1 /* Tree lowering pass. This pass converts the GENERIC functions-as-trees
2 tree representation into the GIMPLE form.
3 Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009
4 Free Software Foundation, Inc.
5 Major work done by Sebastian Pop <s.pop@laposte.net>,
6 Diego Novillo <dnovillo@redhat.com> and Jason Merrill <jason@redhat.com>.
8 This file is part of GCC.
10 GCC is free software; you can redistribute it and/or modify it under
11 the terms of the GNU General Public License as published by the Free
12 Software Foundation; either version 3, or (at your option) any later
15 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
16 WARRANTY; without even the implied warranty of MERCHANTABILITY or
17 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
20 You should have received a copy of the GNU General Public License
21 along with GCC; see the file COPYING3. If not see
22 <http://www.gnu.org/licenses/>. */
26 #include "coretypes.h"
32 #include "tree-iterator.h"
33 #include "tree-inline.h"
34 #include "diagnostic.h"
35 #include "langhooks.h"
36 #include "langhooks-def.h"
37 #include "tree-flow.h"
51 #include "pointer-set.h"
52 #include "splay-tree.h"
57 enum gimplify_omp_var_data
63 GOVD_FIRSTPRIVATE
= 16,
64 GOVD_LASTPRIVATE
= 32,
67 GOVD_DEBUG_PRIVATE
= 256,
68 GOVD_PRIVATE_OUTER_REF
= 512,
69 GOVD_DATA_SHARE_CLASS
= (GOVD_SHARED
| GOVD_PRIVATE
| GOVD_FIRSTPRIVATE
70 | GOVD_LASTPRIVATE
| GOVD_REDUCTION
| GOVD_LOCAL
)
79 ORT_COMBINED_PARALLEL
= 3
82 struct gimplify_omp_ctx
84 struct gimplify_omp_ctx
*outer_context
;
86 struct pointer_set_t
*privatized_types
;
88 enum omp_clause_default_kind default_kind
;
89 enum omp_region_type region_type
;
92 static struct gimplify_ctx
*gimplify_ctxp
;
93 static struct gimplify_omp_ctx
*gimplify_omp_ctxp
;
96 /* Formal (expression) temporary table handling: Multiple occurrences of
97 the same scalar expression are evaluated into the same temporary. */
99 typedef struct gimple_temp_hash_elt
102 tree temp
; /* Value */
105 /* Forward declarations. */
106 static enum gimplify_status
gimplify_compound_expr (tree
*, gimple_seq
*, bool);
108 /* Mark X addressable. Unlike the langhook we expect X to be in gimple
109 form and we don't do any syntax checking. */
111 mark_addressable (tree x
)
113 while (handled_component_p (x
))
114 x
= TREE_OPERAND (x
, 0);
115 if (TREE_CODE (x
) != VAR_DECL
116 && TREE_CODE (x
) != PARM_DECL
117 && TREE_CODE (x
) != RESULT_DECL
)
119 TREE_ADDRESSABLE (x
) = 1;
122 /* Return a hash value for a formal temporary table entry. */
125 gimple_tree_hash (const void *p
)
127 tree t
= ((const elt_t
*) p
)->val
;
128 return iterative_hash_expr (t
, 0);
131 /* Compare two formal temporary table entries. */
134 gimple_tree_eq (const void *p1
, const void *p2
)
136 tree t1
= ((const elt_t
*) p1
)->val
;
137 tree t2
= ((const elt_t
*) p2
)->val
;
138 enum tree_code code
= TREE_CODE (t1
);
140 if (TREE_CODE (t2
) != code
141 || TREE_TYPE (t1
) != TREE_TYPE (t2
))
144 if (!operand_equal_p (t1
, t2
, 0))
147 /* Only allow them to compare equal if they also hash equal; otherwise
148 results are nondeterminate, and we fail bootstrap comparison. */
149 gcc_assert (gimple_tree_hash (p1
) == gimple_tree_hash (p2
));
154 /* Link gimple statement GS to the end of the sequence *SEQ_P. If
155 *SEQ_P is NULL, a new sequence is allocated. This function is
156 similar to gimple_seq_add_stmt, but does not scan the operands.
157 During gimplification, we need to manipulate statement sequences
158 before the def/use vectors have been constructed. */
161 gimplify_seq_add_stmt (gimple_seq
*seq_p
, gimple gs
)
163 gimple_stmt_iterator si
;
169 *seq_p
= gimple_seq_alloc ();
171 si
= gsi_last (*seq_p
);
173 gsi_insert_after_without_update (&si
, gs
, GSI_NEW_STMT
);
176 /* Append sequence SRC to the end of sequence *DST_P. If *DST_P is
177 NULL, a new sequence is allocated. This function is
178 similar to gimple_seq_add_seq, but does not scan the operands.
179 During gimplification, we need to manipulate statement sequences
180 before the def/use vectors have been constructed. */
183 gimplify_seq_add_seq (gimple_seq
*dst_p
, gimple_seq src
)
185 gimple_stmt_iterator si
;
191 *dst_p
= gimple_seq_alloc ();
193 si
= gsi_last (*dst_p
);
194 gsi_insert_seq_after_without_update (&si
, src
, GSI_NEW_STMT
);
197 /* Set up a context for the gimplifier. */
200 push_gimplify_context (struct gimplify_ctx
*c
)
202 memset (c
, '\0', sizeof (*c
));
203 c
->prev_context
= gimplify_ctxp
;
207 /* Tear down a context for the gimplifier. If BODY is non-null, then
208 put the temporaries into the outer BIND_EXPR. Otherwise, put them
211 BODY is not a sequence, but the first tuple in a sequence. */
214 pop_gimplify_context (gimple body
)
216 struct gimplify_ctx
*c
= gimplify_ctxp
;
218 gcc_assert (c
&& (c
->bind_expr_stack
== NULL
219 || VEC_empty (gimple
, c
->bind_expr_stack
)));
220 VEC_free (gimple
, heap
, c
->bind_expr_stack
);
221 gimplify_ctxp
= c
->prev_context
;
224 declare_vars (c
->temps
, body
, false);
226 record_vars (c
->temps
);
229 htab_delete (c
->temp_htab
);
233 gimple_push_bind_expr (gimple gimple_bind
)
235 if (gimplify_ctxp
->bind_expr_stack
== NULL
)
236 gimplify_ctxp
->bind_expr_stack
= VEC_alloc (gimple
, heap
, 8);
237 VEC_safe_push (gimple
, heap
, gimplify_ctxp
->bind_expr_stack
, gimple_bind
);
241 gimple_pop_bind_expr (void)
243 VEC_pop (gimple
, gimplify_ctxp
->bind_expr_stack
);
247 gimple_current_bind_expr (void)
249 return VEC_last (gimple
, gimplify_ctxp
->bind_expr_stack
);
252 /* Return the stack GIMPLE_BINDs created during gimplification. */
255 gimple_bind_expr_stack (void)
257 return gimplify_ctxp
->bind_expr_stack
;
260 /* Returns true iff there is a COND_EXPR between us and the innermost
261 CLEANUP_POINT_EXPR. This info is used by gimple_push_cleanup. */
264 gimple_conditional_context (void)
266 return gimplify_ctxp
->conditions
> 0;
269 /* Note that we've entered a COND_EXPR. */
272 gimple_push_condition (void)
274 #ifdef ENABLE_GIMPLE_CHECKING
275 if (gimplify_ctxp
->conditions
== 0)
276 gcc_assert (gimple_seq_empty_p (gimplify_ctxp
->conditional_cleanups
));
278 ++(gimplify_ctxp
->conditions
);
281 /* Note that we've left a COND_EXPR. If we're back at unconditional scope
282 now, add any conditional cleanups we've seen to the prequeue. */
285 gimple_pop_condition (gimple_seq
*pre_p
)
287 int conds
= --(gimplify_ctxp
->conditions
);
289 gcc_assert (conds
>= 0);
292 gimplify_seq_add_seq (pre_p
, gimplify_ctxp
->conditional_cleanups
);
293 gimplify_ctxp
->conditional_cleanups
= NULL
;
297 /* A stable comparison routine for use with splay trees and DECLs. */
300 splay_tree_compare_decl_uid (splay_tree_key xa
, splay_tree_key xb
)
305 return DECL_UID (a
) - DECL_UID (b
);
308 /* Create a new omp construct that deals with variable remapping. */
310 static struct gimplify_omp_ctx
*
311 new_omp_context (enum omp_region_type region_type
)
313 struct gimplify_omp_ctx
*c
;
315 c
= XCNEW (struct gimplify_omp_ctx
);
316 c
->outer_context
= gimplify_omp_ctxp
;
317 c
->variables
= splay_tree_new (splay_tree_compare_decl_uid
, 0, 0);
318 c
->privatized_types
= pointer_set_create ();
319 c
->location
= input_location
;
320 c
->region_type
= region_type
;
321 if (region_type
!= ORT_TASK
)
322 c
->default_kind
= OMP_CLAUSE_DEFAULT_SHARED
;
324 c
->default_kind
= OMP_CLAUSE_DEFAULT_UNSPECIFIED
;
329 /* Destroy an omp construct that deals with variable remapping. */
332 delete_omp_context (struct gimplify_omp_ctx
*c
)
334 splay_tree_delete (c
->variables
);
335 pointer_set_destroy (c
->privatized_types
);
339 static void omp_add_variable (struct gimplify_omp_ctx
*, tree
, unsigned int);
340 static bool omp_notice_variable (struct gimplify_omp_ctx
*, tree
, bool);
342 /* A subroutine of append_to_statement_list{,_force}. T is not NULL. */
345 append_to_statement_list_1 (tree t
, tree
*list_p
)
348 tree_stmt_iterator i
;
352 if (t
&& TREE_CODE (t
) == STATEMENT_LIST
)
357 *list_p
= list
= alloc_stmt_list ();
361 tsi_link_after (&i
, t
, TSI_CONTINUE_LINKING
);
364 /* Add T to the end of the list container pointed to by LIST_P.
365 If T is an expression with no effects, it is ignored. */
368 append_to_statement_list (tree t
, tree
*list_p
)
370 if (t
&& TREE_SIDE_EFFECTS (t
))
371 append_to_statement_list_1 (t
, list_p
);
374 /* Similar, but the statement is always added, regardless of side effects. */
377 append_to_statement_list_force (tree t
, tree
*list_p
)
380 append_to_statement_list_1 (t
, list_p
);
383 /* Both gimplify the statement T and append it to *SEQ_P. This function
384 behaves exactly as gimplify_stmt, but you don't have to pass T as a
388 gimplify_and_add (tree t
, gimple_seq
*seq_p
)
390 gimplify_stmt (&t
, seq_p
);
393 /* Gimplify statement T into sequence *SEQ_P, and return the first
394 tuple in the sequence of generated tuples for this statement.
395 Return NULL if gimplifying T produced no tuples. */
398 gimplify_and_return_first (tree t
, gimple_seq
*seq_p
)
400 gimple_stmt_iterator last
= gsi_last (*seq_p
);
402 gimplify_and_add (t
, seq_p
);
404 if (!gsi_end_p (last
))
407 return gsi_stmt (last
);
410 return gimple_seq_first_stmt (*seq_p
);
413 /* Strip off a legitimate source ending from the input string NAME of
414 length LEN. Rather than having to know the names used by all of
415 our front ends, we strip off an ending of a period followed by
416 up to five characters. (Java uses ".class".) */
419 remove_suffix (char *name
, int len
)
423 for (i
= 2; i
< 8 && len
> i
; i
++)
425 if (name
[len
- i
] == '.')
427 name
[len
- i
] = '\0';
433 /* Subroutine for find_single_pointer_decl. */
436 find_single_pointer_decl_1 (tree
*tp
, int *walk_subtrees ATTRIBUTE_UNUSED
,
439 tree
*pdecl
= (tree
*) data
;
441 /* We are only looking for pointers at the same level as the
442 original tree; we must not look through any indirections.
443 Returning anything other than NULL_TREE will cause the caller to
445 if (REFERENCE_CLASS_P (*tp
))
448 if (DECL_P (*tp
) && POINTER_TYPE_P (TREE_TYPE (*tp
)))
452 /* We already found a pointer decl; return anything other
453 than NULL_TREE to unwind from walk_tree signalling that
454 we have a duplicate. */
463 /* Find the single DECL of pointer type in the tree T, used directly
464 rather than via an indirection, and return it. If there are zero
465 or more than one such DECLs, return NULL. */
468 find_single_pointer_decl (tree t
)
470 tree decl
= NULL_TREE
;
472 if (walk_tree (&t
, find_single_pointer_decl_1
, &decl
, NULL
))
474 /* find_single_pointer_decl_1 returns a nonzero value, causing
475 walk_tree to return a nonzero value, to indicate that it
476 found more than one pointer DECL or that it found an
484 /* Create a new temporary name with PREFIX. Returns an identifier. */
486 static GTY(()) unsigned int tmp_var_id_num
;
489 create_tmp_var_name (const char *prefix
)
495 char *preftmp
= ASTRDUP (prefix
);
497 remove_suffix (preftmp
, strlen (preftmp
));
501 ASM_FORMAT_PRIVATE_NAME (tmp_name
, prefix
? prefix
: "T", tmp_var_id_num
++);
502 return get_identifier (tmp_name
);
506 /* Create a new temporary variable declaration of type TYPE.
507 Does NOT push it into the current binding. */
510 create_tmp_var_raw (tree type
, const char *prefix
)
515 /* Make the type of the variable writable. */
516 new_type
= build_type_variant (type
, 0, 0);
517 TYPE_ATTRIBUTES (new_type
) = TYPE_ATTRIBUTES (type
);
519 tmp_var
= build_decl (VAR_DECL
, prefix
? create_tmp_var_name (prefix
) : NULL
,
522 /* The variable was declared by the compiler. */
523 DECL_ARTIFICIAL (tmp_var
) = 1;
524 /* And we don't want debug info for it. */
525 DECL_IGNORED_P (tmp_var
) = 1;
527 /* Make the variable writable. */
528 TREE_READONLY (tmp_var
) = 0;
530 DECL_EXTERNAL (tmp_var
) = 0;
531 TREE_STATIC (tmp_var
) = 0;
532 TREE_USED (tmp_var
) = 1;
537 /* Create a new temporary variable declaration of type TYPE. DOES push the
538 variable into the current binding. Further, assume that this is called
539 only from gimplification or optimization, at which point the creation of
540 certain types are bugs. */
543 create_tmp_var (tree type
, const char *prefix
)
547 /* We don't allow types that are addressable (meaning we can't make copies),
548 or incomplete. We also used to reject every variable size objects here,
549 but now support those for which a constant upper bound can be obtained.
550 The processing for variable sizes is performed in gimple_add_tmp_var,
551 point at which it really matters and possibly reached via paths not going
552 through this function, e.g. after direct calls to create_tmp_var_raw. */
553 gcc_assert (!TREE_ADDRESSABLE (type
) && COMPLETE_TYPE_P (type
));
555 tmp_var
= create_tmp_var_raw (type
, prefix
);
556 gimple_add_tmp_var (tmp_var
);
560 /* Create a temporary with a name derived from VAL. Subroutine of
561 lookup_tmp_var; nobody else should call this function. */
564 create_tmp_from_val (tree val
)
566 return create_tmp_var (TREE_TYPE (val
), get_name (val
));
569 /* Create a temporary to hold the value of VAL. If IS_FORMAL, try to reuse
570 an existing expression temporary. */
573 lookup_tmp_var (tree val
, bool is_formal
)
577 /* If not optimizing, never really reuse a temporary. local-alloc
578 won't allocate any variable that is used in more than one basic
579 block, which means it will go into memory, causing much extra
580 work in reload and final and poorer code generation, outweighing
581 the extra memory allocation here. */
582 if (!optimize
|| !is_formal
|| TREE_SIDE_EFFECTS (val
))
583 ret
= create_tmp_from_val (val
);
590 if (gimplify_ctxp
->temp_htab
== NULL
)
591 gimplify_ctxp
->temp_htab
592 = htab_create (1000, gimple_tree_hash
, gimple_tree_eq
, free
);
593 slot
= htab_find_slot (gimplify_ctxp
->temp_htab
, (void *)&elt
, INSERT
);
596 elt_p
= XNEW (elt_t
);
598 elt_p
->temp
= ret
= create_tmp_from_val (val
);
599 *slot
= (void *) elt_p
;
603 elt_p
= (elt_t
*) *slot
;
612 /* Return true if T is a CALL_EXPR or an expression that can be
613 assignmed to a temporary. Note that this predicate should only be
614 used during gimplification. See the rationale for this in
615 gimplify_modify_expr. */
618 is_gimple_reg_rhs_or_call (tree t
)
620 return (get_gimple_rhs_class (TREE_CODE (t
)) != GIMPLE_INVALID_RHS
621 || TREE_CODE (t
) == CALL_EXPR
);
624 /* Return true if T is a valid memory RHS or a CALL_EXPR. Note that
625 this predicate should only be used during gimplification. See the
626 rationale for this in gimplify_modify_expr. */
629 is_gimple_mem_rhs_or_call (tree t
)
631 /* If we're dealing with a renamable type, either source or dest must be
632 a renamed variable. */
633 if (is_gimple_reg_type (TREE_TYPE (t
)))
634 return is_gimple_val (t
);
636 return (is_gimple_val (t
) || is_gimple_lvalue (t
)
637 || TREE_CODE (t
) == CALL_EXPR
);
640 /* Helper for get_formal_tmp_var and get_initialized_tmp_var. */
643 internal_get_tmp_var (tree val
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
648 /* Notice that we explicitly allow VAL to be a CALL_EXPR so that we
649 can create an INIT_EXPR and convert it into a GIMPLE_CALL below. */
650 gimplify_expr (&val
, pre_p
, post_p
, is_gimple_reg_rhs_or_call
,
653 t
= lookup_tmp_var (val
, is_formal
);
657 tree u
= find_single_pointer_decl (val
);
659 if (u
&& TREE_CODE (u
) == VAR_DECL
&& DECL_BASED_ON_RESTRICT_P (u
))
660 u
= DECL_GET_RESTRICT_BASE (u
);
661 if (u
&& TYPE_RESTRICT (TREE_TYPE (u
)))
663 if (DECL_BASED_ON_RESTRICT_P (t
))
664 gcc_assert (u
== DECL_GET_RESTRICT_BASE (t
));
667 DECL_BASED_ON_RESTRICT_P (t
) = 1;
668 SET_DECL_RESTRICT_BASE (t
, u
);
672 if (TREE_CODE (TREE_TYPE (t
)) == COMPLEX_TYPE
673 || TREE_CODE (TREE_TYPE (t
)) == VECTOR_TYPE
)
674 DECL_GIMPLE_REG_P (t
) = 1;
677 mod
= build2 (INIT_EXPR
, TREE_TYPE (t
), t
, unshare_expr (val
));
679 if (EXPR_HAS_LOCATION (val
))
680 SET_EXPR_LOCUS (mod
, EXPR_LOCUS (val
));
682 SET_EXPR_LOCATION (mod
, input_location
);
684 /* gimplify_modify_expr might want to reduce this further. */
685 gimplify_and_add (mod
, pre_p
);
688 /* If we're gimplifying into ssa, gimplify_modify_expr will have
689 given our temporary an SSA name. Find and return it. */
690 if (gimplify_ctxp
->into_ssa
)
692 gimple last
= gimple_seq_last_stmt (*pre_p
);
693 t
= gimple_get_lhs (last
);
699 /* Returns a formal temporary variable initialized with VAL. PRE_P is as
700 in gimplify_expr. Only use this function if:
702 1) The value of the unfactored expression represented by VAL will not
703 change between the initialization and use of the temporary, and
704 2) The temporary will not be otherwise modified.
706 For instance, #1 means that this is inappropriate for SAVE_EXPR temps,
707 and #2 means it is inappropriate for && temps.
709 For other cases, use get_initialized_tmp_var instead. */
712 get_formal_tmp_var (tree val
, gimple_seq
*pre_p
)
714 return internal_get_tmp_var (val
, pre_p
, NULL
, true);
717 /* Returns a temporary variable initialized with VAL. PRE_P and POST_P
718 are as in gimplify_expr. */
721 get_initialized_tmp_var (tree val
, gimple_seq
*pre_p
, gimple_seq
*post_p
)
723 return internal_get_tmp_var (val
, pre_p
, post_p
, false);
726 /* Declares all the variables in VARS in SCOPE. If DEBUG_INFO is
727 true, generate debug info for them; otherwise don't. */
730 declare_vars (tree vars
, gimple scope
, bool debug_info
)
737 gcc_assert (gimple_code (scope
) == GIMPLE_BIND
);
739 temps
= nreverse (last
);
741 block
= gimple_bind_block (scope
);
742 gcc_assert (!block
|| TREE_CODE (block
) == BLOCK
);
743 if (!block
|| !debug_info
)
745 TREE_CHAIN (last
) = gimple_bind_vars (scope
);
746 gimple_bind_set_vars (scope
, temps
);
750 /* We need to attach the nodes both to the BIND_EXPR and to its
751 associated BLOCK for debugging purposes. The key point here
752 is that the BLOCK_VARS of the BIND_EXPR_BLOCK of a BIND_EXPR
753 is a subchain of the BIND_EXPR_VARS of the BIND_EXPR. */
754 if (BLOCK_VARS (block
))
755 BLOCK_VARS (block
) = chainon (BLOCK_VARS (block
), temps
);
758 gimple_bind_set_vars (scope
,
759 chainon (gimple_bind_vars (scope
), temps
));
760 BLOCK_VARS (block
) = temps
;
766 /* For VAR a VAR_DECL of variable size, try to find a constant upper bound
767 for the size and adjust DECL_SIZE/DECL_SIZE_UNIT accordingly. Abort if
768 no such upper bound can be obtained. */
771 force_constant_size (tree var
)
773 /* The only attempt we make is by querying the maximum size of objects
774 of the variable's type. */
776 HOST_WIDE_INT max_size
;
778 gcc_assert (TREE_CODE (var
) == VAR_DECL
);
780 max_size
= max_int_size_in_bytes (TREE_TYPE (var
));
782 gcc_assert (max_size
>= 0);
785 = build_int_cst (TREE_TYPE (DECL_SIZE_UNIT (var
)), max_size
);
787 = build_int_cst (TREE_TYPE (DECL_SIZE (var
)), max_size
* BITS_PER_UNIT
);
791 gimple_add_tmp_var (tree tmp
)
793 gcc_assert (!TREE_CHAIN (tmp
) && !DECL_SEEN_IN_BIND_EXPR_P (tmp
));
795 /* Later processing assumes that the object size is constant, which might
796 not be true at this point. Force the use of a constant upper bound in
798 if (!host_integerp (DECL_SIZE_UNIT (tmp
), 1))
799 force_constant_size (tmp
);
801 DECL_CONTEXT (tmp
) = current_function_decl
;
802 DECL_SEEN_IN_BIND_EXPR_P (tmp
) = 1;
806 TREE_CHAIN (tmp
) = gimplify_ctxp
->temps
;
807 gimplify_ctxp
->temps
= tmp
;
809 /* Mark temporaries local within the nearest enclosing parallel. */
810 if (gimplify_omp_ctxp
)
812 struct gimplify_omp_ctx
*ctx
= gimplify_omp_ctxp
;
813 while (ctx
&& ctx
->region_type
== ORT_WORKSHARE
)
814 ctx
= ctx
->outer_context
;
816 omp_add_variable (ctx
, tmp
, GOVD_LOCAL
| GOVD_SEEN
);
825 /* This case is for nested functions. We need to expose the locals
827 body_seq
= gimple_body (current_function_decl
);
828 declare_vars (tmp
, gimple_seq_first_stmt (body_seq
), false);
832 /* Determines whether to assign a location to the statement GS. */
835 should_carry_location_p (gimple gs
)
837 /* Don't emit a line note for a label. We particularly don't want to
838 emit one for the break label, since it doesn't actually correspond
839 to the beginning of the loop/switch. */
840 if (gimple_code (gs
) == GIMPLE_LABEL
)
846 /* Same, but for a tree. */
849 tree_should_carry_location_p (const_tree stmt
)
851 /* Don't emit a line note for a label. We particularly don't want to
852 emit one for the break label, since it doesn't actually correspond
853 to the beginning of the loop/switch. */
854 if (TREE_CODE (stmt
) == LABEL_EXPR
)
857 /* Do not annotate empty statements, since it confuses gcov. */
858 if (!TREE_SIDE_EFFECTS (stmt
))
864 /* Return true if a location should not be emitted for this statement
865 by annotate_one_with_location. */
868 gimple_do_not_emit_location_p (gimple g
)
870 return gimple_plf (g
, GF_PLF_1
);
873 /* Mark statement G so a location will not be emitted by
874 annotate_one_with_location. */
877 gimple_set_do_not_emit_location (gimple g
)
879 /* The PLF flags are initialized to 0 when a new tuple is created,
880 so no need to initialize it anywhere. */
881 gimple_set_plf (g
, GF_PLF_1
, true);
884 /* Set the location for gimple statement GS to LOCUS. */
887 annotate_one_with_location (gimple gs
, location_t location
)
889 if (!gimple_has_location (gs
)
890 && !gimple_do_not_emit_location_p (gs
)
891 && should_carry_location_p (gs
))
892 gimple_set_location (gs
, location
);
895 /* Same, but for tree T. */
898 tree_annotate_one_with_location (tree t
, location_t location
)
900 if (CAN_HAVE_LOCATION_P (t
)
901 && ! EXPR_HAS_LOCATION (t
) && tree_should_carry_location_p (t
))
902 SET_EXPR_LOCATION (t
, location
);
906 /* Set LOCATION for all the statements after iterator GSI in sequence
907 SEQ. If GSI is pointing to the end of the sequence, start with the
908 first statement in SEQ. */
911 annotate_all_with_location_after (gimple_seq seq
, gimple_stmt_iterator gsi
,
915 gsi
= gsi_start (seq
);
919 for (; !gsi_end_p (gsi
); gsi_next (&gsi
))
920 annotate_one_with_location (gsi_stmt (gsi
), location
);
924 /* Set the location for all the statements in a sequence STMT_P to LOCUS. */
927 annotate_all_with_location (gimple_seq stmt_p
, location_t location
)
929 gimple_stmt_iterator i
;
931 if (gimple_seq_empty_p (stmt_p
))
934 for (i
= gsi_start (stmt_p
); !gsi_end_p (i
); gsi_next (&i
))
936 gimple gs
= gsi_stmt (i
);
937 annotate_one_with_location (gs
, location
);
941 /* Same, but for statement or statement list in *STMT_P. */
944 tree_annotate_all_with_location (tree
*stmt_p
, location_t location
)
946 tree_stmt_iterator i
;
951 for (i
= tsi_start (*stmt_p
); !tsi_end_p (i
); tsi_next (&i
))
953 tree t
= tsi_stmt (i
);
955 /* Assuming we've already been gimplified, we shouldn't
956 see nested chaining constructs anymore. */
957 gcc_assert (TREE_CODE (t
) != STATEMENT_LIST
958 && TREE_CODE (t
) != COMPOUND_EXPR
);
960 tree_annotate_one_with_location (t
, location
);
965 /* Similar to copy_tree_r() but do not copy SAVE_EXPR or TARGET_EXPR nodes.
966 These nodes model computations that should only be done once. If we
967 were to unshare something like SAVE_EXPR(i++), the gimplification
968 process would create wrong code. */
971 mostly_copy_tree_r (tree
*tp
, int *walk_subtrees
, void *data
)
973 enum tree_code code
= TREE_CODE (*tp
);
974 /* Don't unshare types, decls, constants and SAVE_EXPR nodes. */
975 if (TREE_CODE_CLASS (code
) == tcc_type
976 || TREE_CODE_CLASS (code
) == tcc_declaration
977 || TREE_CODE_CLASS (code
) == tcc_constant
978 || code
== SAVE_EXPR
|| code
== TARGET_EXPR
979 /* We can't do anything sensible with a BLOCK used as an expression,
980 but we also can't just die when we see it because of non-expression
981 uses. So just avert our eyes and cross our fingers. Silly Java. */
986 gcc_assert (code
!= BIND_EXPR
);
987 copy_tree_r (tp
, walk_subtrees
, data
);
993 /* Callback for walk_tree to unshare most of the shared trees rooted at
994 *TP. If *TP has been visited already (i.e., TREE_VISITED (*TP) == 1),
995 then *TP is deep copied by calling copy_tree_r.
997 This unshares the same trees as copy_tree_r with the exception of
998 SAVE_EXPR nodes. These nodes model computations that should only be
999 done once. If we were to unshare something like SAVE_EXPR(i++), the
1000 gimplification process would create wrong code. */
1003 copy_if_shared_r (tree
*tp
, int *walk_subtrees ATTRIBUTE_UNUSED
,
1004 void *data ATTRIBUTE_UNUSED
)
1007 enum tree_code code
= TREE_CODE (t
);
1009 /* Skip types, decls, and constants. But we do want to look at their
1010 types and the bounds of types. Mark them as visited so we properly
1011 unmark their subtrees on the unmark pass. If we've already seen them,
1012 don't look down further. */
1013 if (TREE_CODE_CLASS (code
) == tcc_type
1014 || TREE_CODE_CLASS (code
) == tcc_declaration
1015 || TREE_CODE_CLASS (code
) == tcc_constant
)
1017 if (TREE_VISITED (t
))
1020 TREE_VISITED (t
) = 1;
1023 /* If this node has been visited already, unshare it and don't look
1025 else if (TREE_VISITED (t
))
1027 walk_tree (tp
, mostly_copy_tree_r
, NULL
, NULL
);
1031 /* Otherwise, mark the tree as visited and keep looking. */
1033 TREE_VISITED (t
) = 1;
1039 unmark_visited_r (tree
*tp
, int *walk_subtrees ATTRIBUTE_UNUSED
,
1040 void *data ATTRIBUTE_UNUSED
)
1042 if (TREE_VISITED (*tp
))
1043 TREE_VISITED (*tp
) = 0;
1050 /* Unshare all the trees in BODY_P, a pointer into the body of FNDECL, and the
1051 bodies of any nested functions if we are unsharing the entire body of
1055 unshare_body (tree
*body_p
, tree fndecl
)
1057 struct cgraph_node
*cgn
= cgraph_node (fndecl
);
1059 walk_tree (body_p
, copy_if_shared_r
, NULL
, NULL
);
1060 if (body_p
== &DECL_SAVED_TREE (fndecl
))
1061 for (cgn
= cgn
->nested
; cgn
; cgn
= cgn
->next_nested
)
1062 unshare_body (&DECL_SAVED_TREE (cgn
->decl
), cgn
->decl
);
1065 /* Likewise, but mark all trees as not visited. */
1068 unvisit_body (tree
*body_p
, tree fndecl
)
1070 struct cgraph_node
*cgn
= cgraph_node (fndecl
);
1072 walk_tree (body_p
, unmark_visited_r
, NULL
, NULL
);
1073 if (body_p
== &DECL_SAVED_TREE (fndecl
))
1074 for (cgn
= cgn
->nested
; cgn
; cgn
= cgn
->next_nested
)
1075 unvisit_body (&DECL_SAVED_TREE (cgn
->decl
), cgn
->decl
);
1078 /* Unconditionally make an unshared copy of EXPR. This is used when using
1079 stored expressions which span multiple functions, such as BINFO_VTABLE,
1080 as the normal unsharing process can't tell that they're shared. */
1083 unshare_expr (tree expr
)
1085 walk_tree (&expr
, mostly_copy_tree_r
, NULL
, NULL
);
1089 /* WRAPPER is a code such as BIND_EXPR or CLEANUP_POINT_EXPR which can both
1090 contain statements and have a value. Assign its value to a temporary
1091 and give it void_type_node. Returns the temporary, or NULL_TREE if
1092 WRAPPER was already void. */
1095 voidify_wrapper_expr (tree wrapper
, tree temp
)
1097 tree type
= TREE_TYPE (wrapper
);
1098 if (type
&& !VOID_TYPE_P (type
))
1102 /* Set p to point to the body of the wrapper. Loop until we find
1103 something that isn't a wrapper. */
1104 for (p
= &wrapper
; p
&& *p
; )
1106 switch (TREE_CODE (*p
))
1109 TREE_SIDE_EFFECTS (*p
) = 1;
1110 TREE_TYPE (*p
) = void_type_node
;
1111 /* For a BIND_EXPR, the body is operand 1. */
1112 p
= &BIND_EXPR_BODY (*p
);
1115 case CLEANUP_POINT_EXPR
:
1116 case TRY_FINALLY_EXPR
:
1117 case TRY_CATCH_EXPR
:
1118 TREE_SIDE_EFFECTS (*p
) = 1;
1119 TREE_TYPE (*p
) = void_type_node
;
1120 p
= &TREE_OPERAND (*p
, 0);
1123 case STATEMENT_LIST
:
1125 tree_stmt_iterator i
= tsi_last (*p
);
1126 TREE_SIDE_EFFECTS (*p
) = 1;
1127 TREE_TYPE (*p
) = void_type_node
;
1128 p
= tsi_end_p (i
) ? NULL
: tsi_stmt_ptr (i
);
1133 /* Advance to the last statement. Set all container types to void. */
1134 for (; TREE_CODE (*p
) == COMPOUND_EXPR
; p
= &TREE_OPERAND (*p
, 1))
1136 TREE_SIDE_EFFECTS (*p
) = 1;
1137 TREE_TYPE (*p
) = void_type_node
;
1147 if (p
== NULL
|| IS_EMPTY_STMT (*p
))
1151 /* The wrapper is on the RHS of an assignment that we're pushing
1153 gcc_assert (TREE_CODE (temp
) == INIT_EXPR
1154 || TREE_CODE (temp
) == MODIFY_EXPR
);
1155 TREE_OPERAND (temp
, 1) = *p
;
1160 temp
= create_tmp_var (type
, "retval");
1161 *p
= build2 (INIT_EXPR
, type
, temp
, *p
);
1170 /* Prepare calls to builtins to SAVE and RESTORE the stack as well as
1171 a temporary through which they communicate. */
1174 build_stack_save_restore (gimple
*save
, gimple
*restore
)
1178 *save
= gimple_build_call (implicit_built_in_decls
[BUILT_IN_STACK_SAVE
], 0);
1179 tmp_var
= create_tmp_var (ptr_type_node
, "saved_stack");
1180 gimple_call_set_lhs (*save
, tmp_var
);
1182 *restore
= gimple_build_call (implicit_built_in_decls
[BUILT_IN_STACK_RESTORE
],
1186 /* Gimplify a BIND_EXPR. Just voidify and recurse. */
1188 static enum gimplify_status
1189 gimplify_bind_expr (tree
*expr_p
, gimple_seq
*pre_p
)
1191 tree bind_expr
= *expr_p
;
1192 bool old_save_stack
= gimplify_ctxp
->save_stack
;
1197 tree temp
= voidify_wrapper_expr (bind_expr
, NULL
);
1199 /* Mark variables seen in this bind expr. */
1200 for (t
= BIND_EXPR_VARS (bind_expr
); t
; t
= TREE_CHAIN (t
))
1202 if (TREE_CODE (t
) == VAR_DECL
)
1204 struct gimplify_omp_ctx
*ctx
= gimplify_omp_ctxp
;
1206 /* Mark variable as local. */
1207 if (ctx
&& !is_global_var (t
)
1208 && (! DECL_SEEN_IN_BIND_EXPR_P (t
)
1209 || splay_tree_lookup (ctx
->variables
,
1210 (splay_tree_key
) t
) == NULL
))
1211 omp_add_variable (gimplify_omp_ctxp
, t
, GOVD_LOCAL
| GOVD_SEEN
);
1213 DECL_SEEN_IN_BIND_EXPR_P (t
) = 1;
1215 if (DECL_HARD_REGISTER (t
) && !is_global_var (t
) && cfun
)
1216 cfun
->has_local_explicit_reg_vars
= true;
1219 /* Preliminarily mark non-addressed complex variables as eligible
1220 for promotion to gimple registers. We'll transform their uses
1222 We exclude complex types if not optimizing because they can be
1223 subject to partial stores in GNU C by means of the __real__ and
1224 __imag__ operators and we cannot promote them to total stores
1225 (see gimplify_modify_expr_complex_part). */
1227 && (TREE_CODE (TREE_TYPE (t
)) == COMPLEX_TYPE
1228 || TREE_CODE (TREE_TYPE (t
)) == VECTOR_TYPE
)
1229 && !TREE_THIS_VOLATILE (t
)
1230 && (TREE_CODE (t
) == VAR_DECL
&& !DECL_HARD_REGISTER (t
))
1231 && !needs_to_live_in_memory (t
))
1232 DECL_GIMPLE_REG_P (t
) = 1;
1235 gimple_bind
= gimple_build_bind (BIND_EXPR_VARS (bind_expr
), NULL
,
1236 BIND_EXPR_BLOCK (bind_expr
));
1237 gimple_push_bind_expr (gimple_bind
);
1239 gimplify_ctxp
->save_stack
= false;
1241 /* Gimplify the body into the GIMPLE_BIND tuple's body. */
1243 gimplify_stmt (&BIND_EXPR_BODY (bind_expr
), &body
);
1244 gimple_bind_set_body (gimple_bind
, body
);
1246 if (gimplify_ctxp
->save_stack
)
1248 gimple stack_save
, stack_restore
, gs
;
1249 gimple_seq cleanup
, new_body
;
1251 /* Save stack on entry and restore it on exit. Add a try_finally
1252 block to achieve this. Note that mudflap depends on the
1253 format of the emitted code: see mx_register_decls(). */
1254 build_stack_save_restore (&stack_save
, &stack_restore
);
1256 cleanup
= new_body
= NULL
;
1257 gimplify_seq_add_stmt (&cleanup
, stack_restore
);
1258 gs
= gimple_build_try (gimple_bind_body (gimple_bind
), cleanup
,
1259 GIMPLE_TRY_FINALLY
);
1261 gimplify_seq_add_stmt (&new_body
, stack_save
);
1262 gimplify_seq_add_stmt (&new_body
, gs
);
1263 gimple_bind_set_body (gimple_bind
, new_body
);
1266 gimplify_ctxp
->save_stack
= old_save_stack
;
1267 gimple_pop_bind_expr ();
1269 gimplify_seq_add_stmt (pre_p
, gimple_bind
);
1277 *expr_p
= NULL_TREE
;
1281 /* Gimplify a RETURN_EXPR. If the expression to be returned is not a
1282 GIMPLE value, it is assigned to a new temporary and the statement is
1283 re-written to return the temporary.
1285 PRE_P points to the sequence where side effects that must happen before
1286 STMT should be stored. */
1288 static enum gimplify_status
1289 gimplify_return_expr (tree stmt
, gimple_seq
*pre_p
)
1292 tree ret_expr
= TREE_OPERAND (stmt
, 0);
1293 tree result_decl
, result
;
1295 if (ret_expr
== error_mark_node
)
1299 || TREE_CODE (ret_expr
) == RESULT_DECL
1300 || ret_expr
== error_mark_node
)
1302 gimple ret
= gimple_build_return (ret_expr
);
1303 gimple_set_no_warning (ret
, TREE_NO_WARNING (stmt
));
1304 gimplify_seq_add_stmt (pre_p
, ret
);
1308 if (VOID_TYPE_P (TREE_TYPE (TREE_TYPE (current_function_decl
))))
1309 result_decl
= NULL_TREE
;
1312 result_decl
= TREE_OPERAND (ret_expr
, 0);
1314 /* See through a return by reference. */
1315 if (TREE_CODE (result_decl
) == INDIRECT_REF
)
1316 result_decl
= TREE_OPERAND (result_decl
, 0);
1318 gcc_assert ((TREE_CODE (ret_expr
) == MODIFY_EXPR
1319 || TREE_CODE (ret_expr
) == INIT_EXPR
)
1320 && TREE_CODE (result_decl
) == RESULT_DECL
);
1323 /* If aggregate_value_p is true, then we can return the bare RESULT_DECL.
1324 Recall that aggregate_value_p is FALSE for any aggregate type that is
1325 returned in registers. If we're returning values in registers, then
1326 we don't want to extend the lifetime of the RESULT_DECL, particularly
1327 across another call. In addition, for those aggregates for which
1328 hard_function_value generates a PARALLEL, we'll die during normal
1329 expansion of structure assignments; there's special code in expand_return
1330 to handle this case that does not exist in expand_expr. */
1332 || aggregate_value_p (result_decl
, TREE_TYPE (current_function_decl
)))
1333 result
= result_decl
;
1334 else if (gimplify_ctxp
->return_temp
)
1335 result
= gimplify_ctxp
->return_temp
;
1338 result
= create_tmp_var (TREE_TYPE (result_decl
), NULL
);
1339 if (TREE_CODE (TREE_TYPE (result
)) == COMPLEX_TYPE
1340 || TREE_CODE (TREE_TYPE (result
)) == VECTOR_TYPE
)
1341 DECL_GIMPLE_REG_P (result
) = 1;
1343 /* ??? With complex control flow (usually involving abnormal edges),
1344 we can wind up warning about an uninitialized value for this. Due
1345 to how this variable is constructed and initialized, this is never
1346 true. Give up and never warn. */
1347 TREE_NO_WARNING (result
) = 1;
1349 gimplify_ctxp
->return_temp
= result
;
1352 /* Smash the lhs of the MODIFY_EXPR to the temporary we plan to use.
1353 Then gimplify the whole thing. */
1354 if (result
!= result_decl
)
1355 TREE_OPERAND (ret_expr
, 0) = result
;
1357 gimplify_and_add (TREE_OPERAND (stmt
, 0), pre_p
);
1359 ret
= gimple_build_return (result
);
1360 gimple_set_no_warning (ret
, TREE_NO_WARNING (stmt
));
1361 gimplify_seq_add_stmt (pre_p
, ret
);
1367 gimplify_vla_decl (tree decl
, gimple_seq
*seq_p
)
1369 /* This is a variable-sized decl. Simplify its size and mark it
1370 for deferred expansion. Note that mudflap depends on the format
1371 of the emitted code: see mx_register_decls(). */
1372 tree t
, addr
, ptr_type
;
1374 gimplify_one_sizepos (&DECL_SIZE (decl
), seq_p
);
1375 gimplify_one_sizepos (&DECL_SIZE_UNIT (decl
), seq_p
);
1377 /* All occurrences of this decl in final gimplified code will be
1378 replaced by indirection. Setting DECL_VALUE_EXPR does two
1379 things: First, it lets the rest of the gimplifier know what
1380 replacement to use. Second, it lets the debug info know
1381 where to find the value. */
1382 ptr_type
= build_pointer_type (TREE_TYPE (decl
));
1383 addr
= create_tmp_var (ptr_type
, get_name (decl
));
1384 DECL_IGNORED_P (addr
) = 0;
1385 t
= build_fold_indirect_ref (addr
);
1386 SET_DECL_VALUE_EXPR (decl
, t
);
1387 DECL_HAS_VALUE_EXPR_P (decl
) = 1;
1389 t
= built_in_decls
[BUILT_IN_ALLOCA
];
1390 t
= build_call_expr (t
, 1, DECL_SIZE_UNIT (decl
));
1391 t
= fold_convert (ptr_type
, t
);
1392 t
= build2 (MODIFY_EXPR
, TREE_TYPE (addr
), addr
, t
);
1394 gimplify_and_add (t
, seq_p
);
1396 /* Indicate that we need to restore the stack level when the
1397 enclosing BIND_EXPR is exited. */
1398 gimplify_ctxp
->save_stack
= true;
1402 /* Gimplifies a DECL_EXPR node *STMT_P by making any necessary allocation
1403 and initialization explicit. */
1405 static enum gimplify_status
1406 gimplify_decl_expr (tree
*stmt_p
, gimple_seq
*seq_p
)
1408 tree stmt
= *stmt_p
;
1409 tree decl
= DECL_EXPR_DECL (stmt
);
1411 *stmt_p
= NULL_TREE
;
1413 if (TREE_TYPE (decl
) == error_mark_node
)
1416 if ((TREE_CODE (decl
) == TYPE_DECL
1417 || TREE_CODE (decl
) == VAR_DECL
)
1418 && !TYPE_SIZES_GIMPLIFIED (TREE_TYPE (decl
)))
1419 gimplify_type_sizes (TREE_TYPE (decl
), seq_p
);
1421 if (TREE_CODE (decl
) == VAR_DECL
&& !DECL_EXTERNAL (decl
))
1423 tree init
= DECL_INITIAL (decl
);
1425 if (TREE_CODE (DECL_SIZE_UNIT (decl
)) != INTEGER_CST
1426 || (!TREE_STATIC (decl
)
1427 && flag_stack_check
== GENERIC_STACK_CHECK
1428 && compare_tree_int (DECL_SIZE_UNIT (decl
),
1429 STACK_CHECK_MAX_VAR_SIZE
) > 0))
1430 gimplify_vla_decl (decl
, seq_p
);
1432 if (init
&& init
!= error_mark_node
)
1434 if (!TREE_STATIC (decl
))
1436 DECL_INITIAL (decl
) = NULL_TREE
;
1437 init
= build2 (INIT_EXPR
, void_type_node
, decl
, init
);
1438 gimplify_and_add (init
, seq_p
);
1442 /* We must still examine initializers for static variables
1443 as they may contain a label address. */
1444 walk_tree (&init
, force_labels_r
, NULL
, NULL
);
1447 /* Some front ends do not explicitly declare all anonymous
1448 artificial variables. We compensate here by declaring the
1449 variables, though it would be better if the front ends would
1450 explicitly declare them. */
1451 if (!DECL_SEEN_IN_BIND_EXPR_P (decl
)
1452 && DECL_ARTIFICIAL (decl
) && DECL_NAME (decl
) == NULL_TREE
)
1453 gimple_add_tmp_var (decl
);
1459 /* Gimplify a LOOP_EXPR. Normally this just involves gimplifying the body
1460 and replacing the LOOP_EXPR with goto, but if the loop contains an
1461 EXIT_EXPR, we need to append a label for it to jump to. */
1463 static enum gimplify_status
1464 gimplify_loop_expr (tree
*expr_p
, gimple_seq
*pre_p
)
1466 tree saved_label
= gimplify_ctxp
->exit_label
;
1467 tree start_label
= create_artificial_label ();
1469 gimplify_seq_add_stmt (pre_p
, gimple_build_label (start_label
));
1471 gimplify_ctxp
->exit_label
= NULL_TREE
;
1473 gimplify_and_add (LOOP_EXPR_BODY (*expr_p
), pre_p
);
1475 gimplify_seq_add_stmt (pre_p
, gimple_build_goto (start_label
));
1477 if (gimplify_ctxp
->exit_label
)
1478 gimplify_seq_add_stmt (pre_p
, gimple_build_label (gimplify_ctxp
->exit_label
));
1480 gimplify_ctxp
->exit_label
= saved_label
;
1486 /* Gimplifies a statement list onto a sequence. These may be created either
1487 by an enlightened front-end, or by shortcut_cond_expr. */
1489 static enum gimplify_status
1490 gimplify_statement_list (tree
*expr_p
, gimple_seq
*pre_p
)
1492 tree temp
= voidify_wrapper_expr (*expr_p
, NULL
);
1494 tree_stmt_iterator i
= tsi_start (*expr_p
);
1496 while (!tsi_end_p (i
))
1498 gimplify_stmt (tsi_stmt_ptr (i
), pre_p
);
1511 /* Compare two case labels. Because the front end should already have
1512 made sure that case ranges do not overlap, it is enough to only compare
1513 the CASE_LOW values of each case label. */
1516 compare_case_labels (const void *p1
, const void *p2
)
1518 const_tree
const case1
= *(const_tree
const*)p1
;
1519 const_tree
const case2
= *(const_tree
const*)p2
;
1521 /* The 'default' case label always goes first. */
1522 if (!CASE_LOW (case1
))
1524 else if (!CASE_LOW (case2
))
1527 return tree_int_cst_compare (CASE_LOW (case1
), CASE_LOW (case2
));
1531 /* Sort the case labels in LABEL_VEC in place in ascending order. */
1534 sort_case_labels (VEC(tree
,heap
)* label_vec
)
1536 size_t len
= VEC_length (tree
, label_vec
);
1537 qsort (VEC_address (tree
, label_vec
), len
, sizeof (tree
),
1538 compare_case_labels
);
1542 /* Gimplify a SWITCH_EXPR, and collect a TREE_VEC of the labels it can
1545 static enum gimplify_status
1546 gimplify_switch_expr (tree
*expr_p
, gimple_seq
*pre_p
)
1548 tree switch_expr
= *expr_p
;
1549 gimple_seq switch_body_seq
= NULL
;
1550 enum gimplify_status ret
;
1552 ret
= gimplify_expr (&SWITCH_COND (switch_expr
), pre_p
, NULL
, is_gimple_val
,
1554 if (ret
== GS_ERROR
|| ret
== GS_UNHANDLED
)
1557 if (SWITCH_BODY (switch_expr
))
1559 VEC (tree
,heap
) *labels
;
1560 VEC (tree
,heap
) *saved_labels
;
1561 tree default_case
= NULL_TREE
;
1563 gimple gimple_switch
;
1565 /* If someone can be bothered to fill in the labels, they can
1566 be bothered to null out the body too. */
1567 gcc_assert (!SWITCH_LABELS (switch_expr
));
1569 /* save old labels, get new ones from body, then restore the old
1570 labels. Save all the things from the switch body to append after. */
1571 saved_labels
= gimplify_ctxp
->case_labels
;
1572 gimplify_ctxp
->case_labels
= VEC_alloc (tree
, heap
, 8);
1574 gimplify_stmt (&SWITCH_BODY (switch_expr
), &switch_body_seq
);
1575 labels
= gimplify_ctxp
->case_labels
;
1576 gimplify_ctxp
->case_labels
= saved_labels
;
1579 while (i
< VEC_length (tree
, labels
))
1581 tree elt
= VEC_index (tree
, labels
, i
);
1582 tree low
= CASE_LOW (elt
);
1583 bool remove_element
= FALSE
;
1587 /* Discard empty ranges. */
1588 tree high
= CASE_HIGH (elt
);
1589 if (high
&& tree_int_cst_lt (high
, low
))
1590 remove_element
= TRUE
;
1594 /* The default case must be the last label in the list. */
1595 gcc_assert (!default_case
);
1597 remove_element
= TRUE
;
1601 VEC_ordered_remove (tree
, labels
, i
);
1607 if (!VEC_empty (tree
, labels
))
1608 sort_case_labels (labels
);
1612 tree type
= TREE_TYPE (switch_expr
);
1614 /* If the switch has no default label, add one, so that we jump
1615 around the switch body. If the labels already cover the whole
1616 range of type, add the default label pointing to one of the
1618 if (type
== void_type_node
)
1619 type
= TREE_TYPE (SWITCH_COND (switch_expr
));
1621 && INTEGRAL_TYPE_P (type
)
1622 && TYPE_MIN_VALUE (type
)
1623 && TYPE_MAX_VALUE (type
)
1624 && tree_int_cst_equal (CASE_LOW (VEC_index (tree
, labels
, 0)),
1625 TYPE_MIN_VALUE (type
)))
1627 tree low
, high
= CASE_HIGH (VEC_index (tree
, labels
, len
- 1));
1629 high
= CASE_LOW (VEC_index (tree
, labels
, len
- 1));
1630 if (tree_int_cst_equal (high
, TYPE_MAX_VALUE (type
)))
1632 for (i
= 1; i
< len
; i
++)
1634 high
= CASE_LOW (VEC_index (tree
, labels
, i
));
1635 low
= CASE_HIGH (VEC_index (tree
, labels
, i
- 1));
1637 low
= CASE_LOW (VEC_index (tree
, labels
, i
- 1));
1638 if ((TREE_INT_CST_LOW (low
) + 1
1639 != TREE_INT_CST_LOW (high
))
1640 || (TREE_INT_CST_HIGH (low
)
1641 + (TREE_INT_CST_LOW (high
) == 0)
1642 != TREE_INT_CST_HIGH (high
)))
1646 default_case
= build3 (CASE_LABEL_EXPR
, void_type_node
,
1647 NULL_TREE
, NULL_TREE
,
1648 CASE_LABEL (VEC_index (tree
,
1657 default_case
= build3 (CASE_LABEL_EXPR
, void_type_node
,
1658 NULL_TREE
, NULL_TREE
,
1659 create_artificial_label ());
1660 new_default
= gimple_build_label (CASE_LABEL (default_case
));
1661 gimplify_seq_add_stmt (&switch_body_seq
, new_default
);
1665 gimple_switch
= gimple_build_switch_vec (SWITCH_COND (switch_expr
),
1666 default_case
, labels
);
1667 gimplify_seq_add_stmt (pre_p
, gimple_switch
);
1668 gimplify_seq_add_seq (pre_p
, switch_body_seq
);
1669 VEC_free(tree
, heap
, labels
);
1672 gcc_assert (SWITCH_LABELS (switch_expr
));
1678 static enum gimplify_status
1679 gimplify_case_label_expr (tree
*expr_p
, gimple_seq
*pre_p
)
1681 struct gimplify_ctx
*ctxp
;
1682 gimple gimple_label
;
1684 /* Invalid OpenMP programs can play Duff's Device type games with
1685 #pragma omp parallel. At least in the C front end, we don't
1686 detect such invalid branches until after gimplification. */
1687 for (ctxp
= gimplify_ctxp
; ; ctxp
= ctxp
->prev_context
)
1688 if (ctxp
->case_labels
)
1691 gimple_label
= gimple_build_label (CASE_LABEL (*expr_p
));
1692 VEC_safe_push (tree
, heap
, ctxp
->case_labels
, *expr_p
);
1693 gimplify_seq_add_stmt (pre_p
, gimple_label
);
1698 /* Build a GOTO to the LABEL_DECL pointed to by LABEL_P, building it first
1702 build_and_jump (tree
*label_p
)
1704 if (label_p
== NULL
)
1705 /* If there's nowhere to jump, just fall through. */
1708 if (*label_p
== NULL_TREE
)
1710 tree label
= create_artificial_label ();
1714 return build1 (GOTO_EXPR
, void_type_node
, *label_p
);
1717 /* Gimplify an EXIT_EXPR by converting to a GOTO_EXPR inside a COND_EXPR.
1718 This also involves building a label to jump to and communicating it to
1719 gimplify_loop_expr through gimplify_ctxp->exit_label. */
1721 static enum gimplify_status
1722 gimplify_exit_expr (tree
*expr_p
)
1724 tree cond
= TREE_OPERAND (*expr_p
, 0);
1727 expr
= build_and_jump (&gimplify_ctxp
->exit_label
);
1728 expr
= build3 (COND_EXPR
, void_type_node
, cond
, expr
, NULL_TREE
);
1734 /* A helper function to be called via walk_tree. Mark all labels under *TP
1735 as being forced. To be called for DECL_INITIAL of static variables. */
1738 force_labels_r (tree
*tp
, int *walk_subtrees
, void *data ATTRIBUTE_UNUSED
)
1742 if (TREE_CODE (*tp
) == LABEL_DECL
)
1743 FORCED_LABEL (*tp
) = 1;
1748 /* *EXPR_P is a COMPONENT_REF being used as an rvalue. If its type is
1749 different from its canonical type, wrap the whole thing inside a
1750 NOP_EXPR and force the type of the COMPONENT_REF to be the canonical
1753 The canonical type of a COMPONENT_REF is the type of the field being
1754 referenced--unless the field is a bit-field which can be read directly
1755 in a smaller mode, in which case the canonical type is the
1756 sign-appropriate type corresponding to that mode. */
1759 canonicalize_component_ref (tree
*expr_p
)
1761 tree expr
= *expr_p
;
1764 gcc_assert (TREE_CODE (expr
) == COMPONENT_REF
);
1766 if (INTEGRAL_TYPE_P (TREE_TYPE (expr
)))
1767 type
= TREE_TYPE (get_unwidened (expr
, NULL_TREE
));
1769 type
= TREE_TYPE (TREE_OPERAND (expr
, 1));
1771 /* One could argue that all the stuff below is not necessary for
1772 the non-bitfield case and declare it a FE error if type
1773 adjustment would be needed. */
1774 if (TREE_TYPE (expr
) != type
)
1776 #ifdef ENABLE_TYPES_CHECKING
1777 tree old_type
= TREE_TYPE (expr
);
1781 /* We need to preserve qualifiers and propagate them from
1783 type_quals
= TYPE_QUALS (type
)
1784 | TYPE_QUALS (TREE_TYPE (TREE_OPERAND (expr
, 0)));
1785 if (TYPE_QUALS (type
) != type_quals
)
1786 type
= build_qualified_type (TYPE_MAIN_VARIANT (type
), type_quals
);
1788 /* Set the type of the COMPONENT_REF to the underlying type. */
1789 TREE_TYPE (expr
) = type
;
1791 #ifdef ENABLE_TYPES_CHECKING
1792 /* It is now a FE error, if the conversion from the canonical
1793 type to the original expression type is not useless. */
1794 gcc_assert (useless_type_conversion_p (old_type
, type
));
1799 /* If a NOP conversion is changing a pointer to array of foo to a pointer
1800 to foo, embed that change in the ADDR_EXPR by converting
1805 where L is the lower bound. For simplicity, only do this for constant
1807 The constraint is that the type of &array[L] is trivially convertible
1811 canonicalize_addr_expr (tree
*expr_p
)
1813 tree expr
= *expr_p
;
1814 tree addr_expr
= TREE_OPERAND (expr
, 0);
1815 tree datype
, ddatype
, pddatype
;
1817 /* We simplify only conversions from an ADDR_EXPR to a pointer type. */
1818 if (!POINTER_TYPE_P (TREE_TYPE (expr
))
1819 || TREE_CODE (addr_expr
) != ADDR_EXPR
)
1822 /* The addr_expr type should be a pointer to an array. */
1823 datype
= TREE_TYPE (TREE_TYPE (addr_expr
));
1824 if (TREE_CODE (datype
) != ARRAY_TYPE
)
1827 /* The pointer to element type shall be trivially convertible to
1828 the expression pointer type. */
1829 ddatype
= TREE_TYPE (datype
);
1830 pddatype
= build_pointer_type (ddatype
);
1831 if (!useless_type_conversion_p (pddatype
, ddatype
))
1834 /* The lower bound and element sizes must be constant. */
1835 if (!TYPE_SIZE_UNIT (ddatype
)
1836 || TREE_CODE (TYPE_SIZE_UNIT (ddatype
)) != INTEGER_CST
1837 || !TYPE_DOMAIN (datype
) || !TYPE_MIN_VALUE (TYPE_DOMAIN (datype
))
1838 || TREE_CODE (TYPE_MIN_VALUE (TYPE_DOMAIN (datype
))) != INTEGER_CST
)
1841 /* All checks succeeded. Build a new node to merge the cast. */
1842 *expr_p
= build4 (ARRAY_REF
, ddatype
, TREE_OPERAND (addr_expr
, 0),
1843 TYPE_MIN_VALUE (TYPE_DOMAIN (datype
)),
1844 NULL_TREE
, NULL_TREE
);
1845 *expr_p
= build1 (ADDR_EXPR
, pddatype
, *expr_p
);
1848 /* *EXPR_P is a NOP_EXPR or CONVERT_EXPR. Remove it and/or other conversions
1849 underneath as appropriate. */
1851 static enum gimplify_status
1852 gimplify_conversion (tree
*expr_p
)
1855 gcc_assert (CONVERT_EXPR_P (*expr_p
));
1857 /* Then strip away all but the outermost conversion. */
1858 STRIP_SIGN_NOPS (TREE_OPERAND (*expr_p
, 0));
1860 /* And remove the outermost conversion if it's useless. */
1861 if (tree_ssa_useless_type_conversion (*expr_p
))
1862 *expr_p
= TREE_OPERAND (*expr_p
, 0);
1864 /* Attempt to avoid NOP_EXPR by producing reference to a subtype.
1865 For example this fold (subclass *)&A into &A->subclass avoiding
1866 a need for statement. */
1867 if (CONVERT_EXPR_P (*expr_p
)
1868 && POINTER_TYPE_P (TREE_TYPE (*expr_p
))
1869 && POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND (*expr_p
, 0)))
1870 && (tem
= maybe_fold_offset_to_address
1871 (TREE_OPERAND (*expr_p
, 0),
1872 integer_zero_node
, TREE_TYPE (*expr_p
))) != NULL_TREE
)
1875 /* If we still have a conversion at the toplevel,
1876 then canonicalize some constructs. */
1877 if (CONVERT_EXPR_P (*expr_p
))
1879 tree sub
= TREE_OPERAND (*expr_p
, 0);
1881 /* If a NOP conversion is changing the type of a COMPONENT_REF
1882 expression, then canonicalize its type now in order to expose more
1883 redundant conversions. */
1884 if (TREE_CODE (sub
) == COMPONENT_REF
)
1885 canonicalize_component_ref (&TREE_OPERAND (*expr_p
, 0));
1887 /* If a NOP conversion is changing a pointer to array of foo
1888 to a pointer to foo, embed that change in the ADDR_EXPR. */
1889 else if (TREE_CODE (sub
) == ADDR_EXPR
)
1890 canonicalize_addr_expr (expr_p
);
1893 /* If we have a conversion to a non-register type force the
1894 use of a VIEW_CONVERT_EXPR instead. */
1895 if (!is_gimple_reg_type (TREE_TYPE (*expr_p
)))
1896 *expr_p
= fold_build1 (VIEW_CONVERT_EXPR
, TREE_TYPE (*expr_p
),
1897 TREE_OPERAND (*expr_p
, 0));
1902 /* Nonlocal VLAs seen in the current function. */
1903 static struct pointer_set_t
*nonlocal_vlas
;
1905 /* Gimplify a VAR_DECL or PARM_DECL. Returns GS_OK if we expanded a
1906 DECL_VALUE_EXPR, and it's worth re-examining things. */
1908 static enum gimplify_status
1909 gimplify_var_or_parm_decl (tree
*expr_p
)
1911 tree decl
= *expr_p
;
1913 /* ??? If this is a local variable, and it has not been seen in any
1914 outer BIND_EXPR, then it's probably the result of a duplicate
1915 declaration, for which we've already issued an error. It would
1916 be really nice if the front end wouldn't leak these at all.
1917 Currently the only known culprit is C++ destructors, as seen
1918 in g++.old-deja/g++.jason/binding.C. */
1919 if (TREE_CODE (decl
) == VAR_DECL
1920 && !DECL_SEEN_IN_BIND_EXPR_P (decl
)
1921 && !TREE_STATIC (decl
) && !DECL_EXTERNAL (decl
)
1922 && decl_function_context (decl
) == current_function_decl
)
1924 gcc_assert (errorcount
|| sorrycount
);
1928 /* When within an OpenMP context, notice uses of variables. */
1929 if (gimplify_omp_ctxp
&& omp_notice_variable (gimplify_omp_ctxp
, decl
, true))
1932 /* If the decl is an alias for another expression, substitute it now. */
1933 if (DECL_HAS_VALUE_EXPR_P (decl
))
1935 tree value_expr
= DECL_VALUE_EXPR (decl
);
1937 /* For referenced nonlocal VLAs add a decl for debugging purposes
1938 to the current function. */
1939 if (TREE_CODE (decl
) == VAR_DECL
1940 && TREE_CODE (DECL_SIZE_UNIT (decl
)) != INTEGER_CST
1941 && nonlocal_vlas
!= NULL
1942 && TREE_CODE (value_expr
) == INDIRECT_REF
1943 && TREE_CODE (TREE_OPERAND (value_expr
, 0)) == VAR_DECL
1944 && decl_function_context (decl
) != current_function_decl
)
1946 struct gimplify_omp_ctx
*ctx
= gimplify_omp_ctxp
;
1947 while (ctx
&& ctx
->region_type
== ORT_WORKSHARE
)
1948 ctx
= ctx
->outer_context
;
1949 if (!ctx
&& !pointer_set_insert (nonlocal_vlas
, decl
))
1951 tree copy
= copy_node (decl
), block
;
1953 lang_hooks
.dup_lang_specific_decl (copy
);
1954 SET_DECL_RTL (copy
, NULL_RTX
);
1955 TREE_USED (copy
) = 1;
1956 block
= DECL_INITIAL (current_function_decl
);
1957 TREE_CHAIN (copy
) = BLOCK_VARS (block
);
1958 BLOCK_VARS (block
) = copy
;
1959 SET_DECL_VALUE_EXPR (copy
, unshare_expr (value_expr
));
1960 DECL_HAS_VALUE_EXPR_P (copy
) = 1;
1964 *expr_p
= unshare_expr (value_expr
);
1972 /* Gimplify the COMPONENT_REF, ARRAY_REF, REALPART_EXPR or IMAGPART_EXPR
1976 : min_lval '[' val ']'
1978 | compound_lval '[' val ']'
1979 | compound_lval '.' ID
1981 This is not part of the original SIMPLE definition, which separates
1982 array and member references, but it seems reasonable to handle them
1983 together. Also, this way we don't run into problems with union
1984 aliasing; gcc requires that for accesses through a union to alias, the
1985 union reference must be explicit, which was not always the case when we
1986 were splitting up array and member refs.
1988 PRE_P points to the sequence where side effects that must happen before
1989 *EXPR_P should be stored.
1991 POST_P points to the sequence where side effects that must happen after
1992 *EXPR_P should be stored. */
1994 static enum gimplify_status
1995 gimplify_compound_lval (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
1996 fallback_t fallback
)
1999 VEC(tree
,heap
) *stack
;
2000 enum gimplify_status ret
= GS_OK
, tret
;
2003 /* Create a stack of the subexpressions so later we can walk them in
2004 order from inner to outer. */
2005 stack
= VEC_alloc (tree
, heap
, 10);
2007 /* We can handle anything that get_inner_reference can deal with. */
2008 for (p
= expr_p
; ; p
= &TREE_OPERAND (*p
, 0))
2011 /* Fold INDIRECT_REFs now to turn them into ARRAY_REFs. */
2012 if (TREE_CODE (*p
) == INDIRECT_REF
)
2013 *p
= fold_indirect_ref (*p
);
2015 if (handled_component_p (*p
))
2017 /* Expand DECL_VALUE_EXPR now. In some cases that may expose
2018 additional COMPONENT_REFs. */
2019 else if ((TREE_CODE (*p
) == VAR_DECL
|| TREE_CODE (*p
) == PARM_DECL
)
2020 && gimplify_var_or_parm_decl (p
) == GS_OK
)
2025 VEC_safe_push (tree
, heap
, stack
, *p
);
2028 gcc_assert (VEC_length (tree
, stack
));
2030 /* Now STACK is a stack of pointers to all the refs we've walked through
2031 and P points to the innermost expression.
2033 Java requires that we elaborated nodes in source order. That
2034 means we must gimplify the inner expression followed by each of
2035 the indices, in order. But we can't gimplify the inner
2036 expression until we deal with any variable bounds, sizes, or
2037 positions in order to deal with PLACEHOLDER_EXPRs.
2039 So we do this in three steps. First we deal with the annotations
2040 for any variables in the components, then we gimplify the base,
2041 then we gimplify any indices, from left to right. */
2042 for (i
= VEC_length (tree
, stack
) - 1; i
>= 0; i
--)
2044 tree t
= VEC_index (tree
, stack
, i
);
2046 if (TREE_CODE (t
) == ARRAY_REF
|| TREE_CODE (t
) == ARRAY_RANGE_REF
)
2048 /* Gimplify the low bound and element type size and put them into
2049 the ARRAY_REF. If these values are set, they have already been
2051 if (TREE_OPERAND (t
, 2) == NULL_TREE
)
2053 tree low
= unshare_expr (array_ref_low_bound (t
));
2054 if (!is_gimple_min_invariant (low
))
2056 TREE_OPERAND (t
, 2) = low
;
2057 tret
= gimplify_expr (&TREE_OPERAND (t
, 2), pre_p
,
2058 post_p
, is_gimple_reg
,
2060 ret
= MIN (ret
, tret
);
2064 if (!TREE_OPERAND (t
, 3))
2066 tree elmt_type
= TREE_TYPE (TREE_TYPE (TREE_OPERAND (t
, 0)));
2067 tree elmt_size
= unshare_expr (array_ref_element_size (t
));
2068 tree factor
= size_int (TYPE_ALIGN_UNIT (elmt_type
));
2070 /* Divide the element size by the alignment of the element
2072 elmt_size
= size_binop (EXACT_DIV_EXPR
, elmt_size
, factor
);
2074 if (!is_gimple_min_invariant (elmt_size
))
2076 TREE_OPERAND (t
, 3) = elmt_size
;
2077 tret
= gimplify_expr (&TREE_OPERAND (t
, 3), pre_p
,
2078 post_p
, is_gimple_reg
,
2080 ret
= MIN (ret
, tret
);
2084 else if (TREE_CODE (t
) == COMPONENT_REF
)
2086 /* Set the field offset into T and gimplify it. */
2087 if (!TREE_OPERAND (t
, 2))
2089 tree offset
= unshare_expr (component_ref_field_offset (t
));
2090 tree field
= TREE_OPERAND (t
, 1);
2092 = size_int (DECL_OFFSET_ALIGN (field
) / BITS_PER_UNIT
);
2094 /* Divide the offset by its alignment. */
2095 offset
= size_binop (EXACT_DIV_EXPR
, offset
, factor
);
2097 if (!is_gimple_min_invariant (offset
))
2099 TREE_OPERAND (t
, 2) = offset
;
2100 tret
= gimplify_expr (&TREE_OPERAND (t
, 2), pre_p
,
2101 post_p
, is_gimple_reg
,
2103 ret
= MIN (ret
, tret
);
2109 /* Step 2 is to gimplify the base expression. Make sure lvalue is set
2110 so as to match the min_lval predicate. Failure to do so may result
2111 in the creation of large aggregate temporaries. */
2112 tret
= gimplify_expr (p
, pre_p
, post_p
, is_gimple_min_lval
,
2113 fallback
| fb_lvalue
);
2114 ret
= MIN (ret
, tret
);
2116 /* And finally, the indices and operands to BIT_FIELD_REF. During this
2117 loop we also remove any useless conversions. */
2118 for (; VEC_length (tree
, stack
) > 0; )
2120 tree t
= VEC_pop (tree
, stack
);
2122 if (TREE_CODE (t
) == ARRAY_REF
|| TREE_CODE (t
) == ARRAY_RANGE_REF
)
2124 /* Gimplify the dimension. */
2125 if (!is_gimple_min_invariant (TREE_OPERAND (t
, 1)))
2127 tret
= gimplify_expr (&TREE_OPERAND (t
, 1), pre_p
, post_p
,
2128 is_gimple_val
, fb_rvalue
);
2129 ret
= MIN (ret
, tret
);
2132 else if (TREE_CODE (t
) == BIT_FIELD_REF
)
2134 tret
= gimplify_expr (&TREE_OPERAND (t
, 1), pre_p
, post_p
,
2135 is_gimple_val
, fb_rvalue
);
2136 ret
= MIN (ret
, tret
);
2137 tret
= gimplify_expr (&TREE_OPERAND (t
, 2), pre_p
, post_p
,
2138 is_gimple_val
, fb_rvalue
);
2139 ret
= MIN (ret
, tret
);
2142 STRIP_USELESS_TYPE_CONVERSION (TREE_OPERAND (t
, 0));
2144 /* The innermost expression P may have originally had
2145 TREE_SIDE_EFFECTS set which would have caused all the outer
2146 expressions in *EXPR_P leading to P to also have had
2147 TREE_SIDE_EFFECTS set. */
2148 recalculate_side_effects (t
);
2151 /* If the outermost expression is a COMPONENT_REF, canonicalize its type. */
2152 if ((fallback
& fb_rvalue
) && TREE_CODE (*expr_p
) == COMPONENT_REF
)
2154 canonicalize_component_ref (expr_p
);
2155 ret
= MIN (ret
, GS_OK
);
2158 VEC_free (tree
, heap
, stack
);
2163 /* Gimplify the self modifying expression pointed to by EXPR_P
2166 PRE_P points to the list where side effects that must happen before
2167 *EXPR_P should be stored.
2169 POST_P points to the list where side effects that must happen after
2170 *EXPR_P should be stored.
2172 WANT_VALUE is nonzero iff we want to use the value of this expression
2173 in another expression. */
2175 static enum gimplify_status
2176 gimplify_self_mod_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
2179 enum tree_code code
;
2180 tree lhs
, lvalue
, rhs
, t1
;
2181 gimple_seq post
= NULL
, *orig_post_p
= post_p
;
2183 enum tree_code arith_code
;
2184 enum gimplify_status ret
;
2186 code
= TREE_CODE (*expr_p
);
2188 gcc_assert (code
== POSTINCREMENT_EXPR
|| code
== POSTDECREMENT_EXPR
2189 || code
== PREINCREMENT_EXPR
|| code
== PREDECREMENT_EXPR
);
2191 /* Prefix or postfix? */
2192 if (code
== POSTINCREMENT_EXPR
|| code
== POSTDECREMENT_EXPR
)
2193 /* Faster to treat as prefix if result is not used. */
2194 postfix
= want_value
;
2198 /* For postfix, make sure the inner expression's post side effects
2199 are executed after side effects from this expression. */
2203 /* Add or subtract? */
2204 if (code
== PREINCREMENT_EXPR
|| code
== POSTINCREMENT_EXPR
)
2205 arith_code
= PLUS_EXPR
;
2207 arith_code
= MINUS_EXPR
;
2209 /* Gimplify the LHS into a GIMPLE lvalue. */
2210 lvalue
= TREE_OPERAND (*expr_p
, 0);
2211 ret
= gimplify_expr (&lvalue
, pre_p
, post_p
, is_gimple_lvalue
, fb_lvalue
);
2212 if (ret
== GS_ERROR
)
2215 /* Extract the operands to the arithmetic operation. */
2217 rhs
= TREE_OPERAND (*expr_p
, 1);
2219 /* For postfix operator, we evaluate the LHS to an rvalue and then use
2220 that as the result value and in the postqueue operation. We also
2221 make sure to make lvalue a minimal lval, see
2222 gcc.c-torture/execute/20040313-1.c for an example where this matters. */
2225 if (!is_gimple_min_lval (lvalue
))
2227 mark_addressable (lvalue
);
2228 lvalue
= build_fold_addr_expr (lvalue
);
2229 gimplify_expr (&lvalue
, pre_p
, post_p
, is_gimple_val
, fb_rvalue
);
2230 lvalue
= build_fold_indirect_ref (lvalue
);
2232 ret
= gimplify_expr (&lhs
, pre_p
, post_p
, is_gimple_val
, fb_rvalue
);
2233 if (ret
== GS_ERROR
)
2237 /* For POINTERs increment, use POINTER_PLUS_EXPR. */
2238 if (POINTER_TYPE_P (TREE_TYPE (lhs
)))
2240 rhs
= fold_convert (sizetype
, rhs
);
2241 if (arith_code
== MINUS_EXPR
)
2242 rhs
= fold_build1 (NEGATE_EXPR
, TREE_TYPE (rhs
), rhs
);
2243 arith_code
= POINTER_PLUS_EXPR
;
2246 t1
= build2 (arith_code
, TREE_TYPE (*expr_p
), lhs
, rhs
);
2250 gimplify_assign (lvalue
, t1
, orig_post_p
);
2251 gimplify_seq_add_seq (orig_post_p
, post
);
2257 *expr_p
= build2 (MODIFY_EXPR
, TREE_TYPE (lvalue
), lvalue
, t1
);
2263 /* If *EXPR_P has a variable sized type, wrap it in a WITH_SIZE_EXPR. */
2266 maybe_with_size_expr (tree
*expr_p
)
2268 tree expr
= *expr_p
;
2269 tree type
= TREE_TYPE (expr
);
2272 /* If we've already wrapped this or the type is error_mark_node, we can't do
2274 if (TREE_CODE (expr
) == WITH_SIZE_EXPR
2275 || type
== error_mark_node
)
2278 /* If the size isn't known or is a constant, we have nothing to do. */
2279 size
= TYPE_SIZE_UNIT (type
);
2280 if (!size
|| TREE_CODE (size
) == INTEGER_CST
)
2283 /* Otherwise, make a WITH_SIZE_EXPR. */
2284 size
= unshare_expr (size
);
2285 size
= SUBSTITUTE_PLACEHOLDER_IN_EXPR (size
, expr
);
2286 *expr_p
= build2 (WITH_SIZE_EXPR
, type
, expr
, size
);
2290 /* Helper for gimplify_call_expr. Gimplify a single argument *ARG_P
2291 Store any side-effects in PRE_P. CALL_LOCATION is the location of
2294 static enum gimplify_status
2295 gimplify_arg (tree
*arg_p
, gimple_seq
*pre_p
, location_t call_location
)
2297 bool (*test
) (tree
);
2300 /* In general, we allow lvalues for function arguments to avoid
2301 extra overhead of copying large aggregates out of even larger
2302 aggregates into temporaries only to copy the temporaries to
2303 the argument list. Make optimizers happy by pulling out to
2304 temporaries those types that fit in registers. */
2305 if (is_gimple_reg_type (TREE_TYPE (*arg_p
)))
2306 test
= is_gimple_val
, fb
= fb_rvalue
;
2308 test
= is_gimple_lvalue
, fb
= fb_either
;
2310 /* If this is a variable sized type, we must remember the size. */
2311 maybe_with_size_expr (arg_p
);
2313 /* Make sure arguments have the same location as the function call
2315 protected_set_expr_location (*arg_p
, call_location
);
2317 /* There is a sequence point before a function call. Side effects in
2318 the argument list must occur before the actual call. So, when
2319 gimplifying arguments, force gimplify_expr to use an internal
2320 post queue which is then appended to the end of PRE_P. */
2321 return gimplify_expr (arg_p
, pre_p
, NULL
, test
, fb
);
2325 /* Gimplify the CALL_EXPR node *EXPR_P into the GIMPLE sequence PRE_P.
2326 WANT_VALUE is true if the result of the call is desired. */
2328 static enum gimplify_status
2329 gimplify_call_expr (tree
*expr_p
, gimple_seq
*pre_p
, bool want_value
)
2331 tree fndecl
, parms
, p
;
2332 enum gimplify_status ret
;
2335 bool builtin_va_start_p
= FALSE
;
2337 gcc_assert (TREE_CODE (*expr_p
) == CALL_EXPR
);
2339 /* For reliable diagnostics during inlining, it is necessary that
2340 every call_expr be annotated with file and line. */
2341 if (! EXPR_HAS_LOCATION (*expr_p
))
2342 SET_EXPR_LOCATION (*expr_p
, input_location
);
2344 /* This may be a call to a builtin function.
2346 Builtin function calls may be transformed into different
2347 (and more efficient) builtin function calls under certain
2348 circumstances. Unfortunately, gimplification can muck things
2349 up enough that the builtin expanders are not aware that certain
2350 transformations are still valid.
2352 So we attempt transformation/gimplification of the call before
2353 we gimplify the CALL_EXPR. At this time we do not manage to
2354 transform all calls in the same manner as the expanders do, but
2355 we do transform most of them. */
2356 fndecl
= get_callee_fndecl (*expr_p
);
2357 if (fndecl
&& DECL_BUILT_IN (fndecl
))
2359 tree new_tree
= fold_call_expr (*expr_p
, !want_value
);
2361 if (new_tree
&& new_tree
!= *expr_p
)
2363 /* There was a transformation of this call which computes the
2364 same value, but in a more efficient way. Return and try
2370 if (DECL_BUILT_IN_CLASS (fndecl
) == BUILT_IN_NORMAL
2371 && DECL_FUNCTION_CODE (fndecl
) == BUILT_IN_VA_START
)
2373 builtin_va_start_p
= TRUE
;
2374 if (call_expr_nargs (*expr_p
) < 2)
2376 error ("too few arguments to function %<va_start%>");
2377 *expr_p
= build_empty_stmt ();
2381 if (fold_builtin_next_arg (*expr_p
, true))
2383 *expr_p
= build_empty_stmt ();
2389 /* There is a sequence point before the call, so any side effects in
2390 the calling expression must occur before the actual call. Force
2391 gimplify_expr to use an internal post queue. */
2392 ret
= gimplify_expr (&CALL_EXPR_FN (*expr_p
), pre_p
, NULL
,
2393 is_gimple_call_addr
, fb_rvalue
);
2395 nargs
= call_expr_nargs (*expr_p
);
2397 /* Get argument types for verification. */
2398 fndecl
= get_callee_fndecl (*expr_p
);
2401 parms
= TYPE_ARG_TYPES (TREE_TYPE (fndecl
));
2402 else if (POINTER_TYPE_P (TREE_TYPE (CALL_EXPR_FN (*expr_p
))))
2403 parms
= TYPE_ARG_TYPES (TREE_TYPE (TREE_TYPE (CALL_EXPR_FN (*expr_p
))));
2405 if (fndecl
&& DECL_ARGUMENTS (fndecl
))
2406 p
= DECL_ARGUMENTS (fndecl
);
2411 for (i
= 0; i
< nargs
&& p
; i
++, p
= TREE_CHAIN (p
))
2414 /* If the last argument is __builtin_va_arg_pack () and it is not
2415 passed as a named argument, decrease the number of CALL_EXPR
2416 arguments and set instead the CALL_EXPR_VA_ARG_PACK flag. */
2419 && TREE_CODE (CALL_EXPR_ARG (*expr_p
, nargs
- 1)) == CALL_EXPR
)
2421 tree last_arg
= CALL_EXPR_ARG (*expr_p
, nargs
- 1);
2422 tree last_arg_fndecl
= get_callee_fndecl (last_arg
);
2425 && TREE_CODE (last_arg_fndecl
) == FUNCTION_DECL
2426 && DECL_BUILT_IN_CLASS (last_arg_fndecl
) == BUILT_IN_NORMAL
2427 && DECL_FUNCTION_CODE (last_arg_fndecl
) == BUILT_IN_VA_ARG_PACK
)
2429 tree call
= *expr_p
;
2432 *expr_p
= build_call_array (TREE_TYPE (call
), CALL_EXPR_FN (call
),
2433 nargs
, CALL_EXPR_ARGP (call
));
2435 /* Copy all CALL_EXPR flags, location and block, except
2436 CALL_EXPR_VA_ARG_PACK flag. */
2437 CALL_EXPR_STATIC_CHAIN (*expr_p
) = CALL_EXPR_STATIC_CHAIN (call
);
2438 CALL_EXPR_TAILCALL (*expr_p
) = CALL_EXPR_TAILCALL (call
);
2439 CALL_EXPR_RETURN_SLOT_OPT (*expr_p
)
2440 = CALL_EXPR_RETURN_SLOT_OPT (call
);
2441 CALL_FROM_THUNK_P (*expr_p
) = CALL_FROM_THUNK_P (call
);
2442 CALL_CANNOT_INLINE_P (*expr_p
) = CALL_CANNOT_INLINE_P (call
);
2443 SET_EXPR_LOCUS (*expr_p
, EXPR_LOCUS (call
));
2444 TREE_BLOCK (*expr_p
) = TREE_BLOCK (call
);
2446 /* Set CALL_EXPR_VA_ARG_PACK. */
2447 CALL_EXPR_VA_ARG_PACK (*expr_p
) = 1;
2451 /* Finally, gimplify the function arguments. */
2454 for (i
= (PUSH_ARGS_REVERSED
? nargs
- 1 : 0);
2455 PUSH_ARGS_REVERSED
? i
>= 0 : i
< nargs
;
2456 PUSH_ARGS_REVERSED
? i
-- : i
++)
2458 enum gimplify_status t
;
2460 /* Avoid gimplifying the second argument to va_start, which needs to
2461 be the plain PARM_DECL. */
2462 if ((i
!= 1) || !builtin_va_start_p
)
2464 t
= gimplify_arg (&CALL_EXPR_ARG (*expr_p
, i
), pre_p
,
2465 EXPR_LOCATION (*expr_p
));
2473 /* Try this again in case gimplification exposed something. */
2474 if (ret
!= GS_ERROR
)
2476 tree new_tree
= fold_call_expr (*expr_p
, !want_value
);
2478 if (new_tree
&& new_tree
!= *expr_p
)
2480 /* There was a transformation of this call which computes the
2481 same value, but in a more efficient way. Return and try
2489 *expr_p
= error_mark_node
;
2493 /* If the function is "const" or "pure", then clear TREE_SIDE_EFFECTS on its
2494 decl. This allows us to eliminate redundant or useless
2495 calls to "const" functions. */
2496 if (TREE_CODE (*expr_p
) == CALL_EXPR
)
2498 int flags
= call_expr_flags (*expr_p
);
2499 if (flags
& (ECF_CONST
| ECF_PURE
)
2500 /* An infinite loop is considered a side effect. */
2501 && !(flags
& (ECF_LOOPING_CONST_OR_PURE
)))
2502 TREE_SIDE_EFFECTS (*expr_p
) = 0;
2505 /* If the value is not needed by the caller, emit a new GIMPLE_CALL
2506 and clear *EXPR_P. Otherwise, leave *EXPR_P in its gimplified
2507 form and delegate the creation of a GIMPLE_CALL to
2508 gimplify_modify_expr. This is always possible because when
2509 WANT_VALUE is true, the caller wants the result of this call into
2510 a temporary, which means that we will emit an INIT_EXPR in
2511 internal_get_tmp_var which will then be handled by
2512 gimplify_modify_expr. */
2515 /* The CALL_EXPR in *EXPR_P is already in GIMPLE form, so all we
2516 have to do is replicate it as a GIMPLE_CALL tuple. */
2517 call
= gimple_build_call_from_tree (*expr_p
);
2518 gimplify_seq_add_stmt (pre_p
, call
);
2519 *expr_p
= NULL_TREE
;
2525 /* Handle shortcut semantics in the predicate operand of a COND_EXPR by
2526 rewriting it into multiple COND_EXPRs, and possibly GOTO_EXPRs.
2528 TRUE_LABEL_P and FALSE_LABEL_P point to the labels to jump to if the
2529 condition is true or false, respectively. If null, we should generate
2530 our own to skip over the evaluation of this specific expression.
2532 LOCUS is the source location of the COND_EXPR.
2534 This function is the tree equivalent of do_jump.
2536 shortcut_cond_r should only be called by shortcut_cond_expr. */
2539 shortcut_cond_r (tree pred
, tree
*true_label_p
, tree
*false_label_p
,
2542 tree local_label
= NULL_TREE
;
2543 tree t
, expr
= NULL
;
2545 /* OK, it's not a simple case; we need to pull apart the COND_EXPR to
2546 retain the shortcut semantics. Just insert the gotos here;
2547 shortcut_cond_expr will append the real blocks later. */
2548 if (TREE_CODE (pred
) == TRUTH_ANDIF_EXPR
)
2550 location_t new_locus
;
2552 /* Turn if (a && b) into
2554 if (a); else goto no;
2555 if (b) goto yes; else goto no;
2558 if (false_label_p
== NULL
)
2559 false_label_p
= &local_label
;
2561 /* Keep the original source location on the first 'if'. */
2562 t
= shortcut_cond_r (TREE_OPERAND (pred
, 0), NULL
, false_label_p
, locus
);
2563 append_to_statement_list (t
, &expr
);
2565 /* Set the source location of the && on the second 'if'. */
2566 new_locus
= EXPR_HAS_LOCATION (pred
) ? EXPR_LOCATION (pred
) : locus
;
2567 t
= shortcut_cond_r (TREE_OPERAND (pred
, 1), true_label_p
, false_label_p
,
2569 append_to_statement_list (t
, &expr
);
2571 else if (TREE_CODE (pred
) == TRUTH_ORIF_EXPR
)
2573 location_t new_locus
;
2575 /* Turn if (a || b) into
2578 if (b) goto yes; else goto no;
2581 if (true_label_p
== NULL
)
2582 true_label_p
= &local_label
;
2584 /* Keep the original source location on the first 'if'. */
2585 t
= shortcut_cond_r (TREE_OPERAND (pred
, 0), true_label_p
, NULL
, locus
);
2586 append_to_statement_list (t
, &expr
);
2588 /* Set the source location of the || on the second 'if'. */
2589 new_locus
= EXPR_HAS_LOCATION (pred
) ? EXPR_LOCATION (pred
) : locus
;
2590 t
= shortcut_cond_r (TREE_OPERAND (pred
, 1), true_label_p
, false_label_p
,
2592 append_to_statement_list (t
, &expr
);
2594 else if (TREE_CODE (pred
) == COND_EXPR
)
2596 location_t new_locus
;
2598 /* As long as we're messing with gotos, turn if (a ? b : c) into
2600 if (b) goto yes; else goto no;
2602 if (c) goto yes; else goto no; */
2604 /* Keep the original source location on the first 'if'. Set the source
2605 location of the ? on the second 'if'. */
2606 new_locus
= EXPR_HAS_LOCATION (pred
) ? EXPR_LOCATION (pred
) : locus
;
2607 expr
= build3 (COND_EXPR
, void_type_node
, TREE_OPERAND (pred
, 0),
2608 shortcut_cond_r (TREE_OPERAND (pred
, 1), true_label_p
,
2609 false_label_p
, locus
),
2610 shortcut_cond_r (TREE_OPERAND (pred
, 2), true_label_p
,
2611 false_label_p
, new_locus
));
2615 expr
= build3 (COND_EXPR
, void_type_node
, pred
,
2616 build_and_jump (true_label_p
),
2617 build_and_jump (false_label_p
));
2618 SET_EXPR_LOCATION (expr
, locus
);
2623 t
= build1 (LABEL_EXPR
, void_type_node
, local_label
);
2624 append_to_statement_list (t
, &expr
);
2630 /* Given a conditional expression EXPR with short-circuit boolean
2631 predicates using TRUTH_ANDIF_EXPR or TRUTH_ORIF_EXPR, break the
2632 predicate appart into the equivalent sequence of conditionals. */
2635 shortcut_cond_expr (tree expr
)
2637 tree pred
= TREE_OPERAND (expr
, 0);
2638 tree then_
= TREE_OPERAND (expr
, 1);
2639 tree else_
= TREE_OPERAND (expr
, 2);
2640 tree true_label
, false_label
, end_label
, t
;
2642 tree
*false_label_p
;
2643 bool emit_end
, emit_false
, jump_over_else
;
2644 bool then_se
= then_
&& TREE_SIDE_EFFECTS (then_
);
2645 bool else_se
= else_
&& TREE_SIDE_EFFECTS (else_
);
2647 /* First do simple transformations. */
2650 /* If there is no 'else', turn
2653 if (a) if (b) then c. */
2654 while (TREE_CODE (pred
) == TRUTH_ANDIF_EXPR
)
2656 /* Keep the original source location on the first 'if'. */
2657 location_t locus
= EXPR_HAS_LOCATION (expr
)
2658 ? EXPR_LOCATION (expr
) : input_location
;
2659 TREE_OPERAND (expr
, 0) = TREE_OPERAND (pred
, 1);
2660 /* Set the source location of the && on the second 'if'. */
2661 if (EXPR_HAS_LOCATION (pred
))
2662 SET_EXPR_LOCATION (expr
, EXPR_LOCATION (pred
));
2663 then_
= shortcut_cond_expr (expr
);
2664 then_se
= then_
&& TREE_SIDE_EFFECTS (then_
);
2665 pred
= TREE_OPERAND (pred
, 0);
2666 expr
= build3 (COND_EXPR
, void_type_node
, pred
, then_
, NULL_TREE
);
2667 SET_EXPR_LOCATION (expr
, locus
);
2673 /* If there is no 'then', turn
2676 if (a); else if (b); else d. */
2677 while (TREE_CODE (pred
) == TRUTH_ORIF_EXPR
)
2679 /* Keep the original source location on the first 'if'. */
2680 location_t locus
= EXPR_HAS_LOCATION (expr
)
2681 ? EXPR_LOCATION (expr
) : input_location
;
2682 TREE_OPERAND (expr
, 0) = TREE_OPERAND (pred
, 1);
2683 /* Set the source location of the || on the second 'if'. */
2684 if (EXPR_HAS_LOCATION (pred
))
2685 SET_EXPR_LOCATION (expr
, EXPR_LOCATION (pred
));
2686 else_
= shortcut_cond_expr (expr
);
2687 else_se
= else_
&& TREE_SIDE_EFFECTS (else_
);
2688 pred
= TREE_OPERAND (pred
, 0);
2689 expr
= build3 (COND_EXPR
, void_type_node
, pred
, NULL_TREE
, else_
);
2690 SET_EXPR_LOCATION (expr
, locus
);
2694 /* If we're done, great. */
2695 if (TREE_CODE (pred
) != TRUTH_ANDIF_EXPR
2696 && TREE_CODE (pred
) != TRUTH_ORIF_EXPR
)
2699 /* Otherwise we need to mess with gotos. Change
2702 if (a); else goto no;
2705 and recursively gimplify the condition. */
2707 true_label
= false_label
= end_label
= NULL_TREE
;
2709 /* If our arms just jump somewhere, hijack those labels so we don't
2710 generate jumps to jumps. */
2713 && TREE_CODE (then_
) == GOTO_EXPR
2714 && TREE_CODE (GOTO_DESTINATION (then_
)) == LABEL_DECL
)
2716 true_label
= GOTO_DESTINATION (then_
);
2722 && TREE_CODE (else_
) == GOTO_EXPR
2723 && TREE_CODE (GOTO_DESTINATION (else_
)) == LABEL_DECL
)
2725 false_label
= GOTO_DESTINATION (else_
);
2730 /* If we aren't hijacking a label for the 'then' branch, it falls through. */
2732 true_label_p
= &true_label
;
2734 true_label_p
= NULL
;
2736 /* The 'else' branch also needs a label if it contains interesting code. */
2737 if (false_label
|| else_se
)
2738 false_label_p
= &false_label
;
2740 false_label_p
= NULL
;
2742 /* If there was nothing else in our arms, just forward the label(s). */
2743 if (!then_se
&& !else_se
)
2744 return shortcut_cond_r (pred
, true_label_p
, false_label_p
,
2745 EXPR_HAS_LOCATION (expr
)
2746 ? EXPR_LOCATION (expr
) : input_location
);
2748 /* If our last subexpression already has a terminal label, reuse it. */
2750 t
= expr_last (else_
);
2752 t
= expr_last (then_
);
2755 if (t
&& TREE_CODE (t
) == LABEL_EXPR
)
2756 end_label
= LABEL_EXPR_LABEL (t
);
2758 /* If we don't care about jumping to the 'else' branch, jump to the end
2759 if the condition is false. */
2761 false_label_p
= &end_label
;
2763 /* We only want to emit these labels if we aren't hijacking them. */
2764 emit_end
= (end_label
== NULL_TREE
);
2765 emit_false
= (false_label
== NULL_TREE
);
2767 /* We only emit the jump over the else clause if we have to--if the
2768 then clause may fall through. Otherwise we can wind up with a
2769 useless jump and a useless label at the end of gimplified code,
2770 which will cause us to think that this conditional as a whole
2771 falls through even if it doesn't. If we then inline a function
2772 which ends with such a condition, that can cause us to issue an
2773 inappropriate warning about control reaching the end of a
2774 non-void function. */
2775 jump_over_else
= block_may_fallthru (then_
);
2777 pred
= shortcut_cond_r (pred
, true_label_p
, false_label_p
,
2778 EXPR_HAS_LOCATION (expr
)
2779 ? EXPR_LOCATION (expr
) : input_location
);
2782 append_to_statement_list (pred
, &expr
);
2784 append_to_statement_list (then_
, &expr
);
2789 tree last
= expr_last (expr
);
2790 t
= build_and_jump (&end_label
);
2791 if (EXPR_HAS_LOCATION (last
))
2792 SET_EXPR_LOCATION (t
, EXPR_LOCATION (last
));
2793 append_to_statement_list (t
, &expr
);
2797 t
= build1 (LABEL_EXPR
, void_type_node
, false_label
);
2798 append_to_statement_list (t
, &expr
);
2800 append_to_statement_list (else_
, &expr
);
2802 if (emit_end
&& end_label
)
2804 t
= build1 (LABEL_EXPR
, void_type_node
, end_label
);
2805 append_to_statement_list (t
, &expr
);
2811 /* EXPR is used in a boolean context; make sure it has BOOLEAN_TYPE. */
2814 gimple_boolify (tree expr
)
2816 tree type
= TREE_TYPE (expr
);
2818 if (TREE_CODE (type
) == BOOLEAN_TYPE
)
2821 switch (TREE_CODE (expr
))
2823 case TRUTH_AND_EXPR
:
2825 case TRUTH_XOR_EXPR
:
2826 case TRUTH_ANDIF_EXPR
:
2827 case TRUTH_ORIF_EXPR
:
2828 /* Also boolify the arguments of truth exprs. */
2829 TREE_OPERAND (expr
, 1) = gimple_boolify (TREE_OPERAND (expr
, 1));
2832 case TRUTH_NOT_EXPR
:
2833 TREE_OPERAND (expr
, 0) = gimple_boolify (TREE_OPERAND (expr
, 0));
2836 case EQ_EXPR
: case NE_EXPR
:
2837 case LE_EXPR
: case GE_EXPR
: case LT_EXPR
: case GT_EXPR
:
2838 /* These expressions always produce boolean results. */
2839 TREE_TYPE (expr
) = boolean_type_node
;
2843 /* Other expressions that get here must have boolean values, but
2844 might need to be converted to the appropriate mode. */
2845 return fold_convert (boolean_type_node
, expr
);
2849 /* Given a conditional expression *EXPR_P without side effects, gimplify
2850 its operands. New statements are inserted to PRE_P. */
2852 static enum gimplify_status
2853 gimplify_pure_cond_expr (tree
*expr_p
, gimple_seq
*pre_p
)
2855 tree expr
= *expr_p
, cond
;
2856 enum gimplify_status ret
, tret
;
2857 enum tree_code code
;
2859 cond
= gimple_boolify (COND_EXPR_COND (expr
));
2861 /* We need to handle && and || specially, as their gimplification
2862 creates pure cond_expr, thus leading to an infinite cycle otherwise. */
2863 code
= TREE_CODE (cond
);
2864 if (code
== TRUTH_ANDIF_EXPR
)
2865 TREE_SET_CODE (cond
, TRUTH_AND_EXPR
);
2866 else if (code
== TRUTH_ORIF_EXPR
)
2867 TREE_SET_CODE (cond
, TRUTH_OR_EXPR
);
2868 ret
= gimplify_expr (&cond
, pre_p
, NULL
, is_gimple_condexpr
, fb_rvalue
);
2869 COND_EXPR_COND (*expr_p
) = cond
;
2871 tret
= gimplify_expr (&COND_EXPR_THEN (expr
), pre_p
, NULL
,
2872 is_gimple_val
, fb_rvalue
);
2873 ret
= MIN (ret
, tret
);
2874 tret
= gimplify_expr (&COND_EXPR_ELSE (expr
), pre_p
, NULL
,
2875 is_gimple_val
, fb_rvalue
);
2877 return MIN (ret
, tret
);
2880 /* Returns true if evaluating EXPR could trap.
2881 EXPR is GENERIC, while tree_could_trap_p can be called
2885 generic_expr_could_trap_p (tree expr
)
2889 if (!expr
|| is_gimple_val (expr
))
2892 if (!EXPR_P (expr
) || tree_could_trap_p (expr
))
2895 n
= TREE_OPERAND_LENGTH (expr
);
2896 for (i
= 0; i
< n
; i
++)
2897 if (generic_expr_could_trap_p (TREE_OPERAND (expr
, i
)))
2903 /* Convert the conditional expression pointed to by EXPR_P '(p) ? a : b;'
2912 The second form is used when *EXPR_P is of type void.
2914 PRE_P points to the list where side effects that must happen before
2915 *EXPR_P should be stored. */
2917 static enum gimplify_status
2918 gimplify_cond_expr (tree
*expr_p
, gimple_seq
*pre_p
, fallback_t fallback
)
2920 tree expr
= *expr_p
;
2921 tree tmp
, type
, arm1
, arm2
;
2922 enum gimplify_status ret
;
2923 tree label_true
, label_false
, label_cont
;
2924 bool have_then_clause_p
, have_else_clause_p
;
2926 enum tree_code pred_code
;
2927 gimple_seq seq
= NULL
;
2929 type
= TREE_TYPE (expr
);
2931 /* If this COND_EXPR has a value, copy the values into a temporary within
2933 if (! VOID_TYPE_P (type
))
2937 /* If an rvalue is ok or we do not require an lvalue, avoid creating
2938 an addressable temporary. */
2939 if (((fallback
& fb_rvalue
)
2940 || !(fallback
& fb_lvalue
))
2941 && !TREE_ADDRESSABLE (type
))
2943 if (gimplify_ctxp
->allow_rhs_cond_expr
2944 /* If either branch has side effects or could trap, it can't be
2945 evaluated unconditionally. */
2946 && !TREE_SIDE_EFFECTS (TREE_OPERAND (*expr_p
, 1))
2947 && !generic_expr_could_trap_p (TREE_OPERAND (*expr_p
, 1))
2948 && !TREE_SIDE_EFFECTS (TREE_OPERAND (*expr_p
, 2))
2949 && !generic_expr_could_trap_p (TREE_OPERAND (*expr_p
, 2)))
2950 return gimplify_pure_cond_expr (expr_p
, pre_p
);
2952 result
= tmp
= create_tmp_var (TREE_TYPE (expr
), "iftmp");
2957 tree type
= build_pointer_type (TREE_TYPE (expr
));
2959 if (TREE_TYPE (TREE_OPERAND (expr
, 1)) != void_type_node
)
2960 TREE_OPERAND (expr
, 1) =
2961 build_fold_addr_expr (TREE_OPERAND (expr
, 1));
2963 if (TREE_TYPE (TREE_OPERAND (expr
, 2)) != void_type_node
)
2964 TREE_OPERAND (expr
, 2) =
2965 build_fold_addr_expr (TREE_OPERAND (expr
, 2));
2967 tmp
= create_tmp_var (type
, "iftmp");
2969 expr
= build3 (COND_EXPR
, void_type_node
, TREE_OPERAND (expr
, 0),
2970 TREE_OPERAND (expr
, 1), TREE_OPERAND (expr
, 2));
2972 result
= build_fold_indirect_ref (tmp
);
2975 /* Build the then clause, 't1 = a;'. But don't build an assignment
2976 if this branch is void; in C++ it can be, if it's a throw. */
2977 if (TREE_TYPE (TREE_OPERAND (expr
, 1)) != void_type_node
)
2978 TREE_OPERAND (expr
, 1)
2979 = build2 (MODIFY_EXPR
, TREE_TYPE (tmp
), tmp
, TREE_OPERAND (expr
, 1));
2981 /* Build the else clause, 't1 = b;'. */
2982 if (TREE_TYPE (TREE_OPERAND (expr
, 2)) != void_type_node
)
2983 TREE_OPERAND (expr
, 2)
2984 = build2 (MODIFY_EXPR
, TREE_TYPE (tmp
), tmp
, TREE_OPERAND (expr
, 2));
2986 TREE_TYPE (expr
) = void_type_node
;
2987 recalculate_side_effects (expr
);
2989 /* Move the COND_EXPR to the prequeue. */
2990 gimplify_stmt (&expr
, pre_p
);
2996 /* Make sure the condition has BOOLEAN_TYPE. */
2997 TREE_OPERAND (expr
, 0) = gimple_boolify (TREE_OPERAND (expr
, 0));
2999 /* Break apart && and || conditions. */
3000 if (TREE_CODE (TREE_OPERAND (expr
, 0)) == TRUTH_ANDIF_EXPR
3001 || TREE_CODE (TREE_OPERAND (expr
, 0)) == TRUTH_ORIF_EXPR
)
3003 expr
= shortcut_cond_expr (expr
);
3005 if (expr
!= *expr_p
)
3009 /* We can't rely on gimplify_expr to re-gimplify the expanded
3010 form properly, as cleanups might cause the target labels to be
3011 wrapped in a TRY_FINALLY_EXPR. To prevent that, we need to
3012 set up a conditional context. */
3013 gimple_push_condition ();
3014 gimplify_stmt (expr_p
, &seq
);
3015 gimple_pop_condition (pre_p
);
3016 gimple_seq_add_seq (pre_p
, seq
);
3022 /* Now do the normal gimplification. */
3024 /* Gimplify condition. */
3025 ret
= gimplify_expr (&TREE_OPERAND (expr
, 0), pre_p
, NULL
, is_gimple_condexpr
,
3027 if (ret
== GS_ERROR
)
3029 gcc_assert (TREE_OPERAND (expr
, 0) != NULL_TREE
);
3031 gimple_push_condition ();
3033 have_then_clause_p
= have_else_clause_p
= false;
3034 if (TREE_OPERAND (expr
, 1) != NULL
3035 && TREE_CODE (TREE_OPERAND (expr
, 1)) == GOTO_EXPR
3036 && TREE_CODE (GOTO_DESTINATION (TREE_OPERAND (expr
, 1))) == LABEL_DECL
3037 && (DECL_CONTEXT (GOTO_DESTINATION (TREE_OPERAND (expr
, 1)))
3038 == current_function_decl
)
3039 /* For -O0 avoid this optimization if the COND_EXPR and GOTO_EXPR
3040 have different locations, otherwise we end up with incorrect
3041 location information on the branches. */
3043 || !EXPR_HAS_LOCATION (expr
)
3044 || !EXPR_HAS_LOCATION (TREE_OPERAND (expr
, 1))
3045 || EXPR_LOCATION (expr
) == EXPR_LOCATION (TREE_OPERAND (expr
, 1))))
3047 label_true
= GOTO_DESTINATION (TREE_OPERAND (expr
, 1));
3048 have_then_clause_p
= true;
3051 label_true
= create_artificial_label ();
3052 if (TREE_OPERAND (expr
, 2) != NULL
3053 && TREE_CODE (TREE_OPERAND (expr
, 2)) == GOTO_EXPR
3054 && TREE_CODE (GOTO_DESTINATION (TREE_OPERAND (expr
, 2))) == LABEL_DECL
3055 && (DECL_CONTEXT (GOTO_DESTINATION (TREE_OPERAND (expr
, 2)))
3056 == current_function_decl
)
3057 /* For -O0 avoid this optimization if the COND_EXPR and GOTO_EXPR
3058 have different locations, otherwise we end up with incorrect
3059 location information on the branches. */
3061 || !EXPR_HAS_LOCATION (expr
)
3062 || !EXPR_HAS_LOCATION (TREE_OPERAND (expr
, 2))
3063 || EXPR_LOCATION (expr
) == EXPR_LOCATION (TREE_OPERAND (expr
, 2))))
3065 label_false
= GOTO_DESTINATION (TREE_OPERAND (expr
, 2));
3066 have_else_clause_p
= true;
3069 label_false
= create_artificial_label ();
3071 gimple_cond_get_ops_from_tree (COND_EXPR_COND (expr
), &pred_code
, &arm1
,
3074 gimple_cond
= gimple_build_cond (pred_code
, arm1
, arm2
, label_true
,
3077 gimplify_seq_add_stmt (&seq
, gimple_cond
);
3078 label_cont
= NULL_TREE
;
3079 if (!have_then_clause_p
)
3081 /* For if (...) {} else { code; } put label_true after
3083 if (TREE_OPERAND (expr
, 1) == NULL_TREE
3084 && !have_else_clause_p
3085 && TREE_OPERAND (expr
, 2) != NULL_TREE
)
3086 label_cont
= label_true
;
3089 gimplify_seq_add_stmt (&seq
, gimple_build_label (label_true
));
3090 have_then_clause_p
= gimplify_stmt (&TREE_OPERAND (expr
, 1), &seq
);
3091 /* For if (...) { code; } else {} or
3092 if (...) { code; } else goto label; or
3093 if (...) { code; return; } else { ... }
3094 label_cont isn't needed. */
3095 if (!have_else_clause_p
3096 && TREE_OPERAND (expr
, 2) != NULL_TREE
3097 && gimple_seq_may_fallthru (seq
))
3100 label_cont
= create_artificial_label ();
3102 g
= gimple_build_goto (label_cont
);
3104 /* GIMPLE_COND's are very low level; they have embedded
3105 gotos. This particular embedded goto should not be marked
3106 with the location of the original COND_EXPR, as it would
3107 correspond to the COND_EXPR's condition, not the ELSE or the
3108 THEN arms. To avoid marking it with the wrong location, flag
3109 it as "no location". */
3110 gimple_set_do_not_emit_location (g
);
3112 gimplify_seq_add_stmt (&seq
, g
);
3116 if (!have_else_clause_p
)
3118 gimplify_seq_add_stmt (&seq
, gimple_build_label (label_false
));
3119 have_else_clause_p
= gimplify_stmt (&TREE_OPERAND (expr
, 2), &seq
);
3122 gimplify_seq_add_stmt (&seq
, gimple_build_label (label_cont
));
3124 gimple_pop_condition (pre_p
);
3125 gimple_seq_add_seq (pre_p
, seq
);
3127 if (ret
== GS_ERROR
)
3129 else if (have_then_clause_p
|| have_else_clause_p
)
3133 /* Both arms are empty; replace the COND_EXPR with its predicate. */
3134 expr
= TREE_OPERAND (expr
, 0);
3135 gimplify_stmt (&expr
, pre_p
);
3142 /* A subroutine of gimplify_modify_expr. Replace a MODIFY_EXPR with
3143 a call to __builtin_memcpy. */
3145 static enum gimplify_status
3146 gimplify_modify_expr_to_memcpy (tree
*expr_p
, tree size
, bool want_value
,
3149 tree t
, to
, to_ptr
, from
, from_ptr
;
3152 to
= TREE_OPERAND (*expr_p
, 0);
3153 from
= TREE_OPERAND (*expr_p
, 1);
3155 mark_addressable (from
);
3156 from_ptr
= build_fold_addr_expr (from
);
3157 gimplify_arg (&from_ptr
, seq_p
, EXPR_LOCATION (*expr_p
));
3159 mark_addressable (to
);
3160 to_ptr
= build_fold_addr_expr (to
);
3161 gimplify_arg (&to_ptr
, seq_p
, EXPR_LOCATION (*expr_p
));
3163 t
= implicit_built_in_decls
[BUILT_IN_MEMCPY
];
3165 gs
= gimple_build_call (t
, 3, to_ptr
, from_ptr
, size
);
3169 /* tmp = memcpy() */
3170 t
= create_tmp_var (TREE_TYPE (to_ptr
), NULL
);
3171 gimple_call_set_lhs (gs
, t
);
3172 gimplify_seq_add_stmt (seq_p
, gs
);
3174 *expr_p
= build1 (INDIRECT_REF
, TREE_TYPE (to
), t
);
3178 gimplify_seq_add_stmt (seq_p
, gs
);
3183 /* A subroutine of gimplify_modify_expr. Replace a MODIFY_EXPR with
3184 a call to __builtin_memset. In this case we know that the RHS is
3185 a CONSTRUCTOR with an empty element list. */
3187 static enum gimplify_status
3188 gimplify_modify_expr_to_memset (tree
*expr_p
, tree size
, bool want_value
,
3191 tree t
, from
, to
, to_ptr
;
3194 /* Assert our assumptions, to abort instead of producing wrong code
3195 silently if they are not met. Beware that the RHS CONSTRUCTOR might
3196 not be immediately exposed. */
3197 from
= TREE_OPERAND (*expr_p
, 1);
3198 if (TREE_CODE (from
) == WITH_SIZE_EXPR
)
3199 from
= TREE_OPERAND (from
, 0);
3201 gcc_assert (TREE_CODE (from
) == CONSTRUCTOR
3202 && VEC_empty (constructor_elt
, CONSTRUCTOR_ELTS (from
)));
3205 to
= TREE_OPERAND (*expr_p
, 0);
3207 to_ptr
= build_fold_addr_expr (to
);
3208 gimplify_arg (&to_ptr
, seq_p
, EXPR_LOCATION (*expr_p
));
3209 t
= implicit_built_in_decls
[BUILT_IN_MEMSET
];
3211 gs
= gimple_build_call (t
, 3, to_ptr
, integer_zero_node
, size
);
3215 /* tmp = memset() */
3216 t
= create_tmp_var (TREE_TYPE (to_ptr
), NULL
);
3217 gimple_call_set_lhs (gs
, t
);
3218 gimplify_seq_add_stmt (seq_p
, gs
);
3220 *expr_p
= build1 (INDIRECT_REF
, TREE_TYPE (to
), t
);
3224 gimplify_seq_add_stmt (seq_p
, gs
);
3229 /* A subroutine of gimplify_init_ctor_preeval. Called via walk_tree,
3230 determine, cautiously, if a CONSTRUCTOR overlaps the lhs of an
3231 assignment. Returns non-null if we detect a potential overlap. */
3233 struct gimplify_init_ctor_preeval_data
3235 /* The base decl of the lhs object. May be NULL, in which case we
3236 have to assume the lhs is indirect. */
3239 /* The alias set of the lhs object. */
3240 alias_set_type lhs_alias_set
;
3244 gimplify_init_ctor_preeval_1 (tree
*tp
, int *walk_subtrees
, void *xdata
)
3246 struct gimplify_init_ctor_preeval_data
*data
3247 = (struct gimplify_init_ctor_preeval_data
*) xdata
;
3250 /* If we find the base object, obviously we have overlap. */
3251 if (data
->lhs_base_decl
== t
)
3254 /* If the constructor component is indirect, determine if we have a
3255 potential overlap with the lhs. The only bits of information we
3256 have to go on at this point are addressability and alias sets. */
3257 if (TREE_CODE (t
) == INDIRECT_REF
3258 && (!data
->lhs_base_decl
|| TREE_ADDRESSABLE (data
->lhs_base_decl
))
3259 && alias_sets_conflict_p (data
->lhs_alias_set
, get_alias_set (t
)))
3262 /* If the constructor component is a call, determine if it can hide a
3263 potential overlap with the lhs through an INDIRECT_REF like above. */
3264 if (TREE_CODE (t
) == CALL_EXPR
)
3266 tree type
, fntype
= TREE_TYPE (TREE_TYPE (CALL_EXPR_FN (t
)));
3268 for (type
= TYPE_ARG_TYPES (fntype
); type
; type
= TREE_CHAIN (type
))
3269 if (POINTER_TYPE_P (TREE_VALUE (type
))
3270 && (!data
->lhs_base_decl
|| TREE_ADDRESSABLE (data
->lhs_base_decl
))
3271 && alias_sets_conflict_p (data
->lhs_alias_set
,
3273 (TREE_TYPE (TREE_VALUE (type
)))))
3277 if (IS_TYPE_OR_DECL_P (t
))
3282 /* A subroutine of gimplify_init_constructor. Pre-evaluate EXPR,
3283 force values that overlap with the lhs (as described by *DATA)
3284 into temporaries. */
3287 gimplify_init_ctor_preeval (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
3288 struct gimplify_init_ctor_preeval_data
*data
)
3290 enum gimplify_status one
;
3292 /* If the value is constant, then there's nothing to pre-evaluate. */
3293 if (TREE_CONSTANT (*expr_p
))
3295 /* Ensure it does not have side effects, it might contain a reference to
3296 the object we're initializing. */
3297 gcc_assert (!TREE_SIDE_EFFECTS (*expr_p
));
3301 /* If the type has non-trivial constructors, we can't pre-evaluate. */
3302 if (TREE_ADDRESSABLE (TREE_TYPE (*expr_p
)))
3305 /* Recurse for nested constructors. */
3306 if (TREE_CODE (*expr_p
) == CONSTRUCTOR
)
3308 unsigned HOST_WIDE_INT ix
;
3309 constructor_elt
*ce
;
3310 VEC(constructor_elt
,gc
) *v
= CONSTRUCTOR_ELTS (*expr_p
);
3312 for (ix
= 0; VEC_iterate (constructor_elt
, v
, ix
, ce
); ix
++)
3313 gimplify_init_ctor_preeval (&ce
->value
, pre_p
, post_p
, data
);
3318 /* If this is a variable sized type, we must remember the size. */
3319 maybe_with_size_expr (expr_p
);
3321 /* Gimplify the constructor element to something appropriate for the rhs
3322 of a MODIFY_EXPR. Given that we know the LHS is an aggregate, we know
3323 the gimplifier will consider this a store to memory. Doing this
3324 gimplification now means that we won't have to deal with complicated
3325 language-specific trees, nor trees like SAVE_EXPR that can induce
3326 exponential search behavior. */
3327 one
= gimplify_expr (expr_p
, pre_p
, post_p
, is_gimple_mem_rhs
, fb_rvalue
);
3328 if (one
== GS_ERROR
)
3334 /* If we gimplified to a bare decl, we can be sure that it doesn't overlap
3335 with the lhs, since "a = { .x=a }" doesn't make sense. This will
3336 always be true for all scalars, since is_gimple_mem_rhs insists on a
3337 temporary variable for them. */
3338 if (DECL_P (*expr_p
))
3341 /* If this is of variable size, we have no choice but to assume it doesn't
3342 overlap since we can't make a temporary for it. */
3343 if (TREE_CODE (TYPE_SIZE (TREE_TYPE (*expr_p
))) != INTEGER_CST
)
3346 /* Otherwise, we must search for overlap ... */
3347 if (!walk_tree (expr_p
, gimplify_init_ctor_preeval_1
, data
, NULL
))
3350 /* ... and if found, force the value into a temporary. */
3351 *expr_p
= get_formal_tmp_var (*expr_p
, pre_p
);
3354 /* A subroutine of gimplify_init_ctor_eval. Create a loop for
3355 a RANGE_EXPR in a CONSTRUCTOR for an array.
3359 object[var] = value;
3366 We increment var _after_ the loop exit check because we might otherwise
3367 fail if upper == TYPE_MAX_VALUE (type for upper).
3369 Note that we never have to deal with SAVE_EXPRs here, because this has
3370 already been taken care of for us, in gimplify_init_ctor_preeval(). */
3372 static void gimplify_init_ctor_eval (tree
, VEC(constructor_elt
,gc
) *,
3373 gimple_seq
*, bool);
3376 gimplify_init_ctor_eval_range (tree object
, tree lower
, tree upper
,
3377 tree value
, tree array_elt_type
,
3378 gimple_seq
*pre_p
, bool cleared
)
3380 tree loop_entry_label
, loop_exit_label
, fall_thru_label
;
3381 tree var
, var_type
, cref
, tmp
;
3383 loop_entry_label
= create_artificial_label ();
3384 loop_exit_label
= create_artificial_label ();
3385 fall_thru_label
= create_artificial_label ();
3387 /* Create and initialize the index variable. */
3388 var_type
= TREE_TYPE (upper
);
3389 var
= create_tmp_var (var_type
, NULL
);
3390 gimplify_seq_add_stmt (pre_p
, gimple_build_assign (var
, lower
));
3392 /* Add the loop entry label. */
3393 gimplify_seq_add_stmt (pre_p
, gimple_build_label (loop_entry_label
));
3395 /* Build the reference. */
3396 cref
= build4 (ARRAY_REF
, array_elt_type
, unshare_expr (object
),
3397 var
, NULL_TREE
, NULL_TREE
);
3399 /* If we are a constructor, just call gimplify_init_ctor_eval to do
3400 the store. Otherwise just assign value to the reference. */
3402 if (TREE_CODE (value
) == CONSTRUCTOR
)
3403 /* NB we might have to call ourself recursively through
3404 gimplify_init_ctor_eval if the value is a constructor. */
3405 gimplify_init_ctor_eval (cref
, CONSTRUCTOR_ELTS (value
),
3408 gimplify_seq_add_stmt (pre_p
, gimple_build_assign (cref
, value
));
3410 /* We exit the loop when the index var is equal to the upper bound. */
3411 gimplify_seq_add_stmt (pre_p
,
3412 gimple_build_cond (EQ_EXPR
, var
, upper
,
3413 loop_exit_label
, fall_thru_label
));
3415 gimplify_seq_add_stmt (pre_p
, gimple_build_label (fall_thru_label
));
3417 /* Otherwise, increment the index var... */
3418 tmp
= build2 (PLUS_EXPR
, var_type
, var
,
3419 fold_convert (var_type
, integer_one_node
));
3420 gimplify_seq_add_stmt (pre_p
, gimple_build_assign (var
, tmp
));
3422 /* ...and jump back to the loop entry. */
3423 gimplify_seq_add_stmt (pre_p
, gimple_build_goto (loop_entry_label
));
3425 /* Add the loop exit label. */
3426 gimplify_seq_add_stmt (pre_p
, gimple_build_label (loop_exit_label
));
3429 /* Return true if FDECL is accessing a field that is zero sized. */
3432 zero_sized_field_decl (const_tree fdecl
)
3434 if (TREE_CODE (fdecl
) == FIELD_DECL
&& DECL_SIZE (fdecl
)
3435 && integer_zerop (DECL_SIZE (fdecl
)))
3440 /* Return true if TYPE is zero sized. */
3443 zero_sized_type (const_tree type
)
3445 if (AGGREGATE_TYPE_P (type
) && TYPE_SIZE (type
)
3446 && integer_zerop (TYPE_SIZE (type
)))
3451 /* A subroutine of gimplify_init_constructor. Generate individual
3452 MODIFY_EXPRs for a CONSTRUCTOR. OBJECT is the LHS against which the
3453 assignments should happen. ELTS is the CONSTRUCTOR_ELTS of the
3454 CONSTRUCTOR. CLEARED is true if the entire LHS object has been
3458 gimplify_init_ctor_eval (tree object
, VEC(constructor_elt
,gc
) *elts
,
3459 gimple_seq
*pre_p
, bool cleared
)
3461 tree array_elt_type
= NULL
;
3462 unsigned HOST_WIDE_INT ix
;
3463 tree purpose
, value
;
3465 if (TREE_CODE (TREE_TYPE (object
)) == ARRAY_TYPE
)
3466 array_elt_type
= TYPE_MAIN_VARIANT (TREE_TYPE (TREE_TYPE (object
)));
3468 FOR_EACH_CONSTRUCTOR_ELT (elts
, ix
, purpose
, value
)
3472 /* NULL values are created above for gimplification errors. */
3476 if (cleared
&& initializer_zerop (value
))
3479 /* ??? Here's to hoping the front end fills in all of the indices,
3480 so we don't have to figure out what's missing ourselves. */
3481 gcc_assert (purpose
);
3483 /* Skip zero-sized fields, unless value has side-effects. This can
3484 happen with calls to functions returning a zero-sized type, which
3485 we shouldn't discard. As a number of downstream passes don't
3486 expect sets of zero-sized fields, we rely on the gimplification of
3487 the MODIFY_EXPR we make below to drop the assignment statement. */
3488 if (! TREE_SIDE_EFFECTS (value
) && zero_sized_field_decl (purpose
))
3491 /* If we have a RANGE_EXPR, we have to build a loop to assign the
3493 if (TREE_CODE (purpose
) == RANGE_EXPR
)
3495 tree lower
= TREE_OPERAND (purpose
, 0);
3496 tree upper
= TREE_OPERAND (purpose
, 1);
3498 /* If the lower bound is equal to upper, just treat it as if
3499 upper was the index. */
3500 if (simple_cst_equal (lower
, upper
))
3504 gimplify_init_ctor_eval_range (object
, lower
, upper
, value
,
3505 array_elt_type
, pre_p
, cleared
);
3512 /* Do not use bitsizetype for ARRAY_REF indices. */
3513 if (TYPE_DOMAIN (TREE_TYPE (object
)))
3514 purpose
= fold_convert (TREE_TYPE (TYPE_DOMAIN (TREE_TYPE (object
))),
3516 cref
= build4 (ARRAY_REF
, array_elt_type
, unshare_expr (object
),
3517 purpose
, NULL_TREE
, NULL_TREE
);
3521 gcc_assert (TREE_CODE (purpose
) == FIELD_DECL
);
3522 cref
= build3 (COMPONENT_REF
, TREE_TYPE (purpose
),
3523 unshare_expr (object
), purpose
, NULL_TREE
);
3526 if (TREE_CODE (value
) == CONSTRUCTOR
3527 && TREE_CODE (TREE_TYPE (value
)) != VECTOR_TYPE
)
3528 gimplify_init_ctor_eval (cref
, CONSTRUCTOR_ELTS (value
),
3532 tree init
= build2 (INIT_EXPR
, TREE_TYPE (cref
), cref
, value
);
3533 gimplify_and_add (init
, pre_p
);
3540 /* Returns the appropriate RHS predicate for this LHS. */
3543 rhs_predicate_for (tree lhs
)
3545 if (is_gimple_reg (lhs
))
3546 return is_gimple_reg_rhs_or_call
;
3548 return is_gimple_mem_rhs_or_call
;
3551 /* Gimplify a C99 compound literal expression. This just means adding
3552 the DECL_EXPR before the current statement and using its anonymous
3555 static enum gimplify_status
3556 gimplify_compound_literal_expr (tree
*expr_p
, gimple_seq
*pre_p
)
3558 tree decl_s
= COMPOUND_LITERAL_EXPR_DECL_EXPR (*expr_p
);
3559 tree decl
= DECL_EXPR_DECL (decl_s
);
3560 /* Mark the decl as addressable if the compound literal
3561 expression is addressable now, otherwise it is marked too late
3562 after we gimplify the initialization expression. */
3563 if (TREE_ADDRESSABLE (*expr_p
))
3564 TREE_ADDRESSABLE (decl
) = 1;
3566 /* Preliminarily mark non-addressed complex variables as eligible
3567 for promotion to gimple registers. We'll transform their uses
3569 if ((TREE_CODE (TREE_TYPE (decl
)) == COMPLEX_TYPE
3570 || TREE_CODE (TREE_TYPE (decl
)) == VECTOR_TYPE
)
3571 && !TREE_THIS_VOLATILE (decl
)
3572 && !needs_to_live_in_memory (decl
))
3573 DECL_GIMPLE_REG_P (decl
) = 1;
3575 /* This decl isn't mentioned in the enclosing block, so add it to the
3576 list of temps. FIXME it seems a bit of a kludge to say that
3577 anonymous artificial vars aren't pushed, but everything else is. */
3578 if (DECL_NAME (decl
) == NULL_TREE
&& !DECL_SEEN_IN_BIND_EXPR_P (decl
))
3579 gimple_add_tmp_var (decl
);
3581 gimplify_and_add (decl_s
, pre_p
);
3586 /* Optimize embedded COMPOUND_LITERAL_EXPRs within a CONSTRUCTOR,
3587 return a new CONSTRUCTOR if something changed. */
3590 optimize_compound_literals_in_ctor (tree orig_ctor
)
3592 tree ctor
= orig_ctor
;
3593 VEC(constructor_elt
,gc
) *elts
= CONSTRUCTOR_ELTS (ctor
);
3594 unsigned int idx
, num
= VEC_length (constructor_elt
, elts
);
3596 for (idx
= 0; idx
< num
; idx
++)
3598 tree value
= VEC_index (constructor_elt
, elts
, idx
)->value
;
3599 tree newval
= value
;
3600 if (TREE_CODE (value
) == CONSTRUCTOR
)
3601 newval
= optimize_compound_literals_in_ctor (value
);
3602 else if (TREE_CODE (value
) == COMPOUND_LITERAL_EXPR
)
3604 tree decl_s
= COMPOUND_LITERAL_EXPR_DECL_EXPR (value
);
3605 tree decl
= DECL_EXPR_DECL (decl_s
);
3606 tree init
= DECL_INITIAL (decl
);
3608 if (!TREE_ADDRESSABLE (value
)
3609 && !TREE_ADDRESSABLE (decl
)
3611 newval
= optimize_compound_literals_in_ctor (init
);
3613 if (newval
== value
)
3616 if (ctor
== orig_ctor
)
3618 ctor
= copy_node (orig_ctor
);
3619 CONSTRUCTOR_ELTS (ctor
) = VEC_copy (constructor_elt
, gc
, elts
);
3620 elts
= CONSTRUCTOR_ELTS (ctor
);
3622 VEC_index (constructor_elt
, elts
, idx
)->value
= newval
;
3629 /* A subroutine of gimplify_modify_expr. Break out elements of a
3630 CONSTRUCTOR used as an initializer into separate MODIFY_EXPRs.
3632 Note that we still need to clear any elements that don't have explicit
3633 initializers, so if not all elements are initialized we keep the
3634 original MODIFY_EXPR, we just remove all of the constructor elements.
3636 If NOTIFY_TEMP_CREATION is true, do not gimplify, just return
3637 GS_ERROR if we would have to create a temporary when gimplifying
3638 this constructor. Otherwise, return GS_OK.
3640 If NOTIFY_TEMP_CREATION is false, just do the gimplification. */
3642 static enum gimplify_status
3643 gimplify_init_constructor (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
3644 bool want_value
, bool notify_temp_creation
)
3646 tree object
, ctor
, type
;
3647 enum gimplify_status ret
;
3648 VEC(constructor_elt
,gc
) *elts
;
3650 gcc_assert (TREE_CODE (TREE_OPERAND (*expr_p
, 1)) == CONSTRUCTOR
);
3652 if (!notify_temp_creation
)
3654 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
3655 is_gimple_lvalue
, fb_lvalue
);
3656 if (ret
== GS_ERROR
)
3660 object
= TREE_OPERAND (*expr_p
, 0);
3661 ctor
= TREE_OPERAND (*expr_p
, 1) =
3662 optimize_compound_literals_in_ctor (TREE_OPERAND (*expr_p
, 1));
3663 type
= TREE_TYPE (ctor
);
3664 elts
= CONSTRUCTOR_ELTS (ctor
);
3667 switch (TREE_CODE (type
))
3671 case QUAL_UNION_TYPE
:
3674 struct gimplify_init_ctor_preeval_data preeval_data
;
3675 HOST_WIDE_INT num_type_elements
, num_ctor_elements
;
3676 HOST_WIDE_INT num_nonzero_elements
;
3677 bool cleared
, valid_const_initializer
;
3679 /* Aggregate types must lower constructors to initialization of
3680 individual elements. The exception is that a CONSTRUCTOR node
3681 with no elements indicates zero-initialization of the whole. */
3682 if (VEC_empty (constructor_elt
, elts
))
3684 if (notify_temp_creation
)
3689 /* Fetch information about the constructor to direct later processing.
3690 We might want to make static versions of it in various cases, and
3691 can only do so if it known to be a valid constant initializer. */
3692 valid_const_initializer
3693 = categorize_ctor_elements (ctor
, &num_nonzero_elements
,
3694 &num_ctor_elements
, &cleared
);
3696 /* If a const aggregate variable is being initialized, then it
3697 should never be a lose to promote the variable to be static. */
3698 if (valid_const_initializer
3699 && num_nonzero_elements
> 1
3700 && TREE_READONLY (object
)
3701 && TREE_CODE (object
) == VAR_DECL
3702 && (flag_merge_constants
>= 2 || !TREE_ADDRESSABLE (object
)))
3704 if (notify_temp_creation
)
3706 DECL_INITIAL (object
) = ctor
;
3707 TREE_STATIC (object
) = 1;
3708 if (!DECL_NAME (object
))
3709 DECL_NAME (object
) = create_tmp_var_name ("C");
3710 walk_tree (&DECL_INITIAL (object
), force_labels_r
, NULL
, NULL
);
3712 /* ??? C++ doesn't automatically append a .<number> to the
3713 assembler name, and even when it does, it looks a FE private
3714 data structures to figure out what that number should be,
3715 which are not set for this variable. I suppose this is
3716 important for local statics for inline functions, which aren't
3717 "local" in the object file sense. So in order to get a unique
3718 TU-local symbol, we must invoke the lhd version now. */
3719 lhd_set_decl_assembler_name (object
);
3721 *expr_p
= NULL_TREE
;
3725 /* If there are "lots" of initialized elements, even discounting
3726 those that are not address constants (and thus *must* be
3727 computed at runtime), then partition the constructor into
3728 constant and non-constant parts. Block copy the constant
3729 parts in, then generate code for the non-constant parts. */
3730 /* TODO. There's code in cp/typeck.c to do this. */
3732 num_type_elements
= count_type_elements (type
, true);
3734 /* If count_type_elements could not determine number of type elements
3735 for a constant-sized object, assume clearing is needed.
3736 Don't do this for variable-sized objects, as store_constructor
3737 will ignore the clearing of variable-sized objects. */
3738 if (num_type_elements
< 0 && int_size_in_bytes (type
) >= 0)
3740 /* If there are "lots" of zeros, then block clear the object first. */
3741 else if (num_type_elements
- num_nonzero_elements
3742 > CLEAR_RATIO (optimize_function_for_speed_p (cfun
))
3743 && num_nonzero_elements
< num_type_elements
/4)
3745 /* ??? This bit ought not be needed. For any element not present
3746 in the initializer, we should simply set them to zero. Except
3747 we'd need to *find* the elements that are not present, and that
3748 requires trickery to avoid quadratic compile-time behavior in
3749 large cases or excessive memory use in small cases. */
3750 else if (num_ctor_elements
< num_type_elements
)
3753 /* If there are "lots" of initialized elements, and all of them
3754 are valid address constants, then the entire initializer can
3755 be dropped to memory, and then memcpy'd out. Don't do this
3756 for sparse arrays, though, as it's more efficient to follow
3757 the standard CONSTRUCTOR behavior of memset followed by
3758 individual element initialization. Also don't do this for small
3759 all-zero initializers (which aren't big enough to merit
3760 clearing), and don't try to make bitwise copies of
3761 TREE_ADDRESSABLE types. */
3762 if (valid_const_initializer
3763 && !(cleared
|| num_nonzero_elements
== 0)
3764 && !TREE_ADDRESSABLE (type
))
3766 HOST_WIDE_INT size
= int_size_in_bytes (type
);
3769 /* ??? We can still get unbounded array types, at least
3770 from the C++ front end. This seems wrong, but attempt
3771 to work around it for now. */
3774 size
= int_size_in_bytes (TREE_TYPE (object
));
3776 TREE_TYPE (ctor
) = type
= TREE_TYPE (object
);
3779 /* Find the maximum alignment we can assume for the object. */
3780 /* ??? Make use of DECL_OFFSET_ALIGN. */
3781 if (DECL_P (object
))
3782 align
= DECL_ALIGN (object
);
3784 align
= TYPE_ALIGN (type
);
3787 && num_nonzero_elements
> 1
3788 && !can_move_by_pieces (size
, align
))
3792 if (notify_temp_creation
)
3795 new_tree
= create_tmp_var_raw (type
, "C");
3797 gimple_add_tmp_var (new_tree
);
3798 TREE_STATIC (new_tree
) = 1;
3799 TREE_READONLY (new_tree
) = 1;
3800 DECL_INITIAL (new_tree
) = ctor
;
3801 if (align
> DECL_ALIGN (new_tree
))
3803 DECL_ALIGN (new_tree
) = align
;
3804 DECL_USER_ALIGN (new_tree
) = 1;
3806 walk_tree (&DECL_INITIAL (new_tree
), force_labels_r
, NULL
, NULL
);
3808 TREE_OPERAND (*expr_p
, 1) = new_tree
;
3810 /* This is no longer an assignment of a CONSTRUCTOR, but
3811 we still may have processing to do on the LHS. So
3812 pretend we didn't do anything here to let that happen. */
3813 return GS_UNHANDLED
;
3817 if (notify_temp_creation
)
3820 /* If there are nonzero elements, pre-evaluate to capture elements
3821 overlapping with the lhs into temporaries. We must do this before
3822 clearing to fetch the values before they are zeroed-out. */
3823 if (num_nonzero_elements
> 0)
3825 preeval_data
.lhs_base_decl
= get_base_address (object
);
3826 if (!DECL_P (preeval_data
.lhs_base_decl
))
3827 preeval_data
.lhs_base_decl
= NULL
;
3828 preeval_data
.lhs_alias_set
= get_alias_set (object
);
3830 gimplify_init_ctor_preeval (&TREE_OPERAND (*expr_p
, 1),
3831 pre_p
, post_p
, &preeval_data
);
3836 /* Zap the CONSTRUCTOR element list, which simplifies this case.
3837 Note that we still have to gimplify, in order to handle the
3838 case of variable sized types. Avoid shared tree structures. */
3839 CONSTRUCTOR_ELTS (ctor
) = NULL
;
3840 TREE_SIDE_EFFECTS (ctor
) = 0;
3841 object
= unshare_expr (object
);
3842 gimplify_stmt (expr_p
, pre_p
);
3845 /* If we have not block cleared the object, or if there are nonzero
3846 elements in the constructor, add assignments to the individual
3847 scalar fields of the object. */
3848 if (!cleared
|| num_nonzero_elements
> 0)
3849 gimplify_init_ctor_eval (object
, elts
, pre_p
, cleared
);
3851 *expr_p
= NULL_TREE
;
3859 if (notify_temp_creation
)
3862 /* Extract the real and imaginary parts out of the ctor. */
3863 gcc_assert (VEC_length (constructor_elt
, elts
) == 2);
3864 r
= VEC_index (constructor_elt
, elts
, 0)->value
;
3865 i
= VEC_index (constructor_elt
, elts
, 1)->value
;
3866 if (r
== NULL
|| i
== NULL
)
3868 tree zero
= fold_convert (TREE_TYPE (type
), integer_zero_node
);
3875 /* Complex types have either COMPLEX_CST or COMPLEX_EXPR to
3876 represent creation of a complex value. */
3877 if (TREE_CONSTANT (r
) && TREE_CONSTANT (i
))
3879 ctor
= build_complex (type
, r
, i
);
3880 TREE_OPERAND (*expr_p
, 1) = ctor
;
3884 ctor
= build2 (COMPLEX_EXPR
, type
, r
, i
);
3885 TREE_OPERAND (*expr_p
, 1) = ctor
;
3886 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 1),
3889 rhs_predicate_for (TREE_OPERAND (*expr_p
, 0)),
3897 unsigned HOST_WIDE_INT ix
;
3898 constructor_elt
*ce
;
3900 if (notify_temp_creation
)
3903 /* Go ahead and simplify constant constructors to VECTOR_CST. */
3904 if (TREE_CONSTANT (ctor
))
3906 bool constant_p
= true;
3909 /* Even when ctor is constant, it might contain non-*_CST
3910 elements, such as addresses or trapping values like
3911 1.0/0.0 - 1.0/0.0. Such expressions don't belong
3912 in VECTOR_CST nodes. */
3913 FOR_EACH_CONSTRUCTOR_VALUE (elts
, ix
, value
)
3914 if (!CONSTANT_CLASS_P (value
))
3922 TREE_OPERAND (*expr_p
, 1) = build_vector_from_ctor (type
, elts
);
3926 /* Don't reduce an initializer constant even if we can't
3927 make a VECTOR_CST. It won't do anything for us, and it'll
3928 prevent us from representing it as a single constant. */
3929 if (initializer_constant_valid_p (ctor
, type
))
3932 TREE_CONSTANT (ctor
) = 0;
3935 /* Vector types use CONSTRUCTOR all the way through gimple
3936 compilation as a general initializer. */
3937 for (ix
= 0; VEC_iterate (constructor_elt
, elts
, ix
, ce
); ix
++)
3939 enum gimplify_status tret
;
3940 tret
= gimplify_expr (&ce
->value
, pre_p
, post_p
, is_gimple_val
,
3942 if (tret
== GS_ERROR
)
3945 if (!is_gimple_reg (TREE_OPERAND (*expr_p
, 0)))
3946 TREE_OPERAND (*expr_p
, 1) = get_formal_tmp_var (ctor
, pre_p
);
3951 /* So how did we get a CONSTRUCTOR for a scalar type? */
3955 if (ret
== GS_ERROR
)
3957 else if (want_value
)
3964 /* If we have gimplified both sides of the initializer but have
3965 not emitted an assignment, do so now. */
3968 tree lhs
= TREE_OPERAND (*expr_p
, 0);
3969 tree rhs
= TREE_OPERAND (*expr_p
, 1);
3970 gimple init
= gimple_build_assign (lhs
, rhs
);
3971 gimplify_seq_add_stmt (pre_p
, init
);
3979 /* Given a pointer value OP0, return a simplified version of an
3980 indirection through OP0, or NULL_TREE if no simplification is
3981 possible. Note that the resulting type may be different from
3982 the type pointed to in the sense that it is still compatible
3983 from the langhooks point of view. */
3986 gimple_fold_indirect_ref (tree t
)
3988 tree type
= TREE_TYPE (TREE_TYPE (t
));
3992 STRIP_USELESS_TYPE_CONVERSION (sub
);
3993 subtype
= TREE_TYPE (sub
);
3994 if (!POINTER_TYPE_P (subtype
))
3997 if (TREE_CODE (sub
) == ADDR_EXPR
)
3999 tree op
= TREE_OPERAND (sub
, 0);
4000 tree optype
= TREE_TYPE (op
);
4002 if (useless_type_conversion_p (type
, optype
))
4005 /* *(foo *)&fooarray => fooarray[0] */
4006 if (TREE_CODE (optype
) == ARRAY_TYPE
4007 && useless_type_conversion_p (type
, TREE_TYPE (optype
)))
4009 tree type_domain
= TYPE_DOMAIN (optype
);
4010 tree min_val
= size_zero_node
;
4011 if (type_domain
&& TYPE_MIN_VALUE (type_domain
))
4012 min_val
= TYPE_MIN_VALUE (type_domain
);
4013 return build4 (ARRAY_REF
, type
, op
, min_val
, NULL_TREE
, NULL_TREE
);
4017 /* *(foo *)fooarrptr => (*fooarrptr)[0] */
4018 if (TREE_CODE (TREE_TYPE (subtype
)) == ARRAY_TYPE
4019 && useless_type_conversion_p (type
, TREE_TYPE (TREE_TYPE (subtype
))))
4022 tree min_val
= size_zero_node
;
4024 sub
= gimple_fold_indirect_ref (sub
);
4026 sub
= build1 (INDIRECT_REF
, TREE_TYPE (subtype
), osub
);
4027 type_domain
= TYPE_DOMAIN (TREE_TYPE (sub
));
4028 if (type_domain
&& TYPE_MIN_VALUE (type_domain
))
4029 min_val
= TYPE_MIN_VALUE (type_domain
);
4030 return build4 (ARRAY_REF
, type
, sub
, min_val
, NULL_TREE
, NULL_TREE
);
4036 /* Given a pointer value OP0, return a simplified version of an
4037 indirection through OP0, or NULL_TREE if no simplification is
4038 possible. This may only be applied to a rhs of an expression.
4039 Note that the resulting type may be different from the type pointed
4040 to in the sense that it is still compatible from the langhooks
4044 gimple_fold_indirect_ref_rhs (tree t
)
4046 return gimple_fold_indirect_ref (t
);
4049 /* Subroutine of gimplify_modify_expr to do simplifications of
4050 MODIFY_EXPRs based on the code of the RHS. We loop for as long as
4051 something changes. */
4053 static enum gimplify_status
4054 gimplify_modify_expr_rhs (tree
*expr_p
, tree
*from_p
, tree
*to_p
,
4055 gimple_seq
*pre_p
, gimple_seq
*post_p
,
4058 enum gimplify_status ret
= GS_OK
;
4060 while (ret
!= GS_UNHANDLED
)
4061 switch (TREE_CODE (*from_p
))
4064 /* If we're assigning from a read-only variable initialized with
4065 a constructor, do the direct assignment from the constructor,
4066 but only if neither source nor target are volatile since this
4067 latter assignment might end up being done on a per-field basis. */
4068 if (DECL_INITIAL (*from_p
)
4069 && TREE_READONLY (*from_p
)
4070 && !TREE_THIS_VOLATILE (*from_p
)
4071 && !TREE_THIS_VOLATILE (*to_p
)
4072 && TREE_CODE (DECL_INITIAL (*from_p
)) == CONSTRUCTOR
)
4074 tree old_from
= *from_p
;
4076 /* Move the constructor into the RHS. */
4077 *from_p
= unshare_expr (DECL_INITIAL (*from_p
));
4079 /* Let's see if gimplify_init_constructor will need to put
4080 it in memory. If so, revert the change. */
4081 ret
= gimplify_init_constructor (expr_p
, NULL
, NULL
, false, true);
4082 if (ret
== GS_ERROR
)
4097 /* If we have code like
4101 where the type of "x" is a (possibly cv-qualified variant
4102 of "A"), treat the entire expression as identical to "x".
4103 This kind of code arises in C++ when an object is bound
4104 to a const reference, and if "x" is a TARGET_EXPR we want
4105 to take advantage of the optimization below. */
4106 tree t
= gimple_fold_indirect_ref_rhs (TREE_OPERAND (*from_p
, 0));
4119 /* If we are initializing something from a TARGET_EXPR, strip the
4120 TARGET_EXPR and initialize it directly, if possible. This can't
4121 be done if the initializer is void, since that implies that the
4122 temporary is set in some non-trivial way.
4124 ??? What about code that pulls out the temp and uses it
4125 elsewhere? I think that such code never uses the TARGET_EXPR as
4126 an initializer. If I'm wrong, we'll die because the temp won't
4127 have any RTL. In that case, I guess we'll need to replace
4128 references somehow. */
4129 tree init
= TARGET_EXPR_INITIAL (*from_p
);
4132 && !VOID_TYPE_P (TREE_TYPE (init
)))
4143 /* Remove any COMPOUND_EXPR in the RHS so the following cases will be
4145 gimplify_compound_expr (from_p
, pre_p
, true);
4150 /* If we're initializing from a CONSTRUCTOR, break this into
4151 individual MODIFY_EXPRs. */
4152 return gimplify_init_constructor (expr_p
, pre_p
, post_p
, want_value
,
4156 /* If we're assigning to a non-register type, push the assignment
4157 down into the branches. This is mandatory for ADDRESSABLE types,
4158 since we cannot generate temporaries for such, but it saves a
4159 copy in other cases as well. */
4160 if (!is_gimple_reg_type (TREE_TYPE (*from_p
)))
4162 /* This code should mirror the code in gimplify_cond_expr. */
4163 enum tree_code code
= TREE_CODE (*expr_p
);
4164 tree cond
= *from_p
;
4165 tree result
= *to_p
;
4167 ret
= gimplify_expr (&result
, pre_p
, post_p
,
4168 is_gimple_lvalue
, fb_lvalue
);
4169 if (ret
!= GS_ERROR
)
4172 if (TREE_TYPE (TREE_OPERAND (cond
, 1)) != void_type_node
)
4173 TREE_OPERAND (cond
, 1)
4174 = build2 (code
, void_type_node
, result
,
4175 TREE_OPERAND (cond
, 1));
4176 if (TREE_TYPE (TREE_OPERAND (cond
, 2)) != void_type_node
)
4177 TREE_OPERAND (cond
, 2)
4178 = build2 (code
, void_type_node
, unshare_expr (result
),
4179 TREE_OPERAND (cond
, 2));
4181 TREE_TYPE (cond
) = void_type_node
;
4182 recalculate_side_effects (cond
);
4186 gimplify_and_add (cond
, pre_p
);
4187 *expr_p
= unshare_expr (result
);
4198 /* For calls that return in memory, give *to_p as the CALL_EXPR's
4199 return slot so that we don't generate a temporary. */
4200 if (!CALL_EXPR_RETURN_SLOT_OPT (*from_p
)
4201 && aggregate_value_p (*from_p
, *from_p
))
4205 if (!(rhs_predicate_for (*to_p
))(*from_p
))
4206 /* If we need a temporary, *to_p isn't accurate. */
4208 else if (TREE_CODE (*to_p
) == RESULT_DECL
4209 && DECL_NAME (*to_p
) == NULL_TREE
4210 && needs_to_live_in_memory (*to_p
))
4211 /* It's OK to use the return slot directly unless it's an NRV. */
4213 else if (is_gimple_reg_type (TREE_TYPE (*to_p
))
4214 || (DECL_P (*to_p
) && DECL_REGISTER (*to_p
)))
4215 /* Don't force regs into memory. */
4217 else if (TREE_CODE (*expr_p
) == INIT_EXPR
)
4218 /* It's OK to use the target directly if it's being
4221 else if (!is_gimple_non_addressable (*to_p
))
4222 /* Don't use the original target if it's already addressable;
4223 if its address escapes, and the called function uses the
4224 NRV optimization, a conforming program could see *to_p
4225 change before the called function returns; see c++/19317.
4226 When optimizing, the return_slot pass marks more functions
4227 as safe after we have escape info. */
4234 CALL_EXPR_RETURN_SLOT_OPT (*from_p
) = 1;
4235 mark_addressable (*to_p
);
4242 /* If we're initializing from a container, push the initialization
4244 case CLEANUP_POINT_EXPR
:
4246 case STATEMENT_LIST
:
4248 tree wrap
= *from_p
;
4251 ret
= gimplify_expr (to_p
, pre_p
, post_p
, is_gimple_min_lval
,
4253 if (ret
!= GS_ERROR
)
4256 t
= voidify_wrapper_expr (wrap
, *expr_p
);
4257 gcc_assert (t
== *expr_p
);
4261 gimplify_and_add (wrap
, pre_p
);
4262 *expr_p
= unshare_expr (*to_p
);
4269 case COMPOUND_LITERAL_EXPR
:
4271 tree complit
= TREE_OPERAND (*expr_p
, 1);
4272 tree decl_s
= COMPOUND_LITERAL_EXPR_DECL_EXPR (complit
);
4273 tree decl
= DECL_EXPR_DECL (decl_s
);
4274 tree init
= DECL_INITIAL (decl
);
4276 /* struct T x = (struct T) { 0, 1, 2 } can be optimized
4277 into struct T x = { 0, 1, 2 } if the address of the
4278 compound literal has never been taken. */
4279 if (!TREE_ADDRESSABLE (complit
)
4280 && !TREE_ADDRESSABLE (decl
)
4283 *expr_p
= copy_node (*expr_p
);
4284 TREE_OPERAND (*expr_p
, 1) = init
;
4298 /* Promote partial stores to COMPLEX variables to total stores. *EXPR_P is
4299 a MODIFY_EXPR with a lhs of a REAL/IMAGPART_EXPR of a variable with
4300 DECL_GIMPLE_REG_P set.
4302 IMPORTANT NOTE: This promotion is performed by introducing a load of the
4303 other, unmodified part of the complex object just before the total store.
4304 As a consequence, if the object is still uninitialized, an undefined value
4305 will be loaded into a register, which may result in a spurious exception
4306 if the register is floating-point and the value happens to be a signaling
4307 NaN for example. Then the fully-fledged complex operations lowering pass
4308 followed by a DCE pass are necessary in order to fix things up. */
4310 static enum gimplify_status
4311 gimplify_modify_expr_complex_part (tree
*expr_p
, gimple_seq
*pre_p
,
4314 enum tree_code code
, ocode
;
4315 tree lhs
, rhs
, new_rhs
, other
, realpart
, imagpart
;
4317 lhs
= TREE_OPERAND (*expr_p
, 0);
4318 rhs
= TREE_OPERAND (*expr_p
, 1);
4319 code
= TREE_CODE (lhs
);
4320 lhs
= TREE_OPERAND (lhs
, 0);
4322 ocode
= code
== REALPART_EXPR
? IMAGPART_EXPR
: REALPART_EXPR
;
4323 other
= build1 (ocode
, TREE_TYPE (rhs
), lhs
);
4324 other
= get_formal_tmp_var (other
, pre_p
);
4326 realpart
= code
== REALPART_EXPR
? rhs
: other
;
4327 imagpart
= code
== REALPART_EXPR
? other
: rhs
;
4329 if (TREE_CONSTANT (realpart
) && TREE_CONSTANT (imagpart
))
4330 new_rhs
= build_complex (TREE_TYPE (lhs
), realpart
, imagpart
);
4332 new_rhs
= build2 (COMPLEX_EXPR
, TREE_TYPE (lhs
), realpart
, imagpart
);
4334 gimplify_seq_add_stmt (pre_p
, gimple_build_assign (lhs
, new_rhs
));
4335 *expr_p
= (want_value
) ? rhs
: NULL_TREE
;
4341 /* Gimplify the MODIFY_EXPR node pointed to by EXPR_P.
4347 PRE_P points to the list where side effects that must happen before
4348 *EXPR_P should be stored.
4350 POST_P points to the list where side effects that must happen after
4351 *EXPR_P should be stored.
4353 WANT_VALUE is nonzero iff we want to use the value of this expression
4354 in another expression. */
4356 static enum gimplify_status
4357 gimplify_modify_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
4360 tree
*from_p
= &TREE_OPERAND (*expr_p
, 1);
4361 tree
*to_p
= &TREE_OPERAND (*expr_p
, 0);
4362 enum gimplify_status ret
= GS_UNHANDLED
;
4365 gcc_assert (TREE_CODE (*expr_p
) == MODIFY_EXPR
4366 || TREE_CODE (*expr_p
) == INIT_EXPR
);
4368 /* Insert pointer conversions required by the middle-end that are not
4369 required by the frontend. This fixes middle-end type checking for
4370 for example gcc.dg/redecl-6.c. */
4371 if (POINTER_TYPE_P (TREE_TYPE (*to_p
))
4372 && lang_hooks
.types_compatible_p (TREE_TYPE (*to_p
), TREE_TYPE (*from_p
)))
4374 STRIP_USELESS_TYPE_CONVERSION (*from_p
);
4375 if (!useless_type_conversion_p (TREE_TYPE (*to_p
), TREE_TYPE (*from_p
)))
4376 *from_p
= fold_convert (TREE_TYPE (*to_p
), *from_p
);
4379 /* See if any simplifications can be done based on what the RHS is. */
4380 ret
= gimplify_modify_expr_rhs (expr_p
, from_p
, to_p
, pre_p
, post_p
,
4382 if (ret
!= GS_UNHANDLED
)
4385 /* For zero sized types only gimplify the left hand side and right hand
4386 side as statements and throw away the assignment. Do this after
4387 gimplify_modify_expr_rhs so we handle TARGET_EXPRs of addressable
4389 if (zero_sized_type (TREE_TYPE (*from_p
)) && !want_value
)
4391 gimplify_stmt (from_p
, pre_p
);
4392 gimplify_stmt (to_p
, pre_p
);
4393 *expr_p
= NULL_TREE
;
4397 /* If the value being copied is of variable width, compute the length
4398 of the copy into a WITH_SIZE_EXPR. Note that we need to do this
4399 before gimplifying any of the operands so that we can resolve any
4400 PLACEHOLDER_EXPRs in the size. Also note that the RTL expander uses
4401 the size of the expression to be copied, not of the destination, so
4402 that is what we must do here. */
4403 maybe_with_size_expr (from_p
);
4405 ret
= gimplify_expr (to_p
, pre_p
, post_p
, is_gimple_lvalue
, fb_lvalue
);
4406 if (ret
== GS_ERROR
)
4409 /* As a special case, we have to temporarily allow for assignments
4410 with a CALL_EXPR on the RHS. Since in GIMPLE a function call is
4411 a toplevel statement, when gimplifying the GENERIC expression
4412 MODIFY_EXPR <a, CALL_EXPR <foo>>, we cannot create the tuple
4413 GIMPLE_ASSIGN <a, GIMPLE_CALL <foo>>.
4415 Instead, we need to create the tuple GIMPLE_CALL <a, foo>. To
4416 prevent gimplify_expr from trying to create a new temporary for
4417 foo's LHS, we tell it that it should only gimplify until it
4418 reaches the CALL_EXPR. On return from gimplify_expr, the newly
4419 created GIMPLE_CALL <foo> will be the last statement in *PRE_P
4420 and all we need to do here is set 'a' to be its LHS. */
4421 ret
= gimplify_expr (from_p
, pre_p
, post_p
, rhs_predicate_for (*to_p
),
4423 if (ret
== GS_ERROR
)
4426 /* Now see if the above changed *from_p to something we handle specially. */
4427 ret
= gimplify_modify_expr_rhs (expr_p
, from_p
, to_p
, pre_p
, post_p
,
4429 if (ret
!= GS_UNHANDLED
)
4432 /* If we've got a variable sized assignment between two lvalues (i.e. does
4433 not involve a call), then we can make things a bit more straightforward
4434 by converting the assignment to memcpy or memset. */
4435 if (TREE_CODE (*from_p
) == WITH_SIZE_EXPR
)
4437 tree from
= TREE_OPERAND (*from_p
, 0);
4438 tree size
= TREE_OPERAND (*from_p
, 1);
4440 if (TREE_CODE (from
) == CONSTRUCTOR
)
4441 return gimplify_modify_expr_to_memset (expr_p
, size
, want_value
, pre_p
);
4443 if (is_gimple_addressable (from
))
4446 return gimplify_modify_expr_to_memcpy (expr_p
, size
, want_value
,
4451 /* Transform partial stores to non-addressable complex variables into
4452 total stores. This allows us to use real instead of virtual operands
4453 for these variables, which improves optimization. */
4454 if ((TREE_CODE (*to_p
) == REALPART_EXPR
4455 || TREE_CODE (*to_p
) == IMAGPART_EXPR
)
4456 && is_gimple_reg (TREE_OPERAND (*to_p
, 0)))
4457 return gimplify_modify_expr_complex_part (expr_p
, pre_p
, want_value
);
4459 /* Try to alleviate the effects of the gimplification creating artificial
4460 temporaries (see for example is_gimple_reg_rhs) on the debug info. */
4461 if (!gimplify_ctxp
->into_ssa
4463 && DECL_IGNORED_P (*from_p
)
4465 && !DECL_IGNORED_P (*to_p
))
4467 if (!DECL_NAME (*from_p
) && DECL_NAME (*to_p
))
4469 = create_tmp_var_name (IDENTIFIER_POINTER (DECL_NAME (*to_p
)));
4470 DECL_DEBUG_EXPR_IS_FROM (*from_p
) = 1;
4471 SET_DECL_DEBUG_EXPR (*from_p
, *to_p
);
4474 if (TREE_CODE (*from_p
) == CALL_EXPR
)
4476 /* Since the RHS is a CALL_EXPR, we need to create a GIMPLE_CALL
4477 instead of a GIMPLE_ASSIGN. */
4478 assign
= gimple_build_call_from_tree (*from_p
);
4479 gimple_call_set_lhs (assign
, *to_p
);
4482 assign
= gimple_build_assign (*to_p
, *from_p
);
4484 gimplify_seq_add_stmt (pre_p
, assign
);
4486 if (gimplify_ctxp
->into_ssa
&& is_gimple_reg (*to_p
))
4488 /* If we've somehow already got an SSA_NAME on the LHS, then
4489 we've probably modified it twice. Not good. */
4490 gcc_assert (TREE_CODE (*to_p
) != SSA_NAME
);
4491 *to_p
= make_ssa_name (*to_p
, assign
);
4492 gimple_set_lhs (assign
, *to_p
);
4497 *expr_p
= unshare_expr (*to_p
);
4506 /* Gimplify a comparison between two variable-sized objects. Do this
4507 with a call to BUILT_IN_MEMCMP. */
4509 static enum gimplify_status
4510 gimplify_variable_sized_compare (tree
*expr_p
)
4512 tree op0
= TREE_OPERAND (*expr_p
, 0);
4513 tree op1
= TREE_OPERAND (*expr_p
, 1);
4514 tree t
, arg
, dest
, src
;
4516 arg
= TYPE_SIZE_UNIT (TREE_TYPE (op0
));
4517 arg
= unshare_expr (arg
);
4518 arg
= SUBSTITUTE_PLACEHOLDER_IN_EXPR (arg
, op0
);
4519 src
= build_fold_addr_expr (op1
);
4520 dest
= build_fold_addr_expr (op0
);
4521 t
= implicit_built_in_decls
[BUILT_IN_MEMCMP
];
4522 t
= build_call_expr (t
, 3, dest
, src
, arg
);
4524 = build2 (TREE_CODE (*expr_p
), TREE_TYPE (*expr_p
), t
, integer_zero_node
);
4529 /* Gimplify a comparison between two aggregate objects of integral scalar
4530 mode as a comparison between the bitwise equivalent scalar values. */
4532 static enum gimplify_status
4533 gimplify_scalar_mode_aggregate_compare (tree
*expr_p
)
4535 tree op0
= TREE_OPERAND (*expr_p
, 0);
4536 tree op1
= TREE_OPERAND (*expr_p
, 1);
4538 tree type
= TREE_TYPE (op0
);
4539 tree scalar_type
= lang_hooks
.types
.type_for_mode (TYPE_MODE (type
), 1);
4541 op0
= fold_build1 (VIEW_CONVERT_EXPR
, scalar_type
, op0
);
4542 op1
= fold_build1 (VIEW_CONVERT_EXPR
, scalar_type
, op1
);
4545 = fold_build2 (TREE_CODE (*expr_p
), TREE_TYPE (*expr_p
), op0
, op1
);
4550 /* Gimplify TRUTH_ANDIF_EXPR and TRUTH_ORIF_EXPR expressions. EXPR_P
4551 points to the expression to gimplify.
4553 Expressions of the form 'a && b' are gimplified to:
4555 a && b ? true : false
4557 LOCUS is the source location to be put on the generated COND_EXPR.
4558 gimplify_cond_expr will do the rest. */
4560 static enum gimplify_status
4561 gimplify_boolean_expr (tree
*expr_p
, location_t locus
)
4563 /* Preserve the original type of the expression. */
4564 tree type
= TREE_TYPE (*expr_p
);
4566 *expr_p
= build3 (COND_EXPR
, type
, *expr_p
,
4567 fold_convert (type
, boolean_true_node
),
4568 fold_convert (type
, boolean_false_node
));
4570 SET_EXPR_LOCATION (*expr_p
, locus
);
4575 /* Gimplifies an expression sequence. This function gimplifies each
4576 expression and re-writes the original expression with the last
4577 expression of the sequence in GIMPLE form.
4579 PRE_P points to the list where the side effects for all the
4580 expressions in the sequence will be emitted.
4582 WANT_VALUE is true when the result of the last COMPOUND_EXPR is used. */
4584 static enum gimplify_status
4585 gimplify_compound_expr (tree
*expr_p
, gimple_seq
*pre_p
, bool want_value
)
4591 tree
*sub_p
= &TREE_OPERAND (t
, 0);
4593 if (TREE_CODE (*sub_p
) == COMPOUND_EXPR
)
4594 gimplify_compound_expr (sub_p
, pre_p
, false);
4596 gimplify_stmt (sub_p
, pre_p
);
4598 t
= TREE_OPERAND (t
, 1);
4600 while (TREE_CODE (t
) == COMPOUND_EXPR
);
4607 gimplify_stmt (expr_p
, pre_p
);
4613 /* Gimplify a SAVE_EXPR node. EXPR_P points to the expression to
4614 gimplify. After gimplification, EXPR_P will point to a new temporary
4615 that holds the original value of the SAVE_EXPR node.
4617 PRE_P points to the list where side effects that must happen before
4618 *EXPR_P should be stored. */
4620 static enum gimplify_status
4621 gimplify_save_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
)
4623 enum gimplify_status ret
= GS_ALL_DONE
;
4626 gcc_assert (TREE_CODE (*expr_p
) == SAVE_EXPR
);
4627 val
= TREE_OPERAND (*expr_p
, 0);
4629 /* If the SAVE_EXPR has not been resolved, then evaluate it once. */
4630 if (!SAVE_EXPR_RESOLVED_P (*expr_p
))
4632 /* The operand may be a void-valued expression such as SAVE_EXPRs
4633 generated by the Java frontend for class initialization. It is
4634 being executed only for its side-effects. */
4635 if (TREE_TYPE (val
) == void_type_node
)
4637 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
4638 is_gimple_stmt
, fb_none
);
4642 val
= get_initialized_tmp_var (val
, pre_p
, post_p
);
4644 TREE_OPERAND (*expr_p
, 0) = val
;
4645 SAVE_EXPR_RESOLVED_P (*expr_p
) = 1;
4653 /* Re-write the ADDR_EXPR node pointed to by EXPR_P
4660 PRE_P points to the list where side effects that must happen before
4661 *EXPR_P should be stored.
4663 POST_P points to the list where side effects that must happen after
4664 *EXPR_P should be stored. */
4666 static enum gimplify_status
4667 gimplify_addr_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
)
4669 tree expr
= *expr_p
;
4670 tree op0
= TREE_OPERAND (expr
, 0);
4671 enum gimplify_status ret
;
4673 switch (TREE_CODE (op0
))
4676 case MISALIGNED_INDIRECT_REF
:
4678 /* Check if we are dealing with an expression of the form '&*ptr'.
4679 While the front end folds away '&*ptr' into 'ptr', these
4680 expressions may be generated internally by the compiler (e.g.,
4681 builtins like __builtin_va_end). */
4682 /* Caution: the silent array decomposition semantics we allow for
4683 ADDR_EXPR means we can't always discard the pair. */
4684 /* Gimplification of the ADDR_EXPR operand may drop
4685 cv-qualification conversions, so make sure we add them if
4688 tree op00
= TREE_OPERAND (op0
, 0);
4689 tree t_expr
= TREE_TYPE (expr
);
4690 tree t_op00
= TREE_TYPE (op00
);
4692 if (!useless_type_conversion_p (t_expr
, t_op00
))
4693 op00
= fold_convert (TREE_TYPE (expr
), op00
);
4699 case VIEW_CONVERT_EXPR
:
4700 /* Take the address of our operand and then convert it to the type of
4703 ??? The interactions of VIEW_CONVERT_EXPR and aliasing is not at
4704 all clear. The impact of this transformation is even less clear. */
4706 /* If the operand is a useless conversion, look through it. Doing so
4707 guarantees that the ADDR_EXPR and its operand will remain of the
4709 if (tree_ssa_useless_type_conversion (TREE_OPERAND (op0
, 0)))
4710 op0
= TREE_OPERAND (op0
, 0);
4712 *expr_p
= fold_convert (TREE_TYPE (expr
),
4713 build_fold_addr_expr (TREE_OPERAND (op0
, 0)));
4718 /* We use fb_either here because the C frontend sometimes takes
4719 the address of a call that returns a struct; see
4720 gcc.dg/c99-array-lval-1.c. The gimplifier will correctly make
4721 the implied temporary explicit. */
4723 /* Mark the RHS addressable. */
4724 ret
= gimplify_expr (&TREE_OPERAND (expr
, 0), pre_p
, post_p
,
4725 is_gimple_addressable
, fb_either
);
4726 if (ret
== GS_ERROR
)
4729 /* We cannot rely on making the RHS addressable if it is
4730 a temporary created by gimplification. In this case create a
4731 new temporary that is initialized by a copy (which will
4732 become a store after we mark it addressable).
4733 This mostly happens if the frontend passed us something that
4734 it could not mark addressable yet, like a fortran
4735 pass-by-reference parameter (int) floatvar. */
4736 if (is_gimple_reg (TREE_OPERAND (expr
, 0)))
4737 TREE_OPERAND (expr
, 0)
4738 = get_initialized_tmp_var (TREE_OPERAND (expr
, 0), pre_p
, post_p
);
4740 op0
= TREE_OPERAND (expr
, 0);
4742 /* For various reasons, the gimplification of the expression
4743 may have made a new INDIRECT_REF. */
4744 if (TREE_CODE (op0
) == INDIRECT_REF
)
4745 goto do_indirect_ref
;
4747 /* Make sure TREE_CONSTANT and TREE_SIDE_EFFECTS are set properly. */
4748 recompute_tree_invariant_for_addr_expr (expr
);
4750 mark_addressable (TREE_OPERAND (expr
, 0));
4757 /* Gimplify the operands of an ASM_EXPR. Input operands should be a gimple
4758 value; output operands should be a gimple lvalue. */
4760 static enum gimplify_status
4761 gimplify_asm_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
)
4765 const char **oconstraints
;
4768 const char *constraint
;
4769 bool allows_mem
, allows_reg
, is_inout
;
4770 enum gimplify_status ret
, tret
;
4772 VEC(tree
, gc
) *inputs
;
4773 VEC(tree
, gc
) *outputs
;
4774 VEC(tree
, gc
) *clobbers
;
4778 noutputs
= list_length (ASM_OUTPUTS (expr
));
4779 oconstraints
= (const char **) alloca ((noutputs
) * sizeof (const char *));
4781 inputs
= outputs
= clobbers
= NULL
;
4784 link_next
= NULL_TREE
;
4785 for (i
= 0, link
= ASM_OUTPUTS (expr
); link
; ++i
, link
= link_next
)
4788 size_t constraint_len
;
4790 link_next
= TREE_CHAIN (link
);
4794 = TREE_STRING_POINTER (TREE_VALUE (TREE_PURPOSE (link
)));
4795 constraint_len
= strlen (constraint
);
4796 if (constraint_len
== 0)
4799 ok
= parse_output_constraint (&constraint
, i
, 0, 0,
4800 &allows_mem
, &allows_reg
, &is_inout
);
4807 if (!allows_reg
&& allows_mem
)
4808 mark_addressable (TREE_VALUE (link
));
4810 tret
= gimplify_expr (&TREE_VALUE (link
), pre_p
, post_p
,
4811 is_inout
? is_gimple_min_lval
: is_gimple_lvalue
,
4812 fb_lvalue
| fb_mayfail
);
4813 if (tret
== GS_ERROR
)
4815 error ("invalid lvalue in asm output %d", i
);
4819 VEC_safe_push (tree
, gc
, outputs
, link
);
4820 TREE_CHAIN (link
) = NULL_TREE
;
4824 /* An input/output operand. To give the optimizers more
4825 flexibility, split it into separate input and output
4830 /* Turn the in/out constraint into an output constraint. */
4831 char *p
= xstrdup (constraint
);
4833 TREE_VALUE (TREE_PURPOSE (link
)) = build_string (constraint_len
, p
);
4835 /* And add a matching input constraint. */
4838 sprintf (buf
, "%d", i
);
4840 /* If there are multiple alternatives in the constraint,
4841 handle each of them individually. Those that allow register
4842 will be replaced with operand number, the others will stay
4844 if (strchr (p
, ',') != NULL
)
4846 size_t len
= 0, buflen
= strlen (buf
);
4847 char *beg
, *end
, *str
, *dst
;
4851 end
= strchr (beg
, ',');
4853 end
= strchr (beg
, '\0');
4854 if ((size_t) (end
- beg
) < buflen
)
4857 len
+= end
- beg
+ 1;
4864 str
= (char *) alloca (len
);
4865 for (beg
= p
+ 1, dst
= str
;;)
4868 bool mem_p
, reg_p
, inout_p
;
4870 end
= strchr (beg
, ',');
4875 parse_output_constraint (&tem
, i
, 0, 0,
4876 &mem_p
, ®_p
, &inout_p
);
4881 memcpy (dst
, buf
, buflen
);
4890 memcpy (dst
, beg
, len
);
4899 input
= build_string (dst
- str
, str
);
4902 input
= build_string (strlen (buf
), buf
);
4905 input
= build_string (constraint_len
- 1, constraint
+ 1);
4909 input
= build_tree_list (build_tree_list (NULL_TREE
, input
),
4910 unshare_expr (TREE_VALUE (link
)));
4911 ASM_INPUTS (expr
) = chainon (ASM_INPUTS (expr
), input
);
4915 link_next
= NULL_TREE
;
4916 for (link
= ASM_INPUTS (expr
); link
; ++i
, link
= link_next
)
4918 link_next
= TREE_CHAIN (link
);
4919 constraint
= TREE_STRING_POINTER (TREE_VALUE (TREE_PURPOSE (link
)));
4920 parse_input_constraint (&constraint
, 0, 0, noutputs
, 0,
4921 oconstraints
, &allows_mem
, &allows_reg
);
4923 /* If we can't make copies, we can only accept memory. */
4924 if (TREE_ADDRESSABLE (TREE_TYPE (TREE_VALUE (link
))))
4930 error ("impossible constraint in %<asm%>");
4931 error ("non-memory input %d must stay in memory", i
);
4936 /* If the operand is a memory input, it should be an lvalue. */
4937 if (!allows_reg
&& allows_mem
)
4939 tret
= gimplify_expr (&TREE_VALUE (link
), pre_p
, post_p
,
4940 is_gimple_lvalue
, fb_lvalue
| fb_mayfail
);
4941 mark_addressable (TREE_VALUE (link
));
4942 if (tret
== GS_ERROR
)
4944 if (EXPR_HAS_LOCATION (TREE_VALUE (link
)))
4945 input_location
= EXPR_LOCATION (TREE_VALUE (link
));
4946 error ("memory input %d is not directly addressable", i
);
4952 tret
= gimplify_expr (&TREE_VALUE (link
), pre_p
, post_p
,
4953 is_gimple_asm_val
, fb_rvalue
);
4954 if (tret
== GS_ERROR
)
4958 TREE_CHAIN (link
) = NULL_TREE
;
4959 VEC_safe_push (tree
, gc
, inputs
, link
);
4962 for (link
= ASM_CLOBBERS (expr
); link
; ++i
, link
= TREE_CHAIN (link
))
4963 VEC_safe_push (tree
, gc
, clobbers
, link
);
4965 stmt
= gimple_build_asm_vec (TREE_STRING_POINTER (ASM_STRING (expr
)),
4966 inputs
, outputs
, clobbers
);
4968 gimple_asm_set_volatile (stmt
, ASM_VOLATILE_P (expr
));
4969 gimple_asm_set_input (stmt
, ASM_INPUT_P (expr
));
4971 gimplify_seq_add_stmt (pre_p
, stmt
);
4976 /* Gimplify a CLEANUP_POINT_EXPR. Currently this works by adding
4977 GIMPLE_WITH_CLEANUP_EXPRs to the prequeue as we encounter cleanups while
4978 gimplifying the body, and converting them to TRY_FINALLY_EXPRs when we
4979 return to this function.
4981 FIXME should we complexify the prequeue handling instead? Or use flags
4982 for all the cleanups and let the optimizer tighten them up? The current
4983 code seems pretty fragile; it will break on a cleanup within any
4984 non-conditional nesting. But any such nesting would be broken, anyway;
4985 we can't write a TRY_FINALLY_EXPR that starts inside a nesting construct
4986 and continues out of it. We can do that at the RTL level, though, so
4987 having an optimizer to tighten up try/finally regions would be a Good
4990 static enum gimplify_status
4991 gimplify_cleanup_point_expr (tree
*expr_p
, gimple_seq
*pre_p
)
4993 gimple_stmt_iterator iter
;
4994 gimple_seq body_sequence
= NULL
;
4996 tree temp
= voidify_wrapper_expr (*expr_p
, NULL
);
4998 /* We only care about the number of conditions between the innermost
4999 CLEANUP_POINT_EXPR and the cleanup. So save and reset the count and
5000 any cleanups collected outside the CLEANUP_POINT_EXPR. */
5001 int old_conds
= gimplify_ctxp
->conditions
;
5002 gimple_seq old_cleanups
= gimplify_ctxp
->conditional_cleanups
;
5003 gimplify_ctxp
->conditions
= 0;
5004 gimplify_ctxp
->conditional_cleanups
= NULL
;
5006 gimplify_stmt (&TREE_OPERAND (*expr_p
, 0), &body_sequence
);
5008 gimplify_ctxp
->conditions
= old_conds
;
5009 gimplify_ctxp
->conditional_cleanups
= old_cleanups
;
5011 for (iter
= gsi_start (body_sequence
); !gsi_end_p (iter
); )
5013 gimple wce
= gsi_stmt (iter
);
5015 if (gimple_code (wce
) == GIMPLE_WITH_CLEANUP_EXPR
)
5017 if (gsi_one_before_end_p (iter
))
5019 /* Note that gsi_insert_seq_before and gsi_remove do not
5020 scan operands, unlike some other sequence mutators. */
5021 gsi_insert_seq_before_without_update (&iter
,
5022 gimple_wce_cleanup (wce
),
5024 gsi_remove (&iter
, true);
5031 enum gimple_try_flags kind
;
5033 if (gimple_wce_cleanup_eh_only (wce
))
5034 kind
= GIMPLE_TRY_CATCH
;
5036 kind
= GIMPLE_TRY_FINALLY
;
5037 seq
= gsi_split_seq_after (iter
);
5039 gtry
= gimple_build_try (seq
, gimple_wce_cleanup (wce
), kind
);
5040 /* Do not use gsi_replace here, as it may scan operands.
5041 We want to do a simple structural modification only. */
5042 *gsi_stmt_ptr (&iter
) = gtry
;
5043 iter
= gsi_start (seq
);
5050 gimplify_seq_add_seq (pre_p
, body_sequence
);
5063 /* Insert a cleanup marker for gimplify_cleanup_point_expr. CLEANUP
5064 is the cleanup action required. EH_ONLY is true if the cleanup should
5065 only be executed if an exception is thrown, not on normal exit. */
5068 gimple_push_cleanup (tree var
, tree cleanup
, bool eh_only
, gimple_seq
*pre_p
)
5071 gimple_seq cleanup_stmts
= NULL
;
5073 /* Errors can result in improperly nested cleanups. Which results in
5074 confusion when trying to resolve the GIMPLE_WITH_CLEANUP_EXPR. */
5075 if (errorcount
|| sorrycount
)
5078 if (gimple_conditional_context ())
5080 /* If we're in a conditional context, this is more complex. We only
5081 want to run the cleanup if we actually ran the initialization that
5082 necessitates it, but we want to run it after the end of the
5083 conditional context. So we wrap the try/finally around the
5084 condition and use a flag to determine whether or not to actually
5085 run the destructor. Thus
5089 becomes (approximately)
5093 if (test) { A::A(temp); flag = 1; val = f(temp); }
5096 if (flag) A::~A(temp);
5100 tree flag
= create_tmp_var (boolean_type_node
, "cleanup");
5101 gimple ffalse
= gimple_build_assign (flag
, boolean_false_node
);
5102 gimple ftrue
= gimple_build_assign (flag
, boolean_true_node
);
5104 cleanup
= build3 (COND_EXPR
, void_type_node
, flag
, cleanup
, NULL
);
5105 gimplify_stmt (&cleanup
, &cleanup_stmts
);
5106 wce
= gimple_build_wce (cleanup_stmts
);
5108 gimplify_seq_add_stmt (&gimplify_ctxp
->conditional_cleanups
, ffalse
);
5109 gimplify_seq_add_stmt (&gimplify_ctxp
->conditional_cleanups
, wce
);
5110 gimplify_seq_add_stmt (pre_p
, ftrue
);
5112 /* Because of this manipulation, and the EH edges that jump
5113 threading cannot redirect, the temporary (VAR) will appear
5114 to be used uninitialized. Don't warn. */
5115 TREE_NO_WARNING (var
) = 1;
5119 gimplify_stmt (&cleanup
, &cleanup_stmts
);
5120 wce
= gimple_build_wce (cleanup_stmts
);
5121 gimple_wce_set_cleanup_eh_only (wce
, eh_only
);
5122 gimplify_seq_add_stmt (pre_p
, wce
);
5126 /* Gimplify a TARGET_EXPR which doesn't appear on the rhs of an INIT_EXPR. */
5128 static enum gimplify_status
5129 gimplify_target_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
)
5131 tree targ
= *expr_p
;
5132 tree temp
= TARGET_EXPR_SLOT (targ
);
5133 tree init
= TARGET_EXPR_INITIAL (targ
);
5134 enum gimplify_status ret
;
5138 /* TARGET_EXPR temps aren't part of the enclosing block, so add it
5139 to the temps list. Handle also variable length TARGET_EXPRs. */
5140 if (TREE_CODE (DECL_SIZE (temp
)) != INTEGER_CST
)
5142 if (!TYPE_SIZES_GIMPLIFIED (TREE_TYPE (temp
)))
5143 gimplify_type_sizes (TREE_TYPE (temp
), pre_p
);
5144 gimplify_vla_decl (temp
, pre_p
);
5147 gimple_add_tmp_var (temp
);
5149 /* If TARGET_EXPR_INITIAL is void, then the mere evaluation of the
5150 expression is supposed to initialize the slot. */
5151 if (VOID_TYPE_P (TREE_TYPE (init
)))
5152 ret
= gimplify_expr (&init
, pre_p
, post_p
, is_gimple_stmt
, fb_none
);
5155 tree init_expr
= build2 (INIT_EXPR
, void_type_node
, temp
, init
);
5157 ret
= gimplify_expr (&init
, pre_p
, post_p
, is_gimple_stmt
, fb_none
);
5159 ggc_free (init_expr
);
5161 if (ret
== GS_ERROR
)
5163 /* PR c++/28266 Make sure this is expanded only once. */
5164 TARGET_EXPR_INITIAL (targ
) = NULL_TREE
;
5168 gimplify_and_add (init
, pre_p
);
5170 /* If needed, push the cleanup for the temp. */
5171 if (TARGET_EXPR_CLEANUP (targ
))
5172 gimple_push_cleanup (temp
, TARGET_EXPR_CLEANUP (targ
),
5173 CLEANUP_EH_ONLY (targ
), pre_p
);
5175 /* Only expand this once. */
5176 TREE_OPERAND (targ
, 3) = init
;
5177 TARGET_EXPR_INITIAL (targ
) = NULL_TREE
;
5180 /* We should have expanded this before. */
5181 gcc_assert (DECL_SEEN_IN_BIND_EXPR_P (temp
));
5187 /* Gimplification of expression trees. */
5189 /* Gimplify an expression which appears at statement context. The
5190 corresponding GIMPLE statements are added to *SEQ_P. If *SEQ_P is
5191 NULL, a new sequence is allocated.
5193 Return true if we actually added a statement to the queue. */
5196 gimplify_stmt (tree
*stmt_p
, gimple_seq
*seq_p
)
5198 gimple_seq_node last
;
5201 *seq_p
= gimple_seq_alloc ();
5203 last
= gimple_seq_last (*seq_p
);
5204 gimplify_expr (stmt_p
, seq_p
, NULL
, is_gimple_stmt
, fb_none
);
5205 return last
!= gimple_seq_last (*seq_p
);
5209 /* Add FIRSTPRIVATE entries for DECL in the OpenMP the surrounding parallels
5210 to CTX. If entries already exist, force them to be some flavor of private.
5211 If there is no enclosing parallel, do nothing. */
5214 omp_firstprivatize_variable (struct gimplify_omp_ctx
*ctx
, tree decl
)
5218 if (decl
== NULL
|| !DECL_P (decl
))
5223 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
)decl
);
5226 if (n
->value
& GOVD_SHARED
)
5227 n
->value
= GOVD_FIRSTPRIVATE
| (n
->value
& GOVD_SEEN
);
5231 else if (ctx
->region_type
!= ORT_WORKSHARE
)
5232 omp_add_variable (ctx
, decl
, GOVD_FIRSTPRIVATE
);
5234 ctx
= ctx
->outer_context
;
5239 /* Similarly for each of the type sizes of TYPE. */
5242 omp_firstprivatize_type_sizes (struct gimplify_omp_ctx
*ctx
, tree type
)
5244 if (type
== NULL
|| type
== error_mark_node
)
5246 type
= TYPE_MAIN_VARIANT (type
);
5248 if (pointer_set_insert (ctx
->privatized_types
, type
))
5251 switch (TREE_CODE (type
))
5257 case FIXED_POINT_TYPE
:
5258 omp_firstprivatize_variable (ctx
, TYPE_MIN_VALUE (type
));
5259 omp_firstprivatize_variable (ctx
, TYPE_MAX_VALUE (type
));
5263 omp_firstprivatize_type_sizes (ctx
, TREE_TYPE (type
));
5264 omp_firstprivatize_type_sizes (ctx
, TYPE_DOMAIN (type
));
5269 case QUAL_UNION_TYPE
:
5272 for (field
= TYPE_FIELDS (type
); field
; field
= TREE_CHAIN (field
))
5273 if (TREE_CODE (field
) == FIELD_DECL
)
5275 omp_firstprivatize_variable (ctx
, DECL_FIELD_OFFSET (field
));
5276 omp_firstprivatize_type_sizes (ctx
, TREE_TYPE (field
));
5282 case REFERENCE_TYPE
:
5283 omp_firstprivatize_type_sizes (ctx
, TREE_TYPE (type
));
5290 omp_firstprivatize_variable (ctx
, TYPE_SIZE (type
));
5291 omp_firstprivatize_variable (ctx
, TYPE_SIZE_UNIT (type
));
5292 lang_hooks
.types
.omp_firstprivatize_type_sizes (ctx
, type
);
5295 /* Add an entry for DECL in the OpenMP context CTX with FLAGS. */
5298 omp_add_variable (struct gimplify_omp_ctx
*ctx
, tree decl
, unsigned int flags
)
5301 unsigned int nflags
;
5304 if (decl
== error_mark_node
|| TREE_TYPE (decl
) == error_mark_node
)
5307 /* Never elide decls whose type has TREE_ADDRESSABLE set. This means
5308 there are constructors involved somewhere. */
5309 if (TREE_ADDRESSABLE (TREE_TYPE (decl
))
5310 || TYPE_NEEDS_CONSTRUCTING (TREE_TYPE (decl
)))
5313 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
)decl
);
5316 /* We shouldn't be re-adding the decl with the same data
5318 gcc_assert ((n
->value
& GOVD_DATA_SHARE_CLASS
& flags
) == 0);
5319 /* The only combination of data sharing classes we should see is
5320 FIRSTPRIVATE and LASTPRIVATE. */
5321 nflags
= n
->value
| flags
;
5322 gcc_assert ((nflags
& GOVD_DATA_SHARE_CLASS
)
5323 == (GOVD_FIRSTPRIVATE
| GOVD_LASTPRIVATE
));
5328 /* When adding a variable-sized variable, we have to handle all sorts
5329 of additional bits of data: the pointer replacement variable, and
5330 the parameters of the type. */
5331 if (DECL_SIZE (decl
) && TREE_CODE (DECL_SIZE (decl
)) != INTEGER_CST
)
5333 /* Add the pointer replacement variable as PRIVATE if the variable
5334 replacement is private, else FIRSTPRIVATE since we'll need the
5335 address of the original variable either for SHARED, or for the
5336 copy into or out of the context. */
5337 if (!(flags
& GOVD_LOCAL
))
5339 nflags
= flags
& GOVD_PRIVATE
? GOVD_PRIVATE
: GOVD_FIRSTPRIVATE
;
5340 nflags
|= flags
& GOVD_SEEN
;
5341 t
= DECL_VALUE_EXPR (decl
);
5342 gcc_assert (TREE_CODE (t
) == INDIRECT_REF
);
5343 t
= TREE_OPERAND (t
, 0);
5344 gcc_assert (DECL_P (t
));
5345 omp_add_variable (ctx
, t
, nflags
);
5348 /* Add all of the variable and type parameters (which should have
5349 been gimplified to a formal temporary) as FIRSTPRIVATE. */
5350 omp_firstprivatize_variable (ctx
, DECL_SIZE_UNIT (decl
));
5351 omp_firstprivatize_variable (ctx
, DECL_SIZE (decl
));
5352 omp_firstprivatize_type_sizes (ctx
, TREE_TYPE (decl
));
5354 /* The variable-sized variable itself is never SHARED, only some form
5355 of PRIVATE. The sharing would take place via the pointer variable
5356 which we remapped above. */
5357 if (flags
& GOVD_SHARED
)
5358 flags
= GOVD_PRIVATE
| GOVD_DEBUG_PRIVATE
5359 | (flags
& (GOVD_SEEN
| GOVD_EXPLICIT
));
5361 /* We're going to make use of the TYPE_SIZE_UNIT at least in the
5362 alloca statement we generate for the variable, so make sure it
5363 is available. This isn't automatically needed for the SHARED
5364 case, since we won't be allocating local storage then.
5365 For local variables TYPE_SIZE_UNIT might not be gimplified yet,
5366 in this case omp_notice_variable will be called later
5367 on when it is gimplified. */
5368 else if (! (flags
& GOVD_LOCAL
))
5369 omp_notice_variable (ctx
, TYPE_SIZE_UNIT (TREE_TYPE (decl
)), true);
5371 else if (lang_hooks
.decls
.omp_privatize_by_reference (decl
))
5373 gcc_assert ((flags
& GOVD_LOCAL
) == 0);
5374 omp_firstprivatize_type_sizes (ctx
, TREE_TYPE (decl
));
5376 /* Similar to the direct variable sized case above, we'll need the
5377 size of references being privatized. */
5378 if ((flags
& GOVD_SHARED
) == 0)
5380 t
= TYPE_SIZE_UNIT (TREE_TYPE (TREE_TYPE (decl
)));
5381 if (TREE_CODE (t
) != INTEGER_CST
)
5382 omp_notice_variable (ctx
, t
, true);
5386 splay_tree_insert (ctx
->variables
, (splay_tree_key
)decl
, flags
);
5389 /* Record the fact that DECL was used within the OpenMP context CTX.
5390 IN_CODE is true when real code uses DECL, and false when we should
5391 merely emit default(none) errors. Return true if DECL is going to
5392 be remapped and thus DECL shouldn't be gimplified into its
5393 DECL_VALUE_EXPR (if any). */
5396 omp_notice_variable (struct gimplify_omp_ctx
*ctx
, tree decl
, bool in_code
)
5399 unsigned flags
= in_code
? GOVD_SEEN
: 0;
5400 bool ret
= false, shared
;
5402 if (decl
== error_mark_node
|| TREE_TYPE (decl
) == error_mark_node
)
5405 /* Threadprivate variables are predetermined. */
5406 if (is_global_var (decl
))
5408 if (DECL_THREAD_LOCAL_P (decl
))
5411 if (DECL_HAS_VALUE_EXPR_P (decl
))
5413 tree value
= get_base_address (DECL_VALUE_EXPR (decl
));
5415 if (value
&& DECL_P (value
) && DECL_THREAD_LOCAL_P (value
))
5420 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
)decl
);
5423 enum omp_clause_default_kind default_kind
, kind
;
5424 struct gimplify_omp_ctx
*octx
;
5426 if (ctx
->region_type
== ORT_WORKSHARE
)
5429 /* ??? Some compiler-generated variables (like SAVE_EXPRs) could be
5430 remapped firstprivate instead of shared. To some extent this is
5431 addressed in omp_firstprivatize_type_sizes, but not effectively. */
5432 default_kind
= ctx
->default_kind
;
5433 kind
= lang_hooks
.decls
.omp_predetermined_sharing (decl
);
5434 if (kind
!= OMP_CLAUSE_DEFAULT_UNSPECIFIED
)
5435 default_kind
= kind
;
5437 switch (default_kind
)
5439 case OMP_CLAUSE_DEFAULT_NONE
:
5440 error ("%qE not specified in enclosing parallel",
5442 error ("%Henclosing parallel", &ctx
->location
);
5444 case OMP_CLAUSE_DEFAULT_SHARED
:
5445 flags
|= GOVD_SHARED
;
5447 case OMP_CLAUSE_DEFAULT_PRIVATE
:
5448 flags
|= GOVD_PRIVATE
;
5450 case OMP_CLAUSE_DEFAULT_FIRSTPRIVATE
:
5451 flags
|= GOVD_FIRSTPRIVATE
;
5453 case OMP_CLAUSE_DEFAULT_UNSPECIFIED
:
5454 /* decl will be either GOVD_FIRSTPRIVATE or GOVD_SHARED. */
5455 gcc_assert (ctx
->region_type
== ORT_TASK
);
5456 if (ctx
->outer_context
)
5457 omp_notice_variable (ctx
->outer_context
, decl
, in_code
);
5458 for (octx
= ctx
->outer_context
; octx
; octx
= octx
->outer_context
)
5462 n2
= splay_tree_lookup (octx
->variables
, (splay_tree_key
) decl
);
5463 if (n2
&& (n2
->value
& GOVD_DATA_SHARE_CLASS
) != GOVD_SHARED
)
5465 flags
|= GOVD_FIRSTPRIVATE
;
5468 if ((octx
->region_type
& ORT_PARALLEL
) != 0)
5471 if (flags
& GOVD_FIRSTPRIVATE
)
5474 && (TREE_CODE (decl
) == PARM_DECL
5475 || (!is_global_var (decl
)
5476 && DECL_CONTEXT (decl
) == current_function_decl
)))
5478 flags
|= GOVD_FIRSTPRIVATE
;
5481 flags
|= GOVD_SHARED
;
5487 if ((flags
& GOVD_PRIVATE
)
5488 && lang_hooks
.decls
.omp_private_outer_ref (decl
))
5489 flags
|= GOVD_PRIVATE_OUTER_REF
;
5491 omp_add_variable (ctx
, decl
, flags
);
5493 shared
= (flags
& GOVD_SHARED
) != 0;
5494 ret
= lang_hooks
.decls
.omp_disregard_value_expr (decl
, shared
);
5498 if ((n
->value
& (GOVD_SEEN
| GOVD_LOCAL
)) == 0
5499 && (flags
& (GOVD_SEEN
| GOVD_LOCAL
)) == GOVD_SEEN
5501 && TREE_CODE (DECL_SIZE (decl
)) != INTEGER_CST
)
5504 tree t
= DECL_VALUE_EXPR (decl
);
5505 gcc_assert (TREE_CODE (t
) == INDIRECT_REF
);
5506 t
= TREE_OPERAND (t
, 0);
5507 gcc_assert (DECL_P (t
));
5508 n2
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
) t
);
5509 n2
->value
|= GOVD_SEEN
;
5512 shared
= ((flags
| n
->value
) & GOVD_SHARED
) != 0;
5513 ret
= lang_hooks
.decls
.omp_disregard_value_expr (decl
, shared
);
5515 /* If nothing changed, there's nothing left to do. */
5516 if ((n
->value
& flags
) == flags
)
5522 /* If the variable is private in the current context, then we don't
5523 need to propagate anything to an outer context. */
5524 if ((flags
& GOVD_PRIVATE
) && !(flags
& GOVD_PRIVATE_OUTER_REF
))
5526 if (ctx
->outer_context
5527 && omp_notice_variable (ctx
->outer_context
, decl
, in_code
))
5532 /* Verify that DECL is private within CTX. If there's specific information
5533 to the contrary in the innermost scope, generate an error. */
5536 omp_is_private (struct gimplify_omp_ctx
*ctx
, tree decl
)
5540 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
)decl
);
5543 if (n
->value
& GOVD_SHARED
)
5545 if (ctx
== gimplify_omp_ctxp
)
5547 error ("iteration variable %qE should be private",
5549 n
->value
= GOVD_PRIVATE
;
5555 else if ((n
->value
& GOVD_EXPLICIT
) != 0
5556 && (ctx
== gimplify_omp_ctxp
5557 || (ctx
->region_type
== ORT_COMBINED_PARALLEL
5558 && gimplify_omp_ctxp
->outer_context
== ctx
)))
5560 if ((n
->value
& GOVD_FIRSTPRIVATE
) != 0)
5561 error ("iteration variable %qE should not be firstprivate",
5563 else if ((n
->value
& GOVD_REDUCTION
) != 0)
5564 error ("iteration variable %qE should not be reduction",
5567 return (ctx
== gimplify_omp_ctxp
5568 || (ctx
->region_type
== ORT_COMBINED_PARALLEL
5569 && gimplify_omp_ctxp
->outer_context
== ctx
));
5572 if (ctx
->region_type
!= ORT_WORKSHARE
)
5574 else if (ctx
->outer_context
)
5575 return omp_is_private (ctx
->outer_context
, decl
);
5579 /* Return true if DECL is private within a parallel region
5580 that binds to the current construct's context or in parallel
5581 region's REDUCTION clause. */
5584 omp_check_private (struct gimplify_omp_ctx
*ctx
, tree decl
)
5590 ctx
= ctx
->outer_context
;
5592 return !(is_global_var (decl
)
5593 /* References might be private, but might be shared too. */
5594 || lang_hooks
.decls
.omp_privatize_by_reference (decl
));
5596 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
) decl
);
5598 return (n
->value
& GOVD_SHARED
) == 0;
5600 while (ctx
->region_type
== ORT_WORKSHARE
);
5604 /* Scan the OpenMP clauses in *LIST_P, installing mappings into a new
5605 and previous omp contexts. */
5608 gimplify_scan_omp_clauses (tree
*list_p
, gimple_seq
*pre_p
,
5609 enum omp_region_type region_type
)
5611 struct gimplify_omp_ctx
*ctx
, *outer_ctx
;
5612 struct gimplify_ctx gctx
;
5615 ctx
= new_omp_context (region_type
);
5616 outer_ctx
= ctx
->outer_context
;
5618 while ((c
= *list_p
) != NULL
)
5620 bool remove
= false;
5621 bool notice_outer
= true;
5622 const char *check_non_private
= NULL
;
5626 switch (OMP_CLAUSE_CODE (c
))
5628 case OMP_CLAUSE_PRIVATE
:
5629 flags
= GOVD_PRIVATE
| GOVD_EXPLICIT
;
5630 if (lang_hooks
.decls
.omp_private_outer_ref (OMP_CLAUSE_DECL (c
)))
5632 flags
|= GOVD_PRIVATE_OUTER_REF
;
5633 OMP_CLAUSE_PRIVATE_OUTER_REF (c
) = 1;
5636 notice_outer
= false;
5638 case OMP_CLAUSE_SHARED
:
5639 flags
= GOVD_SHARED
| GOVD_EXPLICIT
;
5641 case OMP_CLAUSE_FIRSTPRIVATE
:
5642 flags
= GOVD_FIRSTPRIVATE
| GOVD_EXPLICIT
;
5643 check_non_private
= "firstprivate";
5645 case OMP_CLAUSE_LASTPRIVATE
:
5646 flags
= GOVD_LASTPRIVATE
| GOVD_SEEN
| GOVD_EXPLICIT
;
5647 check_non_private
= "lastprivate";
5649 case OMP_CLAUSE_REDUCTION
:
5650 flags
= GOVD_REDUCTION
| GOVD_SEEN
| GOVD_EXPLICIT
;
5651 check_non_private
= "reduction";
5655 decl
= OMP_CLAUSE_DECL (c
);
5656 if (decl
== error_mark_node
|| TREE_TYPE (decl
) == error_mark_node
)
5661 omp_add_variable (ctx
, decl
, flags
);
5662 if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_REDUCTION
5663 && OMP_CLAUSE_REDUCTION_PLACEHOLDER (c
))
5665 omp_add_variable (ctx
, OMP_CLAUSE_REDUCTION_PLACEHOLDER (c
),
5666 GOVD_LOCAL
| GOVD_SEEN
);
5667 gimplify_omp_ctxp
= ctx
;
5668 push_gimplify_context (&gctx
);
5670 OMP_CLAUSE_REDUCTION_GIMPLE_INIT (c
) = gimple_seq_alloc ();
5671 OMP_CLAUSE_REDUCTION_GIMPLE_MERGE (c
) = gimple_seq_alloc ();
5673 gimplify_and_add (OMP_CLAUSE_REDUCTION_INIT (c
),
5674 &OMP_CLAUSE_REDUCTION_GIMPLE_INIT (c
));
5675 pop_gimplify_context
5676 (gimple_seq_first_stmt (OMP_CLAUSE_REDUCTION_GIMPLE_INIT (c
)));
5677 push_gimplify_context (&gctx
);
5678 gimplify_and_add (OMP_CLAUSE_REDUCTION_MERGE (c
),
5679 &OMP_CLAUSE_REDUCTION_GIMPLE_MERGE (c
));
5680 pop_gimplify_context
5681 (gimple_seq_first_stmt (OMP_CLAUSE_REDUCTION_GIMPLE_MERGE (c
)));
5682 OMP_CLAUSE_REDUCTION_INIT (c
) = NULL_TREE
;
5683 OMP_CLAUSE_REDUCTION_MERGE (c
) = NULL_TREE
;
5685 gimplify_omp_ctxp
= outer_ctx
;
5687 else if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_LASTPRIVATE
5688 && OMP_CLAUSE_LASTPRIVATE_STMT (c
))
5690 gimplify_omp_ctxp
= ctx
;
5691 push_gimplify_context (&gctx
);
5692 if (TREE_CODE (OMP_CLAUSE_LASTPRIVATE_STMT (c
)) != BIND_EXPR
)
5694 tree bind
= build3 (BIND_EXPR
, void_type_node
, NULL
,
5696 TREE_SIDE_EFFECTS (bind
) = 1;
5697 BIND_EXPR_BODY (bind
) = OMP_CLAUSE_LASTPRIVATE_STMT (c
);
5698 OMP_CLAUSE_LASTPRIVATE_STMT (c
) = bind
;
5700 gimplify_and_add (OMP_CLAUSE_LASTPRIVATE_STMT (c
),
5701 &OMP_CLAUSE_LASTPRIVATE_GIMPLE_SEQ (c
));
5702 pop_gimplify_context
5703 (gimple_seq_first_stmt (OMP_CLAUSE_LASTPRIVATE_GIMPLE_SEQ (c
)));
5704 OMP_CLAUSE_LASTPRIVATE_STMT (c
) = NULL_TREE
;
5706 gimplify_omp_ctxp
= outer_ctx
;
5712 case OMP_CLAUSE_COPYIN
:
5713 case OMP_CLAUSE_COPYPRIVATE
:
5714 decl
= OMP_CLAUSE_DECL (c
);
5715 if (decl
== error_mark_node
|| TREE_TYPE (decl
) == error_mark_node
)
5722 omp_notice_variable (outer_ctx
, decl
, true);
5723 if (check_non_private
5724 && region_type
== ORT_WORKSHARE
5725 && omp_check_private (ctx
, decl
))
5727 error ("%s variable %qE is private in outer context",
5728 check_non_private
, DECL_NAME (decl
));
5734 OMP_CLAUSE_OPERAND (c
, 0)
5735 = gimple_boolify (OMP_CLAUSE_OPERAND (c
, 0));
5738 case OMP_CLAUSE_SCHEDULE
:
5739 case OMP_CLAUSE_NUM_THREADS
:
5740 if (gimplify_expr (&OMP_CLAUSE_OPERAND (c
, 0), pre_p
, NULL
,
5741 is_gimple_val
, fb_rvalue
) == GS_ERROR
)
5745 case OMP_CLAUSE_NOWAIT
:
5746 case OMP_CLAUSE_ORDERED
:
5747 case OMP_CLAUSE_UNTIED
:
5748 case OMP_CLAUSE_COLLAPSE
:
5751 case OMP_CLAUSE_DEFAULT
:
5752 ctx
->default_kind
= OMP_CLAUSE_DEFAULT_KIND (c
);
5760 *list_p
= OMP_CLAUSE_CHAIN (c
);
5762 list_p
= &OMP_CLAUSE_CHAIN (c
);
5765 gimplify_omp_ctxp
= ctx
;
5768 /* For all variables that were not actually used within the context,
5769 remove PRIVATE, SHARED, and FIRSTPRIVATE clauses. */
5772 gimplify_adjust_omp_clauses_1 (splay_tree_node n
, void *data
)
5774 tree
*list_p
= (tree
*) data
;
5775 tree decl
= (tree
) n
->key
;
5776 unsigned flags
= n
->value
;
5777 enum omp_clause_code code
;
5781 if (flags
& (GOVD_EXPLICIT
| GOVD_LOCAL
))
5783 if ((flags
& GOVD_SEEN
) == 0)
5785 if (flags
& GOVD_DEBUG_PRIVATE
)
5787 gcc_assert ((flags
& GOVD_DATA_SHARE_CLASS
) == GOVD_PRIVATE
);
5788 private_debug
= true;
5792 = lang_hooks
.decls
.omp_private_debug_clause (decl
,
5793 !!(flags
& GOVD_SHARED
));
5795 code
= OMP_CLAUSE_PRIVATE
;
5796 else if (flags
& GOVD_SHARED
)
5798 if (is_global_var (decl
))
5800 struct gimplify_omp_ctx
*ctx
= gimplify_omp_ctxp
->outer_context
;
5804 = splay_tree_lookup (ctx
->variables
, (splay_tree_key
) decl
);
5805 if (on
&& (on
->value
& (GOVD_FIRSTPRIVATE
| GOVD_LASTPRIVATE
5806 | GOVD_PRIVATE
| GOVD_REDUCTION
)) != 0)
5808 ctx
= ctx
->outer_context
;
5813 code
= OMP_CLAUSE_SHARED
;
5815 else if (flags
& GOVD_PRIVATE
)
5816 code
= OMP_CLAUSE_PRIVATE
;
5817 else if (flags
& GOVD_FIRSTPRIVATE
)
5818 code
= OMP_CLAUSE_FIRSTPRIVATE
;
5822 clause
= build_omp_clause (code
);
5823 OMP_CLAUSE_DECL (clause
) = decl
;
5824 OMP_CLAUSE_CHAIN (clause
) = *list_p
;
5826 OMP_CLAUSE_PRIVATE_DEBUG (clause
) = 1;
5827 else if (code
== OMP_CLAUSE_PRIVATE
&& (flags
& GOVD_PRIVATE_OUTER_REF
))
5828 OMP_CLAUSE_PRIVATE_OUTER_REF (clause
) = 1;
5830 lang_hooks
.decls
.omp_finish_clause (clause
);
5836 gimplify_adjust_omp_clauses (tree
*list_p
)
5838 struct gimplify_omp_ctx
*ctx
= gimplify_omp_ctxp
;
5841 while ((c
= *list_p
) != NULL
)
5844 bool remove
= false;
5846 switch (OMP_CLAUSE_CODE (c
))
5848 case OMP_CLAUSE_PRIVATE
:
5849 case OMP_CLAUSE_SHARED
:
5850 case OMP_CLAUSE_FIRSTPRIVATE
:
5851 decl
= OMP_CLAUSE_DECL (c
);
5852 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
) decl
);
5853 remove
= !(n
->value
& GOVD_SEEN
);
5856 bool shared
= OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_SHARED
;
5857 if ((n
->value
& GOVD_DEBUG_PRIVATE
)
5858 || lang_hooks
.decls
.omp_private_debug_clause (decl
, shared
))
5860 gcc_assert ((n
->value
& GOVD_DEBUG_PRIVATE
) == 0
5861 || ((n
->value
& GOVD_DATA_SHARE_CLASS
)
5863 OMP_CLAUSE_SET_CODE (c
, OMP_CLAUSE_PRIVATE
);
5864 OMP_CLAUSE_PRIVATE_DEBUG (c
) = 1;
5869 case OMP_CLAUSE_LASTPRIVATE
:
5870 /* Make sure OMP_CLAUSE_LASTPRIVATE_FIRSTPRIVATE is set to
5871 accurately reflect the presence of a FIRSTPRIVATE clause. */
5872 decl
= OMP_CLAUSE_DECL (c
);
5873 n
= splay_tree_lookup (ctx
->variables
, (splay_tree_key
) decl
);
5874 OMP_CLAUSE_LASTPRIVATE_FIRSTPRIVATE (c
)
5875 = (n
->value
& GOVD_FIRSTPRIVATE
) != 0;
5878 case OMP_CLAUSE_REDUCTION
:
5879 case OMP_CLAUSE_COPYIN
:
5880 case OMP_CLAUSE_COPYPRIVATE
:
5882 case OMP_CLAUSE_NUM_THREADS
:
5883 case OMP_CLAUSE_SCHEDULE
:
5884 case OMP_CLAUSE_NOWAIT
:
5885 case OMP_CLAUSE_ORDERED
:
5886 case OMP_CLAUSE_DEFAULT
:
5887 case OMP_CLAUSE_UNTIED
:
5888 case OMP_CLAUSE_COLLAPSE
:
5896 *list_p
= OMP_CLAUSE_CHAIN (c
);
5898 list_p
= &OMP_CLAUSE_CHAIN (c
);
5901 /* Add in any implicit data sharing. */
5902 splay_tree_foreach (ctx
->variables
, gimplify_adjust_omp_clauses_1
, list_p
);
5904 gimplify_omp_ctxp
= ctx
->outer_context
;
5905 delete_omp_context (ctx
);
5908 /* Gimplify the contents of an OMP_PARALLEL statement. This involves
5909 gimplification of the body, as well as scanning the body for used
5910 variables. We need to do this scan now, because variable-sized
5911 decls will be decomposed during gimplification. */
5914 gimplify_omp_parallel (tree
*expr_p
, gimple_seq
*pre_p
)
5916 tree expr
= *expr_p
;
5918 gimple_seq body
= NULL
;
5919 struct gimplify_ctx gctx
;
5921 gimplify_scan_omp_clauses (&OMP_PARALLEL_CLAUSES (expr
), pre_p
,
5922 OMP_PARALLEL_COMBINED (expr
)
5923 ? ORT_COMBINED_PARALLEL
5926 push_gimplify_context (&gctx
);
5928 g
= gimplify_and_return_first (OMP_PARALLEL_BODY (expr
), &body
);
5929 if (gimple_code (g
) == GIMPLE_BIND
)
5930 pop_gimplify_context (g
);
5932 pop_gimplify_context (NULL
);
5934 gimplify_adjust_omp_clauses (&OMP_PARALLEL_CLAUSES (expr
));
5936 g
= gimple_build_omp_parallel (body
,
5937 OMP_PARALLEL_CLAUSES (expr
),
5938 NULL_TREE
, NULL_TREE
);
5939 if (OMP_PARALLEL_COMBINED (expr
))
5940 gimple_omp_set_subcode (g
, GF_OMP_PARALLEL_COMBINED
);
5941 gimplify_seq_add_stmt (pre_p
, g
);
5942 *expr_p
= NULL_TREE
;
5945 /* Gimplify the contents of an OMP_TASK statement. This involves
5946 gimplification of the body, as well as scanning the body for used
5947 variables. We need to do this scan now, because variable-sized
5948 decls will be decomposed during gimplification. */
5951 gimplify_omp_task (tree
*expr_p
, gimple_seq
*pre_p
)
5953 tree expr
= *expr_p
;
5955 gimple_seq body
= NULL
;
5956 struct gimplify_ctx gctx
;
5958 gimplify_scan_omp_clauses (&OMP_TASK_CLAUSES (expr
), pre_p
, ORT_TASK
);
5960 push_gimplify_context (&gctx
);
5962 g
= gimplify_and_return_first (OMP_TASK_BODY (expr
), &body
);
5963 if (gimple_code (g
) == GIMPLE_BIND
)
5964 pop_gimplify_context (g
);
5966 pop_gimplify_context (NULL
);
5968 gimplify_adjust_omp_clauses (&OMP_TASK_CLAUSES (expr
));
5970 g
= gimple_build_omp_task (body
,
5971 OMP_TASK_CLAUSES (expr
),
5972 NULL_TREE
, NULL_TREE
,
5973 NULL_TREE
, NULL_TREE
, NULL_TREE
);
5974 gimplify_seq_add_stmt (pre_p
, g
);
5975 *expr_p
= NULL_TREE
;
5978 /* Gimplify the gross structure of an OMP_FOR statement. */
5980 static enum gimplify_status
5981 gimplify_omp_for (tree
*expr_p
, gimple_seq
*pre_p
)
5983 tree for_stmt
, decl
, var
, t
;
5984 enum gimplify_status ret
= GS_ALL_DONE
;
5985 enum gimplify_status tret
;
5987 gimple_seq for_body
, for_pre_body
;
5992 gimplify_scan_omp_clauses (&OMP_FOR_CLAUSES (for_stmt
), pre_p
,
5995 /* Handle OMP_FOR_INIT. */
5996 for_pre_body
= NULL
;
5997 gimplify_and_add (OMP_FOR_PRE_BODY (for_stmt
), &for_pre_body
);
5998 OMP_FOR_PRE_BODY (for_stmt
) = NULL_TREE
;
6000 for_body
= gimple_seq_alloc ();
6001 gcc_assert (TREE_VEC_LENGTH (OMP_FOR_INIT (for_stmt
))
6002 == TREE_VEC_LENGTH (OMP_FOR_COND (for_stmt
)));
6003 gcc_assert (TREE_VEC_LENGTH (OMP_FOR_INIT (for_stmt
))
6004 == TREE_VEC_LENGTH (OMP_FOR_INCR (for_stmt
)));
6005 for (i
= 0; i
< TREE_VEC_LENGTH (OMP_FOR_INIT (for_stmt
)); i
++)
6007 t
= TREE_VEC_ELT (OMP_FOR_INIT (for_stmt
), i
);
6008 gcc_assert (TREE_CODE (t
) == MODIFY_EXPR
);
6009 decl
= TREE_OPERAND (t
, 0);
6010 gcc_assert (DECL_P (decl
));
6011 gcc_assert (INTEGRAL_TYPE_P (TREE_TYPE (decl
))
6012 || POINTER_TYPE_P (TREE_TYPE (decl
)));
6014 /* Make sure the iteration variable is private. */
6015 if (omp_is_private (gimplify_omp_ctxp
, decl
))
6016 omp_notice_variable (gimplify_omp_ctxp
, decl
, true);
6018 omp_add_variable (gimplify_omp_ctxp
, decl
, GOVD_PRIVATE
| GOVD_SEEN
);
6020 /* If DECL is not a gimple register, create a temporary variable to act
6021 as an iteration counter. This is valid, since DECL cannot be
6022 modified in the body of the loop. */
6023 if (!is_gimple_reg (decl
))
6025 var
= create_tmp_var (TREE_TYPE (decl
), get_name (decl
));
6026 TREE_OPERAND (t
, 0) = var
;
6028 gimplify_seq_add_stmt (&for_body
, gimple_build_assign (decl
, var
));
6030 omp_add_variable (gimplify_omp_ctxp
, var
, GOVD_PRIVATE
| GOVD_SEEN
);
6035 tret
= gimplify_expr (&TREE_OPERAND (t
, 1), &for_pre_body
, NULL
,
6036 is_gimple_val
, fb_rvalue
);
6037 ret
= MIN (ret
, tret
);
6038 if (ret
== GS_ERROR
)
6041 /* Handle OMP_FOR_COND. */
6042 t
= TREE_VEC_ELT (OMP_FOR_COND (for_stmt
), i
);
6043 gcc_assert (COMPARISON_CLASS_P (t
));
6044 gcc_assert (TREE_OPERAND (t
, 0) == decl
);
6046 tret
= gimplify_expr (&TREE_OPERAND (t
, 1), &for_pre_body
, NULL
,
6047 is_gimple_val
, fb_rvalue
);
6048 ret
= MIN (ret
, tret
);
6050 /* Handle OMP_FOR_INCR. */
6051 t
= TREE_VEC_ELT (OMP_FOR_INCR (for_stmt
), i
);
6052 switch (TREE_CODE (t
))
6054 case PREINCREMENT_EXPR
:
6055 case POSTINCREMENT_EXPR
:
6056 t
= build_int_cst (TREE_TYPE (decl
), 1);
6057 t
= build2 (PLUS_EXPR
, TREE_TYPE (decl
), var
, t
);
6058 t
= build2 (MODIFY_EXPR
, TREE_TYPE (var
), var
, t
);
6059 TREE_VEC_ELT (OMP_FOR_INCR (for_stmt
), i
) = t
;
6062 case PREDECREMENT_EXPR
:
6063 case POSTDECREMENT_EXPR
:
6064 t
= build_int_cst (TREE_TYPE (decl
), -1);
6065 t
= build2 (PLUS_EXPR
, TREE_TYPE (decl
), var
, t
);
6066 t
= build2 (MODIFY_EXPR
, TREE_TYPE (var
), var
, t
);
6067 TREE_VEC_ELT (OMP_FOR_INCR (for_stmt
), i
) = t
;
6071 gcc_assert (TREE_OPERAND (t
, 0) == decl
);
6072 TREE_OPERAND (t
, 0) = var
;
6074 t
= TREE_OPERAND (t
, 1);
6075 switch (TREE_CODE (t
))
6078 if (TREE_OPERAND (t
, 1) == decl
)
6080 TREE_OPERAND (t
, 1) = TREE_OPERAND (t
, 0);
6081 TREE_OPERAND (t
, 0) = var
;
6087 case POINTER_PLUS_EXPR
:
6088 gcc_assert (TREE_OPERAND (t
, 0) == decl
);
6089 TREE_OPERAND (t
, 0) = var
;
6095 tret
= gimplify_expr (&TREE_OPERAND (t
, 1), &for_pre_body
, NULL
,
6096 is_gimple_val
, fb_rvalue
);
6097 ret
= MIN (ret
, tret
);
6104 if (var
!= decl
|| TREE_VEC_LENGTH (OMP_FOR_INIT (for_stmt
)) > 1)
6107 for (c
= OMP_FOR_CLAUSES (for_stmt
); c
; c
= OMP_CLAUSE_CHAIN (c
))
6108 if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_LASTPRIVATE
6109 && OMP_CLAUSE_DECL (c
) == decl
6110 && OMP_CLAUSE_LASTPRIVATE_GIMPLE_SEQ (c
) == NULL
)
6112 t
= TREE_VEC_ELT (OMP_FOR_INCR (for_stmt
), i
);
6113 gcc_assert (TREE_CODE (t
) == MODIFY_EXPR
);
6114 gcc_assert (TREE_OPERAND (t
, 0) == var
);
6115 t
= TREE_OPERAND (t
, 1);
6116 gcc_assert (TREE_CODE (t
) == PLUS_EXPR
6117 || TREE_CODE (t
) == MINUS_EXPR
6118 || TREE_CODE (t
) == POINTER_PLUS_EXPR
);
6119 gcc_assert (TREE_OPERAND (t
, 0) == var
);
6120 t
= build2 (TREE_CODE (t
), TREE_TYPE (decl
), decl
,
6121 TREE_OPERAND (t
, 1));
6122 gimplify_assign (decl
, t
,
6123 &OMP_CLAUSE_LASTPRIVATE_GIMPLE_SEQ (c
));
6128 gimplify_and_add (OMP_FOR_BODY (for_stmt
), &for_body
);
6130 gimplify_adjust_omp_clauses (&OMP_FOR_CLAUSES (for_stmt
));
6132 gfor
= gimple_build_omp_for (for_body
, OMP_FOR_CLAUSES (for_stmt
),
6133 TREE_VEC_LENGTH (OMP_FOR_INIT (for_stmt
)),
6136 for (i
= 0; i
< TREE_VEC_LENGTH (OMP_FOR_INIT (for_stmt
)); i
++)
6138 t
= TREE_VEC_ELT (OMP_FOR_INIT (for_stmt
), i
);
6139 gimple_omp_for_set_index (gfor
, i
, TREE_OPERAND (t
, 0));
6140 gimple_omp_for_set_initial (gfor
, i
, TREE_OPERAND (t
, 1));
6141 t
= TREE_VEC_ELT (OMP_FOR_COND (for_stmt
), i
);
6142 gimple_omp_for_set_cond (gfor
, i
, TREE_CODE (t
));
6143 gimple_omp_for_set_final (gfor
, i
, TREE_OPERAND (t
, 1));
6144 t
= TREE_VEC_ELT (OMP_FOR_INCR (for_stmt
), i
);
6145 gimple_omp_for_set_incr (gfor
, i
, TREE_OPERAND (t
, 1));
6148 gimplify_seq_add_stmt (pre_p
, gfor
);
6149 return ret
== GS_ALL_DONE
? GS_ALL_DONE
: GS_ERROR
;
6152 /* Gimplify the gross structure of other OpenMP worksharing constructs.
6153 In particular, OMP_SECTIONS and OMP_SINGLE. */
6156 gimplify_omp_workshare (tree
*expr_p
, gimple_seq
*pre_p
)
6158 tree expr
= *expr_p
;
6160 gimple_seq body
= NULL
;
6162 gimplify_scan_omp_clauses (&OMP_CLAUSES (expr
), pre_p
, ORT_WORKSHARE
);
6163 gimplify_and_add (OMP_BODY (expr
), &body
);
6164 gimplify_adjust_omp_clauses (&OMP_CLAUSES (expr
));
6166 if (TREE_CODE (expr
) == OMP_SECTIONS
)
6167 stmt
= gimple_build_omp_sections (body
, OMP_CLAUSES (expr
));
6168 else if (TREE_CODE (expr
) == OMP_SINGLE
)
6169 stmt
= gimple_build_omp_single (body
, OMP_CLAUSES (expr
));
6173 gimplify_seq_add_stmt (pre_p
, stmt
);
6176 /* A subroutine of gimplify_omp_atomic. The front end is supposed to have
6177 stabilized the lhs of the atomic operation as *ADDR. Return true if
6178 EXPR is this stabilized form. */
6181 goa_lhs_expr_p (tree expr
, tree addr
)
6183 /* Also include casts to other type variants. The C front end is fond
6184 of adding these for e.g. volatile variables. This is like
6185 STRIP_TYPE_NOPS but includes the main variant lookup. */
6186 while ((CONVERT_EXPR_P (expr
)
6187 || TREE_CODE (expr
) == NON_LVALUE_EXPR
)
6188 && TREE_OPERAND (expr
, 0) != error_mark_node
6189 && (TYPE_MAIN_VARIANT (TREE_TYPE (expr
))
6190 == TYPE_MAIN_VARIANT (TREE_TYPE (TREE_OPERAND (expr
, 0)))))
6191 expr
= TREE_OPERAND (expr
, 0);
6193 if (TREE_CODE (expr
) == INDIRECT_REF
)
6195 expr
= TREE_OPERAND (expr
, 0);
6197 && (CONVERT_EXPR_P (expr
)
6198 || TREE_CODE (expr
) == NON_LVALUE_EXPR
)
6199 && TREE_CODE (expr
) == TREE_CODE (addr
)
6200 && TYPE_MAIN_VARIANT (TREE_TYPE (expr
))
6201 == TYPE_MAIN_VARIANT (TREE_TYPE (addr
)))
6203 expr
= TREE_OPERAND (expr
, 0);
6204 addr
= TREE_OPERAND (addr
, 0);
6208 return (TREE_CODE (addr
) == ADDR_EXPR
6209 && TREE_CODE (expr
) == ADDR_EXPR
6210 && TREE_OPERAND (addr
, 0) == TREE_OPERAND (expr
, 0));
6212 if (TREE_CODE (addr
) == ADDR_EXPR
&& expr
== TREE_OPERAND (addr
, 0))
6217 /* Walk *EXPR_P and replace
6218 appearances of *LHS_ADDR with LHS_VAR. If an expression does not involve
6219 the lhs, evaluate it into a temporary. Return 1 if the lhs appeared as
6220 a subexpression, 0 if it did not, or -1 if an error was encountered. */
6223 goa_stabilize_expr (tree
*expr_p
, gimple_seq
*pre_p
, tree lhs_addr
,
6226 tree expr
= *expr_p
;
6229 if (goa_lhs_expr_p (expr
, lhs_addr
))
6234 if (is_gimple_val (expr
))
6238 switch (TREE_CODE_CLASS (TREE_CODE (expr
)))
6241 case tcc_comparison
:
6242 saw_lhs
|= goa_stabilize_expr (&TREE_OPERAND (expr
, 1), pre_p
, lhs_addr
,
6245 saw_lhs
|= goa_stabilize_expr (&TREE_OPERAND (expr
, 0), pre_p
, lhs_addr
,
6248 case tcc_expression
:
6249 switch (TREE_CODE (expr
))
6251 case TRUTH_ANDIF_EXPR
:
6252 case TRUTH_ORIF_EXPR
:
6253 saw_lhs
|= goa_stabilize_expr (&TREE_OPERAND (expr
, 1), pre_p
,
6255 saw_lhs
|= goa_stabilize_expr (&TREE_OPERAND (expr
, 0), pre_p
,
6268 enum gimplify_status gs
;
6269 gs
= gimplify_expr (expr_p
, pre_p
, NULL
, is_gimple_val
, fb_rvalue
);
6270 if (gs
!= GS_ALL_DONE
)
6278 /* Gimplify an OMP_ATOMIC statement. */
6280 static enum gimplify_status
6281 gimplify_omp_atomic (tree
*expr_p
, gimple_seq
*pre_p
)
6283 tree addr
= TREE_OPERAND (*expr_p
, 0);
6284 tree rhs
= TREE_OPERAND (*expr_p
, 1);
6285 tree type
= TYPE_MAIN_VARIANT (TREE_TYPE (TREE_TYPE (addr
)));
6288 tmp_load
= create_tmp_var (type
, NULL
);
6289 if (goa_stabilize_expr (&rhs
, pre_p
, addr
, tmp_load
) < 0)
6292 if (gimplify_expr (&addr
, pre_p
, NULL
, is_gimple_val
, fb_rvalue
)
6296 gimplify_seq_add_stmt (pre_p
, gimple_build_omp_atomic_load (tmp_load
, addr
));
6297 if (gimplify_expr (&rhs
, pre_p
, NULL
, is_gimple_val
, fb_rvalue
)
6300 gimplify_seq_add_stmt (pre_p
, gimple_build_omp_atomic_store (rhs
));
6307 /* Converts the GENERIC expression tree *EXPR_P to GIMPLE. If the
6308 expression produces a value to be used as an operand inside a GIMPLE
6309 statement, the value will be stored back in *EXPR_P. This value will
6310 be a tree of class tcc_declaration, tcc_constant, tcc_reference or
6311 an SSA_NAME. The corresponding sequence of GIMPLE statements is
6312 emitted in PRE_P and POST_P.
6314 Additionally, this process may overwrite parts of the input
6315 expression during gimplification. Ideally, it should be
6316 possible to do non-destructive gimplification.
6318 EXPR_P points to the GENERIC expression to convert to GIMPLE. If
6319 the expression needs to evaluate to a value to be used as
6320 an operand in a GIMPLE statement, this value will be stored in
6321 *EXPR_P on exit. This happens when the caller specifies one
6322 of fb_lvalue or fb_rvalue fallback flags.
6324 PRE_P will contain the sequence of GIMPLE statements corresponding
6325 to the evaluation of EXPR and all the side-effects that must
6326 be executed before the main expression. On exit, the last
6327 statement of PRE_P is the core statement being gimplified. For
6328 instance, when gimplifying 'if (++a)' the last statement in
6329 PRE_P will be 'if (t.1)' where t.1 is the result of
6330 pre-incrementing 'a'.
6332 POST_P will contain the sequence of GIMPLE statements corresponding
6333 to the evaluation of all the side-effects that must be executed
6334 after the main expression. If this is NULL, the post
6335 side-effects are stored at the end of PRE_P.
6337 The reason why the output is split in two is to handle post
6338 side-effects explicitly. In some cases, an expression may have
6339 inner and outer post side-effects which need to be emitted in
6340 an order different from the one given by the recursive
6341 traversal. For instance, for the expression (*p--)++ the post
6342 side-effects of '--' must actually occur *after* the post
6343 side-effects of '++'. However, gimplification will first visit
6344 the inner expression, so if a separate POST sequence was not
6345 used, the resulting sequence would be:
6352 However, the post-decrement operation in line #2 must not be
6353 evaluated until after the store to *p at line #4, so the
6354 correct sequence should be:
6361 So, by specifying a separate post queue, it is possible
6362 to emit the post side-effects in the correct order.
6363 If POST_P is NULL, an internal queue will be used. Before
6364 returning to the caller, the sequence POST_P is appended to
6365 the main output sequence PRE_P.
6367 GIMPLE_TEST_F points to a function that takes a tree T and
6368 returns nonzero if T is in the GIMPLE form requested by the
6369 caller. The GIMPLE predicates are in tree-gimple.c.
6371 FALLBACK tells the function what sort of a temporary we want if
6372 gimplification cannot produce an expression that complies with
6375 fb_none means that no temporary should be generated
6376 fb_rvalue means that an rvalue is OK to generate
6377 fb_lvalue means that an lvalue is OK to generate
6378 fb_either means that either is OK, but an lvalue is preferable.
6379 fb_mayfail means that gimplification may fail (in which case
6380 GS_ERROR will be returned)
6382 The return value is either GS_ERROR or GS_ALL_DONE, since this
6383 function iterates until EXPR is completely gimplified or an error
6386 enum gimplify_status
6387 gimplify_expr (tree
*expr_p
, gimple_seq
*pre_p
, gimple_seq
*post_p
,
6388 bool (*gimple_test_f
) (tree
), fallback_t fallback
)
6391 gimple_seq internal_pre
= NULL
;
6392 gimple_seq internal_post
= NULL
;
6395 location_t saved_location
;
6396 enum gimplify_status ret
;
6397 gimple_stmt_iterator pre_last_gsi
, post_last_gsi
;
6399 save_expr
= *expr_p
;
6400 if (save_expr
== NULL_TREE
)
6403 /* If we are gimplifying a top-level statement, PRE_P must be valid. */
6404 is_statement
= gimple_test_f
== is_gimple_stmt
;
6408 /* Consistency checks. */
6409 if (gimple_test_f
== is_gimple_reg
)
6410 gcc_assert (fallback
& (fb_rvalue
| fb_lvalue
));
6411 else if (gimple_test_f
== is_gimple_val
6412 || gimple_test_f
== is_gimple_call_addr
6413 || gimple_test_f
== is_gimple_condexpr
6414 || gimple_test_f
== is_gimple_mem_rhs
6415 || gimple_test_f
== is_gimple_mem_rhs_or_call
6416 || gimple_test_f
== is_gimple_reg_rhs
6417 || gimple_test_f
== is_gimple_reg_rhs_or_call
6418 || gimple_test_f
== is_gimple_asm_val
)
6419 gcc_assert (fallback
& fb_rvalue
);
6420 else if (gimple_test_f
== is_gimple_min_lval
6421 || gimple_test_f
== is_gimple_lvalue
)
6422 gcc_assert (fallback
& fb_lvalue
);
6423 else if (gimple_test_f
== is_gimple_addressable
)
6424 gcc_assert (fallback
& fb_either
);
6425 else if (gimple_test_f
== is_gimple_stmt
)
6426 gcc_assert (fallback
== fb_none
);
6429 /* We should have recognized the GIMPLE_TEST_F predicate to
6430 know what kind of fallback to use in case a temporary is
6431 needed to hold the value or address of *EXPR_P. */
6435 /* We used to check the predicate here and return immediately if it
6436 succeeds. This is wrong; the design is for gimplification to be
6437 idempotent, and for the predicates to only test for valid forms, not
6438 whether they are fully simplified. */
6440 pre_p
= &internal_pre
;
6443 post_p
= &internal_post
;
6445 /* Remember the last statements added to PRE_P and POST_P. Every
6446 new statement added by the gimplification helpers needs to be
6447 annotated with location information. To centralize the
6448 responsibility, we remember the last statement that had been
6449 added to both queues before gimplifying *EXPR_P. If
6450 gimplification produces new statements in PRE_P and POST_P, those
6451 statements will be annotated with the same location information
6453 pre_last_gsi
= gsi_last (*pre_p
);
6454 post_last_gsi
= gsi_last (*post_p
);
6456 saved_location
= input_location
;
6457 if (save_expr
!= error_mark_node
6458 && EXPR_HAS_LOCATION (*expr_p
))
6459 input_location
= EXPR_LOCATION (*expr_p
);
6461 /* Loop over the specific gimplifiers until the toplevel node
6462 remains the same. */
6465 /* Strip away as many useless type conversions as possible
6467 STRIP_USELESS_TYPE_CONVERSION (*expr_p
);
6469 /* Remember the expr. */
6470 save_expr
= *expr_p
;
6472 /* Die, die, die, my darling. */
6473 if (save_expr
== error_mark_node
6474 || (TREE_TYPE (save_expr
)
6475 && TREE_TYPE (save_expr
) == error_mark_node
))
6481 /* Do any language-specific gimplification. */
6482 ret
= ((enum gimplify_status
)
6483 lang_hooks
.gimplify_expr (expr_p
, pre_p
, post_p
));
6486 if (*expr_p
== NULL_TREE
)
6488 if (*expr_p
!= save_expr
)
6491 else if (ret
!= GS_UNHANDLED
)
6495 switch (TREE_CODE (*expr_p
))
6497 /* First deal with the special cases. */
6499 case POSTINCREMENT_EXPR
:
6500 case POSTDECREMENT_EXPR
:
6501 case PREINCREMENT_EXPR
:
6502 case PREDECREMENT_EXPR
:
6503 ret
= gimplify_self_mod_expr (expr_p
, pre_p
, post_p
,
6504 fallback
!= fb_none
);
6508 case ARRAY_RANGE_REF
:
6512 case VIEW_CONVERT_EXPR
:
6513 ret
= gimplify_compound_lval (expr_p
, pre_p
, post_p
,
6514 fallback
? fallback
: fb_rvalue
);
6518 ret
= gimplify_cond_expr (expr_p
, pre_p
, fallback
);
6520 /* C99 code may assign to an array in a structure value of a
6521 conditional expression, and this has undefined behavior
6522 only on execution, so create a temporary if an lvalue is
6524 if (fallback
== fb_lvalue
)
6526 *expr_p
= get_initialized_tmp_var (*expr_p
, pre_p
, post_p
);
6527 mark_addressable (*expr_p
);
6532 ret
= gimplify_call_expr (expr_p
, pre_p
, fallback
!= fb_none
);
6534 /* C99 code may assign to an array in a structure returned
6535 from a function, and this has undefined behavior only on
6536 execution, so create a temporary if an lvalue is
6538 if (fallback
== fb_lvalue
)
6540 *expr_p
= get_initialized_tmp_var (*expr_p
, pre_p
, post_p
);
6541 mark_addressable (*expr_p
);
6549 ret
= gimplify_compound_expr (expr_p
, pre_p
, fallback
!= fb_none
);
6552 case COMPOUND_LITERAL_EXPR
:
6553 ret
= gimplify_compound_literal_expr (expr_p
, pre_p
);
6558 ret
= gimplify_modify_expr (expr_p
, pre_p
, post_p
,
6559 fallback
!= fb_none
);
6562 case TRUTH_ANDIF_EXPR
:
6563 case TRUTH_ORIF_EXPR
:
6564 /* Pass the source location of the outer expression. */
6565 ret
= gimplify_boolean_expr (expr_p
, saved_location
);
6568 case TRUTH_NOT_EXPR
:
6569 if (TREE_CODE (TREE_TYPE (*expr_p
)) != BOOLEAN_TYPE
)
6571 tree type
= TREE_TYPE (*expr_p
);
6572 *expr_p
= fold_convert (type
, gimple_boolify (*expr_p
));
6577 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
6578 is_gimple_val
, fb_rvalue
);
6579 recalculate_side_effects (*expr_p
);
6583 ret
= gimplify_addr_expr (expr_p
, pre_p
, post_p
);
6587 ret
= gimplify_va_arg_expr (expr_p
, pre_p
, post_p
);
6591 if (IS_EMPTY_STMT (*expr_p
))
6597 if (VOID_TYPE_P (TREE_TYPE (*expr_p
))
6598 || fallback
== fb_none
)
6600 /* Just strip a conversion to void (or in void context) and
6602 *expr_p
= TREE_OPERAND (*expr_p
, 0);
6606 ret
= gimplify_conversion (expr_p
);
6607 if (ret
== GS_ERROR
)
6609 if (*expr_p
!= save_expr
)
6613 case FIX_TRUNC_EXPR
:
6614 /* unary_expr: ... | '(' cast ')' val | ... */
6615 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
6616 is_gimple_val
, fb_rvalue
);
6617 recalculate_side_effects (*expr_p
);
6621 *expr_p
= fold_indirect_ref (*expr_p
);
6622 if (*expr_p
!= save_expr
)
6624 /* else fall through. */
6625 case ALIGN_INDIRECT_REF
:
6626 case MISALIGNED_INDIRECT_REF
:
6627 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
6628 is_gimple_reg
, fb_rvalue
);
6629 recalculate_side_effects (*expr_p
);
6632 /* Constants need not be gimplified. */
6643 /* If we require an lvalue, such as for ADDR_EXPR, retain the
6644 CONST_DECL node. Otherwise the decl is replaceable by its
6646 /* ??? Should be == fb_lvalue, but ADDR_EXPR passes fb_either. */
6647 if (fallback
& fb_lvalue
)
6650 *expr_p
= DECL_INITIAL (*expr_p
);
6654 ret
= gimplify_decl_expr (expr_p
, pre_p
);
6658 /* FIXME make this a decl. */
6663 ret
= gimplify_bind_expr (expr_p
, pre_p
);
6667 ret
= gimplify_loop_expr (expr_p
, pre_p
);
6671 ret
= gimplify_switch_expr (expr_p
, pre_p
);
6675 ret
= gimplify_exit_expr (expr_p
);
6679 /* If the target is not LABEL, then it is a computed jump
6680 and the target needs to be gimplified. */
6681 if (TREE_CODE (GOTO_DESTINATION (*expr_p
)) != LABEL_DECL
)
6683 ret
= gimplify_expr (&GOTO_DESTINATION (*expr_p
), pre_p
,
6684 NULL
, is_gimple_val
, fb_rvalue
);
6685 if (ret
== GS_ERROR
)
6688 gimplify_seq_add_stmt (pre_p
,
6689 gimple_build_goto (GOTO_DESTINATION (*expr_p
)));
6693 gimplify_seq_add_stmt (pre_p
,
6694 gimple_build_predict (PREDICT_EXPR_PREDICTOR (*expr_p
),
6695 PREDICT_EXPR_OUTCOME (*expr_p
)));
6701 gcc_assert (decl_function_context (LABEL_EXPR_LABEL (*expr_p
))
6702 == current_function_decl
);
6703 gimplify_seq_add_stmt (pre_p
,
6704 gimple_build_label (LABEL_EXPR_LABEL (*expr_p
)));
6707 case CASE_LABEL_EXPR
:
6708 ret
= gimplify_case_label_expr (expr_p
, pre_p
);
6712 ret
= gimplify_return_expr (*expr_p
, pre_p
);
6716 /* Don't reduce this in place; let gimplify_init_constructor work its
6717 magic. Buf if we're just elaborating this for side effects, just
6718 gimplify any element that has side-effects. */
6719 if (fallback
== fb_none
)
6721 unsigned HOST_WIDE_INT ix
;
6722 constructor_elt
*ce
;
6723 tree temp
= NULL_TREE
;
6725 VEC_iterate (constructor_elt
, CONSTRUCTOR_ELTS (*expr_p
),
6728 if (TREE_SIDE_EFFECTS (ce
->value
))
6729 append_to_statement_list (ce
->value
, &temp
);
6734 /* C99 code may assign to an array in a constructed
6735 structure or union, and this has undefined behavior only
6736 on execution, so create a temporary if an lvalue is
6738 else if (fallback
== fb_lvalue
)
6740 *expr_p
= get_initialized_tmp_var (*expr_p
, pre_p
, post_p
);
6741 mark_addressable (*expr_p
);
6747 /* The following are special cases that are not handled by the
6748 original GIMPLE grammar. */
6750 /* SAVE_EXPR nodes are converted into a GIMPLE identifier and
6753 ret
= gimplify_save_expr (expr_p
, pre_p
, post_p
);
6758 enum gimplify_status r0
, r1
, r2
;
6760 r0
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
,
6761 post_p
, is_gimple_lvalue
, fb_either
);
6762 r1
= gimplify_expr (&TREE_OPERAND (*expr_p
, 1), pre_p
,
6763 post_p
, is_gimple_val
, fb_rvalue
);
6764 r2
= gimplify_expr (&TREE_OPERAND (*expr_p
, 2), pre_p
,
6765 post_p
, is_gimple_val
, fb_rvalue
);
6766 recalculate_side_effects (*expr_p
);
6768 ret
= MIN (r0
, MIN (r1
, r2
));
6772 case NON_LVALUE_EXPR
:
6773 /* This should have been stripped above. */
6777 ret
= gimplify_asm_expr (expr_p
, pre_p
, post_p
);
6780 case TRY_FINALLY_EXPR
:
6781 case TRY_CATCH_EXPR
:
6783 gimple_seq eval
, cleanup
;
6786 eval
= cleanup
= NULL
;
6787 gimplify_and_add (TREE_OPERAND (*expr_p
, 0), &eval
);
6788 gimplify_and_add (TREE_OPERAND (*expr_p
, 1), &cleanup
);
6789 /* Don't create bogus GIMPLE_TRY with empty cleanup. */
6790 if (gimple_seq_empty_p (cleanup
))
6792 gimple_seq_add_seq (pre_p
, eval
);
6796 try_
= gimple_build_try (eval
, cleanup
,
6797 TREE_CODE (*expr_p
) == TRY_FINALLY_EXPR
6798 ? GIMPLE_TRY_FINALLY
6799 : GIMPLE_TRY_CATCH
);
6800 if (TREE_CODE (*expr_p
) == TRY_CATCH_EXPR
)
6801 gimple_try_set_catch_is_cleanup (try_
,
6802 TRY_CATCH_IS_CLEANUP (*expr_p
));
6803 gimplify_seq_add_stmt (pre_p
, try_
);
6808 case CLEANUP_POINT_EXPR
:
6809 ret
= gimplify_cleanup_point_expr (expr_p
, pre_p
);
6813 ret
= gimplify_target_expr (expr_p
, pre_p
, post_p
);
6819 gimple_seq handler
= NULL
;
6820 gimplify_and_add (CATCH_BODY (*expr_p
), &handler
);
6821 c
= gimple_build_catch (CATCH_TYPES (*expr_p
), handler
);
6822 gimplify_seq_add_stmt (pre_p
, c
);
6827 case EH_FILTER_EXPR
:
6830 gimple_seq failure
= NULL
;
6832 gimplify_and_add (EH_FILTER_FAILURE (*expr_p
), &failure
);
6833 ehf
= gimple_build_eh_filter (EH_FILTER_TYPES (*expr_p
), failure
);
6834 gimple_eh_filter_set_must_not_throw
6835 (ehf
, EH_FILTER_MUST_NOT_THROW (*expr_p
));
6836 gimplify_seq_add_stmt (pre_p
, ehf
);
6841 case CHANGE_DYNAMIC_TYPE_EXPR
:
6845 ret
= gimplify_expr (&CHANGE_DYNAMIC_TYPE_LOCATION (*expr_p
),
6846 pre_p
, post_p
, is_gimple_reg
, fb_lvalue
);
6847 cdt
= gimple_build_cdt (CHANGE_DYNAMIC_TYPE_NEW_TYPE (*expr_p
),
6848 CHANGE_DYNAMIC_TYPE_LOCATION (*expr_p
));
6849 gimplify_seq_add_stmt (pre_p
, cdt
);
6856 enum gimplify_status r0
, r1
;
6857 r0
= gimplify_expr (&OBJ_TYPE_REF_OBJECT (*expr_p
), pre_p
,
6858 post_p
, is_gimple_val
, fb_rvalue
);
6859 r1
= gimplify_expr (&OBJ_TYPE_REF_EXPR (*expr_p
), pre_p
,
6860 post_p
, is_gimple_val
, fb_rvalue
);
6861 TREE_SIDE_EFFECTS (*expr_p
) = 0;
6867 /* We get here when taking the address of a label. We mark
6868 the label as "forced"; meaning it can never be removed and
6869 it is a potential target for any computed goto. */
6870 FORCED_LABEL (*expr_p
) = 1;
6874 case STATEMENT_LIST
:
6875 ret
= gimplify_statement_list (expr_p
, pre_p
);
6878 case WITH_SIZE_EXPR
:
6880 gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
,
6881 post_p
== &internal_post
? NULL
: post_p
,
6882 gimple_test_f
, fallback
);
6883 gimplify_expr (&TREE_OPERAND (*expr_p
, 1), pre_p
, post_p
,
6884 is_gimple_val
, fb_rvalue
);
6890 ret
= gimplify_var_or_parm_decl (expr_p
);
6894 /* When within an OpenMP context, notice uses of variables. */
6895 if (gimplify_omp_ctxp
)
6896 omp_notice_variable (gimplify_omp_ctxp
, *expr_p
, true);
6901 /* Allow callbacks into the gimplifier during optimization. */
6906 gimplify_omp_parallel (expr_p
, pre_p
);
6911 gimplify_omp_task (expr_p
, pre_p
);
6916 ret
= gimplify_omp_for (expr_p
, pre_p
);
6921 gimplify_omp_workshare (expr_p
, pre_p
);
6930 gimple_seq body
= NULL
;
6933 gimplify_and_add (OMP_BODY (*expr_p
), &body
);
6934 switch (TREE_CODE (*expr_p
))
6937 g
= gimple_build_omp_section (body
);
6940 g
= gimple_build_omp_master (body
);
6943 g
= gimple_build_omp_ordered (body
);
6946 g
= gimple_build_omp_critical (body
,
6947 OMP_CRITICAL_NAME (*expr_p
));
6952 gimplify_seq_add_stmt (pre_p
, g
);
6958 ret
= gimplify_omp_atomic (expr_p
, pre_p
);
6961 case POINTER_PLUS_EXPR
:
6962 /* Convert ((type *)A)+offset into &A->field_of_type_and_offset.
6963 The second is gimple immediate saving a need for extra statement.
6965 if (TREE_CODE (TREE_OPERAND (*expr_p
, 1)) == INTEGER_CST
6966 && (tmp
= maybe_fold_offset_to_address
6967 (TREE_OPERAND (*expr_p
, 0), TREE_OPERAND (*expr_p
, 1),
6968 TREE_TYPE (*expr_p
))))
6973 /* Convert (void *)&a + 4 into (void *)&a[1]. */
6974 if (TREE_CODE (TREE_OPERAND (*expr_p
, 0)) == NOP_EXPR
6975 && TREE_CODE (TREE_OPERAND (*expr_p
, 1)) == INTEGER_CST
6976 && POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND (TREE_OPERAND (*expr_p
,
6978 && (tmp
= maybe_fold_offset_to_address
6979 (TREE_OPERAND (TREE_OPERAND (*expr_p
, 0), 0),
6980 TREE_OPERAND (*expr_p
, 1),
6981 TREE_TYPE (TREE_OPERAND (TREE_OPERAND (*expr_p
, 0),
6984 *expr_p
= fold_convert (TREE_TYPE (*expr_p
), tmp
);
6990 switch (TREE_CODE_CLASS (TREE_CODE (*expr_p
)))
6992 case tcc_comparison
:
6993 /* Handle comparison of objects of non scalar mode aggregates
6994 with a call to memcmp. It would be nice to only have to do
6995 this for variable-sized objects, but then we'd have to allow
6996 the same nest of reference nodes we allow for MODIFY_EXPR and
6999 Compare scalar mode aggregates as scalar mode values. Using
7000 memcmp for them would be very inefficient at best, and is
7001 plain wrong if bitfields are involved. */
7003 tree type
= TREE_TYPE (TREE_OPERAND (*expr_p
, 1));
7005 if (!AGGREGATE_TYPE_P (type
))
7007 else if (TYPE_MODE (type
) != BLKmode
)
7008 ret
= gimplify_scalar_mode_aggregate_compare (expr_p
);
7010 ret
= gimplify_variable_sized_compare (expr_p
);
7015 /* If *EXPR_P does not need to be special-cased, handle it
7016 according to its class. */
7018 ret
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
,
7019 post_p
, is_gimple_val
, fb_rvalue
);
7025 enum gimplify_status r0
, r1
;
7027 r0
= gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
,
7028 post_p
, is_gimple_val
, fb_rvalue
);
7029 r1
= gimplify_expr (&TREE_OPERAND (*expr_p
, 1), pre_p
,
7030 post_p
, is_gimple_val
, fb_rvalue
);
7036 case tcc_declaration
:
7039 goto dont_recalculate
;
7042 gcc_assert (TREE_CODE (*expr_p
) == TRUTH_AND_EXPR
7043 || TREE_CODE (*expr_p
) == TRUTH_OR_EXPR
7044 || TREE_CODE (*expr_p
) == TRUTH_XOR_EXPR
);
7048 recalculate_side_effects (*expr_p
);
7054 /* If we replaced *expr_p, gimplify again. */
7055 if (ret
== GS_OK
&& (*expr_p
== NULL
|| *expr_p
== save_expr
))
7058 while (ret
== GS_OK
);
7060 /* If we encountered an error_mark somewhere nested inside, either
7061 stub out the statement or propagate the error back out. */
7062 if (ret
== GS_ERROR
)
7069 /* This was only valid as a return value from the langhook, which
7070 we handled. Make sure it doesn't escape from any other context. */
7071 gcc_assert (ret
!= GS_UNHANDLED
);
7073 if (fallback
== fb_none
&& *expr_p
&& !is_gimple_stmt (*expr_p
))
7075 /* We aren't looking for a value, and we don't have a valid
7076 statement. If it doesn't have side-effects, throw it away. */
7077 if (!TREE_SIDE_EFFECTS (*expr_p
))
7079 else if (!TREE_THIS_VOLATILE (*expr_p
))
7081 /* This is probably a _REF that contains something nested that
7082 has side effects. Recurse through the operands to find it. */
7083 enum tree_code code
= TREE_CODE (*expr_p
);
7090 case VIEW_CONVERT_EXPR
:
7091 gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
7092 gimple_test_f
, fallback
);
7096 case ARRAY_RANGE_REF
:
7097 gimplify_expr (&TREE_OPERAND (*expr_p
, 0), pre_p
, post_p
,
7098 gimple_test_f
, fallback
);
7099 gimplify_expr (&TREE_OPERAND (*expr_p
, 1), pre_p
, post_p
,
7100 gimple_test_f
, fallback
);
7104 /* Anything else with side-effects must be converted to
7105 a valid statement before we get here. */
7111 else if (COMPLETE_TYPE_P (TREE_TYPE (*expr_p
))
7112 && TYPE_MODE (TREE_TYPE (*expr_p
)) != BLKmode
)
7114 /* Historically, the compiler has treated a bare reference
7115 to a non-BLKmode volatile lvalue as forcing a load. */
7116 tree type
= TYPE_MAIN_VARIANT (TREE_TYPE (*expr_p
));
7118 /* Normally, we do not want to create a temporary for a
7119 TREE_ADDRESSABLE type because such a type should not be
7120 copied by bitwise-assignment. However, we make an
7121 exception here, as all we are doing here is ensuring that
7122 we read the bytes that make up the type. We use
7123 create_tmp_var_raw because create_tmp_var will abort when
7124 given a TREE_ADDRESSABLE type. */
7125 tree tmp
= create_tmp_var_raw (type
, "vol");
7126 gimple_add_tmp_var (tmp
);
7127 gimplify_assign (tmp
, *expr_p
, pre_p
);
7131 /* We can't do anything useful with a volatile reference to
7132 an incomplete type, so just throw it away. Likewise for
7133 a BLKmode type, since any implicit inner load should
7134 already have been turned into an explicit one by the
7135 gimplification process. */
7139 /* If we are gimplifying at the statement level, we're done. Tack
7140 everything together and return. */
7141 if (fallback
== fb_none
|| is_statement
)
7143 /* Since *EXPR_P has been converted into a GIMPLE tuple, clear
7144 it out for GC to reclaim it. */
7145 *expr_p
= NULL_TREE
;
7147 if (!gimple_seq_empty_p (internal_pre
)
7148 || !gimple_seq_empty_p (internal_post
))
7150 gimplify_seq_add_seq (&internal_pre
, internal_post
);
7151 gimplify_seq_add_seq (pre_p
, internal_pre
);
7154 /* The result of gimplifying *EXPR_P is going to be the last few
7155 statements in *PRE_P and *POST_P. Add location information
7156 to all the statements that were added by the gimplification
7158 if (!gimple_seq_empty_p (*pre_p
))
7159 annotate_all_with_location_after (*pre_p
, pre_last_gsi
, input_location
);
7161 if (!gimple_seq_empty_p (*post_p
))
7162 annotate_all_with_location_after (*post_p
, post_last_gsi
,
7168 #ifdef ENABLE_GIMPLE_CHECKING
7171 enum tree_code code
= TREE_CODE (*expr_p
);
7172 /* These expressions should already be in gimple IR form. */
7173 gcc_assert (code
!= MODIFY_EXPR
7175 && code
!= BIND_EXPR
7176 && code
!= CATCH_EXPR
7177 && (code
!= COND_EXPR
|| gimplify_ctxp
->allow_rhs_cond_expr
)
7178 && code
!= EH_FILTER_EXPR
7179 && code
!= GOTO_EXPR
7180 && code
!= LABEL_EXPR
7181 && code
!= LOOP_EXPR
7182 && code
!= RESX_EXPR
7183 && code
!= SWITCH_EXPR
7184 && code
!= TRY_FINALLY_EXPR
7185 && code
!= OMP_CRITICAL
7187 && code
!= OMP_MASTER
7188 && code
!= OMP_ORDERED
7189 && code
!= OMP_PARALLEL
7190 && code
!= OMP_SECTIONS
7191 && code
!= OMP_SECTION
7192 && code
!= OMP_SINGLE
);
7196 /* Otherwise we're gimplifying a subexpression, so the resulting
7197 value is interesting. If it's a valid operand that matches
7198 GIMPLE_TEST_F, we're done. Unless we are handling some
7199 post-effects internally; if that's the case, we need to copy into
7200 a temporary before adding the post-effects to POST_P. */
7201 if (gimple_seq_empty_p (internal_post
) && (*gimple_test_f
) (*expr_p
))
7204 /* Otherwise, we need to create a new temporary for the gimplified
7207 /* We can't return an lvalue if we have an internal postqueue. The
7208 object the lvalue refers to would (probably) be modified by the
7209 postqueue; we need to copy the value out first, which means an
7211 if ((fallback
& fb_lvalue
)
7212 && gimple_seq_empty_p (internal_post
)
7213 && is_gimple_addressable (*expr_p
))
7215 /* An lvalue will do. Take the address of the expression, store it
7216 in a temporary, and replace the expression with an INDIRECT_REF of
7218 tmp
= build_fold_addr_expr (*expr_p
);
7219 gimplify_expr (&tmp
, pre_p
, post_p
, is_gimple_reg
, fb_rvalue
);
7220 *expr_p
= build1 (INDIRECT_REF
, TREE_TYPE (TREE_TYPE (tmp
)), tmp
);
7222 else if ((fallback
& fb_rvalue
) && is_gimple_reg_rhs_or_call (*expr_p
))
7224 /* An rvalue will do. Assign the gimplified expression into a
7225 new temporary TMP and replace the original expression with
7226 TMP. First, make sure that the expression has a type so that
7227 it can be assigned into a temporary. */
7228 gcc_assert (!VOID_TYPE_P (TREE_TYPE (*expr_p
)));
7230 if (!gimple_seq_empty_p (internal_post
) || (fallback
& fb_lvalue
))
7231 /* The postqueue might change the value of the expression between
7232 the initialization and use of the temporary, so we can't use a
7233 formal temp. FIXME do we care? */
7235 *expr_p
= get_initialized_tmp_var (*expr_p
, pre_p
, post_p
);
7236 if (TREE_CODE (TREE_TYPE (*expr_p
)) == COMPLEX_TYPE
7237 || TREE_CODE (TREE_TYPE (*expr_p
)) == VECTOR_TYPE
)
7238 DECL_GIMPLE_REG_P (*expr_p
) = 1;
7241 *expr_p
= get_formal_tmp_var (*expr_p
, pre_p
);
7245 #ifdef ENABLE_GIMPLE_CHECKING
7246 if (!(fallback
& fb_mayfail
))
7248 fprintf (stderr
, "gimplification failed:\n");
7249 print_generic_expr (stderr
, *expr_p
, 0);
7250 debug_tree (*expr_p
);
7251 internal_error ("gimplification failed");
7254 gcc_assert (fallback
& fb_mayfail
);
7256 /* If this is an asm statement, and the user asked for the
7257 impossible, don't die. Fail and let gimplify_asm_expr
7263 /* Make sure the temporary matches our predicate. */
7264 gcc_assert ((*gimple_test_f
) (*expr_p
));
7266 if (!gimple_seq_empty_p (internal_post
))
7268 annotate_all_with_location (internal_post
, input_location
);
7269 gimplify_seq_add_seq (pre_p
, internal_post
);
7273 input_location
= saved_location
;
7277 /* Look through TYPE for variable-sized objects and gimplify each such
7278 size that we find. Add to LIST_P any statements generated. */
7281 gimplify_type_sizes (tree type
, gimple_seq
*list_p
)
7285 if (type
== NULL
|| type
== error_mark_node
)
7288 /* We first do the main variant, then copy into any other variants. */
7289 type
= TYPE_MAIN_VARIANT (type
);
7291 /* Avoid infinite recursion. */
7292 if (TYPE_SIZES_GIMPLIFIED (type
))
7295 TYPE_SIZES_GIMPLIFIED (type
) = 1;
7297 switch (TREE_CODE (type
))
7303 case FIXED_POINT_TYPE
:
7304 gimplify_one_sizepos (&TYPE_MIN_VALUE (type
), list_p
);
7305 gimplify_one_sizepos (&TYPE_MAX_VALUE (type
), list_p
);
7307 for (t
= TYPE_NEXT_VARIANT (type
); t
; t
= TYPE_NEXT_VARIANT (t
))
7309 TYPE_MIN_VALUE (t
) = TYPE_MIN_VALUE (type
);
7310 TYPE_MAX_VALUE (t
) = TYPE_MAX_VALUE (type
);
7315 /* These types may not have declarations, so handle them here. */
7316 gimplify_type_sizes (TREE_TYPE (type
), list_p
);
7317 gimplify_type_sizes (TYPE_DOMAIN (type
), list_p
);
7318 /* When not optimizing, ensure VLA bounds aren't removed. */
7320 && TYPE_DOMAIN (type
)
7321 && INTEGRAL_TYPE_P (TYPE_DOMAIN (type
)))
7323 t
= TYPE_MIN_VALUE (TYPE_DOMAIN (type
));
7324 if (t
&& TREE_CODE (t
) == VAR_DECL
&& DECL_ARTIFICIAL (t
))
7325 DECL_IGNORED_P (t
) = 0;
7326 t
= TYPE_MAX_VALUE (TYPE_DOMAIN (type
));
7327 if (t
&& TREE_CODE (t
) == VAR_DECL
&& DECL_ARTIFICIAL (t
))
7328 DECL_IGNORED_P (t
) = 0;
7334 case QUAL_UNION_TYPE
:
7335 for (field
= TYPE_FIELDS (type
); field
; field
= TREE_CHAIN (field
))
7336 if (TREE_CODE (field
) == FIELD_DECL
)
7338 gimplify_one_sizepos (&DECL_FIELD_OFFSET (field
), list_p
);
7339 gimplify_one_sizepos (&DECL_SIZE (field
), list_p
);
7340 gimplify_one_sizepos (&DECL_SIZE_UNIT (field
), list_p
);
7341 gimplify_type_sizes (TREE_TYPE (field
), list_p
);
7346 case REFERENCE_TYPE
:
7347 /* We used to recurse on the pointed-to type here, which turned out to
7348 be incorrect because its definition might refer to variables not
7349 yet initialized at this point if a forward declaration is involved.
7351 It was actually useful for anonymous pointed-to types to ensure
7352 that the sizes evaluation dominates every possible later use of the
7353 values. Restricting to such types here would be safe since there
7354 is no possible forward declaration around, but would introduce an
7355 undesirable middle-end semantic to anonymity. We then defer to
7356 front-ends the responsibility of ensuring that the sizes are
7357 evaluated both early and late enough, e.g. by attaching artificial
7358 type declarations to the tree. */
7365 gimplify_one_sizepos (&TYPE_SIZE (type
), list_p
);
7366 gimplify_one_sizepos (&TYPE_SIZE_UNIT (type
), list_p
);
7368 for (t
= TYPE_NEXT_VARIANT (type
); t
; t
= TYPE_NEXT_VARIANT (t
))
7370 TYPE_SIZE (t
) = TYPE_SIZE (type
);
7371 TYPE_SIZE_UNIT (t
) = TYPE_SIZE_UNIT (type
);
7372 TYPE_SIZES_GIMPLIFIED (t
) = 1;
7376 /* A subroutine of gimplify_type_sizes to make sure that *EXPR_P,
7377 a size or position, has had all of its SAVE_EXPRs evaluated.
7378 We add any required statements to *STMT_P. */
7381 gimplify_one_sizepos (tree
*expr_p
, gimple_seq
*stmt_p
)
7383 tree type
, expr
= *expr_p
;
7385 /* We don't do anything if the value isn't there, is constant, or contains
7386 A PLACEHOLDER_EXPR. We also don't want to do anything if it's already
7387 a VAR_DECL. If it's a VAR_DECL from another function, the gimplifier
7388 will want to replace it with a new variable, but that will cause problems
7389 if this type is from outside the function. It's OK to have that here. */
7390 if (expr
== NULL_TREE
|| TREE_CONSTANT (expr
)
7391 || TREE_CODE (expr
) == VAR_DECL
7392 || CONTAINS_PLACEHOLDER_P (expr
))
7395 type
= TREE_TYPE (expr
);
7396 *expr_p
= unshare_expr (expr
);
7398 gimplify_expr (expr_p
, stmt_p
, NULL
, is_gimple_val
, fb_rvalue
);
7401 /* Verify that we've an exact type match with the original expression.
7402 In particular, we do not wish to drop a "sizetype" in favour of a
7403 type of similar dimensions. We don't want to pollute the generic
7404 type-stripping code with this knowledge because it doesn't matter
7405 for the bulk of GENERIC/GIMPLE. It only matters that TYPE_SIZE_UNIT
7406 and friends retain their "sizetype-ness". */
7407 if (TREE_TYPE (expr
) != type
7408 && TREE_CODE (type
) == INTEGER_TYPE
7409 && TYPE_IS_SIZETYPE (type
))
7414 *expr_p
= create_tmp_var (type
, NULL
);
7415 tmp
= build1 (NOP_EXPR
, type
, expr
);
7416 stmt
= gimplify_assign (*expr_p
, tmp
, stmt_p
);
7417 if (EXPR_HAS_LOCATION (expr
))
7418 gimple_set_location (stmt
, *EXPR_LOCUS (expr
));
7420 gimple_set_location (stmt
, input_location
);
7425 /* Gimplify the body of statements pointed to by BODY_P and return a
7426 GIMPLE_BIND containing the sequence of GIMPLE statements
7427 corresponding to BODY_P. FNDECL is the function decl containing
7431 gimplify_body (tree
*body_p
, tree fndecl
, bool do_parms
)
7433 location_t saved_location
= input_location
;
7434 gimple_seq parm_stmts
, seq
;
7436 struct gimplify_ctx gctx
;
7438 timevar_push (TV_TREE_GIMPLIFY
);
7440 /* Initialize for optimize_insn_for_s{ize,peed}_p possibly called during
7442 default_rtl_profile ();
7444 gcc_assert (gimplify_ctxp
== NULL
);
7445 push_gimplify_context (&gctx
);
7447 /* Unshare most shared trees in the body and in that of any nested functions.
7448 It would seem we don't have to do this for nested functions because
7449 they are supposed to be output and then the outer function gimplified
7450 first, but the g++ front end doesn't always do it that way. */
7451 unshare_body (body_p
, fndecl
);
7452 unvisit_body (body_p
, fndecl
);
7454 if (cgraph_node (fndecl
)->origin
)
7455 nonlocal_vlas
= pointer_set_create ();
7457 /* Make sure input_location isn't set to something weird. */
7458 input_location
= DECL_SOURCE_LOCATION (fndecl
);
7460 /* Resolve callee-copies. This has to be done before processing
7461 the body so that DECL_VALUE_EXPR gets processed correctly. */
7462 parm_stmts
= (do_parms
) ? gimplify_parameters () : NULL
;
7464 /* Gimplify the function's body. */
7466 gimplify_stmt (body_p
, &seq
);
7467 outer_bind
= gimple_seq_first_stmt (seq
);
7470 outer_bind
= gimple_build_nop ();
7471 gimplify_seq_add_stmt (&seq
, outer_bind
);
7474 /* The body must contain exactly one statement, a GIMPLE_BIND. If this is
7475 not the case, wrap everything in a GIMPLE_BIND to make it so. */
7476 if (gimple_code (outer_bind
) == GIMPLE_BIND
7477 && gimple_seq_first (seq
) == gimple_seq_last (seq
))
7480 outer_bind
= gimple_build_bind (NULL_TREE
, seq
, NULL
);
7482 *body_p
= NULL_TREE
;
7484 /* If we had callee-copies statements, insert them at the beginning
7486 if (!gimple_seq_empty_p (parm_stmts
))
7488 gimplify_seq_add_seq (&parm_stmts
, gimple_bind_body (outer_bind
));
7489 gimple_bind_set_body (outer_bind
, parm_stmts
);
7494 pointer_set_destroy (nonlocal_vlas
);
7495 nonlocal_vlas
= NULL
;
7498 pop_gimplify_context (outer_bind
);
7499 gcc_assert (gimplify_ctxp
== NULL
);
7501 #ifdef ENABLE_TYPES_CHECKING
7502 if (!errorcount
&& !sorrycount
)
7503 verify_types_in_gimple_seq (gimple_bind_body (outer_bind
));
7506 timevar_pop (TV_TREE_GIMPLIFY
);
7507 input_location
= saved_location
;
7512 /* Entry point to the gimplification pass. FNDECL is the FUNCTION_DECL
7513 node for the function we want to gimplify.
7515 Returns the sequence of GIMPLE statements corresponding to the body
7519 gimplify_function_tree (tree fndecl
)
7521 tree oldfn
, parm
, ret
;
7525 oldfn
= current_function_decl
;
7526 current_function_decl
= fndecl
;
7527 if (DECL_STRUCT_FUNCTION (fndecl
))
7528 push_cfun (DECL_STRUCT_FUNCTION (fndecl
));
7530 push_struct_function (fndecl
);
7532 for (parm
= DECL_ARGUMENTS (fndecl
); parm
; parm
= TREE_CHAIN (parm
))
7534 /* Preliminarily mark non-addressed complex variables as eligible
7535 for promotion to gimple registers. We'll transform their uses
7537 if ((TREE_CODE (TREE_TYPE (parm
)) == COMPLEX_TYPE
7538 || TREE_CODE (TREE_TYPE (parm
)) == VECTOR_TYPE
)
7539 && !TREE_THIS_VOLATILE (parm
)
7540 && !needs_to_live_in_memory (parm
))
7541 DECL_GIMPLE_REG_P (parm
) = 1;
7544 ret
= DECL_RESULT (fndecl
);
7545 if ((TREE_CODE (TREE_TYPE (ret
)) == COMPLEX_TYPE
7546 || TREE_CODE (TREE_TYPE (ret
)) == VECTOR_TYPE
)
7547 && !needs_to_live_in_memory (ret
))
7548 DECL_GIMPLE_REG_P (ret
) = 1;
7550 bind
= gimplify_body (&DECL_SAVED_TREE (fndecl
), fndecl
, true);
7552 /* The tree body of the function is no longer needed, replace it
7553 with the new GIMPLE body. */
7554 seq
= gimple_seq_alloc ();
7555 gimple_seq_add_stmt (&seq
, bind
);
7556 gimple_set_body (fndecl
, seq
);
7558 /* If we're instrumenting function entry/exit, then prepend the call to
7559 the entry hook and wrap the whole function in a TRY_FINALLY_EXPR to
7560 catch the exit hook. */
7561 /* ??? Add some way to ignore exceptions for this TFE. */
7562 if (flag_instrument_function_entry_exit
7563 && !DECL_NO_INSTRUMENT_FUNCTION_ENTRY_EXIT (fndecl
)
7564 && !flag_instrument_functions_exclude_p (fndecl
))
7569 gimple_seq cleanup
= NULL
, body
= NULL
;
7571 x
= implicit_built_in_decls
[BUILT_IN_PROFILE_FUNC_EXIT
];
7572 gimplify_seq_add_stmt (&cleanup
, gimple_build_call (x
, 0));
7573 tf
= gimple_build_try (seq
, cleanup
, GIMPLE_TRY_FINALLY
);
7575 x
= implicit_built_in_decls
[BUILT_IN_PROFILE_FUNC_ENTER
];
7576 gimplify_seq_add_stmt (&body
, gimple_build_call (x
, 0));
7577 gimplify_seq_add_stmt (&body
, tf
);
7578 new_bind
= gimple_build_bind (NULL
, body
, gimple_bind_block (bind
));
7579 /* Clear the block for BIND, since it is no longer directly inside
7580 the function, but within a try block. */
7581 gimple_bind_set_block (bind
, NULL
);
7583 /* Replace the current function body with the body
7584 wrapped in the try/finally TF. */
7585 seq
= gimple_seq_alloc ();
7586 gimple_seq_add_stmt (&seq
, new_bind
);
7587 gimple_set_body (fndecl
, seq
);
7590 DECL_SAVED_TREE (fndecl
) = NULL_TREE
;
7592 current_function_decl
= oldfn
;
7597 /* Some transformations like inlining may invalidate the GIMPLE form
7598 for operands. This function traverses all the operands in STMT and
7599 gimplifies anything that is not a valid gimple operand. Any new
7600 GIMPLE statements are inserted before *GSI_P. */
7603 gimple_regimplify_operands (gimple stmt
, gimple_stmt_iterator
*gsi_p
)
7606 tree orig_lhs
= NULL_TREE
, lhs
, t
;
7607 gimple_seq pre
= NULL
;
7608 gimple post_stmt
= NULL
;
7609 struct gimplify_ctx gctx
;
7611 push_gimplify_context (&gctx
);
7612 gimplify_ctxp
->into_ssa
= gimple_in_ssa_p (cfun
);
7614 switch (gimple_code (stmt
))
7617 gimplify_expr (gimple_cond_lhs_ptr (stmt
), &pre
, NULL
,
7618 is_gimple_val
, fb_rvalue
);
7619 gimplify_expr (gimple_cond_rhs_ptr (stmt
), &pre
, NULL
,
7620 is_gimple_val
, fb_rvalue
);
7623 gimplify_expr (gimple_switch_index_ptr (stmt
), &pre
, NULL
,
7624 is_gimple_val
, fb_rvalue
);
7626 case GIMPLE_OMP_ATOMIC_LOAD
:
7627 gimplify_expr (gimple_omp_atomic_load_rhs_ptr (stmt
), &pre
, NULL
,
7628 is_gimple_val
, fb_rvalue
);
7632 size_t i
, noutputs
= gimple_asm_noutputs (stmt
);
7633 const char *constraint
, **oconstraints
;
7634 bool allows_mem
, allows_reg
, is_inout
;
7637 = (const char **) alloca ((noutputs
) * sizeof (const char *));
7638 for (i
= 0; i
< noutputs
; i
++)
7640 tree op
= gimple_asm_output_op (stmt
, i
);
7641 constraint
= TREE_STRING_POINTER (TREE_VALUE (TREE_PURPOSE (op
)));
7642 oconstraints
[i
] = constraint
;
7643 parse_output_constraint (&constraint
, i
, 0, 0, &allows_mem
,
7644 &allows_reg
, &is_inout
);
7645 gimplify_expr (&TREE_VALUE (op
), &pre
, NULL
,
7646 is_inout
? is_gimple_min_lval
: is_gimple_lvalue
,
7647 fb_lvalue
| fb_mayfail
);
7649 for (i
= 0; i
< gimple_asm_ninputs (stmt
); i
++)
7651 tree op
= gimple_asm_input_op (stmt
, i
);
7652 constraint
= TREE_STRING_POINTER (TREE_VALUE (TREE_PURPOSE (op
)));
7653 parse_input_constraint (&constraint
, 0, 0, noutputs
, 0,
7654 oconstraints
, &allows_mem
, &allows_reg
);
7655 if (TREE_ADDRESSABLE (TREE_TYPE (TREE_VALUE (op
))) && allows_mem
)
7657 if (!allows_reg
&& allows_mem
)
7658 gimplify_expr (&TREE_VALUE (op
), &pre
, NULL
,
7659 is_gimple_lvalue
, fb_lvalue
| fb_mayfail
);
7661 gimplify_expr (&TREE_VALUE (op
), &pre
, NULL
,
7662 is_gimple_asm_val
, fb_rvalue
);
7667 /* NOTE: We start gimplifying operands from last to first to
7668 make sure that side-effects on the RHS of calls, assignments
7669 and ASMs are executed before the LHS. The ordering is not
7670 important for other statements. */
7671 num_ops
= gimple_num_ops (stmt
);
7672 orig_lhs
= gimple_get_lhs (stmt
);
7673 for (i
= num_ops
; i
> 0; i
--)
7675 tree op
= gimple_op (stmt
, i
- 1);
7676 if (op
== NULL_TREE
)
7678 if (i
== 1 && (is_gimple_call (stmt
) || is_gimple_assign (stmt
)))
7679 gimplify_expr (&op
, &pre
, NULL
, is_gimple_lvalue
, fb_lvalue
);
7681 && is_gimple_assign (stmt
)
7683 && get_gimple_rhs_class (gimple_expr_code (stmt
))
7684 == GIMPLE_SINGLE_RHS
)
7685 gimplify_expr (&op
, &pre
, NULL
,
7686 rhs_predicate_for (gimple_assign_lhs (stmt
)),
7688 else if (i
== 2 && is_gimple_call (stmt
))
7690 if (TREE_CODE (op
) == FUNCTION_DECL
)
7692 gimplify_expr (&op
, &pre
, NULL
, is_gimple_call_addr
, fb_rvalue
);
7695 gimplify_expr (&op
, &pre
, NULL
, is_gimple_val
, fb_rvalue
);
7696 gimple_set_op (stmt
, i
- 1, op
);
7699 lhs
= gimple_get_lhs (stmt
);
7700 /* If the LHS changed it in a way that requires a simple RHS,
7701 create temporary. */
7702 if (lhs
&& !is_gimple_reg (lhs
))
7704 bool need_temp
= false;
7706 if (is_gimple_assign (stmt
)
7708 && get_gimple_rhs_class (gimple_expr_code (stmt
))
7709 == GIMPLE_SINGLE_RHS
)
7710 gimplify_expr (gimple_assign_rhs1_ptr (stmt
), &pre
, NULL
,
7711 rhs_predicate_for (gimple_assign_lhs (stmt
)),
7713 else if (is_gimple_reg (lhs
))
7715 if (is_gimple_reg_type (TREE_TYPE (lhs
)))
7717 if (is_gimple_call (stmt
))
7719 i
= gimple_call_flags (stmt
);
7720 if ((i
& ECF_LOOPING_CONST_OR_PURE
)
7721 || !(i
& (ECF_CONST
| ECF_PURE
)))
7724 if (stmt_can_throw_internal (stmt
))
7730 if (is_gimple_reg_type (TREE_TYPE (lhs
)))
7732 else if (TYPE_MODE (TREE_TYPE (lhs
)) != BLKmode
)
7734 if (is_gimple_call (stmt
))
7736 tree fndecl
= gimple_call_fndecl (stmt
);
7738 if (!aggregate_value_p (TREE_TYPE (lhs
), fndecl
)
7739 && !(fndecl
&& DECL_RESULT (fndecl
)
7740 && DECL_BY_REFERENCE (DECL_RESULT (fndecl
))))
7749 tree temp
= create_tmp_var (TREE_TYPE (lhs
), NULL
);
7751 if (TREE_CODE (TREE_TYPE (lhs
)) == COMPLEX_TYPE
7752 || TREE_CODE (TREE_TYPE (lhs
)) == VECTOR_TYPE
)
7753 DECL_GIMPLE_REG_P (temp
) = 1;
7754 if (TREE_CODE (orig_lhs
) == SSA_NAME
)
7755 orig_lhs
= SSA_NAME_VAR (orig_lhs
);
7756 if (TREE_CODE (orig_lhs
) == VAR_DECL
7757 && DECL_BASED_ON_RESTRICT_P (orig_lhs
))
7759 DECL_BASED_ON_RESTRICT_P (temp
) = 1;
7760 SET_DECL_RESTRICT_BASE (temp
,
7761 DECL_GET_RESTRICT_BASE (orig_lhs
));
7764 if (gimple_in_ssa_p (cfun
))
7765 temp
= make_ssa_name (temp
, NULL
);
7766 gimple_set_lhs (stmt
, temp
);
7767 post_stmt
= gimple_build_assign (lhs
, temp
);
7768 if (TREE_CODE (lhs
) == SSA_NAME
)
7769 SSA_NAME_DEF_STMT (lhs
) = post_stmt
;
7775 if (gimple_referenced_vars (cfun
))
7776 for (t
= gimplify_ctxp
->temps
; t
; t
= TREE_CHAIN (t
))
7777 add_referenced_var (t
);
7779 if (!gimple_seq_empty_p (pre
))
7781 if (gimple_in_ssa_p (cfun
))
7783 gimple_stmt_iterator i
;
7785 for (i
= gsi_start (pre
); !gsi_end_p (i
); gsi_next (&i
))
7786 mark_symbols_for_renaming (gsi_stmt (i
));
7788 gsi_insert_seq_before (gsi_p
, pre
, GSI_SAME_STMT
);
7791 gsi_insert_after (gsi_p
, post_stmt
, GSI_NEW_STMT
);
7793 pop_gimplify_context (NULL
);
7797 /* Expands EXPR to list of gimple statements STMTS. If SIMPLE is true,
7798 force the result to be either ssa_name or an invariant, otherwise
7799 just force it to be a rhs expression. If VAR is not NULL, make the
7800 base variable of the final destination be VAR if suitable. */
7803 force_gimple_operand (tree expr
, gimple_seq
*stmts
, bool simple
, tree var
)
7806 enum gimplify_status ret
;
7807 gimple_predicate gimple_test_f
;
7808 struct gimplify_ctx gctx
;
7812 if (is_gimple_val (expr
))
7815 gimple_test_f
= simple
? is_gimple_val
: is_gimple_reg_rhs
;
7817 push_gimplify_context (&gctx
);
7818 gimplify_ctxp
->into_ssa
= gimple_in_ssa_p (cfun
);
7819 gimplify_ctxp
->allow_rhs_cond_expr
= true;
7822 expr
= build2 (MODIFY_EXPR
, TREE_TYPE (var
), var
, expr
);
7824 if (TREE_CODE (expr
) != MODIFY_EXPR
7825 && TREE_TYPE (expr
) == void_type_node
)
7827 gimplify_and_add (expr
, stmts
);
7832 ret
= gimplify_expr (&expr
, stmts
, NULL
, gimple_test_f
, fb_rvalue
);
7833 gcc_assert (ret
!= GS_ERROR
);
7836 if (gimple_referenced_vars (cfun
))
7837 for (t
= gimplify_ctxp
->temps
; t
; t
= TREE_CHAIN (t
))
7838 add_referenced_var (t
);
7840 pop_gimplify_context (NULL
);
7845 /* Invokes force_gimple_operand for EXPR with parameters SIMPLE_P and VAR. If
7846 some statements are produced, emits them at GSI. If BEFORE is true.
7847 the statements are appended before GSI, otherwise they are appended after
7848 it. M specifies the way GSI moves after insertion (GSI_SAME_STMT or
7849 GSI_CONTINUE_LINKING are the usual values). */
7852 force_gimple_operand_gsi (gimple_stmt_iterator
*gsi
, tree expr
,
7853 bool simple_p
, tree var
, bool before
,
7854 enum gsi_iterator_update m
)
7858 expr
= force_gimple_operand (expr
, &stmts
, simple_p
, var
);
7860 if (!gimple_seq_empty_p (stmts
))
7862 if (gimple_in_ssa_p (cfun
))
7864 gimple_stmt_iterator i
;
7866 for (i
= gsi_start (stmts
); !gsi_end_p (i
); gsi_next (&i
))
7867 mark_symbols_for_renaming (gsi_stmt (i
));
7871 gsi_insert_seq_before (gsi
, stmts
, m
);
7873 gsi_insert_seq_after (gsi
, stmts
, m
);
7879 #include "gt-gimplify.h"