SOLARIS_Analysis/armory/Monitor_Util.C

#ifndef Utilities
#define Utilities

#include <TMath.h>
#include <TCanvas.h>
#include "../working/Mapping.h"

//This file runs after on Monitor.C
//This file is parasite on Monitor.C

int canvasSize[2] = {2000, 1200};

void listDraws(void) {
  printf("------------------- List of Plots -------------------\n");
  printf("  newCanvas() - Create a new Canvas\n");
  printf("-----------------------------------------------------\n");
  printf("      rawID() - Raw \033[0;31me\033[0m, \033[0;31mring\033[0m, \033[0;31mxf\033[0m, \033[0;31mxn\033[0m vs detID\n");
  printf("       rawe() - Raw \033[0;31me\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("      rawxf() - Raw \033[0;31mxf\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("      rawxn() - Raw \033[0;31mxn\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("      xfVxn() - Raw \033[0;31mxf\033[0m vs. \033[0;31mxn\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("       eVxs() - Raw \033[0;31me\033[0m vs. Raw \033[0;31mxs = xf + xn\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("        eVx() - Raw \033[0;31me\033[0m vs. RAW \033[0;31mx\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("-----------------------------------------------------\n");
  printf("    eVxsCal() - Raw \033[0;31me\033[0m vs. Corrected \033[0;31mxs\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("       ecal() - Calibrated \033[0;31me\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("      ecal2() - Calibrated \033[0;31me\033[0m for all %d detectors (same row or same col)\n", mapping::NARRAY);
  printf("xfCalVxnCal() - Calibrated \033[0;31mxf\033[0m vs. \033[0;31mxn\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("-----------------------------------------------------\n");
  printf("  eCalVxCal() - Cal \033[0;31me\033[0m vs. \033[0;31mx\033[0m for all %d detectors\n", mapping::NARRAY);
  printf("-----------------------------------------------------\n");
  printf("    recoils() - Raw DE vs. E Recoil spectra\n");
//  printf("       elum() - Luminosity Energy Spectra\n");
//  printf("         ic() - Ionization Chamber Spectra\n");
  printf("-----------------------------------------------------\n");
  printf("     eCalVz() - Energy vs. Z\n");
  printf("  eCalVzRow() - Energy vs. Z for each row\n");
  printf("     excite() - Excitation Energy\n");
  printf("  ExThetaCM() - Ex vs ThetaCM\n");
  printf("    ExVxCal() - Ex vs X for all %d detectors\n", mapping::NARRAY);
  //printf("    eSVeRaw() - e(Ex,z) vs eRaw for all %d detectors\n", mapping::NARRAY);
  printf("-----------------------------------------------------\n");
  printf("   ShowFitMethod() - Shows various fitting methods \n");
  printf("   RDTCutCreator() - Create RDT Cuts [May need to edit]\n");
  printf("   Check_rdtGate() - Check RDT Cuts.  \n");
  printf("       readTrace() - read trace from gen_runXXX.root \n");
  printf("    readRawTrace() - read trace from runXXX.root \n");
//  printf("         Check1D() - Count Integral within a range\n");
  printf("-----------------------------------------------------\n");
  printf("   %s\n", canvasTitle.Data());
  printf("-----------------------------------------------------\n");
}


int xD, yD;
void FindBesCanvasDivision(int nPad){
  for( int i = TMath::Sqrt(nPad); i >= 2 ; i--){
    if( nPad % i == 0 ) {
      yD = i;
      xD = nPad/i;      
      break;
    }
  }
}

int nCanvas=0;
void newCanvas(int sizeX = 800, int sizeY = 600, int posX = 0, int posY = 0){
  TString name; name.Form("cNewCanvas%d | %s", nCanvas, canvasTitle.Data());
  TCanvas * cNewCanvas = new TCanvas(name, name, posX, posY, sizeX, sizeY);
  nCanvas++;
  cNewCanvas->cd();
}


//TODO set histogram y-axis all the same heigh


void rawID(){
  TCanvas * cRawID = (TCanvas *) gROOT->FindObjectAny("cRawID");
  if( cRawID == NULL ) cRawID = new TCanvas("cRawID", Form("Raw e, Ring, xf, xn vs ID | %s", canvasTitle.Data()), canvasSize[0], canvasSize[1]);
  cRawID->Clear();cRawID->Divide(2,2);
  cRawID->cd(1);  cRawID->cd(1)->SetGrid(); heVID->Draw("colz");
  cRawID->cd(2);  cRawID->cd(2)->SetGrid(); hMultiHit->Draw();
  cRawID->cd(3);  cRawID->cd(3)->SetGrid(); hxfVID->Draw("colz");
  cRawID->cd(4);  cRawID->cd(4)->SetGrid(); hxnVID->Draw("colz");
}

void rawe(Bool_t isLogy = false) {
  TCanvas *cRawE = (TCanvas *) gROOT->FindObjectAny("cRawE");
  if( cRawE == NULL ) cRawE = new TCanvas("cRawE",Form("E raw | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cRawE->Clear();cRawE->Divide(numCol,numRow);
  for (Int_t i=0; i < mapping::NARRAY; i++) {
    cRawE->cd(i+1); 
    cRawE->cd(i+1)->SetGrid();
    if( isLogy ) cRawE->cd(i+1)->SetLogy();
    he[i]->Draw("");
  }
}

void rawxf(Bool_t isLogy = false) {
  TCanvas *cRawXf = (TCanvas *) gROOT->FindObjectAny("cRawXf");
  if( cRawXf == NULL ) cRawXf = new TCanvas("cRawXf",Form("Xf raw | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cRawXf->Clear();cRawXf->Divide(numCol,numRow);
  for (Int_t i=0; i<mapping::NARRAY; i++) {
    cRawXf->cd(i+1); 
    cRawXf->cd(i+1)->SetGrid();
    if( isLogy ) cRawXf->cd(i+1)->SetLogy();
    hxf[i]->Draw("");
  }
}

void rawxn(Bool_t isLogy = false) {
  TCanvas *cRawXn = (TCanvas *) gROOT->FindObjectAny("cRawXn");
  if( cRawXn == NULL ) cRawXn = new TCanvas("cRawXn",Form("Xn raw | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cRawXn->Clear();cRawXn->Divide(numCol,numRow);
  for (Int_t i=0; i<mapping::NARRAY; i++) {
    cRawXn->cd(i+1); 
    cRawXn->cd(i+1)->SetGrid();
    if( isLogy ) cRawXn->cd(i+1)->SetLogy();
    hxn[i]->Draw("");
  }
}

void xfVxn(void) {
  TCanvas *cxfxn = (TCanvas *) gROOT->FindObjectAny("cxfxn");
  if( cxfxn == NULL ) cxfxn = new TCanvas("cxfxn",Form("XF vs. XN | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cxfxn->Clear(); cxfxn->Divide(numCol,numRow);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    cxfxn->cd(i+1); 
    cxfxn->cd(i+1)->SetGrid(); 
    hxfVxn[i]->Draw("col");
  }
}

void eVxs(void) {
  TCanvas *cxfxne = (TCanvas *) gROOT->FindObjectAny("cxfxne");
  if( cxfxne == NULL ) cxfxne = new TCanvas("cxfxne",Form("E - XF+XN | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cxfxne->Clear(); cxfxne->Divide(numCol,numRow);
  TLine line(0,0, 4000, 4000); line.SetLineColor(2);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    cxfxne->cd(i+1); 
    cxfxne->cd(i+1)->SetGrid(); 
    heVxs[i]->Draw("col");
    line.Draw("same");
  }
}

void ecal(void) {
  TCanvas *cEC = (TCanvas *) gROOT->FindObjectAny("cEC");
  if(cEC == NULL) cEC = new TCanvas("cEC",Form("E corrected | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cEC->Clear();cEC->Divide(numCol,numRow);
  for (Int_t i=0; i<mapping::NARRAY; i++) {
    cEC->cd(i+1); 
    cEC->cd(i+1)->SetGrid();
    heCal[i]->Draw("");
  }
  
  TCanvas *cEC2 = (TCanvas *) gROOT->FindObjectAny("cEC2");
  if(cEC2 == NULL) cEC2 = new TCanvas("cEC2",Form("E corrected | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cEC2->Clear();
  heCalID->Draw("colz");
}

void ecal2(void) {
  TCanvas *cECall = (TCanvas *) gROOT->FindObjectAny("cECall");
  if(cECall == NULL) cECall = new TCanvas("cECall",Form("E corrected | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  
  int maxRC = TMath::Max(numRow, numCol);
  cECall->Clear();cECall->Divide(maxRC,2);
  //plot same position
  for(int i = 0; i < numCol ; i++){
     cECall->cd(i+1);
     cECall->cd(i+1)->SetGrid();
     heCal[i]->SetLineColor(1); heCal[i]->Draw("");
     for(int j = 1 ; j < numRow; j++){
        heCal[numCol*j + i]->SetLineColor(j+1); 
        heCal[numCol*j + i]->Draw("same"); 
     }
  }
  //plot same side
  TH1F * heC2[mapping::NARRAY];
  for (Int_t i = 0; i< numRow; i++) {
     cECall->cd(i+maxRC+1);
     cECall->cd(i+maxRC+1)->SetGrid();
     heC2[numCol*i] = (TH1F* )heCal[numCol*i]->Clone();
     heC2[numCol*i]->SetLineColor(1); heC2[numCol*i]->Draw("");
     for( int j = 1; j < numCol; j++){
         heC2[numCol*i+j] = (TH1F* )heCal[numCol*i+j]->Clone();
         heC2[numCol*i+j]->SetLineColor(j+1);
         heC2[numCol*i+j]->Draw("same");
     }
  }
}


void xfCalVxnCal(void) {
  TCanvas *cxfxnC = (TCanvas *) gROOT->FindObjectAny("cxfxnC");
  if(cxfxnC == NULL) cxfxnC = new TCanvas("cxfxnC",Form("XF vs XN corrected | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cxfxnC->Clear(); cxfxnC->Divide(numCol,numRow);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    cxfxnC->cd(i+1); 
    cxfxnC->cd(i+1)->SetGrid(); 
    hxfCalVxnCal[i]->Draw("col");
  }
}

void eVxsCal(void) {
  TCanvas *cxfxneC = (TCanvas *) gROOT->FindObjectAny("cxfxneC");
  if(cxfxneC == NULL)cxfxneC = new TCanvas("cxfxneC",Form("Raw E - Corrected XF+XN | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cxfxneC->Clear(); cxfxneC->Divide(numCol,numRow);
  TLine line(0,0, 4000, 4000); line.SetLineColor(2);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    cxfxneC->cd(i+1); 
    cxfxneC->cd(i+1)->SetGrid(); 
    heVxsCal[i]->Draw("col");
    line.Draw("same");
  }
}

void eVx(void) {
  TCanvas *ceVx = (TCanvas *) gROOT->FindObjectAny("ceVx");
  if(ceVx == NULL) ceVx = new TCanvas("ceVx",Form("E vs. X = (xf-xn)/e | %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  ceVx->Clear(); ceVx->Divide(numCol,numRow);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    ceVx->cd(i+1); heVx[i]->Draw("col");
  }
}

void eCalVxCal(void) {
  TCanvas *cecalVxcal =  (TCanvas *) gROOT->FindObjectAny("cecalVxcal");
  if( cecalVxcal == NULL ) cecalVxcal = new TCanvas("cecalVxcal",Form("ECALVXCAL | %s",canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cecalVxcal->Clear(); cecalVxcal->Divide(numCol,numRow);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    cecalVxcal->cd(i+1); 
    heCalVxCal[i]->SetMarkerStyle(7);
    heCalVxCal[i]->Draw("");
  } 
}

void eCalVxCalG(void) {
  TCanvas *cecalVxcalG =  (TCanvas *) gROOT->FindObjectAny("cecalVxcalG");
  if( cecalVxcalG == NULL ) cecalVxcalG = new TCanvas("cecalVxcalG",Form("ECALVXCAL | %s",canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  cecalVxcalG->Clear(); cecalVxcalG->Divide(numCol,numRow);
  for (Int_t i=0;i<mapping::NARRAY;i++) {
    cecalVxcalG->cd(i+1); 
    heCalVxCalG[i]->SetMarkerStyle(7);
    heCalVxCalG[i]->Draw("");
  } 
}

// void elum(void) {
//   TCanvas *celum = (TCanvas *) gROOT->FindObjectAny("celum");
//   if( celum == NULL )  celum = new TCanvas("celum",Form("ELUM | %s", canvasTitle.Data()),1000,1000);
//   celum->Clear(); celum->Divide(4,4);
//   for( int i = 0 ; i < 16 ; i++){
//     celum->cd(i+1);
//     helum[i]->Draw("");
//   }
  
//   TCanvas *celumID = (TCanvas *) gROOT->FindObjectAny("celumID");
//   if( celumID == NULL )  celumID = new TCanvas("celumID",Form("ELUM-ID | %s", canvasTitle.Data()),1100, 0, 500,500);
//   celumID->Clear();
//   helumID->Draw("colz");
  
// }

// void apollo(void) {
//   TCanvas *capollo = (TCanvas *) gROOT->FindObjectAny("capollo");
//   if( capollo == NULL )  capollo = new TCanvas("capollo",Form("APOLLO | %s", canvasTitle.Data()),1000,1000);
//   capollo->Clear(); capollo->Divide(5,4);
//   for( int i = 0 ; i < 20 ; i++){
//     capollo->cd(i+1);
//     hApollo[i]->Draw("");
//   }
// }
  
  
void recoils(bool isLogz = false) {
  TCanvas *crdt =  (TCanvas *) gROOT->FindObjectAny("crdt");
  if( crdt == NULL ) crdt = new TCanvas("crdt",Form("raw RDT | %s", canvasTitle.Data()),1700, 0, 1000,1000);
  crdt->Clear();crdt->Divide(2,2);

  if( isLogz ) crdt->cd(1)->SetLogz(); crdt->cd(1); hrdt2D[0]->Draw("col");  
  if( isLogz ) crdt->cd(2)->SetLogz(); crdt->cd(2); hrdt2D[1]->Draw("col");  
  if( isLogz ) crdt->cd(3)->SetLogz(); crdt->cd(3); hrdt2D[3]->Draw("col");  
  if( isLogz ) crdt->cd(4)->SetLogz(); crdt->cd(4); hrdt2D[2]->Draw("col");  


  //TCanvas *crdtSum =  (TCanvas *) gROOT->FindObjectAny("crdtSum");
  //if( crdtSum == NULL ) crdtSum = new TCanvas("crdtSum",Form("raw RDT dE-Esum | %s", canvasTitle.Data()),100, 0, 1000,1000);
  //crdtSum->Clear();crdtSum->Divide(2,2);
  //
  //if( isLogz ) crdtSum->cd(1)->SetLogz(); crdtSum->cd(1); hrdt2Dsum[0]->Draw("col");  
  //if( isLogz ) crdtSum->cd(2)->SetLogz(); crdtSum->cd(2); hrdt2Dsum[1]->Draw("col");  
  //if( isLogz ) crdtSum->cd(3)->SetLogz(); crdtSum->cd(3); hrdt2Dsum[3]->Draw("col");  
  //if( isLogz ) crdtSum->cd(4)->SetLogz(); crdtSum->cd(4); hrdt2Dsum[2]->Draw("col");    
  
  TCanvas *crdtID =  (TCanvas *) gROOT->FindObjectAny("crdtID");
  if( crdtID == NULL ) crdtID = new TCanvas("crdtID",Form("raw RDT ID | %s", canvasTitle.Data()),0,0, 500, 500);
  crdtID->Clear();
  if( isLogz ) crdtID->SetLogz(); 
  hrdtID->Draw("colz");
  
  TCanvas *crdtS =  (TCanvas *) gROOT->FindObjectAny("crdtS");
  if( crdtS == NULL ) crdtS = new TCanvas("crdtS",Form("raw RDT | %s", canvasTitle.Data()),600, 0, 1000, 1000);
  crdtS->Clear(); crdtS->Divide(2,4);
  for( int i = 0; i < 8; i ++){
    crdtS->cd(i+1);
    if( isLogz ) crdtS->cd(i+1)->SetLogy(); 
    hrdt[i]->Draw("");
  }

  //TCanvas *crdtTAC =  (TCanvas *) gROOT->FindObjectAny("crdtTAC");
  //if( crdtTAC == NULL ) crdtTAC = new TCanvas("crdtTAC",Form("raw RDTtac | %s", canvasTitle.Data()),0,0, 1600, 1600);
  //crdtTAC->Clear(); crdtTAC->Divide(2,4);
  //for( int i = 0; i < 8; i ++){
  //  crdtTAC->cd(i+1);
  //  htacRecoil[i]->Draw("colz");
  //}
  //for( int i = 0; i < 4; i ++){
  //  crdtTAC->cd(i+1+8);
  //  htacRecoilsum[i]->Draw("colz");
  //}
  
}

void eCalVz(void) {
  TCanvas *cecalVz =  (TCanvas *) gROOT->FindObjectAny("cecalVz");
  if( cecalVz == NULL ) cecalVz = new TCanvas("cevalVz",Form("ECALVZ : %s", canvasTitle.Data()),1000,650);
  cecalVz->Clear(); cecalVz->Divide(2,1);
  gStyle->SetOptStat("neiou");
  cecalVz->cd(1);heCalVz->Draw("col");
  cecalVz->cd(2);heCalVzGC->Draw("col");
}

void eCalVzRow() {
  TCanvas *cecalVzRow =  (TCanvas *) gROOT->FindObjectAny("cecalVzRow");
  if( cecalVzRow == NULL ) cecalVzRow = new TCanvas("cevalVzRow",Form("eCal - Z : %s", canvasTitle.Data()),canvasSize[0], canvasSize[1]);
  FindBesCanvasDivision(numRow);
  cecalVzRow->Clear(); cecalVzRow->Divide(xD,yD);
  gStyle->SetOptStat("neiou");
  
  for(int row = 0; row < numRow; row ++){
     cecalVzRow->cd(row+1);
     cecalVzRow->cd(row+1)->SetGrid();
     hecalVzRow[row]->Draw("colz");
  }
  
}

void excite(void) {
  TCanvas *cex =  (TCanvas *) gROOT->FindObjectAny("cex");
  if( cex == NULL ) cex = new TCanvas("cex",Form("EX : %s", canvasTitle.Data()),0, 0, 1000,650);
  cex->Clear();
  gStyle->SetOptStat("neiou");
  hEx->Draw("");
  
  
  TCanvas *cexI =  (TCanvas *) gROOT->FindObjectAny("cexI");
  if( cexI == NULL ) cexI = new TCanvas("cexI",Form("EX : %s", canvasTitle.Data()),500, 0, 1600,1000);
  cexI->Clear();cexI->Divide(numCol,numRow);
  gStyle->SetOptStat("neiou");
  for( int i = 0; i < mapping::NARRAY; i++){
    cexI->cd(i+1); 
    hExi[i]->Draw("");
  }
  
}


void ExThetaCM(void) {
  TCanvas *cExThetaCM =  (TCanvas *) gROOT->FindObjectAny("cExThetaCM");
  if( cExThetaCM == NULL ) cExThetaCM = new TCanvas("cExThetaCM",Form("EX - ThetaCM | %s", canvasTitle.Data()),650,650);
  cExThetaCM->Clear();
  gStyle->SetOptStat("neiou");
  hExThetaCM->Draw("colz");
}

void ExVxCal(TString drawOpt = "") {
  TCanvas *cExVxCal =  (TCanvas *) gROOT->FindObjectAny("cExVxCal");
  if( cExVxCal == NULL ) cExVxCal = new TCanvas("cExVxCal",Form("EX | %s", canvasTitle.Data()),1600,1000);
  cExVxCal->Clear();
  gStyle->SetOptStat("neiou");
  
  cExVxCal->Divide(numCol,numRow);
  for( int i = 0; i < mapping::NARRAY; i++){
    cExVxCal->cd(i+1); 
    if( drawOpt == "" )hExVxCal[i]->SetMarkerStyle(7);
    hExVxCal[i]->Draw(drawOpt);
  }
  
}


//void eSVeRaw(void) {
//  TCanvas *ceSVeRaw =  (TCanvas *) gROOT->FindObjectAny("ceSVeRaw");
//  if( ceSVeRaw == NULL ) ceSVeRaw = new TCanvas("ceSVeRaw",Form("e(Ex,z) vs eRaw | %s", canvasTitle.Data()),1000,650);
//  ceSVeRaw->Clear();
//  gStyle->SetOptStat("neiou");
//  
//  ceSVeRaw->Divide(numCol,numRow);
//  for( int i = 0; i < mapping::NARRAY; i++){
//    ceSVeRaw->cd(i+1); 
//    heSVeRaw[i]->SetMarkerStyle(7);
//    heSVeRaw[i]->Draw("");
//  }
//  
//}

// void tac(void) {
//   TCanvas *ctac =  (TCanvas *) gROOT->FindObjectAny("ctac");
//   if( ctac == NULL ) ctac = new TCanvas("ctac",Form("ARRAY-RDT | %s", canvasTitle.Data() ),1000,650);
//   ctac->Clear();ctac->SetGrid(0);ctac->Divide(numCol,numRow);
//   gStyle->SetOptStat("neiou");
//   for (Int_t i=0;i<mapping::NARRAY;i++) {
//     ctac->cd(i+1); htacArray[i]->Draw("");
//     //   cutG = (TCutG *)cutList->At(i);
//     //   cutG->Draw("same");
//   }
// }


// void ic(){
  
//   TCanvas *cic =  (TCanvas *) gROOT->FindObjectAny("cic");
//   if( cic == NULL ) cic = new TCanvas("cic",Form("Ionization Chamber | %s", canvasTitle.Data() ),1200,800);
  
//   cic->Clear(); cic->SetGrid(0); cic->Divide(3,2);
//   gStyle->SetOptStat("neiou");
  
//   cic->cd(1); hic0->Draw();
//   cic->cd(2); hic1->Draw();
//   cic->cd(3); hic2->Draw();
//   cic->cd(4); hic01->Draw("colz");
//   cic->cd(5); hic02->Draw("colz");
//   cic->cd(6); hic12->Draw("colz");
  
// }



// void Count1DH(TString name, TH1F * hist, TCanvas * canvas, int padID,  double x1, double x2, Color_t color){
   
//    int k1 = hist->FindBin(x1);
//    int k2 = hist->FindBin(x2);

//    int hight = 0 ;
//    for( int i = k1; i < k2 ; i ++){
//     int temp = hist->GetBinContent(i);
//     if( temp > hight ) hight = temp;
//    }
//    hight = hight * 1.2;
//    int max = hist->GetMaximum();
   
//    canvas->cd(padID);
   
//    if( color != 0 ){ 
//      TBox box;
//      box.SetFillColorAlpha(color, 0.1);
//      box.DrawBox(x1, 0, x2, hight);
//    }

//    int count = hist->Integral(k1, k2);

//    TLatex text;
//    text.SetTextFont(82);
//    text.SetTextSize(0.06);
//    if( color != 0 ){
//      text.SetTextColor(color);
//      text.DrawLatex(x1, hight, Form("%d", count));
//    }else{
//      text.DrawLatex((x1+x2)/2., max, Form("%d", count));
//    }

//    printf(" %s  : %d \n", name.Data(),  count);
   
// }



#endif