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CSCOverlapsAlignmentAlgorithm Class Reference

#include <Alignment/CSCOverlapsAlignmentAlgorithm/interface/CSCOverlapsAlignmentAlgorithm.h>

Inheritance diagram for CSCOverlapsAlignmentAlgorithm:
AlignmentAlgorithmBase

Public Member Functions

 CSCOverlapsAlignmentAlgorithm (const edm::ParameterSet &iConfig, edm::ConsumesCollector &)
 
void initialize (const edm::EventSetup &iSetup, AlignableTracker *alignableTracker, AlignableMuon *alignableMuon, AlignableExtras *alignableExtras, AlignmentParameterStore *alignmentParameterStore) override
 Call at beginning of job (must be implemented in derived class) More...
 
void run (const edm::EventSetup &iSetup, const EventInfo &eventInfo) override
 Run the algorithm (must be implemented in derived class) More...
 
void terminate (const edm::EventSetup &iSetup) override
 Call at end of each loop (must be implemented in derived class) More...
 
 ~CSCOverlapsAlignmentAlgorithm () override
 
- Public Member Functions inherited from AlignmentAlgorithmBase
virtual bool addCalibrations (const Calibrations &)
 
bool addCalibrations (const CalibrationsOwner &cals)
 
 AlignmentAlgorithmBase (const edm::ParameterSet &, const edm::ConsumesCollector &)
 Constructor. More...
 
virtual void beginLuminosityBlock (const edm::EventSetup &setup)
 called at begin of luminosity block (no lumi block info passed yet) More...
 
virtual void beginRun (const edm::Run &, const edm::EventSetup &, bool changed)
 called at begin of run More...
 
virtual void endLuminosityBlock (const edm::EventSetup &setup)
 called at end of luminosity block (no lumi block info passed yet) More...
 
virtual void endRun (const EndRunInfo &runInfo, const edm::EventSetup &setup)
 called at end of run - order of arguments like in EDProducer etc. More...
 
virtual bool processesEvents ()
 Returns whether algorithm proccesses events in current configuration. More...
 
virtual bool setParametersForRunRange (const RunRange &rr)
 
virtual void startNewLoop ()
 
virtual bool storeAlignments ()
 Returns whether algorithm produced results to be stored. More...
 
virtual bool supportsCalibrations ()
 
virtual void terminate ()
 Called at end of job (must be implemented in derived class) More...
 
virtual ~AlignmentAlgorithmBase ()
 Destructor. More...
 

Public Attributes

bool m_combineME11
 
TH1F * m_drdz
 
bool m_errorFromRMS
 
bool m_fiducial
 
TProfile * m_fiducial_ME11
 
TProfile * m_fiducial_ME12
 
TProfile * m_fiducial_MEx1
 
TProfile * m_fiducial_MEx2
 
TH1F * m_hitsPerChamber
 
bool m_makeHistograms
 
double m_maxdrdz
 
int m_minHitsPerChamber
 
int m_minStationsInTrackRefits
 
int m_minTracksPerOverlap
 
int m_mode
 
TH2F * m_occupancy
 
TH1F * m_offsetResiduals
 
TH1F * m_offsetResiduals_normalized
 
TH1F * m_offsetResiduals_weighted
 
TH2F * m_RPhipos_mem1
 
TH2F * m_RPhipos_mem2
 
TH2F * m_RPhipos_mem3
 
TH2F * m_RPhipos_mem4
 
TH2F * m_RPhipos_mep1
 
TH2F * m_RPhipos_mep2
 
TH2F * m_RPhipos_mep3
 
TH2F * m_RPhipos_mep4
 
TH1F * m_slope
 
TH1F * m_slope_MEm1
 
TH1F * m_slope_MEm2
 
TH1F * m_slope_MEm3
 
TH1F * m_slope_MEm4
 
TH1F * m_slope_MEp1
 
TH1F * m_slope_MEp2
 
TH1F * m_slope_MEp3
 
TH1F * m_slope_MEp4
 
bool m_slopeFromTrackRefit
 
TH1F * m_slopeResiduals
 
TH1F * m_slopeResiduals_normalized
 
TH1F * m_slopeResiduals_weighted
 
double m_truncateOffsetResid
 
double m_truncateSlopeResid
 
bool m_useHitWeights
 
bool m_useTrackWeights
 
TH2F * m_XYpos_mem1
 
TH2F * m_XYpos_mem2
 
TH2F * m_XYpos_mem3
 
TH2F * m_XYpos_mem4
 
TH2F * m_XYpos_mep1
 
TH2F * m_XYpos_mep2
 
TH2F * m_XYpos_mep3
 
TH2F * m_XYpos_mep4
 

Private Attributes

AlignableNavigatorm_alignableNavigator
 
align::Alignables m_alignables
 
AlignmentParameterStorem_alignmentParameterStore
 
const edm::ESGetToken< CSCGeometry, MuonGeometryRecordm_cscGeometryToken
 
bool m_doAlignment
 
std::vector< CSCChamberFitterm_fitters
 
TH1F * m_histP10
 
TH1F * m_histP100
 
TH1F * m_histP1000
 
double m_maxRedChi2
 
double m_minP
 
std::string m_mode_string
 
const Propagatorm_propagatorPointer
 
const edm::ESGetToken< Propagator, TrackingComponentsRecordm_propToken
 
std::map< std::pair< CSCDetId, CSCDetId >, CSCPairResidualsConstraint * > m_quickChamberLookup
 
std::vector< std::string > m_readTemporaryFiles
 
std::string m_reportFileName
 
std::vector< CSCPairResidualsConstraint * > m_residualsConstraints
 
TrackTransformerm_trackTransformer
 
const edm::ESGetToken< TransientTrackBuilder, TransientTrackRecordm_tthbToken
 
std::string m_writeTemporaryFile
 

Additional Inherited Members

- Public Types inherited from AlignmentAlgorithmBase
typedef std::pair< const Trajectory *, const reco::Track * > ConstTrajTrackPair
 
typedef std::vector< ConstTrajTrackPairConstTrajTrackPairCollection
 
using RunNumber = align::RunNumber
 
using RunRange = align::RunRange
 

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 61 of file CSCOverlapsAlignmentAlgorithm.h.

Constructor & Destructor Documentation

◆ CSCOverlapsAlignmentAlgorithm()

CSCOverlapsAlignmentAlgorithm::CSCOverlapsAlignmentAlgorithm ( const edm::ParameterSet iConfig,
edm::ConsumesCollector iC 
)

Definition at line 3 of file CSCOverlapsAlignmentAlgorithm.cc.

References Exception, alignBH_cfg::fitters, edm::ParameterSet::getParameter(), mps_fire::i, CSCPairResidualsConstraint::kModePhiPos, CSCPairResidualsConstraint::kModePhiy, CSCPairResidualsConstraint::kModePhiz, CSCPairResidualsConstraint::kModeRadius, m_combineME11, m_drdz, m_fiducial_ME11, m_fiducial_ME12, m_fiducial_MEx1, m_fiducial_MEx2, m_fitters, m_histP10, m_histP100, m_histP1000, m_hitsPerChamber, m_makeHistograms, m_mode, m_mode_string, m_occupancy, m_offsetResiduals, m_offsetResiduals_normalized, m_offsetResiduals_weighted, M_PI, m_propagatorPointer, m_quickChamberLookup, m_residualsConstraints, m_RPhipos_mem1, m_RPhipos_mem2, m_RPhipos_mem3, m_RPhipos_mem4, m_RPhipos_mep1, m_RPhipos_mep2, m_RPhipos_mep3, m_RPhipos_mep4, m_slope, m_slope_MEm1, m_slope_MEm2, m_slope_MEm3, m_slope_MEm4, m_slope_MEp1, m_slope_MEp2, m_slope_MEp3, m_slope_MEp4, m_slopeFromTrackRefit, m_slopeResiduals, m_slopeResiduals_normalized, m_slopeResiduals_weighted, m_trackTransformer, m_XYpos_mem1, m_XYpos_mem2, m_XYpos_mem3, m_XYpos_mem4, m_XYpos_mep1, m_XYpos_mep2, m_XYpos_mep3, m_XYpos_mep4, TFileService::make(), AlCaHLTBitMon_QueryRunRegistry::string, and HLT_2024v12_cff::TrackTransformer.

5  : AlignmentAlgorithmBase(iConfig, iC),
6  m_minHitsPerChamber(iConfig.getParameter<int>("minHitsPerChamber")),
7  m_maxdrdz(iConfig.getParameter<double>("maxdrdz")),
8  m_fiducial(iConfig.getParameter<bool>("fiducial")),
9  m_useHitWeights(iConfig.getParameter<bool>("useHitWeights")),
10  m_slopeFromTrackRefit(iConfig.getParameter<bool>("slopeFromTrackRefit")),
11  m_minStationsInTrackRefits(iConfig.getParameter<int>("minStationsInTrackRefits")),
12  m_truncateSlopeResid(iConfig.getParameter<double>("truncateSlopeResid")),
13  m_truncateOffsetResid(iConfig.getParameter<double>("truncateOffsetResid")),
14  m_combineME11(iConfig.getParameter<bool>("combineME11")),
15  m_useTrackWeights(iConfig.getParameter<bool>("useTrackWeights")),
16  m_errorFromRMS(iConfig.getParameter<bool>("errorFromRMS")),
17  m_minTracksPerOverlap(iConfig.getParameter<int>("minTracksPerOverlap")),
18  m_makeHistograms(iConfig.getParameter<bool>("makeHistograms")),
19  m_cscGeometryToken(iC.esConsumes<edm::Transition::BeginRun>()),
20  m_propToken(iC.esConsumes(edm::ESInputTag(
21  "",
22  m_slopeFromTrackRefit
23  ? iConfig.getParameter<edm::ParameterSet>("TrackTransformer").getParameter<std::string>("Propagator")
24  : std::string("")))),
25  m_tthbToken(iC.esConsumes(edm::ESInputTag("", "TransientTrackBuilder"))),
26  m_mode_string(iConfig.getParameter<std::string>("mode")),
27  m_reportFileName(iConfig.getParameter<std::string>("reportFileName")),
28  m_minP(iConfig.getParameter<double>("minP")),
29  m_maxRedChi2(iConfig.getParameter<double>("maxRedChi2")),
30  m_writeTemporaryFile(iConfig.getParameter<std::string>("writeTemporaryFile")),
31  m_readTemporaryFiles(iConfig.getParameter<std::vector<std::string> >("readTemporaryFiles")),
32  m_doAlignment(iConfig.getParameter<bool>("doAlignment")) {
33  if (m_mode_string == std::string("phiy"))
34  m_mode = CSCPairResidualsConstraint::kModePhiy;
35  else if (m_mode_string == std::string("phipos"))
36  m_mode = CSCPairResidualsConstraint::kModePhiPos;
37  else if (m_mode_string == std::string("phiz"))
38  m_mode = CSCPairResidualsConstraint::kModePhiz;
39  else if (m_mode_string == std::string("radius"))
40  m_mode = CSCPairResidualsConstraint::kModeRadius;
41  else
42  throw cms::Exception("BadConfig") << "mode must be one of \"phiy\", \"phipos\", \"phiz\", \"radius\"" << std::endl;
43 
44  std::vector<edm::ParameterSet> fitters = iConfig.getParameter<std::vector<edm::ParameterSet> >("fitters");
45  for (std::vector<edm::ParameterSet>::const_iterator fitter = fitters.begin(); fitter != fitters.end(); ++fitter) {
46  m_fitters.push_back(CSCChamberFitter(*fitter, m_residualsConstraints));
47  }
48 
49  for (std::vector<CSCPairResidualsConstraint*>::const_iterator residualsConstraint = m_residualsConstraints.begin();
50  residualsConstraint != m_residualsConstraints.end();
51  ++residualsConstraint) {
52  (*residualsConstraint)->configure(this);
53  m_quickChamberLookup[std::pair<CSCDetId, CSCDetId>((*residualsConstraint)->id_i(), (*residualsConstraint)->id_j())] =
54  *residualsConstraint;
55  }
56 
57  if (m_slopeFromTrackRefit) {
58  m_trackTransformer = new TrackTransformer(iConfig.getParameter<edm::ParameterSet>("TrackTransformer"), iC);
59  } else {
60  m_trackTransformer = nullptr;
61  }
62 
63  m_propagatorPointer = nullptr;
64 
65  if (m_makeHistograms) {
66  edm::Service<TFileService> tFileService;
67  m_histP10 = tFileService->make<TH1F>("P10", "", 100, 0, 10);
68  m_histP100 = tFileService->make<TH1F>("P100", "", 100, 0, 100);
69  m_histP1000 = tFileService->make<TH1F>("P1000", "", 100, 0, 1000);
70 
71  m_hitsPerChamber = tFileService->make<TH1F>("hitsPerChamber", "", 10, -0.5, 9.5);
72 
73  m_fiducial_ME11 = tFileService->make<TProfile>("fiducial_ME11", "", 100, 0.075, 0.100);
74  m_fiducial_ME12 = tFileService->make<TProfile>("fiducial_ME12", "", 100, 0.080, 0.105);
75  m_fiducial_MEx1 = tFileService->make<TProfile>("fiducial_MEx1", "", 100, 0.160, 0.210);
76  m_fiducial_MEx2 = tFileService->make<TProfile>("fiducial_MEx2", "", 100, 0.080, 0.105);
77 
78  m_slope = tFileService->make<TH1F>("slope", "", 100, -0.5, 0.5);
79  m_slope_MEp4 = tFileService->make<TH1F>("slope_MEp4", "", 100, -0.5, 0.5);
80  m_slope_MEp3 = tFileService->make<TH1F>("slope_MEp3", "", 100, -0.5, 0.5);
81  m_slope_MEp2 = tFileService->make<TH1F>("slope_MEp2", "", 100, -0.5, 0.5);
82  m_slope_MEp1 = tFileService->make<TH1F>("slope_MEp1", "", 100, -0.5, 0.5);
83  m_slope_MEm1 = tFileService->make<TH1F>("slope_MEm1", "", 100, -0.5, 0.5);
84  m_slope_MEm2 = tFileService->make<TH1F>("slope_MEm2", "", 100, -0.5, 0.5);
85  m_slope_MEm3 = tFileService->make<TH1F>("slope_MEm3", "", 100, -0.5, 0.5);
86  m_slope_MEm4 = tFileService->make<TH1F>("slope_MEm4", "", 100, -0.5, 0.5);
87 
88  m_slopeResiduals = tFileService->make<TH1F>("slopeResiduals", "mrad", 300, -30., 30.);
89  m_slopeResiduals_weighted = tFileService->make<TH1F>("slopeResiduals_weighted", "mrad", 300, -30., 30.);
90  m_slopeResiduals_normalized = tFileService->make<TH1F>("slopeResiduals_normalized", "", 200, -20., 20.);
91  m_offsetResiduals = tFileService->make<TH1F>("offsetResiduals", "mm", 300, -30., 30.);
92  m_offsetResiduals_weighted = tFileService->make<TH1F>("offsetResiduals_weighted", "mm", 300, -30., 30.);
93  m_offsetResiduals_normalized = tFileService->make<TH1F>("offsetResiduals_normalized", "", 200, -20., 20.);
94 
95  m_drdz = tFileService->make<TH1F>("drdz", "", 100, -0.5, 0.5);
96 
97  m_occupancy = tFileService->make<TH2F>("occupancy", "", 36, 1, 37, 20, 1, 21);
98  for (int i = 1; i <= 36; i++) {
99  std::stringstream pairname;
100  pairname << i << "-";
101  if (i + 1 == 37)
102  pairname << 1;
103  else
104  pairname << (i + 1);
105  m_occupancy->GetXaxis()->SetBinLabel(i, pairname.str().c_str());
106  }
107  m_occupancy->GetYaxis()->SetBinLabel(1, "ME-4/2");
108  m_occupancy->GetYaxis()->SetBinLabel(2, "ME-4/1");
109  m_occupancy->GetYaxis()->SetBinLabel(3, "ME-3/2");
110  m_occupancy->GetYaxis()->SetBinLabel(4, "ME-3/1");
111  m_occupancy->GetYaxis()->SetBinLabel(5, "ME-2/2");
112  m_occupancy->GetYaxis()->SetBinLabel(6, "ME-2/1");
113  m_occupancy->GetYaxis()->SetBinLabel(7, "ME-1/3");
114  m_occupancy->GetYaxis()->SetBinLabel(8, "ME-1/2");
115  if (!m_combineME11) {
116  m_occupancy->GetYaxis()->SetBinLabel(9, "ME-1/1b");
117  m_occupancy->GetYaxis()->SetBinLabel(10, "ME-1/1a");
118  m_occupancy->GetYaxis()->SetBinLabel(11, "ME+1/1a");
119  m_occupancy->GetYaxis()->SetBinLabel(12, "ME+1/1b");
120  } else {
121  m_occupancy->GetYaxis()->SetBinLabel(9, "ME-1/1");
122  m_occupancy->GetYaxis()->SetBinLabel(10, "");
123  m_occupancy->GetYaxis()->SetBinLabel(11, "");
124  m_occupancy->GetYaxis()->SetBinLabel(12, "ME+1/1");
125  }
126  m_occupancy->GetYaxis()->SetBinLabel(13, "ME+1/2");
127  m_occupancy->GetYaxis()->SetBinLabel(14, "ME+1/3");
128  m_occupancy->GetYaxis()->SetBinLabel(15, "ME+2/1");
129  m_occupancy->GetYaxis()->SetBinLabel(16, "ME+2/2");
130  m_occupancy->GetYaxis()->SetBinLabel(17, "ME+3/1");
131  m_occupancy->GetYaxis()->SetBinLabel(18, "ME+3/2");
132  m_occupancy->GetYaxis()->SetBinLabel(19, "ME+4/1");
133  m_occupancy->GetYaxis()->SetBinLabel(20, "ME+4/2");
134 
135  m_XYpos_mep1 = tFileService->make<TH2F>("XYpos_mep1", "Positions: ME+1", 140, -700., 700., 140, -700., 700.);
136  m_XYpos_mep2 = tFileService->make<TH2F>("XYpos_mep2", "Positions: ME+2", 140, -700., 700., 140, -700., 700.);
137  m_XYpos_mep3 = tFileService->make<TH2F>("XYpos_mep3", "Positions: ME+3", 140, -700., 700., 140, -700., 700.);
138  m_XYpos_mep4 = tFileService->make<TH2F>("XYpos_mep4", "Positions: ME+4", 140, -700., 700., 140, -700., 700.);
139  m_XYpos_mem1 = tFileService->make<TH2F>("XYpos_mem1", "Positions: ME-1", 140, -700., 700., 140, -700., 700.);
140  m_XYpos_mem2 = tFileService->make<TH2F>("XYpos_mem2", "Positions: ME-2", 140, -700., 700., 140, -700., 700.);
141  m_XYpos_mem3 = tFileService->make<TH2F>("XYpos_mem3", "Positions: ME-3", 140, -700., 700., 140, -700., 700.);
142  m_XYpos_mem4 = tFileService->make<TH2F>("XYpos_mem4", "Positions: ME-4", 140, -700., 700., 140, -700., 700.);
143  m_RPhipos_mep1 = tFileService->make<TH2F>("RPhipos_mep1", "Positions: ME+1", 144, -M_PI, M_PI, 21, 0., 700.);
144  m_RPhipos_mep2 = tFileService->make<TH2F>("RPhipos_mep2", "Positions: ME+2", 144, -M_PI, M_PI, 21, 0., 700.);
145  m_RPhipos_mep3 = tFileService->make<TH2F>("RPhipos_mep3", "Positions: ME+3", 144, -M_PI, M_PI, 21, 0., 700.);
146  m_RPhipos_mep4 = tFileService->make<TH2F>("RPhipos_mep4", "Positions: ME+4", 144, -M_PI, M_PI, 21, 0., 700.);
147  m_RPhipos_mem1 = tFileService->make<TH2F>("RPhipos_mem1", "Positions: ME-1", 144, -M_PI, M_PI, 21, 0., 700.);
148  m_RPhipos_mem2 = tFileService->make<TH2F>("RPhipos_mem2", "Positions: ME-2", 144, -M_PI, M_PI, 21, 0., 700.);
149  m_RPhipos_mem3 = tFileService->make<TH2F>("RPhipos_mem3", "Positions: ME-3", 144, -M_PI, M_PI, 21, 0., 700.);
150  m_RPhipos_mem4 = tFileService->make<TH2F>("RPhipos_mem4", "Positions: ME-4", 144, -M_PI, M_PI, 21, 0., 700.);
151  } else {
152  m_histP10 = nullptr;
153  m_histP100 = nullptr;
154  m_histP1000 = nullptr;
155  m_hitsPerChamber = nullptr;
156  m_fiducial_ME11 = nullptr;
157  m_fiducial_ME12 = nullptr;
158  m_fiducial_MEx1 = nullptr;
159  m_fiducial_MEx2 = nullptr;
160  m_slope = nullptr;
161  m_slope_MEp4 = nullptr;
162  m_slope_MEp3 = nullptr;
163  m_slope_MEp2 = nullptr;
164  m_slope_MEp1 = nullptr;
165  m_slope_MEm1 = nullptr;
166  m_slope_MEm2 = nullptr;
167  m_slope_MEm3 = nullptr;
168  m_slope_MEm4 = nullptr;
169  m_slopeResiduals = nullptr;
170  m_slopeResiduals_weighted = nullptr;
171  m_slopeResiduals_normalized = nullptr;
172  m_offsetResiduals = nullptr;
173  m_offsetResiduals_weighted = nullptr;
174  m_offsetResiduals_normalized = nullptr;
175  m_drdz = nullptr;
176  m_occupancy = nullptr;
177  m_XYpos_mep1 = nullptr;
178  m_XYpos_mep2 = nullptr;
179  m_XYpos_mep3 = nullptr;
180  m_XYpos_mep4 = nullptr;
181  m_XYpos_mem1 = nullptr;
182  m_XYpos_mem2 = nullptr;
183  m_XYpos_mem3 = nullptr;
184  m_XYpos_mem4 = nullptr;
185  m_RPhipos_mep1 = nullptr;
186  m_RPhipos_mep2 = nullptr;
187  m_RPhipos_mep3 = nullptr;
188  m_RPhipos_mep4 = nullptr;
189  m_RPhipos_mem1 = nullptr;
190  m_RPhipos_mem2 = nullptr;
191  m_RPhipos_mem3 = nullptr;
192  m_RPhipos_mem4 = nullptr;
193  }
194 }
CSCOverlapsAlignmentAlgorithm::m_propToken
const edm::ESGetToken< Propagator, TrackingComponentsRecord > m_propToken
Definition: CSCOverlapsAlignmentAlgorithm.h:137
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
CSCOverlapsAlignmentAlgorithm::m_fitters
std::vector< CSCChamberFitter > m_fitters
Definition: CSCOverlapsAlignmentAlgorithm.h:151
mps_fire.i
i
Definition: mps_fire.py:429
CSCOverlapsAlignmentAlgorithm::m_readTemporaryFiles
std::vector< std::string > m_readTemporaryFiles
Definition: CSCOverlapsAlignmentAlgorithm.h:145
alignBH_cfg.fitters
fitters
Definition: alignBH_cfg.py:41
CSCOverlapsAlignmentAlgorithm::m_quickChamberLookup
std::map< std::pair< CSCDetId, CSCDetId >, CSCPairResidualsConstraint * > m_quickChamberLookup
Definition: CSCOverlapsAlignmentAlgorithm.h:153
AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
CSCOverlapsAlignmentAlgorithm::m_cscGeometryToken
const edm::ESGetToken< CSCGeometry, MuonGeometryRecord > m_cscGeometryToken
Definition: CSCOverlapsAlignmentAlgorithm.h:136
AlignmentAlgorithmBase::AlignmentAlgorithmBase
AlignmentAlgorithmBase(const edm::ParameterSet &, const edm::ConsumesCollector &)
Constructor.
Definition: AlignmentAlgorithmBase.h:115
CSCOverlapsAlignmentAlgorithm::m_tthbToken
const edm::ESGetToken< TransientTrackBuilder, TransientTrackRecord > m_tthbToken
Definition: CSCOverlapsAlignmentAlgorithm.h:138
M_PI
#define M_PI
Definition: BXVectorInputProducer.cc:50
CSCOverlapsAlignmentAlgorithm::m_residualsConstraints
std::vector< CSCPairResidualsConstraint * > m_residualsConstraints
Definition: CSCOverlapsAlignmentAlgorithm.h:152
HLT_2024v12_cff.TrackTransformer
TrackTransformer
Definition: HLT_2024v12_cff.py:8266
TFileService::make
T * make(const Args &...args) const
make new ROOT object
Definition: TFileService.h:64

◆ ~CSCOverlapsAlignmentAlgorithm()

CSCOverlapsAlignmentAlgorithm::~CSCOverlapsAlignmentAlgorithm ( )
override

Definition at line 196 of file CSCOverlapsAlignmentAlgorithm.cc.

196 {}

Member Function Documentation

◆ initialize()

void CSCOverlapsAlignmentAlgorithm::initialize ( const edm::EventSetup setup,
AlignableTracker tracker,
AlignableMuon muon,
AlignableExtras extras,
AlignmentParameterStore store 
)
overridevirtual

Call at beginning of job (must be implemented in derived class)

Implements AlignmentAlgorithmBase.

Definition at line 198 of file CSCOverlapsAlignmentAlgorithm.cc.

References AlignmentParameterStore::alignables(), MuonSubdetId::CSC, Exception, geometryDiff::file, MillePedeFileConverter_cfg::fileName, edm::EventSetup::getData(), mps_fire::i, input, nano_mu_digi_cff::layer, m_alignableNavigator, m_alignables, m_alignmentParameterStore, m_cscGeometryToken, m_readTemporaryFiles, m_residualsConstraints, DetId::Muon, nano_mu_digi_cff::rawId, and collectionMerger::selector.

202  {
203  m_alignmentParameterStore = alignmentParameterStore;
204  m_alignables = m_alignmentParameterStore->alignables();
205 
206  if (alignableTracker == nullptr)
207  m_alignableNavigator = new AlignableNavigator(alignableMuon);
208  else
209  m_alignableNavigator = new AlignableNavigator(alignableTracker, alignableMuon);
210 
211  for (const auto& alignable : m_alignables) {
212  DetId id = alignable->geomDetId();
213  if (id.det() != DetId::Muon || id.subdetId() != MuonSubdetId::CSC || CSCDetId(id.rawId()).layer() != 0) {
214  throw cms::Exception("BadConfig") << "Only CSC chambers may be alignable" << std::endl;
215  }
216 
217  std::vector<bool> selector = alignable->alignmentParameters()->selector();
218  for (std::vector<bool>::const_iterator i = selector.begin(); i != selector.end(); ++i) {
219  if (!(*i))
220  throw cms::Exception("BadConfig") << "All selector strings should be \"111111\"" << std::endl;
221  }
222  }
223 
224  const CSCGeometry* cscGeometry = &iSetup.getData(m_cscGeometryToken);
225 
226  for (std::vector<CSCPairResidualsConstraint*>::const_iterator residualsConstraint = m_residualsConstraints.begin();
227  residualsConstraint != m_residualsConstraints.end();
228  ++residualsConstraint) {
229  (*residualsConstraint)->setZplane(cscGeometry);
230  }
231 
232  if (!m_readTemporaryFiles.empty()) {
233  std::vector<std::ifstream*> input;
234  for (std::vector<std::string>::const_iterator fileName = m_readTemporaryFiles.begin();
235  fileName != m_readTemporaryFiles.end();
236  ++fileName) {
237  input.push_back(new std::ifstream(fileName->c_str()));
238  }
239 
240  for (std::vector<CSCPairResidualsConstraint*>::const_iterator residualsConstraint = m_residualsConstraints.begin();
241  residualsConstraint != m_residualsConstraints.end();
242  ++residualsConstraint) {
243  (*residualsConstraint)->read(input, m_readTemporaryFiles);
244  }
245 
246  for (std::vector<std::ifstream*>::const_iterator file = input.begin(); file != input.end(); ++file) {
247  delete (*file);
248  }
249  }
250 }
mps_fire.i
i
Definition: mps_fire.py:429
nano_mu_digi_cff.rawId
rawId
Definition: nano_mu_digi_cff.py:56
CSCOverlapsAlignmentAlgorithm::m_readTemporaryFiles
std::vector< std::string > m_readTemporaryFiles
Definition: CSCOverlapsAlignmentAlgorithm.h:145
AlignmentParameterStore::alignables
const align::Alignables & alignables(void) const
get all alignables
Definition: AlignmentParameterStore.h:47
CSCOverlapsAlignmentAlgorithm::m_alignmentParameterStore
AlignmentParameterStore * m_alignmentParameterStore
Definition: CSCOverlapsAlignmentAlgorithm.h:148
input
static std::string const input
Definition: EdmProvDump.cc:50
CSCOverlapsAlignmentAlgorithm::m_cscGeometryToken
const edm::ESGetToken< CSCGeometry, MuonGeometryRecord > m_cscGeometryToken
Definition: CSCOverlapsAlignmentAlgorithm.h:136
nano_mu_digi_cff.layer
layer
Definition: nano_mu_digi_cff.py:27
DetId
Definition: DetId.h:17
CSCOverlapsAlignmentAlgorithm::m_residualsConstraints
std::vector< CSCPairResidualsConstraint * > m_residualsConstraints
Definition: CSCOverlapsAlignmentAlgorithm.h:152
MillePedeFileConverter_cfg.fileName
fileName
Definition: MillePedeFileConverter_cfg.py:32
MuonSubdetId::CSC
static constexpr int CSC
Definition: MuonSubdetId.h:12

◆ run()

void CSCOverlapsAlignmentAlgorithm::run ( const edm::EventSetup setup,
const EventInfo eventInfo 
)
overridevirtual

Run the algorithm (must be implemented in derived class)

Implements AlignmentAlgorithmBase.

Definition at line 252 of file CSCOverlapsAlignmentAlgorithm.cc.

References TransientTrackBuilder::build(), CSCDetId::chamber(), MuonSubdetId::CSC, CSCDetId::endcap(), dumpTauVariables_cfi::eventInfo, edm::EventSetup::getData(), edm::EventSetup::getHandle(), m_combineME11, m_histP10, m_histP100, m_histP1000, m_makeHistograms, m_minP, m_propagatorPointer, m_propToken, m_quickChamberLookup, m_residualsConstraints, m_RPhipos_mem1, m_RPhipos_mem2, m_RPhipos_mem3, m_RPhipos_mem4, m_RPhipos_mep1, m_RPhipos_mep2, m_RPhipos_mep3, m_RPhipos_mep4, m_slopeFromTrackRefit, m_trackTransformer, m_tthbToken, m_XYpos_mem1, m_XYpos_mem2, m_XYpos_mem3, m_XYpos_mem4, m_XYpos_mep1, m_XYpos_mep2, m_XYpos_mep3, m_XYpos_mep4, genParticles_cff::map, Trajectory::measurements(), DetId::Muon, SiPixelPI::one, TrackCandidateProducer_cfi::propagator, nano_mu_digi_cff::rawId, CSCDetId::ring(), TrackTransformer::setServices(), relativeConstraints::station, CSCDetId::station(), HLT_2024v12_cff::track, and SiPixelPI::two.

Referenced by DTWorkflow.DTWorkflow::all(), Types.EventID::cppID(), Types.LuminosityBlockID::cppID(), and o2olib.O2OTool::execute().

252  {
253  edm::ESHandle<Propagator> propagator;
254  if (m_slopeFromTrackRefit) {
255  iSetup.getHandle(m_propToken);
256  if (m_propagatorPointer != &*propagator) {
257  m_propagatorPointer = &*propagator;
258 
259  for (std::vector<CSCPairResidualsConstraint*>::const_iterator residualsConstraint =
260  m_residualsConstraints.begin();
261  residualsConstraint != m_residualsConstraints.end();
262  ++residualsConstraint) {
263  (*residualsConstraint)->setPropagator(m_propagatorPointer);
264  }
265  }
266  }
267 
268  const TransientTrackBuilder* transientTrackBuilder = &iSetup.getData(m_tthbToken);
269 
270  if (m_trackTransformer != nullptr)
271  m_trackTransformer->setServices(iSetup);
272 
273  const ConstTrajTrackPairCollection& trajtracks = eventInfo.trajTrackPairs();
274  for (ConstTrajTrackPairCollection::const_iterator trajtrack = trajtracks.begin(); trajtrack != trajtracks.end();
275  ++trajtrack) {
276  const Trajectory* traj = (*trajtrack).first;
277  const reco::Track* track = (*trajtrack).second;
278 
279  if (m_makeHistograms) {
280  m_histP10->Fill(track->p());
281  m_histP100->Fill(track->p());
282  m_histP1000->Fill(track->p());
283  }
284  if (track->p() >= m_minP) {
285  std::vector<TrajectoryMeasurement> measurements = traj->measurements();
286  reco::TransientTrack transientTrack = transientTrackBuilder->build(track);
287 
288  std::map<int, std::map<CSCDetId, bool> > stationsToChambers;
289  for (std::vector<TrajectoryMeasurement>::const_iterator measurement = measurements.begin();
290  measurement != measurements.end();
291  ++measurement) {
292  DetId id = measurement->recHit()->geographicalId();
293  if (id.det() == DetId::Muon && id.subdetId() == MuonSubdetId::CSC) {
294  CSCDetId cscid(id.rawId());
295  CSCDetId chamberId(cscid.endcap(), cscid.station(), cscid.ring(), cscid.chamber(), 0);
296  if (m_combineME11 && cscid.station() == 1 && cscid.ring() == 4)
297  chamberId = CSCDetId(cscid.endcap(), 1, 1, cscid.chamber(), 0);
298  int station = (cscid.endcap() == 1 ? 1 : -1) * cscid.station();
299 
300  if (stationsToChambers.find(station) == stationsToChambers.end())
301  stationsToChambers[station] = std::map<CSCDetId, bool>();
302  stationsToChambers[station][chamberId] = true;
303 
304  if (m_makeHistograms) {
305  GlobalPoint pos = measurement->recHit()->globalPosition();
306  if (cscid.endcap() == 1 && cscid.station() == 1) {
307  m_XYpos_mep1->Fill(pos.x(), pos.y());
308  m_RPhipos_mep1->Fill(pos.phi(), pos.perp());
309  }
310  if (cscid.endcap() == 1 && cscid.station() == 2) {
311  m_XYpos_mep2->Fill(pos.x(), pos.y());
312  m_RPhipos_mep2->Fill(pos.phi(), pos.perp());
313  }
314  if (cscid.endcap() == 1 && cscid.station() == 3) {
315  m_XYpos_mep3->Fill(pos.x(), pos.y());
316  m_RPhipos_mep3->Fill(pos.phi(), pos.perp());
317  }
318  if (cscid.endcap() == 1 && cscid.station() == 4) {
319  m_XYpos_mep4->Fill(pos.x(), pos.y());
320  m_RPhipos_mep4->Fill(pos.phi(), pos.perp());
321  }
322  if (cscid.endcap() == 2 && cscid.station() == 1) {
323  m_XYpos_mem1->Fill(pos.x(), pos.y());
324  m_RPhipos_mem1->Fill(pos.phi(), pos.perp());
325  }
326  if (cscid.endcap() == 2 && cscid.station() == 2) {
327  m_XYpos_mem2->Fill(pos.x(), pos.y());
328  m_RPhipos_mem2->Fill(pos.phi(), pos.perp());
329  }
330  if (cscid.endcap() == 2 && cscid.station() == 3) {
331  m_XYpos_mem3->Fill(pos.x(), pos.y());
332  m_RPhipos_mem3->Fill(pos.phi(), pos.perp());
333  }
334  if (cscid.endcap() == 2 && cscid.station() == 4) {
335  m_XYpos_mem4->Fill(pos.x(), pos.y());
336  m_RPhipos_mem4->Fill(pos.phi(), pos.perp());
337  }
338  }
339  }
340  }
341 
342  std::map<CSCPairResidualsConstraint*, bool> residualsConstraints;
343  for (std::map<int, std::map<CSCDetId, bool> >::const_iterator iter = stationsToChambers.begin();
344  iter != stationsToChambers.end();
345  ++iter) {
346  for (std::map<CSCDetId, bool>::const_iterator one = iter->second.begin(); one != iter->second.end(); ++one) {
347  for (std::map<CSCDetId, bool>::const_iterator two = one; two != iter->second.end(); ++two) {
348  if (one != two) {
349  std::map<std::pair<CSCDetId, CSCDetId>, CSCPairResidualsConstraint*>::const_iterator quick;
350 
351  quick = m_quickChamberLookup.find(std::pair<CSCDetId, CSCDetId>(one->first, two->first));
352  if (quick != m_quickChamberLookup.end())
353  residualsConstraints[quick->second] = true;
354 
355  quick = m_quickChamberLookup.find(std::pair<CSCDetId, CSCDetId>(two->first, one->first));
356  if (quick != m_quickChamberLookup.end())
357  residualsConstraints[quick->second] = true;
358  }
359  }
360  }
361  }
362 
363  for (std::map<CSCPairResidualsConstraint*, bool>::const_iterator residualsConstraint =
364  residualsConstraints.begin();
365  residualsConstraint != residualsConstraints.end();
366  ++residualsConstraint) {
367  residualsConstraint->first->addTrack(measurements, transientTrack, m_trackTransformer);
368  }
369  }
370  }
371 }
CSCOverlapsAlignmentAlgorithm::m_propToken
const edm::ESGetToken< Propagator, TrackingComponentsRecord > m_propToken
Definition: CSCOverlapsAlignmentAlgorithm.h:137
TrackTransformer::setServices
void setServices(const edm::EventSetup &) override
set the services needed by the TrackTransformer
Definition: TrackTransformer.cc:76
nano_mu_digi_cff.rawId
rawId
Definition: nano_mu_digi_cff.py:56
TrackCandidateProducer_cfi.propagator
propagator
Definition: TrackCandidateProducer_cfi.py:17
CSCOverlapsAlignmentAlgorithm::m_quickChamberLookup
std::map< std::pair< CSCDetId, CSCDetId >, CSCPairResidualsConstraint * > m_quickChamberLookup
Definition: CSCOverlapsAlignmentAlgorithm.h:153
HLT_2024v12_cff.track
track
Definition: HLT_2024v12_cff.py:9556
Trajectory::measurements
DataContainer const & measurements() const
Definition: Trajectory.h:178
TransientTrackBuilder::build
reco::TransientTrack build(const reco::Track *p) const
Definition: TransientTrackBuilder.cc:16
CSCOverlapsAlignmentAlgorithm::m_tthbToken
const edm::ESGetToken< TransientTrackBuilder, TransientTrackRecord > m_tthbToken
Definition: CSCOverlapsAlignmentAlgorithm.h:138
genParticles_cff.map
map
Definition: genParticles_cff.py:11
DetId
Definition: DetId.h:17
CSCOverlapsAlignmentAlgorithm::m_residualsConstraints
std::vector< CSCPairResidualsConstraint * > m_residualsConstraints
Definition: CSCOverlapsAlignmentAlgorithm.h:152
dumpTauVariables_cfi.eventInfo
eventInfo
add run, event number and lumi section
Definition: dumpTauVariables_cfi.py:12
MuonSubdetId::CSC
static constexpr int CSC
Definition: MuonSubdetId.h:12
AlignmentAlgorithmBase::ConstTrajTrackPairCollection
std::vector< ConstTrajTrackPair > ConstTrajTrackPairCollection
Definition: AlignmentAlgorithmBase.h:68

◆ terminate()

void CSCOverlapsAlignmentAlgorithm::terminate ( const edm::EventSetup iSetup)
overridevirtual

Call at end of each loop (must be implemented in derived class)

Implements AlignmentAlgorithmBase.

Definition at line 373 of file CSCOverlapsAlignmentAlgorithm.cc.

References pfMETCorrectionType0_cfi::correction, CSCPairResidualsConstraint::kModeRadius, m_alignableNavigator, m_alignmentParameterStore, m_combineME11, m_doAlignment, m_fitters, m_makeHistograms, m_mode, m_reportFileName, m_residualsConstraints, m_writeTemporaryFile, convertSQLitetoXML_cfg::output, edmIntegrityCheck::report, and AlCaHLTBitMon_QueryRunRegistry::string.

373  {
374  // write residuals partial fits to temporary files for collection
375  if (m_writeTemporaryFile != std::string("")) {
376  std::ofstream output(m_writeTemporaryFile.c_str());
377  for (std::vector<CSCPairResidualsConstraint*>::const_iterator residualsConstraint = m_residualsConstraints.begin();
378  residualsConstraint != m_residualsConstraints.end();
379  ++residualsConstraint) {
380  (*residualsConstraint)->write(output);
381  }
382  }
383 
384  // write report for alignment results
385  if (m_doAlignment) {
386  std::ofstream report;
387  bool writeReport = (m_reportFileName != std::string(""));
388  if (writeReport) {
389  report.open(m_reportFileName.c_str());
390  report << "cscReports = []" << std::endl
391  << std::endl
392  << "class CSCChamberCorrection:" << std::endl
393  << " def __init__(self, name, detid, value):" << std::endl
394  << " self.name, self.detid, self.value = name, detid, value" << std::endl
395  << std::endl
396  << "class CSCErrorMode:" << std::endl
397  << " def __init__(self, error):" << std::endl
398  << " self.error = error" << std::endl
399  << " self.terms = {}" << std::endl
400  << " self.detids = {}" << std::endl
401  << " def addTerm(self, name, detid, coefficient):" << std::endl
402  << " self.terms[name] = coefficient" << std::endl
403  << " self.detids[name] = detid" << std::endl
404  << std::endl
405  << "class CSCConstraintResidual:" << std::endl
406  << " def __init__(self, i, j, before, uncert, residual, pull):" << std::endl
407  << " self.i, self.j, self.before, self.error, self.residual, self.pull = i, j, before, uncert, "
408  "residual, pull"
409  << std::endl
410  << std::endl
411  << "class CSCFitterReport:" << std::endl
412  << " def __init__(self, name, oldchi2, newchi2):" << std::endl
413  << " self.name, self.oldchi2, self.newchi2 = name, oldchi2, newchi2" << std::endl
414  << " self.chamberCorrections = []" << std::endl
415  << " self.errorModes = []" << std::endl
416  << " self.constraintResiduals = []" << std::endl
417  << std::endl
418  << " def addChamberCorrection(self, name, detid, value):" << std::endl
419  << " self.chamberCorrections.append(CSCChamberCorrection(name, detid, value))" << std::endl
420  << std::endl
421  << " def addErrorMode(self, error):" << std::endl
422  << " self.errorModes.append(CSCErrorMode(error))" << std::endl
423  << std::endl
424  << " def addErrorModeTerm(self, name, detid, coefficient):" << std::endl
425  << " self.errorModes[-1].addTerm(name, detid, coefficient)" << std::endl
426  << std::endl
427  << " def addCSCConstraintResidual(self, i, j, before, uncert, residual, pull):" << std::endl
428  << " self.constraintResiduals.append(CSCConstraintResidual(i, j, before, uncert, residual, pull))"
429  << std::endl
430  << std::endl
431  << "import re" << std::endl
432  << "def nameToKey(name):" << std::endl
433  << " match = re.match(\"ME([\\+\\-])([1-4])/([1-4])/([0-9]{2})\", name)" << std::endl
434  << " if match is None: return None" << std::endl
435  << " endcap, station, ring, chamber = match.groups()" << std::endl
436  << " if endcap == \"+\": endcap = 1" << std::endl
437  << " else: endcap = 2" << std::endl
438  << " station = int(station)" << std::endl
439  << " ring = int(ring)" << std::endl
440  << " chamber = int(chamber)" << std::endl
441  << " return endcap, station, ring, chamber" << std::endl
442  << std::endl;
443  }
444 
445  for (std::vector<CSCChamberFitter>::const_iterator fitter = m_fitters.begin(); fitter != m_fitters.end();
446  ++fitter) {
447  if (m_mode == CSCPairResidualsConstraint::kModeRadius) {
448  fitter->radiusCorrection(m_alignableNavigator, m_alignmentParameterStore, m_combineME11);
449 
450  } else {
451  std::vector<CSCAlignmentCorrections*> corrections;
452  fitter->fit(corrections);
453 
454  // corrections only exist if the fit was successful
455  for (std::vector<CSCAlignmentCorrections*>::iterator correction = corrections.begin();
456  correction != corrections.end();
457  ++correction) {
458  (*correction)->applyAlignment(m_alignableNavigator, m_alignmentParameterStore, m_mode, m_combineME11);
459  if (m_makeHistograms)
460  (*correction)->plot();
461  if (writeReport)
462  (*correction)->report(report);
463  }
464  }
465  }
466  }
467 }
CSCOverlapsAlignmentAlgorithm::m_fitters
std::vector< CSCChamberFitter > m_fitters
Definition: CSCOverlapsAlignmentAlgorithm.h:151
convertSQLitetoXML_cfg.output
output
Definition: convertSQLitetoXML_cfg.py:72
CSCOverlapsAlignmentAlgorithm::m_alignmentParameterStore
AlignmentParameterStore * m_alignmentParameterStore
Definition: CSCOverlapsAlignmentAlgorithm.h:148
AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
pfMETCorrectionType0_cfi.correction
correction
Definition: pfMETCorrectionType0_cfi.py:39
CSCOverlapsAlignmentAlgorithm::m_residualsConstraints
std::vector< CSCPairResidualsConstraint * > m_residualsConstraints
Definition: CSCOverlapsAlignmentAlgorithm.h:152
output
Definition: output.py:1

Member Data Documentation

◆ m_alignableNavigator

AlignableNavigator* CSCOverlapsAlignmentAlgorithm::m_alignableNavigator
private

Definition at line 150 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by initialize(), and terminate().

◆ m_alignables

align::Alignables CSCOverlapsAlignmentAlgorithm::m_alignables
private

Definition at line 149 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by initialize().

◆ m_alignmentParameterStore

AlignmentParameterStore* CSCOverlapsAlignmentAlgorithm::m_alignmentParameterStore
private

Definition at line 148 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by initialize(), and terminate().

◆ m_combineME11

bool CSCOverlapsAlignmentAlgorithm::m_combineME11

Definition at line 129 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), CSCOverlapsAlignmentAlgorithm(), CSCPairResidualsConstraint::dphidzFromTrack(), run(), and terminate().

◆ m_cscGeometryToken

const edm::ESGetToken<CSCGeometry, MuonGeometryRecord> CSCOverlapsAlignmentAlgorithm::m_cscGeometryToken
private

Definition at line 136 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by initialize().

◆ m_doAlignment

bool CSCOverlapsAlignmentAlgorithm::m_doAlignment
private

Definition at line 146 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by terminate().

◆ m_drdz

TH1F* CSCOverlapsAlignmentAlgorithm::m_drdz

Definition at line 100 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_errorFromRMS

bool CSCOverlapsAlignmentAlgorithm::m_errorFromRMS

Definition at line 131 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::error().

◆ m_fiducial

bool CSCOverlapsAlignmentAlgorithm::m_fiducial

Definition at line 123 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack().

◆ m_fiducial_ME11

TProfile* CSCOverlapsAlignmentAlgorithm::m_fiducial_ME11

Definition at line 78 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and CSCPairResidualsConstraint::isFiducial().

◆ m_fiducial_ME12

TProfile* CSCOverlapsAlignmentAlgorithm::m_fiducial_ME12

Definition at line 79 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and CSCPairResidualsConstraint::isFiducial().

◆ m_fiducial_MEx1

TProfile* CSCOverlapsAlignmentAlgorithm::m_fiducial_MEx1

Definition at line 80 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and CSCPairResidualsConstraint::isFiducial().

◆ m_fiducial_MEx2

TProfile* CSCOverlapsAlignmentAlgorithm::m_fiducial_MEx2

Definition at line 81 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and CSCPairResidualsConstraint::isFiducial().

◆ m_fitters

std::vector<CSCChamberFitter> CSCOverlapsAlignmentAlgorithm::m_fitters
private

Definition at line 151 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and terminate().

◆ m_histP10

TH1F* CSCOverlapsAlignmentAlgorithm::m_histP10
private

Definition at line 158 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_histP100

TH1F* CSCOverlapsAlignmentAlgorithm::m_histP100
private

Definition at line 159 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_histP1000

TH1F* CSCOverlapsAlignmentAlgorithm::m_histP1000
private

Definition at line 160 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_hitsPerChamber

TH1F* CSCOverlapsAlignmentAlgorithm::m_hitsPerChamber

Definition at line 76 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_makeHistograms

bool CSCOverlapsAlignmentAlgorithm::m_makeHistograms

Definition at line 133 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), CSCPairResidualsConstraint::configure(), CSCOverlapsAlignmentAlgorithm(), CSCPairResidualsConstraint::isFiducial(), run(), and terminate().

◆ m_maxdrdz

double CSCOverlapsAlignmentAlgorithm::m_maxdrdz

Definition at line 122 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack().

◆ m_maxRedChi2

double CSCOverlapsAlignmentAlgorithm::m_maxRedChi2
private

Definition at line 143 of file CSCOverlapsAlignmentAlgorithm.h.

◆ m_minHitsPerChamber

int CSCOverlapsAlignmentAlgorithm::m_minHitsPerChamber

Definition at line 121 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCPairResidualsConstraint::dphidzFromTrack().

◆ m_minP

double CSCOverlapsAlignmentAlgorithm::m_minP
private

Definition at line 142 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by run().

◆ m_minStationsInTrackRefits

int CSCOverlapsAlignmentAlgorithm::m_minStationsInTrackRefits

Definition at line 126 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::dphidzFromTrack().

◆ m_minTracksPerOverlap

int CSCOverlapsAlignmentAlgorithm::m_minTracksPerOverlap

Definition at line 132 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::valid().

◆ m_mode

int CSCOverlapsAlignmentAlgorithm::m_mode

Definition at line 120 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), CSCOverlapsAlignmentAlgorithm(), CSCPairResidualsConstraint::error(), terminate(), and CSCPairResidualsConstraint::value().

◆ m_mode_string

std::string CSCOverlapsAlignmentAlgorithm::m_mode_string
private

Definition at line 140 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm().

◆ m_occupancy

TH2F* CSCOverlapsAlignmentAlgorithm::m_occupancy

Definition at line 102 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_offsetResiduals

TH1F* CSCOverlapsAlignmentAlgorithm::m_offsetResiduals

Definition at line 96 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_offsetResiduals_normalized

TH1F* CSCOverlapsAlignmentAlgorithm::m_offsetResiduals_normalized

Definition at line 98 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_offsetResiduals_weighted

TH1F* CSCOverlapsAlignmentAlgorithm::m_offsetResiduals_weighted

Definition at line 97 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_propagatorPointer

const Propagator* CSCOverlapsAlignmentAlgorithm::m_propagatorPointer
private

Definition at line 156 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_propToken

const edm::ESGetToken<Propagator, TrackingComponentsRecord> CSCOverlapsAlignmentAlgorithm::m_propToken
private

Definition at line 137 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by run().

◆ m_quickChamberLookup

std::map<std::pair<CSCDetId, CSCDetId>, CSCPairResidualsConstraint *> CSCOverlapsAlignmentAlgorithm::m_quickChamberLookup
private

Definition at line 153 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_readTemporaryFiles

std::vector<std::string> CSCOverlapsAlignmentAlgorithm::m_readTemporaryFiles
private

Definition at line 145 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by initialize().

◆ m_reportFileName

std::string CSCOverlapsAlignmentAlgorithm::m_reportFileName
private

Definition at line 141 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by terminate().

◆ m_residualsConstraints

std::vector<CSCPairResidualsConstraint *> CSCOverlapsAlignmentAlgorithm::m_residualsConstraints
private

Definition at line 152 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), initialize(), run(), and terminate().

◆ m_RPhipos_mem1

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mem1

Definition at line 115 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mem2

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mem2

Definition at line 116 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mem3

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mem3

Definition at line 117 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mem4

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mem4

Definition at line 118 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mep1

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mep1

Definition at line 111 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mep2

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mep2

Definition at line 112 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mep3

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mep3

Definition at line 113 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_RPhipos_mep4

TH2F* CSCOverlapsAlignmentAlgorithm::m_RPhipos_mep4

Definition at line 114 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_slope

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope

Definition at line 83 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEm1

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEm1

Definition at line 88 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEm2

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEm2

Definition at line 89 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEm3

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEm3

Definition at line 90 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEm4

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEm4

Definition at line 91 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEp1

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEp1

Definition at line 87 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEp2

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEp2

Definition at line 86 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEp3

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEp3

Definition at line 85 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slope_MEp4

TH1F* CSCOverlapsAlignmentAlgorithm::m_slope_MEp4

Definition at line 84 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slopeFromTrackRefit

bool CSCOverlapsAlignmentAlgorithm::m_slopeFromTrackRefit

Definition at line 125 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_slopeResiduals

TH1F* CSCOverlapsAlignmentAlgorithm::m_slopeResiduals

Definition at line 93 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slopeResiduals_normalized

TH1F* CSCOverlapsAlignmentAlgorithm::m_slopeResiduals_normalized

Definition at line 95 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_slopeResiduals_weighted

TH1F* CSCOverlapsAlignmentAlgorithm::m_slopeResiduals_weighted

Definition at line 94 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCOverlapsAlignmentAlgorithm().

◆ m_trackTransformer

TrackTransformer* CSCOverlapsAlignmentAlgorithm::m_trackTransformer
private

Definition at line 155 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_truncateOffsetResid

double CSCOverlapsAlignmentAlgorithm::m_truncateOffsetResid

Definition at line 128 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack().

◆ m_truncateSlopeResid

double CSCOverlapsAlignmentAlgorithm::m_truncateSlopeResid

Definition at line 127 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack().

◆ m_tthbToken

const edm::ESGetToken<TransientTrackBuilder, TransientTrackRecord> CSCOverlapsAlignmentAlgorithm::m_tthbToken
private

Definition at line 138 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by run().

◆ m_useHitWeights

bool CSCOverlapsAlignmentAlgorithm::m_useHitWeights

Definition at line 124 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack(), and CSCPairResidualsConstraint::isFiducial().

◆ m_useTrackWeights

bool CSCOverlapsAlignmentAlgorithm::m_useTrackWeights

Definition at line 130 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCPairResidualsConstraint::addTrack().

◆ m_writeTemporaryFile

std::string CSCOverlapsAlignmentAlgorithm::m_writeTemporaryFile
private

Definition at line 144 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by terminate().

◆ m_XYpos_mem1

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mem1

Definition at line 107 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mem2

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mem2

Definition at line 108 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mem3

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mem3

Definition at line 109 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mem4

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mem4

Definition at line 110 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mep1

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mep1

Definition at line 103 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mep2

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mep2

Definition at line 104 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mep3

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mep3

Definition at line 105 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

◆ m_XYpos_mep4

TH2F* CSCOverlapsAlignmentAlgorithm::m_XYpos_mep4

Definition at line 106 of file CSCOverlapsAlignmentAlgorithm.h.

Referenced by CSCOverlapsAlignmentAlgorithm(), and run().

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