#include "HeadersFTM.h" #include #include #include "Converter.h" using namespace std; void FTM::Header::print(std::ostream &out) const { out << "State=" << std::dec << (fState&kFtmStates); out << " Type=" << fType; out << " (len=" << fDataSize << ")"; out << " Id=0x" << std::hex << fBoardId; out << " FW=" << fFirmwareId; out << " TriggerCounter=" << std::dec << fTriggerCounter; out << " TimeStamp=" << fTimeStamp; if (fState&kFtmLocked) out << " [locked]"; else out << " [unlocked]"; out << std::endl; } void FTM::FtuResponse::print(std::ostream &out) const { out << std::hex << "Pings=" << ((fPingAddr>>8)&0x3); out << " Addr=" << std::setw(2) << (fPingAddr&0x1f); out << " DNA=" << std::setw(16) << fDNA; out << " ErrorCounter=" << std::dec << fErrorCounter << std::endl; } void FTM::FtuList::print(std::ostream &out) const { out << "Number of boards responded: " << std::dec << fNumBoards << " ("; out << fNumBoardsCrate[0] << ", "; out << fNumBoardsCrate[1] << ", "; out << fNumBoardsCrate[2] << ", "; out << fNumBoardsCrate[3] << ")" << std::endl; out << "Active boards: " << std::hex; out << std::setfill('0'); out << std::setw(4) << fActiveFTU[0]; out << std::setw(4) << fActiveFTU[1]; out << std::setw(4) << fActiveFTU[2]; out << std::setw(4) << fActiveFTU[3] << std::dec << std::endl; for (int c=0; c<4; c++) for (int b=0; b<10; b++) { out << ' ' << c << ':' << std::setfill('0') << std::setw(2) << b << ": "; out << fFTU[c][b]; } } void FTM::DynamicDataBoard::print(std::ostream &out) const { out << "Rate=" << std::setw(5) << fRateTotal << " ("; out << std::setw(5) << fRatePatch[0] << ", "; out << std::setw(5) << fRatePatch[1] << ", "; out << std::setw(5) << fRatePatch[2] << ", "; out << std::setw(5) << fRatePatch[3] << ") "; out << "Overflow=" << fOverflow << " "; out << "CrcError=" << fCrcError << std::endl; } void FTM::DynamicData::print(std::ostream &out) const { out << "OnTime=" << std::dec << fOnTimeCounter << " "; out << "Temp=("; out << fTempSensor[0] << ","; out << fTempSensor[1] << ","; out << fTempSensor[2] << ","; out << fTempSensor[3] << ")" << std::endl; for (int c=0; c<4; c++) for (int b=0; b<10; b++) { out << ' ' << c << ':' << std::setfill('0') << std::setw(2) << b << ": "; out << fBoard[c][b]; } } void FTM::StaticDataBoard::print(std::ostream &out) const { out << "Enable=( " << std::hex; for (int i=0; i<4; i++) out << std::setw(4) << fEnable[i] << " "; out << ") " << std::dec; out << "DAC A=" << fDAC[0] << " "; out << "B=" << fDAC[1] << " "; out << "C=" << fDAC[2] << " "; out << "D=" << fDAC[3] << " "; out << "H=" << fDAC[4] << " "; out << "Prescaling=" << fPrescaling << endl; } void FTM::StaticData::print(std::ostream &out) const { out << std::hex; out << "General settings: "; if (IsEnabled(kTrigger)) out << " Trigger"; if (IsEnabled(kPedestal)) out << " Pedestal"; if (IsEnabled(kLPint)) out << " LPint"; if (IsEnabled(kLPext)) out << " LPext"; if (IsEnabled(kExt1)) out << " Ext1"; if (IsEnabled(kExt2)) out << " Ext2"; if (IsEnabled(kVeto)) out << " Veto"; if (IsEnabled(kClockConditioner)) out << " ClockCond"; out << " (" << fGeneralSettings << ")" << endl; out << "Status LEDs: " << fStatusLEDs << endl; out << std::dec; out << "TriggerInterval: " << fTriggerInterval << " ms" << endl; out << "TriggerSequence: "; out << (fTriggerSequence &0x1f) << ":"; out << ((fTriggerSequence>> 5)&0x1f) << ":"; out << ((fTriggerSequence>>10)&0x1f) << " (LPint:LPext:PED)" << endl; out << "Coinc. physics: " << std::setw(2) << fMultiplicityPhysics << "/N "; out << fWindowPhysics*4+8 << "ns" << endl; out << "Coinc. calib: " << std::setw(2) << fMultiplicityCalib << "/N "; out << fWindowCalib*4+8 << "ns" << endl; out << "Trigger delay: " << fDelayTrigger*4+8 << "ns" << endl; out << "Time marker delay: " << fDelayTimeMarker*4+8 << "ns" << endl; out << "Dead time: " << fDeadTime*4+8 << "ns" << endl; out << "Light pulser (int): " << dec << (int)fIntensityLPint; if (fEnableLPint&kGroup1) out << " + Group1"; if (fEnableLPint&kGroup2) out << " + Group2"; out << endl; out << "Light pulser (ext): " << dec << (int)fIntensityLPext; if (fEnableLPext&kGroup1) out << " + Group1"; if (fEnableLPext&kGroup2) out << " + Group2"; out << endl; out << "Clock conditioner:"; out << std::hex << setfill('0'); for (int i=0; i<8; i++) out << " " << setw(8) << fClockConditioner[i]; out << endl; out << "Active FTUs: "; out << fActiveFTU[0] << " "; out << fActiveFTU[1] << " "; out << fActiveFTU[2] << " "; out << fActiveFTU[3] << endl; out << std::dec; for (int c=0; c<4; c++) for (int b=0; b<10; b++) { out << ' ' << c << ':' << std::setfill('0') << std::setw(2) << b << ": "; out << fBoard[c][b]; } } void FTM::Error::print(std::ostream &out) const { out << dec; out << "ERROR: Num Calls = " << fNumCalls; if (fNumCalls==0) out << " (too many)"; out << endl; out << " Delimiter = " << (fDelimiter=='@'?"ok":"wrong") << endl; out << " Path = "; if (fSrcAddress==0xc0) out << "FTM(192)"; else out << "FTU(" << (fSrcAddress &0x3) << ":" << (fSrcAddress >>2) << ")"; out << " --> "; if (fDestAddress==0xc0) out << "FTM(192)"; else out << "FTU(" << (fDestAddress&0x3) << ":" << (fDestAddress>>2) << ")"; out << endl; out << " FirmwareId = " << hex << fFirmwareId << endl; out << " Command = " << hex << fCommand << endl; out << " CRC counter = " << dec << fCrcErrorCounter << endl; out << " CRC = " << hex << fCrcCheckSum << endl; out << " Data: " << Converter::GetHex(fData, 0, false) << endl; }