// Class AliSignal
// Generic handling of (extrapolated) detector signals.
//
+// The user can decide to store either calibrated or uncalibrated signals.
+// Via the specification of a gain and offset or/and an explicit
+// (de)calibration function both calibrated and uncalibrated signals
+// can always be obtained. For details see the documentation of the
+// memberfunction GetSignal() and the class AliAttrib.
+// The explicit specification of a (de)calibration function offers the
+// maximum flexibility and also allows automatic indication whether
+// calibrated or uncalibrated data has been stored.
+// The latter can be achieved by only specifying a calibration function
+// (and no de-calibration function) in case uncalibrated data is stored,
+// whereas in case of stored calibrated data the user should only
+// provide a de-calibration function (and no calibration function).
+//
// Note :
// ------
// Signal positions (r) and reference frames (f) are specified via
// signal=82.5; // e.g. signal time in ns
// error=2.01;
// offset=0.003;
-// q.SetSlotName("TOF");
+// q.SetSlotName("TOF",1);
// q.SetSignal(signal,1);
// q.SetSignalError(error,1);
// q.SetOffset(offset,1);
// signal=268.1; // e.g. ADC value of signal
// error=3.75;
// gain=120.78;
+// offset=1.5732;
// // Addressing via name specification instead of index
-// q.SetSlotName("ADC");
+// q.SetSlotName("ADC",2);
// q.SetSignal(signal,"ADC");
// q.SetSignalError(error,"ADC");
// q.SetGain(gain,"ADC");
+// q.SetOffset(offset,"ADC");
// signal=23.7; // e.g. corresponding dE/dx value
// error=0.48;
-// offset=0.2;
-// gain=150;
-// q.SetSlotName("dE/dx");
-// q.SetSignal(signal,3);
-// q.SetSignalError(error,3);
-// q.SetOffset(offset,3);
-// q.SetGain(gain,3);
-//
-// Float_t dedx=q.GetSignal("dE/dx");
+// TF1 f=("calib","[0]*pow(x,2)+[1]"); // dE/dx calib. function
+// f.SetParameter(0,3.285);
+// f.SetParameter(1,-18.67);
+// q.SetSlotName("dE/dx",3);
+// q.SetCalFunction(&f,"dE/dx");
+// q.SetSignal(signal,"dE/dx");
+// q.SetSignalError(error,"dE/dx");
+//
+// // Signal retrieval with various (de)calibration modes
+// Float_t tof=q.GetSignal("TOF");
+// Float_t adc=q.GetSignal("ADC",1);
+// Float_t dedx=q.GetSignal("dE/dx",3);
//
//--- Author: Nick van Eijndhoven 23-jan-1999 UU-SAP Utrecht
//- Modified: NvE $Date$ UU-SAP Utrecht
///////////////////////////////////////////////////////////////////////////
+#include <cstdlib>
#include "AliSignal.h"
#include "AliTrack.h"
#include "Riostream.h"
// when entering values and/or errors.
fSignals=0;
fDsignals=0;
+ fSigflags=0;
fWaveforms=0;
fLinks=0;
fDevice=0;
+ fTracks=0;
}
///////////////////////////////////////////////////////////////////////////
AliSignal::~AliSignal()
delete fDsignals;
fDsignals=0;
}
+ if (fSigflags)
+ {
+ delete fSigflags;
+ fSigflags=0;
+ }
if (fWaveforms)
{
delete fWaveforms;
delete fLinks;
fLinks=0;
}
+ if (fTracks)
+ {
+ // Remove this signal from all related tracks
+ for (Int_t i=1; i<=GetNtracks(); i++)
+ {
+ AliTrack* tx=GetTrack(i);
+ if (tx) tx->RemoveSignal(*this,0);
+ }
+ delete fTracks;
+ fTracks=0;
+ }
}
///////////////////////////////////////////////////////////////////////////
AliSignal::AliSignal(const AliSignal& s) : TNamed(s),AliPosition(s),AliAttrib(s)
// Copy constructor
fSignals=0;
fDsignals=0;
+ fSigflags=0;
fWaveforms=0;
fLinks=0;
+ fTracks=0;
// Don't copy the owning device pointer for the copy
fDevice=0;
Int_t n=s.GetNvalues();
Double_t val;
+ Int_t lock;
for (Int_t i=1; i<=n; i++)
{
- val=s.GetSignal(i);
- SetSignal(val,i);
+ if (s.GetSignalFlag(i))
+ {
+ val=s.GetSignal(i);
+ lock=s.GetLockValue();
+ if (lock) Unlock();
+ SetSignal(val,i);
+ if (lock) Lock();
+ }
}
n=s.GetNerrors();
for (Int_t j=1; j<=n; j++)
{
- val=s.GetSignalError(j);
- SetSignalError(val,j);
+ if (s.GetErrorFlag(j))
+ {
+ val=s.GetSignalError(j);
+ lock=s.GetLockValue();
+ if (lock) Unlock();
+ SetSignalError(val,j);
+ if (lock) Lock();
+ }
}
n=s.GetNwaveforms();
TObject* obj=s.GetLink(slot,pos);
if (obj) SetLink(obj,slot,pos);
}
+
+ Int_t ntk=s.GetNtracks();
+ if (ntk)
+ {
+ fTracks=new TObjArray(ntk);
+ for (Int_t it=1; it<=ntk; it++)
+ {
+ AliTrack* tx=s.GetTrack(it);
+ fTracks->Add(tx);
+ }
+ }
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::Reset(Int_t mode)
if (fLinks) fLinks->Reset();
fDevice=0;
+
+ if (fTracks)
+ {
+ delete fTracks;
+ fTracks=0;
+ }
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::ResetSignals(Int_t mode)
{
// Reset various signal data according to user selection.
//
-// mode = 0 Reset all signal values and their errors to 0.
-// 1 Reset only signal values
-// 2 Reset only signal errors
+// mode = 0 Reset all signal values, their errors and all waveform histos.
+// 1 Reset only signal values and waveform histos.
+// 2 Reset only signal errors and waveform histos.
+// -1 Reset only signal values.
+// -2 Reset only signal errors.
//
// The default when invoking ResetSignals() corresponds to mode=0.
-//
-// Irrespective of the mode, the waveform histograms are reset.
- if (mode<0 || mode>2)
+ if (abs(mode)>2)
{
cout << " *AliSignal::ResetSignals* Invalid argument mode = " << mode << endl;
cout << " Default mode=0 will be used." << endl;
mode=0;
}
- if (fSignals && (mode==0 || mode==1))
+ Int_t sflag=0;
+ Int_t eflag=0;
+
+ if (fSignals && (abs(mode)==0 || abs(mode)==1))
{
- for (Int_t i=0; i<fSignals->GetSize(); i++)
+ for (Int_t i=1; i<=fSignals->GetSize(); i++)
{
- fSignals->AddAt(0,i);
+ fSignals->AddAt(0,i-1);
+ eflag=GetErrorFlag(i);
+ SetSigFlags(0,eflag,i);
}
}
- if (fDsignals && (mode==0 || mode==2))
+ if (fDsignals && (abs(mode)==0 || abs(mode)==2))
{
- for (Int_t j=0; j<fDsignals->GetSize(); j++)
+ for (Int_t j=1; j<=fDsignals->GetSize(); j++)
{
- fDsignals->AddAt(0,j);
+ fDsignals->AddAt(0,j-1);
+ sflag=GetSignalFlag(j);
+ SetSigFlags(sflag,0,j);
}
}
- ResetWaveform(0);
+ if (mode>=0) ResetWaveform(0);
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::DeleteSignals(Int_t mode)
{
// Delete storage arrays of various signal data according to user selection.
//
-// mode = 0 Delete arrays of both signal values and their errors.
-// 1 Delete only signal values array
-// 2 Delete only signal errors array
+// mode = 0 Delete arrays of signal values, their errors and all waveform histos.
+// 1 Delete only signal values array and waveform histos.
+// 2 Delete only signal errors array and waveform histos.
+// -1 Delete only signal values array.
+// -2 Delete only signal errors array.
//
// The default when invoking DeleteSignals() corresponds to mode=0.
-//
-// Irrespective of the mode, the waveform histograms are deleted.
- if (mode<0 || mode>2)
+ if (abs(mode)>2)
{
cout << " *AliSignal::DeleteSignals* Invalid argument mode = " << mode << endl;
cout << " Default mode=0 will be used." << endl;
mode=0;
}
- if (fSignals && (mode==0 || mode==1))
+ if (fSignals && (abs(mode)==0 || abs(mode)==1))
{
delete fSignals;
fSignals=0;
}
- if (fDsignals && (mode==0 || mode==2))
+ if (fDsignals && (abs(mode)==0 || abs(mode)==2))
{
delete fDsignals;
fDsignals=0;
}
- DeleteWaveform(0);
+ Int_t sflag=0;
+ Int_t eflag=0;
+
+ if (mode==0)
+ {
+ delete fSigflags;
+ fSigflags=0;
+ }
+ else if (abs(mode)==1)
+ {
+ for (Int_t i=1; i<=fSigflags->GetSize(); i++)
+ {
+ eflag=GetErrorFlag(i);
+ SetSigFlags(0,eflag,i);
+ }
+ }
+ else if (abs(mode)==2)
+ {
+ for (Int_t j=1; j<=fSigflags->GetSize(); j++)
+ {
+ sflag=GetSignalFlag(j);
+ SetSigFlags(sflag,0,j);
+ }
+ }
+
+ if (mode>=0) DeleteWaveform(0);
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::SetSignal(Double_t sig,Int_t j)
{
// Store signal value for the j-th (default j=1) slot.
-// Note : The first signal slot is at j=1.
+// Notes :
+// -------
+// 1) The first signal slot is at j=1.
+// 2) In case the 'lock' flag was set for the specified slot, the new
+// signal value will not be stored.
+// One has to unlock the specified slot first in case one really wants
+// to overwite the signal value.
// In case the value of the index j exceeds the maximum number of reserved
// slots for signal values, the number of reserved slots for the
// signal values is increased automatically.
+ if (GetLockValue(j)) return;
+
if (!fSignals)
{
fSignals=new TArrayF(j);
- ResetSignals(1);
+ ResetSignals(-1);
}
Int_t size=fSignals->GetSize();
}
fSignals->AddAt(float(sig),j-1);
+
+ Int_t eflag=GetErrorFlag(j);
+ SetSigFlags(1,eflag,j);
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::SetSignal(Double_t sig,TString name)
{
// Store signal value for the name-specified slot.
//
+// Note :
+// ------
+// In case the 'lock' flag was set for the specified slot, the new
+// signal value will not be stored.
+// One has to unlock the specified slot first in case one really wants
+// to overwite the signal value.
+//
// This procedure involves a slot-index search based on the specified name
// at each invokation. This may become slow in case many slots have been
// defined and/or when this procedure is invoked many times.
// either directly or via a few invokations of GetSlotIndex().
Int_t j=GetSlotIndex(name);
- if (j>0) SetSignal(sig,j);
+ if (j>0)
+ {
+ if (!GetLockValue(j)) SetSignal(sig,j);
+ }
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::AddSignal(Double_t sig,Int_t j)
{
// Add value to the signal of the j-th (default j=1) slot.
-// Note : The first signal slot is at j=1.
+// Notes :
+// -------
+// 1) The first signal slot is at j=1.
+// 2) In case the 'lock' flag was set for the specified slot, the new
+// signal value will not be stored.
+// One has to unlock the specified slot first in case one really wants
+// to overwite the signal value.
// In case the value of the index j exceeds the maximum number of reserved
// slots for signal values, the number of reserved slots for the
// signal values is increased automatically.
+ if (GetLockValue(j)) return;
+
if (!fSignals)
{
fSignals=new TArrayF(j);
Float_t sum=(fSignals->At(j-1))+sig;
fSignals->AddAt(sum,j-1);
+
+ Int_t eflag=GetErrorFlag(j);
+ SetSigFlags(1,eflag,j);
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::AddSignal(Double_t sig,TString name)
{
// Add value to the signal of the name-specified slot.
//
+// Note :
+// ------
+// In case the 'lock' flag was set for the specified slot, the new
+// signal value will not be stored.
+// One has to unlock the specified slot first in case one really wants
+// to overwite the signal value.
+//
// This procedure involves a slot-index search based on the specified name
// at each invokation. This may become slow in case many slots have been
// defined and/or when this procedure is invoked many times.
// either directly or via a few invokations of GetSlotIndex().
Int_t j=GetSlotIndex(name);
- if (j>0) AddSignal(sig,j);
+ if (j>0)
+ {
+ if (!GetLockValue(j)) AddSignal(sig,j);
+ }
}
///////////////////////////////////////////////////////////////////////////
Float_t AliSignal::GetSignal(Int_t j,Int_t mode) const
{
// Provide signal value of the j-th (default j=1) slot.
// Note : The first signal slot is at j=1.
-// In case no signal is present or the argument j is invalid, 0 is returned.
-// The parameter "mode" allows for automatic gain etc... correction of the signal.
+// In case no signal is present or the input argument "j" or "mode" is invalid,
+// the value 0 is returned.
+// The parameter "mode" allows for automatic (de)calibration of the signal
+// (e.g. gain etc... correction or via explicit (de)calibration functions).
//
// mode = 0 : Just the j-th signal is returned.
// 1 : The j-th signal is corrected for the gain, offset, dead flag etc...
+// In case the j-th slot was marked dead, 0 is returned.
// In case the gain value was not set, gain=1 will be assumed.
// In case the gain value was 0, a signal value of 0 is returned.
// In case the offset value was not set, offset=0 will be assumed.
+// 2 : Same as mode=1 but gain, offset dead flag etc... are taken from
+// the AliDevice which owns this AliSignal object.
+// The corresponding AliDevice slot is obtained via matching of
+// the slotnames. In case this fails, the slotindex "j" of the
+// input argument will be used.
+// In case this AliSignal object has no parent AliDevice, just
+// the j-th signal is returned (like with mode=0).
+// 3 : The j-th signal is corrected using the corresponding calibration
+// function.
// In case the j-th slot was marked dead, 0 is returned.
+// In case no calibration function is present, just the j-th signal
+// is returned (like with mode=0).
+// 4 : Same as mode=3 but the calibration function and dead flag are
+// taken from the AliDevice which owns this AliSignal object.
+// The corresponding AliDevice slot is obtained via matching of
+// the slotnames. In case this fails, the slotindex "j" of the
+// input argument will be used.
+// 5 : Same as mode=2 but in case no parent AliDevice is present
+// an automatic switch to mode=1 will be made.
+// 6 : Same as mode=4 but in case no parent AliDevice is present
+// an automatic switch to mode=3 will be made.
+// 7 : Same as mode=3 but in case no calibration function is present
+// an automatic switch to mode=4 will be made.
+// 8 : Same as mode=7 but also the corresponding dead flag of the
+// parent device (if any) will be checked.
+// If either the dead flag of the requested signal slot of this
+// AliSignal object or the corresponding parent device slot is
+// set, 0 is returned.
+//
+// <0 : The corresponding de-correction or de-calibration is performed
//
// The corrected signal (sigc) is determined as follows :
//
// sigc=(signal/gain)-offset
//
+// The de-corrected signal is determined as follows :
+//
+// signal=(sigc+offset)*gain
+//
// The default is mode=0.
+ if (abs(mode)>8) return 0;
+
+ Int_t jcal=j;
Float_t sig=0;
Float_t gain=1;
Float_t offset=0;
+
+ // Get the corresponding slot index (and dead flag) of the parent device
+ Int_t pj=0;
+ Int_t pdead=0;
+ AliSignal* parent=(AliSignal*)GetDevice();
+ if ((abs(mode)==2 || abs(mode)>=4) && parent)
+ {
+ TString name=GetSlotName(j);
+ if (strlen(name.Data())) pj=parent->GetSlotIndex(name);
+ if (abs(mode)==8 && pj) pdead=parent->GetDeadValue(pj);
+ }
+ if (mode==8) mode=7;
+ if (mode==-8) mode=-7;
+
+ AliSignal* sx=(AliSignal*)this;
+
+ TF1* f=0;
+ if (mode==7)
+ {
+ f=sx->GetCalFunction(jcal);
+ if (f)
+ {
+ mode=3;
+ }
+ else
+ {
+ mode=4;
+ }
+ }
+ if (mode==-7)
+ {
+ f=sx->GetDecalFunction(jcal);
+ if (f)
+ {
+ mode=-3;
+ }
+ else
+ {
+ mode=-4;
+ }
+ }
+
+ if (abs(mode)==2 || abs(mode)>=4)
+ {
+ sx=(AliSignal*)GetDevice();
+ if (pj) jcal=pj;
+ }
+ if (!sx && abs(mode)>=5) sx=(AliSignal*)this;
+ if (mode==5) mode=2;
+ if (mode==-5) mode=-2;
+ if (mode==6) mode=3;
+ if (mode==-6) mode=-3;
+
if (fSignals)
{
if (j>0 && j<=(fSignals->GetSize()))
{
sig=fSignals->At(j-1);
- if (mode==0) return sig;
-
- // Correct the signal for the gain, offset, dead flag etc...
- if (GetDeadValue(j)) return 0;
+ if (mode==0 || !sx) return sig;
- if (GetGainFlag(j)) gain=GetGain(j);
- if (GetOffsetFlag(j)) offset=GetOffset(j);
+ // Check for the dead flag setting
+ if (sx->GetDeadValue(jcal) || pdead) return 0;
- if (fabs(gain)>0.)
+ // (De)correct the signal for the gain and offset
+ if (abs(mode)==1 || abs(mode)==2)
{
- sig=(sig/gain)-offset;
+ if (sx->GetGainFlag(jcal)) gain=sx->GetGain(jcal);
+ if (sx->GetOffsetFlag(jcal)) offset=sx->GetOffset(jcal);
+
+ if (fabs(gain)>0.)
+ {
+ if (mode>0) sig=(sig/gain)-offset; // Gain and offset correction
+ if (mode<0) sig=(sig+offset)*gain; // Gain and offset de-correction
+ }
+ else
+ {
+ sig=0;
+ }
+ return sig;
}
- else
+
+ // (De)calibrate the signal with the corresponding (de)calibration function
+ if (abs(mode)==3 || abs(mode)==4)
{
- sig=0;
+ f=sx->GetCalFunction(jcal);
+ if (mode<0) f=sx->GetDecalFunction(jcal);
+ if (f) sig=f->Eval(sig);
+ return sig;
}
}
else
{
// Provide signal value of the name-specified slot.
// In case no signal is present, 0 is returned.
-// The parameter "mode" allows for automatic gain etc... correction of the signal.
-//
-// mode = 0 : Just the j-th signal is returned.
-// 1 : The j-th signal is corrected for the gain, offset, dead flag etc...
-// In case the gain value was not set, gain=1 will be assumed.
-// In case the gain value was 0, a signal value of 0 is returned.
-// In case the offset value was not set, offset=0 will be assumed.
-// In case the j-th slot was marked dead, 0 is returned.
-//
-// The corrected signal (sigc) is determined as follows :
-//
-// sigc=(signal/gain)-offset
+// The parameter "mode" allows for automatic (de)calibration of the signal
+// (e.g. gain etc... correction or via explicit (de)calibration functions).
+// For further details about the (de)calibration modes, please refer to the
+// corresponding slot-index based memberfunction.
//
// The default is mode=0.
//
void AliSignal::SetSignalError(Double_t dsig,Int_t j)
{
// Store error on the signal for the j-th (default j=1) slot.
-// Note : The first signal slot is at j=1.
+// Notes :
+// -------
+// 1) The first signal slot is at j=1.
+// 2) In case the 'lock' flag was set for the specified slot, the new
+// signal error value will not be stored.
+// One has to unlock the specified slot first in case one really wants
+// to overwite the signal error value.
// In case the value of the index j exceeds the maximum number of reserved
// slots for signal error values, the number of reserved slots for the
// signal errors is increased automatically.
+ if (GetLockValue(j)) return;
+
if (!fDsignals)
{
fDsignals=new TArrayF(j);
- ResetSignals(2);
+ ResetSignals(-2);
}
Int_t size=fDsignals->GetSize();
}
fDsignals->AddAt(float(dsig),j-1);
+
+ Int_t sflag=GetSignalFlag(j);
+ SetSigFlags(sflag,1,j);
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::SetSignalError(Double_t dsig,TString name)
{
// Store error on the signal for the name-specified slot.
//
+// Note :
+// ------
+// In case the 'lock' flag was set for the specified slot, the new
+// signal error value will not be stored.
+// One has to unlock the specified slot first in case one really wants
+// to overwite the signal error value.
+//
// This procedure involves a slot-index search based on the specified name
// at each invokation. This may become slow in case many slots have been
// defined and/or when this procedure is invoked many times.
// either directly or via a few invokations of GetSlotIndex().
Int_t j=GetSlotIndex(name);
- if (j>0) SetSignalError(dsig,j);
+ if (j>0)
+ {
+ if (!GetLockValue(j)) SetSignalError(dsig,j);
+ }
}
///////////////////////////////////////////////////////////////////////////
Float_t AliSignal::GetSignalError(Int_t j) const
return val;
}
///////////////////////////////////////////////////////////////////////////
-void AliSignal::Data(TString f) const
+void AliSignal::Data(TString f,TString u) const
{
// Provide all signal information within the coordinate frame f.
+//
+// The string argument "u" allows to choose between different angular units
+// in case e.g. a spherical frame is selected.
+// u = "rad" : angles provided in radians
+// "deg" : angles provided in degrees
+//
+// The defaults are f="car" and u="rad".
const char* name=GetName();
const char* title=GetTitle();
- cout << " *" << ClassName() << "::Data* Id :" << GetUniqueID();
+ cout << " *" << ClassName() << "::Data* Id : " << GetUniqueID();
if (strlen(name)) cout << " Name : " << name;
if (strlen(title)) cout << " Title : " << title;
cout << endl;
cout << " Position";
- Ali3Vector::Data(f);
+ AliPosition::Data(f,u);
if (fDevice)
{
const char* devname=fDevice->GetName();
const char* devtitle=fDevice->GetTitle();
- cout << " Owned by device : " << fDevice->ClassName();
+ cout << " Owned by device : " << fDevice->ClassName()
+ << " Id : " << fDevice->GetUniqueID();
if (strlen(devname)) cout << " Name : " << devname;
if (strlen(devtitle)) cout << " Title : " << devtitle;
cout << endl;
}
+ // Provide an overview of the stored waveforms
+ ListWaveform(-1);
+
+ // Provide an overview of the associated tracks
+ ListTrack(-1);
+
+ // Provide an overview of all the data and attribute slots
List(-1);
}
///////////////////////////////////////////////////////////////////////////
const char* name=GetName();
const char* title=GetTitle();
- cout << " *" << ClassName() << "::Data*";
+ cout << " *" << ClassName() << "::Data* Id :" << GetUniqueID();
if (strlen(name)) cout << " Name : " << name;
if (strlen(title)) cout << " Title : " << title;
cout << endl;
+ if (fDevice)
+ {
+ const char* devname=fDevice->GetName();
+ const char* devtitle=fDevice->GetTitle();
+ cout << " Owned by device : " << fDevice->ClassName();
+ if (strlen(devname)) cout << " Name : " << devname;
+ if (strlen(devtitle)) cout << " Title : " << devtitle;
+ cout << endl;
+ }
}
- Int_t nvalues=GetNvalues();
- Int_t nerrors=GetNerrors();
- Int_t nwforms=GetNwaveforms();
+ Int_t n=GetNslots();
Int_t nlinkslots=0;
- if (fLinks) nlinkslots=fLinks->GetMaxColumn();
- Int_t n=nvalues;
- if (nerrors>n) n=nerrors;
- if (nwforms>n) n=nwforms;
+ if (GetNlinks()) nlinkslots=fLinks->GetMaxColumn();
if (nlinkslots>n) n=nlinkslots;
-
+
TObject* obj=0;
Int_t nrefs=0;
TArrayI posarr;
{
for (Int_t i=1; i<=n; i++)
{
- cout << " Slot : " << i;
- if (i<=nvalues) cout << " Signal value : " << GetSignal(i);
- if (i<=nerrors) cout << " error : " << GetSignalError(i);
- AliAttrib::List(i);
- cout << endl;
- obj=GetWaveform(i);
- if (obj)
- {
- const char* wfname=obj->GetName();
- const char* wftitle=obj->GetTitle();
- cout << " Waveform : " << obj->ClassName();
- if (strlen(wfname)) cout << " Name : " << wfname;
- if (strlen(wftitle)) cout << " Title : " << wftitle;
- cout << endl;
- }
obj=0;
nrefs=GetIndices(obj,i,posarr);
- for (Int_t k=0; k<nrefs; k++)
+
+ if (GetSignalFlag(i) || GetErrorFlag(i) || GetCalFunction(i) || GetDecalFunction(i) || GetCalWord(i) || nrefs)
{
- pos=posarr.At(k);
- obj=GetLink(i,pos);
- if (obj)
+ cout << " Slot : " << i;
+ if (GetSignalFlag(i)) cout << " Signal value : " << GetSignal(i);
+ if (GetErrorFlag(i)) cout << " error : " << GetSignalError(i);
+ AliAttrib::List(i);
+ cout << endl;
+
+ for (Int_t k=0; k<nrefs; k++)
{
- cout << " Link at position " << pos << " to : " << obj->ClassName();
- if (obj->InheritsFrom("TNamed"))
+ pos=posarr.At(k);
+ obj=GetLink(i,pos);
+ if (obj)
{
- const char* lname=obj->GetName();
- const char* ltitle=obj->GetTitle();
- if (strlen(lname)) cout << " Name : " << lname;
- if (strlen(ltitle)) cout << " Title : " << ltitle;
+ cout << " Link at position " << pos << " to : " << obj->ClassName();
+ if (obj->InheritsFrom("TNamed"))
+ {
+ const char* lname=obj->GetName();
+ const char* ltitle=obj->GetTitle();
+ if (strlen(lname)) cout << " Name : " << lname;
+ if (strlen(ltitle)) cout << " Title : " << ltitle;
+ }
+ cout << endl;
}
- cout << endl;
}
}
}
{
if (j<=n)
{
- cout << " Slot : " << j;
- if (j<=nvalues) cout << " Signal value : " << GetSignal(j);
- if (j<=nerrors) cout << " error : " << GetSignalError(j);
- AliAttrib::List(j);
- cout << endl;
- obj=GetWaveform(j);
- if (obj)
- {
- const char* wfnamej=obj->GetName();
- const char* wftitlej=obj->GetTitle();
- cout << " Waveform : " << obj->ClassName();
- if (strlen(wfnamej)) cout << " Name : " << wfnamej;
- if (strlen(wftitlej)) cout << " Title : " << wftitlej;
- cout << endl;
- }
obj=0;
nrefs=GetIndices(obj,j,posarr);
- for (Int_t kj=0; kj<nrefs; kj++)
+
+ if (GetSignalFlag(j) || GetErrorFlag(j) || GetCalFunction(j) || GetDecalFunction(j) || GetCalWord(j) || nrefs)
{
- pos=posarr.At(kj);
- obj=GetLink(j,pos);
- if (obj)
+ cout << " Slot : " << j;
+ if (GetSignalFlag(j)) cout << " Signal value : " << GetSignal(j);
+ if (GetErrorFlag(j)) cout << " error : " << GetSignalError(j);
+ AliAttrib::List(j);
+ cout << endl;
+
+ for (Int_t kj=0; kj<nrefs; kj++)
{
- cout << " Link at position " << pos << " to : " << obj->ClassName();
- if (obj->InheritsFrom("TNamed"))
+ pos=posarr.At(kj);
+ obj=GetLink(j,pos);
+ if (obj)
{
- const char* lnamej=obj->GetName();
- const char* ltitlej=obj->GetTitle();
- if (strlen(lnamej)) cout << " Name : " << lnamej;
- if (strlen(ltitlej)) cout << " Title : " << ltitlej;
+ cout << " Link at position " << pos << " to : " << obj->ClassName();
+ if (obj->InheritsFrom("TNamed"))
+ {
+ const char* lnamej=obj->GetName();
+ const char* ltitlej=obj->GetTitle();
+ if (strlen(lnamej)) cout << " Name : " << lnamej;
+ if (strlen(ltitlej)) cout << " Title : " << ltitlej;
+ }
+ cout << endl;
}
- cout << endl;
}
}
}
if (j>0) List(j);
}
///////////////////////////////////////////////////////////////////////////
+void AliSignal::ListWaveform(Int_t j) const
+{
+// Provide information for the j-th waveform.
+// The first waveform is at j=1.
+// In case j=0 (default) the info of all waveforms will be listed.
+// In case j=-1 the info of all waveforms will be listed, but the header
+// information will be suppressed.
+
+ if (j<-1)
+ {
+ cout << " *AliSignal::ListWaveform* Invalid argument j = " << j << endl;
+ return;
+ }
+
+ if (j != -1)
+ {
+ const char* name=GetName();
+ const char* title=GetTitle();
+
+ cout << " *" << ClassName() << "::Data* Id :" << GetUniqueID();
+ if (strlen(name)) cout << " Name : " << name;
+ if (strlen(title)) cout << " Title : " << title;
+ cout << endl;
+ if (fDevice)
+ {
+ const char* devname=fDevice->GetName();
+ const char* devtitle=fDevice->GetTitle();
+ cout << " Owned by device : " << fDevice->ClassName();
+ if (strlen(devname)) cout << " Name : " << devname;
+ if (strlen(devtitle)) cout << " Title : " << devtitle;
+ cout << endl;
+ }
+ }
+
+ Int_t n=GetNwaveforms();
+ TObject* obj=0;
+
+ if (j<=0)
+ {
+ for (Int_t i=1; i<=n; i++)
+ {
+ obj=GetWaveform(i);
+ if (obj)
+ {
+ const char* wfname=obj->GetName();
+ const char* wftitle=obj->GetTitle();
+ cout << " Waveform " << i << " : " << obj->ClassName();
+ if (strlen(wfname)) cout << " Name : " << wfname;
+ if (strlen(wftitle)) cout << " Title : " << wftitle;
+ cout << endl;
+ }
+ }
+ }
+ else
+ {
+ if (j<=n)
+ {
+ obj=GetWaveform(j);
+ if (obj)
+ {
+ const char* wfnamej=obj->GetName();
+ const char* wftitlej=obj->GetTitle();
+ cout << " Waveform " << j << " : " << obj->ClassName();
+ if (strlen(wfnamej)) cout << " Name : " << wfnamej;
+ if (strlen(wftitlej)) cout << " Title : " << wftitlej;
+ cout << endl;
+ }
+ }
+ }
+}
+///////////////////////////////////////////////////////////////////////////
+void AliSignal::ListTrack(Int_t j) const
+{
+// Provide information for the j-th associated track.
+// The first associated track is at j=1.
+// In case j=0 (default) the info of all associated tracks will be listed.
+// In case j=-1 the info of all tracks will be listed, but the header
+// information will be suppressed.
+
+ if (j<-1)
+ {
+ cout << " *AliSignal::ListTrack* Invalid argument j = " << j << endl;
+ return;
+ }
+
+ if (j != -1)
+ {
+ const char* name=GetName();
+ const char* title=GetTitle();
+
+ cout << " *" << ClassName() << "::Data* Id :" << GetUniqueID();
+ if (strlen(name)) cout << " Name : " << name;
+ if (strlen(title)) cout << " Title : " << title;
+ cout << endl;
+ if (fDevice)
+ {
+ const char* devname=fDevice->GetName();
+ const char* devtitle=fDevice->GetTitle();
+ cout << " Owned by device : " << fDevice->ClassName();
+ if (strlen(devname)) cout << " Name : " << devname;
+ if (strlen(devtitle)) cout << " Title : " << devtitle;
+ cout << endl;
+ }
+ }
+
+ Int_t n=GetNtracks();
+ AliTrack* tx=0;
+
+ if (j<=0)
+ {
+ for (Int_t i=1; i<=n; i++)
+ {
+ tx=GetTrack(i);
+ if (tx)
+ {
+ const char* txname=tx->GetName();
+ const char* txtitle=tx->GetTitle();
+ cout << " Track " << i << " : " << tx->ClassName() << " Id : " << tx->GetId();
+ if (strlen(txname)) cout << " Name : " << txname;
+ if (strlen(txtitle)) cout << " Title : " << txtitle;
+ cout << endl;
+ }
+ }
+ }
+ else
+ {
+ if (j<=n)
+ {
+ tx=GetTrack(j);
+ if (tx)
+ {
+ const char* txnamej=tx->GetName();
+ const char* txtitlej=tx->GetTitle();
+ cout << " Track " << j << " : " << tx->ClassName() << " Id : " << tx->GetId();
+ if (strlen(txnamej)) cout << " Name : " << txnamej;
+ if (strlen(txtitlej)) cout << " Title : " << txtitlej;
+ cout << endl;
+ }
+ }
+ }
+}
+///////////////////////////////////////////////////////////////////////////
Int_t AliSignal::GetNvalues() const
{
// Provide the number of values for this signal.
+
+ if (!fSignals) return 0;
+
Int_t n=0;
- if (fSignals) n=fSignals->GetSize();
+ for (Int_t i=1; i<=fSigflags->GetSize(); i++)
+ {
+ if (GetSignalFlag(i)) n=i;
+ }
+
return n;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliSignal::GetNerrors() const
{
// Provide the number specified errors on the values for this signal.
+
+ if (!fDsignals) return 0;
+
Int_t n=0;
- if (fDsignals) n=fDsignals->GetSize();
+ for (Int_t i=1; i<=fSigflags->GetSize(); i++)
+ {
+ if (GetErrorFlag(i)) n=i;
+ }
+
return n;
}
///////////////////////////////////////////////////////////////////////////
-Int_t AliSignal::GetNwaveforms() const
+void AliSignal::SetSigFlags(Int_t is,Int_t ie,Int_t j)
{
-// Provide the number specified waveforms for this signal.
- Int_t n=0;
- if (fWaveforms) n=fWaveforms->GetSize();
- return n;
+// Store signal and/or error value flags of the j-th (default j=1) slot.
+// Note : The first slot is at j=1.
+// In case the value of the index j exceeds the maximum number of reserved
+// slots for the flags, the number of reserved slots for the flags is
+// increased automatically.
+// The value stored is : 10*signalflag + errorflag.
+
+ if (j<1)
+ {
+ cout << " *AliSignal::SetSigFlags* Invalid argument j = " << j << endl;
+ return;
+ }
+
+ if (!fSigflags)
+ {
+ fSigflags=new TArrayI(j);
+ }
+
+ Int_t size=fSigflags->GetSize();
+
+ if (j>size)
+ {
+ fSigflags->Set(j);
+ }
+
+ Int_t word=10*is+ie;
+
+ fSigflags->AddAt(word,j-1);
}
///////////////////////////////////////////////////////////////////////////
-TH1F* AliSignal::GetWaveform(Int_t j) const
+Int_t AliSignal::GetSignalFlag(Int_t j) const
{
-// Provide pointer to the waveform histogram of the j-th slot.
- TH1F* waveform=0;
- if (j <= GetNwaveforms()) waveform=(TH1F*)fWaveforms->At(j-1);
- return waveform;
+// Provide signal value flag of the j-th (default j=1) slot.
+//
+// flag = 1 : Signal value was set
+// 0 : Signal value was not set
+//
+// Note : The first attribute slot is at j=1.
+// In case j is invalid, 0 is returned.
+
+ if (j<1)
+ {
+ cout << " *AliSignal::GetSignalFlag* Invalid argument j = " << j << endl;
+ return 0;
+ }
+ Int_t flag=0;
+ if (fSigflags)
+ {
+ if (j>0 && j<=(fSigflags->GetSize()))
+ {
+ Int_t word=fSigflags->At(j-1);
+ flag=word/10;
+ }
+ }
+ return flag;
}
///////////////////////////////////////////////////////////////////////////
-TH1F* AliSignal::GetWaveform(TString name) const
+Int_t AliSignal::GetSignalFlag(TString name) const
+{
+// Provide signal value flag of the name-specified slot.
+//
+// flag = 1 : Signal value was set
+// 0 : Signal value was not set
+//
+//
+// This procedure involves a slot-index search based on the specified name
+// at each invokation. This may become slow in case many slots have been
+// defined and/or when this procedure is invoked many times.
+// In such cases it is preferable to use indexed addressing in the user code
+// either directly or via a few invokations of GetSlotIndex().
+
+ Int_t j=GetSlotIndex(name);
+ Int_t flag=0;
+ if (j>0) flag=GetSignalFlag(j);
+ return flag;
+}
+///////////////////////////////////////////////////////////////////////////
+Int_t AliSignal::GetErrorFlag(Int_t j) const
+{
+// Provide error value flag of the j-th (default j=1) slot.
+//
+// flag = 1 : Error value was set
+// 0 : Error value was not set
+//
+// Note : The first attribute slot is at j=1.
+// In case j is invalid, 0 is returned.
+
+ if (j<1)
+ {
+ cout << " *AliSignal::GetErrorFlag* Invalid argument j = " << j << endl;
+ return 0;
+ }
+ Int_t flag=0;
+ if (fSigflags)
+ {
+ if (j>0 && j<=(fSigflags->GetSize()))
+ {
+ Int_t word=fSigflags->At(j-1);
+ flag=word%10;
+ }
+ }
+ return flag;
+}
+///////////////////////////////////////////////////////////////////////////
+Int_t AliSignal::GetErrorFlag(TString name) const
{
-// Provide pointer to the waveform histogram of the name-specified slot.
+// Provide error value flag of the name-specified slot.
+//
+// flag = 1 : Error value was set
+// 0 : Error value was not set
+//
//
// This procedure involves a slot-index search based on the specified name
// at each invokation. This may become slow in case many slots have been
// either directly or via a few invokations of GetSlotIndex().
Int_t j=GetSlotIndex(name);
+ Int_t flag=0;
+ if (j>0) flag=GetErrorFlag(j);
+ return flag;
+}
+///////////////////////////////////////////////////////////////////////////
+Int_t AliSignal::GetNslots() const
+{
+// Provide the number of existing slots.
+
+ Int_t n=AliAttrib::GetNslots();
+
+ if (!fSigflags) return n;
+
+ Int_t nflags=0;
+ for (Int_t i=0; i<fSigflags->GetSize(); i++)
+ {
+ if (fSigflags->At(i)) nflags=i+1;
+ }
+
+ if (n<nflags) n=nflags;
+
+ return n;
+}
+///////////////////////////////////////////////////////////////////////////
+Int_t AliSignal::GetNwaveforms() const
+{
+// Provide the number of specified waveforms for this signal.
+// Actually the return value is the highest index of the stored waveforms.
+// This allows an index dependent meaning of waveform info (e.g. waveforms
+// with various gain values).
+// So, when all waveforms are stored in consequetive positions (e.g. 1,2,3),
+// this memberfunction returns 3, being both the highest filled position
+// and the actual number of waveforms.
+// In case only waveforms are stored at positions 1,2,5,7 this memberfunction
+// returns a value 7 whereas only 4 actual waveforms are present.
+// This implies that when looping over the various waveform slots, one
+// always has to check whether the returned pointer value is non-zero
+// (which is a good practice anyhow).
+ Int_t n=-1;
+ if (fWaveforms) n=fWaveforms->GetLast();
+ return (n+1);
+}
+///////////////////////////////////////////////////////////////////////////
+TH1F* AliSignal::GetWaveform(Int_t j) const
+{
+// Provide pointer to the j-th waveform histogram.
TH1F* waveform=0;
- if (j>0) waveform=GetWaveform(j);
+ if (j <= GetNwaveforms()) waveform=(TH1F*)fWaveforms->At(j-1);
return waveform;
}
///////////////////////////////////////////////////////////////////////////
+TH1F* AliSignal::GetWaveform(TString name) const
+{
+// Provide pointer to the waveform histogram with the specified name.
+// In case no match is found, zero is returned.
+ Int_t n=GetNwaveforms();
+ TString str;
+ for (Int_t i=1; i<=n; i++)
+ {
+ TH1F* waveform=GetWaveform(i);
+ if (waveform)
+ {
+ str=waveform->GetName();
+ if (str == name) return waveform;
+ }
+ }
+ return 0; // No match found
+}
+///////////////////////////////////////////////////////////////////////////
+Int_t AliSignal::GetWaveformIndex(TString name) const
+{
+// Provide index to the waveform histogram with the specified name.
+// In case no match is found, zero is returned.
+ Int_t n=GetNwaveforms();
+ TString str;
+ for (Int_t i=1; i<=n; i++)
+ {
+ TH1F* waveform=GetWaveform(i);
+ if (waveform)
+ {
+ str=waveform->GetName();
+ if (str == name) return i;
+ }
+ }
+ return 0; // No match found
+}
+///////////////////////////////////////////////////////////////////////////
void AliSignal::SetWaveform(TH1F* waveform,Int_t j)
{
-// Set the 1D waveform histogram for the j-th slot.
+// Set the 1D waveform histogram for the j-th waveform.
//
// Notes :
-// The waveform of the first signal value is at j=1.
+// The first waveform position at j=1.
// j=1 is the default value.
//
// In case the value of the index j exceeds the maximum number of reserved
-// slots for the waveforms, the number of reserved slots for the waveforms
+// positions for the waveforms, the number of reserved positions for the waveforms
// is increased automatically.
//
// In case the histo pointer argument has the same value as the current waveform
// copy of the input histogram is created which becomes the current waveform
// histogram.
+ if (j<1) return;
+
if (!fWaveforms)
{
fWaveforms=new TObjArray(j);
}
}
///////////////////////////////////////////////////////////////////////////
-void AliSignal::SetWaveform(TH1F* waveform,TString name)
-{
-// Set the 1D waveform histogram corresponding for the name-specified slot.
-//
-// This procedure involves a slot-index search based on the specified name
-// at each invokation. This may become slow in case many slots have been
-// defined and/or when this procedure is invoked many times.
-// In such cases it is preferable to use indexed addressing in the user code
-// either directly or via a few invokations of GetSlotIndex().
-
- Int_t j=GetSlotIndex(name);
- if (j>0) SetWaveform(waveform,j);
-}
-///////////////////////////////////////////////////////////////////////////
void AliSignal::ResetWaveform(Int_t j)
{
-// Reset the waveform of the j-th (default j=1) slot.
+// Reset the histogram of the j-th (default j=1) waveform.
// This memberfunction invokes TH1F::Reset() for the corresponding waveform(s).
// To actually delete the histograms from memory, use DeleteWaveform().
-// Notes : The first signal value is at j=1.
+// Notes : The first position is at j=1.
// j=0 ==> All waveforms will be reset.
if (!fWaveforms) return;
///////////////////////////////////////////////////////////////////////////
void AliSignal::ResetWaveform(TString name)
{
-// Reset the waveform of the name-specified slot.
-//
-// This procedure involves a slot-index search based on the specified name
-// at each invokation. This may become slow in case many slots have been
-// defined and/or when this procedure is invoked many times.
-// In such cases it is preferable to use indexed addressing in the user code
-// either directly or via a few invokations of GetSlotIndex().
-
- Int_t j=GetSlotIndex(name);
+// Reset the waveform with the specified name.
+ Int_t j=GetWaveformIndex(name);
if (j>0) ResetWaveform(j);
}
///////////////////////////////////////////////////////////////////////////
void AliSignal::DeleteWaveform(Int_t j)
{
-// Delete the waveform of the j-th (default j=1) slot.
-// Notes : The first signal value is at j=1.
+// Delete the histogram of the j-th (default j=1) waveform.
+// Notes : The first position is at j=1.
// j=0 ==> All waveforms will be deleted.
if (!fWaveforms) return;
///////////////////////////////////////////////////////////////////////////
void AliSignal::DeleteWaveform(TString name)
{
-// Delete the waveform of the name-specified slot.
-//
-// This procedure involves a slot-index search based on the specified name
-// at each invokation. This may become slow in case many slots have been
-// defined and/or when this procedure is invoked many times.
-// In such cases it is preferable to use indexed addressing in the user code
-// either directly or via a few invokations of GetSlotIndex().
-
- Int_t j=GetSlotIndex(name);
+// Delete the waveform with the specified name.
+ Int_t j=GetWaveformIndex(name);
if (j>0) DeleteWaveform(j);
}
///////////////////////////////////////////////////////////////////////////
return 0;
}
+ if (!fLinks) return 0;
+
Int_t n=0;
if (!j)
{
- if (fLinks) n=fLinks->GetNrefs(obj);
+ n=fLinks->GetNrefs(obj);
}
else
{
// Therefore, in case the input argument "obj" points to an AliTrack (or derived)
// object, the current signal is automatically related to this AliTrack
// (or derived) object.
+// Also a global link to this AliTrack (or derived) object will be stored
+// via the AddTrack() facility.
+//
+// IMPORTANT NOTE :
+// ----------------
+// In case one just wants to relate the current AliSignal to a certain AliTrack
+// without a specific signal slot association, it is much more efficient
+// (both memory and CPU wise) to use the memberfunction AddTrack() instead.
//
// Please also have a look at the docs of the memberfunction ResetLink()
// to prevent the situation of stored pointers to non-existent object.
if (obj->InheritsFrom("AliTrack"))
{
AliTrack* t=(AliTrack*)obj;
- t->AddSignal(*this);
+ AddTrack(*t,1);
}
}
}
// defined and/or when this procedure is invoked many times.
// In such cases it is preferable to use indexed addressing in the user code
// either directly or via a few invokations of GetSlotIndex().
+//
+// In case the pointer argument is zero, indeed a value of zero will be
+// stored at the specified position (k) for the specified slotname.
+//
+// In principle any object derived from TObject can be referred to by this
+// mechanism.
+// However, this "linking back" facility was introduced to enable AliSignal slots
+// to refer directly to the various AliTracks to which the AliSignal object itself
+// is related (see AliTrack::AddSignal).
+// Therefore, in case the input argument "obj" points to an AliTrack (or derived)
+// object, the current signal is automatically related to this AliTrack
+// (or derived) object.
+// Also a global link to this AliTrack (or derived) object will be stored
+// via the AddTrack() facility.
+//
+// IMPORTANT NOTE :
+// ----------------
+// In case one just wants to relate the current AliSignal to a certain AliTrack
+// without a specific signal slot association, it is much more efficient
+// (both memory and CPU wise) to use the memberfunction AddTrack() instead.
+//
+// Please also have a look at the docs of the memberfunction ResetLink()
+// to prevent the situation of stored pointers to non-existent object.
Int_t j=GetSlotIndex(name);
if (j>0) SetLink(obj,j,k);
// Therefore, in case the input argument "obj" points to an AliTrack (or derived)
// object, the current signal is automatically related to this AliTrack
// (or derived) object.
+// Also a global link to this AliTrack (or derived) object will be stored
+// via the AddTrack() facility.
+//
+// IMPORTANT NOTE :
+// ----------------
+// In case one just wants to relate the current AliSignal to a certain AliTrack
+// without a specific signal slot association, it is much more efficient
+// (both memory and CPU wise) to use the memberfunction AddTrack() instead.
//
// Please also have a look at the docs of the memberfunction ResetLink()
// to prevent the situation of stored pointers to non-existent object.
// defined and/or when this procedure is invoked many times.
// In such cases it is preferable to use indexed addressing in the user code
// either directly or via a few invokations of GetSlotIndex().
+//
+// In case the pointer argument is zero, indeed a value of zero will be
+// stored at the first free position of the specified slotname.
+//
+// In principle any object derived from TObject can be referred to by this
+// mechanism.
+// However, this "linking back" facility was introduced to enable AliSignal slots
+// to refer directly to the various AliTracks to which the AliSignal object itself
+// is related (see AliTrack::AddSignal).
+// Therefore, in case the input argument "obj" points to an AliTrack (or derived)
+// object, the current signal is automatically related to this AliTrack
+// (or derived) object.
+// Also a global link to this AliTrack (or derived) object will be stored
+// via the AddTrack() facility.
+//
+// IMPORTANT NOTE :
+// ----------------
+// In case one just wants to relate the current AliSignal to a certain AliTrack
+// without a specific signal slot association, it is much more efficient
+// (both memory and CPU wise) to use the memberfunction AddTrack() instead.
+//
+// Please also have a look at the docs of the memberfunction ResetLink()
+// to prevent the situation of stored pointers to non-existent object.
Int_t j=GetSlotIndex(name);
if (j>0) AddLink(obj,j);
///////////////////////////////////////////////////////////////////////////
void AliSignal::ResetLinks(TObject* obj,Int_t j,Int_t k)
{
-// Reset single or multiple link(s) according to user specified selections.
+// Reset single or multiple slot link(s) according to user specified selections.
+//
+// IMPORTANT NOTE :
+// ----------------
+// This facility only acts on the slot related links.
+// The global track reference list will not be affected.
+// To remove all references to AliTrack (or derived) objects, please
+// use the RemoveTrack() of RemoveTracks() memberfunctions.
//
// A link is only reset if the stored reference matches the argument "obj".
// In case obj=0 no check on the matching of the stored reference is performed
///////////////////////////////////////////////////////////////////////////
void AliSignal::ResetLinks(TObject* obj,TString name,Int_t k)
{
-// Reset single or multiple link(s) according to user specified selections.
+// Reset single or multiple slot link(s) according to user specified selections.
+//
+// IMPORTANT NOTE :
+// ----------------
+// This facility only acts on the slot related links.
+// The global track reference list will not be affected.
+// To remove all references to AliTrack (or derived) objects, please
+// use the RemoveTrack() of RemoveTracks() memberfunctions.
//
// A link is only reset if the stored reference matches the argument "obj".
// In case obj=0 no check on the matching of the stored reference is performed
// defined and/or when this procedure is invoked many times.
// In such cases it is preferable to use indexed addressing in the user code
// either directly or via a few invokations of GetSlotIndex().
+//
+// In general the user should take care of properly clearing the corresponding
+// pointer here when the referred object is deleted.
+// However, this "linking back" facility was introduced to enable AliSignal slots
+// to refer directly to the various AliTracks to which the AliSignal object itself
+// is related (see AliTrack::AddSignal).
+// As such, the AliTrack destructor already takes care of clearing the corresponding
+// links from the various AliSignal slots for all the AliSignal objects that were
+// related to that AliTrack.
+// So, in case the link introduced via SetLink() is the pointer of an AliTrack object,
+// the user doesn't have to worry about clearing the corresponding AliTrack link from
+// the AliSignal object when the corresponding AliTrack object is deleted.
Int_t j=GetSlotIndex(name);
if (j>0) ResetLinks(obj,j,k);
return (AliDevice*)fDevice;
}
///////////////////////////////////////////////////////////////////////////
+void AliSignal::AddTrack(AliTrack& t,Int_t mode)
+{
+// Relate an AliTrack object to this signal.
+// Only the pointer values are stored for (backward) reference, meaning
+// that the tracks of which the pointers are stored are NOT owned
+// by the AliSignal object.
+//
+// mode = 0 : Only the reference to the specified track is stored in
+// the current signal, without storing the (backward) reference
+// to this signal into the AliTrack structure.
+// 1 : The (backward) reference to the current signal is also automatically
+// stored into the AliTrack (or derived) object specified in the
+// input argument.
+//
+// The default is mode=1.
+
+ if (!fTracks) fTracks=new TObjArray(1);
+
+ // Check if this track is already stored for this signal
+ Int_t ntk=GetNtracks();
+ for (Int_t i=0; i<ntk; i++)
+ {
+ if (&t==fTracks->At(i)) return;
+ }
+
+ fTracks->Add(&t);
+ if (mode==1) t.AddSignal(*this,0);
+}
+///////////////////////////////////////////////////////////////////////////
+void AliSignal::RemoveTrack(AliTrack& t,Int_t mode)
+{
+// Remove related AliTrack object from this signal.
+// Also all references (if any) to this track in the slot links area
+// are removed.
+//
+// mode = 0 : All references to the specified track are removed from
+// the current signal, without removing the (backward) reference
+// to this signal from the AliTrack structure.
+// 1 : The (backward) reference to the current signal is also automatically
+// removed from the AliTrack (or derived) object specified in the
+// input argument.
+//
+// The default is mode=1.
+
+ if (fTracks)
+ {
+ AliTrack* test=(AliTrack*)fTracks->Remove(&t);
+ if (test) fTracks->Compress();
+ }
+
+ ResetLinks(&t);
+
+ if (mode==1) t.RemoveSignal(*this,0);
+}
+///////////////////////////////////////////////////////////////////////////
+void AliSignal::RemoveTracks(Int_t mode)
+{
+// Remove all related AliTrack objects from this signal.
+// Also all references (if any) to the related tracks in the slot links area
+// are removed.
+//
+// mode = 0 : All track references are removed from the current signal,
+// without removing the (backward) references to this signal from
+// the corresponding AliTrack objects.
+// 1 : The (backward) references to the current signal are also automatically
+// removed from the corresponding AliTrack (or derived) objects.
+//
+// The default is mode=1.
+
+ if (!fTracks) return;
+
+ Int_t ntk=GetNtracks();
+ for (Int_t i=0; i<ntk; i++)
+ {
+ AliTrack* tx=(AliTrack*)fTracks->At(i);
+ if (tx)
+ {
+ ResetLinks(tx);
+ if (mode==1) tx->RemoveSignal(*this,0);
+ }
+ }
+
+ delete fTracks;
+ fTracks=0;
+}
+///////////////////////////////////////////////////////////////////////////
+Int_t AliSignal::GetNtracks(AliTrack* t) const
+{
+// Provide the number of related AliTracks.
+// In case an AliTrack pointer is specified as input argument,
+// the number returned will be the number of occurrences (i.e. 0 or 1)
+// for that specified track.
+// By default t=0, which implies that just the number of all associated
+// tracks will be returned.
+
+ if (!fTracks) return 0;
+
+ Int_t ntk=fTracks->GetEntries();
+
+ if (!t) return ntk;
+
+ for (Int_t i=0; i<ntk; i++)
+ {
+ AliTrack* tx=(AliTrack*)fTracks->At(i);
+ if (tx==t) return 1;
+ }
+
+ return 0;
+}
+///////////////////////////////////////////////////////////////////////////
+AliTrack* AliSignal::GetTrack(Int_t j) const
+{
+// Provide the related AliTrack number j.
+// Note : j=1 denotes the first track.
+
+ if (!fTracks) return 0;
+
+ if ((j >= 1) && (j <= GetNtracks()))
+ {
+ return (AliTrack*)fTracks->At(j-1);
+ }
+ else
+ {
+ cout << " *AliSignal* track number : " << j << " out of range."
+ << " Ntk = " << GetNtracks() << endl;
+ return 0;
+ }
+}
+///////////////////////////////////////////////////////////////////////////
+AliTrack* AliSignal::GetIdTrack(Int_t id) const
+{
+// Return the track with user identifier "id" of this signal
+ if (!fTracks) return 0;
+
+ AliTrack* tx=0;
+ for (Int_t i=0; i<GetNtracks(); i++)
+ {
+ tx=(AliTrack*)fTracks->At(i);
+ if (id == tx->GetId()) return tx;
+ }
+ return 0; // No matching id found
+}
+///////////////////////////////////////////////////////////////////////////
TObject* AliSignal::Clone(const char* name) const
{
// Make a deep copy of the current object and provide the pointer to the copy.