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Geant4/examples/advanced/doiPET/include/doiPETAnalysis.hh

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Differences between /examples/advanced/doiPET/include/doiPETAnalysis.hh (Version 11.3.0) and /examples/advanced/doiPET/include/doiPETAnalysis.hh (Version 10.4.p1)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25                                                   
 26 //GEANT4 - Depth-of-Interaction enabled Positr    
 27                                                   
 28 //Authors and contributors                        
 29                                                   
 30 // Author list to be updated, with names of co    
 31                                                   
 32 // Abdella M. Ahmed (1, 2), Andrew Chacon (1,     
 33 // Hideaki Tashima (3), Go Akamatsu (3), Akram    
 34 // Susanna Guatelli (2), and Mitra Safavi-Naei    
 35                                                   
 36 // (1) Australian Nuclear Science and Technolo    
 37 // (2) University of Wollongong, Australia        
 38 // (3) National Institute of Radiological Scie    
 39                                                   
 40                                                   
 41 #ifndef doiPETAnalysis_h                          
 42 #define doiPETAnalysis_h  1                       
 43                                                   
 44 #include "doiPETGlobalParameters.hh"              
 45 #include "globals.hh"                             
 46 #include <vector>                                 
 47 #include <time.h>                                 
 48 #include <map>                                    
 49 #include <set>                                    
 50 #include "G4ThreeVector.hh"                       
 51 #include <iostream>                               
 52 #include <fstream>                                
 53 #include <sstream>                                
 54 #include <iterator>                               
 55 #include <vector>                                 
 56 #include <algorithm>                              
 57 #include "G4AnalysisManager.hh"                   
 58                                                   
 59 // Define the total number of columns in the n    
 60 const G4int MaxNtCol = 17;                        
 61                                                   
 62 class doiPETAnalysisMessenger;                    
 63                                                   
 64 //class InteractionInformation;                   
 65                                                   
 66 class doiPETAnalysis                              
 67 {                                                 
 68 private:                                          
 69   doiPETAnalysis();                               
 70                                                   
 71 public:                                           
 72   ~doiPETAnalysis();                              
 73   static doiPETAnalysis* GetInstance();           
 74   void FindInteractingCrystal();                  
 75   void Open(G4String);                            
 76   void Close();                                   
 77   void Delete();                                  
 78   void ResetNumberOfHits();                       
 79   void Write(/*G4int, G4int, G4int, G4double*/    
 80   void WriteOutput();                             
 81                                                   
 82   //void GetIntractionInfomation(InteractionIn    
 83                                                   
 84   void GetParentParticleName(G4String);           
 85   void GetSizeOfDetector (G4double, G4double,     
 86   void SetScatterIndexInPhantom(G4int);           
 87                                                   
 88   void SetSourcePosition(G4ThreeVector);//        
 89   void SetEventID(G4int);                         
 90                                                   
 91   void BlurringParameters();                      
 92   void GetTimeOfAnnihilation(G4double);           
 93                                                   
 94                                                   
 95   void PMTPosition();                             
 96   void AngerLogic(G4double, G4double, G4double    
 97   void ReadReflectorPattern();                    
 98   void PrepareDOILookUpTable(G4String);           
 99                                                   
100   void SetActivity(G4double);                     
101   void SetIsotopeHalfLife(G4double);              
102   void CrystalIDAfterAngerLogic(G4int, G4int,     
103   void TypeOfOutput(G4String);//Single or coin    
104   void CalulateAcquisitionTime();                 
105   //G4double QuantumEffifciency(G4double);        
106   G4double QuantumEffifciency(G4double, G4int,    
107   void ReadOut(G4int, G4int, G4double, G4doubl    
108                                                   
109   //G4ROOT                                        
110   void book(); // booking the ROOT file           
111                                                   
112                                                   
113   void FillListModeEvent(); //Single or Coinsi    
114   void finish();                                  
115   // Close the ROOT file with all the results     
116                                                   
117                                                   
118 private:                                          
119   static doiPETAnalysis* instance;                
120   doiPETAnalysisMessenger* fAnalysisMessenger;    
121   //std::multimap< G4int, InteractionInformati    
122   std::set<G4int> setBlockInteraction;            
123                                                   
124   G4double upperThreshold, lowerThreshold;        
125   G4double triggerEnergy;                         
126                                                   
127   //G4ROOT                                        
128   G4bool factoryOn;                               
129   G4int  fNtColId[MaxNtCol];                      
130   //                                              
131                                                   
132                                                   
133   //G4ThreeVector sourcePosition;                 
134                                                   
135                                                   
136                                                   
137   //                                              
138   G4int scatterIndex;                             
139                                                   
140   G4String parentParticleName;//                  
141                                                   
142   //                                              
143   G4int numberofInteractions;                     
144   G4int countCoincidence;                         
145                                                   
146   G4int numberOfBlocks_total;                     
147                                                   
148   G4double sizeOfDetector_DOI,sizeOfDetector_a    
149                                                   
150   //Virtual position of the PMT                   
151   G4double signalPMT1, signalPMT2, signalPMT3,    
152                                                   
153   G4double posPMT1x, posPMT2x, posPMT3x, posPM    
154   G4double posPMT1y, posPMT2y, posPMT3y, posPM    
155   G4double posPMT1z, posPMT2z, posPMT3z, posPM    
156                                                   
157   //                                              
158   G4double signalPMT1z, signalPMT2z, signalPMT    
159   G4double signalPMT1y, signalPMT2y, signalPMT    
160                                                   
161   //                                              
162   G4double signalZplus, signalZminus;             
163   G4double signalYplus, signalYminus;             
164   //                                              
165                                                   
166   G4double dist1z, dist2z, dist3z, dist4z, dis    
167   G4double dist1y, dist2y, dist3y, dist4y, dis    
168                                                   
169   G4double shiftCoeff;                            
170                                                   
171   G4double PositionAngerZ, PositionAngerY;        
172                                                   
173   //reflector pattern                             
174   std::vector<G4int> ireflectorLayer1_Tangenti    
175   std::vector<G4int> ireflectorLayer1_Axial;      
176   std::vector<G4int> ireflectorLayer2_Tangenti    
177   std::vector<G4int> ireflectorLayer2_Axial;      
178   std::vector<G4int> ireflectorLayer3_Tangenti    
179   std::vector<G4int> ireflectorLayer3_Axial;      
180   std::vector<G4int> ireflectorLayer4_Tangenti    
181   std::vector<G4int> ireflectorLayer4_Axial;      
182   std::vector<G4int> doi_table;                   
183   //                                              
184                                                   
185   //The number of pixes for the 2D position hi    
186   G4int numberOfPixel_axial;                      
187   G4int numberOfPixel_tan;                        
188                                                   
189   //source position                               
190   G4double spositionX;                            
191   G4double spositionY;                            
192   G4double spositionZ;                            
193                                                   
194   //interaction position with respect to the c    
195   G4ThreeVector interactionPos;                   
196                                                   
197   //interaction position                          
198   G4double intPosX;                               
199   G4double intPosY;                               
200   G4double intPosZ;                               
201                                                   
202                                                   
203   G4double interactionTime;                       
204                                                   
205   G4int crystalID;//contineous crystal ID in 3    
206   G4int crystalID_2D;                             
207                                                   
208   G4int prev_eventID;                             
209                                                   
210   //Single output                                 
211   G4int eventID;                                  
212   G4int blockID;                                  
213   G4int crystalID_axial;                          
214   G4int crystalID_tangential;                     
215   G4int DOI_ID;                                   
216   G4double timeStamp;                             
217   G4double totalEdep;                             
218                                                   
219   //coincidence output                            
220   G4int eventID0,         eventID1;               
221   G4int blockID0,         blockID1;               
222   G4int crystalID_axial0,     crystalID_axial1    
223   G4int crystalID_tangential0,  crystalID_tang    
224   G4int DOI_ID0,          DOI_ID1;                
225   G4double timeStamp0,      timeStamp1;           
226   G4double totalEdep0,      totalEdep1;           
227   G4double sposX, sposY, sposZ;                   
228   //choice for the user                           
229   G4bool getSinglesData;                          
230   G4bool getCoincidenceData;                      
231                                                   
232   //                                              
233   G4bool ApplyAngerLogic;                         
234                                                   
235   G4double PMTblurring_tan;                       
236   G4double PMTblurring_axial;                     
237                                                   
238   G4String outputData;                            
239   G4int numberOfHit;                              
240   std::vector<G4int> eventID_coin;                
241   std::vector<G4double> edep_coin;                
242   std::vector<G4int>blockID_coin;                 
243   std::vector<G4int> cryID_axial_coin;            
244   std::vector<G4int> cryID_tan_coin;              
245   std::vector<G4int> cryDOI_coin;                 
246   std::vector<G4double> time_coin;                
247                                                   
248   //Crystal IDs after Anger Logic calculation     
249   G4int crystalIDNew_DOI, crystalIDNew_tan, cr    
250                                                   
251   //Crystal ID in the 2D position histogram al    
252   G4int crystalID_in2D_posHist_axial, crystalI    
253                                                   
254   //continous crystal ID after after Anger Log    
255   G4int crystalID_in2D_posHist;                   
256                                                   
257                                                   
258   //Crystal blurring                              
259   G4double crystalResolution;                     
260   G4double crystalResolutionMin;//                
261   G4double crystalResolutionMax;//                
262                                                   
263   //G4bool variableResolution;                    
264   G4bool fixedResolution;                         
265   G4bool isDOIlookUpTablePrepared;                
266                                                   
267   G4double energyResolution_fixed;                
268   std::vector<std::vector<G4double>> energyRes    
269                                                   
270   G4double crystalEnergyRef;//This 511 keV        
271   G4double crystalQuantumEfficiency;//            
272   G4double edep_AfterCrystalBlurring;             
273   G4double crystalCoeff;                          
274   G4double sigma_energyResolution;                
275                                                   
276   G4double totalTime;                             
277   G4double prev_totalTime;                        
278   G4double timeInterval;                          
279   G4double time_annihil;                          
280   G4double time_tof;                              
281   G4double block_DeadTime;                        
282   G4double module_DeadTime;                       
283                                                   
284   G4double *blockTime;                            
285   G4double *moduleTime;                           
286                                                   
287   //                                              
288   G4double activityNow;                           
289   G4double InitialActivity;                       
290   G4double halfLife;                              
291                                                   
292   G4String simulationType;                        
293                                                   
294   //                                              
295   //for output file to write results              
296   std::ofstream ofs;                              
297   G4String asciiFileName;                         
298   G4String rootFileName;                          
299                                                   
300 // #ifdef USEROOT                                 
301 //     TFile* file;                               
302 //  TTree* tSingles;                              
303 //  TTree* tCoincidence;                          
304 //  //TH1F*hb;                                    
305 // #endif                                         
306                                                   
307   //input file to read reflector pattern          
308   std::ifstream ifs;                              
309 };                                                
310                                                   
311 #endif                                            
312                                                   
313