ForwardDiskSectorBuilderFromDet Class Reference

#include <ForwardDiskSectorBuilderFromDet.h>

Public Member Functions
std::pair< DiskSectorBounds *, GlobalVector >	computeBounds (const std::vector< const GeomDet *> &dets) const
BoundDiskSector *	operator() (const std::vector< const GeomDet *> &dets) const

Private Member Functions
Surface::RotationType	computeRotation (const std::vector< const GeomDet *> &dets, Surface::PositionType pos) const
std::vector< GlobalPoint >	computeTrapezoidalCorners (const GeomDet *detu) const

Detailed Description

As it's name indicates, it's a builder of a BoundDiskSector from a collection of Dets. The disk sector has the minimal size fully containing all Dets.

Definition at line 17 of file ForwardDiskSectorBuilderFromDet.h.

Member Function Documentation

computeBounds()

pair< DiskSectorBounds *, GlobalVector > ForwardDiskSectorBuilderFromDet::computeBounds

(

const std::vector< const GeomDet *> &

dets

)

const

Definition at line 33 of file ForwardDiskSectorBuilderFromDet.cc.

References funct::abs(), funct::cos(), F(), mps_fire::i, SiStripPI::max, SiStripPI::min, Geom::phiLess(), phimax, phimin, Geom::pi(), funct::sin(), Vector3DBase< T, FrameTag >::unit(), ApeEstimator_cff::width, HLT_2024v12_cff::xAxis, HLT_2024v12_cff::yAxis, SiStripMonitorCluster_cfi::zmax, and SiStripMonitorCluster_cfi::zmin.

                                              {
  // go over all corners and compute maximum deviations
  float rmin = (**(dets.begin())).surface().position().perp();
  float rmax(rmin);
  float zmin((**(dets.begin())).surface().position().z());
  float zmax(zmin);
  float phimin((**(dets.begin())).surface().position().phi());
  float phimax(phimin);

  for (vector<const GeomDet*>::const_iterator idet = dets.begin(); idet != dets.end(); idet++) {
    vector<const GeomDet*> detUnits = (**idet).components();
    if (!detUnits.empty()) {
      for (vector<const GeomDet*>::const_iterator detu = detUnits.begin(); detu != detUnits.end(); detu++) {
        // edm::LogInfo(TkDetLayers) << " Builder: Position of detUnit :"<< (**detu).position() ;
        vector<GlobalPoint> corners = computeTrapezoidalCorners(*detu);
        for (vector<GlobalPoint>::const_iterator i = corners.begin(); i != corners.end(); i++) {
          float r = i->perp();
          float z = i->z();
          float phi = i->phi();
          rmin = min(rmin, r);
          rmax = max(rmax, r);
          zmin = min(zmin, z);
          zmax = max(zmax, z);
          if (Geom::phiLess(phi, phimin))
            phimin = phi;
          if (Geom::phiLess(phimax, phi))
            phimax = phi;
        }
        // in addition to the corners we have to check the middle of the
        // det +/- length/2, since the min (max) radius for typical fw
        // dets is reached there
        float rdet = (**detu).position().perp();
        float len = (**detu).surface().bounds().length();
        float width = (**detu).surface().bounds().width();

        GlobalVector xAxis = (**detu).toGlobal(LocalVector(1, 0, 0));
        GlobalVector yAxis = (**detu).toGlobal(LocalVector(0, 1, 0));
        GlobalVector perpDir = GlobalVector((**detu).position() - GlobalPoint(0, 0, (**detu).position().z()));

        double xAxisCos = xAxis.unit().dot(perpDir.unit());
        double yAxisCos = yAxis.unit().dot(perpDir.unit());

        if (std::abs(xAxisCos) > std::abs(yAxisCos)) {
          rmin = min(rmin, rdet - width / 2.F);
          rmax = max(rmax, rdet + width / 2.F);
        } else {
          rmin = min(rmin, rdet - len / 2.F);
          rmax = max(rmax, rdet + len / 2.F);
        }
      }
    } else {
      vector<GlobalPoint> corners = computeTrapezoidalCorners(*idet);
      for (vector<GlobalPoint>::const_iterator i = corners.begin(); i != corners.end(); i++) {
        float r = i->perp();
        float z = i->z();
        float phi = i->phi();
        rmin = min(rmin, r);
        rmax = max(rmax, r);
        zmin = min(zmin, z);
        zmax = max(zmax, z);
        if (Geom::phiLess(phi, phimin))
          phimin = phi;
        if (Geom::phiLess(phimax, phi))
          phimax = phi;
      }
      // in addition to the corners we have to check the middle of the
      // det +/- length/2, since the min (max) radius for typical fw
      // dets is reached there

      float rdet = (**idet).position().perp();
      float len = (**idet).surface().bounds().length();
      float width = (**idet).surface().bounds().width();

      GlobalVector xAxis = (**idet).toGlobal(LocalVector(1, 0, 0));
      GlobalVector yAxis = (**idet).toGlobal(LocalVector(0, 1, 0));
      GlobalVector perpDir = GlobalVector((**idet).position() - GlobalPoint(0, 0, (**idet).position().z()));

      double xAxisCos = xAxis.unit().dot(perpDir.unit());
      double yAxisCos = yAxis.unit().dot(perpDir.unit());

      if (std::abs(xAxisCos) > std::abs(yAxisCos)) {
        rmin = min(rmin, rdet - width / 2.F);
        rmax = max(rmax, rdet + width / 2.F);
      } else {
        rmin = min(rmin, rdet - len / 2.F);
        rmax = max(rmax, rdet + len / 2.F);
      }
    }
  }

  if (!Geom::phiLess(phimin, phimax))
    edm::LogError("TkDetLayers") << " ForwardDiskSectorBuilderFromDet : "
                                 << "Something went wrong with Phi Sorting !";
  float zPos = (zmax + zmin) / 2.;
  float phiWin = phimax - phimin;
  float phiPos = (phimax + phimin) / 2.;
  float rmed = (rmin + rmax) / 2.;
  if (phiWin < 0.) {
    if ((phimin < Geom::pi() / 2.) || (phimax > -Geom::pi() / 2.)) {
      edm::LogError("TkDetLayers") << " Debug: something strange going on, please check ";
    }
    // edm::LogInfo(TkDetLayers) << " Wedge at pi: phi " << phimin << " " << phimax << " " << phiWin
    //   << " " << 2.*Geom::pi()+phiWin << " " ;
    phiWin += 2. * Geom::pi();
    phiPos += Geom::pi();
  }
  GlobalVector pos(rmed * cos(phiPos), rmed * sin(phiPos), zPos);
  return make_pair(new DiskSectorBounds(rmin, rmax, zmin - zPos, zmax - zPos, phiWin), pos);
}

computeRotation()

Surface::RotationType ForwardDiskSectorBuilderFromDet::computeRotation ( const std::vector< const GeomDet *> &  dets, Surface::PositionType  pos  ) const

private

Definition at line 144 of file ForwardDiskSectorBuilderFromDet.cc.

References unit(), HLT_2024v12_cff::xAxis, HLT_2024v12_cff::yAxis, and HLT_2024v12_cff::zAxis.

                                                                                                      {
  GlobalVector yAxis = (GlobalVector(pos.x(), pos.y(), 0.)).unit();

  GlobalVector zAxis(0., 0., 1.);
  GlobalVector xAxis = yAxis.cross(zAxis);

  return Surface::RotationType(xAxis, yAxis);
}

computeTrapezoidalCorners()

vector< GlobalPoint > ForwardDiskSectorBuilderFromDet::computeTrapezoidalCorners ( const GeomDet *  detu ) const

private

Definition at line 154 of file ForwardDiskSectorBuilderFromDet.cc.

References mps_fire::i, and GeomDet::specificSurface().

                                                                                                       {
  const Plane& plane(det->specificSurface());

  const TrapezoidalPlaneBounds* myBounds(static_cast<const TrapezoidalPlaneBounds*>(&(plane.bounds())));

  /*
  if (myBounds == 0) {
    string errmsg="ForwardDiskSectorBuilderFromDet: problems with dynamic cast to trapezoidal bounds for DetUnits";
    throw DetLayerException(errmsg);
    edm::LogError("TkDetLayers") << errmsg ;
  }
  */

  // array<const float, 4>
  auto const& parameters = (*myBounds).parameters();

  if (parameters[0] == 0) {
    edm::LogError("TkDetLayers") << "ForwardDiskSectorBuilder: something weird going on !";
    edm::LogError("TkDetLayers") << " Trapezoidal parameters of GeomDet (L2/L1/T/H): ";
    for (int i = 0; i < 4; i++)
      edm::LogError("TkDetLayers") << "  " << 2. * parameters[i] << "\n";
  }

  float hbotedge = parameters[0];
  float htopedge = parameters[1];
  float hapothem = parameters[3];
  float hthick = parameters[2];

  vector<GlobalPoint> corners;

  corners.push_back(plane.toGlobal(LocalPoint(-htopedge, hapothem, hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(-htopedge, hapothem, -hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(htopedge, hapothem, hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(htopedge, hapothem, -hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(hbotedge, -hapothem, hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(hbotedge, -hapothem, -hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(-hbotedge, -hapothem, hthick)));
  corners.push_back(plane.toGlobal(LocalPoint(-hbotedge, -hapothem, -hthick)));

  return corners;
}

operator()()

BoundDiskSector * ForwardDiskSectorBuilderFromDet::operator()

(

const std::vector< const GeomDet *> &

dets

)

const

Warning, remember to assign this pointer to a ReferenceCountingPointer! Should be changed to return a ReferenceCountingPointer<BoundDisk>

Definition at line 11 of file ForwardDiskSectorBuilderFromDet.cc.

References funct::abs(), mps_fire::i, PV3DBase< T, PVType, FrameType >::perp(), GloballyPositioned< T >::position(), and makeMuonMisalignmentScenario::rot.

                                                                                                     {
  // check that the dets are all at about the same radius and z
  float rcheck = dets.front()->surface().position().perp();
  float zcheck = dets.front()->surface().position().z();
  for (vector<const GeomDet*>::const_iterator i = dets.begin(); i != dets.end(); i++) {
    float rdiff = (**i).surface().position().perp() - rcheck;
    if (std::abs(rdiff) > 1.)
      edm::LogError("TkDetLayers") << " ForwardDiskSectorBuilderFromDet: Trying to build Petal Wedge from "
                                   << "Dets at different radii !! Delta_r = " << rdiff;
    float zdiff = zcheck - (**i).surface().position().z();
    if (std::abs(zdiff) > 0.8)
      edm::LogError("TkDetLayers") << " ForwardDiskSectorBuilderFromDet: Trying to build Petal Wedge from "
                                   << "Dets at different z positions !! Delta_z = " << zdiff;
  }

  auto bo = computeBounds(dets);

  Surface::PositionType pos(bo.second.x(), bo.second.y(), bo.second.z());
  Surface::RotationType rot = computeRotation(dets, pos);
  return new BoundDiskSector(pos, rot, bo.first);
}