CSCFitAFEBThr.cc

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#include "Minuit2/VariableMetricMinimizer.h"
#include "Minuit2/FunctionMinimum.h"
 
#include <OnlineDB/CSCCondDB/interface/CSCFitAFEBThr.h>
#include <OnlineDB/CSCCondDB/interface/CSCThrTurnOnFcn.h>
 
#include <cmath>
#include <vector>
#include <iostream>
 
using namespace ROOT::Minuit2;
using namespace std;
 
CSCFitAFEBThr::CSCFitAFEBThr() {
  theOBJfun = new CSCThrTurnOnFcn();
  theFitter = new VariableMetricMinimizer();
}
 
CSCFitAFEBThr::~CSCFitAFEBThr() {
  delete theFitter;
  delete theOBJfun;
}
 
bool CSCFitAFEBThr::ThresholdNoise(const std::vector<float>& inputx,
                                   const std::vector<float>& inputy,
                                   const int& npulses,
                                   std::vector<int>& dacoccup,
                                   std::vector<float>& mypar,
                                   std::vector<float>& ermypar,
                                   float& ercorr,
                                   float& chisq,
                                   int& ndf,
                                   int& niter,
                                   float& edm) const {
  bool status = false;
 
  std::vector<double> parinit(2, 0);
  std::vector<double> erparinit(2, 0);
 
  parinit[0] = 30.0;
  parinit[1] = 2.0;
 
  erparinit[0] = 20;
  erparinit[1] = 0.5;
 
  std::vector<float> x;
  std::vector<float> y;
  std::vector<float> ynorm;
  std::vector<float> ery;
  x.clear();
  y.clear();
  ynorm.clear();
  ery.clear();
 
 
  int sum = 0;
  float r;
  for (size_t i = 0; i < inputx.size(); i++) {
    if (inputy[i] > 0.0)
      sum++;
    r = inputy[i] / (float)dacoccup[i];
    ynorm.push_back(r);
    //     std::cout<<" "<<ynorm[i];
  }
  //  std::cout<<std::endl;
  if (sum == 0) {
    ndf = -4;
    return status;
  }
 
  int nbeg = inputx.size();
  // for(size_t i=inputx.size()-1;i>=0;i--) // Wrong.
  // Because i is unsigned, i>=0 is always true,
  // and the loop termination condition  is never reached.
  // We offset by 1.
  for (size_t i = inputx.size(); i > 0; i--) {
    if (ynorm[i - 1] < 1.0)
      nbeg--;
    if (ynorm[i - 1] == 1.0)
      break;
  }
 
  for (size_t i = nbeg; i < inputx.size(); i++) {
    if (ynorm[i] > 0.0) {
      x.push_back(inputx[i]);
      y.push_back(ynorm[i]);
 
      float p = inputy[i] / (float)dacoccup[i];
      float s = (float)dacoccup[i] * p * (1.0 - p);
      s = sqrt(s) / (float)dacoccup[i];
      ery.push_back(s);
    }
  }
 
  ndf = x.size() - 2;
  if (ndf <= 0)
    return status;
 
  float half = 0.5;
  float dmin = 999999.0;
  float diff;
  for (size_t i = 0; i < x.size(); i++) {
    diff = y[i] - half;
    if (diff < 0.0)
      diff = -diff;
    if (diff < dmin) {
      dmin = diff;
      parinit[0] = x[i];
    }  // par[0] from data
    //std::cout<<i+1<<" "<<x[i]<<" "<<y[i]<<" "<<ery[i]<<std::endl;
  }
 
  theOBJfun->setData(x, y);
  theOBJfun->setErrors(ery);
  theOBJfun->setNorm(1.0);
 
  // for(size_t int i=0;i<x.size();i++) std::cout<<" "<<x[i]<<" "<<y[i]
  //                                               <<" "<<ery[i]<<std::endl;
 
  FunctionMinimum fmin = theFitter->Minimize(*theOBJfun, parinit, erparinit, 1, 500, 0.1);
 
  status = fmin.IsValid();
 
  if (status) {
    mypar[0] = (float)fmin.Parameters().Vec()(0);
    mypar[1] = (float)fmin.Parameters().Vec()(1);
    ermypar[0] = (float)sqrt(fmin.Error().Matrix()(0, 0));
    ermypar[1] = (float)sqrt(fmin.Error().Matrix()(1, 1));
    ercorr = 0;
    if (ermypar[0] != 0.0 && ermypar[1] != 0.0)
      ercorr = (float)fmin.Error().Matrix()(0, 1) / (ermypar[0] * ermypar[1]);
 
    chisq = fmin.Fval();
    ndf = y.size() - mypar.size();
    niter = fmin.NFcn();
    edm = fmin.Edm();
  } else
    ndf = -3;
  return status;
}