| blob | b690d927b6cc728bab2dd3a7e053b0c78837e366 |
1 /* SSA Dominator optimizations for trees
2 Copyright (C) 2001-2016 Free Software Foundation, Inc.
3 Contributed by Diego Novillo <dnovillo@redhat.com>
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/>. */
49 /* This file implements optimizations on the dominator tree. */
51 /* Structure for recording known values of a conditional expression
52 at the exits from its block. */
54 struct cond_equivalence
55 {
57 tree value;
58 };
60 /* Structure for recording edge equivalences.
62 Computing and storing the edge equivalences instead of creating
63 them on-demand can save significant amounts of time, particularly
64 for pathological cases involving switch statements.
66 These structures live for a single iteration of the dominator
67 optimizer in the edge's AUX field. At the end of an iteration we
68 free each of these structures. */
70 struct edge_info
71 {
72 /* If this edge creates a simple equivalence, the LHS and RHS of
73 the equivalence will be stored here. */
74 tree lhs;
75 tree rhs;
77 /* Traversing an edge may also indicate one or more particular conditions
78 are true or false. */
80 };
82 /* Track whether or not we have changed the control flow graph. */
85 /* Bitmap of blocks that have had EH statements cleaned. We should
86 remove their dead edges eventually. */
90 /* Statistics for dominator optimizations. */
91 struct opt_stats_d
92 {
98 };
102 /* Local functions. */
123 /* Free the edge_info data attached to E, if it exists. */
125 void
127 {
131 {
134 }
135 }
137 /* Allocate an EDGE_INFO for edge E and attach it to E.
138 Return the new EDGE_INFO structure. */
142 {
145 /* Free the old one, if it exists. */
152 }
154 /* Free all EDGE_INFO structures associated with edges in the CFG.
155 If a particular edge can be threaded, copy the redirection
156 target from the EDGE_INFO structure into the edge's AUX field
157 as required by code to update the CFG and SSA graph for
158 jump threading. */
160 static void
162 {
163 basic_block bb;
164 edge_iterator ei;
165 edge e;
168 {
170 {
173 }
174 }
175 }
177 /* Build a cond_equivalence record indicating that the comparison
178 CODE holds between operands OP0 and OP1 and push it to **P. */
180 static void
185 {
186 cond_equivalence c;
199 }
201 /* Record that COND is true and INVERTED is false into the edge information
202 structure. Also record that any conditions dominated by COND are true
203 as well.
205 For example, if a < b is true, then a <= b must also be true. */
207 static void
209 {
211 cond_equivalence c;
220 {
224 {
229 }
243 {
246 }
251 {
254 }
301 }
303 /* Now store the original true and false conditions into the first
304 two slots. */
309 /* It is possible for INVERTED to be the negation of a comparison,
310 and not a valid RHS or GIMPLE_COND condition. This happens because
311 invert_truthvalue may return such an expression when asked to invert
312 a floating-point comparison. These comparisons are not assumed to
313 obey the trichotomy law. */
317 }
319 /* We have finished optimizing BB, record any information implied by
320 taking a specific outgoing edge from BB. */
322 static void
324 {
329 {
334 {
339 {
343 edge e;
344 edge_iterator ei;
347 {
354 else
356 }
359 {
364 {
370 }
371 }
373 }
374 }
376 /* A COND_EXPR may create equivalences too. */
378 {
379 edge true_edge;
380 edge false_edge;
388 /* Special case comparing booleans against a constant as we
389 know the value of OP0 on both arms of the branch. i.e., we
390 can record an equivalence for OP0 rather than COND.
392 However, don't do this if the constant isn't zero or one.
393 Such conditionals will get optimized more thoroughly during
394 the domwalk. */
400 {
405 {
413 }
414 else
415 {
423 }
424 }
428 {
431 bool can_infer_simple_equiv
440 {
443 }
449 {
452 }
453 }
458 {
461 bool can_infer_simple_equiv
470 {
473 }
479 {
482 }
483 }
484 }
486 /* ??? TRUTH_NOT_EXPR can create an equivalence too. */
487 }
488 }
492 {
508 /* Unwindable equivalences, both const/copy and expression varieties. */
513 };
515 /* Jump threading, redundancy elimination and const/copy propagation.
517 This pass may expose new symbols that need to be renamed into SSA. For
518 every new symbol exposed, its corresponding bit will be set in
519 VARS_TO_RENAME. */
524 {
534 };
537 {
542 {}
544 /* opt_pass methods: */
547 {
550 }
555 /* This flag is used to prevent loops from being peeled repeatedly in jump
556 threading; it will be removed once we preserve loop structures throughout
557 the compilation -- we will be able to mark the affected loops directly in
558 jump threading, and avoid peeling them next time. */
562 unsigned int
564 {
567 /* Create our hash tables. */
579 /* We need to know loop structures in order to avoid destroying them
580 in jump threading. Note that we still can e.g. thread through loop
581 headers to an exit edge, or through loop header to the loop body, assuming
582 that we update the loop info.
584 TODO: We don't need to set LOOPS_HAVE_PREHEADERS generally, but due
585 to several overly conservative bail-outs in jump threading, case
586 gcc.dg/tree-ssa/pr21417.c can't be threaded if loop preheader is
587 missing. We should improve jump threading in future then
588 LOOPS_HAVE_PREHEADERS won't be needed here. */
591 /* Initialize the value-handle array. */
594 /* We need accurate information regarding back edges in the CFG
595 for jump threading; this may include back edges that are not part of
596 a single loop. */
599 /* We want to create the edge info structures before the dominator walk
600 so that they'll be in place for the jump threader, particularly when
601 threading through a join block.
603 The conditions will be lazily updated with global equivalences as
604 we reach them during the dominator walk. */
605 basic_block bb;
609 /* Recursively walk the dominator tree optimizing statements. */
611 const_and_copies,
612 avail_exprs_stack);
615 /* Look for blocks where we cleared EDGE_EXECUTABLE on an outgoing
616 edge. When found, remove jump threads which contain any outgoing
617 edge from the affected block. */
619 {
621 {
622 edge_iterator ei;
623 edge e;
625 /* First see if there are any edges without EDGE_EXECUTABLE
626 set. */
629 {
631 {
634 }
635 }
637 /* If there were any such edges found, then remove jump threads
638 containing any edge leaving BB. */
642 }
643 }
645 {
646 gimple_stmt_iterator gsi;
647 basic_block bb;
649 {
652 }
653 }
655 /* If we exposed any new variables, go ahead and put them into
656 SSA form now, before we handle jump threading. This simplifies
657 interactions between rewriting of _DECL nodes into SSA form
658 and rewriting SSA_NAME nodes into SSA form after block
659 duplication and CFG manipulation. */
664 /* Thread jumps, creating duplicate blocks as needed. */
670 /* Removal of statements may make some EH edges dead. Purge
671 such edges from the CFG as needed. */
673 {
675 bitmap_iterator bi;
677 /* Jump threading may have created forwarder blocks from blocks
678 needing EH cleanup; the new successor of these blocks, which
679 has inherited from the original block, needs the cleanup.
680 Don't clear bits in the bitmap, as that can break the bitmap
681 iterator. */
683 {
694 }
698 }
700 /* Fixup stmts that became noreturn calls. This may require splitting
701 blocks and thus isn't possible during the dominator walk or before
702 jump threading finished. Do this in reverse order so we don't
703 inadvertedly remove a stmt we want to fixup by visiting a dominating
704 now noreturn call first. */
706 {
709 {
713 }
715 }
724 /* Debugging dumps. */
730 /* Delete our main hashtable. */
734 /* Free asserted bitmaps and stacks. */
740 /* Free the value-handle array. */
744 }
748 gimple_opt_pass *
750 {
752 }
755 /* Given a conditional statement CONDSTMT, convert the
756 condition to a canonical form. */
758 static void
760 {
761 tree op0;
762 tree op1;
772 /* If it would be profitable to swap the operands, then do so to
773 canonicalize the statement, enabling better optimization.
775 By placing canonicalization of such expressions here we
776 transparently keep statements in canonical form, even
777 when the statement is modified. */
779 {
780 /* For relationals we need to swap the operands
781 and change the code. */
786 {
794 }
795 }
796 }
798 /* A trivial wrapper so that we can present the generic jump
799 threading code with a simple API for simplifying statements. */
800 static tree
804 {
806 }
808 /* Valueize hook for gimple_fold_stmt_to_constant_1. */
810 static tree
812 {
814 {
818 }
820 }
822 /* We have just found an equivalence for LHS on an edge E.
823 Look backwards to other uses of LHS and see if we can derive
824 additional equivalences that are valid on edge E. */
825 static void
828 {
829 use_operand_p use_p;
830 imm_use_iterator iter;
834 /* Iterate over the uses of LHS to see if any dominate E->dest.
835 If so, they may create useful equivalences too.
837 ??? If the code gets re-organized to a worklist to catch more
838 indirect opportunities and it is made to handle PHIs then this
839 should only consider use_stmts in basic-blocks we have already visited. */
841 {
844 /* Often the use is in DEST, which we trivially know we can't use.
845 This is cheaper than the dominator set tests below. */
849 /* Filter out statements that can never produce a useful
850 equivalence. */
855 /* Profiling has shown the domination tests here can be fairly
856 expensive. We get significant improvements by building the
857 set of blocks that dominate BB. We can then just test
858 for set membership below.
860 We also initialize the set lazily since often the only uses
861 are going to be in the same block as DEST. */
863 {
867 {
870 }
871 }
873 /* This tests if USE_STMT does not dominate DEST. */
877 /* At this point USE_STMT dominates DEST and may result in a
878 useful equivalence. Try to simplify its RHS to a constant
879 or SSA_NAME. */
881 no_follow_ssa_edges);
884 }
888 }
890 /* Record into CONST_AND_COPIES and AVAIL_EXPRS_STACK any equivalences implied
891 by traversing edge E (which are cached in E->aux).
893 Callers are responsible for managing the unwinding markers. */
894 void
898 {
902 /* If we have info associated with this edge, record it into
903 our equivalence tables. */
905 {
907 /* If we have 0 = COND or 1 = COND equivalences, record them
908 into our expression hash tables. */
916 /* Record the simple NAME = VALUE equivalence. */
920 /* If LHS is an SSA_NAME and RHS is a constant integer and LHS was
921 set via a widening type conversion, then we may be able to record
922 additional equivalences. */
924 {
930 {
933 /* If the conversion widens the original value and
934 the constant is in the range of the type of OLD_RHS,
935 then convert the constant and record the equivalence.
937 Note that int_fits_type_p does not check the precision
938 if the upper and lower bounds are OK. */
943 {
946 }
947 }
948 }
950 /* Any equivalence found for LHS may result in additional
951 equivalences for other uses of LHS that we have already
952 processed. */
954 }
955 }
957 /* Wrapper for common code to attempt to thread an edge. For example,
958 it handles lazily building the dummy condition and the bookkeeping
959 when jump threading is successful. */
961 void
963 {
965 m_dummy_cond =
970 /* Push a marker on both stacks so we can unwind the tables back to their
971 current state. */
975 /* With all the edge equivalences in the tables, go ahead and attempt
976 to thread through E->dest. */
979 simplify_stmt_for_jump_threading);
981 /* And restore the various tables to their state before
982 we threaded this edge.
984 XXX The code in tree-ssa-threadedge.c will restore the state of
985 the const_and_copies table. We we just have to restore the expression
986 table. */
988 }
990 /* PHI nodes can create equivalences too.
992 Ignoring any alternatives which are the same as the result, if
993 all the alternatives are equal, then the PHI node creates an
994 equivalence. */
996 static void
998 {
999 gphi_iterator gsi;
1002 {
1010 {
1013 /* Ignore alternatives which are the same as our LHS. Since
1014 LHS is a PHI_RESULT, it is known to be a SSA_NAME, so we
1015 can simply compare pointers. */
1019 /* If the associated edge is not marked as executable, then it
1020 can be ignored. */
1026 /* If we have not processed an alternative yet, then set
1027 RHS to this alternative. */
1030 /* If we have processed an alternative (stored in RHS), then
1031 see if it is equal to this one. If it isn't, then stop
1032 the search. */
1035 }
1037 /* If we had no interesting alternatives, then all the RHS alternatives
1038 must have been the same as LHS. */
1042 /* If we managed to iterate through each PHI alternative without
1043 breaking out of the loop, then we have a PHI which may create
1044 a useful equivalence. We do not need to record unwind data for
1045 this, since this is a true assignment and not an equivalence
1046 inferred from a comparison. All uses of this ssa name are dominated
1047 by this assignment, so unwinding just costs time and space. */
1051 }
1052 }
1054 /* Ignoring loop backedges, if BB has precisely one incoming edge then
1055 return that edge. Otherwise return NULL. */
1056 static edge
1058 {
1060 edge e;
1061 edge_iterator ei;
1064 {
1065 /* A loop back edge can be identified by the destination of
1066 the edge dominating the source of the edge. */
1070 /* We can safely ignore edges that are not executable. */
1074 /* If we have already seen a non-loop edge, then we must have
1075 multiple incoming non-loop edges and thus we return NULL. */
1079 /* This is the first non-loop incoming edge we have found. Record
1080 it. */
1082 }
1085 }
1087 /* Record any equivalences created by the incoming edge to BB into
1088 CONST_AND_COPIES and AVAIL_EXPRS_STACK. If BB has more than one
1089 incoming edge, then no equivalence is created. */
1091 static void
1095 {
1096 edge e;
1097 basic_block parent;
1099 /* If our parent block ended with a control statement, then we may be
1100 able to record some equivalences based on which outgoing edge from
1101 the parent was followed. */
1106 /* If we had a single incoming edge from our parent block, then enter
1107 any data associated with the edge into our tables. */
1110 }
1112 /* Dump statistics for the hash table HTAB. */
1114 static void
1116 {
1121 }
1123 /* Dump SSA statistics on FILE. */
1125 static void
1128 {
1138 }
1141 /* Enter condition equivalence P into AVAIL_EXPRS_HASH.
1143 This indicates that a conditional expression has a known
1144 boolean value. */
1146 static void
1149 {
1156 {
1159 }
1160 else
1162 }
1164 /* Return the loop depth of the basic block of the defining statement of X.
1165 This number should not be treated as absolutely correct because the loop
1166 information may not be completely up-to-date when dom runs. However, it
1167 will be relatively correct, and as more passes are taught to keep loop info
1168 up to date, the result will become more and more accurate. */
1170 static int
1172 {
1174 basic_block defbb;
1176 /* If it's not an SSA_NAME, we have no clue where the definition is. */
1180 /* Otherwise return the loop depth of the defining statement's bb.
1181 Note that there may not actually be a bb for this statement, if the
1182 ssa_name is live on entry. */
1189 }
1191 /* Similarly, but assume that X and Y are the two operands of an EQ_EXPR.
1192 This constrains the cases in which we may treat this as assignment. */
1194 static void
1196 {
1202 /* Most of the time tree_swap_operands_p does what we want. But there
1203 are cases where we know one operand is better for copy propagation than
1204 the other. Given no other code cares about ordering of equality
1205 comparison operators for that purpose, we just handle the special cases
1206 here. */
1208 {
1209 /* If one operand is a single use operand, then make it
1210 X. This will preserve its single use properly and if this
1211 conditional is eliminated, the computation of X can be
1212 eliminated as well. */
1215 }
1221 /* If one of the previous values is invariant, or invariant in more loops
1222 (by depth), then use that.
1223 Otherwise it doesn't matter which value we choose, just so
1224 long as we canonicalize on one value. */
1226 ;
1228 /* ??? When threading over backedges the following is important
1229 for correctness. See PR61757. */
1237 /* After the swapping, we must have one SSA_NAME. */
1241 /* For IEEE, -0.0 == 0.0, so we don't necessarily know the sign of a
1242 variable compared against zero. If we're honoring signed zeros,
1243 then we cannot record this value unless we know that the value is
1244 nonzero. */
1251 }
1253 /* Returns true when STMT is a simple iv increment. It detects the
1254 following situation:
1256 i_1 = phi (..., i_2)
1257 i_2 = i_1 +/- ... */
1259 bool
1261 {
1293 }
1295 /* Propagate know values from SSA_NAME_VALUE into the PHI nodes of the
1296 successors of BB. */
1298 static void
1301 {
1302 edge e;
1303 edge_iterator ei;
1306 {
1308 gphi_iterator gsi;
1310 /* If this is an abnormal edge, then we do not want to copy propagate
1311 into the PHI alternative associated with this edge. */
1319 /* We may have an equivalence associated with this edge. While
1320 we can not propagate it into non-dominated blocks, we can
1321 propagate them into PHIs in non-dominated blocks. */
1323 /* Push the unwind marker so we can reset the const and copies
1324 table back to its original state after processing this edge. */
1327 /* Extract and record any simple NAME = VALUE equivalences.
1329 Don't bother with [01] = COND equivalences, they're not useful
1330 here. */
1333 {
1339 }
1343 {
1344 tree new_val;
1345 use_operand_p orig_p;
1346 tree orig_val;
1349 /* The alternative may be associated with a constant, so verify
1350 it is an SSA_NAME before doing anything with it. */
1356 /* If we have *ORIG_P in our constant/copy table, then replace
1357 ORIG_P with its value in our constant/copy table. */
1363 }
1366 }
1367 }
1369 edge
1371 {
1372 gimple_stmt_iterator gsi;
1377 /* Push a marker on the stacks of local information so that we know how
1378 far to unwind when we finalize this block. */
1383 m_avail_exprs_stack);
1385 /* PHI nodes can create equivalences too. */
1388 /* Create equivalences from redundant PHIs. PHIs are only truly
1389 redundant when they exist in the same block, so push another
1390 marker and unwind right afterwards. */
1394 m_avail_exprs_stack);
1399 taken_edge
1402 /* Now prepare to process dominated blocks. */
1409 }
1411 /* We have finished processing the dominator children of BB, perform
1412 any finalization actions in preparation for leaving this node in
1413 the dominator tree. */
1415 void
1417 {
1420 /* If we have an outgoing edge to a block with multiple incoming and
1421 outgoing edges, then we may be able to thread the edge, i.e., we
1422 may be able to statically determine which of the outgoing edges
1423 will be traversed when the incoming edge from BB is traversed. */
1427 {
1429 }
1435 {
1440 /* Only try to thread the edge if it reaches a target block with
1441 more than one predecessor and more than one successor. */
1445 /* Similarly for the ELSE arm. */
1449 }
1451 /* These remove expressions local to BB from the tables. */
1454 }
1456 /* Search for redundant computations in STMT. If any are found, then
1457 replace them with the variable holding the result of the computation.
1459 If safe, record this expression into AVAIL_EXPRS_STACK and
1460 CONST_AND_COPIES. */
1462 static void
1466 {
1467 tree expr_type;
1468 tree cached_lhs;
1469 tree def;
1477 else
1480 /* Certain expressions on the RHS can be optimized away, but can not
1481 themselves be entered into the hash tables. */
1486 /* Do not record equivalences for increments of ivs. This would create
1487 overlapping live ranges for a very questionable gain. */
1491 /* Check if the expression has been computed before. */
1496 /* Get the type of the expression we are trying to optimize. */
1498 {
1501 }
1505 {
1509 }
1513 /* We can't propagate into a phi, so the logic below doesn't apply.
1514 Instead record an equivalence between the cached LHS and the
1515 PHI result of this statement, provided they are in the same block.
1516 This should be sufficient to kill the redundant phi. */
1517 {
1521 }
1522 else
1528 /* It is safe to ignore types here since we have already done
1529 type checking in the hashing and equality routines. In fact
1530 type checking here merely gets in the way of constant
1531 propagation. Also, make sure that it is safe to propagate
1532 CACHED_LHS into the expression in STMT. */
1534 && (assigns_var_p
1537 {
1542 {
1548 }
1558 /* Since it is always necessary to mark the result as modified,
1559 perhaps we should move this into propagate_tree_value_into_stmt
1560 itself. */
1562 }
1563 }
1565 /* STMT, a GIMPLE_ASSIGN, may create certain equivalences, in either
1566 the available expressions table or the const_and_copies table.
1567 Detect and record those equivalences into AVAIL_EXPRS_STACK.
1569 We handle only very simple copy equivalences here. The heavy
1570 lifing is done by eliminate_redundant_computations. */
1572 static void
1575 {
1576 tree lhs;
1586 {
1589 /* If the RHS of the assignment is a constant or another variable that
1590 may be propagated, register it in the CONST_AND_COPIES table. We
1591 do not need to record unwind data for this, since this is a true
1592 assignment and not an equivalence inferred from a comparison. All
1593 uses of this ssa name are dominated by this assignment, so unwinding
1594 just costs time and space. */
1598 {
1602 {
1608 }
1611 }
1612 }
1614 /* Make sure we can propagate &x + CST. */
1619 {
1622 tree new_rhs
1627 op1)));
1629 {
1635 }
1638 }
1640 /* A memory store, even an aliased store, creates a useful
1641 equivalence. By exchanging the LHS and RHS, creating suitable
1642 vops and recording the result in the available expression table,
1643 we may be able to expose more redundant loads. */
1650 {
1654 /* Build a new statement with the RHS and LHS exchanged. */
1656 {
1657 /* NOTE tuples. The call to gimple_build_assign below replaced
1658 a call to build_gimple_modify_stmt, which did not set the
1659 SSA_NAME_DEF_STMT on the LHS of the assignment. Doing so
1660 may cause an SSA validation failure, as the LHS may be a
1661 default-initialized name and should have no definition. I'm
1662 a bit dubious of this, as the artificial statement that we
1663 generate here may in fact be ill-formed, but it is simply
1664 used as an internal device in this pass, and never becomes
1665 part of the CFG. */
1669 }
1670 else
1675 /* Finally enter the statement into the available expression
1676 table. */
1678 }
1679 }
1681 /* Replace *OP_P in STMT with any known equivalent value for *OP_P from
1682 CONST_AND_COPIES. */
1684 static void
1686 {
1687 tree val;
1690 /* If the operand has a known constant value or it is known to be a
1691 copy of some other variable, use the value or copy stored in
1692 CONST_AND_COPIES. */
1695 {
1696 /* Do not replace hard register operands in asm statements. */
1701 /* Certain operands are not allowed to be copy propagated due
1702 to their interaction with exception handling and some GCC
1703 extensions. */
1707 /* Do not propagate copies into BIVs.
1708 See PR23821 and PR62217 for how this can disturb IV and
1709 number of iteration analysis. */
1711 {
1716 }
1718 /* Dump details. */
1720 {
1727 }
1731 else
1736 /* And note that we modified this statement. This is now
1737 safe, even if we changed virtual operands since we will
1738 rescan the statement and rewrite its operands again. */
1740 }
1741 }
1743 /* CONST_AND_COPIES is a table which maps an SSA_NAME to the current
1744 known value for that SSA_NAME (or NULL if no value is known).
1746 Propagate values from CONST_AND_COPIES into the uses, vuses and
1747 vdef_ops of STMT. */
1749 static void
1751 {
1752 use_operand_p op_p;
1753 ssa_op_iter iter;
1757 }
1759 /* Optimize the statement in block BB pointed to by iterator SI
1760 using equivalences from CONST_AND_COPIES and AVAIL_EXPRS_STACK.
1762 We try to perform some simplistic global redundancy elimination and
1763 constant propagation:
1765 1- To detect global redundancy, we keep track of expressions that have
1766 been computed in this block and its dominators. If we find that the
1767 same expression is computed more than once, we eliminate repeated
1768 computations by using the target of the first one.
1770 2- Constant values and copy assignments. This is used to do very
1771 simplistic constant and copy propagation. When a constant or copy
1772 assignment is found, we map the value on the RHS of the assignment to
1773 the variable in the LHS in the CONST_AND_COPIES table. */
1775 static edge
1779 {
1790 {
1793 }
1801 /* Const/copy propagate into USES, VUSES and the RHS of VDEFs. */
1804 /* If the statement has been modified with constant replacements,
1805 fold its RHS before checking for redundant computations. */
1807 {
1810 /* Try to fold the statement making sure that STMT is kept
1811 up to date. */
1813 {
1818 {
1821 }
1822 }
1824 /* We only need to consider cases that can yield a gimple operand. */
1830 /* This should never be an ADDR_EXPR. */
1836 /* Indicate that maybe_clean_or_replace_eh_stmt needs to be called,
1837 even if fold_stmt updated the stmt already and thus cleared
1838 gimple_modified_p flag on it. */
1840 }
1842 /* Check for redundant computations. Do this optimization only
1843 for assignments that have no volatile ops and conditionals. */
1852 {
1854 {
1855 /* Resolve __builtin_constant_p. If it hasn't been
1856 folded to integer_one_node by now, it's fairly
1857 certain that the value simply isn't constant. */
1862 {
1865 }
1866 }
1869 {
1873 /* If the LHS has a range [0..1] and the RHS has a range ~[0..1],
1874 then this conditional is computable at compile time. We can just
1875 shove either 0 or 1 into the LHS, mark the statement as modified
1876 and all the right things will just happen below.
1878 Note this would apply to any case where LHS has a range
1879 narrower than its type implies and RHS is outside that
1880 narrower range. Future work. */
1885 {
1888 integer_zero_node));
1890 }
1891 }
1895 avail_exprs_stack);
1898 /* Perform simple redundant store elimination. */
1901 {
1904 tree cached_lhs;
1907 /* Build a new statement with the RHS and LHS exchanged. */
1909 {
1913 }
1914 else
1920 {
1924 {
1928 }
1931 }
1932 }
1933 }
1935 /* Record any additional equivalences created by this statement. */
1939 /* If STMT is a COND_EXPR or SWITCH_EXPR and it was modified, then we may
1940 know where it goes. */
1942 {
1955 {
1958 {
1959 /* Fix the condition to be either true or false. */
1961 {
1966 else
1968 }
1970 /* Further simplifications may be possible. */
1972 }
1973 }
1975 /* If we simplified a statement in such a way as to be shown that it
1976 cannot trap, update the eh information and the cfg to match. */
1978 {
1982 }
1987 }
1989 }
1991 /* Helper for walk_non_aliased_vuses. Determine if we arrived at
1992 the desired memory state. */
1996 {
2001 /* This bounds the stmt walks we perform on reference lookups
2002 to O(1) instead of O(N) where N is the number of dominating
2003 stores leading to a candidate. We re-use the SCCVN param
2004 for this as it is basically the same complexity. */
2009 }
2011 /* Search for an existing instance of STMT in the AVAIL_EXPRS_STACK table.
2012 If found, return its LHS. Otherwise insert STMT in the table and
2013 return NULL_TREE.
2015 Also, when an expression is first inserted in the table, it is also
2016 is also added to AVAIL_EXPRS_STACK, so that it can be removed when
2017 we finish processing this block and its children. */
2019 static tree
2022 {
2024 tree lhs;
2026 /* Get LHS of phi, assignment, or call; else NULL_TREE. */
2029 else
2035 {
2038 }
2040 /* Don't bother remembering constant assignments and copy operations.
2041 Constants and copy operations are handled by the constant/copy propagator
2042 in optimize_stmt. */
2048 /* Finally try to find the expression in the main expression hash table. */
2052 {
2054 }
2056 {
2062 }
2064 /* If we found a redundant memory operation do an alias walk to
2065 check if we can re-use it. */
2067 {
2070 /* If we have a load of a register and a candidate in the
2071 hash with vuse1 then try to reach its stmt by walking
2072 up the virtual use-def chain using walk_non_aliased_vuses.
2073 But don't do this when removing expressions from the hash. */
2074 ao_ref ref;
2081 {
2083 {
2086 /* Insert the expr into the hash by replacing the current
2087 entry and recording the value to restore in the
2088 avail_exprs_stack. */
2091 }
2093 }
2094 }
2096 /* Extract the LHS of the assignment so that it can be used as the current
2097 definition of another variable. */
2103 {
2107 }
2110 }