Updated to calculate the total number of digits each time in order to avoid inconsist...
authorhristov <hristov@f7af4fe6-9843-0410-8265-dc069ae4e863>
Wed, 23 May 2001 14:11:39 +0000 (14:11 +0000)
committerhristov <hristov@f7af4fe6-9843-0410-8265-dc069ae4e863>
Wed, 23 May 2001 14:11:39 +0000 (14:11 +0000)
ITS/ITSOccupancy.C

index 70c7314..c60c920 100644 (file)
@@ -74,7 +74,7 @@
        #include <AliITSsegmentationSSD.h>
 #endif
 
-Int_t ITSOccupancy(char *name = "galice", Bool_t recreate = kFALSE, Int_t evNum = 0) {       
+Int_t ITSOccupancy(char *name = "galice", Int_t evNum = 0) {       
                 
        // Evaluate the name of the file to open...
        Int_t filelen = strlen(name);
@@ -128,54 +128,34 @@ Int_t ITSOccupancy(char *name = "galice", Bool_t recreate = kFALSE, Int_t evNum
        // Histos for plotting occupancy distributions
        TH1F *above[6], *below[6];
        
-       if (recreate) {
-               // This work is done if the "recreate" option is true
-               TFile *file = new TFile("totals.root", "RECREATE");
-                file->cd();
-               for (Int_t lay = 0; lay < 6; lay++) {
-                       Int_t nlads = gm->GetNladders(lay+1);
-                       Int_t ndets = gm->GetNdetectors(lay+1);
-                       Int_t dtype = lay / 2;
-                       Int_t minID = gm->GetModuleIndex(lay+1, 1, 1);
-                       Int_t maxID = gm->GetModuleIndex(lay+1, nlads, ndets);
-                       Text_t ffname[20];
-                       sprintf(ffname, "h_%d", lay+1);
-                       below[lay] = new TH1F(ffname, "Total z distribution of digits", nbins[lay], -zmax[lay], zmax[lay]);
-                       cout << "Evaluating total channels number of layer " << lay+1 << endl;
-                       for (Int_t I = minID; I <= maxID; I++) {                
-                               AliITSDetType *det = ITS->DetType(dtype);
-                               AliITSsegmentation *seg = det->GetSegmentationModel();
-                               Int_t NX = seg->Npx();
-                               Int_t NZ = seg->Npz();
-                               for (Int_t ix = 0; ix <= NX; ix++) {
-                                       for (Int_t iz = 0; iz <= NZ; iz++) {
-                                               Float_t lx[] = {0.0,0.0,0.0}, gx[] = {0.0,0.0,0.0};
-                                               seg->DetToLocal(ix, iz, lx[0], lx[2]);
-                                               gm->LtoG(I, lx, gx);
-                                               below[lay]->Fill(gx[2]);
-                                       }
+       for (Int_t lay = 0; lay < 6; lay++) {
+               Int_t nlads = gm->GetNladders(lay+1);
+               Int_t ndets = gm->GetNdetectors(lay+1);
+               Int_t dtype = lay / 2;
+               Int_t minID = gm->GetModuleIndex(lay+1, 1, 1);
+               Int_t maxID = gm->GetModuleIndex(lay+1, nlads, ndets);
+               Text_t ffname[20];
+               sprintf(ffname, "h_%d", lay+1);
+               below[lay] = new TH1F(ffname, "Total z distribution of digits", nbins[lay], -zmax[lay], zmax[lay]);
+               cout << "Evaluating total channels number of layer " << lay+1 << endl;
+               for (Int_t I = minID; I <= maxID; I++) {                
+                       AliITSDetType *det = ITS->DetType(dtype);
+                       AliITSsegmentation *seg = det->GetSegmentationModel();
+                       Int_t NX = seg->Npx();
+                       Int_t NZ = seg->Npz();
+                       for (Int_t ix = 0; ix <= NX; ix++) {
+                               for (Int_t iz = 0; iz <= NZ; iz++) {
+                                       Float_t lx[] = {0.0,0.0,0.0}, gx[] = {0.0,0.0,0.0};
+                                       seg->DetToLocal(ix, iz, lx[0], lx[2]);
+                                       gm->LtoG(I, lx, gx);
+                                       below[lay]->Fill(gx[2]);
                                }
                        }
-                       // every generated histogram is written to the file
-                       below[lay]->Write();
-                       // and every counter histogram is created
-                       sprintf(ffname, "H_%d", lay+1);
-                       above[lay] = new TH1F(ffname, "histo", nbins[lay], -zmax[lay], zmax[lay]);
                }
+               sprintf(ffname, "H_%d", lay+1);
+               above[lay] = new TH1F(ffname, "histo", nbins[lay], -zmax[lay], zmax[lay]);
        }
-       else {
-               // Thi other work is done if the recreate option is false
-               TFile *file = new TFile("totals.root", "READ");
-               file->ls();
-               for (Int_t i = 0; i < 6; i++) {
-                       Text_t ffname[20];
-                       sprintf(ffname, "h_%d", i+1);
-                       below[i] = (TH1F*)file->Get(ffname);
-                       sprintf(ffname, "H_%d", i+1);
-                       above[i] = new TH1F(ffname, "histo", nbins[i], -zmax[i], zmax[i]);
-               }
-       }
-       
+               
        // Counting the hits, digits and recpoints contained in the ITS
        TTree *TD = gAlice->TreeD();
        ITS->ResetDigits();
@@ -237,12 +217,12 @@ Int_t ITSOccupancy(char *name = "galice", Bool_t recreate = kFALSE, Int_t evNum
                above[I-1]->Draw();
                view->Update();
        }
-       Text_t *filegif  = new Text_t[filelen + 11];
-       Text_t *fileps  = new Text_t[filelen + 11];
+       Text_t *filegif  = new Text_t[filelen + 23];
+       Text_t *fileps  = new Text_t[filelen + 23];
        strcpy (filegif, name);
        strcpy (fileps, name);
-       strcat (filegif, "_digs.gif");
-       strcat (fileps, "_digs.ps");
+       strcat (filegif, "_digit_occupancy.gif");
+       strcat (fileps, "_digit_occupancy.eps");
        view->SaveAs(filegif);
        view->SaveAs(fileps);