Geant4 Cross Reference |
1 //******************************************** 1 2 // BinToStd_GammaAtCreation.C 3 // Root command file 4 // Type: root BinToStd_GammaAtCreation.C 5 // 6 // Read the output file GammaAtCreation.dat th 7 // tomography simulation It read all the gamma 8 // rewrite the events in a binary file PixeEve 9 // 10 // More information is available in UserGuide 11 // Created by Z.LI LP2i Bordeaux 2022 12 //******************************************** 13 14 #include <math.h> 15 #include <stdint.h> 16 #include <stdio.h> 17 #include <string.h> 18 19 #include <vector> 20 // using namespace std; 21 22 // Define a structure to read and write each e 23 struct PixeEvent 24 { 25 uint16_t energy_10eV; 26 uint16_t pixelIndex; 27 uint16_t sliceIndex; 28 uint8_t projectionIndex; 29 }; 30 struct ParticleInfo 31 { 32 float energy_keV; 33 float mx; 34 float my; 35 float mz; 36 }; 37 38 struct RunInfo 39 { 40 // uint_16t 41 uint8_t projectionIndex; // 1 byte 42 uint16_t sliceIndex; // 43 uint16_t pixelIndex; 44 uint32_t nbParticle; // 4 bytes int 45 }; 46 struct Point 47 { 48 double m_x; 49 double m_y; 50 double m_z; 51 }; 52 53 // double DegreeToRadian(double degree) { retu 54 55 bool IsDetected(Point poi1, Point poi2, double 56 { 57 double a = (poi1.m_x * poi2.m_x + poi1.m_y * 58 / sqrt(poi1.m_x * poi1.m_x + poi1 59 / sqrt(poi2.m_x * poi2.m_x + poi2 60 if (a > 1.0) a = 1; 61 if (a < -1.0) a = -1; 62 double r = acos(a); 63 if (r > theta) 64 return false; 65 else 66 return true; 67 } 68 void BinToStd_GammaAtCreation() 69 { 70 //****************************************** 71 //**************************Detection parame 72 //****************************************** 73 74 const int nbProjection = 10; 75 const int nbSlice = 1; 76 const int nbPixel = 20; 77 double totalAngleSpan = 180.; // in degree 78 79 double angleOfDetector = 135.; // angle of 80 // direction 81 double distanceObjectDetector = 22.; // 22 82 double radiusOfDetector = 5.; // 5 mm 83 // double theta = atan(radiusOfDetector/dist 84 // angle of the right circular cone in radia 85 double theta = 70 * TMath::DegToRad(); // i 86 87 //****************************************** 88 //**************************Detection parame 89 //****************************************** 90 91 FILE* input = fopen("../build/GammaAtCreatio 92 FILE* out = fopen("../build/PixeEvent_std_At 93 94 if (input == NULL) { 95 printf("error for opening the input GammaA 96 return; 97 } 98 99 RunInfo runInfo; 100 PixeEvent pixeEvent; 101 Point centerOfDetector; 102 Point gammaMomentum; 103 long long count = 0; 104 int runID = -1; // index of simulations, na 105 106 // while(!feof(input)) //if not the end, rea 107 while (fread(&runInfo, sizeof(RunInfo), 1, i 108 runID++; 109 // if(runID==5) continue; 110 int nbParticle = runInfo.nbParticle; 111 112 //(begin)********************************* 113 // the following codes are used only when 114 // the index of projection, slice and pixe 115 // correctly configured 116 runInfo.projectionIndex = runID / (nbSlice 117 int remain = runID % (nbSlice * nbPixel); 118 runInfo.sliceIndex = remain / nbPixel; 119 runInfo.pixelIndex = remain % nbPixel; 120 //(end)*********************************** 121 122 //**************************************** 123 //**************************Print informat 124 //**************************************** 125 126 printf( 127 "---------RunID=%d:\nProjectionIndex=%d, 128 "nbParticle = %d\n", 129 runID, runInfo.projectionIndex, runInfo. 130 131 //**************************************** 132 //**************************Print informat 133 //**************************************** 134 135 if (!nbParticle) continue; 136 std::vector<ParticleInfo> gammaAtCreation( 137 fread(&gammaAtCreation[0], sizeof(Particle 138 139 // angleOfDetector+totalAngleSpan/nbProjec 140 // the angle between source direction and 141 // when source is rotating 142 double ra = TMath::DegToRad() 143 * (angleOfDetector + totalAngl 144 centerOfDetector.m_x = distanceObjectDetec 145 centerOfDetector.m_y = distanceObjectDetec 146 centerOfDetector.m_z = 0; 147 148 for (int i = 0; i < nbParticle; ++i) { 149 // gamma selection: energy should be low 150 if (gammaAtCreation[i].energy_keV >= 40. 151 continue; // gamma selection 152 153 gammaMomentum.m_x = gammaAtCreation[i].m 154 gammaMomentum.m_y = gammaAtCreation[i].m 155 gammaMomentum.m_z = gammaAtCreation[i].m 156 157 if (!IsDetected(centerOfDetector, gammaM 158 continue; 159 else { 160 pixeEvent.energy_10eV = floor(100 * ga 161 pixeEvent.projectionIndex = runInfo.pr 162 pixeEvent.sliceIndex = runInfo.sliceIn 163 pixeEvent.pixelIndex = runInfo.pixelIn 164 fwrite(&pixeEvent, 7, 1, out); 165 count++; 166 167 //************************************ 168 //**************************Print info 169 //************************************ 170 171 // printf("momentum: (%f, %f, %f), ene 172 // gammaAtCreation[i].mx, gammaAtCreat 173 // gammaAtCreation[i].energy_keV, pixe 174 175 //************************************ 176 //**************************Print info 177 //************************************ 178 } 179 } 180 } 181 printf( 182 "---------------Number of PixeEvent in tot 183 "%lld------------------------\n", 184 count); 185 fclose(input); 186 fclose(out); 187 188 // Recheck the output file in case 189 // FILE* input2 = fopen("PixeEvent_std_AtCre 190 // PixeEvent p; 191 // while(fread(&p, 7, 1, input2)) 192 // { 193 // printf("__ProjectionIndex=%d, SliceIndex= 194 // Energy_10eV=%d\n", p.projectionIndex, p.s 195 // p.energy_10eV); 196 197 // } 198 // fclose(input2); 199 } 200