X-Git-Url: http://git.uio.no/git/?p=u%2Fmrichter%2FAliRoot.git;a=blobdiff_plain;f=FASTSIM%2FAliFastGlauber.cxx;h=a792609dcccd2b3600bb482d12c3dd1fdcc67434;hp=6595b420b3ea2c23464c453fb70c167339042c43;hb=dc33c8011fbdbfaad7c375ca8ddd8f45022f2be5;hpb=f762082f363ec7b3b1b3a88d8f0a3959e3040daf diff --git a/FASTSIM/AliFastGlauber.cxx b/FASTSIM/AliFastGlauber.cxx index 6595b420b3e..a792609dccc 100644 --- a/FASTSIM/AliFastGlauber.cxx +++ b/FASTSIM/AliFastGlauber.cxx @@ -16,7 +16,7 @@ /* $Id$ */ // // Utility class to make simple Glauber type calculations -// for SYMMTRIC collision geometries (AA): +// for SYMMETRIC collision geometries (AA): // Impact parameter, production points, reaction plane dependence // // The SimulateTrigger method can be used for simple MB and hard-process @@ -50,22 +50,22 @@ // from AliRoot #include "AliFastGlauber.h" // from root -#include -#include -#include +#include #include #include +#include +#include +#include #include -#include +#include #include -#include -#include -#include +#include ClassImp(AliFastGlauber) Float_t AliFastGlauber::fgBMax = 0.; TF1* AliFastGlauber::fgWSb = NULL; +TF1* AliFastGlauber::fgRWSb = NULL; TF2* AliFastGlauber::fgWSbz = NULL; TF1* AliFastGlauber::fgWSz = NULL; TF1* AliFastGlauber::fgWSta = NULL; @@ -82,28 +82,68 @@ TF1* AliFastGlauber::fgWIntRadius = NULL; TF2* AliFastGlauber::fgWKParticipants = NULL; TF1* AliFastGlauber::fgWParticipants = NULL; TF2* AliFastGlauber::fgWAlmondCurrent = NULL; -TF2 AliFastGlauber::fgWAlmondFixedB[40]; +TF2* AliFastGlauber::fgWAlmondFixedB[40]; const Int_t AliFastGlauber::fgkMCInts = 100000; -Int_t AliFastGlauber::fgCounter = 0; - -AliFastGlauber::AliFastGlauber() : fName() -{ - // Default Constructor - // - fgCounter++; - if(fgCounter>1) - Error("AliFastGlauber","More than more instance (%d) is not supported, check your code!",fgCounter); - +AliFastGlauber* AliFastGlauber::fgGlauber = NULL; + + +AliFastGlauber::AliFastGlauber(): + fWSr0(0.), + fWSd(0.), + fWSw(0.), + fWSn(0.), + fSigmaHard(0.), + fSigmaNN(0.), + fA(0), + fBmin(0.), + fBmax(0.), + fEllDef(0), + fName() +{ + // Default Constructor // Defaults for Pb SetMaxImpact(); SetLengthDefinition(); SetPbPbLHC(); + fXY[0] = fXY[1] = 0; + fI0I1[0] = fI0I1[1] = 0; +} + +AliFastGlauber::AliFastGlauber(const AliFastGlauber & gl) + :TObject(gl), + fWSr0(0.), + fWSd(0.), + fWSw(0.), + fWSn(0.), + fSigmaHard(0.), + fSigmaNN(0.), + fA(0), + fBmin(0.), + fBmax(0.), + fEllDef(0), + fName() +{ +// Copy constructor + gl.Copy(*this); + fXY[0] = fXY[1] = 0; + fI0I1[0] = fI0I1[1] = 0; +} + +AliFastGlauber* AliFastGlauber::Instance() +{ +// Set random number generator + if (fgGlauber) { + return fgGlauber; + } else { + fgGlauber = new AliFastGlauber(); + return fgGlauber; + } } AliFastGlauber::~AliFastGlauber() { - fgCounter--; - //if(fgCounter==0) Reset(); +// Destructor + for(Int_t k=0; k<40; k++) delete fgWAlmondFixedB[k]; } void AliFastGlauber::SetAuAuRhic() @@ -148,7 +188,13 @@ void AliFastGlauber::Init(Int_t mode) fgWSb->SetParameter(2, fWSw); fgWSb->SetParameter(3, fWSn); - fgWSbz = new TF2("WSbz", WSbz, 0, fgBMax, 4); + fgRWSb = new TF1("RWSb", RWSb, 0, fgBMax, 4); + fgRWSb->SetParameter(0, fWSr0); + fgRWSb->SetParameter(1, fWSd); + fgRWSb->SetParameter(2, fWSw); + fgRWSb->SetParameter(3, fWSn); + + fgWSbz = new TF2("WSbz", WSbz, 0, fgBMax, 0, fgBMax, 4); fgWSbz->SetParameter(0, fWSr0); fgWSbz->SetParameter(1, fWSd); fgWSbz->SetParameter(2, fWSw); @@ -229,7 +275,7 @@ void AliFastGlauber::Init(Int_t mode) // // Hard collisions per event // - fgWSN = new TF1("WSN", WSN, 0., fgBMax, 1); + fgWSN = new TF1("WSN", WSN, 0.01, fgBMax, 1); fgWSN->SetNpx(100); // @@ -245,9 +291,9 @@ void AliFastGlauber::Init(Int_t mode) Char_t almondName[100]; TFile* ff = new TFile(fName.Data()); for(Int_t k=0; k<40; k++) { - sprintf(almondName,"WAlmondFixedB%d",k); + snprintf(almondName,100, "WAlmondFixedB%d",k); fgWAlmondCurrent = (TF2*)ff->Get(almondName); - new(&fgWAlmondFixedB[k]) TF2(*fgWAlmondCurrent); + fgWAlmondFixedB[k] = fgWAlmondCurrent; } delete ff; } @@ -268,13 +314,14 @@ void AliFastGlauber::Init(Int_t mode) fgWPathLength->SetParameter(2, 0); //Pathlength definition } -void AliFastGlauber::Reset() +void AliFastGlauber::Reset() const { // // Reset dynamic allocated formulas // in case init is called twice if(fgWSb) delete fgWSb; + if(fgRWSb) delete fgRWSb; if(fgWSbz) delete fgWSbz; if(fgWSz) delete fgWSz; if(fgWSta) delete fgWSta; @@ -299,7 +346,7 @@ void AliFastGlauber::DrawWSb() const // TCanvas *c1 = new TCanvas("c1","Wood Saxon",400,10,600,700); c1->cd(); - Double_t max=fgWSb->GetMaximum(0,fgBMax)*1.01; + Double_t max=fgWSb->GetMaximum(0.,fgBMax)*1.01; TH2F *h2f=new TH2F("h2fwsb","Wood Saxon: #rho(r) = n (1-#omega(r/r_{0})^2)/(1+exp((r-r_{0})/d)) [fm^{-3}]",2,0,fgBMax,2,0,max); h2f->SetStats(0); h2f->GetXaxis()->SetTitle("r [fm]"); @@ -311,13 +358,13 @@ void AliFastGlauber::DrawWSb() const l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"r_{0} = %.2f fm",fWSr0); + snprintf(label,100, "r_{0} = %.2f fm",fWSr0); l1a->AddEntry(fgWSb,label,""); - sprintf(label,"d = %.2f fm",fWSd); + snprintf(label,100, "d = %.2f fm",fWSd); l1a->AddEntry(fgWSb,label,""); - sprintf(label,"n = %.2e fm^{-3}",fWSn); + snprintf(label,100, "n = %.2e fm^{-3}",fWSn); l1a->AddEntry(fgWSb,label,""); - sprintf(label,"#omega = %.2f",fWSw); + snprintf(label,100, "#omega = %.2f",fWSw); l1a->AddEntry(fgWSb,label,""); l1a->Draw(); c1->Update(); @@ -331,7 +378,7 @@ void AliFastGlauber::DrawOverlap() const TCanvas *c2 = new TCanvas("c2","Overlap",400,10,600,700); c2->cd(); Double_t max=fgWStaa->GetMaximum(0,fgBMax)*1.01; - TH2F *h2f=new TH2F("h2ftaa","Overlap function: T_{AB} [mbarn^{-1}]",2,0,fgBMax,2,0,max); + TH2F *h2f=new TH2F("h2ftaa","Overlap function: T_{AB} [mbarn^{-1}]",2,0,fgBMax,2,0, max); h2f->SetStats(0); h2f->GetXaxis()->SetTitle("b [fm]"); h2f->GetYaxis()->SetTitle("T_{AB} [mbarn^{-1}]"); @@ -357,7 +404,7 @@ void AliFastGlauber::DrawParticipants() const l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"#sigma^{inel.}_{NN} = %.1f mbarn",fSigmaNN); + snprintf(label,100, "#sigma^{inel.}_{NN} = %.1f mbarn",fSigmaNN); l1a->AddEntry(fgWParticipants,label,""); l1a->Draw(); c3->Update(); @@ -397,7 +444,7 @@ void AliFastGlauber::DrawGeo() const l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"#sigma_{NN}^{inel.} = %.1f mbarn",fSigmaNN); + snprintf(label,100, "#sigma_{NN}^{inel.} = %.1f mbarn",fSigmaNN); l1a->AddEntry(fgWSgeo,label,""); l1a->Draw(); c5->Update(); @@ -421,7 +468,7 @@ void AliFastGlauber::DrawBinary() const l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"#sigma_{NN}^{hard} = %.1f mbarn",fSigmaHard); + snprintf(label,100, "#sigma_{NN}^{hard} = %.1f mbarn",fSigmaHard); l1a->AddEntry(fgWSb,label,""); l1a->Draw(); c6->Update(); @@ -434,7 +481,7 @@ void AliFastGlauber::DrawN() const // TCanvas *c7 = new TCanvas("c7","Binaries per event",400,10,600,700); c7->cd(); - Double_t max=fgWSN->GetMaximum(0,fgBMax)*1.01; + Double_t max=fgWSN->GetMaximum(0.01,fgBMax)*1.01; TH2F *h2f=new TH2F("h2fhardcols","Number of hard collisions: T_{AB} #sigma^{hard}_{NN}/#sigma_{AB}^{geo}",2,0,fgBMax,2,0,max); h2f->SetStats(0); h2f->GetXaxis()->SetTitle("b [fm]"); @@ -445,9 +492,9 @@ void AliFastGlauber::DrawN() const l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"#sigma^{hard}_{NN} = %.1f mbarn",fSigmaHard); + snprintf(label,100, "#sigma^{hard}_{NN} = %.1f mbarn",fSigmaHard); l1a->AddEntry(fgWSN,label,""); - sprintf(label,"#sigma^{inel.}_{NN} = %.1f mbarn",fSigmaNN); + snprintf(label,100, "#sigma^{inel.}_{NN} = %.1f mbarn",fSigmaNN); l1a->AddEntry(fgWSN,label,""); l1a->Draw(); c7->Update(); @@ -471,7 +518,7 @@ void AliFastGlauber::DrawKernel(Double_t b) const l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"b = %.1f fm",b); + snprintf(label, 100, "b = %.1f fm",b); l1a->AddEntry(fgWStarfi,label,""); l1a->Draw(); c8->Update(); @@ -485,17 +532,18 @@ void AliFastGlauber::DrawAlmond(Double_t b) const TCanvas *c9 = new TCanvas("c9","Almond",400,10,600,700); c9->cd(); fgWAlmond->SetParameter(0, b); - TH2F *h2f=new TH2F("h2falmond","Interaction Almond [fm^{-4}]",2,0,fgBMax,2,0,fgBMax); + TH2F *h2f=new TH2F("h2falmond","Interaction Almond [fm^{-4}]",2,-fgBMax, fgBMax, 2, -fgBMax, fgBMax); h2f->SetStats(0); h2f->GetXaxis()->SetTitle("x [fm]"); h2f->GetYaxis()->SetTitle("y [fm]"); - h2f->Draw(); - fgWAlmond->Draw("same"); + h2f->Draw(""); + gStyle->SetPalette(1); + fgWAlmond->Draw("colzsame"); TLegend *l1a = new TLegend(0.65,0.8,.90,0.9); l1a->SetFillStyle(0); l1a->SetBorderSize(0); Char_t label[100]; - sprintf(label,"b = %.1f fm",b); + snprintf(label, 100, "b = %.1f fm",b); l1a->AddEntry(fgWAlmond,label,""); l1a->Draw(); c9->Update(); @@ -577,7 +625,7 @@ void AliFastGlauber::DrawIntRadius(Double_t b) const fgWIntRadius->Draw("same"); } -Double_t AliFastGlauber::WSb(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WSb(const Double_t* x, const Double_t* par) { // // Woods-Saxon Parameterisation @@ -592,7 +640,23 @@ Double_t AliFastGlauber::WSb(Double_t* x, Double_t* par) return y; //fm^-3 } -Double_t AliFastGlauber::WSbz(Double_t* x, Double_t* par) +Double_t AliFastGlauber::RWSb(const Double_t* x, const Double_t* par) +{ + // + // Woods-Saxon Parameterisation + // as a function of radius (xx) + // times r**2 + const Double_t kxx = x[0]; //fm + const Double_t kr0 = par[0]; //fm + const Double_t kd = par[1]; //fm + const Double_t kw = par[2]; //no units + const Double_t kn = par[3]; //fm^-3 (used to normalize integral to one) + Double_t y = kxx * kxx * kn * (1.+kw*(kxx/kr0)*(kxx/kr0))/(1.+TMath::Exp((kxx-kr0)/kd)); + + return y; //fm^-1 +} + +Double_t AliFastGlauber::WSbz(const Double_t* x, const Double_t* par) { // // Wood Saxon Parameterisation @@ -609,7 +673,7 @@ Double_t AliFastGlauber::WSbz(Double_t* x, Double_t* par) return y; //fm^-3 } -Double_t AliFastGlauber::WSz(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WSz(const Double_t* x, const Double_t* par) { // // Wood Saxon Parameterisation @@ -626,7 +690,7 @@ Double_t AliFastGlauber::WSz(Double_t* x, Double_t* par) return y; //fm^-3 } -Double_t AliFastGlauber::WSta(Double_t* x, Double_t* /*par*/) +Double_t AliFastGlauber::WSta(const Double_t* x, const Double_t* /*par*/) { // // Thickness function T_A @@ -638,7 +702,7 @@ Double_t AliFastGlauber::WSta(Double_t* x, Double_t* /*par*/) return y; //fm^-2 } -Double_t AliFastGlauber::WStarfi(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WStarfi(const Double_t* x, const Double_t* par) { // // Kernel for overlap function: T_A(s)*T_A(s-b) @@ -651,7 +715,7 @@ Double_t AliFastGlauber::WStarfi(Double_t* x, Double_t* par) return y; //fm^-3 } -Double_t AliFastGlauber::WStaa(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WStaa(const Double_t* x, const Double_t* par) { // // Overlap function @@ -681,8 +745,11 @@ Double_t AliFastGlauber::WStaa(Double_t* x, Double_t* par) // MC Integration // Double_t y = 0; + + for (Int_t i = 0; i < fgkMCInts; i++) { + const Double_t kphi = TMath::Pi() * gRandom->Rndm(); const Double_t kb1 = fgBMax * gRandom->Rndm(); y += fgWStarfi->Eval(kb1, kphi); @@ -692,7 +759,7 @@ Double_t AliFastGlauber::WStaa(Double_t* x, Double_t* par) return y; } -Double_t AliFastGlauber::WKParticipants(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WKParticipants(const Double_t* x, const Double_t* par) { // // Kernel for number of participants @@ -721,7 +788,7 @@ Double_t AliFastGlauber::WKParticipants(Double_t* x, Double_t* par) return y; //fm^-1 } -Double_t AliFastGlauber::WParticipants(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WParticipants(const Double_t* x, const Double_t* par) { // // Number of Participants as @@ -748,7 +815,7 @@ Double_t AliFastGlauber::WParticipants(Double_t* x, Double_t* par) return y; //no units } -Double_t AliFastGlauber::WSgeo(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WSgeo(const Double_t* x, const Double_t* par) { // // Geometrical Cross-Section @@ -761,7 +828,7 @@ Double_t AliFastGlauber::WSgeo(Double_t* x, Double_t* par) return y; //fm } -Double_t AliFastGlauber::WSbinary(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WSbinary(const Double_t* x, const Double_t* par) { // // Number of binary hard collisions @@ -774,7 +841,7 @@ Double_t AliFastGlauber::WSbinary(Double_t* x, Double_t* par) return y; //fm } -Double_t AliFastGlauber::WSN(Double_t* x, Double_t* /*par*/) +Double_t AliFastGlauber::WSN(const Double_t* x, const Double_t* /*par*/) { // // Number of hard processes per event @@ -784,7 +851,7 @@ Double_t AliFastGlauber::WSN(Double_t* x, Double_t* /*par*/) return y; //no units } -Double_t AliFastGlauber::WEnergyDensity(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WEnergyDensity(const Double_t* x, const Double_t* par) { // // Initial energy density @@ -803,7 +870,7 @@ Double_t AliFastGlauber::WEnergyDensity(Double_t* x, Double_t* par) return y; //fm^-4 } -Double_t AliFastGlauber::WAlmond(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WAlmond(const Double_t* x, const Double_t* par) { // // Almond shaped interaction region @@ -822,7 +889,7 @@ Double_t AliFastGlauber::WAlmond(Double_t* x, Double_t* par) return y; //fm^-4 } -Double_t AliFastGlauber::WIntRadius(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WIntRadius(const Double_t* x, const Double_t* par) { // // Average interaction density over radius @@ -847,7 +914,7 @@ Double_t AliFastGlauber::WIntRadius(Double_t* x, Double_t* par) return y; //fm^-3 } -Double_t AliFastGlauber::WPathLength0(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WPathLength0(const Double_t* x, const Double_t* par) { // // Path Length as a function of phi @@ -884,16 +951,16 @@ Double_t AliFastGlauber::WPathLength0(Double_t* x, Double_t* par) } // radial steps Double_t y=0.; - if (!kiopt) // My length definition (is exact for hard disk) - if(w) y= 2. * rw / w; - else { - const Double_t knorm=fgWSta->Eval(1e-4); - if(knorm) y = TMath::Sqrt(2. * rw * kDr / knorm / knorm); + if (!kiopt) { // My length definition (is exact for hard disk) + if(w) y= 2. * rw / w; + } else { + const Double_t knorm=fgWSta->Eval(1e-4); + if(knorm) y = TMath::Sqrt(2. * rw * kDr / knorm / knorm); } return y; //fm } -Double_t AliFastGlauber::WPathLength(Double_t* x, Double_t* par) +Double_t AliFastGlauber::WPathLength(const Double_t* x, const Double_t* par) { // // Path Length as a function of phi @@ -977,7 +1044,7 @@ Double_t AliFastGlauber::FractionOfHardCrossSection(Double_t b1, Double_t b2) co return fgWSbinary->Integral(b1, b2)/fgWSbinary->Integral(0., 100.); } -Double_t AliFastGlauber::NHard(Double_t b1, Double_t b2) const +Double_t AliFastGlauber::NHard(const Double_t b1, const Double_t b2) const { // // Number of binary hard collisions @@ -995,16 +1062,54 @@ Double_t AliFastGlauber::Binaries(Double_t b) const // // Return number of binary hard collisions normalized to 1 at b=0 // - if(b==0) b=1e-4; + if(b < 1.e-4) b = 1e-4; return fgWSN->Eval(b)/fgWSN->Eval(1e-4); } +Double_t AliFastGlauber::MeanOverlap(Double_t b1, Double_t b2) +{ +// +// Calculate the mean overlap for impact parameter range b1 .. b2 +// + Double_t sum = 0.; + Double_t sumc = 0.; + Double_t b = b1; + + while (b < b2-0.005) { + Double_t nc = GetNumberOfCollisions(b); + sum += 10. * fgWStaa->Eval(b) * fgWSgeo->Eval(b) * 0.01 / (1. - TMath::Exp(-nc)); + sumc += 10. * fgWSgeo->Eval(b) * 0.01; + b += 0.01; + } + return (sum / CrossSection(b1, b2)); +} + + +Double_t AliFastGlauber::MeanNumberOfCollisionsPerEvent(Double_t b1, Double_t b2) +{ +// +// Calculate the mean number of collisions per event for impact parameter range b1 .. b2 +// + Double_t sum = 0.; + Double_t sumc = 0.; + Double_t b = b1; + + while (b < b2-0.005) { + Double_t nc = GetNumberOfCollisions(b); + sum += nc / (1. - TMath::Exp(-nc)) * 10. * fgWSgeo->Eval(b) * 0.01; + sumc += 10. * fgWSgeo->Eval(b) * 0.01; + b += 0.01; + } + return (sum / CrossSection(b1, b2)); +} + + Double_t AliFastGlauber::GetNumberOfBinaries(Double_t b) const { // // Return number of binary hard collisions at b // - if(b==0) b=1e-4; + if(b<1.e-4) b=1e-4; return fgWSN->Eval(b); } @@ -1013,7 +1118,7 @@ Double_t AliFastGlauber::Participants(Double_t b) const // // Return the number of participants normalized to 1 at b=0 // - if(b==0) b=1e-4; + if(b<1.e-4) b=1e-4; return (fgWParticipants->Eval(b)/fgWParticipants->Eval(1e-4)); } @@ -1022,7 +1127,7 @@ Double_t AliFastGlauber::GetNumberOfParticipants(Double_t b) const // // Return the number of participants for impact parameter b // - if(b==0) b=1e-4; + if(b<1.e-4) b=1e-4; return (fgWParticipants->Eval(b)); } @@ -1031,7 +1136,7 @@ Double_t AliFastGlauber::GetNumberOfCollisions(Double_t b) const // // Return the number of collisions for impact parameter b // - if(b==0) b=1e-4; + if(b<1.e-4) b=1e-4; return (fgWStaa->Eval(b)*fSigmaNN); } @@ -1166,7 +1271,7 @@ void AliFastGlauber::StoreAlmonds() const Char_t almondName[100]; TFile* ff = new TFile(fName.Data(),"update"); for(Int_t k=0; k<40; k++) { - sprintf(almondName,"WAlmondFixedB%d",k); + snprintf(almondName, 100, "WAlmondFixedB%d",k); Double_t b = 0.25+k*0.5; Info("StoreAlmonds"," b = %f\n",b); fgWAlmond->SetParameter(0,b); @@ -1217,7 +1322,7 @@ void AliFastGlauber::GetRandomBHard(Double_t& b) b = fgWSbinary->GetRandom(); Int_t bin = 2*(Int_t)b; if( (b-(Int_t)b) > 0.5) bin++; - fgWAlmondCurrent = &fgWAlmondFixedB[bin]; + fgWAlmondCurrent = fgWAlmondFixedB[bin]; return; } @@ -1375,7 +1480,7 @@ void AliFastGlauber::GetLengthsBackToBack(Double_t& ell1,Double_t& ell2, return; } -void AliFastGlauber::GetLengthsForPythia(Int_t n,Double_t* phi,Double_t* ell, Double_t b) +void AliFastGlauber::GetLengthsForPythia(Int_t n,Double_t* const phi,Double_t* ell, Double_t b) { // // Returns lenghts for n partons with azimuthal angles phi[n] @@ -1408,7 +1513,7 @@ void AliFastGlauber::PlotBDistr(Int_t n) return; } -void AliFastGlauber::PlotLengthDistr(Int_t n,Bool_t save,Char_t *fname) +void AliFastGlauber::PlotLengthDistr(Int_t n,Bool_t save,const char *fname) { // // Plot length distribution @@ -1435,7 +1540,7 @@ void AliFastGlauber::PlotLengthDistr(Int_t n,Bool_t save,Char_t *fname) return; } -void AliFastGlauber::PlotLengthB2BDistr(Int_t n,Bool_t save,Char_t *fname) +void AliFastGlauber::PlotLengthB2BDistr(Int_t n,Bool_t save,const char *fname) { // // Plot lengths back-to-back distributions @@ -1470,13 +1575,13 @@ void AliFastGlauber::PlotAlmonds() const gStyle->SetPalette(1,0); c->Divide(2,2); c->cd(1); - fgWAlmondFixedB[0].Draw("cont1"); + fgWAlmondFixedB[0]->Draw("cont1"); c->cd(2); - fgWAlmondFixedB[10].Draw("cont1"); + fgWAlmondFixedB[10]->Draw("cont1"); c->cd(3); - fgWAlmondFixedB[20].Draw("cont1"); + fgWAlmondFixedB[20]->Draw("cont1"); c->cd(4); - fgWAlmondFixedB[30].Draw("cont1"); + fgWAlmondFixedB[30]->Draw("cont1"); return; } @@ -1643,7 +1748,7 @@ void AliFastGlauber::GetI0I1ForPythiaAndXY(Int_t n,Double_t* phi, } void AliFastGlauber::PlotI0I1Distr(Int_t n,Double_t ellCut, - Bool_t save,Char_t *fname) + Bool_t save,const char *fname) { // // Plot I0-I1 distribution @@ -1725,7 +1830,7 @@ void AliFastGlauber::PlotI0I1Distr(Int_t n,Double_t ellCut, } void AliFastGlauber::PlotI0I1B2BDistr(Int_t n,Double_t ellCut, - Bool_t save,Char_t *fname) + Bool_t save,const char *fname) { // // Plot I0-I1 back-to-back distributions @@ -1763,3 +1868,18 @@ void AliFastGlauber::PlotI0I1B2BDistr(Int_t n,Double_t ellCut, return; } +AliFastGlauber& AliFastGlauber::operator=(const AliFastGlauber& rhs) +{ +// Assignment operator + rhs.Copy(*this); + return *this; +} + +void AliFastGlauber::Copy(TObject&) const +{ + // + // Copy + // + Fatal("Copy","Not implemented!\n"); +} +