OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [g-mbflra.adb] - Blame information for rev 729

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT RUN-TIME COMPONENTS                         --
4
--                                                                          --
5
--               G N A T . M B B S _ F L O A T _ R A N D O M                --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2010, Free Software Foundation, Inc.         --
10
--                                                                          --
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.                                     --
17
--                                                                          --
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.               --
21
--                                                                          --
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/>.                                          --
26
--                                                                          --
27
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
with Ada.Calendar;
33
 
34
package body GNAT.MBBS_Float_Random is
35
 
36
   -------------------------
37
   -- Implementation Note --
38
   -------------------------
39
 
40
   --  The design of this spec is a bit awkward, as a result of Ada 95 not
41
   --  permitting in-out parameters for function formals (most naturally
42
   --  Generator values would be passed this way). In pure Ada 95, the only
43
   --  solution would be to add a self-referential component to the generator
44
   --  allowing access to the generator object from inside the function. This
45
   --  would work because the generator is limited, which prevents any copy.
46
 
47
   --  This is a bit heavy, so what we do is to use Unrestricted_Access to
48
   --  get a pointer to the state in the passed Generator. This works because
49
   --  Generator is a limited type and will thus always be passed by reference.
50
 
51
   package Calendar renames Ada.Calendar;
52
 
53
   type Pointer is access all State;
54
 
55
   -----------------------
56
   -- Local Subprograms --
57
   -----------------------
58
 
59
   procedure Euclid (P, Q : Int; X, Y : out Int; GCD : out Int);
60
 
61
   function  Euclid (P, Q : Int) return Int;
62
 
63
   function Square_Mod_N (X, N : Int) return Int;
64
 
65
   ------------
66
   -- Euclid --
67
   ------------
68
 
69
   procedure Euclid (P, Q : Int; X, Y : out Int; GCD : out Int) is
70
 
71
      XT : Int := 1;
72
      YT : Int := 0;
73
 
74
      procedure Recur
75
        (P,  Q  : Int;                    --  a (i-1), a (i)
76
         X,  Y  : Int;                    --  x (i),   y (i)
77
         XP, YP : in out Int;             --  x (i-1), y (i-1)
78
         GCD    : out Int);
79
 
80
      procedure Recur
81
        (P,  Q  : Int;
82
         X,  Y  : Int;
83
         XP, YP : in out Int;
84
         GCD    : out Int)
85
      is
86
         Quo : Int := P / Q;              --  q <-- |_ a (i-1) / a (i) _|
87
         XT  : Int := X;                  --  x (i)
88
         YT  : Int := Y;                  --  y (i)
89
 
90
      begin
91
         if P rem Q = 0 then                 --  while does not divide
92
            GCD := Q;
93
            XP  := X;
94
            YP  := Y;
95
         else
96
            Recur (Q, P - Q * Quo, XP - Quo * X, YP - Quo * Y, XT, YT, Quo);
97
 
98
            --  a (i) <== a (i)
99
            --  a (i+1) <-- a (i-1) - q*a (i)
100
            --  x (i+1) <-- x (i-1) - q*x (i)
101
            --  y (i+1) <-- y (i-1) - q*y (i)
102
            --  x (i) <== x (i)
103
            --  y (i) <== y (i)
104
 
105
            XP  := XT;
106
            YP  := YT;
107
            GCD := Quo;
108
         end if;
109
      end Recur;
110
 
111
   --  Start of processing for Euclid
112
 
113
   begin
114
      Recur (P, Q, 0, 1, XT, YT, GCD);
115
      X := XT;
116
      Y := YT;
117
   end Euclid;
118
 
119
   function Euclid (P, Q : Int) return Int is
120
      X, Y, GCD : Int;
121
      pragma Unreferenced (Y, GCD);
122
   begin
123
      Euclid (P, Q, X, Y, GCD);
124
      return X;
125
   end Euclid;
126
 
127
   -----------
128
   -- Image --
129
   -----------
130
 
131
   function Image (Of_State : State) return String is
132
   begin
133
      return Int'Image (Of_State.X1) & ',' & Int'Image (Of_State.X2)
134
             & ',' &
135
             Int'Image (Of_State.P)  & ',' & Int'Image (Of_State.Q);
136
   end Image;
137
 
138
   ------------
139
   -- Random --
140
   ------------
141
 
142
   function Random  (Gen : Generator) return Uniformly_Distributed is
143
      Genp : constant Pointer := Gen.Gen_State'Unrestricted_Access;
144
 
145
   begin
146
      Genp.X1 := Square_Mod_N (Genp.X1,  Genp.P);
147
      Genp.X2 := Square_Mod_N (Genp.X2,  Genp.Q);
148
      return
149
        Float ((Flt (((Genp.X2 - Genp.X1) * Genp.X)
150
                  mod Genp.Q) * Flt (Genp.P)
151
          + Flt (Genp.X1)) * Genp.Scl);
152
   end Random;
153
 
154
   -----------
155
   -- Reset --
156
   -----------
157
 
158
   --  Version that works from given initiator value
159
 
160
   procedure Reset (Gen : Generator; Initiator : Integer) is
161
      Genp   : constant Pointer := Gen.Gen_State'Unrestricted_Access;
162
      X1, X2 : Int;
163
 
164
   begin
165
      X1 := 2 + Int (Initiator) mod (K1 - 3);
166
      X2 := 2 + Int (Initiator) mod (K2 - 3);
167
 
168
      --  Eliminate effects of small initiators
169
 
170
      for J in 1 .. 5 loop
171
         X1 := Square_Mod_N (X1, K1);
172
         X2 := Square_Mod_N (X2, K2);
173
      end loop;
174
 
175
      Genp.all :=
176
        (X1  => X1,
177
         X2  => X2,
178
         P   => K1,
179
         Q   => K2,
180
         X   => 1,
181
         Scl => Scal);
182
   end Reset;
183
 
184
   --  Version that works from specific saved state
185
 
186
   procedure Reset (Gen : Generator; From_State : State) is
187
      Genp : constant Pointer := Gen.Gen_State'Unrestricted_Access;
188
 
189
   begin
190
      Genp.all := From_State;
191
   end Reset;
192
 
193
   --  Version that works from calendar
194
 
195
   procedure Reset (Gen : Generator) is
196
      Genp   : constant Pointer       := Gen.Gen_State'Unrestricted_Access;
197
      Now    : constant Calendar.Time := Calendar.Clock;
198
      X1, X2 : Int;
199
 
200
   begin
201
      X1 := Int (Calendar.Year  (Now)) * 12 * 31 +
202
            Int (Calendar.Month (Now)) * 31 +
203
            Int (Calendar.Day   (Now));
204
 
205
      X2 := Int (Calendar.Seconds (Now) * Duration (1000.0));
206
 
207
      X1 := 2 + X1 mod (K1 - 3);
208
      X2 := 2 + X2 mod (K2 - 3);
209
 
210
      --  Eliminate visible effects of same day starts
211
 
212
      for J in 1 .. 5 loop
213
         X1 := Square_Mod_N (X1, K1);
214
         X2 := Square_Mod_N (X2, K2);
215
      end loop;
216
 
217
      Genp.all :=
218
        (X1  => X1,
219
         X2  => X2,
220
         P   => K1,
221
         Q   => K2,
222
         X   => 1,
223
         Scl => Scal);
224
 
225
   end Reset;
226
 
227
   ----------
228
   -- Save --
229
   ----------
230
 
231
   procedure Save (Gen : Generator; To_State : out State) is
232
   begin
233
      To_State := Gen.Gen_State;
234
   end Save;
235
 
236
   ------------------
237
   -- Square_Mod_N --
238
   ------------------
239
 
240
   function Square_Mod_N (X, N : Int) return Int is
241
      Temp : constant Flt := Flt (X) * Flt (X);
242
      Div  : Int;
243
 
244
   begin
245
      Div := Int (Temp / Flt (N));
246
      Div := Int (Temp - Flt (Div) * Flt (N));
247
 
248
      if Div < 0 then
249
         return Div + N;
250
      else
251
         return Div;
252
      end if;
253
   end Square_Mod_N;
254
 
255
   -----------
256
   -- Value --
257
   -----------
258
 
259
   function Value (Coded_State : String) return State is
260
      Last  : constant Natural := Coded_State'Last;
261
      Start : Positive := Coded_State'First;
262
      Stop  : Positive := Coded_State'First;
263
      Outs  : State;
264
 
265
   begin
266
      while Stop <= Last and then Coded_State (Stop) /= ',' loop
267
         Stop := Stop + 1;
268
      end loop;
269
 
270
      if Stop > Last then
271
         raise Constraint_Error;
272
      end if;
273
 
274
      Outs.X1 := Int'Value (Coded_State (Start .. Stop - 1));
275
      Start := Stop + 1;
276
 
277
      loop
278
         Stop := Stop + 1;
279
         exit when Stop > Last or else Coded_State (Stop) = ',';
280
      end loop;
281
 
282
      if Stop > Last then
283
         raise Constraint_Error;
284
      end if;
285
 
286
      Outs.X2 := Int'Value (Coded_State (Start .. Stop - 1));
287
      Start := Stop + 1;
288
 
289
      loop
290
         Stop := Stop + 1;
291
         exit when Stop > Last or else Coded_State (Stop) = ',';
292
      end loop;
293
 
294
      if Stop > Last then
295
         raise Constraint_Error;
296
      end if;
297
 
298
      Outs.P   := Int'Value (Coded_State (Start .. Stop - 1));
299
      Outs.Q   := Int'Value (Coded_State (Stop + 1 .. Last));
300
      Outs.X   := Euclid (Outs.P, Outs.Q);
301
      Outs.Scl := 1.0 / (Flt (Outs.P) * Flt (Outs.Q));
302
 
303
      --  Now do *some* sanity checks
304
 
305
      if Outs.Q < 31 or else Outs.P < 31
306
        or else Outs.X1 not in 2 .. Outs.P - 1
307
        or else Outs.X2 not in 2 .. Outs.Q - 1
308
      then
309
         raise Constraint_Error;
310
      end if;
311
 
312
      return Outs;
313
   end Value;
314
end GNAT.MBBS_Float_Random;

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.