2 * Copyright 2011 Sven Verdoolaege
3 * Copyright 2012-2014 Ecole Normale Superieure
5 * Use of this software is governed by the MIT license
7 * Written by Sven Verdoolaege,
8 * Ecole Normale Superieure, 45 rue d’Ulm, 75230 Paris, France
12 #include <isl_space_private.h>
14 #include <isl_reordering.h>
16 #include <isl_multi_macro.h>
18 #define MULTI_NAME(BASE) "isl_multi_" #BASE
20 isl_ctx
*FN(MULTI(BASE
),get_ctx
)(__isl_keep
MULTI(BASE
) *multi
)
22 return multi
? isl_space_get_ctx(multi
->space
) : NULL
;
25 /* Return the space of "multi".
27 __isl_keep isl_space
*FN(MULTI(BASE
),peek_space
)(__isl_keep
MULTI(BASE
) *multi
)
29 return multi
? multi
->space
: NULL
;
32 __isl_give isl_space
*FN(MULTI(BASE
),get_space
)(__isl_keep
MULTI(BASE
) *multi
)
34 return isl_space_copy(FN(MULTI(BASE
),peek_space
)(multi
));
37 __isl_give isl_space
*FN(MULTI(BASE
),get_domain_space
)(
38 __isl_keep
MULTI(BASE
) *multi
)
40 return multi
? isl_space_domain(isl_space_copy(multi
->space
)) : NULL
;
43 /* Allocate a multi expression living in "space".
45 * If the number of base expressions is zero, then make sure
46 * there is enough room in the structure for the explicit domain,
47 * in case the type supports such an explicit domain.
49 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),alloc
)(__isl_take isl_space
*space
)
55 n
= isl_space_dim(space
, isl_dim_out
);
59 ctx
= isl_space_get_ctx(space
);
61 multi
= isl_calloc(ctx
, MULTI(BASE
),
62 sizeof(MULTI(BASE
)) + (n
- 1) * sizeof(struct EL
*));
64 multi
= isl_calloc(ctx
, MULTI(BASE
), sizeof(MULTI(BASE
)));
71 if (FN(MULTI(BASE
),has_explicit_domain
)(multi
))
72 multi
= FN(MULTI(BASE
),init_explicit_domain
)(multi
);
75 isl_space_free(space
);
79 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),dup
)(__isl_keep
MULTI(BASE
) *multi
)
87 dup
= FN(MULTI(BASE
),alloc
)(isl_space_copy(multi
->space
));
91 for (i
= 0; i
< multi
->n
; ++i
)
92 dup
= FN(FN(MULTI(BASE
),set
),BASE
)(dup
, i
,
93 FN(EL
,copy
)(multi
->u
.p
[i
]));
94 if (FN(MULTI(BASE
),has_explicit_domain
)(multi
))
95 dup
= FN(MULTI(BASE
),copy_explicit_domain
)(dup
, multi
);
100 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),cow
)(__isl_take
MULTI(BASE
) *multi
)
109 return FN(MULTI(BASE
),dup
)(multi
);
112 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),copy
)(__isl_keep
MULTI(BASE
) *multi
)
121 __isl_null
MULTI(BASE
) *FN(MULTI(BASE
),free
)(__isl_take
MULTI(BASE
) *multi
)
128 if (--multi
->ref
> 0)
131 isl_space_free(multi
->space
);
132 for (i
= 0; i
< multi
->n
; ++i
)
133 FN(EL
,free
)(multi
->u
.p
[i
]);
134 if (FN(MULTI(BASE
),has_explicit_domain
)(multi
))
135 FN(MULTI(BASE
),free_explicit_domain
)(multi
);
141 isl_size
FN(MULTI(BASE
),dim
)(__isl_keep
MULTI(BASE
) *multi
,
142 enum isl_dim_type type
)
144 return isl_space_dim(FN(MULTI(BASE
),peek_space
)(multi
), type
);
147 /* Return the number of base expressions in "multi".
149 isl_size
FN(MULTI(BASE
),size
)(__isl_keep
MULTI(BASE
) *multi
)
151 return multi
? multi
->n
: isl_size_error
;
155 #define TYPE MULTI(BASE)
157 #include "check_type_range_templ.c"
159 /* Return a copy of the base expression at position "pos" in "multi".
161 __isl_give EL
*FN(MULTI(BASE
),get_at
)(__isl_keep
MULTI(BASE
) *multi
, int pos
)
165 if (FN(MULTI(BASE
),check_range
)(multi
, isl_dim_out
, pos
, 1) < 0)
167 ctx
= FN(MULTI(BASE
),get_ctx
)(multi
);
168 return FN(EL
,copy
)(multi
->u
.p
[pos
]);
171 /* This is an alternative name for the function above.
173 __isl_give EL
*FN(FN(MULTI(BASE
),get
),BASE
)(__isl_keep
MULTI(BASE
) *multi
,
176 return FN(MULTI(BASE
),get_at
)(multi
, pos
);
179 /* Set the element at position "pos" of "multi" to "el",
180 * where the position may be empty if "multi" has only a single reference.
182 static __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),restore
)(
183 __isl_take
MULTI(BASE
) *multi
, int pos
, __isl_take EL
*el
)
185 multi
= FN(MULTI(BASE
),cow
)(multi
);
189 if (FN(MULTI(BASE
),check_range
)(multi
, isl_dim_out
, pos
, 1) < 0)
192 FN(EL
,free
)(multi
->u
.p
[pos
]);
193 multi
->u
.p
[pos
] = el
;
197 FN(MULTI(BASE
),free
)(multi
);
202 /* Set the element at position "pos" of "multi" to "el",
203 * where the position may be empty if "multi" has only a single reference.
204 * However, the space of "multi" is available and is checked
205 * for compatibility with "el".
207 static __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),restore_check_space
)(
208 __isl_take
MULTI(BASE
) *multi
, int pos
, __isl_take EL
*el
)
212 space
= FN(MULTI(BASE
),peek_space
)(multi
);
213 if (FN(EL
,check_match_domain_space
)(el
, space
) < 0)
214 multi
= FN(MULTI(BASE
),free
)(multi
);
215 return FN(MULTI(BASE
),restore
)(multi
, pos
, el
);
218 /* Replace the base expression at position "pos" in "multi" with "el".
220 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),set_at
)(
221 __isl_take
MULTI(BASE
) *multi
, int pos
, __isl_take EL
*el
)
223 isl_space
*multi_space
= NULL
;
224 isl_space
*el_space
= NULL
;
227 multi_space
= FN(MULTI(BASE
),get_space
)(multi
);
228 match
= FN(EL
,matching_params
)(el
, multi_space
);
232 multi
= FN(MULTI(BASE
),align_params
)(multi
,
233 FN(EL
,get_space
)(el
));
234 isl_space_free(multi_space
);
235 multi_space
= FN(MULTI(BASE
),get_space
)(multi
);
236 el
= FN(EL
,align_params
)(el
, isl_space_copy(multi_space
));
239 multi
= FN(MULTI(BASE
),restore_check_space
)(multi
, pos
, el
);
241 isl_space_free(multi_space
);
242 isl_space_free(el_space
);
246 FN(MULTI(BASE
),free
)(multi
);
248 isl_space_free(multi_space
);
249 isl_space_free(el_space
);
253 /* This is an alternative name for the function above.
255 __isl_give
MULTI(BASE
) *FN(FN(MULTI(BASE
),set
),BASE
)(
256 __isl_take
MULTI(BASE
) *multi
, int pos
, __isl_take EL
*el
)
258 return FN(MULTI(BASE
),set_at
)(multi
, pos
, el
);
261 /* Return the base expressions of "multi" as a list.
263 __isl_give
LIST(EL
) *FN(MULTI(BASE
),get_list
)(
264 __isl_keep
MULTI(BASE
) *multi
)
270 n
= FN(MULTI(BASE
),size
)(multi
);
273 list
= FN(LIST(EL
),alloc
)(FN(MULTI(BASE
),get_ctx(multi
)), n
);
274 for (i
= 0; i
< n
; ++i
) {
275 EL
*el
= FN(MULTI(BASE
),get_at
)(multi
, i
);
276 list
= FN(LIST(EL
),add
)(list
, el
);
282 /* Reset the space of "multi". This function is called from isl_pw_templ.c
283 * and doesn't know if the space of an element object is represented
284 * directly or through its domain. It therefore passes along both,
285 * which we pass along to the element function since we don't know how
286 * that is represented either.
288 * If "multi" has an explicit domain, then the caller is expected
289 * to make sure that any modification that would change the dimensions
290 * of the explicit domain has bee applied before this function is called.
292 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),reset_space_and_domain
)(
293 __isl_take
MULTI(BASE
) *multi
, __isl_take isl_space
*space
,
294 __isl_take isl_space
*domain
)
298 multi
= FN(MULTI(BASE
),cow
)(multi
);
299 if (!multi
|| !space
|| !domain
)
302 for (i
= 0; i
< multi
->n
; ++i
) {
303 multi
->u
.p
[i
] = FN(EL
,reset_domain_space
)(multi
->u
.p
[i
],
304 isl_space_copy(domain
));
308 if (FN(MULTI(BASE
),has_explicit_domain
)(multi
)) {
309 multi
= FN(MULTI(BASE
),reset_explicit_domain_space
)(multi
,
310 isl_space_copy(domain
));
314 isl_space_free(domain
);
315 isl_space_free(multi
->space
);
316 multi
->space
= space
;
320 isl_space_free(domain
);
321 isl_space_free(space
);
322 FN(MULTI(BASE
),free
)(multi
);
326 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),reset_domain_space
)(
327 __isl_take
MULTI(BASE
) *multi
, __isl_take isl_space
*domain
)
331 space
= isl_space_extend_domain_with_range(isl_space_copy(domain
),
332 isl_space_copy(multi
->space
));
333 return FN(MULTI(BASE
),reset_space_and_domain
)(multi
, space
, domain
);
336 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),reset_space
)(
337 __isl_take
MULTI(BASE
) *multi
, __isl_take isl_space
*space
)
341 domain
= isl_space_domain(isl_space_copy(space
));
342 return FN(MULTI(BASE
),reset_space_and_domain
)(multi
, space
, domain
);
345 /* Reset the user pointer on all identifiers of parameters and tuples
346 * of the space of "multi".
348 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),reset_user
)(
349 __isl_take
MULTI(BASE
) *multi
)
353 space
= FN(MULTI(BASE
),get_space
)(multi
);
354 space
= isl_space_reset_user(space
);
356 return FN(MULTI(BASE
),reset_space
)(multi
, space
);
359 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),realign_domain
)(
360 __isl_take
MULTI(BASE
) *multi
, __isl_take isl_reordering
*exp
)
365 multi
= FN(MULTI(BASE
),cow
)(multi
);
369 for (i
= 0; i
< multi
->n
; ++i
) {
370 multi
->u
.p
[i
] = FN(EL
,realign_domain
)(multi
->u
.p
[i
],
371 isl_reordering_copy(exp
));
376 space
= isl_reordering_get_space(exp
);
377 multi
= FN(MULTI(BASE
),reset_domain_space
)(multi
, space
);
379 isl_reordering_free(exp
);
382 isl_reordering_free(exp
);
383 FN(MULTI(BASE
),free
)(multi
);
387 /* Align the parameters of "multi" to those of "model".
389 * If "multi" has an explicit domain, then align the parameters
390 * of the domain first.
392 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),align_params
)(
393 __isl_take
MULTI(BASE
) *multi
, __isl_take isl_space
*model
)
396 isl_bool equal_params
;
399 if (!multi
|| !model
)
402 equal_params
= isl_space_has_equal_params(multi
->space
, model
);
403 if (equal_params
< 0)
406 isl_space_free(model
);
410 ctx
= isl_space_get_ctx(model
);
411 if (!isl_space_has_named_params(model
))
412 isl_die(ctx
, isl_error_invalid
,
413 "model has unnamed parameters", goto error
);
414 if (!isl_space_has_named_params(multi
->space
))
415 isl_die(ctx
, isl_error_invalid
,
416 "input has unnamed parameters", goto error
);
418 if (FN(MULTI(BASE
),has_explicit_domain
)(multi
)) {
419 multi
= FN(MULTI(BASE
),align_explicit_domain_params
)(multi
,
420 isl_space_copy(model
));
424 exp
= isl_parameter_alignment_reordering(multi
->space
, model
);
425 exp
= isl_reordering_extend_space(exp
,
426 FN(MULTI(BASE
),get_domain_space
)(multi
));
427 multi
= FN(MULTI(BASE
),realign_domain
)(multi
, exp
);
429 isl_space_free(model
);
432 isl_space_free(model
);
433 FN(MULTI(BASE
),free
)(multi
);
437 /* Create a multi expression in the given space with the elements of "list"
438 * as base expressions.
440 * Since isl_multi_*_restore_* assumes that the element and
441 * the multi expression have matching spaces, the alignment
442 * (if any) needs to be performed beforehand.
444 __isl_give
MULTI(BASE
) *FN(FN(MULTI(BASE
),from
),LIST(BASE
))(
445 __isl_take isl_space
*space
, __isl_take
LIST(EL
) *list
)
452 dim
= isl_space_dim(space
, isl_dim_out
);
453 n
= FN(FN(LIST(EL
),n
),BASE
)(list
);
454 if (dim
< 0 || n
< 0)
457 ctx
= isl_space_get_ctx(space
);
459 isl_die(ctx
, isl_error_invalid
,
460 "invalid number of elements in list", goto error
);
462 for (i
= 0; i
< n
; ++i
) {
463 EL
*el
= FN(LIST(EL
),peek
)(list
, i
);
464 space
= isl_space_align_params(space
, FN(EL
,get_space
)(el
));
466 multi
= FN(MULTI(BASE
),alloc
)(isl_space_copy(space
));
467 for (i
= 0; i
< n
; ++i
) {
468 EL
*el
= FN(FN(LIST(EL
),get
),BASE
)(list
, i
);
469 el
= FN(EL
,align_params
)(el
, isl_space_copy(space
));
470 multi
= FN(MULTI(BASE
),restore_check_space
)(multi
, i
, el
);
473 isl_space_free(space
);
474 FN(LIST(EL
),free
)(list
);
477 isl_space_free(space
);
478 FN(LIST(EL
),free
)(list
);
482 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),drop_dims
)(
483 __isl_take
MULTI(BASE
) *multi
,
484 enum isl_dim_type type
, unsigned first
, unsigned n
)
488 multi
= FN(MULTI(BASE
),cow
)(multi
);
489 if (FN(MULTI(BASE
),check_range
)(multi
, type
, first
, n
) < 0)
490 return FN(MULTI(BASE
),free
)(multi
);
492 multi
->space
= isl_space_drop_dims(multi
->space
, type
, first
, n
);
494 return FN(MULTI(BASE
),free
)(multi
);
496 if (type
== isl_dim_out
) {
497 for (i
= 0; i
< n
; ++i
)
498 FN(EL
,free
)(multi
->u
.p
[first
+ i
]);
499 for (i
= first
; i
+ n
< multi
->n
; ++i
)
500 multi
->u
.p
[i
] = multi
->u
.p
[i
+ n
];
502 if (n
> 0 && FN(MULTI(BASE
),has_explicit_domain
)(multi
))
503 multi
= FN(MULTI(BASE
),init_explicit_domain
)(multi
);
508 if (FN(MULTI(BASE
),has_explicit_domain
)(multi
))
509 multi
= FN(MULTI(BASE
),drop_explicit_domain_dims
)(multi
,
514 for (i
= 0; i
< multi
->n
; ++i
) {
515 multi
->u
.p
[i
] = FN(EL
,drop_dims
)(multi
->u
.p
[i
], type
, first
, n
);
517 return FN(MULTI(BASE
),free
)(multi
);
524 #define TYPE MULTI(BASE)
526 #include "isl_check_named_params_templ.c"
528 #include "isl_align_params_bin_templ.c"
530 /* Given two MULTI(BASE)s A -> B and C -> D,
531 * construct a MULTI(BASE) (A * C) -> [B -> D].
533 * If "multi1" and/or "multi2" has an explicit domain, then
534 * intersect the domain of the result with these explicit domains.
536 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),range_product
)(
537 __isl_take
MULTI(BASE
) *multi1
, __isl_take
MULTI(BASE
) *multi2
)
545 FN(MULTI(BASE
),align_params_bin
)(&multi1
, &multi2
);
546 n1
= FN(MULTI(BASE
),size
)(multi1
);
547 n2
= FN(MULTI(BASE
),size
)(multi2
);
548 if (n1
< 0 || n2
< 0)
551 space
= isl_space_range_product(FN(MULTI(BASE
),get_space
)(multi1
),
552 FN(MULTI(BASE
),get_space
)(multi2
));
553 res
= FN(MULTI(BASE
),alloc
)(space
);
555 for (i
= 0; i
< n1
; ++i
) {
556 el
= FN(FN(MULTI(BASE
),get
),BASE
)(multi1
, i
);
557 res
= FN(FN(MULTI(BASE
),set
),BASE
)(res
, i
, el
);
560 for (i
= 0; i
< n2
; ++i
) {
561 el
= FN(FN(MULTI(BASE
),get
),BASE
)(multi2
, i
);
562 res
= FN(FN(MULTI(BASE
),set
),BASE
)(res
, n1
+ i
, el
);
565 if (FN(MULTI(BASE
),has_explicit_domain
)(multi1
))
566 res
= FN(MULTI(BASE
),intersect_explicit_domain
)(res
, multi1
);
567 if (FN(MULTI(BASE
),has_explicit_domain
)(multi2
))
568 res
= FN(MULTI(BASE
),intersect_explicit_domain
)(res
, multi2
);
570 FN(MULTI(BASE
),free
)(multi1
);
571 FN(MULTI(BASE
),free
)(multi2
);
574 FN(MULTI(BASE
),free
)(multi1
);
575 FN(MULTI(BASE
),free
)(multi2
);
579 /* Is the range of "multi" a wrapped relation?
581 isl_bool
FN(MULTI(BASE
),range_is_wrapping
)(__isl_keep
MULTI(BASE
) *multi
)
584 return isl_bool_error
;
585 return isl_space_range_is_wrapping(multi
->space
);
588 /* Given a function A -> [B -> C], extract the function A -> B.
590 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),range_factor_domain
)(
591 __isl_take
MULTI(BASE
) *multi
)
594 isl_size total
, keep
;
596 total
= FN(MULTI(BASE
),dim
)(multi
, isl_dim_out
);
598 return FN(MULTI(BASE
),free
)(multi
);
599 if (!isl_space_range_is_wrapping(multi
->space
))
600 isl_die(FN(MULTI(BASE
),get_ctx
)(multi
), isl_error_invalid
,
601 "range is not a product",
602 return FN(MULTI(BASE
),free
)(multi
));
604 space
= FN(MULTI(BASE
),get_space
)(multi
);
605 space
= isl_space_range_factor_domain(space
);
606 keep
= isl_space_dim(space
, isl_dim_out
);
608 multi
= FN(MULTI(BASE
),free
)(multi
);
609 multi
= FN(MULTI(BASE
),drop_dims
)(multi
,
610 isl_dim_out
, keep
, total
- keep
);
611 multi
= FN(MULTI(BASE
),reset_space
)(multi
, space
);
616 /* Given a function A -> [B -> C], extract the function A -> C.
618 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),range_factor_range
)(
619 __isl_take
MULTI(BASE
) *multi
)
622 isl_size total
, keep
;
624 total
= FN(MULTI(BASE
),dim
)(multi
, isl_dim_out
);
626 return FN(MULTI(BASE
),free
)(multi
);
627 if (!isl_space_range_is_wrapping(multi
->space
))
628 isl_die(FN(MULTI(BASE
),get_ctx
)(multi
), isl_error_invalid
,
629 "range is not a product",
630 return FN(MULTI(BASE
),free
)(multi
));
632 space
= FN(MULTI(BASE
),get_space
)(multi
);
633 space
= isl_space_range_factor_range(space
);
634 keep
= isl_space_dim(space
, isl_dim_out
);
636 multi
= FN(MULTI(BASE
),free
)(multi
);
637 multi
= FN(MULTI(BASE
),drop_dims
)(multi
, isl_dim_out
, 0, total
- keep
);
638 multi
= FN(MULTI(BASE
),reset_space
)(multi
, space
);
643 /* Given a function [B -> C], extract the function C.
645 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),factor_range
)(
646 __isl_take
MULTI(BASE
) *multi
)
649 isl_size total
, keep
;
651 total
= FN(MULTI(BASE
),dim
)(multi
, isl_dim_set
);
653 return FN(MULTI(BASE
),free
)(multi
);
654 if (!isl_space_is_wrapping(multi
->space
))
655 isl_die(FN(MULTI(BASE
),get_ctx
)(multi
), isl_error_invalid
,
656 "not a product", return FN(MULTI(BASE
),free
)(multi
));
658 space
= FN(MULTI(BASE
),get_space
)(multi
);
659 space
= isl_space_factor_range(space
);
660 keep
= isl_space_dim(space
, isl_dim_set
);
662 multi
= FN(MULTI(BASE
),free
)(multi
);
663 multi
= FN(MULTI(BASE
),drop_dims
)(multi
, isl_dim_set
, 0, total
- keep
);
664 multi
= FN(MULTI(BASE
),reset_space
)(multi
, space
);
669 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),flatten_range
)(
670 __isl_take
MULTI(BASE
) *multi
)
675 if (!multi
->space
->nested
[1])
678 multi
= FN(MULTI(BASE
),cow
)(multi
);
682 multi
->space
= isl_space_flatten_range(multi
->space
);
684 return FN(MULTI(BASE
),free
)(multi
);
689 /* Given two MULTI(BASE)s A -> B and C -> D,
690 * construct a MULTI(BASE) (A * C) -> (B, D).
692 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),flat_range_product
)(
693 __isl_take
MULTI(BASE
) *multi1
, __isl_take
MULTI(BASE
) *multi2
)
697 multi
= FN(MULTI(BASE
),range_product
)(multi1
, multi2
);
698 multi
= FN(MULTI(BASE
),flatten_range
)(multi
);
702 /* Given two multi expressions, "multi1"
706 * where B2 starts at position "pos", and "multi2"
710 * return the multi expression
714 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),range_splice
)(
715 __isl_take
MULTI(BASE
) *multi1
, unsigned pos
,
716 __isl_take
MULTI(BASE
) *multi2
)
721 dim
= FN(MULTI(BASE
),size
)(multi1
);
722 if (dim
< 0 || !multi2
)
725 if (FN(MULTI(BASE
),check_range
)(multi1
, isl_dim_out
, pos
, 0) < 0)
728 res
= FN(MULTI(BASE
),copy
)(multi1
);
729 res
= FN(MULTI(BASE
),drop_dims
)(res
, isl_dim_out
, pos
, dim
- pos
);
730 multi1
= FN(MULTI(BASE
),drop_dims
)(multi1
, isl_dim_out
, 0, pos
);
732 res
= FN(MULTI(BASE
),flat_range_product
)(res
, multi2
);
733 res
= FN(MULTI(BASE
),flat_range_product
)(res
, multi1
);
737 FN(MULTI(BASE
),free
)(multi1
);
738 FN(MULTI(BASE
),free
)(multi2
);
743 #define TYPE MULTI(BASE)
746 #include "isl_type_has_equal_space_bin_templ.c"
748 #include "isl_type_check_equal_space_templ.c"
750 /* This function is currently only used from isl_aff.c
752 static __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),bin_op
)(
753 __isl_take
MULTI(BASE
) *multi1
, __isl_take
MULTI(BASE
) *multi2
,
754 __isl_give EL
*(*fn
)(__isl_take EL
*, __isl_take EL
*))
755 __attribute__ ((unused
));
757 /* Pairwise perform "fn" to the elements of "multi1" and "multi2" and
760 * If "multi2" has an explicit domain, then
761 * intersect the domain of the result with this explicit domain.
763 static __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),bin_op
)(
764 __isl_take
MULTI(BASE
) *multi1
, __isl_take
MULTI(BASE
) *multi2
,
765 __isl_give EL
*(*fn
)(__isl_take EL
*, __isl_take EL
*))
769 FN(MULTI(BASE
),align_params_bin
)(&multi1
, &multi2
);
770 multi1
= FN(MULTI(BASE
),cow
)(multi1
);
771 if (FN(MULTI(BASE
),check_equal_space
)(multi1
, multi2
) < 0)
774 for (i
= 0; i
< multi1
->n
; ++i
) {
775 multi1
->u
.p
[i
] = fn(multi1
->u
.p
[i
],
776 FN(EL
,copy
)(multi2
->u
.p
[i
]));
781 if (FN(MULTI(BASE
),has_explicit_domain
)(multi2
))
782 multi1
= FN(MULTI(BASE
),intersect_explicit_domain
)(multi1
,
785 FN(MULTI(BASE
),free
)(multi2
);
788 FN(MULTI(BASE
),free
)(multi1
);
789 FN(MULTI(BASE
),free
)(multi2
);
793 /* Only used on some multi-expressions.
795 static isl_bool
FN(MULTI(BASE
),any
)(__isl_keep
MULTI(BASE
) *multi
,
796 isl_bool (*test
)(__isl_keep EL
*)) __attribute__ ((unused
));
798 /* Does "test" succeed on any base expression of "multi"?
800 static isl_bool
FN(MULTI(BASE
),any
)(__isl_keep
MULTI(BASE
) *multi
,
801 isl_bool (*test
)(__isl_keep EL
*))
806 n
= FN(MULTI(BASE
),size
)(multi
);
808 return isl_bool_error
;
810 for (i
= 0; i
< n
; ++i
) {
811 isl_bool any
= test(multi
->u
.p
[i
]);
816 return isl_bool_false
;
819 /* Only used on some multi-expressions.
821 static isl_bool
FN(MULTI(BASE
),every
)(__isl_keep
MULTI(BASE
) *multi
,
822 isl_bool (*test
)(__isl_keep EL
*)) __attribute__ ((unused
));
824 /* Does "test" succeed on every base expression of "multi"?
826 static isl_bool
FN(MULTI(BASE
),every
)(__isl_keep
MULTI(BASE
) *multi
,
827 isl_bool (*test
)(__isl_keep EL
*))
832 n
= FN(MULTI(BASE
),size
)(multi
);
834 return isl_bool_error
;
836 for (i
= 0; i
< n
; ++i
) {
837 isl_bool every
= test(multi
->u
.p
[i
]);
838 if (every
< 0 || !every
)
842 return isl_bool_true
;
845 /* Convert a multiple expression defined over a parameter domain
846 * into one that is defined over a zero-dimensional set.
848 __isl_give
MULTI(BASE
) *FN(MULTI(BASE
),from_range
)(
849 __isl_take
MULTI(BASE
) *multi
)
855 if (!isl_space_is_set(multi
->space
))
856 isl_die(FN(MULTI(BASE
),get_ctx
)(multi
), isl_error_invalid
,
857 "not living in a set space",
858 return FN(MULTI(BASE
),free
)(multi
));
860 space
= FN(MULTI(BASE
),get_space
)(multi
);
861 space
= isl_space_from_range(space
);
862 multi
= FN(MULTI(BASE
),reset_space
)(multi
, space
);
867 /* Are "multi1" and "multi2" obviously equal?
869 isl_bool
FN(MULTI(BASE
),plain_is_equal
)(__isl_keep
MULTI(BASE
) *multi1
,
870 __isl_keep
MULTI(BASE
) *multi2
)
875 if (!multi1
|| !multi2
)
876 return isl_bool_error
;
877 if (multi1
->n
!= multi2
->n
)
878 return isl_bool_false
;
879 equal
= isl_space_is_equal(multi1
->space
, multi2
->space
);
880 if (equal
< 0 || !equal
)
883 for (i
= 0; i
< multi1
->n
; ++i
) {
884 equal
= FN(EL
,plain_is_equal
)(multi1
->u
.p
[i
], multi2
->u
.p
[i
]);
885 if (equal
< 0 || !equal
)
889 if (FN(MULTI(BASE
),has_explicit_domain
)(multi1
) ||
890 FN(MULTI(BASE
),has_explicit_domain
)(multi2
)) {
891 equal
= FN(MULTI(BASE
),equal_explicit_domain
)(multi1
, multi2
);
892 if (equal
< 0 || !equal
)
896 return isl_bool_true
;