Adding TDC channel delays to the calib object.

[u/mrichter/AliRoot.git] / ITS / AnalyzeSDDInjectorsAllMod.C

#if !defined(__CINT__) || defined(__MAKECINT__)
#include <TH2F.h>
#include <TCanvas.h>
#include <TGraphErrors.h>
#include <TStopwatch.h>
#include <TStyle.h>
#include <TLatex.h>
#include <TFile.h>
#include <TMath.h>
#include <TNtuple.h>
#include <TGrid.h>
#include <TF1.h>
#include <TLine.h>
#include "AliRawReader.h"
#include "AliRawReaderDate.h"
#include "AliRawReaderRoot.h"
#include "AliITSOnlineSDDInjectors.h"
#include "AliITSRawStreamSDD.h"
#include "AliITSRawStreamSDDCompressed.h"
#include "AliITSDDLModuleMapSDD.h"
#endif

// Macro for the analysis of PULSER runs (equivalent to ITSSDDINJda.cxx)
// Two functions named AnalyzeSDDInjectorsAllModules: 
// The first is for analyzing a local raw data file and takes as agrument the file name.
// The second is for running on ALIEN
// All DDLs are analyzed, the argument nDDL selects the DDL to be plotted
// Origin: F. Prino (prino@to.infn.it)


void AnalyzeSDDInjectorsAllMod(Char_t *datafil, 
                               Int_t adcfreq=20, 
                               Int_t nDDL=0, 
                               Int_t firstEv=18, 
                               Int_t lastEv=30,
                               Int_t jpad=20, 
                               Int_t statuscut=7){


  const Int_t kTotDDL=24;
  const Int_t kModPerDDL=12;
  const Int_t kSides=2;
  Bool_t writtenoutput=kFALSE;

  AliITSDDLModuleMapSDD* dmap=new AliITSDDLModuleMapSDD();
  dmap->SetJun09Map();

  TNtuple* ntsp=new TNtuple("ntsp","","mod:sid:an:stat:vall:v23:v13:v12:c1:c2:c3");
  Float_t xnt[11];
  TH2F** histo = new TH2F*[kTotDDL*kModPerDDL*kSides];
  Int_t nWrittenEv[kTotDDL*kModPerDDL*kSides];
  TGraphErrors** gvel = new TGraphErrors*[kTotDDL*kModPerDDL*kSides];
  AliITSOnlineSDDInjectors **anal=new AliITSOnlineSDDInjectors*[kTotDDL*kModPerDDL*kSides];
  AliITSOnlineSDDInjectors **anal23=new AliITSOnlineSDDInjectors*[kTotDDL*kModPerDDL*kSides];
  AliITSOnlineSDDInjectors **anal13=new AliITSOnlineSDDInjectors*[kTotDDL*kModPerDDL*kSides];
  AliITSOnlineSDDInjectors **anal12=new AliITSOnlineSDDInjectors*[kTotDDL*kModPerDDL*kSides];
  TH1F** hvdriftl=new TH1F*[260];  
  TH1F** hvdriftr=new TH1F*[260];  
  Char_t hisnam[20];
  for(Int_t idet=0; idet<260;idet++){
    sprintf(hisnam,"vdriftl%03d",idet);
    hvdriftl[idet]=new TH1F(hisnam,"",500,5.5,8.0);
    sprintf(hisnam,"vdriftr%03d",idet);
    hvdriftr[idet]=new TH1F(hisnam,"",500,5.5,8.0);
  }
  for(Int_t iddl=0; iddl<kTotDDL;iddl++){
    for(Int_t imod=0; imod<kModPerDDL;imod++){
      for(Int_t isid=0;isid<kSides;isid++){
        Int_t index=kSides*(kModPerDDL*iddl+imod)+isid;
        sprintf(hisnam,"h%02dc%02ds%d",iddl,imod,isid);

        histo[index]=new TH2F(hisnam,"",256,-0.5,255.5,256,-0.5,255.5);
        anal[index]=new AliITSOnlineSDDInjectors(iddl,imod,isid);
        if(adcfreq==40) anal[index]->Set40MHzConfig();
        else anal[index]->Set20MHzConfig();

        anal23[index]=new AliITSOnlineSDDInjectors(iddl,imod,isid);
        if(adcfreq==40) anal23[index]->Set40MHzConfig();
        else anal23[index]->Set20MHzConfig();
        anal23[index]->SetUseLine(0,kFALSE);

        anal13[index]=new AliITSOnlineSDDInjectors(iddl,imod,isid);
        if(adcfreq==40) anal13[index]->Set40MHzConfig();
        else anal13[index]->Set20MHzConfig();
        anal13[index]->SetUseLine(1,kFALSE);

        anal12[index]=new AliITSOnlineSDDInjectors(iddl,imod,isid);
        if(adcfreq==40) anal12[index]->Set40MHzConfig();
        else anal12[index]->Set20MHzConfig();
        anal12[index]->SetUseLine(2,kFALSE);

        nWrittenEv[index]=0;
      }
    }
  }
  TGraphErrors *gvvsmod0=new TGraphErrors(0);
  TGraphErrors *gvvsmod1=new TGraphErrors(0);
  TGraphErrors *gtvsmod0=new TGraphErrors(0);
  TGraphErrors *gtvsmod1=new TGraphErrors(0);
  Float_t gvmin=6.0, gvmax=7.5;
  Float_t gtmin=288., gtmax=308.;
  TH1F* hanst=new TH1F("hanst","",8,-0.5,7.5);
  TH1F* hpad7l=new TH1F("hpad7l","",33,-0.5,32.5);
  TH1F* hpad7r=new TH1F("hpad7r","",33,-0.5,32.5);

  TCanvas* c0 = new TCanvas("c0","Event display",900,900);
  gStyle->SetPalette(1);
  TCanvas* c1 = new TCanvas("c1","Drift Speed vs. anode",900,900);
  Char_t text[50];
  UInt_t timeSt=0;

  Int_t iev=firstEv;
  AliRawReader *rd; 
  if(strstr(datafil,".root")!=0){
    rd=new AliRawReaderRoot(datafil,iev);
  }else{
    rd=new AliRawReaderDate(datafil,iev);
  }

  Char_t gname[15];
  TF1 *funz=new TF1("funz","[0]+[1]*x+[2]*x*x+[3]*x*x*x",0.,255.);
  TLatex *t0=new TLatex();
  t0->SetNDC();
  t0->SetTextSize(0.06);
  t0->SetTextColor(4);
  Int_t readEv=0;
  do{
    c0->Clear();
    c0->Divide(4,6,0.001,0.001);
    c1->Clear();
    c1->Divide(4,6,0.001,0.001);
    printf("Event # %d\n",iev);
    timeSt=rd->GetTimestamp();
    rd->Reset();
    for(Int_t iddl=0; iddl<kTotDDL;iddl++){
      for(Int_t imod=0; imod<kModPerDDL;imod++){
        for(Int_t isid=0;isid<kSides;isid++){
          Int_t index=kSides*(kModPerDDL*iddl+imod)+isid;
          histo[index]->Reset();
        }
      }
    }


    UChar_t cdhAttr=AliITSRawStreamSDD::ReadBlockAttributes(rd);
    UInt_t amSamplFreq=AliITSRawStreamSDD::ReadAMSamplFreqFromCDH(cdhAttr);
    AliITSRawStream* s=AliITSRawStreamSDD::CreateRawStreamSDD(rd,cdhAttr);
    if(!writtenoutput){
      printf("Use %s raw stream, sampling frequency %d MHz\n",s->ClassName(),amSamplFreq);
      writtenoutput=kTRUE;
    }
    while(s->Next()){
      Int_t iDDL=rd->GetDDLID();
      Int_t iCarlos=s->GetCarlosId();
      if(s->IsCompletedModule()) continue;
      if(s->IsCompletedDDL()) continue;
      if(iDDL>=0 && iDDL<kTotDDL){ 
        Int_t index=kSides*(kModPerDDL*iDDL+iCarlos)+s->GetChannel(); 
        histo[index]->Fill(s->GetCoord2(),s->GetCoord1(),s->GetSignal());
      }
    }
    
    for(Int_t iddl=0; iddl<kTotDDL;iddl++){
      for(Int_t imod=0; imod<kModPerDDL;imod++){
        for(Int_t isid=0;isid<kSides;isid++){
          Int_t index=kSides*(kModPerDDL*iddl+imod)+isid;
          anal[index]->AnalyzeEvent(histo[index]); 
          anal23[index]->AnalyzeEvent(histo[index]); 
          anal13[index]->AnalyzeEvent(histo[index]); 
          anal12[index]->AnalyzeEvent(histo[index]); 
          nWrittenEv[index]++;
          Int_t iMod=dmap->GetModuleNumber(iddl,imod);
          if(iMod!=-1){     
            for(Int_t ipad=0;ipad<33;ipad++){
              Int_t st=anal[index]->GetInjPadStatus(ipad);
              hanst->Fill(st);
              if(anal[index]->GetInjPadStatus(ipad)>=statuscut){
                if(isid==0) hpad7l->Fill(ipad);
                if(isid==1) hpad7r->Fill(ipad);
              }
              xnt[0]=(Float_t)iMod;
              xnt[1]=(Float_t)isid;
              xnt[2]=(Float_t)ipad;
              xnt[3]=(Float_t)st;
              xnt[4]=anal[index]->GetDriftSpeed(ipad);
              xnt[5]=anal23[index]->GetDriftSpeed(ipad);
              xnt[6]=anal13[index]->GetDriftSpeed(ipad);
              xnt[7]=anal12[index]->GetDriftSpeed(ipad);
              xnt[8]=anal[index]->GetCentroid(ipad,0);
              xnt[9]=anal[index]->GetCentroid(ipad,1);
              xnt[10]=anal[index]->GetCentroid(ipad,2);
              ntsp->Fill(xnt);
            }
            if(anal[index]->GetInjPadStatus(jpad)>=statuscut){
              Float_t vel=anal[index]->GetDriftSpeed(jpad);
              if(isid==0) hvdriftl[iMod-240]->Fill(vel);
              if(isid==1) hvdriftr[iMod-240]->Fill(vel);
            }
          }
          if(iddl==nDDL){
            Int_t index2=kSides*imod+isid;
            c0->cd(index2+1);
            histo[index]->SetMaximum(100.);
            histo[index]->DrawCopy("colz");
            sprintf(text,"DDL %d channel %d Side %d",nDDL,imod,isid);
            t0->DrawLatex(0.15,0.92,text);
            c0->Update();
            c1->cd(index2+1);
            gvel[index]=anal[index]->GetDriftSpeedGraph();
            gvel[index]->SetMarkerStyle(20);
            gvel[index]->SetTitle("");
            sprintf(gname,"gvel%dev%d",index,iev);
            gvel[index]->SetName(gname);
            //      gvel[index]->SetMinimum(0);
            //gvel[index]->SetMaximum(200);

            gvel[index]->GetXaxis()->SetLimits(0,256);
            gvel[index]->GetXaxis()->SetTitle("Anode");
            gvel[index]->GetYaxis()->SetTitle("Drift vel.");
            gvel[index]->GetXaxis()->SetTitleSize(0.07);
            gvel[index]->GetYaxis()->SetTitleSize(0.07);
            gvel[index]->GetXaxis()->SetTitleOffset(0.6);
            gvel[index]->GetYaxis()->SetTitleOffset(0.6);
            if(gvel[index]->GetN()>0) gvel[index]->Draw("AP");
            Double_t *param=anal[index]->GetDriftSpeedFitParam();
            funz->SetParameters(param[0],param[1],param[2],param[3]);
            funz->SetLineColor(2);
            funz->DrawCopy("LSAME");
            t0->DrawLatex(0.15,0.92,text);
            c1->Update();
          }
        }
      }
    }
    delete s;
    iev++;
    readEv++;
    printf(" --- OK\n");
  }while(rd->NextEvent()&&iev<=lastEv);
  printf("Total number of events = %d\n",readEv);
  Float_t nfac=1./(Float_t)readEv/33./520.;
  hanst->Scale(nfac);
  nfac=1./(Float_t)readEv;
  hpad7l->Scale(nfac);
  hpad7r->Scale(nfac);

  TFile *outfil1=new TFile("DriftSpeedVsAnode.root","recreate");  
  for(Int_t iddl=0; iddl<kTotDDL;iddl++){
    for(Int_t imod=0; imod<kModPerDDL;imod++){
      for(Int_t isid=0;isid<kSides;isid++){
        Int_t index=kSides*(kModPerDDL*iddl+imod)+isid;
        anal[index]->FitMeanDriftSpeedVsAnode();
        anal[index]->WriteToASCII(0,timeSt,0);
        anal[index]->WriteInjectorStatusToASCII();
        anal[index]->WriteToROOT(outfil1);
      }
    }
  }
  outfil1->Close();

  Int_t ipt0=0, ipt1=0;
  Float_t Edrift=(1800-45)/291/0.012;  
  TFile *outfil=new TFile("DriftSpeedHistos.root","recreate");
  ntsp->Write();
  for(Int_t iMod=0; iMod<260; iMod++){
    outfil->cd();
    hvdriftl[iMod]->Write();    
    hvdriftr[iMod]->Write();
    Float_t modid=iMod+240;
    if(hvdriftl[iMod]->GetEntries()>0){
      Float_t avevell=hvdriftl[iMod]->GetMean();
      Float_t rmsvell=hvdriftl[iMod]->GetRMS();
      if(avevell > 5.5 && avevell < 8.5){
        gvvsmod0->SetPoint(ipt0,modid,avevell);
        gvvsmod0->SetPointError(ipt0,0,rmsvell);
        Float_t mob=avevell*1.E5/Edrift;  
        Float_t temper=293.15*TMath::Power((mob/1350.),-1/2.4); 
        gtvsmod0->SetPoint(ipt0,modid,temper);
        ++ipt0;
      }
    }
    if(hvdriftr[iMod]->GetEntries()>0){
      Float_t avevelr=hvdriftr[iMod]->GetMean();
      Float_t rmsvelr=hvdriftr[iMod]->GetRMS();
      if(avevelr > 5.5 && avevelr < 8.5){
        gvvsmod1->SetPoint(ipt1,modid,avevelr);
        gvvsmod1->SetPointError(ipt1,0,rmsvelr);
        Float_t mob=avevelr*1.E5/Edrift;
        Float_t temper=293.15*TMath::Power((mob/1350.),-1./2.4); 
        gtvsmod1->SetPoint(ipt1,modid,temper);
        ++ipt1;
      }
    }
  }
  gvvsmod0->SetName("gvvsmod0");
  gvvsmod1->SetName("gvvsmod1");
  gtvsmod0->SetName("gtvsmod0");
  gtvsmod1->SetName("gtvsmod1");
  outfil->cd();
  gvvsmod0->Write();
  gvvsmod1->Write();
  gtvsmod0->Write();
  gtvsmod1->Write();
  outfil->Close();

  TCanvas* c8=new TCanvas("c8","Drift Speed vs. mod");
  gvvsmod0->SetTitle("");
  gvvsmod1->SetTitle("");
  gvvsmod0->SetMarkerStyle(20);
  gvvsmod1->SetMarkerStyle(21);
  gvvsmod1->SetMarkerColor(2);
  gvvsmod0->Draw("AP");
  gvvsmod0->SetMinimum(gvmin);
  gvvsmod0->SetMaximum(gvmax);
  gvvsmod0->GetXaxis()->SetTitle("Module Number");
  Char_t title[50];
  sprintf(title,"Vdrift at injector pad %d",jpad);
  gvvsmod0->GetYaxis()->SetTitle(title);  
  gvvsmod1->Draw("PSAME");
  TLatex* tleft=new TLatex(0.7,0.82,"Side 0");
  tleft->SetNDC();
  tleft->SetTextColor(1);
  tleft->Draw();
  TLatex* tright=new TLatex(0.7,0.75,"Side 1");
  tright->SetNDC();
  tright->SetTextColor(2);
  tright->Draw();

  TLine *lin=new TLine(323,gvmin,323,gvmax);
  lin->SetLineColor(4);
  lin->Draw();
  c8->Update();
  c8->SaveAs("VdriftVsMod.gif");

  TCanvas* c8t=new TCanvas("c8t","Temeprature vs. mod");
  gtvsmod0->SetTitle("");
  gtvsmod1->SetTitle("");
  gtvsmod0->SetMarkerStyle(20);
  gtvsmod1->SetMarkerStyle(21);
  gtvsmod1->SetMarkerColor(2);
  gtvsmod0->Draw("AP");
  gtvsmod0->SetMinimum(gtmin);
  gtvsmod0->SetMaximum(gtmax);
  gtvsmod0->GetXaxis()->SetTitle("Module Number");
  sprintf(title,"Estimated Temperature (K)");
  gtvsmod0->GetYaxis()->SetTitle(title);  
  gtvsmod1->Draw("PSAME");
  tleft->Draw();
  tright->Draw();
  TLine *lint=new TLine(323,gtmin,323,gtmax);
  lint->SetLineColor(4);
  lint->Draw();
  c8t->Update();
  c8t->SaveAs("TempVsMod.gif");

  TCanvas* c9=new TCanvas("c9","Injector status");
  hanst->SetStats(0);
  hanst->Draw();
  hanst->GetXaxis()->SetTitle("Injector pad status");
  hanst->GetXaxis()->CenterTitle();
  c9->SaveAs("InjStatus.gif");

//   TCanvas* c10=new TCanvas("c10","Pad status 7",1200,600);
//   hpad7l->SetStats(0);
//   hpad7r->SetStats(0);
//   c10->Divide(2,1);
//   c10->cd(1);
//   hpad7l->Draw(); 
//   hpad7l->GetXaxis()->SetTitle("Side Left -- Pad number");
//   hpad7l->GetXaxis()->CenterTitle();
//   hpad7l->GetYaxis()->SetTitle("Number of status 7");
//   c10->cd(2);
//   hpad7r->Draw();
//   hpad7r->GetXaxis()->SetTitle("Side Right -- Pad number");
//   hpad7r->GetXaxis()->CenterTitle();
//   hpad7r->GetYaxis()->SetTitle("Number of status 7");
//   printf("Side 0, maximum pad=%d\n",hpad7l->GetMaximumBin());
//   printf("Side 1, maximum pad=%d\n",hpad7r->GetMaximumBin());
  

}

void AnalyzeSDDInjectorsAllMod(Int_t nrun, Int_t n2, Int_t year=2009, Char_t* dir="LHC09b_SDD",
                               Int_t adcfreq=20, 
                               Int_t nDDL=0, 
                               Int_t firstEv=18, 
                               Int_t lastEv=20,
                               Int_t jpad=20, 
                               Int_t statuscut=7){

  TGrid::Connect("alien:",0,0,"t");
  Char_t filnam[200];
  sprintf(filnam,"alien:///alice/data/%d/%s/%09d/raw/%02d%09d%03d.10.root",year,dir,nrun,year-2000,nrun,n2);
  printf("Open file %s\n",filnam);
  AnalyzeSDDInjectorsAllMod(filnam,adcfreq,nDDL,firstEv,lastEv,jpad,statuscut);
}