OpenCores
URL https://opencores.org/ocsvn/or1k/or1k/trunk

Subversion Repositories or1k

[/] [or1k/] [trunk/] [gdb-5.0/] [utils/] [spu/] [spu.c] - Blame information for rev 106

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

Line No. Rev Author Line
1 106 markom
/* spu -- A program to make lots of random C code.
2
   Copyright (C) 1993, 1994 Free Software Foundation, Inc.
3
   Contributed by Cygnus Support.  Written by Stan Shebs.
4
 
5
This file is part of SPU.
6
 
7
SPU is free software; you can redistribute it and/or modify
8
it under the terms of the GNU General Public License as published by
9
the Free Software Foundation; either version 2, or (at your option)
10
any later version.
11
 
12
This program is distributed in the hope that it will be useful,
13
but WITHOUT ANY WARRANTY; without even the implied warranty of
14
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15
GNU General Public License for more details.
16
 
17
You should have received a copy of the GNU General Public License
18
along with this program; see the file COPYING.  If not, write to
19
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.  */
20
 
21
/* This is a random program generator. */
22
 
23
#include <stdio.h>
24
 
25
#include "ansidecl.h"
26
 
27
/* The limits on these could be eliminated, but that would be
28
   some work.  As they stand, the limits are enough to generate
29
   some truly enormous programs...  */
30
 
31
#define MAXMACROS 50000
32
#define MAXMARGS 6
33
#define MAXSTRUCTS 1000
34
#define MAXSLOTS 20
35
#define MAXFUNCTIONS 50000
36
#define MAXFARGS 6
37
 
38
struct macro_desc {
39
  char *name;
40
  int numargs;
41
  char *args[MAXMARGS];
42
};
43
 
44
struct slot_desc {
45
  char *name;
46
};
47
 
48
struct struct_desc {
49
  char *name;
50
  int numslots;
51
  struct slot_desc slots[MAXSLOTS];
52
};
53
 
54
/* (should add unions as type of struct) */
55
 
56
struct type_desc {
57
  char *name;
58
};
59
 
60
struct function_desc {
61
  char *name;
62
  int numargs;
63
  char *args[MAXFARGS];
64
};
65
 
66
struct file_desc {
67
  char *name;
68
};
69
 
70
void
71
display_usage PARAMS ((void));
72
 
73
void
74
init_xrandom PARAMS ((int seed));
75
 
76
int
77
xrandom PARAMS ((int n));
78
 
79
char *
80
copy_string PARAMS ((char *str));
81
 
82
char *
83
xmalloc PARAMS ((int n));
84
 
85
char *
86
gen_new_macro_name PARAMS ((int n));
87
 
88
char *
89
gen_random_name PARAMS ((char *root));
90
 
91
char *
92
gen_random_local_name PARAMS ((int n, char **others));
93
 
94
void
95
write_struct PARAMS ((FILE *fp, int n));
96
 
97
void
98
create_structs PARAMS ((void));
99
 
100
void
101
create_macros PARAMS ((void));
102
 
103
void
104
create_functions PARAMS ((void));
105
 
106
void
107
write_header_file PARAMS ((int n));
108
 
109
void
110
write_source_file PARAMS ((int n));
111
 
112
void
113
write_macro PARAMS ((FILE *fp, int n));
114
 
115
void
116
write_function_decl PARAMS ((FILE *fp, int n));
117
 
118
void
119
write_function PARAMS ((FILE *fp, int n));
120
 
121
void
122
write_statement PARAMS ((FILE *fp, int depth, int max_depth));
123
 
124
void
125
write_expression PARAMS ((FILE *fp, int depth, int max_depth));
126
 
127
void
128
write_makefile PARAMS ((void));
129
 
130
/* The default values are set low for testing purposes.
131
   Real values can get much larger. */
132
 
133
int numfiles = 5;
134
int numheaderfiles = 1;
135
 
136
char *file_base_name = "file";
137
 
138
int nummacros = 1000;
139
 
140
int numstructs = 20;
141
int numslots = MAXSLOTS;
142
 
143
int numfunctions = 100;
144
 
145
int function_length = 20;
146
 
147
int num_functions_per_file;
148
 
149
/* The amount of commenting in the source. */
150
 
151
int commenting = 0;
152
 
153
struct macro_desc macros[MAXMACROS];
154
 
155
struct struct_desc structs[MAXSTRUCTS];
156
 
157
struct function_desc functions[MAXFUNCTIONS];
158
 
159
int num_computer_terms;
160
 
161
/* Likely words to appear in names of things. */
162
 
163
char *computerese[] = {
164
  "make",
165
  "create",
166
  "alloc",
167
  "modify",
168
  "delete",
169
  "new",
170
  "add",
171
  "list",
172
  "array",
173
  "queue",
174
  "object",
175
  "of",
176
  "by",
177
  "point",
178
  "line",
179
  "rectangle",
180
  "shape",
181
  "area",
182
  "window",
183
  "null",
184
  NULL
185
};
186
 
187
/* Return a word that commonly appears in programs. */
188
 
189
char *
190
computer_word ()
191
{
192
  if (num_computer_terms == 0)
193
    {
194
      int i;
195
 
196
      for (i = 0; computerese[i] != NULL; ++i) ;
197
      num_computer_terms = i;
198
    }
199
  return computerese[xrandom (num_computer_terms)];
200
}
201
 
202
main (argc, argv)
203
     int argc;
204
     char **argv;
205
{
206
  int i, num;
207
  char *arg;
208
  FILE *fp;
209
 
210
  /* Parse all the arguments. */
211
  /* (should check on numeric values) */
212
  for (i = 1; i < argc; ++i)
213
    {
214
      arg = argv[i];
215
      if (strcmp(arg, "--comments") == 0)
216
        {
217
          num = strtol (argv[++i], NULL, 10);
218
          commenting = num;
219
        }
220
      else if (strcmp(arg, "--files") == 0)
221
        {
222
          num = strtol (argv[++i], NULL, 10);
223
          numfiles = num;
224
        }
225
      else if (strcmp(arg, "--functions") == 0)
226
        {
227
          num = strtol (argv[++i], NULL, 10);
228
          numfunctions = num;
229
        }
230
      else if (strcmp(arg, "--function-length") == 0)
231
        {
232
          num = strtol (argv[++i], NULL, 10);
233
          function_length = num;
234
        }
235
      else if (strcmp(arg, "--function-depth") == 0)
236
        {
237
          num = strtol (argv[++i], NULL, 10);
238
          /* (should use this!) */
239
        }
240
      else if (strcmp(arg, "--header-files") == 0)
241
        {
242
          num = strtol (argv[++i], NULL, 10);
243
          numheaderfiles = num;
244
        }
245
      else if (strcmp(arg, "--help") == 0)
246
        {
247
          display_usage ();
248
          exit (0);
249
        }
250
      else if (strcmp(arg, "--macros") == 0)
251
        {
252
          num = strtol (argv[++i], NULL, 10);
253
          nummacros = num;
254
        }
255
      else if (strcmp(arg, "--slots") == 0)
256
        {
257
          num = strtol (argv[++i], NULL, 10);
258
          numslots = num;
259
        }
260
      else if (strcmp(arg, "--structs") == 0)
261
        {
262
          num = strtol (argv[++i], NULL, 10);
263
          numstructs = num;
264
        }
265
      else if (strcmp(arg, "--version") == 0)
266
        {
267
          fprintf (stderr, "SPU program generator version 0.1\n");
268
          exit (0);
269
        }
270
      else
271
        {
272
          fprintf (stderr, "Usage: \"%s\" not valid, ignored\n", arg);
273
          display_usage ();
274
        }
275
    }
276
  init_xrandom (-1);
277
  /* Create the definitions of objects internally. */
278
  create_macros ();
279
  create_structs ();
280
  create_functions ();
281
  num_functions_per_file = numfunctions / numfiles;
282
  /* Write out a bunch of files. */
283
  printf ("Writing %d header files...\n", numheaderfiles);
284
  for (i = 0; i < numheaderfiles; ++i)
285
    write_header_file (i);
286
  printf ("Writing %d files...\n", numfiles);
287
  for (i = 0; i < numfiles; ++i)
288
    write_source_file (i);
289
  /* Write out a makefile. */
290
  write_makefile ();
291
  /* Succeed if we actually wrote out a whole program correctly. */
292
  exit (0);
293
}
294
 
295
void
296
display_usage ()
297
{
298
  fprintf (stderr, "Usage: spu [ ... options ... ]\n");
299
  fprintf (stderr, "           --comments <n>\n");
300
  fprintf (stderr, "           --files <n>\n");
301
  fprintf (stderr, "           --functions <n>\n");
302
  fprintf (stderr, "           --function-length <n>\n");
303
  fprintf (stderr, "           --function-depth <n>\n");
304
  fprintf (stderr, "           --help\n");
305
  fprintf (stderr, "           --macros <n>\n");
306
  fprintf (stderr, "           --slots <n>\n");
307
  fprintf (stderr, "           --structs <n>\n");
308
  fprintf (stderr, "           --version\n");
309
}
310
 
311
int
312
create_type (str)
313
char *str;
314
{
315
  int i;
316
 
317
  return 1;
318
}
319
 
320
int
321
random_type ()
322
{
323
  return 1;
324
}
325
 
326
char *
327
name_from_type (n)
328
     int n;
329
{
330
  return "int";
331
}
332
 
333
/* Generate a macro name that is unique if the given n is unique. */
334
 
335
char *
336
gen_new_macro_name (n)
337
     int n;
338
{
339
  int i = 0;
340
  char namebuf[100];
341
 
342
  ++n;
343
  namebuf[i] = '\0';
344
  strcat (namebuf, computer_word ());
345
  i = strlen (namebuf);
346
  namebuf[i++] = '_';
347
  namebuf[i++] = 'M';
348
  while (n > 0)
349
    {
350
      namebuf[i++] = 'a' + (n % 26);
351
      n /= 26;
352
    }
353
  namebuf[i] = '\0';
354
  return copy_string (namebuf);
355
}
356
 
357
/* Create basic definitions of macros. */
358
 
359
void
360
create_macros()
361
{
362
  int i, j, numargs;
363
 
364
  printf ("Creating %d macros...\n", nummacros);
365
  for (i = 0; i < nummacros; ++i)
366
    {
367
      macros[i].name = gen_new_macro_name (i);
368
      numargs = xrandom (MAXMARGS + 1);
369
      for (j = 0; j < numargs; ++j)
370
        {
371
          macros[i].args[j] = gen_random_local_name(j, NULL);
372
        }
373
      macros[i].numargs = numargs;
374
    }
375
}
376
 
377
/* Generate a unique structure name, based on the number n. */
378
 
379
char *
380
gen_new_struct_name (n)
381
     int n;
382
{
383
  int i = 0;
384
  char namebuf[100];
385
 
386
  ++n;
387
  namebuf[i++] = 's';
388
  namebuf[i++] = '_';
389
  while (n > 0)
390
    {
391
      namebuf[i++] = 'a' + (n % 26);
392
      n /= 26;
393
    }
394
  namebuf[i] = '\0';
395
  if (xrandom (4) == 0)
396
    strcat (namebuf, "_struct");
397
  return copy_string (namebuf);
398
}
399
 
400
char *
401
gen_random_slot_name (n)
402
     int n;
403
{
404
  char namebuf[100];
405
 
406
  /* (should have more variety) */
407
  sprintf (namebuf, "slot%d", n);
408
  return copy_string (namebuf);
409
}
410
 
411
/* Create definitions of the desired number of structures. */
412
 
413
void
414
create_structs()
415
{
416
  int i, j;
417
 
418
  printf ("Creating %d structs...\n", numstructs);
419
  for (i = 0; i < numstructs; ++i)
420
    {
421
      structs[i].name = gen_new_struct_name(i);
422
      for (j = 0; j < 20; ++j)
423
        {
424
          structs[i].slots[j].name = gen_random_slot_name (j);
425
        }
426
      structs[i].numslots = j;
427
    }
428
}
429
 
430
/* Generate a function name that is unique if n is unique. */
431
 
432
char *
433
gen_new_function_name (n)
434
     int n;
435
{
436
  int i = 0;
437
  char namebuf[100];
438
 
439
  ++n;
440
  namebuf[i] = '\0';
441
  /* Start with a random computer term.  */
442
  if (xrandom (5) == 0)
443
    {
444
      strcat (namebuf, computer_word ());
445
      i = strlen (namebuf);
446
      namebuf[i++] = '_';
447
    }
448
  namebuf[i++] = 'f';
449
  /* Note that if we just add an 'f', there is a small chance of getting
450
     the name "for", which make the compiler unhappy.  */
451
  namebuf[i++] = 'n';
452
  /* Convert the number n itself into a string, maybe with some underscores
453
     thrown in for flavor.  */
454
  while (n > 0)
455
    {
456
      if (xrandom(4) == 0) namebuf[i++] = '_';
457
      namebuf[i++] = 'a' + (n % 26);
458
      n /= 26;
459
    }
460
  namebuf[i] = '\0';
461
  /* Maybe add some more computerese on the end. */
462
  if (xrandom (4) != 0)
463
    {
464
      namebuf[i++] = '_';
465
      namebuf[i] = '\0';
466
      strcat (namebuf, computer_word ());
467
    }
468
  return copy_string (namebuf);
469
}
470
 
471
/* Create a number of functions with random numbers of arguments. */
472
 
473
/* (should gen with random arg types also) */
474
 
475
void
476
create_functions()
477
{
478
  int i, j, numargs;
479
 
480
  printf ("Creating %d functions...\n", numfunctions);
481
  for (i = 0; i < numfunctions; ++i)
482
    {
483
      functions[i].name = gen_new_function_name(i);
484
      numargs = xrandom (MAXFARGS + 1);
485
      for (j = 0; j < numargs; ++j)
486
        {
487
          functions[i].args[j] = gen_random_local_name(j, NULL);
488
        }
489
      functions[i].numargs = numargs;
490
    }
491
}
492
 
493
void
494
write_header_file (n)
495
     int n;
496
{
497
  int i;
498
  char tmpbuf[100];
499
  FILE *fp;
500
 
501
  sprintf (tmpbuf, "%s%d.h", file_base_name, n);
502
  fp = fopen (tmpbuf, "w");
503
  if (fp)
504
    {
505
      if (commenting > 0)
506
        fprintf (fp, "/* header */\n");
507
      if (1)
508
        {
509
          printf ("Writing %d structs...\n", numstructs);
510
          for (i = 0; i < numstructs; ++i)
511
            {
512
              write_struct (fp, i);
513
            }
514
        }
515
      if (1)
516
        {
517
          printf ("Writing %d macros...\n", nummacros);
518
          for (i = 0; i < nummacros; ++i)
519
            {
520
              write_macro (fp, i);
521
            }
522
        }
523
      if (1)
524
        {
525
          printf ("Writing %d function decls...\n", numfunctions);
526
          for (i = 0; i < numfunctions; ++i)
527
            {
528
              write_function_decl (fp, i);
529
            }
530
        }
531
      fclose (fp);
532
    }
533
}
534
 
535
/* Write out the definition of a structure. */
536
 
537
void
538
write_struct (fp, i)
539
     FILE *fp;
540
     int i;
541
{
542
  int j;
543
 
544
  if (i == 0) printf ("  (Each struct contains %d slots)\n", numslots);
545
  fprintf (fp, "struct %s {\n", structs[i].name);
546
  for (j = 0; j < structs[i].numslots; ++j)
547
    {
548
      fprintf (fp, "  %s %s;\n",
549
               name_from_type (random_type ()), structs[i].slots[j].name);
550
    }
551
  fprintf (fp, "};\n\n");
552
}
553
 
554
void
555
write_macro (fp, n)
556
     FILE *fp;
557
     int n;
558
{
559
  int i, j;
560
 
561
  fprintf (fp, "#define %s", macros[n].name);
562
  if (1)
563
    {
564
      fprintf (fp, "(");
565
      for (j = 0; j < macros[n].numargs; ++j)
566
        {
567
          if (j > 0) fprintf (fp, ",");
568
          fprintf (fp, "%s", macros[n].args[j]);
569
        }
570
      fprintf (fp, ")");
571
    }
572
  /* Generate a macro body. */
573
  switch (xrandom(2))
574
    {
575
    case 0:
576
      fprintf (fp, "\\\n");
577
      fprintf (fp, "(");
578
      if (macros[n].numargs > 0)
579
        {
580
          for (i = 0; i < macros[n].numargs; ++i)
581
            {
582
              if (i > 0) fprintf (fp, ",");
583
              fprintf (fp, " \\\n");
584
              fprintf (fp, "  (%s)", macros[n].args[i]);
585
              if (xrandom (2) == 0)
586
                {
587
                  fprintf (fp, ",");
588
                  fprintf (fp, " \\\n");
589
                  fprintf (fp, " ((int) (%s))", macros[n].args[i]);
590
                }
591
            }
592
          fprintf (fp, "\\\n");
593
        }
594
      else
595
        {
596
          fprintf (fp, " (1)");
597
        }
598
      fprintf (fp, ")");
599
      break;
600
    default:
601
      fprintf (fp, " (1)");
602
      break;
603
    }
604
  fprintf (fp, "\n\n");
605
}
606
 
607
void
608
write_function_decl (fp, n)
609
     FILE *fp;
610
     int n;
611
{
612
  fprintf (fp, "int %s (", functions[n].name);
613
  fprintf (fp, ");\n");
614
}
615
 
616
/* Write a complete source file. */
617
 
618
void
619
write_source_file (n)
620
     int n;
621
{
622
  char tmpbuf[100];
623
  int j, k;
624
  FILE *fp;
625
 
626
  sprintf (tmpbuf, "%s%d.c", file_base_name, n);
627
  fp = fopen (tmpbuf, "w");
628
  if (fp)
629
    {
630
      if (numheaderfiles > 0)
631
        {
632
          for (j = 0; j < numheaderfiles; ++j)
633
            {
634
              fprintf(fp, "#include \"%s%d.h\"\n", file_base_name, j);
635
            }
636
          fprintf(fp, "\n");
637
        }
638
 
639
      if (n == 0) printf ("  (Each file contains %d functions)\n",
640
                          num_functions_per_file);
641
 
642
      /* Put out a "main", but only in the first C file. */
643
      if (n == 0)
644
        {
645
          fprintf (fp, "main ()\n");
646
          fprintf (fp, "{\n");
647
          if (1 /* use stdio */)
648
            {
649
              fprintf (fp, "  printf (\"hello world\\n\");\n");
650
              /* (should issue calls to other functions?) */
651
            }
652
          fprintf (fp, "}\n\n");
653
        }
654
 
655
      for (j = 0; j < num_functions_per_file; ++j)
656
        {
657
          write_function (fp, n * num_functions_per_file + j);
658
        }
659
    }
660
  fclose (fp);
661
}
662
 
663
void
664
write_function (fp, n)
665
     FILE *fp;
666
     int n;
667
{
668
  int k;
669
 
670
  fprintf(fp, "%s ()\n", functions[n].name);
671
  fprintf(fp, "{\n");
672
  /* Generate a plausible function body. */
673
  for (k = 0; k < function_length; ++k)
674
    {
675
      write_statement (fp, 0, xrandom(2) + 1);
676
    }
677
  fprintf (fp, "}\n\n");
678
}
679
 
680
void
681
write_statement (fp, depth, max_depth)
682
     FILE *fp;
683
     int depth, max_depth;
684
{
685
  int n, j;
686
 
687
  /* Always do non-recursive statements if going too deep. */
688
  if (depth >= max_depth || xrandom(2) == 0)
689
    {
690
      switch (xrandom(2))
691
        {
692
        default:
693
          write_expression (fp, 0, xrandom(4) + 1);
694
          fprintf (fp, ";\n");
695
          break;
696
        }
697
    }
698
  else
699
    {
700
      switch (xrandom(2))
701
        {
702
        default:
703
          fprintf (fp, "if (");
704
          write_expression (fp, 0, xrandom(2) + 1);
705
          fprintf (fp, ")\n    {\n");
706
          write_statement(fp, depth + 1, max_depth);
707
          fprintf (fp, "    }\n");
708
          break;
709
        }
710
    }
711
}
712
 
713
/* Write a single expression. */
714
 
715
void
716
write_expression (fp, depth, max_depth)
717
     FILE *fp;
718
     int depth, max_depth;
719
{
720
  int n, j;
721
 
722
  /* Always do non-recursive statements if going too deep. */
723
  if (depth >= max_depth || xrandom(2) == 0)
724
    {
725
      switch (xrandom(10))
726
        {
727
        case 7:
728
          fprintf (fp, "%d", xrandom (1000));
729
          break;
730
        default:
731
          fprintf (fp, "%d", xrandom (127));
732
          break;
733
        }
734
    }
735
  else
736
    {
737
      switch (xrandom(10))
738
        {
739
        case 0:
740
        case 5:
741
        case 7:
742
          n = xrandom (numfunctions);
743
          fprintf(fp, "  %s (", functions[n].name);
744
          for (j = 0; j < functions[n].numargs; ++j)
745
            {
746
              if (j > 0) fprintf (fp, ", ");
747
              write_expression(fp, depth + 1, max_depth);
748
            }
749
          fprintf(fp, ")");
750
          break;
751
        case 1:
752
        case 6:
753
        case 8:
754
          n = xrandom (nummacros);
755
          fprintf(fp, "  %s(", macros[n].name);
756
          for (j = 0; j < macros[n].numargs; ++j)
757
            {
758
              if (j > 0) fprintf (fp, ", ");
759
              write_expression(fp, depth + 1, max_depth);
760
            }
761
          fprintf(fp, ")");
762
          break;
763
        case 2:
764
          write_expression (fp, depth + 1, max_depth);
765
          fprintf (fp, " + ");
766
          write_expression (fp, depth + 1, max_depth);
767
          break;
768
        case 3:
769
          write_expression (fp, depth + 1, max_depth);
770
          fprintf (fp, " - ");
771
          write_expression (fp, depth + 1, max_depth);
772
          break;
773
        case 4:
774
          write_expression (fp, depth + 1, max_depth);
775
          fprintf (fp, " * ");
776
          write_expression (fp, depth + 1, max_depth);
777
          break;
778
        default:
779
          fprintf (fp, "%d", xrandom (127));
780
          break;
781
        }
782
    }
783
}
784
 
785
/* Write out a makefile that will compile the program just generated. */
786
 
787
void
788
write_makefile ()
789
{
790
  char tmpbuf[100];
791
  int i, j;
792
  FILE *fp;
793
 
794
  sprintf (tmpbuf, "%s.mk", file_base_name);
795
  fp = fopen (tmpbuf, "w");
796
  if (fp)
797
    {
798
      fprintf (fp, "CC = cc\n\n");
799
      /* Write dependencies and action line for the executable.  */
800
      fprintf (fp, "%s: ", file_base_name);
801
      for (i = 0; i < numfiles; ++i)
802
        fprintf (fp, " %s%d.o", file_base_name, i);
803
      fprintf (fp, "\n");
804
      fprintf (fp, "\t$(CC) -o %s.out", file_base_name);
805
      for (i = 0; i < numfiles; ++i)
806
        fprintf (fp, " %s%d.o", file_base_name, i);
807
      fprintf (fp, "\n\n");
808
      /* Write dependencies for individual files. */
809
      for (i = 0; i < numfiles; ++i)
810
        {
811
          fprintf (fp, " %s%d.o:        %s%d.c",
812
                   file_base_name, i, file_base_name, i);
813
          for (j = 0; j < numheaderfiles; ++j)
814
            fprintf (fp, " %s%d.h", file_base_name, j);
815
          fprintf (fp, "\n");
816
        }
817
      fclose (fp);
818
    }
819
}
820
 
821
 
822
/* Utility/general functions. */
823
 
824
char *
825
gen_random_name (root)
826
char *root;
827
{
828
  char namebuf[100];
829
 
830
  if (root == NULL) root = "n";
831
  sprintf (namebuf, "%s_%d", root, xrandom (10000));
832
  return copy_string (namebuf);
833
}
834
 
835
/* Generate a local variable name. */
836
 
837
char *
838
gen_random_local_name (numothers, others)
839
int numothers;
840
char **others;
841
{
842
  char namebuf[100];
843
 
844
  sprintf (namebuf, "arg%d", numothers + 1);
845
  return copy_string (namebuf);
846
}
847
 
848
#include <time.h>
849
 
850
/* Random number handling is important but terrible/nonexistent
851
   in some systems.  Do it ourselves.  Also, this will give repeatable
852
   results across multiple platforms.  */
853
 
854
/* The random state *must* be at least 32 bits.  */
855
 
856
unsigned long initrandstate = 0;
857
 
858
unsigned long randstate = 0;
859
 
860
/* Seed can come from elsewhere, for repeatability.  Otherwise, it comes
861
   from the current time, scaled down to where 32-bit arithmetic won't
862
   overflow.  */
863
 
864
void
865
init_xrandom (seed)
866
     int seed;
867
{
868
  time_t tm;
869
 
870
  if (seed > 0)
871
    {
872
      /* If the random state is already set, changes are somewhat
873
         suspicious.  */
874
      if (randstate > 0)
875
        {
876
          fprintf (stderr, "Randstate being changed from %lu to %d\n",
877
                   randstate, seed);
878
        }
879
      randstate = seed;
880
    }
881
  else
882
    {
883
      time (&tm);
884
      randstate = tm;
885
    }
886
  /* Whatever its source, put the randstate into known range (0 - 99999).  */
887
  randstate = abs (randstate);
888
  randstate %= 100000L;
889
  /* This is kept around for the sake of error reporting. */
890
  initrandstate = randstate;
891
}
892
 
893
/* Numbers lifted from Numerical Recipes, p. 198.  */
894
/* Arithmetic must be 32-bit.  */
895
 
896
int
897
xrandom (m)
898
int m;
899
{
900
    randstate = (8121 * randstate + 28411) % 134456L;
901
    return ((m * randstate) / 134456L);
902
}
903
 
904
char *
905
xmalloc (amt)
906
     int amt;
907
{
908
  char *value = (char *) malloc (amt);
909
 
910
  if (value == NULL)
911
    {
912
      /* This is pretty serious, have to get out quickly.  */
913
      fprintf (stderr, "Memory exhausted!!\n");
914
      exit (1);
915
    }
916
  /* Save callers from having to clear things themselves.  */
917
  bzero (value, amt);
918
  return value;
919
}
920
 
921
/* Copy a string to newly-allocated space.  The new space is never freed. */
922
 
923
char *
924
copy_string (str)
925
     char *str;
926
{
927
  int len = strlen (str);
928
  char *rslt;
929
 
930
  rslt = xmalloc (len + 1);
931
  strcpy (rslt, str);
932
  return rslt;
933
}

powered by: WebSVN 2.1.0

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