CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
List of all members | Public Member Functions | Private Attributes
EBSummaryClient Class Reference

#include <EBSummaryClient.h>

Inheritance diagram for EBSummaryClient:
EBClient

Public Member Functions

void analyze (void)
 Analyze. More...
 
void beginJob (void)
 BeginJob. More...
 
void beginRun (void)
 BeginRun. More...
 
void cleanup (void)
 Cleanup. More...
 
 EBSummaryClient (const edm::ParameterSet &ps)
 Constructor. More...
 
void endJob (void)
 EndJob. More...
 
void endRun (void)
 EndRun. More...
 
int getEvtPerJob ()
 Get Functions. More...
 
int getEvtPerRun ()
 Returns the number of processed events in this Run. More...
 
void setFriends (const std::vector< EBClient * > &clients)
 Set Clients. More...
 
void setup (void)
 Setup. More...
 
virtual ~EBSummaryClient ()
 Destructor. More...
 
- Public Member Functions inherited from EBClient
virtual ~EBClient (void)
 

Private Attributes

std::vector< EBClient * > clients_
 
bool cloneME_
 
bool debug_
 
DQMStoredqmStore_
 
bool enableCleanup_
 
TProfile2D * hot01_ [36]
 
TProfile2D * hpot01_ [36]
 
TProfile2D * htmt01_ [36]
 
TProfile2D * httt01_ [36]
 
int ievt_
 
int jevt_
 
std::vector< int > laserWavelengths_
 
MonitorElementmeGlobalSummary_
 
MonitorElementmeIntegrity_
 
MonitorElementmeIntegrityErr_
 
MonitorElementmeIntegrityPN_
 
MonitorElementmeLaserL1_
 
MonitorElementmeLaserL1Ampl_
 
MonitorElementmeLaserL1AmplOverPN_
 
MonitorElementmeLaserL1Err_
 
MonitorElementmeLaserL1PN_
 
MonitorElementmeLaserL1PNErr_
 
MonitorElementmeLaserL1Timing_
 
MonitorElementmeLaserL2_
 
MonitorElementmeLaserL2Ampl_
 
MonitorElementmeLaserL2AmplOverPN_
 
MonitorElementmeLaserL2Err_
 
MonitorElementmeLaserL2PN_
 
MonitorElementmeLaserL2PNErr_
 
MonitorElementmeLaserL2Timing_
 
MonitorElementmeLaserL3_
 
MonitorElementmeLaserL3Ampl_
 
MonitorElementmeLaserL3AmplOverPN_
 
MonitorElementmeLaserL3Err_
 
MonitorElementmeLaserL3PN_
 
MonitorElementmeLaserL3PNErr_
 
MonitorElementmeLaserL3Timing_
 
MonitorElementmeLaserL4_
 
MonitorElementmeLaserL4Ampl_
 
MonitorElementmeLaserL4AmplOverPN_
 
MonitorElementmeLaserL4Err_
 
MonitorElementmeLaserL4PN_
 
MonitorElementmeLaserL4PNErr_
 
MonitorElementmeLaserL4Timing_
 
MonitorElementmeOccupancy1D_
 
MonitorElementmeOccupancy_
 
MonitorElementmeOccupancyPN_
 
MonitorElementmePedestalG01_
 
MonitorElementmePedestalG06_
 
MonitorElementmePedestalG12_
 
MonitorElementmePedestalOnline_
 
MonitorElementmePedestalOnlineErr_
 
MonitorElementmePedestalOnlineMean_
 
MonitorElementmePedestalOnlineRMS_
 
MonitorElementmePedestalOnlineRMSMap_
 
MonitorElementmePedestalPNG01_
 
MonitorElementmePedestalPNG16_
 
MonitorElementmeRecHitEnergy_
 
MonitorElementmeStatusFlags_
 
MonitorElementmeStatusFlagsErr_
 
MonitorElementmeSummaryErr_
 
MonitorElementmeTestPulseAmplG01_
 
MonitorElementmeTestPulseAmplG06_
 
MonitorElementmeTestPulseAmplG12_
 
MonitorElementmeTestPulseG01_
 
MonitorElementmeTestPulseG06_
 
MonitorElementmeTestPulseG12_
 
MonitorElementmeTestPulsePNG01_
 
MonitorElementmeTestPulsePNG16_
 
MonitorElementmeTiming_
 
MonitorElementmeTimingMean1D_
 
MonitorElementmeTimingMean_
 
MonitorElementmeTimingRMS1D_
 
MonitorElementmeTimingRMS_
 
MonitorElementmeTriggerTowerEmulError_
 
MonitorElementmeTriggerTowerEt_
 
MonitorElementmeTriggerTowerNonSingleTiming_
 
MonitorElementmeTriggerTowerTiming_
 
std::vector< int > MGPAGains_
 
std::vector< int > MGPAGainsPN_
 
TH1F * norm01_
 
std::string prefixME_
 
bool produceReports_
 
bool reducedReports_
 
std::string subfolder_
 
std::vector< int > superModules_
 
TH1F * synch01_
 
float synchErrorThreshold_
 
int timingNHitThreshold_
 
bool verbose_
 

Detailed Description

Definition at line 29 of file EBSummaryClient.h.

Constructor & Destructor Documentation

EBSummaryClient::EBSummaryClient ( const edm::ParameterSet ps)

Constructor.

Definition at line 40 of file EBSummaryClient.cc.

References cloneME_, debug_, enableCleanup_, edm::ParameterSet::getUntrackedParameter(), hpot01_, htmt01_, httt01_, i, ecalpyutils::ism(), laserWavelengths_, meGlobalSummary_, meIntegrity_, meIntegrityErr_, meIntegrityPN_, meLaserL1_, meLaserL1Ampl_, meLaserL1AmplOverPN_, meLaserL1Err_, meLaserL1PN_, meLaserL1PNErr_, meLaserL1Timing_, meLaserL2_, meLaserL2Ampl_, meLaserL2AmplOverPN_, meLaserL2Err_, meLaserL2PN_, meLaserL2PNErr_, meLaserL2Timing_, meLaserL3_, meLaserL3Ampl_, meLaserL3AmplOverPN_, meLaserL3Err_, meLaserL3PN_, meLaserL3PNErr_, meLaserL3Timing_, meLaserL4_, meLaserL4Ampl_, meLaserL4AmplOverPN_, meLaserL4Err_, meLaserL4PN_, meLaserL4PNErr_, meLaserL4Timing_, meOccupancy1D_, meOccupancy_, meOccupancyPN_, mePedestalG01_, mePedestalG06_, mePedestalG12_, mePedestalOnline_, mePedestalOnlineErr_, mePedestalOnlineMean_, mePedestalOnlineRMS_, mePedestalOnlineRMSMap_, mePedestalPNG01_, mePedestalPNG16_, meRecHitEnergy_, meStatusFlags_, meStatusFlagsErr_, meSummaryErr_, meTestPulseAmplG01_, meTestPulseAmplG06_, meTestPulseAmplG12_, meTestPulseG01_, meTestPulseG06_, meTestPulseG12_, meTestPulsePNG01_, meTestPulsePNG16_, meTiming_, meTimingMean1D_, meTimingMean_, meTimingRMS1D_, meTimingRMS_, meTriggerTowerEmulError_, meTriggerTowerEt_, meTriggerTowerNonSingleTiming_, meTriggerTowerTiming_, MGPAGains_, MGPAGainsPN_, prefixME_, produceReports_, reducedReports_, AlCaHLTBitMon_QueryRunRegistry::string, subfolder_, superModules_, synchErrorThreshold_, timingNHitThreshold_, and verbose_.

40  {
41 
42  // cloneME switch
43  cloneME_ = ps.getUntrackedParameter<bool>("cloneME", true);
44 
45  // verbose switch
46  verbose_ = ps.getUntrackedParameter<bool>("verbose", true);
47 
48  // debug switch
49  debug_ = ps.getUntrackedParameter<bool>("debug", false);
50 
51  // prefixME path
52  prefixME_ = ps.getUntrackedParameter<std::string>("prefixME", "");
53 
54  subfolder_ = ps.getUntrackedParameter<std::string>("subfolder", "");
55 
56  // enableCleanup_ switch
57  enableCleanup_ = ps.getUntrackedParameter<bool>("enableCleanup", false);
58 
59  produceReports_ = ps.getUntrackedParameter<bool>("produceReports", true);
60 
61  reducedReports_ = ps.getUntrackedParameter<bool>("reducedReports", false);
62 
63  // vector of selected Super Modules (Defaults to all 36).
64  superModules_.reserve(36);
65  for ( unsigned int i = 1; i <= 36; i++ ) superModules_.push_back(i);
66  superModules_ = ps.getUntrackedParameter<std::vector<int> >("superModules", superModules_);
67 
68  laserWavelengths_.reserve(4);
69  for ( unsigned int i = 1; i <= 4; i++ ) laserWavelengths_.push_back(i);
70  laserWavelengths_ = ps.getUntrackedParameter<std::vector<int> >("laserWavelengths", laserWavelengths_);
71 
72  MGPAGains_.reserve(3);
73  for ( unsigned int i = 1; i <= 3; i++ ) MGPAGains_.push_back(i);
74  MGPAGains_ = ps.getUntrackedParameter<std::vector<int> >("MGPAGains", MGPAGains_);
75 
76  MGPAGainsPN_.reserve(2);
77  for ( unsigned int i = 1; i <= 3; i++ ) MGPAGainsPN_.push_back(i);
78  MGPAGainsPN_ = ps.getUntrackedParameter<std::vector<int> >("MGPAGainsPN", MGPAGainsPN_);
79 
80  timingNHitThreshold_ = ps.getUntrackedParameter<int>("timingNHitThreshold", 5);
81 
82  synchErrorThreshold_ = ps.getUntrackedParameter<double>("synchErrorThreshold", 0.01);
83 
84  // summary maps
85  meIntegrity_ = 0;
86  meIntegrityPN_ = 0;
87  meOccupancy_ = 0;
88  meOccupancyPN_ = 0;
89  meStatusFlags_ = 0;
94 
95  meLaserL1_ = 0;
96  meLaserL1PN_ = 0;
97  meLaserL1Ampl_ = 0;
98  meLaserL1Timing_ = 0;
100 
101  meLaserL2_ = 0;
102  meLaserL2PN_ = 0;
103  meLaserL2Ampl_ = 0;
104  meLaserL2Timing_ = 0;
106 
107  meLaserL3_ = 0;
108  meLaserL3PN_ = 0;
109  meLaserL3Ampl_ = 0;
110  meLaserL3Timing_ = 0;
112 
113  meLaserL4_ = 0;
114  meLaserL4PN_ = 0;
115  meLaserL4Ampl_ = 0;
116  meLaserL4Timing_ = 0;
118 
119  mePedestalG01_ = 0;
120  mePedestalG06_ = 0;
121  mePedestalG12_ = 0;
122  mePedestalPNG01_ = 0;
123  mePedestalPNG16_ = 0;
124  meTestPulseG01_ = 0;
125  meTestPulseG06_ = 0;
126  meTestPulseG12_ = 0;
127  meTestPulsePNG01_ = 0;
128  meTestPulsePNG16_ = 0;
132  meGlobalSummary_ = 0;
133 
134  meRecHitEnergy_ = 0;
135  meTiming_ = 0;
136  meTimingMean1D_ = 0;
137  meTimingRMS1D_ = 0;
138  meTimingMean_ = 0;
139  meTimingRMS_ = 0;
140  meTriggerTowerEt_ = 0;
144 
145  // summary errors
146  meIntegrityErr_ = 0;
147  meOccupancy1D_ = 0;
148  meStatusFlagsErr_ = 0;
150  meLaserL1Err_ = 0;
151  meLaserL1PNErr_ = 0;
152  meLaserL2Err_ = 0;
153  meLaserL2PNErr_ = 0;
154  meLaserL3Err_ = 0;
155  meLaserL3PNErr_ = 0;
156  meLaserL4Err_ = 0;
157  meLaserL4PNErr_ = 0;
158 
159  meSummaryErr_ = 0;
160 
161  // additional histograms from tasks
162  for ( unsigned int i=0; i<superModules_.size(); i++ ) {
163 
164  int ism = superModules_[i];
165 
166  hpot01_[ism-1] = 0;
167  httt01_[ism-1] = 0;
168  htmt01_[ism-1] = 0;
169 
170  }
171 }
MonitorElement * mePedestalOnlineRMS_
MonitorElement * meLaserL4PNErr_
T getUntrackedParameter(std::string const &, T const &) const
int i
Definition: DBlmapReader.cc:9
MonitorElement * meOccupancyPN_
MonitorElement * meRecHitEnergy_
MonitorElement * meTriggerTowerEt_
MonitorElement * meLaserL3_
MonitorElement * meTestPulseAmplG01_
TProfile2D * httt01_[36]
MonitorElement * meTestPulseG12_
MonitorElement * meLaserL4AmplOverPN_
MonitorElement * mePedestalPNG01_
MonitorElement * meLaserL1Timing_
MonitorElement * meTimingMean_
MonitorElement * meStatusFlagsErr_
MonitorElement * meLaserL1_
MonitorElement * meIntegrity_
MonitorElement * mePedestalOnlineErr_
MonitorElement * mePedestalG06_
MonitorElement * meOccupancy_
MonitorElement * meTestPulseAmplG12_
MonitorElement * meLaserL3Timing_
std::vector< int > superModules_
std::vector< int > laserWavelengths_
MonitorElement * meLaserL2Err_
MonitorElement * meLaserL2_
MonitorElement * meLaserL3Ampl_
MonitorElement * meTestPulsePNG16_
MonitorElement * mePedestalG01_
MonitorElement * meIntegrityErr_
MonitorElement * meSummaryErr_
MonitorElement * meLaserL3PNErr_
MonitorElement * meLaserL2PN_
MonitorElement * meTestPulsePNG01_
MonitorElement * meLaserL4Timing_
MonitorElement * meLaserL2AmplOverPN_
MonitorElement * meTimingRMS_
std::string prefixME_
MonitorElement * meIntegrityPN_
TProfile2D * hpot01_[36]
MonitorElement * meLaserL3Err_
MonitorElement * meLaserL4Err_
MonitorElement * meTimingRMS1D_
MonitorElement * meOccupancy1D_
MonitorElement * meTriggerTowerEmulError_
MonitorElement * meTriggerTowerTiming_
MonitorElement * meLaserL3PN_
MonitorElement * meLaserL3AmplOverPN_
MonitorElement * meLaserL4PN_
MonitorElement * meLaserL2Timing_
MonitorElement * meTimingMean1D_
MonitorElement * meTiming_
MonitorElement * meLaserL1AmplOverPN_
MonitorElement * mePedestalOnlineRMSMap_
MonitorElement * meLaserL4Ampl_
MonitorElement * meLaserL1Err_
MonitorElement * meLaserL4_
MonitorElement * meTestPulseAmplG06_
MonitorElement * mePedestalOnline_
MonitorElement * meGlobalSummary_
std::vector< int > MGPAGainsPN_
MonitorElement * meStatusFlags_
MonitorElement * meLaserL1PN_
MonitorElement * meLaserL2PNErr_
MonitorElement * meTestPulseG06_
MonitorElement * meTestPulseG01_
MonitorElement * meLaserL1Ampl_
float synchErrorThreshold_
MonitorElement * meLaserL1PNErr_
std::vector< int > MGPAGains_
int ism(int ieta, int iphi)
Definition: EcalPyUtils.cc:56
MonitorElement * meLaserL2Ampl_
MonitorElement * mePedestalG12_
TProfile2D * htmt01_[36]
std::string subfolder_
MonitorElement * meTriggerTowerNonSingleTiming_
MonitorElement * mePedestalOnlineMean_
MonitorElement * mePedestalPNG16_
EBSummaryClient::~EBSummaryClient ( )
virtual

Destructor.

Definition at line 173 of file EBSummaryClient.cc.

173  {
174 
175 }

Member Function Documentation

void EBSummaryClient::analyze ( void  )
virtual

Analyze.

Implements EBClient.

Definition at line 991 of file EBSummaryClient.cc.

References funct::abs(), clients_, cloneME_, gather_cfg::cout, CommonMethods::cp(), debug_, dqmStore_, EcalBarrel, MonitorElement::Fill(), spr::find(), DQMStore::get(), MonitorElement::getBinContent(), MonitorElement::getBinError(), UtilsClient::getBinStatistics(), MonitorElement::getEntries(), UtilsClient::getHisto(), EBIntegrityClient::h_, EBIntegrityClient::hmem_, hot01_, hpot01_, htmt01_, httt01_, i, ievt_, ecalpyutils::ism(), j, jevt_, EBTriggerTowerClient::l01_, EBTriggerTowerClient::l02_, laserWavelengths_, UtilsClient::maskBinContent(), Masks::maskChannel(), EBTriggerTowerClient::me_o01_, EBTriggerTowerClient::me_o02_, EBTestPulseClient::mea01_, EBLaserClient::mea01_, EBTestPulseClient::mea02_, EBLaserClient::mea02_, EBTestPulseClient::mea03_, EBLaserClient::mea03_, EBLaserClient::mea04_, EBLaserClient::meaopn01_, EBLaserClient::meaopn02_, EBLaserClient::meaopn03_, EBLaserClient::meaopn04_, EBTestPulseClient::meg01_, EBIntegrityClient::meg01_, EBPedestalClient::meg01_, EBLaserClient::meg01_, EBTestPulseClient::meg02_, EBPedestalClient::meg02_, EBIntegrityClient::meg02_, EBLaserClient::meg02_, EBPedestalOnlineClient::meg03_, EBTestPulseClient::meg03_, EBPedestalClient::meg03_, EBLaserClient::meg03_, EBTestPulseClient::meg04_, EBPedestalClient::meg04_, EBLaserClient::meg04_, EBTestPulseClient::meg05_, EBPedestalClient::meg05_, EBLaserClient::meg09_, EBLaserClient::meg10_, EBLaserClient::meg11_, EBLaserClient::meg12_, meGlobalSummary_, EBStatusFlagsClient::meh01_, meIntegrity_, meIntegrityErr_, meIntegrityPN_, meLaserL1_, meLaserL1Ampl_, meLaserL1AmplOverPN_, meLaserL1Err_, meLaserL1PN_, meLaserL1PNErr_, meLaserL1Timing_, meLaserL2_, meLaserL2Ampl_, meLaserL2AmplOverPN_, meLaserL2Err_, meLaserL2PN_, meLaserL2PNErr_, meLaserL2Timing_, meLaserL3_, meLaserL3Ampl_, meLaserL3AmplOverPN_, meLaserL3Err_, meLaserL3PN_, meLaserL3PNErr_, meLaserL3Timing_, meLaserL4_, meLaserL4Ampl_, meLaserL4AmplOverPN_, meLaserL4Err_, meLaserL4PN_, meLaserL4PNErr_, meLaserL4Timing_, meOccupancy1D_, meOccupancy_, meOccupancyPN_, mePedestalG01_, mePedestalG06_, mePedestalG12_, mePedestalOnline_, mePedestalOnlineErr_, mePedestalOnlineMean_, mePedestalOnlineRMS_, mePedestalOnlineRMSMap_, mePedestalPNG01_, mePedestalPNG16_, meRecHitEnergy_, meStatusFlags_, meStatusFlagsErr_, meSummaryErr_, EBLaserClient::met01_, EBLaserClient::met02_, EBLaserClient::met03_, EBLaserClient::met04_, meTestPulseAmplG01_, meTestPulseAmplG06_, meTestPulseAmplG12_, meTestPulseG01_, meTestPulseG06_, meTestPulseG12_, meTestPulsePNG01_, meTestPulsePNG16_, meTiming_, meTimingMean1D_, meTimingMean_, meTimingRMS1D_, meTimingRMS_, meTriggerTowerEmulError_, meTriggerTowerEt_, meTriggerTowerNonSingleTiming_, meTriggerTowerTiming_, norm01_, pileupDistInMC::num, EcalDQMStatusHelper::PHYSICS_BAD_CHANNEL_WARNING, prefixME_, produceReports_, reducedReports_, MonitorElement::Reset(), Numbers::sEB(), MonitorElement::setBinContent(), MonitorElement::setEntries(), AlCaHLTBitMon_QueryRunRegistry::string, subfolder_, superModules_, synch01_, synchErrorThreshold_, and timingNHitThreshold_.

Referenced by EcalBarrelMonitorClient::analyze(), and EcalBarrelMonitorClient::endRun().

991  {
992 
993  ievt_++;
994  jevt_++;
995  if ( ievt_ % 10 == 0 ) {
996  if ( debug_ ) std::cout << "EBSummaryClient: ievt/jevt = " << ievt_ << "/" << jevt_ << std::endl;
997  }
998 
999  uint32_t chWarnBit = 1 << EcalDQMStatusHelper::PHYSICS_BAD_CHANNEL_WARNING;
1000 
1001  for ( int iex = 1; iex <= 170; iex++ ) {
1002  for ( int ipx = 1; ipx <= 360; ipx++ ) {
1003 
1004  if ( meIntegrity_ ) meIntegrity_->setBinContent( ipx, iex, 6. );
1005  if ( meOccupancy_ ) meOccupancy_->setBinContent( ipx, iex, 0. );
1006  if ( meStatusFlags_ ) meStatusFlags_->setBinContent( ipx, iex, 6. );
1007  if ( mePedestalOnline_ ) mePedestalOnline_->setBinContent( ipx, iex, 6. );
1009  if ( meLaserL1_ ) meLaserL1_->setBinContent( ipx, iex, 6. );
1010  if ( meLaserL2_ ) meLaserL2_->setBinContent( ipx, iex, 6. );
1011  if ( meLaserL3_ ) meLaserL3_->setBinContent( ipx, iex, 6. );
1012  if ( meLaserL4_ ) meLaserL4_->setBinContent( ipx, iex, 6. );
1013  if ( mePedestalG01_ ) mePedestalG01_->setBinContent( ipx, iex, 6. );
1014  if ( mePedestalG06_ ) mePedestalG06_->setBinContent( ipx, iex, 6. );
1015  if ( mePedestalG12_ ) mePedestalG12_->setBinContent( ipx, iex, 6. );
1016  if ( meTestPulseG01_ ) meTestPulseG01_->setBinContent( ipx, iex, 6. );
1017  if ( meTestPulseG06_ ) meTestPulseG06_->setBinContent( ipx, iex, 6. );
1018  if ( meTestPulseG12_ ) meTestPulseG12_->setBinContent( ipx, iex, 6. );
1019 
1020  if ( meRecHitEnergy_ ) meRecHitEnergy_->setBinContent( ipx, iex, 0. );
1021 
1022  if(meGlobalSummary_ ) meGlobalSummary_->setBinContent( ipx, iex, 6. );
1023 
1024  }
1025  }
1026 
1027  for ( int iex = 1; iex <= 20; iex++ ) {
1028  for ( int ipx = 1; ipx <= 90; ipx++ ) {
1029 
1030  if ( meIntegrityPN_ ) meIntegrityPN_->setBinContent( ipx, iex, 6. );
1031  if ( meOccupancyPN_ ) meOccupancyPN_->setBinContent( ipx, iex, 0. );
1032  if ( meLaserL1PN_ ) meLaserL1PN_->setBinContent( ipx, iex, 6. );
1033  if ( meLaserL2PN_ ) meLaserL2PN_->setBinContent( ipx, iex, 6. );
1034  if ( meLaserL3PN_ ) meLaserL3PN_->setBinContent( ipx, iex, 6. );
1035  if ( meLaserL4PN_ ) meLaserL4PN_->setBinContent( ipx, iex, 6. );
1036  if ( mePedestalPNG01_ ) mePedestalPNG01_->setBinContent( ipx, iex, 6. );
1037  if ( mePedestalPNG16_ ) mePedestalPNG16_->setBinContent( ipx, iex, 6. );
1038  if ( meTestPulsePNG01_ ) meTestPulsePNG01_->setBinContent( ipx, iex, 6. );
1039  if ( meTestPulsePNG16_ ) meTestPulsePNG16_->setBinContent( ipx, iex, 6. );
1040 
1041  }
1042  }
1043 
1044  for ( int iex = 1; iex <= 34; iex++ ) {
1045  for ( int ipx = 1; ipx <= 72; ipx++ ) {
1046  if ( meTriggerTowerEt_ ) meTriggerTowerEt_->setBinContent( ipx, iex, 0. );
1050  if ( meTiming_ ) meTiming_->setBinContent( ipx, iex, 6. );
1051  }
1052  }
1053 
1054  if ( meIntegrity_ ) meIntegrity_->setEntries( 0 );
1057  if ( meOccupancy_ ) meOccupancy_->setEntries( 0 );
1067 
1068  if ( meLaserL1_ ) meLaserL1_->setEntries( 0 );
1069  if ( meLaserL1Err_ ) meLaserL1Err_->Reset();
1073  if ( meLaserL1PN_ ) meLaserL1PN_->setEntries( 0 );
1075 
1076  if ( meLaserL2_ ) meLaserL2_->setEntries( 0 );
1077  if ( meLaserL2Err_ ) meLaserL2Err_->Reset();
1081  if ( meLaserL2PN_ ) meLaserL2PN_->setEntries( 0 );
1083 
1084  if ( meLaserL3_ ) meLaserL3_->setEntries( 0 );
1085  if ( meLaserL3Err_ ) meLaserL3Err_->Reset();
1089  if ( meLaserL3PN_ ) meLaserL3PN_->setEntries( 0 );
1091 
1092  if ( meLaserL4_ ) meLaserL4_->setEntries( 0 );
1093  if ( meLaserL4Err_ ) meLaserL4Err_->Reset();
1097  if ( meLaserL4PN_ ) meLaserL4PN_->setEntries( 0 );
1099 
1113 
1115  if ( meTiming_ ) meTiming_->setEntries( 0 );
1118  if ( meTimingMean_ ) meTimingMean_->Reset();
1119  if ( meTimingRMS_ ) meTimingRMS_->Reset();
1124 
1126 
1128 
1129  MonitorElement* me(0);
1130  me = dqmStore_->get(prefixME_ + "/EBTimingTask/EBTMT timing map");
1131  TProfile2D* htmt(0);
1132  htmt = UtilsClient::getHisto(me, false, htmt);
1133 
1134  std::string subdir(subfolder_ == "" ? "" : subfolder_ + "/");
1135 
1136  TH1F* oosTrend(0);
1137 
1138  for ( unsigned int i=0; i<clients_.size(); i++ ) {
1139 
1140  EBIntegrityClient* ebic = dynamic_cast<EBIntegrityClient*>(clients_[i]);
1141  EBStatusFlagsClient* ebsfc = dynamic_cast<EBStatusFlagsClient*>(clients_[i]);
1142  if(!produceReports_) ebsfc = 0;
1143  EBPedestalOnlineClient* ebpoc = dynamic_cast<EBPedestalOnlineClient*>(clients_[i]);
1144  if(!produceReports_) ebpoc = 0;
1145 
1146  EBLaserClient* eblc = dynamic_cast<EBLaserClient*>(clients_[i]);
1147  EBPedestalClient* ebpc = dynamic_cast<EBPedestalClient*>(clients_[i]);
1148  EBTestPulseClient* ebtpc = dynamic_cast<EBTestPulseClient*>(clients_[i]);
1149 
1150  EBTimingClient* ebtmc = dynamic_cast<EBTimingClient*>(clients_[i]);
1151  EBTriggerTowerClient* ebtttc = dynamic_cast<EBTriggerTowerClient*>(clients_[i]);
1152 
1153  MonitorElement *me_01, *me_02, *me_03;
1154  MonitorElement *me_04, *me_05;
1155  // MonitorElement *me_f[6], *me_fg[2];
1156  TH2F* h2;
1157  TH2F* h3;
1158 
1159  me = dqmStore_->get( prefixME_ + "/EcalInfo/EBMM DCC" );
1161 
1162  me = dqmStore_->get( prefixME_ + "/EBRawDataTask/" + subdir + "EBRDT L1A FE errors" );
1164 
1165  me = dqmStore_->get(prefixME_ + "/EBRawDataTask/" + subdir + "EBRDT accumulated FE synchronization errors");
1166  oosTrend = UtilsClient::getHisto(me, cloneME_, oosTrend);
1167 
1168  for ( unsigned int i=0; i<superModules_.size(); i++ ) {
1169 
1170  int ism = superModules_[i];
1171 
1172  me = dqmStore_->get( prefixME_ + "/EBOccupancyTask/" + subdir + "EBOT rec hit energy " + Numbers::sEB(ism) );
1173  hot01_[ism-1] = UtilsClient::getHisto( me, cloneME_, hot01_[ism-1] );
1174 
1175  me = dqmStore_->get( prefixME_ + "/EBPedestalOnlineTask/"+ subdir + "Gain12/EBPOT pedestal " + Numbers::sEB(ism) + " G12" );
1176  hpot01_[ism-1] = UtilsClient::getHisto( me, cloneME_, hpot01_[ism-1] );
1177 
1178  me = dqmStore_->get( prefixME_ + "/EBTriggerTowerTask/EBTTT Et map Real Digis " + Numbers::sEB(ism) );
1179  httt01_[ism-1] = UtilsClient::getHisto( me, cloneME_, httt01_[ism-1] );
1180 
1181  me = dqmStore_->get( prefixME_ + "/EBTimingTask/EBTMT timing " + Numbers::sEB(ism) );
1182  htmt01_[ism-1] = UtilsClient::getHisto( me, cloneME_, htmt01_[ism-1] );
1183 
1184  for ( int ie = 1; ie <= 85; ie++ ) {
1185  for ( int ip = 1; ip <= 20; ip++ ) {
1186 
1187  if ( ebic ) {
1188 
1189  me = ebic->meg01_[ism-1];
1190 
1191  if ( me ) {
1192 
1193  float xval = me->getBinContent( ie, ip );
1194 
1195  int iex;
1196  int ipx;
1197 
1198  if ( ism <= 18 ) {
1199  iex = 1+(85-ie);
1200  ipx = ip+20*(ism-1);
1201  } else {
1202  iex = 85+ie;
1203  ipx = 1+(20-ip)+20*(ism-19);
1204  }
1205 
1206  if(meIntegrity_) meIntegrity_->setBinContent( ipx, iex, xval );
1207  if( xval == 0 && meIntegrityErr_) meIntegrityErr_->Fill( ism );
1208 
1209  }
1210 
1211  h2 = ebic->h_[ism-1];
1212 
1213  if ( h2 ) {
1214 
1215  float xval = h2->GetBinContent( ie, ip );
1216 
1217  int iex;
1218  int ipx;
1219 
1220  if ( ism <= 18 ) {
1221  iex = 1+(85-ie);
1222  ipx = ip+20*(ism-1);
1223  } else {
1224  iex = 85+ie;
1225  ipx = 1+(20-ip)+20*(ism-19);
1226  }
1227 
1228  if(meOccupancy_) meOccupancy_->setBinContent( ipx, iex, xval );
1229  if ( xval != 0 && meOccupancy1D_) meOccupancy1D_->Fill( ism, xval );
1230 
1231  }
1232 
1233  }
1234 
1235  if ( ebpoc ) {
1236 
1237  me = ebpoc->meg03_[ism-1];
1238 
1239  if ( me ) {
1240 
1241  int iex;
1242  int ipx;
1243 
1244  if ( ism <= 18 ) {
1245  iex = 1+(85-ie);
1246  ipx = ip+20*(ism-1);
1247  } else {
1248  iex = 85+ie;
1249  ipx = 1+(20-ip)+20*(ism-19);
1250  }
1251 
1252  float xval = me->getBinContent( ie, ip );
1253 
1254  if(mePedestalOnline_) mePedestalOnline_->setBinContent( ipx, iex, xval );
1255  if ( xval == 0 && mePedestalOnlineErr_ ) mePedestalOnlineErr_->Fill( ism );
1256 
1257  }
1258 
1259  float num01, mean01, rms01;
1260  bool update01 = UtilsClient::getBinStatistics(hpot01_[ism-1], ie, ip, num01, mean01, rms01);
1261 
1262  if ( update01 ) {
1263 
1264  int iex;
1265  int ipx;
1266 
1267  if ( ism <= 18 ) {
1268  iex = 1+(85-ie);
1269  ipx = ip+20*(ism-1);
1270  } else {
1271  iex = 85+ie;
1272  ipx = 1+(20-ip)+20*(ism-19);
1273  }
1274 
1276 
1277  if(mePedestalOnlineRMS_) mePedestalOnlineRMS_->Fill( ism, rms01 );
1278 
1279  if(mePedestalOnlineMean_) mePedestalOnlineMean_->Fill( ism, mean01 );
1280 
1281  }
1282 
1283  }
1284 
1285  if ( eblc ) {
1286 
1287  int iex;
1288  int ipx;
1289 
1290  if ( ism <= 18 ) {
1291  iex = 1+(85-ie);
1292  ipx = ip+20*(ism-1);
1293  } else {
1294  iex = 85+ie;
1295  ipx = 1+(20-ip)+20*(ism-19);
1296  }
1297 
1298  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
1299 
1300  me = eblc->meg01_[ism-1];
1301 
1302  if ( me ) {
1303 
1304  float xval = me->getBinContent( ie, ip );
1305 
1306  if ( me->getEntries() != 0 ) {
1307  meLaserL1_->setBinContent( ipx, iex, xval );
1308  if ( xval == 0 ) meLaserL1Err_->Fill( ism );
1309  }
1310 
1311  }
1312 
1313  }
1314 
1315  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
1316 
1317  me = eblc->meg02_[ism-1];
1318 
1319  if ( me ) {
1320 
1321  float xval = me->getBinContent( ie, ip );
1322 
1323  if ( me->getEntries() != 0 ) {
1324  meLaserL2_->setBinContent( ipx, iex, xval );
1325  if ( xval == 0 ) meLaserL2Err_->Fill( ism );
1326  }
1327 
1328  }
1329 
1330  }
1331 
1332  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
1333 
1334  me = eblc->meg03_[ism-1];
1335 
1336  if ( me ) {
1337 
1338  float xval = me->getBinContent( ie, ip );
1339 
1340  if ( me->getEntries() != 0 ) {
1341  meLaserL3_->setBinContent( ipx, iex, xval );
1342  if ( xval == 0 ) meLaserL3Err_->Fill( ism );
1343  }
1344 
1345  }
1346 
1347  }
1348 
1349  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
1350 
1351  me = eblc->meg04_[ism-1];
1352 
1353  if ( me ) {
1354 
1355  float xval = me->getBinContent( ie, ip );
1356 
1357  if ( me->getEntries() != 0 ) {
1358  meLaserL4_->setBinContent( ipx, iex, xval );
1359  if ( xval == 0 ) meLaserL4Err_->Fill( ism );
1360  }
1361 
1362  }
1363 
1364  }
1365 
1366  }
1367 
1368  if ( ebpc ) {
1369 
1370  me_01 = ebpc->meg01_[ism-1];
1371  me_02 = ebpc->meg02_[ism-1];
1372  me_03 = ebpc->meg03_[ism-1];
1373 
1374  int iex;
1375  int ipx;
1376 
1377  if ( ism <= 18 ) {
1378  iex = 1+(85-ie);
1379  ipx = ip+20*(ism-1);
1380  } else {
1381  iex = 85+ie;
1382  ipx = 1+(20-ip)+20*(ism-19);
1383  }
1384 
1385  if ( me_01 ) {
1386  float val_01=me_01->getBinContent(ie,ip);
1387  if ( me_01->getEntries() != 0 ) mePedestalG01_->setBinContent( ipx, iex, val_01 );
1388  }
1389  if ( me_02 ) {
1390  float val_02=me_02->getBinContent(ie,ip);
1391  if ( me_02->getEntries() != 0 ) mePedestalG06_->setBinContent( ipx, iex, val_02 );
1392  }
1393  if ( me_03 ) {
1394  float val_03=me_03->getBinContent(ie,ip);
1395  if ( me_03->getEntries() != 0 ) mePedestalG12_->setBinContent( ipx, iex, val_03 );
1396  }
1397 
1398  }
1399 
1400  if ( ebtpc ) {
1401 
1402  me_01 = ebtpc->meg01_[ism-1];
1403  me_02 = ebtpc->meg02_[ism-1];
1404  me_03 = ebtpc->meg03_[ism-1];
1405 
1406  int iex;
1407  int ipx;
1408 
1409  if ( ism <= 18 ) {
1410  iex = 1+(85-ie);
1411  ipx = ip+20*(ism-1);
1412  } else {
1413  iex = 85+ie;
1414  ipx = 1+(20-ip)+20*(ism-19);
1415  }
1416 
1417  if ( me_01 ) {
1418 
1419  float val_01=me_01->getBinContent(ie,ip);
1420 
1421  if ( me_01->getEntries() != 0 ) meTestPulseG01_->setBinContent( ipx, iex, val_01 );
1422 
1423  }
1424  if ( me_02 ) {
1425 
1426  float val_02=me_02->getBinContent(ie,ip);
1427 
1428  if ( me_02->getEntries() != 0 ) meTestPulseG06_->setBinContent( ipx, iex, val_02 );
1429 
1430  }
1431  if ( me_03 ) {
1432 
1433  float val_03=me_03->getBinContent(ie,ip);
1434 
1435  if ( me_03->getEntries() != 0 ) meTestPulseG12_->setBinContent( ipx, iex, val_03 );
1436 
1437  }
1438 
1439 
1440  }
1441 
1442  if ( hot01_[ism-1] ) {
1443 
1444  float xval = hot01_[ism-1]->GetBinContent( ie, ip );
1445 
1446  int iex;
1447  int ipx;
1448 
1449  if ( ism <= 18 ) {
1450  iex = 1+(85-ie);
1451  ipx = ip+20*(ism-1);
1452  } else {
1453  iex = 85+ie;
1454  ipx = 1+(20-ip)+20*(ism-19);
1455  }
1456 
1457  if(meRecHitEnergy_) meRecHitEnergy_->setBinContent( ipx, iex, xval );
1458 
1459  }
1460 
1461  if ( ebtmc ) {
1462 
1463  float num02, mean02, rms02;
1464 
1465  bool update02 = UtilsClient::getBinStatistics(htmt01_[ism-1], ie, ip, num02, mean02, rms02, timingNHitThreshold_);
1466 
1467  if ( update02 ) {
1468 
1469  mean02 -= 50.;
1470 
1471  meTimingMean1D_->Fill(mean02);
1472 
1473  meTimingRMS1D_->Fill(rms02);
1474 
1475  meTimingMean_->Fill( ism, mean02 );
1476 
1477  meTimingRMS_->Fill( ism, rms02 );
1478 
1479  }
1480 
1481  }
1482 
1483  }
1484  }
1485 
1486  for (int ie = 1; ie <= 17; ie++ ) {
1487  for (int ip = 1; ip <= 4; ip++ ) {
1488 
1489  int iex;
1490  int ipx;
1491 
1492  if ( ism <= 18 ) {
1493  iex = 1+(17-ie);
1494  ipx = ip+4*(ism-1);
1495  } else {
1496  iex = 17+ie;
1497  ipx = 1+(4-ip)+4*(ism-19);
1498  }
1499 
1500  if ( ebsfc ) {
1501 
1502  me = dqmStore_->get(prefixME_ + "/EcalInfo/EBMM DCC");
1503 
1504  float xval = 6;
1505 
1506  if ( me ) {
1507 
1508  xval = 2;
1509  if ( me->getBinContent( ism ) > 0 ) xval = 1;
1510 
1511  }
1512 
1513  me = ebsfc->meh01_[ism-1];
1514 
1515  if ( me ) {
1516 
1517  if ( me->getBinContent( ie, ip ) > 0 ) xval = 0;
1518 
1519  meStatusFlags_->setBinContent( ipx, iex, xval );
1520 
1521  if ( me->getBinError( ie, ip ) > 0 && me->getBinError( ie, ip ) < 0.1 ) UtilsClient::maskBinContent( meStatusFlags_, ipx, iex );
1522 
1523  if ( xval == 0 ) meStatusFlagsErr_->Fill( ism );
1524 
1525  }
1526 
1527  }
1528 
1529  if ( ebtttc ) {
1530 
1531  float mean01 = 0;
1532  bool hadNonZeroInterest = false;
1533 
1534  if ( httt01_[ism-1] ) {
1535 
1536  mean01 = httt01_[ism-1]->GetBinContent( ie, ip );
1537 
1538  if ( mean01 != 0. ) {
1539  if ( meTriggerTowerEt_ ) meTriggerTowerEt_->setBinContent( ipx, iex, mean01 );
1540  }
1541 
1542  }
1543 
1544  me = ebtttc->me_o01_[ism-1];
1545 
1546  if ( me ) {
1547 
1548  float xval = me->getBinContent( ie, ip );
1549 
1550  if ( xval != 0. ) {
1551  meTriggerTowerTiming_->setBinContent( ipx, iex, xval );
1552  hadNonZeroInterest = true;
1553  }
1554 
1555  }
1556 
1557  me = ebtttc->me_o02_[ism-1];
1558 
1559  if ( me ) {
1560 
1561  float xval = me->getBinContent( ie, ip );
1562 
1563  if ( xval != 0. ) {
1564  meTriggerTowerNonSingleTiming_->setBinContent( ipx, iex, xval );
1565  }
1566 
1567  }
1568 
1569  float xval = 2;
1570  if( mean01 > 0. ) {
1571 
1572  h2 = ebtttc->l01_[ism-1];
1573  h3 = ebtttc->l02_[ism-1];
1574 
1575  if ( h2 && h3 ) {
1576 
1577  // float emulErrorVal = h2->GetBinContent( ie, ip ) + h3->GetBinContent( ie, ip );
1578  float emulErrorVal = h2->GetBinContent( ie, ip );
1579 
1580  if( emulErrorVal > 0.01 * ievt_ && hadNonZeroInterest ) xval = 0;
1581 
1582  }
1583 
1584  if ( xval!=0 && hadNonZeroInterest ) xval = 1;
1585 
1586  }
1587 
1588  meTriggerTowerEmulError_->setBinContent( ipx, iex, xval );
1589 
1590  }
1591 
1592  if ( ebtmc ) {
1593 
1594  if( htmt01_[ism-1] ){
1595 
1596  float num(0.);
1597  bool mask(false);
1598 
1599  for(int ce=1; ce<=5; ce++){
1600  for(int cp=1; cp<=5; cp++){
1601 
1602  int scie = (ie - 1) * 5 + ce;
1603  int scip = (ip - 1) * 5 + cp;
1604 
1605  num += htmt01_[ism-1]->GetBinEntries(htmt01_[ism-1]->GetBin(scie, scip));
1606 
1607  if(Masks::maskChannel(ism, scie, scip, chWarnBit, EcalBarrel)) mask = true;
1608  }
1609  }
1610 
1611  float nHitThreshold(timingNHitThreshold_ * 18.);
1612 
1613  bool update01(false);
1614  float num01, mean01, rms01;
1615  update01 = UtilsClient::getBinStatistics(htmt, ipx, iex, num01, mean01, rms01, nHitThreshold);
1616 
1617  mean01 -= 50.;
1618 
1619  if(!update01){
1620  mean01 = 0.;
1621  rms01 = 0.;
1622  }
1623 
1624  update01 |= num > 1.3 * nHitThreshold;
1625 
1626  float xval = 2.;
1627  if(update01){
1628 
1629  if( std::abs(mean01) > 2. || rms01 > 6. || num > 1.3 * num01) xval = 0.;
1630  else xval = 1.;
1631 
1632  }
1633 
1634  meTiming_->setBinContent( ipx, iex, xval );
1635  if ( mask ) UtilsClient::maskBinContent( meTiming_, ipx, iex );
1636 
1637  }
1638 
1639  }
1640 
1641  }
1642  }
1643 
1644  // PN's summaries
1645  for( int i = 1; i <= 10; i++ ) {
1646  for( int j = 1; j <= 5; j++ ) {
1647 
1648  int ichanx;
1649  int ipseudostripx;
1650 
1651  if(ism<=18) {
1652  ichanx = i;
1653  ipseudostripx = j+5*(ism-1);
1654  } else {
1655  ichanx = i+10;
1656  ipseudostripx = j+5*(ism-19);
1657  }
1658 
1659  if ( ebic ) {
1660 
1661  me_04 = ebic->meg02_[ism-1];
1662  h2 = ebic->hmem_[ism-1];
1663 
1664  if( me_04 ) {
1665 
1666  float xval = me_04->getBinContent(i,j);
1667  if(meIntegrityPN_) meIntegrityPN_->setBinContent( ipseudostripx, ichanx, xval );
1668 
1669  }
1670 
1671  if ( h2 ) {
1672 
1673  float xval = h2->GetBinContent(i,1);
1674  if(meOccupancyPN_) meOccupancyPN_->setBinContent( ipseudostripx, ichanx, xval );
1675 
1676  }
1677 
1678  }
1679 
1680  if ( ebpc ) {
1681 
1682  me_04 = ebpc->meg04_[ism-1];
1683  me_05 = ebpc->meg05_[ism-1];
1684 
1685  if( me_04 ) {
1686  float val_04=me_04->getBinContent(i,1);
1687  mePedestalPNG01_->setBinContent( ipseudostripx, ichanx, val_04 );
1688  }
1689  if( me_05 ) {
1690  float val_05=me_05->getBinContent(i,1);
1691  mePedestalPNG16_->setBinContent( ipseudostripx, ichanx, val_05 );
1692  }
1693 
1694  }
1695 
1696  if ( ebtpc ) {
1697 
1698  me_04 = ebtpc->meg04_[ism-1];
1699  me_05 = ebtpc->meg05_[ism-1];
1700 
1701  if( me_04 ) {
1702  float val_04=me_04->getBinContent(i,1);
1703  meTestPulsePNG01_->setBinContent( ipseudostripx, ichanx, val_04 );
1704  }
1705  if( me_05 ) {
1706  float val_05=me_05->getBinContent(i,1);
1707  meTestPulsePNG16_->setBinContent( ipseudostripx, ichanx, val_05 );
1708  }
1709 
1710  }
1711 
1712  if ( eblc ) {
1713 
1714  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
1715 
1716  me = eblc->meg09_[ism-1];
1717 
1718  if( me ) {
1719 
1720  float xval = me->getBinContent(i,1);
1721 
1722  if ( me->getEntries() != 0 && me->getEntries() != 0 ) {
1723  meLaserL1PN_->setBinContent( ipseudostripx, ichanx, xval );
1724  if ( xval == 0 ) meLaserL1PNErr_->Fill( ism );
1725  }
1726 
1727  }
1728 
1729  }
1730 
1731  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
1732 
1733  me = eblc->meg10_[ism-1];
1734 
1735  if( me ) {
1736 
1737  float xval = me->getBinContent(i,1);
1738 
1739  if ( me->getEntries() != 0 && me->getEntries() != 0 ) {
1740  meLaserL2PN_->setBinContent( ipseudostripx, ichanx, xval );
1741  if ( xval == 0 ) meLaserL2PNErr_->Fill( ism );
1742  }
1743 
1744  }
1745 
1746  }
1747 
1748  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
1749 
1750  me = eblc->meg11_[ism-1];
1751 
1752  if( me ) {
1753 
1754  float xval = me->getBinContent(i,1);
1755 
1756  if ( me->getEntries() != 0 && me->getEntries() != 0 ) {
1757  meLaserL3PN_->setBinContent( ipseudostripx, ichanx, xval );
1758  if ( xval == 0 ) meLaserL3PNErr_->Fill( ism );
1759  }
1760 
1761  }
1762 
1763  }
1764 
1765  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
1766 
1767  me = eblc->meg12_[ism-1];
1768 
1769  if( me ) {
1770 
1771  float xval = me->getBinContent(i,1);
1772 
1773  if ( me->getEntries() != 0 && me->getEntries() != 0 ) {
1774  meLaserL4PN_->setBinContent( ipseudostripx, ichanx, xval );
1775  if ( xval == 0 ) meLaserL4PNErr_->Fill( ism );
1776  }
1777 
1778  }
1779 
1780  }
1781 
1782  }
1783 
1784  }
1785  }
1786 
1787  for(int chan=0; chan<1700; chan++) {
1788 
1789  int ie = (chan)/20 + 1;
1790  int ip = (chan)%20 + 1;
1791 
1792  // laser 1D summaries
1793  if ( eblc ) {
1794 
1795  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
1796 
1797  MonitorElement *meg = eblc->meg01_[ism-1];
1798 
1799  float xval = 2;
1800  if ( meg ) xval = meg->getBinContent( ie, ip );
1801 
1802  // exclude channels without laser data (yellow in the quality map)
1803  if( xval != 2 && xval != 5 ) {
1804 
1805  MonitorElement* mea01 = eblc->mea01_[ism-1];
1806  MonitorElement* met01 = eblc->met01_[ism-1];
1807  MonitorElement* meaopn01 = eblc->meaopn01_[ism-1];
1808 
1809  if( mea01 && met01 && meaopn01 ) {
1810  meLaserL1Ampl_->Fill( ism, mea01->getBinContent( chan+1 ) );
1811  if( met01->getBinContent( chan+1 ) > 0. ) meLaserL1Timing_->Fill( ism, met01->getBinContent( chan+1 ) );
1812  meLaserL1AmplOverPN_->Fill( ism, meaopn01->getBinContent( chan+1 ) );
1813  }
1814 
1815  }
1816 
1817  }
1818 
1819  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
1820 
1821  MonitorElement *meg = eblc->meg02_[ism-1];
1822 
1823  float xval = 2;
1824  if ( meg ) xval = meg->getBinContent( ie, ip );
1825 
1826  // exclude channels without laser data (yellow in the quality map)
1827  if( xval != 2 && xval != 5 ) {
1828 
1829  MonitorElement* mea02 = eblc->mea02_[ism-1];
1830  MonitorElement* met02 = eblc->met02_[ism-1];
1831  MonitorElement* meaopn02 = eblc->meaopn02_[ism-1];
1832 
1833  if( mea02 && met02 && meaopn02 ) {
1834  meLaserL2Ampl_->Fill( ism, mea02->getBinContent( chan+1 ) );
1835  if( met02->getBinContent( chan+1 ) > 0. ) meLaserL2Timing_->Fill( ism, met02->getBinContent( chan+1 ) );
1836  meLaserL2AmplOverPN_->Fill( ism, meaopn02->getBinContent( chan+1 ) );
1837  }
1838 
1839  }
1840 
1841  }
1842 
1843  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
1844 
1845  MonitorElement *meg = eblc->meg03_[ism-1];
1846 
1847  float xval = 2;
1848  if ( meg ) xval = meg->getBinContent( ie, ip );
1849 
1850  // exclude channels without laser data (yellow in the quality map)
1851  if( xval != 2 && xval != 5 ) {
1852 
1853  MonitorElement* mea03 = eblc->mea03_[ism-1];
1854  MonitorElement* met03 = eblc->met03_[ism-1];
1855  MonitorElement* meaopn03 = eblc->meaopn03_[ism-1];
1856 
1857  if( mea03 && met03 && meaopn03 ) {
1858  meLaserL3Ampl_->Fill( ism, mea03->getBinContent( chan+1 ) );
1859  if( met03->getBinContent( chan+1 ) > 0. ) meLaserL3Timing_->Fill( ism, met03->getBinContent( chan+1 ) );
1860  meLaserL3AmplOverPN_->Fill( ism, meaopn03->getBinContent( chan+1 ) );
1861  }
1862 
1863  }
1864 
1865  }
1866 
1867  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
1868 
1869  MonitorElement *meg = eblc->meg04_[ism-1];
1870 
1871  float xval = 2;
1872  if ( meg ) xval = meg->getBinContent( ie, ip );
1873 
1874  // exclude channels without laser data (yellow in the quality map)
1875  if( xval != 2 && xval != 5 ) {
1876 
1877  MonitorElement* mea04 = eblc->mea04_[ism-1];
1878  MonitorElement* met04 = eblc->met04_[ism-1];
1879  MonitorElement* meaopn04 = eblc->meaopn04_[ism-1];
1880 
1881  if( mea04 && met04 && meaopn04 ) {
1882  meLaserL4Ampl_->Fill( ism, mea04->getBinContent( chan+1 ) );
1883  if( met04->getBinContent( chan+1 ) > 0. ) meLaserL4Timing_->Fill( ism, met04->getBinContent( chan+1 ) );
1884  meLaserL4AmplOverPN_->Fill( ism, meaopn04->getBinContent( chan+1 ) );
1885  }
1886 
1887  }
1888 
1889  }
1890 
1891  }
1892 
1893  if ( ebtpc ) {
1894 
1895  MonitorElement *meg01 = ebtpc->meg01_[ism-1];
1896  MonitorElement *meg02 = ebtpc->meg02_[ism-1];
1897  MonitorElement *meg03 = ebtpc->meg03_[ism-1];
1898 
1899  if ( meg01 ) {
1900 
1901  float xval01 = meg01->getBinContent(ie,ip);
1902 
1903  if ( xval01 != 2 && xval01 != 5 ) {
1904 
1905  me = ebtpc->mea01_[ism-1];
1906 
1907  if ( me ) {
1908 
1909  meTestPulseAmplG01_->Fill( ism, me->getBinContent( chan+1 ) );
1910 
1911  }
1912 
1913  }
1914 
1915  }
1916 
1917  if ( meg02 ) {
1918 
1919  float xval02 = meg02->getBinContent(ie,ip);
1920 
1921  if ( xval02 != 2 && xval02 != 5 ) {
1922 
1923  me = ebtpc->mea02_[ism-1];
1924 
1925  if ( me ) {
1926 
1927  meTestPulseAmplG06_->Fill( ism, me->getBinContent( chan+1 ) );
1928 
1929  }
1930 
1931  }
1932 
1933  }
1934 
1935  if ( meg03 ) {
1936 
1937  float xval03 = meg03->getBinContent(ie,ip);
1938 
1939  if ( xval03 != 2 && xval03 != 5 ) {
1940 
1941  me = ebtpc->mea03_[ism-1];
1942 
1943  if ( me ) {
1944 
1945  meTestPulseAmplG12_->Fill( ism, me->getBinContent( chan+1 ) );
1946 
1947  }
1948 
1949  }
1950 
1951  }
1952 
1953  }
1954 
1955  } // loop on channels
1956 
1957  } // loop on SM
1958 
1959  } // loop on clients
1960 
1961  // The global-summary
1962 
1963  int nGlobalErrors = 0;
1964  int nGlobalErrorsEB[36];
1965  int nValidChannels = 0;
1966  int nValidChannelsEB[36];
1967 
1968  for (int i = 0; i < 36; i++) {
1969  nGlobalErrorsEB[i] = 0;
1970  nValidChannelsEB[i] = 0;
1971  }
1972 
1973  for ( int iex = 1; iex <= 170; iex++ ) {
1974  for ( int ipx = 1; ipx <= 360; ipx++ ) {
1975 
1976  if(meGlobalSummary_) {
1977 
1978  int ism = (ipx-1)/20 + 1 ;
1979  if ( iex>85 ) ism+=18;
1980 
1981  int iet = (iex-1)/5 + 1;
1982  int ipt = (ipx-1)/5 + 1;
1983 
1984  float xval = 6;
1985  float val_in = meIntegrity_->getBinContent(ipx,iex);
1986  float val_po = mePedestalOnline_->getBinContent(ipx,iex);
1987  float val_tm = reducedReports_ ? 1. : meTiming_->getBinContent(ipt,iet);
1988  float val_sf = meStatusFlags_->getBinContent((ipx-1)/5+1,(iex-1)/5+1);
1989  float val_ee = reducedReports_ ? 1. : meTriggerTowerEmulError_->getBinContent((ipx-1)/5+1,(iex-1)/5+1); // removed from the global summary temporarily
1990  // float val_ee = 1;
1991 
1992  // combine all the available wavelenghts in unique laser status
1993  // for each laser turn dark color and yellow into bright green
1994  float val_ls_1=2, val_ls_2=2, val_ls_3=2, val_ls_4=2;
1995  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
1996  if ( meLaserL1_ ) val_ls_1 = meLaserL1_->getBinContent(ipx,iex);
1997  if(val_ls_1==2 || val_ls_1==3 || val_ls_1==4 || val_ls_1==5) val_ls_1=1;
1998  }
1999  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
2000  if ( meLaserL2_ ) val_ls_2 = meLaserL2_->getBinContent(ipx,iex);
2001  if(val_ls_2==2 || val_ls_2==3 || val_ls_2==4 || val_ls_2==5) val_ls_2=1;
2002  }
2003  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
2004  if ( meLaserL3_ ) val_ls_3 = meLaserL3_->getBinContent(ipx,iex);
2005  if(val_ls_3==2 || val_ls_3==3 || val_ls_3==4 || val_ls_3==5) val_ls_3=1;
2006  }
2007  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
2008  if ( meLaserL4_ ) val_ls_4 = meLaserL4_->getBinContent(ipx,iex);
2009  if(val_ls_4==2 || val_ls_4==3 || val_ls_4==4 || val_ls_4==5) val_ls_4=1;
2010  }
2011 
2012  float val_ls = 1;
2013  if (val_ls_1 == 0 || val_ls_2==0 || val_ls_3==0 || val_ls_4==0) val_ls=0;
2014 
2015  // DO NOT CONSIDER CALIBRATION EVENTS IN THE REPORT SUMMARY UNTIL LHC COLLISIONS
2016  val_ls = 1;
2017 
2018  // turn each dark color (masked channel) to bright green
2019  // for laser & timing & trigger turn also yellow into bright green
2020  // for pedestal online too because is not computed in calibration events
2021 
2022  // 0/3 = red/dark red
2023  // 1/4 = green/dark green
2024  // 2/5 = yellow/dark yellow
2025  // 6 = unknown
2026 
2027  if( val_in==3 || val_in==4 || val_in==5) val_in=1;
2028  if(val_po==2 || val_po==3 || val_po==4 || val_po==5) val_po=1;
2029  if(val_tm==2 || val_tm==3 || val_tm==4 || val_tm==5) val_tm=1;
2030  if( val_sf==3 || val_sf==4 || val_sf==5) val_sf=1;
2031  if(val_ee==2 || val_ee==3 || val_ee==4 || val_ee==5) val_ee=1;
2032 
2033  if(val_in==6) xval=6;
2034  else if(val_in==0) xval=0;
2035  else if(val_po==0 || val_ls==0 || val_tm==0 || val_sf==0 || val_ee==0) xval=0;
2036  else if(val_po==2 || val_ls==2 || val_tm==2 || val_sf==2 || val_ee==2) xval=2;
2037  else xval=1;
2038 
2039  // if the SM is entirely not read, the masked channels
2040  // are reverted back to yellow
2041  float iEntries=0;
2042 
2043  if(norm01_ && synch01_) {
2044  float frac_synch_errors = 0.;
2045  float norm = norm01_->GetBinContent(ism);
2046  if(norm > 0) frac_synch_errors = float(synch01_->GetBinContent(ism))/float(norm);
2047  if(frac_synch_errors > synchErrorThreshold_){
2048  xval = 0;
2049  if(oosTrend && oosTrend->GetBinContent(oosTrend->GetNbinsX()) - oosTrend->GetBinContent(1) < 1.) xval += 3.;
2050  }
2051  }
2052 
2053  std::vector<int>::iterator iter = find(superModules_.begin(), superModules_.end(), ism);
2054  if (iter != superModules_.end()) {
2055  for ( unsigned int i=0; i<clients_.size(); i++ ) {
2056  EBIntegrityClient* ebic = dynamic_cast<EBIntegrityClient*>(clients_[i]);
2057  if ( ebic ) {
2058  TH2F* h2 = ebic->h_[ism-1];
2059  if ( h2 ) {
2060  iEntries = h2->GetEntries();
2061  }
2062  }
2063  }
2064  }
2065 
2066  if ( iEntries==0 ) {
2067  xval=2;
2068  }
2069 
2070  meGlobalSummary_->setBinContent( ipx, iex, xval );
2071 
2072  if ( xval >= 0 && xval <= 5 ) {
2073  if ( xval != 2 && xval != 5 ) ++nValidChannels;
2074  if ( iex <= 85 ) {
2075  if ( xval != 2 && xval != 5 ) ++nValidChannelsEB[(ipx-1)/20];
2076  } else {
2077  if ( xval != 2 && xval != 5 ) ++nValidChannelsEB[18+(ipx-1)/20];
2078  }
2079  if ( xval == 0 ) ++nGlobalErrors;
2080  if ( iex <= 85 ) {
2081  if ( xval == 0 ) ++nGlobalErrorsEB[(ipx-1)/20];
2082  } else {
2083  if ( xval == 0 ) ++nGlobalErrorsEB[18+(ipx-1)/20];
2084  }
2085  }
2086 
2087  }
2088 
2089  }
2090  }
2091 
2092  if(meSummaryErr_)
2093  meSummaryErr_->setBinContent(1, double(nGlobalErrors) / double(nValidChannels));
2094 
2095  float reportSummary = -1.0;
2096  if ( nValidChannels != 0 )
2097  reportSummary = 1.0 - float(nGlobalErrors)/float(nValidChannels);
2098  me = dqmStore_->get(prefixME_ + "/EventInfo/reportSummary");
2099  if ( me )
2100  me->Fill(reportSummary);
2101 
2102  for (int i = 0; i < 36; i++) {
2103  float reportSummaryEB = -1.0;
2104  if ( nValidChannelsEB[i] != 0 )
2105  reportSummaryEB = 1.0 - float(nGlobalErrorsEB[i])/float(nValidChannelsEB[i]);
2106  me = dqmStore_->get(prefixME_ + "/EventInfo/reportSummaryContents/EcalBarrel_" + Numbers::sEB(i+1));
2107  if ( me ) me->Fill(reportSummaryEB);
2108  }
2109 
2110  if(meGlobalSummary_){
2111 
2112  me = dqmStore_->get(prefixME_ + "/EventInfo/reportSummaryMap");
2113  if ( me ) {
2114 
2115  int nValidChannelsTT[72][34];
2116  int nGlobalErrorsTT[72][34];
2117  for ( int iettx = 0; iettx < 34; iettx++ ) {
2118  for ( int ipttx = 0; ipttx < 72; ipttx++ ) {
2119  nValidChannelsTT[ipttx][iettx] = 0;
2120  nGlobalErrorsTT[ipttx][iettx] = 0;
2121  }
2122  }
2123 
2124  for ( int iex = 1; iex <= 170; iex++ ) {
2125  for ( int ipx = 1; ipx <= 360; ipx++ ) {
2126 
2127  int iettx = (iex-1)/5+1;
2128  int ipttx = (ipx-1)/5+1;
2129 
2130  float xval = meGlobalSummary_->getBinContent( ipx, iex );
2131 
2132  if ( xval >= 0 && xval <= 5 ) {
2133  if ( xval != 2 && xval != 5 ) ++nValidChannelsTT[ipttx-1][iettx-1];
2134  if ( xval == 0 ) ++nGlobalErrorsTT[ipttx-1][iettx-1];
2135  }
2136 
2137  }
2138  }
2139 
2140  // Countermeasure to partial TR failure
2141  // make the whole SM red if more than 2 towers within a 2x2 matrix fails
2142 
2143  for(int jeta(1); jeta <= 33; jeta++){
2144  for(int jphi(1); jphi <= 71; jphi++){
2145  int nErr(0);
2146  if(nValidChannelsTT[jphi - 1][jeta - 1] > 0 && nGlobalErrorsTT[jphi - 1][jeta - 1] == nValidChannelsTT[jphi - 1][jeta - 1]) nErr += 1;
2147  if(nValidChannelsTT[jphi][jeta - 1] > 0 && nGlobalErrorsTT[jphi][jeta - 1] == nValidChannelsTT[jphi][jeta - 1]) nErr += 1;
2148  if(nValidChannelsTT[jphi - 1][jeta] > 0 && nGlobalErrorsTT[jphi - 1][jeta] == nValidChannelsTT[jphi - 1][jeta]) nErr += 1;
2149  if(nValidChannelsTT[jphi][jeta] > 0 && nGlobalErrorsTT[jphi][jeta] == nValidChannelsTT[jphi][jeta]) nErr += 1;
2150  if(nErr > 2){
2151  int jphi0(((jphi - 1) / 4) * 4);
2152  int jeta0(((jeta - 1) / 17) * 17);
2153  for(int jjphi(jphi0); jjphi < jphi0 + 4; jjphi++){
2154  for(int jjeta(jeta0); jjeta < jeta0 + 17; jjeta++){
2155  nGlobalErrorsTT[jjphi][jjeta] = nValidChannelsTT[jjphi][jjeta];
2156  }
2157  }
2158  }
2159  }
2160  }
2161 
2162  for ( int iettx = 0; iettx < 34; iettx++ ) {
2163  for ( int ipttx = 0; ipttx < 72; ipttx++ ) {
2164 
2165  float xval = -1.0;
2166  if ( nValidChannelsTT[ipttx][iettx] != 0 )
2167  xval = 1.0 - float(nGlobalErrorsTT[ipttx][iettx])/float(nValidChannelsTT[ipttx][iettx]);
2168 
2169  me->setBinContent( ipttx+1, iettx+1, xval );
2170  }
2171  }
2172 
2173  }
2174 
2175  }
2176 
2177 }
MonitorElement * mea02_[36]
MonitorElement * meg12_[36]
MonitorElement * mePedestalOnlineRMS_
MonitorElement * meLaserL4PNErr_
int i
Definition: DBlmapReader.cc:9
MonitorElement * meOccupancyPN_
MonitorElement * meRecHitEnergy_
MonitorElement * meg09_[36]
MonitorElement * meTriggerTowerEt_
void setBinContent(int binx, double content)
set content of bin (1-D)
static bool maskChannel(int ism, int i1, int i2, uint32_t bits, const EcalSubdetector subdet)
Definition: Masks.cc:57
MonitorElement * meLaserL3_
MonitorElement * meTestPulseAmplG01_
MonitorElement * meg03_[36]
MonitorElement * me_o02_[36]
TProfile2D * hot01_[36]
MonitorElement * meg02_[36]
TProfile2D * httt01_[36]
MonitorElement * meg05_[36]
MonitorElement * meTestPulseG12_
static const int PHYSICS_BAD_CHANNEL_WARNING
MonitorElement * meLaserL4AmplOverPN_
MonitorElement * meg04_[36]
static T getHisto(const MonitorElement *me, bool clone=false, T ret=0)
Returns the histogram contained by the Monitor Element.
Definition: UtilsClient.h:89
MonitorElement * mePedestalPNG01_
MonitorElement * met02_[36]
MonitorElement * meLaserL1Timing_
MonitorElement * meTimingMean_
static std::string sEB(const unsigned ism)
Definition: Numbers.cc:91
MonitorElement * meStatusFlagsErr_
MonitorElement * meLaserL1_
MonitorElement * meg02_[36]
MonitorElement * meg03_[36]
MonitorElement * mea01_[36]
MonitorElement * meIntegrity_
MonitorElement * meg02_[36]
MonitorElement * meg01_[36]
MonitorElement * mePedestalOnlineErr_
MonitorElement * mePedestalG06_
MonitorElement * meOccupancy_
MonitorElement * meTestPulseAmplG12_
MonitorElement * meLaserL3Timing_
std::vector< int > superModules_
std::vector< int > laserWavelengths_
double getEntries(void) const
get # of entries
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
static void maskBinContent(const MonitorElement *me, const int ix, const int iy)
Mask the bin content.
Definition: UtilsClient.cc:231
MonitorElement * mea03_[36]
MonitorElement * met04_[36]
MonitorElement * meLaserL2Err_
MonitorElement * meLaserL2_
MonitorElement * meg04_[36]
void Fill(long long x)
MonitorElement * meLaserL3Ampl_
MonitorElement * meTestPulsePNG16_
MonitorElement * mea02_[36]
MonitorElement * mePedestalG01_
MonitorElement * meg10_[36]
MonitorElement * meIntegrityErr_
MonitorElement * meSummaryErr_
MonitorElement * meLaserL3PNErr_
MonitorElement * meg01_[36]
MonitorElement * meLaserL2PN_
MonitorElement * meTestPulsePNG01_
MonitorElement * meLaserL4Timing_
MonitorElement * meLaserL2AmplOverPN_
MonitorElement * meTimingRMS_
std::string prefixME_
MonitorElement * meIntegrityPN_
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
MonitorElement * mea04_[36]
TProfile2D * hpot01_[36]
MonitorElement * meLaserL3Err_
MonitorElement * meLaserL4Err_
MonitorElement * meh01_[36]
MonitorElement * meg04_[36]
MonitorElement * meTimingRMS1D_
MonitorElement * meOccupancy1D_
void setEntries(double nentries)
set # of entries
MonitorElement * meTriggerTowerEmulError_
MonitorElement * get(const std::string &path) const
get ME from full pathname (e.g. &quot;my/long/dir/my_histo&quot;)
Definition: DQMStore.cc:1624
MonitorElement * met03_[36]
MonitorElement * meTriggerTowerTiming_
static bool getBinStatistics(TH1 *histo, const int ix, const int iy, float &num, float &mean, float &rms, float minEntries=1.)
Returns true if the bin contains good statistical data.
Definition: UtilsClient.cc:74
DQMStore * dqmStore_
MonitorElement * meLaserL3PN_
MonitorElement * meLaserL3AmplOverPN_
MonitorElement * meaopn04_[36]
MonitorElement * meLaserL4PN_
MonitorElement * meLaserL2Timing_
MonitorElement * meaopn01_[36]
MonitorElement * meTimingMean1D_
MonitorElement * me_o01_[36]
MonitorElement * meTiming_
MonitorElement * meg03_[36]
MonitorElement * meLaserL1AmplOverPN_
MonitorElement * mePedestalOnlineRMSMap_
MonitorElement * meg11_[36]
MonitorElement * meLaserL4Ampl_
MonitorElement * meLaserL1Err_
MonitorElement * mea01_[36]
MonitorElement * mea03_[36]
MonitorElement * meLaserL4_
MonitorElement * meg01_[36]
MonitorElement * meTestPulseAmplG06_
double getBinContent(int binx) const
get content of bin (1-D)
MonitorElement * mePedestalOnline_
MonitorElement * meGlobalSummary_
MonitorElement * meStatusFlags_
MonitorElement * meLaserL1PN_
MonitorElement * meLaserL2PNErr_
MonitorElement * meTestPulseG06_
MonitorElement * meTestPulseG01_
tuple cout
Definition: gather_cfg.py:121
MonitorElement * meLaserL1Ampl_
MonitorElement * meg05_[36]
float synchErrorThreshold_
MonitorElement * meLaserL1PNErr_
MonitorElement * meg02_[36]
MonitorElement * meg03_[36]
MonitorElement * meg01_[36]
MonitorElement * meaopn02_[36]
int ism(int ieta, int iphi)
Definition: EcalPyUtils.cc:56
MonitorElement * meaopn03_[36]
void Reset(void)
reset ME (ie. contents, errors, etc)
MonitorElement * meLaserL2Ampl_
std::vector< EBClient * > clients_
MonitorElement * mePedestalG12_
TProfile2D * htmt01_[36]
MonitorElement * met01_[36]
std::string subfolder_
MonitorElement * meTriggerTowerNonSingleTiming_
MonitorElement * mePedestalOnlineMean_
MonitorElement * mePedestalPNG16_
void EBSummaryClient::beginJob ( void  )
virtual

BeginJob.

Implements EBClient.

Definition at line 177 of file EBSummaryClient.cc.

References gather_cfg::cout, debug_, dqmStore_, ievt_, jevt_, and cppFunctionSkipper::operator.

Referenced by EcalBarrelMonitorClient::beginJob().

177  {
178 
180 
181  if ( debug_ ) std::cout << "EBSummaryClient: beginJob" << std::endl;
182 
183  ievt_ = 0;
184  jevt_ = 0;
185 
186 }
DQMStore * dqmStore_
tuple cout
Definition: gather_cfg.py:121
void EBSummaryClient::beginRun ( void  )
virtual

BeginRun.

Implements EBClient.

Definition at line 188 of file EBSummaryClient.cc.

References gather_cfg::cout, debug_, jevt_, and setup().

Referenced by EcalBarrelMonitorClient::beginRun().

188  {
189 
190  if ( debug_ ) std::cout << "EBSummaryClient: beginRun" << std::endl;
191 
192  jevt_ = 0;
193 
194  this->setup();
195 
196 }
void setup(void)
Setup.
tuple cout
Definition: gather_cfg.py:121
void EBSummaryClient::cleanup ( void  )
virtual

Cleanup.

Implements EBClient.

Definition at line 771 of file EBSummaryClient.cc.

References cloneME_, dqmStore_, enableCleanup_, MonitorElement::getName(), hpot01_, httt01_, i, ecalpyutils::ism(), meGlobalSummary_, meIntegrity_, meIntegrityErr_, meIntegrityPN_, meLaserL1_, meLaserL1Ampl_, meLaserL1AmplOverPN_, meLaserL1Err_, meLaserL1PN_, meLaserL1PNErr_, meLaserL1Timing_, meLaserL2_, meLaserL2Ampl_, meLaserL2AmplOverPN_, meLaserL2Err_, meLaserL2PN_, meLaserL2PNErr_, meLaserL2Timing_, meLaserL3_, meLaserL3Ampl_, meLaserL3AmplOverPN_, meLaserL3Err_, meLaserL3PN_, meLaserL3PNErr_, meLaserL3Timing_, meLaserL4_, meLaserL4Ampl_, meLaserL4AmplOverPN_, meLaserL4Err_, meLaserL4PN_, meLaserL4PNErr_, meLaserL4Timing_, meOccupancy1D_, meOccupancy_, meOccupancyPN_, mePedestalG01_, mePedestalG06_, mePedestalG12_, mePedestalOnline_, mePedestalOnlineErr_, mePedestalOnlineMean_, mePedestalOnlineRMS_, mePedestalOnlineRMSMap_, meRecHitEnergy_, meStatusFlags_, meStatusFlagsErr_, meSummaryErr_, meTestPulseAmplG01_, meTestPulseAmplG06_, meTestPulseAmplG12_, meTestPulseG01_, meTestPulseG06_, meTestPulseG12_, meTiming_, meTimingMean1D_, meTimingMean_, meTimingRMS1D_, meTimingRMS_, meTriggerTowerEmulError_, meTriggerTowerEt_, meTriggerTowerNonSingleTiming_, meTriggerTowerTiming_, prefixME_, DQMStore::removeElement(), DQMStore::setCurrentFolder(), and superModules_.

Referenced by endJob(), and endRun().

771  {
772 
773  if ( ! enableCleanup_ ) return;
774 
775  for ( unsigned int i=0; i<superModules_.size(); i++ ) {
776 
777  int ism = superModules_[i];
778 
779  if ( cloneME_ ) {
780  if ( hpot01_[ism-1] ) delete hpot01_[ism-1];
781  if ( httt01_[ism-1] ) delete httt01_[ism-1];
782  }
783 
784  hpot01_[ism-1] = 0;
785  httt01_[ism-1] = 0;
786 
787  }
788 
789  dqmStore_->setCurrentFolder( prefixME_ + "/EBSummaryClient" );
790 
792  meIntegrity_ = 0;
793 
795  meIntegrityErr_ = 0;
796 
798  meIntegrityPN_ = 0;
799 
801  meOccupancy_ = 0;
802 
804  meOccupancy1D_ = 0;
805 
807  meOccupancyPN_ = 0;
808 
810  meStatusFlags_ = 0;
811 
813  meStatusFlagsErr_ = 0;
814 
816  mePedestalOnline_ = 0;
817 
820 
823 
826 
829 
831  meLaserL1_ = 0;
832 
834  meLaserL1Err_ = 0;
835 
837  meLaserL1Ampl_ = 0;
838 
840  meLaserL1Timing_ = 0;
841 
844 
846  meLaserL1PN_ = 0;
847 
849  meLaserL1PNErr_ = 0;
850 
852  meLaserL2_ = 0;
853 
855  meLaserL2Err_ = 0;
856 
858  meLaserL2Ampl_ = 0;
859 
861  meLaserL2Timing_ = 0;
862 
865 
867  meLaserL2PN_ = 0;
868 
870  meLaserL2PNErr_ = 0;
871 
873  meLaserL3_ = 0;
874 
876  meLaserL3Err_ = 0;
877 
879  meLaserL3Ampl_ = 0;
880 
882  meLaserL3Timing_ = 0;
883 
886 
888  meLaserL3PN_ = 0;
889 
891  meLaserL3PNErr_ = 0;
892 
894  meLaserL4_ = 0;
895 
897  meLaserL4Err_ = 0;
898 
900  meLaserL4Ampl_ = 0;
901 
903  meLaserL4Timing_ = 0;
904 
907 
909  meLaserL4PN_ = 0;
910 
912  meLaserL4PNErr_ = 0;
913 
915  mePedestalG01_ = 0;
916 
918  mePedestalG06_ = 0;
919 
921  mePedestalG12_ = 0;
922 
924  meTestPulseG01_ = 0;
925 
927  meTestPulseG06_ = 0;
928 
930  meTestPulseG12_ = 0;
931 
933  meTestPulseG01_ = 0;
934 
937 
940 
943 
945  meRecHitEnergy_ = 0;
946 
948  meTiming_ = 0;
949 
951  meTimingMean1D_ = 0;
952 
954  meTimingRMS1D_ = 0;
955 
957  meTimingMean_ = 0;
958 
960  meTimingRMS_ = 0;
961 
963  meTriggerTowerEt_ = 0;
964 
967 
970 
973 
975  meGlobalSummary_ = 0;
976 
978  meSummaryErr_ = 0;
979 }
MonitorElement * mePedestalOnlineRMS_
MonitorElement * meLaserL4PNErr_
const std::string & getName(void) const
get name of ME
int i
Definition: DBlmapReader.cc:9
MonitorElement * meOccupancyPN_
MonitorElement * meRecHitEnergy_
MonitorElement * meTriggerTowerEt_
MonitorElement * meLaserL3_
MonitorElement * meTestPulseAmplG01_
TProfile2D * httt01_[36]
MonitorElement * meTestPulseG12_
MonitorElement * meLaserL4AmplOverPN_
MonitorElement * meLaserL1Timing_
MonitorElement * meTimingMean_
MonitorElement * meStatusFlagsErr_
MonitorElement * meLaserL1_
MonitorElement * meIntegrity_
MonitorElement * mePedestalOnlineErr_
MonitorElement * mePedestalG06_
MonitorElement * meOccupancy_
MonitorElement * meTestPulseAmplG12_
MonitorElement * meLaserL3Timing_
std::vector< int > superModules_
MonitorElement * meLaserL2Err_
MonitorElement * meLaserL2_
MonitorElement * meLaserL3Ampl_
MonitorElement * mePedestalG01_
MonitorElement * meIntegrityErr_
MonitorElement * meSummaryErr_
MonitorElement * meLaserL3PNErr_
MonitorElement * meLaserL2PN_
MonitorElement * meLaserL4Timing_
MonitorElement * meLaserL2AmplOverPN_
void removeElement(const std::string &name)
Definition: DQMStore.cc:2773
MonitorElement * meTimingRMS_
std::string prefixME_
MonitorElement * meIntegrityPN_
TProfile2D * hpot01_[36]
MonitorElement * meLaserL3Err_
MonitorElement * meLaserL4Err_
MonitorElement * meTimingRMS1D_
MonitorElement * meOccupancy1D_
MonitorElement * meTriggerTowerEmulError_
MonitorElement * meTriggerTowerTiming_
DQMStore * dqmStore_
MonitorElement * meLaserL3PN_
MonitorElement * meLaserL3AmplOverPN_
MonitorElement * meLaserL4PN_
MonitorElement * meLaserL2Timing_
MonitorElement * meTimingMean1D_
MonitorElement * meTiming_
MonitorElement * meLaserL1AmplOverPN_
MonitorElement * mePedestalOnlineRMSMap_
MonitorElement * meLaserL4Ampl_
MonitorElement * meLaserL1Err_
MonitorElement * meLaserL4_
MonitorElement * meTestPulseAmplG06_
MonitorElement * mePedestalOnline_
MonitorElement * meGlobalSummary_
MonitorElement * meStatusFlags_
MonitorElement * meLaserL1PN_
MonitorElement * meLaserL2PNErr_
MonitorElement * meTestPulseG06_
MonitorElement * meTestPulseG01_
MonitorElement * meLaserL1Ampl_
MonitorElement * meLaserL1PNErr_
int ism(int ieta, int iphi)
Definition: EcalPyUtils.cc:56
MonitorElement * meLaserL2Ampl_
MonitorElement * mePedestalG12_
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:585
MonitorElement * meTriggerTowerNonSingleTiming_
MonitorElement * mePedestalOnlineMean_
void EBSummaryClient::endJob ( void  )
virtual

EndJob.

Implements EBClient.

Definition at line 198 of file EBSummaryClient.cc.

References cleanup(), gather_cfg::cout, debug_, and ievt_.

Referenced by EcalBarrelMonitorClient::endJob().

198  {
199 
200  if ( debug_ ) std::cout << "EBSummaryClient: endJob, ievt = " << ievt_ << std::endl;
201 
202  this->cleanup();
203 
204 }
void cleanup(void)
Cleanup.
tuple cout
Definition: gather_cfg.py:121
void EBSummaryClient::endRun ( void  )
virtual

EndRun.

Implements EBClient.

Definition at line 206 of file EBSummaryClient.cc.

References cleanup(), gather_cfg::cout, debug_, and jevt_.

Referenced by EcalBarrelMonitorClient::endRun().

206  {
207 
208  if ( debug_ ) std::cout << "EBSummaryClient: endRun, jevt = " << jevt_ << std::endl;
209 
210  this->cleanup();
211 
212 }
void cleanup(void)
Cleanup.
tuple cout
Definition: gather_cfg.py:121
int EBSummaryClient::getEvtPerJob ( void  )
inlinevirtual

Get Functions.

Implements EBClient.

Definition at line 66 of file EBSummaryClient.h.

References ievt_.

66 { return ievt_; }
int EBSummaryClient::getEvtPerRun ( void  )
inlinevirtual

Returns the number of processed events in this Run.

Implements EBClient.

Definition at line 67 of file EBSummaryClient.h.

References jevt_.

67 { return jevt_; }
void EBSummaryClient::setFriends ( const std::vector< EBClient * > &  clients)
inline

Set Clients.

Definition at line 70 of file EBSummaryClient.h.

References clients_.

Referenced by EcalBarrelMonitorClient::EcalBarrelMonitorClient().

70 { clients_ = clients; }
std::vector< EBClient * > clients_
void EBSummaryClient::setup ( void  )
virtual

Setup.

Implements EBClient.

Definition at line 214 of file EBSummaryClient.cc.

References DQMStore::book1D(), DQMStore::book2D(), DQMStore::bookProfile(), clients_, dqmStore_, spr::find(), MonitorElement::getName(), i, IntegrityClient_cfi::integrityClient, LaserClient_cfi::laserClient, laserWavelengths_, meGlobalSummary_, meIntegrity_, meIntegrityErr_, meIntegrityPN_, meLaserL1_, meLaserL1Ampl_, meLaserL1AmplOverPN_, meLaserL1Err_, meLaserL1PN_, meLaserL1PNErr_, meLaserL1Timing_, meLaserL2_, meLaserL2Ampl_, meLaserL2AmplOverPN_, meLaserL2Err_, meLaserL2PN_, meLaserL2PNErr_, meLaserL2Timing_, meLaserL3_, meLaserL3Ampl_, meLaserL3AmplOverPN_, meLaserL3Err_, meLaserL3PN_, meLaserL3PNErr_, meLaserL3Timing_, meLaserL4_, meLaserL4Ampl_, meLaserL4AmplOverPN_, meLaserL4Err_, meLaserL4PN_, meLaserL4PNErr_, meLaserL4Timing_, meOccupancy1D_, meOccupancy_, meOccupancyPN_, mePedestalG01_, mePedestalG06_, mePedestalG12_, mePedestalOnline_, mePedestalOnlineErr_, mePedestalOnlineMean_, mePedestalOnlineRMS_, mePedestalOnlineRMSMap_, mePedestalPNG01_, mePedestalPNG16_, meRecHitEnergy_, meStatusFlags_, meStatusFlagsErr_, meSummaryErr_, meTestPulseAmplG01_, meTestPulseAmplG06_, meTestPulseAmplG12_, meTestPulseG01_, meTestPulseG06_, meTestPulseG12_, meTestPulsePNG01_, meTestPulsePNG16_, meTiming_, meTimingMean1D_, meTimingMean_, meTimingRMS1D_, meTimingRMS_, meTriggerTowerEmulError_, meTriggerTowerEt_, meTriggerTowerNonSingleTiming_, meTriggerTowerTiming_, MGPAGains_, MGPAGainsPN_, mergeVDriftHistosByStation::name, OccupancyClient_cfi::occupancyClient, prefixME_, produceReports_, reducedReports_, DQMStore::removeElement(), Numbers::sEB(), MonitorElement::setAxisTitle(), MonitorElement::setBinLabel(), DQMStore::setCurrentFolder(), AlCaHLTBitMon_QueryRunRegistry::string, and TimingClient_cfi::timingClient.

Referenced by beginRun().

214  {
215 
216  bool integrityClient(false);
217  bool occupancyClient(false);
218  bool statusFlagsClient(false);
219  bool pedestalOnlineClient(false);
220  bool laserClient(false);
221  bool pedestalClient(false);
222  bool testPulseClient(false);
223  bool timingClient(false);
224  bool triggerTowerClient(false);
225 
226  for(unsigned i = 0; i < clients_.size(); i++){
227 
228  if(dynamic_cast<EBIntegrityClient*>(clients_[i])) integrityClient = true;
229  if(dynamic_cast<EBOccupancyClient*>(clients_[i])) occupancyClient = true;
230  if(dynamic_cast<EBStatusFlagsClient*>(clients_[i])) statusFlagsClient = true;
231  if(dynamic_cast<EBPedestalOnlineClient*>(clients_[i])) pedestalOnlineClient = true;
232  if(dynamic_cast<EBLaserClient*>(clients_[i])) laserClient = true;
233  if(dynamic_cast<EBPedestalClient*>(clients_[i])) pedestalClient = true;
234  if(dynamic_cast<EBTestPulseClient*>(clients_[i])) testPulseClient = true;
235  if(dynamic_cast<EBTimingClient*>(clients_[i])) timingClient = true;
236  if(dynamic_cast<EBTriggerTowerClient*>(clients_[i])) triggerTowerClient = true;
237 
238  }
239 
241 
242  dqmStore_->setCurrentFolder( prefixME_ + "/EBSummaryClient" );
243 
244  if(integrityClient){
245  if(produceReports_){
247  name = "EBIT integrity quality summary";
248  meIntegrity_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
249  meIntegrity_->setAxisTitle("jphi", 1);
250  meIntegrity_->setAxisTitle("jeta", 2);
251 
253  name = "EBIT integrity quality errors summary";
254  meIntegrityErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
255  for (int i = 0; i < 36; i++) {
256  meIntegrityErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
257  }
258  }
259  if(laserClient){
261  name = "EBIT PN integrity quality summary";
262  meIntegrityPN_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
263  meIntegrityPN_->setAxisTitle("jchannel", 1);
264  meIntegrityPN_->setAxisTitle("jpseudo-strip", 2);
265  }
266  }
267 
268  if(occupancyClient){
269  if(produceReports_){
271  name = "EBOT digi occupancy summary";
272  meOccupancy_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
273  meOccupancy_->setAxisTitle("jphi", 1);
274  meOccupancy_->setAxisTitle("jeta", 2);
275 
277  name = "EBOT digi occupancy summary 1D";
278  meOccupancy1D_ = dqmStore_->book1D(name, name, 36, 1, 37);
279  for (int i = 0; i < 36; i++) {
280  meOccupancy1D_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
281  }
282 
284  name = "EBOT energy summary";
285  meRecHitEnergy_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
286  meRecHitEnergy_->setAxisTitle("jphi", 1);
287  meRecHitEnergy_->setAxisTitle("jeta", 2);
288  meRecHitEnergy_->setAxisTitle("energy (GeV)", 3);
289  }
290  if(laserClient){
292  name = "EBOT PN digi occupancy summary";
293  meOccupancyPN_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
294  meOccupancyPN_->setAxisTitle("jchannel", 1);
295  meOccupancyPN_->setAxisTitle("jpseudo-strip", 2);
296  }
297 
298  }
299 
300  if(statusFlagsClient && produceReports_){
302  name = "EBSFT front-end status summary";
303  meStatusFlags_ = dqmStore_->book2D(name, name, 72, 0., 72., 34, -17., 17.);
304  meStatusFlags_->setAxisTitle("jphi'", 1);
305  meStatusFlags_->setAxisTitle("jeta'", 2);
306 
308  name = "EBSFT front-end status errors summary";
309  meStatusFlagsErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
310  for (int i = 0; i < 36; i++) {
311  meStatusFlagsErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
312  }
313  }
314 
315  if(pedestalOnlineClient && produceReports_){
317  name = "EBPOT pedestal quality summary G12";
318  mePedestalOnline_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
319  mePedestalOnline_->setAxisTitle("jphi", 1);
320  mePedestalOnline_->setAxisTitle("jeta", 2);
321 
323  name = "EBPOT pedestal quality errors summary G12";
324  mePedestalOnlineErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
325  for (int i = 0; i < 36; i++) {
326  mePedestalOnlineErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
327  }
328 
330  name = "EBPOT pedestal G12 RMS map";
331  mePedestalOnlineRMSMap_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
335 
337  name = "EBPOT pedestal G12 mean";
338  mePedestalOnlineMean_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 150., 250.);
339  for (int i = 0; i < 36; i++) {
340  mePedestalOnlineMean_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
341  }
342 
344  name = "EBPOT pedestal G12 rms";
345  mePedestalOnlineRMS_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 0., 10.);
346  for (int i = 0; i < 36; i++) {
347  mePedestalOnlineRMS_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
348  }
349  }
350 
351  if(laserClient){
352 
353  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 1) != laserWavelengths_.end() ) {
354 
356  name = "EBLT laser quality summary L1";
357  meLaserL1_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
358  meLaserL1_->setAxisTitle("jphi", 1);
359  meLaserL1_->setAxisTitle("jeta", 2);
360 
362  name = "EBLT laser quality errors summary L1";
363  meLaserL1Err_ = dqmStore_->book1D(name, name, 36, 1, 37);
364  for (int i = 0; i < 36; i++) {
365  meLaserL1Err_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
366  }
367 
369  name = "EBLT PN laser quality summary L1";
370  meLaserL1PN_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
371  meLaserL1PN_->setAxisTitle("jchannel", 1);
372  meLaserL1PN_->setAxisTitle("jpseudo-strip", 2);
373 
375  name = "EBLT PN laser quality errors summary L1";
376  meLaserL1PNErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
377  for (int i = 0; i < 36; i++) {
378  meLaserL1PNErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
379  }
380 
382  name = "EBLT laser L1 amplitude summary";
383  meLaserL1Ampl_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096., "s");
384  for (int i = 0; i < 36; i++) {
385  meLaserL1Ampl_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
386  }
387 
389  name = "EBLT laser L1 timing summary";
390  meLaserL1Timing_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 0., 10., "s");
391  for (int i = 0; i < 36; i++) {
392  meLaserL1Timing_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
393  }
394 
396  name = "EBLT laser L1 amplitude over PN summary";
397  meLaserL1AmplOverPN_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
398  for (int i = 0; i < 36; i++) {
399  meLaserL1AmplOverPN_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
400  }
401 
402  }
403 
404  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 2) != laserWavelengths_.end() ) {
405 
407  name = "EBLT laser quality summary L2";
408  meLaserL2_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
409  meLaserL2_->setAxisTitle("jphi", 1);
410  meLaserL2_->setAxisTitle("jeta", 2);
411 
413  name = "EBLT laser quality errors summary L2";
414  meLaserL2Err_ = dqmStore_->book1D(name, name, 36, 1, 37);
415  for (int i = 0; i < 36; i++) {
416  meLaserL2Err_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
417  }
418 
420  name = "EBLT PN laser quality summary L2";
421  meLaserL2PN_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
422  meLaserL2PN_->setAxisTitle("jchannel", 1);
423  meLaserL2PN_->setAxisTitle("jpseudo-strip", 2);
424 
426  name = "EBLT PN laser quality errors summary L2";
427  meLaserL2PNErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
428  for (int i = 0; i < 36; i++) {
429  meLaserL2PNErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
430  }
431 
433  name = "EBLT laser L2 amplitude summary";
434  meLaserL2Ampl_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096., "s");
435  for (int i = 0; i < 36; i++) {
436  meLaserL2Ampl_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
437  }
438 
440  name = "EBLT laser L2 timing summary";
441  meLaserL2Timing_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 0., 10., "s");
442  for (int i = 0; i < 36; i++) {
443  meLaserL2Timing_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
444  }
445 
447  name = "EBLT laser L2 amplitude over PN summary";
448  meLaserL2AmplOverPN_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
449  for (int i = 0; i < 36; i++) {
450  meLaserL2AmplOverPN_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
451  }
452 
453  }
454 
455  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 3) != laserWavelengths_.end() ) {
456 
458  name = "EBLT laser quality summary L3";
459  meLaserL3_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
460  meLaserL3_->setAxisTitle("jphi", 1);
461  meLaserL3_->setAxisTitle("jeta", 2);
462 
464  name = "EBLT laser quality errors summary L3";
465  meLaserL3Err_ = dqmStore_->book1D(name, name, 36, 1, 37);
466  for (int i = 0; i < 36; i++) {
467  meLaserL3Err_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
468  }
469 
471  name = "EBLT PN laser quality summary L3";
472  meLaserL3PN_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
473  meLaserL3PN_->setAxisTitle("jchannel", 1);
474  meLaserL3PN_->setAxisTitle("jpseudo-strip", 2);
475 
477  name = "EBLT PN laser quality errors summary L3";
478  meLaserL3PNErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
479  for (int i = 0; i < 36; i++) {
480  meLaserL3PNErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
481  }
482 
484  name = "EBLT laser L3 amplitude summary";
485  meLaserL3Ampl_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096., "s");
486  for (int i = 0; i < 36; i++) {
487  meLaserL3Ampl_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
488  }
489 
491  name = "EBLT laser L3 timing summary";
492  meLaserL3Timing_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 0., 10., "s");
493  for (int i = 0; i < 36; i++) {
494  meLaserL3Timing_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
495  }
496 
498  name = "EBLT laser L3 amplitude over PN summary";
499  meLaserL3AmplOverPN_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
500  for (int i = 0; i < 36; i++) {
501  meLaserL3AmplOverPN_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
502  }
503 
504  }
505 
506  if ( find(laserWavelengths_.begin(), laserWavelengths_.end(), 4) != laserWavelengths_.end() ) {
507 
509  name = "EBLT laser quality summary L4";
510  meLaserL4_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
511  meLaserL4_->setAxisTitle("jphi", 1);
512  meLaserL4_->setAxisTitle("jeta", 2);
513 
515  name = "EBLT laser quality errors summary L4";
516  meLaserL4Err_ = dqmStore_->book1D(name, name, 36, 1, 37);
517  for (int i = 0; i < 36; i++) {
518  meLaserL4Err_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
519  }
520 
522  name = "EBLT PN laser quality summary L4";
523  meLaserL4PN_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
524  meLaserL4PN_->setAxisTitle("jchannel", 1);
525  meLaserL4PN_->setAxisTitle("jpseudo-strip", 2);
526 
528  name = "EBLT PN laser quality errors summary L4";
529  meLaserL4PNErr_ = dqmStore_->book1D(name, name, 36, 1, 37);
530  for (int i = 0; i < 36; i++) {
531  meLaserL4PNErr_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
532  }
533 
535  name = "EBLT laser L4 amplitude summary";
536  meLaserL4Ampl_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096., "s");
537  for (int i = 0; i < 36; i++) {
538  meLaserL4Ampl_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
539  }
540 
542  name = "EBLT laser L4 timing summary";
543  meLaserL4Timing_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 0., 10., "s");
544  for (int i = 0; i < 36; i++) {
545  meLaserL4Timing_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
546  }
547 
549  name = "EBLT laser L4 amplitude over PN summary";
550  meLaserL4AmplOverPN_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
551  for (int i = 0; i < 36; i++) {
552  meLaserL4AmplOverPN_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
553  }
554 
555  }
556  }
557 
558  if(pedestalClient){
559  if (find(MGPAGains_.begin(), MGPAGains_.end(), 1) != MGPAGains_.end() ) {
560 
562  name = "EBPT pedestal quality G01 summary";
563  mePedestalG01_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
564  mePedestalG01_->setAxisTitle("jphi", 1);
565  mePedestalG01_->setAxisTitle("jeta", 2);
566 
567  }
568 
569  if (find(MGPAGains_.begin(), MGPAGains_.end(), 6) != MGPAGains_.end() ) {
570 
572  name = "EBPT pedestal quality G06 summary";
573  mePedestalG06_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
574  mePedestalG06_->setAxisTitle("jphi", 1);
575  mePedestalG06_->setAxisTitle("jeta", 2);
576 
577  }
578 
579  if (find(MGPAGains_.begin(), MGPAGains_.end(), 12) != MGPAGains_.end() ) {
580 
582  name = "EBPT pedestal quality G12 summary";
583  mePedestalG12_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
584  mePedestalG12_->setAxisTitle("jphi", 1);
585  mePedestalG12_->setAxisTitle("jeta", 2);
586 
587  }
588 
589  if (find(MGPAGainsPN_.begin(), MGPAGainsPN_.end(), 1) != MGPAGainsPN_.end() ) {
590 
592  name = "EBPT PN pedestal quality G01 summary";
593  mePedestalPNG01_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10, 10.);
594  mePedestalPNG01_->setAxisTitle("jchannel", 1);
595  mePedestalPNG01_->setAxisTitle("jpseudo-strip", 2);
596 
597  }
598 
599  if (find(MGPAGainsPN_.begin(), MGPAGainsPN_.end(), 16) != MGPAGainsPN_.end() ) {
600 
602  name = "EBPT PN pedestal quality G16 summary";
603  mePedestalPNG16_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10, 10.);
604  mePedestalPNG16_->setAxisTitle("jchannel", 1);
605  mePedestalPNG16_->setAxisTitle("jpseudo-strip", 2);
606 
607  }
608  }
609 
610  if(testPulseClient){
611  if (find(MGPAGains_.begin(), MGPAGains_.end(), 1) != MGPAGains_.end() ) {
612 
614  name = "EBTPT test pulse quality G01 summary";
615  meTestPulseG01_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
616  meTestPulseG01_->setAxisTitle("jphi", 1);
617  meTestPulseG01_->setAxisTitle("jeta", 2);
618 
619  }
620 
621  if (find(MGPAGains_.begin(), MGPAGains_.end(), 6) != MGPAGains_.end() ) {
622 
624  name = "EBTPT test pulse quality G06 summary";
625  meTestPulseG06_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
626  meTestPulseG06_->setAxisTitle("jphi", 1);
627  meTestPulseG06_->setAxisTitle("jeta", 2);
628 
629  }
630 
631  if (find(MGPAGains_.begin(), MGPAGains_.end(), 12) != MGPAGains_.end() ) {
632 
634  name = "EBTPT test pulse quality G12 summary";
635  meTestPulseG12_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
636  meTestPulseG12_->setAxisTitle("jphi", 1);
637  meTestPulseG12_->setAxisTitle("jeta", 2);
638 
639  }
640 
641  if (find(MGPAGainsPN_.begin(), MGPAGainsPN_.end(), 1) != MGPAGainsPN_.end() ) {
642 
644  name = "EBTPT PN test pulse quality G01 summary";
645  meTestPulsePNG01_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
646  meTestPulsePNG01_->setAxisTitle("jchannel", 1);
647  meTestPulsePNG01_->setAxisTitle("jpseudo-strip", 2);
648 
649  }
650 
651  if (find(MGPAGainsPN_.begin(), MGPAGainsPN_.end(), 16) != MGPAGainsPN_.end() ) {
652 
654  name = "EBTPT PN test pulse quality G16 summary";
655  meTestPulsePNG16_ = dqmStore_->book2D(name, name, 90, 0., 90., 20, -10., 10.);
656  meTestPulsePNG16_->setAxisTitle("jchannel", 1);
657  meTestPulsePNG16_->setAxisTitle("jpseudo-strip", 2);
658 
659  }
660 
661  if (find(MGPAGains_.begin(), MGPAGains_.end(), 1) != MGPAGains_.end() ) {
662 
664  name = "EBTPT test pulse amplitude G01 summary";
665  meTestPulseAmplG01_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
666  for (int i = 0; i < 36; i++) {
667  meTestPulseAmplG01_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
668  }
669 
670  }
671 
672  if (find(MGPAGains_.begin(), MGPAGains_.end(), 6) != MGPAGains_.end() ) {
673 
675  name = "EBTPT test pulse amplitude G06 summary";
676  meTestPulseAmplG06_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
677  for (int i = 0; i < 36; i++) {
678  meTestPulseAmplG06_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
679  }
680 
681  }
682 
683  if (find(MGPAGains_.begin(), MGPAGains_.end(), 12) != MGPAGains_.end() ) {
684 
686  name = "EBTPT test pulse amplitude G12 summary";
687  meTestPulseAmplG12_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 4096, 0., 4096.*12., "s");
688  for (int i = 0; i < 36; i++) {
689  meTestPulseAmplG12_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
690  }
691 
692  }
693  }
694 
695  if(timingClient){
697  name = "EBTMT timing quality summary";
698  meTiming_ = dqmStore_->book2D(name, name, 72, 0., 360., 34, -85., 85.);
699  meTiming_->setAxisTitle("jphi", 1);
700  meTiming_->setAxisTitle("jeta", 2);
701 
703  name = "EBTMT timing mean 1D summary";
704  meTimingMean1D_ = dqmStore_->book1D(name, name, 100, -25., 25.);
705  meTimingMean1D_->setAxisTitle("mean (ns)", 1);
706 
708  name = "EBTMT timing rms 1D summary";
709  meTimingRMS1D_ = dqmStore_->book1D(name, name, 100, 0.0, 10.0);
710  meTimingRMS1D_->setAxisTitle("rms (ns)", 1);
711 
713  name = "EBTMT timing mean";
714  meTimingMean_ = dqmStore_->bookProfile(name, name, 36, 1, 37, -20., 20.,"");
715  for (int i = 0; i < 36; i++) {
716  meTimingMean_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
717  }
718  meTimingMean_->setAxisTitle("mean (ns)", 2);
719 
721  name = "EBTMT timing rms";
722  meTimingRMS_ = dqmStore_->bookProfile(name, name, 36, 1, 37, 100, 0., 10.,"");
723  for (int i = 0; i < 36; i++) {
724  meTimingRMS_->setBinLabel(i+1, Numbers::sEB(i+1).c_str(), 1);
725  }
726  meTimingRMS_->setAxisTitle("rms (ns)", 2);
727  }
728 
729  if(triggerTowerClient){
731  name = "EBTTT Et trigger tower summary";
732  meTriggerTowerEt_ = dqmStore_->book2D(name, name, 72, 0., 72., 34, -17., 17.);
733  meTriggerTowerEt_->setAxisTitle("jphi'", 1);
734  meTriggerTowerEt_->setAxisTitle("jeta'", 2);
735  meTriggerTowerEt_->setAxisTitle("Et (GeV)", 3);
736 
738  name = "EBTTT emulator error quality summary";
739  meTriggerTowerEmulError_ = dqmStore_->book2D(name, name, 72, 0., 72., 34, -17., 17.);
742 
744  name = "EBTTT Trigger Primitives Timing summary";
745  meTriggerTowerTiming_ = dqmStore_->book2D(name, name, 72, 0., 72., 34, -17., 17.);
746  meTriggerTowerTiming_->setAxisTitle("jphi'", 1);
747  meTriggerTowerTiming_->setAxisTitle("jeta'", 2);
748  meTriggerTowerTiming_->setAxisTitle("TP data matching emulator", 3);
749 
751  name = "EBTTT Trigger Primitives Non Single Timing summary";
752  meTriggerTowerNonSingleTiming_ = dqmStore_->book2D(name, name, 72, 0., 72., 34, -17., 17.);
756  }
757 
760  name = "EB global summary";
761  meGlobalSummary_ = dqmStore_->book2D(name, name, 360, 0., 360., 170, -85., 85.);
762  meGlobalSummary_->setAxisTitle("jphi", 1);
763  meGlobalSummary_->setAxisTitle("jeta", 2);
764 
766  name = "EB global summary errors";
767  meSummaryErr_ = dqmStore_->book1D(name, name, 1, 0., 1.);
768  }
769 }
MonitorElement * mePedestalOnlineRMS_
MonitorElement * meLaserL4PNErr_
const std::string & getName(void) const
get name of ME
int i
Definition: DBlmapReader.cc:9
MonitorElement * meOccupancyPN_
MonitorElement * meRecHitEnergy_
MonitorElement * meTriggerTowerEt_
MonitorElement * meLaserL3_
MonitorElement * meTestPulseAmplG01_
MonitorElement * meTestPulseG12_
MonitorElement * book1D(const char *name, const char *title, int nchX, double lowX, double highX)
Book 1D histogram.
Definition: DQMStore.cc:873
MonitorElement * meLaserL4AmplOverPN_
MonitorElement * mePedestalPNG01_
MonitorElement * meLaserL1Timing_
MonitorElement * meTimingMean_
static std::string sEB(const unsigned ism)
Definition: Numbers.cc:91
MonitorElement * meStatusFlagsErr_
MonitorElement * meLaserL1_
MonitorElement * meIntegrity_
void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
MonitorElement * mePedestalOnlineErr_
MonitorElement * mePedestalG06_
MonitorElement * meOccupancy_
MonitorElement * meTestPulseAmplG12_
MonitorElement * meLaserL3Timing_
std::vector< int > laserWavelengths_
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
MonitorElement * meLaserL2Err_
MonitorElement * meLaserL2_
MonitorElement * meLaserL3Ampl_
MonitorElement * meTestPulsePNG16_
MonitorElement * mePedestalG01_
MonitorElement * meIntegrityErr_
MonitorElement * meSummaryErr_
MonitorElement * meLaserL3PNErr_
MonitorElement * meLaserL2PN_
MonitorElement * meTestPulsePNG01_
MonitorElement * meLaserL4Timing_
MonitorElement * meLaserL2AmplOverPN_
void removeElement(const std::string &name)
Definition: DQMStore.cc:2773
MonitorElement * meTimingRMS_
std::string prefixME_
MonitorElement * meIntegrityPN_
MonitorElement * meLaserL3Err_
MonitorElement * meLaserL4Err_
MonitorElement * bookProfile(const char *name, const char *title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, const char *option="s")
Definition: DQMStore.cc:1187
MonitorElement * meTimingRMS1D_
MonitorElement * meOccupancy1D_
MonitorElement * meTriggerTowerEmulError_
MonitorElement * meTriggerTowerTiming_
DQMStore * dqmStore_
MonitorElement * meLaserL3PN_
MonitorElement * meLaserL3AmplOverPN_
MonitorElement * meLaserL4PN_
MonitorElement * meLaserL2Timing_
MonitorElement * meTimingMean1D_
MonitorElement * meTiming_
MonitorElement * meLaserL1AmplOverPN_
MonitorElement * mePedestalOnlineRMSMap_
MonitorElement * meLaserL4Ampl_
MonitorElement * meLaserL1Err_
MonitorElement * meLaserL4_
MonitorElement * meTestPulseAmplG06_
MonitorElement * mePedestalOnline_
MonitorElement * meGlobalSummary_
std::vector< int > MGPAGainsPN_
MonitorElement * meStatusFlags_
MonitorElement * meLaserL1PN_
MonitorElement * meLaserL2PNErr_
MonitorElement * meTestPulseG06_
MonitorElement * meTestPulseG01_
MonitorElement * meLaserL1Ampl_
MonitorElement * meLaserL1PNErr_
MonitorElement * book2D(const char *name, const char *title, int nchX, double lowX, double highX, int nchY, double lowY, double highY)
Book 2D histogram.
Definition: DQMStore.cc:1001
std::vector< int > MGPAGains_
void setAxisTitle(const std::string &title, int axis=1)
set x-, y- or z-axis title (axis=1, 2, 3 respectively)
MonitorElement * meLaserL2Ampl_
std::vector< EBClient * > clients_
MonitorElement * mePedestalG12_
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:585
MonitorElement * meTriggerTowerNonSingleTiming_
MonitorElement * mePedestalOnlineMean_
MonitorElement * mePedestalPNG16_

Member Data Documentation

std::vector<EBClient*> EBSummaryClient::clients_
private

Definition at line 99 of file EBSummaryClient.h.

Referenced by analyze(), setFriends(), and setup().

bool EBSummaryClient::cloneME_
private

Definition at line 79 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), and EBSummaryClient().

bool EBSummaryClient::debug_
private

Definition at line 82 of file EBSummaryClient.h.

Referenced by analyze(), beginJob(), beginRun(), EBSummaryClient(), endJob(), and endRun().

DQMStore* EBSummaryClient::dqmStore_
private

Definition at line 101 of file EBSummaryClient.h.

Referenced by analyze(), beginJob(), cleanup(), and setup().

bool EBSummaryClient::enableCleanup_
private

Definition at line 88 of file EBSummaryClient.h.

Referenced by cleanup(), and EBSummaryClient().

TProfile2D* EBSummaryClient::hot01_[36]
private

Definition at line 173 of file EBSummaryClient.h.

Referenced by analyze().

TProfile2D* EBSummaryClient::hpot01_[36]
private

Definition at line 174 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), and EBSummaryClient().

TProfile2D* EBSummaryClient::htmt01_[36]
private

Definition at line 176 of file EBSummaryClient.h.

Referenced by analyze(), and EBSummaryClient().

TProfile2D* EBSummaryClient::httt01_[36]
private

Definition at line 175 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), and EBSummaryClient().

int EBSummaryClient::ievt_
private

Definition at line 74 of file EBSummaryClient.h.

Referenced by analyze(), beginJob(), endJob(), and getEvtPerJob().

int EBSummaryClient::jevt_
private

Definition at line 75 of file EBSummaryClient.h.

Referenced by analyze(), beginJob(), beginRun(), endRun(), and getEvtPerRun().

std::vector<int> EBSummaryClient::laserWavelengths_
private

Definition at line 95 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meGlobalSummary_
private

Definition at line 169 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meIntegrity_
private

Definition at line 103 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meIntegrityErr_
private

Definition at line 105 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meIntegrityPN_
private

Definition at line 104 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1_
private

Definition at line 116 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1Ampl_
private

Definition at line 118 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1AmplOverPN_
private

Definition at line 120 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1Err_
private

Definition at line 117 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1PN_
private

Definition at line 121 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1PNErr_
private

Definition at line 122 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL1Timing_
private

Definition at line 119 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2_
private

Definition at line 123 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2Ampl_
private

Definition at line 125 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2AmplOverPN_
private

Definition at line 127 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2Err_
private

Definition at line 124 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2PN_
private

Definition at line 128 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2PNErr_
private

Definition at line 129 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL2Timing_
private

Definition at line 126 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3_
private

Definition at line 130 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3Ampl_
private

Definition at line 132 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3AmplOverPN_
private

Definition at line 134 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3Err_
private

Definition at line 131 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3PN_
private

Definition at line 135 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3PNErr_
private

Definition at line 136 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL3Timing_
private

Definition at line 133 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4_
private

Definition at line 137 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4Ampl_
private

Definition at line 139 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4AmplOverPN_
private

Definition at line 141 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4Err_
private

Definition at line 138 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4PN_
private

Definition at line 142 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4PNErr_
private

Definition at line 143 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meLaserL4Timing_
private

Definition at line 140 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meOccupancy1D_
private

Definition at line 110 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meOccupancy_
private

Definition at line 108 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meOccupancyPN_
private

Definition at line 109 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalG01_
private

Definition at line 144 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalG06_
private

Definition at line 145 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalG12_
private

Definition at line 146 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalOnline_
private

Definition at line 111 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalOnlineErr_
private

Definition at line 112 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalOnlineMean_
private

Definition at line 113 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalOnlineRMS_
private

Definition at line 114 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalOnlineRMSMap_
private

Definition at line 115 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalPNG01_
private

Definition at line 147 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::mePedestalPNG16_
private

Definition at line 148 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meRecHitEnergy_
private

Definition at line 158 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meStatusFlags_
private

Definition at line 106 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meStatusFlagsErr_
private

Definition at line 107 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meSummaryErr_
private

Definition at line 171 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulseAmplG01_
private

Definition at line 154 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulseAmplG06_
private

Definition at line 155 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulseAmplG12_
private

Definition at line 156 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulseG01_
private

Definition at line 149 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulseG06_
private

Definition at line 150 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulseG12_
private

Definition at line 151 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulsePNG01_
private

Definition at line 152 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTestPulsePNG16_
private

Definition at line 153 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTiming_
private

Definition at line 159 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTimingMean1D_
private

Definition at line 160 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTimingMean_
private

Definition at line 162 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTimingRMS1D_
private

Definition at line 161 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTimingRMS_
private

Definition at line 163 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTriggerTowerEmulError_
private

Definition at line 165 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTriggerTowerEt_
private

Definition at line 164 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTriggerTowerNonSingleTiming_
private

Definition at line 167 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

MonitorElement* EBSummaryClient::meTriggerTowerTiming_
private

Definition at line 166 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

std::vector<int> EBSummaryClient::MGPAGains_
private

Definition at line 96 of file EBSummaryClient.h.

Referenced by EBSummaryClient(), and setup().

std::vector<int> EBSummaryClient::MGPAGainsPN_
private

Definition at line 97 of file EBSummaryClient.h.

Referenced by EBSummaryClient(), and setup().

TH1F* EBSummaryClient::norm01_
private

Definition at line 177 of file EBSummaryClient.h.

Referenced by analyze().

std::string EBSummaryClient::prefixME_
private

Definition at line 84 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), EBSummaryClient(), and setup().

bool EBSummaryClient::produceReports_
private

Definition at line 90 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

bool EBSummaryClient::reducedReports_
private

Definition at line 92 of file EBSummaryClient.h.

Referenced by analyze(), EBSummaryClient(), and setup().

std::string EBSummaryClient::subfolder_
private

Definition at line 86 of file EBSummaryClient.h.

Referenced by analyze(), and EBSummaryClient().

std::vector<int> EBSummaryClient::superModules_
private

Definition at line 94 of file EBSummaryClient.h.

Referenced by analyze(), cleanup(), and EBSummaryClient().

TH1F * EBSummaryClient::synch01_
private

Definition at line 177 of file EBSummaryClient.h.

Referenced by analyze().

float EBSummaryClient::synchErrorThreshold_
private

Definition at line 77 of file EBSummaryClient.h.

Referenced by analyze(), and EBSummaryClient().

int EBSummaryClient::timingNHitThreshold_
private

Definition at line 179 of file EBSummaryClient.h.

Referenced by analyze(), and EBSummaryClient().

bool EBSummaryClient::verbose_
private

Definition at line 81 of file EBSummaryClient.h.

Referenced by EBSummaryClient().