2 * Copyright 2008-2009 Katholieke Universiteit Leuven
3 * Copyright 2010 INRIA Saclay
4 * Copyright 2012-2013 Ecole Normale Superieure
5 * Copyright 2014 INRIA Rocquencourt
6 * Copyright 2022 Cerebras Systems
8 * Use of this software is governed by the MIT license
10 * Written by Sven Verdoolaege, K.U.Leuven, Departement
11 * Computerwetenschappen, Celestijnenlaan 200A, B-3001 Leuven, Belgium
12 * and INRIA Saclay - Ile-de-France, Parc Club Orsay Universite,
13 * ZAC des vignes, 4 rue Jacques Monod, 91893 Orsay, France
14 * and Ecole Normale Superieure, 45 rue d’Ulm, 75230 Paris, France
15 * and Inria Paris - Rocquencourt, Domaine de Voluceau - Rocquencourt,
16 * B.P. 105 - 78153 Le Chesnay, France
17 * and Cerebras Systems, 1237 E Arques Ave, Sunnyvale, CA, USA
23 #include <isl_ctx_private.h>
24 #include <isl_map_private.h>
25 #include <isl_aff_private.h>
26 #include <isl_space_private.h>
30 #include <isl_constraint_private.h>
31 #include <isl/polynomial.h>
32 #include <isl/union_set.h>
33 #include <isl/union_map.h>
34 #include <isl_factorization.h>
35 #include <isl/schedule.h>
36 #include <isl/schedule_node.h>
37 #include <isl_options_private.h>
38 #include <isl_vertices_private.h>
39 #include <isl/ast_build.h>
42 #include <isl_ast_build_expr.h>
43 #include <isl/options.h>
45 #include "isl_srcdir.c"
47 #define ARRAY_SIZE(array) (sizeof(array)/sizeof(*array))
49 static char *get_filename(isl_ctx
*ctx
, const char *name
, const char *suffix
) {
52 char *pattern
= "%s/test_inputs/%s.%s";
54 length
= strlen(pattern
) - 6 + strlen(srcdir
) + strlen(name
)
56 filename
= isl_alloc_array(ctx
, char, length
);
61 sprintf(filename
, pattern
, srcdir
, name
, suffix
);
66 void test_parse_map(isl_ctx
*ctx
, const char *str
)
70 map
= isl_map_read_from_str(ctx
, str
);
75 int test_parse_map_equal(isl_ctx
*ctx
, const char *str
, const char *str2
)
80 map
= isl_map_read_from_str(ctx
, str
);
81 map2
= isl_map_read_from_str(ctx
, str2
);
82 equal
= isl_map_is_equal(map
, map2
);
89 isl_die(ctx
, isl_error_unknown
, "maps not equal",
95 void test_parse_pwqp(isl_ctx
*ctx
, const char *str
)
97 isl_pw_qpolynomial
*pwqp
;
99 pwqp
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
101 isl_pw_qpolynomial_free(pwqp
);
104 static void test_parse_pwaff(isl_ctx
*ctx
, const char *str
)
108 pwaff
= isl_pw_aff_read_from_str(ctx
, str
);
110 isl_pw_aff_free(pwaff
);
113 /* Check that we can read an isl_multi_val from "str" without errors.
115 static int test_parse_multi_val(isl_ctx
*ctx
, const char *str
)
119 mv
= isl_multi_val_read_from_str(ctx
, str
);
120 isl_multi_val_free(mv
);
125 /* String descriptions of multi piecewise affine expressions
126 * that are used for testing printing and parsing.
128 static const char *reparse_multi_pw_aff_tests
[] = {
129 "{ A[x, y] -> [] : x + y >= 0 }",
130 "{ A[x, y] -> B[] : x + y >= 0 }",
131 "{ A[x, y] -> [x] : x + y >= 0 }",
132 "[N] -> { A[x, y] -> [x] : x + y <= N }",
133 "{ A[x, y] -> [x, y] : x + y >= 0 }",
134 "{ A[x, y] -> [(x : x >= 0), (y : y >= 0)] : x + y >= 0 }",
135 "[N] -> { [] : N >= 0 }",
136 "[N] -> { [] : N >= 0 }",
137 "[N] -> { [N] : N >= 0 }",
138 "[N] -> { [N, N + 1] : N >= 0 }",
139 "[N, M] -> { [(N : N >= 0), (M : M >= 0)] : N + M >= 0 }",
140 "{ [a] -> [b = a] }",
141 "{ [a] -> [b = a] : a >= 0 }",
145 #define BASE multi_pw_aff
147 #include "check_reparse_templ.c"
148 #include "check_reparse_test_templ.c"
150 /* String descriptions that cannot be parsed
151 * as multi piecewise affine expressions.
153 static const char *parse_multi_pw_aff_fail_tests
[] = {
154 "{ [a] -> [b] : b = a }",
155 "{ [a] -> [b = a] : b >= 0 }",
158 #include "check_parse_fail_test_templ.c"
160 /* String descriptions of piecewise multi affine expressions
161 * that are used for testing printing and parsing.
163 static const char *reparse_pw_multi_aff_tests
[] = {
165 "{ [x] -> [x % 4] }",
166 "{ [x] -> [x % 4] : x mod 3 = 1 }",
167 "{ [x, x] -> [x % 4] }",
168 "{ [x, x + 1] -> [x % 4] : x mod 3 = 1 }",
169 "{ [x, x mod 2] -> [x % 4] }",
170 "{ [a] -> [a//2] : exists (e0: 8*floor((-a + e0)/8) <= -8 - a + 8e0) }",
174 #define BASE pw_multi_aff
176 #include "check_reparse_templ.c"
177 #include "check_reparse_test_templ.c"
179 /* Test parsing of piecewise multi affine expressions by printing
180 * the expressions and checking that parsing the output results
181 * in the same expression.
182 * Do this for an expression converted from a map with an output
183 * dimension name that is equal to an automatically generated name, and
184 * a set of expressions parsed from strings.
186 static isl_stat
test_parse_pma(isl_ctx
*ctx
)
189 isl_pw_multi_aff
*pma
;
191 map
= isl_map_read_from_str(ctx
, "{ [a, a] -> [i1 = a + 1] }");
192 pma
= isl_pw_multi_aff_from_map(map
);
193 if (check_reparse_pw_multi_aff(ctx
, pma
) < 0)
194 return isl_stat_error
;
196 if (check_reparse_pw_multi_aff_tests(ctx
) < 0)
197 return isl_stat_error
;
202 /* String descriptions that cannot be parsed
203 * as union piecewise multi affine expressions.
205 static const char *parse_union_pw_multi_aff_fail_tests
[] = {
206 "{ [a] -> [b] : b = a }",
207 "{ [a] -> [b = a] : b >= 0 }",
211 #define BASE union_pw_multi_aff
213 #include "check_parse_fail_test_templ.c"
215 /* Test parsing of union piecewise multi affine expressions.
217 * In particular, check some cases where parsing is supposed to fail.
219 static isl_stat
test_parse_upma(isl_ctx
*ctx
)
221 if (check_parse_union_pw_multi_aff_fail_tests(ctx
) < 0)
222 return isl_stat_error
;
227 /* Test parsing of multi piecewise affine expressions by printing
228 * the expressions and checking that parsing the output results
229 * in the same expression.
230 * Do this for a couple of manually constructed expressions,
231 * an expression converted from a map with an output dimension name
232 * that is equal to an automatically generated name, and
233 * a set of expressions parsed from strings.
235 * Additionally, check some cases where parsing is supposed to fail.
237 static int test_parse_mpa(isl_ctx
*ctx
)
242 isl_pw_multi_aff
*pma
;
243 isl_multi_pw_aff
*mpa
;
246 space
= isl_space_set_alloc(ctx
, 0, 0);
247 space
= isl_space_set_tuple_name(space
, isl_dim_set
, "A");
248 mpa
= isl_multi_pw_aff_zero(space
);
249 r
= check_reparse_multi_pw_aff(ctx
, mpa
);
253 space
= isl_space_set_alloc(ctx
, 1, 0);
254 space
= isl_space_set_dim_name(space
, isl_dim_param
, 0, "N");
255 space
= isl_space_set_tuple_name(space
, isl_dim_set
, "A");
256 dom
= isl_set_universe(isl_space_params(isl_space_copy(space
)));
257 dom
= isl_set_lower_bound_si(dom
, isl_dim_param
, 0, 5);
258 mpa
= isl_multi_pw_aff_zero(space
);
259 mpa
= isl_multi_pw_aff_intersect_domain(mpa
, dom
);
260 r
= check_reparse_multi_pw_aff(ctx
, mpa
);
264 map
= isl_map_read_from_str(ctx
, "{ [a, a] -> [i1 = a + 1] }");
265 pma
= isl_pw_multi_aff_from_map(map
);
266 mpa
= isl_multi_pw_aff_from_pw_multi_aff(pma
);
267 if (check_reparse_multi_pw_aff(ctx
, mpa
) < 0)
270 if (check_reparse_multi_pw_aff_tests(ctx
) < 0)
272 if (check_parse_multi_pw_aff_fail_tests(ctx
) < 0)
278 /* String descriptions of multi union piecewise affine expressions
279 * that are used for testing printing and parsing.
281 static const char *reparse_multi_union_pw_aff_tests
[] = {
285 "(A[] : { S[x] : x > 0; T[y] : y >= 0 })",
287 "[N] -> (A[] : { })",
288 "[N] -> (A[] : { : N >= 0 })",
289 "[N] -> (A[] : { S[x] : x > N; T[y] : y >= 0 })",
290 "(A[] : [N] -> { S[x] : x > N; T[y] : y >= 0 })",
291 "A[{ S[x] -> [x + 1]; T[x] -> [x] }]",
292 "(A[{ S[x] -> [x + 1]; T[x] -> [x] }] : "
293 "{ S[x] : x > 0; T[y] : y >= 0 })",
297 #define BASE multi_union_pw_aff
299 #include "check_reparse_templ.c"
300 #include "check_reparse_test_templ.c"
302 /* Test parsing of multi union piecewise affine expressions by printing
303 * the expressions and checking that parsing the output results
304 * in the same expression.
305 * Do this for a couple of manually constructed expressions and
306 * a set of expressions parsed from strings.
308 static int test_parse_mupa(isl_ctx
*ctx
)
311 isl_multi_union_pw_aff
*mupa
;
316 space
= isl_space_set_alloc(ctx
, 0, 0);
317 space
= isl_space_set_tuple_name(space
, isl_dim_set
, "A");
318 mupa
= isl_multi_union_pw_aff_zero(space
);
319 r
= check_reparse_multi_union_pw_aff(ctx
, mupa
);
323 space
= isl_space_set_alloc(ctx
, 1, 0);
324 space
= isl_space_set_dim_name(space
, isl_dim_param
, 0, "N");
325 space
= isl_space_set_tuple_name(space
, isl_dim_set
, "A");
326 dom
= isl_set_universe(space
);
327 dom
= isl_set_lower_bound_si(dom
, isl_dim_param
, 0, 5);
328 uset
= isl_union_set_from_set(dom
);
329 space
= isl_space_set_alloc(ctx
, 1, 0);
330 space
= isl_space_set_dim_name(space
, isl_dim_param
, 0, "N");
331 space
= isl_space_set_tuple_name(space
, isl_dim_set
, "B");
332 mupa
= isl_multi_union_pw_aff_zero(space
);
333 mupa
= isl_multi_union_pw_aff_intersect_domain(mupa
, uset
);
334 r
= check_reparse_multi_union_pw_aff(ctx
, mupa
);
338 if (check_reparse_multi_union_pw_aff_tests(ctx
) < 0)
344 /* Test parsing of multi expressions.
346 static int test_parse_multi(isl_ctx
*ctx
)
348 if (test_parse_mpa(ctx
) < 0)
350 if (test_parse_mupa(ctx
) < 0)
356 /* Pairs of binary relation representations that should represent
357 * the same binary relations.
362 } parse_map_equal_tests
[] = {
363 { "{ [x,y] : [([x/2]+y)/3] >= 1 }",
364 "{ [x, y] : 2y >= 6 - x }" },
365 { "{ [x,y] : x <= min(y, 2*y+3) }",
366 "{ [x,y] : x <= y, 2*y + 3 }" },
367 { "{ [x,y] : x >= min(y, 2*y+3) }",
368 "{ [x, y] : (y <= x and y >= -3) or (2y <= -3 + x and y <= -4) }" },
369 { "[n] -> { [c1] : c1>=0 and c1<=floord(n-4,3) }",
370 "[n] -> { [c1] : c1 >= 0 and 3c1 <= -4 + n }" },
371 { "{ [i,j] -> [i] : i < j; [i,j] -> [j] : j <= i }",
372 "{ [i,j] -> [min(i,j)] }" },
373 { "{ [i,j] : i != j }",
374 "{ [i,j] : i < j or i > j }" },
375 { "{ [i,j] : (i+1)*2 >= j }",
376 "{ [i, j] : j <= 2 + 2i }" },
377 { "{ [i] -> [i > 0 ? 4 : 5] }",
378 "{ [i] -> [5] : i <= 0; [i] -> [4] : i >= 1 }" },
379 { "[N=2,M] -> { [i=[(M+N)/4]] }",
380 "[N, M] -> { [i] : N = 2 and 4i <= 2 + M and 4i >= -1 + M }" },
381 { "{ [x] : x >= 0 }",
382 "{ [x] : x-0 >= 0 }" },
383 { "{ [i] : ((i > 10)) }",
384 "{ [i] : i >= 11 }" },
386 "{ [i] -> [0 * i] }" },
387 { "{ [a] -> [b] : (not false) }",
388 "{ [a] -> [b] : true }" },
389 { "{ [i] : i/2 <= 5 }",
390 "{ [i] : i <= 10 }" },
391 { "{Sym=[n] [i] : i <= n }",
392 "[n] -> { [i] : i <= n }" },
395 { "{ [i] : 2*floor(i/2) = i }",
396 "{ [i] : exists a : i = 2 a }" },
397 { "{ [a] -> [b] : a = 5 implies b = 5 }",
398 "{ [a] -> [b] : a != 5 or b = 5 }" },
399 { "{ [a] -> [a - 1 : a > 0] }",
400 "{ [a] -> [a - 1] : a > 0 }" },
401 { "{ [a] -> [a - 1 : a > 0; a : a <= 0] }",
402 "{ [a] -> [a - 1] : a > 0; [a] -> [a] : a <= 0 }" },
403 { "{ [a] -> [(a) * 2 : a >= 0; 0 : a < 0] }",
404 "{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }" },
405 { "{ [a] -> [(a * 2) : a >= 0; 0 : a < 0] }",
406 "{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }" },
407 { "{ [a] -> [(a * 2 : a >= 0); 0 : a < 0] }",
408 "{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }" },
409 { "{ [a] -> [(a * 2 : a >= 0; 0 : a < 0)] }",
410 "{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }" },
411 { "{ [a,b] -> [i,j] : a,b << i,j }",
412 "{ [a,b] -> [i,j] : a < i or (a = i and b < j) }" },
413 { "{ [a,b] -> [i,j] : a,b <<= i,j }",
414 "{ [a,b] -> [i,j] : a < i or (a = i and b <= j) }" },
415 { "{ [a,b] -> [i,j] : a,b >> i,j }",
416 "{ [a,b] -> [i,j] : a > i or (a = i and b > j) }" },
417 { "{ [a,b] -> [i,j] : a,b >>= i,j }",
418 "{ [a,b] -> [i,j] : a > i or (a = i and b >= j) }" },
419 { "{ [n] -> [i] : exists (a, b, c: 8b <= i - 32a and "
420 "8b >= -7 + i - 32 a and b >= 0 and b <= 3 and "
421 "8c < n - 32a and i < n and c >= 0 and "
422 "c <= 3 and c >= -4a) }",
423 "{ [n] -> [i] : 0 <= i < n }" },
424 { "{ [x] -> [] : exists (a, b: 0 <= a <= 1 and 0 <= b <= 3 and "
425 "2b <= x - 8a and 2b >= -1 + x - 8a) }",
426 "{ [x] -> [] : 0 <= x <= 15 }" },
427 { "{ [x] -> [x] : }",
429 { "{ [x=4:5] -> [x + 1] }",
430 "{ [x] -> [x + 1] : 4 <= x <= 5 }" },
431 { "{ [x=4:5] -> [x + 1 : x + 1] }",
432 "{ [x=4:5] -> [x + 1] }" },
433 { "{ [x] -> [x - 1 : x + 1] }",
434 "{ [x] -> [y] : x - 1 <= y <= x + 1 }" },
435 { "{ [x=4:] -> [x + 1] }",
436 "{ [x] -> [x + 1] : 4 <= x }" },
437 { "{ [x=:5] -> [x + 1] }",
438 "{ [x] -> [x + 1] : x <= 5 }" },
439 { "{ [x=:] -> [x + 1] }",
440 "{ [x] -> [x + 1] }" },
444 "{ [x, floor(x/4)] }" },
459 { "{ [-2^2:2^2-1] }",
465 { "[a, b, c, d] -> { [max(a,b,c,d)] }",
466 "[a, b, c, d] -> { [a] : b < a and c < a and d < a; "
467 "[b] : b >= a and c < b and d < b; "
468 "[c] : c >= a and c >= b and d < c; "
469 "[d] : d >= a and d >= b and d >= c }" },
470 { "[a, b, c, d] -> { [min(a,b,c,d)] }",
471 "[a, b, c, d] -> { [a] : b >= a and c >= a and d >= a; "
472 "[b] : b < a and c >= b and d >= b; "
473 "[c] : c < b and c < a and d >= c; "
474 "[d] : d < c and d < b and d < a }" },
477 int test_parse(struct isl_ctx
*ctx
)
481 const char *str
, *str2
;
483 if (test_parse_multi_val(ctx
, "{ A[B[2] -> C[5, 7]] }") < 0)
485 if (test_parse_multi_val(ctx
, "[n] -> { [2] }") < 0)
487 if (test_parse_multi_val(ctx
, "{ A[4, infty, NaN, -1/2, 2/3] }") < 0)
489 if (test_parse_multi(ctx
) < 0)
491 if (test_parse_pma(ctx
) < 0)
493 if (test_parse_upma(ctx
) < 0)
496 str
= "{ [i] -> [-i] }";
497 map
= isl_map_read_from_str(ctx
, str
);
501 str
= "{ A[i] -> L[([i/3])] }";
502 map
= isl_map_read_from_str(ctx
, str
);
506 test_parse_map(ctx
, "{[[s] -> A[i]] -> [[s+1] -> A[i]]}");
507 test_parse_map(ctx
, "{ [p1, y1, y2] -> [2, y1, y2] : "
508 "p1 = 1 && (y1 <= y2 || y2 = 0) }");
510 for (i
= 0; i
< ARRAY_SIZE(parse_map_equal_tests
); ++i
) {
511 str
= parse_map_equal_tests
[i
].map1
;
512 str2
= parse_map_equal_tests
[i
].map2
;
513 if (test_parse_map_equal(ctx
, str
, str2
) < 0)
517 str
= "{[new,old] -> [new+1-2*[(new+1)/2],old+1-2*[(old+1)/2]]}";
518 map
= isl_map_read_from_str(ctx
, str
);
519 str
= "{ [new, old] -> [o0, o1] : "
520 "exists (e0 = [(-1 - new + o0)/2], e1 = [(-1 - old + o1)/2]: "
521 "2e0 = -1 - new + o0 and 2e1 = -1 - old + o1 and o0 >= 0 and "
522 "o0 <= 1 and o1 >= 0 and o1 <= 1) }";
523 map2
= isl_map_read_from_str(ctx
, str
);
524 assert(isl_map_is_equal(map
, map2
));
528 str
= "{[new,old] -> [new+1-2*[(new+1)/2],old+1-2*[(old+1)/2]]}";
529 map
= isl_map_read_from_str(ctx
, str
);
530 str
= "{[new,old] -> [(new+1)%2,(old+1)%2]}";
531 map2
= isl_map_read_from_str(ctx
, str
);
532 assert(isl_map_is_equal(map
, map2
));
536 test_parse_pwqp(ctx
, "{ [i] -> i + [ (i + [i/3])/2 ] }");
537 test_parse_map(ctx
, "{ S1[i] -> [([i/10]),i%10] : 0 <= i <= 45 }");
538 test_parse_pwaff(ctx
, "{ [i] -> [i + 1] : i > 0; [a] -> [a] : a < 0 }");
539 test_parse_pwqp(ctx
, "{ [x] -> ([(x)/2] * [(x)/3]) }");
540 test_parse_pwaff(ctx
, "{ [] -> [(100)] }");
545 static int test_read(isl_ctx
*ctx
)
549 isl_basic_set
*bset1
, *bset2
;
550 const char *str
= "{[y]: Exists ( alpha : 2alpha = y)}";
553 filename
= get_filename(ctx
, "set", "omega");
555 input
= fopen(filename
, "r");
558 bset1
= isl_basic_set_read_from_file(ctx
, input
);
559 bset2
= isl_basic_set_read_from_str(ctx
, str
);
561 equal
= isl_basic_set_is_equal(bset1
, bset2
);
563 isl_basic_set_free(bset1
);
564 isl_basic_set_free(bset2
);
572 isl_die(ctx
, isl_error_unknown
,
573 "read sets not equal", return -1);
578 static int test_bounded(isl_ctx
*ctx
)
583 set
= isl_set_read_from_str(ctx
, "[n] -> {[i] : 0 <= i <= n }");
584 bounded
= isl_set_is_bounded(set
);
590 isl_die(ctx
, isl_error_unknown
,
591 "set not considered bounded", return -1);
593 set
= isl_set_read_from_str(ctx
, "{[n, i] : 0 <= i <= n }");
594 bounded
= isl_set_is_bounded(set
);
601 isl_die(ctx
, isl_error_unknown
,
602 "set considered bounded", return -1);
604 set
= isl_set_read_from_str(ctx
, "[n] -> {[i] : i <= n }");
605 bounded
= isl_set_is_bounded(set
);
611 isl_die(ctx
, isl_error_unknown
,
612 "set considered bounded", return -1);
617 /* Construct the basic set { [i] : 5 <= i <= N } */
618 static int test_construction_1(isl_ctx
*ctx
)
625 space
= isl_space_set_alloc(ctx
, 1, 1);
626 bset
= isl_basic_set_universe(isl_space_copy(space
));
627 ls
= isl_local_space_from_space(space
);
629 c
= isl_constraint_alloc_inequality(isl_local_space_copy(ls
));
630 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
631 c
= isl_constraint_set_coefficient_si(c
, isl_dim_param
, 0, 1);
632 bset
= isl_basic_set_add_constraint(bset
, c
);
634 c
= isl_constraint_alloc_inequality(isl_local_space_copy(ls
));
635 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
636 c
= isl_constraint_set_constant_si(c
, -5);
637 bset
= isl_basic_set_add_constraint(bset
, c
);
639 isl_local_space_free(ls
);
640 isl_basic_set_free(bset
);
645 /* Construct the basic set { [x] : -100 <= x <= 100 }
646 * using isl_basic_set_{lower,upper}_bound_val and
647 * check that it is equal the same basic set parsed from a string.
649 static int test_construction_2(isl_ctx
*ctx
)
654 isl_basic_set
*bset1
, *bset2
;
656 v
= isl_val_int_from_si(ctx
, 100);
657 space
= isl_space_set_alloc(ctx
, 0, 1);
658 bset1
= isl_basic_set_universe(space
);
659 bset1
= isl_basic_set_upper_bound_val(bset1
, isl_dim_set
, 0,
661 bset1
= isl_basic_set_lower_bound_val(bset1
, isl_dim_set
, 0,
663 bset2
= isl_basic_set_read_from_str(ctx
, "{ [x] : -100 <= x <= 100 }");
664 equal
= isl_basic_set_is_equal(bset1
, bset2
);
665 isl_basic_set_free(bset1
);
666 isl_basic_set_free(bset2
);
671 isl_die(ctx
, isl_error_unknown
,
672 "failed construction", return -1);
677 /* Basic tests for constructing basic sets.
679 static int test_construction(isl_ctx
*ctx
)
681 if (test_construction_1(ctx
) < 0)
683 if (test_construction_2(ctx
) < 0)
688 static int test_dim(isl_ctx
*ctx
)
691 isl_map
*map1
, *map2
;
694 map1
= isl_map_read_from_str(ctx
,
695 "[n] -> { [i] -> [j] : exists (a = [i/10] : i - 10a <= n ) }");
696 map1
= isl_map_add_dims(map1
, isl_dim_in
, 1);
697 map2
= isl_map_read_from_str(ctx
,
698 "[n] -> { [i,k] -> [j] : exists (a = [i/10] : i - 10a <= n ) }");
699 equal
= isl_map_is_equal(map1
, map2
);
702 map1
= isl_map_project_out(map1
, isl_dim_in
, 0, 1);
703 map2
= isl_map_read_from_str(ctx
, "[n] -> { [i] -> [j] : n >= 0 }");
704 if (equal
>= 0 && equal
)
705 equal
= isl_map_is_equal(map1
, map2
);
713 isl_die(ctx
, isl_error_unknown
,
714 "unexpected result", return -1);
716 str
= "[n] -> { [i] -> [] : exists a : 0 <= i <= n and i = 2 a }";
717 map1
= isl_map_read_from_str(ctx
, str
);
718 str
= "{ [i] -> [j] : exists a : 0 <= i <= j and i = 2 a }";
719 map2
= isl_map_read_from_str(ctx
, str
);
720 map1
= isl_map_move_dims(map1
, isl_dim_out
, 0, isl_dim_param
, 0, 1);
721 equal
= isl_map_is_equal(map1
, map2
);
728 isl_die(ctx
, isl_error_unknown
,
729 "unexpected result", return -1);
735 #define BASE multi_val
736 #include "isl_test_plain_equal_templ.c"
739 #define BASE multi_aff
740 #include "isl_test_plain_equal_templ.c"
742 /* Check that "val" is equal to the value described by "str".
743 * If "str" is "NaN", then check for a NaN value explicitly.
745 static isl_stat
val_check_equal(__isl_keep isl_val
*val
, const char *str
)
752 return isl_stat_error
;
754 ctx
= isl_val_get_ctx(val
);
755 res
= isl_val_read_from_str(ctx
, str
);
756 is_nan
= isl_val_is_nan(res
);
760 ok
= isl_val_is_nan(val
);
762 ok
= isl_val_eq(val
, res
);
765 return isl_stat_error
;
767 isl_die(ctx
, isl_error_unknown
,
768 "unexpected result", return isl_stat_error
);
773 __isl_give isl_val
*(*op
)(__isl_take isl_val
*v
);
777 { &isl_val_neg
, "0", "0" },
778 { &isl_val_abs
, "0", "0" },
779 { &isl_val_pow2
, "0", "1" },
780 { &isl_val_floor
, "0", "0" },
781 { &isl_val_ceil
, "0", "0" },
782 { &isl_val_neg
, "1", "-1" },
783 { &isl_val_neg
, "-1", "1" },
784 { &isl_val_neg
, "1/2", "-1/2" },
785 { &isl_val_neg
, "-1/2", "1/2" },
786 { &isl_val_neg
, "infty", "-infty" },
787 { &isl_val_neg
, "-infty", "infty" },
788 { &isl_val_neg
, "NaN", "NaN" },
789 { &isl_val_abs
, "1", "1" },
790 { &isl_val_abs
, "-1", "1" },
791 { &isl_val_abs
, "1/2", "1/2" },
792 { &isl_val_abs
, "-1/2", "1/2" },
793 { &isl_val_abs
, "infty", "infty" },
794 { &isl_val_abs
, "-infty", "infty" },
795 { &isl_val_abs
, "NaN", "NaN" },
796 { &isl_val_floor
, "1", "1" },
797 { &isl_val_floor
, "-1", "-1" },
798 { &isl_val_floor
, "1/2", "0" },
799 { &isl_val_floor
, "-1/2", "-1" },
800 { &isl_val_floor
, "infty", "infty" },
801 { &isl_val_floor
, "-infty", "-infty" },
802 { &isl_val_floor
, "NaN", "NaN" },
803 { &isl_val_ceil
, "1", "1" },
804 { &isl_val_ceil
, "-1", "-1" },
805 { &isl_val_ceil
, "1/2", "1" },
806 { &isl_val_ceil
, "-1/2", "0" },
807 { &isl_val_ceil
, "infty", "infty" },
808 { &isl_val_ceil
, "-infty", "-infty" },
809 { &isl_val_ceil
, "NaN", "NaN" },
810 { &isl_val_pow2
, "-3", "1/8" },
811 { &isl_val_pow2
, "-1", "1/2" },
812 { &isl_val_pow2
, "1", "2" },
813 { &isl_val_pow2
, "2", "4" },
814 { &isl_val_pow2
, "3", "8" },
815 { &isl_val_inv
, "1", "1" },
816 { &isl_val_inv
, "2", "1/2" },
817 { &isl_val_inv
, "1/2", "2" },
818 { &isl_val_inv
, "-2", "-1/2" },
819 { &isl_val_inv
, "-1/2", "-2" },
820 { &isl_val_inv
, "0", "NaN" },
821 { &isl_val_inv
, "NaN", "NaN" },
822 { &isl_val_inv
, "infty", "0" },
823 { &isl_val_inv
, "-infty", "0" },
826 /* Perform some basic tests of unary operations on isl_val objects.
828 static int test_un_val(isl_ctx
*ctx
)
832 __isl_give isl_val
*(*fn
)(__isl_take isl_val
*v
);
834 for (i
= 0; i
< ARRAY_SIZE(val_un_tests
); ++i
) {
837 v
= isl_val_read_from_str(ctx
, val_un_tests
[i
].arg
);
838 fn
= val_un_tests
[i
].op
;
840 r
= val_check_equal(v
, val_un_tests
[i
].res
);
850 __isl_give isl_val
*(*fn
)(__isl_take isl_val
*v1
,
851 __isl_take isl_val
*v2
);
853 ['+'] = { &isl_val_add
},
854 ['-'] = { &isl_val_sub
},
855 ['*'] = { &isl_val_mul
},
856 ['/'] = { &isl_val_div
},
857 ['g'] = { &isl_val_gcd
},
858 ['m'] = { &isl_val_min
},
859 ['M'] = { &isl_val_max
},
867 } val_bin_tests
[] = {
868 { "0", '+', "0", "0" },
869 { "1", '+', "0", "1" },
870 { "1", '+', "1", "2" },
871 { "1", '-', "1", "0" },
872 { "1", '*', "1", "1" },
873 { "1", '/', "1", "1" },
874 { "2", '*', "3", "6" },
875 { "2", '*', "1/2", "1" },
876 { "2", '*', "1/3", "2/3" },
877 { "2/3", '*', "3/5", "2/5" },
878 { "2/3", '*', "7/5", "14/15" },
879 { "2", '/', "1/2", "4" },
880 { "-2", '/', "-1/2", "4" },
881 { "-2", '/', "1/2", "-4" },
882 { "2", '/', "-1/2", "-4" },
883 { "2", '/', "2", "1" },
884 { "2", '/', "3", "2/3" },
885 { "2/3", '/', "5/3", "2/5" },
886 { "2/3", '/', "5/7", "14/15" },
887 { "0", '/', "0", "NaN" },
888 { "42", '/', "0", "NaN" },
889 { "-42", '/', "0", "NaN" },
890 { "infty", '/', "0", "NaN" },
891 { "-infty", '/', "0", "NaN" },
892 { "NaN", '/', "0", "NaN" },
893 { "0", '/', "NaN", "NaN" },
894 { "42", '/', "NaN", "NaN" },
895 { "-42", '/', "NaN", "NaN" },
896 { "infty", '/', "NaN", "NaN" },
897 { "-infty", '/', "NaN", "NaN" },
898 { "NaN", '/', "NaN", "NaN" },
899 { "0", '/', "infty", "0" },
900 { "42", '/', "infty", "0" },
901 { "-42", '/', "infty", "0" },
902 { "infty", '/', "infty", "NaN" },
903 { "-infty", '/', "infty", "NaN" },
904 { "NaN", '/', "infty", "NaN" },
905 { "0", '/', "-infty", "0" },
906 { "42", '/', "-infty", "0" },
907 { "-42", '/', "-infty", "0" },
908 { "infty", '/', "-infty", "NaN" },
909 { "-infty", '/', "-infty", "NaN" },
910 { "NaN", '/', "-infty", "NaN" },
911 { "1", '-', "1/3", "2/3" },
912 { "1/3", '+', "1/2", "5/6" },
913 { "1/2", '+', "1/2", "1" },
914 { "3/4", '-', "1/4", "1/2" },
915 { "1/2", '-', "1/3", "1/6" },
916 { "infty", '+', "42", "infty" },
917 { "infty", '+', "infty", "infty" },
918 { "42", '+', "infty", "infty" },
919 { "infty", '-', "infty", "NaN" },
920 { "infty", '*', "infty", "infty" },
921 { "infty", '*', "-infty", "-infty" },
922 { "-infty", '*', "infty", "-infty" },
923 { "-infty", '*', "-infty", "infty" },
924 { "0", '*', "infty", "NaN" },
925 { "1", '*', "infty", "infty" },
926 { "infty", '*', "0", "NaN" },
927 { "infty", '*', "42", "infty" },
928 { "42", '-', "infty", "-infty" },
929 { "infty", '+', "-infty", "NaN" },
930 { "4", 'g', "6", "2" },
931 { "5", 'g', "6", "1" },
932 { "42", 'm', "3", "3" },
933 { "42", 'M', "3", "42" },
934 { "3", 'm', "42", "3" },
935 { "3", 'M', "42", "42" },
936 { "42", 'm', "infty", "42" },
937 { "42", 'M', "infty", "infty" },
938 { "42", 'm', "-infty", "-infty" },
939 { "42", 'M', "-infty", "42" },
940 { "42", 'm', "NaN", "NaN" },
941 { "42", 'M', "NaN", "NaN" },
942 { "infty", 'm', "-infty", "-infty" },
943 { "infty", 'M', "-infty", "infty" },
946 /* Perform some basic tests of binary operations on isl_val objects.
948 static int test_bin_val(isl_ctx
*ctx
)
951 isl_val
*v1
, *v2
, *res
;
952 __isl_give isl_val
*(*fn
)(__isl_take isl_val
*v1
,
953 __isl_take isl_val
*v2
);
956 for (i
= 0; i
< ARRAY_SIZE(val_bin_tests
); ++i
) {
957 v1
= isl_val_read_from_str(ctx
, val_bin_tests
[i
].arg1
);
958 v2
= isl_val_read_from_str(ctx
, val_bin_tests
[i
].arg2
);
959 res
= isl_val_read_from_str(ctx
, val_bin_tests
[i
].res
);
960 fn
= val_bin_op
[val_bin_tests
[i
].op
].fn
;
962 if (isl_val_is_nan(res
))
963 ok
= isl_val_is_nan(v1
);
965 ok
= isl_val_eq(v1
, res
);
971 isl_die(ctx
, isl_error_unknown
,
972 "unexpected result", return -1);
978 /* Perform some basic tests on isl_val objects.
980 static int test_val(isl_ctx
*ctx
)
982 if (test_un_val(ctx
) < 0)
984 if (test_bin_val(ctx
) < 0)
989 /* Sets described using existentially quantified variables that
990 * can also be described without.
992 static const char *elimination_tests
[] = {
993 "{ [i,j] : 2 * [i/2] + 3 * [j/4] <= 10 and 2 i = j }",
994 "{ [m, w] : exists a : w - 2m - 5 <= 3a <= m - 2w }",
995 "{ [m, w] : exists a : w >= 0 and a < m and -1 + w <= a <= 2m - w }",
998 /* Check that redundant existentially quantified variables are
1001 static int test_elimination(isl_ctx
*ctx
)
1005 isl_basic_set
*bset
;
1007 for (i
= 0; i
< ARRAY_SIZE(elimination_tests
); ++i
) {
1008 bset
= isl_basic_set_read_from_str(ctx
, elimination_tests
[i
]);
1009 n
= isl_basic_set_dim(bset
, isl_dim_div
);
1010 isl_basic_set_free(bset
);
1014 isl_die(ctx
, isl_error_unknown
,
1015 "expecting no existentials", return -1);
1021 static int test_div(isl_ctx
*ctx
)
1027 isl_local_space
*ls
;
1028 struct isl_basic_set
*bset
;
1029 struct isl_constraint
*c
;
1032 space
= isl_space_set_alloc(ctx
, 0, 3);
1033 bset
= isl_basic_set_universe(isl_space_copy(space
));
1034 ls
= isl_local_space_from_space(space
);
1036 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1037 c
= isl_constraint_set_constant_si(c
, -1);
1038 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1039 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, 3);
1040 bset
= isl_basic_set_add_constraint(bset
, c
);
1042 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1043 c
= isl_constraint_set_constant_si(c
, 1);
1044 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1045 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 3);
1046 bset
= isl_basic_set_add_constraint(bset
, c
);
1048 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 1, 2);
1050 assert(bset
&& bset
->n_div
== 1);
1051 isl_local_space_free(ls
);
1052 isl_basic_set_free(bset
);
1055 space
= isl_space_set_alloc(ctx
, 0, 3);
1056 bset
= isl_basic_set_universe(isl_space_copy(space
));
1057 ls
= isl_local_space_from_space(space
);
1059 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1060 c
= isl_constraint_set_constant_si(c
, 1);
1061 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1062 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, 3);
1063 bset
= isl_basic_set_add_constraint(bset
, c
);
1065 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1066 c
= isl_constraint_set_constant_si(c
, -1);
1067 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1068 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 3);
1069 bset
= isl_basic_set_add_constraint(bset
, c
);
1071 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 1, 2);
1073 assert(bset
&& bset
->n_div
== 1);
1074 isl_local_space_free(ls
);
1075 isl_basic_set_free(bset
);
1078 space
= isl_space_set_alloc(ctx
, 0, 3);
1079 bset
= isl_basic_set_universe(isl_space_copy(space
));
1080 ls
= isl_local_space_from_space(space
);
1082 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1083 c
= isl_constraint_set_constant_si(c
, 1);
1084 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1085 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, 3);
1086 bset
= isl_basic_set_add_constraint(bset
, c
);
1088 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1089 c
= isl_constraint_set_constant_si(c
, -3);
1090 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1091 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 4);
1092 bset
= isl_basic_set_add_constraint(bset
, c
);
1094 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 1, 2);
1096 assert(bset
&& bset
->n_div
== 1);
1097 isl_local_space_free(ls
);
1098 isl_basic_set_free(bset
);
1101 space
= isl_space_set_alloc(ctx
, 0, 3);
1102 bset
= isl_basic_set_universe(isl_space_copy(space
));
1103 ls
= isl_local_space_from_space(space
);
1105 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1106 c
= isl_constraint_set_constant_si(c
, 2);
1107 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1108 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, 3);
1109 bset
= isl_basic_set_add_constraint(bset
, c
);
1111 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1112 c
= isl_constraint_set_constant_si(c
, -1);
1113 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1114 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 6);
1115 bset
= isl_basic_set_add_constraint(bset
, c
);
1117 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 1, 2);
1119 assert(isl_basic_set_is_empty(bset
));
1120 isl_local_space_free(ls
);
1121 isl_basic_set_free(bset
);
1124 space
= isl_space_set_alloc(ctx
, 0, 3);
1125 bset
= isl_basic_set_universe(isl_space_copy(space
));
1126 ls
= isl_local_space_from_space(space
);
1128 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1129 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1130 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 3);
1131 bset
= isl_basic_set_add_constraint(bset
, c
);
1133 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1134 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1135 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, -3);
1136 bset
= isl_basic_set_add_constraint(bset
, c
);
1138 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 2, 1);
1140 assert(bset
&& bset
->n_div
== 0);
1141 isl_basic_set_free(bset
);
1142 isl_local_space_free(ls
);
1145 space
= isl_space_set_alloc(ctx
, 0, 3);
1146 bset
= isl_basic_set_universe(isl_space_copy(space
));
1147 ls
= isl_local_space_from_space(space
);
1149 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1150 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1151 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 6);
1152 bset
= isl_basic_set_add_constraint(bset
, c
);
1154 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1155 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1156 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, -3);
1157 bset
= isl_basic_set_add_constraint(bset
, c
);
1159 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 2, 1);
1161 assert(bset
&& bset
->n_div
== 1);
1162 isl_basic_set_free(bset
);
1163 isl_local_space_free(ls
);
1166 /* This test is a bit tricky. We set up an equality
1167 * a + 3b + 3c = 6 e0
1168 * Normalization of divs creates _two_ divs
1171 * Afterwards e0 is removed again because it has coefficient -1
1172 * and we end up with the original equality and div again.
1173 * Perhaps we can avoid the introduction of this temporary div.
1175 space
= isl_space_set_alloc(ctx
, 0, 4);
1176 bset
= isl_basic_set_universe(isl_space_copy(space
));
1177 ls
= isl_local_space_from_space(space
);
1179 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1180 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1181 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, -3);
1182 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, -3);
1183 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 3, 6);
1184 bset
= isl_basic_set_add_constraint(bset
, c
);
1186 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 3, 1);
1188 /* Test disabled for now */
1190 assert(bset && bset->n_div == 1);
1192 isl_local_space_free(ls
);
1193 isl_basic_set_free(bset
);
1196 space
= isl_space_set_alloc(ctx
, 0, 5);
1197 bset
= isl_basic_set_universe(isl_space_copy(space
));
1198 ls
= isl_local_space_from_space(space
);
1200 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1201 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1202 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, -3);
1203 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 3, -3);
1204 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 4, 6);
1205 bset
= isl_basic_set_add_constraint(bset
, c
);
1207 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1208 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1209 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, 1);
1210 c
= isl_constraint_set_constant_si(c
, 1);
1211 bset
= isl_basic_set_add_constraint(bset
, c
);
1213 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 4, 1);
1215 /* Test disabled for now */
1217 assert(bset && bset->n_div == 1);
1219 isl_local_space_free(ls
);
1220 isl_basic_set_free(bset
);
1223 space
= isl_space_set_alloc(ctx
, 0, 4);
1224 bset
= isl_basic_set_universe(isl_space_copy(space
));
1225 ls
= isl_local_space_from_space(space
);
1227 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1228 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1229 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 1, -1);
1230 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, -2);
1231 bset
= isl_basic_set_add_constraint(bset
, c
);
1233 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1234 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, -1);
1235 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 3, 3);
1236 c
= isl_constraint_set_constant_si(c
, 2);
1237 bset
= isl_basic_set_add_constraint(bset
, c
);
1239 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 2, 2);
1241 bset
= isl_basic_set_fix_si(bset
, isl_dim_set
, 0, 2);
1243 assert(!isl_basic_set_is_empty(bset
));
1245 isl_local_space_free(ls
);
1246 isl_basic_set_free(bset
);
1249 space
= isl_space_set_alloc(ctx
, 0, 3);
1250 bset
= isl_basic_set_universe(isl_space_copy(space
));
1251 ls
= isl_local_space_from_space(space
);
1253 c
= isl_constraint_alloc_equality(isl_local_space_copy(ls
));
1254 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 0, 1);
1255 c
= isl_constraint_set_coefficient_si(c
, isl_dim_set
, 2, -2);
1256 bset
= isl_basic_set_add_constraint(bset
, c
);
1258 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 2, 1);
1260 bset
= isl_basic_set_fix_si(bset
, isl_dim_set
, 0, 2);
1262 isl_local_space_free(ls
);
1263 isl_basic_set_free(bset
);
1265 str
= "{ [i] : exists (e0, e1: 3e1 >= 1 + 2e0 and "
1266 "8e1 <= -1 + 5i - 5e0 and 2e1 >= 1 + 2i - 5e0) }";
1267 set
= isl_set_read_from_str(ctx
, str
);
1268 set
= isl_set_compute_divs(set
);
1273 if (test_elimination(ctx
) < 0)
1276 str
= "{ [i,j,k] : 3 + i + 2j >= 0 and 2 * [(i+2j)/4] <= k }";
1277 set
= isl_set_read_from_str(ctx
, str
);
1278 set
= isl_set_remove_divs_involving_dims(set
, isl_dim_set
, 0, 2);
1279 set
= isl_set_fix_si(set
, isl_dim_set
, 2, -3);
1280 empty
= isl_set_is_empty(set
);
1285 isl_die(ctx
, isl_error_unknown
,
1286 "result not as accurate as expected", return -1);
1291 void test_application_case(struct isl_ctx
*ctx
, const char *name
)
1295 struct isl_basic_set
*bset1
, *bset2
;
1296 struct isl_basic_map
*bmap
;
1298 filename
= get_filename(ctx
, name
, "omega");
1300 input
= fopen(filename
, "r");
1303 bset1
= isl_basic_set_read_from_file(ctx
, input
);
1304 bmap
= isl_basic_map_read_from_file(ctx
, input
);
1306 bset1
= isl_basic_set_apply(bset1
, bmap
);
1308 bset2
= isl_basic_set_read_from_file(ctx
, input
);
1310 assert(isl_basic_set_is_equal(bset1
, bset2
) == 1);
1312 isl_basic_set_free(bset1
);
1313 isl_basic_set_free(bset2
);
1319 static int test_application(isl_ctx
*ctx
)
1321 test_application_case(ctx
, "application");
1322 test_application_case(ctx
, "application2");
1327 void test_affine_hull_case(struct isl_ctx
*ctx
, const char *name
)
1331 struct isl_basic_set
*bset1
, *bset2
;
1333 filename
= get_filename(ctx
, name
, "polylib");
1335 input
= fopen(filename
, "r");
1338 bset1
= isl_basic_set_read_from_file(ctx
, input
);
1339 bset2
= isl_basic_set_read_from_file(ctx
, input
);
1341 bset1
= isl_basic_set_affine_hull(bset1
);
1343 assert(isl_basic_set_is_equal(bset1
, bset2
) == 1);
1345 isl_basic_set_free(bset1
);
1346 isl_basic_set_free(bset2
);
1352 /* Pairs of sets and the corresponding expected results of
1353 * isl_basic_set_recession_cone.
1358 } recession_cone_tests
[] = {
1359 { "{ [i] : 0 <= i <= 10 }", "{ [0] }" },
1360 { "{ [i] : 0 <= i }", "{ [i] : 0 <= i }" },
1361 { "{ [i] : i <= 10 }", "{ [i] : i <= 0 }" },
1362 { "{ [i] : false }", "{ [i] : false }" },
1365 /* Perform some basic isl_basic_set_recession_cone tests.
1367 static int test_recession_cone(struct isl_ctx
*ctx
)
1371 for (i
= 0; i
< ARRAY_SIZE(recession_cone_tests
); ++i
) {
1373 isl_basic_set
*bset
;
1374 isl_basic_set
*cone
, *expected
;
1377 str
= recession_cone_tests
[i
].set
;
1378 bset
= isl_basic_set_read_from_str(ctx
, str
);
1379 str
= recession_cone_tests
[i
].cone
;
1380 expected
= isl_basic_set_read_from_str(ctx
, str
);
1381 cone
= isl_basic_set_recession_cone(bset
);
1382 equal
= isl_basic_set_is_equal(cone
, expected
);
1383 isl_basic_set_free(cone
);
1384 isl_basic_set_free(expected
);
1388 isl_die(ctx
, isl_error_unknown
, "unexpected cone",
1395 int test_affine_hull(struct isl_ctx
*ctx
)
1399 isl_basic_set
*bset
, *bset2
;
1403 test_affine_hull_case(ctx
, "affine2");
1404 test_affine_hull_case(ctx
, "affine");
1405 test_affine_hull_case(ctx
, "affine3");
1407 str
= "[m] -> { [i0] : exists (e0, e1: e1 <= 1 + i0 and "
1408 "m >= 3 and 4i0 <= 2 + m and e1 >= i0 and "
1409 "e1 >= 0 and e1 <= 2 and e1 >= 1 + 2e0 and "
1410 "2e1 <= 1 + m + 4e0 and 2e1 >= 2 - m + 4i0 - 4e0) }";
1411 set
= isl_set_read_from_str(ctx
, str
);
1412 bset
= isl_set_affine_hull(set
);
1413 n
= isl_basic_set_dim(bset
, isl_dim_div
);
1414 isl_basic_set_free(bset
);
1418 isl_die(ctx
, isl_error_unknown
, "not expecting any divs",
1421 /* Check that isl_map_affine_hull is not confused by
1422 * the reordering of divs in isl_map_align_divs.
1424 str
= "{ [a, b, c, 0] : exists (e0 = [(b)/32], e1 = [(c)/32]: "
1425 "32e0 = b and 32e1 = c); "
1426 "[a, 0, c, 0] : exists (e0 = [(c)/32]: 32e0 = c) }";
1427 set
= isl_set_read_from_str(ctx
, str
);
1428 bset
= isl_set_affine_hull(set
);
1429 isl_basic_set_free(bset
);
1433 str
= "{ [a] : exists e0, e1, e2: 32e1 = 31 + 31a + 31e0 and "
1434 "32e2 = 31 + 31e0 }";
1435 set
= isl_set_read_from_str(ctx
, str
);
1436 bset
= isl_set_affine_hull(set
);
1437 str
= "{ [a] : exists e : a = 32 e }";
1438 bset2
= isl_basic_set_read_from_str(ctx
, str
);
1439 subset
= isl_basic_set_is_subset(bset
, bset2
);
1440 isl_basic_set_free(bset
);
1441 isl_basic_set_free(bset2
);
1445 isl_die(ctx
, isl_error_unknown
, "not as accurate as expected",
1451 /* Test a special case of isl_set_plain_unshifted_simple_hull
1452 * where older versions of isl would include a redundant constraint
1454 * Check that the result does not have any constraints.
1456 static isl_stat
test_plain_unshifted_simple_hull_special(isl_ctx
*ctx
)
1459 isl_bool is_universe
;
1461 isl_basic_set
*bset
;
1463 str
= "{[x, y] : x = 0 or 2*((x+y)//2) <= y + 2 }";
1464 set
= isl_set_read_from_str(ctx
, str
);
1465 bset
= isl_set_plain_unshifted_simple_hull(set
);
1466 is_universe
= isl_basic_set_plain_is_universe(bset
);
1467 isl_basic_set_free(bset
);
1469 if (is_universe
< 0)
1470 return isl_stat_error
;
1472 isl_die(ctx
, isl_error_unknown
,
1473 "hull should not have any constraints",
1474 return isl_stat_error
);
1479 /* Inputs for simple hull tests, consisting of
1480 * the specific simple hull function, the input set and the expected result.
1483 __isl_give isl_basic_set
*(*fn
)(__isl_take isl_set
*set
);
1486 } simple_hull_tests
[] = {
1487 { &isl_set_plain_unshifted_simple_hull
,
1488 "{ [i,j] : i >= 1 and j >= 1 or i >= 2 and j <= 10 }",
1489 "{ [i,j] : i >= 1 }" },
1490 { &isl_set_plain_unshifted_simple_hull
,
1491 "{ [n,i,j,k] : (i mod 3 = 2 and j mod 4 = 2) or "
1492 "(j mod 4 = 2 and k mod 6 = n) }",
1493 "{ [n,i,j,k] : j mod 4 = 2 }" },
1494 { &isl_set_unshifted_simple_hull
,
1495 "{ [0,x,y] : x <= -1; [1,x,y] : x <= y <= -x; [2,x,y] : x <= 1 }",
1496 "{ [t,x,y] : 0 <= t <= 2 and x <= 1 }" },
1497 { &isl_set_simple_hull
,
1498 "{ [a, b] : b <= 0 and "
1499 "2*floor((-2*floor((b)/2))/5) >= a - floor((b)/2); "
1500 "[a, b] : a mod 2 = 0 }",
1504 /* Basic tests for various simple hull functions.
1506 static int test_various_simple_hull(isl_ctx
*ctx
)
1510 isl_basic_set
*hull
, *expected
;
1513 for (i
= 0; i
< ARRAY_SIZE(simple_hull_tests
); ++i
) {
1515 str
= simple_hull_tests
[i
].set
;
1516 set
= isl_set_read_from_str(ctx
, str
);
1517 str
= simple_hull_tests
[i
].hull
;
1518 expected
= isl_basic_set_read_from_str(ctx
, str
);
1519 hull
= simple_hull_tests
[i
].fn(set
);
1520 equal
= isl_basic_set_is_equal(hull
, expected
);
1521 isl_basic_set_free(hull
);
1522 isl_basic_set_free(expected
);
1526 isl_die(ctx
, isl_error_unknown
, "unexpected hull",
1533 static int test_simple_hull(struct isl_ctx
*ctx
)
1537 isl_basic_set
*bset
;
1540 str
= "{ [x, y] : 3y <= 2x and y >= -2 + 2x and 2y >= 2 - x;"
1541 "[y, x] : 3y <= 2x and y >= -2 + 2x and 2y >= 2 - x }";
1542 set
= isl_set_read_from_str(ctx
, str
);
1543 bset
= isl_set_simple_hull(set
);
1544 is_empty
= isl_basic_set_is_empty(bset
);
1545 isl_basic_set_free(bset
);
1547 if (is_empty
== isl_bool_error
)
1550 if (is_empty
== isl_bool_false
)
1551 isl_die(ctx
, isl_error_unknown
, "Empty set should be detected",
1554 if (test_plain_unshifted_simple_hull_special(ctx
) < 0)
1556 if (test_various_simple_hull(ctx
) < 0)
1562 /* Inputs for isl_set_get_simple_fixed_box_hull tests.
1563 * "set" is the input set.
1564 * "offset" is the expected box offset.
1565 * "size" is the expected box size.
1571 } box_hull_tests
[] = {
1572 { "{ S[x, y] : 0 <= x, y < 10 }", "{ S[0, 0] }", "{ S[10, 10] }" },
1573 { "[N] -> { S[x, y] : N <= x, y < N + 10 }",
1574 "[N] -> { S[N, N] }", "{ S[10, 10] }" },
1575 { "{ S[x, y] : 0 <= x + y, x - y < 10 }",
1576 "{ S[0, -4] }", "{ S[10, 9] }" },
1577 { "{ [i=0:10] : exists (e0, e1: 3e1 >= 1 + 2e0 and "
1578 "8e1 <= -1 + 5i - 5e0 and 2e1 >= 1 + 2i - 5e0) }",
1579 "{ [3] }", "{ [8] }" },
1580 { "[N] -> { [w = 0:17] : exists (e0: w < 2N and "
1581 "-1 + w <= e0 <= w and 2e0 >= N + w and w <= 2e0 <= 15 + w) }",
1582 "[N] -> { [N] }", "{ [9] }" },
1585 /* Perform basic isl_set_get_simple_fixed_box_hull tests.
1587 static int test_box_hull(struct isl_ctx
*ctx
)
1591 for (i
= 0; i
< ARRAY_SIZE(box_hull_tests
); ++i
) {
1595 isl_multi_aff
*offset
;
1596 isl_multi_val
*size
;
1599 set
= isl_set_read_from_str(ctx
, box_hull_tests
[i
].set
);
1600 box
= isl_set_get_simple_fixed_box_hull(set
);
1601 offset
= isl_fixed_box_get_offset(box
);
1602 size
= isl_fixed_box_get_size(box
);
1603 str
= box_hull_tests
[i
].offset
;
1604 r
= multi_aff_check_plain_equal(offset
, str
);
1605 str
= box_hull_tests
[i
].size
;
1607 r
= multi_val_check_plain_equal(size
, str
);
1608 isl_multi_aff_free(offset
);
1609 isl_multi_val_free(size
);
1610 isl_fixed_box_free(box
);
1619 void test_convex_hull_case(struct isl_ctx
*ctx
, const char *name
)
1623 struct isl_basic_set
*bset1
, *bset2
;
1624 struct isl_set
*set
;
1626 filename
= get_filename(ctx
, name
, "polylib");
1628 input
= fopen(filename
, "r");
1631 bset1
= isl_basic_set_read_from_file(ctx
, input
);
1632 bset2
= isl_basic_set_read_from_file(ctx
, input
);
1634 set
= isl_basic_set_union(bset1
, bset2
);
1635 bset1
= isl_set_convex_hull(set
);
1637 bset2
= isl_basic_set_read_from_file(ctx
, input
);
1639 assert(isl_basic_set_is_equal(bset1
, bset2
) == 1);
1641 isl_basic_set_free(bset1
);
1642 isl_basic_set_free(bset2
);
1651 } convex_hull_tests
[] = {
1652 { "{ [i0, i1, i2] : (i2 = 1 and i0 = 0 and i1 >= 0) or "
1653 "(i0 = 1 and i1 = 0 and i2 = 1) or "
1654 "(i0 = 0 and i1 = 0 and i2 = 0) }",
1655 "{ [i0, i1, i2] : i0 >= 0 and i2 >= i0 and i2 <= 1 and i1 >= 0 }" },
1656 { "[n] -> { [i0, i1, i0] : i0 <= -4 + n; "
1657 "[i0, i0, i2] : n = 6 and i0 >= 0 and i2 <= 7 - i0 and "
1658 "i2 <= 5 and i2 >= 4; "
1659 "[3, i1, 3] : n = 5 and i1 <= 2 and i1 >= 0 }",
1660 "[n] -> { [i0, i1, i2] : i2 <= -1 + n and 2i2 <= -6 + 3n - i0 and "
1661 "i2 <= 5 + i0 and i2 >= i0 }" },
1662 { "{ [x, y] : 3y <= 2x and y >= -2 + 2x and 2y >= 2 - x }",
1663 "{ [x, y] : 1 = 0 }" },
1664 { "{ [x, y, z] : 0 <= x, y, z <= 10; [x, y, 0] : x >= 0 and y > 0; "
1665 "[x, y, 0] : x >= 0 and y < 0 }",
1666 "{ [x, y, z] : x >= 0 and 0 <= z <= 10 }" },
1667 { "{ [a, b, c] : a <= 1 and -a < b <= 1 and 0 <= c <= 2 - a - b and "
1669 "[0, 2, 0]; [3, 1, 0] }",
1670 "{ [a, b, c] : b > -a and 2b >= -1 + a and 0 <= c <= a and "
1671 "5c <= 6 - a - 3b }" },
1674 static int test_convex_hull_algo(isl_ctx
*ctx
, int convex
)
1677 int orig_convex
= ctx
->opt
->convex
;
1678 ctx
->opt
->convex
= convex
;
1680 test_convex_hull_case(ctx
, "convex0");
1681 test_convex_hull_case(ctx
, "convex1");
1682 test_convex_hull_case(ctx
, "convex2");
1683 test_convex_hull_case(ctx
, "convex3");
1684 test_convex_hull_case(ctx
, "convex4");
1685 test_convex_hull_case(ctx
, "convex5");
1686 test_convex_hull_case(ctx
, "convex6");
1687 test_convex_hull_case(ctx
, "convex7");
1688 test_convex_hull_case(ctx
, "convex8");
1689 test_convex_hull_case(ctx
, "convex9");
1690 test_convex_hull_case(ctx
, "convex10");
1691 test_convex_hull_case(ctx
, "convex11");
1692 test_convex_hull_case(ctx
, "convex12");
1693 test_convex_hull_case(ctx
, "convex13");
1694 test_convex_hull_case(ctx
, "convex14");
1695 test_convex_hull_case(ctx
, "convex15");
1697 for (i
= 0; i
< ARRAY_SIZE(convex_hull_tests
); ++i
) {
1698 isl_set
*set1
, *set2
;
1701 set1
= isl_set_read_from_str(ctx
, convex_hull_tests
[i
].set
);
1702 set2
= isl_set_read_from_str(ctx
, convex_hull_tests
[i
].hull
);
1703 set1
= isl_set_from_basic_set(isl_set_convex_hull(set1
));
1704 equal
= isl_set_is_equal(set1
, set2
);
1711 isl_die(ctx
, isl_error_unknown
,
1712 "unexpected convex hull", return -1);
1715 ctx
->opt
->convex
= orig_convex
;
1720 static int test_convex_hull(isl_ctx
*ctx
)
1722 if (test_convex_hull_algo(ctx
, ISL_CONVEX_HULL_FM
) < 0)
1724 if (test_convex_hull_algo(ctx
, ISL_CONVEX_HULL_WRAP
) < 0)
1729 /* Check that computing the gist of "map" with respect to "context"
1730 * does not make any copy of "map" get marked empty.
1731 * Earlier versions of isl would end up doing that.
1733 static isl_stat
test_gist_empty_pair(isl_ctx
*ctx
, const char *map
,
1734 const char *context
)
1736 isl_map
*m1
, *m2
, *m3
;
1737 isl_bool empty_before
, empty_after
;
1739 m1
= isl_map_read_from_str(ctx
, map
);
1740 m2
= isl_map_read_from_str(ctx
, context
);
1741 m3
= isl_map_copy(m1
);
1742 empty_before
= isl_map_is_empty(m3
);
1743 m1
= isl_map_gist(m1
, m2
);
1744 empty_after
= isl_map_is_empty(m3
);
1748 if (empty_before
< 0 || empty_after
< 0)
1749 return isl_stat_error
;
1751 isl_die(ctx
, isl_error_unknown
, "map should not be empty",
1752 return isl_stat_error
);
1754 isl_die(ctx
, isl_error_unknown
, "map should still not be empty",
1755 return isl_stat_error
);
1760 /* Check that computing a gist does not make any copy of the input
1762 * Earlier versions of isl would end up doing that on some pairs of inputs.
1764 static isl_stat
test_gist_empty(isl_ctx
*ctx
)
1766 const char *map
, *context
;
1768 map
= "{ [] -> [a, b, c] : 2b = 1 + a }";
1769 context
= "{ [] -> [a, b, c] : 2c = 2 + a }";
1770 if (test_gist_empty_pair(ctx
, map
, context
) < 0)
1771 return isl_stat_error
;
1772 map
= "{ [] -> [0, 0] }";
1773 context
= "{ [] -> [a, b] : a > b }";
1774 if (test_gist_empty_pair(ctx
, map
, context
) < 0)
1775 return isl_stat_error
;
1780 /* Inputs to isl_map_plain_gist_basic_map, along with the expected output.
1784 const char *context
;
1786 } plain_gist_tests
[] = {
1787 { "{ [i] -> [j] : i >= 1 and j >= 1 or i >= 2 and j <= 10 }",
1788 "{ [i] -> [j] : i >= 1 }",
1789 "{ [i] -> [j] : j >= 1 or i >= 2 and j <= 10 }" },
1790 { "{ [n] -> [i,j,k] : (i mod 3 = 2 and j mod 4 = 2) or "
1791 "(j mod 4 = 2 and k mod 6 = n) }",
1792 "{ [n] -> [i,j,k] : j mod 4 = 2 }",
1793 "{ [n] -> [i,j,k] : (i mod 3 = 2) or (k mod 6 = n) }" },
1794 { "{ [i] -> [j] : i > j and (exists a,b : i <= 2a + 5b <= 2) }",
1795 "{ [i] -> [j] : i > j }",
1796 "{ [i] -> [j] : exists a,b : i <= 2a + 5b <= 2 }" },
1799 /* Basic tests for isl_map_plain_gist_basic_map.
1801 static int test_plain_gist(isl_ctx
*ctx
)
1805 for (i
= 0; i
< ARRAY_SIZE(plain_gist_tests
); ++i
) {
1808 isl_map
*map
, *gist
;
1809 isl_basic_map
*context
;
1811 map
= isl_map_read_from_str(ctx
, plain_gist_tests
[i
].map
);
1812 str
= plain_gist_tests
[i
].context
;
1813 context
= isl_basic_map_read_from_str(ctx
, str
);
1814 map
= isl_map_plain_gist_basic_map(map
, context
);
1815 gist
= isl_map_read_from_str(ctx
, plain_gist_tests
[i
].gist
);
1816 equal
= isl_map_is_equal(map
, gist
);
1822 isl_die(ctx
, isl_error_unknown
,
1823 "incorrect gist result", return -1);
1829 /* Inputs for isl_basic_set_gist tests that are expected to fail.
1833 const char *context
;
1834 } gist_fail_tests
[] = {
1835 { "{ [i] : exists (e0, e1: 3e1 >= 1 + 2e0 and "
1836 "8e1 <= -1 + 5i - 5e0 and 2e1 >= 1 + 2i - 5e0) }",
1837 "{ [i] : i >= 0 }" },
1840 /* Check that isl_basic_set_gist fails (gracefully) when expected.
1841 * In particular, the user should be able to recover from the failure.
1843 static isl_stat
test_gist_fail(struct isl_ctx
*ctx
)
1848 on_error
= isl_options_get_on_error(ctx
);
1849 isl_options_set_on_error(ctx
, ISL_ON_ERROR_CONTINUE
);
1850 n
= ARRAY_SIZE(gist_fail_tests
);
1851 for (i
= 0; i
< n
; ++i
) {
1853 isl_basic_set
*bset
, *context
;
1855 bset
= isl_basic_set_read_from_str(ctx
, gist_fail_tests
[i
].set
);
1856 str
= gist_fail_tests
[i
].context
;
1857 context
= isl_basic_set_read_from_str(ctx
, str
);
1858 bset
= isl_basic_set_gist(bset
, context
);
1859 isl_basic_set_free(bset
);
1863 isl_options_set_on_error(ctx
, on_error
);
1865 isl_die(ctx
, isl_error_unknown
,
1866 "operation not expected to succeed",
1867 return isl_stat_error
);
1874 const char *context
;
1878 "{ [1, b, 2 - b] : -1 <= b <= 2 }",
1880 { "{ [a, b, c] : a <= 15 and a >= 1 }",
1881 "{ [a, b, c] : exists (e0 = floor((-1 + a)/16): a >= 1 and "
1882 "c <= 30 and 32e0 >= -62 + 2a + 2b - c and b >= 0) }",
1883 "{ [a, b, c] : a <= 15 }" },
1884 { "{ : }", "{ : 1 = 0 }", "{ : }" },
1885 { "{ : 1 = 0 }", "{ : 1 = 0 }", "{ : }" },
1886 { "[M] -> { [x] : exists (e0 = floor((-2 + x)/3): 3e0 = -2 + x) }",
1887 "[M] -> { [3M] }" , "[M] -> { [x] : 1 = 0 }" },
1888 { "{ [m, n, a, b] : a <= 2147 + n }",
1889 "{ [m, n, a, b] : (m >= 1 and n >= 1 and a <= 2148 - m and "
1890 "b <= 2148 - n and b >= 0 and b >= 2149 - n - a) or "
1891 "(n >= 1 and a >= 0 and b <= 2148 - n - a and "
1893 "{ [m, n, ku, kl] }" },
1894 { "{ [a, a, b] : a >= 10 }",
1895 "{ [a, b, c] : c >= a and c <= b and c >= 2 }",
1896 "{ [a, a, b] : a >= 10 }" },
1897 { "{ [i, j] : i >= 0 and i + j >= 0 }", "{ [i, j] : i <= 0 }",
1898 "{ [0, j] : j >= 0 }" },
1899 /* Check that no constraints on i6 are introduced in the gist */
1900 { "[t1] -> { [i4, i6] : exists (e0 = floor((1530 - 4t1 - 5i4)/20): "
1901 "20e0 <= 1530 - 4t1 - 5i4 and 20e0 >= 1511 - 4t1 - 5i4 and "
1902 "5e0 <= 381 - t1 and i4 <= 1) }",
1903 "[t1] -> { [i4, i6] : exists (e0 = floor((-t1 + i6)/5): "
1904 "5e0 = -t1 + i6 and i6 <= 6 and i6 >= 3) }",
1905 "[t1] -> { [i4, i6] : exists (e0 = floor((1530 - 4t1 - 5i4)/20): "
1906 "i4 <= 1 and 5e0 <= 381 - t1 and 20e0 <= 1530 - 4t1 - 5i4 and "
1907 "20e0 >= 1511 - 4t1 - 5i4) }" },
1908 /* Check that no constraints on i6 are introduced in the gist */
1909 { "[t1, t2] -> { [i4, i5, i6] : exists (e0 = floor((1 + i4)/2), "
1910 "e1 = floor((1530 - 4t1 - 5i4)/20), "
1911 "e2 = floor((-4t1 - 5i4 + 10*floor((1 + i4)/2))/20), "
1912 "e3 = floor((-1 + i4)/2): t2 = 0 and 2e3 = -1 + i4 and "
1913 "20e2 >= -19 - 4t1 - 5i4 + 10e0 and 5e2 <= 1 - t1 and "
1914 "2e0 <= 1 + i4 and 2e0 >= i4 and "
1915 "20e1 <= 1530 - 4t1 - 5i4 and "
1916 "20e1 >= 1511 - 4t1 - 5i4 and i4 <= 1 and "
1917 "5e1 <= 381 - t1 and 20e2 <= -4t1 - 5i4 + 10e0) }",
1918 "[t1, t2] -> { [i4, i5, i6] : exists (e0 = floor((-17 + i4)/2), "
1919 "e1 = floor((-t1 + i6)/5): 5e1 = -t1 + i6 and "
1920 "2e0 <= -17 + i4 and 2e0 >= -18 + i4 and "
1921 "10e0 <= -91 + 5i4 + 4i6 and "
1922 "10e0 >= -105 + 5i4 + 4i6) }",
1923 "[t1, t2] -> { [i4, i5, i6] : exists (e0 = floor((381 - t1)/5), "
1924 "e1 = floor((-1 + i4)/2): t2 = 0 and 2e1 = -1 + i4 and "
1925 "i4 <= 1 and 5e0 <= 381 - t1 and 20e0 >= 1511 - 4t1 - 5i4) }" },
1926 { "{ [0, 0, q, p] : -5 <= q <= 5 and p >= 0 }",
1927 "{ [a, b, q, p] : b >= 1 + a }",
1928 "{ [a, b, q, p] : false }" },
1929 { "[n] -> { [x] : x = n && x mod 32 = 0 }",
1930 "[n] -> { [x] : x mod 32 = 0 }",
1931 "[n] -> { [x = n] }" },
1932 { "{ [x] : x mod 6 = 0 }", "{ [x] : x mod 3 = 0 }",
1933 "{ [x] : x mod 2 = 0 }" },
1934 { "{ [x] : x mod 3200 = 0 }", "{ [x] : x mod 10000 = 0 }",
1935 "{ [x] : x mod 128 = 0 }" },
1936 { "{ [x] : x mod 3200 = 0 }", "{ [x] : x mod 10 = 0 }",
1937 "{ [x] : x mod 3200 = 0 }" },
1938 { "{ [a, b, c] : a mod 2 = 0 and a = c }",
1939 "{ [a, b, c] : b mod 2 = 0 and b = c }",
1940 "{ [a, b, c = a] }" },
1941 { "{ [a, b, c] : a mod 6 = 0 and a = c }",
1942 "{ [a, b, c] : b mod 2 = 0 and b = c }",
1943 "{ [a, b, c = a] : a mod 3 = 0 }" },
1944 { "{ [x] : 0 <= x <= 4 or 6 <= x <= 9 }",
1945 "{ [x] : 1 <= x <= 3 or 7 <= x <= 8 }",
1947 { "{ [x,y] : x < 0 and 0 <= y <= 4 or x >= -2 and -x <= y <= 10 + x }",
1948 "{ [x,y] : 1 <= y <= 3 }",
1952 /* Check that isl_set_gist behaves as expected.
1954 * For the test cases in gist_tests, besides checking that the result
1955 * is as expected, also check that applying the gist operation does
1956 * not modify the input set (an earlier version of isl would do that) and
1957 * that the test case is consistent, i.e., that the gist has the same
1958 * intersection with the context as the input set.
1960 static int test_gist(struct isl_ctx
*ctx
)
1964 isl_basic_set
*bset1
, *bset2
;
1965 isl_map
*map1
, *map2
;
1969 for (i
= 0; i
< ARRAY_SIZE(gist_tests
); ++i
) {
1970 isl_bool equal_input
, equal_intersection
;
1971 isl_set
*set1
, *set2
, *copy
, *context
;
1973 set1
= isl_set_read_from_str(ctx
, gist_tests
[i
].set
);
1974 context
= isl_set_read_from_str(ctx
, gist_tests
[i
].context
);
1975 copy
= isl_set_copy(set1
);
1976 set1
= isl_set_gist(set1
, isl_set_copy(context
));
1977 set2
= isl_set_read_from_str(ctx
, gist_tests
[i
].gist
);
1978 equal
= isl_set_is_equal(set1
, set2
);
1980 set1
= isl_set_read_from_str(ctx
, gist_tests
[i
].set
);
1981 equal_input
= isl_set_is_equal(set1
, copy
);
1983 set1
= isl_set_intersect(set1
, isl_set_copy(context
));
1984 set2
= isl_set_intersect(set2
, context
);
1985 equal_intersection
= isl_set_is_equal(set1
, set2
);
1988 if (equal
< 0 || equal_input
< 0 || equal_intersection
< 0)
1991 isl_die(ctx
, isl_error_unknown
,
1992 "incorrect gist result", return -1);
1994 isl_die(ctx
, isl_error_unknown
,
1995 "gist modified input", return -1);
1997 isl_die(ctx
, isl_error_unknown
,
1998 "inconsistent gist test case", return -1);
2001 if (test_gist_fail(ctx
) < 0)
2004 str
= "[p0, p2, p3, p5, p6, p10] -> { [] : "
2005 "exists (e0 = [(15 + p0 + 15p6 + 15p10)/16], e1 = [(p5)/8], "
2006 "e2 = [(p6)/128], e3 = [(8p2 - p5)/128], "
2007 "e4 = [(128p3 - p6)/4096]: 8e1 = p5 and 128e2 = p6 and "
2008 "128e3 = 8p2 - p5 and 4096e4 = 128p3 - p6 and p2 >= 0 and "
2009 "16e0 >= 16 + 16p6 + 15p10 and p2 <= 15 and p3 >= 0 and "
2010 "p3 <= 31 and p6 >= 128p3 and p5 >= 8p2 and p10 >= 0 and "
2011 "16e0 <= 15 + p0 + 15p6 + 15p10 and 16e0 >= p0 + 15p6 + 15p10 and "
2012 "p10 <= 15 and p10 <= -1 + p0 - p6) }";
2013 bset1
= isl_basic_set_read_from_str(ctx
, str
);
2014 str
= "[p0, p2, p3, p5, p6, p10] -> { [] : exists (e0 = [(p5)/8], "
2015 "e1 = [(p6)/128], e2 = [(8p2 - p5)/128], "
2016 "e3 = [(128p3 - p6)/4096]: 8e0 = p5 and 128e1 = p6 and "
2017 "128e2 = 8p2 - p5 and 4096e3 = 128p3 - p6 and p5 >= -7 and "
2018 "p2 >= 0 and 8p2 <= -1 + p0 and p2 <= 15 and p3 >= 0 and "
2019 "p3 <= 31 and 128p3 <= -1 + p0 and p6 >= -127 and "
2020 "p5 <= -1 + p0 and p6 <= -1 + p0 and p6 >= 128p3 and "
2021 "p0 >= 1 and p5 >= 8p2 and p10 >= 0 and p10 <= 15 ) }";
2022 bset2
= isl_basic_set_read_from_str(ctx
, str
);
2023 bset1
= isl_basic_set_gist(bset1
, bset2
);
2024 assert(bset1
&& bset1
->n_div
== 0);
2025 isl_basic_set_free(bset1
);
2027 /* Check that the integer divisions of the second disjunct
2028 * do not spread to the first disjunct.
2030 str
= "[t1] -> { S_0[] -> A[o0] : (exists (e0 = [(-t1 + o0)/16]: "
2031 "16e0 = -t1 + o0 and o0 >= 0 and o0 <= 15 and t1 >= 0)) or "
2032 "(exists (e0 = [(-1 + t1)/16], "
2033 "e1 = [(-16 + t1 - 16e0)/4294967296]: "
2034 "4294967296e1 = -16 + t1 - o0 - 16e0 and "
2035 "16e0 <= -1 + t1 and 16e0 >= -16 + t1 and o0 >= 0 and "
2036 "o0 <= 4294967295 and t1 <= -1)) }";
2037 map1
= isl_map_read_from_str(ctx
, str
);
2038 str
= "[t1] -> { S_0[] -> A[o0] : t1 >= 0 and t1 <= 4294967295 }";
2039 map2
= isl_map_read_from_str(ctx
, str
);
2040 map1
= isl_map_gist(map1
, map2
);
2044 isl_die(ctx
, isl_error_unknown
, "expecting single disjunct",
2045 isl_map_free(map1
); return -1);
2046 n_div
= isl_basic_map_dim(map1
->p
[0], isl_dim_div
);
2051 isl_die(ctx
, isl_error_unknown
, "expecting single div",
2054 if (test_gist_empty(ctx
) < 0)
2056 if (test_plain_gist(ctx
) < 0)
2062 int test_coalesce_set(isl_ctx
*ctx
, const char *str
, int check_one
)
2064 isl_set
*set
, *set2
;
2068 set
= isl_set_read_from_str(ctx
, str
);
2069 set
= isl_set_coalesce(set
);
2070 set2
= isl_set_read_from_str(ctx
, str
);
2071 equal
= isl_set_is_equal(set
, set2
);
2072 one
= set
&& set
->n
== 1;
2079 isl_die(ctx
, isl_error_unknown
,
2080 "coalesced set not equal to input", return -1);
2081 if (check_one
&& !one
)
2082 isl_die(ctx
, isl_error_unknown
,
2083 "coalesced set should not be a union", return -1);
2088 /* Inputs for coalescing tests with unbounded wrapping.
2089 * "str" is a string representation of the input set.
2090 * "single_disjunct" is set if we expect the result to consist of
2091 * a single disjunct.
2094 int single_disjunct
;
2096 } coalesce_unbounded_tests
[] = {
2097 { 1, "{ [x,y,z] : y + 2 >= 0 and x - y + 1 >= 0 and "
2098 "-x - y + 1 >= 0 and -3 <= z <= 3;"
2099 "[x,y,z] : -x+z + 20 >= 0 and -x-z + 20 >= 0 and "
2100 "x-z + 20 >= 0 and x+z + 20 >= 0 and "
2102 { 1, "{ [x,y] : 0 <= x,y <= 10; [5,y]: 4 <= y <= 11 }" },
2103 { 1, "{ [x,0,0] : -5 <= x <= 5; [0,y,1] : -5 <= y <= 5 }" },
2104 { 1, "{ [x,y] : 0 <= x <= 10 and 0 >= y >= -1 and x+y >= 0; [0,1] }" },
2105 { 1, "{ [x,y] : (0 <= x,y <= 4) or (2 <= x,y <= 5 and x + y <= 9) }" },
2106 { 0, "{ [x, y, z] : 0 <= x,y,z <= 100 and 0 < z <= 2 + 2x + 2y; "
2107 "[x, y, 0] : x,y <= 100 and y <= 9 + 11x and x <= 9 + 11y }" },
2108 { 1, "{ [0:1, 0:1]; [0, 2:3] }" },
2109 { 1, "{ [0:1, 0:1]; [0, 2:3]; [1, -2:-1] }" },
2110 { 1, "{ [0:3, 0:1]; [1:2, 2:5] }" },
2111 { 1, "{ [0:3, 0:1]; [0:2, 2:5] }" },
2112 { 1, "{ [0:3, 0:1]; [1:3, 2:5] }" },
2113 { 0, "{ [0:3, 0:1]; [1:4, 2:5] }" },
2114 { 0, "{ [0:3, 0:1]; [1:5, 2:5] }" },
2117 /* Test the functionality of isl_set_coalesce with the bounded wrapping
2118 * option turned off.
2120 int test_coalesce_unbounded_wrapping(isl_ctx
*ctx
)
2126 bounded
= isl_options_get_coalesce_bounded_wrapping(ctx
);
2127 isl_options_set_coalesce_bounded_wrapping(ctx
, 0);
2129 for (i
= 0; i
< ARRAY_SIZE(coalesce_unbounded_tests
); ++i
) {
2130 const char *str
= coalesce_unbounded_tests
[i
].str
;
2131 int check_one
= coalesce_unbounded_tests
[i
].single_disjunct
;
2132 if (test_coalesce_set(ctx
, str
, check_one
) >= 0)
2138 isl_options_set_coalesce_bounded_wrapping(ctx
, bounded
);
2143 /* Inputs for coalescing tests.
2144 * "str" is a string representation of the input set.
2145 * "single_disjunct" is set if we expect the result to consist of
2146 * a single disjunct.
2149 int single_disjunct
;
2151 } coalesce_tests
[] = {
2152 { 1, "{[x,y]: x >= 0 & x <= 10 & y >= 0 & y <= 10 or "
2153 "y >= x & x >= 2 & 5 >= y }" },
2154 { 1, "{[x,y]: y >= 0 & 2x + y <= 30 & y <= 10 & x >= 0 or "
2155 "x + y >= 10 & y <= x & x + y <= 20 & y >= 0}" },
2156 { 0, "{[x,y]: y >= 0 & 2x + y <= 30 & y <= 10 & x >= 0 or "
2157 "x + y >= 10 & y <= x & x + y <= 19 & y >= 0}" },
2158 { 1, "{[x,y]: y >= 0 & x <= 5 & y <= x or "
2159 "y >= 0 & x >= 6 & x <= 10 & y <= x}" },
2160 { 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or "
2161 "y >= 0 & x >= 7 & x <= 10 & y <= x}" },
2162 { 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or "
2163 "y >= 0 & x >= 6 & x <= 10 & y + 1 <= x}" },
2164 { 1, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 6 & y <= 6}" },
2165 { 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 7 & y <= 6}" },
2166 { 1, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 6 & y <= 5}" },
2167 { 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 6 & y <= 7}" },
2168 { 1, "[n] -> { [i] : i = 1 and n >= 2 or 2 <= i and i <= n }" },
2169 { 0, "{[x,y] : x >= 0 and y >= 0 or 0 <= y and y <= 5 and x = -1}" },
2170 { 1, "[n] -> { [i] : 1 <= i and i <= n - 1 or 2 <= i and i <= n }" },
2171 { 0, "[n] -> { [[i0] -> [o0]] : exists (e0 = [(i0)/4], e1 = [(o0)/4], "
2172 "e2 = [(n)/2], e3 = [(-2 + i0)/4], e4 = [(-2 + o0)/4], "
2173 "e5 = [(-2n + i0)/4]: 2e2 = n and 4e3 = -2 + i0 and "
2174 "4e4 = -2 + o0 and i0 >= 8 + 2n and o0 >= 2 + i0 and "
2175 "o0 <= 56 + 2n and o0 <= -12 + 4n and i0 <= 57 + 2n and "
2176 "i0 <= -11 + 4n and o0 >= 6 + 2n and 4e0 <= i0 and "
2177 "4e0 >= -3 + i0 and 4e1 <= o0 and 4e1 >= -3 + o0 and "
2178 "4e5 <= -2n + i0 and 4e5 >= -3 - 2n + i0);"
2179 "[[i0] -> [o0]] : exists (e0 = [(i0)/4], e1 = [(o0)/4], "
2180 "e2 = [(n)/2], e3 = [(-2 + i0)/4], e4 = [(-2 + o0)/4], "
2181 "e5 = [(-2n + i0)/4]: 2e2 = n and 4e3 = -2 + i0 and "
2182 "4e4 = -2 + o0 and 2e0 >= 3 + n and e0 <= -4 + n and "
2183 "2e0 <= 27 + n and e1 <= -4 + n and 2e1 <= 27 + n and "
2184 "2e1 >= 2 + n and e1 >= 1 + e0 and i0 >= 7 + 2n and "
2185 "i0 <= -11 + 4n and i0 <= 57 + 2n and 4e0 <= -2 + i0 and "
2186 "4e0 >= -3 + i0 and o0 >= 6 + 2n and o0 <= -11 + 4n and "
2187 "o0 <= 57 + 2n and 4e1 <= -2 + o0 and 4e1 >= -3 + o0 and "
2188 "4e5 <= -2n + i0 and 4e5 >= -3 - 2n + i0 ) }" },
2189 { 0, "[n, m] -> { [o0, o2, o3] : (o3 = 1 and o0 >= 1 + m and "
2190 "o0 <= n + m and o2 <= m and o0 >= 2 + n and o2 >= 3) or "
2191 "(o0 >= 2 + n and o0 >= 1 + m and o0 <= n + m and n >= 1 and "
2192 "o3 <= -1 + o2 and o3 >= 1 - m + o2 and o3 >= 2 and o3 <= n) }" },
2193 { 0, "[M, N] -> { [[i0, i1, i2, i3, i4, i5, i6] -> "
2194 "[o0, o1, o2, o3, o4, o5, o6]] : "
2195 "(o6 <= -4 + 2M - 2N + i0 + i1 - i2 + i6 - o0 - o1 + o2 and "
2196 "o3 <= -2 + i3 and o6 >= 2 + i0 + i3 + i6 - o0 - o3 and "
2197 "o6 >= 2 - M + N + i3 + i4 + i6 - o3 - o4 and o0 <= -1 + i0 and "
2198 "o4 >= 4 - 3M + 3N - i0 - i1 + i2 + 2i3 + i4 + o0 + o1 - o2 - 2o3 "
2199 "and o6 <= -3 + 2M - 2N + i3 + i4 - i5 + i6 - o3 - o4 + o5 and "
2200 "2o6 <= -5 + 5M - 5N + 2i0 + i1 - i2 - i5 + 2i6 - 2o0 - o1 + o2 + o5 "
2201 "and o6 >= 2i0 + i1 + i6 - 2o0 - o1 and "
2202 "3o6 <= -5 + 4M - 4N + 2i0 + i1 - i2 + 2i3 + i4 - i5 + 3i6 "
2203 "- 2o0 - o1 + o2 - 2o3 - o4 + o5) or "
2204 "(N >= 2 and o3 <= -1 + i3 and o0 <= -1 + i0 and "
2205 "o6 >= i3 + i6 - o3 and M >= 0 and "
2206 "2o6 >= 1 + i0 + i3 + 2i6 - o0 - o3 and "
2207 "o6 >= 1 - M + i0 + i6 - o0 and N >= 2M and o6 >= i0 + i6 - o0) }" },
2208 { 0, "[M, N] -> { [o0] : (o0 = 0 and M >= 1 and N >= 2) or "
2209 "(o0 = 0 and M >= 1 and N >= 2M and N >= 2 + M) or "
2210 "(o0 = 0 and M >= 2 and N >= 3) or "
2211 "(M = 0 and o0 = 0 and N >= 3) }" },
2212 { 0, "{ [i0, i1, i2, i3] : (i1 = 10i0 and i0 >= 1 and 10i0 <= 100 and "
2213 "i3 <= 9 + 10 i2 and i3 >= 1 + 10i2 and i3 >= 0) or "
2214 "(i1 <= 9 + 10i0 and i1 >= 1 + 10i0 and i2 >= 0 and "
2215 "i0 >= 0 and i1 <= 100 and i3 <= 9 + 10i2 and i3 >= 1 + 10i2) }" },
2216 { 0, "[M] -> { [i1] : (i1 >= 2 and i1 <= M) or (i1 = M and M >= 1) }" },
2217 { 0, "{[x,y] : x,y >= 0; [x,y] : 10 <= x <= 20 and y >= -1 }" },
2218 { 1, "{ [x, y] : (x >= 1 and y >= 1 and x <= 2 and y <= 2) or "
2219 "(y = 3 and x = 1) }" },
2220 { 1, "[M] -> { [i0, i1, i2, i3, i4] : (i1 >= 3 and i4 >= 2 + i2 and "
2221 "i2 >= 2 and i0 >= 2 and i3 >= 1 + i2 and i0 <= M and "
2222 "i1 <= M and i3 <= M and i4 <= M) or "
2223 "(i1 >= 2 and i4 >= 1 + i2 and i2 >= 2 and i0 >= 2 and "
2224 "i3 >= 1 + i2 and i0 <= M and i1 <= -1 + M and i3 <= M and "
2225 "i4 <= -1 + M) }" },
2226 { 1, "{ [x, y] : (x >= 0 and y >= 0 and x <= 10 and y <= 10) or "
2227 "(x >= 1 and y >= 1 and x <= 11 and y <= 11) }" },
2228 { 0, "{[x,0] : x >= 0; [x,1] : x <= 20}" },
2229 { 1, "{ [x, 1 - x] : 0 <= x <= 1; [0,0] }" },
2230 { 1, "{ [0,0]; [i,i] : 1 <= i <= 10 }" },
2231 { 0, "{ [0,0]; [i,j] : 1 <= i,j <= 10 }" },
2232 { 1, "{ [0,0]; [i,2i] : 1 <= i <= 10 }" },
2233 { 0, "{ [0,0]; [i,2i] : 2 <= i <= 10 }" },
2234 { 0, "{ [1,0]; [i,2i] : 1 <= i <= 10 }" },
2235 { 0, "{ [0,1]; [i,2i] : 1 <= i <= 10 }" },
2236 { 0, "{ [a, b] : exists e : 2e = a and "
2237 "a >= 0 and (a <= 3 or (b <= 0 and b >= -4 + a)) }" },
2238 { 0, "{ [i, j, i', j'] : i <= 2 and j <= 2 and "
2239 "j' >= -1 + 2i + j - 2i' and i' <= -1 + i and "
2240 "j >= 1 and j' <= i + j - i' and i >= 1; "
2242 { 1, "{ [i,j] : exists a,b : i = 2a and j = 3b; "
2243 "[i,j] : exists a : j = 3a }" },
2244 { 1, "{ [a, b, c] : (c <= 7 - b and b <= 1 and b >= 0 and "
2245 "c >= 3 + b and b <= 3 + 8a and b >= -26 + 8a and "
2247 "(b <= 1 and c <= 7 and b >= 0 and c >= 4 + b and "
2248 "b <= 3 + 8a and b >= -26 + 8a and a >= 3) }" },
2249 { 1, "{ [a, 0, c] : c >= 1 and c <= 29 and c >= -1 + 8a and "
2250 "c <= 6 + 8a and a >= 3; "
2251 "[a, -1, c] : c >= 1 and c <= 30 and c >= 8a and "
2252 "c <= 7 + 8a and a >= 3 and a <= 4 }" },
2253 { 1, "{ [x,y] : 0 <= x <= 2 and y >= 0 and x + 2y <= 4; "
2254 "[x,0] : 3 <= x <= 4 }" },
2255 { 1, "{ [x,y] : 0 <= x <= 3 and y >= 0 and x + 3y <= 6; "
2256 "[x,0] : 4 <= x <= 5 }" },
2257 { 0, "{ [x,y] : 0 <= x <= 2 and y >= 0 and x + 2y <= 4; "
2258 "[x,0] : 3 <= x <= 5 }" },
2259 { 0, "{ [x,y] : 0 <= x <= 2 and y >= 0 and x + y <= 4; "
2260 "[x,0] : 3 <= x <= 4 }" },
2261 { 1, "{ [i0, i1] : i0 <= 122 and i0 >= 1 and 128i1 >= -249 + i0 and "
2263 "[i0, 0] : i0 >= 123 and i0 <= 124 }" },
2264 { 1, "{ [0,0]; [1,1] }" },
2265 { 1, "[n] -> { [k] : 16k <= -1 + n and k >= 1; [0] : n >= 2 }" },
2266 { 1, "{ [k, ii, k - ii] : ii >= -6 + k and ii <= 6 and ii >= 1 and "
2268 "[k, 0, k] : k <= 6 and k >= 1 }" },
2269 { 1, "{ [i,j] : i = 4 j and 0 <= i <= 100;"
2270 "[i,j] : 1 <= i <= 100 and i >= 4j + 1 and i <= 4j + 2 }" },
2271 { 1, "{ [x,y] : x % 2 = 0 and y % 2 = 0; [x,x] : x % 2 = 0 }" },
2272 { 1, "[n] -> { [1] : n >= 0;"
2273 "[x] : exists (e0 = floor((x)/2): x >= 2 and "
2274 "2e0 >= -1 + x and 2e0 <= x and 2e0 <= n) }" },
2275 { 1, "[n] -> { [x, y] : exists (e0 = floor((x)/2), e1 = floor((y)/3): "
2276 "3e1 = y and x >= 2 and 2e0 >= -1 + x and "
2277 "2e0 <= x and 2e0 <= n);"
2278 "[1, y] : exists (e0 = floor((y)/3): 3e0 = y and "
2280 { 1, "[t1] -> { [i0] : (exists (e0 = floor((63t1)/64): "
2281 "128e0 >= -134 + 127t1 and t1 >= 2 and "
2282 "64e0 <= 63t1 and 64e0 >= -63 + 63t1)) or "
2284 { 1, "{ [i, i] : exists (e0 = floor((1 + 2i)/3): 3e0 <= 2i and "
2285 "3e0 >= -1 + 2i and i <= 9 and i >= 1);"
2287 { 1, "{ [t1] : exists (e0 = floor((-11 + t1)/2): 2e0 = -11 + t1 and "
2288 "t1 >= 13 and t1 <= 16);"
2289 "[t1] : t1 <= 15 and t1 >= 12 }" },
2290 { 1, "{ [x,y] : x = 3y and 0 <= y <= 2; [-3,-1] }" },
2291 { 1, "{ [x,y] : 2x = 3y and 0 <= y <= 4; [-3,-2] }" },
2292 { 0, "{ [x,y] : 2x = 3y and 0 <= y <= 4; [-2,-2] }" },
2293 { 0, "{ [x,y] : 2x = 3y and 0 <= y <= 4; [-3,-1] }" },
2294 { 1, "{ [i] : exists j : i = 4 j and 0 <= i <= 100;"
2295 "[i] : exists j : 1 <= i <= 100 and i >= 4j + 1 and "
2297 { 1, "{ [c0] : (exists (e0 : c0 - 1 <= 3e0 <= c0)) or "
2298 "(exists (e0 : 3e0 = -2 + c0)) }" },
2299 { 0, "[n, b0, t0] -> "
2300 "{ [i0, i1, i2, i3, i4, i5, i6, i7, i8, i9, i10, i11, i12] : "
2301 "(exists (e0 = floor((-32b0 + i4)/1048576), "
2302 "e1 = floor((i8)/32): 1048576e0 = -32b0 + i4 and 32e1 = i8 and "
2303 "n <= 2147483647 and b0 <= 32767 and b0 >= 0 and "
2304 "32b0 <= -2 + n and t0 <= 31 and t0 >= 0 and i0 >= 8 + n and "
2305 "3i4 <= -96 + 3t0 + i0 and 3i4 >= -95 - n + 3t0 + i0 and "
2306 "i8 >= -157 + i0 - 4i4 and i8 >= 0 and "
2307 "i8 <= -33 + i0 - 4i4 and 3i8 <= -91 + 4n - i0)) or "
2308 "(exists (e0 = floor((-32b0 + i4)/1048576), "
2309 "e1 = floor((i8)/32): 1048576e0 = -32b0 + i4 and 32e1 = i8 and "
2310 "n <= 2147483647 and b0 <= 32767 and b0 >= 0 and "
2311 "32b0 <= -2 + n and t0 <= 31 and t0 >= 0 and i0 <= 7 + n and "
2312 "4i4 <= -3 + i0 and 3i4 <= -96 + 3t0 + i0 and "
2313 "3i4 >= -95 - n + 3t0 + i0 and i8 >= -157 + i0 - 4i4 and "
2314 "i8 >= 0 and i8 <= -4 + i0 - 3i4 and i8 <= -41 + i0));"
2315 "[i0, i1, i2, i3, 0, i5, i6, i7, i8, i9, i10, i11, i12] : "
2316 "(exists (e0 = floor((i8)/32): b0 = 0 and 32e0 = i8 and "
2317 "n <= 2147483647 and t0 <= 31 and t0 >= 0 and i0 >= 11 and "
2318 "i0 >= 96 - 3t0 and i0 <= 95 + n - 3t0 and i0 <= 7 + n and "
2319 "i8 >= -40 + i0 and i8 <= -10 + i0)) }" },
2320 { 0, "{ [i0, i1, i2] : "
2321 "(exists (e0, e1 = floor((i0)/32), e2 = floor((i1)/32): "
2322 "32e1 = i0 and 32e2 = i1 and i1 >= -31 + i0 and "
2323 "i1 <= 31 + i0 and i2 >= -30 + i0 and i2 >= -30 + i1 and "
2324 "32e0 >= -30 + i0 and 32e0 >= -30 + i1 and "
2325 "32e0 >= -31 + i2 and 32e0 <= 30 + i2 and 32e0 <= 31 + i1 and "
2326 "32e0 <= 31 + i0)) or "
2328 { 1, "{ [a, b, c] : 2b = 1 + a and 2c = 2 + a; [0, 0, 0] }" },
2329 { 1, "{ [a, a, b, c] : 32*floor((a)/32) = a and 2*floor((b)/2) = b and "
2330 "2*floor((c)/2) = c and 0 <= a <= 192;"
2331 "[224, 224, b, c] : 2*floor((b)/2) = b and 2*floor((c)/2) = c }"
2333 { 1, "[n] -> { [a,b] : (exists e : 1 <= a <= 7e and 9e <= b <= n) or "
2334 "(0 <= a <= b <= n) }" },
2335 { 1, "{ [a, b] : 0 <= a <= 2 and b >= 0 and "
2336 "((0 < b <= 13) or (2*floor((a + b)/2) >= -5 + a + 2b)) }" },
2337 { 1, "{ [a] : (2 <= a <= 5) or (a mod 2 = 1 and 1 <= a <= 5) }" },
2338 { 1, "{ [a, b, c] : (b = -1 + a and 0 < a <= 3 and "
2339 "9*floor((-4a + 2c)/9) <= -3 - 4a + 2c) or "
2340 "(exists (e0 = floor((-16 + 2c)/9): a = 4 and "
2341 "b = 3 and 9e0 <= -19 + 2c)) }" },
2342 { 1, "{ [a, b, c] : (b = -1 + a and 0 < a <= 3 and "
2343 "9*floor((-4a + 2c)/9) <= -3 - 4a + 2c) or "
2344 "(a = 4 and b = 3 and "
2345 "9*floor((-16 + 2c)/9) <= -19 + 2c) }" },
2346 { 0, "{ [a, b, c] : (b <= 2 and b <= -2 + a) or "
2347 "(b = -1 + a and 0 < a <= 3 and "
2348 "9*floor((-4a + 2c)/9) <= -3 - 4a + 2c) or "
2349 "(exists (e0 = floor((-16 + 2c)/9): a = 4 and "
2350 "b = 3 and 9e0 <= -19 + 2c)) }" },
2351 { 1, "{ [y, x] : (x - y) mod 3 = 2 and 2 <= y <= 200 and 0 <= x <= 2;"
2353 { 1, "{ [x, y] : (x - y) mod 3 = 2 and 2 <= y <= 200 and 0 <= x <= 2;"
2355 { 1, "{ [1, y] : -1 <= y <= 1; [x, -x] : 0 <= x <= 1 }" },
2356 { 1, "{ [1, y] : 0 <= y <= 1; [x, -x] : 0 <= x <= 1 }" },
2357 { 1, "{ [x, y] : 0 <= x <= 10 and x - 4*floor(x/4) <= 1 and y <= 0; "
2358 "[x, y] : 0 <= x <= 10 and x - 4*floor(x/4) > 1 and y <= 0; "
2359 "[x, y] : 0 <= x <= 10 and x - 5*floor(x/5) <= 1 and 0 < y; "
2360 "[x, y] : 0 <= x <= 10 and x - 5*floor(x/5) > 1 and 0 < y }" },
2361 { 1, "{ [x, 0] : 0 <= x <= 10 and x mod 2 = 0; "
2362 "[x, 0] : 0 <= x <= 10 and x mod 2 = 1; "
2363 "[x, y] : 0 <= x <= 10 and 1 <= y <= 10 }" },
2364 { 1, "{ [a] : a <= 8 and "
2365 "(a mod 10 = 7 or a mod 10 = 8 or a mod 10 = 9) }" },
2366 { 1, "{ [x, y] : 2y = -x and x <= 0 or "
2367 "x <= -1 and 2y <= -x - 1 and 2y >= x - 1 }" },
2368 { 0, "{ [x, y] : 2y = -x and x <= 0 or "
2369 "x <= -2 and 2y <= -x - 1 and 2y >= x - 1 }" },
2370 { 1, "{ [a] : (a <= 0 and 3*floor((a)/3) = a) or "
2371 "(a < 0 and 3*floor((a)/3) < a) }" },
2372 { 1, "{ [a] : (a <= 0 and 3*floor((a)/3) = a) or "
2373 "(a < -1 and 3*floor((a)/3) < a) }" },
2374 { 1, "{ [a, b] : a <= 1024 and b >= 0 and "
2375 "((-31 - a + b <= 32*floor((-1 - a)/32) <= -33 + b and "
2376 "32*floor((-1 - a)/32) <= -16 + b + 16*floor((-1 - a)/16))"
2377 "or (2 <= a <= 15 and b < a)) }" },
2378 { 1, "{ [a] : a > 0 and ((16*floor((a)/16) < a and "
2379 "32*floor((a)/32) < a) or a <= 15) }" },
2380 { 1, "{ [a, b, c, d] : (-a + d) mod 64 = 0 and a <= 8 and b <= 1 and "
2381 "10 - a <= c <= 3 and d >= 5 and 9 - 64b <= d <= 70;"
2382 "[a, b = 1, c, d] : (-a + d) mod 64 = 0 and a <= 8 and c >= 4 and "
2383 "10 - a <= c <= 5 and 5 <= d <= 73 - c }" },
2384 { 1, "[n, m] -> { S_0[i] : (-n + i) mod 3 = 0 and m >= 3 + n and "
2385 "i >= n and 3*floor((2 + n + 2m)/3) <= n + 3m - i; "
2386 "S_0[n] : n <= m <= 2 + n }" },
2387 { 1, "{ [a, b] : exists (e0: 0 <= a <= 1 and b >= 0 and "
2388 "2e0 >= -5 + a + 2b and 2e0 >= -1 + a + b and "
2390 "[a, b] : exists (e0: 0 <= a <= 1 and 2e0 >= -5 + a + 2b and "
2391 "2e0 >= -1 - a + b and 2e0 <= -a + b and "
2392 "2e0 < -a + 2b) }" },
2393 { 1, "{ [i, j, i - 8j] : 8 <= i <= 63 and -7 + i <= 8j <= i; "
2394 "[i, 0, i] : 0 <= i <= 7 }" },
2395 { 1, "{ [a, b] : a >= 0 and 0 <= b <= 1 - a; [1, 1] }" },
2396 { 0, "{ [a, b] : a >= 0 and 0 <= b <= 1 - a; [0, 2] }" },
2397 { 0, "{ [a, b] : a >= 0 and 0 <= b <= 1 - a; [-1, 3] }" },
2398 { 1, "{ [a, b] : a, b >= 0 and a + 2b <= 2; [1, 1] }" },
2399 { 0, "{ [a, b] : a, b >= 0 and a + 2b <= 2; [2, 1] }" },
2400 { 0, "{ [a, c] : (2 + a) mod 4 = 0 or "
2401 "(c = 4 + a and 4 * floor((a)/4) = a and a >= 0 and a <= 4) or "
2402 "(c = 3 + a and 4 * floor((-1 + a)/4) = -1 + a and "
2403 "a > 0 and a <= 5) }" },
2404 { 1, "{ [1, 0, 0]; [a, b, c] : -1 <= -a < b <= 0 and 2c > b }" },
2405 { 0, "{ [j, a, l] : a mod 2 = 0 and j <= 29 and a >= 2 and "
2406 "2a <= -5 + j and 32j + 2a + 2 <= 4l < 33j; "
2407 "[j, 0, l] : 4 <= j <= 29 and -3 + 33j <= 4l <= 33j }" },
2408 { 0, "{ [0:1, 0:1]; [0, 2:3] }" },
2409 { 1, "{ [a] : (a = 0 or ((1 + a) mod 2 = 0 and 0 < a <= 15) or "
2410 "((a) mod 2 = 0 and 0 < a <= 15)) }" },
2411 { 1, "{ rat: [0:2]; rat: [1:3] }" },
2414 /* A specialized coalescing test case that would result
2415 * in a segmentation fault or a failed assertion in earlier versions of isl.
2417 static int test_coalesce_special(struct isl_ctx
*ctx
)
2420 isl_map
*map1
, *map2
;
2422 str
= "[y] -> { [S_L220_OUT[] -> T7[]] -> "
2423 "[[S_L309_IN[] -> T11[]] -> ce_imag2[1, o1]] : "
2424 "(y = 201 and o1 <= 239 and o1 >= 212) or "
2425 "(exists (e0 = [(y)/3]: 3e0 = y and y <= 198 and y >= 3 and "
2426 "o1 <= 239 and o1 >= 212)) or "
2427 "(exists (e0 = [(y)/3]: 3e0 = y and y <= 201 and y >= 3 and "
2428 "o1 <= 241 and o1 >= 240));"
2429 "[S_L220_OUT[] -> T7[]] -> "
2430 "[[S_L309_IN[] -> T11[]] -> ce_imag2[0, o1]] : "
2431 "(y = 2 and o1 <= 241 and o1 >= 212) or "
2432 "(exists (e0 = [(-2 + y)/3]: 3e0 = -2 + y and y <= 200 and "
2433 "y >= 5 and o1 <= 241 and o1 >= 212)) }";
2434 map1
= isl_map_read_from_str(ctx
, str
);
2435 map1
= isl_map_align_divs_internal(map1
);
2436 map1
= isl_map_coalesce(map1
);
2437 str
= "[y] -> { [S_L220_OUT[] -> T7[]] -> "
2438 "[[S_L309_IN[] -> T11[]] -> ce_imag2[o0, o1]] : "
2439 "exists (e0 = [(-1 - y + o0)/3]: 3e0 = -1 - y + o0 and "
2440 "y <= 201 and o0 <= 2 and o1 >= 212 and o1 <= 241 and "
2441 "o0 >= 3 - y and o0 <= -2 + y and o0 >= 0) }";
2442 map2
= isl_map_read_from_str(ctx
, str
);
2443 map2
= isl_map_union(map2
, map1
);
2444 map2
= isl_map_align_divs_internal(map2
);
2445 map2
= isl_map_coalesce(map2
);
2453 /* Check that the union of the basic sets described by "str1" and "str2"
2454 * can be coalesced and that the result is equal to the union.
2455 * The explicit call to isl_basic_set_union prevents the implicit
2456 * equality constraints in the basic maps from being detected prior
2457 * to the call to isl_set_coalesce, at least at the point
2458 * where this function was introduced.
2460 static isl_stat
test_coalesce_union(isl_ctx
*ctx
, const char *str1
,
2463 isl_basic_set
*bset1
, *bset2
;
2464 isl_set
*set
, *set2
;
2467 bset1
= isl_basic_set_read_from_str(ctx
, str1
);
2468 bset2
= isl_basic_set_read_from_str(ctx
, str2
);
2469 set
= isl_basic_set_union(bset1
, bset2
);
2470 set
= isl_set_coalesce(set
);
2472 bset1
= isl_basic_set_read_from_str(ctx
, str1
);
2473 bset2
= isl_basic_set_read_from_str(ctx
, str2
);
2474 set2
= isl_basic_set_union(bset1
, bset2
);
2476 equal
= isl_set_is_equal(set
, set2
);
2481 return isl_stat_error
;
2483 isl_die(ctx
, isl_error_unknown
,
2484 "coalesced set not equal to input",
2485 return isl_stat_error
);
2487 return isl_stat_non_null(set
);
2490 /* A specialized coalescing test case that would result in an assertion
2491 * in an earlier version of isl. Use test_coalesce_union with
2492 * an explicit call to isl_basic_set_union to prevent the implicit
2493 * equality constraints in the first basic map from being detected prior
2494 * to the call to isl_set_coalesce, at least at the point
2495 * where this test case was introduced.
2497 static isl_stat
test_coalesce_special2(struct isl_ctx
*ctx
)
2502 str1
= "{ [x, y] : x, y >= 0 and x + 2y <= 1 and 2x + y <= 1 }";
2503 str2
= "{ [x,0] : -1 <= x <= 1 and x mod 2 = 1 }";
2504 return test_coalesce_union(ctx
, str1
, str2
);
2507 /* Check that calling isl_set_coalesce does not leave other sets
2508 * that may share some information with the input to isl_set_coalesce
2509 * in an inconsistent state.
2510 * In particular, older versions of isl would modify all copies
2511 * of the basic sets in the isl_set_coalesce input in a way
2512 * that could leave them in an inconsistent state.
2513 * The result of printing any other set containing one of these
2514 * basic sets would then result in an invalid set description.
2516 static int test_coalesce_special3(isl_ctx
*ctx
)
2520 isl_set
*set1
, *set2
;
2523 set1
= isl_set_read_from_str(ctx
, "{ [0, 0, 0] }");
2524 str
= "{ [a, b, a + b] : a >= 0 and b >= 0 and 0 < a + b }";
2525 set2
= isl_set_read_from_str(ctx
, str
);
2526 set1
= isl_set_union(set1
, isl_set_copy(set2
));
2527 set1
= isl_set_coalesce(set1
);
2530 p
= isl_printer_to_str(ctx
);
2531 p
= isl_printer_print_set(p
, set2
);
2533 s
= isl_printer_get_str(p
);
2534 isl_printer_free(p
);
2535 set1
= isl_set_read_from_str(ctx
, s
);
2545 /* Check that calling isl_set_coalesce on the intersection of
2546 * the sets described by "s1" and "s2" does not leave other sets
2547 * that may share some information with the input to isl_set_coalesce
2548 * in an inconsistent state.
2549 * In particular, when isl_set_coalesce detects equality constraints,
2550 * it does not immediately perform Gaussian elimination on them,
2551 * but then it needs to ensure that it is performed at some point.
2552 * The input set has implicit equality constraints in the first disjunct.
2553 * It is constructed as an intersection, because otherwise
2554 * those equality constraints would already be detected during parsing.
2556 static isl_stat
test_coalesce_intersection(isl_ctx
*ctx
,
2557 const char *s1
, const char *s2
)
2559 isl_set
*set1
, *set2
;
2561 set1
= isl_set_read_from_str(ctx
, s1
);
2562 set2
= isl_set_read_from_str(ctx
, s2
);
2563 set1
= isl_set_intersect(set1
, set2
);
2564 isl_set_free(isl_set_coalesce(isl_set_copy(set1
)));
2565 set1
= isl_set_coalesce(set1
);
2569 return isl_stat_error
;
2574 /* Check that calling isl_set_coalesce does not leave other sets
2575 * that may share some information with the input to isl_set_coalesce
2576 * in an inconsistent state, for the case where one disjunct
2577 * is a subset of the other.
2579 static isl_stat
test_coalesce_special4(isl_ctx
*ctx
)
2581 const char *s1
, *s2
;
2583 s1
= "{ [a, b] : b <= 0 or a <= 1 }";
2584 s2
= "{ [a, b] : -1 <= -a < b }";
2585 return test_coalesce_intersection(ctx
, s1
, s2
);
2588 /* Check that calling isl_set_coalesce does not leave other sets
2589 * that may share some information with the input to isl_set_coalesce
2590 * in an inconsistent state, for the case where two disjuncts
2593 static isl_stat
test_coalesce_special5(isl_ctx
*ctx
)
2595 const char *s1
, *s2
;
2597 s1
= "{ [a, b, c] : b <= 0 }";
2598 s2
= "{ [a, b, c] : -1 <= -a < b and (c >= 0 or c < 0) }";
2599 return test_coalesce_intersection(ctx
, s1
, s2
);
2602 /* Check that calling isl_set_coalesce does not leave other sets
2603 * that may share some information with the input to isl_set_coalesce
2604 * in an inconsistent state, for the case where two disjuncts
2605 * can be fused and where both disjuncts have implicit equality constraints.
2607 static isl_stat
test_coalesce_special6(isl_ctx
*ctx
)
2609 const char *s1
, *s2
;
2611 s1
= "{ [a, b, c] : c <= 0 }";
2612 s2
= "{ [a, b, c] : 0 <= a <= b <= c or (0 <= b <= c and a > 0) }";
2613 return test_coalesce_intersection(ctx
, s1
, s2
);
2616 /* A specialized coalescing test case that would result in an assertion failure
2617 * in an earlier version of isl. Use test_coalesce_union with
2618 * an explicit call to isl_basic_set_union to prevent the implicit
2619 * equality constraints in the basic maps from being detected prior
2620 * to the call to isl_set_coalesce, at least at the point
2621 * where this test case was introduced.
2623 static isl_stat
test_coalesce_special7(isl_ctx
*ctx
)
2628 str1
= "{ [a, b, c=0:17] : a <= 7 and 2b <= 11 - a and "
2629 "c <= -7 + 2a and 2c >= - 3 + 3a - 2b }";
2630 str2
= "{ [a, b, c] : c > -15a and c >= -7 + 2a and c < 0 and "
2631 "3c <= -5 + 5a - 3b and 2b >= 11 - a }";
2632 return test_coalesce_union(ctx
, str1
, str2
);
2635 /* A specialized coalescing test case that would result in a disjunct
2636 * getting dropped in an earlier version of isl. Use test_coalesce_union with
2637 * an explicit call to isl_basic_set_union to prevent the implicit
2638 * equality constraints in the basic maps from being detected prior
2639 * to the call to isl_set_coalesce, at least at the point
2640 * where this test case was introduced.
2642 static isl_stat
test_coalesce_special8(isl_ctx
*ctx
)
2647 str1
= "{ [a, b, c] : 2c <= -a and b >= -a and b <= 5 and "
2648 "6c > -7a and 11c >= -5a - b and a <= 3 }";
2649 str2
= "{ [a, b, c] : 6c > -7a and b >= -a and b <= 5 and "
2650 "11c >= -5a - b and a >= 4 and 2b <= a and 2c <= -a }";
2651 return test_coalesce_union(ctx
, str1
, str2
);
2654 /* Test the functionality of isl_set_coalesce.
2655 * That is, check that the output is always equal to the input
2656 * and in some cases that the result consists of a single disjunct.
2658 static int test_coalesce(struct isl_ctx
*ctx
)
2662 for (i
= 0; i
< ARRAY_SIZE(coalesce_tests
); ++i
) {
2663 const char *str
= coalesce_tests
[i
].str
;
2664 int check_one
= coalesce_tests
[i
].single_disjunct
;
2665 if (test_coalesce_set(ctx
, str
, check_one
) < 0)
2669 if (test_coalesce_unbounded_wrapping(ctx
) < 0)
2671 if (test_coalesce_special(ctx
) < 0)
2673 if (test_coalesce_special2(ctx
) < 0)
2675 if (test_coalesce_special3(ctx
) < 0)
2677 if (test_coalesce_special4(ctx
) < 0)
2679 if (test_coalesce_special5(ctx
) < 0)
2681 if (test_coalesce_special6(ctx
) < 0)
2683 if (test_coalesce_special7(ctx
) < 0)
2685 if (test_coalesce_special8(ctx
) < 0)
2691 /* Construct a representation of the graph on the right of Figure 1
2692 * in "Computing the Transitive Closure of a Union of
2693 * Affine Integer Tuple Relations".
2695 static __isl_give isl_map
*cocoa_fig_1_right_graph(isl_ctx
*ctx
)
2698 isl_map
*up
, *right
;
2700 dom
= isl_set_read_from_str(ctx
,
2701 "{ [x,y] : x >= 0 and -2 x + 3 y >= 0 and x <= 3 and "
2702 "2 x - 3 y + 3 >= 0 }");
2703 right
= isl_map_read_from_str(ctx
,
2704 "{ [x,y] -> [x2,y2] : x2 = x + 1 and y2 = y }");
2705 up
= isl_map_read_from_str(ctx
,
2706 "{ [x,y] -> [x2,y2] : x2 = x and y2 = y + 1 }");
2707 right
= isl_map_intersect_domain(right
, isl_set_copy(dom
));
2708 right
= isl_map_intersect_range(right
, isl_set_copy(dom
));
2709 up
= isl_map_intersect_domain(up
, isl_set_copy(dom
));
2710 up
= isl_map_intersect_range(up
, dom
);
2711 return isl_map_union(up
, right
);
2714 /* Construct a representation of the power of the graph
2715 * on the right of Figure 1 in "Computing the Transitive Closure of
2716 * a Union of Affine Integer Tuple Relations".
2718 static __isl_give isl_map
*cocoa_fig_1_right_power(isl_ctx
*ctx
)
2720 return isl_map_read_from_str(ctx
,
2721 "{ [1] -> [[0,0] -> [0,1]]; [2] -> [[0,0] -> [1,1]]; "
2722 " [1] -> [[0,1] -> [1,1]]; [1] -> [[2,2] -> [3,2]]; "
2723 " [2] -> [[2,2] -> [3,3]]; [1] -> [[3,2] -> [3,3]] }");
2726 /* Construct a representation of the transitive closure of the graph
2727 * on the right of Figure 1 in "Computing the Transitive Closure of
2728 * a Union of Affine Integer Tuple Relations".
2730 static __isl_give isl_map
*cocoa_fig_1_right_tc(isl_ctx
*ctx
)
2732 return isl_set_unwrap(isl_map_range(cocoa_fig_1_right_power(ctx
)));
2735 static int test_closure(isl_ctx
*ctx
)
2738 isl_map
*map
, *map2
;
2739 isl_bool exact
, equal
;
2741 /* COCOA example 1 */
2742 map
= isl_map_read_from_str(ctx
,
2743 "[n] -> { [i,j] -> [i2,j2] : i2 = i + 1 and j2 = j + 1 and "
2744 "1 <= i and i < n and 1 <= j and j < n or "
2745 "i2 = i + 1 and j2 = j - 1 and "
2746 "1 <= i and i < n and 2 <= j and j <= n }");
2747 map
= isl_map_power(map
, &exact
);
2751 /* COCOA example 1 */
2752 map
= isl_map_read_from_str(ctx
,
2753 "[n] -> { [i,j] -> [i2,j2] : i2 = i + 1 and j2 = j + 1 and "
2754 "1 <= i and i < n and 1 <= j and j < n or "
2755 "i2 = i + 1 and j2 = j - 1 and "
2756 "1 <= i and i < n and 2 <= j and j <= n }");
2757 map
= isl_map_transitive_closure(map
, &exact
);
2759 map2
= isl_map_read_from_str(ctx
,
2760 "[n] -> { [i,j] -> [i2,j2] : exists (k1,k2,k : "
2761 "1 <= i and i < n and 1 <= j and j <= n and "
2762 "2 <= i2 and i2 <= n and 1 <= j2 and j2 <= n and "
2763 "i2 = i + k1 + k2 and j2 = j + k1 - k2 and "
2764 "k1 >= 0 and k2 >= 0 and k1 + k2 = k and k >= 1 )}");
2765 assert(isl_map_is_equal(map
, map2
));
2769 map
= isl_map_read_from_str(ctx
,
2770 "[n] -> { [x] -> [y] : y = x + 1 and 0 <= x and x <= n and "
2771 " 0 <= y and y <= n }");
2772 map
= isl_map_transitive_closure(map
, &exact
);
2773 map2
= isl_map_read_from_str(ctx
,
2774 "[n] -> { [x] -> [y] : y > x and 0 <= x and x <= n and "
2775 " 0 <= y and y <= n }");
2776 assert(isl_map_is_equal(map
, map2
));
2780 /* COCOA example 2 */
2781 map
= isl_map_read_from_str(ctx
,
2782 "[n] -> { [i,j] -> [i2,j2] : i2 = i + 2 and j2 = j + 2 and "
2783 "1 <= i and i < n - 1 and 1 <= j and j < n - 1 or "
2784 "i2 = i + 2 and j2 = j - 2 and "
2785 "1 <= i and i < n - 1 and 3 <= j and j <= n }");
2786 map
= isl_map_transitive_closure(map
, &exact
);
2788 map2
= isl_map_read_from_str(ctx
,
2789 "[n] -> { [i,j] -> [i2,j2] : exists (k1,k2,k : "
2790 "1 <= i and i < n - 1 and 1 <= j and j <= n and "
2791 "3 <= i2 and i2 <= n and 1 <= j2 and j2 <= n and "
2792 "i2 = i + 2 k1 + 2 k2 and j2 = j + 2 k1 - 2 k2 and "
2793 "k1 >= 0 and k2 >= 0 and k1 + k2 = k and k >= 1) }");
2794 assert(isl_map_is_equal(map
, map2
));
2798 /* COCOA Fig.2 left */
2799 map
= isl_map_read_from_str(ctx
,
2800 "[n] -> { [i,j] -> [i2,j2] : i2 = i + 2 and j2 = j and "
2801 "i <= 2 j - 3 and i <= n - 2 and j <= 2 i - 1 and "
2803 "i2 = i and j2 = j + 2 and i <= 2 j - 1 and i <= n and "
2804 "j <= 2 i - 3 and j <= n - 2 or "
2805 "i2 = i + 1 and j2 = j + 1 and i <= 2 j - 1 and "
2806 "i <= n - 1 and j <= 2 i - 1 and j <= n - 1 }");
2807 map
= isl_map_transitive_closure(map
, &exact
);
2811 /* COCOA Fig.2 right */
2812 map
= isl_map_read_from_str(ctx
,
2813 "[n] -> { [i,j] -> [i2,j2] : i2 = i + 3 and j2 = j and "
2814 "i <= 2 j - 4 and i <= n - 3 and j <= 2 i - 1 and "
2816 "i2 = i and j2 = j + 3 and i <= 2 j - 1 and i <= n and "
2817 "j <= 2 i - 4 and j <= n - 3 or "
2818 "i2 = i + 1 and j2 = j + 1 and i <= 2 j - 1 and "
2819 "i <= n - 1 and j <= 2 i - 1 and j <= n - 1 }");
2820 map
= isl_map_power(map
, &exact
);
2824 /* COCOA Fig.2 right */
2825 map
= isl_map_read_from_str(ctx
,
2826 "[n] -> { [i,j] -> [i2,j2] : i2 = i + 3 and j2 = j and "
2827 "i <= 2 j - 4 and i <= n - 3 and j <= 2 i - 1 and "
2829 "i2 = i and j2 = j + 3 and i <= 2 j - 1 and i <= n and "
2830 "j <= 2 i - 4 and j <= n - 3 or "
2831 "i2 = i + 1 and j2 = j + 1 and i <= 2 j - 1 and "
2832 "i <= n - 1 and j <= 2 i - 1 and j <= n - 1 }");
2833 map
= isl_map_transitive_closure(map
, &exact
);
2835 map2
= isl_map_read_from_str(ctx
,
2836 "[n] -> { [i,j] -> [i2,j2] : exists (k1,k2,k3,k : "
2837 "i <= 2 j - 1 and i <= n and j <= 2 i - 1 and "
2838 "j <= n and 3 + i + 2 j <= 3 n and "
2839 "3 + 2 i + j <= 3n and i2 <= 2 j2 -1 and i2 <= n and "
2840 "i2 <= 3 j2 - 4 and j2 <= 2 i2 -1 and j2 <= n and "
2841 "13 + 4 j2 <= 11 i2 and i2 = i + 3 k1 + k3 and "
2842 "j2 = j + 3 k2 + k3 and k1 >= 0 and k2 >= 0 and "
2843 "k3 >= 0 and k1 + k2 + k3 = k and k > 0) }");
2844 assert(isl_map_is_equal(map
, map2
));
2848 map
= cocoa_fig_1_right_graph(ctx
);
2849 map
= isl_map_transitive_closure(map
, &exact
);
2851 map2
= cocoa_fig_1_right_tc(ctx
);
2852 assert(isl_map_is_equal(map
, map2
));
2856 map
= cocoa_fig_1_right_graph(ctx
);
2857 map
= isl_map_power(map
, &exact
);
2858 map2
= cocoa_fig_1_right_power(ctx
);
2859 equal
= isl_map_is_equal(map
, map2
);
2865 isl_die(ctx
, isl_error_unknown
, "power not exact", return -1);
2867 isl_die(ctx
, isl_error_unknown
, "unexpected power", return -1);
2869 /* COCOA Theorem 1 counter example */
2870 map
= isl_map_read_from_str(ctx
,
2871 "{ [i,j] -> [i2,j2] : i = 0 and 0 <= j and j <= 1 and "
2872 "i2 = 1 and j2 = j or "
2873 "i = 0 and j = 0 and i2 = 0 and j2 = 1 }");
2874 map
= isl_map_transitive_closure(map
, &exact
);
2878 map
= isl_map_read_from_str(ctx
,
2879 "[m,n] -> { [i,j] -> [i2,j2] : i2 = i and j2 = j + 2 and "
2880 "1 <= i,i2 <= n and 1 <= j,j2 <= m or "
2881 "i2 = i + 1 and 3 <= j2 - j <= 4 and "
2882 "1 <= i,i2 <= n and 1 <= j,j2 <= m }");
2883 map
= isl_map_transitive_closure(map
, &exact
);
2887 /* Kelly et al 1996, fig 12 */
2888 map
= isl_map_read_from_str(ctx
,
2889 "[n] -> { [i,j] -> [i2,j2] : i2 = i and j2 = j + 1 and "
2890 "1 <= i,j,j+1 <= n or "
2891 "j = n and j2 = 1 and i2 = i + 1 and "
2892 "1 <= i,i+1 <= n }");
2893 map
= isl_map_transitive_closure(map
, &exact
);
2895 map2
= isl_map_read_from_str(ctx
,
2896 "[n] -> { [i,j] -> [i2,j2] : 1 <= j < j2 <= n and "
2897 "1 <= i <= n and i = i2 or "
2898 "1 <= i < i2 <= n and 1 <= j <= n and "
2900 assert(isl_map_is_equal(map
, map2
));
2904 /* Omega's closure4 */
2905 map
= isl_map_read_from_str(ctx
,
2906 "[m,n] -> { [x,y] -> [x2,y2] : x2 = x and y2 = y + 1 and "
2907 "1 <= x,y <= 10 or "
2908 "x2 = x + 1 and y2 = y and "
2909 "1 <= x <= 20 && 5 <= y <= 15 }");
2910 map
= isl_map_transitive_closure(map
, &exact
);
2914 map
= isl_map_read_from_str(ctx
,
2915 "[n] -> { [x] -> [y]: 1 <= n <= y - x <= 10 }");
2916 map
= isl_map_transitive_closure(map
, &exact
);
2918 map2
= isl_map_read_from_str(ctx
,
2919 "[n] -> { [x] -> [y] : 1 <= n <= 10 and y >= n + x }");
2920 assert(isl_map_is_equal(map
, map2
));
2924 str
= "[n, m] -> { [i0, i1, i2, i3] -> [o0, o1, o2, o3] : "
2925 "i3 = 1 and o0 = i0 and o1 = -1 + i1 and o2 = -1 + i2 and "
2926 "o3 = -2 + i2 and i1 <= -1 + i0 and i1 >= 1 - m + i0 and "
2927 "i1 >= 2 and i1 <= n and i2 >= 3 and i2 <= 1 + n and i2 <= m }";
2928 map
= isl_map_read_from_str(ctx
, str
);
2929 map
= isl_map_transitive_closure(map
, &exact
);
2931 map2
= isl_map_read_from_str(ctx
, str
);
2932 assert(isl_map_is_equal(map
, map2
));
2936 str
= "{[0] -> [1]; [2] -> [3]}";
2937 map
= isl_map_read_from_str(ctx
, str
);
2938 map
= isl_map_transitive_closure(map
, &exact
);
2940 map2
= isl_map_read_from_str(ctx
, str
);
2941 assert(isl_map_is_equal(map
, map2
));
2945 str
= "[n] -> { [[i0, i1, 1, 0, i0] -> [i5, 1]] -> "
2946 "[[i0, -1 + i1, 2, 0, i0] -> [-1 + i5, 2]] : "
2947 "exists (e0 = [(3 - n)/3]: i5 >= 2 and i1 >= 2 and "
2948 "3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
2949 "3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n); "
2950 "[[i0, i1, 2, 0, i0] -> [i5, 1]] -> "
2951 "[[i0, i1, 1, 0, i0] -> [-1 + i5, 2]] : "
2952 "exists (e0 = [(3 - n)/3]: i5 >= 2 and i1 >= 1 and "
2953 "3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
2954 "3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n); "
2955 "[[i0, i1, 1, 0, i0] -> [i5, 2]] -> "
2956 "[[i0, -1 + i1, 2, 0, i0] -> [i5, 1]] : "
2957 "exists (e0 = [(3 - n)/3]: i1 >= 2 and i5 >= 1 and "
2958 "3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
2959 "3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n); "
2960 "[[i0, i1, 2, 0, i0] -> [i5, 2]] -> "
2961 "[[i0, i1, 1, 0, i0] -> [i5, 1]] : "
2962 "exists (e0 = [(3 - n)/3]: i5 >= 1 and i1 >= 1 and "
2963 "3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
2964 "3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n) }";
2965 map
= isl_map_read_from_str(ctx
, str
);
2966 map
= isl_map_transitive_closure(map
, NULL
);
2973 /* Check that the actual result of a boolean operation is equal
2974 * to the expected result.
2976 static isl_stat
check_bool(isl_ctx
*ctx
, isl_bool actual
, isl_bool expected
)
2978 if (actual
!= expected
)
2979 isl_die(ctx
, isl_error_unknown
,
2980 "incorrect boolean operation", return isl_stat_error
);
2984 /* Test operations on isl_bool values.
2991 static int test_isl_bool(isl_ctx
*ctx
)
2993 if (check_bool(ctx
, isl_bool_not(isl_bool_true
), isl_bool_false
) < 0)
2995 if (check_bool(ctx
, isl_bool_not(isl_bool_false
), isl_bool_true
) < 0)
2997 if (check_bool(ctx
, isl_bool_not(isl_bool_error
), isl_bool_error
) < 0)
2999 if (check_bool(ctx
, isl_bool_ok(0), isl_bool_false
) < 0)
3001 if (check_bool(ctx
, isl_bool_ok(1), isl_bool_true
) < 0)
3003 if (check_bool(ctx
, isl_bool_ok(-1), isl_bool_true
) < 0)
3005 if (check_bool(ctx
, isl_bool_ok(2), isl_bool_true
) < 0)
3007 if (check_bool(ctx
, isl_bool_ok(-2), isl_bool_true
) < 0)
3013 static int test_lex(struct isl_ctx
*ctx
)
3019 space
= isl_space_set_alloc(ctx
, 0, 0);
3020 map
= isl_map_lex_le(space
);
3021 empty
= isl_map_is_empty(map
);
3027 isl_die(ctx
, isl_error_unknown
,
3028 "expecting non-empty result", return -1);
3033 /* Inputs for isl_map_lexmin tests.
3034 * "map" is the input and "lexmin" is the expected result.
3039 } lexmin_tests
[] = {
3040 { "{ [x] -> [y] : x <= y <= 10; [x] -> [5] : -8 <= x <= 8 }",
3041 "{ [x] -> [5] : 6 <= x <= 8; "
3042 "[x] -> [x] : x <= 5 or (9 <= x <= 10) }" },
3043 { "{ [x] -> [y] : 4y = x or 4y = -1 + x or 4y = -2 + x }",
3044 "{ [x] -> [y] : 4y = x or 4y = -1 + x or 4y = -2 + x }" },
3045 { "{ [x] -> [y] : x = 4y; [x] -> [y] : x = 2y }",
3046 "{ [x] -> [y] : (4y = x and x >= 0) or "
3047 "(exists (e0 = [(x)/4], e1 = [(-2 + x)/4]: 2y = x and "
3048 "4e1 = -2 + x and 4e0 <= -1 + x and 4e0 >= -3 + x)) or "
3049 "(exists (e0 = [(x)/4]: 2y = x and 4e0 = x and x <= -4)) }" },
3050 { "{ T[a] -> S[b, c] : a = 4b-2c and c >= b }",
3051 "{ T[a] -> S[b, c] : 2b = a and 2c = a }" },
3052 /* Check that empty pieces are properly combined. */
3053 { "[K, N] -> { [x, y] -> [a, b] : K+2<=N<=K+4 and x>=4 and "
3054 "2N-6<=x<K+N and N-1<=a<=K+N-1 and N+b-6<=a<=2N-4 and "
3055 "b<=2N-3K+a and 3b<=4N-K+1 and b>=N and a>=x+1 }",
3056 "[K, N] -> { [x, y] -> [1 + x, N] : x >= -6 + 2N and "
3057 "x <= -5 + 2N and x >= -1 + 3K - N and x <= -2 + K + N and "
3059 { "{ [i, k, j] -> [a, b, c, d] : 8*floor((b)/8) = b and k <= 255 and "
3060 "a <= 255 and c <= 255 and d <= 255 - j and "
3061 "255 - j <= 7d <= 7 - i and 240d <= 239 + a and "
3062 "247d <= 247 + k - j and 247d <= 247 + k - b and "
3063 "247d <= 247 + i and 248 - b <= 248d <= c and "
3064 "254d >= i - a + b and 254d >= -a + b and "
3065 "255d >= -i + a - b and 1792d >= -63736 + 257b }",
3067 "[-127762 + i + 502j, -62992 + 248j, 63240 - 248j, 255 - j] : "
3068 "k <= 255 and 7j >= 1778 + i and 246j >= 62738 - k and "
3069 "247j >= 62738 - i and 509j <= 129795 + i and "
3070 "742j >= 188724 - i; "
3071 "[0, k, j] -> [1, 0, 248, 1] : k <= 255 and 248 <= j <= 254, k }" },
3072 { "{ [a] -> [b] : 0 <= b <= 255 and -509 + a <= 512b < a and "
3073 "16*floor((8 + b)/16) <= 7 + b; "
3075 "{ [a] -> [b = 1] : a >= 510 or a <= 0; "
3076 "[a] -> [b = 0] : 0 < a <= 509 }" },
3077 { "{ rat: [i] : 1 <= 2i <= 9 }", "{ rat: [i] : 2i = 1 }" },
3078 { "{ rat: [i] : 1 <= 2i <= 9 or i >= 10 }", "{ rat: [i] : 2i = 1 }" },
3079 { "{ rat: [i] : 21 <= 2i <= 29 or i = 5 }", "{ rat: [5] }" },
3082 static int test_lexmin(struct isl_ctx
*ctx
)
3087 isl_basic_map
*bmap
;
3088 isl_map
*map
, *map2
;
3091 isl_pw_multi_aff
*pma
;
3093 str
= "[p0, p1] -> { [] -> [] : "
3094 "exists (e0 = [(2p1)/3], e1, e2, e3 = [(3 - p1 + 3e0)/3], "
3095 "e4 = [(p1)/3], e5 = [(p1 + 3e4)/3]: "
3096 "3e0 >= -2 + 2p1 and 3e0 >= p1 and 3e3 >= 1 - p1 + 3e0 and "
3097 "3e0 <= 2p1 and 3e3 >= -2 + p1 and 3e3 <= -1 + p1 and p1 >= 3 and "
3098 "3e5 >= -2 + 2p1 and 3e5 >= p1 and 3e5 <= -1 + p1 + 3e4 and "
3099 "3e4 <= p1 and 3e4 >= -2 + p1 and e3 <= -1 + e0 and "
3100 "3e4 >= 6 - p1 + 3e1 and 3e1 >= p1 and 3e5 >= -2 + p1 + 3e4 and "
3101 "2e4 >= 3 - p1 + 2e1 and e4 <= e1 and 3e3 <= 2 - p1 + 3e0 and "
3102 "e5 >= 1 + e1 and 3e4 >= 6 - 2p1 + 3e1 and "
3103 "p0 >= 2 and p1 >= p0 and 3e2 >= p1 and 3e4 >= 6 - p1 + 3e2 and "
3104 "e2 <= e1 and e3 >= 1 and e4 <= e2) }";
3105 map
= isl_map_read_from_str(ctx
, str
);
3106 map
= isl_map_lexmin(map
);
3111 str
= "[C] -> { [obj,a,b,c] : obj <= 38 a + 7 b + 10 c and "
3112 "a + b <= 1 and c <= 10 b and c <= C and a,b,c,C >= 0 }";
3113 set
= isl_set_read_from_str(ctx
, str
);
3114 set
= isl_set_lexmax(set
);
3115 str
= "[C] -> { [obj,a,b,c] : C = 8 }";
3116 set2
= isl_set_read_from_str(ctx
, str
);
3117 set
= isl_set_intersect(set
, set2
);
3118 assert(!isl_set_is_empty(set
));
3121 for (i
= 0; i
< ARRAY_SIZE(lexmin_tests
); ++i
) {
3122 map
= isl_map_read_from_str(ctx
, lexmin_tests
[i
].map
);
3123 map
= isl_map_lexmin(map
);
3124 map2
= isl_map_read_from_str(ctx
, lexmin_tests
[i
].lexmin
);
3125 equal
= isl_map_is_equal(map
, map2
);
3132 isl_die(ctx
, isl_error_unknown
,
3133 "unexpected result", return -1);
3136 str
= "{ [i] -> [i', j] : j = i - 8i' and i' >= 0 and i' <= 7 and "
3137 " 8i' <= i and 8i' >= -7 + i }";
3138 bmap
= isl_basic_map_read_from_str(ctx
, str
);
3139 pma
= isl_basic_map_lexmin_pw_multi_aff(isl_basic_map_copy(bmap
));
3140 map2
= isl_map_from_pw_multi_aff(pma
);
3141 map
= isl_map_from_basic_map(bmap
);
3142 assert(isl_map_is_equal(map
, map2
));
3146 str
= "[i] -> { [i', j] : j = i - 8i' and i' >= 0 and i' <= 7 and "
3147 " 8i' <= i and 8i' >= -7 + i }";
3148 set
= isl_set_read_from_str(ctx
, str
);
3149 pma
= isl_set_lexmin_pw_multi_aff(isl_set_copy(set
));
3150 set2
= isl_set_from_pw_multi_aff(pma
);
3151 equal
= isl_set_is_equal(set
, set2
);
3157 isl_die(ctx
, isl_error_unknown
,
3158 "unexpected difference between set and "
3159 "piecewise affine expression", return -1);
3164 /* Inputs for isl_pw_multi_aff_max_multi_val tests.
3165 * "pma" is the input.
3166 * "res" is the expected result.
3171 } opt_pw_tests
[] = {
3172 { "{ [-1] -> [-1]; [1] -> [1] }", "{ [1] }" },
3173 { "{ [a, b] -> [floor((b - 2*floor((-a)/4))/5)] : "
3174 "0 <= a, b <= 100 and b mod 2 = 0}", "{ [30] }" },
3175 { "[N] -> { [i,j] -> A[i, -i, i + j] : 0 <= i,j <= N <= 10 }",
3176 "{ A[10, 0, 20] }" },
3177 { "[N] -> {A[N, -N, 2N] : 0 <= N }", "{ A[infty, 0, infty] }" },
3180 /* Perform basic isl_pw_multi_aff_max_multi_val tests.
3182 static isl_stat
test_pw_max(struct isl_ctx
*ctx
)
3185 isl_pw_multi_aff
*pma
;
3189 for (i
= 0; i
< ARRAY_SIZE(opt_pw_tests
); ++i
) {
3190 pma
= isl_pw_multi_aff_read_from_str(ctx
, opt_pw_tests
[i
].pma
);
3191 mv
= isl_pw_multi_aff_max_multi_val(pma
);
3192 r
= multi_val_check_plain_equal(mv
, opt_pw_tests
[i
].res
);
3193 isl_multi_val_free(mv
);
3196 return isl_stat_error
;
3202 /* A specialized isl_set_min_val test case that would return the wrong result
3203 * in earlier versions of isl.
3204 * The explicit call to isl_basic_set_union prevents the second basic set
3205 * from being determined to be empty prior to the call to isl_set_min_val,
3206 * at least at the point where this test case was introduced.
3208 static int test_min_special(isl_ctx
*ctx
)
3211 isl_basic_set
*bset1
, *bset2
;
3217 str
= "{ [a, b] : a >= 2 and b >= 0 and 14 - a <= b <= 9 }";
3218 bset1
= isl_basic_set_read_from_str(ctx
, str
);
3219 str
= "{ [a, b] : 1 <= a, b and a + b <= 1 }";
3220 bset2
= isl_basic_set_read_from_str(ctx
, str
);
3221 set
= isl_basic_set_union(bset1
, bset2
);
3222 obj
= isl_aff_read_from_str(ctx
, "{ [a, b] -> [a] }");
3224 res
= isl_set_min_val(set
, obj
);
3225 ok
= isl_val_cmp_si(res
, 5) == 0;
3234 isl_die(ctx
, isl_error_unknown
, "unexpected minimum",
3240 /* A specialized isl_set_min_val test case that would return an error
3241 * in earlier versions of isl.
3243 static int test_min_special2(isl_ctx
*ctx
)
3246 isl_basic_set
*bset
;
3250 str
= "{ [i, j, k] : 2j = i and 2k = i + 1 and i >= 2 }";
3251 bset
= isl_basic_set_read_from_str(ctx
, str
);
3253 obj
= isl_aff_read_from_str(ctx
, "{ [i, j, k] -> [i] }");
3255 res
= isl_basic_set_max_val(bset
, obj
);
3257 isl_basic_set_free(bset
);
3267 /* Check that the result of isl_set_min_multi_pw_aff
3268 * on the union of the sets with string descriptions "s1" and "s2"
3269 * consists of a single expression (on a single cell).
3271 static isl_stat
check_single_expr_min(isl_ctx
*ctx
, const char *s1
,
3275 isl_set
*set1
, *set2
;
3276 isl_multi_pw_aff
*mpa
;
3277 isl_pw_multi_aff
*pma
;
3279 set1
= isl_set_read_from_str(ctx
, s1
);
3280 set2
= isl_set_read_from_str(ctx
, s2
);
3281 set1
= isl_set_union(set1
, set2
);
3282 mpa
= isl_set_min_multi_pw_aff(set1
);
3283 pma
= isl_pw_multi_aff_from_multi_pw_aff(mpa
);
3284 n
= isl_pw_multi_aff_n_piece(pma
);
3285 isl_pw_multi_aff_free(pma
);
3288 return isl_stat_error
;
3290 isl_die(ctx
, isl_error_unknown
, "expecting single expression",
3291 return isl_stat_error
);
3295 /* A specialized isl_set_min_multi_pw_aff test that checks
3296 * that the minimum of 2N and 3N for N >= 0 is represented
3297 * by a single expression, without splitting off the special case N = 0.
3298 * Do this for both orderings.
3300 static int test_min_mpa(isl_ctx
*ctx
)
3302 const char *s1
, *s2
;
3304 s1
= "[N=0:] -> { [1, 3N:] }";
3305 s2
= "[N=0:] -> { [10, 2N:] }";
3306 if (check_single_expr_min(ctx
, s1
, s2
) < 0)
3308 if (check_single_expr_min(ctx
, s2
, s1
) < 0)
3317 __isl_give isl_val
*(*fn
)(__isl_keep isl_set
*set
,
3318 __isl_keep isl_aff
*obj
);
3321 { "{ [-1]; [1] }", "{ [x] -> [x] }", &isl_set_min_val
, "-1" },
3322 { "{ [-1]; [1] }", "{ [x] -> [x] }", &isl_set_max_val
, "1" },
3323 { "{ [a, b] : 0 <= a, b <= 100 and b mod 2 = 0}",
3324 "{ [a, b] -> [floor((b - 2*floor((-a)/4))/5)] }",
3325 &isl_set_max_val
, "30" },
3329 /* Perform basic isl_set_min_val and isl_set_max_val tests.
3330 * In particular, check the results on non-convex inputs.
3332 static int test_min(struct isl_ctx
*ctx
)
3340 for (i
= 0; i
< ARRAY_SIZE(opt_tests
); ++i
) {
3341 set
= isl_set_read_from_str(ctx
, opt_tests
[i
].set
);
3342 obj
= isl_aff_read_from_str(ctx
, opt_tests
[i
].obj
);
3343 res
= isl_val_read_from_str(ctx
, opt_tests
[i
].res
);
3344 val
= opt_tests
[i
].fn(set
, obj
);
3345 ok
= isl_val_eq(res
, val
);
3354 isl_die(ctx
, isl_error_unknown
,
3355 "unexpected optimum", return -1);
3358 if (test_pw_max(ctx
) < 0)
3360 if (test_min_special(ctx
) < 0)
3362 if (test_min_special2(ctx
) < 0)
3373 static isl_stat
collect_must_may(__isl_take isl_map
*dep
, int must
,
3374 void *dep_user
, void *user
)
3376 struct must_may
*mm
= (struct must_may
*)user
;
3379 mm
->must
= isl_map_union(mm
->must
, dep
);
3381 mm
->may
= isl_map_union(mm
->may
, dep
);
3386 static int common_space(void *first
, void *second
)
3388 int depth
= *(int *)first
;
3392 static int map_is_equal(__isl_keep isl_map
*map
, const char *str
)
3400 map2
= isl_map_read_from_str(map
->ctx
, str
);
3401 equal
= isl_map_is_equal(map
, map2
);
3407 static int map_check_equal(__isl_keep isl_map
*map
, const char *str
)
3411 equal
= map_is_equal(map
, str
);
3415 isl_die(isl_map_get_ctx(map
), isl_error_unknown
,
3416 "result not as expected", return -1);
3420 /* Is "set" equal to the set described by "str"?
3422 static isl_bool
set_is_equal(__isl_keep isl_set
*set
, const char *str
)
3428 return isl_bool_error
;
3430 set2
= isl_set_read_from_str(isl_set_get_ctx(set
), str
);
3431 equal
= isl_set_is_equal(set
, set2
);
3437 /* Check that "set" is equal to the set described by "str".
3439 static isl_stat
set_check_equal(__isl_keep isl_set
*set
, const char *str
)
3443 equal
= set_is_equal(set
, str
);
3445 return isl_stat_error
;
3447 isl_die(isl_set_get_ctx(set
), isl_error_unknown
,
3448 "result not as expected", return isl_stat_error
);
3452 /* Is "uset" equal to the union set described by "str"?
3454 static isl_bool
uset_is_equal(__isl_keep isl_union_set
*uset
, const char *str
)
3456 isl_union_set
*uset2
;
3460 return isl_bool_error
;
3462 uset2
= isl_union_set_read_from_str(isl_union_set_get_ctx(uset
), str
);
3463 equal
= isl_union_set_is_equal(uset
, uset2
);
3464 isl_union_set_free(uset2
);
3469 /* Check that "uset" is equal to the union set described by "str".
3471 static isl_stat
uset_check_equal(__isl_keep isl_union_set
*uset
,
3476 equal
= uset_is_equal(uset
, str
);
3478 return isl_stat_error
;
3480 isl_die(isl_union_set_get_ctx(uset
), isl_error_unknown
,
3481 "result not as expected", return isl_stat_error
);
3485 static int test_dep(struct isl_ctx
*ctx
)
3490 isl_access_info
*ai
;
3497 str
= "{ [2,i,0] -> [i] : 0 <= i <= 10 }";
3498 map
= isl_map_read_from_str(ctx
, str
);
3499 ai
= isl_access_info_alloc(map
, &depth
, &common_space
, 2);
3501 str
= "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
3502 map
= isl_map_read_from_str(ctx
, str
);
3503 ai
= isl_access_info_add_source(ai
, map
, 1, &depth
);
3505 str
= "{ [1,i,0] -> [5] : 0 <= i <= 10 }";
3506 map
= isl_map_read_from_str(ctx
, str
);
3507 ai
= isl_access_info_add_source(ai
, map
, 1, &depth
);
3509 flow
= isl_access_info_compute_flow(ai
);
3510 space
= isl_space_alloc(ctx
, 0, 3, 3);
3511 mm
.must
= isl_map_empty(isl_space_copy(space
));
3512 mm
.may
= isl_map_empty(space
);
3514 isl_flow_foreach(flow
, collect_must_may
, &mm
);
3516 str
= "{ [0,i,0] -> [2,i,0] : (0 <= i <= 4) or (6 <= i <= 10); "
3517 " [1,10,0] -> [2,5,0] }";
3518 assert(map_is_equal(mm
.must
, str
));
3519 str
= "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
3520 assert(map_is_equal(mm
.may
, str
));
3522 isl_map_free(mm
.must
);
3523 isl_map_free(mm
.may
);
3524 isl_flow_free(flow
);
3527 str
= "{ [2,i,0] -> [i] : 0 <= i <= 10 }";
3528 map
= isl_map_read_from_str(ctx
, str
);
3529 ai
= isl_access_info_alloc(map
, &depth
, &common_space
, 2);
3531 str
= "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
3532 map
= isl_map_read_from_str(ctx
, str
);
3533 ai
= isl_access_info_add_source(ai
, map
, 1, &depth
);
3535 str
= "{ [1,i,0] -> [5] : 0 <= i <= 10 }";
3536 map
= isl_map_read_from_str(ctx
, str
);
3537 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3539 flow
= isl_access_info_compute_flow(ai
);
3540 space
= isl_space_alloc(ctx
, 0, 3, 3);
3541 mm
.must
= isl_map_empty(isl_space_copy(space
));
3542 mm
.may
= isl_map_empty(space
);
3544 isl_flow_foreach(flow
, collect_must_may
, &mm
);
3546 str
= "{ [0,i,0] -> [2,i,0] : (0 <= i <= 4) or (6 <= i <= 10) }";
3547 assert(map_is_equal(mm
.must
, str
));
3548 str
= "{ [0,5,0] -> [2,5,0]; [1,i,0] -> [2,5,0] : 0 <= i <= 10 }";
3549 assert(map_is_equal(mm
.may
, str
));
3551 isl_map_free(mm
.must
);
3552 isl_map_free(mm
.may
);
3553 isl_flow_free(flow
);
3556 str
= "{ [2,i,0] -> [i] : 0 <= i <= 10 }";
3557 map
= isl_map_read_from_str(ctx
, str
);
3558 ai
= isl_access_info_alloc(map
, &depth
, &common_space
, 2);
3560 str
= "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
3561 map
= isl_map_read_from_str(ctx
, str
);
3562 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3564 str
= "{ [1,i,0] -> [5] : 0 <= i <= 10 }";
3565 map
= isl_map_read_from_str(ctx
, str
);
3566 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3568 flow
= isl_access_info_compute_flow(ai
);
3569 space
= isl_space_alloc(ctx
, 0, 3, 3);
3570 mm
.must
= isl_map_empty(isl_space_copy(space
));
3571 mm
.may
= isl_map_empty(space
);
3573 isl_flow_foreach(flow
, collect_must_may
, &mm
);
3575 str
= "{ [0,i,0] -> [2,i,0] : 0 <= i <= 10; "
3576 " [1,i,0] -> [2,5,0] : 0 <= i <= 10 }";
3577 assert(map_is_equal(mm
.may
, str
));
3578 str
= "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
3579 assert(map_is_equal(mm
.must
, str
));
3581 isl_map_free(mm
.must
);
3582 isl_map_free(mm
.may
);
3583 isl_flow_free(flow
);
3586 str
= "{ [0,i,2] -> [i] : 0 <= i <= 10 }";
3587 map
= isl_map_read_from_str(ctx
, str
);
3588 ai
= isl_access_info_alloc(map
, &depth
, &common_space
, 2);
3590 str
= "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
3591 map
= isl_map_read_from_str(ctx
, str
);
3592 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3594 str
= "{ [0,i,1] -> [5] : 0 <= i <= 10 }";
3595 map
= isl_map_read_from_str(ctx
, str
);
3596 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3598 flow
= isl_access_info_compute_flow(ai
);
3599 space
= isl_space_alloc(ctx
, 0, 3, 3);
3600 mm
.must
= isl_map_empty(isl_space_copy(space
));
3601 mm
.may
= isl_map_empty(space
);
3603 isl_flow_foreach(flow
, collect_must_may
, &mm
);
3605 str
= "{ [0,i,0] -> [0,i,2] : 0 <= i <= 10; "
3606 " [0,i,1] -> [0,5,2] : 0 <= i <= 5 }";
3607 assert(map_is_equal(mm
.may
, str
));
3608 str
= "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
3609 assert(map_is_equal(mm
.must
, str
));
3611 isl_map_free(mm
.must
);
3612 isl_map_free(mm
.may
);
3613 isl_flow_free(flow
);
3616 str
= "{ [0,i,1] -> [i] : 0 <= i <= 10 }";
3617 map
= isl_map_read_from_str(ctx
, str
);
3618 ai
= isl_access_info_alloc(map
, &depth
, &common_space
, 2);
3620 str
= "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
3621 map
= isl_map_read_from_str(ctx
, str
);
3622 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3624 str
= "{ [0,i,2] -> [5] : 0 <= i <= 10 }";
3625 map
= isl_map_read_from_str(ctx
, str
);
3626 ai
= isl_access_info_add_source(ai
, map
, 0, &depth
);
3628 flow
= isl_access_info_compute_flow(ai
);
3629 space
= isl_space_alloc(ctx
, 0, 3, 3);
3630 mm
.must
= isl_map_empty(isl_space_copy(space
));
3631 mm
.may
= isl_map_empty(space
);
3633 isl_flow_foreach(flow
, collect_must_may
, &mm
);
3635 str
= "{ [0,i,0] -> [0,i,1] : 0 <= i <= 10; "
3636 " [0,i,2] -> [0,5,1] : 0 <= i <= 4 }";
3637 assert(map_is_equal(mm
.may
, str
));
3638 str
= "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
3639 assert(map_is_equal(mm
.must
, str
));
3641 isl_map_free(mm
.must
);
3642 isl_map_free(mm
.may
);
3643 isl_flow_free(flow
);
3648 str
= "{ [1,i,0,0,0] -> [i,j] : 0 <= i <= 10 and 0 <= j <= 10 }";
3649 map
= isl_map_read_from_str(ctx
, str
);
3650 ai
= isl_access_info_alloc(map
, &depth
, &common_space
, 1);
3652 str
= "{ [0,i,0,j,0] -> [i,j] : 0 <= i <= 10 and 0 <= j <= 10 }";
3653 map
= isl_map_read_from_str(ctx
, str
);
3654 ai
= isl_access_info_add_source(ai
, map
, 1, &depth
);
3656 flow
= isl_access_info_compute_flow(ai
);
3657 space
= isl_space_alloc(ctx
, 0, 5, 5);
3658 mm
.must
= isl_map_empty(isl_space_copy(space
));
3659 mm
.may
= isl_map_empty(space
);
3661 isl_flow_foreach(flow
, collect_must_may
, &mm
);
3663 str
= "{ [0,i,0,j,0] -> [1,i,0,0,0] : 0 <= i,j <= 10 }";
3664 assert(map_is_equal(mm
.must
, str
));
3665 str
= "{ [0,0,0,0,0] -> [0,0,0,0,0] : 1 = 0 }";
3666 assert(map_is_equal(mm
.may
, str
));
3668 isl_map_free(mm
.must
);
3669 isl_map_free(mm
.may
);
3670 isl_flow_free(flow
);
3675 /* Check that the dependence analysis proceeds without errors.
3676 * Earlier versions of isl would break down during the analysis
3677 * due to the use of the wrong spaces.
3679 static int test_flow(isl_ctx
*ctx
)
3682 isl_union_map
*access
, *schedule
;
3683 isl_union_map
*must_dep
, *may_dep
;
3686 str
= "{ S0[j] -> i[]; S1[j,i] -> i[]; S2[] -> i[]; S3[] -> i[] }";
3687 access
= isl_union_map_read_from_str(ctx
, str
);
3688 str
= "{ S0[j] -> [0,j,0,0] : 0 <= j < 10; "
3689 "S1[j,i] -> [0,j,1,i] : 0 <= j < i < 10; "
3690 "S2[] -> [1,0,0,0]; "
3691 "S3[] -> [-1,0,0,0] }";
3692 schedule
= isl_union_map_read_from_str(ctx
, str
);
3693 r
= isl_union_map_compute_flow(access
, isl_union_map_copy(access
),
3694 isl_union_map_copy(access
), schedule
,
3695 &must_dep
, &may_dep
, NULL
, NULL
);
3696 isl_union_map_free(may_dep
);
3697 isl_union_map_free(must_dep
);
3706 { "[N] -> { [i] -> [f] : 0 <= i <= N and 0 <= i - 10 f <= 9 }", 1 },
3707 { "[N] -> { [i] -> [f] : 0 <= i <= N and 0 <= i - 10 f <= 10 }", 0 },
3708 { "{ [i] -> [3*floor(i/2) + 5*floor(i/3)] }", 1 },
3709 { "{ S1[i] -> [i] : 0 <= i <= 9; S2[i] -> [i] : 0 <= i <= 9 }", 1 },
3710 { "{ [i] -> S1[i] : 0 <= i <= 9; [i] -> S2[i] : 0 <= i <= 9 }", 0 },
3711 { "{ A[i] -> [i]; B[i] -> [i]; B[i] -> [i + 1] }", 0 },
3712 { "{ A[i] -> [i]; B[i] -> [i] : i < 0; B[i] -> [i + 1] : i > 0 }", 1 },
3713 { "{ A[i] -> [i]; B[i] -> A[i] : i < 0; B[i] -> [i + 1] : i > 0 }", 1 },
3714 { "{ A[i] -> [i]; B[i] -> [j] : i - 1 <= j <= i }", 0 },
3717 int test_sv(isl_ctx
*ctx
)
3719 isl_union_map
*umap
;
3723 for (i
= 0; i
< ARRAY_SIZE(sv_tests
); ++i
) {
3724 umap
= isl_union_map_read_from_str(ctx
, sv_tests
[i
].map
);
3725 sv
= isl_union_map_is_single_valued(umap
);
3726 isl_union_map_free(umap
);
3729 if (sv_tests
[i
].sv
&& !sv
)
3730 isl_die(ctx
, isl_error_internal
,
3731 "map not detected as single valued", return -1);
3732 if (!sv_tests
[i
].sv
&& sv
)
3733 isl_die(ctx
, isl_error_internal
,
3734 "map detected as single valued", return -1);
3743 } bijective_tests
[] = {
3744 { "[N,M]->{[i,j] -> [i]}", 0 },
3745 { "[N,M]->{[i,j] -> [i] : j=i}", 1 },
3746 { "[N,M]->{[i,j] -> [i] : j=0}", 1 },
3747 { "[N,M]->{[i,j] -> [i] : j=N}", 1 },
3748 { "[N,M]->{[i,j] -> [j,i]}", 1 },
3749 { "[N,M]->{[i,j] -> [i+j]}", 0 },
3750 { "[N,M]->{[i,j] -> []}", 0 },
3751 { "[N,M]->{[i,j] -> [i,j,N]}", 1 },
3752 { "[N,M]->{[i,j] -> [2i]}", 0 },
3753 { "[N,M]->{[i,j] -> [i,i]}", 0 },
3754 { "[N,M]->{[i,j] -> [2i,i]}", 0 },
3755 { "[N,M]->{[i,j] -> [2i,j]}", 1 },
3756 { "[N,M]->{[i,j] -> [x,y] : 2x=i & y =j}", 1 },
3759 static int test_bijective(struct isl_ctx
*ctx
)
3765 for (i
= 0; i
< ARRAY_SIZE(bijective_tests
); ++i
) {
3766 map
= isl_map_read_from_str(ctx
, bijective_tests
[i
].str
);
3767 bijective
= isl_map_is_bijective(map
);
3771 if (bijective_tests
[i
].bijective
&& !bijective
)
3772 isl_die(ctx
, isl_error_internal
,
3773 "map not detected as bijective", return -1);
3774 if (!bijective_tests
[i
].bijective
&& bijective
)
3775 isl_die(ctx
, isl_error_internal
,
3776 "map detected as bijective", return -1);
3782 /* Inputs for isl_pw_qpolynomial_gist tests.
3783 * "pwqp" is the input, "set" is the context and "gist" is the expected result.
3789 } pwqp_gist_tests
[] = {
3790 { "{ [i] -> i }", "{ [k] : exists a : k = 2a }", "{ [i] -> i }" },
3791 { "{ [i] -> i + [ (i + [i/3])/2 ] }", "{ [10] }", "{ [i] -> 16 }" },
3792 { "{ [i] -> ([(i)/2]) }", "{ [k] : exists a : k = 2a+1 }",
3793 "{ [i] -> -1/2 + 1/2 * i }" },
3794 { "{ [i] -> i^2 : i != 0 }", "{ [i] : i != 0 }", "{ [i] -> i^2 }" },
3795 { "{ [i] -> i^2 : i > 0; [i] -> i^2 : i < 0 }", "{ [i] : i != 0 }",
3799 /* Perform some basic isl_pw_qpolynomial_gist tests.
3801 static isl_stat
test_pwqp_gist(isl_ctx
*ctx
)
3806 isl_pw_qpolynomial
*pwqp1
, *pwqp2
;
3809 for (i
= 0; i
< ARRAY_SIZE(pwqp_gist_tests
); ++i
) {
3810 str
= pwqp_gist_tests
[i
].pwqp
;
3811 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3812 str
= pwqp_gist_tests
[i
].set
;
3813 set
= isl_set_read_from_str(ctx
, str
);
3814 pwqp1
= isl_pw_qpolynomial_gist(pwqp1
, set
);
3815 str
= pwqp_gist_tests
[i
].gist
;
3816 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3817 pwqp1
= isl_pw_qpolynomial_sub(pwqp1
, pwqp2
);
3818 equal
= isl_pw_qpolynomial_is_zero(pwqp1
);
3819 isl_pw_qpolynomial_free(pwqp1
);
3822 return isl_stat_error
;
3824 isl_die(ctx
, isl_error_unknown
,
3825 "unexpected result", return isl_stat_error
);
3831 /* Perform a basic isl_pw_qpolynomial_max test.
3833 static isl_stat
test_pwqp_max(isl_ctx
*ctx
)
3836 isl_pw_qpolynomial
*pwqp
;
3840 str
= "{ [x=2:9, y] -> floor((x + 1)/4)^3 - floor((2x)/3)^2 }";
3841 pwqp
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3842 v
= isl_pw_qpolynomial_max(pwqp
);
3843 ok
= isl_val_cmp_si(v
, -1) == 0;
3847 return isl_stat_error
;
3849 isl_die(ctx
, isl_error_unknown
, "unexpected maximum",
3850 return isl_stat_error
);
3855 static int test_pwqp(struct isl_ctx
*ctx
)
3859 isl_pw_qpolynomial
*pwqp1
, *pwqp2
;
3862 str
= "{ [i,j,k] -> 1 + 9 * [i/5] + 7 * [j/11] + 4 * [k/13] }";
3863 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3865 pwqp1
= isl_pw_qpolynomial_move_dims(pwqp1
, isl_dim_param
, 0,
3868 str
= "[j] -> { [i,k] -> 1 + 9 * [i/5] + 7 * [j/11] + 4 * [k/13] }";
3869 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3871 pwqp1
= isl_pw_qpolynomial_sub(pwqp1
, pwqp2
);
3873 assert(isl_pw_qpolynomial_is_zero(pwqp1
));
3875 isl_pw_qpolynomial_free(pwqp1
);
3877 if (test_pwqp_gist(ctx
) < 0)
3880 str
= "{ [i] -> ([([i/2] + [i/2])/5]) }";
3881 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3882 str
= "{ [i] -> ([(2 * [i/2])/5]) }";
3883 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3885 pwqp1
= isl_pw_qpolynomial_sub(pwqp1
, pwqp2
);
3887 assert(isl_pw_qpolynomial_is_zero(pwqp1
));
3889 isl_pw_qpolynomial_free(pwqp1
);
3891 str
= "{ [x] -> ([x/2] + [(x+1)/2]) }";
3892 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3893 str
= "{ [x] -> x }";
3894 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3896 pwqp1
= isl_pw_qpolynomial_sub(pwqp1
, pwqp2
);
3898 assert(isl_pw_qpolynomial_is_zero(pwqp1
));
3900 isl_pw_qpolynomial_free(pwqp1
);
3902 str
= "{ [i] -> ([i/2]) : i >= 0; [i] -> ([i/3]) : i < 0 }";
3903 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3904 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3905 pwqp1
= isl_pw_qpolynomial_coalesce(pwqp1
);
3906 pwqp1
= isl_pw_qpolynomial_sub(pwqp1
, pwqp2
);
3907 assert(isl_pw_qpolynomial_is_zero(pwqp1
));
3908 isl_pw_qpolynomial_free(pwqp1
);
3910 str
= "{ [a,b,a] -> (([(2*[a/3]+b)/5]) * ([(2*[a/3]+b)/5])) }";
3911 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3912 str
= "{ [a,b,c] -> (([(2*[a/3]+b)/5]) * ([(2*[c/3]+b)/5])) }";
3913 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3914 set
= isl_set_read_from_str(ctx
, "{ [a,b,a] }");
3915 pwqp1
= isl_pw_qpolynomial_intersect_domain(pwqp1
, set
);
3916 equal
= isl_pw_qpolynomial_plain_is_equal(pwqp1
, pwqp2
);
3917 isl_pw_qpolynomial_free(pwqp1
);
3918 isl_pw_qpolynomial_free(pwqp2
);
3922 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
3924 str
= "{ [a,b,c] -> (([(2*[a/3]+1)/5]) * ([(2*[c/3]+1)/5])) : b = 1 }";
3925 pwqp2
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3926 str
= "{ [a,b,c] -> (([(2*[a/3]+b)/5]) * ([(2*[c/3]+b)/5])) }";
3927 pwqp1
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3928 pwqp1
= isl_pw_qpolynomial_fix_val(pwqp1
, isl_dim_set
, 1,
3930 equal
= isl_pw_qpolynomial_plain_is_equal(pwqp1
, pwqp2
);
3931 isl_pw_qpolynomial_free(pwqp1
);
3932 isl_pw_qpolynomial_free(pwqp2
);
3936 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
3938 if (test_pwqp_max(ctx
) < 0)
3944 static int test_split_periods(isl_ctx
*ctx
)
3947 isl_pw_qpolynomial
*pwqp
;
3949 str
= "{ [U,V] -> 1/3 * U + 2/3 * V - [(U + 2V)/3] + [U/2] : "
3950 "U + 2V + 3 >= 0 and - U -2V >= 0 and - U + 10 >= 0 and "
3951 "U >= 0; [U,V] -> U^2 : U >= 100 }";
3952 pwqp
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
3954 pwqp
= isl_pw_qpolynomial_split_periods(pwqp
, 2);
3956 isl_pw_qpolynomial_free(pwqp
);
3964 static int test_union(isl_ctx
*ctx
)
3967 isl_union_set
*uset1
, *uset2
;
3968 isl_union_map
*umap1
, *umap2
;
3971 str
= "{ [i] : 0 <= i <= 1 }";
3972 uset1
= isl_union_set_read_from_str(ctx
, str
);
3973 str
= "{ [1] -> [0] }";
3974 umap1
= isl_union_map_read_from_str(ctx
, str
);
3976 umap2
= isl_union_set_lex_gt_union_set(isl_union_set_copy(uset1
), uset1
);
3977 equal
= isl_union_map_is_equal(umap1
, umap2
);
3979 isl_union_map_free(umap1
);
3980 isl_union_map_free(umap2
);
3985 isl_die(ctx
, isl_error_unknown
, "union maps not equal",
3988 str
= "{ A[i] -> B[i]; B[i] -> C[i]; A[0] -> C[1] }";
3989 umap1
= isl_union_map_read_from_str(ctx
, str
);
3990 str
= "{ A[i]; B[i] }";
3991 uset1
= isl_union_set_read_from_str(ctx
, str
);
3993 uset2
= isl_union_map_domain(umap1
);
3995 equal
= isl_union_set_is_equal(uset1
, uset2
);
3997 isl_union_set_free(uset1
);
3998 isl_union_set_free(uset2
);
4003 isl_die(ctx
, isl_error_unknown
, "union sets not equal",
4009 /* Inputs for basic isl_pw_qpolynomial_bound tests.
4010 * "type" is the type of bound that should be computed.
4011 * "poly" is a string representation of the input.
4012 * "bound" is a string representation of the expected result.
4013 * "tight" is set if the result is expected to be tight.
4021 /* Check that computing a bound of a non-zero polynomial
4022 * over an unbounded domain does not produce a rational value.
4023 * In particular, check that the upper bound is infinity.
4025 { 0, isl_fold_max
, "{ [m, n] -> -m * n }", "{ max(infty) }" },
4026 { 1, isl_fold_max
, "{ [[a, b, c, d] -> [e]] -> 0 }",
4027 "{ [a, b, c, d] -> max(0) }" },
4028 { 1, isl_fold_max
, "{ [[x] -> [x]] -> 1 : exists a : x = 2 a }",
4029 "{ [x] -> max(1) : x mod 2 = 0 }" },
4030 { 1, isl_fold_min
, "{ [x=5:10] -> (x + 2)^2 }", "{ min(49) }" },
4031 { 1, isl_fold_max
, "{ [0:10] -> 1 }", "{ max(1) }" },
4032 { 1, isl_fold_max
, "{ [[m] -> [0:m]] -> m^2 }",
4033 "{ [m] -> max(m^2) : m >= 0 }" },
4036 /* Check that the bound computation can handle differences
4037 * in domain dimension names of the input polynomial and its domain.
4039 static isl_stat
test_bound_space(isl_ctx
*ctx
)
4043 isl_pw_qpolynomial
*pwqp
;
4044 isl_pw_qpolynomial_fold
*pwf
;
4046 str
= "{ [[c] -> [c]] }";
4047 set
= isl_set_read_from_str(ctx
, str
);
4048 str
= "{ [[a] -> [b]] -> 1 }";
4049 pwqp
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
4050 pwqp
= isl_pw_qpolynomial_intersect_domain(pwqp
, set
);
4051 pwf
= isl_pw_qpolynomial_bound(pwqp
, isl_fold_max
, NULL
);
4052 isl_pw_qpolynomial_fold_free(pwf
);
4054 return isl_stat_non_null(pwf
);
4057 /* Perform basic isl_pw_qpolynomial_bound tests.
4059 static int test_bound(isl_ctx
*ctx
)
4063 if (test_bound_space(ctx
) < 0)
4066 for (i
= 0; i
< ARRAY_SIZE(bound_tests
); ++i
) {
4069 isl_bool equal
, tight
;
4070 isl_pw_qpolynomial
*pwqp
;
4071 isl_pw_qpolynomial_fold
*pwf1
, *pwf2
;
4073 str
= bound_tests
[i
].poly
;
4074 pwqp
= isl_pw_qpolynomial_read_from_str(ctx
, str
);
4075 type
= bound_tests
[i
].type
;
4076 pwf1
= isl_pw_qpolynomial_bound(pwqp
, type
, &tight
);
4077 str
= bound_tests
[i
].bound
;
4078 pwf2
= isl_pw_qpolynomial_fold_read_from_str(ctx
, str
);
4079 equal
= isl_pw_qpolynomial_fold_plain_is_equal(pwf1
, pwf2
);
4080 isl_pw_qpolynomial_fold_free(pwf2
);
4081 isl_pw_qpolynomial_fold_free(pwf1
);
4085 isl_die(ctx
, isl_error_unknown
,
4086 "incorrect bound result", return -1);
4087 if (bound_tests
[i
].tight
&& !tight
)
4088 isl_die(ctx
, isl_error_unknown
,
4089 "bound unexpectedly not tight", return -1);
4095 /* isl_set is defined to isl_map internally, so the corresponding elements
4096 * are isl_basic_map objects.
4100 #define EL_BASE basic_map
4101 #define SET_BASE set
4102 #include "isl_test_list_templ.c"
4106 #define EL_BASE basic_set
4107 #define SET_BASE union_set
4108 #include "isl_test_list_templ.c"
4113 #define SET_BASE union_set
4114 #include "isl_test_list_templ.c"
4118 #define EL_BASE basic_map
4119 #define SET_BASE map
4120 #include "isl_test_list_templ.c"
4125 #define SET_BASE union_map
4126 #include "isl_test_list_templ.c"
4128 /* Check that the conversion from isl objects to lists works as expected.
4130 static int test_get_list(isl_ctx
*ctx
)
4132 if (test_get_list_basic_map_from_set(ctx
, "{ [0]; [2]; [3] }"))
4134 if (test_get_list_basic_set_from_union_set(ctx
, "{ A[0]; B[2]; B[3] }"))
4136 if (test_get_list_set_from_union_set(ctx
, "{ A[0]; A[2]; B[3] }"))
4138 if (test_get_list_basic_map_from_map(ctx
,
4139 "{ [0] -> [0]; [2] -> [0]; [3] -> [0] }"))
4141 if (test_get_list_map_from_union_map(ctx
,
4142 "{ A[0] -> [0]; A[2] -> [0]; B[3] -> [0] }"))
4148 static int test_lift(isl_ctx
*ctx
)
4151 isl_basic_map
*bmap
;
4152 isl_basic_set
*bset
;
4154 str
= "{ [i0] : exists e0 : i0 = 4e0 }";
4155 bset
= isl_basic_set_read_from_str(ctx
, str
);
4156 bset
= isl_basic_set_lift(bset
);
4157 bmap
= isl_basic_map_from_range(bset
);
4158 bset
= isl_basic_map_domain(bmap
);
4159 isl_basic_set_free(bset
);
4164 /* Check that isl_set_is_subset is not confused by identical
4165 * integer divisions.
4166 * The call to isl_set_normalize ensures that the equality constraints
4167 * a = b = 0 are discovered, turning e0 and e1 into identical
4168 * integer divisions. Any further simplification would remove
4169 * the duplicate integer divisions.
4171 static isl_stat
test_subset_duplicate_integer_divisions(isl_ctx
*ctx
)
4175 isl_set
*set1
, *set2
;
4177 str
= "{ [a, b, c, d] : "
4178 "exists (e0 = floor((a + d)/4), e1 = floor((d)/4), "
4179 "e2 = floor((-a - d + 4 *floor((a + d)/4))/10), "
4180 "e3 = floor((-d + 4*floor((d)/4))/10): "
4181 "10e2 = -a - 2c - d + 4e0 and 10e3 = -2c - d + 4e1 and "
4182 "b >= 0 and a <= 0 and b <= a) }";
4183 set1
= isl_set_read_from_str(ctx
, str
);
4184 set2
= isl_set_read_from_str(ctx
, str
);
4185 set2
= isl_set_normalize(set2
);
4187 is_subset
= isl_set_is_subset(set1
, set2
);
4193 return isl_stat_error
;
4195 isl_die(ctx
, isl_error_unknown
,
4196 "set is not considered to be a subset of itself",
4197 return isl_stat_error
);
4206 } subset_tests
[] = {
4208 "{ [i0, i1] : exists (e0 = [(i0 - i1)/16], e1: "
4209 "16e0 <= i0 - i1 and 16e0 >= -15 + i0 - i1 and "
4210 "16e1 <= i1 and 16e0 >= -i1 and 16e1 >= -i0 + i1) }", 1 },
4212 "{ [i] : exists (e0 = [(255i)/256], e1 = [(127i + 65e0)/191], "
4213 "e2 = [(3i + 61e1)/65], e3 = [(52i + 12e2)/61], "
4214 "e4 = [(2i + e3)/3], e5 = [(4i + e3)/4], e6 = [(8i + e3)/12]: "
4215 "3e4 = 2i + e3 and 4e5 = 4i + e3 and 12e6 = 8i + e3 and "
4216 "i <= 255 and 64e3 >= -45 + 67i and i >= 0 and "
4217 "256e0 <= 255i and 256e0 >= -255 + 255i and "
4218 "191e1 <= 127i + 65e0 and 191e1 >= -190 + 127i + 65e0 and "
4219 "65e2 <= 3i + 61e1 and 65e2 >= -64 + 3i + 61e1 and "
4220 "61e3 <= 52i + 12e2 and 61e3 >= -60 + 52i + 12e2) }", 1 },
4221 { "{ [i] : 0 <= i <= 10 }", "{ rat: [i] : 0 <= i <= 10 }", 1 },
4222 { "{ rat: [i] : 0 <= i <= 10 }", "{ [i] : 0 <= i <= 10 }", 0 },
4223 { "{ rat: [0] }", "{ [i] : 0 <= i <= 10 }", 1 },
4224 { "{ rat: [(1)/2] }", "{ [i] : 0 <= i <= 10 }", 0 },
4225 { "{ [t, i] : (exists (e0 = [(2 + t)/4]: 4e0 <= 2 + t and "
4226 "4e0 >= -1 + t and i >= 57 and i <= 62 and "
4227 "4e0 <= 62 + t - i and 4e0 >= -61 + t + i and "
4228 "t >= 0 and t <= 511 and 4e0 <= -57 + t + i and "
4229 "4e0 >= 58 + t - i and i >= 58 + t and i >= 62 - t)) }",
4230 "{ [i0, i1] : (exists (e0 = [(4 + i0)/4]: 4e0 <= 62 + i0 - i1 and "
4231 "4e0 >= 1 + i0 and i0 >= 0 and i0 <= 511 and "
4232 "4e0 <= -57 + i0 + i1)) or "
4233 "(exists (e0 = [(2 + i0)/4]: 4e0 <= i0 and "
4234 "4e0 >= 58 + i0 - i1 and i0 >= 2 and i0 <= 511 and "
4235 "4e0 >= -61 + i0 + i1)) or "
4236 "(i1 <= 66 - i0 and i0 >= 2 and i1 >= 59 + i0) }", 1 },
4237 { "[a, b] -> { : a = 0 and b = -1 }", "[b, a] -> { : b >= -10 }", 1 },
4240 static int test_subset(isl_ctx
*ctx
)
4243 isl_set
*set1
, *set2
;
4246 if (test_subset_duplicate_integer_divisions(ctx
) < 0)
4249 for (i
= 0; i
< ARRAY_SIZE(subset_tests
); ++i
) {
4250 set1
= isl_set_read_from_str(ctx
, subset_tests
[i
].set1
);
4251 set2
= isl_set_read_from_str(ctx
, subset_tests
[i
].set2
);
4252 subset
= isl_set_is_subset(set1
, set2
);
4257 if (subset
!= subset_tests
[i
].subset
)
4258 isl_die(ctx
, isl_error_unknown
,
4259 "incorrect subset result", return -1);
4265 /* Perform a set subtraction with a set that has a non-obviously empty disjunct.
4266 * Older versions of isl would fail on such cases.
4268 static isl_stat
test_subtract_empty(isl_ctx
*ctx
)
4273 s1
= isl_set_read_from_str(ctx
, "{ [0] }");
4274 str
= "{ [a] : (exists (e0, e1, e2: 1056e1 <= 32 + a - 33e0 and "
4275 "1089e1 >= a - 33e0 and 1089e1 <= 1 + a - 33e0 and "
4276 "33e2 >= -a + 33e0 + 1056e1 and "
4277 "33e2 < -2a + 66e0 + 2112e1)) or a = 0 }";
4278 s2
= isl_set_read_from_str(ctx
, str
);
4279 s1
= isl_set_subtract(s1
, s2
);
4282 return isl_stat_non_null(s1
);
4286 const char *minuend
;
4287 const char *subtrahend
;
4288 const char *difference
;
4289 } subtract_domain_tests
[] = {
4290 { "{ A[i] -> B[i] }", "{ A[i] }", "{ }" },
4291 { "{ A[i] -> B[i] }", "{ B[i] }", "{ A[i] -> B[i] }" },
4292 { "{ A[i] -> B[i] }", "{ A[i] : i > 0 }", "{ A[i] -> B[i] : i <= 0 }" },
4295 static int test_subtract(isl_ctx
*ctx
)
4298 isl_union_map
*umap1
, *umap2
;
4299 isl_union_pw_multi_aff
*upma1
, *upma2
;
4300 isl_union_set
*uset
;
4303 if (test_subtract_empty(ctx
) < 0)
4306 for (i
= 0; i
< ARRAY_SIZE(subtract_domain_tests
); ++i
) {
4307 umap1
= isl_union_map_read_from_str(ctx
,
4308 subtract_domain_tests
[i
].minuend
);
4309 uset
= isl_union_set_read_from_str(ctx
,
4310 subtract_domain_tests
[i
].subtrahend
);
4311 umap2
= isl_union_map_read_from_str(ctx
,
4312 subtract_domain_tests
[i
].difference
);
4313 umap1
= isl_union_map_subtract_domain(umap1
, uset
);
4314 equal
= isl_union_map_is_equal(umap1
, umap2
);
4315 isl_union_map_free(umap1
);
4316 isl_union_map_free(umap2
);
4320 isl_die(ctx
, isl_error_unknown
,
4321 "incorrect subtract domain result", return -1);
4324 for (i
= 0; i
< ARRAY_SIZE(subtract_domain_tests
); ++i
) {
4325 upma1
= isl_union_pw_multi_aff_read_from_str(ctx
,
4326 subtract_domain_tests
[i
].minuend
);
4327 uset
= isl_union_set_read_from_str(ctx
,
4328 subtract_domain_tests
[i
].subtrahend
);
4329 upma2
= isl_union_pw_multi_aff_read_from_str(ctx
,
4330 subtract_domain_tests
[i
].difference
);
4331 upma1
= isl_union_pw_multi_aff_subtract_domain(upma1
, uset
);
4332 equal
= isl_union_pw_multi_aff_plain_is_equal(upma1
, upma2
);
4333 isl_union_pw_multi_aff_free(upma1
);
4334 isl_union_pw_multi_aff_free(upma2
);
4338 isl_die(ctx
, isl_error_unknown
,
4339 "incorrect subtract domain result", return -1);
4345 /* Check that intersecting the empty basic set with another basic set
4346 * does not increase the number of constraints. In particular,
4347 * the empty basic set should maintain its canonical representation.
4349 static int test_intersect_1(isl_ctx
*ctx
)
4352 isl_basic_set
*bset1
, *bset2
;
4354 bset1
= isl_basic_set_read_from_str(ctx
, "{ [a,b,c] : 1 = 0 }");
4355 bset2
= isl_basic_set_read_from_str(ctx
, "{ [1,2,3] }");
4356 n1
= isl_basic_set_n_constraint(bset1
);
4357 bset1
= isl_basic_set_intersect(bset1
, bset2
);
4358 n2
= isl_basic_set_n_constraint(bset1
);
4359 isl_basic_set_free(bset1
);
4360 if (n1
< 0 || n2
< 0)
4363 isl_die(ctx
, isl_error_unknown
,
4364 "number of constraints of empty set changed",
4370 /* Check that intersecting a set with itself does not cause
4371 * an explosion in the number of disjuncts.
4373 static isl_stat
test_intersect_2(isl_ctx
*ctx
)
4378 set
= isl_set_read_from_str(ctx
, "{ [x,y] : x >= 0 or y >= 0 }");
4379 for (i
= 0; i
< 100; ++i
)
4380 set
= isl_set_intersect(set
, isl_set_copy(set
));
4383 return isl_stat_error
;
4387 /* Perform some intersection tests.
4389 static int test_intersect(isl_ctx
*ctx
)
4391 if (test_intersect_1(ctx
) < 0)
4393 if (test_intersect_2(ctx
) < 0)
4399 int test_factorize(isl_ctx
*ctx
)
4402 isl_basic_set
*bset
;
4405 str
= "{ [i0, i1, i2, i3, i4, i5, i6, i7] : 3i5 <= 2 - 2i0 and "
4406 "i0 >= -2 and i6 >= 1 + i3 and i7 >= 0 and 3i5 >= -2i0 and "
4407 "2i4 <= i2 and i6 >= 1 + 2i0 + 3i1 and i4 <= -1 and "
4408 "i6 >= 1 + 2i0 + 3i5 and i6 <= 2 + 2i0 + 3i5 and "
4409 "3i5 <= 2 - 2i0 - i2 + 3i4 and i6 <= 2 + 2i0 + 3i1 and "
4410 "i0 <= -1 and i7 <= i2 + i3 - 3i4 - i6 and "
4411 "3i5 >= -2i0 - i2 + 3i4 }";
4412 bset
= isl_basic_set_read_from_str(ctx
, str
);
4413 f
= isl_basic_set_factorizer(bset
);
4414 isl_basic_set_free(bset
);
4415 isl_factorizer_free(f
);
4417 isl_die(ctx
, isl_error_unknown
,
4418 "failed to construct factorizer", return -1);
4420 str
= "{ [i0, i1, i2, i3, i4, i5, i6, i7, i8, i9, i10, i11, i12] : "
4421 "i12 <= 2 + i0 - i11 and 2i8 >= -i4 and i11 >= i1 and "
4422 "3i5 <= -i2 and 2i11 >= -i4 - 2i7 and i11 <= 3 + i0 + 3i9 and "
4423 "i11 <= -i4 - 2i7 and i12 >= -i10 and i2 >= -2 and "
4424 "i11 >= i1 + 3i10 and i11 >= 1 + i0 + 3i9 and "
4425 "i11 <= 1 - i4 - 2i8 and 6i6 <= 6 - i2 and 3i6 >= 1 - i2 and "
4426 "i11 <= 2 + i1 and i12 <= i4 + i11 and i12 >= i0 - i11 and "
4427 "3i5 >= -2 - i2 and i12 >= -1 + i4 + i11 and 3i3 <= 3 - i2 and "
4428 "9i6 <= 11 - i2 + 6i5 and 3i3 >= 1 - i2 and "
4429 "9i6 <= 5 - i2 + 6i3 and i12 <= -1 and i2 <= 0 }";
4430 bset
= isl_basic_set_read_from_str(ctx
, str
);
4431 f
= isl_basic_set_factorizer(bset
);
4432 isl_basic_set_free(bset
);
4433 isl_factorizer_free(f
);
4435 isl_die(ctx
, isl_error_unknown
,
4436 "failed to construct factorizer", return -1);
4441 static isl_stat
check_injective(__isl_take isl_map
*map
, void *user
)
4443 int *injective
= user
;
4445 *injective
= isl_map_is_injective(map
);
4448 if (*injective
< 0 || !*injective
)
4449 return isl_stat_error
;
4454 int test_one_schedule(isl_ctx
*ctx
, const char *d
, const char *w
,
4455 const char *r
, const char *s
, int tilable
, int parallel
)
4459 isl_union_map
*W
, *R
, *S
;
4460 isl_union_map
*empty
;
4461 isl_union_map
*dep_raw
, *dep_war
, *dep_waw
, *dep
;
4462 isl_union_map
*validity
, *proximity
, *coincidence
;
4463 isl_union_map
*schedule
;
4464 isl_union_map
*test
;
4465 isl_union_set
*delta
;
4466 isl_union_set
*domain
;
4470 isl_schedule_constraints
*sc
;
4471 isl_schedule
*sched
;
4472 int is_nonneg
, is_parallel
, is_tilable
, is_injection
, is_complete
;
4475 D
= isl_union_set_read_from_str(ctx
, d
);
4476 W
= isl_union_map_read_from_str(ctx
, w
);
4477 R
= isl_union_map_read_from_str(ctx
, r
);
4478 S
= isl_union_map_read_from_str(ctx
, s
);
4480 W
= isl_union_map_intersect_domain(W
, isl_union_set_copy(D
));
4481 R
= isl_union_map_intersect_domain(R
, isl_union_set_copy(D
));
4483 empty
= isl_union_map_empty(isl_union_map_get_space(S
));
4484 isl_union_map_compute_flow(isl_union_map_copy(R
),
4485 isl_union_map_copy(W
), empty
,
4486 isl_union_map_copy(S
),
4487 &dep_raw
, NULL
, NULL
, NULL
);
4488 isl_union_map_compute_flow(isl_union_map_copy(W
),
4489 isl_union_map_copy(W
),
4490 isl_union_map_copy(R
),
4491 isl_union_map_copy(S
),
4492 &dep_waw
, &dep_war
, NULL
, NULL
);
4494 dep
= isl_union_map_union(dep_waw
, dep_war
);
4495 dep
= isl_union_map_union(dep
, dep_raw
);
4496 validity
= isl_union_map_copy(dep
);
4497 coincidence
= isl_union_map_copy(dep
);
4498 proximity
= isl_union_map_copy(dep
);
4500 sc
= isl_schedule_constraints_on_domain(isl_union_set_copy(D
));
4501 sc
= isl_schedule_constraints_set_validity(sc
, validity
);
4502 sc
= isl_schedule_constraints_set_coincidence(sc
, coincidence
);
4503 sc
= isl_schedule_constraints_set_proximity(sc
, proximity
);
4504 sched
= isl_schedule_constraints_compute_schedule(sc
);
4505 schedule
= isl_schedule_get_map(sched
);
4506 isl_schedule_free(sched
);
4507 isl_union_map_free(W
);
4508 isl_union_map_free(R
);
4509 isl_union_map_free(S
);
4512 isl_union_map_foreach_map(schedule
, &check_injective
, &is_injection
);
4514 domain
= isl_union_map_domain(isl_union_map_copy(schedule
));
4515 is_complete
= isl_union_set_is_subset(D
, domain
);
4516 isl_union_set_free(D
);
4517 isl_union_set_free(domain
);
4519 test
= isl_union_map_reverse(isl_union_map_copy(schedule
));
4520 test
= isl_union_map_apply_range(test
, dep
);
4521 test
= isl_union_map_apply_range(test
, schedule
);
4523 delta
= isl_union_map_deltas(test
);
4524 n
= isl_union_set_n_set(delta
);
4526 isl_union_set_free(delta
);
4533 isl_union_set_free(delta
);
4537 delta_set
= isl_set_from_union_set(delta
);
4539 slice
= isl_set_universe(isl_set_get_space(delta_set
));
4540 for (i
= 0; i
< tilable
; ++i
)
4541 slice
= isl_set_lower_bound_si(slice
, isl_dim_set
, i
, 0);
4542 is_tilable
= isl_set_is_subset(delta_set
, slice
);
4543 isl_set_free(slice
);
4545 slice
= isl_set_universe(isl_set_get_space(delta_set
));
4546 for (i
= 0; i
< parallel
; ++i
)
4547 slice
= isl_set_fix_si(slice
, isl_dim_set
, i
, 0);
4548 is_parallel
= isl_set_is_subset(delta_set
, slice
);
4549 isl_set_free(slice
);
4551 origin
= isl_set_universe(isl_set_get_space(delta_set
));
4552 dim
= isl_set_dim(origin
, isl_dim_set
);
4554 origin
= isl_set_free(origin
);
4555 for (i
= 0; i
< dim
; ++i
)
4556 origin
= isl_set_fix_si(origin
, isl_dim_set
, i
, 0);
4558 delta_set
= isl_set_union(delta_set
, isl_set_copy(origin
));
4559 delta_set
= isl_set_lexmin(delta_set
);
4561 is_nonneg
= isl_set_is_equal(delta_set
, origin
);
4563 isl_set_free(origin
);
4564 isl_set_free(delta_set
);
4567 if (is_nonneg
< 0 || is_parallel
< 0 || is_tilable
< 0 ||
4568 is_injection
< 0 || is_complete
< 0)
4571 isl_die(ctx
, isl_error_unknown
,
4572 "generated schedule incomplete", return -1);
4574 isl_die(ctx
, isl_error_unknown
,
4575 "generated schedule not injective on each statement",
4578 isl_die(ctx
, isl_error_unknown
,
4579 "negative dependences in generated schedule",
4582 isl_die(ctx
, isl_error_unknown
,
4583 "generated schedule not as tilable as expected",
4586 isl_die(ctx
, isl_error_unknown
,
4587 "generated schedule not as parallel as expected",
4593 /* Compute a schedule for the given instance set, validity constraints,
4594 * proximity constraints and context and return a corresponding union map
4597 static __isl_give isl_union_map
*compute_schedule_with_context(isl_ctx
*ctx
,
4598 const char *domain
, const char *validity
, const char *proximity
,
4599 const char *context
)
4604 isl_union_map
*prox
;
4605 isl_schedule_constraints
*sc
;
4606 isl_schedule
*schedule
;
4607 isl_union_map
*sched
;
4609 con
= isl_set_read_from_str(ctx
, context
);
4610 dom
= isl_union_set_read_from_str(ctx
, domain
);
4611 dep
= isl_union_map_read_from_str(ctx
, validity
);
4612 prox
= isl_union_map_read_from_str(ctx
, proximity
);
4613 sc
= isl_schedule_constraints_on_domain(dom
);
4614 sc
= isl_schedule_constraints_set_context(sc
, con
);
4615 sc
= isl_schedule_constraints_set_validity(sc
, dep
);
4616 sc
= isl_schedule_constraints_set_proximity(sc
, prox
);
4617 schedule
= isl_schedule_constraints_compute_schedule(sc
);
4618 sched
= isl_schedule_get_map(schedule
);
4619 isl_schedule_free(schedule
);
4624 /* Compute a schedule for the given instance set, validity constraints and
4625 * proximity constraints and return a corresponding union map representation.
4627 static __isl_give isl_union_map
*compute_schedule(isl_ctx
*ctx
,
4628 const char *domain
, const char *validity
, const char *proximity
)
4630 return compute_schedule_with_context(ctx
, domain
, validity
, proximity
,
4634 /* Check that a schedule can be constructed on the given domain
4635 * with the given validity and proximity constraints.
4637 static int test_has_schedule(isl_ctx
*ctx
, const char *domain
,
4638 const char *validity
, const char *proximity
)
4640 isl_union_map
*sched
;
4642 sched
= compute_schedule(ctx
, domain
, validity
, proximity
);
4646 isl_union_map_free(sched
);
4650 int test_special_schedule(isl_ctx
*ctx
, const char *domain
,
4651 const char *validity
, const char *proximity
, const char *expected_sched
)
4653 isl_union_map
*sched1
, *sched2
;
4656 sched1
= compute_schedule(ctx
, domain
, validity
, proximity
);
4657 sched2
= isl_union_map_read_from_str(ctx
, expected_sched
);
4659 equal
= isl_union_map_is_equal(sched1
, sched2
);
4660 isl_union_map_free(sched1
);
4661 isl_union_map_free(sched2
);
4666 isl_die(ctx
, isl_error_unknown
, "unexpected schedule",
4672 /* Check that the schedule map is properly padded, i.e., that the range
4673 * lives in a single space.
4675 static int test_padded_schedule(isl_ctx
*ctx
)
4679 isl_union_map
*validity
, *proximity
;
4680 isl_schedule_constraints
*sc
;
4681 isl_schedule
*sched
;
4682 isl_union_map
*umap
;
4683 isl_union_set
*range
;
4686 str
= "[N] -> { S0[i] : 0 <= i <= N; S1[i, j] : 0 <= i, j <= N }";
4687 D
= isl_union_set_read_from_str(ctx
, str
);
4688 validity
= isl_union_map_empty(isl_union_set_get_space(D
));
4689 proximity
= isl_union_map_copy(validity
);
4690 sc
= isl_schedule_constraints_on_domain(D
);
4691 sc
= isl_schedule_constraints_set_validity(sc
, validity
);
4692 sc
= isl_schedule_constraints_set_proximity(sc
, proximity
);
4693 sched
= isl_schedule_constraints_compute_schedule(sc
);
4694 umap
= isl_schedule_get_map(sched
);
4695 isl_schedule_free(sched
);
4696 range
= isl_union_map_range(umap
);
4697 set
= isl_set_from_union_set(range
);
4706 /* Check that conditional validity constraints are also taken into
4707 * account across bands.
4708 * In particular, try to make sure that live ranges D[1,0]->C[2,1] and
4709 * D[2,0]->C[3,0] are not local in the outer band of the generated schedule
4710 * and then check that the adjacent order constraint C[2,1]->D[2,0]
4711 * is enforced by the rest of the schedule.
4713 static int test_special_conditional_schedule_constraints(isl_ctx
*ctx
)
4716 isl_union_set
*domain
;
4717 isl_union_map
*validity
, *proximity
, *condition
;
4718 isl_union_map
*sink
, *source
, *dep
;
4719 isl_schedule_constraints
*sc
;
4720 isl_schedule
*schedule
;
4721 isl_union_access_info
*access
;
4722 isl_union_flow
*flow
;
4725 str
= "[n] -> { C[k, i] : k <= -1 + n and i >= 0 and i <= -1 + k; "
4726 "A[k] : k >= 1 and k <= -1 + n; "
4727 "B[k, i] : k <= -1 + n and i >= 0 and i <= -1 + k; "
4728 "D[k, i] : k <= -1 + n and i >= 0 and i <= -1 + k }";
4729 domain
= isl_union_set_read_from_str(ctx
, str
);
4730 sc
= isl_schedule_constraints_on_domain(domain
);
4731 str
= "[n] -> { D[k, i] -> C[1 + k, k - i] : "
4732 "k <= -2 + n and i >= 1 and i <= -1 + k; "
4733 "D[k, i] -> C[1 + k, i] : "
4734 "k <= -2 + n and i >= 1 and i <= -1 + k; "
4735 "D[k, 0] -> C[1 + k, k] : k >= 1 and k <= -2 + n; "
4736 "D[k, 0] -> C[1 + k, 0] : k >= 1 and k <= -2 + n }";
4737 validity
= isl_union_map_read_from_str(ctx
, str
);
4738 sc
= isl_schedule_constraints_set_validity(sc
, validity
);
4739 str
= "[n] -> { C[k, i] -> D[k, i] : "
4740 "0 <= i <= -1 + k and k <= -1 + n }";
4741 proximity
= isl_union_map_read_from_str(ctx
, str
);
4742 sc
= isl_schedule_constraints_set_proximity(sc
, proximity
);
4743 str
= "[n] -> { [D[k, i] -> a[]] -> [C[1 + k, k - i] -> b[]] : "
4744 "i <= -1 + k and i >= 1 and k <= -2 + n; "
4745 "[B[k, i] -> c[]] -> [B[k, 1 + i] -> c[]] : "
4746 "k <= -1 + n and i >= 0 and i <= -2 + k }";
4747 condition
= isl_union_map_read_from_str(ctx
, str
);
4748 str
= "[n] -> { [B[k, i] -> e[]] -> [D[k, i] -> a[]] : "
4749 "i >= 0 and i <= -1 + k and k <= -1 + n; "
4750 "[C[k, i] -> b[]] -> [D[k', -1 + k - i] -> a[]] : "
4751 "i >= 0 and i <= -1 + k and k <= -1 + n and "
4752 "k' <= -1 + n and k' >= k - i and k' >= 1 + k; "
4753 "[C[k, i] -> b[]] -> [D[k, -1 + k - i] -> a[]] : "
4754 "i >= 0 and i <= -1 + k and k <= -1 + n; "
4755 "[B[k, i] -> c[]] -> [A[k'] -> d[]] : "
4756 "k <= -1 + n and i >= 0 and i <= -1 + k and "
4757 "k' >= 1 and k' <= -1 + n and k' >= 1 + k }";
4758 validity
= isl_union_map_read_from_str(ctx
, str
);
4759 sc
= isl_schedule_constraints_set_conditional_validity(sc
, condition
,
4761 schedule
= isl_schedule_constraints_compute_schedule(sc
);
4762 str
= "{ D[2,0] -> [] }";
4763 sink
= isl_union_map_read_from_str(ctx
, str
);
4764 access
= isl_union_access_info_from_sink(sink
);
4765 str
= "{ C[2,1] -> [] }";
4766 source
= isl_union_map_read_from_str(ctx
, str
);
4767 access
= isl_union_access_info_set_must_source(access
, source
);
4768 access
= isl_union_access_info_set_schedule(access
, schedule
);
4769 flow
= isl_union_access_info_compute_flow(access
);
4770 dep
= isl_union_flow_get_must_dependence(flow
);
4771 isl_union_flow_free(flow
);
4772 empty
= isl_union_map_is_empty(dep
);
4773 isl_union_map_free(dep
);
4778 isl_die(ctx
, isl_error_unknown
,
4779 "conditional validity not respected", return -1);
4784 /* Check that the test for violated conditional validity constraints
4785 * is not confused by domain compression.
4786 * In particular, earlier versions of isl would apply
4787 * a schedule on the compressed domains to the original domains,
4788 * resulting in a failure to detect that the default schedule
4789 * violates the conditional validity constraints.
4791 static int test_special_conditional_schedule_constraints_2(isl_ctx
*ctx
)
4795 isl_union_set
*domain
;
4796 isl_union_map
*validity
, *condition
;
4797 isl_schedule_constraints
*sc
;
4798 isl_schedule
*schedule
;
4799 isl_union_map
*umap
;
4802 str
= "{ A[0, i] : 0 <= i <= 10; B[1, i] : 0 <= i <= 10 }";
4803 domain
= isl_union_set_read_from_str(ctx
, str
);
4804 sc
= isl_schedule_constraints_on_domain(domain
);
4805 str
= "{ B[1, i] -> A[0, i + 1] }";
4806 condition
= isl_union_map_read_from_str(ctx
, str
);
4807 str
= "{ A[0, i] -> B[1, i - 1] }";
4808 validity
= isl_union_map_read_from_str(ctx
, str
);
4809 sc
= isl_schedule_constraints_set_conditional_validity(sc
, condition
,
4810 isl_union_map_copy(validity
));
4811 schedule
= isl_schedule_constraints_compute_schedule(sc
);
4812 umap
= isl_schedule_get_map(schedule
);
4813 isl_schedule_free(schedule
);
4814 validity
= isl_union_map_apply_domain(validity
,
4815 isl_union_map_copy(umap
));
4816 validity
= isl_union_map_apply_range(validity
, umap
);
4817 map
= isl_map_from_union_map(validity
);
4818 ge
= isl_map_lex_ge(isl_space_domain(isl_map_get_space(map
)));
4819 map
= isl_map_intersect(map
, ge
);
4820 empty
= isl_map_is_empty(map
);
4826 isl_die(ctx
, isl_error_unknown
,
4827 "conditional validity constraints not satisfied",
4833 /* Input for testing of schedule construction based on
4834 * conditional constraints.
4836 * domain is the iteration domain
4837 * flow are the flow dependences, which determine the validity and
4838 * proximity constraints
4839 * condition are the conditions on the conditional validity constraints
4840 * conditional_validity are the conditional validity constraints
4841 * outer_band_n is the expected number of members in the outer band
4846 const char *condition
;
4847 const char *conditional_validity
;
4849 } live_range_tests
[] = {
4850 /* Contrived example that illustrates that we need to keep
4851 * track of tagged condition dependences and
4852 * tagged conditional validity dependences
4853 * in isl_sched_edge separately.
4854 * In particular, the conditional validity constraints on A
4855 * cannot be satisfied,
4856 * but they can be ignored because there are no corresponding
4857 * condition constraints. However, we do have an additional
4858 * conditional validity constraint that maps to the same
4859 * dependence relation
4860 * as the condition constraint on B. If we did not make a distinction
4861 * between tagged condition and tagged conditional validity
4862 * dependences, then we
4863 * could end up treating this shared dependence as an condition
4864 * constraint on A, forcing a localization of the conditions,
4865 * which is impossible.
4867 { "{ S[i] : 0 <= 1 < 100; T[i] : 0 <= 1 < 100 }",
4868 "{ S[i] -> S[i+1] : 0 <= i < 99 }",
4869 "{ [S[i] -> B[]] -> [S[i+1] -> B[]] : 0 <= i < 99 }",
4870 "{ [S[i] -> A[]] -> [T[i'] -> A[]] : 0 <= i', i < 100 and i != i';"
4871 "[T[i] -> A[]] -> [S[i'] -> A[]] : 0 <= i', i < 100 and i != i';"
4872 "[S[i] -> A[]] -> [S[i+1] -> A[]] : 0 <= i < 99 }",
4875 /* TACO 2013 Fig. 7 */
4876 { "[n] -> { S1[i,j] : 0 <= i,j < n; S2[i,j] : 0 <= i,j < n }",
4877 "[n] -> { S1[i,j] -> S2[i,j] : 0 <= i,j < n;"
4878 "S2[i,j] -> S2[i,j+1] : 0 <= i < n and 0 <= j < n - 1 }",
4879 "[n] -> { [S1[i,j] -> t[]] -> [S2[i,j] -> t[]] : 0 <= i,j < n;"
4880 "[S2[i,j] -> x1[]] -> [S2[i,j+1] -> x1[]] : "
4881 "0 <= i < n and 0 <= j < n - 1 }",
4882 "[n] -> { [S2[i,j] -> t[]] -> [S1[i,j'] -> t[]] : "
4883 "0 <= i < n and 0 <= j < j' < n;"
4884 "[S2[i,j] -> t[]] -> [S1[i',j'] -> t[]] : "
4885 "0 <= i < i' < n and 0 <= j,j' < n;"
4886 "[S2[i,j] -> x1[]] -> [S2[i,j'] -> x1[]] : "
4887 "0 <= i,j,j' < n and j < j' }",
4890 /* TACO 2013 Fig. 7, without tags */
4891 { "[n] -> { S1[i,j] : 0 <= i,j < n; S2[i,j] : 0 <= i,j < n }",
4892 "[n] -> { S1[i,j] -> S2[i,j] : 0 <= i,j < n;"
4893 "S2[i,j] -> S2[i,j+1] : 0 <= i < n and 0 <= j < n - 1 }",
4894 "[n] -> { S1[i,j] -> S2[i,j] : 0 <= i,j < n;"
4895 "S2[i,j] -> S2[i,j+1] : 0 <= i < n and 0 <= j < n - 1 }",
4896 "[n] -> { S2[i,j] -> S1[i,j'] : 0 <= i < n and 0 <= j < j' < n;"
4897 "S2[i,j] -> S1[i',j'] : 0 <= i < i' < n and 0 <= j,j' < n;"
4898 "S2[i,j] -> S2[i,j'] : 0 <= i,j,j' < n and j < j' }",
4901 /* TACO 2013 Fig. 12 */
4902 { "{ S1[i,0] : 0 <= i <= 1; S2[i,j] : 0 <= i <= 1 and 1 <= j <= 2;"
4903 "S3[i,3] : 0 <= i <= 1 }",
4904 "{ S1[i,0] -> S2[i,1] : 0 <= i <= 1;"
4905 "S2[i,1] -> S2[i,2] : 0 <= i <= 1;"
4906 "S2[i,2] -> S3[i,3] : 0 <= i <= 1 }",
4907 "{ [S1[i,0]->t[]] -> [S2[i,1]->t[]] : 0 <= i <= 1;"
4908 "[S2[i,1]->t[]] -> [S2[i,2]->t[]] : 0 <= i <= 1;"
4909 "[S2[i,2]->t[]] -> [S3[i,3]->t[]] : 0 <= i <= 1 }",
4910 "{ [S2[i,1]->t[]] -> [S2[i,2]->t[]] : 0 <= i <= 1;"
4911 "[S2[0,j]->t[]] -> [S2[1,j']->t[]] : 1 <= j,j' <= 2;"
4912 "[S2[0,j]->t[]] -> [S1[1,0]->t[]] : 1 <= j <= 2;"
4913 "[S3[0,3]->t[]] -> [S2[1,j]->t[]] : 1 <= j <= 2;"
4914 "[S3[0,3]->t[]] -> [S1[1,0]->t[]] }",
4919 /* Test schedule construction based on conditional constraints.
4920 * In particular, check the number of members in the outer band node
4921 * as an indication of whether tiling is possible or not.
4923 static int test_conditional_schedule_constraints(isl_ctx
*ctx
)
4926 isl_union_set
*domain
;
4927 isl_union_map
*condition
;
4928 isl_union_map
*flow
;
4929 isl_union_map
*validity
;
4930 isl_schedule_constraints
*sc
;
4931 isl_schedule
*schedule
;
4932 isl_schedule_node
*node
;
4935 if (test_special_conditional_schedule_constraints(ctx
) < 0)
4937 if (test_special_conditional_schedule_constraints_2(ctx
) < 0)
4940 for (i
= 0; i
< ARRAY_SIZE(live_range_tests
); ++i
) {
4941 domain
= isl_union_set_read_from_str(ctx
,
4942 live_range_tests
[i
].domain
);
4943 flow
= isl_union_map_read_from_str(ctx
,
4944 live_range_tests
[i
].flow
);
4945 condition
= isl_union_map_read_from_str(ctx
,
4946 live_range_tests
[i
].condition
);
4947 validity
= isl_union_map_read_from_str(ctx
,
4948 live_range_tests
[i
].conditional_validity
);
4949 sc
= isl_schedule_constraints_on_domain(domain
);
4950 sc
= isl_schedule_constraints_set_validity(sc
,
4951 isl_union_map_copy(flow
));
4952 sc
= isl_schedule_constraints_set_proximity(sc
, flow
);
4953 sc
= isl_schedule_constraints_set_conditional_validity(sc
,
4954 condition
, validity
);
4955 schedule
= isl_schedule_constraints_compute_schedule(sc
);
4956 node
= isl_schedule_get_root(schedule
);
4958 isl_schedule_node_get_type(node
) != isl_schedule_node_band
)
4959 node
= isl_schedule_node_first_child(node
);
4960 n_member
= isl_schedule_node_band_n_member(node
);
4961 isl_schedule_node_free(node
);
4962 isl_schedule_free(schedule
);
4964 if (!schedule
|| n_member
< 0)
4966 if (n_member
!= live_range_tests
[i
].outer_band_n
)
4967 isl_die(ctx
, isl_error_unknown
,
4968 "unexpected number of members in outer band",
4974 /* Check that the schedule computed for the given instance set and
4975 * dependence relation strongly satisfies the dependences.
4976 * In particular, check that no instance is scheduled before
4977 * or together with an instance on which it depends.
4978 * Earlier versions of isl would produce a schedule that
4979 * only weakly satisfies the dependences.
4981 static int test_strongly_satisfying_schedule(isl_ctx
*ctx
)
4983 const char *domain
, *dep
;
4984 isl_union_map
*D
, *schedule
;
4988 domain
= "{ B[i0, i1] : 0 <= i0 <= 1 and 0 <= i1 <= 11; "
4989 "A[i0] : 0 <= i0 <= 1 }";
4990 dep
= "{ B[i0, i1] -> B[i0, 1 + i1] : 0 <= i0 <= 1 and 0 <= i1 <= 10; "
4991 "B[0, 11] -> A[1]; A[i0] -> B[i0, 0] : 0 <= i0 <= 1 }";
4992 schedule
= compute_schedule(ctx
, domain
, dep
, dep
);
4993 D
= isl_union_map_read_from_str(ctx
, dep
);
4994 D
= isl_union_map_apply_domain(D
, isl_union_map_copy(schedule
));
4995 D
= isl_union_map_apply_range(D
, schedule
);
4996 map
= isl_map_from_union_map(D
);
4997 ge
= isl_map_lex_ge(isl_space_domain(isl_map_get_space(map
)));
4998 map
= isl_map_intersect(map
, ge
);
4999 empty
= isl_map_is_empty(map
);
5005 isl_die(ctx
, isl_error_unknown
,
5006 "dependences not strongly satisfied", return -1);
5011 /* Compute a schedule for input where the instance set constraints
5012 * conflict with the context constraints.
5013 * Earlier versions of isl did not properly handle this situation.
5015 static int test_conflicting_context_schedule(isl_ctx
*ctx
)
5017 isl_union_map
*schedule
;
5018 const char *domain
, *context
;
5020 domain
= "[n] -> { A[] : n >= 0 }";
5021 context
= "[n] -> { : n < 0 }";
5022 schedule
= compute_schedule_with_context(ctx
,
5023 domain
, "{}", "{}", context
);
5024 isl_union_map_free(schedule
);
5032 /* Check that a set of schedule constraints that only allow for
5033 * a coalescing schedule still produces a schedule even if the user
5034 * request a non-coalescing schedule. Earlier versions of isl
5035 * would not handle this case correctly.
5037 static int test_coalescing_schedule(isl_ctx
*ctx
)
5039 const char *domain
, *dep
;
5042 isl_schedule_constraints
*sc
;
5043 isl_schedule
*schedule
;
5044 int treat_coalescing
;
5046 domain
= "{ S[a, b] : 0 <= a <= 1 and 0 <= b <= 1 }";
5047 dep
= "{ S[a, b] -> S[a + b, 1 - b] }";
5048 I
= isl_union_set_read_from_str(ctx
, domain
);
5049 D
= isl_union_map_read_from_str(ctx
, dep
);
5050 sc
= isl_schedule_constraints_on_domain(I
);
5051 sc
= isl_schedule_constraints_set_validity(sc
, D
);
5052 treat_coalescing
= isl_options_get_schedule_treat_coalescing(ctx
);
5053 isl_options_set_schedule_treat_coalescing(ctx
, 1);
5054 schedule
= isl_schedule_constraints_compute_schedule(sc
);
5055 isl_options_set_schedule_treat_coalescing(ctx
, treat_coalescing
);
5056 isl_schedule_free(schedule
);
5062 /* Check that the scheduler does not perform any needless
5063 * compound skewing. Earlier versions of isl would compute
5064 * schedules in terms of transformed schedule coefficients and
5065 * would not accurately keep track of the sum of the original
5066 * schedule coefficients. It could then produce the schedule
5067 * S[t,i,j,k] -> [t, 2t + i, 2t + i + j, 2t + i + j + k]
5068 * for the input below instead of the schedule below.
5070 static int test_skewing_schedule(isl_ctx
*ctx
)
5072 const char *D
, *V
, *P
, *S
;
5074 D
= "[n] -> { S[t,i,j,k] : 0 <= t,i,j,k < n }";
5075 V
= "[n] -> { S[t,i,j,k] -> S[t+1,a,b,c] : 0 <= t,i,j,k,a,b,c < n and "
5076 "-2 <= a-i <= 2 and -1 <= a-i + b-j <= 1 and "
5077 "-1 <= a-i + b-j + c-k <= 1 }";
5079 S
= "{ S[t,i,j,k] -> [t, 2t + i, t + i + j, 2t + k] }";
5081 return test_special_schedule(ctx
, D
, V
, P
, S
);
5084 int test_schedule(isl_ctx
*ctx
)
5086 const char *D
, *W
, *R
, *V
, *P
, *S
;
5087 int max_coincidence
;
5088 int treat_coalescing
;
5090 /* Handle resulting schedule with zero bands. */
5091 if (test_one_schedule(ctx
, "{[]}", "{}", "{}", "{[] -> []}", 0, 0) < 0)
5095 D
= "[T,N] -> { S1[t,i] : 1 <= t <= T and 2 <= i <= N - 1 }";
5096 W
= "{ S1[t,i] -> a[t,i] }";
5097 R
= "{ S1[t,i] -> a[t-1,i]; S1[t,i] -> a[t-1,i-1]; "
5098 "S1[t,i] -> a[t-1,i+1] }";
5099 S
= "{ S1[t,i] -> [t,i] }";
5100 if (test_one_schedule(ctx
, D
, W
, R
, S
, 2, 0) < 0)
5103 /* Fig. 5 of CC2008 */
5104 D
= "[N] -> { S_0[i, j] : i >= 0 and i <= -1 + N and j >= 2 and "
5106 W
= "[N] -> { S_0[i, j] -> a[i, j] : i >= 0 and i <= -1 + N and "
5107 "j >= 2 and j <= -1 + N }";
5108 R
= "[N] -> { S_0[i, j] -> a[j, i] : i >= 0 and i <= -1 + N and "
5109 "j >= 2 and j <= -1 + N; "
5110 "S_0[i, j] -> a[i, -1 + j] : i >= 0 and i <= -1 + N and "
5111 "j >= 2 and j <= -1 + N }";
5112 S
= "[N] -> { S_0[i, j] -> [0, i, 0, j, 0] }";
5113 if (test_one_schedule(ctx
, D
, W
, R
, S
, 2, 0) < 0)
5116 D
= "{ S1[i] : 0 <= i <= 10; S2[i] : 0 <= i <= 9 }";
5117 W
= "{ S1[i] -> a[i] }";
5118 R
= "{ S2[i] -> a[i+1] }";
5119 S
= "{ S1[i] -> [0,i]; S2[i] -> [1,i] }";
5120 if (test_one_schedule(ctx
, D
, W
, R
, S
, 1, 1) < 0)
5123 D
= "{ S1[i] : 0 <= i < 10; S2[i] : 0 <= i < 10 }";
5124 W
= "{ S1[i] -> a[i] }";
5125 R
= "{ S2[i] -> a[9-i] }";
5126 S
= "{ S1[i] -> [0,i]; S2[i] -> [1,i] }";
5127 if (test_one_schedule(ctx
, D
, W
, R
, S
, 1, 1) < 0)
5130 D
= "[N] -> { S1[i] : 0 <= i < N; S2[i] : 0 <= i < N }";
5131 W
= "{ S1[i] -> a[i] }";
5132 R
= "[N] -> { S2[i] -> a[N-1-i] }";
5133 S
= "{ S1[i] -> [0,i]; S2[i] -> [1,i] }";
5134 if (test_one_schedule(ctx
, D
, W
, R
, S
, 1, 1) < 0)
5137 D
= "{ S1[i] : 0 < i < 10; S2[i] : 0 <= i < 10 }";
5138 W
= "{ S1[i] -> a[i]; S2[i] -> b[i] }";
5139 R
= "{ S2[i] -> a[i]; S1[i] -> b[i-1] }";
5140 S
= "{ S1[i] -> [i,0]; S2[i] -> [i,1] }";
5141 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5144 D
= "[N] -> { S1[i] : 1 <= i <= N; S2[i,j] : 1 <= i,j <= N }";
5145 W
= "{ S1[i] -> a[0,i]; S2[i,j] -> a[i,j] }";
5146 R
= "{ S2[i,j] -> a[i-1,j] }";
5147 S
= "{ S1[i] -> [0,i,0]; S2[i,j] -> [1,i,j] }";
5148 if (test_one_schedule(ctx
, D
, W
, R
, S
, 2, 1) < 0)
5151 D
= "[N] -> { S1[i] : 1 <= i <= N; S2[i,j] : 1 <= i,j <= N }";
5152 W
= "{ S1[i] -> a[i,0]; S2[i,j] -> a[i,j] }";
5153 R
= "{ S2[i,j] -> a[i,j-1] }";
5154 S
= "{ S1[i] -> [0,i,0]; S2[i,j] -> [1,i,j] }";
5155 if (test_one_schedule(ctx
, D
, W
, R
, S
, 2, 1) < 0)
5158 D
= "[N] -> { S_0[]; S_1[i] : i >= 0 and i <= -1 + N; S_2[] }";
5159 W
= "[N] -> { S_0[] -> a[0]; S_2[] -> b[0]; "
5160 "S_1[i] -> a[1 + i] : i >= 0 and i <= -1 + N }";
5161 R
= "[N] -> { S_2[] -> a[N]; S_1[i] -> a[i] : i >= 0 and i <= -1 + N }";
5162 S
= "[N] -> { S_1[i] -> [1, i, 0]; S_2[] -> [2, 0, 1]; "
5163 "S_0[] -> [0, 0, 0] }";
5164 if (test_one_schedule(ctx
, D
, W
, R
, S
, 1, 0) < 0)
5166 ctx
->opt
->schedule_parametric
= 0;
5167 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5169 ctx
->opt
->schedule_parametric
= 1;
5171 D
= "[N] -> { S1[i] : 1 <= i <= N; S2[i] : 1 <= i <= N; "
5172 "S3[i,j] : 1 <= i,j <= N; S4[i] : 1 <= i <= N }";
5173 W
= "{ S1[i] -> a[i,0]; S2[i] -> a[0,i]; S3[i,j] -> a[i,j] }";
5174 R
= "[N] -> { S3[i,j] -> a[i-1,j]; S3[i,j] -> a[i,j-1]; "
5175 "S4[i] -> a[i,N] }";
5176 S
= "{ S1[i] -> [0,i,0]; S2[i] -> [1,i,0]; S3[i,j] -> [2,i,j]; "
5177 "S4[i] -> [4,i,0] }";
5178 max_coincidence
= isl_options_get_schedule_maximize_coincidence(ctx
);
5179 isl_options_set_schedule_maximize_coincidence(ctx
, 0);
5180 if (test_one_schedule(ctx
, D
, W
, R
, S
, 2, 0) < 0)
5182 isl_options_set_schedule_maximize_coincidence(ctx
, max_coincidence
);
5184 D
= "[N] -> { S_0[i, j] : i >= 1 and i <= N and j >= 1 and j <= N }";
5185 W
= "[N] -> { S_0[i, j] -> s[0] : i >= 1 and i <= N and j >= 1 and "
5187 R
= "[N] -> { S_0[i, j] -> s[0] : i >= 1 and i <= N and j >= 1 and "
5189 "S_0[i, j] -> a[i, j] : i >= 1 and i <= N and j >= 1 and "
5191 S
= "[N] -> { S_0[i, j] -> [0, i, 0, j, 0] }";
5192 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5195 D
= "[N] -> { S_0[t] : t >= 0 and t <= -1 + N; "
5196 " S_2[t] : t >= 0 and t <= -1 + N; "
5197 " S_1[t, i] : t >= 0 and t <= -1 + N and i >= 0 and "
5199 W
= "[N] -> { S_0[t] -> a[t, 0] : t >= 0 and t <= -1 + N; "
5200 " S_2[t] -> b[t] : t >= 0 and t <= -1 + N; "
5201 " S_1[t, i] -> a[t, 1 + i] : t >= 0 and t <= -1 + N and "
5202 "i >= 0 and i <= -1 + N }";
5203 R
= "[N] -> { S_1[t, i] -> a[t, i] : t >= 0 and t <= -1 + N and "
5204 "i >= 0 and i <= -1 + N; "
5205 " S_2[t] -> a[t, N] : t >= 0 and t <= -1 + N }";
5206 S
= "[N] -> { S_2[t] -> [0, t, 2]; S_1[t, i] -> [0, t, 1, i, 0]; "
5207 " S_0[t] -> [0, t, 0] }";
5209 if (test_one_schedule(ctx
, D
, W
, R
, S
, 2, 1) < 0)
5211 ctx
->opt
->schedule_parametric
= 0;
5212 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5214 ctx
->opt
->schedule_parametric
= 1;
5216 D
= "[N] -> { S1[i,j] : 0 <= i,j < N; S2[i,j] : 0 <= i,j < N }";
5217 S
= "{ S1[i,j] -> [0,i,j]; S2[i,j] -> [1,i,j] }";
5218 if (test_one_schedule(ctx
, D
, "{}", "{}", S
, 2, 2) < 0)
5221 D
= "[M, N] -> { S_1[i] : i >= 0 and i <= -1 + M; "
5222 "S_0[i, j] : i >= 0 and i <= -1 + M and j >= 0 and j <= -1 + N }";
5223 W
= "[M, N] -> { S_0[i, j] -> a[j] : i >= 0 and i <= -1 + M and "
5224 "j >= 0 and j <= -1 + N; "
5225 "S_1[i] -> b[0] : i >= 0 and i <= -1 + M }";
5226 R
= "[M, N] -> { S_0[i, j] -> a[0] : i >= 0 and i <= -1 + M and "
5227 "j >= 0 and j <= -1 + N; "
5228 "S_1[i] -> b[0] : i >= 0 and i <= -1 + M }";
5229 S
= "[M, N] -> { S_1[i] -> [1, i, 0]; S_0[i, j] -> [0, i, 0, j, 0] }";
5230 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5233 D
= "{ S_0[i] : i >= 0 }";
5234 W
= "{ S_0[i] -> a[i] : i >= 0 }";
5235 R
= "{ S_0[i] -> a[0] : i >= 0 }";
5236 S
= "{ S_0[i] -> [0, i, 0] }";
5237 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5240 D
= "{ S_0[i] : i >= 0; S_1[i] : i >= 0 }";
5241 W
= "{ S_0[i] -> a[i] : i >= 0; S_1[i] -> b[i] : i >= 0 }";
5242 R
= "{ S_0[i] -> b[0] : i >= 0; S_1[i] -> a[i] : i >= 0 }";
5243 S
= "{ S_1[i] -> [0, i, 1]; S_0[i] -> [0, i, 0] }";
5244 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5247 D
= "[n] -> { S_0[j, k] : j <= -1 + n and j >= 0 and "
5248 "k <= -1 + n and k >= 0 }";
5249 W
= "[n] -> { S_0[j, k] -> B[j] : j <= -1 + n and j >= 0 and " "k <= -1 + n and k >= 0 }";
5250 R
= "[n] -> { S_0[j, k] -> B[j] : j <= -1 + n and j >= 0 and "
5251 "k <= -1 + n and k >= 0; "
5252 "S_0[j, k] -> B[k] : j <= -1 + n and j >= 0 and "
5253 "k <= -1 + n and k >= 0; "
5254 "S_0[j, k] -> A[k] : j <= -1 + n and j >= 0 and "
5255 "k <= -1 + n and k >= 0 }";
5256 S
= "[n] -> { S_0[j, k] -> [2, j, k] }";
5257 ctx
->opt
->schedule_outer_coincidence
= 1;
5258 if (test_one_schedule(ctx
, D
, W
, R
, S
, 0, 0) < 0)
5260 ctx
->opt
->schedule_outer_coincidence
= 0;
5262 D
= "{Stmt_for_body24[i0, i1, i2, i3]:"
5263 "i0 >= 0 and i0 <= 1 and i1 >= 0 and i1 <= 6 and i2 >= 2 and "
5264 "i2 <= 6 - i1 and i3 >= 0 and i3 <= -1 + i2;"
5265 "Stmt_for_body24[i0, i1, 1, 0]:"
5266 "i0 >= 0 and i0 <= 1 and i1 >= 0 and i1 <= 5;"
5267 "Stmt_for_body7[i0, i1, i2]:"
5268 "i0 >= 0 and i0 <= 1 and i1 >= 0 and i1 <= 7 and i2 >= 0 and "
5271 V
= "{Stmt_for_body24[0, i1, i2, i3] -> "
5272 "Stmt_for_body24[1, i1, i2, i3]:"
5273 "i3 >= 0 and i3 <= -1 + i2 and i1 >= 0 and i2 <= 6 - i1 and "
5275 "Stmt_for_body24[0, i1, i2, i3] -> "
5276 "Stmt_for_body7[1, 1 + i1 + i3, 1 + i1 + i2]:"
5277 "i3 <= -1 + i2 and i2 <= 6 - i1 and i2 >= 1 and i1 >= 0 and "
5279 "Stmt_for_body24[0, i1, i2, i3] ->"
5280 "Stmt_for_body7[1, i1, 1 + i1 + i3]:"
5281 "i3 >= 0 and i2 <= 6 - i1 and i1 >= 0 and i3 <= -1 + i2;"
5282 "Stmt_for_body7[0, i1, i2] -> Stmt_for_body7[1, i1, i2]:"
5283 "(i2 >= 1 + i1 and i2 <= 6 and i1 >= 0 and i1 <= 4) or "
5284 "(i2 >= 3 and i2 <= 7 and i1 >= 1 and i2 >= 1 + i1) or "
5285 "(i2 >= 0 and i2 <= i1 and i2 >= -7 + i1 and i1 <= 7);"
5286 "Stmt_for_body7[0, i1, 1 + i1] -> Stmt_for_body7[1, i1, 1 + i1]:"
5287 "i1 <= 6 and i1 >= 0;"
5288 "Stmt_for_body7[0, 0, 7] -> Stmt_for_body7[1, 0, 7];"
5289 "Stmt_for_body7[i0, i1, i2] -> "
5290 "Stmt_for_body24[i0, o1, -1 + i2 - o1, -1 + i1 - o1]:"
5291 "i0 >= 0 and i0 <= 1 and o1 >= 0 and i2 >= 1 + i1 and "
5292 "o1 <= -2 + i2 and i2 <= 7 and o1 <= -1 + i1;"
5293 "Stmt_for_body7[i0, i1, i2] -> "
5294 "Stmt_for_body24[i0, i1, o2, -1 - i1 + i2]:"
5295 "i0 >= 0 and i0 <= 1 and i1 >= 0 and o2 >= -i1 + i2 and "
5296 "o2 >= 1 and o2 <= 6 - i1 and i2 >= 1 + i1 }";
5299 treat_coalescing
= isl_options_get_schedule_treat_coalescing(ctx
);
5300 isl_options_set_schedule_treat_coalescing(ctx
, 0);
5301 if (test_has_schedule(ctx
, D
, V
, P
) < 0)
5303 isl_options_set_schedule_treat_coalescing(ctx
, treat_coalescing
);
5305 D
= "{ S_0[i, j] : i >= 1 and i <= 10 and j >= 1 and j <= 8 }";
5306 V
= "{ S_0[i, j] -> S_0[i, 1 + j] : i >= 1 and i <= 10 and "
5307 "j >= 1 and j <= 7;"
5308 "S_0[i, j] -> S_0[1 + i, j] : i >= 1 and i <= 9 and "
5309 "j >= 1 and j <= 8 }";
5311 S
= "{ S_0[i, j] -> [i + j, i] }";
5312 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_FEAUTRIER
;
5313 if (test_special_schedule(ctx
, D
, V
, P
, S
) < 0)
5315 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_ISL
;
5317 /* Fig. 1 from Feautrier's "Some Efficient Solutions..." pt. 2, 1992 */
5318 D
= "[N] -> { S_0[i, j] : i >= 0 and i <= -1 + N and "
5319 "j >= 0 and j <= -1 + i }";
5320 V
= "[N] -> { S_0[i, j] -> S_0[i, 1 + j] : j <= -2 + i and "
5321 "i <= -1 + N and j >= 0;"
5322 "S_0[i, -1 + i] -> S_0[1 + i, 0] : i >= 1 and "
5325 S
= "{ S_0[i, j] -> [i, j] }";
5326 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_FEAUTRIER
;
5327 if (test_special_schedule(ctx
, D
, V
, P
, S
) < 0)
5329 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_ISL
;
5331 /* Test both algorithms on a case with only proximity dependences. */
5332 D
= "{ S[i,j] : 0 <= i <= 10 }";
5334 P
= "{ S[i,j] -> S[i+1,j] : 0 <= i,j <= 10 }";
5335 S
= "{ S[i, j] -> [j, i] }";
5336 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_FEAUTRIER
;
5337 if (test_special_schedule(ctx
, D
, V
, P
, S
) < 0)
5339 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_ISL
;
5340 if (test_special_schedule(ctx
, D
, V
, P
, S
) < 0)
5343 D
= "{ A[a]; B[] }";
5345 P
= "{ A[a] -> B[] }";
5346 if (test_has_schedule(ctx
, D
, V
, P
) < 0)
5349 if (test_padded_schedule(ctx
) < 0)
5352 /* Check that check for progress is not confused by rational
5355 D
= "[N] -> { S0[i, j] : i >= 0 and i <= N and j >= 0 and j <= N }";
5356 V
= "[N] -> { S0[i0, -1 + N] -> S0[2 + i0, 0] : i0 >= 0 and "
5358 "S0[i0, i1] -> S0[i0, 1 + i1] : i0 >= 0 and "
5359 "i0 <= N and i1 >= 0 and i1 <= -1 + N }";
5361 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_FEAUTRIER
;
5362 if (test_has_schedule(ctx
, D
, V
, P
) < 0)
5364 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_ISL
;
5366 /* Check that we allow schedule rows that are only non-trivial
5367 * on some full-dimensional domains.
5369 D
= "{ S1[j] : 0 <= j <= 1; S0[]; S2[k] : 0 <= k <= 1 }";
5370 V
= "{ S0[] -> S1[j] : 0 <= j <= 1; S2[0] -> S0[];"
5371 "S1[j] -> S2[1] : 0 <= j <= 1 }";
5373 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_FEAUTRIER
;
5374 if (test_has_schedule(ctx
, D
, V
, P
) < 0)
5376 ctx
->opt
->schedule_algorithm
= ISL_SCHEDULE_ALGORITHM_ISL
;
5378 if (test_conditional_schedule_constraints(ctx
) < 0)
5381 if (test_strongly_satisfying_schedule(ctx
) < 0)
5384 if (test_conflicting_context_schedule(ctx
) < 0)
5387 if (test_coalescing_schedule(ctx
) < 0)
5389 if (test_skewing_schedule(ctx
) < 0)
5395 /* Perform scheduling tests using the whole component scheduler.
5397 static int test_schedule_whole(isl_ctx
*ctx
)
5402 whole
= isl_options_get_schedule_whole_component(ctx
);
5403 isl_options_set_schedule_whole_component(ctx
, 1);
5404 r
= test_schedule(ctx
);
5405 isl_options_set_schedule_whole_component(ctx
, whole
);
5410 /* Perform scheduling tests using the incremental scheduler.
5412 static int test_schedule_incremental(isl_ctx
*ctx
)
5417 whole
= isl_options_get_schedule_whole_component(ctx
);
5418 isl_options_set_schedule_whole_component(ctx
, 0);
5419 r
= test_schedule(ctx
);
5420 isl_options_set_schedule_whole_component(ctx
, whole
);
5425 int test_plain_injective(isl_ctx
*ctx
, const char *str
, int injective
)
5427 isl_union_map
*umap
;
5430 umap
= isl_union_map_read_from_str(ctx
, str
);
5431 test
= isl_union_map_plain_is_injective(umap
);
5432 isl_union_map_free(umap
);
5435 if (test
== injective
)
5438 isl_die(ctx
, isl_error_unknown
,
5439 "map not detected as injective", return -1);
5441 isl_die(ctx
, isl_error_unknown
,
5442 "map detected as injective", return -1);
5445 int test_injective(isl_ctx
*ctx
)
5449 if (test_plain_injective(ctx
, "{S[i,j] -> A[0]; T[i,j] -> B[1]}", 0))
5451 if (test_plain_injective(ctx
, "{S[] -> A[0]; T[] -> B[0]}", 1))
5453 if (test_plain_injective(ctx
, "{S[] -> A[0]; T[] -> A[1]}", 1))
5455 if (test_plain_injective(ctx
, "{S[] -> A[0]; T[] -> A[0]}", 0))
5457 if (test_plain_injective(ctx
, "{S[i] -> A[i,0]; T[i] -> A[i,1]}", 1))
5459 if (test_plain_injective(ctx
, "{S[i] -> A[i]; T[i] -> A[i]}", 0))
5461 if (test_plain_injective(ctx
, "{S[] -> A[0,0]; T[] -> A[0,1]}", 1))
5463 if (test_plain_injective(ctx
, "{S[] -> A[0,0]; T[] -> A[1,0]}", 1))
5466 str
= "{S[] -> A[0,0]; T[] -> A[0,1]; U[] -> A[1,0]}";
5467 if (test_plain_injective(ctx
, str
, 1))
5469 str
= "{S[] -> A[0,0]; T[] -> A[0,1]; U[] -> A[0,0]}";
5470 if (test_plain_injective(ctx
, str
, 0))
5478 #include "isl_test_plain_equal_templ.c"
5481 #define BASE pw_multi_aff
5482 #include "isl_test_plain_equal_templ.c"
5485 #define BASE union_pw_aff
5486 #include "isl_test_plain_equal_templ.c"
5488 /* Basic tests on isl_union_pw_aff.
5490 * In particular, check that isl_union_pw_aff_aff_on_domain
5491 * aligns the parameters of the input objects and
5492 * that isl_union_pw_aff_param_on_domain_id properly
5493 * introduces the parameter.
5495 static int test_upa(isl_ctx
*ctx
)
5500 isl_union_set
*domain
;
5501 isl_union_pw_aff
*upa
;
5504 aff
= isl_aff_read_from_str(ctx
, "[N] -> { [N] }");
5505 str
= "[M] -> { A[i] : 0 <= i < M; B[] }";
5506 domain
= isl_union_set_read_from_str(ctx
, str
);
5507 upa
= isl_union_pw_aff_aff_on_domain(domain
, aff
);
5508 str
= "[N, M] -> { A[i] -> [N] : 0 <= i < M; B[] -> [N] }";
5509 ok
= union_pw_aff_check_plain_equal(upa
, str
);
5510 isl_union_pw_aff_free(upa
);
5514 id
= isl_id_alloc(ctx
, "N", NULL
);
5515 str
= "[M] -> { A[i] : 0 <= i < M; B[] }";
5516 domain
= isl_union_set_read_from_str(ctx
, str
);
5517 upa
= isl_union_pw_aff_param_on_domain_id(domain
, id
);
5518 str
= "[N, M] -> { A[i] -> [N] : 0 <= i < M; B[] -> [N] }";
5519 ok
= union_pw_aff_check_plain_equal(upa
, str
);
5520 isl_union_pw_aff_free(upa
);
5528 __isl_give isl_aff
*(*fn
)(__isl_take isl_aff
*aff1
,
5529 __isl_take isl_aff
*aff2
);
5531 ['+'] = { &isl_aff_add
},
5532 ['-'] = { &isl_aff_sub
},
5533 ['*'] = { &isl_aff_mul
},
5534 ['/'] = { &isl_aff_div
},
5542 } aff_bin_tests
[] = {
5543 { "{ [i] -> [i] }", '+', "{ [i] -> [i] }",
5544 "{ [i] -> [2i] }" },
5545 { "{ [i] -> [i] }", '-', "{ [i] -> [i] }",
5547 { "{ [i] -> [i] }", '*', "{ [i] -> [2] }",
5548 "{ [i] -> [2i] }" },
5549 { "{ [i] -> [2] }", '*', "{ [i] -> [i] }",
5550 "{ [i] -> [2i] }" },
5551 { "{ [i] -> [i] }", '/', "{ [i] -> [2] }",
5552 "{ [i] -> [i/2] }" },
5553 { "{ [i] -> [2i] }", '/', "{ [i] -> [2] }",
5555 { "{ [i] -> [i] }", '+', "{ [i] -> [NaN] }",
5556 "{ [i] -> [NaN] }" },
5557 { "{ [i] -> [i] }", '-', "{ [i] -> [NaN] }",
5558 "{ [i] -> [NaN] }" },
5559 { "{ [i] -> [i] }", '*', "{ [i] -> [NaN] }",
5560 "{ [i] -> [NaN] }" },
5561 { "{ [i] -> [2] }", '*', "{ [i] -> [NaN] }",
5562 "{ [i] -> [NaN] }" },
5563 { "{ [i] -> [i] }", '/', "{ [i] -> [NaN] }",
5564 "{ [i] -> [NaN] }" },
5565 { "{ [i] -> [2] }", '/', "{ [i] -> [NaN] }",
5566 "{ [i] -> [NaN] }" },
5567 { "{ [i] -> [NaN] }", '+', "{ [i] -> [i] }",
5568 "{ [i] -> [NaN] }" },
5569 { "{ [i] -> [NaN] }", '-', "{ [i] -> [i] }",
5570 "{ [i] -> [NaN] }" },
5571 { "{ [i] -> [NaN] }", '*', "{ [i] -> [2] }",
5572 "{ [i] -> [NaN] }" },
5573 { "{ [i] -> [NaN] }", '*', "{ [i] -> [i] }",
5574 "{ [i] -> [NaN] }" },
5575 { "{ [i] -> [NaN] }", '/', "{ [i] -> [2] }",
5576 "{ [i] -> [NaN] }" },
5577 { "{ [i] -> [NaN] }", '/', "{ [i] -> [i] }",
5578 "{ [i] -> [NaN] }" },
5579 { "{ [i] -> [i] }", '/', "{ [i] -> [0] }",
5580 "{ [i] -> [NaN] }" },
5583 /* Perform some basic tests of binary operations on isl_aff objects.
5585 static int test_bin_aff(isl_ctx
*ctx
)
5588 isl_aff
*aff1
, *aff2
, *res
;
5589 __isl_give isl_aff
*(*fn
)(__isl_take isl_aff
*aff1
,
5590 __isl_take isl_aff
*aff2
);
5593 for (i
= 0; i
< ARRAY_SIZE(aff_bin_tests
); ++i
) {
5594 aff1
= isl_aff_read_from_str(ctx
, aff_bin_tests
[i
].arg1
);
5595 aff2
= isl_aff_read_from_str(ctx
, aff_bin_tests
[i
].arg2
);
5596 res
= isl_aff_read_from_str(ctx
, aff_bin_tests
[i
].res
);
5597 fn
= aff_bin_op
[aff_bin_tests
[i
].op
].fn
;
5598 aff1
= fn(aff1
, aff2
);
5599 if (isl_aff_is_nan(res
))
5600 ok
= isl_aff_is_nan(aff1
);
5602 ok
= isl_aff_plain_is_equal(aff1
, res
);
5608 isl_die(ctx
, isl_error_unknown
,
5609 "unexpected result", return -1);
5616 __isl_give isl_pw_aff
*(*fn
)(__isl_take isl_pw_aff
*pa1
,
5617 __isl_take isl_pw_aff
*pa2
);
5618 } pw_aff_bin_op
[] = {
5619 ['m'] = { &isl_pw_aff_min
},
5620 ['M'] = { &isl_pw_aff_max
},
5623 /* Inputs for binary isl_pw_aff operation tests.
5624 * "arg1" and "arg2" are the two arguments, "op" identifies the operation
5625 * defined by pw_aff_bin_op, and "res" is the expected result.
5632 } pw_aff_bin_tests
[] = {
5633 { "{ [i] -> [i] }", 'm', "{ [i] -> [i] }",
5635 { "{ [i] -> [i] }", 'M', "{ [i] -> [i] }",
5637 { "{ [i] -> [i] }", 'm', "{ [i] -> [0] }",
5638 "{ [i] -> [i] : i <= 0; [i] -> [0] : i > 0 }" },
5639 { "{ [i] -> [i] }", 'M', "{ [i] -> [0] }",
5640 "{ [i] -> [i] : i >= 0; [i] -> [0] : i < 0 }" },
5641 { "{ [i] -> [i] }", 'm', "{ [i] -> [NaN] }",
5642 "{ [i] -> [NaN] }" },
5643 { "{ [i] -> [NaN] }", 'm', "{ [i] -> [i] }",
5644 "{ [i] -> [NaN] }" },
5647 /* Perform some basic tests of binary operations on isl_pw_aff objects.
5649 static int test_bin_pw_aff(isl_ctx
*ctx
)
5653 isl_pw_aff
*pa1
, *pa2
, *res
;
5655 for (i
= 0; i
< ARRAY_SIZE(pw_aff_bin_tests
); ++i
) {
5656 pa1
= isl_pw_aff_read_from_str(ctx
, pw_aff_bin_tests
[i
].arg1
);
5657 pa2
= isl_pw_aff_read_from_str(ctx
, pw_aff_bin_tests
[i
].arg2
);
5658 res
= isl_pw_aff_read_from_str(ctx
, pw_aff_bin_tests
[i
].res
);
5659 pa1
= pw_aff_bin_op
[pw_aff_bin_tests
[i
].op
].fn(pa1
, pa2
);
5660 if (isl_pw_aff_involves_nan(res
))
5661 ok
= isl_pw_aff_involves_nan(pa1
);
5663 ok
= isl_pw_aff_plain_is_equal(pa1
, res
);
5664 isl_pw_aff_free(pa1
);
5665 isl_pw_aff_free(res
);
5669 isl_die(ctx
, isl_error_unknown
,
5670 "unexpected result", return -1);
5676 /* Inputs for basic tests of test operations on
5677 * isl_union_pw_multi_aff objects.
5678 * "fn" is the function that is being tested.
5679 * "arg" is a string description of the input.
5680 * "res" is the expected result.
5683 isl_bool (*fn
)(__isl_keep isl_union_pw_multi_aff
*upma1
);
5686 } upma_test_tests
[] = {
5687 { &isl_union_pw_multi_aff_involves_nan
, "{ A[] -> [0]; B[0] -> [1] }",
5689 { &isl_union_pw_multi_aff_involves_nan
, "{ A[] -> [NaN]; B[0] -> [1] }",
5691 { &isl_union_pw_multi_aff_involves_nan
, "{ A[] -> [0]; B[0] -> [NaN] }",
5693 { &isl_union_pw_multi_aff_involves_nan
,
5694 "{ A[] -> [0]; B[0] -> [1, NaN, 5] }",
5696 { &isl_union_pw_multi_aff_involves_locals
,
5697 "{ A[] -> [0]; B[0] -> [1] }",
5699 { &isl_union_pw_multi_aff_involves_locals
,
5700 "{ A[] -> [0]; B[x] -> [1] : x mod 2 = 0 }",
5702 { &isl_union_pw_multi_aff_involves_locals
,
5703 "{ A[] -> [0]; B[x] -> [x // 2] }",
5705 { &isl_union_pw_multi_aff_involves_locals
,
5706 "{ A[i] -> [i // 2]; B[0] -> [1] }",
5710 /* Perform some basic tests of test operations on
5711 * isl_union_pw_multi_aff objects.
5713 static isl_stat
test_upma_test(isl_ctx
*ctx
)
5716 isl_union_pw_multi_aff
*upma
;
5719 for (i
= 0; i
< ARRAY_SIZE(upma_test_tests
); ++i
) {
5722 str
= upma_test_tests
[i
].arg
;
5723 upma
= isl_union_pw_multi_aff_read_from_str(ctx
, str
);
5724 res
= upma_test_tests
[i
].fn(upma
);
5725 isl_union_pw_multi_aff_free(upma
);
5727 return isl_stat_error
;
5728 if (res
!= upma_test_tests
[i
].res
)
5729 isl_die(ctx
, isl_error_unknown
,
5730 "unexpected result", return isl_stat_error
);
5737 __isl_give isl_union_pw_multi_aff
*(*fn
)(
5738 __isl_take isl_union_pw_multi_aff
*upma1
,
5739 __isl_take isl_union_pw_multi_aff
*upma2
);
5743 } upma_bin_tests
[] = {
5744 { &isl_union_pw_multi_aff_add
, "{ A[] -> [0]; B[0] -> [1] }",
5745 "{ B[x] -> [2] : x >= 0 }", "{ B[0] -> [3] }" },
5746 { &isl_union_pw_multi_aff_union_add
, "{ A[] -> [0]; B[0] -> [1] }",
5747 "{ B[x] -> [2] : x >= 0 }",
5748 "{ A[] -> [0]; B[0] -> [3]; B[x] -> [2] : x >= 1 }" },
5749 { &isl_union_pw_multi_aff_pullback_union_pw_multi_aff
,
5750 "{ A[] -> B[0]; C[x] -> B[1] : x < 10; C[y] -> B[2] : y >= 10 }",
5751 "{ D[i] -> A[] : i < 0; D[i] -> C[i + 5] : i >= 0 }",
5752 "{ D[i] -> B[0] : i < 0; D[i] -> B[1] : 0 <= i < 5; "
5753 "D[i] -> B[2] : i >= 5 }" },
5754 { &isl_union_pw_multi_aff_union_add
, "{ B[x] -> A[1] : x <= 0 }",
5755 "{ B[x] -> C[2] : x > 0 }",
5756 "{ B[x] -> A[1] : x <= 0; B[x] -> C[2] : x > 0 }" },
5757 { &isl_union_pw_multi_aff_union_add
, "{ B[x] -> A[1] : x <= 0 }",
5758 "{ B[x] -> A[2] : x >= 0 }",
5759 "{ B[x] -> A[1] : x < 0; B[x] -> A[2] : x > 0; B[0] -> A[3] }" },
5761 &isl_union_pw_multi_aff_preimage_domain_wrapped_domain_union_pw_multi_aff
,
5762 "{ B[x] -> C[x + 2] }",
5763 "{ D[y] -> B[2y] }",
5766 &isl_union_pw_multi_aff_preimage_domain_wrapped_domain_union_pw_multi_aff
,
5767 "{ [A[x] -> B[x + 1]] -> C[x + 2] }",
5768 "{ D[y] -> B[2y] }",
5771 &isl_union_pw_multi_aff_preimage_domain_wrapped_domain_union_pw_multi_aff
,
5772 "{ [A[x] -> B[x + 1]] -> C[x + 2]; B[x] -> C[x + 2] }",
5773 "{ D[y] -> A[2y] }",
5774 "{ [D[y] -> B[2y + 1]] -> C[2y + 2] }" },
5776 &isl_union_pw_multi_aff_preimage_domain_wrapped_domain_union_pw_multi_aff
,
5777 "{ T[A[x] -> B[x + 1]] -> C[x + 2]; B[x] -> C[x + 2] }",
5778 "{ D[y] -> A[2y] }",
5779 "{ T[D[y] -> B[2y + 1]] -> C[2y + 2] }" },
5782 /* Perform some basic tests of binary operations on
5783 * isl_union_pw_multi_aff objects.
5785 static int test_bin_upma(isl_ctx
*ctx
)
5788 isl_union_pw_multi_aff
*upma1
, *upma2
, *res
;
5791 for (i
= 0; i
< ARRAY_SIZE(upma_bin_tests
); ++i
) {
5792 upma1
= isl_union_pw_multi_aff_read_from_str(ctx
,
5793 upma_bin_tests
[i
].arg1
);
5794 upma2
= isl_union_pw_multi_aff_read_from_str(ctx
,
5795 upma_bin_tests
[i
].arg2
);
5796 res
= isl_union_pw_multi_aff_read_from_str(ctx
,
5797 upma_bin_tests
[i
].res
);
5798 upma1
= upma_bin_tests
[i
].fn(upma1
, upma2
);
5799 ok
= isl_union_pw_multi_aff_plain_is_equal(upma1
, res
);
5800 isl_union_pw_multi_aff_free(upma1
);
5801 isl_union_pw_multi_aff_free(res
);
5805 isl_die(ctx
, isl_error_unknown
,
5806 "unexpected result", return -1);
5813 __isl_give isl_union_pw_multi_aff
*(*fn
)(
5814 __isl_take isl_union_pw_multi_aff
*upma1
,
5815 __isl_take isl_union_pw_multi_aff
*upma2
);
5818 } upma_bin_fail_tests
[] = {
5819 { &isl_union_pw_multi_aff_union_add
, "{ B[x] -> A[1] : x <= 0 }",
5820 "{ B[x] -> C[2] : x >= 0 }" },
5823 /* Perform some basic tests of binary operations on
5824 * isl_union_pw_multi_aff objects that are expected to fail.
5826 static int test_bin_upma_fail(isl_ctx
*ctx
)
5829 isl_union_pw_multi_aff
*upma1
, *upma2
;
5832 on_error
= isl_options_get_on_error(ctx
);
5833 isl_options_set_on_error(ctx
, ISL_ON_ERROR_CONTINUE
);
5834 n
= ARRAY_SIZE(upma_bin_fail_tests
);
5835 for (i
= 0; i
< n
; ++i
) {
5836 upma1
= isl_union_pw_multi_aff_read_from_str(ctx
,
5837 upma_bin_fail_tests
[i
].arg1
);
5838 upma2
= isl_union_pw_multi_aff_read_from_str(ctx
,
5839 upma_bin_fail_tests
[i
].arg2
);
5840 upma1
= upma_bin_fail_tests
[i
].fn(upma1
, upma2
);
5841 isl_union_pw_multi_aff_free(upma1
);
5845 isl_options_set_on_error(ctx
, on_error
);
5847 isl_die(ctx
, isl_error_unknown
,
5848 "operation not expected to succeed", return -1);
5853 /* Inputs for basic tests of binary operations on
5854 * pairs of isl_union_pw_multi_aff and isl_union_set objects.
5855 * "fn" is the function that is being tested.
5856 * "arg1" and "arg2" are string descriptions of the inputs.
5857 * "res" is a string description of the expected result.
5860 __isl_give isl_union_pw_multi_aff
*(*fn
)(
5861 __isl_take isl_union_pw_multi_aff
*upma
,
5862 __isl_take isl_union_set
*uset
);
5866 } upma_uset_tests
[] = {
5867 { &isl_union_pw_multi_aff_intersect_domain_wrapped_range
,
5868 "{ A[i] -> B[i] }", "{ B[0] }",
5870 { &isl_union_pw_multi_aff_intersect_domain_wrapped_domain
,
5871 "{ [A[i] -> B[i]] -> C[i + 1] }", "{ A[1]; B[0] }",
5872 "{ [A[1] -> B[1]] -> C[2] }" },
5873 { &isl_union_pw_multi_aff_intersect_domain_wrapped_range
,
5874 "{ [A[i] -> B[i]] -> C[i + 1] }", "{ A[1]; B[0] }",
5875 "{ [A[0] -> B[0]] -> C[1] }" },
5876 { &isl_union_pw_multi_aff_intersect_domain_wrapped_range
,
5877 "{ [A[i] -> B[i]] -> C[i + 1] }", "[N] -> { B[N] }",
5878 "[N] -> { [A[N] -> B[N]] -> C[N + 1] }" },
5879 { &isl_union_pw_multi_aff_intersect_domain_wrapped_range
,
5880 "[M] -> { [A[M] -> B[M]] -> C[M + 1] }", "[N] -> { B[N] }",
5881 "[N, M] -> { [A[N] -> B[N]] -> C[N + 1] : N = M }" },
5882 { &isl_union_pw_multi_aff_intersect_domain_wrapped_range
,
5883 "{ [A[] -> B[]] -> C[]; N[A[] -> B[]] -> D[]; [B[] -> A[]] -> E[] }",
5885 "{ [A[] -> B[]] -> C[]; N[A[] -> B[]] -> D[] }" },
5888 /* Perform some basic tests of binary operations on
5889 * pairs of isl_union_pw_multi_aff and isl_union_set objects.
5891 static isl_stat
test_upma_uset(isl_ctx
*ctx
)
5895 isl_union_pw_multi_aff
*upma
, *res
;
5896 isl_union_set
*uset
;
5898 for (i
= 0; i
< ARRAY_SIZE(upma_uset_tests
); ++i
) {
5899 upma
= isl_union_pw_multi_aff_read_from_str(ctx
,
5900 upma_uset_tests
[i
].arg1
);
5901 uset
= isl_union_set_read_from_str(ctx
,
5902 upma_uset_tests
[i
].arg2
);
5903 res
= isl_union_pw_multi_aff_read_from_str(ctx
,
5904 upma_uset_tests
[i
].res
);
5905 upma
= upma_uset_tests
[i
].fn(upma
, uset
);
5906 ok
= isl_union_pw_multi_aff_plain_is_equal(upma
, res
);
5907 isl_union_pw_multi_aff_free(upma
);
5908 isl_union_pw_multi_aff_free(res
);
5910 return isl_stat_error
;
5912 isl_die(ctx
, isl_error_unknown
,
5913 "unexpected result", return isl_stat_error
);
5919 /* Inputs for basic tests of unary operations on isl_multi_pw_aff objects.
5920 * "fn" is the function that is tested.
5921 * "arg" is a string description of the input.
5922 * "res" is a string description of the expected result.
5925 __isl_give isl_multi_pw_aff
*(*fn
)(__isl_take isl_multi_pw_aff
*mpa
);
5928 } mpa_un_tests
[] = {
5929 { &isl_multi_pw_aff_range_factor_domain
,
5930 "{ A[x] -> [B[(1 : x >= 5)] -> C[(2 : x <= 10)]] }",
5931 "{ A[x] -> B[(1 : x >= 5)] }" },
5932 { &isl_multi_pw_aff_range_factor_range
,
5933 "{ A[x] -> [B[(1 : x >= 5)] -> C[(2 : x <= 10)]] }",
5934 "{ A[y] -> C[(2 : y <= 10)] }" },
5935 { &isl_multi_pw_aff_range_factor_domain
,
5936 "{ A[x] -> [B[(1 : x >= 5)] -> C[]] }",
5937 "{ A[x] -> B[(1 : x >= 5)] }" },
5938 { &isl_multi_pw_aff_range_factor_range
,
5939 "{ A[x] -> [B[(1 : x >= 5)] -> C[]] }",
5940 "{ A[y] -> C[] }" },
5941 { &isl_multi_pw_aff_range_factor_domain
,
5942 "{ A[x] -> [B[] -> C[(2 : x <= 10)]] }",
5943 "{ A[x] -> B[] }" },
5944 { &isl_multi_pw_aff_range_factor_range
,
5945 "{ A[x] -> [B[] -> C[(2 : x <= 10)]] }",
5946 "{ A[y] -> C[(2 : y <= 10)] }" },
5947 { &isl_multi_pw_aff_range_factor_domain
,
5948 "{ A[x] -> [B[] -> C[]] }",
5949 "{ A[x] -> B[] }" },
5950 { &isl_multi_pw_aff_range_factor_range
,
5951 "{ A[x] -> [B[] -> C[]] }",
5952 "{ A[y] -> C[] }" },
5953 { &isl_multi_pw_aff_factor_range
,
5956 { &isl_multi_pw_aff_range_factor_domain
,
5957 "{ A[x] -> [B[] -> C[]] : x >= 0 }",
5958 "{ A[x] -> B[] : x >= 0 }" },
5959 { &isl_multi_pw_aff_range_factor_range
,
5960 "{ A[x] -> [B[] -> C[]] : x >= 0 }",
5961 "{ A[y] -> C[] : y >= 0 }" },
5962 { &isl_multi_pw_aff_factor_range
,
5963 "[N] -> { [B[] -> C[]] : N >= 0 }",
5964 "[N] -> { C[] : N >= 0 }" },
5967 /* Perform some basic tests of unary operations on isl_multi_pw_aff objects.
5969 static int test_un_mpa(isl_ctx
*ctx
)
5973 isl_multi_pw_aff
*mpa
, *res
;
5975 for (i
= 0; i
< ARRAY_SIZE(mpa_un_tests
); ++i
) {
5976 mpa
= isl_multi_pw_aff_read_from_str(ctx
, mpa_un_tests
[i
].arg
);
5977 res
= isl_multi_pw_aff_read_from_str(ctx
, mpa_un_tests
[i
].res
);
5978 mpa
= mpa_un_tests
[i
].fn(mpa
);
5979 ok
= isl_multi_pw_aff_plain_is_equal(mpa
, res
);
5980 isl_multi_pw_aff_free(mpa
);
5981 isl_multi_pw_aff_free(res
);
5985 isl_die(ctx
, isl_error_unknown
,
5986 "unexpected result", return -1);
5992 /* Inputs for basic tests of binary operations on isl_multi_pw_aff objects.
5993 * "fn" is the function that is tested.
5994 * "arg1" and "arg2" are string descriptions of the inputs.
5995 * "res" is a string description of the expected result.
5998 __isl_give isl_multi_pw_aff
*(*fn
)(
5999 __isl_take isl_multi_pw_aff
*mpa1
,
6000 __isl_take isl_multi_pw_aff
*mpa2
);
6004 } mpa_bin_tests
[] = {
6005 { &isl_multi_pw_aff_add
, "{ A[] -> [1] }", "{ A[] -> [2] }",
6007 { &isl_multi_pw_aff_add
, "{ A[x] -> [(1 : x >= 5)] }",
6008 "{ A[x] -> [(x : x <= 10)] }",
6009 "{ A[x] -> [(1 + x : 5 <= x <= 10)] }" },
6010 { &isl_multi_pw_aff_add
, "{ A[x] -> [] : x >= 5 }",
6011 "{ A[x] -> [] : x <= 10 }",
6012 "{ A[x] -> [] : 5 <= x <= 10 }" },
6013 { &isl_multi_pw_aff_add
, "{ A[x] -> [] : x >= 5 }",
6014 "[N] -> { A[x] -> [] : x <= N }",
6015 "[N] -> { A[x] -> [] : 5 <= x <= N }" },
6016 { &isl_multi_pw_aff_add
,
6017 "[N] -> { A[x] -> [] : x <= N }",
6018 "{ A[x] -> [] : x >= 5 }",
6019 "[N] -> { A[x] -> [] : 5 <= x <= N }" },
6020 { &isl_multi_pw_aff_range_product
, "{ A[x] -> B[(1 : x >= 5)] }",
6021 "{ A[y] -> C[(2 : y <= 10)] }",
6022 "{ A[x] -> [B[(1 : x >= 5)] -> C[(2 : x <= 10)]] }" },
6023 { &isl_multi_pw_aff_range_product
, "{ A[x] -> B[1] : x >= 5 }",
6024 "{ A[y] -> C[2] : y <= 10 }",
6025 "{ A[x] -> [B[(1 : x >= 5)] -> C[(2 : x <= 10)]] }" },
6026 { &isl_multi_pw_aff_range_product
, "{ A[x] -> B[1] : x >= 5 }",
6027 "[N] -> { A[y] -> C[2] : y <= N }",
6028 "[N] -> { A[x] -> [B[(1 : x >= 5)] -> C[(2 : x <= N)]] }" },
6029 { &isl_multi_pw_aff_range_product
, "[N] -> { A[x] -> B[1] : x >= N }",
6030 "{ A[y] -> C[2] : y <= 10 }",
6031 "[N] -> { A[x] -> [B[(1 : x >= N)] -> C[(2 : x <= 10)]] }" },
6032 { &isl_multi_pw_aff_range_product
, "{ A[] -> B[1] }", "{ A[] -> C[2] }",
6033 "{ A[] -> [B[1] -> C[2]] }" },
6034 { &isl_multi_pw_aff_range_product
, "{ A[] -> B[] }", "{ A[] -> C[] }",
6035 "{ A[] -> [B[] -> C[]] }" },
6036 { &isl_multi_pw_aff_range_product
, "{ A[x] -> B[(1 : x >= 5)] }",
6037 "{ A[y] -> C[] : y <= 10 }",
6038 "{ A[x] -> [B[(1 : x >= 5)] -> C[]] : x <= 10 }" },
6039 { &isl_multi_pw_aff_range_product
, "{ A[y] -> C[] : y <= 10 }",
6040 "{ A[x] -> B[(1 : x >= 5)] }",
6041 "{ A[x] -> [C[] -> B[(1 : x >= 5)]] : x <= 10 }" },
6042 { &isl_multi_pw_aff_product
, "{ A[x] -> B[(1 : x >= 5)] }",
6043 "{ A[y] -> C[(2 : y <= 10)] }",
6044 "{ [A[x] -> A[y]] -> [B[(1 : x >= 5)] -> C[(2 : y <= 10)]] }" },
6045 { &isl_multi_pw_aff_product
, "{ A[x] -> B[(1 : x >= 5)] }",
6046 "{ A[y] -> C[] : y <= 10 }",
6047 "{ [A[x] -> A[y]] -> [B[(1 : x >= 5)] -> C[]] : y <= 10 }" },
6048 { &isl_multi_pw_aff_product
, "{ A[y] -> C[] : y <= 10 }",
6049 "{ A[x] -> B[(1 : x >= 5)] }",
6050 "{ [A[y] -> A[x]] -> [C[] -> B[(1 : x >= 5)]] : y <= 10 }" },
6051 { &isl_multi_pw_aff_product
, "{ A[x] -> B[(1 : x >= 5)] }",
6052 "[N] -> { A[y] -> C[] : y <= N }",
6053 "[N] -> { [A[x] -> A[y]] -> [B[(1 : x >= 5)] -> C[]] : y <= N }" },
6054 { &isl_multi_pw_aff_product
, "[N] -> { A[y] -> C[] : y <= N }",
6055 "{ A[x] -> B[(1 : x >= 5)] }",
6056 "[N] -> { [A[y] -> A[x]] -> [C[] -> B[(1 : x >= 5)]] : y <= N }" },
6057 { &isl_multi_pw_aff_product
, "{ A[x] -> B[] : x >= 5 }",
6058 "{ A[y] -> C[] : y <= 10 }",
6059 "{ [A[x] -> A[y]] -> [B[] -> C[]] : x >= 5 and y <= 10 }" },
6060 { &isl_multi_pw_aff_product
, "{ A[] -> B[1] }", "{ A[] -> C[2] }",
6061 "{ [A[] -> A[]] -> [B[1] -> C[2]] }" },
6062 { &isl_multi_pw_aff_product
, "{ A[] -> B[] }", "{ A[] -> C[] }",
6063 "{ [A[] -> A[]] -> [B[] -> C[]] }" },
6064 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6065 "{ B[i,j] -> C[i + 2j] }", "{ A[a,b] -> B[b,a] }",
6066 "{ A[a,b] -> C[b + 2a] }" },
6067 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6068 "{ B[i,j] -> C[i + 2j] }",
6069 "{ A[a,b] -> B[(b : b > a),(a : b > a)] }",
6070 "{ A[a,b] -> C[(b + 2a : b > a)] }" },
6071 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6072 "{ B[i,j] -> C[(i + 2j : j > 4)] }",
6073 "{ A[a,b] -> B[(b : b > a),(a : b > a)] }",
6074 "{ A[a,b] -> C[(b + 2a : b > a > 4)] }" },
6075 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6076 "{ B[i,j] -> C[] }",
6077 "{ A[a,b] -> B[(b : b > a),(a : b > a)] }",
6078 "{ A[a,b] -> C[] }" },
6079 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6080 "{ B[i,j] -> C[] : i > j }",
6081 "{ A[a,b] -> B[b,a] }",
6082 "{ A[a,b] -> C[] : b > a }" },
6083 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6084 "{ B[i,j] -> C[] : j > 5 }",
6085 "{ A[a,b] -> B[(b : b > a),(a : b > a)] }",
6086 "{ A[a,b] -> C[] : b > a > 5 }" },
6087 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6088 "[N] -> { B[i,j] -> C[] : j > N }",
6089 "{ A[a,b] -> B[(b : b > a),(a : b > a)] }",
6090 "[N] -> { A[a,b] -> C[] : b > a > N }" },
6091 { &isl_multi_pw_aff_pullback_multi_pw_aff
,
6092 "[M,N] -> { B[] -> C[] : N > 5 }",
6093 "[M,N] -> { A[] -> B[] : M > N }",
6094 "[M,N] -> { A[] -> C[] : M > N > 5 }" },
6097 /* Perform some basic tests of binary operations on isl_multi_pw_aff objects.
6099 static int test_bin_mpa(isl_ctx
*ctx
)
6103 isl_multi_pw_aff
*mpa1
, *mpa2
, *res
;
6105 for (i
= 0; i
< ARRAY_SIZE(mpa_bin_tests
); ++i
) {
6106 mpa1
= isl_multi_pw_aff_read_from_str(ctx
,
6107 mpa_bin_tests
[i
].arg1
);
6108 mpa2
= isl_multi_pw_aff_read_from_str(ctx
,
6109 mpa_bin_tests
[i
].arg2
);
6110 res
= isl_multi_pw_aff_read_from_str(ctx
,
6111 mpa_bin_tests
[i
].res
);
6112 mpa1
= mpa_bin_tests
[i
].fn(mpa1
, mpa2
);
6113 ok
= isl_multi_pw_aff_plain_is_equal(mpa1
, res
);
6114 isl_multi_pw_aff_free(mpa1
);
6115 isl_multi_pw_aff_free(res
);
6119 isl_die(ctx
, isl_error_unknown
,
6120 "unexpected result", return -1);
6126 /* Inputs for basic tests of unary operations on
6127 * isl_multi_union_pw_aff objects.
6128 * "fn" is the function that is tested.
6129 * "arg" is a string description of the input.
6130 * "res" is a string description of the expected result.
6133 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6134 __isl_take isl_multi_union_pw_aff
*mupa
);
6137 } mupa_un_tests
[] = {
6138 { &isl_multi_union_pw_aff_factor_range
,
6139 "[B[{ A[] -> [1] }] -> C[{ A[] -> [2] }]]",
6140 "C[{ A[] -> [2] }]" },
6141 { &isl_multi_union_pw_aff_factor_range
,
6142 "[B[] -> C[{ A[] -> [2] }]]",
6143 "C[{ A[] -> [2] }]" },
6144 { &isl_multi_union_pw_aff_factor_range
,
6145 "[B[{ A[] -> [1] }] -> C[]]",
6147 { &isl_multi_union_pw_aff_factor_range
,
6150 { &isl_multi_union_pw_aff_factor_range
,
6151 "([B[] -> C[]] : { A[x] : x >= 0 })",
6152 "(C[] : { A[x] : x >= 0 })" },
6153 { &isl_multi_union_pw_aff_factor_range
,
6154 "[N] -> ([B[] -> C[]] : { A[x] : x <= N })",
6155 "[N] -> (C[] : { A[x] : x <= N })" },
6156 { &isl_multi_union_pw_aff_factor_range
,
6157 "[N] -> ([B[] -> C[]] : { : N >= 0 })",
6158 "[N] -> (C[] : { : N >= 0 })" },
6161 /* Perform some basic tests of unary operations on
6162 * isl_multi_union_pw_aff objects.
6164 static int test_un_mupa(isl_ctx
*ctx
)
6168 isl_multi_union_pw_aff
*mupa
, *res
;
6170 for (i
= 0; i
< ARRAY_SIZE(mupa_un_tests
); ++i
) {
6171 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6172 mupa_un_tests
[i
].arg
);
6173 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6174 mupa_un_tests
[i
].res
);
6175 mupa
= mupa_un_tests
[i
].fn(mupa
);
6176 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa
, res
);
6177 isl_multi_union_pw_aff_free(mupa
);
6178 isl_multi_union_pw_aff_free(res
);
6182 isl_die(ctx
, isl_error_unknown
,
6183 "unexpected result", return -1);
6189 /* Inputs for basic tests of binary operations on
6190 * isl_multi_union_pw_aff objects.
6191 * "fn" is the function that is tested.
6192 * "arg1" and "arg2" are string descriptions of the inputs.
6193 * "res" is a string description of the expected result.
6196 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6197 __isl_take isl_multi_union_pw_aff
*mupa1
,
6198 __isl_take isl_multi_union_pw_aff
*mupa2
);
6202 } mupa_bin_tests
[] = {
6203 { &isl_multi_union_pw_aff_add
, "[{ A[] -> [1] }]", "[{ A[] -> [2] }]",
6204 "[{ A[] -> [3] }]" },
6205 { &isl_multi_union_pw_aff_sub
, "[{ A[] -> [1] }]", "[{ A[] -> [2] }]",
6206 "[{ A[] -> [-1] }]" },
6207 { &isl_multi_union_pw_aff_add
,
6208 "[{ A[] -> [1]; B[] -> [4] }]",
6209 "[{ A[] -> [2]; C[] -> [5] }]",
6210 "[{ A[] -> [3] }]" },
6211 { &isl_multi_union_pw_aff_union_add
,
6212 "[{ A[] -> [1]; B[] -> [4] }]",
6213 "[{ A[] -> [2]; C[] -> [5] }]",
6214 "[{ A[] -> [3]; B[] -> [4]; C[] -> [5] }]" },
6215 { &isl_multi_union_pw_aff_add
, "[{ A[x] -> [(1)] : x >= 5 }]",
6216 "[{ A[x] -> [(x)] : x <= 10 }]",
6217 "[{ A[x] -> [(1 + x)] : 5 <= x <= 10 }]" },
6218 { &isl_multi_union_pw_aff_add
, "([] : { A[x] : x >= 5 })",
6219 "([] : { A[x] : x <= 10 })",
6220 "([] : { A[x] : 5 <= x <= 10 })" },
6221 { &isl_multi_union_pw_aff_add
, "([] : { A[x] : x >= 5 })",
6222 "[N] -> ([] : { A[x] : x <= N })",
6223 "[N] -> ([] : { A[x] : 5 <= x <= N })" },
6224 { &isl_multi_union_pw_aff_add
, "[N] -> ([] : { A[x] : x >= N })",
6225 "([] : { A[x] : x <= 10 })",
6226 "[N] -> ([] : { A[x] : N <= x <= 10 })" },
6227 { &isl_multi_union_pw_aff_union_add
, "[{ A[x] -> [(1)] : x >= 5 }]",
6228 "[{ A[x] -> [(x)] : x <= 10 }]",
6229 "[{ A[x] -> [(1 + x)] : 5 <= x <= 10; "
6230 "A[x] -> [(1)] : x > 10; A[x] -> [(x)] : x < 5 }]" },
6231 { &isl_multi_union_pw_aff_union_add
, "([] : { A[x] : x >= 5 })",
6232 "([] : { A[x] : x <= 10 })",
6233 "([] : { A[x] })" },
6234 { &isl_multi_union_pw_aff_union_add
, "([] : { A[x] : x >= 0 })",
6235 "[N] -> ([] : { A[x] : x >= N })",
6236 "[N] -> ([] : { A[x] : x >= 0 or x >= N })" },
6237 { &isl_multi_union_pw_aff_union_add
,
6238 "[N] -> ([] : { A[] : N >= 0})",
6239 "[N] -> ([] : { A[] : N <= 0})",
6240 "[N] -> ([] : { A[] })" },
6241 { &isl_multi_union_pw_aff_union_add
,
6242 "[N] -> ([] : { A[] })",
6243 "[N] -> ([] : { : })",
6244 "[N] -> ([] : { : })" },
6245 { &isl_multi_union_pw_aff_union_add
,
6246 "[N] -> ([] : { : })",
6247 "[N] -> ([] : { A[] })",
6248 "[N] -> ([] : { : })" },
6249 { &isl_multi_union_pw_aff_union_add
,
6250 "[N] -> ([] : { : N >= 0})",
6251 "[N] -> ([] : { : N <= 0})",
6252 "[N] -> ([] : { : })" },
6253 { &isl_multi_union_pw_aff_range_product
,
6254 "B[{ A[] -> [1] }]",
6255 "C[{ A[] -> [2] }]",
6256 "[B[{ A[] -> [1] }] -> C[{ A[] -> [2] }]]" },
6257 { &isl_multi_union_pw_aff_range_product
,
6258 "(B[] : { A[x] : x >= 5 })",
6259 "(C[] : { A[x] : x <= 10 })",
6260 "([B[] -> C[]] : { A[x] : 5 <= x <= 10 })" },
6261 { &isl_multi_union_pw_aff_range_product
,
6262 "B[{ A[x] -> [x + 1] : x >= 5 }]",
6263 "(C[] : { A[x] : x <= 10 })",
6264 "[B[{ A[x] -> [x + 1] : 5 <= x <= 10 }] -> C[]]" },
6265 { &isl_multi_union_pw_aff_range_product
,
6266 "(C[] : { A[x] : x <= 10 })",
6267 "B[{ A[x] -> [x + 1] : x >= 5 }]",
6268 "[C[] -> B[{ A[x] -> [x + 1] : 5 <= x <= 10 }]]" },
6269 { &isl_multi_union_pw_aff_range_product
,
6270 "B[{ A[x] -> [x + 1] : x >= 5 }]",
6271 "[N] -> (C[] : { A[x] : x <= N })",
6272 "[N] -> [B[{ A[x] -> [x + 1] : 5 <= x <= N }] -> C[]]" },
6273 { &isl_multi_union_pw_aff_range_product
,
6274 "[N] -> (C[] : { A[x] : x <= N })",
6275 "B[{ A[x] -> [x + 1] : x >= 5 }]",
6276 "[N] -> [C[] -> B[{ A[x] -> [x + 1] : 5 <= x <= N }]]" },
6277 { &isl_multi_union_pw_aff_range_product
,
6278 "B[{ A[] -> [1]; D[] -> [3] }]",
6279 "C[{ A[] -> [2] }]",
6280 "[B[{ A[] -> [1]; D[] -> [3] }] -> C[{ A[] -> [2] }]]" },
6281 { &isl_multi_union_pw_aff_range_product
,
6284 "([B[] -> C[]] : { A[x] })" },
6285 { &isl_multi_union_pw_aff_range_product
,
6288 "([B[] -> C[]] : { A[x] })" },
6291 /* Perform some basic tests of binary operations on
6292 * isl_multi_union_pw_aff objects.
6294 static int test_bin_mupa(isl_ctx
*ctx
)
6298 isl_multi_union_pw_aff
*mupa1
, *mupa2
, *res
;
6300 for (i
= 0; i
< ARRAY_SIZE(mupa_bin_tests
); ++i
) {
6301 mupa1
= isl_multi_union_pw_aff_read_from_str(ctx
,
6302 mupa_bin_tests
[i
].arg1
);
6303 mupa2
= isl_multi_union_pw_aff_read_from_str(ctx
,
6304 mupa_bin_tests
[i
].arg2
);
6305 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6306 mupa_bin_tests
[i
].res
);
6307 mupa1
= mupa_bin_tests
[i
].fn(mupa1
, mupa2
);
6308 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa1
, res
);
6309 isl_multi_union_pw_aff_free(mupa1
);
6310 isl_multi_union_pw_aff_free(res
);
6314 isl_die(ctx
, isl_error_unknown
,
6315 "unexpected result", return -1);
6321 /* Inputs for basic tests of binary operations on
6322 * pairs of isl_multi_union_pw_aff and isl_set objects.
6323 * "fn" is the function that is tested.
6324 * "arg1" and "arg2" are string descriptions of the inputs.
6325 * "res" is a string description of the expected result.
6328 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6329 __isl_take isl_multi_union_pw_aff
*mupa
,
6330 __isl_take isl_set
*set
);
6334 } mupa_set_tests
[] = {
6335 { &isl_multi_union_pw_aff_intersect_range
,
6336 "C[{ B[i,j] -> [i + 2j] }]", "{ C[1] }",
6337 "C[{ B[i,j] -> [i + 2j] : i + 2j = 1 }]" },
6338 { &isl_multi_union_pw_aff_intersect_range
,
6339 "C[{ B[i,j] -> [i + 2j] }]", "[N] -> { C[N] }",
6340 "[N] -> C[{ B[i,j] -> [i + 2j] : i + 2j = N }]" },
6341 { &isl_multi_union_pw_aff_intersect_range
,
6342 "[N] -> C[{ B[i,j] -> [i + 2j + N] }]", "{ C[1] }",
6343 "[N] -> C[{ B[i,j] -> [i + 2j + N] : i + 2j + N = 1 }]" },
6344 { &isl_multi_union_pw_aff_intersect_range
,
6345 "C[{ B[i,j] -> [i + 2j] }]", "[N] -> { C[x] : N >= 0 }",
6346 "[N] -> C[{ B[i,j] -> [i + 2j] : N >= 0 }]" },
6347 { &isl_multi_union_pw_aff_intersect_range
,
6348 "C[]", "{ C[] }", "C[]" },
6349 { &isl_multi_union_pw_aff_intersect_range
,
6350 "[N] -> (C[] : { : N >= 0 })",
6352 "[N] -> (C[] : { : N >= 0 })" },
6353 { &isl_multi_union_pw_aff_intersect_range
,
6354 "(C[] : { A[a,b] })",
6356 "(C[] : { A[a,b] })" },
6357 { &isl_multi_union_pw_aff_intersect_range
,
6358 "[N] -> (C[] : { A[a,b] : a,b <= N })",
6360 "[N] -> (C[] : { A[a,b] : a,b <= N })" },
6361 { &isl_multi_union_pw_aff_intersect_range
,
6363 "[N] -> { C[] : N >= 0 }",
6364 "[N] -> (C[] : { : N >= 0 })" },
6365 { &isl_multi_union_pw_aff_intersect_range
,
6366 "(C[] : { A[a,b] })",
6367 "[N] -> { C[] : N >= 0 }",
6368 "[N] -> (C[] : { A[a,b] : N >= 0 })" },
6369 { &isl_multi_union_pw_aff_intersect_range
,
6370 "[N] -> (C[] : { : N >= 0 })",
6371 "[N] -> { C[] : N < 1024 }",
6372 "[N] -> (C[] : { : 0 <= N < 1024 })" },
6373 { &isl_multi_union_pw_aff_intersect_params
,
6374 "C[{ B[i,j] -> [i + 2j] }]", "[N] -> { : N >= 0 }",
6375 "[N] -> C[{ B[i,j] -> [i + 2j] : N >= 0}]" },
6376 { &isl_multi_union_pw_aff_intersect_params
,
6377 "[N] -> C[{ B[i,j] -> [i + 2j] : N <= 256 }]", "[N] -> { : N >= 0 }",
6378 "[N] -> C[{ B[i,j] -> [i + 2j] : 0 <= N <= 256 }]" },
6379 { &isl_multi_union_pw_aff_intersect_params
,
6380 "[N] -> C[{ B[i,j] -> [i + 2j] : N <= 256 }]", "{ : }",
6381 "[N] -> C[{ B[i,j] -> [i + 2j] : N <= 256 }]" },
6382 { &isl_multi_union_pw_aff_intersect_params
,
6383 "C[]", "[N] -> { : N >= 0 }",
6384 "[N] -> (C[] : { : N >= 0 })" },
6385 { &isl_multi_union_pw_aff_intersect_params
,
6386 "(C[] : { A[a,b] })", "[N] -> { : N >= 0 }",
6387 "[N] -> (C[] : { A[a,b] : N >= 0 })" },
6388 { &isl_multi_union_pw_aff_intersect_params
,
6389 "[N] -> (C[] : { A[a,N] })", "{ : }",
6390 "[N] -> (C[] : { A[a,N] })" },
6391 { &isl_multi_union_pw_aff_intersect_params
,
6392 "[N] -> (C[] : { A[a,b] : N <= 256 })", "[N] -> { : N >= 0 }",
6393 "[N] -> (C[] : { A[a,b] : 0 <= N <= 256 })" },
6396 /* Perform some basic tests of binary operations on
6397 * pairs of isl_multi_union_pw_aff and isl_set objects.
6399 static int test_mupa_set(isl_ctx
*ctx
)
6403 isl_multi_union_pw_aff
*mupa
, *res
;
6406 for (i
= 0; i
< ARRAY_SIZE(mupa_set_tests
); ++i
) {
6407 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6408 mupa_set_tests
[i
].arg1
);
6409 set
= isl_set_read_from_str(ctx
, mupa_set_tests
[i
].arg2
);
6410 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6411 mupa_set_tests
[i
].res
);
6412 mupa
= mupa_set_tests
[i
].fn(mupa
, set
);
6413 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa
, res
);
6414 isl_multi_union_pw_aff_free(mupa
);
6415 isl_multi_union_pw_aff_free(res
);
6419 isl_die(ctx
, isl_error_unknown
,
6420 "unexpected result", return -1);
6426 /* Inputs for basic tests of binary operations on
6427 * pairs of isl_multi_union_pw_aff and isl_union_set objects.
6428 * "fn" is the function that is tested.
6429 * "arg1" and "arg2" are string descriptions of the inputs.
6430 * "res" is a string description of the expected result.
6433 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6434 __isl_take isl_multi_union_pw_aff
*mupa
,
6435 __isl_take isl_union_set
*uset
);
6439 } mupa_uset_tests
[] = {
6440 { &isl_multi_union_pw_aff_intersect_domain
,
6441 "C[{ B[i,j] -> [i + 2j] }]", "{ B[i,i] }",
6442 "C[{ B[i,i] -> [3i] }]" },
6443 { &isl_multi_union_pw_aff_intersect_domain
,
6444 "(C[] : { B[i,j] })", "{ B[i,i] }",
6445 "(C[] : { B[i,i] })" },
6446 { &isl_multi_union_pw_aff_intersect_domain
,
6447 "(C[] : { B[i,j] })", "[N] -> { B[N,N] }",
6448 "[N] -> (C[] : { B[N,N] })" },
6449 { &isl_multi_union_pw_aff_intersect_domain
,
6450 "C[]", "{ B[i,i] }",
6451 "(C[] : { B[i,i] })" },
6452 { &isl_multi_union_pw_aff_intersect_domain
,
6453 "[N] -> (C[] : { : N >= 0 })", "{ B[i,i] }",
6454 "[N] -> (C[] : { B[i,i] : N >= 0 })" },
6457 /* Perform some basic tests of binary operations on
6458 * pairs of isl_multi_union_pw_aff and isl_union_set objects.
6460 static int test_mupa_uset(isl_ctx
*ctx
)
6464 isl_multi_union_pw_aff
*mupa
, *res
;
6465 isl_union_set
*uset
;
6467 for (i
= 0; i
< ARRAY_SIZE(mupa_uset_tests
); ++i
) {
6468 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6469 mupa_uset_tests
[i
].arg1
);
6470 uset
= isl_union_set_read_from_str(ctx
,
6471 mupa_uset_tests
[i
].arg2
);
6472 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6473 mupa_uset_tests
[i
].res
);
6474 mupa
= mupa_uset_tests
[i
].fn(mupa
, uset
);
6475 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa
, res
);
6476 isl_multi_union_pw_aff_free(mupa
);
6477 isl_multi_union_pw_aff_free(res
);
6481 isl_die(ctx
, isl_error_unknown
,
6482 "unexpected result", return -1);
6488 /* Inputs for basic tests of binary operations on
6489 * pairs of isl_multi_union_pw_aff and isl_multi_aff objects.
6490 * "fn" is the function that is tested.
6491 * "arg1" and "arg2" are string descriptions of the inputs.
6492 * "res" is a string description of the expected result.
6495 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6496 __isl_take isl_multi_union_pw_aff
*mupa
,
6497 __isl_take isl_multi_aff
*ma
);
6501 } mupa_ma_tests
[] = {
6502 { &isl_multi_union_pw_aff_apply_multi_aff
,
6503 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }, "
6504 "{ A[i,j] -> [j]; B[i,j] -> [i] }]",
6505 "{ C[a,b] -> D[b,a] }",
6506 "D[{ A[i,j] -> [j]; B[i,j] -> [i] }, "
6507 "{ A[i,j] -> [i]; B[i,j] -> [j] }]" },
6508 { &isl_multi_union_pw_aff_apply_multi_aff
,
6509 "C[{ A[i,j] -> [i] : i >= 0; B[i,j] -> [j] }, "
6510 "{ A[i,j] -> [j]; B[i,j] -> [i] }]",
6511 "{ C[a,b] -> D[b,a] }",
6512 "D[{ A[i,j] -> [j] : i >= 0; B[i,j] -> [i] }, "
6513 "{ A[i,j] -> [i] : i >= 0; B[i,j] -> [j] }]" },
6514 { &isl_multi_union_pw_aff_apply_multi_aff
,
6515 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }]",
6516 "[N] -> { C[a] -> D[a + N] }",
6517 "[N] -> D[{ A[i,j] -> [i + N]; B[i,j] -> [j + N] }] " },
6518 { &isl_multi_union_pw_aff_apply_multi_aff
,
6522 { &isl_multi_union_pw_aff_apply_multi_aff
,
6523 "[N] -> (C[] : { : N >= 0 })",
6525 "[N] -> (D[] : { : N >= 0 })" },
6526 { &isl_multi_union_pw_aff_apply_multi_aff
,
6528 "[N] -> { C[] -> D[N] }",
6529 "[N] -> D[{ [N] }]" },
6530 { &isl_multi_union_pw_aff_apply_multi_aff
,
6531 "(C[] : { A[i,j] : i >= j })",
6533 "(D[] : { A[i,j] : i >= j })" },
6534 { &isl_multi_union_pw_aff_apply_multi_aff
,
6535 "[N] -> (C[] : { A[i,j] : N >= 0 })",
6537 "[N] -> (D[] : { A[i,j] : N >= 0 })" },
6538 { &isl_multi_union_pw_aff_apply_multi_aff
,
6539 "(C[] : { A[i,j] : i >= j })",
6540 "[N] -> { C[] -> D[N] }",
6541 "[N] -> (D[{ A[i,j] -> [N] : i >= j }])" },
6544 /* Perform some basic tests of binary operations on
6545 * pairs of isl_multi_union_pw_aff and isl_multi_aff objects.
6547 static int test_mupa_ma(isl_ctx
*ctx
)
6551 isl_multi_union_pw_aff
*mupa
, *res
;
6554 for (i
= 0; i
< ARRAY_SIZE(mupa_ma_tests
); ++i
) {
6555 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6556 mupa_ma_tests
[i
].arg1
);
6557 ma
= isl_multi_aff_read_from_str(ctx
, mupa_ma_tests
[i
].arg2
);
6558 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6559 mupa_ma_tests
[i
].res
);
6560 mupa
= mupa_ma_tests
[i
].fn(mupa
, ma
);
6561 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa
, res
);
6562 isl_multi_union_pw_aff_free(mupa
);
6563 isl_multi_union_pw_aff_free(res
);
6567 isl_die(ctx
, isl_error_unknown
,
6568 "unexpected result", return -1);
6574 /* Inputs for basic tests of binary operations on
6575 * pairs of isl_multi_union_pw_aff and isl_pw_aff objects.
6576 * "fn" is the function that is tested.
6577 * "arg1" and "arg2" are string descriptions of the inputs.
6578 * "res" is a string description of the expected result.
6581 __isl_give isl_union_pw_aff
*(*fn
)(
6582 __isl_take isl_multi_union_pw_aff
*mupa
,
6583 __isl_take isl_pw_aff
*pa
);
6587 } mupa_pa_tests
[] = {
6588 { &isl_multi_union_pw_aff_apply_pw_aff
,
6589 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }]",
6590 "[N] -> { C[a] -> [a + N] }",
6591 "[N] -> { A[i,j] -> [i + N]; B[i,j] -> [j + N] }" },
6592 { &isl_multi_union_pw_aff_apply_pw_aff
,
6593 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }]",
6594 "{ C[a] -> [a] : a >= 0; C[a] -> [-a] : a < 0 }",
6595 "{ A[i,j] -> [i] : i >= 0; A[i,j] -> [-i] : i < 0; "
6596 "B[i,j] -> [j] : j >= 0; B[i,j] -> [-j] : j < 0 }" },
6597 { &isl_multi_union_pw_aff_apply_pw_aff
,
6599 "[N] -> { C[] -> [N] }",
6601 { &isl_multi_union_pw_aff_apply_pw_aff
,
6603 "[N] -> { C[] -> [N] : N >= 0; C[] -> [-N] : N < 0 }",
6604 "[N] -> { [N] : N >= 0; [-N] : N < 0 }" },
6605 { &isl_multi_union_pw_aff_apply_pw_aff
,
6606 "[N] -> (C[] : { : N >= 0 })",
6607 "[N] -> { C[] -> [N] }",
6608 "[N] -> { [N] : N >= 0 }" },
6609 { &isl_multi_union_pw_aff_apply_pw_aff
,
6610 "[N] -> (C[] : { : N >= 0 })",
6611 "[N] -> { C[] -> [N] : N >= 0; C[] -> [-N] : N < 0 }",
6612 "[N] -> { [N] : N >= 0 }" },
6613 { &isl_multi_union_pw_aff_apply_pw_aff
,
6614 "[N] -> (C[] : { : N >= 0 })",
6616 "[N] -> { [0] : N >= 0 }" },
6617 { &isl_multi_union_pw_aff_apply_pw_aff
,
6618 "(C[] : { A[i,j] : i >= j })",
6619 "[N] -> { C[] -> [N] }",
6620 "[N] -> { A[i,j] -> [N] : i >= j }" },
6621 { &isl_multi_union_pw_aff_apply_pw_aff
,
6622 "(C[] : { A[i,j] : i >= j })",
6623 "[N] -> { C[] -> [N] : N >= 0 }",
6624 "[N] -> { A[i,j] -> [N] : i >= j and N >= 0 }" },
6627 /* Perform some basic tests of binary operations on
6628 * pairs of isl_multi_union_pw_aff and isl_pw_aff objects.
6630 static int test_mupa_pa(isl_ctx
*ctx
)
6634 isl_multi_union_pw_aff
*mupa
;
6635 isl_union_pw_aff
*upa
, *res
;
6638 for (i
= 0; i
< ARRAY_SIZE(mupa_pa_tests
); ++i
) {
6639 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6640 mupa_pa_tests
[i
].arg1
);
6641 pa
= isl_pw_aff_read_from_str(ctx
, mupa_pa_tests
[i
].arg2
);
6642 res
= isl_union_pw_aff_read_from_str(ctx
,
6643 mupa_pa_tests
[i
].res
);
6644 upa
= mupa_pa_tests
[i
].fn(mupa
, pa
);
6645 ok
= isl_union_pw_aff_plain_is_equal(upa
, res
);
6646 isl_union_pw_aff_free(upa
);
6647 isl_union_pw_aff_free(res
);
6651 isl_die(ctx
, isl_error_unknown
,
6652 "unexpected result", return -1);
6658 /* Inputs for basic tests of binary operations on
6659 * pairs of isl_multi_union_pw_aff and isl_pw_multi_aff objects.
6660 * "fn" is the function that is tested.
6661 * "arg1" and "arg2" are string descriptions of the inputs.
6662 * "res" is a string description of the expected result.
6665 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6666 __isl_take isl_multi_union_pw_aff
*mupa
,
6667 __isl_take isl_pw_multi_aff
*pma
);
6671 } mupa_pma_tests
[] = {
6672 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6673 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }, "
6674 "{ A[i,j] -> [j]; B[i,j] -> [i] }]",
6675 "{ C[a,b] -> D[b,a] }",
6676 "D[{ A[i,j] -> [j]; B[i,j] -> [i] }, "
6677 "{ A[i,j] -> [i]; B[i,j] -> [j] }]" },
6678 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6679 "C[{ A[i,j] -> [i] : i >= 0; B[i,j] -> [j] }, "
6680 "{ A[i,j] -> [j]; B[i,j] -> [i] }]",
6681 "{ C[a,b] -> D[b,a] }",
6682 "D[{ A[i,j] -> [j] : i >= 0; B[i,j] -> [i] }, "
6683 "{ A[i,j] -> [i] : i >= 0; B[i,j] -> [j] }]" },
6684 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6685 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }]",
6686 "[N] -> { C[a] -> D[a + N] }",
6687 "[N] -> D[{ A[i,j] -> [i + N]; B[i,j] -> [j + N] }]" },
6688 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6689 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }]",
6690 "{ C[a] -> D[a] : a >= 0; C[a] -> D[-a] : a < 0 }",
6691 "D[{ A[i,j] -> [i] : i >= 0; A[i,j] -> [-i] : i < 0; "
6692 "B[i,j] -> [j] : j >= 0; B[i,j] -> [-j] : j < 0 }]" },
6693 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6694 "C[{ A[i,j] -> [i]; B[i,j] -> [j] }, "
6695 "{ A[i,j] -> [j]; B[i,j] -> [i] }]",
6696 "{ C[a,b] -> D[a,b] : a >= b; C[a,b] -> D[b,a] : a < b }",
6697 "D[{ A[i,j] -> [i] : i >= j; A[i,j] -> [j] : i < j; "
6698 "B[i,j] -> [j] : i <= j; B[i,j] -> [i] : i > j }, "
6699 "{ A[i,j] -> [j] : i >= j; A[i,j] -> [i] : i < j; "
6700 "B[i,j] -> [i] : i <= j; B[i,j] -> [j] : i > j }]" },
6701 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6705 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6706 "[N] -> (C[] : { : N >= 0 })",
6708 "[N] -> (D[] : { : N >= 0 })" },
6709 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6711 "[N] -> { C[] -> D[N] }",
6712 "[N] -> D[{ [N] }]" },
6713 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6714 "(C[] : { A[i,j] : i >= j })",
6716 "(D[] : { A[i,j] : i >= j })" },
6717 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6718 "[N] -> (C[] : { A[i,j] : N >= 0 })",
6720 "[N] -> (D[] : { A[i,j] : N >= 0 })" },
6721 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6722 "(C[] : { A[i,j] : i >= j })",
6723 "[N] -> { C[] -> D[N] }",
6724 "[N] -> (D[{ A[i,j] -> [N] : i >= j }])" },
6725 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6727 "[N] -> { C[] -> D[N] : N >= 0; C[] -> D[-N] : N < 0 }",
6728 "[N] -> D[{ [N] : N >= 0; [-N] : N < 0 }]" },
6729 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6730 "[N] -> (C[] : { : N >= 0 })",
6731 "[N] -> { C[] -> D[N] }",
6732 "[N] -> D[{ [N] : N >= 0 }]" },
6733 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6734 "[N] -> (C[] : { : N >= 0 })",
6735 "[N] -> { C[] -> D[N] : N >= 0; C[] -> D[-N] : N < 0 }",
6736 "[N] -> D[{ [N] : N >= 0 }]" },
6737 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6738 "[N] -> (C[] : { : N >= 0 })",
6740 "[N] -> D[{ [0] : N >= 0 }]" },
6741 { &isl_multi_union_pw_aff_apply_pw_multi_aff
,
6742 "(C[] : { A[i,j] : i >= j })",
6743 "[N] -> { C[] -> D[N] : N >= 0 }",
6744 "[N] -> D[{ A[i,j] -> [N] : i >= j and N >= 0 }]" },
6747 /* Perform some basic tests of binary operations on
6748 * pairs of isl_multi_union_pw_aff and isl_pw_multi_aff objects.
6750 static int test_mupa_pma(isl_ctx
*ctx
)
6754 isl_multi_union_pw_aff
*mupa
, *res
;
6755 isl_pw_multi_aff
*pma
;
6757 for (i
= 0; i
< ARRAY_SIZE(mupa_pma_tests
); ++i
) {
6758 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6759 mupa_pma_tests
[i
].arg1
);
6760 pma
= isl_pw_multi_aff_read_from_str(ctx
,
6761 mupa_pma_tests
[i
].arg2
);
6762 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6763 mupa_pma_tests
[i
].res
);
6764 mupa
= mupa_pma_tests
[i
].fn(mupa
, pma
);
6765 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa
, res
);
6766 isl_multi_union_pw_aff_free(mupa
);
6767 isl_multi_union_pw_aff_free(res
);
6771 isl_die(ctx
, isl_error_unknown
,
6772 "unexpected result", return -1);
6778 /* Inputs for basic tests of binary operations on
6779 * pairs of isl_multi_union_pw_aff and isl_union_pw_multi_aff objects.
6780 * "fn" is the function that is tested.
6781 * "arg1" and "arg2" are string descriptions of the inputs.
6782 * "res" is a string description of the expected result.
6785 __isl_give isl_multi_union_pw_aff
*(*fn
)(
6786 __isl_take isl_multi_union_pw_aff
*mupa
,
6787 __isl_take isl_union_pw_multi_aff
*upma
);
6791 } mupa_upma_tests
[] = {
6792 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6793 "C[{ B[i,j] -> [i + 2j] }]", "{ A[a,b] -> B[b,a] }",
6794 "C[{ A[a,b] -> [b + 2a] }]" },
6795 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6796 "C[{ B[i,j] -> [i + 2j] }]",
6797 "{ A[a,b] -> B[b,a] : b > a }",
6798 "C[{ A[a,b] -> [b + 2a] : b > a }]" },
6799 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6800 "C[{ B[i,j] -> [i + 2j] : j > 4 }]",
6801 "{ A[a,b] -> B[b,a] : b > a }",
6802 "C[{ A[a,b] -> [b + 2a] : b > a > 4 }]" },
6803 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6804 "C[{ B[i,j] -> [i + 2j] }]",
6805 "{ A[a,b] -> B[b,a] : a > b; A[a,b] -> B[a,b] : a <= b }",
6806 "C[{ A[a,b] -> [b + 2a] : a > b; A[a,b] -> [a + 2b] : a <= b }]" },
6807 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6808 "(C[] : { B[a,b] })",
6809 "{ A[a,b] -> B[b,a] }",
6810 "(C[] : { A[a,b] })" },
6811 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6812 "(C[] : { B[a,b] })",
6813 "{ B[a,b] -> A[b,a] }",
6815 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6816 "(C[] : { B[a,b] })",
6817 "{ A[a,b] -> B[b,a] : a > b }",
6818 "(C[] : { A[a,b] : a > b })" },
6819 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6820 "(C[] : { B[a,b] : a > b })",
6821 "{ A[a,b] -> B[b,a] }",
6822 "(C[] : { A[a,b] : b > a })" },
6823 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6824 "[N] -> (C[] : { B[a,b] : a > N })",
6825 "{ A[a,b] -> B[b,a] : a > b }",
6826 "[N] -> (C[] : { A[a,b] : a > b > N })" },
6827 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6828 "(C[] : { B[a,b] : a > b })",
6829 "[N] -> { A[a,b] -> B[b,a] : a > N }",
6830 "[N] -> (C[] : { A[a,b] : b > a > N })" },
6831 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6833 "{ A[a,b] -> B[b,a] }",
6835 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6836 "[N] -> (C[] : { : N >= 0 })",
6837 "{ A[a,b] -> B[b,a] }",
6838 "[N] -> (C[] : { : N >= 0 })" },
6839 { &isl_multi_union_pw_aff_pullback_union_pw_multi_aff
,
6841 "[N] -> { A[a,b] -> B[b,a] : N >= 0 }",
6842 "[N] -> (C[] : { : N >= 0 })" },
6845 /* Perform some basic tests of binary operations on
6846 * pairs of isl_multi_union_pw_aff and isl_union_pw_multi_aff objects.
6848 static int test_mupa_upma(isl_ctx
*ctx
)
6852 isl_multi_union_pw_aff
*mupa
, *res
;
6853 isl_union_pw_multi_aff
*upma
;
6855 for (i
= 0; i
< ARRAY_SIZE(mupa_upma_tests
); ++i
) {
6856 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
6857 mupa_upma_tests
[i
].arg1
);
6858 upma
= isl_union_pw_multi_aff_read_from_str(ctx
,
6859 mupa_upma_tests
[i
].arg2
);
6860 res
= isl_multi_union_pw_aff_read_from_str(ctx
,
6861 mupa_upma_tests
[i
].res
);
6862 mupa
= mupa_upma_tests
[i
].fn(mupa
, upma
);
6863 ok
= isl_multi_union_pw_aff_plain_is_equal(mupa
, res
);
6864 isl_multi_union_pw_aff_free(mupa
);
6865 isl_multi_union_pw_aff_free(res
);
6869 isl_die(ctx
, isl_error_unknown
,
6870 "unexpected result", return -1);
6876 /* Check that the input tuple of an isl_aff can be set properly.
6878 static isl_stat
test_aff_set_tuple_id(isl_ctx
*ctx
)
6884 aff
= isl_aff_read_from_str(ctx
, "{ [x] -> [x + 1] }");
6885 id
= isl_id_alloc(ctx
, "A", NULL
);
6886 aff
= isl_aff_set_tuple_id(aff
, isl_dim_in
, id
);
6887 equal
= aff_check_plain_equal(aff
, "{ A[x] -> [x + 1] }");
6890 return isl_stat_error
;
6895 /* Check that affine expressions get normalized on addition/subtraction.
6896 * In particular, check that (final) unused integer divisions get removed
6897 * such that an expression derived from expressions with integer divisions
6898 * is found to be obviously equal to one that is created directly.
6900 static isl_stat
test_aff_normalize(isl_ctx
*ctx
)
6902 isl_aff
*aff
, *aff2
;
6905 aff
= isl_aff_read_from_str(ctx
, "{ [x] -> [x//2] }");
6906 aff2
= isl_aff_read_from_str(ctx
, "{ [x] -> [1 + x//2] }");
6907 aff
= isl_aff_sub(aff2
, aff
);
6908 ok
= aff_check_plain_equal(aff
, "{ [x] -> [1] }");
6914 int test_aff(isl_ctx
*ctx
)
6919 isl_local_space
*ls
;
6924 if (test_upa(ctx
) < 0)
6926 if (test_bin_aff(ctx
) < 0)
6928 if (test_bin_pw_aff(ctx
) < 0)
6930 if (test_upma_test(ctx
) < 0)
6932 if (test_bin_upma(ctx
) < 0)
6934 if (test_bin_upma_fail(ctx
) < 0)
6936 if (test_upma_uset(ctx
) < 0)
6938 if (test_un_mpa(ctx
) < 0)
6940 if (test_bin_mpa(ctx
) < 0)
6942 if (test_un_mupa(ctx
) < 0)
6944 if (test_bin_mupa(ctx
) < 0)
6946 if (test_mupa_set(ctx
) < 0)
6948 if (test_mupa_uset(ctx
) < 0)
6950 if (test_mupa_ma(ctx
) < 0)
6952 if (test_mupa_pa(ctx
) < 0)
6954 if (test_mupa_pma(ctx
) < 0)
6956 if (test_mupa_upma(ctx
) < 0)
6959 space
= isl_space_set_alloc(ctx
, 0, 1);
6960 ls
= isl_local_space_from_space(space
);
6961 aff
= isl_aff_zero_on_domain(ls
);
6963 aff
= isl_aff_add_coefficient_si(aff
, isl_dim_in
, 0, 1);
6964 aff
= isl_aff_scale_down_ui(aff
, 3);
6965 aff
= isl_aff_floor(aff
);
6966 aff
= isl_aff_add_coefficient_si(aff
, isl_dim_in
, 0, 1);
6967 aff
= isl_aff_scale_down_ui(aff
, 2);
6968 aff
= isl_aff_floor(aff
);
6969 aff
= isl_aff_add_coefficient_si(aff
, isl_dim_in
, 0, 1);
6972 set
= isl_set_read_from_str(ctx
, str
);
6973 aff
= isl_aff_gist(aff
, set
);
6975 aff
= isl_aff_add_constant_si(aff
, -16);
6976 zero
= isl_aff_plain_is_zero(aff
);
6982 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
6984 aff
= isl_aff_read_from_str(ctx
, "{ [-1] }");
6985 aff
= isl_aff_scale_down_ui(aff
, 64);
6986 aff
= isl_aff_floor(aff
);
6987 equal
= aff_check_plain_equal(aff
, "{ [-1] }");
6992 if (test_aff_set_tuple_id(ctx
) < 0)
6994 if (test_aff_normalize(ctx
) < 0)
7000 /* Inputs for isl_set_bind tests.
7001 * "set" is the input set.
7002 * "tuple" is the binding tuple.
7003 * "res" is the expected result.
7010 } bind_set_tests
[] = {
7011 { "{ A[M, N] : M mod 2 = 0 and N mod 8 = 3 }",
7013 "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }" },
7014 { "{ B[N, M] : M mod 2 = 0 and N mod 8 = 3 }",
7016 "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }" },
7017 { "[M] -> { C[N] : M mod 2 = 0 and N mod 8 = 3 }",
7019 "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }" },
7020 { "[M] -> { D[x, N] : x mod 2 = 0 and N mod 8 = 3 and M >= 0 }",
7022 "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 and M >= 0 }" },
7025 /* Perform basic isl_set_bind tests.
7027 static isl_stat
test_bind_set(isl_ctx
*ctx
)
7031 for (i
= 0; i
< ARRAY_SIZE(bind_set_tests
); ++i
) {
7034 isl_multi_id
*tuple
;
7037 set
= isl_set_read_from_str(ctx
, bind_set_tests
[i
].set
);
7038 str
= bind_set_tests
[i
].tuple
;
7039 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7040 set
= isl_set_bind(set
, tuple
);
7041 r
= set_check_equal(set
, bind_set_tests
[i
].res
);
7044 return isl_stat_error
;
7050 /* Inputs for isl_map_bind_domain tests.
7051 * "map" is the input map.
7052 * "tuple" is the binding tuple.
7053 * "res" is the expected result.
7059 } bind_map_domain_tests
[] = {
7060 { "{ A[M, N] -> [M + floor(N/2)] }",
7062 "[M, N] -> { [M + floor(N/2)] }" },
7063 { "{ B[N, M] -> [M + floor(N/2)] }",
7065 "[N, M] -> { [M + floor(N/2)] }" },
7066 { "[M] -> { C[N] -> [M + floor(N/2)] }",
7068 "[M, N] -> { [M + floor(N/2)] }" },
7069 { "[M] -> { C[x, N] -> [x + floor(N/2)] }",
7071 "[M, N] -> { [M + floor(N/2)] }" },
7072 { "[M] -> { C[x, N] -> [M + floor(N/2)] }",
7074 "[M, N] -> { [M + floor(N/2)] }" },
7075 { "[A, M] -> { C[N, x] -> [x + floor(N/2)] }",
7077 "[A, N, M] -> { [M + floor(N/2)] }" },
7080 /* Perform basic isl_map_bind_domain tests.
7082 static isl_stat
test_bind_map_domain(isl_ctx
*ctx
)
7086 for (i
= 0; i
< ARRAY_SIZE(bind_map_domain_tests
); ++i
) {
7090 isl_multi_id
*tuple
;
7093 str
= bind_map_domain_tests
[i
].map
;
7094 map
= isl_map_read_from_str(ctx
, str
);
7095 str
= bind_map_domain_tests
[i
].tuple
;
7096 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7097 set
= isl_map_bind_domain(map
, tuple
);
7098 str
= bind_map_domain_tests
[i
].res
;
7099 r
= set_check_equal(set
, str
);
7102 return isl_stat_error
;
7108 /* Inputs for isl_union_map_bind_range tests.
7109 * "map" is the input union map.
7110 * "tuple" is the binding tuple.
7111 * "res" is the expected result.
7117 } bind_umap_range_tests
[] = {
7118 { "{ B[N, M] -> A[M, N] : M mod 2 = 0 and N mod 8 = 3 }",
7120 "[M, N] -> { B[N, M] : M mod 2 = 0 and N mod 8 = 3 }" },
7121 { "{ B[N, M] -> A[M, N] : M mod 2 = 0 and N mod 8 = 3 }",
7124 { "{ A[] -> B[]; C[] -> D[]; E[] -> B[] }",
7129 /* Perform basic isl_union_map_bind_range tests.
7131 static isl_stat
test_bind_umap_range(isl_ctx
*ctx
)
7135 for (i
= 0; i
< ARRAY_SIZE(bind_umap_range_tests
); ++i
) {
7137 isl_union_map
*umap
;
7138 isl_union_set
*uset
;
7139 isl_multi_id
*tuple
;
7142 str
= bind_umap_range_tests
[i
].map
;
7143 umap
= isl_union_map_read_from_str(ctx
, str
);
7144 str
= bind_umap_range_tests
[i
].tuple
;
7145 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7146 uset
= isl_union_map_bind_range(umap
, tuple
);
7147 str
= bind_umap_range_tests
[i
].res
;
7148 r
= uset_check_equal(uset
, str
);
7149 isl_union_set_free(uset
);
7151 return isl_stat_error
;
7157 /* Inputs for isl_pw_multi_aff_bind_domain tests.
7158 * "pma" is the input expression.
7159 * "tuple" is the binding tuple.
7160 * "res" is the expected result.
7166 } bind_pma_domain_tests
[] = {
7167 { "{ A[M, N] -> [M + floor(N/2)] }",
7169 "[M, N] -> { [M + floor(N/2)] }" },
7170 { "{ B[N, M] -> [M + floor(N/2)] }",
7172 "[N, M] -> { [M + floor(N/2)] }" },
7173 { "[M] -> { C[N] -> [M + floor(N/2)] }",
7175 "[M, N] -> { [M + floor(N/2)] }" },
7176 { "[M] -> { C[x, N] -> [x + floor(N/2)] }",
7178 "[M, N] -> { [M + floor(N/2)] }" },
7179 { "[M] -> { C[x, N] -> [M + floor(N/2)] }",
7181 "[M, N] -> { [M + floor(N/2)] }" },
7182 { "[A, M] -> { C[N, x] -> [x + floor(N/2)] }",
7184 "[A, N, M] -> { [M + floor(N/2)] }" },
7187 /* Perform basic isl_pw_multi_aff_bind_domain tests.
7189 static isl_stat
test_bind_pma_domain(isl_ctx
*ctx
)
7193 for (i
= 0; i
< ARRAY_SIZE(bind_pma_domain_tests
); ++i
) {
7195 isl_pw_multi_aff
*pma
;
7196 isl_multi_id
*tuple
;
7199 str
= bind_pma_domain_tests
[i
].pma
;
7200 pma
= isl_pw_multi_aff_read_from_str(ctx
, str
);
7201 str
= bind_pma_domain_tests
[i
].tuple
;
7202 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7203 pma
= isl_pw_multi_aff_bind_domain(pma
, tuple
);
7204 str
= bind_pma_domain_tests
[i
].res
;
7205 r
= pw_multi_aff_check_plain_equal(pma
, str
);
7206 isl_pw_multi_aff_free(pma
);
7208 return isl_stat_error
;
7214 /* Inputs for isl_pw_multi_aff_bind_domain_wrapped_domain tests.
7215 * "pma" is the input expression.
7216 * "tuple" is the binding tuple.
7217 * "res" is the expected result.
7223 } bind_pma_domain_wrapped_tests
[] = {
7224 { "{ [A[M, N] -> B[]] -> [M + floor(N/2)] }",
7226 "[M, N] -> { B[] -> [M + floor(N/2)] }" },
7227 { "{ [B[N, M] -> D[]] -> [M + floor(N/2)] }",
7229 "[N, M] -> { D[] -> [M + floor(N/2)] }" },
7230 { "[M] -> { [C[N] -> B[x]] -> [x + M + floor(N/2)] }",
7232 "[M, N] -> { B[x] -> [x + M + floor(N/2)] }" },
7233 { "[M] -> { [C[x, N] -> B[]] -> [x + floor(N/2)] }",
7235 "[M, N] -> { B[] -> [M + floor(N/2)] }" },
7236 { "[M] -> { [C[x, N] -> B[]] -> [M + floor(N/2)] }",
7238 "[M, N] -> { B[] -> [M + floor(N/2)] }" },
7239 { "[A, M] -> { [C[N, x] -> B[]] -> [x + floor(N/2)] }",
7241 "[A, N, M] -> { B[] -> [M + floor(N/2)] }" },
7244 /* Perform basic isl_pw_multi_aff_bind_domain_wrapped_domain tests.
7246 static isl_stat
test_bind_pma_domain_wrapped(isl_ctx
*ctx
)
7250 for (i
= 0; i
< ARRAY_SIZE(bind_pma_domain_wrapped_tests
); ++i
) {
7252 isl_pw_multi_aff
*pma
;
7253 isl_multi_id
*tuple
;
7256 str
= bind_pma_domain_wrapped_tests
[i
].pma
;
7257 pma
= isl_pw_multi_aff_read_from_str(ctx
, str
);
7258 str
= bind_pma_domain_wrapped_tests
[i
].tuple
;
7259 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7260 pma
= isl_pw_multi_aff_bind_domain_wrapped_domain(pma
, tuple
);
7261 str
= bind_pma_domain_wrapped_tests
[i
].res
;
7262 r
= pw_multi_aff_check_plain_equal(pma
, str
);
7263 isl_pw_multi_aff_free(pma
);
7265 return isl_stat_error
;
7271 /* Inputs for isl_aff_bind_id tests.
7272 * "aff" is the input expression.
7273 * "id" is the binding id.
7274 * "res" is the expected result.
7281 } bind_aff_tests
[] = {
7282 { "{ [4] }", "M", "[M = 4] -> { : }" },
7283 { "{ B[x] -> [floor(x/2)] }", "M", "[M] -> { B[x] : M = floor(x/2) }" },
7284 { "[M] -> { [4] }", "M", "[M = 4] -> { : }" },
7285 { "[M] -> { [floor(M/2)] }", "M", "[M] -> { : floor(M/2) = M }" },
7286 { "{ [NaN] }", "M", "{ : false }" },
7287 { "{ A[x] -> [NaN] }", "M", "{ A[x] : false }" },
7290 /* Perform basic isl_aff_bind_id tests.
7292 static isl_stat
test_bind_aff(isl_ctx
*ctx
)
7296 for (i
= 0; i
< ARRAY_SIZE(bind_aff_tests
); ++i
) {
7302 aff
= isl_aff_read_from_str(ctx
, bind_aff_tests
[i
].aff
);
7303 id
= isl_id_read_from_str(ctx
, bind_aff_tests
[i
].id
);
7304 res
= isl_set_from_basic_set(isl_aff_bind_id(aff
, id
));
7305 r
= set_check_equal(res
, bind_aff_tests
[i
].res
);
7308 return isl_stat_error
;
7314 /* Inputs for isl_pw_aff_bind_id tests.
7315 * "pa" is the input expression.
7316 * "id" is the binding id.
7317 * "res" is the expected result.
7324 } bind_pa_tests
[] = {
7325 { "{ [4] }", "M", "[M = 4] -> { : }" },
7326 { "{ B[x] -> [floor(x/2)] }", "M", "[M] -> { B[x] : M = floor(x/2) }" },
7327 { "[M] -> { [4] }", "M", "[M = 4] -> { : }" },
7328 { "[M] -> { [floor(M/2)] }", "M", "[M] -> { : floor(M/2) = M }" },
7329 { "[M] -> { [M] : M >= 0; [-M] : M < 0 }", "M", "[M] -> { : M >= 0 }" },
7330 { "{ [NaN] }", "M", "{ : false }" },
7331 { "{ A[x] -> [NaN] }", "M", "{ A[x] : false }" },
7334 /* Perform basic isl_pw_aff_bind_id tests.
7336 static isl_stat
test_bind_pa(isl_ctx
*ctx
)
7340 for (i
= 0; i
< ARRAY_SIZE(bind_pa_tests
); ++i
) {
7346 pa
= isl_pw_aff_read_from_str(ctx
, bind_pa_tests
[i
].pa
);
7347 id
= isl_id_read_from_str(ctx
, bind_pa_tests
[i
].id
);
7348 res
= isl_pw_aff_bind_id(pa
, id
);
7349 r
= set_check_equal(res
, bind_pa_tests
[i
].res
);
7352 return isl_stat_error
;
7358 /* Inputs for isl_multi_union_pw_aff_bind tests.
7359 * "mupa" is the input expression.
7360 * "tuple" is the binding tuple.
7361 * "res" is the expected result.
7368 } bind_mupa_tests
[] = {
7369 { "A[{ [4] }, { [5] }]",
7371 "[M = 4, N = 5] -> { : }" },
7372 { "A[{ B[x] -> [floor(x/2)] }, { B[y] -> [y + 5] }]",
7374 "[M, N] -> { B[x] : M = floor(x/2) and N = x + 5 }" },
7375 { "[M] -> A[{ [4] }, { [M + 1] }]",
7377 "[M = 4, N = 5] -> { : }" },
7380 /* Perform basic isl_multi_union_pw_aff_bind tests.
7382 static isl_stat
test_bind_mupa(isl_ctx
*ctx
)
7386 for (i
= 0; i
< ARRAY_SIZE(bind_mupa_tests
); ++i
) {
7388 isl_multi_union_pw_aff
*mupa
;
7390 isl_multi_id
*tuple
;
7393 str
= bind_mupa_tests
[i
].mupa
;
7394 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
7395 str
= bind_mupa_tests
[i
].tuple
;
7396 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7397 res
= isl_multi_union_pw_aff_bind(mupa
, tuple
);
7398 r
= uset_check_equal(res
, bind_mupa_tests
[i
].res
);
7399 isl_union_set_free(res
);
7401 return isl_stat_error
;
7407 /* Perform tests that reinterpret dimensions as parameters.
7409 static int test_bind(isl_ctx
*ctx
)
7411 if (test_bind_set(ctx
) < 0)
7413 if (test_bind_map_domain(ctx
) < 0)
7415 if (test_bind_umap_range(ctx
) < 0)
7417 if (test_bind_pma_domain(ctx
) < 0)
7419 if (test_bind_pma_domain_wrapped(ctx
) < 0)
7421 if (test_bind_aff(ctx
) < 0)
7423 if (test_bind_pa(ctx
) < 0)
7425 if (test_bind_mupa(ctx
) < 0)
7431 /* Inputs for isl_set_unbind_params tests.
7432 * "set" is the input parameter domain.
7433 * "tuple" is the tuple of the constructed set.
7434 * "res" is the expected result.
7440 } unbind_set_tests
[] = {
7441 { "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }",
7443 "{ A[M, N] : M mod 2 = 0 and N mod 8 = 3 }" },
7444 { "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }",
7446 "{ B[N, M] : M mod 2 = 0 and N mod 8 = 3 }" },
7447 { "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }",
7449 "[M] -> { C[N] : M mod 2 = 0 and N mod 8 = 3 }" },
7450 { "[M, N] -> { : M mod 2 = 0 and N mod 8 = 3 }",
7452 "[M] -> { D[x, N] : M mod 2 = 0 and N mod 8 = 3 }" },
7455 /* Perform basic isl_set_unbind_params tests.
7457 static isl_stat
test_unbind_set(isl_ctx
*ctx
)
7461 for (i
= 0; i
< ARRAY_SIZE(unbind_set_tests
); ++i
) {
7464 isl_multi_id
*tuple
;
7467 set
= isl_set_read_from_str(ctx
, unbind_set_tests
[i
].set
);
7468 str
= unbind_set_tests
[i
].tuple
;
7469 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7470 set
= isl_set_unbind_params(set
, tuple
);
7471 r
= set_check_equal(set
, unbind_set_tests
[i
].res
);
7474 return isl_stat_error
;
7480 /* Inputs for isl_aff_unbind_params_insert_domain tests.
7481 * "aff" is the input affine expression defined over a parameter domain.
7482 * "tuple" is the tuple of the domain that gets introduced.
7483 * "res" is the expected result.
7489 } unbind_aff_tests
[] = {
7490 { "[M, N] -> { [M + floor(N/2)] }",
7492 "{ A[M, N] -> [M + floor(N/2)] }" },
7493 { "[M, N] -> { [M + floor(N/2)] }",
7495 "{ B[N, M] -> [M + floor(N/2)] }" },
7496 { "[M, N] -> { [M + floor(N/2)] }",
7498 "[M] -> { C[N] -> [M + floor(N/2)] }" },
7499 { "[M, N] -> { [M + floor(N/2)] }",
7500 "{ D[A, B, C, N, Z] }",
7501 "[M] -> { D[A, B, C, N, Z] -> [M + floor(N/2)] }" },
7504 /* Perform basic isl_aff_unbind_params_insert_domain tests.
7506 static isl_stat
test_unbind_aff(isl_ctx
*ctx
)
7510 for (i
= 0; i
< ARRAY_SIZE(unbind_aff_tests
); ++i
) {
7513 isl_multi_id
*tuple
;
7516 aff
= isl_aff_read_from_str(ctx
, unbind_aff_tests
[i
].aff
);
7517 str
= unbind_aff_tests
[i
].tuple
;
7518 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7519 aff
= isl_aff_unbind_params_insert_domain(aff
, tuple
);
7520 r
= aff_check_plain_equal(aff
, unbind_aff_tests
[i
].res
);
7523 return isl_stat_error
;
7529 /* Inputs for isl_multi_aff_unbind_params_insert_domain tests.
7530 * "ma" is the input multi affine expression defined over a parameter domain.
7531 * "tuple" is the tuple of the domain that gets introduced.
7532 * "res" is the expected result.
7538 } unbind_multi_aff_tests
[] = {
7539 { "[M, N] -> { T[M + floor(N/2)] }",
7541 "{ A[M, N] -> T[M + floor(N/2)] }" },
7542 { "[M, N] -> { [M + floor(N/2)] }",
7544 "{ B[N, M] -> [M + floor(N/2)] }" },
7545 { "[M, N] -> { [M + floor(N/2)] }",
7547 "[M] -> { C[N] -> [M + floor(N/2)] }" },
7548 { "[M, N] -> { [M + floor(N/2)] }",
7549 "{ D[A, B, C, N, Z] }",
7550 "[M] -> { D[A, B, C, N, Z] -> [M + floor(N/2)] }" },
7551 { "[M, N] -> { T[M + floor(N/2), N + floor(M/3)] }",
7553 "{ A[M, N] -> T[M + floor(N/2), N + floor(M/3)] }" },
7556 /* Perform basic isl_multi_aff_unbind_params_insert_domain tests.
7558 static isl_stat
test_unbind_multi_aff(isl_ctx
*ctx
)
7562 for (i
= 0; i
< ARRAY_SIZE(unbind_multi_aff_tests
); ++i
) {
7565 isl_multi_id
*tuple
;
7568 str
= unbind_multi_aff_tests
[i
].ma
;
7569 ma
= isl_multi_aff_read_from_str(ctx
, str
);
7570 str
= unbind_multi_aff_tests
[i
].tuple
;
7571 tuple
= isl_multi_id_read_from_str(ctx
, str
);
7572 ma
= isl_multi_aff_unbind_params_insert_domain(ma
, tuple
);
7573 str
= unbind_multi_aff_tests
[i
].res
;
7574 r
= multi_aff_check_plain_equal(ma
, str
);
7575 isl_multi_aff_free(ma
);
7577 return isl_stat_error
;
7583 /* Perform tests that reinterpret parameters.
7585 static int test_unbind(isl_ctx
*ctx
)
7587 if (test_unbind_set(ctx
) < 0)
7589 if (test_unbind_aff(ctx
) < 0)
7591 if (test_unbind_multi_aff(ctx
) < 0)
7597 /* Check that "pa" consists of a single expression.
7599 static int check_single_piece(isl_ctx
*ctx
, __isl_take isl_pw_aff
*pa
)
7603 n
= isl_pw_aff_n_piece(pa
);
7604 isl_pw_aff_free(pa
);
7609 isl_die(ctx
, isl_error_unknown
, "expecting single expression",
7615 /* Check that the computation below results in a single expression.
7616 * One or two expressions may result depending on which constraint
7617 * ends up being considered as redundant with respect to the other
7618 * constraints after the projection that is performed internally
7619 * by isl_set_dim_min.
7621 static int test_dim_max_1(isl_ctx
*ctx
)
7627 str
= "[n] -> { [a, b] : n >= 0 and 4a >= -4 + n and b >= 0 and "
7628 "-4a <= b <= 3 and b < n - 4a }";
7629 set
= isl_set_read_from_str(ctx
, str
);
7630 pa
= isl_set_dim_min(set
, 0);
7631 return check_single_piece(ctx
, pa
);
7634 /* Check that the computation below results in a single expression.
7635 * The PIP problem corresponding to these constraints has a row
7636 * that causes a split of the solution domain. The solver should
7637 * first pick rows that split off empty parts such that the actual
7638 * solution domain does not get split.
7639 * Note that the description contains some redundant constraints.
7640 * If these constraints get removed first, then the row mentioned
7641 * above does not appear in the PIP problem.
7643 static int test_dim_max_2(isl_ctx
*ctx
)
7649 str
= "[P, N] -> { [a] : a < N and a >= 0 and N > P and a <= P and "
7650 "N > 0 and P >= 0 }";
7651 set
= isl_set_read_from_str(ctx
, str
);
7652 pa
= isl_set_dim_max(set
, 0);
7653 return check_single_piece(ctx
, pa
);
7656 int test_dim_max(isl_ctx
*ctx
)
7660 isl_set
*set1
, *set2
;
7665 if (test_dim_max_1(ctx
) < 0)
7667 if (test_dim_max_2(ctx
) < 0)
7670 str
= "[N] -> { [i] : 0 <= i <= min(N,10) }";
7671 set
= isl_set_read_from_str(ctx
, str
);
7672 pwaff
= isl_set_dim_max(set
, 0);
7673 set1
= isl_set_from_pw_aff(pwaff
);
7674 str
= "[N] -> { [10] : N >= 10; [N] : N <= 9 and N >= 0 }";
7675 set2
= isl_set_read_from_str(ctx
, str
);
7676 equal
= isl_set_is_equal(set1
, set2
);
7682 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7684 str
= "[N] -> { [i] : 0 <= i <= max(2N,N+6) }";
7685 set
= isl_set_read_from_str(ctx
, str
);
7686 pwaff
= isl_set_dim_max(set
, 0);
7687 set1
= isl_set_from_pw_aff(pwaff
);
7688 str
= "[N] -> { [6 + N] : -6 <= N <= 5; [2N] : N >= 6 }";
7689 set2
= isl_set_read_from_str(ctx
, str
);
7690 equal
= isl_set_is_equal(set1
, set2
);
7696 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7698 str
= "[N] -> { [i] : 0 <= i <= 2N or 0 <= i <= N+6 }";
7699 set
= isl_set_read_from_str(ctx
, str
);
7700 pwaff
= isl_set_dim_max(set
, 0);
7701 set1
= isl_set_from_pw_aff(pwaff
);
7702 str
= "[N] -> { [6 + N] : -6 <= N <= 5; [2N] : N >= 6 }";
7703 set2
= isl_set_read_from_str(ctx
, str
);
7704 equal
= isl_set_is_equal(set1
, set2
);
7710 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7712 str
= "[N,M] -> { [i,j] -> [([i/16]), i%16, ([j/16]), j%16] : "
7713 "0 <= i < N and 0 <= j < M }";
7714 map
= isl_map_read_from_str(ctx
, str
);
7715 set
= isl_map_range(map
);
7717 pwaff
= isl_set_dim_max(isl_set_copy(set
), 0);
7718 set1
= isl_set_from_pw_aff(pwaff
);
7719 str
= "[N,M] -> { [([(N-1)/16])] : M,N > 0 }";
7720 set2
= isl_set_read_from_str(ctx
, str
);
7721 equal
= isl_set_is_equal(set1
, set2
);
7725 pwaff
= isl_set_dim_max(isl_set_copy(set
), 3);
7726 set1
= isl_set_from_pw_aff(pwaff
);
7727 str
= "[N,M] -> { [t] : t = min(M-1,15) and M,N > 0 }";
7728 set2
= isl_set_read_from_str(ctx
, str
);
7729 if (equal
>= 0 && equal
)
7730 equal
= isl_set_is_equal(set1
, set2
);
7739 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7741 /* Check that solutions are properly merged. */
7742 str
= "[n] -> { [a, b, c] : c >= -4a - 2b and "
7743 "c <= -1 + n - 4a - 2b and c >= -2b and "
7744 "4a >= -4 + n and c >= 0 }";
7745 set
= isl_set_read_from_str(ctx
, str
);
7746 pwaff
= isl_set_dim_min(set
, 2);
7747 set1
= isl_set_from_pw_aff(pwaff
);
7748 str
= "[n] -> { [(0)] : n >= 1 }";
7749 set2
= isl_set_read_from_str(ctx
, str
);
7750 equal
= isl_set_is_equal(set1
, set2
);
7757 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7759 /* Check that empty solution lie in the right space. */
7760 str
= "[n] -> { [t,a] : 1 = 0 }";
7761 set
= isl_set_read_from_str(ctx
, str
);
7762 pwaff
= isl_set_dim_max(set
, 0);
7763 set1
= isl_set_from_pw_aff(pwaff
);
7764 str
= "[n] -> { [t] : 1 = 0 }";
7765 set2
= isl_set_read_from_str(ctx
, str
);
7766 equal
= isl_set_is_equal(set1
, set2
);
7773 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7778 /* Basic test for isl_pw_multi_aff_product.
7780 * Check that multiple pieces are properly handled.
7782 static int test_product_pma(isl_ctx
*ctx
)
7786 isl_pw_multi_aff
*pma1
, *pma2
;
7788 str
= "{ A[i] -> B[1] : i < 0; A[i] -> B[2] : i >= 0 }";
7789 pma1
= isl_pw_multi_aff_read_from_str(ctx
, str
);
7790 str
= "{ C[] -> D[] }";
7791 pma2
= isl_pw_multi_aff_read_from_str(ctx
, str
);
7792 pma1
= isl_pw_multi_aff_product(pma1
, pma2
);
7793 str
= "{ [A[i] -> C[]] -> [B[(1)] -> D[]] : i < 0;"
7794 "[A[i] -> C[]] -> [B[(2)] -> D[]] : i >= 0 }";
7795 equal
= pw_multi_aff_check_plain_equal(pma1
, str
);
7796 isl_pw_multi_aff_free(pma1
);
7803 int test_product(isl_ctx
*ctx
)
7807 isl_union_set
*uset1
, *uset2
;
7811 set
= isl_set_read_from_str(ctx
, str
);
7812 set
= isl_set_product(set
, isl_set_copy(set
));
7813 ok
= isl_set_is_wrapping(set
);
7818 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7821 uset1
= isl_union_set_read_from_str(ctx
, str
);
7822 uset1
= isl_union_set_product(uset1
, isl_union_set_copy(uset1
));
7823 str
= "{ [[] -> []] }";
7824 uset2
= isl_union_set_read_from_str(ctx
, str
);
7825 ok
= isl_union_set_is_equal(uset1
, uset2
);
7826 isl_union_set_free(uset1
);
7827 isl_union_set_free(uset2
);
7831 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7833 if (test_product_pma(ctx
) < 0)
7839 /* Check that two sets are not considered disjoint just because
7840 * they have a different set of (named) parameters.
7842 static int test_disjoint(isl_ctx
*ctx
)
7845 isl_set
*set
, *set2
;
7848 str
= "[n] -> { [[]->[]] }";
7849 set
= isl_set_read_from_str(ctx
, str
);
7850 str
= "{ [[]->[]] }";
7851 set2
= isl_set_read_from_str(ctx
, str
);
7852 disjoint
= isl_set_is_disjoint(set
, set2
);
7858 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7863 /* Inputs for isl_pw_multi_aff_is_equal tests.
7864 * "f1" and "f2" are the two function that need to be compared.
7865 * "equal" is the expected result.
7871 } pma_equal_tests
[] = {
7872 { 1, "[N] -> { [floor(N/2)] : 0 <= N <= 1 }",
7873 "[N] -> { [0] : 0 <= N <= 1 }" },
7874 { 1, "[N] -> { [floor(N/2)] : 0 <= N <= 2 }",
7875 "[N] -> { [0] : 0 <= N <= 1; [1] : N = 2 }" },
7876 { 0, "[N] -> { [floor(N/2)] : 0 <= N <= 2 }",
7877 "[N] -> { [0] : 0 <= N <= 1 }" },
7878 { 0, "{ [NaN] }", "{ [NaN] }" },
7881 int test_equal(isl_ctx
*ctx
)
7885 isl_set
*set
, *set2
;
7889 set
= isl_set_read_from_str(ctx
, str
);
7891 set2
= isl_set_read_from_str(ctx
, str
);
7892 equal
= isl_set_is_equal(set
, set2
);
7898 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
7900 for (i
= 0; i
< ARRAY_SIZE(pma_equal_tests
); ++i
) {
7901 int expected
= pma_equal_tests
[i
].equal
;
7902 isl_pw_multi_aff
*f1
, *f2
;
7904 f1
= isl_pw_multi_aff_read_from_str(ctx
, pma_equal_tests
[i
].f1
);
7905 f2
= isl_pw_multi_aff_read_from_str(ctx
, pma_equal_tests
[i
].f2
);
7906 equal
= isl_pw_multi_aff_is_equal(f1
, f2
);
7907 isl_pw_multi_aff_free(f1
);
7908 isl_pw_multi_aff_free(f2
);
7911 if (equal
!= expected
)
7912 isl_die(ctx
, isl_error_unknown
,
7913 "unexpected equality result", return -1);
7919 static int test_plain_fixed(isl_ctx
*ctx
, __isl_take isl_map
*map
,
7920 enum isl_dim_type type
, unsigned pos
, int fixed
)
7924 test
= isl_map_plain_is_fixed(map
, type
, pos
, NULL
);
7931 isl_die(ctx
, isl_error_unknown
,
7932 "map not detected as fixed", return -1);
7934 isl_die(ctx
, isl_error_unknown
,
7935 "map detected as fixed", return -1);
7938 int test_fixed(isl_ctx
*ctx
)
7943 str
= "{ [i] -> [i] }";
7944 map
= isl_map_read_from_str(ctx
, str
);
7945 if (test_plain_fixed(ctx
, map
, isl_dim_out
, 0, 0))
7947 str
= "{ [i] -> [1] }";
7948 map
= isl_map_read_from_str(ctx
, str
);
7949 if (test_plain_fixed(ctx
, map
, isl_dim_out
, 0, 1))
7951 str
= "{ S_1[p1] -> [o0] : o0 = -2 and p1 >= 1 and p1 <= 7 }";
7952 map
= isl_map_read_from_str(ctx
, str
);
7953 if (test_plain_fixed(ctx
, map
, isl_dim_out
, 0, 1))
7955 map
= isl_map_read_from_str(ctx
, str
);
7956 map
= isl_map_neg(map
);
7957 if (test_plain_fixed(ctx
, map
, isl_dim_out
, 0, 1))
7963 struct isl_vertices_test_data
{
7966 const char *vertex
[6];
7967 } vertices_tests
[] = {
7968 { "{ A[t, i] : t = 12 and i >= 4 and i <= 12 }",
7969 2, { "{ A[12, 4] }", "{ A[12, 12] }" } },
7970 { "{ A[t, i] : t = 14 and i = 1 }",
7971 1, { "{ A[14, 1] }" } },
7972 { "[n, m] -> { [a, b, c] : b <= a and a <= n and b > 0 and c >= b and "
7973 "c <= m and m <= n and m > 0 }",
7975 "[n, m] -> { [n, m, m] : 0 < m <= n }",
7976 "[n, m] -> { [n, 1, m] : 0 < m <= n }",
7977 "[n, m] -> { [n, 1, 1] : 0 < m <= n }",
7978 "[n, m] -> { [m, m, m] : 0 < m <= n }",
7979 "[n, m] -> { [1, 1, m] : 0 < m <= n }",
7980 "[n, m] -> { [1, 1, 1] : 0 < m <= n }"
7982 /* An input with implicit equality constraints among the parameters. */
7983 { "[N, M] -> { [a, b] : M >= 3 and 9 + 3M <= a <= 29 + 2N + 11M and "
7984 "2b >= M + a and 5 - 2N - M + a <= 2b <= 3 + a and "
7987 "[N, M] -> { [(21), (12)] : M = 3 and N >= 0 }",
7988 "[N, M] -> { [(61 + 2N), (32 + N)] : M = 3 and N >= 0 }",
7993 /* Check that "vertex" corresponds to one of the vertices in data->vertex.
7995 static isl_stat
find_vertex(__isl_take isl_vertex
*vertex
, void *user
)
7997 struct isl_vertices_test_data
*data
= user
;
8000 isl_basic_set
*bset
;
8001 isl_pw_multi_aff
*pma
;
8005 ctx
= isl_vertex_get_ctx(vertex
);
8006 bset
= isl_vertex_get_domain(vertex
);
8007 ma
= isl_vertex_get_expr(vertex
);
8008 pma
= isl_pw_multi_aff_alloc(isl_set_from_basic_set(bset
), ma
);
8010 for (i
= 0; i
< data
->n
; ++i
) {
8011 isl_pw_multi_aff
*pma_i
;
8013 pma_i
= isl_pw_multi_aff_read_from_str(ctx
, data
->vertex
[i
]);
8014 equal
= isl_pw_multi_aff_plain_is_equal(pma
, pma_i
);
8015 isl_pw_multi_aff_free(pma_i
);
8017 if (equal
< 0 || equal
)
8021 isl_pw_multi_aff_free(pma
);
8022 isl_vertex_free(vertex
);
8025 return isl_stat_error
;
8027 return equal
? isl_stat_ok
: isl_stat_error
;
8030 int test_vertices(isl_ctx
*ctx
)
8034 for (i
= 0; i
< ARRAY_SIZE(vertices_tests
); ++i
) {
8035 isl_basic_set
*bset
;
8036 isl_vertices
*vertices
;
8040 bset
= isl_basic_set_read_from_str(ctx
, vertices_tests
[i
].set
);
8041 vertices
= isl_basic_set_compute_vertices(bset
);
8042 n
= isl_vertices_get_n_vertices(vertices
);
8043 if (vertices_tests
[i
].n
!= n
)
8045 if (isl_vertices_foreach_vertex(vertices
, &find_vertex
,
8046 &vertices_tests
[i
]) < 0)
8048 isl_vertices_free(vertices
);
8049 isl_basic_set_free(bset
);
8054 isl_die(ctx
, isl_error_unknown
, "unexpected vertices",
8061 /* Inputs for basic tests of unary operations on isl_union_map.
8062 * "fn" is the function that is being tested.
8063 * "arg" is a string description of the input.
8064 * "res" is a string description of the expected result.
8067 __isl_give isl_union_map
*(*fn
)(__isl_take isl_union_map
*umap
);
8070 } umap_un_tests
[] = {
8071 { &isl_union_map_range_reverse
,
8072 "{ A[] -> [B[] -> C[]]; A[] -> B[]; A[0] -> N[B[1] -> B[2]] }",
8073 "{ A[] -> [C[] -> B[]]; A[0] -> N[B[2] -> B[1]] }" },
8074 { &isl_union_map_range_reverse
,
8075 "{ A[] -> N[B[] -> C[]] }",
8076 "{ A[] -> [C[] -> B[]] }" },
8077 { &isl_union_map_range_reverse
,
8078 "{ A[] -> N[B[x] -> B[y]] }",
8079 "{ A[] -> N[B[*] -> B[*]] }" },
8082 /* Perform basic tests of unary operations on isl_union_map.
8084 static isl_stat
test_un_union_map(isl_ctx
*ctx
)
8088 for (i
= 0; i
< ARRAY_SIZE(umap_un_tests
); ++i
) {
8090 isl_union_map
*umap
, *res
;
8093 str
= umap_un_tests
[i
].arg
;
8094 umap
= isl_union_map_read_from_str(ctx
, str
);
8095 str
= umap_un_tests
[i
].res
;
8096 res
= isl_union_map_read_from_str(ctx
, str
);
8097 umap
= umap_un_tests
[i
].fn(umap
);
8098 equal
= isl_union_map_is_equal(umap
, res
);
8099 isl_union_map_free(umap
);
8100 isl_union_map_free(res
);
8102 return isl_stat_error
;
8104 isl_die(ctx
, isl_error_unknown
,
8105 "unexpected result", return isl_stat_error
);
8111 /* Inputs for basic tests of binary operations on isl_union_map.
8112 * "fn" is the function that is being tested.
8113 * "arg1" and "arg2" are string descriptions of the inputs.
8114 * "res" is a string description of the expected result.
8117 __isl_give isl_union_map
*(*fn
)(__isl_take isl_union_map
*umap1
,
8118 __isl_take isl_union_map
*umap2
);
8122 } umap_bin_tests
[] = {
8123 { &isl_union_map_intersect
,
8124 "[n] -> { A[i] -> [] : 0 <= i <= n; B[] -> [] }",
8125 "[m] -> { A[i] -> [] : 0 <= i <= m; C[] -> [] }",
8126 "[m, n] -> { A[i] -> [] : 0 <= i <= n and i <= m }" },
8127 { &isl_union_map_intersect_domain_factor_domain
,
8128 "{ [A[i] -> B[i + 1]] -> C[i + 2] }",
8129 "[N] -> { B[i] -> C[N] }",
8131 { &isl_union_map_intersect_domain_factor_domain
,
8132 "{ [A[i] -> B[i + 1]] -> C[i + 2] }",
8133 "[N] -> { A[i] -> C[N] }",
8134 "[N] -> { [A[N - 2] -> B[N - 1]] -> C[N] }" },
8135 { &isl_union_map_intersect_domain_factor_domain
,
8136 "{ T[A[i] -> B[i + 1]] -> C[i + 2] }",
8137 "[N] -> { A[i] -> C[N] }",
8138 "[N] -> { T[A[N - 2] -> B[N - 1]] -> C[N] }" },
8139 { &isl_union_map_intersect_domain_factor_range
,
8140 "{ [A[i] -> B[i + 1]] -> C[i + 2] }",
8141 "[N] -> { B[i] -> C[N] }",
8142 "[N] -> { [A[N - 2] -> B[N - 1]] -> C[N] }" },
8143 { &isl_union_map_intersect_domain_factor_range
,
8144 "{ T[A[i] -> B[i + 1]] -> C[i + 2] }",
8145 "[N] -> { B[i] -> C[N] }",
8146 "[N] -> { T[A[N - 2] -> B[N - 1]] -> C[N] }" },
8147 { &isl_union_map_intersect_domain_factor_range
,
8148 "{ [A[i] -> B[i + 1]] -> C[i + 2] }",
8149 "[N] -> { A[i] -> C[N] }",
8151 { &isl_union_map_intersect_range_factor_domain
,
8152 "{ A[i] -> [B[i + 1] -> C[i + 2]] }",
8153 "[N] -> { A[i] -> B[N] }",
8154 "[N] -> { A[N - 1] -> [B[N] -> C[N + 1]] }" },
8155 { &isl_union_map_intersect_range_factor_domain
,
8156 "{ A[i] -> T[B[i + 1] -> C[i + 2]] }",
8157 "[N] -> { A[i] -> B[N] }",
8158 "[N] -> { A[N - 1] -> T[B[N] -> C[N + 1]] }" },
8159 { &isl_union_map_intersect_range_factor_domain
,
8160 "{ A[i] -> [B[i + 1] -> C[i + 2]] }",
8161 "[N] -> { A[i] -> C[N] }",
8163 { &isl_union_map_intersect_range_factor_range
,
8164 "{ A[i] -> [B[i + 1] -> C[i + 2]] }",
8165 "[N] -> { A[i] -> C[N] }",
8166 "[N] -> { A[N - 2] -> [B[N - 1] -> C[N]] }" },
8167 { &isl_union_map_intersect_range_factor_range
,
8168 "{ A[i] -> T[B[i + 1] -> C[i + 2]] }",
8169 "[N] -> { A[i] -> C[N] }",
8170 "[N] -> { A[N - 2] -> T[B[N - 1] -> C[N]] }" },
8171 { &isl_union_map_intersect_range_factor_range
,
8172 "{ A[i] -> [B[i + 1] -> C[i + 2]] }",
8173 "[N] -> { A[i] -> B[N] }",
8177 /* Perform basic tests of binary operations on isl_union_map.
8179 static isl_stat
test_bin_union_map(isl_ctx
*ctx
)
8183 for (i
= 0; i
< ARRAY_SIZE(umap_bin_tests
); ++i
) {
8185 isl_union_map
*umap1
, *umap2
, *res
;
8188 str
= umap_bin_tests
[i
].arg1
;
8189 umap1
= isl_union_map_read_from_str(ctx
, str
);
8190 str
= umap_bin_tests
[i
].arg2
;
8191 umap2
= isl_union_map_read_from_str(ctx
, str
);
8192 str
= umap_bin_tests
[i
].res
;
8193 res
= isl_union_map_read_from_str(ctx
, str
);
8194 umap1
= umap_bin_tests
[i
].fn(umap1
, umap2
);
8195 equal
= isl_union_map_is_equal(umap1
, res
);
8196 isl_union_map_free(umap1
);
8197 isl_union_map_free(res
);
8199 return isl_stat_error
;
8201 isl_die(ctx
, isl_error_unknown
,
8202 "unexpected result", return isl_stat_error
);
8208 /* Check that isl_union_set_contains finds space independently
8209 * of the parameters.
8211 static isl_stat
test_union_set_contains(isl_ctx
*ctx
)
8217 isl_union_set
*uset
;
8219 str
= "[N] -> { A[0:N]; B[*,*] }";
8220 uset
= isl_union_set_read_from_str(ctx
, str
);
8221 space
= isl_space_unit(ctx
);
8222 id
= isl_id_alloc(ctx
, "A", NULL
);
8223 space
= isl_space_add_named_tuple_id_ui(space
, id
, 1);
8224 ok
= isl_union_set_contains(uset
, space
);
8225 isl_space_free(space
);
8226 isl_union_set_free(uset
);
8229 return isl_stat_error
;
8231 isl_die(ctx
, isl_error_unknown
,
8232 "unexpected result", return isl_stat_error
);
8237 /* Perform basic tests of operations on isl_union_map or isl_union_set.
8239 static int test_union_map(isl_ctx
*ctx
)
8241 if (test_un_union_map(ctx
) < 0)
8243 if (test_bin_union_map(ctx
) < 0)
8245 if (test_union_set_contains(ctx
) < 0)
8251 #define BASE union_pw_qpolynomial
8252 #include "isl_test_plain_equal_templ.c"
8254 /* Check that the result of applying "fn" to "a" and "b"
8255 * in (obviously) equal to "res".
8257 static isl_stat
test_union_pw_op(isl_ctx
*ctx
, const char *a
, const char *b
,
8258 __isl_give isl_union_pw_qpolynomial
*(*fn
)(
8259 __isl_take isl_union_pw_qpolynomial
*upwqp1
,
8260 __isl_take isl_union_pw_qpolynomial
*upwqp2
),
8264 isl_union_pw_qpolynomial
*upwqp1
, *upwqp2
;
8266 upwqp1
= isl_union_pw_qpolynomial_read_from_str(ctx
, a
);
8267 upwqp2
= isl_union_pw_qpolynomial_read_from_str(ctx
, b
);
8268 upwqp1
= fn(upwqp1
, upwqp2
);
8269 r
= union_pw_qpolynomial_check_plain_equal(upwqp1
, res
);
8270 isl_union_pw_qpolynomial_free(upwqp1
);
8275 int test_union_pw(isl_ctx
*ctx
)
8279 isl_union_set
*uset
;
8280 isl_union_pw_qpolynomial
*upwqp1
, *upwqp2
;
8283 str
= "{ [x] -> x^2 }";
8284 upwqp1
= isl_union_pw_qpolynomial_read_from_str(ctx
, str
);
8285 upwqp2
= isl_union_pw_qpolynomial_copy(upwqp1
);
8286 uset
= isl_union_pw_qpolynomial_domain(upwqp1
);
8287 upwqp1
= isl_union_pw_qpolynomial_copy(upwqp2
);
8288 upwqp1
= isl_union_pw_qpolynomial_intersect_domain(upwqp1
, uset
);
8289 equal
= isl_union_pw_qpolynomial_plain_is_equal(upwqp1
, upwqp2
);
8290 isl_union_pw_qpolynomial_free(upwqp1
);
8291 isl_union_pw_qpolynomial_free(upwqp2
);
8295 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
8297 a
= "{ A[x] -> x^2 : x >= 0; B[x] -> x }";
8298 b
= "{ A[x] -> x }";
8299 str
= "{ A[x] -> x^2 + x : x >= 0; A[x] -> x : x < 0; B[x] -> x }";
8300 if (test_union_pw_op(ctx
, a
, b
, &isl_union_pw_qpolynomial_add
, str
) < 0)
8302 str
= "{ A[x] -> x^2 - x : x >= 0; A[x] -> -x : x < 0; B[x] -> x }";
8303 if (test_union_pw_op(ctx
, a
, b
, &isl_union_pw_qpolynomial_sub
, str
) < 0)
8306 str
= "{ A[x] -> 0 }";
8307 a
= "{ A[x] -> 1 }";
8308 b
= "{ A[x] -> -1 }";
8309 if (test_union_pw_op(ctx
, a
, b
, &isl_union_pw_qpolynomial_add
, str
) < 0)
8311 a
= "{ A[x] -> 1 }";
8312 b
= "{ A[x] -> 1 }";
8313 if (test_union_pw_op(ctx
, a
, b
, &isl_union_pw_qpolynomial_sub
, str
) < 0)
8319 /* Inputs for basic tests of functions that select
8320 * subparts of the domain of an isl_multi_union_pw_aff.
8321 * "fn" is the function that is tested.
8322 * "arg" is a string description of the input.
8323 * "res" is a string description of the expected result.
8326 __isl_give isl_union_set
*(*fn
)(
8327 __isl_take isl_multi_union_pw_aff
*mupa
);
8330 } un_locus_tests
[] = {
8331 { &isl_multi_union_pw_aff_zero_union_set
,
8332 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }]",
8333 "{ A[0,j]; B[0,j] }" },
8334 { &isl_multi_union_pw_aff_zero_union_set
,
8335 "F[{ A[i,j] -> [i-j]; B[i,j] -> [i-j] : i >= 0 }]",
8336 "{ A[i,i]; B[i,i] : i >= 0 }" },
8337 { &isl_multi_union_pw_aff_zero_union_set
,
8338 "(F[] : { A[i,j]; B[i,i] : i >= 0 })",
8339 "{ A[i,j]; B[i,i] : i >= 0 }" },
8342 /* Perform some basic tests of functions that select
8343 * subparts of the domain of an isl_multi_union_pw_aff.
8345 static int test_un_locus(isl_ctx
*ctx
)
8349 isl_union_set
*uset
, *res
;
8350 isl_multi_union_pw_aff
*mupa
;
8352 for (i
= 0; i
< ARRAY_SIZE(un_locus_tests
); ++i
) {
8353 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
8354 un_locus_tests
[i
].arg
);
8355 res
= isl_union_set_read_from_str(ctx
, un_locus_tests
[i
].res
);
8356 uset
= un_locus_tests
[i
].fn(mupa
);
8357 ok
= isl_union_set_is_equal(uset
, res
);
8358 isl_union_set_free(uset
);
8359 isl_union_set_free(res
);
8363 isl_die(ctx
, isl_error_unknown
,
8364 "unexpected result", return -1);
8370 /* Inputs for basic tests of functions that select
8371 * subparts of an isl_union_map based on a relation
8372 * specified by an isl_multi_union_pw_aff.
8373 * "fn" is the function that is tested.
8374 * "arg1" and "arg2" are string descriptions of the inputs.
8375 * "res" is a string description of the expected result.
8378 __isl_give isl_union_map
*(*fn
)(
8379 __isl_take isl_union_map
*umap
,
8380 __isl_take isl_multi_union_pw_aff
*mupa
);
8384 } bin_locus_tests
[] = {
8385 { &isl_union_map_eq_at_multi_union_pw_aff
,
8386 "{ A[i,j] -> B[i',j'] }",
8387 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }]",
8388 "{ A[i,j] -> B[i,j'] }" },
8389 { &isl_union_map_eq_at_multi_union_pw_aff
,
8390 "{ A[i,j] -> B[i',j'] }",
8391 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }, "
8392 "{ A[i,j] -> [j]; B[i,j] -> [j] }]",
8393 "{ A[i,j] -> B[i,j] }" },
8394 { &isl_union_map_eq_at_multi_union_pw_aff
,
8395 "{ A[i,j] -> B[i',j']; A[i,j] -> C[i',j'] }",
8396 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }]",
8397 "{ A[i,j] -> B[i,j'] }" },
8398 { &isl_union_map_eq_at_multi_union_pw_aff
,
8399 "{ A[i,j] -> B[i',j']; A[i,j] -> C[i',j'] }",
8400 "F[{ A[i,j] -> [i]; B[i,j] -> [i]; C[i,j] -> [0] }]",
8401 "{ A[i,j] -> B[i,j']; A[0,j] -> C[i',j'] }" },
8402 { &isl_union_map_eq_at_multi_union_pw_aff
,
8403 "{ A[i,j] -> B[i',j'] }",
8404 "F[{ A[i,j] -> [i] : i > j; B[i,j] -> [i] }]",
8405 "{ A[i,j] -> B[i,j'] : i > j }" },
8406 { &isl_union_map_lex_le_at_multi_union_pw_aff
,
8407 "{ A[i,j] -> B[i',j'] }",
8408 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }, "
8409 "{ A[i,j] -> [j]; B[i,j] -> [j] }]",
8410 "{ A[i,j] -> B[i',j'] : i,j <<= i',j' }" },
8411 { &isl_union_map_lex_lt_at_multi_union_pw_aff
,
8412 "{ A[i,j] -> B[i',j'] }",
8413 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }, "
8414 "{ A[i,j] -> [j]; B[i,j] -> [j] }]",
8415 "{ A[i,j] -> B[i',j'] : i,j << i',j' }" },
8416 { &isl_union_map_lex_ge_at_multi_union_pw_aff
,
8417 "{ A[i,j] -> B[i',j'] }",
8418 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }, "
8419 "{ A[i,j] -> [j]; B[i,j] -> [j] }]",
8420 "{ A[i,j] -> B[i',j'] : i,j >>= i',j' }" },
8421 { &isl_union_map_lex_gt_at_multi_union_pw_aff
,
8422 "{ A[i,j] -> B[i',j'] }",
8423 "F[{ A[i,j] -> [i]; B[i,j] -> [i] }, "
8424 "{ A[i,j] -> [j]; B[i,j] -> [j] }]",
8425 "{ A[i,j] -> B[i',j'] : i,j >> i',j' }" },
8426 { &isl_union_map_eq_at_multi_union_pw_aff
,
8427 "{ A[i,j] -> B[i',j']; A[i,j] -> C[i',j'] }",
8428 "(F[] : { A[i,j]; B[i,j] })",
8429 "{ A[i,j] -> B[i',j'] }" },
8430 { &isl_union_map_eq_at_multi_union_pw_aff
,
8431 "{ A[i,j] -> B[i',j'] }",
8432 "(F[] : { A[i,j] : i > j; B[i,j] : i < j })",
8433 "{ A[i,j] -> B[i',j'] : i > j and i' < j' }" },
8434 { &isl_union_map_eq_at_multi_union_pw_aff
,
8435 "[N] -> { A[i,j] -> B[i',j'] : i,i' <= N }",
8436 "(F[] : { A[i,j] : i > j; B[i,j] : i < j })",
8437 "[N] -> { A[i,j] -> B[i',j'] : i > j and i' < j' and i,i' <= N }" },
8438 { &isl_union_map_eq_at_multi_union_pw_aff
,
8439 "{ A[i,j] -> B[i',j'] }",
8440 "[N] -> (F[] : { A[i,j] : i < N; B[i,j] : i < N })",
8441 "[N] -> { A[i,j] -> B[i',j'] : i,i' < N }" },
8442 { &isl_union_map_eq_at_multi_union_pw_aff
,
8443 "{ A[i,j] -> B[i',j'] }",
8444 "[N] -> (F[] : { : N >= 0 })",
8445 "[N] -> { A[i,j] -> B[i',j'] : N >= 0 }" },
8448 /* Perform some basic tests of functions that select
8449 * subparts of an isl_union_map based on a relation
8450 * specified by an isl_multi_union_pw_aff.
8452 static int test_bin_locus(isl_ctx
*ctx
)
8456 isl_union_map
*umap
, *res
;
8457 isl_multi_union_pw_aff
*mupa
;
8459 for (i
= 0; i
< ARRAY_SIZE(bin_locus_tests
); ++i
) {
8460 umap
= isl_union_map_read_from_str(ctx
,
8461 bin_locus_tests
[i
].arg1
);
8462 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
,
8463 bin_locus_tests
[i
].arg2
);
8464 res
= isl_union_map_read_from_str(ctx
, bin_locus_tests
[i
].res
);
8465 umap
= bin_locus_tests
[i
].fn(umap
, mupa
);
8466 ok
= isl_union_map_is_equal(umap
, res
);
8467 isl_union_map_free(umap
);
8468 isl_union_map_free(res
);
8472 isl_die(ctx
, isl_error_unknown
,
8473 "unexpected result", return -1);
8479 /* Inputs for basic tests of functions that determine
8480 * the part of the domain where two isl_multi_aff objects
8481 * related to each other in a specific way.
8482 * "fn" is the function that is being tested.
8483 * "arg1" and "arg2" are string descriptions of the inputs.
8484 * "res" is a string description of the expected result.
8487 __isl_give isl_set
*(*fn
)(__isl_take isl_multi_aff
*ma1
,
8488 __isl_take isl_multi_aff
*ma2
);
8492 } bin_locus_ma_tests
[] = {
8493 { &isl_multi_aff_lex_le_set
, "{ [] }", "{ [] }", "{ : }" },
8494 { &isl_multi_aff_lex_lt_set
, "{ [] }", "{ [] }", "{ : false }" },
8495 { &isl_multi_aff_lex_le_set
,
8496 "{ A[i] -> [i] }", "{ A[i] -> [0] }",
8497 "{ A[i] : i <= 0 }" },
8498 { &isl_multi_aff_lex_lt_set
,
8499 "{ A[i] -> [i] }", "{ A[i] -> [0] }",
8500 "{ A[i] : i < 0 }" },
8501 { &isl_multi_aff_lex_le_set
,
8502 "{ A[i] -> [i, i] }", "{ A[i] -> [0, 0] }",
8503 "{ A[i] : i <= 0 }" },
8504 { &isl_multi_aff_lex_le_set
,
8505 "{ A[i] -> [i, 0] }", "{ A[i] -> [0, 0] }",
8506 "{ A[i] : i <= 0 }" },
8507 { &isl_multi_aff_lex_le_set
,
8508 "{ A[i] -> [i, 1] }", "{ A[i] -> [0, 0] }",
8509 "{ A[i] : i < 0 }" },
8512 /* Perform some basic tests of functions that determine
8513 * the part of the domain where two isl_multi_aff objects
8514 * related to each other in a specific way.
8516 static isl_stat
test_bin_locus_ma(isl_ctx
*ctx
)
8520 for (i
= 0; i
< ARRAY_SIZE(bin_locus_ma_tests
); ++i
) {
8523 isl_multi_aff
*ma1
, *ma2
;
8526 str
= bin_locus_ma_tests
[i
].arg1
;
8527 ma1
= isl_multi_aff_read_from_str(ctx
, str
);
8528 str
= bin_locus_ma_tests
[i
].arg2
;
8529 ma2
= isl_multi_aff_read_from_str(ctx
, str
);
8530 res
= isl_set_read_from_str(ctx
, bin_locus_ma_tests
[i
].res
);
8531 set
= bin_locus_ma_tests
[i
].fn(ma1
, ma2
);
8532 ok
= isl_set_is_equal(set
, res
);
8536 return isl_stat_error
;
8538 isl_die(ctx
, isl_error_unknown
,
8539 "unexpected result", return isl_stat_error
);
8545 /* Perform basic locus tests.
8547 static int test_locus(isl_ctx
*ctx
)
8549 if (test_un_locus(ctx
) < 0)
8551 if (test_bin_locus(ctx
) < 0)
8553 if (test_bin_locus_ma(ctx
) < 0)
8558 /* Test that isl_union_pw_qpolynomial_eval picks up the function
8559 * defined over the correct domain space.
8561 static int test_eval_1(isl_ctx
*ctx
)
8566 isl_union_pw_qpolynomial
*upwqp
;
8570 str
= "{ A[x] -> x^2; B[x] -> -x^2 }";
8571 upwqp
= isl_union_pw_qpolynomial_read_from_str(ctx
, str
);
8573 set
= isl_set_read_from_str(ctx
, str
);
8574 pnt
= isl_set_sample_point(set
);
8575 v
= isl_union_pw_qpolynomial_eval(upwqp
, pnt
);
8576 cmp
= isl_val_cmp_si(v
, 36);
8582 isl_die(ctx
, isl_error_unknown
, "unexpected value", return -1);
8587 /* Check that isl_qpolynomial_eval handles getting called on a void point.
8589 static int test_eval_2(isl_ctx
*ctx
)
8594 isl_qpolynomial
*qp
;
8598 str
= "{ A[x] -> [x] }";
8599 qp
= isl_qpolynomial_from_aff(isl_aff_read_from_str(ctx
, str
));
8600 str
= "{ A[x] : false }";
8601 set
= isl_set_read_from_str(ctx
, str
);
8602 pnt
= isl_set_sample_point(set
);
8603 v
= isl_qpolynomial_eval(qp
, pnt
);
8604 ok
= isl_val_is_nan(v
);
8610 isl_die(ctx
, isl_error_unknown
, "expecting NaN", return -1);
8615 /* Check that a polynomial (without local variables) can be evaluated
8616 * in a rational point.
8618 static isl_stat
test_eval_3(isl_ctx
*ctx
)
8620 isl_pw_qpolynomial
*pwqp
;
8625 pwqp
= isl_pw_qpolynomial_read_from_str(ctx
, "{ [x] -> x^2 }");
8626 pnt
= isl_point_zero(isl_pw_qpolynomial_get_domain_space(pwqp
));
8627 v
= isl_val_read_from_str(ctx
, "1/2");
8628 pnt
= isl_point_set_coordinate_val(pnt
, isl_dim_set
, 0, v
);
8629 v
= isl_pw_qpolynomial_eval(pwqp
, pnt
);
8630 r
= val_check_equal(v
, "1/4");
8636 /* Inputs for isl_pw_aff_eval test.
8637 * "f" is the affine function.
8638 * "p" is the point where the function should be evaluated.
8639 * "res" is the expected result.
8645 } aff_eval_tests
[] = {
8646 { "{ [i] -> [2 * i] }", "{ [4] }", "8" },
8647 { "{ [i] -> [2 * i] }", "{ [x] : false }", "NaN" },
8648 { "{ [i] -> [i + floor(i/2) + floor(i/3)] }", "{ [0] }", "0" },
8649 { "{ [i] -> [i + floor(i/2) + floor(i/3)] }", "{ [1] }", "1" },
8650 { "{ [i] -> [i + floor(i/2) + floor(i/3)] }", "{ [2] }", "3" },
8651 { "{ [i] -> [i + floor(i/2) + floor(i/3)] }", "{ [3] }", "5" },
8652 { "{ [i] -> [i + floor(i/2) + floor(i/3)] }", "{ [4] }", "7" },
8653 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [0] }", "0" },
8654 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [1] }", "0" },
8655 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [2] }", "0" },
8656 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [3] }", "0" },
8657 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [4] }", "1" },
8658 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [6] }", "1" },
8659 { "{ [i] -> [floor((3 * floor(i/2))/5)] }", "{ [8] }", "2" },
8660 { "{ [i] -> [i] : i > 0; [i] -> [-i] : i < 0 }", "{ [4] }", "4" },
8661 { "{ [i] -> [i] : i > 0; [i] -> [-i] : i < 0 }", "{ [-2] }", "2" },
8662 { "{ [i] -> [i] : i > 0; [i] -> [-i] : i < 0 }", "{ [0] }", "NaN" },
8663 { "[N] -> { [2 * N] }", "[N] -> { : N = 4 }", "8" },
8664 { "{ [i, j] -> [(i + j)/2] }", "{ [1, 1] }", "1" },
8665 { "{ [i, j] -> [(i + j)/2] }", "{ [1, 2] }", "3/2" },
8666 { "{ [i] -> [i] : i mod 2 = 0 }", "{ [4] }", "4" },
8667 { "{ [i] -> [i] : i mod 2 = 0 }", "{ [3] }", "NaN" },
8668 { "{ [i] -> [i] : i mod 2 = 0 }", "{ [x] : false }", "NaN" },
8669 { "[m, n] -> { [2m + 3n] }", "[n=1, m=10] -> { : }", "23" },
8672 /* Perform basic isl_pw_aff_eval tests.
8674 static int test_eval_aff(isl_ctx
*ctx
)
8678 for (i
= 0; i
< ARRAY_SIZE(aff_eval_tests
); ++i
) {
8685 pa
= isl_pw_aff_read_from_str(ctx
, aff_eval_tests
[i
].f
);
8686 set
= isl_set_read_from_str(ctx
, aff_eval_tests
[i
].p
);
8687 pnt
= isl_set_sample_point(set
);
8688 v
= isl_pw_aff_eval(pa
, pnt
);
8689 r
= val_check_equal(v
, aff_eval_tests
[i
].res
);
8697 /* Perform basic evaluation tests.
8699 static int test_eval(isl_ctx
*ctx
)
8701 if (test_eval_1(ctx
) < 0)
8703 if (test_eval_2(ctx
) < 0)
8705 if (test_eval_3(ctx
) < 0)
8707 if (test_eval_aff(ctx
) < 0)
8712 /* Descriptions of sets that are tested for reparsing after printing.
8714 const char *output_tests
[] = {
8715 "{ [1, y] : 0 <= y <= 1; [x, -x] : 0 <= x <= 1 }",
8718 "{ [x] : x mod 2 = 0 }",
8719 "{ [x] : x mod 2 = 1 }",
8720 "{ [x, y] : x mod 2 = 0 and 3*floor(y/2) < x }",
8721 "{ [y, x] : x mod 2 = 0 and 3*floor(y/2) < x }",
8722 "{ [x, y] : x mod 2 = 0 and 3*floor(y/2) = x + y }",
8723 "{ [y, x] : x mod 2 = 0 and 3*floor(y/2) = x + y }",
8724 "[n] -> { [y, x] : 2*((x + 2y) mod 3) = n }",
8725 "{ [x, y] : (2*floor(x/3) + 3*floor(y/4)) mod 5 = x }",
8728 /* Check that printing a set and reparsing a set from the printed output
8729 * results in the same set.
8731 static int test_output_set(isl_ctx
*ctx
)
8735 isl_set
*set1
, *set2
;
8738 for (i
= 0; i
< ARRAY_SIZE(output_tests
); ++i
) {
8739 set1
= isl_set_read_from_str(ctx
, output_tests
[i
]);
8740 str
= isl_set_to_str(set1
);
8741 set2
= isl_set_read_from_str(ctx
, str
);
8743 equal
= isl_set_is_equal(set1
, set2
);
8749 isl_die(ctx
, isl_error_unknown
,
8750 "parsed output not the same", return -1);
8756 /* Check that an isl_multi_aff is printed using a consistent space.
8758 static isl_stat
test_output_ma(isl_ctx
*ctx
)
8763 isl_multi_aff
*ma
, *ma2
;
8765 ma
= isl_multi_aff_read_from_str(ctx
, "{ [a, b] -> [a + b] }");
8766 aff
= isl_aff_read_from_str(ctx
, "{ [c, d] -> [c + d] }");
8767 ma
= isl_multi_aff_set_aff(ma
, 0, aff
);
8768 str
= isl_multi_aff_to_str(ma
);
8769 ma2
= isl_multi_aff_read_from_str(ctx
, str
);
8771 equal
= isl_multi_aff_plain_is_equal(ma
, ma2
);
8772 isl_multi_aff_free(ma2
);
8773 isl_multi_aff_free(ma
);
8776 return isl_stat_error
;
8778 isl_die(ctx
, isl_error_unknown
, "bad conversion",
8779 return isl_stat_error
);
8784 /* Check that an isl_multi_pw_aff is printed using a consistent space.
8786 static isl_stat
test_output_mpa(isl_ctx
*ctx
)
8791 isl_multi_pw_aff
*mpa
, *mpa2
;
8793 mpa
= isl_multi_pw_aff_read_from_str(ctx
, "{ [a, b] -> [a + b] }");
8794 pa
= isl_pw_aff_read_from_str(ctx
, "{ [c, d] -> [c + d] }");
8795 mpa
= isl_multi_pw_aff_set_pw_aff(mpa
, 0, pa
);
8796 str
= isl_multi_pw_aff_to_str(mpa
);
8797 mpa2
= isl_multi_pw_aff_read_from_str(ctx
, str
);
8799 equal
= isl_multi_pw_aff_plain_is_equal(mpa
, mpa2
);
8800 isl_multi_pw_aff_free(mpa2
);
8801 isl_multi_pw_aff_free(mpa
);
8804 return isl_stat_error
;
8806 isl_die(ctx
, isl_error_unknown
, "bad conversion",
8807 return isl_stat_error
);
8812 int test_output(isl_ctx
*ctx
)
8820 if (test_output_set(ctx
) < 0)
8822 if (test_output_ma(ctx
) < 0)
8824 if (test_output_mpa(ctx
) < 0)
8827 str
= "[x] -> { [1] : x % 4 <= 2; [2] : x = 3 }";
8828 pa
= isl_pw_aff_read_from_str(ctx
, str
);
8830 p
= isl_printer_to_str(ctx
);
8831 p
= isl_printer_set_output_format(p
, ISL_FORMAT_C
);
8832 p
= isl_printer_print_pw_aff(p
, pa
);
8833 s
= isl_printer_get_str(p
);
8834 isl_printer_free(p
);
8835 isl_pw_aff_free(pa
);
8839 equal
= !strcmp(s
, "4 * floord(x, 4) + 2 >= x ? 1 : 2");
8844 isl_die(ctx
, isl_error_unknown
, "unexpected result", return -1);
8849 int test_sample(isl_ctx
*ctx
)
8852 isl_basic_set
*bset1
, *bset2
;
8855 str
= "{ [a, b, c, d, e, f, g, h, i, j, k] : "
8856 "3i >= 1073741823b - c - 1073741823e + f and c >= 0 and "
8857 "3i >= -1 + 3221225466b + c + d - 3221225466e - f and "
8858 "2e >= a - b and 3e <= 2a and 3k <= -a and f <= -1 + a and "
8859 "3i <= 4 - a + 4b + 2c - e - 2f and 3k <= -a + c - f and "
8860 "3h >= -2 + a and 3g >= -3 - a and 3k >= -2 - a and "
8861 "3i >= -2 - a - 2c + 3e + 2f and 3h <= a + c - f and "
8862 "3h >= a + 2147483646b + 2c - 2147483646e - 2f and "
8863 "3g <= -1 - a and 3i <= 1 + c + d - f and a <= 1073741823 and "
8864 "f >= 1 - a + 1073741822b + c + d - 1073741822e and "
8865 "3i >= 1 + 2b - 2c + e + 2f + 3g and "
8866 "1073741822f <= 1073741822 - a + 1073741821b + 1073741822c +"
8867 "d - 1073741821e and "
8868 "3j <= 3 - a + 3b and 3g <= -2 - 2b + c + d - e - f and "
8869 "3j >= 1 - a + b + 2e and "
8870 "3f >= -3 + a + 3221225462b + 3c + d - 3221225465e and "
8871 "3i <= 4 - a + 4b - e and "
8872 "f <= 1073741822 + 1073741822b - 1073741822e and 3h <= a and "
8873 "f >= 0 and 2e <= 4 - a + 5b - d and 2e <= a - b + d and "
8874 "c <= -1 + a and 3i >= -2 - a + 3e and "
8875 "1073741822e <= 1073741823 - a + 1073741822b + c and "
8876 "3g >= -4 + 3221225464b + 3c + d - 3221225467e - 3f and "
8877 "3i >= -1 + 3221225466b + 3c + d - 3221225466e - 3f and "
8878 "1073741823e >= 1 + 1073741823b - d and "
8879 "3i >= 1073741823b + c - 1073741823e - f and "
8880 "3i >= 1 + 2b + e + 3g }";
8881 bset1
= isl_basic_set_read_from_str(ctx
, str
);
8882 bset2
= isl_basic_set_sample(isl_basic_set_copy(bset1
));
8883 empty
= isl_basic_set_is_empty(bset2
);
8884 subset
= isl_basic_set_is_subset(bset2
, bset1
);
8885 isl_basic_set_free(bset1
);
8886 isl_basic_set_free(bset2
);
8887 if (empty
< 0 || subset
< 0)
8890 isl_die(ctx
, isl_error_unknown
, "point not found", return -1);
8892 isl_die(ctx
, isl_error_unknown
, "bad point found", return -1);
8897 /* Perform a projection on a basic set that is known to be empty
8898 * but that has not been assigned a canonical representation.
8899 * Earlier versions of isl would run into a stack overflow
8902 static int test_empty_projection(isl_ctx
*ctx
)
8906 isl_basic_set
*bset
;
8908 str
= "{ [a, b, c, d, e, f, g, h] : 5f = 1 + 4a - b + 5c - d - 2e and "
8909 "3h = 2 + b + c and 14c >= 9 - 3a + 25b and "
8910 "4c <= 50 - 3a + 23b and 6b <= -39 + a and "
8911 "9g >= -6 + 3a + b + c and e < a + b - 2d and "
8912 "7d >= -5 + 2a + 2b and 5g >= -14 + a - 4b + d + 2e and "
8913 "9g <= -28 - 5b - 2c + 3d + 6e }";
8914 bset
= isl_basic_set_read_from_str(ctx
, str
);
8915 empty
= isl_basic_set_is_empty(bset
);
8916 bset
= isl_basic_set_params(bset
);
8917 isl_basic_set_free(bset
);
8925 int test_slice(isl_ctx
*ctx
)
8931 str
= "{ [i] -> [j] }";
8932 map
= isl_map_read_from_str(ctx
, str
);
8933 map
= isl_map_equate(map
, isl_dim_in
, 0, isl_dim_out
, 0);
8934 equal
= map_check_equal(map
, "{ [i] -> [i] }");
8939 str
= "{ [i] -> [j] }";
8940 map
= isl_map_read_from_str(ctx
, str
);
8941 map
= isl_map_equate(map
, isl_dim_in
, 0, isl_dim_in
, 0);
8942 equal
= map_check_equal(map
, "{ [i] -> [j] }");
8947 str
= "{ [i] -> [j] }";
8948 map
= isl_map_read_from_str(ctx
, str
);
8949 map
= isl_map_oppose(map
, isl_dim_in
, 0, isl_dim_out
, 0);
8950 equal
= map_check_equal(map
, "{ [i] -> [-i] }");
8955 str
= "{ [i] -> [j] }";
8956 map
= isl_map_read_from_str(ctx
, str
);
8957 map
= isl_map_oppose(map
, isl_dim_in
, 0, isl_dim_in
, 0);
8958 equal
= map_check_equal(map
, "{ [0] -> [j] }");
8963 str
= "{ [i] -> [j] }";
8964 map
= isl_map_read_from_str(ctx
, str
);
8965 map
= isl_map_order_gt(map
, isl_dim_in
, 0, isl_dim_out
, 0);
8966 equal
= map_check_equal(map
, "{ [i] -> [j] : i > j }");
8971 str
= "{ [i] -> [j] }";
8972 map
= isl_map_read_from_str(ctx
, str
);
8973 map
= isl_map_order_gt(map
, isl_dim_in
, 0, isl_dim_in
, 0);
8974 equal
= map_check_equal(map
, "{ [i] -> [j] : false }");
8982 int test_eliminate(isl_ctx
*ctx
)
8988 str
= "{ [i] -> [j] : i = 2j }";
8989 map
= isl_map_read_from_str(ctx
, str
);
8990 map
= isl_map_eliminate(map
, isl_dim_out
, 0, 1);
8991 equal
= map_check_equal(map
, "{ [i] -> [j] : exists a : i = 2a }");
8999 /* Check basic functionality of isl_map_deltas_map.
9001 static int test_deltas_map(isl_ctx
*ctx
)
9007 str
= "{ A[i] -> A[i + 1] }";
9008 map
= isl_map_read_from_str(ctx
, str
);
9009 map
= isl_map_deltas_map(map
);
9010 equal
= map_check_equal(map
, "{ [A[i] -> A[i + 1]] -> A[1] }");
9018 /* Check that isl_set_dim_residue_class detects that the values of j
9019 * in the set below are all odd and that it does not detect any spurious
9022 static int test_residue_class(isl_ctx
*ctx
)
9029 str
= "{ [i,j] : j = 4 i + 1 and 0 <= i <= 100; "
9030 "[i,j] : j = 4 i + 3 and 500 <= i <= 600 }";
9031 set
= isl_set_read_from_str(ctx
, str
);
9034 res
= isl_set_dim_residue_class(set
, 1, &m
, &r
);
9036 (isl_int_cmp_si(m
, 2) != 0 || isl_int_cmp_si(r
, 1) != 0))
9037 isl_die(ctx
, isl_error_unknown
, "incorrect residue class",
9038 res
= isl_stat_error
);
9046 static int test_align_parameters_1(isl_ctx
*ctx
)
9050 isl_multi_aff
*ma1
, *ma2
;
9053 str
= "{ A[B[] -> C[]] -> D[E[] -> F[]] }";
9054 ma1
= isl_multi_aff_read_from_str(ctx
, str
);
9056 space
= isl_space_params_alloc(ctx
, 1);
9057 space
= isl_space_set_dim_name(space
, isl_dim_param
, 0, "N");
9058 ma1
= isl_multi_aff_align_params(ma1
, space
);
9060 str
= "[N] -> { A[B[] -> C[]] -> D[E[] -> F[]] }";
9061 ma2
= isl_multi_aff_read_from_str(ctx
, str
);
9063 equal
= isl_multi_aff_plain_is_equal(ma1
, ma2
);
9065 isl_multi_aff_free(ma1
);
9066 isl_multi_aff_free(ma2
);
9071 isl_die(ctx
, isl_error_unknown
,
9072 "result not as expected", return -1);
9077 /* Check the isl_multi_*_from_*_list operation in case inputs
9078 * have unaligned parameters.
9079 * In particular, older versions of isl would simply fail
9080 * (without printing any error message).
9082 static isl_stat
test_align_parameters_2(isl_ctx
*ctx
)
9089 map
= isl_map_read_from_str(ctx
, "{ A[] -> M[x] }");
9090 space
= isl_map_get_space(map
);
9093 aff
= isl_aff_read_from_str(ctx
, "[N] -> { A[] -> [N] }");
9094 ma
= isl_multi_aff_from_aff_list(space
, isl_aff_list_from_aff(aff
));
9095 isl_multi_aff_free(ma
);
9098 return isl_stat_error
;
9102 /* Perform basic parameter alignment tests.
9104 static int test_align_parameters(isl_ctx
*ctx
)
9106 if (test_align_parameters_1(ctx
) < 0)
9108 if (test_align_parameters_2(ctx
) < 0)
9114 /* Check that isl_*_drop_unused_params actually drops the unused parameters
9115 * by comparing the result using isl_*_plain_is_equal.
9116 * Note that this assumes that isl_*_plain_is_equal does not consider
9117 * objects that only differ by unused parameters to be equal.
9119 int test_drop_unused_parameters(isl_ctx
*ctx
)
9121 const char *str_with
, *str_without
;
9122 isl_basic_set
*bset1
, *bset2
;
9123 isl_set
*set1
, *set2
;
9124 isl_pw_aff
*pwa1
, *pwa2
;
9127 str_with
= "[n, m, o] -> { [m] }";
9128 str_without
= "[m] -> { [m] }";
9130 bset1
= isl_basic_set_read_from_str(ctx
, str_with
);
9131 bset2
= isl_basic_set_read_from_str(ctx
, str_without
);
9132 bset1
= isl_basic_set_drop_unused_params(bset1
);
9133 equal
= isl_basic_set_plain_is_equal(bset1
, bset2
);
9134 isl_basic_set_free(bset1
);
9135 isl_basic_set_free(bset2
);
9140 isl_die(ctx
, isl_error_unknown
,
9141 "result not as expected", return -1);
9143 set1
= isl_set_read_from_str(ctx
, str_with
);
9144 set2
= isl_set_read_from_str(ctx
, str_without
);
9145 set1
= isl_set_drop_unused_params(set1
);
9146 equal
= isl_set_plain_is_equal(set1
, set2
);
9153 isl_die(ctx
, isl_error_unknown
,
9154 "result not as expected", return -1);
9156 pwa1
= isl_pw_aff_read_from_str(ctx
, str_with
);
9157 pwa2
= isl_pw_aff_read_from_str(ctx
, str_without
);
9158 pwa1
= isl_pw_aff_drop_unused_params(pwa1
);
9159 equal
= isl_pw_aff_plain_is_equal(pwa1
, pwa2
);
9160 isl_pw_aff_free(pwa1
);
9161 isl_pw_aff_free(pwa2
);
9166 isl_die(ctx
, isl_error_unknown
,
9167 "result not as expected", return -1);
9172 static int test_list(isl_ctx
*ctx
)
9174 isl_id
*a
, *b
, *c
, *d
, *id
;
9179 a
= isl_id_alloc(ctx
, "a", NULL
);
9180 b
= isl_id_alloc(ctx
, "b", NULL
);
9181 c
= isl_id_alloc(ctx
, "c", NULL
);
9182 d
= isl_id_alloc(ctx
, "d", NULL
);
9184 list
= isl_id_list_alloc(ctx
, 4);
9185 list
= isl_id_list_add(list
, b
);
9186 list
= isl_id_list_insert(list
, 0, a
);
9187 list
= isl_id_list_add(list
, c
);
9188 list
= isl_id_list_add(list
, d
);
9189 list
= isl_id_list_drop(list
, 1, 1);
9191 n
= isl_id_list_n_id(list
);
9195 isl_id_list_free(list
);
9196 isl_die(ctx
, isl_error_unknown
,
9197 "unexpected number of elements in list", return -1);
9200 id
= isl_id_list_get_id(list
, 0);
9203 id
= isl_id_list_get_id(list
, 1);
9206 id
= isl_id_list_get_id(list
, 2);
9210 isl_id_list_free(list
);
9213 isl_die(ctx
, isl_error_unknown
,
9214 "unexpected elements in list", return -1);
9219 /* Check the conversion from an isl_multi_aff to an isl_basic_set.
9221 static isl_stat
test_ma_conversion(isl_ctx
*ctx
)
9226 isl_basic_set
*bset1
, *bset2
;
9228 str
= "[N] -> { A[0, N + 1] }";
9229 ma
= isl_multi_aff_read_from_str(ctx
, str
);
9230 bset1
= isl_basic_set_read_from_str(ctx
, str
);
9231 bset2
= isl_basic_set_from_multi_aff(ma
);
9232 equal
= isl_basic_set_is_equal(bset1
, bset2
);
9233 isl_basic_set_free(bset1
);
9234 isl_basic_set_free(bset2
);
9236 return isl_stat_error
;
9238 isl_die(ctx
, isl_error_unknown
, "bad conversion",
9239 return isl_stat_error
);
9243 const char *set_conversion_tests
[] = {
9244 "[N] -> { [i] : N - 1 <= 2 i <= N }",
9245 "[N] -> { [i] : exists a : i = 4 a and N - 1 <= i <= N }",
9246 "[N] -> { [i,j] : exists a : i = 4 a and N - 1 <= i, 2j <= N }",
9247 "[N] -> { [[i]->[j]] : exists a : i = 4 a and N - 1 <= i, 2j <= N }",
9248 "[N] -> { [3*floor(N/2) + 5*floor(N/3)] }",
9249 "[a, b] -> { [c, d] : (4*floor((-a + c)/4) = -a + c and "
9250 "32*floor((-b + d)/32) = -b + d and 5 <= c <= 8 and "
9251 "-3 + c <= d <= 28 + c) }",
9254 /* Check that converting from isl_set to isl_pw_multi_aff and back
9255 * to isl_set produces the original isl_set.
9257 static int test_set_conversion(isl_ctx
*ctx
)
9261 isl_set
*set1
, *set2
;
9262 isl_pw_multi_aff
*pma
;
9265 for (i
= 0; i
< ARRAY_SIZE(set_conversion_tests
); ++i
) {
9266 str
= set_conversion_tests
[i
];
9267 set1
= isl_set_read_from_str(ctx
, str
);
9268 pma
= isl_pw_multi_aff_from_set(isl_set_copy(set1
));
9269 set2
= isl_set_from_pw_multi_aff(pma
);
9270 equal
= isl_set_is_equal(set1
, set2
);
9277 isl_die(ctx
, isl_error_unknown
, "bad conversion",
9284 const char *conversion_tests
[] = {
9285 "{ [a, b, c, d] -> s0[a, b, e, f] : "
9286 "exists (e0 = [(a - 2c)/3], e1 = [(-4 + b - 5d)/9], "
9287 "e2 = [(-d + f)/9]: 3e0 = a - 2c and 9e1 = -4 + b - 5d and "
9288 "9e2 = -d + f and f >= 0 and f <= 8 and 9e >= -5 - 2a and "
9290 "{ [a, b] -> [c] : exists (e0 = floor((-a - b + c)/5): "
9291 "5e0 = -a - b + c and c >= -a and c <= 4 - a) }",
9292 "{ [a, b] -> [c] : exists d : 18 * d = -3 - a + 2c and 1 <= c <= 3 }",
9295 /* Check that converting from isl_map to isl_pw_multi_aff and back
9296 * to isl_map produces the original isl_map.
9298 static int test_map_conversion(isl_ctx
*ctx
)
9301 isl_map
*map1
, *map2
;
9302 isl_pw_multi_aff
*pma
;
9305 for (i
= 0; i
< ARRAY_SIZE(conversion_tests
); ++i
) {
9306 map1
= isl_map_read_from_str(ctx
, conversion_tests
[i
]);
9307 pma
= isl_pw_multi_aff_from_map(isl_map_copy(map1
));
9308 map2
= isl_map_from_pw_multi_aff(pma
);
9309 equal
= isl_map_is_equal(map1
, map2
);
9316 isl_die(ctx
, isl_error_unknown
, "bad conversion",
9323 /* Descriptions of isl_pw_multi_aff objects for testing conversion
9324 * to isl_multi_pw_aff and back.
9326 const char *mpa_conversion_tests
[] = {
9328 "{ [x] -> A[x] : x >= 0 }",
9329 "{ [x] -> A[x] : x >= 0; [x] -> A[-x] : x < 0 }",
9330 "{ [x] -> A[x, x + 1] }",
9332 "{ [x] -> A[] : x >= 0 }",
9335 /* Check that conversion from isl_pw_multi_aff to isl_multi_pw_aff and
9336 * back to isl_pw_multi_aff preserves the original meaning.
9338 static int test_mpa_conversion(isl_ctx
*ctx
)
9341 isl_pw_multi_aff
*pma1
, *pma2
;
9342 isl_multi_pw_aff
*mpa
;
9345 for (i
= 0; i
< ARRAY_SIZE(mpa_conversion_tests
); ++i
) {
9347 str
= mpa_conversion_tests
[i
];
9348 pma1
= isl_pw_multi_aff_read_from_str(ctx
, str
);
9349 pma2
= isl_pw_multi_aff_copy(pma1
);
9350 mpa
= isl_multi_pw_aff_from_pw_multi_aff(pma1
);
9351 pma1
= isl_pw_multi_aff_from_multi_pw_aff(mpa
);
9352 equal
= isl_pw_multi_aff_plain_is_equal(pma1
, pma2
);
9353 isl_pw_multi_aff_free(pma1
);
9354 isl_pw_multi_aff_free(pma2
);
9359 isl_die(ctx
, isl_error_unknown
, "bad conversion",
9366 /* Descriptions of union maps that should be convertible
9367 * to an isl_multi_union_pw_aff.
9369 const char *umap_mupa_conversion_tests
[] = {
9370 "{ [a, b, c, d] -> s0[a, b, e, f] : "
9371 "exists (e0 = [(a - 2c)/3], e1 = [(-4 + b - 5d)/9], "
9372 "e2 = [(-d + f)/9]: 3e0 = a - 2c and 9e1 = -4 + b - 5d and "
9373 "9e2 = -d + f and f >= 0 and f <= 8 and 9e >= -5 - 2a and "
9375 "{ [a, b] -> [c] : exists (e0 = floor((-a - b + c)/5): "
9376 "5e0 = -a - b + c and c >= -a and c <= 4 - a) }",
9377 "{ [a, b] -> [c] : exists d : 18 * d = -3 - a + 2c and 1 <= c <= 3 }",
9378 "{ A[] -> B[0]; C[] -> B[1] }",
9379 "{ A[] -> B[]; C[] -> B[] }",
9382 /* Check that converting from isl_union_map to isl_multi_union_pw_aff and back
9383 * to isl_union_map produces the original isl_union_map.
9385 static int test_union_map_mupa_conversion(isl_ctx
*ctx
)
9388 isl_union_map
*umap1
, *umap2
;
9389 isl_multi_union_pw_aff
*mupa
;
9392 for (i
= 0; i
< ARRAY_SIZE(umap_mupa_conversion_tests
); ++i
) {
9394 str
= umap_mupa_conversion_tests
[i
];
9395 umap1
= isl_union_map_read_from_str(ctx
, str
);
9396 umap2
= isl_union_map_copy(umap1
);
9397 mupa
= isl_multi_union_pw_aff_from_union_map(umap2
);
9398 umap2
= isl_union_map_from_multi_union_pw_aff(mupa
);
9399 equal
= isl_union_map_is_equal(umap1
, umap2
);
9400 isl_union_map_free(umap1
);
9401 isl_union_map_free(umap2
);
9406 isl_die(ctx
, isl_error_unknown
, "bad conversion",
9413 static int test_conversion(isl_ctx
*ctx
)
9415 if (test_ma_conversion(ctx
) < 0)
9417 if (test_set_conversion(ctx
) < 0)
9419 if (test_map_conversion(ctx
) < 0)
9421 if (test_mpa_conversion(ctx
) < 0)
9423 if (test_union_map_mupa_conversion(ctx
) < 0)
9428 /* Check that isl_basic_map_curry does not modify input.
9430 static int test_curry(isl_ctx
*ctx
)
9433 isl_basic_map
*bmap1
, *bmap2
;
9436 str
= "{ [A[] -> B[]] -> C[] }";
9437 bmap1
= isl_basic_map_read_from_str(ctx
, str
);
9438 bmap2
= isl_basic_map_curry(isl_basic_map_copy(bmap1
));
9439 equal
= isl_basic_map_is_equal(bmap1
, bmap2
);
9440 isl_basic_map_free(bmap1
);
9441 isl_basic_map_free(bmap2
);
9446 isl_die(ctx
, isl_error_unknown
,
9447 "curried map should not be equal to original",
9457 } pullback_tests
[] = {
9458 { "{ B[i,j] -> C[i + 2j] }" , "{ A[a,b] -> B[b,a] }",
9459 "{ A[a,b] -> C[b + 2a] }" },
9460 { "{ B[i] -> C[2i] }", "{ A[a] -> B[(a)/2] }", "{ A[a] -> C[a] }" },
9461 { "{ B[i] -> C[(i)/2] }", "{ A[a] -> B[2a] }", "{ A[a] -> C[a] }" },
9462 { "{ B[i] -> C[(i)/2] }", "{ A[a] -> B[(a)/3] }",
9463 "{ A[a] -> C[(a)/6] }" },
9464 { "{ B[i] -> C[2i] }", "{ A[a] -> B[5a] }", "{ A[a] -> C[10a] }" },
9465 { "{ B[i] -> C[2i] }", "{ A[a] -> B[(a)/3] }",
9466 "{ A[a] -> C[(2a)/3] }" },
9467 { "{ B[i,j] -> C[i + j] }", "{ A[a] -> B[a,a] }", "{ A[a] -> C[2a] }"},
9468 { "{ B[a] -> C[a,a] }", "{ A[i,j] -> B[i + j] }",
9469 "{ A[i,j] -> C[i + j, i + j] }"},
9470 { "{ B[i] -> C[([i/2])] }", "{ B[5] }", "{ C[2] }" },
9471 { "[n] -> { B[i,j] -> C[([i/2]) + 2j] }",
9472 "[n] -> { B[n,[n/3]] }", "[n] -> { C[([n/2]) + 2*[n/3]] }", },
9473 { "{ [i, j] -> [floor((i)/4) + floor((2*i+j)/5)] }",
9474 "{ [i, j] -> [floor((i)/3), j] }",
9475 "{ [i, j] -> [(floor((i)/12) + floor((j + 2*floor((i)/3))/5))] }" },
9478 static int test_pullback(isl_ctx
*ctx
)
9481 isl_multi_aff
*ma1
, *ma2
;
9485 for (i
= 0; i
< ARRAY_SIZE(pullback_tests
); ++i
) {
9486 ma1
= isl_multi_aff_read_from_str(ctx
, pullback_tests
[i
].ma1
);
9487 ma
= isl_multi_aff_read_from_str(ctx
, pullback_tests
[i
].ma
);
9488 ma2
= isl_multi_aff_read_from_str(ctx
, pullback_tests
[i
].res
);
9489 ma1
= isl_multi_aff_pullback_multi_aff(ma1
, ma
);
9490 equal
= isl_multi_aff_plain_is_equal(ma1
, ma2
);
9491 isl_multi_aff_free(ma1
);
9492 isl_multi_aff_free(ma2
);
9496 isl_die(ctx
, isl_error_unknown
, "bad pullback",
9503 /* Check that negation is printed correctly and that equal expressions
9504 * are correctly identified.
9506 static int test_ast(isl_ctx
*ctx
)
9508 isl_ast_expr
*expr
, *expr1
, *expr2
, *expr3
;
9512 expr1
= isl_ast_expr_from_id(isl_id_alloc(ctx
, "A", NULL
));
9513 expr2
= isl_ast_expr_from_id(isl_id_alloc(ctx
, "B", NULL
));
9514 expr
= isl_ast_expr_add(expr1
, expr2
);
9515 expr2
= isl_ast_expr_copy(expr
);
9516 expr
= isl_ast_expr_neg(expr
);
9517 expr2
= isl_ast_expr_neg(expr2
);
9518 equal
= isl_ast_expr_is_equal(expr
, expr2
);
9519 str
= isl_ast_expr_to_C_str(expr
);
9520 ok
= str
? !strcmp(str
, "-(A + B)") : -1;
9522 isl_ast_expr_free(expr
);
9523 isl_ast_expr_free(expr2
);
9525 if (ok
< 0 || equal
< 0)
9528 isl_die(ctx
, isl_error_unknown
,
9529 "equal expressions not considered equal", return -1);
9531 isl_die(ctx
, isl_error_unknown
,
9532 "isl_ast_expr printed incorrectly", return -1);
9534 expr1
= isl_ast_expr_from_id(isl_id_alloc(ctx
, "A", NULL
));
9535 expr2
= isl_ast_expr_from_id(isl_id_alloc(ctx
, "B", NULL
));
9536 expr
= isl_ast_expr_add(expr1
, expr2
);
9537 expr3
= isl_ast_expr_from_id(isl_id_alloc(ctx
, "C", NULL
));
9538 expr
= isl_ast_expr_sub(expr3
, expr
);
9539 str
= isl_ast_expr_to_C_str(expr
);
9540 ok
= str
? !strcmp(str
, "C - (A + B)") : -1;
9542 isl_ast_expr_free(expr
);
9547 isl_die(ctx
, isl_error_unknown
,
9548 "isl_ast_expr printed incorrectly", return -1);
9553 /* Check that isl_ast_build_expr_from_set returns a valid expression
9554 * for an empty set. Note that isl_ast_build_expr_from_set getting
9555 * called on an empty set probably indicates a bug in the caller.
9557 static int test_ast_build(isl_ctx
*ctx
)
9560 isl_ast_build
*build
;
9563 set
= isl_set_universe(isl_space_params_alloc(ctx
, 0));
9564 build
= isl_ast_build_from_context(set
);
9566 set
= isl_set_empty(isl_space_params_alloc(ctx
, 0));
9567 expr
= isl_ast_build_expr_from_set(build
, set
);
9569 isl_ast_expr_free(expr
);
9570 isl_ast_build_free(build
);
9578 /* Internal data structure for before_for and after_for callbacks.
9580 * depth is the current depth
9581 * before is the number of times before_for has been called
9582 * after is the number of times after_for has been called
9584 struct isl_test_codegen_data
{
9590 /* This function is called before each for loop in the AST generated
9591 * from test_ast_gen1.
9593 * Increment the number of calls and the depth.
9594 * Check that the space returned by isl_ast_build_get_schedule_space
9595 * matches the target space of the schedule returned by
9596 * isl_ast_build_get_schedule.
9597 * Return an isl_id that is checked by the corresponding call
9600 static __isl_give isl_id
*before_for(__isl_keep isl_ast_build
*build
,
9603 struct isl_test_codegen_data
*data
= user
;
9606 isl_union_map
*schedule
;
9607 isl_union_set
*uset
;
9613 ctx
= isl_ast_build_get_ctx(build
);
9615 if (data
->before
>= 3)
9616 isl_die(ctx
, isl_error_unknown
,
9617 "unexpected number of for nodes", return NULL
);
9618 if (data
->depth
< 0 || data
->depth
>= 2)
9619 isl_die(ctx
, isl_error_unknown
,
9620 "unexpected depth", return NULL
);
9622 snprintf(name
, sizeof(name
), "d%d", data
->depth
);
9626 schedule
= isl_ast_build_get_schedule(build
);
9627 uset
= isl_union_map_range(schedule
);
9628 n
= isl_union_set_n_set(uset
);
9630 isl_union_set_free(uset
);
9633 isl_die(ctx
, isl_error_unknown
,
9634 "expecting single range space", return NULL
);
9637 space
= isl_ast_build_get_schedule_space(build
);
9638 set
= isl_union_set_extract_set(uset
, space
);
9639 isl_union_set_free(uset
);
9640 empty
= isl_set_is_empty(set
);
9646 isl_die(ctx
, isl_error_unknown
,
9647 "spaces don't match", return NULL
);
9649 return isl_id_alloc(ctx
, name
, NULL
);
9652 /* This function is called after each for loop in the AST generated
9653 * from test_ast_gen1.
9655 * Increment the number of calls and decrement the depth.
9656 * Check that the annotation attached to the node matches
9657 * the isl_id returned by the corresponding call to before_for.
9659 static __isl_give isl_ast_node
*after_for(__isl_take isl_ast_node
*node
,
9660 __isl_keep isl_ast_build
*build
, void *user
)
9662 struct isl_test_codegen_data
*data
= user
;
9670 if (data
->after
> data
->before
)
9671 isl_die(isl_ast_node_get_ctx(node
), isl_error_unknown
,
9672 "mismatch in number of for nodes",
9673 return isl_ast_node_free(node
));
9675 id
= isl_ast_node_get_annotation(node
);
9677 isl_die(isl_ast_node_get_ctx(node
), isl_error_unknown
,
9678 "missing annotation", return isl_ast_node_free(node
));
9680 name
= isl_id_get_name(id
);
9681 valid
= name
&& atoi(name
+ 1) == data
->depth
;
9685 isl_die(isl_ast_node_get_ctx(node
), isl_error_unknown
,
9686 "wrong annotation", return isl_ast_node_free(node
));
9691 /* This function is called after node in the AST generated
9692 * from test_ast_gen1.
9694 * Increment the count in "user" if this is a for node and
9695 * return true to indicate that descendant should also be visited.
9697 static isl_bool
count_for(__isl_keep isl_ast_node
*node
, void *user
)
9701 if (isl_ast_node_get_type(node
) == isl_ast_node_for
)
9704 return isl_bool_true
;
9707 /* If "node" is a block node, then replace it by its first child.
9709 static __isl_give isl_ast_node
*select_first(__isl_take isl_ast_node
*node
,
9712 isl_ast_node_list
*children
;
9713 isl_ast_node
*child
;
9715 if (isl_ast_node_get_type(node
) != isl_ast_node_block
)
9718 children
= isl_ast_node_block_get_children(node
);
9719 child
= isl_ast_node_list_get_at(children
, 0);
9720 isl_ast_node_list_free(children
);
9721 isl_ast_node_free(node
);
9726 /* Check that the before_each_for and after_each_for callbacks
9727 * are called for each for loop in the generated code,
9728 * that they are called in the right order and that the isl_id
9729 * returned from the before_each_for callback is attached to
9730 * the isl_ast_node passed to the corresponding after_each_for call.
9732 * Additionally, check the basic functionality of
9733 * isl_ast_node_foreach_descendant_top_down by counting the number
9734 * of for loops in the resulting AST,
9735 * as well as that of isl_ast_node_map_descendant_bottom_up
9736 * by replacing the block node by its first child and
9737 * counting the number of for loops again.
9739 static isl_stat
test_ast_gen1(isl_ctx
*ctx
)
9742 int modified_count
= 0;
9745 isl_union_map
*schedule
;
9746 isl_ast_build
*build
;
9748 struct isl_test_codegen_data data
;
9750 str
= "[N] -> { : N >= 10 }";
9751 set
= isl_set_read_from_str(ctx
, str
);
9752 str
= "[N] -> { A[i,j] -> S[8,i,3,j] : 0 <= i,j <= N; "
9753 "B[i,j] -> S[8,j,9,i] : 0 <= i,j <= N }";
9754 schedule
= isl_union_map_read_from_str(ctx
, str
);
9759 build
= isl_ast_build_from_context(set
);
9760 build
= isl_ast_build_set_before_each_for(build
,
9761 &before_for
, &data
);
9762 build
= isl_ast_build_set_after_each_for(build
,
9764 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9765 isl_ast_build_free(build
);
9767 if (isl_ast_node_foreach_descendant_top_down(tree
,
9768 &count_for
, &count
) < 0)
9769 tree
= isl_ast_node_free(tree
);
9771 tree
= isl_ast_node_map_descendant_bottom_up(tree
, &select_first
, NULL
);
9773 if (isl_ast_node_foreach_descendant_top_down(tree
, &count_for
,
9774 &modified_count
) < 0)
9775 tree
= isl_ast_node_free(tree
);
9778 return isl_stat_error
;
9780 isl_ast_node_free(tree
);
9782 if (data
.before
!= 3 || data
.after
!= 3 || count
!= 3)
9783 isl_die(ctx
, isl_error_unknown
,
9784 "unexpected number of for nodes",
9785 return isl_stat_error
);
9787 if (modified_count
!= 2)
9788 isl_die(ctx
, isl_error_unknown
,
9789 "unexpected number of for nodes after changes",
9790 return isl_stat_error
);
9795 /* Check that the AST generator handles domains that are integrally disjoint
9796 * but not rationally disjoint.
9798 static int test_ast_gen2(isl_ctx
*ctx
)
9802 isl_union_map
*schedule
;
9803 isl_union_map
*options
;
9804 isl_ast_build
*build
;
9807 str
= "{ A[i,j] -> [i,j] : 0 <= i,j <= 1 }";
9808 schedule
= isl_union_map_read_from_str(ctx
, str
);
9809 set
= isl_set_universe(isl_space_params_alloc(ctx
, 0));
9810 build
= isl_ast_build_from_context(set
);
9812 str
= "{ [i,j] -> atomic[1] : i + j = 1; [i,j] -> unroll[1] : i = j }";
9813 options
= isl_union_map_read_from_str(ctx
, str
);
9814 build
= isl_ast_build_set_options(build
, options
);
9815 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9816 isl_ast_build_free(build
);
9819 isl_ast_node_free(tree
);
9824 /* Increment *user on each call.
9826 static __isl_give isl_ast_node
*count_domains(__isl_take isl_ast_node
*node
,
9827 __isl_keep isl_ast_build
*build
, void *user
)
9836 /* Test that unrolling tries to minimize the number of instances.
9837 * In particular, for the schedule given below, make sure it generates
9838 * 3 nodes (rather than 101).
9840 static int test_ast_gen3(isl_ctx
*ctx
)
9844 isl_union_map
*schedule
;
9845 isl_union_map
*options
;
9846 isl_ast_build
*build
;
9850 str
= "[n] -> { A[i] -> [i] : 0 <= i <= 100 and n <= i <= n + 2 }";
9851 schedule
= isl_union_map_read_from_str(ctx
, str
);
9852 set
= isl_set_universe(isl_space_params_alloc(ctx
, 0));
9854 str
= "{ [i] -> unroll[0] }";
9855 options
= isl_union_map_read_from_str(ctx
, str
);
9857 build
= isl_ast_build_from_context(set
);
9858 build
= isl_ast_build_set_options(build
, options
);
9859 build
= isl_ast_build_set_at_each_domain(build
,
9860 &count_domains
, &n_domain
);
9861 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9862 isl_ast_build_free(build
);
9866 isl_ast_node_free(tree
);
9869 isl_die(ctx
, isl_error_unknown
,
9870 "unexpected number of for nodes", return -1);
9875 /* Check that if the ast_build_exploit_nested_bounds options is set,
9876 * we do not get an outer if node in the generated AST,
9877 * while we do get such an outer if node if the options is not set.
9879 static int test_ast_gen4(isl_ctx
*ctx
)
9883 isl_union_map
*schedule
;
9884 isl_ast_build
*build
;
9886 enum isl_ast_node_type type
;
9889 enb
= isl_options_get_ast_build_exploit_nested_bounds(ctx
);
9890 str
= "[N,M] -> { A[i,j] -> [i,j] : 0 <= i <= N and 0 <= j <= M }";
9892 isl_options_set_ast_build_exploit_nested_bounds(ctx
, 1);
9894 schedule
= isl_union_map_read_from_str(ctx
, str
);
9895 set
= isl_set_universe(isl_space_params_alloc(ctx
, 0));
9896 build
= isl_ast_build_from_context(set
);
9897 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9898 isl_ast_build_free(build
);
9902 type
= isl_ast_node_get_type(tree
);
9903 isl_ast_node_free(tree
);
9905 if (type
== isl_ast_node_if
)
9906 isl_die(ctx
, isl_error_unknown
,
9907 "not expecting if node", return -1);
9909 isl_options_set_ast_build_exploit_nested_bounds(ctx
, 0);
9911 schedule
= isl_union_map_read_from_str(ctx
, str
);
9912 set
= isl_set_universe(isl_space_params_alloc(ctx
, 0));
9913 build
= isl_ast_build_from_context(set
);
9914 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9915 isl_ast_build_free(build
);
9919 type
= isl_ast_node_get_type(tree
);
9920 isl_ast_node_free(tree
);
9922 if (type
!= isl_ast_node_if
)
9923 isl_die(ctx
, isl_error_unknown
,
9924 "expecting if node", return -1);
9926 isl_options_set_ast_build_exploit_nested_bounds(ctx
, enb
);
9931 /* This function is called for each leaf in the AST generated
9932 * from test_ast_gen5.
9934 * We finalize the AST generation by extending the outer schedule
9935 * with a zero-dimensional schedule. If this results in any for loops,
9936 * then this means that we did not pass along enough information
9937 * about the outer schedule to the inner AST generation.
9939 static __isl_give isl_ast_node
*create_leaf(__isl_take isl_ast_build
*build
,
9942 isl_union_map
*schedule
, *extra
;
9945 schedule
= isl_ast_build_get_schedule(build
);
9946 extra
= isl_union_map_copy(schedule
);
9947 extra
= isl_union_map_from_domain(isl_union_map_domain(extra
));
9948 schedule
= isl_union_map_range_product(schedule
, extra
);
9949 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9950 isl_ast_build_free(build
);
9955 if (isl_ast_node_get_type(tree
) == isl_ast_node_for
)
9956 isl_die(isl_ast_node_get_ctx(tree
), isl_error_unknown
,
9957 "code should not contain any for loop",
9958 return isl_ast_node_free(tree
));
9963 /* Check that we do not lose any information when going back and
9964 * forth between internal and external schedule.
9966 * In particular, we create an AST where we unroll the only
9967 * non-constant dimension in the schedule. We therefore do
9968 * not expect any for loops in the AST. However, older versions
9969 * of isl would not pass along enough information about the outer
9970 * schedule when performing an inner code generation from a create_leaf
9971 * callback, resulting in the inner code generation producing a for loop.
9973 static int test_ast_gen5(isl_ctx
*ctx
)
9977 isl_union_map
*schedule
, *options
;
9978 isl_ast_build
*build
;
9981 str
= "{ A[] -> [1, 1, 2]; B[i] -> [1, i, 0] : i >= 1 and i <= 2 }";
9982 schedule
= isl_union_map_read_from_str(ctx
, str
);
9984 str
= "{ [a, b, c] -> unroll[1] : exists (e0 = [(a)/4]: "
9985 "4e0 >= -1 + a - b and 4e0 <= -2 + a + b) }";
9986 options
= isl_union_map_read_from_str(ctx
, str
);
9988 set
= isl_set_universe(isl_space_params_alloc(ctx
, 0));
9989 build
= isl_ast_build_from_context(set
);
9990 build
= isl_ast_build_set_options(build
, options
);
9991 build
= isl_ast_build_set_create_leaf(build
, &create_leaf
, NULL
);
9992 tree
= isl_ast_build_node_from_schedule_map(build
, schedule
);
9993 isl_ast_build_free(build
);
9994 isl_ast_node_free(tree
);
10001 /* Check that the expression
10003 * [n] -> { [n/2] : n <= 0 and n % 2 = 0; [0] : n > 0 }
10005 * is not combined into
10009 * as this would result in n/2 being evaluated in parts of
10010 * the definition domain where n is not a multiple of 2.
10012 static int test_ast_expr(isl_ctx
*ctx
)
10016 isl_ast_build
*build
;
10017 isl_ast_expr
*expr
;
10021 min_max
= isl_options_get_ast_build_detect_min_max(ctx
);
10022 isl_options_set_ast_build_detect_min_max(ctx
, 1);
10024 str
= "[n] -> { [n/2] : n <= 0 and n % 2 = 0; [0] : n > 0 }";
10025 pa
= isl_pw_aff_read_from_str(ctx
, str
);
10026 build
= isl_ast_build_alloc(ctx
);
10027 expr
= isl_ast_build_expr_from_pw_aff(build
, pa
);
10028 is_min
= isl_ast_expr_get_type(expr
) == isl_ast_expr_op
&&
10029 isl_ast_expr_get_op_type(expr
) == isl_ast_expr_op_min
;
10030 isl_ast_build_free(build
);
10031 isl_ast_expr_free(expr
);
10033 isl_options_set_ast_build_detect_min_max(ctx
, min_max
);
10038 isl_die(ctx
, isl_error_unknown
,
10039 "expressions should not be combined", return -1);
10044 static int test_ast_gen(isl_ctx
*ctx
)
10046 if (test_ast_gen1(ctx
) < 0)
10048 if (test_ast_gen2(ctx
) < 0)
10050 if (test_ast_gen3(ctx
) < 0)
10052 if (test_ast_gen4(ctx
) < 0)
10054 if (test_ast_gen5(ctx
) < 0)
10056 if (test_ast_expr(ctx
) < 0)
10061 /* Check if dropping output dimensions from an isl_pw_multi_aff
10064 static int test_pw_multi_aff(isl_ctx
*ctx
)
10067 isl_pw_multi_aff
*pma1
, *pma2
;
10070 str
= "{ [i,j] -> [i+j, 4i-j] }";
10071 pma1
= isl_pw_multi_aff_read_from_str(ctx
, str
);
10072 str
= "{ [i,j] -> [4i-j] }";
10073 pma2
= isl_pw_multi_aff_read_from_str(ctx
, str
);
10075 pma1
= isl_pw_multi_aff_drop_dims(pma1
, isl_dim_out
, 0, 1);
10077 equal
= isl_pw_multi_aff_plain_is_equal(pma1
, pma2
);
10079 isl_pw_multi_aff_free(pma1
);
10080 isl_pw_multi_aff_free(pma2
);
10084 isl_die(ctx
, isl_error_unknown
,
10085 "expressions not equal", return -1);
10090 /* Check that we can properly parse multi piecewise affine expressions
10091 * where the piecewise affine expressions have different domains.
10093 static int test_multi_pw_aff_1(isl_ctx
*ctx
)
10096 isl_set
*dom
, *dom2
;
10097 isl_multi_pw_aff
*mpa1
, *mpa2
;
10102 mpa1
= isl_multi_pw_aff_read_from_str(ctx
, "{ [i] -> [i] }");
10103 dom
= isl_set_read_from_str(ctx
, "{ [i] : i > 0 }");
10104 mpa1
= isl_multi_pw_aff_intersect_domain(mpa1
, dom
);
10105 mpa2
= isl_multi_pw_aff_read_from_str(ctx
, "{ [i] -> [2i] }");
10106 mpa2
= isl_multi_pw_aff_flat_range_product(mpa1
, mpa2
);
10107 str
= "{ [i] -> [(i : i > 0), 2i] }";
10108 mpa1
= isl_multi_pw_aff_read_from_str(ctx
, str
);
10110 equal
= isl_multi_pw_aff_plain_is_equal(mpa1
, mpa2
);
10112 pa
= isl_multi_pw_aff_get_pw_aff(mpa1
, 0);
10113 dom
= isl_pw_aff_domain(pa
);
10114 pa
= isl_multi_pw_aff_get_pw_aff(mpa1
, 1);
10115 dom2
= isl_pw_aff_domain(pa
);
10116 equal_domain
= isl_set_is_equal(dom
, dom2
);
10119 isl_set_free(dom2
);
10120 isl_multi_pw_aff_free(mpa1
);
10121 isl_multi_pw_aff_free(mpa2
);
10126 isl_die(ctx
, isl_error_unknown
,
10127 "expressions not equal", return -1);
10129 if (equal_domain
< 0)
10132 isl_die(ctx
, isl_error_unknown
,
10133 "domains unexpectedly equal", return -1);
10138 /* Check that the dimensions in the explicit domain
10139 * of a multi piecewise affine expression are properly
10140 * taken into account.
10142 static int test_multi_pw_aff_2(isl_ctx
*ctx
)
10145 isl_bool involves1
, involves2
, involves3
, equal
;
10146 isl_multi_pw_aff
*mpa
, *mpa1
, *mpa2
;
10148 str
= "{ A[x,y] -> B[] : x >= y }";
10149 mpa
= isl_multi_pw_aff_read_from_str(ctx
, str
);
10150 involves1
= isl_multi_pw_aff_involves_dims(mpa
, isl_dim_in
, 0, 2);
10151 mpa1
= isl_multi_pw_aff_copy(mpa
);
10153 mpa
= isl_multi_pw_aff_insert_dims(mpa
, isl_dim_in
, 0, 1);
10154 involves2
= isl_multi_pw_aff_involves_dims(mpa
, isl_dim_in
, 0, 1);
10155 involves3
= isl_multi_pw_aff_involves_dims(mpa
, isl_dim_in
, 1, 2);
10156 str
= "{ [a,x,y] -> B[] : x >= y }";
10157 mpa2
= isl_multi_pw_aff_read_from_str(ctx
, str
);
10158 equal
= isl_multi_pw_aff_plain_is_equal(mpa
, mpa2
);
10159 isl_multi_pw_aff_free(mpa2
);
10161 mpa
= isl_multi_pw_aff_drop_dims(mpa
, isl_dim_in
, 0, 1);
10162 mpa
= isl_multi_pw_aff_set_tuple_name(mpa
, isl_dim_in
, "A");
10163 if (equal
>= 0 && equal
)
10164 equal
= isl_multi_pw_aff_plain_is_equal(mpa
, mpa1
);
10165 isl_multi_pw_aff_free(mpa1
);
10166 isl_multi_pw_aff_free(mpa
);
10168 if (involves1
< 0 || involves2
< 0 || involves3
< 0 || equal
< 0)
10171 isl_die(ctx
, isl_error_unknown
,
10172 "incorrect result of dimension insertion/removal",
10173 return isl_stat_error
);
10174 if (!involves1
|| involves2
|| !involves3
)
10175 isl_die(ctx
, isl_error_unknown
,
10176 "incorrect characterization of involved dimensions",
10177 return isl_stat_error
);
10182 /* Check that isl_multi_union_pw_aff_multi_val_on_domain
10183 * sets the explicit domain of a zero-dimensional result,
10184 * such that it can be converted to an isl_union_map.
10186 static isl_stat
test_multi_pw_aff_3(isl_ctx
*ctx
)
10189 isl_union_set
*dom
;
10191 isl_multi_union_pw_aff
*mupa
;
10192 isl_union_map
*umap
;
10194 dom
= isl_union_set_read_from_str(ctx
, "{ A[]; B[] }");
10195 space
= isl_union_set_get_space(dom
);
10196 mv
= isl_multi_val_zero(isl_space_set_from_params(space
));
10197 mupa
= isl_multi_union_pw_aff_multi_val_on_domain(dom
, mv
);
10198 umap
= isl_union_map_from_multi_union_pw_aff(mupa
);
10199 isl_union_map_free(umap
);
10201 return isl_stat_error
;
10203 return isl_stat_ok
;
10206 /* String descriptions of boxes that
10207 * are used for reconstructing box maps from their lower and upper bounds.
10209 static const char *multi_pw_aff_box_tests
[] = {
10210 "{ A[x, y] -> [] : x + y >= 0 }",
10211 "[N] -> { A[x, y] -> [x] : x + y <= N }",
10212 "[N] -> { A[x, y] -> [x : y] : x + y <= N }",
10215 /* Check that map representations of boxes can be reconstructed
10216 * from their lower and upper bounds.
10218 static isl_stat
test_multi_pw_aff_box(isl_ctx
*ctx
)
10222 for (i
= 0; i
< ARRAY_SIZE(multi_pw_aff_box_tests
); ++i
) {
10225 isl_map
*map
, *box
;
10226 isl_multi_pw_aff
*min
, *max
;
10228 str
= multi_pw_aff_box_tests
[i
];
10229 map
= isl_map_read_from_str(ctx
, str
);
10230 min
= isl_map_min_multi_pw_aff(isl_map_copy(map
));
10231 max
= isl_map_max_multi_pw_aff(isl_map_copy(map
));
10232 box
= isl_map_universe(isl_map_get_space(map
));
10233 box
= isl_map_lower_bound_multi_pw_aff(box
, min
);
10234 box
= isl_map_upper_bound_multi_pw_aff(box
, max
);
10235 equal
= isl_map_is_equal(map
, box
);
10239 return isl_stat_error
;
10241 isl_die(ctx
, isl_error_unknown
,
10242 "unexpected result", return isl_stat_error
);
10245 return isl_stat_ok
;
10248 /* Perform some tests on multi piecewise affine expressions.
10250 static int test_multi_pw_aff(isl_ctx
*ctx
)
10252 if (test_multi_pw_aff_1(ctx
) < 0)
10254 if (test_multi_pw_aff_2(ctx
) < 0)
10256 if (test_multi_pw_aff_3(ctx
) < 0)
10258 if (test_multi_pw_aff_box(ctx
) < 0)
10263 /* This is a regression test for a bug where isl_basic_map_simplify
10264 * would end up in an infinite loop. In particular, we construct
10265 * an empty basic set that is not obviously empty.
10266 * isl_basic_set_is_empty marks the basic set as empty.
10267 * After projecting out i3, the variable can be dropped completely,
10268 * but isl_basic_map_simplify refrains from doing so if the basic set
10269 * is empty and would end up in an infinite loop if it didn't test
10270 * explicitly for empty basic maps in the outer loop.
10272 static int test_simplify_1(isl_ctx
*ctx
)
10275 isl_basic_set
*bset
;
10278 str
= "{ [i0, i1, i2, i3] : i0 >= -2 and 6i2 <= 4 + i0 + 5i1 and "
10279 "i2 <= 22 and 75i2 <= 111 + 13i0 + 60i1 and "
10280 "25i2 >= 38 + 6i0 + 20i1 and i0 <= -1 and i2 >= 20 and "
10282 bset
= isl_basic_set_read_from_str(ctx
, str
);
10283 empty
= isl_basic_set_is_empty(bset
);
10284 bset
= isl_basic_set_project_out(bset
, isl_dim_set
, 3, 1);
10285 isl_basic_set_free(bset
);
10289 isl_die(ctx
, isl_error_unknown
,
10290 "basic set should be empty", return -1);
10295 /* Check that the equality in the set description below
10296 * is simplified away.
10298 static int test_simplify_2(isl_ctx
*ctx
)
10301 isl_basic_set
*bset
;
10304 str
= "{ [a] : exists e0, e1: 32e1 = 31 + 31a + 31e0 }";
10305 bset
= isl_basic_set_read_from_str(ctx
, str
);
10306 universe
= isl_basic_set_plain_is_universe(bset
);
10307 isl_basic_set_free(bset
);
10312 isl_die(ctx
, isl_error_unknown
,
10313 "equality not simplified away", return -1);
10317 /* Some simplification tests.
10319 static int test_simplify(isl_ctx
*ctx
)
10321 if (test_simplify_1(ctx
) < 0)
10323 if (test_simplify_2(ctx
) < 0)
10328 /* This is a regression test for a bug where isl_tab_basic_map_partial_lexopt
10329 * with gbr context would fail to disable the use of the shifted tableau
10330 * when transferring equalities for the input to the context, resulting
10331 * in invalid sample values.
10333 static int test_partial_lexmin(isl_ctx
*ctx
)
10336 isl_basic_set
*bset
;
10337 isl_basic_map
*bmap
;
10340 str
= "{ [1, b, c, 1 - c] -> [e] : 2e <= -c and 2e >= -3 + c }";
10341 bmap
= isl_basic_map_read_from_str(ctx
, str
);
10342 str
= "{ [a, b, c, d] : c <= 1 and 2d >= 6 - 4b - c }";
10343 bset
= isl_basic_set_read_from_str(ctx
, str
);
10344 map
= isl_basic_map_partial_lexmin(bmap
, bset
, NULL
);
10353 /* Check that the variable compression performed on the existentially
10354 * quantified variables inside isl_basic_set_compute_divs is not confused
10355 * by the implicit equalities among the parameters.
10357 static int test_compute_divs(isl_ctx
*ctx
)
10360 isl_basic_set
*bset
;
10363 str
= "[a, b, c, d, e] -> { [] : exists (e0: 2d = b and a <= 124 and "
10364 "b <= 2046 and b >= 0 and b <= 60 + 64a and 2e >= b + 2c and "
10365 "2e >= b and 2e <= 1 + b and 2e <= 1 + b + 2c and "
10366 "32768e0 >= -124 + a and 2097152e0 <= 60 + 64a - b) }";
10367 bset
= isl_basic_set_read_from_str(ctx
, str
);
10368 set
= isl_basic_set_compute_divs(bset
);
10376 /* Check that isl_schedule_get_map is not confused by a schedule tree
10377 * with divergent filter node parameters, as can result from a call
10378 * to isl_schedule_intersect_domain.
10380 static int test_schedule_tree(isl_ctx
*ctx
)
10383 isl_union_set
*uset
;
10384 isl_schedule
*sched1
, *sched2
;
10385 isl_union_map
*umap
;
10387 uset
= isl_union_set_read_from_str(ctx
, "{ A[i] }");
10388 sched1
= isl_schedule_from_domain(uset
);
10389 uset
= isl_union_set_read_from_str(ctx
, "{ B[] }");
10390 sched2
= isl_schedule_from_domain(uset
);
10392 sched1
= isl_schedule_sequence(sched1
, sched2
);
10393 str
= "[n] -> { A[i] : 0 <= i < n; B[] }";
10394 uset
= isl_union_set_read_from_str(ctx
, str
);
10395 sched1
= isl_schedule_intersect_domain(sched1
, uset
);
10396 umap
= isl_schedule_get_map(sched1
);
10397 isl_schedule_free(sched1
);
10398 isl_union_map_free(umap
);
10405 /* Check that a zero-dimensional prefix schedule keeps track
10406 * of the domain and outer filters.
10408 static int test_schedule_tree_prefix(isl_ctx
*ctx
)
10412 isl_union_set
*uset
;
10413 isl_union_set_list
*filters
;
10414 isl_multi_union_pw_aff
*mupa
, *mupa2
;
10415 isl_schedule_node
*node
;
10417 str
= "{ S1[i,j] : 0 <= i,j < 10; S2[i,j] : 0 <= i,j < 10 }";
10418 uset
= isl_union_set_read_from_str(ctx
, str
);
10419 node
= isl_schedule_node_from_domain(uset
);
10420 node
= isl_schedule_node_child(node
, 0);
10422 str
= "{ S1[i,j] : i > j }";
10423 uset
= isl_union_set_read_from_str(ctx
, str
);
10424 filters
= isl_union_set_list_from_union_set(uset
);
10425 str
= "{ S1[i,j] : i <= j; S2[i,j] }";
10426 uset
= isl_union_set_read_from_str(ctx
, str
);
10427 filters
= isl_union_set_list_add(filters
, uset
);
10428 node
= isl_schedule_node_insert_sequence(node
, filters
);
10430 node
= isl_schedule_node_grandchild(node
, 0, 0);
10431 mupa
= isl_schedule_node_get_prefix_schedule_multi_union_pw_aff(node
);
10432 str
= "([] : { S1[i,j] : i > j })";
10433 mupa2
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10434 equal
= isl_multi_union_pw_aff_plain_is_equal(mupa
, mupa2
);
10435 isl_multi_union_pw_aff_free(mupa2
);
10436 isl_multi_union_pw_aff_free(mupa
);
10437 isl_schedule_node_free(node
);
10442 isl_die(ctx
, isl_error_unknown
, "unexpected prefix schedule",
10448 /* Check that the reaching domain elements and the prefix schedule
10449 * at a leaf node are the same before and after grouping.
10451 static int test_schedule_tree_group_1(isl_ctx
*ctx
)
10456 isl_union_set
*uset
;
10457 isl_multi_union_pw_aff
*mupa
;
10458 isl_union_pw_multi_aff
*upma1
, *upma2
;
10459 isl_union_set
*domain1
, *domain2
;
10460 isl_union_map
*umap1
, *umap2
;
10461 isl_schedule_node
*node
;
10463 str
= "{ S1[i,j] : 0 <= i,j < 10; S2[i,j] : 0 <= i,j < 10 }";
10464 uset
= isl_union_set_read_from_str(ctx
, str
);
10465 node
= isl_schedule_node_from_domain(uset
);
10466 node
= isl_schedule_node_child(node
, 0);
10467 str
= "[{ S1[i,j] -> [i]; S2[i,j] -> [9 - i] }]";
10468 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10469 node
= isl_schedule_node_insert_partial_schedule(node
, mupa
);
10470 node
= isl_schedule_node_child(node
, 0);
10471 str
= "[{ S1[i,j] -> [j]; S2[i,j] -> [j] }]";
10472 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10473 node
= isl_schedule_node_insert_partial_schedule(node
, mupa
);
10474 node
= isl_schedule_node_child(node
, 0);
10475 umap1
= isl_schedule_node_get_prefix_schedule_union_map(node
);
10476 upma1
= isl_schedule_node_get_prefix_schedule_union_pw_multi_aff(node
);
10477 domain1
= isl_schedule_node_get_domain(node
);
10478 id
= isl_id_alloc(ctx
, "group", NULL
);
10479 node
= isl_schedule_node_parent(node
);
10480 node
= isl_schedule_node_group(node
, id
);
10481 node
= isl_schedule_node_child(node
, 0);
10482 umap2
= isl_schedule_node_get_prefix_schedule_union_map(node
);
10483 upma2
= isl_schedule_node_get_prefix_schedule_union_pw_multi_aff(node
);
10484 domain2
= isl_schedule_node_get_domain(node
);
10485 equal
= isl_union_pw_multi_aff_plain_is_equal(upma1
, upma2
);
10486 if (equal
>= 0 && equal
)
10487 equal
= isl_union_set_is_equal(domain1
, domain2
);
10488 if (equal
>= 0 && equal
)
10489 equal
= isl_union_map_is_equal(umap1
, umap2
);
10490 isl_union_map_free(umap1
);
10491 isl_union_map_free(umap2
);
10492 isl_union_set_free(domain1
);
10493 isl_union_set_free(domain2
);
10494 isl_union_pw_multi_aff_free(upma1
);
10495 isl_union_pw_multi_aff_free(upma2
);
10496 isl_schedule_node_free(node
);
10501 isl_die(ctx
, isl_error_unknown
,
10502 "expressions not equal", return -1);
10507 /* Check that we can have nested groupings and that the union map
10508 * schedule representation is the same before and after the grouping.
10509 * Note that after the grouping, the union map representation contains
10510 * the domain constraints from the ranges of the expansion nodes,
10511 * while they are missing from the union map representation of
10512 * the tree without expansion nodes.
10514 * Also check that the global expansion is as expected.
10516 static int test_schedule_tree_group_2(isl_ctx
*ctx
)
10518 int equal
, equal_expansion
;
10521 isl_union_set
*uset
;
10522 isl_union_map
*umap1
, *umap2
;
10523 isl_union_map
*expansion1
, *expansion2
;
10524 isl_union_set_list
*filters
;
10525 isl_multi_union_pw_aff
*mupa
;
10526 isl_schedule
*schedule
;
10527 isl_schedule_node
*node
;
10529 str
= "{ S1[i,j] : 0 <= i,j < 10; S2[i,j] : 0 <= i,j < 10; "
10530 "S3[i,j] : 0 <= i,j < 10 }";
10531 uset
= isl_union_set_read_from_str(ctx
, str
);
10532 node
= isl_schedule_node_from_domain(uset
);
10533 node
= isl_schedule_node_child(node
, 0);
10534 str
= "[{ S1[i,j] -> [i]; S2[i,j] -> [i]; S3[i,j] -> [i] }]";
10535 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10536 node
= isl_schedule_node_insert_partial_schedule(node
, mupa
);
10537 node
= isl_schedule_node_child(node
, 0);
10538 str
= "{ S1[i,j] }";
10539 uset
= isl_union_set_read_from_str(ctx
, str
);
10540 filters
= isl_union_set_list_from_union_set(uset
);
10541 str
= "{ S2[i,j]; S3[i,j] }";
10542 uset
= isl_union_set_read_from_str(ctx
, str
);
10543 filters
= isl_union_set_list_add(filters
, uset
);
10544 node
= isl_schedule_node_insert_sequence(node
, filters
);
10545 node
= isl_schedule_node_grandchild(node
, 1, 0);
10546 str
= "{ S2[i,j] }";
10547 uset
= isl_union_set_read_from_str(ctx
, str
);
10548 filters
= isl_union_set_list_from_union_set(uset
);
10549 str
= "{ S3[i,j] }";
10550 uset
= isl_union_set_read_from_str(ctx
, str
);
10551 filters
= isl_union_set_list_add(filters
, uset
);
10552 node
= isl_schedule_node_insert_sequence(node
, filters
);
10554 schedule
= isl_schedule_node_get_schedule(node
);
10555 umap1
= isl_schedule_get_map(schedule
);
10556 uset
= isl_schedule_get_domain(schedule
);
10557 umap1
= isl_union_map_intersect_domain(umap1
, uset
);
10558 isl_schedule_free(schedule
);
10560 node
= isl_schedule_node_grandparent(node
);
10561 id
= isl_id_alloc(ctx
, "group1", NULL
);
10562 node
= isl_schedule_node_group(node
, id
);
10563 node
= isl_schedule_node_grandchild(node
, 1, 0);
10564 id
= isl_id_alloc(ctx
, "group2", NULL
);
10565 node
= isl_schedule_node_group(node
, id
);
10567 schedule
= isl_schedule_node_get_schedule(node
);
10568 umap2
= isl_schedule_get_map(schedule
);
10569 isl_schedule_free(schedule
);
10571 node
= isl_schedule_node_root(node
);
10572 node
= isl_schedule_node_child(node
, 0);
10573 expansion1
= isl_schedule_node_get_subtree_expansion(node
);
10574 isl_schedule_node_free(node
);
10576 str
= "{ group1[i] -> S1[i,j] : 0 <= i,j < 10; "
10577 "group1[i] -> S2[i,j] : 0 <= i,j < 10; "
10578 "group1[i] -> S3[i,j] : 0 <= i,j < 10 }";
10580 expansion2
= isl_union_map_read_from_str(ctx
, str
);
10582 equal
= isl_union_map_is_equal(umap1
, umap2
);
10583 equal_expansion
= isl_union_map_is_equal(expansion1
, expansion2
);
10585 isl_union_map_free(umap1
);
10586 isl_union_map_free(umap2
);
10587 isl_union_map_free(expansion1
);
10588 isl_union_map_free(expansion2
);
10590 if (equal
< 0 || equal_expansion
< 0)
10593 isl_die(ctx
, isl_error_unknown
,
10594 "expressions not equal", return -1);
10595 if (!equal_expansion
)
10596 isl_die(ctx
, isl_error_unknown
,
10597 "unexpected expansion", return -1);
10602 /* Some tests for the isl_schedule_node_group function.
10604 static int test_schedule_tree_group(isl_ctx
*ctx
)
10606 if (test_schedule_tree_group_1(ctx
) < 0)
10608 if (test_schedule_tree_group_2(ctx
) < 0)
10617 { "{ rat: [i] : 0 <= i <= 10 }",
10618 "{ rat: coefficients[[cst] -> [a]] : cst >= 0 and 10a + cst >= 0 }" },
10619 { "{ rat: [i] : FALSE }",
10620 "{ rat: coefficients[[cst] -> [a]] }" },
10621 { "{ rat: [i] : }",
10622 "{ rat: coefficients[[cst] -> [0]] : cst >= 0 }" },
10623 { "{ [0:,1,2:3] }",
10624 "{ rat: coefficients[[c_cst] -> [a, b, c]] : "
10625 "a >= 0 and 2c >= -c_cst - b and 3c >= -c_cst - b }" },
10626 { "[M, N] -> { [x = (1 - N):-1, -4x:(M - 4x)] }",
10627 "{ rat: coefficients[[c_cst, c_M = 0:, c_N = 0:] -> [a, b = -c_M:]] :"
10628 "4b >= -c_N + a and 4b >= -c_cst - 2c_N + a }" },
10629 { "{ rat : [x, y] : 1 <= 2x <= 9 and 2 <= 3y <= 16 }",
10630 "{ rat: coefficients[[c_cst] -> [c_x, c_y]] : "
10631 "4c_y >= -6c_cst - 3c_x and 4c_y >= -6c_cst - 27c_x and "
10632 "32c_y >= -6c_cst - 3c_x and 32c_y >= -6c_cst - 27c_x }" },
10633 { "{ [x, y, z] : 3y <= 2x - 2 and y >= -2 + 2x and 2y >= 2 - x }",
10634 "{ rat: coefficients[[cst] -> [a, b, c]] }" },
10641 { "{ rat: coefficients[[cst] -> [a]] : cst >= 0 and 10a + cst >= 0 }",
10642 "{ rat: [i] : 0 <= i <= 10 }" },
10643 { "{ rat: coefficients[[cst] -> [a]] : FALSE }",
10645 { "{ rat: coefficients[[cst] -> [a]] }",
10646 "{ rat: [i] : FALSE }" },
10649 /* Test the basic functionality of isl_basic_set_coefficients and
10650 * isl_basic_set_solutions.
10652 static int test_dual(isl_ctx
*ctx
)
10656 for (i
= 0; i
< ARRAY_SIZE(coef_tests
); ++i
) {
10658 isl_basic_set
*bset1
, *bset2
;
10660 bset1
= isl_basic_set_read_from_str(ctx
, coef_tests
[i
].set
);
10661 bset2
= isl_basic_set_read_from_str(ctx
, coef_tests
[i
].dual
);
10662 bset1
= isl_basic_set_coefficients(bset1
);
10663 equal
= isl_basic_set_is_equal(bset1
, bset2
);
10664 isl_basic_set_free(bset1
);
10665 isl_basic_set_free(bset2
);
10669 isl_die(ctx
, isl_error_unknown
,
10670 "incorrect dual", return -1);
10673 for (i
= 0; i
< ARRAY_SIZE(sol_tests
); ++i
) {
10675 isl_basic_set
*bset1
, *bset2
;
10677 bset1
= isl_basic_set_read_from_str(ctx
, sol_tests
[i
].set
);
10678 bset2
= isl_basic_set_read_from_str(ctx
, sol_tests
[i
].dual
);
10679 bset1
= isl_basic_set_solutions(bset1
);
10680 equal
= isl_basic_set_is_equal(bset1
, bset2
);
10681 isl_basic_set_free(bset1
);
10682 isl_basic_set_free(bset2
);
10686 isl_die(ctx
, isl_error_unknown
,
10687 "incorrect dual", return -1);
10696 const char *domain
;
10697 const char *schedule
;
10702 { 0, 0, "[n] -> { S[i,j] : 0 <= i,j < n }",
10703 "[{ S[i,j] -> [i] }, { S[i,j] -> [j] }]",
10705 "[{ S[i,j] -> [floor(i/32)] }, { S[i,j] -> [floor(j/32)] }]",
10706 "[{ S[i,j] -> [i] }, { S[i,j] -> [j] }]",
10708 { 1, 0, "[n] -> { S[i,j] : 0 <= i,j < n }",
10709 "[{ S[i,j] -> [i] }, { S[i,j] -> [j] }]",
10711 "[{ S[i,j] -> [32*floor(i/32)] }, { S[i,j] -> [32*floor(j/32)] }]",
10712 "[{ S[i,j] -> [i] }, { S[i,j] -> [j] }]",
10714 { 0, 1, "[n] -> { S[i,j] : 0 <= i,j < n }",
10715 "[{ S[i,j] -> [i] }, { S[i,j] -> [j] }]",
10717 "[{ S[i,j] -> [floor(i/32)] }, { S[i,j] -> [floor(j/32)] }]",
10718 "[{ S[i,j] -> [i%32] }, { S[i,j] -> [j%32] }]",
10720 { 1, 1, "[n] -> { S[i,j] : 0 <= i,j < n }",
10721 "[{ S[i,j] -> [i] }, { S[i,j] -> [j] }]",
10723 "[{ S[i,j] -> [32*floor(i/32)] }, { S[i,j] -> [32*floor(j/32)] }]",
10724 "[{ S[i,j] -> [i%32] }, { S[i,j] -> [j%32] }]",
10728 /* Basic tiling tests. Create a schedule tree with a domain and a band node,
10729 * tile the band and then check if the tile and point bands have the
10730 * expected partial schedule.
10732 static int test_tile(isl_ctx
*ctx
)
10738 scale
= isl_options_get_tile_scale_tile_loops(ctx
);
10739 shift
= isl_options_get_tile_shift_point_loops(ctx
);
10741 for (i
= 0; i
< ARRAY_SIZE(tile_tests
); ++i
) {
10745 isl_union_set
*domain
;
10746 isl_multi_union_pw_aff
*mupa
, *mupa2
;
10747 isl_schedule_node
*node
;
10748 isl_multi_val
*sizes
;
10750 opt
= tile_tests
[i
].scale_tile
;
10751 isl_options_set_tile_scale_tile_loops(ctx
, opt
);
10752 opt
= tile_tests
[i
].shift_point
;
10753 isl_options_set_tile_shift_point_loops(ctx
, opt
);
10755 str
= tile_tests
[i
].domain
;
10756 domain
= isl_union_set_read_from_str(ctx
, str
);
10757 node
= isl_schedule_node_from_domain(domain
);
10758 node
= isl_schedule_node_child(node
, 0);
10759 str
= tile_tests
[i
].schedule
;
10760 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10761 node
= isl_schedule_node_insert_partial_schedule(node
, mupa
);
10762 str
= tile_tests
[i
].sizes
;
10763 sizes
= isl_multi_val_read_from_str(ctx
, str
);
10764 node
= isl_schedule_node_band_tile(node
, sizes
);
10766 str
= tile_tests
[i
].tile
;
10767 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10768 mupa2
= isl_schedule_node_band_get_partial_schedule(node
);
10769 equal
= isl_multi_union_pw_aff_plain_is_equal(mupa
, mupa2
);
10770 isl_multi_union_pw_aff_free(mupa
);
10771 isl_multi_union_pw_aff_free(mupa2
);
10773 node
= isl_schedule_node_child(node
, 0);
10775 str
= tile_tests
[i
].point
;
10776 mupa
= isl_multi_union_pw_aff_read_from_str(ctx
, str
);
10777 mupa2
= isl_schedule_node_band_get_partial_schedule(node
);
10778 if (equal
>= 0 && equal
)
10779 equal
= isl_multi_union_pw_aff_plain_is_equal(mupa
,
10781 isl_multi_union_pw_aff_free(mupa
);
10782 isl_multi_union_pw_aff_free(mupa2
);
10784 isl_schedule_node_free(node
);
10789 isl_die(ctx
, isl_error_unknown
,
10790 "unexpected result", return -1);
10793 isl_options_set_tile_scale_tile_loops(ctx
, scale
);
10794 isl_options_set_tile_shift_point_loops(ctx
, shift
);
10799 /* Check that the domain hash of a space is equal to the hash
10800 * of the domain of the space, both ignoring parameters.
10802 static int test_domain_hash(isl_ctx
*ctx
)
10806 uint32_t hash1
, hash2
;
10808 map
= isl_map_read_from_str(ctx
, "[n] -> { A[B[x] -> C[]] -> D[] }");
10809 space
= isl_map_get_space(map
);
10811 hash1
= isl_space_get_tuple_domain_hash(space
);
10812 space
= isl_space_domain(space
);
10813 hash2
= isl_space_get_tuple_hash(space
);
10814 isl_space_free(space
);
10818 if (hash1
!= hash2
)
10819 isl_die(ctx
, isl_error_unknown
,
10820 "domain hash not equal to hash of domain", return -1);
10825 /* Check that a universe basic set that is not obviously equal to the universe
10826 * is still recognized as being equal to the universe.
10828 static int test_universe(isl_ctx
*ctx
)
10831 isl_basic_set
*bset
;
10834 s
= "{ [] : exists x, y : 3y <= 2x and y >= -3 + 2x and 2y >= 2 - x }";
10835 bset
= isl_basic_set_read_from_str(ctx
, s
);
10836 is_univ
= isl_basic_set_is_universe(bset
);
10837 isl_basic_set_free(bset
);
10842 isl_die(ctx
, isl_error_unknown
,
10843 "not recognized as universe set", return -1);
10848 /* Sets for which chambers are computed and checked.
10850 const char *chambers_tests
[] = {
10851 "[A, B, C] -> { [x, y, z] : x >= 0 and y >= 0 and y <= A - x and "
10852 "z >= 0 and z <= C - y and z <= B - x - y }",
10855 /* Add the domain of "cell" to "cells".
10857 static isl_stat
add_cell(__isl_take isl_cell
*cell
, void *user
)
10859 isl_basic_set_list
**cells
= user
;
10860 isl_basic_set
*dom
;
10862 dom
= isl_cell_get_domain(cell
);
10863 isl_cell_free(cell
);
10864 *cells
= isl_basic_set_list_add(*cells
, dom
);
10866 return *cells
? isl_stat_ok
: isl_stat_error
;
10869 /* Check that the elements of "list" are pairwise disjoint.
10871 static isl_stat
check_pairwise_disjoint(__isl_keep isl_basic_set_list
*list
)
10876 n
= isl_basic_set_list_n_basic_set(list
);
10878 return isl_stat_error
;
10880 for (i
= 0; i
< n
; ++i
) {
10881 isl_basic_set
*bset_i
;
10883 bset_i
= isl_basic_set_list_get_basic_set(list
, i
);
10884 for (j
= i
+ 1; j
< n
; ++j
) {
10885 isl_basic_set
*bset_j
;
10888 bset_j
= isl_basic_set_list_get_basic_set(list
, j
);
10889 disjoint
= isl_basic_set_is_disjoint(bset_i
, bset_j
);
10890 isl_basic_set_free(bset_j
);
10892 isl_die(isl_basic_set_list_get_ctx(list
),
10893 isl_error_unknown
, "not disjoint",
10895 if (disjoint
< 0 || !disjoint
)
10898 isl_basic_set_free(bset_i
);
10900 return isl_stat_error
;
10903 return isl_stat_ok
;
10906 /* Check that the chambers computed by isl_vertices_foreach_disjoint_cell
10907 * are pairwise disjoint.
10909 static int test_chambers(isl_ctx
*ctx
)
10913 for (i
= 0; i
< ARRAY_SIZE(chambers_tests
); ++i
) {
10914 isl_basic_set
*bset
;
10915 isl_vertices
*vertices
;
10916 isl_basic_set_list
*cells
;
10919 bset
= isl_basic_set_read_from_str(ctx
, chambers_tests
[i
]);
10920 vertices
= isl_basic_set_compute_vertices(bset
);
10921 cells
= isl_basic_set_list_alloc(ctx
, 0);
10922 if (isl_vertices_foreach_disjoint_cell(vertices
, &add_cell
,
10924 cells
= isl_basic_set_list_free(cells
);
10925 ok
= check_pairwise_disjoint(cells
);
10926 isl_basic_set_list_free(cells
);
10927 isl_vertices_free(vertices
);
10928 isl_basic_set_free(bset
);
10939 int (*fn
)(isl_ctx
*ctx
);
10941 { "universe", &test_universe
},
10942 { "domain hash", &test_domain_hash
},
10943 { "dual", &test_dual
},
10944 { "dependence analysis", &test_flow
},
10945 { "val", &test_val
},
10946 { "compute divs", &test_compute_divs
},
10947 { "partial lexmin", &test_partial_lexmin
},
10948 { "simplify", &test_simplify
},
10949 { "curry", &test_curry
},
10950 { "piecewise multi affine expressions", &test_pw_multi_aff
},
10951 { "multi piecewise affine expressions", &test_multi_pw_aff
},
10952 { "conversion", &test_conversion
},
10953 { "list", &test_list
},
10954 { "align parameters", &test_align_parameters
},
10955 { "drop unused parameters", &test_drop_unused_parameters
},
10956 { "pullback", &test_pullback
},
10957 { "AST", &test_ast
},
10958 { "AST build", &test_ast_build
},
10959 { "AST generation", &test_ast_gen
},
10960 { "eliminate", &test_eliminate
},
10961 { "deltas_map", &test_deltas_map
},
10962 { "residue class", &test_residue_class
},
10963 { "div", &test_div
},
10964 { "slice", &test_slice
},
10965 { "sample", &test_sample
},
10966 { "empty projection", &test_empty_projection
},
10967 { "output", &test_output
},
10968 { "vertices", &test_vertices
},
10969 { "chambers", &test_chambers
},
10970 { "fixed", &test_fixed
},
10971 { "equal", &test_equal
},
10972 { "disjoint", &test_disjoint
},
10973 { "product", &test_product
},
10974 { "dim_max", &test_dim_max
},
10975 { "affine", &test_aff
},
10976 { "injective", &test_injective
},
10977 { "schedule (whole component)", &test_schedule_whole
},
10978 { "schedule (incremental)", &test_schedule_incremental
},
10979 { "schedule tree", &test_schedule_tree
},
10980 { "schedule tree prefix", &test_schedule_tree_prefix
},
10981 { "schedule tree grouping", &test_schedule_tree_group
},
10982 { "tile", &test_tile
},
10983 { "union map", &test_union_map
},
10984 { "union_pw", &test_union_pw
},
10985 { "locus", &test_locus
},
10986 { "eval", &test_eval
},
10987 { "parse", &test_parse
},
10988 { "single-valued", &test_sv
},
10989 { "recession cone", &test_recession_cone
},
10990 { "affine hull", &test_affine_hull
},
10991 { "simple_hull", &test_simple_hull
},
10992 { "box hull", &test_box_hull
},
10993 { "coalesce", &test_coalesce
},
10994 { "factorize", &test_factorize
},
10995 { "subset", &test_subset
},
10996 { "subtract", &test_subtract
},
10997 { "intersect", &test_intersect
},
10998 { "lexmin", &test_lexmin
},
10999 { "min", &test_min
},
11000 { "set lower bounds", &test_min_mpa
},
11001 { "gist", &test_gist
},
11002 { "piecewise quasi-polynomials", &test_pwqp
},
11003 { "lift", &test_lift
},
11004 { "bind parameters", &test_bind
},
11005 { "unbind parameters", &test_unbind
},
11006 { "bound", &test_bound
},
11007 { "get lists", &test_get_list
},
11008 { "union", &test_union
},
11009 { "split periods", &test_split_periods
},
11010 { "lexicographic order", &test_lex
},
11011 { "bijectivity", &test_bijective
},
11012 { "dataflow analysis", &test_dep
},
11013 { "reading", &test_read
},
11014 { "bounded", &test_bounded
},
11015 { "construction", &test_construction
},
11016 { "dimension manipulation", &test_dim
},
11017 { "map application", &test_application
},
11018 { "convex hull", &test_convex_hull
},
11019 { "transitive closure", &test_closure
},
11020 { "isl_bool", &test_isl_bool
},
11023 int main(int argc
, char **argv
)
11026 struct isl_ctx
*ctx
;
11027 struct isl_options
*options
;
11029 options
= isl_options_new_with_defaults();
11031 argc
= isl_options_parse(options
, argc
, argv
, ISL_ARG_ALL
);
11033 ctx
= isl_ctx_alloc_with_options(&isl_options_args
, options
);
11034 for (i
= 0; i
< ARRAY_SIZE(tests
); ++i
) {
11035 printf("%s\n", tests
[i
].name
);
11036 if (tests
[i
].fn(ctx
) < 0)