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

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [config/] [m68k/] [fpgnulib.c] - Blame information for rev 38

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

Line No. Rev Author Line
1 38 julius
/* This is a stripped down version of floatlib.c.  It supplies only those
2
   functions which exist in libgcc, but for which there is not assembly
3
   language versions in m68k/lb1sf68.asm.
4
 
5
   It also includes simplistic support for extended floats (by working in
6
   double precision).  You must compile this file again with -DEXTFLOAT
7
   to get this support.  */
8
 
9
/*
10
** gnulib support for software floating point.
11
** Copyright (C) 1991 by Pipeline Associates, Inc.  All rights reserved.
12
** Permission is granted to do *anything* you want with this file,
13
** commercial or otherwise, provided this message remains intact.  So there!
14
** I would appreciate receiving any updates/patches/changes that anyone
15
** makes, and am willing to be the repository for said changes (am I
16
** making a big mistake?).
17
**
18
** Pat Wood
19
** Pipeline Associates, Inc.
20
** pipeline!phw@motown.com or
21
** sun!pipeline!phw or
22
** uunet!motown!pipeline!phw
23
**
24
** 05/01/91 -- V1.0 -- first release to gcc mailing lists
25
** 05/04/91 -- V1.1 -- added float and double prototypes and return values
26
**                  -- fixed problems with adding and subtracting zero
27
**                  -- fixed rounding in truncdfsf2
28
**                  -- fixed SWAP define and tested on 386
29
*/
30
 
31
/*
32
** The following are routines that replace the gnulib soft floating point
33
** routines that are called automatically when -msoft-float is selected.
34
** The support single and double precision IEEE format, with provisions
35
** for byte-swapped machines (tested on 386).  Some of the double-precision
36
** routines work at full precision, but most of the hard ones simply punt
37
** and call the single precision routines, producing a loss of accuracy.
38
** long long support is not assumed or included.
39
** Overall accuracy is close to IEEE (actually 68882) for single-precision
40
** arithmetic.  I think there may still be a 1 in 1000 chance of a bit
41
** being rounded the wrong way during a multiply.  I'm not fussy enough to
42
** bother with it, but if anyone is, knock yourself out.
43
**
44
** Efficiency has only been addressed where it was obvious that something
45
** would make a big difference.  Anyone who wants to do this right for
46
** best speed should go in and rewrite in assembler.
47
**
48
** I have tested this only on a 68030 workstation and 386/ix integrated
49
** in with -msoft-float.
50
*/
51
 
52
/* the following deal with IEEE single-precision numbers */
53
#define EXCESS          126L
54
#define SIGNBIT         0x80000000L
55
#define HIDDEN          (1L << 23L)
56
#define SIGN(fp)        ((fp) & SIGNBIT)
57
#define EXP(fp)         (((fp) >> 23L) & 0xFF)
58
#define MANT(fp)        (((fp) & 0x7FFFFFL) | HIDDEN)
59
#define PACK(s,e,m)     ((s) | ((e) << 23L) | (m))
60
 
61
/* the following deal with IEEE double-precision numbers */
62
#define EXCESSD         1022L
63
#define HIDDEND         (1L << 20L)
64
#define EXPDBITS        11
65
#define EXPDMASK        0x7FFL
66
#define EXPD(fp)        (((fp.l.upper) >> 20L) & 0x7FFL)
67
#define SIGND(fp)       ((fp.l.upper) & SIGNBIT)
68
#define MANTD(fp)       (((((fp.l.upper) & 0xFFFFF) | HIDDEND) << 10) | \
69
                                (fp.l.lower >> 22))
70
#define MANTDMASK       0xFFFFFL /* mask of upper part */
71
 
72
/* the following deal with IEEE extended-precision numbers */
73
#define EXCESSX         16382L
74
#define HIDDENX         (1L << 31L)
75
#define EXPXBITS        15
76
#define EXPXMASK        0x7FFF
77
#define EXPX(fp)        (((fp.l.upper) >> 16) & EXPXMASK)
78
#define SIGNX(fp)       ((fp.l.upper) & SIGNBIT)
79
#define MANTXMASK       0x7FFFFFFFL /* mask of upper part */
80
 
81
union double_long
82
{
83
  double d;
84
  struct {
85
      long upper;
86
      unsigned long lower;
87
    } l;
88
};
89
 
90
union float_long {
91
  float f;
92
  long l;
93
};
94
 
95
union long_double_long
96
{
97
  long double ld;
98
  struct
99
    {
100
      long upper;
101
      unsigned long middle;
102
      unsigned long lower;
103
    } l;
104
};
105
 
106
#ifndef EXTFLOAT
107
 
108
int
109
__unordsf2(float a, float b)
110
{
111
  union float_long fl;
112
 
113
  fl.f = a;
114
  if (EXP(fl.l) == EXP(~0u) && (MANT(fl.l) & ~HIDDEN) != 0)
115
    return 1;
116
  fl.f = b;
117
  if (EXP(fl.l) == EXP(~0u) && (MANT(fl.l) & ~HIDDEN) != 0)
118
    return 1;
119
  return 0;
120
}
121
 
122
int
123
__unorddf2(double a, double b)
124
{
125
  union double_long dl;
126
 
127
  dl.d = a;
128
  if (EXPD(dl) == EXPDMASK
129
      && ((dl.l.upper & MANTDMASK) != 0 || dl.l.lower != 0))
130
    return 1;
131
  dl.d = b;
132
  if (EXPD(dl) == EXPDMASK
133
      && ((dl.l.upper & MANTDMASK) != 0 || dl.l.lower != 0))
134
    return 1;
135
  return 0;
136
}
137
 
138
/* convert unsigned int to double */
139
double
140
__floatunsidf (unsigned long a1)
141
{
142
  long exp = 32 + EXCESSD;
143
  union double_long dl;
144
 
145
  if (!a1)
146
    {
147
      dl.l.upper = dl.l.lower = 0;
148
      return dl.d;
149
    }
150
 
151
  while (a1 < 0x2000000L)
152
    {
153
      a1 <<= 4;
154
      exp -= 4;
155
    }
156
 
157
  while (a1 < 0x80000000L)
158
    {
159
      a1 <<= 1;
160
      exp--;
161
    }
162
 
163
  /* pack up and go home */
164
  dl.l.upper = exp << 20L;
165
  dl.l.upper |= (a1 >> 11L) & ~HIDDEND;
166
  dl.l.lower = a1 << 21L;
167
 
168
  return dl.d;
169
}
170
 
171
/* convert int to double */
172
double
173
__floatsidf (long a1)
174
{
175
  long sign = 0, exp = 31 + EXCESSD;
176
  union double_long dl;
177
 
178
  if (!a1)
179
    {
180
      dl.l.upper = dl.l.lower = 0;
181
      return dl.d;
182
    }
183
 
184
  if (a1 < 0)
185
    {
186
      sign = SIGNBIT;
187
      a1 = (long)-(unsigned long)a1;
188
      if (a1 < 0)
189
        {
190
          dl.l.upper = SIGNBIT | ((32 + EXCESSD) << 20L);
191
          dl.l.lower = 0;
192
          return dl.d;
193
        }
194
    }
195
 
196
  while (a1 < 0x1000000L)
197
    {
198
      a1 <<= 4;
199
      exp -= 4;
200
    }
201
 
202
  while (a1 < 0x40000000L)
203
    {
204
      a1 <<= 1;
205
      exp--;
206
    }
207
 
208
  /* pack up and go home */
209
  dl.l.upper = sign;
210
  dl.l.upper |= exp << 20L;
211
  dl.l.upper |= (a1 >> 10L) & ~HIDDEND;
212
  dl.l.lower = a1 << 22L;
213
 
214
  return dl.d;
215
}
216
 
217
/* convert unsigned int to float */
218
float
219
__floatunsisf (unsigned long l)
220
{
221
  double foo = __floatunsidf (l);
222
  return foo;
223
}
224
 
225
/* convert int to float */
226
float
227
__floatsisf (long l)
228
{
229
  double foo = __floatsidf (l);
230
  return foo;
231
}
232
 
233
/* convert float to double */
234
double
235
__extendsfdf2 (float a1)
236
{
237
  register union float_long fl1;
238
  register union double_long dl;
239
  register long exp;
240
  register long mant;
241
 
242
  fl1.f = a1;
243
 
244
  dl.l.upper = SIGN (fl1.l);
245
  if ((fl1.l & ~SIGNBIT) == 0)
246
    {
247
      dl.l.lower = 0;
248
      return dl.d;
249
    }
250
 
251
  exp = EXP(fl1.l);
252
  mant = MANT (fl1.l) & ~HIDDEN;
253
  if (exp == 0)
254
    {
255
      /* Denormal.  */
256
      exp = 1;
257
      while (!(mant & HIDDEN))
258
        {
259
          mant <<= 1;
260
          exp--;
261
        }
262
      mant &= ~HIDDEN;
263
    }
264
  exp = exp - EXCESS + EXCESSD;
265
  dl.l.upper |= exp << 20;
266
  dl.l.upper |= mant >> 3;
267
  dl.l.lower = mant << 29;
268
 
269
  return dl.d;
270
}
271
 
272
/* convert double to float */
273
float
274
__truncdfsf2 (double a1)
275
{
276
  register long exp;
277
  register long mant;
278
  register union float_long fl;
279
  register union double_long dl1;
280
 
281
  dl1.d = a1;
282
 
283
  if ((dl1.l.upper & ~SIGNBIT) == 0 && !dl1.l.lower)
284
    {
285
      fl.l = SIGND(dl1);
286
      return fl.f;
287
    }
288
 
289
  exp = EXPD (dl1) - EXCESSD + EXCESS;
290
 
291
  /* shift double mantissa 6 bits so we can round */
292
  mant = MANTD (dl1) >> 6;
293
 
294
  /* Check for underflow and denormals.  */
295
  if (exp <= 0)
296
    {
297
      if (exp < -24)
298
        mant = 0;
299
      else
300
        mant >>= 1 - exp;
301
      exp = 0;
302
    }
303
 
304
  /* now round and shift down */
305
  mant += 1;
306
  mant >>= 1;
307
 
308
  /* did the round overflow? */
309
  if (mant & 0xFF000000L)
310
    {
311
      mant >>= 1;
312
      exp++;
313
    }
314
 
315
  mant &= ~HIDDEN;
316
 
317
  /* pack up and go home */
318
  fl.l = PACK (SIGND (dl1), exp, mant);
319
  return (fl.f);
320
}
321
 
322
/* convert double to int */
323
long
324
__fixdfsi (double a1)
325
{
326
  register union double_long dl1;
327
  register long exp;
328
  register long l;
329
 
330
  dl1.d = a1;
331
 
332
  if (!dl1.l.upper && !dl1.l.lower)
333
    return 0;
334
 
335
  exp = EXPD (dl1) - EXCESSD - 31;
336
  l = MANTD (dl1);
337
 
338
  if (exp > 0)
339
    {
340
      /* Return largest integer.  */
341
      return SIGND (dl1) ? 0x80000000L : 0x7fffffffL;
342
    }
343
 
344
  if (exp <= -32)
345
    return 0;
346
 
347
  /* shift down until exp = 0 */
348
  if (exp < 0)
349
    l >>= -exp;
350
 
351
  return (SIGND (dl1) ? -l : l);
352
}
353
 
354
/* convert float to int */
355
long
356
__fixsfsi (float a1)
357
{
358
  double foo = a1;
359
  return __fixdfsi (foo);
360
}
361
 
362
#else /* EXTFLOAT */
363
 
364
/* Primitive extended precision floating point support.
365
 
366
   We assume all numbers are normalized, don't do any rounding, etc.  */
367
 
368
/* Prototypes for the above in case we use them.  */
369
double __floatunsidf (unsigned long);
370
double __floatsidf (long);
371
float __floatsisf (long);
372
double __extendsfdf2 (float);
373
float __truncdfsf2 (double);
374
long __fixdfsi (double);
375
long __fixsfsi (float);
376
 
377
int
378
__unordxf2(long double a, long double b)
379
{
380
  union long_double_long ldl;
381
 
382
  ldl.ld = a;
383
  if (EXPX(ldl) == EXPXMASK
384
      && ((ldl.l.middle & MANTXMASK) != 0 || ldl.l.lower != 0))
385
    return 1;
386
  ldl.ld = b;
387
  if (EXPX(ldl) == EXPXMASK
388
      && ((ldl.l.middle & MANTXMASK) != 0 || ldl.l.lower != 0))
389
    return 1;
390
  return 0;
391
}
392
 
393
/* convert double to long double */
394
long double
395
__extenddfxf2 (double d)
396
{
397
  register union double_long dl;
398
  register union long_double_long ldl;
399
  register long exp;
400
 
401
  dl.d = d;
402
  /*printf ("dfxf in: %g\n", d);*/
403
 
404
  ldl.l.upper = SIGND (dl);
405
  if ((dl.l.upper & ~SIGNBIT) == 0 && !dl.l.lower)
406
    {
407
      ldl.l.middle = 0;
408
      ldl.l.lower = 0;
409
      return ldl.ld;
410
    }
411
 
412
  exp = EXPD (dl) - EXCESSD + EXCESSX;
413
  ldl.l.upper |= exp << 16;
414
  ldl.l.middle = HIDDENX;
415
  /* 31-20: # mantissa bits in ldl.l.middle - # mantissa bits in dl.l.upper */
416
  ldl.l.middle |= (dl.l.upper & MANTDMASK) << (31 - 20);
417
  /* 1+20: explicit-integer-bit + # mantissa bits in dl.l.upper */
418
  ldl.l.middle |= dl.l.lower >> (1 + 20);
419
  /* 32 - 21: # bits of dl.l.lower in ldl.l.middle */
420
  ldl.l.lower = dl.l.lower << (32 - 21);
421
 
422
  /*printf ("dfxf out: %s\n", dumpxf (ldl.ld));*/
423
  return ldl.ld;
424
}
425
 
426
/* convert long double to double */
427
double
428
__truncxfdf2 (long double ld)
429
{
430
  register long exp;
431
  register union double_long dl;
432
  register union long_double_long ldl;
433
 
434
  ldl.ld = ld;
435
  /*printf ("xfdf in: %s\n", dumpxf (ld));*/
436
 
437
  dl.l.upper = SIGNX (ldl);
438
  if ((ldl.l.upper & ~SIGNBIT) == 0 && !ldl.l.middle && !ldl.l.lower)
439
    {
440
      dl.l.lower = 0;
441
      return dl.d;
442
    }
443
 
444
  exp = EXPX (ldl) - EXCESSX + EXCESSD;
445
  /* ??? quick and dirty: keep `exp' sane */
446
  if (exp >= EXPDMASK)
447
    exp = EXPDMASK - 1;
448
  dl.l.upper |= exp << (32 - (EXPDBITS + 1));
449
  /* +1-1: add one for sign bit, but take one off for explicit-integer-bit */
450
  dl.l.upper |= (ldl.l.middle & MANTXMASK) >> (EXPDBITS + 1 - 1);
451
  dl.l.lower = (ldl.l.middle & MANTXMASK) << (32 - (EXPDBITS + 1 - 1));
452
  dl.l.lower |= ldl.l.lower >> (EXPDBITS + 1 - 1);
453
 
454
  /*printf ("xfdf out: %g\n", dl.d);*/
455
  return dl.d;
456
}
457
 
458
/* convert a float to a long double */
459
long double
460
__extendsfxf2 (float f)
461
{
462
  long double foo = __extenddfxf2 (__extendsfdf2 (f));
463
  return foo;
464
}
465
 
466
/* convert a long double to a float */
467
float
468
__truncxfsf2 (long double ld)
469
{
470
  float foo = __truncdfsf2 (__truncxfdf2 (ld));
471
  return foo;
472
}
473
 
474
/* convert an int to a long double */
475
long double
476
__floatsixf (long l)
477
{
478
  double foo = __floatsidf (l);
479
  return foo;
480
}
481
 
482
/* convert an unsigned int to a long double */
483
long double
484
__floatunsixf (unsigned long l)
485
{
486
  double foo = __floatunsidf (l);
487
  return foo;
488
}
489
 
490
/* convert a long double to an int */
491
long
492
__fixxfsi (long double ld)
493
{
494
  long foo = __fixdfsi ((double) ld);
495
  return foo;
496
}
497
 
498
/* The remaining provide crude math support by working in double precision.  */
499
 
500
long double
501
__addxf3 (long double x1, long double x2)
502
{
503
  return (double) x1 + (double) x2;
504
}
505
 
506
long double
507
__subxf3 (long double x1, long double x2)
508
{
509
  return (double) x1 - (double) x2;
510
}
511
 
512
long double
513
__mulxf3 (long double x1, long double x2)
514
{
515
  return (double) x1 * (double) x2;
516
}
517
 
518
long double
519
__divxf3 (long double x1, long double x2)
520
{
521
  return (double) x1 / (double) x2;
522
}
523
 
524
long double
525
__negxf2 (long double x1)
526
{
527
  return - (double) x1;
528
}
529
 
530
long
531
__cmpxf2 (long double x1, long double x2)
532
{
533
  return __cmpdf2 ((double) x1, (double) x2);
534
}
535
 
536
long
537
__eqxf2 (long double x1, long double x2)
538
{
539
  return __cmpdf2 ((double) x1, (double) x2);
540
}
541
 
542
long
543
__nexf2 (long double x1, long double x2)
544
{
545
  return __cmpdf2 ((double) x1, (double) x2);
546
}
547
 
548
long
549
__ltxf2 (long double x1, long double x2)
550
{
551
  return __cmpdf2 ((double) x1, (double) x2);
552
}
553
 
554
long
555
__lexf2 (long double x1, long double x2)
556
{
557
  return __cmpdf2 ((double) x1, (double) x2);
558
}
559
 
560
long
561
__gtxf2 (long double x1, long double x2)
562
{
563
  return __cmpdf2 ((double) x1, (double) x2);
564
}
565
 
566
long
567
__gexf2 (long double x1, long double x2)
568
{
569
  return __cmpdf2 ((double) x1, (double) x2);
570
}
571
 
572
#endif /* EXTFLOAT */

powered by: WebSVN 2.1.0

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