Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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RandGauss.cc
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1// -*- C++ -*-
2//
3// -----------------------------------------------------------------------
4// HEP Random
5// --- RandGauss ---
6// class implementation file
7// -----------------------------------------------------------------------
8// This file is part of Geant4 (simulation toolkit for HEP).
9
10// =======================================================================
11// Gabriele Cosmo - Created: 5th September 1995
12// - Added methods to shoot arrays: 28th July 1997
13// J.Marraffino - Added default arguments as attributes and
14// operator() with arguments. Introduced method normal()
15// for computation in fire(): 16th Feb 1998
16// Gabriele Cosmo - Relocated static data from HepRandom: 5th Jan 1999
17// M Fischler - Copy constructor should supply right engine to HepRandom:
18// 1/26/00.
19// M Fischler - Workaround for problem of non-reproducing saveEngineStatus
20// by saving cached gaussian. March 2000.
21// M Fischler - Avoiding hang when file not found in restoreEngineStatus
22// 12/3/04
23// M Fischler - put and get to/from streams 12/8/04
24// M Fischler - save and restore dist to streams 12/20/04
25// M Fischler - put/get to/from streams uses pairs of ulongs when
26// storing doubles avoid problems with precision.
27// Similarly for saveEngineStatus and RestoreEngineStatus
28// and for save/restore distState
29// Care was taken that old-form output can still be read back.
30// 4/14/05
31//
32// =======================================================================
33
36#include <cmath> // for std::log()
37#include <iostream>
38#include <string.h> // for strcmp
39#include <string>
40#include <vector>
41
42namespace CLHEP {
43
44std::string RandGauss::name() const {return "RandGauss";}
46
47// Initialisation of static data
48CLHEP_THREAD_LOCAL bool RandGauss::set_st = false;
49CLHEP_THREAD_LOCAL double RandGauss::nextGauss_st = 0.0;
50
52}
53
56}
57
58double RandGauss::operator()( double mean, double stdDev ) {
59 return fire( mean, stdDev );
60}
61
63{
64 // Gaussian random numbers are generated two at the time, so every other
65 // time this is called we just return a number generated the time before.
66
67 if ( getFlag() ) {
68 setFlag(false);
69 double x = getVal();
70 return x;
71 // return getVal();
72 }
73
74 double r;
75 double v1,v2,fac,val;
77
78 do {
79 v1 = 2.0 * anEngine->flat() - 1.0;
80 v2 = 2.0 * anEngine->flat() - 1.0;
81 r = v1*v1 + v2*v2;
82 } while ( r > 1.0 );
83
84 fac = std::sqrt(-2.0*std::log(r)/r);
85 val = v1*fac;
86 setVal(val);
87 setFlag(true);
88 return v2*fac;
89}
90
91void RandGauss::shootArray( const int size, double* vect,
92 double mean, double stdDev )
93{
94 for( double* v = vect; v != vect + size; ++v )
95 *v = shoot(mean,stdDev);
96}
97
99{
100 // Gaussian random numbers are generated two at the time, so every other
101 // time this is called we just return a number generated the time before.
102
103 if ( getFlag() ) {
104 setFlag(false);
105 return getVal();
106 }
107
108 double r;
109 double v1,v2,fac,val;
110
111 do {
112 v1 = 2.0 * anEngine->flat() - 1.0;
113 v2 = 2.0 * anEngine->flat() - 1.0;
114 r = v1*v1 + v2*v2;
115 } while ( r > 1.0 );
116
117 fac = std::sqrt( -2.0*std::log(r)/r);
118 val = v1*fac;
119 setVal(val);
120 setFlag(true);
121 return v2*fac;
122}
123
125 const int size, double* vect,
126 double mean, double stdDev )
127{
128 for( double* v = vect; v != vect + size; ++v )
129 *v = shoot(anEngine,mean,stdDev);
130}
131
133{
134 // Gaussian random numbers are generated two at the time, so every other
135 // time this is called we just return a number generated the time before.
136
137 if ( set ) {
138 set = false;
139 return nextGauss;
140 }
141
142 double r;
143 double v1,v2,fac,val;
144
145 do {
146 v1 = 2.0 * localEngine->flat() - 1.0;
147 v2 = 2.0 * localEngine->flat() - 1.0;
148 r = v1*v1 + v2*v2;
149 } while ( r > 1.0 );
150
151 fac = std::sqrt(-2.0*std::log(r)/r);
152 val = v1*fac;
153 nextGauss = val;
154 set = true;
155 return v2*fac;
156}
157
158void RandGauss::fireArray( const int size, double* vect)
159{
160 for( double* v = vect; v != vect + size; ++v )
162}
163
164void RandGauss::fireArray( const int size, double* vect,
165 double mean, double stdDev )
166{
167 for( double* v = vect; v != vect + size; ++v )
168 *v = fire( mean, stdDev );
169}
170
172{
173 return set_st;
174}
175
176void RandGauss::setFlag( bool val )
177{
178 set_st = val;
179}
180
182{
183 return nextGauss_st;
184}
185
186void RandGauss::setVal( double nextVal )
187{
188 nextGauss_st = nextVal;
189}
190
191void RandGauss::saveEngineStatus ( const char filename[] ) {
192
193 // First save the engine status just like the base class would do:
194 getTheEngine()->saveStatus( filename );
195
196 // Now append the cached variate, if any:
197
198 std::ofstream outfile ( filename, std::ios::app );
199
200 if ( getFlag() ) {
201 std::vector<unsigned long> t(2);
203 outfile << "RANDGAUSS CACHED_GAUSSIAN: Uvec "
204 << getVal() << " " << t[0] << " " << t[1] << "\n";
205 } else {
206 outfile << "RANDGAUSS NO_CACHED_GAUSSIAN: 0 \n" ;
207 }
208
209} // saveEngineStatus
210
211void RandGauss::restoreEngineStatus( const char filename[] ) {
212
213 // First restore the engine status just like the base class would do:
214 getTheEngine()->restoreStatus( filename );
215
216 // Now find the line describing the cached variate:
217
218 std::ifstream infile ( filename, std::ios::in );
219 if (!infile) return;
220
221 char inputword[] = "NO_KEYWORD "; // leaves room for 14 characters plus \0
222 while (true) {
223 infile.width(13);
224 infile >> inputword;
225 if (strcmp(inputword,"RANDGAUSS")==0) break;
226 if (infile.eof()) break;
227 // If the file ends without the RANDGAUSS line, that means this
228 // was a file produced by an earlier version of RandGauss. We will
229 // replicated the old behavior in that case: set_st is cleared.
230 }
231
232 // Then read and use the caching info:
233
234 if (strcmp(inputword,"RANDGAUSS")==0) {
235 char setword[40]; // the longest, staticFirstUnusedBit: has length 21
236 infile.width(39);
237 infile >> setword; // setword should be CACHED_GAUSSIAN:
238 if (strcmp(setword,"CACHED_GAUSSIAN:") ==0) {
239 if (possibleKeywordInput(infile, "Uvec", nextGauss_st)) {
240 std::vector<unsigned long> t(2);
241 infile >> nextGauss_st >> t[0] >> t[1];
242 nextGauss_st = DoubConv::longs2double(t);
243 }
244 // is >> nextGauss_st encompassed by possibleKeywordInput
245 setFlag(true);
246 } else {
247 setFlag(false);
248 infile >> nextGauss_st; // because a 0 will have been output
249 }
250 } else {
251 setFlag(false);
252 }
253
254} // restoreEngineStatus
255
256 // Save and restore to/from streams
257
258std::ostream & RandGauss::put ( std::ostream & os ) const {
259 os << name() << "\n";
260 int prec = os.precision(20);
261 std::vector<unsigned long> t(2);
262 os << "Uvec\n";
264 os << defaultMean << " " << t[0] << " " << t[1] << "\n";
266 os << defaultStdDev << " " << t[0] << " " << t[1] << "\n";
267 if ( set ) {
268 t = DoubConv::dto2longs(nextGauss);
269 os << "nextGauss " << nextGauss << " " << t[0] << " " << t[1] << "\n";
270 } else {
271 os << "no_cached_nextGauss \n";
272 }
273 os.precision(prec);
274 return os;
275} // put
276
277std::istream & RandGauss::get ( std::istream & is ) {
278 std::string inName;
279 is >> inName;
280 if (inName != name()) {
281 is.clear(std::ios::badbit | is.rdstate());
282 std::cerr << "Mismatch when expecting to read state of a "
283 << name() << " distribution\n"
284 << "Name found was " << inName
285 << "\nistream is left in the badbit state\n";
286 return is;
287 }
288 std::string c1;
289 std::string c2;
290 if (possibleKeywordInput(is, "Uvec", c1)) {
291 std::vector<unsigned long> t(2);
292 is >> defaultMean >> t[0] >> t[1]; defaultMean = DoubConv::longs2double(t);
293 is >> defaultStdDev>>t[0]>>t[1]; defaultStdDev = DoubConv::longs2double(t);
294 std::string ng;
295 is >> ng;
296 set = false;
297 if (ng == "nextGauss") {
298 is >> nextGauss >> t[0] >> t[1]; nextGauss = DoubConv::longs2double(t);
299 set = true;
300 }
301 return is;
302 }
303 // is >> c1 encompassed by possibleKeywordInput
304 is >> defaultMean >> c2 >> defaultStdDev;
305 if ( (!is) || (c1 != "Mean:") || (c2 != "Sigma:") ) {
306 std::cerr << "i/o problem while expecting to read state of a "
307 << name() << " distribution\n"
308 << "default mean and/or sigma could not be read\n";
309 return is;
310 }
311 is >> c1 >> c2 >> nextGauss;
312 if ( (!is) || (c1 != "RANDGAUSS") ) {
313 is.clear(std::ios::badbit | is.rdstate());
314 std::cerr << "Failure when reading caching state of RandGauss\n";
315 return is;
316 }
317 if (c2 == "CACHED_GAUSSIAN:") {
318 set = true;
319 } else if (c2 == "NO_CACHED_GAUSSIAN:") {
320 set = false;
321 } else {
322 is.clear(std::ios::badbit | is.rdstate());
323 std::cerr << "Unexpected caching state keyword of RandGauss:" << c2
324 << "\nistream is left in the badbit state\n";
325 }
326 return is;
327} // get
328
329 // Static save and restore to/from streams
330
331std::ostream & RandGauss::saveDistState ( std::ostream & os ) {
332 int prec = os.precision(20);
333 std::vector<unsigned long> t(2);
334 os << distributionName() << "\n";
335 os << "Uvec\n";
336 if ( getFlag() ) {
338 os << "nextGauss_st " << getVal() << " " << t[0] << " " << t[1] << "\n";
339 } else {
340 os << "no_cached_nextGauss_st \n";
341 }
342 os.precision(prec);
343 return os;
344}
345
346std::istream & RandGauss::restoreDistState ( std::istream & is ) {
347 std::string inName;
348 is >> inName;
349 if (inName != distributionName()) {
350 is.clear(std::ios::badbit | is.rdstate());
351 std::cerr << "Mismatch when expecting to read static state of a "
352 << distributionName() << " distribution\n"
353 << "Name found was " << inName
354 << "\nistream is left in the badbit state\n";
355 return is;
356 }
357 std::string c1;
358 std::string c2;
359 if (possibleKeywordInput(is, "Uvec", c1)) {
360 std::vector<unsigned long> t(2);
361 std::string ng;
362 is >> ng;
363 setFlag (false);
364 if (ng == "nextGauss_st") {
365 is >> nextGauss_st >> t[0] >> t[1];
366 nextGauss_st = DoubConv::longs2double(t);
367 setFlag (true);
368 }
369 return is;
370 }
371 // is >> c1 encompassed by possibleKeywordInput
372 is >> c2 >> nextGauss_st;
373 if ( (!is) || (c1 != "RANDGAUSS") ) {
374 is.clear(std::ios::badbit | is.rdstate());
375 std::cerr << "Failure when reading caching state of static RandGauss\n";
376 return is;
377 }
378 if (c2 == "CACHED_GAUSSIAN:") {
379 setFlag(true);
380 } else if (c2 == "NO_CACHED_GAUSSIAN:") {
381 setFlag(false);
382 } else {
383 is.clear(std::ios::badbit | is.rdstate());
384 std::cerr << "Unexpected caching state keyword of static RandGauss:" << c2
385 << "\nistream is left in the badbit state\n";
386 }
387 return is;
388}
389
390std::ostream & RandGauss::saveFullState ( std::ostream & os ) {
392 saveDistState(os);
393 return os;
394}
395
396std::istream & RandGauss::restoreFullState ( std::istream & is ) {
399 return is;
400}
401
402} // namespace CLHEP
403
static double longs2double(const std::vector< unsigned long > &v)
Definition: DoubConv.cc:110
static std::vector< unsigned long > dto2longs(double d)
Definition: DoubConv.cc:94
virtual void restoreStatus(const char filename[]="Config.conf")=0
virtual double flat()=0
virtual void saveStatus(const char filename[]="Config.conf") const =0
static HepRandomEngine * getTheEngine()
Definition: Random.cc:268
static std::ostream & saveFullState(std::ostream &os)
Definition: Random.cc:288
static std::istream & restoreFullState(std::istream &is)
Definition: Random.cc:293
static std::ostream & saveDistState(std::ostream &os)
Definition: RandGauss.cc:331
std::string name() const
Definition: RandGauss.cc:44
static std::istream & restoreFullState(std::istream &is)
Definition: RandGauss.cc:396
static void restoreEngineStatus(const char filename[]="Config.conf")
Definition: RandGauss.cc:211
static double shoot()
Definition: RandGauss.cc:62
static bool getFlag()
Definition: RandGauss.cc:171
static double getVal()
Definition: RandGauss.cc:181
std::istream & get(std::istream &is)
Definition: RandGauss.cc:277
double defaultStdDev
Definition: RandGauss.h:152
std::ostream & put(std::ostream &os) const
Definition: RandGauss.cc:258
void fireArray(const int size, double *vect)
Definition: RandGauss.cc:158
static void shootArray(const int size, double *vect, double mean=0.0, double stdDev=1.0)
Definition: RandGauss.cc:91
static void setVal(double nextVal)
Definition: RandGauss.cc:186
HepRandomEngine & engine()
Definition: RandGauss.cc:45
static std::ostream & saveFullState(std::ostream &os)
Definition: RandGauss.cc:390
double normal()
Definition: RandGauss.cc:132
double defaultMean
Definition: RandGauss.h:151
static void setFlag(bool val)
Definition: RandGauss.cc:176
static std::string distributionName()
Definition: RandGauss.h:99
std::shared_ptr< HepRandomEngine > localEngine
Definition: RandGauss.h:154
virtual ~RandGauss()
Definition: RandGauss.cc:51
static std::istream & restoreDistState(std::istream &is)
Definition: RandGauss.cc:346
virtual double operator()()
Definition: RandGauss.cc:54
static void saveEngineStatus(const char filename[]="Config.conf")
Definition: RandGauss.cc:191
Definition: DoubConv.h:17
bool possibleKeywordInput(IS &is, const std::string &key, T &t)
Definition: RandomEngine.h:166
#define CLHEP_THREAD_LOCAL
Definition: thread_local.h:13