* config/i386/i386.c (ix86_adjust_stack_and_probe_stack_clash): New.
[official-gcc.git] / gcc / dfp.c
blob3c98f56cf6910fab18868e62098b650c16291839
1 /* Decimal floating point support.
2 Copyright (C) 2005-2017 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
9 version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #include "config.h"
21 #include "system.h"
22 #include "coretypes.h"
23 #include "tm.h"
24 #include "tree.h"
25 #include "dfp.h"
27 /* The order of the following headers is important for making sure
28 decNumber structure is large enough to hold decimal128 digits. */
30 #include "decimal128.h"
31 #include "decimal64.h"
32 #include "decimal32.h"
34 #ifndef WORDS_BIGENDIAN
35 #define WORDS_BIGENDIAN 0
36 #endif
38 /* Initialize R (a real with the decimal flag set) from DN. Can
39 utilize status passed in via CONTEXT, if a previous operation had
40 interesting status. */
42 static void
43 decimal_from_decnumber (REAL_VALUE_TYPE *r, decNumber *dn, decContext *context)
45 memset (r, 0, sizeof (REAL_VALUE_TYPE));
47 r->cl = rvc_normal;
48 if (decNumberIsNaN (dn))
49 r->cl = rvc_nan;
50 if (decNumberIsInfinite (dn))
51 r->cl = rvc_inf;
52 if (context->status & DEC_Overflow)
53 r->cl = rvc_inf;
54 if (decNumberIsNegative (dn))
55 r->sign = 1;
56 r->decimal = 1;
58 if (r->cl != rvc_normal)
59 return;
61 decContextDefault (context, DEC_INIT_DECIMAL128);
62 context->traps = 0;
64 decimal128FromNumber ((decimal128 *) r->sig, dn, context);
67 /* Create decimal encoded R from string S. */
69 void
70 decimal_real_from_string (REAL_VALUE_TYPE *r, const char *s)
72 decNumber dn;
73 decContext set;
74 decContextDefault (&set, DEC_INIT_DECIMAL128);
75 set.traps = 0;
77 decNumberFromString (&dn, s, &set);
79 /* It would be more efficient to store directly in decNumber format,
80 but that is impractical from current data structure size.
81 Encoding as a decimal128 is much more compact. */
82 decimal_from_decnumber (r, &dn, &set);
85 /* Initialize a decNumber from a REAL_VALUE_TYPE. */
87 static void
88 decimal_to_decnumber (const REAL_VALUE_TYPE *r, decNumber *dn)
90 decContext set;
91 decContextDefault (&set, DEC_INIT_DECIMAL128);
92 set.traps = 0;
94 switch (r->cl)
96 case rvc_zero:
97 decNumberZero (dn);
98 break;
99 case rvc_inf:
100 decNumberFromString (dn, "Infinity", &set);
101 break;
102 case rvc_nan:
103 if (r->signalling)
104 decNumberFromString (dn, "snan", &set);
105 else
106 decNumberFromString (dn, "nan", &set);
107 break;
108 case rvc_normal:
109 if (!r->decimal)
111 /* dconst{1,2,m1,half} are used in various places in
112 the middle-end and optimizers, allow them here
113 as an exception by converting them to decimal. */
114 if (memcmp (r, &dconst1, sizeof (*r)) == 0)
116 decNumberFromString (dn, "1", &set);
117 break;
119 if (memcmp (r, &dconst2, sizeof (*r)) == 0)
121 decNumberFromString (dn, "2", &set);
122 break;
124 if (memcmp (r, &dconstm1, sizeof (*r)) == 0)
126 decNumberFromString (dn, "-1", &set);
127 break;
129 if (memcmp (r, &dconsthalf, sizeof (*r)) == 0)
131 decNumberFromString (dn, "0.5", &set);
132 break;
134 gcc_unreachable ();
136 decimal128ToNumber ((const decimal128 *) r->sig, dn);
137 break;
138 default:
139 gcc_unreachable ();
142 /* Fix up sign bit. */
143 if (r->sign != decNumberIsNegative (dn))
144 dn->bits ^= DECNEG;
147 /* Encode a real into an IEEE 754 decimal32 type. */
149 void
150 encode_decimal32 (const struct real_format *fmt ATTRIBUTE_UNUSED,
151 long *buf, const REAL_VALUE_TYPE *r)
153 decNumber dn;
154 decimal32 d32;
155 decContext set;
156 int32_t image;
158 decContextDefault (&set, DEC_INIT_DECIMAL128);
159 set.traps = 0;
161 decimal_to_decnumber (r, &dn);
162 decimal32FromNumber (&d32, &dn, &set);
164 memcpy (&image, d32.bytes, sizeof (int32_t));
165 buf[0] = image;
168 /* Decode an IEEE 754 decimal32 type into a real. */
170 void
171 decode_decimal32 (const struct real_format *fmt ATTRIBUTE_UNUSED,
172 REAL_VALUE_TYPE *r, const long *buf)
174 decNumber dn;
175 decimal32 d32;
176 decContext set;
177 int32_t image;
179 decContextDefault (&set, DEC_INIT_DECIMAL128);
180 set.traps = 0;
182 image = buf[0];
183 memcpy (&d32.bytes, &image, sizeof (int32_t));
185 decimal32ToNumber (&d32, &dn);
186 decimal_from_decnumber (r, &dn, &set);
189 /* Encode a real into an IEEE 754 decimal64 type. */
191 void
192 encode_decimal64 (const struct real_format *fmt ATTRIBUTE_UNUSED,
193 long *buf, const REAL_VALUE_TYPE *r)
195 decNumber dn;
196 decimal64 d64;
197 decContext set;
198 int32_t image;
200 decContextDefault (&set, DEC_INIT_DECIMAL128);
201 set.traps = 0;
203 decimal_to_decnumber (r, &dn);
204 decimal64FromNumber (&d64, &dn, &set);
206 if (WORDS_BIGENDIAN == FLOAT_WORDS_BIG_ENDIAN)
208 memcpy (&image, &d64.bytes[0], sizeof (int32_t));
209 buf[0] = image;
210 memcpy (&image, &d64.bytes[4], sizeof (int32_t));
211 buf[1] = image;
213 else
215 memcpy (&image, &d64.bytes[4], sizeof (int32_t));
216 buf[0] = image;
217 memcpy (&image, &d64.bytes[0], sizeof (int32_t));
218 buf[1] = image;
222 /* Decode an IEEE 754 decimal64 type into a real. */
224 void
225 decode_decimal64 (const struct real_format *fmt ATTRIBUTE_UNUSED,
226 REAL_VALUE_TYPE *r, const long *buf)
228 decNumber dn;
229 decimal64 d64;
230 decContext set;
231 int32_t image;
233 decContextDefault (&set, DEC_INIT_DECIMAL128);
234 set.traps = 0;
236 if (WORDS_BIGENDIAN == FLOAT_WORDS_BIG_ENDIAN)
238 image = buf[0];
239 memcpy (&d64.bytes[0], &image, sizeof (int32_t));
240 image = buf[1];
241 memcpy (&d64.bytes[4], &image, sizeof (int32_t));
243 else
245 image = buf[1];
246 memcpy (&d64.bytes[0], &image, sizeof (int32_t));
247 image = buf[0];
248 memcpy (&d64.bytes[4], &image, sizeof (int32_t));
251 decimal64ToNumber (&d64, &dn);
252 decimal_from_decnumber (r, &dn, &set);
255 /* Encode a real into an IEEE 754 decimal128 type. */
257 void
258 encode_decimal128 (const struct real_format *fmt ATTRIBUTE_UNUSED,
259 long *buf, const REAL_VALUE_TYPE *r)
261 decNumber dn;
262 decContext set;
263 decimal128 d128;
264 int32_t image;
266 decContextDefault (&set, DEC_INIT_DECIMAL128);
267 set.traps = 0;
269 decimal_to_decnumber (r, &dn);
270 decimal128FromNumber (&d128, &dn, &set);
272 if (WORDS_BIGENDIAN == FLOAT_WORDS_BIG_ENDIAN)
274 memcpy (&image, &d128.bytes[0], sizeof (int32_t));
275 buf[0] = image;
276 memcpy (&image, &d128.bytes[4], sizeof (int32_t));
277 buf[1] = image;
278 memcpy (&image, &d128.bytes[8], sizeof (int32_t));
279 buf[2] = image;
280 memcpy (&image, &d128.bytes[12], sizeof (int32_t));
281 buf[3] = image;
283 else
285 memcpy (&image, &d128.bytes[12], sizeof (int32_t));
286 buf[0] = image;
287 memcpy (&image, &d128.bytes[8], sizeof (int32_t));
288 buf[1] = image;
289 memcpy (&image, &d128.bytes[4], sizeof (int32_t));
290 buf[2] = image;
291 memcpy (&image, &d128.bytes[0], sizeof (int32_t));
292 buf[3] = image;
296 /* Decode an IEEE 754 decimal128 type into a real. */
298 void
299 decode_decimal128 (const struct real_format *fmt ATTRIBUTE_UNUSED,
300 REAL_VALUE_TYPE *r, const long *buf)
302 decNumber dn;
303 decimal128 d128;
304 decContext set;
305 int32_t image;
307 decContextDefault (&set, DEC_INIT_DECIMAL128);
308 set.traps = 0;
310 if (WORDS_BIGENDIAN == FLOAT_WORDS_BIG_ENDIAN)
312 image = buf[0];
313 memcpy (&d128.bytes[0], &image, sizeof (int32_t));
314 image = buf[1];
315 memcpy (&d128.bytes[4], &image, sizeof (int32_t));
316 image = buf[2];
317 memcpy (&d128.bytes[8], &image, sizeof (int32_t));
318 image = buf[3];
319 memcpy (&d128.bytes[12], &image, sizeof (int32_t));
321 else
323 image = buf[3];
324 memcpy (&d128.bytes[0], &image, sizeof (int32_t));
325 image = buf[2];
326 memcpy (&d128.bytes[4], &image, sizeof (int32_t));
327 image = buf[1];
328 memcpy (&d128.bytes[8], &image, sizeof (int32_t));
329 image = buf[0];
330 memcpy (&d128.bytes[12], &image, sizeof (int32_t));
333 decimal128ToNumber (&d128, &dn);
334 decimal_from_decnumber (r, &dn, &set);
337 /* Helper function to convert from a binary real internal
338 representation. */
340 static void
341 decimal_to_binary (REAL_VALUE_TYPE *to, const REAL_VALUE_TYPE *from,
342 const real_format *fmt)
344 char string[256];
345 const decimal128 *const d128 = (const decimal128 *) from->sig;
347 decimal128ToString (d128, string);
348 real_from_string3 (to, string, fmt);
352 /* Helper function to convert from a binary real internal
353 representation. */
355 static void
356 decimal_from_binary (REAL_VALUE_TYPE *to, const REAL_VALUE_TYPE *from)
358 char string[256];
360 /* We convert to string, then to decNumber then to decimal128. */
361 real_to_decimal (string, from, sizeof (string), 0, 1);
362 decimal_real_from_string (to, string);
365 /* Helper function to real.c:do_compare() to handle decimal internal
366 representation including when one of the operands is still in the
367 binary internal representation. */
370 decimal_do_compare (const REAL_VALUE_TYPE *a, const REAL_VALUE_TYPE *b,
371 int nan_result)
373 decContext set;
374 decNumber dn, dn2, dn3;
375 REAL_VALUE_TYPE a1, b1;
377 /* If either operand is non-decimal, create temporary versions. */
378 if (!a->decimal)
380 decimal_from_binary (&a1, a);
381 a = &a1;
383 if (!b->decimal)
385 decimal_from_binary (&b1, b);
386 b = &b1;
389 /* Convert into decNumber form for comparison operation. */
390 decContextDefault (&set, DEC_INIT_DECIMAL128);
391 set.traps = 0;
392 decimal128ToNumber ((const decimal128 *) a->sig, &dn2);
393 decimal128ToNumber ((const decimal128 *) b->sig, &dn3);
395 /* Finally, do the comparison. */
396 decNumberCompare (&dn, &dn2, &dn3, &set);
398 /* Return the comparison result. */
399 if (decNumberIsNaN (&dn))
400 return nan_result;
401 else if (decNumberIsZero (&dn))
402 return 0;
403 else if (decNumberIsNegative (&dn))
404 return -1;
405 else
406 return 1;
409 /* Helper to round_for_format, handling decimal float types. */
411 void
412 decimal_round_for_format (const struct real_format *fmt, REAL_VALUE_TYPE *r)
414 decNumber dn;
415 decContext set;
417 /* Real encoding occurs later. */
418 if (r->cl != rvc_normal)
419 return;
421 decContextDefault (&set, DEC_INIT_DECIMAL128);
422 set.traps = 0;
423 decimal128ToNumber ((decimal128 *) r->sig, &dn);
425 if (fmt == &decimal_quad_format)
427 /* The internal format is already in this format. */
428 return;
430 else if (fmt == &decimal_single_format)
432 decimal32 d32;
433 decContextDefault (&set, DEC_INIT_DECIMAL32);
434 set.traps = 0;
436 decimal32FromNumber (&d32, &dn, &set);
437 decimal32ToNumber (&d32, &dn);
439 else if (fmt == &decimal_double_format)
441 decimal64 d64;
442 decContextDefault (&set, DEC_INIT_DECIMAL64);
443 set.traps = 0;
445 decimal64FromNumber (&d64, &dn, &set);
446 decimal64ToNumber (&d64, &dn);
448 else
449 gcc_unreachable ();
451 decimal_from_decnumber (r, &dn, &set);
454 /* Extend or truncate to a new mode. Handles conversions between
455 binary and decimal types. */
457 void
458 decimal_real_convert (REAL_VALUE_TYPE *r, const real_format *fmt,
459 const REAL_VALUE_TYPE *a)
461 if (a->decimal && fmt->b == 10)
462 return;
463 if (a->decimal)
464 decimal_to_binary (r, a, fmt);
465 else
466 decimal_from_binary (r, a);
469 /* Render R_ORIG as a decimal floating point constant. Emit DIGITS
470 significant digits in the result, bounded by BUF_SIZE. If DIGITS
471 is 0, choose the maximum for the representation. If
472 CROP_TRAILING_ZEROS, strip trailing zeros. Currently, not honoring
473 DIGITS or CROP_TRAILING_ZEROS. */
475 void
476 decimal_real_to_decimal (char *str, const REAL_VALUE_TYPE *r_orig,
477 size_t buf_size,
478 size_t digits ATTRIBUTE_UNUSED,
479 int crop_trailing_zeros ATTRIBUTE_UNUSED)
481 const decimal128 *const d128 = (const decimal128*) r_orig->sig;
483 /* decimal128ToString requires space for at least 24 characters;
484 Require two more for suffix. */
485 gcc_assert (buf_size >= 24);
486 decimal128ToString (d128, str);
489 static bool
490 decimal_do_add (REAL_VALUE_TYPE *r, const REAL_VALUE_TYPE *op0,
491 const REAL_VALUE_TYPE *op1, int subtract_p)
493 decNumber dn;
494 decContext set;
495 decNumber dn2, dn3;
497 decimal_to_decnumber (op0, &dn2);
498 decimal_to_decnumber (op1, &dn3);
500 decContextDefault (&set, DEC_INIT_DECIMAL128);
501 set.traps = 0;
503 if (subtract_p)
504 decNumberSubtract (&dn, &dn2, &dn3, &set);
505 else
506 decNumberAdd (&dn, &dn2, &dn3, &set);
508 decimal_from_decnumber (r, &dn, &set);
510 /* Return true, if inexact. */
511 return (set.status & DEC_Inexact);
514 /* Compute R = OP0 * OP1. */
516 static bool
517 decimal_do_multiply (REAL_VALUE_TYPE *r, const REAL_VALUE_TYPE *op0,
518 const REAL_VALUE_TYPE *op1)
520 decContext set;
521 decNumber dn, dn2, dn3;
523 decimal_to_decnumber (op0, &dn2);
524 decimal_to_decnumber (op1, &dn3);
526 decContextDefault (&set, DEC_INIT_DECIMAL128);
527 set.traps = 0;
529 decNumberMultiply (&dn, &dn2, &dn3, &set);
530 decimal_from_decnumber (r, &dn, &set);
532 /* Return true, if inexact. */
533 return (set.status & DEC_Inexact);
536 /* Compute R = OP0 / OP1. */
538 static bool
539 decimal_do_divide (REAL_VALUE_TYPE *r, const REAL_VALUE_TYPE *op0,
540 const REAL_VALUE_TYPE *op1)
542 decContext set;
543 decNumber dn, dn2, dn3;
545 decimal_to_decnumber (op0, &dn2);
546 decimal_to_decnumber (op1, &dn3);
548 decContextDefault (&set, DEC_INIT_DECIMAL128);
549 set.traps = 0;
551 decNumberDivide (&dn, &dn2, &dn3, &set);
552 decimal_from_decnumber (r, &dn, &set);
554 /* Return true, if inexact. */
555 return (set.status & DEC_Inexact);
558 /* Set R to A truncated to an integral value toward zero (decimal
559 floating point). */
561 void
562 decimal_do_fix_trunc (REAL_VALUE_TYPE *r, const REAL_VALUE_TYPE *a)
564 decNumber dn, dn2;
565 decContext set;
567 decContextDefault (&set, DEC_INIT_DECIMAL128);
568 set.traps = 0;
569 set.round = DEC_ROUND_DOWN;
570 decimal128ToNumber ((const decimal128 *) a->sig, &dn2);
572 decNumberToIntegralValue (&dn, &dn2, &set);
573 decimal_from_decnumber (r, &dn, &set);
576 /* Render decimal float value R as an integer. */
578 HOST_WIDE_INT
579 decimal_real_to_integer (const REAL_VALUE_TYPE *r)
581 decContext set;
582 decNumber dn, dn2, dn3;
583 REAL_VALUE_TYPE to;
584 char string[256];
586 decContextDefault (&set, DEC_INIT_DECIMAL128);
587 set.traps = 0;
588 set.round = DEC_ROUND_DOWN;
589 decimal128ToNumber ((const decimal128 *) r->sig, &dn);
591 decNumberToIntegralValue (&dn2, &dn, &set);
592 decNumberZero (&dn3);
593 decNumberRescale (&dn, &dn2, &dn3, &set);
595 /* Convert to REAL_VALUE_TYPE and call appropriate conversion
596 function. */
597 decNumberToString (&dn, string);
598 real_from_string (&to, string);
599 return real_to_integer (&to);
602 /* Likewise, but returns a wide_int with PRECISION. *FAIL is set if the
603 value does not fit. */
605 wide_int
606 decimal_real_to_integer (const REAL_VALUE_TYPE *r, bool *fail, int precision)
608 decContext set;
609 decNumber dn, dn2, dn3;
610 REAL_VALUE_TYPE to;
611 char string[256];
613 decContextDefault (&set, DEC_INIT_DECIMAL128);
614 set.traps = 0;
615 set.round = DEC_ROUND_DOWN;
616 decimal128ToNumber ((const decimal128 *) r->sig, &dn);
618 decNumberToIntegralValue (&dn2, &dn, &set);
619 decNumberZero (&dn3);
620 decNumberRescale (&dn, &dn2, &dn3, &set);
622 /* Convert to REAL_VALUE_TYPE and call appropriate conversion
623 function. */
624 decNumberToString (&dn, string);
625 real_from_string (&to, string);
626 return real_to_integer (&to, fail, precision);
629 /* Perform the decimal floating point operation described by CODE.
630 For a unary operation, OP1 will be NULL. This function returns
631 true if the result may be inexact due to loss of precision. */
633 bool
634 decimal_real_arithmetic (REAL_VALUE_TYPE *r, enum tree_code code,
635 const REAL_VALUE_TYPE *op0,
636 const REAL_VALUE_TYPE *op1)
638 REAL_VALUE_TYPE a, b;
640 /* If either operand is non-decimal, create temporaries. */
641 if (!op0->decimal)
643 decimal_from_binary (&a, op0);
644 op0 = &a;
646 if (op1 && !op1->decimal)
648 decimal_from_binary (&b, op1);
649 op1 = &b;
652 switch (code)
654 case PLUS_EXPR:
655 return decimal_do_add (r, op0, op1, 0);
657 case MINUS_EXPR:
658 return decimal_do_add (r, op0, op1, 1);
660 case MULT_EXPR:
661 return decimal_do_multiply (r, op0, op1);
663 case RDIV_EXPR:
664 return decimal_do_divide (r, op0, op1);
666 case MIN_EXPR:
667 if (op1->cl == rvc_nan)
668 *r = *op1;
669 else if (real_compare (UNLT_EXPR, op0, op1))
670 *r = *op0;
671 else
672 *r = *op1;
673 return false;
675 case MAX_EXPR:
676 if (op1->cl == rvc_nan)
677 *r = *op1;
678 else if (real_compare (LT_EXPR, op0, op1))
679 *r = *op1;
680 else
681 *r = *op0;
682 return false;
684 case NEGATE_EXPR:
686 *r = *op0;
687 /* Flip sign bit. */
688 decimal128FlipSign ((decimal128 *) r->sig);
689 /* Keep sign field in sync. */
690 r->sign ^= 1;
692 return false;
694 case ABS_EXPR:
696 *r = *op0;
697 /* Clear sign bit. */
698 decimal128ClearSign ((decimal128 *) r->sig);
699 /* Keep sign field in sync. */
700 r->sign = 0;
702 return false;
704 case FIX_TRUNC_EXPR:
705 decimal_do_fix_trunc (r, op0);
706 return false;
708 default:
709 gcc_unreachable ();
713 /* Fills R with the largest finite value representable in mode MODE.
714 If SIGN is nonzero, R is set to the most negative finite value. */
716 void
717 decimal_real_maxval (REAL_VALUE_TYPE *r, int sign, machine_mode mode)
719 const char *max;
721 switch (mode)
723 case E_SDmode:
724 max = "9.999999E96";
725 break;
726 case E_DDmode:
727 max = "9.999999999999999E384";
728 break;
729 case E_TDmode:
730 max = "9.999999999999999999999999999999999E6144";
731 break;
732 default:
733 gcc_unreachable ();
736 decimal_real_from_string (r, max);
737 if (sign)
738 decimal128SetSign ((decimal128 *) r->sig, 1);