d3/db3/DTDigiToRaw_8cc_source.html

#include <EventFilter/DTRawToDigi/plugins/DTDigiToRaw.h>

#include <DataFormats/DTDigi/interface/DTDDUWords.h>


#include <cmath>

#include <iostream>


using namespace edm;

using namespace std;


DTDigiToRaw::DTDigiToRaw(const edm::ParameterSet& ps) : pset(ps) {

  debug = pset.getUntrackedParameter<bool>("debugMode", false);

  if (debug)

    cout << "[DTDigiToRaw]: constructor" << endl;

}


DTDigiToRaw::~DTDigiToRaw() {

  if (debug)

    cout << "[DTDigiToRaw]: destructor" << endl;

}


FEDRawData* DTDigiToRaw::createFedBuffers(const DTDigiCollection& digis, edm::ESHandle<DTReadOutMapping>& map) {

  int NROS = 12;

  int NROB = 25;


  vector<uint32_t> words;


  uint32_t fakeROSHeaderWord = DTROSWordType::headerControlWord << WORDCONTROLSHIFT | DTROSWordType::rosTypeWord

                                                                                          << WORDTYPESHIFT;


  uint32_t fakeROSTrailerWord = DTROSWordType::trailerControlWord << WORDCONTROLSHIFT | DTROSWordType::rosTypeWord

                                                                                            << WORDTYPESHIFT;


  int NWords = 2;

  words.push_back(0);

  words.push_back(0);


  int NTDCMeaWords = 0;


  int NLayers = 0;

  int NDigis = 0;


  DTDigiCollection::DigiRangeIterator detUnitIt;

  detUnitIt = digis.begin();


  bool b_ros[12] = {false, false, false, false, false, false, false, false, false, false, false, false};

  vector<uint32_t> w_ROBROS[12][25];


  for (detUnitIt = digis.begin(); detUnitIt != digis.end(); ++detUnitIt) {

    NLayers++;


    const DTLayerId layerId = (*detUnitIt).first;

    const DTDigiCollection::Range& digiRange = (*detUnitIt).second;

    // Loop over all digis in the given range


    for (DTDigiCollection::const_iterator digi = digiRange.first; digi != digiRange.second; digi++) {

      NDigis++;

      int dduId = -1, rosId = -1, robId = -1, tdcId = -1, channelId = -1;


      int layer = layerId.layer();

      DTSuperLayerId superlayerID = layerId.superlayerId();

      int superlayer = superlayerID.superlayer();

      DTChamberId chamberID = superlayerID.chamberId();

      int station = chamberID.station();

      int wheel = chamberID.wheel();

      int sector = chamberID.sector();


      int searchstatus = map->geometryToReadOut(wheel,

                                                station,

                                                sector,

                                                superlayer,

                                                layer,

                                                (*digi).wire(),  //"input"

                                                dduId,

                                                rosId,

                                                robId,

                                                tdcId,

                                                channelId);  //"output"


      if (searchstatus == 1 && debug)

        cout << "[DTDigiToRaw]: warning, geometryToReadOut status = 1" << endl;


      //create FED corresponding to current ddu

      if (dduID_ != dduId)

        continue;


      DTTDCMeasurementWord dttdc_mw;

      uint32_t word;

      int ntdc = (*digi).countsTDC();

      dttdc_mw.set(word, 0, 0, 0, tdcId, channelId, ntdc * 4);  //FIXME


      //provisional fix

      DTTDCMeasurementWord tdcMeasurementWord(word);

      int tdcIDCheck = tdcMeasurementWord.tdcID();

      int tdcChannelCheck = tdcMeasurementWord.tdcChannel();

      int tdcCountsCheck = tdcMeasurementWord.tdcTime();

      if (tdcIDCheck == tdcId && channelId == tdcChannelCheck && ntdc == tdcCountsCheck) {

        if (rosId <= NROS && rosId > 0)

          b_ros[rosId - 1] = true;

        else if (debug) {

          cout << "[DTDigiToRaw]: invalid value for rosId" << endl;

        }


        NTDCMeaWords++;

        w_ROBROS[rosId - 1][robId].push_back(word);

      }

    }

  }


  uint32_t therosList = 0;

  for (int i_ros = 0; i_ros < NROS; i_ros++) {

    if (b_ros[i_ros])

      therosList += uint32_t(pow(2.0, i_ros));

  }


  if (debug)

    cout << "[DTDigiToRaw]: therosList = " << therosList << endl;


  for (int i_ros = 0; i_ros < NROS; i_ros++) {

    if (b_ros[i_ros]) {

      words.push_back(fakeROSHeaderWord);

      NWords++;

    }


    for (int i_rob = 0; i_rob < NROB; i_rob++) {

      vector<uint32_t>::const_iterator i_robros;

      if (w_ROBROS[i_ros][i_rob].begin() != w_ROBROS[i_ros][i_rob].end()) {

        uint32_t word = 0;

        DTROBHeaderWord rob_header;

        rob_header.set(word, i_rob, 0, 0);

        //static void set(uint32_t &word, int rob_id, int event_id, int bunch_id)

        words.push_back(word);

        NWords++;


        int n_robros = 0;

        for (i_robros = w_ROBROS[i_ros][i_rob].begin(); i_robros != w_ROBROS[i_ros][i_rob].end(); i_robros++) {

          NWords++;

          words.push_back((*i_robros));

          n_robros++;

        }


        NWords++;

        DTROBTrailerWord rob_trailer;

        rob_trailer.set(word, i_rob, 0, n_robros + 2);

        //static void set(uint32_t &word, int rob_id, int event_id, int word_count)

        words.push_back(word);

      }

    }


    if (b_ros[i_ros]) {

      words.push_back(fakeROSTrailerWord);

      NWords++;

    }

  }


  if (NWords % 2 == 1) {

    words.push_back(0);

    NWords++;

  }


  words.push_back(0);

  words.push_back(0);

  //include rosList in raw data information

  uint32_t secondstatusword = therosList << 16;

  words.push_back(secondstatusword);


  words.push_back(0);

  words.push_back(0);

  words.push_back(0);


  // Write Raw Data

  int dataSize = words.size() * sizeof(Word32);

  FEDRawData* rawData = new FEDRawData(dataSize);

  Word64* word64 = reinterpret_cast<Word64*>(rawData->data());

  for (unsigned int i = 0; i < words.size(); i += 2) {

    *word64 = (Word64(words[i]) << 32) | words[i + 1];

    word64++;

  }


  return rawData;

}


void DTDigiToRaw::SetdduID(int x) { dduID_ = x; }