class TMultiGraph: public TNamed

 TMultiGraph default constructor.

 Constructor with name and title.

 Copy constructor.

 Assignement operator.

 TMultiGraph destructor.

 Add a new graph to the list of graphs.
 Note that the graph is now owned by the TMultigraph.
 Deleting the TMultiGraph object will automatically delete the graphs.
 You should not delete the graphs when the TMultigraph is still active.

 Add all the graphs in "multigraph" to the list of graphs.
 If "chopt" is defined all the graphs in "multigraph" will be added with
 the "chopt" option.
 If "chopt" is undefined each graph will be added with the option it had
 in "multigraph".

 Browse multigraph.

 Compute distance from point px,py to each graph.

 Draw this multigraph with its current attributes.

   Options to draw a graph are described in TGraphPainter.

  The drawing option for each TGraph may be specified as an optional
  second argument of the Add function. You can use GetGraphDrawOption
  to return this option.
  If a draw option is specified, it will be used to draw the graph,
  otherwise the graph will be drawn with the option specified in
  TMultiGraph::Draw. Use GetDrawOption to return the option specified
  when drawing the TMultiGraph.

 Fit this graph with function with name fname.

  interface to TF1::Fit(TF1 *f1...

 Fit this multigraph with function f1.

   In this function all graphs of the multigraph are fitted simultaneously

   f1 is an already predefined function created by TF1.
   Predefined functions such as gaus, expo and poln are automatically
   created by ROOT.

   The list of fit options is given in parameter option.
      option = "W"  Set all errors to 1
             = "U" Use a User specified fitting algorithm (via SetFCN)
             = "Q" Quiet mode (minimum printing)
             = "V" Verbose mode (default is between Q and V)
             = "B" Use this option when you want to fix one or more parameters
                   and the fitting function is like "gaus","expo","poln","landau".
             = "R" Use the Range specified in the function range
             = "N" Do not store the graphics function, do not draw
             = "0" Do not plot the result of the fit. By default the fitted function
                   is drawn unless the option"N" above is specified.
             = "+" Add this new fitted function to the list of fitted functions
                   (by default, any previous function is deleted)
             = "C" In case of linear fitting, not calculate the chisquare
                    (saves time)
             = "F" If fitting a polN, switch to minuit fitter
             = "ROB" In case of linear fitting, compute the LTS regression
                     coefficients (robust(resistant) regression), using
                     the default fraction of good points
               "ROB=0.x" - compute the LTS regression coefficients, using
                           0.x as a fraction of good points

   When the fit is drawn (by default), the parameter goption may be used
   to specify a list of graphics options. See TGraph::Paint for a complete
   list of these options.

   In order to use the Range option, one must first create a function
   with the expression to be fitted. For example, if your graph
   has a defined range between -4 and 4 and you want to fit a gaussian
   only in the interval 1 to 3, you can do:
        TF1 *f1 = new TF1("f1","gaus",1,3);
        graph->Fit("f1","R");


   who is calling this function

   Note that this function is called when calling TGraphErrors::Fit
   or TGraphAsymmErrors::Fit ot TGraphBentErrors::Fit
   see the discussion below on the errors calulation.

   Setting initial conditions

   Parameters must be initialized before invoking the Fit function.
   The setting of the parameter initial values is automatic for the
   predefined functions : poln, expo, gaus, landau. One can however disable
   this automatic computation by specifying the option "B".
   You can specify boundary limits for some or all parameters via
        f1->SetParLimits(p_number, parmin, parmax);
   if parmin>=parmax, the parameter is fixed
   Note that you are not forced to fix the limits for all parameters.
   For example, if you fit a function with 6 parameters, you can do:
     func->SetParameters(0,3.1,1.e-6,0.1,-8,100);
     func->SetParLimits(4,-10,-4);
     func->SetParLimits(5, 1,1);
   With this setup, parameters 0->3 can vary freely
   Parameter 4 has boundaries [-10,-4] with initial value -8
   Parameter 5 is fixed to 100.

  Fit range

  The fit range can be specified in two ways:
    - specify rxmax > rxmin (default is rxmin=rxmax=0)
    - specify the option "R". In this case, the function will be taken
      instead of the full graph range.

  Changing the fitting function

   By default a chi2 fitting function is used for fitting the TGraphs's.
   The function is implemented in FitUtil::EvaluateChi2.
   In case of TGraphErrors an effective chi2 is used
   (see TGraphErrors fit in TGraph::Fit) and is implemented in
   FitUtil::EvaluateChi2Effective
   To specify a User defined fitting function, specify option "U" and
   call the following functions:
     TVirtualFitter::Fitter(mygraph)->SetFCN(MyFittingFunction)
   where MyFittingFunction is of type:
   extern void MyFittingFunction(Int_t &npar, Double_t *gin, Double_t &f, Double_t *u, Int_t flag);

  Access to the fit result

  The function returns a TFitResultPtr which can hold a  pointer to a TFitResult object.
  By default the TFitResultPtr contains only the status of the fit and it converts
  automatically to an integer. If the option "S" is instead used, TFitResultPtr contains
  the TFitResult and behaves as a smart pointer to it. For example one can do:
     TFitResultPtr r = graph->Fit("myFunc","S");
     TMatrixDSym cov = r->GetCovarianceMatrix();  //  to access the covariance matrix
     Double_t par0   = r->Parameter(0); // retrieve the value for the parameter 0
     Double_t err0   = r->ParError(0); // retrieve the error for the parameter 0
     r->Print("V");     // print full information of fit including covariance matrix
     r->Write();        // store the result in a file

   The fit parameters, error and chi2 (but not covariance matrix) can be retrieved also
   from the fitted function.


   Associated functions

  One or more object (typically a TF1*) can be added to the list
  of functions (fFunctions) associated to each graph.
  When TGraph::Fit is invoked, the fitted function is added to this list.
  Given a graph gr, one can retrieve an associated function
  with:  TF1 *myfunc = gr->GetFunction("myfunc");

  If the graph is made persistent, the list of
  associated functions is also persistent. Given a pointer (see above)
  to an associated function myfunc, one can retrieve the function/fit
  parameters with calls such as:
    Double_t chi2 = myfunc->GetChisquare();
    Double_t par0 = myfunc->GetParameter(0); //value of 1st parameter
    Double_t err0 = myfunc->GetParError(0);  //error on first parameter

   Fit Statistics

  You can change the statistics box to display the fit parameters with
  the TStyle::SetOptFit(mode) method. This mode has four digits.
  mode = pcev  (default = 0111)
    v = 1;  print name/values of parameters
    e = 1;  print errors (if e=1, v must be 1)
    c = 1;  print Chisquare/Number of degress of freedom
    p = 1;  print Probability

  For example: gStyle->SetOptFit(1011);
  prints the fit probability, parameter names/values, and errors.
  You can change the position of the statistics box with these lines
  (where g is a pointer to the TGraph):

  Root > TPaveStats *st = (TPaveStats*)g->GetListOfFunctions()->FindObject("stats")
  Root > st->SetX1NDC(newx1); //new x start position
  Root > st->SetX2NDC(newx2); //new x end position

 Display a panel with all histogram fit options.
 See class TFitPanel for example

 Return the draw option for the TGraph gr in this TMultiGraph.
 The return option is the one specified when calling TMultiGraph::Add(gr,option).

 Compute Initial values of parameters for a gaussian.

 Compute Initial values of parameters for an exponential.

 Compute Initial values of parameters for a polynom.

 Least squares lpolynomial fitting without weights.

  m     number of parameters
  a     array of parameters
  first 1st point number to fit (default =0)
  last  last point number to fit (default=fNpoints-1)

   based on CERNLIB routine LSQ: Translated to C++ by Rene Brun

 Least square linear fit without weights.

  Fit a straight line (a0 + a1*x) to the data in this graph.
  ndata:  number of points to fit
  first:  first point number to fit
  last:   last point to fit O(ndata should be last-first
  ifail:  return parameter indicating the status of the fit (ifail=0, fit is OK)

   extracted from CERNLIB LLSQ: Translated to C++ by Rene Brun

 Return 1 if the point (x,y) is inside one of the graphs 0 otherwise.

 Returns a pointer to the histogram used to draw the axis.
 Takes into account the two following cases.
    1- option 'A' was specified in TMultiGraph::Draw. Return fHistogram
    2- user had called TPad::DrawFrame. return pointer to hframe histogram

 Return pointer to function with name.

 Functions such as TGraph::Fit store the fitted function in the list of
 functions of this graph.

 Return pointer to list of functions.
 If pointer is null create the list

 Get x axis of the graph.
 This method returns a valid axis only after the TMultigraph has been drawn.

 Get y axis of the graph.
 This method returns a valid axis only after the TMultigraph has been drawn.

 Paint all the graphs of this multigraph.

 Divides the active pad and draws all Graphs in the Multigraph separately.

 Paint all the graphs of this multigraph as 3D lines.

 Print the list of graphs.

 Recursively remove this object from a list. Typically implemented
 by classes that can contain multiple references to a same object.

 Save primitive as a C++ statement(s) on output stream out.

 Set multigraph maximum.

 Set multigraph minimum.