2 * Copyright 2013 Ecole Normale Superieure
4 * Use of this software is governed by the MIT license
6 * Written by Sven Verdoolaege,
7 * Ecole Normale Superieure, 45 rue d'Ulm, 75230 Paris, France
11 #include <isl_ctx_private.h>
12 #include <isl_val_private.h>
17 #include <isl_list_templ.c>
19 /* Allocate an isl_val object with indeterminate value.
21 __isl_give isl_val
*isl_val_alloc(isl_ctx
*ctx
)
25 v
= isl_alloc_type(ctx
, struct isl_val
);
38 /* Return a reference to an isl_val representing zero.
40 __isl_give isl_val
*isl_val_zero(isl_ctx
*ctx
)
42 return isl_val_int_from_si(ctx
, 0);
45 /* Return a reference to an isl_val representing one.
47 __isl_give isl_val
*isl_val_one(isl_ctx
*ctx
)
49 return isl_val_int_from_si(ctx
, 1);
52 /* Return a reference to an isl_val representing negative one.
54 __isl_give isl_val
*isl_val_negone(isl_ctx
*ctx
)
56 return isl_val_int_from_si(ctx
, -1);
59 /* Return a reference to an isl_val representing NaN.
61 __isl_give isl_val
*isl_val_nan(isl_ctx
*ctx
)
65 v
= isl_val_alloc(ctx
);
69 isl_int_set_si(v
->n
, 0);
70 isl_int_set_si(v
->d
, 0);
75 /* Change "v" into a NaN.
77 __isl_give isl_val
*isl_val_set_nan(__isl_take isl_val
*v
)
81 if (isl_val_is_nan(v
))
87 isl_int_set_si(v
->n
, 0);
88 isl_int_set_si(v
->d
, 0);
93 /* Return a reference to an isl_val representing +infinity.
95 __isl_give isl_val
*isl_val_infty(isl_ctx
*ctx
)
99 v
= isl_val_alloc(ctx
);
103 isl_int_set_si(v
->n
, 1);
104 isl_int_set_si(v
->d
, 0);
109 /* Return a reference to an isl_val representing -infinity.
111 __isl_give isl_val
*isl_val_neginfty(isl_ctx
*ctx
)
115 v
= isl_val_alloc(ctx
);
119 isl_int_set_si(v
->n
, -1);
120 isl_int_set_si(v
->d
, 0);
125 /* Return a reference to an isl_val representing the integer "i".
127 __isl_give isl_val
*isl_val_int_from_si(isl_ctx
*ctx
, long i
)
131 v
= isl_val_alloc(ctx
);
135 isl_int_set_si(v
->n
, i
);
136 isl_int_set_si(v
->d
, 1);
141 /* Change the value of "v" to be equal to the integer "i".
143 __isl_give isl_val
*isl_val_set_si(__isl_take isl_val
*v
, long i
)
147 if (isl_val_is_int(v
) && isl_int_cmp_si(v
->n
, i
) == 0)
153 isl_int_set_si(v
->n
, i
);
154 isl_int_set_si(v
->d
, 1);
159 /* Change the value of "v" to be equal to zero.
161 __isl_give isl_val
*isl_val_set_zero(__isl_take isl_val
*v
)
163 return isl_val_set_si(v
, 0);
166 /* Return a reference to an isl_val representing the unsigned integer "u".
168 __isl_give isl_val
*isl_val_int_from_ui(isl_ctx
*ctx
, unsigned long u
)
172 v
= isl_val_alloc(ctx
);
176 isl_int_set_ui(v
->n
, u
);
177 isl_int_set_si(v
->d
, 1);
182 /* Return a reference to an isl_val representing the integer "n".
184 __isl_give isl_val
*isl_val_int_from_isl_int(isl_ctx
*ctx
, isl_int n
)
188 v
= isl_val_alloc(ctx
);
192 isl_int_set(v
->n
, n
);
193 isl_int_set_si(v
->d
, 1);
198 /* Return a reference to an isl_val representing the rational value "n"/"d".
199 * Normalizing the isl_val (if needed) is left to the caller.
201 __isl_give isl_val
*isl_val_rat_from_isl_int(isl_ctx
*ctx
,
202 isl_int n
, isl_int d
)
206 v
= isl_val_alloc(ctx
);
210 isl_int_set(v
->n
, n
);
211 isl_int_set(v
->d
, d
);
216 /* Return a new reference to "v".
218 __isl_give isl_val
*isl_val_copy(__isl_keep isl_val
*v
)
227 /* Return a fresh copy of "val".
229 __isl_give isl_val
*isl_val_dup(__isl_keep isl_val
*val
)
236 dup
= isl_val_alloc(isl_val_get_ctx(val
));
240 isl_int_set(dup
->n
, val
->n
);
241 isl_int_set(dup
->d
, val
->d
);
246 /* Return an isl_val that is equal to "val" and that has only
247 * a single reference.
249 __isl_give isl_val
*isl_val_cow(__isl_take isl_val
*val
)
257 return isl_val_dup(val
);
260 /* Free "v" and return NULL.
262 __isl_null isl_val
*isl_val_free(__isl_take isl_val
*v
)
270 isl_ctx_deref(v
->ctx
);
277 /* Extract the numerator of a rational value "v" as an integer.
279 * If "v" is not a rational value, then the result is undefined.
281 long isl_val_get_num_si(__isl_keep isl_val
*v
)
285 if (!isl_val_is_rat(v
))
286 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
287 "expecting rational value", return 0);
288 if (!isl_int_fits_slong(v
->n
))
289 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
290 "numerator too large", return 0);
291 return isl_int_get_si(v
->n
);
294 /* Extract the numerator of a rational value "v" as an isl_int.
296 * If "v" is not a rational value, then the result is undefined.
298 isl_stat
isl_val_get_num_isl_int(__isl_keep isl_val
*v
, isl_int
*n
)
301 return isl_stat_error
;
302 if (!isl_val_is_rat(v
))
303 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
304 "expecting rational value", return isl_stat_error
);
305 isl_int_set(*n
, v
->n
);
309 /* Extract the denominator of a rational value "v" as an integer.
311 * If "v" is not a rational value, then the result is undefined.
313 long isl_val_get_den_si(__isl_keep isl_val
*v
)
317 if (!isl_val_is_rat(v
))
318 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
319 "expecting rational value", return 0);
320 if (!isl_int_fits_slong(v
->d
))
321 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
322 "denominator too large", return 0);
323 return isl_int_get_si(v
->d
);
326 /* Extract the denominator of a rational value "v" as an isl_val.
328 * If "v" is not a rational value, then the result is undefined.
330 __isl_give isl_val
*isl_val_get_den_val(__isl_keep isl_val
*v
)
334 if (!isl_val_is_rat(v
))
335 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
336 "expecting rational value", return NULL
);
337 return isl_val_int_from_isl_int(isl_val_get_ctx(v
), v
->d
);
340 /* Return an approximation of "v" as a double.
342 double isl_val_get_d(__isl_keep isl_val
*v
)
346 if (!isl_val_is_rat(v
))
347 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
348 "expecting rational value", return 0);
349 return isl_int_get_d(v
->n
) / isl_int_get_d(v
->d
);
352 /* Return the isl_ctx to which "val" belongs.
354 isl_ctx
*isl_val_get_ctx(__isl_keep isl_val
*val
)
356 return val
? val
->ctx
: NULL
;
359 /* Return a hash value that digests "val".
361 uint32_t isl_val_get_hash(__isl_keep isl_val
*val
)
368 hash
= isl_hash_init();
369 hash
= isl_int_hash(val
->n
, hash
);
370 hash
= isl_int_hash(val
->d
, hash
);
377 * In particular, make sure that the denominator of a rational value
378 * is positive and the numerator and denominator do not have any
381 * This function should not be called by an external user
382 * since it will only be given normalized values.
384 __isl_give isl_val
*isl_val_normalize(__isl_take isl_val
*v
)
390 if (isl_val_is_int(v
))
392 if (!isl_val_is_rat(v
))
394 if (isl_int_is_neg(v
->d
)) {
395 isl_int_neg(v
->d
, v
->d
);
396 isl_int_neg(v
->n
, v
->n
);
398 ctx
= isl_val_get_ctx(v
);
399 isl_int_gcd(ctx
->normalize_gcd
, v
->n
, v
->d
);
400 if (isl_int_is_one(ctx
->normalize_gcd
))
402 isl_int_divexact(v
->n
, v
->n
, ctx
->normalize_gcd
);
403 isl_int_divexact(v
->d
, v
->d
, ctx
->normalize_gcd
);
407 /* Return the opposite of "v".
409 __isl_give isl_val
*isl_val_neg(__isl_take isl_val
*v
)
413 if (isl_val_is_nan(v
))
415 if (isl_val_is_zero(v
))
421 isl_int_neg(v
->n
, v
->n
);
426 /* Return the inverse of "v".
428 __isl_give isl_val
*isl_val_inv(__isl_take isl_val
*v
)
432 if (isl_val_is_nan(v
))
434 if (isl_val_is_zero(v
)) {
435 isl_ctx
*ctx
= isl_val_get_ctx(v
);
437 return isl_val_nan(ctx
);
439 if (isl_val_is_infty(v
) || isl_val_is_neginfty(v
)) {
440 isl_ctx
*ctx
= isl_val_get_ctx(v
);
442 return isl_val_zero(ctx
);
448 isl_int_swap(v
->n
, v
->d
);
450 return isl_val_normalize(v
);
453 /* Return the absolute value of "v".
455 __isl_give isl_val
*isl_val_abs(__isl_take isl_val
*v
)
459 if (isl_val_is_nan(v
))
461 if (isl_val_is_nonneg(v
))
463 return isl_val_neg(v
);
466 /* Return the "floor" (greatest integer part) of "v".
467 * That is, return the result of rounding towards -infinity.
469 __isl_give isl_val
*isl_val_floor(__isl_take isl_val
*v
)
473 if (isl_val_is_int(v
))
475 if (!isl_val_is_rat(v
))
481 isl_int_fdiv_q(v
->n
, v
->n
, v
->d
);
482 isl_int_set_si(v
->d
, 1);
487 /* Return the "ceiling" of "v".
488 * That is, return the result of rounding towards +infinity.
490 __isl_give isl_val
*isl_val_ceil(__isl_take isl_val
*v
)
494 if (isl_val_is_int(v
))
496 if (!isl_val_is_rat(v
))
502 isl_int_cdiv_q(v
->n
, v
->n
, v
->d
);
503 isl_int_set_si(v
->d
, 1);
509 * That is, return the result of rounding towards zero.
511 __isl_give isl_val
*isl_val_trunc(__isl_take isl_val
*v
)
515 if (isl_val_is_int(v
))
517 if (!isl_val_is_rat(v
))
523 isl_int_tdiv_q(v
->n
, v
->n
, v
->d
);
524 isl_int_set_si(v
->d
, 1);
529 /* Return 2^v, where v is an integer (that is not too large).
531 __isl_give isl_val
*isl_val_pow2(__isl_take isl_val
*v
)
539 if (!isl_val_is_int(v
))
540 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
541 "can only compute integer powers",
542 return isl_val_free(v
));
543 neg
= isl_val_is_neg(v
);
545 isl_int_neg(v
->n
, v
->n
);
546 if (!isl_int_fits_ulong(v
->n
))
547 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
548 "exponent too large", return isl_val_free(v
));
549 exp
= isl_int_get_ui(v
->n
);
551 isl_int_mul_2exp(v
->d
, v
->d
, exp
);
552 isl_int_set_si(v
->n
, 1);
554 isl_int_mul_2exp(v
->n
, v
->d
, exp
);
560 /* This is an alternative name for the function above.
562 __isl_give isl_val
*isl_val_2exp(__isl_take isl_val
*v
)
564 return isl_val_pow2(v
);
567 /* Return the minimum of "v1" and "v2".
569 __isl_give isl_val
*isl_val_min(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
574 if (isl_val_is_nan(v1
)) {
578 if (isl_val_is_nan(v2
)) {
582 if (isl_val_le(v1
, v2
)) {
595 /* Return the maximum of "v1" and "v2".
597 __isl_give isl_val
*isl_val_max(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
602 if (isl_val_is_nan(v1
)) {
606 if (isl_val_is_nan(v2
)) {
610 if (isl_val_ge(v1
, v2
)) {
623 /* Return the sum of "v1" and "v2".
625 __isl_give isl_val
*isl_val_add(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
629 if (isl_val_is_nan(v1
)) {
633 if (isl_val_is_nan(v2
)) {
637 if ((isl_val_is_infty(v1
) && isl_val_is_neginfty(v2
)) ||
638 (isl_val_is_neginfty(v1
) && isl_val_is_infty(v2
))) {
640 return isl_val_set_nan(v1
);
642 if (isl_val_is_infty(v1
) || isl_val_is_neginfty(v1
)) {
646 if (isl_val_is_infty(v2
) || isl_val_is_neginfty(v2
)) {
650 if (isl_val_is_zero(v1
)) {
654 if (isl_val_is_zero(v2
)) {
659 v1
= isl_val_cow(v1
);
662 if (isl_val_is_int(v1
) && isl_val_is_int(v2
))
663 isl_int_add(v1
->n
, v1
->n
, v2
->n
);
665 if (isl_int_eq(v1
->d
, v2
->d
))
666 isl_int_add(v1
->n
, v1
->n
, v2
->n
);
668 isl_int_mul(v1
->n
, v1
->n
, v2
->d
);
669 isl_int_addmul(v1
->n
, v2
->n
, v1
->d
);
670 isl_int_mul(v1
->d
, v1
->d
, v2
->d
);
672 v1
= isl_val_normalize(v1
);
682 /* Return the sum of "v1" and "v2".
684 __isl_give isl_val
*isl_val_add_ui(__isl_take isl_val
*v1
, unsigned long v2
)
688 if (!isl_val_is_rat(v1
))
692 v1
= isl_val_cow(v1
);
696 isl_int_addmul_ui(v1
->n
, v1
->d
, v2
);
701 /* Subtract "v2" from "v1".
703 __isl_give isl_val
*isl_val_sub(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
707 if (isl_val_is_nan(v1
)) {
711 if (isl_val_is_nan(v2
)) {
715 if ((isl_val_is_infty(v1
) && isl_val_is_infty(v2
)) ||
716 (isl_val_is_neginfty(v1
) && isl_val_is_neginfty(v2
))) {
718 return isl_val_set_nan(v1
);
720 if (isl_val_is_infty(v1
) || isl_val_is_neginfty(v1
)) {
724 if (isl_val_is_infty(v2
) || isl_val_is_neginfty(v2
)) {
726 return isl_val_neg(v2
);
728 if (isl_val_is_zero(v2
)) {
732 if (isl_val_is_zero(v1
)) {
734 return isl_val_neg(v2
);
737 v1
= isl_val_cow(v1
);
740 if (isl_val_is_int(v1
) && isl_val_is_int(v2
))
741 isl_int_sub(v1
->n
, v1
->n
, v2
->n
);
743 if (isl_int_eq(v1
->d
, v2
->d
))
744 isl_int_sub(v1
->n
, v1
->n
, v2
->n
);
746 isl_int_mul(v1
->n
, v1
->n
, v2
->d
);
747 isl_int_submul(v1
->n
, v2
->n
, v1
->d
);
748 isl_int_mul(v1
->d
, v1
->d
, v2
->d
);
750 v1
= isl_val_normalize(v1
);
760 /* Subtract "v2" from "v1".
762 __isl_give isl_val
*isl_val_sub_ui(__isl_take isl_val
*v1
, unsigned long v2
)
766 if (!isl_val_is_rat(v1
))
770 v1
= isl_val_cow(v1
);
774 isl_int_submul_ui(v1
->n
, v1
->d
, v2
);
779 /* Return the product of "v1" and "v2".
781 __isl_give isl_val
*isl_val_mul(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
785 if (isl_val_is_nan(v1
)) {
789 if (isl_val_is_nan(v2
)) {
793 if ((!isl_val_is_rat(v1
) && isl_val_is_zero(v2
)) ||
794 (isl_val_is_zero(v1
) && !isl_val_is_rat(v2
))) {
796 return isl_val_set_nan(v1
);
798 if (isl_val_is_zero(v1
)) {
802 if (isl_val_is_zero(v2
)) {
806 if (isl_val_is_infty(v1
) || isl_val_is_neginfty(v1
)) {
807 if (isl_val_is_neg(v2
))
808 v1
= isl_val_neg(v1
);
812 if (isl_val_is_infty(v2
) || isl_val_is_neginfty(v2
)) {
813 if (isl_val_is_neg(v1
))
814 v2
= isl_val_neg(v2
);
819 v1
= isl_val_cow(v1
);
822 if (isl_val_is_int(v1
) && isl_val_is_int(v2
))
823 isl_int_mul(v1
->n
, v1
->n
, v2
->n
);
825 isl_int_mul(v1
->n
, v1
->n
, v2
->n
);
826 isl_int_mul(v1
->d
, v1
->d
, v2
->d
);
827 v1
= isl_val_normalize(v1
);
837 /* Return the product of "v1" and "v2".
839 * This is a private copy of isl_val_mul for use in the generic
840 * isl_multi_*_scale_val instantiated for isl_val.
842 __isl_give isl_val
*isl_val_scale_val(__isl_take isl_val
*v1
,
843 __isl_take isl_val
*v2
)
845 return isl_val_mul(v1
, v2
);
848 /* Return the product of "v1" and "v2".
850 __isl_give isl_val
*isl_val_mul_ui(__isl_take isl_val
*v1
, unsigned long v2
)
854 if (isl_val_is_nan(v1
))
856 if (!isl_val_is_rat(v1
)) {
858 v1
= isl_val_set_nan(v1
);
863 v1
= isl_val_cow(v1
);
867 isl_int_mul_ui(v1
->n
, v1
->n
, v2
);
869 return isl_val_normalize(v1
);
872 /* Divide "v1" by "v2".
874 __isl_give isl_val
*isl_val_div(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
878 if (isl_val_is_nan(v1
)) {
882 if (isl_val_is_nan(v2
)) {
886 if (isl_val_is_zero(v2
) ||
887 (!isl_val_is_rat(v1
) && !isl_val_is_rat(v2
))) {
889 return isl_val_set_nan(v1
);
891 if (isl_val_is_zero(v1
)) {
895 if (isl_val_is_infty(v1
) || isl_val_is_neginfty(v1
)) {
896 if (isl_val_is_neg(v2
))
897 v1
= isl_val_neg(v1
);
901 if (isl_val_is_infty(v2
) || isl_val_is_neginfty(v2
)) {
903 return isl_val_set_zero(v1
);
906 v1
= isl_val_cow(v1
);
909 if (isl_val_is_int(v2
)) {
910 isl_int_mul(v1
->d
, v1
->d
, v2
->n
);
911 v1
= isl_val_normalize(v1
);
913 isl_int_mul(v1
->d
, v1
->d
, v2
->n
);
914 isl_int_mul(v1
->n
, v1
->n
, v2
->d
);
915 v1
= isl_val_normalize(v1
);
925 /* Divide "v1" by "v2".
927 __isl_give isl_val
*isl_val_div_ui(__isl_take isl_val
*v1
, unsigned long v2
)
931 if (isl_val_is_nan(v1
))
934 return isl_val_set_nan(v1
);
937 if (isl_val_is_zero(v1
))
939 if (isl_val_is_infty(v1
) || isl_val_is_neginfty(v1
))
941 v1
= isl_val_cow(v1
);
945 isl_int_mul_ui(v1
->d
, v1
->d
, v2
);
947 return isl_val_normalize(v1
);
950 /* Divide "v1" by "v2".
952 * This is a private copy of isl_val_div for use in the generic
953 * isl_multi_*_scale_down_val instantiated for isl_val.
955 __isl_give isl_val
*isl_val_scale_down_val(__isl_take isl_val
*v1
,
956 __isl_take isl_val
*v2
)
958 return isl_val_div(v1
, v2
);
961 /* Given two integer values "v1" and "v2", check if "v1" is divisible by "v2".
963 isl_bool
isl_val_is_divisible_by(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
966 return isl_bool_error
;
968 if (!isl_val_is_int(v1
) || !isl_val_is_int(v2
))
969 isl_die(isl_val_get_ctx(v1
), isl_error_invalid
,
970 "expecting two integers", return isl_bool_error
);
972 return isl_bool_ok(isl_int_is_divisible_by(v1
->n
, v2
->n
));
975 /* Given two integer values "v1" and "v2", return the residue of "v1"
978 __isl_give isl_val
*isl_val_mod(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
982 if (!isl_val_is_int(v1
) || !isl_val_is_int(v2
))
983 isl_die(isl_val_get_ctx(v1
), isl_error_invalid
,
984 "expecting two integers", goto error
);
985 if (isl_val_is_nonneg(v1
) && isl_val_lt(v1
, v2
)) {
989 v1
= isl_val_cow(v1
);
992 isl_int_fdiv_r(v1
->n
, v1
->n
, v2
->n
);
1001 /* Given two integer values "v1" and "v2", return the residue of "v1"
1004 * This is a private copy of isl_val_mod for use in the generic
1005 * isl_multi_*_mod_multi_val instantiated for isl_val.
1007 __isl_give isl_val
*isl_val_mod_val(__isl_take isl_val
*v1
,
1008 __isl_take isl_val
*v2
)
1010 return isl_val_mod(v1
, v2
);
1013 /* Given two integer values, return their greatest common divisor.
1015 __isl_give isl_val
*isl_val_gcd(__isl_take isl_val
*v1
, __isl_take isl_val
*v2
)
1019 if (!isl_val_is_int(v1
) || !isl_val_is_int(v2
))
1020 isl_die(isl_val_get_ctx(v1
), isl_error_invalid
,
1021 "expecting two integers", goto error
);
1022 if (isl_val_eq(v1
, v2
)) {
1026 if (isl_val_is_one(v1
)) {
1030 if (isl_val_is_one(v2
)) {
1034 v1
= isl_val_cow(v1
);
1037 isl_int_gcd(v1
->n
, v1
->n
, v2
->n
);
1046 /* Compute x, y and g such that g = gcd(a,b) and a*x+b*y = g.
1048 static void isl_int_gcdext(isl_int
*g
, isl_int
*x
, isl_int
*y
,
1049 isl_int a
, isl_int b
)
1052 isl_int a_copy
, b_copy
;
1054 isl_int_init(a_copy
);
1055 isl_int_init(b_copy
);
1058 isl_int_set(a_copy
, a
);
1059 isl_int_set(b_copy
, b
);
1060 isl_int_abs(*g
, a_copy
);
1061 isl_int_abs(d
, b_copy
);
1062 isl_int_set_si(*x
, 1);
1063 isl_int_set_si(*y
, 0);
1064 while (isl_int_is_pos(d
)) {
1065 isl_int_fdiv_q(tmp
, *g
, d
);
1066 isl_int_submul(*x
, tmp
, *y
);
1067 isl_int_submul(*g
, tmp
, d
);
1068 isl_int_swap(*g
, d
);
1069 isl_int_swap(*x
, *y
);
1071 if (isl_int_is_zero(a_copy
))
1072 isl_int_set_si(*x
, 0);
1073 else if (isl_int_is_neg(a_copy
))
1074 isl_int_neg(*x
, *x
);
1075 if (isl_int_is_zero(b_copy
))
1076 isl_int_set_si(*y
, 0);
1078 isl_int_mul(tmp
, a_copy
, *x
);
1079 isl_int_sub(tmp
, *g
, tmp
);
1080 isl_int_divexact(*y
, tmp
, b_copy
);
1084 isl_int_clear(a_copy
);
1085 isl_int_clear(b_copy
);
1088 /* Given two integer values v1 and v2, return their greatest common divisor g,
1089 * as well as two integers x and y such that x * v1 + y * v2 = g.
1091 __isl_give isl_val
*isl_val_gcdext(__isl_take isl_val
*v1
,
1092 __isl_take isl_val
*v2
, __isl_give isl_val
**x
, __isl_give isl_val
**y
)
1095 isl_val
*a
= NULL
, *b
= NULL
;
1098 return isl_val_gcd(v1
, v2
);
1103 ctx
= isl_val_get_ctx(v1
);
1104 if (!isl_val_is_int(v1
) || !isl_val_is_int(v2
))
1105 isl_die(ctx
, isl_error_invalid
,
1106 "expecting two integers", goto error
);
1108 v1
= isl_val_cow(v1
);
1109 a
= isl_val_alloc(ctx
);
1110 b
= isl_val_alloc(ctx
);
1111 if (!v1
|| !a
|| !b
)
1113 isl_int_gcdext(&v1
->n
, &a
->n
, &b
->n
, v1
->n
, v2
->n
);
1115 isl_int_set_si(a
->d
, 1);
1120 isl_int_set_si(b
->d
, 1);
1138 /* Does "v" represent an integer value?
1140 isl_bool
isl_val_is_int(__isl_keep isl_val
*v
)
1143 return isl_bool_error
;
1145 return isl_bool_ok(isl_int_is_one(v
->d
));
1148 /* Does "v" represent a rational value?
1150 isl_bool
isl_val_is_rat(__isl_keep isl_val
*v
)
1153 return isl_bool_error
;
1155 return isl_bool_ok(!isl_int_is_zero(v
->d
));
1158 /* Does "v" represent NaN?
1160 isl_bool
isl_val_is_nan(__isl_keep isl_val
*v
)
1163 return isl_bool_error
;
1165 return isl_bool_ok(isl_int_is_zero(v
->n
) && isl_int_is_zero(v
->d
));
1168 /* Does "v" represent +infinity?
1170 isl_bool
isl_val_is_infty(__isl_keep isl_val
*v
)
1173 return isl_bool_error
;
1175 return isl_bool_ok(isl_int_is_pos(v
->n
) && isl_int_is_zero(v
->d
));
1178 /* Does "v" represent -infinity?
1180 isl_bool
isl_val_is_neginfty(__isl_keep isl_val
*v
)
1183 return isl_bool_error
;
1185 return isl_bool_ok(isl_int_is_neg(v
->n
) && isl_int_is_zero(v
->d
));
1188 /* Does "v" represent the integer zero?
1190 isl_bool
isl_val_is_zero(__isl_keep isl_val
*v
)
1193 return isl_bool_error
;
1195 return isl_bool_ok(isl_int_is_zero(v
->n
) && !isl_int_is_zero(v
->d
));
1198 /* Does "v" represent the integer one?
1200 isl_bool
isl_val_is_one(__isl_keep isl_val
*v
)
1203 return isl_bool_error
;
1205 if (isl_val_is_nan(v
))
1206 return isl_bool_false
;
1208 return isl_bool_ok(isl_int_eq(v
->n
, v
->d
));
1211 /* Does "v" represent the integer negative one?
1213 isl_bool
isl_val_is_negone(__isl_keep isl_val
*v
)
1216 return isl_bool_error
;
1218 return isl_bool_ok(isl_int_is_neg(v
->n
) && isl_int_abs_eq(v
->n
, v
->d
));
1221 /* Is "v" (strictly) positive?
1223 isl_bool
isl_val_is_pos(__isl_keep isl_val
*v
)
1226 return isl_bool_error
;
1228 return isl_bool_ok(isl_int_is_pos(v
->n
));
1231 /* Is "v" (strictly) negative?
1233 isl_bool
isl_val_is_neg(__isl_keep isl_val
*v
)
1236 return isl_bool_error
;
1238 return isl_bool_ok(isl_int_is_neg(v
->n
));
1241 /* Is "v" non-negative?
1243 isl_bool
isl_val_is_nonneg(__isl_keep isl_val
*v
)
1246 return isl_bool_error
;
1248 if (isl_val_is_nan(v
))
1249 return isl_bool_false
;
1251 return isl_bool_ok(isl_int_is_nonneg(v
->n
));
1254 /* Is "v" non-positive?
1256 isl_bool
isl_val_is_nonpos(__isl_keep isl_val
*v
)
1259 return isl_bool_error
;
1261 if (isl_val_is_nan(v
))
1262 return isl_bool_false
;
1264 return isl_bool_ok(isl_int_is_nonpos(v
->n
));
1267 /* Return the sign of "v".
1269 * The sign of NaN is undefined.
1271 int isl_val_sgn(__isl_keep isl_val
*v
)
1275 if (isl_val_is_zero(v
))
1277 if (isl_val_is_pos(v
))
1282 /* Is "v1" (strictly) less than "v2"?
1284 isl_bool
isl_val_lt(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1290 return isl_bool_error
;
1291 if (isl_val_is_int(v1
) && isl_val_is_int(v2
))
1292 return isl_bool_ok(isl_int_lt(v1
->n
, v2
->n
));
1293 if (isl_val_is_nan(v1
) || isl_val_is_nan(v2
))
1294 return isl_bool_false
;
1295 if (isl_val_eq(v1
, v2
))
1296 return isl_bool_false
;
1297 if (isl_val_is_infty(v2
))
1298 return isl_bool_true
;
1299 if (isl_val_is_infty(v1
))
1300 return isl_bool_false
;
1301 if (isl_val_is_neginfty(v1
))
1302 return isl_bool_true
;
1303 if (isl_val_is_neginfty(v2
))
1304 return isl_bool_false
;
1307 isl_int_mul(t
, v1
->n
, v2
->d
);
1308 isl_int_submul(t
, v2
->n
, v1
->d
);
1309 lt
= isl_bool_ok(isl_int_is_neg(t
));
1315 /* Is "v1" (strictly) greater than "v2"?
1317 isl_bool
isl_val_gt(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1319 return isl_val_lt(v2
, v1
);
1322 /* Is "v" (strictly) greater than "i"?
1324 isl_bool
isl_val_gt_si(__isl_keep isl_val
*v
, long i
)
1330 return isl_bool_error
;
1331 if (isl_val_is_int(v
))
1332 return isl_bool_ok(isl_int_cmp_si(v
->n
, i
) > 0);
1333 if (isl_val_is_nan(v
))
1334 return isl_bool_false
;
1335 if (isl_val_is_infty(v
))
1336 return isl_bool_true
;
1337 if (isl_val_is_neginfty(v
))
1338 return isl_bool_false
;
1340 vi
= isl_val_int_from_si(isl_val_get_ctx(v
), i
);
1341 res
= isl_bool_ok(isl_val_gt(v
, vi
));
1347 /* Is "v1" less than or equal to "v2"?
1349 isl_bool
isl_val_le(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1355 return isl_bool_error
;
1356 if (isl_val_is_int(v1
) && isl_val_is_int(v2
))
1357 return isl_bool_ok(isl_int_le(v1
->n
, v2
->n
));
1358 if (isl_val_is_nan(v1
) || isl_val_is_nan(v2
))
1359 return isl_bool_false
;
1360 if (isl_val_eq(v1
, v2
))
1361 return isl_bool_true
;
1362 if (isl_val_is_infty(v2
))
1363 return isl_bool_true
;
1364 if (isl_val_is_infty(v1
))
1365 return isl_bool_false
;
1366 if (isl_val_is_neginfty(v1
))
1367 return isl_bool_true
;
1368 if (isl_val_is_neginfty(v2
))
1369 return isl_bool_false
;
1372 isl_int_mul(t
, v1
->n
, v2
->d
);
1373 isl_int_submul(t
, v2
->n
, v1
->d
);
1374 le
= isl_bool_ok(isl_int_is_nonpos(t
));
1380 /* Is "v1" greater than or equal to "v2"?
1382 isl_bool
isl_val_ge(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1384 return isl_val_le(v2
, v1
);
1387 /* How does "v" compare to "i"?
1389 * Return 1 if v is greater, -1 if v is smaller and 0 if v is equal to i.
1391 * If v is NaN (or NULL), then the result is undefined.
1393 int isl_val_cmp_si(__isl_keep isl_val
*v
, long i
)
1400 if (isl_val_is_int(v
))
1401 return isl_int_cmp_si(v
->n
, i
);
1402 if (isl_val_is_nan(v
))
1404 if (isl_val_is_infty(v
))
1406 if (isl_val_is_neginfty(v
))
1410 isl_int_mul_si(t
, v
->d
, i
);
1411 isl_int_sub(t
, v
->n
, t
);
1412 cmp
= isl_int_sgn(t
);
1418 /* Is "v1" equal to "v2"?
1420 isl_bool
isl_val_eq(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1423 return isl_bool_error
;
1424 if (isl_val_is_nan(v1
) || isl_val_is_nan(v2
))
1425 return isl_bool_false
;
1427 return isl_bool_ok(isl_int_eq(v1
->n
, v2
->n
) &&
1428 isl_int_eq(v1
->d
, v2
->d
));
1431 /* Is "v1" equal to "v2" in absolute value?
1433 isl_bool
isl_val_abs_eq(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1436 return isl_bool_error
;
1437 if (isl_val_is_nan(v1
) || isl_val_is_nan(v2
))
1438 return isl_bool_false
;
1440 return isl_bool_ok(isl_int_abs_eq(v1
->n
, v2
->n
) &&
1441 isl_int_eq(v1
->d
, v2
->d
));
1444 /* Is "v1" different from "v2"?
1446 isl_bool
isl_val_ne(__isl_keep isl_val
*v1
, __isl_keep isl_val
*v2
)
1449 return isl_bool_error
;
1450 if (isl_val_is_nan(v1
) || isl_val_is_nan(v2
))
1451 return isl_bool_false
;
1453 return isl_bool_ok(isl_int_ne(v1
->n
, v2
->n
) ||
1454 isl_int_ne(v1
->d
, v2
->d
));
1457 /* Print a textual representation of "v" onto "p".
1459 __isl_give isl_printer
*isl_printer_print_val(__isl_take isl_printer
*p
,
1460 __isl_keep isl_val
*v
)
1465 return isl_printer_free(p
);
1467 neg
= isl_int_is_neg(v
->n
);
1469 p
= isl_printer_print_str(p
, "-");
1470 isl_int_neg(v
->n
, v
->n
);
1472 if (isl_int_is_zero(v
->d
)) {
1473 int sgn
= isl_int_sgn(v
->n
);
1474 p
= isl_printer_print_str(p
, sgn
< 0 ? "-infty" :
1475 sgn
== 0 ? "NaN" : "infty");
1477 p
= isl_printer_print_isl_int(p
, v
->n
);
1479 isl_int_neg(v
->n
, v
->n
);
1480 if (!isl_int_is_zero(v
->d
) && !isl_int_is_one(v
->d
)) {
1481 p
= isl_printer_print_str(p
, "/");
1482 p
= isl_printer_print_isl_int(p
, v
->d
);
1488 /* Is "val1" (obviously) equal to "val2"?
1490 * This is a private copy of isl_val_eq for use in the generic
1491 * isl_multi_*_plain_is_equal instantiated for isl_val.
1493 isl_bool
isl_val_plain_is_equal(__isl_keep isl_val
*val1
,
1494 __isl_keep isl_val
*val2
)
1496 return isl_val_eq(val1
, val2
);
1499 /* Does "v" have any non-zero coefficients
1500 * for any dimension in the given range?
1502 * This function is only meant to be used in the generic isl_multi_*
1503 * functions which have to deal with base objects that have an associated
1504 * space. Since an isl_val does not have any coefficients, this function
1505 * always returns isl_bool_false.
1507 isl_bool
isl_val_involves_dims(__isl_keep isl_val
*v
, enum isl_dim_type type
,
1508 unsigned first
, unsigned n
)
1511 return isl_bool_error
;
1513 return isl_bool_false
;
1516 /* Insert "n" dimensions of type "type" at position "first".
1518 * This function is only meant to be used in the generic isl_multi_*
1519 * functions which have to deal with base objects that have an associated
1520 * space. Since an isl_val does not have an associated space, this function
1521 * does not do anything.
1523 __isl_give isl_val
*isl_val_insert_dims(__isl_take isl_val
*v
,
1524 enum isl_dim_type type
, unsigned first
, unsigned n
)
1529 /* Change the name of the dimension of type "type" at position "pos" to "s".
1531 * This function is only meant to be used in the generic isl_multi_*
1532 * functions which have to deal with base objects that have an associated
1533 * space. Since an isl_val does not have an associated space, this function
1534 * does not do anything.
1536 __isl_give isl_val
*isl_val_set_dim_name(__isl_take isl_val
*v
,
1537 enum isl_dim_type type
, unsigned pos
, const char *s
)
1542 /* Return an isl_val that is zero on "ls".
1544 * This function is only meant to be used in the generic isl_multi_*
1545 * functions which have to deal with base objects that have an associated
1546 * space. Since an isl_val does not have an associated space, this function
1547 * simply returns a zero isl_val in the same context as "ls".
1549 __isl_give isl_val
*isl_val_zero_on_domain(__isl_take isl_local_space
*ls
)
1555 ctx
= isl_local_space_get_ctx(ls
);
1556 isl_local_space_free(ls
);
1557 return isl_val_zero(ctx
);
1560 #define isl_val_involves_nan isl_val_is_nan
1565 #include <isl_multi_no_domain_templ.c>
1566 #include <isl_multi_no_explicit_domain.c>
1567 #include <isl_multi_templ.c>
1568 #include <isl_multi_arith_templ.c>
1569 #include <isl_multi_dim_id_templ.c>
1570 #include <isl_multi_dims.c>
1571 #include <isl_multi_nan_templ.c>
1572 #include <isl_multi_product_templ.c>
1573 #include <isl_multi_splice_templ.c>
1574 #include <isl_multi_tuple_id_templ.c>
1575 #include <isl_multi_zero_templ.c>
1577 /* Apply "fn" to each of the elements of "mv" with as second argument "v".
1579 static __isl_give isl_multi_val
*isl_multi_val_fn_val(
1580 __isl_take isl_multi_val
*mv
,
1581 __isl_give isl_val
*(*fn
)(__isl_take isl_val
*v1
,
1582 __isl_take isl_val
*v2
),
1583 __isl_take isl_val
*v
)
1587 mv
= isl_multi_val_cow(mv
);
1591 for (i
= 0; i
< mv
->n
; ++i
) {
1592 mv
->u
.p
[i
] = fn(mv
->u
.p
[i
], isl_val_copy(v
));
1601 isl_multi_val_free(mv
);
1605 /* Add "v" to each of the elements of "mv".
1607 __isl_give isl_multi_val
*isl_multi_val_add_val(__isl_take isl_multi_val
*mv
,
1608 __isl_take isl_val
*v
)
1611 return isl_multi_val_free(mv
);
1612 if (isl_val_is_zero(v
)) {
1616 return isl_multi_val_fn_val(mv
, &isl_val_add
, v
);
1619 /* Reduce the elements of "mv" modulo "v".
1621 __isl_give isl_multi_val
*isl_multi_val_mod_val(__isl_take isl_multi_val
*mv
,
1622 __isl_take isl_val
*v
)
1624 return isl_multi_val_fn_val(mv
, &isl_val_mod
, v
);