// 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
{
// 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;
+ if (mode==0 || !sx) return sig;
- // Correct the signal for the gain, offset, dead flag etc...
- if (GetDeadValue(j)) return 0;
+ // Check for the dead flag setting
+ if (sx->GetDeadValue(jcal) || pdead) return 0;
- if (GetGainFlag(j)) gain=GetGain(j);
- if (GetOffsetFlag(j)) offset=GetOffset(j);
-
- 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.
//
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();
if (strlen(title)) cout << " Title : " << title;
cout << endl;
cout << " Position";
- Ali3Vector::Data(f);
+ AliPosition::Data(f,u);
if (fDevice)
{
const char* devname=fDevice->GetName();
Int_t nerrors=GetNerrors();
Int_t nlinkslots=0;
if (fLinks) nlinkslots=fLinks->GetMaxColumn();
+ Int_t ncalibs=GetNcalflags();
+ Int_t ncalfuncs=GetNcalfuncs();
+ Int_t ndecalfuncs=GetNdecalfuncs();
+
Int_t n=nvalues;
if (nerrors>n) n=nerrors;
if (nlinkslots>n) n=nlinkslots;
-
+ if (InheritsFrom("AliDevice"))
+ {
+ if (ncalibs>n) n=ncalibs;
+ if (ncalfuncs>n) n=ncalfuncs;
+ if (ndecalfuncs>n) n=ndecalfuncs;
+ }
+
TObject* obj=0;
Int_t nrefs=0;
TArrayI posarr;