isl_poly_is_{neg,}infty: return isl_bool
[isl.git] / isl_int_sioimath.h
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1 /*
2 * Copyright 2015 INRIA Paris-Rocquencourt
4 * Use of this software is governed by the MIT license
6 * Written by Michael Kruse, INRIA Paris-Rocquencourt,
7 * Domaine de Voluceau, Rocquenqourt, B.P. 105,
8 * 78153 Le Chesnay Cedex France
9 */
10 #ifndef ISL_INT_SIOIMATH_H
11 #define ISL_INT_SIOIMATH_H
13 #include <inttypes.h>
14 #include <limits.h>
15 #include <stdint.h>
16 #include <stdlib.h>
18 #include <isl_imath.h>
19 #include <isl/hash.h>
21 #define ARRAY_SIZE(array) (sizeof(array)/sizeof(*array))
23 /* Visual Studio before VS2015 does not support the inline keyword when
24 * compiling in C mode because it was introduced in C99 which it does not
25 * officially support. Instead, it has a proprietary extension using __inline.
27 #if defined(_MSC_VER) && (_MSC_VER < 1900)
28 #define inline __inline
29 #endif
31 /* The type to represent integers optimized for small values. It is either a
32 * pointer to an mp_int ( = mpz_t*; big representation) or an int32_t (small
33 * represenation) with a discriminator at the least significant bit. In big
34 * representation it will be always zero because of heap alignment. It is set
35 * to 1 for small representation and use the 32 most significant bits for the
36 * int32_t.
38 * Structure on 64 bit machines, with 8-byte aligment (3 bits):
40 * Big representation:
41 * MSB LSB
42 * |------------------------------------------------------------000
43 * | mpz_t* |
44 * | != NULL |
46 * Small representation:
47 * MSB 32 LSB
48 * |------------------------------|00000000000000000000000000000001
49 * | int32_t |
50 * | 2147483647 ... -2147483647 |
51 * ^
52 * |
53 * discriminator bit
55 * On 32 bit machines isl_sioimath type is blown up to 8 bytes, i.e.
56 * isl_sioimath is guaranteed to be at least 8 bytes. This is to ensure the
57 * int32_t can be hidden in that type without data loss. In the future we might
58 * optimize this to use 31 hidden bits in a 32 bit pointer. We may also use 63
59 * bits on 64 bit machines, but this comes with the cost of additional overflow
60 * checks because there is no standardized 128 bit integer we could expand to.
62 * We use native integer types and avoid union structures to avoid assumptions
63 * on the machine's endianness.
65 * This implementation makes the following assumptions:
66 * - long can represent any int32_t
67 * - mp_small is signed long
68 * - mp_usmall is unsigned long
69 * - adresses returned by malloc are aligned to 2-byte boundaries (leastmost
70 * bit is zero)
72 #if UINT64_MAX > UINTPTR_MAX
73 typedef uint64_t isl_sioimath;
74 #else
75 typedef uintptr_t isl_sioimath;
76 #endif
78 /* The negation of the smallest possible number in int32_t, INT32_MIN
79 * (0x80000000u, -2147483648), cannot be represented in an int32_t, therefore
80 * every operation that may produce this value needs to special-case it.
81 * The operations are:
82 * abs(INT32_MIN)
83 * -INT32_MIN (negation)
84 * -1 * INT32_MIN (multiplication)
85 * INT32_MIN/-1 (any division: divexact, fdiv, cdiv, tdiv)
86 * To avoid checking these cases, we exclude INT32_MIN from small
87 * representation.
89 #define ISL_SIOIMATH_SMALL_MIN (-INT32_MAX)
91 /* Largest possible number in small representation */
92 #define ISL_SIOIMATH_SMALL_MAX INT32_MAX
94 /* Used for function parameters the function modifies. */
95 typedef isl_sioimath *isl_sioimath_ptr;
97 /* Used for function parameters that are read-only. */
98 typedef isl_sioimath isl_sioimath_src;
100 /* Return whether the argument is stored in small representation.
102 inline int isl_sioimath_is_small(isl_sioimath val)
104 return val & 0x00000001;
107 /* Return whether the argument is stored in big representation.
109 inline int isl_sioimath_is_big(isl_sioimath val)
111 return !isl_sioimath_is_small(val);
114 /* Get the number of an isl_int in small representation. Result is undefined if
115 * val is not stored in that format.
117 inline int32_t isl_sioimath_get_small(isl_sioimath val)
119 return val >> 32;
122 /* Get the number of an in isl_int in big representation. Result is undefined if
123 * val is not stored in that format.
125 inline mp_int isl_sioimath_get_big(isl_sioimath val)
127 return (mp_int)(uintptr_t) val;
130 /* Return 1 if val is stored in small representation and store its value to
131 * small. We rely on the compiler to optimize the isl_sioimath_get_small such
132 * that the shift is moved into the branch that executes in case of small
133 * representation. If there is no such branch, then a single shift is still
134 * cheaper than introducing branching code.
136 inline int isl_sioimath_decode_small(isl_sioimath val, int32_t *small)
138 *small = isl_sioimath_get_small(val);
139 return isl_sioimath_is_small(val);
142 /* Return 1 if val is stored in big representation and store its value to big.
144 inline int isl_sioimath_decode_big(isl_sioimath val, mp_int *big)
146 *big = isl_sioimath_get_big(val);
147 return isl_sioimath_is_big(val);
150 /* Encode a small representation into an isl_int.
152 inline isl_sioimath isl_sioimath_encode_small(int32_t val)
154 return ((isl_sioimath) val) << 32 | 0x00000001;
157 /* Encode a big representation.
159 inline isl_sioimath isl_sioimath_encode_big(mp_int val)
161 return (isl_sioimath)(uintptr_t) val;
164 /* A common situation is to call an IMath function with at least one argument
165 * that is currently in small representation or an integer parameter, i.e. a big
166 * representation of the same number is required. Promoting the original
167 * argument comes with multiple problems, such as modifying a read-only
168 * argument, the responsibility of deallocation and the execution cost. Instead,
169 * we make a copy by 'faking' the IMath internal structure.
171 * We reserve the maximum number of required digits on the stack to avoid heap
172 * allocations.
174 * mp_digit can be uint32_t or uint16_t. This code must work for little and big
175 * endian digits. The structure for an uint64_t argument and 32-bit mp_digits is
176 * sketched below.
178 * |----------------------------|
179 * uint64_t
181 * |-------------||-------------|
182 * mp_digit mp_digit
183 * digits[1] digits[0]
184 * Most sig digit Least sig digit
186 typedef struct {
187 mpz_t big;
188 mp_digit digits[(sizeof(uintmax_t) + sizeof(mp_digit) - 1) /
189 sizeof(mp_digit)];
190 } isl_sioimath_scratchspace_t;
192 /* Convert a native integer to IMath's digit representation. A native integer
193 * might be big- or little endian, but IMath always stores the least significant
194 * digit in the lowest array indices. memcpy therefore is not possible.
196 * We also have to consider that long and mp_digit can be of different sizes,
197 * depending on the compiler (LP64, LLP64) and IMath's USE_64BIT_WORDS. This
198 * macro should work for all of them.
200 * "used" is set to the number of written digits. It must be minimal (IMath
201 * checks zeroness using the used field), but always at least one. Also note
202 * that the result of num>>(sizeof(num)*CHAR_BIT) is undefined.
204 #define ISL_SIOIMATH_TO_DIGITS(num, digits, used) \
205 do { \
206 int i = 0; \
207 do { \
208 (digits)[i] = \
209 ((num) >> (sizeof(mp_digit) * CHAR_BIT * i)); \
210 i += 1; \
211 if (i >= (sizeof(num) + sizeof(mp_digit) - 1) / \
212 sizeof(mp_digit)) \
213 break; \
214 if (((num) >> (sizeof(mp_digit) * CHAR_BIT * i)) == 0) \
215 break; \
216 } while (1); \
217 (used) = i; \
218 } while (0)
220 inline void isl_siomath_uint32_to_digits(uint32_t num, mp_digit *digits,
221 mp_size *used)
223 ISL_SIOIMATH_TO_DIGITS(num, digits, *used);
226 inline void isl_siomath_ulong_to_digits(unsigned long num, mp_digit *digits,
227 mp_size *used)
229 ISL_SIOIMATH_TO_DIGITS(num, digits, *used);
232 inline void isl_siomath_uint64_to_digits(uint64_t num, mp_digit *digits,
233 mp_size *used)
235 ISL_SIOIMATH_TO_DIGITS(num, digits, *used);
238 /* Get the IMath representation of an isl_int without modifying it.
239 * For the case it is not in big representation yet, pass some scratch space we
240 * can use to store the big representation in.
241 * In order to avoid requiring init and free on the scratch space, we directly
242 * modify the internal representation.
244 * The name derives from its indented use: getting the big representation of an
245 * input (src) argument.
247 inline mp_int isl_sioimath_bigarg_src(isl_sioimath arg,
248 isl_sioimath_scratchspace_t *scratch)
250 mp_int big;
251 int32_t small;
252 uint32_t num;
254 if (isl_sioimath_decode_big(arg, &big))
255 return big;
257 small = isl_sioimath_get_small(arg);
258 scratch->big.digits = scratch->digits;
259 scratch->big.alloc = ARRAY_SIZE(scratch->digits);
260 if (small >= 0) {
261 scratch->big.sign = MP_ZPOS;
262 num = small;
263 } else {
264 scratch->big.sign = MP_NEG;
265 num = -small;
268 isl_siomath_uint32_to_digits(num, scratch->digits, &scratch->big.used);
269 return &scratch->big;
272 /* Create a temporary IMath mp_int for a signed long.
274 inline mp_int isl_sioimath_siarg_src(signed long arg,
275 isl_sioimath_scratchspace_t *scratch)
277 unsigned long num;
279 scratch->big.digits = scratch->digits;
280 scratch->big.alloc = ARRAY_SIZE(scratch->digits);
281 if (arg >= 0) {
282 scratch->big.sign = MP_ZPOS;
283 num = arg;
284 } else {
285 scratch->big.sign = MP_NEG;
286 num = (arg == LONG_MIN) ? ((unsigned long) LONG_MAX) + 1 : -arg;
289 isl_siomath_ulong_to_digits(num, scratch->digits, &scratch->big.used);
290 return &scratch->big;
293 /* Create a temporary IMath mp_int for an int64_t.
295 inline mp_int isl_sioimath_si64arg_src(int64_t arg,
296 isl_sioimath_scratchspace_t *scratch)
298 uint64_t num;
300 scratch->big.digits = scratch->digits;
301 scratch->big.alloc = ARRAY_SIZE(scratch->digits);
302 if (arg >= 0) {
303 scratch->big.sign = MP_ZPOS;
304 num = arg;
305 } else {
306 scratch->big.sign = MP_NEG;
307 num = (arg == INT64_MIN) ? ((uint64_t) INT64_MAX) + 1 : -arg;
310 isl_siomath_uint64_to_digits(num, scratch->digits, &scratch->big.used);
311 return &scratch->big;
314 /* Create a temporary IMath mp_int for an unsigned long.
316 inline mp_int isl_sioimath_uiarg_src(unsigned long arg,
317 isl_sioimath_scratchspace_t *scratch)
319 scratch->big.digits = scratch->digits;
320 scratch->big.alloc = ARRAY_SIZE(scratch->digits);
321 scratch->big.sign = MP_ZPOS;
323 isl_siomath_ulong_to_digits(arg, scratch->digits, &scratch->big.used);
324 return &scratch->big;
327 /* Ensure big representation. Does not preserve the current number.
328 * Callers may use the fact that the value _is_ preserved if the presentation
329 * was big before.
331 inline mp_int isl_sioimath_reinit_big(isl_sioimath_ptr ptr)
333 if (isl_sioimath_is_small(*ptr))
334 *ptr = isl_sioimath_encode_big(mp_int_alloc());
335 return isl_sioimath_get_big(*ptr);
338 /* Set ptr to a number in small representation.
340 inline void isl_sioimath_set_small(isl_sioimath_ptr ptr, int32_t val)
342 if (isl_sioimath_is_big(*ptr))
343 mp_int_free(isl_sioimath_get_big(*ptr));
344 *ptr = isl_sioimath_encode_small(val);
347 /* Set ptr to val, choosing small representation if possible.
349 inline void isl_sioimath_set_int32(isl_sioimath_ptr ptr, int32_t val)
351 if (ISL_SIOIMATH_SMALL_MIN <= val && val <= ISL_SIOIMATH_SMALL_MAX) {
352 isl_sioimath_set_small(ptr, val);
353 return;
356 mp_int_init_value(isl_sioimath_reinit_big(ptr), val);
359 /* Assign an int64_t number using small representation if possible.
361 inline void isl_sioimath_set_int64(isl_sioimath_ptr ptr, int64_t val)
363 if (ISL_SIOIMATH_SMALL_MIN <= val && val <= ISL_SIOIMATH_SMALL_MAX) {
364 isl_sioimath_set_small(ptr, val);
365 return;
368 isl_sioimath_scratchspace_t scratch;
369 mp_int_copy(isl_sioimath_si64arg_src(val, &scratch),
370 isl_sioimath_reinit_big(ptr));
373 /* Convert to big representation while preserving the current number.
375 inline void isl_sioimath_promote(isl_sioimath_ptr dst)
377 int32_t small;
379 if (isl_sioimath_is_big(*dst))
380 return;
382 small = isl_sioimath_get_small(*dst);
383 mp_int_set_value(isl_sioimath_reinit_big(dst), small);
386 /* Convert to small representation while preserving the current number. Does
387 * nothing if dst doesn't fit small representation.
389 inline void isl_sioimath_try_demote(isl_sioimath_ptr dst)
391 mp_small small;
393 if (isl_sioimath_is_small(*dst))
394 return;
396 if (mp_int_to_int(isl_sioimath_get_big(*dst), &small) != MP_OK)
397 return;
399 if (ISL_SIOIMATH_SMALL_MIN <= small && small <= ISL_SIOIMATH_SMALL_MAX)
400 isl_sioimath_set_small(dst, small);
403 /* Initialize an isl_int. The implicit value is 0 in small representation.
405 inline void isl_sioimath_init(isl_sioimath_ptr dst)
407 *dst = isl_sioimath_encode_small(0);
410 /* Free the resources taken by an isl_int.
412 inline void isl_sioimath_clear(isl_sioimath_ptr dst)
414 if (isl_sioimath_is_small(*dst))
415 return;
417 mp_int_free(isl_sioimath_get_big(*dst));
420 /* Copy the value of one isl_int to another.
422 inline void isl_sioimath_set(isl_sioimath_ptr dst, isl_sioimath_src val)
424 if (isl_sioimath_is_small(val)) {
425 isl_sioimath_set_small(dst, isl_sioimath_get_small(val));
426 return;
429 mp_int_copy(isl_sioimath_get_big(val), isl_sioimath_reinit_big(dst));
432 /* Store a signed long into an isl_int.
434 inline void isl_sioimath_set_si(isl_sioimath_ptr dst, long val)
436 if (ISL_SIOIMATH_SMALL_MIN <= val && val <= ISL_SIOIMATH_SMALL_MAX) {
437 isl_sioimath_set_small(dst, val);
438 return;
441 mp_int_set_value(isl_sioimath_reinit_big(dst), val);
444 /* Store an unsigned long into an isl_int.
446 inline void isl_sioimath_set_ui(isl_sioimath_ptr dst, unsigned long val)
448 if (val <= ISL_SIOIMATH_SMALL_MAX) {
449 isl_sioimath_set_small(dst, val);
450 return;
453 mp_int_set_uvalue(isl_sioimath_reinit_big(dst), val);
456 /* Return whether a number can be represented by a signed long.
458 inline int isl_sioimath_fits_slong(isl_sioimath_src val)
460 mp_small dummy;
462 if (isl_sioimath_is_small(val))
463 return 1;
465 return mp_int_to_int(isl_sioimath_get_big(val), &dummy) == MP_OK;
468 /* Return a number as signed long. Result is undefined if the number cannot be
469 * represented as long.
471 inline long isl_sioimath_get_si(isl_sioimath_src val)
473 mp_small result;
475 if (isl_sioimath_is_small(val))
476 return isl_sioimath_get_small(val);
478 mp_int_to_int(isl_sioimath_get_big(val), &result);
479 return result;
482 /* Return whether a number can be represented as unsigned long.
484 inline int isl_sioimath_fits_ulong(isl_sioimath_src val)
486 mp_usmall dummy;
488 if (isl_sioimath_is_small(val))
489 return isl_sioimath_get_small(val) >= 0;
491 return mp_int_to_uint(isl_sioimath_get_big(val), &dummy) == MP_OK;
494 /* Return a number as unsigned long. Result is undefined if the number cannot be
495 * represented as unsigned long.
497 inline unsigned long isl_sioimath_get_ui(isl_sioimath_src val)
499 mp_usmall result;
501 if (isl_sioimath_is_small(val))
502 return isl_sioimath_get_small(val);
504 mp_int_to_uint(isl_sioimath_get_big(val), &result);
505 return result;
508 /* Return a number as floating point value.
510 inline double isl_sioimath_get_d(isl_sioimath_src val)
512 mp_int big;
513 double result = 0;
514 int i;
516 if (isl_sioimath_is_small(val))
517 return isl_sioimath_get_small(val);
519 big = isl_sioimath_get_big(val);
520 for (i = 0; i < big->used; ++i)
521 result = result * (double) ((uintmax_t) MP_DIGIT_MAX + 1) +
522 (double) big->digits[i];
524 if (big->sign == MP_NEG)
525 result = -result;
527 return result;
530 /* Format a number as decimal string.
532 * The largest possible string from small representation is 12 characters
533 * ("-2147483647").
535 inline char *isl_sioimath_get_str(isl_sioimath_src val)
537 char *result;
539 if (isl_sioimath_is_small(val)) {
540 result = malloc(12);
541 snprintf(result, 12, "%" PRIi32, isl_sioimath_get_small(val));
542 return result;
545 return impz_get_str(NULL, 10, isl_sioimath_get_big(val));
548 /* Return the absolute value.
550 inline void isl_sioimath_abs(isl_sioimath_ptr dst, isl_sioimath_src arg)
552 if (isl_sioimath_is_small(arg)) {
553 isl_sioimath_set_small(dst, labs(isl_sioimath_get_small(arg)));
554 return;
557 mp_int_abs(isl_sioimath_get_big(arg), isl_sioimath_reinit_big(dst));
560 /* Return the negation of a number.
562 inline void isl_sioimath_neg(isl_sioimath_ptr dst, isl_sioimath_src arg)
564 if (isl_sioimath_is_small(arg)) {
565 isl_sioimath_set_small(dst, -isl_sioimath_get_small(arg));
566 return;
569 mp_int_neg(isl_sioimath_get_big(arg), isl_sioimath_reinit_big(dst));
572 /* Swap two isl_ints.
574 * isl_sioimath can be copied bytewise; nothing depends on its address. It can
575 * also be stored in a CPU register.
577 inline void isl_sioimath_swap(isl_sioimath_ptr lhs, isl_sioimath_ptr rhs)
579 isl_sioimath tmp = *lhs;
580 *lhs = *rhs;
581 *rhs = tmp;
584 /* Add an unsigned long to the number.
586 * On LP64 unsigned long exceeds the range of an int64_t, therefore we check in
587 * advance whether small representation possibly overflows.
589 inline void isl_sioimath_add_ui(isl_sioimath_ptr dst, isl_sioimath lhs,
590 unsigned long rhs)
592 int32_t smalllhs;
593 isl_sioimath_scratchspace_t lhsscratch;
595 if (isl_sioimath_decode_small(lhs, &smalllhs) &&
596 (rhs <= (uint64_t) INT64_MAX - (uint64_t) ISL_SIOIMATH_SMALL_MAX)) {
597 isl_sioimath_set_int64(dst, (int64_t) smalllhs + rhs);
598 return;
601 impz_add_ui(isl_sioimath_reinit_big(dst),
602 isl_sioimath_bigarg_src(lhs, &lhsscratch), rhs);
603 isl_sioimath_try_demote(dst);
606 /* Subtract an unsigned long.
608 * On LP64 unsigned long exceeds the range of an int64_t. If
609 * ISL_SIOIMATH_SMALL_MIN-rhs>=INT64_MIN we can do the calculation using int64_t
610 * without risking an overflow.
612 inline void isl_sioimath_sub_ui(isl_sioimath_ptr dst, isl_sioimath lhs,
613 unsigned long rhs)
615 int32_t smalllhs;
616 isl_sioimath_scratchspace_t lhsscratch;
618 if (isl_sioimath_decode_small(lhs, &smalllhs) &&
619 (rhs < (uint64_t) INT64_MIN - (uint64_t) ISL_SIOIMATH_SMALL_MIN)) {
620 isl_sioimath_set_int64(dst, (int64_t) smalllhs - rhs);
621 return;
624 impz_sub_ui(isl_sioimath_reinit_big(dst),
625 isl_sioimath_bigarg_src(lhs, &lhsscratch), rhs);
626 isl_sioimath_try_demote(dst);
629 /* Sum of two isl_ints.
631 inline void isl_sioimath_add(isl_sioimath_ptr dst, isl_sioimath_src lhs,
632 isl_sioimath_src rhs)
634 isl_sioimath_scratchspace_t scratchlhs, scratchrhs;
635 int32_t smalllhs, smallrhs;
637 if (isl_sioimath_decode_small(lhs, &smalllhs) &&
638 isl_sioimath_decode_small(rhs, &smallrhs)) {
639 isl_sioimath_set_int64(
640 dst, (int64_t) smalllhs + (int64_t) smallrhs);
641 return;
644 mp_int_add(isl_sioimath_bigarg_src(lhs, &scratchlhs),
645 isl_sioimath_bigarg_src(rhs, &scratchrhs),
646 isl_sioimath_reinit_big(dst));
647 isl_sioimath_try_demote(dst);
650 /* Subtract two isl_ints.
652 inline void isl_sioimath_sub(isl_sioimath_ptr dst, isl_sioimath_src lhs,
653 isl_sioimath_src rhs)
655 isl_sioimath_scratchspace_t scratchlhs, scratchrhs;
656 int32_t smalllhs, smallrhs;
658 if (isl_sioimath_decode_small(lhs, &smalllhs) &&
659 isl_sioimath_decode_small(rhs, &smallrhs)) {
660 isl_sioimath_set_int64(
661 dst, (int64_t) smalllhs - (int64_t) smallrhs);
662 return;
665 mp_int_sub(isl_sioimath_bigarg_src(lhs, &scratchlhs),
666 isl_sioimath_bigarg_src(rhs, &scratchrhs),
667 isl_sioimath_reinit_big(dst));
668 isl_sioimath_try_demote(dst);
671 /* Multiply two isl_ints.
673 inline void isl_sioimath_mul(isl_sioimath_ptr dst, isl_sioimath_src lhs,
674 isl_sioimath_src rhs)
676 isl_sioimath_scratchspace_t scratchlhs, scratchrhs;
677 int32_t smalllhs, smallrhs;
679 if (isl_sioimath_decode_small(lhs, &smalllhs) &&
680 isl_sioimath_decode_small(rhs, &smallrhs)) {
681 isl_sioimath_set_int64(
682 dst, (int64_t) smalllhs * (int64_t) smallrhs);
683 return;
686 mp_int_mul(isl_sioimath_bigarg_src(lhs, &scratchlhs),
687 isl_sioimath_bigarg_src(rhs, &scratchrhs),
688 isl_sioimath_reinit_big(dst));
689 isl_sioimath_try_demote(dst);
692 /* Shift lhs by rhs bits to the left and store the result in dst. Effectively,
693 * this operation computes 'lhs * 2^rhs'.
695 inline void isl_sioimath_mul_2exp(isl_sioimath_ptr dst, isl_sioimath lhs,
696 unsigned long rhs)
698 isl_sioimath_scratchspace_t scratchlhs;
699 int32_t smalllhs;
701 if (isl_sioimath_decode_small(lhs, &smalllhs) && (rhs <= 32ul)) {
702 isl_sioimath_set_int64(dst, ((int64_t) smalllhs) << rhs);
703 return;
706 mp_int_mul_pow2(isl_sioimath_bigarg_src(lhs, &scratchlhs), rhs,
707 isl_sioimath_reinit_big(dst));
710 /* Multiply an isl_int and a signed long.
712 inline void isl_sioimath_mul_si(isl_sioimath_ptr dst, isl_sioimath lhs,
713 signed long rhs)
715 isl_sioimath_scratchspace_t scratchlhs, scratchrhs;
716 int32_t smalllhs;
718 if (isl_sioimath_decode_small(lhs, &smalllhs) && (rhs > LONG_MIN) &&
719 (labs(rhs) <= UINT32_MAX)) {
720 isl_sioimath_set_int64(dst, (int64_t) smalllhs * (int64_t) rhs);
721 return;
724 mp_int_mul(isl_sioimath_bigarg_src(lhs, &scratchlhs),
725 isl_sioimath_siarg_src(rhs, &scratchrhs),
726 isl_sioimath_reinit_big(dst));
727 isl_sioimath_try_demote(dst);
730 /* Multiply an isl_int and an unsigned long.
732 inline void isl_sioimath_mul_ui(isl_sioimath_ptr dst, isl_sioimath lhs,
733 unsigned long rhs)
735 isl_sioimath_scratchspace_t scratchlhs, scratchrhs;
736 int32_t smalllhs;
738 if (isl_sioimath_decode_small(lhs, &smalllhs) && (rhs <= UINT32_MAX)) {
739 isl_sioimath_set_int64(dst, (int64_t) smalllhs * (int64_t) rhs);
740 return;
743 mp_int_mul(isl_sioimath_bigarg_src(lhs, &scratchlhs),
744 isl_sioimath_uiarg_src(rhs, &scratchrhs),
745 isl_sioimath_reinit_big(dst));
746 isl_sioimath_try_demote(dst);
749 /* Compute the power of an isl_int to an unsigned long.
750 * Always let IMath do it; the result is unlikely to be small except in some
751 * special cases.
752 * Note: 0^0 == 1
754 inline void isl_sioimath_pow_ui(isl_sioimath_ptr dst, isl_sioimath_src lhs,
755 unsigned long rhs)
757 isl_sioimath_scratchspace_t scratchlhs, scratchrhs;
758 int32_t smalllhs;
760 switch (rhs) {
761 case 0:
762 isl_sioimath_set_small(dst, 1);
763 return;
764 case 1:
765 isl_sioimath_set(dst, lhs);
766 return;
767 case 2:
768 isl_sioimath_mul(dst, lhs, lhs);
769 return;
772 if (isl_sioimath_decode_small(lhs, &smalllhs)) {
773 switch (smalllhs) {
774 case 0:
775 isl_sioimath_set_small(dst, 0);
776 return;
777 case 1:
778 isl_sioimath_set_small(dst, 1);
779 return;
780 case 2:
781 isl_sioimath_set_small(dst, 1);
782 isl_sioimath_mul_2exp(dst, *dst, rhs);
783 return;
784 default:
785 if ((MP_SMALL_MIN <= rhs) && (rhs <= MP_SMALL_MAX)) {
786 mp_int_expt_value(smalllhs, rhs,
787 isl_sioimath_reinit_big(dst));
788 isl_sioimath_try_demote(dst);
789 return;
794 mp_int_expt_full(isl_sioimath_bigarg_src(lhs, &scratchlhs),
795 isl_sioimath_uiarg_src(rhs, &scratchrhs),
796 isl_sioimath_reinit_big(dst));
797 isl_sioimath_try_demote(dst);
800 /* Fused multiply-add.
802 inline void isl_sioimath_addmul(isl_sioimath_ptr dst, isl_sioimath_src lhs,
803 isl_sioimath_src rhs)
805 isl_sioimath tmp;
806 isl_sioimath_init(&tmp);
807 isl_sioimath_mul(&tmp, lhs, rhs);
808 isl_sioimath_add(dst, *dst, tmp);
809 isl_sioimath_clear(&tmp);
812 /* Fused multiply-add with an unsigned long.
814 inline void isl_sioimath_addmul_ui(isl_sioimath_ptr dst, isl_sioimath_src lhs,
815 unsigned long rhs)
817 isl_sioimath tmp;
818 isl_sioimath_init(&tmp);
819 isl_sioimath_mul_ui(&tmp, lhs, rhs);
820 isl_sioimath_add(dst, *dst, tmp);
821 isl_sioimath_clear(&tmp);
824 /* Fused multiply-subtract.
826 inline void isl_sioimath_submul(isl_sioimath_ptr dst, isl_sioimath_src lhs,
827 isl_sioimath_src rhs)
829 isl_sioimath tmp;
830 isl_sioimath_init(&tmp);
831 isl_sioimath_mul(&tmp, lhs, rhs);
832 isl_sioimath_sub(dst, *dst, tmp);
833 isl_sioimath_clear(&tmp);
836 /* Fused multiply-add with an unsigned long.
838 inline void isl_sioimath_submul_ui(isl_sioimath_ptr dst, isl_sioimath_src lhs,
839 unsigned long rhs)
841 isl_sioimath tmp;
842 isl_sioimath_init(&tmp);
843 isl_sioimath_mul_ui(&tmp, lhs, rhs);
844 isl_sioimath_sub(dst, *dst, tmp);
845 isl_sioimath_clear(&tmp);
848 void isl_sioimath_gcd(isl_sioimath_ptr dst, isl_sioimath_src lhs,
849 isl_sioimath_src rhs);
850 void isl_sioimath_lcm(isl_sioimath_ptr dst, isl_sioimath_src lhs,
851 isl_sioimath_src rhs);
853 /* Divide lhs by rhs, rounding to zero (Truncate).
855 inline void isl_sioimath_tdiv_q(isl_sioimath_ptr dst, isl_sioimath_src lhs,
856 isl_sioimath_src rhs)
858 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
859 int32_t lhssmall, rhssmall;
861 if (isl_sioimath_decode_small(lhs, &lhssmall) &&
862 isl_sioimath_decode_small(rhs, &rhssmall)) {
863 isl_sioimath_set_small(dst, lhssmall / rhssmall);
864 return;
867 mp_int_div(isl_sioimath_bigarg_src(lhs, &lhsscratch),
868 isl_sioimath_bigarg_src(rhs, &rhsscratch),
869 isl_sioimath_reinit_big(dst), NULL);
870 isl_sioimath_try_demote(dst);
871 return;
874 /* Divide lhs by an unsigned long rhs, rounding to zero (Truncate).
876 inline void isl_sioimath_tdiv_q_ui(isl_sioimath_ptr dst, isl_sioimath_src lhs,
877 unsigned long rhs)
879 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
880 int32_t lhssmall;
882 if (isl_sioimath_is_small(lhs) && (rhs <= (unsigned long) INT32_MAX)) {
883 lhssmall = isl_sioimath_get_small(lhs);
884 isl_sioimath_set_small(dst, lhssmall / (int32_t) rhs);
885 return;
888 if (rhs <= MP_SMALL_MAX) {
889 mp_int_div_value(isl_sioimath_bigarg_src(lhs, &lhsscratch), rhs,
890 isl_sioimath_reinit_big(dst), NULL);
891 isl_sioimath_try_demote(dst);
892 return;
895 mp_int_div(isl_sioimath_bigarg_src(lhs, &lhsscratch),
896 isl_sioimath_uiarg_src(rhs, &rhsscratch),
897 isl_sioimath_reinit_big(dst), NULL);
898 isl_sioimath_try_demote(dst);
901 /* Divide lhs by rhs, rounding to positive infinity (Ceil).
903 inline void isl_sioimath_cdiv_q(isl_sioimath_ptr dst, isl_sioimath_src lhs,
904 isl_sioimath_src rhs)
906 int32_t lhssmall, rhssmall;
907 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
908 int32_t q;
910 if (isl_sioimath_decode_small(lhs, &lhssmall) &&
911 isl_sioimath_decode_small(rhs, &rhssmall)) {
912 if ((lhssmall >= 0) && (rhssmall >= 0))
913 q = ((int64_t) lhssmall + (int64_t) rhssmall - 1) /
914 rhssmall;
915 else if ((lhssmall < 0) && (rhssmall < 0))
916 q = ((int64_t) lhssmall + (int64_t) rhssmall + 1) /
917 rhssmall;
918 else
919 q = lhssmall / rhssmall;
920 isl_sioimath_set_small(dst, q);
921 return;
924 impz_cdiv_q(isl_sioimath_reinit_big(dst),
925 isl_sioimath_bigarg_src(lhs, &lhsscratch),
926 isl_sioimath_bigarg_src(rhs, &rhsscratch));
927 isl_sioimath_try_demote(dst);
930 /* Compute the division of lhs by a rhs of type unsigned long, rounding towards
931 * positive infinity (Ceil).
933 inline void isl_sioimath_cdiv_q_ui(isl_sioimath_ptr dst, isl_sioimath_src lhs,
934 unsigned long rhs)
936 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
937 int32_t lhssmall, q;
939 if (isl_sioimath_decode_small(lhs, &lhssmall) && (rhs <= INT32_MAX)) {
940 if (lhssmall >= 0)
941 q = ((int64_t) lhssmall + ((int64_t) rhs - 1)) /
942 (int64_t) rhs;
943 else
944 q = lhssmall / (int32_t) rhs;
945 isl_sioimath_set_small(dst, q);
946 return;
949 impz_cdiv_q(isl_sioimath_reinit_big(dst),
950 isl_sioimath_bigarg_src(lhs, &lhsscratch),
951 isl_sioimath_uiarg_src(rhs, &rhsscratch));
952 isl_sioimath_try_demote(dst);
955 /* Divide lhs by rhs, rounding to negative infinity (Floor).
957 inline void isl_sioimath_fdiv_q(isl_sioimath_ptr dst, isl_sioimath_src lhs,
958 isl_sioimath_src rhs)
960 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
961 int32_t lhssmall, rhssmall;
962 int32_t q;
964 if (isl_sioimath_decode_small(lhs, &lhssmall) &&
965 isl_sioimath_decode_small(rhs, &rhssmall)) {
966 if ((lhssmall < 0) && (rhssmall >= 0))
967 q = ((int64_t) lhssmall - ((int64_t) rhssmall - 1)) /
968 rhssmall;
969 else if ((lhssmall >= 0) && (rhssmall < 0))
970 q = ((int64_t) lhssmall - ((int64_t) rhssmall + 1)) /
971 rhssmall;
972 else
973 q = lhssmall / rhssmall;
974 isl_sioimath_set_small(dst, q);
975 return;
978 impz_fdiv_q(isl_sioimath_reinit_big(dst),
979 isl_sioimath_bigarg_src(lhs, &lhsscratch),
980 isl_sioimath_bigarg_src(rhs, &rhsscratch));
981 isl_sioimath_try_demote(dst);
984 /* Compute the division of lhs by a rhs of type unsigned long, rounding towards
985 * negative infinity (Floor).
987 inline void isl_sioimath_fdiv_q_ui(isl_sioimath_ptr dst, isl_sioimath_src lhs,
988 unsigned long rhs)
990 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
991 int32_t lhssmall, q;
993 if (isl_sioimath_decode_small(lhs, &lhssmall) && (rhs <= INT32_MAX)) {
994 if (lhssmall >= 0)
995 q = (uint32_t) lhssmall / rhs;
996 else
997 q = ((int64_t) lhssmall - ((int64_t) rhs - 1)) /
998 (int64_t) rhs;
999 isl_sioimath_set_small(dst, q);
1000 return;
1003 impz_fdiv_q(isl_sioimath_reinit_big(dst),
1004 isl_sioimath_bigarg_src(lhs, &lhsscratch),
1005 isl_sioimath_uiarg_src(rhs, &rhsscratch));
1006 isl_sioimath_try_demote(dst);
1009 /* Get the remainder of: lhs divided by rhs rounded towards negative infinite
1010 * (Floor).
1012 inline void isl_sioimath_fdiv_r(isl_sioimath_ptr dst, isl_sioimath_src lhs,
1013 isl_sioimath_src rhs)
1015 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
1016 int64_t lhssmall, rhssmall;
1017 int32_t r;
1019 if (isl_sioimath_is_small(lhs) && isl_sioimath_is_small(rhs)) {
1020 lhssmall = isl_sioimath_get_small(lhs);
1021 rhssmall = isl_sioimath_get_small(rhs);
1022 r = (rhssmall + lhssmall % rhssmall) % rhssmall;
1023 isl_sioimath_set_small(dst, r);
1024 return;
1027 impz_fdiv_r(isl_sioimath_reinit_big(dst),
1028 isl_sioimath_bigarg_src(lhs, &lhsscratch),
1029 isl_sioimath_bigarg_src(rhs, &rhsscratch));
1030 isl_sioimath_try_demote(dst);
1033 void isl_sioimath_read(isl_sioimath_ptr dst, const char *str);
1035 /* Return:
1036 * +1 for a positive number
1037 * -1 for a negative number
1038 * 0 if the number is zero
1040 inline int isl_sioimath_sgn(isl_sioimath_src arg)
1042 int32_t small;
1044 if (isl_sioimath_decode_small(arg, &small))
1045 return (small > 0) - (small < 0);
1047 return mp_int_compare_zero(isl_sioimath_get_big(arg));
1050 /* Return:
1051 * +1 if lhs > rhs
1052 * -1 if lhs < rhs
1053 * 0 if lhs = rhs
1055 inline int isl_sioimath_cmp(isl_sioimath_src lhs, isl_sioimath_src rhs)
1057 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
1058 int32_t lhssmall, rhssmall;
1060 if (isl_sioimath_decode_small(lhs, &lhssmall) &&
1061 isl_sioimath_decode_small(rhs, &rhssmall))
1062 return (lhssmall > rhssmall) - (lhssmall < rhssmall);
1064 if (isl_sioimath_decode_small(rhs, &rhssmall))
1065 return mp_int_compare_value(
1066 isl_sioimath_bigarg_src(lhs, &lhsscratch), rhssmall);
1068 if (isl_sioimath_decode_small(lhs, &lhssmall))
1069 return -mp_int_compare_value(
1070 isl_sioimath_bigarg_src(rhs, &rhsscratch), lhssmall);
1072 return mp_int_compare(
1073 isl_sioimath_get_big(lhs), isl_sioimath_get_big(rhs));
1076 /* As isl_sioimath_cmp, but with signed long rhs.
1078 inline int isl_sioimath_cmp_si(isl_sioimath_src lhs, signed long rhs)
1080 int32_t lhssmall;
1082 if (isl_sioimath_decode_small(lhs, &lhssmall))
1083 return (lhssmall > rhs) - (lhssmall < rhs);
1085 return mp_int_compare_value(isl_sioimath_get_big(lhs), rhs);
1088 /* Return:
1089 * +1 if |lhs| > |rhs|
1090 * -1 if |lhs| < |rhs|
1091 * 0 if |lhs| = |rhs|
1093 inline int isl_sioimath_abs_cmp(isl_sioimath_src lhs, isl_sioimath_src rhs)
1095 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
1096 int32_t lhssmall, rhssmall;
1098 if (isl_sioimath_decode_small(lhs, &lhssmall) &&
1099 isl_sioimath_decode_small(rhs, &rhssmall)) {
1100 lhssmall = labs(lhssmall);
1101 rhssmall = labs(rhssmall);
1102 return (lhssmall > rhssmall) - (lhssmall < rhssmall);
1105 return mp_int_compare_unsigned(
1106 isl_sioimath_bigarg_src(lhs, &lhsscratch),
1107 isl_sioimath_bigarg_src(rhs, &rhsscratch));
1110 /* Return whether lhs is divisible by rhs.
1111 * In particular, can rhs be multiplied by some integer to result in lhs?
1112 * If rhs is zero, then this means lhs has to be zero too.
1114 inline int isl_sioimath_is_divisible_by(isl_sioimath_src lhs,
1115 isl_sioimath_src rhs)
1117 isl_sioimath_scratchspace_t lhsscratch, rhsscratch;
1118 int32_t lhssmall, rhssmall;
1119 mpz_t rem;
1120 int cmp;
1122 if (isl_sioimath_sgn(rhs) == 0)
1123 return isl_sioimath_sgn(lhs) == 0;
1125 if (isl_sioimath_decode_small(lhs, &lhssmall) &&
1126 isl_sioimath_decode_small(rhs, &rhssmall))
1127 return lhssmall % rhssmall == 0;
1129 if (isl_sioimath_decode_small(rhs, &rhssmall))
1130 return mp_int_divisible_value(
1131 isl_sioimath_bigarg_src(lhs, &lhsscratch), rhssmall);
1133 mp_int_init(&rem);
1134 mp_int_div(isl_sioimath_bigarg_src(lhs, &lhsscratch),
1135 isl_sioimath_bigarg_src(rhs, &rhsscratch), NULL, &rem);
1136 cmp = mp_int_compare_zero(&rem);
1137 mp_int_clear(&rem);
1138 return cmp == 0;
1141 /* Return a hash code of an isl_sioimath.
1142 * The hash code for a number in small and big representation must be identical
1143 * on the same machine because small representation if not obligatory if fits.
1145 inline uint32_t isl_sioimath_hash(isl_sioimath_src arg, uint32_t hash)
1147 int32_t small;
1148 int i;
1149 uint32_t num;
1150 mp_digit digits[(sizeof(uint32_t) + sizeof(mp_digit) - 1) /
1151 sizeof(mp_digit)];
1152 mp_size used;
1153 const unsigned char *digitdata = (const unsigned char *) &digits;
1155 if (isl_sioimath_decode_small(arg, &small)) {
1156 if (small < 0)
1157 isl_hash_byte(hash, 0xFF);
1158 num = labs(small);
1160 isl_siomath_uint32_to_digits(num, digits, &used);
1161 for (i = 0; i < used * sizeof(mp_digit); i += 1)
1162 isl_hash_byte(hash, digitdata[i]);
1163 return hash;
1166 return isl_imath_hash(isl_sioimath_get_big(arg), hash);
1169 /* Return the number of digits in a number of the given base or more, i.e. the
1170 * string length without sign and null terminator.
1172 * Current implementation for small representation returns the maximal number
1173 * of binary digits in that representation, which can be much larger than the
1174 * smallest possible solution.
1176 inline size_t isl_sioimath_sizeinbase(isl_sioimath_src arg, int base)
1178 int32_t small;
1180 if (isl_sioimath_decode_small(arg, &small))
1181 return sizeof(int32_t) * CHAR_BIT - 1;
1183 return impz_sizeinbase(isl_sioimath_get_big(arg), base);
1186 void isl_sioimath_print(FILE *out, isl_sioimath_src i, int width);
1187 void isl_sioimath_dump(isl_sioimath_src arg);
1189 typedef isl_sioimath isl_int[1];
1190 #define isl_int_init(i) isl_sioimath_init((i))
1191 #define isl_int_clear(i) isl_sioimath_clear((i))
1193 #define isl_int_set(r, i) isl_sioimath_set((r), *(i))
1194 #define isl_int_set_si(r, i) isl_sioimath_set_si((r), i)
1195 #define isl_int_set_ui(r, i) isl_sioimath_set_ui((r), i)
1196 #define isl_int_fits_slong(r) isl_sioimath_fits_slong(*(r))
1197 #define isl_int_get_si(r) isl_sioimath_get_si(*(r))
1198 #define isl_int_fits_ulong(r) isl_sioimath_fits_ulong(*(r))
1199 #define isl_int_get_ui(r) isl_sioimath_get_ui(*(r))
1200 #define isl_int_get_d(r) isl_sioimath_get_d(*(r))
1201 #define isl_int_get_str(r) isl_sioimath_get_str(*(r))
1202 #define isl_int_abs(r, i) isl_sioimath_abs((r), *(i))
1203 #define isl_int_neg(r, i) isl_sioimath_neg((r), *(i))
1204 #define isl_int_swap(i, j) isl_sioimath_swap((i), (j))
1205 #define isl_int_swap_or_set(i, j) isl_sioimath_swap((i), (j))
1206 #define isl_int_add_ui(r, i, j) isl_sioimath_add_ui((r), *(i), j)
1207 #define isl_int_sub_ui(r, i, j) isl_sioimath_sub_ui((r), *(i), j)
1209 #define isl_int_add(r, i, j) isl_sioimath_add((r), *(i), *(j))
1210 #define isl_int_sub(r, i, j) isl_sioimath_sub((r), *(i), *(j))
1211 #define isl_int_mul(r, i, j) isl_sioimath_mul((r), *(i), *(j))
1212 #define isl_int_mul_2exp(r, i, j) isl_sioimath_mul_2exp((r), *(i), j)
1213 #define isl_int_mul_si(r, i, j) isl_sioimath_mul_si((r), *(i), j)
1214 #define isl_int_mul_ui(r, i, j) isl_sioimath_mul_ui((r), *(i), j)
1215 #define isl_int_pow_ui(r, i, j) isl_sioimath_pow_ui((r), *(i), j)
1216 #define isl_int_addmul(r, i, j) isl_sioimath_addmul((r), *(i), *(j))
1217 #define isl_int_addmul_ui(r, i, j) isl_sioimath_addmul_ui((r), *(i), j)
1218 #define isl_int_submul(r, i, j) isl_sioimath_submul((r), *(i), *(j))
1219 #define isl_int_submul_ui(r, i, j) isl_sioimath_submul_ui((r), *(i), j)
1221 #define isl_int_gcd(r, i, j) isl_sioimath_gcd((r), *(i), *(j))
1222 #define isl_int_lcm(r, i, j) isl_sioimath_lcm((r), *(i), *(j))
1223 #define isl_int_divexact(r, i, j) isl_sioimath_tdiv_q((r), *(i), *(j))
1224 #define isl_int_divexact_ui(r, i, j) isl_sioimath_tdiv_q_ui((r), *(i), j)
1225 #define isl_int_tdiv_q(r, i, j) isl_sioimath_tdiv_q((r), *(i), *(j))
1226 #define isl_int_cdiv_q(r, i, j) isl_sioimath_cdiv_q((r), *(i), *(j))
1227 #define isl_int_cdiv_q_ui(r, i, j) isl_sioimath_cdiv_q_ui((r), *(i), j)
1228 #define isl_int_fdiv_q(r, i, j) isl_sioimath_fdiv_q((r), *(i), *(j))
1229 #define isl_int_fdiv_r(r, i, j) isl_sioimath_fdiv_r((r), *(i), *(j))
1230 #define isl_int_fdiv_q_ui(r, i, j) isl_sioimath_fdiv_q_ui((r), *(i), j)
1232 #define isl_int_read(r, s) isl_sioimath_read((r), s)
1233 #define isl_int_sgn(i) isl_sioimath_sgn(*(i))
1234 #define isl_int_cmp(i, j) isl_sioimath_cmp(*(i), *(j))
1235 #define isl_int_cmp_si(i, si) isl_sioimath_cmp_si(*(i), si)
1236 #define isl_int_eq(i, j) (isl_sioimath_cmp(*(i), *(j)) == 0)
1237 #define isl_int_ne(i, j) (isl_sioimath_cmp(*(i), *(j)) != 0)
1238 #define isl_int_lt(i, j) (isl_sioimath_cmp(*(i), *(j)) < 0)
1239 #define isl_int_le(i, j) (isl_sioimath_cmp(*(i), *(j)) <= 0)
1240 #define isl_int_gt(i, j) (isl_sioimath_cmp(*(i), *(j)) > 0)
1241 #define isl_int_ge(i, j) (isl_sioimath_cmp(*(i), *(j)) >= 0)
1242 #define isl_int_abs_cmp(i, j) isl_sioimath_abs_cmp(*(i), *(j))
1243 #define isl_int_abs_eq(i, j) (isl_sioimath_abs_cmp(*(i), *(j)) == 0)
1244 #define isl_int_abs_ne(i, j) (isl_sioimath_abs_cmp(*(i), *(j)) != 0)
1245 #define isl_int_abs_lt(i, j) (isl_sioimath_abs_cmp(*(i), *(j)) < 0)
1246 #define isl_int_abs_gt(i, j) (isl_sioimath_abs_cmp(*(i), *(j)) > 0)
1247 #define isl_int_abs_ge(i, j) (isl_sioimath_abs_cmp(*(i), *(j)) >= 0)
1248 #define isl_int_is_divisible_by(i, j) isl_sioimath_is_divisible_by(*(i), *(j))
1250 #define isl_int_hash(v, h) isl_sioimath_hash(*(v), h)
1251 #define isl_int_free_str(s) free(s)
1252 #define isl_int_print(out, i, width) isl_sioimath_print(out, *(i), width)
1254 #endif /* ISL_INT_SIOIMATH_H */