/* $Id$ */
//____________________________________________________________________
-// This is a class that constructs ReconstParticles (reconstructed
-// particles) out of Digits
//
+// This is a class that constructs AliFMDMult (reconstructed
+// multiplicity) from of Digits
//
// This class reads either digits from a TClonesArray or raw data from
// a DDL file (or similar), and stores the read ADC counts in an
// signal to an energy deposition, and then dividing by the typical
// energy loss of a particle.
//
-// Currently, this class only reads the digits from a TClonesArray,
-// and the Poission method for reconstruction.
+// +---------------------+ +---------------------+
+// | AliFMDReconstructor |<>-----| AliFMDMultAlgorithm |
+// +---------------------+ +---------------------+
+// ^
+// |
+// +-----------+---------+
+// | |
+// +-------------------+ +------------------+
+// | AliFMDMultPoisson | | AliFMDMultNaiive |
+// +-------------------+ +------------------+
+//
+// AliFMDReconstructor acts as a manager class. It contains a list of
+// AliFMDMultAlgorithm objects. The call graph looks something like
+//
+//
+// +----------------------+ +----------------------+
+// | :AliFMDReconstructor | | :AliFMDMultAlgorithm |
+// +----------------------+ +----------------------+
+// | |
+// Reconstruct +-+ |
+// ------------>| | PreRun +-+
+// | |------------------------------->| |
+// | | +-+
+// | |-----+ (for each event) |
+// | | | *ProcessEvent |
+// |+-+ | |
+// || |<---+ PreEvent +-+
+// || |------------------------------>| |
+// || | +-+
+// || |-----+ |
+// || | | ProcessDigits |
+// ||+-+ | |
+// ||| |<---+ |
+// ||| | *ProcessDigit(digit) +-+
+// ||| |----------------------------->| |
+// ||| | +-+
+// ||+-+ |
+// || | PostEvent +-+
+// || |------------------------------>| |
+// || | +-+
+// |+-+ |
+// | | PostRun +-+
+// | |------------------------------->| |
+// | | +-+
+// +-+ |
+// | |
+//
//
//
//-- Authors: Evgeny Karpechev(INR) and Alla Maevsksia
//
//____________________________________________________________________
-#include "AliFMD.h"
-#include "AliFMDDigit.h"
-#include "AliFMDParticles.h"
-#include "AliFMDReconstructor.h"
-#include "AliAltroBuffer.h"
-#include "AliLog.h"
-#include "AliRun.h"
-#include "AliRunLoader.h"
-#include "AliLoader.h"
-#include "AliHeader.h"
-#include "AliGenEventHeader.h"
-#include "AliFMDRawStream.h"
-#include "AliRawReader.h"
+#include <AliLog.h> // ALILOG_H
+#include <AliRun.h> // ALIRUN_H
+#include <AliRunLoader.h> // ALIRUNLOADER_H
+#include <AliLoader.h> // ALILOADER_H
+#include <AliHeader.h> // ALIHEADER_H
+#include <AliRawReader.h> // ALIRAWREADER_H
+#include <AliGenEventHeader.h> // ALIGENEVENTHEADER_H
+#include "AliFMD.h" // ALIFMD_H
+#include "AliFMDGeometry.h" // ALIFMDGEOMETRY_H
+#include "AliFMDParameters.h" // ALIFMDPARAMETERS_H
+#include "AliFMDDetector.h" // ALIFMDDETECTOR_H
+#include "AliFMDRing.h" // ALIFMDRING_H
+#include "AliFMDDigit.h" // ALIFMDDIGIT_H
+#include "AliFMDReconstructor.h" // ALIFMDRECONSTRUCTOR_H
+#include "AliFMDRawStream.h" // ALIFMDRAWSTREAM_H
+#include "AliFMDRawReader.h" // ALIFMDRAWREADER_H
+#include "AliFMDMultAlgorithm.h" // ALIFMDMULTALGORITHM_H
+#include "AliFMDMultPoisson.h" // ALIFMDMULTPOISSON_H
+#include "AliFMDMultNaiive.h" // ALIFMDMULTNAIIVE_H
+#include "AliESD.h" // ALIESD_H
//____________________________________________________________________
-ClassImp(AliFMDReconstructor);
+ClassImp(AliFMDReconstructor)
+#if 0
+ ; // This is here to keep Emacs for indenting the next line
+#endif
//____________________________________________________________________
AliFMDReconstructor::AliFMDReconstructor()
: AliReconstructor(),
- fAdcs(kMaxDetectors, kMaxRings, kMaxSectors, kMaxStrips),
- fDeltaEta(0),
- fDeltaPhi(0),
- fThreshold(0),
fPedestal(0),
- fPedestalWidth(0)
+ fPedestalWidth(0),
+ fPedestalFactor(0)
{
- SetDeltaEta();
- SetDeltaPhi();
- SetThreshold();
- SetPedestal();
+ // Make a new FMD reconstructor object - default CTOR.
+ AliFMDParameters* pars = AliFMDParameters::Instance();
+ fPedestal = pars->GetPedestal();
+ fPedestalWidth = pars->GetPedestalWidth();
+ fPedestalFactor = pars->GetPedestalFactor();
+
+ fAlgorithms.Add(new AliFMDMultNaiive);
+ fAlgorithms.Add(new AliFMDMultPoisson);
- fParticles = new TClonesArray("AliFMDParticles", 1000);
- fFMDLoader = 0;
- fRunLoader = 0;
- fFMD = 0;
+ TIter next(&fAlgorithms);
+ AliFMDMultAlgorithm* algorithm = 0;
+ while ((algorithm = static_cast<AliFMDMultAlgorithm*>(next())))
+ algorithm->PreRun(0);
}
+
//____________________________________________________________________
-void
-AliFMDReconstructor::SetPedestal(Float_t mean, Float_t width)
+AliFMDReconstructor::AliFMDReconstructor(const AliFMDReconstructor& other)
+ : AliReconstructor(),
+ fPedestal(0),
+ fPedestalWidth(0),
+ fPedestalFactor(0)
+{
+ // Copy constructor
+ fPedestal = other.fPedestal;
+ fPedestalWidth = other.fPedestalWidth;
+ fPedestalFactor = other.fPedestalFactor;
+
+
+ fAlgorithms.Delete();
+ TIter next(&(other.fAlgorithms));
+ AliFMDMultAlgorithm* algorithm = 0;
+ while ((algorithm = static_cast<AliFMDMultAlgorithm*>(next())))
+ fAlgorithms.Add(algorithm);
+ fAlgorithms.SetOwner(kFALSE);
+}
+
+
+//____________________________________________________________________
+AliFMDReconstructor&
+AliFMDReconstructor::operator=(const AliFMDReconstructor& other)
{
- // Set the pedestal, and pedestal width
- fPedestal = mean;
- fPedestalWidth = width;
+ // Assignment operator
+ fPedestal = other.fPedestal;
+ fPedestalWidth = other.fPedestalWidth;
+ fPedestalFactor = other.fPedestalFactor;
+
+ fAlgorithms.Delete();
+ TIter next(&(other.fAlgorithms));
+ AliFMDMultAlgorithm* algorithm = 0;
+ while ((algorithm = static_cast<AliFMDMultAlgorithm*>(next())))
+ fAlgorithms.Add(algorithm);
+ fAlgorithms.SetOwner(kFALSE);
+
+ return *this;
+}
+
+//____________________________________________________________________
+AliFMDReconstructor::~AliFMDReconstructor()
+{
+ // Destructor
+ fAlgorithms.Delete();
}
//____________________________________________________________________
void
-AliFMDReconstructor::Reconstruct(AliRunLoader* runLoader,
- AliRawReader* rawReader) const
-{
- // Collects all digits in the same active volume into number of
- // particles
- //
- // Reconstruct number of particles in given group of pads for given
- // FMDvolume determined by numberOfVolume,
- // numberOfMinSector, numberOfMaxSector, numberOfMinRing,
- // numberOgMaxRing
- //
- // The reconstruction method is choosen based on the number of empty
- // strips.
- fParticles->Clear();
- if (!runLoader) {
- Error("Exec","Run Loader loader is NULL - Session not opened");
+AliFMDReconstructor::Init(AliRunLoader* runLoader)
+{
+ // Initialize the reconstructor
+ AliDebug(1, Form("Init called with runloader 0x%x", runLoader));
+ fCurrentVertex = 0;
+ if (!runLoader) {
+ Warning("Init", "No run loader");
return;
}
- fRunLoader = runLoader;
- fFMDLoader = runLoader->GetLoader("FMDLoader");
- if (!fFMDLoader)
- Fatal("AliFMDReconstructor","Can not find FMD (loader) "
- "in specified event");
-
- // Get the AliRun object
- if (!fRunLoader->GetAliRun()) fRunLoader->LoadgAlice();
-
- // Get the AliFMD object
- fFMD = static_cast<AliFMD*>(fRunLoader->GetAliRun()->GetDetector("FMD"));
- if (!fFMD) {
- AliError("Can not get FMD from gAlice");
+ AliHeader* header = runLoader->GetHeader();
+ if (!header) {
+ Warning("Init", "No header");
return;
}
- fFMDLoader->LoadRecPoints("RECREATE");
-
- if (!fRunLoader->TreeE()) fRunLoader->LoadHeader();
-
- TClonesArray* digits = fFMD->Digits();
- if (rawReader) {
- Int_t event = 0;
- while (rawReader->NextEvent()) {
- ProcessEvent(event, rawReader, digits);
- event++;
- }
+ AliGenEventHeader* eventHeader = header->GenEventHeader();
+ if (eventHeader) {
+ TArrayF vtx;
+ eventHeader->PrimaryVertex(vtx);
+ fCurrentVertex = vtx[2];
+ AliDebug(1, Form("Primary vertex Z coordinate for event # %d/%d is %f",
+ header->GetRun(), header->GetEvent(), fCurrentVertex));
+ Warning("Init", "no generator event header");
}
else {
- Int_t nEvents= Int_t(fRunLoader->TreeE()->GetEntries());
- for(Int_t event = 0; event < nEvents; event++)
- ProcessEvent(event, 0, digits);
+ Warning("Init", "No generator event header - "
+ "perhaps we get the vertex from ESD?");
}
-
-
- fFMDLoader->UnloadRecPoints();
- fFMDLoader = 0;
- fRunLoader = 0;
- fFMD = 0;
+ // Get the ESD tree
+ SetESD(new AliESD);
}
//____________________________________________________________________
void
-AliFMDReconstructor::Reconstruct(AliRunLoader* runLoader) const
-{
- // Collects all digits in the same active volume into number of
- // particles
- //
- // Reconstruct number of particles in given group of pads for given
- // FMDvolume determined by numberOfVolume,
- // numberOfMinSector, numberOfMaxSector, numberOfMinRing,
- // numberOgMaxRing
- //
- // The reconstruction method is choosen based on the number of empty
- // strips.
- Reconstruct(runLoader, 0);
+AliFMDReconstructor::ConvertDigits(AliRawReader* reader,
+ TTree* digitsTree) const
+{
+ // Convert Raw digits to AliFMDDigit's in a tree
+ AliFMDRawReader rawRead(reader, digitsTree);
+ // rawRead.SetSampleRate(fFMD->GetSampleRate());
+ rawRead.Exec();
}
-
//____________________________________________________________________
void
-AliFMDReconstructor::ProcessEvent(Int_t event,
- AliRawReader* reader,
- TClonesArray* digits) const
+AliFMDReconstructor::Reconstruct(TTree* digitsTree,
+ TTree* clusterTree) const
{
- fRunLoader->GetEvent(event) ;
- //event z-vertex for correction eta-rad dependence
- AliHeader *header = fRunLoader->GetHeader();
- if (!header)
- Warning("ProcessEvent", "no AliHeader found!");
- AliGenEventHeader* genHeader = (header ? header->GenEventHeader() : 0);
-
- // Get the Z--coordinate from the event header
- TArrayF o(3);
- if (genHeader) genHeader->PrimaryVertex(o);
- Float_t zVertex = o.At(2);
-
- // If the recontruction tree isn't loaded, load it
- if(fFMDLoader->TreeR()==0) fFMDLoader->MakeTree("R");
-
- //Make branches to hold the reconstructed particles
- const Int_t kBufferSize = 16000;
- fFMDLoader->TreeR()->Branch("FMD", &fParticles, kBufferSize);
-
- // Load or recreate the digits
- if (fFMDLoader->LoadDigits((reader ? "UPDATE" : "READ"))) {
- if (!reader) {
- Error("Exec","Error occured while loading digits. Exiting.");
- return;
- }
-
- }
- // Get the digits tree
- TTree* digitTree = fFMDLoader->TreeD();
- if (!digitTree) {
- if (!reader) {
- Error("Exec","Can not get Tree with Digits. "
- "Nothing to reconstruct - Exiting");
- return;
- }
- fFMDLoader->MakeTree("D");
- digitTree = fFMDLoader->TreeD();
-
- }
+ // Reconstruct event from digits in tree
// Get the FMD branch holding the digits.
- TBranch *digitBranch = digitTree->GetBranch("FMD");
+ // FIXME: The vertex may not be known yet, so we may have to move
+ // some of this to FillESD.
+ AliDebug(1, "Reconstructing from digits in a tree");
+#if 0
+ if (fESD) {
+ // const AliESDVertex* vertex = fESD->GetVertex();
+ // if (vertex) {
+ // AliDebug(1, Form("Got vertex from ESD: %f", vertex->GetZv()));
+ // fCurrentVertex = vertex->GetZv();
+ // }
+ }
+#endif
+ TBranch *digitBranch = digitsTree->GetBranch("FMD");
if (!digitBranch) {
- if (!reader) {
- Error("Exec", "No digit branch for the FMD found");
- return;
- }
- fFMD->MakeBranchInTree(digitTree, fFMD->GetName(), &(digits), 4000, 0);
+ Error("Exec", "No digit branch for the FMD found");
+ return;
}
- if (!reader) digitBranch->SetAddress(&digits);
-
- fEmptyStrips = 0;
- fTotalStrips = 0;
- Bool_t ok = kFALSE;
- if (reader) ok = ReadAdcs(reader);
- else if (digits) ok = ReadAdcs(digits);
- if (!ok) return;
+ TClonesArray* digits = new TClonesArray("AliFMDDigit");
+ digitBranch->SetAddress(&digits);
+
+ TIter next(&fAlgorithms);
+ AliFMDMultAlgorithm* algorithm = 0;
+ while ((algorithm = static_cast<AliFMDMultAlgorithm*>(next())))
+ algorithm->PreEvent(clusterTree, fCurrentVertex);
+ digitBranch->GetEntry(0);
- ReconstructFromCache(zVertex);
-
- if (reader) {
- digitTree->Fill();
- fFMDLoader->WriteDigits("OVERWRITE");
- }
- fFMDLoader->UnloadDigits();
- fFMDLoader->TreeR()->Reset();
- fFMDLoader->TreeR()->Fill();
- fFMDLoader->WriteRecPoints("OVERWRITE");
+ ProcessDigits(digits);
+
+ next.Reset();
+ algorithm = 0;
+ while ((algorithm = static_cast<AliFMDMultAlgorithm*>(next())))
+ algorithm->PostEvent();
+ clusterTree->Fill();
+ digits->Delete();
+ delete digits;
}
-
+
//____________________________________________________________________
-Bool_t
-AliFMDReconstructor::ReadAdcs(TClonesArray* digits) const
+void
+AliFMDReconstructor::ProcessDigits(TClonesArray* digits) const
{
- AliDebug(10, "Reading ADCs from Digits array");
- // read Digits, and reconstruct the particles
- if (!fFMDLoader->TreeD()->GetEvent(0)) return kFALSE;
-
- // Reads the digits from the array, and fills up the cache (fAdcs)
- fAdcs.Clear();
+ // For each digit, find the pseudo rapdity, azimuthal angle, and
+ // number of corrected ADC counts, and pass it on to the algorithms
+ // used.
Int_t nDigits = digits->GetEntries();
- for (Int_t digit = 0; digit < nDigits; digit++) {
- AliFMDDigit* fmdDigit =
- static_cast<AliFMDDigit*>(digits->UncheckedAt(digit));
-
- ProcessDigit(fmdDigit);
- } //digit loop
- return kTRUE;
-}
-
-//____________________________________________________________________
-Bool_t
-AliFMDReconstructor::ReadAdcs(AliRawReader* reader) const
-{
- AliDebug(10, "Reading ADCs from RawReader");
- // Reads the digits from a RAW data
- fAdcs.Clear();
- // reader->Reset();
-
- if (!reader->ReadHeader()) {
- Error("ReadAdcs", "Couldn't read header");
- return kFALSE;
- }
-
- // Use AliAltroRawStream to read the ALTRO format. No need to
- // reinvent the wheel :-)
- AliFMDRawStream input(reader);
- // Select FMD DDL's
- reader->Select(AliFMD::kBaseDDL >> 8);
-
- Int_t oldDDL = -1;
- Int_t count = 0;
- UShort_t detector = 1; // Must be one here
- UShort_t oldDetector = 0;
- // Loop over data in file
- Bool_t next = kTRUE;
-
- // local Cache
- TArrayI counts(10);
- counts.Reset(-1);
- Int_t offset = 0;
-
- while (next) {
- next = input.Next();
-
-
- count++;
- Int_t ddl = reader->GetDDLID();
- if (ddl != oldDDL
- || input.IsNewStrip()
- || !next) {
- // Make a new digit, if we have some data!
- if (counts[0] >= 0) {
- // Got a new strip.
- AliDebug(10, Form("Add a new strip: FMD%d%c[%2d,%3d] "
- "(current: FMD%d%c[%2d,%3d])",
- oldDetector, input.PrevRing(),
- input.PrevSector() , input.PrevStrip(),
- detector , input.Ring(), input.Sector(),
- input.Strip()));
- fFMD->AddDigit(oldDetector,
- input.PrevRing(),
- input.PrevSector(),
- input.PrevStrip(),
- counts[0], counts[1], counts[2]);
- AliFMDDigit* digit =
- static_cast<AliFMDDigit*>(fFMD->Digits()->
- UncheckedAt(fFMD->GetNdigits()-1));
- ProcessDigit(digit);
- }
-
- if (!next) {
- AliDebug(10, Form("Read %d channels for FMD%d",
- count + 1, detector));
- break;
- }
-
+ AliDebug(1, Form("Got %d digits", nDigits));
+ for (Int_t i = 0; i < nDigits; i++) {
+ AliFMDDigit* digit = static_cast<AliFMDDigit*>(digits->At(i));
+ AliFMDGeometry* fmd = AliFMDGeometry::Instance();
+ AliFMDDetector* subDetector = fmd->GetDetector(digit->Detector());
+ if (!subDetector) {
+ Warning("ProcessDigits", "Unknown detector: FMD%d" , digit->Detector());
+ continue;
+ }
- // If we got a new DDL, it means we have a new detector.
- if (ddl != oldDDL) {
- if (detector != 0)
- AliDebug(10, Form("Read %d channels for FMD%d",
- count + 1, detector));
- // Reset counts, and update the DDL cache
- count = 0;
- oldDDL = ddl;
- // Check that we're processing a FMD detector
- Int_t detId = reader->GetDetectorID();
- if (detId != (AliFMD::kBaseDDL >> 8)) {
- Error("ReadAdcs", "Detector ID %d != %d",
- detId, (AliFMD::kBaseDDL >> 8));
- break;
- }
- // Figure out what detector we're deling with
- oldDetector = detector;
- switch (ddl) {
- case 0: detector = 1; break;
- case 1: detector = 2; break;
- case 2: detector = 3; break;
- default:
- Error("ReadAdcs", "Unknown DDL 0x%x for FMD", ddl);
- return kFALSE;
- }
- AliDebug(10, Form("Reading ADCs for 0x%x - That is FMD%d",
- reader->GetEquipmentId(), detector));
- }
- counts.Reset(-1);
- offset = 0;
+ AliFMDRing* ring = subDetector->GetRing(digit->Ring());
+ Float_t ringZ = subDetector->GetRingZ(digit->Ring());
+ if (!ring) {
+ Warning("ProcessDigits", "Unknown ring: FMD%d%c", digit->Detector(),
+ digit->Ring());
+ break;
}
- counts[offset] = input.Count();
- offset++;
+ Float_t realZ = fCurrentVertex + ringZ;
+ Float_t stripR = ((ring->GetHighR() - ring->GetLowR())
+ / ring->GetNStrips() * (digit->Strip() + .5)
+ + ring->GetLowR());
+ Float_t theta = TMath::ATan2(stripR, realZ);
+ Float_t phi = (2 * TMath::Pi() / ring->GetNSectors()
+ * (digit->Sector() + .5));
+ Float_t eta = -TMath::Log(TMath::Tan(theta / 2));
+ UShort_t counts = SubtractPedestal(digit);
- AliDebug(10, Form("ADC of FMD%d%c[%2d,%3d] += %d",
- detector, input.Ring(), input.Sector(),
- input.Strip(), input.Count()));
- oldDetector = detector;
+ TIter next(&fAlgorithms);
+ AliFMDMultAlgorithm* algorithm = 0;
+ while ((algorithm = static_cast<AliFMDMultAlgorithm*>(next())))
+ algorithm->ProcessDigit(digit, eta, phi, counts);
}
- return kTRUE;
-}
-
-//____________________________________________________________________
-void
-AliFMDReconstructor::ProcessDigit(AliFMDDigit* digit) const
-{
- // Process a digit. Derived classes can overload this member
- // function to do stuff to the digit. However, it should write the
- // ADC count to the internal cache
- //
- // fAdcs(detector - 1, ring, sector, strip) = counts;
- //
- // In this implementation, we count the number of strips below
- // threshold. This we do to later choose what kind of
- // reconstruction algorithm we'd like to use.
- //
- UShort_t detector = digit->Detector();
- Char_t ring = digit->Ring();
- UShort_t sector = digit->Sector();
- UShort_t strip = digit->Strip();
-
- UShort_t counts = SubtractPedestal(digit);
-
- fAdcs(detector - 1, ring, sector, strip) = counts;
- if (counts < fThreshold) fEmptyStrips++;
- fTotalStrips++;
}
-
+
//____________________________________________________________________
UShort_t
AliFMDReconstructor::SubtractPedestal(AliFMDDigit* digit) const
// load this to subtract a pedestal that was given in a database or
// something like that.
- Int_t counts =
- TMath::Max(Int_t(digit->Count1() - fPedestal - 3 * fPedestalWidth), 0);
- if (digit->Count2() >= 0)
- counts +=
- TMath::Max(Int_t(digit->Count2() - fPedestal - 3 * fPedestalWidth), 0);
- if (digit->Count3() >= 0)
- counts +=
- TMath::Max(Int_t(digit->Count3() - fPedestal - 3 * fPedestalWidth), 0);
-
- if (counts < 0) counts = 0;
+ Int_t counts = 0;
+ Float_t ped = fPedestal + fPedestalFactor * fPedestalWidth;
+ if (digit->Count3() > 0) counts = digit->Count3();
+ else if (digit->Count2() > 0) counts = digit->Count2();
+ else counts = digit->Count1();
+ counts = TMath::Max(Int_t(counts - ped), 0);
return UShort_t(counts);
}
//____________________________________________________________________
-void
-AliFMDReconstructor::ReconstructFromCache(Float_t zVertex) const
+void
+AliFMDReconstructor::FillESD(TTree* /* digitsTree */,
+ TTree* /* clusterTree */,
+ AliESD* /* esd*/) const
{
- // Based on the information in the cache, do the reconstruction.
- Int_t nRecon = 0;
- // Loop over the detectors
- for (Int_t i = 1; i <= 3; i++) {
- AliFMDSubDetector* sub = 0;
- switch (i) {
- case 1: sub = fFMD->GetFMD1(); break;
- case 2: sub = fFMD->GetFMD2(); break;
- case 3: sub = fFMD->GetFMD3(); break;
+ // nothing to be done
+ // FIXME: The vertex may not be known when Reconstruct is executed,
+ // so we may have to move some of that member function here.
+#if 0
+ TClonesArray* multStrips = 0;
+ TClonesArray* multRegions = 0;
+ TTree* treeR = fmdLoader->TreeR();
+ TBranch* branchRegions = treeR->GetBranch("FMDPoisson");
+ TBranch* branchStrips = treeR->GetBranch("FMDNaiive");
+ branchRegions->SetAddress(&multRegions);
+ branchStrips->SetAddress(&multStrips);
+
+ Int_t total = 0;
+ Int_t nEntries = clusterTree->GetEntries();
+ for (Int_t entry = 0; entry < nEntries; entry++) {
+ AliDebug(5, Form("Entry # %d in cluster tree", entry));
+ treeR->GetEntry(entry);
+
+
+ Int_t nMults = multRegions->GetLast();
+ for (Int_t i = 0; i <= nMults; i++) {
+ AliFMDMultRegion* multR =
+ static_cast<AliFMDMultRegion*>(multRegions->UncheckedAt(i));
+ Int_t nParticles=multR->Particles();
+ if (i>=0 && i<=13) hEtaPoissonI1->AddBinContent(i+1,nParticles);
+ if (i>=14 && i<=27 ) hEtaPoissonI2->AddBinContent(i-13,nParticles);
+ if (i>=28 && i<=33 );
+ if (i>=34 && i<=47 ) hEtaPoissonI3->AddBinContent(48-i,nParticles);
+ if (i>=48 && i<=53) hEtaPoissonO3->AddBinContent(54-i,nParticles);
}
- if (!sub) continue;
-
- // Loop over the rings in the detector
- for (Int_t j = 0; j < 2; j++) {
- Float_t rZ = 0;
- AliFMDRing* r = 0;
- switch (j) {
- case 0: r = sub->GetInner(); rZ = sub->GetInnerZ(); break;
- case 1: r = sub->GetOuter(); rZ = sub->GetOuterZ(); break;
- }
- if (!r) continue;
-
- // Calculate low/high theta and eta
- // FIXME: Is this right?
- Float_t realZ = zVertex + rZ;
- Float_t thetaOut = TMath::ATan2(r->GetHighR(), realZ);
- Float_t thetaIn = TMath::ATan2(r->GetLowR(), realZ);
- Float_t etaOut = - TMath::Log(TMath::Tan(thetaOut / 2));
- Float_t etaIn = - TMath::Log(TMath::Tan(thetaIn / 2));
- if (TMath::Abs(etaOut) > TMath::Abs(etaIn)) {
- Float_t tmp = etaIn;
- etaIn = etaOut;
- etaOut = tmp;
- }
-
- //-------------------------------------------------------------
- //
- // Here starts poisson method
- //
- // Calculate eta step per strip, number of eta steps, number of
- // phi steps, and check the sign of the eta increment
- Float_t stripEta = (Float_t(r->GetNStrips()) / (etaIn - etaOut));
- Int_t nEta = Int_t(TMath::Abs(etaIn - etaOut) / fDeltaEta);
- Int_t nPhi = Int_t(360. / fDeltaPhi);
- Float_t sign = TMath::Sign(Float_t(1.), etaIn);
-
- AliDebug(10, Form("FMD%d%c Eta range: %f, %f %d Phi steps",
- sub->GetId(), r->GetId(), etaOut, etaIn, nPhi));
-
- // Loop over relevant phi values
- for (Int_t p = 0; p < nPhi; p++) {
- Float_t minPhi = p * fDeltaPhi;
- Float_t maxPhi = minPhi + fDeltaPhi;
- UShort_t minSector = UShort_t(minPhi / 360) * r->GetNSectors();
- UShort_t maxSector = UShort_t(maxPhi / 360) * r->GetNSectors();
-
- AliDebug(10, Form(" Now in phi range %f, %f (sectors %d,%d)",
- minPhi, maxPhi, minSector, maxSector));
- // Loop over relevant eta values
- for (Int_t e = nEta; e >= 0; --e) {
- Float_t maxEta = etaIn - sign * e * fDeltaEta;
- Float_t minEta = maxEta - sign * fDeltaEta;
- if (sign > 0) minEta = TMath::Max(minEta, etaOut);
- else minEta = TMath::Min(minEta, etaOut);
- Float_t theta1 = 2 * TMath::ATan(TMath::Exp(-minEta));
- Float_t theta2 = 2 * TMath::ATan(TMath::Exp(-maxEta));
- Float_t minR = TMath::Abs(realZ * TMath::Tan(theta2));
- Float_t maxR = TMath::Abs(realZ * TMath::Tan(theta1));
- UShort_t minStrip = UShort_t((etaIn - maxEta) * stripEta + 0.5);
- UShort_t maxStrip = UShort_t((etaIn - minEta) * stripEta + 0.5);
-
- AliDebug(10, Form(" Now in eta range %f, %f (strips %d, %d)\n"
- " [radii %f, %f, thetas %f, %f, sign %d]",
- minEta, maxEta, minStrip, maxStrip,
- minR, maxR, theta1, theta2, sign));
+ }
+#endif
+}
- // Count number of empty strips
- Int_t emptyStrips = 0;
- for (Int_t sector = minSector; sector < maxSector; sector++)
- for (Int_t strip = minStrip; strip < maxStrip; strip++)
- if (fAdcs(sub->GetId() - 1, r->GetId(), sector, strip)
- < fThreshold) emptyStrips++;
-
- // The total number of strips
- Float_t nTotal = (maxSector - minSector) * (maxStrip - minStrip);
-
- // Log ratio of empty to total number of strips
- AliDebug(10, Form("Lambda= %d / %d = %f",
- emptyStrips, nTotal,
- Float_t(emptyStrips) / nTotal));
-
- Double_t lambda = (emptyStrips > 0 ?
- - TMath::Log(Double_t(emptyStrips) / nTotal) :
- 1);
- // The reconstructed number of particles is then given by
- Int_t reconstructed = Int_t(lambda * nTotal + 0.5);
-
- // Add a AliFMDParticles to the reconstruction tree.
- new((*fParticles)[nRecon])
- AliFMDParticles(sub->GetId(), r->GetId(),
- minSector, maxSector, minStrip, maxStrip,
- minEta, maxEta, minPhi, maxPhi,
- reconstructed, AliFMDParticles::kPoission);
- nRecon++;
- } // phi
- } // eta
- } // ring
- } // detector
+//____________________________________________________________________
+void
+AliFMDReconstructor::Reconstruct(AliRawReader*,TTree*) const
+{
+ // Cannot be used. See member function with same name but with 2
+ // TTree arguments. Make sure you do local reconstrucion
+ AliError("MayNotUse");
}
-
-
//____________________________________________________________________
void
-AliFMDReconstructor::FillESD(AliRunLoader* /*fRunLoader*/,
- AliESD* /*esd*/) const
+AliFMDReconstructor::Reconstruct(AliRunLoader*) const
{
-// nothing to be done
-
+ // Cannot be used. See member function with same name but with 2
+ // TTree arguments. Make sure you do local reconstrucion
+ AliError("MayNotUse");
+}
+//____________________________________________________________________
+void
+AliFMDReconstructor::Reconstruct(AliRunLoader*, AliRawReader*) const
+{
+ // Cannot be used. See member function with same name but with 2
+ // TTree arguments. Make sure you do local reconstrucion
+ AliError("MayNotUse");
+}
+//____________________________________________________________________
+void
+AliFMDReconstructor::FillESD(AliRawReader*,TTree*,AliESD*) const
+{
+ // Cannot be used. See member function with same name but with 2
+ // TTree arguments. Make sure you do local reconstrucion
+ AliError("MayNotUse");
+}
+//____________________________________________________________________
+void
+AliFMDReconstructor::FillESD(AliRunLoader*,AliESD*) const
+{
+ // Cannot be used. See member function with same name but with 2
+ // TTree arguments. Make sure you do local reconstrucion
+ AliError("MayNotUse");
+}
+//____________________________________________________________________
+void
+AliFMDReconstructor::FillESD(AliRunLoader*,AliRawReader*,AliESD*) const
+{
+ // Cannot be used. See member function with same name but with 2
+ // TTree arguments. Make sure you do local reconstrucion
+ AliError("MayNotUse");
}
+//____________________________________________________________________
+//
+// EOF
+//