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SiStripCalibLorentzAngle Class Reference

#include <SiStripCalibLorentzAngle.h>

Inheritance diagram for SiStripCalibLorentzAngle:
ConditionDBWriter< SiStripLorentzAngle > edm::EDAnalyzer edm::EDConsumerBase

Public Types

typedef dqm::legacy::DQMStore DQMStore
 
typedef dqm::legacy::MonitorElement MonitorElement
 
- Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer ModuleType
 
- Public Types inherited from edm::EDConsumerBase
typedef ProductLabels Labels
 

Public Member Functions

void algoBeginJob (const edm::EventSetup &) override
 
std::unique_ptr< SiStripLorentzAnglegetNewObject () override
 
 SiStripCalibLorentzAngle (const edm::ParameterSet &conf)
 
 ~SiStripCalibLorentzAngle () override
 
- Public Member Functions inherited from ConditionDBWriter< SiStripLorentzAngle >
 ConditionDBWriter (const edm::ParameterSet &iConfig)
 
 ~ConditionDBWriter () override
 
- Public Member Functions inherited from edm::EDAnalyzer
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
 EDAnalyzer ()
 
SerialTaskQueueglobalLuminosityBlocksQueue ()
 
SerialTaskQueueglobalRunsQueue ()
 
ModuleDescription const & moduleDescription () const
 
std::string workerType () const
 
 ~EDAnalyzer () 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
 
std::vector< ESProxyIndex > const & esGetTokenIndicesVector (edm::Transition iTrans) const
 
std::vector< ESRecordIndex > const & esGetTokenRecordIndicesVector (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::array< std::vector< ModuleDescription const * > *, NumBranchTypes > &modulesAll, std::vector< ModuleProcessName > &modulesInPreviousProcesses, 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
 
void selectInputProcessBlocks (ProductRegistry const &productRegistry, ProcessBlockHelperBase const &processBlockHelperBase)
 
ProductResolverIndexAndSkipBit uncheckedIndexFrom (EDGetToken) const
 
void updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)
 
void updateLookup (eventsetup::ESRecordsToProxyIndices const &)
 
virtual ~EDConsumerBase () noexcept(false)
 

Private Types

typedef std::map< std::string, TProfile * > ProfileMap
 
typedef std::map< std::string, TH1D * > TH1Dmap
 
typedef std::map< std::string, TH2D * > TH2Dmap
 

Private Attributes

float AsymmParam
 
int badFit
 
bool CalibByMC
 
edm::ParameterSet conf_
 
std::map< uint32_t, float > detid_la
 
TDirectory * FirstIT_GoodFit_Histos
 
TF1 * fitfunc
 
TF1 * fitfunc2IT
 
TF1 * FitFunction
 
TF1 * FitFunction2IT
 
float geta
 
float globalX
 
float globalY
 
float globalZ
 
int goodFit
 
int goodFit1IT
 
float gphi
 
const GlobalPoint gposition
 
float gR
 
float gz
 
float hallMobility
 
TFile * hFile
 
float histoEntries
 
std::vector< MonitorElement * > histolist
 
int Layer
 
bool LayerDB
 
TDirectory * LorentzAngle_Plots
 
edm::ESGetToken< SiStripLorentzAngle, SiStripLorentzAngleRcdlorentzAngleToken_
 
edm::ESGetToken< MagneticField, IdealMagneticFieldRecordmagFieldToken_
 
float mean_TIB1
 
float mean_TIB2
 
float mean_TIB3
 
float mean_TIB4
 
float mean_TOB1
 
float mean_TOB2
 
float mean_TOB3
 
float mean_TOB4
 
float mean_TOB5
 
float mean_TOB6
 
float meanMobility_TIB
 
float meanMobility_TOB
 
TTree * ModuleTree
 
int MonoStereo
 
float muH
 
TDirectory * MuH
 
TDirectory * MuH_vs_Eta
 
TDirectory * MuH_vs_Phi
 
ProfileMap Profiles
 
TDirectory * Rootple
 
TDirectory * SecondIT_BadFit_Histos
 
TDirectory * SecondIT_GoodFit_Histos
 
TH1Dmap TH1Ds
 
TH2Dmap TH2Ds
 
float theBfield
 
int TIB
 
TDirectory * TIB_1IT_GoodFit
 
TDirectory * TIB_2IT_BadFit
 
TDirectory * TIB_2IT_GoodFit
 
TDirectory * TIB_Eta
 
TGraphErrors * TIB_graph
 
TDirectory * TIB_MuH
 
TDirectory * TIB_Phi
 
const TrackerGeometrytkGeom_ = nullptr
 
edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecordtkGeomToken_
 
int TOB
 
TDirectory * TOB_1IT_GoodFit
 
TDirectory * TOB_2IT_BadFit
 
TDirectory * TOB_2IT_GoodFit
 
TDirectory * TOB_Eta
 
TGraphErrors * TOB_graph
 
TDirectory * TOB_MuH
 
TDirectory * TOB_Phi
 
const TrackerTopologytTopo_ = nullptr
 
edm::ESGetToken< TrackerTopology, TrackerTopologyRcdtTopoToken_
 

Additional Inherited Members

- Static Public Member Functions inherited from edm::EDAnalyzer
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &)
 
static bool wantsGlobalLuminosityBlocks ()
 
static bool wantsGlobalRuns ()
 
static bool wantsInputProcessBlocks ()
 
static bool wantsProcessBlocks ()
 
static bool wantsStreamLuminosityBlocks ()
 
static bool wantsStreamRuns ()
 
- Protected Member Functions inherited from ConditionDBWriter< SiStripLorentzAngle >
void setDoStore (const bool doStore)
 When set to false the payload will not be written to the db. More...
 
void storeOnDbNow ()
 
cond::Time_t timeOfLastIOV ()
 
- 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 = InEvent>
EDConsumerBaseAdaptor< B > consumes (edm::InputTag tag) noexcept
 
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<Transition Tr = Transition::Event>
constexpr auto esConsumes () noexcept
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes (ESInputTag const &tag)
 
template<Transition Tr = Transition::Event>
auto esConsumes (ESInputTag tag) noexcept
 
template<Transition Tr = Transition::Event>
ESGetTokenGeneric esConsumes (eventsetup::EventSetupRecordKey const &iRecord, eventsetup::DataKey const &iKey)
 Used with EventSetupRecord::doGet. More...
 
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)
 

Detailed Description

Definition at line 42 of file SiStripCalibLorentzAngle.h.

Member Typedef Documentation

◆ DQMStore

Definition at line 45 of file SiStripCalibLorentzAngle.h.

◆ MonitorElement

Definition at line 44 of file SiStripCalibLorentzAngle.h.

◆ ProfileMap

typedef std::map<std::string, TProfile *> SiStripCalibLorentzAngle::ProfileMap
private

Definition at line 63 of file SiStripCalibLorentzAngle.h.

◆ TH1Dmap

typedef std::map<std::string, TH1D *> SiStripCalibLorentzAngle::TH1Dmap
private

Definition at line 65 of file SiStripCalibLorentzAngle.h.

◆ TH2Dmap

typedef std::map<std::string, TH2D *> SiStripCalibLorentzAngle::TH2Dmap
private

Definition at line 67 of file SiStripCalibLorentzAngle.h.

Constructor & Destructor Documentation

◆ SiStripCalibLorentzAngle()

SiStripCalibLorentzAngle::SiStripCalibLorentzAngle ( const edm::ParameterSet conf)
explicit

Definition at line 18 of file SiStripCalibLorentzAngle.cc.

20  tTopoToken_(esConsumes<edm::Transition::BeginRun>()),
21  tkGeomToken_(esConsumes<edm::Transition::BeginRun>()),
22  magFieldToken_(esConsumes<edm::Transition::BeginRun>()),
23  lorentzAngleToken_(esConsumes<edm::Transition::BeginRun>()),
24  conf_(conf) {}

◆ ~SiStripCalibLorentzAngle()

SiStripCalibLorentzAngle::~SiStripCalibLorentzAngle ( )
override

Definition at line 806 of file SiStripCalibLorentzAngle.cc.

806 { delete hFile; }

References hFile.

Member Function Documentation

◆ algoBeginJob()

void SiStripCalibLorentzAngle::algoBeginJob ( const edm::EventSetup c)
overridevirtual

Reimplemented from ConditionDBWriter< SiStripLorentzAngle >.

Definition at line 26 of file SiStripCalibLorentzAngle.cc.

26  {
27  tTopo_ = &c.getData(tTopoToken_);
28  tkGeom_ = &c.getData(tkGeomToken_);
29  const auto& magField = c.getData(magFieldToken_);
30  detid_la = c.getData(lorentzAngleToken_).getLorentzAngles();
31 
32  DQMStore* dbe_ = edm::Service<DQMStore>().operator->();
33 
34  std::string inputFile_ = conf_.getUntrackedParameter<std::string>("fileName", "LAProfiles.root");
35  std::string LAreport_ = conf_.getUntrackedParameter<std::string>("LA_Report", "LA_Report.txt");
36  std::string NoEntriesHisto_ = conf_.getUntrackedParameter<std::string>("NoEntriesHisto", "NoEntriesHisto.txt");
37  std::string Dir_Name_ = conf_.getUntrackedParameter<std::string>("Dir_Name", "SiStrip");
38 
39  LayerDB = conf_.getUntrackedParameter<bool>("LayerDB", false);
40 
41  CalibByMC = conf_.getUntrackedParameter<bool>("CalibByMC", false);
42 
43  dbe_->open(inputFile_);
44 
45  // use SistripHistoId for producing histogram id (and title)
46  SiStripHistoId hidmanager;
47 
48  edm::LogInfo("SiStripCalibLorentzAngle") << "### DIR-NAME = " << Dir_Name_;
49  histolist = dbe_->getAllContents(Dir_Name_);
50  std::vector<MonitorElement*>::iterator histo;
51 
52  hFile = new TFile(conf_.getUntrackedParameter<std::string>("out_fileName").c_str(), "RECREATE");
53 
54  LorentzAngle_Plots = hFile->mkdir("LorentzAngle_Plots");
55  Rootple = LorentzAngle_Plots->mkdir("Rootple");
56  MuH = LorentzAngle_Plots->mkdir("MuH");
57  TIB_MuH = MuH->mkdir("TIB_MuH");
58  TOB_MuH = MuH->mkdir("TOB_MuH");
59  MuH_vs_Phi = LorentzAngle_Plots->mkdir("MuH_vs_Phi");
60  TIB_Phi = MuH_vs_Phi->mkdir("TIB_Phi");
61  TOB_Phi = MuH_vs_Phi->mkdir("TOB_Phi");
62  MuH_vs_Eta = LorentzAngle_Plots->mkdir("MuH_vs_Eta");
63  TIB_Eta = MuH_vs_Eta->mkdir("TIB_Eta");
64  TOB_Eta = MuH_vs_Eta->mkdir("TOB_Eta");
65  FirstIT_GoodFit_Histos = LorentzAngle_Plots->mkdir("1IT_GoodFit_Histos");
66  TIB_1IT_GoodFit = FirstIT_GoodFit_Histos->mkdir("TIB_1IT_GoodFit");
67  TOB_1IT_GoodFit = FirstIT_GoodFit_Histos->mkdir("TOB_1IT_GoodFit");
68  SecondIT_GoodFit_Histos = LorentzAngle_Plots->mkdir("2IT_GoodFit_Histos");
69  TIB_2IT_GoodFit = SecondIT_GoodFit_Histos->mkdir("TIB_2IT_GoodFit");
70  TOB_2IT_GoodFit = SecondIT_GoodFit_Histos->mkdir("TOB_2IT_GoodFit");
71  SecondIT_BadFit_Histos = LorentzAngle_Plots->mkdir("2IT_BadFit_Histos");
72  TIB_2IT_BadFit = SecondIT_BadFit_Histos->mkdir("TIB_2IT_BadFit");
73  TOB_2IT_BadFit = SecondIT_BadFit_Histos->mkdir("TOB_2IT_BadFit");
74 
75  TH1Ds["LA_TIB"] = new TH1D("TanLAPerTesla TIB", "TanLAPerTesla TIB", 1000, -0.5, 0.5);
76  TH1Ds["LA_TIB"]->SetDirectory(MuH);
77  TH1Ds["LA_TOB"] = new TH1D("TanLAPerTesla TOB", "TanLAPerTesla TOB", 1000, -0.5, 0.5);
78  TH1Ds["LA_TOB"]->SetDirectory(MuH);
79  TH1Ds["LA_err_TIB"] = new TH1D("TanLAPerTesla Error TIB", "TanLAPerTesla Error TIB", 1000, 0, 1);
80  TH1Ds["LA_err_TIB"]->SetDirectory(MuH);
81  TH1Ds["LA_err_TOB"] = new TH1D("TanLAPerTesla Error TOB", "TanLAPerTesla Error TOB", 1000, 0, 1);
82  TH1Ds["LA_err_TOB"]->SetDirectory(MuH);
83  TH1Ds["LA_chi2norm_TIB"] = new TH1D("TanLAPerTesla Chi2norm TIB", "TanLAPerTesla Chi2norm TIB", 2000, 0, 10);
84  TH1Ds["LA_chi2norm_TIB"]->SetDirectory(MuH);
85  TH1Ds["LA_chi2norm_TOB"] = new TH1D("TanLAPerTesla Chi2norm TOB", "TanLAPerTesla Chi2norm TOB", 2000, 0, 10);
86  TH1Ds["LA_chi2norm_TOB"]->SetDirectory(MuH);
87  TH1Ds["MagneticField"] = new TH1D("MagneticField", "MagneticField", 500, 0, 5);
88  TH1Ds["MagneticField"]->SetDirectory(MuH);
89 
90  TH2Ds["LA_TIB_graph"] = new TH2D("TanLAPerTesla TIB Layers", "TanLAPerTesla TIB Layers", 60, 0, 5, 1000, -0.3, 0.3);
91  TH2Ds["LA_TIB_graph"]->SetDirectory(MuH);
92  TH2Ds["LA_TIB_graph"]->SetNdivisions(6);
93  TH2Ds["LA_TOB_graph"] = new TH2D("TanLAPerTesla TOB Layers", "TanLAPerTesla TOB Layers", 80, 0, 7, 1000, -0.3, 0.3);
94  TH2Ds["LA_TOB_graph"]->SetDirectory(MuH);
95  TH2Ds["LA_TOB_graph"]->SetNdivisions(8);
96 
97  TH1Ds["LA_TIB_1"] = new TH1D("TanLAPerTesla TIB1", "TanLAPerTesla TIB1", 2000, -0.5, 0.5);
98  TH1Ds["LA_TIB_1"]->SetDirectory(TIB_MuH);
99  TH1Ds["LA_TIB_1_mono"] = new TH1D("TanLAPerTesla TIB1 MONO", "TanLAPerTesla TIB1 MONO", 2000, -0.5, 0.5);
100  TH1Ds["LA_TIB_1_mono"]->SetDirectory(TIB_MuH);
101  TH1Ds["LA_TIB_1_stereo"] = new TH1D("TanLAPerTesla TIB1 STEREO", "TanLAPerTesla TIB1 STEREO", 2000, -0.5, 0.5);
102  TH1Ds["LA_TIB_1_stereo"]->SetDirectory(TIB_MuH);
103  TH1Ds["LA_TIB_2"] = new TH1D("TanLAPerTesla TIB2", "TanLAPerTesla TIB2", 2000, -0.5, 0.5);
104  TH1Ds["LA_TIB_2"]->SetDirectory(TIB_MuH);
105  TH1Ds["LA_TIB_2_mono"] = new TH1D("TanLAPerTesla TIB2 MONO", "TanLAPerTesla TIB2 MONO", 2000, -0.5, 0.5);
106  TH1Ds["LA_TIB_2_mono"]->SetDirectory(TIB_MuH);
107  TH1Ds["LA_TIB_2_stereo"] = new TH1D("TanLAPerTesla TIB2 STEREO", "TanLAPerTesla TIB2 STEREO", 2000, -0.5, 0.5);
108  TH1Ds["LA_TIB_2_stereo"]->SetDirectory(TIB_MuH);
109  TH1Ds["LA_TIB_3"] = new TH1D("TanLAPerTesla_TIB 3", "TanLAPerTesla TIB3", 2000, -0.5, 0.5);
110  TH1Ds["LA_TIB_3"]->SetDirectory(TIB_MuH);
111  TH1Ds["LA_TIB_4"] = new TH1D("TanLAPerTesla_TIB 4", "TanLAPerTesla TIB4", 2000, -0.5, 0.5);
112  TH1Ds["LA_TIB_4"]->SetDirectory(TIB_MuH);
113 
114  TH1Ds["LA_TOB_1"] = new TH1D("TanLAPerTesla TOB1", "TanLAPerTesla TOB1", 2000, -0.5, 0.5);
115  TH1Ds["LA_TOB_1"]->SetDirectory(TOB_MuH);
116  TH1Ds["LA_TOB_1_mono"] = new TH1D("TanLAPerTesla TOB1 MONO", "TanLAPerTesla TOB1 MONO", 2000, -0.5, 0.5);
117  TH1Ds["LA_TOB_1_mono"]->SetDirectory(TOB_MuH);
118  TH1Ds["LA_TOB_1_stereo"] = new TH1D("TanLAPerTesla TOB1 STEREO", "TanLAPerTesla TOB1 STEREO", 2000, -0.5, 0.5);
119  TH1Ds["LA_TOB_1_stereo"]->SetDirectory(TOB_MuH);
120  TH1Ds["LA_TOB_2"] = new TH1D("TanLAPerTesla TOB2", "TanLAPerTesla TOB2", 2000, -0.5, 0.5);
121  TH1Ds["LA_TOB_2"]->SetDirectory(TOB_MuH);
122  TH1Ds["LA_TOB_2_mono"] = new TH1D("TanLAPerTesla TOB2 MONO", "TanLAPerTesla TOB2 MONO", 2000, -0.5, 0.5);
123  TH1Ds["LA_TOB_2_mono"]->SetDirectory(TOB_MuH);
124  TH1Ds["LA_TOB_2_stereo"] = new TH1D("TanLAPerTesla TOB2 STEREO", "TanLAPerTesla TOB2 STEREO", 2000, -0.5, 0.5);
125  TH1Ds["LA_TOB_2_stereo"]->SetDirectory(TOB_MuH);
126  TH1Ds["LA_TOB_3"] = new TH1D("TanLAPerTesla TOB3", "TanLAPerTesla TOB3", 2000, -0.5, 0.5);
127  TH1Ds["LA_TOB_3"]->SetDirectory(TOB_MuH);
128  TH1Ds["LA_TOB_4"] = new TH1D("TanLAPerTesla TOB4", "TanLAPerTesla TOB4", 2000, -0.5, 0.5);
129  TH1Ds["LA_TOB_4"]->SetDirectory(TOB_MuH);
130  TH1Ds["LA_TOB_5"] = new TH1D("TanLAPerTesla TOB5", "TanLAPerTesla TOB5", 2000, -0.5, 0.5);
131  TH1Ds["LA_TOB_5"]->SetDirectory(TOB_MuH);
132  TH1Ds["LA_TOB_6"] = new TH1D("TanLAPerTesla TOB6", "TanLAPerTesla TOB6", 2000, -0.5, 0.5);
133  TH1Ds["LA_TOB_6"]->SetDirectory(TOB_MuH);
134 
135  TH2Ds["LA_phi_TIB"] = new TH2D("TanLAPerTesla vs Phi TIB", "TanLAPerTesla vs Phi TIB", 800, -4, 4, 600, -0.3, 0.3);
136  TH2Ds["LA_phi_TIB"]->SetDirectory(MuH_vs_Phi);
137  TH2Ds["LA_phi_TOB"] = new TH2D("TanLAPerTesla vs Phi TOB", "TanLAPerTesla vs Phi TOB", 800, -4, 4, 600, -0.3, 0.3);
138  TH2Ds["LA_phi_TOB"]->SetDirectory(MuH_vs_Phi);
139 
140  TH2Ds["LA_phi_TIB1"] = new TH2D("TanLAPerTesla vs Phi TIB1", "TanLAPerTesla vs Phi TIB1", 800, -4, 4, 600, -0.3, 0.3);
141  TH2Ds["LA_phi_TIB1"]->SetDirectory(TIB_Phi);
142  TH2Ds["LA_phi_TIB1_mono"] =
143  new TH2D("TanLAPerTesla vs Phi TIB1 MONO", "TanLAPerTesla vs Phi TIB1 MONO", 800, -4, 4, 600, -0.3, 0.3);
144  TH2Ds["LA_phi_TIB1_mono"]->SetDirectory(TIB_Phi);
145  TH2Ds["LA_phi_TIB1_stereo"] =
146  new TH2D("TanLAPerTesla vs Phi TIB1 STEREO", "TanLAPerTesla vs Phi TIB1 STEREO", 800, -4, 4, 600, -0.3, 0.3);
147  TH2Ds["LA_phi_TIB1_stereo"]->SetDirectory(TIB_Phi);
148  TH2Ds["LA_phi_TIB2"] = new TH2D("TanLAPerTesla vs Phi TIB2", "TanLAPerTesla vs Phi TIB2", 800, -4, 4, 600, -0.3, 0.3);
149  TH2Ds["LA_phi_TIB2"]->SetDirectory(TIB_Phi);
150  TH2Ds["LA_phi_TIB2_mono"] =
151  new TH2D("TanLAPerTesla vs Phi TIB2 MONO", "TanLAPerTesla vs Phi TIB2 MONO", 800, -4, 4, 600, -0.3, 0.3);
152  TH2Ds["LA_phi_TIB2_mono"]->SetDirectory(TIB_Phi);
153  TH2Ds["LA_phi_TIB2_stereo"] =
154  new TH2D("TanLAPerTesla vs Phi TIB2 STEREO", "TanLAPerTesla vs Phi TIB2 STEREO", 800, -4, 4, 600, -0.3, 0.3);
155  TH2Ds["LA_phi_TIB2_stereo"]->SetDirectory(TIB_Phi);
156  TH2Ds["LA_phi_TIB3"] = new TH2D("TanLAPerTesla vs Phi TIB3", "TanLAPerTesla vs Phi TIB3", 800, -4, 4, 600, -0.3, 0.3);
157  TH2Ds["LA_phi_TIB3"]->SetDirectory(TIB_Phi);
158  TH2Ds["LA_phi_TIB4"] = new TH2D("TanLAPerTesla vs Phi TIB4", "TanLAPerTesla vs Phi TIB4", 800, -4, 4, 600, -0.3, 0.3);
159  TH2Ds["LA_phi_TIB4"]->SetDirectory(TIB_Phi);
160 
161  TH2Ds["LA_phi_TOB1"] = new TH2D("TanLAPerTesla vs Phi TOB1", "TanLAPerTesla vs Phi TOB1", 800, -4, 4, 600, -0.3, 0.3);
162  TH2Ds["LA_phi_TOB1"]->SetDirectory(TOB_Phi);
163  TH2Ds["LA_phi_TOB1_mono"] =
164  new TH2D("TanLAPerTesla vs Phi TOB1 MONO", "TanLAPerTesla vs Phi TOB1 MONO", 800, -4, 4, 600, -0.3, 0.3);
165  TH2Ds["LA_phi_TOB1_mono"]->SetDirectory(TOB_Phi);
166  TH2Ds["LA_phi_TOB1_stereo"] =
167  new TH2D("TanLAPerTesla vs Phi TOB1 STEREO", "TanLAPerTesla vs Phi TOB1 STEREO", 800, -4, 4, 600, -0.3, 0.3);
168  TH2Ds["LA_phi_TOB1_stereo"]->SetDirectory(TOB_Phi);
169  TH2Ds["LA_phi_TOB2"] = new TH2D("TanLAPerTesla vs Phi TOB2", "TanLAPerTesla vs Phi TOB2", 800, -4, 4, 600, -0.3, 0.3);
170  TH2Ds["LA_phi_TOB2"]->SetDirectory(TOB_Phi);
171  TH2Ds["LA_phi_TOB2_mono"] =
172  new TH2D("TanLAPerTesla vs Phi TOB2 MONO", "TanLAPerTesla vs Phi TOB2 MONO", 800, -4, 4, 600, -0.3, 0.3);
173  TH2Ds["LA_phi_TOB2_mono"]->SetDirectory(TOB_Phi);
174  TH2Ds["LA_phi_TOB2_stereo"] =
175  new TH2D("TanLAPerTesla vs Phi TOB2 STEREO", "TanLAPerTesla vs Phi TOB2 STEREO", 800, -4, 4, 600, -0.3, 0.3);
176  TH2Ds["LA_phi_TOB2_stereo"]->SetDirectory(TOB_Phi);
177  TH2Ds["LA_phi_TOB3"] = new TH2D("TanLAPerTesla vs Phi TOB3", "TanLAPerTesla vs Phi TOB3", 800, -4, 4, 600, -0.3, 0.3);
178  TH2Ds["LA_phi_TOB3"]->SetDirectory(TOB_Phi);
179  TH2Ds["LA_phi_TOB4"] = new TH2D("TanLAPerTesla vs Phi TOB4", "TanLAPerTesla vs Phi TOB4", 800, -4, 4, 600, -0.3, 0.3);
180  TH2Ds["LA_phi_TOB4"]->SetDirectory(TOB_Phi);
181  TH2Ds["LA_phi_TOB5"] = new TH2D("TanLAPerTesla vs Phi TOB5", "TanLAPerTesla vs Phi TOB5", 800, -4, 4, 600, -0.3, 0.3);
182  TH2Ds["LA_phi_TOB5"]->SetDirectory(TOB_Phi);
183  TH2Ds["LA_phi_TOB6"] = new TH2D("TanLAPerTesla vs Phi TOB6", "TanLAPerTesla vs Phi TOB6", 800, -4, 4, 600, -0.3, 0.3);
184  TH2Ds["LA_phi_TOB6"]->SetDirectory(TOB_Phi);
185 
186  TH2Ds["LA_eta_TIB"] =
187  new TH2D("TanLAPerTesla vs Eta TIB", "TanLAPerTesla vs Eta TIB", 800, -2.6, 2.6, 600, -0.3, 0.3);
188  TH2Ds["LA_eta_TIB"]->SetDirectory(MuH_vs_Eta);
189  TH2Ds["LA_eta_TOB"] =
190  new TH2D("TanLAPerTesla vs Eta TOB", "TanLAPerTesla vs Eta TOB", 800, -2.6, 2.6, 600, -0.3, 0.3);
191  TH2Ds["LA_eta_TOB"]->SetDirectory(MuH_vs_Eta);
192 
193  TH2Ds["LA_eta_TIB1"] =
194  new TH2D("TanLAPerTesla vs Eta TIB1", "TanLAPerTesla vs Eta TIB1", 800, -2.6, 2.6, 600, -0.3, 0.3);
195  TH2Ds["LA_eta_TIB1"]->SetDirectory(TIB_Eta);
196  TH2Ds["LA_eta_TIB1_mono"] =
197  new TH2D("TanLAPerTesla vs Eta TIB1 MONO", "TanLAPerTesla vs Eta TIB1 MONO", 800, -2.6, 2.6, 600, -0.3, 0.3);
198  TH2Ds["LA_eta_TIB1_mono"]->SetDirectory(TIB_Eta);
199  TH2Ds["LA_eta_TIB1_stereo"] =
200  new TH2D("TanLAPerTesla vs Eta TIB1 STEREO", "TanLAPerTesla vs Eta TIB1 STEREO", 800, -2.6, 2.6, 600, -0.3, 0.3);
201  TH2Ds["LA_eta_TIB1_stereo"]->SetDirectory(TIB_Eta);
202  TH2Ds["LA_eta_TIB2"] =
203  new TH2D("TanLAPerTesla vs Eta TIB2", "TanLAPerTesla vs Eta TIB2", 800, -2.6, 2.6, 600, -0.3, 0.3);
204  TH2Ds["LA_eta_TIB2"]->SetDirectory(TIB_Eta);
205  TH2Ds["LA_eta_TIB2_mono"] =
206  new TH2D("TanLAPerTesla vs Eta TIB2 MONO", "TanLAPerTesla vs Eta TIB2 MONO", 800, -2.6, 2.6, 600, -0.3, 0.3);
207  TH2Ds["LA_eta_TIB2_mono"]->SetDirectory(TIB_Eta);
208  TH2Ds["LA_eta_TIB2_stereo"] =
209  new TH2D("TanLAPerTesla vs Eta TIB2 STEREO", "TanLAPerTesla vs Eta TIB2 STEREO", 800, -2.6, 2.6, 600, -0.3, 0.3);
210  TH2Ds["LA_eta_TIB2_stereo"]->SetDirectory(TIB_Eta);
211  TH2Ds["LA_eta_TIB3"] =
212  new TH2D("TanLAPerTesla vs Eta TIB3", "TanLAPerTesla vs Eta TIB3", 800, -2.6, 2.6, 600, -0.3, 0.3);
213  TH2Ds["LA_eta_TIB3"]->SetDirectory(TIB_Eta);
214  TH2Ds["LA_eta_TIB4"] =
215  new TH2D("TanLAPerTesla vs Eta TIB4", "TanLAPerTesla vs Eta TIB4", 800, -2.6, 2.6, 600, -0.3, 0.3);
216  TH2Ds["LA_eta_TIB4"]->SetDirectory(TIB_Eta);
217 
218  TH2Ds["LA_eta_TOB1"] =
219  new TH2D("TanLAPerTesla vs Eta TOB1", "TanLAPerTesla vs Eta TOB1", 800, -2.6, 2.6, 600, -0.3, 0.3);
220  TH2Ds["LA_eta_TOB1"]->SetDirectory(TIB_Eta);
221  TH2Ds["LA_eta_TOB1_mono"] =
222  new TH2D("TanLAPerTesla vs Eta TOB1 MONO", "TanLAPerTesla vs Eta TOB1 MONO", 800, -2.6, 2.6, 600, -0.3, 0.3);
223  TH2Ds["LA_eta_TOB1_mono"]->SetDirectory(TIB_Eta);
224  TH2Ds["LA_eta_TOB1_stereo"] =
225  new TH2D("TanLAPerTesla vs Eta TOB1 STEREO", "TanLAPerTesla vs Eta TOB1 STEREO", 800, -2.6, 2.6, 600, -0.3, 0.3);
226  TH2Ds["LA_eta_TOB1_stereo"]->SetDirectory(TIB_Eta);
227  TH2Ds["LA_eta_TOB2"] =
228  new TH2D("TanLAPerTesla vs Eta TOB2", "TanLAPerTesla vs Eta TOB2", 800, -2.6, 2.6, 600, -0.3, 0.3);
229  TH2Ds["LA_eta_TOB2"]->SetDirectory(TIB_Eta);
230  TH2Ds["LA_eta_TOB2_mono"] =
231  new TH2D("TanLAPerTesla vs Eta TOB2 MONO", "TanLAPerTesla vs Eta TOB2 MONO", 800, -2.6, 2.6, 600, -0.3, 0.3);
232  TH2Ds["LA_eta_TOB2_mono"]->SetDirectory(TIB_Eta);
233  TH2Ds["LA_eta_TOB2_stereo"] =
234  new TH2D("TanLAPerTesla vs Eta TOB2 STEREO", "TanLAPerTesla vs Eta TOB2 STEREO", 800, -2.6, 2.6, 600, -0.3, 0.3);
235  TH2Ds["LA_eta_TOB2_stereo"]->SetDirectory(TIB_Eta);
236  TH2Ds["LA_eta_TOB3"] =
237  new TH2D("TanLAPerTesla vs Eta TOB3", "TanLAPerTesla vs Eta TOB3", 800, -2.6, 2.6, 600, -0.3, 0.3);
238  TH2Ds["LA_eta_TOB3"]->SetDirectory(TIB_Eta);
239  TH2Ds["LA_eta_TOB4"] =
240  new TH2D("TanLAPerTesla vs Eta TOB4", "TanLAPerTesla vs Eta TOB4", 800, -2.6, 2.6, 600, -0.3, 0.3);
241  TH2Ds["LA_eta_TOB4"]->SetDirectory(TIB_Eta);
242  TH2Ds["LA_eta_TOB5"] =
243  new TH2D("TanLAPerTesla vs Eta TOB5", "TanLAPerTesla vs Eta TOB5", 800, -2.6, 2.6, 600, -0.3, 0.3);
244  TH2Ds["LA_eta_TOB5"]->SetDirectory(TIB_Eta);
245  TH2Ds["LA_eta_TOB6"] =
246  new TH2D("TanLAPerTesla vs Eta TOB6", "TanLAPerTesla vs Eta TOB6", 800, -2.6, 2.6, 600, -0.3, 0.3);
247  TH2Ds["LA_eta_TOB6"]->SetDirectory(TIB_Eta);
248 
249  ModuleTree = new TTree("ModuleTree", "ModuleTree");
250  ModuleTree->Branch("histoEntries", &histoEntries, "histoEntries/F");
251  ModuleTree->Branch("globalX", &globalX, "globalX/F");
252  ModuleTree->Branch("globalY", &globalY, "globalY/F");
253  ModuleTree->Branch("globalZ", &globalZ, "globalZ/F");
254  ModuleTree->Branch("gphi", &gphi, "gphi/F");
255  ModuleTree->Branch("geta", &geta, "geta/F");
256  ModuleTree->Branch("gR", &gR, "gR/F");
257  ModuleTree->Branch("goodFit", &goodFit, "goodFit/I");
258  ModuleTree->Branch("goodFit1IT", &goodFit1IT, "goodFit1IT/I");
259  ModuleTree->Branch("badFit", &badFit, "badFit/I");
260  ModuleTree->Branch("TIB", &TIB, "TIB/I");
261  ModuleTree->Branch("TOB", &TOB, "TOB/I");
262  ModuleTree->Branch("Layer", &Layer, "Layer/I");
263  ModuleTree->Branch("MonoStereo", &MonoStereo, "MonoStereo/I");
264  ModuleTree->Branch("theBfield", &theBfield, "theBfield/F");
265  ModuleTree->Branch("muH", &muH, "muH/F");
266 
267  ModuleTree->SetDirectory(Rootple);
268 
269  int histocounter = 0;
270  int NotEnoughEntries = 0;
271  int ZeroEntries = 0;
272  int GoodFit = 0;
273  int FirstIT_goodfit = 0;
274  int FirstIT_badfit = 0;
275  int SecondIT_badfit = 0;
276  int SecondIT_goodfit = 0;
277  int no_mod_histo = 0;
278  float chi2norm = 0;
279  LocalPoint p = LocalPoint(0, 0, 0);
280 
281  double ModuleRangeMin = conf_.getParameter<double>("ModuleFitXMin");
282  double ModuleRangeMax = conf_.getParameter<double>("ModuleFitXMax");
283  double ModuleRangeMin2IT = conf_.getParameter<double>("ModuleFit2ITXMin");
284  double ModuleRangeMax2IT = conf_.getParameter<double>("ModuleFit2ITXMax");
285  double FitCuts_Entries = conf_.getParameter<double>("FitCuts_Entries");
286  double FitCuts_p0 = conf_.getParameter<double>("FitCuts_p0");
287  double FitCuts_p1 = conf_.getParameter<double>("FitCuts_p1");
288  double FitCuts_p2 = conf_.getParameter<double>("FitCuts_p2");
289  double FitCuts_chi2 = conf_.getParameter<double>("FitCuts_chi2");
290  double FitCuts_ParErr_p0 = conf_.getParameter<double>("FitCuts_ParErr_p0");
291  double p0_guess = conf_.getParameter<double>("p0_guess");
292  double p1_guess = conf_.getParameter<double>("p1_guess");
293  double p2_guess = conf_.getParameter<double>("p2_guess");
294 
295  double TIB1calib = 1.;
296  double TIB2calib = 1.;
297  double TIB3calib = 1.;
298  double TIB4calib = 1.;
299  double TOB1calib = 1.;
300  double TOB2calib = 1.;
301  double TOB3calib = 1.;
302  double TOB4calib = 1.;
303  double TOB5calib = 1.;
304  double TOB6calib = 1.;
305 
306  if (CalibByMC == true) {
307  //Calibration factors evaluated by using MC analysis
308  TIB1calib = conf_.getParameter<double>("TIB1calib");
309  TIB2calib = conf_.getParameter<double>("TIB2calib");
310  TIB3calib = conf_.getParameter<double>("TIB3calib");
311  TIB4calib = conf_.getParameter<double>("TIB4calib");
312  TOB1calib = conf_.getParameter<double>("TOB1calib");
313  TOB2calib = conf_.getParameter<double>("TOB2calib");
314  TOB3calib = conf_.getParameter<double>("TOB3calib");
315  TOB4calib = conf_.getParameter<double>("TOB4calib");
316  TOB5calib = conf_.getParameter<double>("TOB5calib");
317  TOB6calib = conf_.getParameter<double>("TOB6calib");
318  }
319 
320  auto fitfunc = std::make_unique<TF1>("fitfunc", "([4]/[3])*[1]*(TMath::Abs(x-[0]))+[2]", -1, 1);
321  auto fitfunc2IT = std::make_unique<TF1>("fitfunc2IT", "([4]/[3])*[1]*(TMath::Abs(x-[0]))+[2]", -1, 1);
322 
323  std::ofstream NoEntries;
324  NoEntries.open(NoEntriesHisto_.c_str());
325  std::ofstream Rep;
326  Rep.open(LAreport_.c_str());
327 
328  gStyle->SetOptStat(1110);
329 
330  for (histo = histolist.begin(); histo != histolist.end(); ++histo) {
331  FitFunction = nullptr;
332  FitFunction2IT = nullptr;
333  bool Good2ITFit = false;
334  bool ModuleHisto = true;
335 
336  histoEntries = -99;
337  gphi = -99;
338  geta = -99;
339  gz = -99;
340  gR = -1;
341  globalX = -99;
342  globalY = -99;
343  globalZ = -99;
344  goodFit = 0;
345  goodFit1IT = 0;
346  badFit = 0;
347  muH = -1;
348  TIB = 0;
349  TOB = 0;
350  MonoStereo = -1;
351 
352  uint32_t id = hidmanager.getComponentId((*histo)->getName());
353  DetId detid(id);
354  StripSubdetector subid(id);
355  const GeomDetUnit* stripdet;
356  MonoStereo = subid.stereo();
357 
358  if (!(stripdet = tkGeom_->idToDetUnit(subid))) {
359  no_mod_histo++;
360  ModuleHisto = false;
361  edm::LogInfo("SiStripCalibLorentzAngle") << "### NO MODULE HISTOGRAM";
362  }
363 
364  if (stripdet != nullptr && ModuleHisto == true) {
365  if (subid.subdetId() == int(StripSubdetector::TIB)) {
366  Layer = tTopo_->tibLayer(detid);
367  TIB = 1;
368  }
369  if (subid.subdetId() == int(StripSubdetector::TOB)) {
370  Layer = tTopo_->tobLayer(detid);
371  TOB = 1;
372  }
373 
374  //get module coordinates
375  const GlobalPoint gposition = (stripdet->surface()).toGlobal(p);
376  histoEntries = (*histo)->getEntries();
377  globalX = gposition.x();
378  globalY = gposition.y();
379  globalZ = gposition.z();
380  gphi = gposition.phi();
381  geta = gposition.eta();
382  gR = sqrt(pow(gposition.x(), 2) + pow(gposition.y(), 2));
383  gz = gposition.z();
384 
385  //get magnetic field
386  const StripGeomDetUnit* det = dynamic_cast<const StripGeomDetUnit*>(tkGeom_->idToDetUnit(detid));
387  if (det == nullptr) {
388  edm::LogError("SiStripCalibLorentzAngle") << "[SiStripCalibLorentzAngle::getNewObject] the detID " << id
389  << " doesn't seem to belong to Tracker" << std::endl;
390  continue;
391  }
392  LocalVector lbfield = (det->surface()).toLocal(magField.inTesla(det->surface().position()));
393  theBfield = lbfield.mag();
394  theBfield = (theBfield > 0) ? theBfield : 0.00001;
395  TH1Ds["MagneticField"]->Fill(theBfield);
396  }
397  if (stripdet == nullptr)
398  continue;
399 
400  if (((*histo)->getEntries() <= FitCuts_Entries) && ModuleHisto == true) {
401  if (((*histo)->getEntries() == 0) && ModuleHisto == true) {
402  NoEntries << "NO ENTRIES MODULE, ID = " << id << std::endl;
403  edm::LogInfo("SiStripCalibLorentzAngle") << "### HISTOGRAM WITH 0 ENTRIES => TYPE:" << subid.subdetId();
404  ZeroEntries++;
405  } else {
406  edm::LogInfo("SiStripCalibLorentzAngle")
407  << "### HISTOGRAM WITH NR. ENTRIES <= ENTRIES_CUT => TYPE:" << subid.subdetId();
408  NotEnoughEntries++;
409  }
410  }
411 
413  if (TIB == 1) {
414  name += "TIB";
415  } else {
416  name += "TOB";
417  }
418  std::stringstream LayerStream;
419  LayerStream << Layer;
420  name += LayerStream.str();
421  std::stringstream idnum;
422  idnum << id;
423  name += "_Id_";
424  name += idnum.str();
425 
426  gStyle->SetOptFit(111);
427 
428  //Extract TProfile from Monitor Element to ProfileMap
429  Profiles[name] = new TProfile;
430  TProfile* theProfile = ExtractTObject<TProfile>().extract(*histo);
431  theProfile->Copy(*Profiles[name]);
432  Profiles[name]->SetName(name.c_str());
433 
434  if (((*histo)->getEntries() > FitCuts_Entries) && ModuleHisto == true) {
435  histocounter++;
436  if (TIB == 1) {
437  edm::LogInfo("SiStripCalibLorentzAngle") << "TIB layer = " << Layer;
438  }
439  if (TOB == 1) {
440  edm::LogInfo("SiStripCalibLorentzAngle") << "TOB layer = " << Layer;
441  }
442  edm::LogInfo("SiStripCalibLorentzAngle") << "id: " << id;
443 
444  float thickness = stripdet->specificSurface().bounds().thickness();
445  const StripTopology& topol = (const StripTopology&)stripdet->topology();
446  float pitch = topol.localPitch(p);
447 
448  fitfunc->SetParameter(0, p0_guess);
449  fitfunc->SetParameter(1, p1_guess);
450  fitfunc->SetParameter(2, p2_guess);
451  fitfunc->FixParameter(3, pitch);
452  fitfunc->FixParameter(4, thickness);
453 
454  Profiles[name]->Fit(fitfunc.get(), "E", "", ModuleRangeMin, ModuleRangeMax);
455 
456  FitFunction = fitfunc.get();
457  chi2norm = FitFunction->GetChisquare() / FitFunction->GetNDF();
458 
459  if (FitFunction->GetParameter(0) > FitCuts_p0 || FitFunction->GetParameter(1) < FitCuts_p1 ||
460  FitFunction->GetParameter(2) < FitCuts_p2 || chi2norm > FitCuts_chi2 ||
461  FitFunction->GetParError(0) < FitCuts_ParErr_p0) {
462  FirstIT_badfit++;
463 
464  fitfunc2IT->SetParameter(0, p0_guess);
465  fitfunc2IT->SetParameter(1, p1_guess);
466  fitfunc2IT->SetParameter(2, p2_guess);
467  fitfunc2IT->FixParameter(3, pitch);
468  fitfunc2IT->FixParameter(4, thickness);
469 
470  //2nd Iteration
471  Profiles[name]->Fit(fitfunc2IT.get(), "E", "", ModuleRangeMin2IT, ModuleRangeMax2IT);
472 
473  FitFunction = fitfunc2IT.get();
474  chi2norm = FitFunction->GetChisquare() / FitFunction->GetNDF();
475 
476  //2nd Iteration failed
477 
478  if (FitFunction->GetParameter(0) > FitCuts_p0 || FitFunction->GetParameter(1) < FitCuts_p1 ||
479  FitFunction->GetParameter(2) < FitCuts_p2 || chi2norm > FitCuts_chi2 ||
480  FitFunction->GetParError(0) < FitCuts_ParErr_p0) {
481  if (subid.subdetId() == int(StripSubdetector::TIB)) {
482  Profiles[name]->SetDirectory(TIB_2IT_BadFit);
483  } else {
484  Profiles[name]->SetDirectory(TOB_2IT_BadFit);
485  }
486 
487  SecondIT_badfit++;
488  badFit = 1;
489  }
490 
491  //2nd Iteration ok
492 
493  if (FitFunction->GetParameter(0) < FitCuts_p0 && FitFunction->GetParameter(1) > FitCuts_p1 &&
494  FitFunction->GetParameter(2) > FitCuts_p2 && chi2norm < FitCuts_chi2 &&
495  FitFunction->GetParError(0) > FitCuts_ParErr_p0) {
496  if (subid.subdetId() == int(StripSubdetector::TIB)) {
497  Profiles[name]->SetDirectory(TIB_2IT_GoodFit);
498  } else {
499  Profiles[name]->SetDirectory(TOB_2IT_GoodFit);
500  }
501 
502  SecondIT_goodfit++;
503  Good2ITFit = true;
504  }
505  }
506 
507  if (FitFunction->GetParameter(0) < FitCuts_p0 && FitFunction->GetParameter(1) > FitCuts_p1 &&
508  FitFunction->GetParameter(2) > FitCuts_p2 && chi2norm < FitCuts_chi2 &&
509  FitFunction->GetParError(0) > FitCuts_ParErr_p0) {
510  if (Good2ITFit == false) {
511  FirstIT_goodfit++;
512  goodFit1IT = 1;
513 
514  if (subid.subdetId() == int(StripSubdetector::TIB)) {
515  Profiles[name]->SetDirectory(TIB_1IT_GoodFit);
516  } else {
517  Profiles[name]->SetDirectory(TOB_1IT_GoodFit);
518  }
519  }
520 
521  GoodFit++;
522  goodFit = 1;
523 
524  LorentzAngle_Plots->cd();
525 
526  edm::LogInfo("SiStripCalibLorentzAngle") << FitFunction->GetParameter(0);
527 
528  muH = -(FitFunction->GetParameter(0)) / theBfield;
529 
530  if (TIB == 1) {
531  if (Layer == 1)
532  muH = muH / TIB1calib;
533  if (Layer == 2)
534  muH = muH / TIB2calib;
535  if (Layer == 3)
536  muH = muH / TIB3calib;
537  if (Layer == 4)
538  muH = muH / TIB4calib;
539  }
540  if (TOB == 1) {
541  if (Layer == 1)
542  muH = muH / TOB1calib;
543  if (Layer == 2)
544  muH = muH / TOB2calib;
545  if (Layer == 3)
546  muH = muH / TOB3calib;
547  if (Layer == 4)
548  muH = muH / TOB4calib;
549  if (Layer == 5)
550  muH = muH / TOB5calib;
551  if (Layer == 6)
552  muH = muH / TOB6calib;
553  }
554 
555  detid_la[id] = muH;
556 
557  if (TIB == 1) {
558  TH1Ds["LA_TIB"]->Fill(muH);
559  TH1Ds["LA_err_TIB"]->Fill(FitFunction->GetParError(0) / theBfield);
560  TH1Ds["LA_chi2norm_TIB"]->Fill(chi2norm);
561  TH2Ds["LA_phi_TIB"]->Fill(gphi, muH);
562  TH2Ds["LA_eta_TIB"]->Fill(geta, muH);
563  TH2Ds["LA_TIB_graph"]->Fill(Layer, muH);
564 
565  if (Layer == 1) {
566  TH1Ds["LA_TIB_1"]->Fill(muH);
567  TH2Ds["LA_phi_TIB1"]->Fill(gphi, muH);
568  TH2Ds["LA_eta_TIB1"]->Fill(geta, muH);
569  if (MonoStereo == 0) {
570  TH1Ds["LA_TIB_1_mono"]->Fill(muH);
571  TH2Ds["LA_phi_TIB1_mono"]->Fill(gphi, muH);
572  TH2Ds["LA_eta_TIB1_mono"]->Fill(geta, muH);
573  }
574  if (MonoStereo == 1) {
575  TH1Ds["LA_TIB_1_stereo"]->Fill(muH);
576  TH2Ds["LA_phi_TIB1_stereo"]->Fill(gphi, muH);
577  TH2Ds["LA_eta_TIB1_stereo"]->Fill(geta, muH);
578  }
579  }
580 
581  if (Layer == 2) {
582  TH1Ds["LA_TIB_2"]->Fill(muH);
583  TH2Ds["LA_phi_TIB2"]->Fill(gphi, muH);
584  TH2Ds["LA_eta_TIB2"]->Fill(geta, muH);
585  if (MonoStereo == 0) {
586  TH1Ds["LA_TIB_2_mono"]->Fill(muH);
587  TH2Ds["LA_phi_TIB2_mono"]->Fill(gphi, muH);
588  TH2Ds["LA_eta_TIB2_mono"]->Fill(geta, muH);
589  }
590  if (MonoStereo == 1) {
591  TH1Ds["LA_TIB_2_stereo"]->Fill(muH);
592  TH2Ds["LA_phi_TIB2_stereo"]->Fill(gphi, muH);
593  TH2Ds["LA_eta_TIB2_stereo"]->Fill(geta, muH);
594  }
595  }
596 
597  if (Layer == 3) {
598  TH1Ds["LA_TIB_3"]->Fill(muH);
599  TH2Ds["LA_phi_TIB3"]->Fill(gphi, muH);
600  TH2Ds["LA_eta_TIB3"]->Fill(geta, muH);
601  }
602 
603  if (Layer == 4) {
604  TH1Ds["LA_TIB_4"]->Fill(muH);
605  TH2Ds["LA_phi_TIB4"]->Fill(gphi, muH);
606  TH2Ds["LA_eta_TIB4"]->Fill(geta, muH);
607  }
608  }
609 
610  if (TOB == 1) {
611  TH1Ds["LA_TOB"]->Fill(muH);
612  TH1Ds["LA_err_TOB"]->Fill(FitFunction->GetParError(0) / theBfield);
613  TH1Ds["LA_chi2norm_TOB"]->Fill(chi2norm);
614  TH2Ds["LA_phi_TOB"]->Fill(gphi, muH);
615  TH2Ds["LA_eta_TOB"]->Fill(geta, muH);
616  TH2Ds["LA_TOB_graph"]->Fill(Layer, muH);
617 
618  if (Layer == 1) {
619  TH1Ds["LA_TOB_1"]->Fill(muH);
620  TH2Ds["LA_phi_TOB1"]->Fill(gphi, muH);
621  TH2Ds["LA_eta_TOB1"]->Fill(geta, muH);
622  if (MonoStereo == 0) {
623  TH1Ds["LA_TOB_1_mono"]->Fill(muH);
624  TH2Ds["LA_phi_TOB1_mono"]->Fill(gphi, muH);
625  TH2Ds["LA_eta_TOB1_mono"]->Fill(geta, muH);
626  }
627  if (MonoStereo == 1) {
628  TH1Ds["LA_TOB_1_stereo"]->Fill(muH);
629  TH2Ds["LA_phi_TOB1_stereo"]->Fill(gphi, muH);
630  TH2Ds["LA_eta_TOB1_stereo"]->Fill(geta, muH);
631  }
632  }
633 
634  if (Layer == 2) {
635  TH1Ds["LA_TOB_2"]->Fill(muH);
636  TH2Ds["LA_phi_TOB2"]->Fill(gphi, muH);
637  TH2Ds["LA_eta_TOB2"]->Fill(geta, muH);
638  if (MonoStereo == 0) {
639  TH1Ds["LA_TOB_2_mono"]->Fill(muH);
640  TH2Ds["LA_phi_TOB2_mono"]->Fill(gphi, muH);
641  TH2Ds["LA_eta_TOB2_mono"]->Fill(geta, muH);
642  }
643  if (MonoStereo == 1) {
644  TH1Ds["LA_TOB_2_stereo"]->Fill(muH);
645  TH2Ds["LA_phi_TOB2_stereo"]->Fill(gphi, muH);
646  TH2Ds["LA_eta_TOB2_stereo"]->Fill(geta, muH);
647  }
648  }
649 
650  if (Layer == 3) {
651  TH1Ds["LA_TOB_3"]->Fill(muH);
652  TH2Ds["LA_phi_TOB3"]->Fill(gphi, muH);
653  TH2Ds["LA_eta_TOB3"]->Fill(geta, muH);
654  }
655 
656  if (Layer == 4) {
657  TH1Ds["LA_TOB_4"]->Fill(muH);
658  TH2Ds["LA_phi_TOB4"]->Fill(gphi, muH);
659  TH2Ds["LA_eta_TOB4"]->Fill(geta, muH);
660  }
661 
662  if (Layer == 5) {
663  TH1Ds["LA_TOB_5"]->Fill(muH);
664  TH2Ds["LA_phi_TOB5"]->Fill(gphi, muH);
665  TH2Ds["LA_eta_TOB5"]->Fill(geta, muH);
666  }
667 
668  if (Layer == 6) {
669  TH1Ds["LA_TOB_6"]->Fill(muH);
670  TH2Ds["LA_phi_TOB6"]->Fill(gphi, muH);
671  TH2Ds["LA_eta_TOB6"]->Fill(geta, muH);
672  }
673  }
674  }
675  }
676 
677  ModuleTree->Fill();
678  }
679 
680  double GaussFitRange = conf_.getParameter<double>("GaussFitRange");
681  auto gaus = std::make_unique<TF1>("gaus", "gaus");
682 
683  TH1Ds["LA_TIB_1"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
684  mean_TIB1 = gaus->GetParameter(1);
685  float err_mean_TIB1 = gaus->GetParError(1);
686  float rms_TIB1 = gaus->GetParameter(2);
687  TH1Ds["LA_TIB_2"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
688  mean_TIB2 = gaus->GetParameter(1);
689  float err_mean_TIB2 = gaus->GetParError(1);
690  float rms_TIB2 = gaus->GetParameter(2);
691  TH1Ds["LA_TIB_3"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
692  mean_TIB3 = gaus->GetParameter(1);
693  float err_mean_TIB3 = gaus->GetParError(1);
694  float rms_TIB3 = gaus->GetParameter(2);
695  TH1Ds["LA_TIB_4"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
696  mean_TIB4 = gaus->GetParameter(1);
697  float err_mean_TIB4 = gaus->GetParError(1);
698  float rms_TIB4 = gaus->GetParameter(2);
699 
700  TH1Ds["LA_TOB_1"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
701  mean_TOB1 = gaus->GetParameter(1);
702  float err_mean_TOB1 = gaus->GetParError(1);
703  float rms_TOB1 = gaus->GetParameter(2);
704  TH1Ds["LA_TOB_2"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
705  mean_TOB2 = gaus->GetParameter(1);
706  float err_mean_TOB2 = gaus->GetParError(1);
707  float rms_TOB2 = gaus->GetParameter(2);
708  TH1Ds["LA_TOB_3"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
709  mean_TOB3 = gaus->GetParameter(1);
710  float err_mean_TOB3 = gaus->GetParError(1);
711  float rms_TOB3 = gaus->GetParameter(2);
712  TH1Ds["LA_TOB_4"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
713  mean_TOB4 = gaus->GetParameter(1);
714  float err_mean_TOB4 = gaus->GetParError(1);
715  float rms_TOB4 = gaus->GetParameter(2);
716  TH1Ds["LA_TOB_5"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
717  mean_TOB5 = gaus->GetParameter(1);
718  float err_mean_TOB5 = gaus->GetParError(1);
719  float rms_TOB5 = gaus->GetParameter(2);
720  TH1Ds["LA_TOB_6"]->Fit(gaus.get(), "", "", -GaussFitRange, GaussFitRange);
721  mean_TOB6 = gaus->GetParameter(1);
722  float err_mean_TOB6 = gaus->GetParError(1);
723  float rms_TOB6 = gaus->GetParameter(2);
724 
725  int nlayersTIB = 4;
726  float TIBx[4] = {1, 2, 3, 4};
727  float TIBex[4] = {0, 0, 0, 0};
728  float TIBy[4] = {mean_TIB1, mean_TIB2, mean_TIB3, mean_TIB4};
729  float TIBey[4] = {err_mean_TIB1, err_mean_TIB2, err_mean_TIB3, err_mean_TIB4};
730 
731  int nlayersTOB = 6;
732  float TOBx[6] = {1, 2, 3, 4, 5, 6};
733  float TOBex[6] = {0, 0, 0, 0, 0, 0};
734  float TOBy[6] = {mean_TOB1, mean_TOB2, mean_TOB3, mean_TOB4, mean_TOB5, mean_TOB6};
735  float TOBey[6] = {err_mean_TOB1, err_mean_TOB2, err_mean_TOB3, err_mean_TOB4, err_mean_TOB5, err_mean_TOB6};
736 
737  TIB_graph = new TGraphErrors(nlayersTIB, TIBx, TIBy, TIBex, TIBey);
738  TOB_graph = new TGraphErrors(nlayersTOB, TOBx, TOBy, TOBex, TOBey);
739 
740  //TF1 *fit_TIB= new TF1("fit_TIB","[0]",0,4);
741  //TF1 *fit_TOB= new TF1("fit_TOB","[0]",0,6);
742 
743  gStyle->SetOptFit(111);
744  gStyle->SetOptStat(111);
745 
746  TIB_graph->SetTitle("TIB Layers #mu_{H}");
747  TIB_graph->GetXaxis()->SetTitle("Layers");
748  TIB_graph->GetXaxis()->SetNdivisions(4);
749  TIB_graph->GetYaxis()->SetTitle("#mu_{H}");
750  TIB_graph->SetMarkerStyle(20);
751  TIB_graph->GetYaxis()->SetTitleOffset(1.3);
752  TIB_graph->Fit("fit_TIB", "E", "", 1, 4);
753  meanMobility_TIB = TIB_graph->GetFunction("fit_TIB")->GetParameter(0);
754 
755  TOB_graph->SetTitle("TOB Layers #mu_{H}");
756  TOB_graph->GetXaxis()->SetTitle("Layers");
757  TOB_graph->GetXaxis()->SetNdivisions(6);
758  TOB_graph->GetYaxis()->SetTitle("#mu_{H}");
759  TOB_graph->SetMarkerStyle(20);
760  TOB_graph->GetYaxis()->SetTitleOffset(1.3);
761  TOB_graph->Fit("fit_TOB", "E", "", 1, 6);
762  meanMobility_TOB = TOB_graph->GetFunction("fit_TOB")->GetParameter(0);
763 
764  TIB_graph->Write("TIB_graph");
765  TOB_graph->Write("TOB_graph");
766 
767  Rep << "- NR.OF TIB AND TOB MODULES = 7932" << std::endl << std::endl << std::endl;
768  Rep << "- NO MODULE HISTOS FOUND = " << no_mod_histo << std::endl << std::endl;
769  Rep << "- NR.OF HISTOS WITH ENTRIES > " << FitCuts_Entries << " = " << histocounter << std::endl << std::endl;
770  Rep << "- NR.OF HISTOS WITH ENTRIES <= " << FitCuts_Entries << " (!=0) = " << NotEnoughEntries << std::endl
771  << std::endl;
772  Rep << "- NR.OF HISTOS WITH 0 ENTRIES = " << ZeroEntries << std::endl << std::endl << std::endl;
773  Rep << "- NR.OF GOOD FIT (FIRST IT + SECOND IT GOOD FIT)= " << GoodFit << std::endl << std::endl;
774  Rep << "- NR.OF FIRST IT GOOD FIT = " << FirstIT_goodfit << std::endl << std::endl;
775  Rep << "- NR.OF SECOND IT GOOD FIT = " << SecondIT_goodfit << std::endl << std::endl;
776  Rep << "- NR.OF FIRST IT BAD FIT = " << FirstIT_badfit << std::endl << std::endl;
777  Rep << "- NR.OF SECOND IT BAD FIT = " << SecondIT_badfit << std::endl << std::endl << std::endl;
778 
779  Rep << "--------------- Mean MuH values per Layer -------------------" << std::endl << std::endl << std::endl;
780  Rep << "TIB1 = " << mean_TIB1 << " +- " << err_mean_TIB1 << " RMS = " << rms_TIB1 << std::endl;
781  Rep << "TIB2 = " << mean_TIB2 << " +- " << err_mean_TIB2 << " RMS = " << rms_TIB2 << std::endl;
782  Rep << "TIB3 = " << mean_TIB3 << " +- " << err_mean_TIB3 << " RMS = " << rms_TIB3 << std::endl;
783  Rep << "TIB4 = " << mean_TIB4 << " +- " << err_mean_TIB4 << " RMS = " << rms_TIB4 << std::endl;
784  Rep << "TOB1 = " << mean_TOB1 << " +- " << err_mean_TOB1 << " RMS = " << rms_TOB1 << std::endl;
785  Rep << "TOB2 = " << mean_TOB2 << " +- " << err_mean_TOB2 << " RMS = " << rms_TOB2 << std::endl;
786  Rep << "TOB3 = " << mean_TOB3 << " +- " << err_mean_TOB3 << " RMS = " << rms_TOB3 << std::endl;
787  Rep << "TOB4 = " << mean_TOB4 << " +- " << err_mean_TOB4 << " RMS = " << rms_TOB4 << std::endl;
788  Rep << "TOB5 = " << mean_TOB5 << " +- " << err_mean_TOB5 << " RMS = " << rms_TOB5 << std::endl;
789  Rep << "TOB6 = " << mean_TOB6 << " +- " << err_mean_TOB6 << " RMS = " << rms_TOB6 << std::endl << std::endl;
790  Rep << "Mean Hall Mobility TIB = " << meanMobility_TIB << " +- " << TIB_graph->GetFunction("fit_TIB")->GetParError(0)
791  << std::endl;
792  Rep << "Mean Hall Mobility TOB = " << meanMobility_TOB << " +- " << TOB_graph->GetFunction("fit_TOB")->GetParError(0)
793  << std::endl
794  << std::endl
795  << std::endl;
796 
797  Rep.close();
798  NoEntries.close();
799 
800  hFile->Write();
801  hFile->Close();
802 }

References badFit, Surface::bounds(), c, CalibByMC, conf_, dbe_, detid_la, PV3DBase< T, PVType, FrameType >::eta(), ExtractTObject< T >::extract(), FirstIT_GoodFit_Histos, fitfunc, fitfunc2IT, FitFunction, FitFunction2IT, geta, dqm::implementation::IGetter::getAllContents(), SiStripHistoId::getComponentId(), edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), globalX, globalY, globalZ, goodFit, goodFit1IT, gphi, gposition, gR, gz, hFile, timingPdfMaker::histo, histoEntries, histolist, triggerObjects_cff::id, TrackerGeometry::idToDetUnit(), createfilelist::int, Layer, LayerDB, StripTopology::localPitch(), LorentzAngle_Plots, lorentzAngleToken_, PV3DBase< T, PVType, FrameType >::mag(), magFieldToken_, mean_TIB1, mean_TIB2, mean_TIB3, mean_TIB4, mean_TOB1, mean_TOB2, mean_TOB3, mean_TOB4, mean_TOB5, mean_TOB6, meanMobility_TIB, meanMobility_TOB, ModuleTree, MonoStereo, muH, MuH, MuH_vs_Eta, MuH_vs_Phi, Skims_PA_cff::name, dqm::implementation::DQMStore::open(), AlCaHLTBitMon_ParallelJobs::p, PV3DBase< T, PVType, FrameType >::phi(), GloballyPositioned< T >::position(), funct::pow(), Profiles, Rootple, SecondIT_BadFit_Histos, SecondIT_GoodFit_Histos, GeomDet::specificSurface(), mathSSE::sqrt(), StripSubdetector::stereo(), AlCaHLTBitMon_QueryRunRegistry::string, DetId::subdetId(), GeomDet::surface(), TH1Ds, TH2Ds, theBfield, Bounds::thickness(), Calorimetry_cff::thickness, StripSubdetector::TIB, TIB, TIB_1IT_GoodFit, TIB_2IT_BadFit, TIB_2IT_GoodFit, TIB_Eta, TIB_graph, TIB_MuH, TIB_Phi, TrackerTopology::tibLayer(), tkGeom_, tkGeomToken_, StripSubdetector::TOB, TOB, TOB_1IT_GoodFit, TOB_2IT_BadFit, TOB_2IT_GoodFit, TOB_Eta, TOB_graph, TOB_MuH, TOB_Phi, TrackerTopology::tobLayer(), toLocal(), GeomDet::topology(), tTopo_, tTopoToken_, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

◆ getNewObject()

std::unique_ptr< SiStripLorentzAngle > SiStripCalibLorentzAngle::getNewObject ( )
overridevirtual

Implements ConditionDBWriter< SiStripLorentzAngle >.

Definition at line 810 of file SiStripCalibLorentzAngle.cc.

810  {
811  auto LorentzAngle = std::make_unique<SiStripLorentzAngle>();
812 
813  if (!LayerDB) {
814  for (std::map<uint32_t, float>::iterator it = detid_la.begin(); it != detid_la.end(); it++) {
815  float langle = it->second;
816  if (!LorentzAngle->putLorentzAngle(it->first, langle))
817  edm::LogError("SiStripCalibLorentzAngle")
818  << "[SiStripCalibLorentzAngle::analyze] detid already exists" << std::endl;
819  }
820  }
821 
822  else {
824  TrackerGeometry::DetIdContainer::const_iterator Iditer;
825 
826  for (Iditer = Id.begin(); Iditer != Id.end(); Iditer++) {
827  StripSubdetector subid(Iditer->rawId());
828 
829  hallMobility = 0.;
830 
831  if (subid.subdetId() == int(StripSubdetector::TIB)) {
832  uint32_t tibLayer = tTopo_->tibLayer(*Iditer);
833  if (tibLayer == 1) {
835  }
836  if (tibLayer == 2) {
838  }
839  if (tibLayer == 3) {
841  }
842  if (tibLayer == 4) {
844  }
845  if (!LorentzAngle->putLorentzAngle(Iditer->rawId(), hallMobility))
846  edm::LogError("SiStripLorentzAngleGenerator") << " detid already exists" << std::endl;
847  }
848 
849  if (subid.subdetId() == int(StripSubdetector::TOB)) {
850  uint32_t tobLayer = tTopo_->tobLayer(*Iditer);
851  if (tobLayer == 1) {
853  }
854  if (tobLayer == 2) {
856  }
857  if (tobLayer == 3) {
859  }
860  if (tobLayer == 4) {
862  }
863  if (tobLayer == 5) {
865  }
866  if (tobLayer == 6) {
868  }
869  if (!LorentzAngle->putLorentzAngle(Iditer->rawId(), hallMobility))
870  edm::LogError("SiStripLorentzAngleGenerator") << " detid already exists" << std::endl;
871  }
872 
873  if (subid.subdetId() == int(StripSubdetector::TID)) {
875  if (!LorentzAngle->putLorentzAngle(Iditer->rawId(), hallMobility))
876  edm::LogError("SiStripLorentzAngleGenerator") << " detid already exists" << std::endl;
877  }
878 
879  if (subid.subdetId() == int(StripSubdetector::TEC)) {
880  if (tTopo_->tecRing(subid) < 5) {
882  } else {
884  }
885  if (!LorentzAngle->putLorentzAngle(Iditer->rawId(), hallMobility))
886  edm::LogError("SiStripLorentzAngleGenerator") << " detid already exists" << std::endl;
887  }
888  }
889  }
890 
891  return LorentzAngle;
892 }

References detid_la, TrackerGeometry::detIds(), hallMobility, createfilelist::int, LayerDB, SiStripSimParameters_cfi::LorentzAngle, mean_TIB1, mean_TIB2, mean_TIB3, mean_TIB4, mean_TOB1, mean_TOB2, mean_TOB3, mean_TOB4, mean_TOB5, mean_TOB6, meanMobility_TIB, meanMobility_TOB, StripSubdetector::TEC, TrackerTopology::tecRing(), StripSubdetector::TIB, TrackerTopology::tibLayer(), StripSubdetector::TID, tkGeom_, StripSubdetector::TOB, TrackerTopology::tobLayer(), and tTopo_.

Member Data Documentation

◆ AsymmParam

float SiStripCalibLorentzAngle::AsymmParam
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

◆ badFit

int SiStripCalibLorentzAngle::badFit
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ CalibByMC

bool SiStripCalibLorentzAngle::CalibByMC
private

Definition at line 81 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ conf_

edm::ParameterSet SiStripCalibLorentzAngle::conf_
private

Definition at line 94 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ detid_la

std::map<uint32_t, float> SiStripCalibLorentzAngle::detid_la
private

Definition at line 93 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ FirstIT_GoodFit_Histos

TDirectory* SiStripCalibLorentzAngle::FirstIT_GoodFit_Histos
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ fitfunc

TF1* SiStripCalibLorentzAngle::fitfunc
private

Definition at line 71 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ fitfunc2IT

TF1 * SiStripCalibLorentzAngle::fitfunc2IT
private

Definition at line 71 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ FitFunction

TF1 * SiStripCalibLorentzAngle::FitFunction
private

Definition at line 71 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ FitFunction2IT

TF1 * SiStripCalibLorentzAngle::FitFunction2IT
private

Definition at line 71 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ geta

float SiStripCalibLorentzAngle::geta
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ globalX

float SiStripCalibLorentzAngle::globalX
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ globalY

float SiStripCalibLorentzAngle::globalY
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ globalZ

float SiStripCalibLorentzAngle::globalZ
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ goodFit

int SiStripCalibLorentzAngle::goodFit
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ goodFit1IT

int SiStripCalibLorentzAngle::goodFit1IT
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ gphi

float SiStripCalibLorentzAngle::gphi
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ gposition

const GlobalPoint SiStripCalibLorentzAngle::gposition
private

Definition at line 75 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ gR

float SiStripCalibLorentzAngle::gR
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ gz

float SiStripCalibLorentzAngle::gz
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ hallMobility

float SiStripCalibLorentzAngle::hallMobility
private

Definition at line 79 of file SiStripCalibLorentzAngle.h.

Referenced by getNewObject().

◆ hFile

TFile* SiStripCalibLorentzAngle::hFile
private

Definition at line 86 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and ~SiStripCalibLorentzAngle().

◆ histoEntries

float SiStripCalibLorentzAngle::histoEntries
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ histolist

std::vector<MonitorElement *> SiStripCalibLorentzAngle::histolist
private

Definition at line 69 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ Layer

int SiStripCalibLorentzAngle::Layer
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ LayerDB

bool SiStripCalibLorentzAngle::LayerDB
private

Definition at line 81 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ LorentzAngle_Plots

TDirectory* SiStripCalibLorentzAngle::LorentzAngle_Plots
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ lorentzAngleToken_

edm::ESGetToken<SiStripLorentzAngle, SiStripLorentzAngleRcd> SiStripCalibLorentzAngle::lorentzAngleToken_
private

Definition at line 58 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ magFieldToken_

edm::ESGetToken<MagneticField, IdealMagneticFieldRecord> SiStripCalibLorentzAngle::magFieldToken_
private

Definition at line 57 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ mean_TIB1

float SiStripCalibLorentzAngle::mean_TIB1
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TIB2

float SiStripCalibLorentzAngle::mean_TIB2
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TIB3

float SiStripCalibLorentzAngle::mean_TIB3
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TIB4

float SiStripCalibLorentzAngle::mean_TIB4
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TOB1

float SiStripCalibLorentzAngle::mean_TOB1
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TOB2

float SiStripCalibLorentzAngle::mean_TOB2
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TOB3

float SiStripCalibLorentzAngle::mean_TOB3
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TOB4

float SiStripCalibLorentzAngle::mean_TOB4
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TOB5

float SiStripCalibLorentzAngle::mean_TOB5
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ mean_TOB6

float SiStripCalibLorentzAngle::mean_TOB6
private

Definition at line 77 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ meanMobility_TIB

float SiStripCalibLorentzAngle::meanMobility_TIB
private

Definition at line 79 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ meanMobility_TOB

float SiStripCalibLorentzAngle::meanMobility_TOB
private

Definition at line 79 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ ModuleTree

TTree* SiStripCalibLorentzAngle::ModuleTree
private

Definition at line 85 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ MonoStereo

int SiStripCalibLorentzAngle::MonoStereo
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ muH

float SiStripCalibLorentzAngle::muH
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ MuH

TDirectory * SiStripCalibLorentzAngle::MuH
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ MuH_vs_Eta

TDirectory * SiStripCalibLorentzAngle::MuH_vs_Eta
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ MuH_vs_Phi

TDirectory * SiStripCalibLorentzAngle::MuH_vs_Phi
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ Profiles

ProfileMap SiStripCalibLorentzAngle::Profiles
private

Definition at line 64 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ Rootple

TDirectory * SiStripCalibLorentzAngle::Rootple
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ SecondIT_BadFit_Histos

TDirectory * SiStripCalibLorentzAngle::SecondIT_BadFit_Histos
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ SecondIT_GoodFit_Histos

TDirectory * SiStripCalibLorentzAngle::SecondIT_GoodFit_Histos
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TH1Ds

TH1Dmap SiStripCalibLorentzAngle::TH1Ds
private

Definition at line 66 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TH2Ds

TH2Dmap SiStripCalibLorentzAngle::TH2Ds
private

Definition at line 68 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ theBfield

float SiStripCalibLorentzAngle::theBfield
private

Definition at line 73 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB

int SiStripCalibLorentzAngle::TIB
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_1IT_GoodFit

TDirectory * SiStripCalibLorentzAngle::TIB_1IT_GoodFit
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_2IT_BadFit

TDirectory * SiStripCalibLorentzAngle::TIB_2IT_BadFit
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_2IT_GoodFit

TDirectory * SiStripCalibLorentzAngle::TIB_2IT_GoodFit
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_Eta

TDirectory * SiStripCalibLorentzAngle::TIB_Eta
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_graph

TGraphErrors* SiStripCalibLorentzAngle::TIB_graph
private

Definition at line 83 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_MuH

TDirectory * SiStripCalibLorentzAngle::TIB_MuH
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TIB_Phi

TDirectory * SiStripCalibLorentzAngle::TIB_Phi
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ tkGeom_

const TrackerGeometry* SiStripCalibLorentzAngle::tkGeom_ = nullptr
private

Definition at line 60 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ tkGeomToken_

edm::ESGetToken<TrackerGeometry, TrackerDigiGeometryRecord> SiStripCalibLorentzAngle::tkGeomToken_
private

Definition at line 56 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB

int SiStripCalibLorentzAngle::TOB
private

Definition at line 74 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_1IT_GoodFit

TDirectory * SiStripCalibLorentzAngle::TOB_1IT_GoodFit
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_2IT_BadFit

TDirectory * SiStripCalibLorentzAngle::TOB_2IT_BadFit
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_2IT_GoodFit

TDirectory * SiStripCalibLorentzAngle::TOB_2IT_GoodFit
private

Definition at line 90 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_Eta

TDirectory * SiStripCalibLorentzAngle::TOB_Eta
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_graph

TGraphErrors * SiStripCalibLorentzAngle::TOB_graph
private

Definition at line 83 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_MuH

TDirectory * SiStripCalibLorentzAngle::TOB_MuH
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ TOB_Phi

TDirectory * SiStripCalibLorentzAngle::TOB_Phi
private

Definition at line 88 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

◆ tTopo_

const TrackerTopology* SiStripCalibLorentzAngle::tTopo_ = nullptr
private

Definition at line 61 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob(), and getNewObject().

◆ tTopoToken_

edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> SiStripCalibLorentzAngle::tTopoToken_
private

Definition at line 55 of file SiStripCalibLorentzAngle.h.

Referenced by algoBeginJob().

Vector3DBase< float, LocalTag >
SiStripCalibLorentzAngle::mean_TIB2
float mean_TIB2
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::TOB_MuH
TDirectory * TOB_MuH
Definition: SiStripCalibLorentzAngle.h:88
SiStripCalibLorentzAngle::tTopo_
const TrackerTopology * tTopo_
Definition: SiStripCalibLorentzAngle.h:61
SiStripCalibLorentzAngle::mean_TOB4
float mean_TOB4
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::TH1Ds
TH1Dmap TH1Ds
Definition: SiStripCalibLorentzAngle.h:66
SiStripCalibLorentzAngle::MuH_vs_Phi
TDirectory * MuH_vs_Phi
Definition: SiStripCalibLorentzAngle.h:88
GeomDet
Definition: GeomDet.h:27
SiStripSimParameters_cfi.LorentzAngle
LorentzAngle
Definition: SiStripSimParameters_cfi.py:93
SiStripCalibLorentzAngle::TOB_1IT_GoodFit
TDirectory * TOB_1IT_GoodFit
Definition: SiStripCalibLorentzAngle.h:90
SiStripCalibLorentzAngle::magFieldToken_
edm::ESGetToken< MagneticField, IdealMagneticFieldRecord > magFieldToken_
Definition: SiStripCalibLorentzAngle.h:57
SiStripCalibLorentzAngle::FirstIT_GoodFit_Histos
TDirectory * FirstIT_GoodFit_Histos
Definition: SiStripCalibLorentzAngle.h:90
SiStripCalibLorentzAngle::meanMobility_TOB
float meanMobility_TOB
Definition: SiStripCalibLorentzAngle.h:79
SiStripCalibLorentzAngle::hallMobility
float hallMobility
Definition: SiStripCalibLorentzAngle.h:79
PV3DBase::x
T x() const
Definition: PV3DBase.h:59
SiStripCalibLorentzAngle::fitfunc
TF1 * fitfunc
Definition: SiStripCalibLorentzAngle.h:71
SiStripCalibLorentzAngle::hFile
TFile * hFile
Definition: SiStripCalibLorentzAngle.h:86
SiStripCalibLorentzAngle::TIB_Phi
TDirectory * TIB_Phi
Definition: SiStripCalibLorentzAngle.h:88
StripSubdetector
Definition: StripSubdetector.h:12
SiStripCalibLorentzAngle::conf_
edm::ParameterSet conf_
Definition: SiStripCalibLorentzAngle.h:94
SiStripCalibLorentzAngle::geta
float geta
Definition: SiStripCalibLorentzAngle.h:73
SiStripCalibLorentzAngle::TOB
int TOB
Definition: SiStripCalibLorentzAngle.h:74
timingPdfMaker.histo
histo
Definition: timingPdfMaker.py:278
GeomDet::topology
virtual const Topology & topology() const
Definition: GeomDet.cc:67
SiStripCalibLorentzAngle::SecondIT_BadFit_Histos
TDirectory * SecondIT_BadFit_Histos
Definition: SiStripCalibLorentzAngle.h:90
edm::ParameterSet::getUntrackedParameter
T getUntrackedParameter(std::string const &, T const &) const
SiStripCalibLorentzAngle::gz
float gz
Definition: SiStripCalibLorentzAngle.h:73
SiStripCalibLorentzAngle::theBfield
float theBfield
Definition: SiStripCalibLorentzAngle.h:73
edm::LogInfo
Log< level::Info, false > LogInfo
Definition: MessageLogger.h:125
align::LocalPoint
Point3DBase< Scalar, LocalTag > LocalPoint
Definition: Definitions.h:30
SiStripCalibLorentzAngle::TIB_2IT_GoodFit
TDirectory * TIB_2IT_GoodFit
Definition: SiStripCalibLorentzAngle.h:90
SiStripCalibLorentzAngle::muH
float muH
Definition: SiStripCalibLorentzAngle.h:73
dqm::implementation::IGetter::getAllContents
virtual std::vector< dqm::harvesting::MonitorElement * > getAllContents(std::string const &path) const
Definition: DQMStore.cc:609
SiStripCalibLorentzAngle::ModuleTree
TTree * ModuleTree
Definition: SiStripCalibLorentzAngle.h:85
ExtractTObject
Definition: ExtractTObject.h:9
SiStripCalibLorentzAngle::badFit
int badFit
Definition: SiStripCalibLorentzAngle.h:74
SiStripCalibLorentzAngle::MonoStereo
int MonoStereo
Definition: SiStripCalibLorentzAngle.h:74
StripTopology::localPitch
virtual float localPitch(const LocalPoint &) const =0
SiStripCalibLorentzAngle::mean_TOB2
float mean_TOB2
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::meanMobility_TIB
float meanMobility_TIB
Definition: SiStripCalibLorentzAngle.h:79
SiStripCalibLorentzAngle::mean_TIB1
float mean_TIB1
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::gposition
const GlobalPoint gposition
Definition: SiStripCalibLorentzAngle.h:75
TrackerGeometry::idToDetUnit
const TrackerGeomDet * idToDetUnit(DetId) const override
Return the pointer to the GeomDetUnit corresponding to a given DetId.
Definition: TrackerGeometry.cc:183
PV3DBase::z
T z() const
Definition: PV3DBase.h:61
DetId
Definition: DetId.h:17
SiStripCalibLorentzAngle::lorentzAngleToken_
edm::ESGetToken< SiStripLorentzAngle, SiStripLorentzAngleRcd > lorentzAngleToken_
Definition: SiStripCalibLorentzAngle.h:58
GeomDet::surface
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:37
SiStripCalibLorentzAngle::gR
float gR
Definition: SiStripCalibLorentzAngle.h:73
SiStripCalibLorentzAngle::CalibByMC
bool CalibByMC
Definition: SiStripCalibLorentzAngle.h:81
ConditionDBWriter< SiStripLorentzAngle >
dqm::legacy::DQMStore
Definition: DQMStore.h:728
SiStripCalibLorentzAngle::TOB_graph
TGraphErrors * TOB_graph
Definition: SiStripCalibLorentzAngle.h:83
SiStripCalibLorentzAngle::MuH
TDirectory * MuH
Definition: SiStripCalibLorentzAngle.h:88
SiStripCalibLorentzAngle::globalX
float globalX
Definition: SiStripCalibLorentzAngle.h:73
Calorimetry_cff.thickness
thickness
Definition: Calorimetry_cff.py:115
SiStripCalibLorentzAngle::globalZ
float globalZ
Definition: SiStripCalibLorentzAngle.h:73
mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:19
Surface::bounds
const Bounds & bounds() const
Definition: Surface.h:87
SiStripHistoId::getComponentId
uint32_t getComponentId(std::string histoid)
Definition: SiStripHistoId.cc:143
SiStripCalibLorentzAngle::SecondIT_GoodFit_Histos
TDirectory * SecondIT_GoodFit_Histos
Definition: SiStripCalibLorentzAngle.h:90
SiStripCalibLorentzAngle::TIB_graph
TGraphErrors * TIB_graph
Definition: SiStripCalibLorentzAngle.h:83
SiStripCalibLorentzAngle::TIB_Eta
TDirectory * TIB_Eta
Definition: SiStripCalibLorentzAngle.h:88
StripSubdetector::TIB
static constexpr auto TIB
Definition: StripSubdetector.h:16
dbe_
dqm::legacy::DQMStore * dbe_
Definition: PFJetBenchmarkAnalyzer.cc:77
SiStripCalibLorentzAngle::fitfunc2IT
TF1 * fitfunc2IT
Definition: SiStripCalibLorentzAngle.h:71
SiStripCalibLorentzAngle::TIB_1IT_GoodFit
TDirectory * TIB_1IT_GoodFit
Definition: SiStripCalibLorentzAngle.h:90
Point3DBase< float, LocalTag >
SiStripCalibLorentzAngle::mean_TIB3
float mean_TIB3
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::TIB
int TIB
Definition: SiStripCalibLorentzAngle.h:74
TrackingGeometry::DetIdContainer
std::vector< DetId > DetIdContainer
Definition: TrackingGeometry.h:30
SiStripCalibLorentzAngle::mean_TOB1
float mean_TOB1
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::mean_TOB3
float mean_TOB3
Definition: SiStripCalibLorentzAngle.h:77
Bounds::thickness
virtual float thickness() const =0
AlCaHLTBitMon_ParallelJobs.p
def p
Definition: AlCaHLTBitMon_ParallelJobs.py:153
SiStripCalibLorentzAngle::TOB_2IT_GoodFit
TDirectory * TOB_2IT_GoodFit
Definition: SiStripCalibLorentzAngle.h:90
SiStripCalibLorentzAngle::TH2Ds
TH2Dmap TH2Ds
Definition: SiStripCalibLorentzAngle.h:68
SiStripCalibLorentzAngle::mean_TOB6
float mean_TOB6
Definition: SiStripCalibLorentzAngle.h:77
PV3DBase::eta
T eta() const
Definition: PV3DBase.h:73
SiStripCalibLorentzAngle::FitFunction2IT
TF1 * FitFunction2IT
Definition: SiStripCalibLorentzAngle.h:71
PV3DBase::y
T y() const
Definition: PV3DBase.h:60
SiStripCalibLorentzAngle::MuH_vs_Eta
TDirectory * MuH_vs_Eta
Definition: SiStripCalibLorentzAngle.h:88
edm::Service
Definition: Service.h:30
createfilelist.int
int
Definition: createfilelist.py:10
SiStripCalibLorentzAngle::Profiles
ProfileMap Profiles
Definition: SiStripCalibLorentzAngle.h:64
TrackerTopology::tecRing
unsigned int tecRing(const DetId &id) const
ring id
Definition: TrackerTopology.h:217
SiStripCalibLorentzAngle::FitFunction
TF1 * FitFunction
Definition: SiStripCalibLorentzAngle.h:71
ExtractTObject::extract
static T * extract(MonitorElement *me)
Definition: ExtractTObject.cc:21
SiStripCalibLorentzAngle::TIB_MuH
TDirectory * TIB_MuH
Definition: SiStripCalibLorentzAngle.h:88
SiStripCalibLorentzAngle::detid_la
std::map< uint32_t, float > detid_la
Definition: SiStripCalibLorentzAngle.h:93
toLocal
LocalVector toLocal(const reco::Track::Vector &v, const Surface &s)
Definition: ConversionProducer.cc:202
GeomDet::specificSurface
const Plane & specificSurface() const
Same as surface(), kept for backward compatibility.
Definition: GeomDet.h:40
edm::LogError
Log< level::Error, false > LogError
Definition: MessageLogger.h:123
SiStripCalibLorentzAngle::TOB_2IT_BadFit
TDirectory * TOB_2IT_BadFit
Definition: SiStripCalibLorentzAngle.h:90
AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
SiStripCalibLorentzAngle::goodFit
int goodFit
Definition: SiStripCalibLorentzAngle.h:74
SiStripCalibLorentzAngle::LayerDB
bool LayerDB
Definition: SiStripCalibLorentzAngle.h:81
SiStripCalibLorentzAngle::globalY
float globalY
Definition: SiStripCalibLorentzAngle.h:73
SiStripCalibLorentzAngle::histolist
std::vector< MonitorElement * > histolist
Definition: SiStripCalibLorentzAngle.h:69
PV3DBase::mag
T mag() const
Definition: PV3DBase.h:64
GloballyPositioned::position
const PositionType & position() const
Definition: GloballyPositioned.h:36
SiStripCalibLorentzAngle::TOB_Eta
TDirectory * TOB_Eta
Definition: SiStripCalibLorentzAngle.h:88
SiStripHistoId
Definition: SiStripHistoId.h:25
TrackerTopology::tobLayer
unsigned int tobLayer(const DetId &id) const
Definition: TrackerTopology.h:147
SiStripCalibLorentzAngle::mean_TIB4
float mean_TIB4
Definition: SiStripCalibLorentzAngle.h:77
SiStripCalibLorentzAngle::tkGeomToken_
edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord > tkGeomToken_
Definition: SiStripCalibLorentzAngle.h:56
StripSubdetector::TEC
static constexpr auto TEC
Definition: StripSubdetector.h:19
triggerObjects_cff.id
id
Definition: triggerObjects_cff.py:29
SiStripCalibLorentzAngle::TIB_2IT_BadFit
TDirectory * TIB_2IT_BadFit
Definition: SiStripCalibLorentzAngle.h:90
SiStripCalibLorentzAngle::Rootple
TDirectory * Rootple
Definition: SiStripCalibLorentzAngle.h:88
StripSubdetector::TOB
static constexpr auto TOB
Definition: StripSubdetector.h:18
SiStripCalibLorentzAngle::tTopoToken_
edm::ESGetToken< TrackerTopology, TrackerTopologyRcd > tTopoToken_
Definition: SiStripCalibLorentzAngle.h:55
SiStripCalibLorentzAngle::goodFit1IT
int goodFit1IT
Definition: SiStripCalibLorentzAngle.h:74
Skims_PA_cff.name
name
Definition: Skims_PA_cff.py:17
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
dqm::implementation::DQMStore::open
DQM_DEPRECATED bool open(std::string const &filename, bool overwrite=false, std::string const &path="", std::string const &prepend="", OpenRunDirs stripdirs=KeepRunDirs, bool fileMustExist=true)
Definition: DQMStore.cc:790
TrackerGeometry::detIds
const DetIdContainer & detIds() const override
Returm a vector of all GeomDet DetIds (including those of GeomDetUnits)
Definition: TrackerGeometry.h:64
funct::pow
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29
c
auto & c
Definition: CAHitNtupletGeneratorKernelsImpl.h:56
SiStripCalibLorentzAngle::histoEntries
float histoEntries
Definition: SiStripCalibLorentzAngle.h:73
SiStripCalibLorentzAngle::Layer
int Layer
Definition: SiStripCalibLorentzAngle.h:74
edm::Log
Definition: MessageLogger.h:70
StripTopology
Definition: StripTopology.h:11
SiStripCalibLorentzAngle::tkGeom_
const TrackerGeometry * tkGeom_
Definition: SiStripCalibLorentzAngle.h:60
SiStripCalibLorentzAngle::mean_TOB5
float mean_TOB5
Definition: SiStripCalibLorentzAngle.h:77
PV3DBase::phi
Geom::Phi< T > phi() const
Definition: PV3DBase.h:66
StripSubdetector::TID
static constexpr auto TID
Definition: StripSubdetector.h:17
SiStripCalibLorentzAngle::gphi
float gphi
Definition: SiStripCalibLorentzAngle.h:73
SiStripCalibLorentzAngle::LorentzAngle_Plots
TDirectory * LorentzAngle_Plots
Definition: SiStripCalibLorentzAngle.h:88
SiStripCalibLorentzAngle::TOB_Phi
TDirectory * TOB_Phi
Definition: SiStripCalibLorentzAngle.h:88
StripGeomDetUnit
Definition: StripGeomDetUnit.h:15
TrackerTopology::tibLayer
unsigned int tibLayer(const DetId &id) const
Definition: TrackerTopology.h:150