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RooFit Toolkit for Data Modeling
/*****************************************************************************
 * Project: RooFit                                                           *
 * Package: RooFitCore                                                       *
 *    File: $Id: RooEllipse.cc,v 1.11 2005/06/20 15:44:51 wverkerke Exp $
 * Authors:                                                                  *
 *   WV, Wouter Verkerke, UC Santa Barbara, verkerke@slac.stanford.edu       *
 *   DK, David Kirkby,    UC Irvine,         dkirkby@uci.edu                 *
 *                                                                           *
 * Copyright (c) 2000-2005, Regents of the University of California          *
 *                          and Stanford University. All rights reserved.    *
 *                                                                           *
 * Redistribution and use in source and binary forms,                        *
 * with or without modification, are permitted according to the terms        *
 * listed in LICENSE (http://roofit.sourceforge.net/license.txt)             *
 *****************************************************************************/

// -- CLASS DESCRIPTION [PLOT] --
// A RooEllipse is a two-dimensional ellipse that can be used to represent
// an error contour.


#include "RooFitCore/RooFit.hh"

#include "RooFitCore/RooEllipse.hh"
#include "RooFitCore/RooEllipse.hh"
#include "TMath.h"

#include "Riostream.h"
#include <math.h>
#include <assert.h>

ClassImp(RooEllipse)


 RooEllipse::RooEllipse() { }

 RooEllipse::~RooEllipse() 
{
}

 RooEllipse::RooEllipse(const char *name, Double_t x1, Double_t x2, Double_t s1, Double_t s2, Double_t rho, Int_t points) {
  // Create a 2-dimensional ellipse centered at (x1,x2) that represents the confidence
  // level contour for a measurement with errors (s1,s2) and correlation coefficient rho.
  // The resulting curve is defined as the unique ellipse that passes through these points:
  //
  //   (x1+rho*s1,x2+s2) , (x1-rho*s1,x2-s2) , (x1+s1,x2+rho*s2) , (x1-s1,x2-rho*s2)
  //
  // and is described by the implicit equation:
  //
  //   x*x      2*rho*x*y      y*y
  //  -----  -  ---------  +  -----  =  1 - rho*rho
  //  s1*s1       s1*s2       s2*s2
  //
  // The input parameters s1,s2 must be > 0 and also |rho| <= 1.
  // The degenerate case |rho|=1 corresponds to a straight line and
  // is handled as a special case.

  SetName(name);
  SetTitle(name);

  if(s1 <= 0 || s2 <= 0) {
    cout << "RooEllipse::RooEllipse: bad parameter s1 or s2 < 0" << endl;
    return;
  }
  Double_t tmp= 1-rho*rho;
  if(tmp < 0) {
    cout << "RooEllipse::RooEllipse: bad parameter |rho| > 1" << endl;
    return;
  }

  if(tmp == 0) {
    // handle the degenerate case of |rho|=1
    SetPoint(0,x1-s1,x2-s2);
    SetPoint(1,x1+s1,x2+s2);
    setYAxisLimits(x2-s2,x2+s2);
  }
  else {
    Double_t r,psi,phi,u1,u2,xx1,xx2,dphi(2*TMath::Pi()/points);
    for(Int_t index= 0; index < points; index++) {
      phi= index*dphi;
      // adjust the angular spacing of the points for the aspect ratio
      psi= atan2(s2*sin(phi),s1*cos(phi));
      u1= cos(psi)/s1;
      u2= sin(psi)/s2;
      r= sqrt(tmp/(u1*u1 - 2*rho*u1*u2 + u2*u2));
      xx1= x1 + r*u1*s1;
      xx2= x2 + r*u2*s2;
      SetPoint(index, xx1, xx2);
      if(index == 0) {
	setYAxisLimits(xx2,xx2);
	// add an extra segment to close the curve
	SetPoint(points, xx1, xx2);
      }
      else {
	updateYAxisLimits(xx2);
      }
    }
  }
}

 void RooEllipse::printToStream(ostream& os, PrintOption opt, TString indent) const {
  // Print info about this histogram to the specified output stream.
  //
  //   Standard: number of entries
  //    Verbose: print points on curve

  oneLinePrint(os,*this);
  RooPlotable::printToStream(os,opt,indent);
  if(opt == Verbose) {
    for(Int_t index=0; index < fNpoints; index++) {
      cout << "Point [" << index << "] is at (" << fX[index] << "," << fY[index] << ")" << endl;
    }
  }
}
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