CexmcEnergyDepositDigitizer Class Reference

#include <CexmcEnergyDepositDigitizer.hh>

Inheritance diagram for CexmcEnergyDepositDigitizer:

Collaboration diagram for CexmcEnergyDepositDigitizer:

Public Member Functions
	CexmcEnergyDepositDigitizer (const G4String &name)
	~CexmcEnergyDepositDigitizer ()
void	Digitize (void)
G4double	GetMonitorED (void) const
G4double	GetVetoCounterEDLeft (void) const
G4double	GetVetoCounterEDRight (void) const
G4double	GetCalorimeterEDLeft (void) const
G4double	GetCalorimeterEDRight (void) const
G4int	GetCalorimeterEDLeftMaxX (void) const
G4int	GetCalorimeterEDLeftMaxY (void) const
G4int	GetCalorimeterEDRightMaxX (void) const
G4int	GetCalorimeterEDRightMaxY (void) const
const CexmcEnergyDepositCalorimeterCollection &	GetCalorimeterEDLeftCollection (void) const
const CexmcEnergyDepositCalorimeterCollection &	GetCalorimeterEDRightCollection (void) const
G4bool	MonitorHasTriggered (void) const
G4bool	HasTriggered (void) const
void	SetMonitorThreshold (G4double value, G4bool fromMessenger=true)
void	SetVetoCounterLeftThreshold (G4double value, G4bool fromMessenger=true)
void	SetVetoCounterRightThreshold (G4double value, G4bool fromMessenger=true)
void	SetVetoCountersThreshold (G4double value)
void	SetCalorimeterLeftThreshold (G4double value, G4bool fromMessenger=true)
void	SetCalorimeterRightThreshold (G4double value, G4bool fromMessenger=true)
void	SetCalorimetersThreshold (G4double value)
void	SetCalorimeterTriggerAlgorithm (CexmcCalorimeterTriggerAlgorithm value, G4bool fromMessenger=true)
void	SetOuterCrystalsVetoAlgorithm (CexmcOuterCrystalsVetoAlgorithm value, G4bool fromMessenger=true)
void	SetOuterCrystalsVetoFraction (G4double value, G4bool fromMessenger=true)
void	ApplyFiniteCrystalResolution (G4bool value, G4bool fromMessenger=true)
void	AddCrystalResolutionRange (G4double bottom, G4double top, G4double value, G4bool fromMessenger=true)
void	ClearCrystalResolutionData (G4bool fromMessenger=true)
void	SetCrystalResolutionData (const CexmcEnergyRangeWithDoubleValueList &data)
G4double	GetMonitorThreshold (void) const
G4double	GetVetoCounterLeftThreshold (void) const
G4double	GetVetoCounterRightThreshold (void) const
G4double	GetCalorimeterLeftThreshold (void) const
G4double	GetCalorimeterRightThreshold (void) const
CexmcCalorimeterTriggerAlgorithm	GetCalorimeterTriggerAlgorithm (void) const
CexmcOuterCrystalsVetoAlgorithm	GetOuterCrystalsVetoAlgorithm (void) const
G4double	GetOuterCrystalsVetoFraction (void) const
G4bool	IsFiniteCrystalResolutionApplied (void) const
const CexmcEnergyRangeWithDoubleValueList &	GetCrystalResolutionData (void) const
G4bool	IsOuterCrystal (G4int column, G4int row) const
Public Member Functions inherited from G4VDigitizerModule
	G4VDigitizerModule (G4String modName)
virtual	~G4VDigitizerModule ()
int	operator== (const G4VDigitizerModule &right) const
int	operator!= (const G4VDigitizerModule &right) const
G4int	GetNumberOfCollections () const
G4String	GetCollectionName (G4int i) const
G4String	GetName () const
void	SetVerboseLevel (G4int val)

Additional Inherited Members
Protected Member Functions inherited from G4VDigitizerModule
void	StoreDigiCollection (G4VDigiCollection *aDC)
void	StoreDigiCollection (G4int DCID, G4VDigiCollection *aDC)
Protected Attributes inherited from G4VDigitizerModule
G4DigiManager *	DigiManager
G4String	moduleName
std::vector< G4String >	collectionName
G4int	verboseLevel

Detailed Description

Definition at line 59 of file CexmcEnergyDepositDigitizer.hh.

Constructor & Destructor Documentation

CexmcEnergyDepositDigitizer::CexmcEnergyDepositDigitizer ( const G4String &  name )

explicit

Definition at line 59 of file CexmcEnergyDepositDigitizer.cc.

                                                                             :
    G4VDigitizerModule( name ), monitorED( 0 ),
    vetoCounterEDLeft( 0 ), vetoCounterEDRight( 0 ),
    calorimeterEDLeft( 0 ), calorimeterEDRight( 0 ),
    calorimeterEDLeftMaxX( 0 ), calorimeterEDLeftMaxY( 0 ),
    calorimeterEDRightMaxX( 0 ), calorimeterEDRightMaxY( 0 ),
    monitorHasTriggered( false ), hasTriggered( false ),
    monitorEDThreshold( 0 ),
    vetoCounterEDLeftThreshold( 0 ), vetoCounterEDRightThreshold( 0 ),
    calorimeterEDLeftThreshold( 0 ), calorimeterEDRightThreshold( 0 ),
    calorimeterTriggerAlgorithm( CexmcAllCrystalsMakeEDTriggerThreshold ),
    outerCrystalsVetoAlgorithm( CexmcNoOuterCrystalsVeto ),
    outerCrystalsVetoFraction( 0 ), monitorEDThresholdRef( 0 ),
    vetoCounterEDLeftThresholdRef( 0 ), vetoCounterEDRightThresholdRef( 0 ),
    calorimeterEDLeftThresholdRef( 0 ), calorimeterEDRightThresholdRef( 0 ),
    calorimeterTriggerAlgorithmRef( CexmcAllCrystalsMakeEDTriggerThreshold ),
    outerCrystalsVetoAlgorithmRef( CexmcNoOuterCrystalsVeto ),
    outerCrystalsVetoFractionRef( 0 ), nCrystalsInColumn( 1 ),
    nCrystalsInRow( 1 ), applyFiniteCrystalResolution( false ),
    messenger( NULL )
{
    G4RunManager *      runManager( G4RunManager::GetRunManager() );
    const CexmcSetup *  setup( static_cast< const CexmcSetup * >(
                                runManager->GetUserDetectorConstruction() ) );
    const CexmcSetup::CalorimeterGeometryData &  calorimeterGeometry(
                                            setup->GetCalorimeterGeometry() );

    nCrystalsInColumn = calorimeterGeometry.nCrystalsInColumn;
    nCrystalsInRow = calorimeterGeometry.nCrystalsInRow;

    if ( nCrystalsInColumn > 0 )
    {
        calorimeterEDLeftCollection.resize( nCrystalsInColumn );
        calorimeterEDRightCollection.resize( nCrystalsInColumn );
    }

    if ( nCrystalsInRow > 0 )
    {
        for ( CexmcEnergyDepositCalorimeterCollection::iterator
                k( calorimeterEDLeftCollection.begin() );
                    k != calorimeterEDLeftCollection.end(); ++k )
        {
            k->resize( nCrystalsInRow );
        }
        for ( CexmcEnergyDepositCalorimeterCollection::iterator
                k( calorimeterEDRightCollection.begin() );
                    k != calorimeterEDRightCollection.end(); ++k )
        {
            k->resize( nCrystalsInRow );
        }
    }

    messenger = new CexmcEnergyDepositDigitizerMessenger( this );
}

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CexmcEnergyDepositDigitizer::~CexmcEnergyDepositDigitizer

(

)

Definition at line 116 of file CexmcEnergyDepositDigitizer.cc.

{
    delete messenger;
}

Member Function Documentation

void CexmcEnergyDepositDigitizer::AddCrystalResolutionRange ( G4double  bottom, G4double  top, G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 473 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcCmdIsNotAllowed );

    /* range boundaries are given in GeV */
    crystalResolutionData.push_back( CexmcEnergyRangeWithDoubleValue(
                                            bottom * GeV, top * GeV, value ) );
}

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void CexmcEnergyDepositDigitizer::ApplyFiniteCrystalResolution ( G4bool  value, G4bool  fromMessenger = true  )

inline

Definition at line 463 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcCmdIsNotAllowed );

    applyFiniteCrystalResolution = value;
}

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void CexmcEnergyDepositDigitizer::ClearCrystalResolutionData ( G4bool  fromMessenger = true )

inline

Definition at line 486 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcCmdIsNotAllowed );

    crystalResolutionData.clear();
}

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void CexmcEnergyDepositDigitizer::Digitize ( void  )

virtual

Implements G4VDigitizerModule.

Definition at line 159 of file CexmcEnergyDepositDigitizer.cc.

{
    InitializeData();

    G4DigiManager *  digiManager( G4DigiManager::GetDMpointer() );
    G4int    hcId( digiManager->GetHitsCollectionID(
                    CexmcDetectorRoleName[ CexmcMonitorDetectorRole ] +
                    "/" + CexmcDetectorTypeName[ CexmcEDDetector ] ) );
    const CexmcEnergyDepositCollection *
         hitsCollection( static_cast< const CexmcEnergyDepositCollection * >(
                                    digiManager->GetHitsCollection( hcId ) ) );

    if ( hitsCollection )
    {
        /* it always must have index 0 */
        if ( ( *hitsCollection )[ 0 ] )
            monitorED = *( *hitsCollection )[ 0 ];
    }

    hcId = digiManager->GetHitsCollectionID(
                    CexmcDetectorRoleName[ CexmcVetoCounterDetectorRole ] +
                    "/" + CexmcDetectorTypeName[ CexmcEDDetector ] );
    hitsCollection = static_cast< const CexmcEnergyDepositCollection * >(
                                    digiManager->GetHitsCollection( hcId ) );
    if ( hitsCollection )
    {
        for ( CexmcEnergyDepositCollectionData::iterator
                  k( hitsCollection->GetMap()->begin() );
                      k != hitsCollection->GetMap()->end(); ++k )
        {
            G4int      index( k->first );
            CexmcSide  side( CexmcEnergyDepositInLeftRightSet::GetSide(
                                                                   index ) );
            switch ( side )
            {
            case CexmcLeft :
                vetoCounterEDLeft = *k->second;
                break;
            case CexmcRight :
                vetoCounterEDRight = *k->second;
                break;
            default :
                break;
            }
        }
    }

    G4double  maxEDCrystalLeft( 0 );
    G4double  maxEDCrystalRight( 0 );
    G4double  outerCrystalsEDLeft( 0 );
    G4double  outerCrystalsEDRight( 0 );
    G4double  innerCrystalsEDLeft( 0 );
    G4double  innerCrystalsEDRight( 0 );

    CexmcRunManager *  runManager( static_cast< CexmcRunManager * >(
                                            G4RunManager::GetRunManager() ) );

    hcId = digiManager->GetHitsCollectionID(
                    CexmcDetectorRoleName[ CexmcCalorimeterDetectorRole ] +
                    "/" + CexmcDetectorTypeName[ CexmcEDDetector ] );
    hitsCollection = static_cast< const CexmcEnergyDepositCollection * >(
                                    digiManager->GetHitsCollection( hcId ) );
    if ( hitsCollection )
    {
        for ( CexmcEnergyDepositCollectionData::iterator
                  k( hitsCollection->GetMap()->begin() );
                      k != hitsCollection->GetMap()->end(); ++k )
        {
            G4int      index( k->first );
            CexmcSide  side( CexmcEnergyDepositInLeftRightSet::GetSide(
                                                                   index ) );
            G4int      row( CexmcEnergyDepositInCalorimeter::GetRow( index ) );
            G4int      column( CexmcEnergyDepositInCalorimeter::GetColumn(
                                                                   index ) );
            G4double   value( *k->second );
            if ( applyFiniteCrystalResolution && value > 0. &&
                                                 ! runManager->ProjectIsRead() )
            {
                for ( CexmcEnergyRangeWithDoubleValueList::const_iterator
                          l( crystalResolutionData.begin() );
                          l != crystalResolutionData.end(); ++l )
                {
                    if ( value < l->bottom || value >= l->top )
                        continue;
                    value = G4RandGauss::shoot( value,
                                        value * l->value * CexmcFwhmToStddev );
                    if ( value < 0. )
                        value = 0.;
                    break;
                }
            }
            switch ( side )
            {
            case CexmcLeft :
                if ( value > maxEDCrystalLeft )
                {
                    calorimeterEDLeftMaxX = column;
                    calorimeterEDLeftMaxY = row;
                    maxEDCrystalLeft = value;
                }
                if ( IsOuterCrystal( column, row ) )
                {
                    outerCrystalsEDLeft += value;
                }
                else
                {
                    innerCrystalsEDLeft += value;
                }
                calorimeterEDLeft += value;
                calorimeterEDLeftCollection[ row ][ column ] = value;
                break;
            case CexmcRight :
                if ( value > maxEDCrystalRight )
                {
                    calorimeterEDRightMaxX = column;
                    calorimeterEDRightMaxY = row;
                    maxEDCrystalRight = value;
                }
                if ( IsOuterCrystal( column, row ) )
                {
                    outerCrystalsEDRight += value;
                }
                else
                {
                    innerCrystalsEDRight += value;
                }
                calorimeterEDRight += value;
                calorimeterEDRightCollection[ row ][ column ] = value;
                break;
            default :
                break;
            }
        }
    }

    G4double  calorimeterEDLeftEffective( calorimeterEDLeft );
    G4double  calorimeterEDRightEffective( calorimeterEDRight );

    if ( calorimeterTriggerAlgorithm ==
         CexmcInnerCrystalsMakeEDTriggerThreshold )
    {
        calorimeterEDLeftEffective = innerCrystalsEDLeft;
        calorimeterEDRightEffective = innerCrystalsEDRight;
    }

    monitorHasTriggered = monitorED >= monitorEDThreshold;

    hasTriggered = monitorHasTriggered &&
                   vetoCounterEDLeft < vetoCounterEDLeftThreshold &&
                   vetoCounterEDRight < vetoCounterEDRightThreshold &&
                   calorimeterEDLeftEffective >= calorimeterEDLeftThreshold &&
                   calorimeterEDRightEffective >= calorimeterEDRightThreshold;

    /* event won't trigger if outer crystals veto triggered */
    if ( hasTriggered )
    {
        switch ( outerCrystalsVetoAlgorithm )
        {
        case CexmcNoOuterCrystalsVeto :
            break;
        case CexmcMaximumEDInASingleOuterCrystalVeto :
            hasTriggered =
                    ! IsOuterCrystal( calorimeterEDLeftMaxX,
                                      calorimeterEDLeftMaxY ) &&
                    ! IsOuterCrystal( calorimeterEDRightMaxX,
                                      calorimeterEDRightMaxY );
            break;
        case CexmcFractionOfEDInOuterCrystalsVeto :
            hasTriggered =
                    ( ( outerCrystalsEDLeft / calorimeterEDLeft ) <
                                              outerCrystalsVetoFraction ) &&
                    ( ( outerCrystalsEDRight / calorimeterEDRight ) <
                                              outerCrystalsVetoFraction );
            break;
        default :
            break;
        }
    }
}

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G4double CexmcEnergyDepositDigitizer::GetCalorimeterEDLeft ( void  ) const

inline

Definition at line 265 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDLeft;
}

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const CexmcEnergyDepositCalorimeterCollection & CexmcEnergyDepositDigitizer::GetCalorimeterEDLeftCollection ( void  ) const

inline

Definition at line 307 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDLeftCollection;
}

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G4int CexmcEnergyDepositDigitizer::GetCalorimeterEDLeftMaxX ( void  ) const

inline

Definition at line 278 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDLeftMaxX;
}

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G4int CexmcEnergyDepositDigitizer::GetCalorimeterEDLeftMaxY ( void  ) const

inline

Definition at line 285 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDLeftMaxY;
}

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G4double CexmcEnergyDepositDigitizer::GetCalorimeterEDRight ( void  ) const

inline

Definition at line 271 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDRight;
}

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const CexmcEnergyDepositCalorimeterCollection & CexmcEnergyDepositDigitizer::GetCalorimeterEDRightCollection ( void  ) const

inline

Definition at line 314 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDRightCollection;
}

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G4int CexmcEnergyDepositDigitizer::GetCalorimeterEDRightMaxX ( void  ) const

inline

Definition at line 292 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDRightMaxX;
}

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G4int CexmcEnergyDepositDigitizer::GetCalorimeterEDRightMaxY ( void  ) const

inline

Definition at line 299 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDRightMaxY;
}

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G4double CexmcEnergyDepositDigitizer::GetCalorimeterLeftThreshold ( void  ) const

inline

Definition at line 532 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDLeftThreshold;
}

G4double CexmcEnergyDepositDigitizer::GetCalorimeterRightThreshold ( void  ) const

inline

Definition at line 539 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterEDRightThreshold;
}

CexmcCalorimeterTriggerAlgorithm CexmcEnergyDepositDigitizer::GetCalorimeterTriggerAlgorithm ( void  ) const

inline

Definition at line 547 of file CexmcEnergyDepositDigitizer.hh.

{
    return calorimeterTriggerAlgorithm;
}

const CexmcEnergyRangeWithDoubleValueList & CexmcEnergyDepositDigitizer::GetCrystalResolutionData ( void  ) const

inline

Definition at line 577 of file CexmcEnergyDepositDigitizer.hh.

{
    return crystalResolutionData;
}

G4double CexmcEnergyDepositDigitizer::GetMonitorED ( void  ) const

inline

Definition at line 246 of file CexmcEnergyDepositDigitizer.hh.

{
    return monitorED;
}

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G4double CexmcEnergyDepositDigitizer::GetMonitorThreshold ( void  ) const

inline

Definition at line 512 of file CexmcEnergyDepositDigitizer.hh.

{
    return monitorEDThreshold;
}

CexmcOuterCrystalsVetoAlgorithm CexmcEnergyDepositDigitizer::GetOuterCrystalsVetoAlgorithm ( void  ) const

inline

Definition at line 555 of file CexmcEnergyDepositDigitizer.hh.

{
    return outerCrystalsVetoAlgorithm;
}

G4double CexmcEnergyDepositDigitizer::GetOuterCrystalsVetoFraction ( void  ) const

inline

Definition at line 562 of file CexmcEnergyDepositDigitizer.hh.

{
    return outerCrystalsVetoFraction;
}

G4double CexmcEnergyDepositDigitizer::GetVetoCounterEDLeft ( void  ) const

inline

Definition at line 252 of file CexmcEnergyDepositDigitizer.hh.

{
    return vetoCounterEDLeft;
}

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G4double CexmcEnergyDepositDigitizer::GetVetoCounterEDRight ( void  ) const

inline

Definition at line 258 of file CexmcEnergyDepositDigitizer.hh.

{
    return vetoCounterEDRight;
}

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G4double CexmcEnergyDepositDigitizer::GetVetoCounterLeftThreshold ( void  ) const

inline

Definition at line 518 of file CexmcEnergyDepositDigitizer.hh.

{
    return vetoCounterEDLeftThreshold;
}

G4double CexmcEnergyDepositDigitizer::GetVetoCounterRightThreshold ( void  ) const

inline

Definition at line 525 of file CexmcEnergyDepositDigitizer.hh.

{
    return vetoCounterEDRightThreshold;
}

G4bool CexmcEnergyDepositDigitizer::HasTriggered ( void  ) const

inline

Definition at line 326 of file CexmcEnergyDepositDigitizer.hh.

{
    return hasTriggered;
}

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G4bool CexmcEnergyDepositDigitizer::IsFiniteCrystalResolutionApplied ( void  ) const

inline

Definition at line 569 of file CexmcEnergyDepositDigitizer.hh.

{
    return applyFiniteCrystalResolution;
}

G4bool CexmcEnergyDepositDigitizer::IsOuterCrystal ( G4int  column, G4int  row  ) const

inline

Definition at line 504 of file CexmcEnergyDepositDigitizer.hh.

{
    return column == 0 || column == nCrystalsInRow - 1 ||
           row == 0 || row == nCrystalsInColumn - 1;
}

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G4bool CexmcEnergyDepositDigitizer::MonitorHasTriggered ( void  ) const

inline

Definition at line 320 of file CexmcEnergyDepositDigitizer.hh.

{
    return monitorHasTriggered;
}

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void CexmcEnergyDepositDigitizer::SetCalorimeterLeftThreshold ( G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 383 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                       value < calorimeterEDLeftThresholdRef );
    else
        calorimeterEDLeftThresholdRef = value;

    calorimeterEDLeftThreshold = value;
}

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void CexmcEnergyDepositDigitizer::SetCalorimeterRightThreshold ( G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 396 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                       value < calorimeterEDRightThresholdRef );
    else
        calorimeterEDRightThresholdRef = value;

    calorimeterEDRightThreshold = value;
}

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void CexmcEnergyDepositDigitizer::SetCalorimetersThreshold ( G4double  value )

inline

Definition at line 409 of file CexmcEnergyDepositDigitizer.hh.

{
    ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                   value < calorimeterEDLeftThresholdRef ||
                                   value < calorimeterEDRightThresholdRef );

    calorimeterEDLeftThreshold = value;
    calorimeterEDRightThreshold = value;
}

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void CexmcEnergyDepositDigitizer::SetCalorimeterTriggerAlgorithm ( CexmcCalorimeterTriggerAlgorithm  value, G4bool  fromMessenger = true  )

inline

Definition at line 421 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadCalorimeterTriggerAlgorithm,
            ! ( calorimeterTriggerAlgorithmRef ==
                                       CexmcAllCrystalsMakeEDTriggerThreshold ||
                value == calorimeterTriggerAlgorithmRef ) );
    else
        calorimeterTriggerAlgorithmRef = value;

    calorimeterTriggerAlgorithm = value;
}

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void CexmcEnergyDepositDigitizer::SetCrystalResolutionData ( const CexmcEnergyRangeWithDoubleValueList &  data )

inline

Definition at line 496 of file CexmcEnergyDepositDigitizer.hh.

{
    ClearCrystalResolutionData( false );
    crystalResolutionData = data;
}

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void CexmcEnergyDepositDigitizer::SetMonitorThreshold ( G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 332 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                       value < monitorEDThresholdRef );
    else
        monitorEDThresholdRef = value;

    monitorEDThreshold = value;
}

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void CexmcEnergyDepositDigitizer::SetOuterCrystalsVetoAlgorithm ( CexmcOuterCrystalsVetoAlgorithm  value, G4bool  fromMessenger = true  )

inline

Definition at line 436 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadOCVetoAlgorithm,
            ! ( outerCrystalsVetoAlgorithmRef == CexmcNoOuterCrystalsVeto ||
                value == outerCrystalsVetoAlgorithmRef ) );
    else
        outerCrystalsVetoAlgorithmRef = value;

    outerCrystalsVetoAlgorithm = value;
}

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void CexmcEnergyDepositDigitizer::SetOuterCrystalsVetoFraction ( G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 450 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadOCVetoFraction,
                                       value > outerCrystalsVetoFractionRef );
    else
        outerCrystalsVetoFractionRef = value;

    outerCrystalsVetoFraction = value;
}

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void CexmcEnergyDepositDigitizer::SetVetoCounterLeftThreshold ( G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 345 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                       value > vetoCounterEDLeftThresholdRef );
    else
        vetoCounterEDLeftThresholdRef = value;

    vetoCounterEDLeftThreshold = value;
}

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void CexmcEnergyDepositDigitizer::SetVetoCounterRightThreshold ( G4double  value, G4bool  fromMessenger = true  )

inline

Definition at line 358 of file CexmcEnergyDepositDigitizer.hh.

{
    if ( fromMessenger )
        ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                       value > vetoCounterEDRightThresholdRef );
    else
        vetoCounterEDRightThresholdRef = value;

    vetoCounterEDRightThreshold = value;
}

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void CexmcEnergyDepositDigitizer::SetVetoCountersThreshold ( G4double  value )

inline

Definition at line 371 of file CexmcEnergyDepositDigitizer.hh.

{
    ThrowExceptionIfProjectIsRead( CexmcBadThreshold,
                                   value > vetoCounterEDLeftThresholdRef ||
                                   value > vetoCounterEDRightThresholdRef );

    vetoCounterEDLeftThreshold = value;
    vetoCounterEDRightThreshold = value;
}

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---

The documentation for this class was generated from the following files:

• source/geant4.10.03.p03/examples/advanced/ChargeExchangeMC/include/CexmcEnergyDepositDigitizer.hh
• source/geant4.10.03.p03/examples/advanced/ChargeExchangeMC/src/CexmcEnergyDepositDigitizer.cc