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reweight::LumiReWeighting Class Reference

#include <LumiReweightingStandAlone.h>

Public Member Functions

double ITweight (int npv)
 
double ITweight3BX (float ave_int)
 
 LumiReWeighting ()
 
 LumiReWeighting (std::string generatedFile, std::string dataFile, std::string GenHistName, std::string DataHistName)
 
 LumiReWeighting (const std::vector< float > &MC_distr, const std::vector< float > &Lumi_distr)
 
double weight (float n_int)
 
double weight3D (int pv1, int pv2, int pv3)
 
void weight3D_init (float ScaleFactor, std::string WeightOutputFile="")
 
void weight3D_set (std::string WeightFileName)
 
double weightOOT (int npv_in_time, int npv_m50nsBX)
 
void weightOOT_init ()
 

Protected Attributes

TH1F * Data_distr_
 
TFile * dataFile_
 
std::string dataFileName_
 
std::string DataHistName_
 
bool FirstWarning_
 
TFile * generatedFile_
 
std::string generatedFileName_
 
std::string GenHistName_
 
TH1F * MC_distr_
 
double Weight3D_ [50][50][50]
 
double WeightOOTPU_ [25][25]
 
TH1F * weights_
 

Detailed Description

Definition at line 227 of file LumiReweightingStandAlone.h.

Constructor & Destructor Documentation

reweight::LumiReWeighting::LumiReWeighting ( )
inline

Definition at line 230 of file LumiReweightingStandAlone.h.

230 { } ;
reweight::LumiReWeighting::LumiReWeighting ( std::string  generatedFile,
std::string  dataFile,
std::string  GenHistName,
std::string  DataHistName 
)
inline

Definition at line 232 of file LumiReweightingStandAlone.h.

References gather_cfg::cout, Data_distr_, dataFile_, dataFileName_, DataHistName_, FirstWarning_, generatedFile_, generatedFileName_, GenHistName_, MC_distr_, EnsembleCalibrationLA_cfg::NBins, weightOOT_init(), and weights_.

235  :
236  generatedFileName_( generatedFile),
237  dataFileName_ ( dataFile ),
238  GenHistName_ ( GenHistName ),
239  DataHistName_ ( DataHistName )
240  {
241  generatedFile_ = new TFile( generatedFileName_.c_str() ) ; //MC distribution
242  dataFile_ = new TFile( dataFileName_.c_str() ); //Data distribution
243 
244  Data_distr_ = new TH1F( *(static_cast<TH1F*>(dataFile_->Get( DataHistName_.c_str() )->Clone() )) );
245  MC_distr_ = new TH1F( *(static_cast<TH1F*>(generatedFile_->Get( GenHistName_.c_str() )->Clone() )) );
246 
247  // normalize both histograms first
248 
249  Data_distr_->Scale( 1.0/ Data_distr_->Integral() );
250  MC_distr_->Scale( 1.0/ MC_distr_->Integral() );
251 
252  weights_ = new TH1F( *(Data_distr_)) ;
253 
254  // MC * data/MC = data, so the weights are data/MC:
255 
256  weights_->SetName("lumiWeights");
257 
258  TH1F* den = new TH1F(*(MC_distr_));
259 
260  weights_->Divide( den ); // so now the average weight should be 1.0
261 
262  std::cout << " Lumi/Pileup Reweighting: Computed Weights per In-Time Nint " << std::endl;
263 
264  int NBins = weights_->GetNbinsX();
265 
266  for(int ibin = 1; ibin<NBins+1; ++ibin){
267  std::cout << " " << ibin-1 << " " << weights_->GetBinContent(ibin) << std::endl;
268  }
269 
270  weightOOT_init();
271 
272  FirstWarning_ = true;
273 
274  }
tuple cout
Definition: gather_cfg.py:121
reweight::LumiReWeighting::LumiReWeighting ( const std::vector< float > &  MC_distr,
const std::vector< float > &  Lumi_distr 
)
inline

Definition at line 277 of file LumiReweightingStandAlone.h.

References dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, Data_distr_, FirstWarning_, MC_distr_, EnsembleCalibrationLA_cfg::NBins, weightOOT_init(), and weights_.

277  {
278  // no histograms for input: use vectors
279 
280  // now, make histograms out of them:
281 
282  // first, check they are the same size...
283 
284  if( MC_distr.size() != Lumi_distr.size() ){
285 
286  std::cerr <<"ERROR: LumiReWeighting: input vectors have different sizes. Quitting... \n";
287  return;
288 
289  }
290 
291  Int_t NBins = MC_distr.size();
292 
293  MC_distr_ = new TH1F("MC_distr","MC dist",NBins,-0.5, float(NBins)-0.5);
294  Data_distr_ = new TH1F("Data_distr","Data dist",NBins,-0.5, float(NBins)-0.5);
295 
296  weights_ = new TH1F("luminumer","luminumer",NBins,-0.5, float(NBins)-0.5);
297  TH1F* den = new TH1F("lumidenom","lumidenom",NBins,-0.5, float(NBins)-0.5);
298 
299  for(int ibin = 1; ibin<NBins+1; ++ibin ) {
300  weights_->SetBinContent(ibin, Lumi_distr[ibin-1]);
301  Data_distr_->SetBinContent(ibin, Lumi_distr[ibin-1]);
302  den->SetBinContent(ibin,MC_distr[ibin-1]);
303  MC_distr_->SetBinContent(ibin,MC_distr[ibin-1]);
304  }
305 
306  // check integrals, make sure things are normalized
307 
308  float deltaH = weights_->Integral();
309  if(fabs(1.0 - deltaH) > 0.02 ) { //*OOPS*...
310  weights_->Scale( 1.0/ deltaH );
311  Data_distr_->Scale( 1.0/ deltaH );
312  }
313  float deltaMC = den->Integral();
314  if(fabs(1.0 - deltaMC) > 0.02 ) {
315  den->Scale(1.0/ deltaMC );
316  MC_distr_->Scale(1.0/ deltaMC );
317  }
318 
319  weights_->Divide( den ); // so now the average weight should be 1.0
320 
321  std::cout << " Lumi/Pileup Reweighting: Computed Weights per In-Time Nint " << std::endl;
322 
323  for(int ibin = 1; ibin<NBins+1; ++ibin){
324  std::cout << " " << ibin-1 << " " << weights_->GetBinContent(ibin) << std::endl;
325  }
326 
327  weightOOT_init();
328 
329  FirstWarning_ = true;
330 
331  }
tuple cout
Definition: gather_cfg.py:121

Member Function Documentation

double reweight::LumiReWeighting::ITweight ( int  npv)
inline

Definition at line 1297 of file LumiReweightingStandAlone.h.

References newFWLiteAna::bin, and weights_.

1297  {
1298  int bin = weights_->GetXaxis()->FindBin( npv );
1299  return weights_->GetBinContent( bin );
1300  }
double reweight::LumiReWeighting::ITweight3BX ( float  ave_int)
inline

Definition at line 1302 of file LumiReweightingStandAlone.h.

References newFWLiteAna::bin, and weights_.

1302  {
1303  int bin = weights_->GetXaxis()->FindBin( ave_int );
1304  return weights_->GetBinContent( bin );
1305  }
double reweight::LumiReWeighting::weight ( float  n_int)
inline

Definition at line 1307 of file LumiReweightingStandAlone.h.

References newFWLiteAna::bin, and weights_.

Referenced by cuy.ValElement::__init__(), cuy.additionElement::__init__(), cuy.superimposeElement::__init__(), and cuy.graphElement::__init__().

1307  {
1308  int bin = weights_->GetXaxis()->FindBin( n_int );
1309  return weights_->GetBinContent( bin );
1310  }
double reweight::LumiReWeighting::weight3D ( int  pv1,
int  pv2,
int  pv3 
)
inline

Definition at line 1313 of file LumiReweightingStandAlone.h.

References min(), and Weight3D_.

1313  {
1314 
1315  using std::min;
1316 
1317  int npm1 = min(pv1,34);
1318  int np0 = min(pv2,34);
1319  int npp1 = min(pv3,34);
1320 
1321  return Weight3D_[npm1][np0][npp1];
1322 
1323  }
T min(T a, T b)
Definition: MathUtil.h:58
void reweight::LumiReWeighting::weight3D_init ( float  ScaleFactor,
std::string  WeightOutputFile = "" 
)
inline

Definition at line 333 of file LumiReweightingStandAlone.h.

References newFWLiteAna::base, gather_cfg::cout, Data_distr_, create_public_lumi_plots::exp, factorial(), i, j, relval_steps::k, MC_distr_, timingPdfMaker::mean, min(), getDQMSummary::outfile, Weight3D_, and x.

333  {
334 
335  //create histogram to write output weights, save pain of generating them again...
336 
337  TH3D* WHist = new TH3D("WHist","3D weights",50,0.,50.,50,0.,50.,50,0.,50. );
338  TH3D* DHist = new TH3D("DHist","3D weights",50,0.,50.,50,0.,50.,50,0.,50. );
339  TH3D* MHist = new TH3D("MHist","3D weights",50,0.,50.,50,0.,50.,50,0.,50. );
340 
341 
342  using std::min;
343 
344  if( MC_distr_->GetEntries() == 0 ) {
345  std::cout << " MC and Data distributions are not initialized! You must call the LumiReWeighting constructor. " << std::endl;
346  }
347 
348  // arrays for storing number of interactions
349 
350  double MC_ints[50][50][50];
351  double Data_ints[50][50][50];
352 
353  for (int i=0; i<50; i++) {
354  for(int j=0; j<50; j++) {
355  for(int k=0; k<50; k++) {
356  MC_ints[i][j][k] = 0.;
357  Data_ints[i][j][k] = 0.;
358  }
359  }
360  }
361 
362  double factorial[50];
363  double PowerSer[50];
364  double base = 1.;
365 
366  factorial[0] = 1.;
367  PowerSer[0]=1.;
368 
369  for (int i = 1; i<50; ++i) {
370  base = base*float(i);
371  factorial[i] = base;
372  }
373 
374 
375  double x;
376  double xweight;
377  double probi, probj, probk;
378  double Expval, mean;
379  int xi;
380 
381  // Get entries for Data, MC, fill arrays:
382  int NMCbin = MC_distr_->GetNbinsX();
383 
384  for (int jbin=1;jbin<NMCbin+1;jbin++) {
385  x = MC_distr_->GetBinCenter(jbin);
386  xweight = MC_distr_->GetBinContent(jbin); //use as weight for matrix
387 
388  //for Summer 11, we have this int feature:
389  xi = int(x);
390 
391  // Generate Poisson distribution for each value of the mean
392  mean = double(xi);
393 
394  if(mean<0.) {
395  std::cout << "LumiReweighting:BadInputValue" << " Your histogram generates MC luminosity values less than zero!"
396  << " Please Check. Terminating." << std::endl;
397  }
398 
399 
400  if(mean==0.){
401  Expval = 1.;
402  }
403  else {
404  Expval = exp(-1.*mean);
405  }
406 
407  base = 1.;
408 
409  for (int i = 1; i<50; ++i) {
410  base = base*mean;
411  PowerSer[i] = base; // PowerSer is mean^i
412  }
413 
414  // compute poisson probability for each Nvtx in weight matrix
415  for (int i=0; i<50; i++) {
416  probi = PowerSer[i]/factorial[i]*Expval;
417  for(int j=0; j<50; j++) {
418  probj = PowerSer[j]/factorial[j]*Expval;
419  for(int k=0; k<50; k++) {
420  probk = PowerSer[k]/factorial[k]*Expval;
421  // joint probability is product of event weights multiplied by weight of input distribution bin
422  MC_ints[i][j][k] = MC_ints[i][j][k]+probi*probj*probk*xweight;
423  }
424  }
425  }
426 
427  }
428 
429  int NDatabin = Data_distr_->GetNbinsX();
430 
431  for (int jbin=1;jbin<NDatabin+1;jbin++) {
432  mean = (Data_distr_->GetBinCenter(jbin))*ScaleFactor;
433  xweight = Data_distr_->GetBinContent(jbin);
434 
435  // Generate poisson distribution for each value of the mean
436  if(mean<0.) {
437  std::cout << "LumiReweighting:BadInputValue" << " Your histogram generates MC luminosity values less than zero!"
438  << " Please Check. Terminating." << std::endl;
439  }
440 
441  if(mean==0.){
442  Expval = 1.;
443  }
444  else {
445  Expval = exp(-1.*mean);
446  }
447 
448  base = 1.;
449 
450  for (int i = 1; i<50; ++i) {
451  base = base*mean;
452  PowerSer[i] = base;
453  }
454 
455  // compute poisson probability for each Nvtx in weight matrix
456 
457  for (int i=0; i<50; i++) {
458  probi = PowerSer[i]/factorial[i]*Expval;
459  for(int j=0; j<50; j++) {
460  probj = PowerSer[j]/factorial[j]*Expval;
461  for(int k=0; k<50; k++) {
462  probk = PowerSer[k]/factorial[k]*Expval;
463  // joint probability is product of event weights multiplied by weight of input distribution bin
464  Data_ints[i][j][k] = Data_ints[i][j][k]+probi*probj*probk*xweight;
465  }
466  }
467  }
468 
469  }
470 
471 
472  for (int i=0; i<50; i++) {
473  //if(i<5) std::cout << "i = " << i << std::endl;
474  for(int j=0; j<50; j++) {
475  for(int k=0; k<50; k++) {
476  if( (MC_ints[i][j][k])>0.) {
477  Weight3D_[i][j][k] = Data_ints[i][j][k]/MC_ints[i][j][k];
478  }
479  else {
480  Weight3D_[i][j][k] = 0.;
481  }
482  WHist->SetBinContent( i+1,j+1,k+1,Weight3D_[i][j][k] );
483  DHist->SetBinContent( i+1,j+1,k+1,Data_ints[i][j][k] );
484  MHist->SetBinContent( i+1,j+1,k+1,MC_ints[i][j][k] );
485  // if(i<5 && j<5 && k<5) std::cout << Weight3D_[i][j][k] << " " ;
486  }
487  // if(i<5 && j<5) std::cout << std::endl;
488  }
489  }
490 
491  if(! WeightOutputFile.empty() ) {
492  std::cout << " 3D Weight Matrix initialized! " << std::endl;
493  std::cout << " Writing weights to file " << WeightOutputFile << " for re-use... " << std::endl;
494 
495 
496  TFile * outfile = new TFile(WeightOutputFile.c_str(),"RECREATE");
497  WHist->Write();
498  MHist->Write();
499  DHist->Write();
500  outfile->Write();
501  outfile->Close();
502  outfile->Delete();
503  }
504 
505  return;
506  }
tuple base
Main Program
Definition: newFWLiteAna.py:92
int i
Definition: DBlmapReader.cc:9
int j
Definition: DBlmapReader.cc:9
T min(T a, T b)
Definition: MathUtil.h:58
int factorial(int n)
factorial function
tuple cout
Definition: gather_cfg.py:121
Definition: DDAxes.h:10
void reweight::LumiReWeighting::weight3D_set ( std::string  WeightFileName)
inline

Definition at line 509 of file LumiReweightingStandAlone.h.

References gather_cfg::cout, i, getDQMSummary::infile, j, relval_steps::k, and Weight3D_.

509  {
510 
511  TFile *infile = new TFile(WeightFileName.c_str());
512  TH1F *WHist = (TH1F*)infile->Get("WHist");
513 
514  // Check if the histogram exists
515  if (!WHist) {
516  std::cout << " Could not find the histogram WHist in the file "
517  << "in the file " << WeightFileName << "." << std::endl;
518  return;
519  }
520 
521  for (int i=0; i<50; i++) {
522  for(int j=0; j<50; j++) {
523  for(int k=0; k<50; k++) {
524  Weight3D_[i][j][k] = WHist->GetBinContent(i,j,k);
525  }
526  }
527  }
528 
529  std::cout << " 3D Weight Matrix initialized! " << std::endl;
530 
531  return;
532 
533 
534  }
int i
Definition: DBlmapReader.cc:9
int j
Definition: DBlmapReader.cc:9
tuple cout
Definition: gather_cfg.py:121
double reweight::LumiReWeighting::weightOOT ( int  npv_in_time,
int  npv_m50nsBX 
)
inline

Definition at line 1327 of file LumiReweightingStandAlone.h.

References newFWLiteAna::bin, dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, FirstWarning_, WeightOOTPU_, and weights_.

1327  {
1328 
1329  static const double Correct_Weights2011[25] = { // residual correction to match lumi spectrum
1330  5.30031,
1331  2.07903,
1332  1.40729,
1333  1.27687,
1334  1.0702,
1335  0.902094,
1336  0.902345,
1337  0.931449,
1338  0.78202,
1339  0.824686,
1340  0.837735,
1341  0.910261,
1342  1.01394,
1343  1.1599,
1344  1.12778,
1345  1.58423,
1346  1.78868,
1347  1.58296,
1348  2.3291,
1349  3.86641,
1350  0,
1351  0,
1352  0,
1353  0,
1354  0
1355  };
1356 
1357 
1358  if(FirstWarning_) {
1359 
1360  std::cout << " **** Warning: Out-of-time pileup reweighting appropriate only for PU_S3 **** " << std::endl;
1361  std::cout << " **** will be applied **** " << std::endl;
1362 
1363  FirstWarning_ = false;
1364 
1365  }
1366 
1367 
1368  // Note: for the "uncorrelated" out-of-time pileup, reweighting is only done on the 50ns
1369  // "late" bunch (BX=+1), since that is basically the only one that matters in terms of
1370  // energy deposition.
1371 
1372  if(npv_in_time < 0) {
1373  std::cerr << " no in-time beam crossing found\n! " ;
1374  std::cerr << " Returning event weight=0\n! ";
1375  return 0.;
1376  }
1377  if(npv_m50nsBX < 0) {
1378  std::cerr << " no out-of-time beam crossing found\n! " ;
1379  std::cerr << " Returning event weight=0\n! ";
1380  return 0.;
1381  }
1382 
1383  int bin = weights_->GetXaxis()->FindBin( npv_in_time );
1384 
1385  double inTimeWeight = weights_->GetBinContent( bin );
1386 
1387  double TotalWeight = 1.0;
1388 
1389 
1390  TotalWeight = inTimeWeight * WeightOOTPU_[bin-1][npv_m50nsBX] * Correct_Weights2011[bin-1];
1391 
1392 
1393  return TotalWeight;
1394 
1395  }
tuple cout
Definition: gather_cfg.py:121
void reweight::LumiReWeighting::weightOOT_init ( )
inline

Definition at line 538 of file LumiReweightingStandAlone.h.

References iint, and WeightOOTPU_.

Referenced by LumiReWeighting().

538  {
539 
540  // The following are poisson distributions with different means, where the maximum
541  // of the function has been normalized to weight 1.0
542  // These are used to reweight the out-of-time pileup to match the in-time distribution.
543  // The total event weight is the product of the in-time weight, the out-of-time weight,
544  // and a residual correction to fix the distortions caused by the fact that the out-of-time
545  // distribution is not flat.
546 
547  static const double weight_24[25] = {
548  0,
549  0,
550  0,
551  0,
552  2.46277e-06,
553  2.95532e-05,
554  0.000104668,
555  0.000401431,
556  0.00130034,
557  0.00342202,
558  0.00818132,
559  0.0175534,
560  0.035784,
561  0.0650836,
562  0.112232,
563  0.178699,
564  0.268934,
565  0.380868,
566  0.507505,
567  0.640922,
568  0.768551,
569  0.877829,
570  0.958624,
571  0.99939,
572  1
573  };
574 
575  static const double weight_23[25] = {
576  0,
577  1.20628e-06,
578  1.20628e-06,
579  2.41255e-06,
580  1.20628e-05,
581  6.39326e-05,
582  0.000252112,
583  0.000862487,
584  0.00244995,
585  0.00616527,
586  0.0140821,
587  0.0293342,
588  0.0564501,
589  0.100602,
590  0.164479,
591  0.252659,
592  0.36268,
593  0.491427,
594  0.627979,
595  0.75918,
596  0.873185,
597  0.957934,
598  0.999381,
599  1,
600  0.957738
601  };
602 
603  static const double weight_22[25] = {
604  0,
605  0,
606  0,
607  5.88636e-06,
608  3.0609e-05,
609  0.000143627,
610  0.000561558,
611  0.00173059,
612  0.00460078,
613  0.0110616,
614  0.0238974,
615  0.0475406,
616  0.0875077,
617  0.148682,
618  0.235752,
619  0.343591,
620  0.473146,
621  0.611897,
622  0.748345,
623  0.865978,
624  0.953199,
625  0.997848,
626  1,
627  0.954245,
628  0.873688
629  };
630 
631  static const double weight_21[25] = {
632  0,
633  0,
634  1.15381e-06,
635  8.07665e-06,
636  7.1536e-05,
637  0.000280375,
638  0.00107189,
639  0.00327104,
640  0.00809396,
641  0.0190978,
642  0.0401894,
643  0.0761028,
644  0.13472,
645  0.216315,
646  0.324649,
647  0.455125,
648  0.598241,
649  0.739215,
650  0.861866,
651  0.953911,
652  0.998918,
653  1,
654  0.956683,
655  0.872272,
656  0.76399
657  };
658 
659 
660  static const double weight_20[25] = {
661  0,
662  0,
663  1.12532e-06,
664  2.58822e-05,
665  0.000145166,
666  0.000633552,
667  0.00215048,
668  0.00592816,
669  0.0145605,
670  0.0328367,
671  0.0652649,
672  0.11893,
673  0.19803,
674  0.305525,
675  0.436588,
676  0.581566,
677  0.727048,
678  0.8534,
679  0.949419,
680  0.999785,
681  1,
682  0.953008,
683  0.865689,
684  0.753288,
685  0.62765
686  };
687  static const double weight_19[25] = {
688  0,
689  0,
690  1.20714e-05,
691  5.92596e-05,
692  0.000364337,
693  0.00124994,
694  0.00403953,
695  0.0108149,
696  0.025824,
697  0.0544969,
698  0.103567,
699  0.17936,
700  0.283532,
701  0.416091,
702  0.562078,
703  0.714714,
704  0.846523,
705  0.947875,
706  1,
707  0.999448,
708  0.951404,
709  0.859717,
710  0.742319,
711  0.613601,
712  0.48552
713  };
714 
715  static const double weight_18[25] = {
716  0,
717  3.20101e-06,
718  2.88091e-05,
719  0.000164319,
720  0.000719161,
721  0.00250106,
722  0.00773685,
723  0.0197513,
724  0.0443693,
725  0.0885998,
726  0.159891,
727  0.262607,
728  0.392327,
729  0.543125,
730  0.69924,
731  0.837474,
732  0.943486,
733  0.998029,
734  1,
735  0.945937,
736  0.851807,
737  0.729309,
738  0.596332,
739  0.467818,
740  0.350434
741  };
742 
743 
744  static const double weight_17[25] = {
745  1.03634e-06,
746  7.25437e-06,
747  4.97443e-05,
748  0.000340956,
749  0.00148715,
750  0.00501485,
751  0.0143067,
752  0.034679,
753  0.0742009,
754  0.140287,
755  0.238288,
756  0.369416,
757  0.521637,
758  0.682368,
759  0.828634,
760  0.939655,
761  1,
762  0.996829,
763  0.94062,
764  0.841575,
765  0.716664,
766  0.582053,
767  0.449595,
768  0.331336,
769  0.234332
770  };
771 
772 
773  static const double weight_16[25] = {
774  4.03159e-06,
775  2.41895e-05,
776  0.000141106,
777  0.00081942,
778  0.00314565,
779  0.00990662,
780  0.026293,
781  0.0603881,
782  0.120973,
783  0.214532,
784  0.343708,
785  0.501141,
786  0.665978,
787  0.820107,
788  0.938149,
789  1,
790  0.99941,
791  0.940768,
792  0.837813,
793  0.703086,
794  0.564023,
795  0.42928,
796  0.312515,
797  0.216251,
798  0.14561
799  };
800 
801 
802  static const double weight_15[25] = {
803  9.76084e-07,
804  5.07564e-05,
805  0.000303562,
806  0.00174036,
807  0.00617959,
808  0.0188579,
809  0.047465,
810  0.101656,
811  0.189492,
812  0.315673,
813  0.474383,
814  0.646828,
815  0.809462,
816  0.934107,
817  0.998874,
818  1,
819  0.936163,
820  0.827473,
821  0.689675,
822  0.544384,
823  0.40907,
824  0.290648,
825  0.198861,
826  0.12951,
827  0.0808051
828  };
829 
830 
831  static const double weight_14[25] = {
832  1.13288e-05,
833  0.000124617,
834  0.000753365,
835  0.00345056,
836  0.0123909,
837  0.0352712,
838  0.0825463,
839  0.16413,
840  0.287213,
841  0.44615,
842  0.625826,
843  0.796365,
844  0.930624,
845  0.999958,
846  1,
847  0.934414,
848  0.816456,
849  0.672939,
850  0.523033,
851  0.386068,
852  0.269824,
853  0.180342,
854  0.114669,
855  0.0698288,
856  0.0406496
857  };
858 
859 
860  static const double weight_13[25] = {
861  2.54296e-05,
862  0.000261561,
863  0.00167018,
864  0.00748083,
865  0.0241308,
866  0.0636801,
867  0.138222,
868  0.255814,
869  0.414275,
870  0.600244,
871  0.779958,
872  0.92256,
873  0.999155,
874  1,
875  0.927126,
876  0.804504,
877  0.651803,
878  0.497534,
879  0.35976,
880  0.245834,
881  0.160904,
882  0.0991589,
883  0.0585434,
884  0.0332437,
885  0.0180159
886  };
887 
888  static const double weight_12[25] = {
889  5.85742e-05,
890  0.000627706,
891  0.00386677,
892  0.0154068,
893  0.0465892,
894  0.111683,
895  0.222487,
896  0.381677,
897  0.5719,
898  0.765001,
899  0.915916,
900  1,
901  0.999717,
902  0.921443,
903  0.791958,
904  0.632344,
905  0.475195,
906  0.334982,
907  0.223666,
908  0.141781,
909  0.0851538,
910  0.048433,
911  0.0263287,
912  0.0133969,
913  0.00696683
914  };
915 
916 
917  static const double weight_11[25] = {
918  0.00015238,
919  0.00156064,
920  0.00846044,
921  0.0310939,
922  0.0856225,
923  0.187589,
924  0.343579,
925  0.541892,
926  0.74224,
927  0.909269,
928  0.998711,
929  1,
930  0.916889,
931  0.77485,
932  0.608819,
933  0.447016,
934  0.307375,
935  0.198444,
936  0.121208,
937  0.070222,
938  0.0386492,
939  0.0201108,
940  0.0100922,
941  0.00484937,
942  0.00222458
943  };
944 
945  static const double weight_10[25] = {
946  0.000393044,
947  0.00367001,
948  0.0179474,
949  0.060389,
950  0.151477,
951  0.302077,
952  0.503113,
953  0.720373,
954  0.899568,
955  1,
956  0.997739,
957  0.909409,
958  0.75728,
959  0.582031,
960  0.415322,
961  0.277663,
962  0.174147,
963  0.102154,
964  0.0566719,
965  0.0298642,
966  0.0147751,
967  0.00710995,
968  0.00319628,
969  0.00140601,
970  0.000568796
971  };
972 
973 
974  static const double weight_9[25] = {
975  0.00093396,
976  0.00854448,
977  0.0380306,
978  0.113181,
979  0.256614,
980  0.460894,
981  0.690242,
982  0.888781,
983  1,
984  0.998756,
985  0.899872,
986  0.735642,
987  0.552532,
988  0.382726,
989  0.246114,
990  0.147497,
991  0.0825541,
992  0.0441199,
993  0.0218157,
994  0.0103578,
995  0.00462959,
996  0.0019142,
997  0.000771598,
998  0.000295893,
999  0.000111529
1000  };
1001 
1002 
1003  static const double weight_8[25] = {
1004  0.00240233,
1005  0.0192688,
1006  0.0768653,
1007  0.205008,
1008  0.410958,
1009  0.65758,
1010  0.875657,
1011  0.999886,
1012  1,
1013  0.889476,
1014  0.711446,
1015  0.517781,
1016  0.345774,
1017  0.212028,
1018  0.121208,
1019  0.0644629,
1020  0.0324928,
1021  0.0152492,
1022  0.00673527,
1023  0.0028547,
1024  0.00117213,
1025  0.000440177,
1026  0.000168471,
1027  5.80689e-05,
1028  1.93563e-05
1029  };
1030 
1031  static const double weight_7[25] = {
1032  0.00617233,
1033  0.0428714,
1034  0.150018,
1035  0.350317,
1036  0.612535,
1037  0.856525,
1038  0.999923,
1039  1,
1040  0.87544,
1041  0.679383,
1042  0.478345,
1043  0.303378,
1044  0.176923,
1045  0.0950103,
1046  0.0476253,
1047  0.0222211,
1048  0.00972738,
1049  0.00392962,
1050  0.0015258,
1051  0.000559168,
1052  0.000183928,
1053  6.77983e-05,
1054  1.67818e-05,
1055  7.38398e-06,
1056  6.71271e-07
1057  };
1058 
1059  static const double weight_6[25] = {
1060  0.0154465,
1061  0.0923472,
1062  0.277322,
1063  0.55552,
1064  0.833099,
1065  0.999035,
1066  1,
1067  0.855183,
1068  0.641976,
1069  0.428277,
1070  0.256804,
1071  0.139798,
1072  0.0700072,
1073  0.0321586,
1074  0.0137971,
1075  0.00544756,
1076  0.00202316,
1077  0.000766228,
1078  0.000259348,
1079  8.45836e-05,
1080  1.80362e-05,
1081  8.70713e-06,
1082  3.73163e-06,
1083  6.21938e-07,
1084  0
1085  };
1086 
1087 
1088  static const double weight_5[25] = {
1089  0.0382845,
1090  0.191122,
1091  0.478782,
1092  0.797314,
1093  1,
1094  0.997148,
1095  0.831144,
1096  0.59461,
1097  0.371293,
1098  0.205903,
1099  0.103102,
1100  0.0471424,
1101  0.0194997,
1102  0.00749415,
1103  0.00273709,
1104  0.000879189,
1105  0.000286049,
1106  0.000102364,
1107  1.70606e-05,
1108  3.98081e-06,
1109  2.27475e-06,
1110  0,
1111  0,
1112  0,
1113  0
1114  };
1115 
1116 
1117  static const double weight_4[25] = {
1118  0.0941305,
1119  0.373824,
1120  0.750094,
1121  1,
1122  0.997698,
1123  0.800956,
1124  0.532306,
1125  0.304597,
1126  0.152207,
1127  0.0676275,
1128  0.0270646,
1129  0.00975365,
1130  0.00326077,
1131  0.00101071,
1132  0.000301781,
1133  7.41664e-05,
1134  1.58563e-05,
1135  3.58045e-06,
1136  1.02299e-06,
1137  0,
1138  5.11493e-07,
1139  0,
1140  0,
1141  0,
1142  0
1143  };
1144 
1145 
1146  static const double weight_3[25] = {
1147  0.222714,
1148  0.667015,
1149  1,
1150  0.999208,
1151  0.750609,
1152  0.449854,
1153  0.224968,
1154  0.0965185,
1155  0.0361225,
1156  0.012084,
1157  0.00359618,
1158  0.000977166,
1159  0.000239269,
1160  6.29422e-05,
1161  1.16064e-05,
1162  1.78559e-06,
1163  0,
1164  4.46398e-07,
1165  0,
1166  0,
1167  0,
1168  0,
1169  0,
1170  0,
1171  0
1172  };
1173 
1174  static const double weight_2[25] = {
1175  0.499541,
1176  0.999607,
1177  1,
1178  0.666607,
1179  0.333301,
1180  0.13279,
1181  0.0441871,
1182  0.0127455,
1183  0.00318434,
1184  0.00071752,
1185  0.000132204,
1186  2.69578e-05,
1187  5.16999e-06,
1188  2.21571e-06,
1189  0,
1190  0,
1191  0,
1192  0,
1193  0,
1194  0,
1195  0,
1196  0,
1197  0,
1198  0,
1199  0
1200  };
1201 
1202  static const double weight_1[25] = {
1203  0.999165,
1204  1,
1205  0.499996,
1206  0.166868,
1207  0.0414266,
1208  0.00831053,
1209  0.00137472,
1210  0.000198911,
1211  2.66302e-05,
1212  2.44563e-06,
1213  2.71737e-07,
1214  2.71737e-07,
1215  0,
1216  0,
1217  0,
1218  0,
1219  0,
1220  0,
1221  0,
1222  0,
1223  0,
1224  0,
1225  0,
1226  0,
1227  0
1228  };
1229 
1230  static const double weight_0[25] = {
1231  1,
1232  0,
1233  0,
1234  0,
1235  0,
1236  0,
1237  0,
1238  0,
1239  0,
1240  0,
1241  0,
1242  0,
1243  0,
1244  0,
1245  0,
1246  0,
1247  0,
1248  0,
1249  0,
1250  0,
1251  0,
1252  0,
1253  0,
1254  0,
1255  0
1256  };
1257 
1258  //WeightOOTPU_ = {0};
1259 
1260  const double* WeightPtr = 0;
1261 
1262  for(int iint = 0; iint<25; ++iint){
1263  if(iint ==0) WeightPtr = weight_0;
1264  if(iint ==1) WeightPtr = weight_1;
1265  if(iint ==2) WeightPtr = weight_2;
1266  if(iint ==3) WeightPtr = weight_3;
1267  if(iint ==4) WeightPtr = weight_4;
1268  if(iint ==5) WeightPtr = weight_5;
1269  if(iint ==6) WeightPtr = weight_6;
1270  if(iint ==7) WeightPtr = weight_7;
1271  if(iint ==8) WeightPtr = weight_8;
1272  if(iint ==9) WeightPtr = weight_9;
1273  if(iint ==10) WeightPtr = weight_10;
1274  if(iint ==11) WeightPtr = weight_11;
1275  if(iint ==12) WeightPtr = weight_12;
1276  if(iint ==13) WeightPtr = weight_13;
1277  if(iint ==14) WeightPtr = weight_14;
1278  if(iint ==15) WeightPtr = weight_15;
1279  if(iint ==16) WeightPtr = weight_16;
1280  if(iint ==17) WeightPtr = weight_17;
1281  if(iint ==18) WeightPtr = weight_18;
1282  if(iint ==19) WeightPtr = weight_19;
1283  if(iint ==20) WeightPtr = weight_20;
1284  if(iint ==21) WeightPtr = weight_21;
1285  if(iint ==22) WeightPtr = weight_22;
1286  if(iint ==23) WeightPtr = weight_23;
1287  if(iint ==24) WeightPtr = weight_24;
1288 
1289  for(int ibin = 0; ibin<25; ++ibin){
1290  WeightOOTPU_[iint][ibin] = *(WeightPtr+ibin);
1291  }
1292  }
1293 
1294  }
int iint

Member Data Documentation

TH1F* reweight::LumiReWeighting::Data_distr_
protected

Definition at line 1409 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting(), and weight3D_init().

TFile* reweight::LumiReWeighting::dataFile_
protected

Definition at line 1404 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting().

std::string reweight::LumiReWeighting::dataFileName_
protected

Definition at line 1400 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting().

std::string reweight::LumiReWeighting::DataHistName_
protected

Definition at line 1402 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting().

bool reweight::LumiReWeighting::FirstWarning_
protected

Definition at line 1414 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting(), and weightOOT().

TFile* reweight::LumiReWeighting::generatedFile_
protected

Definition at line 1403 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting().

std::string reweight::LumiReWeighting::generatedFileName_
protected

Definition at line 1399 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting().

std::string reweight::LumiReWeighting::GenHistName_
protected

Definition at line 1401 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting().

TH1F* reweight::LumiReWeighting::MC_distr_
protected

Definition at line 1408 of file LumiReweightingStandAlone.h.

Referenced by LumiReWeighting(), and weight3D_init().

double reweight::LumiReWeighting::Weight3D_[50][50][50]
protected

Definition at line 1412 of file LumiReweightingStandAlone.h.

Referenced by weight3D(), weight3D_init(), and weight3D_set().

double reweight::LumiReWeighting::WeightOOTPU_[25][25]
protected

Definition at line 1411 of file LumiReweightingStandAlone.h.

Referenced by weightOOT(), and weightOOT_init().

TH1F* reweight::LumiReWeighting::weights_
protected