libgomp, testsuite: Do not call nonstandard functions
[official-gcc.git] / gcc / tree-chrec.cc
blob2f67581591a568ef59e9b94ace9966e0434fd3ef
1 /* Chains of recurrences.
2 Copyright (C) 2003-2023 Free Software Foundation, Inc.
3 Contributed by Sebastian Pop <pop@cri.ensmp.fr>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 3, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
21 /* This file implements operations on chains of recurrences. Chains
22 of recurrences are used for modeling evolution functions of scalar
23 variables.
26 #include "config.h"
27 #include "system.h"
28 #include "coretypes.h"
29 #include "backend.h"
30 #include "tree.h"
31 #include "gimple-expr.h"
32 #include "tree-pretty-print.h"
33 #include "fold-const.h"
34 #include "cfgloop.h"
35 #include "tree-ssa-loop-ivopts.h"
36 #include "tree-ssa-loop-niter.h"
37 #include "tree-chrec.h"
38 #include "gimple.h"
39 #include "tree-ssa-loop.h"
40 #include "dumpfile.h"
41 #include "tree-scalar-evolution.h"
43 /* Extended folder for chrecs. */
45 /* Fold the addition of two polynomial functions. */
47 static inline tree
48 chrec_fold_plus_poly_poly (enum tree_code code,
49 tree type,
50 tree poly0,
51 tree poly1)
53 tree left, right;
54 class loop *loop0 = get_chrec_loop (poly0);
55 class loop *loop1 = get_chrec_loop (poly1);
56 tree rtype = code == POINTER_PLUS_EXPR ? chrec_type (poly1) : type;
58 gcc_assert (poly0);
59 gcc_assert (poly1);
60 gcc_assert (TREE_CODE (poly0) == POLYNOMIAL_CHREC);
61 gcc_assert (TREE_CODE (poly1) == POLYNOMIAL_CHREC);
62 if (POINTER_TYPE_P (chrec_type (poly0)))
63 gcc_checking_assert (ptrofftype_p (chrec_type (poly1))
64 && useless_type_conversion_p (type, chrec_type (poly0)));
65 else
66 gcc_checking_assert (useless_type_conversion_p (type, chrec_type (poly0))
67 && useless_type_conversion_p (type, chrec_type (poly1)));
70 {a, +, b}_1 + {c, +, d}_2 -> {{a, +, b}_1 + c, +, d}_2,
71 {a, +, b}_2 + {c, +, d}_1 -> {{c, +, d}_1 + a, +, b}_2,
72 {a, +, b}_x + {c, +, d}_x -> {a+c, +, b+d}_x. */
73 if (flow_loop_nested_p (loop0, loop1))
75 if (code == PLUS_EXPR || code == POINTER_PLUS_EXPR)
76 return build_polynomial_chrec
77 (CHREC_VARIABLE (poly1),
78 chrec_fold_plus (type, poly0, CHREC_LEFT (poly1)),
79 CHREC_RIGHT (poly1));
80 else
81 return build_polynomial_chrec
82 (CHREC_VARIABLE (poly1),
83 chrec_fold_minus (type, poly0, CHREC_LEFT (poly1)),
84 chrec_fold_multiply (type, CHREC_RIGHT (poly1),
85 SCALAR_FLOAT_TYPE_P (type)
86 ? build_real (type, dconstm1)
87 : build_int_cst_type (type, -1)));
90 if (flow_loop_nested_p (loop1, loop0))
92 if (code == PLUS_EXPR || code == POINTER_PLUS_EXPR)
93 return build_polynomial_chrec
94 (CHREC_VARIABLE (poly0),
95 chrec_fold_plus (type, CHREC_LEFT (poly0), poly1),
96 CHREC_RIGHT (poly0));
97 else
98 return build_polynomial_chrec
99 (CHREC_VARIABLE (poly0),
100 chrec_fold_minus (type, CHREC_LEFT (poly0), poly1),
101 CHREC_RIGHT (poly0));
104 /* This function should never be called for chrecs of loops that
105 do not belong to the same loop nest. */
106 if (loop0 != loop1)
108 /* It still can happen if we are not in loop-closed SSA form. */
109 gcc_assert (! loops_state_satisfies_p (LOOP_CLOSED_SSA));
110 return chrec_dont_know;
113 if (code == PLUS_EXPR || code == POINTER_PLUS_EXPR)
115 left = chrec_fold_plus
116 (type, CHREC_LEFT (poly0), CHREC_LEFT (poly1));
117 right = chrec_fold_plus
118 (rtype, CHREC_RIGHT (poly0), CHREC_RIGHT (poly1));
120 else
122 left = chrec_fold_minus
123 (type, CHREC_LEFT (poly0), CHREC_LEFT (poly1));
124 right = chrec_fold_minus
125 (type, CHREC_RIGHT (poly0), CHREC_RIGHT (poly1));
128 if (chrec_zerop (right))
129 return left;
130 else
131 return build_polynomial_chrec
132 (CHREC_VARIABLE (poly0), left, right);
137 /* Fold the multiplication of two polynomial functions. */
139 static inline tree
140 chrec_fold_multiply_poly_poly (tree type,
141 tree poly0,
142 tree poly1)
144 tree t0, t1, t2;
145 int var;
146 class loop *loop0 = get_chrec_loop (poly0);
147 class loop *loop1 = get_chrec_loop (poly1);
149 gcc_assert (poly0);
150 gcc_assert (poly1);
151 gcc_assert (TREE_CODE (poly0) == POLYNOMIAL_CHREC);
152 gcc_assert (TREE_CODE (poly1) == POLYNOMIAL_CHREC);
153 gcc_checking_assert (useless_type_conversion_p (type, chrec_type (poly0))
154 && useless_type_conversion_p (type, chrec_type (poly1)));
156 /* {a, +, b}_1 * {c, +, d}_2 -> {c*{a, +, b}_1, +, d}_2,
157 {a, +, b}_2 * {c, +, d}_1 -> {a*{c, +, d}_1, +, b}_2,
158 {a, +, b}_x * {c, +, d}_x -> {a*c, +, a*d + b*c + b*d, +, 2*b*d}_x. */
159 if (flow_loop_nested_p (loop0, loop1))
160 /* poly0 is a constant wrt. poly1. */
161 return build_polynomial_chrec
162 (CHREC_VARIABLE (poly1),
163 chrec_fold_multiply (type, CHREC_LEFT (poly1), poly0),
164 CHREC_RIGHT (poly1));
166 if (flow_loop_nested_p (loop1, loop0))
167 /* poly1 is a constant wrt. poly0. */
168 return build_polynomial_chrec
169 (CHREC_VARIABLE (poly0),
170 chrec_fold_multiply (type, CHREC_LEFT (poly0), poly1),
171 CHREC_RIGHT (poly0));
173 if (loop0 != loop1)
175 /* It still can happen if we are not in loop-closed SSA form. */
176 gcc_assert (! loops_state_satisfies_p (LOOP_CLOSED_SSA));
177 return chrec_dont_know;
180 /* poly0 and poly1 are two polynomials in the same variable,
181 {a, +, b}_x * {c, +, d}_x -> {a*c, +, a*d + b*c + b*d, +, 2*b*d}_x. */
183 /* "a*c". */
184 t0 = chrec_fold_multiply (type, CHREC_LEFT (poly0), CHREC_LEFT (poly1));
186 /* "a*d + b*c". */
187 t1 = chrec_fold_multiply (type, CHREC_LEFT (poly0), CHREC_RIGHT (poly1));
188 t1 = chrec_fold_plus (type, t1, chrec_fold_multiply (type,
189 CHREC_RIGHT (poly0),
190 CHREC_LEFT (poly1)));
191 /* "b*d". */
192 t2 = chrec_fold_multiply (type, CHREC_RIGHT (poly0), CHREC_RIGHT (poly1));
193 /* "a*d + b*c + b*d". */
194 t1 = chrec_fold_plus (type, t1, t2);
195 /* "2*b*d". */
196 t2 = chrec_fold_multiply (type, SCALAR_FLOAT_TYPE_P (type)
197 ? build_real (type, dconst2)
198 : build_int_cst (type, 2), t2);
200 var = CHREC_VARIABLE (poly0);
201 return build_polynomial_chrec (var, t0,
202 build_polynomial_chrec (var, t1, t2));
205 /* When the operands are automatically_generated_chrec_p, the fold has
206 to respect the semantics of the operands. */
208 static inline tree
209 chrec_fold_automatically_generated_operands (tree op0,
210 tree op1)
212 if (op0 == chrec_dont_know
213 || op1 == chrec_dont_know)
214 return chrec_dont_know;
216 if (op0 == chrec_known
217 || op1 == chrec_known)
218 return chrec_known;
220 if (op0 == chrec_not_analyzed_yet
221 || op1 == chrec_not_analyzed_yet)
222 return chrec_not_analyzed_yet;
224 /* The default case produces a safe result. */
225 return chrec_dont_know;
228 /* Fold the addition of two chrecs. */
230 static tree
231 chrec_fold_plus_1 (enum tree_code code, tree type,
232 tree op0, tree op1)
234 if (automatically_generated_chrec_p (op0)
235 || automatically_generated_chrec_p (op1))
236 return chrec_fold_automatically_generated_operands (op0, op1);
238 switch (TREE_CODE (op0))
240 case POLYNOMIAL_CHREC:
241 gcc_checking_assert
242 (!chrec_contains_symbols_defined_in_loop (op0, CHREC_VARIABLE (op0)));
243 switch (TREE_CODE (op1))
245 case POLYNOMIAL_CHREC:
246 gcc_checking_assert
247 (!chrec_contains_symbols_defined_in_loop (op1,
248 CHREC_VARIABLE (op1)));
249 return chrec_fold_plus_poly_poly (code, type, op0, op1);
251 CASE_CONVERT:
253 /* We can strip sign-conversions to signed by performing the
254 operation in unsigned. */
255 tree optype = TREE_TYPE (TREE_OPERAND (op1, 0));
256 if (INTEGRAL_TYPE_P (type)
257 && INTEGRAL_TYPE_P (optype)
258 && tree_nop_conversion_p (type, optype)
259 && TYPE_UNSIGNED (optype))
260 return chrec_convert (type,
261 chrec_fold_plus_1 (code, optype,
262 chrec_convert (optype,
263 op0, NULL),
264 TREE_OPERAND (op1, 0)),
265 NULL);
266 if (tree_contains_chrecs (op1, NULL))
267 return chrec_dont_know;
269 /* FALLTHRU */
271 default:
272 if (code == PLUS_EXPR || code == POINTER_PLUS_EXPR)
273 return build_polynomial_chrec
274 (CHREC_VARIABLE (op0),
275 chrec_fold_plus (type, CHREC_LEFT (op0), op1),
276 CHREC_RIGHT (op0));
277 else
278 return build_polynomial_chrec
279 (CHREC_VARIABLE (op0),
280 chrec_fold_minus (type, CHREC_LEFT (op0), op1),
281 CHREC_RIGHT (op0));
284 CASE_CONVERT:
286 /* We can strip sign-conversions to signed by performing the
287 operation in unsigned. */
288 tree optype = TREE_TYPE (TREE_OPERAND (op0, 0));
289 if (INTEGRAL_TYPE_P (type)
290 && INTEGRAL_TYPE_P (optype)
291 && tree_nop_conversion_p (type, optype)
292 && TYPE_UNSIGNED (optype))
293 return chrec_convert (type,
294 chrec_fold_plus_1 (code, optype,
295 TREE_OPERAND (op0, 0),
296 chrec_convert (optype,
297 op1, NULL)),
298 NULL);
299 if (tree_contains_chrecs (op0, NULL))
300 return chrec_dont_know;
302 /* FALLTHRU */
304 default:
305 switch (TREE_CODE (op1))
307 case POLYNOMIAL_CHREC:
308 gcc_checking_assert
309 (!chrec_contains_symbols_defined_in_loop (op1,
310 CHREC_VARIABLE (op1)));
311 if (code == PLUS_EXPR || code == POINTER_PLUS_EXPR)
312 return build_polynomial_chrec
313 (CHREC_VARIABLE (op1),
314 chrec_fold_plus (type, op0, CHREC_LEFT (op1)),
315 CHREC_RIGHT (op1));
316 else
317 return build_polynomial_chrec
318 (CHREC_VARIABLE (op1),
319 chrec_fold_minus (type, op0, CHREC_LEFT (op1)),
320 chrec_fold_multiply (type, CHREC_RIGHT (op1),
321 SCALAR_FLOAT_TYPE_P (type)
322 ? build_real (type, dconstm1)
323 : build_int_cst_type (type, -1)));
325 CASE_CONVERT:
326 if (tree_contains_chrecs (op1, NULL))
327 return chrec_dont_know;
328 /* FALLTHRU */
330 default:
332 int size = 0;
333 if ((tree_contains_chrecs (op0, &size)
334 || tree_contains_chrecs (op1, &size))
335 && size < param_scev_max_expr_size)
336 return build2 (code, type, op0, op1);
337 else if (size < param_scev_max_expr_size)
339 if (code == POINTER_PLUS_EXPR)
340 return fold_build_pointer_plus (fold_convert (type, op0),
341 op1);
342 else
343 return fold_build2 (code, type,
344 fold_convert (type, op0),
345 fold_convert (type, op1));
347 else
348 return chrec_dont_know;
354 /* Fold the addition of two chrecs. */
356 tree
357 chrec_fold_plus (tree type,
358 tree op0,
359 tree op1)
361 enum tree_code code;
362 if (automatically_generated_chrec_p (op0)
363 || automatically_generated_chrec_p (op1))
364 return chrec_fold_automatically_generated_operands (op0, op1);
366 if (integer_zerop (op0))
367 return chrec_convert (type, op1, NULL);
368 if (integer_zerop (op1))
369 return chrec_convert (type, op0, NULL);
371 if (POINTER_TYPE_P (type))
372 code = POINTER_PLUS_EXPR;
373 else
374 code = PLUS_EXPR;
376 return chrec_fold_plus_1 (code, type, op0, op1);
379 /* Fold the subtraction of two chrecs. */
381 tree
382 chrec_fold_minus (tree type,
383 tree op0,
384 tree op1)
386 if (automatically_generated_chrec_p (op0)
387 || automatically_generated_chrec_p (op1))
388 return chrec_fold_automatically_generated_operands (op0, op1);
390 if (integer_zerop (op1))
391 return op0;
393 return chrec_fold_plus_1 (MINUS_EXPR, type, op0, op1);
396 /* Fold the multiplication of two chrecs. */
398 tree
399 chrec_fold_multiply (tree type,
400 tree op0,
401 tree op1)
403 if (automatically_generated_chrec_p (op0)
404 || automatically_generated_chrec_p (op1))
405 return chrec_fold_automatically_generated_operands (op0, op1);
407 switch (TREE_CODE (op0))
409 case POLYNOMIAL_CHREC:
410 gcc_checking_assert
411 (!chrec_contains_symbols_defined_in_loop (op0, CHREC_VARIABLE (op0)));
412 switch (TREE_CODE (op1))
414 case POLYNOMIAL_CHREC:
415 gcc_checking_assert
416 (!chrec_contains_symbols_defined_in_loop (op1,
417 CHREC_VARIABLE (op1)));
418 return chrec_fold_multiply_poly_poly (type, op0, op1);
420 CASE_CONVERT:
421 if (tree_contains_chrecs (op1, NULL))
422 return chrec_dont_know;
423 /* FALLTHRU */
425 default:
426 if (integer_onep (op1))
427 return op0;
428 if (integer_zerop (op1))
429 return build_int_cst (type, 0);
431 return build_polynomial_chrec
432 (CHREC_VARIABLE (op0),
433 chrec_fold_multiply (type, CHREC_LEFT (op0), op1),
434 chrec_fold_multiply (type, CHREC_RIGHT (op0), op1));
437 CASE_CONVERT:
438 if (tree_contains_chrecs (op0, NULL))
439 return chrec_dont_know;
440 /* FALLTHRU */
442 default:
443 if (integer_onep (op0))
444 return op1;
446 if (integer_zerop (op0))
447 return build_int_cst (type, 0);
449 switch (TREE_CODE (op1))
451 case POLYNOMIAL_CHREC:
452 gcc_checking_assert
453 (!chrec_contains_symbols_defined_in_loop (op1,
454 CHREC_VARIABLE (op1)));
455 return build_polynomial_chrec
456 (CHREC_VARIABLE (op1),
457 chrec_fold_multiply (type, CHREC_LEFT (op1), op0),
458 chrec_fold_multiply (type, CHREC_RIGHT (op1), op0));
460 CASE_CONVERT:
461 if (tree_contains_chrecs (op1, NULL))
462 return chrec_dont_know;
463 /* FALLTHRU */
465 default:
466 if (integer_onep (op1))
467 return op0;
468 if (integer_zerop (op1))
469 return build_int_cst (type, 0);
470 return fold_build2 (MULT_EXPR, type, op0, op1);
477 /* Operations. */
479 /* Evaluate the binomial coefficient. Return NULL_TREE if the intermediate
480 calculation overflows, otherwise return C(n,k) with type TYPE. */
482 static tree
483 tree_fold_binomial (tree type, tree n, unsigned int k)
485 wi::overflow_type overflow;
486 unsigned int i;
488 /* Handle the most frequent cases. */
489 if (k == 0)
490 return build_int_cst (type, 1);
491 if (k == 1)
492 return fold_convert (type, n);
494 widest_int num = wi::to_widest (n);
496 /* Check that k <= n. */
497 if (wi::ltu_p (num, k))
498 return NULL_TREE;
500 /* Denominator = 2. */
501 widest_int denom = 2;
503 /* Index = Numerator-1. */
504 widest_int idx = num - 1;
506 /* Numerator = Numerator*Index = n*(n-1). */
507 num = wi::smul (num, idx, &overflow);
508 if (overflow)
509 return NULL_TREE;
511 for (i = 3; i <= k; i++)
513 /* Index--. */
514 --idx;
516 /* Numerator *= Index. */
517 num = wi::smul (num, idx, &overflow);
518 if (overflow)
519 return NULL_TREE;
521 /* Denominator *= i. */
522 denom *= i;
525 /* Result = Numerator / Denominator. */
526 num = wi::udiv_trunc (num, denom);
527 if (! wi::fits_to_tree_p (num, type))
528 return NULL_TREE;
529 return wide_int_to_tree (type, num);
532 /* Helper function. Use the Newton's interpolating formula for
533 evaluating the value of the evolution function.
534 The result may be in an unsigned type of CHREC. */
536 static tree
537 chrec_evaluate (unsigned var, tree chrec, tree n, unsigned int k)
539 tree arg0, arg1, binomial_n_k;
540 tree type = TREE_TYPE (chrec);
541 class loop *var_loop = get_loop (cfun, var);
543 while (TREE_CODE (chrec) == POLYNOMIAL_CHREC
544 && flow_loop_nested_p (var_loop, get_chrec_loop (chrec)))
545 chrec = CHREC_LEFT (chrec);
547 /* The formula associates the expression and thus we have to make
548 sure to not introduce undefined overflow. */
549 tree ctype = type;
550 if (INTEGRAL_TYPE_P (type)
551 && ! TYPE_OVERFLOW_WRAPS (type))
552 ctype = unsigned_type_for (type);
554 if (TREE_CODE (chrec) == POLYNOMIAL_CHREC
555 && CHREC_VARIABLE (chrec) == var)
557 arg1 = chrec_evaluate (var, CHREC_RIGHT (chrec), n, k + 1);
558 if (arg1 == chrec_dont_know)
559 return chrec_dont_know;
560 binomial_n_k = tree_fold_binomial (ctype, n, k);
561 if (!binomial_n_k)
562 return chrec_dont_know;
563 tree l = chrec_convert (ctype, CHREC_LEFT (chrec), NULL);
564 arg0 = fold_build2 (MULT_EXPR, ctype, l, binomial_n_k);
565 return chrec_fold_plus (ctype, arg0, arg1);
568 binomial_n_k = tree_fold_binomial (ctype, n, k);
569 if (!binomial_n_k)
570 return chrec_dont_know;
572 return fold_build2 (MULT_EXPR, ctype,
573 chrec_convert (ctype, chrec, NULL), binomial_n_k);
576 /* Evaluates "CHREC (X)" when the varying variable is VAR.
577 Example: Given the following parameters,
579 var = 1
580 chrec = {3, +, 4}_1
581 x = 10
583 The result is given by the Newton's interpolating formula:
584 3 * \binom{10}{0} + 4 * \binom{10}{1}.
587 tree
588 chrec_apply (unsigned var,
589 tree chrec,
590 tree x)
592 tree type = chrec_type (chrec);
593 tree res = chrec_dont_know;
595 if (automatically_generated_chrec_p (chrec)
596 || automatically_generated_chrec_p (x)
598 /* When the symbols are defined in an outer loop, it is possible
599 to symbolically compute the apply, since the symbols are
600 constants with respect to the varying loop. */
601 || chrec_contains_symbols_defined_in_loop (chrec, var))
602 return chrec_dont_know;
604 if (dump_file && (dump_flags & TDF_SCEV))
605 fprintf (dump_file, "(chrec_apply \n");
607 if (TREE_CODE (x) == INTEGER_CST && SCALAR_FLOAT_TYPE_P (type))
608 x = build_real_from_int_cst (type, x);
610 switch (TREE_CODE (chrec))
612 case POLYNOMIAL_CHREC:
613 if (evolution_function_is_affine_p (chrec))
615 tree chrecr = CHREC_RIGHT (chrec);
616 if (CHREC_VARIABLE (chrec) != var)
617 res = build_polynomial_chrec
618 (CHREC_VARIABLE (chrec),
619 chrec_apply (var, CHREC_LEFT (chrec), x),
620 chrec_apply (var, chrecr, x));
622 /* "{a, +, b} (x)" -> "a + b*x". */
623 else if (operand_equal_p (CHREC_LEFT (chrec), chrecr)
624 && TREE_CODE (x) == PLUS_EXPR
625 && integer_all_onesp (TREE_OPERAND (x, 1))
626 && !POINTER_TYPE_P (type)
627 && TYPE_PRECISION (TREE_TYPE (x))
628 >= TYPE_PRECISION (type))
630 /* We know the number of iterations can't be negative.
631 So {a, +, a} (x-1) -> "a*x". */
632 res = build_int_cst (TREE_TYPE (x), 1);
633 res = chrec_fold_plus (TREE_TYPE (x), x, res);
634 res = chrec_convert_rhs (type, res, NULL);
635 res = chrec_fold_multiply (type, chrecr, res);
637 else
639 res = chrec_convert_rhs (TREE_TYPE (chrecr), x, NULL);
640 res = chrec_fold_multiply (TREE_TYPE (chrecr), chrecr, res);
641 res = chrec_fold_plus (type, CHREC_LEFT (chrec), res);
644 else if (TREE_CODE (x) == INTEGER_CST
645 && tree_int_cst_sgn (x) == 1)
646 /* testsuite/.../ssa-chrec-38.c. */
647 res = chrec_convert (type, chrec_evaluate (var, chrec, x, 0), NULL);
648 else
649 res = chrec_dont_know;
650 break;
652 CASE_CONVERT:
653 res = chrec_convert (TREE_TYPE (chrec),
654 chrec_apply (var, TREE_OPERAND (chrec, 0), x),
655 NULL);
656 break;
658 default:
659 res = chrec;
660 break;
663 if (dump_file && (dump_flags & TDF_SCEV))
665 fprintf (dump_file, " (varying_loop = %d", var);
666 fprintf (dump_file, ")\n (chrec = ");
667 print_generic_expr (dump_file, chrec);
668 fprintf (dump_file, ")\n (x = ");
669 print_generic_expr (dump_file, x);
670 fprintf (dump_file, ")\n (res = ");
671 print_generic_expr (dump_file, res);
672 fprintf (dump_file, "))\n");
675 return res;
678 /* For a given CHREC and an induction variable map IV_MAP that maps
679 (loop->num, expr) for every loop number of the current_loops an
680 expression, calls chrec_apply when the expression is not NULL. */
682 tree
683 chrec_apply_map (tree chrec, vec<tree> iv_map)
685 int i;
686 tree expr;
688 FOR_EACH_VEC_ELT (iv_map, i, expr)
689 if (expr)
690 chrec = chrec_apply (i, chrec, expr);
692 return chrec;
695 /* Replaces the initial condition in CHREC with INIT_COND. */
697 tree
698 chrec_replace_initial_condition (tree chrec,
699 tree init_cond)
701 if (automatically_generated_chrec_p (chrec))
702 return chrec;
704 gcc_assert (chrec_type (chrec) == chrec_type (init_cond));
706 switch (TREE_CODE (chrec))
708 case POLYNOMIAL_CHREC:
709 return build_polynomial_chrec
710 (CHREC_VARIABLE (chrec),
711 chrec_replace_initial_condition (CHREC_LEFT (chrec), init_cond),
712 CHREC_RIGHT (chrec));
714 default:
715 return init_cond;
719 /* Returns the initial condition of a given CHREC. */
721 tree
722 initial_condition (tree chrec)
724 if (automatically_generated_chrec_p (chrec))
725 return chrec;
727 if (TREE_CODE (chrec) == POLYNOMIAL_CHREC)
728 return initial_condition (CHREC_LEFT (chrec));
729 else
730 return chrec;
733 /* Returns a univariate function that represents the evolution in
734 LOOP_NUM. Mask the evolution of any other loop. */
736 tree
737 hide_evolution_in_other_loops_than_loop (tree chrec,
738 unsigned loop_num)
740 class loop *loop = get_loop (cfun, loop_num), *chloop;
741 if (automatically_generated_chrec_p (chrec))
742 return chrec;
744 switch (TREE_CODE (chrec))
746 case POLYNOMIAL_CHREC:
747 chloop = get_chrec_loop (chrec);
749 if (chloop == loop)
750 return build_polynomial_chrec
751 (loop_num,
752 hide_evolution_in_other_loops_than_loop (CHREC_LEFT (chrec),
753 loop_num),
754 CHREC_RIGHT (chrec));
756 else if (flow_loop_nested_p (chloop, loop))
757 /* There is no evolution in this loop. */
758 return initial_condition (chrec);
760 else if (flow_loop_nested_p (loop, chloop))
761 return hide_evolution_in_other_loops_than_loop (CHREC_LEFT (chrec),
762 loop_num);
764 else
765 return chrec_dont_know;
767 default:
768 return chrec;
772 /* Returns the evolution part of CHREC in LOOP_NUM when RIGHT is
773 true, otherwise returns the initial condition in LOOP_NUM. */
775 static tree
776 chrec_component_in_loop_num (tree chrec,
777 unsigned loop_num,
778 bool right)
780 tree component;
781 class loop *loop = get_loop (cfun, loop_num), *chloop;
783 if (automatically_generated_chrec_p (chrec))
784 return chrec;
786 switch (TREE_CODE (chrec))
788 case POLYNOMIAL_CHREC:
789 chloop = get_chrec_loop (chrec);
791 if (chloop == loop)
793 if (right)
794 component = CHREC_RIGHT (chrec);
795 else
796 component = CHREC_LEFT (chrec);
798 if (TREE_CODE (CHREC_LEFT (chrec)) != POLYNOMIAL_CHREC
799 || CHREC_VARIABLE (CHREC_LEFT (chrec)) != CHREC_VARIABLE (chrec))
800 return component;
802 else
803 return build_polynomial_chrec
804 (loop_num,
805 chrec_component_in_loop_num (CHREC_LEFT (chrec),
806 loop_num,
807 right),
808 component);
811 else if (flow_loop_nested_p (chloop, loop))
812 /* There is no evolution part in this loop. */
813 return NULL_TREE;
815 else
817 gcc_assert (flow_loop_nested_p (loop, chloop));
818 return chrec_component_in_loop_num (CHREC_LEFT (chrec),
819 loop_num,
820 right);
823 default:
824 if (right)
825 return NULL_TREE;
826 else
827 return chrec;
831 /* Returns the evolution part in LOOP_NUM. Example: the call
832 evolution_part_in_loop_num ({{0, +, 1}_1, +, 2}_1, 1) returns
833 {1, +, 2}_1 */
835 tree
836 evolution_part_in_loop_num (tree chrec,
837 unsigned loop_num)
839 return chrec_component_in_loop_num (chrec, loop_num, true);
842 /* Returns the initial condition in LOOP_NUM. Example: the call
843 initial_condition_in_loop_num ({{0, +, 1}_1, +, 2}_2, 2) returns
844 {0, +, 1}_1 */
846 tree
847 initial_condition_in_loop_num (tree chrec,
848 unsigned loop_num)
850 return chrec_component_in_loop_num (chrec, loop_num, false);
853 /* Set or reset the evolution of CHREC to NEW_EVOL in loop LOOP_NUM.
854 This function is essentially used for setting the evolution to
855 chrec_dont_know, for example after having determined that it is
856 impossible to say how many times a loop will execute. */
858 tree
859 reset_evolution_in_loop (unsigned loop_num,
860 tree chrec,
861 tree new_evol)
863 class loop *loop = get_loop (cfun, loop_num);
865 if (POINTER_TYPE_P (chrec_type (chrec)))
866 gcc_assert (ptrofftype_p (chrec_type (new_evol)));
867 else
868 gcc_assert (chrec_type (chrec) == chrec_type (new_evol));
870 if (TREE_CODE (chrec) == POLYNOMIAL_CHREC
871 && flow_loop_nested_p (loop, get_chrec_loop (chrec)))
873 tree left = reset_evolution_in_loop (loop_num, CHREC_LEFT (chrec),
874 new_evol);
875 tree right = reset_evolution_in_loop (loop_num, CHREC_RIGHT (chrec),
876 new_evol);
877 return build_polynomial_chrec (CHREC_VARIABLE (chrec), left, right);
880 while (TREE_CODE (chrec) == POLYNOMIAL_CHREC
881 && CHREC_VARIABLE (chrec) == loop_num)
882 chrec = CHREC_LEFT (chrec);
884 return build_polynomial_chrec (loop_num, chrec, new_evol);
887 /* Merges two evolution functions that were found by following two
888 alternate paths of a conditional expression. */
890 tree
891 chrec_merge (tree chrec1,
892 tree chrec2)
894 if (chrec1 == chrec_dont_know
895 || chrec2 == chrec_dont_know)
896 return chrec_dont_know;
898 if (chrec1 == chrec_known
899 || chrec2 == chrec_known)
900 return chrec_known;
902 if (chrec1 == chrec_not_analyzed_yet)
903 return chrec2;
904 if (chrec2 == chrec_not_analyzed_yet)
905 return chrec1;
907 if (eq_evolutions_p (chrec1, chrec2))
908 return chrec1;
910 return chrec_dont_know;
915 /* Observers. */
917 /* Helper function for is_multivariate_chrec. */
919 static bool
920 is_multivariate_chrec_rec (const_tree chrec, unsigned int rec_var)
922 if (chrec == NULL_TREE)
923 return false;
925 if (TREE_CODE (chrec) == POLYNOMIAL_CHREC)
927 if (CHREC_VARIABLE (chrec) != rec_var)
928 return true;
929 else
930 return (is_multivariate_chrec_rec (CHREC_LEFT (chrec), rec_var)
931 || is_multivariate_chrec_rec (CHREC_RIGHT (chrec), rec_var));
933 else
934 return false;
937 /* Determine whether the given chrec is multivariate or not. */
939 bool
940 is_multivariate_chrec (const_tree chrec)
942 if (chrec == NULL_TREE)
943 return false;
945 if (TREE_CODE (chrec) == POLYNOMIAL_CHREC)
946 return (is_multivariate_chrec_rec (CHREC_LEFT (chrec),
947 CHREC_VARIABLE (chrec))
948 || is_multivariate_chrec_rec (CHREC_RIGHT (chrec),
949 CHREC_VARIABLE (chrec)));
950 else
951 return false;
954 /* Determines whether the chrec contains symbolic names or not. If LOOP isn't
955 NULL, we also consider chrec wrto outer loops of LOOP as symbol. */
957 static bool
958 chrec_contains_symbols (const_tree chrec, hash_set<const_tree> &visited,
959 class loop *loop)
961 int i, n;
963 if (chrec == NULL_TREE)
964 return false;
966 if (TREE_CODE (chrec) == SSA_NAME
967 || VAR_P (chrec)
968 || TREE_CODE (chrec) == POLY_INT_CST
969 || TREE_CODE (chrec) == PARM_DECL
970 || TREE_CODE (chrec) == FUNCTION_DECL
971 || TREE_CODE (chrec) == LABEL_DECL
972 || TREE_CODE (chrec) == RESULT_DECL
973 || TREE_CODE (chrec) == FIELD_DECL)
974 return true;
976 if (loop != NULL
977 && TREE_CODE (chrec) == POLYNOMIAL_CHREC
978 && flow_loop_nested_p (get_chrec_loop (chrec), loop))
979 return true;
981 if (visited.add (chrec))
982 return false;
984 n = TREE_OPERAND_LENGTH (chrec);
985 for (i = 0; i < n; i++)
986 if (chrec_contains_symbols (TREE_OPERAND (chrec, i), visited, loop))
987 return true;
988 return false;
991 /* Return true if CHREC contains any symbols. If LOOP is not NULL, check if
992 CHREC contains any chrec which is invariant wrto the loop (nest), in other
993 words, chrec defined by outer loops of loop, so from LOOP's point of view,
994 the chrec is considered as a SYMBOL. */
996 bool
997 chrec_contains_symbols (const_tree chrec, class loop* loop)
999 hash_set<const_tree> visited;
1000 return chrec_contains_symbols (chrec, visited, loop);
1003 /* Return true when CHREC contains symbolic names defined in
1004 LOOP_NB. */
1006 static bool
1007 chrec_contains_symbols_defined_in_loop (const_tree chrec, unsigned loop_nb,
1008 hash_set<const_tree> &visited)
1010 int i, n;
1012 if (chrec == NULL_TREE)
1013 return false;
1015 if (is_gimple_min_invariant (chrec))
1016 return false;
1018 if (TREE_CODE (chrec) == SSA_NAME)
1020 gimple *def;
1021 loop_p def_loop, loop;
1023 if (SSA_NAME_IS_DEFAULT_DEF (chrec))
1024 return false;
1026 def = SSA_NAME_DEF_STMT (chrec);
1027 def_loop = loop_containing_stmt (def);
1028 loop = get_loop (cfun, loop_nb);
1030 if (def_loop == NULL)
1031 return false;
1033 if (loop == def_loop || flow_loop_nested_p (loop, def_loop))
1034 return true;
1036 return false;
1039 if (visited.add (chrec))
1040 return false;
1042 n = TREE_OPERAND_LENGTH (chrec);
1043 for (i = 0; i < n; i++)
1044 if (chrec_contains_symbols_defined_in_loop (TREE_OPERAND (chrec, i),
1045 loop_nb, visited))
1046 return true;
1047 return false;
1050 /* Return true when CHREC contains symbolic names defined in
1051 LOOP_NB. */
1053 bool
1054 chrec_contains_symbols_defined_in_loop (const_tree chrec, unsigned loop_nb)
1056 hash_set<const_tree> visited;
1057 return chrec_contains_symbols_defined_in_loop (chrec, loop_nb, visited);
1060 /* Determines whether the chrec contains undetermined coefficients. */
1062 static bool
1063 chrec_contains_undetermined (const_tree chrec, hash_set<const_tree> &visited)
1065 int i, n;
1067 if (chrec == chrec_dont_know)
1068 return true;
1070 if (chrec == NULL_TREE)
1071 return false;
1073 if (visited.add (chrec))
1074 return false;
1076 n = TREE_OPERAND_LENGTH (chrec);
1077 for (i = 0; i < n; i++)
1078 if (chrec_contains_undetermined (TREE_OPERAND (chrec, i), visited))
1079 return true;
1080 return false;
1083 bool
1084 chrec_contains_undetermined (const_tree chrec)
1086 hash_set<const_tree> visited;
1087 return chrec_contains_undetermined (chrec, visited);
1090 /* Determines whether the tree EXPR contains chrecs, and increment
1091 SIZE if it is not a NULL pointer by an estimation of the depth of
1092 the tree. */
1094 static bool
1095 tree_contains_chrecs (const_tree expr, int *size, hash_set<const_tree> &visited)
1097 int i, n;
1099 if (expr == NULL_TREE)
1100 return false;
1102 if (size)
1103 (*size)++;
1105 if (tree_is_chrec (expr))
1106 return true;
1108 if (visited.add (expr))
1109 return false;
1111 n = TREE_OPERAND_LENGTH (expr);
1112 for (i = 0; i < n; i++)
1113 if (tree_contains_chrecs (TREE_OPERAND (expr, i), size, visited))
1114 return true;
1115 return false;
1118 bool
1119 tree_contains_chrecs (const_tree expr, int *size)
1121 hash_set<const_tree> visited;
1122 return tree_contains_chrecs (expr, size, visited);
1126 /* Recursive helper function. */
1128 static bool
1129 evolution_function_is_invariant_rec_p (tree chrec, int loopnum)
1131 if (evolution_function_is_constant_p (chrec))
1132 return true;
1134 if (TREE_CODE (chrec) == SSA_NAME
1135 && (loopnum == 0
1136 || expr_invariant_in_loop_p (get_loop (cfun, loopnum), chrec)))
1137 return true;
1139 if (TREE_CODE (chrec) == POLYNOMIAL_CHREC)
1141 if (CHREC_VARIABLE (chrec) == (unsigned) loopnum
1142 || flow_loop_nested_p (get_loop (cfun, loopnum),
1143 get_chrec_loop (chrec))
1144 || !evolution_function_is_invariant_rec_p (CHREC_RIGHT (chrec),
1145 loopnum)
1146 || !evolution_function_is_invariant_rec_p (CHREC_LEFT (chrec),
1147 loopnum))
1148 return false;
1149 return true;
1152 switch (TREE_OPERAND_LENGTH (chrec))
1154 case 2:
1155 if (!evolution_function_is_invariant_rec_p (TREE_OPERAND (chrec, 1),
1156 loopnum))
1157 return false;
1158 /* FALLTHRU */
1160 case 1:
1161 if (!evolution_function_is_invariant_rec_p (TREE_OPERAND (chrec, 0),
1162 loopnum))
1163 return false;
1164 return true;
1166 default:
1167 return false;
1171 /* Return true if CHREC is invariant in loop LOOPNUM, false otherwise. */
1173 bool
1174 evolution_function_is_invariant_p (tree chrec, int loopnum)
1176 return evolution_function_is_invariant_rec_p (chrec, loopnum);
1179 /* Determine whether the given tree is an affine multivariate
1180 evolution. */
1182 bool
1183 evolution_function_is_affine_multivariate_p (const_tree chrec, int loopnum)
1185 if (chrec == NULL_TREE)
1186 return false;
1188 switch (TREE_CODE (chrec))
1190 case POLYNOMIAL_CHREC:
1191 if (evolution_function_is_invariant_rec_p (CHREC_LEFT (chrec), loopnum))
1193 if (evolution_function_is_invariant_rec_p (CHREC_RIGHT (chrec), loopnum))
1194 return true;
1195 else
1197 if (TREE_CODE (CHREC_RIGHT (chrec)) == POLYNOMIAL_CHREC
1198 && CHREC_VARIABLE (CHREC_RIGHT (chrec))
1199 != CHREC_VARIABLE (chrec)
1200 && evolution_function_is_affine_multivariate_p
1201 (CHREC_RIGHT (chrec), loopnum))
1202 return true;
1203 else
1204 return false;
1207 else
1209 if (evolution_function_is_invariant_rec_p (CHREC_RIGHT (chrec), loopnum)
1210 && TREE_CODE (CHREC_LEFT (chrec)) == POLYNOMIAL_CHREC
1211 && CHREC_VARIABLE (CHREC_LEFT (chrec)) != CHREC_VARIABLE (chrec)
1212 && evolution_function_is_affine_multivariate_p
1213 (CHREC_LEFT (chrec), loopnum))
1214 return true;
1215 else
1216 return false;
1219 default:
1220 return false;
1224 /* Determine whether the given tree is a function in zero or one
1225 variables with respect to loop specified by LOOPNUM. Note only positive
1226 LOOPNUM stands for a real loop. */
1228 bool
1229 evolution_function_is_univariate_p (const_tree chrec, int loopnum)
1231 if (chrec == NULL_TREE)
1232 return true;
1234 tree sub_chrec;
1235 switch (TREE_CODE (chrec))
1237 case POLYNOMIAL_CHREC:
1238 switch (TREE_CODE (CHREC_LEFT (chrec)))
1240 case POLYNOMIAL_CHREC:
1241 sub_chrec = CHREC_LEFT (chrec);
1242 if (CHREC_VARIABLE (chrec) != CHREC_VARIABLE (sub_chrec)
1243 && (loopnum <= 0
1244 || CHREC_VARIABLE (sub_chrec) == (unsigned) loopnum
1245 || flow_loop_nested_p (get_loop (cfun, loopnum),
1246 get_chrec_loop (sub_chrec))))
1247 return false;
1248 if (!evolution_function_is_univariate_p (sub_chrec, loopnum))
1249 return false;
1250 break;
1252 default:
1253 if (tree_contains_chrecs (CHREC_LEFT (chrec), NULL))
1254 return false;
1255 break;
1258 switch (TREE_CODE (CHREC_RIGHT (chrec)))
1260 case POLYNOMIAL_CHREC:
1261 sub_chrec = CHREC_RIGHT (chrec);
1262 if (CHREC_VARIABLE (chrec) != CHREC_VARIABLE (sub_chrec)
1263 && (loopnum <= 0
1264 || CHREC_VARIABLE (sub_chrec) == (unsigned) loopnum
1265 || flow_loop_nested_p (get_loop (cfun, loopnum),
1266 get_chrec_loop (sub_chrec))))
1267 return false;
1268 if (!evolution_function_is_univariate_p (sub_chrec, loopnum))
1269 return false;
1270 break;
1272 default:
1273 if (tree_contains_chrecs (CHREC_RIGHT (chrec), NULL))
1274 return false;
1275 break;
1277 return true;
1279 default:
1280 return true;
1284 /* Returns the number of variables of CHREC. Example: the call
1285 nb_vars_in_chrec ({{0, +, 1}_5, +, 2}_6) returns 2. */
1287 unsigned
1288 nb_vars_in_chrec (tree chrec)
1290 if (chrec == NULL_TREE)
1291 return 0;
1293 switch (TREE_CODE (chrec))
1295 case POLYNOMIAL_CHREC:
1296 return 1 + nb_vars_in_chrec
1297 (initial_condition_in_loop_num (chrec, CHREC_VARIABLE (chrec)));
1299 default:
1300 return 0;
1304 /* Converts BASE and STEP of affine scev to TYPE. LOOP is the loop whose iv
1305 the scev corresponds to. AT_STMT is the statement at that the scev is
1306 evaluated. USE_OVERFLOW_SEMANTICS is true if this function should assume
1307 that the rules for overflow of the given language apply (e.g., that signed
1308 arithmetics in C does not overflow) -- i.e., to use them to avoid
1309 unnecessary tests, but also to enforce that the result follows them.
1310 FROM is the source variable converted if it's not NULL. Returns true if
1311 the conversion succeeded, false otherwise. */
1313 bool
1314 convert_affine_scev (class loop *loop, tree type,
1315 tree *base, tree *step, gimple *at_stmt,
1316 bool use_overflow_semantics, tree from)
1318 tree ct = TREE_TYPE (*step);
1319 bool enforce_overflow_semantics;
1320 bool must_check_src_overflow, must_check_rslt_overflow;
1321 tree new_base, new_step;
1322 tree step_type = POINTER_TYPE_P (type) ? sizetype : type;
1324 /* In general,
1325 (TYPE) (BASE + STEP * i) = (TYPE) BASE + (TYPE -- sign extend) STEP * i,
1326 but we must check some assumptions.
1328 1) If [BASE, +, STEP] wraps, the equation is not valid when precision
1329 of CT is smaller than the precision of TYPE. For example, when we
1330 cast unsigned char [254, +, 1] to unsigned, the values on left side
1331 are 254, 255, 0, 1, ..., but those on the right side are
1332 254, 255, 256, 257, ...
1333 2) In case that we must also preserve the fact that signed ivs do not
1334 overflow, we must additionally check that the new iv does not wrap.
1335 For example, unsigned char [125, +, 1] casted to signed char could
1336 become a wrapping variable with values 125, 126, 127, -128, -127, ...,
1337 which would confuse optimizers that assume that this does not
1338 happen. */
1339 must_check_src_overflow = TYPE_PRECISION (ct) < TYPE_PRECISION (type);
1341 enforce_overflow_semantics = (use_overflow_semantics
1342 && nowrap_type_p (type));
1343 if (enforce_overflow_semantics)
1345 /* We can avoid checking whether the result overflows in the following
1346 cases:
1348 -- must_check_src_overflow is true, and the range of TYPE is superset
1349 of the range of CT -- i.e., in all cases except if CT signed and
1350 TYPE unsigned.
1351 -- both CT and TYPE have the same precision and signedness, and we
1352 verify instead that the source does not overflow (this may be
1353 easier than verifying it for the result, as we may use the
1354 information about the semantics of overflow in CT). */
1355 if (must_check_src_overflow)
1357 if (TYPE_UNSIGNED (type) && !TYPE_UNSIGNED (ct))
1358 must_check_rslt_overflow = true;
1359 else
1360 must_check_rslt_overflow = false;
1362 else if (TYPE_UNSIGNED (ct) == TYPE_UNSIGNED (type)
1363 && TYPE_PRECISION (ct) == TYPE_PRECISION (type))
1365 must_check_rslt_overflow = false;
1366 must_check_src_overflow = true;
1368 else
1369 must_check_rslt_overflow = true;
1371 else
1372 must_check_rslt_overflow = false;
1374 if (must_check_src_overflow
1375 && scev_probably_wraps_p (from, *base, *step, at_stmt, loop,
1376 use_overflow_semantics))
1377 return false;
1379 new_base = chrec_convert (type, *base, at_stmt, use_overflow_semantics);
1380 /* The step must be sign extended, regardless of the signedness
1381 of CT and TYPE. This only needs to be handled specially when
1382 CT is unsigned -- to avoid e.g. unsigned char [100, +, 255]
1383 (with values 100, 99, 98, ...) from becoming signed or unsigned
1384 [100, +, 255] with values 100, 355, ...; the sign-extension is
1385 performed by default when CT is signed. */
1386 new_step = *step;
1387 if (TYPE_PRECISION (step_type) > TYPE_PRECISION (ct) && TYPE_UNSIGNED (ct))
1389 tree signed_ct = build_nonstandard_integer_type (TYPE_PRECISION (ct), 0);
1390 new_step = chrec_convert (signed_ct, new_step, at_stmt,
1391 use_overflow_semantics);
1393 new_step = chrec_convert (step_type, new_step, at_stmt,
1394 use_overflow_semantics);
1396 if (automatically_generated_chrec_p (new_base)
1397 || automatically_generated_chrec_p (new_step))
1398 return false;
1400 if (must_check_rslt_overflow
1401 /* Note that in this case we cannot use the fact that signed variables
1402 do not overflow, as this is what we are verifying for the new iv. */
1403 && scev_probably_wraps_p (NULL_TREE, new_base, new_step,
1404 at_stmt, loop, false))
1405 return false;
1407 *base = new_base;
1408 *step = new_step;
1409 return true;
1413 /* Convert CHREC for the right hand side of a CHREC.
1414 The increment for a pointer type is always sizetype. */
1416 tree
1417 chrec_convert_rhs (tree type, tree chrec, gimple *at_stmt)
1419 if (POINTER_TYPE_P (type))
1420 type = sizetype;
1422 return chrec_convert (type, chrec, at_stmt);
1425 /* Convert CHREC to TYPE. When the analyzer knows the context in
1426 which the CHREC is built, it sets AT_STMT to the statement that
1427 contains the definition of the analyzed variable, otherwise the
1428 conversion is less accurate: the information is used for
1429 determining a more accurate estimation of the number of iterations.
1430 By default AT_STMT could be safely set to NULL_TREE.
1432 USE_OVERFLOW_SEMANTICS is true if this function should assume that
1433 the rules for overflow of the given language apply (e.g., that signed
1434 arithmetics in C does not overflow) -- i.e., to use them to avoid
1435 unnecessary tests, but also to enforce that the result follows them.
1437 FROM is the source variable converted if it's not NULL. */
1439 static tree
1440 chrec_convert_1 (tree type, tree chrec, gimple *at_stmt,
1441 bool use_overflow_semantics, tree from)
1443 tree ct, res;
1444 tree base, step;
1445 class loop *loop;
1447 if (automatically_generated_chrec_p (chrec))
1448 return chrec;
1450 ct = chrec_type (chrec);
1451 if (useless_type_conversion_p (type, ct))
1452 return chrec;
1454 if (!evolution_function_is_affine_p (chrec))
1455 goto keep_cast;
1457 loop = get_chrec_loop (chrec);
1458 base = CHREC_LEFT (chrec);
1459 step = CHREC_RIGHT (chrec);
1461 if (convert_affine_scev (loop, type, &base, &step, at_stmt,
1462 use_overflow_semantics, from))
1463 return build_polynomial_chrec (loop->num, base, step);
1465 /* If we cannot propagate the cast inside the chrec, just keep the cast. */
1466 keep_cast:
1467 /* Fold will not canonicalize (long)(i - 1) to (long)i - 1 because that
1468 may be more expensive. We do want to perform this optimization here
1469 though for canonicalization reasons. */
1470 if (use_overflow_semantics
1471 && (TREE_CODE (chrec) == PLUS_EXPR
1472 || TREE_CODE (chrec) == MINUS_EXPR)
1473 && TREE_CODE (type) == INTEGER_TYPE
1474 && TREE_CODE (ct) == INTEGER_TYPE
1475 && TYPE_PRECISION (type) > TYPE_PRECISION (ct)
1476 && TYPE_OVERFLOW_UNDEFINED (ct))
1477 res = fold_build2 (TREE_CODE (chrec), type,
1478 fold_convert (type, TREE_OPERAND (chrec, 0)),
1479 fold_convert (type, TREE_OPERAND (chrec, 1)));
1480 /* Similar perform the trick that (signed char)((int)x + 2) can be
1481 narrowed to (signed char)((unsigned char)x + 2). */
1482 else if (use_overflow_semantics
1483 && TREE_CODE (chrec) == POLYNOMIAL_CHREC
1484 && TREE_CODE (ct) == INTEGER_TYPE
1485 && TREE_CODE (type) == INTEGER_TYPE
1486 && TYPE_OVERFLOW_UNDEFINED (type)
1487 && TYPE_PRECISION (type) < TYPE_PRECISION (ct))
1489 tree utype = unsigned_type_for (type);
1490 res = build_polynomial_chrec (CHREC_VARIABLE (chrec),
1491 fold_convert (utype,
1492 CHREC_LEFT (chrec)),
1493 fold_convert (utype,
1494 CHREC_RIGHT (chrec)));
1495 res = chrec_convert_1 (type, res, at_stmt, use_overflow_semantics, from);
1497 else
1498 res = fold_convert (type, chrec);
1500 /* Don't propagate overflows. */
1501 if (CONSTANT_CLASS_P (res))
1502 TREE_OVERFLOW (res) = 0;
1504 /* But reject constants that don't fit in their type after conversion.
1505 This can happen if TYPE_MIN_VALUE or TYPE_MAX_VALUE are not the
1506 natural values associated with TYPE_PRECISION and TYPE_UNSIGNED,
1507 and can cause problems later when computing niters of loops. Note
1508 that we don't do the check before converting because we don't want
1509 to reject conversions of negative chrecs to unsigned types. */
1510 if (TREE_CODE (res) == INTEGER_CST
1511 && TREE_CODE (type) == INTEGER_TYPE
1512 && !int_fits_type_p (res, type))
1513 res = chrec_dont_know;
1515 return res;
1518 /* Convert CHREC to TYPE. When the analyzer knows the context in
1519 which the CHREC is built, it sets AT_STMT to the statement that
1520 contains the definition of the analyzed variable, otherwise the
1521 conversion is less accurate: the information is used for
1522 determining a more accurate estimation of the number of iterations.
1523 By default AT_STMT could be safely set to NULL_TREE.
1525 The following rule is always true: TREE_TYPE (chrec) ==
1526 TREE_TYPE (CHREC_LEFT (chrec)) == TREE_TYPE (CHREC_RIGHT (chrec)).
1527 An example of what could happen when adding two chrecs and the type
1528 of the CHREC_RIGHT is different than CHREC_LEFT is:
1530 {(uint) 0, +, (uchar) 10} +
1531 {(uint) 0, +, (uchar) 250}
1533 that would produce a wrong result if CHREC_RIGHT is not (uint):
1535 {(uint) 0, +, (uchar) 4}
1537 instead of
1539 {(uint) 0, +, (uint) 260}
1541 USE_OVERFLOW_SEMANTICS is true if this function should assume that
1542 the rules for overflow of the given language apply (e.g., that signed
1543 arithmetics in C does not overflow) -- i.e., to use them to avoid
1544 unnecessary tests, but also to enforce that the result follows them.
1546 FROM is the source variable converted if it's not NULL. */
1548 tree
1549 chrec_convert (tree type, tree chrec, gimple *at_stmt,
1550 bool use_overflow_semantics, tree from)
1552 return chrec_convert_1 (type, chrec, at_stmt, use_overflow_semantics, from);
1555 /* Convert CHREC to TYPE, without regard to signed overflows. Returns the new
1556 chrec if something else than what chrec_convert would do happens, NULL_TREE
1557 otherwise. This function set TRUE to variable pointed by FOLD_CONVERSIONS
1558 if the result chrec may overflow. */
1560 tree
1561 chrec_convert_aggressive (tree type, tree chrec, bool *fold_conversions)
1563 tree inner_type, left, right, lc, rc, rtype;
1565 gcc_assert (fold_conversions != NULL);
1567 if (automatically_generated_chrec_p (chrec)
1568 || TREE_CODE (chrec) != POLYNOMIAL_CHREC)
1569 return NULL_TREE;
1571 inner_type = TREE_TYPE (chrec);
1572 if (TYPE_PRECISION (type) > TYPE_PRECISION (inner_type))
1573 return NULL_TREE;
1575 if (useless_type_conversion_p (type, inner_type))
1576 return NULL_TREE;
1578 if (!*fold_conversions && evolution_function_is_affine_p (chrec))
1580 tree base, step;
1581 class loop *loop;
1583 loop = get_chrec_loop (chrec);
1584 base = CHREC_LEFT (chrec);
1585 step = CHREC_RIGHT (chrec);
1586 if (convert_affine_scev (loop, type, &base, &step, NULL, true))
1587 return build_polynomial_chrec (loop->num, base, step);
1589 rtype = POINTER_TYPE_P (type) ? sizetype : type;
1591 left = CHREC_LEFT (chrec);
1592 right = CHREC_RIGHT (chrec);
1593 lc = chrec_convert_aggressive (type, left, fold_conversions);
1594 if (!lc)
1595 lc = chrec_convert (type, left, NULL);
1596 rc = chrec_convert_aggressive (rtype, right, fold_conversions);
1597 if (!rc)
1598 rc = chrec_convert (rtype, right, NULL);
1600 *fold_conversions = true;
1602 return build_polynomial_chrec (CHREC_VARIABLE (chrec), lc, rc);
1605 /* Returns true when CHREC0 == CHREC1. */
1607 bool
1608 eq_evolutions_p (const_tree chrec0, const_tree chrec1)
1610 if (chrec0 == NULL_TREE
1611 || chrec1 == NULL_TREE
1612 || TREE_CODE (chrec0) != TREE_CODE (chrec1))
1613 return false;
1615 if (chrec0 == chrec1)
1616 return true;
1618 if (! types_compatible_p (TREE_TYPE (chrec0), TREE_TYPE (chrec1)))
1619 return false;
1621 switch (TREE_CODE (chrec0))
1623 case POLYNOMIAL_CHREC:
1624 return (CHREC_VARIABLE (chrec0) == CHREC_VARIABLE (chrec1)
1625 && eq_evolutions_p (CHREC_LEFT (chrec0), CHREC_LEFT (chrec1))
1626 && eq_evolutions_p (CHREC_RIGHT (chrec0), CHREC_RIGHT (chrec1)));
1628 case PLUS_EXPR:
1629 case MULT_EXPR:
1630 case MINUS_EXPR:
1631 case POINTER_PLUS_EXPR:
1632 return eq_evolutions_p (TREE_OPERAND (chrec0, 0),
1633 TREE_OPERAND (chrec1, 0))
1634 && eq_evolutions_p (TREE_OPERAND (chrec0, 1),
1635 TREE_OPERAND (chrec1, 1));
1637 CASE_CONVERT:
1638 return eq_evolutions_p (TREE_OPERAND (chrec0, 0),
1639 TREE_OPERAND (chrec1, 0));
1641 default:
1642 return operand_equal_p (chrec0, chrec1, 0);
1646 /* Returns EV_GROWS if CHREC grows (assuming that it does not overflow),
1647 EV_DECREASES if it decreases, and EV_UNKNOWN if we cannot determine
1648 which of these cases happens. */
1650 enum ev_direction
1651 scev_direction (const_tree chrec)
1653 const_tree step;
1655 if (!evolution_function_is_affine_p (chrec))
1656 return EV_DIR_UNKNOWN;
1658 step = CHREC_RIGHT (chrec);
1659 if (TREE_CODE (step) != INTEGER_CST)
1660 return EV_DIR_UNKNOWN;
1662 if (tree_int_cst_sign_bit (step))
1663 return EV_DIR_DECREASES;
1664 else
1665 return EV_DIR_GROWS;
1668 /* Iterates over all the components of SCEV, and calls CBCK. */
1670 void
1671 for_each_scev_op (tree *scev, bool (*cbck) (tree *, void *), void *data)
1673 switch (TREE_CODE_LENGTH (TREE_CODE (*scev)))
1675 case 3:
1676 for_each_scev_op (&TREE_OPERAND (*scev, 2), cbck, data);
1677 /* FALLTHRU */
1679 case 2:
1680 for_each_scev_op (&TREE_OPERAND (*scev, 1), cbck, data);
1681 /* FALLTHRU */
1683 case 1:
1684 for_each_scev_op (&TREE_OPERAND (*scev, 0), cbck, data);
1685 /* FALLTHRU */
1687 default:
1688 cbck (scev, data);
1689 break;
1693 /* Returns true when the operation can be part of a linear
1694 expression. */
1696 static inline bool
1697 operator_is_linear (tree scev)
1699 switch (TREE_CODE (scev))
1701 case INTEGER_CST:
1702 case POLYNOMIAL_CHREC:
1703 case PLUS_EXPR:
1704 case POINTER_PLUS_EXPR:
1705 case MULT_EXPR:
1706 case MINUS_EXPR:
1707 case NEGATE_EXPR:
1708 case SSA_NAME:
1709 case NON_LVALUE_EXPR:
1710 case BIT_NOT_EXPR:
1711 CASE_CONVERT:
1712 return true;
1714 default:
1715 return false;
1719 /* Return true when SCEV is a linear expression. Linear expressions
1720 can contain additions, substractions and multiplications.
1721 Multiplications are restricted to constant scaling: "cst * x". */
1723 bool
1724 scev_is_linear_expression (tree scev)
1726 if (evolution_function_is_constant_p (scev))
1727 return true;
1729 if (scev == NULL
1730 || !operator_is_linear (scev))
1731 return false;
1733 if (TREE_CODE (scev) == MULT_EXPR)
1734 return !(tree_contains_chrecs (TREE_OPERAND (scev, 0), NULL)
1735 && tree_contains_chrecs (TREE_OPERAND (scev, 1), NULL));
1737 if (TREE_CODE (scev) == POLYNOMIAL_CHREC
1738 && !evolution_function_is_affine_multivariate_p (scev, CHREC_VARIABLE (scev)))
1739 return false;
1741 switch (TREE_CODE_LENGTH (TREE_CODE (scev)))
1743 case 3:
1744 return scev_is_linear_expression (TREE_OPERAND (scev, 0))
1745 && scev_is_linear_expression (TREE_OPERAND (scev, 1))
1746 && scev_is_linear_expression (TREE_OPERAND (scev, 2));
1748 case 2:
1749 return scev_is_linear_expression (TREE_OPERAND (scev, 0))
1750 && scev_is_linear_expression (TREE_OPERAND (scev, 1));
1752 case 1:
1753 return scev_is_linear_expression (TREE_OPERAND (scev, 0));
1755 case 0:
1756 return true;
1758 default:
1759 return false;
1763 /* Determines whether the expression CHREC contains only interger consts
1764 in the right parts. */
1766 bool
1767 evolution_function_right_is_integer_cst (const_tree chrec)
1769 if (chrec == NULL_TREE)
1770 return false;
1772 switch (TREE_CODE (chrec))
1774 case INTEGER_CST:
1775 return true;
1777 case POLYNOMIAL_CHREC:
1778 return TREE_CODE (CHREC_RIGHT (chrec)) == INTEGER_CST
1779 && (TREE_CODE (CHREC_LEFT (chrec)) != POLYNOMIAL_CHREC
1780 || evolution_function_right_is_integer_cst (CHREC_LEFT (chrec)));
1782 CASE_CONVERT:
1783 return evolution_function_right_is_integer_cst (TREE_OPERAND (chrec, 0));
1785 default:
1786 return false;