CSCFakeCrosstalkConditions.cc

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#include <fstream>

#include "CalibMuon/CSCCalibration/interface/CSCFakeCrosstalkConditions.h"

CSCcrosstalk *CSCFakeCrosstalkConditions::prefillCrosstalk() {
  const CSCDetId &detId = CSCDetId();
  CSCcrosstalk *cncrosstalk = new CSCcrosstalk();

  int max_istrip, id_layer, max_ring, max_cham;
  seed = 10000;
  srand(seed);
  mean = -0.0009, min = 0.035, minchi = 1.5, M = 1000;

  // endcap=1 to 2,station=1 to 4, ring=1 to 4,chamber=1 to 36,layer=1 to 6
  for (int iendcap = detId.minEndcapId(); iendcap <= detId.maxEndcapId(); iendcap++) {
    for (int istation = detId.minStationId(); istation <= detId.maxStationId(); istation++) {
      max_ring = detId.maxRingId();
      // station 4 ring 4 not there(36 chambers*2 missing)
      // 3 rings max this way of counting (ME1a & b)
      if (istation == 1)
        max_ring = 3;
      if (istation == 2)
        max_ring = 2;
      if (istation == 3)
        max_ring = 2;
      if (istation == 4)
        max_ring = 1;

      for (int iring = detId.minRingId(); iring <= max_ring; iring++) {
        max_istrip = 80;
        max_cham = detId.maxChamberId();
        if (istation == 1 && iring == 1)
          max_cham = 36;
        if (istation == 1 && iring == 2)
          max_cham = 36;
        if (istation == 1 && iring == 3)
          max_cham = 36;
        if (istation == 2 && iring == 1)
          max_cham = 18;
        if (istation == 2 && iring == 2)
          max_cham = 36;
        if (istation == 3 && iring == 1)
          max_cham = 18;
        if (istation == 3 && iring == 2)
          max_cham = 36;
        if (istation == 4 && iring == 1)
          max_cham = 18;
        // station 1 ring 3 has 64 strips per layer instead of 80(minus & plus
        // side!!!)

        for (int ichamber = detId.minChamberId(); ichamber <= max_cham; ichamber++) {
          for (int ilayer = detId.minLayerId(); ilayer <= detId.maxLayerId(); ilayer++) {
            // station 1 ring 3 has 64 strips per layer instead of 80
            if (istation == 1 && iring == 3)
              max_istrip = 64;

            std::vector<CSCcrosstalk::Item> itemvector;
            itemvector.resize(max_istrip);
            id_layer = 100000 * iendcap + 10000 * istation + 1000 * iring + 10 * ichamber + ilayer;

            for (int istrip = 0; istrip < max_istrip; istrip++) {
              // create fake values
              itemvector[istrip].xtalk_slope_right =
                  -((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 10000 + mean;
              itemvector[istrip].xtalk_intercept_right =
                  ((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 100 + min;
              itemvector[istrip].xtalk_chi2_right = ((double)rand() / ((double)(RAND_MAX) + (double)(1))) + minchi;
              itemvector[istrip].xtalk_slope_left =
                  -((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 10000 + mean;
              itemvector[istrip].xtalk_intercept_left =
                  ((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 100 + min;
              itemvector[istrip].xtalk_chi2_left = ((double)rand() / ((double)(RAND_MAX) + (double)(1))) + minchi;
              cncrosstalk->crosstalk[id_layer] = itemvector;

              if (istrip == 0) {
                itemvector[istrip].xtalk_slope_right =
                    -((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 10000 + mean;
                itemvector[istrip].xtalk_intercept_right =
                    ((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 100 + min;
                itemvector[istrip].xtalk_chi2_right = ((double)rand() / ((double)(RAND_MAX) + (double)(1))) + minchi;
                itemvector[istrip].xtalk_slope_left = 0.0;
                itemvector[istrip].xtalk_intercept_left = 0.0;
                itemvector[istrip].xtalk_chi2_left = 0.0;
                cncrosstalk->crosstalk[id_layer] = itemvector;
              }

              if (istrip == 79) {
                itemvector[istrip].xtalk_slope_right = 0.0;
                itemvector[istrip].xtalk_intercept_right = 0.0;
                itemvector[istrip].xtalk_chi2_right = 0.0;
                itemvector[istrip].xtalk_slope_left =
                    -((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 10000 + mean;
                itemvector[istrip].xtalk_intercept_left =
                    ((double)rand() / ((double)(RAND_MAX) + (double)(1))) / 100 + min;
                itemvector[istrip].xtalk_chi2_left = ((double)rand() / ((double)(RAND_MAX) + (double)(1))) + minchi;
                cncrosstalk->crosstalk[id_layer] = itemvector;
              }
            }
          }
        }
      }
    }
  }
  return cncrosstalk;
}

CSCFakeCrosstalkConditions::CSCFakeCrosstalkConditions(const edm::ParameterSet &iConfig) {
  // the following line is needed to tell the framework what
  // data is being produced
  setWhatProduced(this, &CSCFakeCrosstalkConditions::produceCrosstalk);
  findingRecord<CSCcrosstalkRcd>();
  // now do what ever other initialization is needed
}

CSCFakeCrosstalkConditions::~CSCFakeCrosstalkConditions() {
  // do anything here that needs to be done at desctruction time
  // (e.g. close files, deallocate resources etc.)
}

//
// member functions
//

// ------------ method called to produce the data  ------------
CSCFakeCrosstalkConditions::ReturnType CSCFakeCrosstalkConditions::produceCrosstalk(const CSCcrosstalkRcd &iRecord) {
  return CSCFakeCrosstalkConditions::ReturnType(prefillCrosstalk());
}

void CSCFakeCrosstalkConditions::setIntervalFor(const edm::eventsetup::EventSetupRecordKey &,
                                                const edm::IOVSyncValue &,
                                                edm::ValidityInterval &oValidity) {
  oValidity = edm::ValidityInterval(edm::IOVSyncValue::beginOfTime(), edm::IOVSyncValue::endOfTime());
}