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Geant4/processes/hadronic/models/lend/src/nf_incompleteGammaFunctions.cc

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Diff markup

Differences between /processes/hadronic/models/lend/src/nf_incompleteGammaFunctions.cc (Version 11.3.0) and /processes/hadronic/models/lend/src/nf_incompleteGammaFunctions.cc (Version 10.0.p2)


  1 /*                            igam.c                1 
  2  *                                                
  3  *    Incomplete gamma integral                   
  4  *                                                
  5  *                                                
  6  * DESCRIPTION:                                   
  7  *                                                
  8  * The function is defined by                     
  9  *                                                
 10  *                      x                         
 11  *                       -                        
 12  *                      | |  -t  a-1              
 13  *  igam(a,x)  =        |   e   t   dt.           
 14  *                    | |                         
 15  *                     -                          
 16  *                      0                         
 17  *                                                
 18  *                                                
 19  * In this implementation both arguments must     
 20  * The integral is evaluated by either a power    
 21  * continued fraction expansion, depending on     
 22  * values of a and x.                             
 23  *                                                
 24  * ACCURACY:                                      
 25  *                                                
 26  *                      Relative error:           
 27  * arithmetic   domain     # trials      peak     
 28  *    IEEE      0,30       200000       3.6e-1    
 29  *    IEEE      0,100      300000       9.9e-1    
 30  */                                               
 31 /*                            igamc()             
 32  *                                                
 33  *    Complemented incomplete gamma integral      
 34  *                                                
 35  *                                                
 36  * DESCRIPTION:                                   
 37  *                                                
 38  * The function is defined by                     
 39  *                                                
 40  *                                                
 41  *  igamc(a,x)   =   1 - igam(a,x)                
 42  *                                                
 43  *                       inf.                     
 44  *                         -                      
 45  *                        | |  -t  a-1            
 46  *               =        |   e   t   dt.         
 47  *                      | |                       
 48  *                       -                        
 49  *                        x                       
 50  *                                                
 51  *                                                
 52  * In this implementation both arguments must     
 53  * The integral is evaluated by either a power    
 54  * continued fraction expansion, depending on     
 55  * values of a and x.                             
 56  *                                                
 57  * ACCURACY:                                      
 58  *                                                
 59  * Tested at random a, x.                         
 60  *                a         x                     
 61  * arithmetic   domain   domain     # trials      
 62  *    IEEE     0.5,100   0,100      200000        
 63  *    IEEE     0.01,0.5  0,100      200000        
 64  */                                               
 65                                                   
 66 /*                                                
 67 Cephes Math Library Release 2.8:  June, 2000      
 68 Copyright 1985, 1987, 2000 by Stephen L. Moshi    
 69 */                                                
 70                                                   
 71 #include "nf_specialFunctions.h"                  
 72                                                   
 73 #if defined __cplusplus                           
 74 #include <cmath>                                  
 75 #include "G4Exp.hh"                               
 76 #include "G4Log.hh"                               
 77 namespace GIDI {                                  
 78 using namespace GIDI;                             
 79 using namespace std;                              
 80 #endif                                            
 81                                                   
 82 static double big = 4.503599627370496e15;         
 83 static double biginv =  2.22044604925031308085    
 84                                                   
 85 /*                                                
 86 **********************************************    
 87 */                                                
 88 double nf_incompleteGammaFunctionComplementary    
 89                                                   
 90     double ans, ax, c, yc, r, t, y, z;            
 91     double pk, pkm1, pkm2, qk, qkm1, qkm2;        
 92                                                   
 93     *status = nfu_badInput;                       
 94     if( !isfinite( x ) ) return( x );             
 95     *status = nfu_Okay;                           
 96                                                   
 97     if( ( x <= 0 ) || ( a <= 0 ) ) return( 1.0    
 98     if( ( x < 1.0 ) || ( x < a ) ) return( nf_    
 99                                                   
100     ax = G4Exp( a * G4Log( x ) - x );             
101     if( ax == 0. ) return( 0.0 );                 
102                                                   
103     if( x < 10000. ) {                            
104         y = 1.0 - a;                        /*    
105         z = x + y + 1.0;                          
106         c = 0.0;                                  
107         pkm2 = 1.0;                               
108         qkm2 = x;                                 
109         pkm1 = x + 1.0;                           
110         qkm1 = z * x;                             
111         ans = pkm1 / qkm1;                        
112                                                   
113         do {                                      
114             c += 1.0;                             
115             y += 1.0;                             
116             z += 2.0;                             
117             yc = y * c;                           
118             pk = pkm1 * z  -  pkm2 * yc;          
119             qk = qkm1 * z  -  qkm2 * yc;          
120             if( qk != 0 ) {                       
121                 r = pk / qk;                      
122                 t = fabs( ( ans - r ) / r );      
123                 ans = r; }                        
124             else {                                
125                 t = 1.0;                          
126             }                                     
127             pkm2 = pkm1;                          
128             pkm1 = pk;                            
129             qkm2 = qkm1;                          
130             qkm1 = qk;                            
131             if( fabs( pk ) > big ) {              
132                 pkm2 *= biginv;                   
133                 pkm1 *= biginv;                   
134                 qkm2 *= biginv;                   
135                 qkm1 *= biginv;                   
136             }                                     
137         } while( t > DBL_EPSILON ); } // Loop     
138     else {                                  /*    
139         y = 1. / x;                               
140         r = a;                                    
141         c = 1.;                                   
142         ans = 1.;                                 
143         do {                                      
144             a -= 1.;                              
145             c *= a * y;                           
146             ans += c;                             
147         } while( fabs( c ) > 100 * ans * DBL_E    
148     }                                             
149                                                   
150     return( ans * ax );                           
151 }                                                 
152 /*                                                
153 **********************************************    
154 */                                                
155 double nf_incompleteGammaFunction( double a, d    
156 /* left tail of incomplete gamma function:        
157 *                                                 
158 *          inf.      k                            
159 *   a  -x   -       x                             
160 *  x  e     >   ----------                        
161 *           -     -                               
162 *          k=0   | (a+k+1)                        
163 */                                                
164     double ans, ax, c, r;                         
165                                                   
166     *status = nfu_badInput;                       
167     if( !isfinite( x ) ) return( x );             
168     *status = nfu_Okay;                           
169                                                   
170     if( ( x <= 0 ) || ( a <= 0 ) ) return( 0.0    
171     if( ( x > 1.0 ) && ( x > a ) ) return( nf_    
172                                                   
173     ax = G4Exp( a * G4Log( x ) - x );       /*    
174     if( ax == 0. ) return( 0.0 );                 
175                                                   
176     r = a;                                        
177     c = 1.0;                                      
178     ans = 1.0;                                    
179     do {                                          
180         r += 1.0;                                 
181         c *= x / r;                               
182         ans += c;                                 
183     } while( c > ans * DBL_EPSILON ); // Loop     
184                                                   
185     return( ans * ax / a );                       
186 }                                                 
187                                                   
188 #if defined __cplusplus                           
189 }                                                 
190 #endif                                            
191