Clusterize all chambers when the combined tracking is disabled.

[u/mrichter/AliRoot.git] / ZDC / AliZDCPreprocessor.cxx

diff --git a/ZDC/AliZDCPreprocessor.cxx b/ZDC/AliZDCPreprocessor.cxx
index 19fb791184e9275df008da21cdebf046e0f4d8fc..ff9d5f4a1057a4d6e8366b4b5e2a354347ea7c55 100644 (file)
--- a/ZDC/AliZDCPreprocessor.cxx
+++ b/ZDC/AliZDCPreprocessor.cxx
@@ -11,22 +11,26 @@
 #include "AliCDBMetaData.h"
 #include "AliDCSValue.h"
 #include "AliAlignObj.h"
-#include "AliAlignObjAngles.h"
+#include "AliAlignObjParams.h"
 #include "AliLog.h"
 #include "AliZDCDataDCS.h"
-#include "AliZDCCalibData.h"
+#include "AliZDCPedestals.h"
+#include "AliZDCCalib.h"
+#include "AliZDCRecParam.h"
 
-//
-// Class implementing ZDC pre-processor.
-// It takes data from DCS and passes it to the class AliZDCDataDCS.
-// The class is then written to the CDB.
-//
+/////////////////////////////////////////////////////////////////////
+//                                                                //
+// Class implementing ZDC pre-processor.                          //
+// It takes data from DCS and passes it to the class AliZDCDataDCS //
+// The class is then written to the CDB.                          //
+//                                                                //
+/////////////////////////////////////////////////////////////////////
 
 ClassImp(AliZDCPreprocessor)
 
 //______________________________________________________________________________________________
-AliZDCPreprocessor::AliZDCPreprocessor(const char* detector, AliShuttleInterface* shuttle) :
-  AliPreprocessor(detector, shuttle),
+AliZDCPreprocessor::AliZDCPreprocessor(AliShuttleInterface* shuttle) :
+  AliPreprocessor("ZDC", shuttle),
   fData(0)
 {
   // constructor
@@ -63,55 +67,54 @@ UInt_t AliZDCPreprocessor::Process(TMap* dcsAliasMap)
 {
   // *************** From DCS ******************
   // Fills data into a AliZDCDataDCS object
-  if(!dcsAliasMap) return 0;
+  if(!dcsAliasMap) return 1;
 
   // The processing of the DCS input data is forwarded to AliZDCDataDCS
-  Float_t DCSValues[26];
-  fData->ProcessData(*dcsAliasMap, DCSValues);
+  Float_t dcsValues[28]; // DCSAliases=28
+  fData->ProcessData(*dcsAliasMap, dcsValues);
   //dcsAliasMap->Print("");
   //
   // --- Writing ZDC table positions into alignment object
-  TClonesArray *array = new TClonesArray("AliAlignObjAngles",10);
+  TClonesArray *array = new TClonesArray("AliAlignObjParams",10);
   TClonesArray &alobj = *array;
-  AliAlignObjAngles a;
+  AliAlignObjParams a;
   Double_t dx=0., dz=0., dpsi=0., dtheta=0., dphi=0.;
   // Vertical table position in mm from DCS
-  Double_t dyZN1 = (Double_t) (DCSValues[0]/10.);
-  Double_t dyZP1 = (Double_t) (DCSValues[1]/10.);
-  Double_t dyZN2 = (Double_t) (DCSValues[2]/10.);
-  Double_t dyZP2 = (Double_t) (DCSValues[3]/10.);
-  const char *ZDCn1="ZDC/NeutronZDC1";
-  const char *ZDCp1="ZDC/ProtonZDC1";
-  const char *ZDCn2="ZDC/NeutronZDC2";
-  const char *ZDCp2="ZDC/ProtonZDC2";
+  Double_t dyZN1 = (Double_t) (dcsValues[0]/10.);
+  Double_t dyZP1 = (Double_t) (dcsValues[1]/10.);
+  Double_t dyZN2 = (Double_t) (dcsValues[2]/10.);
+  Double_t dyZP2 = (Double_t) (dcsValues[3]/10.);
+  const char *n1ZDC="ZDC/NeutronZDC1";
+  const char *p1ZDC="ZDC/ProtonZDC1";
+  const char *n2ZDC="ZDC/NeutronZDC2";
+  const char *p2ZDC="ZDC/ProtonZDC2";
   UShort_t iIndex=0;
-  AliAlignObj::ELayerID iLayer = AliAlignObj::kInvalidLayer;
-  UShort_t volid = AliAlignObj::LayerToVolUID(iLayer,iIndex);
+  AliGeomManager::ELayerID iLayer = AliGeomManager::kInvalidLayer;
+  UShort_t volid = AliGeomManager::LayerToVolUID(iLayer,iIndex);
   //
-  new(alobj[0]) AliAlignObjAngles(ZDCn1, volid, dx, dyZN1, dz, dpsi, dtheta, dphi, kTRUE);
-  new(alobj[1]) AliAlignObjAngles(ZDCp1, volid, dx, dyZP1, dz, dpsi, dtheta, dphi, kTRUE);
-  new(alobj[2]) AliAlignObjAngles(ZDCn2, volid, dx, dyZN2, dz, dpsi, dtheta, dphi, kTRUE);
-  new(alobj[3]) AliAlignObjAngles(ZDCp2, volid, dx, dyZP2, dz, dpsi, dtheta, dphi, kTRUE);
+  new(alobj[0]) AliAlignObjParams(n1ZDC, volid, dx, dyZN1, dz, dpsi, dtheta, dphi, kTRUE);
+  new(alobj[1]) AliAlignObjParams(p1ZDC, volid, dx, dyZP1, dz, dpsi, dtheta, dphi, kTRUE);
+  new(alobj[2]) AliAlignObjParams(n2ZDC, volid, dx, dyZN2, dz, dpsi, dtheta, dphi, kTRUE);
+  new(alobj[3]) AliAlignObjParams(p2ZDC, volid, dx, dyZP2, dz, dpsi, dtheta, dphi, kTRUE);
   // save in CDB storage
   AliCDBMetaData md;
   md.SetResponsible("Chiara Oppedisano");
   md.SetComment("Alignment object for ZDC");
-  UInt_t resultAl = 0;
+  Bool_t resultAl = kTRUE;
   resultAl = Store("Align","Data", array, &md, 0, 0);
   
-  // --- Writing ZDC PTMs HV values into calibration object
-  AliZDCCalibData *calibdata = new AliZDCCalibData("ZDC");
-  for(Int_t j=0; j<22; j++)
-     calibdata->SetPMTHVVal(j,DCSValues[j+4]);
-
-  
-  // *************** From DAQ ******************
-  // [a] PEDESTALS
+// *************** From DAQ ******************
+Bool_t resPedCal = kTRUE, resECal = kTRUE, resRecPar = kTRUE;
+// *****************************************************
+// [a] PEDESTALS -> Pedestal subtraction
+// *****************************************************
 TString runType = GetRunType();
+printf("\n\t AliZDCPreprocessor -> runType detected %s\n\n",runType.Data());
+if(runType == "PEDESTAL_RUN"){
   TList* daqSources = GetFileSources(kDAQ, "PEDESTALS");
   if(!daqSources){
     Log(Form("No source for PEDESTALS run %d !", fRun));
-    return 0;
+    return 1;
   }
   Log("\t List of sources for PEDESTALS");
   daqSources->Print();
@@ -124,52 +127,66 @@ TString runType = GetRunType();
        TString stringPedFileName = GetFile(kDAQ, "PEDESTALS", source->GetName());
        if(stringPedFileName.Length() <= 0){
           Log(Form("No PEDESTAL file from source %s!", source->GetName()));
-         return 0;
+         return 1;
        }
-       const char* PedFileName = stringPedFileName.Data();
-       const Int_t NZDCch = 44;
-       if(PedFileName){
+       // --- Initializing pedestal calibration object
+       AliZDCPedestals *pedCalib = new AliZDCPedestals("ZDC");
+       // --- Reading file with pedestal calibration data
+       const char* pedFileName = stringPedFileName.Data();
+       // no. ADCch = (22 signal ch. + 2 reference PMs) * 2 gain chain = 48
+       const Int_t knZDCch = 48;
+       if(pedFileName){
          FILE *file;
-         if((file = fopen(PedFileName,"r")) == NULL){
-           printf("Cannot open file %s \n",PedFileName);
-          return 0;
+         if((file = fopen(pedFileName,"r")) == NULL){
+           printf("Cannot open file %s \n",pedFileName);
+          return 1;
          }
-         Log(Form("File %s connected to analyze pedestal events", PedFileName));
-         Float_t PedVal[(3*NZDCch)][2];
-         for(Int_t i=0; i<(3*NZDCch); i++){
+         Log(Form("File %s connected to process pedestal data", pedFileName));
+         Float_t pedVal[(3*knZDCch)][2];
+         for(Int_t i=0; i<(3*knZDCch); i++){
             for(Int_t j=0; j<2; j++){
-               fscanf(file,"%f",&PedVal[i][j]);
-              //if(j==1) printf("PedVal[%d] -> %f, %f \n",i,PedVal[i][0],PedVal[i][1]);
+               fscanf(file,"%f",&pedVal[i][j]);
+              //if(j==1) printf("pedVal[%d] -> %f, %f \n",i,pedVal[i][0],pedVal[i][1]);
             }
-            if(i<NZDCch){
-              calibdata->SetMeanPed(i,PedVal[i][0]);
-              calibdata->SetMeanPedWidth(i,PedVal[i][1]);
+            if(i<knZDCch){
+              pedCalib->SetMeanPed(i,pedVal[i][0]);
+              pedCalib->SetMeanPedWidth(i,pedVal[i][1]);
             }
-            else if(i>=NZDCch && i<(2*NZDCch)){
-              calibdata->SetOOTPed(i-NZDCch,PedVal[i][0]);
-              calibdata->SetOOTPedWidth(i-NZDCch,PedVal[i][1]);
+            else if(i>=knZDCch && i<(2*knZDCch)){
+              pedCalib->SetOOTPed(i-knZDCch,pedVal[i][0]);
+              pedCalib->SetOOTPedWidth(i-knZDCch,pedVal[i][1]);
             }
-            else if(i>=(2*NZDCch) && i<(3*NZDCch)){
-              calibdata->SetPedCorrCoeff(i-(2*NZDCch),PedVal[i][0],PedVal[i][1]);
+            else if(i>=(2*knZDCch) && i<(3*knZDCch)){
+              pedCalib->SetPedCorrCoeff(i-(2*knZDCch),pedVal[i][0],pedVal[i][1]);
             }
          }
        }
        else{
-          Log(Form("File %s not found", PedFileName));
-          return 0;
+          Log(Form("File %s not found", pedFileName));
+          return 1;
        }
        //
-      //calibdata->Print("");
+      //pedCalib->Print("");
+      // 
+      AliCDBMetaData metaData;
+      metaData.SetBeamPeriod(0);
+      metaData.SetResponsible("Chiara");
+      metaData.SetComment("Filling AliZDCPedestals object");  
+      //
+      resPedCal = Store("Calib","Pedestals",pedCalib, &metaData, 0, 1);
   }
   delete daqSources; daqSources = 0;
-  // [a] EMD EVENTS
-if (runType != "PEDESTALS") {
+}
+// *****************************************************
+// [b] EMD EVENTS -> Energy calibration and equalization
+// *****************************************************
+else if(runType == "PULSER_RUN"){
   TList* daqSources = GetFileSources(kDAQ, "EMDCALIB");
   if(!daqSources){
-    AliError(Form("No sources for EMDCALIB run %d !", fRun));
-    return 0;
+    AliError(Form("No sources for PULSER_RUN run %d !", fRun));
+    return 1;
   }
-  Log("\t List of sources for EMDCALIB");
+  Log("\t List of sources for PULSER_RUN");
   daqSources->Print();
   //
   TIter iter2(daqSources);
@@ -180,50 +197,135 @@ if (runType != "PEDESTALS") {
        TString stringEMDFileName = GetFile(kDAQ, "EMDCALIB", source->GetName());
        if(stringEMDFileName.Length() <= 0){
          Log(Form("No EMDCALIB file from source %s!", source->GetName()));
-        return 0;
+        return 1;
        }
-       const char* EMDFileName = stringEMDFileName.Data();
-       if(EMDFileName){
+       // --- Initializing pedestal calibration object
+       AliZDCCalib *eCalib = new AliZDCCalib("ZDC");
+       // --- Reading file with pedestal calibration data
+       const char* emdFileName = stringEMDFileName.Data();
+       if(emdFileName){
         FILE *file;
-        if((file = fopen(EMDFileName,"r")) == NULL){
-          printf("Cannot open file %s \n",EMDFileName);
-          return 0;
+        if((file = fopen(emdFileName,"r")) == NULL){
+          printf("Cannot open file %s \n",emdFileName);
+          return 1;
         }
-        Log(Form("File %s connected to analyze EM dissociation events", EMDFileName));
-        Float_t EMDFitVal[2];
-        for(Int_t j=0; j<2; j++){          
-          fscanf(file,"%f",&EMDFitVal[j]);
+        Log(Form("File %s connected to process data from EM dissociation events", emdFileName));
+        //
+        Float_t fitValEMD[6]; Float_t equalCoeff[5][4];
+        Float_t calibVal[4];
+        for(Int_t j=0; j<10; j++){         
+          if(j<6){
+            fscanf(file,"%f",&fitValEMD[j]);
+             if(j<4){
+              calibVal[j] = fitValEMD[j]/2.76;
+              eCalib->SetEnCalib(j,calibVal[j]);
+            }
+            else eCalib->SetEnCalib(j,fitValEMD[j]);
+          }
+          else{
+            for(Int_t k=0; k<5; k++){
+               fscanf(file,"%f",&equalCoeff[j][k]);
+               if(j==6) eCalib->SetZN1EqualCoeff(k, equalCoeff[j][k]);
+               else if(j==7) eCalib->SetZP1EqualCoeff(k, equalCoeff[j][k]);
+               else if(j==8) eCalib->SetZN2EqualCoeff(k, equalCoeff[j][k]);
+               else if(j==9) eCalib->SetZP2EqualCoeff(k, equalCoeff[j][k]);  
+             }
+          }
          }
-         calibdata->SetEnCalib(EMDFitVal);
        }
        else{
-         Log(Form("File %s not found", EMDFileName));
-         return 0;
+         Log(Form("File %s not found", emdFileName));
+         return 1;
        }
        //calibdata->Print("");
+      // 
+      AliCDBMetaData metaData;
+      metaData.SetBeamPeriod(0);
+      metaData.SetResponsible("Chiara");
+      metaData.SetComment("Filling AliZDCCalib object");  
+      //
+      resECal = Store("Calib","Calib",eCalib, &metaData, 0, 1);
   }
-}  
+}
+// ********************************************************
+// [c] PHYSICS RUNS -> Parameters needed for reconstruction
+// ********************************************************
+else if(runType == "PHYSICS"){
+  TList* daqSources = GetFileSources(kDAQ, "PHYSICS");
+  if(!daqSources){
+    AliError(Form("No sources for PHYSICS run %d !", fRun));
+    return 1;
+  }
+  Log("\t List of sources for PHYSICS");
+  daqSources->Print();
+  //
+  TIter iter2(daqSources);
+  TObjString* source = 0;
+  Int_t j=0;
+  while((source = dynamic_cast<TObjString*> (iter2.Next()))){
+       Log(Form("\n\t Getting file #%d\n",++j));
+       TString stringPHYSFileName = GetFile(kDAQ, "PHYSICS", source->GetName());
+       if(stringPHYSFileName.Length() <= 0){
+         Log(Form("No PHYSICS file from source %s!", source->GetName()));
+        return 1;
+       }
+       // --- Initializing pedestal calibration object
+       AliZDCRecParam *recCalib = new AliZDCRecParam("ZDC");
+       // --- Reading file with pedestal calibration data
+       const char* physFileName = stringPHYSFileName.Data();
+       if(physFileName){
+        FILE *file;
+        if((file = fopen(physFileName,"r")) == NULL){
+          printf("Cannot open file %s \n",physFileName);
+          return 1;
+        }
+        Log(Form("File %s connected to process data from PHYSICS runs", physFileName));
+        //
+        Float_t physRecParam[10]; 
+        for(Int_t j=0; j<10; j++) fscanf(file,"%f",&physRecParam[j]);
+        recCalib->SetZEMEndValue(physRecParam[0]);
+        recCalib->SetZEMCutFraction(physRecParam[1]);
+        recCalib->SetDZEMSup(physRecParam[2]);
+        recCalib->SetDZEMInf(physRecParam[3]);
+        recCalib->SetEZN1MaxValue(physRecParam[4]);
+        recCalib->SetEZP1MaxValue(physRecParam[5]);
+        recCalib->SetEZDC1MaxValue(physRecParam[6]);
+        recCalib->SetEZN2MaxValue(physRecParam[7]);
+        recCalib->SetEZP2MaxValue(physRecParam[8]);
+        recCalib->SetEZDC2MaxValue(physRecParam[9]);
+       }
+       else{
+         Log(Form("File %s not found", physFileName));
+         return 1;
+       }
+       //calibdata->Print("");
+      // 
+      AliCDBMetaData metaData;
+      metaData.SetBeamPeriod(0);
+      metaData.SetResponsible("Chiara");
+      metaData.SetComment("Filling AliZDCCalib object");  
+      //
+      resRecPar = Store("Calib","RecParam",recCalib, &metaData, 0, 1);
+  }
+} 
+else {
+  Log(Form("Nothing to do: run type is %s", runType.Data()));
+  return 0;
+} 
+
   // note that the parameters are returned as character strings!
   const char* nEvents = GetRunParameter("totalEvents");
   if(nEvents) Log(Form("Number of events for run %d: %s",fRun, nEvents));
   else Log(Form("Number of events not put in logbook!"));
-
-  // Storing the final CDB file
-  AliCDBMetaData metaData;
-  metaData.SetBeamPeriod(0);
-  metaData.SetResponsible("Chiara");
-  metaData.SetComment("Filling AliZDCCalibData object");
-
-  UInt_t resultCal = 0;
-  resultCal = Store("Calib","Data",calibdata, &metaData, 0, 1);
  
   UInt_t result = 0;
-  if(resultAl!=0 && resultCal!=0){
-    if(resultAl==1 && resultCal==1) result = 1;
-    else result = 2;
+  if(resultAl==kFALSE || resPedCal==kFALSE || resECal==kFALSE || resRecPar==kFALSE){
+    if(resultAl == kFALSE) result = 1;
+    else if(resPedCal == kFALSE) result = 2;
+    else if(resECal == kFALSE)   result = 3;
+    else if(resRecPar == kFALSE) result = 4;
   }
   
   return result;
   
 }
-