da/dab/PtAssignment_8cc_source.html

 #include <stdio.h>
 #include <stdlib.h>
 #include <math.h>
 #include <fstream>
 #include <iostream>

 #include "Geometry/CSCGeometry/interface/CSCGeometry.h"
 #include "Geometry/Records/interface/MuonGeometryRecord.h"
 #include "L1Trigger/CSCCommonTrigger/interface/CSCTriggerGeometry.h"

 #include "L1Trigger/L1TMuonEndCap/interface/PtAssignment.h"
 #include "L1Trigger/L1TMuonEndCap/interface/EmulatorClasses.h"

 #include "TFile.h"
 #include "TH1F.h"

 using namespace l1t;
 using namespace std;
 using namespace L1TMuon;
 using namespace emtf;

 EmtfPtAssignment::EmtfPtAssignment(const char * tree_dir):
   allowedModes_({3,5,9,6,10,12,7,11,13,14,15}){

   for (unsigned i=0;i<allowedModes_.size();i++){
     int mode_inv = allowedModes_[i];
     stringstream ss;
     ss << tree_dir << "/" << mode_inv;
     forest_[mode_inv].loadL1TForestFromXML(ss.str().c_str(),64);
   }
 }

 //ModeVariables is a 2D arrary indexed by [TrackMode(13 Total Listed Below)][VariableNumber(20 Total Constructed Above)]
 // Variable numbering
 // 0 = dPhi12
 // 1 = dPhi13
 // 2 = dPhi14
 // 3 = dPhi23
 // 4 = dPhi24
 // 5 = dPhi34
 // 6 = dEta12
 // 7 = dEta13
 // 8 = dEta14
 // 9 = dEta23
 // 10 = dEta24
 // 11 = dEta34
 // 12 = CLCT1
 // 13 = CLCT2
 // 14 = CLCT3
 // 15 = CLCT4
 // 16 = CSCID1
 // 17 = CSCID2
 // 18 = CSCID3
 // 19 = CSCID4
 // 20 = FR1
 // 21 = FR2
 // 22 = FR3
 // 23 = FR4

 // Bobby's Scheme3 (or "SchemeC"), with 30 bit compression //
 //3:TrackEta:dPhi12:dEta12:CLCT1:CLCT2:FR1
 //4:Single Station Track Not Possible
 //5:TrackEta:dPhi13:dEta13:CLCT1:CLCT3:FR1
 //6:TrackEta:dPhi23:dEta23:CLCT2:CLCT3:FR2
 //7:TrackEta:dPhi12:dPhi23:dEta13:CLCT1:FR1
 //8:Single Station Track Not Possible
 //9:TrackEta:dPhi14:dEta14:CLCT1:CLCT4:FR1
 //10:TrackEta:dPhi24:dEta24:CLCT2:CLCT4:FR2
 //11:TrackEta:dPhi12:dPhi24:dEta14:CLCT1:FR1
 //12:TrackEta:dPhi34:dEta34:CLCT3:CLCT4:FR3
 //13:TrackEta:dPhi13:dPhi34:dEta14:CLCT1:FR1
 //14:TrackEta:dPhi23:dPhi34:dEta24:CLCT2
 //15:TrackEta:dPhi12:dPhi23:dPhi34:FR1
 static const int ModeVariables_Scheme3[13][6] =
   {
     {0,6,12,13,20,-999},            // 3
     {-999,-999,-999,-999,-999,-999},  // 4
     {1,7,12,14,20,-999},            // 5
     {3,9,13,14,21,-999},            // 6
     {0,3,7,12,20,-999},               // 7
     {-999,-999,-999,-999,-999,-999},  // 8
     {2,8,12,15,20,-999},            // 9
     {4,10,13,15,21,-999},           // 10
     {0,4,8,12,20,-999},               // 11
     {5,11,14,15,22,-999},           // 12
     {1,5,8,16,20,-999},               // 13
     {3,5,10,13,-999,-999},              // 14
     {0,3,5,20,-999,-999}            // 15
   };


 // 256 max units----

 static const int dPhiNLBMap_5bit_256Max[32] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 19, 20, 21, 23, 25, 28, 31, 34, 39, 46, 55, 68, 91, 136};

 static const int dPhiNLBMap_6bit_256Max[64] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 36, 37, 38, 39, 40, 42, 43, 45, 47, 49, 51, 53, 56, 58, 61, 65, 68, 73, 78, 83, 89, 97, 106, 116, 129, 145, 166, 193, 232};

 static const int dPhiNLBMap_7bit_256Max[128] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 77, 78, 79, 80, 81, 82, 83, 84, 86, 87, 88, 90, 91, 93, 94, 96, 97, 99, 101, 103, 105, 107, 109, 111, 113, 115, 118, 120, 123, 125, 128, 131, 134, 138, 141, 145, 149, 153, 157, 161, 166, 171, 176, 182, 188, 194, 201, 209, 217, 225, 235, 245};


 // 512 max units----
 static const int dPhiNLBMap_7bit_512Max[256] =  {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 71, 72, 73, 74, 75, 76, 77, 79, 80, 81, 83, 84, 86, 87, 89, 91, 92, 94, 96, 98, 100, 102, 105, 107, 110, 112, 115, 118, 121, 124, 127, 131, 135, 138, 143, 147, 152, 157, 162, 168, 174, 181, 188, 196, 204, 214, 224, 235, 247, 261, 276, 294, 313, 336, 361, 391, 427, 470};

 static const int dPhiNLBMap_8bit_512Max[256] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 164, 165, 166, 167, 168, 170, 171, 172, 174, 175, 176, 178, 179, 180, 182, 183, 185, 186, 188, 190, 191, 193, 194, 196, 198, 200, 201, 203, 205, 207, 209, 211, 213, 215, 217, 219, 221, 223, 225, 228, 230, 232, 235, 237, 240, 242, 245, 248, 250, 253, 256, 259, 262, 265, 268, 272, 275, 278, 282, 285, 289, 293, 297, 300, 305, 309, 313, 317, 322, 327, 331, 336, 341, 347, 352, 358, 363, 369, 375, 382, 388, 395, 402, 410, 417, 425, 433, 442, 450, 460, 469, 479, 490, 500};


 static const int dPhiNLBMap_5bit[32] =
   {  0       ,       1       ,       2       ,       4       ,       5       ,       7       ,       9       ,       11      ,       13      ,       15      ,       18      ,       21      ,       24      ,       28      ,       32      ,       37      ,       41      ,       47      ,       53      ,       60      ,       67      ,       75      ,       84      ,       94      ,       105     ,       117     ,       131     ,       145     ,       162     ,       180     ,       200     ,       222};

 // Array that maps the 7-bit integer dPhi --> dPhi-units. It is assumed that this is used for dPhi12,
 // which has a maximum value of 7.67 degrees (511 units) in the extrapolation units.
 static const int dPhiNLBMap_7bit[128] =
   {     0       ,       1       ,       2       ,       3       ,       4       ,       5       ,       6       ,       8       ,       9       ,       10      ,       11      ,       12      ,       14      ,       15      ,       16      ,       17      ,       19      ,       20      ,       21      ,       23      ,       24      ,       26      ,       27      ,       29      ,       30      ,       32      ,       33      ,       35      ,       37      ,       38      ,       40      ,       42      ,       44      ,       45      ,       47      ,       49      ,       51      ,       53      ,       55      ,       57      ,       59      ,       61      ,       63      ,       65      ,       67      ,       70      ,       72      ,       74      ,       77      ,       79      ,       81      ,       84      ,       86      ,       89      ,       92      ,       94      ,       97      ,       100     ,       103     ,       105     ,       108     ,       111     ,       114     ,       117     ,       121     ,       124     ,       127     ,       130     ,       134     ,       137     ,       141     ,       144     ,       148     ,       151     ,       155     ,       159     ,       163     ,       167     ,       171     ,       175     ,       179     ,       183     ,       188     ,       192     ,       197     ,       201     ,       206     ,       210     ,       215     ,       220     ,       225     ,       230     ,       235     ,       241     ,       246     ,       251     ,       257     ,       263     ,       268     ,       274     ,       280     ,       286     ,       292     ,       299     ,       305     ,       312     ,       318     ,       325     ,       332     ,       339     ,       346     ,       353     ,       361     ,       368     ,       376     ,       383     ,       391     ,       399     ,       408     ,       416     ,       425     ,       433     ,       442     ,       451     ,       460     ,       469     ,       479     ,       489 };

 // Array that maps the 8-bit integer dPhi --> dPhi-units. It is assumed that this is used for dPhi12,
 // which has a maximum value of 7.67 degrees (511 units) in the extrapolation units.
 static const int dPhiNLBMap_8bit[256] =
   {      0       ,       1       ,       2       ,       3       ,       4       ,       5       ,       6       ,       7       ,       8       ,       9       ,       10      ,       11      ,       12      ,       13      ,       14      ,       16      ,       17      ,       18      ,       19      ,       20      ,       21      ,       22      ,       23      ,       24      ,       25      ,       27      ,       28      ,       29      ,       30      ,       31      ,       32      ,       33      ,       35      ,       36      ,       37      ,       38      ,       39      ,       40      ,       42      ,       43      ,       44      ,       45      ,       46      ,       48      ,       49      ,       50      ,       51      ,       53      ,       54      ,       55      ,       56      ,       58      ,       59      ,       60      ,       61      ,       63      ,       64      ,       65      ,       67      ,       68      ,       69      ,       70      ,       72      ,       73      ,       74      ,       76      ,       77      ,       79      ,       80      ,       81      ,       83      ,       84      ,       85      ,       87      ,       88      ,       90      ,       91      ,       92      ,       94      ,       95      ,       97      ,       98      ,       100     ,       101     ,       103     ,       104     ,       105     ,       107     ,       108     ,       110     ,       111     ,       113     ,       115     ,       116     ,       118     ,       119     ,       121     ,       122     ,       124     ,       125     ,       127     ,       129     ,       130     ,       132     ,       133     ,       135     ,       137     ,       138     ,       140     ,       141     ,       143     ,       145     ,       146     ,       148     ,       150     ,       151     ,       153     ,       155     ,       157     ,       158     ,       160     ,       162     ,       163     ,       165     ,       167     ,       169     ,       171     ,       172     ,       174     ,       176     ,       178     ,       180     ,       181     ,       183     ,       185     ,       187     ,       189     ,       191     ,       192     ,       194     ,       196     ,       198     ,       200     ,       202     ,       204     ,       206     ,       208     ,       210     ,       212     ,       214     ,       216     ,       218     ,       220     ,       222     ,       224     ,       226     ,       228     ,       230     ,       232     ,       234     ,       236     ,       238     ,       240     ,       242     ,       244     ,       246     ,       249     ,       251     ,       253     ,       255     ,       257     ,       259     ,       261     ,       264     ,       266     ,       268     ,       270     ,       273     ,       275     ,       277     ,       279     ,       282     ,       284     ,       286     ,       289     ,       291     ,       293     ,       296     ,       298     ,       300     ,       303     ,       305     ,       307     ,       310     ,       312     ,       315     ,       317     ,       320     ,       322     ,       324     ,       327     ,       329     ,       332     ,       334     ,       337     ,       340     ,       342     ,       345     ,       347     ,       350     ,       352     ,       355     ,       358     ,       360     ,       363     ,       366     ,       368     ,       371     ,       374     ,       376     ,       379     ,       382     ,       385     ,       387     ,       390     ,       393     ,       396     ,       398     ,       401     ,       404     ,       407     ,       410     ,       413     ,       416     ,       419     ,       421     ,       424     ,       427     ,       430     ,       433     ,       436     ,       439     ,       442     ,       445     ,       448     ,       451     ,       454     ,       457     ,       461     ,       464     ,       467     ,       470     ,       473     ,       476     ,       479     ,       483     };


 static float getNLBdPhi(float dPhi, int bits, int max=512)
 {
   float dPhi_= max;
   float sign_ = 1;
   if (dPhi<0)
     sign_ = -1;
   dPhi = fabs(dPhi);

   if (max==256)
     {
       if (bits == 5)
         {
           dPhi_ = dPhiNLBMap_5bit_256Max[(1<<bits)-1];
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_5bit_256Max[edge]<=dPhi && dPhiNLBMap_5bit_256Max[edge+1]>dPhi)
               {
                 dPhi_ = dPhiNLBMap_5bit_256Max[edge];
                 break;
               }
         }
       if (bits == 6)
         {
           dPhi_ = dPhiNLBMap_6bit_256Max[(1<<bits)-1];
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_6bit_256Max[edge]<=dPhi && dPhiNLBMap_6bit_256Max[edge+1]>dPhi)
               {
                 dPhi_ = dPhiNLBMap_6bit_256Max[edge];
                 break;
               }
         }
       if (bits == 7)
         {
           dPhi_ = dPhiNLBMap_7bit_256Max[(1<<bits)-1];
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_7bit_256Max[edge]<=dPhi && dPhiNLBMap_7bit_256Max[edge+1]>dPhi)
               {
                 dPhi_ = dPhiNLBMap_7bit_256Max[edge];
                 break;
               }
         }
     }
   if (max==512)
     {
       if (bits == 7)
         {
           dPhi_ = dPhiNLBMap_7bit_512Max[(1<<bits)-1];
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_7bit_512Max[edge]<=dPhi && dPhiNLBMap_7bit_512Max[edge+1]>dPhi)
               {
                 dPhi_ = dPhiNLBMap_7bit_512Max[edge];
                 break;
               }
         }
       if (bits == 8)
         {
           dPhi_ = dPhiNLBMap_8bit_512Max[(1<<bits)-1];
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_8bit_512Max[edge]<=dPhi && dPhiNLBMap_8bit_512Max[edge+1]>dPhi)
               {
                 dPhi_ = dPhiNLBMap_8bit_512Max[edge];
                 break;
               }
         }
     }

   if (dPhi>=max) dPhi_ = max;
   return (sign_ * dPhi_);
 }


 static int getNLBdPhiBin(float dPhi, int bits, int max=512)
 {
   int dPhiBin_= (1<<bits)-1;

   // Unused variable
   /* float sign_ = 1; */
   /* if (dPhi<0) */
   /*   sign_ = -1; */

   dPhi = fabs(dPhi);

   if (max==256)
     {
       if (bits == 5)
         {
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_5bit_256Max[edge]<=dPhi && dPhiNLBMap_5bit_256Max[edge+1]>dPhi)
               {
                 dPhiBin_ = edge;
                 break;
               }
         }
       if (bits == 6)
         {
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_6bit_256Max[edge]<=dPhi && dPhiNLBMap_6bit_256Max[edge+1]>dPhi)
               {
                 dPhiBin_ = edge;
                 break;
               }
         }
       if (bits == 7)
         {
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_7bit_256Max[edge]<=dPhi && dPhiNLBMap_7bit_256Max[edge+1]>dPhi)
               {
                 dPhiBin_ = edge;
                 break;
               }
         }
     }
   if (max==512)
     {
       if (bits == 7)
         {
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_7bit_512Max[edge]<=dPhi && dPhiNLBMap_7bit_512Max[edge+1]>dPhi)
               {
                 dPhiBin_ = edge;
                 break;
               }
         }
       if (bits == 8)
         {
           for (int edge=0; edge<(1<<bits)-1; edge++)
             if (dPhiNLBMap_8bit_512Max[edge]<=dPhi && dPhiNLBMap_8bit_512Max[edge+1]>dPhi)
               {
                 dPhiBin_ = edge;
                 break;
               }
         }
     }

   return ( dPhiBin_);
 }


 static float getdPhiFromBin(int dPhiBin, int bits, int max=512)
 {
   int dPhi_= (1<<bits)-1;

   if (dPhiBin>(1<<bits)-1)
     dPhiBin = (1<<bits)-1;

   if (max==256)
     {
       if (bits == 5)
         dPhi_ = dPhiNLBMap_5bit_256Max[dPhiBin];

       if (bits == 6)
         dPhi_ = dPhiNLBMap_6bit_256Max[dPhiBin];

       if (bits == 7)
         dPhi_ = dPhiNLBMap_7bit_256Max[dPhiBin];
     }
   if (max==512)
     {
       if (bits == 7)
         dPhi_ = dPhiNLBMap_7bit_512Max[dPhiBin];

       if (bits == 8)
         dPhi_ = dPhiNLBMap_8bit_512Max[dPhiBin];
     }

   return ( dPhi_);
 }

 static float getCLCT(float clct)
 {
   if ((int)clct==10)
     clct=0;
   else if ((int)clct==9)
     clct=1;
   else if ((int)clct==8)
     clct=-1;
   else if ((int)clct==7)
     clct=2;
   else if ((int)clct==6)
     clct=-2;
   else if ((int)clct==5)
     clct=3;
   else if ((int)clct==4)
     clct=-3;
   else if ((int)clct==3)
     clct=4;
   else if ((int)clct==2)
     clct=-4;
   else
     clct=-999;

   float clct_ = 0;
   float sign_ = 1;

   if (clct<0)
     sign_ = -1;

   clct = fabs(clct);

   if (clct<=0) // 0
     clct_ = 0;
   else if (clct<=1) //1,2
     clct_ = 1;
   else if (clct<=2)// 3,4
     clct_ = 2;
   else
     clct_ = 3; // 5,6

   return (sign_ * clct_);
 }

 static float getdTheta(float dTheta)
 {
   float dTheta_ = 0;
   // Unused variable
   /* float sign_ = 1; */
   /* if (dTheta<0) */
   /*   sign_ = -1; */

   if (dTheta<=-3)
     dTheta_ = 0;
   else if (dTheta<=-2)
     dTheta_ = 1;
   else if (dTheta<=-1)
     dTheta_ = 2;
   else if (dTheta<=0)
     dTheta_ = 3;
   else if (dTheta<=1)
     dTheta_ = 4;
   else if (dTheta<=2)
     dTheta_ = 5;
   else if (dTheta<=3)
     dTheta_ = 6;
   else
     dTheta_ = 7;

   return ( dTheta_);

 }


 //static float getdEta(float deta)
 //{
 //  float deta_ = 0;
 //
 //  if (deta<=-5)
 //    deta_ = 0;
 //  else if (deta<=-2)
 //    deta_ = 1;
 //  else if (deta<=-1)
 //    deta_ = 2;
 //  else if (deta<=0)
 //    deta_ = 3;
 //  else if (deta<=1)
 //    deta_ = 4;
 //  else if (deta<=3)
 //    deta_ = 5;
 //  else if (deta<=6)
 //    deta_ = 6;
 //  else
 //    deta_ = 7;
 //
 //  return ( deta_);
 //}

 static float getEta(float eta, int bits=5)
 {
   float eta_ = 0;
   float sign_ = 1;
   if (eta<0)
     sign_ = -1;

   if (bits>5) bits = 5;
   int shift = 5 - bits;
   int etaInt = (fabs(eta) - 0.9)*(32.0/(1.6))-0.5;
   etaInt = (etaInt>>shift)<<shift;

   eta_ = 0.9 + (etaInt + 0.5)*(1.6/32.0);
   return (eta_*sign_);
 }

 static int getEtaInt(float eta, int bits=5)
 {
   // Unused variables
   /* float eta_ = 0; */
   /* float sign_ = 1; */
   /* if (eta<0) */
   /*   sign_ = -1; */

   if (bits>5) bits = 5;
   int shift = 5 - bits;
   int etaInt = (fabs(eta) - 0.9)*(32.0/(1.6))-0.5;
   etaInt = (etaInt>>shift);
   if(etaInt > 31){etaInt = 31;}

   /* eta_ = 0.9 + (etaInt + 0.5)*(1.6/32.0); */
   return (etaInt);
 }

 static float getEtafromBin(int etaBin, int bits=5)
 {
   if (etaBin>((1<<5)-1))
     etaBin = ((1<<5)-1);
   if (etaBin<0)
     etaBin = 0;

   if (bits>5) bits = 5;
   int shift = 5 - bits;
   int etaInt_ = etaBin << shift;
   float eta_ = 0.9 + (etaInt_ + 0.5)*(1.6/32.0);
   return (eta_);
 }


 float EmtfPtAssignment::calculatePt(unsigned long Address)
 {
   bool verbose = false;
   int ModeVariables[13][6];

   //FIXME: use pointer to avoid a copy:
   for (int i=0;i<13;i++) {
     for (int j=0;j<6;j++) {
       ModeVariables[i][j] = ModeVariables_Scheme3[i][j];
     }
   }

   int dphi[6] = {-999,-999,-999,-999,-999,-999}, deta[6] = {-999,-999,-999,-999,-999,-999};
   int clct[4] = {-999,-999,-999,-999}, cscid[4] = {-999,-999,-999,-999};
   int phis[4] = {-999,-999,-999,-999}, etas[4] = {-999,-999,-999,-999}, mode_inv = 0;;
   int FR[4] = {-999,-999,-999,-999};
   float eta =0 ;

   float dPhi12 = dphi[0];
   float dPhi13 = dphi[1];
   float dPhi14 = dphi[2];
   float dPhi23 = dphi[3];
   float dPhi24 = dphi[4];
   float dPhi34 = dphi[5];
   float dTheta12 = deta[0];
   float dTheta13 = deta[1];
   float dTheta14 = deta[2];
   float dTheta23 = deta[3];
   float dTheta24 = deta[4];
   float dTheta34 = deta[5];
   float TrackEta = 0;
   float CLCT1 = clct[0];
   float CLCT2 = clct[1];
   float CLCT3 = clct[2];
   float CLCT4 = clct[3];
   float FR1 = FR[0];
   float FR2 = FR[1];
   float FR3 = FR[2];
   float FR4 = FR[3];

   mode_inv = (Address >> (30-4)) & ((1<<4)-1);

   // Decode the Pt LUT Address
   //unsigned long Address = 0x0;

   if (verbose) cout << "PtAssignment:getPt: decoding, inverted mode = " << mode_inv << endl;

   if (mode_inv == 3) // 1-2
     {

       int dPhi12_ =    (Address >> (0))   & ((1<<9)-1);
       float sign12 =   (Address >> (0+9)) & ((1<<1)-1);
       dTheta12 =       (Address >> (0+9+1)) & ((1<<3)-1);
       CLCT1  =         (Address >> (0+9+1+3)) & ((1<<2)-1);
       float CLCT1Sign= (Address >> (0+9+1+3+2)) & ((1<<1)-1);
       CLCT2  =         (Address >> (0+9+1+3+2+1)) & ((1<<2)-1);
       float CLCT2Sign= (Address >> (0+9+1+3+2+1+2)) & ((1<<1)-1);
       FR1 =            (Address >> (0+9+1+3+2+1+2+1)) & ((1<<1)-1);
       FR2 =            (Address >> (0+9+1+3+2+1+2+1+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+9+1+3+2+1+2+1+1+1)) & ((1<<5)-1);

       dPhi12 = dPhi12_;
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign12 == 0) dPhi12 = -1*dPhi12;
       if (CLCT1Sign == 0) CLCT1 = -1*CLCT1;
       if (CLCT2Sign == 0) CLCT2 = -1*CLCT2;

       if (verbose) cout << "PtAssignment:getPt: decoding, Addess = 0x" << hex << Address << endl;
       if (verbose) cout << "PtAssignment:getPt: decoding, dPhi12 = " << dec << dPhi12_ << endl;

     }

   if (mode_inv == 5) // 1-3
     {

       int dPhi13_ =    (Address >> (0))   & ((1<<9)-1);
       float sign13 =   (Address >> (0+9)) & ((1<<1)-1);
       dTheta13 =       (Address >> (0+9+1)) & ((1<<3)-1);
       CLCT1  =         (Address >> (0+9+1+3)) & ((1<<2)-1);
       float CLCT1Sign= (Address >> (0+9+1+3+2)) & ((1<<1)-1);
       CLCT3  =         (Address >> (0+9+1+3+2+1)) & ((1<<2)-1);
       float CLCT3Sign= (Address >> (0+9+1+3+2+1+2)) & ((1<<1)-1);
       FR1 =            (Address >> (0+9+1+3+2+1+2+1)) & ((1<<1)-1);
       FR3 =            (Address >> (0+9+1+3+2+1+2+1+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+9+1+3+2+1+2+1+1+1)) & ((1<<5)-1);

       dPhi13 = dPhi13_;
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign13 == 0) dPhi13 = -1*dPhi13;
       if (CLCT1Sign == 0) CLCT1 = -1*CLCT1;
       if (CLCT3Sign == 0) CLCT3 = -1*CLCT3;
     }

   if (mode_inv == 9) // 1-4
     {

       int dPhi14_ =    (Address >> (0))   & ((1<<9)-1);
       float sign14 =   (Address >> (0+9)) & ((1<<1)-1);
       dTheta14 =       (Address >> (0+9+1)) & ((1<<3)-1);
       CLCT1  =         (Address >> (0+9+1+3)) & ((1<<2)-1);
       float CLCT1Sign= (Address >> (0+9+1+3+2)) & ((1<<1)-1);
       CLCT4  =         (Address >> (0+9+1+3+2+1)) & ((1<<2)-1);
       float CLCT4Sign= (Address >> (0+9+1+3+2+1+2)) & ((1<<1)-1);
       FR1 =            (Address >> (0+9+1+3+2+1+2+1)) & ((1<<1)-1);
       FR4 =            (Address >> (0+9+1+3+2+1+2+1+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+9+1+3+2+1+2+1+1+1)) & ((1<<5)-1);

       dPhi14 = dPhi14_;
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign14 == 0) dPhi14 = -1*dPhi14;
       if (CLCT1Sign == 0) CLCT1 = -1*CLCT1;
       if (CLCT4Sign == 0) CLCT4 = -1*CLCT4;
     }

   if (mode_inv == 6) // 2-3
     {

       int dPhi23_ =    (Address >> (0))   & ((1<<9)-1);
       float sign23 =   (Address >> (0+9)) & ((1<<1)-1);
       dTheta23 =       (Address >> (0+9+1)) & ((1<<3)-1);
       CLCT2  =         (Address >> (0+9+1+3)) & ((1<<2)-1);
       float CLCT2Sign= (Address >> (0+9+1+3+2)) & ((1<<1)-1);
       CLCT3  =         (Address >> (0+9+1+3+2+1)) & ((1<<2)-1);
       float CLCT3Sign= (Address >> (0+9+1+3+2+1+2)) & ((1<<1)-1);
       FR2 =            (Address >> (0+9+1+3+2+1+2+1)) & ((1<<1)-1);
       FR3 =            (Address >> (0+9+1+3+2+1+2+1+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+9+1+3+2+1+2+1+1+1)) & ((1<<5)-1);

       dPhi23 = dPhi23_;
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign23 == 0) dPhi23 = -1*dPhi23;
       if (CLCT2Sign == 0) CLCT2 = -1*CLCT2;
       if (CLCT3Sign == 0) CLCT3 = -1*CLCT3;
     }
   if (mode_inv == 10) // 2-4
     {

       int dPhi24_ =    (Address >> (0))   & ((1<<9)-1);
       float sign24 =   (Address >> (0+9)) & ((1<<1)-1);
       dTheta24 =       (Address >> (0+9+1)) & ((1<<3)-1);
       CLCT2  =         (Address >> (0+9+1+3)) & ((1<<2)-1);
       float CLCT2Sign= (Address >> (0+9+1+3+2)) & ((1<<1)-1);
       CLCT4  =         (Address >> (0+9+1+3+2+1)) & ((1<<2)-1);
       float CLCT4Sign= (Address >> (0+9+1+3+2+1+2)) & ((1<<1)-1);
       FR2 =            (Address >> (0+9+1+3+2+1+2+1)) & ((1<<1)-1);
       FR4 =            (Address >> (0+9+1+3+2+1+2+1+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+9+1+3+2+1+2+1+1+1)) & ((1<<5)-1);

       dPhi24 = dPhi24_;
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign24 == 0) dPhi24 = -1*dPhi24;
       if (CLCT2Sign == 0) CLCT2 = -1*CLCT2;
       if (CLCT4Sign == 0) CLCT4 = -1*CLCT4;
     }
   if (mode_inv == 12) // 3-4
     {

       int dPhi34_ =    (Address >> (0))   & ((1<<9)-1);
       float sign34 =   (Address >> (0+9)) & ((1<<1)-1);
       dTheta34 =       (Address >> (0+9+1)) & ((1<<3)-1);
       CLCT3  =         (Address >> (0+9+1+3)) & ((1<<2)-1);
       float CLCT3Sign= (Address >> (0+9+1+3+2)) & ((1<<1)-1);
       CLCT4  =         (Address >> (0+9+1+3+2+1)) & ((1<<2)-1);
       float CLCT4Sign= (Address >> (0+9+1+3+2+1+2)) & ((1<<1)-1);
       FR3 =            (Address >> (0+9+1+3+2+1+2+1)) & ((1<<1)-1);
       FR4 =            (Address >> (0+9+1+3+2+1+2+1+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+9+1+3+2+1+2+1+1+1)) & ((1<<5)-1);

       dPhi34 = dPhi34_;
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign34 == 0) dPhi34 = -1*dPhi34;
       if (CLCT3Sign == 0) CLCT3 = -1*CLCT3;
       if (CLCT4Sign == 0) CLCT4 = -1*CLCT4;
     }
   if (mode_inv == 7) //1-2-3
     {
       int dPhi12_ =    (Address >> (0))     & ((1<<7)-1);
       int dPhi23_ =    (Address >> (0+7))   & ((1<<5)-1);
       float sign12 =   (Address >> (0+7+5)) & ((1<<1)-1);
       float sign23 =   (Address >> (0+7+5+1)) & ((1<<1)-1);
       dTheta13 =       (Address >> (0+7+5+1+1)) & ((1<<3)-1);
       CLCT1  =         (Address >> (0+7+5+1+1+3)) & ((1<<2)-1);
       float CLCT1Sign= (Address >> (0+7+5+1+1+3+2)) & ((1<<1)-1);
       FR1 =            (Address >> (0+7+5+1+1+3+2+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+7+5+1+1+3+2+1+1)) & ((1<<5)-1);

       dPhi12 = getdPhiFromBin( dPhi12_, 7, 512 );
       dPhi23 = getdPhiFromBin( dPhi23_, 5, 256 );

       //cout << "getPt: dPhi12: " << dPhi12_ << " " << dPhi12 << endl;
       // cout << "getPt: dPhi23: " << dPhi23_ << " " << dPhi23 << endl;

       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign12 == 0) dPhi12 = -1*dPhi12;
       if (sign23 == 0) dPhi23 = -1*dPhi23;
       if (CLCT1Sign == 0) CLCT1 = -1*CLCT1;
     }
   if (mode_inv == 11) // 1-2-4
     {
       int dPhi12_ =    (Address >> (0))     & ((1<<7)-1);
       int dPhi24_ =    (Address >> (0+7))   & ((1<<5)-1);
       float sign12 =   (Address >> (0+7+5)) & ((1<<1)-1);
       float sign24 =   (Address >> (0+7+5+1)) & ((1<<1)-1);
       dTheta14 =       (Address >> (0+7+5+1+1)) & ((1<<3)-1);
       CLCT1  =         (Address >> (0+7+5+1+1+3)) & ((1<<2)-1);
       float CLCT1Sign= (Address >> (0+7+5+1+1+3+2)) & ((1<<1)-1);
       FR1 =            (Address >> (0+7+5+1+1+3+2+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+7+5+1+1+3+2+1+1)) & ((1<<5)-1);

       dPhi12 = getdPhiFromBin( dPhi12_, 7, 512 );
       dPhi24 = getdPhiFromBin( dPhi24_, 5, 256 );
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign12 == 0) dPhi12 = -1*dPhi12;
       if (sign24 == 0) dPhi24 = -1*dPhi24;
       if (CLCT1Sign == 0) CLCT1 = -1*CLCT1;
     }
   if (mode_inv == 13) // 1-3-4
     {
       int dPhi13_ =    (Address >> (0))     & ((1<<7)-1);
       int dPhi34_ =    (Address >> (0+7))   & ((1<<5)-1);
       float sign13 =   (Address >> (0+7+5)) & ((1<<1)-1);
       float sign34 =   (Address >> (0+7+5+1)) & ((1<<1)-1);
       dTheta14 =       (Address >> (0+7+5+1+1)) & ((1<<3)-1);
       CLCT1  =         (Address >> (0+7+5+1+1+3)) & ((1<<2)-1);
       float CLCT1Sign= (Address >> (0+7+5+1+1+3+2)) & ((1<<1)-1);
       FR1 =            (Address >> (0+7+5+1+1+3+2+1)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+7+5+1+1+3+2+1+1)) & ((1<<5)-1);

       dPhi13 = getdPhiFromBin( dPhi13_, 7, 512 );
       dPhi34 = getdPhiFromBin( dPhi34_, 5, 256 );
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign13 == 0) dPhi13 = -1*dPhi13;
       if (sign34 == 0) dPhi34 = -1*dPhi34;
       if (CLCT1Sign == 0) CLCT1 = -1*CLCT1;
     }
   if (mode_inv == 14) // 2-3-4
     {
       int dPhi23_ =    (Address >> (0))     & ((1<<7)-1);
       int dPhi34_ =    (Address >> (0+7))   & ((1<<6)-1);
       float sign23 =   (Address >> (0+7+6)) & ((1<<1)-1);
       float sign34 =   (Address >> (0+7+6+1)) & ((1<<1)-1);
       dTheta24 =       (Address >> (0+7+6+1+1)) & ((1<<3)-1);
       CLCT2  =         (Address >> (0+7+6+1+1+3)) & ((1<<2)-1);
       float CLCT2Sign= (Address >> (0+7+6+1+1+3+2)) & ((1<<1)-1);
       int TrackEta_ =  (Address >> (0+7+6+1+1+3+2+1)) & ((1<<5)-1);

       dPhi23 = getdPhiFromBin( dPhi23_, 7, 512 );
       dPhi34 = getdPhiFromBin( dPhi34_, 6, 256 );
       TrackEta = getEtafromBin( TrackEta_, 5);

       if (sign23 == 0) dPhi23 = -1*dPhi23;
       if (sign34 == 0) dPhi34 = -1*dPhi34;
       if (CLCT2Sign == 0) CLCT2 = -1*CLCT2;
     }
   if (mode_inv == 15)
     {
       int dPhi12_ =         (Address >> (0))     & ((1<<7)-1);
       int dPhi23_ =         (Address >> (0+7))   & ((1<<5)-1);
       int dPhi34_ =         (Address >> (0+7+5)) & ((1<<6)-1);
       int sign23 =          (Address >> (0+7+5+6)) & ((1<<1)-1);
       int sign34 =          (Address >> (0+7+5+6+1)) & ((1<<1)-1);
       FR1 =                 (Address >> (0+7+5+6+1+1)) & ((1<<1)-1);
       int TrackEta_ =       (Address >> (0+7+5+6+1+1+1)) & ((1<<5)-1);

       dPhi12 = getdPhiFromBin( dPhi12_, 7, 512 );
       dPhi23 = getdPhiFromBin( dPhi23_, 5, 256 );
       dPhi34 = getdPhiFromBin( dPhi34_, 6, 256 );
       TrackEta = getEtafromBin( TrackEta_, 5 );

       if (sign23 == 0) dPhi23 = -1*dPhi23;
       if (sign34 == 0) dPhi34 = -1*dPhi34;

       bool era_3 = true;
       // First fix to recover high pT muons with 3 hits in a line and one displaced hit - AWB 28.07.16
       // Done by re-writing a few addresses in the original LUT, according to the following logic
       // Implemented in FW 26.07.16, as of run 2774278 / fill 5119
       if (era_3) {
     bool st2_off = false;
     bool st3_off = false;
     bool st4_off = false;

     int dPhi13 = dPhi12 + dPhi23;
     int dPhi14 = dPhi13 + dPhi34;
     int dPhi24 = dPhi23 + dPhi34;

     int sum_st1 = abs( dPhi12 + dPhi13 + dPhi14);
     int sum_st2 = abs(-dPhi12 + dPhi23 + dPhi24);
     int sum_st3 = abs(-dPhi13 - dPhi23 + dPhi34);
     int sum_st4 = abs(-dPhi14 - dPhi24 - dPhi34);

     if (sum_st2 > sum_st1 && sum_st2 > sum_st3 && sum_st2 > sum_st4) st2_off = true;
     if (sum_st3 > sum_st1 && sum_st3 > sum_st2 && sum_st3 > sum_st4) st3_off = true;
     if (sum_st4 > sum_st1 && sum_st4 > sum_st2 && sum_st4 > sum_st3) st4_off = true;

     if ( st2_off && ( abs(dPhi12) > 9 || abs(dPhi23) > 9 || abs(dPhi24) > 9 ) &&
          abs(dPhi13) < 10 && abs(dPhi14) < 10 && abs(dPhi34) < 10 ) {
       dPhi12 = ceil(dPhi13 / 2); dPhi23 = floor(dPhi13 / 2); }
     if ( st3_off && ( abs(dPhi13) > 9 || abs(dPhi23) > 9 || abs(dPhi34) > 9 ) &&
          abs(dPhi12) < 10 && abs(dPhi14) < 10 && abs(dPhi24) < 10 ) {
       dPhi23 = ceil(dPhi24 / 2); dPhi34 = floor(dPhi24 / 2); }
     if ( st4_off && ( abs(dPhi14) > 9 || abs(dPhi24) > 9 || abs(dPhi34) > 9 ) &&
          abs(dPhi12) < 10 && abs(dPhi13) < 10 && abs(dPhi23) < 10 ) {
       if ( abs(dPhi13) < abs(dPhi23) ) dPhi34 = dPhi13;
       else dPhi34 = dPhi23; }
       } // End if (era_3)
     } // End if (mode_inv == 15)


   if(verbose){
     if (mode_inv == 15) // 1-2-3-4
       cout << "Inverted mode 15: " << hex << Address << " " << dec << dPhi12 << " " << dPhi23 <<  " " << dPhi34 << " " << " " << FR1 << " " << TrackEta << " " << dec << endl;
     if (mode_inv == 14) // 2-3-4
       cout << "Inverted mode 14: " << hex << Address << " " << dec << dPhi23 << " " << dPhi34  << " " << " " << " " << TrackEta << " " << dec << endl;
     if (mode_inv == 13) // 1-3-4
       cout << "Inverted mode 13: " << hex << Address << " " << dec << dPhi13 << " " << dPhi34  << " " << " " << FR1 << " " << TrackEta << " " << dec << endl;
     if (mode_inv == 11) // 1-2-4
       cout << "Inverted mode 11: " << hex << Address << " " << dec << dPhi12 << " " << dPhi24  << " " << " " << FR1 << " " << TrackEta << " " << dec << endl;
     if (mode_inv == 7)
       cout << "Inverted mode 7: " << hex << Address << " " << dec << dPhi12 << " " << dPhi23  << " " << " " << FR1 << " " << TrackEta << " " << dec << endl;
     if (mode_inv == 3)
       cout << "Inverted mode 3: " << hex << Address << " " << dec << dPhi12 << " " << " " << FR1 << " " << TrackEta << " " << dec << endl;
   }

   // now use rebinned values
   dphi[0] = dPhi12;
   dphi[1] = dPhi13;
   dphi[2] = dPhi14;
   dphi[3] = dPhi23;
   dphi[4] = dPhi24;
   dphi[5] = dPhi34;
   deta[0] = dTheta12;
   deta[1] = dTheta13;
   deta[2] = dTheta14;
   deta[3] = dTheta23;
   deta[4] = dTheta24;
   deta[5] = dTheta34;
   eta = TrackEta;
   clct[0] = CLCT1;
   clct[1] = CLCT2;
   clct[2] = CLCT3;
   clct[3] = CLCT4;
   FR[0] = FR1;
   FR[1] = FR2;
   FR[2] = FR3;
   FR[3] = FR4;


   if(verbose){
     for(int f=0;f<4;f++){
       cout<<"\nphis["<<f<<"] = "<<phis[f]<<" and etas = "<<etas[f]<<endl;
       cout<<"\nclct["<<f<<"] = "<<clct[f]<<" and cscid = "<<cscid[f]<<endl;
     }

     for(int u=0;u<6;u++)
       cout<<"\ndphi["<<u<<"] = "<<dphi[u]<<" and deta = "<<deta[u]<<endl;
   }

   float MpT = -1;//final pT to return


   int size[13] = {5,0,5,5,5,0,5,5,5,5,5,4,4};
   int Variables[24] = {dphi[0], dphi[1], dphi[2], dphi[3], dphi[4], dphi[5], deta[0], deta[1], deta[2], deta[3], deta[4], deta[5],
                        clct[0], clct[1], clct[2], clct[3], cscid[0], cscid[1], cscid[2], cscid[3], FR[0], FR[1], FR[2], FR[3]};


   //float gpt = -1;

   int goodMode = false;
   int allowedModes[11] = {3,5,9,6,10,12,7,11,13,14,15};
   for (int i=0;i<11;i++)
     if (allowedModes[i] == mode_inv)
       {
         goodMode = true;
         break;
       }

   if (goodMode)
     for(int i=3;i<16;i++){

       if(i != mode_inv)
     continue;

       vector<Double_t> Data;
       Data.push_back(1.0);
       Data.push_back(eta);
       for(int y=0;y<size[mode_inv-3];y++){
     Data.push_back(Variables[ModeVariables[mode_inv-3][y]]);
     if(verbose) cout<<"Generalized Variables "<<y<<" "<<Variables[ModeVariables[mode_inv-3][y]]<<"\n";
       }

       if(verbose){
     cout<<"Data.size() = "<<Data.size()<<"\n";
     for(int i=0;i<5;i++)
       cout<<"Data["<<i<<"] = "<<Data[i]<<"\n";
       }

       Event *event = new Event();
       event->data = Data;

       forest_[mode_inv].predictEvent(event,64);
       float OpT = event->predictedValue;
       MpT = 1/OpT;

       delete event;

       if (MpT<0.0) MpT = 1.0;
       if (MpT>200.0) MpT = 200.0;

     }


   return MpT;
 }


 unsigned long EmtfPtAssignment::calculateAddress( InternalTrack track, const edm::EventSetup& es, int mode) {
     edm::ESHandle<CSCGeometry> cscGeometry;
     es.get<MuonGeometryRecord>().get(cscGeometry);

     bool verbose = false;
     bool doComp = true;


     // Unused variables
     /* int ModeVariables[13][6]; */
     /* int ModeBits[13][6]; */
     /* for (int i=0;i<13;i++) { */
     /*   for (int j=0;j<6;j++) { */
     /*     if (whichScheme == 3) { */
     /*  ModeVariables[i][j] = ModeVariables_Scheme3[i][j]; */
     /*     } */
     /*   } */
     /* } */

     // Unused variable
     /* const char *dir=""; */
     /* if (whichScheme == 3) */
     /*   dir = dirSchemeC; */

     int dphi[6] = {-999,-999,-999,-999,-999,-999}, deta[6] = {-999,-999,-999,-999,-999,-999};
     int clct[4] = {-999,-999,-999,-999}, cscid[4] = {-999,-999,-999,-999};
     int phis[4] = {-999,-999,-999,-999}, etas[4] = {-999,-999,-999,-999}, mode_inv = 0;;
     int FR[4] = {-999,-999,-999,-999};

     float theta_angle = ((track.theta)*0.2874016 + 8.5)*(3.14159265359/180);
     float eta = (-1)*log(tan(theta_angle/2));

     const TriggerPrimitiveStationMap stubs = track.getStubs();

     //track.print(cout);

     if(verbose) cout<<"Track eta = "<<eta<<" and has hits in stations ";//

     int x=0;             //12
     for(unsigned int s=8;s<12;s++){
       if((stubs.find(s)->second).size() == 1){


     if(verbose) cout<< "s= " << s << " " << endl;
     //etas[s-8] = (fabs((stubs.find(s)->second)[0]->getCMSGlobalEta()) + 0.9)/(0.0125);
     etas[s-8] = track.thetas[x];
     if(verbose) cout<< "eta= " << etas[s-8] << " " << endl;
     phis[s-8] = track.phis[x];//(stubs.find(s)->second)[0]->getCMSGlobalPhi();//
     if(verbose) cout<< "phi= " << phis[s-8] << " " << endl;
     clct[s-8] = (stubs.find(s)->second)[0].getPattern();
     if(verbose) cout<< "clct= " << clct[s-8] << " " << endl;
     cscid[s-8] = (stubs.find(s)->second)[0].Id();
     if(verbose) cout<< "cscid= " << cscid[s-8] << " " << endl;

     if(verbose) cout<< s << " " << (stubs.find(s)->second)[0].detId<CSCDetId>().station()<<" " << phis[s-8] << endl;;

     const CSCChamber* layer = cscGeometry->chamber((stubs.find(s)->second)[0].detId<CSCDetId>());
     LocalPoint llc(0.,0.,0.);
     GlobalPoint glc = layer->toGlobal(llc);


     int FR_ = 0;
     int coord[5] = {586,686,815,924,1013};
     for(int i=0;i<5;i++){

       if((fabs(glc.z()) < (coord[i] + 7)) && (fabs(glc.z()) > (coord[i] - 7)))
         FR_ = 1;

       FR[s-8] = FR_;

     }

     x++;
       }
     }

     mode_inv = 0;
     if(mode & 1)
       mode_inv |= 8;
     if(mode & 2)
       mode_inv |= 4;
     if(mode & 4)
       mode_inv |= 2;
     if(mode & 8)
       mode_inv |= 1;

     if(verbose) cout << "\n Mode = " << mode << ", inverted mode = " << mode_inv << endl;


     for(int d=0;d<6;d++){
       dphi[d] = track.deltas[0][d];
       deta[d] = track.deltas[1][d];
     }

     if(phis[0] > 0 && phis[1] > 0){ // 1 - 2
       dphi[0] = phis[1] - phis[0];
       deta[0] = etas[1] - etas[0];
     }
     if(phis[0] > 0 && phis[2] > 0){ // 1 - 3
       dphi[1] = phis[2] - phis[0];
       deta[1] = etas[2] - etas[0];
     }
     if(phis[0] > 0 && phis[3] > 0){ // 1 - 4
       dphi[2] = phis[3] - phis[0];
       deta[2] = etas[3] - etas[0];
     }
     if(phis[1] > 0 && phis[2] > 0){ // 2 - 3
       dphi[3] = phis[2] - phis[1];
       deta[3] = etas[2] - etas[1];
     }
     if(phis[1] > 0 && phis[3] > 0){ // 2 - 4
       dphi[4] = phis[3] - phis[1];
       deta[4] = etas[3] - etas[1];
     }
     if(phis[2] > 0 && phis[3] > 0){ // 3 - 4
       dphi[5] = phis[3] - phis[2];
       deta[5] = etas[3] - etas[2];
     }


     if(verbose){
       if (mode_inv==3) // 1-2
     {
       float dPhi12__ = fabs(dphi[0]);
       float eta__ = getEta(eta, 5);
       float clct1__ = getCLCT(clct[0]);
       float clct2__ = getCLCT(clct[1]);

       cout << endl;
       cout << "Inverted mode 3 Track " << endl;
       cout <<  setw(10) << "dPhi12: " << dphi[0] << setw(10) << dPhi12__ << endl;
       cout <<  setw(10) << "CLCT1: " << clct[0] << setw(10) << clct1__ << endl;
       cout <<  setw(10) << "CLCT2: " << clct[1] << setw(10) << clct2__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==5) // 1-3
     {
       float dPhi13__ = fabs(dphi[1]);
       float eta__ = getEta(eta, 5);
       float clct1__ = getCLCT(clct[0]);
       float clct3__ = getCLCT(clct[2]);

       cout << endl;
       cout << "Inverted mode 5 Track " << endl;
       cout <<  setw(10) << "dPhi13: " << dphi[1] << setw(10) << dPhi13__ << endl;
       cout <<  setw(10) << "CLCT1: " << clct[0] << setw(10) << clct1__ << endl;
       cout <<  setw(10) << "CLCT3: " << clct[2] << setw(10) << clct3__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==9) // 1-4
     {
       float dPhi14__ = fabs(dphi[2]);
       float eta__ = getEta(eta, 5);
       float clct1__ = getCLCT(clct[0]);
       float clct4__ = getCLCT(clct[3]);

       cout << endl;
       cout << "Inverted mode 9 Track " << endl;
       cout <<  setw(10) << "dPhi14: " << dphi[2] << setw(10) << dPhi14__ << endl;
       cout <<  setw(10) << "CLCT1: " << clct[0] << setw(10) << clct1__ << endl;
       cout <<  setw(10) << "CLCT4: " << clct[3] << setw(10) << clct4__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==6) // 2-3
     {
       float dPhi23__ = fabs(dphi[3]);
       float eta__ = getEta(eta, 5);
       float clct2__ = getCLCT(clct[1]);
       float clct3__ = getCLCT(clct[2]);

       cout << endl;
       cout << "Inverted mode 9 Track " << endl;
       cout <<  setw(10) << "dPhi23: " << dphi[3] << setw(10) << dPhi23__ << endl;
       cout <<  setw(10) << "CLCT2: " << clct[1] << setw(10) << clct2__ << endl;
       cout <<  setw(10) << "CLCT3: " << clct[2] << setw(10) << clct3__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==10) // 2-4
     {
       float dPhi24__ = fabs(dphi[4]);
       float eta__ = getEta(eta, 5);
       float clct2__ = getCLCT(clct[1]);
       float clct4__ = getCLCT(clct[3]);

       cout << endl;
       cout << "Inverted mode 10 Track " << endl;
       cout <<  setw(10) << "dPhi24: " << dphi[4] << setw(10) << dPhi24__ << endl;
       cout <<  setw(10) << "CLCT2: " << clct[1] << setw(10) << clct2__ << endl;
       cout <<  setw(10) << "CLCT4: " << clct[3] << setw(10) << clct4__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==12) // 3-4
     {
       float dPhi34__ = fabs(dphi[5]);
       float eta__ = getEta(eta, 5);
       float clct3__ = getCLCT(clct[2]);
       float clct4__ = getCLCT(clct[3]);

       cout << endl;
       cout << "Inverted mode 12 Track " << endl;
       cout <<  setw(10) << "dPhi34: " << dphi[5] << setw(10) << dPhi34__ << endl;
       cout <<  setw(10) << "CLCT3: " << clct[2] << setw(10) << clct3__ << endl;
       cout <<  setw(10) << "CLCT4: " << clct[3] << setw(10) << clct4__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }

       if (mode_inv==7) // 1-2-3
     {
       float dPhi12__ = getNLBdPhi(dphi[0],7, 512);
       float dPhi23__ = getNLBdPhi(dphi[3],5, 256);
       float eta__ = getEta(eta, 5);
       float clct1__ = getCLCT(clct[0]);
       cout << endl;
       cout << "Inverted mode 7 Track " << endl;
       cout <<  setw(10) << "dPhi12: " << dphi[0] << setw(10) << dPhi12__ << endl;
       cout <<  setw(10) << "dPhi23: " << dphi[3] << setw(10) << dPhi23__ << endl;
       cout <<  setw(10) << "CLCT1: " << clct[0] << setw(10) << clct1__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==11) // 1-2-4
     {
       float dPhi12__ = getNLBdPhi(dphi[0],7, 512);
       float dPhi24__ = getNLBdPhi(dphi[4],5, 256);
       float eta__ = getEta(eta, 5);
       float clct1__ = getCLCT(clct[0]);
       cout << endl;
       cout << "Inverted mode 11 Track " << endl;
       cout <<  setw(10) << "dPhi12: " << dphi[0] << setw(10) << dPhi12__ << endl;
       cout <<  setw(10) << "dPhi24: " << dphi[4] << setw(10) << dPhi24__ << endl;
       cout <<  setw(10) << "CLCT1: " << clct[0] << setw(10) << clct1__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==13) // 1-3-4
     {
       float dPhi13__ = getNLBdPhi(dphi[1],7, 512);
       float dPhi34__ = getNLBdPhi(dphi[5],5, 256);
       float eta__ = getEta(eta, 5);
       float clct1__ = getCLCT(clct[0]);
       cout << endl;
       cout << "Inverted mode 13 Track " << endl;
       cout <<  setw(10) << "dPhi13: " << dphi[1] << setw(10) << dPhi13__ << endl;
       cout <<  setw(10) << "dPhi34: " << dphi[5] << setw(10) << dPhi34__ << endl;
       cout <<  setw(10) << "CLCT1: " << clct[0] << setw(10) << clct1__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==14) // 2-3-4
     {
       float dPhi23__ = getNLBdPhi(dphi[3],7, 512);
       float dPhi34__ = getNLBdPhi(dphi[5],5, 256);
       float eta__ = getEta(eta, 5);
       float clct2__ = getCLCT(clct[1]);
       cout << endl;
       cout << "Inverted mode 14 Track " << endl;
       cout <<  setw(10) << "dPhi23: " << dphi[3] << setw(10) << dPhi23__ << endl;
       cout <<  setw(10) << "dPhi34: " << dphi[5] << setw(10) << dPhi34__ << endl;
       cout <<  setw(10) << "CLCT2: " << clct[1] << setw(10) << clct2__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
       if (mode_inv==15) //1-2-3-4
     {
       float dPhi12__ = getNLBdPhi(dphi[0],7, 512);
       float dPhi23__ = getNLBdPhi(dphi[3],5, 256);
       float dPhi34__ = getNLBdPhi(dphi[5],6, 256);
       float eta__ = getEta(eta, 5);

       cout << endl;
       cout << "Inverted mode 15 Track " << endl;
       cout <<  setw(10) << "dPhi12: " << dphi[0] << setw(10) << dPhi12__ << endl;
       cout <<  setw(10) << "dPhi23: " << dphi[3] << setw(10) << dPhi23__ << endl;
       cout <<  setw(10) << "dPhi34: " << dphi[5] << setw(10) << dPhi34__ << endl;
       cout <<  setw(10) << "eta   : " << eta << setw(10) << eta__ << endl;
     }
     }

     float dPhi12 = dphi[0];
     float dPhi13 = dphi[1];
     float dPhi14 = dphi[2];
     float dPhi23 = dphi[3];
     float dPhi24 = dphi[4];
     float dPhi34 = dphi[5];
     float dTheta12 = deta[0];
     float dTheta13 = deta[1];
     float dTheta14 = deta[2];
     float dTheta23 = deta[3];
     float dTheta24 = deta[4];
     float dTheta34 = deta[5];
     float TrackEta = eta;
     float CLCT1 = clct[0];
     float CLCT2 = clct[1];
     float CLCT3 = clct[2];
     float CLCT4 = clct[3];
     float FR1 = FR[0];
     float FR2 = FR[1];
     float FR3 = FR[2];
     float FR4 = FR[3];

     unsigned long Address = 0x0;

     if (doComp && mode_inv==3)
       {

     int dPhi12Sign = 1;
     if (dPhi12<0) dPhi12Sign = -1;
     // Unused variables
     /* int CLCT1Sign = 1; */
     /* int CLCT2Sign = 1;       */
     /* if (CLCT1<0) CLCT1Sign = -1; */
     /* if (CLCT2<0) CLCT2Sign = -1; */

     // Make Pt LUT Address
     int dPhi12_ = fabs(dPhi12);
     int sign12_ = dPhi12Sign > 0 ? 1 : 0;
     int dTheta12_ = getdTheta(dTheta12);
     int CLCT1_ = getCLCT(CLCT1);
     int CLCT1Sign_ = CLCT1_ > 0 ? 1 : 0;
     CLCT1_ = abs(CLCT1_);
     int CLCT2_ = getCLCT(CLCT2);
     int CLCT2Sign_ = CLCT2_ > 0 ? 1 : 0;
     CLCT2_ = abs(CLCT2_);
     int FR1_ = FR1;
     int FR2_ = FR2;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi12_ & ((1<<9)-1))    << (0);
     Address += ( sign12_ & ((1<<1)-1))    << (0+9);
     Address += ( dTheta12_ & ((1<<3)-1))  << (0+9+1);
     Address += ( CLCT1_  & ((1<<2)-1))    << (0+9+1+3);
     Address += ( CLCT1Sign_ & ((1<<1)-1)) << (0+9+1+3+2);
     Address += ( CLCT2_  & ((1<<2)-1))    << (0+9+1+3+2+1);
     Address += ( CLCT2Sign_ & ((1<<1)-1)) << (0+9+1+3+2+1+2);
     Address += ( FR1_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1);
     Address += ( FR2_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+9+1+3+2+1+2+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+9+1+3+2+1+2+1+1+1+5);
       }

     if (doComp && mode_inv==5)
       {
     // signed full precision dPhi12
     int dPhi13Sign = 1;
     // Unused variables
     // int CLCT1Sign = 1;
     // int CLCT3Sign = 1;

     if (dPhi13<0) dPhi13Sign = -1;
     // if (CLCT1<0) CLCT1Sign = -1;
     // if (CLCT3<0) CLCT3Sign = -1;

     // Make Pt LUT Address
     int dPhi13_ = fabs(dPhi13);
     int sign13_ = dPhi13Sign > 0 ? 1 : 0;
     int dTheta13_ = getdTheta(dTheta13);
     int CLCT1_ = getCLCT(CLCT1);
     int CLCT1Sign_ = CLCT1_ > 0 ? 1 : 0;
     CLCT1_ = abs(CLCT1_);
     int CLCT3_ = getCLCT(CLCT3);
     int CLCT3Sign_ = CLCT3_ > 0 ? 1 : 0;
     CLCT3_ = abs(CLCT3_);
     int FR1_ = FR1;
     int FR3_ = FR3;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi13_ & ((1<<9)-1))    << (0);
     Address += ( sign13_ & ((1<<1)-1))    << (0+9);
     Address += ( dTheta13_ & ((1<<3)-1))  << (0+9+1);
     Address += ( CLCT1_  & ((1<<2)-1))    << (0+9+1+3);
     Address += ( CLCT1Sign_ & ((1<<1)-1)) << (0+9+1+3+2);
     Address += ( CLCT3_  & ((1<<2)-1))    << (0+9+1+3+2+1);
     Address += ( CLCT3Sign_ & ((1<<1)-1)) << (0+9+1+3+2+1+2);
     Address += ( FR1_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1);
     Address += ( FR3_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+9+1+3+2+1+2+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+9+1+3+2+1+2+1+1+1+5);
       }

     if (doComp && mode_inv==9)
       {
     // signed full precision dPhi12
     int dPhi14Sign = 1;
     // Unused variables
     // int dEta14Sign = 1;
     // int CLCT1Sign = 1;
     // int CLCT4Sign = 1;

     if (dPhi14<0) dPhi14Sign = -1;
     // if (CLCT1<0) CLCT1Sign = -1;
     // if (CLCT4<0) CLCT4Sign = -1;

     // Make Pt LUT Address
     int dPhi14_ = fabs(dPhi14);
     int sign14_ = dPhi14Sign > 0 ? 1 : 0;
     int dTheta14_ = getdTheta(dTheta14);
     int CLCT1_ = getCLCT(CLCT1);
     int CLCT1Sign_ = CLCT1_ > 0 ? 1 : 0;
     CLCT1_ = abs(CLCT1_);
     int CLCT4_ = getCLCT(CLCT4);
     int CLCT4Sign_ = CLCT4_ > 0 ? 1 : 0;
     CLCT4_ = abs(CLCT4_);
     int FR1_ = FR1;
     int FR4_ = FR4;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi14_ & ((1<<9)-1))    << (0);
     Address += ( sign14_ & ((1<<1)-1))    << (0+9);
     Address += ( dTheta14_ & ((1<<3)-1))  << (0+9+1);
     Address += ( CLCT1_  & ((1<<2)-1))    << (0+9+1+3);
     Address += ( CLCT1Sign_ & ((1<<1)-1)) << (0+9+1+3+2);
     Address += ( CLCT4_  & ((1<<2)-1))    << (0+9+1+3+2+1);
     Address += ( CLCT4Sign_ & ((1<<1)-1)) << (0+9+1+3+2+1+2);
     Address += ( FR1_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1);
     Address += ( FR4_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+9+1+3+2+1+2+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+9+1+3+2+1+2+1+1+1+5);
       }
     if (doComp && mode_inv==6) // 2-3
       {
     // signed full precision dPhi12
     int dPhi23Sign = 1;
     // Unused variables
     // int CLCT2Sign = 1;
     // int CLCT3Sign = 1;

     if (dPhi23<0) dPhi23Sign = -1;
     // if (CLCT2<0) CLCT2Sign = -1;
     // if (CLCT3<0) CLCT3Sign = -1;

     // Make Pt LUT Address
     int dPhi23_ = fabs(dPhi23);
     int sign23_ = dPhi23Sign > 0 ? 1 : 0;
     int dTheta23_ = getdTheta(dTheta23);
     int CLCT2_ = getCLCT(CLCT2);
     int CLCT2Sign_ = CLCT2_ > 0 ? 1 : 0;
     CLCT2_ = abs(CLCT2_);
     int CLCT3_ = getCLCT(CLCT3);
     int CLCT3Sign_ = CLCT3_ > 0 ? 1 : 0;
     CLCT3_ = abs(CLCT3_);
     int FR2_ = FR2;
     int FR3_ = FR3;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi23_ & ((1<<9)-1))    << (0);
     Address += ( sign23_ & ((1<<1)-1))    << (0+9);
     Address += ( dTheta23_ & ((1<<3)-1))  << (0+9+1);
     Address += ( CLCT2_  & ((1<<2)-1))    << (0+9+1+3);
     Address += ( CLCT2Sign_ & ((1<<1)-1)) << (0+9+1+3+2);
     Address += ( CLCT3_  & ((1<<2)-1))    << (0+9+1+3+2+1);
     Address += ( CLCT3Sign_ & ((1<<1)-1)) << (0+9+1+3+2+1+2);
     Address += ( FR2_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1);
     Address += ( FR3_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+9+1+3+2+1+2+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+9+1+3+2+1+2+1+1+1+5);
       }
     if (doComp && mode_inv==10) // 2-4
       {
     // signed full precision dPhi12
     int dPhi24Sign = 1;
     // Unused variables
     // int CLCT2Sign = 1;
     // int CLCT4Sign = 1;

     if (dPhi24<0) dPhi24Sign = -1;
     // if (CLCT2<0) CLCT2Sign = -1;
     // if (CLCT4<0) CLCT4Sign = -1;

     // Make Pt LUT Address
     int dPhi24_ = fabs(dPhi24);
     int sign24_ = dPhi24Sign > 0 ? 1 : 0;
     int dTheta24_ = getdTheta(dTheta24);
     int CLCT2_ = getCLCT(CLCT2);
     int CLCT2Sign_ = CLCT2_ > 0 ? 1 : 0;
     CLCT2_ = abs(CLCT2_);
     int CLCT4_ = getCLCT(CLCT4);
     int CLCT4Sign_ = CLCT4_ > 0 ? 1 : 0;
     CLCT4_ = abs(CLCT4_);
     int FR2_ = FR2;
     int FR4_ = FR4;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi24_ & ((1<<9)-1))    << (0);
     Address += ( sign24_ & ((1<<1)-1))    << (0+9);
     Address += ( dTheta24_ & ((1<<3)-1))  << (0+9+1);
     Address += ( CLCT2_  & ((1<<2)-1))    << (0+9+1+3);
     Address += ( CLCT2Sign_ & ((1<<1)-1)) << (0+9+1+3+2);
     Address += ( CLCT4_  & ((1<<2)-1))    << (0+9+1+3+2+1);
     Address += ( CLCT4Sign_ & ((1<<1)-1)) << (0+9+1+3+2+1+2);
     Address += ( FR2_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1);
     Address += ( FR4_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+9+1+3+2+1+2+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+9+1+3+2+1+2+1+1+1+5);
       }
     if (doComp && mode_inv==12) // 3-4
       {
     int dPhi34Sign = 1;
     // Unused variables
     // int CLCT3Sign = 1;
     // int CLCT4Sign = 1;

     if (dPhi34<0) dPhi34Sign = -1;
     // if (CLCT3<0) CLCT3Sign = -1;
     // if (CLCT4<0) CLCT4Sign = -1;

     // Make Pt LUT Address
     int dPhi34_ = fabs(dPhi34);
     int sign34_ = dPhi34Sign > 0 ? 1 : 0;
     int dTheta34_ = getdTheta(dTheta34);
     int CLCT3_ = getCLCT(CLCT3);
     int CLCT3Sign_ = CLCT3_ > 0 ? 1 : 0;
     CLCT3_ = abs(CLCT3_);
     int CLCT4_ = getCLCT(CLCT4);
     int CLCT4Sign_ = CLCT4_ > 0 ? 1 : 0;
     CLCT4_ = abs(CLCT4_);
     int FR3_ = FR3;
     int FR4_ = FR4;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi34_ & ((1<<9)-1))    << (0);
     Address += ( sign34_ & ((1<<1)-1))    << (0+9);
     Address += ( dTheta34_ & ((1<<3)-1))  << (0+9+1);
     Address += ( CLCT3_  & ((1<<2)-1))    << (0+9+1+3);
     Address += ( CLCT3Sign_ & ((1<<1)-1)) << (0+9+1+3+2);
     Address += ( CLCT4_  & ((1<<2)-1))    << (0+9+1+3+2+1);
     Address += ( CLCT4Sign_ & ((1<<1)-1)) << (0+9+1+3+2+1+2);
     Address += ( FR3_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1);
     Address += ( FR4_  & ((1<<1)-1))      << (0+9+1+3+2+1+2+1+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+9+1+3+2+1+2+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+9+1+3+2+1+2+1+1+1+5);
       }

     if (doComp && mode_inv==7) // 1-2-3
       {
     int dPhi12Sign = 1;
     int dPhi23Sign = 1;
     // Unused variables
     // int dPhi34Sign = 1;
     // int CLCT1Sign = 1;

     if (dPhi12<0) dPhi12Sign = -1;
     if (dPhi23<0) dPhi23Sign = -1;
     // if (dPhi34<0) dPhi34Sign = -1;
     // if (CLCT1<0) CLCT1Sign = -1;

     // Make Pt LUT Address
     int dPhi12_ = getNLBdPhiBin(dPhi12, 7, 512);
     int dPhi23_ = getNLBdPhiBin(dPhi23, 5, 256);
     int sign12_ = dPhi12Sign > 0 ? 1 : 0;
     int sign23_ = dPhi23Sign > 0 ? 1 : 0;
     int dTheta13_ = getdTheta(dTheta13);
     int CLCT1_ = getCLCT(CLCT1);
     int CLCT1Sign_ = CLCT1_ > 0 ? 1 : 0;
     CLCT1_ = abs(CLCT1_);
     int FR1_ = FR1;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi12_ & ((1<<7)-1))    << (0);
     Address += ( dPhi23_ & ((1<<5)-1))    << (0+7);
     Address += ( sign12_  & ((1<<1)-1))   << (0+7+5);
     Address += ( sign23_  & ((1<<1)-1))   << (0+7+5+1);
     Address += ( dTheta13_ & ((1<<3)-1))  << (0+7+5+1+1);
     Address += ( CLCT1_  & ((1<<2)-1))    << (0+7+5+1+1+3);
     Address += ( CLCT1Sign_ & ((1<<1)-1)) << (0+7+5+1+1+3+2);
     Address += ( FR1_  & ((1<<1)-1))      << (0+7+5+1+1+3+2+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+7+5+1+1+3+2+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+7+5+1+1+3+2+1+1+5);
       }

     if (doComp && mode_inv==11)
       {
     int dPhi12Sign = 1;
     int dPhi24Sign = 1;
     // Unused variable
     // int CLCT1Sign = 1;

     if (dPhi12<0) dPhi12Sign = -1;
     if (dPhi24<0) dPhi24Sign = -1;
     // if (CLCT1<0) CLCT1Sign = -1;

     // Make Pt LUT Address
     int dPhi12_ = getNLBdPhiBin(dPhi12, 7, 512);
     int dPhi24_ = getNLBdPhiBin(dPhi24, 5, 256);
     int sign12_ = dPhi12Sign > 0 ? 1 : 0;
     int sign24_ = dPhi24Sign > 0 ? 1 : 0;
     int dTheta14_ = getdTheta(dTheta14);
     int CLCT1_ = getCLCT(CLCT1);
     int CLCT1Sign_ = CLCT1_ > 0 ? 1 : 0;
     CLCT1_ = abs(CLCT1_);
     int FR1_ = FR1;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi12_ & ((1<<7)-1))    << (0);
     Address += ( dPhi24_ & ((1<<5)-1))    << (0+7);
     Address += ( sign12_ & ((1<<1)-1))    << (0+7+5);
     Address += ( sign24_ & ((1<<1)-1))    << (0+7+5+1);
     Address += ( dTheta14_ & ((1<<3)-1))  << (0+7+5+1+1);
     Address += ( CLCT1_  & ((1<<2)-1))    << (0+7+5+1+1+3);
     Address += ( CLCT1Sign_ & ((1<<1)-1)) << (0+7+5+1+1+3+2);
     Address += ( FR1_  & ((1<<1)-1))      << (0+7+5+1+1+3+2+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+7+5+1+1+3+2+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+7+5+1+1+3+2+1+1+5);
       }
     if (doComp && mode_inv==13) // 1-3-4
       {
     int dPhi13Sign = 1;
     int dPhi34Sign = 1;
     // Unused variable
     // int CLCT1Sign = 1;

     if (dPhi13<0) dPhi13Sign = -1;
     if (dPhi34<0) dPhi34Sign = -1;
     // if (CLCT1<0) CLCT1Sign = -1;

     // Make Pt LUT Address
     int dPhi13_ = getNLBdPhiBin(dPhi13, 7, 512);
     int dPhi34_ = getNLBdPhiBin(dPhi34, 5, 256);
     int sign13_ = dPhi13Sign > 0 ? 1 : 0;
     int sign34_ = dPhi34Sign > 0 ? 1 : 0;
     int dTheta14_ = getdTheta(dTheta14);
     int CLCT1_ = getCLCT(CLCT1);
     int CLCT1Sign_ = CLCT1_ > 0 ? 1 : 0;
     CLCT1_ = abs(CLCT1_);
     int FR1_ = FR1;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi13_ & ((1<<7)-1))    << (0);
     Address += ( dPhi34_ & ((1<<5)-1))    << (0+7);
     Address += ( sign13_  & ((1<<1)-1))   << (0+7+5);
     Address += ( sign34_  & ((1<<1)-1))   << (0+7+5+1);
     Address += ( dTheta14_ & ((1<<3)-1))  << (0+7+5+1+1);
     Address += ( CLCT1_  & ((1<<2)-1))    << (0+7+5+1+1+3);
     Address += ( CLCT1Sign_ & ((1<<1)-1)) << (0+7+5+1+1+3+2);
     Address += ( FR1_  & ((1<<1)-1))      << (0+7+5+1+1+3+2+1);
     Address += ( eta_  & ((1<<5)-1))      << (0+7+5+1+1+3+2+1+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+7+5+1+1+3+2+1+1+5);
       }

     if (doComp && mode_inv==14) // 2-3-4
       {
     int dPhi23Sign = 1;
     int dPhi34Sign = 1;
     // Unused variables
     // int dEta24Sign = 1;
     // int CLCT2Sign = 1;

     if (dPhi23<0) dPhi23Sign = -1;
     if (dPhi34<0) dPhi34Sign = -1;
     // if (CLCT2<0) CLCT2Sign = -1;

     // Make Pt LUT Address
     int dPhi23_ = getNLBdPhiBin(dPhi23, 7, 512);
     int dPhi34_ = getNLBdPhiBin(dPhi34, 6, 256);
     int sign23_ = dPhi23Sign > 0 ? 1 : 0;
     int sign34_ = dPhi34Sign > 0 ? 1 : 0;
     int dTheta24_ = getdTheta(dTheta24);
     int CLCT2_ = getCLCT(CLCT2);
     int CLCT2Sign_ = CLCT2_ > 0 ? 1 : 0;
     CLCT2_ = abs(CLCT2_);
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi23_ & ((1<<7)-1))    << (0);
     Address += ( dPhi34_ & ((1<<6)-1))    << (0+7);
     Address += ( sign23_ & ((1<<1)-1))    << (0+7+6);
     Address += ( sign34_ & ((1<<1)-1))    << (0+7+6+1);
     Address += ( dTheta24_ & ((1<<3)-1))  << (0+7+6+1+1);
     Address += ( CLCT2_  & ((1<<2)-1))    << (0+7+6+1+1+3);
     Address += ( CLCT2Sign_ & ((1<<1)-1)) << (0+7+6+1+1+3+2);
     Address += ( eta_  & ((1<<5)-1))      << (0+7+6+1+1+3+2+1);
     Address += ( Mode_ & ((1<<4)-1))      << (0+7+6+1+1+3+2+1+5);
       }

     if (doComp && mode_inv==15) // 1-2-3-4
       {
     int dPhi12Sign = 1;
     int dPhi23Sign = 1;
     int dPhi34Sign = 1;

     if (dPhi12<0) dPhi12Sign = -1;
     if (dPhi23<0) dPhi23Sign = -1;
     if (dPhi34<0) dPhi34Sign = -1;

     dPhi23Sign *= dPhi12Sign;
     dPhi34Sign *= dPhi12Sign;
     dPhi12Sign = 1;

     // Make Pt LUT Address
     int dPhi12_ = getNLBdPhiBin(dPhi12, 7, 512);
     int dPhi23_ = getNLBdPhiBin(dPhi23, 5, 256);
     int dPhi34_ = getNLBdPhiBin(dPhi34, 6, 256);
     int sign23_ = dPhi23Sign > 0 ? 1 : 0;
     int sign34_ = dPhi34Sign > 0 ? 1 : 0;
     int FR1_ = FR1;
     int eta_ = getEtaInt(TrackEta, 5);
     int Mode_ = mode_inv;

     Address += ( dPhi12_ & ((1<<7)-1)) << 0;
     Address += ( dPhi23_ & ((1<<5)-1)) << (0+7);
     Address += ( dPhi34_ & ((1<<6)-1)) << (0+7+5);
     Address += ( sign23_ & ((1<<1)-1)) << (0+7+5+6);
     Address += ( sign34_ & ((1<<1)-1)) << (0+7+5+6+1);
     Address += ( FR1_ & ((1<<1)-1))    << (0+7+5+6+1+1);
     Address += ( eta_ & ((1<<5)-1))    << (0+7+5+6+1+1+1);
     Address += ( Mode_ & ((1<<4)-1))   << (0+7+5+6+1+1+1+5);
       }

     return Address;
 }


TagProbeFitTreeAnalyzer_cfi.Variables
Variables
Definition: TagProbeFitTreeAnalyzer_cfi.py:16

findQualityFiles.size
size
Write out results.
Definition: findQualityFiles.py:442

math.h

l1t::EmtfPtAssignment::allowedModes_
std::vector< int > allowedModes_
Definition: PtAssignment.h:22

reco::tau::disc::TrackEta
VDouble TrackEta(Tau)
Definition: RecoTauDiscriminantFunctions.cc:336

mps_fire.i
i
Definition: mps_fire.py:156

EnergyCorrector.etas
etas
Definition: EnergyCorrector.py:44

stringResolutionProvider_cfi.eta
eta
Definition: stringResolutionProvider_cfi.py:14

L1TMuon::InternalTrack::getStubs
const TriggerPrimitiveStationMap & getStubs() const
Definition: MuonInternalTrack.h:61

getdPhiFromBin
static float getdPhiFromBin(int dPhiBin, int bits, int max=512)
Definition: PtAssignment.cc:260

getEtaInt
static int getEtaInt(float eta, int bits=5)
Definition: PtAssignment.cc:403

L1TMuon
Definition: CSCCollector.h:15

hpstanc_transforms.max
max
Definition: hpstanc_transforms.py:5

MuonGeometryRecord.h

verbose
Definition: MagVerbosity.h:13

GeomDet::toGlobal
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54

bits
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision bits
Definition: EventSelector-behavior.doc:35

alignCSCRings.s
s
Definition: alignCSCRings.py:91

getEta
static float getEta(float eta, int bits=5)
Definition: PtAssignment.cc:387

emtf::Event
Definition: Event.h:16

std
Definition: JetResolutionObject.h:76

emtf
Definition: Event.h:15

l1t::EmtfPtAssignment::calculatePt
float calculatePt(unsigned long Address)
Definition: PtAssignment.cc:436

l1t
delete x;
Definition: CaloConfig.h:22

L1TForest::loadL1TForestFromXML
void loadL1TForestFromXML(const char *directory, unsigned int numTrees)
Definition: Forest.cc:489

CSCTriggerGeometry.h

L1TMuon::InternalTrack::thetas
std::vector< int > thetas
Definition: MuonInternalTrack.h:79

ModeVariables_Scheme3
static const int ModeVariables_Scheme3[13][6]
Definition: PtAssignment.cc:74

MuonGeometryRecord
Definition: MuonGeometryRecord.h:28

x
T x() const
Cartesian x coordinate.
Definition: Basic3DVectorLD.h:127

L1TMuon::InternalTrack::theta
int theta
Definition: MuonInternalTrack.h:76

photonValidator_cfi.dPhiBin
dPhiBin
Definition: photonValidator_cfi.py:77

ALCARECOPromptCalibProdSiPixelAli0T_cff.mode
mode
Definition: ALCARECOPromptCalibProdSiPixelAli0T_cff.py:96

edm::ESHandle< CSCGeometry >

getCLCT
static float getCLCT(float clct)
Definition: PtAssignment.cc:290

conversionPostprocessing_cfi.etaBin
etaBin
Definition: conversionPostprocessing_cfi.py:18

PV3DBase::z
T z() const
Definition: PV3DBase.h:64

getdTheta
static float getdTheta(float dTheta)
Definition: PtAssignment.cc:333

l1t::EmtfPtAssignment::calculateAddress
unsigned long calculateAddress(L1TMuon::InternalTrack track, const edm::EventSetup &es, int mode)
Definition: PtAssignment.cc:869

funct::tan
Tan< T >::type tan(const T &t)
Definition: Tan.h:22

funct::abs
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

getNLBdPhi
static float getNLBdPhi(float dPhi, int bits, int max=512)
Definition: PtAssignment.cc:122

dPhiNLBMap_8bit
static const int dPhiNLBMap_8bit[256]
Definition: PtAssignment.cc:117

f
double f[11][100]
Definition: MuScleFitUtils.cc:78

L1TMuon::InternalTrack::deltas
std::vector< std::vector< int > > deltas
Definition: MuonInternalTrack.h:78

dPhiNLBMap_7bit_256Max
static const int dPhiNLBMap_7bit_256Max[128]
Definition: PtAssignment.cc:98

edm::EventSetup
Definition: EventSetup.h:45

dPhiNLBMap_8bit_512Max
static const int dPhiNLBMap_8bit_512Max[256]
Definition: PtAssignment.cc:104

dPhiNLBMap_7bit_512Max
static const int dPhiNLBMap_7bit_512Max[256]
Definition: PtAssignment.cc:102

event
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past

EmulatorClasses.h

edmIntegrityCheck.d
d
Definition: edmIntegrityCheck.py:65

glc
globcontrol glc
Definition: vlib.cc:6

l1t::EmtfPtAssignment::forest_
L1TForest forest_[16]
Definition: PtAssignment.h:23

PtAssignment.h

L1TMuon::InternalTrack::phis
std::vector< int > phis
Definition: MuonInternalTrack.h:79

getNLBdPhiBin
static int getNLBdPhiBin(float dPhi, int bits, int max=512)
Definition: PtAssignment.cc:193

HiIsolationCommonParameters_cff.track
track
Definition: HiIsolationCommonParameters_cff.py:9

edm::EventSetup::get
const T & get() const
Definition: EventSetup.h:56

CSCGeometry::chamber
const CSCChamber * chamber(CSCDetId id) const
Return the chamber corresponding to given DetId.
Definition: CSCGeometry.cc:118

getEtafromBin
static float getEtafromBin(int etaBin, int bits=5)
Definition: PtAssignment.cc:421

cmsBatch.log
log
Definition: cmsBatch.py:341

dPhiNLBMap_5bit
static const int dPhiNLBMap_5bit[32]
Definition: PtAssignment.cc:107

TauDecayModes.dec
dec
Definition: TauDecayModes.py:141

L1TForest::predictEvent
void predictEvent(emtf::Event *e, unsigned int trees)
Definition: Forest.cc:451

Point3DBase< float, LocalTag >

dPhiNLBMap_5bit_256Max
static const int dPhiNLBMap_5bit_256Max[32]
Definition: PtAssignment.cc:94

l1t::EmtfPtAssignment::EmtfPtAssignment
EmtfPtAssignment(const char *tree_dir="L1Trigger/L1TMuon/data/emtf_luts/v_16_02_21/ModeVariables/trees")
Definition: PtAssignment.cc:22

edm::shift
static unsigned int const shift
Definition: LuminosityBlockID.cc:9

dPhiNLBMap_6bit_256Max
static const int dPhiNLBMap_6bit_256Max[64]
Definition: PtAssignment.cc:96

gather_cfg.cout
cout
Definition: gather_cfg.py:145

L1TMuon::TriggerPrimitiveStationMap
std::map< unsigned, TriggerPrimitiveCollection > TriggerPrimitiveStationMap
Definition: MuonTriggerPrimitiveFwd.h:17

dPhiNLBMap_7bit
static const int dPhiNLBMap_7bit[128]
Definition: PtAssignment.cc:112

CSCChamber
Definition: CSCChamber.h:22

CSCGeometry.h

L1TMuon::InternalTrack
Definition: MuonInternalTrack.h:37

event
Definition: event.py:1