#include <CSCIndexerBase.h>

Inheritance diagram for CSCIndexerBase:

Public Types
typedef boost::tuple< CSCDetId, IndexType, IndexType >	GasGainIndexType

typedef uint16_t	IndexType

typedef uint32_t	LongIndexType

Public Member Functions
IndexType	chamberLabelFromChamberIndex (IndexType) const

	CSCIndexerBase ()

virtual int	dbIndex (const CSCDetId &id, int &channel) const =0

virtual std::string	name () const

virtual	~CSCIndexerBase ()

maxIndexMethods
The following methods are expected to define maximum values for various index types. Warning The abstract methods need to be implemented by concrete CSCIndexers! the minimum index value is 1.
IndexType	maxChamberIndex () const

IndexType	maxLayerIndex () const

virtual LongIndexType	maxStripChannelIndex () const =0

virtual IndexType	maxChipIndex () const =0

virtual IndexType	maxGasGainIndex () const =0

nonIndexCountingMethods
IndexType	ringsInStation (IndexType is) const

virtual IndexType	onlineRingsInStation (IndexType is) const =0

IndexType	offlineRingsInStation (IndexType is) const

IndexType	chambersInRingOfStation (IndexType is, IndexType ir) const

virtual IndexType	stripChannelsPerOfflineLayer (IndexType is, IndexType ir) const =0

virtual IndexType	stripChannelsPerOnlineLayer (IndexType is, IndexType ir) const =0

virtual IndexType	chipsPerOnlineLayer (IndexType is, IndexType ir) const =0

IndexType	sectorsPerOnlineLayer (IndexType is, IndexType ir) const

chamberIndexMethods
IndexType	startChamberIndexInEndcap (IndexType ie, IndexType is, IndexType ir) const

IndexType	chamberIndex (IndexType ie, IndexType is, IndexType ir, IndexType ic) const

IndexType	chamberIndex (const CSCDetId &id) const

layerIndexMethods
IndexType	layerIndex (IndexType ie, IndexType is, IndexType ir, IndexType ic, IndexType il) const

IndexType	layerIndex (const CSCDetId &id) const

stripIndexMethods
virtual IndexType	stripChannelsPerLayer (IndexType is, IndexType ir) const =0

virtual LongIndexType	stripChannelStart (IndexType ie, IndexType is, IndexType ir) const =0

LongIndexType	stripChannelIndex (IndexType ie, IndexType is, IndexType ir, IndexType ic, IndexType il, IndexType istrip) const

LongIndexType	stripChannelIndex (const CSCDetId &id, IndexType istrip) const

chipIndexMethods
virtual IndexType	chipsPerLayer (IndexType is, IndexType ir) const =0

virtual IndexType	chipStart (IndexType ie, IndexType is, IndexType ir) const =0

IndexType	chipIndex (IndexType ie, IndexType is, IndexType ir, IndexType ic, IndexType il, IndexType ichip) const

IndexType	chipIndex (const CSCDetId &id, IndexType ichip) const

IndexType	chipIndex (IndexType istrip) const

gasGainIndexMethods
IndexType	hvSegmentsPerLayer (IndexType is, IndexType ir) const

IndexType	hvSegmentIndex (IndexType is, IndexType ir, IndexType iwire) const

IndexType	sectorsPerLayer (IndexType is, IndexType ir) const

virtual IndexType	sectorStart (IndexType ie, IndexType is, IndexType ir) const =0

IndexType	gasGainIndex (IndexType ie, IndexType is, IndexType ir, IndexType ic, IndexType il, IndexType ihvsegment, IndexType ichip) const

IndexType	gasGainIndex (const CSCDetId &id, IndexType istrip, IndexType iwire) const

IndexType	gasGainIndex (IndexType ihvsegment, IndexType ichip, const CSCDetId &id) const

reverseIndexMethods
reverse look-up methods: index –> detid + etc.
CSCDetId	detIdFromChamberIndex (IndexType ici) const

CSCDetId	detIdFromLayerIndex (IndexType ili) const

virtual std::pair< CSCDetId, IndexType >	detIdFromStripChannelIndex (LongIndexType ichi) const =0

virtual std::pair< CSCDetId, IndexType >	detIdFromChipIndex (IndexType ichi) const =0

virtual GasGainIndexType	detIdFromGasGainIndex (IndexType igg) const =0

Protected Member Functions
CSCDetId	detIdFromChamberLabel (IndexType ie, IndexType icl) const

Protected Attributes
std::vector< IndexType >	chamberLabel_

Detailed Description

ABC for CSCIndexer classes.

A CSCIndexer class provides a linear index for various sublevels of the endcap muon CSC system for use in access to information stored in the Conditions Database. Only concrete derived classes can be instantiated.

It supplies a linear index for:

Each chamber of the CSC system: range 1-468 (CSC system as installed 2008) 469-540 for ME42
Each layer of the CSC system: range 1-2808 (CSCs 2008) 2809-3240 for ME42
Each strip channel of the CSC system: range 1-217728 (CSCs 2008) 217729-252288 for ME42
Each Buckeye chip (1 for each layer in each CFEB) of the CSC system: range 1-13608 (CSCs 2008) 13609-15768 for ME42
Each Gas Gain Sector (1 for each [CFEB*HV segment] combination in each layer): range 1-45144 (CSCs 2008) 45145-55944 for ME42

The chamber and layer may be specified by CSCDetId or labels for endcap, station, ring, chamber, layer.

The strip channel is a value 1-80 for most chambers.
ME1/3 and ME1/1B have 64 channels.
ME1/1A has 16 channels at CMS startup (2008-2013) and 48 channels after Long Shutdown 1 ('LS1' 2013-2014)
The chip number is a value 1-30 (or 24: ME13 chambers have only 24 chips.)

The main user interface is the set of functions
chamberIndex(.)
layerIndex(.)
stripChannelIndex(.)
chipIndex(.)
But the other functions are public since they may be useful in contexts other than for Conditions Data for which the above functions are intended.

The terminology "label" can be confusing.
The CSC project typically refers to an element of the CSC detector by hardware labels endcap (+z, -z), station (1-4), ring (1-3), chamber (1-18 or 1-36 depending on ring), layer (1-6). Strips (and wiregroups) are number 1-N where N is the total number of strips in a given layer.
Offline, we turn +z, -z into integers 1, 2 and extend the ring index to 4 to mean ME1/1A (leaving ring 1 in station 1 to mean ME1/1B when dealing with strip planes. Since there is only one common wire plane sometimes ring 1, station 1 means the entire ME1/1 and sometimes just ME1/1B.) So in offline code, when we talk about "labels" for an element, we typically mean these integer values.
For example, strip 71 of layer 4 of chamber 17 of ME-3/1 is labelled {ie=2, is=3, ir=1, ic=17, il=4, istrip=71}. However, in CSCIndexer classes, "label" may be generalized to mean more than this. For example, the "chamberLabel_" vector encodes these integer labels for a chamber, and does not just mean the value ic=1-18 or 36.

Warning: EVERY LABEL COUNTS FROM ONE NOT ZERO.; Contains a number of non-virtual method that derived classes are not expected to override! TODO: add 'final' attribute to those non-virtual methods after full migration to gcc4.7

Definition at line 55 of file CSCIndexerBase.h.

Member Typedef Documentation

typedef boost::tuple<CSCDetId, IndexType, IndexType > CSCIndexerBase::GasGainIndexType

Definition at line 64 of file CSCIndexerBase.h.

typedef uint16_t CSCIndexerBase::IndexType

Definition at line 59 of file CSCIndexerBase.h.

typedef uint32_t CSCIndexerBase::LongIndexType

Definition at line 60 of file CSCIndexerBase.h.

Constructor & Destructor Documentation

CSCIndexerBase::CSCIndexerBase ( )

Definition at line 3 of file CSCIndexerBase.cc.

References chamberLabel_, chambersInRingOfStation(), prof2calltree::count, and ringsInStation().

 : chamberLabel_(271) // # of physical chambers per endcap + 1. Includes ME42.
 {
   // Fill the member vector which permits decoding of the linear chamber index.
   // Beware that the ME42 indices 235-270 within this vector do NOT correspond to
   // their 'real' linear indices (which are 469-504 for +z)
   IndexType count = 0;
   chamberLabel_[count] = 0;
 
   for ( IndexType is = 1 ; is <= 4; ++is )
   {
     IndexType irmax = ringsInStation(is);
     for ( IndexType ir = 1; ir <= irmax; ++ir )
     {
       IndexType icmax = chambersInRingOfStation(is, ir);
       for ( IndexType ic = 1; ic <= icmax; ++ic )
       {
         chamberLabel_[ ++count ] = is*1000 + ir*100 + ic ;
       }
     }
   }
 }

CSCIndexerBase::~CSCIndexerBase ( )

virtual

Definition at line 27 of file CSCIndexerBase.cc.

27 {}

Member Function Documentation

IndexType CSCIndexerBase::chamberIndex	(	IndexType	ie,
		IndexType	is,
		IndexType	ir,
		IndexType	ic
	)		const

inline

Linear index for chamber 'ic' in ring 'ir' of station 'is' in endcap 'ie', in range 1-468 (CSCs 2008) or 469-540 (ME42)

Warning: : Since both ME1a and ME1b are part of one ME11 chamber the output is the same for input {is=1, ir=1} and {is=1, ir=4}, i.e. chamberIndex for ME1/1a is the same as for ME1/1b.

Definition at line 186 of file CSCIndexerBase.h.

References startChamberIndexInEndcap().

Referenced by chamberIndex(), and layerIndex().

   {
     return startChamberIndexInEndcap(ie, is, ir) + ic - 1; // -1 so start index _is_ ic=1
   }

IndexType CSCIndexerBase::chamberIndex ( const CSCDetId & id ) const

inline

Linear index to label each CSC in CSC system. Argument is the CSCDetId of some CSC chamber.

Output is 1-468 (CSCs 2008) 469-540 (with ME42)

Warning: : Since both ME1a and ME1b are part of one ME11 chamber the output is the same for input {is=1, ir=1} and {is=1, ir=4}, i.e. chamberIndex for ME1/1a is the same as for ME1/1b.

Definition at line 201 of file CSCIndexerBase.h.

References chamberIndex(), Reference_intrackfit_cff::endcap, relativeConstraints::ring, and relativeConstraints::station.

   {
     return chamberIndex( id.endcap(), id.station(), id.ring(), id.chamber() );
   }

CSCIndexerBase::IndexType CSCIndexerBase::chamberLabelFromChamberIndex ( IndexType ici ) const

Encoded chambers label value from cache for input chamber index. For debugging only!

Definition at line 30 of file CSCIndexerBase.cc.

References chamberLabel_.

 {
   // This is just for cross-checking
 
   // Expected range of input range argument is 1-540.
   // 1-468 for CSCs installed at 2008 start-up. 469-540 for ME42.
 
   if ( ici > 468 )
   {
     // ME42
     ici -= 234; // now in range 235-306
     if ( ici > 270 ) // -z
     {
       ici -= 36; // now in range 235-270
     }
   }
   else // in range 1-468
   {
     if ( ici > 234 ) // -z
     {
       ici -= 234; // now in range 1-234
     }
   }
   return chamberLabel_[ici];
 }

IndexType CSCIndexerBase::chambersInRingOfStation	(	IndexType	is,
		IndexType	ir
	)		const

inline

How many chambers are there in an "offline" ring ir of station is? Works for ME1a (ring 4 of ME1) too.

Definition at line 118 of file CSCIndexerBase.h.

Referenced by CSCIndexerBase().

   {
     const IndexType nCinR[16] = { 36,36,36,36,  18,36,0,0,  18,36,0,0,  18,36,0,0 }; // chambers in ring
     return nCinR[(is - 1)*4 + ir - 1];
   }

IndexType CSCIndexerBase::chipIndex	(	IndexType	ie,
		IndexType	is,
		IndexType	ir,
		IndexType	ic,
		IndexType	il,
		IndexType	ichip
	)		const

inline

Linear index for Buckeye chip 'ichip' in layer 'il' of chamber 'ic' of ring 'ir' in station 'is' of endcap 'ie'.

Warning: : You must input labels within hardware ranges. No trapping on out-of-range values! E.g., if you provide ir=4 in ganged case, it would still be treated the same as ir=1, but ichip must be 5 for it to make sense!

Definition at line 316 of file CSCIndexerBase.h.

References chipsPerLayer(), and chipStart().

Referenced by chipIndex(), and gasGainIndex().

   {
     return chipStart(ie, is, ir)
            + ( (ic - 1)*6 + il - 1 ) * chipsPerLayer(is, ir)
            + (ichip - 1);
   }

IndexType CSCIndexerBase::chipIndex	(	const CSCDetId &	id,
		IndexType	ichip
	)		const

inline

Linear index for Buckeye chip 'ichip' in layer labelled by CSCDetId 'id'.

Warning: : The supplied CSCDetId must be a layer id, and ichip must be h/w chip number in a chamber. No trapping on out-of-range values! E.g., if you provide ME1a id in ganged case, it would still be treated the same as whole ME11 id, but ichip must be 5 for it to make sense!

Definition at line 331 of file CSCIndexerBase.h.

References chipIndex(), Reference_intrackfit_cff::endcap, relativeConstraints::ring, and relativeConstraints::station.

   {
     return chipIndex(id.endcap(), id.station(), id.ring(), id.chamber(), id.layer(), ichip );
   }

IndexType CSCIndexerBase::chipIndex ( IndexType istrip ) const

inline

Chip number in a chamber for a Buckeye chip processing strip 'istrip'.

Input is hardware strip channel 1-80.

Warning: : for ganged ME1a istrip would have to be in 65-80, while for unganged ME1a it would be in 1-48

Output is 1-5.

Definition at line 344 of file CSCIndexerBase.h.

   {
     return (istrip - 1)/16 + 1;
   }

virtual IndexType CSCIndexerBase::chipsPerLayer	(	IndexType	is,
		IndexType	ir
	)		const

pure virtual

Number of Buckeye chips indices per layer in a chamber in ring 'ir' of station 'is'.

Station label range 1-4, Ring label range 1-4 (4=ME1a)

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

Referenced by chipIndex(), gasGainIndex(), and sectorsPerLayer().

virtual IndexType CSCIndexerBase::chipsPerOnlineLayer	(	IndexType	is,
		IndexType	ir
	)		const

pure virtual

Number of Buckeye chips per layer in an online chamber in ring 'ir' of station 'is'. Works for ME1a (ring 4 of ME1) too.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

Referenced by sectorsPerOnlineLayer().

virtual IndexType CSCIndexerBase::chipStart	(	IndexType	ie,
		IndexType	is,
		IndexType	ir
	)		const

pure virtual

Linear index for 1st Buckeye chip in ring 'ir' of station 'is' in endcap 'ie'.

Endcap label range 1-2, Station label range 1-4, Ring label range 1-4 (4=ME1a)

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

Referenced by chipIndex().

virtual int CSCIndexerBase::dbIndex	(	const CSCDetId &	id,
		int &	channel
	)		const

pure virtual

Create the "Igor Index" for a strip channel. This is integer ie*100000 + is*10000 + ir*1000 + ic*10 + il.

Warning: The channel is NOT encoded. BUT... channel is passed in as a reference and is converted from 1-16 to 65-80 if the chamber is ME1/1a and ganged.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

CSCDetId CSCIndexerBase::detIdFromChamberIndex ( IndexType ici ) const

CSCDetId for a physical chamber labelled by the chamber index (1-468 non-ME4/2, 469-540 ME4/2)

No distinction between ME1/1a and ME1/1b.

Definition at line 104 of file CSCIndexerBase.cc.

References chamberLabel_, detIdFromChamberLabel(), and diffTwoXMLs::label.

Referenced by detIdFromLayerIndex().

 {
   // Expected range of input range argument is 1-540.
   // 1-468 for CSCs installed at 2008 start-up. 469-540 for ME42.
 
   IndexType ie = 1;
   if ( ici > 468 )
   {
     // ME42
     ici -= 234; // now in range 235-306
     if ( ici > 270 ) // -z
     {
       ie = 2;
       ici -= 36; // now in range 235-270
     }
   }
   else // in range 1-468
   {
     if ( ici > 234 ) // -z
     {
       ie = 2;
       ici -= 234; // now in range 1-234
     }
   }
 
   IndexType label = chamberLabel_[ici];
   return detIdFromChamberLabel( ie, label );
 }

CSCDetId CSCIndexerBase::detIdFromChamberLabel	(	IndexType	ie,
		IndexType	icl
	)		const

protected

Decode CSCDetId from the encoded chamber values in chamberLabel cache vector. Requires endcap label since that is not encoded in cache.

Definition at line 92 of file CSCIndexerBase.cc.

References CSCDetId, and diffTwoXMLs::label.

Referenced by detIdFromChamberIndex().

 {
   IndexType is = label/1000;
   label -= is*1000;
   IndexType ir = label/100;
   label -= ir*100;
   IndexType ic = label;
 
   return CSCDetId( ie, is, ir, ic );
 }

virtual std::pair<CSCDetId, IndexType> CSCIndexerBase::detIdFromChipIndex ( IndexType ichi ) const

pure virtual

CSCDetId + chip within chamber from conditions data chip index.

Warning: This function changes meaning with ganged and unganged ME1/1a. If ME1/1a is ganged then an ME1/1a chip index returns ME1/1b CSCDetId + chip=5.
If ME1/1a is unganged then an ME1/1a chip index returns ME1/1a CSCDetId + chip# in range 1-3.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

virtual GasGainIndexType CSCIndexerBase::detIdFromGasGainIndex ( IndexType igg ) const

pure virtual

CSCDetId + HV segment + chip within chamber from conditions data gas gain index.

Warning: This function changes meaning with ganged and unganged ME1/1a. If ME1/1a is ganged then an ME1/1a gas gain index returns ME1/1b CSCDetId + HVsegment=1 + chip=5.
If ME1/1a is unganged then an ME1/1a gas gain index returns ME1/1a CSCDetId + HVsegment=1 + chip# in range 1-3.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

CSCDetId CSCIndexerBase::detIdFromLayerIndex ( IndexType ili ) const

CSCDetId for a physical layer labelled by the layer index (1-2808 non-ME4/2, 2809-3240 ME4/2)

No distinction between ME1/1a and ME1/1b.

Definition at line 134 of file CSCIndexerBase.cc.

References CSCDetId, detIdFromChamberIndex(), Reference_intrackfit_cff::endcap, relativeConstraints::ring, and relativeConstraints::station.

Referenced by CSCIndexerStartup::detIdFromChipIndex(), CSCIndexerPostls1::detIdFromChipIndex(), CSCIndexerStartup::detIdFromStripChannelIndex(), and CSCIndexerPostls1::detIdFromStripChannelIndex().

 {
   IndexType il = (ili - 1)%6 + 1;
   IndexType ici = (ili - 1)/6 + 1;
   CSCDetId id = detIdFromChamberIndex( ici );
 
   return CSCDetId(id.endcap(), id.station(), id.ring(), id.chamber(), il);
 }

virtual std::pair<CSCDetId, IndexType> CSCIndexerBase::detIdFromStripChannelIndex ( LongIndexType ichi ) const

pure virtual

CSCDetId + strip channel within layer from conditions data strip index.

Warning: This function changes meaning with ganged and unganged ME1/1a. If ME1/1a is ganged then an ME1/1a strip index returns ME1/1b CSCDetId + channel in range 65-80.
If ME1/1a is unganged then an ME1/1a strip index returns ME1/1a CSCDetId + channel in range 1-48.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

IndexType CSCIndexerBase::gasGainIndex	(	IndexType	ie,
		IndexType	is,
		IndexType	ir,
		IndexType	ic,
		IndexType	il,
		IndexType	ihvsegment,
		IndexType	ichip
	)		const

inline

Linear index for Gas gain sector, based on the HV segment# and the chip# located in layer 'il' of chamber 'ic' of ring 'ir' in station 'is' of endcap 'ie'.

Output is 1-45144 (CSCs 2008) and 45145-55944 (ME42) and 55945-57240 (ME1a)

Warning: : You must input labels within hardware ranges. No trapping on out-of-range values! E.g., if you provide ir=4 in ganged case, it would still be treated the same as ir=1, but ichip must be 5 for it to make sense!

Definition at line 411 of file CSCIndexerBase.h.

References chipsPerLayer(), sectorsPerLayer(), and sectorStart().

Referenced by gasGainIndex().

   {
     return sectorStart(ie,is,ir)
            + ( (ic-1)*6 + il - 1 ) * sectorsPerLayer(is,ir)
            + (ihvsegment - 1) * chipsPerLayer(is,ir)
            + (ichip - 1);
   }

IndexType CSCIndexerBase::gasGainIndex	(	const CSCDetId &	id,
		IndexType	istrip,
		IndexType	iwire
	)		const

inline

Linear index for Gas gain sector, based on CSCDetId 'id', cathode strip 'istrip' and anode wire 'iwire'

Warning: : You must input labels within hardware ranges (e.g., 'id' must correspond to a specific layer 1-6). No trapping on out-of-range values! E.g., if you provide ME1a id in ganged case, it would still be treated the same as whole ME11 id, but istrip must be a h/w strip number in 64-80 in that case!

Definition at line 428 of file CSCIndexerBase.h.

References chipIndex(), Reference_intrackfit_cff::endcap, gasGainIndex(), hvSegmentIndex(), relativeConstraints::ring, and relativeConstraints::station.

   {
     return gasGainIndex( id.endcap(), id.station(), id.ring(), id.chamber(), id.layer(),
                          hvSegmentIndex( id.station(), id.ring(), iwire ),
                          chipIndex(istrip) );
   }

IndexType CSCIndexerBase::gasGainIndex	(	IndexType	ihvsegment,
		IndexType	ichip,
		const CSCDetId &	id
	)		const

inline

Linear index for Gas gain sector, based on CSCDetId 'id', the HV segment# and the chip#. Note: to allow method overloading, the parameters order is reversed comparing to the (id,strip,wire) method

Output is 1-45144 (CSCs 2008) and 45145-55944 (ME42) and 55945-57240 (ME1a)

Warning: : Use at your own risk! You must input labels within hardware ranges. No trapping on out-of-range values! The supplied CSCDetId must be a layer id, and ichip must be h/w chip number in a chamber. E.g., if you provide ME1a id in ganged case, it would still be treated the same as whole ME11 id, but ichip must be 5 for it to make sense!

Definition at line 447 of file CSCIndexerBase.h.

References Reference_intrackfit_cff::endcap, gasGainIndex(), relativeConstraints::ring, and relativeConstraints::station.

   {
     return gasGainIndex(id.endcap(), id.station(), id.ring(), id.chamber(), id.layer(), ihvsegment, ichip);
   }

CSCIndexerBase::IndexType CSCIndexerBase::hvSegmentIndex	(	IndexType	is,
		IndexType	ir,
		IndexType	iwire
	)		const

Linear index inside a chamber for HV segment given station, ring, and wiregroup number.

Output is 1-5.

ME1a (ir=4), ME1b(ir=1) and whole ME11 are all assumed to have the same single HV segment

Definition at line 57 of file CSCIndexerBase.cc.

Referenced by gasGainIndex().

 {
   IndexType hvSegment = 1;   // There is only one HV segment in ME1/1
 
   if (is > 2 && ir == 1)        // HV segments are the same in ME3/1 and ME4/1
   {
     if      ( iwire >= 33 && iwire <= 64 ) { hvSegment = 2; }
     else if ( iwire >= 65 && iwire <= 96 ) { hvSegment = 3; }
   }
   else if (is > 1 && ir == 2) // HV segments are the same in ME2/2, ME3/2, and ME4/2
   {
     if      ( iwire >= 17 && iwire <= 28 ) { hvSegment = 2; }
     else if ( iwire >= 29 && iwire <= 40 ) { hvSegment = 3; }
     else if ( iwire >= 41 && iwire <= 52 ) { hvSegment = 4; }
     else if ( iwire >= 53 && iwire <= 64 ) { hvSegment = 5; }
   }
   else if (is == 1 && ir == 2)
   {
     if      ( iwire >= 25 && iwire <= 48 ) { hvSegment = 2; }
     else if ( iwire >= 49 && iwire <= 64 ) { hvSegment = 3; }
   }
   else if (is == 1 && ir == 3)
   {
     if      ( iwire >= 13 && iwire <= 22 ) { hvSegment = 2; }
     else if ( iwire >= 23 && iwire <= 32 ) { hvSegment = 3; }
   }
   else if (is == 2 && ir == 1)
   {
     if      ( iwire >= 45 && iwire <= 80 ) { hvSegment = 2; }
     else if ( iwire >= 81 && iwire <= 112) { hvSegment = 3; }
   }
   return hvSegment;
 }

IndexType CSCIndexerBase::hvSegmentsPerLayer	(	IndexType	is,
		IndexType	ir
	)		const

inline

Number of HV segments per layer in a chamber in ring ir of station is.

Station label range 1-4, Ring label range 1-4 (4=ME1a)

ME1a (ir=4), ME1b(ir=1) and whole ME11 are all assumed to have the same single HV segment

Definition at line 360 of file CSCIndexerBase.h.

Referenced by sectorsPerLayer(), and sectorsPerOnlineLayer().

   {
     const IndexType nSinL[16] = { 1,3,3,1, 3,5,0,0, 3,5,0,0, 3,5,0,0 };
     return nSinL[(is - 1) * 4 + ir - 1];
   }

IndexType CSCIndexerBase::layerIndex	(	IndexType	ie,
		IndexType	is,
		IndexType	ir,
		IndexType	ic,
		IndexType	il
	)		const

inline

Linear index for layer 'il' of chamber 'ic' in ring 'ir' of station 'is' in endcap 'ie', in range 1-2808 (CSCs 2008) or 2809-3240 (ME42).

Warning: : Since both ME1a and ME1b are part of one ME11 chamber the output is the same for input {is=1, ir=1} and {is=1, ir=4}, i.e. layerIndex for ME1/1a is the same as for ME1/1b.

Definition at line 218 of file CSCIndexerBase.h.

References chamberIndex().

Referenced by layerIndex().

   {
     const IndexType layersInChamber = 6;
     return (chamberIndex(ie, is, ir, ic) - 1 ) * layersInChamber + il;
   }

IndexType CSCIndexerBase::layerIndex ( const CSCDetId & id ) const

inline

Linear index to label each hardware layer in CSC system. Argument is the CSCDetId of some CSC layer.

Output is 1-2808 (CSCs 2008) 2809-3240 (ME42)

Warning: : Since both ME1a and ME1b are part of one ME11 chamber the output is the same for input {is=1, ir=1} and {is=1, ir=4}, i.e. layerIndex for ME1/1a is the same as for ME1/1b.

Definition at line 234 of file CSCIndexerBase.h.

References Reference_intrackfit_cff::endcap, layerIndex(), relativeConstraints::ring, and relativeConstraints::station.

   {
     return layerIndex(id.endcap(), id.station(), id.ring(), id.chamber(), id.layer());
   }

IndexType CSCIndexerBase::maxChamberIndex ( ) const

inline

Definition at line 78 of file CSCIndexerBase.h.

78 { return 540; }

virtual IndexType CSCIndexerBase::maxChipIndex ( ) const

pure virtual

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

virtual IndexType CSCIndexerBase::maxGasGainIndex ( ) const

pure virtual

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

IndexType CSCIndexerBase::maxLayerIndex ( ) const

inline

Definition at line 79 of file CSCIndexerBase.h.

79 { return 3240; }

virtual LongIndexType CSCIndexerBase::maxStripChannelIndex ( ) const

pure virtual

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

virtual std::string CSCIndexerBase::name ( ) const

inlinevirtual

Reimplemented in CSCIndexerPostls1, and CSCIndexerStartup.

Definition at line 69 of file CSCIndexerBase.h.

Referenced by cuy.divideElement::__init__(), cuy.plotElement::__init__(), cuy.additionElement::__init__(), cuy.superimposeElement::__init__(), cuy.graphElement::__init__(), config.CFG::__str__(), validation.Sample::digest(), VIDSelectorBase.VIDSelectorBase::initialize(), and Vispa.Views.PropertyView.Property::valueChanged().

69 { return "CSCIndexerBase"; }

IndexType CSCIndexerBase::offlineRingsInStation ( IndexType is ) const

inline

How many offline rings are there in station 'is'=1, 2, 3, 4 ?

Warning

:

ME1 has 4 rings in the offline notation (virtual ring 4 is used for ME1a).

Definition at line 108 of file CSCIndexerBase.h.

   {
     const IndexType nrings[5] = { 0, 4, 2, 2, 2 }; // offline rings per station
     return nrings[is];
   }

virtual IndexType CSCIndexerBase::onlineRingsInStation ( IndexType is ) const

pure virtual

How many online rings are there in station 'is'=1, 2, 3, 4 ?

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

IndexType CSCIndexerBase::ringsInStation ( IndexType is ) const

inline

How many physical rings are there in station 'is'=1, 2, 3, 4 ?

Definition at line 91 of file CSCIndexerBase.h.

Referenced by CSCIndexerBase().

   {
     const IndexType nrins[5] = {0, 3, 2, 2, 2}; // physical rings per station
     return nrins[is];
   }

IndexType CSCIndexerBase::sectorsPerLayer	(	IndexType	is,
		IndexType	ir
	)		const

inline

Number of Gas Gain sectors per layer in a chamber in ring ir of station is.

Station label range 1-4, Ring label range 1-4 (4=ME1a)

Warning: : for ganged case, the ir=4 ME1a input would give the same result as ir=1

Definition at line 383 of file CSCIndexerBase.h.

References chipsPerLayer(), and hvSegmentsPerLayer().

Referenced by CSCIndexerStartup::detIdFromGasGainIndex(), CSCIndexerPostls1::detIdFromGasGainIndex(), and gasGainIndex().

   {
     return chipsPerLayer(is, ir) * hvSegmentsPerLayer(is, ir);
   }

IndexType CSCIndexerBase::sectorsPerOnlineLayer	(	IndexType	is,
		IndexType	ir
	)		const

inline

Number of Gas Gain sectors per layer in an online chamber in ring 'ir' of station 'is'. Works for ME1a (ring 4 of ME1) too.

The difference between this and sectorsPerLayer completely depends on the difference between chipsPerOnlineLayer and chipsPerLayer

Definition at line 153 of file CSCIndexerBase.h.

References chipsPerOnlineLayer(), and hvSegmentsPerLayer().

   {
     return chipsPerOnlineLayer(is, ir) * hvSegmentsPerLayer(is, ir);
   }

virtual IndexType CSCIndexerBase::sectorStart	(	IndexType	ie,
		IndexType	is,
		IndexType	ir
	)		const

pure virtual

Linear index for 1st Gas gain sector in ring 'ir' of station 'is' in endcap 'ie'.

Endcap label range 1-2, Station label range 1-4, Ring label range 1-4 (4=ME1a)

Warning: : current: ME1a chip is the last 1 of the 5 chips total in each layer of an ME11 chamber, and an input ir=4 in this case would give the same result as ir=1 upgraded: ME1a has 3 own chips, which are appended to the end of the index range, ME1b still keeps 5 chips with chip #5 index unused.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

Referenced by gasGainIndex().

IndexType CSCIndexerBase::startChamberIndexInEndcap	(	IndexType	ie,
		IndexType	is,
		IndexType	ir
	)		const

inline

Starting index for first chamber in ring 'ir' of station 'is' in endcap 'ie', in range 1-468 (CSCs 2008) or 469-540 (ME42).

Warning: : Considers both ME1a and ME1b to be part of one whole ME11 chamber (result would be the same for is=1 and ir=1 or 4).

Definition at line 170 of file CSCIndexerBase.h.

Referenced by chamberIndex().

   {
     const IndexType nschin[32] =
       { 1,37,73,1,        109,127,0,0,  163,181,0,0,  217,469,0,0,
         235,271,307,235,  343,361,0,0,  397,415,0,0,  451,505,0,0 };
     return nschin[(ie - 1)*16 + (is - 1)*4 + ir - 1];
   }

LongIndexType CSCIndexerBase::stripChannelIndex	(	IndexType	ie,
		IndexType	is,
		IndexType	ir,
		IndexType	ic,
		IndexType	il,
		IndexType	istrip
	)		const

inline

Linear index for strip channel istrip in layer 'il' of chamber 'ic' of ring 'ir' in station 'is' of endcap 'ie'.

Warning: : You must input labels within hardware ranges. No trapping on out-of-range values!

Definition at line 273 of file CSCIndexerBase.h.

References stripChannelsPerLayer(), and stripChannelStart().

Referenced by stripChannelIndex().

   {
     return stripChannelStart(ie, is, ir)
            + ( (ic - 1)*6 + il - 1 ) * stripChannelsPerLayer(is, ir)
            + (istrip - 1);
   }

LongIndexType CSCIndexerBase::stripChannelIndex	(	const CSCDetId &	id,
		IndexType	istrip
	)		const

inline

Linear index for strip channel 'istrip' in layer labeled by CSCDetId 'id'

Warning: : You must input labels within hardware ranges. No trapping on out-of-range values!

Definition at line 285 of file CSCIndexerBase.h.

References Reference_intrackfit_cff::endcap, relativeConstraints::ring, relativeConstraints::station, and stripChannelIndex().

   {
     return stripChannelIndex(id.endcap(), id.station(), id.ring(), id.chamber(), id.layer(), istrip );
   }

virtual IndexType CSCIndexerBase::stripChannelsPerLayer	(	IndexType	is,
		IndexType	ir
	)		const

pure virtual

Number of strip channel indices for a layer in a chamber defined by station number 'is' and ring number 'ir'.

Station label range 1-4, Ring label range 1-4 (4=ME1a)

This depends on the ordering of the channels in the database. E.g., in startup scenario there are 80 indices allocated per ME1/1 layer with 1-64 belonging to ME1b and 65-80 belonging to ME1a. So the ME1/a database indices are mapped to extend the ME1/b index ranges, which is how the raw hardware chnnels numbering is implemented.

In the currently implemented upgrade scenario on the other hand, the ME1b still keeps the 80 indices wide ranges (with the last 16 of them remaining unused), while the ME1/1A gets its own 48 indices wide ranges.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

Referenced by stripChannelIndex().

virtual IndexType CSCIndexerBase::stripChannelsPerOfflineLayer	(	IndexType	is,
		IndexType	ir
	)		const

pure virtual

Number of strip readout channels per layer in an offline chamber with ring 'ir' and station 'is'. Works for ME1a (ring 4 of ME1) too.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

virtual IndexType CSCIndexerBase::stripChannelsPerOnlineLayer	(	IndexType	is,
		IndexType	ir
	)		const

pure virtual

Number of strip readout channels per layer in an online chamber with ring 'ir' and station 'is'. Works for ME1a (ring 4 of ME1) too.

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

virtual LongIndexType CSCIndexerBase::stripChannelStart	(	IndexType	ie,
		IndexType	is,
		IndexType	ir
	)		const

pure virtual

Linear index for 1st strip channel in ring 'ir' of station 'is' in endcap 'ie'.

Endcap label range 1-2, Station label range 1-4, Ring label range 1-4 (4=ME1a)

Implemented in CSCIndexerPostls1, and CSCIndexerStartup.

Referenced by stripChannelIndex().

Member Data Documentation

std::vector<IndexType> CSCIndexerBase::chamberLabel_

protected

Encode a chamber's is, ir, ic values as is*1000 + ir*100 + ic in linear vector with serial index 1-270. Save space in this vector by not storing ie.

Definition at line 530 of file CSCIndexerBase.h.

Referenced by chamberLabelFromChamberIndex(), CSCIndexerBase(), and detIdFromChamberIndex().

Public Types

Public Member Functions

Protected Member Functions

Protected Attributes

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation