/*
$Log$
+ Revision 1.17 2001/10/23 13:03:35 hristov
+ The access to several data members was changed from public to protected. The digitisation was adapted to the multi-event case (J.Chudoba)
+
+ Revision 1.16 2001/10/21 18:31:24 hristov
+ Several pointers were set to zero in the default constructors to avoid memory management problems
+
+ Revision 1.15 2001/10/09 07:34:09 hristov
+ Modifications needed by Root.03.01.06 (J.Chudoba)
+
+ Revision 1.14 2001/05/16 14:57:20 alibrary
+ New files for folders and Stack
+
+ Revision 1.13 2001/05/10 12:35:16 jbarbosa
+ Removed hit display, added rec. ring properties.
+
+ Revision 1.12 2001/03/14 18:15:03 jbarbosa
+ Changes to adapt to new IO.
+ Removed verbose output.
+
+ Revision 1.11 2001/02/27 15:21:34 jbarbosa
+ Transition to SDigits.
+
+ Revision 1.10 2001/02/13 20:18:48 jbarbosa
+ Corrected some more positioning of points. Changes in LoadDigits to accomodate the new IO.
+
+ Revision 1.9 2000/11/01 15:33:11 jbarbosa
+ Updated to handle both reconstruction algorithms.
+
+ Revision 1.8 2000/10/03 21:44:09 morsch
+ Use AliSegmentation and AliHit abstract base classes.
+
+ Revision 1.7 2000/10/02 21:28:12 fca
+ Removal of useless dependecies via forward declarations
+
+ Revision 1.6 2000/10/02 15:46:38 jbarbosa
+ Fixed forward declarations.
+
+ Revision 1.5 2000/06/30 16:49:34 dibari
+ Different call for ring drawing.
+
+ Revision 1.4 2000/06/12 15:21:08 jbarbosa
+ Cleaned up version.
+
Revision 1.3 2000/06/09 14:52:08 jbarbosa
New tentative ellipse drawing routine
#include <TView.h>
#include <TText.h>
#include <TPolyMarker3D.h>
+#include <TAtt3D.h>
+#include <TAttLine.h>
#include <TPolyMarker.h>
#include <TPaveLabel.h>
#include <TPaveText.h>
#include <TArc.h>
#include <TTUBE.h>
#include <TSlider.h>
+#include <TGeometry.h>
#include <TSliderBox.h>
#include <TGaxis.h>
#include <TVirtualX.h>
#include "AliRICHConst.h"
#include "AliRICHDisplay.h"
#include "AliRICHPoints.h"
+#include "AliHeader.h"
#include "AliRICHHit.h"
#include "AliRICHCerenkov.h"
-#include "AliRICHPadHit.h"
+#include "AliRICHSDigit.h"
#include "AliRICHDigit.h"
#include "AliRICHRawCluster.h"
-#include "AliRICHRecHit.h"
+#include "AliRICHRecHit1D.h"
+#include "AliRICHRecHit3D.h"
#include "AliRICHEllipse.h"
ClassImp(AliRICHDisplay)
{
// default constructor
-
+ fColPad = 0;
fPoints = 0;
fPhits = 0;
fPCerenkovs = 0;
SetRange();
// Set front view by default
- fTheta = 90;
- fPhi = 90;
+ //fTheta = 90; //inclined HMPID
+ //fPhi = 30; //inclined HMPID
+ fTheta = 90; //normal HMPID
+ fPhi = 90; //normal HMPID
fPsi = 0;
fChamber = 1;
fCathode = 1;
Float_t dxtr = 0.15;
Float_t dytr = 0.45;
fTrigPad = new TPad("trigger", "range and mode pad",0,0,dxtr,dytr);
- fTrigPad->SetEditable(kFALSE);
fTrigPad->Draw();
fTrigPad->cd();
fTrigPad->SetFillColor(22);
button->Draw();
AppendPad(); // append display object as last object to force selection
+ fTrigPad->SetEditable(kFALSE);
+ fButtons->SetEditable(kFALSE);
fCanvas->cd();
fCanvas->Update();
}
fButtons = new TPad("buttons", "newpad",0,0.45,0.15,1);
- fButtons->SetEditable(kFALSE);
fButtons->Draw();
fButtons->SetFillColor(38);
fButtons->SetBorderSize(2);
gPad->Range(x1,y1,x2,y2);
TText *text = new TText(0,0,"");
text->SetTextFont(61);
- text->SetTextSize(0.03);
+ text->SetTextSize(0.2);
text->SetTextAlign(22);
TBox *box;
points = fRecpoints;
if (!points) return;
nrec = points->GetEntriesFast();
- printf("Nrec %d\n",nrec);
+ //printf("Nrec %d\n",nrec);
for (irec=0; irec < nrec; irec++) {
pm = (AliRICHPoints*)points->UncheckedAt(irec);
if (!pm) continue;
//add clusters to the pad
DrawClusters();
- DrawHits();
-// DrawCerenkovs();
- printf("Calling DrawCoG\n");
- DrawCoG();
- printf("Calling DrawRecHits\n");
- DrawRecHits();
+ //DrawHits();
+ //DrawCerenkovs();
+ if (gAlice->TreeR())
+ {
+ //printf("Calling DrawCoG\n");
+ DrawCoG();
+ //printf("Calling DrawRecHits\n");
+ DrawRecHits();
+ }
/*for (Int_t i=0;i<7;i++)
LoadRecHits(i,1);*/
if (px == 0 && py == 0) { //when called by sliders
if (event == kButton1Up) {
- Draw();
+ printf("Drawing event %d\n",event);
+ Draw();
}
return;
}
if (chamber > 6) return;
- printf("Entering LoadCoG\n");
+ //printf("Entering LoadCoG\n");
AliRICH *pRICH = (AliRICH*)gAlice->GetModule("RICH");
AliRICHChamber* iChamber;
TClonesArray *pRICHrawclust = pRICH->RawClustAddress(chamber);
- printf ("Chamber:%d has adress:%p\n", chamber, pRICHrawclust );
+ //printf ("Chamber:%d has adress:%p\n", chamber, pRICHrawclust );
if (pRICHrawclust == 0) return;
pRICH->ResetRawClusters();
Int_t nent=(Int_t)gAlice->TreeR()->GetEntries();
gAlice->TreeR()->GetEvent(nent-1+cathode-1);
Int_t nrawcl = pRICHrawclust->GetEntriesFast();
- printf ("nrawcl:%d\n",nrawcl);
+ //printf ("nrawcl:%d\n",nrawcl);
if (nrawcl == 0) return;
if (fRpoints == 0) fRpoints = new TObjArray(nrawcl);
points->SetHitIndex(-1);
points->SetTrackIndex(-1);
points->SetDigitIndex(-1);
- Float_t vectorLoc[3]={mRaw->fX,6.276,mRaw->fY};
+ Float_t vectorLoc[3]={mRaw->fX,5,mRaw->fY};
Float_t vectorGlob[3];
iChamber->LocaltoGlobal(vectorLoc,vectorGlob);
points->SetPoint(iraw,vectorGlob[0],vectorGlob[1],vectorGlob[2]);
if (chamber > 6) return;
- printf("Entering LoadRecHits\n");
+ ///printf("Entering LoadRecHits\n");
AliRICH *pRICH = (AliRICH*)gAlice->GetModule("RICH");
AliRICHChamber* iChamber;
- TClonesArray *pRICHrechits = pRICH->RecHitsAddress(chamber);
- printf ("Chamber:%d has adress:%p\n", chamber, pRICHrechits );
- if (pRICHrechits == 0) return;
+ TClonesArray *pRICHrechits1D = pRICH->RecHitsAddress1D(chamber);
+ //printf ("Chamber:%d\n", chamber);
+ if (pRICHrechits1D != 0)
+ {
- //RICH->ResetRecHits();
+ //RICH->ResetRecHits();
- Int_t nent=(Int_t)gAlice->TreeR()->GetEntries();
- gAlice->TreeR()->GetEvent(nent-1+cathode-1);
- Int_t nrechits = pRICHrechits->GetEntriesFast();
- printf ("nrechits:%d\n",nrechits);
- if (nrechits == 0) return;
- if (fRecpoints == 0) fRecpoints = new TObjArray(50);
-
- iChamber = &(pRICH->Chamber(chamber));
- AliRICHRecHit *mRec;
- AliRICHPoints *points = 0;
- //AliRICHEllipse *ellipse = 0;
- //
- //loop over all rechits and store their position
-
- points = new AliRICHPoints(nrechits);
- for (Int_t irec=0;irec<nrechits;irec++) {
- mRec = (AliRICHRecHit*)pRICHrechits->UncheckedAt(irec);
- fRecpoints->AddAt(points,irec);
- points->SetMarkerColor(38);
- points->SetMarkerStyle(8);
- points->SetMarkerSize(1.);
- points->SetParticle(-1);
- points->SetHitIndex(-1);
- points->SetTrackIndex(-1);
- points->SetDigitIndex(-1);
- Float_t vectorLoc[3]={mRec->fX,6.276,mRec->fY};
- Float_t vectorGlob[3];
- iChamber->LocaltoGlobal(vectorLoc,vectorGlob);
- points->SetPoint(irec,vectorGlob[0],vectorGlob[1],vectorGlob[2]);
- //Float_t theta = iChamber->GetRotMatrix()->GetTheta();
- //Float_t phi = iChamber->GetRotMatrix()->GetPhi();
- //ellipse=new TEllipse(vectorGlob[0],vectorGlob[2],10,10,0,360,phi);
- printf("Generating ellipse %d\n",irec);
- AliRICHEllipse *ellipse=new AliRICHEllipse(mRec->fX,mRec->fY,mRec->fOmega,mRec->fTheta,mRec->fPhi);
- ellipse->CreatePoints(chamber);
- //ellipse->SetFillStyle(1001);
- ellipse->SetMarkerColor(38);
- ellipse->Draw();
- //marker->SetRefObject((TObject*)points);
- //points->Set3DMarker(0, marker);
- }
+ Int_t nent1D=(Int_t)gAlice->TreeR()->GetEntries();
+ gAlice->TreeR()->GetEvent(nent1D-1+cathode-1);
+ Int_t nrechits1D = pRICHrechits1D->GetEntriesFast();
+ //printf ("nrechits1D:%d\n",nrechits1D);
+ if (nrechits1D != 0)
+ {
+ if (fRecpoints == 0) fRecpoints = new TObjArray(50);
+
+ iChamber = &(pRICH->Chamber(chamber));
+ AliRICHRecHit1D *mRec1D;
+ AliRICHPoints *points1D = 0;
+ //AliRICHEllipse *ellipse = 0;
+ //
+ //loop over all rechits and store their position
+
+ points1D = new AliRICHPoints(nrechits1D);
+ for (Int_t irec=0;irec<nrechits1D;irec++) {
+ mRec1D = (AliRICHRecHit1D*)pRICHrechits1D->UncheckedAt(irec);
+ fRecpoints->AddAt(points1D,irec);
+ points1D->SetMarkerColor(38);
+ points1D->SetMarkerStyle(8);
+ points1D->SetMarkerSize(.5);
+ points1D->SetParticle(-1);
+ points1D->SetHitIndex(-1);
+ points1D->SetTrackIndex(-1);
+ points1D->SetDigitIndex(-1);
+ Float_t vectorLoc[3]={mRec1D->fX,5,mRec1D->fY};
+ Float_t vectorGlob[3];
+ iChamber->LocaltoGlobal(vectorLoc,vectorGlob);
+ points1D->SetPoint(irec,vectorGlob[0],vectorGlob[1],vectorGlob[2]);
+ //Float_t theta = iChamber->GetRotMatrix()->GetTheta();
+ //Float_t phi = iChamber->GetRotMatrix()->GetPhi();
+ //ellipse=new TEllipse(vectorGlob[0],vectorGlob[2],10,10,0,360,phi);
+ //printf("Generating ellipse %d\n",irec);
+ AliRICHEllipse *ellipse=new AliRICHEllipse(mRec1D->fX,mRec1D->fY,mRec1D->fOmega,mRec1D->fTheta,mRec1D->fPhi,mRec1D->fEmissPoint);
+ printf("Ring at x:%f, y:%f - Omega:%f rad, theta:%3.1f deg, phi:%3.1f deg\n",mRec1D->fX,mRec1D->fY,mRec1D->fOmega,mRec1D->fTheta*180/TMath::Pi(),mRec1D->fPhi*180/TMath::Pi());
+ printf("fEmissPoint:%f\n",mRec1D->fEmissPoint);
+ ellipse->CerenkovRingDrawing(chamber,irec);
+ //ellipse->SetFillStyle(1001);
+ ellipse->SetMarkerColor(38);
+ ellipse->Draw();
+ //marker->SetRefObject((TObject*)points1D);
+ //points1D->Set3DMarker(0, marker);
+ }
+ }
+ }
+
+ TClonesArray *pRICHrechits3D = pRICH->RecHitsAddress3D(chamber);
+ //printf ("Chamber:%d\n", chamber);
+ if (pRICHrechits3D != 0)
+ {
+
+ //RICH->ResetRecHits();
+
+
+ Int_t nent3D=(Int_t)gAlice->TreeR()->GetEntries();
+ gAlice->TreeR()->GetEvent(nent3D-1+cathode-1);
+ Int_t nrechits3D = pRICHrechits3D->GetEntriesFast();
+ //printf ("nrechits3D:%d\n",nrechits3D);
+ if (nrechits3D != 0)
+ {
+ if (fRecpoints == 0) fRecpoints = new TObjArray(50);
+
+ iChamber = &(pRICH->Chamber(chamber));
+ AliRICHRecHit3D *mRec3D;
+ AliRICHPoints *points3D = 0;
+ //AliRICHEllipse *ellipse = 0;
+ //
+ //loop over all rechits and store their position
+
+ points3D = new AliRICHPoints(nrechits3D);
+ for (Int_t irec=0;irec<nrechits3D;irec++) {
+ mRec3D = (AliRICHRecHit3D*)pRICHrechits3D->UncheckedAt(irec);
+ fRecpoints->AddAt(points3D,irec);
+ points3D->SetMarkerColor(42);
+ points3D->SetMarkerStyle(8);
+ points3D->SetMarkerSize(1.);
+ points3D->SetParticle(-1);
+ points3D->SetHitIndex(-1);
+ points3D->SetTrackIndex(-1);
+ points3D->SetDigitIndex(-1);
+ Float_t vectorLoc[3]={mRec3D->fX,5,mRec3D->fY};
+ Float_t vectorGlob[3];
+ iChamber->LocaltoGlobal(vectorLoc,vectorGlob);
+ points3D->SetPoint(irec,vectorGlob[0],vectorGlob[1],vectorGlob[2]);
+ //Float_t theta = iChamber->GetRotMatrix()->GetTheta();
+ //Float_t phi = iChamber->GetRotMatrix()->GetPhi();
+ //ellipse=new TEllipse(vectorGlob[0],vectorGlob[2],10,10,0,360,phi);
+ //printf("Generating ellipse %d\n",irec);
+ AliRICHEllipse *ellipse=new AliRICHEllipse(mRec3D->fX,mRec3D->fY,mRec3D->fOmega,mRec3D->fTheta,mRec3D->fPhi,0.75);
+ printf("Ring at x:%f, y:%f - Omega:%f rad, theta:%3.1f deg, phi:%3.1f deg\n",mRec3D->fX,mRec3D->fY,mRec3D->fOmega,mRec3D->fTheta*180/TMath::Pi(),mRec3D->fPhi*180/TMath::Pi());
+ //ellipse->CerenkovRingDrawing(chamber,irec);
+ //ellipse->SetFillStyle(1001);
+ ellipse->CreatePoints(chamber);
+ ellipse->SetMarkerStyle(7);
+ ellipse->SetMarkerColor(42);
+ ellipse->SetMarkerSize(1);
+ ellipse->Draw();
+ //marker->SetRefObject((TObject*)points3D);
+ //points3D->Set3DMarker(0, marker);
+ }
+ }
+ }
}
//___________________________________________
void AliRICHDisplay::LoadDigits()
ResetPoints();
AliRICH *pRICH = (AliRICH*)gAlice->GetDetector("RICH");
AliRICHChamber* iChamber;
- AliRICHSegmentation* segmentation;
+ AliSegmentation* segmentation;
Int_t nAllDigits=0;
Int_t ich;
+
+ //printf("Entering LoadDigits\n");
+
+ if (gAlice->TreeD())
+ {
- for (ich=0; ich<kNCH; ich++) {
- TClonesArray *pRICHdigits = pRICH->DigitsAddress(ich);
- if (pRICHdigits == 0) continue;
- gAlice->ResetDigits();
- gAlice->TreeD()->GetEvent(1);
- Int_t ndigits = pRICHdigits->GetEntriesFast();
- nAllDigits+=ndigits;
- }
- if (fPoints == 0) fPoints = new TObjArray(nAllDigits);
- Int_t counter=0;
- for (ich=0; ich<kNCH; ich++) {
- TClonesArray *pRICHdigits = pRICH->DigitsAddress(ich);
- if (pRICHdigits == 0) continue;
- gAlice->ResetDigits();
- gAlice->TreeD()->GetEvent(1);
- Int_t ndigits = pRICHdigits->GetEntriesFast();
- if (ndigits == 0) continue;
- iChamber = &(pRICH->Chamber(ich));
- segmentation=iChamber->GetSegmentationModel();
- Float_t dpx = segmentation->Dpx();
- Float_t dpy = segmentation->Dpy();
-
- //printf("Dpx:%d, Dpy:%d\n",dpx,dpy);
-
- AliRICHDigit *mdig;
- AliRICHPoints *points = 0;
- TMarker3DBox *marker = 0;
- //
- //loop over all digits and store their position
- Int_t npoints=1;
+ for (ich=0; ich<kNCH; ich++) {
+ TClonesArray *pRICHdigits = pRICH->DigitsAddress(ich);
+ //printf ("Chamber:%d has adress:%p\n", ich, pRICHdigits );
+ if (pRICHdigits == 0) continue;
+ gAlice->ResetDigits();
+ gAlice->TreeD()->GetEvent(0);
+ Int_t ndigits = pRICHdigits->GetEntriesFast();
+ //printf("ndigits:%d\n",ndigits);
+ nAllDigits+=ndigits;
+ }
- for (Int_t digit=0;digit<ndigits;digit++) {
+ if (fPoints == 0) fPoints = new TObjArray(nAllDigits);
+ Int_t counter=0;
+ for (ich=0; ich<kNCH; ich++) {
+ TClonesArray *pRICHdigits = pRICH->DigitsAddress(ich);
+ if (pRICHdigits == 0) continue;
+ gAlice->ResetDigits();
+ gAlice->TreeD()->GetEvent(0);
+ Int_t ndigits = pRICHdigits->GetEntriesFast();
+ if (ndigits == 0) continue;
+ iChamber = &(pRICH->Chamber(ich));
+ segmentation=iChamber->GetSegmentationModel();
+ Float_t dpx = segmentation->Dpx();
+ Float_t dpy = segmentation->Dpy();
+
+ //printf("Dpx:%d, Dpy:%d\n",dpx,dpy);
+
+ AliRICHDigit *mdig;
+ AliRICHPoints *points = 0;
+ TMarker3DBox *marker = 0;
+ //
+ //loop over all digits and store their position
+ Int_t npoints=1;
+
+ for (Int_t digit=0;digit<ndigits;digit++) {
mdig = (AliRICHDigit*)pRICHdigits->UncheckedAt(digit);
points = new AliRICHPoints(npoints);
fPoints->AddAt(points,counter);
counter++;
- Int_t charge=mdig->fSignal;
+ Int_t charge=mdig->Signal();
Int_t index=Int_t(TMath::Log(charge)/(TMath::Log(adc_satm)/22));
Int_t color=701+index;
if (color>722) color=722;
points->SetMarkerColor(color);
points->SetMarkerStyle(21);
points->SetMarkerSize(0.5);
- Float_t xpad, ypad;
- segmentation->GetPadCxy(mdig->fPadX, mdig->fPadY,xpad, ypad);
- Float_t vectorLoc[3]={xpad,6.276,ypad};
+ Float_t xpad, ypad, zpad;
+ segmentation->GetPadC(mdig->PadX(), mdig->PadY(),xpad, ypad, zpad);
+ Float_t vectorLoc[3]={xpad,5,ypad};
Float_t vectorGlob[3];
iChamber->LocaltoGlobal(vectorLoc,vectorGlob);
points->SetParticle(-1);
points->SetTrackIndex(-1);
points->SetDigitIndex(digit);
points->SetPoint(0,vectorGlob[0],vectorGlob[1],vectorGlob[2]);
+ //printf("Y position (digit): %f\n", vectorGlob[1]);
- segmentation->GetPadCxy(mdig->fPadX, mdig->fPadY, xpad, ypad);
+ segmentation->GetPadC(mdig->PadX(), mdig->PadY(), xpad, ypad, zpad);
Float_t theta = iChamber->GetRotMatrix()->GetTheta();
Float_t phi = iChamber->GetRotMatrix()->GetPhi();
marker=new TMarker3DBox(vectorGlob[0],vectorGlob[1],vectorGlob[2],
marker->SetFillColor(color);
marker->SetRefObject((TObject*)points);
points->Set3DMarker(0, marker);
- } // loop over digits
- } // loop over chambers
+ } // loop over digits
+ } // loop over chambers
+ } //if TreeD
}
points = new AliRICHPoints(1);
fPhits->AddAt(points,npoints);
mHit = (AliRICHHit*)pRICHhits->UncheckedAt(hit);
- TParticle *current =
- (TParticle*)(*gAlice->Particles())[mHit->fTrack];
+ TParticle *current = (TParticle*)gAlice->Particle(mHit->Track());
if (current->GetPdgCode() == 50000050) {
points->SetMarkerColor(kBlue);
} else if (current->GetPdgCode() == 50000051) {
}
points->SetMarkerStyle(5);
points->SetMarkerSize(1.);
- points->SetParticle(mHit->fTrack);
+ points->SetParticle(mHit->Track());
points->SetHitIndex(hit);
points->SetTrackIndex(track);
points->SetDigitIndex(-1);
- points->SetPoint(hit,mHit->fX, mHit->fY, mHit->fZ);
+ points->SetPoint(hit,mHit->X(), mHit->Y(), mHit->Z());
+ //printf("Y position: %f\n", mHit->Y());
npoints++;
}
}
for (Int_t hit=0;hit<nhits;hit++) {
mCerenkov = (AliRICHCerenkov*)pRICHCerenkovs->UncheckedAt(hit);
- (*xp)(npoints)=mCerenkov->fX;
- (*yp)(npoints)=mCerenkov->fY;
- (*zp)(npoints)=mCerenkov->fZ;
+ (*xp)(npoints)=mCerenkov->X();
+ (*yp)(npoints)=mCerenkov->Y();
+ (*zp)(npoints)=mCerenkov->Z();
(*ptrk)(npoints)=Float_t(mCerenkov->GetTrack());
(*phit)(npoints)=Float_t(hit);
npoints++;
fChamber = chamber;
fCathode = cathode;
- printf("SetChamberAndCathode - fChamber fCathode %d %d\n",fChamber,fCathode);
+ //printf("SetChamberAndCathode - fChamber fCathode %d %d\n",fChamber,fCathode);
if (!fPad) return;
fPad->Clear();
LoadDigits();