10 #include "TPaveStats.h"
51 TLegend*
legend =
new TLegend(x1, y1, x2, y2,
"",
"NBNDC");
52 legend->SetNColumns(6);
53 legend->SetFillColor(0);
54 legend->SetBorderSize(0);
59 detNames[0] = TString(
"PXB");
60 detNames[1] = TString(
"PXF");
61 detNames[2] = TString(
"TIB");
62 detNames[3] = TString(
"TID");
63 detNames[4] = TString(
"TOB");
64 detNames[5] = TString(
"TEC");
66 for (
unsigned int isublevel = 0; isublevel < 6; isublevel++)
68 TGraph*
g =
new TGraph(0);
69 g->SetLineColor(COLOR_CODE[isublevel]);
70 g->SetMarkerColor(COLOR_CODE[isublevel]);
71 g->SetFillColor(COLOR_CODE[isublevel]);
75 legend->AddEntry(g, detNames[isublevel],
"lp");
83 cout <<
"--- extracting AlignParams ; Par " << currentPar <<
" ---" << endl << endl;
91 cout <<
"Loaded par file -. OK" << endl;
93 const TList* keysv = fv->GetListOfKeys();
94 const unsigned int maxIteration = keysv->GetSize() - 1;
98 else sprintf(fileaction,
"NEW");
102 TTree* tree0 = (TTree*)fv->Get(keysv->At(0)->GetName());
111 tree0->SetBranchAddress(
"Id", &detId0);
113 const int ndets=tree0->GetEntries();
116 sprintf(ppdirname,
"ShiftsPar%d", currentPar);
117 fout->mkdir(ppdirname);
118 gDirectory->cd(ppdirname);
122 TH1D* hpariter[maxIteration];
123 for (
unsigned int a = 0;
a < maxIteration;
a++){
124 char histoname[32], histotitle[32];
125 sprintf(histoname,
"Par_%d_Iter_%d", currentPar,
a);
126 sprintf(histotitle,
"Par %d for iteration #%d", currentPar,
a);
127 hpariter[
a]=
new TH1D(histoname, histoname, 1000, -1.0, 1.0);
130 for (
int i = 0;
i < ndets;
i++){
131 char histoname[32], histotitle[32];
132 sprintf(histoname,
"Par_%d_SiDet_%d", currentPar,
i);
133 sprintf(histotitle,
"Par %d for detector #%d", currentPar,
i);
134 hpar1[
i]=
new TH1D(histoname, histoname, maxIteration+1, -0.5, maxIteration+0.5);
138 ofstream flist(
"./List_aligned_dets.txt",
ios::out);
142 int modules_accepted = 0;
143 for (
unsigned int iter = 0; iter <= maxIteration; iter++){
147 TTree* tmpTree = (TTree*)fv->Get(keysv->At(iter)->GetName());
149 tmpTree->SetBranchAddress(
"Id", &detId);
150 tmpTree->SetBranchAddress(
"Nhit", &nHit);
151 tmpTree->SetBranchAddress(
"Par", &par);
153 std::cout <<
"iteration: " << iter <<
"..." << std::endl;
157 for (
int j = 0;
j < tmpTree->GetEntries();
j++){
159 tmpTree->GetEntry(
j);
160 bool passSubdetCut =
true;
161 if (subDet > 0){
if (
GetSubDet(detId) != subDet) passSubdetCut =
false; }
162 if (doubleSided > 0){
167 if ((nHit >= minHits)&&(passSubdetCut)){
168 hpar1[
j]->SetBinContent(iter+1, par[currentPar]);
172 hpar1[
j]->SetLineColor(COLOR_CODE[
GetSubDet(detId)-1]);
173 hpar1[
j]->SetMarkerColor(COLOR_CODE[
GetSubDet(detId)-1]);
178 if ((iter==maxIteration-1)&&(currentPar==0))flist << detId << endl;
185 std::cout <<
"Modules accepted: " << modules_accepted << std::endl;
201 cout <<
"\n--- extracting AlignShifts ; Par " << currentPar <<
" ---" << endl << endl;
203 const TList* keysa = fa->GetListOfKeys();
204 const unsigned int maxIteration = keysa->GetSize();
207 const TList* keysv = fv->GetListOfKeys();
214 else sprintf(fileaction,
"NEW");
217 TTree* tree0 = (TTree*)fa->Get(keysa->At(0)->GetName());
218 const char* tree0v_Name = keysv->At(0)->GetName();
219 tree0->AddFriend(tree0v_Name, fv);
223 tree0->SetBranchAddress(
"Id", &detId0);
225 const int ndets=tree0->GetEntries();
228 TH1D* hiter_ali[maxIteration];
230 sprintf(ppdirname,
"Shifts%d", currentPar);
231 fout->mkdir(ppdirname);
232 gDirectory->cd(ppdirname);
234 for (
unsigned int a = 0;
a < maxIteration;
a++){
235 char histoname[64], histotitle[64];
239 sprintf(histoname,
"AlignedShift_%d_Iter_%d", currentPar,
a);
240 sprintf(histotitle,
"Aligned Shift %d for iteration #%d", currentPar,
a);
241 hiter_ali[
a]=
new TH1D(histoname, histoname, ndets, 0, ndets);
243 for (
int i = 0;
i < ndets;
i++){
244 char histoname[64], histotitle[64];
245 sprintf(histoname,
"Shift_%d_SiDet_%d", currentPar,
i);
246 sprintf(histotitle,
"Shift %d for detector #%d", currentPar,
i);
247 hshift[
i]=
new TH1D(histoname, histoname, maxIteration, -0.5, maxIteration-0.5);
251 int modules_accepted = 0;
263 detNames[0] = TString(
"PXB");
264 detNames[1] = TString(
"PXF");
265 detNames[2] = TString(
"TIB");
266 detNames[3] = TString(
"TID");
267 detNames[4] = TString(
"TOB");
268 detNames[5] = TString(
"TEC");
273 TTree* tmpTree_true = (TTree*)fa->Get(
"AlignablesAbsPos_0");
277 tmpTree_true->SetBranchAddress(
"Pos", &tpos);
279 if (currentPar >= 3){
281 tmpTree_true->SetBranchAddress(
"Rot", &trot);
284 for (
unsigned int iter = 1; iter < maxIteration; iter++){
286 TTree* tmpTree = (TTree*)fa->Get(keysa->At(iter)->GetName());
287 const char* tmpTreev = keysv->At(iter)->GetName();
288 tmpTree->AddFriend(tmpTreev, fv);
289 tmpTree->SetBranchAddress(
"Id", &detId);
290 tmpTree->SetBranchAddress(
"Nhit", &nHit);
291 tmpTree->SetBranchAddress(
"ParError", &aerr);
293 if (currentPar < 3){ tmpTree->SetBranchAddress(
"Pos", &apos); }
294 tmpTree->SetBranchAddress(
"Rot", &arot);
299 for (
int j = 0;
j < tmpTree->GetEntries();
j++){
300 tmpTree_true->GetEntry(
j);
301 tmpTree->GetEntry(
j);
307 bool passSubdetCut =
true;
309 if (subDet > 0){
if (
GetSubDet(detId) != subDet) passSubdetCut =
false; }
312 hshift[
j]->SetLineColor(COLOR_CODE[
GetSubDet(detId)-1]);
313 hshift[
j]->SetMarkerColor(COLOR_CODE[
GetSubDet(detId)-1]);
315 if ((nHit >= minHits)&&(passSubdetCut)){
319 TVectorD dr_ali(3, apos);
320 TVectorD r_true(3, tpos);
321 TMatrixD R_true(3, 3, trot);
333 hshift[
j]->SetBinContent(iter+1, dr_ali[currentPar]);
337 hiter_ali[iter]->SetBinContent(
j+1, dr_ali[currentPar]);
341 if (currentPar >= 3){
343 TMatrixD dR_ali(3, 3, arot);
344 TMatrixD R_true(3, 3, trot);
346 dR_ali = dR_ali* TMatrixD(TMatrixD::kTransposed, R_true);
349 double dR_ali_euler = 0;
350 if (currentPar == 3){
352 dR_ali_euler = -std::atan2(dR_ali(2, 1), dR_ali(2, 2));
354 if (currentPar == 4){
356 dR_ali_euler = -std::asin(dR_ali(2, 0));
358 if (currentPar == 5){
360 dR_ali_euler = -std::atan2(dR_ali(1, 0), dR_ali(0, 0));
362 hshift[
j]->SetBinContent(iter+1, dR_ali_euler);
364 hiter_ali[iter]->SetBinContent(
j+1, dR_ali_euler);
367 hiter_ali[iter]->GetXaxis()->SetBinLabel(
j+1, detNames[
GetSubDet(detId)-1]);
368 hiter_ali[iter]->SetBinError(
j+1, aerr[currentPar]);
370 hiter_ali[iter]->LabelsOption(
"u",
"x");
377 std::cout <<
"Modules accepted: " << modules_accepted << std::endl;
382 std::cout <<
"Deleting..." << std::flush;
384 std::cout <<
"Deleting..." << std::flush;
397 cout <<
"_|_| plotting AlignParams |_|_" << endl <<
"---> " << ShiftsOrParams << endl;
398 bool bParams =
false;
399 bool bShifts =
false;
400 if (ShiftsOrParams ==
"PARAMS") bParams =
true;
401 if (ShiftsOrParams ==
"SHIFTS") bShifts =
true;
408 TCanvas* c_params =
new TCanvas(
"can_params",
"CAN_PARAMS", 1200, 900);
409 c_params->Divide(3, 2);
414 d = (TDirectory*)f->Get(
"ShiftsPar0");
419 d = (TDirectory*)f->Get(
"Shifts0");
424 for (
int iPar = 0; iPar < 6; iPar++){
426 c_params->cd(iPar+1);
427 gPad->SetTopMargin(0.15);
428 gPad->SetBottomMargin(0.15);
430 if (bParams) sprintf(ppdirname,
"ShiftsPar%d", iPar);
431 if (bShifts) sprintf(ppdirname,
"Shifts%d", iPar);
432 if (iPar > 0)gDirectory->cd(
"../");
433 gDirectory->cd(ppdirname);
438 int sampling_ratio=1;
439 int ndets_plotted=(int)ndets/sampling_ratio;
440 cout <<
"Plotting " << ndets_plotted <<
" detectors over a total of " << ndets << endl;
442 double histomax, histomin;
467 while ((i<ndets_plotted) && (i*sampling_ratio<ndets)){
468 if (bParams) sprintf(histoname,
"Par_%d_SiDet_%d", iPar, i*sampling_ratio);
469 if (bShifts) sprintf(histoname,
"Shift_%d_SiDet_%d", iPar, i*sampling_ratio);
470 hpar1[
i]=(TH1D*)gDirectory->Get(histoname);
472 if (iPar>=3)hpar1[
i]->Scale(1000.0);
473 else hpar1[
i]->Scale(10000.0);
475 hpar1[
i]->SetMarkerStyle(7);
476 hpar1[
i]->SetStats(0);
478 double tmpmax=hpar1[
i]->GetBinContent(hpar1[i]->GetMaximumBin());
479 double tmpmin=hpar1[
i]->GetBinContent(hpar1[i]->GetMinimumBin());
482 if (tmpmax>histomax)histomax=tmpmax*1.2;
483 if (tmpmin<histomin)histomin=tmpmin*1.2;
488 hpar1[
i]->SetXTitle(
"Iteration");
491 if (iPar==0)hpar1[
i]->SetYTitle(
"#delta u param (#mum)");
492 else if (iPar==1)hpar1[
i]->SetYTitle(
"#delta v param (#mum)");
493 else if (iPar==2)hpar1[
i]->SetYTitle(
"#delta w param (#mum)");
494 else if (iPar==3)hpar1[
i]->SetYTitle(
"#delta #alpha param (mrad)");
495 else if (iPar==4)hpar1[
i]->SetYTitle(
"#delta #beta param (mrad)");
496 else if (iPar==5)hpar1[
i]->SetYTitle(
"#delta #gamma param (mrad)");
497 else hpar1[
i]->SetYTitle(
"dunno");
500 if (iPar==0)hpar1[
i]->SetYTitle(
"#delta u shift (#mum)");
501 else if (iPar==1)hpar1[
i]->SetYTitle(
"#delta v shift (#mum)");
502 else if (iPar==2)hpar1[
i]->SetYTitle(
"#delta w shift (#mum)");
503 else if (iPar==3)hpar1[
i]->SetYTitle(
"#delta #alpha shift (mrad)");
504 else if (iPar==4)hpar1[
i]->SetYTitle(
"#delta #beta shift (mrad)");
505 else if (iPar==5)hpar1[
i]->SetYTitle(
"#delta #gamma shift (mrad)");
506 else hpar1[
i]->SetYTitle(
"dunno");
509 hpar1[
i]->GetYaxis()->SetTitleOffset(1.5);
511 hpar1[
i]->SetTitle(
"");
512 hpar1[
i]->SetMaximum(histomax);
513 hpar1[
i]->SetMinimum(histomin);
514 hpar1[
i]->Draw(
"PL");
517 else hpar1[
i]->Draw(
"PLsame");
520 hpar1[0]->SetMaximum(histomax);
521 hpar1[0]->SetMinimum(histomin);
523 cout <<
"Plotted " << i <<
" aligned detectors" << endl;
528 c_params->SaveAs(plotName);
529 std::cout <<
"Deleting..." << std::flush;
531 std::cout <<
"Deleting..." << std::flush;
541 cout <<
"Welcome to HIPplots::plotAlignParamsAtIter " << iter << endl;
542 bool bParams =
false;
543 bool bShifts =
false;
544 if (ShiftsOrParams ==
"PARAMS") bParams =
true;
545 else if (ShiftsOrParams ==
"SHIFTS") bShifts =
true;
546 else {
cout <<
"ERROR in plotAliParamsAtIter!!! Wrong input argument: " << ShiftsOrParams <<
" . Exiting" << endl;
return; }
552 TCanvas* c_params =
new TCanvas(
"can_params",
"CAN_PARAMS", 1200, 700);
553 c_params->Divide(3, 2);
559 for (
int iPar = 0; iPar < 6; iPar++){
561 c_params->cd(iPar+1);
563 gPad->SetTopMargin(0.15);
564 gPad->SetBottomMargin(0.15);
566 if (bParams) sprintf(ppdirname,
"ShiftsPar%d", iPar);
567 if (bShifts) sprintf(ppdirname,
"Shifts%d", iPar);
568 if (iPar > 0)gDirectory->cd(
"../");
569 gDirectory->cd(ppdirname);
574 if (bParams) sprintf(histoname,
"Par_%d_Iter_%d", iPar, iter);
575 if (bShifts) sprintf(histoname,
"AlignedShift_%d_Iter_%d", iPar, iter);
576 hiter = (TH1D*)gDirectory->Get(histoname);
582 hiter->SetXTitle(
"Sub-Det");
583 if (iPar==0)hiter->SetYTitle(
"#delta u (#mum)");
584 else if (iPar==1)hiter->SetYTitle(
"#delta v (#mum)");
585 else if (iPar==2)hiter->SetYTitle(
"#delta w (#mum)");
586 else if (iPar==3)hiter->SetYTitle(
"#delta #alpha (#murad)");
587 else if (iPar==4)hiter->SetYTitle(
"#delta #beta (#murad)");
588 else if (iPar==5)hiter->SetYTitle(
"#delta #gamma (#murad)");
589 else hiter->SetXTitle(
"dunno");
590 hiter->GetYaxis()->SetTitleOffset(1.5);
592 double histomax, histomin;
593 if (iPar==2||iPar==5) { histomax=200; histomin=-200; }
594 else { histomax=100; histomin=-100; }
596 if (iPar>=3)hiter->Scale(1000000.0);
597 else hiter->Scale(10000.0);
598 double tmpmax=hiter->GetBinContent(hiter->GetMaximumBin());
599 double tmpmin=hiter->GetBinContent(hiter->GetMinimumBin());
600 if (tmpmax>histomax)histomax=tmpmax*1.2;
601 if (tmpmin<histomin)histomin=tmpmin*1.2;
602 hiter->SetMaximum(histomax);
603 hiter->SetMinimum(histomin);
605 hiter->SetLineColor(1);
606 TColor*
col = gROOT->GetColor(kCyan+1);
608 hiter->SetFillColor(col->GetNumber());
610 hiter->SetMarkerStyle(7);
627 c_params->SaveAs(plotName);
641 cout <<
"\n--- Welcome to extractAlignableChiSquare ---" << endl;
642 cout <<
"\nInput parameters:\n\tMinimum number of hits per alignbale = " << minHits <<
"\n\tSubdetetctor selection" << subDet << endl;
645 cout <<
"Warning ! Allowing to select modules with NO hits. Chi2 not defined for them. Setting automatically minNhits=1 !!!" << endl;
650 const TList* keysv = fv->GetListOfKeys();
651 const unsigned int maxIteration = keysv->GetSize() - 1;
652 cout <<
"MaxIteration is " << maxIteration << endl;
656 else sprintf(fileaction,
"NEW");
659 TTree* tree0 = (TTree*)fv->Get(keysv->At(0)->GetName());
661 tree0->SetBranchAddress(
"Id", &detId0);
662 const int ndets=tree0->GetEntries();
663 TH1D* halichi2n[ndets];
664 TH1D* htotchi2n[maxIteration];
665 TH1D* hprobdist[maxIteration];
667 sprintf(ppdirname,
"AlignablesChi2n");
668 fout->mkdir(ppdirname);
669 gDirectory->cd(ppdirname);
671 for (
int iter = 1; iter <=(int)maxIteration; iter++){
672 char histoname[64], histotitle[128];
673 sprintf(histoname,
"Chi2n_iter%d", iter);
674 sprintf(histotitle,
"Distribution of Normalised #chi^{2} for All alignables at iter %d", iter);
675 htotchi2n[iter-1]=
new TH1D(histoname, histotitle, 1000, 0.0, 10.0);
676 sprintf(histoname,
"ProbChi2_%d", iter);
677 sprintf(histotitle,
"Distribution of Prob(#chi^{2},ndof) at iter %d", iter);
678 hprobdist[iter-1]=
new TH1D(histoname, histotitle, 100, 0.0, 1.0);
680 gDirectory->mkdir(
"AlignablewiseChi2n");
681 gDirectory->cd(
"AlignablewiseChi2n");
683 for (
int i = 0;
i < (int)ndets;
i++){
685 char histoname[64], histotitle[64];
686 sprintf(histoname,
"Chi2n_%d",
i);
687 sprintf(histotitle,
"Normalised #chi^{2} for detector #%d",
i);
688 halichi2n[
i]=
new TH1D(histoname, histotitle, maxIteration, 0.5, maxIteration+0.5);
692 int modules_accepted = 0;
693 for (
unsigned int iter = 1; iter <= maxIteration; iter++){
695 TTree* tmpTreeUV = (TTree*)fv->Get(keysv->At(iter)->GetName());
696 cout <<
"Taking tree " << keysv->At(iter)->GetName() << endl;
698 tmpTreeUV->SetBranchStatus(
"*", 0);
699 tmpTreeUV->SetBranchStatus(
"Id", 1);
700 tmpTreeUV->SetBranchStatus(
"Nhit", 1);
701 tmpTreeUV->SetBranchStatus(
"AlignableChi2", 1);
702 tmpTreeUV->SetBranchStatus(
"AlignableNdof", 1);
704 unsigned int alindof=0;
706 unsigned int detId=0;
707 tmpTreeUV->SetBranchAddress(
"AlignableChi2", &alichi2);
708 tmpTreeUV->SetBranchAddress(
"AlignableNdof", &alindof);
709 tmpTreeUV->SetBranchAddress(
"Id", &detId);
710 tmpTreeUV->SetBranchAddress(
"Nhit", &nHit);
714 for (
int j = 0;
j < tmpTreeUV->GetEntries();
j++){
715 tmpTreeUV->GetEntry(
j);
717 bool passSubdetCut =
true;
718 if (subDet > 0){
if (
GetSubDet(detId) != subDet) passSubdetCut =
false; }
719 if (doubleSided > 0){
724 if ((nHit >= minHits)&&(passSubdetCut)){
725 halichi2n[
j]->SetBinContent(iter,
double(alichi2 / alindof));
727 double prob=TMath::Prob(
double(alichi2),
int(alindof));
729 htotchi2n[iter-1]->Fill(
double(alichi2 / alindof));
730 hprobdist[iter-1]->Fill(prob);
735 cout <<
"alignables accepted at iteration " << iter <<
" = " << modules_accepted << endl;
750 cout <<
"Finished extractAlignableChiSquare" << endl;
756 cout <<
"\n--- extractSurveyResiduals has been called ---" << endl;
759 const TList* keysv = fv->GetListOfKeys();
760 const unsigned int maxIteration = keysv->GetSize();
761 cout <<
"MaxIteration is " << maxIteration << endl;
765 else sprintf(fileaction,
"NEW");
768 TTree* tree0 = (TTree*)fv->Get(keysv->At(0)->GetName());
770 tree0->SetBranchAddress(
"Id", &detId0);
771 const int ndets=tree0->GetEntries();
772 TH1D* hsurvey[ndets];
773 TH1D* htotres[maxIteration];
776 sprintf(ppdirname,
"SurveyResiduals");
777 fout->mkdir(ppdirname);
778 gDirectory->cd(ppdirname);
780 for (
int iter = 1; iter <=(int)maxIteration; iter++){
781 char histoname[64], histotitle[128];
782 sprintf(histoname,
"SurveyRes_Par%d_iter%d", currentPar, iter);
783 sprintf(histotitle,
"Distribution of survey Residuals for All alignables ; Par=%d ; iter %d", currentPar, iter);
784 htotres[iter-1]=
new TH1D(histoname, histotitle, 1000, 0.0, 10.0);
786 gDirectory->mkdir(
"SurveyResiduals_alignables");
787 gDirectory->cd(
"SurveyResiduals_alignables");
789 for (
int i = 0;
i < (int)ndets;
i++){
791 char histoname[64], histotitle[64];
792 sprintf(histoname,
"SurveyRes_Par%d_%d", currentPar,
i);
793 sprintf(histotitle,
"Survey residual for detector #%d - Par=%d",
i, currentPar);
794 hsurvey[
i]=
new TH1D(histoname, histotitle, maxIteration, 0.5, maxIteration+0.5);
798 int modules_accepted = 0;
799 for (
unsigned int iter = 1; iter <= maxIteration; iter++){
801 TTree* tmpTreeUV = (TTree*)fv->Get(keysv->At(iter)->GetName());
802 cout <<
"Taking tree " << keysv->At(iter)->GetName() << endl;
804 tmpTreeUV->SetBranchStatus(
"*", 0);
805 tmpTreeUV->SetBranchStatus(
"Id", 1);
806 tmpTreeUV->SetBranchStatus(
"Par", 1);
809 unsigned int detId=0;
810 tmpTreeUV->SetBranchAddress(
"Par", &par);
811 tmpTreeUV->SetBranchAddress(
"Id", &detId);
816 for (
int j = 0;
j < tmpTreeUV->GetEntries();
j++){
817 tmpTreeUV->GetEntry(
j);
819 bool passSubdetCut =
true;
820 if (subDet > 0){
if (
GetSubDet(detId) != subDet) passSubdetCut =
false; }
822 hsurvey[
j]->SetBinContent(iter,
double(par[currentPar]));
828 cout <<
"alignables accepted at iteration " << iter <<
" = " << modules_accepted << endl;
836 cout <<
"Finished extractAlignableChiSquare" << endl;
848 TCanvas* c_alichi2n=
new TCanvas(
"can_alichi2n",
"CAN_ALIGNABLECHI2N", 900, 900);
850 TDirectory* chi_d1=(TDirectory*)f->Get(
"AlignablesChi2n");
851 const int maxIteration=
GetNIterations(chi_d1,
"Chi2n_iter", 1)-1;
852 cout <<
"N iterations " << maxIteration << endl;
854 gDirectory->cd(
"AlignablesChi2n");
855 TDirectory* chi_d=(TDirectory*)gDirectory->Get(
"AlignablewiseChi2n");
858 gDirectory->cd(
"AlignablewiseChi2n");
861 int sampling_ratio=1;
862 int ndets_plotted=(int)ndets/sampling_ratio;
863 cout <<
"Sampling " << ndets_plotted <<
" detectors over a total of " << ndets << endl;
864 double histomax=0.1, histomin=-0.1;
865 bool firstplotted=
false;
866 int firstplottedindex=0;
869 while ((i<ndets_plotted) && (i*sampling_ratio<ndets)){
870 sprintf(histoname,
"Chi2n_%d", i);
871 hchi2n[
i]=(TH1D*)gDirectory->Get(histoname);
876 for (
int bin=1;
bin<=hchi2n[
i]->GetNbinsX();
bin++){
877 if (hchi2n[i]->GetBinContent(
bin)>minChi2n){ chi2ncut=
true;
break; }
886 if (chi2ncut&&plothisto){
887 double tmpmax=hchi2n[
i]->GetBinContent(hchi2n[i]->GetMaximumBin());
888 double tmpmin=hchi2n[
i]->GetBinContent(hchi2n[i]->GetMinimumBin());
891 if (tmpmax>histomax)histomax=tmpmax;
892 if (tmpmin<histomin)histomin=tmpmin;
894 hchi2n[
i]->SetMaximum(histomax);
895 hchi2n[
i]->SetMinimum(histomin);
896 hchi2n[
i]->SetStats(0);
900 hchi2n[
i]->SetXTitle(
"Iteration");
901 hchi2n[
i]->SetYTitle(
"#chi^{2} / # dof");
903 hchi2n[
i]->SetTitle(
"Reduced #chi^{2} for alignables");
904 hchi2n[
i]->Draw(
"PL");
908 else hchi2n[
i]->Draw(
"PLsame");
913 hchi2n[firstplottedindex]->SetMaximum(histomax*1.2);
914 hchi2n[firstplottedindex]->SetMinimum(histomin*0.8);
916 hchi2n[firstplottedindex]->SetMaximum(histomax);
917 hchi2n[firstplottedindex]->SetMinimum(histomin);
919 cout <<
"Plotted " << totalplotted <<
" alignables over an initial sample of " << ndets_plotted << endl;
920 TText* txtchi2n_1=
new TText();
921 txtchi2n_1->SetTextFont(63);
922 txtchi2n_1->SetTextSize(22);
923 char strchi2n_1[128];
924 sprintf(strchi2n_1,
"Plotted alignables (Chi2n > %.3f): %d / %d", minChi2n, totalplotted, ndets_plotted);
925 txtchi2n_1->DrawText(1.2, 0.0, strchi2n_1);
926 char finplotname[192];
927 sprintf(finplotname,
"%s.png", plotName);
928 c_alichi2n->SaveAs(finplotname);
933 cout <<
"Doing distrib" << endl;
934 gDirectory->cd(
"../");
935 TCanvas* c_chi2ndist=
new TCanvas(
"can_chi2ndistr",
"CAN_CHI2N_DISTRIBUTION", 900, 900);
937 TH1D* hiter[maxIteration];
938 TLegend*
l=
new TLegend(0.7, 0.7, 0.9, 0.9);
941 int colors[10]={ 1, 2, 8, 4, 6, 7, 94, 52, 41, 45 };
945 for (i=0; i<maxIteration; i++){
946 sprintf(histoname,
"Chi2n_iter%d", i+1);
947 hiter[
i]=(TH1D*)gDirectory->Get(histoname);
948 hiter[
i]->SetXTitle(
"#chi^{2} / dof");
949 hiter[
i]->SetYTitle(
"Alignables");
950 hiter[
i]->SetTitle(
"Normalised #chi^{2} of Alignables");
952 hiter[
i]->GetXaxis()->SetRangeUser(0.0, 3.0);
953 hiter[
i]->SetLineColor(i);
955 char legend_entry[64];
956 float histmean=hiter[
i]->GetMean();
958 hiter[
i]->SetLineColor(colors[taken]);
960 sprintf(legend_entry,
"Norm #chi^{2}; Iter %d; %.4f", i, histmean);
961 l->AddEntry(hiter[i], legend_entry,
"L");
962 tmpmax=hiter[
i]->GetBinContent(hiter[i]->GetMaximumBin());
966 else if ((i+1)%5==0){
967 hiter[
i]->SetLineColor(colors[taken]);
969 sprintf(legend_entry,
"Norm #chi^{2}; Iter %d; %.4f", i+1, histmean);
970 l->AddEntry(hiter[i], legend_entry,
"L");
971 tmpmax=hiter[
i]->GetBinContent(hiter[i]->GetMaximumBin());
972 if (tmpmax>newmax)newmax=tmpmax;
976 cout <<
"NewMax after 1st loop -> " << newmax << endl;
978 for (i=0; i<maxIteration; i++){
979 hiter[
i]->SetMaximum(newmax*1.1);
980 if (i==1) hiter[
i]->Draw(
"");
981 else if ((i+1)%5==0) hiter[
i]->Draw(
"same");
985 sprintf(finplotname,
"%s_distr.png", plotName);
986 cout << finplotname << endl;
987 c_chi2ndist->SaveAs(finplotname);
988 c_chi2ndist->SetLogy();
989 sprintf(finplotname,
"%s_distrlog.png", plotName);
990 cout << finplotname << endl;
991 c_chi2ndist->SaveAs(finplotname);
1002 int fin_iter=0,
i=startingcounter;
1003 bool obj_exist=kTRUE;
1006 sprintf(objname,
"%s%d", tag,
i);
1007 if (!f->FindObjectAny(objname))obj_exist=kFALSE;
1011 cout <<
"Max Iterations is " << fin_iter << endl;
1019 const int reserved_subdetectorstartbit=25;
1020 const int reserved_subdetectorfinalbit=27;
1022 unsigned int detID =
id;
1024 int shift = 31-reserved_subdetectorfinalbit;
1025 detID = detID << (
shift);
1026 shift = reserved_subdetectorstartbit +
shift;
1027 detID = detID>>(
shift);
1035 const int reserved_layerstartbit=14;
1036 const int reserved_layermask=0x7;
1038 return int((
id>>reserved_layerstartbit) & reserved_layermask);
1044 Double_t
xmin = 10000;
1045 Double_t
xmax = -10000;
1048 for (
int i = 1;
i <= h->GetNbinsX(); ++
i) {
1049 if ((h->GetBinContent(
i) > 0)&&(h->GetBinCenter(
i)>
xmax)) xmax = h->GetBinCenter(
i);
1051 for (
int i = h->GetNbinsX();
i >= 1; --
i) {
1052 if ((h->GetBinContent(
i) > 0)&&(h->GetBinCenter(
i)<
xmin)) xmin = h->GetBinCenter(
i);
1055 h->SetAxisRange((xmin-xmin*0.1), (xmax+xmax*0.1),
"X");
1063 cout <<
"Starting plotHitMap" << flush;
1066 cout <<
"\tLoaded file" << flush;
1068 TTree* talignable=(TTree*)falignable->Get(
"T2");
1069 cout <<
"\t Loaded tree" << endl;
1071 float eta=-999.0,
phi=-55.0, xpos=-999.0, ypos=+999.0, zpos=-11111.0;
1074 talignable->SetBranchAddress(
"Id", &
id);
1075 talignable->SetBranchAddress(
"Layer", &layer);
1076 talignable->SetBranchAddress(
"Type", &
type);
1077 talignable->SetBranchAddress(
"Nhit", &nhit);
1078 talignable->SetBranchAddress(
"Ypos", &ypos);
1079 talignable->SetBranchAddress(
"Eta", &eta);
1080 talignable->SetBranchAddress(
"Phi", &
phi);
1081 talignable->SetBranchAddress(
"Ypos", &ypos);
1082 talignable->SetBranchAddress(
"Xpos", &xpos);
1083 talignable->SetBranchAddress(
"Zpos", &zpos);
1088 if (subDet ==
TPBid){ sprintf(typetag,
"TPB"); maxLayers=3; }
1089 else if (subDet ==
TPEid){ sprintf(typetag,
"TPE"); maxLayers=2; }
1090 else if (subDet ==
TIBid){ sprintf(typetag,
"TIB"); maxLayers=4; }
1091 else if (subDet ==
TIDid){ sprintf(typetag,
"TID"); maxLayers=3; }
1092 else if (subDet ==
TOBid){ sprintf(typetag,
"TOB"); maxLayers=6; }
1093 else if (subDet ==
TECid){ sprintf(typetag,
"TEC"); maxLayers=9; }
1094 else { sprintf(typetag,
"UNKNOWN"); }
1095 cout <<
"Starting to plot Hit Distributions for " << typetag << endl;
1097 bool printbinning=
true;
1100 sprintf(psname,
"%s/Hits_%s_Layers_Skimmed.eps", outpath, typetag);
1102 char binfilename[64];
1103 sprintf(binfilename,
"./BinningHitMaps_%s.txt", typetag);
1104 ofstream binfile(binfilename,
ios::out);
1107 binfile <<
"******** Binning for Subdet " << typetag <<
"* ********" << endl << endl;
1110 for (
int layerindex=1; layerindex<=
maxLayers; layerindex++){
1112 cout <<
"\n\n*** Layer # " << layerindex <<
"* **" << endl;
1114 talignable->SetBranchStatus(
"*", 0);
1115 talignable->SetBranchStatus(
"Id", 1);
1116 talignable->SetBranchStatus(
"Type", 1);
1117 talignable->SetBranchStatus(
"Layer", 1);
1118 talignable->SetBranchStatus(
"Nhit", 1);
1119 talignable->SetBranchStatus(
"Eta", 1);
1120 talignable->SetBranchStatus(
"Phi", 1);
1121 talignable->SetBranchStatus(
"Ypos", 1);
1122 talignable->SetBranchStatus(
"Zpos", 1);
1123 talignable->SetBranchStatus(
"Xpos", 1);
1125 TCut selA, selECpos, selECneg;
1126 char selA_str[196], selECneg_str[196], selECpos_str[196];
1127 char varA_str[64], varB_str[64];
1128 char commonsense_str[128]=
"Xpos>-150.0&&Xpos<150.0&&Ypos>-150.0&&Ypos<150.0&&Zpos>-400.0&&Zpos<400.0";
1129 TCut commonsense=commonsense_str;
1131 sprintf(selECneg_str,
"(Type==%d && Layer==%d && Zpos<0.0 && Nhit>=%d && sqrt(pow(Xpos,2)+pow(Ypos,2) )<125.0 )", subDet, layerindex, minHits);
1132 sprintf(selECpos_str,
"(Type==%d && Layer==%d && Zpos>=0.0 && Nhit>=%d && sqrt(pow(Xpos,2)+pow(Ypos,2) )<125.0 )", subDet, layerindex, minHits);
1134 sprintf(selA_str,
"Type==%d && Layer==%d", subDet, layerindex);
1136 sprintf(varA_str,
"Eta>>hvarx");
1137 sprintf(varB_str,
"Phi>>hvary");
1139 selECneg=selECneg_str;
1140 selECpos=selECpos_str;
1142 cout <<
"Cuts defined as " << selA << endl;
1151 int nzentries= talignable->Draw(
"Zpos>>hZ(360,-270.0,270.0)", commonsense&&selA,
"goff");
1152 TH1F* hZ=(TH1F*)gDirectory->Get(
"hZ");
1157 for (bin=0; bin<120; bin++){
1160 const int nZpeaks=
FindPeaks(hZ, Zpeaks, 99);
1161 const int nZbinlims=nZpeaks+1;
1162 float Zwidth=(Zpeaks[nZpeaks-1]-Zpeaks[0])/ (nZpeaks-1);
1163 float Zmin=Zpeaks[0]- Zwidth/2.0;
1164 float Zmax=Zpeaks[nZpeaks-1] + Zwidth/2.0;
1165 cout <<
"--> Zmin= " << Zmin <<
" - Zmax= " << Zmax <<
" Zwidth= " << Zwidth <<
" ; found " << nZpeaks <<
" Zpeaks" << endl;
1166 cout <<
"Zpeaks[0] is " << Zpeaks[0] << endl;
1169 float Phipeaks[120];
1170 if ((subDet==
TIBid||subDet==
TOBid)&&layerindex<=2) sprintf(selA_str,
"%s&&Zpos>%f&&Zpos<%f", selA_str, Zpeaks[0]-2.0, Zpeaks[0]+2.0);
1171 else sprintf(selA_str,
"%s&&Zpos>%f&&Zpos<%f", selA_str, Zpeaks[0]-2.0, Zpeaks[0]+2.0);
1172 int nphientries=talignable->Draw(
"Phi>>hPhi", selA_str,
"goff");
1173 cout <<
"N phi entries " << nphientries <<
" from sel " << selA_str << endl;
1174 TH1F* hPhi=(TH1F*)gDirectory->Get(
"hPhi");
1176 if (subDet==
TPBid&&layerindex==1)nphientries=nphientries-1;
1177 const int nPhibins=nphientries;
1178 cout <<
"+ It would have found " << nPhibins <<
" phi bins" << endl;
1181 float phibin[nPhibins+1];
1182 float zbin[nZbinlims];
1183 float Phiwidth=6.28/nPhibins;
1185 if ((subDet==
TIBid||subDet==
TOBid)&&layerindex<=2){
1188 cout <<
"Gonna loop over " << nZpeaks <<
" peaks / " << nZbinlims <<
" bin limits" << endl;
1189 for (bin=0; bin<nZbinlims-1; bin++){
1194 zup=(Zpeaks[bin+1]-Zpeaks[
bin])/2.0;
1197 else if (bin==nZbinlims-2){
1198 cout <<
"Don't go overflow !" << endl;
1199 zdown=(Zpeaks[
bin]-Zpeaks[bin-1])/2.0;
1200 if (layerindex==1) zup=(Zpeaks[bin-1]-Zpeaks[bin-2])/2.0;
1204 zup=(Zpeaks[bin+1]-Zpeaks[
bin])/2.0;
1205 zdown=(Zpeaks[
bin]-Zpeaks[bin-1])/2.0;
1207 zbin[
bin] = Zpeaks[
bin]-zdown;
1208 zbin[bin+1]= Zpeaks[
bin]+zup;
1214 for (
int bin=0; bin<=nPhibins; ++
bin){
1215 if (bin==0)phibin[
bin]=-3.14+bin*(Phiwidth)+Phiwidth/4;
1216 else if (bin==nPhibins-1)phibin[
bin]=-3.14+bin*(Phiwidth)-Phiwidth/4;
1218 else phibin[
bin]=phibin[bin-1]+ Phiwidth;
1223 for (
int bin=0; bin<nZbinlims; ++
bin){
1224 zbin[
bin]=Zmin+bin*(Zwidth);
1227 for (
int bin=0; bin<=nPhibins; ++
bin){
1228 phibin[
bin]=-3.14+bin*(Phiwidth);
1233 float Phimin=Phipeaks[0]- ((Phipeaks[1]-Phipeaks[0])/2.0);
1234 float Phimax=Phipeaks[nPhibins-1] + ((Phipeaks[nPhibins-1]-Phipeaks[nPhibins-2])/2.0);
1236 cout <<
"N Z bin LIMITs = " << nZbinlims <<
" N Phi bin LIMITS = " << nPhibins << endl;
1242 sprintf(histoname,
"%s_Layer%d", typetag, layerindex);
1243 TH2F* hetaphi=
new TH2F(histoname, histoname, nZpeaks, zbin, nPhibins, phibin);
1246 cout <<
"Starting to loop on entries" << flush;
1248 int nlowentrycells=0;
1250 for (
int j=0;
j<talignable->GetEntries();
j++){
1251 if (
j%1000==0)
cout <<
"." << flush;
1252 talignable->GetEntry(
j);
1253 if (
type==subDet&&layer==layerindex){
1256 hetaphi->Fill(zpos,
phi, nhit);
1260 hetaphi->Fill(zpos,
phi, -99);
1268 hetaphi->SetXTitle(
"Z [cm]");
1269 hetaphi->SetYTitle(
"#phi (rad)");
1271 int Nxbins=hetaphi->GetXaxis()->GetNbins();
1272 int Nybins=hetaphi->GetYaxis()->GetNbins();
1273 cout <<
"On x-axis there are " << Nxbins <<
" bins " << endl;
1274 cout <<
"On y-axis there are " << Nybins <<
" bins " << endl;
1277 bool smooth_etaphi=
false;
1281 float bincont=hetaphi->GetBinContent(
i,
j);
1283 float binup1=hetaphi->GetBinContent(
i,
j+1);
1284 float bindown1=hetaphi->GetBinContent(
i,
j-1);
1285 float binlx1=hetaphi->GetBinContent(
i-1,
j);
1286 float binrx1=hetaphi->GetBinContent(
i+1,
j);
1287 if (
i==1)binlx1=binrx1;
1288 if (
i==Nxbins)binrx1=binlx1;
1289 if (
j==1)bindown1=binup1;
1290 if (
j==Nybins)binup1=bindown1;
1292 if (binup1>0.0)adiacentbins++;
1293 if (bindown1>0.0)adiacentbins++;
1294 if (binlx1>0.0)adiacentbins++;
1295 if (binrx1>0.0)adiacentbins++;
1296 if (adiacentbins>=2){
1297 float avg=(binup1+bindown1+binlx1+binrx1)/adiacentbins;
1298 hetaphi->SetBinContent(
i,
j, avg);
1308 bool plotAlignablePos=
false;
1309 if (plotAlignablePos){
1310 const int ngrpoints=nmods;
1311 float etagr[ngrpoints], phigr[ngrpoints];
1313 for (
int j=0;
j<talignable->GetEntries();
j++){
1314 if (
j%1000==0)
cout <<
"." << flush;
1315 talignable->GetEntry(
j);
1316 if (
type==subDet&&layer==layerindex){
1323 gretaphi=
new TGraph(ngrpoints, etagr, phigr);
1324 gretaphi->SetMarkerStyle(20);
1325 gretaphi->SetMarkerColor(1);
1326 gretaphi->SetMarkerSize(0.75);
1334 float Phicellgr[512];
1336 for (
int zcells=1; zcells<=hetaphi->GetNbinsX(); zcells++){
1337 for (
int phicells=1; phicells<=hetaphi->GetNbinsY(); phicells++){
1338 if (hetaphi->GetBinContent(zcells, phicells)==-99){
1339 hetaphi->SetBinContent(zcells, phicells, 0);
1340 Zcellgr[nemptycells]= float(hetaphi->GetXaxis()->GetBinCenter(zcells));
1341 Phicellgr[nemptycells]= float(hetaphi->GetYaxis()->GetBinCenter(phicells));
1347 TGraph* gr_empty=
new TGraph(nlowentrycells, Zcellgr, Phicellgr);
1348 sprintf(histoname,
"gr_emptycells_subdet%d_layer%d", subDet, layerindex);
1350 gr_empty->SetName(histoname);
1351 gr_empty->SetMarkerStyle(5);
1355 cout <<
" Done! Used " << nmods <<
" alignables. Starting to plot !" << endl;
1358 gStyle->SetPalette(1, 0);
1359 TCanvas* c_barrels=
new TCanvas(
"canvas_hits_barrels",
"CANVAS_HITS_BARRELS", 1600, 1600);
1360 TCanvas* c_endcaps=
new TCanvas(
"canvas_hits_endcaps",
"CANVAS_HITS_ENDCAPS", 3200, 1600);
1361 TPad* pleft=
new TPad(
"left_panel",
"Left Panel", 0.0, 0.0, 0.49, 0.99);
1362 TPad* pcent=
new TPad(
"central_up_panel",
"Central Panel", 0.01, 0.00, 0.99, 0.99);
1363 TPad* pright=
new TPad(
"right_panel",
"Right Panel", 0.51, 0.0, 0.99, 0.99);
1366 if (subDet==1 ||subDet==3 ||subDet==5){
1370 gPad->SetRightMargin(0.15);
1374 hetaphi->SetStats(0);
1375 if (subDet==
TPBid||subDet==
TIBid||subDet==
TOBid)hetaphi->Draw(
"COLZtext");
1376 if (plotAlignablePos) gretaphi->Draw(
"P");
1377 gr_empty->Draw(
"P");
1380 binfile <<
"--> Layer #" << layerindex << endl;
1381 binfile <<
"Eta Binning: " << flush;
1382 for (
int h=1;
h<=hetaphi->GetNbinsX();
h++){
1383 binfile << hetaphi->GetXaxis()->GetBinLowEdge(
h) <<
"\t";
1384 if (
h==hetaphi->GetNbinsX()) binfile << hetaphi->GetXaxis()->GetBinLowEdge(
h)+hetaphi->GetXaxis()->GetBinWidth(
h);
1387 binfile <<
"Phi Binning: " << flush;
1388 for (
int h=1;
h<=hetaphi->GetNbinsY();
h++){
1389 binfile << hetaphi->GetYaxis()->GetBinLowEdge(
h) <<
"\t";
1390 if (
h==hetaphi->GetNbinsX()) binfile << hetaphi->GetYaxis()->GetBinLowEdge(
h)+hetaphi->GetYaxis()->GetBinWidth(
h);
1403 gPad->SetRightMargin(0.15);
1404 char selEC_str[192], varEC_str[128];
1406 if (subDet ==
TPBid){ radlimit=45.0; }
1407 else if (subDet ==
TPEid){ radlimit=45.0; }
1408 else if (subDet ==
TIBid){ radlimit=70.0; }
1409 else if (subDet ==
TIDid){ radlimit=70.0; }
1410 else if (subDet ==
TOBid){ radlimit=130.0; }
1411 else if (subDet ==
TECid){ radlimit=130.0; }
1412 else { radlimit=0.0; }
1414 sprintf(varEC_str,
"Ypos:Xpos>>hxy_negz(30,%f,%f)", -radlimit, radlimit);
1415 sprintf(selEC_str,
"Nhit*(%s&&%s)", selECneg_str, commonsense_str);
1416 cout << selEC_str << endl;
1417 int selentriesECneg=talignable->Draw(varEC_str, selEC_str,
"goff");
1418 if (selentriesECneg>0){
1419 TH2F* hxy_negz=(TH2F*)gDirectory->Get(
"hxy_negz");
1420 hxy_negz->GetXaxis()->SetRangeUser(-radlimit, radlimit);
1421 hxy_negz->GetYaxis()->SetRangeUser(-radlimit, radlimit);
1422 char histoname_negz[32];
1423 sprintf(histoname_negz,
"%s (-Z)", histoname);
1424 hxy_negz->SetStats(0);
1425 hxy_negz->SetTitle(histoname_negz);
1426 hxy_negz->SetXTitle(
"X (cm)");
1427 hxy_negz->SetYTitle(
"Y (cm)");
1428 hxy_negz->Draw(
"COLZ");
1431 cout <<
"WARNING !!!! No hits on this layer ! not plotting (-Z) !" << endl;
1436 cout <<
"PAD 3" << endl;
1438 gPad->SetRightMargin(0.15);
1439 sprintf(selEC_str,
"Nhit*(%s&&%s)", selECpos_str, commonsense_str);
1441 cout <<
"(2)" << selEC_str << endl;
1442 sprintf(varEC_str,
"Ypos:Xpos>>hxy_posz(30,%f,%f)", -radlimit, radlimit);
1443 int selentriesECpos=talignable->Draw(varEC_str, selEC_str,
"goff");
1444 if (selentriesECpos>0){
1445 TH2F* hxy_posz=(TH2F*)gDirectory->Get(
"hxy_posz");
1446 char histoname_posz[32];
1447 hxy_posz->GetXaxis()->SetRangeUser(-radlimit, radlimit);
1448 hxy_posz->GetYaxis()->SetRangeUser(-radlimit, radlimit);
1449 sprintf(histoname_posz,
"%s (+Z)", histoname);
1450 hxy_posz->SetStats(0);
1451 hxy_posz->SetTitle(histoname_posz);
1452 hxy_posz->SetXTitle(
"X (cm)");
1453 hxy_posz->SetYTitle(
"Y (cm)");
1454 hxy_posz->Draw(
"COLZ");
1457 cout <<
"WARNING !!!! No hits on this layer ! not plotting (+Z) !" << endl;
1464 cout <<
"******* " << typetag << endl;
1465 char psnamefinal[600];
1467 if (layerindex==1) sprintf(psnamefinal,
"%s(", psname);
1468 else if (layerindex==maxLayers) sprintf(psnamefinal,
"%s)", psname);
1469 else sprintf(psnamefinal,
"%s", psname);
1471 cout <<
"Saving in " << psnamefinal << endl;
1472 if (subDet==1 ||subDet==3 ||subDet==5)c_barrels->SaveAs(psnamefinal);
1473 else c_endcaps->SaveAs(psnamefinal);
1475 if (subDet==1 ||subDet==3 ||subDet==5)
delete c_barrels;
1476 else delete c_endcaps;
1483 cout <<
"Finished " << maxLayers <<
" of the " << typetag << endl;
1501 if (startbin<0)startbin=1;
1502 if (endbin<0)endbin=h1->GetNbinsX();
1504 int prevbin=startbin;
1506 while (bin<=endbin){
1508 float bincont=h1->GetBinContent(bin);
1509 float prevbincont=h1->GetBinContent(prevbin);
1512 if (bincont>=prevbincont){
1521 peaklist[Npeaks]=h1->GetBinCenter(prevbin);
1526 if (Npeaks>=maxNpeaks){
1545 fin.open(filename.Data(),
ios::in);
1546 if (fin.is_open()) flag=
true;
1569 cout <<
"Output file already exists!" << endl;
1578 bool rise1=
false, rise2=
false, rise3=
false;
1579 int totbins=h->GetNbinsX();
1584 for (i=1; i<=totbins-3; i++){
1585 double cont1 = h->GetBinContent(i);
1586 if (h->GetBinContent(i+1)>cont1)rise1=
true;
1588 if (h->GetBinContent(i+2)>h->GetBinContent(i+1))rise2=
true;
1590 if (h->GetBinContent(i+3)>h->GetBinContent(i+2)){
uint16_t *__restrict__ id
const double Zmax[kNumberCalorimeter]
bool CheckFileExistence(TString filename)
void plotAlignParams(string ShiftsOrParams, char *plotName="test.png")
TLegend * MakeLegend(double x1=0.1, double y1=0.1, double x2=0.1, double y2=0.1)
constexpr uint32_t maxLayers
int GetSubDet(unsigned int id)
void plotAlignableChiSquare(char *plotName="testchi2.png", float minChi2n=-1.0)
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
int GetBarrelLayer(unsigned int id)
constexpr std::array< uint8_t, layerIndexSize > layer
void CheckFiles(int &ierr)
void dumpAlignedModules(int nhits=0)
void extractSurveyResiduals(int currentPar, int subDet=0)
HIPplots(int IOV, char *path, char *outFile)
bool CheckHistoRising(TH1D *h)
void extractAlignShifts(int i, int minHits=0, int subDet=0)
int GetNIterations(TDirectory *f, char *tag, int startingcounter=0)
void extractAlignableChiSquare(int minHits=0, int subDet=0, int doubleSided=0)
const double Zmin[kNumberCalorimeter]
void extractAlignParams(int i, int minHits=0, int subDet=0, int doubleSided=0)
void plotAlignParamsAtIter(int iter, string ShiftsOrParams, char *plotName="test.png")
static unsigned int const shift
void plotHitMap(char *outpath, int subDet, int minHits=0)
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
#define COLOR_CODE(icolor)
int FindPeaks(TH1F *h1, float *peaklist, const int maxNpeaks, int startbin=-1, int endbin=-1)
void SetPeakThreshold(float newpeakthreshold)