Geant4 Cross Reference

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Geant4/global/management/include/G4Exp.hh

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Differences between /global/management/include/G4Exp.hh (Version 11.3.0) and /global/management/include/G4Exp.hh (Version 10.5.p1)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
  3 // * License and Disclaimer                         3 // * License and Disclaimer                                           *
  4 // *                                                4 // *                                                                  *
  5 // * The  Geant4 software  is  copyright of th      5 // * The  Geant4 software  is  copyright of the Copyright Holders  of *
  6 // * the Geant4 Collaboration.  It is provided      6 // * the Geant4 Collaboration.  It is provided  under  the terms  and *
  7 // * conditions of the Geant4 Software License      7 // * conditions of the Geant4 Software License,  included in the file *
  8 // * LICENSE and available at  http://cern.ch/      8 // * LICENSE and available at  http://cern.ch/geant4/license .  These *
  9 // * include a list of copyright holders.           9 // * include a list of copyright holders.                             *
 10 // *                                               10 // *                                                                  *
 11 // * Neither the authors of this software syst     11 // * Neither the authors of this software system, nor their employing *
 12 // * institutes,nor the agencies providing fin     12 // * institutes,nor the agencies providing financial support for this *
 13 // * work  make  any representation or  warran     13 // * work  make  any representation or  warranty, express or implied, *
 14 // * regarding  this  software system or assum     14 // * regarding  this  software system or assume any liability for its *
 15 // * use.  Please see the license in the file      15 // * use.  Please see the license in the file  LICENSE  and URL above *
 16 // * for the full disclaimer and the limitatio     16 // * for the full disclaimer and the limitation of liability.         *
 17 // *                                               17 // *                                                                  *
 18 // * This  code  implementation is the result      18 // * This  code  implementation is the result of  the  scientific and *
 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
 20 // * By using,  copying,  modifying or  distri     20 // * By using,  copying,  modifying or  distributing the software (or *
 21 // * any work based  on the software)  you  ag     21 // * any work based  on the software)  you  agree  to acknowledge its *
 22 // * use  in  resulting  scientific  publicati     22 // * use  in  resulting  scientific  publications,  and indicate your *
 23 // * acceptance of all terms of the Geant4 Sof     23 // * acceptance of all terms of the Geant4 Software license.          *
 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 // G4Exp                                       << 
 27 //                                                 26 //
 28 // Class description:                          <<  27 //
                                                   >>  28 // 
                                                   >>  29 // --------------------------------------------------------------------
                                                   >>  30 //
                                                   >>  31 // Class Description:
 29 //                                                 32 //
 30 // The basic idea is to exploit Pade polynomia     33 // The basic idea is to exploit Pade polynomials.
 31 // A lot of ideas were inspired by the cephes      34 // A lot of ideas were inspired by the cephes math library
 32 // (by Stephen L. Moshier moshier@na-net.ornl. <<  35 // (by Stephen L. Moshier moshier@na-net.ornl.gov) as well as actual code. 
 33 // The Cephes library can be found here:  http     36 // The Cephes library can be found here:  http://www.netlib.org/cephes/
 34 // Code and algorithms for G4Exp have been ext     37 // Code and algorithms for G4Exp have been extracted and adapted for Geant4
 35 // from the original implementation in the VDT     38 // from the original implementation in the VDT mathematical library
 36 // (https://svnweb.cern.ch/trac/vdt), version      39 // (https://svnweb.cern.ch/trac/vdt), version 0.3.7.
 37                                                    40 
 38 // Original implementation created on: Jun 23,     41 // Original implementation created on: Jun 23, 2012
 39 // Authors: Danilo Piparo, Thomas Hauth, Vince <<  42 //      Author: Danilo Piparo, Thomas Hauth, Vincenzo Innocente
 40 //                                                 43 //
 41 // -------------------------------------------     44 // --------------------------------------------------------------------
 42 /*                                             <<  45 /* 
 43  * VDT is free software: you can redistribute      46  * VDT is free software: you can redistribute it and/or modify
 44  * it under the terms of the GNU Lesser Public     47  * it under the terms of the GNU Lesser Public License as published by
 45  * the Free Software Foundation, either versio     48  * the Free Software Foundation, either version 3 of the License, or
 46  * (at your option) any later version.             49  * (at your option) any later version.
 47  *                                             <<  50  * 
 48  * This program is distributed in the hope tha     51  * This program is distributed in the hope that it will be useful,
 49  * but WITHOUT ANY WARRANTY; without even the      52  * but WITHOUT ANY WARRANTY; without even the implied warranty of
 50  * MERCHANTABILITY or FITNESS FOR A PARTICULAR     53  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 51  * GNU Lesser Public License for more details.     54  * GNU Lesser Public License for more details.
 52  *                                             <<  55  * 
 53  * You should have received a copy of the GNU      56  * You should have received a copy of the GNU Lesser Public License
 54  * along with this program.  If not, see <http     57  * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 55  */                                                58  */
 56 // -------------------------------------------     59 // --------------------------------------------------------------------
 57 #ifndef G4Exp_hh                               <<  60 #ifndef G4Exp_h
 58 #define G4Exp_hh 1                             <<  61 #define G4Exp_h 1
 59                                                    62 
 60 #ifdef WIN32                                       63 #ifdef WIN32
 61                                                    64 
 62 #  define G4Exp std::exp                       <<  65   #define G4Exp std::exp
 63                                                    66 
 64 #else                                              67 #else
 65                                                    68 
 66 #  include "G4Types.hh"                        <<  69 #include <limits>
 67                                                <<  70 #include <stdint.h>
 68 #  include <cstdint>                           <<  71 #include "G4Types.hh"
 69 #  include <limits>                            << 
 70                                                    72 
 71 namespace G4ExpConsts                              73 namespace G4ExpConsts
 72 {                                              <<  74 {  
 73   const G4double EXP_LIMIT = 708;                  75   const G4double EXP_LIMIT = 708;
 74                                                    76 
 75   const G4double PX1exp = 1.261771930748105908     77   const G4double PX1exp = 1.26177193074810590878E-4;
 76   const G4double PX2exp = 3.029944077074419613     78   const G4double PX2exp = 3.02994407707441961300E-2;
 77   const G4double PX3exp = 9.999999999999999999     79   const G4double PX3exp = 9.99999999999999999910E-1;
 78   const G4double QX1exp = 3.001985051386644550     80   const G4double QX1exp = 3.00198505138664455042E-6;
 79   const G4double QX2exp = 2.524483403496841041     81   const G4double QX2exp = 2.52448340349684104192E-3;
 80   const G4double QX3exp = 2.272655482081550287     82   const G4double QX3exp = 2.27265548208155028766E-1;
 81   const G4double QX4exp = 2.000000000000000000     83   const G4double QX4exp = 2.00000000000000000009E0;
 82                                                    84 
 83   const G4double LOG2E = 1.4426950408889634073 <<  85   const G4double LOG2E = 1.4426950408889634073599; // 1/log(2)
 84                                                    86 
 85   const G4float MAXLOGF = 88.72283905206835f;      87   const G4float MAXLOGF = 88.72283905206835f;
 86   const G4float MINLOGF = -88.f;                   88   const G4float MINLOGF = -88.f;
 87                                                    89 
 88   const G4float C1F = 0.693359375f;            <<  90   const G4float C1F =   0.693359375f;
 89   const G4float C2F = -2.12194440e-4f;         <<  91   const G4float C2F =  -2.12194440e-4f;
 90                                                    92 
 91   const G4float PX1expf = 1.9875691500E-4f;        93   const G4float PX1expf = 1.9875691500E-4f;
 92   const G4float PX2expf = 1.3981999507E-3f;    <<  94   const G4float PX2expf =1.3981999507E-3f;
 93   const G4float PX3expf = 8.3334519073E-3f;    <<  95   const G4float PX3expf =8.3334519073E-3f;
 94   const G4float PX4expf = 4.1665795894E-2f;    <<  96   const G4float PX4expf =4.1665795894E-2f;
 95   const G4float PX5expf = 1.6666665459E-1f;    <<  97   const G4float PX5expf =1.6666665459E-1f;
 96   const G4float PX6expf = 5.0000001201E-1f;    <<  98   const G4float PX6expf =5.0000001201E-1f;
 97                                                    99 
 98   const G4float LOG2EF = 1.44269504088896341f;    100   const G4float LOG2EF = 1.44269504088896341f;
 99                                                   101 
100   //------------------------------------------    102   //----------------------------------------------------------------------------
101   // Used to switch between different type of     103   // Used to switch between different type of interpretations of the data
102   // (64 bits)                                    104   // (64 bits)
103   //                                              105   //
104   union ieee754                                   106   union ieee754
105   {                                               107   {
106     ieee754()= default;                        << 108   ieee754 () {};
107     ieee754(G4double thed) { d = thed; };      << 109   ieee754 (G4double thed) {d=thed;};
108     ieee754(uint64_t thell) { ll = thell; };   << 110   ieee754 (uint64_t thell) {ll=thell;};
109     ieee754(G4float thef) { f[0] = thef; };    << 111   ieee754 (G4float thef) {f[0]=thef;};
110     ieee754(uint32_t thei) { i[0] = thei; };   << 112   ieee754 (uint32_t thei) {i[0]=thei;};
111     G4double d;                                   113     G4double d;
112     G4float f[2];                                 114     G4float f[2];
113     uint32_t i[2];                                115     uint32_t i[2];
114     uint64_t ll;                                  116     uint64_t ll;
115     uint16_t s[4];                                117     uint16_t s[4];
116   };                                              118   };
117                                                   119 
118   //------------------------------------------    120   //----------------------------------------------------------------------------
119   // Converts an unsigned long long to a doubl    121   // Converts an unsigned long long to a double
120   //                                              122   //
121   inline G4double uint642dp(uint64_t ll)          123   inline G4double uint642dp(uint64_t ll)
122   {                                               124   {
123     ieee754 tmp;                                  125     ieee754 tmp;
124     tmp.ll = ll;                               << 126     tmp.ll=ll;
125     return tmp.d;                                 127     return tmp.d;
126   }                                               128   }
127                                                   129 
128   //------------------------------------------    130   //----------------------------------------------------------------------------
129   // Converts an int to a float                   131   // Converts an int to a float
130   //                                              132   //
131   inline G4float uint322sp(G4int x)               133   inline G4float uint322sp(G4int x)
132   {                                               134   {
133     ieee754 tmp;                                  135     ieee754 tmp;
134     tmp.i[0] = x;                              << 136     tmp.i[0]=x;
135     return tmp.f[0];                              137     return tmp.f[0];
136   }                                               138   }
137                                                   139 
138   //------------------------------------------    140   //----------------------------------------------------------------------------
139   // Converts a float to an int                   141   // Converts a float to an int
140   //                                              142   //
141   inline uint32_t sp2uint32(G4float x)            143   inline uint32_t sp2uint32(G4float x)
142   {                                               144   {
143     ieee754 tmp;                                  145     ieee754 tmp;
144     tmp.f[0] = x;                              << 146     tmp.f[0]=x;
145     return tmp.i[0];                              147     return tmp.i[0];
146   }                                               148   }
147                                                   149 
148   //------------------------------------------    150   //----------------------------------------------------------------------------
149   /**                                             151   /**
150    * A vectorisable floor implementation, not     152    * A vectorisable floor implementation, not only triggered by fast-math.
151    * These functions do not distinguish betwee << 153    * These functions do not distinguish between -0.0 and 0.0, so are not IEC6509 
152    * compliant for argument -0.0                  154    * compliant for argument -0.0
153    **/                                         << 155   **/ 
154   inline G4double fpfloor(const G4double x)       156   inline G4double fpfloor(const G4double x)
155   {                                               157   {
156     // no problem since exp is defined between << 158     // no problem since exp is defined between -708 and 708. Int is enough for it!
157     // it!                                     << 159     int32_t ret = int32_t (x);
158     int32_t ret = int32_t(x);                  << 160     ret-=(sp2uint32(x)>>31);  
159     ret -= (sp2uint32(x) >> 31);               << 
160     return ret;                                   161     return ret;
161   }                                               162   }
162                                                   163 
163   //------------------------------------------    164   //----------------------------------------------------------------------------
164   /**                                             165   /**
165    * A vectorisable floor implementation, not     166    * A vectorisable floor implementation, not only triggered by fast-math.
166    * These functions do not distinguish betwee << 167    * These functions do not distinguish between -0.0 and 0.0, so are not IEC6509 
167    * compliant for argument -0.0                  168    * compliant for argument -0.0
168    **/                                         << 169   **/ 
169   inline G4float fpfloor(const G4float x)         170   inline G4float fpfloor(const G4float x)
170   {                                               171   {
171     int32_t ret = int32_t(x);                  << 172     int32_t ret = int32_t (x);
172     ret -= (sp2uint32(x) >> 31);               << 173     ret-=(sp2uint32(x)>>31);  
173     return ret;                                   174     return ret;
174   }                                               175   }
175 }  // namespace G4ExpConsts                    << 176 }
176                                                   177 
177 // Exp double precision ----------------------    178 // Exp double precision --------------------------------------------------------
178                                                   179 
                                                   >> 180 
179 /// Exponential Function double precision         181 /// Exponential Function double precision
180 inline G4double G4Exp(G4double initial_x)         182 inline G4double G4Exp(G4double initial_x)
181 {                                                 183 {
182   G4double x  = initial_x;                     << 184     G4double x = initial_x;
183   G4double px = G4ExpConsts::fpfloor(G4ExpCons << 185     G4double px=G4ExpConsts::fpfloor(G4ExpConsts::LOG2E * x +0.5);
                                                   >> 186  
                                                   >> 187     const int32_t n = int32_t(px);
                                                   >> 188 
                                                   >> 189     x -= px * 6.93145751953125E-1;
                                                   >> 190     x -= px * 1.42860682030941723212E-6;
                                                   >> 191 
                                                   >> 192     const G4double xx = x * x;
                                                   >> 193 
                                                   >> 194     // px = x * P(x**2).
                                                   >> 195     px = G4ExpConsts::PX1exp;
                                                   >> 196     px *= xx;
                                                   >> 197     px += G4ExpConsts::PX2exp;
                                                   >> 198     px *= xx;
                                                   >> 199     px += G4ExpConsts::PX3exp;
                                                   >> 200     px *= x;
                                                   >> 201 
                                                   >> 202     // Evaluate Q(x**2).
                                                   >> 203     G4double qx = G4ExpConsts::QX1exp;
                                                   >> 204     qx *= xx;
                                                   >> 205     qx += G4ExpConsts::QX2exp;
                                                   >> 206     qx *= xx;
                                                   >> 207     qx += G4ExpConsts::QX3exp;
                                                   >> 208     qx *= xx;
                                                   >> 209     qx += G4ExpConsts::QX4exp;
                                                   >> 210 
                                                   >> 211     // e**x = 1 + 2x P(x**2)/( Q(x**2) - P(x**2) )
                                                   >> 212     x = px / (qx - px);
                                                   >> 213     x = 1.0 + 2.0 * x;
                                                   >> 214 
                                                   >> 215     // Build 2^n in double.
                                                   >> 216     x *= G4ExpConsts::uint642dp(( ((uint64_t)n) +1023)<<52);
                                                   >> 217 
                                                   >> 218     if (initial_x > G4ExpConsts::EXP_LIMIT)
                                                   >> 219             x = std::numeric_limits<G4double>::infinity();
                                                   >> 220     if (initial_x < -G4ExpConsts::EXP_LIMIT)
                                                   >> 221             x = 0.;
184                                                   222 
185   const int32_t n = int32_t(px);               << 223     return x;
186                                                << 
187   x -= px * 6.93145751953125E-1;               << 
188   x -= px * 1.42860682030941723212E-6;         << 
189                                                << 
190   const G4double xx = x * x;                   << 
191                                                << 
192   // px = x * P(x**2).                         << 
193   px = G4ExpConsts::PX1exp;                    << 
194   px *= xx;                                    << 
195   px += G4ExpConsts::PX2exp;                   << 
196   px *= xx;                                    << 
197   px += G4ExpConsts::PX3exp;                   << 
198   px *= x;                                     << 
199                                                << 
200   // Evaluate Q(x**2).                         << 
201   G4double qx = G4ExpConsts::QX1exp;           << 
202   qx *= xx;                                    << 
203   qx += G4ExpConsts::QX2exp;                   << 
204   qx *= xx;                                    << 
205   qx += G4ExpConsts::QX3exp;                   << 
206   qx *= xx;                                    << 
207   qx += G4ExpConsts::QX4exp;                   << 
208                                                << 
209   // e**x = 1 + 2x P(x**2)/( Q(x**2) - P(x**2) << 
210   x = px / (qx - px);                          << 
211   x = 1.0 + 2.0 * x;                           << 
212                                                << 
213   // Build 2^n in double.                      << 
214   x *= G4ExpConsts::uint642dp((((uint64_t) n)  << 
215                                                << 
216   if(initial_x > G4ExpConsts::EXP_LIMIT)       << 
217     x = std::numeric_limits<G4double>::infinit << 
218   if(initial_x < -G4ExpConsts::EXP_LIMIT)      << 
219     x = 0.;                                    << 
220                                                << 
221   return x;                                    << 
222 }                                                 224 }
223                                                   225 
224 // Exp single precision ----------------------    226 // Exp single precision --------------------------------------------------------
225                                                   227 
226 /// Exponential Function single precision         228 /// Exponential Function single precision
227 inline G4float G4Expf(G4float initial_x)          229 inline G4float G4Expf(G4float initial_x)
228 {                                                 230 {
229   G4float x = initial_x;                       << 231     G4float x = initial_x;
                                                   >> 232 
                                                   >> 233     G4float z = G4ExpConsts::fpfloor( G4ExpConsts::LOG2EF * x +0.5f ); /* std::floor() truncates toward -infinity. */
                                                   >> 234 
                                                   >> 235     x -= z * G4ExpConsts::C1F;
                                                   >> 236     x -= z * G4ExpConsts::C2F;
                                                   >> 237     const int32_t n = int32_t ( z );
                                                   >> 238 
                                                   >> 239     const G4float x2 = x * x;
                                                   >> 240 
                                                   >> 241     z = x*G4ExpConsts::PX1expf;
                                                   >> 242     z += G4ExpConsts::PX2expf;
                                                   >> 243     z *= x;
                                                   >> 244     z += G4ExpConsts::PX3expf;
                                                   >> 245     z *= x;
                                                   >> 246     z += G4ExpConsts::PX4expf;
                                                   >> 247     z *= x;
                                                   >> 248     z += G4ExpConsts::PX5expf;
                                                   >> 249     z *= x;
                                                   >> 250     z += G4ExpConsts::PX6expf;
                                                   >> 251     z *= x2;
                                                   >> 252     z += x + 1.0f;
                                                   >> 253 
                                                   >> 254     /* multiply by power of 2 */
                                                   >> 255     z *=  G4ExpConsts::uint322sp((n+0x7f)<<23);
230                                                   256 
231   G4float z =                                  << 257     if (initial_x > G4ExpConsts::MAXLOGF) z=std::numeric_limits<G4float>::infinity();
232     G4ExpConsts::fpfloor(G4ExpConsts::LOG2EF * << 258     if (initial_x < G4ExpConsts::MINLOGF) z=0.f;
233                          0.5f); /* std::floor( << 
234                                                << 
235   x -= z * G4ExpConsts::C1F;                   << 
236   x -= z * G4ExpConsts::C2F;                   << 
237   const int32_t n = int32_t(z);                << 
238                                                << 
239   const G4float x2 = x * x;                    << 
240                                                << 
241   z = x * G4ExpConsts::PX1expf;                << 
242   z += G4ExpConsts::PX2expf;                   << 
243   z *= x;                                      << 
244   z += G4ExpConsts::PX3expf;                   << 
245   z *= x;                                      << 
246   z += G4ExpConsts::PX4expf;                   << 
247   z *= x;                                      << 
248   z += G4ExpConsts::PX5expf;                   << 
249   z *= x;                                      << 
250   z += G4ExpConsts::PX6expf;                   << 
251   z *= x2;                                     << 
252   z += x + 1.0f;                               << 
253                                                << 
254   /* multiply by power of 2 */                 << 
255   z *= G4ExpConsts::uint322sp((n + 0x7f) << 23 << 
256                                                << 
257   if(initial_x > G4ExpConsts::MAXLOGF)         << 
258     z = std::numeric_limits<G4float>::infinity << 
259   if(initial_x < G4ExpConsts::MINLOGF)         << 
260     z = 0.f;                                   << 
261                                                   259 
262   return z;                                    << 260     return z;
263 }                                                 261 }
264                                                   262 
265 //--------------------------------------------    263 //------------------------------------------------------------------------------
266                                                   264 
267 void expv(const uint32_t size, G4double const* << 265 void expv(const uint32_t size, G4double const * __restrict__ iarray, G4double* __restrict__ oarray);
268           G4double* __restrict__ oarray);      << 266 void G4Expv(const uint32_t size, G4double const * __restrict__ iarray, G4double* __restrict__ oarray);
269 void G4Expv(const uint32_t size, G4double cons << 267 void expfv(const uint32_t size, G4float const * __restrict__ iarray, G4float* __restrict__ oarray);
270             G4double* __restrict__ oarray);    << 268 void G4Expfv(const uint32_t size, G4float const * __restrict__ iarray, G4float* __restrict__ oarray);
271 void expfv(const uint32_t size, G4float const* << 
272            G4float* __restrict__ oarray);      << 
273 void G4Expfv(const uint32_t size, G4float cons << 
274              G4float* __restrict__ oarray);    << 
275                                                   269 
276 #endif /* WIN32 */                                270 #endif /* WIN32 */
277                                                   271 
278 #endif                                            272 #endif
279                                                   273