/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Log$ Revision 1.30 2001/10/21 18:30:39 hristov Several pointers were set to zero in the default constructors to avoid memory management problems Revision 1.29 2001/10/17 14:19:24 hristov delete replaced by delete [] Revision 1.28 2001/10/05 12:02:01 vicinanz Minor improvements on Merger and SDigitizer Revision 1.27 2001/10/02 13:03:13 vicinanz Minor improvements on the code Revision 1.26 2001/09/27 10:39:20 vicinanz SDigitizer and Merger added Revision 1.25 2001/09/07 08:37:40 hristov Pointers initialised to 0 in the default constructor Revision 1.24 2001/09/05 16:31:00 hristov The deletion of TOF folders temporarily commented out Revision 1.23 2001/08/29 12:59:01 vicinanz Minor changes to the Digitizer procedure Revision 1.22 2001/08/28 08:45:58 vicinanz TTask and TFolder structures implemented Revision 1.21 2001/05/16 14:57:24 alibrary New files for folders and Stack Revision 1.20 2001/05/04 10:09:47 vicinanz Major upgrades to the strip structure Revision 1.19 2001/03/12 17:47:25 hristov Changes needed on Sun with CC 5.0 Revision 1.18 2001/01/26 19:57:42 hristov Major upgrade of AliRoot code Revision 1.17 2000/10/19 09:58:14 vicinanz Updated Hits2Digit procedure Revision 1.16 2000/10/02 21:28:17 fca Removal of useless dependecies via forward declarations Revision 1.15 2000/05/18 14:33:01 vicinanz Modified to be full HP compliant Revision 1.14 2000/05/15 19:32:36 fca Add AddHitList !! Revision 1.13 2000/05/10 16:52:18 vicinanz New TOF version with holes for PHOS/RICH Revision 1.11.2.1 2000/05/10 09:37:15 vicinanz New version with Holes for PHOS/RICH Revision 1.11 1999/11/05 22:39:06 fca New hits structure Revision 1.10 1999/11/01 20:41:57 fca Added protections against using the wrong version of FRAME Revision 1.9 1999/10/15 15:35:19 fca New version for frame1099 with and without holes Revision 1.9 1999/09/29 09:24:33 fca Introduction of the Copyright and cvs Log */ /////////////////////////////////////////////////////////////////////////////// // // // Time Of Flight // // This class contains the basic functions for the Time Of Flight // // detector. Functions specific to one particular geometry are // // contained in the derived classes // // // VERSIONE WITH 5 SYMMETRIC MODULES ALONG Z AXIS // ============================================== // // VERSION WITH HOLES FOR PHOS AND TRD IN SPACEFRAME WITH HOLES // // Volume sensibile : FPAD // // // // Begin_Html /*

*/ //End_Html // // // // /////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include "AliTOF.h" #include "AliTOFhit.h" #include "AliTOFdigit.h" #include "AliTOFSDigit.h" #include "AliTOFRawSector.h" #include "AliTOFRoc.h" #include "AliTOFRawDigit.h" #include "TROOT.h" #include "TBRIK.h" #include "TNode.h" #include "TObject.h" #include "TSystem.h" #include "TTree.h" #include "TFile.h" #include "TFolder.h" #include "TTask.h" #include "AliRun.h" #include "AliMC.h" #include "AliMagF.h" #include "AliConst.h" ClassImp(AliTOF) //_____________________________________________________________________________ AliTOF::AliTOF() { // // Default constructor // fFGeom = 0; fDTask = 0; fReTask = 0; fIshunt = 0; fSDigits = 0 ; fDigits = 0 ; fReconParticles = 0; fName="TOF"; fMerger = 0; /* fp CreateTOFFolders(); */ } //_____________________________________________________________________________ AliTOF::AliTOF(const char *name, const char *title) : AliDetector(name,title) { // // AliTOF standard constructor // // Here are fixed some important parameters // // Initialization of hits, sdigits and digits array // fHits = new TClonesArray("AliTOFhit", 1000); gAlice->AddHitList(fHits); fIshunt = 0; fSDigits = new TClonesArray("AliTOFSDigit", 1000); fDigits = new TClonesArray("AliTOFdigit", 1000); // // Digitization parameters // // (Transfer Functions to be inserted here) // SetMarkerColor(7); SetMarkerStyle(2); SetMarkerSize(0.4); // General Geometrical Parameters fNTof = 18; // number of sectors fRmax = 399.0;//cm fRmin = 370.0;//cm fZlenC = 177.5;//cm length of module C fZlenB = 141.0;//cm length of module B fZlenA = 106.0;//cm length of module A fZtof = 371.5;//cm total semi-length of TOF detector // Strip Parameters fStripLn = 122.0;//cm Strip Length fSpace = 5.5;//cm Space Beetween the strip and the bottom of the plate fDeadBndZ= 1.5;//cm Dead Boundaries of a Strip along Z direction (width) fDeadBndX= 1.0;//cm Dead Boundaries of a Strip along X direction (length) fXpad = 2.5;//cm X size of a pad fZpad = 3.5;//cm Z size of a pad fGapA = 4.; //cm Gap beetween tilted strip in A-type plate fGapB = 6.; //cm Gap beetween tilted strip in B-type plate fOverSpc = 15.3;//cm Space available for sensitive layers in radial direction fNpadX = 48; // Number of pads in a strip along the X direction fNpadZ = 2; // Number of pads in a strip along the Z direction fPadXStr = fNpadX*fNpadZ; //Number of pads per strip fNStripA = 15; // number of strips in A type module fNStripB = 19; // number of strips in B type module fNStripC = 20; // number of strips in C type module // Physical performances fTimeRes = 100.;//ps fChrgRes = 100.;//pC // DAQ characteristics // cfr. TOF-TDR pag. 105 for Glossary // TARODA : TOF-ALICE Read Out and Data Acquisition system fPadXSector = 8928; // number of pad per sector -with no holes- // ((15+2*19+2*20)*(48*2)) fNRoc = 14; // number of Roc (Read Out Controller) (TARODA) fNFec = 32; // number of Fec (Front-End electronic Card) // (TARODA) fNTdc = 32; // number of Tdc (Time to Digital Converter) fNPadXRoc = (Int_t)fPadXSector/fNRoc; // number of pads for each ROC /* fp 25 Sept 2001 // Create TOF Folder Structure CreateTOFFolders(); */ } //_____________________________________________________________________________ void AliTOF::CreateTOFFolders() { // create the ALICE TFolder // create the ALICE TTasks // create the ALICE main TFolder // to be done by AliRun TFolder * alice = new TFolder(); alice->SetNameTitle("FPAlice", "Alice Folder") ; gROOT->GetListOfBrowsables()->Add(alice) ; TFolder * aliceF = alice->AddFolder("folders", "Alice memory Folder") ; // make it the owner of the objects that it contains aliceF->SetOwner() ; // geometry folder TFolder * geomF = aliceF->AddFolder("Geometry", "Geometry objects") ; TFolder * aliceT = alice->AddFolder("tasks", "Alice tasks Folder") ; // make it the owner of the objects that it contains aliceT->SetOwner() ; TTask * aliceDi = new TTask("(S)Digitizer", "Alice SDigitizer & Digitizer") ; aliceT->Add(aliceDi); TTask * aliceRe = new TTask("Reconstructioner", "Alice Reconstructioner") ; aliceT->Add(aliceRe); char * tempo = new char[80] ; // creates the TOF Digitizer and adds it to alice main (S)Digitizer task sprintf(tempo, "%sDigitizers container",GetName() ) ; fDTask = new TTask(GetName(), tempo); aliceDi->Add(fDTask) ; // creates the TOF reconstructioner and adds it to alice main Reconstructioner task sprintf(tempo, "%sReconstructioner container",GetName() ) ; fReTask = new TTask(GetName(), tempo); aliceRe->Add(fReTask) ; delete [] tempo ; // creates the TOF geometry folder geomF->AddFolder("TOF", "Geometry for TOF") ; } //_____________________________________________________________________________ AliTOF::~AliTOF() { // dtor: // it remove also the alice folder // and task that TOF creates instead of AliRun /* PH Temporarily commented because of problems TFolder * alice = (TFolder*)gROOT->GetListOfBrowsables()->FindObject("FPAlice") ; delete alice; alice = 0; */ if (fHits) { fHits->Delete (); delete fHits; fHits = 0; } if (fDigits) { fDigits->Delete (); delete fDigits; fDigits = 0; } if (fSDigits) { fSDigits->Delete (); delete fSDigits; fSDigits = 0; } if (fReconParticles) { fReconParticles->Delete (); delete fReconParticles; fReconParticles = 0; } } //_____________________________________________________________________________ void AliTOF::AddHit(Int_t track, Int_t *vol, Float_t *hits) { // // Add a TOF hit // new with placement used // TClonesArray &lhits = *fHits; new(lhits[fNhits++]) AliTOFhit(fIshunt, track, vol, hits); } //_____________________________________________________________________________ void AliTOF::AddDigit(Int_t *tracks, Int_t *vol, Float_t *digits) { // // Add a TOF digit // new with placement used // TClonesArray &ldigits = *fDigits; new (ldigits[fNdigits++]) AliTOFdigit(tracks, vol, digits); } //___________________________________________ void AliTOF::AddSDigit(Int_t tracknum, Int_t *vol, Float_t *digits) { // // Add a TOF sdigit // TClonesArray &lSDigits = *fSDigits; new(lSDigits[fNSDigits++]) AliTOFSDigit(tracknum, vol, digits); } //_____________________________________________________________________________ void AliTOF::SetTreeAddress () { // Set branch address for the Hits and Digits Tree. char branchname[30]; AliDetector::SetTreeAddress (); TBranch *branch; TTree *treeD = gAlice->TreeD (); if (treeD) { if (fDigits) { branch = treeD->GetBranch (branchname); if (branch) branch->SetAddress (&fDigits); } } // if (fSDigits) // fSDigits->Clear (); if (gAlice->TreeS () && fSDigits) { branch = gAlice->TreeS ()->GetBranch ("TOF"); if (branch) branch->SetAddress (&fSDigits); } if (gAlice->TreeR() && fReconParticles) { branch = gAlice->TreeR()->GetBranch("TOF"); if (branch) branch->SetAddress(&fReconParticles) ; } } //_____________________________________________________________________________ void AliTOF::CreateGeometry() { // // Common geometry code // //Begin_Html /*

*/ //End_Html // const Double_t kPi=TMath::Pi(); const Double_t kDegrad=kPi/180.; // Float_t xTof, yTof, wall; // frame inbetween TOF modules wall = 4.;//cm // Sizes of TOF module with its support etc.. xTof = 2.*(fRmin*TMath::Tan(10*kDegrad)-wall/2-.5); yTof = fRmax-fRmin; // TOF module internal definitions TOFpc(xTof, yTof, fZlenC, fZlenB, fZlenA, fZtof); } //_____________________________________________________________________________ void AliTOF::DrawModule() const { // // Draw a shaded view of the common part of the TOF geometry // cout << " Drawing of AliTOF"<< endl; // Set everything unseen gMC->Gsatt("*", "seen", -1); // // Set ALIC mother transparent gMC->Gsatt("ALIC","SEEN",0); // // Set the volumes visible gMC->Gsatt("FTOA","SEEN",1); gMC->Gsatt("FTOB","SEEN",1); gMC->Gsatt("FTOC","SEEN",1); gMC->Gsatt("FLTA","SEEN",1); gMC->Gsatt("FLTB","SEEN",1); gMC->Gsatt("FLTC","SEEN",1); gMC->Gsatt("FSTR","SEEN",1); // gMC->Gdopt("hide", "on"); gMC->Gdopt("shad", "on"); gMC->Gsatt("*", "fill", 7); gMC->SetClipBox("."); gMC->SetClipBox("*", 0, 1000, -1000, 1000, -1000, 1000); gMC->DefaultRange(); gMC->Gdraw("alic", 40, 30, 0, 12, 9.5, .02, .02); gMC->Gdhead(1111, "Time Of Flight"); gMC->Gdman(18, 4, "MAN"); gMC->Gdopt("hide","off"); } //_____________________________________________________________________________ void AliTOF::CreateMaterials() { // // Defines TOF materials for all versions // Authors : Maxim Martemianov, Boris Zagreev (ITEP) // 18/09/98 // Revision: F. Pierella 5-3-2001 // Bologna University // Int_t isxfld = gAlice->Field()->Integ(); Float_t sxmgmx = gAlice->Field()->Max(); // //--- Quartz (SiO2) Float_t aq[2] = { 28.0855,15.9994 }; Float_t zq[2] = { 14.,8. }; Float_t wq[2] = { 1.,2. }; Float_t dq = 2.20; Int_t nq = -2; // --- Freon C2F4H2 (TOF-TDR pagg.) // Geant Manual CONS110-1, pag. 43 (Geant, Detector Description and Simulation Tool) Float_t afre[3] = {12.011,18.998,1.007}; Float_t zfre[3] = { 6., 9., 1.}; Float_t wfre[3] = { 2., 4., 2.}; Float_t densfre = 0.00375; // http://www.fi.infn.it/sezione/prevprot/gas/freon.html Int_t nfre = -3; /* //-- Isobutane quencher C4H10 (5% in the sensitive mixture) Float_t aiso[2] = {12.011,1.007}; Float_t ziso[2] = { 6., 1.}; Float_t wiso[2] = { 4., 10.}; Float_t densiso = .......; // (g/cm3) density Int_t nfre = -2; // < 0 i.e. proportion by number of atoms of each kind //-- SF6 (5% in the sensitive mixture) Float_t asf[3] = {32.066,18.998}; Float_t zsf[3] = { 16., 9.}; Float_t wsf[3] = { 1., 6.}; Float_t denssf = .....; // (g/cm3) density Int_t nfre = -2; // < 0 i.e. proportion by number of atoms of each kind */ // --- CO2 Float_t ac[2] = {12.,16.}; Float_t zc[2] = { 6., 8.}; Float_t wc[2] = { 1., 2.}; Float_t dc = .001977; Int_t nc = -2; // For mylar (C5H4O2) Float_t amy[3] = { 12., 1., 16. }; Float_t zmy[3] = { 6., 1., 8. }; Float_t wmy[3] = { 5., 4., 2. }; Float_t dmy = 1.39; Int_t nmy = -3; // For polyethilene (CH2) - honeycomb - Float_t ape[2] = { 12., 1. }; Float_t zpe[2] = { 6., 1. }; Float_t wpe[2] = { 1., 2. }; Float_t dpe = 0.935*0.479; //To have 1%X0 for 1cm as for honeycomb Int_t npe = -2; // --- G10 Float_t ag10[4] = { 12.,1.,16.,28. }; Float_t zg10[4] = { 6.,1., 8.,14. }; Float_t wmatg10[4] = { .259,.288,.248,.205 }; Float_t densg10 = 1.7; Int_t nlmatg10 = -4; // --- DME Float_t adme[5] = { 12.,1.,16.,19.,79. }; Float_t zdme[5] = { 6.,1., 8., 9.,35. }; Float_t wmatdme[5] = { .4056,.0961,.2562,.1014,.1407 }; Float_t densdme = .00205; Int_t nlmatdme = 5; // ---- ALUMINA (AL203) Float_t aal[2] = { 27.,16.}; Float_t zal[2] = { 13., 8.}; Float_t wmatal[2] = { 2.,3. }; Float_t densal = 2.3; Int_t nlmatal = -2; // -- Water Float_t awa[2] = { 1., 16. }; Float_t zwa[2] = { 1., 8. }; Float_t wwa[2] = { 2., 1. }; Float_t dwa = 1.0; Int_t nwa = -2; // //AliMaterial(0, "Vacuum$", 1e-16, 1e-16, 1e-16, 1e16, 1e16); AliMaterial( 1, "Air$",14.61,7.3,0.001205,30423.24,67500.); AliMaterial( 2, "Cu $", 63.54, 29.0, 8.96, 1.43, 14.8); AliMaterial( 3, "C $", 12.01, 6.0, 2.265,18.8, 74.4); AliMixture ( 4, "Polyethilene$", ape, zpe, dpe, npe, wpe); AliMixture ( 5, "G10$", ag10, zg10, densg10, nlmatg10, wmatg10); AliMixture ( 6, "DME ", adme, zdme, densdme, nlmatdme, wmatdme); AliMixture ( 7, "CO2$", ac, zc, dc, nc, wc); AliMixture ( 8, "ALUMINA$", aal, zal, densal, nlmatal, wmatal); AliMaterial( 9, "Al $", 26.98, 13., 2.7, 8.9, 37.2); AliMaterial(10, "C-TRD$", 12.01, 6., 2.265*18.8/69.282*15./100, 18.8, 74.4); // for 15% AliMixture (11, "Mylar$", amy, zmy, dmy, nmy, wmy); AliMixture (12, "Freon$", afre, zfre, densfre, nfre, wfre); AliMixture (13, "Quartz$", aq, zq, dq, nq, wq); AliMixture (14, "Water$", awa, zwa, dwa, nwa, wwa); Float_t epsil, stmin, deemax, stemax; // Previous data // EPSIL = 0.1 ! Tracking precision, // STEMAX = 0.1 ! Maximum displacement for multiple scattering // DEEMAX = 0.1 ! Maximum fractional energy loss, DLS // STMIN = 0.1 // // New data epsil = .001; // Tracking precision, stemax = -1.; // Maximum displacement for multiple scattering deemax = -.3; // Maximum fractional energy loss, DLS stmin = -.8; AliMedium( 1, "Air$" , 1, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 2, "Cu $" , 2, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 3, "C $" , 3, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 4, "Pol$" , 4, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 5, "G10$" , 5, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 6, "DME$" , 6, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 7, "CO2$" , 7, 0, isxfld, sxmgmx, 10., -.01, -.1, .01, -.01); AliMedium( 8,"ALUMINA$", 8, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium( 9,"Al Frame$",9, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(10, "DME-S$", 6, 1, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(11, "C-TRD$", 10, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(12, "Myl$" , 11, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(13, "Fre$" , 12, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(14, "Fre-S$", 12, 1, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(15, "Glass$", 13, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); AliMedium(16, "Water$", 14, 0, isxfld, sxmgmx, 10., stemax, deemax, epsil, stmin); } //_____________________________________________________________________________ Int_t AliTOF::DistancetoPrimitive(Int_t , Int_t ) const { // // Returns distance from mouse pointer to detector, default version // return 9999; } //___________________________________________ void AliTOF::ResetHits () { // Reset number of clusters and the cluster array for this detector AliDetector::ResetHits (); } //____________________________________________ void AliTOF::ResetDigits () { // // Reset number of digits and the digits array for this detector AliDetector::ResetDigits (); // } //_____________________________________________________________________________ void AliTOF::Init() { // // Initialise TOF detector after it has been built // // Set id of TOF sensitive volume if (IsVersion() !=0) fIdSens=gMC->VolId("FPAD"); // } //____________________________________________________________________________ void AliTOF::MakeBranch(Option_t* option, const char *file) { // // Initializes the Branches of the TOF inside the // trees written for each event. // AliDetector::MakeBranch initializes just the // Branch inside TreeH. Here we add the branches in // TreeD, TreeS and TreeR. // AliDetector::MakeBranch(option,file); Int_t buffersize = 4000; Char_t branchname[10]; sprintf(branchname,"%s",GetName()); const char *oD = strstr(option,"D"); const char *oS = strstr(option,"S"); const char *oR = strstr(option,"R"); if (oD) // // one branch for TOF digits // if (fDigits && gAlice->TreeD() && oD){ MakeBranchInTree(gAlice->TreeD(), branchname, &fDigits,buffersize, file) ; } if (oS) // // one branch for TOF sdigits // if (fSDigits && gAlice->TreeS() && oS){ MakeBranchInTree(gAlice->TreeS(), branchname, &fSDigits,buffersize, file) ; } if (oR) // // one branch for TOF reconstructed particles // if (fReconParticles && gAlice->TreeR() && oR){ MakeBranchInTree(gAlice->TreeR(), branchname, &fReconParticles,buffersize, file) ; } } //____________________________________________________________________________ void AliTOF::Makehits(Bool_t hits) { // default argument used, see AliTOF.h // Enable/Disable the writing of the TOF-hits branch // on TreeH // by default : enabled for TOFv1, v2, v3, v4 // disabled for TOFv0 // if (hits && (IsVersion()!=0)) fIdSens = gMC->VolId("FPAD"); else cout << "Option for writing the TOF-hits branch on TreeH: disabled" << endl; } //____________________________________________________________________________ void AliTOF::FinishEvent() { // do nothing } //___________________________________________ void AliTOF::SDigits2Digits() { // // Generate digits performing merging // /* int nparticles = gAlice->GetNtrack(); cout << "Particles :" < 0 ) { AliTOF::Hits2Digits(); } */ cout<<"AliTOF::SDigits2Digits"<Init(); cout<<"AliTOF::SDigits2Digits Init"<Digitise(); cout<<"AliTOF::SDigits2Digits Digitise() "< start...\n"; //#endif char * fileSDigits = 0 ; char * fileHeader = 0; AliTOFSDigitizer * sd = new AliTOFSDigitizer(fileHeader,fileSDigits) ; sd->Exec("") ; sd->Print(""); delete sd ; } //___________________________________________________________________________ Bool_t AliTOF::CheckOverlap(Int_t* vol, Float_t* digit,Int_t Track) { // // Checks if 2 or more hits belong to the same pad. // In this case the data assigned to the digit object // are the ones of the first hit in order of Time. // 2 hits from the same track on the same pad are collected. // Called only by Hits2SDigits. // This procedure has to be optimized in the next TOF release. // Bool_t overlap = kFALSE; Int_t vol2[5]; for (Int_t ndig=0; ndigGetEntries(); ndig++){ AliTOFdigit* currentDigit = (AliTOFdigit*)(fSDigits->UncheckedAt(ndig)); currentDigit->GetLocation(vol2); Bool_t idem= kTRUE; // check on digit volume for (Int_t i=0;i<=4;i++){ if (!idem) break; if (vol[i]!=vol2[i]) idem=kFALSE;} if (idem){ // same pad fired Float_t tdc2 = digit[0]; Float_t tdc1 = currentDigit->GetTdc(); // we separate two digits on the same pad if // they are separated in time by at least 25 ns // remember that tdc time is given in ps if (TMath::Abs(tdc1-tdc2)<25000){ // in case of overlap we take the earliest if (tdc1>tdc2){ currentDigit->SetTdc(tdc2); currentDigit->SetAdc(digit[1]); } else { currentDigit->SetTdc(tdc1); currentDigit->SetAdc(digit[1]); } currentDigit->AddTrack(Track); // add track number in the track array overlap = kTRUE; return overlap; } else overlap= kFALSE; } // close if (idem) -> two digits on the same TOF pad } // end loop on existing sdigits return overlap; } //____________________________________________________________________________ void AliTOF::Digits2Raw(Int_t evNumber) { // // Starting from digits, writes the // Raw Data objects, i.e. a // TClonesArray of 18 AliTOFRawSector objects // TTree* tD; // do nothing if no particles Int_t nparticles = gAlice->GetEvent(evNumber); if (nparticles <= 0) return; tD = gAlice->TreeD(); TClonesArray* tofdigits = this->Digits(); Int_t ndigits = tofdigits->GetEntriesFast(); TClonesArray* rawsectors = new TClonesArray("AliTOFRawSector",fNTof+2); for (Int_t isect=1;isect<=fNTof;isect++){ AliTOFRawSector* currentSector = (AliTOFRawSector*)rawsectors->UncheckedAt(isect); TClonesArray* rocData = (TClonesArray*)currentSector->GetRocData(); for (Int_t digit=0; digitUncheckedAt(digit); Int_t sector = currentDigit->GetSector(); if (sector==isect){ Int_t pad = currentDigit -> GetTotPad(); Int_t roc = (Int_t)(pad/fNPadXRoc)-1; if (roc>=fNRoc) printf("Wrong n. of ROC ! Roc = %i",roc); Int_t padRoc = (Int_t) pad%fNPadXRoc; Int_t fec = (Int_t)(padRoc/fNFec)-1; Int_t tdc = (Int_t)(padRoc%fNFec)-1; Float_t time = currentDigit->GetTdc(); Float_t charge = currentDigit->GetAdc(); AliTOFRoc* currentROC = (AliTOFRoc*)rocData->UncheckedAt(roc); Int_t error = 0; currentROC->AddItem(fec, tdc, error, charge, time); } // close if (sector==isect) i.e. end loop on digits for the current sector } // end loop on TOF digits UInt_t totSize=16,rocSize=0; UInt_t rocHead[14],rocChek[14]; UInt_t globalCheckSum=0; for (UInt_t iRoc = 1; iRoc<(UInt_t)fNRoc; iRoc++){ AliTOFRoc* currentRoc = (AliTOFRoc*)rocData->UncheckedAt(iRoc); rocSize = currentRoc->GetItems()*2+1; totSize += rocSize*4; if (rocSize>=TMath::Power(2,16)) rocSize=0; rocHead[iRoc] = iRoc<<28; rocHead[iRoc] += rocSize; rocChek[iRoc] = currentRoc->GetCheckSum(); Int_t headCheck = currentRoc->BitCount(rocHead[iRoc]); globalCheckSum += headCheck; globalCheckSum += rocChek[iRoc]; } AliTOFRoc* dummyRoc = new AliTOFRoc(); totSize *= 4; if (totSize>=TMath::Power(2,24)) totSize=0; UInt_t header = totSize; UInt_t sectId = ((UInt_t)isect)<<24; header += sectId; globalCheckSum += dummyRoc->BitCount(header); currentSector->SetGlobalCS(globalCheckSum); currentSector->SetHeader(header); } } //____________________________________________________________________________ void AliTOF::Raw2Digits(Int_t evNumber) { // // Converts Raw Data objects into digits objects. // We schematize the raw data with a // TClonesArray of 18 AliTOFRawSector objects // TTree *tD; Int_t vol[5]; Int_t tracks[3]; Float_t digit[2]; tracks[0]=0; tracks[1]=0; tracks[2]=0; Int_t nparticles = gAlice->GetEvent(evNumber); if (nparticles <= 0) return; tD = gAlice->TreeD(); TClonesArray* rawsectors = new TClonesArray("AliTOFRawSector",fNTof+2); for(Int_t nSec=1; nSec<=fNTof; nSec++){ AliTOFRawSector* currentSector = (AliTOFRawSector*)rawsectors->UncheckedAt(nSec); TClonesArray* rocData = (TClonesArray*)currentSector->GetRocData(); for(Int_t nRoc=1; nRoc<=14; nRoc++){ AliTOFRoc* currentRoc = (AliTOFRoc*)rocData->UncheckedAt(nRoc); Int_t currentItems = currentRoc->GetItems(); for(Int_t item=1; itemGetTotPad(item); vol[0] = nSec; Int_t nStrip = (Int_t)(nPad/fPadXStr)+1; Int_t nPlate = 5; if (nStrip<=fNStripC+2*fNStripB+fNStripA) nPlate = 4; if (nStrip<=fNStripC+fNStripB+fNStripA) nPlate = 3; if (nStrip<=fNStripC+fNStripB) nPlate = 2; if (nStrip<=fNStripC) nPlate=1; vol[1] = nPlate; switch (nPlate){ case 1: break; case 2: nStrip -= (fNStripC); break; case 3: nStrip -= (fNStripC+fNStripB); break; case 4: nStrip -= (fNStripC+fNStripB+fNStripA); break; case 5: nStrip -= (fNStripC+2*fNStripB+fNStripA); break; } vol[2] = nStrip; Int_t pad = nPad%fPadXStr; if (pad==0) pad=fPadXStr; Int_t nPadX=0, nPadZ=0; (pad>fNpadX)? nPadX -= fNpadX : nPadX = pad ; vol[3] = nPadX; (pad>fNpadX)? nPadZ = 2 : nPadZ = 1 ; vol[4] = nPadZ; UInt_t error=0; Float_t tdc = currentRoc->GetTime(item,error); if (!error) digit[0]=tdc; digit[1] = currentRoc->GetCharge(item); AddDigit(tracks,vol,digit); } } } tD->Fill(); tD->Write(0,TObject::kOverwrite); }