00001 #include "EventFilter/GctRawToDigi/src/GctFormatTranslateV38.h"
00002
00003
00004 #include <iostream>
00005 #include <cassert>
00006 #include <algorithm>
00007 #include <cmath>
00008
00009
00010 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00011
00012
00013 using std::cout;
00014 using std::endl;
00015 using std::pair;
00016 using std::make_pair;
00017
00018
00019 GctFormatTranslateV38::BlockLengthMap GctFormatTranslateV38::m_blockLength = GctFormatTranslateV38::BlockLengthMap();
00020 GctFormatTranslateV38::BlockNameMap GctFormatTranslateV38::m_blockName = GctFormatTranslateV38::BlockNameMap();
00021 GctFormatTranslateV38::BlockIdToUnpackFnMap GctFormatTranslateV38::m_blockUnpackFn = GctFormatTranslateV38::BlockIdToUnpackFnMap();
00022 GctFormatTranslateV38::BlkToRctCrateMap GctFormatTranslateV38::m_rctEmCrate = GctFormatTranslateV38::BlkToRctCrateMap();
00023 GctFormatTranslateV38::BlkToRctCrateMap GctFormatTranslateV38::m_rctJetCrate = GctFormatTranslateV38::BlkToRctCrateMap();
00024 GctFormatTranslateV38::BlockIdToEmCandIsoBoundMap GctFormatTranslateV38::m_internEmIsoBounds = GctFormatTranslateV38::BlockIdToEmCandIsoBoundMap();
00025
00026
00027
00028
00029 GctFormatTranslateV38::GctFormatTranslateV38(bool hltMode, bool unpackSharedRegions,
00030 unsigned numberOfGctSamplesToUnpack,
00031 unsigned numberOfRctSamplesToUnpack):
00032 GctFormatTranslateBase(hltMode, unpackSharedRegions),
00033 m_numberOfGctSamplesToUnpack(numberOfGctSamplesToUnpack),
00034 m_numberOfRctSamplesToUnpack(numberOfRctSamplesToUnpack)
00035 {
00036 static bool initClass = true;
00037
00038 if(initClass)
00039 {
00040 initClass = false;
00041
00042
00043
00044 m_blockLength.insert(make_pair(0x000,0));
00045
00046 m_blockLength.insert(make_pair(0x580,12));
00047 m_blockLength.insert(make_pair(0x581,2));
00048 m_blockLength.insert(make_pair(0x582,4));
00049 m_blockLength.insert(make_pair(0x583,8));
00050 m_blockLength.insert(make_pair(0x587,4));
00051
00052 m_blockLength.insert(make_pair(0x680,16));
00053 m_blockLength.insert(make_pair(0x681,6));
00054 m_blockLength.insert(make_pair(0x682,2));
00055 m_blockLength.insert(make_pair(0x683,6));
00056 m_blockLength.insert(make_pair(0x686,2));
00057 m_blockLength.insert(make_pair(0x687,4));
00058
00059 m_blockLength.insert(make_pair(0x800,20));
00060 m_blockLength.insert(make_pair(0x803,4));
00061 m_blockLength.insert(make_pair(0x804,15));
00062 m_blockLength.insert(make_pair(0x880,16));
00063 m_blockLength.insert(make_pair(0x883,4));
00064 m_blockLength.insert(make_pair(0x884,12));
00065 m_blockLength.insert(make_pair(0xc00,20));
00066 m_blockLength.insert(make_pair(0xc03,4));
00067 m_blockLength.insert(make_pair(0xc04,15));
00068 m_blockLength.insert(make_pair(0xc80,16));
00069 m_blockLength.insert(make_pair(0xc83,4));
00070 m_blockLength.insert(make_pair(0xc84,12));
00071
00072 m_blockLength.insert(make_pair(0x300,27));
00073 m_blockLength.insert(make_pair(0x301,3));
00074 m_blockLength.insert(make_pair(0x303,6));
00075 m_blockLength.insert(make_pair(0x305,2));
00076 m_blockLength.insert(make_pair(0x306,32));
00077 m_blockLength.insert(make_pair(0x307,4));
00078
00079 m_blockLength.insert(make_pair(0x380,21));
00080 m_blockLength.insert(make_pair(0x381,6));
00081 m_blockLength.insert(make_pair(0x383,7));
00082 m_blockLength.insert(make_pair(0x385,2));
00083 m_blockLength.insert(make_pair(0x386,32));
00084 m_blockLength.insert(make_pair(0x387,6));
00085
00086 m_blockLength.insert(make_pair(0x700,27));
00087 m_blockLength.insert(make_pair(0x701,3));
00088 m_blockLength.insert(make_pair(0x703,6));
00089 m_blockLength.insert(make_pair(0x705,2));
00090 m_blockLength.insert(make_pair(0x706,32));
00091 m_blockLength.insert(make_pair(0x707,4));
00092
00093 m_blockLength.insert(make_pair(0x780,21));
00094 m_blockLength.insert(make_pair(0x781,6));
00095 m_blockLength.insert(make_pair(0x783,7));
00096 m_blockLength.insert(make_pair(0x785,2));
00097 m_blockLength.insert(make_pair(0x786,32));
00098 m_blockLength.insert(make_pair(0x787,6));
00099
00100 m_blockLength.insert(make_pair(0x900,13));
00101 m_blockLength.insert(make_pair(0x901,3));
00102 m_blockLength.insert(make_pair(0x902,3));
00103 m_blockLength.insert(make_pair(0x903,10));
00104 m_blockLength.insert(make_pair(0x904,8));
00105 m_blockLength.insert(make_pair(0x908,13));
00106 m_blockLength.insert(make_pair(0x909,3));
00107 m_blockLength.insert(make_pair(0x90a,3));
00108 m_blockLength.insert(make_pair(0x90b,10));
00109 m_blockLength.insert(make_pair(0x90c,8));
00110 m_blockLength.insert(make_pair(0x980,6));
00111 m_blockLength.insert(make_pair(0x984,6));
00112 m_blockLength.insert(make_pair(0x988,13));
00113 m_blockLength.insert(make_pair(0x989,3));
00114 m_blockLength.insert(make_pair(0x98a,3));
00115 m_blockLength.insert(make_pair(0x98b,10));
00116 m_blockLength.insert(make_pair(0x98c,8));
00117 m_blockLength.insert(make_pair(0xa00,13));
00118 m_blockLength.insert(make_pair(0xa01,3));
00119 m_blockLength.insert(make_pair(0xa02,3));
00120 m_blockLength.insert(make_pair(0xa03,10));
00121 m_blockLength.insert(make_pair(0xa04,8));
00122 m_blockLength.insert(make_pair(0xa08,13));
00123 m_blockLength.insert(make_pair(0xa09,3));
00124 m_blockLength.insert(make_pair(0xa0a,3));
00125 m_blockLength.insert(make_pair(0xa0b,10));
00126 m_blockLength.insert(make_pair(0xa0c,8));
00127 m_blockLength.insert(make_pair(0xa80,6));
00128 m_blockLength.insert(make_pair(0xa84,6));
00129 m_blockLength.insert(make_pair(0xa88,13));
00130 m_blockLength.insert(make_pair(0xa89,3));
00131 m_blockLength.insert(make_pair(0xa8a,3));
00132 m_blockLength.insert(make_pair(0xa8b,10));
00133 m_blockLength.insert(make_pair(0xa8c,8));
00134 m_blockLength.insert(make_pair(0xb00,13));
00135 m_blockLength.insert(make_pair(0xb01,3));
00136 m_blockLength.insert(make_pair(0xb02,3));
00137 m_blockLength.insert(make_pair(0xb03,10));
00138 m_blockLength.insert(make_pair(0xb04,8));
00139 m_blockLength.insert(make_pair(0xb08,13));
00140 m_blockLength.insert(make_pair(0xb09,3));
00141 m_blockLength.insert(make_pair(0xb0a,3));
00142 m_blockLength.insert(make_pair(0xb0b,10));
00143 m_blockLength.insert(make_pair(0xb0c,8));
00144 m_blockLength.insert(make_pair(0xb80,6));
00145 m_blockLength.insert(make_pair(0xb84,6));
00146 m_blockLength.insert(make_pair(0xb88,13));
00147 m_blockLength.insert(make_pair(0xb89,3));
00148 m_blockLength.insert(make_pair(0xb8a,3));
00149 m_blockLength.insert(make_pair(0xb8b,10));
00150 m_blockLength.insert(make_pair(0xb8c,8));
00151
00152 m_blockLength.insert(make_pair(0xd00,13));
00153 m_blockLength.insert(make_pair(0xd01,3));
00154 m_blockLength.insert(make_pair(0xd02,3));
00155 m_blockLength.insert(make_pair(0xd03,10));
00156 m_blockLength.insert(make_pair(0xd04,8));
00157 m_blockLength.insert(make_pair(0xd08,13));
00158 m_blockLength.insert(make_pair(0xd09,3));
00159 m_blockLength.insert(make_pair(0xd0a,3));
00160 m_blockLength.insert(make_pair(0xd0b,10));
00161 m_blockLength.insert(make_pair(0xd0c,8));
00162 m_blockLength.insert(make_pair(0xd80,6));
00163 m_blockLength.insert(make_pair(0xd84,6));
00164 m_blockLength.insert(make_pair(0xd88,13));
00165 m_blockLength.insert(make_pair(0xd89,3));
00166 m_blockLength.insert(make_pair(0xd8a,3));
00167 m_blockLength.insert(make_pair(0xd8b,10));
00168 m_blockLength.insert(make_pair(0xd8c,8));
00169 m_blockLength.insert(make_pair(0xe00,13));
00170 m_blockLength.insert(make_pair(0xe01,3));
00171 m_blockLength.insert(make_pair(0xe02,3));
00172 m_blockLength.insert(make_pair(0xe03,10));
00173 m_blockLength.insert(make_pair(0xe04,8));
00174 m_blockLength.insert(make_pair(0xe08,13));
00175 m_blockLength.insert(make_pair(0xe09,3));
00176 m_blockLength.insert(make_pair(0xe0a,3));
00177 m_blockLength.insert(make_pair(0xe0b,10));
00178 m_blockLength.insert(make_pair(0xe0c,8));
00179 m_blockLength.insert(make_pair(0xe80,6));
00180 m_blockLength.insert(make_pair(0xe84,6));
00181 m_blockLength.insert(make_pair(0xe88,13));
00182 m_blockLength.insert(make_pair(0xe89,3));
00183 m_blockLength.insert(make_pair(0xe8a,3));
00184 m_blockLength.insert(make_pair(0xe8b,10));
00185 m_blockLength.insert(make_pair(0xe8c,8));
00186 m_blockLength.insert(make_pair(0xf00,13));
00187 m_blockLength.insert(make_pair(0xf01,3));
00188 m_blockLength.insert(make_pair(0xf02,3));
00189 m_blockLength.insert(make_pair(0xf03,10));
00190 m_blockLength.insert(make_pair(0xf04,8));
00191 m_blockLength.insert(make_pair(0xf08,13));
00192 m_blockLength.insert(make_pair(0xf09,3));
00193 m_blockLength.insert(make_pair(0xf0a,3));
00194 m_blockLength.insert(make_pair(0xf0b,10));
00195 m_blockLength.insert(make_pair(0xf0c,8));
00196 m_blockLength.insert(make_pair(0xf80,6));
00197 m_blockLength.insert(make_pair(0xf84,6));
00198 m_blockLength.insert(make_pair(0xf88,13));
00199 m_blockLength.insert(make_pair(0xf89,3));
00200 m_blockLength.insert(make_pair(0xf8a,3));
00201 m_blockLength.insert(make_pair(0xf8b,10));
00202 m_blockLength.insert(make_pair(0xf8c,8));
00203
00204
00205
00206
00207 m_blockName.insert(make_pair(0x000,"NULL"));
00208
00209 m_blockName.insert(make_pair(0x580,"ConcJet: Input TrigPathA (Jet Cands)"));
00210 m_blockName.insert(make_pair(0x581,"ConcJet: Input TrigPathB (HF Rings)"));
00211 m_blockName.insert(make_pair(0x582,"ConcJet: Input TrigPathC (MissHt)"));
00212 m_blockName.insert(make_pair(0x583,"ConcJet: Jet Cands and Counts Output to GT"));
00213 m_blockName.insert(make_pair(0x587,"ConcJet: BX & Orbit Info"));
00214
00215 m_blockName.insert(make_pair(0x680,"ConcElec: Input TrigPathA (EM Cands)"));
00216 m_blockName.insert(make_pair(0x681,"ConcElec: Input TrigPathB (Et Sums)"));
00217 m_blockName.insert(make_pair(0x682,"ConcElec: Input TrigPathC (Ht Sums)"));
00218 m_blockName.insert(make_pair(0x683,"ConcElec: EM Cands and Energy Sums Output to GT"));
00219 m_blockName.insert(make_pair(0x686,"ConcElec: Test (GT Serdes Loopback)"));
00220 m_blockName.insert(make_pair(0x687,"ConcElec: BX & Orbit Info"));
00221
00222 m_blockName.insert(make_pair(0x800,"Leaf0ElecPosEtaU1: Sort Input"));
00223 m_blockName.insert(make_pair(0x803,"Leaf0ElecPosEtaU1: Sort Output"));
00224 m_blockName.insert(make_pair(0x804,"Leaf0ElecPosEtaU1: Raw Input"));
00225 m_blockName.insert(make_pair(0x880,"Leaf0ElecPosEtaU2: Sort Input"));
00226 m_blockName.insert(make_pair(0x883,"Leaf0ElecPosEtaU2: Sort Output"));
00227 m_blockName.insert(make_pair(0x884,"Leaf0ElecPosEtaU2: Raw Input"));
00228 m_blockName.insert(make_pair(0xc00,"Leaf0ElecNegEtaU1: Sort Input"));
00229 m_blockName.insert(make_pair(0xc03,"Leaf0ElecNegEtaU1: Sort Output"));
00230 m_blockName.insert(make_pair(0xc04,"Leaf0ElecNegEtaU1: Raw Input"));
00231 m_blockName.insert(make_pair(0xc80,"Leaf0ElecNegEtaU2: Sort Input"));
00232 m_blockName.insert(make_pair(0xc83,"Leaf0ElecNegEtaU2: Sort Output"));
00233 m_blockName.insert(make_pair(0xc84,"Leaf0ElecNegEtaU2: Raw Input"));
00234
00235 m_blockName.insert(make_pair(0x300,"WheelPosEtaJet: Input TrigPathA (Jet Sort)"));
00236 m_blockName.insert(make_pair(0x301,"WheelPosEtaJet: Input TrigPathB (MissHt)"));
00237 m_blockName.insert(make_pair(0x303,"WheelPosEtaJet: Output TrigPathA (Jet Sort)"));
00238 m_blockName.insert(make_pair(0x305,"WheelPosEtaJet: Output TrigPathB (MissHt)"));
00239 m_blockName.insert(make_pair(0x306,"WheelPosEtaJet: Test (deprecated)"));
00240 m_blockName.insert(make_pair(0x307,"WheelPosEtaJet: Info (deprecated)"));
00241
00242 m_blockName.insert(make_pair(0x380,"WheelPosEtaEnergy: Input TrigPathA (Et)"));
00243 m_blockName.insert(make_pair(0x381,"WheelPosEtaEnergy: Input TrigPathB (Ht)"));
00244 m_blockName.insert(make_pair(0x383,"WheelPosEtaEnergy: Output TrigPathA (Et)"));
00245 m_blockName.insert(make_pair(0x385,"WheelPosEtaEnergy: Output TrigPathB (Ht)"));
00246 m_blockName.insert(make_pair(0x386,"WheelPosEtaEnergy: Test"));
00247 m_blockName.insert(make_pair(0x387,"WheelPosEtaEnergy: BX & Orbit Info"));
00248
00249 m_blockName.insert(make_pair(0x700,"WheelNegEtaJet: Input TrigPathA (Jet Sort)"));
00250 m_blockName.insert(make_pair(0x701,"WheelNegEtaJet: Input TrigPathB (MissHt)"));
00251 m_blockName.insert(make_pair(0x703,"WheelNegEtaJet: Output TrigPathA (Jet Sort)"));
00252 m_blockName.insert(make_pair(0x705,"WheelNegEtaJet: Output TrigPathB (MissHt)"));
00253 m_blockName.insert(make_pair(0x706,"WheelNegEtaJet: Test (deprecated)"));
00254 m_blockName.insert(make_pair(0x707,"WheelNegEtaJet: Info (deprecated)"));
00255
00256 m_blockName.insert(make_pair(0x780,"WheelNegEtaEnergy: Input TrigPathA (Et)"));
00257 m_blockName.insert(make_pair(0x781,"WheelNegEtaEnergy: Input TrigPathB (Ht)"));
00258 m_blockName.insert(make_pair(0x783,"WheelNegEtaEnergy: Output TrigPathA (Et)"));
00259 m_blockName.insert(make_pair(0x785,"WheelNegEtaEnergy: Output TrigPathB (Ht)"));
00260 m_blockName.insert(make_pair(0x786,"WheelNegEtaEnergy: Test"));
00261 m_blockName.insert(make_pair(0x787,"WheelNegEtaEnergy: BX & Orbit Info"));
00262
00263 m_blockName.insert(make_pair(0x900,"Leaf1JetPosEtaU1: JF2 Input"));
00264 m_blockName.insert(make_pair(0x901,"Leaf1JetPosEtaU1: JF2 Shared Received"));
00265 m_blockName.insert(make_pair(0x902,"Leaf1JetPosEtaU1: JF2 Shared Sent"));
00266 m_blockName.insert(make_pair(0x903,"Leaf1JetPosEtaU1: JF2 Output"));
00267 m_blockName.insert(make_pair(0x904,"Leaf1JetPosEtaU1: JF2 Raw Input"));
00268 m_blockName.insert(make_pair(0x908,"Leaf1JetPosEtaU1: JF3 Input"));
00269 m_blockName.insert(make_pair(0x909,"Leaf1JetPosEtaU1: JF3 Shared Received"));
00270 m_blockName.insert(make_pair(0x90a,"Leaf1JetPosEtaU1: JF3 Shared Sent"));
00271 m_blockName.insert(make_pair(0x90b,"Leaf1JetPosEtaU1: JF3 Output"));
00272 m_blockName.insert(make_pair(0x90c,"Leaf1JetPosEtaU1: JF3 Raw Input"));
00273 m_blockName.insert(make_pair(0x980,"Leaf1JetPosEtaU2: Eta0 Input"));
00274 m_blockName.insert(make_pair(0x984,"Leaf1JetPosEtaU2: Eta0 Raw Input"));
00275 m_blockName.insert(make_pair(0x988,"Leaf1JetPosEtaU2: JF1 Input"));
00276 m_blockName.insert(make_pair(0x989,"Leaf1JetPosEtaU2: JF1 Shared Received"));
00277 m_blockName.insert(make_pair(0x98a,"Leaf1JetPosEtaU2: JF1 Shared Sent"));
00278 m_blockName.insert(make_pair(0x98b,"Leaf1JetPosEtaU2: JF1 Output"));
00279 m_blockName.insert(make_pair(0x98c,"Leaf1JetPosEtaU2: JF1 Raw Input"));
00280 m_blockName.insert(make_pair(0xa00,"Leaf2JetPosEtaU1: JF2 Input"));
00281 m_blockName.insert(make_pair(0xa01,"Leaf2JetPosEtaU1: JF2 Shared Received"));
00282 m_blockName.insert(make_pair(0xa02,"Leaf2JetPosEtaU1: JF2 Shared Sent"));
00283 m_blockName.insert(make_pair(0xa03,"Leaf2JetPosEtaU1: JF2 Output"));
00284 m_blockName.insert(make_pair(0xa04,"Leaf2JetPosEtaU1: JF2 Raw Input"));
00285 m_blockName.insert(make_pair(0xa08,"Leaf2JetPosEtaU1: JF3 Input"));
00286 m_blockName.insert(make_pair(0xa09,"Leaf2JetPosEtaU1: JF3 Shared Received"));
00287 m_blockName.insert(make_pair(0xa0a,"Leaf2JetPosEtaU1: JF3 Shared Sent"));
00288 m_blockName.insert(make_pair(0xa0b,"Leaf2JetPosEtaU1: JF3 Output"));
00289 m_blockName.insert(make_pair(0xa0c,"Leaf2JetPosEtaU1: JF3 Raw Input"));
00290 m_blockName.insert(make_pair(0xa80,"Leaf2JetPosEtaU2: Eta0 Input"));
00291 m_blockName.insert(make_pair(0xa84,"Leaf2JetPosEtaU2: Eta0 Raw Input"));
00292 m_blockName.insert(make_pair(0xa88,"Leaf2JetPosEtaU2: JF1 Input"));
00293 m_blockName.insert(make_pair(0xa89,"Leaf2JetPosEtaU2: JF1 Shared Received"));
00294 m_blockName.insert(make_pair(0xa8a,"Leaf2JetPosEtaU2: JF1 Shared Sent"));
00295 m_blockName.insert(make_pair(0xa8b,"Leaf2JetPosEtaU2: JF1 Output"));
00296 m_blockName.insert(make_pair(0xa8c,"Leaf2JetPosEtaU2: JF1 Raw Input"));
00297 m_blockName.insert(make_pair(0xb00,"Leaf3JetPosEtaU1: JF2 Input"));
00298 m_blockName.insert(make_pair(0xb01,"Leaf3JetPosEtaU1: JF2 Shared Received"));
00299 m_blockName.insert(make_pair(0xb02,"Leaf3JetPosEtaU1: JF2 Shared Sent"));
00300 m_blockName.insert(make_pair(0xb03,"Leaf3JetPosEtaU1: JF2 Output"));
00301 m_blockName.insert(make_pair(0xb04,"Leaf3JetPosEtaU1: JF2 Raw Input"));
00302 m_blockName.insert(make_pair(0xb08,"Leaf3JetPosEtaU1: JF3 Input"));
00303 m_blockName.insert(make_pair(0xb09,"Leaf3JetPosEtaU1: JF3 Shared Received"));
00304 m_blockName.insert(make_pair(0xb0a,"Leaf3JetPosEtaU1: JF3 Shared Sent"));
00305 m_blockName.insert(make_pair(0xb0b,"Leaf3JetPosEtaU1: JF3 Output"));
00306 m_blockName.insert(make_pair(0xb0c,"Leaf3JetPosEtaU1: JF3 Raw Input"));
00307 m_blockName.insert(make_pair(0xb80,"Leaf3JetPosEtaU2: Eta0 Input"));
00308 m_blockName.insert(make_pair(0xb84,"Leaf3JetPosEtaU2: Eta0 Raw Input"));
00309 m_blockName.insert(make_pair(0xb88,"Leaf3JetPosEtaU2: JF1 Input"));
00310 m_blockName.insert(make_pair(0xb89,"Leaf3JetPosEtaU2: JF1 Shared Received"));
00311 m_blockName.insert(make_pair(0xb8a,"Leaf3JetPosEtaU2: JF1 Shared Sent"));
00312 m_blockName.insert(make_pair(0xb8b,"Leaf3JetPosEtaU2: JF1 Output"));
00313 m_blockName.insert(make_pair(0xb8c,"Leaf3JetPosEtaU2: JF1 Raw Input"));
00314
00315 m_blockName.insert(make_pair(0xd00,"Leaf1JetNegEtaU1: JF2 Input"));
00316 m_blockName.insert(make_pair(0xd01,"Leaf1JetNegEtaU1: JF2 Shared Received"));
00317 m_blockName.insert(make_pair(0xd02,"Leaf1JetNegEtaU1: JF2 Shared Sent"));
00318 m_blockName.insert(make_pair(0xd03,"Leaf1JetNegEtaU1: JF2 Output"));
00319 m_blockName.insert(make_pair(0xd04,"Leaf1JetNegEtaU1: JF2 Raw Input"));
00320 m_blockName.insert(make_pair(0xd08,"Leaf1JetNegEtaU1: JF3 Input"));
00321 m_blockName.insert(make_pair(0xd09,"Leaf1JetNegEtaU1: JF3 Shared Received"));
00322 m_blockName.insert(make_pair(0xd0a,"Leaf1JetNegEtaU1: JF3 Shared Sent"));
00323 m_blockName.insert(make_pair(0xd0b,"Leaf1JetNegEtaU1: JF3 Output"));
00324 m_blockName.insert(make_pair(0xd0c,"Leaf1JetNegEtaU1: JF3 Raw Input"));
00325 m_blockName.insert(make_pair(0xd80,"Leaf1JetNegEtaU2: Eta0 Input"));
00326 m_blockName.insert(make_pair(0xd84,"Leaf1JetNegEtaU2: Eta0 Raw Input"));
00327 m_blockName.insert(make_pair(0xd88,"Leaf1JetNegEtaU2: JF1 Input"));
00328 m_blockName.insert(make_pair(0xd89,"Leaf1JetNegEtaU2: JF1 Shared Received"));
00329 m_blockName.insert(make_pair(0xd8a,"Leaf1JetNegEtaU2: JF1 Shared Sent"));
00330 m_blockName.insert(make_pair(0xd8b,"Leaf1JetNegEtaU2: JF1 Output"));
00331 m_blockName.insert(make_pair(0xd8c,"Leaf1JetNegEtaU2: JF1 Raw Input"));
00332 m_blockName.insert(make_pair(0xe00,"Leaf2JetNegEtaU1: JF2 Input"));
00333 m_blockName.insert(make_pair(0xe01,"Leaf2JetNegEtaU1: JF2 Shared Received"));
00334 m_blockName.insert(make_pair(0xe02,"Leaf2JetNegEtaU1: JF2 Shared Sent"));
00335 m_blockName.insert(make_pair(0xe03,"Leaf2JetNegEtaU1: JF2 Output"));
00336 m_blockName.insert(make_pair(0xe04,"Leaf2JetNegEtaU1: JF2 Raw Input"));
00337 m_blockName.insert(make_pair(0xe08,"Leaf2JetNegEtaU1: JF3 Input"));
00338 m_blockName.insert(make_pair(0xe09,"Leaf2JetNegEtaU1: JF3 Shared Received"));
00339 m_blockName.insert(make_pair(0xe0a,"Leaf2JetNegEtaU1: JF3 Shared Sent"));
00340 m_blockName.insert(make_pair(0xe0b,"Leaf2JetNegEtaU1: JF3 Output"));
00341 m_blockName.insert(make_pair(0xe0c,"Leaf2JetNegEtaU1: JF3 Raw Input"));
00342 m_blockName.insert(make_pair(0xe80,"Leaf2JetNegEtaU2: Eta0 Input"));
00343 m_blockName.insert(make_pair(0xe84,"Leaf2JetNegEtaU2: Eta0 Raw Input"));
00344 m_blockName.insert(make_pair(0xe88,"Leaf2JetNegEtaU2: JF1 Input"));
00345 m_blockName.insert(make_pair(0xe89,"Leaf2JetNegEtaU2: JF1 Shared Received"));
00346 m_blockName.insert(make_pair(0xe8a,"Leaf2JetNegEtaU2: JF1 Shared Sent"));
00347 m_blockName.insert(make_pair(0xe8b,"Leaf2JetNegEtaU2: JF1 Output"));
00348 m_blockName.insert(make_pair(0xe8c,"Leaf2JetNegEtaU2: JF1 Raw Input"));
00349 m_blockName.insert(make_pair(0xf00,"Leaf3JetNegEtaU1: JF2 Input"));
00350 m_blockName.insert(make_pair(0xf01,"Leaf3JetNegEtaU1: JF2 Shared Received"));
00351 m_blockName.insert(make_pair(0xf02,"Leaf3JetNegEtaU1: JF2 Shared Sent"));
00352 m_blockName.insert(make_pair(0xf03,"Leaf3JetNegEtaU1: JF2 Output"));
00353 m_blockName.insert(make_pair(0xf04,"Leaf3JetNegEtaU1: JF2 Raw Input"));
00354 m_blockName.insert(make_pair(0xf08,"Leaf3JetNegEtaU1: JF3 Input"));
00355 m_blockName.insert(make_pair(0xf09,"Leaf3JetNegEtaU1: JF3 Shared Received"));
00356 m_blockName.insert(make_pair(0xf0a,"Leaf3JetNegEtaU1: JF3 Shared Sent"));
00357 m_blockName.insert(make_pair(0xf0b,"Leaf3JetNegEtaU1: JF3 Output"));
00358 m_blockName.insert(make_pair(0xf0c,"Leaf3JetNegEtaU1: JF3 Raw Input"));
00359 m_blockName.insert(make_pair(0xf80,"Leaf3JetNegEtaU2: Eta0 Input"));
00360 m_blockName.insert(make_pair(0xf84,"Leaf3JetNegEtaU2: Eta0 Raw Input"));
00361 m_blockName.insert(make_pair(0xf88,"Leaf3JetNegEtaU2: JF1 Input"));
00362 m_blockName.insert(make_pair(0xf89,"Leaf3JetNegEtaU2: JF1 Shared Received"));
00363 m_blockName.insert(make_pair(0xf8a,"Leaf3JetNegEtaU2: JF1 Shared Sent"));
00364 m_blockName.insert(make_pair(0xf8b,"Leaf3JetNegEtaU2: JF1 Output"));
00365 m_blockName.insert(make_pair(0xf8c,"Leaf3JetNegEtaU2: JF1 Raw Input"));
00366
00367
00368
00369
00370 m_blockUnpackFn[0x000] = &GctFormatTranslateV38::blockDoNothing;
00371
00372 m_blockUnpackFn[0x580] = &GctFormatTranslateV38::blockToGctTrigObjects;
00373 m_blockUnpackFn[0x581] = &GctFormatTranslateV38::blockToGctInternRingSums;
00374 m_blockUnpackFn[0x582] = &GctFormatTranslateV38::blockToGctInternHtMissPostWheel;
00375 m_blockUnpackFn[0x583] = &GctFormatTranslateV38::blockToGctJetCandsAndCounts;
00376 m_blockUnpackFn[0x587] = &GctFormatTranslateV38::blockDoNothing;
00377
00378 m_blockUnpackFn[0x680] = &GctFormatTranslateV38::blockToGctInternEmCand;
00379 m_blockUnpackFn[0x681] = &GctFormatTranslateV38::blockToGctInternEtSums;
00380 m_blockUnpackFn[0x682] = &GctFormatTranslateV38::blockToGctInternEtSums;
00381 m_blockUnpackFn[0x683] = &GctFormatTranslateV38::blockToGctEmCandsAndEnergySums;
00382 m_blockUnpackFn[0x686] = &GctFormatTranslateV38::blockDoNothing;
00383 m_blockUnpackFn[0x687] = &GctFormatTranslateV38::blockDoNothing;
00384
00385 m_blockUnpackFn[0x800] = &GctFormatTranslateV38::blockToGctInternEmCand;
00386 m_blockUnpackFn[0x803] = &GctFormatTranslateV38::blockToGctInternEmCand;
00387 m_blockUnpackFn[0x804] = &GctFormatTranslateV38::blockToFibresAndToRctEmCand;
00388 m_blockUnpackFn[0x880] = &GctFormatTranslateV38::blockToGctInternEmCand;
00389 m_blockUnpackFn[0x883] = &GctFormatTranslateV38::blockToGctInternEmCand;
00390 m_blockUnpackFn[0x884] = &GctFormatTranslateV38::blockToFibresAndToRctEmCand;
00391 m_blockUnpackFn[0xc00] = &GctFormatTranslateV38::blockToGctInternEmCand;
00392 m_blockUnpackFn[0xc03] = &GctFormatTranslateV38::blockToGctInternEmCand;
00393 m_blockUnpackFn[0xc04] = &GctFormatTranslateV38::blockToFibresAndToRctEmCand;
00394 m_blockUnpackFn[0xc80] = &GctFormatTranslateV38::blockToGctInternEmCand;
00395 m_blockUnpackFn[0xc83] = &GctFormatTranslateV38::blockToGctInternEmCand;
00396 m_blockUnpackFn[0xc84] = &GctFormatTranslateV38::blockToFibresAndToRctEmCand;
00397
00398 m_blockUnpackFn[0x300] = &GctFormatTranslateV38::blockToGctJetClusterMinimal;
00399 m_blockUnpackFn[0x301] = &GctFormatTranslateV38::blockToGctInternHtMissPreWheel;
00400 m_blockUnpackFn[0x303] = &GctFormatTranslateV38::blockToGctTrigObjects;
00401 m_blockUnpackFn[0x305] = &GctFormatTranslateV38::blockToGctInternHtMissPostWheel;
00402 m_blockUnpackFn[0x306] = &GctFormatTranslateV38::blockDoNothing;
00403 m_blockUnpackFn[0x307] = &GctFormatTranslateV38::blockDoNothing;
00404
00405 m_blockUnpackFn[0x380] = &GctFormatTranslateV38::blockToGctWheelInputInternEtAndRingSums;
00406 m_blockUnpackFn[0x381] = &GctFormatTranslateV38::blockToGctInternEtSums;
00407 m_blockUnpackFn[0x383] = &GctFormatTranslateV38::blockToGctWheelOutputInternEtAndRingSums;
00408 m_blockUnpackFn[0x385] = &GctFormatTranslateV38::blockToGctInternEtSums;
00409 m_blockUnpackFn[0x386] = &GctFormatTranslateV38::blockDoNothing;
00410 m_blockUnpackFn[0x387] = &GctFormatTranslateV38::blockDoNothing;
00411
00412 m_blockUnpackFn[0x700] = &GctFormatTranslateV38::blockToGctJetClusterMinimal;
00413 m_blockUnpackFn[0x701] = &GctFormatTranslateV38::blockToGctInternHtMissPreWheel;
00414 m_blockUnpackFn[0x703] = &GctFormatTranslateV38::blockToGctTrigObjects;
00415 m_blockUnpackFn[0x705] = &GctFormatTranslateV38::blockToGctInternHtMissPostWheel;
00416 m_blockUnpackFn[0x706] = &GctFormatTranslateV38::blockDoNothing;
00417 m_blockUnpackFn[0x707] = &GctFormatTranslateV38::blockDoNothing;
00418
00419 m_blockUnpackFn[0x780] = &GctFormatTranslateV38::blockToGctWheelInputInternEtAndRingSums;
00420 m_blockUnpackFn[0x781] = &GctFormatTranslateV38::blockToGctInternEtSums;
00421 m_blockUnpackFn[0x783] = &GctFormatTranslateV38::blockToGctWheelOutputInternEtAndRingSums;
00422 m_blockUnpackFn[0x785] = &GctFormatTranslateV38::blockToGctInternEtSums;
00423 m_blockUnpackFn[0x786] = &GctFormatTranslateV38::blockDoNothing;
00424 m_blockUnpackFn[0x787] = &GctFormatTranslateV38::blockDoNothing;
00425
00426 m_blockUnpackFn[0x900] = &GctFormatTranslateV38::blockToRctCaloRegions;
00427 m_blockUnpackFn[0x901] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00428 m_blockUnpackFn[0x902] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00429 m_blockUnpackFn[0x903] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00430 m_blockUnpackFn[0x904] = &GctFormatTranslateV38::blockToFibres;
00431 m_blockUnpackFn[0x908] = &GctFormatTranslateV38::blockToRctCaloRegions;
00432 m_blockUnpackFn[0x909] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00433 m_blockUnpackFn[0x90a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00434 m_blockUnpackFn[0x90b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00435 m_blockUnpackFn[0x90c] = &GctFormatTranslateV38::blockToFibres;
00436 m_blockUnpackFn[0x980] = &GctFormatTranslateV38::blockDoNothing;
00437 m_blockUnpackFn[0x984] = &GctFormatTranslateV38::blockToFibres;
00438 m_blockUnpackFn[0x988] = &GctFormatTranslateV38::blockToRctCaloRegions;
00439 m_blockUnpackFn[0x989] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00440 m_blockUnpackFn[0x98a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00441 m_blockUnpackFn[0x98b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00442 m_blockUnpackFn[0x98c] = &GctFormatTranslateV38::blockToFibres;
00443 m_blockUnpackFn[0xa00] = &GctFormatTranslateV38::blockToRctCaloRegions;
00444 m_blockUnpackFn[0xa01] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00445 m_blockUnpackFn[0xa02] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00446 m_blockUnpackFn[0xa03] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00447 m_blockUnpackFn[0xa04] = &GctFormatTranslateV38::blockToFibres;
00448 m_blockUnpackFn[0xa08] = &GctFormatTranslateV38::blockToRctCaloRegions;
00449 m_blockUnpackFn[0xa09] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00450 m_blockUnpackFn[0xa0a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00451 m_blockUnpackFn[0xa0b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00452 m_blockUnpackFn[0xa0c] = &GctFormatTranslateV38::blockToFibres;
00453 m_blockUnpackFn[0xa80] = &GctFormatTranslateV38::blockDoNothing;
00454 m_blockUnpackFn[0xa84] = &GctFormatTranslateV38::blockToFibres;
00455 m_blockUnpackFn[0xa88] = &GctFormatTranslateV38::blockToRctCaloRegions;
00456 m_blockUnpackFn[0xa89] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00457 m_blockUnpackFn[0xa8a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00458 m_blockUnpackFn[0xa8b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00459 m_blockUnpackFn[0xa8c] = &GctFormatTranslateV38::blockToFibres;
00460 m_blockUnpackFn[0xb00] = &GctFormatTranslateV38::blockToRctCaloRegions;
00461 m_blockUnpackFn[0xb01] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00462 m_blockUnpackFn[0xb02] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00463 m_blockUnpackFn[0xb03] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00464 m_blockUnpackFn[0xb04] = &GctFormatTranslateV38::blockToFibres;
00465 m_blockUnpackFn[0xb08] = &GctFormatTranslateV38::blockToRctCaloRegions;
00466 m_blockUnpackFn[0xb09] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00467 m_blockUnpackFn[0xb0a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00468 m_blockUnpackFn[0xb0b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00469 m_blockUnpackFn[0xb0c] = &GctFormatTranslateV38::blockToFibres;
00470 m_blockUnpackFn[0xb80] = &GctFormatTranslateV38::blockDoNothing;
00471 m_blockUnpackFn[0xb84] = &GctFormatTranslateV38::blockToFibres;
00472 m_blockUnpackFn[0xb88] = &GctFormatTranslateV38::blockToRctCaloRegions;
00473 m_blockUnpackFn[0xb89] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00474 m_blockUnpackFn[0xb8a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00475 m_blockUnpackFn[0xb8b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00476 m_blockUnpackFn[0xb8c] = &GctFormatTranslateV38::blockToFibres;
00477
00478 m_blockUnpackFn[0xd00] = &GctFormatTranslateV38::blockToRctCaloRegions;
00479 m_blockUnpackFn[0xd01] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00480 m_blockUnpackFn[0xd02] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00481 m_blockUnpackFn[0xd03] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00482 m_blockUnpackFn[0xd04] = &GctFormatTranslateV38::blockToFibres;
00483 m_blockUnpackFn[0xd08] = &GctFormatTranslateV38::blockToRctCaloRegions;
00484 m_blockUnpackFn[0xd09] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00485 m_blockUnpackFn[0xd0a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00486 m_blockUnpackFn[0xd0b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00487 m_blockUnpackFn[0xd0c] = &GctFormatTranslateV38::blockToFibres;
00488 m_blockUnpackFn[0xd80] = &GctFormatTranslateV38::blockDoNothing;
00489 m_blockUnpackFn[0xd84] = &GctFormatTranslateV38::blockToFibres;
00490 m_blockUnpackFn[0xd88] = &GctFormatTranslateV38::blockToRctCaloRegions;
00491 m_blockUnpackFn[0xd89] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00492 m_blockUnpackFn[0xd8a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00493 m_blockUnpackFn[0xd8b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00494 m_blockUnpackFn[0xd8c] = &GctFormatTranslateV38::blockToFibres;
00495 m_blockUnpackFn[0xe00] = &GctFormatTranslateV38::blockToRctCaloRegions;
00496 m_blockUnpackFn[0xe01] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00497 m_blockUnpackFn[0xe02] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00498 m_blockUnpackFn[0xe03] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00499 m_blockUnpackFn[0xe04] = &GctFormatTranslateV38::blockToFibres;
00500 m_blockUnpackFn[0xe08] = &GctFormatTranslateV38::blockToRctCaloRegions;
00501 m_blockUnpackFn[0xe09] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00502 m_blockUnpackFn[0xe0a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00503 m_blockUnpackFn[0xe0b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00504 m_blockUnpackFn[0xe0c] = &GctFormatTranslateV38::blockToFibres;
00505 m_blockUnpackFn[0xe80] = &GctFormatTranslateV38::blockDoNothing;
00506 m_blockUnpackFn[0xe84] = &GctFormatTranslateV38::blockToFibres;
00507 m_blockUnpackFn[0xe88] = &GctFormatTranslateV38::blockToRctCaloRegions;
00508 m_blockUnpackFn[0xe89] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00509 m_blockUnpackFn[0xe8a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00510 m_blockUnpackFn[0xe8b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00511 m_blockUnpackFn[0xe8c] = &GctFormatTranslateV38::blockToFibres;
00512 m_blockUnpackFn[0xf00] = &GctFormatTranslateV38::blockToRctCaloRegions;
00513 m_blockUnpackFn[0xf01] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00514 m_blockUnpackFn[0xf02] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00515 m_blockUnpackFn[0xf03] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00516 m_blockUnpackFn[0xf04] = &GctFormatTranslateV38::blockToFibres;
00517 m_blockUnpackFn[0xf08] = &GctFormatTranslateV38::blockToRctCaloRegions;
00518 m_blockUnpackFn[0xf09] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00519 m_blockUnpackFn[0xf0a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00520 m_blockUnpackFn[0xf0b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00521 m_blockUnpackFn[0xf0c] = &GctFormatTranslateV38::blockToFibres;
00522 m_blockUnpackFn[0xf80] = &GctFormatTranslateV38::blockDoNothing;
00523 m_blockUnpackFn[0xf84] = &GctFormatTranslateV38::blockToFibres;
00524 m_blockUnpackFn[0xf88] = &GctFormatTranslateV38::blockToRctCaloRegions;
00525 m_blockUnpackFn[0xf89] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00526 m_blockUnpackFn[0xf8a] = &GctFormatTranslateV38::blockToGctJetPreCluster;
00527 m_blockUnpackFn[0xf8b] = &GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster;
00528 m_blockUnpackFn[0xf8c] = &GctFormatTranslateV38::blockToFibres;
00529
00530
00531
00532 m_rctEmCrate[0x804] = 13;
00533 m_rctEmCrate[0x884] = 9;
00534 m_rctEmCrate[0xc04] = 4;
00535 m_rctEmCrate[0xc84] = 0;
00536
00537
00538
00539 m_rctJetCrate[0x900] = 9;
00540 m_rctJetCrate[0x908] = 10;
00541 m_rctJetCrate[0x988] = 17;
00542 m_rctJetCrate[0xa00] = 12;
00543 m_rctJetCrate[0xa08] = 13;
00544 m_rctJetCrate[0xa88] = 11;
00545 m_rctJetCrate[0xb00] = 15;
00546 m_rctJetCrate[0xb08] = 16;
00547 m_rctJetCrate[0xb88] = 14;
00548 m_rctJetCrate[0xd00] = 0;
00549 m_rctJetCrate[0xd08] = 1;
00550 m_rctJetCrate[0xd88] = 8;
00551 m_rctJetCrate[0xe00] = 3;
00552 m_rctJetCrate[0xe08] = 4;
00553 m_rctJetCrate[0xe88] = 2;
00554 m_rctJetCrate[0xf00] = 6;
00555 m_rctJetCrate[0xf08] = 7;
00556 m_rctJetCrate[0xf88] = 5;
00557
00558
00559
00560 m_internEmIsoBounds[0x680] = IsoBoundaryPair(8,15);
00561 m_internEmIsoBounds[0x800] = IsoBoundaryPair(0, 9);
00562 m_internEmIsoBounds[0x803] = IsoBoundaryPair(0, 1);
00563 m_internEmIsoBounds[0x880] = IsoBoundaryPair(0, 7);
00564 m_internEmIsoBounds[0x883] = IsoBoundaryPair(0, 1);
00565 m_internEmIsoBounds[0xc00] = IsoBoundaryPair(0, 9);
00566 m_internEmIsoBounds[0xc03] = IsoBoundaryPair(0, 1);
00567 m_internEmIsoBounds[0xc80] = IsoBoundaryPair(0, 7);
00568 m_internEmIsoBounds[0xc83] = IsoBoundaryPair(0, 1);
00569 }
00570 }
00571
00572 GctFormatTranslateV38::~GctFormatTranslateV38()
00573 {
00574 }
00575
00576 GctBlockHeader GctFormatTranslateV38::generateBlockHeader(const unsigned char * data) const
00577 {
00578
00579 uint32_t hdr = data[0] + (data[1]<<8) + (data[2]<<16) + (data[3]<<24);
00580
00581
00582
00583
00584
00585
00586
00587
00588
00589
00590
00591 unsigned blockId = hdr & 0xfff;
00592 unsigned blockLength = 0;
00593 unsigned nSamples = (hdr>>16) & 0xf;
00594 unsigned bxId = (hdr>>20) & 0xfff;
00595 unsigned eventId = (hdr>>12) & 0xf;
00596 bool valid = (blockLengthMap().find(blockId) != blockLengthMap().end());
00597
00598 if(valid) { blockLength = blockLengthMap().find(blockId)->second; }
00599
00600 return GctBlockHeader(blockId, blockLength, nSamples, bxId, eventId, valid);
00601 }
00602
00603
00604 bool GctFormatTranslateV38::convertBlock(const unsigned char * data, const GctBlockHeader& hdr)
00605 {
00606
00607 if ( hdr.nSamples() < 1 ) { return true; }
00608
00609 if(!checkBlock(hdr)) { return false; }
00610
00611
00612
00613
00614 (this->*m_blockUnpackFn.find(hdr.blockId())->second)(data, hdr);
00615
00616 return true;
00617 }
00618
00619
00620
00621
00622 uint32_t GctFormatTranslateV38::generateRawHeader(const uint32_t blockId,
00623 const uint32_t nSamples,
00624 const uint32_t bxId,
00625 const uint32_t eventId) const
00626 {
00627
00628
00629
00630
00631
00632
00633
00634
00635
00636
00637 return ((bxId & 0xfff) << 20) | ((nSamples & 0xf) << 16) | ((eventId & 0xf) << 12) | (blockId & 0xfff);
00638 }
00639
00640
00641
00642
00643
00644
00645
00646
00647
00648 void GctFormatTranslateV38::blockToGctEmCandsAndEnergySums(const unsigned char * d, const GctBlockHeader& hdr)
00649 {
00650 const unsigned int id = hdr.blockId();
00651 const unsigned int nSamples = hdr.nSamples();
00652
00653
00654
00655 const uint16_t * p16 = reinterpret_cast<const uint16_t *>(d);
00656
00657
00658
00659 const unsigned int emCandCategoryOffset = nSamples * 4;
00660 const unsigned int timeSampleOffset = nSamples * 2;
00661
00662 unsigned int samplesToUnpack = std::min(nSamples,m_numberOfGctSamplesToUnpack);
00663 unsigned int centralSample = (unsigned)std::ceil((double)nSamples/2.)-1;
00664 unsigned int firstSample = centralSample-(unsigned)std::ceil((double)samplesToUnpack/2.)+1;
00665 unsigned int lastSample = centralSample+(unsigned)(samplesToUnpack/2);
00666
00667 LogDebug("GCT") << "Unpacking output EM. Central sample=" << centralSample << " first=" << firstSample << " last=" << lastSample;
00668
00669 for (unsigned int iso=0; iso<2; ++iso)
00670 {
00671 bool isoFlag = (iso==1);
00672
00673
00674 L1GctEmCandCollection* em;
00675 if (isoFlag) { em = colls()->gctIsoEm(); }
00676 else { em = colls()->gctNonIsoEm(); }
00677
00678 for (unsigned int bx=firstSample; bx<=lastSample; ++bx)
00679 {
00680
00681
00682 const unsigned int cand0Offset = iso*emCandCategoryOffset + bx*2;
00683
00684 em->push_back(L1GctEmCand(p16[cand0Offset], isoFlag, id, 0, (int)bx-(int)centralSample));
00685 em->push_back(L1GctEmCand(p16[cand0Offset + timeSampleOffset], isoFlag, id, 1, (int)bx-(int)centralSample));
00686 em->push_back(L1GctEmCand(p16[cand0Offset + 1], isoFlag, id, 2, (int)bx-(int)centralSample));
00687 em->push_back(L1GctEmCand(p16[cand0Offset + timeSampleOffset + 1], isoFlag, id, 3, (int)bx-(int)centralSample));
00688
00689 LogDebug("GCT") << "Unpacked a bunch of EG. iso=" << iso << " bx=" << bx << std::endl;
00690 }
00691 }
00692
00693 p16 += emCandCategoryOffset * 2;
00694
00695
00696
00697 for (unsigned int bx=firstSample; bx<=lastSample; ++bx)
00698 {
00699 const unsigned int offset = bx*2;
00700 colls()->gctEtTot()->push_back(L1GctEtTotal(p16[offset],(int)bx-(int)centralSample));
00701 colls()->gctEtHad()->push_back(L1GctEtHad(p16[offset+1],(int)bx-(int)centralSample));
00702 }
00703
00704 p16 += nSamples * 2;
00705
00706
00707 const uint32_t * p32 = reinterpret_cast<const uint32_t *>(p16);
00708
00709 for (unsigned int bx=firstSample; bx<=lastSample; ++bx) {
00710 colls()->gctEtMiss()->push_back(L1GctEtMiss(p32[bx],(int)bx-(int)centralSample));
00711 LogDebug("GCT") << "Unpacked energy sums bx=" << bx << std::endl;
00712 }
00713
00714
00715 }
00716
00717 void GctFormatTranslateV38::blockToGctJetCandsAndCounts(const unsigned char * d, const GctBlockHeader& hdr)
00718 {
00719 const unsigned int id = hdr.blockId();
00720 const unsigned int nSamples = hdr.nSamples();
00721
00722
00723
00724 const uint16_t * p16 = reinterpret_cast<const uint16_t *>(d);
00725
00726
00727
00728 const unsigned int jetCandCategoryOffset = nSamples * 4;
00729 const unsigned int timeSampleOffset = nSamples * 2;
00730
00731 unsigned int samplesToUnpack = std::min(nSamples,m_numberOfGctSamplesToUnpack);
00732 unsigned int centralSample = (unsigned)std::ceil((double)nSamples/2.)-1;
00733 unsigned int firstSample = centralSample-(unsigned)std::ceil((double)samplesToUnpack/2.)+1;
00734 unsigned int lastSample = centralSample+(unsigned)(samplesToUnpack/2);
00735
00736 LogDebug("GCT") << "Unpacking output Jets. Samples to unpack=" << samplesToUnpack << " central=" << centralSample << " first=" << firstSample << " last=" << lastSample;
00737
00738
00739 for(unsigned int iCat = 0 ; iCat < NUM_JET_CATEGORIES ; ++iCat)
00740 {
00741 L1GctJetCandCollection * const jets = gctJets(iCat);
00742 assert(jets->empty());
00743
00744 bool tauflag = (iCat == TAU_JETS);
00745 bool forwardFlag = (iCat == FORWARD_JETS);
00746
00747
00748 for(unsigned int bx = firstSample ; bx <=lastSample; ++bx)
00749 {
00750
00751 const unsigned int cand0Offset = iCat*jetCandCategoryOffset + bx*2;
00752
00753
00754 jets->push_back(L1GctJetCand(p16[cand0Offset], tauflag, forwardFlag, id, 0, (int)bx-(int)centralSample));
00755
00756 jets->push_back(L1GctJetCand(p16[cand0Offset + timeSampleOffset], tauflag, forwardFlag, id, 1, (int)bx-(int)centralSample));
00757
00758 jets->push_back(L1GctJetCand(p16[cand0Offset + 1], tauflag, forwardFlag, id, 2, (int)bx-(int)centralSample));
00759
00760 jets->push_back(L1GctJetCand(p16[cand0Offset + timeSampleOffset + 1], tauflag, forwardFlag, id, 3, (int)bx-(int)centralSample));
00761 }
00762 }
00763
00764 p16 += NUM_JET_CATEGORIES * jetCandCategoryOffset;
00765
00766
00767
00768
00769 const uint32_t * p32 = reinterpret_cast<const uint32_t *>(p16);
00770
00771 for (unsigned int bx=firstSample; bx<=lastSample; ++bx)
00772 {
00773
00774 colls()->gctHfBitCounts()->push_back(L1GctHFBitCounts::fromConcHFBitCounts(id,6,(int)bx-(int)centralSample,p32[bx]));
00775 colls()->gctHfRingEtSums()->push_back(L1GctHFRingEtSums::fromConcRingSums(id,6,(int)bx-(int)centralSample,p32[bx]));
00776
00777
00778 colls()->gctHtMiss()->push_back(L1GctHtMiss(p32[bx+nSamples], (int)bx-(int)centralSample));
00779 }
00780 }
00781
00782
00783 void GctFormatTranslateV38::blockToGctInternEmCand(const unsigned char * d, const GctBlockHeader& hdr)
00784 {
00785
00786 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal EM Cands"; return; }
00787
00788 unsigned int id = hdr.blockId();
00789 unsigned int nSamples = hdr.nSamples();
00790 unsigned int numCandPairs = hdr.blockLength();
00791
00792
00793 assert(internEmIsoBounds().find(id) != internEmIsoBounds().end());
00794
00795 unsigned int lowerIsoPairBound = internEmIsoBounds()[id].first;
00796 unsigned int upperIsoPairBound = internEmIsoBounds()[id].second;
00797
00798
00799 const uint16_t * p = reinterpret_cast<const uint16_t *>(d);
00800
00801
00802 for(unsigned int bx=0; bx < nSamples; ++bx)
00803 {
00804
00805 for(unsigned int candPair = 0 ; candPair < numCandPairs ; ++candPair)
00806 {
00807
00808 bool iso = ((candPair>=lowerIsoPairBound) && (candPair<=upperIsoPairBound));
00809
00810
00811 for(unsigned int i = 0 ; i < 2 ; ++i)
00812 {
00813 unsigned offset = 2*(bx + candPair*nSamples) + i;
00814 uint16_t candRaw = p[offset];
00815 colls()->gctInternEm()->push_back( L1GctInternEmCand(candRaw, iso, id, candPair*2 + i, bx) );
00816 }
00817 }
00818 }
00819 }
00820
00821
00822
00823
00824 void GctFormatTranslateV38::blockToRctEmCand(const unsigned char * d, const GctBlockHeader& hdr)
00825 {
00826
00827 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of RCT EM Cands"; return; }
00828
00829 unsigned int id = hdr.blockId();
00830 unsigned int nSamples = hdr.nSamples();
00831 unsigned int length = hdr.blockLength();
00832
00833
00834 const uint16_t * p = reinterpret_cast<const uint16_t *>(d);
00835
00836
00837 uint16_t sfp[2][4];
00838 uint16_t eIsoRank[4];
00839 uint16_t eIsoCard[4];
00840 uint16_t eIsoRgn[4];
00841 uint16_t eNonIsoRank[4];
00842 uint16_t eNonIsoCard[4];
00843 uint16_t eNonIsoRgn[4];
00844 uint16_t MIPbits[7][2];
00845 uint16_t QBits[7][2];
00846
00847 unsigned int bx = 0;
00848
00849
00850 for (unsigned int crate=rctEmCrateMap()[id]; crate<rctEmCrateMap()[id]+length/3; ++crate) {
00851
00852
00853 for (unsigned short iSfp=0 ; iSfp<4 ; ++iSfp) {
00854 for (unsigned short cyc=0 ; cyc<2 ; ++cyc) {
00855 if (iSfp==0) { sfp[cyc][iSfp] = 0; }
00856 else {
00857 sfp[cyc][iSfp] = *p;
00858 ++p;
00859 }
00860 }
00861 p = p + 2*(nSamples-1);
00862 }
00863
00864
00865 srcCardRouting().SFPtoEMU(eIsoRank, eIsoCard, eIsoRgn, eNonIsoRank, eNonIsoCard, eNonIsoRgn, MIPbits, QBits, sfp);
00866
00867
00868 for (unsigned short int i=0; i<4; ++i) {
00869 colls()->rctEm()->push_back( L1CaloEmCand( eIsoRank[i], eIsoRgn[i], eIsoCard[i], crate, true, i, bx) );
00870 }
00871 for (unsigned short int i=0; i<4; ++i) {
00872 colls()->rctEm()->push_back( L1CaloEmCand( eNonIsoRank[i], eNonIsoRgn[i], eNonIsoCard[i], crate, false, i, bx) );
00873 }
00874 }
00875 }
00876
00877
00878 void GctFormatTranslateV38::blockToRctCaloRegions(const unsigned char * d, const GctBlockHeader& hdr)
00879 {
00880
00881 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of RCT Regions"; return; }
00882
00883 unsigned int id = hdr.blockId();
00884 unsigned int nSamples = hdr.nSamples();
00885 unsigned int length = hdr.blockLength();
00886
00887
00888 assert(rctJetCrateMap().find(id) != rctJetCrateMap().end());
00889
00890
00891 unsigned int crate=rctJetCrateMap()[id];
00892
00893
00894 const uint16_t * p = reinterpret_cast<const uint16_t *>(d);
00895
00896
00897 unsigned int ieta;
00898 unsigned int iphi;
00899
00900 for (unsigned int i=0; i<length; ++i)
00901 {
00902 for (uint16_t bx=0; bx<nSamples; ++bx)
00903 {
00904
00905 if (crate<9) {
00906 ieta = 12-i;
00907 iphi = 2*((11-crate)%9);
00908 }
00909 else {
00910 ieta = 9+i;
00911 iphi = 2*((20-crate)%9);
00912 }
00913
00914
00915 if (i>1) {
00916
00917 colls()->rctCalo()->push_back( L1CaloRegion::makeRegionFromUnpacker(*p, ieta, iphi, id, i, bx) );
00918 ++p;
00919
00920 if (iphi>0) { iphi-=1; }
00921 else { iphi = 17; }
00922 colls()->rctCalo()->push_back( L1CaloRegion::makeRegionFromUnpacker(*p, ieta, iphi, id, i, bx) );
00923 ++p;
00924 }
00925
00926 else if (unpackSharedRegions()){
00927
00928 colls()->rctCalo()->push_back( L1CaloRegion::makeRegionFromUnpacker(*p, ieta, iphi, id, i, bx) );
00929 ++p;
00930
00931 if (iphi>0) { iphi-=1; }
00932 else { iphi = 17; }
00933 colls()->rctCalo()->push_back( L1CaloRegion::makeRegionFromUnpacker(*p, ieta, iphi, id, i, bx) );
00934 ++p;
00935
00936 } else {
00937 ++p;
00938 ++p;
00939 }
00940 }
00941 }
00942 }
00943
00944
00945
00946 void GctFormatTranslateV38::blockToFibres(const unsigned char * d, const GctBlockHeader& hdr)
00947 {
00948
00949 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of GCT Fibres"; return; }
00950
00951 unsigned int id = hdr.blockId();
00952 unsigned int nSamples = hdr.nSamples();
00953 unsigned int length = hdr.blockLength();
00954
00955
00956 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
00957
00958 for (unsigned int i=0; i<length; ++i) {
00959 for (unsigned int bx=0; bx<nSamples; ++bx) {
00960 colls()->gctFibres()->push_back( L1GctFibreWord(*p, id, i, bx) );
00961 ++p;
00962 }
00963 }
00964 }
00965
00966 void GctFormatTranslateV38::blockToFibresAndToRctEmCand(const unsigned char * d, const GctBlockHeader& hdr)
00967 {
00968 this->blockToRctEmCand(d, hdr);
00969 this->blockToFibres(d, hdr);
00970 }
00971
00972 void GctFormatTranslateV38::blockToGctInternEtSums(const unsigned char * d, const GctBlockHeader& hdr)
00973 {
00974
00975
00976 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal Et Sums"; return; }
00977
00978 unsigned int id = hdr.blockId();
00979 unsigned int nSamples = hdr.nSamples();
00980 unsigned int length = hdr.blockLength();
00981
00982
00983 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
00984
00985 for (unsigned int i=0; i<length; ++i) {
00986
00987 for (unsigned int bx=0; bx<nSamples; ++bx) {
00988 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromTotalEtOrHt(id,i,bx,*p));
00989 ++p;
00990 }
00991 }
00992 }
00993
00994 void GctFormatTranslateV38::blockToGctInternEtSumsAndJetCluster(const unsigned char * d, const GctBlockHeader& hdr)
00995 {
00996
00997 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal Jet Cands"; return; }
00998
00999 unsigned int id = hdr.blockId();
01000 unsigned int nSamples = hdr.nSamples();
01001 unsigned int length = hdr.blockLength();
01002
01003
01004 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
01005
01006 for (unsigned int i=0; i<length; ++i) {
01007
01008 for (unsigned int bx=0; bx<nSamples; ++bx) {
01009 if (i<2) colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromJetMissEt(id,i,bx,*p));
01010 if (i==3){
01011 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromJetTotEt(id,i,bx,*p));
01012 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromJetTotHt(id,i,bx,*p));
01013 }
01014 if (i>4) colls()->gctInternJets()->push_back(L1GctInternJetData::fromJetCluster(L1CaloRegionDetId(0,0),id,i,bx,*p));
01015 ++p;
01016 }
01017 }
01018 }
01019
01020 void GctFormatTranslateV38::blockToGctTrigObjects(const unsigned char * d, const GctBlockHeader& hdr)
01021 {
01022
01023 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal Jet Cands"; return; }
01024
01025 unsigned int id = hdr.blockId();
01026 unsigned int nSamples = hdr.nSamples();
01027 unsigned int length = hdr.blockLength();
01028
01029
01030 const uint16_t * p = reinterpret_cast<const uint16_t *>(d);
01031
01032 for (unsigned int i=0; i<length; ++i) {
01033
01034 for (unsigned int bx=0; bx<nSamples; ++bx) {
01035 colls()->gctInternJets()->push_back( L1GctInternJetData::fromGctTrigObject(L1CaloRegionDetId(0,0),id,i,bx,*p));
01036 ++p;
01037 colls()->gctInternJets()->push_back( L1GctInternJetData::fromGctTrigObject(L1CaloRegionDetId(0,0),id,i,bx,*p));
01038 ++p;
01039 }
01040 }
01041 }
01042
01043 void GctFormatTranslateV38::blockToGctJetClusterMinimal(const unsigned char * d, const GctBlockHeader& hdr)
01044 {
01045
01046 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal Jet Cands"; return; }
01047
01048 unsigned int id = hdr.blockId();
01049 unsigned int nSamples = hdr.nSamples();
01050 unsigned int length = hdr.blockLength();
01051
01052
01053 const uint16_t * p = reinterpret_cast<const uint16_t *>(d);
01054
01055 for (unsigned int i=0; i<length; ++i) {
01056
01057 for (unsigned int bx=0; bx<nSamples; ++bx) {
01058 colls()->gctInternJets()->push_back( L1GctInternJetData::fromJetClusterMinimal(L1CaloRegionDetId(0,0),id,i,bx,*p));
01059 ++p;
01060 colls()->gctInternJets()->push_back( L1GctInternJetData::fromJetClusterMinimal(L1CaloRegionDetId(0,0),id,i,bx,*p));
01061 ++p;
01062 }
01063 }
01064 }
01065
01066 void GctFormatTranslateV38::blockToGctJetPreCluster(const unsigned char * d, const GctBlockHeader& hdr)
01067 {
01068
01069 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal Jet Cands"; return; }
01070
01071 unsigned int id = hdr.blockId();
01072 unsigned int nSamples = hdr.nSamples();
01073 unsigned int length = hdr.blockLength();
01074
01075
01076 const uint16_t * p = reinterpret_cast<const uint16_t *>(d);
01077
01078 for (unsigned int i=0; i<length; ++i) {
01079
01080 for (unsigned int bx=0; bx<nSamples; ++bx) {
01081 colls()->gctInternJets()->push_back( L1GctInternJetData::fromJetPreCluster(L1CaloRegionDetId(0,0),id,i,bx,*p));
01082 ++p;
01083 colls()->gctInternJets()->push_back( L1GctInternJetData::fromJetPreCluster(L1CaloRegionDetId(0,0),id,i,bx,*p));
01084 ++p;
01085 }
01086 }
01087 }
01088
01089 void GctFormatTranslateV38::blockToGctInternRingSums(const unsigned char * d, const GctBlockHeader& hdr)
01090 {
01091
01092 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of internal HF ring data"; return; }
01093
01094 unsigned int id = hdr.blockId();
01095 unsigned int nSamples = hdr.nSamples();
01096 unsigned int length = hdr.blockLength();
01097
01098
01099 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
01100
01101 for (unsigned int i=0; i<length/2; ++i) {
01102
01103 for (unsigned int bx=0; bx<nSamples; ++bx) {
01104 colls()->gctInternHFData()->push_back(L1GctInternHFData::fromConcRingSums(id,i,bx,*p));
01105 ++p;
01106 }
01107 for (unsigned int bx=0; bx<nSamples; ++bx) {
01108 colls()->gctInternHFData()->push_back(L1GctInternHFData::fromConcBitCounts(id,i,bx,*p));
01109 ++p;
01110 }
01111 }
01112 }
01113
01114 void GctFormatTranslateV38::blockToGctWheelInputInternEtAndRingSums(const unsigned char * d, const GctBlockHeader& hdr)
01115 {
01116
01117 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of wheel input internal Et sums and HF ring data"; return; }
01118
01119 unsigned int id = hdr.blockId();
01120 unsigned int nSamples = hdr.nSamples();
01121 unsigned int length = hdr.blockLength();
01122
01123
01124 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
01125
01126 for (unsigned int i=0; i<length; ++i) {
01127
01128 for (unsigned int bx=0; bx<nSamples; ++bx) {
01129 if (i<3){
01130 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromTotalEtOrHt(id,i,bx,*p));
01131 } else if (i>2 && i<9) {
01132 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromMissEtxOrEty(id,i,bx,*p));
01133 } else if (i>8 && i<15) {
01134 colls()->gctInternHFData()->push_back(L1GctInternHFData::fromWheelRingSums(id,i,bx,*p));
01135 } else if (i>14){
01136 colls()->gctInternHFData()->push_back(L1GctInternHFData::fromWheelBitCounts(id,i,bx,*p));
01137 }
01138 ++p;
01139 }
01140 }
01141 }
01142
01143 void GctFormatTranslateV38::blockToGctWheelOutputInternEtAndRingSums(const unsigned char * d, const GctBlockHeader& hdr)
01144 {
01145
01146 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of wheel output internal Et sums and HF ring data"; return; }
01147
01148 unsigned int id = hdr.blockId();
01149 unsigned int nSamples = hdr.nSamples();
01150 unsigned int length = hdr.blockLength();
01151
01152
01153 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
01154
01155 for (unsigned int i=0; i<length; ++i) {
01156
01157 for (unsigned int bx=0; bx<nSamples; ++bx) {
01158 if (i<1){
01159 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromTotalEtOrHt(id,i,bx,*p));
01160 } else if (i>0 && i<3) {
01161 colls()->gctInternEtSums()->push_back(L1GctInternEtSum::fromMissEtxOrEty(id,i,bx,*p));
01162 } else if (i>2 && i<5) {
01163 colls()->gctInternHFData()->push_back(L1GctInternHFData::fromWheelRingSums(id,i,bx,*p));
01164 } else if (i>4){
01165 colls()->gctInternHFData()->push_back(L1GctInternHFData::fromWheelBitCounts(id,i,bx,*p));
01166 }
01167 ++p;
01168 }
01169 }
01170 }
01171
01172 void GctFormatTranslateV38::blockToGctInternHtMissPreWheel(const unsigned char* d, const GctBlockHeader& hdr)
01173 {
01174
01175 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of pre-wheel internal Missing Ht data"; return; }
01176
01177 unsigned int id = hdr.blockId();
01178 unsigned int nSamples = hdr.nSamples();
01179 unsigned int length = hdr.blockLength();
01180
01181
01182 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
01183
01184 for (unsigned int iLength=0; iLength < length; ++iLength)
01185 {
01186
01187 for (unsigned int bx=0; bx<nSamples; ++bx)
01188 {
01189 colls()->gctInternHtMiss()->push_back(L1GctInternHtMiss::unpackerMissHtxHty(id, iLength, bx, *p));
01190 ++p;
01191 }
01192 }
01193 }
01194
01195 void GctFormatTranslateV38::blockToGctInternHtMissPostWheel(const unsigned char* d, const GctBlockHeader& hdr)
01196 {
01197
01198 if(hltMode()) { LogDebug("GCT") << "HLT mode - skipping unpack of post-wheel internal Missing Ht data"; return; }
01199
01200 unsigned int id = hdr.blockId();
01201 unsigned int nSamples = hdr.nSamples();
01202 unsigned int length = hdr.blockLength();
01203
01204
01205 const uint32_t * p = reinterpret_cast<const uint32_t *>(d);
01206
01207 for (unsigned int iLength=0; iLength < length; ++iLength)
01208 {
01209
01210 for (unsigned int bx=0; bx<nSamples; ++bx)
01211 {
01212 if(iLength % 2) { colls()->gctInternHtMiss()->push_back(L1GctInternHtMiss::unpackerMissHty(id, iLength, bx, *p)); }
01213 else { colls()->gctInternHtMiss()->push_back(L1GctInternHtMiss::unpackerMissHtx(id, iLength, bx, *p)); }
01214 ++p;
01215 }
01216 }
01217 }