HGCalTileIndex.cc

CMSSW/Geometry/HGCalCommonData/src/HGCalTileIndex.cc

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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109	`#include "FWCore/MessageLogger/interface/MessageLogger.h"` `#include "Geometry/HGCalCommonData/interface/HGCalProperty.h"` `#include "Geometry/HGCalCommonData/interface/HGCalTileIndex.h"` `//#define EDM_ML_DEBUG` `int32_t HGCalTileIndex::tileIndex(int32_t layer, int32_t ring, int32_t phi) {` `int32_t id(0);` `id \|= (((phi & HGCalProperty::kHGCalPhiMask) << HGCalProperty::kHGCalPhiOffset) \|` `((ring & HGCalProperty::kHGCalRingMask) << HGCalProperty::kHGCalRingOffset) \|` `((layer & HGCalProperty::kHGCalLayerMask) << HGCalProperty::kHGCalLayerOffset));` `return id;` `}` `int32_t HGCalTileIndex::tileLayer(int32_t id) {` `return ((id >> HGCalProperty::kHGCalLayerOffset) & HGCalProperty::kHGCalLayerMask);` `}` `int32_t HGCalTileIndex::tileRing(int32_t id) {` `return ((id >> HGCalProperty::kHGCalRingOffset) & HGCalProperty::kHGCalRingMask);` `}` `int32_t HGCalTileIndex::tilePhi(int32_t id) {` `return ((id >> HGCalProperty::kHGCalPhiOffset) & HGCalProperty::kHGCalPhiMask);` `}` `int32_t HGCalTileIndex::tileCassette(int32_t iphi, int32_t phiOffset, int32_t nphiCassette, int32_t cassettes) {` `int32_t cassette(0);` `if (nphiCassette > 1) {` `cassette = (iphi - phiOffset) / nphiCassette;` `if (cassette < 0)` `cassette += cassettes;` `else if (cassette >= cassettes)` `cassette = cassettes - 1;` `}` `return (cassette + 1);` `}` `int32_t HGCalTileIndex::tileProperty(int32_t type, int32_t sipm) {` `return (((type % HGCalProperty::kHGCalFactor) * HGCalProperty::kHGCalOffsetType) +` `((sipm % HGCalProperty::kHGCalFactor) * HGCalProperty::kHGCalOffsetSiPM));` `}` `int32_t HGCalTileIndex::tileType(int32_t property) {` `return ((property / HGCalProperty::kHGCalOffsetType) % HGCalProperty::kHGCalFactor);` `}` `int32_t HGCalTileIndex::tileSiPM(int32_t property) {` `return ((property / HGCalProperty::kHGCalOffsetSiPM) % HGCalProperty::kHGCalFactor);` `}` `int32_t HGCalTileIndex::tilePack(int32_t ly, int32_t k1, int32_t k2) {` `return (` `((ly % HGCalProperty::kHGCalTilePack) * HGCalProperty::kHGCalTilePack + (k1 % HGCalProperty::kHGCalTilePack)) ` `HGCalProperty::kHGCalTilePack +` `(k2 % HGCalProperty::kHGCalTilePack));` `}` `std::tuple<int32_t, int32_t, int32_t> HGCalTileIndex::tileUnpack(int32_t index) {` `int32_t ly =` `(index / (HGCalProperty::kHGCalTilePack HGCalProperty::kHGCalTilePack)) % HGCalProperty::kHGCalTilePack;` `int32_t k1 = (index / HGCalProperty::kHGCalTilePack) % HGCalProperty::kHGCalTilePack;` `int32_t k2 = (index % HGCalProperty::kHGCalTilePack);` `return std::make_tuple(ly, k1, k2);` `}` `bool HGCalTileIndex::tileExist(const int32_t* hex, int32_t zside, int32_t iphi) {` `int32_t phi(iphi - 1);` `if (zside > 0) {` `phi += HGCalProperty::kHGCalTilePhisBy2;` `if (phi >= HGCalProperty::kHGCalTilePhis)` `phi -= HGCalProperty::kHGCalTilePhis;` `}` `int32_t jj = phi % HGCalProperty::kHGCalTilePhisBy3;` `int32_t iw = jj / HGCalProperty::kHGCalTilePhisWord;` `int32_t ibit = HGCalProperty::kHGCalTilePhisWord - (jj % HGCalProperty::kHGCalTilePhisWord) - 1;` `bool ok = (hex[iw] & (1 << ibit));` `#ifdef EDM_ML_DEBUG` `if (!ok)` `edm::LogWarning("HGCalGeom") << "tileExist::Phi " << iphi << " " << phi << " zside " << zside << " jj\|iw\|ibit "` `<< jj << "\|" << iw << "\|" << ibit << " hex " << std::hex << hex[iw] << std::dec` `<< " OK " << ok;` `#endif` `return ok;` `}` `bool HGCalTileIndex::tileFineExist(const int32_t* hex, int32_t zside, int32_t iphi) {` `int32_t phi(iphi - 1);` `if (zside > 0) {` `phi += HGCalProperty::kHGCalFineTilePhisBy2;` `if (phi >= HGCalProperty::kHGCalFineTilePhis)` `phi -= HGCalProperty::kHGCalFineTilePhis;` `}` `int32_t jj = phi % HGCalProperty::kHGCalFineTilePhisBy3;` `int32_t iw = jj / HGCalProperty::kHGCalTilePhisWord;` `int32_t ibit = HGCalProperty::kHGCalTilePhisWord - (jj % HGCalProperty::kHGCalTilePhisWord) - 1;` `bool ok = (hex[iw] & (1 << ibit));` `#ifdef EDM_ML_DEBUG` `if (!ok)` `edm::LogWarning("HGCalGeom") << "tileFineExist::Phi " << iphi << " " << phi << " zside " << zside << " jj\|iw\|ibit "` `<< jj << ":" << iw << ":" << ibit << " hex " << std::hex << hex[iw] << ":"` `<< (1 << ibit) << std::dec << " OK " << ok;` `else` `edm::LogVerbatim("HGCalGeom") << "tileFineExist::Phi " << iphi << " " << phi << " zside " << zside << " jj\|iw\|ibit "` `<< jj << ":" << iw << ":" << ibit << " hex " << std::hex << hex[iw] << ":"` `<< (1 << ibit) << std::dec << " OK " << ok;` `#endif` `return ok;` `}`

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#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "Geometry/HGCalCommonData/interface/HGCalProperty.h"
#include "Geometry/HGCalCommonData/interface/HGCalTileIndex.h"

//#define EDM_ML_DEBUG

int32_t HGCalTileIndex::tileIndex(int32_t layer, int32_t ring, int32_t phi) {
  int32_t id(0);
  id |= (((phi & HGCalProperty::kHGCalPhiMask) << HGCalProperty::kHGCalPhiOffset) |
         ((ring & HGCalProperty::kHGCalRingMask) << HGCalProperty::kHGCalRingOffset) |
         ((layer & HGCalProperty::kHGCalLayerMask) << HGCalProperty::kHGCalLayerOffset));
  return id;
}

int32_t HGCalTileIndex::tileLayer(int32_t id) {
  return ((id >> HGCalProperty::kHGCalLayerOffset) & HGCalProperty::kHGCalLayerMask);
}

int32_t HGCalTileIndex::tileRing(int32_t id) {
  return ((id >> HGCalProperty::kHGCalRingOffset) & HGCalProperty::kHGCalRingMask);
}

int32_t HGCalTileIndex::tilePhi(int32_t id) {
  return ((id >> HGCalProperty::kHGCalPhiOffset) & HGCalProperty::kHGCalPhiMask);
}

int32_t HGCalTileIndex::tileCassette(int32_t iphi, int32_t phiOffset, int32_t nphiCassette, int32_t cassettes) {
  int32_t cassette(0);
  if (nphiCassette > 1) {
    cassette = (iphi - phiOffset) / nphiCassette;
    if (cassette < 0)
      cassette += cassettes;
    else if (cassette >= cassettes)
      cassette = cassettes - 1;
  }
  return (cassette + 1);
}

int32_t HGCalTileIndex::tileProperty(int32_t type, int32_t sipm) {
  return (((type % HGCalProperty::kHGCalFactor) * HGCalProperty::kHGCalOffsetType) +
          ((sipm % HGCalProperty::kHGCalFactor) * HGCalProperty::kHGCalOffsetSiPM));
}

int32_t HGCalTileIndex::tileType(int32_t property) {
  return ((property / HGCalProperty::kHGCalOffsetType) % HGCalProperty::kHGCalFactor);
}

int32_t HGCalTileIndex::tileSiPM(int32_t property) {
  return ((property / HGCalProperty::kHGCalOffsetSiPM) % HGCalProperty::kHGCalFactor);
}

int32_t HGCalTileIndex::tilePack(int32_t ly, int32_t k1, int32_t k2) {
  return (
      ((ly % HGCalProperty::kHGCalTilePack) * HGCalProperty::kHGCalTilePack + (k1 % HGCalProperty::kHGCalTilePack)) *
          HGCalProperty::kHGCalTilePack +
      (k2 % HGCalProperty::kHGCalTilePack));
}

std::tuple<int32_t, int32_t, int32_t> HGCalTileIndex::tileUnpack(int32_t index) {
  int32_t ly =
      (index / (HGCalProperty::kHGCalTilePack * HGCalProperty::kHGCalTilePack)) % HGCalProperty::kHGCalTilePack;
  int32_t k1 = (index / HGCalProperty::kHGCalTilePack) % HGCalProperty::kHGCalTilePack;
  int32_t k2 = (index % HGCalProperty::kHGCalTilePack);
  return std::make_tuple(ly, k1, k2);
}

bool HGCalTileIndex::tileExist(const int32_t* hex, int32_t zside, int32_t iphi) {
  int32_t phi(iphi - 1);
  if (zside > 0) {
    phi += HGCalProperty::kHGCalTilePhisBy2;
    if (phi >= HGCalProperty::kHGCalTilePhis)
      phi -= HGCalProperty::kHGCalTilePhis;
  }
  int32_t jj = phi % HGCalProperty::kHGCalTilePhisBy3;
  int32_t iw = jj / HGCalProperty::kHGCalTilePhisWord;
  int32_t ibit = HGCalProperty::kHGCalTilePhisWord - (jj % HGCalProperty::kHGCalTilePhisWord) - 1;
  bool ok = (hex[iw] & (1 << ibit));
#ifdef EDM_ML_DEBUG
  if (!ok)
    edm::LogWarning("HGCalGeom") << "tileExist::Phi " << iphi << " " << phi << " zside " << zside << " jj|iw|ibit "
                                 << jj << "|" << iw << "|" << ibit << " hex " << std::hex << hex[iw] << std::dec
                                 << " OK " << ok;
#endif
  return ok;
}

bool HGCalTileIndex::tileFineExist(const int32_t* hex, int32_t zside, int32_t iphi) {
  int32_t phi(iphi - 1);
  if (zside > 0) {
    phi += HGCalProperty::kHGCalFineTilePhisBy2;
    if (phi >= HGCalProperty::kHGCalFineTilePhis)
      phi -= HGCalProperty::kHGCalFineTilePhis;
  }
  int32_t jj = phi % HGCalProperty::kHGCalFineTilePhisBy3;
  int32_t iw = jj / HGCalProperty::kHGCalTilePhisWord;
  int32_t ibit = HGCalProperty::kHGCalTilePhisWord - (jj % HGCalProperty::kHGCalTilePhisWord) - 1;
  bool ok = (hex[iw] & (1 << ibit));
#ifdef EDM_ML_DEBUG
  if (!ok)
    edm::LogWarning("HGCalGeom") << "tileFineExist::Phi " << iphi << " " << phi << " zside " << zside << " jj|iw|ibit "
                                 << jj << ":" << iw << ":" << ibit << " hex " << std::hex << hex[iw] << ":"
                                 << (1 << ibit) << std::dec << " OK " << ok;
  else
    edm::LogVerbatim("HGCalGeom") << "tileFineExist::Phi " << iphi << " " << phi << " zside " << zside << " jj|iw|ibit "
                                  << jj << ":" << iw << ":" << ibit << " hex " << std::hex << hex[iw] << ":"
                                  << (1 << ibit) << std::dec << " OK " << ok;
#endif
  return ok;
}