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/data/refman/pasoursint/CMSSW_6_1_2_SLHC4_patch1/src/L1Trigger/GlobalTriggerAnalyzer/src/L1GtDataEmulAnalyzer.cc

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00001 
00018 // this class header
00019 #include "L1Trigger/GlobalTriggerAnalyzer/interface/L1GtDataEmulAnalyzer.h"
00020 
00021 // system include files
00022 #include <memory>
00023 #include <iostream>
00024 #include <iomanip>
00025 
00026 // user include files
00027 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutSetupFwd.h"
00028 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutSetup.h"
00029 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutRecord.h"
00030 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerEvmReadoutRecord.h"
00031 
00032 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00033 #include "FWCore/ServiceRegistry/interface/Service.h"
00034 #include "CommonTools/UtilAlgos/interface/TFileService.h"
00035 
00036 #include "FWCore/Framework/interface/EventSetup.h"
00037 #include "FWCore/Framework/interface/ESHandle.h"
00038 
00039 #include "CondFormats/L1TObjects/interface/L1GtTriggerMenu.h"
00040 #include "CondFormats/DataRecord/interface/L1GtTriggerMenuRcd.h"
00041 
00042 #include "CondFormats/L1TObjects/interface/L1GtTriggerMask.h"
00043 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskAlgoTrigRcd.h"
00044 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskTechTrigRcd.h"
00045 
00046 #include "TH1.h"
00047 #include "TH2.h"
00048 #include "TTree.h"
00049 
00050 // constructor(s)
00051 L1GtDataEmulAnalyzer::L1GtDataEmulAnalyzer(const edm::ParameterSet& parSet) {
00052 
00053     // input tag for the L1 GT hardware DAQ/EVM record
00054     m_l1GtDataInputTag = parSet.getParameter<edm::InputTag>("L1GtDataInputTag");
00055 
00056     // input tag for the L1 GT emulator DAQ/EVM record
00057     m_l1GtEmulInputTag = parSet.getParameter<edm::InputTag>("L1GtEmulInputTag");
00058 
00059     // input tag for the L1 GCT hardware record 
00060     m_l1GctDataInputTag
00061             = parSet.getParameter<edm::InputTag>("L1GctDataInputTag");
00062 
00063     LogDebug("L1GtDataEmulAnalyzer")
00064             << "\nInput tag for the L1 GT hardware records:          "
00065             << m_l1GtDataInputTag
00066             << "\nInput tag for the L1 GT emulator records:          "
00067             << m_l1GtEmulInputTag
00068             << "\nInput tag for the L1 GCT hardware record:          "
00069             << m_l1GctDataInputTag << std::endl;
00070 
00071     // initialize counters
00072     m_nrDataEventError = 0;
00073     m_nrEmulEventError = 0;
00074 
00075     // cache
00076     m_l1GtMenuCacheID = 0ULL;
00077 
00078     m_l1GtTmAlgoCacheID = 0ULL;
00079     m_l1GtTmTechCacheID = 0ULL;
00080     
00081 
00082     // book histograms
00083     bookHistograms();
00084 
00085 }
00086 
00087 // destructor
00088 L1GtDataEmulAnalyzer::~L1GtDataEmulAnalyzer() {
00089     // empty   
00090 }
00091 
00092 // member functions
00093 
00094 // method called once each job just before starting event loop
00095 void L1GtDataEmulAnalyzer::beginJob() {
00096     // empty
00097 }
00098 
00099 //compare the GTFE board
00100 void L1GtDataEmulAnalyzer::compareGTFE(const edm::Event& iEvent,
00101         const edm::EventSetup& evSetup, const L1GtfeWord& gtfeBlockData,
00102         const L1GtfeWord& gtfeBlockEmul) {
00103 
00104     if (gtfeBlockData == gtfeBlockEmul) {
00105         m_myCoutStream << "\nData and emulated GTFE blocks: identical.\n";
00106         gtfeBlockData.print(m_myCoutStream);
00107     }
00108     else {
00109         m_myCoutStream << "\nData and emulated GTFE blocks: different.\n";
00110 
00111         m_myCoutStream << "\nData: GTFE block\n";
00112         gtfeBlockData.print(m_myCoutStream);
00113 
00114         m_myCoutStream << "\nEmul: GTFE block\n";
00115         gtfeBlockEmul.print(m_myCoutStream);
00116 
00117     }
00118 
00119     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00120 
00121     m_myCoutStream.str("");
00122     m_myCoutStream.clear();
00123 
00124     // get BoardId value
00125     const boost::uint16_t boardIdData = gtfeBlockData.boardId();
00126     const boost::uint16_t boardIdEmul = gtfeBlockEmul.boardId();
00127 
00128     if (boardIdData == boardIdEmul) {
00129         m_myCoutStream << "\nData and emulated GTFE boardId identical.";
00130         m_myCoutStream << "\n boardId() = " << std::hex << "0x" << std::setw(4)
00131                 << std::setfill('0') << boardIdData << std::setfill(' ')
00132                 << std::dec;
00133         m_myCoutStream << "\n";
00134 
00135     }
00136     else {
00137         m_myCoutStream << "\nData and emulated GTFE boardId different.";
00138         m_myCoutStream << "\n Data: boardId() = " << std::hex << "0x"
00139                 << std::setw(4) << std::setfill('0') << boardIdData
00140                 << std::setfill(' ') << std::dec;
00141         m_myCoutStream << "\n Emul: boardId() = " << std::hex << "0x"
00142                 << std::setw(4) << std::setfill('0') << boardIdEmul
00143                 << std::setfill(' ') << std::dec;
00144         m_myCoutStream << "\n";
00145         m_gtfeDataEmul->Fill(0);
00146 
00147     }
00148 
00150     const boost::uint16_t recordLengthData = gtfeBlockData.recordLength();
00151     const boost::uint16_t recordLengthEmul = gtfeBlockEmul.recordLength();
00152 
00153     if (recordLengthData == recordLengthEmul) {
00154         m_myCoutStream << "\nData and emulated GTFE recordLength identical.";
00155         m_myCoutStream << "\n recordLength() = " << recordLengthData;
00156         m_myCoutStream << "\n";
00157 
00158     }
00159     else {
00160         m_myCoutStream << "\nData and emulated GTFE recordLength different.";
00161         m_myCoutStream << "\n Data: recordLength() = " << recordLengthData;
00162         m_myCoutStream << "\n Emul: recordLength() = " << recordLengthEmul;
00163         m_myCoutStream << "\n";
00164         m_gtfeDataEmul->Fill(1);
00165 
00166     }
00167 
00169     const boost::uint16_t bxNrData = gtfeBlockData.bxNr();
00170     const boost::uint16_t bxNrEmul = gtfeBlockEmul.bxNr();
00171 
00172     if (bxNrData == bxNrEmul) {
00173         m_myCoutStream << "\nData and emulated GTFE bxNr identical.";
00174         m_myCoutStream << "\n bxNr() = " << bxNrData;
00175         m_myCoutStream << "\n";
00176 
00177     }
00178     else {
00179         m_myCoutStream << "\nData and emulated GTFE bxNr different.";
00180         m_myCoutStream << "\n Data: bxNr() = " << bxNrData;
00181         m_myCoutStream << "\n Emul: bxNr() = " << bxNrEmul;
00182         m_myCoutStream << "\n";
00183         m_gtfeDataEmul->Fill(2);
00184 
00185     }
00186 
00188     const boost::uint32_t setupVersionData = gtfeBlockData.setupVersion();
00189     const boost::uint32_t setupVersionEmul = gtfeBlockEmul.setupVersion();
00190 
00191     if (setupVersionData == setupVersionEmul) {
00192         m_myCoutStream << "\nData and emulated GTFE setupVersion identical.";
00193         m_myCoutStream << "\n setupVersion() = " << setupVersionData;
00194         m_myCoutStream << "\n";
00195 
00196     }
00197     else {
00198         m_myCoutStream << "\nData and emulated GTFE setupVersion different.";
00199         m_myCoutStream << "\n Data: setupVersion() = " << setupVersionData;
00200         m_myCoutStream << "\n Emul: setupVersion() = " << setupVersionEmul;
00201         m_myCoutStream << "\n";
00202         m_gtfeDataEmul->Fill(3);
00203 
00204     }
00205 
00207     const boost::uint16_t activeBoardsData = gtfeBlockData.activeBoards();
00208     const boost::uint16_t activeBoardsEmul = gtfeBlockEmul.activeBoards();
00209 
00210     if (activeBoardsData == activeBoardsEmul) {
00211         m_myCoutStream << "\nData and emulated GTFE activeBoards identical.";
00212         m_myCoutStream << "\n activeBoards() = " << std::hex << "0x"
00213                 << std::setw(4) << std::setfill('0') << activeBoardsData
00214                 << std::setfill(' ') << std::dec;
00215         m_myCoutStream << "\n";
00216 
00217     }
00218     else {
00219         m_myCoutStream << "\nData and emulated GTFE activeBoards different.";
00220         m_myCoutStream << "\n Data: activeBoards() = " << std::hex << "0x"
00221                 << std::setw(4) << std::setfill('0') << activeBoardsData
00222                 << std::setfill(' ') << std::dec;
00223         m_myCoutStream << "\n Emul: activeBoards() = " << std::hex << "0x"
00224                 << std::setw(4) << std::setfill('0') << activeBoardsEmul
00225                 << std::setfill(' ') << std::dec;
00226         m_myCoutStream << "\n";
00227         m_gtfeDataEmul->Fill(4);
00228 
00229     }
00230 
00232     const boost::uint32_t totalTriggerNrData = gtfeBlockData.totalTriggerNr();
00233     const boost::uint32_t totalTriggerNrEmul = gtfeBlockEmul.totalTriggerNr();
00234 
00235     if (totalTriggerNrData == totalTriggerNrEmul) {
00236         m_myCoutStream << "\nData and emulated GTFE totalTriggerNr identical.";
00237         m_myCoutStream << "\n totalTriggerNr() = " << totalTriggerNrData;
00238         m_myCoutStream << "\n";
00239 
00240     }
00241     else {
00242         m_myCoutStream << "\nData and emulated GTFE totalTriggerNr different.";
00243         m_myCoutStream << "\n Data: totalTriggerNr() = " << totalTriggerNrData;
00244         m_myCoutStream << "\n Emul: totalTriggerNr() = " << totalTriggerNrEmul;
00245         m_myCoutStream << "\n";
00246         m_gtfeDataEmul->Fill(5);
00247 
00248     }
00249 
00250     edm::LogInfo("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00251     m_myCoutStream.str("");
00252     m_myCoutStream.clear();
00253 
00254 }
00255 
00256 //compare the FDL board
00257 void L1GtDataEmulAnalyzer::compareFDL(const edm::Event& iEvent,
00258         const edm::EventSetup& evSetup, const L1GtFdlWord& fdlBlockData,
00259         const L1GtFdlWord& fdlBlockEmul, const int iRec) {
00260 
00261     // index of physics partition
00262     int PhysicsPartition = 0;
00263 
00264     // 
00265     std::string recString;
00266     if (iRec == 0) {
00267         recString = "Daq";
00268     }
00269     else {
00270         recString = "Evm";
00271     }
00272 
00273     if (fdlBlockData == fdlBlockEmul) {
00274         m_myCoutStream << "\n" << recString
00275                 << " Data and emulated FDL blocks: identical.\n";
00276         fdlBlockData.print(m_myCoutStream);
00277 
00278     }
00279     else {
00280         m_myCoutStream << "\n" << recString
00281                 << " Data and emulated FDL blocks: different.\n";
00282 
00283         m_myCoutStream << "\nData: FDL block\n";
00284         fdlBlockData.print(m_myCoutStream);
00285 
00286         m_myCoutStream << "\nEmul: FDL block\n";
00287         fdlBlockEmul.print(m_myCoutStream);
00288 
00289     }
00290 
00291     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00292 
00293     m_myCoutStream.str("");
00294     m_myCoutStream.clear();
00295 
00296     // get bunch cross in the GT event record - 
00297     // move it first as histograms are BxInEvent dependent
00298     const int bxInEventData = fdlBlockData.bxInEvent();
00299     const int bxInEventEmul = fdlBlockEmul.bxInEvent();
00300 
00301     bool matchBxInEvent = false;
00302 
00303     if (bxInEventData == bxInEventEmul) {
00304         m_myCoutStream << "\n" << recString
00305                 << " Data and emulated FDL bxInEvent identical.";
00306         m_myCoutStream << "\n bxInEvent() = " << bxInEventData;
00307         m_myCoutStream << "\n";
00308         matchBxInEvent = true;
00309 
00310     }
00311     else {
00312         m_myCoutStream << "\n" << recString
00313                 << " Data and emulated FDL bxInEvent different.";
00314         m_myCoutStream << "\n Data: bxInEvent() = " << bxInEventData;
00315         m_myCoutStream << "\n Emul: bxInEvent() = " << bxInEventEmul;
00316         m_myCoutStream << "\n";
00317 
00318         m_fdlDataEmul_Err[iRec]->Fill(1);
00319     }
00320 
00321     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00322     m_myCoutStream.str("");
00323     m_myCoutStream.clear();
00324 
00325     // symmetrize 
00326     bool validBxInEvent = false;
00327     int histIndex = bxInEventData + (TotalBxInEvent + 1)/2 -1;
00328     if ((histIndex <= TotalBxInEvent) && (histIndex >= 0)) {
00329         validBxInEvent = true;
00330     }
00331 
00332     // get / update the trigger menu from the EventSetup 
00333     // local cache & check on cacheIdentifier
00334 
00335     unsigned long long l1GtMenuCacheID = evSetup.get<L1GtTriggerMenuRcd>().cacheIdentifier();
00336 
00337     if (m_l1GtMenuCacheID != l1GtMenuCacheID) {
00338 
00339         edm::ESHandle< L1GtTriggerMenu> l1GtMenu;
00340         evSetup.get< L1GtTriggerMenuRcd>().get(l1GtMenu) ;
00341         m_l1GtMenu = l1GtMenu.product();
00342 
00343         m_l1GtMenuCacheID = l1GtMenuCacheID;
00344 
00345     }
00346     // get / update the trigger mask from the EventSetup 
00347     // local cache & check on cacheIdentifier
00348 
00349     unsigned long long l1GtTmAlgoCacheID = 
00350         evSetup.get<L1GtTriggerMaskAlgoTrigRcd>().cacheIdentifier();
00351 
00352     if (m_l1GtTmAlgoCacheID != l1GtTmAlgoCacheID) {
00353         
00354         edm::ESHandle< L1GtTriggerMask > l1GtTmAlgo;
00355         evSetup.get< L1GtTriggerMaskAlgoTrigRcd >().get( l1GtTmAlgo );        
00356         m_l1GtTmAlgo = l1GtTmAlgo.product();
00357         
00358         m_triggerMaskAlgoTrig = m_l1GtTmAlgo->gtTriggerMask();
00359         
00360         m_l1GtTmAlgoCacheID = l1GtTmAlgoCacheID;
00361 
00362     }
00363     
00364 
00365     unsigned long long l1GtTmTechCacheID = 
00366         evSetup.get<L1GtTriggerMaskTechTrigRcd>().cacheIdentifier();
00367 
00368     if (m_l1GtTmTechCacheID != l1GtTmTechCacheID) {
00369         
00370         edm::ESHandle< L1GtTriggerMask > l1GtTmTech;
00371         evSetup.get< L1GtTriggerMaskTechTrigRcd >().get( l1GtTmTech );        
00372         m_l1GtTmTech = l1GtTmTech.product();
00373         
00374         m_triggerMaskTechTrig = m_l1GtTmTech->gtTriggerMask();
00375 
00376         m_l1GtTmTechCacheID = l1GtTmTechCacheID;
00377 
00378     }
00379 
00380     
00381     // loop over algorithms and increase the corresponding counters
00382     // FIXME put it back in cache 
00383     // FIXME when the menu changes, make a copy of histograms, and clear the old one
00384     //       otherwise the labels are wrong
00385     const AlgorithmMap& algorithmMap = m_l1GtMenu->gtAlgorithmMap();
00386 
00387     for (CItAlgo itAlgo = algorithmMap.begin(); itAlgo != algorithmMap.end(); itAlgo++) {
00388 
00389         std::string aName = itAlgo->first;
00390         const char* algName = aName.c_str();
00391         int algBitNumber = (itAlgo->second).algoBitNumber();
00392 
00393         (m_fdlDataAlgoDecision[histIndex][iRec])->GetXaxis()->SetBinLabel(algBitNumber + 1, algName);
00394         m_fdlDataAlgoDecision_Err[iRec]->GetXaxis()->SetBinLabel(algBitNumber + 1, algName);
00395 
00396         m_fdlEmulAlgoDecision[histIndex][iRec]->GetXaxis()->SetBinLabel(algBitNumber + 1, algName);
00397         m_fdlEmulAlgoDecision_Err[iRec]->GetXaxis()->SetBinLabel(algBitNumber + 1, algName);
00398 
00399         m_fdlDataEmulAlgoDecision[histIndex][iRec]->GetXaxis()->SetBinLabel(algBitNumber + 1, algName);
00400         m_fdlDataEmulAlgoDecision_Err[iRec]->GetXaxis()->SetBinLabel(algBitNumber + 1, algName);
00401 
00402     }
00403 
00404     // get BoardId value
00405     const boost::uint16_t boardIdData = fdlBlockData.boardId();
00406     const boost::uint16_t boardIdEmul = fdlBlockEmul.boardId();
00407 
00408     if (boardIdData == boardIdEmul) {
00409         m_myCoutStream << "\n" << recString
00410                 << " Data and emulated FDL boardId identical.";
00411         m_myCoutStream << "\n boardId() = " << std::hex << "0x" << std::setw(4)
00412                 << std::setfill('0') << boardIdData << std::setfill(' ')
00413                 << std::dec;
00414         m_myCoutStream << "\n";
00415 
00416     }
00417     else {
00418         m_myCoutStream << "\n" << recString
00419                 << " Data and emulated FDL boardId different.";
00420         m_myCoutStream << "\n Data: boardId() = " << std::hex << "0x"
00421                 << std::setw(4) << std::setfill('0') << boardIdData
00422                 << std::setfill(' ') << std::dec;
00423         m_myCoutStream << "\n Emul: boardId() = " << std::hex << "0x"
00424                 << std::setw(4) << std::setfill('0') << boardIdEmul
00425                 << std::setfill(' ') << std::dec;
00426         m_myCoutStream << "\n";
00427 
00428         if (matchBxInEvent && validBxInEvent) {
00429             m_fdlDataEmul[histIndex][iRec]->Fill(0);
00430         }
00431         else {
00432             m_fdlDataEmul_Err[iRec]->Fill(0);
00433         }
00434 
00435     }
00436 
00437     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00438     m_myCoutStream.str("");
00439     m_myCoutStream.clear();
00440 
00441     // get BxNr - bunch cross number of the actual bx
00442     const boost::uint16_t bxNrData = fdlBlockData.bxNr();
00443     const boost::uint16_t bxNrEmul = fdlBlockEmul.bxNr();
00444 
00445     if (bxNrData == bxNrEmul) {
00446         m_myCoutStream << "\n" << recString
00447                 << " Data and emulated FDL bxNr identical.";
00448         m_myCoutStream << "\n bxNr() = " << bxNrData;
00449         m_myCoutStream << "\n";
00450 
00451     }
00452     else {
00453         m_myCoutStream << "\n" << recString
00454                 << " Data and emulated FDL bxNr different.";
00455         m_myCoutStream << "\n Data: bxNr() = " << bxNrData;
00456         m_myCoutStream << "\n Emul: bxNr() = " << bxNrEmul;
00457         m_myCoutStream << "\n";
00458 
00459         if (matchBxInEvent && validBxInEvent) {
00460             m_fdlDataEmul[histIndex][iRec]->Fill(2);
00461         }
00462         else {
00463             m_fdlDataEmul_Err[iRec]->Fill(2);
00464         }
00465     }
00466 
00467     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00468     m_myCoutStream.str("");
00469     m_myCoutStream.clear();
00470 
00471     // get event number since last L1 reset generated in FDL
00472     const boost::uint32_t eventNrData = fdlBlockData.eventNr();
00473     const boost::uint32_t eventNrEmul = fdlBlockEmul.eventNr();
00474 
00475     if (eventNrData == eventNrEmul) {
00476         m_myCoutStream << "\n" << recString
00477                 << " Data and emulated FDL eventNr identical.";
00478         m_myCoutStream << "\n eventNr() = " << eventNrData;
00479         m_myCoutStream << "\n";
00480 
00481     }
00482     else {
00483         m_myCoutStream << "\n" << recString
00484                 << " Data and emulated FDL eventNr different.";
00485         m_myCoutStream << "\n Data: eventNr() = " << eventNrData;
00486         m_myCoutStream << "\n Emul: eventNr() = " << eventNrEmul;
00487         m_myCoutStream << "\n";
00488 
00489         if (matchBxInEvent && validBxInEvent) {
00490             m_fdlDataEmul[histIndex][iRec]->Fill(3);
00491         }
00492         else {
00493             m_fdlDataEmul_Err[iRec]->Fill(3);
00494         }
00495 
00496     }
00497 
00498     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00499     m_myCoutStream.str("");
00500     m_myCoutStream.clear();
00501 
00502     // get  technical trigger bits
00503     const TechnicalTriggerWord gtTechnicalTriggerWordData =
00504             fdlBlockData.gtTechnicalTriggerWord();
00505     const TechnicalTriggerWord gtTechnicalTriggerWordEmul =
00506             fdlBlockEmul.gtTechnicalTriggerWord();
00507 
00508     int nTechBits = gtTechnicalTriggerWordData.size();
00509 
00510     TechnicalTriggerWord gtTechnicalTriggerWordDataMask(nTechBits);
00511     TechnicalTriggerWord gtTechnicalTriggerWordEmulMask(nTechBits);
00512    
00513     unsigned int triggerMask = 0;
00514     unsigned int bitValue = 0; 
00515     
00516     if (matchBxInEvent && validBxInEvent) {
00517         for (int iBit = 0; iBit < nTechBits; ++iBit) {
00518 
00519             triggerMask = (m_triggerMaskTechTrig.at(iBit)) & (1
00520                     << PhysicsPartition);
00521 
00522             if (gtTechnicalTriggerWordData[iBit]) {
00523                 m_fdlDataTechDecision[histIndex][iRec]->Fill(iBit);
00524 
00525                 bitValue = (triggerMask) ? 0 : 1;
00526                 gtTechnicalTriggerWordDataMask[iBit] = bitValue;
00527                 if (bitValue) {
00528                     m_fdlDataTechDecisionMask[histIndex][iRec]->Fill(iBit);                    
00529                 }
00530             }
00531 
00532             if (gtTechnicalTriggerWordEmul.at(iBit)) {
00533                 m_fdlEmulTechDecision[histIndex][iRec]->Fill(iBit);
00534 
00535                 bitValue = (triggerMask) ? 0 : 1;
00536                 gtTechnicalTriggerWordEmulMask[iBit] = bitValue;
00537                 if (bitValue) {
00538                     m_fdlEmulTechDecisionMask[histIndex][iRec]->Fill(iBit);                    
00539                 }
00540             }
00541         }
00542     }
00543     else {
00544         for (int iBit = 0; iBit < nTechBits; ++iBit) {
00545 
00546             if (gtTechnicalTriggerWordData[iBit]) {
00547                 m_fdlDataTechDecision_Err[iRec]->Fill(iBit);
00548             }
00549 
00550             if (gtTechnicalTriggerWordEmul.at(iBit)) {
00551                 m_fdlEmulTechDecision_Err[iRec]->Fill(iBit);
00552             }
00553         }
00554     }
00555 
00556     if (gtTechnicalTriggerWordData == gtTechnicalTriggerWordEmul) {
00557         m_myCoutStream << "\n" << recString
00558                 << " Data and emulated FDL gtTechnicalTriggerWord identical.\n";
00559         fdlBlockData.printGtTechnicalTriggerWord(m_myCoutStream);
00560         m_myCoutStream << "\n";
00561 
00562     }
00563     else {
00564         m_myCoutStream << "\n" << recString
00565                 << " Data and emulated FDL gtTechnicalTriggerWord different.";
00566         m_myCoutStream << "\n Data: ";
00567         fdlBlockData.printGtTechnicalTriggerWord(m_myCoutStream);
00568         m_myCoutStream << "\n Emul: ";
00569         fdlBlockEmul.printGtTechnicalTriggerWord(m_myCoutStream);
00570         m_myCoutStream << "\n";
00571 
00572         if (matchBxInEvent && validBxInEvent) {
00573             m_fdlDataEmul[histIndex][iRec]->Fill(4);
00574         }
00575         else {
00576             m_fdlDataEmul_Err[iRec]->Fill(4);
00577         }
00578 
00579         if (matchBxInEvent && validBxInEvent) {
00580             for (int iBit = 0; iBit < nTechBits; ++iBit) {
00581                 if (gtTechnicalTriggerWordData[iBit]
00582                         != gtTechnicalTriggerWordEmul.at(iBit)) {
00583                     m_fdlDataEmulTechDecision[histIndex][iRec]->Fill(iBit);
00584                 }
00585             }
00586         }
00587         else {
00588             for (int iBit = 0; iBit < nTechBits; ++iBit) {
00589                 if (gtTechnicalTriggerWordData[iBit]
00590                         != gtTechnicalTriggerWordEmul.at(iBit)) {
00591                     m_fdlDataEmulTechDecision_Err[iRec]->Fill(iBit);
00592                 }
00593             }
00594         }
00595     }
00596 
00597     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00598     m_myCoutStream.str("");
00599     m_myCoutStream.clear();
00600 
00601     if (gtTechnicalTriggerWordDataMask == gtTechnicalTriggerWordEmulMask) {
00602         m_myCoutStream << "\n" << recString
00603                 << " Data and emulated FDL gtTechnicalTriggerWord after mask identical.\n";
00604         m_myCoutStream << "\n";
00605 
00606     }
00607     else {
00608         m_myCoutStream << "\n" << recString
00609                 << " Data and emulated FDL gtTechnicalTriggerWord after mask different.";
00610         m_myCoutStream << "\n Data: ";
00611         m_myCoutStream << "\n Emul: ";
00612         m_myCoutStream << "\n";
00613 
00614         if (matchBxInEvent && validBxInEvent) {
00615             m_fdlDataEmul[histIndex][iRec]->Fill(5);
00616         }
00617         else {
00618             m_fdlDataEmul_Err[iRec]->Fill(5);
00619         }
00620 
00621         if (matchBxInEvent && validBxInEvent) {
00622             for (int iBit = 0; iBit < nTechBits; ++iBit) {
00623                 if (gtTechnicalTriggerWordData[iBit]
00624                         != gtTechnicalTriggerWordEmul.at(iBit)) {
00625                     m_fdlDataEmulTechDecisionMask[histIndex][iRec]->Fill(iBit);
00626                 }
00627             }
00628         }
00629     }
00630 
00631     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00632     m_myCoutStream.str("");
00633     m_myCoutStream.clear();
00634 
00635     // get algorithms bits (decision word)
00636     const DecisionWord gtDecisionWordData = fdlBlockData.gtDecisionWord();
00637     const DecisionWord gtDecisionWordEmul = fdlBlockEmul.gtDecisionWord();
00638 
00639     int nAlgoBits = gtDecisionWordData.size();
00640 
00641     DecisionWord gtDecisionWordDataMask(nAlgoBits);
00642     DecisionWord gtDecisionWordEmulMask(nAlgoBits);
00643 
00644     if (matchBxInEvent && validBxInEvent) {
00645         
00646         for (int iBit = 0; iBit < nAlgoBits; ++iBit) {
00647 
00648             triggerMask = (m_triggerMaskAlgoTrig.at(iBit))
00649                     & (1 << PhysicsPartition);
00650             
00651             if (gtDecisionWordData[iBit]) {
00652                 m_fdlDataAlgoDecision[histIndex][iRec]->Fill(iBit);
00653 
00654                 bitValue = (triggerMask) ? 0 : 1;
00655                 gtDecisionWordDataMask[iBit] = bitValue;
00656                 if (bitValue) {
00657                     m_fdlDataAlgoDecisionMask[histIndex][iRec]->Fill(iBit);                    
00658                 }
00659             }
00660 
00661             if (gtDecisionWordEmul.at(iBit)) {
00662                 m_fdlEmulAlgoDecision[histIndex][iRec]->Fill(iBit);
00663 
00664                 bitValue = (triggerMask) ? 0 : 1;
00665                 gtDecisionWordEmulMask[iBit] = bitValue;
00666                 if (bitValue) {
00667                     m_fdlEmulAlgoDecisionMask[histIndex][iRec]->Fill(iBit);                    
00668                 }
00669             }
00670         }
00671     }
00672     else {
00673         for (int iBit = 0; iBit < nAlgoBits; ++iBit) {
00674             if (gtDecisionWordData[iBit]) {
00675                 m_fdlDataAlgoDecision_Err[iRec]->Fill(iBit);
00676             }
00677         }
00678 
00679         for (int iBit = 0; iBit < nAlgoBits; ++iBit) {
00680             if (gtDecisionWordEmul.at(iBit)) {
00681                 m_fdlEmulAlgoDecision_Err[iRec]->Fill(iBit);
00682             }
00683         }
00684     }
00685 
00686     if (gtDecisionWordData == gtDecisionWordEmul) {
00687         m_myCoutStream << "\n" << recString
00688                 << " Data and emulated FDL gtDecisionWord identical.";
00689         fdlBlockData.printGtDecisionWord(m_myCoutStream);
00690         m_myCoutStream << "\n";
00691 
00692     }
00693     else {
00694         m_myCoutStream << "\n" << recString
00695                 << " Data and emulated FDL gtDecisionWord different.";
00696         m_myCoutStream << "\n Data: ";
00697         fdlBlockData.printGtDecisionWord(m_myCoutStream);
00698         m_myCoutStream << "\n Emul: ";
00699         fdlBlockEmul.printGtDecisionWord(m_myCoutStream);
00700         m_myCoutStream << "\n";
00701 
00702         if (matchBxInEvent && validBxInEvent) {
00703             m_fdlDataEmul[histIndex][iRec]->Fill(6);
00704         }
00705         else {
00706             m_fdlDataEmul_Err[iRec]->Fill(6);
00707         }
00708 
00709         if (matchBxInEvent && validBxInEvent) {
00710             for (int iBit = 0; iBit < nAlgoBits; ++iBit) {
00711                 if (gtDecisionWordData[iBit] != gtDecisionWordEmul.at(iBit)) {
00712                     m_fdlDataEmulAlgoDecision[histIndex][iRec]->Fill(iBit);
00713                 }
00714             }
00715         }
00716         else {
00717             for (int iBit = 0; iBit < nAlgoBits; ++iBit) {
00718                 if (gtDecisionWordData[iBit] != gtDecisionWordEmul.at(iBit)) {
00719                     m_fdlDataEmulAlgoDecision_Err[iRec]->Fill(iBit);
00720                 }
00721             }
00722         }
00723 
00724     }
00725 
00726     if (gtDecisionWordDataMask == gtDecisionWordEmulMask) {
00727         m_myCoutStream << "\n" << recString
00728                 << " Data and emulated FDL gtDecisionWord after mask identical.";
00729         m_myCoutStream << "\n";
00730 
00731     }
00732     else {
00733         m_myCoutStream << "\n" << recString
00734                 << " Data and emulated FDL gtDecisionWord after mask different.";
00735         m_myCoutStream << "\n Data: ";
00736         m_myCoutStream << "\n Emul: ";
00737         m_myCoutStream << "\n";
00738 
00739         if (matchBxInEvent && validBxInEvent) {
00740             m_fdlDataEmul[histIndex][iRec]->Fill(7);
00741         }
00742         else {
00743             m_fdlDataEmul_Err[iRec]->Fill(7);
00744         }
00745 
00746         if (matchBxInEvent && validBxInEvent) {
00747             for (int iBit = 0; iBit < nAlgoBits; ++iBit) {
00748                 if (gtDecisionWordDataMask[iBit] != gtDecisionWordEmulMask.at(iBit)) {
00749                     m_fdlDataEmulAlgoDecisionMask[histIndex][iRec]->Fill(iBit);
00750                 }
00751             }
00752         }
00753 
00754     }
00755 
00756     // get  extended algorithms bits (extended decision word)
00757     const DecisionWordExtended gtDecisionWordExtendedData =
00758             fdlBlockData.gtDecisionWordExtended();
00759     const DecisionWordExtended gtDecisionWordExtendedEmul =
00760             fdlBlockEmul.gtDecisionWordExtended();
00761 
00762     if (gtDecisionWordExtendedData == gtDecisionWordExtendedEmul) {
00763         m_myCoutStream << "\n" << recString
00764                 << " Data and emulated FDL gtDecisionWordExtended identical.\n";
00765         fdlBlockData.printGtDecisionWordExtended(m_myCoutStream);
00766         m_myCoutStream << "\n";
00767 
00768     }
00769     else {
00770         m_myCoutStream << "\n" << recString
00771                 << " Data and emulated FDL gtDecisionWordExtended different.\n";
00772         m_myCoutStream << "\n Data: ";
00773         fdlBlockData.printGtDecisionWordExtended(m_myCoutStream);
00774         m_myCoutStream << "\n Emul: ";
00775         fdlBlockEmul.printGtDecisionWordExtended(m_myCoutStream);
00776         m_myCoutStream << "\n";
00777 
00778         if (matchBxInEvent && validBxInEvent) {
00779             m_fdlDataEmul[histIndex][iRec]->Fill(8);
00780         }
00781         else {
00782             m_fdlDataEmul_Err[iRec]->Fill(8);
00783         }
00784 
00785     }
00786 
00787     // get  NoAlgo
00788     const boost::uint16_t noAlgoData = fdlBlockData.noAlgo();
00789     const boost::uint16_t noAlgoEmul = fdlBlockEmul.noAlgo();
00790 
00791     if (noAlgoData == noAlgoEmul) {
00792         m_myCoutStream << "\n" << recString
00793                 << " Data and emulated FDL noAlgo identical.";
00794         m_myCoutStream << "\n noAlgo() = " << noAlgoData;
00795         m_myCoutStream << "\n";
00796 
00797     }
00798     else {
00799         m_myCoutStream << "\n" << recString
00800                 << " Data and emulated FDL noAlgo different.";
00801         m_myCoutStream << "\n Data: noAlgo() = " << noAlgoData;
00802         m_myCoutStream << "\n Emul: noAlgo() = " << noAlgoEmul;
00803         m_myCoutStream << "\n";
00804 
00805         if (matchBxInEvent && validBxInEvent) {
00806             m_fdlDataEmul[histIndex][iRec]->Fill(9);
00807         }
00808         else {
00809             m_fdlDataEmul_Err[iRec]->Fill(9);
00810         }
00811 
00812     }
00813 
00814     // get  "Final OR" bits
00815     const boost::uint16_t finalORData = fdlBlockData.finalOR();
00816     const boost::uint16_t finalOREmul = fdlBlockEmul.finalOR();
00817 
00818     if (finalORData == finalOREmul) {
00819         m_myCoutStream << "\n" << recString
00820                 << " Data and emulated FDL finalOR identical.";
00821         m_myCoutStream << "\n finalOR() = " << std::hex << "0x" << std::setw(2)
00822                 << std::setfill('0') << finalORData << std::setfill(' ')
00823                 << std::dec;
00824         m_myCoutStream << "\n";
00825 
00826     }
00827     else {
00828         m_myCoutStream << "\n" << recString
00829                 << " Data and emulated FDL finalOR different.";
00830         m_myCoutStream << "\n Data: finalOR() = " << std::hex << "0x"
00831                 << std::setw(2) << std::setfill('0') << finalORData
00832                 << std::setfill(' ') << std::dec;
00833         m_myCoutStream << "\n Emul: finalOR() = " << std::hex << "0x"
00834                 << std::setw(2) << std::setfill('0') << finalOREmul
00835                 << std::setfill(' ') << std::dec;
00836         m_myCoutStream << "\n";
00837 
00838         if (matchBxInEvent && validBxInEvent) {
00839             m_fdlDataEmul[histIndex][iRec]->Fill(10);
00840         }
00841         else {
00842             m_fdlDataEmul_Err[iRec]->Fill(10);
00843         }
00844 
00845     }
00846 
00847     // get  "Final OR" for physics partition
00848     const int finalORPhysData = finalORData & (1 << PhysicsPartition);
00849     const int finalORPhysEmul = finalOREmul & (1 << PhysicsPartition);
00850 
00851     if (finalORPhysData == finalORPhysEmul) {
00852         m_myCoutStream << "\n" << recString
00853                 << " Data and emulated FDL finalOR for the physics partition identical.";
00854         m_myCoutStream << "\n finalOR() = " << finalORPhysData;
00855         m_myCoutStream << "\n";
00856 
00857     }
00858     else {
00859         m_myCoutStream << "\n" << recString
00860                 << " Data and emulated FDL finalOR for the physics partition  different.";
00861         m_myCoutStream << "\n Data: finalOR() = " << finalORPhysData;
00862         m_myCoutStream << "\n Emul: finalOR() = " << finalORPhysEmul;
00863         m_myCoutStream << "\n";
00864 
00865         if (matchBxInEvent && validBxInEvent) {
00866             m_fdlDataEmul[histIndex][iRec]->Fill(11);
00867         }
00868         else {
00869             m_fdlDataEmul_Err[iRec]->Fill(11);
00870         }
00871 
00872     }
00873 
00874     // get  local bunch cross number of the actual bx
00875     const boost::uint16_t localBxNrData = fdlBlockData.localBxNr();
00876     const boost::uint16_t localBxNrEmul = fdlBlockEmul.localBxNr();
00877 
00878     if (localBxNrData == localBxNrEmul) {
00879         m_myCoutStream << "\n" << recString
00880                 << " Data and emulated FDL localBxNr identical.";
00881         m_myCoutStream << "\n localBxNr() = " << localBxNrData;
00882         m_myCoutStream << "\n";
00883 
00884     }
00885     else {
00886         m_myCoutStream << "\n" << recString
00887                 << " Data and emulated FDL localBxNr different.";
00888         m_myCoutStream << "\n Data: localBxNr() = " << localBxNrData;
00889         m_myCoutStream << "\n Emul: localBxNr() = " << localBxNrEmul;
00890         m_myCoutStream << "\n";
00891 
00892         if (matchBxInEvent && validBxInEvent) {
00893             m_fdlDataEmul[histIndex][iRec]->Fill(12);
00894         }
00895         else {
00896             m_fdlDataEmul_Err[iRec]->Fill(12);
00897         }
00898 
00899     }
00900 
00901     edm::LogInfo("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00902     m_myCoutStream.str("");
00903     m_myCoutStream.clear();
00904 
00905 }
00906 
00907 //compare the PSB board
00908 void L1GtDataEmulAnalyzer::comparePSB(const edm::Event& iEvent,
00909         const edm::EventSetup& evSetup, const L1GtPsbWord& psbBlockData,
00910         const L1GtPsbWord& psbBlockEmul) {
00911 
00912     if (psbBlockData == psbBlockEmul) {
00913         m_myCoutStream << "\nData and emulated PSB blocks: identical.\n";
00914         psbBlockData.print(m_myCoutStream);
00915 
00916     }
00917     else {
00918         m_myCoutStream << "\nData and emulated PSB blocks: different.\n";
00919 
00920         m_myCoutStream << "\nData: PSB block\n";
00921         psbBlockData.print(m_myCoutStream);
00922 
00923         m_myCoutStream << "\nEmul: PSB block\n";
00924         psbBlockEmul.print(m_myCoutStream);
00925 
00926     }
00927 
00928     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
00929 
00930     m_myCoutStream.str("");
00931     m_myCoutStream.clear();
00932 
00933     // get BoardId value
00934     const boost::uint16_t boardIdData = psbBlockData.boardId();
00935     const boost::uint16_t boardIdEmul = psbBlockEmul.boardId();
00936 
00937     if (boardIdData == boardIdEmul) {
00938         m_myCoutStream << "\nData and emulated PSB boardId identical.";
00939         m_myCoutStream << "\n boardId() = " << std::hex << "0x" << std::setw(4)
00940                 << std::setfill('0') << boardIdData << std::setfill(' ')
00941                 << std::dec;
00942         m_myCoutStream << "\n";
00943 
00944     }
00945     else {
00946         m_myCoutStream << "\nData and emulated PSB boardId different.";
00947         m_myCoutStream << "\n Data: boardId() = " << std::hex << "0x"
00948                 << std::setw(4) << std::setfill('0') << boardIdData
00949                 << std::setfill(' ') << std::dec;
00950         m_myCoutStream << "\n Emul: boardId() = " << std::hex << "0x"
00951                 << std::setw(4) << std::setfill('0') << boardIdEmul
00952                 << std::setfill(' ') << std::dec;
00953         m_myCoutStream << "\n";
00954 
00955     }
00956 
00957     // get bunch cross in the GT event record
00958     const int bxInEventData = psbBlockData.bxInEvent();
00959     const int bxInEventEmul = psbBlockEmul.bxInEvent();
00960 
00961     if (bxInEventData == bxInEventEmul) {
00962         m_myCoutStream << "\nData and emulated PSB bxInEvent identical.";
00963         m_myCoutStream << "\n bxInEvent() = " << bxInEventData;
00964         m_myCoutStream << "\n";
00965 
00966     }
00967     else {
00968         m_myCoutStream << "\nData and emulated PSB bxInEvent different.";
00969         m_myCoutStream << "\n Data: bxInEvent() = " << bxInEventData;
00970         m_myCoutStream << "\n Emul: bxInEvent() = " << bxInEventEmul;
00971         m_myCoutStream << "\n";
00972 
00973     }
00974 
00975     // get BxNr - bunch cross number of the actual bx
00976     const boost::uint16_t bxNrData = psbBlockData.bxNr();
00977     const boost::uint16_t bxNrEmul = psbBlockEmul.bxNr();
00978 
00979     if (bxNrData == bxNrEmul) {
00980         m_myCoutStream << "\nData and emulated PSB bxNr identical.";
00981         m_myCoutStream << "\n bxNr() = " << bxNrData;
00982         m_myCoutStream << "\n";
00983 
00984     }
00985     else {
00986         m_myCoutStream << "\nData and emulated PSB bxNr different.";
00987         m_myCoutStream << "\n Data: bxNr() = " << bxNrData;
00988         m_myCoutStream << "\n Emul: bxNr() = " << bxNrEmul;
00989         m_myCoutStream << "\n";
00990 
00991     }
00992 
00993     // get event number since last L1 reset generated in FDL
00994     const boost::uint32_t eventNrData = psbBlockData.eventNr();
00995     const boost::uint32_t eventNrEmul = psbBlockEmul.eventNr();
00996 
00997     if (eventNrData == eventNrEmul) {
00998         m_myCoutStream << "\nData and emulated PSB eventNr identical.";
00999         m_myCoutStream << "\n eventNr() = " << eventNrData;
01000         m_myCoutStream << "\n";
01001 
01002     }
01003     else {
01004         m_myCoutStream << "\nData and emulated PSB eventNr different.";
01005         m_myCoutStream << "\n Data: eventNr() = " << eventNrData;
01006         m_myCoutStream << "\n Emul: eventNr() = " << eventNrEmul;
01007         m_myCoutStream << "\n";
01008 
01009     }
01010 
01012     boost::uint16_t valData;
01013     boost::uint16_t valEmul;
01014 
01015     for (int iA = 0; iA < psbBlockData.NumberAData; ++iA) {
01016         valData = psbBlockData.aData(iA);
01017         valEmul = psbBlockEmul.aData(iA);
01018 
01019         if (valData == valEmul) {
01020             m_myCoutStream << "\nData and emulated PSB aData(" << iA
01021                     << ") identical.";
01022             m_myCoutStream << "\n aData(iA) = " << std::hex << "0x"
01023                     << std::setw(4) << std::setfill('0') << valData
01024                     << std::setfill(' ') << std::dec;
01025             m_myCoutStream << "\n";
01026 
01027         }
01028         else {
01029             m_myCoutStream << "\nData and emulated PSB aData(" << iA
01030                     << ") different.";
01031             m_myCoutStream << "\n Data: aData(iA) = " << std::hex << "0x"
01032                     << std::setw(4) << std::setfill('0') << valData
01033                     << std::setfill(' ') << std::dec;
01034             m_myCoutStream << "\n Emul: aData(iA) = "<< std::hex << "0x"
01035                     << std::setw(4) << std::setfill('0') << valEmul
01036                     << std::setfill(' ') << std::dec;
01037             m_myCoutStream << "\n";
01038 
01039         }
01040 
01041     }
01042 
01044     for (int iB = 0; iB < psbBlockData.NumberBData; ++iB) {
01045         valData = psbBlockData.bData(iB);
01046         valEmul = psbBlockEmul.bData(iB);
01047 
01048         if (valData == valEmul) {
01049             m_myCoutStream << "\nData and emulated PSB bData(" << iB
01050                     << ") identical.";
01051             m_myCoutStream << "\n bData(iA) = " << std::hex << "0x"
01052                     << std::setw(4) << std::setfill('0') << valData
01053                     << std::setfill(' ') << std::dec;
01054             m_myCoutStream << "\n";
01055 
01056         }
01057         else {
01058             m_myCoutStream << "\nData and emulated PSB bData(" << iB
01059                     << ") different.";
01060             m_myCoutStream << "\n Data: bData(iA) = " << std::hex << "0x"
01061                     << std::setw(4) << std::setfill('0') << valData
01062                     << std::setfill(' ') << std::dec;
01063             m_myCoutStream << "\n Emul: bData(iA) = "<< std::hex << "0x"
01064                     << std::setw(4) << std::setfill('0') << valEmul
01065                     << std::setfill(' ') << std::dec;
01066             m_myCoutStream << "\n";
01067 
01068         }
01069 
01070     }
01071 
01072     // get  local bunch cross number of the actual bx
01073     const boost::uint16_t localBxNrData = psbBlockData.localBxNr();
01074     const boost::uint16_t localBxNrEmul = psbBlockEmul.localBxNr();
01075 
01076     if (localBxNrData == localBxNrEmul) {
01077         m_myCoutStream << "\nData and emulated PSB localBxNr identical.";
01078         m_myCoutStream << "\n localBxNr() = " << localBxNrData;
01079         m_myCoutStream << "\n";
01080 
01081     }
01082     else {
01083         m_myCoutStream << "\nData and emulated PSB localBxNr different.";
01084         m_myCoutStream << "\n Data: localBxNr() = " << localBxNrData;
01085         m_myCoutStream << "\n Emul: localBxNr() = " << localBxNrEmul;
01086         m_myCoutStream << "\n";
01087 
01088     }
01089 
01090     edm::LogInfo("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
01091     m_myCoutStream.str("");
01092     m_myCoutStream.clear();
01093 
01094 }
01095 
01096 //compare the TCS board
01097 void L1GtDataEmulAnalyzer::compareTCS(const edm::Event& iEvent,
01098         const edm::EventSetup& evSetup, const L1TcsWord&, const L1TcsWord&) {
01099     // empty
01100 }
01101 
01102 //L1 GT DAQ record comparison
01103 void L1GtDataEmulAnalyzer::compareDaqRecord(const edm::Event& iEvent,
01104         const edm::EventSetup& evSetup) {
01105 
01106     // formal index for DAQ record 
01107     int iRec = 0;
01108 
01109     // get the L1 GT hardware DAQ record L1GlobalTriggerReadoutRecord
01110     edm::Handle<L1GlobalTriggerReadoutRecord> gtReadoutRecordData;
01111     iEvent.getByLabel(m_l1GtDataInputTag, gtReadoutRecordData);
01112 
01113     bool validData = false;
01114 
01115     if (!gtReadoutRecordData.isValid()) {
01116         m_nrDataEventError++;
01117     }
01118     else {
01119         validData = true;
01120     }
01121 
01122     // get the L1 GT emulator DAQ record L1GlobalTriggerReadoutRecord
01123     edm::Handle<L1GlobalTriggerReadoutRecord> gtReadoutRecordEmul;
01124     iEvent.getByLabel(m_l1GtEmulInputTag, gtReadoutRecordEmul);
01125 
01126     bool validEmul = false;
01127 
01128     if (!gtReadoutRecordEmul.isValid()) {
01129         m_nrEmulEventError++;
01130     }
01131     else {
01132         validEmul = true;
01133     }
01134 
01135     if ((!validData) || (!validEmul)) {
01136         edm::LogWarning("L1GtDataEmulAnalyzer") << "\n Valid data:"
01137                 << validData << "\n Valid emulator:" << validEmul << std::endl;
01138     }
01139 
01140     // compare GTFE
01141     const L1GtfeWord& gtfeBlockData = gtReadoutRecordData->gtfeWord();
01142     const L1GtfeWord& gtfeBlockEmul = gtReadoutRecordEmul->gtfeWord();
01143 
01144     compareGTFE(iEvent, evSetup, gtfeBlockData, gtfeBlockEmul);
01145 
01146     // FDL comparison
01147     const std::vector<L1GtFdlWord>& gtFdlVectorData =
01148             gtReadoutRecordData->gtFdlVector();
01149     const std::vector<L1GtFdlWord>& gtFdlVectorEmul =
01150             gtReadoutRecordEmul->gtFdlVector();
01151 
01152     int gtFdlVectorDataSize = gtFdlVectorData.size();
01153     int gtFdlVectorEmulSize = gtFdlVectorEmul.size();
01154 
01155     if (gtFdlVectorDataSize == gtFdlVectorEmulSize) {
01156         m_myCoutStream << "\nData and emulated FDL vector size: identical.\n";
01157         m_myCoutStream << "  Size: " << gtFdlVectorDataSize << std::endl;
01158 
01159         for (int iFdl = 0; iFdl < gtFdlVectorDataSize; ++iFdl) {
01160 
01161             const L1GtFdlWord& fdlBlockData = gtFdlVectorData[iFdl];
01162             const L1GtFdlWord& fdlBlockEmul = gtFdlVectorEmul[iFdl];
01163 
01164             compareFDL(iEvent, evSetup, fdlBlockData, fdlBlockEmul, iRec);
01165         }
01166     }
01167     else {
01168         m_myCoutStream << "\nData and emulated FDL vector size: different.\n";
01169         m_myCoutStream << "  Data: size = " << gtFdlVectorDataSize << std::endl;
01170         m_myCoutStream << "  Emul: size = " << gtFdlVectorEmulSize << std::endl;
01171 
01172     }
01173 
01174     LogDebug("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
01175 
01176     m_myCoutStream.str("");
01177     m_myCoutStream.clear();
01178 
01179     // PSB comparison
01180     const std::vector<L1GtPsbWord>& gtPsbVectorData =
01181             gtReadoutRecordData->gtPsbVector();
01182     const std::vector<L1GtPsbWord>& gtPsbVectorEmul =
01183             gtReadoutRecordEmul->gtPsbVector();
01184 
01185     int gtPsbVectorDataSize = gtPsbVectorData.size();
01186     int gtPsbVectorEmulSize = gtPsbVectorEmul.size();
01187 
01188     if (gtPsbVectorDataSize == gtPsbVectorEmulSize) {
01189         m_myCoutStream << "\nData and emulated PSB vector size: identical.\n";
01190         m_myCoutStream << "  Size: " << gtPsbVectorDataSize << std::endl;
01191     }
01192     else {
01193         m_myCoutStream << "\nData and emulated PSB vector size: different.\n";
01194         m_myCoutStream << "  Data: size = " << gtPsbVectorDataSize << std::endl;
01195         m_myCoutStream << "  Emul: size = " << gtPsbVectorEmulSize << std::endl;
01196 
01197     }
01198 
01199     // the order of PSB block in the gtPsbVector is different in emulator and in data
01200     // in emulator: all active PSB in one BxInEvent, ordered L1A-1, L1A, L1A+1
01201     // in unpacker: every PSB in all BxInEvent
01202     for (int iPsb = 0; iPsb < gtPsbVectorDataSize; ++iPsb) {
01203 
01204         const L1GtPsbWord& psbBlockData = gtPsbVectorData[iPsb];
01205         const boost::uint16_t boardIdData = psbBlockData.boardId();
01206         const int bxInEventData = psbBlockData.bxInEvent();
01207 
01208         // search the corresponding PSB in the emulated record using the 
01209         // BoardId and the BxInEvent  
01210 
01211         bool foundPSB = false;
01212 
01213         for (int iPsbF = 0; iPsbF < gtPsbVectorEmulSize; ++iPsbF) {
01214 
01215             const L1GtPsbWord& psbBlockEmul = gtPsbVectorEmul[iPsbF];
01216             const boost::uint16_t boardIdEmul = psbBlockEmul.boardId();
01217             const int bxInEventEmul = psbBlockEmul.bxInEvent();
01218 
01219             if ((boardIdEmul == boardIdData)
01220                     && (bxInEventData == bxInEventEmul)) {
01221 
01222                 foundPSB = true;
01223 
01224                 // compare the boards
01225                 comparePSB(iEvent, evSetup, psbBlockData, psbBlockEmul);
01226             }
01227 
01228         }
01229 
01230         if (!foundPSB) {
01231             m_myCoutStream << "\nNo emulated PSB with boardId() = " << std::hex
01232                     << "0x" << std::setw(4) << std::setfill('0') << boardIdData
01233                     << std::setfill(' ') << std::dec << " and BxInEvent = "
01234                     << bxInEventData << " was found";
01235 
01236         }
01237 
01238     }
01239 
01240     edm::LogInfo("L1GtDataEmulAnalyzer") << m_myCoutStream.str() << std::endl;
01241 
01242     m_myCoutStream.str("");
01243     m_myCoutStream.clear();
01244 
01245 }
01246 
01247 // L1 GT EVM record comparison
01248 void L1GtDataEmulAnalyzer::compareEvmRecord(const edm::Event& iEvent,
01249         const edm::EventSetup&) {
01250 
01251     // FIXME
01252 
01253 }
01254 
01255 // compare the GCT collections obtained from L1 GT PSB with the input 
01256 // GCT collections
01257 void L1GtDataEmulAnalyzer::compareGt_Gct(const edm::Event& iEvent,
01258         const edm::EventSetup&) {
01259 
01260     // FIXME
01261 
01262 }
01263 
01264 // analyze each event: event loop
01265 void L1GtDataEmulAnalyzer::analyze(const edm::Event& iEvent,
01266         const edm::EventSetup& evSetup) {
01267 
01268     // L1 GT DAQ record comparison
01269     compareDaqRecord(iEvent, evSetup);
01270 
01271     // L1 GT EVM record comparison
01272     compareEvmRecord(iEvent, evSetup);
01273 
01274     // GCT collections from L1 GT PSB versus unpacked GCT 
01275     compareGt_Gct(iEvent, evSetup);
01276 
01277 }
01278 
01279 // book all histograms for the module
01280 void L1GtDataEmulAnalyzer::bookHistograms() {
01281     // histogram service
01282     edm::Service<TFileService> histServ;
01283 
01284     // histograms
01285 
01286     // GTFE histograms
01287     TFileDirectory gtfeHist = histServ->mkdir("GTFE");
01288     m_gtfeDataEmul = gtfeHist.make<TH1F>("gtfeDataEmul", "GTFE data vs emul",
01289             6, 0., 6.);
01290     m_gtfeDataEmul->GetXaxis()->SetBinLabel(1, "BoardId");
01291     m_gtfeDataEmul->GetXaxis()->SetBinLabel(2, "RecordLength");
01292     m_gtfeDataEmul->GetXaxis()->SetBinLabel(3, "BxNr");
01293     m_gtfeDataEmul->GetXaxis()->SetBinLabel(4, "SetupVersion");
01294     m_gtfeDataEmul->GetXaxis()->SetBinLabel(5, "DaqActiveBoards");
01295     m_gtfeDataEmul->GetXaxis()->SetBinLabel(6, "TotalTriggerNr");
01296 
01297     // FDL histograms
01298 
01299     TFileDirectory fdlHist = histServ->mkdir("FDL");
01300 
01301     const unsigned int numberTechTriggers =
01302             L1GlobalTriggerReadoutSetup::NumberTechnicalTriggers;
01303 
01304     const unsigned int numberAlgoTriggers =
01305             L1GlobalTriggerReadoutSetup::NumberPhysTriggers;
01306 
01307     for (int iRec = 0; iRec < 2; ++iRec) {
01308 
01309         std::string recString;
01310         if (iRec == 0) {
01311             recString = "Daq";
01312         }
01313         else {
01314             recString = "Evm";
01315         }
01316 
01317         std::string hName;
01318         const char* histName;
01319 
01320         for (int iHist = 0; iHist < TotalBxInEvent; ++iHist) {
01321 
01322             // convert [0, TotalBxInEvent] to [-X, +X] and add to histogram name 
01323             int iIndex = iHist - ((TotalBxInEvent + 1)/2 -1);
01324             int hIndex = (iIndex + 16)%16;
01325 
01326             std::stringstream ss;
01327             std::string str;
01328             ss << std::uppercase << std::hex << hIndex;
01329             ss >> str;
01330 
01331             hName = recString + "FdlDataEmul_" + str;
01332             histName = hName.c_str();
01333 
01334             std::string hTitle = "FDL data vs emul mismatch for BxInEvent = "
01335                     + str;
01336             const char* histTitle = hTitle.c_str();
01337 
01338             //
01339 
01340             m_fdlDataEmul[iHist][iRec] = fdlHist.make<TH1F>(histName, histTitle,
01341                     13, 0., 13.);
01342             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(1, "BoardId");
01343             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(2, "BxInEvent");
01344             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(3, "BxNr");
01345             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(4, "EventNr");
01346             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(5, "TechTrigger");
01347             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(6, "TechTriggerMask");
01348             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(7, "AlgoTrigger");
01349             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(8, "AlgoTriggerMask");
01350             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(9, "AlgoExtend");
01351             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(10, "NoAlgo");
01352             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(11, "FinalORAllParts");
01353             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(12, "FinalORPhysPart");
01354             m_fdlDataEmul[iHist][iRec]->GetXaxis()->SetBinLabel(13, "LocalBxNr");
01355 
01356             // algorithm decision
01357             //   data
01358             hName = recString + "FdlDataAlgoDecision_" + str;
01359             histName = hName.c_str();
01360 
01361             hTitle = "Data: algorithm decision word for BxInEvent = " + str;
01362             histTitle = hTitle.c_str();
01363 
01364             m_fdlDataAlgoDecision[iHist][iRec] = fdlHist.make<TH1F>(histName,
01365                     histTitle, numberAlgoTriggers, 0., numberAlgoTriggers);
01366 
01367             //   emul
01368             hName = recString + "FdlEmulAlgoDecision_" + str;
01369             histName = hName.c_str();
01370 
01371             hTitle = "Emul: algorithm decision word for BxInEvent = " + str;
01372             histTitle = hTitle.c_str();
01373 
01374             m_fdlEmulAlgoDecision[iHist][iRec] = fdlHist.make<TH1F>(histName,
01375                     histTitle, numberAlgoTriggers, 0., numberAlgoTriggers);
01376 
01377             // algorithm decision after masking (partition physics)
01378             //   data
01379             hName = recString + "FdlDataAlgoDecisionMask_" + str;
01380             histName = hName.c_str();
01381 
01382             hTitle
01383                     = "Data, physics partition: algorithm decision word after mask for BxInEvent = "
01384                             + str;
01385             histTitle = hTitle.c_str();
01386 
01387             m_fdlDataAlgoDecisionMask[iHist][iRec] = fdlHist.make<TH1F>(histName,
01388                     histTitle, numberAlgoTriggers, 0., numberAlgoTriggers);
01389 
01390             //   emul
01391             hName = recString + "FdlEmulAlgoDecisionMask_" + str;
01392             histName = hName.c_str();
01393 
01394             hTitle
01395                     = "Emul, physics partition: algorithm decision word after mask for BxInEvent =  "
01396                             + str;
01397             histTitle = hTitle.c_str();
01398 
01399             m_fdlEmulAlgoDecisionMask[iHist][iRec] = fdlHist.make<TH1F>(histName,
01400                     histTitle, numberAlgoTriggers, 0., numberAlgoTriggers);
01401 
01402             //
01403             hName = recString + "FdlDataEmulAlgoDecision_" + str;
01404             histName = hName.c_str();
01405 
01406             hTitle
01407                     = "Data vs emul: non-matching algorithm decision word for BxInEvent = "
01408                             + str;
01409             histTitle = hTitle.c_str();
01410 
01411             m_fdlDataEmulAlgoDecision[iHist][iRec] = fdlHist.make<TH1F>(
01412                     histName, histTitle, numberAlgoTriggers, 0.,
01413                     numberAlgoTriggers);
01414 
01415             // 
01416             hName = recString + "FdlDataEmulAlgoDecisionMask_" + str;
01417             histName = hName.c_str();
01418 
01419             hTitle
01420                     = "Data vs emul, physics partition: non-matching algorithm decision word after mask for BxInEvent = "
01421                             + str;
01422             histTitle = hTitle.c_str();
01423 
01424             m_fdlDataEmulAlgoDecisionMask[iHist][iRec] = fdlHist.make<TH1F>(
01425                     histName, histTitle, numberAlgoTriggers, 0.,
01426                     numberAlgoTriggers);
01427 
01428             // technical trigger decision 
01429             //   data
01430             hName = recString + "FdlDataTechDecision_" + str;
01431             histName = hName.c_str();
01432 
01433             hTitle = "Data technical trigger decision word for BxInEvent = "
01434                     + str;
01435             histTitle = hTitle.c_str();
01436 
01437             m_fdlDataTechDecision[iHist][iRec] = fdlHist.make<TH1F>(histName,
01438                     histTitle, numberTechTriggers, 0., numberTechTriggers);
01439 
01440             //   emul
01441             hName = recString + "FdlEmulTechDecision_" + str;
01442             histName = hName.c_str();
01443 
01444             hTitle = "Emul: technical trigger decision word for BxInEvent = "
01445                     + str;
01446             histTitle = hTitle.c_str();
01447 
01448             m_fdlEmulTechDecision[iHist][iRec] = fdlHist.make<TH1F>(histName,
01449                     histTitle, numberTechTriggers, 0., numberTechTriggers);
01450 
01451             // technical trigger decision after masking (partition physics)
01452             hName = recString + "FdlDataTechDecisionMask_" + str;
01453             histName = hName.c_str();
01454 
01455             hTitle
01456                     = "Data technical trigger decision word after mask for BxInEvent = "
01457                             + str;
01458             histTitle = hTitle.c_str();
01459 
01460             m_fdlDataTechDecisionMask[iHist][iRec] = fdlHist.make<TH1F>(histName,
01461                     histTitle, numberTechTriggers, 0., numberTechTriggers);
01462 
01463             //
01464             hName = recString + "FdlEmulTechDecisionMask_" + str;
01465             histName = hName.c_str();
01466 
01467             hTitle
01468                     = "Emul: technical trigger decision word after mask for BxInEvent = "
01469                             + str;
01470             histTitle = hTitle.c_str();
01471 
01472             m_fdlEmulTechDecisionMask[iHist][iRec] = fdlHist.make<TH1F>(histName,
01473                     histTitle, numberTechTriggers, 0., numberTechTriggers);
01474 
01475             //
01476             hName = recString + "FdlDataEmulTechDecision_" + str;
01477             histName = hName.c_str();
01478 
01479             hTitle
01480                     = "Data vs emul: non-matching technical trigger decision word for BxInEvent = "
01481                             + str;
01482             histTitle = hTitle.c_str();
01483 
01484             m_fdlDataEmulTechDecision[iHist][iRec] = fdlHist.make<TH1F>(
01485                     histName, histTitle, numberTechTriggers, 0.,
01486                     numberTechTriggers);
01487 
01488             hName = recString + "FdlDataEmulTechDecisionMask_" + str;
01489             histName = hName.c_str();
01490 
01491             hTitle
01492                     = "Data vs emul: non-matching technical trigger decision word after mask for BxInEvent = "
01493                             + str;
01494             histTitle = hTitle.c_str();
01495 
01496             m_fdlDataEmulTechDecisionMask[iHist][iRec] = fdlHist.make<TH1F>(
01497                     histName, histTitle, numberTechTriggers, 0.,
01498                     numberTechTriggers);
01499 
01500         }
01501 
01502         hName = recString + "FdlDataEmul_Err";
01503         histName = hName.c_str();
01504 
01505         m_fdlDataEmul_Err[iRec] = fdlHist.make<TH1F>(histName,
01506                 "FDL data vs emul: non-matching BxInEvent", 13, 0., 13.);
01507         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(1, "BoardId");
01508         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(2, "BxInEvent");
01509         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(3, "BxNr");
01510         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(4, "EventNr");
01511         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(5, "TechTrigger");
01512         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(6, "TechTriggerMask");
01513         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(7, "AlgoTrigger");
01514         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(8, "AlgoTriggerMask");
01515         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(9, "AlgoExtend");
01516         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(10, "NoAlgo");
01517         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(11, "FinalORAllParts");
01518         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(12, "FinalORPhysPart");
01519         m_fdlDataEmul_Err[iRec]->GetXaxis()->SetBinLabel(13, "LocalBxNr");
01520 
01521         hName = recString + "FdlDataAlgoDecision_Err";
01522         histName = hName.c_str();
01523 
01524         m_fdlDataAlgoDecision_Err[iRec]
01525                 = fdlHist.make<TH1F>(
01526                         histName,
01527                         "Data: algorithm trigger decision word, non-matching BxInEvent",
01528                         numberAlgoTriggers, 0., numberAlgoTriggers);
01529 
01530         //
01531         hName = recString + "FdlEmulAlgoDecision_Err";
01532         histName = hName.c_str();
01533 
01534         m_fdlEmulAlgoDecision_Err[iRec]
01535                 = fdlHist.make<TH1F>(
01536                         histName,
01537                         "Emul: algorithm trigger decision word, non-matching BxInEvent",
01538                         numberAlgoTriggers, 0., numberAlgoTriggers);
01539 
01540         hName = recString + "FdlDataEmulAlgoDecision_Err";
01541         histName = hName.c_str();
01542 
01543         m_fdlDataEmulAlgoDecision_Err[iRec]
01544                 = fdlHist.make<TH1F>(
01545                         histName,
01546                         "Data vs emul: algorithm trigger decision word, non-matching BxInEvent",
01547                         numberAlgoTriggers, 0., numberAlgoTriggers);
01548 
01549         //
01550         hName = recString + "FdlDataTechDecision_Err";
01551         histName = hName.c_str();
01552 
01553         m_fdlDataTechDecision_Err[iRec]
01554                 = fdlHist.make<TH1F>(
01555                         histName,
01556                         "Data: technical trigger decision word, non-matching BxInEvent",
01557                         numberTechTriggers, 0., numberTechTriggers);
01558 
01559         hName = recString + "FdlEmulTechDecision_Err";
01560         histName = hName.c_str();
01561 
01562         m_fdlEmulTechDecision_Err[iRec]
01563                 = fdlHist.make<TH1F>(
01564                         histName,
01565                         "Emul: technical trigger decision word, non-matching BxInEvent",
01566                         numberTechTriggers, 0., numberTechTriggers);
01567 
01568         hName = recString + "FdlDataEmulTechDecision_Err";
01569         histName = hName.c_str();
01570 
01571         m_fdlDataEmulTechDecision_Err[iRec]
01572                 = fdlHist.make<TH1F>(
01573                         histName,
01574                         "Data vs emul: technical trigger decision word, non-matching BxInEvent",
01575                         numberTechTriggers, 0., numberTechTriggers);
01576 
01577     }
01578 }
01579 
01580 // method called once each job just after ending the event loop
01581 void L1GtDataEmulAnalyzer::endJob() {
01582 
01583     // empty
01584 
01585 }
01586