////////////////////////////////////////////////////////////////////////////////
// //
-// Class describing TPC temperature sensors (including pointers to graphs/fits//
+// Class describing time dependent values read from DCS sensors //
+// (including pointers to graphs/fits) //
// Authors: Marian Ivanov, Haavard Helstrup and Martin Siska //
// //
////////////////////////////////////////////////////////////////////////////////
-// Running instructions:
-/*
- TClonesArray * arr = AliDCSSensor::ReadList("TempSensor.txt");
- TFile f("TempSensors.root","RECREATE");
- TTree * tree = new TTree("TempSensor", "TempSensor");
- tree->Branch("Temp",&arr);
- tree->Fill();
- tree->Write();
-
- */
-//
-
-
#include "AliDCSSensor.h"
+#include "TDatime.h"
ClassImp(AliDCSSensor)
-const Double_t kSmall = -9e99; // invalid small value
-const Double_t kLarge = 9e99; // invalid large value
const Double_t kSecInHour = 3600.; // seconds in one hour
AliDCSSensor::AliDCSSensor():
fId(),
fIdDCS(0),
+ fStringID(),
fStartTime(0),
fEndTime(0),
fGraph(0),
TNamed(source),
fId(source.fId),
fIdDCS(source.fIdDCS),
+ fStringID(source.fStringID),
fStartTime(source.fStartTime),
fEndTime(source.fEndTime),
- fGraph(source.fGraph),
- fFit(source.fFit),
+ fGraph(0),
+ fFit(0),
fX(source.fX),
fY(source.fY),
fZ(source.fZ)
//
// Copy constructor
//
-{ }
+{
+ if (source.fGraph) fGraph = (TGraph*)source.fGraph->Clone();
+ if (source.fFit) fFit = (AliSplineFit*)source.fFit->Clone();
+}
AliDCSSensor& AliDCSSensor::operator=(const AliDCSSensor& source){
//
//
if (&source == this) return *this;
new (this) AliDCSSensor(source);
-
- return *this;
+
+ return *this;
}
//_____________________________________________________________________________
-Double_t AliDCSSensor::GetValue(UInt_t timeSec)
+Double_t AliDCSSensor::GetValue(UInt_t timeSec)
{
//
- // Get temperature value for actual sensor
- // timeSec given as offset from start-of-run measured in seconds
+ // Get DCS value for actual sensor
+ // timeSec given as offset from start-of-map measured in seconds
+ // *NOTE* In the current TPC setup, start-of-map is defined as the
+ // first measured point for each sensor. This will be different
+ // for each sensor in the array. If you want to get a value at the
+ // same absolute time, use AliDCSSensor::GetValue(TTimeStamp time)
+ // or AliDCSSensorArray::GetValue (UInt_t timeSec, Int_t sensor)
+ // which measure offsets with respect to the (global) start-of-run
//
- return Eval(TTimeStamp(timeSec));
+ Bool_t inside=kTRUE;
+ return Eval(TTimeStamp((time_t)(fStartTime+timeSec),0),inside);
}
//_____________________________________________________________________________
Double_t AliDCSSensor::GetValue(TTimeStamp time)
{
- // Get temperature value for actual sensor
+ // Get DCS value for actual sensor
// time given as absolute TTimeStamp
//
- return Eval(time);
+ Bool_t inside=kTRUE;
+ return Eval(time, inside);
}
//_____________________________________________________________________________
-Double_t AliDCSSensor::Eval(const TTimeStamp& time) const
+Double_t AliDCSSensor::Eval(const TTimeStamp& time, Bool_t& inside) const
{
//
- // Return temperature at given time
- // If time < start of map return kSmall
- // If time > end of map return kLarge
+ // Return DCS value at given time
+ // The value is calculated from the AliSplineFit, if a fit is not available
+ // the most recent reading from the Graph of DCS points is returned (if
+ // the graph is present)
+ // If time < start of map return value at start of map, inside = false
+ // If time > end of map return value at end of map, inside = false
UInt_t timeSec = time.GetSec();
UInt_t diff = timeSec-fStartTime;
+ inside = true;
- if ( timeSec < fStartTime ) return kSmall;
- if ( timeSec > fEndTime ) return kLarge;
+ if ( timeSec < fStartTime ) {
+ inside=false;
+ diff=0;
+ }
+ if ( timeSec > fEndTime ) {
+ inside=false;
+ diff = fEndTime-fStartTime;
+ }
Double_t timeHour = diff/kSecInHour;
if ( fFit ) {
return fFit->Eval(timeHour);
} else {
- return kSmall;
+ if ( fGraph ) {
+ return EvalGraph(timeHour);
+ } else {
+ return -99;
+ }
}
}
+//_____________________________________________________________________________
+
+Double_t AliDCSSensor::EvalGraph(const TTimeStamp& time, Bool_t& inside) const
+{
+ //
+ // Return DCS value from graph of DCS points (i.e return last reading before
+ // the time specified by TTimeStamp
+ // If time < start of map return value at start of map, inside = false
+ // If time > end of map return value at end of map, inside = false
+
+ UInt_t timeSec = time.GetSec();
+ UInt_t diff = timeSec-fStartTime;
+ inside = true;
+
+ if ( timeSec < fStartTime ) {
+ inside=false;
+ diff=0;
+ }
+ if ( timeSec > fEndTime ) {
+ inside=false;
+ diff = fEndTime-fStartTime;
+ }
+
+ Double_t timeHour = diff/kSecInHour;
+ if ( fGraph ) {
+ return EvalGraph(timeHour);
+ } else {
+ return -99;
+ }
+}
+//_____________________________________________________________________________
+Double_t AliDCSSensor::EvalGraph(const Double_t& timeHour) const
+{
+ //
+ // Extract last value in graph observed before time given by timeHour
+ //
-TGraph* AliDCSSensor::MakeGraph(Int_t nPoints) const
+ // return -99 if point specified is before beginning of graph
+ Double_t x=0; Double_t y=0;
+ fGraph->GetPoint(0,x,y);
+ if ( timeHour < x ) return -99;
+
+ // return previous point when first time > timeHour is observed
+
+ Int_t npoints = fGraph->GetN();
+ for (Int_t i=1; i<npoints; i++) {
+ fGraph->GetPoint(i,x,y);
+ if ( timeHour < x ) {
+ fGraph->GetPoint(i-1,x,y);
+ return y;
+ }
+ }
+
+ // return last point if all times are < timeHour
+ return y;
+}
+
+
+//_____________________________________________________________________________
+TGraph* AliDCSSensor::MakeGraph(Int_t nPoints, Bool_t debug) const
{
//
// Make graph from start time to end time of DCS values
//
+
+
UInt_t stepTime = (fEndTime-fStartTime)/nPoints;
+ if (debug==kTRUE) {
+ printf ("Start time %d, End time %d, step time %d\n",
+ fStartTime,fEndTime,stepTime);
+ TTimeStamp t((time_t)fStartTime,0); t.Print();
+ TTimeStamp t2((time_t)fEndTime,0); t2.Print();
+ }
+
if ( !fFit ) return 0;
Double_t *x = new Double_t[nPoints+1];
Double_t *y = new Double_t[nPoints+1];
for (Int_t ip=0; ip<nPoints; ip++) {
- x[ip] = fStartTime+ip*stepTime;
+ x[ip] = (time_t)(fStartTime+ip*stepTime);
y[ip] = fFit->Eval(ip*stepTime/kSecInHour);
+ if (debug==kTRUE) {
+ TTimeStamp t3((time_t)x[ip],0);
+ printf ("x=%f, y=%f ",x[ip],y[ip]);
+ t3.Print();
+ }
}
TGraph *graph = new TGraph(nPoints,x,y);
graph->GetXaxis()->SetTimeDisplay(1);
graph->GetXaxis()->SetLabelOffset(0.02);
graph->GetXaxis()->SetTimeFormat("#splitline{%d/%m}{%H:%M}");
-
+
return graph;
}
+//_____________________________________________________________________________
+
+TClonesArray * AliDCSSensor::ReadTree(TTree* tree) {
+ //
+ // read values from ascii file
+ //
+
+ Int_t nentries = tree->GetEntries();
+
+ char stringId[100];
+ Int_t num=0;
+ Int_t idDCS=0;
+ Double_t x=0;
+ Double_t y=0;
+ Double_t z=0;
+
+ tree->SetBranchAddress("StringID",&stringId);
+ tree->SetBranchAddress("IdDCS",&idDCS);
+ tree->SetBranchAddress("Num",&num);
+ tree->SetBranchAddress("X",&x);
+ tree->SetBranchAddress("Y",&y);
+ tree->SetBranchAddress("Z",&z);
+
+ // firstSensor = (Int_t)tree->GetMinimum("ECha");
+ // lastSensor = (Int_t)tree->GetMaximum("ECha");
+
+ TClonesArray * array = new TClonesArray("AliDCSSensor",nentries);
+ printf ("nentries = %d\n",nentries);
+
+ for (Int_t isensor=0; isensor<nentries; isensor++){
+ AliDCSSensor * sens = new ((*array)[isensor])AliDCSSensor;
+ tree->GetEntry(isensor);
+ sens->SetId(isensor);
+ sens->SetIdDCS(idDCS);
+ sens->SetStringID(TString(stringId));
+ sens->SetX(x);
+ sens->SetY(y);
+ sens->SetZ(z);
+
+ }
+ return array;
+}
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff