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/data/refman/pasoursint/CMSSW_5_3_10/src/CondFormats/L1TObjects/src/L1GtStableParameters.cc

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00001 
00017 // this class header
00018 #include "CondFormats/L1TObjects/interface/L1GtStableParameters.h"
00019 
00020 // system include files
00021 
00022 #include <iomanip>
00023 
00024 
00025 // user include files
00026 //   base class
00027 
00028 // forward declarations
00029 
00030 // constructor
00031 L1GtStableParameters::L1GtStableParameters() {
00032     // empty
00033 }
00034 
00035 // destructor
00036 L1GtStableParameters::~L1GtStableParameters() {
00037     // empty
00038 }
00039 
00040 // set the number of physics trigger algorithms
00041 void L1GtStableParameters::setGtNumberPhysTriggers(
00042     const unsigned int& numberPhysTriggersValue) {
00043 
00044     m_numberPhysTriggers = numberPhysTriggersValue;
00045 
00046 }
00047 
00048 // set the additional number of physics trigger algorithms
00049 void L1GtStableParameters::setGtNumberPhysTriggersExtended(
00050     const unsigned int& numberPhysTriggersExtendedValue) {
00051 
00052     m_numberPhysTriggersExtended = numberPhysTriggersExtendedValue;
00053 
00054 }
00055 
00056 // set the number of technical triggers
00057 void L1GtStableParameters::setGtNumberTechnicalTriggers(
00058     const unsigned int& numberTechnicalTriggersValue) {
00059 
00060     m_numberTechnicalTriggers = numberTechnicalTriggersValue;
00061 
00062 }
00063 
00064 // set the number of L1 muons received by GT
00065 void L1GtStableParameters::setGtNumberL1Mu(const unsigned int& numberL1MuValue) {
00066 
00067     m_numberL1Mu = numberL1MuValue;
00068 
00069 }
00070 
00071 //  set the number of L1 e/gamma objects received by GT
00072 void L1GtStableParameters::setGtNumberL1NoIsoEG(
00073     const unsigned int& numberL1NoIsoEGValue) {
00074 
00075     m_numberL1NoIsoEG = numberL1NoIsoEGValue;
00076 
00077 }
00078 
00079 //  set the number of L1 isolated e/gamma objects received by GT
00080 void L1GtStableParameters::setGtNumberL1IsoEG(
00081     const unsigned int& numberL1IsoEGValue) {
00082 
00083     m_numberL1IsoEG = numberL1IsoEGValue;
00084 
00085 }
00086 
00087 // set the number of L1 central jets received by GT
00088 void L1GtStableParameters::setGtNumberL1CenJet(
00089     const unsigned int& numberL1CenJetValue) {
00090 
00091     m_numberL1CenJet = numberL1CenJetValue;
00092 
00093 }
00094 
00095 // set the number of L1 forward jets received by GT
00096 void L1GtStableParameters::setGtNumberL1ForJet(
00097     const unsigned int& numberL1ForJetValue) {
00098 
00099     m_numberL1ForJet = numberL1ForJetValue;
00100 
00101 }
00102 
00103 // set the number of L1 tau jets received by GT
00104 void L1GtStableParameters::setGtNumberL1TauJet(
00105     const unsigned int& numberL1TauJetValue) {
00106 
00107     m_numberL1TauJet = numberL1TauJetValue;
00108 
00109 }
00110 
00111 // set the number of L1 jet counts received by GT
00112 void L1GtStableParameters::setGtNumberL1JetCounts(
00113     const unsigned int& numberL1JetCountsValue) {
00114 
00115     m_numberL1JetCounts = numberL1JetCountsValue;
00116 
00117 }
00118 
00119 // hardware stuff
00120 
00121 // set the number of condition chips in GTL
00122 void L1GtStableParameters::setGtNumberConditionChips(
00123     const unsigned int& numberConditionChipsValue) {
00124 
00125     m_numberConditionChips = numberConditionChipsValue;
00126 
00127 }
00128 
00129 // set the number of pins on the GTL condition chips
00130 void L1GtStableParameters::setGtPinsOnConditionChip(
00131     const unsigned int& pinsOnConditionChipValue) {
00132 
00133     m_pinsOnConditionChip = pinsOnConditionChipValue;
00134 
00135 }
00136 
00137 // set the correspondence "condition chip - GTL algorithm word"
00138 // in the hardware
00139 void L1GtStableParameters::setGtOrderConditionChip(
00140     const std::vector<int>& orderConditionChipValue) {
00141 
00142     m_orderConditionChip = orderConditionChipValue;
00143 
00144 }
00145 
00146 // set the number of PSB boards in GT
00147 void L1GtStableParameters::setGtNumberPsbBoards(const int& numberPsbBoardsValue) {
00148 
00149     m_numberPsbBoards = numberPsbBoardsValue;
00150 
00151 }
00152 
00153 //   set the number of bits for eta of calorimeter objects
00154 void L1GtStableParameters::setGtIfCaloEtaNumberBits(
00155     const unsigned int& ifCaloEtaNumberBitsValue) {
00156 
00157     m_ifCaloEtaNumberBits = ifCaloEtaNumberBitsValue;
00158 
00159 }
00160 
00161 //   set the number of bits for eta of muon objects
00162 void L1GtStableParameters::setGtIfMuEtaNumberBits(
00163     const unsigned int& ifMuEtaNumberBitsValue) {
00164 
00165     m_ifMuEtaNumberBits = ifMuEtaNumberBitsValue;
00166 
00167 }
00168 
00169 // set WordLength
00170 void L1GtStableParameters::setGtWordLength(const int& wordLengthValue) {
00171 
00172     m_wordLength = wordLengthValue;
00173 
00174 }
00175 
00176 // set one UnitLength
00177 void L1GtStableParameters::setGtUnitLength(const int& unitLengthValue) {
00178 
00179     m_unitLength = unitLengthValue;
00180 
00181 }
00182 
00183 // print all the L1 GT stable parameters
00184 void L1GtStableParameters::print(std::ostream& myStr) const {
00185     myStr << "\nL1 GT Stable Parameters \n" << std::endl;
00186 
00187     // trigger decision
00188 
00189     // number of physics trigger algorithms
00190     myStr << "\n  Number of physics trigger algorithms =            "
00191         << m_numberPhysTriggers << std::endl;
00192 
00193     // additional number of physics trigger algorithms
00194     myStr << "  Additional number of physics trigger algorithms = "
00195         << m_numberPhysTriggersExtended << std::endl;
00196 
00197     // number of technical triggers
00198     myStr << "  Number of technical triggers =                    "
00199         << m_numberTechnicalTriggers << std::endl;
00200 
00201     // muons
00202     myStr << "\n  Number of muons received by L1 GT =                     "
00203         << m_numberL1Mu << std::endl;
00204 
00205     // e/gamma and isolated e/gamma objects
00206     myStr << "  Number of e/gamma objects received by L1 GT =          "
00207         << m_numberL1NoIsoEG << std::endl;
00208     myStr << "  Number of isolated e/gamma objects received by L1 GT = "
00209         << m_numberL1IsoEG << std::endl;
00210 
00211     // central, forward and tau jets
00212     myStr << "\n  Number of central jets received by L1 GT =             "
00213         << m_numberL1CenJet << std::endl;
00214     myStr << "  Number of forward jets received by L1 GT =             "
00215         << m_numberL1ForJet << std::endl;
00216     myStr << "  Number of tau jets received by L1 GT =                 "
00217         << m_numberL1TauJet << std::endl;
00218 
00219     // jet counts
00220     myStr << "\n  Number of jet counts received by L1 GT =               "
00221         << m_numberL1JetCounts << std::endl;
00222 
00223     // hardware
00224 
00225     // number of condition chips
00226     myStr << "\n  Number of condition chips =                        "
00227         << m_numberConditionChips << std::endl;
00228 
00229     // number of pins on the GTL condition chips
00230     myStr << "  Number of pins on the GTL condition chips =        "
00231         << m_pinsOnConditionChip << std::endl;
00232 
00233     // correspondence "condition chip - GTL algorithm word" in the hardware
00234     // chip 2: 0 - 95;  chip 1: 96 - 128 (191)
00235     myStr << "  Order of condition chips for GTL algorithm word = {";
00236 
00237     for (unsigned int iChip = 0; iChip < m_orderConditionChip.size(); ++iChip) {
00238         myStr << m_orderConditionChip[iChip];
00239         if (iChip != (m_orderConditionChip.size() - 1)) {
00240             myStr << ", ";
00241         }
00242     }
00243 
00244     myStr << "}" << std::endl;
00245 
00246     // number of PSB boards in GT
00247     myStr << "\n  Number of PSB boards in GT = " << m_numberPsbBoards
00248         << std::endl;
00249 
00250     // number of bits for eta of calorimeter objects
00251     myStr << "\n  Number of bits for eta of calorimeter objects = "
00252         << m_ifCaloEtaNumberBits << std::endl;
00253 
00254     // number of bits for eta of muon objects
00255     myStr << "\n  Number of bits for eta of muon objects = "
00256         << m_ifMuEtaNumberBits << std::endl;
00257 
00258     // GT DAQ record organized in words of WordLength bits
00259     myStr << "\n  Word length (bits) for GT records = " << m_wordLength
00260         << std::endl;
00261 
00262     // one unit in the word is UnitLength bits
00263     myStr << "  Unit length (bits) for GT records = " << m_unitLength
00264         << std::endl;
00265 
00266     myStr << "\n" << std::endl;
00267 
00268 }