L1GctEmCand Class Reference

Level-1 Trigger EM candidate at output of GCT. More...

#include <L1GctEmCand.h>

Inheritance diagram for L1GctEmCand:

List of all members.

Public Member Functions
int16_t	bx () const
	get bunch-crossing index
unsigned	capBlock () const
	which capture block did this come from
unsigned	capIndex () const
	what index within capture block
bool	empty () const
	was an object really found?
unsigned	etaIndex () const
	get eta index -6 to -0, +0 to +6 (bit 3 is sign, 1 for -ve Z, 0 for +ve Z)
unsigned	etaSign () const
	get eta sign (1 for -ve Z, 0 for +ve Z)
bool	isolated () const
	which stream did this come from
	L1GctEmCand ()
	default constructor (for vector initialisation etc.)
	L1GctEmCand (unsigned rank, unsigned phi, unsigned eta, bool iso)
	L1GctEmCand (uint16_t rawData, bool iso)
	construct from raw data, no source - used in GT
	L1GctEmCand (unsigned rank, unsigned phi, unsigned eta, bool iso, uint16_t block, uint16_t index, int16_t bx)
	L1GctEmCand (uint16_t rawData, bool iso, uint16_t block, uint16_t index, int16_t bx)
	construct from raw data with source - used in GCT unpacker
	L1GctEmCand (L1CaloEmCand &c)
	construct from RCT output candidate
std::string	name () const
	name of object
int	operator!= (const L1GctEmCand &c) const
	inequality operator
int	operator== (const L1GctEmCand &c) const
	equality operator
unsigned	phiIndex () const
	get phi index (0-17)
unsigned	rank () const
	get rank bits
uint16_t	raw () const
	get the raw data
L1CaloRegionDetId	regionId () const
	region associated with the candidate
virtual	~L1GctEmCand ()
	destructor (virtual to prevent compiler warnings)
Private Member Functions
void	construct (unsigned rank, unsigned eta, unsigned phi)
Private Attributes
int16_t	m_bx
uint16_t	m_captureBlock
uint8_t	m_captureIndex
uint16_t	m_data
bool	m_iso

---

Detailed Description

Level-1 Trigger EM candidate at output of GCT.

Level-1 Trigger EM candidate within GCT processing.

Author:

Jim Brooke

Date:

June 2006

Definition at line 22 of file L1GctEmCand.h.

---

Constructor & Destructor Documentation

L1GctEmCand::L1GctEmCand

(

)

default constructor (for vector initialisation etc.)

Definition at line 12 of file L1GctEmCand.cc.

                         :
  m_data(0),
  m_iso(false),
  m_captureBlock(0),
  m_captureIndex(0),
  m_bx(0)
{ 

}

L1GctEmCand::L1GctEmCand	(	uint16_t	rawData,
		bool	iso
	)

construct from raw data, no source - used in GT

Definition at line 23 of file L1GctEmCand.cc.

                                                   :
  m_data(rawData & 0x7fff), // 0x7fff is to mask off bit 15, which is not data that needs to be stored
  m_iso(iso),
  m_captureBlock(0),
  m_captureIndex(0),
  m_bx(0)
{

}

L1GctEmCand::L1GctEmCand	(	uint16_t	rawData,
		bool	iso,
		uint16_t	block,
		uint16_t	index,
		int16_t	bx
	)

construct from raw data with source - used in GCT unpacker

Definition at line 34 of file L1GctEmCand.cc.

                                                                                                :
   m_data(rawData & 0x7fff), // 0x7fff is to mask off bit 15, which is not data that needs to be stored
   m_iso(iso),
   m_captureBlock(block&0xfff),
   m_captureIndex(index&0xff),
   m_bx(bx)
{

}

L1GctEmCand::L1GctEmCand	(	unsigned	rank,
		unsigned	phi,
		unsigned	eta,
		bool	iso
	)

construct from rank, eta, phi, isolation - used in GCT emulator eta = -6 to -0, +0 to +6. Sign is bit 3, 1 means -ve Z, 0 means +ve Z

Definition at line 46 of file L1GctEmCand.cc.

References construct().

                                                                            : 
  m_data(0), // override below
  m_iso(iso),
  m_captureBlock(0),
  m_captureIndex(0),
  m_bx(0)
 
{
  construct(rank, eta, phi);
}

L1GctEmCand::L1GctEmCand	(	unsigned	rank,
		unsigned	phi,
		unsigned	eta,
		bool	iso,
		uint16_t	block,
		uint16_t	index,
		int16_t	bx
	)

construct from rank, eta, phi, isolation - could be used in GCT emulator? eta = -6 to -0, +0 to +6. Sign is bit 3, 1 means -ve Z, 0 means +ve Z

Definition at line 59 of file L1GctEmCand.cc.

References construct().

                                                                                                                        : 
  m_data(0), // override below
  m_iso(iso),
  m_captureBlock(block&0xfff),
  m_captureIndex(index&0xff),
  m_bx(bx)
{
  construct(rank, eta, phi);
}

L1GctEmCand::L1GctEmCand

(

L1CaloEmCand &

c

)

construct from RCT output candidate

Definition at line 70 of file L1GctEmCand.cc.

References construct(), eta(), L1CaloRegionDetId::ieta(), L1CaloRegionDetId::iphi(), L1CaloEmCand::rank(), L1CaloRegionDetId::rctEta(), and L1CaloEmCand::regionId().

                                        :
  m_data(0), // override below
  m_iso(c.isolated()),
  m_captureBlock(0),
  m_captureIndex(0),
  m_bx(c.bx())
{
  unsigned eta=((c.regionId().rctEta() & 0x7) | (c.regionId().ieta()<11 ? 0x8 : 0x0));
  construct(c.rank(), eta, c.regionId().iphi());
}

L1GctEmCand::~L1GctEmCand

(

)

[virtual]

destructor (virtual to prevent compiler warnings)

Definition at line 82 of file L1GctEmCand.cc.

{ } 

---

Member Function Documentation

int16_t L1GctEmCand::bx

(

)

const [inline]

get bunch-crossing index

Definition at line 82 of file L1GctEmCand.h.

References m_bx.

Referenced by operator<<(), and L1GctElectronFinalSort::setInputEmCand().

{ return m_bx; }

unsigned L1GctEmCand::capBlock

(

)

const [inline]

which capture block did this come from

Definition at line 76 of file L1GctEmCand.h.

References m_captureBlock.

Referenced by operator<<().

{ return m_captureBlock; }

unsigned L1GctEmCand::capIndex

(

)

const [inline]

what index within capture block

Definition at line 79 of file L1GctEmCand.h.

References m_captureIndex.

Referenced by operator<<().

{ return m_captureIndex; }

void L1GctEmCand::construct	(	unsigned	rank,
		unsigned	eta,
		unsigned	phi
	)		[private]

Definition at line 99 of file L1GctEmCand.cc.

References m_data.

Referenced by L1GctEmCand().

                                                                     {
  if (rank>0) {
    m_data = (rank & 0x3f) + ((eta & 0xf)<<6) + ((phi & 0x1f)<<10);
  } else {
    // Default values for zero rank electrons,
    // different in hardware for positive and negative eta
    if ((eta & 0x8)==0) { m_data = 0x7000; } else { m_data = 0x7400; }
  }
}

bool L1GctEmCand::empty

(

)

const [inline, virtual]

was an object really found?

Implements L1GctCand.

Definition at line 55 of file L1GctEmCand.h.

References rank().

Referenced by operator==().

{  return (rank() == 0); }

unsigned L1GctEmCand::etaIndex

(

)

const [inline, virtual]

get eta index -6 to -0, +0 to +6 (bit 3 is sign, 1 for -ve Z, 0 for +ve Z)

Implements L1GctCand.

Definition at line 64 of file L1GctEmCand.h.

References m_data.

Referenced by operator<<(), and regionId().

{ return (m_data>>6) & 0xf; } 

unsigned L1GctEmCand::etaSign

(

)

const [inline, virtual]

get eta sign (1 for -ve Z, 0 for +ve Z)

Implements L1GctCand.

Definition at line 67 of file L1GctEmCand.h.

References m_data.

Referenced by operator<<(), and regionId().

{ return (m_data>>9) & 0x1; } 

bool L1GctEmCand::isolated

(

)

const [inline]

which stream did this come from

Definition at line 73 of file L1GctEmCand.h.

References m_iso.

Referenced by l1extra::L1EmParticle::L1EmParticle(), name(), operator<<(), and operator==().

{ return m_iso; }

string L1GctEmCand::name

(

)

const

name of object

Definition at line 85 of file L1GctEmCand.cc.

References isolated().

                               {
  return (isolated() ? "iso EM" : "non iso EM" ); 
}

int L1GctEmCand::operator!=

(

const L1GctEmCand &

c

)

const [inline]

inequality operator

Definition at line 89 of file L1GctEmCand.h.

References trackerHits::c.

{ return !(*this == c); }

int L1GctEmCand::operator==

(

const L1GctEmCand &

c

)

const [inline]

equality operator

Definition at line 85 of file L1GctEmCand.h.

References empty(), isolated(), m_data, m_iso, and raw().

                                             { return ((m_data==c.raw() && m_iso==c.isolated())
                                                      || (this->empty() && c.empty())); }

unsigned L1GctEmCand::phiIndex

(

)

const [inline, virtual]

get phi index (0-17)

Implements L1GctCand.

Definition at line 70 of file L1GctEmCand.h.

References m_data.

Referenced by operator<<(), and regionId().

{ return (m_data>>10) & 0x1f; } 

unsigned L1GctEmCand::rank

(

)

const [inline, virtual]

get rank bits

Implements L1GctCand.

Definition at line 61 of file L1GctEmCand.h.

References m_data.

Referenced by empty(), operator<<(), and L1GctElectronSorter::prioritisedEmCand::rank().

{ return m_data & 0x3f; }

uint16_t L1GctEmCand::raw

(

)

const [inline]

get the raw data

Definition at line 58 of file L1GctEmCand.h.

References m_data.

Referenced by L1GtPatternGenerator::analyze(), and operator==().

{ return m_data; }

L1CaloRegionDetId L1GctEmCand::regionId

(

)

const [virtual]

region associated with the candidate

Implements L1GctCand.

Definition at line 92 of file L1GctEmCand.cc.

References eta(), etaIndex(), etaSign(), and phiIndex().

                                              {
  // get global eta
  unsigned eta = ( etaSign()==1 ? 10-(etaIndex()&0x7) : 11+(etaIndex()&0x7) );
  return L1CaloRegionDetId(eta, phiIndex());
}

---

Member Data Documentation

int16_t L1GctEmCand::m_bx [private]

Definition at line 102 of file L1GctEmCand.h.

Referenced by bx().

uint16_t L1GctEmCand::m_captureBlock [private]

Definition at line 100 of file L1GctEmCand.h.

Referenced by capBlock().

uint8_t L1GctEmCand::m_captureIndex [private]

Definition at line 101 of file L1GctEmCand.h.

Referenced by capIndex().

uint16_t L1GctEmCand::m_data [private]

Definition at line 98 of file L1GctEmCand.h.

Referenced by construct(), etaIndex(), etaSign(), operator==(), phiIndex(), rank(), and raw().

bool L1GctEmCand::m_iso [private]

Definition at line 99 of file L1GctEmCand.h.

Referenced by isolated(), and operator==().