* provided "as is" without express or implied warranty. *
**************************************************************************/
/* $Id$ */
-/** @file AliFMDDisplay.cxx
- @author Christian Holm Christensen <cholm@nbi.dk>
- @date Mon Mar 27 12:39:09 2006
- @brief FMD Event display
-*/
+/**
+ * @file AliFMDDisplay.cxx
+ * @author Christian Holm Christensen <cholm@nbi.dk>
+ * @date Mon Mar 27 12:39:09 2006
+ * @brief FMD Event display
+ */
//___________________________________________________________________
//
// The classes defined here, are utility classes for reading in data
#include <TMarker3DBox.h>
#include <TMath.h>
#include <TSlider.h>
+#include <TSliderBox.h>
#include <TStyle.h>
#include <TView.h>
#include <TVirtualX.h>
+#include <TVirtualViewer3D.h>
+#include <TList.h>
// #include <TArrayF.h>
// #include <TParticle.h>
#include "AliFMDDisplay.h" // ALIFMDDISPLAY_H
#include "AliFMDHit.h" // ALIFMDHIT_H
#include "AliFMDDigit.h" // ALIFMDDIGIT_H
+#include "AliFMDSDigit.h" // ALIFMDSDIGIT_H
#include "AliFMDRecPoint.h" // ALIFMDRECPOINT_H
#include "AliFMDGeometry.h" // ALIFMDGEOMETRY_H
#include "AliFMDParameters.h" // ALIFMDPARAMETERS_H
+#include "AliFMDRawReader.h" // ALIFMDRAWREADER_H
#include <AliESDFMD.h> // ALIESDFMD_H
// #include <AliLog.h>
#include "AliFMDDebug.h" // Better debug macros
//____________________________________________________________________
AliFMDDisplay* AliFMDDisplay::fgInstance = 0;
+//____________________________________________________________________
+const AliFMDDisplay::Range_t AliFMDDisplay::fgkEdepRange = { 100, 0., 2. };
+const AliFMDDisplay::Range_t AliFMDDisplay::fgkAdcRange = { 1024, 0., 1023. };
+const AliFMDDisplay::Range_t AliFMDDisplay::fgkMultRange = { 500, 0., 20. };
+
+
//____________________________________________________________________
AliFMDDisplay*
AliFMDDisplay::Instance()
fPad(0),
fButtons(0),
fSlider(0),
+ fFactor(0),
fZoomMode(kFALSE),
fX0(0),
fY0(0),
fX1(0),
fY1(0),
- fMultCut(0),
- fPedestalFactor(0),
fXPixel(0),
fYPixel(0),
fOldXPixel(0),
fOnlyFMD(onlyFMD),
fSpec(0),
fSpecCut(0),
- fAux(0)
+ fAux(0),
+ fReturn(kFALSE),
+ fContinous(kFALSE),
+ fTimeout("gApplication->StopIdleing()", 10),
+ fInitialMin(0),
+ fInitialMax(1),
+ fInitialFactor(3/10.)
{
// Constructor of an FMD display object.
// Must be called
// before Instance
+ SetName("AliFMDDisplay");
+ SetTitle("3D Display of various kinds of FMD data");
AddLoad(kGeometry);
if (fgInstance) delete fgInstance;
fgInstance = this;
- SetMultiplicityCut();
- SetPedestalFactor();
}
//____________________________________________________________________
// Parameters:
// which Which button to put up.
gStyle->SetPalette(1);
+ // gStyle->SetCanvasPreferGL(kTRUE);
Double_t y1 = .10;
Int_t w = 700;
- fCanvas = new TCanvas("display", "Display", w, Int_t(w / (1-y1)));
+ fCanvas = new TCanvas(Form("gl%s", GetName()),
+ Form("%s - Display", GetTitle()),
+ w, Int_t(w / (1-y1)));
fCanvas->SetFillColor(1);
fCanvas->ToggleEventStatus();
fCanvas->cd();
- fPad = new TPad("view", "3DView", 0.0, y1, 1.0, 1.0, 1, 0, 0);
+ fPad = new TPad("glview", "3DView", 0.0, y1, 1.0, 1.0, 1, 0, 0);
fPad->Draw();
+
+ const char** p = which;
+ const char* m;
+ Int_t n = 0;
+ Int_t j = 0;
+ while (*(p++)) n++;
+ AliFMDDebug(1, ("Got %d buttons", n));
+ if (n <= 0) return;
Double_t yb = 0;
+ Double_t xb = 1;
fCanvas->cd();
- if (TESTBIT(fTreeMask, kESD) ||
- TESTBIT(fTreeMask, kDigits) ||
- TESTBIT(fTreeMask, kRaw)) {
+ if (TESTBIT(fTreeMask, kDigits) ||
+ TESTBIT(fTreeMask, kRawCalib) ||
+ TESTBIT(fTreeMask, kRaw)) {
+ yb = .05;
+ xb = .66;
+ fFactor = new TSlider("pedFactor", "Pedestal Factor", xb+.01, 0, 1, yb);
+ fFactor->SetMethod("AliFMDDisplay::Instance()->ChangeFactor()");
+ fFactor->SetRange(fInitialFactor, 1);
+ fFactor->Draw();
+ fFactor->SetMinimum(fInitialFactor);
+ TSliderBox *sbox =
+ static_cast<TSliderBox*>(fFactor->GetListOfPrimitives()->
+ FindObject("TSliderBox"));
+ if (sbox) {
+ sbox->SetToolTipText("Adjust the noise suppression factor by moving "
+ "lower limit");
+ }
+ }
+ if (TESTBIT(fTreeMask, kHits) ||
+ TESTBIT(fTreeMask, kESD) ||
+ TESTBIT(fTreeMask, kDigits) ||
+ TESTBIT(fTreeMask, kSDigits) ||
+ TESTBIT(fTreeMask, kRaw) ||
+ TESTBIT(fTreeMask, kRawCalib)) {
yb = .05;
- fSlider = new TSlider("multCut", "Multiplicity cut", 0, 0, 1, yb);
+ fSlider = new TSlider("genCut", "Multiplicity cut", 0, 0, xb, yb);
fSlider->SetMethod("AliFMDDisplay::Instance()->ChangeCut()");
+ fSlider->SetRange(fInitialMin,fInitialMax);
fSlider->Draw();
- fSlider->SetMinimum(TESTBIT(fTreeMask, kESD) ? fMultCut * 10 :
- fPedestalFactor * 10);
+ TSliderBox *sbox =
+ static_cast<TSliderBox*>(fSlider->GetListOfPrimitives()->
+ FindObject("TSliderBox"));
+ if (sbox) {
+ sbox->SetToolTipText("Adjust lower and upper limit on data signal");
+ }
}
- const char** p = which;
- const char* m;
- Int_t n = 0;
- Int_t j = 0;
- while (*(p++)) n++;
- AliInfo(Form("Got %d buttons", n));
+ // fCanvas->Modified();
+ // fCanvas->Update();
+ // fCanvas->cd();
Float_t x0 = 0;
Float_t dx = 1. / n;
p = which;
while ((m = *(p++))) {
fCanvas->cd();
- AliInfo(Form("Adding button %s", m));
+ AliFMDDebug(1, ("Adding button %s", m));
TButton* b = new TButton(m, Form("AliFMDDisplay::Instance()->%s()", m),
- x0, yb, x0 + dx, y1);
+ x0, yb, TMath::Min(x0 + dx,.999F), y1);
b->Draw();
fButtons.Add(b);
x0 += dx;
TGeoIterator next(top);
TGeoNode* node;
TGeoVolume* v = 0;
- Bool_t hasFMD1 = kFALSE;
- Bool_t hasFMD2 = kFALSE;
- Bool_t hasFMD3 = kFALSE;
- TObjArray toshow;
+ // Bool_t hasFMD1 = kFALSE;
+ // Bool_t hasFMD2 = kFALSE;
+ // Bool_t hasFMD3 = kFALSE;
+ AliFMDDebug(1, ("Getting material FMD_Si$"));
+ TGeoMaterial* si = gGeoManager->GetMaterial("FMD_Si$"); // kRed
+ AliFMDDebug(1, ("Getting material FMD_Carbon$"));
+ TGeoMaterial* c = gGeoManager->GetMaterial("FMD_Carbon$"); // kGray
+ AliFMDDebug(1, ("Getting material FMD_Aluminum$"));
+ TGeoMaterial* al = gGeoManager->GetMaterial("FMD_Aluminum$");// kGray-2
+ AliFMDDebug(1, ("Getting material FMD_Copper$"));
+ TGeoMaterial* cu = gGeoManager->GetMaterial("FMD_Copper$"); // kGreen-2
+ AliFMDDebug(1, ("Getting material FMD_PCB$"));
+ TGeoMaterial* pcb = gGeoManager->GetMaterial("FMD_PCB$"); // kGreen+2
+ AliFMDDebug(1, ("Getting material FMD_PCB$"));
+ TGeoMaterial* chip = gGeoManager->GetMaterial("FMD_Si Chip$");// kGreen+2
+ TObjArray toshow;
while ((node = static_cast<TGeoNode*>(next()))) {
const char* name = node->GetName();
if (!name) continue;
if (!(v = node->GetVolume())) continue;
if (name[0] == 'F') {
+ TGeoMaterial* m = (v->IsAssembly() ? 0 : v->GetMaterial());
+ Int_t col = -1;
+ if (m == si) col = kRed;
+ else if (m == c) col = kGray;
+ else if (m == al) col = kYellow+4;
+ else if (m == cu) col = kRed+6;
+ else if (m == pcb) col = kGreen+2;
+ else if (m == chip) col = kGreen+4;
+ if (col >= 0) {
+ v->SetLineColor(col);
+ v->SetFillColor(col);
+ }
if (name[2] == 'M' && (name[3] == 'T' || name[3] == 'B')) {
// Virtual Master half-ring volume - top-level
- Int_t det = node->GetNumber();
- switch (det) {
- case 1: hasFMD1 = true; break;
- case 2: hasFMD2 = true; break;
- case 3: hasFMD3 = true; break;
- default: continue;
- }
+ // Int_t det = node->GetNumber();
+ /* switch (det) {
+ case 1: hasFMD1 = true; break;
+ case 2: hasFMD2 = true; break;
+ case 3: hasFMD3 = true; break;
+ default: continue;
+ } */
toshow.Add(v);
}
else if (name[3] == 'V' && (name[2] == 'T' || name[2] == 'B'))
toshow.Add(v); // Virtual Half-ring, bare detectors
+ else if (name[3] == 'H' && (name[2] == 'F' || name[2] == 'B'))
+ toshow.Add(v); // Virtual Hybrid container
+ else if (name[2] == 'S' && name[3] == 'U')
+ toshow.Add(v); // Virtual support structre
// else if (name[3] == 'H' && (name[2] == 'F' || name[2] == 'B'))
// toshow.Add(v); // Virtual Hybrid container
}
}
TIter i(&toshow);
while ((v = static_cast<TGeoVolume*>(i()))) {
- v->SetVisibility(kTRUE);
- v->SetVisDaughters(kTRUE);
+ if (!v->IsAssembly())
+ v->SetVisibility(kTRUE);
v->InvisibleAll(kFALSE);
+ v->SetVisDaughters(kTRUE);
+
}
}
}
}
-//____________________________________________________________________
-Int_t
-AliFMDDisplay::DistancetoPrimitive(Int_t px, Int_t)
-{
- // Calculate the distance from point to
- // something in the canvas.
- // Depends on the zoom mode.
- fPad->SetCursor(kCross);
- Float_t xmin = fPad->GetX1();
- Float_t xmax = fPad->GetX2();
- Float_t dx = .02 * (xmax - xmin);
- Float_t x = fPad->AbsPixeltoX(px);
- if (x < xmin + dx || x > xmax - dx) return 9999;
- return (fZoomMode ? 0 : 7);
-}
//____________________________________________________________________
Bool_t
AliFMDDisplay::Init()
// MAke the aux canvas
// This is used to display spectra
// etc,
- if ((TESTBIT(fTreeMask, kESD) ||
- TESTBIT(fTreeMask, kDigits) ||
- TESTBIT(fTreeMask, kRaw))) {
- if (!fAux) {
- fAux = new TCanvas("aux", "Aux");
- fAux->SetLogy();
- if (TESTBIT(fTreeMask, kESD))
- fSpec = new TH1D("spec", "Mult spectra", 500, 0, 10);
- else
- fSpec = new TH1D("spec", "Adc spectra", 1024, -.5, 1023.5);
- fSpecCut = static_cast<TH1*>(fSpec->Clone("specCut"));
- fSpec->SetFillColor(2);
- fSpec->SetFillStyle(3001);
- fSpecCut->SetFillColor(4);
- fSpecCut->SetFillStyle(3001);
- }
- else {
- fSpec->Reset();
- fSpecCut->Reset();
- }
+ const Range_t* range = 0;
+ if (TESTBIT(fTreeMask, kESD)) range = &fgkMultRange;
+ else if (TESTBIT(fTreeMask, kRawCalib)) range = &fgkMultRange;
+ else if (TESTBIT(fTreeMask, kDigits)) range = &fgkAdcRange;
+ else if (TESTBIT(fTreeMask, kSDigits)) range = &fgkAdcRange;
+ else if (TESTBIT(fTreeMask, kRaw)) range = &fgkAdcRange;
+ else if (TESTBIT(fTreeMask, kHits)) range = &fgkEdepRange;
+ if (!range) return;
+
+ if (!fAux) {
+ fAux = new TCanvas(Form("aux_%s", GetName()),
+ Form("Aux - %s", GetTitle()));
+ fAux->SetLogy();
+ fAux->SetFillColor(kWhite);
+ fAux->SetBorderMode(0);
+ fAux->SetBorderSize(0);
+ Float_t dBin = (range->fHigh - range->fLow) / range->fNbins;
+ fSpec = new TH1D("spec", "Spectra", range->fNbins,
+ range->fLow-dBin/2, range->fHigh+dBin/2);
+ fSpecCut = static_cast<TH1*>(fSpec->Clone("specCut"));
+ TString xTitle((TESTBIT(fTreeMask, kRawCalib) ||
+ TESTBIT(fTreeMask, kESD)) ? "#Delta E/#Delta E_{mip}" :
+ (TESTBIT(fTreeMask, kDigits) ||
+ TESTBIT(fTreeMask, kSDigits) ||
+ TESTBIT(fTreeMask, kRaw)) ? "ADC [counts]" :
+ TESTBIT(fTreeMask, kHits) ? "Hits" : "signal");
+ fSpec->SetXTitle(xTitle.Data());
+ fSpec->SetYTitle("events");
+ fSpec->SetFillColor(2);
+ fSpec->SetFillStyle(3001);
+ fSpecCut->SetXTitle(xTitle.Data());
+ fSpecCut->SetYTitle("events");
+ fSpecCut->SetFillColor(4);
+ fSpecCut->SetFillStyle(3001);
}
+ else {
+ fSpec->Reset();
+ fSpecCut->Reset();
+ }
}
//____________________________________________________________________
if (!fAux) return;
fAux->cd();
fAux->Clear();
+ fAux->SetLogy(fSpec->GetMaximum() > 10);
fSpec->Draw();
fSpecCut->Draw("same");
fAux->Modified();
// Parameters:
// event The event number
if (!fCanvas) {
- const char* m[] = { "Continue", "Zoom", "Pick", "Redisplay", 0 };
+ const char* m[] = { "Continue",
+ "Break",
+ "Zoom",
+ "Pick",
+ "Redisplay",
+ "Render",
+ 0 };
MakeCanvas(m);
}
MakeAux();
-
+ fReturn = kFALSE;
+
// AliInfo("Clearing canvas");
// fCanvas->Clear();
if (!fGeoManager) {
Warning("End", "No geometry manager");
return kFALSE;
}
- AliInfo("Drawing geometry");
+ AliFMDDebug(1, ("Drawing geometry"));
fPad->cd();
fGeoManager->GetTopVolume()->Draw();
if (fOnlyFMD) ShowOnlyFMD();
- AliInfo("Adjusting view");
+ AliFMDDebug(1, ("Adjusting view"));
Int_t irep;
if (fPad->GetView()) {
fPad->GetView()->SetView(-200, -40, 80, irep);
// Sends the ROOT loop into the idle loop,
// so that we can go on.
fWait = kTRUE;
+ if (fContinous) fTimeout.Start(10, kTRUE);
while (fWait) {
gApplication->StartIdleing();
gSystem->InnerLoop();
gApplication->StopIdleing();
+ if (fContinous) break;
}
- AliInfo("After idle loop");
+ AliFMDDebug(3, ("After idle loop"));
if (fMarkers) fMarkers->Delete();
if (fHits) fHits->Clear();
- AliInfo("After clearing caches");
+ AliFMDDebug(3, ("After clearing caches"));
}
//____________________________________________________________________
// End of event. Draw everything
AtEnd();
Idle();
+ if (fReturn) return kFALSE;
return AliFMDInput::End();
}
//____________________________________________________________________
Int_t
-AliFMDDisplay::LookupColor(Float_t x, Float_t max) const
+AliFMDDisplay::LookupColor(Float_t x, Float_t min, Float_t max) const
{
// Look-up color.
// Get a colour from the current palette depending
// on the ratio x/max
- Int_t idx = Int_t(x / max * gStyle->GetNumberOfColors());
+ Float_t range = (max-min);
+ Float_t l = fSlider->GetMinimum();
+ Float_t h = fSlider->GetMaximum();
+ if (l == h) { l = 0; h = 1; }
+ Float_t cmin = range * l;
+ Float_t cmax = range * h;
+ Float_t crange = (cmax-cmin);
+ Int_t idx = Int_t((x-cmin) / crange * gStyle->GetNumberOfColors());
return gStyle->GetColorPalette(idx);
+}
+
+//____________________________________________________________________
+void
+AliFMDDisplay::SetCut(Float_t l, Float_t h)
+{
+ // Change the cut on the slider.
+ fInitialMin = l;
+ fInitialMax = h;
+ if (!fSlider) return;
+ fSlider->SetMinimum(fInitialMin);
+ fSlider->SetMaximum(fInitialMax);
+ ChangeCut();
+}
+
+//____________________________________________________________________
+void
+AliFMDDisplay::SetFactor(Float_t f)
+{
+ // Change the cut on the slider.
+ fInitialFactor = f / 10;
+ if (!fFactor) return;
+ fFactor->SetMinimum(fInitialFactor);
+ ChangeFactor();
}
//____________________________________________________________________
// Change the cut on the slider.
// The factor depends on what is
// drawn in the AUX canvas
- fMultCut = fSlider->GetMinimum() * 10;
- fPedestalFactor = fSlider->GetMinimum() * 10;
- AliInfo(Form("Multiplicity cut: %7.5f, Pedestal factor: %7.4f (%6.5f)",
- fMultCut, fPedestalFactor, fSlider->GetMinimum()));
+ AliInfo(Form("Range is now %7.5f - %7.5f", fSlider->GetMinimum(),
+ fSlider->GetMaximum()));
+ if ((TESTBIT(fTreeMask, kESD) ||
+ TESTBIT(fTreeMask, kDigits) ||
+ TESTBIT(fTreeMask, kSDigits) ||
+ TESTBIT(fTreeMask, kRaw) ||
+ TESTBIT(fTreeMask, kRawCalib))) {
+ Float_t l = fSlider->GetMinimum();
+ Float_t h = fSlider->GetMaximum();
+ l = 1024 * l + 0;
+ h = 1024 * h + 0;
+ AliInfo(Form("ADC range is now %4d - %4d", int(l), int(h)));
+ }
+ Redisplay();
+}
+//____________________________________________________________________
+void
+AliFMDDisplay::ChangeFactor()
+{
+ // Change the cut on the slider.
+ // The factor depends on what is
+ // drawn in the AUX canvas
+ AliInfo(Form("Noise factor is now %4.1f", 10 * fFactor->GetMinimum()));
Redisplay();
}
Event();
AtEnd();
}
+//____________________________________________________________________
+void
+AliFMDDisplay::Break()
+{
+ // Redisplay stuff.
+ // Redraw markers, hits,
+ // spectra
+ if (fMarkers) fMarkers->Delete();
+ if (fHits) fHits->Clear();
+ if (fSpec) fSpec->Reset();
+ if (fSpecCut) fSpecCut->Reset();
+ fReturn = kTRUE;
+ fWait = kFALSE;
+}
+//____________________________________________________________________
+void
+AliFMDDisplay::Render()
+{
+ fPad->cd();
+ TVirtualViewer3D* viewer = fPad->GetViewer3D("ogl");
+ if (!viewer) return;
+}
//____________________________________________________________________
void
-AliFMDDisplay::AddMarker(UShort_t det, Char_t rng, UShort_t sec, UShort_t str,
- TObject* o, Float_t s, Float_t max)
+AliFMDDisplay::AddMarker(Float_t x, Float_t y, Float_t z,
+ TObject* o, Float_t s, Float_t min, Float_t max)
{
// Add a marker to the display
//
// s Signal
// max Maximum of signal
//
- AliFMDGeometry* geom = AliFMDGeometry::Instance();
- Double_t x, y, z;
- geom->Detector2XYZ(det, rng, sec, str, x, y, z);
Float_t size = .1;
- Float_t zsize = s / max * 10;
+ Float_t zsize = (s - min) / (max-min) * 10;
Float_t r = TMath::Sqrt(x * x + y * y);
Float_t theta = TMath::ATan2(r, z);
Float_t phi = TMath::ATan2(y, x);
Float_t rz = z + (z < 0 ? 1 : -1) * zsize;
TMarker3DBox* marker = new TMarker3DBox(x,y,rz,size,size,zsize,theta,phi);
if (o) marker->SetRefObject(o);
- marker->SetLineColor(LookupColor(s, max));
+ marker->SetLineColor(LookupColor(s, min, max));
fMarkers->Add(marker);
}
+//____________________________________________________________________
+void
+AliFMDDisplay::AddMarker(UShort_t det, Char_t rng, UShort_t sec, UShort_t str,
+ TObject* o, Float_t s, Float_t min, Float_t max)
+{
+ // Add a marker to the display
+ //
+ // det Detector
+ // rng Ring
+ // sec Sector
+ // str Strip
+ // o Object to refer to
+ // s Signal
+ // max Maximum of signal
+ //
+ AliFMDGeometry* geom = AliFMDGeometry::Instance();
+ Double_t x, y, z;
+ geom->Detector2XYZ(det, rng, sec, str, x, y, z);
+ AddMarker(x,y,z,o,s,min,max);
+}
+//____________________________________________________________________
+Bool_t
+AliFMDDisplay::InsideCut(Float_t val, const Float_t& min,
+ const Float_t& max) const
+{
+ //
+ // Whether a point is inside
+ //
+ // Parameters:
+ // v Point
+ // min Minimum
+ // max Maximum
+ //
+ // Return:
+ // true if @a v is inside cut
+ //
+ Float_t r = max - min;
+ Float_t l = fSlider->GetMinimum();
+ Float_t h = fSlider->GetMaximum();
+ if (l == h) { l = 0; h = 1; }
+ if (val < r * l + min || val > r * h + min) {
+ AliFMDDebug(2, ("Value %f is outside cut %f - %f (range %f - %f)",
+ val, min+r*l, min+r*h, min, max));
+ return kFALSE;
+ }
+ return kTRUE;
+}
+
//____________________________________________________________________
Bool_t
// Process a hit.
// Parameters:
// hit Hit data
+ static const Float_t rMin = fgkEdepRange.fLow;
+ static const Float_t rMax = fgkEdepRange.fHigh;
+
if (!hit) { AliError("No hit"); return kFALSE; }
// if (!p) { AliError("No track"); return kFALSE; }
+ Float_t edep = hit->Edep();
- if (fHits) fHits->Add(hit);
- Float_t size = .1;
- Float_t zsize = TMath::Sqrt(hit->Edep() * 20);
- Float_t z = hit->Z() + (hit->Z() < 0 ? 1 : -1) * zsize;
- Float_t pt = TMath::Sqrt(hit->Py()*hit->Py()+hit->Px()*hit->Px());
- Float_t theta = TMath::ATan2(pt, hit->Pz());
- Float_t phi = TMath::ATan2(hit->Py(), hit->Px());
- TMarker3DBox* marker = new TMarker3DBox(hit->X(), hit->Y(), z,
- size, size, zsize, theta, phi);
- marker->SetLineColor(LookupColor(hit->Edep(), 1));
- marker->SetRefObject(hit);
- fMarkers->Add(marker);
+ if (fHits) fHits->Add(hit);
+ if (fSpec) fSpec->Fill(edep);
+ if (!InsideCut(edep, rMin, rMax)) return kTRUE;
+ if (fSpecCut) fSpecCut->Fill(edep);
+
+ AddMarker(hit->X(), hit->Y(), hit->Z(), hit, edep, rMin, rMax);
return kTRUE;
}
// Process a digit
// Parameters:
// digit Digit information
+ static const Float_t rMin = fgkAdcRange.fLow;
+ static const Float_t rMax = fgkAdcRange.fHigh;
+
if (!digit) { AliError("No digit"); return kFALSE; }
- AliFMDParameters* parm = AliFMDParameters::Instance();
UShort_t det = digit->Detector();
Char_t ring = digit->Ring();
UShort_t sec = digit->Sector();
UShort_t str = digit->Strip();
- Double_t ped = parm->GetPedestal(det,ring, sec, str);
- Double_t pedW = parm->GetPedestalWidth(det,ring, sec, str);
- Double_t threshold = ped + fPedestalFactor * pedW;
+ Double_t threshold = GetADCThreshold(det, ring, sec, str);
Float_t counts = digit->Counts();
- AliFMDDebug(10, ("FMD%d%c[%2d,%3d] ADC: %d > %d (=%4.2f+%4.2f*%4.2f)",
- digit->Detector(), digit->Ring(), digit->Sector(),
- digit->Strip(), Int_t(counts), Int_t(threshold),
- ped, fPedestalFactor, pedW));
- if (fSpec) fSpec->Fill(counts);
- if (counts < threshold) return kTRUE;
- if (fHits) fHits->Add(digit);
- if (fSpecCut) fSpecCut->Fill(counts);
-
- AddMarker(det, ring, sec, str, digit, counts, 1024);
+ if (threshold < 0) { counts += -threshold; threshold = 0; }
+
+ AliFMDDebug(10, ("FMD%d%c[%02d,%03d] counts %4d threshold %4d",
+ det, ring, sec, str, Int_t(counts), Int_t(threshold)));
+ if (fHits) fHits->Add(digit);
+ if (fSpec) fSpec->Fill(counts);
+ if (!InsideCut(counts-threshold, rMin, rMax)) return kTRUE;
+ if (fSpecCut) fSpecCut->Fill(counts);
+
+
+ AddMarker(det, ring, sec, str, digit, counts, rMin, rMax);
return kTRUE;
}
//____________________________________________________________________
Bool_t
-AliFMDDisplay::ProcessRaw(AliFMDDigit* digit)
+AliFMDDisplay::ProcessSDigit(AliFMDSDigit* sdigit)
+{
+ // Process a sdigit
+ // Parameters:
+ // sdigit Digit information
+ static const Float_t rMin = fgkAdcRange.fLow;
+ static const Float_t rMax = fgkAdcRange.fHigh;
+
+ if (!sdigit) { AliError("No sdigit"); return kFALSE; }
+
+ UShort_t det = sdigit->Detector();
+ Char_t ring = sdigit->Ring();
+ UShort_t sec = sdigit->Sector();
+ UShort_t str = sdigit->Strip();
+ Float_t counts = sdigit->Counts();
+
+ if (fHits) fHits->Add(sdigit);
+ if (fSpec) fSpec->Fill(counts);
+ if (!InsideCut(counts, rMin, rMax)) return kTRUE;
+ if (fSpecCut) fSpecCut->Fill(counts);
+
+ AddMarker(det, ring, sec, str, sdigit, counts, rMin, rMax);
+ return kTRUE;
+}
+
+//____________________________________________________________________
+Bool_t
+AliFMDDisplay::ProcessRawDigit(AliFMDDigit* digit)
{
// PRocess raw data
// Parameters:
// digit Digit information
+ AliFMDDebug(50, ("Forwarding call of ProcessRaw to ProcessDigit "
+ "for FMD%d%c[%02d,%03d] %d",
+ digit->Detector(), digit->Ring(), digit->Sector(),
+ digit->Strip(), digit->Counts()));
return ProcessDigit(digit);
}
+//____________________________________________________________________
+Bool_t
+AliFMDDisplay::ProcessRawCalibDigit(AliFMDDigit* digit)
+{
+ // Process a digit
+ // Parameters:
+ // digit Digit information
+ static const Float_t rMin = fgkMultRange.fLow;
+ static const Float_t rMax = fgkMultRange.fHigh;
+ static const Float_t aMin = fgkAdcRange.fLow;
+ static const Float_t aMax = fgkAdcRange.fHigh;
+
+ if (!digit) { AliError("No digit"); return kFALSE; }
+
+ AliFMDParameters* parm = AliFMDParameters::Instance();
+ UShort_t det = digit->Detector();
+ Char_t ring = digit->Ring();
+ UShort_t sec = digit->Sector();
+ UShort_t str = digit->Strip();
+ Double_t gain = parm->GetPulseGain(det, ring, sec, str);
+ Double_t ped = parm->GetPedestal(det, ring, sec, str);
+ Double_t threshold = GetADCThreshold(det, ring, sec, str);
+ Float_t counts = digit->Counts();
+ if (threshold < 0) { counts += -threshold; threshold = 0; ped = 0; }
+
+ // Double_t edep = ((counts * parm->GetEdepMip() /
+ // (gain * parm->GetDACPerMIP()));
+ Double_t mult = (counts-ped) / (gain * parm->GetDACPerMIP());
+ if (gain < 0.1 || gain > 10) mult = 0;
+
+
+ AliFMDDebug(10, ("FMD%d%c[%02d,%03d] adc %4d "
+ "(threshold %4d, gain %6.3f) -> mult %7.4f",
+ det, ring, sec, str, int(counts), int(threshold),
+ gain, mult));
+ if (fHits) fHits->Add(digit);
+ if (fSpec) fSpec->Fill(mult);
+ if (!InsideCut(counts-threshold, aMin, aMax)) return kTRUE;
+ if (fSpecCut) fSpecCut->Fill(mult);
+
+ if (mult >= 0)
+ AddMarker(det, ring, sec, str, digit, mult, rMin, rMax);
+ return kTRUE;
+}
+
//____________________________________________________________________
Bool_t
AliFMDDisplay::ProcessRecPoint(AliFMDRecPoint* recpoint)
// Process reconstructed point
// Parameters:
// recpoint Reconstructed multiplicity/energy
+ static const Float_t rMin = fgkMultRange.fLow;
+ static const Float_t rMax = fgkMultRange.fHigh;
+
+
if (!recpoint) { AliError("No recpoint"); return kFALSE; }
- if (recpoint->Particles() < fMultCut) return kTRUE;
+
+ if (!InsideCut(recpoint->Particles(), rMin, rMax)) return kTRUE;
+
if (fHits) fHits->Add(recpoint);
AddMarker(recpoint->Detector(), recpoint->Ring(), recpoint->Sector(),
- recpoint->Strip(), recpoint, recpoint->Particles(), 20);
+ recpoint->Strip(), recpoint, recpoint->Particles(), rMin, rMax);
return kTRUE;
}
// Parameters
// det,rng,sec,str Detector coordinates.
// mult Multiplicity.
+ static const Float_t rMin = fgkMultRange.fLow;
+ static const Float_t rMax = fgkMultRange.fHigh;
+
Double_t cmult = mult;
if (fSpec) fSpec->Fill(cmult);
- if (cmult < fMultCut || cmult == AliESDFMD::kInvalidMult) return kTRUE;
- AddMarker(det,rng,sec,str, 0, cmult, 20);
+ if (!InsideCut(cmult, rMin, rMax) || cmult == AliESDFMD::kInvalidMult)
+ return kTRUE;
+
+ AddMarker(det,rng,sec,str, 0, cmult, rMin, rMax);
+
if (fSpecCut) fSpecCut->Fill(cmult);
+
return kTRUE;
}
+//____________________________________________________________________
+Double_t
+AliFMDDisplay::GetADCThreshold(UShort_t d, Char_t r,
+ UShort_t s, UShort_t t) const
+{
+ //
+ // Get the ADC threshold
+ //
+ // Parameters:
+ // d Detector
+ // r Ring
+ // s Sector
+ // t Strip
+ //
+ // Return:
+ // The threshold
+ //
+ AliFMDParameters* parm = AliFMDParameters::Instance();
+ Double_t ped = parm->GetPedestal(d,r, s, t);
+ Double_t pedW = parm->GetPedestalWidth(d,r, s, t);
+ Double_t threshold = 0;
+ if (fFMDReader && fFMDReader->IsZeroSuppressed(d-1))
+ threshold = - fFMDReader->NoiseFactor(d-1) * pedW;
+ else
+ threshold = ped + pedW * 10 * fFactor->GetMinimum();
+ AliFMDDebug(10, ("FMD%d%c[%2d,%3d] ped: %f +/- %f [factor: %f-%f]",
+ d, r, s, t, ped, pedW,
+ fFactor->GetMinimum(), fFactor->GetMaximum()));
+ if (threshold > fgkAdcRange.fHigh) threshold = fgkAdcRange.fHigh;
+ return threshold;
+}
+
//____________________________________________________________________
//
// EOF
//
+