rf309_ndimplot.C File Reference

Detailed Description

'MULTIDIMENSIONAL MODELS' RooFit tutorial macro #308

Making 2/3 dimensional plots of p.d.f.s and datasets

Processing /mnt/vdb/lsf/workspace/root-makedoc-v608/rootspi/rdoc/src/v6-08-00-patches/tutorials/roofit/rf309_ndimplot.C...

RooFit v3.60 -- Developed by Wouter Verkerke and David Kirkby 
                Copyright (C) 2000-2013 NIKHEF, University of California & Stanford University
                All rights reserved, please read http://roofit.sourceforge.net/license.txt

[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(model_Int[x,y]) using numeric integrator RooIntegrator1D to calculate Int(y)

#include "RooRealVar.h"
#include "RooDataSet.h"
#include "RooConstVar.h"
#include "RooGaussian.h"
#include "RooProdPdf.h"
#include "TCanvas.h"
#include "TAxis.h"
#include "TH1.h"
#include "RooPlot.h"
using namespace RooFit ;


void rf309_ndimplot()
{

   // C r e a t e   2 D   m o d e l   a n d   d a t a s e t
   // -----------------------------------------------------

   // Create observables
   RooRealVar x("x","x",-5,5) ;
   RooRealVar y("y","y",-5,5) ;

   // Create parameters
   RooRealVar a0("a0","a0",-3.5,-5,5) ;
   RooRealVar a1("a1","a1",-1.5,-1,1) ;
   RooRealVar sigma("sigma","width of gaussian",1.5) ;

   // Create interpreted function f(y) = a0 - a1*sqrt(10*abs(y))
   RooFormulaVar fy("fy","a0-a1*sqrt(10*abs(y))",RooArgSet(y,a0,a1)) ;

   // Create gauss(x,f(y),s)
   RooGaussian model("model","Gaussian with shifting mean",x,fy,sigma) ;

   // Sample dataset from gauss(x,y)
   RooDataSet* data = model.generate(RooArgSet(x,y),10000) ;


   // M a k e   2 D   p l o t s   o f   d a t a   a n d   m o d e l
   // -------------------------------------------------------------

   // Create and fill ROOT 2D histogram (20x20 bins) with contents of dataset
   //TH2D* hh_data = data->createHistogram("hh_data",x,Binning(20),YVar(y,Binning(20))) ;
   TH1* hh_data = data->createHistogram("x,y",20,20) ;

   // Create and fill ROOT 2D histogram (50x50 bins) with sampling of pdf
   //TH2D* hh_pdf = model.createHistogram("hh_model",x,Binning(50),YVar(y,Binning(50))) ;
   TH1* hh_pdf = model.createHistogram("x,y",50,50) ;
   hh_pdf->SetLineColor(kBlue) ;


   // C r e a t e   3 D   m o d e l   a n d   d a t a s e t
   // -----------------------------------------------------

   // Create observables
   RooRealVar z("z","z",-5,5) ;

   RooGaussian gz("gz","gz",z,RooConst(0),RooConst(2)) ;
   RooProdPdf model3("model3","model3",RooArgSet(model,gz)) ;

   RooDataSet* data3 = model3.generate(RooArgSet(x,y,z),10000) ;


   // M a k e   3 D   p l o t s   o f   d a t a   a n d   m o d e l
   // -------------------------------------------------------------

   // Create and fill ROOT 2D histogram (8x8x8 bins) with contents of dataset
   TH1* hh_data3 = data3->createHistogram("hh_data3",x,Binning(8),YVar(y,Binning(8)),ZVar(z,Binning(8))) ;

   // Create and fill ROOT 2D histogram (20x20x20 bins) with sampling of pdf
   TH1* hh_pdf3 = model3.createHistogram("hh_model3",x,Binning(20),YVar(y,Binning(20)),ZVar(z,Binning(20))) ;
   hh_pdf3->SetFillColor(kBlue) ;



   TCanvas* c1 = new TCanvas("rf309_2dimplot","rf309_2dimplot",800,800) ;
   c1->Divide(2,2) ;
   c1->cd(1) ; gPad->SetLeftMargin(0.15) ; hh_data->GetZaxis()->SetTitleOffset(1.4) ; hh_data->Draw("lego") ; 
   c1->cd(2) ; gPad->SetLeftMargin(0.20) ; hh_pdf->GetZaxis()->SetTitleOffset(2.5) ; hh_pdf->Draw("surf") ;
   c1->cd(3) ; gPad->SetLeftMargin(0.15) ; hh_data->GetZaxis()->SetTitleOffset(1.4) ; hh_data->Draw("box") ; 
   c1->cd(4) ; gPad->SetLeftMargin(0.15) ; hh_pdf->GetZaxis()->SetTitleOffset(2.5) ; hh_pdf->Draw("cont3") ;

   TCanvas* c2 = new TCanvas("rf309_3dimplot","rf309_3dimplot",800,400) ;
   c2->Divide(2) ;
   c2->cd(1) ; gPad->SetLeftMargin(0.15) ; hh_data3->GetZaxis()->SetTitleOffset(1.4) ; hh_data3->Draw("lego") ;
   c2->cd(2) ; gPad->SetLeftMargin(0.15) ; hh_pdf3->GetZaxis()->SetTitleOffset(1.4) ; hh_pdf3->Draw("iso") ;

}

Author

07/2008 - Wouter Verkerke

Definition in file rf309_ndimplot.C.