#include "TString.h"
#include "TInterpreter.h"
#include <fstream>
#include "TH1.h"
#include "TGraphSmooth.h"
#include "TCanvas.h"
#include "TSystem.h"
TCanvas *vC1;
TGraph *grin, *grout;
void DrawSmooth(Int_t pad, const char *title, const char *xt, const char *yt)
{
vC1->cd(pad);
TH1F *vFrame = gPad->DrawFrame(0,-130,60,70);
vFrame->SetTitle(title);
vFrame->SetTitleSize(0.2);
vFrame->SetXTitle(xt);
vFrame->SetYTitle(yt);
grin->Draw("P");
grout->DrawClone("LPX");
}
void motorcycle()
{
/******************************************************************************
* Author: Christian Stratowa, Vienna, Austria. *
* Created: 26 Aug 2001 Last modified: 29 Sep 2001 *
******************************************************************************/
// Macro to test scatterplot smoothers: ksmooth, lowess, supsmu
// as described in:
// Modern Applied Statistics with S-Plus, 3rd Edition
// W.N. Venables and B.D. Ripley
// Chapter 9: Smooth Regression, Figure 9.1
//
// Example is a set of data on 133 observations of acceleration against time
// for a simulated motorcycle accident, taken from Silverman (1985).
// data taken from R library MASS: mcycle.txt
TString dir = gSystem->UnixPathName(__FILE__);
dir.ReplaceAll("motorcycle.C","");
dir.ReplaceAll("/./","/");
// read file and add to fit object
Double_t *x = new Double_t[133];
Double_t *y = new Double_t[133];
Double_t vX, vY;
Int_t vNData = 0;
ifstream vInput;
vInput.open(Form("%smotorcycle.dat",dir.Data()));
while (1) {
vInput >> vX >> vY;
if (!vInput.good()) break;
x[vNData] = vX;
y[vNData] = vY;
vNData++;
}//while
vInput.close();
grin = new TGraph(vNData,x,y);
// draw graph
vC1 = new TCanvas("vC1","Smooth Regression",200,10,900,700);
vC1->Divide(2,3);
// Kernel Smoother
// create new kernel smoother and smooth data with bandwidth = 2.0
TGraphSmooth *gs = new TGraphSmooth("normal");
grout = gs->SmoothKern(grin,"normal",2.0);
DrawSmooth(1,"Kernel Smoother: bandwidth = 2.0","times","accel");
// redraw ksmooth with bandwidth = 5.0
grout = gs->SmoothKern(grin,"normal",5.0);
DrawSmooth(2,"Kernel Smoother: bandwidth = 5.0","","");
// Lowess Smoother
// create new lowess smoother and smooth data with fraction f = 2/3
grout = gs->SmoothLowess(grin,"",0.67);
DrawSmooth(3,"Lowess: f = 2/3","","");
// redraw lowess with fraction f = 0.2
grout = gs->SmoothLowess(grin,"",0.2);
DrawSmooth(4,"Lowess: f = 0.2","","");
// Super Smoother
// create new super smoother and smooth data with default bass = 0 and span = 0
grout = gs->SmoothSuper(grin,"",0,0);
DrawSmooth(5,"Super Smoother: bass = 0","","");
// redraw supsmu with bass = 3 (smoother curve)
grout = gs->SmoothSuper(grin,"",3);
DrawSmooth(6,"Super Smoother: bass = 3","","");
// cleanup
delete [] x;
delete [] y;
delete gs;
}