPDATE" as we can get to this point for different JZB cuts and don't want to erase the previous data :-)
        else outputfile=new TFile(("output/DistributedLimits_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");//needs to be "UPDATE" as we can get to this point for
      limitmap->Write();
      sysjesmap->Write();
      sysjsumap->Write();
      efficiencymap->Write();
      Neventsmap->Write();
      ipointmap->Write();
      outputfile->Close();
    }
  } 
  if(systematicsonly) { // systematics only :
    limcanvas->cd();
    sysjesmap->Draw("COLZ");
    string titletobewritten="Jet Energy scale in LSP-Glu plane";
    if(ismSUGRA) titletobewritten="Limits in m_{1/2}-m_{0} plane";
    TText *title = write_title(titletobewritten);
    title->Draw();
    if(runninglocally) {
      CompleteSave(limcanvas,"SUSYScan/JES_geq"+any2string(jzb_cut[ibin]));
    }
    sysjsumap->Draw("COLZ");
    titletobewritten="JZB Scale Uncertainty in LSP-Glu plane";
    if(ismSUGRA) titletobewritten="JZB Scale Uncertainty in m_{1/2}-m_{0} plane";
    TText *title2 = write_title(titletobewritten);
    title2->Draw();
    if(runninglocally) {
      CompleteSave(limcanvas,"SUSYScan/JSU_geq"+any2string(jzb_cut[ibin]));
    }
    sysresmap->Draw("COLZ");
    titletobewritten="Resolution in LSP-Glu plane";
    if(ismSUGRA) titletobewritten="Resolution in m_{1/2}-m_{0} plane";
    TText *title3 = write_title(titletobewritten);
    title3->Draw();
    if(runninglocally) {
      CompleteSave(limcanvas,"SUSYScan/Resolution_geq"+any2string(jzb_cut[ibin]));
    }
    
    if(!runninglocally) {
      TFile *outputfile=new TFile(("output/DistributedSystematics_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");
      sysjesmap->Write();
      sysjsumap->Write();
      sysresmap->Write();
      efficiencymap->Write();
      Neventsmap->Write();
      ipointmap->Write();
      outputfile->Close();
    }
  }//end of systematics only
  if(efficiencyonly) {
    limcanvas->cd();
    efficiencymap->Draw("COLZ");
    string titletobewritten="Efficiencies in LSP-Glu plane";
    if(ismSUGRA) titletobewritten="Efficiencies in m_{1/2}-m_{0} plane";
    TText *title = write_title(titletobewritten);
    title->Draw();
    if(runninglocally) {
      CompleteSave(limcanvas,"SUSYScan/Efficiency_geq"+any2string(jzb_cut[ibin]));
    }
    limcanvas->cd();
    sysjesmap->Draw("COLZ");
    titletobewritten="N(events) in LSP-Glu plane";
    if(ismSUGRA) titletobewritten="N(events) in m_{1/2}-m_{0} plane";
    TText *title2 = write_title(titletobewritten);
    title2->Draw();
    if(runninglocally) {
      CompleteSave(limcanvas,"SUSYScan/Nevents_geq"+any2string(jzb_cut[ibin]));
    }
    if(!runninglocally) {
      TFile *outputfile=new TFile(("output/DistributedSystematics_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");
      ipointmap->Write();
      Neventsmap->Write();
      efficiencymap->Write();
      outputfile->Close();
    }
  }//end of efficiencies only
  delete limcanvas;
}

void scan_SUSY_parameter_space(string mcjzb,string datajzb,vector<float> jzb_cut,bool requireZ, float peakerror, float njobs=-1, float jobnumber=-1, bool systonly=false, bool effonly=false) {
  dout << "Starting the SUSY scan now with all " << jzb_cut.size() << " bin(s)" << endl;
  for(int ibin=0;ibin<jzb_cut.size();ibin++) {
    scan_SUSY_parameter_space(mcjzb,datajzb,jzb_cut,requireZ, peakerror, ibin, njobs, jobnumber,systonly,effonly);
  }
}
Revision:	1.26
Committed:	Thu Sep 1 15:43:46 2011 UTC (13 years, 8 months ago) by buchmann
Content type:	text/plain
Branch:	MAIN
Changes since 1.25:	+1 -1 lines
Log Message:	Adapted plot names for limits
#	Content
1	#include <iostream>
2	#include <vector>
3	#include <sys/stat.h>
4	#include <fstream>
5	#include <pthread.h>
6
7	#include <TCut.h>
8	#include <TROOT.h>
9	#include <TCanvas.h>
10	#include <TMath.h>
11	#include <TColor.h>
12	#include <TPaveText.h>
13	#include <TRandom.h>
14	#include <TH1.h>
15	#include <TH2.h>
16	#include <TF1.h>
17	#include <TSQLResult.h>
18	#include <TProfile.h>
19
20	//#include "TTbar_stuff.C"
21	using namespace std;
22
23	using namespace PlottingSetup;
24
25	void susy_scan_axis_labeling(TH2F *histo) {
26	histo->GetXaxis()->SetTitle("#Chi_{2}^{0}-LSP");
27	histo->GetXaxis()->CenterTitle();
28	histo->GetYaxis()->SetTitle("m_{#tilde{q}}");
29	histo->GetYaxis()->CenterTitle();
30	}
31
32	bool isThreadActive=false;
33
34	struct limit_args {
35	float mceff;
36	float toterr;
37	int ibin;
38	string mcjzb;
39	vector<float> sigmas;
40	string plotfilename;
41	};
42
43	void* compute_one_upper_limit_wrapper(void* data) {
44	isThreadActive=true;
45	limit_args* args = (limit_args*) data;
46	std::cout << "Thread to compute limits has been started" << std::endl;
47	args->sigmas=compute_one_upper_limit(args->mceff,args->toterr,args->ibin,args->mcjzb,args->plotfilename,true);
48	std::cout << "Thread to compute limits has finished" << std::endl;
49	isThreadActive=false;
50	return NULL; // oder in C++: return 0;// Damit kann man Werte zurückgeben
51	}
52
53	void do_limit_wrapper(float mceff,float toterr,int ibin,string mcjzb,vector<float> &sigmas,string plotfilename) {
54	pthread_t limitthread;
55	limit_args limargs={mceff,toterr,ibin,mcjzb,sigmas,plotfilename};
56	pthread_create( &limitthread, NULL, compute_one_upper_limit_wrapper, (void*) &limargs);
57	int counter=0;
58	sleep(1); //waiting a second for the process to become active
59	while(counter<limitpatience*60 && isThreadActive) {
60	std::cout << "Limits are being calculated; Checking round " << counter << " ( corresponds to " << seconds_to_time(counter) << " ) , patience will end in " << seconds_to_time(6060limitpatience-counter) << std::endl;
61	counter++;
62	sleep(1);
63	}
64
65	if(!isThreadActive) {
66	cout << "Thread finished sucessfully" << endl;
67	pthread_join( limitthread, NULL );
68	std::cout<< __FUNCTION__ << " : going to save sigmas " << std::endl;
69	sigmas=limargs.sigmas;
70	} else {
71	pthread_cancel(limitthread);
72	std::cout << "DID NOT TERMINATE IN TIME - ABORTED!" << std::endl;
73	sigmas.push_back(-1);sigmas.push_back(-1);sigmas.push_back(-1);
74	}
75	}
76
77	void prepare_scan_axis(TH2 *variablemap,bool ismSUGRA) {
78	variablemap->GetXaxis()->SetTitle("m_{glu}");
79	variablemap->GetYaxis()->SetTitle("m_{LSP}");
80
81	if(ismSUGRA) {
82	variablemap->GetXaxis()->SetTitle("m_{0}");
83	variablemap->GetYaxis()->SetTitle("m_{1/2}");
84	}
85
86	variablemap->GetXaxis()->CenterTitle();
87	variablemap->GetYaxis()->CenterTitle();
88	}
89
90	void scan_SUSY_parameter_space(string mcjzb,string datajzb,vector<float> jzb_cut,bool requireZ, float peakerror, int ibin,float njobs=-1, float jobnumber=-1, bool systematicsonly=false,bool efficiencyonly=false) {
91	bool runninglocally=true;
92	if(njobs>-1&&jobnumber>-1) {
93	runninglocally=false;
94	dout << "Running on the GRID (this is job " << jobnumber << "/" << njobs << ") for a jzb cut at " << jzb_cut[ibin] << endl;
95	} else {
96	dout << "Running locally " << endl;
97	dout << "This will take a really, really long time - if you want to see the results THIS week try running the LimitWorkerScript on the grid (DistributedModelCalculation/Limits/)" << endl;
98	}
99
100	cout << "FILE USED: " << (scansample.collection)[0].filename << endl;
101	cout << "FILE USED (name): " << (scansample.collection)[0].samplename << endl;
102	jzbSel=jzb_cut[ibin];
103	geqleq="geq";
104	automatized=true;
105	mcjzbexpression=mcjzb;
106
107	string massgluname="MassGlu";
108	string massLSPname="MassLSP";
109
110	string prefix="SMS_";
111	// up to here, everything is set up for SMS; now we need to switch stuff around if we're dealing with an mSUGRA scan!
112	bool ismSUGRA=false;
113	if(Contains((scansample.collection)[0].samplename,"mSUGRA")) ismSUGRA=true;
114	if(ismSUGRA) {
115	massgluname="M0"; // this is the "x axis" in the limit plot (like the gluino in the SMS case)
116	massLSPname="M12"; // this is the "y axis" in the limit plot (like the LSP in the SMS case)
117	mglustart=m0start;
118	mgluend=m0end;
119	mglustep=m0step;
120	mLSPstart=m12start;
121	mLSPend=m12end;
122	mLSPstep=m12step;
123	prefix="mSUGRA_";
124	cout << "mSUGRA scan has been set up." << endl;
125	} else {
126	cout << "SMS scan has been set up." << endl;
127	}
128
129	Int_t MyPalette[100];
130	Double_t r[] = {0., 0.0, 1.0, 1.0, 1.0};
131	Double_t g[] = {0., 0.0, 0.0, 1.0, 1.0};
132	Double_t b[] = {0., 1.0, 0.0, 0.0, 1.0};
133	Double_t stop[] = {0., .25, .50, .75, 1.0};
134	Int_t FI = TColor::CreateGradientColorTable(5, stop, r, g, b, 110);
135	for (int i=0;i<100;i++) MyPalette[i] = FI+i;
136
137	gStyle->SetPalette(100, MyPalette);
138
139	TH2F limitmap = new TH2F((prefix+"limitmap"+any2string(jzbSel)).c_str(), "",(mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
140	TH2F exclmap = new TH2F((prefix+"exclusionmap"+any2string(jzbSel)).c_str(), "",(mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
141	TH2F sysjesmap = new TH2F((prefix+"sysjes"+any2string(jzbSel)).c_str(), "",(mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
142	TH2F sysjsumap = new TH2F((prefix+"sysjsu"+any2string(jzbSel)).c_str(), "",(mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
143	TH2F sysresmap = new TH2F((prefix+"sysresmap"+any2string(jzbSel)).c_str(),"",(mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
144	TH2F efficiencymap = new TH2F((prefix+"efficiencymap").c_str(),"",(mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
145	TH2F Neventsmap = new TH2F((prefix+"Neventsmap").c_str(),"", (mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
146	TH2F ipointmap = new TH2F((prefix+"ipointmap").c_str(),"", (mgluend-mglustart)/mglustep+1,mglustart-0.5mglustep,mgluend+0.5mglustep,(mLSPend-mLSPstart)/mLSPstep+1,mLSPstart-0.5mLSPstep,mLSPend+0.5*mLSPstep);
147	float rightmargin=gStyle->GetPadRightMargin();
148	gStyle->SetPadRightMargin(0.15);
149
150	TCanvas *limcanvas = new TCanvas("limcanvas","Limit canvas");
151
152	int Npoints=0;
153	for(int mglu=mglustart;mglu<=mgluend;mglu+=mglustep) {
154	for (int mlsp=mLSPstart;mlsp<=mLSPend&&mlsp<=mglu;mlsp+=mLSPstep) Npoints++;
155	}
156
157	int ipoint=-1;
158	for(int mglu=mglustart;mglu<=mgluend;mglu+=mglustep) {
159	for (int mlsp=mLSPstart;mlsp<=mLSPend&&mlsp<=mglu;mlsp+=mLSPstep)
160	{
161	ipoint++;
162	if(!runninglocally&&!do_this_point(ipoint,Npoints,jobnumber,njobs)) continue;
163	float result=-987,resulterr=-987;
164	stringstream addcut;
165	addcut << "(TMath::Abs("<<massgluname<<"-"<<mglu<<")<5)&&(TMath::Abs("<<massLSPname<<"-"<<mlsp<<")<5)";
166	(scansample.collection)[0].events->Draw("eventNum",addcut.str().c_str(),"goff");
167	float nevents = (scansample.collection)[0].events->GetSelectedRows();
168	vector<vector<float> > systematics;
169	if(nevents==0) {
170	dout << "This point ("<<ipoint<<") with configuration ("<<massgluname<<"="<<mglu<<" , "<<massLSPname<<"="<<mlsp << ") contains no events and will be skipped."<< endl;
171	continue;
172	} else {
173	dout << "OK! This point ("<<ipoint<<") with configuration ("<<massgluname<<"="<<mglu<<" , "<<massLSPname<<"="<<mlsp << ") contains " << nevents << " and will therefore not be skipped."<< endl;
174	}
175	if(nevents!=0&&efficiencyonly) {
176	MCefficiency((scansample.collection)[0].events,result,resulterr,mcjzb,requireZ,nevents,addcut.str());
177	efficiencymap->Fill(mglu,mlsp,result);
178	}
179	Neventsmap->Fill(mglu,mlsp,nevents);
180	ipointmap->Fill(mglu,mlsp,ipoint);
181	if(efficiencyonly) continue;
182
183	do_systematics_for_one_file((scansample.collection)[0].events,nevents,"SUSY SCAN", systematics,mcjzb,datajzb,peakerror,requireZ, addcut.str(),ismSUGRA);
184	float JZBcutat = systematics[0][0];
185	float mceff = systematics[0][1];
186	float mcefferr = systematics[0][2];//MC stat error
187	float toterr = systematics[0][4];
188	float sys_jes = systematics[0][5]; // Jet Energy Scale
189	float sys_jsu = systematics[0][6]; // JZB scale uncertainty
190	float sys_res = systematics[0][7]; // resolution
191	efficiencymap->Fill(mglu,mlsp,mceff);
192	efficiencymap->SetBinError(efficiencymap->FindBin(mglu,mlsp),mcefferr);//blublu
193
194	if(mceff!=mceff\|\|toterr!=toterr\|\|mceff<0) {
195	dout << "Limits can't be calculated for this configuration (mglu="<<mglu<<" , mlsp="<<mlsp << ") as either the efficiency or its error are not positive numbers! (mceff="<<mceff<<" and toterr="<<toterr<<")"<< endl;
196	continue;
197	} else {
198	if(!systematicsonly&&!efficiencyonly) {
199	dout << "Calculating limit now for "<<massgluname<<"="<<mglu<<" , "<<massLSPname<<"="<<mlsp <<endl;
200	vector<float> sigmas;
201	string plotfilename=(string)(TString((scansample.collection)[0].samplename)+TString(massgluname)+TString(any2string(mglu))+TString("__")+TString(massLSPname)+TString(any2string(mlsp)))+TString(".png");
202	do_limit_wrapper(mceff,toterr,ibin,mcjzb,sigmas,plotfilename);
203	cout << "back in " << __FUNCTION__ << endl;
204	if(sigmas[0]>-0.5) { // negative sigmas are the error signature of do_limit_wrapper, so we want to exclude them.
205	limitmap->Fill(mglu,mlsp,sigmas[0]);
206	sysjesmap->Fill(mglu,mlsp,sys_jes);
207	sysjsumap->Fill(mglu,mlsp,sys_jsu);
208	sysresmap->Fill(mglu,mlsp,sys_res);
209	efficiencymap->Fill(mglu,mlsp,result);
210	dout << "A limit has been added at " << sigmas[0] << " for m_{glu}="<<mglu << " and m_{lsp}="<<mlsp<<endl;
211	} //end of if sigma is positive
212	//end of not systematics only condition
213	}
214	if(systematicsonly) {
215	sysjesmap->Fill(mglu,mlsp,sys_jes);
216	sysjsumap->Fill(mglu,mlsp,sys_jsu);
217	sysresmap->Fill(mglu,mlsp,sys_res);
218	efficiencymap->Fill(mglu,mlsp,result);
219	}
220	}//efficiency is valid
221	}
222	}
223
224	prepare_scan_axis(limitmap,ismSUGRA);
225	prepare_scan_axis(sysjesmap,ismSUGRA);
226	prepare_scan_axis(sysjsumap,ismSUGRA);
227	prepare_scan_axis(sysresmap,ismSUGRA);
228
229	if(!systematicsonly&&!efficiencyonly) {
230	limcanvas->cd();
231	limitmap->Draw("COLZ");
232	string titletobewritten="Limits in LSP-Glu plane";
233	if(ismSUGRA) titletobewritten="Limits in m_{1/2}-m_{0} plane";
234	TText *title = write_title(titletobewritten);
235	title->Draw();
236	if(runninglocally) {
237	CompleteSave(limcanvas,"SUSYScan/Limits_JZB_geq"+any2string(jzb_cut[ibin]));
238	} else {
239	TFile *outputfile;
240	if(systematicsonly) outputfile=new TFile(("output/DistributedSystematics_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");//needs to be "UPDATE" as we can get to this point for different JZB cuts and don't want to erase the previous data :-)
241	else outputfile=new TFile(("output/DistributedLimits_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");//needs to be "UPDATE" as we can get to this point for
242	limitmap->Write();
243	sysjesmap->Write();
244	sysjsumap->Write();
245	efficiencymap->Write();
246	Neventsmap->Write();
247	ipointmap->Write();
248	outputfile->Close();
249	}
250	}
251	if(systematicsonly) { // systematics only :
252	limcanvas->cd();
253	sysjesmap->Draw("COLZ");
254	string titletobewritten="Jet Energy scale in LSP-Glu plane";
255	if(ismSUGRA) titletobewritten="Limits in m_{1/2}-m_{0} plane";
256	TText *title = write_title(titletobewritten);
257	title->Draw();
258	if(runninglocally) {
259	CompleteSave(limcanvas,"SUSYScan/JES_geq"+any2string(jzb_cut[ibin]));
260	}
261	sysjsumap->Draw("COLZ");
262	titletobewritten="JZB Scale Uncertainty in LSP-Glu plane";
263	if(ismSUGRA) titletobewritten="JZB Scale Uncertainty in m_{1/2}-m_{0} plane";
264	TText *title2 = write_title(titletobewritten);
265	title2->Draw();
266	if(runninglocally) {
267	CompleteSave(limcanvas,"SUSYScan/JSU_geq"+any2string(jzb_cut[ibin]));
268	}
269	sysresmap->Draw("COLZ");
270	titletobewritten="Resolution in LSP-Glu plane";
271	if(ismSUGRA) titletobewritten="Resolution in m_{1/2}-m_{0} plane";
272	TText *title3 = write_title(titletobewritten);
273	title3->Draw();
274	if(runninglocally) {
275	CompleteSave(limcanvas,"SUSYScan/Resolution_geq"+any2string(jzb_cut[ibin]));
276	}
277
278	if(!runninglocally) {
279	TFile *outputfile=new TFile(("output/DistributedSystematics_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");
280	sysjesmap->Write();
281	sysjsumap->Write();
282	sysresmap->Write();
283	efficiencymap->Write();
284	Neventsmap->Write();
285	ipointmap->Write();
286	outputfile->Close();
287	}
288	}//end of systematics only
289	if(efficiencyonly) {
290	limcanvas->cd();
291	efficiencymap->Draw("COLZ");
292	string titletobewritten="Efficiencies in LSP-Glu plane";
293	if(ismSUGRA) titletobewritten="Efficiencies in m_{1/2}-m_{0} plane";
294	TText *title = write_title(titletobewritten);
295	title->Draw();
296	if(runninglocally) {
297	CompleteSave(limcanvas,"SUSYScan/Efficiency_geq"+any2string(jzb_cut[ibin]));
298	}
299	limcanvas->cd();
300	sysjesmap->Draw("COLZ");
301	titletobewritten="N(events) in LSP-Glu plane";
302	if(ismSUGRA) titletobewritten="N(events) in m_{1/2}-m_{0} plane";
303	TText *title2 = write_title(titletobewritten);
304	title2->Draw();
305	if(runninglocally) {
306	CompleteSave(limcanvas,"SUSYScan/Nevents_geq"+any2string(jzb_cut[ibin]));
307	}
308	if(!runninglocally) {
309	TFile *outputfile=new TFile(("output/DistributedSystematics_job"+string(any2string(jobnumber))+"_of_"+string(any2string(njobs))+".root").c_str(),"UPDATE");
310	ipointmap->Write();
311	Neventsmap->Write();
312	efficiencymap->Write();
313	outputfile->Close();
314	}
315	}//end of efficiencies only
316	delete limcanvas;
317	}
318
319	void scan_SUSY_parameter_space(string mcjzb,string datajzb,vector<float> jzb_cut,bool requireZ, float peakerror, float njobs=-1, float jobnumber=-1, bool systonly=false, bool effonly=false) {
320	dout << "Starting the SUSY scan now with all " << jzb_cut.size() << " bin(s)" << endl;
321	for(int ibin=0;ibin<jzb_cut.size();ibin++) {
322	scan_SUSY_parameter_space(mcjzb,datajzb,jzb_cut,requireZ, peakerror, ibin, njobs, jobnumber,systonly,effonly);
323	}
324	}