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/data/refman/pasoursint/CMSSW_5_3_3/src/DQM/EcalEndcapMonitorClient/src/EEIntegrityClient.cc

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00001 
00002 /*
00003  * \file EEIntegrityClient.cc
00004  *
00005  * $Date: 2012/04/27 13:46:07 $
00006  * $Revision: 1.117 $
00007  * \author G. Della Ricca
00008  * \author G. Franzoni
00009  *
00010  */
00011 
00012 #include <memory>
00013 #include <iostream>
00014 #include <fstream>
00015 #include <iomanip>
00016 
00017 #include "FWCore/ServiceRegistry/interface/Service.h"
00018 
00019 #include "DQMServices/Core/interface/DQMStore.h"
00020 #include "DQMServices/Core/interface/MonitorElement.h"
00021 
00022 #ifdef WITH_ECAL_COND_DB
00023 #include "OnlineDB/EcalCondDB/interface/RunTag.h"
00024 #include "OnlineDB/EcalCondDB/interface/RunIOV.h"
00025 #include "OnlineDB/EcalCondDB/interface/MonCrystalConsistencyDat.h"
00026 #include "OnlineDB/EcalCondDB/interface/MonTTConsistencyDat.h"
00027 #include "OnlineDB/EcalCondDB/interface/MonMemChConsistencyDat.h"
00028 #include "OnlineDB/EcalCondDB/interface/MonMemTTConsistencyDat.h"
00029 #include "OnlineDB/EcalCondDB/interface/RunCrystalErrorsDat.h"
00030 #include "OnlineDB/EcalCondDB/interface/RunTTErrorsDat.h"
00031 #include "OnlineDB/EcalCondDB/interface/RunPNErrorsDat.h"
00032 #include "OnlineDB/EcalCondDB/interface/RunMemChErrorsDat.h"
00033 #include "OnlineDB/EcalCondDB/interface/RunMemTTErrorsDat.h"
00034 #include "OnlineDB/EcalCondDB/interface/EcalCondDBInterface.h"
00035 #include "DQM/EcalCommon/interface/LogicID.h"
00036 #endif
00037 
00038 #include "DQM/EcalCommon/interface/Masks.h"
00039 
00040 #include "DQM/EcalCommon/interface/UtilsClient.h"
00041 #include "DQM/EcalCommon/interface/Numbers.h"
00042 
00043 #include "DataFormats/EcalDetId/interface/EEDetId.h"
00044 
00045 #include "DQM/EcalEndcapMonitorClient/interface/EEIntegrityClient.h"
00046 
00047 EEIntegrityClient::EEIntegrityClient(const edm::ParameterSet& ps) {
00048 
00049   // cloneME switch
00050   cloneME_ = ps.getUntrackedParameter<bool>("cloneME", true);
00051 
00052   // verbose switch
00053   verbose_ = ps.getUntrackedParameter<bool>("verbose", true);
00054 
00055   // debug switch
00056   debug_ = ps.getUntrackedParameter<bool>("debug", false);
00057 
00058   // prefixME path
00059   prefixME_ = ps.getUntrackedParameter<std::string>("prefixME", "");
00060 
00061   subfolder_ = ps.getUntrackedParameter<std::string>("subfolder", "");
00062 
00063   // enableCleanup_ switch
00064   enableCleanup_ = ps.getUntrackedParameter<bool>("enableCleanup", false);
00065 
00066   // vector of selected Super Modules (Defaults to all 18).
00067   superModules_.reserve(18);
00068   for ( unsigned int i = 1; i <= 18; i++ ) superModules_.push_back(i);
00069   superModules_ = ps.getUntrackedParameter<std::vector<int> >("superModules", superModules_);
00070 
00071   h00_ = 0;
00072 
00073   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00074 
00075     int ism = superModules_[i];
00076 
00077     h_[ism-1] = 0;
00078     hmem_[ism-1] = 0;
00079 
00080     h01_[ism-1] = 0;
00081     h02_[ism-1] = 0;
00082     h03_[ism-1] = 0;
00083     h04_[ism-1] = 0;
00084     h05_[ism-1] = 0;
00085     h06_[ism-1] = 0;
00086     h07_[ism-1] = 0;
00087     h08_[ism-1] = 0;
00088     h09_[ism-1] = 0;
00089 
00090   }
00091 
00092   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00093 
00094     int ism = superModules_[i];
00095 
00096     // integrity summary histograms
00097     meg01_[ism-1] = 0;
00098     meg02_[ism-1] = 0;
00099 
00100   }
00101 
00102   threshCry_ = 0.01;
00103 
00104 }
00105 
00106 EEIntegrityClient::~EEIntegrityClient() {
00107 
00108 }
00109 
00110 void EEIntegrityClient::beginJob(void) {
00111 
00112   dqmStore_ = edm::Service<DQMStore>().operator->();
00113 
00114   if ( debug_ ) std::cout << "EEIntegrityClient: beginJob" << std::endl;
00115 
00116   ievt_ = 0;
00117   jevt_ = 0;
00118 
00119 }
00120 
00121 void EEIntegrityClient::beginRun(void) {
00122 
00123   if ( debug_ ) std::cout << "EEIntegrityClient: beginRun" << std::endl;
00124 
00125   jevt_ = 0;
00126 
00127   this->setup();
00128 
00129 }
00130 
00131 void EEIntegrityClient::endJob(void) {
00132 
00133   if ( debug_ ) std::cout << "EEIntegrityClient: endJob, ievt = " << ievt_ << std::endl;
00134 
00135   this->cleanup();
00136 
00137 }
00138 
00139 void EEIntegrityClient::endRun(void) {
00140 
00141   if ( debug_ ) std::cout << "EEIntegrityClient: endRun, jevt = " << jevt_ << std::endl;
00142 
00143   this->cleanup();
00144 
00145 }
00146 
00147 void EEIntegrityClient::setup(void) {
00148 
00149   std::string name;
00150 
00151   dqmStore_->setCurrentFolder( prefixME_ + "/EEIntegrityClient" );
00152 
00153   if(subfolder_.size())
00154     dqmStore_->setCurrentFolder(prefixME_ + "/EEIntegrityClient/" + subfolder_);
00155 
00156   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00157 
00158     int ism = superModules_[i];
00159 
00160     if ( meg01_[ism-1] ) dqmStore_->removeElement( meg01_[ism-1]->getName() );
00161     name = "EEIT data integrity quality " + Numbers::sEE(ism);
00162     meg01_[ism-1] = dqmStore_->book2D(name, name, 50, Numbers::ix0EE(ism)+0., Numbers::ix0EE(ism)+50., 50, Numbers::iy0EE(ism)+0., Numbers::iy0EE(ism)+50.);
00163     meg01_[ism-1]->setAxisTitle("ix", 1);
00164     if ( ism >= 1 && ism <= 9 ) meg01_[ism-1]->setAxisTitle("101-ix", 1);
00165     meg01_[ism-1]->setAxisTitle("iy", 2);
00166 
00167     if ( meg02_[ism-1] ) dqmStore_->removeElement( meg02_[ism-1]->getName() );
00168     name = "EEIT data integrity quality MEM " + Numbers::sEE(ism);
00169     meg02_[ism-1] = dqmStore_->book2D(name, name, 10, 0., 10., 5, 0.,5.);
00170     meg02_[ism-1]->setAxisTitle("pseudo-strip", 1);
00171     meg02_[ism-1]->setAxisTitle("channel", 2);
00172 
00173   }
00174 
00175   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00176 
00177     int ism = superModules_[i];
00178 
00179     if ( meg01_[ism-1] ) meg01_[ism-1]->Reset();
00180     if ( meg02_[ism-1] ) meg02_[ism-1]->Reset();
00181 
00182     for ( int ix = 1; ix <= 50; ix++ ) {
00183       for ( int iy = 1; iy <= 50; iy++ ) {
00184 
00185         if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ix, iy, 6. );
00186 
00187         int jx = ix + Numbers::ix0EE(ism);
00188         int jy = iy + Numbers::iy0EE(ism);
00189 
00190         if ( ism >= 1 && ism <= 9 ) jx = 101 - jx;
00191 
00192         if ( Numbers::validEE(ism, jx, jy) ) {
00193           if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ix, iy, 2. );
00194         }
00195 
00196       }
00197     }
00198 
00199     for ( int ie = 1; ie <= 10; ie++ ) {
00200       for ( int ip = 1; ip <= 5; ip++ ) {
00201 
00202         if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, 6. );
00203 
00204         // non-existing mem
00205         if ( (ism >=  3 && ism <=  4) || (ism >=  7 && ism <=  9) ) continue;
00206         if ( (ism >= 12 && ism <=  3) || (ism >= 16 && ism <= 18) ) continue;
00207 
00208         if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, 2. );
00209 
00210       }
00211     }
00212 
00213   }
00214 
00215 }
00216 
00217 void EEIntegrityClient::cleanup(void) {
00218 
00219   if ( ! enableCleanup_ ) return;
00220 
00221   if ( cloneME_ ) {
00222     if ( h00_ ) delete h00_;
00223   }
00224 
00225   h00_ = 0;
00226 
00227   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00228 
00229     int ism = superModules_[i];
00230 
00231     if ( cloneME_ ) {
00232       if ( h_[ism-1] )    delete h_[ism-1];
00233       if ( hmem_[ism-1] ) delete hmem_[ism-1];
00234 
00235       if ( h01_[ism-1] ) delete h01_[ism-1];
00236       if ( h02_[ism-1] ) delete h02_[ism-1];
00237       if ( h03_[ism-1] ) delete h03_[ism-1];
00238       if ( h04_[ism-1] ) delete h04_[ism-1];
00239       if ( h05_[ism-1] ) delete h05_[ism-1];
00240       if ( h06_[ism-1] ) delete h06_[ism-1];
00241       if ( h07_[ism-1] ) delete h07_[ism-1];
00242       if ( h08_[ism-1] ) delete h08_[ism-1];
00243       if ( h09_[ism-1] ) delete h09_[ism-1];
00244     }
00245 
00246     h_[ism-1] = 0;
00247     hmem_[ism-1] = 0;
00248 
00249     h01_[ism-1] = 0;
00250     h02_[ism-1] = 0;
00251     h03_[ism-1] = 0;
00252     h04_[ism-1] = 0;
00253     h05_[ism-1] = 0;
00254     h06_[ism-1] = 0;
00255     h07_[ism-1] = 0;
00256     h08_[ism-1] = 0;
00257     h09_[ism-1] = 0;
00258 
00259   }
00260 
00261   dqmStore_->setCurrentFolder( prefixME_ + "/EEIntegrityClient" );
00262 
00263   if(subfolder_.size())
00264     dqmStore_->setCurrentFolder(prefixME_ + "/EEIntegrityClient/" + subfolder_);
00265 
00266   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00267 
00268     int ism = superModules_[i];
00269 
00270     if ( meg01_[ism-1] ) dqmStore_->removeElement( meg01_[ism-1]->getName() );
00271     meg01_[ism-1] = 0;
00272 
00273     if ( meg02_[ism-1] ) dqmStore_->removeElement( meg02_[ism-1]->getName() );
00274     meg02_[ism-1] = 0;
00275 
00276   }
00277 
00278 }
00279 
00280 #ifdef WITH_ECAL_COND_DB
00281 bool EEIntegrityClient::writeDb(EcalCondDBInterface* econn, RunIOV* runiov, MonRunIOV* moniov, bool& status) {
00282 
00283   status = true;
00284 
00285   EcalLogicID ecid;
00286 
00287   MonCrystalConsistencyDat c1;
00288   std::map<EcalLogicID, MonCrystalConsistencyDat> dataset1;
00289   MonTTConsistencyDat c2;
00290   std::map<EcalLogicID, MonTTConsistencyDat> dataset2;
00291   MonMemChConsistencyDat c3;
00292   std::map<EcalLogicID, MonMemChConsistencyDat> dataset3;
00293   MonMemTTConsistencyDat c4;
00294   std::map<EcalLogicID, MonMemTTConsistencyDat> dataset4;
00295 
00296   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00297 
00298     int ism = superModules_[i];
00299 
00300     if ( h00_ && h00_->GetBinContent(ism) != 0 ) {
00301       std::cerr << std::endl;
00302       std::cerr << " DCC failed " << h00_->GetBinContent(ism) << " times" << std::endl;
00303       std::cerr << std::endl;
00304     }
00305 
00306     if ( verbose_ ) {
00307       std::cout << " " << Numbers::sEE(ism) << " (ism=" << ism << ")" << std::endl;
00308       std::cout << std::endl;
00309       UtilsClient::printBadChannels(meg01_[ism-1], h01_[ism-1], true);
00310       UtilsClient::printBadChannels(meg01_[ism-1], h02_[ism-1], true);
00311       UtilsClient::printBadChannels(meg01_[ism-1], h03_[ism-1], true);
00312       UtilsClient::printBadChannels(meg01_[ism-1], h04_[ism-1], true);
00313       UtilsClient::printBadChannels(meg01_[ism-1], h05_[ism-1], true);
00314 
00315       UtilsClient::printBadChannels(meg02_[ism-1], h06_[ism-1], true);
00316       UtilsClient::printBadChannels(meg02_[ism-1], h07_[ism-1], true);
00317       UtilsClient::printBadChannels(meg02_[ism-1], h08_[ism-1], true);
00318       UtilsClient::printBadChannels(meg02_[ism-1], h09_[ism-1], true);
00319     }
00320 
00321     float num00;
00322 
00323     num00 = 0.;
00324 
00325     bool update0 = false;
00326 
00327     if ( h00_ ) {
00328       num00 = h00_->GetBinContent(ism);
00329       if ( num00 > 0 ) update0 = true;
00330     }
00331 
00332     float num01, num02, num03;
00333 
00334     for ( int ix = 1; ix <= 50; ix++ ) {
00335       for ( int iy = 1; iy <= 50; iy++ ) {
00336 
00337         int jx = ix + Numbers::ix0EE(ism);
00338         int jy = iy + Numbers::iy0EE(ism);
00339 
00340         if ( ism >= 1 && ism <= 9 ) jx = 101 - jx;
00341 
00342         if ( ! Numbers::validEE(ism, jx, jy) ) continue;
00343 
00344         num01 = num02 = num03 = 0.;
00345 
00346         bool update1 = false;
00347 
00348         float numTot = -1.;
00349 
00350         if ( h_[ism-1] ) numTot = h_[ism-1]->GetBinContent(ix, iy);
00351 
00352         if ( h01_[ism-1] ) {
00353           num01  = h01_[ism-1]->GetBinContent(ix, iy);
00354           if ( num01 > 0 ) update1 = true;
00355         }
00356 
00357         if ( h02_[ism-1] ) {
00358           num02  = h02_[ism-1]->GetBinContent(ix, iy);
00359           if ( num02 > 0 ) update1 = true;
00360         }
00361 
00362         if ( h03_[ism-1] ) {
00363           num03  = h03_[ism-1]->GetBinContent(ix, iy);
00364           if ( num03 > 0 ) update1 = true;
00365         }
00366 
00367         if ( update0 || update1 ) {
00368 
00369           if ( Numbers::icEE(ism, jx, jy) == 1 ) {
00370 
00371             if ( verbose_ ) {
00372               std::cout << "Preparing dataset for " << Numbers::sEE(ism) << " (ism=" << ism << ")" << std::endl;
00373               std::cout << "(" << Numbers::ix0EE(i+1)+ix << "," << Numbers::iy0EE(i+1)+iy << ") " << num00 << " " << num01 << " " << num02 << " " << num03 << std::endl;
00374               std::cout << std::endl;
00375             }
00376 
00377           }
00378 
00379           c1.setProcessedEvents(int(numTot));
00380           c1.setProblematicEvents(int(num01+num02+num03));
00381           c1.setProblemsGainZero(int(num01));
00382           c1.setProblemsID(int(num02));
00383           c1.setProblemsGainSwitch(int(num03));
00384 
00385           bool val;
00386 
00387           val = false;
00388           if ( numTot > 0 ) {
00389             float errorRate1 = num00 / ( numTot + num01 + num02 + num03 );
00390             if ( errorRate1 > threshCry_ )
00391               val = true;
00392             errorRate1 = ( num01 + num02 + num03 ) / ( numTot + num01 + num02 + num03 ) / 3.;
00393             if ( errorRate1 > threshCry_ )
00394               val = true;
00395           } else {
00396             if ( num00 > 0 )
00397               val = true;
00398             if ( ( num01 + num02 + num03 ) > 0 )
00399               val = true;
00400           }
00401           c1.setTaskStatus(val);
00402 
00403           int ic = Numbers::indexEE(ism, jx, jy);
00404 
00405           if ( ic == -1 ) continue;
00406 
00407           if ( econn ) {
00408             ecid = LogicID::getEcalLogicID("EE_crystal_number", Numbers::iSM(ism, EcalEndcap), ic);
00409             dataset1[ecid] = c1;
00410           }
00411 
00412           status = status && !val;
00413 
00414         }
00415 
00416       }
00417     }
00418 
00419     float num04, num05;
00420 
00421     for ( int ixt = 1; ixt <= 10; ixt++ ) {
00422       for ( int iyt = 1; iyt <= 10; iyt++ ) {
00423 
00424         int jxt = Numbers::ix0EE(ism) + 1 + 5*(ixt-1);
00425         int jyt = Numbers::iy0EE(ism) + 1 + 5*(iyt-1);
00426 
00427         if ( ism >= 1 && ism <= 9 ) jxt = 101 - jxt;
00428 
00429         num04 = num05 = 0.;
00430 
00431         bool update1 = false;
00432 
00433         float numTot = -1.;
00434 
00435         if ( h_[ism-1] ) {
00436           numTot = 0.;
00437           for ( int ix = 1 + 5*(ixt-1); ix <= 5*ixt; ix++ ) {
00438             for ( int iy = 1 + 5*(iyt-1); iy <= 5*iyt; iy++ ) {
00439               int jx = ix + Numbers::ix0EE(ism);
00440               int jy = iy + Numbers::iy0EE(ism);
00441               if ( ism >= 1 && ism <= 9 ) jx = 101 - jx;
00442               if ( ! Numbers::validEE(ism, jx, jy) ) continue;
00443               numTot += h_[ism-1]->GetBinContent(ix, iy);
00444             }
00445           }
00446         }
00447 
00448         if ( h04_[ism-1] ) {
00449           for ( int ix = 1 + 5*(ixt-1); ix <= 5*ixt; ix++ ) {
00450             for ( int iy = 1 + 5*(iyt-1); iy <= 5*iyt; iy++ ) {
00451               int jx = ix + Numbers::ix0EE(ism);
00452               int jy = iy + Numbers::iy0EE(ism);
00453               if ( ism >= 1 && ism <= 9 ) jx = 101 - jx;
00454               if ( ! Numbers::validEE(ism, jx, jy) ) continue;
00455               num04  = h04_[ism-1]->GetBinContent(ix, iy);
00456               if ( num04 > 0 ) update1 = true;
00457             }
00458           }
00459         }
00460 
00461         if ( h05_[ism-1] ) {
00462           for ( int ix = 1 + 5*(ixt-1); ix <= 5*ixt; ix++ ) {
00463             for ( int iy = 1 + 5*(iyt-1); iy <= 5*iyt; iy++ ) {
00464               int jx = ix + Numbers::ix0EE(ism);
00465               int jy = iy + Numbers::iy0EE(ism);
00466               if ( ism >= 1 && ism <= 9 ) jx = 101 - jx;
00467               if ( ! Numbers::validEE(ism, jx, jy) ) continue;
00468               num05  = h05_[ism-1]->GetBinContent(ix, iy);
00469               if ( num05 > 0 ) update1 = true;
00470             }
00471           }
00472         }
00473 
00474         if ( update0 || update1 ) {
00475 
00476           if ( Numbers::iSC(ism, EcalEndcap, jxt, jyt) == 1 ) {
00477 
00478             if ( verbose_ ) {
00479               std::cout << "Preparing dataset for " << Numbers::sEE(ism) << " (ism=" << ism << ")" << std::endl;
00480               std::cout << "(" << 1+(Numbers::ix0EE(ism)+1+5*(ixt-1))/5 << "," << 1+(Numbers::iy0EE(ism)+1+5*(iyt-1))/5 << ") " << num00 << " " << num04 << " " << num05 << std::endl;
00481               std::cout << std::endl;
00482             }
00483 
00484           }
00485 
00486           c2.setProcessedEvents(int(numTot));
00487           c2.setProblematicEvents(int(num04+num05));
00488           c2.setProblemsID(int(num04));
00489           c2.setProblemsSize(int(num05));
00490           c2.setProblemsLV1(int(-1.));
00491           c2.setProblemsBunchX(int(-1.));
00492 
00493           bool val;
00494 
00495           val = false;
00496           if ( numTot > 0 ) {
00497             float errorRate2 = num00 / ( numTot + num04 + num05 );
00498             if ( errorRate2 > threshCry_ )
00499               val = true;
00500             errorRate2 = ( num04 + num05 ) / ( numTot + num04 + num05 ) / 2.;
00501             if ( errorRate2 > threshCry_ )
00502               val = true;
00503           } else {
00504             if ( num00 > 0 )
00505               val = true;
00506             if ( ( num04 + num05 ) > 0 )
00507               val = true;
00508           }
00509           c2.setTaskStatus(val);
00510 
00511           int itt = Numbers::iSC(ism, EcalEndcap, jxt, jyt);
00512 
00513           if ( itt == -1 ) continue;
00514 
00515           if ( econn ) {
00516             ecid = LogicID::getEcalLogicID("EE_readout_tower", Numbers::iSM(ism, EcalEndcap), itt);
00517             dataset2[ecid] = c2;
00518           }
00519 
00520           status = status && !val;
00521 
00522         }
00523 
00524       }
00525     }
00526 
00527     float num06, num07;
00528 
00529     for ( int ix = 1; ix <= 10; ix++ ) {
00530       for ( int iy = 1; iy <= 5; iy++ ) {
00531 
00532         num06 = num07 = 0.;
00533 
00534         bool update1 = false;
00535 
00536         float numTot = -1.;
00537 
00538         if ( hmem_[ism-1] ) numTot = hmem_[ism-1]->GetBinContent(ix, iy);
00539 
00540         if ( h06_[ism-1] ) {
00541           num06  = h06_[ism-1]->GetBinContent(ix, iy);
00542           if ( num06 > 0 ) update1 = true;
00543         }
00544 
00545         if ( h07_[ism-1] ) {
00546           num07  = h07_[ism-1]->GetBinContent(ix, iy);
00547           if ( num07 > 0 ) update1 = true;
00548         }
00549 
00550         if ( update0 || update1 ) {
00551 
00552           if ( ix ==1 && iy == 1 ) {
00553 
00554             if ( verbose_ ) {
00555               std::cout << "Preparing dataset for mem of SM=" << ism << std::endl;
00556               std::cout << "(" << ix << "," << iy << ") " << num06 << " " << num07 << std::endl;
00557               std::cout << std::endl;
00558             }
00559 
00560           }
00561 
00562           c3.setProcessedEvents( int (numTot));
00563           c3.setProblematicEvents(int (num06+num07));
00564           c3.setProblemsID(int (num06) );
00565           c3.setProblemsGainZero(int (num07));
00566           // c3.setProblemsGainSwitch(int prob);
00567 
00568           bool val;
00569 
00570           val = false;
00571           if ( numTot > 0 ) {
00572             float errorRate1 = num00 / ( numTot + num06 + num07 );
00573             if ( errorRate1 > threshCry_ )
00574               val = true;
00575             errorRate1 = ( num06 + num07 ) / ( numTot + num06 + num07 ) / 2.;
00576             if ( errorRate1 > threshCry_ )
00577               val = true;
00578           } else {
00579             if ( num00 > 0 )
00580              val = true;
00581             if ( ( num06 + num07 ) > 0 )
00582               val = true;
00583           }
00584           c3. setTaskStatus(val);
00585 
00586           int ic = EEIntegrityClient::chNum[ (ix-1)%5 ][ (iy-1) ] + (ix-1)/5 * 25;
00587 
00588           if ( econn ) {
00589             ecid = LogicID::getEcalLogicID("EE_mem_channel", Numbers::iSM(ism, EcalEndcap), ic);
00590             dataset3[ecid] = c3;
00591           }
00592 
00593           status = status && !val;
00594 
00595         }
00596 
00597       }
00598     }
00599 
00600     float num08, num09;
00601 
00602     for ( int ixt = 1; ixt <= 2; ixt++ ) {
00603 
00604       num08 = num09 = 0.;
00605 
00606       bool update1 = false;
00607 
00608       float numTot = -1.;
00609 
00610       if ( hmem_[ism-1] ) {
00611         numTot = 0.;
00612         for ( int ix = 1 + 5*(ixt-1); ix <= 5*ixt; ix++ ) {
00613           for ( int iy = 1 ; iy <= 5; iy++ ) {
00614             numTot += hmem_[ism-1]->GetBinContent(ix, iy);
00615           }
00616         }
00617       }
00618 
00619       if ( h08_[ism-1] ) {
00620         num08  = h08_[ism-1]->GetBinContent(ixt, 1);
00621         if ( num08 > 0 ) update1 = true;
00622       }
00623 
00624       if ( h09_[ism-1] ) {
00625         num09  = h09_[ism-1]->GetBinContent(ixt, 1);
00626         if ( num09 > 0 ) update1 = true;
00627       }
00628 
00629       if ( update0 || update1 ) {
00630 
00631         if ( ixt == 1 ) {
00632 
00633           if ( verbose_ ) {
00634             std::cout << "Preparing dataset for " << Numbers::sEE(ism) << " (ism=" << ism << ")" << std::endl;
00635             std::cout << "(" << ixt <<  ") " << num08 << " " << num09 << std::endl;
00636             std::cout << std::endl;
00637           }
00638 
00639         }
00640 
00641         c4.setProcessedEvents( int(numTot) );
00642         c4.setProblematicEvents( int(num08 + num09) );
00643         c4.setProblemsID( int(num08) );
00644         c4.setProblemsSize(int (num09) );
00645         // setProblemsLV1(int LV1);
00646         // setProblemsBunchX(int bunchX);
00647 
00648         bool val;
00649 
00650         val = false;
00651         if ( numTot > 0 ) {
00652           float errorRate2 = num00 / ( numTot + num08 + num09 );
00653           if ( errorRate2 > threshCry_ )
00654             val = true;
00655           errorRate2 = ( num08 + num09 ) / ( numTot/25. + num08 + num09 ) / 2.;
00656           if ( errorRate2 > threshCry_ )
00657             val = true;
00658         } else {
00659           if ( num00 > 0 )
00660             val = true;
00661           if ( ( num08 + num09 ) > 0 )
00662             val = true;
00663         }
00664         c4.setTaskStatus(val);
00665 
00666         int itt = 68 + ixt;
00667 
00668         if ( econn ) {
00669           ecid = LogicID::getEcalLogicID("EE_mem_TT", Numbers::iSM(ism, EcalEndcap), itt);
00670           dataset4[ecid] = c4;
00671         }
00672 
00673         status = status && !val;
00674 
00675       }
00676 
00677     }
00678 
00679   }
00680 
00681   if ( econn ) {
00682     try {
00683       if ( verbose_ ) std::cout << "Inserting MonConsistencyDat ..." << std::endl;
00684       if ( dataset1.size() != 0 ) econn->insertDataArraySet(&dataset1, moniov);
00685       if ( dataset2.size() != 0 ) econn->insertDataArraySet(&dataset2, moniov);
00686       if ( dataset3.size() != 0 ) econn->insertDataArraySet(&dataset3, moniov);
00687       if ( dataset4.size() != 0 ) econn->insertDataArraySet(&dataset4, moniov);
00688       if ( verbose_ ) std::cout << "done." << std::endl;
00689     } catch (std::runtime_error &e) {
00690       std::cerr << e.what() << std::endl;
00691     }
00692   }
00693 
00694   return true;
00695 
00696 }
00697 #endif
00698 
00699 void EEIntegrityClient::analyze(void) {
00700 
00701   ievt_++;
00702   jevt_++;
00703   if ( ievt_ % 10 == 0 ) {
00704     if ( debug_ ) std::cout << "EEIntegrityClient: ievt/jevt = " << ievt_ << "/" << jevt_ << std::endl;
00705   }
00706 
00707   uint32_t bits01 = 0;
00708   bits01 |= 1 << EcalDQMStatusHelper::CH_ID_ERROR;
00709   bits01 |= 1 << EcalDQMStatusHelper::CH_GAIN_ZERO_ERROR;
00710   bits01 |= 1 << EcalDQMStatusHelper::CH_GAIN_SWITCH_ERROR;
00711   bits01 |= 1 << EcalDQMStatusHelper::TT_ID_ERROR;
00712   bits01 |= 1 << EcalDQMStatusHelper::TT_SIZE_ERROR;
00713 
00714   std::string subdir(subfolder_.size() ? subfolder_ + "/" : "");
00715 
00716   MonitorElement* me;
00717 
00718   me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "EEIT DCC size error" );
00719   h00_ = UtilsClient::getHisto( me, cloneME_, h00_ );
00720 
00721   for ( unsigned int i=0; i<superModules_.size(); i++ ) {
00722 
00723     int ism = superModules_[i];
00724 
00725     me = dqmStore_->get( prefixME_ + "/EEOccupancyTask/" + subdir + "EEOT digi occupancy " + Numbers::sEE(ism) );
00726     h_[ism-1] = UtilsClient::getHisto( me, cloneME_, h_[ism-1] );
00727 
00728     me = dqmStore_->get( prefixME_ + "/EEOccupancyTask/" + subdir + "EEOT MEM digi occupancy " + Numbers::sEE(ism) );
00729     hmem_[ism-1] = UtilsClient::getHisto( me, cloneME_, hmem_[ism-1] );
00730 
00731     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "Gain/EEIT gain " + Numbers::sEE(ism) );
00732     h01_[ism-1] = UtilsClient::getHisto( me, cloneME_, h01_[ism-1] );
00733 
00734     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "ChId/EEIT ChId " + Numbers::sEE(ism) );
00735     h02_[ism-1] = UtilsClient::getHisto( me, cloneME_, h02_[ism-1] );
00736 
00737     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "GainSwitch/EEIT gain switch " + Numbers::sEE(ism) );
00738     h03_[ism-1] = UtilsClient::getHisto( me, cloneME_, h03_[ism-1] );
00739 
00740     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "TTId/EEIT TTId " + Numbers::sEE(ism) );
00741     h04_[ism-1] = UtilsClient::getHisto( me, cloneME_, h04_[ism-1] );
00742 
00743     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "TTBlockSize/EEIT TTBlockSize " + Numbers::sEE(ism) );
00744     h05_[ism-1] = UtilsClient::getHisto( me, cloneME_, h05_[ism-1] );
00745 
00746     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "MemChId/EEIT MemChId " + Numbers::sEE(ism) );
00747     h06_[ism-1] = UtilsClient::getHisto( me, cloneME_, h06_[ism-1] );
00748 
00749     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "MemGain/EEIT MemGain " + Numbers::sEE(ism) );
00750     h07_[ism-1] = UtilsClient::getHisto( me, cloneME_, h07_[ism-1] );
00751 
00752     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "MemTTId/EEIT MemTTId " + Numbers::sEE(ism) );
00753     h08_[ism-1] = UtilsClient::getHisto( me, cloneME_, h08_[ism-1] );
00754 
00755     me = dqmStore_->get( prefixME_ + "/EEIntegrityTask/" + subdir + "MemSize/EEIT MemSize " + Numbers::sEE(ism) );
00756     h09_[ism-1] = UtilsClient::getHisto( me, cloneME_, h09_[ism-1] );
00757 
00758     float num00;
00759 
00760     // integrity summary histograms
00761     if ( meg01_[ism-1] ) meg01_[ism-1]->Reset();
00762     if ( meg01_[ism-1] ) meg02_[ism-1]->Reset();
00763 
00764     num00 = 0.;
00765 
00766     bool update0 = false;
00767 
00768     // dcc size errors
00769     if ( h00_ ) {
00770       num00  = h00_->GetBinContent(ism);
00771       update0 = true;
00772     }
00773 
00774     float num01, num02, num03, num04, num05;
00775 
00776     for ( int ix = 1; ix <= 50; ix++ ) {
00777       for ( int iy = 1; iy <= 50; iy++ ) {
00778 
00779         num01 = num02 = num03 = num04 = num05 = 0.;
00780 
00781         if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ix, iy, 6. );
00782 
00783         bool update1 = false;
00784         bool update2 = false;
00785 
00786         float numTot = -1.;
00787 
00788         if ( h_[ism-1] ) numTot = h_[ism-1]->GetBinContent(ix, iy);
00789 
00790         if ( h01_[ism-1] ) {
00791           num01  = h01_[ism-1]->GetBinContent(ix, iy);
00792           update1 = true;
00793         }
00794 
00795         if ( h02_[ism-1] ) {
00796           num02  = h02_[ism-1]->GetBinContent(ix, iy);
00797           update1 = true;
00798         }
00799 
00800         if ( h03_[ism-1] ) {
00801           num03  = h03_[ism-1]->GetBinContent(ix, iy);
00802           update1 = true;
00803         }
00804 
00805         if ( h04_[ism-1] ) {
00806           num04  = h04_[ism-1]->GetBinContent(ix, iy);
00807           update2 = true;
00808         }
00809 
00810         if ( h05_[ism-1] ) {
00811           num05  = h05_[ism-1]->GetBinContent(ix, iy);
00812           update2 = true;
00813         }
00814 
00815         if ( update0 || update1 || update2 ) {
00816 
00817           float val;
00818 
00819           val = 1.;
00820           // number of events on a channel
00821           if ( numTot > 0 ) {
00822             float errorRate1 =  num00 / ( numTot + num01 + num02 + num03 );
00823             if ( errorRate1 > threshCry_ )
00824               val = 0.;
00825             errorRate1 = ( num01 + num02 + num03 ) / ( numTot + num01 + num02 + num03 ) / 3.;
00826             if ( errorRate1 > threshCry_ )
00827               val = 0.;
00828             float errorRate2 = ( num04 + num05 ) / ( numTot + num04 + num05 ) / 2.;
00829             if ( errorRate2 > threshCry_ )
00830               val = 0.;
00831           } else {
00832             val = 2.;
00833             if ( num00 > 0 )
00834               val = 0.;
00835             if ( ( num01 + num02 + num03 ) > 0 )
00836               val = 0.;
00837             if ( ( num04 + num05 ) > 0 )
00838               val = 0.;
00839           }
00840 
00841           int jx = ix + Numbers::ix0EE(ism);
00842           int jy = iy + Numbers::iy0EE(ism);
00843 
00844           if ( ism >= 1 && ism <= 9 ) jx = 101 - jx;
00845 
00846           // filling the summary for SM channels
00847           if ( Numbers::validEE(ism, jx, jy) ) {
00848             if ( meg01_[ism-1] ) meg01_[ism-1]->setBinContent( ix, iy, val );
00849           }
00850 
00851         }
00852 
00853         if ( Masks::maskChannel(ism, ix, iy, bits01, EcalEndcap) ) UtilsClient::maskBinContent( meg01_[ism-1], ix, iy );
00854 
00855       }
00856     } // end of loop on crystals to fill summary plot
00857 
00858     // summaries for mem channels
00859     float num06, num07, num08, num09;
00860 
00861     for ( int ie = 1; ie <= 10; ie++ ) {
00862       for ( int ip = 1; ip <= 5; ip++ ) {
00863 
00864         num06 = num07 = num08 = num09 = 0.;
00865 
00866         // initialize summary histo for mem
00867         if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, 6. );
00868 
00869         // non-existing mem
00870         if ( (ism >=  3 && ism <=  4) || (ism >=  7 && ism <=  9) ) continue;
00871         if ( (ism >= 12 && ism <= 13) || (ism >= 16 && ism <= 18) ) continue;
00872 
00873         if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, 2. );
00874 
00875         bool update1 = false;
00876         bool update2 = false;
00877 
00878         float numTotmem = -1.;
00879 
00880         if ( hmem_[ism-1] ) numTotmem = hmem_[ism-1]->GetBinContent(ie, ip);
00881 
00882         if ( h06_[ism-1] ) {
00883           num06  = h06_[ism-1]->GetBinContent(ie, ip);
00884           update1 = true;
00885         }
00886 
00887         if ( h07_[ism-1] ) {
00888           num07  = h07_[ism-1]->GetBinContent(ie, ip);
00889           update1 = true;
00890         }
00891 
00892         int iet = 1 + ((ie-1)/5);
00893         int ipt = 1;
00894 
00895         if ( h08_[ism-1] ) {
00896           num08  = h08_[ism-1]->GetBinContent(iet, ipt);
00897           update2 = true;
00898         }
00899 
00900         if ( h09_[ism-1] ) {
00901           num09  = h09_[ism-1]->GetBinContent(iet, ipt);
00902           update2 = true;
00903         }
00904 
00905         if ( update0 || update1 || update2 ) {
00906 
00907           float val;
00908 
00909           val = 1.;
00910           // number of events on a channel
00911           if ( numTotmem > 0 ) {
00912             float errorRate1 = ( num06 + num07 ) / ( numTotmem + num06 + num07 )/ 2.;
00913             if ( errorRate1 > threshCry_ )
00914               val = 0.;
00915             float errorRate2 = ( num08 + num09 ) / ( numTotmem/25. + num08 + num09 ) / 2.;
00916             if ( errorRate2 > threshCry_ )
00917               val = 0.;
00918           } else {
00919             val = 2.;
00920             if ( ( num06 + num07 ) > 0 )
00921               val = 0.;
00922             if ( ( num08 + num09 ) > 0 )
00923               val = 0.;
00924           }
00925 
00926           // filling summary for mem channels
00927           if ( meg02_[ism-1] ) meg02_[ism-1]->setBinContent( ie, ip, val );
00928 
00929         }
00930 
00931         if ( Masks::maskPn(ism, ie, bits01, EcalEndcap) ) UtilsClient::maskBinContent( meg02_[ism-1], ie, ip );
00932 
00933       }
00934     }  // end loop on mem channels
00935 
00936   } // end loop on supermodules
00937 
00938 }
00939 
00940 const int EEIntegrityClient::chNum[5][5] = {
00941   { 1,  2,  3,  4,  5},
00942   {10,  9,  8,  7,  6},
00943   {11, 12, 13, 14, 15},
00944   {20, 19, 18, 17, 16},
00945   {21, 22, 23, 24, 25}
00946 };
00947