EcalLaserAnalyzer2.h

CMSSW/CalibCalorimetry/EcalLaserAnalyzer/plugins/EcalLaserAnalyzer2.h

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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 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262	`#ifndef CalibCalorimetry_EcalLaserAnalyzer_EcalLaserAnalyzer2_h` `#define CalibCalorimetry_EcalLaserAnalyzer_EcalLaserAnalyzer2_h` `// $Id: EcalLaserAnalyzer2.h` `#include <memory>` `#include <vector>` `#include <map>` `#include "FWCore/Framework/interface/one/EDAnalyzer.h"` `#include "DataFormats/EcalDigi/interface/EcalDigiCollections.h"` `#include "DataFormats/EcalRawData/interface/EcalRawDataCollections.h"` `#include "Geometry/EcalMapping/interface/EcalElectronicsMapping.h"` `#include "Geometry/EcalMapping/interface/EcalMappingRcd.h"` `class TFile;` `class TTree;` `class TProfile;` `class TPNCor;` `class TPN;` `class TAPD;` `class TMom;` `class TAPDPulse;` `class TPNPulse;` `class TMem;` `// Define geometrical constants` `// NOT the same for "EB" and "EE"` `//` `// "EB" "EE"` `//` `// 0 0` `// 1 2 1 2` `// 3 4` `// 5 6` `// 7 8` `//` `//` `// "EB" geometry` `#define NCRYSEB 1700 // Number of crystals per EB supermodule` `#define NMODEB 9 // Number of EB submodules` `#define NPNPERMOD 2 // Number of PN per module` `// "EE" geometry` `#define NCRYSEE 830 // Number of crystals per EE supermodule` `#define NMODEE 21 // Number of EE submodules` `#define NSIDES 2 // Number of sides` `#define NREFCHAN 2 // Ref number for APDB` `#define NSAMPSHAPES 250` `class EcalLaserAnalyzer2 : public edm::one::EDAnalyzer<> {` `public:` `explicit EcalLaserAnalyzer2(const edm::ParameterSet &iConfig);` `~EcalLaserAnalyzer2() override;` `void analyze(const edm::Event &e, const edm::EventSetup &c) override;` `void beginJob() override;` `void endJob() override;` `void setGeomEB(int etaG, int phiG, int module, int tower, int strip, int xtal, int apdRefTT, int channel, int lmr);` `void setGeomEE(` `int etaG, int phiG, int iX, int iY, int iZ, int module, int tower, int ch, int apdRefTT, int channel, int lmr);` `enum VarCol { iBlue, iRed, nColor };` `private:` `int iEvent;` `const std::string eventHeaderCollection_;` `const std::string eventHeaderProducer_;` `const std::string digiCollection_;` `const std::string digiProducer_;` `const std::string digiPNCollection_;` `const edm::EDGetTokenT<EcalRawDataCollection> rawDataToken_;` `edm::EDGetTokenT<EBDigiCollection> ebDigiToken_;` `edm::EDGetTokenT<EEDigiCollection> eeDigiToken_;` `const edm::EDGetTokenT<EcalPnDiodeDigiCollection> pnDiodeDigiToken_;` `const edm::ESGetToken<EcalElectronicsMapping, EcalMappingRcd> mappingToken_;` `// Framework parameters` `const unsigned int _nsamples;` `unsigned int _presample;` `const unsigned int _firstsample;` `const unsigned int _lastsample;` `const unsigned int _nsamplesPN;` `const unsigned int _presamplePN;` `const unsigned int _firstsamplePN;` `const unsigned int _lastsamplePN;` `const unsigned int _timingcutlow;` `const unsigned int _timingcuthigh;` `const unsigned int _timingquallow;` `const unsigned int _timingqualhigh;` `const double _ratiomincutlow;` `const double _ratiomincuthigh;` `const double _ratiomaxcutlow;` `const double _presamplecut;` `const unsigned int _niter;` `const double _noise;` `const std::string _ecalPart;` `const bool _saveshapes;` `const bool _docorpn;` `const int _fedid;` `const bool _saveallevents;` `const double _qualpercent;` `const int _debug;` `TAPDPulse APDPulse;` `TPNPulse PNPulse;` `TMem Mem;` `TMom Delta01;` `TMom Delta12;` `const std::string resdir_;` `const std::string elecfile_;` `const std::string pncorfile_;` `// Output file names` `std::string shapefile;` `std::string matfile;` `std::string ADCfile;` `std::string APDfile;` `std::string resfile;` `// Define geometrical constants` `// Default values correspond to "EB" geometry (1700 crystals)` `unsigned int nCrys;` `unsigned int nPNPerMod;` `unsigned int nRefChan;` `unsigned int nRefTrees;` `unsigned int nMod;` `unsigned int nSides;` `unsigned int nSamplesShapes;` `bool IsMatacqOK;` `// Identify run type` `int runType;` `int runNum;` `// Identify channel` `int towerID;` `int channelID;` `int fedID;` `int dccID;` `int side;` `int lightside;` `int iZ;` `// Count Laser Events` `int laserEvents;` `std::vector<int> colors;` `std::map<int, int> channelMapEE;` `std::vector<int> dccMEM;` `std::vector<int> modules;` `std::map<int, unsigned int> apdRefMap[2];` `// PN linearity corrections` `TPNCor pnCorrector;` `// get the shapes for amplitude determination` `bool getShapes();` `// Temporary root files and trees` `TFile ADCFile;` `TTree ADCtrees[NCRYSEB];` `TFile APDFile;` `TTree APDtrees[NCRYSEB];` `TTree RefAPDtrees[NREFCHAN][NMODEE];` `TFile resFile;` `TTree restrees[nColor];` `TTree respntrees[nColor];` `TFile ShapeFile;` `TProfile PulseShape;` `// Declaration of leaves types for temporary trees` `int phi, eta;` `int event;` `int color;` `double adc[10];` `int adcG[10];` `double pn0, pn1;` `double pn[50];` `int pnG[50];` `double apdAmpl;` `double apdAmplA;` `double apdAmplB;` `double apdTime;` `double pnAmpl;` `int eventref;` `int colorref;` `double adcNoPed;` `double pnNoPed;` `// declare TPN stuff` `TPN PNFirstAnal[NMODEB][NPNPERMOD][nColor];` `TPN PNAnal[NMODEB][NPNPERMOD][nColor];` `// declare TAPD stuff` `TAPD APDFirstAnal[NCRYSEB][nColor];` `TAPD APDAnal[NCRYSEB][nColor];` `int IsThereDataADC[NCRYSEB][nColor];` `// Declaration of shapes` `std::vector<double> shapesVec;` `double shapes[NSAMPSHAPES];` `double shapeCorrection;` `bool isMatacqOK;` `bool isSPRFine;` `// Declaration of leaves types for results tree` `int pnID, moduleID, flag;` `int channelIteratorEE;` `double APD[6], Time[6], PN[6], APDoPN[6], APDoPNA[6], APDoPNB[6], APDoAPDA[6], APDoAPDB[6], PNoPN[6], PNoPNA[6],` `PNoPNB[6], ShapeCor;` `// [0]=mean, [1]=rms, [2]=L3, [3]=nevt, [4]=min, [5]=max` `double adcMean[NCRYSEB][10];` `int adcC[NCRYSEB];` `int iEta[NCRYSEB], iPhi[NCRYSEB];` `unsigned int iModule[NCRYSEB];` `int iTowerID[NCRYSEB], iChannelID[NCRYSEB], idccID[NCRYSEB], iside[NCRYSEB];` `unsigned int firstChanMod[NMODEE];` `unsigned int isFirstChanModFilled[NMODEE];` `// Quality Checks variables and flags` `int nEvtBadGain[NCRYSEB];` `int nEvtBadTiming[NCRYSEB];` `int nEvtTot[NCRYSEB];` `bool wasGainOK[NCRYSEB];` `bool wasTimingOK[NCRYSEB];` `bool isGainOK;` `bool isTimingOK;` `};` `#endif`

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#ifndef CalibCalorimetry_EcalLaserAnalyzer_EcalLaserAnalyzer2_h
#define CalibCalorimetry_EcalLaserAnalyzer_EcalLaserAnalyzer2_h
// $Id: EcalLaserAnalyzer2.h

#include <memory>

#include <vector>
#include <map>

#include "FWCore/Framework/interface/one/EDAnalyzer.h"

#include "DataFormats/EcalDigi/interface/EcalDigiCollections.h"
#include "DataFormats/EcalRawData/interface/EcalRawDataCollections.h"
#include "Geometry/EcalMapping/interface/EcalElectronicsMapping.h"
#include "Geometry/EcalMapping/interface/EcalMappingRcd.h"

class TFile;
class TTree;
class TProfile;
class TPNCor;
class TPN;
class TAPD;
class TMom;
class TAPDPulse;
class TPNPulse;
class TMem;

// Define geometrical constants
// NOT the same for "EB" and "EE"
//
//     "EB"       "EE"
//
//      0          0
//   1     2    1     2
//   3     4
//   5     6
//   7     8
//
//

// "EB" geometry
#define NCRYSEB 1700  // Number of crystals per EB supermodule
#define NMODEB 9      // Number of EB submodules
#define NPNPERMOD 2   // Number of PN per module

// "EE" geometry
#define NCRYSEE 830  // Number of crystals per EE supermodule
#define NMODEE 21    // Number of EE submodules

#define NSIDES 2    // Number of sides
#define NREFCHAN 2  // Ref number for APDB
#define NSAMPSHAPES 250

class EcalLaserAnalyzer2 : public edm::one::EDAnalyzer<> {
public:
  explicit EcalLaserAnalyzer2(const edm::ParameterSet &iConfig);
  ~EcalLaserAnalyzer2() override;

  void analyze(const edm::Event &e, const edm::EventSetup &c) override;
  void beginJob() override;
  void endJob() override;

  void setGeomEB(int etaG, int phiG, int module, int tower, int strip, int xtal, int apdRefTT, int channel, int lmr);
  void setGeomEE(
      int etaG, int phiG, int iX, int iY, int iZ, int module, int tower, int ch, int apdRefTT, int channel, int lmr);

  enum VarCol { iBlue, iRed, nColor };

private:
  int iEvent;

  const std::string eventHeaderCollection_;
  const std::string eventHeaderProducer_;
  const std::string digiCollection_;
  const std::string digiProducer_;
  const std::string digiPNCollection_;

  const edm::EDGetTokenT<EcalRawDataCollection> rawDataToken_;
  edm::EDGetTokenT<EBDigiCollection> ebDigiToken_;
  edm::EDGetTokenT<EEDigiCollection> eeDigiToken_;
  const edm::EDGetTokenT<EcalPnDiodeDigiCollection> pnDiodeDigiToken_;
  const edm::ESGetToken<EcalElectronicsMapping, EcalMappingRcd> mappingToken_;

  // Framework parameters

  const unsigned int _nsamples;
  unsigned int _presample;
  const unsigned int _firstsample;
  const unsigned int _lastsample;
  const unsigned int _nsamplesPN;
  const unsigned int _presamplePN;
  const unsigned int _firstsamplePN;
  const unsigned int _lastsamplePN;
  const unsigned int _timingcutlow;
  const unsigned int _timingcuthigh;
  const unsigned int _timingquallow;
  const unsigned int _timingqualhigh;
  const double _ratiomincutlow;
  const double _ratiomincuthigh;
  const double _ratiomaxcutlow;
  const double _presamplecut;
  const unsigned int _niter;
  const double _noise;
  const std::string _ecalPart;
  const bool _saveshapes;
  const bool _docorpn;
  const int _fedid;
  const bool _saveallevents;
  const double _qualpercent;
  const int _debug;

  TAPDPulse *APDPulse;
  TPNPulse *PNPulse;
  TMem *Mem;
  TMom *Delta01;
  TMom *Delta12;

  const std::string resdir_;
  const std::string elecfile_;
  const std::string pncorfile_;

  // Output file names

  std::string shapefile;
  std::string matfile;
  std::string ADCfile;
  std::string APDfile;
  std::string resfile;

  //  Define geometrical constants
  //  Default values correspond to "EB" geometry (1700 crystals)

  unsigned int nCrys;
  unsigned int nPNPerMod;
  unsigned int nRefChan;
  unsigned int nRefTrees;
  unsigned int nMod;
  unsigned int nSides;

  unsigned int nSamplesShapes;

  bool IsMatacqOK;

  // Identify run type

  int runType;
  int runNum;

  // Identify channel

  int towerID;
  int channelID;
  int fedID;
  int dccID;
  int side;
  int lightside;
  int iZ;

  // Count Laser Events
  int laserEvents;

  std::vector<int> colors;
  std::map<int, int> channelMapEE;
  std::vector<int> dccMEM;
  std::vector<int> modules;
  std::map<int, unsigned int> apdRefMap[2];

  // PN linearity corrections

  TPNCor *pnCorrector;

  // get the shapes for amplitude determination

  bool getShapes();

  // Temporary root files and trees

  TFile *ADCFile;
  TTree *ADCtrees[NCRYSEB];

  TFile *APDFile;
  TTree *APDtrees[NCRYSEB];
  TTree *RefAPDtrees[NREFCHAN][NMODEE];

  TFile *resFile;
  TTree *restrees[nColor];
  TTree *respntrees[nColor];

  TFile *ShapeFile;
  TProfile *PulseShape;

  // Declaration of leaves types for temporary trees

  int phi, eta;
  int event;
  int color;
  double adc[10];
  int adcG[10];
  double pn0, pn1;
  double pn[50];
  int pnG[50];
  double apdAmpl;
  double apdAmplA;
  double apdAmplB;
  double apdTime;
  double pnAmpl;

  int eventref;
  int colorref;

  double *adcNoPed;
  double *pnNoPed;

  // declare TPN stuff
  TPN *PNFirstAnal[NMODEB][NPNPERMOD][nColor];
  TPN *PNAnal[NMODEB][NPNPERMOD][nColor];

  // declare TAPD stuff
  TAPD *APDFirstAnal[NCRYSEB][nColor];
  TAPD *APDAnal[NCRYSEB][nColor];

  int IsThereDataADC[NCRYSEB][nColor];

  // Declaration of shapes

  std::vector<double> shapesVec;
  double shapes[NSAMPSHAPES];
  double shapeCorrection;
  bool isMatacqOK;
  bool isSPRFine;

  // Declaration of leaves types for results tree

  int pnID, moduleID, flag;
  int channelIteratorEE;

  double APD[6], Time[6], PN[6], APDoPN[6], APDoPNA[6], APDoPNB[6], APDoAPDA[6], APDoAPDB[6], PNoPN[6], PNoPNA[6],
      PNoPNB[6], ShapeCor;
  // [0]=mean, [1]=rms, [2]=L3, [3]=nevt, [4]=min, [5]=max

  double adcMean[NCRYSEB][10];
  int adcC[NCRYSEB];

  int iEta[NCRYSEB], iPhi[NCRYSEB];
  unsigned int iModule[NCRYSEB];
  int iTowerID[NCRYSEB], iChannelID[NCRYSEB], idccID[NCRYSEB], iside[NCRYSEB];
  unsigned int firstChanMod[NMODEE];
  unsigned int isFirstChanModFilled[NMODEE];

  // Quality Checks variables and flags

  int nEvtBadGain[NCRYSEB];
  int nEvtBadTiming[NCRYSEB];
  int nEvtTot[NCRYSEB];

  bool wasGainOK[NCRYSEB];
  bool wasTimingOK[NCRYSEB];

  bool isGainOK;
  bool isTimingOK;
};
#endif

EcalLaserAnalyzer2

VarCol

Macros