#include <RBCChamberORLogic.h>

Inheritance diagram for RBCChamberORLogic:

Public Types
typedef std::map< std::string, bool >::iterator	itr2chambers

typedef std::vector < std::string >::iterator	itr2names

Public Member Functions
void	copymap (const std::bitset< 15 > &)

void	createmap (const std::bitset< 15 > &)

bool	evaluateLayerOR (const char , const char )

std::bitset< 6 > *	getlayersignal (int _idx)

void	process (const RBCInput &, std::bitset< 2 > &)

	RBCChamberORLogic ()
	Standard constructor. More...

void	reset ()

void	setBoardSpecs (const RBCBoardSpecs::RBCBoardConfig &)

void	setmaxlevel (int _mx)

virtual	~RBCChamberORLogic ()
	Destructor. More...

Public Member Functions inherited from RBCLogic
virtual	~RBCLogic ()

Public Attributes
std::bitset< 6 > *	m_layersignal

Public Attributes inherited from RBCLogic
bool	m_triggersignal

Private Attributes
std::map< std::string, bool >	m_chamber

int	m_maxcb

int	m_maxlevel

std::vector< std::string >	m_rbname

Detailed Description

This class works out the mapping of inputs to chambers and applies a Coincidence Logic. The criteria for coincidence is set by the parameter m_maxlevel.

Authors: Andres Osorio, Flavio Loddo, Marcello Maggi

email: aosor.nosp@m.io@u.nosp@m.niand.nosp@m.es.e.nosp@m.du.co

Date: 2008-10-11

Definition at line 27 of file RBCChamberORLogic.h.

Member Typedef Documentation

typedef std::map<std::string,bool>::iterator RBCChamberORLogic::itr2chambers

Definition at line 41 of file RBCChamberORLogic.h.

typedef std::vector<std::string>::iterator RBCChamberORLogic::itr2names

Definition at line 38 of file RBCChamberORLogic.h.

Constructor & Destructor Documentation

RBCChamberORLogic::RBCChamberORLogic ( )

Standard constructor.

Definition at line 16 of file RBCChamberORLogic.cc.

References m_chamber, m_layersignal, m_maxcb, m_maxlevel, m_rbname, and AlCaHLTBitMon_QueryRunRegistry::string.

                                        {
   
   m_rbname.push_back(std::string("RB1InFw"));
   m_rbname.push_back(std::string("RB1OutFw"));
   m_rbname.push_back(std::string("RB22Fw"));
   m_rbname.push_back(std::string("RB23Fw"));
   m_rbname.push_back(std::string("RB23M"));
   m_rbname.push_back(std::string("RB3Fw"));
   m_rbname.push_back(std::string("RB4Fw"));
   m_rbname.push_back(std::string("RB1InBk"));
   m_rbname.push_back(std::string("RB1OutBk"));
   m_rbname.push_back(std::string("RB22Bk"));
   m_rbname.push_back(std::string("RB23Bk"));
   m_rbname.push_back(std::string("RB3Bk"));
   m_rbname.push_back(std::string("RB4Bk"));
   
   itr2names itr = m_rbname.begin();
   
   while ( itr != m_rbname.end() )
   {
     m_chamber.insert( make_pair( (*itr) , 0 ) );
     ++itr;
   }
 
   m_maxcb    = 13;
   m_maxlevel = 3; // 1 <= m <= 6
 
   m_layersignal = new std::bitset<6>[2];
   m_layersignal[0].reset();
   m_layersignal[1].reset();
   
 }

RBCChamberORLogic::~RBCChamberORLogic ( )

virtual

Destructor.

Definition at line 52 of file RBCChamberORLogic.cc.

References m_layersignal.

                                       {
   
   if ( m_layersignal ) delete[] m_layersignal;
   
 } 

Member Function Documentation

void RBCChamberORLogic::copymap ( const std::bitset< 15 > & _input )

Definition at line 145 of file RBCChamberORLogic.cc.

References m_chamber, and m_rbname.

Referenced by process().

 {
   
   m_chamber[m_rbname[0]]  = _input[0];
   m_chamber[m_rbname[1]]  = _input[1];
   m_chamber[m_rbname[2]]  = _input[2];
   m_chamber[m_rbname[3]]  = _input[3];
   m_chamber[m_rbname[4]]  = _input[4];
   m_chamber[m_rbname[5]]  = _input[5];
   m_chamber[m_rbname[6]]  = _input[6];
   m_chamber[m_rbname[7]]  = _input[7];
   m_chamber[m_rbname[8]]  = _input[8];
   m_chamber[m_rbname[9]]  = _input[9];
   m_chamber[m_rbname[10]] = _input[10];
   m_chamber[m_rbname[11]] = _input[11];
   m_chamber[m_rbname[12]] = _input[12];
   
 }

void RBCChamberORLogic::createmap ( const std::bitset< 15 > & _input )

Definition at line 164 of file RBCChamberORLogic.cc.

References m_chamber, and m_rbname.

Referenced by process().

 {
   
   m_chamber[m_rbname[0]]  = _input[3];
   m_chamber[m_rbname[1]]  = _input[4];
   m_chamber[m_rbname[2]]  = _input[5];
   m_chamber[m_rbname[3]]  = _input[8];
   m_chamber[m_rbname[4]]  = _input[7];
   m_chamber[m_rbname[5]]  = _input[11];
   m_chamber[m_rbname[6]]  = _input[12] || _input[14];
   m_chamber[m_rbname[7]]  = _input[0];
   m_chamber[m_rbname[8]]  = _input[1];
   m_chamber[m_rbname[9]]  = _input[2];
   m_chamber[m_rbname[10]] = _input[6];
   m_chamber[m_rbname[11]] = _input[9];
   m_chamber[m_rbname[12]] = _input[10] || _input[13];
   
 }

bool RBCChamberORLogic::evaluateLayerOR	(	const char *	_chA,
		const char *	_chB
	)

Definition at line 202 of file RBCChamberORLogic.cc.

References gather_cfg::cout, m_chamber, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by process().

 {
   
   itr2chambers ptr1 = m_chamber.find( std::string(_chA) );
   itr2chambers ptr2 = m_chamber.find( std::string(_chB) );
   
   if ( ptr1 == m_chamber.end() || ptr2 == m_chamber.end() ) {
     //handle error...
     std::cout << "RBCChamberORLogic> Cannot find a chamber name" << '\n';
     return false;
   }
   
   return ( ptr1->second || ptr2->second );
   
 }

std::bitset<6>* RBCChamberORLogic::getlayersignal ( int _idx )

inlinevirtual

Implements RBCLogic.

Definition at line 38 of file RBCChamberORLogic.h.

38 { return & m_layersignal[_idx]; };

RBCChamberORLogic::m_layersignal

std::bitset< 6 > * m_layersignal

Definition: RBCChamberORLogic.h:51

void RBCChamberORLogic::process	(	const RBCInput &	_input,
		std::bitset< 2 > &	_decision
	)

virtual

Implements RBCLogic.

Definition at line 60 of file RBCChamberORLogic.cc.

References funct::abs(), copymap(), prof2calltree::count, createmap(), evaluateLayerOR(), RBCInput::input_sec, relval_steps::k, m_layersignal, m_maxlevel, RBCInput::needmapping, reset(), ntuplemaker::status, and RBCInput::wheelId().

 {
   
   bool status(false);
   //std::cout << "RBCChamberORLogic> Working with chambers OR logic ..." << '\n';
 
   m_layersignal[0].reset();
   m_layersignal[1].reset();
 
   for (int k=0; k < 2; ++k ) 
   {
     
     if( _input.needmapping )
       this->createmap( _input.input_sec[k] );
     else
       this->copymap  ( _input.input_sec[k] );
     
     status = this->evaluateLayerOR( "RB1InFw"  , "RB1InBk" );
     m_layersignal[k].set( 0 , status);
     
     status = this->evaluateLayerOR( "RB1OutFw" , "RB1OutBk" );
     m_layersignal[k].set( 1 , status);
     
     //... RB2
     //... wheel -2,+2 RB2IN divided in 2 eta partitions, RB2OUT in 3 eta
     //... wheel -1, 0, +1 RB2IN divided in 3 eta partitions, RB2OUT in 2 eta
 
     if ( abs( _input.wheelId() ) >= 2 ) {
       
       status = this->evaluateLayerOR( "RB22Fw"   , "RB22Bk" );
       m_layersignal[k].set( 2 , status);
       
       bool rb23FB = this->evaluateLayerOR( "RB23Fw"   , "RB23Bk" );
       bool rb23MF = this->evaluateLayerOR( "RB23Fw"   , "RB23M" );
       bool rb23MB = this->evaluateLayerOR( "RB23M"    , "RB23Bk" );
       
       status = rb23FB || rb23MF || rb23MB;
     
       m_layersignal[k].set( 3 , status );
       
     } else {
       
       status = this->evaluateLayerOR( "RB22Fw"   , "RB22Bk" );
       m_layersignal[k].set( 3 , status);
       
       bool rb23FB = this->evaluateLayerOR( "RB23Fw"   , "RB23Bk" );
       bool rb23MF = this->evaluateLayerOR( "RB23Fw"   , "RB23M" );
       bool rb23MB = this->evaluateLayerOR( "RB23M"    , "RB23Bk" );
       
       status = rb23FB || rb23MF || rb23MB;
     
       m_layersignal[k].set( 2 , status );
       
     }
     
     //.......
     
     status = this->evaluateLayerOR( "RB3Fw"    , "RB3Bk" );
     m_layersignal[k].set( 4 , status);
     
     status = this->evaluateLayerOR( "RB4Fw"    , "RB4Bk" );
     m_layersignal[k].set( 5 , status);
     
     reset();
     
     //... apply now majority level criteria:
     
     int _majority = int(m_layersignal[k].count());
     
     if ( _majority >= m_maxlevel) _decision[k] = true;
     else _decision[k] = false;
     
   }
 
   //...all done!
   
 }

void RBCChamberORLogic::reset ( void )

Definition at line 183 of file RBCChamberORLogic.cc.

References m_chamber, and m_rbname.

Referenced by process().

 {
   
   //... Reset map for next sector analysis
   m_chamber.clear();
   
   itr2names itr = m_rbname.begin();
   
   while ( itr != m_rbname.end() )
   {
     m_chamber.insert( make_pair( (*itr) , 0 ) );
     ++itr;
   }
   
   //m_layersignal[0].reset();
   //m_layersignal[1].reset();
   
 }

void RBCChamberORLogic::setBoardSpecs ( const RBCBoardSpecs::RBCBoardConfig & specs )

virtual

Implements RBCLogic.

Definition at line 138 of file RBCChamberORLogic.cc.

References m_maxlevel, and RBCBoardSpecs::RBCBoardConfig::m_MayorityLevel.

 {
   
   m_maxlevel = specs.m_MayorityLevel;
     
 }

void RBCChamberORLogic::setmaxlevel ( int _mx )

inline

Definition at line 51 of file RBCChamberORLogic.h.

References m_maxlevel.

51 { m_maxlevel = _mx;};

RBCChamberORLogic::m_maxlevel

int m_maxlevel

Definition: RBCChamberORLogic.h:65

Member Data Documentation

std::map<std::string, bool> RBCChamberORLogic::m_chamber

private

Definition at line 61 of file RBCChamberORLogic.h.

Referenced by copymap(), createmap(), evaluateLayerOR(), RBCChamberORLogic(), and reset().

std::bitset<6>* RBCChamberORLogic::m_layersignal

Definition at line 51 of file RBCChamberORLogic.h.

Referenced by process(), RBCChamberORLogic(), and ~RBCChamberORLogic().

int RBCChamberORLogic::m_maxcb

private

Definition at line 63 of file RBCChamberORLogic.h.

Referenced by RBCChamberORLogic().

int RBCChamberORLogic::m_maxlevel

private

Definition at line 65 of file RBCChamberORLogic.h.

Referenced by process(), RBCChamberORLogic(), setBoardSpecs(), and setmaxlevel().

std::vector<std::string> RBCChamberORLogic::m_rbname

private

Definition at line 59 of file RBCChamberORLogic.h.

Referenced by copymap(), createmap(), RBCChamberORLogic(), and reset().

Public Types

Public Member Functions

Public Attributes

Private Attributes

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation