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1 /* Dead code elimination pass for the GNU compiler.
2 Copyright (C) 2002-2015 Free Software Foundation, Inc.
3 Contributed by Ben Elliston <bje@redhat.com>
4 and Andrew MacLeod <amacleod@redhat.com>
5 Adapted to use control dependence by Steven Bosscher, SUSE Labs.
7 This file is part of GCC.
9 GCC is free software; you can redistribute it and/or modify it
10 under the terms of the GNU General Public License as published by the
11 Free Software Foundation; either version 3, or (at your option) any
12 later version.
14 GCC is distributed in the hope that it will be useful, but WITHOUT
15 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
16 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 for more details.
19 You should have received a copy of the GNU General Public License
20 along with GCC; see the file COPYING3. If not see
21 <http://www.gnu.org/licenses/>. */
23 /* Dead code elimination.
25 References:
27 Building an Optimizing Compiler,
28 Robert Morgan, Butterworth-Heinemann, 1998, Section 8.9.
30 Advanced Compiler Design and Implementation,
31 Steven Muchnick, Morgan Kaufmann, 1997, Section 18.10.
33 Dead-code elimination is the removal of statements which have no
34 impact on the program's output. "Dead statements" have no impact
35 on the program's output, while "necessary statements" may have
36 impact on the output.
38 The algorithm consists of three phases:
39 1. Marking as necessary all statements known to be necessary,
40 e.g. most function calls, writing a value to memory, etc;
41 2. Propagating necessary statements, e.g., the statements
42 giving values to operands in necessary statements; and
43 3. Removing dead statements. */
83 static struct stmt_stats
84 {
91 #define STMT_NECESSARY GF_PLF_1
95 /* Vector indicating an SSA name has already been processed and marked
96 as necessary. */
99 /* Vector indicating that the last statement of a basic block has already
100 been marked as necessary. */
103 /* Vector indicating that BB contains statements that are live. */
106 /* Before we can determine whether a control branch is dead, we need to
107 compute which blocks are control dependent on which edges.
109 We expect each block to be control dependent on very few edges so we
110 use a bitmap for each block recording its edges. An array holds the
111 bitmap. The Ith bit in the bitmap is set if that block is dependent
112 on the Ith edge. */
115 /* Vector indicating that a basic block has already had all the edges
116 processed that it is control dependent on. */
119 /* TRUE if this pass alters the CFG (by removing control statements).
120 FALSE otherwise.
122 If this pass alters the CFG, then it will arrange for the dominators
123 to be recomputed. */
127 /* If STMT is not already marked necessary, mark it, and add it to the
128 worklist if ADD_TO_WORKLIST is true. */
132 {
139 {
143 }
150 }
153 /* Mark the statement defining operand OP as necessary. */
157 {
158 gimple stmt;
165 {
170 }
180 {
185 }
191 }
194 /* Mark STMT as necessary if it obviously is. Add it to the worklist if
195 it can make other statements necessary.
197 If AGGRESSIVE is false, control statements are conservatively marked as
198 necessary. */
200 static void
202 {
203 /* With non-call exceptions, we have to assume that all statements could
204 throw. If a statement could throw, it can be deemed necessary. */
208 {
211 }
213 /* Statements that are implicitly live. Most function calls, asm
214 and return statements are required. Labels and GIMPLE_BIND nodes
215 are kept because they are control flow, and we have no way of
216 knowing whether they can be removed. DCE can eliminate all the
217 other statements in a block, and CFG can then remove the block
218 and labels. */
220 {
233 {
238 {
247 }
248 /* Most, but not all function calls are required. Function calls that
249 produce no result and have no side effects (i.e. const pure
250 functions) are unnecessary. */
252 {
255 }
259 }
262 /* Debug temps without a value are not useful. ??? If we could
263 easily locate the debug temp bind stmt for a use thereof,
264 would could refrain from marking all debug temps here, and
265 mark them only if they're used. */
279 /* Fall through. */
293 }
295 /* If the statement has volatile operands, it needs to be preserved.
296 Same for statements that can alter control flow in unpredictable
297 ways. */
299 {
302 }
305 {
308 }
311 }
314 /* Mark the last statement of BB as necessary. */
316 static void
318 {
324 /* We actually mark the statement only if it is a control statement. */
327 }
330 /* Mark control dependent edges of BB as necessary. We have to do this only
331 once for each basic block so we set the appropriate bit after we're done.
333 When IGNORE_SELF is true, ignore BB in the list of control dependences. */
335 static void
337 {
338 bitmap_iterator bi;
349 {
353 {
356 }
360 }
364 }
367 /* Find obviously necessary statements. These are things like most function
368 calls, and stores to file level variables.
370 If EL is NULL, control statements are conservatively marked as
371 necessary. Otherwise it contains the list of edges used by control
372 dependence analysis. */
374 static void
376 {
377 basic_block bb;
378 gimple_stmt_iterator gsi;
379 edge e;
384 {
385 /* PHI nodes are never inherently necessary. */
387 {
390 }
392 /* Check all statements in the block. */
394 {
398 }
399 }
401 /* Pure and const functions are finite and thus have no infinite loops in
402 them. */
407 /* Prevent the empty possibly infinite loops from being removed. */
409 {
414 {
415 edge_iterator ei;
419 {
424 }
425 }
429 {
433 }
435 }
436 }
439 /* Return true if REF is based on an aliased base, otherwise false. */
441 static bool
443 {
452 }
460 /* Worker for the walker that marks reaching definitions of REF,
461 which is based on a non-aliased decl, necessary. It returns
462 true whenever the defining statement of the current VDEF is
463 a kill for REF, as no dominating may-defs are necessary for REF
464 anymore. DATA points to the basic-block that contains the
465 stmt that refers to REF. */
467 static bool
469 {
472 /* All stmts we visit are necessary. */
475 /* If the stmt lhs kills ref, then we can stop walking. */
478 /* The assignment is not necessarily carried out if it can throw
479 and we can catch it in the current function where we could inspect
480 the previous value.
481 ??? We only need to care about the RHS throwing. For aggregate
482 assignments or similar calls and non-call exceptions the LHS
483 might throw as well. */
485 {
490 /* We can get MEM[symbol: sZ, index: D.8862_1] here,
491 so base == refd->base does not always hold. */
493 {
494 /* For a must-alias check we need to be able to constrain
495 the accesses properly. */
498 {
502 }
503 /* Or they need to be exactly the same. */
505 /* Make sure there is no induction variable involved
506 in the references (gcc.c-torture/execute/pr42142.c).
507 The simplest way is to check if the kill dominates
508 the use. */
509 /* But when both are in the same block we cannot
510 easily tell whether we came from a backedge
511 unless we decide to compute stmt UIDs
512 (see PR58246). */
518 }
519 }
521 /* Otherwise keep walking. */
523 }
525 static void
527 {
529 ao_ref refd;
533 mark_aliased_reaching_defs_necessary_1,
538 nr_walks++;
539 }
541 /* Worker for the walker that marks reaching definitions of REF, which
542 is not based on a non-aliased decl. For simplicity we need to end
543 up marking all may-defs necessary that are not based on a non-aliased
544 decl. The only job of this walker is to skip may-defs based on
545 a non-aliased decl. */
547 static bool
550 {
553 /* We have to skip already visited (and thus necessary) statements
554 to make the chaining work after we dropped back to simple mode. */
557 {
561 }
563 /* We want to skip stores to non-aliased variables. */
566 {
570 }
572 /* We want to skip statments that do not constitute stores but have
573 a virtual definition. */
575 {
580 {
590 }
591 }
596 }
598 static void
600 {
603 }
605 /* Return true for PHI nodes with one or identical arguments
606 can be removed. */
607 static bool
609 {
616 }
618 /* Propagate necessity using the operands of necessary statements.
619 Process the uses on each statement in the worklist, and add all
620 feeding statements which contribute to the calculation of this
621 value to the worklist.
623 In conservative mode, EL is NULL. */
625 static void
627 {
628 gimple stmt;
634 {
635 /* Take STMT from worklist. */
639 {
643 }
646 {
647 /* Mark the last statement of the basic blocks on which the block
648 containing STMT is control dependent, but only if we haven't
649 already done so. */
654 }
657 /* We do not process virtual PHI nodes nor do we track their
658 necessity. */
660 {
661 /* PHI nodes are somewhat special in that each PHI alternative has
662 data and control dependencies. All the statements feeding the
663 PHI node's arguments are always necessary. In aggressive mode,
664 we also consider the control dependent edges leading to the
665 predecessor block associated with each PHI alternative as
666 necessary. */
671 {
675 }
677 /* For PHI operands it matters from where the control flow arrives
678 to the BB. Consider the following example:
680 a=exp1;
681 b=exp2;
682 if (test)
683 ;
684 else
685 ;
686 c=PHI(a,b)
688 We need to mark control dependence of the empty basic blocks, since they
689 contains computation of PHI operands.
691 Doing so is too restrictive in the case the predecestor block is in
692 the loop. Consider:
694 if (b)
695 {
696 int i;
697 for (i = 0; i<1000; ++i)
698 ;
699 j = 0;
700 }
701 return j;
703 There is PHI for J in the BB containing return statement.
704 In this case the control dependence of predecestor block (that is
705 within the empty loop) also contains the block determining number
706 of iterations of the block that would prevent removing of empty
707 loop in this case.
709 This scenario can be avoided by splitting critical edges.
710 To save the critical edge splitting pass we identify how the control
711 dependence would look like if the edge was split.
713 Consider the modified CFG created from current CFG by splitting
714 edge B->C. In the postdominance tree of modified CFG, C' is
715 always child of C. There are two cases how chlids of C' can look
716 like:
718 1) C' is leaf
720 In this case the only basic block C' is control dependent on is B.
722 2) C' has single child that is B
724 In this case control dependence of C' is same as control
725 dependence of B in original CFG except for block B itself.
726 (since C' postdominate B in modified CFG)
728 Now how to decide what case happens? There are two basic options:
730 a) C postdominate B. Then C immediately postdominate B and
731 case 2 happens iff there is no other way from B to C except
732 the edge B->C.
734 There is other way from B to C iff there is succesor of B that
735 is not postdominated by B. Testing this condition is somewhat
736 expensive, because we need to iterate all succesors of B.
737 We are safe to assume that this does not happen: we will mark B
738 as needed when processing the other path from B to C that is
739 conrol dependent on B and marking control dependencies of B
740 itself is harmless because they will be processed anyway after
741 processing control statement in B.
743 b) C does not postdominate B. Always case 1 happens since there is
744 path from C to exit that does not go through B and thus also C'. */
747 {
749 {
754 {
757 }
762 }
763 }
764 }
765 else
766 {
767 /* Propagate through the operands. Examine all the USE, VUSE and
768 VDEF operands in this statement. Mark all the statements
769 which feed this statement's uses as necessary. */
770 ssa_op_iter iter;
771 tree use;
773 /* If this is a call to free which is directly fed by an
774 allocation function do not mark that necessary through
775 processing the argument. */
777 {
779 gimple def_stmt;
780 tree def_callee;
781 /* If the pointer we free is defined by an allocation
782 function do not add the call to the worklist. */
790 {
791 gimple bounds_def_stmt;
792 tree bounds;
794 /* For instrumented calls we should also check used
795 bounds are returned by the same allocation call. */
801 BUILT_IN_CHKP_BNDRET)
804 }
805 }
814 /* If we dropped to simple mode make all immediately
815 reachable definitions necessary. */
817 {
820 }
822 /* For statements that may load from memory (have a VUSE) we
823 have to mark all reaching (may-)definitions as necessary.
824 We partition this task into two cases:
825 1) explicit loads based on decls that are not aliased
826 2) implicit loads (like calls) and explicit loads not
827 based on decls that are not aliased (like indirect
828 references or loads from globals)
829 For 1) we mark all reaching may-defs as necessary, stopping
830 at dominating kills. For 2) we want to mark all dominating
831 references necessary, but non-aliased ones which we handle
832 in 1). By keeping a global visited bitmap for references
833 we walk for 2) we avoid quadratic behavior for those. */
836 {
840 /* Calls to functions that are merely acting as barriers
841 or that only store to memory do not make any previous
842 stores necessary. */
860 /* Calls implicitly load from memory, their arguments
861 in addition may explicitly perform memory loads. */
864 {
873 }
874 }
876 {
877 tree rhs;
878 /* If this is a load mark things necessary. */
883 {
886 else
888 }
889 }
891 {
893 /* A return statement may perform a load. */
898 {
901 else
903 }
904 }
906 {
909 /* Inputs may perform loads. */
911 {
918 }
919 }
921 {
922 /* The beginning of a transaction is a memory barrier. */
923 /* ??? If we were really cool, we'd only be a barrier
924 for the memories touched within the transaction. */
926 }
927 else
930 /* If we over-used our alias oracle budget drop to simple
931 mode. The cost metric allows quadratic behavior
932 (number of uses times number of may-defs queries) up to
933 a constant maximal number of queries and after that falls back to
934 super-linear complexity. */
937 /* Linear in the number of may-defs. */
939 /* Linear in the number of uses. */
941 {
945 }
946 }
947 }
948 }
950 /* Remove dead PHI nodes from block BB. */
952 static bool
954 {
957 gphi_iterator gsi;
960 {
964 /* We do not track necessity of virtual PHI nodes. Instead do
965 very simple dead PHI removal here. */
967 {
968 /* Virtual PHI nodes with one or identical arguments
969 can be removed. */
971 {
975 use_operand_p use_p;
976 imm_use_iterator iter;
977 gimple use_stmt;
984 }
985 else
987 }
990 {
993 {
997 }
1002 }
1005 }
1007 }
1009 /* Forward edge E to respective POST_DOM_BB and update PHIs. */
1011 static edge
1013 {
1014 gphi_iterator gsi;
1016 edge_iterator ei;
1025 /* If edge was already around, no updating is necessary. */
1030 {
1031 /* We are sure that for every live PHI we are seeing control dependent BB.
1032 This means that we can pick any edge to duplicate PHI args from. */
1037 {
1039 tree op;
1040 source_location locus;
1042 /* PHIs for virtuals have no control dependency relation on them.
1043 We are lost here and must force renaming of the symbol. */
1045 {
1049 }
1051 /* Dead PHI do not imply control dependency. */
1053 {
1056 }
1061 /* The resulting PHI if not dead can only be degenerate. */
1064 }
1065 }
1067 }
1069 /* Remove dead statement pointed to by iterator I. Receives the basic block BB
1070 containing I so that we don't have to look it up. */
1072 static void
1074 {
1078 {
1082 }
1086 /* If we have determined that a conditional branch statement contributes
1087 nothing to the program, then we not only remove it, but we also change
1088 the flow graph so that the current block will simply fall-thru to its
1089 immediate post-dominator. The blocks we are circumventing will be
1090 removed by cleanup_tree_cfg if this change in the flow graph makes them
1091 unreachable. */
1093 {
1094 basic_block post_dom_bb;
1096 edge_iterator ei;
1102 /* If edge is already there, try to use it. This avoids need to update
1103 PHI nodes. Also watch for cases where post dominator does not exists
1104 or is exit block. These can happen for infinite loops as we create
1105 fake edges in the dominator tree. */
1107 ;
1110 else
1116 /* The edge is no longer associated with a conditional, so it does
1117 not have TRUE/FALSE flags. */
1120 /* The lone outgoing edge from BB will be a fallthru edge. */
1123 /* Remove the remaining outgoing edges. */
1126 {
1128 /* If we made a BB unconditionally exit a loop then this
1129 transform alters the set of BBs in the loop. Schedule
1130 a fixup. */
1134 }
1135 else
1137 }
1139 /* If this is a store into a variable that is being optimized away,
1140 add a debug bind stmt if possible. */
1144 {
1151 {
1153 gdebug *note
1156 }
1157 }
1162 }
1164 /* Helper for maybe_optimize_arith_overflow. Find in *TP if there are any
1165 uses of data (SSA_NAME) other than REALPART_EXPR referencing it. */
1167 static tree
1169 {
1175 }
1177 /* If the IMAGPART_EXPR of the {ADD,SUB,MUL}_OVERFLOW result is never used,
1178 but REALPART_EXPR is, optimize the {ADD,SUB,MUL}_OVERFLOW internal calls
1179 into plain unsigned {PLUS,MINUS,MULT}_EXPR, and if needed reset debug
1180 uses. */
1182 static void
1185 {
1192 imm_use_iterator imm_iter;
1193 use_operand_p use_p;
1198 {
1206 else
1207 {
1210 }
1211 }
1229 {
1230 gimple use_stmt;
1232 {
1237 {
1240 }
1241 }
1242 }
1250 else
1255 {
1261 }
1265 }
1267 /* Eliminate unnecessary statements. Any instruction not marked as necessary
1268 contributes nothing to the program, and can be deleted. */
1270 static bool
1272 {
1274 basic_block bb;
1276 gimple stmt;
1277 tree call;
1285 /* Walking basic blocks and statements in reverse order avoids
1286 releasing SSA names before any other DEFs that refer to them are
1287 released. This helps avoid loss of debug information, as we get
1288 a chance to propagate all RHSs of removed SSAs into debug uses,
1289 rather than only the latest ones. E.g., consider:
1291 x_3 = y_1 + z_2;
1292 a_5 = x_3 - b_4;
1293 # DEBUG a => a_5
1295 If we were to release x_3 before a_5, when we reached a_5 and
1296 tried to substitute it into the debug stmt, we'd see x_3 there,
1297 but x_3's DEF, type, etc would have already been disconnected.
1298 By going backwards, the debug stmt first changes to:
1300 # DEBUG a => x_3 - b_4
1302 and then to:
1304 # DEBUG a => y_1 + z_2 - b_4
1306 as desired. */
1312 {
1315 /* Remove dead statements. */
1317 {
1325 /* We can mark a call to free as not necessary if the
1326 defining statement of its argument is not necessary
1327 (and thus is getting removed). */
1330 {
1333 {
1338 }
1339 /* We did not propagate necessity for free calls fed
1340 by allocation function to allow unnecessary
1341 alloc-free sequence elimination. For instrumented
1342 calls it also means we did not mark bounds producer
1343 as necessary and it is time to do it in case free
1344 call is not removed. */
1346 {
1347 gimple bounds_def_stmt;
1355 }
1356 }
1358 /* If GSI is not necessary then remove it. */
1360 {
1361 /* Keep clobbers that we can keep live live. */
1363 {
1364 ssa_op_iter iter;
1365 use_operand_p use_p;
1368 {
1372 {
1375 }
1376 }
1379 }
1383 }
1385 {
1390 /* When LHS of var = call (); is dead, simplify it into
1391 call (); saving one operand. */
1395 /* Avoid doing so for allocation calls which we
1396 did not mark as necessary, it will confuse the
1397 special logic we apply to malloc/free pair removal. */
1406 /* Avoid doing so for bndret calls for the same reason. */
1408 {
1411 {
1415 }
1422 /* GOMP_SIMD_LANE without lhs is not needed. */
1426 }
1429 {
1441 }
1442 }
1443 }
1444 }
1448 /* Since we don't track liveness of virtual PHI nodes, it is possible that we
1449 rendered some PHI nodes unreachable while they are still in use.
1450 Mark them for renaming. */
1452 {
1453 basic_block prev_bb;
1457 /* Delete all unreachable basic blocks in reverse dominator order. */
1460 {
1465 {
1469 {
1471 imm_use_iterator iter;
1475 {
1480 {
1483 }
1484 }
1487 }
1490 {
1491 /* Speed up the removal of blocks that don't
1492 dominate others. Walking backwards, this should
1493 be the common case. ??? Do we need to recompute
1494 dominators because of cfg_altered? */
1498 else
1499 {
1503 {
1506 /* Rearrangements to the CFG may have failed
1507 to update the dominators tree, so that
1508 formerly-dominated blocks are now
1509 otherwise reachable. */
1513 }
1516 }
1517 }
1518 }
1519 }
1520 }
1522 {
1523 /* Remove dead PHI nodes. */
1525 }
1528 }
1531 /* Print out removed statement statistics. */
1533 static void
1535 {
1544 else
1549 }
1551 /* Initialization for this pass. Set up the used data structures. */
1553 static void
1555 {
1559 {
1564 }
1571 }
1573 /* Cleanup after this pass. */
1575 static void
1577 {
1579 {
1585 }
1590 }
1592 /* Main routine to eliminate dead code.
1594 AGGRESSIVE controls the aggressiveness of the algorithm.
1595 In conservative mode, we ignore control dependence and simply declare
1596 all but the most trivially dead branches necessary. This mode is fast.
1597 In aggressive mode, control dependences are taken into account, which
1598 results in more dead code elimination, but at the cost of some time.
1600 FIXME: Aggressive mode before PRE doesn't work currently because
1601 the dominance info is not invalidated after DCE1. This is
1602 not an issue right now because we only run aggressive DCE
1603 as the last tree SSA pass, but keep this in mind when you
1604 start experimenting with pass ordering. */
1606 static unsigned int
1608 {
1613 /* Preheaders are needed for SCEV to work.
1614 Simple lateches and recorded exits improve chances that loop will
1615 proved to be finite in testcases such as in loop-15.c and loop-24.c */
1623 {
1624 /* Compute control dependence. */
1628 visited_control_parents =
1633 }
1651 /* We do not update postdominators, so free them unconditionally. */
1654 /* If we removed paths in the CFG, then we need to update
1655 dominators as well. I haven't investigated the possibility
1656 of incrementally updating dominators. */
1663 /* Debugging dumps. */
1670 {
1675 }
1677 }
1679 /* Pass entry points. */
1680 static unsigned int
1682 {
1684 }
1686 static unsigned int
1688 {
1690 }
1695 {
1705 };
1708 {
1712 {}
1714 /* opt_pass methods: */
1723 gimple_opt_pass *
1725 {
1727 }
1732 {
1742 };
1745 {
1749 {}
1751 /* opt_pass methods: */
1760 gimple_opt_pass *
1762 {
1764 }