TObjArray vdrift(2*kNumberOfSDD);
vdrift.SetOwner(kFALSE);
Int_t evNumb,polDeg;
- UInt_t timeStamp;
+ UInt_t timeStamp,statusInj;
Bool_t modSet[2*kNumberOfSDD]; // flag modules with good inj.
for(Int_t ihyb=0; ihyb<2*kNumberOfSDD; ihyb++) modSet[ihyb]=0;
- Double_t nPt = 0;
+ Double_t nPtLay3 = 0;
+ Double_t nPtLay4 = 0;
Double_t param[4]; // parameters of poly fit
- Double_t minValP0=4.; // min value for param[0]
- Double_t maxValP0=9.; // max value for param[0]
+ Double_t minValP0=5.; // min value for param[0]
+ Double_t maxValP0=8.; // max value for param[0]
Double_t minValP1=0.; // min value for param[1]
- Double_t aveCoef[4]={0.,0.,0.,0.}; // average param for good mod.
+ Double_t aveCoefLay3[4]={0.,0.,0.,0.}; // average param for good mod.
+ Double_t aveCoefLay4[4]={0.,0.,0.,0.}; // average param for good mod.
Double_t defCoef[4]={6.53227,0.00128941,-5.14493e-06,0}; // default values for param
Float_t auxP;
FILE* injFil = fopen(inpFileName,"read");
if (injFil == 0) {
Log(Form("File %s not found.",inpFileName.Data()));
- AliITSDriftSpeedSDD *dsp=new AliITSDriftSpeedSDD();
- arr->AddDriftSpeed(dsp);
- vdrift.AddAt(arr,2*modID+isid);
continue;
}
retfscf=fscanf(injFil,"%d",&polDeg);
while (!feof(injFil)){
retfscf=fscanf(injFil,"%d %u ",&evNumb,&timeStamp);
- if(feof(injFil)) break;
- for(Int_t ic=0;ic<4;ic++){
- retfscf=fscanf(injFil,"%f ",&auxP);
- param[ic]=auxP;
- }
+ if(evNumb==-99){
+ statusInj=timeStamp;
+ arr->SetInjectorStatus(statusInj);
+ }else{
+ if(feof(injFil)) break;
+ for(Int_t ic=0;ic<4;ic++){
+ retfscf=fscanf(injFil,"%f ",&auxP);
+ param[ic]=auxP;
+ }
- if(param[0]>minValP0 && param[0]<maxValP0 && param[1]>minValP1){
- for(Int_t ic=0;ic<4;ic++) aveCoef[ic]+=param[ic];
- nPt++;
- AliITSDriftSpeedSDD *dsp=new AliITSDriftSpeedSDD(evNumb,timeStamp,polDeg,param);
- arr->AddDriftSpeed(dsp);
- modSet[2*modID+isid]=1;
+ if(param[0]>minValP0 && param[0]<maxValP0 && param[1]>minValP1){
+ if(polDeg==3){
+ if(modID<kNumberOfSDDLay3){
+ for(Int_t ic=0;ic<4;ic++) aveCoefLay3[ic]+=param[ic];
+ nPtLay3++;
+ }else{
+ for(Int_t ic=0;ic<4;ic++) aveCoefLay4[ic]+=param[ic];
+ nPtLay4++;
+ }
+ }
+ AliITSDriftSpeedSDD *dsp=new AliITSDriftSpeedSDD(evNumb,timeStamp,polDeg,param);
+ arr->AddDriftSpeed(dsp);
+ modSet[2*modID+isid]=1;
+ }else{
+ Log(Form("Module %d side %d not accepted, degree=%d, params=%g %g %g %g",modID+240,isid,polDeg,param[0],param[1],param[2],param[3]));
+ }
}
}
fclose(injFil);
// set drift speed for modules with bad injectors
for(Int_t ic=0;ic<4;ic++){
- if(nPt>0) aveCoef[ic]/=nPt; // mean parameters
- else aveCoef[ic]=defCoef[ic]; // default parameters
+ if(nPtLay3>0) aveCoefLay3[ic]/=nPtLay3; // mean parameters
+ else aveCoefLay3[ic]=defCoef[ic]; // default parameters
+ if(nPtLay4>0) aveCoefLay4[ic]/=nPtLay4; // mean parameters
+ else aveCoefLay4[ic]=defCoef[ic]; // default parameters
}
- AliITSDriftSpeedSDD *avdsp=new AliITSDriftSpeedSDD(evNumb,timeStamp,polDeg,aveCoef);
+ AliITSDriftSpeedSDD *avdsp3=new AliITSDriftSpeedSDD(evNumb,timeStamp,3,aveCoefLay3);
+ AliITSDriftSpeedSDD *avdsp4=new AliITSDriftSpeedSDD(evNumb,timeStamp,3,aveCoefLay4);
- for(Int_t ihyb=0; ihyb<2*kNumberOfSDD; ihyb++){
+ for(Int_t ihyb=0; ihyb<2*kNumberOfSDDLay3; ihyb++){
if(modSet[ihyb]==0){
- AliWarning(Form("No good injector events for mod. %d --> use average values",ihyb/2));
+ AliWarning(Form("No good injector events for mod. %d side %d --> use average values for layer 3",ihyb/2,ihyb%2));
AliITSDriftSpeedArraySDD *arr=new AliITSDriftSpeedArraySDD();
- arr->AddDriftSpeed(avdsp);
+ arr->AddDriftSpeed(avdsp3);
+ arr->SetInjectorStatus(0);
vdrift.AddAt(arr,ihyb);
}
}
+ for(Int_t ihyb=2*kNumberOfSDDLay3; ihyb<2*kNumberOfSDD; ihyb++){
+ if(modSet[ihyb]==0){
+ AliWarning(Form("No good injector events for mod. %d side %d --> use average values for layer 4",ihyb/2,ihyb%2));
+ AliITSDriftSpeedArraySDD *arr=new AliITSDriftSpeedArraySDD();
+ arr->AddDriftSpeed(avdsp4);
+ arr->SetInjectorStatus(0);
+ vdrift.AddAt(arr,ihyb);
+ }
+ }
AliCDBMetaData *md= new AliCDBMetaData();
md->SetResponsible("Francesco Prino");