| blob | 686611d7c5625c27261a1b9fbf0f63bc52c3e47f |
1 /* Tree inlining.
2 Copyright 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009
3 Free Software Foundation, Inc.
4 Contributed by Alexandre Oliva <aoliva@redhat.com>
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
11 any later version.
13 GCC is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
57 /* I'm not real happy about this, but we need to handle gimple and
58 non-gimple trees. */
61 /* Inlining, Cloning, Versioning, Parallelization
63 Inlining: a function body is duplicated, but the PARM_DECLs are
64 remapped into VAR_DECLs, and non-void RETURN_EXPRs become
65 MODIFY_EXPRs that store to a dedicated returned-value variable.
66 The duplicated eh_region info of the copy will later be appended
67 to the info for the caller; the eh_region info in copied throwing
68 statements and RESX_EXPRs is adjusted accordingly.
70 Cloning: (only in C++) We have one body for a con/de/structor, and
71 multiple function decls, each with a unique parameter list.
72 Duplicate the body, using the given splay tree; some parameters
73 will become constants (like 0 or 1).
75 Versioning: a function body is duplicated and the result is a new
76 function rather than into blocks of an existing function as with
77 inlining. Some parameters will become constants.
79 Parallelization: a region of a function is duplicated resulting in
80 a new function. Variables may be replaced with complex expressions
81 to enable shared variable semantics.
83 All of these will simultaneously lookup any callgraph edges. If
84 we're going to inline the duplicated function body, and the given
85 function has some cloned callgraph nodes (one for each place this
86 function will be inlined) those callgraph edges will be duplicated.
87 If we're cloning the body, those callgraph edges will be
88 updated to point into the new body. (Note that the original
89 callgraph node and edge list will not be altered.)
91 See the CALL_EXPR handling case in copy_tree_body_r (). */
93 /* To Do:
95 o In order to make inlining-on-trees work, we pessimized
96 function-local static constants. In particular, they are now
97 always output, even when not addressed. Fix this by treating
98 function-local static constants just like global static
99 constants; the back-end already knows not to output them if they
100 are not needed.
102 o Provide heuristics to clamp inlining of recursive template
103 calls? */
106 /* Weights that estimate_num_insns uses for heuristics in inlining. */
108 eni_weights eni_inlining_weights;
110 /* Weights that estimate_num_insns uses to estimate the size of the
111 produced code. */
113 eni_weights eni_size_weights;
115 /* Weights that estimate_num_insns uses to estimate the time necessary
116 to execute the produced code. */
118 eni_weights eni_time_weights;
120 /* Prototypes. */
137 /* Insert a tree->tree mapping for ID. Despite the name suggests
138 that the trees should be variables, it is used for more than that. */
140 void
142 {
145 /* Always insert an identity map as well. If we see this same new
146 node again, we won't want to duplicate it a second time. */
149 }
151 /* Construct new SSA name for old NAME. ID is the inline context. */
153 static tree
155 {
156 tree new_tree;
165 /* Do not set DEF_STMT yet as statement is not copied yet. We do that
166 in copy_bb. */
169 /* We might've substituted constant or another SSA_NAME for
170 the variable.
172 Replace the SSA name representing RESULT_DECL by variable during
173 inlining: this saves us from need to introduce PHI node in a case
174 return value is just partly initialized. */
178 {
185 {
186 /* By inlining function having uninitialized variable, we might
187 extend the lifetime (variable might get reused). This cause
188 ICE in the case we end up extending lifetime of SSA name across
189 abnormal edge, but also increase register pressure.
191 We simply initialize all uninitialized vars by 0 except
192 for case we are inlining to very first BB. We can avoid
193 this for all BBs that are not inside strongly connected
194 regions of the CFG, but this is expensive to test. */
200 {
202 gimple init_stmt;
206 integer_zero_node));
209 }
210 else
211 {
216 }
217 }
218 }
219 else
222 }
224 /* Remap DECL during the copying of the BLOCK tree for the function. */
226 tree
228 {
230 tree fn;
232 /* We only remap local variables in the current function. */
235 /* See if we have remapped this declaration. */
239 /* If we didn't already have an equivalent for this declaration,
240 create one now. */
242 {
243 /* Make a copy of the variable or label. */
246 /* Remember it, so that if we encounter this local entity again
247 we can reuse this copy. Do this early because remap_type may
248 need this decl for TYPE_STUB_DECL. */
254 /* Remap types, if necessary. */
259 /* Remap sizes as necessary. */
263 /* If fields, do likewise for offset and qualifier. */
265 {
269 }
274 {
278 {
280 /* Watch out RESULT_DECLs whose SSA names map directly
281 to them. */
285 }
287 }
289 }
292 }
294 static tree
296 {
299 /* We do need a copy. build and register it now. If this is a pointer or
300 reference type, remap the designated type and make a new pointer or
301 reference type. */
303 {
309 }
311 {
317 }
318 else
323 /* This is a new type, not a copy of an old type. Need to reassociate
324 variants. We can handle everything except the main variant lazily. */
327 {
332 }
333 else
334 {
337 }
342 /* Lazily create pointer and reference types. */
347 {
375 {
379 {
384 }
386 }
391 /* Shouldn't have been thought variable sized. */
393 }
399 }
401 tree
403 {
405 tree tmp;
410 /* See if we have remapped this type. */
415 /* The type only needs remapping if it's variably modified. */
417 {
420 }
427 }
429 /* Return previously remapped type of TYPE in ID. Return NULL if TYPE
430 is NULL or TYPE has not been remapped before. */
432 static tree
434 {
440 /* See if we have remapped this type. */
444 else
446 }
448 /* The type only needs remapping if it's variably modified. */
449 /* Decide if DECL can be put into BLOCK_NONLOCAL_VARs. */
451 static bool
453 {
454 /* We can not duplicate function decls. */
458 /* Local static vars must be non-local or we get multiple declaration
459 problems. */
464 /* At the moment dwarf2out can handle only these types of nodes. We
465 can support more later. */
469 /* We must use global type. We call remapped_type instead of
470 remap_type since we don't want to remap this type here if it
471 hasn't been remapped before. */
475 /* Wihtout SSA we can't tell if variable is used. */
479 /* Live variables must be copied so we can attach DECL_RTL. */
484 }
486 static tree
488 {
489 tree old_var;
492 /* Remap its variables. */
494 {
495 tree new_var;
499 {
509 }
511 /* Remap the variable. */
514 /* If we didn't remap this variable, we can't mess with its
515 TREE_CHAIN. If we remapped this variable to the return slot, it's
516 already declared somewhere else, so don't declare it here. */
519 ;
521 {
526 }
527 else
528 {
532 }
533 }
536 }
538 /* Copy the BLOCK to contain remapped versions of the variables
539 therein. And hook the new block into the block-tree. */
541 static void
543 {
544 tree old_block;
545 tree new_block;
546 tree fn;
548 /* Make the new block. */
558 /* Remap its variables. */
561 id);
568 /* Remember the remapped block. */
570 }
572 /* Copy the whole block tree and root it in id->block. */
573 static tree
575 {
576 tree t;
586 /* Blocks are in arbitrary order, but make things slightly prettier and do
587 not swap order when producing a copy. */
590 }
592 static void
594 {
596 tree new_tree;
605 }
607 static void
609 {
611 /* Copy (and replace) the statement. */
614 {
617 }
620 /* This will remap a lot of the same decls again, but this should be
621 harmless. */
623 }
626 /* Create a new gimple_seq by remapping all the statements in BODY
627 using the inlining information in ID. */
629 gimple_seq
631 {
632 gimple_stmt_iterator si;
636 {
639 }
642 }
645 /* Copy a GIMPLE_BIND statement STMT, remapping all the symbols in its
646 block using the mapping information in ID. */
648 static gimple
650 {
651 gimple new_bind;
655 /* Copy the statement. Note that we purposely don't use copy_stmt
656 here because we need to remap statements as we copy. */
664 /* This will remap a lot of the same decls again, but this should be
665 harmless. */
673 }
676 /* Remap the GIMPLE operand pointed to by *TP. DATA is really a
677 'struct walk_stmt_info *'. DATA->INFO is a 'copy_body_data *'.
678 WALK_SUBTREES is used to indicate walk_gimple_op whether to keep
679 recursing into the children nodes of *TP. */
681 static tree
683 {
689 {
693 }
695 {
696 /* Local variables and labels need to be replaced by equivalent
697 variables. We don't want to copy static variables; there's
698 only one of those, no matter how many times we inline the
699 containing function. Similarly for globals from an outer
700 function. */
701 tree new_decl;
703 /* Remap the declaration. */
706 /* Replace this variable with the copy. */
710 }
718 /* These may need to be remapped for EH handling. */
721 /* Types may need remapping as well. */
724 {
725 /* If this is a constant, we have to copy the node iff the type
726 will be remapped. copy_tree_r will not copy a constant. */
735 else
736 {
739 }
740 }
741 else
742 {
743 /* Otherwise, just copy the node. Note that copy_tree_r already
744 knows not to copy VAR_DECLs, etc., so this is safe. */
746 {
747 /* Get rid of *& from inline substitutions that can happen when a
748 pointer argument is an ADDR_EXPR. */
754 {
757 /* If we happen to get an ADDR_EXPR in n->value, strip
758 it manually here as we'll eventually get ADDR_EXPRs
759 which lie about their types pointed to. In this case
760 build_fold_indirect_ref wouldn't strip the
761 INDIRECT_REF, but we absolutely rely on that. As
762 fold_indirect_ref does other useful transformations,
763 try that first, though. */
769 {
771 {
773 /* ??? We should either assert here or build
774 a VIEW_CONVERT_EXPR instead of blindly leaking
775 incompatible types to our IL. */
778 }
779 else
780 {
784 }
785 }
788 }
789 }
791 /* Here is the "usual case". Copy this tree node, and then
792 tweak some special cases. */
795 /* Global variables we haven't seen yet need to go into referenced
796 vars. If not referenced from types only. */
802 /* We should never have TREE_BLOCK set on non-statements. */
810 {
811 /* The copied TARGET_EXPR has never been expanded, even if the
812 original node was expanded already. */
815 }
817 {
818 /* Variable substitution need not be simple. In particular,
819 the INDIRECT_REF substitution above. Make sure that
820 TREE_CONSTANT and friends are up-to-date. But make sure
821 to not improperly set TREE_BLOCK on some sub-expressions. */
828 /* Handle the case where we substituted an INDIRECT_REF
829 into the operand of the ADDR_EXPR. */
832 else
835 /* If this used to be invariant, but is not any longer,
836 then regimplification is probably needed. */
841 }
842 }
844 /* Keep iterating. */
846 }
849 /* Called from copy_body_id via walk_tree. DATA is really a
850 `copy_body_data *'. */
852 tree
854 {
857 tree new_block;
859 /* Begin by recognizing trees that we'll completely rewrite for the
860 inlining context. Our output for these trees is completely
861 different from out input (e.g. RETURN_EXPR is deleted, and morphs
862 into an edge). Further down, we'll handle trees that get
863 duplicated and/or tweaked. */
865 /* When requested, RETURN_EXPRs should be transformed to just the
866 contained MODIFY_EXPR. The branch semantics of the return will
867 be handled elsewhere by manipulating the CFG rather than a statement. */
869 {
872 /* If we're returning something, just turn that into an
873 assignment into the equivalent of the original RESULT_DECL.
874 If the "assignment" is just the result decl, the result
875 decl has already been set (e.g. a recent "foo (&result_decl,
876 ...)"); just toss the entire RETURN_EXPR. */
878 {
879 /* Replace the RETURN_EXPR with (a copy of) the
880 MODIFY_EXPR hanging underneath. */
882 }
884 {
887 }
888 }
890 {
894 }
896 /* Local variables and labels need to be replaced by equivalent
897 variables. We don't want to copy static variables; there's only
898 one of those, no matter how many times we inline the containing
899 function. Similarly for globals from an outer function. */
901 {
902 tree new_decl;
904 /* Remap the declaration. */
907 /* Replace this variable with the copy. */
911 }
919 /* These may need to be remapped for EH handling. */
923 /* Types may need remapping as well. */
927 /* If this is a constant, we have to copy the node iff the type will be
928 remapped. copy_tree_r will not copy a constant. */
930 {
939 else
940 {
943 }
944 }
946 /* Otherwise, just copy the node. Note that copy_tree_r already
947 knows not to copy VAR_DECLs, etc., so this is safe. */
948 else
949 {
950 /* Here we handle trees that are not completely rewritten.
951 First we detect some inlining-induced bogosities for
952 discarding. */
956 {
957 /* Some assignments VAR = VAR; don't generate any rtl code
958 and thus don't count as variable modification. Avoid
959 keeping bogosities like 0 = 0. */
965 {
969 {
972 }
973 }
974 }
976 {
977 /* Get rid of *& from inline substitutions that can happen when a
978 pointer argument is an ADDR_EXPR. */
984 {
985 tree new_tree;
986 tree old;
987 /* If we happen to get an ADDR_EXPR in n->value, strip
988 it manually here as we'll eventually get ADDR_EXPRs
989 which lie about their types pointed to. In this case
990 build_fold_indirect_ref wouldn't strip the INDIRECT_REF,
991 but we absolutely rely on that. As fold_indirect_ref
992 does other useful transformations, try that first, though. */
998 {
1000 {
1002 /* ??? We should either assert here or build
1003 a VIEW_CONVERT_EXPR instead of blindly leaking
1004 incompatible types to our IL. */
1007 }
1008 else
1009 {
1013 }
1014 }
1017 }
1018 }
1020 /* Here is the "usual case". Copy this tree node, and then
1021 tweak some special cases. */
1024 /* Global variables we haven't seen yet needs to go into referenced
1025 vars. If not referenced from types only. */
1031 /* If EXPR has block defined, map it to newly constructed block.
1032 When inlining we want EXPRs without block appear in the block
1033 of function call. */
1035 {
1038 {
1044 }
1046 }
1051 id->eh_region_offset
1057 /* The copied TARGET_EXPR has never been expanded, even if the
1058 original node was expanded already. */
1060 {
1063 }
1065 /* Variable substitution need not be simple. In particular, the
1066 INDIRECT_REF substitution above. Make sure that TREE_CONSTANT
1067 and friends are up-to-date. */
1069 {
1073 /* Handle the case where we substituted an INDIRECT_REF
1074 into the operand of the ADDR_EXPR. */
1077 else
1080 /* If this used to be invariant, but is not any longer,
1081 then regimplification is probably needed. */
1086 }
1087 }
1089 /* Keep iterating. */
1091 }
1094 /* Helper for copy_bb. Remap statement STMT using the inlining
1095 information in ID. Return the new statement copy. */
1097 static gimple
1099 {
1102 tree new_block;
1105 /* Begin by recognizing trees that we'll completely rewrite for the
1106 inlining context. Our output for these trees is completely
1107 different from out input (e.g. RETURN_EXPR is deleted, and morphs
1108 into an edge). Further down, we'll handle trees that get
1109 duplicated and/or tweaked. */
1111 /* When requested, GIMPLE_RETURNs should be transformed to just the
1112 contained GIMPLE_ASSIGN. The branch semantics of the return will
1113 be handled elsewhere by manipulating the CFG rather than the
1114 statement. */
1116 {
1119 /* If we're returning something, just turn that into an
1120 assignment into the equivalent of the original RESULT_DECL.
1121 If RETVAL is just the result decl, the result decl has
1122 already been set (e.g. a recent "foo (&result_decl, ...)");
1123 just toss the entire GIMPLE_RETURN. */
1125 {
1127 /* id->retvar is already substituted. Skip it on later remapping. */
1129 }
1130 else
1132 }
1134 {
1137 /* When cloning bodies from the C++ front end, we will be handed bodies
1138 in High GIMPLE form. Handle here all the High GIMPLE statements that
1139 have embedded statements. */
1141 {
1169 copy = gimple_build_omp_parallel
1178 copy = gimple_build_omp_task
1193 {
1196 {
1207 }
1208 }
1228 copy = gimple_build_omp_sections
1234 copy = gimple_build_omp_single
1240 copy
1246 }
1247 }
1248 else
1249 {
1253 {
1254 /* Here we handle statements that are not completely rewritten.
1255 First we detect some inlining-induced bogosities for
1256 discarding. */
1258 /* Some assignments VAR = VAR; don't generate any rtl code
1259 and thus don't count as variable modification. Avoid
1260 keeping bogosities like 0 = 0. */
1266 {
1271 }
1272 }
1274 /* Create a new deep copy of the statement. */
1276 }
1278 /* If STMT has a block defined, map it to the newly constructed
1279 block. When inlining we want statements without a block to
1280 appear in the block of the function call. */
1283 {
1288 }
1292 /* Remap all the operands in COPY. */
1297 else
1300 /* Clear the copied virtual operands. We are not remapping them here
1301 but are going to recreate them from scratch. */
1303 {
1306 }
1308 /* We have to handle EH region remapping of GIMPLE_RESX specially because
1309 the region number is not an operand. */
1311 {
1313 }
1315 }
1318 /* Copy basic block, scale profile accordingly. Edges will be taken care of
1319 later */
1321 static basic_block
1323 gcov_type count_scale)
1324 {
1326 basic_block copy_basic_block;
1327 tree decl;
1329 /* create_basic_block() will append every new block to
1330 basic_block_info automatically. */
1335 /* We are going to rebuild frequencies from scratch. These values
1336 have just small importance to drive canonicalize_loop_headers. */
1346 {
1358 /* With return slot optimization we can end up with
1359 non-gimple (foo *)&this->m, fix that here. */
1363 {
1364 tree new_rhs;
1370 }
1377 /* If copy_basic_block has been empty at the start of this iteration,
1378 call gsi_start_bb again to get at the newly added statements. */
1381 else
1384 /* Process the new statement. The call to gimple_regimplify_operands
1385 possibly turned the statement into multiple statements, we
1386 need to process all of them. */
1387 do
1388 {
1393 {
1394 /* __builtin_va_arg_pack () should be replaced by
1395 all arguments corresponding to ... in the caller. */
1396 tree p;
1397 gimple new_call;
1403 nargs--;
1405 /* Create the new array of arguments. */
1410 /* Copy all the arguments before '...' */
1415 /* Append the arguments passed in '...' */
1422 argarray);
1426 /* Copy all GIMPLE_CALL flags, location and block, except
1427 GF_CALL_VA_ARG_PACK. */
1437 }
1443 {
1444 /* __builtin_va_arg_pack_len () should be replaced by
1445 the number of anonymous arguments. */
1448 gimple new_stmt;
1451 nargs--;
1457 }
1459 /* Statements produced by inlining can be unfolded, especially
1460 when we constant propagated some operands. We can't fold
1461 them right now for two reasons:
1462 1) folding require SSA_NAME_DEF_STMTs to be correct
1463 2) we can't change function calls to builtins.
1464 So we just mark statement for later folding. We mark
1465 all new statements, instead just statements that has changed
1466 by some nontrivial substitution so even statements made
1467 foldable indirectly are updated. If this turns out to be
1468 expensive, copy_body can be told to watch for nontrivial
1469 changes. */
1473 /* We're duplicating a CALL_EXPR. Find any corresponding
1474 callgraph edges and update or duplicate them. */
1476 {
1482 {
1493 node;
1495 {
1499 }
1500 /* FALLTHRU */
1510 }
1518 }
1520 /* If you think we can abort here, you are wrong.
1521 There is no region 0 in gimple. */
1525 /* When we are cloning for inlining, we are supposed to
1526 construct a clone that calls precisely the same functions
1527 as original. However IPA optimizers might've proved
1528 earlier some function calls as non-trapping that might
1529 render some basic blocks dead that might become
1530 unreachable.
1532 We can't update SSA with unreachable blocks in CFG and thus
1533 we prevent the scenario by preserving even the "dead" eh
1534 edges until the point they are later removed by
1535 fixup_cfg pass. */
1538 {
1541 /* Add an entry for the copied tree in the EH hashtable.
1542 When cloning or versioning, use the hashtable in
1543 cfun, and just copy the EH number. When inlining, use the
1544 hashtable in the caller, and adjust the region number. */
1548 /* If this tree doesn't have a region associated with it,
1549 and there is a "current region,"
1550 then associate this tree with the current region
1551 and add edges associated with this region. */
1556 }
1559 {
1560 ssa_op_iter i;
1561 tree def;
1567 }
1570 }
1574 }
1577 }
1579 /* Inserting Single Entry Multiple Exit region in SSA form into code in SSA
1580 form is quite easy, since dominator relationship for old basic blocks does
1581 not change.
1583 There is however exception where inlining might change dominator relation
1584 across EH edges from basic block within inlined functions destinating
1585 to landing pads in function we inline into.
1587 The function fills in PHI_RESULTs of such PHI nodes if they refer
1588 to gimple regs. Otherwise, the function mark PHI_RESULT of such
1589 PHI nodes for renaming. For non-gimple regs, renaming is safe: the
1590 EH edges are abnormal and SSA_NAME_OCCURS_IN_ABNORMAL_PHI must be
1591 set, and this means that there will be no overlapping live ranges
1592 for the underlying symbol.
1594 This might change in future if we allow redirecting of EH edges and
1595 we might want to change way build CFG pre-inlining to include
1596 all the possible edges then. */
1597 static void
1600 {
1601 edge e;
1602 edge_iterator ei;
1607 {
1608 gimple phi;
1609 gimple_stmt_iterator si;
1620 {
1621 edge re;
1625 /* There shouldn't be any PHI nodes in the ENTRY_BLOCK. */
1631 {
1634 }
1643 }
1644 }
1645 }
1648 /* Copy edges from BB into its copy constructed earlier, scale profile
1649 accordingly. Edges will be taken care of later. Assume aux
1650 pointers to point to the copies of each BB. */
1652 static void
1654 {
1656 edge_iterator ei;
1657 edge old_edge;
1658 gimple_stmt_iterator si;
1661 /* Use the indices from the original blocks to create edges for the
1662 new ones. */
1665 {
1666 edge new_edge;
1670 /* Return edges do get a FALLTHRU flag when the get inlined. */
1677 }
1683 {
1684 gimple copy_stmt;
1692 /* Do this before the possible split_block. */
1695 /* If this tree could throw an exception, there are two
1696 cases where we need to add abnormal edge(s): the
1697 tree wasn't in a region and there is a "current
1698 region" in the caller; or the original tree had
1699 EH edges. In both cases split the block after the tree,
1700 and add abnormal edge(s) as needed; we need both
1701 those from the callee and the caller.
1702 We check whether the copy can throw, because the const
1703 propagation can change an INDIRECT_REF which throws
1704 into a COMPONENT_REF which doesn't. If the copy
1705 can throw, the original could also throw. */
1710 {
1712 /* Note that bb's predecessor edges aren't necessarily
1713 right at this point; split_block doesn't care. */
1714 {
1720 }
1721 }
1733 }
1734 }
1736 /* Copy the PHIs. All blocks and edges are copied, some blocks
1737 was possibly split and new outgoing EH edges inserted.
1738 BB points to the block of original function and AUX pointers links
1739 the original and newly copied blocks. */
1741 static void
1743 {
1745 edge_iterator ei;
1746 gimple phi;
1747 gimple_stmt_iterator si;
1750 {
1752 gimple new_phi;
1753 edge new_edge;
1759 {
1764 {
1765 edge const old_edge
1774 /* With return slot optimization we can end up with
1775 non-gimple (foo *)&this->m, fix that here. */
1779 {
1783 }
1785 }
1786 }
1787 }
1788 }
1791 /* Wrapper for remap_decl so it can be used as a callback. */
1793 static tree
1795 {
1797 }
1799 /* Build struct function and associated datastructures for the new clone
1800 NEW_FNDECL to be build. CALLEE_FNDECL is the original */
1802 static void
1805 {
1812 else
1817 /
1819 else
1822 /* Register specific tree functions. */
1825 /* Get clean struct function. */
1828 /* We will rebuild these, so just sanity check that they are empty. */
1834 /* Copy items we preserve during clonning. */
1858 REG_BR_PROB_BASE);
1864 REG_BR_PROB_BASE);
1872 {
1876 }
1878 }
1880 /* Make a copy of the body of FN so that it can be inserted inline in
1881 another function. Walks FN via CFG, returns new fndecl. */
1883 static tree
1886 {
1888 /* Original cfun for the callee, doesn't change. */
1891 basic_block bb;
1899 else
1904 /
1906 else
1909 /* Register specific tree functions. */
1912 /* Must have a CFG here at this point. */
1923 /* Duplicate any exception-handling regions. */
1925 {
1926 id->eh_region_offset
1929 }
1931 /* Use aux pointers to map the original blocks to copy. */
1933 {
1937 }
1941 /* Now that we've duplicated the blocks, duplicate their edges. */
1950 {
1953 }
1955 /* Zero out AUX fields of newly created block during EH edge
1956 insertion. */
1963 }
1965 static tree
1968 {
1970 tree body;
1972 /* If this body has a CFG, walk CFG and copy. */
1977 }
1979 /* Return true if VALUE is an ADDR_EXPR of an automatic variable
1980 defined in function FN, or of a data member thereof. */
1982 static bool
1984 {
1985 tree var;
1993 }
1995 static void
1997 {
1998 /* If VAR represents a zero-sized variable, it's possible that the
1999 assignment statement may result in no gimple statements. */
2001 {
2004 /* We can end up with init statements that store to a non-register
2005 from a rhs with a conversion. Handle that here by forcing the
2006 rhs into a temporary. gimple_regimplify_operands is not
2007 prepared to do this for us. */
2011 {
2016 GSI_NEW_STMT);
2019 }
2023 }
2024 }
2026 /* Initialize parameter P with VALUE. If needed, produce init statement
2027 at the end of BB. When BB is NULL, we return init statement to be
2028 output later. */
2029 static gimple
2032 {
2034 tree var;
2042 {
2045 else
2046 /* ??? For valid (GIMPLE) programs we should not end up here.
2047 Still if something has gone wrong and we end up with truly
2048 mismatched types here, fall back to using a VIEW_CONVERT_EXPR
2049 to not leak invalid GIMPLE to the following passes. */
2051 }
2053 /* If the parameter is never assigned to, has no SSA_NAMEs created,
2054 we may not need to create a new variable here at all. Instead, we may
2055 be able to just use the argument value. */
2060 {
2061 /* We may produce non-gimple trees by adding NOPs or introduce
2062 invalid sharing when operand is not really constant.
2063 It is not big deal to prohibit constant propagation here as
2064 we will constant propagate in DOM1 pass anyway. */
2068 /* We have to be very careful about ADDR_EXPR. Make sure
2069 the base variable isn't a local variable of the inlined
2070 function, e.g., when doing recursive inlining, direct or
2071 mutually-recursive or whatever, which is why we don't
2072 just test whether fn == current_function_decl. */
2074 {
2077 }
2078 }
2080 /* Make an equivalent VAR_DECL. Note that we must NOT remap the type
2081 here since the type of this decl must be visible to the calling
2082 function. */
2085 {
2088 }
2090 /* Register the VAR_DECL as the equivalent for the PARM_DECL;
2091 that way, when the PARM_DECL is encountered, it will be
2092 automatically replaced by the VAR_DECL. */
2095 /* Declare this new variable. */
2099 /* Make gimplifier happy about this variable. */
2102 /* Even if P was TREE_READONLY, the new VAR should not be.
2103 In the original code, we would have constructed a
2104 temporary, and then the function body would have never
2105 changed the value of P. However, now, we will be
2106 constructing VAR directly. The constructor body may
2107 change its value multiple times as it is being
2108 constructed. Therefore, it must not be TREE_READONLY;
2109 the back-end assumes that TREE_READONLY variable is
2110 assigned to only once. */
2114 /* If there is no setup required and we are in SSA, take the easy route
2115 replacing all SSA names representing the function parameter by the
2116 SSA name passed to function.
2118 We need to construct map for the variable anyway as it might be used
2119 in different SSA names when parameter is set in function.
2121 Do replacement at -O0 for const arguments replaced by constant.
2122 This is important for builtin_constant_p and other construct requiring
2123 constant argument to be visible in inlined function body.
2125 FIXME: This usually kills the last connection in between inlined
2126 function parameter and the actual value in debug info. Can we do
2127 better here? If we just inserted the statement, copy propagation
2128 would kill it anyway as it always did in older versions of GCC.
2130 We might want to introduce a notion that single SSA_NAME might
2131 represent multiple variables for purposes of debugging. */
2133 && (optimize
2139 {
2142 }
2144 /* If the value of argument is never used, don't care about initializing
2145 it. */
2147 {
2150 }
2152 /* Initialize this VAR_DECL from the equivalent argument. Convert
2153 the argument to the proper type in case it was promoted. */
2155 {
2157 {
2160 }
2164 /* We want to use MODIFY_EXPR, not INIT_EXPR here so that we
2165 keep our trees in gimple form. */
2167 {
2172 }
2173 else
2178 }
2180 }
2182 /* Generate code to initialize the parameters of the function at the
2183 top of the stack in ID from the GIMPLE_CALL STMT. */
2185 static void
2188 {
2189 tree parms;
2191 tree p;
2195 /* Figure out what the parameters are. */
2198 /* Loop through the parameter declarations, replacing each with an
2199 equivalent VAR_DECL, appropriately initialized. */
2201 {
2202 tree val;
2205 }
2207 /* Initialize the static chain. */
2211 {
2212 /* No static chain? Seems like a bug in tree-nested.c. */
2216 }
2219 }
2222 /* Declare a return variable to replace the RESULT_DECL for the
2223 function we are calling. An appropriate DECL_STMT is returned.
2224 The USE_STMT is filled to contain a use of the declaration to
2225 indicate the return value of the function.
2227 RETURN_SLOT, if non-null is place where to store the result. It
2228 is set only for CALL_EXPR_RETURN_SLOT_OPT. MODIFY_DEST, if non-null,
2229 was the LHS of the MODIFY_EXPR to which this call is the RHS.
2231 The return value is a (possibly null) value that is the result of the
2232 function as seen by the callee. *USE_P is a (possibly null) value that
2233 holds the result as seen by the caller. */
2235 static tree
2238 {
2246 /* We don't need to do anything for functions that don't return
2247 anything. */
2249 {
2252 }
2254 /* If there was a return slot, then the return value is the
2255 dereferenced address of that object. */
2257 {
2258 /* The front end shouldn't have used both return_slot and
2259 a modify expression. */
2262 {
2266 /* We are going to construct *&return_slot and we can't do that
2267 for variables believed to be not addressable.
2269 FIXME: This check possibly can match, because values returned
2270 via return slot optimization are not believed to have address
2271 taken by alias analysis. */
2274 {
2275 HOST_WIDE_INT bitsize;
2276 HOST_WIDE_INT bitpos;
2277 tree offset;
2281 tree base;
2291 }
2293 }
2294 else
2295 {
2299 }
2307 }
2309 /* All types requiring non-trivial constructors should have been handled. */
2312 /* Attempt to avoid creating a new temporary variable. */
2315 {
2318 /* We can't use MODIFY_DEST if there's type promotion involved. */
2322 /* ??? If we're assigning to a variable sized type, then we must
2323 reuse the destination variable, because we've no good way to
2324 create variable sized temporaries at this point. */
2328 /* If the callee cannot possibly modify MODIFY_DEST, then we can
2329 reuse it as the result of the call directly. Don't do this if
2330 it would promote MODIFY_DEST to addressable. */
2333 else
2334 {
2337 /* If the base isn't a decl, then it's a pointer, and we don't
2338 know where that's going to go. */
2350 }
2353 {
2357 }
2358 }
2364 {
2367 }
2374 /* Do not have the rest of GCC warn about this variable as it should
2375 not be visible to the user. */
2380 /* Build the use expr. If the return type of the function was
2381 promoted, convert it back to the expected type. */
2389 {
2392 }
2394 done:
2395 /* Register the VAR_DECL as the equivalent for the RESULT_DECL; that
2396 way, when the RESULT_DECL is encountered, it will be
2397 automatically replaced by the VAR_DECL. */
2400 /* Remember this so we can ignore it in remap_decls. */
2405 }
2407 /* Returns nonzero if a function can be inlined as a tree. */
2409 bool
2411 {
2413 }
2417 /* A callback for walk_gimple_seq to handle tree operands. Returns
2418 NULL_TREE if a function can be inlined, otherwise sets the reason
2419 why not and returns a tree representing the offending operand. */
2421 static tree
2424 {
2426 tree t;
2429 {
2430 /* We cannot inline a function of the form
2432 void F (int i) { struct S { int ar[i]; } s; }
2434 Attempting to do so produces a catch-22.
2435 If walk_tree examines the TYPE_FIELDS chain of RECORD_TYPE/
2436 UNION_TYPE nodes, then it goes into infinite recursion on a
2437 structure containing a pointer to its own type. If it doesn't,
2438 then the type node for S doesn't get adjusted properly when
2439 F is inlined.
2441 ??? This is likely no longer true, but it's too late in the 4.0
2442 cycle to try to find out. This should be checked for 4.1. */
2445 {
2446 inline_forbidden_reason
2450 }
2451 }
2454 }
2457 /* A callback for walk_gimple_seq to handle statements. Returns
2458 non-NULL iff a function can not be inlined. Also sets the reason
2459 why. */
2461 static tree
2464 {
2466 tree t;
2470 {
2472 /* Refuse to inline alloca call unless user explicitly forced so as
2473 this may change program's memory overhead drastically when the
2474 function using alloca is called in loop. In GCC present in
2475 SPEC2000 inlining into schedule_block cause it to require 2GB of
2476 RAM instead of 256MB. */
2479 {
2480 inline_forbidden_reason
2485 }
2491 /* We cannot inline functions that call setjmp. */
2493 {
2494 inline_forbidden_reason
2498 }
2502 {
2503 /* We cannot inline functions that take a variable number of
2504 arguments. */
2508 inline_forbidden_reason
2515 /* We can't inline functions that call __builtin_longjmp at
2516 all. The non-local goto machinery really requires the
2517 destination be in a different function. If we allow the
2518 function calling __builtin_longjmp to be inlined into the
2519 function calling __builtin_setjmp, Things will Go Awry. */
2520 inline_forbidden_reason
2527 /* Similarly. */
2528 inline_forbidden_reason
2536 /* If a __builtin_apply_args caller would be inlined,
2537 it would be saving arguments of the function it has
2538 been inlined into. Similarly __builtin_return would
2539 return from the function the inline has been inlined into. */
2540 inline_forbidden_reason
2548 }
2554 /* We will not inline a function which uses computed goto. The
2555 addresses of its local labels, which may be tucked into
2556 global storage, are of course not constant across
2557 instantiations, which causes unexpected behavior. */
2559 {
2560 inline_forbidden_reason
2565 }
2571 {
2572 /* We cannot inline a function that receives a non-local goto
2573 because we cannot remap the destination label used in the
2574 function that is performing the non-local goto. */
2575 inline_forbidden_reason
2580 }
2585 }
2589 }
2592 static tree
2595 {
2600 {
2601 inline_forbidden_reason
2605 }
2611 }
2613 /* Return true if FNDECL is a function that cannot be inlined into
2614 another one. */
2616 static bool
2618 {
2621 tree step;
2624 basic_block bb;
2633 {
2634 gimple ret;
2641 }
2644 {
2650 {
2651 tree ret;
2657 }
2658 }
2660 egress:
2664 }
2666 /* Returns nonzero if FN is a function that does not have any
2667 fundamental inline blocking properties. */
2669 static bool
2671 {
2674 tree always_inline;
2676 /* If we've already decided this function shouldn't be inlined,
2677 there's no need to check again. */
2681 /* We only warn for functions declared `inline' by the user. */
2682 do_warning = (warn_inline
2691 {
2696 }
2698 /* Don't auto-inline anything that might not be bound within
2699 this unit of translation. */
2705 {
2710 }
2713 {
2714 /* See if we should warn about uninlinable functions. Previously,
2715 some of these warnings would be issued while trying to expand
2716 the function inline, but that would cause multiple warnings
2717 about functions that would for example call alloca. But since
2718 this a property of the function, just one warning is enough.
2719 As a bonus we can now give more details about the reason why a
2720 function is not inlinable. */
2727 }
2729 /* Squirrel away the result so that we don't have to check again. */
2733 }
2735 /* Estimate the cost of a memory move. Use machine dependent
2736 word size and take possible memcpy call into account. */
2738 int
2740 {
2741 HOST_WIDE_INT size;
2746 /* Cost of a memcpy call, 3 arguments and the call. */
2748 else
2750 }
2752 /* Returns cost of operation CODE, according to WEIGHTS */
2754 static int
2756 {
2758 {
2759 /* These are "free" conversions, or their presumed cost
2760 is folded into other operations. */
2762 CASE_CONVERT:
2767 /* Assign cost of 1 to usual operations.
2768 ??? We may consider mapping RTL costs to this. */
2853 /* Few special cases of expensive operations. This is useful
2854 to avoid inlining on functions having too many of these. */
2868 /* We expect a copy assignment with no operator. */
2871 }
2872 }
2875 /* Estimate number of instructions that will be created by expanding
2876 the statements in the statement sequence STMTS.
2877 WEIGHTS contains weights attributed to various constructs. */
2879 static
2881 {
2883 gimple_stmt_iterator gsi;
2890 }
2893 /* Estimate number of instructions that will be created by expanding STMT.
2894 WEIGHTS contains weights attributed to various constructs. */
2896 int
2898 {
2901 tree lhs;
2904 {
2906 /* Try to estimate the cost of assignments. We have three cases to
2907 deal with:
2908 1) Simple assignments to registers;
2909 2) Stores to things that must live in memory. This includes
2910 "normal" stores to scalars, but also assignments of large
2911 structures, or constructors of big arrays;
2913 Let us look at the first two cases, assuming we have "a = b + C":
2914 <GIMPLE_ASSIGN <var_decl "a">
2915 <plus_expr <var_decl "b"> <constant C>>
2916 If "a" is a GIMPLE register, the assignment to it is free on almost
2917 any target, because "a" usually ends up in a real register. Hence
2918 the only cost of this expression comes from the PLUS_EXPR, and we
2919 can ignore the GIMPLE_ASSIGN.
2920 If "a" is not a GIMPLE register, the assignment to "a" will most
2921 likely be a real store, so the cost of the GIMPLE_ASSIGN is the cost
2922 of moving something into "a", which we compute using the function
2923 estimate_move_cost. */
2927 else
2938 /* Take into account cost of the switch + guess 2 conditional jumps for
2939 each case label.
2941 TODO: once the switch expansion logic is sufficiently separated, we can
2942 do better job on estimating cost of the switch. */
2947 {
2957 else
2962 {
2969 /* Prefetch instruction is not expensive. */
2976 }
2981 /* Our cost must be kept in sync with
2982 cgraph_estimate_size_after_inlining that does use function
2983 declaration to figure out the arguments. */
2985 {
2986 tree arg;
2989 }
2991 {
2992 tree t;
2995 }
2996 else
2997 {
2999 {
3002 }
3003 }
3006 }
3034 /* OpenMP directives are generally very expensive. */
3040 /* ...except these, which are cheap. */
3064 }
3067 }
3069 /* Estimate number of instructions that will be created by expanding
3070 function FNDECL. WEIGHTS contains weights attributed to various
3071 constructs. */
3073 int
3075 {
3077 gimple_stmt_iterator bsi;
3078 basic_block bb;
3083 {
3086 }
3089 }
3092 /* Initializes weights used by estimate_num_insns. */
3094 void
3096 {
3107 /* Estimating time for call is difficult, since we have no idea what the
3108 called function does. In the current uses of eni_time_weights,
3109 underestimating the cost does less harm than overestimating it, so
3110 we choose a rather small value here. */
3115 }
3117 /* Estimate the number of instructions in a gimple_seq. */
3119 int
3121 {
3122 gimple_stmt_iterator gsi;
3128 }
3131 /* Install new lexical TREE_BLOCK underneath 'current_block'. */
3133 static void
3135 {
3139 }
3141 /* Fetch callee declaration from the call graph edge going from NODE and
3142 associated with STMR call statement. Return NULL_TREE if not found. */
3143 static tree
3145 {
3153 }
3155 /* If STMT is a GIMPLE_CALL, replace it with its inline expansion. */
3157 static bool
3159 {
3161 tree fn;
3163 tree return_slot;
3164 tree modify_dest;
3165 location_t saved_location;
3167 cgraph_inline_failed_t reason;
3168 basic_block return_block;
3169 edge e;
3173 tree t_step;
3174 tree var;
3176 /* Set input_location here so we get the right instantiation context
3177 if we call instantiate_decl from inlinable_function_p. */
3182 /* From here on, we're only interested in CALL_EXPRs. */
3186 /* First, see if we can figure out what function is being called.
3187 If we cannot, then there is no hope of inlining the function. */
3190 {
3194 }
3196 /* Turn forward declarations into real ones. */
3199 /* If FN is a declaration of a function in a nested scope that was
3200 globally declared inline, we don't set its DECL_INITIAL.
3201 However, we can't blindly follow DECL_ABSTRACT_ORIGIN because the
3202 C++ front-end uses it for cdtors to refer to their internal
3203 declarations, that are not real functions. Fortunately those
3204 don't have trees to be saved, so we can tell by checking their
3205 gimple_body. */
3211 /* Objective C and fortran still calls tree_rest_of_compilation directly.
3212 Kill this check once this is fixed. */
3218 /* Constant propagation on argument done during previous inlining
3219 may create new direct call. Produce an edge for it. */
3221 {
3224 /* We have missing edge in the callgraph. This can happen in one case
3225 where previous inlining turned indirect call into direct call by
3226 constant propagating arguments. In all other cases we hit a bug
3227 (incorrect node sharing is most common reason for missing edges. */
3234 {
3237 }
3239 }
3241 /* Don't try to inline functions that are not well-suited to
3242 inlining. */
3244 {
3245 /* If this call was originally indirect, we do not want to emit any
3246 inlining related warnings or sorry messages because there are no
3247 guarantees regarding those. */
3252 /* Avoid warnings during early inline pass. */
3254 {
3258 }
3263 /* Avoid warnings during early inline pass. */
3265 {
3269 }
3271 }
3274 #ifdef ENABLE_CHECKING
3277 #endif
3279 /* We will be inlining this callee. */
3282 /* Split the block holding the GIMPLE_CALL. */
3288 /* split_block splits after the statement; work around this by
3289 moving the call into the second block manually. Not pretty,
3290 but seems easier than doing the CFG manipulation by hand
3291 when the GIMPLE_CALL is in the last statement of BB. */
3295 /* If the GIMPLE_CALL was in the last statement of BB, it may have
3296 been the source of abnormal edges. In this case, schedule
3297 the removal of dead abnormal edges. */
3300 {
3303 }
3304 else
3305 {
3308 }
3312 /* Build a block containing code to initialize the arguments, the
3313 actual inline expansion of the body, and a label for the return
3314 statements within the function to jump to. The type of the
3315 statement expression is the return type of the function call. */
3321 /* Local declarations will be replaced by their equivalents in this
3322 map. */
3326 /* Record the function we are about to inline. */
3336 {
3339 NOT_TAKEN),
3340 GSI_NEW_STMT);
3341 }
3347 /* Return statements in the function body will be replaced by jumps
3348 to the RET_LABEL. */
3352 /* Find the LHS to which the result of this call is assigned. */
3355 {
3358 /* The function which we are inlining might not return a value,
3359 in which case we should issue a warning that the function
3360 does not return a value. In that case the optimizers will
3361 see that the variable to which the value is assigned was not
3362 initialized. We do not want to issue a warning about that
3363 uninitialized variable. */
3368 {
3371 }
3372 }
3373 else
3376 /* If we are inlining a call to the C++ operator new, we don't want
3377 to use type based alias analysis on the return value. Otherwise
3378 we may get confused if the compiler sees that the inlined new
3379 function returns a pointer which was just deleted. See bug
3380 33407. */
3382 {
3385 }
3387 /* Declare the return variable for the function. */
3391 {
3395 }
3397 /* Add local vars in this inlined callee to caller. */
3400 {
3403 {
3407 }
3411 }
3413 /* This is it. Duplicate the callee body. Assume callee is
3414 pre-gimplified. Note that we must not alter the caller
3415 function in any way before this point, as this CALL_EXPR may be
3416 a self-referential call; if we're calling ourselves, we need to
3417 duplicate our body before altering anything. */
3420 /* Clean up. */
3424 /* Unlink the calls virtual operands before replacing it. */
3427 /* If the inlined function returns a result that we care about,
3428 substitute the GIMPLE_CALL with an assignment of the return
3429 variable to the LHS of the call. That is, if STMT was
3430 'a = foo (...)', substitute the call with 'a = USE_RETVAR'. */
3432 {
3439 }
3440 else
3441 {
3442 /* Handle the case of inlining a function with no return
3443 statement, which causes the return value to become undefined. */
3446 {
3452 {
3453 /* If the variable is used undefined, make this name
3454 undefined via a move. */
3457 }
3458 else
3459 {
3460 /* Otherwise make this variable undefined. */
3464 }
3465 }
3466 else
3468 }
3473 /* If the value of the new expression is ignored, that's OK. We
3474 don't warn about this for CALL_EXPRs, so we shouldn't warn about
3475 the equivalent inlined version either. */
3477 {
3481 }
3483 /* Output the inlining info for this abstract function, since it has been
3484 inlined. If we don't do this now, we can lose the information about the
3485 variables in the function when the blocks get blown away as soon as we
3486 remove the cgraph node. */
3489 /* Update callgraph if needed. */
3495 egress:
3498 }
3500 /* Expand call statements reachable from STMT_P.
3501 We can only have CALL_EXPRs as the "toplevel" tree code or nested
3502 in a MODIFY_EXPR. See tree-gimple.c:get_call_expr_in(). We can
3503 unfortunately not use that function here because we need a pointer
3504 to the CALL_EXPR, not the tree itself. */
3506 static bool
3508 {
3509 gimple_stmt_iterator gsi;
3512 {
3518 }
3521 }
3524 /* Walk all basic blocks created after FIRST and try to fold every statement
3525 in the STATEMENTS pointer set. */
3527 static void
3529 {
3532 {
3533 gimple_stmt_iterator gsi;
3539 {
3543 {
3544 /* Re-read the statement from GSI as fold_stmt() may
3545 have changed it. */
3554 }
3555 }
3556 }
3557 }
3559 /* Return true if BB has at least one abnormal outgoing edge. */
3563 {
3564 edge e;
3565 edge_iterator ei;
3572 }
3574 /* Expand calls to inline functions in the body of FN. */
3576 unsigned int
3578 {
3579 copy_body_data id;
3580 tree prev_fn;
3581 basic_block bb;
3585 /* There is no point in performing inlining if errors have already
3586 occurred -- and we might crash if we try to inline invalid
3587 code. */
3591 /* Clear out ID. */
3596 /* Or any functions that aren't finished yet. */
3599 {
3602 }
3613 /* We make no attempts to keep dominance info up-to-date. */
3617 /* Register specific gimple functions. */
3620 /* Reach the trees by walking over the CFG, and note the
3621 enclosing basic-blocks in the call edges. */
3622 /* We walk the blocks going forward, because inlined function bodies
3623 will split id->current_basic_block, and the new blocks will
3624 follow it; we'll trudge through them, processing their CALL_EXPRs
3625 along the way. */
3631 #ifdef ENABLE_CHECKING
3632 {
3637 /* Double check that we inlined everything we are supposed to inline. */
3640 }
3641 #endif
3643 /* Fold the statements before compacting/renumbering the basic blocks. */
3647 /* Renumber the (code) basic_blocks consecutively. */
3649 /* Renumber the lexical scoping (non-code) blocks consecutively. */
3654 /* It would be nice to check SSA/CFG/statement consistency here, but it is
3655 not possible yet - the IPA passes might make various functions to not
3656 throw and they don't care to proactively update local EH info. This is
3657 done later in fixup_cfg pass that also execute the verification. */
3659 | TODO_cleanup_cfg
3662 }
3664 /* Passed to walk_tree. Copies the node pointed to, if appropriate. */
3666 tree
3668 {
3672 /* We make copies of most nodes. */
3678 {
3679 /* Because the chain gets clobbered when we make a copy, we save it
3680 here. */
3685 /* Copy the node. */
3688 /* Propagate mudflap marked-ness. */
3694 /* Now, restore the chain, if appropriate. That will cause
3695 walk_tree to walk into the chain as well. */
3701 /* For now, we don't update BLOCKs when we make copies. So, we
3702 have to nullify all BIND_EXPRs. */
3705 }
3707 {
3708 /* CONSTRUCTOR nodes need special handling because
3709 we need to duplicate the vector of elements. */
3710 tree new_tree;
3714 /* Propagate mudflap marked-ness. */
3721 }
3728 else
3731 }
3733 /* The SAVE_EXPR pointed to by TP is being copied. If ST contains
3734 information indicating to what new SAVE_EXPR this one should be mapped,
3735 use that one. Otherwise, create a new node and enter it in ST. FN is
3736 the function into which the copy will be placed. */
3738 static void
3740 {
3743 tree t;
3745 /* See if we already encountered this SAVE_EXPR. */
3748 /* If we didn't already remap this SAVE_EXPR, do so now. */
3750 {
3753 /* Remember this SAVE_EXPR. */
3755 /* Make sure we don't remap an already-remapped SAVE_EXPR. */
3757 }
3758 else
3759 {
3760 /* We've already walked into this SAVE_EXPR; don't do it again. */
3763 }
3765 /* Replace this SAVE_EXPR with the copy. */
3767 }
3769 /* Called via walk_tree. If *TP points to a DECL_STMT for a local label,
3770 copies the declaration and enters it in the splay_tree in DATA (which is
3771 really an `copy_body_data *'). */
3773 static tree
3776 {
3779 /* Don't walk into types. */
3784 {
3787 /* Copy the decl and remember the copy. */
3789 }
3792 }
3794 /* Perform any modifications to EXPR required when it is unsaved. Does
3795 not recurse into EXPR's subtrees. */
3797 static void
3799 {
3801 {
3803 /* Don't mess with a TARGET_EXPR that hasn't been expanded.
3804 It's OK for this to happen if it was part of a subtree that
3805 isn't immediately expanded, such as operand 2 of another
3806 TARGET_EXPR. */
3816 }
3817 }
3819 /* Called via walk_tree when an expression is unsaved. Using the
3820 splay_tree pointed to by ST (which is really a `splay_tree'),
3821 remaps all local declarations to appropriate replacements. */
3823 static tree
3825 {
3830 /* Only a local declaration (variable or label). */
3833 {
3834 /* Lookup the declaration. */
3837 /* If it's there, remap it. */
3840 }
3848 else
3849 {
3852 /* Do whatever unsaving is required. */
3854 }
3856 /* Keep iterating. */
3858 }
3860 /* Copies everything in EXPR and replaces variables, labels
3861 and SAVE_EXPRs local to EXPR. */
3863 tree
3865 {
3866 copy_body_data id;
3868 /* There's nothing to do for NULL_TREE. */
3872 /* Set up ID. */
3884 /* Walk the tree once to find local labels. */
3887 /* Walk the tree again, copying, remapping, and unsaving. */
3890 /* Clean up. */
3894 }
3896 /* Called via walk_gimple_seq. If *GSIP points to a GIMPLE_LABEL for a local
3897 label, copies the declaration and enters it in the splay_tree in DATA (which
3898 is really a 'copy_body_data *'. */
3900 static tree
3904 {
3909 {
3912 /* Copy the decl and remember the copy. */
3914 }
3917 }
3920 /* Called via walk_gimple_seq by copy_gimple_seq_and_replace_local.
3921 Using the splay_tree pointed to by ST (which is really a `splay_tree'),
3922 remaps all local declarations to appropriate replacements in gimple
3923 operands. */
3925 static tree
3927 {
3934 /* Only a local declaration (variable or label). */
3938 {
3939 /* Lookup the declaration. */
3942 /* If it's there, remap it. */
3946 }
3952 {
3953 /* Don't mess with a TARGET_EXPR that hasn't been expanded.
3954 It's OK for this to happen if it was part of a subtree that
3955 isn't immediately expanded, such as operand 2 of another
3956 TARGET_EXPR. */
3958 {
3961 }
3962 }
3964 /* Keep iterating. */
3966 }
3969 /* Called via walk_gimple_seq by copy_gimple_seq_and_replace_local.
3970 Using the splay_tree pointed to by ST (which is really a `splay_tree'),
3971 remaps all local declarations to appropriate replacements in gimple
3972 statements. */
3974 static tree
3978 {
3983 {
3987 {
3990 }
3992 /* This will remap a lot of the same decls again, but this should be
3993 harmless. */
3996 }
3998 /* Keep iterating. */
4000 }
4003 /* Copies everything in SEQ and replaces variables and labels local to
4004 current_function_decl. */
4006 gimple_seq
4008 {
4009 copy_body_data id;
4012 gimple_seq copy;
4014 /* There's nothing to do for NULL_TREE. */
4018 /* Set up ID. */
4030 /* Walk the tree once to find local labels. */
4040 /* Walk the copy, remapping decls. */
4045 /* Clean up. */
4049 }
4052 /* Allow someone to determine if SEARCH is a child of TOP from gdb. */
4054 static tree
4056 {
4059 else
4061 }
4063 bool
4065 {
4067 }
4070 /* Declare the variables created by the inliner. Add all the variables in
4071 VARS to BIND_EXPR. */
4073 static void
4075 {
4076 tree t;
4078 {
4082 }
4086 }
4088 /* Copy NODE (which must be a DECL). The DECL originally was in the FROM_FN,
4089 but now it will be in the TO_FN. PARM_TO_VAR means enable PARM_DECL to
4090 VAR_DECL translation. */
4092 static tree
4094 {
4095 /* Don't generate debug information for the copy if we wouldn't have
4096 generated it for the copy either. */
4100 /* Set the DECL_ABSTRACT_ORIGIN so the debugging routines know what
4101 declaration inspired this copy. */
4104 /* The new variable/label has no RTL, yet. */
4109 /* These args would always appear unused, if not for this. */
4112 /* Set the context for the new declaration. */
4114 /* Globals stay global. */
4115 ;
4117 /* Things that weren't in the scope of the function we're inlining
4118 from aren't in the scope we're inlining to, either. */
4119 ;
4121 /* Function-scoped static variables should stay in the original
4122 function. */
4123 ;
4124 else
4125 /* Ordinary automatic local variables are now in the scope of the
4126 new function. */
4130 }
4132 static tree
4134 {
4150 }
4152 /* Like copy_decl_to_var, but create a return slot object instead of a
4153 pointer variable for return by invisible reference. */
4155 static tree
4157 {
4171 {
4175 }
4178 }
4180 tree
4182 {
4183 tree copy;
4187 /* The COPY is not abstract; it will be generated in DST_FN. */
4191 /* TREE_ADDRESSABLE isn't used to indicate that a label's address has
4192 been taken; it's for internal bookkeeping in expand_goto_internal. */
4194 {
4197 }
4200 }
4202 static tree
4204 {
4207 else
4209 }
4211 /* Return a copy of the function's argument tree. */
4212 static tree
4215 {
4224 {
4229 }
4231 {
4232 /* Make an equivalent VAR_DECL. If the argument was used
4233 as temporary variable later in function, the uses will be
4234 replaced by local variable. */
4239 /* Declare this new variable. */
4242 }
4244 }
4246 /* Return a copy of the function's static chain. */
4247 static tree
4249 {
4254 {
4259 }
4261 }
4263 /* Return true if the function is allowed to be versioned.
4264 This is a guard for the versioning functionality. */
4265 bool
4267 {
4270 /* ??? There are cases where a function is
4271 uninlinable but can be versioned. */
4276 }
4278 /* Create a new name for omp child function. Returns an identifier. */
4282 static tree
4284 {
4292 #ifndef NO_DOT_IN_LABEL
4294 #elif !defined NO_DOLLAR_IN_LABEL
4296 #endif
4299 }
4301 /* Create a copy of a function's tree.
4302 OLD_DECL and NEW_DECL are FUNCTION_DECL tree nodes
4303 of the original function and the new copied function
4304 respectively. In case we want to replace a DECL
4305 tree with another tree while duplicating the function's
4306 body, TREE_MAP represents the mapping between these
4307 trees. If UPDATE_CLONES is set, the call_stmt fields
4308 of edges of clones of the function will be updated. */
4309 void
4312 {
4315 copy_body_data id;
4316 tree p;
4319 basic_block old_entry_block;
4322 tree t_step;
4333 /* Output the inlining info for this abstract function, since it has been
4334 inlined. If we don't do this now, we can lose the information about the
4335 variables in the function when the blocks get blown away as soon as we
4336 remove the cgraph node. */
4342 /* Prepare the data structures for the tree copy. */
4345 /* Generate a new name for the new version. */
4347 {
4352 }
4362 id.transform_call_graph_edges
4369 old_entry_block = ENTRY_BLOCK_PTR_FOR_FUNCTION
4376 /* Copy the function's static chain. */
4383 /* If there's a tree_map, prepare for substitution. */
4386 {
4387 gimple init;
4388 replace_info
4391 {
4400 {
4406 }
4410 NULL,
4414 }
4415 }
4416 /* Copy the function's arguments. */
4424 /* Renumber the lexical scoping (non-code) blocks consecutively. */
4429 /* Add local vars. */
4432 {
4440 }
4442 /* Copy the Function's body. */
4443 copy_body (&id, old_entry_block->count, old_entry_block->frequency, ENTRY_BLOCK_PTR, EXIT_BLOCK_PTR);
4446 {
4450 }
4452 /* Renumber the lexical scoping (non-code) blocks consecutively. */
4456 {
4460 }
4462 /* Clean up. */
4467 {
4473 }
4480 }
4482 /* Duplicate a type, fields and all. */
4484 tree
4486 {
4503 }
4505 /* Return whether it is safe to inline a function because it used different
4506 target specific options or different optimization options. */
4507 bool
4509 {
4510 #if 0
4511 /* This causes a regression in SPEC in that it prevents a cold function from
4512 inlining a hot function. Perhaps this should only apply to functions
4513 that the user declares hot/cold/optimize explicitly. */
4515 /* Don't inline a function with a higher optimization level than the
4516 caller, or with different space constraints (hot/cold functions). */
4521 {
4524 ? caller_tree
4529 ? callee_tree
4535 }
4536 #endif
4538 /* Allow the backend to decide if inlining is ok. */
4540 }