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TFumili.cxx File Reference
#include "TFumili.h"
#include <iostream>
#include "TGraphAsymmErrors.h"
#include "TF1.h"
#include "TF2.h"
#include "TF3.h"
#include "TH1.h"
#include "TMath.h"
#include "TROOT.h"
#include "TList.h"
#include "TVirtualFitter.h"
Include dependency graph for TFumili.cxx:

Namespaces

namespace  ROOT
 tbb::task_arena is an alias of tbb::interface7::task_arena, which doesn't allow to forward declare tbb::task_arena without forward declaring tbb::interface7
 

Functions

void GraphFitChisquareFumili (Int_t &npar, Double_t *gin, Double_t &f, Double_t *u, Int_t flag)
 Minimization function for Graphs using a Chisquare method.
 
void H1FitChisquareFumili (Int_t &npar, Double_t *gin, Double_t &f, Double_t *u, Int_t flag)
 Minimization function for H1s using a Chisquare method.
 
void H1FitLikelihoodFumili (Int_t &npar, Double_t *gin, Double_t &f, Double_t *u, Int_t flag)
 Minimization function for H1s using a Likelihood method.
 

Variables

TFumiligFumili =nullptr
 
static const Double_t gMAXDOUBLE =1e300
 
static const Double_t gMINDOUBLE =-1e300
 

Function Documentation

◆ GraphFitChisquareFumili()

void GraphFitChisquareFumili ( Int_t npar,
Double_t gin,
Double_t f,
Double_t u,
Int_t  flag 
)

Minimization function for Graphs using a Chisquare method.

In case of a TGraphErrors object, ex, the error along x, is projected along the y-direction by calculating the function at the points x-exlow and x+exhigh.

The chisquare is computed as the sum of the quantity below at each point:

                (y - f(x))**2
    -----------------------------------
    ey**2 + (0.5*(exl + exh)*f'(x))**2

where x and y are the point coordinates and f'(x) is the derivative of function f(x). This method to approximate the uncertainty in y because of the errors in x, is called "effective variance" method. The improvement, compared to the previously used method (f(x+ exhigh) - f(x-exlow))/2 is of (error of x)**2 order.

NOTE:

  1. By using the "effective variance" method a simple linear regression becomes a non-linear case , which takes several iterations instead of 0 as in the linear case .
  2. The effective variance technique assumes that there is no correlation between the x and y coordinate .

In case the function lies below (above) the data point, ey is ey_low (ey_high).

Definition at line 2112 of file TFumili.cxx.

◆ H1FitChisquareFumili()

void H1FitChisquareFumili ( Int_t npar,
Double_t gin,
Double_t f,
Double_t u,
Int_t  flag 
)

Minimization function for H1s using a Chisquare method.

Definition at line 2058 of file TFumili.cxx.

◆ H1FitLikelihoodFumili()

void H1FitLikelihoodFumili ( Int_t npar,
Double_t gin,
Double_t f,
Double_t u,
Int_t  flag 
)

Minimization function for H1s using a Likelihood method.

Basically, it forms the likelihood by determining the Poisson probability that given a number of entries in a particular bin, the fit would predict it's value. This is then done for each bin, and the sum of the logs is taken as the likelihood. PDF: P=exp(-f(x_i))/[F_i]!*(f(x_i))^[F_i] where F_i - experimental value, f(x_i) - expected theoretical value [F_i] - integer part of F_i. drawback is that if F_i>Int_t - GetSumLog will fail for big F_i is faster to use Euler's Gamma-function

Definition at line 2076 of file TFumili.cxx.

Variable Documentation

◆ gFumili

TFumili* gFumili =nullptr

Definition at line 121 of file TFumili.cxx.

◆ gMAXDOUBLE

const Double_t gMAXDOUBLE =1e300
static

Definition at line 124 of file TFumili.cxx.

◆ gMINDOUBLE

const Double_t gMINDOUBLE =-1e300
static

Definition at line 125 of file TFumili.cxx.