-//Author: Anders Strand Vestbo
-//Last Modified: 17.08.2001
+//$Id$
+
+// Author: Anders Vestbo <mailto:vestbo@fi.uib.no>
+//*-- Copyright © ASV
#include <iostream.h>
+#include <math.h>
#include "AliL3Logging.h"
#include "AliL3ClustFinderNew.h"
#include "AliL3DigitData.h"
#include "AliL3Transform.h"
#include "AliL3SpacePointData.h"
+#include "AliL3MemHandler.h"
+
+//_____________________________________________________________
+// AliL3ClustFinderNew
+//
+// The current cluster finder for HLT
+// Based on STAR L3
ClassImp(AliL3ClustFinderNew)
AliL3ClustFinderNew::AliL3ClustFinderNew()
{
fMatch = 4;
- fThreshold =10;
+ fThreshold = 10;
+ fXYErr = 0.2;
+ fZErr = 0.3;
fDeconvPad = kTRUE;
- fDeconvTime = fTRUE;
-}
-
-AliL3ClustFinderNew::AliL3ClustFinderNew(AliL3Transform *transform)
-{
- fTransform = transform;
- fMatch = 4;
- fThreshold =10;
fDeconvTime = kTRUE;
- fDeconvPad = kTRUE;
+ fstdout = kFALSE;
+ fcalcerr = kTRUE;
}
AliL3ClustFinderNew::~AliL3ClustFinderNew()
{
-
-
}
void AliL3ClustFinderNew::InitSlice(Int_t slice,Int_t patch,Int_t firstrow, Int_t lastrow,Int_t nmaxpoints)
fCurrentPatch = patch;
fFirstRow = firstrow;
fLastRow = lastrow;
- fDeconvTime = kTRUE;
- fDeconvPad = kTRUE;
}
void AliL3ClustFinderNew::InitSlice(Int_t slice,Int_t patch,Int_t nmaxpoints)
void AliL3ClustFinderNew::SetOutputArray(AliL3SpacePointData *pt)
{
-
fSpacePointData = pt;
}
-
void AliL3ClustFinderNew::Read(UInt_t ndigits,AliL3DigitRowData *ptr)
{
fNDigitRowData = ndigits;
fDigitRowData = ptr;
-
}
void AliL3ClustFinderNew::ProcessDigits()
tmp += size;
tempPt = (AliL3DigitRowData*)tmp;
}
+ LOG(AliL3Log::kInformational,"AliL3ClustFinderNew::WriteClusters","Space points")
+ <<"Cluster finder found "<<fNClusters<<" clusters in slice "<<fCurrentSlice
+ <<" patch "<<fCurrentPatch<<ENDLOG;
}
-
-
void AliL3ClustFinderNew::ProcessRow(AliL3DigitRowData *tempPt)
{
ClusterData *pad2[2500]; //2 lists for internal memory=2pads
ClusterData clusterlist[5000]; //Clusterlist
- ClusterData **currentPt; //List of pointers to the current pad
+ ClusterData **currentPt; //List of pointers to the current pad
ClusterData **previousPt; //List of pointers to the previous pad
currentPt = pad2;
previousPt = pad1;
{
currentPt = pad1;
previousPt = pad2;
-
}
else
{
}
Bool_t new_cluster = kTRUE;
-
- UInt_t seq_charge=0,seq_average=0;
-
+ UInt_t seq_charge=0,seq_average=0,seq_error=0;
UInt_t last_charge=0,last_was_falling=0;
Int_t new_bin=-1;
+
if(fDeconvTime)
{
redo: //This is a goto.
last_was_falling = 0;
}
-
while(1) //Loop over current sequence
{
+ if(data[bin].fTime >= AliL3Transform::GetNTimeBins())
+ {
+ LOG(AliL3Log::kFatal,"AliL3ClustFinderNew::ProcessRow","Digits")
+ <<"Timebin out of range "<<(Int_t)data[bin].fTime<<ENDLOG;
+ break;
+ }
+
//Get the current ADC-value
UInt_t charge = data[bin].fCharge;
//Sum the total charge of this sequence
seq_charge += charge;
seq_average += data[bin].fTime*charge;
-
+ seq_error += data[bin].fTime*data[bin].fTime*charge;
+
//Check where to stop:
if(data[bin+1].fPad != data[bin].fPad) //new pad
break;
seq_mean = seq_average/seq_charge;
else
{
- printf("\nCF: Should not happen\n");
+ LOG(AliL3Log::kFatal,"AliL3ClustFinderNew::ProcessRow","Data")
+ <<"Error in data given to the cluster finder"<<ENDLOG;
seq_mean = 1;
seq_charge = 1;
}
//Calculate mean in pad direction:
Int_t pad_mean = seq_charge*data[bin].fPad;
+ Int_t pad_error = data[bin].fPad*pad_mean;
//Compare with results on previous pad:
for(UInt_t p=0; p<n_previous; p++)
if(difference < -fMatch)
break;
- if(difference <= fMatch)//There is a match here!!
+ if(difference <= fMatch) //There is a match here!!
{
ClusterData *local = previousPt[p];
{
if(seq_charge > local->fLastCharge)
{
- if(local->fChargeFalling)//The previous pad was falling
+ if(local->fChargeFalling) //The previous pad was falling
{
- break;//create a new cluster
+ break; //create a new cluster
}
}
else
local->fTotalCharge += seq_charge;
local->fPad += pad_mean;
+ local->fPad2 += pad_error;
local->fTime += seq_average;
+ local->fTime2 += seq_error;
local->fMean = seq_mean;
local->fFlags++; //means we have more than one pad
n_current++;
break;
- }//Checking for match at previous pad
- }//Loop over results on previous pad.
+ } //Checking for match at previous pad
+ } //Loop over results on previous pad.
if(new_cluster)
{
ClusterData *tmp = &clusterlist[n_total];
tmp->fTotalCharge = seq_charge;
tmp->fPad = pad_mean;
+ tmp->fPad2 = pad_error;
tmp->fTime = seq_average;
+ tmp->fTime2 = seq_error;
tmp->fMean = seq_mean;
tmp->fFlags = 0; //flags for 1 pad clusters
if(fDeconvPad)
}//Loop over digits on this padrow
WriteClusters(n_total,clusterlist);
-
-
}
void AliL3ClustFinderNew::WriteClusters(Int_t n_clusters,ClusterData *list)
{
if(!list[j].fFlags) continue; //discard 1 pad clusters
if(list[j].fTotalCharge < fThreshold) continue; //noise cluster
- Float_t xyz[3];
-
- Float_t fpad=(Float_t)list[j].fPad/(Float_t)list[j].fTotalCharge;
- Float_t ftime=(Float_t)list[j].fTime/(Float_t)list[j].fTotalCharge;
- //printf("padrow %d number of pads %d totalcharge %d\n",fCurrentRow,list[j].fFlags,list[j].fTotalCharge);
- fTransform->Slice2Sector(fCurrentSlice,fCurrentRow,thissector,thisrow);
- fTransform->Raw2Local(xyz,thissector,thisrow,fpad,ftime);
+
+ Float_t xyz[3];
+ Float_t fpad =(Float_t)list[j].fPad /(Float_t)list[j].fTotalCharge;
+ Float_t fpad2=fXYErr;
+ Float_t ftime =(Float_t)list[j].fTime /(Float_t)list[j].fTotalCharge;
+ Float_t ftime2=fZErr;
+
+ if(fcalcerr) {
+ fpad2=(Float_t)list[j].fPad2/(Float_t)list[j].fTotalCharge - fpad*fpad;
+ fpad2 = sqrt(fpad2);
+ ftime2=(Float_t)list[j].fTime2/(Float_t)list[j].fTotalCharge - ftime*ftime;
+ ftime2 = sqrt(ftime2);
+ }
+
+ if(fstdout==kTRUE)
+ cout<<"WriteCluster: padrow "<<fCurrentRow<<" pad "<<fpad << "+-"<<fpad2<<" time "<<ftime<<"+-"<<ftime2<<" charge "<<list[j].fTotalCharge<<endl;
+
+ AliL3Transform::Slice2Sector(fCurrentSlice,fCurrentRow,thissector,thisrow);
+ AliL3Transform::Raw2Local(xyz,thissector,thisrow,fpad,ftime);
if(xyz[0]==0) LOG(AliL3Log::kError,"AliL3ClustFinder","Cluster Finder")
<<AliL3Log::kDec<<"Zero cluster"<<ENDLOG;
if(fNClusters >= fMaxNClusters)
LOG(AliL3Log::kError,"AliL3ClustFinder::WriteClusters","Cluster Finder")
<<AliL3Log::kDec<<"Too many clusters"<<ENDLOG;
return;
- }
+ }
+ fSpacePointData[counter].fCharge = list[j].fTotalCharge;
fSpacePointData[counter].fX = xyz[0];
fSpacePointData[counter].fY = xyz[1];
fSpacePointData[counter].fZ = xyz[2];
fSpacePointData[counter].fPadRow = fCurrentRow;
- fSpacePointData[counter].fXYErr = fXYErr;
- fSpacePointData[counter].fZErr = fZErr;
+ fSpacePointData[counter].fXYErr = fpad2;
+ fSpacePointData[counter].fZErr = ftime2;
fSpacePointData[counter].fID = counter
- +((fCurrentSlice&0x7f)<<25)+((fCurrentPatch&0x7)<<22);//uli
-
+ +((fCurrentSlice&0x7f)<<25)+((fCurrentPatch&0x7)<<22);//Uli
+#ifdef do_mc
+ Int_t trackID[3];
+ GetTrackID((Int_t)rint(fpad),(Int_t)rint(ftime),trackID);
+ //cout<<"padrow "<<fCurrentRow<<" pad "<<(Int_t)rint(fpad)<<" time "<<(Int_t)rint(ftime)<<" Trackid "<<trackID[0]<<endl;
+ fSpacePointData[counter].fTrackID[0] = trackID[0];
+ fSpacePointData[counter].fTrackID[1] = trackID[1];
+ fSpacePointData[counter].fTrackID[2] = trackID[2];
+#endif
fNClusters++;
counter++;
-
}
+}
+#ifdef do_mc
+void AliL3ClustFinderNew::GetTrackID(Int_t pad,Int_t time,Int_t *trackID)
+{
+ AliL3DigitRowData *rowPt = (AliL3DigitRowData*)fDigitRowData;
+
+ trackID[0]=trackID[1]=trackID[2]=-2;
+ //cout<<"Looking for pad "<<pad<<" time "<<time<<endl;
+ for(Int_t i=fFirstRow; i<=fLastRow; i++)
+ {
+ if(rowPt->fRow < (UInt_t)fCurrentRow)
+ {
+ AliL3MemHandler::UpdateRowPointer(rowPt);
+ continue;
+ }
+ AliL3DigitData *digPt = (AliL3DigitData*)rowPt->fDigitData;
+ for(UInt_t j=0; j<rowPt->fNDigit; j++)
+ {
+ Int_t cpad = digPt[j].fPad;
+ Int_t ctime = digPt[j].fTime;
+ if(cpad != pad) continue;
+ if(ctime != time) continue;
+ //if(cpad != pad && ctime != ctime) continue;
+ //cout<<"Reading row "<<fCurrentRow<<" pad "<<cpad<<" time "<<ctime<<" trackID "<<digPt[j].fTrackID[0]<<endl;
+ trackID[0] = digPt[j].fTrackID[0];
+ trackID[1] = digPt[j].fTrackID[1];
+ trackID[2] = digPt[j].fTrackID[2];
+ break;
+ //cout<<"Reading trackID "<<trackID[0]<<endl;
+ }
+ break;
+ }
+
}
+#endif