d0/d3d/HGCalMouseBite_8cc_source.html

#include "Geometry/HGCalGeometry/interface/HGCalMouseBite.h"

#include "DataFormats/Math/interface/CMSUnits.h"


//#define EDM_ML_DEBUG

using namespace cms_units::operators;


HGCalMouseBite::HGCalMouseBite(const HGCalDDDConstants& hgc, const bool rot) {

  if (hgc.waferHexagon8()) {

    const std::vector<double> angle = {90._deg, 30._deg};

    std::vector<std::pair<double, double> > projXY;

    projXY.reserve(angle.size());

    for (auto ang : angle)

      projXY.emplace_back(std::make_pair(cos(ang), sin(ang)));

    const double mousebite(hgc.mouseBite(true));

    const double wafersize(hgc.waferSize(true));

    double cut = wafersize * tan(angle[1]) - mousebite;

#ifdef EDM_ML_DEBUG

    edm::LogVerbatim("HGCalGeom") << "Creating HGCMosueBite with cut at " << cut << " along " << angle.size()

                                  << " axes in wafers of size " << wafersize;

    for (unsigned int k = 0; k < angle.size(); ++k)

      edm::LogVerbatim("HGCalGeom") << "Axis[" << k << "] " << convertRadToDeg(angle[k]) << " with projections "

                                    << projXY[k].first << ":" << projXY[k].second;

#endif

    static const double sqrt3 = std::sqrt(3.0);

    int nf(HGCSiliconDetId::HGCalFineN);

    int nf2 = nf / 2;

    double Rf = wafersize / (3.0 * nf);

    double rf = 0.5 * Rf * sqrt3;

    for (int u = 0; u < 2 * nf; ++u) {

      for (int v = 0; v < 2 * nf; ++v) {

        if (((v - u) < nf) && ((u - v) <= nf)) {

          double yp = std::abs((u - 0.5 * v - nf2) * 2 * rf);

          double xp = std::abs((1.5 * (v - nf) + 1.0) * Rf);

          for (auto proj : projXY) {

            double dist = (rot ? (yp * proj.first + xp * proj.second) : (xp * proj.first + yp * proj.second));

            if (dist > cut) {

              rejectFine_.emplace_back(100 * u + v);

              break;

            }

          }

        }

      }

    }

#ifdef EDM_ML_DEBUG

    edm::LogVerbatim("HGCalGeom") << "HGCalMouseBite:: " << rejectFine_.size()

                                  << " masked u, v's among the fine grain wafers:";

    for (unsigned int k = 0; k < rejectFine_.size(); ++k)

      edm::LogVerbatim("HGCalGeom") << "[" << k << "] = (" << rejectFine_[k] / 100 << ", " << rejectFine_[k] % 100

                                    << ")";

#endif

    int nc(HGCSiliconDetId::HGCalCoarseN);

    int nc2 = nc / 2;

    double Rc = hgc.getParameter()->waferSize_ / (3.0 * nc);

    double rc = 0.5 * Rc * sqrt3;

    for (int u = 0; u < 2 * nc; ++u) {

      for (int v = 0; v < 2 * nc; ++v) {

        if (((v - u) < nc) && ((u - v) <= nc)) {

          double yp = (u - 0.5 * v - nc2) * 2 * rc;

          double xp = (1.5 * (v - nc) + 1.0) * Rc;

          for (auto proj : projXY) {

            double dist = (rot ? (yp * proj.first + xp * proj.second) : (xp * proj.first + yp * proj.second));

            if (dist > cut)

              rejectCoarse_.emplace_back(100 * u + v);

            break;

          }

        }

      }

    }

#ifdef EDM_ML_DEBUG

    edm::LogVerbatim("HGCalGeom") << "HGCalMouseBite:: " << rejectCoarse_.size()

                                  << " masked u, v's among the coarse grain wafers:";

    for (unsigned int k = 0; k < rejectCoarse_.size(); ++k)

      edm::LogVerbatim("HGCalGeom") << "[" << k << "] = (" << rejectCoarse_[k] / 100 << ", " << rejectCoarse_[k] % 100

                                    << ")";

#endif

  }

}