AliMUONFastTracking* AliMUONFastTracking::fgMUONFastTracking=NULL;
static Double_t FitP(Double_t *x, Double_t *par){
+// Fit function
Double_t dx = x[0] - par[0];
Double_t dx2 = x[0] - par[4];
Double_t sigma = par[1] * ( 1 + par[2] * dx);
}
char filename [100];
- if (fClusterFinder==kOld) sprintf (filename,"$(ALICE_ROOT)/FASTSIM/data/MUONtrackLUT.root");
- else sprintf (filename,"$(ALICE_ROOT)/FASTSIM/data/MUONtrackLUT-AZ.root");
+ if (fClusterFinder==kOld) snprintf (filename, 100, "$(ALICE_ROOT)/FASTSIM/data/MUONtrackLUT.root");
+ else snprintf (filename, 100, "$(ALICE_ROOT)/FASTSIM/data/MUONtrackLUT-AZ.root");
TFile *file = new TFile(filename);
ReadLUT(file);
const Float_t kBkg[4] = {0, 0.5, 1, 2};
for (Int_t ibkg=0; ibkg<4; ibkg++) {
- sprintf (tag,"BKG%g",kBkg[ibkg]);
+ snprintf (tag, 40, "BKG%g",kBkg[ibkg]);
file->cd(tag);
for (Int_t isplp = 0; isplp<kSplitP; isplp++) {
for (Int_t ispltheta = 0; ispltheta<kSplitTheta; ispltheta++) {
- sprintf (tag2,"heff[%d][%d]",isplp,ispltheta);
+ snprintf (tag2, 40, "heff[%d][%d]",isplp,ispltheta);
heff[isplp][ispltheta] = (TH3F*)gDirectory->Get(tag2);
- sprintf (tag2,"hacc[%d][%d]",isplp,ispltheta);
+ snprintf (tag2, 40, "hacc[%d][%d]",isplp,ispltheta);
hacc[isplp][ispltheta] = (TH3F*)gDirectory->Get(tag2);
}
}
ysigmaphi[ip] = fCurrentEntry[ip][itheta][iphi]->GetSigmaphi();
}
if (fPrintLevel>3) cout << " creating new spline " << splname << endl;
- sprintf (splname,"fSplineEff[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineEff[%d][%d]",ispline,ivar);
fSplineEff[ispline][ivar] = new TSpline3(splname,xsp2,yeff,5 * nbins[ivar]);
- sprintf (splname,"fSplineAcc[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineAcc[%d][%d]",ispline,ivar);
fSplineAcc[ispline][ivar] = new TSpline3(splname,xsp2,yacc,5 * nbins[ivar]);
- sprintf (splname,"fSplineSigmap[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmap[%d][%d]",ispline,ivar);
fSplineSigmap[ispline][ivar] = new TSpline3(splname,xspl,ysigmap,nbins[ivar]);
- sprintf (splname,"fSplineSigma1p[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigma1p[%d][%d]",ispline,ivar);
fSplineSigma1p[ispline][ivar] = new TSpline3(splname,xspl,ysigma1p,nbins[ivar]);
- sprintf (splname,"fSplineSigmatheta[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmatheta[%d][%d]",ispline,ivar);
fSplineSigmatheta[ispline][ivar] = new TSpline3(splname,xspl,ysigmatheta,nbins[ivar]);
- sprintf (splname,"fSplineSigmaphi[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmaphi[%d][%d]",ispline,ivar);
fSplineSigmaphi[ispline][ivar] = new TSpline3(splname,xspl,ysigmaphi,nbins[ivar]);
ispline++;
}
ysigmaphi[itheta] = fCurrentEntry[ip][itheta][iphi]->GetSigmaphi();
}
if (fPrintLevel>3) cout << " creating new spline " << splname << endl;
- sprintf (splname,"fSplineEff[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineEff[%d][%d]",ispline,ivar);
fSplineEff[ispline][ivar] = new TSpline3(splname,xspl,yeff, nbins[ivar]);
- sprintf (splname,"fSplineAcc[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineAcc[%d][%d]",ispline,ivar);
fSplineAcc[ispline][ivar] = new TSpline3(splname,xspl,yacc, nbins[ivar]);
- sprintf (splname,"fSplineSigmap[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmap[%d][%d]",ispline,ivar);
fSplineSigmap[ispline][ivar] = new TSpline3(splname,xspl,ysigmap,nbins[ivar]);
- sprintf (splname,"fSplineSigma1p[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigma1p[%d][%d]",ispline,ivar);
fSplineSigma1p[ispline][ivar] = new TSpline3(splname,xspl,ysigma1p,nbins[ivar]);
- sprintf (splname,"fSplineSigmatheta[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmatheta[%d][%d]",ispline,ivar);
fSplineSigmatheta[ispline][ivar] = new TSpline3(splname,xspl,ysigmatheta,nbins[ivar]);
- sprintf (splname,"fSplineSigmaphi[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmaphi[%d][%d]",ispline,ivar);
fSplineSigmaphi[ispline][ivar] = new TSpline3(splname,xspl,ysigmaphi,nbins[ivar]);
ispline++;
}
ysigmaphi[iphi] = fCurrentEntry[ip][itheta][iphi]->GetSigmaphi();
}
if (fPrintLevel>3) cout << " creating new spline " << splname << endl;
- sprintf (splname,"fSplineEff[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineEff[%d][%d]",ispline,ivar);
fSplineEff[ispline][ivar] = new TSpline3(splname,xspl,yeff, nbins[ivar]);
- sprintf (splname,"fSplineAcc[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineAcc[%d][%d]",ispline,ivar);
fSplineAcc[ispline][ivar] = new TSpline3(splname,xspl,yacc, nbins[ivar]);
- sprintf (splname,"fSplineSigmap[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmap[%d][%d]",ispline,ivar);
fSplineSigmap[ispline][ivar] = new TSpline3(splname,xspl,ysigmap,nbins[ivar]);
- sprintf (splname,"fSplineSigma1p[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigma1p[%d][%d]",ispline,ivar);
fSplineSigma1p[ispline][ivar] = new TSpline3(splname,xspl,ysigma1p,nbins[ivar]);
- sprintf (splname,"fSplineSigmatheta[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmatheta[%d][%d]",ispline,ivar);
fSplineSigmatheta[ispline][ivar] = new TSpline3(splname,xspl,ysigmatheta,nbins[ivar]);
- sprintf (splname,"fSplineSigmaphi[%d][%d]",ispline,ivar);
+ snprintf (splname, 40, "fSplineSigmaphi[%d][%d]",ispline,ivar);
fSplineSigmaphi[ispline][ivar] = new TSpline3(splname,xspl,ysigmaphi,nbins[ivar]);
ispline++;
}
// gets the correct prec-pgen distribution for a given LUT cell
if (!fFitp[ip][itheta][iphi]) {
char name[256];
- sprintf(name, "fit_%d_%d_%d", ip, itheta, iphi);
+ snprintf(name, 256, "fit_%d_%d_%d", ip, itheta, iphi);
fFitp[ip][itheta][iphi] = new TF1(name ,FitP,-20.,20.,6);
fFitp[ip][itheta][iphi]->SetNpx(500);
fFitp[ip][itheta][iphi]->SetParameters(0.,0.,0.,0.,0.,0.);