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Comparing UserCode/cbrown/AnalysisFramework/Plotting/Modules/Systematics.C (file contents):
Revision 1.11 by buchmann, Fri Jul 22 21:40:21 2011 UTC vs.
Revision 1.30 by buchmann, Wed Sep 7 06:43:24 2011 UTC

# Line 157 | Line 157 | TH1F* plotEff(TTree* events, TCut kbase,
157  
158  
159   //________________________________________________________________________________________
160 + // Master Formula
161 + void master_formula(std::vector<float> eff, float &errHi, float &errLo) {
162 +
163 +  float x0 = eff[0];
164 +  float deltaPos = 0, deltaNeg = 0;
165 +  for(int k = 0; k < (eff.size()-1)/2; k++) {
166 +    float xneg = eff[2*k+2];
167 +    float xpos = eff[2*k+1];
168 +    if(xpos-x0>0 || xneg-x0>0) {
169 +      if(xpos-x0 > xneg-x0) {
170 +        deltaPos += (xpos-x0)*(xpos-x0);
171 +      } else {
172 +        deltaPos += (xneg-x0)*(xneg-x0);
173 +      }
174 +    }
175 +    if(x0-xpos>0 || x0-xneg>0) {
176 +      if(x0-xpos > x0-xneg) {
177 +        deltaNeg += (xpos-x0)*(xpos-x0);
178 +      } else {
179 +        deltaNeg += (xneg-x0)*(xneg-x0);
180 +      }
181 +    }
182 +  }
183 +  errHi = sqrt(deltaPos);
184 +  errLo = sqrt(deltaNeg);
185 +
186 + }
187 +
188 +
189 + //________________________________________________________________________________________
190 + // Get normalization factor for the PDFs
191 + float get_norm_pdf_factor(TTree *events, int k) {
192 +
193 +  TH1F *haux = new TH1F("haux", "", 10000, 0, 5);
194 +  char nameVar[20];
195 +  sprintf(nameVar, "pdfW[%d]", k);
196 +  events->Project("haux", nameVar);
197 +  float thisW = haux->Integral();
198 +  events->Project("haux", "pdfW[0]");
199 +  float normW = haux->Integral();
200 +
201 +  float factor=thisW/normW;
202 +
203 +  delete haux;
204 +
205 +  return factor;
206 +
207 + }
208 +
209 +
210 +
211 + //________________________________________________________________________________________
212   // Pile-up efficiency
213   float pileup(TTree *events, bool requireZ, string informalname, string addcut="",Float_t myJzbMax = 140. ) {
214          nBins = 16;
# Line 182 | Line 234 | float pileup(TTree *events, bool require
234          if(!automatized) dout << "  PU: " << funcUp->Eval(jzbSel) << " " <<  func->Eval(jzbSel)
235          << "(" << (funcUp->Eval(jzbSel)-func->Eval(jzbSel))/func->Eval(jzbSel)*100. << "%)" << std::endl;
236          
237 <        return (funcUp->Eval(jzbSel)-func->Eval(jzbSel))/func->Eval(jzbSel)*100.;
237 >        return (funcUp->Eval(jzbSel)-func->Eval(jzbSel))/func->Eval(jzbSel);
238          
239   }
240  
# Line 218 | Line 270 | void PeakError(TTree *events,float &resu
270            else if(i==1) resdown=res;
271            else if(i==2) resup=res;
272          }
273 <        if(TMath::Abs(rescent-resup)>TMath::Abs(rescent-resdown)) result=(TMath::Abs(rescent-resup)/rescent)*100;
274 <        else result=(TMath::Abs(rescent-resdown)/rescent)*100;
273 >        if(TMath::Abs(rescent-resup)>TMath::Abs(rescent-resdown)) result=(TMath::Abs(rescent-resup)/rescent);
274 >        else result=(TMath::Abs(rescent-resdown)/rescent);
275   }
276  
277   //____________________________________________________________________________________
278   // Total selection efficiency (MC)
279 < void MCefficiency(TTree *events,float &result, float &resulterr,string mcjzb,bool requireZ,string addcut="") {
279 > void MCefficiency(TTree *events,float &result, float &resulterr,string mcjzb,bool requireZ,int Neventsinfile, string addcut="", int k = 0) {
280          
281          char jzbSelStr[256]; sprintf(jzbSelStr,"%f",jzbSel);
282          // All acceptance cuts at gen. level
283 <        TCut kbase("abs(genMll-91.2)<20&&genNjets>2&&genZPt>0&&genJZB"+geq_or_leq()+TString(jzbSelStr)+"&&genId1==-genId2");
283 >        //TCut kbase("abs(genMll-91.2)<20&&genNjets>2&&genZPt>0&&genJZB"+geq_or_leq()+TString(jzbSelStr)+"&&genId1==-genId2");
284 >        TCut kbase("");
285          if(requireZ) kbase=kbase&&"TMath::Abs(genMID)==23";
286          if(addcut!="") kbase=kbase&&addcut.c_str();//this is mostly for SUSY scans (adding requirements on masses)
287          // Corresponding reco. cuts
288          TCut ksel("pfJetGoodNum>2&&abs(mll-91.2)<20&&id1==id2&&"+TString(mcjzb)+geq_or_leq()+TString(jzbSelStr));
289 <        
290 <        events->Draw(mcjzbexpression.c_str(),kbase&&ksel,"goff");
291 <        Float_t sel = events->GetSelectedRows();
292 <        events->Draw(mcjzbexpression.c_str(),kbase,"goff");
293 <        Float_t tot = events->GetSelectedRows();
294 <        
295 <        result=sel/tot;
296 <        resulterr=TMath::Sqrt(sel/tot*(1-sel/tot)/tot);
297 <        if(!automatized) dout << "  MC efficiency: " << result << "+-" << resulterr << std::endl;
289 >        TCut ksel2("pfJetGoodNum>2&&abs(mll-91.2)<20&&id1==id2&&"+TString(mcjzb)+ngeq_or_leq()+TString("-")+TString(jzbSelStr));
290 >        TCut posSide = kbase&&ksel;
291 >        TCut negSide = kbase&&ksel2;
292 >        string sposSide(posSide);
293 >        string snegSide(negSide);
294 >        char var[20];
295 >        sprintf(var, "pdfW[%d]", k);
296 >        string svar(var);
297 >        string newPosSide = "(" + sposSide + ")*" + svar;
298 >        string newNegSide = "(" + snegSide + ")*" + svar;
299 >
300 >        TH1F *effh= new TH1F("effh","effh",1,-14000,14000);
301 >        if(k>=0)events->Draw((mcjzbexpression+">>effh").c_str(), newPosSide.c_str(),"goff");
302 >        else events->Draw((mcjzbexpression+">>effh").c_str(), sposSide.c_str(),"goff");
303 >        Float_t sel = effh->Integral();
304 >        Float_t nsel=0;
305 >        if(ConsiderSignalContaminationForLimits) {
306 >          if(k>=0)events->Draw((mcjzbexpression+">>effh").c_str(), newNegSide.c_str(),"goff");
307 >          else events->Draw((mcjzbexpression+">>effh").c_str(), snegSide.c_str(),"goff");
308 >          nsel = effh->Integral();
309 >        }
310 >        //Corrections due to normalization in the PDF. This has to be applied as well to the number of events in a file if the definition changes at some point.
311 >        float normFactor = 1;
312 >        if(k>=0) get_norm_pdf_factor(events, k);
313 >        sel = sel/normFactor;
314 >        nsel = nsel/normFactor;
315 >
316 > //      events->Draw(mcjzbexpression.c_str(),kbase,"goff");
317 > //      Float_t tot = events->GetSelectedRows();
318 >        Float_t tot = Neventsinfile;
319 >        
320 >        if(ConsiderSignalContaminationForLimits) {
321 >          result=(sel-nsel)/tot;
322 >          resulterr=(1.0/tot)*TMath::Sqrt(sel+nsel+(sel-nsel)*(sel-nsel)/tot);
323 >        } else {//no signal contamination considered:
324 >          result=(sel)/tot;
325 >          resulterr=TMath::Sqrt(sel/tot*(1+sel/tot)/tot);
326 >        }
327 >        if(!automatized) dout << "  MC efficiency: " << result << "+-" << resulterr << "  ( JZB>" << jzbSel << " : " << sel << " , JZB<-" << jzbSel << " : " << nsel << " and nevents=" << tot << ") with normFact=" << normFactor << std::endl;
328 >        delete effh;
329   }
330  
331 +
332 + //____________________________________________________________________________________
333 + // Selection efficiency for one process (MC)
334 + vector<float> processMCefficiency(TTree *events,string mcjzb,bool requireZ,int Neventsinfile, string addcut) {
335 +  vector<float> process_efficiencies;
336 +  for(int iprocess=0;iprocess<=10;iprocess++) {
337 +    float this_process_efficiency,efferr;
338 +    stringstream addcutplus;
339 +    addcutplus<<addcut<<"&&(process=="<<iprocess<<")";
340 +    MCefficiency(events,this_process_efficiency, efferr,mcjzb,requireZ,Neventsinfile, addcutplus.str(),-1);
341 +    process_efficiencies.push_back(this_process_efficiency);
342 +  }
343 +  return process_efficiencies;
344 + }
345 +        
346 +
347   void JZBefficiency(TTree *events, string informalname, float &jzbeff, float &jzbefferr, bool requireZ, string addcut="") {
348          TCut kbase("abs(genMll-91.2)<20&&genNjets>2&&genZPt>0&&abs(mll-91.2)<20&&((id1+1)*(id2+1)*ch1*ch2)!=-2");
349          if(addcut!="") kbase=kbase&&addcut.c_str();//this is mostly for SUSY scans (adding requirements on masses)
# Line 289 | Line 389 | void JZBjetScale(TTree *events, float &j
389          if(!automatized) dout << "    JESup: " << effp << " (" << (effp-eff)/eff*100. << "%)" << std::endl;
390          if(!automatized) dout << "    central:  " << eff << std::endl;
391          if(!automatized) dout << "    JESdown: " << effm << " (" << (effm-eff)/eff*100. << "%)" << std::endl;
392 <        jesup=(effp-eff)/eff*100.;
393 <        jesdown=(effm-eff)/eff*100.;
392 >        jesup=(effp-eff)/eff;
393 >        jesdown=(effm-eff)/eff;
394   }
395  
396   //________________________________________________________________________
# Line 315 | Line 415 | void doJZBscale(TTree *events, float &do
415          if(!automatized) dout << "  efficiency at JZB==" << jzbSel*(1.+systematic)  << "(-"<<syst*100<<"%) : " << effp << " (" << ((effp-eff)/eff)*100. << "%)"  << std::endl;
416          if(!automatized) dout << "  efficiency at JZB==" << jzbSel  << ": " << eff << std::endl;
417          if(!automatized) dout << "  efficiency at JZB==" << jzbSel*(1.-systematic)  << "(-"<<syst*100<<"%) : " << effm << " (" << ((effm-eff)/eff)*100. << "%)"  << std::endl;
418 <        up=((effp-eff)/eff)*100;
419 <        down=((effm-eff)/eff)*100;
418 >        up=((effp-eff)/eff);
419 >        down=((effm-eff)/eff);
420   }
421  
422   //________________________________________________________________________
# Line 345 | Line 445 | void JZBresponse(TTree *events, bool req
445   }
446  
447  
448 < void do_systematics_for_one_file(TTree *events,string informalname, vector<vector<float> > &results,string mcjzb,string datajzb,float peakerror,bool requireZ=false, string addcut="") {
448 > //________________________________________________________________________________________
449 > // PDF uncertainty  
450 > float get_pdf_uncertainty(TTree *events, string mcjzb, bool requireZ, int Neventsinfile, int NPdfs, string addcut="") {
451 >  std::vector<float> efficiency;
452 >  for(int k = 1; k < NPdfs; k++) {
453 >    float result, resulterr;
454 >    MCefficiency(events, result, resulterr, mcjzb, requireZ, Neventsinfile, addcut, k);  
455 >    efficiency.push_back(result);
456 >  }
457 >  float errHi, errLow,err;
458 >  master_formula(efficiency, errHi, errLow);
459 >  err=errLow;
460 >  if(errHi>errLow) err=errHi;
461 >  if(!automatized) dout << "  Uncertainty from PDF: " << errLow << " (low) and " << errHi << "(high) ---> Picked " << err << endl;
462 >  return err;
463 >
464 > }
465 >
466 > int get_npdfs(TTree *events) {
467 >  int NPDFs;
468 >  events->SetBranchAddress("NPdfs",&NPDFs);
469 >  events->GetEntry(1);
470 >  return NPDFs;
471 > }
472    
473 +
474 + void do_systematics_for_one_file(TTree *events,int Neventsinfile,string informalname, vector<vector<float> > &results,string mcjzb,string datajzb,float peakerror,bool requireZ=false, string addcut="", bool ismSUGRA=false) {
475    float JetEnergyScaleUncert=0.1;
476    float JZBScaleUncert=0.1;
477    mcjzbexpression=mcjzb;
478 <  
354 <  float triggereff=4;//percent!
478 >  float triggereff=5.0/100;// in range [0,1]
479    dout << "Trigger efficiency not implemented in this script  yet, still using external one" << endl;
480 <  float leptonseleff=2;//percent!
480 >  float leptonseleff=2.0/100;// in range [0,1]
481    dout << "Lepton selection efficiency not implemented in this script  yet, still using external one" << endl;
482    
483 +  int NPdfs=0;
484 +  if(ismSUGRA) NPdfs = get_npdfs(events);
485 +  
486    float mceff,mcefferr,jzbeff,jzbefferr;
487    if(!automatized) dout << "MC efficiencies:" << endl;
488 <  MCefficiency(events,mceff,mcefferr,mcjzb,requireZ,addcut);
488 >  MCefficiency(events,mceff,mcefferr,mcjzb,requireZ,Neventsinfile,addcut,-1);
489    JZBefficiency(events,informalname,jzbeff,jzbefferr,requireZ,addcut);
490    if(!automatized) dout << "JZB efficiency: " << jzbeff << "+/-" << jzbefferr << endl;
491    
# Line 380 | Line 507 | void do_systematics_for_one_file(TTree *
507  
508    if(!automatized) dout << "Pileup: " << std::endl;
509    float resolution=pileup(events,requireZ,informalname,addcut);
510 <  
510 >
511 >  float PDFuncert=0;
512 >  if(ismSUGRA) PDFuncert = get_pdf_uncertainty(events, mcjzb, requireZ, Neventsinfile, NPdfs, addcut);
513 >
514    dout << "_______________________________________________" << endl;
515    dout << "                 SUMMARY FOR " << informalname << " with JZB>" << jzbSel << "  (all in %) ";
516    if(addcut!="") dout << "With additional cut: " << addcut;
517    dout << endl;
518 <  dout << "MC efficiency: " << 100*mceff << "+/-" << 100*mcefferr << endl;
519 <  dout << "Trigger efficiency: " << triggereff << endl;
520 <  dout << "Lepton Sel Eff: " << leptonseleff << endl;
521 <  dout << "Jet energy scale: " << jesup << " " << jesdown << endl;
522 <  dout << "JZB Scale Uncert: " << scaledown << " " << scaleup << endl;
523 <  dout << "Resolution : " << resolution << endl;
524 <  dout << "From peak : " << sysfrompeak << endl;
525 <  dout << "JZB efficiency: " << jzbeff << "+/-" << jzbefferr << " (not yet included below) " << endl;
526 <  dout << "JZB response  : " << resp << " +/-" << resperr << " (not yet included below) " << endl;
518 >  dout << "MC efficiency: " << mceff << "+/-" << mcefferr << endl; // in range [0,1]
519 >  dout << "Trigger efficiency: " << triggereff << endl; // in range [0,1]
520 >  dout << "Lepton Sel Eff: " << leptonseleff << endl; // in range [0,1]
521 >  dout << "Jet energy scale: " << jesup << " " << jesdown << endl; // in range [0,1]
522 >  dout << "JZB Scale Uncert: " << scaledown << " " << scaleup << endl; // in range [0,1]
523 >  dout << "Resolution : " << resolution << endl; // in range [0,1]
524 >  dout << "From peak : " << sysfrompeak << endl; // in range [0,1]
525 >  if(ismSUGRA) dout << "PDF uncertainty  : " << PDFuncert << endl; // in range [0,1]
526 >  dout << "JZB efficiency: " << jzbeff << "+/-" << jzbefferr << " (not yet included below) " << endl; // in range [0,1]
527 >  dout << "JZB response  : " << resp << " +/-" << resperr << " (not yet included below) " << endl; // in range [0,1]
528    
529    float toterr=0;
530 <  toterr+=(triggereff/100)*(triggereff/100);
531 <  toterr+=(leptonseleff/100)*(leptonseleff/100);
532 <  if(fabs(jesup)>fabs(jesdown)) toterr+=(jesup/100)*(jesup/100); else toterr+=(jesdown/100)*(jesdown/100);
533 <  if(fabs(scaleup)>fabs(scaledown)) toterr+=(scaleup/100)*(scaleup/100); else toterr+=(scaledown/100)*(scaledown/100);
534 <  toterr+=(resolution/100)*(resolution/100);
535 <  toterr+=(sysfrompeak/100)*(sysfrompeak/100);
536 <  toterr=TMath::Sqrt(toterr);
537 <  dout << "FINAL RESULT : " << 100*mceff << " +/- "<< 100*mcefferr << " (stat) +/- " << 100*toterr << " (syst)   %" << endl;
538 <  dout << "     we thus use the sqrt of the sum of the squares which is : " << 100*TMath::Sqrt(mcefferr*mcefferr+(toterr*toterr)) << endl;
530 >  toterr+=(triggereff)*(triggereff);
531 >  toterr+=(leptonseleff)*(leptonseleff);
532 >  if(fabs(jesup)>fabs(jesdown)) toterr+=(jesup*jesup); else toterr+=(jesdown*jesdown);
533 >  if(fabs(scaleup)>fabs(scaledown)) toterr+=(scaleup*scaleup); else toterr+=(scaledown*scaledown);
534 >  toterr+=(resolution*resolution);
535 >  toterr+=(sysfrompeak*sysfrompeak);
536 >  if(ismSUGRA) toterr+=(PDFuncert*PDFuncert);
537 >  dout << "TOTAL SYSTEMATICS: " << TMath::Sqrt(toterr) << " --> " << TMath::Sqrt(toterr)*mceff << endl;
538 >  float systerr=TMath::Sqrt(toterr)*mceff;
539 >  toterr=TMath::Sqrt(toterr*mceff*mceff+mcefferr*mcefferr);//also includes stat err!
540 >  
541 >  dout << "FINAL RESULT : " << 100*mceff << " +/- "<< 100*mcefferr << " (stat) +/- " << 100*systerr << " (syst)   %" << endl;
542 >  dout << "     we thus use the sqrt of the sum of the squares of the stat & syst err, which is : " << 100*toterr << endl;
543 >  
544 >  //Do not modify the lines below or mess with the order; this order is expected by all limit calculating functions!
545    vector<float> res;
546    res.push_back(jzbSel);
547    res.push_back(mceff);
548    res.push_back(mcefferr);
549    res.push_back(toterr);
550    res.push_back(TMath::Sqrt((mcefferr)*(mcefferr)+(toterr*toterr)));
551 <  
551 >  if(fabs(jesup)>fabs(jesdown)) res.push_back(fabs(jesup)); else res.push_back(fabs(jesdown));
552 >  if(fabs(scaleup)>fabs(scaledown)) res.push_back(fabs(scaleup)); else res.push_back(fabs(scaledown));
553 >  res.push_back(fabs(resolution));
554 >  if(ismSUGRA) res.push_back(PDFuncert);
555    results.push_back(res);
556   }
557  
# Line 423 | Line 563 | vector<vector<float> > compute_systemati
563        for(int ibin=0;ibin<bins.size();ibin++) {
564          jzbSel=bins[ibin];
565          geqleq="geq";
566 <        do_systematics_for_one_file((signalsamples.collection)[isignal].events,(signalsamples.collection)[isignal].samplename,systematics,mcjzb,datajzb,mcpeakerror,requireZ);
566 >        do_systematics_for_one_file((signalsamples.collection)[isignal].events,(signalsamples.collection)[isignal].Nentries,(signalsamples.collection)[isignal].samplename,systematics,mcjzb,datajzb,mcpeakerror,requireZ);
567        }//end of bin loop
568    }//end of signal loop
569    return systematics;

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