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PlotAlignmentValidation Class Reference

Class PlotAlignmentValidation Class used as the last step for Offline Track Validation tool. The main goal of this class is creating the plots regarding DMRs and Surface Deformations for modules and substructures. More...

#include <PlotAlignmentValidation.h>

Classes

struct  DMRPlotInfo
 

Public Member Functions

THStack * addHists (const TString &selection, const TString &residType="xPrime", TLegend **myLegend=nullptr, bool printModuleIds=false, bool validforphase0=false)
 
void legendOptions (TString options)
 
void loadFileList (const char *inputFile, std::string fileName="", int lineColor=2, int lineStyle=1)
 
int maxNumberOfLayers (int subdetector)
 
int numberOfLayers (int phase, int subdetector)
 
 PlotAlignmentValidation (bool bigtext=false)
 
 PlotAlignmentValidation (const char *inputFile, std::string fileName="", int lineColor=1, int lineStyle=1, bool bigtext=false)
 
void plotChi2 (const char *inputFile)
 
void plotDMR (const std::string &plotVar="medianX", Int_t minHits=50, const std::string &options="plain", const std::string &filterName="")
 
void plotHitMaps ()
 
void plotOutlierModules (const char *outputFileName="OutlierModules.ps", std::string plotVariable="chi2PerDofX", float chi2_cut=10, unsigned int minHits=50)
 
void plotSubDetResiduals (bool plotNormHisto=false, unsigned int subDetId=7)
 
void plotSurfaceShapes (const std::string &options="layers", const std::string &variable="")
 
void residual_by_moduleID (unsigned int moduleid)
 
void setOutputDir (std::string dir)
 
void setTreeBaseDir (std::string dir="TrackerOfflineValidation")
 
float twotailedStudentTTestEqualMean (float t, float v)
 
void useFitForDMRplots (bool usefit=false)
 
 ~PlotAlignmentValidation ()
 

Private Member Functions

std::vector< TH1 * > findmodule (TFile *f, unsigned int moduleid)
 
TObject * findObjectFromCanvas (TCanvas *canv, const char *className, Int_t n=1)
 
TF1 * fitGauss (TH1 *hist, int color)
 
std::string getSelectionForDMRPlot (int minHits, int subDetId, int direction=0, int layer=0)
 
TList * getTreeList ()
 
std::string getVariableForDMRPlot (const std::string &histoname, const std::string &variable, int nbins, double min, double max)
 
void modifySSHistAndLegend (THStack *hs, TLegend *legend)
 
void openSummaryFile ()
 
void plotDMRHistogram (DMRPlotInfo &plotinfo, int direction=0, int layer=0, std::string subdet="")
 
void plotSS (const std::string &options="layers", const std::string &variable="")
 
double resampleTestOfEqualMeans (TH1F *h1, TH1F *h2, int numSamples)
 
double resampleTestOfEqualRMS (TH1F *h1, TH1F *h2, int numSamples)
 
void scaleXaxis (TH1 *hist, Int_t scale)
 
void setCanvasStyle (TCanvas &canv)
 
void setDMRHistStyleAndLegend (TH1F *h, DMRPlotInfo &plotinfo, int direction=0, int layer=0)
 
void setHistStyle (TH1 &hist, const char *titleX, const char *titleY, int color)
 
void setLegendStyle (TLegend &leg)
 
void setNiceStyle ()
 
void setTitleStyle (TNamed &h, const char *titleX, const char *titleY, int subDetId, bool isSurfaceDeformation=false, TString secondline="")
 
void storeHistogramInRootfile (TH1 *hist)
 

Private Attributes

bool bigtext_
 
int fileCounter
 
std::string fileNames [10]
 
bool moreThanOneSource
 
bool openedsummaryfile = false
 
std::string outputDir
 
TString outputFile
 
TFile * rootsummaryfile
 
bool showMean_
 
bool showMeanError_
 
bool showModules_
 
bool showRMS_
 
bool showRMSError_
 
bool showUnderOverFlow_
 
TList * sourcelist
 
std::vector< TkOfflineVariables * > sourceList
 
std::ofstream summaryfile
 
std::string treeBaseDir
 
bool twolines_
 
bool useFit_
 
std::vector< double > vAlignmentUncertainty
 
std::vector< double > vdeltamean
 
std::vector< double > vmean
 
std::vector< double > vmeanerror
 
std::vector< double > vPValueEqualSplitMeans
 
std::vector< double > vPValueMeanEqualIdeal
 
std::vector< double > vPValueRMSEqualIdeal
 
std::vector< double > vrms
 

Static Private Attributes

static const TString summaryfilename = "OfflineValidationSummary"
 

Detailed Description

Class PlotAlignmentValidation Class used as the last step for Offline Track Validation tool. The main goal of this class is creating the plots regarding DMRs and Surface Deformations for modules and substructures.

Definition at line 105 of file PlotAlignmentValidation.h.

Constructor & Destructor Documentation

◆ PlotAlignmentValidation() [1/2]

PlotAlignmentValidation::PlotAlignmentValidation ( bool  bigtext = false)

Definition at line 14 of file PlotAlignmentValidation.cc.

References TkAlStyle::legendoptions, legendOptions(), moreThanOneSource, setOutputDir(), setTreeBaseDir(), sourcelist, and useFit_.

14  : bigtext_(bigtext) {
15  setOutputDir(".");
17  sourcelist = nullptr;
18 
19  moreThanOneSource = false;
20  useFit_ = false;
21 
22  // Force ROOT to use scientific notation even with smaller datasets
23  TGaxis::SetMaxDigits(4);
24  // (This sets a static variable: correct in .eps images but must be set
25  // again manually when viewing the .root files)
26 
27  // Make ROOT calculate histogram statistics using all data,
28  // regardless of displayed range
29  TH1::StatOverflows(kTRUE);
30 
31  //show all information in the legend by default
33 }
void legendOptions(TString options)
static TString legendoptions
Definition: TkAlStyle.h:92
void setOutputDir(std::string dir)
void setTreeBaseDir(std::string dir="TrackerOfflineValidation")

◆ PlotAlignmentValidation() [2/2]

PlotAlignmentValidation::PlotAlignmentValidation ( const char *  inputFile,
std::string  fileName = "",
int  lineColor = 1,
int  lineStyle = 1,
bool  bigtext = false 
)

◆ ~PlotAlignmentValidation()

PlotAlignmentValidation::~PlotAlignmentValidation ( )

Definition at line 49 of file PlotAlignmentValidation.cc.

References sourcelist, and sourceList.

49  {
50  for (std::vector<TkOfflineVariables*>::iterator it = sourceList.begin(); it != sourceList.end(); ++it) {
51  delete (*it);
52  }
53 
54  delete sourcelist;
55 }
std::vector< TkOfflineVariables * > sourceList

Member Function Documentation

◆ addHists()

THStack * PlotAlignmentValidation::addHists ( const TString &  selection,
const TString &  residType = "xPrime",
TLegend **  myLegend = nullptr,
bool  printModuleIds = false,
bool  validforphase0 = false 
)

add hists fulfilling 'selection' on TTree; residType: xPrime,yPrime,xPrimeNorm,yPrimeNorm,x,y,xNorm; if (printModuleIds): cout DetIds

Definition at line 1323 of file PlotAlignmentValidation.cc.

References electrons_cff::bool, gather_cfg::cout, TkOffTreeVariables::entries, f, h, TkOffTreeVariables::histNameLocalX, TkOffTreeVariables::histNameLocalY, TkOffTreeVariables::histNameNormLocalX, TkOffTreeVariables::histNameNormX, TkOffTreeVariables::histNameNormY, TkOffTreeVariables::histNameX, TkOffTreeVariables::histNameY, mps_fire::i, testProducerWithPsetDescEmpty_cfi::i2, TkOffTreeVariables::moduleId, Skims_PA_cff::name, TkOffTreeVariables::profileNameResXvsX, TkOffTreeVariables::profileNameResXvsY, TkOffTreeVariables::profileNameResYvsX, TkOffTreeVariables::profileNameResYvsY, alignCSCRings::s, corrVsCorr::selection, and sourceList.

Referenced by plotSS().

1324  {
1325  enum ResidType {
1326  xPrimeRes,
1327  yPrimeRes,
1328  xPrimeNormRes,
1329  yPrimeNormRes,
1330  xRes,
1331  yRes,
1332  xNormRes, /*yResNorm*/
1333  ResXvsXProfile,
1334  ResXvsYProfile,
1335  ResYvsXProfile,
1336  ResYvsYProfile
1337  };
1338  ResidType rType = xPrimeRes;
1339  if (residType == "xPrime")
1340  rType = xPrimeRes;
1341  else if (residType == "yPrime")
1342  rType = yPrimeRes;
1343  else if (residType == "xPrimeNorm")
1344  rType = xPrimeNormRes;
1345  else if (residType == "yPrimeNorm")
1346  rType = yPrimeNormRes;
1347  else if (residType == "x")
1348  rType = xRes;
1349  else if (residType == "y")
1350  rType = yRes;
1351  else if (residType == "xNorm")
1352  rType = xNormRes;
1353  // else if (residType == "yNorm") rType = yResNorm;
1354  else if (residType == "ResXvsXProfile")
1355  rType = ResXvsXProfile;
1356  else if (residType == "ResYvsXProfile")
1357  rType = ResYvsXProfile;
1358  else if (residType == "ResXvsYProfile")
1359  rType = ResXvsYProfile;
1360  else if (residType == "ResYvsYProfile")
1361  rType = ResYvsYProfile;
1362  else {
1363  std::cout << "PlotAlignmentValidation::addHists: Unknown residual type " << residType << std::endl;
1364  return nullptr;
1365  }
1366 
1367  std::cout << "PlotAlignmentValidation::addHists: using selection " << selection << std::endl;
1368  THStack* retHistoStack = new THStack("hstack", "");
1369  if (myLegend != nullptr)
1370  if (*myLegend == nullptr) {
1371  *myLegend = new TLegend(0.17, 0.80, 0.85, 0.88);
1372  }
1373 
1374  for (std::vector<TkOfflineVariables*>::iterator itSourceFile = sourceList.begin(); itSourceFile != sourceList.end();
1375  ++itSourceFile) {
1376  std::vector<TString> histnames;
1377 
1378  TFile* f = (*itSourceFile)->getFile();
1379  TTree* tree = (*itSourceFile)->getTree();
1380  int myLineColor = (*itSourceFile)->getLineColor();
1381  int myLineStyle = (*itSourceFile)->getLineStyle();
1382  TString myLegendName = (*itSourceFile)->getName();
1383  TH1* h = nullptr; // becomes result
1384  UInt_t nEmpty = 0; // selected, but empty hists
1385  Long64_t nentries = tree->GetEntriesFast();
1386  if (!f || !tree) {
1387  std::cout << "PlotAlignmentValidation::addHists: no tree or no file" << std::endl;
1388  return nullptr;
1389  }
1390 
1391  bool histnamesfilled = false;
1392  int phase = (bool)(f->Get("TrackerOfflineValidation/Pixel/P1PXBBarrel_1"));
1393  if (residType.Contains("Res") && residType.Contains("Profile")) {
1394  TString basename = TString(residType)
1395  .ReplaceAll("Res", "p_res")
1396  .ReplaceAll("vs", "")
1397  .ReplaceAll("Profile", "_"); //gives e.g.: p_resXX_
1398  if (selection == "subDetId==1") {
1399  if (phase == 1)
1400  histnames.push_back(TString(basename) += "P1PXBBarrel_1");
1401  else
1402  histnames.push_back(TString(basename) += "TPBBarrel_1");
1403  histnamesfilled = true;
1404  } else if (selection == "subDetId==2") {
1405  if (phase == 1) {
1406  histnames.push_back(TString(basename) += "P1PXECEndcap_2");
1407  histnames.push_back(TString(basename) += "P1PXECEndcap_3");
1408  } else {
1409  histnames.push_back(TString(basename) += "TPEEndcap_2");
1410  histnames.push_back(TString(basename) += "TPEEndcap_3");
1411  }
1412  histnamesfilled = true;
1413  } else if (selection == "subDetId==3") {
1414  histnames.push_back(TString(basename) += "TIBBarrel_1");
1415  histnamesfilled = true;
1416  } else if (selection == "subDetId==4") {
1417  histnames.push_back(TString(basename) += "TIDEndcap_2");
1418  histnames.push_back(TString(basename) += "TIDEndcap_3");
1419  histnamesfilled = true;
1420  } else if (selection == "subDetId==5") {
1421  histnames.push_back(TString(basename) += "TOBBarrel_4");
1422  histnamesfilled = true;
1423  } else if (selection == "subDetId==6") { //whole TEC - doesn't happen by default but easy enough to account for
1424  histnames.push_back(TString(basename) += "TECEndcap_5");
1425  histnames.push_back(TString(basename) += "TECEndcap_6");
1426  histnamesfilled = true;
1427  } else if (selection == "subDetId==6 && ring <= 4") {
1428  //There are multiple with the same name and all are needed, so give the full path. For these TFile::Get is used later instead of FindKeyAny.
1429  for (int iEndcap = 5; iEndcap <= 6; iEndcap++)
1430  for (int iDisk = 1; iDisk <= 9; iDisk++)
1431  for (int iSide = 1; iSide <= 2; iSide++)
1432  for (int iPetal = 1; iPetal <= 8; iPetal++)
1433  for (int iRing = 1; iRing <= 4 - (iDisk >= 4) - (iDisk >= 7) - (iDisk >= 9); iRing++)
1434  //in the higher disks, the inner rings go away. But the numbering in the file structure removes the higher numbers
1435  // so the numbers there do not correspond to the actual ring numbers
1436  {
1437  std::stringstream s;
1438  s << "TrackerOfflineValidation/Strip/TECEndcap_" << iEndcap << "/TECDisk_" << iDisk << "/TECSide_"
1439  << iSide << "/TECPetal_" << iPetal << "/" << basename << "TECRing_" << iRing;
1440  histnames.push_back(TString(s.str()));
1441  }
1442  histnamesfilled = true;
1443  } else if (selection == "subDetId==6 && ring > 4") {
1444  //There are multiple with the same name and all are needed, so give the full path. For these TFile::Get is used later instead of FindKeyAny.
1445  for (int iEndcap = 5; iEndcap <= 6; iEndcap++)
1446  for (int iDisk = 1; iDisk <= 9; iDisk++)
1447  for (int iSide = 1; iSide <= 2; iSide++)
1448  for (int iPetal = 1; iPetal <= 8; iPetal++)
1449  for (int iRing = 5 - (iDisk >= 4) - (iDisk >= 7) - (iDisk >= 9);
1450  iRing <= 7 - (iDisk >= 4) - (iDisk >= 7) - (iDisk >= 9);
1451  iRing++)
1452  //in the higher disks, the inner rings go away. But the numbering in the file structure removes the higher numbers
1453  // so the numbers there do not correspond to the actual ring numbers
1454  {
1455  std::stringstream s;
1456  s << "TrackerOfflineValidation/Strip/TECEndcap_" << iEndcap << "/TECDisk_" << iDisk << "/TECSide_"
1457  << iSide << "/TECPetal_" << iPetal << "/" << basename << "TECRing_" << iRing;
1458  histnames.push_back(TString(s.str()));
1459  }
1460  histnamesfilled = true;
1461  }
1462  }
1463 
1464  Long64_t nSel = 0;
1465  if (histnamesfilled && !histnames.empty()) {
1466  nSel = (Long64_t)histnames.size();
1467  }
1468  if (!histnamesfilled) {
1469  // first loop on tree to find out which entries (i.e. modules) fulfill the selection
1470  // 'Entry$' gives the entry number in the tree
1471  nSel = tree->Draw("Entry$", selection, "goff");
1472  if (nSel == -1)
1473  return nullptr; // error in selection
1474  if (nSel == 0) {
1475  std::cout << "PlotAlignmentValidation::addHists: no selected module." << std::endl;
1476  return nullptr;
1477  }
1478  // copy entry numbers that fulfil the selection
1479  const std::vector<double> selected(tree->GetV1(), tree->GetV1() + nSel);
1480 
1481  std::vector<double>::const_iterator iterEnt = selected.begin();
1482 
1483  // second loop on tree:
1484  // for each selected entry get the hist from the file and merge
1485  TkOffTreeVariables* treeMem = nullptr; // ROOT will initialise
1486  tree->SetBranchAddress("TkOffTreeVariables", &treeMem);
1487  for (Long64_t i = 0; i < nentries; i++) {
1488  if (i < *iterEnt - 0.1 // smaller index (with tolerance): skip
1489  || iterEnt == selected.end()) { // at the end: skip
1490  continue;
1491  } else if (TMath::Abs(i - *iterEnt) < 0.11) {
1492  ++iterEnt; // take this entry!
1493  } else
1494  std::cout << "Must not happen: " << i << " " << *iterEnt << std::endl;
1495 
1496  tree->GetEntry(i);
1497  if (printModuleIds) {
1498  std::cout << treeMem->moduleId << ": " << treeMem->entries << " entries" << std::endl;
1499  }
1500  if (treeMem->entries <= 0) { // little speed up: skip empty hists
1501  ++nEmpty;
1502  continue;
1503  }
1504  TString hName;
1505  switch (rType) {
1506  case xPrimeRes:
1507  hName = treeMem->histNameX.c_str();
1508  break;
1509  case yPrimeRes:
1510  hName = treeMem->histNameY.c_str();
1511  break;
1512  case xPrimeNormRes:
1513  hName = treeMem->histNameNormX.c_str();
1514  break;
1515  case yPrimeNormRes:
1516  hName = treeMem->histNameNormY.c_str();
1517  break;
1518  case xRes:
1519  hName = treeMem->histNameLocalX.c_str();
1520  break;
1521  case yRes:
1522  hName = treeMem->histNameLocalY.c_str();
1523  break;
1524  case xNormRes:
1525  hName = treeMem->histNameNormLocalX.c_str();
1526  break;
1527  /*case yResNorm: hName = treeMem->histNameNormLocalY.c_str(); break;*/
1528  case ResXvsXProfile:
1529  hName = treeMem->profileNameResXvsX.c_str();
1530  break;
1531  case ResXvsYProfile:
1532  hName = treeMem->profileNameResXvsY.c_str();
1533  break;
1534  case ResYvsXProfile:
1535  hName = treeMem->profileNameResYvsX.c_str();
1536  break;
1537  case ResYvsYProfile:
1538  hName = treeMem->profileNameResYvsY.c_str();
1539  break;
1540  }
1541  histnames.push_back(hName);
1542  }
1543  }
1544 
1545  for (std::vector<TString>::iterator ithistname = histnames.begin(); ithistname != histnames.end(); ++ithistname) {
1546  if (phase == 0 && !validforphase0)
1547  break;
1548  TH1* newHist;
1549  if (ithistname->Contains("/")) {
1550  newHist = (TH1*)f->Get(*ithistname);
1551  } else {
1552  TKey* histKey = f->FindKeyAny(*ithistname);
1553  newHist = (histKey ? static_cast<TH1*>(histKey->ReadObj()) : nullptr);
1554  }
1555  if (!newHist) {
1556  std::cout << "Hist " << *ithistname << " not found in file, break loop." << std::endl;
1557  break;
1558  }
1559  if (newHist->GetEntries() == 0) {
1560  nEmpty++;
1561  continue;
1562  }
1563  newHist->SetLineColor(myLineColor);
1564  newHist->SetLineStyle(myLineStyle);
1565  if (!h) { // first hist: clone, but rename keeping only first part of name
1566  TString name(newHist->GetName());
1567  Ssiz_t pos_ = 0;
1568  for (UInt_t i2 = 0; i2 < 3; ++i2)
1569  pos_ = name.Index("_", pos_ + 1);
1570  name = name(0, pos_); // only up to three '_'
1571  h = static_cast<TH1*>(newHist->Clone("summed_" + name));
1572  // TString myTitle = Form("%s: %lld modules", selection, nSel);
1573  // h->SetTitle( myTitle );
1574  } else { // otherwise just add
1575  h->Add(newHist);
1576  }
1577  delete newHist;
1578  }
1579 
1580  std::cout << "PlotAlignmentValidation::addHists"
1581  << "Result is merged from " << nSel - nEmpty << " hists, " << nEmpty << " hists were empty." << std::endl;
1582 
1583  if (nSel - nEmpty == 0)
1584  continue;
1585 
1586  if (myLegend != nullptr)
1587  (*myLegend)->AddEntry(h, myLegendName, "L");
1588 
1589  retHistoStack->Add(h);
1590  }
1591 
1592  return retHistoStack;
1593 }
container to hold data to be written into TTree
std::string profileNameResXvsX
selection
main part
Definition: corrVsCorr.py:100
std::string profileNameResYvsX
double f[11][100]
std::string histNameLocalY
std::string histNameNormLocalX
std::string histNameLocalX
std::vector< TkOfflineVariables * > sourceList
std::string profileNameResXvsY
Definition: tree.py:1
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4
std::string profileNameResYvsY

◆ findmodule()

std::vector< TH1 * > PlotAlignmentValidation::findmodule ( TFile *  f,
unsigned int  moduleid 
)
private

Definition at line 2310 of file PlotAlignmentValidation.cc.

References f, h, mps_fire::i, submitPVValidationJobs::t, and L1TEGammaDiff_cfi::variables.

Referenced by residual_by_moduleID().

2310  {
2311  //TFile *f = TFile::Open(filename, "READ");
2312  TString histnamex;
2313  TString histnamey;
2314  //read necessary branch/folder
2315  auto t = (TTree*)f->Get("TrackerOfflineValidation/TkOffVal");
2316 
2317  TkOffTreeVariables* variables = nullptr;
2318  t->SetBranchAddress("TkOffTreeVariables", &variables);
2319  unsigned int number_of_entries = t->GetEntries();
2320  for (unsigned int i = 0; i < number_of_entries; i++) {
2321  t->GetEntry(i);
2322  if (variables->moduleId == moduleid) {
2323  histnamex = variables->histNameX;
2324  histnamey = variables->histNameY;
2325  break;
2326  }
2327  }
2328 
2329  std::vector<TH1*> h;
2330 
2331  auto h1 = (TH1*)f->FindObjectAny(histnamex);
2332  auto h2 = (TH1*)f->FindObjectAny(histnamey);
2333 
2334  h1->SetDirectory(nullptr);
2335  h2->SetDirectory(nullptr);
2336 
2337  h.push_back(h1);
2338  h.push_back(h2);
2339 
2340  return h;
2341 }
container to hold data to be written into TTree
double f[11][100]
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

◆ findObjectFromCanvas()

TObject * PlotAlignmentValidation::findObjectFromCanvas ( TCanvas *  canv,
const char *  className,
Int_t  n = 1 
)
private

Definition at line 1648 of file PlotAlignmentValidation.cc.

References className(), newFWLiteAna::found, dqmiodumpmetadata::n, GetRecoTauVFromDQM_MC_cff::next, and getGTfromDQMFile::obj.

1648  {
1649  // Finds the n-th instance of the given class from the canvas
1650  TIter next(canv->GetListOfPrimitives());
1651  TObject* obj = nullptr;
1652  Int_t found = 0;
1653  while ((obj = next())) {
1654  if (strncmp(obj->ClassName(), className, 10) == 0) {
1655  if (++found == n)
1656  return obj;
1657  }
1658  }
1659 
1660  return nullptr;
1661 }
std::string className(const T &t)
Definition: ClassName.h:31

◆ fitGauss()

TF1 * PlotAlignmentValidation::fitGauss ( TH1 *  hist,
int  color 
)
private

void plotBoxOverview(TCanvas &c1, TList &treeList,std::string plot_Var1a,std::string plot_Var1b, std::string plot_Var2, Int_t filenumber,Int_t minHits); void plot1DDetailsSubDet(TCanvas &c1, TList &treeList, std::string plot_Var1a,std::string plot_Var1b, std::string plot_Var2, Int_t minHits); void plot1DDetailsBarrelLayer(TCanvas &c1, TList &treeList, std::string plot_Var1a,std::string plot_Var1b, Int_t minHits); void plot1DDetailsDiskWheel(TCanvas &c1, TList &treelist, std::string plot_Var1a,std::string plot_Var1b, Int_t minHits);

Definition at line 1599 of file PlotAlignmentValidation.cc.

References EcalMonitorTask_cff::func, compareTotals::hist, SiStripPI::mean, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by setDMRHistStyleAndLegend().

1599  {
1600  //1. fits a Gauss function to the inner range of abs(2 rms)
1601  //2. repeates the Gauss fit in a 2 sigma range around mean of first fit
1602  //returns mean and sigma from fit in micron
1603  if (!hist || hist->GetEntries() < 20)
1604  return nullptr;
1605 
1606  float mean = hist->GetMean();
1607  float sigma = hist->GetRMS();
1608  std::string functionname = "gaussian_";
1609  functionname += hist->GetName();
1610  TF1* func = new TF1(functionname.c_str(), "gaus", mean - 2. * sigma, mean + 2. * sigma);
1611 
1612  func->SetLineColor(color);
1613  func->SetLineStyle(2);
1614  if (0 == hist->Fit(func, "QNR")) { // N: do not blow up file by storing fit!
1615  mean = func->GetParameter(1);
1616  sigma = func->GetParameter(2);
1617  // second fit: three sigma of first fit around mean of first fit
1618  func->SetRange(mean - 3. * sigma, mean + 3. * sigma);
1619  // I: integral gives more correct results if binning is too wide
1620  // L: Likelihood can treat empty bins correctly (if hist not weighted...)
1621  if (0 == hist->Fit(func, "Q0ILR")) {
1622  if (hist->GetFunction(func->GetName())) { // Take care that it is later on drawn:
1623  //hist->GetFunction(func->GetName())->ResetBit(TF1::kNotDraw);
1624  }
1625  }
1626  }
1627  return func;
1628 }

◆ getSelectionForDMRPlot()

std::string PlotAlignmentValidation::getSelectionForDMRPlot ( int  minHits,
int  subDetId,
int  direction = 0,
int  layer = 0 
)
private

Definition at line 1794 of file PlotAlignmentValidation.cc.

References pixelTopology::layer, reco_skim_cfg_mod::minHits, and GeomDetEnumerators::subDetId.

Referenced by plotDMRHistogram().

1794  {
1795  std::ostringstream builder;
1796  builder << "entries >= " << minHits;
1797  builder << " && subDetId == " << subDetId;
1798  if (direction != 0) {
1799  if (subDetId == 2) { // FPIX is split by zDirection
1800  builder << " && zDirection == " << direction;
1801  } else {
1802  builder << " && rDirection == " << direction;
1803  }
1804  }
1805  if (layer > 0) {
1806  builder << " && layer == " << layer;
1807  }
1808  return builder.str();
1809 }
constexpr unsigned int subDetId[21]
constexpr std::array< uint8_t, layerIndexSize< TrackerTraits > > layer

◆ getTreeList()

TList * PlotAlignmentValidation::getTreeList ( )
private

Definition at line 442 of file PlotAlignmentValidation.cc.

References gather_cfg::cout, ztail::d, moreThanOneSource, sourcelist, treeBaseDir, and mps_merge::treeList.

442  {
443  TList* treeList = new TList();
444  TFile* first_source = (TFile*)sourcelist->First();
445  std::cout << first_source->GetName() << std::endl;
446  TDirectoryFile* d = (TDirectoryFile*)first_source->Get(treeBaseDir.c_str());
447  treeList->Add((TTree*)(*d).Get("TkOffVal"));
448 
449  if (moreThanOneSource == true) {
450  TFile* nextsource = (TFile*)sourcelist->After(first_source);
451  while (nextsource) {
452  std::cout << nextsource->GetName() << std::endl;
453  d = (TDirectoryFile*)nextsource->Get("TrackerOfflineValidation");
454 
455  treeList->Add((TTree*)(*d).Get("TkOffVal"));
456 
457  nextsource = (TFile*)sourcelist->After(nextsource);
458  }
459  }
460  return treeList;
461 }
d
Definition: ztail.py:151
string treeList
Definition: mps_merge.py:107

◆ getVariableForDMRPlot()

std::string PlotAlignmentValidation::getVariableForDMRPlot ( const std::string &  histoname,
const std::string &  variable,
int  nbins,
double  min,
double  max 
)
private

Definition at line 1811 of file PlotAlignmentValidation.cc.

References SiStripPI::max, SiStripPI::min, LaserClient_cfi::nbins, and taus_updatedMVAIds_cff::variable.

Referenced by plotDMRHistogram().

1812  {
1813  std::ostringstream builder;
1814  builder << variable << ">>" << histoname << "(" << nbins << "," << min << "," << max << ")";
1815  return builder.str();
1816 }

◆ legendOptions()

void PlotAlignmentValidation::legendOptions ( TString  options)

Definition at line 162 of file PlotAlignmentValidation.cc.

References bigtext_, showMean_, showMeanError_, showModules_, showRMS_, showRMSError_, showUnderOverFlow_, and twolines_.

Referenced by PlotAlignmentValidation().

162  {
163  showMean_ = false;
164  showRMS_ = false;
165  showMeanError_ = false;
166  showRMSError_ = false;
167  showModules_ = false;
168  showUnderOverFlow_ = false;
169  options.ReplaceAll(" ", "").ToLower();
170  if (options.Contains("mean") || options.Contains("all"))
171  showMean_ = true;
172  if (options.Contains("meanerror") || options.Contains("all"))
173  showMeanError_ = true;
174  if (options.Contains("rms") || options.Contains("all"))
175  showRMS_ = true;
176  if (options.Contains("rmserror") || options.Contains("all"))
177  showRMSError_ = true;
178  if (options.Contains("modules") || options.Contains("all"))
179  showModules_ = true;
180  if (options.Contains("under") || options.Contains("over") || options.Contains("outside") || options.Contains("all"))
181  showUnderOverFlow_ = true;
182 
184 }

◆ loadFileList()

void PlotAlignmentValidation::loadFileList ( const char *  inputFile,
std::string  fileName = "",
int  lineColor = 2,
int  lineStyle = 1 
)

◆ maxNumberOfLayers()

int PlotAlignmentValidation::maxNumberOfLayers ( int  subdetector)

Definition at line 150 of file PlotAlignmentValidation.cc.

References SiStripPI::max, numberOfLayers(), mps_fire::result, sourceList, and subdetector.

Referenced by plotDMR(), and plotSS().

150  {
151  int result = 0;
152  for (auto it = sourceList.begin(); it != sourceList.end(); ++it) {
153  result = std::max(result, numberOfLayers((*it)->getPhase(), subdetector));
154  }
155  return result;
156 }
TString subdetector
std::vector< TkOfflineVariables * > sourceList
int numberOfLayers(int phase, int subdetector)

◆ modifySSHistAndLegend()

void PlotAlignmentValidation::modifySSHistAndLegend ( THStack *  hs,
TLegend *  legend 
)
private

Definition at line 2159 of file PlotAlignmentValidation.cc.

References bigtext_, DMR_cfg::cerr, gather_cfg::cout, mps_splice::entry, alignBH_cfg::fixed, compareTotals::legend, TkAlStyle::legendheader, GetRecoTauVFromDQM_MC_cff::next, pfClustersFromCombinedCaloHF_cfi::scale, dqmMemoryStats::stats, and TkAlStyle::textSize.

Referenced by plotSS().

2159  {
2160  // Add mean-y-values to the legend and scale the histograms.
2161 
2162  Double_t legendY = 0.80;
2163  bool hasheader = (TkAlStyle::legendheader != "");
2164  if (hasheader)
2165  legend->SetHeader(TkAlStyle::legendheader);
2166  legend->SetFillStyle(0);
2167  int legendsize = hs->GetHists()->GetSize() + hasheader;
2168 
2169  if (legendsize > 3)
2170  legendY -= 0.01 * (legendsize - 3);
2171  if (bigtext_) {
2172  legendY -= 0.05;
2173  }
2174  if (legendY < 0.6) {
2175  std::cerr << "Warning: Huge legend!" << std::endl;
2176  legendY = 0.6;
2177  }
2178  legend->SetY1(legendY);
2179  if (bigtext_)
2180  legend->SetTextSize(TkAlStyle::textSize);
2181 
2182  // Loop over all profiles
2183  TProfile* prof = nullptr;
2184  TIter next(hs->GetHists());
2185  Int_t index = hasheader; //if hasheader, first entry is the header itself
2186  while ((prof = (TProfile*)next())) {
2187  //Scaling: from cm to um
2188  Double_t scale = 10000;
2189  prof->Scale(scale);
2190 
2191  Double_t stats[6] = {0};
2192  prof->GetStats(stats);
2193 
2194  std::ostringstream legendtext;
2195  legendtext.precision(3);
2196  legendtext << std::fixed; // to always show 3 decimals
2197  legendtext << ": y mean = " << stats[4] / stats[0] * scale << " #mum";
2198 
2199  TLegendEntry* entry = (TLegendEntry*)legend->GetListOfPrimitives()->At(index);
2200  if (entry == nullptr)
2201  std::cout << "PlotAlignmentValidation::PlotAlignmentValidation::modifySSLegend: Bad legend!" << std::endl;
2202  else
2203  entry->SetLabel((entry->GetLabel() + legendtext.str()).c_str());
2204  index++;
2205  }
2206 
2207  // Make some room for the legend
2208  hs->SetMaximum(hs->GetMaximum("nostack PE") * 1.3);
2209 }
static double textSize
Definition: TkAlStyle.h:93
static TString legendheader
Definition: TkAlStyle.h:91

◆ numberOfLayers()

int PlotAlignmentValidation::numberOfLayers ( int  phase,
int  subdetector 
)

Definition at line 104 of file PlotAlignmentValidation.cc.

References cms::cuda::assert(), and subdetector.

Referenced by maxNumberOfLayers(), plotDMR(), and plotSS().

104  {
105  switch (phase) {
106  case 0:
107  switch (subdetector) {
108  case 1:
109  return 3;
110  case 2:
111  return 2;
112  case 3:
113  return 4;
114  case 4:
115  return 3;
116  case 5:
117  return 6;
118  case 6:
119  return 9;
120  default:
121  assert(false);
122  }
123  case 1:
124  switch (subdetector) {
125  case 1:
126  return 4;
127  case 2:
128  return 3;
129  case 3:
130  return 4;
131  case 4:
132  return 3;
133  case 5:
134  return 6;
135  case 6:
136  return 9;
137  default:
138  assert(false);
139  }
140  default:
141  assert(false);
142  }
143  return 0;
144 }
TString subdetector
assert(be >=bs)

◆ openSummaryFile()

void PlotAlignmentValidation::openSummaryFile ( )
private

Definition at line 63 of file PlotAlignmentValidation.cc.

References openedsummaryfile, outputDir, rootsummaryfile, sourceList, summaryfile, and summaryfilename.

Referenced by plotChi2(), and plotDMR().

63  {
64  if (!openedsummaryfile) {
65  openedsummaryfile = true;
66  summaryfile.open(outputDir + "/" + summaryfilename + ".txt");
67  //Rootfile introduced to store the DMR histograms
68  rootsummaryfile = new TFile(outputDir + "/" + summaryfilename + ".root", "RECREATE");
69 
70  for (auto vars : sourceList) {
71  summaryfile << "\t" << vars->getName();
72  }
73  summaryfile << "\tformat={}\n";
74  } else {
75  //Check for the rootfile to be open, and open it in case it is not already.
76  if (!rootsummaryfile->IsOpen())
77  rootsummaryfile->Open(outputDir + "/" + summaryfilename + ".root", "UPDATE");
78  }
79 }
static const TString summaryfilename
std::vector< TkOfflineVariables * > sourceList
vars
Definition: DeepTauId.cc:30

◆ plotChi2()

void PlotAlignmentValidation::plotChi2 ( const char *  inputFile)

plotSurfaceShapes: options="split","layers"/"layer","subdet"

Definition at line 1228 of file PlotAlignmentValidation.cc.

References cms::cuda::assert(), gather_cfg::cout, mps_splice::entry, h, makeListRunsInFiles::inputFile, compareTotals::legend, openSummaryFile(), outputDir, funct::primitive(), sourceList, summaryfile, and runGCPTkAlMap::title.

1228  {
1229  // Opens the file (it should be OfflineValidation(Parallel)_result.root)
1230  // and reads and plots the norm_chi^2 and h_chi2Prob -distributions.
1231 
1232  Bool_t errorflag = kFALSE;
1233  TFile* fi1 = TFile::Open(inputFile, "read");
1234  if (fi1 != nullptr) {
1235  if (fi1->GetDirectory("TrackerOfflineValidation/GlobalTrackVariables") == nullptr) {
1236  errorflag = kTRUE;
1237  }
1238  } else {
1239  errorflag = kTRUE;
1240  }
1241  if (errorflag) {
1242  std::cout << "PlotAlignmentValidation::plotChi2: Can't find GlobalTrackVariables given file,"
1243  << " no chi^2-plots produced" << std::endl;
1244  return;
1245  }
1246 
1247  auto normchi = fi1->Get<TCanvas>("TrackerOfflineValidation/GlobalTrackVariables/h_normchi2");
1248  // please remove following line once bug is fixed with ROOT Version: >6.27/01
1249  normchi->GetFrame()->ResetBit(kCanDelete);
1250 
1251  auto chiprob = fi1->Get<TCanvas>("TrackerOfflineValidation/GlobalTrackVariables/h_chi2Prob");
1252  // please remove following line once bug is fixed with ROOT Version: >6.27/01
1253  chiprob->GetFrame()->ResetBit(kCanDelete);
1254 
1255  if (normchi == nullptr || chiprob == nullptr) {
1256  errorflag = kTRUE;
1257  }
1258  if (errorflag) {
1259  std::cout << "PlotAlignmentValidation::plotChi2: Can't find data from given file,"
1260  << " no chi^2-plots produced" << std::endl;
1261  return;
1262  }
1263 
1264  TLegend* legend = nullptr;
1265  for (auto primitive : *normchi->GetListOfPrimitives()) {
1266  legend = dynamic_cast<TLegend*>(primitive);
1267  if (legend)
1268  break;
1269  }
1270  if (legend) {
1271  openSummaryFile();
1272  summaryfile << "ntracks";
1273  for (auto alignment : sourceList) {
1274  summaryfile << "\t";
1275  TString title = alignment->getName();
1276  int color = alignment->getLineColor();
1277  int style = alignment->getLineStyle();
1278  bool foundit = false;
1279  for (auto entry : *legend->GetListOfPrimitives()) {
1280  TLegendEntry* legendentry = dynamic_cast<TLegendEntry*>(entry);
1281  assert(legendentry);
1282  TH1* h = dynamic_cast<TH1*>(legendentry->GetObject());
1283  if (!h)
1284  continue;
1285  if (legendentry->GetLabel() == title && h->GetLineColor() == color && h->GetLineStyle() == style) {
1286  foundit = true;
1287  summaryfile << h->GetEntries();
1288  break;
1289  }
1290  }
1291  if (!foundit) {
1292  summaryfile << 0;
1293  }
1294  }
1295  summaryfile << "\n";
1296  }
1297 
1298  chiprob->Draw();
1299  normchi->Draw();
1300 
1301  // PNG,EPS,PDF files
1302  normchi->Print((outputDir + "/h_normchi2.png").c_str());
1303  chiprob->Print((outputDir + "/h_chi2Prob.png").c_str());
1304  normchi->Print((outputDir + "/h_normchi2.eps").c_str());
1305  chiprob->Print((outputDir + "/h_chi2Prob.eps").c_str());
1306  normchi->Print((outputDir + "/h_normchi2.pdf").c_str());
1307  chiprob->Print((outputDir + "/h_chi2Prob.pdf").c_str());
1308 
1309  // ROOT files
1310  TFile fi2((outputDir + "/h_normchi2.root").c_str(), "recreate");
1311  normchi->Write();
1312  fi2.Close();
1313 
1314  TFile fi3((outputDir + "/h_chi2Prob.root").c_str(), "recreate");
1315  chiprob->Write();
1316  fi3.Close();
1317 
1318  fi1->Close();
1319  delete fi1;
1320 }
assert(be >=bs)
Primitive< F, X >::type primitive(const F &f)
Definition: Primitive.h:41
Definition: style.py:1
std::vector< TkOfflineVariables * > sourceList
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

◆ plotDMR()

void PlotAlignmentValidation::plotDMR ( const std::string &  plotVar = "medianX",
Int_t  minHits = 50,
const std::string &  options = "plain",
const std::string &  filterName = "" 
)

plotVar=mean,meanX,meanY,median,rms etc., comma-separated list can be given; minHits=the minimum hits needed for module to appear in plot; options="plain" for regular DMR, "split" for inwards/outwards split, "layers" for layerwise DMR, "layer=N" for Nth layer, or combination of the previous (e.g. "split layers") filterName=rootfile containing tree with module ids to be skipped in plotting (to be used for averaged plots or in debugging)

plotinfo.plotLayers &&

Definition at line 687 of file PlotAlignmentValidation.cc.

References bigtext_, HltBtagPostValidation_cff::c, DMR_cfg::cerr, f, pdwgDoubleElectron_cfi::filterName, PlotAlignmentValidation::DMRPlotInfo::filterName, PlotAlignmentValidation::DMRPlotInfo::firsthisto, alignBH_cfg::fixed, TkOfflineVariables::getName(), TkOfflineVariables::getPhase(), PlotAlignmentValidation::DMRPlotInfo::h, PlotAlignmentValidation::DMRPlotInfo::h1, PlotAlignmentValidation::DMRPlotInfo::h2, PlotAlignmentValidation::DMRPlotInfo::hstack, mps_fire::i, pixelTopology::layer, PlotAlignmentValidation::DMRPlotInfo::legend, compareTotals::legend, TkAlStyle::legendheader, PlotAlignmentValidation::DMRPlotInfo::max, maxNumberOfLayers(), PlotAlignmentValidation::DMRPlotInfo::maxY, PlotAlignmentValidation::DMRPlotInfo::min, PlotAlignmentValidation::DMRPlotInfo::minHits, reco_skim_cfg_mod::minHits, amptDefaultParameters_cff::mu, dqmiodatasetharvest::nan, PlotAlignmentValidation::DMRPlotInfo::nbins, numberOfLayers(), openSummaryFile(), outputDir, plotDMRHistogram(), PlotAlignmentValidation::DMRPlotInfo::plotLayers, L1TEGammaDiff_cfi::plotName, PlotAlignmentValidation::DMRPlotInfo::plotPlain, PlotAlignmentValidation::DMRPlotInfo::plotSplits, scaleXaxis(), setDMRHistStyleAndLegend(), setHistStyle(), setTitleStyle(), sourceList, AlCaHLTBitMon_QueryRunRegistry::string, PlotAlignmentValidation::DMRPlotInfo::subDetId, summaryfile, TkAlStyle::textSize, twolines_, unit(), vAlignmentUncertainty, taus_updatedMVAIds_cff::variable, PlotAlignmentValidation::DMRPlotInfo::variable, PlotAlignmentValidation::DMRPlotInfo::vars, vdeltamean, vmean, vmeanerror, vPValueEqualSplitMeans, vPValueMeanEqualIdeal, vPValueRMSEqualIdeal, and vrms.

690  {
691  // If several, comma-separated values are given in 'variable',
692  // call plotDMR with each value separately.
693  // If a comma is found, the string is divided to two.
694  // (no space allowed)
695  std::size_t findres = variable.find(',');
696  if (findres != std::string::npos) {
697  std::string substring1 = variable.substr(0, findres);
698  std::string substring2 = variable.substr(findres + 1, std::string::npos);
699  plotDMR(substring1, minHits, options, filterName);
700  plotDMR(substring2, minHits, options, filterName);
701  return;
702  }
703 
704  // Variable name should end with X or Y. If it doesn't, recursively calls plotDMR twice with
705  // X and Y added, respectively
706  if (variable == "mean" || variable == "median" || variable == "meanNorm" || variable == "rms" ||
707  variable == "rmsNorm") {
710  return;
711  }
712 
713  // options:
714  // -plain (default, the whole distribution)
715  // -split (distribution splitted to two)
716  // -layers (plain db for each layer/disc superimposed in one plot)
717  // -layersSeparate (plain db for each layer/disc in separate plots)
718  // -layersSplit (splitted db for each layers/disc in one plot)
719  // -layersSplitSeparate (splitted db, for each layers/disc in separate plots)
720 
721  TRegexp layer_re("layer=[0-9]+");
722  bool plotPlain = false, plotSplits = false, plotLayers = false;
723  int plotLayerN = 0;
724  Ssiz_t index, len;
725  if (options.find("plain") != std::string::npos) {
726  plotPlain = true;
727  }
728  if (options.find("split") != std::string::npos) {
729  plotSplits = true;
730  }
731  if (options.find("layers") != std::string::npos) {
732  plotLayers = true;
733  }
734  if ((index = layer_re.Index(options, &len)) != -1) {
735  if (plotLayers) {
736  std::cerr << "Warning: option 'layers' overrides 'layer=N'" << std::endl;
737  } else {
738  std::string substr = options.substr(index + 6, len - 6);
739  plotLayerN = atoi(substr.c_str());
740  }
741  }
742 
743  // Defaults to plotting only plain plot if empty (or invalid)
744  // option string is given
745  if (!plotPlain && !plotSplits) {
746  plotPlain = true;
747  }
748 
749  // This boolean array tells for which detector modules to plot split DMR plots
750  // They are plotted for BPIX, FPIX, TIB and TOB
751  static bool plotSplitsFor[6] = {true, true, true, false, true, false};
752 
753  DMRPlotInfo plotinfo;
754 
755  gStyle->SetOptStat(0);
756 
757  TCanvas c("canv", "canv");
758 
759  plotinfo.variable = variable;
760  plotinfo.minHits = minHits;
761  plotinfo.plotPlain = plotPlain;
762  plotinfo.plotLayers = plotLayers;
763  plotinfo.filterName = filterName;
764 
765  // width in cm
766  // for DMRS, use 100 bins in range +-10 um, bin width 0.2um
767  // if modified, check also TrackerOfflineValidationSummary_cfi.py and TrackerOfflineValidation_Standalone_cff.py
768  if (variable == "meanX") {
769  plotinfo.nbins = 50;
770  plotinfo.min = -0.001;
771  plotinfo.max = 0.001;
772  } else if (variable == "meanY") {
773  plotinfo.nbins = 50;
774  plotinfo.min = -0.005;
775  plotinfo.max = 0.005;
776  } else if (variable == "medianX")
777  if (plotSplits) {
778  plotinfo.nbins = 50;
779  plotinfo.min = -0.0005;
780  plotinfo.max = 0.0005;
781  } else {
782  plotinfo.nbins = 100;
783  plotinfo.min = -0.001;
784  plotinfo.max = 0.001;
785  }
786  else if (variable == "medianY")
787  if (plotSplits) {
788  plotinfo.nbins = 50;
789  plotinfo.min = -0.0005;
790  plotinfo.max = 0.0005;
791  } else {
792  plotinfo.nbins = 100;
793  plotinfo.min = -0.001;
794  plotinfo.max = 0.001;
795  }
796  else if (variable == "meanNormX") {
797  plotinfo.nbins = 100;
798  plotinfo.min = -2.0;
799  plotinfo.max = 2.0;
800  } else if (variable == "meanNormY") {
801  plotinfo.nbins = 100;
802  plotinfo.min = -2.0;
803  plotinfo.max = 2.0;
804  } else if (variable == "rmsX") {
805  plotinfo.nbins = 100;
806  plotinfo.min = 0.0;
807  plotinfo.max = 0.1;
808  } else if (variable == "rmsY") {
809  plotinfo.nbins = 100;
810  plotinfo.min = 0.0;
811  plotinfo.max = 0.1;
812  } else if (variable == "rmsNormX") {
813  plotinfo.nbins = 100;
814  plotinfo.min = 0.3;
815  plotinfo.max = 1.8;
816  } else if (variable == "rmsNormY") {
817  plotinfo.nbins = 100;
818  plotinfo.min = 0.3;
819  plotinfo.max = 1.8;
820  } else {
821  std::cerr << "Unknown variable " << variable << std::endl;
822  plotinfo.nbins = 100;
823  plotinfo.min = -0.1;
824  plotinfo.max = 0.1;
825  }
826  //Begin loop on structures
827  for (int i = 1; i <= 6; ++i) {
828  // Skip strip detectors if plotting any "Y" variable
829  if (i != 1 && i != 2 && variable.length() > 0 && variable[variable.length() - 1] == 'Y') {
830  continue;
831  }
832 
833  // Skips plotting too high layers
834  if (plotLayerN > maxNumberOfLayers(i)) {
835  continue;
836  }
837 
838  plotinfo.plotSplits = plotSplits && plotSplitsFor[i - 1];
839  if (!plotinfo.plotPlain && !plotinfo.plotSplits) {
840  continue;
841  }
842 
843  // Sets dimension of legend according to the number of plots
844 
845  bool hasheader = (TkAlStyle::legendheader != "");
846 
847  int nPlots = 1;
848  if (plotinfo.plotSplits) {
849  nPlots = 3;
850  }
851  // This will make the legend a bit bigger than necessary if there is a mixture of phase 0 and phase 1.
852  // Not worth it to implement more complicated logic.
853  if (plotinfo.plotLayers) {
854  nPlots *= maxNumberOfLayers(i);
855  }
856  nPlots *= sourceList.size();
857  if (twolines_) {
858  nPlots *= 2;
859  }
860  nPlots += hasheader;
861 
862  double legendY = 0.80;
863  if (nPlots > 3) {
864  legendY -= 0.01 * (nPlots - 3);
865  }
866  if (bigtext_) {
867  legendY -= 0.05;
868  }
869  if (legendY < 0.6) {
870  std::cerr << "Warning: Huge legend!" << std::endl;
871  legendY = 0.6;
872  }
873 
874  THStack hstack("hstack", "hstack");
875  plotinfo.maxY = 0;
876  plotinfo.subDetId = i;
877  plotinfo.legend = new TLegend(0.17, legendY, 0.85, 0.88);
878  plotinfo.legend->SetNColumns(2);
879  if (hasheader)
880  plotinfo.legend->SetHeader(TkAlStyle::legendheader);
881  if (bigtext_)
882  plotinfo.legend->SetTextSize(TkAlStyle::textSize);
883  plotinfo.legend->SetFillStyle(0);
884  plotinfo.hstack = &hstack;
885  plotinfo.h = plotinfo.h1 = plotinfo.h2 = nullptr;
886  plotinfo.firsthisto = true;
887 
888  openSummaryFile();
889  vmean.clear();
890  vrms.clear();
891  vdeltamean.clear();
892  vmeanerror.clear();
894  vPValueMeanEqualIdeal.clear();
895  vPValueRMSEqualIdeal.clear();
896 
897  std::string stringsubdet;
898  switch (i) {
899  case 1:
900  stringsubdet = "BPIX";
901  break;
902  case 2:
903  stringsubdet = "FPIX";
904  break;
905  case 3:
906  stringsubdet = "TIB";
907  break;
908  case 4:
909  stringsubdet = "TID";
910  break;
911  case 5:
912  stringsubdet = "TOB";
913  break;
914  case 6:
915  stringsubdet = "TEC";
916  break;
917  }
918 
919  for (std::vector<TkOfflineVariables*>::iterator it = sourceList.begin(); it != sourceList.end(); ++it) {
920  plotinfo.vars = *it;
921  plotinfo.h1 = plotinfo.h2 = plotinfo.h = nullptr;
922 
923  int minlayer = plotLayers ? 1 : plotLayerN;
924  //Layer 0 is associated to the entire structure, this check ensures that even when both the plotLayers and the plotPlain options are active, also the histogram for the entire structure is made.
925  if (plotinfo.plotPlain)
926  minlayer = 0;
927  int maxlayer = plotLayers ? numberOfLayers(plotinfo.vars->getPhase(), plotinfo.subDetId) : plotLayerN;
928 
929  for (int layer = minlayer; layer <= maxlayer; layer++) {
930  if (plotinfo.plotPlain) {
931  plotDMRHistogram(plotinfo, 0, layer, stringsubdet);
932  }
933 
934  if (plotinfo.plotSplits) {
935  plotDMRHistogram(plotinfo, -1, layer, stringsubdet);
936  plotDMRHistogram(plotinfo, 1, layer, stringsubdet);
937  }
938 
939  if (plotinfo.plotPlain) {
940  if (plotinfo.h) {
941  setDMRHistStyleAndLegend(plotinfo.h, plotinfo, 0, layer);
942  } else {
943  if ((plotinfo.variable == "medianX" || plotinfo.variable == "medianY") && layer == 0) {
945  vmean.push_back(nan(""));
946  vrms.push_back(nan(""));
947  vmeanerror.push_back(nan(""));
948  vAlignmentUncertainty.push_back(nan(""));
949  vPValueMeanEqualIdeal.push_back(nan(""));
950  vPValueRMSEqualIdeal.push_back(nan(""));
951  if (plotinfo.plotSplits && plotinfo.plotPlain) {
952  vdeltamean.push_back(nan(""));
953  vPValueEqualSplitMeans.push_back(nan(""));
954  }
955  }
956  }
957  }
958 
959  if (plotinfo.plotSplits) {
960  // Add delta mu to the histogram
961  if (plotinfo.h1 != nullptr && plotinfo.h2 != nullptr && !plotinfo.plotPlain) {
962  std::ostringstream legend;
963  std::string unit = " #mum";
964  legend.precision(3);
965  legend << std::fixed; // to always show 3 decimals
966  float factor = 10000.0f;
967  if (plotinfo.variable == "meanNormX" || plotinfo.variable == "meanNormY" ||
968  plotinfo.variable == "rmsNormX" || plotinfo.variable == "rmsNormY") {
969  factor = 1.0f;
970  unit = "";
971  }
972  float deltamu = factor * (plotinfo.h2->GetMean(1) - plotinfo.h1->GetMean(1));
973  legend << plotinfo.vars->getName();
974  if (layer > 0) {
975  // TEC and TID have discs, the rest have layers
976  if (i == 4 || i == 6)
977  legend << ", disc ";
978  else
979  legend << ", layer ";
980  legend << layer;
981  }
982  plotinfo.legend->AddEntry(static_cast<TObject*>(nullptr), legend.str().c_str(), "");
983  legend.str("");
984  legend << "#Delta#mu = " << deltamu << unit;
985  plotinfo.legend->AddEntry(static_cast<TObject*>(nullptr), legend.str().c_str(), "");
986 
987  if ((plotinfo.variable == "medianX" || plotinfo.variable == "medianY") && !plotLayers && layer == 0) {
988  vdeltamean.push_back(deltamu);
989  }
990  }
991  if (plotinfo.h1) {
992  setDMRHistStyleAndLegend(plotinfo.h1, plotinfo, -1, layer);
993  }
994  if (plotinfo.h2) {
995  setDMRHistStyleAndLegend(plotinfo.h2, plotinfo, 1, layer);
996  }
997  }
998  }
999  }
1000 
1001  if (hstack.GetHists() != nullptr && hstack.GetHists()->GetSize() != 0) {
1002  hstack.Draw("nostack");
1003  hstack.SetMaximum(plotinfo.maxY * 1.3);
1004  setTitleStyle(hstack, variable.c_str(), "#modules", plotinfo.subDetId);
1005  setHistStyle(*hstack.GetHistogram(), variable.c_str(), "#modules", 1);
1006 
1007  plotinfo.legend->Draw();
1008  } else {
1009  // Draw an empty default histogram
1010  plotinfo.h = new TH1F("defhist", "Empty default histogram", plotinfo.nbins, plotinfo.min, plotinfo.max);
1011  plotinfo.h->SetMaximum(10);
1012  if (plotinfo.variable.find("Norm") == std::string::npos)
1013  scaleXaxis(plotinfo.h, 10000);
1014  setTitleStyle(*plotinfo.h, variable.c_str(), "#modules", plotinfo.subDetId);
1015  setHistStyle(*plotinfo.h, variable.c_str(), "#modules", 1);
1016  plotinfo.h->Draw();
1017  }
1018 
1019  std::ostringstream plotName;
1020  plotName << outputDir << "/D";
1021 
1022  if (variable == "medianX")
1023  plotName << "medianR_";
1024  else if (variable == "medianY")
1025  plotName << "medianYR_";
1026  else if (variable == "meanX")
1027  plotName << "meanR_";
1028  else if (variable == "meanY")
1029  plotName << "meanYR_";
1030  else if (variable == "meanNormX")
1031  plotName << "meanNR_";
1032  else if (variable == "meanNormY")
1033  plotName << "meanNYR_";
1034  else if (variable == "rmsX")
1035  plotName << "rmsR_";
1036  else if (variable == "rmsY")
1037  plotName << "rmsYR_";
1038  else if (variable == "rmsNormX")
1039  plotName << "rmsNR_";
1040  else if (variable == "rmsNormY")
1041  plotName << "rmsNYR_";
1042 
1043  TString subdet;
1044  switch (i) {
1045  case 1:
1046  subdet = "BPIX";
1047  break;
1048  case 2:
1049  subdet = "FPIX";
1050  break;
1051  case 3:
1052  subdet = "TIB";
1053  break;
1054  case 4:
1055  subdet = "TID";
1056  break;
1057  case 5:
1058  subdet = "TOB";
1059  break;
1060  case 6:
1061  subdet = "TEC";
1062  break;
1063  }
1064 
1065  plotName << subdet;
1066 
1067  if (plotPlain && !plotSplits) {
1068  plotName << "_plain";
1069  } else if (!plotPlain && plotSplits) {
1070  plotName << "_split";
1071  }
1072  if (plotLayers) {
1073  // TEC and TID have discs, the rest have layers
1074  if (i == 4 || i == 6)
1075  plotName << "_discs";
1076  else
1077  plotName << "_layers";
1078  }
1079  if (plotLayerN > 0) {
1080  // TEC and TID have discs, the rest have layers
1081  if (i == 4 || i == 6)
1082  plotName << "_disc";
1083  else
1084  plotName << "_layer";
1085  plotName << plotLayerN;
1086  }
1087 
1088  // PNG,EPS,PDF files
1089  c.Update();
1090  c.Print((plotName.str() + ".png").c_str());
1091  c.Print((plotName.str() + ".eps").c_str());
1092  c.Print((plotName.str() + ".pdf").c_str());
1093 
1094  // ROOT file
1095  TFile f((plotName.str() + ".root").c_str(), "recreate");
1096  c.Write();
1097  f.Close();
1098 
1099  // Free allocated memory.
1100  delete plotinfo.h;
1101  delete plotinfo.h1;
1102  delete plotinfo.h2;
1103 
1104  if (!vmean.empty()) {
1105  summaryfile << " mu_" << subdet;
1106  if (plotinfo.variable == "medianY")
1107  summaryfile << "_y";
1108  summaryfile << " (um)\t"
1109  << "latexname=$\\mu_\\text{" << subdet << "}";
1110  if (plotinfo.variable == "medianY")
1111  summaryfile << "^{y}";
1112  summaryfile << "$ ($\\mu$m)\t"
1113  << "format={:.3g}\t"
1114  << "latexformat=${:.3g}$";
1115  for (auto mu : vmean)
1116  summaryfile << "\t" << mu;
1117  summaryfile << "\n";
1118  }
1119  if (!vrms.empty()) {
1120  summaryfile << "sigma_" << subdet;
1121  if (plotinfo.variable == "medianY")
1122  summaryfile << "_y";
1123  summaryfile << " (um)\t"
1124  << "latexname=$\\sigma_\\text{" << subdet << "}";
1125  if (plotinfo.variable == "medianY")
1126  summaryfile << "^{y}";
1127  summaryfile << "$ ($\\mu$m)\t"
1128  << "format={:.3g}\t"
1129  << "latexformat=${:.3g}$";
1130  for (auto sigma : vrms)
1131  summaryfile << "\t" << sigma;
1132  summaryfile << "\n";
1133  }
1134  if (!vdeltamean.empty()) {
1135  summaryfile << " dmu_" << subdet;
1136  if (plotinfo.variable == "medianY")
1137  summaryfile << "_y";
1138  summaryfile << " (um)\t"
1139  << "latexname=$\\Delta\\mu_\\text{" << subdet << "}";
1140  if (plotinfo.variable == "medianY")
1141  summaryfile << "^{y}";
1142  summaryfile << "$ ($\\mu$m)\t"
1143  << "format={:.3g}\t"
1144  << "latexformat=${:.3g}$";
1145  for (auto dmu : vdeltamean)
1146  summaryfile << "\t" << dmu;
1147  summaryfile << "\n";
1148  }
1149  if (!vmeanerror.empty()) {
1150  summaryfile << " sigma_mu_" << subdet;
1151  if (plotinfo.variable == "medianY")
1152  summaryfile << "_y";
1153  summaryfile << " (um)\t"
1154  << "latexname=$\\sigma\\mu_\\text{" << subdet << "}";
1155  if (plotinfo.variable == "medianY")
1156  summaryfile << "^{y}";
1157  summaryfile << "$ ($\\mu$m)\t"
1158  << "format={:.3g}\t"
1159  << "latexformat=${:.3g}$";
1160  for (auto dmu : vmeanerror)
1161  summaryfile << "\t" << dmu;
1162  summaryfile << "\n";
1163  }
1164  if (!vPValueEqualSplitMeans.empty()) {
1165  summaryfile << " p_delta_mu_equal_zero_" << subdet;
1166  if (plotinfo.variable == "medianY")
1167  summaryfile << "_y";
1168  summaryfile << "\t"
1169  << "latexname=$P(\\delta\\mu_\\text{" << subdet << "}=0)";
1170  if (plotinfo.variable == "medianY")
1171  summaryfile << "^{y}";
1172  summaryfile << "$\t"
1173  << "format={:.3g}\t"
1174  << "latexformat=${:.3g}$";
1175  for (auto dmu : vPValueEqualSplitMeans)
1176  summaryfile << "\t" << dmu;
1177  summaryfile << "\n";
1178  }
1179  if (!vAlignmentUncertainty.empty()) {
1180  summaryfile << " alignment_uncertainty_" << subdet;
1181  if (plotinfo.variable == "medianY")
1182  summaryfile << "_y";
1183  summaryfile << " (um)\t"
1184  << "latexname=$\\sigma_\\text{align}_\\text{" << subdet << "}";
1185  if (plotinfo.variable == "medianY")
1186  summaryfile << "^{y}";
1187  summaryfile << "$ ($\\mu$m)\t"
1188  << "format={:.3g}\t"
1189  << "latexformat=${:.3g}$";
1190  for (auto dmu : vAlignmentUncertainty)
1191  summaryfile << "\t" << dmu;
1192  summaryfile << "\n";
1193  }
1194  if (!vPValueMeanEqualIdeal.empty()) {
1195  summaryfile << " p_mean_equals_ideal_" << subdet;
1196  if (plotinfo.variable == "medianY")
1197  summaryfile << "_y";
1198  summaryfile << "\t"
1199  << "latexname=$P(\\mu_\\text{" << subdet << "}=\\mu_\\text{ideal})";
1200  if (plotinfo.variable == "medianY")
1201  summaryfile << "^{y}";
1202  summaryfile << "$\t"
1203  << "format={:.3g}\t"
1204  << "latexformat=${:.3g}$";
1205  for (auto dmu : vPValueMeanEqualIdeal)
1206  summaryfile << "\t" << dmu;
1207  summaryfile << "\n";
1208  }
1209  if (!vPValueRMSEqualIdeal.empty()) {
1210  summaryfile << " p_RMS_equals_ideal_" << subdet;
1211  if (plotinfo.variable == "medianY")
1212  summaryfile << "_y";
1213  summaryfile << "\t"
1214  << "latexname=$P(\\sigma_\\text{" << subdet << "}=\\sigma_\\text{ideal})";
1215  if (plotinfo.variable == "medianY")
1216  summaryfile << "^{y}";
1217  summaryfile << "$\t"
1218  << "format={:.3g}\t"
1219  << "latexformat=${:.3g}$";
1220  for (auto dmu : vPValueRMSEqualIdeal)
1221  summaryfile << "\t" << dmu;
1222  summaryfile << "\n";
1223  }
1224  }
1225 }
std::vector< double > vAlignmentUncertainty
std::vector< double > vmeanerror
void scaleXaxis(TH1 *hist, Int_t scale)
void setHistStyle(TH1 &hist, const char *titleX, const char *titleY, int color)
std::vector< double > vPValueMeanEqualIdeal
std::vector< double > vPValueRMSEqualIdeal
static double textSize
Definition: TkAlStyle.h:93
int maxNumberOfLayers(int subdetector)
void setTitleStyle(TNamed &h, const char *titleX, const char *titleY, int subDetId, bool isSurfaceDeformation=false, TString secondline="")
constexpr std::array< uint8_t, layerIndexSize< TrackerTraits > > layer
static TString legendheader
Definition: TkAlStyle.h:91
void plotDMR(const std::string &plotVar="medianX", Int_t minHits=50, const std::string &options="plain", const std::string &filterName="")
double f[11][100]
void setDMRHistStyleAndLegend(TH1F *h, DMRPlotInfo &plotinfo, int direction=0, int layer=0)
Basic3DVector unit() const
std::vector< double > vPValueEqualSplitMeans
std::vector< TkOfflineVariables * > sourceList
int numberOfLayers(int phase, int subdetector)
void plotDMRHistogram(DMRPlotInfo &plotinfo, int direction=0, int layer=0, std::string subdet="")
std::vector< double > vdeltamean

◆ plotDMRHistogram()

void PlotAlignmentValidation::plotDMRHistogram ( PlotAlignmentValidation::DMRPlotInfo plotinfo,
int  direction = 0,
int  layer = 0,
std::string  subdet = "" 
)
private

Definition at line 2017 of file PlotAlignmentValidation.cc.

References PlotAlignmentValidation::DMRPlotInfo::filterName, TkOfflineVariables::getName(), getSelectionForDMRPlot(), TkOfflineVariables::getTree(), getVariableForDMRPlot(), h, PlotAlignmentValidation::DMRPlotInfo::h, PlotAlignmentValidation::DMRPlotInfo::h1, PlotAlignmentValidation::DMRPlotInfo::h2, mps_fire::i, pixelTopology::layer, PlotAlignmentValidation::DMRPlotInfo::max, PlotAlignmentValidation::DMRPlotInfo::min, PlotAlignmentValidation::DMRPlotInfo::minHits, PlotAlignmentValidation::DMRPlotInfo::nbins, MillePedeFileConverter_cfg::out, DQM::reader, corrVsCorr::selection, storeHistogramInRootfile(), AlCaHLTBitMon_QueryRunRegistry::string, PlotAlignmentValidation::DMRPlotInfo::subDetId, cond::impl::to_string(), parallelization::uint, PlotAlignmentValidation::DMRPlotInfo::variable, and PlotAlignmentValidation::DMRPlotInfo::vars.

Referenced by plotDMR().

2020  {
2021  TH1F* h = nullptr;
2022  //Create a name for the histogram that summarize all relevant information: name of the geometry, variable plotted, structure, layer, and whether the modules considered point inward or outward.
2023 
2024  TString histoname = "";
2025  if (plotinfo.variable == "medianX" || plotinfo.variable == "medianY")
2026  histoname = "median";
2027  else if (plotinfo.variable == "rmsNormX" || plotinfo.variable == "rmsNormY")
2028  histoname = "DrmsNR";
2029  histoname += "_";
2030  histoname += plotinfo.vars->getName();
2031  histoname.ReplaceAll(" ", "_");
2032  histoname += "_";
2033  histoname += subdet.c_str();
2034  if (plotinfo.variable == "medianY" || plotinfo.variable == "rmsNormY")
2035  histoname += "_y";
2036  if (layer != 0) {
2037  if (subdet == "TID" || subdet == "TEC")
2038  histoname += "_disc";
2039  else
2040  histoname += "_layer";
2041  histoname += std::to_string(layer);
2042  }
2043  if (direction == -1) {
2044  histoname += "_minus";
2045  } else if (direction == 1) {
2046  histoname += "_plus";
2047  } else {
2048  histoname += "";
2049  }
2050 
2051  //Plotting
2053  getVariableForDMRPlot(histoname.Data(), plotinfo.variable, plotinfo.nbins, plotinfo.min, plotinfo.max);
2054  std::string selection = "";
2055  if (plotinfo.filterName.empty()) {
2056  //Use only default selection and no filter
2057  selection = getSelectionForDMRPlot(plotinfo.minHits, plotinfo.subDetId, direction, layer);
2058  plotinfo.vars->getTree()->Draw(plotVariable.c_str(), selection.c_str(), "goff");
2059  if (gDirectory)
2060  gDirectory->GetObject(histoname.Data(), h);
2061  if (h && h->GetEntries() > 0) {
2062  if (direction == -1) {
2063  plotinfo.h1 = h;
2064  } else if (direction == 1) {
2065  plotinfo.h2 = h;
2066  } else {
2067  plotinfo.h = h;
2068  }
2069  }
2070  } else {
2071  TTreeReader reader(plotinfo.vars->getTree());
2072  TTreeReaderValue<Float_t> varToPlot(reader, plotinfo.variable.c_str());
2073  TTreeReaderValue<unsigned int> _entries(reader, "entries");
2074  TTreeReaderValue<unsigned int> _subDetId(reader, "subDetId");
2075  TTreeReaderValue<unsigned int> _moduleId(reader, "moduleId");
2076  TTreeReaderValue<Float_t> _zDirection(reader, "zDirection");
2077  TTreeReaderValue<Float_t> _rDirection(reader, "rDirection");
2078  TTreeReaderValue<unsigned int> _layer(reader, "layer");
2079  std::string badModulesFile_ = plotinfo.filterName;
2080  TFile* fBadModules = new TFile(badModulesFile_.c_str(), "READ");
2081  TTree* tBadModules = (TTree*)fBadModules->Get("alignTree");
2082  TTreeReader readerBad(tBadModules);
2083  TTreeReaderValue<int> _valid(readerBad, "valid");
2084  TTreeReaderValue<int> _bad_id(readerBad, "id");
2085  TTreeReaderValue<double> _bad_lumi(readerBad, "lumi");
2086 
2087  //Record which modules were used
2088  std::ofstream fUsedModules;
2089  fUsedModules.open("usedModules.txt", std::ios::out | std::ios::app);
2090 
2091  //Filter on modules by hand together with base selection
2092  for (uint i = 0; i < plotinfo.vars->getTree()->GetEntries(); i++) {
2093  reader.SetEntry(i);
2094  if (*_entries < uint(plotinfo.minHits))
2095  continue;
2096  if (*_subDetId != uint(plotinfo.subDetId))
2097  continue;
2098  if (direction != 0) {
2099  if (plotinfo.subDetId == 2) { // FPIX is split by zDirection
2100  if (*_zDirection != direction)
2101  continue;
2102  } else {
2103  if (*_rDirection != direction)
2104  continue;
2105  }
2106  }
2107  if (layer > 0) {
2108  if (*_layer != uint(layer))
2109  continue;
2110  }
2111  bool isBadModule = false;
2112  for (int ibad = 0; ibad < tBadModules->GetEntries(); ibad++) {
2113  readerBad.SetEntry(ibad);
2114  //if (*_valid == 0) {continue;} //only modules that failed 0 times are OK = very strict
2115  if (subdet == "BPIX" || subdet == "FPIX") {
2116  if (*_bad_lumi <= 2.0)
2117  continue;
2118  } else {
2119  if (*_bad_lumi <= 7.0)
2120  continue;
2121  }
2122  //modules that misbehave for less than 2/fb are OK = mild strict
2123  if (*_moduleId == uint(*_bad_id))
2124  isBadModule = true;
2125  }
2126 
2127  if (isBadModule)
2128  continue;
2129  fUsedModules << *_moduleId << "\n";
2130  if (h) {
2131  h->Fill(*varToPlot);
2132  }
2133  }
2134 
2135  //Finalize
2136  fUsedModules.close();
2137  fBadModules->Close();
2138  if (h) {
2139  h->SetName(histoname.Data());
2140  }
2141  }
2142 
2143  //Store histogram
2144  if (h && h->GetEntries() > 0) {
2145  if (direction == -1) {
2146  plotinfo.h1 = h;
2147  } else if (direction == 1) {
2148  plotinfo.h2 = h;
2149  } else {
2150  plotinfo.h = h;
2151  }
2152  }
2153  if (plotinfo.variable == "medianX" || plotinfo.variable == "medianY" || plotinfo.variable == "rmsNormX" ||
2154  plotinfo.variable == "rmsNormY") {
2156  }
2157 }
selection
main part
Definition: corrVsCorr.py:100
std::string getSelectionForDMRPlot(int minHits, int subDetId, int direction=0, int layer=0)
std::string to_string(const V &value)
Definition: OMSAccess.h:71
reader
Definition: DQM.py:105
constexpr std::array< uint8_t, layerIndexSize< TrackerTraits > > layer
std::string getVariableForDMRPlot(const std::string &histoname, const std::string &variable, int nbins, double min, double max)
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

◆ plotHitMaps()

void PlotAlignmentValidation::plotHitMaps ( )

Definition at line 299 of file PlotAlignmentValidation.cc.

References HltBtagPostValidation_cff::c, outputDir, sourceList, and AlCaHLTBitMon_QueryRunRegistry::string.

299  {
300  //gStyle->SetOptStat(0);
301 
302  TCanvas* c = new TCanvas("c", "c", 1200, 400);
303  c->Divide(3, 1);
304  //ps->NewPage();
305 
306  //-------------------------------------------------
307  //plot Hit map
308  //-------------------------------------------------
309  std::string histName_ = "Entriesprofile";
310  c->cd(1);
311  TTree* tree = (*sourceList.begin())->getTree();
312  tree->Draw("entries:posR:posZ", "", "COLZ2Prof");
313  c->cd(2);
314  tree->Draw("entries:posY:posX", "", "COLZ2Prof");
315  c->cd(3);
316  tree->Draw("entries:posR:posPhi", "", "COLZ2Prof");
317 
318  char PlotName[1000];
319  sprintf(PlotName, "%s/%s.png", outputDir.c_str(), histName_.c_str());
320  c->Print(PlotName);
321  sprintf(PlotName, "%s/%s.eps", outputDir.c_str(), histName_.c_str());
322  c->Print(PlotName);
323  sprintf(PlotName, "%s/%s.pdf", outputDir.c_str(), histName_.c_str());
324  c->Print(PlotName);
325  sprintf(PlotName, "%s/%s.root", outputDir.c_str(), histName_.c_str());
326  c->Print(PlotName);
327  // //c->Update();
328  c->Close();
329  //----------------------------------------------------
330 }
std::vector< TkOfflineVariables * > sourceList
Definition: tree.py:1

◆ plotOutlierModules()

void PlotAlignmentValidation::plotOutlierModules ( const char *  outputFileName = "OutlierModules.ps",
std::string  plotVariable = "chi2PerDofX",
float  chi2_cut = 10,
unsigned int  minHits = 50 
)

Definition at line 333 of file PlotAlignmentValidation.cc.

References alignmentValidation::c1, TkOffTreeVariables::chi2PerDofX, TkOffTreeVariables::chi2PerDofY, gather_cfg::cout, TkOffTreeVariables::entries, f, TkOffTreeVariables::fitMeanX, TkOffTreeVariables::fitMeanY, TkOffTreeVariables::fitSigmaX, TkOffTreeVariables::fitSigmaY, ws_sso_content_reader::getFile(), h, TkOffTreeVariables::histNameNormX, TkOffTreeVariables::histNameX, mps_fire::i, reco_skim_cfg_mod::minHits, outputDir, outputFile, makeListRunsInFiles::outputFileName, castor_dqm_sourceclient_file_cfg::path, sourceList, submitPVValidationJobs::text, and trigObjTnPSource_cfi::var.

336  {
337  Int_t counter = 0;
338 
339  gStyle->SetOptStat(111111);
340  gStyle->SetStatY(0.9);
341  //TList* treelist=getTreeList();
342 
343  TCanvas* c1 = new TCanvas("canv", "canv", 800, 500);
345  c1->Print((outputFile + '[').Data());
346 
347  c1->Divide(2, 1);
348 
349  TTree* tree = (*sourceList.begin())->getTree();
350  TkOffTreeVariables* treeMem = nullptr; // ROOT will initilise
351  tree->SetBranchAddress("TkOffTreeVariables", &treeMem);
352 
353  Long64_t nentries = tree->GetEntriesFast();
354 
355  for (Long64_t i = 0; i < nentries; i++) {
356  tree->GetEntry(i);
357  float var = 0;
358  if (plotVariable == "chi2PerDofX")
359  var = treeMem->chi2PerDofX;
360  else if (plotVariable == "chi2PerDofY")
361  var = treeMem->chi2PerDofY;
362  else if (plotVariable == "fitMeanX")
363  var = treeMem->fitMeanX;
364  else if (plotVariable == "fitMeanY")
365  var = treeMem->fitMeanY;
366  else if (plotVariable == "fitSigmaX")
367  var = treeMem->fitSigmaX;
368  else if (plotVariable == "fitSigmaY")
369  var = treeMem->fitSigmaY;
370  else {
371  std::cout << "There is no variable " << plotVariable << " included in the tree." << std::endl;
372  break;
373  }
374  // std::cout<<"treeMem->entries "<<treeMem->entries<<std::endl;
375  // std::cout<<"var "<<var<<std::endl;
376  // std::cout<<"plotVariable_cut "<<plotVariable_cut<<std::endl;
377 
378  if (var > plotVariable_cut && treeMem->entries > minHits) {
379  TFile* f = (*sourceList.begin())->getFile(); //(TFile*)sourcelist->First();
380 
381  if (f->FindKeyAny(treeMem->histNameX.c_str()) != nullptr) {
382  TH1* h =
383  (TH1*)f->FindKeyAny(treeMem->histNameX.c_str())->ReadObj(); //f->FindObjectAny(treeMem->histNameX.c_str());
384  gStyle->SetOptFit(0111);
385  std::cout << "hist name " << h->GetName() << std::endl;
386 
387  TString path = (char*)strstr(gDirectory->GetPath(), "TrackerOfflineValidation");
388  //std::cout<<"hist path "<<path<<std::endl;
389  //std::cout<<"wrote text "<<std::endl;
390  if (h)
391  std::cout << h->GetEntries() << std::endl;
392 
393  //modules' location as title
394  c1->cd(0);
395  TPaveText* text = new TPaveText(0, 0.95, 0.99, 0.99);
396  text->AddText(path);
397  text->SetFillColor(0);
398  text->SetShadowColor(0);
399  text->SetBorderSize(0);
400  text->Draw();
401 
402  //residual histogram
403  c1->cd(1);
404  TPad* subpad = (TPad*)c1->GetPad(1);
405  subpad->SetPad(0, 0, 0.5, 0.94);
406  h->Draw();
407 
408  //norm. residual histogram
409  h = (TH1*)f->FindObjectAny(treeMem->histNameNormX.c_str());
410  if (h)
411  std::cout << h->GetEntries() << std::endl;
412  c1->cd(2);
413  TPad* subpad2 = (TPad*)c1->GetPad(2);
414  subpad2->SetPad(0.5, 0, 0.99, 0.94);
415  h->Draw();
416 
417  c1->Print(outputFile);
418  counter++;
419  } else {
420  std::cout << "There are no residual histograms on module level stored!" << std::endl;
421  std::cout << "Please make sure that moduleLevelHistsTransient = cms.bool(False) in the validation job!"
422  << std::endl;
423  break;
424  }
425  }
426  }
427  c1->Print((outputFile + "]").Data());
428  if (counter == 0)
429  std::cout << "no bad modules found" << std::endl;
430 
431  //read the number of entries in the t3
432  //TTree* tree=0;
433  //tree=(TTree*)treeList->At(0);
434 
435  //c1->Close();
436 }
container to hold data to be written into TTree
double f[11][100]
std::vector< TkOfflineVariables * > sourceList
Definition: tree.py:1
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4

◆ plotSS()

void PlotAlignmentValidation::plotSS ( const std::string &  options = "layers",
const std::string &  variable = "" 
)
private

Definition at line 487 of file PlotAlignmentValidation.cc.

References addHists(), HltBtagPostValidation_cff::c, DMR_cfg::cerr, gather_cfg::cout, f, pixelTopology::layer, compareTotals::legend, maxNumberOfLayers(), modifySSHistAndLegend(), numberOfLayers(), outputDir, L1TEGammaDiff_cfi::plotName, corrVsCorr::selection, setTitleStyle(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by plotSurfaceShapes().

487  {
488  if (residType.empty()) {
489  plotSS(options, "ResXvsXProfile");
490  plotSS(options, "ResXvsYProfile");
491  return;
492  }
493 
494  int bkperrorx = gStyle->GetErrorX();
495  gStyle->SetErrorX(1); //regardless of style settings, we want x error bars here
496 
497  int plotLayerN = 0;
498  // int plotRingN = 0;
499  // bool plotPlain = false;
500  bool plotLayers = false; // overrides plotLayerN
501  // bool plotRings = false; // Todo: implement this?
502  int plotSubDetN = 0; // if zero, plot all
503 
504  TRegexp layer_re("layer=[0-9]+");
505  Ssiz_t index, len;
506  if (options.find("layers") != std::string::npos) {
507  plotLayers = true;
508  }
509  if ((index = layer_re.Index(options, &len)) != -1) {
510  if (plotLayers) {
511  std::cerr << "Warning: option 'layers' overrides 'layer=N'" << std::endl;
512  } else {
513  std::string substr = options.substr(index + 6, len - 6);
514  plotLayerN = atoi(substr.c_str());
515  }
516  }
517 
518  TRegexp subdet_re("subdet=[1-6]+");
519  if ((index = subdet_re.Index(options, &len)) != -1) {
520  std::string substr = options.substr(index + 7, len - 7);
521  plotSubDetN = atoi(substr.c_str());
522  }
523 
524  gStyle->SetOptStat(0);
525 
526  TCanvas c("canv", "canv");
527 
528  // todo: title, min/max, nbins?
529 
530  // Loop over detectors
531  for (int iSubDet = 1; iSubDet <= 6; ++iSubDet) {
532  // TEC requires special care since rings 1-4 and 5-7 are plotted separately
533  bool isTEC = (iSubDet == 6);
534 
535  // if subdet is specified, skip other subdets
536  if (plotSubDetN != 0 && iSubDet != plotSubDetN)
537  continue;
538 
539  // Skips plotting too high layers
540  // if it's a mixture of phase 0 and 1, the phase 0 files will be skipped
541  // when plotting the higher layers of BPIX and FPIX
542  if (plotLayerN > maxNumberOfLayers(iSubDet)) {
543  continue;
544  }
545 
546  int minlayer = plotLayers ? 1 : plotLayerN;
547  int maxlayer = plotLayers ? maxNumberOfLayers(iSubDet) : plotLayerN;
548  // see later where this is used
549  int maxlayerphase0 = plotLayers ? numberOfLayers(0, iSubDet) : plotLayerN;
550 
551  for (int layer = minlayer; layer <= maxlayer; layer++) {
552  // two plots for TEC, skip first
553  for (int iTEC = 0; iTEC < 2; iTEC++) {
554  if (!isTEC && iTEC == 0)
555  continue;
556 
557  char selection[1000];
558  if (!isTEC) {
559  if (layer == 0)
560  sprintf(selection, "subDetId==%d", iSubDet);
561  else
562  sprintf(selection, "subDetId==%d && layer == %d", iSubDet, layer);
563  } else { // TEC
564  if (iTEC == 0) // rings
565  sprintf(selection, "subDetId==%d && ring <= 4", iSubDet);
566  else
567  sprintf(selection, "subDetId==%d && ring > 4", iSubDet);
568  }
569 
570  // Title for plot and name for the file
571 
572  TString subDetName;
573  switch (iSubDet) {
574  case 1:
575  subDetName = "BPIX";
576  break;
577  case 2:
578  subDetName = "FPIX";
579  break;
580  case 3:
581  subDetName = "TIB";
582  break;
583  case 4:
584  subDetName = "TID";
585  break;
586  case 5:
587  subDetName = "TOB";
588  break;
589  case 6:
590  subDetName = "TEC";
591  break;
592  }
593 
594  TString secondline = "";
595  if (layer != 0) {
596  // TEC and TID have discs, the rest have layers
597  if (iSubDet == 4 || iSubDet == 6)
598  secondline = "disc ";
599  else {
600  secondline = "layer ";
601  }
602  secondline += Form("%d", layer);
603  secondline += " ";
604  }
605  if (isTEC && iTEC == 0)
606  secondline += TString("R1-4");
607  if (isTEC && iTEC > 0)
608  secondline += TString("R5-7");
609 
610  // Generate histograms with selection
611  TLegend* legend = nullptr;
612  // Any file from phase 0 will be skipped if the last argument is false
613  THStack* hs = addHists(selection, residType, &legend, false, /*validforphase0 = */ layer <= maxlayerphase0);
614  if (!hs || hs->GetHists() == nullptr || hs->GetHists()->GetSize() == 0) {
615  std::cout << "No histogram for " << subDetName << ", perhaps not enough data? Creating default histogram."
616  << std::endl;
617  if (hs == nullptr)
618  hs = new THStack("hstack", "");
619 
620  TProfile* defhist = new TProfile("defhist", "Empty default histogram", 100, -1, 1, -1, 1);
621  hs->Add(defhist);
622  hs->Draw();
623  } else {
624  hs->Draw("nostack PE");
626  legend->Draw();
627  setTitleStyle(*hs, "", "", iSubDet, true, secondline);
628 
629  // Adjust Labels
630  TH1* firstHisto = (TH1*)hs->GetHists()->First();
631  TString xName = firstHisto->GetXaxis()->GetTitle();
632  TString yName = firstHisto->GetYaxis()->GetTitle();
633  hs->GetHistogram()->GetXaxis()->SetTitleColor(kBlack);
634  hs->GetHistogram()->GetXaxis()->SetTitle(xName);
635  hs->GetHistogram()->GetYaxis()->SetTitleColor(kBlack);
636  // micrometers:
637  yName.ReplaceAll("cm", "#mum");
638  hs->GetHistogram()->GetYaxis()->SetTitle(yName);
639  }
640 
641  // Save plot to file
642  std::ostringstream plotName;
643  plotName << outputDir << "/SurfaceShape_" << subDetName << "_";
644  plotName << residType;
645  if (layer != 0) {
646  plotName << "_";
647  // TEC and TID have discs, the rest have layers
648  if (iSubDet == 4 || iSubDet == 6)
649  plotName << "disc";
650  else {
651  plotName << "layer";
652  }
653  plotName << layer;
654  }
655  if (isTEC && iTEC == 0)
656  plotName << "_"
657  << "R1-4";
658  if (isTEC && iTEC > 0)
659  plotName << "_"
660  << "R5-7";
661 
662  // PNG,EPS,PDF files
663  c.Update();
664  c.Print((plotName.str() + ".png").c_str());
665  c.Print((plotName.str() + ".eps").c_str());
666  c.Print((plotName.str() + ".pdf").c_str());
667 
668  // ROOT file
669  TFile f((plotName.str() + ".root").c_str(), "recreate");
670  c.Write();
671  f.Close();
672 
673  delete legend;
674  delete hs;
675  }
676  }
677  }
678  gStyle->SetErrorX(bkperrorx);
679 
680  return;
681 }
selection
main part
Definition: corrVsCorr.py:100
void plotSS(const std::string &options="layers", const std::string &variable="")
int maxNumberOfLayers(int subdetector)
void setTitleStyle(TNamed &h, const char *titleX, const char *titleY, int subDetId, bool isSurfaceDeformation=false, TString secondline="")
constexpr std::array< uint8_t, layerIndexSize< TrackerTraits > > layer
THStack * addHists(const TString &selection, const TString &residType="xPrime", TLegend **myLegend=nullptr, bool printModuleIds=false, bool validforphase0=false)
void modifySSHistAndLegend(THStack *hs, TLegend *legend)
double f[11][100]
int numberOfLayers(int phase, int subdetector)

◆ plotSubDetResiduals()

void PlotAlignmentValidation::plotSubDetResiduals ( bool  plotNormHisto = false,
unsigned int  subDetId = 7 
)

subDetector number :1.TPB, 2.TBE+, 3.TBE-, 4.TIB, 5.TID+, 6.TID-, 7.TOB, 8.TEC+ or 9.TEC-

Definition at line 203 of file PlotAlignmentValidation.cc.

References HltBtagPostValidation_cff::c, HLT_2022v15_cff::Class, f, HltBtagPostValidation_cff::histoName, outputDir, sourceList, dqmMemoryStats::stats, and GeomDetEnumerators::subDetId.

203  {
204  gStyle->SetOptStat(11111);
205  gStyle->SetOptFit(0000);
206 
207  TCanvas* c = new TCanvas("c", "c");
208  c->SetTopMargin(0.15);
209  TString histoName = "";
210  if (plotNormHisto) {
211  histoName = "h_NormXprime";
212  } else
213  histoName = "h_Xprime_";
214  switch (subDetId) {
215  case 1:
216  histoName += "TPBBarrel_0";
217  break;
218  case 2:
219  histoName += "TPEendcap_1";
220  break;
221  case 3:
222  histoName += "TPEendcap_2";
223  break;
224  case 4:
225  histoName += "TIBBarrel_0";
226  break;
227  case 5:
228  histoName += "TIDEndcap_1";
229  break;
230  case 6:
231  histoName += "TIDEndcap_2";
232  break;
233  case 7:
234  histoName += "TOBBarrel_3";
235  break;
236  case 8:
237  histoName += "TECEndcap_4";
238  break;
239  case 9:
240  histoName += "TECEndcap_5";
241  break;
242  }
243  int tmpcounter = 0;
244  TH1* sumHisto = nullptr;
245  for (std::vector<TkOfflineVariables*>::iterator it = sourceList.begin(); it != sourceList.end(); ++it) {
246  if (tmpcounter == 0) {
247  TFile* f = (*it)->getFile();
248  sumHisto = (TH1*)f->FindKeyAny(histoName)->ReadObj(); //FindObjectAny(histoName.Data());
249  sumHisto->SetLineColor(tmpcounter + 1);
250  sumHisto->SetLineStyle(tmpcounter + 1);
251  sumHisto->GetFunction("tmp")->SetBit(TF1::kNotDraw);
252  sumHisto->Draw();
253 
254  //get statistic box coordinate to plot all boxes one below the other
255  //gStyle->SetStatY(0.91);
256  //gStyle->SetStatW(0.15);
257  //gStyle->SetStatBorderSize(1);
258  //gStyle->SetStatH(0.10);
259 
260  tmpcounter++;
261  } else {
262  sumHisto = (TH1*)(*it)->getFile()->FindObjectAny(histoName);
263  sumHisto->SetLineColor(tmpcounter + 1);
264  sumHisto->SetLineStyle(tmpcounter + 1);
265  sumHisto->GetFunction("tmp")->SetBit(TF1::kNotDraw);
266  //hstack->Add(sumHisto);
267 
268  c->Update();
269  tmpcounter++;
270  }
271  TObject* statObj = sumHisto->GetListOfFunctions()->FindObject("stats");
272  if (statObj && statObj->InheritsFrom(TPaveStats::Class())) {
273  TPaveStats* stats = static_cast<TPaveStats*>(statObj);
274  stats->SetLineColor(tmpcounter + 1);
275  stats->SetTextColor(tmpcounter + 1);
276  stats->SetFillColor(10);
277  stats->SetX1NDC(0.91 - tmpcounter * 0.1);
278  stats->SetX2NDC(0.15);
279  stats->SetY1NDC(1);
280  stats->SetY2NDC(0.10);
281  sumHisto->Draw("sames");
282  }
283  }
284  //hstack->Draw("nostack");
285  char PlotName[1000];
286  sprintf(PlotName, "%s/%s.png", outputDir.c_str(), histoName.Data());
287  c->Print(PlotName);
288  sprintf(PlotName, "%s/%s.eps", outputDir.c_str(), histoName.Data());
289  c->Print(PlotName);
290  sprintf(PlotName, "%s/%s.pdf", outputDir.c_str(), histoName.Data());
291  c->Print(PlotName);
292  sprintf(PlotName, "%s/%s.root", outputDir.c_str(), histoName.Data());
293  c->Print(PlotName);
294  //delete c;
295  //c=0;
296 }
constexpr unsigned int subDetId[21]
double f[11][100]
std::vector< TkOfflineVariables * > sourceList

◆ plotSurfaceShapes()

void PlotAlignmentValidation::plotSurfaceShapes ( const std::string &  options = "layers",
const std::string &  variable = "" 
)

Definition at line 467 of file PlotAlignmentValidation.cc.

References gather_cfg::cout, and plotSS().

467  {
468  std::cout << "-------- plotSurfaceShapes called with " << options << std::endl;
469  if (options == "none")
470  return;
471  else if (options == "coarse") {
472  plotSS("subdet=1");
473  plotSS("subdet=2");
474  plotSS("subdet=3");
475  plotSS("subdet=4");
476  plotSS("subdet=5");
477  plotSS("subdet=6");
478  }
479  // else if (options == "fine") ...
480  else
481  plotSS(options, residType);
482 
483  return;
484 }
void plotSS(const std::string &options="layers", const std::string &variable="")

◆ resampleTestOfEqualMeans()

double PlotAlignmentValidation::resampleTestOfEqualMeans ( TH1F *  h1,
TH1F *  h2,
int  numSamples 
)
private

Definition at line 2265 of file PlotAlignmentValidation.cc.

References funct::abs(), ztail::d, d1, change_name::diff, mps_fire::i, and AlCaHLTBitMon_ParallelJobs::p.

Referenced by setDMRHistStyleAndLegend().

2265  {
2266  //vector to store realization of random variable
2267  std::vector<double> diff;
2268  diff.clear();
2269  //"true" (in bootstrap terms) difference of the samples' means
2270  double meandiff = abs(h1->GetMean() - h2->GetMean());
2271  //realization of random variable
2272  double d1 = 0;
2273  double d2 = 0;
2274  //mean of random variable
2275  double test_mean = 0;
2276  for (int i = 0; i < numSamples; i++) {
2277  d1 = 0;
2278  d2 = 0;
2279  for (int i = 0; i < h1->GetEntries(); i++) {
2280  d1 += h1->GetRandom();
2281  }
2282  for (int i = 0; i < h2->GetEntries(); i++) {
2283  d2 += h2->GetRandom();
2284  }
2285  d1 /= h1->GetEntries();
2286  d2 /= h2->GetEntries();
2287  diff.push_back(abs(d1 - d2 - meandiff));
2288  test_mean += abs(d1 - d2 - meandiff);
2289  }
2290  test_mean /= numSamples;
2291  edm::LogPrint("") << "test mean:" << test_mean;
2292  //p-value
2293  double p = 0;
2294  for (double d : diff) {
2295  if (d > meandiff) {
2296  p += 1;
2297  }
2298  }
2299 
2300  p /= numSamples;
2301  return p;
2302 }
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
Log< level::Warning, true > LogPrint
d
Definition: ztail.py:151
static constexpr float d1

◆ resampleTestOfEqualRMS()

double PlotAlignmentValidation::resampleTestOfEqualRMS ( TH1F *  h1,
TH1F *  h2,
int  numSamples 
)
private

Definition at line 2217 of file PlotAlignmentValidation.cc.

References funct::abs(), ztail::d, d1, change_name::diff, mps_fire::i, callgraph::m2, and AlCaHLTBitMon_ParallelJobs::p.

Referenced by setDMRHistStyleAndLegend().

2217  {
2218  //vector to store realizations of random variable
2219  std::vector<double> diff;
2220  diff.clear();
2221  //"true" (in bootstrap terms) difference of the samples' RMS
2222  double rmsdiff = abs(h1->GetRMS() - h2->GetRMS());
2223  //means of the samples to calculate RMS
2224  double m1 = h1->GetMean();
2225  double m2 = h2->GetMean();
2226  //realization of random variable
2227  double d1 = 0;
2228  double d2 = 0;
2229  //mean of random variable
2230  double test_mean = 0;
2231  for (int i = 0; i < numSamples; i++) {
2232  d1 = 0;
2233  d2 = 0;
2234  for (int i = 0; i < h1->GetEntries(); i++) {
2235  d1 += h1->GetRandom() - m1;
2236  }
2237  for (int i = 0; i < h2->GetEntries(); i++) {
2238  d2 += h2->GetRandom() + m2;
2239  }
2240  d1 /= h1->GetEntries();
2241  d2 /= h2->GetEntries();
2242  diff.push_back(abs(d1 - d2 - rmsdiff));
2243  test_mean += abs(d1 - d2 - rmsdiff);
2244  }
2245  test_mean /= numSamples;
2246  edm::LogPrint("") << "test mean:" << test_mean;
2247  //p value
2248  double p = 0;
2249  for (double d : diff) {
2250  if (d > rmsdiff) {
2251  p += 1;
2252  }
2253  }
2254 
2255  p /= numSamples;
2256  return p;
2257 }
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
Log< level::Warning, true > LogPrint
d
Definition: ztail.py:151
static constexpr float d1

◆ residual_by_moduleID()

void PlotAlignmentValidation::residual_by_moduleID ( unsigned int  moduleid)

Definition at line 2343 of file PlotAlignmentValidation.cc.

References geometryDiff::file, findmodule(), compareTotals::hist, outputDir, sourceList, and cond::impl::to_string().

2343  {
2344  TCanvas* cx = new TCanvas("x_residual");
2345  TCanvas* cy = new TCanvas("y_residual");
2346  TLegend* legendx = new TLegend(0.55, 0.7, 1, 0.9);
2347  TLegend* legendy = new TLegend(0.55, 0.7, 1, 0.9);
2348 
2349  legendx->SetTextSize(0.016);
2350  legendx->SetTextAlign(12);
2351  legendy->SetTextSize(0.016);
2352  legendy->SetTextAlign(12);
2353 
2354  for (auto it : sourceList) {
2355  TFile* file = it->getFile();
2356  int color = it->getLineColor();
2357  int linestyle = it->getLineStyle(); //this you set by doing h->SetLineStyle(linestyle)
2358  TString legendname = it->getName(); //this goes in the legend
2359  std::vector<TH1*> hist = findmodule(file, moduleid);
2360 
2361  TString histnamex = legendname + " NEntries: " + std::to_string(int(hist[0]->GetEntries()));
2362  hist[0]->SetTitle(histnamex);
2363  hist[0]->SetStats(false);
2364  hist[0]->Rebin(50);
2365  hist[0]->SetBit(TH1::kNoTitle);
2366  hist[0]->SetLineColor(color);
2367  hist[0]->SetLineStyle(linestyle);
2368  cx->cd();
2369  hist[0]->Draw("Same");
2370  legendx->AddEntry(hist[0], histnamex, "l");
2371 
2372  TString histnamey = legendname + " NEntries: " + std::to_string(int(hist[1]->GetEntries()));
2373  hist[1]->SetTitle(histnamey);
2374  hist[1]->SetStats(false);
2375  hist[1]->Rebin(50);
2376  hist[1]->SetBit(TH1::kNoTitle);
2377  hist[1]->SetLineColor(color);
2378  hist[1]->SetLineStyle(linestyle);
2379  cy->cd();
2380  hist[1]->Draw("Same");
2381  legendy->AddEntry(hist[1], histnamey, "l");
2382  }
2383 
2384  TString filenamex = "x_residual_" + std::to_string(moduleid);
2385  TString filenamey = "y_residual_" + std::to_string(moduleid);
2386  cx->cd();
2387  legendx->Draw();
2388  cx->SaveAs(outputDir + "/" + filenamex + ".root");
2389  cx->SaveAs(outputDir + "/" + filenamex + ".pdf");
2390  cx->SaveAs(outputDir + "/" + filenamex + ".png");
2391  cx->SaveAs(outputDir + "/" + filenamex + ".eps");
2392 
2393  cy->cd();
2394  legendy->Draw();
2395  cy->SaveAs(outputDir + "/" + filenamey + ".root");
2396  cy->SaveAs(outputDir + "/" + filenamey + ".pdf");
2397  cy->SaveAs(outputDir + "/" + filenamey + ".png");
2398  cy->SaveAs(outputDir + "/" + filenamey + ".eps");
2399 }
std::string to_string(const V &value)
Definition: OMSAccess.h:71
std::vector< TH1 * > findmodule(TFile *f, unsigned int moduleid)
std::vector< TkOfflineVariables * > sourceList

◆ scaleXaxis()

void PlotAlignmentValidation::scaleXaxis ( TH1 *  hist,
Int_t  scale 
)
private

◆ setCanvasStyle()

void PlotAlignmentValidation::setCanvasStyle ( TCanvas &  canv)
private

◆ setDMRHistStyleAndLegend()

void PlotAlignmentValidation::setDMRHistStyleAndLegend ( TH1F *  h,
PlotAlignmentValidation::DMRPlotInfo plotinfo,
int  direction = 0,
int  layer = 0 
)
private

plotinfo.plotLayers &&
plotinfo.plotLayers &&

Definition at line 1819 of file PlotAlignmentValidation.cc.

References PlotAlignmentValidation::DMRPlotInfo::firsthisto, fitGauss(), alignBH_cfg::fixed, dqmMemoryStats::float, TkOfflineVariables::getLineColor(), TkOfflineVariables::getLineStyle(), TkOfflineVariables::getName(), h, PlotAlignmentValidation::DMRPlotInfo::h, PlotAlignmentValidation::DMRPlotInfo::h1, PlotAlignmentValidation::DMRPlotInfo::h2, PlotAlignmentValidation::DMRPlotInfo::hstack, createfilelist::int, pixelTopology::layer, PlotAlignmentValidation::DMRPlotInfo::legend, compareTotals::legend, PlotAlignmentValidation::DMRPlotInfo::maxY, SiStripPI::mean, dqmiodatasetharvest::nan, AlCaHLTBitMon_ParallelJobs::p, PlotAlignmentValidation::DMRPlotInfo::plotLayers, PlotAlignmentValidation::DMRPlotInfo::plotPlain, PlotAlignmentValidation::DMRPlotInfo::plotSplits, funct::pow(), resampleTestOfEqualMeans(), resampleTestOfEqualRMS(), SiStripPI::rms, scaleXaxis(), setHistStyle(), showMean_, showMeanError_, showModules_, showRMS_, showRMSError_, showUnderOverFlow_, mathSSE::sqrt(), PlotAlignmentValidation::DMRPlotInfo::subDetId, twolines_, units(), useFit_, vAlignmentUncertainty, PlotAlignmentValidation::DMRPlotInfo::variable, PlotAlignmentValidation::DMRPlotInfo::vars, vdeltamean, vmean, vmeanerror, vPValueEqualSplitMeans, vPValueMeanEqualIdeal, vPValueRMSEqualIdeal, and vrms.

Referenced by plotDMR().

1822  {
1823  TF1* fitResults = nullptr;
1824 
1825  h->SetDirectory(nullptr);
1826 
1827  // The whole DMR plot is plotted with wider line than the split plots
1828  // If only split plots are plotted, they will be stronger too, though
1829  h->SetLineWidth((direction == 0 || (plotinfo.plotSplits && !plotinfo.plotPlain)) ? 2 : 1);
1830 
1831  // These lines determine the style of the plots according to rules:
1832  // -If the plot is for direction != 0, +1 or +2 is added to the given style for distinction
1833  // -However if only direction split plots are to be plotted, the additions should be 0 and +1 respectively
1834  // -Modulo 4 arithmetic, because the styles run from 1..4
1835  int linestyle = plotinfo.vars->getLineStyle() - 1, linestyleplus = 0;
1836  if (direction == 1) {
1837  linestyleplus = 1;
1838  }
1839  if (direction == -1) {
1840  linestyleplus = 2;
1841  }
1842  if (direction != 0 && plotinfo.plotSplits && !plotinfo.plotPlain) {
1843  linestyleplus--;
1844  }
1845  linestyle = (linestyle + linestyleplus) % 4 + 1;
1846 
1847  int linecolor = plotinfo.vars->getLineColor();
1848  if (plotinfo.plotLayers && layer > 0) {
1849  linecolor += layer - 1;
1850  }
1851 
1852  if (plotinfo.firsthisto) {
1853  setHistStyle(*h, plotinfo.variable.c_str(), "#modules", 1); //set color later
1854  plotinfo.firsthisto = false;
1855  }
1856 
1857  h->SetLineColor(linecolor);
1858  h->SetLineStyle(linestyle);
1859 
1860  if (plotinfo.maxY < h->GetMaximum()) {
1861  plotinfo.maxY = h->GetMaximum();
1862  }
1863 
1864  //fit histogram for median and mean
1865  if (plotinfo.variable == "medianX" || plotinfo.variable == "meanX" || plotinfo.variable == "medianY" ||
1866  plotinfo.variable == "meanY") {
1867  fitResults = fitGauss(h, linecolor);
1868  }
1869 
1870  plotinfo.hstack->Add(h);
1871 
1872  std::ostringstream legend;
1873  legend.precision(3);
1874  legend << std::fixed; // to always show 3 decimals
1875 
1876  // Legend: header part
1877  if (direction == -1 && plotinfo.subDetId != 2) {
1878  legend << "rDirection < 0";
1879  } else if (direction == 1 && plotinfo.subDetId != 2) {
1880  legend << "rDirection > 0";
1881  } else if (direction == -1 && plotinfo.subDetId == 2) {
1882  legend << "zDirection < 0";
1883  } else if (direction == 1 && plotinfo.subDetId == 2) {
1884  legend << "zDirection > 0";
1885  } else {
1886  legend << plotinfo.vars->getName();
1887  if (layer > 0) {
1888  // TEC and TID have discs, the rest have layers
1889  if (plotinfo.subDetId == 4 || plotinfo.subDetId == 6)
1890  legend << ", disc ";
1891  else
1892  legend << ", layer ";
1893  legend << layer << "";
1894  }
1895  }
1896 
1897  plotinfo.legend->AddEntry(h, legend.str().c_str(), "l");
1898  legend.str("");
1899 
1900  // Legend: Statistics
1901  double mean, meanerror, rms, rmserror;
1902  TString rmsname, units;
1903  bool showdeltamu =
1904  (plotinfo.h1 != nullptr && plotinfo.h2 != nullptr && plotinfo.plotSplits && plotinfo.plotPlain && direction == 0);
1905  if (plotinfo.variable == "medianX" || plotinfo.variable == "meanX" || plotinfo.variable == "medianY" ||
1906  plotinfo.variable == "meanY" || plotinfo.variable == "rmsX" || plotinfo.variable == "rmsY") {
1907  if (useFit_ && fitResults) {
1908  mean = fitResults->GetParameter(1) * 10000;
1909  meanerror = fitResults->GetParError(1) * 10000;
1910  rms = fitResults->GetParameter(2) * 10000;
1911  rmserror = fitResults->GetParError(2) * 10000;
1912  rmsname = "#sigma";
1913  delete fitResults;
1914  } else {
1915  mean = h->GetMean(1) * 10000;
1916  meanerror = h->GetMeanError(1) * 10000;
1917  rms = h->GetRMS(1) * 10000;
1918  rmserror = h->GetRMSError(1) * 10000;
1919  rmsname = "rms";
1920  }
1921  units = " #mum";
1922  } else if (plotinfo.variable == "meanNormX" || plotinfo.variable == "meanNormY" || plotinfo.variable == "rmsNormX" ||
1923  plotinfo.variable == "rmsNormY") {
1924  mean = h->GetMean(1);
1925  meanerror = h->GetMeanError(1);
1926  rms = h->GetRMS(1);
1927  rmserror = h->GetRMSError(1);
1928  rmsname = "rms";
1929  units = "";
1930  }
1931  if (showMean_) {
1932  legend << " #mu = " << mean;
1933  if (showMeanError_)
1934  legend << " #pm " << meanerror;
1935  legend << units;
1936  if (showRMS_ || showdeltamu || ((showModules_ || showUnderOverFlow_) && !twolines_))
1937  legend << ", ";
1938  }
1939  if (showRMS_) {
1940  legend << " " << rmsname << " = " << rms;
1941  if (showRMSError_)
1942  legend << " #pm " << rmserror;
1943  legend << units;
1944  if (showdeltamu || ((showModules_ || showUnderOverFlow_) && !twolines_))
1945  legend << ", ";
1946  }
1947 
1948  if ((plotinfo.variable == "medianX" || plotinfo.variable == "medianY") && layer == 0 &&
1949  direction == 0) {
1950  vmean.push_back(mean);
1951  vrms.push_back(rms);
1952  vmeanerror.push_back(meanerror);
1953  TH1F* ideal = (TH1F*)plotinfo.hstack->GetHists()->At(0);
1954  TH1F* h = plotinfo.h;
1955  if (h->GetRMS() >= ideal->GetRMS()) {
1956  vAlignmentUncertainty.push_back(sqrt(pow(h->GetRMS(), 2) - pow(ideal->GetRMS(), 2)));
1957  } else {
1958  vAlignmentUncertainty.push_back(nan(""));
1959  }
1960  float p = (float)resampleTestOfEqualMeans(ideal, h, 10000);
1961  vPValueMeanEqualIdeal.push_back(p);
1962  p = resampleTestOfEqualRMS(ideal, h, 10000);
1963  vPValueRMSEqualIdeal.push_back(p);
1964  }
1965 
1966  // Legend: Delta mu for split plots
1967  if (showdeltamu) {
1968  float factor = 10000.0f;
1969  if (plotinfo.variable == "meanNormX" || plotinfo.variable == "meanNormY" || plotinfo.variable == "rmsNormX" ||
1970  plotinfo.variable == "rmsNormY") {
1971  factor = 1.0f;
1972  }
1973  float deltamu = factor * (plotinfo.h2->GetMean(1) - plotinfo.h1->GetMean(1));
1974  legend << "#Delta#mu = " << deltamu << units;
1976  legend << ", ";
1977 
1978  if ((plotinfo.variable == "medianX" || plotinfo.variable == "medianY") && layer == 0 &&
1979  direction == 0) {
1980  vdeltamean.push_back(deltamu);
1981  if (plotinfo.h1->GetEntries() && plotinfo.h2->GetEntries()) {
1982  float p = (float)resampleTestOfEqualMeans(plotinfo.h1, plotinfo.h2, 10000);
1983  vPValueEqualSplitMeans.push_back(p);
1984  }
1985  }
1986  }
1987 
1988  if (twolines_) {
1989  plotinfo.legend->AddEntry((TObject*)nullptr, legend.str().c_str(), "");
1990  plotinfo.legend->AddEntry((TObject*)nullptr, "", "");
1991  legend.str("");
1992  }
1993 
1994  if (!showUnderOverFlow_ && showModules_) {
1995  legend << (int)h->GetEntries() << " modules";
1996  }
1997  if (showUnderOverFlow_) {
1998  if (showModules_) {
1999  legend << (int)h->GetEntries() << " modules ("
2000  << (int)h->GetBinContent(0) + (int)h->GetBinContent(h->GetNbinsX() + 1) << " outside range)";
2001  } else {
2002  legend << (int)h->GetBinContent(0) + (int)h->GetBinContent(h->GetNbinsX() + 1) << " modules outside range";
2003  }
2004  }
2005  plotinfo.legend->AddEntry((TObject*)nullptr, legend.str().c_str(), "");
2006 
2007  // Scale the x-axis (cm to um), if needed
2008  if (plotinfo.variable.find("Norm") == std::string::npos)
2009  scaleXaxis(h, 10000);
2010 }
std::vector< double > vAlignmentUncertainty
std::vector< double > vmeanerror
void scaleXaxis(TH1 *hist, Int_t scale)
void setHistStyle(TH1 &hist, const char *titleX, const char *titleY, int color)
std::vector< double > vPValueMeanEqualIdeal
std::vector< double > vPValueRMSEqualIdeal
TF1 * fitGauss(TH1 *hist, int color)
constexpr std::array< uint8_t, layerIndexSize< TrackerTraits > > layer
T sqrt(T t)
Definition: SSEVec.h:19
double resampleTestOfEqualMeans(TH1F *h1, TH1F *h2, int numSamples)
std::vector< double > vPValueEqualSplitMeans
TString units(TString variable, Char_t axis)
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4
std::vector< double > vdeltamean
double resampleTestOfEqualRMS(TH1F *h1, TH1F *h2, int numSamples)
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29

◆ setHistStyle()

void PlotAlignmentValidation::setHistStyle ( TH1 &  hist,
const char *  titleX,
const char *  titleY,
int  color 
)
private

Definition at line 1723 of file PlotAlignmentValidation.cc.

References pileupCalc::binning, HLT_2022v15_cff::Class, and compareTotals::hist.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

1723  {
1724  std::stringstream title_Xaxis;
1725  std::stringstream title_Yaxis;
1726  TString titleXAxis = titleX;
1727  TString titleYAxis = titleY;
1728 
1729  if (titleXAxis.Contains("Phi"))
1730  title_Xaxis << titleX << "[rad]";
1731  else if (titleXAxis.Contains("meanX"))
1732  title_Xaxis << "#LTx'_{pred}-x'_{hit}#GT[#mum]";
1733  else if (titleXAxis.Contains("meanY"))
1734  title_Xaxis << "#LTy'_{pred}-y'_{hit}#GT[#mum]";
1735  else if (titleXAxis.Contains("rmsX"))
1736  title_Xaxis << "RMS(x'_{pred}-x'_{hit})[#mum]";
1737  else if (titleXAxis.Contains("rmsY"))
1738  title_Xaxis << "RMS(y'_{pred}-y'_{hit})[#mum]";
1739  else if (titleXAxis.Contains("meanNormX"))
1740  title_Xaxis << "#LTx'_{pred}-x'_{hit}/#sigma#GT";
1741  else if (titleXAxis.Contains("meanNormY"))
1742  title_Xaxis << "#LTy'_{pred}-y'_{hit}/#sigma#GT";
1743  else if (titleXAxis.Contains("rmsNormX"))
1744  title_Xaxis << "RMS(x'_{pred}-x'_{hit}/#sigma)";
1745  else if (titleXAxis.Contains("rmsNormY"))
1746  title_Xaxis << "RMS(y'_{pred}-y'_{hit}/#sigma)";
1747  else if (titleXAxis.Contains("meanLocalX"))
1748  title_Xaxis << "#LTx_{pred}-x_{hit}#GT[#mum]";
1749  else if (titleXAxis.Contains("rmsLocalX"))
1750  title_Xaxis << "RMS(x_{pred}-x_{hit})[#mum]";
1751  else if (titleXAxis.Contains("meanNormLocalX"))
1752  title_Xaxis << "#LTx_{pred}-x_{hit}/#sigma#GT[#mum]";
1753  else if (titleXAxis.Contains("rmsNormLocalX"))
1754  title_Xaxis << "RMS(x_{pred}-x_{hit}/#sigma)[#mum]";
1755  else if (titleXAxis.Contains("medianX"))
1756  title_Xaxis << "median(x'_{pred}-x'_{hit})[#mum]";
1757  else if (titleXAxis.Contains("medianY"))
1758  title_Xaxis << "median(y'_{pred}-y'_{hit})[#mum]";
1759  else
1760  title_Xaxis << titleX << "[cm]";
1761 
1762  if (hist.IsA()->InheritsFrom(TH1F::Class()))
1763  hist.SetLineColor(color);
1764  if (hist.IsA()->InheritsFrom(TProfile::Class())) {
1765  hist.SetMarkerStyle(20);
1766  hist.SetMarkerSize(0.8);
1767  hist.SetMarkerColor(color);
1768  }
1769 
1770  hist.GetXaxis()->SetTitle((title_Xaxis.str()).c_str());
1771 
1772  double binning = (hist.GetXaxis()->GetXmax() - hist.GetXaxis()->GetXmin()) / hist.GetNbinsX();
1773  title_Yaxis.precision(2);
1774 
1775  if (((titleYAxis.Contains("layer") || titleYAxis.Contains("ring")) && titleYAxis.Contains("subDetId")) ||
1776  titleYAxis.Contains("#modules")) {
1777  title_Yaxis << "number of modules";
1778  if (TString(title_Xaxis.str()).Contains("[#mum]"))
1779  title_Yaxis << " / " << binning << " #mum";
1780  else if (TString(title_Xaxis.str()).Contains("[cm]"))
1781  title_Yaxis << " / " << binning << " cm";
1782  else
1783  title_Yaxis << " / " << binning;
1784  } else
1785  title_Yaxis << titleY << "[cm]";
1786 
1787  hist.GetYaxis()->SetTitle((title_Yaxis.str()).c_str());
1788 
1789  hist.GetXaxis()->SetTitleFont(42);
1790  hist.GetYaxis()->SetTitleFont(42);
1791 }

◆ setLegendStyle()

void PlotAlignmentValidation::setLegendStyle ( TLegend &  leg)
private

◆ setNiceStyle()

void PlotAlignmentValidation::setNiceStyle ( )
private

◆ setOutputDir()

void PlotAlignmentValidation::setOutputDir ( std::string  dir)

Definition at line 190 of file PlotAlignmentValidation.cc.

References cms::cuda::assert(), gather_cfg::cout, DeadROC_duringRun::dir, openedsummaryfile, and outputDir.

Referenced by PlotAlignmentValidation().

190  {
191  if (openedsummaryfile) {
192  std::cout << "Can't set the output dir after opening the summary file!" << std::endl;
193  assert(0);
194  }
195  outputDir = dir;
196  gSystem->mkdir(outputDir.data(), true);
197 }
assert(be >=bs)

◆ setTitleStyle()

void PlotAlignmentValidation::setTitleStyle ( TNamed &  h,
const char *  titleX,
const char *  titleY,
int  subDetId,
bool  isSurfaceDeformation = false,
TString  secondline = "" 
)
private

Definition at line 1664 of file PlotAlignmentValidation.cc.

References gather_cfg::cout, TkAlStyle::drawStandardTitle(), compareTotals::hist, and GeomDetEnumerators::subDetId.

Referenced by plotDMR(), and plotSS().

1665  {
1666  std::stringstream title_Xaxis;
1667  std::stringstream title_Yaxis;
1668  TString titleXAxis = titleX;
1669  TString titleYAxis = titleY;
1670  if (titleXAxis != "" && titleYAxis != "")
1671  std::cout << "plot " << titleXAxis << " vs " << titleYAxis << std::endl;
1672 
1673  hist.SetTitle("");
1675 
1676  //Thanks Candice!
1677  TString subD;
1678  switch (subDetId) {
1679  case 1:
1680  subD = "BPIX";
1681  break;
1682  case 2:
1683  subD = "FPIX";
1684  break;
1685  case 3:
1686  subD = "TIB";
1687  break;
1688  case 4:
1689  subD = "TID";
1690  break;
1691  case 5:
1692  subD = "TOB";
1693  break;
1694  case 6:
1695  subD = "TEC";
1696  break;
1697  }
1698 
1699  TPaveText* text2;
1700  if (!isSurfaceDeformation) {
1701  text2 = new TPaveText(0.7, 0.3, 0.9, 0.6, "brNDC");
1702  } else {
1703  std::cout << "Surface Deformation" << std::endl;
1704  text2 = new TPaveText(0.8, 0.75, 0.9, 0.9, "brNDC");
1705  }
1706  text2->SetTextSize(0.06);
1707  text2->SetTextFont(42);
1708  text2->SetFillStyle(0);
1709  text2->SetBorderSize(0);
1710  text2->SetMargin(0.01);
1711  text2->SetTextAlign(12); // align left
1712  text2->AddText(0.01, 0.75, subD);
1713  if (secondline != "") {
1714  text2->AddText(0.01, 0.25, secondline);
1715  }
1716  text2->Draw();
1717 }
constexpr unsigned int subDetId[21]
static void drawStandardTitle()
Definition: TkAlStyle.h:65

◆ setTreeBaseDir()

void PlotAlignmentValidation::setTreeBaseDir ( std::string  dir = "TrackerOfflineValidation")

◆ storeHistogramInRootfile()

void PlotAlignmentValidation::storeHistogramInRootfile ( TH1 *  hist)
private

Definition at line 1634 of file PlotAlignmentValidation.cc.

References compareTotals::hist, and rootsummaryfile.

Referenced by plotDMRHistogram().

1634  {
1635  //Store histogram and fit function in the root summary file
1636  rootsummaryfile->cd();
1637  hist->Write();
1638 }

◆ twotailedStudentTTestEqualMean()

float PlotAlignmentValidation::twotailedStudentTTestEqualMean ( float  t,
float  v 
)

These are helpers for DMR plotting

Definition at line 2304 of file PlotAlignmentValidation.cc.

References funct::abs(), submitPVValidationJobs::t, and findQualityFiles::v.

2304  {
2305  return 2 * (1 - ROOT::Math::tdistribution_cdf(abs(t), v));
2306 }
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

◆ useFitForDMRplots()

void PlotAlignmentValidation::useFitForDMRplots ( bool  usefit = false)

Definition at line 97 of file PlotAlignmentValidation.cc.

References useFit_.

Member Data Documentation

◆ bigtext_

bool PlotAlignmentValidation::bigtext_
private

Definition at line 186 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), modifySSHistAndLegend(), and plotDMR().

◆ fileCounter

int PlotAlignmentValidation::fileCounter
private

Definition at line 225 of file PlotAlignmentValidation.h.

◆ fileNames

std::string PlotAlignmentValidation::fileNames[10]
private

Definition at line 224 of file PlotAlignmentValidation.h.

◆ moreThanOneSource

bool PlotAlignmentValidation::moreThanOneSource
private

Definition at line 223 of file PlotAlignmentValidation.h.

Referenced by getTreeList(), and PlotAlignmentValidation().

◆ openedsummaryfile

bool PlotAlignmentValidation::openedsummaryfile = false
private

Definition at line 189 of file PlotAlignmentValidation.h.

Referenced by loadFileList(), openSummaryFile(), and setOutputDir().

◆ outputDir

std::string PlotAlignmentValidation::outputDir
private

◆ outputFile

TString PlotAlignmentValidation::outputFile
private

◆ rootsummaryfile

TFile* PlotAlignmentValidation::rootsummaryfile
private

Definition at line 190 of file PlotAlignmentValidation.h.

Referenced by openSummaryFile(), and storeHistogramInRootfile().

◆ showMean_

bool PlotAlignmentValidation::showMean_
private

Definition at line 179 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), and setDMRHistStyleAndLegend().

◆ showMeanError_

bool PlotAlignmentValidation::showMeanError_
private

Definition at line 181 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), and setDMRHistStyleAndLegend().

◆ showModules_

bool PlotAlignmentValidation::showModules_
private

Definition at line 183 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), and setDMRHistStyleAndLegend().

◆ showRMS_

bool PlotAlignmentValidation::showRMS_
private

Definition at line 180 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), and setDMRHistStyleAndLegend().

◆ showRMSError_

bool PlotAlignmentValidation::showRMSError_
private

Definition at line 182 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), and setDMRHistStyleAndLegend().

◆ showUnderOverFlow_

bool PlotAlignmentValidation::showUnderOverFlow_
private

Definition at line 184 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), and setDMRHistStyleAndLegend().

◆ sourcelist

TList* PlotAlignmentValidation::sourcelist
private

◆ sourceList

std::vector<TkOfflineVariables*> PlotAlignmentValidation::sourceList
private

◆ summaryfile

std::ofstream PlotAlignmentValidation::summaryfile
private

Definition at line 188 of file PlotAlignmentValidation.h.

Referenced by openSummaryFile(), plotChi2(), and plotDMR().

◆ summaryfilename

const TString PlotAlignmentValidation::summaryfilename = "OfflineValidationSummary"
staticprivate

Definition at line 187 of file PlotAlignmentValidation.h.

Referenced by openSummaryFile().

◆ treeBaseDir

std::string PlotAlignmentValidation::treeBaseDir
private

Definition at line 176 of file PlotAlignmentValidation.h.

Referenced by getTreeList(), loadFileList(), and setTreeBaseDir().

◆ twolines_

bool PlotAlignmentValidation::twolines_
private

Definition at line 185 of file PlotAlignmentValidation.h.

Referenced by legendOptions(), plotDMR(), and setDMRHistStyleAndLegend().

◆ useFit_

bool PlotAlignmentValidation::useFit_
private

◆ vAlignmentUncertainty

std::vector<double> PlotAlignmentValidation::vAlignmentUncertainty
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vdeltamean

std::vector<double> PlotAlignmentValidation::vdeltamean
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vmean

std::vector<double> PlotAlignmentValidation::vmean
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vmeanerror

std::vector<double> PlotAlignmentValidation::vmeanerror
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vPValueEqualSplitMeans

std::vector<double> PlotAlignmentValidation::vPValueEqualSplitMeans
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vPValueMeanEqualIdeal

std::vector<double> PlotAlignmentValidation::vPValueMeanEqualIdeal
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vPValueRMSEqualIdeal

std::vector<double> PlotAlignmentValidation::vPValueRMSEqualIdeal
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().

◆ vrms

std::vector<double> PlotAlignmentValidation::vrms
private

Definition at line 192 of file PlotAlignmentValidation.h.

Referenced by plotDMR(), and setDMRHistStyleAndLegend().