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#include "EventFilter/CSCRawToDigi/interface/CSCTMBHeader2020_Run2.h"
#include "EventFilter/CSCRawToDigi/interface/CSCDMBHeader.h"
#include "FWCore/Utilities/interface/Exception.h"
CSCTMBHeader2020_Run2::CSCTMBHeader2020_Run2(int firmware_revision) {
bzero(data(), sizeInWords() * 2);
bits.nHeaderFrames = 42;
bits.e0bline = 0x6E0B;
bits.b0cline = 0xDB0C;
bits.firmRevCode = firmware_revision;
bits.nTBins = 12;
bits.nCFEBs = 5;
}
CSCTMBHeader2020_Run2::CSCTMBHeader2020_Run2(const unsigned short* buf) { memcpy(data(), buf, sizeInWords() * 2); }
void CSCTMBHeader2020_Run2::setEventInformation(const CSCDMBHeader& dmbHeader) {
bits.cscID = dmbHeader.dmbID();
bits.l1aNumber = dmbHeader.l1a();
bits.bxnCount = dmbHeader.bxn();
}
///returns CLCT digis
std::vector<CSCCLCTDigi> CSCTMBHeader2020_Run2::CLCTDigis(uint32_t idlayer) {
std::vector<CSCCLCTDigi> result;
unsigned halfstrip = bits.clct0_key_low + (bits.clct0_key_high << 7);
unsigned strip = halfstrip % 32;
unsigned cfeb = halfstrip / 32;
unsigned pattern = bits.clct0_shape;
unsigned bend = pattern & 0x1;
CSCCLCTDigi digi0(
bits.clct0_valid, bits.clct0_quality, pattern, 1, bend, strip, cfeb, bits.clct_bxn, 1, bits.bxnPreTrigger);
halfstrip = bits.clct1_key_low + (bits.clct1_key_high << 7);
strip = halfstrip % 32;
cfeb = halfstrip / 32;
pattern = bits.clct1_shape;
bend = pattern & 0x1;
CSCCLCTDigi digi1(
bits.clct1_valid, bits.clct1_quality, pattern, 1, bend, strip, cfeb, bits.clct_bxn, 2, bits.bxnPreTrigger);
result.push_back(digi0);
result.push_back(digi1);
return result;
}
///returns CorrelatedLCT digis
std::vector<CSCCorrelatedLCTDigi> CSCTMBHeader2020_Run2::CorrelatedLCTDigis(uint32_t idlayer) const {
std::vector<CSCCorrelatedLCTDigi> result;
/// for the zeroth MPC word:
unsigned strip = bits.MPC_Muon0_halfstrip_clct_pattern; //this goes from 0-159
CSCCorrelatedLCTDigi digi(1,
bits.MPC_Muon0_vpf_,
bits.MPC_Muon0_quality_,
bits.MPC_Muon0_wire_,
strip,
bits.MPC_Muon0_clct_pattern_,
bits.MPC_Muon0_bend_,
bits.MPC_Muon0_bx_,
0,
bits.MPC_Muon0_bc0_,
bits.MPC_Muon0_SyncErr_,
bits.MPC_Muon0_cscid_low | (bits.MPC_Muon0_cscid_bit4 << 3));
result.push_back(digi);
/// for the first MPC word:
strip = bits.MPC_Muon1_halfstrip_clct_pattern; //this goes from 0-159
digi = CSCCorrelatedLCTDigi(2,
bits.MPC_Muon1_vpf_,
bits.MPC_Muon1_quality_,
bits.MPC_Muon1_wire_,
strip,
bits.MPC_Muon1_clct_pattern_,
bits.MPC_Muon1_bend_,
bits.MPC_Muon1_bx_,
0,
bits.MPC_Muon1_bc0_,
bits.MPC_Muon1_SyncErr_,
bits.MPC_Muon1_cscid_low | (bits.MPC_Muon1_cscid_bit4 << 3));
result.push_back(digi);
return result;
}
void CSCTMBHeader2020_Run2::addALCT0(const CSCALCTDigi& digi) {
throw cms::Exception("In CSC TMBHeaderFormat 2007, ALCTs belong in ALCT header");
}
void CSCTMBHeader2020_Run2::addALCT1(const CSCALCTDigi& digi) {
throw cms::Exception("In CSC TMBHeaderFormat 2007, ALCTs belong in ALCT header");
}
void CSCTMBHeader2020_Run2::addCLCT0(const CSCCLCTDigi& digi) {
unsigned halfStrip = digi.getKeyStrip();
unsigned pattern = digi.getPattern();
bits.clct0_valid = digi.isValid();
bits.clct0_quality = digi.getQuality();
bits.clct0_shape = pattern;
// first 7 bits of halfstrip
bits.clct0_key_low = halfStrip & (0x7F);
// most-significant (8th) bit
bits.clct0_key_high = (halfStrip >> 7) & (0x1);
bits.clct_bxn = digi.getBX();
bits.bxnPreTrigger = digi.getFullBX();
}
void CSCTMBHeader2020_Run2::addCLCT1(const CSCCLCTDigi& digi) {
unsigned halfStrip = digi.getKeyStrip();
unsigned pattern = digi.getPattern();
bits.clct1_valid = digi.isValid();
bits.clct1_quality = digi.getQuality();
bits.clct1_shape = pattern;
// first 7 bits of halfstrip
bits.clct1_key_low = halfStrip & (0x7F);
// most-significant (8th) bit
bits.clct1_key_high = (halfStrip >> 7) & (0x1);
// There is just one BX field common for CLCT0 and CLCT1 (since both
// are latched at the same BX); set it in addCLCT0().
bits.bxnPreTrigger = digi.getFullBX();
}
void CSCTMBHeader2020_Run2::addCorrelatedLCT0(const CSCCorrelatedLCTDigi& digi) {
unsigned halfStrip = digi.getStrip();
bits.MPC_Muon0_vpf_ = digi.isValid();
bits.MPC_Muon0_wire_ = digi.getKeyWG();
bits.MPC_Muon0_clct_pattern_ = digi.getPattern();
bits.MPC_Muon0_quality_ = digi.getQuality();
bits.MPC_Muon0_halfstrip_clct_pattern = halfStrip;
bits.MPC_Muon0_bend_ = digi.getBend();
bits.MPC_Muon0_SyncErr_ = digi.getSyncErr();
bits.MPC_Muon0_bx_ = digi.getBX();
bits.MPC_Muon0_bc0_ = digi.getBX0();
bits.MPC_Muon0_cscid_low = digi.getCSCID() & 0x7;
bits.MPC_Muon0_cscid_bit4 = (digi.getCSCID() >> 3) & 0x1;
}
void CSCTMBHeader2020_Run2::addCorrelatedLCT1(const CSCCorrelatedLCTDigi& digi) {
unsigned halfStrip = digi.getStrip();
bits.MPC_Muon1_vpf_ = digi.isValid();
bits.MPC_Muon1_wire_ = digi.getKeyWG();
bits.MPC_Muon1_clct_pattern_ = digi.getPattern();
bits.MPC_Muon1_quality_ = digi.getQuality();
bits.MPC_Muon1_halfstrip_clct_pattern = halfStrip;
bits.MPC_Muon1_bend_ = digi.getBend();
bits.MPC_Muon1_SyncErr_ = digi.getSyncErr();
bits.MPC_Muon1_bx_ = digi.getBX();
bits.MPC_Muon1_bc0_ = digi.getBX0();
bits.MPC_Muon1_cscid_low = digi.getCSCID() & 0x7;
bits.MPC_Muon1_cscid_bit4 = (digi.getCSCID() >> 3) & 0x1;
}
void CSCTMBHeader2020_Run2::print(std::ostream& os) const {
os << "...............(O)TMB2020 legacy Run2 Header.................."
<< "\n";
os << std::hex << "BOC LINE " << bits.b0cline << " EOB " << bits.e0bline << "\n";
os << std::hex << "FW revision: 0x" << bits.firmRevCode << "\n";
os << std::dec << "fifoMode = " << bits.fifoMode << ", nTBins = " << bits.nTBins << "\n";
os << "boardID = " << bits.boardID << ", cscID = " << bits.cscID << "\n";
os << "l1aNumber = " << bits.l1aNumber << ", bxnCount = " << bits.bxnCount << "\n";
os << "trigSourceVect = " << bits.trigSourceVect << ", activeCFEBs = 0x" << std::hex
<< (bits.activeCFEBs | (bits.activeCFEBs_2 << 5)) << ", readCFEBs = 0x" << std::hex
<< (bits.readCFEBs | (bits.readCFEBs_2 << 5)) << std::dec << "\n";
os << "bxnPreTrigger = " << bits.bxnPreTrigger << "\n";
os << "tmbMatch = " << bits.tmbMatch << " alctOnly = " << bits.alctOnly << " clctOnly = " << bits.clctOnly << "\n";
os << "CLCT Words:\n"
<< " bits.clct0_valid = " << bits.clct0_valid << " bits.clct0_shape = " << bits.clct0_shape
<< " bits.clct0_quality = " << bits.clct0_quality
<< " halfstrip = " << (bits.clct0_key_low + (bits.clct0_key_high << 7)) << "\n";
os << " bits.clct1_valid = " << bits.clct1_valid << " bits.clct1_shape = " << bits.clct1_shape
<< " bits.clct1_quality = " << bits.clct1_quality
<< " halfstrip = " << (bits.clct1_key_low + (bits.clct1_key_high << 7)) << "\n";
os << "MPC Words:\n"
<< " LCT0 valid = " << bits.MPC_Muon0_vpf_ << " key WG = " << bits.MPC_Muon0_wire_
<< " key halfstrip = " << bits.MPC_Muon0_halfstrip_clct_pattern << " pattern = " << bits.MPC_Muon0_clct_pattern_
<< " quality = " << bits.MPC_Muon0_quality_ << "\n";
os << " LCT1 valid = " << bits.MPC_Muon1_vpf_ << " key WG = " << bits.MPC_Muon1_wire_
<< " key halfstrip = " << bits.MPC_Muon1_halfstrip_clct_pattern << " pattern = " << bits.MPC_Muon1_clct_pattern_
<< " quality = " << bits.MPC_Muon1_quality_ << "\n";
}
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