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Vx3DHLTAnalyzer Class Reference

#include <Vx3DHLTAnalyzer.h>

Inheritance diagram for Vx3DHLTAnalyzer:
DQMOneLumiEDAnalyzer<> DQMOneEDAnalyzer< edm::EndLuminosityBlockProducer, edm::one::WatchLuminosityBlocks, Args... > edm::one::EDProducer< edm::EndRunProducer, edm::one::WatchRuns, edm::Accumulator, Args... > edm::one::EDProducerBase edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Public Member Functions

 Vx3DHLTAnalyzer (const edm::ParameterSet &)
 
 ~Vx3DHLTAnalyzer () override
 
- Public Member Functions inherited from DQMOneLumiEDAnalyzer<>
void accumulate (edm::Event const &event, edm::EventSetup const &setup) override
 
void beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
 
 DQMOneLumiEDAnalyzer ()
 
void endLuminosityBlock (edm::LuminosityBlock const &, edm::EventSetup const &) final
 
void endLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup) final
 
bool getCanSaveByLumi () override
 
- Public Member Functions inherited from DQMOneEDAnalyzer< edm::EndLuminosityBlockProducer, edm::one::WatchLuminosityBlocks, Args... >
void accumulate (edm::Event const &event, edm::EventSetup const &setup) override
 
void beginRun (edm::Run const &run, edm::EventSetup const &setup) final
 
 DQMOneEDAnalyzer ()
 
void endRun (edm::Run const &, edm::EventSetup const &) final
 
void endRunProduce (edm::Run &run, edm::EventSetup const &setup) final
 
- Public Member Functions inherited from edm::one::EDProducer< edm::EndRunProducer, edm::one::WatchRuns, edm::Accumulator, Args... >
 EDProducer ()=default
 
SerialTaskQueueglobalLuminosityBlocksQueue () final
 
SerialTaskQueueglobalRunsQueue () final
 
bool hasAbilityToProduceInBeginLumis () const final
 
bool hasAbilityToProduceInBeginRuns () const final
 
bool hasAbilityToProduceInEndLumis () const final
 
bool hasAbilityToProduceInEndRuns () const final
 
bool wantsGlobalLuminosityBlocks () const final
 
bool wantsGlobalRuns () const final
 
- Public Member Functions inherited from edm::one::EDProducerBase
 EDProducerBase ()
 
ModuleDescription const & moduleDescription () const
 
bool wantsStreamLuminosityBlocks () const
 
bool wantsStreamRuns () const
 
 ~EDProducerBase () override
 
- Public Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
std::vector< edm::ProductResolverIndex > const & indiciesForPutProducts (BranchType iBranchType) const
 
 ProducerBase ()
 
std::vector< edm::ProductResolverIndex > const & putTokenIndexToProductResolverIndex () const
 
std::vector< bool > const & recordProvenanceList () const
 
void registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
 
std::function< void(BranchDescription const &)> registrationCallback () const
 used by the fwk to register list of products More...
 
void resolvePutIndicies (BranchType iBranchType, ModuleToResolverIndicies const &iIndicies, std::string const &moduleLabel)
 
TypeLabelList const & typeLabelList () const
 used by the fwk to register the list of products of this module More...
 
 ~ProducerBase () noexcept(false) override
 
- Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfoconsumesInfo () const
 
void convertCurrentProcessAlias (std::string const &processName)
 Convert "@currentProcess" in InputTag process names to the actual current process name. More...
 
 EDConsumerBase ()
 
 EDConsumerBase (EDConsumerBase &&)=default
 
 EDConsumerBase (EDConsumerBase const &)=delete
 
ESProxyIndex const * esGetTokenIndices (edm::Transition iTrans) const
 
ProductResolverIndexAndSkipBit indexFrom (EDGetToken, BranchType, TypeID const &) const
 
void itemsMayGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
 
void itemsToGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
 
std::vector< ProductResolverIndexAndSkipBit > const & itemsToGetFrom (BranchType iType) const
 
void labelsForToken (EDGetToken iToken, Labels &oLabels) const
 
void modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
 
EDConsumerBaseoperator= (EDConsumerBase &&)=default
 
EDConsumerBase const & operator= (EDConsumerBase const &)=delete
 
bool registeredToConsume (ProductResolverIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
ProductResolverIndexAndSkipBit uncheckedIndexFrom (EDGetToken) const
 
void updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)
 
void updateLookup (eventsetup::ESRecordsToProxyIndices const &)
 
virtual ~EDConsumerBase () noexcept(false)
 

Protected Member Functions

double Gauss3DFunc (const double *par)
 
- Protected Member Functions inherited from DQMOneEDAnalyzer< edm::EndLuminosityBlockProducer, edm::one::WatchLuminosityBlocks, Args... >
virtual void bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &)=0
 
virtual void dqmBeginRun (edm::Run const &, edm::EventSetup const &)
 
virtual void dqmEndRun (edm::Run const &, edm::EventSetup const &)
 
- Protected Member Functions inherited from edm::ProducerBase
template<class ProductType >
BranchAliasSetterT< ProductType > produces ()
 declare what type of product will make and with which optional label More...
 
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType > produces ()
 
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType > produces ()
 
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<BranchType B>
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<Transition B>
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<class ProductType >
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
ProducesCollector producesCollector ()
 
- Protected Member Functions inherited from edm::EDConsumerBase
EDGetToken consumes (const TypeToGet &id, edm::InputTag const &tag)
 
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > consumes (edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken consumes (TypeToGet const &id, edm::InputTag const &tag)
 
ConsumesCollector consumesCollector ()
 Use a ConsumesCollector to gather consumes information from helper functions. More...
 
template<typename ProductType , BranchType B = InEvent>
void consumesMany ()
 
void consumesMany (const TypeToGet &id)
 
template<BranchType B>
void consumesMany (const TypeToGet &id)
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes ()
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes (ESInputTag const &tag)
 
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > mayConsume (edm::InputTag const &tag)
 

Private Member Functions

void analyze (const edm::Event &iEvent, const edm::EventSetup &iSetup) override
 
void bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
 
void dqmBeginLuminosityBlock (const edm::LuminosityBlock &lumiBlock, const edm::EventSetup &iSetup) override
 
void dqmEndLuminosityBlock (const edm::LuminosityBlock &lumiBlock, const edm::EventSetup &iSetup) override
 
std::string formatTime (const time_t &t)
 
unsigned int HitCounter (const edm::Event &iEvent)
 
int MyFit (std::vector< double > *vals)
 
void printFitParams (const std::vector< double > &fitResults)
 
void reset (std::string ResetType)
 
void writeToFile (std::vector< double > *vals, edm::TimeValue_t BeginTimeOfFit, edm::TimeValue_t EndTimeOfFit, unsigned int BeginLumiOfFit, unsigned int EndLumiOfFit, int dataType)
 

Private Attributes

unsigned int beginLumiOfFit
 
edm::TimeValue_t beginTimeOfFit
 
bool considerVxCovariance
 
unsigned int counterVx
 
bool dataFromFit
 
bool debugMode
 
MonitorElementdxdzlumi
 
MonitorElementdydzlumi
 
unsigned int endLumiOfFit
 
edm::TimeValue_t endTimeOfFit
 
std::string fileName
 
MonitorElementfitResults
 
MonitorElementgoodVxCounter
 
MonitorElementhitCounter
 
bool internalDebug
 
unsigned int lastLumiOfFit
 
unsigned int lumiCounter
 
double maxLongLength
 
unsigned int maxLumiIntegration
 
double maxTransRadius
 
unsigned int minNentries
 
double minVxDoF
 
double minVxWgt
 
MonitorElementmXlumi
 
MonitorElementmYlumi
 
MonitorElementmZlumi
 
unsigned int nLumiFit
 
unsigned int nLumiXaxisRange
 
unsigned int nParams
 
unsigned int numberFits
 
unsigned int numberGoodFits
 
std::ofstream outputDebugFile
 
std::ofstream outputFile
 
double pi
 
edm::EDGetTokenT< SiPixelRecHitCollectionpixelHitCollection
 
MonitorElementreportSummary
 
MonitorElementreportSummaryMap
 
unsigned int runNumber
 
MonitorElementstatusCounter
 
MonitorElementsXlumi
 
MonitorElementsYlumi
 
MonitorElementsZlumi
 
unsigned int totalHits
 
edm::EDGetTokenT< reco::VertexCollectionvertexCollection
 
std::vector< VertexTypeVertices
 
MonitorElementVx_X
 
MonitorElementVx_X_Cum
 
MonitorElementVx_X_Fit
 
MonitorElementVx_XY
 
MonitorElementVx_XY_Cum
 
MonitorElementVx_Y
 
MonitorElementVx_Y_Cum
 
MonitorElementVx_Y_Fit
 
MonitorElementVx_Z
 
MonitorElementVx_Z_Cum
 
MonitorElementVx_Z_Fit
 
MonitorElementVx_ZX
 
MonitorElementVx_ZX_Cum
 
MonitorElementVx_ZY
 
MonitorElementVx_ZY_Cum
 
double VxErrCorr
 
double xPos
 
double xRange
 
double xStep
 
double yPos
 
double yRange
 
double yStep
 
double zPos
 
double zRange
 
double zStep
 

Additional Inherited Members

- Public Types inherited from DQMOneEDAnalyzer< edm::EndLuminosityBlockProducer, edm::one::WatchLuminosityBlocks, Args... >
typedef dqm::reco::DQMStore DQMStore
 
typedef dqm::reco::MonitorElement MonitorElement
 
- Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase ModuleType
 
- Public Types inherited from edm::ProducerBase
using ModuleToResolverIndicies = std::unordered_multimap< std::string, std::tuple< edm::TypeID const *, const char *, edm::ProductResolverIndex > >
 
typedef ProductRegistryHelper::TypeLabelList TypeLabelList
 
- Public Types inherited from edm::EDConsumerBase
typedef ProductLabels Labels
 
- Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
- Protected Attributes inherited from DQMOneLumiEDAnalyzer<>
edm::EDPutTokenT< DQMTokenlumiToken_
 
- Protected Attributes inherited from DQMOneEDAnalyzer< edm::EndLuminosityBlockProducer, edm::one::WatchLuminosityBlocks, Args... >
edm::EDPutTokenT< DQMTokenrunToken_
 

Detailed Description

Definition at line 43 of file Vx3DHLTAnalyzer.h.

Constructor & Destructor Documentation

◆ Vx3DHLTAnalyzer()

Vx3DHLTAnalyzer::Vx3DHLTAnalyzer ( const edm::ParameterSet iConfig)

Definition at line 25 of file Vx3DHLTAnalyzer.cc.

25  {
26  debugMode = true;
27  nLumiFit = 2; // Number of integrated lumis to perform the fit
29  15; // If failing fits, this is the maximum number of integrated lumis after which a reset is issued
30  nLumiXaxisRange = 5000; // Correspond to about 32h of data taking: 32h * 60min * 60s / 23s per lumi-block = 5009
31  dataFromFit = true; // The Beam Spot data can be either taken from the histograms or from the fit results
32  minNentries = 20; // Minimum number of good vertices to perform the fit
33  xRange = 0.8; // [cm]
34  xStep = 0.001; // [cm]
35  yRange = 0.8; // [cm]
36  yStep = 0.001; // [cm]
37  zRange = 30.; // [cm]
38  zStep = 0.04; // [cm]
39  VxErrCorr = 1.3;
40  minVxDoF = 10.; // Good-vertex selection cut
41  // For vertex fitter without track-weight: d.o.f. = 2*NTracks - 3
42  // For vertex fitter with track-weight: d.o.f. = sum_NTracks(2*track_weight) - 3
43  minVxWgt = 0.5; // Good-vertex selection cut
44  fileName = "BeamPixelResults.txt";
45 
46  vertexCollection = consumes<VertexCollection>(
47  iConfig.getUntrackedParameter<InputTag>("vertexCollection", InputTag("pixelVertices")));
48  pixelHitCollection = consumes<SiPixelRecHitCollection>(
49  iConfig.getUntrackedParameter<InputTag>("pixelHitCollection", InputTag("siPixelRecHits")));
50 
51  debugMode = iConfig.getParameter<bool>("debugMode");
52  nLumiFit = iConfig.getParameter<unsigned int>("nLumiFit");
53  maxLumiIntegration = iConfig.getParameter<unsigned int>("maxLumiIntegration");
54  nLumiXaxisRange = iConfig.getParameter<unsigned int>("nLumiXaxisRange");
55  dataFromFit = iConfig.getParameter<bool>("dataFromFit");
56  minNentries = iConfig.getParameter<unsigned int>("minNentries");
57  xRange = iConfig.getParameter<double>("xRange");
58  xStep = iConfig.getParameter<double>("xStep");
59  yRange = iConfig.getParameter<double>("yRange");
60  yStep = iConfig.getParameter<double>("yStep");
61  zRange = iConfig.getParameter<double>("zRange");
62  zStep = iConfig.getParameter<double>("zStep");
63  VxErrCorr = iConfig.getParameter<double>("VxErrCorr");
64  minVxDoF = iConfig.getParameter<double>("minVxDoF");
65  minVxWgt = iConfig.getParameter<double>("minVxWgt");
66  fileName = iConfig.getParameter<string>("fileName");
67 
68  // ### Set internal variables ###
69  nParams = 9; // Number of free parameters in the fit
70  internalDebug = false;
71  considerVxCovariance = true; // Deconvolute vertex covariance matrix
72  pi = 3.141592653589793238;
73  // ##############################
74 }

References beampixel_dqm_sourceclient-live_cfg::dataFromFit, beampixel_dqm_sourceclient-live_cfg::debugMode, MillePedeFileConverter_cfg::fileName, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), beampixel_dqm_sourceclient-live_cfg::maxLumiIntegration, beampixel_dqm_sourceclient-live_cfg::minNentries, beampixel_dqm_sourceclient-live_cfg::minVxDoF, beampixel_dqm_sourceclient-live_cfg::minVxWgt, beampixel_dqm_sourceclient-live_cfg::nLumiFit, beampixel_dqm_sourceclient-live_cfg::nLumiXaxisRange, pi, beampixel_dqm_sourceclient-live_cfg::pixelHitCollection, spclusmultinvestigator_cfi::vertexCollection, beampixel_dqm_sourceclient-live_cfg::VxErrCorr, beampixel_dqm_sourceclient-live_cfg::xRange, beampixel_dqm_sourceclient-live_cfg::xStep, beampixel_dqm_sourceclient-live_cfg::yRange, beampixel_dqm_sourceclient-live_cfg::yStep, beampixel_dqm_sourceclient-live_cfg::zRange, and beampixel_dqm_sourceclient-live_cfg::zStep.

◆ ~Vx3DHLTAnalyzer()

Vx3DHLTAnalyzer::~Vx3DHLTAnalyzer ( )
override

Definition at line 76 of file Vx3DHLTAnalyzer.cc.

76 {}

Member Function Documentation

◆ analyze()

void Vx3DHLTAnalyzer::analyze ( const edm::Event iEvent,
const edm::EventSetup iSetup 
)
overrideprivatevirtual

Reimplemented from DQMOneEDAnalyzer< edm::EndLuminosityBlockProducer, edm::one::WatchLuminosityBlocks, Args... >.

Definition at line 78 of file Vx3DHLTAnalyzer.cc.

78  {
79  Handle<VertexCollection> Vx3DCollection;
80  iEvent.getByToken(vertexCollection, Vx3DCollection);
81 
82  unsigned int i, j;
83  double det;
84  VertexType MyVertex;
85 
86  if (runNumber != iEvent.id().run()) {
87  reset("scratch");
88  runNumber = iEvent.id().run();
89 
90  if (debugMode == true) {
91  stringstream debugFile;
92  string tmp(fileName);
93 
94  if (outputDebugFile.is_open() == true)
95  outputDebugFile.close();
96  tmp.erase(strlen(fileName.c_str()) - 4, 4);
97  debugFile << tmp.c_str() << "_Run" << iEvent.id().run() << ".txt";
98  outputDebugFile.open(debugFile.str().c_str(), ios::out);
99  outputDebugFile.close();
100  outputDebugFile.open(debugFile.str().c_str(), ios::app);
101  }
102 
103  dqmBeginLuminosityBlock(iEvent.getLuminosityBlock(), iSetup);
104  } else if (beginTimeOfFit != 0) {
106 
107  if (internalDebug == true) {
108  cout << "[Vx3DHLTAnalyzer]::\tI found " << totalHits << " pixel hits until now" << endl;
109  cout << "[Vx3DHLTAnalyzer]::\tIn this event there are " << Vx3DCollection->size() << " vertex cadidates" << endl;
110  }
111 
112  for (vector<Vertex>::const_iterator it3DVx = Vx3DCollection->begin(); it3DVx != Vx3DCollection->end(); it3DVx++) {
113  if (internalDebug == true) {
114  cout << "[Vx3DHLTAnalyzer]::\tVertex selections:" << endl;
115  cout << "[Vx3DHLTAnalyzer]::\tEvent ID = " << iEvent.id() << endl;
116  cout << "[Vx3DHLTAnalyzer]::\tVertex number = " << it3DVx - Vx3DCollection->begin() << endl;
117  cout << "[Vx3DHLTAnalyzer]::\tisValid = " << it3DVx->isValid() << endl;
118  cout << "[Vx3DHLTAnalyzer]::\tisFake = " << it3DVx->isFake() << endl;
119  cout << "[Vx3DHLTAnalyzer]::\tnodof = " << it3DVx->ndof() << endl;
120  cout << "[Vx3DHLTAnalyzer]::\ttracksSize = " << it3DVx->tracksSize() << endl;
121  }
122 
123  if ((it3DVx->isValid() == true) && (it3DVx->isFake() == false) && (it3DVx->ndof() >= minVxDoF) &&
124  (it3DVx->tracksSize() > 0) && ((it3DVx->ndof() + 3.) / ((double)it3DVx->tracksSize()) >= 2. * minVxWgt)) {
125  for (i = 0; i < DIM; i++) {
126  for (j = 0; j < DIM; j++) {
127  MyVertex.Covariance[i][j] = it3DVx->covariance(i, j);
128  if (isNotFinite(MyVertex.Covariance[i][j]) == true)
129  break;
130  }
131 
132  if (j != DIM)
133  break;
134  }
135 
136  if (i == DIM)
137  det = std::fabs(MyVertex.Covariance[0][0]) *
138  (std::fabs(MyVertex.Covariance[1][1]) * std::fabs(MyVertex.Covariance[2][2]) -
139  MyVertex.Covariance[1][2] * MyVertex.Covariance[1][2]) -
140  MyVertex.Covariance[0][1] * (MyVertex.Covariance[0][1] * std::fabs(MyVertex.Covariance[2][2]) -
141  MyVertex.Covariance[0][2] * MyVertex.Covariance[1][2]) +
142  MyVertex.Covariance[0][2] * (MyVertex.Covariance[0][1] * MyVertex.Covariance[1][2] -
143  MyVertex.Covariance[0][2] * std::fabs(MyVertex.Covariance[1][1]));
144 
145  if ((i == DIM) && (det > 0.)) {
146  if (internalDebug == true)
147  cout << "[Vx3DHLTAnalyzer]::\tVertex accepted !" << endl;
148 
149  MyVertex.x = it3DVx->x();
150  MyVertex.y = it3DVx->y();
151  MyVertex.z = it3DVx->z();
152  Vertices.push_back(MyVertex);
153 
154  Vx_X->Fill(it3DVx->x());
155  Vx_Y->Fill(it3DVx->y());
156  Vx_Z->Fill(it3DVx->z());
157 
158  Vx_ZX->Fill(it3DVx->z(), it3DVx->x());
159  Vx_ZY->Fill(it3DVx->z(), it3DVx->y());
160  Vx_XY->Fill(it3DVx->x(), it3DVx->y());
161 
162  Vx_X_Cum->Fill(it3DVx->x());
163  Vx_Y_Cum->Fill(it3DVx->y());
164  Vx_Z_Cum->Fill(it3DVx->z());
165 
166  Vx_ZX_Cum->Fill(it3DVx->z(), it3DVx->x());
167  Vx_ZY_Cum->Fill(it3DVx->z(), it3DVx->y());
168  Vx_XY_Cum->Fill(it3DVx->x(), it3DVx->y());
169  } else if (internalDebug == true) {
170  cout << "[Vx3DHLTAnalyzer]::\tVertex discarded !" << endl;
171 
172  for (i = 0; i < DIM; i++)
173  for (j = 0; j < DIM; j++)
174  cout << "(i,j) --> " << i << "," << j << " --> " << MyVertex.Covariance[i][j] << endl;
175  }
176  } else if (internalDebug == true)
177  cout << "[Vx3DHLTAnalyzer]::\tVertex discarded !" << endl;
178  }
179  }
180 }

References gather_cfg::cout, VertexType::Covariance, beampixel_dqm_sourceclient-live_cfg::debugMode, DIM, MillePedeFileConverter_cfg::fileName, mps_fire::i, iEvent, edm::isNotFinite(), dqmiolumiharvest::j, beampixel_dqm_sourceclient-live_cfg::minVxDoF, beampixel_dqm_sourceclient-live_cfg::minVxWgt, MillePedeFileConverter_cfg::out, reset(), convertSQLiteXML::runNumber, createJobs::tmp, spclusmultinvestigator_cfi::vertexCollection, pfPileUpJME_cfi::Vertices, VertexType::x, VertexType::y, and VertexType::z.

◆ bookHistograms()

void Vx3DHLTAnalyzer::bookHistograms ( DQMStore::IBooker ibooker,
edm::Run const &  iRun,
edm::EventSetup const &   
)
overrideprivate

Definition at line 1314 of file Vx3DHLTAnalyzer.cc.

1314  {
1315  ibooker.setCurrentFolder("BeamPixel");
1316 
1317  Vx_X = ibooker.book1D(
1318  "F - vertex x", "Primary Vertex X Distribution", int(rint(xRange / xStep)), -xRange / 2., xRange / 2.);
1319  Vx_Y = ibooker.book1D(
1320  "F - vertex y", "Primary Vertex Y Distribution", int(rint(yRange / yStep)), -yRange / 2., yRange / 2.);
1321  Vx_Z = ibooker.book1D(
1322  "F - vertex z", "Primary Vertex Z Distribution", int(rint(zRange / zStep)), -zRange / 2., zRange / 2.);
1323  Vx_X->setAxisTitle("Primary Vertices X [cm]", 1);
1324  Vx_X->setAxisTitle("Entries [#]", 2);
1325  Vx_Y->setAxisTitle("Primary Vertices Y [cm]", 1);
1326  Vx_Y->setAxisTitle("Entries [#]", 2);
1327  Vx_Z->setAxisTitle("Primary Vertices Z [cm]", 1);
1328  Vx_Z->setAxisTitle("Entries [#]", 2);
1329 
1330  Vx_X_Fit = ibooker.book1D("G - vertex x fit",
1331  "Primary Vertex X Distribution (For Fit)",
1332  int(rint(xRange / xStep)),
1333  -xRange / 2.,
1334  xRange / 2.);
1335  Vx_Y_Fit = ibooker.book1D("G - vertex y fit",
1336  "Primary Vertex Y Distribution (For Fit)",
1337  int(rint(yRange / yStep)),
1338  -yRange / 2.,
1339  yRange / 2.);
1340  Vx_Z_Fit = ibooker.book1D("G - vertex z fit",
1341  "Primary Vertex Z Distribution (For Fit)",
1342  int(rint(zRange / zStep)),
1343  -zRange / 2.,
1344  zRange / 2.);
1345  Vx_X_Fit->setAxisTitle("Primary Vertices X [cm]", 1);
1346  Vx_X_Fit->setAxisTitle("Entries [#]", 2);
1347  Vx_Y_Fit->setAxisTitle("Primary Vertices Y [cm]", 1);
1348  Vx_Y_Fit->setAxisTitle("Entries [#]", 2);
1349  Vx_Z_Fit->setAxisTitle("Primary Vertices Z [cm]", 1);
1350  Vx_Z_Fit->setAxisTitle("Entries [#]", 2);
1351 
1352  Vx_X_Cum = ibooker.book1D("I - vertex x cum",
1353  "Primary Vertex X Distribution (Cumulative)",
1354  int(rint(xRange / xStep)),
1355  -xRange / 2.,
1356  xRange / 2.);
1357  Vx_Y_Cum = ibooker.book1D("I - vertex y cum",
1358  "Primary Vertex Y Distribution (Cumulative)",
1359  int(rint(yRange / yStep)),
1360  -yRange / 2.,
1361  yRange / 2.);
1362  Vx_Z_Cum = ibooker.book1D("I - vertex z cum",
1363  "Primary Vertex Z Distribution (Cumulative)",
1364  int(rint(zRange / zStep)),
1365  -zRange / 2.,
1366  zRange / 2.);
1367  Vx_X_Cum->setAxisTitle("Primary Vertices X [cm]", 1);
1368  Vx_X_Cum->setAxisTitle("Entries [#]", 2);
1369  Vx_Y_Cum->setAxisTitle("Primary Vertices Y [cm]", 1);
1370  Vx_Y_Cum->setAxisTitle("Entries [#]", 2);
1371  Vx_Z_Cum->setAxisTitle("Primary Vertices Z [cm]", 1);
1372  Vx_Z_Cum->setAxisTitle("Entries [#]", 2);
1373 
1374  mXlumi = ibooker.book1D(
1375  "B - muX vs lumi", "#mu_{x} vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1376  mYlumi = ibooker.book1D(
1377  "B - muY vs lumi", "#mu_{y} vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1378  mZlumi = ibooker.book1D(
1379  "B - muZ vs lumi", "#mu_{z} vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1380  mXlumi->setAxisTitle("Lumisection [#]", 1);
1381  mXlumi->setAxisTitle("#mu_{x} [cm]", 2);
1382  mXlumi->getTH1()->SetOption("E1");
1383  mYlumi->setAxisTitle("Lumisection [#]", 1);
1384  mYlumi->setAxisTitle("#mu_{y} [cm]", 2);
1385  mYlumi->getTH1()->SetOption("E1");
1386  mZlumi->setAxisTitle("Lumisection [#]", 1);
1387  mZlumi->setAxisTitle("#mu_{z} [cm]", 2);
1388  mZlumi->getTH1()->SetOption("E1");
1389 
1390  sXlumi = ibooker.book1D(
1391  "C - sigmaX vs lumi", "#sigma_{x} vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1392  sYlumi = ibooker.book1D(
1393  "C - sigmaY vs lumi", "#sigma_{y} vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1394  sZlumi = ibooker.book1D(
1395  "C - sigmaZ vs lumi", "#sigma_{z} vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1396  sXlumi->setAxisTitle("Lumisection [#]", 1);
1397  sXlumi->setAxisTitle("#sigma_{x} [cm]", 2);
1398  sXlumi->getTH1()->SetOption("E1");
1399  sYlumi->setAxisTitle("Lumisection [#]", 1);
1400  sYlumi->setAxisTitle("#sigma_{y} [cm]", 2);
1401  sYlumi->getTH1()->SetOption("E1");
1402  sZlumi->setAxisTitle("Lumisection [#]", 1);
1403  sZlumi->setAxisTitle("#sigma_{z} [cm]", 2);
1404  sZlumi->getTH1()->SetOption("E1");
1405 
1406  dxdzlumi = ibooker.book1D(
1407  "D - dxdz vs lumi", "dX/dZ vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1408  dydzlumi = ibooker.book1D(
1409  "D - dydz vs lumi", "dY/dZ vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1410  dxdzlumi->setAxisTitle("Lumisection [#]", 1);
1411  dxdzlumi->setAxisTitle("dX/dZ [rad]", 2);
1412  dxdzlumi->getTH1()->SetOption("E1");
1413  dydzlumi->setAxisTitle("Lumisection [#]", 1);
1414  dydzlumi->setAxisTitle("dY/dZ [rad]", 2);
1415  dydzlumi->getTH1()->SetOption("E1");
1416 
1417  Vx_ZX = ibooker.book2D("E - vertex zx",
1418  "Primary Vertex ZX Distribution",
1419  int(rint(zRange / zStep)),
1420  -zRange / 2.,
1421  zRange / 2.,
1422  int(rint(xRange / xStep)),
1423  -xRange / 2.,
1424  xRange / 2.);
1425  Vx_ZY = ibooker.book2D("E - vertex zy",
1426  "Primary Vertex ZY Distribution",
1427  int(rint(zRange / zStep)),
1428  -zRange / 2.,
1429  zRange / 2.,
1430  int(rint(yRange / yStep)),
1431  -yRange / 2.,
1432  yRange / 2.);
1433  Vx_XY = ibooker.book2D("E - vertex xy",
1434  "Primary Vertex XY Distribution",
1435  int(rint(xRange / xStep)),
1436  -xRange / 2.,
1437  xRange / 2.,
1438  int(rint(yRange / yStep)),
1439  -yRange / 2.,
1440  yRange / 2.);
1441  Vx_ZX->setAxisTitle("Primary Vertices Z [cm]", 1);
1442  Vx_ZX->setAxisTitle("Primary Vertices X [cm]", 2);
1443  Vx_ZX->setAxisTitle("Entries [#]", 3);
1444  Vx_ZY->setAxisTitle("Primary Vertices Z [cm]", 1);
1445  Vx_ZY->setAxisTitle("Primary Vertices Y [cm]", 2);
1446  Vx_ZY->setAxisTitle("Entries [#]", 3);
1447  Vx_XY->setAxisTitle("Primary Vertices X [cm]", 1);
1448  Vx_XY->setAxisTitle("Primary Vertices Y [cm]", 2);
1449  Vx_XY->setAxisTitle("Entries [#]", 3);
1450 
1451  Vx_ZX_Cum = ibooker.book2D("H - vertex zx cum",
1452  "Primary Vertex ZX Distribution (Cumulative)",
1453  int(rint(zRange / zStep)),
1454  -zRange / 2.,
1455  zRange / 2.,
1456  int(rint(xRange / xStep)),
1457  -xRange / 2.,
1458  xRange / 2.);
1459  Vx_ZY_Cum = ibooker.book2D("H - vertex zy cum",
1460  "Primary Vertex ZY Distribution (Cumulative)",
1461  int(rint(zRange / zStep)),
1462  -zRange / 2.,
1463  zRange / 2.,
1464  int(rint(yRange / yStep)),
1465  -yRange / 2.,
1466  yRange / 2.);
1467  Vx_XY_Cum = ibooker.book2D("H - vertex xy cum",
1468  "Primary Vertex XY Distribution (Cumulative)",
1469  int(rint(xRange / xStep)),
1470  -xRange / 2.,
1471  xRange / 2.,
1472  int(rint(yRange / yStep)),
1473  -yRange / 2.,
1474  yRange / 2.);
1475  Vx_ZX_Cum->setAxisTitle("Primary Vertices Z [cm]", 1);
1476  Vx_ZX_Cum->setAxisTitle("Primary Vertices X [cm]", 2);
1477  Vx_ZX_Cum->setAxisTitle("Entries [#]", 3);
1478  Vx_ZY_Cum->setAxisTitle("Primary Vertices Z [cm]", 1);
1479  Vx_ZY_Cum->setAxisTitle("Primary Vertices Y [cm]", 2);
1480  Vx_ZY_Cum->setAxisTitle("Entries [#]", 3);
1481  Vx_XY_Cum->setAxisTitle("Primary Vertices X [cm]", 1);
1482  Vx_XY_Cum->setAxisTitle("Primary Vertices Y [cm]", 2);
1483  Vx_XY_Cum->setAxisTitle("Entries [#]", 3);
1484 
1485  hitCounter = ibooker.book1D(
1486  "J - pixelHits vs lumi", "# Pixel-Hits vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1487  hitCounter->setAxisTitle("Lumisection [#]", 1);
1488  hitCounter->setAxisTitle("Pixel-Hits [#]", 2);
1489  hitCounter->getTH1()->SetOption("E1");
1490 
1491  goodVxCounter = ibooker.book1D("K - good vertices vs lumi",
1492  "# Good vertices vs. Lumisection",
1494  0.5,
1495  ((double)nLumiXaxisRange) + 0.5);
1496  goodVxCounter->setAxisTitle("Lumisection [#]", 1);
1497  goodVxCounter->setAxisTitle("Good vertices [#]", 2);
1498  goodVxCounter->getTH1()->SetOption("E1");
1499 
1500  statusCounter = ibooker.book1D(
1501  "L - status vs lumi", "App. Status vs. Lumisection", nLumiXaxisRange, 0.5, ((double)nLumiXaxisRange) + 0.5);
1502  statusCounter->setAxisTitle("Lumisection [#]", 1);
1503  statusCounter->getTH1()->SetOption("E1");
1504  statusCounter->getTH1()->GetYaxis()->Set(11, -5.5, 5.5);
1505  statusCounter->getTH1()->GetYaxis()->SetBinLabel(1, "Max Lumi.");
1506  statusCounter->getTH1()->GetYaxis()->SetBinLabel(2, "Neg. det.");
1507  statusCounter->getTH1()->GetYaxis()->SetBinLabel(3, "Infinite err.");
1508  statusCounter->getTH1()->GetYaxis()->SetBinLabel(4, "No vtx.");
1509  statusCounter->getTH1()->GetYaxis()->SetBinLabel(5, "Infinite EDM");
1510  statusCounter->getTH1()->GetYaxis()->SetBinLabel(6, "OK");
1511  statusCounter->getTH1()->GetYaxis()->SetBinLabel(7, "MINUIT stat.");
1512  statusCounter->getTH1()->GetYaxis()->SetBinLabel(8, "MINUIT stat.");
1513  statusCounter->getTH1()->GetYaxis()->SetBinLabel(9, "MINUIT stat.");
1514  statusCounter->getTH1()->GetYaxis()->SetBinLabel(10, "MINUIT stat.");
1515  statusCounter->getTH1()->GetYaxis()->SetBinLabel(11, "MINUIT stat.");
1516 
1517  fitResults = ibooker.book2D("A - fit results", "Results of Beam Spot Fit", 2, 0., 2., 9, 0., 9.);
1518  fitResults->setAxisTitle("Ongoing: bootstrapping", 1);
1519  fitResults->setBinLabel(9, "X[cm]", 2);
1520  fitResults->setBinLabel(8, "Y[cm]", 2);
1521  fitResults->setBinLabel(7, "Z[cm]", 2);
1522  fitResults->setBinLabel(6, "#sigma_{X}[cm]", 2);
1523  fitResults->setBinLabel(5, "#sigma_{Y}[cm]", 2);
1524  fitResults->setBinLabel(4, "#sigma_{Z}[cm]", 2);
1525  fitResults->setBinLabel(3, "#frac{dX}{dZ}[rad]", 2);
1526  fitResults->setBinLabel(2, "#frac{dY}{dZ}[rad]", 2);
1527  fitResults->setBinLabel(1, "Vtx[#]", 2);
1528  fitResults->setBinLabel(1, "Value", 1);
1529  fitResults->setBinLabel(2, "Error (stat)", 1);
1530  fitResults->getTH1()->SetOption("text");
1531 
1532  ibooker.setCurrentFolder("BeamPixel/EventInfo");
1533 
1534  reportSummary = ibooker.bookFloat("reportSummary");
1535  reportSummary->Fill(-1);
1536  reportSummaryMap = ibooker.book2D("reportSummaryMap", "Pixel-Vertices Beam Spot: % Good Fits", 1, 0., 1., 1, 0., 1.);
1537  reportSummaryMap->getTH1()->SetBinContent(1, 1, -1);
1538 
1539  ibooker.setCurrentFolder("BeamPixel/EventInfo/reportSummaryContents");
1540 
1541  // Convention for reportSummary and reportSummaryMap:
1542  // - -1% at the moment of creation of the histogram (i.e. white histogram)
1543  // - n% numberGoodFits / numberFits
1544 
1545  reset("scratch"); // Initialize histograms after creation
1546 }

References beampixel_dqm_sourceclient-live_cfg::nLumiXaxisRange, reset(), beampixel_dqm_sourceclient-live_cfg::xRange, beampixel_dqm_sourceclient-live_cfg::xStep, beampixel_dqm_sourceclient-live_cfg::yRange, beampixel_dqm_sourceclient-live_cfg::yStep, beampixel_dqm_sourceclient-live_cfg::zRange, and beampixel_dqm_sourceclient-live_cfg::zStep.

◆ dqmBeginLuminosityBlock()

void Vx3DHLTAnalyzer::dqmBeginLuminosityBlock ( const edm::LuminosityBlock lumiBlock,
const edm::EventSetup iSetup 
)
overrideprivatevirtual

Reimplemented from DQMOneLumiEDAnalyzer<>.

Definition at line 925 of file Vx3DHLTAnalyzer.cc.

925  {
926  // @@@ If statement to avoid problems with non-sequential lumisections @@@
927  if ((lumiCounter == 0) && (lumiBlock.luminosityBlock() > lastLumiOfFit)) {
928  beginTimeOfFit = lumiBlock.beginTime().value();
929  beginLumiOfFit = lumiBlock.luminosityBlock();
930  lumiCounter++;
931  } else if ((lumiCounter != 0) && (lumiBlock.luminosityBlock() >= (beginLumiOfFit + lumiCounter)))
932  lumiCounter++;
933  else
934  reset("scratch");
935 }

References edm::LuminosityBlockBase::beginTime(), edm::LuminosityBlockBase::luminosityBlock(), reset(), and edm::Timestamp::value().

◆ dqmEndLuminosityBlock()

void Vx3DHLTAnalyzer::dqmEndLuminosityBlock ( const edm::LuminosityBlock lumiBlock,
const edm::EventSetup iSetup 
)
overrideprivatevirtual

Reimplemented from DQMOneLumiEDAnalyzer<>.

Definition at line 937 of file Vx3DHLTAnalyzer.cc.

937  {
938  stringstream histTitle;
939  double minXfit, maxXfit;
940  int goodData;
941 
942  if ((nLumiFit != 0) && (lumiCounter % nLumiFit == 0) && (beginTimeOfFit != 0) && (runNumber != 0)) {
943  endTimeOfFit = lumiBlock.endTime().value();
944  endLumiOfFit = lumiBlock.luminosityBlock();
946  vector<double> vals;
947 
948  hitCounter->getTH1()->SetBinContent(lastLumiOfFit, (double)totalHits);
949  hitCounter->getTH1()->SetBinError(
951  (totalHits != 0 ? 1.
952  : 0.)); // It's not sqrt(n) because we want to weight all entries in the same way for the fit
953 
954  if (dataFromFit == true) {
955  vector<double> fitResults;
956 
957  fitResults.push_back(Vx_X->getTH1()->GetRMS() * Vx_X->getTH1()->GetRMS());
958  fitResults.push_back(Vx_Y->getTH1()->GetRMS() * Vx_Y->getTH1()->GetRMS());
959  fitResults.push_back(Vx_Z->getTH1()->GetRMS() * Vx_Z->getTH1()->GetRMS());
960  fitResults.push_back(0.0);
961  fitResults.push_back(0.0);
962  fitResults.push_back(0.0);
963  fitResults.push_back(Vx_X->getTH1()->GetMean());
964  fitResults.push_back(Vx_Y->getTH1()->GetMean());
965  fitResults.push_back(Vx_Z->getTH1()->GetMean());
966  for (unsigned int i = 0; i < nParams; i++)
967  fitResults.push_back(0.0);
968 
969  if (internalDebug == true) {
970  cout << "[Vx3DHLTAnalyzer]::\t@@@ Beam Spot parameters - prefit @@@" << endl;
971 
973 
974  cout << "Runnumber " << runNumber << endl;
975  cout << "BeginTimeOfFit " << formatTime(beginTimeOfFit >> 32) << " " << (beginTimeOfFit >> 32) << endl;
976  cout << "EndTimeOfFit " << formatTime(endTimeOfFit >> 32) << " " << (endTimeOfFit >> 32) << endl;
977  cout << "LumiRange " << beginLumiOfFit << " - " << endLumiOfFit << endl;
978  }
979 
980  goodData = MyFit(&fitResults);
981 
982  if (internalDebug == true) {
983  cout << "[Vx3DHLTAnalyzer]::\t@@@ Beam Spot parameters - postfit @@@" << endl;
984 
986 
987  cout << "goodData --> " << goodData << endl;
988  cout << "Used vertices --> " << counterVx << endl;
989  }
990 
991  if (goodData == 0) {
992  vals.push_back(fitResults[6]);
993  vals.push_back(fitResults[7]);
994  vals.push_back(fitResults[8]);
995  vals.push_back(std::sqrt(std::fabs(fitResults[0])));
996  vals.push_back(std::sqrt(std::fabs(fitResults[1])));
997  vals.push_back(std::sqrt(std::fabs(fitResults[2])));
998  vals.push_back(fitResults[5]);
999  vals.push_back(fitResults[4]);
1000 
1001  vals.push_back(std::pow(fitResults[6 + nParams], 2.));
1002  vals.push_back(std::pow(fitResults[7 + nParams], 2.));
1003  vals.push_back(std::pow(fitResults[8 + nParams], 2.));
1004  vals.push_back(std::pow(std::fabs(fitResults[0 + nParams]) / (2. * std::sqrt(std::fabs(fitResults[0]))), 2.));
1005  vals.push_back(std::pow(std::fabs(fitResults[1 + nParams]) / (2. * std::sqrt(std::fabs(fitResults[1]))), 2.));
1006  vals.push_back(std::pow(std::fabs(fitResults[2 + nParams]) / (2. * std::sqrt(std::fabs(fitResults[2]))), 2.));
1007  vals.push_back(std::pow(fitResults[5 + nParams], 2.));
1008  vals.push_back(std::pow(fitResults[4 + nParams], 2.));
1009  } else
1010  for (unsigned int i = 0; i < (nParams - 1) * 2; i++)
1011  vals.push_back(0.0);
1012 
1013  fitResults.clear();
1014  } else {
1015  counterVx = Vx_X->getTH1F()->GetEntries();
1016 
1017  if (Vx_X->getTH1F()->GetEntries() >= minNentries) {
1018  goodData = 0;
1019 
1020  vals.push_back(Vx_X->getTH1F()->GetMean());
1021  vals.push_back(Vx_Y->getTH1F()->GetMean());
1022  vals.push_back(Vx_Z->getTH1F()->GetMean());
1023  vals.push_back(Vx_X->getTH1F()->GetRMS());
1024  vals.push_back(Vx_Y->getTH1F()->GetRMS());
1025  vals.push_back(Vx_Z->getTH1F()->GetRMS());
1026  vals.push_back(0.0);
1027  vals.push_back(0.0);
1028 
1029  vals.push_back(std::pow(Vx_X->getTH1F()->GetMeanError(), 2.));
1030  vals.push_back(std::pow(Vx_Y->getTH1F()->GetMeanError(), 2.));
1031  vals.push_back(std::pow(Vx_Z->getTH1F()->GetMeanError(), 2.));
1032  vals.push_back(std::pow(Vx_X->getTH1F()->GetRMSError(), 2.));
1033  vals.push_back(std::pow(Vx_Y->getTH1F()->GetRMSError(), 2.));
1034  vals.push_back(std::pow(Vx_Z->getTH1F()->GetRMSError(), 2.));
1035  vals.push_back(0.0);
1036  vals.push_back(0.0);
1037  } else {
1038  goodData = -2;
1039  for (unsigned int i = 0; i < (nParams - 1) * 2; i++)
1040  vals.push_back(0.0);
1041  }
1042  }
1043 
1044  // vals[0] = X0
1045  // vals[1] = Y0
1046  // vals[2] = Z0
1047  // vals[3] = sigmaX0
1048  // vals[4] = sigmaY0
1049  // vals[5] = sigmaZ0
1050  // vals[6] = dxdz
1051  // vals[7] = dydz
1052 
1053  // vals[8] = err^2 X0
1054  // vals[9] = err^2 Y0
1055  // vals[10] = err^2 Z0
1056  // vals[11] = err^2 sigmaX0
1057  // vals[12] = err^2 sigmaY0
1058  // vals[13] = err^2 sigmaZ0
1059  // vals[14] = err^2 dxdz
1060  // vals[15] = err^2 dydz
1061 
1062  numberFits++;
1064  if (internalDebug == true)
1065  cout << "[Vx3DHLTAnalyzer]::\tUsed vertices: " << counterVx << endl;
1066 
1067  statusCounter->getTH1()->SetBinContent(lastLumiOfFit, (double)goodData);
1068  statusCounter->getTH1()->SetBinError(lastLumiOfFit, 1e-3);
1069 
1070  // Copy vertex position histograms into to-fit histograms
1071  if (goodData == 0)
1072  reset("fit");
1073  else if (lumiCounter >= maxLumiIntegration) {
1074  reset("fit");
1075  reset("whole");
1076  }
1077 
1078  for (int i = 0; i < Vx_X_Fit->getTH1()->GetNbinsX(); i++) {
1079  Vx_X_Fit->getTH1()->SetBinContent(
1080  i + 1, Vx_X_Fit->getTH1()->GetBinContent(i + 1) + Vx_X->getTH1()->GetBinContent(i + 1));
1081  Vx_X_Fit->getTH1()->SetBinError(i + 1, sqrt(Vx_X_Fit->getTH1()->GetBinContent(i + 1)));
1082  }
1083 
1084  for (int i = 0; i < Vx_Y_Fit->getTH1()->GetNbinsX(); i++) {
1085  Vx_Y_Fit->getTH1()->SetBinContent(
1086  i + 1, Vx_Y_Fit->getTH1()->GetBinContent(i + 1) + Vx_Y->getTH1()->GetBinContent(i + 1));
1087  Vx_Y_Fit->getTH1()->SetBinError(i + 1, sqrt(Vx_Y_Fit->getTH1()->GetBinContent(i + 1)));
1088  }
1089 
1090  for (int i = 0; i < Vx_Z_Fit->getTH1()->GetNbinsX(); i++) {
1091  Vx_Z_Fit->getTH1()->SetBinContent(
1092  i + 1, Vx_Z_Fit->getTH1()->GetBinContent(i + 1) + Vx_Z->getTH1()->GetBinContent(i + 1));
1093  Vx_Z_Fit->getTH1()->SetBinError(i + 1, sqrt(Vx_Z_Fit->getTH1()->GetBinContent(i + 1)));
1094  }
1095 
1096  // Check data quality
1097  if (goodData == 0) {
1098  numberGoodFits++;
1099 
1100  histTitle << "Ongoing: fitted lumis " << beginLumiOfFit << " - " << endLumiOfFit;
1101  reset("whole");
1102  } else {
1103  if (goodData == -2)
1104  histTitle << "Ongoing: not enough evts (" << lumiCounter << " - " << maxLumiIntegration << " lumis)";
1105  else
1106  histTitle << "Ongoing: temporary problems (" << lumiCounter << " - " << maxLumiIntegration << " lumis)";
1107 
1109  statusCounter->getTH1()->SetBinContent(lastLumiOfFit, -5);
1110  statusCounter->getTH1()->SetBinError(lastLumiOfFit, 1e-3);
1111  } else
1112  reset("hitCounter");
1113  }
1114 
1115  reportSummary->Fill((numberFits != 0 ? ((double)numberGoodFits) / ((double)numberFits) : -1));
1116  reportSummaryMap->getTH1()->SetBinContent(
1117  1, 1, (numberFits != 0 ? ((double)numberGoodFits) / ((double)numberFits) : -1));
1118 
1119  fitResults->setAxisTitle(histTitle.str(), 1);
1120 
1121  fitResults->setBinContent(1, 9, vals[0]);
1122  fitResults->setBinContent(1, 8, vals[1]);
1123  fitResults->setBinContent(1, 7, vals[2]);
1124  fitResults->setBinContent(1, 6, vals[3]);
1125  fitResults->setBinContent(1, 5, vals[4]);
1126  fitResults->setBinContent(1, 4, vals[5]);
1127  fitResults->setBinContent(1, 3, vals[6]);
1128  fitResults->setBinContent(1, 2, vals[7]);
1130 
1131  fitResults->setBinContent(2, 9, std::sqrt(vals[8]));
1132  fitResults->setBinContent(2, 8, std::sqrt(vals[9]));
1133  fitResults->setBinContent(2, 7, std::sqrt(vals[10]));
1134  fitResults->setBinContent(2, 6, std::sqrt(vals[11]));
1135  fitResults->setBinContent(2, 5, std::sqrt(vals[12]));
1136  fitResults->setBinContent(2, 4, std::sqrt(vals[13]));
1137  fitResults->setBinContent(2, 3, std::sqrt(vals[14]));
1138  fitResults->setBinContent(2, 2, std::sqrt(vals[15]));
1140 
1141  // Linear fit to the historical plots
1142  TF1* myLinFit = new TF1(
1143  "myLinFit", "[0] + [1]*x", mXlumi->getTH1()->GetXaxis()->GetXmin(), mXlumi->getTH1()->GetXaxis()->GetXmax());
1144  myLinFit->SetLineColor(2);
1145  myLinFit->SetLineWidth(2);
1146  myLinFit->SetParName(0, "Inter.");
1147  myLinFit->SetParName(1, "Slope");
1148 
1149  mXlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[0]);
1150  mXlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[8]));
1151  myLinFit->SetParameter(0, mXlumi->getTH1()->GetMean(2));
1152  myLinFit->SetParameter(1, 0.0);
1153  mXlumi->getTH1()->Fit(myLinFit, "QR");
1154 
1155  mYlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[1]);
1156  mYlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[9]));
1157  myLinFit->SetParameter(0, mYlumi->getTH1()->GetMean(2));
1158  myLinFit->SetParameter(1, 0.0);
1159  mYlumi->getTH1()->Fit(myLinFit, "QR");
1160 
1161  mZlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[2]);
1162  mZlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[10]));
1163  myLinFit->SetParameter(0, mZlumi->getTH1()->GetMean(2));
1164  myLinFit->SetParameter(1, 0.0);
1165  mZlumi->getTH1()->Fit(myLinFit, "QR");
1166 
1167  sXlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[3]);
1168  sXlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[11]));
1169  myLinFit->SetParameter(0, sXlumi->getTH1()->GetMean(2));
1170  myLinFit->SetParameter(1, 0.0);
1171  sXlumi->getTH1()->Fit(myLinFit, "QR");
1172 
1173  sYlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[4]);
1174  sYlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[12]));
1175  myLinFit->SetParameter(0, sYlumi->getTH1()->GetMean(2));
1176  myLinFit->SetParameter(1, 0.0);
1177  sYlumi->getTH1()->Fit(myLinFit, "QR");
1178 
1179  sZlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[5]);
1180  sZlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[13]));
1181  myLinFit->SetParameter(0, sZlumi->getTH1()->GetMean(2));
1182  myLinFit->SetParameter(1, 0.0);
1183  sZlumi->getTH1()->Fit(myLinFit, "QR");
1184 
1185  dxdzlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[6]);
1186  dxdzlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[14]));
1187  myLinFit->SetParameter(0, dxdzlumi->getTH1()->GetMean(2));
1188  myLinFit->SetParameter(1, 0.0);
1189  dxdzlumi->getTH1()->Fit(myLinFit, "QR");
1190 
1191  dydzlumi->getTH1()->SetBinContent(lastLumiOfFit, vals[7]);
1192  dydzlumi->getTH1()->SetBinError(lastLumiOfFit, std::sqrt(vals[15]));
1193  myLinFit->SetParameter(0, dydzlumi->getTH1()->GetMean(2));
1194  myLinFit->SetParameter(1, 0.0);
1195  dydzlumi->getTH1()->Fit(myLinFit, "QR");
1196 
1197  myLinFit->SetParameter(0, hitCounter->getTH1()->GetMean(2));
1198  myLinFit->SetParameter(1, 0.0);
1199  hitCounter->getTH1()->Fit(myLinFit, "QR");
1200 
1201  goodVxCounter->getTH1()->SetBinContent(lastLumiOfFit, (double)counterVx);
1202  goodVxCounter->getTH1()->SetBinError(
1203  lastLumiOfFit,
1204  (counterVx != 0 ? 1.
1205  : 0.)); // It's not sqrt(n) because we want to weight all entries in the same way for the fit
1206  myLinFit->SetParameter(0, goodVxCounter->getTH1()->GetMean(2));
1207  myLinFit->SetParameter(1, 0.0);
1208  goodVxCounter->getTH1()->Fit(myLinFit, "QR");
1209 
1210  delete myLinFit;
1211  vals.clear();
1212 
1213  // Gaussian fit to 1D vertex coordinate distributions
1214  TF1* myGaussFit = new TF1("myGaussFit",
1215  "[0]*exp(-(x-[1])*(x-[1])/(2*[2]*[2]))",
1216  Vx_Z_Fit->getTH1()->GetXaxis()->GetXmin(),
1217  Vx_Z_Fit->getTH1()->GetXaxis()->GetXmax());
1218  myGaussFit->SetLineColor(2);
1219  myGaussFit->SetLineWidth(2);
1220  myGaussFit->SetParName(0, "Ampl.");
1221  myGaussFit->SetParName(1, "#mu");
1222  myGaussFit->SetParName(2, "#sigma");
1223 
1224  myGaussFit->SetParameter(0, Vx_X_Fit->getTH1()->GetMaximum());
1225  myGaussFit->SetParameter(1, Vx_X_Fit->getTH1()->GetMean());
1226  myGaussFit->SetParameter(2, Vx_X_Fit->getTH1()->GetRMS());
1227  minXfit = Vx_X_Fit->getTH1()->GetBinLowEdge(1);
1228  for (int i = 0; i < Vx_X_Fit->getTH1()->GetNbinsX(); i++) {
1229  if (Vx_X_Fit->getTH1()->GetBinContent(i + 1) > 0) {
1230  minXfit = Vx_X_Fit->getTH1()->GetBinLowEdge(i + 1);
1231  break;
1232  }
1233  }
1234  maxXfit = Vx_X_Fit->getTH1()->GetBinLowEdge(Vx_X_Fit->getTH1()->GetNbinsX());
1235  for (int i = Vx_X_Fit->getTH1()->GetNbinsX(); i > 0; i--) {
1236  if (Vx_X_Fit->getTH1()->GetBinContent(i) > 0) {
1237  maxXfit = Vx_X_Fit->getTH1()->GetBinLowEdge(i);
1238  break;
1239  }
1240  }
1241  myGaussFit->SetRange(minXfit - (maxXfit - minXfit) / 2., maxXfit + (maxXfit - minXfit) / 2.);
1242  Vx_X_Fit->getTH1()->Fit(myGaussFit, "QRL");
1243 
1244  myGaussFit->SetParameter(0, Vx_Y_Fit->getTH1()->GetMaximum());
1245  myGaussFit->SetParameter(1, Vx_Y_Fit->getTH1()->GetMean());
1246  myGaussFit->SetParameter(2, Vx_Y_Fit->getTH1()->GetRMS());
1247  minXfit = Vx_Y_Fit->getTH1()->GetBinLowEdge(1);
1248  for (int i = 0; i < Vx_Y_Fit->getTH1()->GetNbinsX(); i++) {
1249  if (Vx_Y_Fit->getTH1()->GetBinContent(i + 1) > 0) {
1250  minXfit = Vx_Y_Fit->getTH1()->GetBinLowEdge(i + 1);
1251  break;
1252  }
1253  }
1254  maxXfit = Vx_Y_Fit->getTH1()->GetBinLowEdge(Vx_Y_Fit->getTH1()->GetNbinsX());
1255  for (int i = Vx_Y_Fit->getTH1()->GetNbinsX(); i > 0; i--) {
1256  if (Vx_Y_Fit->getTH1()->GetBinContent(i) > 0) {
1257  maxXfit = Vx_Y_Fit->getTH1()->GetBinLowEdge(i);
1258  break;
1259  }
1260  }
1261  myGaussFit->SetRange(minXfit - (maxXfit - minXfit) / 2., maxXfit + (maxXfit - minXfit) / 2.);
1262  Vx_Y_Fit->getTH1()->Fit(myGaussFit, "QRL");
1263 
1264  myGaussFit->SetParameter(0, Vx_Z_Fit->getTH1()->GetMaximum());
1265  myGaussFit->SetParameter(1, Vx_Z_Fit->getTH1()->GetMean());
1266  myGaussFit->SetParameter(2, Vx_Z_Fit->getTH1()->GetRMS());
1267  minXfit = Vx_Z_Fit->getTH1()->GetBinLowEdge(1);
1268  for (int i = 0; i < Vx_Z_Fit->getTH1()->GetNbinsX(); i++) {
1269  if (Vx_Z_Fit->getTH1()->GetBinContent(i + 1) > 0) {
1270  minXfit = Vx_Z_Fit->getTH1()->GetBinLowEdge(i + 1);
1271  break;
1272  }
1273  }
1274  maxXfit = Vx_Z_Fit->getTH1()->GetBinLowEdge(Vx_Z_Fit->getTH1()->GetNbinsX());
1275  for (int i = Vx_Z_Fit->getTH1()->GetNbinsX(); i > 0; i--) {
1276  if (Vx_Z_Fit->getTH1()->GetBinContent(i) > 0) {
1277  maxXfit = Vx_Z_Fit->getTH1()->GetBinLowEdge(i);
1278  break;
1279  }
1280  }
1281  myGaussFit->SetRange(minXfit - (maxXfit - minXfit) / 2., maxXfit + (maxXfit - minXfit) / 2.);
1282  Vx_Z_Fit->getTH1()->Fit(myGaussFit, "QRL");
1283 
1284  delete myGaussFit;
1285  } else if ((nLumiFit != 0) && (lumiCounter % nLumiFit != 0) && (beginTimeOfFit != 0) && (runNumber != 0)) {
1286  histTitle << "Ongoing: accumulating evts (" << lumiCounter % nLumiFit << " - " << nLumiFit << " in " << lumiCounter
1287  << " - " << maxLumiIntegration << " lumis)";
1288  fitResults->setAxisTitle(histTitle.str(), 1);
1289  if ((debugMode == true) && (outputDebugFile.is_open() == true)) {
1290  outputDebugFile << "\n"
1291  << "Runnumber " << runNumber << endl;
1292  outputDebugFile << "BeginTimeOfFit " << formatTime(beginTimeOfFit >> 32) << " " << (beginTimeOfFit >> 32) << endl;
1293  outputDebugFile << "BeginLumiRange " << beginLumiOfFit << endl;
1294  outputDebugFile << histTitle.str().c_str() << "\n" << endl;
1295  }
1296  } else if ((nLumiFit == 0) || (beginTimeOfFit == 0) || (runNumber == 0)) {
1297  histTitle << "Ongoing: no ongoing fits";
1298  fitResults->setAxisTitle(histTitle.str(), 1);
1299  if ((debugMode == true) && (outputDebugFile.is_open() == true))
1300  outputDebugFile << histTitle.str().c_str() << "\n" << endl;
1301 
1302  endLumiOfFit = lumiBlock.luminosityBlock();
1303 
1304  hitCounter->getTH1()->SetBinContent(endLumiOfFit, (double)totalHits);
1305  hitCounter->getTH1()->SetBinError(endLumiOfFit, std::sqrt((double)totalHits));
1306 
1307  reset("whole");
1308  }
1309 
1310  if (internalDebug == true)
1311  cout << "[Vx3DHLTAnalyzer]::\tHistogram title: " << histTitle.str() << endl;
1312 }

References gather_cfg::cout, beampixel_dqm_sourceclient-live_cfg::dataFromFit, beampixel_dqm_sourceclient-live_cfg::debugMode, MillePedeFileConverter_cfg::e, edm::LuminosityBlockBase::endTime(), edm::service::formatTime(), B2GTnPMonitor_cfi::histTitle, mps_fire::i, edm::LuminosityBlockBase::luminosityBlock(), beampixel_dqm_sourceclient-live_cfg::maxLumiIntegration, beampixel_dqm_sourceclient-live_cfg::minNentries, beampixel_dqm_sourceclient-live_cfg::nLumiFit, funct::pow(), reset(), convertSQLiteXML::runNumber, mathSSE::sqrt(), tools::TF1, edm::Timestamp::value(), and l1tpf_impl::writeToFile().

◆ formatTime()

string Vx3DHLTAnalyzer::formatTime ( const time_t &  t)
private

Definition at line 195 of file Vx3DHLTAnalyzer.cc.

195  {
196  char ts[25];
197  strftime(ts, sizeof(ts), "%Y.%m.%d %H:%M:%S %Z", gmtime(&t));
198 
199  string ts_string(ts);
200 
201  return ts_string;
202 }

References OrderedSet::t.

◆ Gauss3DFunc()

double Vx3DHLTAnalyzer::Gauss3DFunc ( const double *  par)
protected

Definition at line 204 of file Vx3DHLTAnalyzer.cc.

204  {
205  double K[DIM][DIM]; // Covariance Matrix
206  double M[DIM][DIM]; // K^-1
207  double det;
208  double sumlog = 0.;
209 
210  // par[0] = K(0,0) --> Var[X]
211  // par[1] = K(1,1) --> Var[Y]
212  // par[2] = K(2,2) --> Var[Z]
213  // par[3] = K(0,1) = K(1,0) --> Cov[X,Y]
214  // par[4] = K(1,2) = K(2,1) --> Cov[Y,Z] --> dy/dz
215  // par[5] = K(0,2) = K(2,0) --> Cov[X,Z] --> dx/dz
216  // par[6] = mean x
217  // par[7] = mean y
218  // par[8] = mean z
219 
220  counterVx = 0;
221  for (unsigned int i = 0; i < Vertices.size(); i++) {
222  if ((std::sqrt((Vertices[i].x - xPos) * (Vertices[i].x - xPos) + (Vertices[i].y - yPos) * (Vertices[i].y - yPos)) <=
223  maxTransRadius) &&
224  (std::fabs(Vertices[i].z - zPos) <= maxLongLength)) {
225  if (considerVxCovariance == true) {
226  K[0][0] = std::fabs(par[0]) + VxErrCorr * VxErrCorr * std::fabs(Vertices[i].Covariance[0][0]);
227  K[1][1] = std::fabs(par[1]) + VxErrCorr * VxErrCorr * std::fabs(Vertices[i].Covariance[1][1]);
228  K[2][2] = std::fabs(par[2]) + VxErrCorr * VxErrCorr * std::fabs(Vertices[i].Covariance[2][2]);
229  K[0][1] = K[1][0] = par[3] + VxErrCorr * VxErrCorr * Vertices[i].Covariance[0][1];
230  K[1][2] = K[2][1] = par[4] * (std::fabs(par[2]) - std::fabs(par[1])) - par[5] * par[3] +
232  K[0][2] = K[2][0] = par[5] * (std::fabs(par[2]) - std::fabs(par[0])) - par[4] * par[3] +
234  } else {
235  K[0][0] = std::fabs(par[0]);
236  K[1][1] = std::fabs(par[1]);
237  K[2][2] = std::fabs(par[2]);
238  K[0][1] = K[1][0] = par[3];
239  K[1][2] = K[2][1] = par[4] * (std::fabs(par[2]) - std::fabs(par[1])) - par[5] * par[3];
240  K[0][2] = K[2][0] = par[5] * (std::fabs(par[2]) - std::fabs(par[0])) - par[4] * par[3];
241  }
242 
243  det = K[0][0] * (K[1][1] * K[2][2] - K[1][2] * K[1][2]) - K[0][1] * (K[0][1] * K[2][2] - K[0][2] * K[1][2]) +
244  K[0][2] * (K[0][1] * K[1][2] - K[0][2] * K[1][1]);
245 
246  M[0][0] = (K[1][1] * K[2][2] - K[1][2] * K[1][2]) / det;
247  M[1][1] = (K[0][0] * K[2][2] - K[0][2] * K[0][2]) / det;
248  M[2][2] = (K[0][0] * K[1][1] - K[0][1] * K[0][1]) / det;
249  M[0][1] = M[1][0] = (K[0][2] * K[1][2] - K[0][1] * K[2][2]) / det;
250  M[1][2] = M[2][1] = (K[0][2] * K[0][1] - K[1][2] * K[0][0]) / det;
251  M[0][2] = M[2][0] = (K[0][1] * K[1][2] - K[0][2] * K[1][1]) / det;
252 
253  sumlog += double(DIM) * std::log(2. * pi) + std::log(std::fabs(det)) +
254  (M[0][0] * (Vertices[i].x - par[6]) * (Vertices[i].x - par[6]) +
255  M[1][1] * (Vertices[i].y - par[7]) * (Vertices[i].y - par[7]) +
256  M[2][2] * (Vertices[i].z - par[8]) * (Vertices[i].z - par[8]) +
257  2. * M[0][1] * (Vertices[i].x - par[6]) * (Vertices[i].y - par[7]) +
258  2. * M[1][2] * (Vertices[i].y - par[7]) * (Vertices[i].z - par[8]) +
259  2. * M[0][2] * (Vertices[i].x - par[6]) * (Vertices[i].z - par[8]));
260 
261  counterVx++;
262  }
263  }
264 
265  return sumlog;
266 }

References DIM, mps_fire::i, dqm-mbProfile::log, pi, mathSSE::sqrt(), pfPileUpJME_cfi::Vertices, and beampixel_dqm_sourceclient-live_cfg::VxErrCorr.

Referenced by MyFit().

◆ HitCounter()

unsigned int Vx3DHLTAnalyzer::HitCounter ( const edm::Event iEvent)
private

Definition at line 182 of file Vx3DHLTAnalyzer.cc.

182  {
183  Handle<SiPixelRecHitCollection> rechitspixel;
184  iEvent.getByToken(pixelHitCollection, rechitspixel);
185 
186  unsigned int counter = 0;
187 
188  for (SiPixelRecHitCollection::const_iterator j = rechitspixel->begin(); j != rechitspixel->end(); j++)
189  for (edmNew::DetSet<SiPixelRecHit>::const_iterator h = j->begin(); h != j->end(); h++)
190  counter += h->cluster()->size();
191 
192  return counter;
193 }

References edmNew::DetSetVector< T >::begin(), counter, edmNew::DetSetVector< T >::end(), iEvent, dqmiolumiharvest::j, and beampixel_dqm_sourceclient-live_cfg::pixelHitCollection.

◆ MyFit()

int Vx3DHLTAnalyzer::MyFit ( std::vector< double > *  vals)
private

Definition at line 268 of file Vx3DHLTAnalyzer.cc.

268  {
269  // ############################################
270  // # RETURN CODE: #
271  // # >0 == NO OK - fit status (MINUIT manual) #
272  // # 0 == OK #
273  // # -1 == NO OK - not finite edm #
274  // # -2 == NO OK - not enough "minNentries" #
275  // # -3 == NO OK - not finite errors #
276  // # -4 == NO OK - negative determinant #
277  // # -5 == NO OK - maxLumiIntegration reached #
278  // ############################################
279 
280  if ((vals != nullptr) && (vals->size() == nParams * 2)) {
281  double nSigmaXY = 10.;
282  double nSigmaZ = 10.;
283  double parDistanceXY = 1e-3; // Unit: [cm]
284  double parDistanceZ = 1e-2; // Unit: [cm]
285  double parDistanceddZ = 1e-3; // Unit: [rad]
286  double parDistanceCxy = 1e-5; // Unit: [cm^2]
287  double bestEdm;
288 
289  const unsigned int trials = 4;
290  double largerDist[trials] = {0.1, 5., 10., 100.};
291 
292  double covxz, covyz, det;
293  double deltaMean;
294  int bestMovementX = 1;
295  int bestMovementY = 1;
296  int bestMovementZ = 1;
297  int goodData;
298 
299  double edm;
300 
301  vector<double>::const_iterator it = vals->begin();
302 
303  ROOT::Math::Minimizer* Gauss3D = ROOT::Math::Factory::CreateMinimizer("Minuit2", "Migrad");
304  Gauss3D->SetErrorDef(1.0);
305  if (internalDebug == true)
306  Gauss3D->SetPrintLevel(3);
307  else
308  Gauss3D->SetPrintLevel(0);
309 
310  ROOT::Math::Functor _Gauss3DFunc(this, &Vx3DHLTAnalyzer::Gauss3DFunc, nParams);
311  Gauss3D->SetFunction(_Gauss3DFunc);
312 
313  if (internalDebug == true)
314  cout << "[Vx3DHLTAnalyzer]::\t@@@ START FITTING @@@" << endl;
315 
316  // @@@ Fit at X-deltaMean | X | X+deltaMean @@@
317  bestEdm = 1.;
318  for (int i = 0; i < 3; i++) {
319  deltaMean = (double(i) - 1.) * std::sqrt(*(it + 0));
320  if (internalDebug == true)
321  cout << "[Vx3DHLTAnalyzer]::\tdeltaMean --> " << deltaMean << endl;
322 
323  Gauss3D->Clear();
324 
325  Gauss3D->SetVariable(0, "var x ", *(it + 0), parDistanceXY * parDistanceXY);
326  Gauss3D->SetVariable(1, "var y ", *(it + 1), parDistanceXY * parDistanceXY);
327  Gauss3D->SetVariable(2, "var z ", *(it + 2), parDistanceZ * parDistanceZ);
328  Gauss3D->SetVariable(3, "cov xy", *(it + 3), parDistanceCxy);
329  Gauss3D->SetVariable(4, "dydz ", *(it + 4), parDistanceddZ);
330  Gauss3D->SetVariable(5, "dxdz ", *(it + 5), parDistanceddZ);
331  Gauss3D->SetVariable(6, "mean x", *(it + 6) + deltaMean, parDistanceXY);
332  Gauss3D->SetVariable(7, "mean y", *(it + 7), parDistanceXY);
333  Gauss3D->SetVariable(8, "mean z", *(it + 8), parDistanceZ);
334 
335  // Set the central positions of the centroid for vertex rejection
336  xPos = Gauss3D->X()[6];
337  yPos = Gauss3D->X()[7];
338  zPos = Gauss3D->X()[8];
339 
340  // Set dimensions of the centroid for vertex rejection
341  maxTransRadius = nSigmaXY * std::sqrt(std::fabs(Gauss3D->X()[0]) + std::fabs(Gauss3D->X()[1])) / 2.;
342  maxLongLength = nSigmaZ * std::sqrt(std::fabs(Gauss3D->X()[2]));
343 
344  Gauss3D->Minimize();
345  goodData = Gauss3D->Status();
346  edm = Gauss3D->Edm();
347 
348  if (counterVx < minNentries)
349  goodData = -2;
350  else if (isNotFinite(edm) == true) {
351  goodData = -1;
352  if (internalDebug == true)
353  cout << "[Vx3DHLTAnalyzer]::\tNot finite edm !" << endl;
354  } else
355  for (unsigned int j = 0; j < nParams; j++)
356  if (isNotFinite(Gauss3D->Errors()[j]) == true) {
357  goodData = -3;
358  if (internalDebug == true)
359  cout << "[Vx3DHLTAnalyzer]::\tNot finite errors !" << endl;
360  break;
361  }
362  if (goodData == 0) {
363  covyz = Gauss3D->X()[4] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[1])) -
364  Gauss3D->X()[5] * Gauss3D->X()[3];
365  covxz = Gauss3D->X()[5] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[0])) -
366  Gauss3D->X()[4] * Gauss3D->X()[3];
367 
368  det = std::fabs(Gauss3D->X()[0]) * (std::fabs(Gauss3D->X()[1]) * std::fabs(Gauss3D->X()[2]) - covyz * covyz) -
369  Gauss3D->X()[3] * (Gauss3D->X()[3] * std::fabs(Gauss3D->X()[2]) - covxz * covyz) +
370  covxz * (Gauss3D->X()[3] * covyz - covxz * std::fabs(Gauss3D->X()[1]));
371  if (det < 0.) {
372  goodData = -4;
373  if (internalDebug == true)
374  cout << "[Vx3DHLTAnalyzer]::\tNegative determinant !" << endl;
375  }
376  }
377 
378  if ((goodData == 0) && (std::fabs(edm) < bestEdm)) {
379  bestEdm = edm;
380  bestMovementX = i;
381  }
382  }
383  if (internalDebug == true)
384  cout << "[Vx3DHLTAnalyzer]::\tFound bestMovementX --> " << bestMovementX << endl;
385 
386  // @@@ Fit at Y-deltaMean | Y | Y+deltaMean @@@
387  bestEdm = 1.;
388  for (int i = 0; i < 3; i++) {
389  deltaMean = (double(i) - 1.) * std::sqrt(*(it + 1));
390  if (internalDebug == true) {
391  cout << "[Vx3DHLTAnalyzer]::\tdeltaMean --> " << deltaMean << endl;
392  cout << "[Vx3DHLTAnalyzer]::\tdeltaMean X --> " << (double(bestMovementX) - 1.) * std::sqrt(*(it + 0)) << endl;
393  }
394 
395  Gauss3D->Clear();
396 
397  Gauss3D->SetVariable(0, "var x ", *(it + 0), parDistanceXY * parDistanceXY);
398  Gauss3D->SetVariable(1, "var y ", *(it + 1), parDistanceXY * parDistanceXY);
399  Gauss3D->SetVariable(2, "var z ", *(it + 2), parDistanceZ * parDistanceZ);
400  Gauss3D->SetVariable(3, "cov xy", *(it + 3), parDistanceCxy);
401  Gauss3D->SetVariable(4, "dydz ", *(it + 4), parDistanceddZ);
402  Gauss3D->SetVariable(5, "dxdz ", *(it + 5), parDistanceddZ);
403  Gauss3D->SetVariable(6, "mean x", *(it + 6) + (double(bestMovementX) - 1.) * std::sqrt(*(it + 0)), parDistanceXY);
404  Gauss3D->SetVariable(7, "mean y", *(it + 7) + deltaMean, parDistanceXY);
405  Gauss3D->SetVariable(8, "mean z", *(it + 8), parDistanceZ);
406 
407  // Set the central positions of the centroid for vertex rejection
408  xPos = Gauss3D->X()[6];
409  yPos = Gauss3D->X()[7];
410  zPos = Gauss3D->X()[8];
411 
412  // Set dimensions of the centroid for vertex rejection
413  maxTransRadius = nSigmaXY * std::sqrt(std::fabs(Gauss3D->X()[0]) + std::fabs(Gauss3D->X()[1])) / 2.;
414  maxLongLength = nSigmaZ * std::sqrt(std::fabs(Gauss3D->X()[2]));
415 
416  Gauss3D->Minimize();
417  goodData = Gauss3D->Status();
418  edm = Gauss3D->Edm();
419 
420  if (counterVx < minNentries)
421  goodData = -2;
422  else if (isNotFinite(edm) == true) {
423  goodData = -1;
424  if (internalDebug == true)
425  cout << "[Vx3DHLTAnalyzer]::\tNot finite edm !" << endl;
426  } else
427  for (unsigned int j = 0; j < nParams; j++)
428  if (isNotFinite(Gauss3D->Errors()[j]) == true) {
429  goodData = -3;
430  if (internalDebug == true)
431  cout << "[Vx3DHLTAnalyzer]::\tNot finite errors !" << endl;
432  break;
433  }
434  if (goodData == 0) {
435  covyz = Gauss3D->X()[4] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[1])) -
436  Gauss3D->X()[5] * Gauss3D->X()[3];
437  covxz = Gauss3D->X()[5] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[0])) -
438  Gauss3D->X()[4] * Gauss3D->X()[3];
439 
440  det = std::fabs(Gauss3D->X()[0]) * (std::fabs(Gauss3D->X()[1]) * std::fabs(Gauss3D->X()[2]) - covyz * covyz) -
441  Gauss3D->X()[3] * (Gauss3D->X()[3] * std::fabs(Gauss3D->X()[2]) - covxz * covyz) +
442  covxz * (Gauss3D->X()[3] * covyz - covxz * std::fabs(Gauss3D->X()[1]));
443  if (det < 0.) {
444  goodData = -4;
445  if (internalDebug == true)
446  cout << "[Vx3DHLTAnalyzer]::\tNegative determinant !" << endl;
447  }
448  }
449 
450  if ((goodData == 0) && (std::fabs(edm) < bestEdm)) {
451  bestEdm = edm;
452  bestMovementY = i;
453  }
454  }
455  if (internalDebug == true)
456  cout << "[Vx3DHLTAnalyzer]::\tFound bestMovementY --> " << bestMovementY << endl;
457 
458  // @@@ Fit at Z-deltaMean | Z | Z+deltaMean @@@
459  bestEdm = 1.;
460  for (int i = 0; i < 3; i++) {
461  deltaMean = (double(i) - 1.) * std::sqrt(*(it + 2));
462  if (internalDebug == true) {
463  cout << "[Vx3DHLTAnalyzer]::\tdeltaMean --> " << deltaMean << endl;
464  cout << "[Vx3DHLTAnalyzer]::\tdeltaMean X --> " << (double(bestMovementX) - 1.) * std::sqrt(*(it + 0)) << endl;
465  cout << "[Vx3DHLTAnalyzer]::\tdeltaMean Y --> " << (double(bestMovementY) - 1.) * std::sqrt(*(it + 1)) << endl;
466  }
467 
468  Gauss3D->Clear();
469 
470  Gauss3D->SetVariable(0, "var x ", *(it + 0), parDistanceXY * parDistanceXY);
471  Gauss3D->SetVariable(1, "var y ", *(it + 1), parDistanceXY * parDistanceXY);
472  Gauss3D->SetVariable(2, "var z ", *(it + 2), parDistanceZ * parDistanceZ);
473  Gauss3D->SetVariable(3, "cov xy", *(it + 3), parDistanceCxy);
474  Gauss3D->SetVariable(4, "dydz ", *(it + 4), parDistanceddZ);
475  Gauss3D->SetVariable(5, "dxdz ", *(it + 5), parDistanceddZ);
476  Gauss3D->SetVariable(6, "mean x", *(it + 6) + (double(bestMovementX) - 1.) * std::sqrt(*(it + 0)), parDistanceXY);
477  Gauss3D->SetVariable(7, "mean y", *(it + 7) + (double(bestMovementY) - 1.) * std::sqrt(*(it + 1)), parDistanceXY);
478  Gauss3D->SetVariable(8, "mean z", *(it + 8) + deltaMean, parDistanceZ);
479 
480  // Set the central positions of the centroid for vertex rejection
481  xPos = Gauss3D->X()[6];
482  yPos = Gauss3D->X()[7];
483  zPos = Gauss3D->X()[8];
484 
485  // Set dimensions of the centroid for vertex rejection
486  maxTransRadius = nSigmaXY * std::sqrt(std::fabs(Gauss3D->X()[0]) + std::fabs(Gauss3D->X()[1])) / 2.;
487  maxLongLength = nSigmaZ * std::sqrt(std::fabs(Gauss3D->X()[2]));
488 
489  Gauss3D->Minimize();
490  goodData = Gauss3D->Status();
491  edm = Gauss3D->Edm();
492 
493  if (counterVx < minNentries)
494  goodData = -2;
495  else if (isNotFinite(edm) == true) {
496  goodData = -1;
497  if (internalDebug == true)
498  cout << "[Vx3DHLTAnalyzer]::\tNot finite edm !" << endl;
499  } else
500  for (unsigned int j = 0; j < nParams; j++)
501  if (isNotFinite(Gauss3D->Errors()[j]) == true) {
502  goodData = -3;
503  if (internalDebug == true)
504  cout << "[Vx3DHLTAnalyzer]::\tNot finite errors !" << endl;
505  break;
506  }
507  if (goodData == 0) {
508  covyz = Gauss3D->X()[4] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[1])) -
509  Gauss3D->X()[5] * Gauss3D->X()[3];
510  covxz = Gauss3D->X()[5] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[0])) -
511  Gauss3D->X()[4] * Gauss3D->X()[3];
512 
513  det = std::fabs(Gauss3D->X()[0]) * (std::fabs(Gauss3D->X()[1]) * std::fabs(Gauss3D->X()[2]) - covyz * covyz) -
514  Gauss3D->X()[3] * (Gauss3D->X()[3] * std::fabs(Gauss3D->X()[2]) - covxz * covyz) +
515  covxz * (Gauss3D->X()[3] * covyz - covxz * std::fabs(Gauss3D->X()[1]));
516  if (det < 0.) {
517  goodData = -4;
518  if (internalDebug == true)
519  cout << "[Vx3DHLTAnalyzer]::\tNegative determinant !" << endl;
520  }
521  }
522 
523  if ((goodData == 0) && (std::fabs(edm) < bestEdm)) {
524  bestEdm = edm;
525  bestMovementZ = i;
526  }
527  }
528  if (internalDebug == true)
529  cout << "[Vx3DHLTAnalyzer]::\tFound bestMovementZ --> " << bestMovementZ << endl;
530 
531  Gauss3D->Clear();
532 
533  // @@@ FINAL FIT @@@
534  Gauss3D->SetVariable(0, "var x ", *(it + 0), parDistanceXY * parDistanceXY);
535  Gauss3D->SetVariable(1, "var y ", *(it + 1), parDistanceXY * parDistanceXY);
536  Gauss3D->SetVariable(2, "var z ", *(it + 2), parDistanceZ * parDistanceZ);
537  Gauss3D->SetVariable(3, "cov xy", *(it + 3), parDistanceCxy);
538  Gauss3D->SetVariable(4, "dydz ", *(it + 4), parDistanceddZ);
539  Gauss3D->SetVariable(5, "dxdz ", *(it + 5), parDistanceddZ);
540  Gauss3D->SetVariable(6, "mean x", *(it + 6) + (double(bestMovementX) - 1.) * std::sqrt(*(it + 0)), parDistanceXY);
541  Gauss3D->SetVariable(7, "mean y", *(it + 7) + (double(bestMovementY) - 1.) * std::sqrt(*(it + 1)), parDistanceXY);
542  Gauss3D->SetVariable(8, "mean z", *(it + 8) + (double(bestMovementZ) - 1.) * std::sqrt(*(it + 2)), parDistanceZ);
543 
544  // Set the central positions of the centroid for vertex rejection
545  xPos = Gauss3D->X()[6];
546  yPos = Gauss3D->X()[7];
547  zPos = Gauss3D->X()[8];
548 
549  // Set dimensions of the centroid for vertex rejection
550  maxTransRadius = nSigmaXY * std::sqrt(std::fabs(Gauss3D->X()[0]) + std::fabs(Gauss3D->X()[1])) / 2.;
551  maxLongLength = nSigmaZ * std::sqrt(std::fabs(Gauss3D->X()[2]));
552 
553  Gauss3D->Minimize();
554  goodData = Gauss3D->Status();
555  edm = Gauss3D->Edm();
556 
557  if (counterVx < minNentries)
558  goodData = -2;
559  else if (isNotFinite(edm) == true) {
560  goodData = -1;
561  if (internalDebug == true)
562  cout << "[Vx3DHLTAnalyzer]::\tNot finite edm !" << endl;
563  } else
564  for (unsigned int j = 0; j < nParams; j++)
565  if (isNotFinite(Gauss3D->Errors()[j]) == true) {
566  goodData = -3;
567  if (internalDebug == true)
568  cout << "[Vx3DHLTAnalyzer]::\tNot finite errors !" << endl;
569  break;
570  }
571  if (goodData == 0) {
572  covyz = Gauss3D->X()[4] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[1])) -
573  Gauss3D->X()[5] * Gauss3D->X()[3];
574  covxz = Gauss3D->X()[5] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[0])) -
575  Gauss3D->X()[4] * Gauss3D->X()[3];
576 
577  det = std::fabs(Gauss3D->X()[0]) * (std::fabs(Gauss3D->X()[1]) * std::fabs(Gauss3D->X()[2]) - covyz * covyz) -
578  Gauss3D->X()[3] * (Gauss3D->X()[3] * std::fabs(Gauss3D->X()[2]) - covxz * covyz) +
579  covxz * (Gauss3D->X()[3] * covyz - covxz * std::fabs(Gauss3D->X()[1]));
580  if (det < 0.) {
581  goodData = -4;
582  if (internalDebug == true)
583  cout << "[Vx3DHLTAnalyzer]::\tNegative determinant !" << endl;
584  }
585  }
586 
587  // @@@ FIT WITH DIFFERENT PARAMETER DISTANCES @@@
588  for (unsigned int i = 0; i < trials; i++) {
589  if ((goodData != 0) && (goodData != -2)) {
590  Gauss3D->Clear();
591 
592  if (internalDebug == true)
593  cout << "[Vx3DHLTAnalyzer]::\tFIT WITH DIFFERENT PARAMETER DISTANCES - STEP " << i + 1 << endl;
594 
595  Gauss3D->SetVariable(0, "var x ", *(it + 0), parDistanceXY * parDistanceXY * largerDist[i]);
596  Gauss3D->SetVariable(1, "var y ", *(it + 1), parDistanceXY * parDistanceXY * largerDist[i]);
597  Gauss3D->SetVariable(2, "var z ", *(it + 2), parDistanceZ * parDistanceZ * largerDist[i]);
598  Gauss3D->SetVariable(3, "cov xy", *(it + 3), parDistanceCxy * largerDist[i]);
599  Gauss3D->SetVariable(4, "dydz ", *(it + 4), parDistanceddZ * largerDist[i]);
600  Gauss3D->SetVariable(5, "dxdz ", *(it + 5), parDistanceddZ * largerDist[i]);
601  Gauss3D->SetVariable(6,
602  "mean x",
603  *(it + 6) + (double(bestMovementX) - 1.) * std::sqrt(*(it + 0)),
604  parDistanceXY * largerDist[i]);
605  Gauss3D->SetVariable(7,
606  "mean y",
607  *(it + 7) + (double(bestMovementY) - 1.) * std::sqrt(*(it + 1)),
608  parDistanceXY * largerDist[i]);
609  Gauss3D->SetVariable(
610  8, "mean z", *(it + 8) + (double(bestMovementZ) - 1.) * std::sqrt(*(it + 2)), parDistanceZ * largerDist[i]);
611 
612  // Set the central positions of the centroid for vertex rejection
613  xPos = Gauss3D->X()[6];
614  yPos = Gauss3D->X()[7];
615  zPos = Gauss3D->X()[8];
616 
617  // Set dimensions of the centroid for vertex rejection
618  maxTransRadius = nSigmaXY * std::sqrt(std::fabs(Gauss3D->X()[0]) + std::fabs(Gauss3D->X()[1])) / 2.;
619  maxLongLength = nSigmaZ * std::sqrt(std::fabs(Gauss3D->X()[2]));
620 
621  Gauss3D->Minimize();
622  goodData = Gauss3D->Status();
623  edm = Gauss3D->Edm();
624 
625  if (counterVx < minNentries)
626  goodData = -2;
627  else if (isNotFinite(edm) == true) {
628  goodData = -1;
629  if (internalDebug == true)
630  cout << "[Vx3DHLTAnalyzer]::\tNot finite edm !" << endl;
631  } else
632  for (unsigned int j = 0; j < nParams; j++)
633  if (isNotFinite(Gauss3D->Errors()[j]) == true) {
634  goodData = -3;
635  if (internalDebug == true)
636  cout << "[Vx3DHLTAnalyzer]::\tNot finite errors !" << endl;
637  break;
638  }
639  if (goodData == 0) {
640  covyz = Gauss3D->X()[4] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[1])) -
641  Gauss3D->X()[5] * Gauss3D->X()[3];
642  covxz = Gauss3D->X()[5] * (std::fabs(Gauss3D->X()[2]) - std::fabs(Gauss3D->X()[0])) -
643  Gauss3D->X()[4] * Gauss3D->X()[3];
644 
645  det = std::fabs(Gauss3D->X()[0]) * (std::fabs(Gauss3D->X()[1]) * std::fabs(Gauss3D->X()[2]) - covyz * covyz) -
646  Gauss3D->X()[3] * (Gauss3D->X()[3] * std::fabs(Gauss3D->X()[2]) - covxz * covyz) +
647  covxz * (Gauss3D->X()[3] * covyz - covxz * std::fabs(Gauss3D->X()[1]));
648  if (det < 0.) {
649  goodData = -4;
650  if (internalDebug == true)
651  cout << "[Vx3DHLTAnalyzer]::\tNegative determinant !" << endl;
652  }
653  }
654  } else
655  break;
656  }
657 
658  if (goodData == 0)
659  for (unsigned int i = 0; i < nParams; i++) {
660  vals->operator[](i) = Gauss3D->X()[i];
661  vals->operator[](i + nParams) = Gauss3D->Errors()[i];
662  }
663 
664  delete Gauss3D;
665  return goodData;
666  }
667 
668  return -1;
669 }

References gather_cfg::cout, MillePedeFileConverter_cfg::e, Gauss3DFunc(), mps_fire::i, edm::isNotFinite(), dqmiolumiharvest::j, beampixel_dqm_sourceclient-live_cfg::minNentries, HLT_2018_cff::nSigmaZ, and mathSSE::sqrt().

◆ printFitParams()

void Vx3DHLTAnalyzer::printFitParams ( const std::vector< double > &  fitResults)
private

Definition at line 913 of file Vx3DHLTAnalyzer.cc.

913  {
914  cout << "var x --> " << fitResults[0] << " +/- " << fitResults[0 + nParams] << endl;
915  cout << "var y --> " << fitResults[1] << " +/- " << fitResults[1 + nParams] << endl;
916  cout << "var z --> " << fitResults[2] << " +/- " << fitResults[2 + nParams] << endl;
917  cout << "cov xy --> " << fitResults[3] << " +/- " << fitResults[3 + nParams] << endl;
918  cout << "dydz --> " << fitResults[4] << " +/- " << fitResults[4 + nParams] << endl;
919  cout << "dxdz --> " << fitResults[5] << " +/- " << fitResults[5 + nParams] << endl;
920  cout << "mean x --> " << fitResults[6] << " +/- " << fitResults[6 + nParams] << endl;
921  cout << "mean y --> " << fitResults[7] << " +/- " << fitResults[7 + nParams] << endl;
922  cout << "mean z --> " << fitResults[8] << " +/- " << fitResults[8 + nParams] << endl;
923 }

References gather_cfg::cout.

◆ reset()

void Vx3DHLTAnalyzer::reset ( std::string  ResetType)
private

Definition at line 671 of file Vx3DHLTAnalyzer.cc.

671  {
672  if ((debugMode == true) && (outputDebugFile.is_open() == true)) {
673  outputDebugFile << "Runnumber " << runNumber << endl;
674  outputDebugFile << "BeginTimeOfFit " << formatTime(beginTimeOfFit >> 32) << " " << (beginTimeOfFit >> 32) << endl;
675  outputDebugFile << "BeginLumiRange " << beginLumiOfFit << endl;
676  outputDebugFile << "EndTimeOfFit " << formatTime(endTimeOfFit >> 32) << " " << (endTimeOfFit >> 32) << endl;
677  outputDebugFile << "EndLumiRange " << endLumiOfFit << endl;
678  outputDebugFile << "LumiCounter " << lumiCounter << endl;
679  outputDebugFile << "LastLumiOfFit " << lastLumiOfFit << endl;
680  }
681 
682  if (ResetType == "scratch") {
683  runNumber = 0;
684  numberGoodFits = 0;
685  numberFits = 0;
686  lastLumiOfFit = 0;
687 
688  Vx_X->Reset();
689  Vx_Y->Reset();
690  Vx_Z->Reset();
691 
692  Vx_X_Fit->Reset();
693  Vx_Y_Fit->Reset();
694  Vx_Z_Fit->Reset();
695 
696  Vx_ZX->Reset();
697  Vx_ZY->Reset();
698  Vx_XY->Reset();
699 
700  Vx_X_Cum->Reset();
701  Vx_Y_Cum->Reset();
702  Vx_Z_Cum->Reset();
703 
704  Vx_ZX_Cum->Reset();
705  Vx_ZY_Cum->Reset();
706  Vx_XY_Cum->Reset();
707 
708  mXlumi->Reset();
709  mYlumi->Reset();
710  mZlumi->Reset();
711 
712  sXlumi->Reset();
713  sYlumi->Reset();
714  sZlumi->Reset();
715 
716  dxdzlumi->Reset();
717  dydzlumi->Reset();
718 
719  hitCounter->Reset();
720  goodVxCounter->Reset();
721  statusCounter->Reset();
722  fitResults->Reset();
723 
724  reportSummary->Fill(-1);
725  reportSummaryMap->getTH1()->SetBinContent(1, 1, -1);
726 
727  Vertices.clear();
728 
729  lumiCounter = 0;
730  totalHits = 0;
731  beginTimeOfFit = 0;
732  endTimeOfFit = 0;
733  beginLumiOfFit = 0;
734  endLumiOfFit = 0;
735 
736  if (internalDebug == true)
737  cout << "[Vx3DHLTAnalyzer]::\tReset issued: scratch" << endl;
738  if ((debugMode == true) && (outputDebugFile.is_open() == true))
739  outputDebugFile << "Reset -scratch- issued\n" << endl;
740  } else if (ResetType == "whole") {
741  Vx_X->Reset();
742  Vx_Y->Reset();
743  Vx_Z->Reset();
744 
745  Vx_ZX->Reset();
746  Vx_ZY->Reset();
747  Vx_XY->Reset();
748 
749  Vertices.clear();
750 
751  lumiCounter = 0;
752  totalHits = 0;
753  beginTimeOfFit = 0;
754  endTimeOfFit = 0;
755  beginLumiOfFit = 0;
756  endLumiOfFit = 0;
757 
758  if (internalDebug == true)
759  cout << "[Vx3DHLTAnalyzer]::\tReset issued: whole" << endl;
760  if ((debugMode == true) && (outputDebugFile.is_open() == true))
761  outputDebugFile << "Reset -whole- issued\n" << endl;
762  } else if (ResetType == "fit") {
763  Vx_X_Fit->Reset();
764  Vx_Y_Fit->Reset();
765  Vx_Z_Fit->Reset();
766 
767  if (internalDebug == true)
768  cout << "[Vx3DHLTAnalyzer]::\tReset issued: fit" << endl;
769  if ((debugMode == true) && (outputDebugFile.is_open() == true))
770  outputDebugFile << "Reset -fit- issued\n" << endl;
771  } else if (ResetType == "hitCounter") {
772  totalHits = 0;
773 
774  if (internalDebug == true)
775  cout << "[Vx3DHLTAnalyzer]::\tReset issued: hitCounter" << endl;
776  if ((debugMode == true) && (outputDebugFile.is_open() == true))
777  outputDebugFile << "Reset -hitCounter- issued\n" << endl;
778  }
779 }

References gather_cfg::cout, beampixel_dqm_sourceclient-live_cfg::debugMode, edm::service::formatTime(), convertSQLiteXML::runNumber, and pfPileUpJME_cfi::Vertices.

◆ writeToFile()

void Vx3DHLTAnalyzer::writeToFile ( std::vector< double > *  vals,
edm::TimeValue_t  BeginTimeOfFit,
edm::TimeValue_t  EndTimeOfFit,
unsigned int  BeginLumiOfFit,
unsigned int  EndLumiOfFit,
int  dataType 
)
private

Definition at line 781 of file Vx3DHLTAnalyzer.cc.

786  {
787  stringstream BufferString;
788  BufferString.precision(5);
789 
790  outputFile.open(fileName.c_str(), ios::out);
791 
792  if ((outputFile.is_open() == true) && (vals != nullptr) && (vals->size() == (nParams - 1) * 2)) {
793  vector<double>::const_iterator it = vals->begin();
794 
795  outputFile << "Runnumber " << runNumber << endl;
796  outputFile << "BeginTimeOfFit " << formatTime(beginTimeOfFit >> 32) << " " << (beginTimeOfFit >> 32) << endl;
797  outputFile << "EndTimeOfFit " << formatTime(endTimeOfFit >> 32) << " " << (endTimeOfFit >> 32) << endl;
798  outputFile << "LumiRange " << beginLumiOfFit << " - " << endLumiOfFit << endl;
799  outputFile << "Type " << dataType << endl;
800  // 3D Vertexing with Pixel Tracks:
801  // Good data = Type 3
802  // Bad data = Type -1
803 
804  BufferString << *(it + 0);
805  outputFile << "X0 " << BufferString.str().c_str() << endl;
806  BufferString.str("");
807 
808  BufferString << *(it + 1);
809  outputFile << "Y0 " << BufferString.str().c_str() << endl;
810  BufferString.str("");
811 
812  BufferString << *(it + 2);
813  outputFile << "Z0 " << BufferString.str().c_str() << endl;
814  BufferString.str("");
815 
816  BufferString << *(it + 5);
817  outputFile << "sigmaZ0 " << BufferString.str().c_str() << endl;
818  BufferString.str("");
819 
820  BufferString << *(it + 6);
821  outputFile << "dxdz " << BufferString.str().c_str() << endl;
822  BufferString.str("");
823 
824  BufferString << *(it + 7);
825  outputFile << "dydz " << BufferString.str().c_str() << endl;
826  BufferString.str("");
827 
828  BufferString << *(it + 3);
829  outputFile << "BeamWidthX " << BufferString.str().c_str() << endl;
830  BufferString.str("");
831 
832  BufferString << *(it + 4);
833  outputFile << "BeamWidthY " << BufferString.str().c_str() << endl;
834  BufferString.str("");
835 
836  outputFile << "Cov(0,j) " << *(it + 8) << " 0 0 0 0 0 0" << endl;
837  outputFile << "Cov(1,j) 0 " << *(it + 9) << " 0 0 0 0 0" << endl;
838  outputFile << "Cov(2,j) 0 0 " << *(it + 10) << " 0 0 0 0" << endl;
839  outputFile << "Cov(3,j) 0 0 0 " << *(it + 13) << " 0 0 0" << endl;
840  outputFile << "Cov(4,j) 0 0 0 0 " << *(it + 14) << " 0 0" << endl;
841  outputFile << "Cov(5,j) 0 0 0 0 0 " << *(it + 15) << " 0" << endl;
842  outputFile << "Cov(6,j) 0 0 0 0 0 0 "
843  << ((*(it + 11)) + (*(it + 12)) + 2. * std::sqrt((*(it + 11)) * (*(it + 12)))) / 4. << endl;
844 
845  outputFile << "EmittanceX 0" << endl;
846  outputFile << "EmittanceY 0" << endl;
847  outputFile << "BetaStar 0" << endl;
848  }
849  outputFile.close();
850 
851  if ((debugMode == true) && (outputDebugFile.is_open() == true) && (vals != nullptr) &&
852  (vals->size() == (nParams - 1) * 2)) {
853  vector<double>::const_iterator it = vals->begin();
854 
855  outputDebugFile << "Runnumber " << runNumber << endl;
856  outputDebugFile << "BeginTimeOfFit " << formatTime(beginTimeOfFit >> 32) << " " << (beginTimeOfFit >> 32) << endl;
857  outputDebugFile << "EndTimeOfFit " << formatTime(endTimeOfFit >> 32) << " " << (endTimeOfFit >> 32) << endl;
858  outputDebugFile << "LumiRange " << beginLumiOfFit << " - " << endLumiOfFit << endl;
859  outputDebugFile << "Type " << dataType << endl;
860  // 3D Vertexing with Pixel Tracks:
861  // Good data = Type 3
862  // Bad data = Type -1
863 
864  BufferString << *(it + 0);
865  outputDebugFile << "X0 " << BufferString.str().c_str() << endl;
866  BufferString.str("");
867 
868  BufferString << *(it + 1);
869  outputDebugFile << "Y0 " << BufferString.str().c_str() << endl;
870  BufferString.str("");
871 
872  BufferString << *(it + 2);
873  outputDebugFile << "Z0 " << BufferString.str().c_str() << endl;
874  BufferString.str("");
875 
876  BufferString << *(it + 5);
877  outputDebugFile << "sigmaZ0 " << BufferString.str().c_str() << endl;
878  BufferString.str("");
879 
880  BufferString << *(it + 6);
881  outputDebugFile << "dxdz " << BufferString.str().c_str() << endl;
882  BufferString.str("");
883 
884  BufferString << *(it + 7);
885  outputDebugFile << "dydz " << BufferString.str().c_str() << endl;
886  BufferString.str("");
887 
888  BufferString << *(it + 3);
889  outputDebugFile << "BeamWidthX " << BufferString.str().c_str() << endl;
890  BufferString.str("");
891 
892  BufferString << *(it + 4);
893  outputDebugFile << "BeamWidthY " << BufferString.str().c_str() << endl;
894  BufferString.str("");
895 
896  outputDebugFile << "Cov(0,j) " << *(it + 8) << " 0 0 0 0 0 0" << endl;
897  outputDebugFile << "Cov(1,j) 0 " << *(it + 9) << " 0 0 0 0 0" << endl;
898  outputDebugFile << "Cov(2,j) 0 0 " << *(it + 10) << " 0 0 0 0" << endl;
899  outputDebugFile << "Cov(3,j) 0 0 0 " << *(it + 13) << " 0 0 0" << endl;
900  outputDebugFile << "Cov(4,j) 0 0 0 0 " << *(it + 14) << " 0 0" << endl;
901  outputDebugFile << "Cov(5,j) 0 0 0 0 0 " << *(it + 15) << " 0" << endl;
902  outputDebugFile << "Cov(6,j) 0 0 0 0 0 0 "
903  << ((*(it + 11)) + (*(it + 12)) + 2. * std::sqrt((*(it + 11)) * (*(it + 12)))) / 4. << endl;
904 
905  outputDebugFile << "EmittanceX 0" << endl;
906  outputDebugFile << "EmittanceY 0" << endl;
907  outputDebugFile << "BetaStar 0" << endl;
908 
909  outputDebugFile << "\nUsed vertices: " << counterVx << "\n" << endl;
910  }
911 }

References DTskim_cfg::dataType, beampixel_dqm_sourceclient-live_cfg::debugMode, MillePedeFileConverter_cfg::fileName, edm::service::formatTime(), MillePedeFileConverter_cfg::out, download_sqlite_cfg::outputFile, convertSQLiteXML::runNumber, and mathSSE::sqrt().

Member Data Documentation

◆ beginLumiOfFit

unsigned int Vx3DHLTAnalyzer::beginLumiOfFit
private

Definition at line 146 of file Vx3DHLTAnalyzer.h.

◆ beginTimeOfFit

edm::TimeValue_t Vx3DHLTAnalyzer::beginTimeOfFit
private

Definition at line 139 of file Vx3DHLTAnalyzer.h.

◆ considerVxCovariance

bool Vx3DHLTAnalyzer::considerVxCovariance
private

Definition at line 153 of file Vx3DHLTAnalyzer.h.

◆ counterVx

unsigned int Vx3DHLTAnalyzer::counterVx
private

Definition at line 154 of file Vx3DHLTAnalyzer.h.

◆ dataFromFit

bool Vx3DHLTAnalyzer::dataFromFit
private

Definition at line 75 of file Vx3DHLTAnalyzer.h.

◆ debugMode

bool Vx3DHLTAnalyzer::debugMode
private

Definition at line 74 of file Vx3DHLTAnalyzer.h.

◆ dxdzlumi

MonitorElement* Vx3DHLTAnalyzer::dxdzlumi
private

Definition at line 102 of file Vx3DHLTAnalyzer.h.

◆ dydzlumi

MonitorElement* Vx3DHLTAnalyzer::dydzlumi
private

Definition at line 103 of file Vx3DHLTAnalyzer.h.

◆ endLumiOfFit

unsigned int Vx3DHLTAnalyzer::endLumiOfFit
private

Definition at line 147 of file Vx3DHLTAnalyzer.h.

◆ endTimeOfFit

edm::TimeValue_t Vx3DHLTAnalyzer::endTimeOfFit
private

Definition at line 140 of file Vx3DHLTAnalyzer.h.

◆ fileName

std::string Vx3DHLTAnalyzer::fileName
private

Definition at line 89 of file Vx3DHLTAnalyzer.h.

Referenced by readConfig.fileINI::read().

◆ fitResults

MonitorElement* Vx3DHLTAnalyzer::fitResults
private

Definition at line 132 of file Vx3DHLTAnalyzer.h.

◆ goodVxCounter

MonitorElement* Vx3DHLTAnalyzer::goodVxCounter
private

Definition at line 125 of file Vx3DHLTAnalyzer.h.

◆ hitCounter

MonitorElement* Vx3DHLTAnalyzer::hitCounter
private

Definition at line 126 of file Vx3DHLTAnalyzer.h.

◆ internalDebug

bool Vx3DHLTAnalyzer::internalDebug
private

Definition at line 150 of file Vx3DHLTAnalyzer.h.

◆ lastLumiOfFit

unsigned int Vx3DHLTAnalyzer::lastLumiOfFit
private

Definition at line 148 of file Vx3DHLTAnalyzer.h.

◆ lumiCounter

unsigned int Vx3DHLTAnalyzer::lumiCounter
private

Definition at line 142 of file Vx3DHLTAnalyzer.h.

◆ maxLongLength

double Vx3DHLTAnalyzer::maxLongLength
private

Definition at line 156 of file Vx3DHLTAnalyzer.h.

◆ maxLumiIntegration

unsigned int Vx3DHLTAnalyzer::maxLumiIntegration
private

Definition at line 77 of file Vx3DHLTAnalyzer.h.

◆ maxTransRadius

double Vx3DHLTAnalyzer::maxTransRadius
private

Definition at line 155 of file Vx3DHLTAnalyzer.h.

◆ minNentries

unsigned int Vx3DHLTAnalyzer::minNentries
private

Definition at line 79 of file Vx3DHLTAnalyzer.h.

◆ minVxDoF

double Vx3DHLTAnalyzer::minVxDoF
private

Definition at line 87 of file Vx3DHLTAnalyzer.h.

◆ minVxWgt

double Vx3DHLTAnalyzer::minVxWgt
private

Definition at line 88 of file Vx3DHLTAnalyzer.h.

◆ mXlumi

MonitorElement* Vx3DHLTAnalyzer::mXlumi
private

Definition at line 94 of file Vx3DHLTAnalyzer.h.

◆ mYlumi

MonitorElement* Vx3DHLTAnalyzer::mYlumi
private

Definition at line 95 of file Vx3DHLTAnalyzer.h.

◆ mZlumi

MonitorElement* Vx3DHLTAnalyzer::mZlumi
private

Definition at line 96 of file Vx3DHLTAnalyzer.h.

◆ nLumiFit

unsigned int Vx3DHLTAnalyzer::nLumiFit
private

Definition at line 76 of file Vx3DHLTAnalyzer.h.

◆ nLumiXaxisRange

unsigned int Vx3DHLTAnalyzer::nLumiXaxisRange
private

Definition at line 78 of file Vx3DHLTAnalyzer.h.

◆ nParams

unsigned int Vx3DHLTAnalyzer::nParams
private

Definition at line 149 of file Vx3DHLTAnalyzer.h.

◆ numberFits

unsigned int Vx3DHLTAnalyzer::numberFits
private

Definition at line 145 of file Vx3DHLTAnalyzer.h.

◆ numberGoodFits

unsigned int Vx3DHLTAnalyzer::numberGoodFits
private

Definition at line 144 of file Vx3DHLTAnalyzer.h.

◆ outputDebugFile

std::ofstream Vx3DHLTAnalyzer::outputDebugFile
private

Definition at line 138 of file Vx3DHLTAnalyzer.h.

◆ outputFile

std::ofstream Vx3DHLTAnalyzer::outputFile
private

◆ pi

double Vx3DHLTAnalyzer::pi
private

Definition at line 158 of file Vx3DHLTAnalyzer.h.

◆ pixelHitCollection

edm::EDGetTokenT<SiPixelRecHitCollection> Vx3DHLTAnalyzer::pixelHitCollection
private

Definition at line 73 of file Vx3DHLTAnalyzer.h.

◆ reportSummary

MonitorElement* Vx3DHLTAnalyzer::reportSummary
private

Definition at line 129 of file Vx3DHLTAnalyzer.h.

◆ reportSummaryMap

MonitorElement* Vx3DHLTAnalyzer::reportSummaryMap
private

Definition at line 130 of file Vx3DHLTAnalyzer.h.

◆ runNumber

unsigned int Vx3DHLTAnalyzer::runNumber
private

◆ statusCounter

MonitorElement* Vx3DHLTAnalyzer::statusCounter
private

Definition at line 127 of file Vx3DHLTAnalyzer.h.

◆ sXlumi

MonitorElement* Vx3DHLTAnalyzer::sXlumi
private

Definition at line 98 of file Vx3DHLTAnalyzer.h.

◆ sYlumi

MonitorElement* Vx3DHLTAnalyzer::sYlumi
private

Definition at line 99 of file Vx3DHLTAnalyzer.h.

◆ sZlumi

MonitorElement* Vx3DHLTAnalyzer::sZlumi
private

Definition at line 100 of file Vx3DHLTAnalyzer.h.

◆ totalHits

unsigned int Vx3DHLTAnalyzer::totalHits
private

Definition at line 143 of file Vx3DHLTAnalyzer.h.

◆ vertexCollection

edm::EDGetTokenT<reco::VertexCollection> Vx3DHLTAnalyzer::vertexCollection
private

Definition at line 72 of file Vx3DHLTAnalyzer.h.

◆ Vertices

std::vector<VertexType> Vx3DHLTAnalyzer::Vertices
private

Definition at line 152 of file Vx3DHLTAnalyzer.h.

◆ Vx_X

MonitorElement* Vx3DHLTAnalyzer::Vx_X
private

Definition at line 105 of file Vx3DHLTAnalyzer.h.

◆ Vx_X_Cum

MonitorElement* Vx3DHLTAnalyzer::Vx_X_Cum
private

Definition at line 117 of file Vx3DHLTAnalyzer.h.

◆ Vx_X_Fit

MonitorElement* Vx3DHLTAnalyzer::Vx_X_Fit
private

Definition at line 113 of file Vx3DHLTAnalyzer.h.

◆ Vx_XY

MonitorElement* Vx3DHLTAnalyzer::Vx_XY
private

Definition at line 111 of file Vx3DHLTAnalyzer.h.

◆ Vx_XY_Cum

MonitorElement* Vx3DHLTAnalyzer::Vx_XY_Cum
private

Definition at line 123 of file Vx3DHLTAnalyzer.h.

◆ Vx_Y

MonitorElement* Vx3DHLTAnalyzer::Vx_Y
private

Definition at line 106 of file Vx3DHLTAnalyzer.h.

◆ Vx_Y_Cum

MonitorElement* Vx3DHLTAnalyzer::Vx_Y_Cum
private

Definition at line 118 of file Vx3DHLTAnalyzer.h.

◆ Vx_Y_Fit

MonitorElement* Vx3DHLTAnalyzer::Vx_Y_Fit
private

Definition at line 114 of file Vx3DHLTAnalyzer.h.

◆ Vx_Z

MonitorElement* Vx3DHLTAnalyzer::Vx_Z
private

Definition at line 107 of file Vx3DHLTAnalyzer.h.

◆ Vx_Z_Cum

MonitorElement* Vx3DHLTAnalyzer::Vx_Z_Cum
private

Definition at line 119 of file Vx3DHLTAnalyzer.h.

◆ Vx_Z_Fit

MonitorElement* Vx3DHLTAnalyzer::Vx_Z_Fit
private

Definition at line 115 of file Vx3DHLTAnalyzer.h.

◆ Vx_ZX

MonitorElement* Vx3DHLTAnalyzer::Vx_ZX
private

Definition at line 109 of file Vx3DHLTAnalyzer.h.

◆ Vx_ZX_Cum

MonitorElement* Vx3DHLTAnalyzer::Vx_ZX_Cum
private

Definition at line 121 of file Vx3DHLTAnalyzer.h.

◆ Vx_ZY

MonitorElement* Vx3DHLTAnalyzer::Vx_ZY
private

Definition at line 110 of file Vx3DHLTAnalyzer.h.

◆ Vx_ZY_Cum

MonitorElement* Vx3DHLTAnalyzer::Vx_ZY_Cum
private

Definition at line 122 of file Vx3DHLTAnalyzer.h.

◆ VxErrCorr

double Vx3DHLTAnalyzer::VxErrCorr
private

Definition at line 86 of file Vx3DHLTAnalyzer.h.

◆ xPos

double Vx3DHLTAnalyzer::xPos
private

Definition at line 157 of file Vx3DHLTAnalyzer.h.

◆ xRange

double Vx3DHLTAnalyzer::xRange
private

Definition at line 80 of file Vx3DHLTAnalyzer.h.

◆ xStep

double Vx3DHLTAnalyzer::xStep
private

Definition at line 81 of file Vx3DHLTAnalyzer.h.

◆ yPos

double Vx3DHLTAnalyzer::yPos
private

Definition at line 157 of file Vx3DHLTAnalyzer.h.

◆ yRange

double Vx3DHLTAnalyzer::yRange
private

Definition at line 82 of file Vx3DHLTAnalyzer.h.

◆ yStep

double Vx3DHLTAnalyzer::yStep
private

Definition at line 83 of file Vx3DHLTAnalyzer.h.

◆ zPos

double Vx3DHLTAnalyzer::zPos
private

Definition at line 157 of file Vx3DHLTAnalyzer.h.

◆ zRange

double Vx3DHLTAnalyzer::zRange
private

Definition at line 84 of file Vx3DHLTAnalyzer.h.

◆ zStep

double Vx3DHLTAnalyzer::zStep
private

Definition at line 85 of file Vx3DHLTAnalyzer.h.

counter
Definition: counter.py:1
DDAxes::y
Vx3DHLTAnalyzer::numberFits
unsigned int numberFits
Definition: Vx3DHLTAnalyzer.h:145
Vx3DHLTAnalyzer::Vx_Y
MonitorElement * Vx_Y
Definition: Vx3DHLTAnalyzer.h:106
mps_fire.i
i
Definition: mps_fire.py:355
Vx3DHLTAnalyzer::mXlumi
MonitorElement * mXlumi
Definition: Vx3DHLTAnalyzer.h:94
VertexType::x
double x
Definition: Vx3DHLTAnalyzer.h:37
Vx3DHLTAnalyzer::dataFromFit
bool dataFromFit
Definition: Vx3DHLTAnalyzer.h:75
Vx3DHLTAnalyzer::Vx_X_Fit
MonitorElement * Vx_X_Fit
Definition: Vx3DHLTAnalyzer.h:113
edm::isNotFinite
constexpr bool isNotFinite(T x)
Definition: isFinite.h:9
Vx3DHLTAnalyzer::HitCounter
unsigned int HitCounter(const edm::Event &iEvent)
Definition: Vx3DHLTAnalyzer.cc:182
Vx3DHLTAnalyzer::maxTransRadius
double maxTransRadius
Definition: Vx3DHLTAnalyzer.h:155
Vx3DHLTAnalyzer::sYlumi
MonitorElement * sYlumi
Definition: Vx3DHLTAnalyzer.h:99
Vx3DHLTAnalyzer::Vx_Z_Cum
MonitorElement * Vx_Z_Cum
Definition: Vx3DHLTAnalyzer.h:119
edm
HLT enums.
Definition: AlignableModifier.h:19
Vx3DHLTAnalyzer::lumiCounter
unsigned int lumiCounter
Definition: Vx3DHLTAnalyzer.h:142
Vx3DHLTAnalyzer::Vx_X
MonitorElement * Vx_X
Definition: Vx3DHLTAnalyzer.h:105
gather_cfg.cout
cout
Definition: gather_cfg.py:144
edm::LuminosityBlockBase::beginTime
Timestamp const & beginTime() const
Definition: LuminosityBlockBase.h:46
Vx3DHLTAnalyzer::mYlumi
MonitorElement * mYlumi
Definition: Vx3DHLTAnalyzer.h:95
edmNew::DetSetVector::const_iterator
boost::transform_iterator< IterHelp, const_IdIter > const_iterator
Definition: DetSetVectorNew.h:231
Vx3DHLTAnalyzer::goodVxCounter
MonitorElement * goodVxCounter
Definition: Vx3DHLTAnalyzer.h:125
edmNew::DetSetVector::begin
const_iterator begin(bool update=false) const
Definition: DetSetVectorNew.h:572
Vx3DHLTAnalyzer::maxLongLength
double maxLongLength
Definition: Vx3DHLTAnalyzer.h:156
edm::ParameterSet::getUntrackedParameter
T getUntrackedParameter(std::string const &, T const &) const
edm::Timestamp::value
TimeValue_t value() const
Definition: Timestamp.h:45
Vx3DHLTAnalyzer::fitResults
MonitorElement * fitResults
Definition: Vx3DHLTAnalyzer.h:132
DDAxes::x
Vx3DHLTAnalyzer::Vertices
std::vector< VertexType > Vertices
Definition: Vx3DHLTAnalyzer.h:152
Vx3DHLTAnalyzer::beginLumiOfFit
unsigned int beginLumiOfFit
Definition: Vx3DHLTAnalyzer.h:146
Vx3DHLTAnalyzer::MyFit
int MyFit(std::vector< double > *vals)
Definition: Vx3DHLTAnalyzer.cc:268
Vx3DHLTAnalyzer::dydzlumi
MonitorElement * dydzlumi
Definition: Vx3DHLTAnalyzer.h:103
createJobs.tmp
tmp
align.sh
Definition: createJobs.py:716
tools.TF1
TF1
Definition: tools.py:23
edm::Handle< VertexCollection >
Vx3DHLTAnalyzer::xStep
double xStep
Definition: Vx3DHLTAnalyzer.h:81
DTskim_cfg.dataType
dataType
Definition: DTskim_cfg.py:56
Vx3DHLTAnalyzer::dqmBeginLuminosityBlock
void dqmBeginLuminosityBlock(const edm::LuminosityBlock &lumiBlock, const edm::EventSetup &iSetup) override
Definition: Vx3DHLTAnalyzer.cc:925
Vx3DHLTAnalyzer::formatTime
std::string formatTime(const time_t &t)
Definition: Vx3DHLTAnalyzer.cc:195
Vx3DHLTAnalyzer::lastLumiOfFit
unsigned int lastLumiOfFit
Definition: Vx3DHLTAnalyzer.h:148
Vx3DHLTAnalyzer::statusCounter
MonitorElement * statusCounter
Definition: Vx3DHLTAnalyzer.h:127
Vx3DHLTAnalyzer::runNumber
unsigned int runNumber
Definition: Vx3DHLTAnalyzer.h:141
Vx3DHLTAnalyzer::yStep
double yStep
Definition: Vx3DHLTAnalyzer.h:83
Vx3DHLTAnalyzer::Vx_XY_Cum
MonitorElement * Vx_XY_Cum
Definition: Vx3DHLTAnalyzer.h:123
DIM
#define DIM(a)
Definition: LogEleMapdb.h:14738
VertexType::Covariance
double Covariance[3][3]
Definition: Vx3DHLTAnalyzer.h:40
Vx3DHLTAnalyzer::Vx_ZY
MonitorElement * Vx_ZY
Definition: Vx3DHLTAnalyzer.h:110
Vx3DHLTAnalyzer::outputDebugFile
std::ofstream outputDebugFile
Definition: Vx3DHLTAnalyzer.h:138
Vx3DHLTAnalyzer::zStep
double zStep
Definition: Vx3DHLTAnalyzer.h:85
Vx3DHLTAnalyzer::maxLumiIntegration
unsigned int maxLumiIntegration
Definition: Vx3DHLTAnalyzer.h:77
h
edm::LuminosityBlockBase::endTime
Timestamp const & endTime() const
Definition: LuminosityBlockBase.h:47
Vx3DHLTAnalyzer::Vx_Z
MonitorElement * Vx_Z
Definition: Vx3DHLTAnalyzer.h:107
Vx3DHLTAnalyzer::reset
void reset(std::string ResetType)
Definition: Vx3DHLTAnalyzer.cc:671
Vx3DHLTAnalyzer::writeToFile
void writeToFile(std::vector< double > *vals, edm::TimeValue_t BeginTimeOfFit, edm::TimeValue_t EndTimeOfFit, unsigned int BeginLumiOfFit, unsigned int EndLumiOfFit, int dataType)
Definition: Vx3DHLTAnalyzer.cc:781
Vx3DHLTAnalyzer::nLumiFit
unsigned int nLumiFit
Definition: Vx3DHLTAnalyzer.h:76
edm::LuminosityBlockBase::luminosityBlock
LuminosityBlockNumber_t luminosityBlock() const
Definition: LuminosityBlockBase.h:40
mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:19
dqm::impl::MonitorElement::Fill
void Fill(long long x)
Definition: MonitorElement.h:290
DDAxes::z
dqm::impl::MonitorElement::Reset
virtual void Reset()
Remove all data from the ME, keept the empty histogram with all its settings.
Definition: MonitorElement.cc:354
dqm::impl::MonitorElement::getTH1F
virtual TH1F * getTH1F()
Definition: MonitorElement.cc:974
OrderedSet.t
t
Definition: OrderedSet.py:90
Vx3DHLTAnalyzer::considerVxCovariance
bool considerVxCovariance
Definition: Vx3DHLTAnalyzer.h:153
dqm::impl::MonitorElement::getTH1
virtual TH1 * getTH1()
Definition: MonitorElement.cc:969
Vx3DHLTAnalyzer::sXlumi
MonitorElement * sXlumi
Definition: Vx3DHLTAnalyzer.h:98
VertexType::y
double y
Definition: Vx3DHLTAnalyzer.h:38
Vx3DHLTAnalyzer::nParams
unsigned int nParams
Definition: Vx3DHLTAnalyzer.h:149
Vx3DHLTAnalyzer::zRange
double zRange
Definition: Vx3DHLTAnalyzer.h:84
Vx3DHLTAnalyzer::minNentries
unsigned int minNentries
Definition: Vx3DHLTAnalyzer.h:79
B2GTnPMonitor_cfi.histTitle
histTitle
Definition: B2GTnPMonitor_cfi.py:112
Vx3DHLTAnalyzer::yRange
double yRange
Definition: Vx3DHLTAnalyzer.h:82
Vx3DHLTAnalyzer::minVxWgt
double minVxWgt
Definition: Vx3DHLTAnalyzer.h:88
Vx3DHLTAnalyzer::reportSummary
MonitorElement * reportSummary
Definition: Vx3DHLTAnalyzer.h:129
Vx3DHLTAnalyzer::debugMode
bool debugMode
Definition: Vx3DHLTAnalyzer.h:74
Vx3DHLTAnalyzer::hitCounter
MonitorElement * hitCounter
Definition: Vx3DHLTAnalyzer.h:126
Vx3DHLTAnalyzer::Vx_ZX_Cum
MonitorElement * Vx_ZX_Cum
Definition: Vx3DHLTAnalyzer.h:121
iEvent
int iEvent
Definition: GenABIO.cc:224
Vx3DHLTAnalyzer::Vx_Y_Cum
MonitorElement * Vx_Y_Cum
Definition: Vx3DHLTAnalyzer.h:118
Vx3DHLTAnalyzer::vertexCollection
edm::EDGetTokenT< reco::VertexCollection > vertexCollection
Definition: Vx3DHLTAnalyzer.h:72
dqm::impl::MonitorElement::setBinLabel
virtual void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
Definition: MonitorElement.cc:771
Vx3DHLTAnalyzer::nLumiXaxisRange
unsigned int nLumiXaxisRange
Definition: Vx3DHLTAnalyzer.h:78
Vx3DHLTAnalyzer::endTimeOfFit
edm::TimeValue_t endTimeOfFit
Definition: Vx3DHLTAnalyzer.h:140
Vx3DHLTAnalyzer::yPos
double yPos
Definition: Vx3DHLTAnalyzer.h:157
counter
static std::atomic< unsigned int > counter
Definition: SharedResourceNames.cc:15
Vx3DHLTAnalyzer::sZlumi
MonitorElement * sZlumi
Definition: Vx3DHLTAnalyzer.h:100
Vx3DHLTAnalyzer::pi
double pi
Definition: Vx3DHLTAnalyzer.h:158
Vx3DHLTAnalyzer::xRange
double xRange
Definition: Vx3DHLTAnalyzer.h:80
Vx3DHLTAnalyzer::Vx_XY
MonitorElement * Vx_XY
Definition: Vx3DHLTAnalyzer.h:111
Vx3DHLTAnalyzer::xPos
double xPos
Definition: Vx3DHLTAnalyzer.h:157
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
dqm::impl::MonitorElement::setBinContent
virtual void setBinContent(int binx, double content)
set content of bin (1-D)
Definition: MonitorElement.cc:691
Vx3DHLTAnalyzer::fileName
std::string fileName
Definition: Vx3DHLTAnalyzer.h:89
Vx3DHLTAnalyzer::Vx_X_Cum
MonitorElement * Vx_X_Cum
Definition: Vx3DHLTAnalyzer.h:117
Vx3DHLTAnalyzer::pixelHitCollection
edm::EDGetTokenT< SiPixelRecHitCollection > pixelHitCollection
Definition: Vx3DHLTAnalyzer.h:73
Vx3DHLTAnalyzer::Vx_Z_Fit
MonitorElement * Vx_Z_Fit
Definition: Vx3DHLTAnalyzer.h:115
Vx3DHLTAnalyzer::VxErrCorr
double VxErrCorr
Definition: Vx3DHLTAnalyzer.h:86
Vx3DHLTAnalyzer::minVxDoF
double minVxDoF
Definition: Vx3DHLTAnalyzer.h:87
edmNew::DetSetVector::end
const_iterator end(bool update=false) const
Definition: DetSetVectorNew.h:577
Vx3DHLTAnalyzer::reportSummaryMap
MonitorElement * reportSummaryMap
Definition: Vx3DHLTAnalyzer.h:130
VertexType
Definition: Vx3DHLTAnalyzer.h:36
Vx3DHLTAnalyzer::endLumiOfFit
unsigned int endLumiOfFit
Definition: Vx3DHLTAnalyzer.h:147
Vx3DHLTAnalyzer::Gauss3DFunc
double Gauss3DFunc(const double *par)
Definition: Vx3DHLTAnalyzer.cc:204
Covariance
Definition: Histograms.h:1875
Vx3DHLTAnalyzer::outputFile
std::ofstream outputFile
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