4 namespace pt = boost::property_tree;
14 for (
const auto &childTree :
json) {
15 DirList.push_back(childTree.first.c_str());
24 gROOT->ProcessLine(
"gErrorIgnoreLevel = kError;");
26 ROOT::EnableThreadSafety();
27 TH1::AddDirectory(kFALSE);
29 std::ofstream
outfile(
"log.txt");
31 const Int_t nDirs_ =
DirList.size();
32 TString LegLabels[10];
36 std::vector<double>
runs;
37 std::vector<double> x_ticks;
38 std::vector<double> ex_ticks = {0.};
40 for (Int_t
j = 0;
j < nDirs_;
j++) {
46 std::vector<int> tempSwap;
48 std::sort(currentList.begin(), currentList.end());
64 std::ifstream lumifile(lumiInputFile.Data());
67 while (std::getline(lumifile,
line)) {
68 std::istringstream iss(
line);
70 if (!(iss >>
a >>
b)) {
73 int run = std::stoi(
a);
77 logWarning <<
" Run: " <<
run <<
" is not found in the intersection" << std::endl;
116 std::map<TString, std::vector<unrolledHisto> > dxyVect;
117 std::map<TString, std::vector<unrolledHisto> > dzVect;
119 logInfo <<
" pre do-stuff: " <<
runs.size() << std::endl;
132 auto extracts = procPool.Map(f_processData,
range);
136 return a.m_index <
b.m_index;
140 for (
auto extractedTrend : extracts) {
141 runs.insert(std::end(
runs), std::begin(extractedTrend.m_runs), std::end(extractedTrend.m_runs));
143 for (
const auto &
label : LegLabels) {
145 dxyPhiMeans_[
label].insert(std::end(dxyPhiMeans_[
label]),
146 std::begin(extractedTrend.m_dxyPhiMeans[
label]),
147 std::end(extractedTrend.m_dxyPhiMeans[
label]));
148 dxyPhiChi2_[
label].insert(std::end(dxyPhiChi2_[
label]),
149 std::begin(extractedTrend.m_dxyPhiChi2[
label]),
150 std::end(extractedTrend.m_dxyPhiChi2[
label]));
151 dxyPhiKS_[
label].insert(std::end(dxyPhiKS_[
label]),
152 std::begin(extractedTrend.m_dxyPhiKS[
label]),
153 std::end(extractedTrend.m_dxyPhiKS[
label]));
155 dxyPhiHi_[
label].insert(std::end(dxyPhiHi_[
label]),
156 std::begin(extractedTrend.m_dxyPhiHi[
label]),
157 std::end(extractedTrend.m_dxyPhiHi[
label]));
158 dxyPhiLo_[
label].insert(std::end(dxyPhiLo_[
label]),
159 std::begin(extractedTrend.m_dxyPhiLo[
label]),
160 std::end(extractedTrend.m_dxyPhiLo[
label]));
163 dzPhiMeans_[
label].insert(std::end(dzPhiMeans_[
label]),
164 std::begin(extractedTrend.m_dzPhiMeans[
label]),
165 std::end(extractedTrend.m_dzPhiMeans[
label]));
166 dzPhiChi2_[
label].insert(std::end(dzPhiChi2_[
label]),
167 std::begin(extractedTrend.m_dzPhiChi2[
label]),
168 std::end(extractedTrend.m_dzPhiChi2[
label]));
169 dzPhiKS_[
label].insert(std::end(dzPhiKS_[
label]),
170 std::begin(extractedTrend.m_dzPhiKS[
label]),
171 std::end(extractedTrend.m_dzPhiKS[
label]));
173 dzPhiHi_[
label].insert(std::end(dzPhiHi_[
label]),
174 std::begin(extractedTrend.m_dzPhiHi[
label]),
175 std::end(extractedTrend.m_dzPhiHi[
label]));
176 dzPhiLo_[
label].insert(std::end(dzPhiLo_[
label]),
177 std::begin(extractedTrend.m_dzPhiLo[
label]),
178 std::end(extractedTrend.m_dzPhiLo[
label]));
181 dxyEtaMeans_[
label].insert(std::end(dxyEtaMeans_[
label]),
182 std::begin(extractedTrend.m_dxyEtaMeans[
label]),
183 std::end(extractedTrend.m_dxyEtaMeans[
label]));
184 dxyEtaChi2_[
label].insert(std::end(dxyEtaChi2_[
label]),
185 std::begin(extractedTrend.m_dxyEtaChi2[
label]),
186 std::end(extractedTrend.m_dxyEtaChi2[
label]));
187 dxyEtaKS_[
label].insert(std::end(dxyEtaKS_[
label]),
188 std::begin(extractedTrend.m_dxyEtaKS[
label]),
189 std::end(extractedTrend.m_dxyEtaKS[
label]));
191 dxyEtaHi_[
label].insert(std::end(dxyEtaHi_[
label]),
192 std::begin(extractedTrend.m_dxyEtaHi[
label]),
193 std::end(extractedTrend.m_dxyEtaHi[
label]));
194 dxyEtaLo_[
label].insert(std::end(dxyEtaLo_[
label]),
195 std::begin(extractedTrend.m_dxyEtaLo[
label]),
196 std::end(extractedTrend.m_dxyEtaLo[
label]));
199 dzEtaMeans_[
label].insert(std::end(dzEtaMeans_[
label]),
200 std::begin(extractedTrend.m_dzEtaMeans[
label]),
201 std::end(extractedTrend.m_dzEtaMeans[
label]));
202 dzEtaChi2_[
label].insert(std::end(dzEtaChi2_[
label]),
203 std::begin(extractedTrend.m_dzEtaChi2[
label]),
204 std::end(extractedTrend.m_dzEtaChi2[
label]));
205 dzEtaKS_[
label].insert(std::end(dzEtaKS_[
label]),
206 std::begin(extractedTrend.m_dzEtaKS[
label]),
207 std::end(extractedTrend.m_dzEtaKS[
label]));
209 dzEtaHi_[
label].insert(std::end(dzEtaHi_[
label]),
210 std::begin(extractedTrend.m_dzEtaHi[
label]),
211 std::end(extractedTrend.m_dzEtaHi[
label]));
212 dzEtaLo_[
label].insert(std::end(dzEtaLo_[
label]),
213 std::begin(extractedTrend.m_dzEtaLo[
label]),
214 std::end(extractedTrend.m_dzEtaLo[
label]));
217 dxyVect[
label].insert(std::end(dxyVect[
label]),
218 std::begin(extractedTrend.m_dxyVect[
label]),
219 std::end(extractedTrend.m_dxyVect[
label]));
221 std::begin(extractedTrend.m_dzVect[
label]),
222 std::end(extractedTrend.m_dzVect[
label]));
227 for (
const auto &
label : LegLabels) {
228 for (
unsigned int it = 0; it < dxyPhiMeans_[
label].size(); it++) {
236 <<
" loErr: " << dxyEtaLoErr_[
label][it] << std::endl;
247 TGraph *g_dxy_phi_vs_run[nDirs_];
248 TGraphAsymmErrors *gerr_dxy_phi_vs_run[nDirs_];
249 TGraph *g_chi2_dxy_phi_vs_run[nDirs_];
250 TGraph *g_KS_dxy_phi_vs_run[nDirs_];
252 TGraph *g_dxy_phi_hi_vs_run[nDirs_];
253 TGraph *g_dxy_phi_lo_vs_run[nDirs_];
255 TGraph *g_dxy_eta_vs_run[nDirs_];
256 TGraphAsymmErrors *gerr_dxy_eta_vs_run[nDirs_];
257 TGraph *g_chi2_dxy_eta_vs_run[nDirs_];
258 TGraph *g_KS_dxy_eta_vs_run[nDirs_];
260 TGraph *g_dxy_eta_hi_vs_run[nDirs_];
261 TGraph *g_dxy_eta_lo_vs_run[nDirs_];
263 TGraph *g_dz_phi_vs_run[nDirs_];
264 TGraphAsymmErrors *gerr_dz_phi_vs_run[nDirs_];
265 TGraph *g_chi2_dz_phi_vs_run[nDirs_];
266 TGraph *g_KS_dz_phi_vs_run[nDirs_];
268 TGraph *g_dz_phi_hi_vs_run[nDirs_];
269 TGraph *g_dz_phi_lo_vs_run[nDirs_];
271 TGraph *g_dz_eta_vs_run[nDirs_];
272 TGraphAsymmErrors *gerr_dz_eta_vs_run[nDirs_];
273 TGraph *g_chi2_dz_eta_vs_run[nDirs_];
274 TGraph *g_KS_dz_eta_vs_run[nDirs_];
276 TGraph *g_dz_eta_hi_vs_run[nDirs_];
277 TGraph *g_dz_eta_lo_vs_run[nDirs_];
281 TH1F *h_RMS_dxy_phi_vs_run[nDirs_];
282 TH1F *h_RMS_dxy_eta_vs_run[nDirs_];
283 TH1F *h_RMS_dz_phi_vs_run[nDirs_];
284 TH1F *h_RMS_dz_eta_vs_run[nDirs_];
288 TH2F *h2_scatter_dxy_vs_run[nDirs_];
289 TH2F *h2_scatter_dz_vs_run[nDirs_];
292 TString theType =
"run number";
293 TString theTypeLabel =
"run number";
301 for (Int_t
j = 0;
j < nDirs_;
j++) {
303 logInfo <<
"x_ticks.size()= " << x_ticks.size() <<
" dxyPhiMeans_[LegLabels[" <<
j 304 <<
"]].size()=" << dxyPhiMeans_[LegLabels[
j]].size() << std::endl;
307 assert(x_ticks.size() == dxyPhiMeans_[LegLabels[
j]].size());
314 pv::wrappedTrends(dxyPhiMeans_, dxyPhiLo_, dxyPhiHi_, dxyPhiLoErr_, dxyPhiHiErr_, dxyPhiChi2_, dxyPhiKS_);
320 g_chi2_dxy_phi_vs_run[
j],
321 g_KS_dxy_phi_vs_run[
j],
322 g_dxy_phi_lo_vs_run[
j],
323 g_dxy_phi_hi_vs_run[
j],
324 gerr_dxy_phi_vs_run[
j],
325 h_RMS_dxy_phi_vs_run,
336 pv::wrappedTrends(dxyEtaMeans_, dxyEtaLo_, dxyEtaHi_, dxyEtaLoErr_, dxyEtaHiErr_, dxyEtaChi2_, dxyEtaKS_);
342 g_chi2_dxy_eta_vs_run[
j],
343 g_KS_dxy_eta_vs_run[
j],
344 g_dxy_eta_lo_vs_run[
j],
345 g_dxy_eta_hi_vs_run[
j],
346 gerr_dxy_eta_vs_run[
j],
347 h_RMS_dxy_eta_vs_run,
358 pv::wrappedTrends(dzPhiMeans_, dzPhiLo_, dzPhiHi_, dzPhiLoErr_, dzPhiHiErr_, dzPhiChi2_, dzPhiKS_);
364 g_chi2_dz_phi_vs_run[
j],
365 g_KS_dz_phi_vs_run[
j],
366 g_dz_phi_lo_vs_run[
j],
367 g_dz_phi_hi_vs_run[
j],
368 gerr_dz_phi_vs_run[
j],
380 pv::wrappedTrends(dzEtaMeans_, dzEtaLo_, dzEtaHi_, dzEtaLoErr_, dzEtaHiErr_, dzEtaChi2_, dzEtaKS_);
386 g_chi2_dz_eta_vs_run[
j],
387 g_KS_dz_eta_vs_run[
j],
388 g_dz_eta_lo_vs_run[
j],
389 g_dz_eta_hi_vs_run[
j],
390 gerr_dz_eta_vs_run[
j],
401 h2_scatter_dxy_vs_run[
j] =
402 new TH2F(Form(
"h2_scatter_dxy_%s", LegLabels[
j].Data()),
403 Form(
"scatter of d_{xy} vs %s;%s;d_{xy} [cm]", theType.Data(), theTypeLabel.Data()),
406 dxyVect[LegLabels[
j]][0].get_n_bins(),
407 dxyVect[LegLabels[
j]][0].get_y_min(),
408 dxyVect[LegLabels[
j]][0].get_y_max());
409 h2_scatter_dxy_vs_run[
j]->SetStats(kFALSE);
410 h2_scatter_dxy_vs_run[
j]->SetTitle(LegLabels[
j]);
412 for (
unsigned int runindex = 0; runindex < x_ticks.size(); runindex++) {
413 for (
unsigned int binindex = 0; binindex < dxyVect[LegLabels[
j]][runindex].get_n_bins(); binindex++) {
414 h2_scatter_dxy_vs_run[
j]->SetBinContent(runindex + 1,
416 dxyVect[LegLabels[
j]][runindex].get_bin_contents().at(binindex) /
417 dxyVect[LegLabels[
j]][runindex].get_integral());
425 h2_scatter_dz_vs_run[
j] =
426 new TH2F(Form(
"h2_scatter_dz_%s", LegLabels[
j].Data()),
427 Form(
"scatter of d_{z} vs %s;%s;d_{z} [cm]", theType.Data(), theTypeLabel.Data()),
430 dzVect[LegLabels[
j]][0].get_n_bins(),
431 dzVect[LegLabels[
j]][0].get_y_min(),
432 dzVect[LegLabels[
j]][0].get_y_max());
433 h2_scatter_dz_vs_run[
j]->SetStats(kFALSE);
434 h2_scatter_dz_vs_run[
j]->SetTitle(LegLabels[
j]);
436 for (
unsigned int runindex = 0; runindex < x_ticks.size(); runindex++) {
437 for (
unsigned int binindex = 0; binindex < dzVect[LegLabels[
j]][runindex].get_n_bins(); binindex++) {
438 h2_scatter_dz_vs_run[
j]->SetBinContent(runindex + 1,
440 dzVect[LegLabels[
j]][runindex].get_bin_contents().at(binindex) /
441 dzVect[LegLabels[
j]][runindex].get_integral());
445 TString modified_label = (LegLabels[
j].ReplaceAll(
" ",
"_"));
446 g_dxy_phi_vs_run[
j]->Write(
"mean_" + modified_label +
"_dxy_phi_vs_run");
447 g_chi2_dxy_phi_vs_run[
j]->Write(
"chi2_" + modified_label +
"_dxy_phi_vs_run");
448 g_KS_dxy_phi_vs_run[
j]->Write(
"KS_" + modified_label +
"_dxy_phi_vs_run");
449 g_dxy_phi_hi_vs_run[
j]->Write(
"hi_" + modified_label +
"_dxy_phi_hi_vs_run");
450 g_dxy_phi_lo_vs_run[
j]->Write(
"lo_" + modified_label +
"_dxy_phi_lo_vs_run");
452 g_dxy_eta_vs_run[
j]->Write(
"mean_" + modified_label +
"_dxy_eta_vs_run");
453 g_chi2_dxy_eta_vs_run[
j]->Write(
"chi2_" + modified_label +
"_dxy_eta_vs_run");
454 g_KS_dxy_eta_vs_run[
j]->Write(
"KS_" + modified_label +
"_dxy_eta_vs_run");
455 g_dxy_eta_hi_vs_run[
j]->Write(
"hi_" + modified_label +
"_dxy_eta_hi_vs_run");
456 g_dxy_eta_lo_vs_run[
j]->Write(
"lo_" + modified_label +
"_dxy_eta_lo_vs_run");
458 g_dz_phi_vs_run[
j]->Write(
"mean_" + modified_label +
"_dz_phi_vs_run");
459 g_chi2_dz_phi_vs_run[
j]->Write(
"chi2_" + modified_label +
"_dz_phi_vs_run");
460 g_KS_dz_phi_vs_run[
j]->Write(
"KS_" + modified_label +
"_dz_phi_vs_run");
461 g_dz_phi_hi_vs_run[
j]->Write(
"hi_" + modified_label +
"_dz_phi_hi_vs_run");
462 g_dz_phi_lo_vs_run[
j]->Write(
"lo_" + modified_label +
"_dz_phi_lo_vs_run");
464 g_dz_eta_vs_run[
j]->Write(
"mean_" + modified_label +
"_dz_eta_vs_run");
465 g_chi2_dz_eta_vs_run[
j]->Write(
"chi2_" + modified_label +
"_dz_eta_vs_run");
466 g_KS_dz_eta_vs_run[
j]->Write(
"KS_" + modified_label +
"_dz_eta_vs_run");
467 g_dz_eta_hi_vs_run[
j]->Write(
"hi_" + modified_label +
"_dz_eta_hi_vs_run");
468 g_dz_eta_lo_vs_run[
j]->Write(
"lo_" + modified_label +
"_dz_eta_lo_vs_run");
470 h_RMS_dxy_phi_vs_run[
j]->Write(
"RMS_" + modified_label +
"_dxy_phi_vs_run");
471 h_RMS_dxy_eta_vs_run[
j]->Write(
"RMS_" + modified_label +
"_dxy_eta_vs_run");
472 h_RMS_dz_phi_vs_run[
j]->Write(
"RMS_" + modified_label +
"_dz_phi_vs_run");
473 h_RMS_dz_eta_vs_run[
j]->Write(
"RMS_" + modified_label +
"_dz_eta_vs_run");
477 h2_scatter_dxy_vs_run[
j]->Write(
"Scatter_" + modified_label +
"_dxy_vs_run");
478 h2_scatter_dz_vs_run[
j]->Write(
"Scatter_" + modified_label +
"_dz_vs_run");
482 for (
int iDir = 0; iDir < nDirs_; iDir++) {
483 delete g_dxy_phi_vs_run[iDir];
484 delete g_chi2_dxy_phi_vs_run[iDir];
485 delete g_KS_dxy_phi_vs_run[iDir];
486 delete g_dxy_phi_hi_vs_run[iDir];
487 delete g_dxy_phi_lo_vs_run[iDir];
489 delete g_dxy_eta_vs_run[iDir];
490 delete g_chi2_dxy_eta_vs_run[iDir];
491 delete g_KS_dxy_eta_vs_run[iDir];
492 delete g_dxy_eta_hi_vs_run[iDir];
493 delete g_dxy_eta_lo_vs_run[iDir];
495 delete g_dz_phi_vs_run[iDir];
496 delete g_chi2_dz_phi_vs_run[iDir];
497 delete g_KS_dz_phi_vs_run[iDir];
498 delete g_dz_phi_hi_vs_run[iDir];
499 delete g_dz_phi_lo_vs_run[iDir];
501 delete g_dz_eta_vs_run[iDir];
502 delete g_chi2_dz_eta_vs_run[iDir];
503 delete g_KS_dz_eta_vs_run[iDir];
504 delete g_dz_eta_hi_vs_run[iDir];
505 delete g_dz_eta_lo_vs_run[iDir];
507 delete h_RMS_dxy_phi_vs_run[iDir];
508 delete h_RMS_dxy_eta_vs_run[iDir];
509 delete h_RMS_dz_phi_vs_run[iDir];
510 delete h_RMS_dz_eta_vs_run[iDir];
512 delete h2_scatter_dxy_vs_run[iDir];
513 delete h2_scatter_dz_vs_run[iDir];
528 const std::vector<double> &ticks,
529 const std::vector<double> &ex_ticks,
535 TGraphAsymmErrors *&g_asym,
540 const TString &
label)
543 g_mean =
new TGraph(ticks.size(), &(ticks[0]), &((allInputs.
getMean()[
label])[0]));
544 g_chi2 =
new TGraph(ticks.size(), &(ticks[0]), &((allInputs.
getChi2()[
label])[0]));
545 g_KS =
new TGraph(ticks.size(), &(ticks[0]), &((allInputs.
getKS()[
label])[0]));
546 g_high =
new TGraph(ticks.size(), &(ticks[0]), &((allInputs.
getHigh()[
label])[0]));
547 g_low =
new TGraph(ticks.size(), &(ticks[0]), &((allInputs.
getLow()[
label])[0]));
549 g_asym =
new TGraphAsymmErrors(ticks.size(),
557 g_mean->SetTitle(
label);
558 g_asym->SetTitle(
label);
561 h_RMS[
index] =
new TH1F(Form(
"h_RMS_dz_eta_%s",
label.Data()),
label, ticks.size() - 1, &(ticks[0]));
562 h_RMS[
index]->SetStats(kFALSE);
564 for (
size_t bincounter = 1; bincounter < ticks.size(); bincounter++) {
565 h_RMS[
index]->SetBinContent(
567 h_RMS[
index]->SetBinError(bincounter, 0.01);
579 std::vector<int> theRunNumbers;
582 TList *
files =
dir.GetListOfFiles();
587 while ((
file = (TSystemFile *)
next())) {
589 if (!
file->IsDirectory() &&
fname.EndsWith(
ext) &&
fname.BeginsWith(
"PVValidation")) {
592 TString theRun =
bits->At(2)->GetName();
594 TString formatRun = (theRun.ReplaceAll(
".root",
"")).ReplaceAll(
"_",
"");
596 theRunNumbers.push_back(formatRun.Atoi());
600 return theRunNumbers;
615 TH1F *hzero =
new TH1F(Form(
"hconst_%s_%i",
hist->GetName(), iter),
616 Form(
"hconst_%s_%i",
hist->GetName(), iter),
620 for (Int_t
i = 0;
i <= hzero->GetNbinsX();
i++) {
621 hzero->SetBinContent(
i, theConst);
622 hzero->SetBinError(
i,
hist->GetBinError(
i));
624 hzero->SetLineWidth(2);
625 hzero->SetLineStyle(9);
626 hzero->SetLineColor(kMagenta);
644 Double_t y_min = -0.1;
645 Double_t y_max = 0.1;
648 for (
int j = 0;
j <
hist->GetNbinsX();
j++) {
669 logError <<
"No bins in the input histogram";
674 double *
y =
new double[
nbins];
680 y[
j] =
hist->GetBinContent(
j + 1);
681 if (
hist->GetBinError(
j + 1) != 0.) {
682 err[
j] = 1. / (
hist->GetBinError(
j + 1) *
hist->GetBinError(
j + 1));
694 Double_t
max =
hist->GetMaximum();
695 Double_t
min =
hist->GetMinimum();
698 hist->Fit(
"pol0",
"Q0+");
699 TF1 *
f = (TF1 *)
hist->FindObject(
"pol0");
702 Double_t
chi2 =
f->GetChisquare();
703 Int_t ndf =
f->GetNDF();
708 Double_t ksScore =
std::max(-20., TMath::Log10(
displaced->KolmogorovTest(theZero)));
734 const char *
dirs[10],
735 TString LegLabels[10],
737 const size_t nWorkers,
745 unsigned int pitch = std::floor(
intersection.size() / effSize);
746 unsigned int first = iter * pitch;
747 unsigned int last = (iter == (effSize - 1)) ?
intersection.size() : ((iter + 1) * pitch);
749 logInfo <<
"iter:" << iter <<
"| pitch: " << pitch <<
" [" <<
first <<
"-" <<
last <<
")" << std::endl;
766 TH1F *dxyPhiMeanTrend[nDirs_];
767 TH1F *dxyPhiWidthTrend[nDirs_];
768 TH1F *dzPhiMeanTrend[nDirs_];
769 TH1F *dzPhiWidthTrend[nDirs_];
781 TH1F *dxyEtaMeanTrend[nDirs_];
782 TH1F *dxyEtaWidthTrend[nDirs_];
783 TH1F *dzEtaMeanTrend[nDirs_];
784 TH1F *dzEtaWidthTrend[nDirs_];
786 TH1F *dxyNormPhiWidthTrend[nDirs_];
787 TH1F *dxyNormEtaWidthTrend[nDirs_];
788 TH1F *dzNormPhiWidthTrend[nDirs_];
789 TH1F *dzNormEtaWidthTrend[nDirs_];
791 TH1F *dxyNormPtWidthTrend[nDirs_];
792 TH1F *dzNormPtWidthTrend[nDirs_];
793 TH1F *dxyPtWidthTrend[nDirs_];
794 TH1F *dzPtWidthTrend[nDirs_];
796 TH1F *dxyIntegralTrend[nDirs_];
797 TH1F *dzIntegralTrend[nDirs_];
799 bool areAllFilesOK =
true;
803 for (Int_t
j = 0;
j < nDirs_;
j++) {
808 fins[
j] =
new TFile(Form(
"%s/PVValidation_%s_%i.root",
dirs[
j], stem.c_str(),
intersection[
n]));
809 if (fins[
j]->IsZombie()) {
811 <<
" is a Zombie! cannot combine" << std::endl;
812 areAllFilesOK =
false;
819 <<
" has size: " << fins[
j]->GetSize() <<
" b ";
823 TH1F *h_tracks = (TH1F *)fins[
j]->
Get(
"PVValidation/EventFeatures/h_nTracks");
824 Double_t
numEvents = h_tracks->GetEntries();
829 areAllFilesOK =
false;
836 areAllFilesOK =
false;
842 dxyPhiMeanTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/MeanTrends/means_dxy_phi");
843 dxyPhiWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/widths_dxy_phi");
844 dzPhiMeanTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/MeanTrends/means_dz_phi");
845 dzPhiWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/widths_dz_phi");
852 dxyEtaMeanTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/MeanTrends/means_dxy_eta");
853 dxyEtaWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/widths_dxy_eta");
854 dzEtaMeanTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/MeanTrends/means_dz_eta");
855 dzEtaWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/widths_dz_eta");
862 dxyNormPhiWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/norm_widths_dxy_phi");
863 dxyNormEtaWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/norm_widths_dxy_eta");
864 dzNormPhiWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/norm_widths_dz_phi");
865 dzNormEtaWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/norm_widths_dz_eta");
867 dxyNormPtWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/norm_widths_dxy_pTCentral");
868 dzNormPtWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/norm_widths_dz_pTCentral");
869 dxyPtWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/widths_dxy_pTCentral");
870 dzPtWidthTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/WidthTrends/widths_dz_pTCentral");
872 dxyIntegralTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/ProbeTrackFeatures/h_probedxyRefitV");
873 dzIntegralTrend[
j] = (TH1F *)fins[
j]->
Get(
"PVValidation/ProbeTrackFeatures/h_probedzRefitV");
877 auto dxyPhiBiases =
getBiases(dxyPhiMeanTrend[
j]);
884 ret.m_dxyPhiMeans[LegLabels[
j]].push_back(dxyPhiBiases.getWeightedMean());
885 ret.m_dxyPhiChi2[LegLabels[
j]].push_back(TMath::Log10(dxyPhiBiases.getNormChi2()));
886 ret.m_dxyPhiKS[LegLabels[
j]].push_back(dxyPhiBiases.getKSScore());
891 ?
ret.m_dxyPhiLo[LegLabels[
j]].push_back(dxyPhiBiases.getWeightedMean() - 2 * dxyPhiBiases.getWeightedRMS())
892 :
ret.m_dxyPhiLo[LegLabels[
j]].push_back(dxyPhiBiases.getMin());
894 ?
ret.m_dxyPhiHi[LegLabels[
j]].push_back(dxyPhiBiases.getWeightedMean() + 2 * dxyPhiBiases.getWeightedRMS())
895 :
ret.m_dxyPhiHi[LegLabels[
j]].push_back(dxyPhiBiases.getMax());
897 auto dxyEtaBiases =
getBiases(dxyEtaMeanTrend[
j]);
898 ret.m_dxyEtaMeans[LegLabels[
j]].push_back(dxyEtaBiases.getWeightedMean());
899 ret.m_dxyEtaChi2[LegLabels[
j]].push_back(TMath::Log10(dxyEtaBiases.getNormChi2()));
900 ret.m_dxyEtaKS[LegLabels[
j]].push_back(dxyEtaBiases.getKSScore());
902 ?
ret.m_dxyEtaLo[LegLabels[
j]].push_back(dxyEtaBiases.getWeightedMean() - 2 * dxyEtaBiases.getWeightedRMS())
903 :
ret.m_dxyEtaLo[LegLabels[
j]].push_back(dxyEtaBiases.getMin());
905 ?
ret.m_dxyEtaHi[LegLabels[
j]].push_back(dxyEtaBiases.getWeightedMean() + 2 * dxyEtaBiases.getWeightedRMS())
906 :
ret.m_dxyEtaHi[LegLabels[
j]].push_back(dxyEtaBiases.getMax());
908 auto dzPhiBiases =
getBiases(dzPhiMeanTrend[
j]);
909 ret.m_dzPhiMeans[LegLabels[
j]].push_back(dzPhiBiases.getWeightedMean());
910 ret.m_dzPhiChi2[LegLabels[
j]].push_back(TMath::Log10(dzPhiBiases.getNormChi2()));
911 ret.m_dzPhiKS[LegLabels[
j]].push_back(dzPhiBiases.getKSScore());
912 useRMS ?
ret.m_dzPhiLo[LegLabels[
j]].push_back(dzPhiBiases.getWeightedMean() - 2 * dzPhiBiases.getWeightedRMS())
913 :
ret.m_dzPhiLo[LegLabels[
j]].push_back(dzPhiBiases.getMin());
914 useRMS ?
ret.m_dzPhiHi[LegLabels[
j]].push_back(dzPhiBiases.getWeightedMean() + 2 * dzPhiBiases.getWeightedRMS())
915 :
ret.m_dzPhiHi[LegLabels[
j]].push_back(dzPhiBiases.getMax());
917 auto dzEtaBiases =
getBiases(dzEtaMeanTrend[
j]);
918 ret.m_dzEtaMeans[LegLabels[
j]].push_back(dzEtaBiases.getWeightedMean());
919 ret.m_dzEtaChi2[LegLabels[
j]].push_back(TMath::Log10(dzEtaBiases.getNormChi2()));
920 ret.m_dzEtaKS[LegLabels[
j]].push_back(dzEtaBiases.getKSScore());
921 useRMS ?
ret.m_dzEtaLo[LegLabels[
j]].push_back(dzEtaBiases.getWeightedMean() - 2 * dzEtaBiases.getWeightedRMS())
922 :
ret.m_dzEtaLo[LegLabels[
j]].push_back(dzEtaBiases.getMin());
923 useRMS ?
ret.m_dzEtaHi[LegLabels[
j]].push_back(dzEtaBiases.getWeightedMean() + 2 * dzEtaBiases.getWeightedRMS())
924 :
ret.m_dzEtaHi[LegLabels[
j]].push_back(dzEtaBiases.getMax());
931 if (!areAllFilesOK) {
933 logWarning <<
"====> not all files are OK" << std::endl;
935 for (
int i = 0;
i < lastOpen;
i++) {
944 logInfo <<
"I am still here - runs.size(): " <<
ret.m_runs.size() << std::endl;
949 for (
int i = 0;
i < nDirs_;
i++) {
950 delete dxyPhiMeanTrend[
i];
951 delete dzPhiMeanTrend[
i];
952 delete dxyEtaMeanTrend[
i];
953 delete dzEtaMeanTrend[
i];
955 delete dxyPhiWidthTrend[
i];
956 delete dzPhiWidthTrend[
i];
957 delete dxyEtaWidthTrend[
i];
958 delete dzEtaWidthTrend[
i];
960 delete dxyNormPhiWidthTrend[
i];
961 delete dxyNormEtaWidthTrend[
i];
962 delete dzNormPhiWidthTrend[
i];
963 delete dzNormEtaWidthTrend[
i];
965 delete dxyNormPtWidthTrend[
i];
966 delete dzNormPtWidthTrend[
i];
967 delete dxyPtWidthTrend[
i];
968 delete dzPtWidthTrend[
i];
Structure biases Contains characterization of a single run PV bias plot.
Structure outPVtrends Contains the ensemble of all the alignmentTrends built by the functor...
alignmentTrend getHighErr() const
std::vector< std::string > LabelList
ret
prodAgent to be discontinued
void multiRunPVValidation(bool useRMS=true, TString lumiInputFile="", bool doUnitTest=false)
alignmentTrend getMean() const
alignmentTrend getLowErr() const
static outPVtrends processData(size_t iter, std::vector< int > intersection, const Int_t nDirs_, const char *dirs[10], TString LegLabels[10], bool useRMS, const size_t nWorkers, bool doUnitTest)
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
std::vector< int > list_files(const char *dirname=".", const char *ext=".root")
Structure wrappedTrends Contains the ensemble vs run number of the alignmentTrend characterization...
Structure bundle Contains the ensemble of all the information to build the graphs alignmentTrends...
double intersection(double r12)
alignmentTrend getHigh() const
void setDirsAndLabels(boost::property_tree::ptree &json)
Abs< T >::type abs(const T &t)
const char * outputFileName_
void outputGraphs(const pv::wrappedTrends &allInputs, const std::vector< double > &ticks, const std::vector< double > &ex_ticks, TGraph *&g_mean, TGraph *&g_chi2, TGraph *&g_KS, TGraph *&g_low, TGraph *&g_high, TGraphAsymmErrors *&g_asym, TH1F *h_RMS[], const pv::bundle &mybundle, const pv::view &theView, const int index, const TString &label)
static TH1F * drawConstantWithErr(TH1F *hist, Int_t iter, Double_t theConst)
static unrolledHisto getUnrolledHisto(TH1F *hist)
alignmentTrend getKS() const
std::map< TString, std::vector< double > > alignmentTrend
std::vector< std::string > DirList
static int position[264][3]
alignmentTrend getChi2() const
alignmentTrend getLow() const
static pv::biases getBiases(TH1F *hist)
PreparePVTrends(const char *outputFileName, int nWorkers, boost::property_tree::ptree &json)