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Geant4/particles/management/src/G4PDGCodeChecker.cc

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Differences between /particles/management/src/G4PDGCodeChecker.cc (Version 11.3.0) and /particles/management/src/G4PDGCodeChecker.cc (Version 10.0.p3)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
  3 // * License and Disclaimer                         3 // * License and Disclaimer                                           *
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 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
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 25 //                                                 25 //
 26 // G4PDGCodeChecker                            << 
 27 //                                                 26 //
 28 // Author: Hisaya Kurashige, 17 August 1999    <<  27 // $Id: G4PDGCodeChecker.cc 67971 2013-03-13 10:13:24Z gcosmo $
 29 // ------------------------------------------- <<  28 //
                                                   >>  29 // 
                                                   >>  30 // ----------------------------------------------------------------------
                                                   >>  31 //      GEANT 4 class implementation file
                                                   >>  32 //
                                                   >>  33 //      History: first implementation, based on object model of
                                                   >>  34 //      17 Aug 1999 H.Kurashige
                                                   >>  35 // **********************************************************************
 30                                                    36 
 31 #include "G4PDGCodeChecker.hh"                 <<  37 #include <fstream>
                                                   >>  38 #include <iomanip>
 32                                                    39 
                                                   >>  40 #include "G4PDGCodeChecker.hh"
 33 #include "G4PhysicalConstants.hh"                  41 #include "G4PhysicalConstants.hh"
 34 #include "G4SystemOfUnits.hh"                      42 #include "G4SystemOfUnits.hh"
 35                                                    43 
 36 #include <fstream>                             <<  44 /////////////
 37 #include <iomanip>                             <<  45 G4PDGCodeChecker::G4PDGCodeChecker()
 38                                                <<  46   :code(0),theParticleType(""),
 39 G4PDGCodeChecker::G4PDGCodeChecker() : verbose <<  47    higherSpin(0),
                                                   >>  48    exotic(0),radial(0),multiplet(0),
                                                   >>  49    quark1(0),quark2(0),quark3(0),spin(0)
 40 {                                                  50 {
                                                   >>  51   verboseLevel = 1;
 41   // clear QuarkContents                           52   // clear QuarkContents
 42   for (G4int flavor = 0; flavor < NumberOfQuar <<  53   G4int flavor;
 43     theQuarkContent[flavor] = 0;               <<  54   for (flavor=0; flavor<NumberOfQuarkFlavor; flavor++){
 44     theAntiQuarkContent[flavor] = 0;           <<  55     theQuarkContent[flavor] =0;
                                                   >>  56     theAntiQuarkContent[flavor] =0;
 45   }                                                57   }
 46 }                                                  58 }
 47                                                    59 
 48 G4int G4PDGCodeChecker::CheckPDGCode(G4int PDG <<  60 /////////////
                                                   >>  61 G4int  G4PDGCodeChecker::CheckPDGCode( G4int    PDGcode, 
                                                   >>  62                G4String particleType)
 49 {                                                  63 {
 50   code = PDGcode;                                  64   code = PDGcode;
 51   theParticleType = particleType;                  65   theParticleType = particleType;
 52                                                    66 
 53   // clear QuarkContents                           67   // clear QuarkContents
 54   for (G4int flavor = 0; flavor < NumberOfQuar <<  68   G4int flavor;
 55     theQuarkContent[flavor] = 0;               <<  69   for (flavor=0; flavor<NumberOfQuarkFlavor; flavor++){
 56     theAntiQuarkContent[flavor] = 0;           <<  70     theQuarkContent[flavor] =0;
                                                   >>  71     theAntiQuarkContent[flavor] =0;
 57   }                                                72   }
 58                                                    73 
 59   // check code for nuclei                         74   // check code for nuclei
 60   if ((theParticleType == "nucleus") || (thePa <<  75   if ((theParticleType == "nucleus")||(theParticleType == "anti_nucleus")) {
 61     return CheckForNuclei();                       76     return CheckForNuclei();
 62   }                                                77   }
 63                                                    78 
 64   // get each digit number                         79   // get each digit number
 65   GetDigits(code);                                 80   GetDigits(code);
 66                                                    81 
 67   // check code                                    82   // check code
 68   if (theParticleType == "quarks") {           <<  83   if (theParticleType =="quarks") {
 69     return CheckForQuarks();                       84     return CheckForQuarks();
 70   }                                            <<  85 
 71   if (theParticleType == "diquarks") {         <<  86   } else if  (theParticleType =="diquarks") {
 72     return CheckForDiQuarks();                     87     return CheckForDiQuarks();
 73   }                                            <<  88 
 74   if (theParticleType == "gluons") {           <<  89   } else if (theParticleType =="gluons") {
 75     return code;  // gluons, do not care about <<  90     // gluons 
 76   }                                            <<  91     //   do not care about
 77   if (theParticleType == "meson") {            <<  92     return code;
                                                   >>  93 
                                                   >>  94   } else if (theParticleType == "meson") {
 78     return CheckForMesons();                       95     return CheckForMesons();
 79   }                                            <<  96 
 80   if (theParticleType == "baryon") {           <<  97   } else if (theParticleType == "baryon"){
 81     return CheckForBaryons();                      98     return CheckForBaryons();
                                                   >>  99 
                                                   >> 100 
 82   }                                               101   }
 83   // No check                                     102   // No check
 84   return code;                                    103   return code;
 85 }                                                 104 }
 86                                                << 105  
                                                   >> 106 /////////////
 87 G4int G4PDGCodeChecker::CheckForBaryons()         107 G4int G4PDGCodeChecker::CheckForBaryons()
 88 {                                                 108 {
 89   G4int tempPDGcode = code;                    << 109   G4int   tempPDGcode = code;
 90                                                   110 
 91   if ((quark1 == 0) || (quark2 == 0) || (quark << 111   if ((quark1==0)||(quark2==0)||(quark3==0)){ 
 92 #ifdef G4VERBOSE                                  112 #ifdef G4VERBOSE
 93     if (verboseLevel > 0) {                    << 113     if (verboseLevel>0) {
 94       G4cout << " G4PDGCodeChecker::CheckPDGCo    114       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
 95       G4cout << " meson has three quark ";        115       G4cout << " meson has three quark ";
 96       G4cout << " PDG code=" << code << G4endl << 116       G4cout << " PDG code=" << code <<G4endl;
 97     }                                             117     }
 98 #endif                                            118 #endif
 99     return 0;                                     119     return 0;
100   }                                               120   }
101                                                << 121  
102   // exceptions                                << 122  //exceptions
103   if (std::abs(tempPDGcode) % 10000 == 3122) { << 123   if (std::abs(tempPDGcode)%10000 == 3122) { 
104     // Lambda                                     124     // Lambda
105     quark2 = 2;                                << 125     quark2=2;  quark3 = 1; spin = 1;
106     quark3 = 1;                                << 126   } else if (std::abs(tempPDGcode)%10000 == 3124) { 
107     spin = 1;                                  << 
108   }                                            << 
109   else if (std::abs(tempPDGcode) % 10000 == 31 << 
110     // Lambda*                                    127     // Lambda*
111     quark2 = 2;                                << 128     quark2=2;  quark3 = 1; spin = 3;
112     quark3 = 1;                                << 129   } else if (std::abs(tempPDGcode)%10000 == 3126) { 
113     spin = 3;                                  << 
114   }                                            << 
115   else if (std::abs(tempPDGcode) % 10000 == 31 << 
116     // Lambda*                                    130     // Lambda*
117     quark2 = 2;                                << 131     quark2=2;  quark3 = 1; spin = 5;
118     quark3 = 1;                                << 132   } else if (std::abs(tempPDGcode)%10000 == 3128) { 
119     spin = 5;                                  << 
120   }                                            << 
121   else if (std::abs(tempPDGcode) % 10000 == 31 << 
122     // Lambda*                                    133     // Lambda*
123     quark2 = 2;                                << 134     quark2=2;  quark3 = 1; spin = 7;
124     quark3 = 1;                                << 135   } else if (std::abs(tempPDGcode)%10000 == 4122) { 
125     spin = 7;                                  << 
126   }                                            << 
127   else if (std::abs(tempPDGcode) % 10000 == 41 << 
128     // Lambda_c                                   136     // Lambda_c
129     quark2 = 2;                                << 137     quark2=2;  quark3 = 1; spin = 1;
130     quark3 = 1;                                << 138   } else if (std::abs(tempPDGcode)%10000 == 5122) { 
131     spin = 1;                                  << 
132   }                                            << 
133   else if (std::abs(tempPDGcode) % 10000 == 51 << 
134     // Lambda_b                                   139     // Lambda_b
135     quark2 = 2;                                << 140     quark2=2;  quark3 = 1; spin = 1;
136     quark3 = 1;                                << 141   } else if (std::abs(tempPDGcode)%10000 == 4132) { 
137     spin = 1;                                  << 
138   }                                            << 
139   else if (std::abs(tempPDGcode) % 10000 == 41 << 
140     // Xi_c0                                      142     // Xi_c0
141     quark2 = 3;                                << 143     quark2=3;  quark3 = 1; spin = 1;
142     quark3 = 1;                                << 144   } else if (std::abs(tempPDGcode)%10000 == 4232) { 
143     spin = 1;                                  << 
144   }                                            << 
145   else if (std::abs(tempPDGcode) % 10000 == 42 << 
146     // Xi_c+                                      145     // Xi_c+
147     quark2 = 3;                                << 146     quark2=3;  quark3 = 2; spin = 1;
148     quark3 = 2;                                << 147   } else if (std::abs(tempPDGcode)%10000 == 5132) { 
149     spin = 1;                                  << 
150   }                                            << 
151   else if (std::abs(tempPDGcode) % 10000 == 51 << 
152     // Xi_b0                                      148     // Xi_b0
153     quark2 = 3;                                << 149     quark2=3;  quark3 = 1; spin = 1;
154     quark3 = 1;                                << 150   } else if (std::abs(tempPDGcode)%10000 == 5232) { 
155     spin = 1;                                  << 
156   }                                            << 
157   else if (std::abs(tempPDGcode) % 10000 == 52 << 
158     // Xi_b+                                      151     // Xi_b+
159     quark2 = 3;                                << 152     quark2=3;  quark3 = 2; spin = 1;
160     quark3 = 2;                                << 153   } else if (std::abs(tempPDGcode)%10000 == 2122) { 
161     spin = 1;                                  << 154     // Delta+ (spin 1/2) 
162   }                                            << 155     quark2=2;  quark3 = 1; spin = 1;
163   else if (std::abs(tempPDGcode) % 10000 == 21 << 156   } else if (std::abs(tempPDGcode)%10000 == 1212) { 
164     // Delta+ (spin 1/2)                       << 157     // Delta0 (spin 1/2) 
165     quark2 = 2;                                << 158     quark1=2;  quark2 = 1; spin = 1;
166     quark3 = 1;                                << 159   } else if (std::abs(tempPDGcode)%10000 == 2126) { 
167     spin = 1;                                  << 160     // Delta+ (spin 5/2) 
168   }                                            << 161     quark2=2;  quark3 = 1; spin = 5;
169   else if (std::abs(tempPDGcode) % 10000 == 12 << 162   } else if (std::abs(tempPDGcode)%10000 == 1216) { 
170     // Delta0 (spin 1/2)                       << 163     // Delta0 (spin 5/2) 
171     quark1 = 2;                                << 164     quark1=2;  quark2 = 1; spin = 5;
172     quark2 = 1;                                << 165   } else if (std::abs(tempPDGcode)%10000 == 2128) { 
173     spin = 1;                                  << 166     // Delta+ (spin 7/2) 
174   }                                            << 167     quark2=2;  quark3 = 1; spin = 7;
175   else if (std::abs(tempPDGcode) % 10000 == 21 << 168   } else if (std::abs(tempPDGcode)%10000 == 1218) { 
176     // Delta+ (spin 5/2)                       << 169     // Delta0 (spin 7/2) 
177     quark2 = 2;                                << 170     quark1=2;  quark2 = 1; spin = 7;
178     quark3 = 1;                                << 171   } else if (std::abs(tempPDGcode)%10000 == 2124) { 
179     spin = 5;                                  << 172     // N*+ (spin 3/2) 
180   }                                            << 173     quark2=2;  quark3 = 1; spin = 3;
181   else if (std::abs(tempPDGcode) % 10000 == 12 << 174   } else if (std::abs(tempPDGcode)%10000 == 1214) { 
182     // Delta0 (spin 5/2)                       << 175     // N*0 (spin 3/2) 
183     quark1 = 2;                                << 176     quark1=2;  quark2 = 1; spin = 3;
184     quark2 = 1;                                << 177   } 
185     spin = 5;                                  << 
186   }                                            << 
187   else if (std::abs(tempPDGcode) % 10000 == 21 << 
188     // Delta+ (spin 7/2)                       << 
189     quark2 = 2;                                << 
190     quark3 = 1;                                << 
191     spin = 7;                                  << 
192   }                                            << 
193   else if (std::abs(tempPDGcode) % 10000 == 12 << 
194     // Delta0 (spin 7/2)                       << 
195     quark1 = 2;                                << 
196     quark2 = 1;                                << 
197     spin = 7;                                  << 
198   }                                            << 
199   else if (std::abs(tempPDGcode) % 10000 == 21 << 
200     // N*+ (spin 3/2)                          << 
201     quark2 = 2;                                << 
202     quark3 = 1;                                << 
203     spin = 3;                                  << 
204   }                                            << 
205   else if (std::abs(tempPDGcode) % 10000 == 12 << 
206     // N*0 (spin 3/2)                          << 
207     quark1 = 2;                                << 
208     quark2 = 1;                                << 
209     spin = 3;                                  << 
210   }                                            << 
211                                                   178 
212   // check quark flavor                        << 179     // check quark flavor
213   if ((quark1 < quark2) || (quark2 < quark3) | << 180   if ((quark1<quark2)||(quark2<quark3)||(quark1<quark3)) { 
214 #ifdef G4VERBOSE                                  181 #ifdef G4VERBOSE
215     if (verboseLevel > 0) {                    << 182     if (verboseLevel>0) {
216       G4cout << " G4PDGCodeChecker::CheckPDGCo    183       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
217       G4cout << " illegal code for baryon ";      184       G4cout << " illegal code for baryon ";
218       G4cout << " PDG code=" << code << G4endl << 185       G4cout << " PDG code=" << code <<G4endl;
219     }                                             186     }
220 #endif                                            187 #endif
221     return 0;                                     188     return 0;
222   }                                               189   }
223   if (quark1 > NumberOfQuarkFlavor) {          << 190   if (quark1> NumberOfQuarkFlavor) {
224 #ifdef G4VERBOSE                                  191 #ifdef G4VERBOSE
225     if (verboseLevel > 0) {                    << 192     if (verboseLevel>0) {
226       G4cout << " G4PDGCodeChecker::CheckPDGCo    193       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
227       G4cout << " ??? unknown quark ";            194       G4cout << " ??? unknown quark ";
228       G4cout << " PDG code=" << code << G4endl << 195       G4cout << " PDG code=" << code <<G4endl;
229     }                                             196     }
230 #endif                                            197 #endif
231     return 0;                                     198     return 0;
232   }                                               199   }
                                                   >> 200   
233                                                   201 
234   // Fill Quark contents                          202   // Fill Quark contents
235   if (tempPDGcode > 0) {                       << 203   if (tempPDGcode >0) {
236     theQuarkContent[quark1 - 1]++;             << 204     theQuarkContent[quark1-1] ++;
237     theQuarkContent[quark2 - 1]++;             << 205     theQuarkContent[quark2-1] ++;
238     theQuarkContent[quark3 - 1]++;             << 206     theQuarkContent[quark3-1] ++;
239   }                                            << 207   } else {
240   else {                                       << 208     theAntiQuarkContent[quark1-1] ++;
241     theAntiQuarkContent[quark1 - 1]++;         << 209     theAntiQuarkContent[quark2-1] ++;
242     theAntiQuarkContent[quark2 - 1]++;         << 210     theAntiQuarkContent[quark3-1] ++;
243     theAntiQuarkContent[quark3 - 1]++;         << 
244   }                                               211   }
245                                                   212 
246   return code;                                    213   return code;
247 }                                                 214 }
248                                                << 215  
                                                   >> 216 /////////////
249 G4int G4PDGCodeChecker::CheckForMesons()          217 G4int G4PDGCodeChecker::CheckForMesons()
250 {                                                 218 {
251   G4int tempPDGcode = code;                    << 219   G4int   tempPDGcode = code;
252                                                   220 
253   // -- exceptions --                          << 221   //   -- exceptions --
254   if (tempPDGcode == 310) spin = 0;  // K0s    << 222   if (tempPDGcode == 310) spin = 0;        //K0s
255   if (tempPDGcode == 130)  // K0l              << 223   if (tempPDGcode == 130) {     //K0l
256   {                                            << 224     spin = 0;        
257     spin = 0;                                  << 
258     quark2 = 3;                                   225     quark2 = 3;
259     quark3 = 1;                                   226     quark3 = 1;
260   }                                               227   }
261                                                << 228   
262   if ((quark1 != 0) || (quark2 == 0) || (quark << 229   // 
                                                   >> 230   if ((quark1 !=0)||(quark2==0)||(quark3==0)){ 
263 #ifdef G4VERBOSE                                  231 #ifdef G4VERBOSE
264     if (verboseLevel > 0) {                    << 232     if (verboseLevel>0) {
265       G4cout << " G4PDGCodeChecker::CheckPDGCo    233       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
266       G4cout << " meson has only quark and ant    234       G4cout << " meson has only quark and anti-quark pair";
267       G4cout << " PDG code=" << code << G4endl << 235       G4cout << " PDG code=" << code <<G4endl;
268     }                                             236     }
269 #endif                                            237 #endif
270     return 0;                                     238     return 0;
271   }                                            << 239   } 
272   if (quark2 < quark3) {                       << 240   if (quark2<quark3) { 
273 #ifdef G4VERBOSE                                  241 #ifdef G4VERBOSE
274     if (verboseLevel > 0) {                    << 242     if (verboseLevel>0) {
275       G4cout << " G4PDGCodeChecker::CheckPDGCo    243       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
276       G4cout << " illegal code for meson ";       244       G4cout << " illegal code for meson ";
277       G4cout << " PDG code=" << code << G4endl << 245       G4cout << " PDG code=" << code <<G4endl;
278     }                                             246     }
279 #endif                                            247 #endif
280     return 0;                                     248     return 0;
281   }                                               249   }
282                                                   250 
283   // check quark flavor                           251   // check quark flavor
284   if (quark2 > NumberOfQuarkFlavor) {          << 252   if (quark2> NumberOfQuarkFlavor){
285 #ifdef G4VERBOSE                                  253 #ifdef G4VERBOSE
286     if (verboseLevel > 0) {                    << 254     if (verboseLevel>0) {
287       G4cout << " G4PDGCodeChecker::CheckPDGCo    255       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
288       G4cout << " ??? unknown quark ";            256       G4cout << " ??? unknown quark ";
289       G4cout << " PDG code=" << code << G4endl << 257       G4cout << " PDG code=" << code <<G4endl;
290     }                                             258     }
291 #endif                                            259 #endif
292     return 0;                                     260     return 0;
293   }                                               261   }
294                                                   262 
                                                   >> 263  
295   // check heavier quark type                     264   // check heavier quark type
296   if ((quark2 & 1) != 0) {                     << 265   if (quark2 & 1) {
297     // down type qurak                            266     // down type qurak
298     if (tempPDGcode > 0) {                     << 267     if (tempPDGcode >0) {
299       theQuarkContent[quark3 - 1] = 1;         << 268       theQuarkContent[quark3-1] =1;
300       theAntiQuarkContent[quark2 - 1] = 1;     << 269       theAntiQuarkContent[quark2-1] =1;
                                                   >> 270     } else {
                                                   >> 271       theQuarkContent[quark2-1] =1;
                                                   >> 272       theAntiQuarkContent[quark3-1] =1;
301     }                                             273     }
302     else {                                     << 274   } else {
303       theQuarkContent[quark2 - 1] = 1;         << 
304       theAntiQuarkContent[quark3 - 1] = 1;     << 
305     }                                          << 
306   }                                            << 
307   else {                                       << 
308     // up type quark                              275     // up type quark
309     if (tempPDGcode > 0) {                     << 276     if (tempPDGcode >0) {
310       theQuarkContent[quark2 - 1] = 1;         << 277       theQuarkContent[quark2-1] =1;
311       theAntiQuarkContent[quark3 - 1] = 1;     << 278       theAntiQuarkContent[quark3-1] =1;
312     }                                          << 279     } else {
313     else {                                     << 280       theQuarkContent[quark3-1] =1;
314       theQuarkContent[quark3 - 1] = 1;         << 281       theAntiQuarkContent[quark2-1] =1;
315       theAntiQuarkContent[quark2 - 1] = 1;     << 
316     }                                             282     }
317   }                                               283   }
318   return code;                                    284   return code;
319 }                                                 285 }
320                                                   286 
                                                   >> 287   
                                                   >> 288 
                                                   >> 289 /////////////
321 G4int G4PDGCodeChecker::CheckForDiQuarks()        290 G4int G4PDGCodeChecker::CheckForDiQuarks()
322 {                                                 291 {
323   if ((quark1 == 0) || (quark2 == 0) || (quark << 292   if ((quark1 ==0) || (quark2 ==0) || (quark3 !=0)) {
324     // quark3 should be 0                         293     // quark3 should be 0
325     //  --- code is wrong                      << 294     //  --- code is wrong 
326     return 0;                                     295     return 0;
327   }                                            << 296 
328   if (quark1 < quark2) {                       << 297   } else if (quark1 < quark2) {
329     //  --- code is wrong                      << 298     //  --- code is wrong 
330     return 0;                                     299     return 0;
331   }                                            << 300 
332   if (quark2 > NumberOfQuarkFlavor) {          << 301   } else if (quark2>NumberOfQuarkFlavor){
333 #ifdef G4VERBOSE                                  302 #ifdef G4VERBOSE
334     if (verboseLevel > 0) {                    << 303     if (verboseLevel>0) {
335       G4cout << " G4PDGCodeChecker::CheckPDGCo    304       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
336       G4cout << " ??? unknown quark ";            305       G4cout << " ??? unknown quark ";
337       G4cout << " PDG code=" << code << G4endl << 306       G4cout << " PDG code=" << code <<G4endl;
338     }                                             307     }
339 #endif                                            308 #endif
340     return 0;                                     309     return 0;
                                                   >> 310 
341   }                                               311   }
342                                                   312 
343   // Fill Quark Contents                          313   // Fill Quark Contents
344   if (code > 0) {                              << 314   if (code>0){
345     theQuarkContent[quark1 - 1] += 1;          << 315     theQuarkContent[quark1-1] +=1;
346     theQuarkContent[quark2 - 1] += 1;          << 316     theQuarkContent[quark2-1] +=1;
347   }                                            << 317   } else {
348   else {                                       << 318     theAntiQuarkContent[quark1-1] +=1;
349     theAntiQuarkContent[quark1 - 1] += 1;      << 319     theAntiQuarkContent[quark2-1] +=1;
350     theAntiQuarkContent[quark2 - 1] += 1;      << 
351   }                                               320   }
352                                                   321 
353   return code;                                    322   return code;
354 }                                                 323 }
355                                                << 324  
                                                   >> 325 /////////////
356 G4int G4PDGCodeChecker::CheckForQuarks()          326 G4int G4PDGCodeChecker::CheckForQuarks()
357 {                                                 327 {
358   quark1 = std::abs(code);                     << 328   if ( std::abs(quark1)>NumberOfQuarkFlavor ) {
359                                                << 
360   if (std::abs(quark1) > NumberOfQuarkFlavor)  << 
361 #ifdef G4VERBOSE                                  329 #ifdef G4VERBOSE
362     if (verboseLevel > 0) {                    << 330     if (verboseLevel>0) {
363       G4cout << " G4PDGCodeChecker::CheckPDGCo    331       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
364       G4cout << " ??? unknown quark ";            332       G4cout << " ??? unknown quark ";
365       G4cout << " PDG code=" << code << G4endl << 333       G4cout << " PDG code=" << code <<G4endl;
366     }                                             334     }
367 #endif                                            335 #endif
368     //  --- code is wrong                      << 336     //  --- code is wrong 
369     return 0;                                     337     return 0;
370   }                                            << 338 
                                                   >> 339   } 
                                                   >> 340 
                                                   >> 341   quark1 = std::abs(code);
371                                                   342 
372   // Fill Quark Contents                          343   // Fill Quark Contents
373   if (code > 0) {                              << 344   if (code>0){
374     theQuarkContent[quark1 - 1] = 1;           << 345     theQuarkContent[quark1-1] =1;
375   }                                            << 346   } else {
376   else {                                       << 347     theAntiQuarkContent[quark1-1] =1;
377     theAntiQuarkContent[quark1 - 1] = 1;       << 
378   }                                               348   }
379   return code;                                    349   return code;
380 }                                                 350 }
381                                                   351 
                                                   >> 352 /////////////
382 G4bool G4PDGCodeChecker::CheckCharge(G4double     353 G4bool G4PDGCodeChecker::CheckCharge(G4double thePDGCharge) const
383 {                                                 354 {
384   // check charge                                 355   // check charge
385   G4double totalCharge = 0.0;                     356   G4double totalCharge = 0.0;
386   for (G4int flavor = 0; flavor < NumberOfQuar << 357   for (G4int flavor= 0; flavor<NumberOfQuarkFlavor-1; flavor+=2){
387     totalCharge += (-1. / 3.) * eplus * theQua << 358     totalCharge += (-1./3.)*eplus*theQuarkContent[flavor];
388     totalCharge += 1. / 3. * eplus * theAntiQu << 359     totalCharge += 1./3.*eplus*theAntiQuarkContent[flavor];
389     totalCharge += 2. / 3. * eplus * theQuarkC << 360     totalCharge += 2./3.*eplus*theQuarkContent[flavor+1];
390     totalCharge += (-2. / 3.) * eplus * theAnt << 361     totalCharge += (-2./3.)*eplus*theAntiQuarkContent[flavor+1];
391   }                                               362   }
392                                                   363 
393   if (std::fabs(totalCharge - thePDGCharge) >  << 364   if (std::fabs(totalCharge-thePDGCharge)>0.1*eplus) { 
394 #ifdef G4VERBOSE                                  365 #ifdef G4VERBOSE
395     if (verboseLevel > 0) {                    << 366     if (verboseLevel>0) {
396       G4cout << " G4PDGCodeChecker::CheckCharg    367       G4cout << " G4PDGCodeChecker::CheckCharge  : ";
397       G4cout << " illegal electric charge " << << 368       G4cout << " illegal electric charge " << thePDGCharge/eplus;
398       G4cout << " PDG code=" << code << G4endl << 369       G4cout << " PDG code=" << code <<G4endl;
399     }                                             370     }
400 #endif                                            371 #endif
401     return false;                                 372     return false;
402   }                                               373   }
403   return true;                                    374   return true;
404 }                                                 375 }
405                                                   376 
                                                   >> 377 /////////////
406 G4int G4PDGCodeChecker::CheckForNuclei()          378 G4int G4PDGCodeChecker::CheckForNuclei()
407 {                                                 379 {
408   G4int pcode = std::abs(code);                   380   G4int pcode = std::abs(code);
409   if (pcode < 1000000000) {                       381   if (pcode < 1000000000) {
410     // non-nuclei                              << 382     // non-nuclei   
411     return 0;                                     383     return 0;
412   }                                               384   }
413                                                   385 
414   pcode -= 1000000000;                            386   pcode -= 1000000000;
415   G4int LL = pcode / 10000000;                 << 387   G4int L = pcode/10000000;
416   pcode -= 10000000 * LL;                      << 388   pcode -= 10000000*L;
417   G4int Z = pcode / 10000;                     << 389   G4int Z = pcode/10000;
418   pcode -= 10000 * Z;                          << 390   pcode -= 10000*Z;
419   G4int A = pcode / 10;                        << 391   G4int A = pcode/10;
420                                                << 392   
421   // Allow neutron balls                          393   // Allow neutron balls
422   // if (A < 2 || Z > A-LL || LL>A || Z<=0 ) { << 394   // if (A < 2 || Z > A-L || L>A || Z<=0 ) {
423   if (A < 2 || Z > A - LL || LL > A) {         << 395   if (A < 2 || Z > A-L || L>A ) {
424 #ifdef G4VERBOSE                                  396 #ifdef G4VERBOSE
425     if (verboseLevel > 0) {                    << 397     if (verboseLevel>0) {
426       G4cout << " G4PDGCodeChecker::CheckPDGCo    398       G4cout << " G4PDGCodeChecker::CheckPDGCode : ";
427       G4cout << " ???  Illegal PDG encoding fo    399       G4cout << " ???  Illegal PDG encoding for nucleus ";
428       G4cout << " PDG code=" << code << G4endl << 400       G4cout << " PDG code=" << code <<G4endl;
429     }                                             401     }
430 #endif                                            402 #endif
431     return 0;                                     403     return 0;
432   }                                               404   }
433                                                   405 
434   G4int n_up = 2 * Z + (A - Z - LL) + LL;      << 406   G4int n_up   = 2*Z +   (A-Z-L) + L;
435   G4int n_down = Z + 2 * (A - Z - LL) + LL;    << 407   G4int n_down =   Z + 2*(A-Z-L) + L;
436   G4int n_s = LL;                              << 408   G4int n_s    =   L;
437                                                   409 
438   // Fill Quark contents                          410   // Fill Quark contents
439   if (code > 0) {                              << 411   if (code>0) {
440     theQuarkContent[0] = n_up;                    412     theQuarkContent[0] = n_up;
441     theQuarkContent[1] = n_down;                  413     theQuarkContent[1] = n_down;
442     theQuarkContent[2] = n_s;                     414     theQuarkContent[2] = n_s;
443   }                                            << 415    } else {
444   else {                                       << 
445     // anti_nucleus                               416     // anti_nucleus
446     theAntiQuarkContent[0] = n_up;                417     theAntiQuarkContent[0] = n_up;
447     theAntiQuarkContent[1] = n_down;              418     theAntiQuarkContent[1] = n_down;
448     theAntiQuarkContent[2] = n_s;                 419     theAntiQuarkContent[2] = n_s;
449   }                                               420   }
450   return code;                                    421   return code;
451 }                                                 422 }
452                                                << 423  
                                                   >> 424 /////////////
453 void G4PDGCodeChecker::GetDigits(G4int PDGcode    425 void G4PDGCodeChecker::GetDigits(G4int PDGcode)
454 {                                                 426 {
455   G4int temp = std::abs(PDGcode);                 427   G4int temp = std::abs(PDGcode);
                                                   >> 428   
                                                   >> 429   higherSpin = temp/10000000;
                                                   >> 430   temp -= G4int(higherSpin*10000000);
456                                                   431 
457   higherSpin = temp / 10000000;                << 432   exotic = temp/1000000;
458   temp -= G4int(higherSpin * 10000000);        << 433   temp -= G4int(exotic*1000000);
459                                                   434 
460   exotic = temp / 1000000;                     << 435   radial = temp/100000;
461   temp -= G4int(exotic * 1000000);             << 436   temp -= G4int(radial*100000);
462                                                   437 
463   radial = temp / 100000;                      << 438   multiplet = temp/10000;
464   temp -= G4int(radial * 100000);              << 439   temp -= G4int(multiplet*10000);
465                                                   440 
466   multiplet = temp / 10000;                    << 441   quark1 = temp/1000;
467   temp -= G4int(multiplet * 10000);            << 442   temp -= G4int(quark1*1000);
468                                                   443 
469   quark1 = temp / 1000;                        << 444   quark2 = temp/100;
470   temp -= G4int(quark1 * 1000);                << 445   temp -= G4int(quark2*100);
471                                                   446 
472   quark2 = temp / 100;                         << 447   quark3 = temp/10;
473   temp -= G4int(quark2 * 100);                 << 448   temp -= G4int(quark3*10);
474                                                   449 
475   quark3 = temp / 10;                          << 450   spin= temp;
476   temp -= G4int(quark3 * 10);                  << 451   if ((spin ==0) && ( higherSpin !=0 )) {
477                                                << 452     spin =  higherSpin-1;
478   spin = temp;                                 << 453   } else {
479   if ((spin == 0) && (higherSpin != 0)) {      << 
480     spin = higherSpin - 1;                     << 
481   }                                            << 
482   else {                                       << 
483     spin -= 1;                                    454     spin -= 1;
484   }                                               455   }
485 }                                                 456 }
486                                                   457