#include "DataCalib.h" #include "EventBuilder.h" #include "FitsFile.h" #include "DimDescriptionService.h" #include "externals/fits.h" using namespace std; DrsCalibration DataCalib::fData; bool DataCalib::fProcessing = false; vector DataCalib::fStats(1440*1024*6+160*1024*2+4); void DataCalib::Restart() { fData.Clear(); reinterpret_cast(fStats.data())[0] = 0; reinterpret_cast(fStats.data())[1] = 0; reinterpret_cast(fStats.data())[2] = 0; reinterpret_cast(fStats.data())[3] = 0; int i=0; while (i<1024*1440*2+4) // Set mean and RMS to 0 fStats[i++] = 0; while (i<1024*1440*3+4) fStats[i++] = 2000./4096; // Set mean to 0.5 while (i<1440*1024*6+160*1024*2+4) fStats[i++] = 0; // Set everything else to 0 fProcessing = false; } bool DataCalib::ResetTrgOff(DimDescribedService &dim, DimDescribedService &runs) { if (fData.fStep!=3) return false; for (int i=1024*1440*4+4; i<1440*1024*6+160*1024*2+4; i++) fStats[i] = 0; reinterpret_cast(fStats.data())[0] = 0; reinterpret_cast(fStats.data())[3] = 0; fData.fStep = 1; fData.fDateRunBeg[2] = "1970-01-01T00:00:00"; fData.fDateRunEnd[2] = "1970-01-01T00:00:00"; fData.fDateEnd = fData.fDateRunEnd[1]; Update(dim, runs); fData.fStep = 2; return true; } void DataCalib::Update(DimDescribedService &dim, DimDescribedService &runs) { const uint16_t roi = fData.fRoi; //const uint16_t ntm = fData.fNumTm; vector buf(1440*1024*6+160*1024*2+4); memcpy(buf.data(), fStats.data(), (4*1024*1440+4)*sizeof(float)); for (int i=0; i<1440; i++) { memcpy(buf.data()+4+1440*1024*4 + i*1024, fStats.data()+4 + 4*1024*1440 + roi*i, roi*sizeof(float)); memcpy(buf.data()+4+1440*1024*5 + i*1024, fStats.data()+4 + 4*1024*1440 + roi*1440 + roi*i, roi*sizeof(float)); } /* for (int i=0; i data(5); memcpy(data.data(), buf.data(), 4*sizeof(uint32_t)); data[4] = night<19700000 ? 0 : night; runs.setQuality(fData.fStep); runs.setData(data); runs.Update(time); } bool DataCalib::Open(const RUN_HEAD &h, const FAD::RunDescription &d) { if (h.NPix != 1440) { Error("Number of pixels in header for run "+to_string(GetRunId())+" not 1440."); return false; } if (fProcessing) { Warn("Previous DRS calibration run not yet finished (current run "+to_string(GetRunId())+")"); return false; } if (fData.fStep==3) { Warn("DRS Calibration already finished before current run "+to_string(GetRunId())+"... please restart!"); return false; } if (fData.fStep!=2 && h.Nroi != 1024) { ostringstream msg; msg << "Region of interest of run " << GetRunId() << " not 1024, but " << h.Nroi << " in step " << fData.fStep << " ... as it ought to be."; Error(msg); return false; } vector dac(8); /* // We don't check consistency over several boards because this is done // by the eventCheck routine already for (int i=0; i0) { for (int j=0; j<8; j++) { if (fData.fDAC[j]==dac[j]) continue; ostringstream msg; msg << "DAC value from previous run (DAC" << j << "=" << fData.fDAC[j] << ") and current run "; msg << "(DAC" << j << "=" << dac[j] << ") inconsistent... cannot take DRS calibration!"; fMsg.Error(msg); return false; } } memcpy(fData.fDAC, dac.data(), 8*sizeof(uint16_t)); */ fProcessing = true; const bool hastm = h.Nroi<=512 && h.NroiTM>=2*h.Nroi; Reset(); InitSize(hastm ? 1600 : 1440, h.Nroi); fData.fRoi = fNumSamples; fData.fNumTm = hastm ? 160 : 0; return DataWriteFits2::Open(h, d); } bool DataCalib::WriteEvt(const EVT_CTRL2 &evt) { // FIXME: SET StartPix to 0 if StartPix is -1 const EVENT &e = *evt.fEvent; if (fData.fStep==0) { AddRel(e.Adc_Data, e.StartPix); } if (fData.fStep==1) { AddRel(e.Adc_Data, e.StartPix, fData.fOffset.data(), fData.fNumOffset); } if (fData.fStep==2) { AddAbs(e.Adc_Data, e.StartPix, fData.fOffset.data(), fData.fNumOffset); } return DataWriteFits2::WriteEvt(evt); } bool DataCalib::ReadFits(const string &str, MessageImp &msg) { if (fProcessing) { msg.Error("Reading "+str+" failed: DRS calibration in process."); return false; } try { const string txt = fData.ReadFitsImp(str, fStats); if (txt.empty()) return true; msg.Error(txt); return false; } catch (const runtime_error &e) { msg.Error("Exception reading "+str+": "+e.what()); return false; } } /* void DataCalib::WriteFitsImp(const string &filename, const vector &vec) const { const uint16_t roi = fData.fRoi; const uint16_t ntm = fData.fNumTm; const size_t n = 1440*1024*4 + 1440*roi*2 + ntm*roi*2 + 3; // The vector has a fixed size //if (vec.size()!=n+1) // throw runtime_error("Size of vector does not match region-of-interest"); ofits file(filename.c_str()); file.AddColumnInt("RunNumberBaseline"); file.AddColumnInt("RunNumberGain"); file.AddColumnInt("RunNumberTriggerOffset"); file.AddColumnFloat(1024*1440, "BaselineMean", "mV"); file.AddColumnFloat(1024*1440, "BaselineRms", "mV"); file.AddColumnFloat(1024*1440, "GainMean", "mV"); file.AddColumnFloat(1024*1440, "GainRms", "mV"); file.AddColumnFloat( roi*1440, "TriggerOffsetMean", "mV"); file.AddColumnFloat( roi*1440, "TriggerOffsetRms", "mV"); file.AddColumnFloat( roi*ntm, "TriggerOffsetTMMean", "mV"); file.AddColumnFloat( roi*ntm, "TriggerOffsetTMRms", "mV"); DataWriteFits2::WriteDefaultKeys(file); file.SetInt("STEP", fData.fStep, ""); file.SetInt("ADCRANGE", 2000, "Dynamic range of the ADC in mV"); file.SetInt("DACRANGE", 2500, "Dynamic range of the DAC in mV"); file.SetInt("ADC", 12, "Resolution of ADC in bits"); file.SetInt("DAC", 16, "Resolution of DAC in bits"); file.SetInt("NPIX", 1440, "Number of channels in the camera"); file.SetInt("NTM", ntm, "Number of time marker channels"); file.SetInt("NROI", roi, "Region of interest"); file.SetInt("NBOFFSET", fData.fNumOffset, "Num of entries for offset calibration"); file.SetInt("NBGAIN", fData.fNumGain/1953125, "Num of entries for gain calibration"); file.SetInt("NBTRGOFF", fData.fNumTrgOff, "Num of entries for trigger offset calibration"); // file.WriteKeyNT("DAC_A", fData.fDAC[0], "Level of DAC 0 in DAC counts") || // file.WriteKeyNT("DAC_B", fData.fDAC[1], "Leval of DAC 1-3 in DAC counts") || // file.WriteKeyNT("DAC_C", fData.fDAC[4], "Leval of DAC 4-7 in DAC counts") || file.WriteTableHeader("DrsCalibration"); file.WriteRow(vec.data()+1, n*sizeof(float)); } */ bool DataCalib::Close(const EVT_CTRL2 &evt) { if (fNumEntries==0) { ostringstream str; str << "DRS calibration run (run=" << GetRunId() << ", step=" << fData.fStep << ", roi=" << fData.fRoi << ") has 0 events."; Warn(str); } if (fData.fStep==0) { fData.fOffset.assign(fSum.begin(), fSum.end()); fData.fNumOffset = fNumEntries; for (int i=0; i<1024*1440; i++) fData.fGain[i] = 4096*fNumEntries; // Scale ADC data from 12bit to 2000mV GetSampleStats(fStats.data()+4, 2000./4096); reinterpret_cast(fStats.data())[1] = GetRunId();; } if (fData.fStep==1) { fData.fGain.assign(fSum.begin(), fSum.end()); fData.fNumGain = fNumEntries; // DAC: 0..2.5V == 0..65535 2500*50000 625*50000 625*3125 // V-mV: 1000 ---------- --------- -------- //fNumGain *= 2500*50000; 65536 16384 1024 //for (int i=0; i<1024*1440; i++) // fGain[i] *= 65536; fData.fNumGain *= 1953125; for (int i=0; i<1024*1440; i++) fData.fGain[i] *= 1024; // Scale ADC data from 12bit to 2000mV GetSampleStats(fStats.data()+1024*1440*2+4, 2000./4096/fData.fNumOffset);//0.5); reinterpret_cast(fStats.data())[2] = GetRunId();; } if (fData.fStep==2) { fData.fTrgOff.assign(fSum.begin(), fSum.end()); fData.fNumTrgOff = fNumEntries; // Scale ADC data from 12bit to 2000mV GetSampleStats(fStats.data()+1024*1440*4+4, 2000./4096/fData.fNumOffset);//0.5); reinterpret_cast(fStats.data())[0] = fNumSamples; reinterpret_cast(fStats.data())[3] = GetRunId(); } const string beg = GetTstart().Iso(); const string end = GetTstop().Iso(); if (fData.fStep==0) fData.fDateObs = beg; fData.fDateEnd = end; fData.fDateRunBeg[fData.fStep] = beg; fData.fDateRunEnd[fData.fStep] = end; if (fData.fStep<=2) { const string filename = FormFileName("drs.fits"); try { fData.WriteFitsImp(filename, fStats, GetNight()); ostringstream str; str << "Wrote DRS calibration data (run=" << GetRunId() << ", step=" << fData.fStep << ", roi=" << fData.fRoi << ") to '" << filename << "'"; Info(str); } catch (const exception &e) { Error("Exception writing run "+to_string(GetRunId())+" '"+filename+"': "+e.what()); } } Update(fDim, fDimRuns); fData.fStep++; fProcessing = false; return DataWriteFits2::Close(evt); }