#include <CSCSPEvent.h>
Public Member Functions | |
const CSCSPCounters & | counters (void) const throw () |
CSCSPEvent (void) | |
const CSCSPHeader & | header (void) const throw () |
const CSCSPRecord & | record (unsigned int tbin) const throw () |
const CSCSPTrailer & | trailer (void) const throw () |
bool | unpack (const unsigned short *&buf) throw () |
Private Attributes | |
CSCSPCounters | counters_ |
CSCSPHeader | header_ |
CSCSPRecord | record_ [7] |
CSCSPTrailer | trailer_ |
Definition at line 9 of file CSCSPEvent.h.
CSCSPEvent::CSCSPEvent | ( | void | ) | [inline] |
Definition at line 25 of file CSCSPEvent.h.
{}
const CSCSPCounters& CSCSPEvent::counters | ( | void | ) | const throw () [inline] |
Definition at line 18 of file CSCSPEvent.h.
References counters_.
Referenced by CSCTFUnpacker::produce().
{ return counters_; }
const CSCSPHeader& CSCSPEvent::header | ( | void | ) | const throw () [inline] |
Definition at line 17 of file CSCSPEvent.h.
References header_.
Referenced by CSCTFUnpacker::produce().
{ return header_; }
const CSCSPRecord& CSCSPEvent::record | ( | unsigned int | tbin | ) | const throw () [inline] |
Definition at line 21 of file CSCSPEvent.h.
References record_.
Referenced by CSCTFUnpacker::produce().
{ return record_[tbin]; }
const CSCSPTrailer& CSCSPEvent::trailer | ( | void | ) | const throw () [inline] |
bool CSCSPEvent::unpack | ( | const unsigned short *& | buf | ) | throw () |
if( track.ME1_tbin()>2 ) unpackError |= true; // because bxaDepth<=2
if( track.ME2_tbin()>2 ) unpackError |= true; // because bxaDepth<=2
if( track.ME3_tbin()>2 ) unpackError |= true; // because bxaDepth<=2
if( track.ME4_tbin()>2 ) unpackError |= true; // because bxaDepth<=2
if( track.MB_tbin()>2 ) unpackError |= true; // because bxaDepth<=2
Definition at line 6 of file CSCSPEvent.cc.
References CSCSP_SPblock::dt_, CSCSP_SPblock::dtFilled, end, CSCSP_SPblock::lct_, CSCSP_SPblock::lctFilled, CSCSP_SPblock::MB_id(), CSCSP_SPblock::MB_tbin(), CSCSP_SPblock::ME1_id(), CSCSP_SPblock::ME1_tbin(), CSCSP_SPblock::ME2_id(), CSCSP_SPblock::ME2_tbin(), CSCSP_SPblock::ME3_id(), CSCSP_SPblock::ME3_tbin(), CSCSP_SPblock::ME4_id(), CSCSP_SPblock::ME4_tbin(), CSCSP_SPblock::mode(), and python::timeUnitHelper::unpack().
{ bool unpackError = false; if( (buf[0]&0xF000) != 0x9000 || (buf[1]&0xF000) != 0x9000 || (buf[2]&0xF000) != 0x9000 || (buf[3]&0xF000) != 0x9000 || (buf[4]&0xF000) != 0xA000 || (buf[5]&0xF000) != 0xA000 || (buf[6]&0xF000) != 0xA000 || (buf[7]&0xF000) != 0xA000 ) return true; else unpackError |= header_.unpack(buf); if( !header_.empty() ){ // Block of Counters is added in format version 4.3 (dated by 05/27/2007) if( header_.format_version() ) unpackError |= counters_.unpack(buf); if( header_.format_version()<3 || !header_.suppression() ){ for(unsigned short tbin=0; tbin<header_.nTBINs(); tbin++) unpackError |= record_[tbin].unpack(buf,header_.active(),header_.suppression(),tbin); } else { // For the v.5.3 zero supression tbin has to be identified from the Data Block Header (BH2d word), as opposed to plain counting when empty records are not suppressed for(unsigned short tbin=0, actual_tbin = (buf[7] >> 8) & 0x7; tbin<header_.nTBINs(); tbin++){ bzero(&(record_[tbin]),sizeof(record_[tbin])); // Check if we ran into the trailer (happens once all the records were read out) if( (buf[0]&0xF000)==0xF000 && (buf[1]&0xF000)==0xF000 && (buf[2]&0xF000)==0xF000 && (buf[3]&0xF000)==0xF000 && (buf[4]&0xF000)==0xE000 && (buf[5]&0xF000)==0xE000 && (buf[6]&0xF000)==0xE000 && (buf[7]&0xF000)==0xE000 ) break; // Skip supressed empty tbins in the format version >=5.3 if( tbin+1 != actual_tbin ) continue; // Unpack the record unpackError |= record_[tbin].unpack(buf,header_.active(),header_.suppression(),tbin); actual_tbin = (buf[7] >> 8) & 0x7; } } // Link initial LCTs to the tracks in each time bin for(unsigned short tbin=0; tbin<header_.nTBINs(); tbin++){ for(unsigned short trk=0; trk<3; trk++){ CSCSP_SPblock &track = record_[tbin].sp[trk]; if( track.ME1_id()==0 && track.ME2_id()==0 && track.ME3_id()==0 && track.ME4_id()==0 && track.MB_id()==0 ) continue; // The key LCT identified by the BXA algorithm is the second earliest LCT int second_earliest_lct_delay = -1; // this is going to be a # tbins the key LCT was delayed to allign with the latest LCT if( track.mode() != 15 && track.mode() != 11 ){ // BXA works only on non halo tracks and non-singles // BXA algorithm is not trivial: first let's order all the delays (MEx_tbin), which are aligning LCTs to the tbin of the latest LCT std::map< int, std::list<int> > timeline; if( track.ME1_id() ) timeline[track.ME1_tbin()].push_back(1); if( track.ME2_id() ) timeline[track.ME2_tbin()].push_back(2); if( track.ME3_id() ) timeline[track.ME3_tbin()].push_back(3); if( track.ME4_id() ) timeline[track.ME4_tbin()].push_back(4); if( track.MB_id() ) timeline[track.MB_tbin() ].push_back(5); int earliest_lct_delay = -1; //, second_earliest_lct_delay = -1; // Going from largest to smallest delay (earliest LCT pops up first in the loop) for(int delay=7; delay>=0 && second_earliest_lct_delay==-1; delay--){ std::list<int>::const_iterator iter = timeline[delay].begin(); while( iter != timeline[delay].end() && second_earliest_lct_delay==-1 ){ if( earliest_lct_delay==-1 ) earliest_lct_delay=delay; else if( second_earliest_lct_delay==-1 ) second_earliest_lct_delay=delay; iter++; } } } else second_earliest_lct_delay = 0; // MEx_tbin are LCTs delays shifting all of them to the bx of last LCT used to build a track // let's convert delays to TBINs keeping in mind that absolute_lct_tbin = track_tbin + (second_earliest_delay - lct_delay) if( track.ME1_id() ){ // if track contains LCT from the ME1 unsigned int mpc = ( track.ME1_id()>3 ? 1 : 0 ); int ME1_tbin = tbin + second_earliest_lct_delay - track.ME1_tbin(); if( ME1_tbin>=0 && ME1_tbin<7 ) { std::vector<CSCSP_MEblock> lcts = record_[ME1_tbin].LCTs(mpc); for(std::vector<CSCSP_MEblock>::const_iterator lct=lcts.begin(); lct!=lcts.end(); lct++) // Due to old MPC firmware link information was not accessible for some data: //if( lct->link()==(mpc?track.ME1_id()-3:track.ME1_id()) ){ if( ((lct->spInput()-1)%3+1)==(mpc?track.ME1_id()-3:track.ME1_id()) ){ track.lct_[0] = *lct; track.lctFilled[0] = true; } } } if( track.ME2_id() ){ // ... ME2 int ME2_tbin = tbin + second_earliest_lct_delay - track.ME2_tbin(); if( ME2_tbin>=0 && ME2_tbin<7 ) { std::vector<CSCSP_MEblock> lcts = record_[ME2_tbin].LCTs(2); for(std::vector<CSCSP_MEblock>::const_iterator lct=lcts.begin(); lct!=lcts.end(); lct++) // Due to old MPC firmware link information was not accessible for some data: //if( lct->link()==track.ME2_id() ){ if( ((lct->spInput()-1)%3+1)==track.ME2_id() ){ track.lct_[1] = *lct; track.lctFilled[1] = true; } } } if( track.ME3_id() ){ // ... ME3 int ME3_tbin = tbin + second_earliest_lct_delay - track.ME3_tbin(); if( ME3_tbin>=0 && ME3_tbin<7 ) { std::vector<CSCSP_MEblock> lcts = record_[ME3_tbin].LCTs(3); for(std::vector<CSCSP_MEblock>::const_iterator lct=lcts.begin(); lct!=lcts.end(); lct++) // Due to old MPC firmware link information was not accessible for some data: //if( lct->link()==track.ME3_id() ){ if( ((lct->spInput()-1)%3+1)==track.ME3_id() ){ track.lct_[2] = *lct; track.lctFilled[2] = true; } } } if( track.ME4_id() ){ // ... fourth station int ME4_tbin = tbin + second_earliest_lct_delay - track.ME4_tbin(); if( ME4_tbin>=0 && ME4_tbin<7 ) { std::vector<CSCSP_MEblock> lcts = record_[ME4_tbin].LCTs(4); for(std::vector<CSCSP_MEblock>::const_iterator lct=lcts.begin(); lct!=lcts.end(); lct++) // Due to old MPC firmware link information was not accessible for some data: //if( lct->link()==track.ME4_id() ){ if( ((lct->spInput()-1)%3+1)==track.ME4_id() ){ track.lct_[3] = *lct; track.lctFilled[3] = true; } } } if( track.MB_id() ){ // ... barrel int MB_tbin = tbin + second_earliest_lct_delay - track.MB_tbin(); if( MB_tbin>=0 && MB_tbin<7 ) { std::vector<CSCSP_MBblock> stubs = record_[MB_tbin].mbStubs(); for(std::vector<CSCSP_MBblock>::const_iterator stub=stubs.begin(); stub!=stubs.end(); stub++) if( (stub->id()==1 && track.MB_id()%2==1) || (stub->id()==2 && track.MB_id()%2==0) ){ track.dt_ = *stub; track.dtFilled = true; } } } } } } unpackError |= trailer_.unpack(buf); return unpackError; }
CSCSPCounters CSCSPEvent::counters_ [private] |
Definition at line 12 of file CSCSPEvent.h.
Referenced by counters().
CSCSPHeader CSCSPEvent::header_ [private] |
Definition at line 11 of file CSCSPEvent.h.
Referenced by header().
CSCSPRecord CSCSPEvent::record_[7] [private] |
Definition at line 13 of file CSCSPEvent.h.
Referenced by record().
CSCSPTrailer CSCSPEvent::trailer_ [private] |
Definition at line 14 of file CSCSPEvent.h.
Referenced by trailer().