// ... // code to create tracks etc...
// ...
//
-// Note : All quantities are in GeV, GeV/c or GeV/c**2
+// Note : By default all quantities are in meter, GeV, GeV/c or GeV/c**2
+// but the user can indicate the usage of a different scale for
+// the metric and/or energy-momentum units via the SetUnitScale()
+// and SetEscale() memberfunctions, respectively.
+// The actual metric and energy-momentum unit scales in use can be
+// obtained via the GetUnitScale() and GetEscale() memberfunctions.
//
//--- Author: Nick van Eijndhoven 27-may-2001 UU-SAP Utrecht
//- Modified: NvE $Date: 2004/10/20 10:49:44 $ UU-SAP Utrecht
///////////////////////////////////////////////////////////////////////////
+#include <cstdlib>
#include "AliEvent.h"
#include "Riostream.h"
// All variables initialised to default values.
fRun=0;
fEvent=0;
- fAproj=0;
- fZproj=0;
- fPnucProj=0;
- fIdProj=0;
- fAtarg=0;
- fZtarg=0;
- fPnucTarg=0;
- fIdTarg=0;
fDevices=0;
fDevCopy=0;
fHits=0;
fOrdered=0;
fDisplay=0;
+ fDevs=0;
}
///////////////////////////////////////////////////////////////////////////
AliEvent::AliEvent(Int_t n) : AliVertex(n),AliTimestamp()
}
fRun=0;
fEvent=0;
- fAproj=0;
- fZproj=0;
- fPnucProj=0;
- fIdProj=0;
- fAtarg=0;
- fZtarg=0;
- fPnucTarg=0;
- fIdTarg=0;
fDevices=0;
fDevCopy=0;
fHits=0;
fOrdered=0;
fDisplay=0;
+ fDevs=0;
}
///////////////////////////////////////////////////////////////////////////
AliEvent::~AliEvent()
delete fDisplay;
fDisplay=0;
}
+ if (fDevs)
+ {
+ delete fDevs;
+ fDevs=0;
+ }
}
///////////////////////////////////////////////////////////////////////////
AliEvent::AliEvent(const AliEvent& evt) : AliVertex(evt),AliTimestamp(evt)
// Copy constructor.
fRun=evt.fRun;
fEvent=evt.fEvent;
- fAproj=evt.fAproj;
- fZproj=evt.fZproj;
- fPnucProj=evt.fPnucProj;
- fIdProj=evt.fIdProj;
- fAtarg=evt.fAtarg;
- fZtarg=evt.fZtarg;
- fPnucTarg=evt.fPnucTarg;
- fIdTarg=evt.fIdTarg;
fDevCopy=evt.fDevCopy;
fHits=0;
fOrdered=0;
fDisplay=0;
+ fDevs=0;
fDevices=0;
Int_t ndevs=evt.GetNdevices();
Set();
fRun=0;
fEvent=0;
- fAproj=0;
- fZproj=0;
- fPnucProj=0;
- fIdProj=0;
- fAtarg=0;
- fZtarg=0;
- fPnucTarg=0;
- fIdTarg=0;
if (fDevices)
{
delete fDisplay;
fDisplay=0;
}
+ if (fDevs)
+ {
+ delete fDevs;
+ fDevs=0;
+ }
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetOwner(Bool_t own)
void AliEvent::SetProjectile(Int_t a,Int_t z,Double_t pnuc,Int_t id)
{
// Set the projectile A, Z, momentum per nucleon and user defined particle ID.
-// By default the particle ID is set to zero.
- fAproj=a;
- fZproj=z;
- fPnucProj=pnuc;
- fIdProj=id;
+// If not explicitly specified by the user, the projectile particle ID is set
+// to zero by default and will not be stored in the event structure.
+// The projectile specifications will be stored in a device named "Beam"
+// which is an instance of AliSignal.
+// As such these data are easily retrievable from the event structure.
+// However, for backward compatibility reasons the beam data can also be
+// retrieved via memberfunctions like GetProjectileA() etc...
+
+ Int_t newdev=0;
+
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+
+ if (!beam)
+ {
+ beam=new AliSignal();
+ beam->SetNameTitle("Beam","Beam and target specifications");
+ newdev=1;
+ }
+
+ if (a || z)
+ {
+ beam->AddNamedSlot("Aproj");
+ beam->SetSignal(a,"Aproj");
+ beam->AddNamedSlot("Zproj");
+ beam->SetSignal(z,"Zproj");
+ }
+ beam->AddNamedSlot("Pnucproj");
+ beam->SetSignal(pnuc,"Pnucproj");
+ if (id)
+ {
+ beam->AddNamedSlot("Idproj");
+ beam->SetSignal(id,"Idproj");
+ }
+
+ if (newdev)
+ {
+ AddDevice(beam);
+ if (fDevCopy) delete beam;
+ }
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetProjectileA() const
{
// Provide the projectile A value.
- return fAproj;
+ Int_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=int(beam->GetSignal("Aproj"));
+ return val;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetProjectileZ() const
{
// Provide the projectile Z value.
- return fZproj;
+ Int_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=int(beam->GetSignal("Zproj"));
+ return val;
}
///////////////////////////////////////////////////////////////////////////
Double_t AliEvent::GetProjectilePnuc() const
{
// Provide the projectile momentum value per nucleon.
- return fPnucProj;
+ Double_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=beam->GetSignal("Pnucproj");
+ return val;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetProjectileId() const
{
// Provide the user defined particle ID of the projectile.
- return fIdProj;
+ Int_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=int(beam->GetSignal("Idproj"));
+ return val;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetTarget(Int_t a,Int_t z,Double_t pnuc,Int_t id)
{
// Set the target A, Z, momentum per nucleon and user defined particle ID.
-// By default the particle ID is set to zero.
- fAtarg=a;
- fZtarg=z;
- fPnucTarg=pnuc;
- fIdTarg=id;
+// If not explicitly specified by the user, the target particle ID is set
+// to zero by default and will not be stored in the event structure.
+// The target specifications will be stored in a device named "Beam"
+// which is an instance of AliSignal.
+// As such these data are easily retrievable from the event structure.
+// However, for backward compatibility reasons the beam data can also be
+// retrieved via memberfunctions like GetTargetA() etc...
+
+ Int_t newdev=0;
+
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+
+ if (!beam)
+ {
+ beam=new AliSignal();
+ beam->SetNameTitle("Beam","Beam and target specifications");
+ newdev=1;
+ }
+
+ if (a || z)
+ {
+ beam->AddNamedSlot("Atarg");
+ beam->SetSignal(a,"Atarg");
+ beam->AddNamedSlot("Ztarg");
+ beam->SetSignal(z,"Ztarg");
+ }
+ beam->AddNamedSlot("Pnuctarg");
+ beam->SetSignal(pnuc,"Pnuctarg");
+ if (id)
+ {
+ beam->AddNamedSlot("Idtarg");
+ beam->SetSignal(id,"Idtarg");
+ }
+
+ if (newdev)
+ {
+ AddDevice(beam);
+ if (fDevCopy) delete beam;
+ }
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetTargetA() const
{
// Provide the target A value.
- return fAtarg;
+ Int_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=int(beam->GetSignal("Atarg"));
+ return val;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetTargetZ() const
{
// Provide the target Z value.
- return fZtarg;
+ Int_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=int(beam->GetSignal("Ztarg"));
+ return val;
}
///////////////////////////////////////////////////////////////////////////
Double_t AliEvent::GetTargetPnuc() const
{
// Provide the target momentum value per nucleon.
- return fPnucTarg;
+ Double_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=beam->GetSignal("Pnuctarg");
+ return val;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetTargetId() const
{
// Provide the user defined particle ID of the target.
- return fIdTarg;
+ Int_t val=0;
+ AliSignal* beam=(AliSignal*)GetDevice("Beam");
+ if (beam) val=int(beam->GetSignal("Idtarg"));
+ return val;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::HeaderData()
ShowTracks(0);
}
///////////////////////////////////////////////////////////////////////////
-void AliEvent::Data(TString f)
+void AliEvent::Data(TString f,TString u)
{
// Provide event 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".
+
HeaderData();
- AliVertex::Data(f);
+ AliVertex::Data(f,u);
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetNdevices() const
return ndevs;
}
///////////////////////////////////////////////////////////////////////////
+Int_t AliEvent::GetNdevices(const char* classname) const
+{
+// Provide the number of stored devices of the specified class.
+
+ Int_t ndevs=0;
+ for (Int_t idev=1; idev<=GetNdevices(); idev++)
+ {
+ TObject* obj=GetDevice(idev);
+ if (!obj) continue;
+
+ if (obj->InheritsFrom(classname)) ndevs++;
+ }
+ return ndevs;
+}
+///////////////////////////////////////////////////////////////////////////
void AliEvent::AddDevice(TObject& d)
{
// Add a device to the event.
}
}
///////////////////////////////////////////////////////////////////////////
+void AliEvent::RemoveDevice(TObject* d)
+{
+// Remove the specified device from the event.
+
+ if (!fDevices || !d) return;
+
+ TObject* obj=fDevices->Remove(d);
+ if (obj)
+ {
+ if (fDevCopy) delete obj;
+ fDevices->Compress();
+ }
+}
+///////////////////////////////////////////////////////////////////////////
void AliEvent::SetDevCopy(Int_t j)
{
// (De)activate the creation of private copies of the added devices.
}
}
///////////////////////////////////////////////////////////////////////////
-TObject* AliEvent::GetIdDevice(Int_t id) const
+TObject* AliEvent::GetIdDevice(Int_t id,TObjArray* devs) const
{
-// Return the device with unique identifier "id".
+// Return the device with identifier "id" from the specified array "devs".
+// In case devs=0 (which is the default) all devices stored in the event
+// structure will be evaluated.
+// Note : In case of multiple occurrences of identifier "id", the first
+// encountered matching device will be returned.
+
+ TObjArray* arr=devs;
+ if (!arr) arr=fDevices;
+
+ if (!arr || id<0) return 0;
+
+ Int_t idx=0;
+ for (Int_t i=0; i<arr->GetSize(); i++)
+ {
+ TObject* dev=arr->At(i);
+ if (dev)
+ {
+ idx=dev->GetUniqueID();
+ if (idx==id) return dev;
+ }
+ }
+ return 0; // No matching id found
+}
+///////////////////////////////////////////////////////////////////////////
+TObject* AliEvent::GetIdDevice(Int_t id,const char* classname) const
+{
+// Return the device with identifier "id" of the specified class.
+// Note : In case of multiple occurrences of identifier "id", the first
+// encountered matching device will be returned.
+
if (!fDevices || id<0) return 0;
Int_t idx=0;
if (dev)
{
idx=dev->GetUniqueID();
- if (idx==id) return dev;
+ if (idx==id && dev->InheritsFrom(classname)) return dev;
}
}
- return 0; // No matching id found
+ return 0; // No matching id found for the specified class
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::ShowDevices(Int_t mode) const
else
{
cout << " The following " << ndevs << " devices are available :" << endl;
+ Int_t nh=0,nw=0;
for (Int_t i=1; i<=ndevs; i++)
{
TObject* dev=GetDevice(i);
cout << " Device number : " << i;
cout << " Class : " << dev->ClassName() << " Id : " << dev->GetUniqueID();
if (strlen(name)) cout << " Name : " << name;
- if (dev->InheritsFrom("AliDevice")) cout << " Nhits : " << ((AliDevice*)dev)->GetNhits();
- if (dev->InheritsFrom("AliSignal")) cout << " Nwaveforms : " << ((AliSignal*)dev)->GetNwaveforms();
+ if (dev->InheritsFrom("AliDevice"))
+ {
+ nh=((AliDevice*)dev)->GetNhits();
+ if (nh) cout << " Nhits : " << nh;
+ }
+ if (dev->InheritsFrom("AliSignal"))
+ {
+ nw=((AliSignal*)dev)->GetNwaveforms();
+ if (nw) cout << " Nwaveforms : " << nw;
+ }
cout << endl;
}
}
}
}
///////////////////////////////////////////////////////////////////////////
+void AliEvent::ShowDevices(const char* classname,Int_t mode) const
+{
+// Provide an overview of the available devices of the specified class.
+// The argument mode determines the amount of information as follows :
+// mode = 0 ==> Only printout of the number of devices
+// 1 ==> Provide a listing with 1 line of info for each device
+//
+// The default is mode=1.
+//
+ Int_t ndevs=GetNdevices();
+ if (ndevs)
+ {
+ Int_t ndevs2=GetNdevices(classname);
+ if (!mode || !ndevs2)
+ {
+ cout << " There are " << ndevs2 << " selected devices available." << endl;
+ }
+ else
+ {
+ cout << " The following " << ndevs2 << " selected devices are available :" << endl;
+ Int_t nh=0,nw=0;
+ for (Int_t i=1; i<=ndevs; i++)
+ {
+ TObject* dev=GetDevice(i);
+ if (dev)
+ {
+ if (dev->InheritsFrom(classname))
+ {
+ const char* name=dev->GetName();
+ cout << " Device number : " << i;
+ cout << " Class : " << dev->ClassName() << " Id : " << dev->GetUniqueID();
+ if (strlen(name)) cout << " Name : " << name;
+ if (dev->InheritsFrom("AliDevice"))
+ {
+ nh=((AliDevice*)dev)->GetNhits();
+ if (nh) cout << " Nhits : " << nh;
+ }
+ if (dev->InheritsFrom("AliSignal"))
+ {
+ nw=((AliSignal*)dev)->GetNwaveforms();
+ if (nw) cout << " Nwaveforms : " << nw;
+ }
+ cout << endl;
+ }
+ }
+ }
+ }
+ }
+ else
+ {
+ cout << " No devices present for this event." << endl;
+ }
+}
+///////////////////////////////////////////////////////////////////////////
+TObjArray* AliEvent::GetDevices(const char* classname)
+{
+// Provide the references to the various devices derived from the
+// specified class.
+ if (fDevs) fDevs->Clear();
+
+ Int_t ndev=GetNdevices();
+ for (Int_t idev=1; idev<=ndev; idev++)
+ {
+ TObject* obj=GetDevice(idev);
+ if (!obj) continue;
+
+ if (obj->InheritsFrom(classname))
+ {
+ if (!fDevs) fDevs=new TObjArray();
+ fDevs->Add(obj);
+ }
+ }
+ return fDevs;
+}
+///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetNhits(const char* classname)
{
// Provide the number of hits registered to the specified device class.
}
}
///////////////////////////////////////////////////////////////////////////
-TObjArray* AliEvent::SortHits(const char* classname,Int_t idx,Int_t mode)
+TObjArray* AliEvent::SortHits(const char* classname,Int_t idx,Int_t mode,Int_t mcal)
{
// Order the references to the various hits registered to the specified
// device class. The ordered array is returned as a TObjArray.
// order (mode=-1) or ordering in increasing order (mode=1).
// The default is mode=-1.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the ordering process.
+// The gain etc... corrected signals will be used in the ordering process as
+// specified by the "mcal" argument. The definition of this "mcal" parameter
+// corresponds to the signal correction mode described in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mcal=1 (for backward compatibility reasons).
//
// For more extended functionality see class AliDevice.
LoadHits(classname);
AliDevice dev;
- TObjArray* ordered=dev.SortHits(idx,mode,fHits);
+ TObjArray* ordered=dev.SortHits(idx,mode,fHits,mcal);
if (fHits)
{
return fHits;
}
///////////////////////////////////////////////////////////////////////////
-TObjArray* AliEvent::SortHits(const char* classname,TString name,Int_t mode)
+TObjArray* AliEvent::SortHits(const char* classname,TString name,Int_t mode,Int_t mcal)
{
// Order the references to the various hits registered to the specified
// device class. The ordered array is returned as a TObjArray.
// order (mode=-1) or ordering in increasing order (mode=1).
// The default is mode=-1.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the ordering process.
+// The gain etc... corrected signals will be used in the ordering process as
+// specified by the "mcal" argument. The definition of this "mcal" parameter
+// corresponds to the signal correction mode described in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mcal=1 (for backward compatibility reasons).
//
// For more extended functionality see class AliDevice.
LoadHits(classname);
AliDevice dev;
- TObjArray* ordered=dev.SortHits(name,mode,fHits);
+ TObjArray* ordered=dev.SortHits(name,mode,fHits,mcal);
if (fHits)
{
return fHits;
}
///////////////////////////////////////////////////////////////////////////
-void AliEvent::GetExtremes(const char* classname,Float_t& vmin,Float_t& vmax,Int_t idx)
+void AliEvent::GetExtremes(const char* classname,Float_t& vmin,Float_t& vmax,Int_t idx,Int_t mode)
{
// Provide the min. and max. signal values of the various hits registered
// to the specified device class.
// The input argument "idx" denotes the index of the signal slots to be investigated.
// The default is idx=1;
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the process.
+// The gain etc... corrected signals will be used in the process as specified
+// by the "mode" argument. The definition of this "mode" parameter corresponds to
+// the description provided in the GetSignal memberfunction of class AliSignal.
+// The default is mode=1 (for backward compatibility reasons).
//
// For more extended functionality see class AliDevice.
LoadHits(classname);
AliDevice dev;
- dev.GetExtremes(vmin,vmax,idx,fHits);
+ dev.GetExtremes(vmin,vmax,idx,fHits,mode);
}
///////////////////////////////////////////////////////////////////////////
-void AliEvent::GetExtremes(const char* classname,Float_t& vmin,Float_t& vmax,TString name)
+void AliEvent::GetExtremes(const char* classname,Float_t& vmin,Float_t& vmax,TString name,Int_t mode)
{
// Provide the min. and max. signal values of the various hits registered
// to the specified device class.
// The input argument "name" denotes the name of the signal slots to be investigated.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the process.
+// The gain etc... corrected signals will be used in the process as specified
+// by the "mode" argument. The definition of this "mode" parameter corresponds to
+// the description provided in the GetSignal memberfunction of class AliSignal.
+// The default is mode=1 (for backward compatibility reasons).
//
// For more extended functionality see class AliDevice.
LoadHits(classname);
AliDevice dev;
- dev.GetExtremes(vmin,vmax,name,fHits);
+ dev.GetExtremes(vmin,vmax,name,fHits,mode);
}
///////////////////////////////////////////////////////////////////////////
-void AliEvent::DisplayHits(const char* classname,Int_t idx,Float_t scale,Int_t dp,Int_t mstyle,Int_t mcol)
+void AliEvent::DisplayHits(const char* classname,Int_t idx,Float_t scale,Int_t dp,Int_t mode,Int_t mcol)
{
// 3D color display of the various hits registered to the specified device class.
// The user can specify the index (default=1) of the signal slot to perform the display for.
// to define the 100% scale. The default is scale=-1.
// In case dp=1 the owning device position will be used, otherwise the hit position will
// be used in the display. The default is dp=0.
-// Via the "mstyle" and "mcol" arguments the user can specify the marker style
-// and color (see TPolyMarker3D) respectively.
-// The defaults are mstyle="large scalable dot" and mcol=blue.
+// Via the "mcol" argument the user can specify the marker color (see TPolyMarker3D).
+// The default is mcol=blue.
// Signals which were declared as "Dead" will not be displayed.
// The gain etc... corrected signals will be used to determine the marker size.
+// The gain correction is performed according to "mode" argument. The definition of this
+// "mode" parameter corresponds to the description provided in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mode=1 (for backward compatibility reasons).
//
// For more extended functionality see class AliDevice.
//
LoadHits(classname);
AliDevice* dev=new AliDevice();
- dev->DisplayHits(idx,scale,fHits,dp,mstyle,mcol);
+ dev->DisplayHits(idx,scale,fHits,dp,mode,mcol);
if (fDisplay)
{
fDisplay=dev;
}
///////////////////////////////////////////////////////////////////////////
-void AliEvent::DisplayHits(const char* classname,TString name,Float_t scale,Int_t dp,Int_t mstyle,Int_t mcol)
+void AliEvent::DisplayHits(const char* classname,TString name,Float_t scale,Int_t dp,Int_t mode,Int_t mcol)
{
// 3D color display of the various hits registered to the specified device class.
// The user can specify the name of the signal slot to perform the display for.
// be used in the display. The default is dp=0.
// The marker size will indicate the percentage of the maximum encountered value
// of the absolute value of the name-specified input signal slots.
-// Via the "mstyle" and "mcol" arguments the user can specify the marker style
-// and color (see TPolyMarker3D) respectively.
-// The defaults are mstyle="large scalable dot" and mcol=blue.
+// Via the "mcol" argument the user can specify the marker color (see TPolyMarker3D).
+// The default is mcol=blue.
// Signals which were declared as "Dead" will not be displayed.
// The gain etc... corrected signals will be used to determine the marker size.
+// The gain correction is performed according to "mode" argument. The definition of this
+// "mode" parameter corresponds to the description provided in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mode=1 (for backward compatibility reasons).
//
// For more extended functionality see class AliDevice.
//
LoadHits(classname);
AliDevice* dev=new AliDevice();
- dev->DisplayHits(name,scale,fHits,dp,mstyle,mcol);
+ dev->DisplayHits(name,scale,fHits,dp,mode,mcol);
if (fDisplay)
{
fDisplay=dev;
}
///////////////////////////////////////////////////////////////////////////
-TObjArray* AliEvent::SortDevices(const char* classname,TString name,Int_t mode)
+TObjArray* AliEvent::SortDevices(const char* classname,TString name,Int_t mode,Int_t mcal)
{
// Order the references to the various devices based on hit signals registered
// to the specified device class. The ordered array is returned as a TObjArray.
// order (mode=-1) or ordering in increasing order (mode=1).
// The default is mode=-1.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the ordering process.
+// The gain etc... corrected signals will be used in the ordering process as
+// specified by the "mcal" argument. The definition of this "mcal" parameter
+// corresponds to the signal correction mode described in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mcal=1 (for backward compatibility reasons).
//
- TObjArray* ordered=SortHits(classname,name,mode);
+ TObjArray* ordered=SortHits(classname,name,mode,mcal);
if (!ordered) return 0;
- TObjArray* devs=SortDevices(ordered,"*",0);
+ TObjArray* devs=SortDevices(ordered,"*",0,mcal);
return devs;
}
///////////////////////////////////////////////////////////////////////////
-TObjArray* AliEvent::SortDevices(const char* classname,Int_t idx,Int_t mode)
+TObjArray* AliEvent::SortDevices(const char* classname,Int_t idx,Int_t mode,Int_t mcal)
{
// Order the references to the various devices based on hit signals registered
// to the specified device class. The ordered array is returned as a TObjArray.
// order (mode=-1) or ordering in increasing order (mode=1).
// The default is mode=-1.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the ordering process.
+// The gain etc... corrected signals will be used in the ordering process as
+// specified by the "mcal" argument. The definition of this "mcal" parameter
+// corresponds to the signal correction mode described in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mcal=1 (for backward compatibility reasons).
//
- TObjArray* ordered=SortHits(classname,idx,mode);
+ TObjArray* ordered=SortHits(classname,idx,mode,mcal);
if (!ordered) return 0;
- TObjArray* devs=SortDevices(ordered,0,0);
+ TObjArray* devs=SortDevices(ordered,0,0,mcal);
return devs;
}
///////////////////////////////////////////////////////////////////////////
-TObjArray* AliEvent::SortDevices(TObjArray* hits,TString name,Int_t mode)
+TObjArray* AliEvent::SortDevices(TObjArray* hits,TString name,Int_t mode,Int_t mcal)
{
// Order the references to the various devices based on hit signals contained
// in the input array. The ordered array is returned as a TObjArray.
// the input argument "name" is irrelevant.
// The default is mode=-1.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the ordering process.
+// The gain etc... corrected signals will be used in the ordering process as
+// specified by the "mcal" argument. The definition of this "mcal" parameter
+// corresponds to the signal correction mode described in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mcal=1 (for backward compatibility reasons).
//
if (!hits) return 0;
TObjArray* ordered=hits;
AliDevice dev;
- if (mode) ordered=dev.SortHits(name,mode,hits);
+ if (mode) ordered=dev.SortHits(name,mode,hits,mcal);
if (!ordered) return 0;
return fOrdered;
}
///////////////////////////////////////////////////////////////////////////
-TObjArray* AliEvent::SortDevices(TObjArray* hits,Int_t idx,Int_t mode)
+TObjArray* AliEvent::SortDevices(TObjArray* hits,Int_t idx,Int_t mode,Int_t mcal)
{
// Order the references to the various devices based on hit signals contained
// in the input array. The ordered array is returned as a TObjArray.
// the input argument "idx" is irrelevant.
// The default is mode=-1.
// Signals which were declared as "Dead" will be rejected.
-// The gain etc... corrected signals will be used in the ordering process.
+// The gain etc... corrected signals will be used in the ordering process as
+// specified by the "mcal" argument. The definition of this "mcal" parameter
+// corresponds to the signal correction mode described in the GetSignal
+// memberfunction of class AliSignal.
+// The default is mcal=1 (for backward compatibility reasons).
//
if (!hits) return 0;
TObjArray* ordered=hits;
AliDevice dev;
- if (mode) ordered=dev.SortHits(idx,mode,hits);
+ if (mode) ordered=dev.SortHits(idx,mode,hits,mcal);
if (!ordered) return 0;