2 * Copyright 2010-2011 INRIA Saclay
3 * Copyright 2011 Sven Verdoolaege
4 * Copyright 2012-2014 Ecole Normale Superieure
6 * Use of this software is governed by the MIT license
8 * Written by Sven Verdoolaege, INRIA Saclay - Ile-de-France,
9 * Parc Club Orsay Universite, ZAC des vignes, 4 rue Jacques Monod,
11 * and Ecole Normale Superieure, 45 rue d’Ulm, 75230 Paris, France
17 #include <isl_val_private.h>
19 #include <isl_pw_macro.h>
23 __isl_give PW
*FN(PW
,alloc_size
)(__isl_take isl_space
*space
24 OPT_TYPE_PARAM
, int n
)
31 ctx
= isl_space_get_ctx(space
);
32 isl_assert(ctx
, n
>= 0, goto error
);
33 pw
= isl_alloc(ctx
, struct PW
,
34 sizeof(struct PW
) + (n
- 1) * sizeof(S(PW
,piece
)));
39 OPT_SET_TYPE(pw
->, type
);
45 isl_space_free(space
);
49 __isl_give PW
*FN(PW
,ZERO
)(__isl_take isl_space
*space OPT_TYPE_PARAM
)
51 return FN(PW
,alloc_size
)(space
OPT_TYPE_ARG(NO_LOC
), 0);
54 /* Add a piece with domain "set" and base expression "el"
55 * to the piecewise expression "pw".
57 * Do this independently of the values of "set" and "el",
58 * such that this function can be used by isl_pw_*_dup.
60 static __isl_give PW
*FN(PW
,add_dup_piece
)(__isl_take PW
*pw
,
61 __isl_take isl_set
*set
, __isl_take EL
*el
)
64 isl_space
*el_dim
= NULL
;
66 if (!pw
|| !set
|| !el
)
69 ctx
= isl_set_get_ctx(set
);
70 if (!OPT_EQUAL_TYPES(pw
->, el
->))
71 isl_die(ctx
, isl_error_invalid
, "fold types don't match",
73 el_dim
= FN(EL
,get_space(el
));
74 isl_assert(ctx
, isl_space_is_equal(pw
->dim
, el_dim
), goto error
);
75 isl_assert(ctx
, pw
->n
< pw
->size
, goto error
);
77 pw
->p
[pw
->n
].set
= set
;
78 pw
->p
[pw
->n
].FIELD
= el
;
81 isl_space_free(el_dim
);
84 isl_space_free(el_dim
);
91 /* Add a piece with domain "set" and base expression "el"
92 * to the piecewise expression "pw", provided the domain
93 * is not obviously empty and the base expression
94 * is not equal to the default value.
96 __isl_give PW
*FN(PW
,add_piece
)(__isl_take PW
*pw
,
97 __isl_take isl_set
*set
, __isl_take EL
*el
)
101 skip
= isl_set_plain_is_empty(set
);
102 if (skip
>= 0 && !skip
)
103 skip
= FN(EL
,EL_IS_ZERO
)(el
);
104 if (skip
>= 0 && !skip
)
105 return FN(PW
,add_dup_piece
)(pw
, set
, el
);
110 return FN(PW
,free
)(pw
);
114 /* Does the space of "set" correspond to that of the domain of "el".
116 static isl_bool
FN(PW
,compatible_domain
)(__isl_keep EL
*el
,
117 __isl_keep isl_set
*set
)
120 isl_space
*el_space
, *set_space
;
123 return isl_bool_error
;
124 set_space
= isl_set_get_space(set
);
125 el_space
= FN(EL
,get_space
)(el
);
126 ok
= isl_space_is_domain_internal(set_space
, el_space
);
127 isl_space_free(el_space
);
128 isl_space_free(set_space
);
132 /* Check that the space of "set" corresponds to that of the domain of "el".
134 static isl_stat
FN(PW
,check_compatible_domain
)(__isl_keep EL
*el
,
135 __isl_keep isl_set
*set
)
139 ok
= FN(PW
,compatible_domain
)(el
, set
);
141 return isl_stat_error
;
143 isl_die(isl_set_get_ctx(set
), isl_error_invalid
,
144 "incompatible spaces", return isl_stat_error
);
149 __isl_give PW
*FN(PW
,alloc
)(OPT_TYPE_PARAM_FIRST
150 __isl_take isl_set
*set
, __isl_take EL
*el
)
154 if (FN(PW
,check_compatible_domain
)(el
, set
) < 0)
157 pw
= FN(PW
,alloc_size
)(FN(EL
,get_space
)(el
) OPT_TYPE_ARG(NO_LOC
), 1);
159 return FN(PW
,add_piece
)(pw
, set
, el
);
166 __isl_give PW
*FN(PW
,dup
)(__isl_keep PW
*pw
)
174 dup
= FN(PW
,alloc_size
)(isl_space_copy(pw
->dim
)
175 OPT_TYPE_ARG(pw
->), pw
->n
);
179 for (i
= 0; i
< pw
->n
; ++i
)
180 dup
= FN(PW
,add_dup_piece
)(dup
, isl_set_copy(pw
->p
[i
].set
),
181 FN(EL
,copy
)(pw
->p
[i
].FIELD
));
186 __isl_give PW
*FN(PW
,cow
)(__isl_take PW
*pw
)
194 return FN(PW
,dup
)(pw
);
197 __isl_give PW
*FN(PW
,copy
)(__isl_keep PW
*pw
)
206 __isl_null PW
*FN(PW
,free
)(__isl_take PW
*pw
)
215 for (i
= 0; i
< pw
->n
; ++i
) {
216 isl_set_free(pw
->p
[i
].set
);
217 FN(EL
,free
)(pw
->p
[i
].FIELD
);
219 isl_space_free(pw
->dim
);
225 /* Return the space of "pw".
227 __isl_keep isl_space
*FN(PW
,peek_space
)(__isl_keep PW
*pw
)
229 return pw
? pw
->dim
: NULL
;
232 __isl_give isl_space
*FN(PW
,get_space
)(__isl_keep PW
*pw
)
234 return isl_space_copy(FN(PW
,peek_space
)(pw
));
237 /* Return the space of "pw".
238 * This may be either a copy or the space itself
239 * if there is only one reference to "pw".
240 * This allows the space to be modified inplace
241 * if both the piecewise expression and its space have only a single reference.
242 * The caller is not allowed to modify "pw" between this call and
243 * a subsequent call to isl_pw_*_restore_*.
244 * The only exception is that isl_pw_*_free can be called instead.
246 static __isl_give isl_space
*FN(PW
,take_space
)(__isl_keep PW
*pw
)
253 return FN(PW
,get_space
)(pw
);
259 /* Set the space of "pw" to "space", where the space of "pw" may be missing
260 * due to a preceding call to isl_pw_*_take_space.
261 * However, in this case, "pw" only has a single reference and
262 * then the call to isl_pw_*_cow has no effect.
264 static __isl_give PW
*FN(PW
,restore_space
)(__isl_take PW
*pw
,
265 __isl_take isl_space
*space
)
270 if (pw
->dim
== space
) {
271 isl_space_free(space
);
278 isl_space_free(pw
->dim
);
284 isl_space_free(space
);
288 /* Check that "pos" is a valid position for a cell in "pw".
290 static isl_stat
FN(PW
,check_pos
)(__isl_keep PW
*pw
, int pos
)
293 return isl_stat_error
;
294 if (pos
< 0 || pos
>= pw
->n
)
295 isl_die(FN(PW
,get_ctx
)(pw
), isl_error_internal
,
296 "position out of bounds", return isl_stat_error
);
300 /* Return the cell at position "pos" in "pw".
302 static __isl_keep isl_set
*FN(PW
,peek_domain_at
)(__isl_keep PW
*pw
, int pos
)
304 if (FN(PW
,check_pos
)(pw
, pos
) < 0)
306 return pw
->p
[pos
].set
;
309 /* Return a copy of the cell at position "pos" in "pw".
311 static __isl_give isl_set
*FN(PW
,get_domain_at
)(__isl_keep PW
*pw
, int pos
)
313 return isl_set_copy(FN(PW
,peek_domain_at
)(pw
, pos
));
316 /* Return the cell at position "pos" in "pw".
317 * This may be either a copy or the cell itself
318 * if there is only one reference to "pw".
319 * This allows the cell to be modified inplace
320 * if both the piecewise expression and this cell
321 * have only a single reference.
322 * The caller is not allowed to modify "pw" between this call and
323 * the subsequent call to isl_pw_*_restore_domain_at.
324 * The only exception is that isl_pw_*_free can be called instead.
326 static __isl_give isl_set
*FN(PW
,take_domain_at
)(__isl_keep PW
*pw
, int pos
)
333 return FN(PW
,get_domain_at
)(pw
, pos
);
334 if (FN(PW
,check_pos
)(pw
, pos
) < 0)
336 domain
= pw
->p
[pos
].set
;
337 pw
->p
[pos
].set
= NULL
;
341 /* Set the cell at position "pos" in "pw" to "el",
342 * where this cell may be missing
343 * due to a preceding call to isl_pw_*_take_domain_at.
344 * However, in this case, "pw" only has a single reference and
345 * then the call to isl_pw_*_cow has no effect.
347 static __isl_give PW
*FN(PW
,restore_domain_at
)(__isl_take PW
*pw
, int pos
,
348 __isl_take isl_set
*domain
)
350 if (FN(PW
,check_pos
)(pw
, pos
) < 0 || !domain
)
353 if (pw
->p
[pos
].set
== domain
) {
354 isl_set_free(domain
);
361 isl_set_free(pw
->p
[pos
].set
);
362 pw
->p
[pos
].set
= domain
;
367 isl_set_free(domain
);
371 /* Return the base expression associated to
372 * the cell at position "pos" in "pw".
374 __isl_keep EL
*FN(PW
,peek_base_at
)(__isl_keep PW
*pw
, int pos
)
376 if (FN(PW
,check_pos
)(pw
, pos
) < 0)
378 return pw
->p
[pos
].FIELD
;
381 /* Return a copy of the base expression associated to
382 * the cell at position "pos" in "pw".
384 static __isl_give EL
*FN(PW
,get_base_at
)(__isl_keep PW
*pw
, int pos
)
386 return FN(EL
,copy
)(FN(PW
,peek_base_at
)(pw
, pos
));
389 /* Return the base expression associated to
390 * the cell at position "pos" in "pw".
391 * This may be either a copy or the base expression itself
392 * if there is only one reference to "pw".
393 * This allows the base expression to be modified inplace
394 * if both the piecewise expression and this base expression
395 * have only a single reference.
396 * The caller is not allowed to modify "pw" between this call and
397 * a subsequent call to isl_pw_*_restore_*.
398 * The only exception is that isl_pw_*_free can be called instead.
400 static __isl_give EL
*FN(PW
,take_base_at
)(__isl_keep PW
*pw
, int pos
)
407 return FN(PW
,get_base_at
)(pw
, pos
);
408 if (FN(PW
,check_pos
)(pw
, pos
) < 0)
410 el
= pw
->p
[pos
].FIELD
;
411 pw
->p
[pos
].FIELD
= NULL
;
415 /* Set the base expression associated to
416 * the cell at position "pos" in "pw" to "el",
417 * where this base expression may be missing
418 * due to a preceding call to isl_pw_*_take_base_at.
419 * However, in this case, "pw" only has a single reference and
420 * then the call to isl_pw_*_cow has no effect.
421 * If "inplace" is set, then replacing the base expression by "el"
422 * is known not to change the meaning of "pw". It can therefore be replaced
423 * in all references to "pw".
425 static __isl_give PW
*FN(PW
,restore_base_at_
)(__isl_take PW
*pw
, int pos
,
426 __isl_take EL
*el
, int inplace
)
428 if (FN(PW
,check_pos
)(pw
, pos
) < 0 || !el
)
431 if (pw
->p
[pos
].FIELD
== el
) {
440 FN(EL
,free
)(pw
->p
[pos
].FIELD
);
441 pw
->p
[pos
].FIELD
= el
;
450 /* Set the base expression associated to
451 * the cell at position "pos" in "pw" to "el",
452 * where this base expression may be missing
453 * due to a preceding call to isl_pw_*_take_base_at.
455 static __isl_give PW
*FN(PW
,restore_base_at
)(__isl_take PW
*pw
, int pos
,
458 return FN(PW
,restore_base_at_
)(pw
, pos
, el
, 0);
461 /* Set the base expression associated to
462 * the cell at position "pos" in "pw" to "el",
463 * where this base expression may be missing
464 * due to a preceding call to isl_pw_*_take_base_at.
465 * Furthermore, replacing the base expression by "el"
466 * is known not to change the meaning of "pw".
468 static __isl_give PW
*FN(PW
,restore_base_at_inplace
)(__isl_take PW
*pw
, int pos
,
471 return FN(PW
,restore_base_at_
)(pw
, pos
, el
, 1);
474 /* Create a piecewise expression with the given base expression on a universe
477 static __isl_give PW
*FN(FN(FN(PW
,from
),BASE
),type_base
)(__isl_take EL
*el
480 isl_set
*dom
= isl_set_universe(FN(EL
,get_domain_space
)(el
));
481 return FN(PW
,alloc
)(OPT_TYPE_ARG_FIRST(NO_LOC
) dom
, el
);
484 /* Create a piecewise expression with the given base expression on a universe
487 * If the default value of this piecewise type is zero and
488 * if "el" is effectively zero, then create an empty piecewise expression
491 static __isl_give PW
*FN(FN(FN(PW
,from
),BASE
),type
)(__isl_take EL
*el
497 if (!DEFAULT_IS_ZERO
)
498 return FN(FN(FN(PW
,from
),BASE
),type_base
)(el
499 OPT_TYPE_ARG(NO_LOC
));
500 is_zero
= FN(EL
,EL_IS_ZERO
)(el
);
504 return FN(FN(FN(PW
,from
),BASE
),type_base
)(el
505 OPT_TYPE_ARG(NO_LOC
));
506 space
= FN(EL
,get_space
)(el
);
508 return FN(PW
,ZERO
)(space
OPT_TYPE_ARG(NO_LOC
));
515 /* Create a piecewise expression with the given base expression on a universe
518 * Pass along the type as an extra argument for improved uniformity
519 * with piecewise types that do not have a fold type.
521 __isl_give PW
*FN(FN(PW
,from
),BASE
)(__isl_take EL
*el
)
523 enum isl_fold type
= FN(EL
,get_type
)(el
);
524 return FN(FN(FN(PW
,from
),BASE
),type
)(el
, type
);
527 __isl_give PW
*FN(FN(PW
,from
),BASE
)(__isl_take EL
*el
)
529 return FN(FN(FN(PW
,from
),BASE
),type
)(el
);
533 const char *FN(PW
,get_dim_name
)(__isl_keep PW
*pw
, enum isl_dim_type type
,
536 return pw
? isl_space_get_dim_name(pw
->dim
, type
, pos
) : NULL
;
539 isl_bool
FN(PW
,has_dim_id
)(__isl_keep PW
*pw
, enum isl_dim_type type
,
542 return pw
? isl_space_has_dim_id(pw
->dim
, type
, pos
) : isl_bool_error
;
545 __isl_give isl_id
*FN(PW
,get_dim_id
)(__isl_keep PW
*pw
, enum isl_dim_type type
,
548 return pw
? isl_space_get_dim_id(pw
->dim
, type
, pos
) : NULL
;
551 isl_bool
FN(PW
,has_tuple_name
)(__isl_keep PW
*pw
, enum isl_dim_type type
)
553 return pw
? isl_space_has_tuple_name(pw
->dim
, type
) : isl_bool_error
;
556 const char *FN(PW
,get_tuple_name
)(__isl_keep PW
*pw
, enum isl_dim_type type
)
558 return pw
? isl_space_get_tuple_name(pw
->dim
, type
) : NULL
;
561 isl_bool
FN(PW
,has_tuple_id
)(__isl_keep PW
*pw
, enum isl_dim_type type
)
563 return pw
? isl_space_has_tuple_id(pw
->dim
, type
) : isl_bool_error
;
566 __isl_give isl_id
*FN(PW
,get_tuple_id
)(__isl_keep PW
*pw
, enum isl_dim_type type
)
568 return pw
? isl_space_get_tuple_id(pw
->dim
, type
) : NULL
;
571 isl_bool
FN(PW
,IS_ZERO
)(__isl_keep PW
*pw
)
574 return isl_bool_error
;
576 return isl_bool_ok(pw
->n
== 0);
579 static __isl_give PW
*FN(PW
,realign_domain
)(__isl_take PW
*pw
,
580 __isl_take isl_reordering
*exp
)
585 n
= FN(PW
,n_piece
)(pw
);
589 for (i
= 0; i
< n
; ++i
) {
593 domain
= FN(PW
,take_domain_at
)(pw
, i
);
594 domain
= isl_set_realign(domain
, isl_reordering_copy(exp
));
595 pw
= FN(PW
,restore_domain_at
)(pw
, i
, domain
);
597 el
= FN(PW
,take_base_at
)(pw
, i
);
598 el
= FN(EL
,realign_domain
)(el
, isl_reordering_copy(exp
));
599 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
602 pw
= FN(PW
,reset_domain_space
)(pw
, isl_reordering_get_space(exp
));
604 isl_reordering_free(exp
);
607 isl_reordering_free(exp
);
615 #include "isl_check_named_params_templ.c"
617 /* Align the parameters of "pw" to those of "model".
619 __isl_give PW
*FN(PW
,align_params
)(__isl_take PW
*pw
, __isl_take isl_space
*model
)
622 isl_bool equal_params
;
627 ctx
= isl_space_get_ctx(model
);
628 if (!isl_space_has_named_params(model
))
629 isl_die(ctx
, isl_error_invalid
,
630 "model has unnamed parameters", goto error
);
631 if (FN(PW
,check_named_params
)(pw
) < 0)
633 equal_params
= isl_space_has_equal_params(pw
->dim
, model
);
634 if (equal_params
< 0)
640 space
= FN(PW
,get_domain_space
)(pw
);
641 exp
= isl_parameter_alignment_reordering(space
, model
);
642 isl_space_free(space
);
643 pw
= FN(PW
,realign_domain
)(pw
, exp
);
646 isl_space_free(model
);
649 isl_space_free(model
);
658 #include "isl_align_params_bin_templ.c"
668 #include "isl_align_params_templ.c"
673 #include "isl_type_has_equal_space_bin_templ.c"
674 #include "isl_type_check_equal_space_templ.c"
676 /* Private version of "union_add". For isl_pw_qpolynomial and
677 * isl_pw_qpolynomial_fold, we prefer to simply call it "add".
679 static __isl_give PW
*FN(PW
,union_add_
)(__isl_take PW
*pw1
, __isl_take PW
*pw2
)
686 if (FN(PW
,align_params_bin
)(&pw1
, &pw2
) < 0)
689 ctx
= isl_space_get_ctx(pw1
->dim
);
690 if (!OPT_EQUAL_TYPES(pw1
->, pw2
->))
691 isl_die(ctx
, isl_error_invalid
,
692 "fold types don't match", goto error
);
693 if (FN(PW
,check_equal_space
)(pw1
, pw2
) < 0)
696 if (FN(PW
,IS_ZERO
)(pw1
)) {
701 if (FN(PW
,IS_ZERO
)(pw2
)) {
706 n
= (pw1
->n
+ 1) * (pw2
->n
+ 1);
707 res
= FN(PW
,alloc_size
)(isl_space_copy(pw1
->dim
)
708 OPT_TYPE_ARG(pw1
->), n
);
710 for (i
= 0; i
< pw1
->n
; ++i
) {
711 set
= isl_set_copy(pw1
->p
[i
].set
);
712 for (j
= 0; j
< pw2
->n
; ++j
) {
713 struct isl_set
*common
;
715 common
= isl_set_intersect(isl_set_copy(pw1
->p
[i
].set
),
716 isl_set_copy(pw2
->p
[j
].set
));
717 if (isl_set_plain_is_empty(common
)) {
718 isl_set_free(common
);
721 set
= isl_set_subtract(set
,
722 isl_set_copy(pw2
->p
[j
].set
));
724 sum
= FN(EL
,add_on_domain
)(common
,
725 FN(EL
,copy
)(pw1
->p
[i
].FIELD
),
726 FN(EL
,copy
)(pw2
->p
[j
].FIELD
));
728 res
= FN(PW
,add_piece
)(res
, common
, sum
);
730 res
= FN(PW
,add_piece
)(res
, set
, FN(EL
,copy
)(pw1
->p
[i
].FIELD
));
733 for (j
= 0; j
< pw2
->n
; ++j
) {
734 set
= isl_set_copy(pw2
->p
[j
].set
);
735 for (i
= 0; i
< pw1
->n
; ++i
)
736 set
= isl_set_subtract(set
,
737 isl_set_copy(pw1
->p
[i
].set
));
738 res
= FN(PW
,add_piece
)(res
, set
, FN(EL
,copy
)(pw2
->p
[j
].FIELD
));
753 /* Compute the sum of "pw1" and "pw2 on the union of their domains,
754 * with the actual sum on the shared domain and
755 * the defined expression on the symmetric difference of the domains.
757 * This function is only defined for object types that do not have
758 * a default zero value. For other object types, this function
759 * is simply called "add".
761 __isl_give PW
*FN(PW
,union_add
)(__isl_take PW
*pw1
, __isl_take PW
*pw2
)
763 return FN(PW
,union_add_
)(pw1
, pw2
);
768 /* This function is currently only used from isl_aff.c
770 static __isl_give PW
*FN(PW
,on_shared_domain_in
)(__isl_take PW
*pw1
,
771 __isl_take PW
*pw2
, __isl_take isl_space
*space
,
772 __isl_give EL
*(*fn
)(__isl_take EL
*el1
, __isl_take EL
*el2
))
773 __attribute__ ((unused
));
775 /* Apply "fn" to pairs of elements from pw1 and pw2 on shared domains.
776 * The result of "fn" (and therefore also of this function) lives in "space".
778 static __isl_give PW
*FN(PW
,on_shared_domain_in
)(__isl_take PW
*pw1
,
779 __isl_take PW
*pw2
, __isl_take isl_space
*space
,
780 __isl_give EL
*(*fn
)(__isl_take EL
*el1
, __isl_take EL
*el2
))
789 res
= FN(PW
,alloc_size
)(isl_space_copy(space
) OPT_TYPE_ARG(pw1
->), n
);
791 for (i
= 0; i
< pw1
->n
; ++i
) {
792 for (j
= 0; j
< pw2
->n
; ++j
) {
797 common
= isl_set_intersect(
798 isl_set_copy(pw1
->p
[i
].set
),
799 isl_set_copy(pw2
->p
[j
].set
));
800 empty
= isl_set_plain_is_empty(common
);
801 if (empty
< 0 || empty
) {
802 isl_set_free(common
);
808 res_ij
= fn(FN(EL
,copy
)(pw1
->p
[i
].FIELD
),
809 FN(EL
,copy
)(pw2
->p
[j
].FIELD
));
810 res_ij
= FN(EL
,gist
)(res_ij
, isl_set_copy(common
));
812 res
= FN(PW
,add_piece
)(res
, common
, res_ij
);
816 isl_space_free(space
);
821 isl_space_free(space
);
828 /* This function is currently only used from isl_aff.c
830 static __isl_give PW
*FN(PW
,on_shared_domain
)(__isl_take PW
*pw1
,
832 __isl_give EL
*(*fn
)(__isl_take EL
*el1
, __isl_take EL
*el2
))
833 __attribute__ ((unused
));
835 /* Apply "fn" to pairs of elements from pw1 and pw2 on shared domains.
836 * The result of "fn" is assumed to live in the same space as "pw1" and "pw2".
838 static __isl_give PW
*FN(PW
,on_shared_domain
)(__isl_take PW
*pw1
,
840 __isl_give EL
*(*fn
)(__isl_take EL
*el1
, __isl_take EL
*el2
))
844 if (FN(PW
,check_equal_space
)(pw1
, pw2
) < 0)
847 space
= isl_space_copy(pw1
->dim
);
848 return FN(PW
,on_shared_domain_in
)(pw1
, pw2
, space
, fn
);
855 /* Return the parameter domain of "pw".
857 __isl_give isl_set
*FN(PW
,params
)(__isl_take PW
*pw
)
859 return isl_set_params(FN(PW
,domain
)(pw
));
862 __isl_give isl_set
*FN(PW
,domain
)(__isl_take PW
*pw
)
870 dom
= isl_set_empty(FN(PW
,get_domain_space
)(pw
));
871 for (i
= 0; i
< pw
->n
; ++i
)
872 dom
= isl_set_union_disjoint(dom
, isl_set_copy(pw
->p
[i
].set
));
879 /* Exploit the equalities in the domain of piece "i" of "pw"
880 * to simplify the associated function.
881 * If the domain of piece "i" is empty, then remove it entirely,
882 * replacing it with the final piece.
884 static __isl_give PW
*FN(PW
,exploit_equalities_and_remove_if_empty
)(
885 __isl_take PW
*pw
, int i
)
892 domain
= FN(PW
,peek_domain_at
)(pw
, i
);
893 empty
= isl_set_plain_is_empty(domain
);
895 return FN(PW
,free
)(pw
);
897 isl_set_free(pw
->p
[i
].set
);
898 FN(EL
,free
)(pw
->p
[i
].FIELD
);
900 pw
->p
[i
] = pw
->p
[pw
->n
- 1];
906 aff
= isl_set_affine_hull(FN(PW
,get_domain_at
)(pw
, i
));
907 el
= FN(PW
,take_base_at
)(pw
, i
);
908 el
= FN(EL
,substitute_equalities
)(el
, aff
);
909 pw
= FN(PW
,restore_base_at_inplace
)(pw
, i
, el
);
914 /* Restrict the domain of "pw" by combining each cell
915 * with "set" through a call to "fn", where "fn" may be
916 * isl_set_intersect, isl_set_intersect_params, isl_set_intersect_factor_domain,
917 * isl_set_intersect_factor_range or isl_set_subtract.
919 static __isl_give PW
*FN(PW
,restrict_domain
)(__isl_take PW
*pw
,
920 __isl_take isl_set
*set
,
921 __isl_give isl_set
*(*fn
)(__isl_take isl_set
*set1
,
922 __isl_take isl_set
*set2
))
927 FN(PW
,align_params_set
)(&pw
, &set
);
928 n
= FN(PW
,n_piece
)(pw
);
932 for (i
= n
- 1; i
>= 0; --i
) {
935 domain
= FN(PW
,take_domain_at
)(pw
, i
);
936 domain
= fn(domain
, isl_set_copy(set
));
937 pw
= FN(PW
,restore_domain_at
)(pw
, i
, domain
);
938 pw
= FN(PW
,exploit_equalities_and_remove_if_empty
)(pw
, i
);
949 __isl_give PW
*FN(PW
,intersect_domain
)(__isl_take PW
*pw
,
950 __isl_take isl_set
*context
)
952 return FN(PW
,restrict_domain
)(pw
, context
, &isl_set_intersect
);
955 /* Intersect the domain of "pw" with the parameter domain "context".
957 __isl_give PW
*FN(PW
,intersect_params
)(__isl_take PW
*pw
,
958 __isl_take isl_set
*context
)
960 return FN(PW
,restrict_domain
)(pw
, context
, &isl_set_intersect_params
);
963 /* Given a piecewise expression "pw" with domain in a space [A -> B] and
964 * a set in the space A, intersect the domain with the set.
966 __isl_give PW
*FN(PW
,intersect_domain_wrapped_domain
)(__isl_take PW
*pw
,
967 __isl_take isl_set
*set
)
969 return FN(PW
,restrict_domain
)(pw
, set
,
970 &isl_set_intersect_factor_domain
);
973 /* Given a piecewise expression "pw" with domain in a space [A -> B] and
974 * a set in the space B, intersect the domain with the set.
976 __isl_give PW
*FN(PW
,intersect_domain_wrapped_range
)(__isl_take PW
*pw
,
977 __isl_take isl_set
*set
)
979 return FN(PW
,restrict_domain
)(pw
, set
, &isl_set_intersect_factor_range
);
982 /* Subtract "domain' from the domain of "pw".
984 __isl_give PW
*FN(PW
,subtract_domain
)(__isl_take PW
*pw
,
985 __isl_take isl_set
*domain
)
987 return FN(PW
,restrict_domain
)(pw
, domain
, &isl_set_subtract
);
990 /* Return -1 if the piece "p1" should be sorted before "p2"
991 * and 1 if it should be sorted after "p2".
992 * Return 0 if they do not need to be sorted in a specific order.
994 * The two pieces are compared on the basis of their function value expressions.
996 static int FN(PW
,sort_field_cmp
)(const void *p1
, const void *p2
, void *arg
)
998 struct FN(PW
,piece
) const *pc1
= p1
;
999 struct FN(PW
,piece
) const *pc2
= p2
;
1001 return FN(EL
,plain_cmp
)(pc1
->FIELD
, pc2
->FIELD
);
1004 /* Sort the pieces of "pw" according to their function value
1005 * expressions and then combine pairs of adjacent pieces with
1006 * the same such expression.
1008 * The sorting is performed in place because it does not
1009 * change the meaning of "pw", but care needs to be
1010 * taken not to change any possible other copies of "pw"
1011 * in case anything goes wrong.
1013 static __isl_give PW
*FN(PW
,sort_unique
)(__isl_take PW
*pw
)
1022 if (isl_sort(pw
->p
, pw
->n
, sizeof(pw
->p
[0]),
1023 &FN(PW
,sort_field_cmp
), NULL
) < 0)
1024 return FN(PW
,free
)(pw
);
1025 for (i
= pw
->n
- 1; i
>= 1; --i
) {
1030 el
= FN(PW
,peek_base_at
)(pw
, i
);
1031 el_prev
= FN(PW
,peek_base_at
)(pw
, i
- 1);
1032 equal
= FN(EL
,plain_is_equal
)(el
, el_prev
);
1034 return FN(PW
,free
)(pw
);
1037 set
= FN(PW
,get_domain_at
)(pw
, i
);
1038 set_prev
= FN(PW
,get_domain_at
)(pw
, i
- 1);
1039 set
= isl_set_union(set_prev
, set
);
1041 return FN(PW
,free
)(pw
);
1042 isl_set_free(pw
->p
[i
].set
);
1043 FN(EL
,free
)(pw
->p
[i
].FIELD
);
1044 isl_set_free(pw
->p
[i
- 1].set
);
1045 pw
->p
[i
- 1].set
= set
;
1046 for (j
= i
+ 1; j
< pw
->n
; ++j
)
1047 pw
->p
[j
- 1] = pw
->p
[j
];
1054 /* Compute the gist of "pw" with respect to the domain constraints
1055 * of "context" for the case where the domain of the last element
1056 * of "pw" is equal to "context".
1057 * Compute the gist of this element, replace
1058 * its domain by the universe and drop all other elements
1059 * as their domains are necessarily disjoint from "context".
1061 static __isl_give PW
*FN(PW
,gist_last
)(__isl_take PW
*pw
,
1062 __isl_take isl_set
*context
)
1068 for (i
= 0; i
< pw
->n
- 1; ++i
) {
1069 isl_set_free(pw
->p
[i
].set
);
1070 FN(EL
,free
)(pw
->p
[i
].FIELD
);
1072 pw
->p
[0].FIELD
= pw
->p
[pw
->n
- 1].FIELD
;
1073 pw
->p
[0].set
= pw
->p
[pw
->n
- 1].set
;
1076 space
= isl_set_get_space(context
);
1077 el
= FN(PW
,take_base_at
)(pw
, 0);
1078 el
= FN(EL
,gist
)(el
, context
);
1079 pw
= FN(PW
,restore_base_at
)(pw
, 0, el
);
1080 context
= isl_set_universe(space
);
1081 pw
= FN(PW
,restore_domain_at
)(pw
, 0, context
);
1086 /* Compute the gist of "pw" with respect to the domain constraints
1088 * Call "fn_dom" to compute the gist of the domains and
1089 * "intersect_context" to intersect the domain with the context.
1091 * If the piecewise expression is empty or the context is the universe,
1092 * then nothing can be simplified.
1093 * If "pw" has a single domain and it is equal to "context",
1094 * then simply replace the domain by the universe.
1095 * Combine duplicate function value expressions first
1096 * to increase the chance of "pw" having a single domain.
1098 static __isl_give PW
*FN(PW
,gist_fn
)(__isl_take PW
*pw
,
1099 __isl_take isl_set
*context
,
1100 __isl_give isl_set
*(*fn_dom
)(__isl_take isl_set
*set
,
1101 __isl_take isl_basic_set
*bset
),
1102 __isl_give isl_set
*intersect_context(__isl_take isl_set
*set
,
1103 __isl_take isl_set
*context
))
1107 isl_basic_set
*hull
= NULL
;
1109 pw
= FN(PW
,sort_unique
)(pw
);
1110 if (!pw
|| !context
)
1114 isl_set_free(context
);
1118 is_universe
= isl_set_plain_is_universe(context
);
1119 if (is_universe
< 0)
1122 isl_set_free(context
);
1126 FN(PW
,align_params_set
)(&pw
, &context
);
1128 pw
= FN(PW
,cow
)(pw
);
1135 equal
= isl_set_plain_is_equal(pw
->p
[0].set
, context
);
1139 return FN(PW
,gist_last
)(pw
, context
);
1142 context
= isl_set_compute_divs(context
);
1143 hull
= isl_set_simple_hull(isl_set_copy(context
));
1145 for (i
= pw
->n
- 1; i
>= 0; --i
) {
1150 if (i
== pw
->n
- 1) {
1152 equal
= isl_set_plain_is_equal(pw
->p
[i
].set
, context
);
1156 isl_basic_set_free(hull
);
1157 return FN(PW
,gist_last
)(pw
, context
);
1160 set_i
= FN(PW
,get_domain_at
)(pw
, i
);
1161 set_i
= intersect_context(set_i
, isl_set_copy(context
));
1162 empty
= isl_set_plain_is_empty(set_i
);
1163 el
= FN(PW
,take_base_at
)(pw
, i
);
1164 el
= FN(EL
,gist
)(el
, set_i
);
1165 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
1166 set_i
= FN(PW
,take_domain_at
)(pw
, i
);
1167 set_i
= fn_dom(set_i
, isl_basic_set_copy(hull
));
1168 pw
= FN(PW
,restore_domain_at
)(pw
, i
, set_i
);
1169 if (empty
< 0 || !pw
)
1172 isl_set_free(pw
->p
[i
].set
);
1173 FN(EL
,free
)(pw
->p
[i
].FIELD
);
1175 pw
->p
[i
] = pw
->p
[pw
->n
- 1];
1180 isl_basic_set_free(hull
);
1181 isl_set_free(context
);
1186 isl_basic_set_free(hull
);
1187 isl_set_free(context
);
1191 __isl_give PW
*FN(PW
,gist
)(__isl_take PW
*pw
, __isl_take isl_set
*context
)
1193 return FN(PW
,gist_fn
)(pw
, context
, &isl_set_gist_basic_set
,
1194 &isl_set_intersect
);
1197 __isl_give PW
*FN(PW
,gist_params
)(__isl_take PW
*pw
,
1198 __isl_take isl_set
*context
)
1200 return FN(PW
,gist_fn
)(pw
, context
, &isl_set_gist_params_basic_set
,
1201 &isl_set_intersect_params
);
1204 /* Coalesce the domains of "pw".
1206 * Prior to the actual coalescing, first sort the pieces such that
1207 * pieces with the same function value expression are combined
1208 * into a single piece, the combined domain of which can then
1211 __isl_give PW
*FN(PW
,coalesce
)(__isl_take PW
*pw
)
1216 pw
= FN(PW
,sort_unique
)(pw
);
1217 n
= FN(PW
,n_piece
)(pw
);
1219 return FN(PW
,free
)(pw
);
1221 for (i
= 0; i
< n
; ++i
) {
1222 pw
->p
[i
].set
= isl_set_coalesce(pw
->p
[i
].set
);
1233 isl_ctx
*FN(PW
,get_ctx
)(__isl_keep PW
*pw
)
1235 return pw
? isl_space_get_ctx(pw
->dim
) : NULL
;
1238 isl_bool
FN(PW
,involves_dims
)(__isl_keep PW
*pw
, enum isl_dim_type type
,
1239 unsigned first
, unsigned n
)
1242 enum isl_dim_type set_type
;
1245 return isl_bool_error
;
1246 if (pw
->n
== 0 || n
== 0)
1247 return isl_bool_false
;
1249 set_type
= type
== isl_dim_in
? isl_dim_set
: type
;
1251 for (i
= 0; i
< pw
->n
; ++i
) {
1252 isl_bool involves
= FN(EL
,involves_dims
)(pw
->p
[i
].FIELD
,
1254 if (involves
< 0 || involves
)
1256 involves
= isl_set_involves_dims(pw
->p
[i
].set
,
1257 set_type
, first
, n
);
1258 if (involves
< 0 || involves
)
1261 return isl_bool_false
;
1264 __isl_give PW
*FN(PW
,set_dim_name
)(__isl_take PW
*pw
,
1265 enum isl_dim_type type
, unsigned pos
, const char *s
)
1269 space
= FN(PW
,get_space
)(pw
);
1270 space
= isl_space_set_dim_name(space
, type
, pos
, s
);
1271 return FN(PW
,reset_space
)(pw
, space
);
1274 __isl_give PW
*FN(PW
,drop_dims
)(__isl_take PW
*pw
,
1275 enum isl_dim_type type
, unsigned first
, unsigned n
)
1279 enum isl_dim_type set_type
;
1282 n_piece
= FN(PW
,n_piece
)(pw
);
1284 return FN(PW
,free
)(pw
);
1285 if (n
== 0 && !isl_space_get_tuple_name(pw
->dim
, type
))
1288 set_type
= type
== isl_dim_in
? isl_dim_set
: type
;
1290 space
= FN(PW
,take_space
)(pw
);
1291 space
= isl_space_drop_dims(space
, type
, first
, n
);
1292 pw
= FN(PW
,restore_space
)(pw
, space
);
1293 for (i
= 0; i
< n_piece
; ++i
) {
1297 el
= FN(PW
,take_base_at
)(pw
, i
);
1298 el
= FN(EL
,drop_dims
)(el
, type
, first
, n
);
1299 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
1300 if (type
== isl_dim_out
)
1302 domain
= FN(PW
,take_domain_at
)(pw
, i
);
1303 domain
= isl_set_drop(domain
, set_type
, first
, n
);
1304 pw
= FN(PW
,restore_domain_at
)(pw
, i
, domain
);
1310 /* This function is very similar to drop_dims.
1311 * The only difference is that the cells may still involve
1312 * the specified dimensions. They are removed using
1313 * isl_set_project_out instead of isl_set_drop.
1315 __isl_give PW
*FN(PW
,project_out
)(__isl_take PW
*pw
,
1316 enum isl_dim_type type
, unsigned first
, unsigned n
)
1320 enum isl_dim_type set_type
;
1323 n_piece
= FN(PW
,n_piece
)(pw
);
1325 return FN(PW
,free
)(pw
);
1326 if (n
== 0 && !isl_space_get_tuple_name(pw
->dim
, type
))
1329 set_type
= type
== isl_dim_in
? isl_dim_set
: type
;
1331 space
= FN(PW
,take_space
)(pw
);
1332 space
= isl_space_drop_dims(space
, type
, first
, n
);
1333 pw
= FN(PW
,restore_space
)(pw
, space
);
1334 for (i
= 0; i
< n_piece
; ++i
) {
1338 domain
= FN(PW
,take_domain_at
)(pw
, i
);
1339 domain
= isl_set_project_out(domain
, set_type
, first
, n
);
1340 pw
= FN(PW
,restore_domain_at
)(pw
, i
, domain
);
1341 el
= FN(PW
,take_base_at
)(pw
, i
);
1342 el
= FN(EL
,drop_dims
)(el
, type
, first
, n
);
1343 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
1349 /* Project the domain of pw onto its parameter space.
1351 __isl_give PW
*FN(PW
,project_domain_on_params
)(__isl_take PW
*pw
)
1356 n
= FN(PW
,dim
)(pw
, isl_dim_in
);
1358 return FN(PW
,free
)(pw
);
1359 pw
= FN(PW
,project_out
)(pw
, isl_dim_in
, 0, n
);
1360 space
= FN(PW
,get_domain_space
)(pw
);
1361 space
= isl_space_params(space
);
1362 pw
= FN(PW
,reset_domain_space
)(pw
, space
);
1366 /* Drop all parameters not referenced by "pw".
1368 __isl_give PW
*FN(PW
,drop_unused_params
)(__isl_take PW
*pw
)
1373 if (FN(PW
,check_named_params
)(pw
) < 0)
1374 return FN(PW
,free
)(pw
);
1376 n
= FN(PW
,dim
)(pw
, isl_dim_param
);
1378 return FN(PW
,free
)(pw
);
1379 for (i
= n
- 1; i
>= 0; i
--) {
1382 involves
= FN(PW
,involves_dims
)(pw
, isl_dim_param
, i
, 1);
1384 return FN(PW
,free
)(pw
);
1386 pw
= FN(PW
,drop_dims
)(pw
, isl_dim_param
, i
, 1);
1392 isl_size
FN(PW
,dim
)(__isl_keep PW
*pw
, enum isl_dim_type type
)
1394 return isl_space_dim(FN(PW
,peek_space
)(pw
), type
);
1397 __isl_give isl_space
*FN(PW
,get_domain_space
)(__isl_keep PW
*pw
)
1399 return pw
? isl_space_domain(isl_space_copy(pw
->dim
)) : NULL
;
1402 /* Return the position of the dimension of the given type and name
1404 * Return -1 if no such dimension can be found.
1406 int FN(PW
,find_dim_by_name
)(__isl_keep PW
*pw
,
1407 enum isl_dim_type type
, const char *name
)
1411 return isl_space_find_dim_by_name(pw
->dim
, type
, name
);
1414 /* Return the position of the dimension of the given type and identifier
1416 * Return -1 if no such dimension can be found.
1418 static int FN(PW
,find_dim_by_id
)(__isl_keep PW
*pw
,
1419 enum isl_dim_type type
, __isl_keep isl_id
*id
)
1423 space
= FN(PW
,peek_space
)(pw
);
1424 return isl_space_find_dim_by_id(space
, type
, id
);
1427 /* Does the piecewise expression "pw" depend in any way
1428 * on the parameter with identifier "id"?
1430 isl_bool
FN(PW
,involves_param_id
)(__isl_keep PW
*pw
, __isl_keep isl_id
*id
)
1435 return isl_bool_error
;
1437 return isl_bool_false
;
1439 pos
= FN(PW
,find_dim_by_id
)(pw
, isl_dim_param
, id
);
1441 return isl_bool_false
;
1442 return FN(PW
,involves_dims
)(pw
, isl_dim_param
, pos
, 1);
1445 /* Reset the space of "pw". Since we don't know if the elements
1446 * represent the spaces themselves or their domains, we pass along
1447 * both when we call their reset_space_and_domain.
1449 static __isl_give PW
*FN(PW
,reset_space_and_domain
)(__isl_take PW
*pw
,
1450 __isl_take isl_space
*space
, __isl_take isl_space
*domain
)
1455 n
= FN(PW
,n_piece
)(pw
);
1456 if (n
< 0 || !space
|| !domain
)
1459 for (i
= 0; i
< n
; ++i
) {
1463 set
= FN(PW
,take_domain_at
)(pw
, i
);
1464 set
= isl_set_reset_space(set
, isl_space_copy(domain
));
1465 pw
= FN(PW
,restore_domain_at
)(pw
, i
, set
);
1466 el
= FN(PW
,take_base_at
)(pw
, i
);
1467 el
= FN(EL
,reset_space_and_domain
)(el
,
1468 isl_space_copy(space
), isl_space_copy(domain
));
1469 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
1472 isl_space_free(domain
);
1474 pw
= FN(PW
,restore_space
)(pw
, space
);
1478 isl_space_free(domain
);
1479 isl_space_free(space
);
1484 __isl_give PW
*FN(PW
,reset_domain_space
)(__isl_take PW
*pw
,
1485 __isl_take isl_space
*domain
)
1489 space
= isl_space_extend_domain_with_range(isl_space_copy(domain
),
1490 FN(PW
,get_space
)(pw
));
1491 return FN(PW
,reset_space_and_domain
)(pw
, space
, domain
);
1494 __isl_give PW
*FN(PW
,reset_space
)(__isl_take PW
*pw
,
1495 __isl_take isl_space
*space
)
1499 domain
= isl_space_domain(isl_space_copy(space
));
1500 return FN(PW
,reset_space_and_domain
)(pw
, space
, domain
);
1503 __isl_give PW
*FN(PW
,set_tuple_id
)(__isl_take PW
*pw
, enum isl_dim_type type
,
1504 __isl_take isl_id
*id
)
1508 pw
= FN(PW
,cow
)(pw
);
1512 space
= FN(PW
,get_space
)(pw
);
1513 space
= isl_space_set_tuple_id(space
, type
, id
);
1515 return FN(PW
,reset_space
)(pw
, space
);
1518 return FN(PW
,free
)(pw
);
1521 /* Drop the id on the specified tuple.
1523 __isl_give PW
*FN(PW
,reset_tuple_id
)(__isl_take PW
*pw
, enum isl_dim_type type
)
1529 if (!FN(PW
,has_tuple_id
)(pw
, type
))
1532 pw
= FN(PW
,cow
)(pw
);
1536 space
= FN(PW
,get_space
)(pw
);
1537 space
= isl_space_reset_tuple_id(space
, type
);
1539 return FN(PW
,reset_space
)(pw
, space
);
1542 __isl_give PW
*FN(PW
,set_dim_id
)(__isl_take PW
*pw
,
1543 enum isl_dim_type type
, unsigned pos
, __isl_take isl_id
*id
)
1547 space
= FN(PW
,get_space
)(pw
);
1548 space
= isl_space_set_dim_id(space
, type
, pos
, id
);
1549 return FN(PW
,reset_space
)(pw
, space
);
1552 /* Reset the user pointer on all identifiers of parameters and tuples
1553 * of the space of "pw".
1555 __isl_give PW
*FN(PW
,reset_user
)(__isl_take PW
*pw
)
1559 space
= FN(PW
,get_space
)(pw
);
1560 space
= isl_space_reset_user(space
);
1562 return FN(PW
,reset_space
)(pw
, space
);
1565 isl_size
FN(PW
,n_piece
)(__isl_keep PW
*pw
)
1567 return pw
? pw
->n
: isl_size_error
;
1570 isl_stat
FN(PW
,foreach_piece
)(__isl_keep PW
*pw
,
1571 isl_stat (*fn
)(__isl_take isl_set
*set
, __isl_take EL
*el
, void *user
),
1577 return isl_stat_error
;
1579 for (i
= 0; i
< pw
->n
; ++i
)
1580 if (fn(isl_set_copy(pw
->p
[i
].set
),
1581 FN(EL
,copy
)(pw
->p
[i
].FIELD
), user
) < 0)
1582 return isl_stat_error
;
1587 /* Does "test" succeed on every cell of "pw"?
1589 isl_bool
FN(PW
,every_piece
)(__isl_keep PW
*pw
,
1590 isl_bool (*test
)(__isl_keep isl_set
*set
,
1591 __isl_keep EL
*el
, void *user
), void *user
)
1596 return isl_bool_error
;
1598 for (i
= 0; i
< pw
->n
; ++i
) {
1601 r
= test(pw
->p
[i
].set
, pw
->p
[i
].FIELD
, user
);
1606 return isl_bool_true
;
1609 /* Is "pw" defined over a single universe domain?
1611 * If the default value of this piecewise type is zero,
1612 * then a "pw" with a zero number of cells is also accepted
1613 * as it represents the default zero value.
1615 isl_bool
FN(FN(PW
,isa
),BASE
)(__isl_keep PW
*pw
)
1619 n
= FN(PW
,n_piece
)(pw
);
1621 return isl_bool_error
;
1622 if (DEFAULT_IS_ZERO
&& n
== 0)
1623 return isl_bool_true
;
1625 return isl_bool_false
;
1626 return isl_set_plain_is_universe(FN(PW
,peek_domain_at
)(pw
, 0));
1629 /* Return a zero base expression in the same space (and of the same type)
1632 static __isl_give EL
*FN(EL
,zero_like_type
)(__isl_take PW
*pw OPT_TYPE_PARAM
)
1636 space
= FN(PW
,get_space
)(pw
);
1638 return FN(EL
,zero_in_space
)(space
OPT_TYPE_ARG(NO_LOC
));
1642 /* Return a zero base expression in the same space as "pw".
1644 static __isl_give EL
*FN(EL
,zero_like
)(__isl_take PW
*pw
)
1646 return FN(EL
,zero_like_type
)(pw
);
1649 /* Return a zero base expression in the same space and of the same type
1652 * Pass along the type as an explicit argument for uniform handling
1653 * in isl_*_zero_like_type.
1655 static __isl_give EL
*FN(EL
,zero_like
)(__isl_take PW
*pw
)
1659 type
= FN(PW
,get_type
)(pw
);
1662 return FN(EL
,zero_like_type
)(pw
, type
);
1669 /* Given that "pw" is defined over a single universe domain,
1670 * return the base expression associated to this domain.
1672 * If the number of cells is zero, then "pw" is of a piecewise type
1673 * with a default zero value and effectively represents zero.
1674 * In this case, create a zero base expression in the same space
1675 * (and with the same type).
1676 * Otherwise, simply extract the associated base expression.
1678 __isl_give EL
*FN(FN(PW
,as
),BASE
)(__isl_take PW
*pw
)
1684 is_total
= FN(FN(PW
,isa
),BASE
)(pw
);
1688 isl_die(FN(PW
,get_ctx
)(pw
), isl_error_invalid
,
1689 "expecting single total function", goto error
);
1690 n
= FN(PW
,n_piece
)(pw
);
1694 return FN(EL
,zero_like
)(pw
);
1695 el
= FN(PW
,take_base_at
)(pw
, 0);
1704 /* Negate the type of "pw".
1706 static __isl_give PW
*FN(PW
,negate_type
)(__isl_take PW
*pw
)
1708 pw
= FN(PW
,cow
)(pw
);
1711 pw
->type
= isl_fold_type_negate(pw
->type
);
1715 /* Negate the type of "pw".
1716 * Since "pw" does not have a type, do nothing.
1718 static __isl_give PW
*FN(PW
,negate_type
)(__isl_take PW
*pw
)
1724 /* Multiply the pieces of "pw" by "v" and return the result.
1726 __isl_give PW
*FN(PW
,scale_val
)(__isl_take PW
*pw
, __isl_take isl_val
*v
)
1734 if (isl_val_is_one(v
)) {
1738 if (pw
&& DEFAULT_IS_ZERO
&& isl_val_is_zero(v
)) {
1740 isl_space
*space
= FN(PW
,get_space
)(pw
);
1741 zero
= FN(PW
,ZERO
)(space
OPT_TYPE_ARG(pw
->));
1746 if (isl_val_is_neg(v
))
1747 pw
= FN(PW
,negate_type
)(pw
);
1748 n
= FN(PW
,n_piece
)(pw
);
1752 for (i
= 0; i
< n
; ++i
) {
1755 el
= FN(PW
,take_base_at
)(pw
, i
);
1756 el
= FN(EL
,scale_val
)(el
, isl_val_copy(v
));
1757 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
1768 /* Divide the pieces of "pw" by "v" and return the result.
1770 __isl_give PW
*FN(PW
,scale_down_val
)(__isl_take PW
*pw
, __isl_take isl_val
*v
)
1778 if (isl_val_is_one(v
)) {
1783 if (!isl_val_is_rat(v
))
1784 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
1785 "expecting rational factor", goto error
);
1786 if (isl_val_is_zero(v
))
1787 isl_die(isl_val_get_ctx(v
), isl_error_invalid
,
1788 "cannot scale down by zero", goto error
);
1790 if (isl_val_is_neg(v
))
1791 pw
= FN(PW
,negate_type
)(pw
);
1792 n
= FN(PW
,n_piece
)(pw
);
1796 for (i
= 0; i
< n
; ++i
) {
1799 el
= FN(PW
,take_base_at
)(pw
, i
);
1800 el
= FN(EL
,scale_down_val
)(el
, isl_val_copy(v
));
1801 pw
= FN(PW
,restore_base_at
)(pw
, i
, el
);
1812 /* Apply some normalization to "pw".
1813 * In particular, sort the pieces according to their function value
1814 * expressions, combining pairs of adjacent pieces with
1815 * the same such expression, and then normalize the domains of the pieces.
1817 * We normalize in place, but if anything goes wrong we need
1818 * to return NULL, so we need to make sure we don't change the
1819 * meaning of any possible other copies of "pw".
1821 static __isl_give PW
*FN(PW
,normalize
)(__isl_take PW
*pw
)
1826 pw
= FN(PW
,sort_unique
)(pw
);
1829 for (i
= 0; i
< pw
->n
; ++i
) {
1830 set
= isl_set_normalize(isl_set_copy(pw
->p
[i
].set
));
1832 return FN(PW
,free
)(pw
);
1833 isl_set_free(pw
->p
[i
].set
);
1840 /* Is pw1 obviously equal to pw2?
1841 * That is, do they have obviously identical cells and obviously identical
1842 * elements on each cell?
1844 * If "pw1" or "pw2" contain any NaNs, then they are considered
1845 * not to be the same. A NaN is not equal to anything, not even
1848 isl_bool
FN(PW
,plain_is_equal
)(__isl_keep PW
*pw1
, __isl_keep PW
*pw2
)
1851 isl_bool equal
, has_nan
;
1854 return isl_bool_error
;
1856 has_nan
= FN(PW
,involves_nan
)(pw1
);
1857 if (has_nan
>= 0 && !has_nan
)
1858 has_nan
= FN(PW
,involves_nan
)(pw2
);
1859 if (has_nan
< 0 || has_nan
)
1860 return isl_bool_not(has_nan
);
1863 return isl_bool_true
;
1864 equal
= FN(PW
,has_equal_space
)(pw1
, pw2
);
1865 if (equal
< 0 || !equal
)
1868 pw1
= FN(PW
,copy
)(pw1
);
1869 pw2
= FN(PW
,copy
)(pw2
);
1870 pw1
= FN(PW
,normalize
)(pw1
);
1871 pw2
= FN(PW
,normalize
)(pw2
);
1875 equal
= isl_bool_ok(pw1
->n
== pw2
->n
);
1876 for (i
= 0; equal
&& i
< pw1
->n
; ++i
) {
1877 equal
= isl_set_plain_is_equal(pw1
->p
[i
].set
, pw2
->p
[i
].set
);
1882 equal
= FN(EL
,plain_is_equal
)(pw1
->p
[i
].FIELD
, pw2
->p
[i
].FIELD
);
1893 return isl_bool_error
;
1896 /* Does "pw" involve any NaNs?
1898 isl_bool
FN(PW
,involves_nan
)(__isl_keep PW
*pw
)
1903 return isl_bool_error
;
1905 return isl_bool_false
;
1907 for (i
= 0; i
< pw
->n
; ++i
) {
1908 isl_bool has_nan
= FN(EL
,involves_nan
)(pw
->p
[i
].FIELD
);
1909 if (has_nan
< 0 || has_nan
)
1913 return isl_bool_false
;