MSLayersKeeperX0Averaged.cc

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#include "MSLayersKeeperX0Averaged.h"
#include "MSLayersKeeperX0AtEta.h"
#include "MultipleScatteringGeometry.h"

using namespace std;

MSLayersKeeperX0Averaged::MSLayersKeeperX0Averaged(const GeometricSearchTracker &tracker, const MagneticField &bfield) {
  //  cout << "HERE INITIALISATION! MSLayersKeeperX0Averaged"<<endl;
  MSLayersKeeperX0AtEta layersX0Eta(tracker, bfield);
  MultipleScatteringGeometry geom(tracker);
  vector<MSLayer> allLayers = geom.detLayers();
  vector<MSLayer>::iterator it;
  for (int i = -1; i <= 1; i++) {
    float eta = i * (-1.8);
    vector<MSLayer> tmpLayers = geom.otherLayers(eta);
    vector<MSLayer>::const_iterator ic;
    for (ic = tmpLayers.begin(); ic != tmpLayers.end(); ic++) {
      it = find(allLayers.begin(), allLayers.end(), *ic);
      if (it == allLayers.end())
        allLayers.push_back(*ic);
    }
  }

  for (it = allLayers.begin(); it != allLayers.end(); it++) {
    float cotTheta = (it->face() == GeomDetEnumerators::barrel) ? it->range().mean() / it->position()
                                                                : it->position() / it->range().mean();

    int nbins = 0;
    float sumX0 = 0.;
    for (int ibin = 0; ibin < 2 * layersX0Eta.theHalfNBins; ibin++) {
      const MSLayersAtAngle &layers = layersX0Eta.theLayersData[ibin];
      const MSLayer *aLayer = layers.findLayer(*it);
      if (aLayer) {
        nbins++;
        sumX0 += getDataX0(*aLayer).x0;
      }
    }
    if (nbins == 0)
      nbins = 1;

    float hrange = (it->range().max() - it->range().min()) / 2.;
    DataX0 dataX0;
    if (it->face() == GeomDetEnumerators::endcap) {
      float cot1 = it->position() / (it->range().mean() - hrange / 2);
      float cot2 = it->position() / (it->range().mean() + hrange / 2);
      const MSLayer *aLayer1 = layersX0Eta.layers(cot1).findLayer(*it);
      const MSLayer *aLayer2 = layersX0Eta.layers(cot1).findLayer(*it);
      float sum1 = aLayer1 ? aLayer1->sumX0D(cot1) : 0.;
      float sum2 = aLayer2 ? aLayer2->sumX0D(cot2) : 0.;
      float slope = (sum2 - sum1) / (1 / cot2 - 1 / cot1);
      float sumX0D = sum1 + slope * (1 / cotTheta - 1 / cot1);
      dataX0 = DataX0(sumX0 / nbins, sumX0D, cotTheta);
      dataX0.setForwardSumX0DSlope(slope);
    } else {
      float sumX0D = 0;
      int nb = 10;
      for (int i = 0; i < nb; i++) {
        float cot = (it->range().mean() + (2 * i + 1 - nb) * hrange / nb) / it->position();
        float sin = 1 / sqrt(1 + cot * cot);
        const MSLayer *aLayer = layersX0Eta.layers(cot).findLayer(*it);
        if (aLayer)
          sumX0D += aLayer->sumX0D(cot) * sqrt(sin);
      }
      dataX0 = DataX0(sumX0 / nbins, sumX0D / nb, 0);
    }
    setDataX0(*it, dataX0);
  }
  theLayersData = MSLayersAtAngle(allLayers);
  //  cout << "MSLayersKeeperX0Averaged - LAYERS:"<<endl;
  //  theLayersData.print();
  //  cout << "END OF LAYERS"<<endl;
}