Plotting/Modules/ResultModule.C

#include <iostream>
#include <vector>
#include <sys/stat.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 "TTbar_stuff.C"
using namespace std;

using namespace PlottingSetup;

void fill_result_histos(float &zossfp, float &zossfperr, float &zosofp, float &zossfn, float &zosofn, float &sbossfp, float &sbosofp, float &sbossfn, float &sbosofn,string datajzb,float cut, float cuthigh, int mcordata, float &result, vector<int> sel, samplecollection &sampleC, string addcut="") {
  string xlabel="JZB [GeV] -- for algoritm internal use only!";
  bool dosignal=false;
  if(mcordata==mcwithsignal) {
    dosignal=true;
    mcordata=0;
  }
  TCut basiccutplus;
  if(addcut=="") basiccutplus=basiccut;
  else basiccutplus=basiccut&&addcut.c_str();
  TH1F *ZOSSFP;
  TH1F *ZOSOFP;
  TH1F *ZOSSFN;
  TH1F *ZOSOFN;
  
  TH1F *SBOSSFP;
  TH1F *SBOSOFP;
  TH1F *SBOSSFN;
  TH1F *SBOSOFN;
    
  if(mcordata==mc||mcordata==data||mcordata==mcwithsignal) {
    ZOSSFP = sampleC.Draw("ZOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
    ZOSOFP = sampleC.Draw("ZOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
    ZOSSFN = sampleC.Draw("ZOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
    ZOSOFN = sampleC.Draw("ZOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
    
    flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
    if(PlottingSetup::RestrictToMassPeak) {
      SBOSSFP = sampleC.Draw("SBOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
      SBOSOFP = sampleC.Draw("SBOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
      SBOSSFN = sampleC.Draw("SBOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
      SBOSOFN = sampleC.Draw("SBOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
    }
  } else {
    //doing signal only!
    ZOSSFP = sampleC.Draw("ZOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
    ZOSOFP = sampleC.Draw("ZOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
    ZOSSFN = sampleC.Draw("ZOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
    ZOSOFN = sampleC.Draw("ZOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
    
    flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
    if(PlottingSetup::RestrictToMassPeak) {
      SBOSSFP = sampleC.Draw("SBOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
      SBOSOFP = sampleC.Draw("SBOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
      SBOSSFN = sampleC.Draw("SBOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
      SBOSOFN = sampleC.Draw("SBOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
    }
  }

  double err; // UGH!
  zossfp=IntegralAndError(ZOSSFP,1,ZOSSFP->GetNbinsX(),err,"");//making this compatible with my computer which has an outdated version of root.
  zossfperr = err;
  zosofp=ZOSOFP->Integral();
  zossfn=ZOSSFN->Integral();
  zosofn=ZOSOFN->Integral();
  
  flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
  if(PlottingSetup::RestrictToMassPeak) {
    sbossfp=SBOSSFP->Integral();
    sbosofp=SBOSOFP->Integral();
    sbossfn=SBOSSFN->Integral();
    sbosofn=SBOSOFN->Integral();
  } else {
    sbossfp=0;
    sbosofp=0;
    sbossfn=0;
    sbosofn=0;
  }
  
  delete ZOSSFP;
  delete ZOSOFP;
  delete ZOSSFN;
  delete ZOSOFN;
  
  if(PlottingSetup::RestrictToMassPeak) {
    delete SBOSSFP;
    delete SBOSOFP;
    delete SBOSSFN;
    delete SBOSOFN;
  }
  
  flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
  if(PlottingSetup::RestrictToMassPeak) result = zossfn + (1.0/3.)*(zosofp-zosofn)+ (1.0/3.)*(sbossfp-sbossfn)+ (1.0/3.)*(sbosofp-sbosofn);
  else result = zossfn + (zosofp-zosofn);
    
}

void fill_result_histos(float &zossfp, float &zossfperr, float &zosofp, float &zossfn, float &zosofn, float &sbossfp, float &sbosofp, float &sbossfn, float &sbosofn,string datajzb,float cut, float cuthigh, int mcordata, float &result, string addcut="") {
  vector<int> emptyvector;
  fill_result_histos(zossfp, zossfperr,zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,datajzb,cut,cuthigh,mcordata,result,emptyvector,allsamples,addcut);
}

vector<float> get_result_between_two_fixed_jzb_values(int doquick, float cut , float cuthigh, string mcjzb,string datajzb, int mcordata,float jzbpeakerrorMC, float jzbpeakerrorData, TCanvas *rescan, bool chatty=false, bool dopoisson=false, bool writeanything=true) {
/*return vector of floats
  [0] Bpred [1] Bpred uncert [2] Observed [3] Observed error
  // if we use this for the ratio plot we don't want to see any of the results (hence writeanything=false)
  */
  rescan->cd();
  if(writeanything&&mcordata==data) dout << "***\nCrunching numbers for JZB>" << cut << " : " << endl;
  
  float zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,result;
  if(mcordata==mc) fill_result_histos(zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,mcjzb,cut,cuthigh,mcordata,result);
  if(mcordata==data) fill_result_histos(zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,datajzb,cut,cuthigh,mcordata,result);
  if(mcordata==mcwithsignal) fill_result_histos(zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,mcjzb,cut,cuthigh,mcordata,result);
  
  float zossfpee, zossfpeeerr, zosofpee, zossfnee, zosofnee, sbossfpee, sbosofpee, sbossfnee, sbosofnee,resultee;
  float zossfpmm, zossfpmmerr, zosofpmm, zossfnmm, zosofnmm, sbossfpmm, sbosofpmm, sbossfnmm, sbosofnmm,resultmm;
  if(mcordata==data) {
    fill_result_histos(zossfpee, zossfpeeerr, zosofpee, zossfnee, zosofnee, sbossfpee, sbosofpee, sbossfnee, sbosofnee,datajzb,cut,cuthigh,mcordata,resultee,"id1==0");
    fill_result_histos(zossfpmm, zossfpmmerr, zosofpmm, zossfnmm, zosofnmm, sbossfpmm, sbosofpmm, sbossfnmm, sbosofnmm,datajzb,cut,cuthigh,mcordata,resultmm,"id1==1");
  }
  
  float pnzossfp, pnzossfperr, pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn, pnresult;
  if(mcordata==mc) fill_result_histos(pnzossfp,  pnzossfperr,pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn,newjzbexpression(mcjzb,-jzbpeakerrorMC),cut,cuthigh,mcordata,pnresult);
  if(mcordata==data) fill_result_histos(pnzossfp,  pnzossfperr,pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn,newjzbexpression(datajzb,-jzbpeakerrorData),cut,cuthigh,mcordata,pnresult);
  if(mcordata==mcwithsignal) fill_result_histos(pnzossfp,  pnzossfperr,pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn,newjzbexpression(mcjzb,-jzbpeakerrorMC),cut,cuthigh,mcordata,pnresult);
  
  float syserr=0;
  float peakerr=0;
  float staterr=0;

  float fsyserr=0;
  float fpeakerr=0;
  float fstaterr=0;

  float poissonstaterrup=-999;
  float poissonstaterrdown=-999;
//  if(fabs(result-pnresult)>fabs(result-ppresult)) peakerr=fabs(result-pnresult); else peakerr=fabs(result-ppresult);
  
  float zjetsestimateuncert=0.25;
  float emuncert=0.5;
  float emsidebanduncert=0.5;
  float eemmsidebanduncert=0.5;
  syserr = (zjetsestimateuncert*zossfn)*(zjetsestimateuncert*zossfn);//first term
  fsyserr = (zjetsestimateuncert*zossfp)*(zjetsestimateuncert*zossfp);//first term
  flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
  if(PlottingSetup::RestrictToMassPeak) {
    syserr+= ((zosofp)*(zosofp) + (zosofn)*(zosofn))*(1.0/9)*emuncert*emuncert;//sys err from emu method
    syserr+= ((sbossfp)*(sbossfp)+(sbossfn)*(sbossfn))*(1.0/9)*eemmsidebanduncert*eemmsidebanduncert; // sys err from eemm sidebands
    syserr+= ((sbosofp)*(sbosofp)+(sbosofn)*(sbosofn))*(1.0/9)*emsidebanduncert*emsidebanduncert; // sys err from emu sidebands

    fsyserr+= ((zosofp)*(zosofp) + (zosofn)*(zosofn))*(1.0/9)*emuncert*emuncert;//sys err from emu method
    fsyserr+= ((sbossfp)*(sbossfp)+(sbossfn)*(sbossfn))*(1.0/9)*eemmsidebanduncert*eemmsidebanduncert; // sys err from eemm sidebands
    fsyserr+= ((sbosofp)*(sbosofp)+(sbosofn)*(sbosofn))*(1.0/9)*emsidebanduncert*emsidebanduncert; // sys err from emu sidebands
  } else {
    syserr+= ((zosofp)*(zosofp) + (zosofn)*(zosofn))*emuncert*emuncert;//sys err from emu method
    fsyserr+= ((zosofp)*(zosofp) + (zosofn)*(zosofn))*emuncert*emuncert;//sys err from emu method
  }
    
  syserr=TMath::Sqrt(syserr);
  fsyserr=TMath::Sqrt(fsyserr);
  
  flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
  if(PlottingSetup::RestrictToMassPeak) {
    staterr=TMath::Sqrt(zossfn + (1.0/9)*(zosofp+zosofn)+ (1.0/9)*(sbossfp+sbossfn)+ (1.0/9)*(sbosofp+sbosofn));
    fstaterr=TMath::Sqrt(zossfp + (1.0/9)*(zosofp+zosofn)+ (1.0/9)*(sbossfp+sbossfn)+ (1.0/9)*(sbosofp+sbosofn));
  } else {
    staterr=TMath::Sqrt(zossfn + (zosofp+zosofn));
    fstaterr=TMath::Sqrt(zossfp + (zosofp+zosofn));
  }
  if(dopoisson) advanced_poisson(zossfn,zosofp,zosofn,sbossfp,sbossfn,sbosofp,sbosofn,poissonstaterrdown,poissonstaterrup);
  
  float e_to_emu=0.5;
  float m_to_emu=0.5;
  
  if(writeanything) {
    if(mcordata==mc) dout << "    MC :: ";
    if(mcordata==mcwithsignal)  dout << "    MC with S :: ";
    if(mcordata==data) dout << "   ";
    dout << "Observed : " << zossfp << "+-" << zossfperr << endl;
    if(mcordata==data) dout << "      Composition: " << zossfpee << " (ee), " << zossfpmm << " (mm) " << endl;
    
    if(mcordata==mc) dout << "    MC :: ";
    if(mcordata==mcwithsignal) dout << "    MC with S :: ";
    if(mcordata==data) dout << "   ";
    flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
    if(PlottingSetup::RestrictToMassPeak) {
      dout << "Predicted: " << zossfn << " + (1/3)*(" << zosofp << "-" << zosofn<<") [e&mu]+ (1/3)*(" << sbossfp << "-" << sbossfn<<") [SF,SB]+ (1/3)*(" << sbosofp << "-" << sbosofn<<") [OF,SB] = ";
      dout << zossfn + (1.0/3)*(zosofp-zosofn)+ (1.0/3)*(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn)<< " +/- " << peakerr << " (peak ) " << " +/- " << syserr << " (sys) +/- " << staterr << " (stat)" << endl;
      if(dopoisson) dout << "               stat error with Poisson : +" << poissonstaterrup << " - " << poissonstaterrdown << endl;
    } else {
      dout << "Predicted: " << zossfn << " + (" << zosofp << "-" << zosofn<<") [e&mu]= ";
      dout << zossfn + (zosofp-zosofn) << " +/- " << peakerr << " (peak ) " << " +/- " << syserr << " (sys) +/- " << staterr << " (stat)" << endl;
      if(dopoisson) dout << "               stat error with Poisson : +" << poissonstaterrup << " - " << poissonstaterrdown << endl;
    }
    
    if(mcordata==data) {
    flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
    if(PlottingSetup::RestrictToMassPeak) {
        dout << "      Composition:  (ee)" << zossfnee << " + (1/3)*(" << e_to_emu*zosofp << "-" << e_to_emu*zosofn<<") ["<<e_to_emu<<"*e&mu]+ (1/3)*(" << sbossfpee << "-" << sbossfnee<<") [SF,SB]+ (1/3)*(" << sbosofp*e_to_emu << "-" << sbosofn*e_to_emu<<") ["<<e_to_emu<<"*OF,SB] = ";
        dout << zossfnee + (1.0/3)*(e_to_emu*zosofp-e_to_emu*zosofn)+ (1.0/3)*(sbossfpee-sbossfnee) + (1.0/3)*(sbosofp*e_to_emu - sbosofn*e_to_emu) << endl;
        dout << "                    (mm)" << zossfnmm << " + (1/3)*(" << m_to_emu*zosofp << "-" << m_to_emu*zosofn<<") ["<<m_to_emu<<"*e&mu]+ (1/3)*(" << sbossfpmm << "-" << sbossfnmm<<") [SF,SB]+ (1/3)*(" << sbosofp*m_to_emu << "-" << sbosofn*m_to_emu<<") ["<<m_to_emu<<"*OF,SB] = ";
        dout << zossfnmm + (1.0/3)*(m_to_emu*zosofp - m_to_emu*zosofn) + (1.0/3)*(sbossfpmm -sbossfnmm)+ (1.0/3)*(sbosofp*m_to_emu-sbosofn*e_to_emu) << endl;
      } else {
        dout << "      Composition:  (ee)" << zossfnee << " + (" << e_to_emu*zosofp << "-" << e_to_emu*zosofn<<") ["<<e_to_emu<<"*e&mu] = ";
        dout << zossfnee + (e_to_emu*zosofp-e_to_emu*zosofn) << endl;
        dout << "                    (mm)" << zossfnmm << " + (" << m_to_emu*zosofp << "-" << m_to_emu*zosofn<<") ["<<m_to_emu<<"*e&mu] = ";
        dout << zossfnmm + (m_to_emu*zosofp - m_to_emu*zosofn) << endl;
      }
    }
    
    if(chatty) {
      dout << "        Pred(ZJets ) \t " << zossfn << endl;
      dout << "        Pred(e&mu;]) \t " << zosofp << "-" << zosofn << " = " << zosofp-zosofn<<endl;
    flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
    if(PlottingSetup::RestrictToMassPeak) {
        dout << "        Pred(ossf,sb]) \t " << sbossfp << "-" << sbossfn<<" = "<<sbossfp-sbossfn<<endl;
        dout << "        Pred(osof,sb]) \t " << sbosofp << "-" << sbosofn<<" = "<<sbosofp-sbosofn<<endl;
      }
    }
  }//end of writeanything
  
  if(mcordata==data) {
    //store the result!
    Nobs.push_back(zossfp);
    flippedNobs.push_back(zossfn);
    flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
    if(PlottingSetup::RestrictToMassPeak) {
        Npred.push_back(zossfn + (1.0/3)*(zosofp-zosofn)+ (1.0/3)*(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn));
        flippedNpred.push_back(zossfp - (1.0/3)*(zosofp-zosofn) - (1.0/3)*(sbossfp-sbossfn) - (1.0/3)*(sbosofp-sbosofn));
    } else {
        Npred.push_back(zossfn + (zosofp-zosofn));
        flippedNpred.push_back(zossfp - (zosofp-zosofn));
    }
    float totprederr=0;
    totprederr+=peakerr*peakerr;
    totprederr+=syserr*syserr;
    totprederr+=staterr*staterr;
    totprederr=TMath::Sqrt(totprederr);
    Nprederr.push_back(totprederr);

    float ftotprederr=0;
    ftotprederr+=fpeakerr*fpeakerr;
    ftotprederr+=fsyserr*fsyserr;
    ftotprederr+=fstaterr*fstaterr;
    ftotprederr=TMath::Sqrt(ftotprederr);
    flippedNprederr.push_back(ftotprederr);
    
    if(doquick<2) {//only for 2 we don't compute this
        //also save results (for data only!) in the new Results Library class
        int jzbcutindex=allresults.Find(cut);

        (allresults.predictions[jzbcutindex]).Zbkg.value=zossfn;
        (allresults.predictions[jzbcutindex]).Zbkg.syserror=zossfn*zjetsestimateuncert;
        (allresults.predictions[jzbcutindex]).Zbkg.staterror=TMath::Sqrt(zossfn);
        
        if(PlottingSetup::RestrictToMassPeak) {
          float ofsyserr= ((zosofp)*(zosofp) + (zosofn)*(zosofn))*(1.0/9)*emuncert*emuncert;//sys err from emu method
          ofsyserr+= ((sbossfp)*(sbossfp)+(sbossfn)*(sbossfn))*(1.0/9)*eemmsidebanduncert*eemmsidebanduncert; // sys err from eemm sidebands
          ofsyserr+= ((sbosofp)*(sbosofp)+(sbosofn)*(sbosofn))*(1.0/9)*emsidebanduncert*emsidebanduncert; // sys err from emu sidebands

          (allresults.predictions[jzbcutindex]).Flavorsym.value=(1.0/3)*(zosofp-zosofn)+ (1.0/3)*(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn);
          (allresults.predictions[jzbcutindex]).Flavorsym.syserror=TMath::Sqrt(ofsyserr);
          (allresults.predictions[jzbcutindex]).Flavorsym.staterror=TMath::Sqrt((1.0/9)*(zosofp+zosofn)+ (1.0/9)*(sbossfp+sbossfn)+ (1.0/9)*(sbosofp+sbosofn));
        } else {
          (allresults.predictions[jzbcutindex]).Flavorsym.value=(zosofp-zosofn);
          (allresults.predictions[jzbcutindex]).Flavorsym.syserror=(zosofn)*emuncert;
          (allresults.predictions[jzbcutindex]).Flavorsym.staterror=TMath::Sqrt((zosofp+zosofn));
        }

        (allresults.predictions[jzbcutindex]).total.value=(allresults.predictions[jzbcutindex]).Zbkg.value+(allresults.predictions[jzbcutindex]).Flavorsym.value;
        (allresults.predictions[jzbcutindex]).total.syserror=syserr;
        (allresults.predictions[jzbcutindex]).total.staterror=staterr;

        (allresults.predictions[jzbcutindex]).observed.ee=zossfpee;
        (allresults.predictions[jzbcutindex]).observed.mm=zossfpmm;
        (allresults.predictions[jzbcutindex]).observed.eemm=zossfp;

    }
  }

  vector<float> resultvector; // only used for poisson computation in experimental module (therefore ignoring flipped business)
  flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
  if(PlottingSetup::RestrictToMassPeak) resultvector.push_back(zossfn + (1.0/3)*(zosofp-zosofn)+ (1.0/3)*(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn));
  else resultvector.push_back(zossfn + (zosofp-zosofn));
  resultvector.push_back(TMath::Sqrt(peakerr*peakerr+syserr*syserr+staterr*staterr));
  resultvector.push_back(zossfp);
  resultvector.push_back(zossfperr);
  
  return resultvector;
}

void get_result_above_one_fixed_jzb_value(int doquick, float cut ,string mcjzb,string datajzb, int mcordata,float jzbpeakerrorMC, float jzbpeakerrorData, TCanvas *rescan, bool chatty=false, bool dopoisson=false) {
  get_result_between_two_fixed_jzb_values(doquick, cut ,15000, mcjzb,datajzb, mcordata,jzbpeakerrorMC, jzbpeakerrorData, rescan, chatty, dopoisson);
}

  
void get_result(string mcjzb, string datajzb, float jzbpeakerrordata, float jzbpeakerrormc, vector<float> jzbcuts, bool chatty=false, bool dopoisson=false,int doquick=0) {
  TCanvas *rescan = new TCanvas("rescan","Result Canvas");
   for(int icut=0;icut<jzbcuts.size();icut++) {
     get_result_above_one_fixed_jzb_value(doquick,jzbcuts[icut],mcjzb,datajzb,data,jzbpeakerrormc,jzbpeakerrordata,rescan,chatty,dopoisson);
     if(doquick==0) {
       get_result_above_one_fixed_jzb_value(doquick,jzbcuts[icut],mcjzb,datajzb,mc,jzbpeakerrormc,jzbpeakerrordata,rescan,chatty,dopoisson);
       get_result_above_one_fixed_jzb_value(doquick,jzbcuts[icut],mcjzb,datajzb,mcwithsignal,jzbpeakerrormc,jzbpeakerrordata,rescan,chatty,dopoisson);
     }
   }
  delete rescan;
}
Revision:	1.19
Committed:	Thu Nov 24 08:17:14 2011 UTC (13 years, 5 months ago) by buchmann
Content type:	text/plain
Branch:	MAIN
Changes since 1.18:	+38 -42 lines
Log Message:	Store predictions in new prediction library (don't do this though if we're in a hurry, say we're generating scan templates [i.e. last_configuration.C] )
#	Content
1	#include <iostream>
2	#include <vector>
3	#include <sys/stat.h>
4
5	#include <TCut.h>
6	#include <TROOT.h>
7	#include <TCanvas.h>
8	#include <TMath.h>
9	#include <TColor.h>
10	#include <TPaveText.h>
11	#include <TRandom.h>
12	#include <TH1.h>
13	#include <TH2.h>
14	#include <TF1.h>
15	#include <TSQLResult.h>
16
17	//#include "TTbar_stuff.C"
18	using namespace std;
19
20	using namespace PlottingSetup;
21
22	void fill_result_histos(float &zossfp, float &zossfperr, float &zosofp, float &zossfn, float &zosofn, float &sbossfp, float &sbosofp, float &sbossfn, float &sbosofn,string datajzb,float cut, float cuthigh, int mcordata, float &result, vector<int> sel, samplecollection &sampleC, string addcut="") {
23	string xlabel="JZB [GeV] -- for algoritm internal use only!";
24	bool dosignal=false;
25	if(mcordata==mcwithsignal) {
26	dosignal=true;
27	mcordata=0;
28	}
29	TCut basiccutplus;
30	if(addcut=="") basiccutplus=basiccut;
31	else basiccutplus=basiccut&&addcut.c_str();
32	TH1F *ZOSSFP;
33	TH1F *ZOSOFP;
34	TH1F *ZOSSFN;
35	TH1F *ZOSOFN;
36
37	TH1F *SBOSSFP;
38	TH1F *SBOSOFP;
39	TH1F *SBOSSFN;
40	TH1F *SBOSOFN;
41
42	if(mcordata==mc\|\|mcordata==data\|\|mcordata==mcwithsignal) {
43	ZOSSFP = sampleC.Draw("ZOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
44	ZOSOFP = sampleC.Draw("ZOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
45	ZOSSFN = sampleC.Draw("ZOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
46	ZOSOFN = sampleC.Draw("ZOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,dosignal);
47
48	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
49	if(PlottingSetup::RestrictToMassPeak) {
50	SBOSSFP = sampleC.Draw("SBOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
51	SBOSOFP = sampleC.Draw("SBOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
52	SBOSSFN = sampleC.Draw("SBOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
53	SBOSOFN = sampleC.Draw("SBOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,dosignal);
54	}
55	} else {
56	//doing signal only!
57	ZOSSFP = sampleC.Draw("ZOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
58	ZOSOFP = sampleC.Draw("ZOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
59	ZOSSFN = sampleC.Draw("ZOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSSF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
60	ZOSOFN = sampleC.Draw("ZOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutmass&&cutOSOF&&cutnJets&&basiccutplus,mcordata,luminosity,sel);
61
62	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
63	if(PlottingSetup::RestrictToMassPeak) {
64	SBOSSFP = sampleC.Draw("SBOSSFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
65	SBOSOFP = sampleC.Draw("SBOSOFP",datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
66	SBOSSFN = sampleC.Draw("SBOSSFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSSF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
67	SBOSOFN = sampleC.Draw("SBOSOFN","-"+datajzb,1,cut,cuthigh, xlabel, "events",cutOSOF&&cutnJets&&basiccutplus&&sidebandcut,mcordata,luminosity,sel);
68	}
69	}
70
71	double err; // UGH!
72	zossfp=IntegralAndError(ZOSSFP,1,ZOSSFP->GetNbinsX(),err,"");//making this compatible with my computer which has an outdated version of root.
73	zossfperr = err;
74	zosofp=ZOSOFP->Integral();
75	zossfn=ZOSSFN->Integral();
76	zosofn=ZOSOFN->Integral();
77
78	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
79	if(PlottingSetup::RestrictToMassPeak) {
80	sbossfp=SBOSSFP->Integral();
81	sbosofp=SBOSOFP->Integral();
82	sbossfn=SBOSSFN->Integral();
83	sbosofn=SBOSOFN->Integral();
84	} else {
85	sbossfp=0;
86	sbosofp=0;
87	sbossfn=0;
88	sbosofn=0;
89	}
90
91	delete ZOSSFP;
92	delete ZOSOFP;
93	delete ZOSSFN;
94	delete ZOSOFN;
95
96	if(PlottingSetup::RestrictToMassPeak) {
97	delete SBOSSFP;
98	delete SBOSOFP;
99	delete SBOSSFN;
100	delete SBOSOFN;
101	}
102
103	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
104	if(PlottingSetup::RestrictToMassPeak) result = zossfn + (1.0/3.)(zosofp-zosofn)+ (1.0/3.)(sbossfp-sbossfn)+ (1.0/3.)*(sbosofp-sbosofn);
105	else result = zossfn + (zosofp-zosofn);
106
107	}
108
109	void fill_result_histos(float &zossfp, float &zossfperr, float &zosofp, float &zossfn, float &zosofn, float &sbossfp, float &sbosofp, float &sbossfn, float &sbosofn,string datajzb,float cut, float cuthigh, int mcordata, float &result, string addcut="") {
110	vector<int> emptyvector;
111	fill_result_histos(zossfp, zossfperr,zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,datajzb,cut,cuthigh,mcordata,result,emptyvector,allsamples,addcut);
112	}
113
114	vector<float> get_result_between_two_fixed_jzb_values(int doquick, float cut , float cuthigh, string mcjzb,string datajzb, int mcordata,float jzbpeakerrorMC, float jzbpeakerrorData, TCanvas *rescan, bool chatty=false, bool dopoisson=false, bool writeanything=true) {
115	/*return vector of floats
116	[0] Bpred [1] Bpred uncert [2] Observed [3] Observed error
117	// if we use this for the ratio plot we don't want to see any of the results (hence writeanything=false)
118	*/
119	rescan->cd();
120	if(writeanything&&mcordata==data) dout << "***\nCrunching numbers for JZB>" << cut << " : " << endl;
121
122	float zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,result;
123	if(mcordata==mc) fill_result_histos(zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,mcjzb,cut,cuthigh,mcordata,result);
124	if(mcordata==data) fill_result_histos(zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,datajzb,cut,cuthigh,mcordata,result);
125	if(mcordata==mcwithsignal) fill_result_histos(zossfp, zossfperr, zosofp, zossfn, zosofn, sbossfp, sbosofp, sbossfn, sbosofn,mcjzb,cut,cuthigh,mcordata,result);
126
127	float zossfpee, zossfpeeerr, zosofpee, zossfnee, zosofnee, sbossfpee, sbosofpee, sbossfnee, sbosofnee,resultee;
128	float zossfpmm, zossfpmmerr, zosofpmm, zossfnmm, zosofnmm, sbossfpmm, sbosofpmm, sbossfnmm, sbosofnmm,resultmm;
129	if(mcordata==data) {
130	fill_result_histos(zossfpee, zossfpeeerr, zosofpee, zossfnee, zosofnee, sbossfpee, sbosofpee, sbossfnee, sbosofnee,datajzb,cut,cuthigh,mcordata,resultee,"id1==0");
131	fill_result_histos(zossfpmm, zossfpmmerr, zosofpmm, zossfnmm, zosofnmm, sbossfpmm, sbosofpmm, sbossfnmm, sbosofnmm,datajzb,cut,cuthigh,mcordata,resultmm,"id1==1");
132	}
133
134	float pnzossfp, pnzossfperr, pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn, pnresult;
135	if(mcordata==mc) fill_result_histos(pnzossfp, pnzossfperr,pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn,newjzbexpression(mcjzb,-jzbpeakerrorMC),cut,cuthigh,mcordata,pnresult);
136	if(mcordata==data) fill_result_histos(pnzossfp, pnzossfperr,pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn,newjzbexpression(datajzb,-jzbpeakerrorData),cut,cuthigh,mcordata,pnresult);
137	if(mcordata==mcwithsignal) fill_result_histos(pnzossfp, pnzossfperr,pnzosofp, pnzossfn, pnzosofn, pnsbossfp, pnsbosofp, pnsbossfn, pnsbosofn,newjzbexpression(mcjzb,-jzbpeakerrorMC),cut,cuthigh,mcordata,pnresult);
138
139	float syserr=0;
140	float peakerr=0;
141	float staterr=0;
142
143	float fsyserr=0;
144	float fpeakerr=0;
145	float fstaterr=0;
146
147	float poissonstaterrup=-999;
148	float poissonstaterrdown=-999;
149	// if(fabs(result-pnresult)>fabs(result-ppresult)) peakerr=fabs(result-pnresult); else peakerr=fabs(result-ppresult);
150
151	float zjetsestimateuncert=0.25;
152	float emuncert=0.5;
153	float emsidebanduncert=0.5;
154	float eemmsidebanduncert=0.5;
155	syserr = (zjetsestimateuncertzossfn)(zjetsestimateuncert*zossfn);//first term
156	fsyserr = (zjetsestimateuncertzossfp)(zjetsestimateuncert*zossfp);//first term
157	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
158	if(PlottingSetup::RestrictToMassPeak) {
159	syserr+= ((zosofp)(zosofp) + (zosofn)(zosofn))(1.0/9)emuncert*emuncert;//sys err from emu method
160	syserr+= ((sbossfp)(sbossfp)+(sbossfn)(sbossfn))(1.0/9)eemmsidebanduncert*eemmsidebanduncert; // sys err from eemm sidebands
161	syserr+= ((sbosofp)(sbosofp)+(sbosofn)(sbosofn))(1.0/9)emsidebanduncert*emsidebanduncert; // sys err from emu sidebands
162
163	fsyserr+= ((zosofp)(zosofp) + (zosofn)(zosofn))(1.0/9)emuncert*emuncert;//sys err from emu method
164	fsyserr+= ((sbossfp)(sbossfp)+(sbossfn)(sbossfn))(1.0/9)eemmsidebanduncert*eemmsidebanduncert; // sys err from eemm sidebands
165	fsyserr+= ((sbosofp)(sbosofp)+(sbosofn)(sbosofn))(1.0/9)emsidebanduncert*emsidebanduncert; // sys err from emu sidebands
166	} else {
167	syserr+= ((zosofp)(zosofp) + (zosofn)(zosofn))emuncertemuncert;//sys err from emu method
168	fsyserr+= ((zosofp)(zosofp) + (zosofn)(zosofn))emuncertemuncert;//sys err from emu method
169	}
170
171	syserr=TMath::Sqrt(syserr);
172	fsyserr=TMath::Sqrt(fsyserr);
173
174	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
175	if(PlottingSetup::RestrictToMassPeak) {
176	staterr=TMath::Sqrt(zossfn + (1.0/9)(zosofp+zosofn)+ (1.0/9)(sbossfp+sbossfn)+ (1.0/9)*(sbosofp+sbosofn));
177	fstaterr=TMath::Sqrt(zossfp + (1.0/9)(zosofp+zosofn)+ (1.0/9)(sbossfp+sbossfn)+ (1.0/9)*(sbosofp+sbosofn));
178	} else {
179	staterr=TMath::Sqrt(zossfn + (zosofp+zosofn));
180	fstaterr=TMath::Sqrt(zossfp + (zosofp+zosofn));
181	}
182	if(dopoisson) advanced_poisson(zossfn,zosofp,zosofn,sbossfp,sbossfn,sbosofp,sbosofn,poissonstaterrdown,poissonstaterrup);
183
184	float e_to_emu=0.5;
185	float m_to_emu=0.5;
186
187	if(writeanything) {
188	if(mcordata==mc) dout << " MC :: ";
189	if(mcordata==mcwithsignal) dout << " MC with S :: ";
190	if(mcordata==data) dout << " ";
191	dout << "Observed : " << zossfp << "+-" << zossfperr << endl;
192	if(mcordata==data) dout << " Composition: " << zossfpee << " (ee), " << zossfpmm << " (mm) " << endl;
193
194	if(mcordata==mc) dout << " MC :: ";
195	if(mcordata==mcwithsignal) dout << " MC with S :: ";
196	if(mcordata==data) dout << " ";
197	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
198	if(PlottingSetup::RestrictToMassPeak) {
199	dout << "Predicted: " << zossfn << " + (1/3)(" << zosofp << "-" << zosofn<<") [e&mu]+ (1/3)(" << sbossfp << "-" << sbossfn<<") [SF,SB]+ (1/3)*(" << sbosofp << "-" << sbosofn<<") [OF,SB] = ";
200	dout << zossfn + (1.0/3)(zosofp-zosofn)+ (1.0/3)(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn)<< " +/- " << peakerr << " (peak ) " << " +/- " << syserr << " (sys) +/- " << staterr << " (stat)" << endl;
201	if(dopoisson) dout << " stat error with Poisson : +" << poissonstaterrup << " - " << poissonstaterrdown << endl;
202	} else {
203	dout << "Predicted: " << zossfn << " + (" << zosofp << "-" << zosofn<<") [e&mu]= ";
204	dout << zossfn + (zosofp-zosofn) << " +/- " << peakerr << " (peak ) " << " +/- " << syserr << " (sys) +/- " << staterr << " (stat)" << endl;
205	if(dopoisson) dout << " stat error with Poisson : +" << poissonstaterrup << " - " << poissonstaterrdown << endl;
206	}
207
208	if(mcordata==data) {
209	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
210	if(PlottingSetup::RestrictToMassPeak) {
211	dout << " Composition: (ee)" << zossfnee << " + (1/3)(" << e_to_emuzosofp << "-" << e_to_emuzosofn<<") ["<<e_to_emu<<"e&mu]+ (1/3)(" << sbossfpee << "-" << sbossfnee<<") [SF,SB]+ (1/3)(" << sbosofpe_to_emu << "-" << sbosofne_to_emu<<") ["<<e_to_emu<<"*OF,SB] = ";
212	dout << zossfnee + (1.0/3)(e_to_emuzosofp-e_to_emuzosofn)+ (1.0/3)(sbossfpee-sbossfnee) + (1.0/3)(sbosofpe_to_emu - sbosofn*e_to_emu) << endl;
213	dout << " (mm)" << zossfnmm << " + (1/3)(" << m_to_emuzosofp << "-" << m_to_emuzosofn<<") ["<<m_to_emu<<"e&mu]+ (1/3)(" << sbossfpmm << "-" << sbossfnmm<<") [SF,SB]+ (1/3)(" << sbosofpm_to_emu << "-" << sbosofnm_to_emu<<") ["<<m_to_emu<<"*OF,SB] = ";
214	dout << zossfnmm + (1.0/3)(m_to_emuzosofp - m_to_emuzosofn) + (1.0/3)(sbossfpmm -sbossfnmm)+ (1.0/3)(sbosofpm_to_emu-sbosofn*e_to_emu) << endl;
215	} else {
216	dout << " Composition: (ee)" << zossfnee << " + (" << e_to_emuzosofp << "-" << e_to_emuzosofn<<") ["<<e_to_emu<<"*e&mu] = ";
217	dout << zossfnee + (e_to_emuzosofp-e_to_emuzosofn) << endl;
218	dout << " (mm)" << zossfnmm << " + (" << m_to_emuzosofp << "-" << m_to_emuzosofn<<") ["<<m_to_emu<<"*e&mu] = ";
219	dout << zossfnmm + (m_to_emuzosofp - m_to_emuzosofn) << endl;
220	}
221	}
222
223	if(chatty) {
224	dout << " Pred(ZJets ) \t " << zossfn << endl;
225	dout << " Pred(eμ]) \t " << zosofp << "-" << zosofn << " = " << zosofp-zosofn<<endl;
226	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
227	if(PlottingSetup::RestrictToMassPeak) {
228	dout << " Pred(ossf,sb]) \t " << sbossfp << "-" << sbossfn<<" = "<<sbossfp-sbossfn<<endl;
229	dout << " Pred(osof,sb]) \t " << sbosofp << "-" << sbosofn<<" = "<<sbosofp-sbosofn<<endl;
230	}
231	}
232	}//end of writeanything
233
234	if(mcordata==data) {
235	//store the result!
236	Nobs.push_back(zossfp);
237	flippedNobs.push_back(zossfn);
238	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
239	if(PlottingSetup::RestrictToMassPeak) {
240	Npred.push_back(zossfn + (1.0/3)(zosofp-zosofn)+ (1.0/3)(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn));
241	flippedNpred.push_back(zossfp - (1.0/3)(zosofp-zosofn) - (1.0/3)(sbossfp-sbossfn) - (1.0/3)*(sbosofp-sbosofn));
242	} else {
243	Npred.push_back(zossfn + (zosofp-zosofn));
244	flippedNpred.push_back(zossfp - (zosofp-zosofn));
245	}
246	float totprederr=0;
247	totprederr+=peakerr*peakerr;
248	totprederr+=syserr*syserr;
249	totprederr+=staterr*staterr;
250	totprederr=TMath::Sqrt(totprederr);
251	Nprederr.push_back(totprederr);
252
253	float ftotprederr=0;
254	ftotprederr+=fpeakerr*fpeakerr;
255	ftotprederr+=fsyserr*fsyserr;
256	ftotprederr+=fstaterr*fstaterr;
257	ftotprederr=TMath::Sqrt(ftotprederr);
258	flippedNprederr.push_back(ftotprederr);
259
260	if(doquick<2) {//only for 2 we don't compute this
261	//also save results (for data only!) in the new Results Library class
262	int jzbcutindex=allresults.Find(cut);
263
264	(allresults.predictions[jzbcutindex]).Zbkg.value=zossfn;
265	(allresults.predictions[jzbcutindex]).Zbkg.syserror=zossfn*zjetsestimateuncert;
266	(allresults.predictions[jzbcutindex]).Zbkg.staterror=TMath::Sqrt(zossfn);
267
268	if(PlottingSetup::RestrictToMassPeak) {
269	float ofsyserr= ((zosofp)(zosofp) + (zosofn)(zosofn))(1.0/9)emuncert*emuncert;//sys err from emu method
270	ofsyserr+= ((sbossfp)(sbossfp)+(sbossfn)(sbossfn))(1.0/9)eemmsidebanduncert*eemmsidebanduncert; // sys err from eemm sidebands
271	ofsyserr+= ((sbosofp)(sbosofp)+(sbosofn)(sbosofn))(1.0/9)emsidebanduncert*emsidebanduncert; // sys err from emu sidebands
272
273	(allresults.predictions[jzbcutindex]).Flavorsym.value=(1.0/3)(zosofp-zosofn)+ (1.0/3)(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn);
274	(allresults.predictions[jzbcutindex]).Flavorsym.syserror=TMath::Sqrt(ofsyserr);
275	(allresults.predictions[jzbcutindex]).Flavorsym.staterror=TMath::Sqrt((1.0/9)(zosofp+zosofn)+ (1.0/9)(sbossfp+sbossfn)+ (1.0/9)*(sbosofp+sbosofn));
276	} else {
277	(allresults.predictions[jzbcutindex]).Flavorsym.value=(zosofp-zosofn);
278	(allresults.predictions[jzbcutindex]).Flavorsym.syserror=(zosofn)*emuncert;
279	(allresults.predictions[jzbcutindex]).Flavorsym.staterror=TMath::Sqrt((zosofp+zosofn));
280	}
281
282	(allresults.predictions[jzbcutindex]).total.value=(allresults.predictions[jzbcutindex]).Zbkg.value+(allresults.predictions[jzbcutindex]).Flavorsym.value;
283	(allresults.predictions[jzbcutindex]).total.syserror=syserr;
284	(allresults.predictions[jzbcutindex]).total.staterror=staterr;
285
286	(allresults.predictions[jzbcutindex]).observed.ee=zossfpee;
287	(allresults.predictions[jzbcutindex]).observed.mm=zossfpmm;
288	(allresults.predictions[jzbcutindex]).observed.eemm=zossfp;
289
290	}
291	}
292
293	vector<float> resultvector; // only used for poisson computation in experimental module (therefore ignoring flipped business)
294	flag_this_change(__FUNCTION__,__LINE__,true);//PlottingSetup::RestrictToMassPeak
295	if(PlottingSetup::RestrictToMassPeak) resultvector.push_back(zossfn + (1.0/3)(zosofp-zosofn)+ (1.0/3)(sbossfp-sbossfn)+ (1.0/3)*(sbosofp-sbosofn));
296	else resultvector.push_back(zossfn + (zosofp-zosofn));
297	resultvector.push_back(TMath::Sqrt(peakerrpeakerr+syserrsyserr+staterr*staterr));
298	resultvector.push_back(zossfp);
299	resultvector.push_back(zossfperr);
300
301	return resultvector;
302	}
303
304	void get_result_above_one_fixed_jzb_value(int doquick, float cut ,string mcjzb,string datajzb, int mcordata,float jzbpeakerrorMC, float jzbpeakerrorData, TCanvas *rescan, bool chatty=false, bool dopoisson=false) {
305	get_result_between_two_fixed_jzb_values(doquick, cut ,15000, mcjzb,datajzb, mcordata,jzbpeakerrorMC, jzbpeakerrorData, rescan, chatty, dopoisson);
306	}
307
308
309	void get_result(string mcjzb, string datajzb, float jzbpeakerrordata, float jzbpeakerrormc, vector<float> jzbcuts, bool chatty=false, bool dopoisson=false,int doquick=0) {
310	TCanvas *rescan = new TCanvas("rescan","Result Canvas");
311	for(int icut=0;icut<jzbcuts.size();icut++) {
312	get_result_above_one_fixed_jzb_value(doquick,jzbcuts[icut],mcjzb,datajzb,data,jzbpeakerrormc,jzbpeakerrordata,rescan,chatty,dopoisson);
313	if(doquick==0) {
314	get_result_above_one_fixed_jzb_value(doquick,jzbcuts[icut],mcjzb,datajzb,mc,jzbpeakerrormc,jzbpeakerrordata,rescan,chatty,dopoisson);
315	get_result_above_one_fixed_jzb_value(doquick,jzbcuts[icut],mcjzb,datajzb,mcwithsignal,jzbpeakerrormc,jzbpeakerrordata,rescan,chatty,dopoisson);
316	}
317	}
318	delete rescan;
319	}