3 /**************************************************************************
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4 * This file is property of and copyright by the ALICE HLT Project *
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5 * All rights reserved. *
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7 * Primary Authors: Oystein Djuvsland *
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9 * Permission to use, copy, modify and distribute this software and its *
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10 * documentation strictly for non-commercial purposes is hereby granted *
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11 * without fee, provided that the above copyright notice appears in all *
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12 * copies and that both the copyright notice and this permission notice *
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13 * appear in the supporting documentation. The authors make no claims *
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14 * about the suitability of this software for any purpose. It is *
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15 * provided "as is" without express or implied warranty. *
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16 **************************************************************************/
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19 * @file AliHLTCaloClusterizer.cxx
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20 * @author Oystein Djuvsland
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22 * @brief Clusterizer for PHOS HLT
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25 // see header file for class documentation
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27 // refer to README to build package
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29 // visit http://web.ift.uib.no/~kjeks/doc/alice-hlt
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31 #include "AliHLTCaloClusterizer.h"
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32 #include "AliHLTLogging.h"
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34 #include "AliHLTCaloRecPointDataStruct.h"
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35 #include "AliHLTCaloDigitDataStruct.h"
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36 #include "AliHLTCaloDigitContainerDataStruct.h"
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37 #include "AliHLTCaloConstantsHandler.h"
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39 ClassImp(AliHLTCaloClusterizer);
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41 AliHLTCaloClusterizer::AliHLTCaloClusterizer(TString det):
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42 AliHLTCaloConstantsHandler(det),
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43 fCompareFunction(CompareDigitsByPosition),
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45 fRecPointDataPtr(0),
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46 fFirstRecPointPtr(0),
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52 fEmcClusteringThreshold(0),
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53 fEmcMinEnergyThreshold(0),
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55 fDigitsInCluster(0),
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56 fDigitsPointerArray(0),
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57 fDigitContainerPtr(0),
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58 fMaxDigitIndexDiff(0),
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60 fSortedByPosition(false),
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61 fSortedByEnergy(false),
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67 //See header file for documentation
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68 //fEmcClusteringThreshold = 0.2;
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69 //fEmcMinEnergyThreshold = 0.03;
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71 fEmcClusteringThreshold = 0.1;
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72 fEmcMinEnergyThreshold = 0.01;
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73 fEmcTimeGate = 1.e-6 ;
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75 fMaxDigitIndexDiff = 2*fCaloConstants->GetNZROWSMOD();
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79 fRecPointArray = new AliHLTCaloRecPointDataStruct*[fArraySize];
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81 fAvailableSize = sizeof(AliHLTCaloRecPointDataStruct) * 20;
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82 fBuffer = new UChar_t[fAvailableSize]; //FR
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84 fFirstRecPointPtr = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(fBuffer);
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85 fRecPointDataPtr = fFirstRecPointPtr;
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89 AliHLTCaloClusterizer::~AliHLTCaloClusterizer()
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91 //See header file for documentation
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92 delete [] fBuffer; //FR
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93 fBuffer = NULL; //FR
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94 fAvailableSize = 0; //FR
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96 delete [] fRecPointArray;
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100 AliHLTCaloClusterizer::SetRecPointDataPtr(AliHLTCaloRecPointDataStruct* recPointDataPtr)
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102 // See header file for documentation
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103 fRecPointDataPtr = recPointDataPtr;
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107 AliHLTCaloClusterizer::ClusterizeEvent(Int_t nDigits)
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109 //see header file for documentation
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110 Int_t nRecPoints = 0;
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113 fNDigits = nDigits;
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114 fRecPointDataPtr = fFirstRecPointPtr;
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119 //Clusterization starts
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120 for (Int_t i = 0; i < nDigits; i++)
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122 fDigitsInCluster = 0;
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124 HLTDebug("Digit with energy: %f", fDigitsPointerArray[i]->fEnergy);
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126 if (fDigitsPointerArray[i]->fEnergy < fEmcClusteringThreshold && fSortedByEnergy)
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128 // Since we have sorted by energy the next digit will have even lower energy, so we return
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129 return fNRecPoints;
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132 if(fDigitsPointerArray[i]->fAssociatedCluster != -1)
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134 // The digit is added to a previous cluster, continue
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141 // First digit is placed at the fDigits member variable in the recpoint
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142 fDigitIndexPtr = &(fRecPointDataPtr->fDigits);
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144 fRecPointDataPtr->fAmp = 0;
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145 fRecPointDataPtr->fModule = fDigitsPointerArray[i]->fModule;
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146 fRecPointDataPtr->fTime = fDigitsPointerArray[i]->fTime;
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148 // Assigning the digit to this rec point
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149 fRecPointDataPtr->fDigits = i;
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150 fUsedSize += sizeof(AliHLTCaloRecPointDataStruct);
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152 // Incrementing the pointer to be ready for new entry
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155 fRecPointDataPtr->fAmp += fDigitsPointerArray[i]->fEnergy;
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158 //fDigitsPointerArray[i]->fEnergy = 0;
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159 fDigitsPointerArray[i]->fAssociatedCluster = fNRecPoints;
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162 fDigitsInCluster++;
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165 // Scanning for the neighbours
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166 if (ScanForNeighbourDigits(i, fRecPointDataPtr) != 0)
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171 //fUsedSize += sizeof(AliHLTCaloRecPointDataStruct) + (fDigitsInCluster-1)*sizeof(AliHLTCaloDigitDataStruct);
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173 fRecPointDataPtr->fMultiplicity = fDigitsInCluster;
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174 fRecPointArray[fNRecPoints] = fRecPointDataPtr;
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176 fRecPointDataPtr = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(fDigitIndexPtr);
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180 }//end of clusterization
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186 AliHLTCaloClusterizer::ScanForNeighbourDigits(Int_t index, AliHLTCaloRecPointDataStruct* recPoint)
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188 //see header file for documentation
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190 // The following cuts can be used if we sort by posisiton. Not tested, but it should be fine...
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191 Int_t max = TMath::Min(fNDigits, (Int_t)fMaxDigitIndexDiff+index);
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192 Int_t min = TMath::Max(0, (Int_t)(index - (Int_t)fMaxDigitIndexDiff));
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194 // All digits for now
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198 for (Int_t j = min; j < max; j++)
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200 if (fDigitsPointerArray[j]->fAssociatedCluster == -1 && fDigitsPointerArray[j]->fEnergy > fEmcMinEnergyThreshold)
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204 if (AreNeighbours(fDigitsPointerArray[index],
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205 fDigitsPointerArray[j]))
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207 // Check that the buffer is large enough for adding a digit (can be heavily improved wrt performance)
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210 // Assigning index to digit
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211 *fDigitIndexPtr = j;
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212 fUsedSize += sizeof(Int_t);
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214 // Incrementing digit pointer to be ready for new entry
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217 // Adding the digit energy to the rec point
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218 fRecPointDataPtr->fAmp += fDigitsPointerArray[j]->fEnergy;
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220 // Setting energy to 0
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221 //fDigitsPointerArray[j]->fEnergy = 0;
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223 // Setting the associated cluster
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224 fDigitsPointerArray[j]->fAssociatedCluster = fNRecPoints;
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226 HLTDebug("Added digit with index: %d, energy: %f, to associated cluster: %d", fDigitsPointerArray[j]->fID, fDigitsPointerArray[j]->fEnergy, fDigitsPointerArray[j]->fAssociatedCluster);
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228 fDigitsInCluster++;
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230 // Scan for neighbours of this digit
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231 ScanForNeighbourDigits(j, recPoint);
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240 AliHLTCaloClusterizer::AreNeighbours(AliHLTCaloDigitDataStruct* digit1,
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241 AliHLTCaloDigitDataStruct* digit2)
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243 //see header file for documentation
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244 if ( (digit1->fModule == digit2->fModule) || AreEdgeCells(digit1, digit2))
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246 Int_t rowdiff = TMath::Abs( digit1->fZ - digit2->fZ );
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247 Int_t coldiff = TMath::Abs( digit1->fX - digit2->fX );
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249 // Common edge defines neighbour
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250 //if (( coldiff <= 1 && rowdiff == 0 ) || ( coldiff == 0 && rowdiff <= 1 ))
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251 // Common edge and corner defines neighbour
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252 if (( coldiff <= 1 && rowdiff <= 1 ))
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254 // Check also for time
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255 if (TMath::Abs(digit1->fTime - digit2->fTime ) < fEmcTimeGate)
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266 Int_t AliHLTCaloClusterizer::CheckArray()
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268 // See header file for class documentation
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269 if (fArraySize == fNRecPoints)
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272 AliHLTCaloRecPointDataStruct **tmp = new AliHLTCaloRecPointDataStruct*[fArraySize];
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273 memcpy(tmp, fRecPointArray, fArraySize/2 * sizeof(AliHLTCaloRecPointDataStruct*));
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274 delete [] fRecPointArray;
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275 fRecPointArray = tmp;
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280 Int_t AliHLTCaloClusterizer::CheckBuffer()
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282 // See header file for class documentation
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283 if ((fAvailableSize - fUsedSize) < (Int_t)sizeof(AliHLTCaloRecPointDataStruct))
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285 Int_t recPointOffset = reinterpret_cast<UChar_t*>(fRecPointDataPtr) - reinterpret_cast<UChar_t*>(fFirstRecPointPtr);
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286 Int_t digitIndexOffset = reinterpret_cast<UChar_t*>(fDigitIndexPtr) - reinterpret_cast<UChar_t*>(fRecPointDataPtr);
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287 UChar_t *tmp = new UChar_t[fAvailableSize*2];
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291 HLTError("Pointer error");
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295 memcpy(tmp, fFirstRecPointPtr, fUsedSize);
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296 fAvailableSize *= 2;
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297 for (Int_t n = 0; n < fNRecPoints; n++)
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299 fRecPointArray[n] = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(reinterpret_cast<UChar_t*>(fRecPointArray[n]) - reinterpret_cast<UChar_t*>(fFirstRecPointPtr) + reinterpret_cast<UChar_t*>(tmp));
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301 delete [] fBuffer; //FR
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302 fBuffer = tmp; //FR
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304 fFirstRecPointPtr = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(tmp);
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305 fRecPointDataPtr = reinterpret_cast<AliHLTCaloRecPointDataStruct*>(tmp + recPointOffset);
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306 fDigitIndexPtr = reinterpret_cast<Int_t*>(reinterpret_cast<UChar_t*>(fRecPointDataPtr) + digitIndexOffset);
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312 void AliHLTCaloClusterizer::SetSortDigitsByPosition()
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314 // Sort the digit pointers by position
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315 fCompareFunction = &CompareDigitsByPosition;
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316 fSortDigits = true;
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317 fSortedByPosition = true;
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320 void AliHLTCaloClusterizer::SetSortDigitsByEnergy()
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322 // See header file for class documentation
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323 fCompareFunction = &CompareDigitsByEnergy;
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324 fSortDigits = true;
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325 fSortedByEnergy = true;
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328 void AliHLTCaloClusterizer::SortDigits()
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330 // See header file for class documentation
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331 if (fSortDigits) qsort(fDigitsPointerArray, fNDigits, sizeof(AliHLTCaloDigitDataStruct*), fCompareFunction);
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335 AliHLTCaloClusterizer::CompareDigitsByPosition(const void *dig0, const void *dig1)
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337 // See header file for documentation
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338 return (*((AliHLTCaloDigitDataStruct**)(dig0)))->fID - (*((AliHLTCaloDigitDataStruct**)(dig1)))->fID;
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342 AliHLTCaloClusterizer::CompareDigitsByEnergy(const void *dig0, const void *dig1)
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344 // See header file for documentation
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345 if ( ((*((AliHLTCaloDigitDataStruct**)(dig1)))->fEnergy - (*((AliHLTCaloDigitDataStruct**)(dig0)))->fEnergy) < 0) return -1;
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349 void AliHLTCaloClusterizer::SetDetector(TString det)
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351 if(det.CompareTo("EMCAL"))
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361 Bool_t AliHLTCaloClusterizer::AreEdgeCells(AliHLTCaloDigitDataStruct *digit0, AliHLTCaloDigitDataStruct *digit1)
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365 Int_t modDiff = digit0->fModule - digit1->fModule;
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366 if(TMath::Abs(modDiff) > 1) return kFALSE;
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367 if(digit0->fModule > digit1->fModule && digit1->fModule%2 == 0)
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369 if(digit0->fZ == 0 && digit1->fZ == (fCaloConstants->GetNZROWSMOD()-1))
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372 if(digit1->fModule > digit0->fModule && digit0->fModule%2 == 0)
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374 if(digit1->fZ == 0 && digit0->fZ == (fCaloConstants->GetNZROWSMOD()-1))
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