CMS 3D CMS Logo

Classes | Public Member Functions | Private Member Functions | Private Attributes

L1GtTriggerMenuConfigOnlineProd Class Reference

#include <L1GtTriggerMenuConfigOnlineProd.h>

Inheritance diagram for L1GtTriggerMenuConfigOnlineProd:
L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu > edm::ESProducer edm::ESProxyFactoryProducer edm::eventsetup::DataProxyProvider

List of all members.

Classes

struct  TableMenuAlgo
struct  TableMenuAlgoCond
struct  TableMenuCond
struct  TableMenuGeneral
 define simple structures to get the tables from DB More...
struct  TableMenuObjectParameters
struct  TableMenuTechTrig

Public Member Functions

void init (const int numberConditionChips)
 initialize the class (mainly reserve/resize)
 L1GtTriggerMenuConfigOnlineProd (const edm::ParameterSet &)
 constructor
virtual boost::shared_ptr
< L1GtTriggerMenu
newObject (const std::string &objectKey)
 public methods
 ~L1GtTriggerMenuConfigOnlineProd ()
 destructor

Private Member Functions

void addBptxCondition (const TableMenuCond &)
void addCaloCondition (const TableMenuCond &)
void addCastorCondition (const TableMenuCond &)
void addConditions ()
 add the conditions from a menu to the corresponding list
void addCorrelationCondition (const TableMenuCond &)
void addEnergySumCondition (const TableMenuCond &)
void addExternalCondition (const TableMenuCond &)
void addHfBitCountsCondition (const TableMenuCond &)
void addHfRingEtSumsCondition (const TableMenuCond &)
void addJetCountsCondition (const TableMenuCond &)
void addMuonCondition (const TableMenuCond &)
void buildAlgorithmMap ()
 build the algorithm map in the menu
void buildTechnicalTriggerMap ()
 build the technical trigger map in the menu
int chipNumber (short) const
 return the chip number for an algorithm with index bitNumberSh
const std::map< int, std::string > condIndexNameMap (const short bitNr) const
std::string convertLogicalExpression (const std::string &, const std::map< int, std::string > &) const
 convert a logical expression with indices to a logical expression with names
void fillCaloObjectParameter (const std::string &opFK, L1GtCaloTemplate::ObjectParameter &)
void fillEnergySumObjectParameter (const std::string &opFK, L1GtEnergySumTemplate::ObjectParameter &, const L1GtObject &)
void fillMuonObjectParameter (const std::string &opFK, L1GtMuonTemplate::ObjectParameter &)
template<typename Result , typename Source >
Result lexical_cast_from_hex (Source &value) const
std::list< int > listChipNumber (const std::string &)
 get a list of chip numbers from the m_tableMenuAlgoCond table for a condition
void splitHexStringInTwo64bitWords (const std::string &hexStr, std::string &hex0WordStr, std::string &hex1WordStr)
 split a hex string in two 64-bit words returned as hex strings
L1GtConditionCategory strToEnumCondCategory (const std::string &strCategory)
 string to enum L1GtConditionCategory conversion
L1GtConditionType strToEnumCondType (const std::string &strType)
 string to enum L1GtConditionType conversion
L1GtObject strToEnumL1GtObject (const std::string &strObject)
 string to enum L1GtObject conversion
bool tableMenuAlgoCondFromDB (const std::string &gtSchema, const std::string &objKey)
 retrieve table with conditions associated to physics algorithms from DB
bool tableMenuAlgoFromDB (const std::string &gtSchema, const std::string &objKey)
 retrieve table with physics algorithms from DB
bool tableMenuCondFromDB (const std::string &gtSchema, const std::string &objKey)
 retrieve table with list of conditions in the menu
bool tableMenuGeneralFromDB (const std::string &gtSchema, const std::string &objKey)
 methods to retrieve the tables from DB
bool tableMenuObjectParametersFromDB (const std::string &gtSchema, const std::string &objKey)
 retrieve table with object parameters from DB
bool tableMenuTechTrigFromDB (const std::string &gtSchema, const std::string &objKey)
 retrieve table with technical triggers from DB

Private Attributes

AlgorithmMap m_algorithmAliasMap
 map containing the physics algorithms (by alias)
AlgorithmMap m_algorithmMap
 map containing the physics algorithms (by name)
std::vector< std::vector
< L1GtCaloTemplate > > 
m_corCaloTemplate
std::vector< std::vector
< L1GtEnergySumTemplate > > 
m_corEnergySumTemplate
std::vector< std::vector
< L1GtMuonTemplate > > 
m_corMuonTemplate
bool m_isDebugEnabled
std::string m_scaleDbKey
 menu associated scale key
std::vector< TableMenuAlgom_tableMenuAlgo
std::vector< TableMenuAlgoCondm_tableMenuAlgoCond
std::vector< TableMenuCondm_tableMenuCond
TableMenuGeneral m_tableMenuGeneral
 member to keep various tables retrieved from DB
std::vector
< TableMenuObjectParameters
m_tableMenuObjectParameters
std::vector< TableMenuTechTrigm_tableMenuTechTrig
AlgorithmMap m_technicalTriggerMap
 map containing the technical triggers
std::string m_triggerMenuImplementation
std::string m_triggerMenuInterface
 menu representation
std::string m_triggerMenuName
std::vector< std::vector
< L1GtBptxTemplate > > 
m_vecBptxTemplate
std::vector< std::vector
< L1GtCaloTemplate > > 
m_vecCaloTemplate
std::vector< std::vector
< L1GtCastorTemplate > > 
m_vecCastorTemplate
std::vector< std::vector
< L1GtCorrelationTemplate > > 
m_vecCorrelationTemplate
std::vector< std::vector
< L1GtEnergySumTemplate > > 
m_vecEnergySumTemplate
std::vector< std::vector
< L1GtExternalTemplate > > 
m_vecExternalTemplate
std::vector< std::vector
< L1GtHfBitCountsTemplate > > 
m_vecHfBitCountsTemplate
std::vector< std::vector
< L1GtHfRingEtSumsTemplate > > 
m_vecHfRingEtSumsTemplate
std::vector< std::vector
< L1GtJetCountsTemplate > > 
m_vecJetCountsTemplate
std::vector< std::vector
< L1GtMuonTemplate > > 
m_vecMuonTemplate

Detailed Description

Description: online producer for L1GtTriggerMenu.

Implementation: <TODO: enter implementation details>

Author:
: Vasile Mihai Ghete - HEPHY Vienna

$Date$ $Revision$

Definition at line 50 of file L1GtTriggerMenuConfigOnlineProd.h.


Constructor & Destructor Documentation

L1GtTriggerMenuConfigOnlineProd::L1GtTriggerMenuConfigOnlineProd ( const edm::ParameterSet parSet)
L1GtTriggerMenuConfigOnlineProd::~L1GtTriggerMenuConfigOnlineProd ( )

destructor

Definition at line 52 of file L1GtTriggerMenuConfigOnlineProd.cc.

                                                                  {

    // empty

}

Member Function Documentation

void L1GtTriggerMenuConfigOnlineProd::addBptxCondition ( const TableMenuCond condDB) [private]

Definition at line 1553 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecBptxTemplate, VarParsing::obj, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                  {

    L1GtBptxTemplate bptxCond(condDB.cond);
    bptxCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - logical conditions have no objects associated in GT
    // one put however a "Bptx" object type
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    bptxCond.setObjectType(objType);

    // irrelevant, set to false for completeness
    bptxCond.setCondGEq(false);

    // logical conditions have no ObjectParameter, no CorrelationParameter

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);



    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        bptxCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecBptxTemplate[*itChip] ).push_back(bptxCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << bptxCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addCaloCondition ( const TableMenuCond condDB) [private]

Definition at line 1220 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtCaloTemplate::CorrelationParameter::deltaEtaRange, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaEtaRange, L1GtCaloTemplate::CorrelationParameter::deltaPhiMaxbits, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaPhiRange, L1GtCaloTemplate::CorrelationParameter::deltaPhiRange, fillCaloObjectParameter(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecCaloTemplate, L1GtCondition::nrObjects(), VarParsing::obj, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter1FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter2FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter3FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter4FK, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtCaloTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), strToEnumL1GtObject(), and L1GtCondition::wsc().

Referenced by addConditions().

                                                                                  {

    L1GtCaloTemplate caloCond(condDB.cond);
    caloCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - all have the same type, so reading it for first object is OK
    int nrObj = caloCond.nrObjects();

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    caloCond.setObjectType(objType);

    caloCond.setCondGEq(condDB.condGEq);

    // temporary storage of the parameters
    std::vector<L1GtCaloTemplate::ObjectParameter> objParameter(nrObj);

    for (int iObj = 0; iObj < nrObj; ++iObj) {
        if (iObj == 0) {
            fillCaloObjectParameter(condDB.objectParameter1FK, objParameter[iObj]);
        } else if (iObj == 1) {
            fillCaloObjectParameter(condDB.objectParameter2FK, objParameter[iObj]);
        } else if (iObj == 2) {
            fillCaloObjectParameter(condDB.objectParameter3FK, objParameter[iObj]);
        } else if (iObj == 3) {
            fillCaloObjectParameter(condDB.objectParameter4FK, objParameter[iObj]);
        } else {
            LogTrace("L1GtTriggerMenuConfigOnlineProd")
                    << "\n Warning: number of objects requested " << nrObj
                    << " not available in DB." << "\n Maximum 4 object parameters implemented. \n"
                    << std::endl;
        }
    }

    L1GtCaloTemplate::CorrelationParameter corrParameter;
    if (caloCond.wsc()) {
        corrParameter.deltaEtaRange = lexical_cast_from_hex<unsigned long long> (
                condDB.deltaEtaRange);

        corrParameter.deltaPhiRange = lexical_cast_from_hex<unsigned long long> (
                condDB.deltaPhiRange);
        corrParameter.deltaPhiMaxbits = 0; // FIXME check correlations
    }

    caloCond.setConditionParameter(objParameter, corrParameter);

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        caloCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecCaloTemplate[*itChip] ).push_back(caloCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << caloCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addCastorCondition ( const TableMenuCond condDB) [private]

Definition at line 1510 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecCastorTemplate, VarParsing::obj, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                    {

    L1GtCastorTemplate castorCond(condDB.cond);
    castorCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - logical conditions have no objects associated in GT
    // one put however a "Castor" object type
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    castorCond.setObjectType(objType);

    // irrelevant, set to false for completeness
    castorCond.setCondGEq(false);

    // logical conditions have no ObjectParameter, no CorrelationParameter

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        castorCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecCastorTemplate[*itChip] ).push_back(castorCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << castorCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addConditions ( ) [private]

add the conditions from a menu to the corresponding list

Definition at line 1919 of file L1GtTriggerMenuConfigOnlineProd.cc.

References addBptxCondition(), addCaloCondition(), addCastorCondition(), addCorrelationCondition(), addEnergySumCondition(), addExternalCondition(), addHfBitCountsCondition(), addHfRingEtSumsCondition(), addJetCountsCondition(), addMuonCondition(), CondBptx, CondCalo, CondCastor, CondCorrelation, CondEnergySum, CondExternal, CondHfBitCounts, CondHfRingEtSums, CondJetCounts, CondMuon, CondNull, m_tableMenuCond, and strToEnumCondCategory().

Referenced by newObject().

                                                    {

    // loop over m_tableMenuCond
    for (std::vector<TableMenuCond>::const_iterator constIt = m_tableMenuCond.begin(); constIt
            != m_tableMenuCond.end(); constIt++) {

        L1GtConditionCategory conCategory = strToEnumCondCategory((*constIt).condCategory);

        switch (conCategory) {
            case CondMuon: {

                addMuonCondition(*constIt);

            }
                break;
            case CondCalo: {

                addCaloCondition(*constIt);

            }
                break;
            case CondEnergySum: {

                addEnergySumCondition(*constIt);

            }
                break;
            case CondJetCounts: {
                addJetCountsCondition(*constIt);

            }
                break;
            case CondHfBitCounts: {
                addHfBitCountsCondition(*constIt);

            }
                break;
            case CondHfRingEtSums: {
                addHfRingEtSumsCondition(*constIt);

            }
                break;
            case CondCastor: {

                addCastorCondition(*constIt);

            }
                break;
            case CondBptx: {

                addBptxCondition(*constIt);

            }
                break;
            case CondExternal: {

                addExternalCondition(*constIt);

            }
                break;
            case CondCorrelation: {

                addCorrelationCondition(*constIt);

            }
                break;
            case CondNull: {

                // do nothing

            }
                break;
            default: {

                // do nothing

            }
                break;
        }

    }

}
void L1GtTriggerMenuConfigOnlineProd::addCorrelationCondition ( const TableMenuCond condDB) [private]

Definition at line 1643 of file L1GtTriggerMenuConfigOnlineProd.cc.

References BPTX, Castor, CenJet, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, CondCalo, CondEnergySum, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, CondMuon, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaEtaRange, L1GtCorrelationTemplate::CorrelationParameter::deltaEtaRange, L1GtCorrelationTemplate::CorrelationParameter::deltaPhiMaxbits, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaPhiRange, L1GtCorrelationTemplate::CorrelationParameter::deltaPhiRange, ETM, ETT, fillCaloObjectParameter(), fillEnergySumObjectParameter(), fillMuonObjectParameter(), ForJet, GtExternal, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject2, HfBitCounts, HfRingEtSums, HTM, HTT, IsoEG, JetCounts, listChipNumber(), LogTrace, m_corCaloTemplate, m_corEnergySumTemplate, m_corMuonTemplate, m_isDebugEnabled, m_vecCorrelationTemplate, Mu, NoIsoEG, VarParsing::obj, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter1FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter2FK, L1GtCorrelationTemplate::setCond0Category(), L1GtCorrelationTemplate::setCond0Index(), L1GtCorrelationTemplate::setCond1Category(), L1GtCorrelationTemplate::setCond1Index(), L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtCaloTemplate::setConditionParameter(), L1GtMuonTemplate::setConditionParameter(), L1GtEnergySumTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCorrelationTemplate::setCorrelationParameter(), L1GtCondition::setObjectType(), findQualityFiles::size, strToEnumCondType(), strToEnumL1GtObject(), TauJet, TechTrig, Type1s, TypeETM, and TypeHTM.

Referenced by addConditions().

                                                                                         {

    // create a new correlation condition
    L1GtCorrelationTemplate correlationCond(condDB.cond);
    correlationCond.setCondType(strToEnumCondType(condDB.condType));

    // two objects (for sure) - type taken from DB
    const int nrObj = 2;

    std::vector<L1GtObject> objType(nrObj);
    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    objType[0] = obj;

    obj = strToEnumL1GtObject(condDB.gtObject2);
    objType[1] = obj;

    correlationCond.setObjectType(objType);

    // get chip number list, eliminate duplicates
    std::list<int> chipList = listChipNumber(condDB.cond);
    chipList.sort();
    chipList.unique();

    // temporary vectors for sub-conditions
    std::vector<L1GtConditionCategory> subcondCategory(nrObj);
    std::vector<int> subcondIndex(nrObj);

    bool wrongSubcondition = false;

    for (int iObj = 0; iObj < nrObj; ++iObj) {

        L1GtObject gtObj = objType[iObj];

        // sub-conditions (all have the same condGEq as the correlation condition).
        switch (gtObj) {
            case Mu: {
                subcondCategory.push_back(CondMuon);

                // temporary storage of the parameters
                std::vector<L1GtMuonTemplate::ObjectParameter> objParameter(1);

                std::string subcondName;
                if (iObj == 0) {
                    fillMuonObjectParameter(condDB.objectParameter1FK, objParameter[0]);
                    subcondName = condDB.objectParameter1FK;
                } else if (iObj == 1) {
                    subcondName = condDB.objectParameter2FK;
                    fillMuonObjectParameter(condDB.objectParameter2FK, objParameter[0]);
                }

                L1GtMuonTemplate::CorrelationParameter corrPar; //  dummy

                L1GtMuonTemplate subcond(subcondName, Type1s);
                subcond.setCondGEq(condDB.condGEq);
                subcond.setObjectType(std::vector<L1GtObject> (1, gtObj));
                subcond.setConditionParameter(objParameter, corrPar);

                // add the same sub-condition once to every chip where required
                for (std::list<int>::const_iterator itChip = chipList.begin(); itChip
                        != chipList.end(); ++itChip) {

                    subcond.setCondChipNr(*itChip);

                    // index
                    subcondIndex[iObj] = ( m_corMuonTemplate[*itChip] ).size() - 1;

                    // no check for uniqueness - done by DB
                    ( m_corMuonTemplate[*itChip] ).push_back(subcond);

                    if (m_isDebugEnabled) {
                        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition "
                                << ( condDB.cond ) << " on chip " << ( *itChip ) << "\n "
                                << std::endl;

                        LogTrace("L1GtTriggerMenuConfigOnlineProd") << subcond << "\n" << std::endl;
                    }
                }

            }
                break;

            case IsoEG:
            case NoIsoEG:
            case CenJet:
            case ForJet:
            case TauJet: {

                subcondCategory.push_back(CondCalo);

                // temporary storage of the parameters
                std::vector<L1GtCaloTemplate::ObjectParameter> objParameter(1);

                std::string subcondName;
                if (iObj == 0) {
                    fillCaloObjectParameter(condDB.objectParameter1FK, objParameter[0]);
                    subcondName = condDB.objectParameter1FK;
                } else if (iObj == 1) {
                    subcondName = condDB.objectParameter2FK;
                    fillCaloObjectParameter(condDB.objectParameter2FK, objParameter[0]);
                }

                L1GtCaloTemplate::CorrelationParameter corrPar; //  dummy

                L1GtCaloTemplate subcond(subcondName, Type1s);
                subcond.setCondGEq(condDB.condGEq);
                subcond.setObjectType(std::vector<L1GtObject> (1, gtObj));
                subcond.setConditionParameter(objParameter, corrPar);

                // add the same sub-condition once to every chip where required
                for (std::list<int>::const_iterator itChip = chipList.begin(); itChip
                        != chipList.end(); ++itChip) {

                    subcond.setCondChipNr(*itChip);

                    // index
                    subcondIndex[iObj] = ( m_corCaloTemplate[*itChip] ).size() - 1;

                    // no check for uniqueness - done by DB
                    ( m_corCaloTemplate[*itChip] ).push_back(subcond);

                    if (m_isDebugEnabled) {
                        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition "
                                << ( condDB.cond ) << " on chip " << ( *itChip ) << "\n "
                                << std::endl;

                        LogTrace("L1GtTriggerMenuConfigOnlineProd") << subcond << "\n" << std::endl;
                    }
                }
            }
                break;

            case ETM:
            case HTM: {

                subcondCategory.push_back(CondEnergySum);

                // temporary storage of the parameters
                std::vector<L1GtEnergySumTemplate::ObjectParameter> objParameter(1);

                std::string subcondName;
                if (iObj == 0) {
                    fillEnergySumObjectParameter(condDB.objectParameter1FK, objParameter[0], gtObj);
                    subcondName = condDB.objectParameter1FK;
                } else if (iObj == 1) {
                    subcondName = condDB.objectParameter2FK;
                    fillEnergySumObjectParameter(condDB.objectParameter2FK, objParameter[0], gtObj);
                }

                L1GtConditionType condType;

                switch (gtObj) {
                    case ETM: {
                        condType = TypeETM;
                    }
                        break;
                    case HTM: {
                        condType = TypeHTM;
                    }
                        break;
                    default: {
                        edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                                << "\n Warning: wrong L1GtConditionType "
                                << gtObj << std::endl;

                    }
                        break;
                }

                L1GtEnergySumTemplate subcond(subcondName, condType);
                subcond.setCondGEq(condDB.condGEq);
                subcond.setObjectType(std::vector<L1GtObject> (1, gtObj));
                subcond.setConditionParameter(objParameter);

                // add the same sub-condition once to every chip where required
                for (std::list<int>::const_iterator itChip = chipList.begin(); itChip
                        != chipList.end(); ++itChip) {

                    subcond.setCondChipNr(*itChip);

                    // index
                    subcondIndex[iObj] = ( m_corEnergySumTemplate[*itChip] ).size() - 1;

                    // no check for uniqueness - done by DB
                    ( m_corEnergySumTemplate[*itChip] ).push_back(subcond);

                    if (m_isDebugEnabled) {
                        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition "
                                << ( condDB.cond ) << " on chip " << ( *itChip ) << "\n "
                                << std::endl;

                        LogTrace("L1GtTriggerMenuConfigOnlineProd") << subcond << "\n" << std::endl;
                    }
                }
            }
                break;
            case ETT:
            case HTT:
            case JetCounts:
            case HfBitCounts:
            case HfRingEtSums:
            case Castor:
            case BPTX:
            case GtExternal:
            case TechTrig: {
                wrongSubcondition = true;
                edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                        << "\n Warning: correlation condition "
                        << (condDB.cond)
                        << " with invalid sub-condition object type " << gtObj
                        << "\n Condition ignored!" << std::endl;
            }
            default: {
                wrongSubcondition = true;
                edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                        << "\n Warning: correlation condition "
                        << (condDB.cond)
                        << " with invalid sub-condition object type " << gtObj
                        << "\n Condition ignored!" << std::endl;

                //

            }
                break;
        }

    }

    if (wrongSubcondition) {
        edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                << "\n Warning: wrong sub-condition for correlation condition "
                << (condDB.cond)
                << "\n Condition not inserted in menu. \n A sub-condition may be left in the menu"
                << std::endl;
        return;

    }

    // get the correlation parameters for the correlation condition (std::string)
    L1GtCorrelationTemplate::CorrelationParameter corrParameter;
    corrParameter.deltaEtaRange = condDB.deltaEtaRange;
    corrParameter.deltaPhiRange = condDB.deltaPhiRange;

    // set condition categories
    correlationCond.setCond0Category(subcondCategory[0]);
    correlationCond.setCond1Category(subcondCategory[1]);

    // set condition indices in correlation vector
    correlationCond.setCond0Index(subcondIndex[0]);
    correlationCond.setCond1Index(subcondIndex[1]);

    // set correlation parameter
    corrParameter.deltaPhiMaxbits = 0; //  TODO
    correlationCond.setCorrelationParameter(corrParameter);


    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        correlationCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecCorrelationTemplate[*itChip] ).push_back(correlationCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << correlationCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addEnergySumCondition ( const TableMenuCond condDB) [private]

Definition at line 1322 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, fillEnergySumObjectParameter(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecEnergySumTemplate, VarParsing::obj, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter1FK, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtEnergySumTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                       {

    L1GtEnergySumTemplate esumCond(condDB.cond);
    esumCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - all energy sums are global - so 1 object
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    esumCond.setObjectType(objType);

    esumCond.setCondGEq(condDB.condGEq);

    // temporary storage of the parameters - no CorrelationParameter
    std::vector<L1GtEnergySumTemplate::ObjectParameter> objParameter(nrObj);
    fillEnergySumObjectParameter(condDB.objectParameter1FK, objParameter[0], objType[0]);

    esumCond.setConditionParameter(objParameter);

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        esumCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecEnergySumTemplate[*itChip] ).push_back(esumCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << esumCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addExternalCondition ( const TableMenuCond condDB) [private]

Definition at line 1598 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecExternalTemplate, VarParsing::obj, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                      {

    L1GtExternalTemplate externalCond(condDB.cond);
    externalCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - logical conditions have no objects associated in GT
    // one put however a "External" object type
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    externalCond.setObjectType(objType);

    // irrelevant, set to false for completeness
    externalCond.setCondGEq(false);

    // logical conditions have no ObjectParameter, no CorrelationParameter

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);



    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        externalCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecExternalTemplate[*itChip] ).push_back(externalCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << externalCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addHfBitCountsCondition ( const TableMenuCond condDB) [private]

Definition at line 1416 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countIndex, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countThreshold, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecHfBitCountsTemplate, VarParsing::obj, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtHfBitCountsTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                         {

    L1GtHfBitCountsTemplate countsCond(condDB.cond);
    countsCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - HF bit counts are "global"
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    countsCond.setObjectType(objType);

    countsCond.setCondGEq(condDB.condGEq);

    // temporary storage of the parameters - no CorrelationParameter
    // for counts, the DB implementation is without OP, directly in TableMenuCond
    std::vector<L1GtHfBitCountsTemplate::ObjectParameter> objParameter(nrObj);
    objParameter.at(0).countIndex = static_cast<unsigned int>(condDB.countIndex);
    objParameter.at(0).countThreshold = static_cast<unsigned int>(condDB.countThreshold);

    countsCond.setConditionParameter(objParameter);

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        countsCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecHfBitCountsTemplate[*itChip] ).push_back(countsCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << countsCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addHfRingEtSumsCondition ( const TableMenuCond condDB) [private]

Definition at line 1463 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countIndex, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countThreshold, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecHfRingEtSumsTemplate, VarParsing::obj, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtHfRingEtSumsTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                          {

    L1GtHfRingEtSumsTemplate esumCond(condDB.cond);
    esumCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - HF energy sums are "global"
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    esumCond.setObjectType(objType);

    esumCond.setCondGEq(condDB.condGEq);

    // temporary storage of the parameters - no CorrelationParameter
    // for HF energy sums, the DB implementation is without OP, directly in TableMenuCond
    std::vector<L1GtHfRingEtSumsTemplate::ObjectParameter> objParameter(nrObj);
    objParameter.at(0).etSumIndex = static_cast<unsigned int>(condDB.countIndex);
    objParameter.at(0).etSumThreshold = static_cast<unsigned int>(condDB.countThreshold);

    esumCond.setConditionParameter(objParameter);

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        esumCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecHfRingEtSumsTemplate[*itChip] ).push_back(esumCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << esumCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addJetCountsCondition ( const TableMenuCond condDB) [private]

Definition at line 1368 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countIndex, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countThreshold, funct::false, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, listChipNumber(), LogTrace, m_isDebugEnabled, m_vecJetCountsTemplate, VarParsing::obj, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtJetCountsTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), strToEnumCondType(), and strToEnumL1GtObject().

Referenced by addConditions().

                                                                                       {

    L1GtJetCountsTemplate jcCond(condDB.cond);
    jcCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - jet counts are "global"
    int nrObj = 1;

    L1GtObject obj = strToEnumL1GtObject(condDB.gtObject1);
    std::vector<L1GtObject> objType(nrObj, obj);
    jcCond.setObjectType(objType);

    jcCond.setCondGEq(condDB.condGEq);

    // temporary storage of the parameters - no CorrelationParameter
    // for counts, the DB implementation is without OP, directly in TableMenuCond
    std::vector<L1GtJetCountsTemplate::ObjectParameter> objParameter(nrObj);
    objParameter.at(0).countIndex = static_cast<unsigned int>(condDB.countIndex);
    objParameter.at(0).countThreshold = static_cast<unsigned int>(condDB.countThreshold);
    objParameter.at(0).countOverflow = false ; // not used

    jcCond.setConditionParameter(objParameter);

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        jcCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecJetCountsTemplate[*itChip] ).push_back(jcCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << jcCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::addMuonCondition ( const TableMenuCond condDB) [private]

Definition at line 1125 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuCond::chargeCorrelation, L1GtMuonTemplate::CorrelationParameter::chargeCorrelation, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaEtaRange, L1GtMuonTemplate::CorrelationParameter::deltaEtaRange, L1GtMuonTemplate::CorrelationParameter::deltaPhiMaxbits, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaPhiRange, L1GtMuonTemplate::CorrelationParameter::deltaPhiRange0Word, L1GtMuonTemplate::CorrelationParameter::deltaPhiRange1Word, fillMuonObjectParameter(), listChipNumber(), LogTrace, m_isDebugEnabled, m_vecMuonTemplate, Mu, L1GtCondition::nrObjects(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter1FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter2FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter3FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter4FK, L1GtCondition::setCondChipNr(), L1GtCondition::setCondGEq(), L1GtMuonTemplate::setConditionParameter(), L1GtCondition::setCondType(), L1GtCondition::setObjectType(), splitHexStringInTwo64bitWords(), strToEnumCondType(), and L1GtCondition::wsc().

Referenced by addConditions().

                                                                                  {


    L1GtMuonTemplate muonCond(condDB.cond);
    muonCond.setCondType(strToEnumCondType(condDB.condType));

    // object types - all muons
    int nrObj = muonCond.nrObjects();
    std::vector<L1GtObject> objType(nrObj, Mu);
    muonCond.setObjectType(objType);

    muonCond.setCondGEq(condDB.condGEq);

    // temporary storage of the parameters
    std::vector<L1GtMuonTemplate::ObjectParameter> objParameter(nrObj);

    for (int iObj = 0; iObj < nrObj; ++iObj) {
        if (iObj == 0) {
            fillMuonObjectParameter(condDB.objectParameter1FK, objParameter[iObj]);
        } else if (iObj == 1) {
            fillMuonObjectParameter(condDB.objectParameter2FK, objParameter[iObj]);
        } else if (iObj == 2) {
            fillMuonObjectParameter(condDB.objectParameter3FK, objParameter[iObj]);
        } else if (iObj == 3) {
            fillMuonObjectParameter(condDB.objectParameter4FK, objParameter[iObj]);
        } else {
            LogTrace("L1GtTriggerMenuConfigOnlineProd")
                    << "\n Warning: number of objects requested " << nrObj
                    << " not available in DB." << "\n Maximum 4 object parameters implemented. \n"
                    << std::endl;
        }
    }

    L1GtMuonTemplate::CorrelationParameter corrParameter;
    corrParameter.chargeCorrelation = static_cast<unsigned int> (condDB.chargeCorrelation);
    if (muonCond.wsc()) {
        corrParameter.deltaEtaRange = lexical_cast_from_hex<unsigned long long> (
                condDB.deltaEtaRange);

        std::string word0;
        std::string word1;
        splitHexStringInTwo64bitWords(condDB.deltaPhiRange, word0, word1);

        corrParameter.deltaPhiRange0Word = lexical_cast_from_hex<unsigned long long> (word0);
        corrParameter.deltaPhiRange1Word = lexical_cast_from_hex<unsigned long long> (word1);

        corrParameter.deltaPhiMaxbits = 0; // FIXME check correlations
    }

    muonCond.setConditionParameter(objParameter, corrParameter);

    // get chip number list
    std::list<int> chipList = listChipNumber(condDB.cond);

    // eliminate duplicates
    chipList.sort();
    chipList.unique();

    // add the same condition once to every chip where required
    for (std::list<int>::const_iterator itChip = chipList.begin(); itChip != chipList.end(); ++itChip) {

        muonCond.setCondChipNr(*itChip);

        // no check for uniqueness - done by DB
        ( m_vecMuonTemplate[*itChip] ).push_back(muonCond);

        if (m_isDebugEnabled) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Adding condition " << ( condDB.cond )
                    << " on chip " << ( *itChip ) << "\n " << std::endl;

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << muonCond << "\n" << std::endl;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::buildAlgorithmMap ( ) [private]

build the algorithm map in the menu

Definition at line 859 of file L1GtTriggerMenuConfigOnlineProd.cc.

References chipNumber(), condIndexNameMap(), convertLogicalExpression(), m_algorithmAliasMap, m_algorithmMap, m_tableMenuAlgo, L1GtAlgorithm::setAlgoAlias(), and L1GtAlgorithm::setAlgoChipNumber().

Referenced by newObject().

                                                        {


     // temporary value
    int bitNumber = -1;
    std::string logicalExpression;

    // loop over m_tableMenuAlgo
    for (std::vector<TableMenuAlgo>::const_iterator constIt = m_tableMenuAlgo.begin(); constIt
            != m_tableMenuAlgo.end(); constIt++) {

        bitNumber = static_cast<int> ((*constIt).bitNumberSh);

        const std::map<int, std::string>& condIndexName = condIndexNameMap((*constIt).bitNumberSh);
        logicalExpression = convertLogicalExpression((*constIt).logExpression, condIndexName);

        // create a new algorithm and insert it into algorithm map
        L1GtAlgorithm alg((*constIt).algName, logicalExpression, bitNumber);
        alg.setAlgoAlias((*constIt).algAlias);

        // set algorithm chip number:
        int algChipNr = chipNumber((*constIt).bitNumberSh);
        alg.setAlgoChipNumber(algChipNr);

        // insert algorithm
        m_algorithmMap[(*constIt).algName] = alg;
        m_algorithmAliasMap[(*constIt).algAlias] = alg;

    }

}
void L1GtTriggerMenuConfigOnlineProd::buildTechnicalTriggerMap ( ) [private]

build the technical trigger map in the menu

Definition at line 892 of file L1GtTriggerMenuConfigOnlineProd.cc.

References m_tableMenuTechTrig, and m_technicalTriggerMap.

Referenced by newObject().

                                                               {

    // temporary value
    int bitNumber = -1;
    std::string logicalExpression;

    // loop over m_tableMenuTechTrig
    for (std::vector<TableMenuTechTrig>::const_iterator constIt =
            m_tableMenuTechTrig.begin(); constIt != m_tableMenuTechTrig.end(); constIt++) {

        bitNumber = static_cast<int> ((*constIt).bitNumberSh);

        // create a new technical trigger and insert it into technical trigger map
        // technical triggers have L1GtAlgorithm class
        L1GtAlgorithm techTrig((*constIt).techName, logicalExpression, bitNumber);

        // chip number set in constructor to -1 - no meaning for technical triggers

        // insert technical trigger
        m_technicalTriggerMap[(*constIt).techName] = techTrig;

        // no alias is defined for technical triggers
    }

}
int L1GtTriggerMenuConfigOnlineProd::chipNumber ( short  bitNumberSh) const [private]

return the chip number for an algorithm with index bitNumberSh

Definition at line 837 of file L1GtTriggerMenuConfigOnlineProd.cc.

Referenced by buildAlgorithmMap(), and listChipNumber().

                                                                       {

    // FIXME get it from Event Setup
    const unsigned numberConditionChips = 2;
    const unsigned pinsOnConditionChip = 96;
    std::vector<int> orderConditionChip;
    orderConditionChip.push_back(2);
    orderConditionChip.push_back(1);

    int posChip = ( static_cast<unsigned> (bitNumberSh) / pinsOnConditionChip ) + 1;
    for (unsigned int iChip = 0; iChip < numberConditionChips; ++iChip) {
        if (posChip == orderConditionChip[iChip]) {
            return static_cast<int>(iChip);
        }
    }

    // chip number not found
    return -1;

}
const std::map< int, std::string > L1GtTriggerMenuConfigOnlineProd::condIndexNameMap ( const short  bitNr) const [private]

return for an algorithm with bitNr the mapping between the integer index in logical expression and the condition name (FK)

Definition at line 789 of file L1GtTriggerMenuConfigOnlineProd.cc.

References LogTrace, m_isDebugEnabled, and m_tableMenuAlgoCond.

Referenced by buildAlgorithmMap().

                                 {

    std::map<int, std::string> mapIndexName;

    for (std::vector<TableMenuAlgoCond>::const_iterator constIt = m_tableMenuAlgoCond.begin(); constIt
            != m_tableMenuAlgoCond.end(); ++constIt) {

        if (bitNr == (*constIt).bitNumberSh) {
            mapIndexName[static_cast<int>((*constIt).condIndexF)] = (*constIt).condFK;
        }

    }

    if (m_isDebugEnabled) {

        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Bit number : " << bitNr << std::endl;

        for (std::map<int, std::string>::const_iterator constIt = mapIndexName.begin(); constIt
                != mapIndexName.end(); ++constIt) {

            LogTrace("L1GtTriggerMenuConfigOnlineProd") << "  Condition index -> name: "
                    << ( ( *constIt ).first ) << " " << ( ( *constIt ).second ) << std::endl;

        }

    }


    return mapIndexName;

}
std::string L1GtTriggerMenuConfigOnlineProd::convertLogicalExpression ( const std::string &  expressionIndices,
const std::map< int, std::string > &  mapCondIndexName 
) const [private]

convert a logical expression with indices to a logical expression with names

Definition at line 823 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtLogicParser::convertIntToNameLogicalExpression(), and L1GtLogicParser::logicalExpression().

Referenced by buildAlgorithmMap().

                                                                                                  {

    std::string expressionNames;

    L1GtLogicParser parserIndices = L1GtLogicParser(expressionIndices);
    parserIndices.convertIntToNameLogicalExpression(mapCondIndexName);
    expressionNames = parserIndices.logicalExpression();

    return expressionNames;

}
void L1GtTriggerMenuConfigOnlineProd::fillCaloObjectParameter ( const std::string &  opFK,
L1GtCaloTemplate::ObjectParameter objPar 
) [private]

Definition at line 1201 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtCaloTemplate::ObjectParameter::etaRange, L1GtCaloTemplate::ObjectParameter::etThreshold, m_tableMenuObjectParameters, and L1GtCaloTemplate::ObjectParameter::phiRange.

Referenced by addCaloCondition(), and addCorrelationCondition().

                                                                        {

    // loop over m_tableMenuCond
    for (std::vector<TableMenuObjectParameters>::const_iterator constIt =
            m_tableMenuObjectParameters.begin(); constIt != m_tableMenuObjectParameters.end(); constIt++) {

        if (opFK == ( *constIt ).opId) {
            objPar.etThreshold = static_cast<unsigned int> ( ( *constIt ).etThreshold);
            objPar.etaRange = lexical_cast_from_hex<unsigned int> ( ( *constIt ).etaRange);
            objPar.phiRange = lexical_cast_from_hex<unsigned int> ( ( *constIt ).phiRange);

            // can break after it is found - DB consistency
            break;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::fillEnergySumObjectParameter ( const std::string &  opFK,
L1GtEnergySumTemplate::ObjectParameter objPar,
const L1GtObject obj 
) [private]

Definition at line 1291 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtEnergySumTemplate::ObjectParameter::energyOverflow, ETM, L1GtEnergySumTemplate::ObjectParameter::etThreshold, HTM, m_tableMenuObjectParameters, L1GtEnergySumTemplate::ObjectParameter::phiRange0Word, L1GtEnergySumTemplate::ObjectParameter::phiRange1Word, and splitHexStringInTwo64bitWords().

Referenced by addCorrelationCondition(), and addEnergySumCondition().

                               {

    // loop over m_tableMenuCond
    for (std::vector<TableMenuObjectParameters>::const_iterator constIt =
            m_tableMenuObjectParameters.begin(); constIt != m_tableMenuObjectParameters.end(); constIt++) {

        if (opFK == ( *constIt ).opId) {
            objPar.etThreshold = static_cast<unsigned int> ( ( *constIt ).etThreshold);
            objPar.energyOverflow = static_cast<bool> ( ( *constIt ).energyOverflow); // not used

            std::string word0;
            std::string word1;
            splitHexStringInTwo64bitWords( ( *constIt ).phiRange, word0, word1);

            if (obj == ETM) {
                objPar.phiRange0Word = lexical_cast_from_hex<unsigned long long> (word0);
                objPar.phiRange1Word = lexical_cast_from_hex<unsigned long long> (word1);

            } else if (obj == HTM) {
                objPar.phiRange0Word = lexical_cast_from_hex<unsigned long long> (word0);
            }

            // can break after it is found - DB consistency
            break;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::fillMuonObjectParameter ( const std::string &  opFK,
L1GtMuonTemplate::ObjectParameter objPar 
) [private]

Definition at line 1099 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtMuonTemplate::ObjectParameter::enableIso, L1GtMuonTemplate::ObjectParameter::enableMip, L1GtMuonTemplate::ObjectParameter::etaRange, m_tableMenuObjectParameters, L1GtMuonTemplate::ObjectParameter::phiHigh, L1GtMuonTemplate::ObjectParameter::phiLow, L1GtMuonTemplate::ObjectParameter::ptHighThreshold, L1GtMuonTemplate::ObjectParameter::ptLowThreshold, L1GtMuonTemplate::ObjectParameter::qualityRange, and L1GtMuonTemplate::ObjectParameter::requestIso.

Referenced by addCorrelationCondition(), and addMuonCondition().

                                                                        {

    // loop over m_tableMenuCond
    for (std::vector<TableMenuObjectParameters>::const_iterator constIt =
            m_tableMenuObjectParameters.begin(); constIt != m_tableMenuObjectParameters.end(); constIt++) {

        if (opFK == ( *constIt ).opId) {
            objPar.ptHighThreshold = static_cast<unsigned int> ( ( *constIt ).ptHighThreshold);
            objPar.ptLowThreshold = static_cast<unsigned int> ( ( *constIt ).ptLowThreshold);
            objPar.enableMip = static_cast<bool> ( ( *constIt ).enableMip);
            objPar.enableIso = static_cast<bool> ( ( *constIt ).enableIso);
            objPar.requestIso = static_cast<bool> ( ( *constIt ).requestIso);
            objPar.etaRange = lexical_cast_from_hex<unsigned long long>( ( *constIt ).etaRange);
            objPar.phiHigh = static_cast<unsigned int> ( ( *constIt ).phiHigh);
            objPar.phiLow = static_cast<unsigned int> ( ( *constIt ).phiLow);
            objPar.qualityRange = lexical_cast_from_hex<unsigned int>( ( *constIt ).qualityRange);
            //objPar.charge = static_cast<unsigned int> ( ( *constIt ).charge);

            // can break after it is found - DB consistency
            break;
        }
    }

}
void L1GtTriggerMenuConfigOnlineProd::init ( const int  numberConditionChips)

initialize the class (mainly reserve/resize)

Definition at line 61 of file L1GtTriggerMenuConfigOnlineProd.cc.

References m_corCaloTemplate, m_corEnergySumTemplate, m_corMuonTemplate, m_vecBptxTemplate, m_vecCaloTemplate, m_vecCastorTemplate, m_vecCorrelationTemplate, m_vecEnergySumTemplate, m_vecExternalTemplate, m_vecHfBitCountsTemplate, m_vecHfRingEtSumsTemplate, m_vecJetCountsTemplate, and m_vecMuonTemplate.

Referenced by newObject().

                                                                         {

    // resize the vectors of condition maps
    // the number of condition chips should be correctly set

    m_vecMuonTemplate.resize(numberConditionChips);
    m_vecCaloTemplate.resize(numberConditionChips);
    m_vecEnergySumTemplate.resize(numberConditionChips);
    m_vecJetCountsTemplate.resize(numberConditionChips);
    m_vecCastorTemplate.resize(numberConditionChips);
    m_vecHfBitCountsTemplate.resize(numberConditionChips);
    m_vecHfRingEtSumsTemplate.resize(numberConditionChips);
    m_vecBptxTemplate.resize(numberConditionChips);
    m_vecExternalTemplate.resize(numberConditionChips);

    m_vecCorrelationTemplate.resize(numberConditionChips);
    m_corMuonTemplate.resize(numberConditionChips);
    m_corCaloTemplate.resize(numberConditionChips);
    m_corEnergySumTemplate.resize(numberConditionChips);


}
template<typename Result , typename Source >
Result L1GtTriggerMenuConfigOnlineProd::lexical_cast_from_hex ( Source &  value) const [private]

Definition at line 274 of file L1GtTriggerMenuConfigOnlineProd.h.

References query::result, and relativeConstraints::value.

                                                                                  {

    std::stringstream convertor;
    convertor << value;

    Result result;
    if (! ( convertor >> std::hex >> result ) || !convertor.eof()) {
        throw boost::bad_lexical_cast();
    }

    return result;
}
std::list< int > L1GtTriggerMenuConfigOnlineProd::listChipNumber ( const std::string &  condFK) [private]

get a list of chip numbers from the m_tableMenuAlgoCond table for a condition

Definition at line 1081 of file L1GtTriggerMenuConfigOnlineProd.cc.

References chipNumber(), and m_tableMenuAlgoCond.

Referenced by addBptxCondition(), addCaloCondition(), addCastorCondition(), addCorrelationCondition(), addEnergySumCondition(), addExternalCondition(), addHfBitCountsCondition(), addHfRingEtSumsCondition(), addJetCountsCondition(), and addMuonCondition().

                                                                                    {

    std::list<int> chipList;

    // loop over m_tableMenuAlgoCond
    for (std::vector<TableMenuAlgoCond>::const_iterator constIt = m_tableMenuAlgoCond.begin(); constIt
            != m_tableMenuAlgoCond.end(); constIt++) {

        if (condFK == ( *constIt ).condFK) {
            int chipNr = chipNumber( ( *constIt ).bitNumberSh);
            chipList.push_back(chipNr);
        }
    }

    return chipList;

}
boost::shared_ptr< L1GtTriggerMenu > L1GtTriggerMenuConfigOnlineProd::newObject ( const std::string &  objectKey) [virtual]

public methods

Implements L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >.

Definition at line 84 of file L1GtTriggerMenuConfigOnlineProd.cc.

References addConditions(), L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::algoImplTag, buildAlgorithmMap(), buildTechnicalTriggerMap(), init(), edm::isDebugEnabled(), LogTrace, m_algorithmAliasMap, m_algorithmMap, m_corCaloTemplate, m_corEnergySumTemplate, m_corMuonTemplate, m_isDebugEnabled, m_tableMenuGeneral, m_technicalTriggerMap, m_vecBptxTemplate, m_vecCaloTemplate, m_vecCastorTemplate, m_vecCorrelationTemplate, m_vecEnergySumTemplate, m_vecExternalTemplate, m_vecHfBitCountsTemplate, m_vecHfRingEtSumsTemplate, m_vecJetCountsTemplate, m_vecMuonTemplate, L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::menuImplementation, L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::menuInterface, L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::scalesKey, tableMenuAlgoCondFromDB(), tableMenuAlgoFromDB(), tableMenuCondFromDB(), tableMenuGeneralFromDB(), tableMenuObjectParametersFromDB(), tableMenuTechTrigFromDB(), and verbosity.

                                    {

    // FIXME seems to not work anymore in constructor...
    m_isDebugEnabled = edm::isDebugEnabled();

    // shared pointer for L1GtTriggerMenu - empty menu
    boost::shared_ptr<L1GtTriggerMenu> pL1GtTriggerMenuEmpty =
            boost::shared_ptr<L1GtTriggerMenu>(new L1GtTriggerMenu());

    // FIXME get it from L1GtStableParameters?
    //       initialize once, from outside
    const unsigned int numberConditionChips = 2;
    init(numberConditionChips);

    const std::string gtSchema = "CMS_GT";

    // l1GtTriggerMenu: parameters in table GTFE_SETUP_FK
    // the objectKey for the menu obtained from GT_SETUP is the L1T_MENU_IMPL key

    // SQL queries:

    // retrieve table with general menu parameters from DB, view L1T_MENU_GENERAL_VIEW
    if (!tableMenuGeneralFromDB(gtSchema, objectKey)) {
        return pL1GtTriggerMenuEmpty;

    }

    // build the menu name
    std::string menuName = m_tableMenuGeneral.menuInterface + "/" + m_tableMenuGeneral.scalesKey
            + "/" + m_tableMenuGeneral.algoImplTag;


    // retrieve table with physics algorithms from DB, view L1T_MENU_ALGO_VIEW
    if (!tableMenuAlgoFromDB(gtSchema, objectKey)) {
        return pL1GtTriggerMenuEmpty;

    }

    // retrieve table with conditions associated to physics algorithms from DB
    if (!tableMenuAlgoCondFromDB(gtSchema, objectKey)) {
        return pL1GtTriggerMenuEmpty;

    }

    // retrieve table with list of conditions in the menu
    if (!tableMenuCondFromDB(gtSchema, objectKey)) {
        return pL1GtTriggerMenuEmpty;

    }


    // retrieve table with object parameters from DB, view CMS_GT.L1T_MENU_OP_VIEW
    if (!tableMenuObjectParametersFromDB(gtSchema, objectKey)) {
        return pL1GtTriggerMenuEmpty;

    }

    // retrieve table with technical triggers from DB, view L1T_MENU_TECHTRIG_VIEW
    if (!tableMenuTechTrigFromDB(gtSchema, objectKey)) {
        return pL1GtTriggerMenuEmpty;

    }

    // build the algorithm map in the menu
    buildAlgorithmMap();

    // build the technical trigger map in the menu
    buildTechnicalTriggerMap();

    // add the conditions from a menu to the corresponding list
    addConditions();

    // fill the record
    boost::shared_ptr<L1GtTriggerMenu> pL1GtTriggerMenu = boost::shared_ptr<L1GtTriggerMenu>(
                new L1GtTriggerMenu(menuName, numberConditionChips,
                        m_vecMuonTemplate,
                        m_vecCaloTemplate,
                        m_vecEnergySumTemplate,
                        m_vecJetCountsTemplate,
                        m_vecCastorTemplate,
                        m_vecHfBitCountsTemplate,
                        m_vecHfRingEtSumsTemplate,
                        m_vecBptxTemplate,
                        m_vecExternalTemplate,
                        m_vecCorrelationTemplate,
                        m_corMuonTemplate,
                        m_corCaloTemplate,
                        m_corEnergySumTemplate) );

    pL1GtTriggerMenu->setGtTriggerMenuInterface(m_tableMenuGeneral.menuInterface);
    pL1GtTriggerMenu->setGtTriggerMenuImplementation(m_tableMenuGeneral.menuImplementation);
    pL1GtTriggerMenu->setGtScaleDbKey(m_tableMenuGeneral.scalesKey);

    pL1GtTriggerMenu->setGtAlgorithmMap(m_algorithmMap);
    pL1GtTriggerMenu->setGtAlgorithmAliasMap(m_algorithmAliasMap);
    pL1GtTriggerMenu->setGtTechnicalTriggerMap(m_technicalTriggerMap);


    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
            << "\nThe following L1GtTriggerMenu record was read from OMDS: \n"
            << std::endl;

        std::ostringstream myCoutStream;
        int verbosity = 0;
        pL1GtTriggerMenu->print(myCoutStream, verbosity);
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n" << std::endl;

        verbosity = 2;
        pL1GtTriggerMenu->print(myCoutStream, verbosity);
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << myCoutStream.str() << "\n" << std::endl;

    }

    return pL1GtTriggerMenu;
}
void L1GtTriggerMenuConfigOnlineProd::splitHexStringInTwo64bitWords ( const std::string &  hexStr,
std::string &  hex0WordStr,
std::string &  hex1WordStr 
) [private]

split a hex string in two 64-bit words returned as hex strings

Definition at line 1050 of file L1GtTriggerMenuConfigOnlineProd.cc.

References LogTrace.

Referenced by addMuonCondition(), and fillEnergySumObjectParameter().

                                                                                 {

    unsigned int lenHexStr = hexStr.length();

    if (lenHexStr < 3) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n Warning: string " << hexStr
                << " has length less than 3." << "\n Not possible to split it in two 64-bit words."
                << "\n Return two zero strings." << std::endl;
        hex0WordStr = "0x0";
        hex1WordStr = "0x0";

        return;
    }

    unsigned int lenHex = lenHexStr - 2;
    unsigned int len0Word = lenHex > 16 ? 16 : lenHex;
    unsigned int len1Word = lenHex - len0Word;

    unsigned int pos0Word = lenHexStr - len0Word;
    hex0WordStr = "0x" + hexStr.substr(pos0Word, len0Word);

    if (len1Word > 0) {
        unsigned int pos1Word = pos0Word - len1Word;
        hex1WordStr = "0x" + hexStr.substr(pos1Word, len1Word);
    } else {
        hex1WordStr = "0x0";
    }
}
L1GtConditionCategory L1GtTriggerMenuConfigOnlineProd::strToEnumCondCategory ( const std::string &  strCategory) [private]

string to enum L1GtConditionCategory conversion

Definition at line 919 of file L1GtTriggerMenuConfigOnlineProd.cc.

References CondBptx, CondCalo, CondCastor, CondCorrelation, CondEnergySum, CondExternal, CondHfBitCounts, CondHfRingEtSums, CondJetCounts, CondMuon, and CondNull.

Referenced by addConditions().

                                      {

    if (strCategory == "CondMuon") {
        return CondMuon;
    } else if (strCategory == "CondCalo") {
        return CondCalo;
    } else if (strCategory == "CondEnergySum") {
        return CondEnergySum;
    } else if (strCategory == "CondJetCounts") {
        return CondJetCounts;
    } else if (strCategory == "CondCorrelation") {
        return CondCorrelation;
    } else if (strCategory == "CondCastor") {
        return CondCastor;
    } else if (strCategory == "CondHfBitCounts") {
        return CondHfBitCounts;
    } else if (strCategory == "CondHfRingEtSums") {
        return CondHfRingEtSums;
    } else if (strCategory == "CondBptx") {
        return CondBptx;
    } else if (strCategory == "CondExternal") {
        return CondExternal;
    } else if (strCategory == "CondNull") {
        return CondNull;
    } else {
        edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                << "\n Warning: string " << strCategory
                << " not defined. Returning CondNull.\n" << std::endl;
        return CondNull;
    }

    return CondNull;

}
L1GtConditionType L1GtTriggerMenuConfigOnlineProd::strToEnumCondType ( const std::string &  strType) [private]

string to enum L1GtConditionType conversion

Definition at line 956 of file L1GtTriggerMenuConfigOnlineProd.cc.

References Type1s, Type2s, Type2wsc, Type3s, Type4s, TypeBptx, TypeCastor, TypeETM, TypeETT, TypeExternal, TypeHfBitCounts, TypeHfRingEtSums, TypeHTM, TypeHTT, TypeJetCounts, and TypeNull.

Referenced by addBptxCondition(), addCaloCondition(), addCastorCondition(), addCorrelationCondition(), addEnergySumCondition(), addExternalCondition(), addHfBitCountsCondition(), addHfRingEtSumsCondition(), addJetCountsCondition(), and addMuonCondition().

                                                                                             {

    if (strType == "1s") {
        return Type1s;
    } else if (strType == "2s") {
        return Type2s;
    } else if (strType == "2wsc") {
        return Type2wsc;
    } else if (strType == "3s") {
        return Type3s;
    } else if (strType == "4s") {
        return Type4s;
    } else if (strType == "ETM") {
        return TypeETM;
    } else if (strType == "ETT") {
        return TypeETT;
    } else if (strType == "HTT") {
        return TypeHTT;
    } else if (strType == "HTM") {
        return TypeHTM;
    } else if (strType == "JetCounts") {
        return TypeJetCounts;
    } else if (strType == "Castor") {
        return TypeCastor;
    } else if (strType == "HfBitCounts") {
        return TypeHfBitCounts;
    } else if (strType == "HfRingEtSums") {
        return TypeHfRingEtSums;
    } else if (strType == "Bptx") {
        return TypeBptx;
    } else if (strType == "TypeExternal") {
        return TypeExternal;
    } else {
        edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                << "\n Warning: string " << strType
                << " not associated to any L1GtConditionType. Returning TypeNull.\n"
                << std::endl;
        return TypeNull;
    }

    return TypeNull;

}
L1GtObject L1GtTriggerMenuConfigOnlineProd::strToEnumL1GtObject ( const std::string &  strObject) [private]

string to enum L1GtObject conversion

Definition at line 1001 of file L1GtTriggerMenuConfigOnlineProd.cc.

References BPTX, Castor, CenJet, ETM, ETT, ForJet, GtExternal, HfBitCounts, HfRingEtSums, HTM, HTT, IsoEG, JetCounts, Mu, NoIsoEG, TauJet, and TechTrig.

Referenced by addBptxCondition(), addCaloCondition(), addCastorCondition(), addCorrelationCondition(), addEnergySumCondition(), addExternalCondition(), addHfBitCountsCondition(), addHfRingEtSumsCondition(), and addJetCountsCondition().

                                                                                          {

    if (strObject == "Mu") {
        return Mu;
    } else if (strObject == "NoIsoEG") {
        return NoIsoEG;
    } else if (strObject == "IsoEG") {
        return IsoEG;
    } else if (strObject == "CenJet") {
        return CenJet;
    } else if (strObject == "ForJet") {
        return ForJet;
    } else if (strObject == "TauJet") {
        return TauJet;
    } else if (strObject == "ETM") {
        return ETM;
    } else if (strObject == "ETT") {
        return ETT;
    } else if (strObject == "HTT") {
        return HTT;
    } else if (strObject == "HTM") {
        return HTM;
    } else if (strObject == "JetCounts") {
        return JetCounts;
    } else if (strObject == "HfBitCounts") {
        return HfBitCounts;
    } else if (strObject == "HfRingEtSums") {
        return HfRingEtSums;
    } else if (strObject == "TechTrig") {
        return TechTrig;
    } else if (strObject == "Castor") {
        return Castor;
    } else if (strObject == "BPTX") {
        return BPTX;
    } else if (strObject == "GtExternal") {
        return GtExternal;
    } else {
        edm::LogWarning("L1GtTriggerMenuConfigOnlineProd")
                << "\n Warning: string " << strObject
                << " not associated to any L1GtObject. Returning Mu (no Null type).\n"
                << std::endl;
        return Mu;
    }

    // no null type, so returning Mu - should never arrive here
    return Mu;

}
bool L1GtTriggerMenuConfigOnlineProd::tableMenuAlgoCondFromDB ( const std::string &  gtSchema,
const std::string &  objKey 
) [private]

retrieve table with conditions associated to physics algorithms from DB

Definition at line 360 of file L1GtTriggerMenuConfigOnlineProd.cc.

References l1t::OMDSReader::basicQueryView(), L1GtTriggerMenuConfigOnlineProd::TableMenuAlgoCond::bitNumberSh, l1t::OMDSReader::columnNamesView(), L1GtTriggerMenuConfigOnlineProd::TableMenuAlgoCond::condFK, L1GtTriggerMenuConfigOnlineProd::TableMenuAlgoCond::condIndexF, l1t::OMDSReader::QueryResults::fillVariableFromRow(), LogTrace, m_isDebugEnabled, L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >::m_omdsReader, m_tableMenuAlgoCond, l1t::OMDSReader::QueryResults::numberRows(), l1t::OMDSReader::QueryResults::queryFailed(), and l1t::OMDSReader::singleAttribute().

Referenced by newObject().

                                                               {

    // get list of conditions associated with the algorithms

    // select * from CMS_GT.L1T_MENU_ALGO_COND_VIEW
    //     where L1T_MENU_ALGO_COND_VIEW.MENU_IMPLEMENTATION = objectKey

    const std::vector<std::string>& columnsMenuAlgoCond = m_omdsReader.columnNamesView(
            gtSchema, "L1T_MENU_ALGO_COND_VIEW");

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n List of columns in L1T_MENU_ALGO_COND_VIEW:\n" << std::endl;
        for (std::vector<std::string>::const_iterator iter = columnsMenuAlgoCond.begin(); iter
                != columnsMenuAlgoCond.end(); iter++) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << ( *iter ) << std::endl;

        }
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n\n" << std::endl;
    }

    l1t::OMDSReader::QueryResults resultsMenuAlgoCond = m_omdsReader.basicQueryView(
            columnsMenuAlgoCond, gtSchema, "L1T_MENU_ALGO_COND_VIEW",
            "L1T_MENU_ALGO_COND_VIEW.MENU_IMPLEMENTATION", m_omdsReader.singleAttribute(objectKey));

    // check if query was successful is based on size of returned list
    // BUT one can have menus w/o algorithms and conditions - no error for empty list, but a warning!
    if (resultsMenuAlgoCond.queryFailed()) {
        edm::LogWarning("L1-O2O")
                << "Warning: Content of L1T_MENU_ALGO_COND_VIEW for L1GtTriggerMenu implementation key: "
                << "\n  " << objectKey << "\nis empty!"
                << "\nNo list of condition associated to each algorithm are found for this menu.";

    }

    //
    TableMenuAlgoCond menuAlgoCond;
    int resultsMenuAlgoCondRows = resultsMenuAlgoCond.numberRows();

    for (int iRow = 0; iRow < resultsMenuAlgoCondRows; ++iRow) {

        for (std::vector<std::string>::const_iterator constIt = columnsMenuAlgoCond.begin(); constIt
                != columnsMenuAlgoCond.end(); ++constIt) {

            if ( ( *constIt ) == "ALGO_INDEX") {
                resultsMenuAlgoCond.fillVariableFromRow(
                        *constIt, iRow, menuAlgoCond.bitNumberSh);

            } else if ( ( *constIt ) == "COND_INDEX") {
                resultsMenuAlgoCond.fillVariableFromRow(
                        *constIt, iRow, menuAlgoCond.condIndexF);

            } else if ( ( *constIt ) == "COND_FK") {
                resultsMenuAlgoCond.fillVariableFromRow(*constIt, iRow, menuAlgoCond.condFK);

            } else {
                // do nothing

            }

        }

        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "Row  " << iRow << ": ALGO_INDEX = "
                << menuAlgoCond.bitNumberSh << " COND_INDEX = " << menuAlgoCond.condIndexF
                << " COND_FK = " << menuAlgoCond.condFK << std::endl;

        m_tableMenuAlgoCond.push_back(menuAlgoCond);

    }

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n Number of rows read from L1T_MENU_ALGO_COND_VIEW: "
                << resultsMenuAlgoCondRows << std::endl;
    }


    return true;

}
bool L1GtTriggerMenuConfigOnlineProd::tableMenuAlgoFromDB ( const std::string &  gtSchema,
const std::string &  objKey 
) [private]

retrieve table with physics algorithms from DB

Definition at line 277 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuAlgo::algAlias, L1GtTriggerMenuConfigOnlineProd::TableMenuAlgo::algName, l1t::OMDSReader::basicQueryView(), L1GtTriggerMenuConfigOnlineProd::TableMenuAlgo::bitNumberSh, l1t::OMDSReader::columnNamesView(), l1t::OMDSReader::QueryResults::fillVariableFromRow(), L1GtTriggerMenuConfigOnlineProd::TableMenuAlgo::logExpression, LogTrace, m_isDebugEnabled, L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >::m_omdsReader, m_tableMenuAlgo, l1t::OMDSReader::QueryResults::numberRows(), l1t::OMDSReader::QueryResults::queryFailed(), and l1t::OMDSReader::singleAttribute().

Referenced by newObject().

                                                               {

    // select * from CMS_GT.L1T_MENU_ALGO_VIEW
    //     where L1T_MENU_ALGO_VIEW.MENU_IMPLEMENTATION = objectKey

    const std::vector<std::string>& columnsMenuAlgo = m_omdsReader.columnNamesView(
            gtSchema, "L1T_MENU_ALGO_VIEW");

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n List of columns in L1T_MENU_ALGO_VIEW:\n"
            << std::endl;
        for (std::vector<std::string>::const_iterator iter = columnsMenuAlgo.begin(); iter != columnsMenuAlgo.end(); iter++) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << ( *iter ) << std::endl;

        }
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n\n" << std::endl;
    }

    l1t::OMDSReader::QueryResults resultsMenuAlgo = m_omdsReader.basicQueryView(
            columnsMenuAlgo, gtSchema, "L1T_MENU_ALGO_VIEW", "L1T_MENU_ALGO_VIEW.MENU_IMPLEMENTATION",
            m_omdsReader.singleAttribute(objectKey));


    // check if query was successful is based on size of returned list
    // BUT one can have menus w/o physics algorithms - no error for empty list, but a warning!
    if (resultsMenuAlgo.queryFailed()) {
        edm::LogWarning("L1-O2O")
                << "Warning: Content of L1T_MENU_ALGO_VIEW for L1GtTriggerMenu implementation key: "
                << "\n  " << objectKey << "\nis empty!"
                << "\nNo physics algorithms are found for this menu.";

    }

    TableMenuAlgo menuAlgo;
    int resultsMenuAlgoRows = resultsMenuAlgo.numberRows();

    for (int iRow = 0; iRow < resultsMenuAlgoRows; ++iRow) {

        for (std::vector<std::string>::const_iterator constIt = columnsMenuAlgo.begin(); constIt
                != columnsMenuAlgo.end(); ++constIt) {

            if ( ( *constIt ) == "ALGO_INDEX") {
                resultsMenuAlgo.fillVariableFromRow(*constIt, iRow, menuAlgo.bitNumberSh);

            } else if ( ( *constIt ) == "NAME") {
                resultsMenuAlgo.fillVariableFromRow(*constIt, iRow, menuAlgo.algName);

            } else if ( ( *constIt ) == "ALIAS") {
                resultsMenuAlgo.fillVariableFromRow(*constIt, iRow, menuAlgo.algAlias);

            } else if ( ( *constIt ) == "LOGICEXPR") {
                resultsMenuAlgo.fillVariableFromRow(*constIt, iRow, menuAlgo.logExpression);

            } else {
                // do nothing

            }

        }

        LogTrace("L1GtTriggerMenuConfigOnlineProd")
            << "Row  " << iRow << ": index = " << menuAlgo.bitNumberSh << " algName = " << menuAlgo.algName
            << " algAlias = " << menuAlgo.algAlias << " logExpression = '" << menuAlgo.logExpression << "'"
            << std::endl;

        m_tableMenuAlgo.push_back(menuAlgo);


    }

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
            << "\n Number of rows read from L1T_MENU_ALGO_VIEW: " << resultsMenuAlgoRows
            << std::endl;

    }

    return true;

}
bool L1GtTriggerMenuConfigOnlineProd::tableMenuCondFromDB ( const std::string &  gtSchema,
const std::string &  objKey 
) [private]

retrieve table with list of conditions in the menu

Definition at line 443 of file L1GtTriggerMenuConfigOnlineProd.cc.

References l1t::OMDSReader::basicQueryView(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::chargeCorrelation, l1t::OMDSReader::columnNamesView(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::cond, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condCategory, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condGEq, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::condType, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countIndex, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::countThreshold, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaEtaRange, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::deltaPhiRange, l1t::OMDSReader::QueryResults::fillVariableFromRow(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject1, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::gtObject2, LogTrace, m_isDebugEnabled, L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >::m_omdsReader, m_tableMenuCond, l1t::OMDSReader::QueryResults::numberRows(), L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter1FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter2FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter3FK, L1GtTriggerMenuConfigOnlineProd::TableMenuCond::objectParameter4FK, l1t::OMDSReader::QueryResults::queryFailed(), and l1t::OMDSReader::singleAttribute().

Referenced by newObject().

                                                               {

    // select * from CMS_GT.L1T_MENU_COND_VIEW
    //     where L1T_MENU_COND_VIEW.MENU_IMPLEMENTATION = objectKey

    const std::vector<std::string>& columnsMenuCond = m_omdsReader.columnNamesView(
            gtSchema, "L1T_MENU_COND_VIEW");

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n List of columns in L1T_MENU_COND_VIEW:\n" << std::endl;
        for (std::vector<std::string>::const_iterator iter = columnsMenuCond.begin(); iter
                != columnsMenuCond.end(); iter++) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << ( *iter ) << std::endl;

        }
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n\n" << std::endl;
    }

    l1t::OMDSReader::QueryResults resultsMenuCond = m_omdsReader.basicQueryView(
            columnsMenuCond, gtSchema, "L1T_MENU_COND_VIEW",
            "L1T_MENU_COND_VIEW.MENU_IMPLEMENTATION", m_omdsReader.singleAttribute(objectKey));

    // check if query was successful is based on size of returned list
    // BUT one can have menus w/o conditions - no error for empty list, but a warning!
    if (resultsMenuCond.queryFailed()) {
        edm::LogWarning("L1-O2O")
                << "Warning: Content of L1T_MENU_COND_VIEW for L1GtTriggerMenu implementation key: "
                << "\n  " << objectKey << "\nis empty!"
                << "\nNo conditions associated to menu are found for this menu.";

    }

    //
    TableMenuCond menuCond;
    int resultsMenuCondRows = resultsMenuCond.numberRows();

    for (int iRow = 0; iRow < resultsMenuCondRows; ++iRow) {

        for (std::vector<std::string>::const_iterator constIt = columnsMenuCond.begin(); constIt
                != columnsMenuCond.end(); ++constIt) {

            if ( ( *constIt ) == "COND") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.cond);

            } else if ( ( *constIt ) == "COND_CATEGORY") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.condCategory);

            } else if ( ( *constIt ) == "COND_TYPE") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.condType);

            } else if ( ( *constIt ) == "GT_OBJECT_1") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.gtObject1);

            } else if ( ( *constIt ) == "GT_OBJECT_2") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.gtObject2);

            } else if ( ( *constIt ) == "COND_GEQ") {
                float condGEqFloat = -1;
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, condGEqFloat);
                menuCond.condGEq = (condGEqFloat > 0.5) ? true : false;

            } else if ( ( *constIt ) == "COUNT_INDEX") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.countIndex);

            } else if ( ( *constIt ) == "COUNT_THRESHOLD") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.countThreshold);

            } else if ( ( *constIt ) == "CHARGE_CORRELATION") {
                resultsMenuCond.fillVariableFromRow(
                        *constIt, iRow, menuCond.chargeCorrelation);

            } else if ( ( *constIt ) == "OBJECT_PARAMETER_1_FK") {
                resultsMenuCond.fillVariableFromRow(
                        *constIt, iRow, menuCond.objectParameter1FK);

            } else if ( ( *constIt ) == "OBJECT_PARAMETER_2_FK") {
                resultsMenuCond.fillVariableFromRow(
                        *constIt, iRow, menuCond.objectParameter2FK);

            } else if ( ( *constIt ) == "OBJECT_PARAMETER_3_FK") {
                resultsMenuCond.fillVariableFromRow(
                        *constIt, iRow, menuCond.objectParameter3FK);

            } else if ( ( *constIt ) == "OBJECT_PARAMETER_4_FK") {
                resultsMenuCond.fillVariableFromRow(
                        *constIt, iRow, menuCond.objectParameter4FK);

            } else if ( ( *constIt ) == "DELTA_ETA_RANGE") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.deltaEtaRange);

            } else if ( ( *constIt ) == "DELTA_PHI_RANGE") {
                resultsMenuCond.fillVariableFromRow(*constIt, iRow, menuCond.deltaPhiRange);

            } else {
                // do nothing

            }

        }

        LogTrace("L1GtTriggerMenuConfigOnlineProd")
            << " COND " << menuCond.cond
            << " COND_CATEGORY " << menuCond.condCategory
            << " COND_TYPE " << menuCond.condType
            << " GT_OBJECT_1 " << menuCond.gtObject1
            << " GT_OBJECT_2 " << menuCond.gtObject2
            << " COND_GEQ " << menuCond.condGEq << "\n"
            << " COUNT_INDEX " << menuCond.countIndex
            << " COUNT_THRESHOLD " << menuCond.countThreshold << "\n"
            << " CHARGE_CORRELATION " << menuCond.chargeCorrelation << "\n"
            << " OBJECT_PARAMETER_1_FK " << menuCond.objectParameter1FK
            << " OBJECT_PARAMETER_2_FK " << menuCond.objectParameter2FK
            << " OBJECT_PARAMETER_3_FK " << menuCond.objectParameter3FK
            << " OBJECT_PARAMETER_4_FK " << menuCond.objectParameter4FK << "\n"
            << " DELTA_ETA_RANGE " << menuCond.deltaEtaRange
            << " DELTA_PHI_RANGE " << menuCond.deltaPhiRange;

        m_tableMenuCond.push_back(menuCond);


    }

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
            << "\n Number of rows read from L1T_MENU_COND_VIEW: " << resultsMenuCondRows
            << std::endl;

    }

    return true;

}
bool L1GtTriggerMenuConfigOnlineProd::tableMenuGeneralFromDB ( const std::string &  gtSchema,
const std::string &  objKey 
) [private]

methods to retrieve the tables from DB

retrieve table with general menu parameters from DB

Definition at line 203 of file L1GtTriggerMenuConfigOnlineProd.cc.

References L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::algoImplTag, l1t::OMDSReader::basicQueryView(), l1t::OMDSReader::columnNamesView(), l1t::OMDSReader::QueryResults::fillVariable(), LogTrace, m_isDebugEnabled, L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >::m_omdsReader, m_tableMenuGeneral, L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::menuImplementation, L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::menuInterface, l1t::OMDSReader::QueryResults::queryFailed(), python::entryComment::results, L1GtTriggerMenuConfigOnlineProd::TableMenuGeneral::scalesKey, and l1t::OMDSReader::singleAttribute().

Referenced by newObject().

                                                               {

    // select * from CMS_GT.L1T_MENU_GENERAL_VIEW
    //     where L1T_MENU_GENERAL_VIEW.MENU_IMPLEMENTATION = objectKey

    const std::vector<std::string>& columns = m_omdsReader.columnNamesView(
            gtSchema, "L1T_MENU_GENERAL_VIEW");

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n List of columns in L1T_MENU_GENERAL_VIEW:\n" << std::endl;
        for (std::vector<std::string>::const_iterator iter = columns.begin(); iter != columns.end(); iter++) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << ( *iter ) << std::endl;

        }
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n\n" << std::endl;
    }

    l1t::OMDSReader::QueryResults results = m_omdsReader.basicQueryView(
            columns, gtSchema, "L1T_MENU_GENERAL_VIEW",
            "L1T_MENU_GENERAL_VIEW.MENU_IMPLEMENTATION", m_omdsReader.singleAttribute(objectKey));

    // check if query was successful
    if (results.queryFailed()) {
        edm::LogError("L1-O2O")
                << "Problem to get content of L1T_MENU_GENERAL_VIEW for L1GtTriggerMenu implementation key: "
                << objectKey;
        return false;
    }

    // retrieve menu interface name, scales key, algorithm implementation tag

    for (std::vector<std::string>::const_iterator constIt = columns.begin(); constIt
            != columns.end(); ++constIt) {

        if ( ( *constIt ) == "MENU_IMPLEMENTATION") {
            results.fillVariable(*constIt, m_tableMenuGeneral.menuImplementation);

        } else if ( ( *constIt ) == "INTERFACE") {
            results.fillVariable(*constIt, m_tableMenuGeneral.menuInterface);

        } else if ( ( *constIt ) == "SCALES_KEY") {
            results.fillVariable(*constIt, m_tableMenuGeneral.scalesKey);

        } else if ( ( *constIt ) == "ALGO_IMPL_TAG") {
            results.fillVariable(*constIt, m_tableMenuGeneral.algoImplTag);

        } else {
            // do nothing

        }

    }

    // cross checks
    if (m_tableMenuGeneral.menuImplementation != objectKey)   {

        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n L1 trigger menu implementation read from querying view not identical"
                << "\n with menu key:"
                << "\n   from view: " << m_tableMenuGeneral.menuImplementation
                << "\n   from key:  " <<  objectKey
                << "\n Menu implementation name set from key."
                << std::endl;
        m_tableMenuGeneral.menuImplementation = objectKey;
    }

    //
    return true;

}
bool L1GtTriggerMenuConfigOnlineProd::tableMenuObjectParametersFromDB ( const std::string &  gtSchema,
const std::string &  objKey 
) [private]

retrieve table with object parameters from DB

Definition at line 579 of file L1GtTriggerMenuConfigOnlineProd.cc.

References l1t::OMDSReader::basicQueryView(), L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::charge, l1t::OMDSReader::columnNamesView(), L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::enableIso, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::enableMip, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::energyOverflow, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::etaRange, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::etThreshold, l1t::OMDSReader::QueryResults::fillVariableFromRow(), LogTrace, m_isDebugEnabled, L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >::m_omdsReader, m_tableMenuObjectParameters, l1t::OMDSReader::QueryResults::numberRows(), L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::opId, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::phiHigh, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::phiLow, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::phiRange, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::ptHighThreshold, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::ptLowThreshold, L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::qualityRange, l1t::OMDSReader::QueryResults::queryFailed(), L1GtTriggerMenuConfigOnlineProd::TableMenuObjectParameters::requestIso, and l1t::OMDSReader::singleAttribute().

Referenced by newObject().

                                                               {

    // get the list of object parameters in the menu

    // select * from CMS_GT.L1T_MENU_OP_VIEW
    //     where L1T_MENU_OP_VIEW.MENU_IMPLEMENTATION = objectKey

    const std::vector<std::string>& columnsMenuOp = m_omdsReader.columnNamesView(
            gtSchema, "L1T_MENU_OP_VIEW");

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n List of columns in L1T_MENU_OP_VIEW:\n"
                << std::endl;
        for (std::vector<std::string>::const_iterator iter = columnsMenuOp.begin(); iter
                != columnsMenuOp.end(); iter++) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << ( *iter ) << std::endl;

        }
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n\n" << std::endl;
    }

    l1t::OMDSReader::QueryResults resultsMenuOp = m_omdsReader.basicQueryView(
            columnsMenuOp, gtSchema, "L1T_MENU_OP_VIEW", "L1T_MENU_OP_VIEW.MENU_IMPLEMENTATION",
            m_omdsReader.singleAttribute(objectKey));

    // check if query was successful is based on size of returned list
    // BUT one can have menus w/o object parameters - no error for empty list, but a warning!
    if (resultsMenuOp.queryFailed()) {
        edm::LogWarning("L1-O2O")
                << "Warning: Content of L1T_MENU_OP_VIEW for L1GtTriggerMenu implementation key: "
                << "\n  " << objectKey << "\nis empty!"
                << "\nNo object parameters associated to menu are found for this menu.";

    }

    TableMenuObjectParameters menuObjectParameters;
    int resultsMenuOpRows = resultsMenuOp.numberRows();

    for (int iRow = 0; iRow < resultsMenuOpRows; ++iRow) {

        for (std::vector<std::string>::const_iterator constIt = columnsMenuOp.begin(); constIt
                != columnsMenuOp.end(); ++constIt) {

            if ( ( *constIt ) == "ID") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.opId);

            } else if ( ( *constIt ) == "PT_HIGH_THRESHOLD") {
                resultsMenuOp.fillVariableFromRow(
                        *constIt, iRow, menuObjectParameters.ptHighThreshold);

            } else if ( ( *constIt ) == "PT_LOW_THRESHOLD") {
                resultsMenuOp.fillVariableFromRow(
                        *constIt, iRow, menuObjectParameters.ptLowThreshold);

            } else if ( ( *constIt ) == "ENABLE_MIP") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.enableMip);

            } else if ( ( *constIt ) == "ENABLE_ISO") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.enableIso);

            } else if ( ( *constIt ) == "REQUEST_ISO") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.requestIso);

            } else if ( ( *constIt ) == "ENERGY_OVERFLOW") {
                resultsMenuOp.fillVariableFromRow(
                        *constIt, iRow, menuObjectParameters.energyOverflow);

            } else if ( ( *constIt ) == "ET_THRESHOLD") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.etThreshold);

            } else if ( ( *constIt ) == "ETA_RANGE") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.etaRange);

            } else if ( ( *constIt ) == "PHI_RANGE") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.phiRange);

            } else if ( ( *constIt ) == "PHI_LOW") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.phiLow);

            } else if ( ( *constIt ) == "PHI_HIGH") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.phiHigh);

            } else if ( ( *constIt ) == "QUALITY_RANGE") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.qualityRange);

            } else if ( ( *constIt ) == "CHARGE") {
                resultsMenuOp.fillVariableFromRow(*constIt, iRow, menuObjectParameters.charge);

            } else {
                // do nothing

            }

        }

        LogTrace("L1GtTriggerMenuConfigOnlineProd")
            << " ID " << menuObjectParameters.opId
            << " PT_HIGH_THRESHOLD " << menuObjectParameters.ptHighThreshold
            << " PT_LOW_THRESHOLD " << menuObjectParameters.ptLowThreshold
            << " ENABLE_MIP " << menuObjectParameters.enableMip
            << " ENABLE_ISO " << menuObjectParameters.enableIso
            << " REQUEST_ISO " << menuObjectParameters.requestIso
            << " ENERGY_OVERFLOW " << menuObjectParameters.energyOverflow
            << " ET_THRESHOLD " << menuObjectParameters.etThreshold
            << " ETA_RANGE " << menuObjectParameters.etaRange
            << " PHI_RANGE " << menuObjectParameters.phiRange
            << " PHI_LOW " << menuObjectParameters.phiLow
            << " PHI_HIGH " << menuObjectParameters.phiHigh
            << " QUALITY_RANGE " << menuObjectParameters.qualityRange
            << " CHARGE " << menuObjectParameters.charge
            << std::endl;

        m_tableMenuObjectParameters.push_back(menuObjectParameters);
    }

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n Number of rows read from L1T_MENU_OP_VIEW: " << resultsMenuOpRows
                << std::endl;

    }

    return true;

}
bool L1GtTriggerMenuConfigOnlineProd::tableMenuTechTrigFromDB ( const std::string &  gtSchema,
const std::string &  objKey 
) [private]

retrieve table with technical triggers from DB

Definition at line 707 of file L1GtTriggerMenuConfigOnlineProd.cc.

References l1t::OMDSReader::basicQueryView(), L1GtTriggerMenuConfigOnlineProd::TableMenuTechTrig::bitNumberSh, l1t::OMDSReader::columnNamesView(), l1t::OMDSReader::QueryResults::fillVariableFromRow(), LogTrace, m_isDebugEnabled, L1ConfigOnlineProdBase< L1GtTriggerMenuRcd, L1GtTriggerMenu >::m_omdsReader, m_tableMenuTechTrig, l1t::OMDSReader::QueryResults::numberRows(), l1t::OMDSReader::QueryResults::queryFailed(), l1t::OMDSReader::singleAttribute(), and L1GtTriggerMenuConfigOnlineProd::TableMenuTechTrig::techName.

Referenced by newObject().

                                                               {

    // select * from CMS_GT.L1T_MENU_TECHTRIG_VIEW
    //     where L1T_MENU_TECHTRIG_VIEW.MENU_IMPLEMENTATION = objectKey

    const std::vector<std::string>& columnsMenuTechTrig =
            m_omdsReader.columnNamesView(gtSchema, "L1T_MENU_TECHTRIG_VIEW");

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n List of columns in L1T_MENU_TECHTRIG_VIEW:\n"
                << std::endl;
        for (std::vector<std::string>::const_iterator iter =
                columnsMenuTechTrig.begin(); iter != columnsMenuTechTrig.end(); iter++) {
            LogTrace("L1GtTriggerMenuConfigOnlineProd") << (*iter) << std::endl;

        }
        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "\n\n" << std::endl;
    }

    l1t::OMDSReader::QueryResults resultsMenuTechTrig =
            m_omdsReader.basicQueryView(columnsMenuTechTrig, gtSchema,
                    "L1T_MENU_TECHTRIG_VIEW",
                    "L1T_MENU_TECHTRIG_VIEW.MENU_IMPLEMENTATION",
                    m_omdsReader.singleAttribute(objectKey));

    // check if query was successful is based on size of returned list
    // BUT one can have menus w/o technical triggers - no error for empty list, but a warning!
    if (resultsMenuTechTrig.queryFailed()) {
        edm::LogWarning("L1-O2O")
                << "Warning: Content of L1T_MENU_TECHTRIG_VIEW for L1GtTriggerMenu implementation key: "
                << "\n  " << objectKey << "\nis empty!"
                << "\nNo technical triggers are found for this menu.";

    }

    TableMenuTechTrig menuTechTrig;
    int resultsMenuTechTrigRows = resultsMenuTechTrig.numberRows();

    for (int iRow = 0; iRow < resultsMenuTechTrigRows; ++iRow) {

        for (std::vector<std::string>::const_iterator constIt =
                columnsMenuTechTrig.begin(); constIt
                != columnsMenuTechTrig.end(); ++constIt) {

            if ((*constIt) == "TECHTRIG_INDEX") {
                resultsMenuTechTrig.fillVariableFromRow(*constIt, iRow,
                        menuTechTrig.bitNumberSh);

            } else if ((*constIt) == "NAME") {
                resultsMenuTechTrig.fillVariableFromRow(*constIt, iRow,
                        menuTechTrig.techName);

            } else {
                // do nothing

            }

        }

        LogTrace("L1GtTriggerMenuConfigOnlineProd") << "Row  " << iRow
                << ": index = " << menuTechTrig.bitNumberSh << " techName = "
                << menuTechTrig.techName << std::endl;

        m_tableMenuTechTrig.push_back(menuTechTrig);

    }

    if (m_isDebugEnabled) {
        LogTrace("L1GtTriggerMenuConfigOnlineProd")
                << "\n Number of rows read from L1T_MENU_TECHTRIG_VIEW: "
                << resultsMenuTechTrigRows << std::endl;

    }

    return true;

}

Member Data Documentation

map containing the physics algorithms (by alias)

Definition at line 259 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by buildAlgorithmMap(), and newObject().

map containing the physics algorithms (by name)

Definition at line 256 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by buildAlgorithmMap(), and newObject().

Definition at line 252 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addCorrelationCondition(), init(), and newObject().

Definition at line 253 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addCorrelationCondition(), init(), and newObject().

Definition at line 251 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addCorrelationCondition(), init(), and newObject().

menu associated scale key

Definition at line 236 of file L1GtTriggerMenuConfigOnlineProd.h.

Definition at line 220 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by buildAlgorithmMap(), and tableMenuAlgoFromDB().

Definition at line 222 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addConditions(), and tableMenuCondFromDB().

member to keep various tables retrieved from DB

Definition at line 219 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by newObject(), and tableMenuGeneralFromDB().

map containing the technical triggers

Definition at line 262 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by buildTechnicalTriggerMap(), and newObject().

Definition at line 233 of file L1GtTriggerMenuConfigOnlineProd.h.

menu representation

menu names

Definition at line 231 of file L1GtTriggerMenuConfigOnlineProd.h.

Definition at line 232 of file L1GtTriggerMenuConfigOnlineProd.h.

Definition at line 247 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addBptxCondition(), init(), and newObject().

Definition at line 241 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addCaloCondition(), init(), and newObject().

Definition at line 244 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addCastorCondition(), init(), and newObject().

Definition at line 250 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addCorrelationCondition(), init(), and newObject().

Definition at line 242 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addEnergySumCondition(), init(), and newObject().

Definition at line 248 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addExternalCondition(), init(), and newObject().

Definition at line 245 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addHfBitCountsCondition(), init(), and newObject().

Definition at line 246 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addHfRingEtSumsCondition(), init(), and newObject().

Definition at line 243 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addJetCountsCondition(), init(), and newObject().

vectors containing the conditions explicit, due to persistency...

Definition at line 240 of file L1GtTriggerMenuConfigOnlineProd.h.

Referenced by addMuonCondition(), init(), and newObject().