/* $Id$ */
+// -------------------------
+// Class AliMUONRawCluster
+// -------------------------
// Class for the MUON RecPoint
// It contains the properties of the physics cluters found in the tracking chambers
// RawCluster contains also the information from the both cathode of the chambers.
-//
-//
#include <TArrayF.h>
AliMUONRawCluster::AliMUONRawCluster()
: TObject()
{
-// Constructor
+/// Constructor
fTracks[0]=fTracks[1]=fTracks[2]=-1;
for (int j=0;j<2;j++) {
fQ[j]=0;
//____________________________________________________
Int_t AliMUONRawCluster::Compare(const TObject *obj) const
{
+/// Compare
+
/*
AliMUONRawCluster *raw=(AliMUONRawCluster *)obj;
Float_t r=GetRadius();
//____________________________________________________
Int_t AliMUONRawCluster::BinarySearch(Float_t y, TArrayF coord, Int_t from, Int_t upto)
{
- // Find object using a binary search. Array must first have been sorted.
- // Search can be limited by setting upto to desired index.
+/// Find object using a binary search. Array must first have been sorted.
+/// Search can be limited by setting upto to desired index.
Int_t low=from, high=upto-1, half;
while(high-low>1) {
//____________________________________________________
void AliMUONRawCluster::SortMin(Int_t *idx,Float_t *xdarray,Float_t *xarray,Float_t *yarray,Float_t *qarray, Int_t ntr)
{
- //
- // Get the 3 closest points(cog) one can find on the second cathode
- // starting from a given cog on first cathode
- //
+/// Get the 3 closest points(cog) one can find on the second cathode
+/// starting from a given cog on first cathode
//
// Loop over deltax, only 3 times
//____________________________________________________
Int_t AliMUONRawCluster::PhysicsContribution() const
{
-// Evaluate physics contribution to cluster
+/// Evaluate physics contribution to cluster
Int_t iPhys=0;
Int_t iBg=0;
Int_t iMixed=0;
//____________________________________________________
void AliMUONRawCluster::DumpIndex(void)
{
- // Dumping IdexMap of the cluster
+/// Dumping IdexMap of the cluster
printf ("-----\n");
for (Int_t icat=0;icat<2;icat++) {
printf ("Mult %d\n",fMultiplicity[icat]);
//____________________________________________________
Int_t AliMUONRawCluster::AddCharge(Int_t i, Int_t Q)
{
- // Adding Q to the fQ value
+/// Adding Q to the fQ value
if (i==0 || i==1) {
fQ[i]+=Q;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::AddX(Int_t i, Float_t X)
{
- // Adding X to the fX value
+/// Adding X to the fX value
if (i==0 || i==1) {
fX[i]+=X;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::AddY(Int_t i, Float_t Y)
{
- // Adding Y to the fY value
+/// Adding Y to the fY value
if (i==0 || i==1) {
fY[i]+=Y;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::AddZ(Int_t i, Float_t Z)
{
- // Adding Z to the fZ value
+/// Adding Z to the fZ value
if (i==0 || i==1) {
fZ[i]+=Z;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::GetCharge(Int_t i) const
{
- // Getting the charge of the cluster
+/// Getting the charge of the cluster
if (i==0 || i==1) return fQ[i];
else return 99999;
}
//____________________________________________________
Float_t AliMUONRawCluster::GetX(Int_t i) const
{
- // Getting X value of the cluster
+/// Getting X value of the cluster
if (i==0 || i==1) return fX[i];
else return 99999.;
}
//____________________________________________________
Float_t AliMUONRawCluster::GetY(Int_t i) const
{
- // Getting Y value of the cluster
+/// Getting Y value of the cluster
if (i==0 || i==1) return fY[i];
else return 99999.;
}
//____________________________________________________
Float_t AliMUONRawCluster::GetZ(Int_t i) const
{
- // Getting Z value of the cluster
+/// Getting Z value of the cluster
if (i==0 || i==1) return fZ[i];
else return 99999.;
}
//____________________________________________________
Int_t AliMUONRawCluster::GetTrack(Int_t i) const
{
- // Getting track i contributing to the cluster
+/// Getting track i contributing to the cluster
if (i==0 || i==1 || i==2) return fTracks[i];
else return 99999;
}
//____________________________________________________
Int_t AliMUONRawCluster::GetPeakSignal(Int_t i) const
{
- // Getting cluster peaksignal
+/// Getting cluster peaksignal
if (i==0 || i==1 ) return fPeakSignal[i];
else return 99999;
}
//____________________________________________________
Int_t AliMUONRawCluster::GetMultiplicity(Int_t i) const
{
- // Getting cluster multiplicity
+/// Getting cluster multiplicity
if (i==0 || i==1 ) return fMultiplicity[i];
else return 99999;
}
//____________________________________________________
Int_t AliMUONRawCluster::GetClusterType() const
{
- // Getting Cluster Type
+/// Getting Cluster Type
return fClusterType;
}
//____________________________________________________
Int_t AliMUONRawCluster::GetGhost() const
{
- // Getting Ghost
+/// Getting Ghost
return fGhost;
}
//____________________________________________________
Int_t AliMUONRawCluster::GetNcluster(Int_t i) const
{
- // Getting number of clusters
+/// Getting number of clusters
if (i==0 || i==1 ) return fNcluster[i];
else return 99999;
}
//____________________________________________________
Float_t AliMUONRawCluster::GetChi2(Int_t i) const
{
- // Getting chi2 value of the cluster
+/// Getting chi2 value of the cluster
if (i==0 || i==1) return fChi2[i];
else return 99999.;
}
//____________________________________________________
Int_t AliMUONRawCluster::SetCharge(Int_t i, Int_t Q)
{
- // Setting Charge of the cluster
+/// Setting Charge of the cluster
if (i==0 || i==1) {
fQ[i]=Q;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetX(Int_t i, Float_t X)
{
- // Setting X value of the cluster
+/// Setting X value of the cluster
if (i==0 || i==1) {
fX[i]=X;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetY(Int_t i, Float_t Y)
{
- // Setting Y value of the cluster
+/// Setting Y value of the cluster
if (i==0 || i==1) {
fY[i]=Y;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetZ(Int_t i, Float_t Z)
{
- // Setting Z value of the cluste
+/// Setting Z value of the cluste
if (i==0 || i==1) {
fZ[i]=Z;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetTrack(Int_t i, Int_t track)
{
- // Setting tracks contributing to the cluster
+/// Setting tracks contributing to the cluster
if (i==0 || i==1 || i==2) {
fTracks[i]=track;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetPeakSignal(Int_t i, Int_t peaksignal)
{
- // Setting PeakSignal of the cluster
+/// Setting PeakSignal of the cluster
if (i==0 || i==1 ) {
fPeakSignal[i]=peaksignal;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetMultiplicity(Int_t i, Int_t mul)
{
- // Setting multiplicity of the cluster
+/// Setting multiplicity of the cluster
if (i==0 || i==1 ) {
fMultiplicity[i]=mul;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetClusterType(Int_t type)
{
- // Setting the cluster type
+/// Setting the cluster type
fClusterType=type;
return 1;
}
//____________________________________________________
Int_t AliMUONRawCluster::SetGhost(Int_t ghost)
{
- // Setting the ghost
+/// Setting the ghost
fGhost=ghost;
return 1;
}
//____________________________________________________
Int_t AliMUONRawCluster::SetNcluster(Int_t i, Int_t ncluster)
{
- // Setting number the cluster
+/// Setting number the cluster
if (i==0 || i==1 ) {
fNcluster[i]=ncluster;
return 1;
//____________________________________________________
Int_t AliMUONRawCluster::SetChi2(Int_t i, Float_t chi2)
{
- // Setting chi2 of the cluster
+/// Setting chi2 of the cluster
if (i==0 || i==1) {
fChi2[i]=chi2;
return 1;
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