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G4INCLNaturalIsotopicDistributions.cc
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25 //
26 // INCL++ intra-nuclear cascade model
27 // Alain Boudard, CEA-Saclay, France
28 // Joseph Cugnon, University of Liege, Belgium
29 // Jean-Christophe David, CEA-Saclay, France
30 // Pekka Kaitaniemi, CEA-Saclay, France, and Helsinki Institute of Physics, Finland
31 // Sylvie Leray, CEA-Saclay, France
32 // Davide Mancusi, CEA-Saclay, France
33 //
34 #define INCLXX_IN_GEANT4_MODE 1
35 
36 #include "globals.hh"
37 
46 #include "G4INCLRandom.hh"
47 #include "G4INCLLogger.hh"
48 // #include <cassert>
49 #include <utility>
50 #include <iostream>
51 
52 namespace G4INCL {
53 
54  Isotope::Isotope(const G4int A, const G4double abundance) :
55  theA(A),
56  theAbundance(abundance)
57  {}
58 
60  theIsotopes(aVector)
61  {
62  G4double previousAbundance = 0.;
63  // Cumulate the abundances
64  for(IsotopeIter i=theIsotopes.begin(), e=theIsotopes.end(); i!=e; ++i) {
65  i->theAbundance += previousAbundance;
66  previousAbundance = i->theAbundance;
67  }
68  // Normalize the abundances to 1
69  const G4double normalisation = 1./theIsotopes.back().theAbundance;
70  for(IsotopeIter i=theIsotopes.begin(), e=theIsotopes.end(); i!=e; ++i)
71  i->theAbundance *= normalisation;
72  }
73 
75  const G4double r = Random::shoot();
76  for(unsigned int i=0; i<theIsotopes.size()-1; ++i) {
77  if(r<=theIsotopes.at(i).theAbundance)
78  return theIsotopes.at(i).theA;
79  }
80  return theIsotopes.back().theA;
81  }
82 
84  return theIsotopes;
85  }
86 
88  std::map<G4int, IsotopicDistribution>::const_iterator i = theDistributions.find(Z);
89  if(i!=theDistributions.end())
90  return i->second;
91  else {
92  INCL_FATAL("Requested natural isotopic distribution for synthetic element Z = " << Z << '\n');
93  return theDistributions.begin()->second;
94  }
95  }
96 
97  G4int NaturalIsotopicDistributions::drawRandomIsotope(G4int Z) const {
98  return getIsotopicDistribution(Z).drawRandomIsotope();
99  }
100 
101  namespace {
102  std::pair<G4int, Isotope> theRawDistributions[] = {
103  std::pair<G4int, Isotope>(1, Isotope(1, 99.985)),
104  std::pair<G4int, Isotope>(1, Isotope(2, 0.015)),
105  std::pair<G4int, Isotope>(2, Isotope(3, 0.000137)),
106  std::pair<G4int, Isotope>(2, Isotope(4, 99.999863)),
107  std::pair<G4int, Isotope>(3, Isotope(6, 7.5)),
108  std::pair<G4int, Isotope>(3, Isotope(7, 92.5)),
109  std::pair<G4int, Isotope>(4, Isotope(9, 100.0)),
110  std::pair<G4int, Isotope>(5, Isotope(10, 19.9)),
111  std::pair<G4int, Isotope>(5, Isotope(11, 80.1)),
112  std::pair<G4int, Isotope>(6, Isotope(12, 98.90)),
113  std::pair<G4int, Isotope>(6, Isotope(13, 1.10)),
114  std::pair<G4int, Isotope>(7, Isotope(14, 99.634)),
115  std::pair<G4int, Isotope>(7, Isotope(15, 0.366)),
116  std::pair<G4int, Isotope>(8, Isotope(16, 99.762)),
117  std::pair<G4int, Isotope>(8, Isotope(17, 0.038)),
118  std::pair<G4int, Isotope>(8, Isotope(18, 0.200)),
119  std::pair<G4int, Isotope>(9, Isotope(19, 100.0)),
120  std::pair<G4int, Isotope>(10, Isotope(20, 90.48)),
121  std::pair<G4int, Isotope>(10, Isotope(21, 0.27)),
122  std::pair<G4int, Isotope>(10, Isotope(22, 9.25)),
123  std::pair<G4int, Isotope>(11, Isotope(23, 100.0)),
124  std::pair<G4int, Isotope>(12, Isotope(24, 78.99)),
125  std::pair<G4int, Isotope>(12, Isotope(25, 10.00)),
126  std::pair<G4int, Isotope>(12, Isotope(26, 11.01)),
127  std::pair<G4int, Isotope>(13, Isotope(27, 100.0)),
128  std::pair<G4int, Isotope>(14, Isotope(28, 92.23)),
129  std::pair<G4int, Isotope>(14, Isotope(29, 4.67)),
130  std::pair<G4int, Isotope>(14, Isotope(30, 3.10)),
131  std::pair<G4int, Isotope>(15, Isotope(31, 100.0)),
132  std::pair<G4int, Isotope>(16, Isotope(32, 95.02)),
133  std::pair<G4int, Isotope>(16, Isotope(33, 0.75)),
134  std::pair<G4int, Isotope>(16, Isotope(34, 4.21)),
135  std::pair<G4int, Isotope>(16, Isotope(36, 0.02)),
136  std::pair<G4int, Isotope>(17, Isotope(35, 75.77)),
137  std::pair<G4int, Isotope>(17, Isotope(37, 24.23)),
138  std::pair<G4int, Isotope>(18, Isotope(36, 0.337)),
139  std::pair<G4int, Isotope>(18, Isotope(38, 0.063)),
140  std::pair<G4int, Isotope>(18, Isotope(40, 99.600)),
141  std::pair<G4int, Isotope>(19, Isotope(39, 93.2581)),
142  std::pair<G4int, Isotope>(19, Isotope(40, 0.0117)),
143  std::pair<G4int, Isotope>(19, Isotope(41, 6.7302)),
144  std::pair<G4int, Isotope>(20, Isotope(40, 96.941)),
145  std::pair<G4int, Isotope>(20, Isotope(42, 0.647)),
146  std::pair<G4int, Isotope>(20, Isotope(43, 0.135)),
147  std::pair<G4int, Isotope>(20, Isotope(44, 2.086)),
148  std::pair<G4int, Isotope>(20, Isotope(46, 0.004)),
149  std::pair<G4int, Isotope>(20, Isotope(48, 0.187)),
150  std::pair<G4int, Isotope>(21, Isotope(45, 100.0)),
151  std::pair<G4int, Isotope>(22, Isotope(46, 8.0)),
152  std::pair<G4int, Isotope>(22, Isotope(47, 7.3)),
153  std::pair<G4int, Isotope>(22, Isotope(48, 73.8)),
154  std::pair<G4int, Isotope>(22, Isotope(49, 5.5)),
155  std::pair<G4int, Isotope>(22, Isotope(50, 5.4)),
156  std::pair<G4int, Isotope>(23, Isotope(50, 0.250)),
157  std::pair<G4int, Isotope>(23, Isotope(51, 99.750)),
158  std::pair<G4int, Isotope>(24, Isotope(50, 4.345)),
159  std::pair<G4int, Isotope>(24, Isotope(52, 83.789)),
160  std::pair<G4int, Isotope>(24, Isotope(53, 9.501)),
161  std::pair<G4int, Isotope>(24, Isotope(54, 2.365)),
162  std::pair<G4int, Isotope>(25, Isotope(55, 100.0)),
163  std::pair<G4int, Isotope>(26, Isotope(54, 5.8)),
164  std::pair<G4int, Isotope>(26, Isotope(56, 91.72)),
165  std::pair<G4int, Isotope>(26, Isotope(57, 2.2)),
166  std::pair<G4int, Isotope>(26, Isotope(58, 0.28)),
167  std::pair<G4int, Isotope>(27, Isotope(59, 100.0)),
168  std::pair<G4int, Isotope>(28, Isotope(58, 68.077)),
169  std::pair<G4int, Isotope>(28, Isotope(60, 26.223)),
170  std::pair<G4int, Isotope>(28, Isotope(61, 1.140)),
171  std::pair<G4int, Isotope>(28, Isotope(62, 3.634)),
172  std::pair<G4int, Isotope>(28, Isotope(64, 0.926)),
173  std::pair<G4int, Isotope>(29, Isotope(63, 69.17)),
174  std::pair<G4int, Isotope>(29, Isotope(65, 30.83)),
175  std::pair<G4int, Isotope>(30, Isotope(64, 48.6)),
176  std::pair<G4int, Isotope>(30, Isotope(66, 27.9)),
177  std::pair<G4int, Isotope>(30, Isotope(67, 4.1)),
178  std::pair<G4int, Isotope>(30, Isotope(68, 18.8)),
179  std::pair<G4int, Isotope>(30, Isotope(70, 0.6)),
180  std::pair<G4int, Isotope>(31, Isotope(69, 60.108)),
181  std::pair<G4int, Isotope>(31, Isotope(71, 39.892)),
182  std::pair<G4int, Isotope>(32, Isotope(70, 21.23)),
183  std::pair<G4int, Isotope>(32, Isotope(72, 27.66)),
184  std::pair<G4int, Isotope>(32, Isotope(73, 7.73)),
185  std::pair<G4int, Isotope>(32, Isotope(74, 35.94)),
186  std::pair<G4int, Isotope>(32, Isotope(76, 7.44)),
187  std::pair<G4int, Isotope>(33, Isotope(75, 100.0)),
188  std::pair<G4int, Isotope>(34, Isotope(74, 0.89)),
189  std::pair<G4int, Isotope>(34, Isotope(76, 9.36)),
190  std::pair<G4int, Isotope>(34, Isotope(77, 7.63)),
191  std::pair<G4int, Isotope>(34, Isotope(78, 23.78)),
192  std::pair<G4int, Isotope>(34, Isotope(80, 49.61)),
193  std::pair<G4int, Isotope>(34, Isotope(82, 8.73)),
194  std::pair<G4int, Isotope>(35, Isotope(79, 50.69)),
195  std::pair<G4int, Isotope>(35, Isotope(81, 49.31)),
196  std::pair<G4int, Isotope>(36, Isotope(78, 0.35)),
197  std::pair<G4int, Isotope>(36, Isotope(80, 2.25)),
198  std::pair<G4int, Isotope>(36, Isotope(82, 11.6)),
199  std::pair<G4int, Isotope>(36, Isotope(83, 11.5)),
200  std::pair<G4int, Isotope>(36, Isotope(84, 57.0)),
201  std::pair<G4int, Isotope>(36, Isotope(86, 17.3)),
202  std::pair<G4int, Isotope>(37, Isotope(85, 72.165)),
203  std::pair<G4int, Isotope>(37, Isotope(87, 27.835)),
204  std::pair<G4int, Isotope>(38, Isotope(84, 0.56)),
205  std::pair<G4int, Isotope>(38, Isotope(86, 9.86)),
206  std::pair<G4int, Isotope>(38, Isotope(87, 7.00)),
207  std::pair<G4int, Isotope>(38, Isotope(88, 82.58)),
208  std::pair<G4int, Isotope>(39, Isotope(89, 100.0)),
209  std::pair<G4int, Isotope>(40, Isotope(90, 51.45)),
210  std::pair<G4int, Isotope>(40, Isotope(91, 11.22)),
211  std::pair<G4int, Isotope>(40, Isotope(92, 17.15)),
212  std::pair<G4int, Isotope>(40, Isotope(94, 17.38)),
213  std::pair<G4int, Isotope>(40, Isotope(96, 2.80)),
214  std::pair<G4int, Isotope>(41, Isotope(93, 100.0)),
215  std::pair<G4int, Isotope>(42, Isotope(92, 14.84)),
216  std::pair<G4int, Isotope>(42, Isotope(94, 9.25)),
217  std::pair<G4int, Isotope>(42, Isotope(95, 15.92)),
218  std::pair<G4int, Isotope>(42, Isotope(96, 16.68)),
219  std::pair<G4int, Isotope>(42, Isotope(97, 9.55)),
220  std::pair<G4int, Isotope>(42, Isotope(98, 24.13)),
221  std::pair<G4int, Isotope>(42, Isotope(100, 9.63)),
222  std::pair<G4int, Isotope>(44, Isotope(96, 5.52)),
223  std::pair<G4int, Isotope>(44, Isotope(98, 1.88)),
224  std::pair<G4int, Isotope>(44, Isotope(99, 12.7)),
225  std::pair<G4int, Isotope>(44, Isotope(100, 12.6)),
226  std::pair<G4int, Isotope>(44, Isotope(101, 17.0)),
227  std::pair<G4int, Isotope>(44, Isotope(102, 31.6)),
228  std::pair<G4int, Isotope>(44, Isotope(104, 18.7)),
229  std::pair<G4int, Isotope>(45, Isotope(103, 100.0)),
230  std::pair<G4int, Isotope>(46, Isotope(102, 1.02)),
231  std::pair<G4int, Isotope>(46, Isotope(104, 11.14)),
232  std::pair<G4int, Isotope>(46, Isotope(105, 22.33)),
233  std::pair<G4int, Isotope>(46, Isotope(106, 27.33)),
234  std::pair<G4int, Isotope>(46, Isotope(108, 26.46)),
235  std::pair<G4int, Isotope>(46, Isotope(110, 11.72)),
236  std::pair<G4int, Isotope>(47, Isotope(107, 51.839)),
237  std::pair<G4int, Isotope>(47, Isotope(109, 48.161)),
238  std::pair<G4int, Isotope>(48, Isotope(106, 1.25)),
239  std::pair<G4int, Isotope>(48, Isotope(108, 0.89)),
240  std::pair<G4int, Isotope>(48, Isotope(110, 12.49)),
241  std::pair<G4int, Isotope>(48, Isotope(111, 12.80)),
242  std::pair<G4int, Isotope>(48, Isotope(112, 24.13)),
243  std::pair<G4int, Isotope>(48, Isotope(113, 12.22)),
244  std::pair<G4int, Isotope>(48, Isotope(114, 28.73)),
245  std::pair<G4int, Isotope>(48, Isotope(116, 7.49)),
246  std::pair<G4int, Isotope>(49, Isotope(113, 4.3)),
247  std::pair<G4int, Isotope>(49, Isotope(115, 95.7)),
248  std::pair<G4int, Isotope>(50, Isotope(112, 0.97)),
249  std::pair<G4int, Isotope>(50, Isotope(114, 0.65)),
250  std::pair<G4int, Isotope>(50, Isotope(115, 0.34)),
251  std::pair<G4int, Isotope>(50, Isotope(116, 14.53)),
252  std::pair<G4int, Isotope>(50, Isotope(117, 7.68)),
253  std::pair<G4int, Isotope>(50, Isotope(118, 24.23)),
254  std::pair<G4int, Isotope>(50, Isotope(119, 8.59)),
255  std::pair<G4int, Isotope>(50, Isotope(120, 32.59)),
256  std::pair<G4int, Isotope>(50, Isotope(122, 4.63)),
257  std::pair<G4int, Isotope>(50, Isotope(124, 5.79)),
258  std::pair<G4int, Isotope>(51, Isotope(121, 57.36)),
259  std::pair<G4int, Isotope>(51, Isotope(123, 42.64)),
260  std::pair<G4int, Isotope>(52, Isotope(120, 0.096)),
261  std::pair<G4int, Isotope>(52, Isotope(122, 2.603)),
262  std::pair<G4int, Isotope>(52, Isotope(123, 0.908)),
263  std::pair<G4int, Isotope>(52, Isotope(124, 4.816)),
264  std::pair<G4int, Isotope>(52, Isotope(125, 7.139)),
265  std::pair<G4int, Isotope>(52, Isotope(126, 18.95)),
266  std::pair<G4int, Isotope>(52, Isotope(128, 31.69)),
267  std::pair<G4int, Isotope>(52, Isotope(130, 33.80)),
268  std::pair<G4int, Isotope>(53, Isotope(127, 100.0)),
269  std::pair<G4int, Isotope>(54, Isotope(124, 0.10)),
270  std::pair<G4int, Isotope>(54, Isotope(126, 0.09)),
271  std::pair<G4int, Isotope>(54, Isotope(128, 1.91)),
272  std::pair<G4int, Isotope>(54, Isotope(129, 26.4)),
273  std::pair<G4int, Isotope>(54, Isotope(130, 4.1)),
274  std::pair<G4int, Isotope>(54, Isotope(131, 21.2)),
275  std::pair<G4int, Isotope>(54, Isotope(132, 26.9)),
276  std::pair<G4int, Isotope>(54, Isotope(134, 10.4)),
277  std::pair<G4int, Isotope>(54, Isotope(136, 8.9)),
278  std::pair<G4int, Isotope>(55, Isotope(133, 100.0)),
279  std::pair<G4int, Isotope>(56, Isotope(130, 0.106)),
280  std::pair<G4int, Isotope>(56, Isotope(132, 0.101)),
281  std::pair<G4int, Isotope>(56, Isotope(134, 2.417)),
282  std::pair<G4int, Isotope>(56, Isotope(135, 6.592)),
283  std::pair<G4int, Isotope>(56, Isotope(136, 7.854)),
284  std::pair<G4int, Isotope>(56, Isotope(137, 11.23)),
285  std::pair<G4int, Isotope>(56, Isotope(138, 71.70)),
286  std::pair<G4int, Isotope>(57, Isotope(138, 0.0902)),
287  std::pair<G4int, Isotope>(57, Isotope(139, 99.9098)),
288  std::pair<G4int, Isotope>(58, Isotope(136, 0.19)),
289  std::pair<G4int, Isotope>(58, Isotope(138, 0.25)),
290  std::pair<G4int, Isotope>(58, Isotope(140, 88.48)),
291  std::pair<G4int, Isotope>(58, Isotope(142, 11.08)),
292  std::pair<G4int, Isotope>(59, Isotope(141, 100.0)),
293  std::pair<G4int, Isotope>(60, Isotope(142, 27.13)),
294  std::pair<G4int, Isotope>(60, Isotope(143, 12.18)),
295  std::pair<G4int, Isotope>(60, Isotope(144, 23.80)),
296  std::pair<G4int, Isotope>(60, Isotope(145, 8.30)),
297  std::pair<G4int, Isotope>(60, Isotope(146, 17.19)),
298  std::pair<G4int, Isotope>(60, Isotope(148, 5.76)),
299  std::pair<G4int, Isotope>(60, Isotope(150, 5.64)),
300  std::pair<G4int, Isotope>(62, Isotope(144, 3.1)),
301  std::pair<G4int, Isotope>(62, Isotope(147, 15.0)),
302  std::pair<G4int, Isotope>(62, Isotope(148, 11.3)),
303  std::pair<G4int, Isotope>(62, Isotope(149, 13.8)),
304  std::pair<G4int, Isotope>(62, Isotope(150, 7.4)),
305  std::pair<G4int, Isotope>(62, Isotope(152, 26.7)),
306  std::pair<G4int, Isotope>(62, Isotope(154, 22.7)),
307  std::pair<G4int, Isotope>(63, Isotope(151, 47.8)),
308  std::pair<G4int, Isotope>(63, Isotope(153, 52.2)),
309  std::pair<G4int, Isotope>(64, Isotope(152, 0.20)),
310  std::pair<G4int, Isotope>(64, Isotope(154, 2.18)),
311  std::pair<G4int, Isotope>(64, Isotope(155, 14.80)),
312  std::pair<G4int, Isotope>(64, Isotope(156, 20.47)),
313  std::pair<G4int, Isotope>(64, Isotope(157, 15.65)),
314  std::pair<G4int, Isotope>(64, Isotope(158, 24.84)),
315  std::pair<G4int, Isotope>(64, Isotope(160, 21.86)),
316  std::pair<G4int, Isotope>(65, Isotope(159, 100.0)),
317  std::pair<G4int, Isotope>(66, Isotope(156, 0.06)),
318  std::pair<G4int, Isotope>(66, Isotope(158, 0.10)),
319  std::pair<G4int, Isotope>(66, Isotope(160, 2.34)),
320  std::pair<G4int, Isotope>(66, Isotope(161, 18.9)),
321  std::pair<G4int, Isotope>(66, Isotope(162, 25.5)),
322  std::pair<G4int, Isotope>(66, Isotope(163, 24.9)),
323  std::pair<G4int, Isotope>(66, Isotope(164, 28.2)),
324  std::pair<G4int, Isotope>(67, Isotope(165, 100.0)),
325  std::pair<G4int, Isotope>(68, Isotope(162, 0.14)),
326  std::pair<G4int, Isotope>(68, Isotope(164, 1.61)),
327  std::pair<G4int, Isotope>(68, Isotope(166, 33.6)),
328  std::pair<G4int, Isotope>(68, Isotope(167, 22.95)),
329  std::pair<G4int, Isotope>(68, Isotope(168, 26.8)),
330  std::pair<G4int, Isotope>(68, Isotope(170, 14.9)),
331  std::pair<G4int, Isotope>(69, Isotope(169, 100.0)),
332  std::pair<G4int, Isotope>(70, Isotope(168, 0.13)),
333  std::pair<G4int, Isotope>(70, Isotope(170, 3.05)),
334  std::pair<G4int, Isotope>(70, Isotope(171, 14.3)),
335  std::pair<G4int, Isotope>(70, Isotope(172, 21.9)),
336  std::pair<G4int, Isotope>(70, Isotope(173, 16.12)),
337  std::pair<G4int, Isotope>(70, Isotope(174, 31.8)),
338  std::pair<G4int, Isotope>(70, Isotope(176, 12.7)),
339  std::pair<G4int, Isotope>(71, Isotope(175, 97.41)),
340  std::pair<G4int, Isotope>(71, Isotope(176, 2.59)),
341  std::pair<G4int, Isotope>(72, Isotope(174, 0.162)),
342  std::pair<G4int, Isotope>(72, Isotope(176, 5.206)),
343  std::pair<G4int, Isotope>(72, Isotope(177, 18.606)),
344  std::pair<G4int, Isotope>(72, Isotope(178, 27.297)),
345  std::pair<G4int, Isotope>(72, Isotope(179, 13.629)),
346  std::pair<G4int, Isotope>(72, Isotope(180, 35.100)),
347  std::pair<G4int, Isotope>(73, Isotope(180, 0.012)),
348  std::pair<G4int, Isotope>(73, Isotope(181, 99.988)),
349  std::pair<G4int, Isotope>(74, Isotope(180, 0.13)),
350  std::pair<G4int, Isotope>(74, Isotope(182, 26.3)),
351  std::pair<G4int, Isotope>(74, Isotope(183, 14.3)),
352  std::pair<G4int, Isotope>(74, Isotope(184, 30.67)),
353  std::pair<G4int, Isotope>(74, Isotope(186, 28.6)),
354  std::pair<G4int, Isotope>(75, Isotope(185, 37.40)),
355  std::pair<G4int, Isotope>(75, Isotope(187, 62.60)),
356  std::pair<G4int, Isotope>(76, Isotope(184, 0.02)),
357  std::pair<G4int, Isotope>(76, Isotope(186, 1.58)),
358  std::pair<G4int, Isotope>(76, Isotope(187, 1.6)),
359  std::pair<G4int, Isotope>(76, Isotope(188, 13.3)),
360  std::pair<G4int, Isotope>(76, Isotope(189, 16.1)),
361  std::pair<G4int, Isotope>(76, Isotope(190, 26.4)),
362  std::pair<G4int, Isotope>(76, Isotope(192, 41.0)),
363  std::pair<G4int, Isotope>(77, Isotope(191, 37.3)),
364  std::pair<G4int, Isotope>(77, Isotope(193, 62.7)),
365  std::pair<G4int, Isotope>(78, Isotope(190, 0.01)),
366  std::pair<G4int, Isotope>(78, Isotope(192, 0.79)),
367  std::pair<G4int, Isotope>(78, Isotope(194, 32.9)),
368  std::pair<G4int, Isotope>(78, Isotope(195, 33.8)),
369  std::pair<G4int, Isotope>(78, Isotope(196, 25.3)),
370  std::pair<G4int, Isotope>(78, Isotope(198, 7.2)),
371  std::pair<G4int, Isotope>(79, Isotope(197, 100.0)),
372  std::pair<G4int, Isotope>(80, Isotope(196, 0.15)),
373  std::pair<G4int, Isotope>(80, Isotope(198, 9.97)),
374  std::pair<G4int, Isotope>(80, Isotope(199, 16.87)),
375  std::pair<G4int, Isotope>(80, Isotope(200, 23.10)),
376  std::pair<G4int, Isotope>(80, Isotope(201, 13.18)),
377  std::pair<G4int, Isotope>(80, Isotope(202, 29.86)),
378  std::pair<G4int, Isotope>(80, Isotope(204, 6.87)),
379  std::pair<G4int, Isotope>(81, Isotope(203, 29.524)),
380  std::pair<G4int, Isotope>(81, Isotope(205, 70.476)),
381  std::pair<G4int, Isotope>(82, Isotope(204, 1.4)),
382  std::pair<G4int, Isotope>(82, Isotope(206, 24.1)),
383  std::pair<G4int, Isotope>(82, Isotope(207, 22.1)),
384  std::pair<G4int, Isotope>(82, Isotope(208, 52.4)),
385  std::pair<G4int, Isotope>(83, Isotope(209, 100.0)),
386  std::pair<G4int, Isotope>(90, Isotope(232, 100.0)),
387  std::pair<G4int, Isotope>(92, Isotope(234, 0.0055)),
388  std::pair<G4int, Isotope>(92, Isotope(235, 0.7200)),
389  std::pair<G4int, Isotope>(92, Isotope(238, 99.2745))
390  };
391 
392  // Cool hack to get the size of an array in C++
393  template<typename T, ::std::size_t N> ::std::size_t sizeOfArray(const T(&)[ N ] ) {
394  return N;
395  }
396  }
397 
398  NaturalIsotopicDistributions::NaturalIsotopicDistributions() {
399  G4int oldZ = -1;
400  IsotopeVector aVector;
401  for(unsigned int i=0; i<sizeOfArray(theRawDistributions); ++i) {
402  std::pair<G4int, Isotope> const &aPair = theRawDistributions[i];
403  if(aPair.first == oldZ) {
404  aVector.push_back(aPair.second);
405  } else {
406  if(oldZ!=-1)
407  theDistributions.insert(std::pair<G4int, IsotopicDistribution>(oldZ, IsotopicDistribution(aVector)));
408  oldZ = aPair.first;
409  aVector.clear();
410  aVector.push_back(aPair.second);
411  }
412  }
413  // last element
414  theDistributions.insert(std::pair<G4int, IsotopicDistribution>(oldZ, IsotopicDistribution(aVector)));
415  }
416 
417 }
418 
IsotopicDistribution const & getIsotopicDistribution(G4int const Z) const
Get an isotopic distribution.
IsotopeVector const & getIsotopes() const
Get the isotope vector.
std::map< G4int, IsotopicDistribution > theDistributions
G4int drawRandomIsotope() const
Draw a random isotope based on the abundance vector.
Float_t Z
Isotope(const G4int A, const G4double abundance)
double G4double
Definition: G4Types.hh:76
Class that stores isotopic abundances for a given element.
**D E S C R I P T I O N
G4double shoot()
Definition: G4INCLRandom.cc:93
double A(double temperature)
IsotopeVector::iterator IsotopeIter
int G4int
Definition: G4Types.hh:78
#define INCL_FATAL(x)
Classes that stores isotopic abundances.
std::vector< Isotope > IsotopeVector
static const G4int Isotope
IsotopicDistribution(IsotopeVector const &aVector)
Constructor.