make_HFPhase1PMTParams_test.cc

CMSSW/CondTools/Hcal/test/make_HFPhase1PMTParams_test.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	`#include <cfloat>` `#include "CondTools/Hcal/interface/make_HFPhase1PMTParams.h"` `#include "CondFormats/HcalObjects/interface/HcalDetIdTransform.h"` `#include "CondFormats/HcalObjects/interface/HcalConstFunctor.h"` `#include "CondFormats/HcalObjects/interface/HcalPiecewiseLinearFunctor.h"` `#include "CondFormats/HcalObjects/interface/HcalLinearCompositionFunctor.h"` `#if BOOST_VERSION < 105600 \|\| BOOST_VERSION > 105800` `#ifdef BAD_BOOST_VERSION` `#undef BAD_BOOST_VERSION` `#endif` `#else` `#define BAD_BOOST_VERSION` `#endif` `std::unique_ptr<HFPhase1PMTParams> make_HFPhase1PMTParams_test() {` `typedef std::pair<double, double> P;` `// Create HFPhase1PMTData configuration for testing` `// cut visualization code. Note that the cut values` `// used are absolutely not realistic.` `HFPhase1PMTData::Cuts cuts;` `const double minCharge0 = 10.0;` `const double minCharge1 = 20.0;` `const double minChargeAsymm = 30.0;` `std::vector<P> pts;` `pts.push_back(P(minCharge0, 10.0));` `pts.push_back(P(10.0 * minCharge0, 12.0));` `pts.push_back(P(20.0 * minCharge0, 13.0));` `cuts[HFPhase1PMTData::T_0_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `pts.clear();` `pts.push_back(P(minCharge0, 20.0));` `pts.push_back(P(10.0 * minCharge0, 18.0));` `pts.push_back(P(20.0 * minCharge0, 17.0));` `cuts[HFPhase1PMTData::T_0_MAX] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `#ifdef BAD_BOOST_VERSION` `pts.clear();` `pts.push_back(P(minCharge0, 10.0 - 2.0));` `pts.push_back(P(10.0 * minCharge0, 12.0 - 2.0));` `pts.push_back(P(20.0 * minCharge0, 13.0 - 2.0));` `cuts[HFPhase1PMTData::T_1_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `#else` `cuts[HFPhase1PMTData::T_1_MIN] =` `std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::T_0_MIN], 1.0, -2.0));` `#endif` `#ifdef BAD_BOOST_VERSION` `pts.clear();` `pts.push_back(P(minCharge0, 20.0 + 2.0));` `pts.push_back(P(10.0 * minCharge0, 18.0 + 2.0));` `pts.push_back(P(20.0 * minCharge0, 17.0 + 2.0));` `cuts[HFPhase1PMTData::T_1_MAX] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `#else` `cuts[HFPhase1PMTData::T_1_MAX] =` `std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::T_0_MAX], 1.0, 2.0));` `#endif` `pts.clear();` `pts.push_back(P(5.0 * minChargeAsymm, 2.0));` `pts.push_back(P(10.0 * minChargeAsymm, 1.0));` `cuts[HFPhase1PMTData::ASYMM_MAX] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `#ifdef BAD_BOOST_VERSION` `pts.clear();` `pts.push_back(P(5.0 * minChargeAsymm, -2.0));` `pts.push_back(P(10.0 * minChargeAsymm, -1.0));` `cuts[HFPhase1PMTData::ASYMM_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `#else` `cuts[HFPhase1PMTData::ASYMM_MIN] =` `std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::ASYMM_MAX], -1.0, 0.0));` `#endif` `std::unique_ptr<HFPhase1PMTData> defaultItem(new HFPhase1PMTData(cuts, minCharge0, minCharge1, minChargeAsymm));` `// Other parts needed to create HFPhase1PMTParams` `const unsigned detIdTransformCode = HcalDetIdTransform::RAWID;` `HcalIndexLookup lookup;` `HcalItemColl<HFPhase1PMTData> coll;` `HcalDetId id(HcalForward, 29, 5, 1);` `lookup.add(HcalDetIdTransform::transform(id, detIdTransformCode), 0);` `#ifdef BAD_BOOST_VERSION` `pts.clear();` `pts.push_back(P(5.0 * minChargeAsymm, -2.0 + 1.0));` `pts.push_back(P(10.0 * minChargeAsymm, -1.0 + 1.0));` `cuts[HFPhase1PMTData::ASYMM_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));` `#else` `cuts[HFPhase1PMTData::ASYMM_MIN] =` `std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::ASYMM_MAX], -1.0, 1.0));` `#endif` `std::unique_ptr<HFPhase1PMTData> firstItem(new HFPhase1PMTData(cuts, minCharge0, minCharge1, minChargeAsymm));` `coll.push_back(std::move(firstItem));` `return std::unique_ptr<HFPhase1PMTParams>(` `new HFPhase1PMTParams(coll, lookup, detIdTransformCode, std::move(defaultItem)));` `}`

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#include <cfloat>

#include "CondTools/Hcal/interface/make_HFPhase1PMTParams.h"

#include "CondFormats/HcalObjects/interface/HcalDetIdTransform.h"
#include "CondFormats/HcalObjects/interface/HcalConstFunctor.h"
#include "CondFormats/HcalObjects/interface/HcalPiecewiseLinearFunctor.h"
#include "CondFormats/HcalObjects/interface/HcalLinearCompositionFunctor.h"

#if BOOST_VERSION < 105600 || BOOST_VERSION > 105800
#ifdef BAD_BOOST_VERSION
#undef BAD_BOOST_VERSION
#endif
#else
#define BAD_BOOST_VERSION
#endif

std::unique_ptr<HFPhase1PMTParams> make_HFPhase1PMTParams_test() {
  typedef std::pair<double, double> P;

  // Create HFPhase1PMTData configuration for testing
  // cut visualization code. Note that the cut values
  // used are absolutely not realistic.
  HFPhase1PMTData::Cuts cuts;

  const double minCharge0 = 10.0;
  const double minCharge1 = 20.0;
  const double minChargeAsymm = 30.0;

  std::vector<P> pts;
  pts.push_back(P(minCharge0, 10.0));
  pts.push_back(P(10.0 * minCharge0, 12.0));
  pts.push_back(P(20.0 * minCharge0, 13.0));
  cuts[HFPhase1PMTData::T_0_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));

  pts.clear();
  pts.push_back(P(minCharge0, 20.0));
  pts.push_back(P(10.0 * minCharge0, 18.0));
  pts.push_back(P(20.0 * minCharge0, 17.0));
  cuts[HFPhase1PMTData::T_0_MAX] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));

#ifdef BAD_BOOST_VERSION
  pts.clear();
  pts.push_back(P(minCharge0, 10.0 - 2.0));
  pts.push_back(P(10.0 * minCharge0, 12.0 - 2.0));
  pts.push_back(P(20.0 * minCharge0, 13.0 - 2.0));
  cuts[HFPhase1PMTData::T_1_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));
#else
  cuts[HFPhase1PMTData::T_1_MIN] =
      std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::T_0_MIN], 1.0, -2.0));
#endif

#ifdef BAD_BOOST_VERSION
  pts.clear();
  pts.push_back(P(minCharge0, 20.0 + 2.0));
  pts.push_back(P(10.0 * minCharge0, 18.0 + 2.0));
  pts.push_back(P(20.0 * minCharge0, 17.0 + 2.0));
  cuts[HFPhase1PMTData::T_1_MAX] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));
#else
  cuts[HFPhase1PMTData::T_1_MAX] =
      std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::T_0_MAX], 1.0, 2.0));
#endif

  pts.clear();
  pts.push_back(P(5.0 * minChargeAsymm, 2.0));
  pts.push_back(P(10.0 * minChargeAsymm, 1.0));
  cuts[HFPhase1PMTData::ASYMM_MAX] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));

#ifdef BAD_BOOST_VERSION
  pts.clear();
  pts.push_back(P(5.0 * minChargeAsymm, -2.0));
  pts.push_back(P(10.0 * minChargeAsymm, -1.0));
  cuts[HFPhase1PMTData::ASYMM_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));
#else
  cuts[HFPhase1PMTData::ASYMM_MIN] =
      std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::ASYMM_MAX], -1.0, 0.0));
#endif

  std::unique_ptr<HFPhase1PMTData> defaultItem(new HFPhase1PMTData(cuts, minCharge0, minCharge1, minChargeAsymm));

  // Other parts needed to create HFPhase1PMTParams
  const unsigned detIdTransformCode = HcalDetIdTransform::RAWID;
  HcalIndexLookup lookup;
  HcalItemColl<HFPhase1PMTData> coll;

  HcalDetId id(HcalForward, 29, 5, 1);
  lookup.add(HcalDetIdTransform::transform(id, detIdTransformCode), 0);

#ifdef BAD_BOOST_VERSION
  pts.clear();
  pts.push_back(P(5.0 * minChargeAsymm, -2.0 + 1.0));
  pts.push_back(P(10.0 * minChargeAsymm, -1.0 + 1.0));
  cuts[HFPhase1PMTData::ASYMM_MIN] = std::shared_ptr<AbsHcalFunctor>(new HcalPiecewiseLinearFunctor(pts, false, false));
#else
  cuts[HFPhase1PMTData::ASYMM_MIN] =
      std::shared_ptr<AbsHcalFunctor>(new HcalLinearCompositionFunctor(cuts[HFPhase1PMTData::ASYMM_MAX], -1.0, 1.0));
#endif

  std::unique_ptr<HFPhase1PMTData> firstItem(new HFPhase1PMTData(cuts, minCharge0, minCharge1, minChargeAsymm));
  coll.push_back(std::move(firstItem));

  return std::unique_ptr<HFPhase1PMTParams>(
      new HFPhase1PMTParams(coll, lookup, detIdTransformCode, std::move(defaultItem)));
}