/************************************************************************** * Copyright(c) 2007-2009, 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. * **************************************************************************/ /////////////////////////////////////////////////////////////////////////// // Plane Efficiency class for ITS // It is used for chip by chip efficiency (eventually with sui-bwing division // along the drift direction) of the SDD, // evaluated by tracks // (Inherits from AliITSPlaneEff) // Author: G.E. Bruno // giuseppe.bruno@ba.infn.it // /////////////////////////////////////////////////////////////////////////// /* $Id$ */ #include #include #include #include #include #include "AliITSPlaneEffSDD.h" #include "AliLog.h" #include "AliCDBStorage.h" #include "AliCDBEntry.h" #include "AliCDBManager.h" //#include "AliCDBRunRange.h" #include "AliITSgeom.h" #include "AliITSCalibrationSDD.h" #include "AliITSsegmentationSDD.h" ClassImp(AliITSPlaneEffSDD) //______________________________________________________________________ AliITSPlaneEffSDD::AliITSPlaneEffSDD(): AliITSPlaneEff(), fHisResX(0), fHisResZ(0), fHisResXZ(0), fHisClusterSize(0), fProfResXvsCluSizeX(0), //fHisResXclu(0), fHisResZclu(0), fProfResXvsX(0), fProfResZvsX(0), fProfClustSizeXvsX(0), fProfClustSizeZvsX(0), fHisTrackErrX(0), fHisTrackErrZ(0), fHisClusErrX(0), fHisClusErrZ(0){ for (UInt_t i=0; iCopy(*fHisResX[i]); s.fHisResZ[i]->Copy(*fHisResZ[i]); s.fHisResXZ[i]->Copy(*fHisResXZ[i]); s.fHisClusterSize[i]->Copy(*fHisClusterSize[i]); s.fProfResXvsCluSizeX[i]->Copy(*fProfResXvsCluSizeX[i]); for(Int_t clu=0; clu cluster size 1 //s.fHisResXclu[i][clu]->Copy(*fHisResXclu[i][clu]); s.fHisResZclu[i][clu]->Copy(*fHisResZclu[i][clu]); } s.fProfResXvsX[i]->Copy(*fProfResXvsX[i]); s.fProfResZvsX[i]->Copy(*fProfResZvsX[i]); s.fProfClustSizeXvsX[i]->Copy(*fProfClustSizeXvsX[i]); s.fProfClustSizeZvsX[i]->Copy(*fProfClustSizeZvsX[i]); s.fHisTrackErrX[i]->Copy(*fHisTrackErrX[i]); s.fHisTrackErrZ[i]->Copy(*fHisTrackErrZ[i]); s.fHisClusErrX[i]->Copy(*fHisClusErrX[i]); s.fHisClusErrZ[i]->Copy(*fHisClusErrZ[i]); } } } //_________________________________________________________________________ AliITSPlaneEffSDD& AliITSPlaneEffSDD::operator+=(const AliITSPlaneEffSDD &add){ // Add-to-me operator // Inputs: // const AliITSPlaneEffSDD &add simulation class to be added // Outputs: // none. // Return: // none for (UInt_t i=0; iAdd(add.fHisResX[i]); fHisResZ[i]->Add(add.fHisResZ[i]); fHisResXZ[i]->Add(add.fHisResXZ[i]); fHisClusterSize[i]->Add(add.fHisClusterSize[i]); fProfResXvsCluSizeX[i]->Add(add.fProfResXvsCluSizeX[i]); for(Int_t clu=0; clu cluster size 1 //fHisResXclu[i][clu]->Add(add.fHisResXclu[i][clu]); fHisResZclu[i][clu]->Add(add.fHisResZclu[i][clu]); } fProfResXvsX[i]->Add(add.fProfResXvsX[i]); fProfResZvsX[i]->Add(add.fProfResZvsX[i]); fProfClustSizeXvsX[i]->Add(add.fProfClustSizeXvsX[i]); fProfClustSizeZvsX[i]->Add(add.fProfClustSizeZvsX[i]); fHisTrackErrX[i]->Add(add.fHisTrackErrX[i]); fHisTrackErrZ[i]->Add(add.fHisTrackErrZ[i]); fHisClusErrX[i]->Add(add.fHisClusErrX[i]); fHisClusErrZ[i]->Add(add.fHisClusErrZ[i]); } } return *this; } //______________________________________________________________________ AliITSPlaneEffSDD& AliITSPlaneEffSDD::operator=(const AliITSPlaneEffSDD &s){ // Assignment operator // Inputs: // AliITSPlaneEffSDD &s The original class for which // this class is a copy of // Outputs: // none. // Return: if(this==&s) return *this; s.Copy(*this); return *this; } //______________________________________________________________________ void AliITSPlaneEffSDD::Copy(TObject &obj) const { // protected method. copy this to obj AliITSPlaneEff::Copy(obj); AliITSPlaneEffSDD& target = (AliITSPlaneEffSDD &) obj; for(Int_t i=0;i cluster size 1 //target.fHisResXclu[i][clu] = new TH1F(*fHisResXclu[i][clu]); target.fHisResZclu[i][clu] = new TH1F(*fHisResZclu[i][clu]); } target.fProfResXvsX[i]=new TProfile(*fProfResXvsX[i]); target.fProfResZvsX[i]=new TProfile(*fProfResZvsX[i]); target.fProfClustSizeXvsX[i]=new TProfile(*fProfClustSizeXvsX[i]); target.fProfClustSizeZvsX[i]=new TProfile(*fProfClustSizeZvsX[i]); target.fHisTrackErrX[i] = new TH1F(*fHisTrackErrX[i]); target.fHisTrackErrZ[i] = new TH1F(*fHisTrackErrZ[i]); target.fHisClusErrX[i] = new TH1F(*fHisClusErrX[i]); target.fHisClusErrZ[i] = new TH1F(*fHisClusErrZ[i]); } } return; } /* Commented out by M.Masera 8/3/08 //______________________________________________________________________ AliITSPlaneEff& AliITSPlaneEffSDD::operator=(const AliITSPlaneEff &s){ // Assignment operator // Inputs: // AliITSPlaneEffSDD &s The original class for which // this class is a copy of // Outputs: // none. // Return: if(&s == this) return *this; AliError("operator=: Not allowed to make a =, use default creater instead"); return *this; } */ //_______________________________________________________________________ Int_t AliITSPlaneEffSDD::GetMissingTracksForGivenEff(Double_t eff, Double_t RelErr, UInt_t im, UInt_t ic, UInt_t iw, UInt_t is) const { // Estimate the number of tracks still to be collected to attain a // given efficiency eff, with relative error RelErr // Inputs: // eff -> Expected efficiency (e.g. those from actual estimate) // RelErr -> tollerance [0,1] // im -> module number [0,259] // ic -> chip number [0,3] // iw -> wing number [0,1] // is -> chip number [0,kNSubWing-1] // Outputs: none // Return: the estimated n. of tracks // if (im>=kNModule || ic>=kNChip || iw>=kNWing || is>=kNSubWing) {AliError("GetMissingTracksForGivenEff: you asked for a non existing block"); return -1;} else { UInt_t key=GetKey(im,ic,iw,is); if (key module number [0,259] // ic -> chip number [0,3] // iw -> wing number [0,1] // is -> chip number [0,kNSubWing-1] if (im>=kNModule || ic>=kNChip || iw>=kNWing || is>=kNSubWing) {AliError("PlaneEff(UInt_t,UInt_t,UInt_t,UInt_t): you asked for a non existing block"); return -1.;} UInt_t key=GetKey(im,ic,iw,is); Int_t nf=-1; Int_t nt=-1; if (key module number [0,259] // ic -> chip number [0,3] // iw -> wing number [0,1] // is -> chip number [0,kNSubWing-1] if (im>=kNModule || ic>=kNChip || iw>=kNWing || is>=kNSubWing) {AliError("ErrPlaneEff(UInt_t,UInt_t,UInt_t,UInt_t): you asked for a non existing block"); return -1.;} UInt_t key=GetKey(im,ic,iw,is); Int_t nf=-1; Int_t nt=-1; if (key=kNModule || ic>=kNChip || iw>=kNWing || is>=kNSubWing) {AliError("UpDatePlaneEff: you asked for a non existing block"); return kFALSE;} UInt_t key=GetKey(im,ic,iw,is); if (key=kNAnode*kNChip*kNWing) {AliError("ChipAndWingFromAnode: you asked for a non existing anode"); chip=999; wing=99; return;} wing=0; chip=anode/kNAnode; if(anode>=kNChip*kNAnode) wing=1; if(wing==1) chip-=kNChip; return; } //_________________________________________________________________________ UInt_t AliITSPlaneEffSDD::ChipFromAnode(const UInt_t anode) const { // Retun the chip number [0,3] given the anode number // input: anode number [0,511] if(anode>=kNAnode*kNChip*kNWing) {AliError("ChipFromAnode: you asked for a non existing anode"); return 999;} Int_t wing=0; Int_t chip=anode/kNAnode; if(anode>=kNChip*kNAnode) wing=1; if(wing==1)chip-=kNChip; return chip; } //_________________________________________________________________________ UInt_t AliITSPlaneEffSDD::WingFromAnode(const UInt_t anode) const { // return the wing number [0,1] given the anode number // input: anode number [0,511] if(anode>=kNAnode*kNChip*kNWing) {AliError("WingFromAnode: you asked for a non existing anode"); return 99;} Int_t wing=0; if(anode>=kNChip*kNAnode) wing=1; return wing; } //__________________________________________________________________________ UInt_t AliITSPlaneEffSDD::GetKey(const UInt_t mod, const UInt_t chip, const UInt_t wing, const UInt_t subw) const { // get key given a basic block if(mod>=kNModule || chip>=kNChip || wing>= kNWing || subw>=kNSubWing) {AliError("GetKey: you asked for a non existing block"); return 99999;} return mod*kNChip*kNWing*kNSubWing+chip*kNWing*kNSubWing+wing*kNSubWing+subw; } //__________________________________________________________________________ UInt_t AliITSPlaneEffSDD::GetModFromKey(const UInt_t key) const { // get mod. from key if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetModFromKey: you asked for a non existing key"); return 9999;} return key/(kNChip*kNWing*kNSubWing); } //__________________________________________________________________________ UInt_t AliITSPlaneEffSDD::GetChipFromKey(const UInt_t key) const { // retrieves chip from key if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetChipFromKey: you asked for a non existing key"); return 999;} return (key%(kNChip*kNWing*kNSubWing))/(kNWing*kNSubWing); } //__________________________________________________________________________ UInt_t AliITSPlaneEffSDD::GetWingFromKey(const UInt_t key) const { // retrieves wing from key if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetWingFromKey: you asked for a non existing key"); return 99;} return ((key%(kNChip*kNWing*kNSubWing))%(kNWing*kNSubWing))/(kNSubWing); } //__________________________________________________________________________ UInt_t AliITSPlaneEffSDD::GetSubWingFromKey(const UInt_t key) const { // retrieves sub-wing from key if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetSubWingFromKey: you asked for a non existing key"); return 9;} return ((key%(kNChip*kNWing*kNSubWing))%(kNWing*kNSubWing))%(kNSubWing); } //__________________________________________________________________________ void AliITSPlaneEffSDD::GetAllFromKey(const UInt_t key,UInt_t& mod,UInt_t& chip, UInt_t& wing,UInt_t& subw) const { // get module, chip, wing and subwing from a key if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetAllFromKey: you asked for a non existing key"); mod=9999; chip=999; wing=99; subw=9; return;} mod=GetModFromKey(key); chip=GetChipFromKey(key); wing=GetWingFromKey(key); subw=GetSubWingFromKey(key); return; } //____________________________________________________________________________ Double_t AliITSPlaneEffSDD::LivePlaneEff(UInt_t key) const { // returns plane efficieny after adding the fraction of sensor which is bad if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("LivePlaneEff: you asked for a non existing key"); return -1.;} Double_t leff=AliITSPlaneEff::LivePlaneEff(0); // this just for the Warning leff=PlaneEff(key)+GetFracBad(key); return leff>1?1:leff; } //____________________________________________________________________________ Double_t AliITSPlaneEffSDD::ErrLivePlaneEff(UInt_t key) const { // returns error on live plane efficiency if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("ErrLivePlaneEff: you asked for a non existing key"); return -1.;} Int_t nf=fFound[key]; Double_t triedInLive=GetFracLive(key)*fTried[key]; Int_t nt=TMath::Max(nf,TMath::Nint(triedInLive)); return AliITSPlaneEff::ErrPlaneEff(nf,nt); // for the time being: to be checked } //_____________________________________________________________________________ Double_t AliITSPlaneEffSDD::GetFracLive(const UInt_t key) const { // returns the fraction of the sensor which is OK if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetFracLive: you asked for a non existing key"); return -1.;} // Compute the fraction of bad (dead+noisy) detector UInt_t bad=0; GetBadInBlock(key,bad); Double_t live=bad; live/=(kNAnode); return 1.-live; } //_____________________________________________________________________________ void AliITSPlaneEffSDD::GetBadInBlock(const UInt_t key, UInt_t& nrBadInBlock) const { // Compute the number of bad (dead+noisy) anodes inside a block // (it depends on the chip, not on the sub-wing) nrBadInBlock=0; if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetBadInBlock: you asked for a non existing key"); return;} // if(!fInitCDBCalled) {AliError("GetBadInBlock: CDB not inizialized: call InitCDB first"); return;}; AliCDBManager* man = AliCDBManager::Instance(); // retrieve map of dead Pixel AliCDBEntry *cdbSDD = man->Get("ITS/Calib/CalibSDD", fRunNumber); TObjArray* sddEntry; if(cdbSDD) { sddEntry = (TObjArray*)cdbSDD->GetObject(); if(!sddEntry) {AliError("GetBadInBlock: SDDEntry not found in CDB"); return;} } else { AliError("GetBadInBlock: Did not find Calib/CalibSDD"); return; } // UInt_t mod=GetModFromKey(key); UInt_t chip=GetChipFromKey(key); UInt_t wing=GetWingFromKey(key); // count number of dead AliITSCalibrationSDD* calibSDD=(AliITSCalibrationSDD*) sddEntry->At(mod); UInt_t nrBad = calibSDD-> GetDeadChannels(); for (UInt_t index=0; indexGetBadChannel(index))==chip && WingFromAnode(calibSDD->GetBadChannel(index))==wing ) nrBadInBlock++; } return; } //_____________________________________________________________________________ Double_t AliITSPlaneEffSDD::GetFracBad(const UInt_t key) const { // returns 1-fractional live if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliError("GetFracBad: you asked for a non existing key"); return -1.;} return 1.-GetFracLive(key); } //_____________________________________________________________________________ Bool_t AliITSPlaneEffSDD::WriteIntoCDB() const { // write onto CDB if(!fInitCDBCalled) {AliError("WriteIntoCDB: CDB not inizialized: call InitCDB first"); return kFALSE;} // to be written properly: now only for debugging AliCDBMetaData *md= new AliCDBMetaData(); // metaData describing the object md->SetObjectClassName("AliITSPlaneEff"); md->SetResponsible("Giuseppe Eugenio Bruno"); md->SetBeamPeriod(0); md->SetAliRootVersion("head 02/01/08"); //root version AliCDBId id("ITS/PlaneEff/PlaneEffSDD",0,AliCDBRunRange::Infinity()); AliITSPlaneEffSDD eff; eff=*this; Bool_t r=AliCDBManager::Instance()->GetDefaultStorage()->Put(&eff,id,md); delete md; return r; } //_____________________________________________________________________________ Bool_t AliITSPlaneEffSDD::ReadFromCDB() { // read from CDB if(!fInitCDBCalled) {AliError("ReadFromCDB: CDB not inizialized: call InitCDB first"); return kFALSE;} AliCDBEntry *cdbEntry = AliCDBManager::Instance()->Get("ITS/PlaneEff/PlaneEffSDD",fRunNumber); if(!cdbEntry) return kFALSE; AliITSPlaneEffSDD* eff= (AliITSPlaneEffSDD*)cdbEntry->GetObject(); if(this==eff) return kFALSE; if(fHis) CopyHistos(*eff); // If histos already exist then copy them to eff eff->Copy(*this); // copy everything (statistics and histos) from eff to this return kTRUE; } //_____________________________________________________________________________ Bool_t AliITSPlaneEffSDD::AddFromCDB(AliCDBId *cdbId) { AliCDBEntry *cdbEntry=0; if (!cdbId) { if(!fInitCDBCalled) {AliError("ReadFromCDB: CDB not inizialized. Call InitCDB first"); return kFALSE;} cdbEntry = AliCDBManager::Instance()->Get("ITS/PlaneEff/PlaneEffSDD",fRunNumber); } else { cdbEntry = AliCDBManager::Instance()->Get(*cdbId); } if(!cdbEntry) return kFALSE; AliITSPlaneEffSDD* eff= (AliITSPlaneEffSDD*)cdbEntry->GetObject(); *this+=*eff; return kTRUE; } //_____________________________________________________________________________ UInt_t AliITSPlaneEffSDD::GetKeyFromDetLocCoord(Int_t ilay, Int_t idet, Float_t locx, Float_t locz) const { // method to locate a basic block from Detector Local coordinate (to be used in tracking) // // From AliITSsegmentationSDD rev. 24315 2008-03-05: // ^x_loc // | // _________________________|0_________________________ // |0 1 .. | |. | 255| (anode numbers) // | | |. | | // | | |. | | CHANNEL (i.e. WING) = 1 // | chip=0 | chip=1 |. chip=2 | chip=3 | // | | |. | | // |____________|____________|256_________|____________|______\ local z (cm) // | | |. | | / // | | |. | | // | chip=7 | chip=6 |. chip=5 | chip=4 | CHANNEL (i.e. WING) = 0 // | | |. | | // | | |. | | // |____________|____________|0___________|____________| // 511 510 ... ^ .. 257 256 (anode numbers) // |_ (time bins) // // If kNSubWing = 1, i.e. no sub-wing subdivision, then the numbering scheme of the // unique key is the following, e.g. for the first detector (idet=0, ilayer=2) // // ^x_loc (cm) // | // _________________________|__________________________ 3.5085 // | | | | | // | | | | | // | | | | | // | key=0 | key=2 | key=4 | key=6 | // | | | | | // |____________|____________|____________|____________|_0_____\ local z (cm) // | | | | | / // | | | | | // | key=7 | key=5 | key=3 | key=1 | // | | | | | // | | | | | // |____________|____________|____________|____________| -3.5085 //-3.7632 -1.8816 0 1.1186 3.7632 // // for the second detector (idet=2, ilay=2), the same as above but +8: first one 8 (bottom-left), // last one is 15 (lower-left), and so on. // // If subwing division has been applied, then you count as in the schemes below // E.g. kNSubWing=2. (It was much simpler with old AliITSsegmentation numbering!) // // ^x_loc (cm) // | // _________________________|__________________________ 3.5085 // | | | | | // | key=0 | key=4 | key=8 | key=12 | // |____________|____________|____________|____________| 1.75425 // | | | | | // | key=1 | key=5 | key=9 | key=13 | // |____________|____________|____________|____________|_0_____\ local z (cm) // | | | | | / // | key=15 | key=11 | key=7 | key=3 | // |____________|____________|____________|____________| -1.75425 // | | | | | // | key=14 | key=10 | key=6 | key=2 | // |____________|____________|____________|____________| -3.5085 //-3.7632 -1.8816 0 1.1186 3.7632 // // E.g. kNSubWing=3 // ^x_loc (cm) // | // _________________________|__________________________ 3.5085 // | 0 | 6 | 12 | 18 | // |____________|____________|____________|____________| 2.339 // | 1 | 7 | 13 | 19 | // |____________|____________|____________|____________| 1.1695 // | 2 | 8 | 14 | 20 | // |____________|____________|____________|____________|_0_____\ local z (cm) // | 23 | 17 | 11 | 5 | / // |____________|____________|____________|____________| -1.1695 // | key=22 | key=16 | key=10 | key=4 | // |____________|____________|____________|____________| -2.339 // | 21 | 15 | 9 | 3 | // |____________|____________|____________|____________| -3.5085 //-3.7632 -1.8816 0 1.1186 3.7632 //___________________________________________________________________________ // UInt_t key=999999; if(ilay<2 || ilay>3) {AliError("GetKeyFromDetLocCoord: you asked for a non existing layer"); return key;} if(ilay==2 && (idet<0 || idet>83)) {AliError("GetKeyFromDetLocCoord: you asked for a non existing detector"); return key;} if(ilay==3 && (idet<0 || idet>175)) {AliError("GetKeyFromDetLocCoord: you asked for a non existing detector"); return key;} UInt_t mod=idet; if(ilay==3) mod+=84; UInt_t chip=0,wing=0,subw=0; ChipAndWingAndSubWingFromLocCoor(locx,locz,chip,wing,subw); key=GetKey(mod,chip,wing,subw); return key; } //_____________________________________________________________________________ void AliITSPlaneEffSDD::ChipAndWingAndSubWingFromLocCoor(Float_t xloc, Float_t zloc, UInt_t& chip, UInt_t& wing, UInt_t& subw) const { //AliITSgeom* geom=NULL; //AliITSsegmentationSDD* sdd=new AliITSsegmentationSDD(geom); AliITSsegmentationSDD sdd; sdd.SetDriftSpeed(sdd.GetDriftSpeed()); // this only for setting fSetDriftSpeed=kTRUE !!! Int_t ix,iz; Int_t ntb; UInt_t anode=0; if(sdd.LocalToDet(xloc,zloc,ix,iz)) { anode+=iz; ChipAndWingFromAnode(anode,chip,wing); if(sdd.LocalToDet(0.,0.,ntb,iz)) { // in this way the sub-division along time coordinate subw=SubWingFromTimeBin(ix,ntb); } // is purely geometrical one and it does not else { // depen on the drift-velocity. AliError("ChipAndWingAndSubWingFromLocCoor: cannot calculate n. of time bins for SubWing."); subw=9; } } else { AliError("ChipAndWingAndSubWingFromLocCoor: cannot calculate anode number and time bin."); chip=999; wing=99; subw=9; } //delete geom; } //__________________________________________________________________________________ UInt_t AliITSPlaneEffSDD::SubWingFromTimeBin(const Int_t tb, const Int_t ntb) const { if(tb<0 || tb>ntb || ntb<0) { AliError(Form("SubWingFromTimeBin: you asked time bin = %d with %d n. of bins",tb,ntb)); return 9; } //AliDebug(Form("tb = %d, ntb= %d , NSubWing = %d",tb,ntb,kNSubWing)); Float_t h=tb; h/=ntb; h*=(kNSubWing-1); return TMath::Nint(h); } //________________________________________________________ Bool_t AliITSPlaneEffSDD::GetBlockBoundaries(const UInt_t key, Float_t& xmn,Float_t& xmx, Float_t& zmn,Float_t& zmx) const { // // This method return the geometrical boundaries of the active volume of a given // basic block, in the detector reference system. // Input: unique key to locate a basic block. // // Output: Ymin, Ymax, Zmin, Zmax of a basic block (chip for SPD) // Return: kTRUE if computation was succesfully, kFALSE otherwise // // the following scheemes will help in following the method implementation // E.g. kNSubWing=1 // ^x_loc (cm) // for all: subw=0 | // _________________________|__________________________ 3.5085 // | wing=0 | wing=0 | wing=0 | wing=0 | // | chip=0 | chip=1 | chip=2 | chip=3 | // | key=0 | key=2 | key=4 | key=6 | // |____________|____________|____________|____________|_0_____\ local z (cm) // | wing=1 | wing=1 | wing=1 | wing=1 | / // | chip=3 | chip=2 | chip=1 | chip=0 | // | key=7 | key=5 | key=3 | key=1 | // |____________|____________|____________|____________| -3.5085 //-3.7632 -1.8816 0 1.1186 3.7632 // // E.g. kNSubWing=2 // ^x_loc (cm) // | // _________________________|__________________________ 3.5085 // | chip=0 | chip=1 | chip=2 | chip=3 | // | key=0 | key=4 | key=8 | key=12 | subw=0 // |____________|____________|____________|____________| wing=0 // | chip=0 | chip=1 | chip=2 | chip=3 | subw=1 // | key=1 | key=5 | key=9 | key=13 | // |____________|____________|____________|____________|_0________\ local z (cm) // | chip=3 | chip=2 | chip=1 | chip=0 | / // | key=15 | key=11 | key=7 | key=3 | subw=1 // |____________|____________|____________|____________| wing=1 // | chip=3 | chip=2 | chip=1 | chip=0 | subw=0 // | key=14 | key=10 | key=6 | key=2 | // |____________|____________|____________|____________| -3.5085 //-3.7632 -1.8816 0 1.1186 3.7632 // if(key>=kNModule*kNChip*kNWing*kNSubWing) {AliWarning("GetBlockBoundaries: you asked for a non existing key"); return kFALSE;} // as it is now it is consistent with new AliITSsegmentationSDD numbering ! const Float_t kDxDefault = 35085.; // For Plane Eff. purpouses, default values const Float_t kDzDefault = 75264.; // are precise enough !!! const Float_t kconv = 1.0E-04; //converts microns to cm. UInt_t chip=GetChipFromKey(key); UInt_t wing=GetWingFromKey(key); UInt_t subw=GetSubWingFromKey(key); if(wing==1) { // count x from below, z from right xmn=kconv*(kDxDefault/kNSubWing*subw-kDxDefault); xmx=kconv*(kDxDefault/kNSubWing*(subw+1)-kDxDefault); zmn=kconv*(kDzDefault*0.5-kDzDefault/kNChip*(chip+1)); zmx=kconv*(kDzDefault*0.5-kDzDefault/kNChip*chip); } else if(wing==0) { // count x from top, z from left xmx=kconv*(kDxDefault-kDxDefault/kNSubWing*subw); xmn=kconv*(kDxDefault-kDxDefault/kNSubWing*(subw+1)); zmn=kconv*(kDzDefault/kNChip*chip-0.5*kDzDefault); zmx=kconv*(kDzDefault/kNChip*(chip+1)-0.5*kDzDefault); } else {AliError("GetBlockBoundaries: you got wrong n. of wing"); return kFALSE;} return kTRUE; } //__________________________________________________________ void AliITSPlaneEffSDD::InitHistos() { // for the moment let's create the histograms // module by module TString histnameResX="HistResX_mod_",aux; TString histnameResZ="HistResZ_mod_"; TString histnameResXZ="HistResXZ_mod_"; TString histnameClusterType="HistClusterType_mod_"; // TString histnameResXclu="HistResX_mod_"; TString profnameResXvsCluSizeX="ProfResXvsCluSizeX_mod_"; TString histnameResZclu="HistResZ_mod_"; TString profnameResXvsX="ProfResXvsX_mod_"; TString profnameResZvsX="ProfResZvsX_mod_"; TString profnameClustSizeXvsX="ProfClustSizeXvsX_mod_"; TString profnameClustSizeZvsX="ProfClustSizeZvsX_mod_"; TString histnameTrackErrX="HistTrackErrX_mod_"; TString histnameTrackErrZ="HistTrackErrZ_mod_"; TString histnameClusErrX="HistClusErrX_mod_"; TString histnameClusErrZ="HistClusErrZ_mod_"; // TH1::AddDirectory(kFALSE); fHisResX=new TH1F*[kNHisto]; fHisResZ=new TH1F*[kNHisto]; fHisResXZ=new TH2F*[kNHisto]; fHisClusterSize=new TH2I*[kNHisto]; fProfResXvsCluSizeX=new TProfile*[kNHisto]; //fHisResXclu=new TH1F**[kNHisto]; fHisResZclu=new TH1F**[kNHisto]; fProfResXvsX=new TProfile*[kNHisto]; fProfResZvsX=new TProfile*[kNHisto]; fProfClustSizeXvsX=new TProfile*[kNHisto]; fProfClustSizeZvsX=new TProfile*[kNHisto]; fHisTrackErrX=new TH1F*[kNHisto]; fHisTrackErrZ=new TH1F*[kNHisto]; fHisClusErrX=new TH1F*[kNHisto]; fHisClusErrZ=new TH1F*[kNHisto]; for (Int_t nhist=0;nhistSetName(aux.Data()); fHisResX[nhist]->SetTitle(aux.Data()); aux=histnameResZ; aux+=nhist; fHisResZ[nhist]=new TH1F("histname","histname",1000,-0.30,0.30); // +-3000 micron; 1 bin=6 micron fHisResZ[nhist]->SetName(aux.Data()); fHisResZ[nhist]->SetTitle(aux.Data()); aux=histnameResXZ; aux+=nhist; fHisResXZ[nhist]=new TH2F("histname","histname",100,-0.4,0.4,60,-0.24,0.24); // binning: // 80 micron in x; // 80 micron in z; fHisResXZ[nhist]->SetName(aux.Data()); fHisResXZ[nhist]->SetTitle(aux.Data()); aux=histnameClusterType; aux+=nhist; fHisClusterSize[nhist]=new TH2I("histname","histname",10,0.5,10.5,10,0.5,10.5); fHisClusterSize[nhist]->SetName(aux.Data()); fHisClusterSize[nhist]->SetTitle(aux.Data()); aux=profnameResXvsCluSizeX; aux+=nhist; fProfResXvsCluSizeX[nhist]=new TProfile("histname","histname",10,0.5,10.5); fProfResXvsCluSizeX[nhist]->SetName(aux.Data()); fProfResXvsCluSizeX[nhist]->SetTitle(aux.Data()); // fHisResXclu[nhist]=new TH1F*[kNclu]; fHisResZclu[nhist]=new TH1F*[kNclu]; for(Int_t clu=0; clu cluster size 1 /*aux=histnameResXclu; aux+=nhist; aux+="_clu_"; aux+=clu+1; // clu=0 --> cluster size 1 fHisResXclu[nhist][clu]=new TH1F("histname","histname",1500,-0.15,0.15);// +- 1500 micron; 1 bin=2 micron fHisResXclu[nhist][clu]->SetName(aux.Data()); fHisResXclu[nhist][clu]->SetTitle(aux.Data());*/ aux=histnameResZclu; aux+=nhist; aux+="_clu_"; aux+=clu+1; // clu=0 --> cluster size 1 fHisResZclu[nhist][clu]=new TH1F("histname","histname",1000,-0.30,0.30); // +-3000 micron; 1 bin=6 micron fHisResZclu[nhist][clu]->SetName(aux.Data()); fHisResZclu[nhist][clu]->SetTitle(aux.Data()); } aux=profnameResXvsX; aux+=nhist; fProfResXvsX[nhist]=new TProfile("histname","histname",140,-3.5,3.5); fProfResXvsX[nhist]->SetName(aux.Data()); fProfResXvsX[nhist]->SetTitle(aux.Data()); aux=profnameResZvsX; aux+=nhist; fProfResZvsX[nhist]=new TProfile("histname","histname",140,-3.5,3.5); fProfResZvsX[nhist]->SetName(aux.Data()); fProfResZvsX[nhist]->SetTitle(aux.Data()); aux=profnameClustSizeXvsX; aux+=nhist; fProfClustSizeXvsX[nhist]=new TProfile("histname","histname",140,-3.5,3.5); fProfClustSizeXvsX[nhist]->SetName(aux.Data()); fProfClustSizeXvsX[nhist]->SetTitle(aux.Data()); aux=profnameClustSizeZvsX; aux+=nhist; fProfClustSizeZvsX[nhist]=new TProfile("histname","histname",140,-3.5,3.5); fProfClustSizeZvsX[nhist]->SetName(aux.Data()); fProfClustSizeZvsX[nhist]->SetTitle(aux.Data()); aux=histnameTrackErrX; aux+=nhist; fHisTrackErrX[nhist]=new TH1F("histname","histname",500,0.,0.50); // 0-5000 micron; 1 bin=10 micron fHisTrackErrX[nhist]->SetName(aux.Data()); fHisTrackErrX[nhist]->SetTitle(aux.Data()); aux=histnameTrackErrZ; aux+=nhist; fHisTrackErrZ[nhist]=new TH1F("histname","histname",200,0.,0.32); // 0-3200 micron; 1 bin=16 micron fHisTrackErrZ[nhist]->SetName(aux.Data()); fHisTrackErrZ[nhist]->SetTitle(aux.Data()); aux=histnameClusErrX; aux+=nhist; fHisClusErrX[nhist]=new TH1F("histname","histname",400,0.,0.24); // 0-2400 micron; 1 bin=6 micron fHisClusErrX[nhist]->SetName(aux.Data()); fHisClusErrX[nhist]->SetTitle(aux.Data()); aux=histnameClusErrZ; aux+=nhist; fHisClusErrZ[nhist]=new TH1F("histname","histname",400,0.,0.32); // 0-3200 micron; 1 bin=8 micron fHisClusErrZ[nhist]->SetName(aux.Data()); fHisClusErrZ[nhist]->SetTitle(aux.Data()); } TH1::AddDirectory(kTRUE); return; } //__________________________________________________________ void AliITSPlaneEffSDD::DeleteHistos() { if(fHisResX) { for (Int_t i=0; i=kNModule*kNChip*kNWing*kNSubWing) {AliWarning("FillHistos: you asked for a non existing key"); return kFALSE;} Int_t id=GetModFromKey(key); if(id>=kNHisto) {AliWarning("FillHistos: you want to fill a non-existing histos"); return kFALSE;} if(found) { Float_t resx=tr[0]-clu[0]; Float_t resz=tr[1]-clu[1]; fHisResX[id]->Fill(resx); fHisResZ[id]->Fill(resz); fHisResXZ[id]->Fill(resx,resz); fHisClusterSize[id]->Fill((Double_t)csize[0],(Double_t)csize[1]); fProfResXvsCluSizeX[id]->Fill((Double_t)csize[0],resx); //if(csize[0]>0 && csize[0]<=kNclu) fHisResXclu[id][csize[0]-1]->Fill(resx); if(csize[1]>0 && csize[1]<=kNclu) fHisResZclu[id][csize[1]-1]->Fill(resz); fProfResXvsX[id]->Fill(clu[0],resx); fProfResZvsX[id]->Fill(clu[0],resz); fProfClustSizeXvsX[id]->Fill(clu[0],(Double_t)csize[0]); fProfClustSizeZvsX[id]->Fill(clu[0],(Double_t)csize[1]); } fHisTrackErrX[id]->Fill(tr[2]); fHisTrackErrZ[id]->Fill(tr[3]); fHisClusErrX[id]->Fill(clu[2]); fHisClusErrZ[id]->Fill(clu[3]); return kTRUE; } //__________________________________________________________ Bool_t AliITSPlaneEffSDD::WriteHistosToFile(TString filename, Option_t* option) { // // Saves the histograms into a tree and saves the trees into a file // if (!fHis) return kFALSE; if (filename.IsNull() || filename.IsWhitespace()) { AliWarning("WriteHistosToFile: null output filename!"); return kFALSE; } char branchname[30]; TFile *hFile=new TFile(filename.Data(),option, "The File containing the TREEs with ITS PlaneEff Histos"); TTree *SDDTree=new TTree("SDDTree","Tree whith Residuals and Cluster Type distributions for SDD"); TH1F *histZ,*histX; TH2F *histXZ; TH2I *histClusterType; TProfile *profileResXvsCluSizeX; //TH1F *histXclu[kNclu]; TH1F *histZclu[kNclu]; TProfile *profileResXvsX, *profileResZvsX, *profileClSizXvsX, *profileClSizZvsX; TH1F *histTrErrZ,*histTrErrX; TH1F *histClErrZ,*histClErrX; histZ=new TH1F(); histX=new TH1F(); histXZ=new TH2F(); histClusterType=new TH2I(); profileResXvsCluSizeX=new TProfile(); for(Int_t clu=0;cluBranch("histX","TH1F",&histX,128000,0); SDDTree->Branch("histZ","TH1F",&histZ,128000,0); SDDTree->Branch("histXZ","TH2F",&histXZ,128000,0); SDDTree->Branch("histClusterType","TH2I",&histClusterType,128000,0); SDDTree->Branch("profileResXvsCluSizeX","TProfile",&profileResXvsCluSizeX,128000,0); for(Int_t clu=0;cluBranch(branchname,"TH1F",&histXclu[clu],128000,0); sprintf(branchname,"histZclu_%d",clu+1); SDDTree->Branch(branchname,"TH1F",&histZclu[clu],128000,0); } SDDTree->Branch("profileResXvsX","TProfile",&profileResXvsX,128000,0); SDDTree->Branch("profileResZvsX","TProfile",&profileResZvsX,128000,0); SDDTree->Branch("profileClSizXvsX","TProfile",&profileClSizXvsX,128000,0); SDDTree->Branch("profileClSizZvsX","TProfile",&profileClSizZvsX,128000,0); SDDTree->Branch("histTrErrX","TH1F",&histTrErrX,128000,0); SDDTree->Branch("histTrErrZ","TH1F",&histTrErrZ,128000,0); SDDTree->Branch("histClErrX","TH1F",&histClErrX,128000,0); SDDTree->Branch("histClErrZ","TH1F",&histClErrZ,128000,0); for(Int_t j=0;jFill(); } hFile->Write(); hFile->Close(); return kTRUE; } //__________________________________________________________ Bool_t AliITSPlaneEffSDD::ReadHistosFromFile(TString filename) { // // Read histograms from an already existing file // if (!fHis) return kFALSE; if (filename.IsNull() || filename.IsWhitespace()) { AliWarning("ReadHistosFromFile: incorrect output filename!"); return kFALSE; } char branchname[30]; TH1F *h = 0; TH2F *h2 = 0; TH2I *h2i= 0; TProfile *p = 0; TFile *file=TFile::Open(filename.Data(),"READONLY"); if (!file || file->IsZombie()) { AliWarning(Form("Can't open %s !",filename.Data())); delete file; return kFALSE; } TTree *tree = (TTree*) file->Get("SDDTree"); TBranch *histX = (TBranch*) tree->GetBranch("histX"); TBranch *histZ = (TBranch*) tree->GetBranch("histZ"); TBranch *histXZ = (TBranch*) tree->GetBranch("histXZ"); TBranch *histClusterType = (TBranch*) tree->GetBranch("histClusterType"); TBranch *profileResXvsCluSizeX = (TBranch*) tree->GetBranch("profileResXvsCluSizeX"); //TBranch *histXclu[kNclu], *histZclu[kNclu]; TBranch *histZclu[kNclu]; for(Int_t clu=0; cluGetBranch(branchname); sprintf(branchname,"histZclu_%d",clu+1); histZclu[clu]= (TBranch*) tree->GetBranch(branchname); } TBranch *profileResXvsX = (TBranch*) tree->GetBranch("profileResXvsX"); TBranch *profileResZvsX = (TBranch*) tree->GetBranch("profileResZvsX"); TBranch *profileClSizXvsX = (TBranch*) tree->GetBranch("profileClSizXvsX"); TBranch *profileClSizZvsX = (TBranch*) tree->GetBranch("profileClSizZvsX"); TBranch *histTrErrX = (TBranch*) tree->GetBranch("histTrErrX"); TBranch *histTrErrZ = (TBranch*) tree->GetBranch("histTrErrZ"); TBranch *histClErrX = (TBranch*) tree->GetBranch("histClErrX"); TBranch *histClErrZ = (TBranch*) tree->GetBranch("histClErrZ"); gROOT->cd(); Int_t nevent = (Int_t)histX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histX->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisResX[j]->Add(h); } nevent = (Int_t)histZ->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histZ->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisResZ[j]->Add(h); } nevent = (Int_t)histXZ->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histXZ->SetAddress(&h2); for(Int_t j=0;jGetEntry(j); fHisResXZ[j]->Add(h2); } nevent = (Int_t)histClusterType->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histClusterType->SetAddress(&h2i); for(Int_t j=0;jGetEntry(j); fHisClusterSize[j]->Add(h2i); } nevent = (Int_t)profileResXvsCluSizeX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} profileResXvsCluSizeX->SetAddress(&p); for(Int_t j=0;jGetEntry(j); fProfResXvsCluSizeX[j]->Add(p); } for(Int_t clu=0; cluGetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histXclu[clu]->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisResXclu[j][clu]->Add(h); }*/ nevent = (Int_t)histZclu[clu]->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histZclu[clu]->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisResZclu[j][clu]->Add(h); } } nevent = (Int_t)profileResXvsX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} profileResXvsX->SetAddress(&p); for(Int_t j=0;jGetEntry(j); fProfResXvsX[j]->Add(p); } nevent = (Int_t)profileResZvsX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} profileResZvsX->SetAddress(&p); for(Int_t j=0;jGetEntry(j); fProfResZvsX[j]->Add(p); } nevent = (Int_t)profileClSizXvsX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} profileClSizXvsX->SetAddress(&p); for(Int_t j=0;jGetEntry(j); fProfClustSizeXvsX[j]->Add(p); } nevent = (Int_t)profileClSizZvsX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} profileClSizZvsX->SetAddress(&p); for(Int_t j=0;jGetEntry(j); fProfClustSizeZvsX[j]->Add(p); } nevent = (Int_t)histTrErrX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histTrErrX->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisTrackErrX[j]->Add(h); } nevent = (Int_t)histTrErrZ->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histTrErrZ->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisTrackErrZ[j]->Add(h); } nevent = (Int_t)histClErrX->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histClErrX->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisClusErrX[j]->Add(h); } nevent = (Int_t)histClErrZ->GetEntries(); if(nevent!=kNHisto) {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} histClErrZ->SetAddress(&h); for(Int_t j=0;jGetEntry(j); fHisClusErrZ[j]->Add(h); } delete h; h=0; delete h2; h2=0; delete h2i; h2i=0; delete p; p=0; if (file) { file->Close(); } return kTRUE; }