Removing useless flag.
[u/mrichter/AliRoot.git] / T0 / T0Laserda.cxx
index e870e1d..574f37e 100644 (file)
@@ -1,7 +1,19 @@
-//extern "C" 
+/*
+T0 DA for online calibration
+Contact: Alla.Maevskaya@cern.ch
+Run Type: AMPLITUDE_CALIBRATION
+DA Type: MON
+Number of events needed: 5000 
+Input Files: inLaser.dat, external parameters
+Output Files: daLaser.root, to be exported to the DAQ FXS
+Trigger types used: CALIBRATION_EVENT
 
-#include <daqDA.h>
+*/
 
+#define FILE_OUT "daLaser.root"
+#define FILE_IN "inLaser.dat"
+#include <daqDA.h>
 #include <event.h>
 #include <monitor.h>
  
 #include <AliRawReaderDate.h>
 #include <AliRawReader.h>
 #include <AliT0RawReader.h>
-#include <AliCDBManager.h>
 
 //ROOT
+#include "TROOT.h"
+#include "TPluginManager.h"
 #include "TFile.h"
 #include "TKey.h"
 #include "TH2S.h"
 #include "TF1.h"
 #include "TSpectrum.h"
 #include "TVirtualFitter.h"
-#include "TProfile.h"
+//AMORE
+//
+#ifdef ALI_AMORE
+#include <AmoreDA.h>
+#endif
+
 
+float lcfd, hcfd;
 /* Main routine
       Arguments: 
       1- monitoring data source
 int main(int argc, char **argv) {
   int status;
   
+  /* magic line */
+  gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo",
+                                       "*",
+                                       "TStreamerInfo",
+                                       "RIO",
+                                       "TStreamerInfo()"); 
   
+  Int_t nEntries = daqDA_ECS_getTotalIteration(); // usually = 11 = Nb of calibration runs
+ cout<<" nEntries "<<nEntries<<endl;
+ Int_t nInit=1;  // = 0 all DAC values ; = 1 DAC=0 excluded (default=1)
+  // Reading current iteration
+  Int_t nIndex = daqDA_ECS_getCurrentIteration();
+  if(nIndex<0 || nIndex>nEntries) {printf("\n Failed: nIndex = %d\n",nIndex); return -1 ;}
+  
+
+// decode the input line
   if (argc!=2) {
     printf("Wrong number of arguments\n");
     return -1;
   }
+
+  Float_t mipsin[20];
+   if(daqDA_DB_getFile(FILE_IN, FILE_IN)){
+     printf("Couldn't get input file >>inLaser.dat<< from DAQ_DB !!!\n");
+     return -1;
+  }
+
+  ifstream filein(FILE_IN,ios::in); 
+  Int_t k=0;
+  while (k<nEntries ) { 
+    filein >>mipsin[k] ;
+    cout<<" "<<mipsin[k]<<endl;
+    k++; }
+  filein>>lcfd;
+  filein>>hcfd;
+  filein.close();
+
+
+
+  /*
+  if (argc!=2) {
+    printf("Wrong number of arguments\n");
+    return -1;
+  }
+  */
+
+  // Char_t inputFile[256]="";
 
 
   /* define data source : this is argument 1 */  
@@ -68,36 +130,30 @@ int main(int argc, char **argv) {
 
   /* log start of process */
   printf("T0 monitoring program started\n");  
-
+  
   // Allocation of histograms - start
-  TH1F *hCFD[24];
-  TH2F *hCFD_QTC[24]; TH2F *hCFD_LED[24]; 
-  Char_t  buf1[10], buf2[10],buf3[10],buf4[10];
-
-   for(Int_t ic=0; ic<24; ic++) {
-      sprintf(buf1,"CFD_QTC%i",ic+1);
-      sprintf(buf2,"CFD_LED%i",ic+1);
-
-      hCFD_QTC[ic] = new TH2F(buf1,"CFD_QTC",8000,0.5,8000.5,2000,10000.5,20000.5);
-      hCFD_LED[ic] = new TH2F(buf2,"CFD_LED",1000,-500.0,500.0,100,14600.0,14700.0);
-      if(ic<12){
-       sprintf(buf3,"T0_C_%i_CFD",ic+1);
-       hCFD[ic] = new TH1F(buf3,"CFD", 30000,0., 30000.);      
-      }
-      else{
-        sprintf(buf4,"T0_A_%i_CFD",ic-11);
-        hCFD[ic] = new TH1F(buf4,"CFD", 30000,0., 30000.); 
-      }
+  
+  TH1F *hQTC[24];  TH1F *hLED[24]; TH1F *hCFD[24];
+  printf(" CFD low limit %f high %f",lcfd, hcfd);
+  
+  for(Int_t ic=0; ic<24; ic++) 
+    {
+      hQTC[ic] = new TH1F(Form("hQTC%d_%d",ic+1,nIndex),"QTC",1000, 500, 10000);
+      hLED[ic] = new TH1F(Form("hLED%d_%d",ic+1,nIndex),"LED",125,200,700);
+      hCFD[ic] = new TH1F(Form("hCFD%d_%d",ic+1,nIndex),"CFD", Int_t ((hcfd-lcfd)/2), lcfd, hcfd);
     }
-
   // Allocation of histograms - end
-
+  
+  // Reading current iteration
+   
   Int_t iev=0;
   /* main loop (infinite) */
   for(;;) {
     struct eventHeaderStruct *event;
     eventTypeType eventT;
-  
+    
     /* check shutdown condition */
     if (daqDA_checkShutdown()) {break;}
     
@@ -112,119 +168,132 @@ int main(int argc, char **argv) {
       printf("monitorGetEventDynamic() failed : %s\n",monitorDecodeError(status));
       break;
     }
-
+    
     /* retry if got no event */
     if (event==NULL) {
       continue;
     }
-    iev++; 
-
+    
     /* use event - here, just write event id to result file */
     eventT=event->eventType;
-   
+    
     switch (event->eventType){
-
-      case START_OF_RUN:
-       break;
-
-      case END_OF_RUN:
-       break;
-
-//      case CALIBRATION_EVENT:
-      case PHYSICS_EVENT:
-      printf(" event number = %i \n",iev);
-
-
+      
+    case START_OF_RUN:
+      break;
+      
+    case END_OF_RUN:
+      break;
+      
+    case CALIBRATION_EVENT:
+      //      case PHYSICS_EVENT:
+      iev++; 
+      
+      if(iev==1) printf("First event  %i\n",iev);
+      
+      
       // Initalize raw-data reading and decoding
       AliRawReader *reader = new AliRawReaderDate((void*)event);
-          
+      
       // Enable the following two lines in case of real-data
-   //       reader->LoadEquipmentIdsMap("T0map.txt");
-    //     reader->RequireHeader(kFALSE);
-     //          reader->RequireHeader(kTRUE);
+      reader->RequireHeader(kTRUE);
       AliT0RawReader *start = new AliT0RawReader(reader, kTRUE);
 
       // Read raw data
-      Int_t allData[105][5];
-      for(Int_t i0=0;i0<105;i0++)
+      Int_t allData[106][5];
+      for(Int_t i0=0;i0<106;i0++)
        for(Int_t j0=0;j0<5;j0++)
                allData[i0][j0] = 0;
-     
-      if(start->Next())
-      for (Int_t i=0; i<105; i++) {
-       for(Int_t iHit=0;iHit<5;iHit++){
-         allData[i][iHit]= start->GetData(i,iHit);
+      
+      if(start->Next()){
+        for (Int_t i=0; i<106; i++) {
+         for(Int_t iHit=0;iHit<5;iHit++){
+           allData[i][iHit]= start->GetData(i,iHit);
+         }
         }
       }
-       else 
-       printf("No T0 data found!!\n");
-
+      else 
+       printf("No data for T0 found!!!\n");
+      
       // Fill the histograms
-       
+      
       for (Int_t ik = 0; ik<24; ik+=2)
-         for (Int_t iHt=0; iHt<5; iHt++){
-                Int_t cc = ik/2;
-               if((allData[cc+1][iHt]-allData[0][0])>0){
-                hCFD[cc]->Fill(allData[cc+1][iHt]-allData[0][0]);
-               }
-               if(allData[ik+25][iHt]!=0 && allData[ik+26][iHt]!=0 && allData[cc+1][iHt]!=0){
-                 hCFD_QTC[cc]->Fill((allData[ik+25][iHt]-allData[ik+26][iHt]) , (allData[cc+1][iHt]-allData[0][0]));
-                } 
-                if(allData[cc+13][iHt]!=0 && allData[cc+1][iHt]!=0){
-                hCFD_LED[cc]->Fill(allData[cc+13][iHt]-allData[cc+1][iHt],allData[cc+1][iHt]-allData[0][0]);
-                }
-       }
-
+       {
+         Int_t cc = ik/2;
+         if(allData[ik+25][0]>0 && allData[ik+26][0]>0)
+           hQTC[cc]->Fill((allData[ik+25][0]-allData[ik+26][0]));
+         if(allData[cc+13][0]>0 && allData[cc+1][0]>0)
+           hLED[cc]->Fill(allData[cc+13][0]-allData[cc+1][0]);
+         if(allData[cc+1][0] > 0) hCFD[cc]->Fill(allData[cc+1][0]);
+         //      printf("%i %i CFD %i LED_CFD %i\n",
+         //      ik,cc,allData[cc+1][0],allData[cc+1][0]);
+
+       }          
+      
+      
       for (Int_t ik = 24; ik<48; ik+=2)
-         for (Int_t iHt=0; iHt<5; iHt++){
-                Int_t cc = ik/2;
-                if((allData[cc+45][iHt]-allData[0][0])>0){
-                 hCFD[cc]->Fill(allData[cc+45][iHt]-allData[0][0]);
-                }
-
-                if(allData[ik+57][iHt]!=0 && allData[ik+58][iHt]!=0){
-                if(allData[cc+45][iHt]!=0)
-                 hCFD_QTC[cc]->Fill(allData[ik+57][iHt]-allData[ik+58][iHt],allData[cc+45][iHt]-allData[0][0]);
-                }
-                if(allData[cc+57][iHt]!=0 && allData[cc+45][iHt]!=0){
-                 hCFD_LED[cc]->Fill(allData[cc+57][iHt]-allData[cc+45][iHt],allData[cc+45][iHt]-allData[0][0]);
-                 }
-       }
+       {
+         Int_t cc = ik/2;
+          if(allData[ik+57][0]>0 && allData[ik+58][0]>0 && allData[cc+45][0]>0)
+            hQTC[cc]->Fill(allData[ik+57][0]-allData[ik+58][0]);
+          
+          if(allData[cc+57][0]>0 && allData[cc+45][0]>0)
+            hLED[cc]->Fill(allData[cc+57][0]-allData[cc+45][0]);
+          if(allData[cc+45][0] > 0) hCFD[cc]->Fill(allData[cc+45][0]);
+          //  printf("%i %i CFD %i LED_CFD %i\n",
+          //  ik,cc,allData[cc+45][0],allData[cc+45][0]);
 
-       
-     delete start;
-       start = 0x0;
-     reader->Reset();
+       }
+      
+      delete start;
+      start = 0x0;
+      delete reader;
+      reader= 0x0;
       // End of fill histograms
 
     }
-
-
-
+    
     /* free resources */
     free(event);
     
     /* exit when last event received, no need to wait for TERM signal */
     if (eventT==END_OF_RUN) {
       printf("EOR event detected\n");
+      printf("Number of events processed - %i\n ",iev);
       break;
     }
   }
-printf("After loop, before writing histos\n");
+
+  printf("After loop, before writing histos\n");
+  TH1F* hAmp = new TH1F("hAmpLaser"," Laser amplitude ", 1000, 0.5, 20.5);  
+  for(Int_t i=0; i<nIndex; i++)   hAmp->Fill(mipsin[i]); 
   // write a file with the histograms
-  Char_t filehist[21];
-  sprintf(filehist,"daLaser.root");
-  TFile *hist = new TFile(filehist,"RECREATE");
-
-  for(Int_t j=0;j<24;j++){
-     hCFD_QTC[j]->Write();
-     hCFD_LED[j]->Write();
-     hCFD[j]->Write();
+  TFile *hist=0;
+  if(nIndex == 1 )
+    hist = new TFile(FILE_OUT,"RECREATE");
+  else
+    hist = new TFile(FILE_OUT,"UPDATE");
+  hist->cd();
+  
+  for(Int_t j=0;j<24;j++)
+    {
+      if(hQTC[j]->GetEntries()>0) hQTC[j]->Write();
+      if(hLED[j]->GetEntries()>0) hLED[j]->Write();
+      if(hCFD[j]->GetEntries()>0) hCFD[j]->Write();
     }
+  hAmp->Write();
+  
   hist->Close();
   delete hist;
-
+  
+  status=0;
+  
+  /* export file to FXS */
+  if (daqDA_FES_storeFile(FILE_OUT, "AMPLITUDE_CALIBRATION")) {
+    status=-2;
+  }
+  
   return status;
 }