1 ------------------------------------------------------------------------------
3 -- GNAT RUN-TIME COMPONENTS --
5 -- G N A T . R A N D O M _ N U M B E R S --
9 -- Copyright (C) 2007-2015, Free Software Foundation, Inc. --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. --
18 -- As a special exception under Section 7 of GPL version 3, you are granted --
19 -- additional permissions described in the GCC Runtime Library Exception, --
20 -- version 3.1, as published by the Free Software Foundation. --
22 -- You should have received a copy of the GNU General Public License and --
23 -- a copy of the GCC Runtime Library Exception along with this program; --
24 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
25 -- <http://www.gnu.org/licenses/>. --
27 -- GNAT was originally developed by the GNAT team at New York University. --
28 -- Extensive contributions were provided by Ada Core Technologies Inc. --
30 ------------------------------------------------------------------------------
32 with Ada
.Numerics
.Long_Elementary_Functions
;
33 use Ada
.Numerics
.Long_Elementary_Functions
;
34 with Ada
.Unchecked_Conversion
;
36 with System
.Random_Numbers
; use System
.Random_Numbers
;
38 package body GNAT
.Random_Numbers
with
41 Sys_Max_Image_Width
: constant := System
.Random_Numbers
.Max_Image_Width
;
43 subtype Image_String
is String (1 .. Max_Image_Width
);
45 -- Utility function declarations
47 procedure Insert_Image
48 (S
: in out Image_String
;
51 -- Insert string representation of V in S starting at position Index
58 new Ada
.Unchecked_Conversion
(Unsigned_32
, Integer_32
);
60 new Ada
.Unchecked_Conversion
(Unsigned_64
, Integer_64
);
66 procedure Insert_Image
67 (S
: in out Image_String
;
71 Image
: constant String := Integer_64
'Image (V
);
73 S
(Index
.. Index
+ Image
'Length - 1) := Image
;
80 function Random_Discrete
82 Min
: Result_Subtype
:= Default_Min
;
83 Max
: Result_Subtype
:= Result_Subtype
'Last) return Result_Subtype
86 new System
.Random_Numbers
.Random_Discrete
87 (Result_Subtype
, Default_Min
);
89 return F
(Gen
.Rep
, Min
, Max
);
92 --------------------------
93 -- Random_Decimal_Fixed --
94 --------------------------
96 function Random_Decimal_Fixed
98 Min
: Result_Subtype
:= Default_Min
;
99 Max
: Result_Subtype
:= Result_Subtype
'Last) return Result_Subtype
101 subtype IntV
is Integer_64
range
102 Integer_64
'Integer_Value (Min
) ..
103 Integer_64
'Integer_Value (Max
);
104 function R
is new Random_Discrete
(Integer_64
, IntV
'First);
106 return Result_Subtype
'Fixed_Value (R
(Gen
, IntV
'First, IntV
'Last));
107 end Random_Decimal_Fixed
;
109 ---------------------------
110 -- Random_Ordinary_Fixed --
111 ---------------------------
113 function Random_Ordinary_Fixed
115 Min
: Result_Subtype
:= Default_Min
;
116 Max
: Result_Subtype
:= Result_Subtype
'Last) return Result_Subtype
118 subtype IntV
is Integer_64
range
119 Integer_64
'Integer_Value (Min
) ..
120 Integer_64
'Integer_Value (Max
);
121 function R
is new Random_Discrete
(Integer_64
, IntV
'First);
123 return Result_Subtype
'Fixed_Value (R
(Gen
, IntV
'First, IntV
'Last));
124 end Random_Ordinary_Fixed
;
130 function Random
(Gen
: Generator
) return Float is
132 return Random
(Gen
.Rep
);
135 function Random
(Gen
: Generator
) return Long_Float is
137 return Random
(Gen
.Rep
);
140 function Random
(Gen
: Generator
) return Interfaces
.Unsigned_32
is
142 return Random
(Gen
.Rep
);
145 function Random
(Gen
: Generator
) return Interfaces
.Unsigned_64
is
147 return Random
(Gen
.Rep
);
150 function Random
(Gen
: Generator
) return Integer_64
is
152 return To_Signed
(Unsigned_64
'(Random (Gen)));
155 function Random (Gen : Generator) return Integer_32 is
157 return To_Signed (Unsigned_32'(Random
(Gen
)));
160 function Random
(Gen
: Generator
) return Long_Integer is
161 function Random_Long_Integer
is new Random_Discrete
(Long_Integer);
163 return Random_Long_Integer
(Gen
);
166 function Random
(Gen
: Generator
) return Integer is
167 function Random_Integer
is new Random_Discrete
(Integer);
169 return Random_Integer
(Gen
);
176 function Random_Float
(Gen
: Generator
) return Result_Subtype
is
177 function F
is new System
.Random_Numbers
.Random_Float
(Result_Subtype
);
182 ---------------------
183 -- Random_Gaussian --
184 ---------------------
186 -- Generates pairs of normally distributed values using the polar method of
187 -- G. E. P. Box, M. E. Muller, and G. Marsaglia. See Donald E. Knuth, The
188 -- Art of Computer Programming, Vol 2: Seminumerical Algorithms, section
189 -- 3.4.1, subsection C, algorithm P. Returns half of the pair on each call,
190 -- using the Next_Gaussian field of Gen to hold the second member on
191 -- even-numbered calls.
193 function Random_Gaussian
(Gen
: Generator
) return Long_Float is
194 G
: Generator
renames Gen
'Unrestricted_Access.all;
196 V1
, V2
, Rad2
, Mult
: Long_Float;
199 if G
.Have_Gaussian
then
200 G
.Have_Gaussian
:= False;
201 return G
.Next_Gaussian
;
205 V1
:= 2.0 * Random
(G
) - 1.0;
206 V2
:= 2.0 * Random
(G
) - 1.0;
207 Rad2
:= V1
** 2 + V2
** 2;
208 exit when Rad2
< 1.0 and then Rad2
/= 0.0;
211 -- Now V1 and V2 are coordinates in the unit circle
213 Mult
:= Sqrt
(-2.0 * Log
(Rad2
) / Rad2
);
214 G
.Next_Gaussian
:= V2
* Mult
;
215 G
.Have_Gaussian
:= True;
216 return Long_Float'Machine (V1
* Mult
);
220 function Random_Gaussian
(Gen
: Generator
) return Float is
221 V
: constant Long_Float := Random_Gaussian
(Gen
);
223 return Float'Machine (Float (V
));
230 procedure Reset
(Gen
: out Generator
) is
233 Gen
.Have_Gaussian
:= False;
237 (Gen
: out Generator
;
238 Initiator
: Initialization_Vector
)
241 Reset
(Gen
.Rep
, Initiator
);
242 Gen
.Have_Gaussian
:= False;
246 (Gen
: out Generator
;
247 Initiator
: Interfaces
.Integer_32
)
250 Reset
(Gen
.Rep
, Initiator
);
251 Gen
.Have_Gaussian
:= False;
255 (Gen
: out Generator
;
256 Initiator
: Interfaces
.Unsigned_32
)
259 Reset
(Gen
.Rep
, Initiator
);
260 Gen
.Have_Gaussian
:= False;
264 (Gen
: out Generator
;
268 Reset
(Gen
.Rep
, Initiator
);
269 Gen
.Have_Gaussian
:= False;
273 (Gen
: out Generator
;
274 From_State
: Generator
)
277 Reset
(Gen
.Rep
, From_State
.Rep
);
278 Gen
.Have_Gaussian
:= From_State
.Have_Gaussian
;
279 Gen
.Next_Gaussian
:= From_State
.Next_Gaussian
;
282 Frac_Scale
: constant Long_Float :=
284 (Long_Float'Machine_Radix) ** Long_Float'Machine_Mantissa;
286 function Val64
(Image
: String) return Integer_64
;
287 -- Renames Integer64'Value
288 -- We cannot use a 'renames Integer64'Value' since for some strange
289 -- reason, this requires a dependency on s-auxdec.ads which not all
290 -- run-times support ???
292 function Val64
(Image
: String) return Integer_64
is
294 return Integer_64
'Value (Image
);
298 (Gen
: out Generator
;
301 F0
: constant Integer := From_Image
'First;
302 T0
: constant Integer := From_Image
'First + Sys_Max_Image_Width
;
305 Reset
(Gen
.Rep
, From_Image
(F0
.. F0
+ Sys_Max_Image_Width
));
307 if From_Image
(T0
+ 1) = '1' then
308 Gen
.Have_Gaussian
:= True;
310 Long_Float (Val64
(From_Image
(T0
+ 3 .. T0
+ 23))) / Frac_Scale
311 * Long_Float (Long_Float'Machine_Radix)
312 ** Integer (Val64
(From_Image
(T0
+ 25 .. From_Image
'Last)));
314 Gen
.Have_Gaussian
:= False;
322 function Image
(Gen
: Generator
) return String is
323 Result
: Image_String
;
326 Result
:= (others => ' ');
327 Result
(1 .. Sys_Max_Image_Width
) := Image
(Gen
.Rep
);
329 if Gen
.Have_Gaussian
then
330 Result
(Sys_Max_Image_Width
+ 2) := '1';
331 Insert_Image
(Result
, Sys_Max_Image_Width
+ 4,
332 Integer_64
(Long_Float'Fraction (Gen
.Next_Gaussian
)
334 Insert_Image
(Result
, Sys_Max_Image_Width
+ 24,
335 Integer_64
(Long_Float'Exponent (Gen
.Next_Gaussian
)));
338 Result
(Sys_Max_Image_Width
+ 2) := '0';
344 end GNAT
.Random_Numbers
;