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1 /* Combining of if-expressions on trees.
2 Copyright (C) 2007-2014 Free Software Foundation, Inc.
3 Contributed by Richard Guenther <rguenther@suse.de>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
10 any later version.
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License 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/>. */
25 /* rtl is needed only because arm back-end requires it for
26 BRANCH_COST. */
47 #ifndef LOGICAL_OP_NON_SHORT_CIRCUIT
48 #define LOGICAL_OP_NON_SHORT_CIRCUIT \
49 (BRANCH_COST (optimize_function_for_speed_p (cfun), \
50 false) >= 2)
51 #endif
53 /* This pass combines COND_EXPRs to simplify control flow. It
54 currently recognizes bit tests and comparisons in chains that
55 represent logical and or logical or of two COND_EXPRs.
57 It does so by walking basic blocks in a approximate reverse
58 post-dominator order and trying to match CFG patterns that
59 represent logical and or logical or of two COND_EXPRs.
60 Transformations are done if the COND_EXPR conditions match
61 either
63 1. two single bit tests X & (1 << Yn) (for logical and)
65 2. two bit tests X & Yn (for logical or)
67 3. two comparisons X OPn Y (for logical or)
69 To simplify this pass, removing basic blocks and dead code
70 is left to CFG cleanup and DCE. */
73 /* Recognize a if-then-else CFG pattern starting to match with the
74 COND_BB basic-block containing the COND_EXPR. The recognized
75 then end else blocks are stored to *THEN_BB and *ELSE_BB. If
76 *THEN_BB and/or *ELSE_BB are already set, they are required to
77 match the then and else basic-blocks to make the pattern match.
78 Returns true if the pattern matched, false otherwise. */
80 static bool
83 {
89 /* Find the then/else edges. */
93 {
97 }
102 /* Check if the edge destinations point to the required block. */
116 }
118 /* Verify if the basic block BB does not have side-effects. Return
119 true in this case, else false. */
121 static bool
123 {
124 gimple_stmt_iterator gsi;
127 {
137 }
140 }
142 /* Return true if BB is an empty forwarder block to TO_BB. */
144 static bool
146 {
150 }
152 /* Verify if all PHI node arguments in DEST for edges from BB1 or
153 BB2 to DEST are the same. This makes the CFG merge point
154 free from side-effects. Return true in this case, else false. */
156 static bool
158 {
161 gphi_iterator gsi;
165 {
170 }
173 }
175 /* Return the best representative SSA name for CANDIDATE which is used
176 in a bit test. */
178 static tree
180 {
181 /* Skip single-use names in favor of using the name from a
182 non-widening conversion definition. */
185 {
189 {
193 }
194 }
197 }
199 /* Recognize a single bit test pattern in GIMPLE_COND and its defining
200 statements. Store the name being tested in *NAME and the bit
201 in *BIT. The GIMPLE_COND computes *NAME & (1 << *BIT).
202 Returns true if the pattern matched, false otherwise. */
204 static bool
206 {
207 gimple stmt;
209 /* Get at the definition of the result of the bit test. */
218 /* Look at which bit is tested. One form to recognize is
219 D.1985_5 = state_3(D) >> control1_4(D);
220 D.1986_6 = (int) D.1985_5;
221 D.1987_7 = op0 & 1;
222 if (D.1987_7 != 0) */
226 {
229 /* Look through copies and conversions to eventually
230 find the stmt that computes the shift. */
241 /* If we found such, decompose it. */
244 {
245 /* op0 & (1 << op1) */
248 }
249 else
250 {
251 /* t & 1 */
254 }
257 }
259 /* Another form is
260 D.1987_7 = op0 & (1 << CST)
261 if (D.1987_7 != 0) */
265 {
270 }
272 /* Another form is
273 D.1986_6 = 1 << control1_4(D)
274 D.1987_7 = op0 & D.1986_6
275 if (D.1987_7 != 0) */
279 {
280 gimple tmp;
282 /* Both arguments of the BIT_AND_EXPR can be the single-bit
283 specifying expression. */
288 {
292 }
298 {
302 }
303 }
306 }
308 /* Recognize a bit test pattern in a GIMPLE_COND and its defining
309 statements. Store the name being tested in *NAME and the bits
310 in *BITS. The COND_EXPR computes *NAME & *BITS.
311 Returns true if the pattern matched, false otherwise. */
313 static bool
315 {
316 gimple stmt;
318 /* Get at the definition of the result of the bit test. */
332 }
334 /* If-convert on a and pattern with a common else block. The inner
335 if is specified by its INNER_COND_BB, the outer by OUTER_COND_BB.
336 inner_inv, outer_inv and result_inv indicate whether the conditions
337 are inverted.
338 Returns true if the edges to the common else basic-block were merged. */
340 static bool
343 {
344 gimple_stmt_iterator gsi;
361 /* See if we test a single bit of the same name in both tests. In
362 that case remove the outer test, merging both else edges,
363 and change the inner one to test for
364 name & (bit1 | bit2) == (bit1 | bit2). */
368 {
371 /* Do it. */
391 /* Leave CFG optimization to cfg_cleanup. */
397 {
405 }
408 }
410 /* See if we have two bit tests of the same name in both tests.
411 In that case remove the outer test and change the inner one to
412 test for name & (bits1 | bits2) != 0. */
415 {
416 gimple_stmt_iterator gsi;
417 tree t;
419 /* Find the common name which is bit-tested. */
421 ;
423 {
430 }
432 {
436 }
438 {
442 }
443 else
446 /* As we strip non-widening conversions in finding a common
447 name that is tested make sure to end up with an integral
448 type for building the bit operations. */
451 {
456 }
457 else
458 {
463 }
465 /* Do it. */
481 /* Leave CFG optimization to cfg_cleanup. */
487 {
495 }
498 }
500 /* See if we have two comparisons that we can merge into one. */
503 {
504 tree t;
508 /* Invert comparisons if necessary (and possible). */
519 /* Don't return false so fast, try maybe_fold_or_comparisons? */
524 outer_cond_code,
527 {
529 gimple_stmt_iterator gsi;
532 /* Only do this optimization if the inner bb contains only the conditional. */
536 inner_cond_code,
537 boolean_type_node,
541 outer_cond_code,
542 boolean_type_node,
548 {
551 }
554 GSI_SAME_STMT);
555 }
564 /* Leave CFG optimization to cfg_cleanup. */
570 {
574 }
577 }
580 }
582 /* Helper function for tree_ssa_ifcombine_bb. Recognize a CFG pattern and
583 dispatch to the appropriate if-conversion helper for a particular
584 set of INNER_COND_BB, OUTER_COND_BB, THEN_BB and ELSE_BB.
585 PHI_PRED_BB should be one of INNER_COND_BB, THEN_BB or ELSE_BB. */
587 static bool
590 basic_block phi_pred_bb)
591 {
592 /* The && form is characterized by a common else_bb with
593 the two edges leading to it mergable. The latter is
594 guaranteed by matching PHI arguments in the else_bb and
595 the inner cond_bb having no side-effects. */
600 {
601 /* We have
602 <outer_cond_bb>
603 if (q) goto inner_cond_bb; else goto else_bb;
604 <inner_cond_bb>
605 if (p) goto ...; else goto else_bb;
606 ...
607 <else_bb>
608 ...
609 */
612 }
614 /* And a version where the outer condition is negated. */
619 {
620 /* We have
621 <outer_cond_bb>
622 if (q) goto else_bb; else goto inner_cond_bb;
623 <inner_cond_bb>
624 if (p) goto ...; else goto else_bb;
625 ...
626 <else_bb>
627 ...
628 */
631 }
633 /* The || form is characterized by a common then_bb with the
634 two edges leading to it mergable. The latter is guaranteed
635 by matching PHI arguments in the then_bb and the inner cond_bb
636 having no side-effects. */
641 {
642 /* We have
643 <outer_cond_bb>
644 if (q) goto then_bb; else goto inner_cond_bb;
645 <inner_cond_bb>
646 if (q) goto then_bb; else goto ...;
647 <then_bb>
648 ...
649 */
652 }
654 /* And a version where the outer condition is negated. */
659 {
660 /* We have
661 <outer_cond_bb>
662 if (q) goto inner_cond_bb; else goto then_bb;
663 <inner_cond_bb>
664 if (q) goto then_bb; else goto ...;
665 <then_bb>
666 ...
667 */
670 }
673 }
675 /* Recognize a CFG pattern and dispatch to the appropriate
676 if-conversion helper. We start with BB as the innermost
677 worker basic-block. Returns true if a transformation was done. */
679 static bool
681 {
687 /* Recognize && and || of two conditions with a common
688 then/else block which entry edges we can merge. That is:
689 if (a || b)
690 ;
691 and
692 if (a && b)
693 ;
694 This requires a single predecessor of the inner cond_bb. */
696 {
704 {
705 /* Other possibilities for the && form, if else_bb is
706 empty forwarder block to then_bb. Compared to the above simpler
707 forms this can be treated as if then_bb and else_bb were swapped,
708 and the corresponding inner_cond_bb not inverted because of that.
709 For same_phi_args_p we look at equality of arguments between
710 edge from outer_cond_bb and the forwarder block. */
714 }
716 {
717 /* Other possibilities for the || form, if then_bb is
718 empty forwarder block to else_bb. Compared to the above simpler
719 forms this can be treated as if then_bb and else_bb were swapped,
720 and the corresponding inner_cond_bb not inverted because of that.
721 For same_phi_args_p we look at equality of arguments between
722 edge from outer_cond_bb and the forwarder block. */
726 }
727 }
730 }
732 /* Main entry for the tree if-conversion pass. */
737 {
747 };
750 {
754 {}
756 /* opt_pass methods: */
761 unsigned int
763 {
771 /* Search every basic block for COND_EXPR we may be able to optimize.
773 We walk the blocks in order that guarantees that a block with
774 a single predecessor is processed after the predecessor.
775 This ensures that we collapse outter ifs before visiting the
776 inner ones, and also that we do not try to visit a removed
777 block. This is opposite of PHI-OPT, because we cascade the
778 combining rather than cascading PHIs. */
780 {
787 }
792 }
796 gimple_opt_pass *
798 {
800 }