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isl_range.c: collect_fixed_sign_terms: drop dead code
[isl.git] / isl_range.c
blobfdec109075919256fbde888d81529bda93a133eb
1 #include <isl_constraint.h>
2 #include <isl_set.h>
3 #include <isl_polynomial_private.h>
4 #include <isl_morph.h>
5 #include <isl_range.h>
6
7 struct range_data {
8 struct isl_bound *bound;
9 int *signs;
10 int sign;
11 int test_monotonicity;
12 int monotonicity;
13 int tight;
14 isl_qpolynomial *poly;
15 isl_pw_qpolynomial_fold *pwf;
16 isl_pw_qpolynomial_fold *pwf_tight;
17 };
18
19 static int propagate_on_domain(__isl_take isl_basic_set *bset,
20 __isl_take isl_qpolynomial *poly, struct range_data *data);
21
22 /* Check whether the polynomial "poly" has sign "sign" over "bset",
23 * i.e., if sign == 1, check that the lower bound on the polynomial
24 * is non-negative and if sign == -1, check that the upper bound on
25 * the polynomial is non-positive.
26 */
27 static int has_sign(__isl_keep isl_basic_set *bset,
28 __isl_keep isl_qpolynomial *poly, int sign, int *signs)
29 {
30 struct range_data data_m;
31 unsigned nvar;
32 unsigned nparam;
33 isl_dim *dim;
34 isl_qpolynomial *opt;
35 int r;
36 enum isl_fold type;
37
38 nparam = isl_basic_set_dim(bset, isl_dim_param);
39 nvar = isl_basic_set_dim(bset, isl_dim_set);
40
41 bset = isl_basic_set_copy(bset);
42 poly = isl_qpolynomial_copy(poly);
43
44 bset = isl_basic_set_move_dims(bset, isl_dim_set, 0,
45 isl_dim_param, 0, nparam);
46 poly = isl_qpolynomial_move_dims(poly, isl_dim_set, 0,
47 isl_dim_param, 0, nparam);
48
49 dim = isl_qpolynomial_get_dim(poly);
50 dim = isl_dim_drop(dim, isl_dim_set, 0, isl_dim_size(dim, isl_dim_set));
51
52 data_m.test_monotonicity = 0;
53 data_m.signs = signs;
54 data_m.sign = -sign;
55 type = data_m.sign < 0 ? isl_fold_min : isl_fold_max;
56 data_m.pwf = isl_pw_qpolynomial_fold_zero(dim, type);
57 data_m.tight = 0;
58 data_m.pwf_tight = NULL;
59
60 if (propagate_on_domain(bset, poly, &data_m) < 0)
61 goto error;
62
63 if (sign > 0)
64 opt = isl_pw_qpolynomial_fold_min(data_m.pwf);
65 else
66 opt = isl_pw_qpolynomial_fold_max(data_m.pwf);
67
68 if (!opt)
69 r = -1;
70 else if (isl_qpolynomial_is_nan(opt) ||
71 isl_qpolynomial_is_infty(opt) ||
72 isl_qpolynomial_is_neginfty(opt))
73 r = 0;
74 else
75 r = sign * isl_qpolynomial_sgn(opt) >= 0;
76
77 isl_qpolynomial_free(opt);
78
79 return r;
80 error:
81 isl_pw_qpolynomial_fold_free(data_m.pwf);
82 return -1;
83 }
84
85 /* Return 1 if poly is monotonically increasing in the last set variable,
86 * -1 if poly is monotonically decreasing in the last set variable,
87 * 0 if no conclusion,
88 * -2 on error.
89 *
90 * We simply check the sign of p(x+1)-p(x)
91 */
92 static int monotonicity(__isl_keep isl_basic_set *bset,
93 __isl_keep isl_qpolynomial *poly, struct range_data *data)
94 {
95 isl_ctx *ctx;
96 isl_dim *dim;
97 isl_qpolynomial *sub = NULL;
98 isl_qpolynomial *diff = NULL;
99 int result = 0;
100 int s;
101 unsigned nvar;
102
103 ctx = isl_qpolynomial_get_ctx(poly);
104 dim = isl_qpolynomial_get_dim(poly);
105
106 nvar = isl_basic_set_dim(bset, isl_dim_set);
107
108 sub = isl_qpolynomial_var(isl_dim_copy(dim), isl_dim_set, nvar - 1);
109 sub = isl_qpolynomial_add(sub,
110 isl_qpolynomial_rat_cst(dim, ctx->one, ctx->one));
111
112 diff = isl_qpolynomial_substitute(isl_qpolynomial_copy(poly),
113 isl_dim_set, nvar - 1, 1, &sub);
114 diff = isl_qpolynomial_sub(diff, isl_qpolynomial_copy(poly));
115
116 s = has_sign(bset, diff, 1, data->signs);
117 if (s < 0)
118 goto error;
119 if (s)
120 result = 1;
121 else {
122 s = has_sign(bset, diff, -1, data->signs);
123 if (s < 0)
124 goto error;
125 if (s)
126 result = -1;
127 }
128
129 isl_qpolynomial_free(diff);
130 isl_qpolynomial_free(sub);
131
132 return result;
133 error:
134 isl_qpolynomial_free(diff);
135 isl_qpolynomial_free(sub);
136 return -2;
137 }
138
139 static __isl_give isl_qpolynomial *bound2poly(__isl_take isl_constraint *bound,
140 __isl_take isl_dim *dim, unsigned pos, int sign)
141 {
142 if (!bound) {
143 if (sign > 0)
144 return isl_qpolynomial_infty(dim);
145 else
146 return isl_qpolynomial_neginfty(dim);
147 }
148 isl_dim_free(dim);
149 return isl_qpolynomial_from_constraint(bound, isl_dim_set, pos);
150 }
151
152 static int bound_is_integer(__isl_take isl_constraint *bound, unsigned pos)
153 {
154 isl_int c;
155 int is_int;
156
157 if (!bound)
158 return 1;
159
160 isl_int_init(c);
161 isl_constraint_get_coefficient(bound, isl_dim_set, pos, &c);
162 is_int = isl_int_is_one(c) || isl_int_is_negone(c);
163 isl_int_clear(c);
164
165 return is_int;
166 }
167
168 struct isl_fixed_sign_data {
169 int *signs;
170 int sign;
171 isl_qpolynomial *poly;
172 };
173
174 /* Add term "term" to data->poly if it has sign data->sign.
175 * The sign is determined based on the signs of the parameters
176 * and variables in data->signs.
177 */
178 static int collect_fixed_sign_terms(__isl_take isl_term *term, void *user)
179 {
180 struct isl_fixed_sign_data *data = (struct isl_fixed_sign_data *)user;
181 isl_int n;
182 int i;
183 int sign;
184 unsigned nparam;
185 unsigned nvar;
186
187 if (!term)
188 return -1;
189
190 nparam = isl_term_dim(term, isl_dim_param);
191 nvar = isl_term_dim(term, isl_dim_set);
192
193 isl_assert(isl_term_get_ctx(term), isl_term_dim(term, isl_dim_div) == 0,
194 return -1);
195
196 isl_int_init(n);
197
198 isl_term_get_num(term, &n);
199
200 sign = isl_int_sgn(n);
201 for (i = 0; i < nparam; ++i) {
202 if (data->signs[i] > 0)
203 continue;
204 if (isl_term_get_exp(term, isl_dim_param, i) % 2)
205 sign = -sign;
206 }
207 for (i = 0; i < nvar; ++i) {
208 if (data->signs[nparam + i] > 0)
209 continue;
210 if (isl_term_get_exp(term, isl_dim_set, i) % 2)
211 sign = -sign;
212 }
213
214 if (sign == data->sign) {
215 isl_qpolynomial *t = isl_qpolynomial_from_term(term);
216
217 data->poly = isl_qpolynomial_add(data->poly, t);
218 } else
219 isl_term_free(term);
220
221 isl_int_clear(n);
222
223 return 0;
224 }
225
226 /* Construct and return a polynomial that consists of the terms
227 * in "poly" that have sign "sign".
228 */
229 static __isl_give isl_qpolynomial *fixed_sign_terms(
230 __isl_keep isl_qpolynomial *poly, int *signs, int sign)
231 {
232 struct isl_fixed_sign_data data = { signs, sign };
233 data.poly = isl_qpolynomial_zero(isl_qpolynomial_get_dim(poly));
234
235 if (isl_qpolynomial_foreach_term(poly, collect_fixed_sign_terms, &data) < 0)
236 goto error;
237
238 return data.poly;
239 error:
240 isl_qpolynomial_free(data.poly);
241 return NULL;
242 }
243
244 /* Helper function to add a guarded polynomial to either pwf_tight or pwf,
245 * depending on whether the result has been determined to be tight.
246 */
247 static int add_guarded_poly(__isl_take isl_basic_set *bset,
248 __isl_take isl_qpolynomial *poly, struct range_data *data)
249 {
250 enum isl_fold type = data->sign < 0 ? isl_fold_min : isl_fold_max;
251 isl_set *set;
252 isl_qpolynomial_fold *fold;
253 isl_pw_qpolynomial_fold *pwf;
254
255 fold = isl_qpolynomial_fold_alloc(type, poly);
256 set = isl_set_from_basic_set(bset);
257 pwf = isl_pw_qpolynomial_fold_alloc(type, set, fold);
258 if (data->tight)
259 data->pwf_tight = isl_pw_qpolynomial_fold_fold(
260 data->pwf_tight, pwf);
261 else
262 data->pwf = isl_pw_qpolynomial_fold_fold(data->pwf, pwf);
263
264 return 0;
265 }
266
267 /* Given a lower and upper bound on the final variable and constraints
268 * on the remaining variables where these bounds are active,
269 * eliminate the variable from data->poly based on these bounds.
270 * If the polynomial has been determined to be monotonic
271 * in the variable, then simply plug in the appropriate bound.
272 * If the current polynomial is tight and if this bound is integer,
273 * then the result is still tight. In all other cases, the results
274 * may not be tight.
275 * Otherwise, plug in the largest bound (in absolute value) in
276 * the positive terms (if an upper bound is wanted) or the negative terms
277 * (if a lower bounded is wanted) and the other bound in the other terms.
278 *
279 * If all variables have been eliminated, then record the result.
280 * Ohterwise, recurse on the next variable.
281 */
282 static int propagate_on_bound_pair(__isl_take isl_constraint *lower,
283 __isl_take isl_constraint *upper, __isl_take isl_basic_set *bset,
284 void *user)
285 {
286 struct range_data *data = (struct range_data *)user;
287 int save_tight = data->tight;
288 isl_qpolynomial *poly;
289 int r;
290 unsigned nvar;
291
292 nvar = isl_basic_set_dim(bset, isl_dim_set);
293
294 if (data->monotonicity) {
295 isl_qpolynomial *sub;
296 isl_dim *dim = isl_qpolynomial_get_dim(data->poly);
297 if (data->monotonicity * data->sign > 0) {
298 if (data->tight)
299 data->tight = bound_is_integer(upper, nvar);
300 sub = bound2poly(upper, dim, nvar, 1);
301 isl_constraint_free(lower);
302 } else {
303 if (data->tight)
304 data->tight = bound_is_integer(lower, nvar);
305 sub = bound2poly(lower, dim, nvar, -1);
306 isl_constraint_free(upper);
307 }
308 poly = isl_qpolynomial_copy(data->poly);
309 poly = isl_qpolynomial_substitute(poly, isl_dim_set, nvar, 1, &sub);
310 poly = isl_qpolynomial_drop_dims(poly, isl_dim_set, nvar, 1);
311
312 isl_qpolynomial_free(sub);
313 } else {
314 isl_qpolynomial *l, *u;
315 isl_qpolynomial *pos, *neg;
316 isl_dim *dim = isl_qpolynomial_get_dim(data->poly);
317 unsigned nparam = isl_basic_set_dim(bset, isl_dim_param);
318 int sign = data->sign * data->signs[nparam + nvar];
319
320 data->tight = 0;
321
322 u = bound2poly(upper, isl_dim_copy(dim), nvar, 1);
323 l = bound2poly(lower, dim, nvar, -1);
324
325 pos = fixed_sign_terms(data->poly, data->signs, sign);
326 neg = fixed_sign_terms(data->poly, data->signs, -sign);
327
328 pos = isl_qpolynomial_substitute(pos, isl_dim_set, nvar, 1, &u);
329 neg = isl_qpolynomial_substitute(neg, isl_dim_set, nvar, 1, &l);
330
331 poly = isl_qpolynomial_add(pos, neg);
332 poly = isl_qpolynomial_drop_dims(poly, isl_dim_set, nvar, 1);
333
334 isl_qpolynomial_free(u);
335 isl_qpolynomial_free(l);
336 }
337
338 if (isl_basic_set_dim(bset, isl_dim_set) == 0)
339 r = add_guarded_poly(bset, poly, data);
340 else
341 r = propagate_on_domain(bset, poly, data);
342
343 data->tight = save_tight;
344
345 return r;
346 }
347
348 /* Recursively perform range propagation on the polynomial "poly"
349 * defined over the basic set "bset" and collect the results in "data".
350 */
351 static int propagate_on_domain(__isl_take isl_basic_set *bset,
352 __isl_take isl_qpolynomial *poly, struct range_data *data)
353 {
354 isl_qpolynomial *save_poly = data->poly;
355 int save_monotonicity = data->monotonicity;
356 unsigned d;
357
358 if (!bset || !poly)
359 goto error;
360
361 d = isl_basic_set_dim(bset, isl_dim_set);
362 isl_assert(bset->ctx, d >= 1, goto error);
363
364 if (isl_qpolynomial_is_cst(poly, NULL, NULL)) {
365 bset = isl_basic_set_project_out(bset, isl_dim_set, 0, d);
366 poly = isl_qpolynomial_drop_dims(poly, isl_dim_set, 0, d);
367 return add_guarded_poly(bset, poly, data);
368 }
369
370 if (data->test_monotonicity)
371 data->monotonicity = monotonicity(bset, poly, data);
372 else
373 data->monotonicity = 0;
374 if (data->monotonicity < -1)
375 goto error;
376
377 data->poly = poly;
378 if (isl_basic_set_foreach_bound_pair(bset, isl_dim_set, d - 1,
379 &propagate_on_bound_pair, data) < 0)
380 goto error;
381
382 isl_basic_set_free(bset);
383 isl_qpolynomial_free(poly);
384 data->monotonicity = save_monotonicity;
385 data->poly = save_poly;
386
387 return 0;
388 error:
389 isl_basic_set_free(bset);
390 isl_qpolynomial_free(poly);
391 data->monotonicity = save_monotonicity;
392 data->poly = save_poly;
393 return -1;
394 }
395
396 static int basic_guarded_poly_bound(__isl_take isl_basic_set *bset, void *user)
397 {
398 struct range_data *data = (struct range_data *)user;
399 unsigned nparam = isl_basic_set_dim(bset, isl_dim_param);
400 unsigned dim = isl_basic_set_dim(bset, isl_dim_set);
401 int r;
402
403 data->signs = NULL;
404
405 data->signs = isl_alloc_array(bset->ctx, int,
406 isl_basic_set_dim(bset, isl_dim_all));
407
408 if (isl_basic_set_dims_get_sign(bset, isl_dim_set, 0, dim,
409 data->signs + nparam) < 0)
410 goto error;
411 if (isl_basic_set_dims_get_sign(bset, isl_dim_param, 0, nparam,
412 data->signs) < 0)
413 goto error;
414
415 r = propagate_on_domain(bset, isl_qpolynomial_copy(data->poly), data);
416
417 free(data->signs);
418
419 return r;
420 error:
421 free(data->signs);
422 isl_basic_set_free(bset);
423 return -1;
424 }
425
426 static int qpolynomial_bound_on_domain_range(__isl_take isl_basic_set *bset,
427 __isl_take isl_qpolynomial *poly, struct range_data *data)
428 {
429 unsigned nparam = isl_basic_set_dim(bset, isl_dim_param);
430 unsigned nvar = isl_basic_set_dim(bset, isl_dim_set);
431 isl_set *set;
432
433 if (!bset)
434 goto error;
435
436 if (nvar == 0)
437 return add_guarded_poly(bset, poly, data);
438
439 set = isl_set_from_basic_set(bset);
440 set = isl_set_split_dims(set, isl_dim_param, 0, nparam);
441 set = isl_set_split_dims(set, isl_dim_set, 0, nvar);
442
443 data->poly = poly;
444
445 data->test_monotonicity = 1;
446 if (isl_set_foreach_basic_set(set, &basic_guarded_poly_bound, data) < 0)
447 goto error;
448
449 isl_set_free(set);
450 isl_qpolynomial_free(poly);
451
452 return 0;
453 error:
454 isl_set_free(set);
455 isl_qpolynomial_free(poly);
456 return -1;
457 }
458
459 int isl_qpolynomial_bound_on_domain_range(__isl_take isl_basic_set *bset,
460 __isl_take isl_qpolynomial *poly, struct isl_bound *bound)
461 {
462 struct range_data data;
463 int r;
464
465 data.pwf = bound->pwf;
466 data.pwf_tight = bound->pwf_tight;
467 data.tight = bound->check_tight;
468 if (bound->type == isl_fold_min)
469 data.sign = -1;
470 else
471 data.sign = 1;
472
473 r = qpolynomial_bound_on_domain_range(bset, poly, &data);
474
475 bound->pwf = data.pwf;
476 bound->pwf_tight = data.pwf_tight;
477
478 return r;
479 }
Integer set library