source: trunk/MagicSoft/Mars/manalysis/MMcTriggerLvl2.cc@ 2304

/* ======================================================================== *\
!
! *
! * This file is part of MARS, the MAGIC Analysis and Reconstruction
! * Software. It is distributed to you in the hope that it can be a useful
! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
! * It is distributed WITHOUT ANY WARRANTY.
! *
! * Permission to use, copy, modify and distribute this software and its
! * documentation for any purpose is hereby granted without fee,
! * provided that the above copyright notice appear in all copies and
! * that both that copyright notice and this permission notice appear
! * in supporting documentation. It is provided "as is" without express
! * or implied warranty.
! *
!
!
!   Author(s): Antonio Stamerra  1/2003 <mailto:antono.stamerra@pi.infn.it>
!   Author(s): Marcos Lopez 1/2003 <mailto:marcos@gae.ucm.es>
!
!   Copyright: MAGIC Software Development, 2000-2003
!
!
\* ======================================================================== */


/////////////////////////////////////////////////////////////////////////////
//                                                                         //
// MMcTriggerLvl2                                                          //
//   Storage container for the 2nd level trigger selection parameters      //
//    as part of the 2nd level trigger simulation                          //
//                                                                         //
// input parameter:                                                        //
//    fCompactNN number of next neighboors that define a compact pixel     //
//                                                                         //
//                                                                         //
// Basic L2T Selection Parameters:                                         //
//                                                                         //
//    fLutPseudoSize number of compact pixels in one LUT                   //
//    fPseudoSize Multiplicity of the bigger cluster                       //
//    fSizeBiggerCell higher number of fired pixel in cell                 //
//                                                                         //
/////////////////////////////////////////////////////////////////////////////

#include "MMcTriggerLvl2.h"

#include "MGeomCam.h"
#include "MGeomPix.h"
#include "MGeomCamMagic.h"
#include "MHCamera.h"

#include "MMcTrig.hxx"

#include "MLog.h"

#include <TCanvas.h>

ClassImp(MMcTriggerLvl2);

using namespace std;

// ---------------------------
// Initialization of static const data members pixel_in_cell and pixel_in_lut

//
// Correspondence TABLE between pixel numbering in the trigger cells and
// the standard spiral counting 
// (Note: Pixels start to count from 1 instead of 0)
//
const  Int_t  MMcTriggerLvl2::gsPixelsInCell[36][19] = {
    {26,  91,  66,  71,  76,  81,  86,  269,  224,  233,  242,  251,  260,  391,  336,  347,  358,      369,  380},
    {25,  61,  41,  45,  49,  53,  57,  215,  175,  183,  191,  199,  207,  325,  275,  285,  295,  305,  315},
    {24,  37,  22,  25,  28,  31,  34,  167,  132,  139,  146,  153,  160,  265,  220,  229,  238,  247,  256},
    {23,  19,   9,  11,  13,  15,  17,  125,   95,  101,  107,  113,  119,  211,  171,  179,  187,  195,  203},
    {27,  62,  67,  72,  77,  82,  87,  270,  225,  234,  243,  252,  261,  392,  337,  348,  359,  370,  381},
    {12,  38,  42,  46,  50,  54,  58,  216,  176,  184,  192,  200,  208,  326,  276,  286,  296,  306,  316},
    {11,  20,  23,  26,  29,  32,  35,  168,  133,  140,  147,  154,  161,  266,  221,  230,  239,  248,  257},
    {10,   8,  10,  12,  14,  16,  18,  126,   96,  102,  108,  114,  120,  212,  172,  180,  188,  196,  204},
    {22,   2,   3,   4,   5,   6,   7,   90,   65,   70,   75,   80,   85,  164,  129,  136,  143,  150,  157},
    {28,  93,  99, 105, 111, 117, 123,  271,  226,  235,  244,  253,  262,  393,  338,  349,  360,  371,  382},
    {13,  63,  68,  73,  78,  83,  88,  217,  177,  185,  193,  201,  209,  327,  277,  287,  297,  307,  317},
    { 4,  39,  43,  47,  51,  55,  59,  169,  134,  141,  148,  155,  162,  267,  222,  231,  240,  249,  258},
    { 3,  21,  24,  27,  30,  33,  36,  127,   97,  103,  109,  115,  121,  213,  173,  181,  189,  197,  205},
    { 9,   9,  11,  13,  15,  17,  19,   91,   66,   71,   76,   81,   86,  165,  130,  137,  144,  151,  158},
    {21,   3,   4,   5,   6,   7,   2,   61,   41,   45,   49,   53,   57,  123,   93,   99,  105,  111,  117},
    {29, 130, 137, 144, 151, 158, 165,  218,  227,  236,  245,  254,  263,  394,  339,  350,  361,  372,  383},
    {14,  94, 100, 106, 112, 118, 124,  170,  178,  186,  194,  202,  210,  328,  278,  288,  298,  308,  318},
    { 5,  64,  69,  74,  79,  84,  89,  128,  135,  142,  149,  156,  163,  268,  223,  232,  241,  250,  259},
    { 1,  40,  44,  48,  52,  56,  60,   92,   98,  104,  110,  116,  122,  214,  174,  182,  190,  198,  206},
    { 2,  22,  25,  28,  31,  34,  37,   62,   67,   72,   77,   82,   87,  166,  131,  138,  145,  152,  159},
    { 8,  10,  12,  14,  16,  18,   8,   38,   42,   46,   50,   54,   58,  124,   94,  100,  106,  112,  118},
    {20,  11,  13,  15,  17,  19,   9,   20,   23,   26,   29,   32,   35,   88,   63,   68,   73,   78,   83},
    {30, 131, 138, 145, 152, 159, 166,  219,  228,  237,  246,  255,  264,  329,  279,  289,  299,  309,  319},
    {15,  95, 101, 107, 113, 119, 125,  171,  179,  187,  195,  203,  211,  269,  224,  233,  242,  251,  260},
    { 6,  65,  70,  75,  80,  85,  90,  129,  136,  143,  150,  157,  164,  215,  175,  183,  191,  199,  207},
    { 7,  41,  45,  49,  53,  57,  61,   93,   99,  105,  111,  117,  123,  167,  132,  139,  146,  153,  160},
    {19,  23,  26,  29,  32,  35,  20,   63,   68,   73,   78,   83,   88,  125,   95,  101,  107,  113,  119},
    {37,  24,  27,  30,  33,  36,  21,   39,   43,   47,   51,   55,   59,   89,   64,   69,   74,   79,   84},
    {31, 132, 139, 146, 153, 160, 167,  220,  229,  238,  247,  256,  265,  270,  225,  234,  243,  252,  261},
    {16,  96, 102, 108, 114, 120, 126,  172,  180,  188,  196,  204,  212,  216,  176,  184,  192,  200,  208},
    {17,  66,  71,  76,  81,  86,  91,  130,  137,  144,  151,  158,  165,  168,  133,  140,  147,  154,  161},
    {18,  42,  46,  50,  54,  58,  38,   94,  100,  106,  112,  118,  124,  126,   96,  102,  108,  114,  120},
    {36,  43,  47,  51,  55,  59,  39,   64,   69,   74,   79,   84,   89,   90,   65,   70,   75,   80,   85},
    {32, 133, 140, 147, 154, 161, 168,  221,  230,  239,  248,  257,  266,  217,  177,  185,  193,  201,  209},
    {33,  97, 103, 109, 115, 121, 127,  173,  181,  189,  197,  205,  213,  169,  134,  141,  148,  155,  162},
    {35,  68,  73,  78,  83,  88,  63,   95,  101,  107,  113,  119,  125,   91,   66,   71,   76,   81,   86}
  };

//
// corrispondence between pixels in cell and lut (pix numbering starts from 1)
//
const Int_t MMcTriggerLvl2::gsPixelsInLut[3][12] = {
    { 1,  2,  3,  4,  6,  7,  8,  9, 12, 13, 14, 15},
    {34, 29, 23, 16, 30, 24, 17, 10, 25, 18, 11,  5},
    {35, 31, 26, 20, 19, 32, 27, 21, 36, 33, 28, 22},
  };


// --------------------------------------------------------------------------
//
//  Default constructor
//
MMcTriggerLvl2::MMcTriggerLvl2(const char *name, const char *title)
{
  fName = name ? name : ClassName();
  fTitle = title;

  *fLog << "created MMcTriggerLvl2" << endl;

  //
  // Initialization of the fPixels array to zero
  //
  memset (fPixels,0,36*19*sizeof(Int_t));
  memset (fFiredPixel,0,397*sizeof(Int_t));

  // create a new camera
  SetNewCamera(new MGeomCamMagic);
}

// --------------------------------------------------------------------------
//
//  Destructor
//
MMcTriggerLvl2::~MMcTriggerLvl2()
{
  delete fCam;
  delete fGeomCam;
}

// --------------------------------------------------------------------------
//  
//  Print functions for debugging and testing
//
//  Options available:
//
// "cell":
//     Print out the pixel number of a given trigger cell
//
// "status":
//     Print a table with the status (pixel is fired or not after Lvl1) for 
//     all the pixels in all the trigger cells
//
//  no option:
//     Print the value of the selection parameters
//
//
void MMcTriggerLvl2::Print(Option_t *opt) const
{
  TString str(opt);

  if (str.Contains("status", TString::kIgnoreCase)) 
    {
      *fLog << "    Status of cells 1-9" <<endl;
      for(int i=0; i<36; i++)
        {
          for(int j=0; j<9; j++)
            {
              //      *fLog.width(3);
              *fLog <<gsPixelsInCell[i][j]-1 << ":" << fPixels[i][j]  << "\t ";
            } 
          *fLog << endl;
        }
    }
  else if (str.Contains("cell", TString::kIgnoreCase)) 
    {
      *fLog << "   Pixel numbering in cells 1-9" <<endl;
      for (int i=0;i<36;i++)
        {
          for(int j=0; j<9; j++)
            {
              *fLog << gsPixelsInCell[i][j]-1 << "\t";
            }
          *fLog << endl;
        }
    }
  else 
    {
      *fLog << "  L2T selection parameters:" << endl;
      *fLog << "   - LutPseudoSize  = " << fLutPseudoSize <<  endl;
      *fLog << "   - PseudoSize     = " << fPseudoSize << endl;
      *fLog << "   - BiggerCellSize = " << fSizeBiggerCell << endl;
    }
  
}

// --------------------------------------------------------------------------
//
// Take the information supplied by the Lvl1 (it reads from the object MMcTrig
// the status of all pixels after Lvl1) and pass it to the Lvl2 (fill the 
// array fPixels)
//
//
void MMcTriggerLvl2::SetLv1(MMcTrig *trig)
{
  if (!trig)
    return;

  fMcTrig = trig;

  //fMcTrig->PrintPixelsFirstLevel();
  
  for(int i=0; i<36; i++)
    {
      for(int j=0; j<19; j++)
        {
          int pixel = gsPixelsInCell[i][j]-1;
          fPixels[i][j] = (fMcTrig->IsPixelFired(pixel,0)) ? 1 : 0;
          fFiredPixel[pixel]=(fMcTrig->IsPixelFired(pixel,0)) ? 1 : 0;
        }
    }
}


// --------------------------------------------------------------------------
//
// Set the trigger status ( pixel fired(=1) or not(=0) ) manually for a given
// pixel of a given cell
//
//
void MMcTriggerLvl2::SetPixelFired(Int_t pixel, Int_t fired)
{
  for(int i=0; i<36; i++)
    {
      for(int j=0; j<19; j++)
        {
          if(gsPixelsInCell[i][j]-1==pixel) fPixels[i][j]=fired;
        }
    }

}

// --------------------------------------------------------------------------
//
//  Calculate the Level 2 Trigger (L2T) parameters. They can be used 
//  to select the events that have passed the L2T selection rule.
//
//
void MMcTriggerLvl2::Calc()
{

  // Find the Lut and cell with the higher LutPseudoSize. 
  int lutcell = CalcBiggerLutPseudoSize(); 
  int maxcell = lutcell/10;
  int maxlut = lutcell-maxcell*10;
  fLutPseudoSize = GetLutCompactPixel(maxcell,maxlut);

  CalcPseudoSize();

  fSizeBiggerCell = GetCellNumberFired(CalcBiggerFiredCell());

}


// --------------------------------------------------------------------------
//
//  Display the MAGIC Camera a draw the pixels corresponding to a given cell
//  (preliminary)   <to be fixed>
//
void MMcTriggerLvl2::DrawCell(Int_t cell)
{

  if(cell>18) return;

  //
  // Use MHCamera class variable for avoiding to create a MHCamera each 
  // time this function is called. Also, now all the hexagons are drawn in 
  // the same camera pad
  //
  if (!fGeomCam)
    fGeomCam = new MGeomCamMagic;  
  if (!fCam)
    {
      fCam = new MHCamera(*fGeomCam);
      fCam->Draw();
      fCam->DrawPixelIndices();
    }

  //fCam->Draw();
  fCam->Reset();

  int color=0;

  for(int i=0; i<36; i++)
    {
      color = (fPixels[i][cell]) ? 5 : 3;
      fCam->SetPix( gsPixelsInCell[i][cell]-1, color, 1, 5 );
    }
  
  //
  // Update the display (paint the camera with the new colors)
  //
  gPad->Modified();
  gPad->Update(); 
}



// --------------------------------------------------------------------------
//
//  Display the MAGIC camera and draw all the pixel fired after Lvl1
//  (preliminary)   <to be fixed>
// 
//
void MMcTriggerLvl2::DrawLv1()
{
  //
  // Use MHCamera class variable for avoiding to create a MHCamera each 
  // time this function is called. Also, now all the hexagons are drawn in 
  // the same camera pad
  //
  //  !FixMe! Delete this method when the trigger display is available!
  //
  if (!fGeomCam)
    fGeomCam = new MGeomCamMagic;  
  if (!fCam)
    {
      fCam = new MHCamera(*fGeomCam);
      fCam->Draw();  
      fCam->DrawPixelIndices();
    }

  //
  // Set the array of colors for each pixel (that will be painted after 
  // updating the dispaly)
  //
  int color=0;

  for(int i=0; i<577; i++)
    {
      color = (fMcTrig->IsPixelFired(i,0)) ? 1 : 2;
      fCam->SetPix( i, color, 1, 5 );
    }

  //
  // Update the display (paint the camera with the new colors)
  //
  gPad->Modified();
  gPad->Update(); 

}

// --------------------------------------------------------------------------
//  
// For a given cell, just count how many pixels have been fired after Lvl1
//
Int_t MMcTriggerLvl2::GetCellNumberFired(int cell)
{
  int size=0;
 
  for(int i=0; i<36; i++)
    {
      size += fPixels[i][cell];
    }

  return size;
  
}


// --------------------------------------------------------------------------
//  
//  Find the cell which the bigger number of fired pixels
// 
//
Int_t MMcTriggerLvl2::CalcBiggerFiredCell()
{
  int size=-1;
  int cell=-1;

  for(int j=0; j<19; j++)
    {
      if (GetCellNumberFired(j) > size) 
        {
          size = GetCellNumberFired(j);
          cell = j;
        }
    }
  
  //  *fLog << "size " <<size <<" in cell " << cell << endl;

  return cell;
  
}

// --------------------------------------------------------------------------
//  
// Calculate the higher LutPseudoSize of one event defined as the higher number
//   of compact pixel in the LUTs of the trigger cells.
//  neighpix is the number of Next-Neighbors which defines the compact pixel
//    topology (it can be 2-NN or 3-NN)
//
//   It returns the cell and the LUT with the bigger LutPseudoSize, coded
//      accordingly to:   cell*10 + LUT 
//
Int_t MMcTriggerLvl2::CalcBiggerLutPseudoSize()
{
  int size=0;
  int cell=-1;
  int lut=-1;
 
  for(int j=0; j<19; j++)
    {
      for(int i=0; i<3; i++)
        {
          if (GetLutCompactPixel(j,i) >= size) 
            {
              size = GetLutCompactPixel(j,i);
              cell = j;
              lut = i;
            }      
        }
    }
  
  //  *fLog <<"Max cell: " << cell+1 << "  Max Lut: " << lut+1 << "  PseudoSize: " << size <<endl;
    
  return cell*10+lut;
}


// --------------------------------------------------------------------------
//  
// Identify compact pixels in one LUT and calculate the LutPseudoSize 
//   (=number of compact pixels in one LUT)
//  neighpix is the number of Next-Neighbors which defines the compact pixel
//    topology.  
//   Up to now only  2NN or 3NN are considered 
//    <!if changed: change check made by Preprocess in MMcTriggerLvl2Calc>    
//
//   Returns: 
//     -1    wrong neighpix
//     -2    wrong cell (<1 or >19)
//     -3    wrong lut  (<1 or >3)
//    else:
//      the number of compact pixels in one LUT.
//     
Int_t MMcTriggerLvl2::GetLutCompactPixel(int cell, int lut)
{
  int size=0;
  int lutpix, a[12]; 
  int neighpix= (*this).fCompactNN;

  // check on input variables

  if (neighpix >3 || neighpix < 2) 
    return(-1);

  if (cell<0 || cell>18)
    return(-2);

  if (lut<0 || lut>2)
    return(-3);


  // LUT 1 and 2 are similar; LUT 3 differs
  
  for(int j=0; j<12; j++)
    {
      lutpix = gsPixelsInLut[lut][j]-1;
      //    *fLog << "j=" <<j<<"  lutpix="<<lutpix<<"  Cell="<<cell<<endl;
      a[j] = fPixels[lutpix][cell]; 
    }
  
  //
  // Look for compact pixels 2NN
  //
  if (neighpix==2)
    {    
      //  case Lut 1 and 2
      if (lut == 0 || lut == 1)
        {
          if (a[0] && a[1] && a[4])
            size ++;
          if (a[1] && ((a[0] && a[4]) || 
                       (a[4] && a[5]) || 
                       (a[5] && a[2]) )) 
            size ++;
          if (a[2] && ((a[1] && a[5]) || 
                       (a[5] && a[6]) || 
                       (a[6] && a[3]) )) 
            size ++;
          if (a[3] && ((a[2] && a[6]) || 
                       (a[6] && a[7]) )) 
            size ++;
          if (a[4] && ((a[0] && a[1]) || 
                       (a[1] && a[5]) || 
                       (a[5] && a[8]) )) 
            size ++;
          if (a[5] && ((a[1] && a[2]) || 
                       (a[2] && a[6]) || 
                       (a[6] && a[9]) || 
                       (a[9] && a[8]) || 
                       (a[8] && a[4]) || 
                       (a[4] && a[1]) )) 
            size ++;
          if (a[6] && ((a[2] && a[3]) || 
                       (a[3] && a[7]) || 
                       (a[7] && a[10]) || 
                       (a[10] && a[9]) || 
                       (a[9] && a[5]) || 
                       (a[5] && a[2]) )) 
            size ++;
          if (a[7] && ((a[3] && a[6]) || 
                       (a[6] && a[10]) || 
                       (a[10] && a[11]) )) 
            size ++;
          if (a[8] && ((a[4] && a[5]) || 
                       (a[5] && a[9]) )) 
            size ++;
          if (a[9] && ((a[8] && a[5]) || 
                       (a[5] && a[6]) || 
                       (a[6] && a[10]) )) 
            size ++;
          if (a[10] && ((a[9] && a[6]) || 
                        (a[6] && a[7]) || 
                        (a[7] && a[11]) )) 
            size ++;
          if (a[11] && a[7] && a[10]) 
            size ++;
        }
      
      //  case Lut 3
      if (lut==2) 
        {
          if (a[0] && a[1] && a[5])
            size ++;
          if (a[1] && ((a[0] && a[5]) || 
                       (a[5] && a[2]) )) 
            size ++;
          if (a[2] && ((a[1] && a[5]) || 
                       (a[5] && a[6]) || 
                       (a[3] && a[4]) || 
                       (a[6] && a[3]) )) 
            size ++;
          if (a[3] && ((a[2] && a[6]) || 
                       (a[6] && a[7]) || 
                       (a[2] && a[4]) )) 
            size ++;
          if (a[4] && ((a[2] && a[3]) )) 
            size ++;
          if (a[5] && ((a[1] && a[2]) || 
                       (a[2] && a[6]) || 
                       (a[6] && a[9]) || 
                       (a[9] && a[8]) )) 
            size ++;
          if (a[6] && ((a[2] && a[3]) || 
                       (a[3] && a[7]) || 
                       (a[7] && a[10]) || 
                       (a[10] && a[9]) || 
                       (a[9] && a[5]) || 
                       (a[5] && a[2]) )) 
            size ++;
          if (a[7] && ((a[3] && a[6]) || 
                       (a[6] && a[10]) || 
                       (a[10] && a[11]) )) 
            size ++;
          if (a[8] && a[5] && a[9]) 
            size ++;
          if (a[9] && ((a[8] && a[5]) || 
                       (a[5] && a[6]) || 
                       (a[6] && a[10]) )) 
            size ++;
          if (a[10] && ((a[9] && a[6]) || 
                        (a[6] && a[7]) || 
                        (a[7] && a[11]) )) 
            size ++;
          if (a[11] && a[7] && a[10]) 
            size ++;    
        }
    }
  
  //
  // Look for compact pixels 3NN 
  //
  if (neighpix==3)
    {
      //  case Lut 1 and 2
      if (lut == 0 || lut == 1)
        {
          if (a[0] && a[1] && a[4] && a[5]) // pix 0 is compact if there is a 4NN
            size ++;
          if (a[1] && ((a[0] && a[4] && a[5]) || 
                       (a[2] && a[4] && a[5]) )) 
            size ++;
          if (a[2] && ((a[1] && a[5] && a[6]) || 
                       (a[5] && a[6] && a[3]) )) 
            size ++;
          if (a[3] && (a[2] && a[6] && a[7] ))  
            size ++;
          if (a[4] && ((a[0] && a[1] && a[5]) || 
                       (a[1] && a[5] && a[8]) )) 
            size ++;
          if (a[5] && ((a[1] && a[2] && a[6]) || 
                       (a[2] && a[6] && a[9]) || 
                       (a[6] && a[9] && a[8]) || 
                       (a[9] && a[8] && a[4]) || 
                       (a[8] && a[4] && a[1]) || 
                       (a[4] && a[1] && a[2]) )) 
            size ++;
          if (a[6] && ((a[2] && a[3] && a[7]) || 
                       (a[3] && a[7] && a[10]) || 
                       (a[7] && a[10] && a[9]) || 
                       (a[10] && a[9] && a[5]) || 
                       (a[9] && a[5] && a[2]) || 
                       (a[5] && a[2] && a[3]) )) 
            size ++;
          if (a[7] && ((a[3] && a[6] && a[10]) || 
                       (a[6] && a[10] && a[11]) )) 
            size ++;
          if (a[8] && (a[4] && a[5] && a[9] )) 
            size ++;
          if (a[9] && ((a[8] && a[5] && a[6]) || 
                       (a[5] && a[6] && a[10]) )) 
            size ++;
          if (a[10] && ((a[9] && a[6] && a[7]) || 
                        (a[6] && a[7] && a[11]) )) 
            size ++;
          if (a[11] && a[7] && a[10] && a[6]) //pix 0 is compact if there is a 4NN
            size ++;
        }
      
      //  case Lut 3
      if (lut==2) 
        {
          if (a[0] && a[1] && a[5] && a[8]) // pix 0 is compact if there is a 4NN
            size ++;
          if (a[1] && (a[0] && a[5] && a[2])) //pix 0 is compact if there is a 4NN 
            size ++;
          if (a[2] && ((a[1] && a[5] && a[6]) || 
                       (a[3] && a[5] && a[6]) || 
                       (a[6] && a[3] && a[4]) )) 
            size ++;
          if (a[3] && ((a[2] && a[4] && a[6]) || 
                       (a[2] && a[6] && a[7]) )) 
            size ++;
          if (a[4] && (a[2] && a[3] && a[6] )) 
            size ++;
          if (a[5] && ((a[1] && a[2] && a[6]) || 
                       (a[2] && a[6] && a[9]) || 
                       (a[6] && a[9] && a[8]) )) 
            size ++;
          if (a[6] && ((a[2] && a[3] && a[7]) || 
                       (a[3] && a[7] && a[10]) || 
                       (a[7] && a[10] && a[9]) || 
                       (a[10] && a[9] && a[5]) || 
                       (a[9] && a[5] && a[2]) || 
                       (a[5] && a[2] && a[3]) )) 
            size ++;
          if (a[7] && ((a[3] && a[6] && a[10]) || 
                       (a[6] && a[10] && a[11]) )) 
            size ++;
          if (a[8] && a[5] && a[9] && a[6])  //pix 0 is compact if there is a 4NN
            size ++;
          if (a[9] && ((a[8] && a[5] && a[6]) || 
                       (a[5] && a[6] && a[10]) )) 
            size ++;
          if (a[10] && ((a[9] && a[6] && a[7]) || 
                        (a[6] && a[7] && a[11]) )) 
            size ++;
          if (a[11] && a[7] && a[10] && a[6]) //pix 0 is compact if there is a 4NN
            size ++;
        }
    }
  

  if(size<0 ||size>12)
    *fLog << "*" << size <<"-";
  
  return size;
}


// --------------------------------------------------------------------------
//  
// Look for clusters and calculate the PseudoSize of one event, 
//   defined as the multiplicity of the bigger cluster. 
//
//
//
void MMcTriggerLvl2::CalcPseudoSize()
{
  // Fill the fCompactPixel array with the compact pixels
  CalcCompactPixels(fGeomCam);

  // seek the LUT with higher number of compact pixels
  //
  int cellut = CalcBiggerLutPseudoSize();
  int maxcell = cellut/10;
  int maxlut = cellut - maxcell*10;
  int startpix;

  // 
  // seek a starting pixel in the lut for the iteration
  //
  int check=1;
  for (int pixlut=0;pixlut<12;pixlut++)
    {
      int pixcell =gsPixelsInLut[maxlut][pixlut];
      startpix = gsPixelsInCell[pixcell][maxcell]-1;
      *fLog << "pix, compact:" << startpix << "@"<<fCompactPixel[startpix];
      if (fCompactPixel[startpix]) // a starting pixel was found
        break;
      check++;
    }

  // A LUT contains 12 pixels
  if (check >= 12)
    {
    *fLog <<"Error: a starting pixels was not found!"<<endl;
    return;
    }
  //
  // Bulding cluster
  //
  Int_t cluster[397];
  int pnt=0;
  int pnt2=0; //pointer in the array fCluster_pix, needed for filling

  memset (cluster,0,397*sizeof(Int_t));
  memset (fCluster_pix,-1,397*sizeof(Int_t));

  cluster[startpix]=1;  
  fCluster_pix[0]=startpix; //the starting pix is the first in cluster
  
  // Look at neighbour pixs if they are compact (iterative search)
  //  until the array (fCluster_pix) has no more compact pixels.
  // pnt points to the pixel in the array fCluster_pix whose neighbors are
  // under study; pnt2 points to the last element of this array.
  //
  while (fCluster_pix[pnt] != -1)
    { 
      const MGeomPix &pix=(*fGeomCam)[fCluster_pix[pnt]];

      for (int i=0;i<pix.GetNumNeighbors();i++)
        {
          int pix_neigh = pix.GetNeighbor(i);
          // check if pixel is fired and doesn't belong to cluster
          if (fFiredPixel[pix_neigh] && !cluster[pix_neigh])
            {
              cluster[pix_neigh] = 1;
              fCluster_pix[++pnt2] = pix_neigh;
            }
        }
      pnt++;
    }

  fPseudoSize = pnt;

  //  *fLog << "ClusterID:" <<(*clust).GetClusterId() << " Mult:" << (*clust).GetMultiplicity()<<endl;  

  *fLog <<"PSize: "<< fPseudoSize << " in cell:" << maxcell << " lut:" <<maxlut <<endl;

  return;
}

// --------------------------------------------------------------------------
//  
//  Fill the fCompactPixels array with the pixels which are compact
//
//  neighpix is the number of Next-Neighbors which defines the compact pixel
//    topology (it can be 2-NN or 3-NN)
//
//   Note: it is a *global* method; it looks in the all camera as a whole
//         
//
void MMcTriggerLvl2::CalcCompactPixels(MGeomCam *geom)
{
  memset (fCompactPixel,0,397*sizeof(Int_t));
  
  for(UInt_t pixid=0;pixid<397;pixid++)
    {
      // Look if the pixel is fired, otherwise continue
      if (!fFiredPixel[pixid])
        continue;
      
      const MGeomPix &pix=(*geom)[pixid];
      
      // Look for compact pixels. 
      // A compact pixel must have at least fCompactNN adjacent neighbors
      // It checks the 6 different configurations of neighbors pixels
      for (int i=0;i<pix.GetNumNeighbors();i++)
        { 
          int j=0;
          while (fFiredPixel[pix.GetNeighbor(i+j)]==1 && j < fCompactNN)
            j++;  
          if (j!=fCompactNN)  continue;  // configuration doesn't satisfy compact condition  
          
          fCompactPixel[pixid]=1; // pixel is compact

          *fLog << ","<<pixid;

          break;
        }      
    }
}