1 /* Expansion pass for OMP directives. Outlines regions of certain OMP
2 directives to separate functions, converts others into explicit calls to the
3 runtime library (libgomp) and so forth
5 Copyright (C) 2005-2017 Free Software Foundation, Inc.
7 This file is part of GCC.
9 GCC is free software; you can redistribute it and/or modify it under
10 the terms of the GNU General Public License as published by the Free
11 Software Foundation; either version 3, or (at your option) any later
14 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
15 WARRANTY; without even the implied warranty of MERCHANTABILITY or
16 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
19 You should have received a copy of the GNU General Public License
20 along with GCC; see the file COPYING3. If not see
21 <http://www.gnu.org/licenses/>. */
25 #include "coretypes.h"
33 #include "tree-pass.h"
37 #include "pretty-print.h"
38 #include "diagnostic-core.h"
39 #include "fold-const.h"
40 #include "stor-layout.h"
42 #include "internal-fn.h"
44 #include "gimple-iterator.h"
45 #include "gimplify-me.h"
46 #include "gimple-walk.h"
48 #include "tree-into-ssa.h"
50 #include "splay-tree.h"
52 #include "omp-general.h"
53 #include "omp-offload.h"
54 #include "tree-cfgcleanup.h"
55 #include "symbol-summary.h"
57 #include "gomp-constants.h"
58 #include "gimple-pretty-print.h"
59 #include "hsa-common.h"
63 /* OMP region information. Every parallel and workshare
64 directive is enclosed between two markers, the OMP_* directive
65 and a corresponding GIMPLE_OMP_RETURN statement. */
69 /* The enclosing region. */
70 struct omp_region
*outer
;
72 /* First child region. */
73 struct omp_region
*inner
;
75 /* Next peer region. */
76 struct omp_region
*next
;
78 /* Block containing the omp directive as its last stmt. */
81 /* Block containing the GIMPLE_OMP_RETURN as its last stmt. */
84 /* Block containing the GIMPLE_OMP_CONTINUE as its last stmt. */
87 /* If this is a combined parallel+workshare region, this is a list
88 of additional arguments needed by the combined parallel+workshare
90 vec
<tree
, va_gc
> *ws_args
;
92 /* The code for the omp directive of this region. */
93 enum gimple_code type
;
95 /* Schedule kind, only used for GIMPLE_OMP_FOR type regions. */
96 enum omp_clause_schedule_kind sched_kind
;
98 /* Schedule modifiers. */
99 unsigned char sched_modifiers
;
101 /* True if this is a combined parallel+workshare region. */
102 bool is_combined_parallel
;
104 /* The ordered stmt if type is GIMPLE_OMP_ORDERED and it has
106 gomp_ordered
*ord_stmt
;
109 static struct omp_region
*root_omp_region
;
110 static bool omp_any_child_fn_dumped
;
112 static void expand_omp_build_assign (gimple_stmt_iterator
*, tree
, tree
,
114 static gphi
*find_phi_with_arg_on_edge (tree
, edge
);
115 static void expand_omp (struct omp_region
*region
);
117 /* Return true if REGION is a combined parallel+workshare region. */
120 is_combined_parallel (struct omp_region
*region
)
122 return region
->is_combined_parallel
;
125 /* Given two blocks PAR_ENTRY_BB and WS_ENTRY_BB such that WS_ENTRY_BB
126 is the immediate dominator of PAR_ENTRY_BB, return true if there
127 are no data dependencies that would prevent expanding the parallel
128 directive at PAR_ENTRY_BB as a combined parallel+workshare region.
130 When expanding a combined parallel+workshare region, the call to
131 the child function may need additional arguments in the case of
132 GIMPLE_OMP_FOR regions. In some cases, these arguments are
133 computed out of variables passed in from the parent to the child
134 via 'struct .omp_data_s'. For instance:
136 #pragma omp parallel for schedule (guided, i * 4)
141 # BLOCK 2 (PAR_ENTRY_BB)
143 #pragma omp parallel [child fn: bar.omp_fn.0 ( ..., D.1598)
145 # BLOCK 3 (WS_ENTRY_BB)
146 .omp_data_i = &.omp_data_o;
147 D.1667 = .omp_data_i->i;
149 #pragma omp for schedule (guided, D.1598)
151 When we outline the parallel region, the call to the child function
152 'bar.omp_fn.0' will need the value D.1598 in its argument list, but
153 that value is computed *after* the call site. So, in principle we
154 cannot do the transformation.
156 To see whether the code in WS_ENTRY_BB blocks the combined
157 parallel+workshare call, we collect all the variables used in the
158 GIMPLE_OMP_FOR header check whether they appear on the LHS of any
159 statement in WS_ENTRY_BB. If so, then we cannot emit the combined
162 FIXME. If we had the SSA form built at this point, we could merely
163 hoist the code in block 3 into block 2 and be done with it. But at
164 this point we don't have dataflow information and though we could
165 hack something up here, it is really not worth the aggravation. */
168 workshare_safe_to_combine_p (basic_block ws_entry_bb
)
170 struct omp_for_data fd
;
171 gimple
*ws_stmt
= last_stmt (ws_entry_bb
);
173 if (gimple_code (ws_stmt
) == GIMPLE_OMP_SECTIONS
)
176 gcc_assert (gimple_code (ws_stmt
) == GIMPLE_OMP_FOR
);
178 omp_extract_for_data (as_a
<gomp_for
*> (ws_stmt
), &fd
, NULL
);
180 if (fd
.collapse
> 1 && TREE_CODE (fd
.loop
.n2
) != INTEGER_CST
)
182 if (fd
.iter_type
!= long_integer_type_node
)
185 /* FIXME. We give up too easily here. If any of these arguments
186 are not constants, they will likely involve variables that have
187 been mapped into fields of .omp_data_s for sharing with the child
188 function. With appropriate data flow, it would be possible to
190 if (!is_gimple_min_invariant (fd
.loop
.n1
)
191 || !is_gimple_min_invariant (fd
.loop
.n2
)
192 || !is_gimple_min_invariant (fd
.loop
.step
)
193 || (fd
.chunk_size
&& !is_gimple_min_invariant (fd
.chunk_size
)))
199 /* Adjust CHUNK_SIZE from SCHEDULE clause, depending on simd modifier
200 presence (SIMD_SCHEDULE). */
203 omp_adjust_chunk_size (tree chunk_size
, bool simd_schedule
)
208 int vf
= omp_max_vf ();
212 tree type
= TREE_TYPE (chunk_size
);
213 chunk_size
= fold_build2 (PLUS_EXPR
, type
, chunk_size
,
214 build_int_cst (type
, vf
- 1));
215 return fold_build2 (BIT_AND_EXPR
, type
, chunk_size
,
216 build_int_cst (type
, -vf
));
219 /* Collect additional arguments needed to emit a combined
220 parallel+workshare call. WS_STMT is the workshare directive being
223 static vec
<tree
, va_gc
> *
224 get_ws_args_for (gimple
*par_stmt
, gimple
*ws_stmt
)
227 location_t loc
= gimple_location (ws_stmt
);
228 vec
<tree
, va_gc
> *ws_args
;
230 if (gomp_for
*for_stmt
= dyn_cast
<gomp_for
*> (ws_stmt
))
232 struct omp_for_data fd
;
235 omp_extract_for_data (for_stmt
, &fd
, NULL
);
239 if (gimple_omp_for_combined_into_p (for_stmt
))
242 = omp_find_clause (gimple_omp_parallel_clauses (par_stmt
),
243 OMP_CLAUSE__LOOPTEMP_
);
245 n1
= OMP_CLAUSE_DECL (innerc
);
246 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
247 OMP_CLAUSE__LOOPTEMP_
);
249 n2
= OMP_CLAUSE_DECL (innerc
);
252 vec_alloc (ws_args
, 3 + (fd
.chunk_size
!= 0));
254 t
= fold_convert_loc (loc
, long_integer_type_node
, n1
);
255 ws_args
->quick_push (t
);
257 t
= fold_convert_loc (loc
, long_integer_type_node
, n2
);
258 ws_args
->quick_push (t
);
260 t
= fold_convert_loc (loc
, long_integer_type_node
, fd
.loop
.step
);
261 ws_args
->quick_push (t
);
265 t
= fold_convert_loc (loc
, long_integer_type_node
, fd
.chunk_size
);
266 t
= omp_adjust_chunk_size (t
, fd
.simd_schedule
);
267 ws_args
->quick_push (t
);
272 else if (gimple_code (ws_stmt
) == GIMPLE_OMP_SECTIONS
)
274 /* Number of sections is equal to the number of edges from the
275 GIMPLE_OMP_SECTIONS_SWITCH statement, except for the one to
276 the exit of the sections region. */
277 basic_block bb
= single_succ (gimple_bb (ws_stmt
));
278 t
= build_int_cst (unsigned_type_node
, EDGE_COUNT (bb
->succs
) - 1);
279 vec_alloc (ws_args
, 1);
280 ws_args
->quick_push (t
);
287 /* Discover whether REGION is a combined parallel+workshare region. */
290 determine_parallel_type (struct omp_region
*region
)
292 basic_block par_entry_bb
, par_exit_bb
;
293 basic_block ws_entry_bb
, ws_exit_bb
;
295 if (region
== NULL
|| region
->inner
== NULL
296 || region
->exit
== NULL
|| region
->inner
->exit
== NULL
297 || region
->inner
->cont
== NULL
)
300 /* We only support parallel+for and parallel+sections. */
301 if (region
->type
!= GIMPLE_OMP_PARALLEL
302 || (region
->inner
->type
!= GIMPLE_OMP_FOR
303 && region
->inner
->type
!= GIMPLE_OMP_SECTIONS
))
306 /* Check for perfect nesting PAR_ENTRY_BB -> WS_ENTRY_BB and
307 WS_EXIT_BB -> PAR_EXIT_BB. */
308 par_entry_bb
= region
->entry
;
309 par_exit_bb
= region
->exit
;
310 ws_entry_bb
= region
->inner
->entry
;
311 ws_exit_bb
= region
->inner
->exit
;
313 if (single_succ (par_entry_bb
) == ws_entry_bb
314 && single_succ (ws_exit_bb
) == par_exit_bb
315 && workshare_safe_to_combine_p (ws_entry_bb
)
316 && (gimple_omp_parallel_combined_p (last_stmt (par_entry_bb
))
317 || (last_and_only_stmt (ws_entry_bb
)
318 && last_and_only_stmt (par_exit_bb
))))
320 gimple
*par_stmt
= last_stmt (par_entry_bb
);
321 gimple
*ws_stmt
= last_stmt (ws_entry_bb
);
323 if (region
->inner
->type
== GIMPLE_OMP_FOR
)
325 /* If this is a combined parallel loop, we need to determine
326 whether or not to use the combined library calls. There
327 are two cases where we do not apply the transformation:
328 static loops and any kind of ordered loop. In the first
329 case, we already open code the loop so there is no need
330 to do anything else. In the latter case, the combined
331 parallel loop call would still need extra synchronization
332 to implement ordered semantics, so there would not be any
333 gain in using the combined call. */
334 tree clauses
= gimple_omp_for_clauses (ws_stmt
);
335 tree c
= omp_find_clause (clauses
, OMP_CLAUSE_SCHEDULE
);
337 || ((OMP_CLAUSE_SCHEDULE_KIND (c
) & OMP_CLAUSE_SCHEDULE_MASK
)
338 == OMP_CLAUSE_SCHEDULE_STATIC
)
339 || omp_find_clause (clauses
, OMP_CLAUSE_ORDERED
))
341 region
->is_combined_parallel
= false;
342 region
->inner
->is_combined_parallel
= false;
347 region
->is_combined_parallel
= true;
348 region
->inner
->is_combined_parallel
= true;
349 region
->ws_args
= get_ws_args_for (par_stmt
, ws_stmt
);
353 /* Debugging dumps for parallel regions. */
354 void dump_omp_region (FILE *, struct omp_region
*, int);
355 void debug_omp_region (struct omp_region
*);
356 void debug_all_omp_regions (void);
358 /* Dump the parallel region tree rooted at REGION. */
361 dump_omp_region (FILE *file
, struct omp_region
*region
, int indent
)
363 fprintf (file
, "%*sbb %d: %s\n", indent
, "", region
->entry
->index
,
364 gimple_code_name
[region
->type
]);
367 dump_omp_region (file
, region
->inner
, indent
+ 4);
371 fprintf (file
, "%*sbb %d: GIMPLE_OMP_CONTINUE\n", indent
, "",
372 region
->cont
->index
);
376 fprintf (file
, "%*sbb %d: GIMPLE_OMP_RETURN\n", indent
, "",
377 region
->exit
->index
);
379 fprintf (file
, "%*s[no exit marker]\n", indent
, "");
382 dump_omp_region (file
, region
->next
, indent
);
386 debug_omp_region (struct omp_region
*region
)
388 dump_omp_region (stderr
, region
, 0);
392 debug_all_omp_regions (void)
394 dump_omp_region (stderr
, root_omp_region
, 0);
397 /* Create a new parallel region starting at STMT inside region PARENT. */
399 static struct omp_region
*
400 new_omp_region (basic_block bb
, enum gimple_code type
,
401 struct omp_region
*parent
)
403 struct omp_region
*region
= XCNEW (struct omp_region
);
405 region
->outer
= parent
;
411 /* This is a nested region. Add it to the list of inner
412 regions in PARENT. */
413 region
->next
= parent
->inner
;
414 parent
->inner
= region
;
418 /* This is a toplevel region. Add it to the list of toplevel
419 regions in ROOT_OMP_REGION. */
420 region
->next
= root_omp_region
;
421 root_omp_region
= region
;
427 /* Release the memory associated with the region tree rooted at REGION. */
430 free_omp_region_1 (struct omp_region
*region
)
432 struct omp_region
*i
, *n
;
434 for (i
= region
->inner
; i
; i
= n
)
437 free_omp_region_1 (i
);
443 /* Release the memory for the entire omp region tree. */
446 omp_free_regions (void)
448 struct omp_region
*r
, *n
;
449 for (r
= root_omp_region
; r
; r
= n
)
452 free_omp_region_1 (r
);
454 root_omp_region
= NULL
;
457 /* A convenience function to build an empty GIMPLE_COND with just the
461 gimple_build_cond_empty (tree cond
)
463 enum tree_code pred_code
;
466 gimple_cond_get_ops_from_tree (cond
, &pred_code
, &lhs
, &rhs
);
467 return gimple_build_cond (pred_code
, lhs
, rhs
, NULL_TREE
, NULL_TREE
);
470 /* Return true if a parallel REGION is within a declare target function or
471 within a target region and is not a part of a gridified target. */
474 parallel_needs_hsa_kernel_p (struct omp_region
*region
)
476 bool indirect
= false;
477 for (region
= region
->outer
; region
; region
= region
->outer
)
479 if (region
->type
== GIMPLE_OMP_PARALLEL
)
481 else if (region
->type
== GIMPLE_OMP_TARGET
)
483 gomp_target
*tgt_stmt
484 = as_a
<gomp_target
*> (last_stmt (region
->entry
));
486 if (omp_find_clause (gimple_omp_target_clauses (tgt_stmt
),
487 OMP_CLAUSE__GRIDDIM_
))
494 if (lookup_attribute ("omp declare target",
495 DECL_ATTRIBUTES (current_function_decl
)))
501 /* Build the function calls to GOMP_parallel_start etc to actually
502 generate the parallel operation. REGION is the parallel region
503 being expanded. BB is the block where to insert the code. WS_ARGS
504 will be set if this is a call to a combined parallel+workshare
505 construct, it contains the list of additional arguments needed by
506 the workshare construct. */
509 expand_parallel_call (struct omp_region
*region
, basic_block bb
,
510 gomp_parallel
*entry_stmt
,
511 vec
<tree
, va_gc
> *ws_args
)
513 tree t
, t1
, t2
, val
, cond
, c
, clauses
, flags
;
514 gimple_stmt_iterator gsi
;
516 enum built_in_function start_ix
;
518 location_t clause_loc
;
519 vec
<tree
, va_gc
> *args
;
521 clauses
= gimple_omp_parallel_clauses (entry_stmt
);
523 /* Determine what flavor of GOMP_parallel we will be
525 start_ix
= BUILT_IN_GOMP_PARALLEL
;
526 if (is_combined_parallel (region
))
528 switch (region
->inner
->type
)
531 gcc_assert (region
->inner
->sched_kind
!= OMP_CLAUSE_SCHEDULE_AUTO
);
532 switch (region
->inner
->sched_kind
)
534 case OMP_CLAUSE_SCHEDULE_RUNTIME
:
537 case OMP_CLAUSE_SCHEDULE_DYNAMIC
:
538 case OMP_CLAUSE_SCHEDULE_GUIDED
:
539 if (region
->inner
->sched_modifiers
540 & OMP_CLAUSE_SCHEDULE_NONMONOTONIC
)
542 start_ix2
= 3 + region
->inner
->sched_kind
;
547 start_ix2
= region
->inner
->sched_kind
;
550 start_ix2
+= (int) BUILT_IN_GOMP_PARALLEL_LOOP_STATIC
;
551 start_ix
= (enum built_in_function
) start_ix2
;
553 case GIMPLE_OMP_SECTIONS
:
554 start_ix
= BUILT_IN_GOMP_PARALLEL_SECTIONS
;
561 /* By default, the value of NUM_THREADS is zero (selected at run time)
562 and there is no conditional. */
564 val
= build_int_cst (unsigned_type_node
, 0);
565 flags
= build_int_cst (unsigned_type_node
, 0);
567 c
= omp_find_clause (clauses
, OMP_CLAUSE_IF
);
569 cond
= OMP_CLAUSE_IF_EXPR (c
);
571 c
= omp_find_clause (clauses
, OMP_CLAUSE_NUM_THREADS
);
574 val
= OMP_CLAUSE_NUM_THREADS_EXPR (c
);
575 clause_loc
= OMP_CLAUSE_LOCATION (c
);
578 clause_loc
= gimple_location (entry_stmt
);
580 c
= omp_find_clause (clauses
, OMP_CLAUSE_PROC_BIND
);
582 flags
= build_int_cst (unsigned_type_node
, OMP_CLAUSE_PROC_BIND_KIND (c
));
584 /* Ensure 'val' is of the correct type. */
585 val
= fold_convert_loc (clause_loc
, unsigned_type_node
, val
);
587 /* If we found the clause 'if (cond)', build either
588 (cond != 0) or (cond ? val : 1u). */
591 cond
= gimple_boolify (cond
);
593 if (integer_zerop (val
))
594 val
= fold_build2_loc (clause_loc
,
595 EQ_EXPR
, unsigned_type_node
, cond
,
596 build_int_cst (TREE_TYPE (cond
), 0));
599 basic_block cond_bb
, then_bb
, else_bb
;
600 edge e
, e_then
, e_else
;
601 tree tmp_then
, tmp_else
, tmp_join
, tmp_var
;
603 tmp_var
= create_tmp_var (TREE_TYPE (val
));
604 if (gimple_in_ssa_p (cfun
))
606 tmp_then
= make_ssa_name (tmp_var
);
607 tmp_else
= make_ssa_name (tmp_var
);
608 tmp_join
= make_ssa_name (tmp_var
);
617 e
= split_block_after_labels (bb
);
622 then_bb
= create_empty_bb (cond_bb
);
623 else_bb
= create_empty_bb (then_bb
);
624 set_immediate_dominator (CDI_DOMINATORS
, then_bb
, cond_bb
);
625 set_immediate_dominator (CDI_DOMINATORS
, else_bb
, cond_bb
);
627 stmt
= gimple_build_cond_empty (cond
);
628 gsi
= gsi_start_bb (cond_bb
);
629 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
631 gsi
= gsi_start_bb (then_bb
);
632 expand_omp_build_assign (&gsi
, tmp_then
, val
, true);
634 gsi
= gsi_start_bb (else_bb
);
635 expand_omp_build_assign (&gsi
, tmp_else
,
636 build_int_cst (unsigned_type_node
, 1),
639 make_edge (cond_bb
, then_bb
, EDGE_TRUE_VALUE
);
640 make_edge (cond_bb
, else_bb
, EDGE_FALSE_VALUE
);
641 add_bb_to_loop (then_bb
, cond_bb
->loop_father
);
642 add_bb_to_loop (else_bb
, cond_bb
->loop_father
);
643 e_then
= make_edge (then_bb
, bb
, EDGE_FALLTHRU
);
644 e_else
= make_edge (else_bb
, bb
, EDGE_FALLTHRU
);
646 if (gimple_in_ssa_p (cfun
))
648 gphi
*phi
= create_phi_node (tmp_join
, bb
);
649 add_phi_arg (phi
, tmp_then
, e_then
, UNKNOWN_LOCATION
);
650 add_phi_arg (phi
, tmp_else
, e_else
, UNKNOWN_LOCATION
);
656 gsi
= gsi_start_bb (bb
);
657 val
= force_gimple_operand_gsi (&gsi
, val
, true, NULL_TREE
,
658 false, GSI_CONTINUE_LINKING
);
661 gsi
= gsi_last_bb (bb
);
662 t
= gimple_omp_parallel_data_arg (entry_stmt
);
664 t1
= null_pointer_node
;
666 t1
= build_fold_addr_expr (t
);
667 tree child_fndecl
= gimple_omp_parallel_child_fn (entry_stmt
);
668 t2
= build_fold_addr_expr (child_fndecl
);
670 vec_alloc (args
, 4 + vec_safe_length (ws_args
));
671 args
->quick_push (t2
);
672 args
->quick_push (t1
);
673 args
->quick_push (val
);
675 args
->splice (*ws_args
);
676 args
->quick_push (flags
);
678 t
= build_call_expr_loc_vec (UNKNOWN_LOCATION
,
679 builtin_decl_explicit (start_ix
), args
);
681 force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
682 false, GSI_CONTINUE_LINKING
);
684 if (hsa_gen_requested_p ()
685 && parallel_needs_hsa_kernel_p (region
))
687 cgraph_node
*child_cnode
= cgraph_node::get (child_fndecl
);
688 hsa_register_kernel (child_cnode
);
692 /* Insert a function call whose name is FUNC_NAME with the information from
693 ENTRY_STMT into the basic_block BB. */
696 expand_cilk_for_call (basic_block bb
, gomp_parallel
*entry_stmt
,
697 vec
<tree
, va_gc
> *ws_args
)
700 gimple_stmt_iterator gsi
;
701 vec
<tree
, va_gc
> *args
;
703 gcc_assert (vec_safe_length (ws_args
) == 2);
704 tree func_name
= (*ws_args
)[0];
705 tree grain
= (*ws_args
)[1];
707 tree clauses
= gimple_omp_parallel_clauses (entry_stmt
);
708 tree count
= omp_find_clause (clauses
, OMP_CLAUSE__CILK_FOR_COUNT_
);
709 gcc_assert (count
!= NULL_TREE
);
710 count
= OMP_CLAUSE_OPERAND (count
, 0);
712 gsi
= gsi_last_bb (bb
);
713 t
= gimple_omp_parallel_data_arg (entry_stmt
);
715 t1
= null_pointer_node
;
717 t1
= build_fold_addr_expr (t
);
718 t2
= build_fold_addr_expr (gimple_omp_parallel_child_fn (entry_stmt
));
721 args
->quick_push (t2
);
722 args
->quick_push (t1
);
723 args
->quick_push (count
);
724 args
->quick_push (grain
);
725 t
= build_call_expr_loc_vec (UNKNOWN_LOCATION
, func_name
, args
);
727 force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
, false,
728 GSI_CONTINUE_LINKING
);
731 /* Build the function call to GOMP_task to actually
732 generate the task operation. BB is the block where to insert the code. */
735 expand_task_call (struct omp_region
*region
, basic_block bb
,
736 gomp_task
*entry_stmt
)
739 gimple_stmt_iterator gsi
;
740 location_t loc
= gimple_location (entry_stmt
);
742 tree clauses
= gimple_omp_task_clauses (entry_stmt
);
744 tree ifc
= omp_find_clause (clauses
, OMP_CLAUSE_IF
);
745 tree untied
= omp_find_clause (clauses
, OMP_CLAUSE_UNTIED
);
746 tree mergeable
= omp_find_clause (clauses
, OMP_CLAUSE_MERGEABLE
);
747 tree depend
= omp_find_clause (clauses
, OMP_CLAUSE_DEPEND
);
748 tree finalc
= omp_find_clause (clauses
, OMP_CLAUSE_FINAL
);
749 tree priority
= omp_find_clause (clauses
, OMP_CLAUSE_PRIORITY
);
752 = (untied
? GOMP_TASK_FLAG_UNTIED
: 0)
753 | (mergeable
? GOMP_TASK_FLAG_MERGEABLE
: 0)
754 | (depend
? GOMP_TASK_FLAG_DEPEND
: 0);
756 bool taskloop_p
= gimple_omp_task_taskloop_p (entry_stmt
);
757 tree startvar
= NULL_TREE
, endvar
= NULL_TREE
, step
= NULL_TREE
;
758 tree num_tasks
= NULL_TREE
;
762 gimple
*g
= last_stmt (region
->outer
->entry
);
763 gcc_assert (gimple_code (g
) == GIMPLE_OMP_FOR
764 && gimple_omp_for_kind (g
) == GF_OMP_FOR_KIND_TASKLOOP
);
765 struct omp_for_data fd
;
766 omp_extract_for_data (as_a
<gomp_for
*> (g
), &fd
, NULL
);
767 startvar
= omp_find_clause (clauses
, OMP_CLAUSE__LOOPTEMP_
);
768 endvar
= omp_find_clause (OMP_CLAUSE_CHAIN (startvar
),
769 OMP_CLAUSE__LOOPTEMP_
);
770 startvar
= OMP_CLAUSE_DECL (startvar
);
771 endvar
= OMP_CLAUSE_DECL (endvar
);
772 step
= fold_convert_loc (loc
, fd
.iter_type
, fd
.loop
.step
);
773 if (fd
.loop
.cond_code
== LT_EXPR
)
774 iflags
|= GOMP_TASK_FLAG_UP
;
775 tree tclauses
= gimple_omp_for_clauses (g
);
776 num_tasks
= omp_find_clause (tclauses
, OMP_CLAUSE_NUM_TASKS
);
778 num_tasks
= OMP_CLAUSE_NUM_TASKS_EXPR (num_tasks
);
781 num_tasks
= omp_find_clause (tclauses
, OMP_CLAUSE_GRAINSIZE
);
784 iflags
|= GOMP_TASK_FLAG_GRAINSIZE
;
785 num_tasks
= OMP_CLAUSE_GRAINSIZE_EXPR (num_tasks
);
788 num_tasks
= integer_zero_node
;
790 num_tasks
= fold_convert_loc (loc
, long_integer_type_node
, num_tasks
);
791 if (ifc
== NULL_TREE
)
792 iflags
|= GOMP_TASK_FLAG_IF
;
793 if (omp_find_clause (tclauses
, OMP_CLAUSE_NOGROUP
))
794 iflags
|= GOMP_TASK_FLAG_NOGROUP
;
795 ull
= fd
.iter_type
== long_long_unsigned_type_node
;
798 iflags
|= GOMP_TASK_FLAG_PRIORITY
;
800 tree flags
= build_int_cst (unsigned_type_node
, iflags
);
802 tree cond
= boolean_true_node
;
807 tree t
= gimple_boolify (OMP_CLAUSE_IF_EXPR (ifc
));
808 t
= fold_build3_loc (loc
, COND_EXPR
, unsigned_type_node
, t
,
809 build_int_cst (unsigned_type_node
,
811 build_int_cst (unsigned_type_node
, 0));
812 flags
= fold_build2_loc (loc
, PLUS_EXPR
, unsigned_type_node
,
816 cond
= gimple_boolify (OMP_CLAUSE_IF_EXPR (ifc
));
821 tree t
= gimple_boolify (OMP_CLAUSE_FINAL_EXPR (finalc
));
822 t
= fold_build3_loc (loc
, COND_EXPR
, unsigned_type_node
, t
,
823 build_int_cst (unsigned_type_node
,
824 GOMP_TASK_FLAG_FINAL
),
825 build_int_cst (unsigned_type_node
, 0));
826 flags
= fold_build2_loc (loc
, PLUS_EXPR
, unsigned_type_node
, flags
, t
);
829 depend
= OMP_CLAUSE_DECL (depend
);
831 depend
= build_int_cst (ptr_type_node
, 0);
833 priority
= fold_convert (integer_type_node
,
834 OMP_CLAUSE_PRIORITY_EXPR (priority
));
836 priority
= integer_zero_node
;
838 gsi
= gsi_last_bb (bb
);
839 tree t
= gimple_omp_task_data_arg (entry_stmt
);
841 t2
= null_pointer_node
;
843 t2
= build_fold_addr_expr_loc (loc
, t
);
844 t1
= build_fold_addr_expr_loc (loc
, gimple_omp_task_child_fn (entry_stmt
));
845 t
= gimple_omp_task_copy_fn (entry_stmt
);
847 t3
= null_pointer_node
;
849 t3
= build_fold_addr_expr_loc (loc
, t
);
852 t
= build_call_expr (ull
853 ? builtin_decl_explicit (BUILT_IN_GOMP_TASKLOOP_ULL
)
854 : builtin_decl_explicit (BUILT_IN_GOMP_TASKLOOP
),
856 gimple_omp_task_arg_size (entry_stmt
),
857 gimple_omp_task_arg_align (entry_stmt
), flags
,
858 num_tasks
, priority
, startvar
, endvar
, step
);
860 t
= build_call_expr (builtin_decl_explicit (BUILT_IN_GOMP_TASK
),
862 gimple_omp_task_arg_size (entry_stmt
),
863 gimple_omp_task_arg_align (entry_stmt
), cond
, flags
,
866 force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
867 false, GSI_CONTINUE_LINKING
);
870 /* Chain all the DECLs in LIST by their TREE_CHAIN fields. */
873 vec2chain (vec
<tree
, va_gc
> *v
)
875 tree chain
= NULL_TREE
, t
;
878 FOR_EACH_VEC_SAFE_ELT_REVERSE (v
, ix
, t
)
880 DECL_CHAIN (t
) = chain
;
887 /* Remove barriers in REGION->EXIT's block. Note that this is only
888 valid for GIMPLE_OMP_PARALLEL regions. Since the end of a parallel region
889 is an implicit barrier, any workshare inside the GIMPLE_OMP_PARALLEL that
890 left a barrier at the end of the GIMPLE_OMP_PARALLEL region can now be
894 remove_exit_barrier (struct omp_region
*region
)
896 gimple_stmt_iterator gsi
;
901 int any_addressable_vars
= -1;
903 exit_bb
= region
->exit
;
905 /* If the parallel region doesn't return, we don't have REGION->EXIT
910 /* The last insn in the block will be the parallel's GIMPLE_OMP_RETURN. The
911 workshare's GIMPLE_OMP_RETURN will be in a preceding block. The kinds of
912 statements that can appear in between are extremely limited -- no
913 memory operations at all. Here, we allow nothing at all, so the
914 only thing we allow to precede this GIMPLE_OMP_RETURN is a label. */
915 gsi
= gsi_last_bb (exit_bb
);
916 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_RETURN
);
918 if (!gsi_end_p (gsi
) && gimple_code (gsi_stmt (gsi
)) != GIMPLE_LABEL
)
921 FOR_EACH_EDGE (e
, ei
, exit_bb
->preds
)
923 gsi
= gsi_last_bb (e
->src
);
926 stmt
= gsi_stmt (gsi
);
927 if (gimple_code (stmt
) == GIMPLE_OMP_RETURN
928 && !gimple_omp_return_nowait_p (stmt
))
930 /* OpenMP 3.0 tasks unfortunately prevent this optimization
931 in many cases. If there could be tasks queued, the barrier
932 might be needed to let the tasks run before some local
933 variable of the parallel that the task uses as shared
934 runs out of scope. The task can be spawned either
935 from within current function (this would be easy to check)
936 or from some function it calls and gets passed an address
937 of such a variable. */
938 if (any_addressable_vars
< 0)
940 gomp_parallel
*parallel_stmt
941 = as_a
<gomp_parallel
*> (last_stmt (region
->entry
));
942 tree child_fun
= gimple_omp_parallel_child_fn (parallel_stmt
);
943 tree local_decls
, block
, decl
;
946 any_addressable_vars
= 0;
947 FOR_EACH_LOCAL_DECL (DECL_STRUCT_FUNCTION (child_fun
), ix
, decl
)
948 if (TREE_ADDRESSABLE (decl
))
950 any_addressable_vars
= 1;
953 for (block
= gimple_block (stmt
);
954 !any_addressable_vars
956 && TREE_CODE (block
) == BLOCK
;
957 block
= BLOCK_SUPERCONTEXT (block
))
959 for (local_decls
= BLOCK_VARS (block
);
961 local_decls
= DECL_CHAIN (local_decls
))
962 if (TREE_ADDRESSABLE (local_decls
))
964 any_addressable_vars
= 1;
967 if (block
== gimple_block (parallel_stmt
))
971 if (!any_addressable_vars
)
972 gimple_omp_return_set_nowait (stmt
);
978 remove_exit_barriers (struct omp_region
*region
)
980 if (region
->type
== GIMPLE_OMP_PARALLEL
)
981 remove_exit_barrier (region
);
985 region
= region
->inner
;
986 remove_exit_barriers (region
);
989 region
= region
->next
;
990 remove_exit_barriers (region
);
995 /* Optimize omp_get_thread_num () and omp_get_num_threads ()
996 calls. These can't be declared as const functions, but
997 within one parallel body they are constant, so they can be
998 transformed there into __builtin_omp_get_{thread_num,num_threads} ()
999 which are declared const. Similarly for task body, except
1000 that in untied task omp_get_thread_num () can change at any task
1001 scheduling point. */
1004 optimize_omp_library_calls (gimple
*entry_stmt
)
1007 gimple_stmt_iterator gsi
;
1008 tree thr_num_tree
= builtin_decl_explicit (BUILT_IN_OMP_GET_THREAD_NUM
);
1009 tree thr_num_id
= DECL_ASSEMBLER_NAME (thr_num_tree
);
1010 tree num_thr_tree
= builtin_decl_explicit (BUILT_IN_OMP_GET_NUM_THREADS
);
1011 tree num_thr_id
= DECL_ASSEMBLER_NAME (num_thr_tree
);
1012 bool untied_task
= (gimple_code (entry_stmt
) == GIMPLE_OMP_TASK
1013 && omp_find_clause (gimple_omp_task_clauses (entry_stmt
),
1014 OMP_CLAUSE_UNTIED
) != NULL
);
1016 FOR_EACH_BB_FN (bb
, cfun
)
1017 for (gsi
= gsi_start_bb (bb
); !gsi_end_p (gsi
); gsi_next (&gsi
))
1019 gimple
*call
= gsi_stmt (gsi
);
1022 if (is_gimple_call (call
)
1023 && (decl
= gimple_call_fndecl (call
))
1024 && DECL_EXTERNAL (decl
)
1025 && TREE_PUBLIC (decl
)
1026 && DECL_INITIAL (decl
) == NULL
)
1030 if (DECL_NAME (decl
) == thr_num_id
)
1032 /* In #pragma omp task untied omp_get_thread_num () can change
1033 during the execution of the task region. */
1036 built_in
= builtin_decl_explicit (BUILT_IN_OMP_GET_THREAD_NUM
);
1038 else if (DECL_NAME (decl
) == num_thr_id
)
1039 built_in
= builtin_decl_explicit (BUILT_IN_OMP_GET_NUM_THREADS
);
1043 if (DECL_ASSEMBLER_NAME (decl
) != DECL_ASSEMBLER_NAME (built_in
)
1044 || gimple_call_num_args (call
) != 0)
1047 if (flag_exceptions
&& !TREE_NOTHROW (decl
))
1050 if (TREE_CODE (TREE_TYPE (decl
)) != FUNCTION_TYPE
1051 || !types_compatible_p (TREE_TYPE (TREE_TYPE (decl
)),
1052 TREE_TYPE (TREE_TYPE (built_in
))))
1055 gimple_call_set_fndecl (call
, built_in
);
1060 /* Callback for expand_omp_build_assign. Return non-NULL if *tp needs to be
1064 expand_omp_regimplify_p (tree
*tp
, int *walk_subtrees
, void *)
1068 /* Any variable with DECL_VALUE_EXPR needs to be regimplified. */
1069 if (VAR_P (t
) && DECL_HAS_VALUE_EXPR_P (t
))
1072 if (TREE_CODE (t
) == ADDR_EXPR
)
1073 recompute_tree_invariant_for_addr_expr (t
);
1075 *walk_subtrees
= !TYPE_P (t
) && !DECL_P (t
);
1079 /* Prepend or append TO = FROM assignment before or after *GSI_P. */
1082 expand_omp_build_assign (gimple_stmt_iterator
*gsi_p
, tree to
, tree from
,
1085 bool simple_p
= DECL_P (to
) && TREE_ADDRESSABLE (to
);
1086 from
= force_gimple_operand_gsi (gsi_p
, from
, simple_p
, NULL_TREE
,
1087 !after
, after
? GSI_CONTINUE_LINKING
1089 gimple
*stmt
= gimple_build_assign (to
, from
);
1091 gsi_insert_after (gsi_p
, stmt
, GSI_CONTINUE_LINKING
);
1093 gsi_insert_before (gsi_p
, stmt
, GSI_SAME_STMT
);
1094 if (walk_tree (&from
, expand_omp_regimplify_p
, NULL
, NULL
)
1095 || walk_tree (&to
, expand_omp_regimplify_p
, NULL
, NULL
))
1097 gimple_stmt_iterator gsi
= gsi_for_stmt (stmt
);
1098 gimple_regimplify_operands (stmt
, &gsi
);
1102 /* Expand the OpenMP parallel or task directive starting at REGION. */
1105 expand_omp_taskreg (struct omp_region
*region
)
1107 basic_block entry_bb
, exit_bb
, new_bb
;
1108 struct function
*child_cfun
;
1109 tree child_fn
, block
, t
;
1110 gimple_stmt_iterator gsi
;
1111 gimple
*entry_stmt
, *stmt
;
1113 vec
<tree
, va_gc
> *ws_args
;
1115 entry_stmt
= last_stmt (region
->entry
);
1116 child_fn
= gimple_omp_taskreg_child_fn (entry_stmt
);
1117 child_cfun
= DECL_STRUCT_FUNCTION (child_fn
);
1119 entry_bb
= region
->entry
;
1120 if (gimple_code (entry_stmt
) == GIMPLE_OMP_TASK
)
1121 exit_bb
= region
->cont
;
1123 exit_bb
= region
->exit
;
1127 && gimple_code (entry_stmt
) == GIMPLE_OMP_PARALLEL
1128 && omp_find_clause (gimple_omp_parallel_clauses (entry_stmt
),
1129 OMP_CLAUSE__CILK_FOR_COUNT_
) != NULL_TREE
);
1132 /* If it is a _Cilk_for statement, it is modelled *like* a parallel for,
1133 and the inner statement contains the name of the built-in function
1135 ws_args
= region
->inner
->ws_args
;
1136 else if (is_combined_parallel (region
))
1137 ws_args
= region
->ws_args
;
1141 if (child_cfun
->cfg
)
1143 /* Due to inlining, it may happen that we have already outlined
1144 the region, in which case all we need to do is make the
1145 sub-graph unreachable and emit the parallel call. */
1146 edge entry_succ_e
, exit_succ_e
;
1148 entry_succ_e
= single_succ_edge (entry_bb
);
1150 gsi
= gsi_last_bb (entry_bb
);
1151 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_PARALLEL
1152 || gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_TASK
);
1153 gsi_remove (&gsi
, true);
1158 exit_succ_e
= single_succ_edge (exit_bb
);
1159 make_edge (new_bb
, exit_succ_e
->dest
, EDGE_FALLTHRU
);
1161 remove_edge_and_dominated_blocks (entry_succ_e
);
1165 unsigned srcidx
, dstidx
, num
;
1167 /* If the parallel region needs data sent from the parent
1168 function, then the very first statement (except possible
1169 tree profile counter updates) of the parallel body
1170 is a copy assignment .OMP_DATA_I = &.OMP_DATA_O. Since
1171 &.OMP_DATA_O is passed as an argument to the child function,
1172 we need to replace it with the argument as seen by the child
1175 In most cases, this will end up being the identity assignment
1176 .OMP_DATA_I = .OMP_DATA_I. However, if the parallel body had
1177 a function call that has been inlined, the original PARM_DECL
1178 .OMP_DATA_I may have been converted into a different local
1179 variable. In which case, we need to keep the assignment. */
1180 if (gimple_omp_taskreg_data_arg (entry_stmt
))
1182 basic_block entry_succ_bb
1183 = single_succ_p (entry_bb
) ? single_succ (entry_bb
)
1184 : FALLTHRU_EDGE (entry_bb
)->dest
;
1186 gimple
*parcopy_stmt
= NULL
;
1188 for (gsi
= gsi_start_bb (entry_succ_bb
); ; gsi_next (&gsi
))
1192 gcc_assert (!gsi_end_p (gsi
));
1193 stmt
= gsi_stmt (gsi
);
1194 if (gimple_code (stmt
) != GIMPLE_ASSIGN
)
1197 if (gimple_num_ops (stmt
) == 2)
1199 tree arg
= gimple_assign_rhs1 (stmt
);
1201 /* We're ignore the subcode because we're
1202 effectively doing a STRIP_NOPS. */
1204 if (TREE_CODE (arg
) == ADDR_EXPR
1205 && TREE_OPERAND (arg
, 0)
1206 == gimple_omp_taskreg_data_arg (entry_stmt
))
1208 parcopy_stmt
= stmt
;
1214 gcc_assert (parcopy_stmt
!= NULL
);
1215 arg
= DECL_ARGUMENTS (child_fn
);
1217 if (!gimple_in_ssa_p (cfun
))
1219 if (gimple_assign_lhs (parcopy_stmt
) == arg
)
1220 gsi_remove (&gsi
, true);
1223 /* ?? Is setting the subcode really necessary ?? */
1224 gimple_omp_set_subcode (parcopy_stmt
, TREE_CODE (arg
));
1225 gimple_assign_set_rhs1 (parcopy_stmt
, arg
);
1230 tree lhs
= gimple_assign_lhs (parcopy_stmt
);
1231 gcc_assert (SSA_NAME_VAR (lhs
) == arg
);
1232 /* We'd like to set the rhs to the default def in the child_fn,
1233 but it's too early to create ssa names in the child_fn.
1234 Instead, we set the rhs to the parm. In
1235 move_sese_region_to_fn, we introduce a default def for the
1236 parm, map the parm to it's default def, and once we encounter
1237 this stmt, replace the parm with the default def. */
1238 gimple_assign_set_rhs1 (parcopy_stmt
, arg
);
1239 update_stmt (parcopy_stmt
);
1243 /* Declare local variables needed in CHILD_CFUN. */
1244 block
= DECL_INITIAL (child_fn
);
1245 BLOCK_VARS (block
) = vec2chain (child_cfun
->local_decls
);
1246 /* The gimplifier could record temporaries in parallel/task block
1247 rather than in containing function's local_decls chain,
1248 which would mean cgraph missed finalizing them. Do it now. */
1249 for (t
= BLOCK_VARS (block
); t
; t
= DECL_CHAIN (t
))
1250 if (VAR_P (t
) && TREE_STATIC (t
) && !DECL_EXTERNAL (t
))
1251 varpool_node::finalize_decl (t
);
1252 DECL_SAVED_TREE (child_fn
) = NULL
;
1253 /* We'll create a CFG for child_fn, so no gimple body is needed. */
1254 gimple_set_body (child_fn
, NULL
);
1255 TREE_USED (block
) = 1;
1257 /* Reset DECL_CONTEXT on function arguments. */
1258 for (t
= DECL_ARGUMENTS (child_fn
); t
; t
= DECL_CHAIN (t
))
1259 DECL_CONTEXT (t
) = child_fn
;
1261 /* Split ENTRY_BB at GIMPLE_OMP_PARALLEL or GIMPLE_OMP_TASK,
1262 so that it can be moved to the child function. */
1263 gsi
= gsi_last_bb (entry_bb
);
1264 stmt
= gsi_stmt (gsi
);
1265 gcc_assert (stmt
&& (gimple_code (stmt
) == GIMPLE_OMP_PARALLEL
1266 || gimple_code (stmt
) == GIMPLE_OMP_TASK
));
1267 e
= split_block (entry_bb
, stmt
);
1268 gsi_remove (&gsi
, true);
1271 if (gimple_code (entry_stmt
) == GIMPLE_OMP_PARALLEL
)
1272 single_succ_edge (entry_bb
)->flags
= EDGE_FALLTHRU
;
1275 e2
= make_edge (e
->src
, BRANCH_EDGE (entry_bb
)->dest
, EDGE_ABNORMAL
);
1276 gcc_assert (e2
->dest
== region
->exit
);
1277 remove_edge (BRANCH_EDGE (entry_bb
));
1278 set_immediate_dominator (CDI_DOMINATORS
, e2
->dest
, e
->src
);
1279 gsi
= gsi_last_bb (region
->exit
);
1280 gcc_assert (!gsi_end_p (gsi
)
1281 && gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_RETURN
);
1282 gsi_remove (&gsi
, true);
1285 /* Convert GIMPLE_OMP_{RETURN,CONTINUE} into a RETURN_EXPR. */
1288 gsi
= gsi_last_bb (exit_bb
);
1289 gcc_assert (!gsi_end_p (gsi
)
1290 && (gimple_code (gsi_stmt (gsi
))
1291 == (e2
? GIMPLE_OMP_CONTINUE
: GIMPLE_OMP_RETURN
)));
1292 stmt
= gimple_build_return (NULL
);
1293 gsi_insert_after (&gsi
, stmt
, GSI_SAME_STMT
);
1294 gsi_remove (&gsi
, true);
1297 /* Move the parallel region into CHILD_CFUN. */
1299 if (gimple_in_ssa_p (cfun
))
1301 init_tree_ssa (child_cfun
);
1302 init_ssa_operands (child_cfun
);
1303 child_cfun
->gimple_df
->in_ssa_p
= true;
1307 block
= gimple_block (entry_stmt
);
1309 /* Make sure to generate early debug for the function before
1310 outlining anything. */
1311 if (! gimple_in_ssa_p (cfun
))
1312 (*debug_hooks
->early_global_decl
) (cfun
->decl
);
1314 new_bb
= move_sese_region_to_fn (child_cfun
, entry_bb
, exit_bb
, block
);
1316 single_succ_edge (new_bb
)->flags
= EDGE_FALLTHRU
;
1319 basic_block dest_bb
= e2
->dest
;
1321 make_edge (new_bb
, dest_bb
, EDGE_FALLTHRU
);
1323 set_immediate_dominator (CDI_DOMINATORS
, dest_bb
, new_bb
);
1325 /* When the OMP expansion process cannot guarantee an up-to-date
1326 loop tree arrange for the child function to fixup loops. */
1327 if (loops_state_satisfies_p (LOOPS_NEED_FIXUP
))
1328 child_cfun
->x_current_loops
->state
|= LOOPS_NEED_FIXUP
;
1330 /* Remove non-local VAR_DECLs from child_cfun->local_decls list. */
1331 num
= vec_safe_length (child_cfun
->local_decls
);
1332 for (srcidx
= 0, dstidx
= 0; srcidx
< num
; srcidx
++)
1334 t
= (*child_cfun
->local_decls
)[srcidx
];
1335 if (DECL_CONTEXT (t
) == cfun
->decl
)
1337 if (srcidx
!= dstidx
)
1338 (*child_cfun
->local_decls
)[dstidx
] = t
;
1342 vec_safe_truncate (child_cfun
->local_decls
, dstidx
);
1344 /* Inform the callgraph about the new function. */
1345 child_cfun
->curr_properties
= cfun
->curr_properties
;
1346 child_cfun
->has_simduid_loops
|= cfun
->has_simduid_loops
;
1347 child_cfun
->has_force_vectorize_loops
|= cfun
->has_force_vectorize_loops
;
1348 cgraph_node
*node
= cgraph_node::get_create (child_fn
);
1349 node
->parallelized_function
= 1;
1350 cgraph_node::add_new_function (child_fn
, true);
1352 bool need_asm
= DECL_ASSEMBLER_NAME_SET_P (current_function_decl
)
1353 && !DECL_ASSEMBLER_NAME_SET_P (child_fn
);
1355 /* Fix the callgraph edges for child_cfun. Those for cfun will be
1356 fixed in a following pass. */
1357 push_cfun (child_cfun
);
1359 assign_assembler_name_if_needed (child_fn
);
1362 optimize_omp_library_calls (entry_stmt
);
1363 cgraph_edge::rebuild_edges ();
1365 /* Some EH regions might become dead, see PR34608. If
1366 pass_cleanup_cfg isn't the first pass to happen with the
1367 new child, these dead EH edges might cause problems.
1368 Clean them up now. */
1369 if (flag_exceptions
)
1372 bool changed
= false;
1374 FOR_EACH_BB_FN (bb
, cfun
)
1375 changed
|= gimple_purge_dead_eh_edges (bb
);
1377 cleanup_tree_cfg ();
1379 if (gimple_in_ssa_p (cfun
))
1380 update_ssa (TODO_update_ssa
);
1381 if (flag_checking
&& !loops_state_satisfies_p (LOOPS_NEED_FIXUP
))
1382 verify_loop_structure ();
1385 if (dump_file
&& !gimple_in_ssa_p (cfun
))
1387 omp_any_child_fn_dumped
= true;
1388 dump_function_header (dump_file
, child_fn
, dump_flags
);
1389 dump_function_to_file (child_fn
, dump_file
, dump_flags
);
1393 /* Emit a library call to launch the children threads. */
1395 expand_cilk_for_call (new_bb
,
1396 as_a
<gomp_parallel
*> (entry_stmt
), ws_args
);
1397 else if (gimple_code (entry_stmt
) == GIMPLE_OMP_PARALLEL
)
1398 expand_parallel_call (region
, new_bb
,
1399 as_a
<gomp_parallel
*> (entry_stmt
), ws_args
);
1401 expand_task_call (region
, new_bb
, as_a
<gomp_task
*> (entry_stmt
));
1402 if (gimple_in_ssa_p (cfun
))
1403 update_ssa (TODO_update_ssa_only_virtuals
);
1406 /* Information about members of an OpenACC collapsed loop nest. */
1408 struct oacc_collapse
1410 tree base
; /* Base value. */
1411 tree iters
; /* Number of steps. */
1412 tree step
; /* Step size. */
1413 tree tile
; /* Tile increment (if tiled). */
1414 tree outer
; /* Tile iterator var. */
1417 /* Helper for expand_oacc_for. Determine collapsed loop information.
1418 Fill in COUNTS array. Emit any initialization code before GSI.
1419 Return the calculated outer loop bound of BOUND_TYPE. */
1422 expand_oacc_collapse_init (const struct omp_for_data
*fd
,
1423 gimple_stmt_iterator
*gsi
,
1424 oacc_collapse
*counts
, tree bound_type
,
1427 tree tiling
= fd
->tiling
;
1428 tree total
= build_int_cst (bound_type
, 1);
1431 gcc_assert (integer_onep (fd
->loop
.step
));
1432 gcc_assert (integer_zerop (fd
->loop
.n1
));
1434 /* When tiling, the first operand of the tile clause applies to the
1435 innermost loop, and we work outwards from there. Seems
1436 backwards, but whatever. */
1437 for (ix
= fd
->collapse
; ix
--;)
1439 const omp_for_data_loop
*loop
= &fd
->loops
[ix
];
1441 tree iter_type
= TREE_TYPE (loop
->v
);
1442 tree diff_type
= iter_type
;
1443 tree plus_type
= iter_type
;
1445 gcc_assert (loop
->cond_code
== fd
->loop
.cond_code
);
1447 if (POINTER_TYPE_P (iter_type
))
1448 plus_type
= sizetype
;
1449 if (POINTER_TYPE_P (diff_type
) || TYPE_UNSIGNED (diff_type
))
1450 diff_type
= signed_type_for (diff_type
);
1454 tree num
= build_int_cst (integer_type_node
, fd
->collapse
);
1455 tree loop_no
= build_int_cst (integer_type_node
, ix
);
1456 tree tile
= TREE_VALUE (tiling
);
1458 = gimple_build_call_internal (IFN_GOACC_TILE
, 5, num
, loop_no
, tile
,
1459 /* gwv-outer=*/integer_zero_node
,
1460 /* gwv-inner=*/integer_zero_node
);
1462 counts
[ix
].outer
= create_tmp_var (iter_type
, ".outer");
1463 counts
[ix
].tile
= create_tmp_var (diff_type
, ".tile");
1464 gimple_call_set_lhs (call
, counts
[ix
].tile
);
1465 gimple_set_location (call
, loc
);
1466 gsi_insert_before (gsi
, call
, GSI_SAME_STMT
);
1468 tiling
= TREE_CHAIN (tiling
);
1472 counts
[ix
].tile
= NULL
;
1473 counts
[ix
].outer
= loop
->v
;
1478 tree s
= loop
->step
;
1479 bool up
= loop
->cond_code
== LT_EXPR
;
1480 tree dir
= build_int_cst (diff_type
, up
? +1 : -1);
1484 b
= force_gimple_operand_gsi (gsi
, b
, true, NULL_TREE
,
1485 true, GSI_SAME_STMT
);
1486 e
= force_gimple_operand_gsi (gsi
, e
, true, NULL_TREE
,
1487 true, GSI_SAME_STMT
);
1489 /* Convert the step, avoiding possible unsigned->signed overflow. */
1490 negating
= !up
&& TYPE_UNSIGNED (TREE_TYPE (s
));
1492 s
= fold_build1 (NEGATE_EXPR
, TREE_TYPE (s
), s
);
1493 s
= fold_convert (diff_type
, s
);
1495 s
= fold_build1 (NEGATE_EXPR
, diff_type
, s
);
1496 s
= force_gimple_operand_gsi (gsi
, s
, true, NULL_TREE
,
1497 true, GSI_SAME_STMT
);
1499 /* Determine the range, avoiding possible unsigned->signed overflow. */
1500 negating
= !up
&& TYPE_UNSIGNED (iter_type
);
1501 expr
= fold_build2 (MINUS_EXPR
, plus_type
,
1502 fold_convert (plus_type
, negating
? b
: e
),
1503 fold_convert (plus_type
, negating
? e
: b
));
1504 expr
= fold_convert (diff_type
, expr
);
1506 expr
= fold_build1 (NEGATE_EXPR
, diff_type
, expr
);
1507 tree range
= force_gimple_operand_gsi
1508 (gsi
, expr
, true, NULL_TREE
, true, GSI_SAME_STMT
);
1510 /* Determine number of iterations. */
1511 expr
= fold_build2 (MINUS_EXPR
, diff_type
, range
, dir
);
1512 expr
= fold_build2 (PLUS_EXPR
, diff_type
, expr
, s
);
1513 expr
= fold_build2 (TRUNC_DIV_EXPR
, diff_type
, expr
, s
);
1515 tree iters
= force_gimple_operand_gsi (gsi
, expr
, true, NULL_TREE
,
1516 true, GSI_SAME_STMT
);
1518 counts
[ix
].base
= b
;
1519 counts
[ix
].iters
= iters
;
1520 counts
[ix
].step
= s
;
1522 total
= fold_build2 (MULT_EXPR
, bound_type
, total
,
1523 fold_convert (bound_type
, iters
));
1529 /* Emit initializers for collapsed loop members. INNER is true if
1530 this is for the element loop of a TILE. IVAR is the outer
1531 loop iteration variable, from which collapsed loop iteration values
1532 are calculated. COUNTS array has been initialized by
1533 expand_oacc_collapse_inits. */
1536 expand_oacc_collapse_vars (const struct omp_for_data
*fd
, bool inner
,
1537 gimple_stmt_iterator
*gsi
,
1538 const oacc_collapse
*counts
, tree ivar
)
1540 tree ivar_type
= TREE_TYPE (ivar
);
1542 /* The most rapidly changing iteration variable is the innermost
1544 for (int ix
= fd
->collapse
; ix
--;)
1546 const omp_for_data_loop
*loop
= &fd
->loops
[ix
];
1547 const oacc_collapse
*collapse
= &counts
[ix
];
1548 tree v
= inner
? loop
->v
: collapse
->outer
;
1549 tree iter_type
= TREE_TYPE (v
);
1550 tree diff_type
= TREE_TYPE (collapse
->step
);
1551 tree plus_type
= iter_type
;
1552 enum tree_code plus_code
= PLUS_EXPR
;
1555 if (POINTER_TYPE_P (iter_type
))
1557 plus_code
= POINTER_PLUS_EXPR
;
1558 plus_type
= sizetype
;
1564 tree mod
= fold_convert (ivar_type
, collapse
->iters
);
1565 ivar
= fold_build2 (TRUNC_DIV_EXPR
, ivar_type
, expr
, mod
);
1566 expr
= fold_build2 (TRUNC_MOD_EXPR
, ivar_type
, expr
, mod
);
1567 ivar
= force_gimple_operand_gsi (gsi
, ivar
, true, NULL_TREE
,
1568 true, GSI_SAME_STMT
);
1571 expr
= fold_build2 (MULT_EXPR
, diff_type
, fold_convert (diff_type
, expr
),
1573 expr
= fold_build2 (plus_code
, iter_type
,
1574 inner
? collapse
->outer
: collapse
->base
,
1575 fold_convert (plus_type
, expr
));
1576 expr
= force_gimple_operand_gsi (gsi
, expr
, false, NULL_TREE
,
1577 true, GSI_SAME_STMT
);
1578 gassign
*ass
= gimple_build_assign (v
, expr
);
1579 gsi_insert_before (gsi
, ass
, GSI_SAME_STMT
);
1583 /* Helper function for expand_omp_{for_*,simd}. If this is the outermost
1584 of the combined collapse > 1 loop constructs, generate code like:
1585 if (__builtin_expect (N32 cond3 N31, 0)) goto ZERO_ITER_BB;
1590 count3 = (adj + N32 - N31) / STEP3;
1591 if (__builtin_expect (N22 cond2 N21, 0)) goto ZERO_ITER_BB;
1596 count2 = (adj + N22 - N21) / STEP2;
1597 if (__builtin_expect (N12 cond1 N11, 0)) goto ZERO_ITER_BB;
1602 count1 = (adj + N12 - N11) / STEP1;
1603 count = count1 * count2 * count3;
1604 Furthermore, if ZERO_ITER_BB is NULL, create a BB which does:
1606 and set ZERO_ITER_BB to that bb. If this isn't the outermost
1607 of the combined loop constructs, just initialize COUNTS array
1608 from the _looptemp_ clauses. */
1610 /* NOTE: It *could* be better to moosh all of the BBs together,
1611 creating one larger BB with all the computation and the unexpected
1612 jump at the end. I.e.
1614 bool zero3, zero2, zero1, zero;
1617 count3 = (N32 - N31) /[cl] STEP3;
1619 count2 = (N22 - N21) /[cl] STEP2;
1621 count1 = (N12 - N11) /[cl] STEP1;
1622 zero = zero3 || zero2 || zero1;
1623 count = count1 * count2 * count3;
1624 if (__builtin_expect(zero, false)) goto zero_iter_bb;
1626 After all, we expect the zero=false, and thus we expect to have to
1627 evaluate all of the comparison expressions, so short-circuiting
1628 oughtn't be a win. Since the condition isn't protecting a
1629 denominator, we're not concerned about divide-by-zero, so we can
1630 fully evaluate count even if a numerator turned out to be wrong.
1632 It seems like putting this all together would create much better
1633 scheduling opportunities, and less pressure on the chip's branch
1637 expand_omp_for_init_counts (struct omp_for_data
*fd
, gimple_stmt_iterator
*gsi
,
1638 basic_block
&entry_bb
, tree
*counts
,
1639 basic_block
&zero_iter1_bb
, int &first_zero_iter1
,
1640 basic_block
&zero_iter2_bb
, int &first_zero_iter2
,
1641 basic_block
&l2_dom_bb
)
1643 tree t
, type
= TREE_TYPE (fd
->loop
.v
);
1647 /* Collapsed loops need work for expansion into SSA form. */
1648 gcc_assert (!gimple_in_ssa_p (cfun
));
1650 if (gimple_omp_for_combined_into_p (fd
->for_stmt
)
1651 && TREE_CODE (fd
->loop
.n2
) != INTEGER_CST
)
1653 gcc_assert (fd
->ordered
== 0);
1654 /* First two _looptemp_ clauses are for istart/iend, counts[0]
1655 isn't supposed to be handled, as the inner loop doesn't
1657 tree innerc
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
1658 OMP_CLAUSE__LOOPTEMP_
);
1659 gcc_assert (innerc
);
1660 for (i
= 0; i
< fd
->collapse
; i
++)
1662 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
1663 OMP_CLAUSE__LOOPTEMP_
);
1664 gcc_assert (innerc
);
1666 counts
[i
] = OMP_CLAUSE_DECL (innerc
);
1668 counts
[0] = NULL_TREE
;
1673 for (i
= fd
->collapse
; i
< fd
->ordered
; i
++)
1675 tree itype
= TREE_TYPE (fd
->loops
[i
].v
);
1676 counts
[i
] = NULL_TREE
;
1677 t
= fold_binary (fd
->loops
[i
].cond_code
, boolean_type_node
,
1678 fold_convert (itype
, fd
->loops
[i
].n1
),
1679 fold_convert (itype
, fd
->loops
[i
].n2
));
1680 if (t
&& integer_zerop (t
))
1682 for (i
= fd
->collapse
; i
< fd
->ordered
; i
++)
1683 counts
[i
] = build_int_cst (type
, 0);
1687 for (i
= 0; i
< (fd
->ordered
? fd
->ordered
: fd
->collapse
); i
++)
1689 tree itype
= TREE_TYPE (fd
->loops
[i
].v
);
1691 if (i
>= fd
->collapse
&& counts
[i
])
1693 if ((SSA_VAR_P (fd
->loop
.n2
) || i
>= fd
->collapse
)
1694 && ((t
= fold_binary (fd
->loops
[i
].cond_code
, boolean_type_node
,
1695 fold_convert (itype
, fd
->loops
[i
].n1
),
1696 fold_convert (itype
, fd
->loops
[i
].n2
)))
1697 == NULL_TREE
|| !integer_onep (t
)))
1701 n1
= fold_convert (itype
, unshare_expr (fd
->loops
[i
].n1
));
1702 n1
= force_gimple_operand_gsi (gsi
, n1
, true, NULL_TREE
,
1703 true, GSI_SAME_STMT
);
1704 n2
= fold_convert (itype
, unshare_expr (fd
->loops
[i
].n2
));
1705 n2
= force_gimple_operand_gsi (gsi
, n2
, true, NULL_TREE
,
1706 true, GSI_SAME_STMT
);
1707 cond_stmt
= gimple_build_cond (fd
->loops
[i
].cond_code
, n1
, n2
,
1708 NULL_TREE
, NULL_TREE
);
1709 gsi_insert_before (gsi
, cond_stmt
, GSI_SAME_STMT
);
1710 if (walk_tree (gimple_cond_lhs_ptr (cond_stmt
),
1711 expand_omp_regimplify_p
, NULL
, NULL
)
1712 || walk_tree (gimple_cond_rhs_ptr (cond_stmt
),
1713 expand_omp_regimplify_p
, NULL
, NULL
))
1715 *gsi
= gsi_for_stmt (cond_stmt
);
1716 gimple_regimplify_operands (cond_stmt
, gsi
);
1718 e
= split_block (entry_bb
, cond_stmt
);
1719 basic_block
&zero_iter_bb
1720 = i
< fd
->collapse
? zero_iter1_bb
: zero_iter2_bb
;
1721 int &first_zero_iter
1722 = i
< fd
->collapse
? first_zero_iter1
: first_zero_iter2
;
1723 if (zero_iter_bb
== NULL
)
1725 gassign
*assign_stmt
;
1726 first_zero_iter
= i
;
1727 zero_iter_bb
= create_empty_bb (entry_bb
);
1728 add_bb_to_loop (zero_iter_bb
, entry_bb
->loop_father
);
1729 *gsi
= gsi_after_labels (zero_iter_bb
);
1730 if (i
< fd
->collapse
)
1731 assign_stmt
= gimple_build_assign (fd
->loop
.n2
,
1732 build_zero_cst (type
));
1735 counts
[i
] = create_tmp_reg (type
, ".count");
1737 = gimple_build_assign (counts
[i
], build_zero_cst (type
));
1739 gsi_insert_before (gsi
, assign_stmt
, GSI_SAME_STMT
);
1740 set_immediate_dominator (CDI_DOMINATORS
, zero_iter_bb
,
1743 ne
= make_edge (entry_bb
, zero_iter_bb
, EDGE_FALSE_VALUE
);
1744 ne
->probability
= REG_BR_PROB_BASE
/ 2000 - 1;
1745 e
->flags
= EDGE_TRUE_VALUE
;
1746 e
->probability
= REG_BR_PROB_BASE
- ne
->probability
;
1747 if (l2_dom_bb
== NULL
)
1748 l2_dom_bb
= entry_bb
;
1750 *gsi
= gsi_last_bb (entry_bb
);
1753 if (POINTER_TYPE_P (itype
))
1754 itype
= signed_type_for (itype
);
1755 t
= build_int_cst (itype
, (fd
->loops
[i
].cond_code
== LT_EXPR
1757 t
= fold_build2 (PLUS_EXPR
, itype
,
1758 fold_convert (itype
, fd
->loops
[i
].step
), t
);
1759 t
= fold_build2 (PLUS_EXPR
, itype
, t
,
1760 fold_convert (itype
, fd
->loops
[i
].n2
));
1761 t
= fold_build2 (MINUS_EXPR
, itype
, t
,
1762 fold_convert (itype
, fd
->loops
[i
].n1
));
1763 /* ?? We could probably use CEIL_DIV_EXPR instead of
1764 TRUNC_DIV_EXPR and adjusting by hand. Unless we can't
1765 generate the same code in the end because generically we
1766 don't know that the values involved must be negative for
1768 if (TYPE_UNSIGNED (itype
) && fd
->loops
[i
].cond_code
== GT_EXPR
)
1769 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
,
1770 fold_build1 (NEGATE_EXPR
, itype
, t
),
1771 fold_build1 (NEGATE_EXPR
, itype
,
1772 fold_convert (itype
,
1773 fd
->loops
[i
].step
)));
1775 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
, t
,
1776 fold_convert (itype
, fd
->loops
[i
].step
));
1777 t
= fold_convert (type
, t
);
1778 if (TREE_CODE (t
) == INTEGER_CST
)
1782 if (i
< fd
->collapse
|| i
!= first_zero_iter2
)
1783 counts
[i
] = create_tmp_reg (type
, ".count");
1784 expand_omp_build_assign (gsi
, counts
[i
], t
);
1786 if (SSA_VAR_P (fd
->loop
.n2
) && i
< fd
->collapse
)
1791 t
= fold_build2 (MULT_EXPR
, type
, fd
->loop
.n2
, counts
[i
]);
1792 expand_omp_build_assign (gsi
, fd
->loop
.n2
, t
);
1797 /* Helper function for expand_omp_{for_*,simd}. Generate code like:
1799 V3 = N31 + (T % count3) * STEP3;
1801 V2 = N21 + (T % count2) * STEP2;
1803 V1 = N11 + T * STEP1;
1804 if this loop doesn't have an inner loop construct combined with it.
1805 If it does have an inner loop construct combined with it and the
1806 iteration count isn't known constant, store values from counts array
1807 into its _looptemp_ temporaries instead. */
1810 expand_omp_for_init_vars (struct omp_for_data
*fd
, gimple_stmt_iterator
*gsi
,
1811 tree
*counts
, gimple
*inner_stmt
, tree startvar
)
1814 if (gimple_omp_for_combined_p (fd
->for_stmt
))
1816 /* If fd->loop.n2 is constant, then no propagation of the counts
1817 is needed, they are constant. */
1818 if (TREE_CODE (fd
->loop
.n2
) == INTEGER_CST
)
1821 tree clauses
= gimple_code (inner_stmt
) != GIMPLE_OMP_FOR
1822 ? gimple_omp_taskreg_clauses (inner_stmt
)
1823 : gimple_omp_for_clauses (inner_stmt
);
1824 /* First two _looptemp_ clauses are for istart/iend, counts[0]
1825 isn't supposed to be handled, as the inner loop doesn't
1827 tree innerc
= omp_find_clause (clauses
, OMP_CLAUSE__LOOPTEMP_
);
1828 gcc_assert (innerc
);
1829 for (i
= 0; i
< fd
->collapse
; i
++)
1831 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
1832 OMP_CLAUSE__LOOPTEMP_
);
1833 gcc_assert (innerc
);
1836 tree tem
= OMP_CLAUSE_DECL (innerc
);
1837 tree t
= fold_convert (TREE_TYPE (tem
), counts
[i
]);
1838 t
= force_gimple_operand_gsi (gsi
, t
, false, NULL_TREE
,
1839 false, GSI_CONTINUE_LINKING
);
1840 gassign
*stmt
= gimple_build_assign (tem
, t
);
1841 gsi_insert_after (gsi
, stmt
, GSI_CONTINUE_LINKING
);
1847 tree type
= TREE_TYPE (fd
->loop
.v
);
1848 tree tem
= create_tmp_reg (type
, ".tem");
1849 gassign
*stmt
= gimple_build_assign (tem
, startvar
);
1850 gsi_insert_after (gsi
, stmt
, GSI_CONTINUE_LINKING
);
1852 for (i
= fd
->collapse
- 1; i
>= 0; i
--)
1854 tree vtype
= TREE_TYPE (fd
->loops
[i
].v
), itype
, t
;
1856 if (POINTER_TYPE_P (vtype
))
1857 itype
= signed_type_for (vtype
);
1859 t
= fold_build2 (TRUNC_MOD_EXPR
, type
, tem
, counts
[i
]);
1862 t
= fold_convert (itype
, t
);
1863 t
= fold_build2 (MULT_EXPR
, itype
, t
,
1864 fold_convert (itype
, fd
->loops
[i
].step
));
1865 if (POINTER_TYPE_P (vtype
))
1866 t
= fold_build_pointer_plus (fd
->loops
[i
].n1
, t
);
1868 t
= fold_build2 (PLUS_EXPR
, itype
, fd
->loops
[i
].n1
, t
);
1869 t
= force_gimple_operand_gsi (gsi
, t
,
1870 DECL_P (fd
->loops
[i
].v
)
1871 && TREE_ADDRESSABLE (fd
->loops
[i
].v
),
1873 GSI_CONTINUE_LINKING
);
1874 stmt
= gimple_build_assign (fd
->loops
[i
].v
, t
);
1875 gsi_insert_after (gsi
, stmt
, GSI_CONTINUE_LINKING
);
1878 t
= fold_build2 (TRUNC_DIV_EXPR
, type
, tem
, counts
[i
]);
1879 t
= force_gimple_operand_gsi (gsi
, t
, false, NULL_TREE
,
1880 false, GSI_CONTINUE_LINKING
);
1881 stmt
= gimple_build_assign (tem
, t
);
1882 gsi_insert_after (gsi
, stmt
, GSI_CONTINUE_LINKING
);
1887 /* Helper function for expand_omp_for_*. Generate code like:
1890 if (V3 cond3 N32) goto BODY_BB; else goto L11;
1894 if (V2 cond2 N22) goto BODY_BB; else goto L12;
1901 extract_omp_for_update_vars (struct omp_for_data
*fd
, basic_block cont_bb
,
1902 basic_block body_bb
)
1904 basic_block last_bb
, bb
, collapse_bb
= NULL
;
1906 gimple_stmt_iterator gsi
;
1912 for (i
= fd
->collapse
- 1; i
>= 0; i
--)
1914 tree vtype
= TREE_TYPE (fd
->loops
[i
].v
);
1916 bb
= create_empty_bb (last_bb
);
1917 add_bb_to_loop (bb
, last_bb
->loop_father
);
1918 gsi
= gsi_start_bb (bb
);
1920 if (i
< fd
->collapse
- 1)
1922 e
= make_edge (last_bb
, bb
, EDGE_FALSE_VALUE
);
1923 e
->probability
= REG_BR_PROB_BASE
/ 8;
1925 t
= fd
->loops
[i
+ 1].n1
;
1926 t
= force_gimple_operand_gsi (&gsi
, t
,
1927 DECL_P (fd
->loops
[i
+ 1].v
)
1928 && TREE_ADDRESSABLE (fd
->loops
[i
1931 GSI_CONTINUE_LINKING
);
1932 stmt
= gimple_build_assign (fd
->loops
[i
+ 1].v
, t
);
1933 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
1938 set_immediate_dominator (CDI_DOMINATORS
, bb
, last_bb
);
1940 if (POINTER_TYPE_P (vtype
))
1941 t
= fold_build_pointer_plus (fd
->loops
[i
].v
, fd
->loops
[i
].step
);
1943 t
= fold_build2 (PLUS_EXPR
, vtype
, fd
->loops
[i
].v
, fd
->loops
[i
].step
);
1944 t
= force_gimple_operand_gsi (&gsi
, t
,
1945 DECL_P (fd
->loops
[i
].v
)
1946 && TREE_ADDRESSABLE (fd
->loops
[i
].v
),
1947 NULL_TREE
, false, GSI_CONTINUE_LINKING
);
1948 stmt
= gimple_build_assign (fd
->loops
[i
].v
, t
);
1949 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
1953 t
= fd
->loops
[i
].n2
;
1954 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
1955 false, GSI_CONTINUE_LINKING
);
1956 tree v
= fd
->loops
[i
].v
;
1957 if (DECL_P (v
) && TREE_ADDRESSABLE (v
))
1958 v
= force_gimple_operand_gsi (&gsi
, v
, true, NULL_TREE
,
1959 false, GSI_CONTINUE_LINKING
);
1960 t
= fold_build2 (fd
->loops
[i
].cond_code
, boolean_type_node
, v
, t
);
1961 stmt
= gimple_build_cond_empty (t
);
1962 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
1963 e
= make_edge (bb
, body_bb
, EDGE_TRUE_VALUE
);
1964 e
->probability
= REG_BR_PROB_BASE
* 7 / 8;
1967 make_edge (bb
, body_bb
, EDGE_FALLTHRU
);
1974 /* Expand #pragma omp ordered depend(source). */
1977 expand_omp_ordered_source (gimple_stmt_iterator
*gsi
, struct omp_for_data
*fd
,
1978 tree
*counts
, location_t loc
)
1980 enum built_in_function source_ix
1981 = fd
->iter_type
== long_integer_type_node
1982 ? BUILT_IN_GOMP_DOACROSS_POST
: BUILT_IN_GOMP_DOACROSS_ULL_POST
;
1984 = gimple_build_call (builtin_decl_explicit (source_ix
), 1,
1985 build_fold_addr_expr (counts
[fd
->ordered
]));
1986 gimple_set_location (g
, loc
);
1987 gsi_insert_before (gsi
, g
, GSI_SAME_STMT
);
1990 /* Expand a single depend from #pragma omp ordered depend(sink:...). */
1993 expand_omp_ordered_sink (gimple_stmt_iterator
*gsi
, struct omp_for_data
*fd
,
1994 tree
*counts
, tree c
, location_t loc
)
1996 auto_vec
<tree
, 10> args
;
1997 enum built_in_function sink_ix
1998 = fd
->iter_type
== long_integer_type_node
1999 ? BUILT_IN_GOMP_DOACROSS_WAIT
: BUILT_IN_GOMP_DOACROSS_ULL_WAIT
;
2000 tree t
, off
, coff
= NULL_TREE
, deps
= OMP_CLAUSE_DECL (c
), cond
= NULL_TREE
;
2002 gimple_stmt_iterator gsi2
= *gsi
;
2003 bool warned_step
= false;
2005 for (i
= 0; i
< fd
->ordered
; i
++)
2007 tree step
= NULL_TREE
;
2008 off
= TREE_PURPOSE (deps
);
2009 if (TREE_CODE (off
) == TRUNC_DIV_EXPR
)
2011 step
= TREE_OPERAND (off
, 1);
2012 off
= TREE_OPERAND (off
, 0);
2014 if (!integer_zerop (off
))
2016 gcc_assert (fd
->loops
[i
].cond_code
== LT_EXPR
2017 || fd
->loops
[i
].cond_code
== GT_EXPR
);
2018 bool forward
= fd
->loops
[i
].cond_code
== LT_EXPR
;
2021 /* Non-simple Fortran DO loops. If step is variable,
2022 we don't know at compile even the direction, so can't
2024 if (TREE_CODE (step
) != INTEGER_CST
)
2026 forward
= tree_int_cst_sgn (step
) != -1;
2028 if (forward
^ OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2029 warning_at (loc
, 0, "%<depend(sink)%> clause waiting for "
2030 "lexically later iteration");
2033 deps
= TREE_CHAIN (deps
);
2035 /* If all offsets corresponding to the collapsed loops are zero,
2036 this depend clause can be ignored. FIXME: but there is still a
2037 flush needed. We need to emit one __sync_synchronize () for it
2038 though (perhaps conditionally)? Solve this together with the
2039 conservative dependence folding optimization.
2040 if (i >= fd->collapse)
2043 deps
= OMP_CLAUSE_DECL (c
);
2045 edge e1
= split_block (gsi_bb (gsi2
), gsi_stmt (gsi2
));
2046 edge e2
= split_block_after_labels (e1
->dest
);
2048 gsi2
= gsi_after_labels (e1
->dest
);
2049 *gsi
= gsi_last_bb (e1
->src
);
2050 for (i
= 0; i
< fd
->ordered
; i
++)
2052 tree itype
= TREE_TYPE (fd
->loops
[i
].v
);
2053 tree step
= NULL_TREE
;
2054 tree orig_off
= NULL_TREE
;
2055 if (POINTER_TYPE_P (itype
))
2058 deps
= TREE_CHAIN (deps
);
2059 off
= TREE_PURPOSE (deps
);
2060 if (TREE_CODE (off
) == TRUNC_DIV_EXPR
)
2062 step
= TREE_OPERAND (off
, 1);
2063 off
= TREE_OPERAND (off
, 0);
2064 gcc_assert (fd
->loops
[i
].cond_code
== LT_EXPR
2065 && integer_onep (fd
->loops
[i
].step
)
2066 && !POINTER_TYPE_P (TREE_TYPE (fd
->loops
[i
].v
)));
2068 tree s
= fold_convert_loc (loc
, itype
, step
? step
: fd
->loops
[i
].step
);
2071 off
= fold_convert_loc (loc
, itype
, off
);
2073 off
= fold_build2_loc (loc
, TRUNC_DIV_EXPR
, itype
, off
, s
);
2076 if (integer_zerop (off
))
2077 t
= boolean_true_node
;
2081 tree co
= fold_convert_loc (loc
, itype
, off
);
2082 if (POINTER_TYPE_P (TREE_TYPE (fd
->loops
[i
].v
)))
2084 if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2085 co
= fold_build1_loc (loc
, NEGATE_EXPR
, itype
, co
);
2086 a
= fold_build2_loc (loc
, POINTER_PLUS_EXPR
,
2087 TREE_TYPE (fd
->loops
[i
].v
), fd
->loops
[i
].v
,
2090 else if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2091 a
= fold_build2_loc (loc
, MINUS_EXPR
, TREE_TYPE (fd
->loops
[i
].v
),
2092 fd
->loops
[i
].v
, co
);
2094 a
= fold_build2_loc (loc
, PLUS_EXPR
, TREE_TYPE (fd
->loops
[i
].v
),
2095 fd
->loops
[i
].v
, co
);
2099 if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2100 t1
= fold_build2_loc (loc
, GE_EXPR
, boolean_type_node
, a
,
2103 t1
= fold_build2_loc (loc
, LT_EXPR
, boolean_type_node
, a
,
2105 if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2106 t2
= fold_build2_loc (loc
, LT_EXPR
, boolean_type_node
, a
,
2109 t2
= fold_build2_loc (loc
, GE_EXPR
, boolean_type_node
, a
,
2111 t
= fold_build2_loc (loc
, LT_EXPR
, boolean_type_node
,
2112 step
, build_int_cst (TREE_TYPE (step
), 0));
2113 if (TREE_CODE (step
) != INTEGER_CST
)
2115 t1
= unshare_expr (t1
);
2116 t1
= force_gimple_operand_gsi (gsi
, t1
, true, NULL_TREE
,
2117 false, GSI_CONTINUE_LINKING
);
2118 t2
= unshare_expr (t2
);
2119 t2
= force_gimple_operand_gsi (gsi
, t2
, true, NULL_TREE
,
2120 false, GSI_CONTINUE_LINKING
);
2122 t
= fold_build3_loc (loc
, COND_EXPR
, boolean_type_node
,
2125 else if (fd
->loops
[i
].cond_code
== LT_EXPR
)
2127 if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2128 t
= fold_build2_loc (loc
, GE_EXPR
, boolean_type_node
, a
,
2131 t
= fold_build2_loc (loc
, LT_EXPR
, boolean_type_node
, a
,
2134 else if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2135 t
= fold_build2_loc (loc
, GT_EXPR
, boolean_type_node
, a
,
2138 t
= fold_build2_loc (loc
, LE_EXPR
, boolean_type_node
, a
,
2142 cond
= fold_build2_loc (loc
, BIT_AND_EXPR
, boolean_type_node
, cond
, t
);
2146 off
= fold_convert_loc (loc
, itype
, off
);
2149 || (fd
->loops
[i
].cond_code
== LT_EXPR
2150 ? !integer_onep (fd
->loops
[i
].step
)
2151 : !integer_minus_onep (fd
->loops
[i
].step
)))
2153 if (step
== NULL_TREE
2154 && TYPE_UNSIGNED (itype
)
2155 && fd
->loops
[i
].cond_code
== GT_EXPR
)
2156 t
= fold_build2_loc (loc
, TRUNC_MOD_EXPR
, itype
, off
,
2157 fold_build1_loc (loc
, NEGATE_EXPR
, itype
,
2160 t
= fold_build2_loc (loc
, TRUNC_MOD_EXPR
, itype
,
2161 orig_off
? orig_off
: off
, s
);
2162 t
= fold_build2_loc (loc
, EQ_EXPR
, boolean_type_node
, t
,
2163 build_int_cst (itype
, 0));
2164 if (integer_zerop (t
) && !warned_step
)
2166 warning_at (loc
, 0, "%<depend(sink)%> refers to iteration never "
2167 "in the iteration space");
2170 cond
= fold_build2_loc (loc
, BIT_AND_EXPR
, boolean_type_node
,
2174 if (i
<= fd
->collapse
- 1 && fd
->collapse
> 1)
2180 t
= fold_build2_loc (loc
, MINUS_EXPR
, TREE_TYPE (fd
->loops
[i
].v
),
2181 fd
->loops
[i
].v
, fd
->loops
[i
].n1
);
2182 t
= fold_convert_loc (loc
, fd
->iter_type
, t
);
2185 /* We have divided off by step already earlier. */;
2186 else if (TYPE_UNSIGNED (itype
) && fd
->loops
[i
].cond_code
== GT_EXPR
)
2187 off
= fold_build2_loc (loc
, TRUNC_DIV_EXPR
, itype
, off
,
2188 fold_build1_loc (loc
, NEGATE_EXPR
, itype
,
2191 off
= fold_build2_loc (loc
, TRUNC_DIV_EXPR
, itype
, off
, s
);
2192 if (OMP_CLAUSE_DEPEND_SINK_NEGATIVE (deps
))
2193 off
= fold_build1_loc (loc
, NEGATE_EXPR
, itype
, off
);
2194 off
= fold_convert_loc (loc
, fd
->iter_type
, off
);
2195 if (i
<= fd
->collapse
- 1 && fd
->collapse
> 1)
2198 off
= fold_build2_loc (loc
, PLUS_EXPR
, fd
->iter_type
, coff
,
2200 if (i
< fd
->collapse
- 1)
2202 coff
= fold_build2_loc (loc
, MULT_EXPR
, fd
->iter_type
, off
,
2207 off
= unshare_expr (off
);
2208 t
= fold_build2_loc (loc
, PLUS_EXPR
, fd
->iter_type
, t
, off
);
2209 t
= force_gimple_operand_gsi (&gsi2
, t
, true, NULL_TREE
,
2210 true, GSI_SAME_STMT
);
2213 gimple
*g
= gimple_build_call_vec (builtin_decl_explicit (sink_ix
), args
);
2214 gimple_set_location (g
, loc
);
2215 gsi_insert_before (&gsi2
, g
, GSI_SAME_STMT
);
2217 cond
= unshare_expr (cond
);
2218 cond
= force_gimple_operand_gsi (gsi
, cond
, true, NULL_TREE
, false,
2219 GSI_CONTINUE_LINKING
);
2220 gsi_insert_after (gsi
, gimple_build_cond_empty (cond
), GSI_NEW_STMT
);
2221 edge e3
= make_edge (e1
->src
, e2
->dest
, EDGE_FALSE_VALUE
);
2222 e3
->probability
= REG_BR_PROB_BASE
/ 8;
2223 e1
->probability
= REG_BR_PROB_BASE
- e3
->probability
;
2224 e1
->flags
= EDGE_TRUE_VALUE
;
2225 set_immediate_dominator (CDI_DOMINATORS
, e2
->dest
, e1
->src
);
2227 *gsi
= gsi_after_labels (e2
->dest
);
2230 /* Expand all #pragma omp ordered depend(source) and
2231 #pragma omp ordered depend(sink:...) constructs in the current
2232 #pragma omp for ordered(n) region. */
2235 expand_omp_ordered_source_sink (struct omp_region
*region
,
2236 struct omp_for_data
*fd
, tree
*counts
,
2237 basic_block cont_bb
)
2239 struct omp_region
*inner
;
2241 for (i
= fd
->collapse
- 1; i
< fd
->ordered
; i
++)
2242 if (i
== fd
->collapse
- 1 && fd
->collapse
> 1)
2243 counts
[i
] = NULL_TREE
;
2244 else if (i
>= fd
->collapse
&& !cont_bb
)
2245 counts
[i
] = build_zero_cst (fd
->iter_type
);
2246 else if (!POINTER_TYPE_P (TREE_TYPE (fd
->loops
[i
].v
))
2247 && integer_onep (fd
->loops
[i
].step
))
2248 counts
[i
] = NULL_TREE
;
2250 counts
[i
] = create_tmp_var (fd
->iter_type
, ".orditer");
2252 = build_array_type_nelts (fd
->iter_type
, fd
->ordered
- fd
->collapse
+ 1);
2253 counts
[fd
->ordered
] = create_tmp_var (atype
, ".orditera");
2254 TREE_ADDRESSABLE (counts
[fd
->ordered
]) = 1;
2256 for (inner
= region
->inner
; inner
; inner
= inner
->next
)
2257 if (inner
->type
== GIMPLE_OMP_ORDERED
)
2259 gomp_ordered
*ord_stmt
= inner
->ord_stmt
;
2260 gimple_stmt_iterator gsi
= gsi_for_stmt (ord_stmt
);
2261 location_t loc
= gimple_location (ord_stmt
);
2263 for (c
= gimple_omp_ordered_clauses (ord_stmt
);
2264 c
; c
= OMP_CLAUSE_CHAIN (c
))
2265 if (OMP_CLAUSE_DEPEND_KIND (c
) == OMP_CLAUSE_DEPEND_SOURCE
)
2268 expand_omp_ordered_source (&gsi
, fd
, counts
, loc
);
2269 for (c
= gimple_omp_ordered_clauses (ord_stmt
);
2270 c
; c
= OMP_CLAUSE_CHAIN (c
))
2271 if (OMP_CLAUSE_DEPEND_KIND (c
) == OMP_CLAUSE_DEPEND_SINK
)
2272 expand_omp_ordered_sink (&gsi
, fd
, counts
, c
, loc
);
2273 gsi_remove (&gsi
, true);
2277 /* Wrap the body into fd->ordered - fd->collapse loops that aren't
2281 expand_omp_for_ordered_loops (struct omp_for_data
*fd
, tree
*counts
,
2282 basic_block cont_bb
, basic_block body_bb
,
2283 bool ordered_lastprivate
)
2285 if (fd
->ordered
== fd
->collapse
)
2290 gimple_stmt_iterator gsi
= gsi_after_labels (body_bb
);
2291 for (int i
= fd
->collapse
; i
< fd
->ordered
; i
++)
2293 tree type
= TREE_TYPE (fd
->loops
[i
].v
);
2294 tree n1
= fold_convert (type
, fd
->loops
[i
].n1
);
2295 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
, n1
);
2296 tree aref
= build4 (ARRAY_REF
, fd
->iter_type
, counts
[fd
->ordered
],
2297 size_int (i
- fd
->collapse
+ 1),
2298 NULL_TREE
, NULL_TREE
);
2299 expand_omp_build_assign (&gsi
, aref
, build_zero_cst (fd
->iter_type
));
2304 for (int i
= fd
->ordered
- 1; i
>= fd
->collapse
; i
--)
2306 tree t
, type
= TREE_TYPE (fd
->loops
[i
].v
);
2307 gimple_stmt_iterator gsi
= gsi_after_labels (body_bb
);
2308 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
,
2309 fold_convert (type
, fd
->loops
[i
].n1
));
2311 expand_omp_build_assign (&gsi
, counts
[i
],
2312 build_zero_cst (fd
->iter_type
));
2313 tree aref
= build4 (ARRAY_REF
, fd
->iter_type
, counts
[fd
->ordered
],
2314 size_int (i
- fd
->collapse
+ 1),
2315 NULL_TREE
, NULL_TREE
);
2316 expand_omp_build_assign (&gsi
, aref
, build_zero_cst (fd
->iter_type
));
2317 if (!gsi_end_p (gsi
))
2320 gsi
= gsi_last_bb (body_bb
);
2321 edge e1
= split_block (body_bb
, gsi_stmt (gsi
));
2322 basic_block new_body
= e1
->dest
;
2323 if (body_bb
== cont_bb
)
2326 basic_block new_header
;
2327 if (EDGE_COUNT (cont_bb
->preds
) > 0)
2329 gsi
= gsi_last_bb (cont_bb
);
2330 if (POINTER_TYPE_P (type
))
2331 t
= fold_build_pointer_plus (fd
->loops
[i
].v
,
2332 fold_convert (sizetype
,
2333 fd
->loops
[i
].step
));
2335 t
= fold_build2 (PLUS_EXPR
, type
, fd
->loops
[i
].v
,
2336 fold_convert (type
, fd
->loops
[i
].step
));
2337 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
, t
);
2340 t
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, counts
[i
],
2341 build_int_cst (fd
->iter_type
, 1));
2342 expand_omp_build_assign (&gsi
, counts
[i
], t
);
2347 t
= fold_build2 (MINUS_EXPR
, TREE_TYPE (fd
->loops
[i
].v
),
2348 fd
->loops
[i
].v
, fd
->loops
[i
].n1
);
2349 t
= fold_convert (fd
->iter_type
, t
);
2350 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
2351 true, GSI_SAME_STMT
);
2353 aref
= build4 (ARRAY_REF
, fd
->iter_type
, counts
[fd
->ordered
],
2354 size_int (i
- fd
->collapse
+ 1),
2355 NULL_TREE
, NULL_TREE
);
2356 expand_omp_build_assign (&gsi
, aref
, t
);
2358 e2
= split_block (cont_bb
, gsi_stmt (gsi
));
2359 new_header
= e2
->dest
;
2362 new_header
= cont_bb
;
2363 gsi
= gsi_after_labels (new_header
);
2364 tree v
= force_gimple_operand_gsi (&gsi
, fd
->loops
[i
].v
, true, NULL_TREE
,
2365 true, GSI_SAME_STMT
);
2367 = force_gimple_operand_gsi (&gsi
, fold_convert (type
, fd
->loops
[i
].n2
),
2368 true, NULL_TREE
, true, GSI_SAME_STMT
);
2369 t
= build2 (fd
->loops
[i
].cond_code
, boolean_type_node
, v
, n2
);
2370 gsi_insert_before (&gsi
, gimple_build_cond_empty (t
), GSI_NEW_STMT
);
2371 edge e3
= split_block (new_header
, gsi_stmt (gsi
));
2374 make_edge (body_bb
, new_header
, EDGE_FALLTHRU
);
2375 e3
->flags
= EDGE_FALSE_VALUE
;
2376 e3
->probability
= REG_BR_PROB_BASE
/ 8;
2377 e1
= make_edge (new_header
, new_body
, EDGE_TRUE_VALUE
);
2378 e1
->probability
= REG_BR_PROB_BASE
- e3
->probability
;
2380 set_immediate_dominator (CDI_DOMINATORS
, new_header
, body_bb
);
2381 set_immediate_dominator (CDI_DOMINATORS
, new_body
, new_header
);
2385 struct loop
*loop
= alloc_loop ();
2386 loop
->header
= new_header
;
2387 loop
->latch
= e2
->src
;
2388 add_loop (loop
, body_bb
->loop_father
);
2392 /* If there are any lastprivate clauses and it is possible some loops
2393 might have zero iterations, ensure all the decls are initialized,
2394 otherwise we could crash evaluating C++ class iterators with lastprivate
2396 bool need_inits
= false;
2397 for (int i
= fd
->collapse
; ordered_lastprivate
&& i
< fd
->ordered
; i
++)
2400 tree type
= TREE_TYPE (fd
->loops
[i
].v
);
2401 gimple_stmt_iterator gsi
= gsi_after_labels (body_bb
);
2402 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
,
2403 fold_convert (type
, fd
->loops
[i
].n1
));
2407 tree type
= TREE_TYPE (fd
->loops
[i
].v
);
2408 tree this_cond
= fold_build2 (fd
->loops
[i
].cond_code
,
2410 fold_convert (type
, fd
->loops
[i
].n1
),
2411 fold_convert (type
, fd
->loops
[i
].n2
));
2412 if (!integer_onep (this_cond
))
2419 /* A subroutine of expand_omp_for. Generate code for a parallel
2420 loop with any schedule. Given parameters:
2422 for (V = N1; V cond N2; V += STEP) BODY;
2424 where COND is "<" or ">", we generate pseudocode
2426 more = GOMP_loop_foo_start (N1, N2, STEP, CHUNK, &istart0, &iend0);
2427 if (more) goto L0; else goto L3;
2434 if (V cond iend) goto L1; else goto L2;
2436 if (GOMP_loop_foo_next (&istart0, &iend0)) goto L0; else goto L3;
2439 If this is a combined omp parallel loop, instead of the call to
2440 GOMP_loop_foo_start, we call GOMP_loop_foo_next.
2441 If this is gimple_omp_for_combined_p loop, then instead of assigning
2442 V and iend in L0 we assign the first two _looptemp_ clause decls of the
2443 inner GIMPLE_OMP_FOR and V += STEP; and
2444 if (V cond iend) goto L1; else goto L2; are removed.
2446 For collapsed loops, given parameters:
2448 for (V1 = N11; V1 cond1 N12; V1 += STEP1)
2449 for (V2 = N21; V2 cond2 N22; V2 += STEP2)
2450 for (V3 = N31; V3 cond3 N32; V3 += STEP3)
2453 we generate pseudocode
2455 if (__builtin_expect (N32 cond3 N31, 0)) goto Z0;
2460 count3 = (adj + N32 - N31) / STEP3;
2461 if (__builtin_expect (N22 cond2 N21, 0)) goto Z0;
2466 count2 = (adj + N22 - N21) / STEP2;
2467 if (__builtin_expect (N12 cond1 N11, 0)) goto Z0;
2472 count1 = (adj + N12 - N11) / STEP1;
2473 count = count1 * count2 * count3;
2478 more = GOMP_loop_foo_start (0, count, 1, CHUNK, &istart0, &iend0);
2479 if (more) goto L0; else goto L3;
2483 V3 = N31 + (T % count3) * STEP3;
2485 V2 = N21 + (T % count2) * STEP2;
2487 V1 = N11 + T * STEP1;
2492 if (V < iend) goto L10; else goto L2;
2495 if (V3 cond3 N32) goto L1; else goto L11;
2499 if (V2 cond2 N22) goto L1; else goto L12;
2505 if (GOMP_loop_foo_next (&istart0, &iend0)) goto L0; else goto L3;
2511 expand_omp_for_generic (struct omp_region
*region
,
2512 struct omp_for_data
*fd
,
2513 enum built_in_function start_fn
,
2514 enum built_in_function next_fn
,
2517 tree type
, istart0
, iend0
, iend
;
2518 tree t
, vmain
, vback
, bias
= NULL_TREE
;
2519 basic_block entry_bb
, cont_bb
, exit_bb
, l0_bb
, l1_bb
, collapse_bb
;
2520 basic_block l2_bb
= NULL
, l3_bb
= NULL
;
2521 gimple_stmt_iterator gsi
;
2522 gassign
*assign_stmt
;
2523 bool in_combined_parallel
= is_combined_parallel (region
);
2524 bool broken_loop
= region
->cont
== NULL
;
2526 tree
*counts
= NULL
;
2528 bool ordered_lastprivate
= false;
2530 gcc_assert (!broken_loop
|| !in_combined_parallel
);
2531 gcc_assert (fd
->iter_type
== long_integer_type_node
2532 || !in_combined_parallel
);
2534 entry_bb
= region
->entry
;
2535 cont_bb
= region
->cont
;
2537 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2);
2538 gcc_assert (broken_loop
2539 || BRANCH_EDGE (entry_bb
)->dest
== FALLTHRU_EDGE (cont_bb
)->dest
);
2540 l0_bb
= split_edge (FALLTHRU_EDGE (entry_bb
));
2541 l1_bb
= single_succ (l0_bb
);
2544 l2_bb
= create_empty_bb (cont_bb
);
2545 gcc_assert (BRANCH_EDGE (cont_bb
)->dest
== l1_bb
2546 || (single_succ_edge (BRANCH_EDGE (cont_bb
)->dest
)->dest
2548 gcc_assert (EDGE_COUNT (cont_bb
->succs
) == 2);
2552 l3_bb
= BRANCH_EDGE (entry_bb
)->dest
;
2553 exit_bb
= region
->exit
;
2555 gsi
= gsi_last_bb (entry_bb
);
2557 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
2559 && omp_find_clause (gimple_omp_for_clauses (gsi_stmt (gsi
)),
2560 OMP_CLAUSE_LASTPRIVATE
))
2561 ordered_lastprivate
= false;
2562 if (fd
->collapse
> 1 || fd
->ordered
)
2564 int first_zero_iter1
= -1, first_zero_iter2
= -1;
2565 basic_block zero_iter1_bb
= NULL
, zero_iter2_bb
= NULL
, l2_dom_bb
= NULL
;
2567 counts
= XALLOCAVEC (tree
, fd
->ordered
? fd
->ordered
+ 1 : fd
->collapse
);
2568 expand_omp_for_init_counts (fd
, &gsi
, entry_bb
, counts
,
2569 zero_iter1_bb
, first_zero_iter1
,
2570 zero_iter2_bb
, first_zero_iter2
, l2_dom_bb
);
2574 /* Some counts[i] vars might be uninitialized if
2575 some loop has zero iterations. But the body shouldn't
2576 be executed in that case, so just avoid uninit warnings. */
2577 for (i
= first_zero_iter1
;
2578 i
< (fd
->ordered
? fd
->ordered
: fd
->collapse
); i
++)
2579 if (SSA_VAR_P (counts
[i
]))
2580 TREE_NO_WARNING (counts
[i
]) = 1;
2582 e
= split_block (entry_bb
, gsi_stmt (gsi
));
2584 make_edge (zero_iter1_bb
, entry_bb
, EDGE_FALLTHRU
);
2585 gsi
= gsi_last_bb (entry_bb
);
2586 set_immediate_dominator (CDI_DOMINATORS
, entry_bb
,
2587 get_immediate_dominator (CDI_DOMINATORS
,
2592 /* Some counts[i] vars might be uninitialized if
2593 some loop has zero iterations. But the body shouldn't
2594 be executed in that case, so just avoid uninit warnings. */
2595 for (i
= first_zero_iter2
; i
< fd
->ordered
; i
++)
2596 if (SSA_VAR_P (counts
[i
]))
2597 TREE_NO_WARNING (counts
[i
]) = 1;
2599 make_edge (zero_iter2_bb
, entry_bb
, EDGE_FALLTHRU
);
2603 e
= split_block (entry_bb
, gsi_stmt (gsi
));
2605 make_edge (zero_iter2_bb
, entry_bb
, EDGE_FALLTHRU
);
2606 gsi
= gsi_last_bb (entry_bb
);
2607 set_immediate_dominator (CDI_DOMINATORS
, entry_bb
,
2608 get_immediate_dominator
2609 (CDI_DOMINATORS
, zero_iter2_bb
));
2612 if (fd
->collapse
== 1)
2614 counts
[0] = fd
->loop
.n2
;
2615 fd
->loop
= fd
->loops
[0];
2619 type
= TREE_TYPE (fd
->loop
.v
);
2620 istart0
= create_tmp_var (fd
->iter_type
, ".istart0");
2621 iend0
= create_tmp_var (fd
->iter_type
, ".iend0");
2622 TREE_ADDRESSABLE (istart0
) = 1;
2623 TREE_ADDRESSABLE (iend0
) = 1;
2625 /* See if we need to bias by LLONG_MIN. */
2626 if (fd
->iter_type
== long_long_unsigned_type_node
2627 && TREE_CODE (type
) == INTEGER_TYPE
2628 && !TYPE_UNSIGNED (type
)
2629 && fd
->ordered
== 0)
2633 if (fd
->loop
.cond_code
== LT_EXPR
)
2636 n2
= fold_build2 (PLUS_EXPR
, type
, fd
->loop
.n2
, fd
->loop
.step
);
2640 n1
= fold_build2 (MINUS_EXPR
, type
, fd
->loop
.n2
, fd
->loop
.step
);
2643 if (TREE_CODE (n1
) != INTEGER_CST
2644 || TREE_CODE (n2
) != INTEGER_CST
2645 || ((tree_int_cst_sgn (n1
) < 0) ^ (tree_int_cst_sgn (n2
) < 0)))
2646 bias
= fold_convert (fd
->iter_type
, TYPE_MIN_VALUE (type
));
2649 gimple_stmt_iterator gsif
= gsi
;
2652 tree arr
= NULL_TREE
;
2653 if (in_combined_parallel
)
2655 gcc_assert (fd
->ordered
== 0);
2656 /* In a combined parallel loop, emit a call to
2657 GOMP_loop_foo_next. */
2658 t
= build_call_expr (builtin_decl_explicit (next_fn
), 2,
2659 build_fold_addr_expr (istart0
),
2660 build_fold_addr_expr (iend0
));
2664 tree t0
, t1
, t2
, t3
, t4
;
2665 /* If this is not a combined parallel loop, emit a call to
2666 GOMP_loop_foo_start in ENTRY_BB. */
2667 t4
= build_fold_addr_expr (iend0
);
2668 t3
= build_fold_addr_expr (istart0
);
2671 t0
= build_int_cst (unsigned_type_node
,
2672 fd
->ordered
- fd
->collapse
+ 1);
2673 arr
= create_tmp_var (build_array_type_nelts (fd
->iter_type
,
2675 - fd
->collapse
+ 1),
2677 DECL_NAMELESS (arr
) = 1;
2678 TREE_ADDRESSABLE (arr
) = 1;
2679 TREE_STATIC (arr
) = 1;
2680 vec
<constructor_elt
, va_gc
> *v
;
2681 vec_alloc (v
, fd
->ordered
- fd
->collapse
+ 1);
2684 for (idx
= 0; idx
< fd
->ordered
- fd
->collapse
+ 1; idx
++)
2687 if (idx
== 0 && fd
->collapse
> 1)
2690 c
= counts
[idx
+ fd
->collapse
- 1];
2691 tree purpose
= size_int (idx
);
2692 CONSTRUCTOR_APPEND_ELT (v
, purpose
, c
);
2693 if (TREE_CODE (c
) != INTEGER_CST
)
2694 TREE_STATIC (arr
) = 0;
2697 DECL_INITIAL (arr
) = build_constructor (TREE_TYPE (arr
), v
);
2698 if (!TREE_STATIC (arr
))
2699 force_gimple_operand_gsi (&gsi
, build1 (DECL_EXPR
,
2700 void_type_node
, arr
),
2701 true, NULL_TREE
, true, GSI_SAME_STMT
);
2702 t1
= build_fold_addr_expr (arr
);
2707 t2
= fold_convert (fd
->iter_type
, fd
->loop
.step
);
2710 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
2713 = omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
2714 OMP_CLAUSE__LOOPTEMP_
);
2715 gcc_assert (innerc
);
2716 t0
= OMP_CLAUSE_DECL (innerc
);
2717 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
2718 OMP_CLAUSE__LOOPTEMP_
);
2719 gcc_assert (innerc
);
2720 t1
= OMP_CLAUSE_DECL (innerc
);
2722 if (POINTER_TYPE_P (TREE_TYPE (t0
))
2723 && TYPE_PRECISION (TREE_TYPE (t0
))
2724 != TYPE_PRECISION (fd
->iter_type
))
2726 /* Avoid casting pointers to integer of a different size. */
2727 tree itype
= signed_type_for (type
);
2728 t1
= fold_convert (fd
->iter_type
, fold_convert (itype
, t1
));
2729 t0
= fold_convert (fd
->iter_type
, fold_convert (itype
, t0
));
2733 t1
= fold_convert (fd
->iter_type
, t1
);
2734 t0
= fold_convert (fd
->iter_type
, t0
);
2738 t1
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, t1
, bias
);
2739 t0
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, t0
, bias
);
2742 if (fd
->iter_type
== long_integer_type_node
|| fd
->ordered
)
2746 t
= fold_convert (fd
->iter_type
, fd
->chunk_size
);
2747 t
= omp_adjust_chunk_size (t
, fd
->simd_schedule
);
2749 t
= build_call_expr (builtin_decl_explicit (start_fn
),
2750 5, t0
, t1
, t
, t3
, t4
);
2752 t
= build_call_expr (builtin_decl_explicit (start_fn
),
2753 6, t0
, t1
, t2
, t
, t3
, t4
);
2755 else if (fd
->ordered
)
2756 t
= build_call_expr (builtin_decl_explicit (start_fn
),
2759 t
= build_call_expr (builtin_decl_explicit (start_fn
),
2760 5, t0
, t1
, t2
, t3
, t4
);
2768 /* The GOMP_loop_ull_*start functions have additional boolean
2769 argument, true for < loops and false for > loops.
2770 In Fortran, the C bool type can be different from
2771 boolean_type_node. */
2772 bfn_decl
= builtin_decl_explicit (start_fn
);
2773 c_bool_type
= TREE_TYPE (TREE_TYPE (bfn_decl
));
2774 t5
= build_int_cst (c_bool_type
,
2775 fd
->loop
.cond_code
== LT_EXPR
? 1 : 0);
2778 tree bfn_decl
= builtin_decl_explicit (start_fn
);
2779 t
= fold_convert (fd
->iter_type
, fd
->chunk_size
);
2780 t
= omp_adjust_chunk_size (t
, fd
->simd_schedule
);
2781 t
= build_call_expr (bfn_decl
, 7, t5
, t0
, t1
, t2
, t
, t3
, t4
);
2784 t
= build_call_expr (builtin_decl_explicit (start_fn
),
2785 6, t5
, t0
, t1
, t2
, t3
, t4
);
2788 if (TREE_TYPE (t
) != boolean_type_node
)
2789 t
= fold_build2 (NE_EXPR
, boolean_type_node
,
2790 t
, build_int_cst (TREE_TYPE (t
), 0));
2791 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
2792 true, GSI_SAME_STMT
);
2793 if (arr
&& !TREE_STATIC (arr
))
2795 tree clobber
= build_constructor (TREE_TYPE (arr
), NULL
);
2796 TREE_THIS_VOLATILE (clobber
) = 1;
2797 gsi_insert_before (&gsi
, gimple_build_assign (arr
, clobber
),
2800 gsi_insert_after (&gsi
, gimple_build_cond_empty (t
), GSI_SAME_STMT
);
2802 /* Remove the GIMPLE_OMP_FOR statement. */
2803 gsi_remove (&gsi
, true);
2805 if (gsi_end_p (gsif
))
2806 gsif
= gsi_after_labels (gsi_bb (gsif
));
2809 /* Iteration setup for sequential loop goes in L0_BB. */
2810 tree startvar
= fd
->loop
.v
;
2811 tree endvar
= NULL_TREE
;
2813 if (gimple_omp_for_combined_p (fd
->for_stmt
))
2815 gcc_assert (gimple_code (inner_stmt
) == GIMPLE_OMP_FOR
2816 && gimple_omp_for_kind (inner_stmt
)
2817 == GF_OMP_FOR_KIND_SIMD
);
2818 tree innerc
= omp_find_clause (gimple_omp_for_clauses (inner_stmt
),
2819 OMP_CLAUSE__LOOPTEMP_
);
2820 gcc_assert (innerc
);
2821 startvar
= OMP_CLAUSE_DECL (innerc
);
2822 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
2823 OMP_CLAUSE__LOOPTEMP_
);
2824 gcc_assert (innerc
);
2825 endvar
= OMP_CLAUSE_DECL (innerc
);
2828 gsi
= gsi_start_bb (l0_bb
);
2830 if (fd
->ordered
&& fd
->collapse
== 1)
2831 t
= fold_build2 (MULT_EXPR
, fd
->iter_type
, t
,
2832 fold_convert (fd
->iter_type
, fd
->loop
.step
));
2834 t
= fold_build2 (MINUS_EXPR
, fd
->iter_type
, t
, bias
);
2835 if (fd
->ordered
&& fd
->collapse
== 1)
2837 if (POINTER_TYPE_P (TREE_TYPE (startvar
)))
2838 t
= fold_build2 (POINTER_PLUS_EXPR
, TREE_TYPE (startvar
),
2839 fd
->loop
.n1
, fold_convert (sizetype
, t
));
2842 t
= fold_convert (TREE_TYPE (startvar
), t
);
2843 t
= fold_build2 (PLUS_EXPR
, TREE_TYPE (startvar
),
2849 if (POINTER_TYPE_P (TREE_TYPE (startvar
)))
2850 t
= fold_convert (signed_type_for (TREE_TYPE (startvar
)), t
);
2851 t
= fold_convert (TREE_TYPE (startvar
), t
);
2853 t
= force_gimple_operand_gsi (&gsi
, t
,
2855 && TREE_ADDRESSABLE (startvar
),
2856 NULL_TREE
, false, GSI_CONTINUE_LINKING
);
2857 assign_stmt
= gimple_build_assign (startvar
, t
);
2858 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
2861 if (fd
->ordered
&& fd
->collapse
== 1)
2862 t
= fold_build2 (MULT_EXPR
, fd
->iter_type
, t
,
2863 fold_convert (fd
->iter_type
, fd
->loop
.step
));
2865 t
= fold_build2 (MINUS_EXPR
, fd
->iter_type
, t
, bias
);
2866 if (fd
->ordered
&& fd
->collapse
== 1)
2868 if (POINTER_TYPE_P (TREE_TYPE (startvar
)))
2869 t
= fold_build2 (POINTER_PLUS_EXPR
, TREE_TYPE (startvar
),
2870 fd
->loop
.n1
, fold_convert (sizetype
, t
));
2873 t
= fold_convert (TREE_TYPE (startvar
), t
);
2874 t
= fold_build2 (PLUS_EXPR
, TREE_TYPE (startvar
),
2880 if (POINTER_TYPE_P (TREE_TYPE (startvar
)))
2881 t
= fold_convert (signed_type_for (TREE_TYPE (startvar
)), t
);
2882 t
= fold_convert (TREE_TYPE (startvar
), t
);
2884 iend
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
2885 false, GSI_CONTINUE_LINKING
);
2888 assign_stmt
= gimple_build_assign (endvar
, iend
);
2889 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
2890 if (useless_type_conversion_p (TREE_TYPE (fd
->loop
.v
), TREE_TYPE (iend
)))
2891 assign_stmt
= gimple_build_assign (fd
->loop
.v
, iend
);
2893 assign_stmt
= gimple_build_assign (fd
->loop
.v
, NOP_EXPR
, iend
);
2894 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
2896 /* Handle linear clause adjustments. */
2897 tree itercnt
= NULL_TREE
;
2898 if (gimple_omp_for_kind (fd
->for_stmt
) == GF_OMP_FOR_KIND_FOR
)
2899 for (tree c
= gimple_omp_for_clauses (fd
->for_stmt
);
2900 c
; c
= OMP_CLAUSE_CHAIN (c
))
2901 if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_LINEAR
2902 && !OMP_CLAUSE_LINEAR_NO_COPYIN (c
))
2904 tree d
= OMP_CLAUSE_DECL (c
);
2905 bool is_ref
= omp_is_reference (d
);
2906 tree t
= d
, a
, dest
;
2908 t
= build_simple_mem_ref_loc (OMP_CLAUSE_LOCATION (c
), t
);
2909 tree type
= TREE_TYPE (t
);
2910 if (POINTER_TYPE_P (type
))
2912 dest
= unshare_expr (t
);
2913 tree v
= create_tmp_var (TREE_TYPE (t
), NULL
);
2914 expand_omp_build_assign (&gsif
, v
, t
);
2915 if (itercnt
== NULL_TREE
)
2918 tree n1
= fd
->loop
.n1
;
2919 if (POINTER_TYPE_P (TREE_TYPE (itercnt
)))
2922 = fold_convert (signed_type_for (TREE_TYPE (itercnt
)),
2924 n1
= fold_convert (TREE_TYPE (itercnt
), n1
);
2926 itercnt
= fold_build2 (MINUS_EXPR
, TREE_TYPE (itercnt
),
2928 itercnt
= fold_build2 (EXACT_DIV_EXPR
, TREE_TYPE (itercnt
),
2929 itercnt
, fd
->loop
.step
);
2930 itercnt
= force_gimple_operand_gsi (&gsi
, itercnt
, true,
2932 GSI_CONTINUE_LINKING
);
2934 a
= fold_build2 (MULT_EXPR
, type
,
2935 fold_convert (type
, itercnt
),
2936 fold_convert (type
, OMP_CLAUSE_LINEAR_STEP (c
)));
2937 t
= fold_build2 (type
== TREE_TYPE (t
) ? PLUS_EXPR
2938 : POINTER_PLUS_EXPR
, TREE_TYPE (t
), v
, a
);
2939 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
2940 false, GSI_CONTINUE_LINKING
);
2941 assign_stmt
= gimple_build_assign (dest
, t
);
2942 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
2944 if (fd
->collapse
> 1)
2945 expand_omp_for_init_vars (fd
, &gsi
, counts
, inner_stmt
, startvar
);
2949 /* Until now, counts array contained number of iterations or
2950 variable containing it for ith loop. From now on, we need
2951 those counts only for collapsed loops, and only for the 2nd
2952 till the last collapsed one. Move those one element earlier,
2953 we'll use counts[fd->collapse - 1] for the first source/sink
2954 iteration counter and so on and counts[fd->ordered]
2955 as the array holding the current counter values for
2957 if (fd
->collapse
> 1)
2958 memmove (counts
, counts
+ 1, (fd
->collapse
- 1) * sizeof (counts
[0]));
2962 for (i
= fd
->collapse
; i
< fd
->ordered
; i
++)
2964 tree type
= TREE_TYPE (fd
->loops
[i
].v
);
2966 = fold_build2 (fd
->loops
[i
].cond_code
, boolean_type_node
,
2967 fold_convert (type
, fd
->loops
[i
].n1
),
2968 fold_convert (type
, fd
->loops
[i
].n2
));
2969 if (!integer_onep (this_cond
))
2972 if (i
< fd
->ordered
)
2975 = create_empty_bb (EXIT_BLOCK_PTR_FOR_FN (cfun
)->prev_bb
);
2976 add_bb_to_loop (cont_bb
, l1_bb
->loop_father
);
2977 gimple_stmt_iterator gsi
= gsi_after_labels (cont_bb
);
2978 gimple
*g
= gimple_build_omp_continue (fd
->loop
.v
, fd
->loop
.v
);
2979 gsi_insert_before (&gsi
, g
, GSI_SAME_STMT
);
2980 make_edge (cont_bb
, l3_bb
, EDGE_FALLTHRU
);
2981 make_edge (cont_bb
, l1_bb
, 0);
2982 l2_bb
= create_empty_bb (cont_bb
);
2983 broken_loop
= false;
2986 expand_omp_ordered_source_sink (region
, fd
, counts
, cont_bb
);
2987 cont_bb
= expand_omp_for_ordered_loops (fd
, counts
, cont_bb
, l1_bb
,
2988 ordered_lastprivate
);
2989 if (counts
[fd
->collapse
- 1])
2991 gcc_assert (fd
->collapse
== 1);
2992 gsi
= gsi_last_bb (l0_bb
);
2993 expand_omp_build_assign (&gsi
, counts
[fd
->collapse
- 1],
2995 gsi
= gsi_last_bb (cont_bb
);
2996 t
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, counts
[fd
->collapse
- 1],
2997 build_int_cst (fd
->iter_type
, 1));
2998 expand_omp_build_assign (&gsi
, counts
[fd
->collapse
- 1], t
);
2999 tree aref
= build4 (ARRAY_REF
, fd
->iter_type
, counts
[fd
->ordered
],
3000 size_zero_node
, NULL_TREE
, NULL_TREE
);
3001 expand_omp_build_assign (&gsi
, aref
, counts
[fd
->collapse
- 1]);
3002 t
= counts
[fd
->collapse
- 1];
3004 else if (fd
->collapse
> 1)
3008 t
= fold_build2 (MINUS_EXPR
, TREE_TYPE (fd
->loops
[0].v
),
3009 fd
->loops
[0].v
, fd
->loops
[0].n1
);
3010 t
= fold_convert (fd
->iter_type
, t
);
3012 gsi
= gsi_last_bb (l0_bb
);
3013 tree aref
= build4 (ARRAY_REF
, fd
->iter_type
, counts
[fd
->ordered
],
3014 size_zero_node
, NULL_TREE
, NULL_TREE
);
3015 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3016 false, GSI_CONTINUE_LINKING
);
3017 expand_omp_build_assign (&gsi
, aref
, t
, true);
3022 /* Code to control the increment and predicate for the sequential
3023 loop goes in the CONT_BB. */
3024 gsi
= gsi_last_bb (cont_bb
);
3025 gomp_continue
*cont_stmt
= as_a
<gomp_continue
*> (gsi_stmt (gsi
));
3026 gcc_assert (gimple_code (cont_stmt
) == GIMPLE_OMP_CONTINUE
);
3027 vmain
= gimple_omp_continue_control_use (cont_stmt
);
3028 vback
= gimple_omp_continue_control_def (cont_stmt
);
3030 if (!gimple_omp_for_combined_p (fd
->for_stmt
))
3032 if (POINTER_TYPE_P (type
))
3033 t
= fold_build_pointer_plus (vmain
, fd
->loop
.step
);
3035 t
= fold_build2 (PLUS_EXPR
, type
, vmain
, fd
->loop
.step
);
3036 t
= force_gimple_operand_gsi (&gsi
, t
,
3038 && TREE_ADDRESSABLE (vback
),
3039 NULL_TREE
, true, GSI_SAME_STMT
);
3040 assign_stmt
= gimple_build_assign (vback
, t
);
3041 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
3043 if (fd
->ordered
&& counts
[fd
->collapse
- 1] == NULL_TREE
)
3045 if (fd
->collapse
> 1)
3049 t
= fold_build2 (MINUS_EXPR
, TREE_TYPE (fd
->loops
[0].v
),
3050 fd
->loops
[0].v
, fd
->loops
[0].n1
);
3051 t
= fold_convert (fd
->iter_type
, t
);
3053 tree aref
= build4 (ARRAY_REF
, fd
->iter_type
,
3054 counts
[fd
->ordered
], size_zero_node
,
3055 NULL_TREE
, NULL_TREE
);
3056 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3057 true, GSI_SAME_STMT
);
3058 expand_omp_build_assign (&gsi
, aref
, t
);
3061 t
= build2 (fd
->loop
.cond_code
, boolean_type_node
,
3062 DECL_P (vback
) && TREE_ADDRESSABLE (vback
) ? t
: vback
,
3064 gcond
*cond_stmt
= gimple_build_cond_empty (t
);
3065 gsi_insert_before (&gsi
, cond_stmt
, GSI_SAME_STMT
);
3068 /* Remove GIMPLE_OMP_CONTINUE. */
3069 gsi_remove (&gsi
, true);
3071 if (fd
->collapse
> 1 && !gimple_omp_for_combined_p (fd
->for_stmt
))
3072 collapse_bb
= extract_omp_for_update_vars (fd
, cont_bb
, l1_bb
);
3074 /* Emit code to get the next parallel iteration in L2_BB. */
3075 gsi
= gsi_start_bb (l2_bb
);
3077 t
= build_call_expr (builtin_decl_explicit (next_fn
), 2,
3078 build_fold_addr_expr (istart0
),
3079 build_fold_addr_expr (iend0
));
3080 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3081 false, GSI_CONTINUE_LINKING
);
3082 if (TREE_TYPE (t
) != boolean_type_node
)
3083 t
= fold_build2 (NE_EXPR
, boolean_type_node
,
3084 t
, build_int_cst (TREE_TYPE (t
), 0));
3085 gcond
*cond_stmt
= gimple_build_cond_empty (t
);
3086 gsi_insert_after (&gsi
, cond_stmt
, GSI_CONTINUE_LINKING
);
3089 /* Add the loop cleanup function. */
3090 gsi
= gsi_last_bb (exit_bb
);
3091 if (gimple_omp_return_nowait_p (gsi_stmt (gsi
)))
3092 t
= builtin_decl_explicit (BUILT_IN_GOMP_LOOP_END_NOWAIT
);
3093 else if (gimple_omp_return_lhs (gsi_stmt (gsi
)))
3094 t
= builtin_decl_explicit (BUILT_IN_GOMP_LOOP_END_CANCEL
);
3096 t
= builtin_decl_explicit (BUILT_IN_GOMP_LOOP_END
);
3097 gcall
*call_stmt
= gimple_build_call (t
, 0);
3098 if (gimple_omp_return_lhs (gsi_stmt (gsi
)))
3099 gimple_call_set_lhs (call_stmt
, gimple_omp_return_lhs (gsi_stmt (gsi
)));
3100 gsi_insert_after (&gsi
, call_stmt
, GSI_SAME_STMT
);
3103 tree arr
= counts
[fd
->ordered
];
3104 tree clobber
= build_constructor (TREE_TYPE (arr
), NULL
);
3105 TREE_THIS_VOLATILE (clobber
) = 1;
3106 gsi_insert_after (&gsi
, gimple_build_assign (arr
, clobber
),
3109 gsi_remove (&gsi
, true);
3111 /* Connect the new blocks. */
3112 find_edge (entry_bb
, l0_bb
)->flags
= EDGE_TRUE_VALUE
;
3113 find_edge (entry_bb
, l3_bb
)->flags
= EDGE_FALSE_VALUE
;
3119 e
= find_edge (cont_bb
, l3_bb
);
3120 ne
= make_edge (l2_bb
, l3_bb
, EDGE_FALSE_VALUE
);
3122 phis
= phi_nodes (l3_bb
);
3123 for (gsi
= gsi_start (phis
); !gsi_end_p (gsi
); gsi_next (&gsi
))
3125 gimple
*phi
= gsi_stmt (gsi
);
3126 SET_USE (PHI_ARG_DEF_PTR_FROM_EDGE (phi
, ne
),
3127 PHI_ARG_DEF_FROM_EDGE (phi
, e
));
3131 make_edge (cont_bb
, l2_bb
, EDGE_FALSE_VALUE
);
3132 e
= find_edge (cont_bb
, l1_bb
);
3135 e
= BRANCH_EDGE (cont_bb
);
3136 gcc_assert (single_succ (e
->dest
) == l1_bb
);
3138 if (gimple_omp_for_combined_p (fd
->for_stmt
))
3143 else if (fd
->collapse
> 1)
3146 e
= make_edge (cont_bb
, collapse_bb
, EDGE_TRUE_VALUE
);
3149 e
->flags
= EDGE_TRUE_VALUE
;
3152 e
->probability
= REG_BR_PROB_BASE
* 7 / 8;
3153 find_edge (cont_bb
, l2_bb
)->probability
= REG_BR_PROB_BASE
/ 8;
3157 e
= find_edge (cont_bb
, l2_bb
);
3158 e
->flags
= EDGE_FALLTHRU
;
3160 make_edge (l2_bb
, l0_bb
, EDGE_TRUE_VALUE
);
3162 if (gimple_in_ssa_p (cfun
))
3164 /* Add phis to the outer loop that connect to the phis in the inner,
3165 original loop, and move the loop entry value of the inner phi to
3166 the loop entry value of the outer phi. */
3168 for (psi
= gsi_start_phis (l3_bb
); !gsi_end_p (psi
); gsi_next (&psi
))
3170 source_location locus
;
3172 gphi
*exit_phi
= psi
.phi ();
3174 edge l2_to_l3
= find_edge (l2_bb
, l3_bb
);
3175 tree exit_res
= PHI_ARG_DEF_FROM_EDGE (exit_phi
, l2_to_l3
);
3177 basic_block latch
= BRANCH_EDGE (cont_bb
)->dest
;
3178 edge latch_to_l1
= find_edge (latch
, l1_bb
);
3180 = find_phi_with_arg_on_edge (exit_res
, latch_to_l1
);
3182 tree t
= gimple_phi_result (exit_phi
);
3183 tree new_res
= copy_ssa_name (t
, NULL
);
3184 nphi
= create_phi_node (new_res
, l0_bb
);
3186 edge l0_to_l1
= find_edge (l0_bb
, l1_bb
);
3187 t
= PHI_ARG_DEF_FROM_EDGE (inner_phi
, l0_to_l1
);
3188 locus
= gimple_phi_arg_location_from_edge (inner_phi
, l0_to_l1
);
3189 edge entry_to_l0
= find_edge (entry_bb
, l0_bb
);
3190 add_phi_arg (nphi
, t
, entry_to_l0
, locus
);
3192 edge l2_to_l0
= find_edge (l2_bb
, l0_bb
);
3193 add_phi_arg (nphi
, exit_res
, l2_to_l0
, UNKNOWN_LOCATION
);
3195 add_phi_arg (inner_phi
, new_res
, l0_to_l1
, UNKNOWN_LOCATION
);
3199 set_immediate_dominator (CDI_DOMINATORS
, l2_bb
,
3200 recompute_dominator (CDI_DOMINATORS
, l2_bb
));
3201 set_immediate_dominator (CDI_DOMINATORS
, l3_bb
,
3202 recompute_dominator (CDI_DOMINATORS
, l3_bb
));
3203 set_immediate_dominator (CDI_DOMINATORS
, l0_bb
,
3204 recompute_dominator (CDI_DOMINATORS
, l0_bb
));
3205 set_immediate_dominator (CDI_DOMINATORS
, l1_bb
,
3206 recompute_dominator (CDI_DOMINATORS
, l1_bb
));
3208 /* We enter expand_omp_for_generic with a loop. This original loop may
3209 have its own loop struct, or it may be part of an outer loop struct
3210 (which may be the fake loop). */
3211 struct loop
*outer_loop
= entry_bb
->loop_father
;
3212 bool orig_loop_has_loop_struct
= l1_bb
->loop_father
!= outer_loop
;
3214 add_bb_to_loop (l2_bb
, outer_loop
);
3216 /* We've added a new loop around the original loop. Allocate the
3217 corresponding loop struct. */
3218 struct loop
*new_loop
= alloc_loop ();
3219 new_loop
->header
= l0_bb
;
3220 new_loop
->latch
= l2_bb
;
3221 add_loop (new_loop
, outer_loop
);
3223 /* Allocate a loop structure for the original loop unless we already
3225 if (!orig_loop_has_loop_struct
3226 && !gimple_omp_for_combined_p (fd
->for_stmt
))
3228 struct loop
*orig_loop
= alloc_loop ();
3229 orig_loop
->header
= l1_bb
;
3230 /* The loop may have multiple latches. */
3231 add_loop (orig_loop
, new_loop
);
3236 /* A subroutine of expand_omp_for. Generate code for a parallel
3237 loop with static schedule and no specified chunk size. Given
3240 for (V = N1; V cond N2; V += STEP) BODY;
3242 where COND is "<" or ">", we generate pseudocode
3244 if ((__typeof (V)) -1 > 0 && N2 cond N1) goto L2;
3249 if ((__typeof (V)) -1 > 0 && cond is >)
3250 n = -(adj + N2 - N1) / -STEP;
3252 n = (adj + N2 - N1) / STEP;
3255 if (threadid < tt) goto L3; else goto L4;
3260 s0 = q * threadid + tt;
3263 if (s0 >= e0) goto L2; else goto L0;
3269 if (V cond e) goto L1;
3274 expand_omp_for_static_nochunk (struct omp_region
*region
,
3275 struct omp_for_data
*fd
,
3278 tree n
, q
, s0
, e0
, e
, t
, tt
, nthreads
, threadid
;
3279 tree type
, itype
, vmain
, vback
;
3280 basic_block entry_bb
, second_bb
, third_bb
, exit_bb
, seq_start_bb
;
3281 basic_block body_bb
, cont_bb
, collapse_bb
= NULL
;
3283 gimple_stmt_iterator gsi
;
3285 bool broken_loop
= region
->cont
== NULL
;
3286 tree
*counts
= NULL
;
3289 itype
= type
= TREE_TYPE (fd
->loop
.v
);
3290 if (POINTER_TYPE_P (type
))
3291 itype
= signed_type_for (type
);
3293 entry_bb
= region
->entry
;
3294 cont_bb
= region
->cont
;
3295 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2);
3296 fin_bb
= BRANCH_EDGE (entry_bb
)->dest
;
3297 gcc_assert (broken_loop
3298 || (fin_bb
== FALLTHRU_EDGE (cont_bb
)->dest
));
3299 seq_start_bb
= split_edge (FALLTHRU_EDGE (entry_bb
));
3300 body_bb
= single_succ (seq_start_bb
);
3303 gcc_assert (BRANCH_EDGE (cont_bb
)->dest
== body_bb
3304 || single_succ (BRANCH_EDGE (cont_bb
)->dest
) == body_bb
);
3305 gcc_assert (EDGE_COUNT (cont_bb
->succs
) == 2);
3307 exit_bb
= region
->exit
;
3309 /* Iteration space partitioning goes in ENTRY_BB. */
3310 gsi
= gsi_last_bb (entry_bb
);
3311 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
3313 if (fd
->collapse
> 1)
3315 int first_zero_iter
= -1, dummy
= -1;
3316 basic_block l2_dom_bb
= NULL
, dummy_bb
= NULL
;
3318 counts
= XALLOCAVEC (tree
, fd
->collapse
);
3319 expand_omp_for_init_counts (fd
, &gsi
, entry_bb
, counts
,
3320 fin_bb
, first_zero_iter
,
3321 dummy_bb
, dummy
, l2_dom_bb
);
3324 else if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
3325 t
= integer_one_node
;
3327 t
= fold_binary (fd
->loop
.cond_code
, boolean_type_node
,
3328 fold_convert (type
, fd
->loop
.n1
),
3329 fold_convert (type
, fd
->loop
.n2
));
3330 if (fd
->collapse
== 1
3331 && TYPE_UNSIGNED (type
)
3332 && (t
== NULL_TREE
|| !integer_onep (t
)))
3334 n1
= fold_convert (type
, unshare_expr (fd
->loop
.n1
));
3335 n1
= force_gimple_operand_gsi (&gsi
, n1
, true, NULL_TREE
,
3336 true, GSI_SAME_STMT
);
3337 n2
= fold_convert (type
, unshare_expr (fd
->loop
.n2
));
3338 n2
= force_gimple_operand_gsi (&gsi
, n2
, true, NULL_TREE
,
3339 true, GSI_SAME_STMT
);
3340 gcond
*cond_stmt
= gimple_build_cond (fd
->loop
.cond_code
, n1
, n2
,
3341 NULL_TREE
, NULL_TREE
);
3342 gsi_insert_before (&gsi
, cond_stmt
, GSI_SAME_STMT
);
3343 if (walk_tree (gimple_cond_lhs_ptr (cond_stmt
),
3344 expand_omp_regimplify_p
, NULL
, NULL
)
3345 || walk_tree (gimple_cond_rhs_ptr (cond_stmt
),
3346 expand_omp_regimplify_p
, NULL
, NULL
))
3348 gsi
= gsi_for_stmt (cond_stmt
);
3349 gimple_regimplify_operands (cond_stmt
, &gsi
);
3351 ep
= split_block (entry_bb
, cond_stmt
);
3352 ep
->flags
= EDGE_TRUE_VALUE
;
3353 entry_bb
= ep
->dest
;
3354 ep
->probability
= REG_BR_PROB_BASE
- (REG_BR_PROB_BASE
/ 2000 - 1);
3355 ep
= make_edge (ep
->src
, fin_bb
, EDGE_FALSE_VALUE
);
3356 ep
->probability
= REG_BR_PROB_BASE
/ 2000 - 1;
3357 if (gimple_in_ssa_p (cfun
))
3359 int dest_idx
= find_edge (entry_bb
, fin_bb
)->dest_idx
;
3360 for (gphi_iterator gpi
= gsi_start_phis (fin_bb
);
3361 !gsi_end_p (gpi
); gsi_next (&gpi
))
3363 gphi
*phi
= gpi
.phi ();
3364 add_phi_arg (phi
, gimple_phi_arg_def (phi
, dest_idx
),
3365 ep
, UNKNOWN_LOCATION
);
3368 gsi
= gsi_last_bb (entry_bb
);
3371 switch (gimple_omp_for_kind (fd
->for_stmt
))
3373 case GF_OMP_FOR_KIND_FOR
:
3374 nthreads
= builtin_decl_explicit (BUILT_IN_OMP_GET_NUM_THREADS
);
3375 threadid
= builtin_decl_explicit (BUILT_IN_OMP_GET_THREAD_NUM
);
3377 case GF_OMP_FOR_KIND_DISTRIBUTE
:
3378 nthreads
= builtin_decl_explicit (BUILT_IN_OMP_GET_NUM_TEAMS
);
3379 threadid
= builtin_decl_explicit (BUILT_IN_OMP_GET_TEAM_NUM
);
3384 nthreads
= build_call_expr (nthreads
, 0);
3385 nthreads
= fold_convert (itype
, nthreads
);
3386 nthreads
= force_gimple_operand_gsi (&gsi
, nthreads
, true, NULL_TREE
,
3387 true, GSI_SAME_STMT
);
3388 threadid
= build_call_expr (threadid
, 0);
3389 threadid
= fold_convert (itype
, threadid
);
3390 threadid
= force_gimple_operand_gsi (&gsi
, threadid
, true, NULL_TREE
,
3391 true, GSI_SAME_STMT
);
3395 step
= fd
->loop
.step
;
3396 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
3398 tree innerc
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
3399 OMP_CLAUSE__LOOPTEMP_
);
3400 gcc_assert (innerc
);
3401 n1
= OMP_CLAUSE_DECL (innerc
);
3402 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3403 OMP_CLAUSE__LOOPTEMP_
);
3404 gcc_assert (innerc
);
3405 n2
= OMP_CLAUSE_DECL (innerc
);
3407 n1
= force_gimple_operand_gsi (&gsi
, fold_convert (type
, n1
),
3408 true, NULL_TREE
, true, GSI_SAME_STMT
);
3409 n2
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, n2
),
3410 true, NULL_TREE
, true, GSI_SAME_STMT
);
3411 step
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, step
),
3412 true, NULL_TREE
, true, GSI_SAME_STMT
);
3414 t
= build_int_cst (itype
, (fd
->loop
.cond_code
== LT_EXPR
? -1 : 1));
3415 t
= fold_build2 (PLUS_EXPR
, itype
, step
, t
);
3416 t
= fold_build2 (PLUS_EXPR
, itype
, t
, n2
);
3417 t
= fold_build2 (MINUS_EXPR
, itype
, t
, fold_convert (itype
, n1
));
3418 if (TYPE_UNSIGNED (itype
) && fd
->loop
.cond_code
== GT_EXPR
)
3419 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
,
3420 fold_build1 (NEGATE_EXPR
, itype
, t
),
3421 fold_build1 (NEGATE_EXPR
, itype
, step
));
3423 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
, t
, step
);
3424 t
= fold_convert (itype
, t
);
3425 n
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
, true, GSI_SAME_STMT
);
3427 q
= create_tmp_reg (itype
, "q");
3428 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
, n
, nthreads
);
3429 t
= force_gimple_operand_gsi (&gsi
, t
, false, NULL_TREE
, true, GSI_SAME_STMT
);
3430 gsi_insert_before (&gsi
, gimple_build_assign (q
, t
), GSI_SAME_STMT
);
3432 tt
= create_tmp_reg (itype
, "tt");
3433 t
= fold_build2 (TRUNC_MOD_EXPR
, itype
, n
, nthreads
);
3434 t
= force_gimple_operand_gsi (&gsi
, t
, false, NULL_TREE
, true, GSI_SAME_STMT
);
3435 gsi_insert_before (&gsi
, gimple_build_assign (tt
, t
), GSI_SAME_STMT
);
3437 t
= build2 (LT_EXPR
, boolean_type_node
, threadid
, tt
);
3438 gcond
*cond_stmt
= gimple_build_cond_empty (t
);
3439 gsi_insert_before (&gsi
, cond_stmt
, GSI_SAME_STMT
);
3441 second_bb
= split_block (entry_bb
, cond_stmt
)->dest
;
3442 gsi
= gsi_last_bb (second_bb
);
3443 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
3445 gsi_insert_before (&gsi
, gimple_build_assign (tt
, build_int_cst (itype
, 0)),
3447 gassign
*assign_stmt
3448 = gimple_build_assign (q
, PLUS_EXPR
, q
, build_int_cst (itype
, 1));
3449 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
3451 third_bb
= split_block (second_bb
, assign_stmt
)->dest
;
3452 gsi
= gsi_last_bb (third_bb
);
3453 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
3455 t
= build2 (MULT_EXPR
, itype
, q
, threadid
);
3456 t
= build2 (PLUS_EXPR
, itype
, t
, tt
);
3457 s0
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
, true, GSI_SAME_STMT
);
3459 t
= fold_build2 (PLUS_EXPR
, itype
, s0
, q
);
3460 e0
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
, true, GSI_SAME_STMT
);
3462 t
= build2 (GE_EXPR
, boolean_type_node
, s0
, e0
);
3463 gsi_insert_before (&gsi
, gimple_build_cond_empty (t
), GSI_SAME_STMT
);
3465 /* Remove the GIMPLE_OMP_FOR statement. */
3466 gsi_remove (&gsi
, true);
3468 /* Setup code for sequential iteration goes in SEQ_START_BB. */
3469 gsi
= gsi_start_bb (seq_start_bb
);
3471 tree startvar
= fd
->loop
.v
;
3472 tree endvar
= NULL_TREE
;
3474 if (gimple_omp_for_combined_p (fd
->for_stmt
))
3476 tree clauses
= gimple_code (inner_stmt
) == GIMPLE_OMP_PARALLEL
3477 ? gimple_omp_parallel_clauses (inner_stmt
)
3478 : gimple_omp_for_clauses (inner_stmt
);
3479 tree innerc
= omp_find_clause (clauses
, OMP_CLAUSE__LOOPTEMP_
);
3480 gcc_assert (innerc
);
3481 startvar
= OMP_CLAUSE_DECL (innerc
);
3482 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3483 OMP_CLAUSE__LOOPTEMP_
);
3484 gcc_assert (innerc
);
3485 endvar
= OMP_CLAUSE_DECL (innerc
);
3486 if (fd
->collapse
> 1 && TREE_CODE (fd
->loop
.n2
) != INTEGER_CST
3487 && gimple_omp_for_kind (fd
->for_stmt
) == GF_OMP_FOR_KIND_DISTRIBUTE
)
3490 for (i
= 1; i
< fd
->collapse
; i
++)
3492 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3493 OMP_CLAUSE__LOOPTEMP_
);
3494 gcc_assert (innerc
);
3496 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3497 OMP_CLAUSE__LOOPTEMP_
);
3500 /* If needed (distribute parallel for with lastprivate),
3501 propagate down the total number of iterations. */
3502 tree t
= fold_convert (TREE_TYPE (OMP_CLAUSE_DECL (innerc
)),
3504 t
= force_gimple_operand_gsi (&gsi
, t
, false, NULL_TREE
, false,
3505 GSI_CONTINUE_LINKING
);
3506 assign_stmt
= gimple_build_assign (OMP_CLAUSE_DECL (innerc
), t
);
3507 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
3511 t
= fold_convert (itype
, s0
);
3512 t
= fold_build2 (MULT_EXPR
, itype
, t
, step
);
3513 if (POINTER_TYPE_P (type
))
3514 t
= fold_build_pointer_plus (n1
, t
);
3516 t
= fold_build2 (PLUS_EXPR
, type
, t
, n1
);
3517 t
= fold_convert (TREE_TYPE (startvar
), t
);
3518 t
= force_gimple_operand_gsi (&gsi
, t
,
3520 && TREE_ADDRESSABLE (startvar
),
3521 NULL_TREE
, false, GSI_CONTINUE_LINKING
);
3522 assign_stmt
= gimple_build_assign (startvar
, t
);
3523 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
3525 t
= fold_convert (itype
, e0
);
3526 t
= fold_build2 (MULT_EXPR
, itype
, t
, step
);
3527 if (POINTER_TYPE_P (type
))
3528 t
= fold_build_pointer_plus (n1
, t
);
3530 t
= fold_build2 (PLUS_EXPR
, type
, t
, n1
);
3531 t
= fold_convert (TREE_TYPE (startvar
), t
);
3532 e
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3533 false, GSI_CONTINUE_LINKING
);
3536 assign_stmt
= gimple_build_assign (endvar
, e
);
3537 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
3538 if (useless_type_conversion_p (TREE_TYPE (fd
->loop
.v
), TREE_TYPE (e
)))
3539 assign_stmt
= gimple_build_assign (fd
->loop
.v
, e
);
3541 assign_stmt
= gimple_build_assign (fd
->loop
.v
, NOP_EXPR
, e
);
3542 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
3544 /* Handle linear clause adjustments. */
3545 tree itercnt
= NULL_TREE
;
3546 if (gimple_omp_for_kind (fd
->for_stmt
) == GF_OMP_FOR_KIND_FOR
)
3547 for (tree c
= gimple_omp_for_clauses (fd
->for_stmt
);
3548 c
; c
= OMP_CLAUSE_CHAIN (c
))
3549 if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_LINEAR
3550 && !OMP_CLAUSE_LINEAR_NO_COPYIN (c
))
3552 tree d
= OMP_CLAUSE_DECL (c
);
3553 bool is_ref
= omp_is_reference (d
);
3554 tree t
= d
, a
, dest
;
3556 t
= build_simple_mem_ref_loc (OMP_CLAUSE_LOCATION (c
), t
);
3557 if (itercnt
== NULL_TREE
)
3559 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
3561 itercnt
= fold_build2 (MINUS_EXPR
, itype
,
3562 fold_convert (itype
, n1
),
3563 fold_convert (itype
, fd
->loop
.n1
));
3564 itercnt
= fold_build2 (EXACT_DIV_EXPR
, itype
, itercnt
, step
);
3565 itercnt
= fold_build2 (PLUS_EXPR
, itype
, itercnt
, s0
);
3566 itercnt
= force_gimple_operand_gsi (&gsi
, itercnt
, true,
3568 GSI_CONTINUE_LINKING
);
3573 tree type
= TREE_TYPE (t
);
3574 if (POINTER_TYPE_P (type
))
3576 a
= fold_build2 (MULT_EXPR
, type
,
3577 fold_convert (type
, itercnt
),
3578 fold_convert (type
, OMP_CLAUSE_LINEAR_STEP (c
)));
3579 dest
= unshare_expr (t
);
3580 t
= fold_build2 (type
== TREE_TYPE (t
) ? PLUS_EXPR
3581 : POINTER_PLUS_EXPR
, TREE_TYPE (t
), t
, a
);
3582 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3583 false, GSI_CONTINUE_LINKING
);
3584 assign_stmt
= gimple_build_assign (dest
, t
);
3585 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
3587 if (fd
->collapse
> 1)
3588 expand_omp_for_init_vars (fd
, &gsi
, counts
, inner_stmt
, startvar
);
3592 /* The code controlling the sequential loop replaces the
3593 GIMPLE_OMP_CONTINUE. */
3594 gsi
= gsi_last_bb (cont_bb
);
3595 gomp_continue
*cont_stmt
= as_a
<gomp_continue
*> (gsi_stmt (gsi
));
3596 gcc_assert (gimple_code (cont_stmt
) == GIMPLE_OMP_CONTINUE
);
3597 vmain
= gimple_omp_continue_control_use (cont_stmt
);
3598 vback
= gimple_omp_continue_control_def (cont_stmt
);
3600 if (!gimple_omp_for_combined_p (fd
->for_stmt
))
3602 if (POINTER_TYPE_P (type
))
3603 t
= fold_build_pointer_plus (vmain
, step
);
3605 t
= fold_build2 (PLUS_EXPR
, type
, vmain
, step
);
3606 t
= force_gimple_operand_gsi (&gsi
, t
,
3608 && TREE_ADDRESSABLE (vback
),
3609 NULL_TREE
, true, GSI_SAME_STMT
);
3610 assign_stmt
= gimple_build_assign (vback
, t
);
3611 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
3613 t
= build2 (fd
->loop
.cond_code
, boolean_type_node
,
3614 DECL_P (vback
) && TREE_ADDRESSABLE (vback
)
3616 gsi_insert_before (&gsi
, gimple_build_cond_empty (t
), GSI_SAME_STMT
);
3619 /* Remove the GIMPLE_OMP_CONTINUE statement. */
3620 gsi_remove (&gsi
, true);
3622 if (fd
->collapse
> 1 && !gimple_omp_for_combined_p (fd
->for_stmt
))
3623 collapse_bb
= extract_omp_for_update_vars (fd
, cont_bb
, body_bb
);
3626 /* Replace the GIMPLE_OMP_RETURN with a barrier, or nothing. */
3627 gsi
= gsi_last_bb (exit_bb
);
3628 if (!gimple_omp_return_nowait_p (gsi_stmt (gsi
)))
3630 t
= gimple_omp_return_lhs (gsi_stmt (gsi
));
3631 gsi_insert_after (&gsi
, omp_build_barrier (t
), GSI_SAME_STMT
);
3633 gsi_remove (&gsi
, true);
3635 /* Connect all the blocks. */
3636 ep
= make_edge (entry_bb
, third_bb
, EDGE_FALSE_VALUE
);
3637 ep
->probability
= REG_BR_PROB_BASE
/ 4 * 3;
3638 ep
= find_edge (entry_bb
, second_bb
);
3639 ep
->flags
= EDGE_TRUE_VALUE
;
3640 ep
->probability
= REG_BR_PROB_BASE
/ 4;
3641 find_edge (third_bb
, seq_start_bb
)->flags
= EDGE_FALSE_VALUE
;
3642 find_edge (third_bb
, fin_bb
)->flags
= EDGE_TRUE_VALUE
;
3646 ep
= find_edge (cont_bb
, body_bb
);
3649 ep
= BRANCH_EDGE (cont_bb
);
3650 gcc_assert (single_succ (ep
->dest
) == body_bb
);
3652 if (gimple_omp_for_combined_p (fd
->for_stmt
))
3657 else if (fd
->collapse
> 1)
3660 ep
= make_edge (cont_bb
, collapse_bb
, EDGE_TRUE_VALUE
);
3663 ep
->flags
= EDGE_TRUE_VALUE
;
3664 find_edge (cont_bb
, fin_bb
)->flags
3665 = ep
? EDGE_FALSE_VALUE
: EDGE_FALLTHRU
;
3668 set_immediate_dominator (CDI_DOMINATORS
, second_bb
, entry_bb
);
3669 set_immediate_dominator (CDI_DOMINATORS
, third_bb
, entry_bb
);
3670 set_immediate_dominator (CDI_DOMINATORS
, seq_start_bb
, third_bb
);
3672 set_immediate_dominator (CDI_DOMINATORS
, body_bb
,
3673 recompute_dominator (CDI_DOMINATORS
, body_bb
));
3674 set_immediate_dominator (CDI_DOMINATORS
, fin_bb
,
3675 recompute_dominator (CDI_DOMINATORS
, fin_bb
));
3677 struct loop
*loop
= body_bb
->loop_father
;
3678 if (loop
!= entry_bb
->loop_father
)
3680 gcc_assert (broken_loop
|| loop
->header
== body_bb
);
3681 gcc_assert (broken_loop
3682 || loop
->latch
== region
->cont
3683 || single_pred (loop
->latch
) == region
->cont
);
3687 if (!broken_loop
&& !gimple_omp_for_combined_p (fd
->for_stmt
))
3689 loop
= alloc_loop ();
3690 loop
->header
= body_bb
;
3691 if (collapse_bb
== NULL
)
3692 loop
->latch
= cont_bb
;
3693 add_loop (loop
, body_bb
->loop_father
);
3697 /* Return phi in E->DEST with ARG on edge E. */
3700 find_phi_with_arg_on_edge (tree arg
, edge e
)
3702 basic_block bb
= e
->dest
;
3704 for (gphi_iterator gpi
= gsi_start_phis (bb
);
3708 gphi
*phi
= gpi
.phi ();
3709 if (PHI_ARG_DEF_FROM_EDGE (phi
, e
) == arg
)
3716 /* A subroutine of expand_omp_for. Generate code for a parallel
3717 loop with static schedule and a specified chunk size. Given
3720 for (V = N1; V cond N2; V += STEP) BODY;
3722 where COND is "<" or ">", we generate pseudocode
3724 if ((__typeof (V)) -1 > 0 && N2 cond N1) goto L2;
3729 if ((__typeof (V)) -1 > 0 && cond is >)
3730 n = -(adj + N2 - N1) / -STEP;
3732 n = (adj + N2 - N1) / STEP;
3734 V = threadid * CHUNK * STEP + N1; -- this extra definition of V is
3735 here so that V is defined
3736 if the loop is not entered
3738 s0 = (trip * nthreads + threadid) * CHUNK;
3739 e0 = min (s0 + CHUNK, n);
3740 if (s0 < n) goto L1; else goto L4;
3747 if (V cond e) goto L2; else goto L3;
3755 expand_omp_for_static_chunk (struct omp_region
*region
,
3756 struct omp_for_data
*fd
, gimple
*inner_stmt
)
3758 tree n
, s0
, e0
, e
, t
;
3759 tree trip_var
, trip_init
, trip_main
, trip_back
, nthreads
, threadid
;
3760 tree type
, itype
, vmain
, vback
, vextra
;
3761 basic_block entry_bb
, exit_bb
, body_bb
, seq_start_bb
, iter_part_bb
;
3762 basic_block trip_update_bb
= NULL
, cont_bb
, collapse_bb
= NULL
, fin_bb
;
3763 gimple_stmt_iterator gsi
;
3765 bool broken_loop
= region
->cont
== NULL
;
3766 tree
*counts
= NULL
;
3769 itype
= type
= TREE_TYPE (fd
->loop
.v
);
3770 if (POINTER_TYPE_P (type
))
3771 itype
= signed_type_for (type
);
3773 entry_bb
= region
->entry
;
3774 se
= split_block (entry_bb
, last_stmt (entry_bb
));
3776 iter_part_bb
= se
->dest
;
3777 cont_bb
= region
->cont
;
3778 gcc_assert (EDGE_COUNT (iter_part_bb
->succs
) == 2);
3779 fin_bb
= BRANCH_EDGE (iter_part_bb
)->dest
;
3780 gcc_assert (broken_loop
3781 || fin_bb
== FALLTHRU_EDGE (cont_bb
)->dest
);
3782 seq_start_bb
= split_edge (FALLTHRU_EDGE (iter_part_bb
));
3783 body_bb
= single_succ (seq_start_bb
);
3786 gcc_assert (BRANCH_EDGE (cont_bb
)->dest
== body_bb
3787 || single_succ (BRANCH_EDGE (cont_bb
)->dest
) == body_bb
);
3788 gcc_assert (EDGE_COUNT (cont_bb
->succs
) == 2);
3789 trip_update_bb
= split_edge (FALLTHRU_EDGE (cont_bb
));
3791 exit_bb
= region
->exit
;
3793 /* Trip and adjustment setup goes in ENTRY_BB. */
3794 gsi
= gsi_last_bb (entry_bb
);
3795 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
3797 if (fd
->collapse
> 1)
3799 int first_zero_iter
= -1, dummy
= -1;
3800 basic_block l2_dom_bb
= NULL
, dummy_bb
= NULL
;
3802 counts
= XALLOCAVEC (tree
, fd
->collapse
);
3803 expand_omp_for_init_counts (fd
, &gsi
, entry_bb
, counts
,
3804 fin_bb
, first_zero_iter
,
3805 dummy_bb
, dummy
, l2_dom_bb
);
3808 else if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
3809 t
= integer_one_node
;
3811 t
= fold_binary (fd
->loop
.cond_code
, boolean_type_node
,
3812 fold_convert (type
, fd
->loop
.n1
),
3813 fold_convert (type
, fd
->loop
.n2
));
3814 if (fd
->collapse
== 1
3815 && TYPE_UNSIGNED (type
)
3816 && (t
== NULL_TREE
|| !integer_onep (t
)))
3818 n1
= fold_convert (type
, unshare_expr (fd
->loop
.n1
));
3819 n1
= force_gimple_operand_gsi (&gsi
, n1
, true, NULL_TREE
,
3820 true, GSI_SAME_STMT
);
3821 n2
= fold_convert (type
, unshare_expr (fd
->loop
.n2
));
3822 n2
= force_gimple_operand_gsi (&gsi
, n2
, true, NULL_TREE
,
3823 true, GSI_SAME_STMT
);
3824 gcond
*cond_stmt
= gimple_build_cond (fd
->loop
.cond_code
, n1
, n2
,
3825 NULL_TREE
, NULL_TREE
);
3826 gsi_insert_before (&gsi
, cond_stmt
, GSI_SAME_STMT
);
3827 if (walk_tree (gimple_cond_lhs_ptr (cond_stmt
),
3828 expand_omp_regimplify_p
, NULL
, NULL
)
3829 || walk_tree (gimple_cond_rhs_ptr (cond_stmt
),
3830 expand_omp_regimplify_p
, NULL
, NULL
))
3832 gsi
= gsi_for_stmt (cond_stmt
);
3833 gimple_regimplify_operands (cond_stmt
, &gsi
);
3835 se
= split_block (entry_bb
, cond_stmt
);
3836 se
->flags
= EDGE_TRUE_VALUE
;
3837 entry_bb
= se
->dest
;
3838 se
->probability
= REG_BR_PROB_BASE
- (REG_BR_PROB_BASE
/ 2000 - 1);
3839 se
= make_edge (se
->src
, fin_bb
, EDGE_FALSE_VALUE
);
3840 se
->probability
= REG_BR_PROB_BASE
/ 2000 - 1;
3841 if (gimple_in_ssa_p (cfun
))
3843 int dest_idx
= find_edge (iter_part_bb
, fin_bb
)->dest_idx
;
3844 for (gphi_iterator gpi
= gsi_start_phis (fin_bb
);
3845 !gsi_end_p (gpi
); gsi_next (&gpi
))
3847 gphi
*phi
= gpi
.phi ();
3848 add_phi_arg (phi
, gimple_phi_arg_def (phi
, dest_idx
),
3849 se
, UNKNOWN_LOCATION
);
3852 gsi
= gsi_last_bb (entry_bb
);
3855 switch (gimple_omp_for_kind (fd
->for_stmt
))
3857 case GF_OMP_FOR_KIND_FOR
:
3858 nthreads
= builtin_decl_explicit (BUILT_IN_OMP_GET_NUM_THREADS
);
3859 threadid
= builtin_decl_explicit (BUILT_IN_OMP_GET_THREAD_NUM
);
3861 case GF_OMP_FOR_KIND_DISTRIBUTE
:
3862 nthreads
= builtin_decl_explicit (BUILT_IN_OMP_GET_NUM_TEAMS
);
3863 threadid
= builtin_decl_explicit (BUILT_IN_OMP_GET_TEAM_NUM
);
3868 nthreads
= build_call_expr (nthreads
, 0);
3869 nthreads
= fold_convert (itype
, nthreads
);
3870 nthreads
= force_gimple_operand_gsi (&gsi
, nthreads
, true, NULL_TREE
,
3871 true, GSI_SAME_STMT
);
3872 threadid
= build_call_expr (threadid
, 0);
3873 threadid
= fold_convert (itype
, threadid
);
3874 threadid
= force_gimple_operand_gsi (&gsi
, threadid
, true, NULL_TREE
,
3875 true, GSI_SAME_STMT
);
3879 step
= fd
->loop
.step
;
3880 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
3882 tree innerc
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
3883 OMP_CLAUSE__LOOPTEMP_
);
3884 gcc_assert (innerc
);
3885 n1
= OMP_CLAUSE_DECL (innerc
);
3886 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3887 OMP_CLAUSE__LOOPTEMP_
);
3888 gcc_assert (innerc
);
3889 n2
= OMP_CLAUSE_DECL (innerc
);
3891 n1
= force_gimple_operand_gsi (&gsi
, fold_convert (type
, n1
),
3892 true, NULL_TREE
, true, GSI_SAME_STMT
);
3893 n2
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, n2
),
3894 true, NULL_TREE
, true, GSI_SAME_STMT
);
3895 step
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, step
),
3896 true, NULL_TREE
, true, GSI_SAME_STMT
);
3897 tree chunk_size
= fold_convert (itype
, fd
->chunk_size
);
3898 chunk_size
= omp_adjust_chunk_size (chunk_size
, fd
->simd_schedule
);
3900 = force_gimple_operand_gsi (&gsi
, chunk_size
, true, NULL_TREE
, true,
3903 t
= build_int_cst (itype
, (fd
->loop
.cond_code
== LT_EXPR
? -1 : 1));
3904 t
= fold_build2 (PLUS_EXPR
, itype
, step
, t
);
3905 t
= fold_build2 (PLUS_EXPR
, itype
, t
, n2
);
3906 t
= fold_build2 (MINUS_EXPR
, itype
, t
, fold_convert (itype
, n1
));
3907 if (TYPE_UNSIGNED (itype
) && fd
->loop
.cond_code
== GT_EXPR
)
3908 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
,
3909 fold_build1 (NEGATE_EXPR
, itype
, t
),
3910 fold_build1 (NEGATE_EXPR
, itype
, step
));
3912 t
= fold_build2 (TRUNC_DIV_EXPR
, itype
, t
, step
);
3913 t
= fold_convert (itype
, t
);
3914 n
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3915 true, GSI_SAME_STMT
);
3917 trip_var
= create_tmp_reg (itype
, ".trip");
3918 if (gimple_in_ssa_p (cfun
))
3920 trip_init
= make_ssa_name (trip_var
);
3921 trip_main
= make_ssa_name (trip_var
);
3922 trip_back
= make_ssa_name (trip_var
);
3926 trip_init
= trip_var
;
3927 trip_main
= trip_var
;
3928 trip_back
= trip_var
;
3931 gassign
*assign_stmt
3932 = gimple_build_assign (trip_init
, build_int_cst (itype
, 0));
3933 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
3935 t
= fold_build2 (MULT_EXPR
, itype
, threadid
, chunk_size
);
3936 t
= fold_build2 (MULT_EXPR
, itype
, t
, step
);
3937 if (POINTER_TYPE_P (type
))
3938 t
= fold_build_pointer_plus (n1
, t
);
3940 t
= fold_build2 (PLUS_EXPR
, type
, t
, n1
);
3941 vextra
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3942 true, GSI_SAME_STMT
);
3944 /* Remove the GIMPLE_OMP_FOR. */
3945 gsi_remove (&gsi
, true);
3947 gimple_stmt_iterator gsif
= gsi
;
3949 /* Iteration space partitioning goes in ITER_PART_BB. */
3950 gsi
= gsi_last_bb (iter_part_bb
);
3952 t
= fold_build2 (MULT_EXPR
, itype
, trip_main
, nthreads
);
3953 t
= fold_build2 (PLUS_EXPR
, itype
, t
, threadid
);
3954 t
= fold_build2 (MULT_EXPR
, itype
, t
, chunk_size
);
3955 s0
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3956 false, GSI_CONTINUE_LINKING
);
3958 t
= fold_build2 (PLUS_EXPR
, itype
, s0
, chunk_size
);
3959 t
= fold_build2 (MIN_EXPR
, itype
, t
, n
);
3960 e0
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
3961 false, GSI_CONTINUE_LINKING
);
3963 t
= build2 (LT_EXPR
, boolean_type_node
, s0
, n
);
3964 gsi_insert_after (&gsi
, gimple_build_cond_empty (t
), GSI_CONTINUE_LINKING
);
3966 /* Setup code for sequential iteration goes in SEQ_START_BB. */
3967 gsi
= gsi_start_bb (seq_start_bb
);
3969 tree startvar
= fd
->loop
.v
;
3970 tree endvar
= NULL_TREE
;
3972 if (gimple_omp_for_combined_p (fd
->for_stmt
))
3974 tree clauses
= gimple_code (inner_stmt
) == GIMPLE_OMP_PARALLEL
3975 ? gimple_omp_parallel_clauses (inner_stmt
)
3976 : gimple_omp_for_clauses (inner_stmt
);
3977 tree innerc
= omp_find_clause (clauses
, OMP_CLAUSE__LOOPTEMP_
);
3978 gcc_assert (innerc
);
3979 startvar
= OMP_CLAUSE_DECL (innerc
);
3980 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3981 OMP_CLAUSE__LOOPTEMP_
);
3982 gcc_assert (innerc
);
3983 endvar
= OMP_CLAUSE_DECL (innerc
);
3984 if (fd
->collapse
> 1 && TREE_CODE (fd
->loop
.n2
) != INTEGER_CST
3985 && gimple_omp_for_kind (fd
->for_stmt
) == GF_OMP_FOR_KIND_DISTRIBUTE
)
3988 for (i
= 1; i
< fd
->collapse
; i
++)
3990 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3991 OMP_CLAUSE__LOOPTEMP_
);
3992 gcc_assert (innerc
);
3994 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
3995 OMP_CLAUSE__LOOPTEMP_
);
3998 /* If needed (distribute parallel for with lastprivate),
3999 propagate down the total number of iterations. */
4000 tree t
= fold_convert (TREE_TYPE (OMP_CLAUSE_DECL (innerc
)),
4002 t
= force_gimple_operand_gsi (&gsi
, t
, false, NULL_TREE
, false,
4003 GSI_CONTINUE_LINKING
);
4004 assign_stmt
= gimple_build_assign (OMP_CLAUSE_DECL (innerc
), t
);
4005 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4010 t
= fold_convert (itype
, s0
);
4011 t
= fold_build2 (MULT_EXPR
, itype
, t
, step
);
4012 if (POINTER_TYPE_P (type
))
4013 t
= fold_build_pointer_plus (n1
, t
);
4015 t
= fold_build2 (PLUS_EXPR
, type
, t
, n1
);
4016 t
= fold_convert (TREE_TYPE (startvar
), t
);
4017 t
= force_gimple_operand_gsi (&gsi
, t
,
4019 && TREE_ADDRESSABLE (startvar
),
4020 NULL_TREE
, false, GSI_CONTINUE_LINKING
);
4021 assign_stmt
= gimple_build_assign (startvar
, t
);
4022 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4024 t
= fold_convert (itype
, e0
);
4025 t
= fold_build2 (MULT_EXPR
, itype
, t
, step
);
4026 if (POINTER_TYPE_P (type
))
4027 t
= fold_build_pointer_plus (n1
, t
);
4029 t
= fold_build2 (PLUS_EXPR
, type
, t
, n1
);
4030 t
= fold_convert (TREE_TYPE (startvar
), t
);
4031 e
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
4032 false, GSI_CONTINUE_LINKING
);
4035 assign_stmt
= gimple_build_assign (endvar
, e
);
4036 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4037 if (useless_type_conversion_p (TREE_TYPE (fd
->loop
.v
), TREE_TYPE (e
)))
4038 assign_stmt
= gimple_build_assign (fd
->loop
.v
, e
);
4040 assign_stmt
= gimple_build_assign (fd
->loop
.v
, NOP_EXPR
, e
);
4041 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4043 /* Handle linear clause adjustments. */
4044 tree itercnt
= NULL_TREE
, itercntbias
= NULL_TREE
;
4045 if (gimple_omp_for_kind (fd
->for_stmt
) == GF_OMP_FOR_KIND_FOR
)
4046 for (tree c
= gimple_omp_for_clauses (fd
->for_stmt
);
4047 c
; c
= OMP_CLAUSE_CHAIN (c
))
4048 if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_LINEAR
4049 && !OMP_CLAUSE_LINEAR_NO_COPYIN (c
))
4051 tree d
= OMP_CLAUSE_DECL (c
);
4052 bool is_ref
= omp_is_reference (d
);
4053 tree t
= d
, a
, dest
;
4055 t
= build_simple_mem_ref_loc (OMP_CLAUSE_LOCATION (c
), t
);
4056 tree type
= TREE_TYPE (t
);
4057 if (POINTER_TYPE_P (type
))
4059 dest
= unshare_expr (t
);
4060 tree v
= create_tmp_var (TREE_TYPE (t
), NULL
);
4061 expand_omp_build_assign (&gsif
, v
, t
);
4062 if (itercnt
== NULL_TREE
)
4064 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
4067 = fold_build2 (MINUS_EXPR
, itype
, fold_convert (itype
, n1
),
4068 fold_convert (itype
, fd
->loop
.n1
));
4069 itercntbias
= fold_build2 (EXACT_DIV_EXPR
, itype
,
4072 = force_gimple_operand_gsi (&gsif
, itercntbias
, true,
4075 itercnt
= fold_build2 (PLUS_EXPR
, itype
, itercntbias
, s0
);
4076 itercnt
= force_gimple_operand_gsi (&gsi
, itercnt
, true,
4078 GSI_CONTINUE_LINKING
);
4083 a
= fold_build2 (MULT_EXPR
, type
,
4084 fold_convert (type
, itercnt
),
4085 fold_convert (type
, OMP_CLAUSE_LINEAR_STEP (c
)));
4086 t
= fold_build2 (type
== TREE_TYPE (t
) ? PLUS_EXPR
4087 : POINTER_PLUS_EXPR
, TREE_TYPE (t
), v
, a
);
4088 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
4089 false, GSI_CONTINUE_LINKING
);
4090 assign_stmt
= gimple_build_assign (dest
, t
);
4091 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4093 if (fd
->collapse
> 1)
4094 expand_omp_for_init_vars (fd
, &gsi
, counts
, inner_stmt
, startvar
);
4098 /* The code controlling the sequential loop goes in CONT_BB,
4099 replacing the GIMPLE_OMP_CONTINUE. */
4100 gsi
= gsi_last_bb (cont_bb
);
4101 gomp_continue
*cont_stmt
= as_a
<gomp_continue
*> (gsi_stmt (gsi
));
4102 vmain
= gimple_omp_continue_control_use (cont_stmt
);
4103 vback
= gimple_omp_continue_control_def (cont_stmt
);
4105 if (!gimple_omp_for_combined_p (fd
->for_stmt
))
4107 if (POINTER_TYPE_P (type
))
4108 t
= fold_build_pointer_plus (vmain
, step
);
4110 t
= fold_build2 (PLUS_EXPR
, type
, vmain
, step
);
4111 if (DECL_P (vback
) && TREE_ADDRESSABLE (vback
))
4112 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
4113 true, GSI_SAME_STMT
);
4114 assign_stmt
= gimple_build_assign (vback
, t
);
4115 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
4117 if (tree_int_cst_equal (fd
->chunk_size
, integer_one_node
))
4118 t
= build2 (EQ_EXPR
, boolean_type_node
,
4119 build_int_cst (itype
, 0),
4120 build_int_cst (itype
, 1));
4122 t
= build2 (fd
->loop
.cond_code
, boolean_type_node
,
4123 DECL_P (vback
) && TREE_ADDRESSABLE (vback
)
4125 gsi_insert_before (&gsi
, gimple_build_cond_empty (t
), GSI_SAME_STMT
);
4128 /* Remove GIMPLE_OMP_CONTINUE. */
4129 gsi_remove (&gsi
, true);
4131 if (fd
->collapse
> 1 && !gimple_omp_for_combined_p (fd
->for_stmt
))
4132 collapse_bb
= extract_omp_for_update_vars (fd
, cont_bb
, body_bb
);
4134 /* Trip update code goes into TRIP_UPDATE_BB. */
4135 gsi
= gsi_start_bb (trip_update_bb
);
4137 t
= build_int_cst (itype
, 1);
4138 t
= build2 (PLUS_EXPR
, itype
, trip_main
, t
);
4139 assign_stmt
= gimple_build_assign (trip_back
, t
);
4140 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4143 /* Replace the GIMPLE_OMP_RETURN with a barrier, or nothing. */
4144 gsi
= gsi_last_bb (exit_bb
);
4145 if (!gimple_omp_return_nowait_p (gsi_stmt (gsi
)))
4147 t
= gimple_omp_return_lhs (gsi_stmt (gsi
));
4148 gsi_insert_after (&gsi
, omp_build_barrier (t
), GSI_SAME_STMT
);
4150 gsi_remove (&gsi
, true);
4152 /* Connect the new blocks. */
4153 find_edge (iter_part_bb
, seq_start_bb
)->flags
= EDGE_TRUE_VALUE
;
4154 find_edge (iter_part_bb
, fin_bb
)->flags
= EDGE_FALSE_VALUE
;
4158 se
= find_edge (cont_bb
, body_bb
);
4161 se
= BRANCH_EDGE (cont_bb
);
4162 gcc_assert (single_succ (se
->dest
) == body_bb
);
4164 if (gimple_omp_for_combined_p (fd
->for_stmt
))
4169 else if (fd
->collapse
> 1)
4172 se
= make_edge (cont_bb
, collapse_bb
, EDGE_TRUE_VALUE
);
4175 se
->flags
= EDGE_TRUE_VALUE
;
4176 find_edge (cont_bb
, trip_update_bb
)->flags
4177 = se
? EDGE_FALSE_VALUE
: EDGE_FALLTHRU
;
4179 redirect_edge_and_branch (single_succ_edge (trip_update_bb
),
4183 if (gimple_in_ssa_p (cfun
))
4191 gcc_assert (fd
->collapse
== 1 && !broken_loop
);
4193 /* When we redirect the edge from trip_update_bb to iter_part_bb, we
4194 remove arguments of the phi nodes in fin_bb. We need to create
4195 appropriate phi nodes in iter_part_bb instead. */
4196 se
= find_edge (iter_part_bb
, fin_bb
);
4197 re
= single_succ_edge (trip_update_bb
);
4198 vec
<edge_var_map
> *head
= redirect_edge_var_map_vector (re
);
4199 ene
= single_succ_edge (entry_bb
);
4201 psi
= gsi_start_phis (fin_bb
);
4202 for (i
= 0; !gsi_end_p (psi
) && head
->iterate (i
, &vm
);
4203 gsi_next (&psi
), ++i
)
4206 source_location locus
;
4209 t
= gimple_phi_result (phi
);
4210 gcc_assert (t
== redirect_edge_var_map_result (vm
));
4212 if (!single_pred_p (fin_bb
))
4213 t
= copy_ssa_name (t
, phi
);
4215 nphi
= create_phi_node (t
, iter_part_bb
);
4217 t
= PHI_ARG_DEF_FROM_EDGE (phi
, se
);
4218 locus
= gimple_phi_arg_location_from_edge (phi
, se
);
4220 /* A special case -- fd->loop.v is not yet computed in
4221 iter_part_bb, we need to use vextra instead. */
4222 if (t
== fd
->loop
.v
)
4224 add_phi_arg (nphi
, t
, ene
, locus
);
4225 locus
= redirect_edge_var_map_location (vm
);
4226 tree back_arg
= redirect_edge_var_map_def (vm
);
4227 add_phi_arg (nphi
, back_arg
, re
, locus
);
4228 edge ce
= find_edge (cont_bb
, body_bb
);
4231 ce
= BRANCH_EDGE (cont_bb
);
4232 gcc_assert (single_succ (ce
->dest
) == body_bb
);
4233 ce
= single_succ_edge (ce
->dest
);
4235 gphi
*inner_loop_phi
= find_phi_with_arg_on_edge (back_arg
, ce
);
4236 gcc_assert (inner_loop_phi
!= NULL
);
4237 add_phi_arg (inner_loop_phi
, gimple_phi_result (nphi
),
4238 find_edge (seq_start_bb
, body_bb
), locus
);
4240 if (!single_pred_p (fin_bb
))
4241 add_phi_arg (phi
, gimple_phi_result (nphi
), se
, locus
);
4243 gcc_assert (gsi_end_p (psi
) && (head
== NULL
|| i
== head
->length ()));
4244 redirect_edge_var_map_clear (re
);
4245 if (single_pred_p (fin_bb
))
4248 psi
= gsi_start_phis (fin_bb
);
4249 if (gsi_end_p (psi
))
4251 remove_phi_node (&psi
, false);
4254 /* Make phi node for trip. */
4255 phi
= create_phi_node (trip_main
, iter_part_bb
);
4256 add_phi_arg (phi
, trip_back
, single_succ_edge (trip_update_bb
),
4258 add_phi_arg (phi
, trip_init
, single_succ_edge (entry_bb
),
4263 set_immediate_dominator (CDI_DOMINATORS
, trip_update_bb
, cont_bb
);
4264 set_immediate_dominator (CDI_DOMINATORS
, iter_part_bb
,
4265 recompute_dominator (CDI_DOMINATORS
, iter_part_bb
));
4266 set_immediate_dominator (CDI_DOMINATORS
, fin_bb
,
4267 recompute_dominator (CDI_DOMINATORS
, fin_bb
));
4268 set_immediate_dominator (CDI_DOMINATORS
, seq_start_bb
,
4269 recompute_dominator (CDI_DOMINATORS
, seq_start_bb
));
4270 set_immediate_dominator (CDI_DOMINATORS
, body_bb
,
4271 recompute_dominator (CDI_DOMINATORS
, body_bb
));
4275 struct loop
*loop
= body_bb
->loop_father
;
4276 struct loop
*trip_loop
= alloc_loop ();
4277 trip_loop
->header
= iter_part_bb
;
4278 trip_loop
->latch
= trip_update_bb
;
4279 add_loop (trip_loop
, iter_part_bb
->loop_father
);
4281 if (loop
!= entry_bb
->loop_father
)
4283 gcc_assert (loop
->header
== body_bb
);
4284 gcc_assert (loop
->latch
== region
->cont
4285 || single_pred (loop
->latch
) == region
->cont
);
4286 trip_loop
->inner
= loop
;
4290 if (!gimple_omp_for_combined_p (fd
->for_stmt
))
4292 loop
= alloc_loop ();
4293 loop
->header
= body_bb
;
4294 if (collapse_bb
== NULL
)
4295 loop
->latch
= cont_bb
;
4296 add_loop (loop
, trip_loop
);
4301 /* A subroutine of expand_omp_for. Generate code for _Cilk_for loop.
4303 for (V = N1; V cond N2; V += STEP) BODY;
4305 where COND is "<" or ">" or "!=", we generate pseudocode
4307 for (ind_var = low; ind_var < high; ind_var++)
4309 V = n1 + (ind_var * STEP)
4314 In the above pseudocode, low and high are function parameters of the
4315 child function. In the function below, we are inserting a temp.
4316 variable that will be making a call to two OMP functions that will not be
4317 found in the body of _Cilk_for (since OMP_FOR cannot be mixed
4318 with _Cilk_for). These functions are replaced with low and high
4319 by the function that handles taskreg. */
4323 expand_cilk_for (struct omp_region
*region
, struct omp_for_data
*fd
)
4325 bool broken_loop
= region
->cont
== NULL
;
4326 basic_block entry_bb
= region
->entry
;
4327 basic_block cont_bb
= region
->cont
;
4329 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2);
4330 gcc_assert (broken_loop
4331 || BRANCH_EDGE (entry_bb
)->dest
== FALLTHRU_EDGE (cont_bb
)->dest
);
4332 basic_block l0_bb
= FALLTHRU_EDGE (entry_bb
)->dest
;
4333 basic_block l1_bb
, l2_bb
;
4337 gcc_assert (BRANCH_EDGE (cont_bb
)->dest
== l0_bb
);
4338 gcc_assert (EDGE_COUNT (cont_bb
->succs
) == 2);
4339 l1_bb
= split_block (cont_bb
, last_stmt (cont_bb
))->dest
;
4340 l2_bb
= BRANCH_EDGE (entry_bb
)->dest
;
4344 BRANCH_EDGE (entry_bb
)->flags
&= ~EDGE_ABNORMAL
;
4345 l1_bb
= split_edge (BRANCH_EDGE (entry_bb
));
4346 l2_bb
= single_succ (l1_bb
);
4348 basic_block exit_bb
= region
->exit
;
4349 basic_block l2_dom_bb
= NULL
;
4351 gimple_stmt_iterator gsi
= gsi_last_bb (entry_bb
);
4353 /* Below statements until the "tree high_val = ..." are pseudo statements
4354 used to pass information to be used by expand_omp_taskreg.
4355 low_val and high_val will be replaced by the __low and __high
4356 parameter from the child function.
4358 The call_exprs part is a place-holder, it is mainly used
4359 to distinctly identify to the top-level part that this is
4360 where we should put low and high (reasoning given in header
4363 gomp_parallel
*par_stmt
4364 = as_a
<gomp_parallel
*> (last_stmt (region
->outer
->entry
));
4365 tree child_fndecl
= gimple_omp_parallel_child_fn (par_stmt
);
4366 tree t
, low_val
= NULL_TREE
, high_val
= NULL_TREE
;
4367 for (t
= DECL_ARGUMENTS (child_fndecl
); t
; t
= TREE_CHAIN (t
))
4369 if (!strcmp (IDENTIFIER_POINTER (DECL_NAME (t
)), "__high"))
4371 else if (!strcmp (IDENTIFIER_POINTER (DECL_NAME (t
)), "__low"))
4374 gcc_assert (low_val
&& high_val
);
4376 tree type
= TREE_TYPE (low_val
);
4377 tree ind_var
= create_tmp_reg (type
, "__cilk_ind_var");
4378 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
4380 /* Not needed in SSA form right now. */
4381 gcc_assert (!gimple_in_ssa_p (cfun
));
4382 if (l2_dom_bb
== NULL
)
4388 gimple
*stmt
= gimple_build_assign (ind_var
, n1
);
4390 /* Replace the GIMPLE_OMP_FOR statement. */
4391 gsi_replace (&gsi
, stmt
, true);
4395 /* Code to control the increment goes in the CONT_BB. */
4396 gsi
= gsi_last_bb (cont_bb
);
4397 stmt
= gsi_stmt (gsi
);
4398 gcc_assert (gimple_code (stmt
) == GIMPLE_OMP_CONTINUE
);
4399 stmt
= gimple_build_assign (ind_var
, PLUS_EXPR
, ind_var
,
4400 build_one_cst (type
));
4402 /* Replace GIMPLE_OMP_CONTINUE. */
4403 gsi_replace (&gsi
, stmt
, true);
4406 /* Emit the condition in L1_BB. */
4407 gsi
= gsi_after_labels (l1_bb
);
4408 t
= fold_build2 (MULT_EXPR
, TREE_TYPE (fd
->loop
.step
),
4409 fold_convert (TREE_TYPE (fd
->loop
.step
), ind_var
),
4411 if (POINTER_TYPE_P (TREE_TYPE (fd
->loop
.n1
)))
4412 t
= fold_build2 (POINTER_PLUS_EXPR
, TREE_TYPE (fd
->loop
.n1
),
4413 fd
->loop
.n1
, fold_convert (sizetype
, t
));
4415 t
= fold_build2 (PLUS_EXPR
, TREE_TYPE (fd
->loop
.n1
),
4416 fd
->loop
.n1
, fold_convert (TREE_TYPE (fd
->loop
.n1
), t
));
4417 t
= fold_convert (TREE_TYPE (fd
->loop
.v
), t
);
4418 expand_omp_build_assign (&gsi
, fd
->loop
.v
, t
);
4420 /* The condition is always '<' since the runtime will fill in the low
4422 stmt
= gimple_build_cond (LT_EXPR
, ind_var
, n2
, NULL_TREE
, NULL_TREE
);
4423 gsi_insert_before (&gsi
, stmt
, GSI_SAME_STMT
);
4425 /* Remove GIMPLE_OMP_RETURN. */
4426 gsi
= gsi_last_bb (exit_bb
);
4427 gsi_remove (&gsi
, true);
4429 /* Connect the new blocks. */
4430 remove_edge (FALLTHRU_EDGE (entry_bb
));
4435 remove_edge (BRANCH_EDGE (entry_bb
));
4436 make_edge (entry_bb
, l1_bb
, EDGE_FALLTHRU
);
4438 e
= BRANCH_EDGE (l1_bb
);
4439 ne
= FALLTHRU_EDGE (l1_bb
);
4440 e
->flags
= EDGE_TRUE_VALUE
;
4444 single_succ_edge (entry_bb
)->flags
= EDGE_FALLTHRU
;
4446 ne
= single_succ_edge (l1_bb
);
4447 e
= make_edge (l1_bb
, l0_bb
, EDGE_TRUE_VALUE
);
4450 ne
->flags
= EDGE_FALSE_VALUE
;
4451 e
->probability
= REG_BR_PROB_BASE
* 7 / 8;
4452 ne
->probability
= REG_BR_PROB_BASE
/ 8;
4454 set_immediate_dominator (CDI_DOMINATORS
, l1_bb
, entry_bb
);
4455 set_immediate_dominator (CDI_DOMINATORS
, l2_bb
, l2_dom_bb
);
4456 set_immediate_dominator (CDI_DOMINATORS
, l0_bb
, l1_bb
);
4460 struct loop
*loop
= alloc_loop ();
4461 loop
->header
= l1_bb
;
4462 loop
->latch
= cont_bb
;
4463 add_loop (loop
, l1_bb
->loop_father
);
4464 loop
->safelen
= INT_MAX
;
4467 /* Pick the correct library function based on the precision of the
4468 induction variable type. */
4469 tree lib_fun
= NULL_TREE
;
4470 if (TYPE_PRECISION (type
) == 32)
4471 lib_fun
= cilk_for_32_fndecl
;
4472 else if (TYPE_PRECISION (type
) == 64)
4473 lib_fun
= cilk_for_64_fndecl
;
4477 gcc_assert (fd
->sched_kind
== OMP_CLAUSE_SCHEDULE_CILKFOR
);
4479 /* WS_ARGS contains the library function flavor to call:
4480 __libcilkrts_cilk_for_64 or __libcilkrts_cilk_for_32), and the
4481 user-defined grain value. If the user does not define one, then zero
4482 is passed in by the parser. */
4483 vec_alloc (region
->ws_args
, 2);
4484 region
->ws_args
->quick_push (lib_fun
);
4485 region
->ws_args
->quick_push (fd
->chunk_size
);
4488 /* A subroutine of expand_omp_for. Generate code for a simd non-worksharing
4489 loop. Given parameters:
4491 for (V = N1; V cond N2; V += STEP) BODY;
4493 where COND is "<" or ">", we generate pseudocode
4501 if (V cond N2) goto L0; else goto L2;
4504 For collapsed loops, given parameters:
4506 for (V1 = N11; V1 cond1 N12; V1 += STEP1)
4507 for (V2 = N21; V2 cond2 N22; V2 += STEP2)
4508 for (V3 = N31; V3 cond3 N32; V3 += STEP3)
4511 we generate pseudocode
4517 count3 = (adj + N32 - N31) / STEP3;
4522 count2 = (adj + N22 - N21) / STEP2;
4527 count1 = (adj + N12 - N11) / STEP1;
4528 count = count1 * count2 * count3;
4538 V2 += (V3 cond3 N32) ? 0 : STEP2;
4539 V3 = (V3 cond3 N32) ? V3 : N31;
4540 V1 += (V2 cond2 N22) ? 0 : STEP1;
4541 V2 = (V2 cond2 N22) ? V2 : N21;
4543 if (V < count) goto L0; else goto L2;
4549 expand_omp_simd (struct omp_region
*region
, struct omp_for_data
*fd
)
4552 basic_block entry_bb
, cont_bb
, exit_bb
, l0_bb
, l1_bb
, l2_bb
, l2_dom_bb
;
4553 gimple_stmt_iterator gsi
;
4556 bool broken_loop
= region
->cont
== NULL
;
4558 tree
*counts
= NULL
;
4560 int safelen_int
= INT_MAX
;
4561 tree safelen
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
4562 OMP_CLAUSE_SAFELEN
);
4563 tree simduid
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
4564 OMP_CLAUSE__SIMDUID_
);
4569 safelen
= OMP_CLAUSE_SAFELEN_EXPR (safelen
);
4570 if (TREE_CODE (safelen
) != INTEGER_CST
)
4572 else if (tree_fits_uhwi_p (safelen
) && tree_to_uhwi (safelen
) < INT_MAX
)
4573 safelen_int
= tree_to_uhwi (safelen
);
4574 if (safelen_int
== 1)
4577 type
= TREE_TYPE (fd
->loop
.v
);
4578 entry_bb
= region
->entry
;
4579 cont_bb
= region
->cont
;
4580 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2);
4581 gcc_assert (broken_loop
4582 || BRANCH_EDGE (entry_bb
)->dest
== FALLTHRU_EDGE (cont_bb
)->dest
);
4583 l0_bb
= FALLTHRU_EDGE (entry_bb
)->dest
;
4586 gcc_assert (BRANCH_EDGE (cont_bb
)->dest
== l0_bb
);
4587 gcc_assert (EDGE_COUNT (cont_bb
->succs
) == 2);
4588 l1_bb
= split_block (cont_bb
, last_stmt (cont_bb
))->dest
;
4589 l2_bb
= BRANCH_EDGE (entry_bb
)->dest
;
4593 BRANCH_EDGE (entry_bb
)->flags
&= ~EDGE_ABNORMAL
;
4594 l1_bb
= split_edge (BRANCH_EDGE (entry_bb
));
4595 l2_bb
= single_succ (l1_bb
);
4597 exit_bb
= region
->exit
;
4600 gsi
= gsi_last_bb (entry_bb
);
4602 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
4603 /* Not needed in SSA form right now. */
4604 gcc_assert (!gimple_in_ssa_p (cfun
));
4605 if (fd
->collapse
> 1)
4607 int first_zero_iter
= -1, dummy
= -1;
4608 basic_block zero_iter_bb
= l2_bb
, dummy_bb
= NULL
;
4610 counts
= XALLOCAVEC (tree
, fd
->collapse
);
4611 expand_omp_for_init_counts (fd
, &gsi
, entry_bb
, counts
,
4612 zero_iter_bb
, first_zero_iter
,
4613 dummy_bb
, dummy
, l2_dom_bb
);
4615 if (l2_dom_bb
== NULL
)
4620 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
4622 tree innerc
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
4623 OMP_CLAUSE__LOOPTEMP_
);
4624 gcc_assert (innerc
);
4625 n1
= OMP_CLAUSE_DECL (innerc
);
4626 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
4627 OMP_CLAUSE__LOOPTEMP_
);
4628 gcc_assert (innerc
);
4629 n2
= OMP_CLAUSE_DECL (innerc
);
4631 tree step
= fd
->loop
.step
;
4633 bool is_simt
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
4637 cfun
->curr_properties
&= ~PROP_gimple_lomp_dev
;
4638 is_simt
= safelen_int
> 1;
4640 tree simt_lane
= NULL_TREE
, simt_maxlane
= NULL_TREE
;
4643 simt_lane
= create_tmp_var (unsigned_type_node
);
4644 gimple
*g
= gimple_build_call_internal (IFN_GOMP_SIMT_LANE
, 0);
4645 gimple_call_set_lhs (g
, simt_lane
);
4646 gsi_insert_before (&gsi
, g
, GSI_SAME_STMT
);
4647 tree offset
= fold_build2 (MULT_EXPR
, TREE_TYPE (step
), step
,
4648 fold_convert (TREE_TYPE (step
), simt_lane
));
4649 n1
= fold_convert (type
, n1
);
4650 if (POINTER_TYPE_P (type
))
4651 n1
= fold_build_pointer_plus (n1
, offset
);
4653 n1
= fold_build2 (PLUS_EXPR
, type
, n1
, fold_convert (type
, offset
));
4655 /* Collapsed loops not handled for SIMT yet: limit to one lane only. */
4656 if (fd
->collapse
> 1)
4657 simt_maxlane
= build_one_cst (unsigned_type_node
);
4658 else if (safelen_int
< omp_max_simt_vf ())
4659 simt_maxlane
= build_int_cst (unsigned_type_node
, safelen_int
);
4661 = build_call_expr_internal_loc (UNKNOWN_LOCATION
, IFN_GOMP_SIMT_VF
,
4662 unsigned_type_node
, 0);
4664 vf
= fold_build2 (MIN_EXPR
, unsigned_type_node
, vf
, simt_maxlane
);
4665 vf
= fold_convert (TREE_TYPE (step
), vf
);
4666 step
= fold_build2 (MULT_EXPR
, TREE_TYPE (step
), step
, vf
);
4669 expand_omp_build_assign (&gsi
, fd
->loop
.v
, fold_convert (type
, n1
));
4670 if (fd
->collapse
> 1)
4672 if (gimple_omp_for_combined_into_p (fd
->for_stmt
))
4675 expand_omp_for_init_vars (fd
, &gsi
, counts
, NULL
, n1
);
4679 for (i
= 0; i
< fd
->collapse
; i
++)
4681 tree itype
= TREE_TYPE (fd
->loops
[i
].v
);
4682 if (POINTER_TYPE_P (itype
))
4683 itype
= signed_type_for (itype
);
4684 t
= fold_convert (TREE_TYPE (fd
->loops
[i
].v
), fd
->loops
[i
].n1
);
4685 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
, t
);
4689 /* Remove the GIMPLE_OMP_FOR statement. */
4690 gsi_remove (&gsi
, true);
4694 /* Code to control the increment goes in the CONT_BB. */
4695 gsi
= gsi_last_bb (cont_bb
);
4696 stmt
= gsi_stmt (gsi
);
4697 gcc_assert (gimple_code (stmt
) == GIMPLE_OMP_CONTINUE
);
4699 if (POINTER_TYPE_P (type
))
4700 t
= fold_build_pointer_plus (fd
->loop
.v
, step
);
4702 t
= fold_build2 (PLUS_EXPR
, type
, fd
->loop
.v
, step
);
4703 expand_omp_build_assign (&gsi
, fd
->loop
.v
, t
);
4705 if (fd
->collapse
> 1)
4707 i
= fd
->collapse
- 1;
4708 if (POINTER_TYPE_P (TREE_TYPE (fd
->loops
[i
].v
)))
4710 t
= fold_convert (sizetype
, fd
->loops
[i
].step
);
4711 t
= fold_build_pointer_plus (fd
->loops
[i
].v
, t
);
4715 t
= fold_convert (TREE_TYPE (fd
->loops
[i
].v
),
4717 t
= fold_build2 (PLUS_EXPR
, TREE_TYPE (fd
->loops
[i
].v
),
4720 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
, t
);
4722 for (i
= fd
->collapse
- 1; i
> 0; i
--)
4724 tree itype
= TREE_TYPE (fd
->loops
[i
].v
);
4725 tree itype2
= TREE_TYPE (fd
->loops
[i
- 1].v
);
4726 if (POINTER_TYPE_P (itype2
))
4727 itype2
= signed_type_for (itype2
);
4728 t
= build3 (COND_EXPR
, itype2
,
4729 build2 (fd
->loops
[i
].cond_code
, boolean_type_node
,
4731 fold_convert (itype
, fd
->loops
[i
].n2
)),
4732 build_int_cst (itype2
, 0),
4733 fold_convert (itype2
, fd
->loops
[i
- 1].step
));
4734 if (POINTER_TYPE_P (TREE_TYPE (fd
->loops
[i
- 1].v
)))
4735 t
= fold_build_pointer_plus (fd
->loops
[i
- 1].v
, t
);
4737 t
= fold_build2 (PLUS_EXPR
, itype2
, fd
->loops
[i
- 1].v
, t
);
4738 expand_omp_build_assign (&gsi
, fd
->loops
[i
- 1].v
, t
);
4740 t
= build3 (COND_EXPR
, itype
,
4741 build2 (fd
->loops
[i
].cond_code
, boolean_type_node
,
4743 fold_convert (itype
, fd
->loops
[i
].n2
)),
4745 fold_convert (itype
, fd
->loops
[i
].n1
));
4746 expand_omp_build_assign (&gsi
, fd
->loops
[i
].v
, t
);
4750 /* Remove GIMPLE_OMP_CONTINUE. */
4751 gsi_remove (&gsi
, true);
4754 /* Emit the condition in L1_BB. */
4755 gsi
= gsi_start_bb (l1_bb
);
4757 t
= fold_convert (type
, n2
);
4758 t
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
4759 false, GSI_CONTINUE_LINKING
);
4760 tree v
= fd
->loop
.v
;
4761 if (DECL_P (v
) && TREE_ADDRESSABLE (v
))
4762 v
= force_gimple_operand_gsi (&gsi
, v
, true, NULL_TREE
,
4763 false, GSI_CONTINUE_LINKING
);
4764 t
= build2 (fd
->loop
.cond_code
, boolean_type_node
, v
, t
);
4765 cond_stmt
= gimple_build_cond_empty (t
);
4766 gsi_insert_after (&gsi
, cond_stmt
, GSI_CONTINUE_LINKING
);
4767 if (walk_tree (gimple_cond_lhs_ptr (cond_stmt
), expand_omp_regimplify_p
,
4769 || walk_tree (gimple_cond_rhs_ptr (cond_stmt
), expand_omp_regimplify_p
,
4772 gsi
= gsi_for_stmt (cond_stmt
);
4773 gimple_regimplify_operands (cond_stmt
, &gsi
);
4776 /* Add 'V -= STEP * (SIMT_VF - 1)' after the loop. */
4779 gsi
= gsi_start_bb (l2_bb
);
4780 step
= fold_build2 (MINUS_EXPR
, TREE_TYPE (step
), fd
->loop
.step
, step
);
4781 if (POINTER_TYPE_P (type
))
4782 t
= fold_build_pointer_plus (fd
->loop
.v
, step
);
4784 t
= fold_build2 (PLUS_EXPR
, type
, fd
->loop
.v
, step
);
4785 expand_omp_build_assign (&gsi
, fd
->loop
.v
, t
);
4788 /* Remove GIMPLE_OMP_RETURN. */
4789 gsi
= gsi_last_bb (exit_bb
);
4790 gsi_remove (&gsi
, true);
4792 /* Connect the new blocks. */
4793 remove_edge (FALLTHRU_EDGE (entry_bb
));
4797 remove_edge (BRANCH_EDGE (entry_bb
));
4798 make_edge (entry_bb
, l1_bb
, EDGE_FALLTHRU
);
4800 e
= BRANCH_EDGE (l1_bb
);
4801 ne
= FALLTHRU_EDGE (l1_bb
);
4802 e
->flags
= EDGE_TRUE_VALUE
;
4806 single_succ_edge (entry_bb
)->flags
= EDGE_FALLTHRU
;
4808 ne
= single_succ_edge (l1_bb
);
4809 e
= make_edge (l1_bb
, l0_bb
, EDGE_TRUE_VALUE
);
4812 ne
->flags
= EDGE_FALSE_VALUE
;
4813 e
->probability
= REG_BR_PROB_BASE
* 7 / 8;
4814 ne
->probability
= REG_BR_PROB_BASE
/ 8;
4816 set_immediate_dominator (CDI_DOMINATORS
, l1_bb
, entry_bb
);
4817 set_immediate_dominator (CDI_DOMINATORS
, l0_bb
, l1_bb
);
4821 cond_stmt
= gimple_build_cond (LT_EXPR
, simt_lane
, simt_maxlane
,
4822 NULL_TREE
, NULL_TREE
);
4823 gsi
= gsi_last_bb (entry_bb
);
4824 gsi_insert_after (&gsi
, cond_stmt
, GSI_NEW_STMT
);
4825 make_edge (entry_bb
, l2_bb
, EDGE_FALSE_VALUE
);
4826 FALLTHRU_EDGE (entry_bb
)->flags
= EDGE_TRUE_VALUE
;
4827 FALLTHRU_EDGE (entry_bb
)->probability
= REG_BR_PROB_BASE
* 7 / 8;
4828 BRANCH_EDGE (entry_bb
)->probability
= REG_BR_PROB_BASE
/ 8;
4829 l2_dom_bb
= entry_bb
;
4831 set_immediate_dominator (CDI_DOMINATORS
, l2_bb
, l2_dom_bb
);
4835 struct loop
*loop
= alloc_loop ();
4836 loop
->header
= l1_bb
;
4837 loop
->latch
= cont_bb
;
4838 add_loop (loop
, l1_bb
->loop_father
);
4839 loop
->safelen
= safelen_int
;
4842 loop
->simduid
= OMP_CLAUSE__SIMDUID__DECL (simduid
);
4843 cfun
->has_simduid_loops
= true;
4845 /* If not -fno-tree-loop-vectorize, hint that we want to vectorize
4847 if ((flag_tree_loop_vectorize
4848 || (!global_options_set
.x_flag_tree_loop_vectorize
4849 && !global_options_set
.x_flag_tree_vectorize
))
4850 && flag_tree_loop_optimize
4851 && loop
->safelen
> 1)
4853 loop
->force_vectorize
= true;
4854 cfun
->has_force_vectorize_loops
= true;
4858 cfun
->has_simduid_loops
= true;
4861 /* Taskloop construct is represented after gimplification with
4862 two GIMPLE_OMP_FOR constructs with GIMPLE_OMP_TASK sandwiched
4863 in between them. This routine expands the outer GIMPLE_OMP_FOR,
4864 which should just compute all the needed loop temporaries
4865 for GIMPLE_OMP_TASK. */
4868 expand_omp_taskloop_for_outer (struct omp_region
*region
,
4869 struct omp_for_data
*fd
,
4872 tree type
, bias
= NULL_TREE
;
4873 basic_block entry_bb
, cont_bb
, exit_bb
;
4874 gimple_stmt_iterator gsi
;
4875 gassign
*assign_stmt
;
4876 tree
*counts
= NULL
;
4879 gcc_assert (inner_stmt
);
4880 gcc_assert (region
->cont
);
4881 gcc_assert (gimple_code (inner_stmt
) == GIMPLE_OMP_TASK
4882 && gimple_omp_task_taskloop_p (inner_stmt
));
4883 type
= TREE_TYPE (fd
->loop
.v
);
4885 /* See if we need to bias by LLONG_MIN. */
4886 if (fd
->iter_type
== long_long_unsigned_type_node
4887 && TREE_CODE (type
) == INTEGER_TYPE
4888 && !TYPE_UNSIGNED (type
))
4892 if (fd
->loop
.cond_code
== LT_EXPR
)
4895 n2
= fold_build2 (PLUS_EXPR
, type
, fd
->loop
.n2
, fd
->loop
.step
);
4899 n1
= fold_build2 (MINUS_EXPR
, type
, fd
->loop
.n2
, fd
->loop
.step
);
4902 if (TREE_CODE (n1
) != INTEGER_CST
4903 || TREE_CODE (n2
) != INTEGER_CST
4904 || ((tree_int_cst_sgn (n1
) < 0) ^ (tree_int_cst_sgn (n2
) < 0)))
4905 bias
= fold_convert (fd
->iter_type
, TYPE_MIN_VALUE (type
));
4908 entry_bb
= region
->entry
;
4909 cont_bb
= region
->cont
;
4910 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2);
4911 gcc_assert (BRANCH_EDGE (entry_bb
)->dest
== FALLTHRU_EDGE (cont_bb
)->dest
);
4912 exit_bb
= region
->exit
;
4914 gsi
= gsi_last_bb (entry_bb
);
4915 gimple
*for_stmt
= gsi_stmt (gsi
);
4916 gcc_assert (gimple_code (for_stmt
) == GIMPLE_OMP_FOR
);
4917 if (fd
->collapse
> 1)
4919 int first_zero_iter
= -1, dummy
= -1;
4920 basic_block zero_iter_bb
= NULL
, dummy_bb
= NULL
, l2_dom_bb
= NULL
;
4922 counts
= XALLOCAVEC (tree
, fd
->collapse
);
4923 expand_omp_for_init_counts (fd
, &gsi
, entry_bb
, counts
,
4924 zero_iter_bb
, first_zero_iter
,
4925 dummy_bb
, dummy
, l2_dom_bb
);
4929 /* Some counts[i] vars might be uninitialized if
4930 some loop has zero iterations. But the body shouldn't
4931 be executed in that case, so just avoid uninit warnings. */
4932 for (i
= first_zero_iter
; i
< fd
->collapse
; i
++)
4933 if (SSA_VAR_P (counts
[i
]))
4934 TREE_NO_WARNING (counts
[i
]) = 1;
4936 edge e
= split_block (entry_bb
, gsi_stmt (gsi
));
4938 make_edge (zero_iter_bb
, entry_bb
, EDGE_FALLTHRU
);
4939 gsi
= gsi_last_bb (entry_bb
);
4940 set_immediate_dominator (CDI_DOMINATORS
, entry_bb
,
4941 get_immediate_dominator (CDI_DOMINATORS
,
4949 if (POINTER_TYPE_P (TREE_TYPE (t0
))
4950 && TYPE_PRECISION (TREE_TYPE (t0
))
4951 != TYPE_PRECISION (fd
->iter_type
))
4953 /* Avoid casting pointers to integer of a different size. */
4954 tree itype
= signed_type_for (type
);
4955 t1
= fold_convert (fd
->iter_type
, fold_convert (itype
, t1
));
4956 t0
= fold_convert (fd
->iter_type
, fold_convert (itype
, t0
));
4960 t1
= fold_convert (fd
->iter_type
, t1
);
4961 t0
= fold_convert (fd
->iter_type
, t0
);
4965 t1
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, t1
, bias
);
4966 t0
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, t0
, bias
);
4969 tree innerc
= omp_find_clause (gimple_omp_task_clauses (inner_stmt
),
4970 OMP_CLAUSE__LOOPTEMP_
);
4971 gcc_assert (innerc
);
4972 tree startvar
= OMP_CLAUSE_DECL (innerc
);
4973 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
), OMP_CLAUSE__LOOPTEMP_
);
4974 gcc_assert (innerc
);
4975 tree endvar
= OMP_CLAUSE_DECL (innerc
);
4976 if (fd
->collapse
> 1 && TREE_CODE (fd
->loop
.n2
) != INTEGER_CST
)
4978 gcc_assert (innerc
);
4979 for (i
= 1; i
< fd
->collapse
; i
++)
4981 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
4982 OMP_CLAUSE__LOOPTEMP_
);
4983 gcc_assert (innerc
);
4985 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
4986 OMP_CLAUSE__LOOPTEMP_
);
4989 /* If needed (inner taskloop has lastprivate clause), propagate
4990 down the total number of iterations. */
4991 tree t
= force_gimple_operand_gsi (&gsi
, fd
->loop
.n2
, false,
4993 GSI_CONTINUE_LINKING
);
4994 assign_stmt
= gimple_build_assign (OMP_CLAUSE_DECL (innerc
), t
);
4995 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
4999 t0
= force_gimple_operand_gsi (&gsi
, t0
, false, NULL_TREE
, false,
5000 GSI_CONTINUE_LINKING
);
5001 assign_stmt
= gimple_build_assign (startvar
, t0
);
5002 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
5004 t1
= force_gimple_operand_gsi (&gsi
, t1
, false, NULL_TREE
, false,
5005 GSI_CONTINUE_LINKING
);
5006 assign_stmt
= gimple_build_assign (endvar
, t1
);
5007 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
5008 if (fd
->collapse
> 1)
5009 expand_omp_for_init_vars (fd
, &gsi
, counts
, inner_stmt
, startvar
);
5011 /* Remove the GIMPLE_OMP_FOR statement. */
5012 gsi
= gsi_for_stmt (for_stmt
);
5013 gsi_remove (&gsi
, true);
5015 gsi
= gsi_last_bb (cont_bb
);
5016 gsi_remove (&gsi
, true);
5018 gsi
= gsi_last_bb (exit_bb
);
5019 gsi_remove (&gsi
, true);
5021 FALLTHRU_EDGE (entry_bb
)->probability
= REG_BR_PROB_BASE
;
5022 remove_edge (BRANCH_EDGE (entry_bb
));
5023 FALLTHRU_EDGE (cont_bb
)->probability
= REG_BR_PROB_BASE
;
5024 remove_edge (BRANCH_EDGE (cont_bb
));
5025 set_immediate_dominator (CDI_DOMINATORS
, exit_bb
, cont_bb
);
5026 set_immediate_dominator (CDI_DOMINATORS
, region
->entry
,
5027 recompute_dominator (CDI_DOMINATORS
, region
->entry
));
5030 /* Taskloop construct is represented after gimplification with
5031 two GIMPLE_OMP_FOR constructs with GIMPLE_OMP_TASK sandwiched
5032 in between them. This routine expands the inner GIMPLE_OMP_FOR.
5033 GOMP_taskloop{,_ull} function arranges for each task to be given just
5034 a single range of iterations. */
5037 expand_omp_taskloop_for_inner (struct omp_region
*region
,
5038 struct omp_for_data
*fd
,
5041 tree e
, t
, type
, itype
, vmain
, vback
, bias
= NULL_TREE
;
5042 basic_block entry_bb
, exit_bb
, body_bb
, cont_bb
, collapse_bb
= NULL
;
5044 gimple_stmt_iterator gsi
;
5046 bool broken_loop
= region
->cont
== NULL
;
5047 tree
*counts
= NULL
;
5050 itype
= type
= TREE_TYPE (fd
->loop
.v
);
5051 if (POINTER_TYPE_P (type
))
5052 itype
= signed_type_for (type
);
5054 /* See if we need to bias by LLONG_MIN. */
5055 if (fd
->iter_type
== long_long_unsigned_type_node
5056 && TREE_CODE (type
) == INTEGER_TYPE
5057 && !TYPE_UNSIGNED (type
))
5061 if (fd
->loop
.cond_code
== LT_EXPR
)
5064 n2
= fold_build2 (PLUS_EXPR
, type
, fd
->loop
.n2
, fd
->loop
.step
);
5068 n1
= fold_build2 (MINUS_EXPR
, type
, fd
->loop
.n2
, fd
->loop
.step
);
5071 if (TREE_CODE (n1
) != INTEGER_CST
5072 || TREE_CODE (n2
) != INTEGER_CST
5073 || ((tree_int_cst_sgn (n1
) < 0) ^ (tree_int_cst_sgn (n2
) < 0)))
5074 bias
= fold_convert (fd
->iter_type
, TYPE_MIN_VALUE (type
));
5077 entry_bb
= region
->entry
;
5078 cont_bb
= region
->cont
;
5079 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2);
5080 fin_bb
= BRANCH_EDGE (entry_bb
)->dest
;
5081 gcc_assert (broken_loop
5082 || (fin_bb
== FALLTHRU_EDGE (cont_bb
)->dest
));
5083 body_bb
= FALLTHRU_EDGE (entry_bb
)->dest
;
5086 gcc_assert (BRANCH_EDGE (cont_bb
)->dest
== body_bb
);
5087 gcc_assert (EDGE_COUNT (cont_bb
->succs
) == 2);
5089 exit_bb
= region
->exit
;
5091 /* Iteration space partitioning goes in ENTRY_BB. */
5092 gsi
= gsi_last_bb (entry_bb
);
5093 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_FOR
);
5095 if (fd
->collapse
> 1)
5097 int first_zero_iter
= -1, dummy
= -1;
5098 basic_block l2_dom_bb
= NULL
, dummy_bb
= NULL
;
5100 counts
= XALLOCAVEC (tree
, fd
->collapse
);
5101 expand_omp_for_init_counts (fd
, &gsi
, entry_bb
, counts
,
5102 fin_bb
, first_zero_iter
,
5103 dummy_bb
, dummy
, l2_dom_bb
);
5107 t
= integer_one_node
;
5109 step
= fd
->loop
.step
;
5110 tree innerc
= omp_find_clause (gimple_omp_for_clauses (fd
->for_stmt
),
5111 OMP_CLAUSE__LOOPTEMP_
);
5112 gcc_assert (innerc
);
5113 n1
= OMP_CLAUSE_DECL (innerc
);
5114 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
), OMP_CLAUSE__LOOPTEMP_
);
5115 gcc_assert (innerc
);
5116 n2
= OMP_CLAUSE_DECL (innerc
);
5119 n1
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, n1
, bias
);
5120 n2
= fold_build2 (PLUS_EXPR
, fd
->iter_type
, n2
, bias
);
5122 n1
= force_gimple_operand_gsi (&gsi
, fold_convert (type
, n1
),
5123 true, NULL_TREE
, true, GSI_SAME_STMT
);
5124 n2
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, n2
),
5125 true, NULL_TREE
, true, GSI_SAME_STMT
);
5126 step
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, step
),
5127 true, NULL_TREE
, true, GSI_SAME_STMT
);
5129 tree startvar
= fd
->loop
.v
;
5130 tree endvar
= NULL_TREE
;
5132 if (gimple_omp_for_combined_p (fd
->for_stmt
))
5134 tree clauses
= gimple_omp_for_clauses (inner_stmt
);
5135 tree innerc
= omp_find_clause (clauses
, OMP_CLAUSE__LOOPTEMP_
);
5136 gcc_assert (innerc
);
5137 startvar
= OMP_CLAUSE_DECL (innerc
);
5138 innerc
= omp_find_clause (OMP_CLAUSE_CHAIN (innerc
),
5139 OMP_CLAUSE__LOOPTEMP_
);
5140 gcc_assert (innerc
);
5141 endvar
= OMP_CLAUSE_DECL (innerc
);
5143 t
= fold_convert (TREE_TYPE (startvar
), n1
);
5144 t
= force_gimple_operand_gsi (&gsi
, t
,
5146 && TREE_ADDRESSABLE (startvar
),
5147 NULL_TREE
, false, GSI_CONTINUE_LINKING
);
5148 gimple
*assign_stmt
= gimple_build_assign (startvar
, t
);
5149 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
5151 t
= fold_convert (TREE_TYPE (startvar
), n2
);
5152 e
= force_gimple_operand_gsi (&gsi
, t
, true, NULL_TREE
,
5153 false, GSI_CONTINUE_LINKING
);
5156 assign_stmt
= gimple_build_assign (endvar
, e
);
5157 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
5158 if (useless_type_conversion_p (TREE_TYPE (fd
->loop
.v
), TREE_TYPE (e
)))
5159 assign_stmt
= gimple_build_assign (fd
->loop
.v
, e
);
5161 assign_stmt
= gimple_build_assign (fd
->loop
.v
, NOP_EXPR
, e
);
5162 gsi_insert_after (&gsi
, assign_stmt
, GSI_CONTINUE_LINKING
);
5164 if (fd
->collapse
> 1)
5165 expand_omp_for_init_vars (fd
, &gsi
, counts
, inner_stmt
, startvar
);
5169 /* The code controlling the sequential loop replaces the
5170 GIMPLE_OMP_CONTINUE. */
5171 gsi
= gsi_last_bb (cont_bb
);
5172 gomp_continue
*cont_stmt
= as_a
<gomp_continue
*> (gsi_stmt (gsi
));
5173 gcc_assert (gimple_code (cont_stmt
) == GIMPLE_OMP_CONTINUE
);
5174 vmain
= gimple_omp_continue_control_use (cont_stmt
);
5175 vback
= gimple_omp_continue_control_def (cont_stmt
);
5177 if (!gimple_omp_for_combined_p (fd
->for_stmt
))
5179 if (POINTER_TYPE_P (type
))
5180 t
= fold_build_pointer_plus (vmain
, step
);
5182 t
= fold_build2 (PLUS_EXPR
, type
, vmain
, step
);
5183 t
= force_gimple_operand_gsi (&gsi
, t
,
5185 && TREE_ADDRESSABLE (vback
),
5186 NULL_TREE
, true, GSI_SAME_STMT
);
5187 assign_stmt
= gimple_build_assign (vback
, t
);
5188 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
5190 t
= build2 (fd
->loop
.cond_code
, boolean_type_node
,
5191 DECL_P (vback
) && TREE_ADDRESSABLE (vback
)
5193 gsi_insert_before (&gsi
, gimple_build_cond_empty (t
), GSI_SAME_STMT
);
5196 /* Remove the GIMPLE_OMP_CONTINUE statement. */
5197 gsi_remove (&gsi
, true);
5199 if (fd
->collapse
> 1 && !gimple_omp_for_combined_p (fd
->for_stmt
))
5200 collapse_bb
= extract_omp_for_update_vars (fd
, cont_bb
, body_bb
);
5203 /* Remove the GIMPLE_OMP_FOR statement. */
5204 gsi
= gsi_for_stmt (fd
->for_stmt
);
5205 gsi_remove (&gsi
, true);
5207 /* Remove the GIMPLE_OMP_RETURN statement. */
5208 gsi
= gsi_last_bb (exit_bb
);
5209 gsi_remove (&gsi
, true);
5211 FALLTHRU_EDGE (entry_bb
)->probability
= REG_BR_PROB_BASE
;
5213 remove_edge (BRANCH_EDGE (entry_bb
));
5216 remove_edge_and_dominated_blocks (BRANCH_EDGE (entry_bb
));
5217 region
->outer
->cont
= NULL
;
5220 /* Connect all the blocks. */
5223 ep
= find_edge (cont_bb
, body_bb
);
5224 if (gimple_omp_for_combined_p (fd
->for_stmt
))
5229 else if (fd
->collapse
> 1)
5232 ep
= make_edge (cont_bb
, collapse_bb
, EDGE_TRUE_VALUE
);
5235 ep
->flags
= EDGE_TRUE_VALUE
;
5236 find_edge (cont_bb
, fin_bb
)->flags
5237 = ep
? EDGE_FALSE_VALUE
: EDGE_FALLTHRU
;
5240 set_immediate_dominator (CDI_DOMINATORS
, body_bb
,
5241 recompute_dominator (CDI_DOMINATORS
, body_bb
));
5243 set_immediate_dominator (CDI_DOMINATORS
, fin_bb
,
5244 recompute_dominator (CDI_DOMINATORS
, fin_bb
));
5246 if (!broken_loop
&& !gimple_omp_for_combined_p (fd
->for_stmt
))
5248 struct loop
*loop
= alloc_loop ();
5249 loop
->header
= body_bb
;
5250 if (collapse_bb
== NULL
)
5251 loop
->latch
= cont_bb
;
5252 add_loop (loop
, body_bb
->loop_father
);
5256 /* A subroutine of expand_omp_for. Generate code for an OpenACC
5257 partitioned loop. The lowering here is abstracted, in that the
5258 loop parameters are passed through internal functions, which are
5259 further lowered by oacc_device_lower, once we get to the target
5260 compiler. The loop is of the form:
5262 for (V = B; V LTGT E; V += S) {BODY}
5264 where LTGT is < or >. We may have a specified chunking size, CHUNKING
5265 (constant 0 for no chunking) and we will have a GWV partitioning
5266 mask, specifying dimensions over which the loop is to be
5267 partitioned (see note below). We generate code that looks like
5268 (this ignores tiling):
5270 <entry_bb> [incoming FALL->body, BRANCH->exit]
5271 typedef signedintify (typeof (V)) T; // underlying signed integral type
5274 T DIR = LTGT == '<' ? +1 : -1;
5275 T chunk_max = GOACC_LOOP_CHUNK (dir, range, S, CHUNK_SIZE, GWV);
5276 T step = GOACC_LOOP_STEP (dir, range, S, CHUNK_SIZE, GWV);
5278 <head_bb> [created by splitting end of entry_bb]
5279 T offset = GOACC_LOOP_OFFSET (dir, range, S, CHUNK_SIZE, GWV, chunk_no);
5280 T bound = GOACC_LOOP_BOUND (dir, range, S, CHUNK_SIZE, GWV, offset);
5281 if (!(offset LTGT bound)) goto bottom_bb;
5283 <body_bb> [incoming]
5287 <cont_bb> [incoming, may == body_bb FALL->exit_bb, BRANCH->body_bb]
5289 if (offset LTGT bound) goto body_bb; [*]
5291 <bottom_bb> [created by splitting start of exit_bb] insert BRANCH->head_bb
5293 if (chunk < chunk_max) goto head_bb;
5295 <exit_bb> [incoming]
5296 V = B + ((range -/+ 1) / S +/- 1) * S [*]
5298 [*] Needed if V live at end of loop. */
5301 expand_oacc_for (struct omp_region
*region
, struct omp_for_data
*fd
)
5303 tree v
= fd
->loop
.v
;
5304 enum tree_code cond_code
= fd
->loop
.cond_code
;
5305 enum tree_code plus_code
= PLUS_EXPR
;
5307 tree chunk_size
= integer_minus_one_node
;
5308 tree gwv
= integer_zero_node
;
5309 tree iter_type
= TREE_TYPE (v
);
5310 tree diff_type
= iter_type
;
5311 tree plus_type
= iter_type
;
5312 struct oacc_collapse
*counts
= NULL
;
5314 gcc_checking_assert (gimple_omp_for_kind (fd
->for_stmt
)
5315 == GF_OMP_FOR_KIND_OACC_LOOP
);
5316 gcc_assert (!gimple_omp_for_combined_into_p (fd
->for_stmt
));
5317 gcc_assert (cond_code
== LT_EXPR
|| cond_code
== GT_EXPR
);
5319 if (POINTER_TYPE_P (iter_type
))
5321 plus_code
= POINTER_PLUS_EXPR
;
5322 plus_type
= sizetype
;
5324 if (POINTER_TYPE_P (diff_type
) || TYPE_UNSIGNED (diff_type
))
5325 diff_type
= signed_type_for (diff_type
);
5327 basic_block entry_bb
= region
->entry
; /* BB ending in OMP_FOR */
5328 basic_block exit_bb
= region
->exit
; /* BB ending in OMP_RETURN */
5329 basic_block cont_bb
= region
->cont
; /* BB ending in OMP_CONTINUE */
5330 basic_block bottom_bb
= NULL
;
5332 /* entry_bb has two sucessors; the branch edge is to the exit
5333 block, fallthrough edge to body. */
5334 gcc_assert (EDGE_COUNT (entry_bb
->succs
) == 2
5335 && BRANCH_EDGE (entry_bb
)->dest
== exit_bb
);
5337 /* If cont_bb non-NULL, it has 2 successors. The branch successor is
5338 body_bb, or to a block whose only successor is the body_bb. Its
5339 fallthrough successor is the final block (same as the branch
5340 successor of the entry_bb). */
5343 basic_block body_bb
= FALLTHRU_EDGE (entry_bb
)->dest
;
5344 basic_block bed
= BRANCH_EDGE (cont_bb
)->dest
;
5346 gcc_assert (FALLTHRU_EDGE (cont_bb
)->dest
== exit_bb
);
5347 gcc_assert (bed
== body_bb
|| single_succ_edge (bed
)->dest
== body_bb
);
5350 gcc_assert (!gimple_in_ssa_p (cfun
));
5352 /* The exit block only has entry_bb and cont_bb as predecessors. */
5353 gcc_assert (EDGE_COUNT (exit_bb
->preds
) == 1 + (cont_bb
!= NULL
));
5356 tree chunk_max
= NULL_TREE
;
5358 tree step
= create_tmp_var (diff_type
, ".step");
5359 bool up
= cond_code
== LT_EXPR
;
5360 tree dir
= build_int_cst (diff_type
, up
? +1 : -1);
5361 bool chunking
= !gimple_in_ssa_p (cfun
);
5365 tree tile_size
= NULL_TREE
;
5366 tree element_s
= NULL_TREE
;
5367 tree e_bound
= NULL_TREE
, e_offset
= NULL_TREE
, e_step
= NULL_TREE
;
5368 basic_block elem_body_bb
= NULL
;
5369 basic_block elem_cont_bb
= NULL
;
5371 /* SSA instances. */
5372 tree offset_incr
= NULL_TREE
;
5373 tree offset_init
= NULL_TREE
;
5375 gimple_stmt_iterator gsi
;
5381 edge split
, be
, fte
;
5383 /* Split the end of entry_bb to create head_bb. */
5384 split
= split_block (entry_bb
, last_stmt (entry_bb
));
5385 basic_block head_bb
= split
->dest
;
5386 entry_bb
= split
->src
;
5388 /* Chunk setup goes at end of entry_bb, replacing the omp_for. */
5389 gsi
= gsi_last_bb (entry_bb
);
5390 gomp_for
*for_stmt
= as_a
<gomp_for
*> (gsi_stmt (gsi
));
5391 loc
= gimple_location (for_stmt
);
5393 if (gimple_in_ssa_p (cfun
))
5395 offset_init
= gimple_omp_for_index (for_stmt
, 0);
5396 gcc_assert (integer_zerop (fd
->loop
.n1
));
5397 /* The SSA parallelizer does gang parallelism. */
5398 gwv
= build_int_cst (integer_type_node
, GOMP_DIM_MASK (GOMP_DIM_GANG
));
5401 if (fd
->collapse
> 1 || fd
->tiling
)
5403 gcc_assert (!gimple_in_ssa_p (cfun
) && up
);
5404 counts
= XALLOCAVEC (struct oacc_collapse
, fd
->collapse
);
5405 tree total
= expand_oacc_collapse_init (fd
, &gsi
, counts
,
5406 TREE_TYPE (fd
->loop
.n2
), loc
);
5408 if (SSA_VAR_P (fd
->loop
.n2
))
5410 total
= force_gimple_operand_gsi (&gsi
, total
, false, NULL_TREE
,
5411 true, GSI_SAME_STMT
);
5412 ass
= gimple_build_assign (fd
->loop
.n2
, total
);
5413 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5417 tree b
= fd
->loop
.n1
;
5418 tree e
= fd
->loop
.n2
;
5419 tree s
= fd
->loop
.step
;
5421 b
= force_gimple_operand_gsi (&gsi
, b
, true, NULL_TREE
, true, GSI_SAME_STMT
);
5422 e
= force_gimple_operand_gsi (&gsi
, e
, true, NULL_TREE
, true, GSI_SAME_STMT
);
5424 /* Convert the step, avoiding possible unsigned->signed overflow. */
5425 negating
= !up
&& TYPE_UNSIGNED (TREE_TYPE (s
));
5427 s
= fold_build1 (NEGATE_EXPR
, TREE_TYPE (s
), s
);
5428 s
= fold_convert (diff_type
, s
);
5430 s
= fold_build1 (NEGATE_EXPR
, diff_type
, s
);
5431 s
= force_gimple_operand_gsi (&gsi
, s
, true, NULL_TREE
, true, GSI_SAME_STMT
);
5434 chunk_size
= integer_zero_node
;
5435 expr
= fold_convert (diff_type
, chunk_size
);
5436 chunk_size
= force_gimple_operand_gsi (&gsi
, expr
, true,
5437 NULL_TREE
, true, GSI_SAME_STMT
);
5441 /* Determine the tile size and element step,
5442 modify the outer loop step size. */
5443 tile_size
= create_tmp_var (diff_type
, ".tile_size");
5444 expr
= build_int_cst (diff_type
, 1);
5445 for (int ix
= 0; ix
< fd
->collapse
; ix
++)
5446 expr
= fold_build2 (MULT_EXPR
, diff_type
, counts
[ix
].tile
, expr
);
5447 expr
= force_gimple_operand_gsi (&gsi
, expr
, true,
5448 NULL_TREE
, true, GSI_SAME_STMT
);
5449 ass
= gimple_build_assign (tile_size
, expr
);
5450 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5452 element_s
= create_tmp_var (diff_type
, ".element_s");
5453 ass
= gimple_build_assign (element_s
, s
);
5454 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5456 expr
= fold_build2 (MULT_EXPR
, diff_type
, s
, tile_size
);
5457 s
= force_gimple_operand_gsi (&gsi
, expr
, true,
5458 NULL_TREE
, true, GSI_SAME_STMT
);
5461 /* Determine the range, avoiding possible unsigned->signed overflow. */
5462 negating
= !up
&& TYPE_UNSIGNED (iter_type
);
5463 expr
= fold_build2 (MINUS_EXPR
, plus_type
,
5464 fold_convert (plus_type
, negating
? b
: e
),
5465 fold_convert (plus_type
, negating
? e
: b
));
5466 expr
= fold_convert (diff_type
, expr
);
5468 expr
= fold_build1 (NEGATE_EXPR
, diff_type
, expr
);
5469 tree range
= force_gimple_operand_gsi (&gsi
, expr
, true,
5470 NULL_TREE
, true, GSI_SAME_STMT
);
5472 chunk_no
= build_int_cst (diff_type
, 0);
5475 gcc_assert (!gimple_in_ssa_p (cfun
));
5478 chunk_max
= create_tmp_var (diff_type
, ".chunk_max");
5479 chunk_no
= create_tmp_var (diff_type
, ".chunk_no");
5481 ass
= gimple_build_assign (chunk_no
, expr
);
5482 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5484 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 6,
5485 build_int_cst (integer_type_node
,
5486 IFN_GOACC_LOOP_CHUNKS
),
5487 dir
, range
, s
, chunk_size
, gwv
);
5488 gimple_call_set_lhs (call
, chunk_max
);
5489 gimple_set_location (call
, loc
);
5490 gsi_insert_before (&gsi
, call
, GSI_SAME_STMT
);
5493 chunk_size
= chunk_no
;
5495 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 6,
5496 build_int_cst (integer_type_node
,
5497 IFN_GOACC_LOOP_STEP
),
5498 dir
, range
, s
, chunk_size
, gwv
);
5499 gimple_call_set_lhs (call
, step
);
5500 gimple_set_location (call
, loc
);
5501 gsi_insert_before (&gsi
, call
, GSI_SAME_STMT
);
5503 /* Remove the GIMPLE_OMP_FOR. */
5504 gsi_remove (&gsi
, true);
5506 /* Fixup edges from head_bb. */
5507 be
= BRANCH_EDGE (head_bb
);
5508 fte
= FALLTHRU_EDGE (head_bb
);
5509 be
->flags
|= EDGE_FALSE_VALUE
;
5510 fte
->flags
^= EDGE_FALLTHRU
| EDGE_TRUE_VALUE
;
5512 basic_block body_bb
= fte
->dest
;
5514 if (gimple_in_ssa_p (cfun
))
5516 gsi
= gsi_last_bb (cont_bb
);
5517 gomp_continue
*cont_stmt
= as_a
<gomp_continue
*> (gsi_stmt (gsi
));
5519 offset
= gimple_omp_continue_control_use (cont_stmt
);
5520 offset_incr
= gimple_omp_continue_control_def (cont_stmt
);
5524 offset
= create_tmp_var (diff_type
, ".offset");
5525 offset_init
= offset_incr
= offset
;
5527 bound
= create_tmp_var (TREE_TYPE (offset
), ".bound");
5529 /* Loop offset & bound go into head_bb. */
5530 gsi
= gsi_start_bb (head_bb
);
5532 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 7,
5533 build_int_cst (integer_type_node
,
5534 IFN_GOACC_LOOP_OFFSET
),
5536 chunk_size
, gwv
, chunk_no
);
5537 gimple_call_set_lhs (call
, offset_init
);
5538 gimple_set_location (call
, loc
);
5539 gsi_insert_after (&gsi
, call
, GSI_CONTINUE_LINKING
);
5541 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 7,
5542 build_int_cst (integer_type_node
,
5543 IFN_GOACC_LOOP_BOUND
),
5545 chunk_size
, gwv
, offset_init
);
5546 gimple_call_set_lhs (call
, bound
);
5547 gimple_set_location (call
, loc
);
5548 gsi_insert_after (&gsi
, call
, GSI_CONTINUE_LINKING
);
5550 expr
= build2 (cond_code
, boolean_type_node
, offset_init
, bound
);
5551 gsi_insert_after (&gsi
, gimple_build_cond_empty (expr
),
5552 GSI_CONTINUE_LINKING
);
5554 /* V assignment goes into body_bb. */
5555 if (!gimple_in_ssa_p (cfun
))
5557 gsi
= gsi_start_bb (body_bb
);
5559 expr
= build2 (plus_code
, iter_type
, b
,
5560 fold_convert (plus_type
, offset
));
5561 expr
= force_gimple_operand_gsi (&gsi
, expr
, false, NULL_TREE
,
5562 true, GSI_SAME_STMT
);
5563 ass
= gimple_build_assign (v
, expr
);
5564 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5566 if (fd
->collapse
> 1 || fd
->tiling
)
5567 expand_oacc_collapse_vars (fd
, false, &gsi
, counts
, v
);
5571 /* Determine the range of the element loop -- usually simply
5572 the tile_size, but could be smaller if the final
5573 iteration of the outer loop is a partial tile. */
5574 tree e_range
= create_tmp_var (diff_type
, ".e_range");
5576 expr
= build2 (MIN_EXPR
, diff_type
,
5577 build2 (MINUS_EXPR
, diff_type
, bound
, offset
),
5578 build2 (MULT_EXPR
, diff_type
, tile_size
,
5580 expr
= force_gimple_operand_gsi (&gsi
, expr
, false, NULL_TREE
,
5581 true, GSI_SAME_STMT
);
5582 ass
= gimple_build_assign (e_range
, expr
);
5583 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5585 /* Determine bound, offset & step of inner loop. */
5586 e_bound
= create_tmp_var (diff_type
, ".e_bound");
5587 e_offset
= create_tmp_var (diff_type
, ".e_offset");
5588 e_step
= create_tmp_var (diff_type
, ".e_step");
5590 /* Mark these as element loops. */
5591 tree t
, e_gwv
= integer_minus_one_node
;
5592 tree chunk
= build_int_cst (diff_type
, 0); /* Never chunked. */
5594 t
= build_int_cst (integer_type_node
, IFN_GOACC_LOOP_OFFSET
);
5595 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 7, t
, dir
, e_range
,
5596 element_s
, chunk
, e_gwv
, chunk
);
5597 gimple_call_set_lhs (call
, e_offset
);
5598 gimple_set_location (call
, loc
);
5599 gsi_insert_before (&gsi
, call
, GSI_SAME_STMT
);
5601 t
= build_int_cst (integer_type_node
, IFN_GOACC_LOOP_BOUND
);
5602 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 7, t
, dir
, e_range
,
5603 element_s
, chunk
, e_gwv
, e_offset
);
5604 gimple_call_set_lhs (call
, e_bound
);
5605 gimple_set_location (call
, loc
);
5606 gsi_insert_before (&gsi
, call
, GSI_SAME_STMT
);
5608 t
= build_int_cst (integer_type_node
, IFN_GOACC_LOOP_STEP
);
5609 call
= gimple_build_call_internal (IFN_GOACC_LOOP
, 6, t
, dir
, e_range
,
5610 element_s
, chunk
, e_gwv
);
5611 gimple_call_set_lhs (call
, e_step
);
5612 gimple_set_location (call
, loc
);
5613 gsi_insert_before (&gsi
, call
, GSI_SAME_STMT
);
5615 /* Add test and split block. */
5616 expr
= build2 (cond_code
, boolean_type_node
, e_offset
, e_bound
);
5617 stmt
= gimple_build_cond_empty (expr
);
5618 gsi_insert_before (&gsi
, stmt
, GSI_SAME_STMT
);
5619 split
= split_block (body_bb
, stmt
);
5620 elem_body_bb
= split
->dest
;
5621 if (cont_bb
== body_bb
)
5622 cont_bb
= elem_body_bb
;
5623 body_bb
= split
->src
;
5625 split
->flags
^= EDGE_FALLTHRU
| EDGE_TRUE_VALUE
;
5627 /* Initialize the user's loop vars. */
5628 gsi
= gsi_start_bb (elem_body_bb
);
5629 expand_oacc_collapse_vars (fd
, true, &gsi
, counts
, e_offset
);
5633 /* Loop increment goes into cont_bb. If this is not a loop, we
5634 will have spawned threads as if it was, and each one will
5635 execute one iteration. The specification is not explicit about
5636 whether such constructs are ill-formed or not, and they can
5637 occur, especially when noreturn routines are involved. */
5640 gsi
= gsi_last_bb (cont_bb
);
5641 gomp_continue
*cont_stmt
= as_a
<gomp_continue
*> (gsi_stmt (gsi
));
5642 loc
= gimple_location (cont_stmt
);
5646 /* Insert element loop increment and test. */
5647 expr
= build2 (PLUS_EXPR
, diff_type
, e_offset
, e_step
);
5648 expr
= force_gimple_operand_gsi (&gsi
, expr
, false, NULL_TREE
,
5649 true, GSI_SAME_STMT
);
5650 ass
= gimple_build_assign (e_offset
, expr
);
5651 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5652 expr
= build2 (cond_code
, boolean_type_node
, e_offset
, e_bound
);
5654 stmt
= gimple_build_cond_empty (expr
);
5655 gsi_insert_before (&gsi
, stmt
, GSI_SAME_STMT
);
5656 split
= split_block (cont_bb
, stmt
);
5657 elem_cont_bb
= split
->src
;
5658 cont_bb
= split
->dest
;
5660 split
->flags
^= EDGE_FALLTHRU
| EDGE_FALSE_VALUE
;
5661 make_edge (elem_cont_bb
, elem_body_bb
, EDGE_TRUE_VALUE
);
5663 make_edge (body_bb
, cont_bb
, EDGE_FALSE_VALUE
);
5665 gsi
= gsi_for_stmt (cont_stmt
);
5668 /* Increment offset. */
5669 if (gimple_in_ssa_p (cfun
))
5670 expr
= build2 (plus_code
, iter_type
, offset
,
5671 fold_convert (plus_type
, step
));
5673 expr
= build2 (PLUS_EXPR
, diff_type
, offset
, step
);
5674 expr
= force_gimple_operand_gsi (&gsi
, expr
, false, NULL_TREE
,
5675 true, GSI_SAME_STMT
);
5676 ass
= gimple_build_assign (offset_incr
, expr
);
5677 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5678 expr
= build2 (cond_code
, boolean_type_node
, offset_incr
, bound
);
5679 gsi_insert_before (&gsi
, gimple_build_cond_empty (expr
), GSI_SAME_STMT
);
5681 /* Remove the GIMPLE_OMP_CONTINUE. */
5682 gsi_remove (&gsi
, true);
5684 /* Fixup edges from cont_bb. */
5685 be
= BRANCH_EDGE (cont_bb
);
5686 fte
= FALLTHRU_EDGE (cont_bb
);
5687 be
->flags
|= EDGE_TRUE_VALUE
;
5688 fte
->flags
^= EDGE_FALLTHRU
| EDGE_FALSE_VALUE
;
5692 /* Split the beginning of exit_bb to make bottom_bb. We
5693 need to insert a nop at the start, because splitting is
5694 after a stmt, not before. */
5695 gsi
= gsi_start_bb (exit_bb
);
5696 stmt
= gimple_build_nop ();
5697 gsi_insert_before (&gsi
, stmt
, GSI_SAME_STMT
);
5698 split
= split_block (exit_bb
, stmt
);
5699 bottom_bb
= split
->src
;
5700 exit_bb
= split
->dest
;
5701 gsi
= gsi_last_bb (bottom_bb
);
5703 /* Chunk increment and test goes into bottom_bb. */
5704 expr
= build2 (PLUS_EXPR
, diff_type
, chunk_no
,
5705 build_int_cst (diff_type
, 1));
5706 ass
= gimple_build_assign (chunk_no
, expr
);
5707 gsi_insert_after (&gsi
, ass
, GSI_CONTINUE_LINKING
);
5709 /* Chunk test at end of bottom_bb. */
5710 expr
= build2 (LT_EXPR
, boolean_type_node
, chunk_no
, chunk_max
);
5711 gsi_insert_after (&gsi
, gimple_build_cond_empty (expr
),
5712 GSI_CONTINUE_LINKING
);
5714 /* Fixup edges from bottom_bb. */
5715 split
->flags
^= EDGE_FALLTHRU
| EDGE_FALSE_VALUE
;
5716 make_edge (bottom_bb
, head_bb
, EDGE_TRUE_VALUE
);
5720 gsi
= gsi_last_bb (exit_bb
);
5721 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_RETURN
);
5722 loc
= gimple_location (gsi_stmt (gsi
));
5724 if (!gimple_in_ssa_p (cfun
))
5726 /* Insert the final value of V, in case it is live. This is the
5727 value for the only thread that survives past the join. */
5728 expr
= fold_build2 (MINUS_EXPR
, diff_type
, range
, dir
);
5729 expr
= fold_build2 (PLUS_EXPR
, diff_type
, expr
, s
);
5730 expr
= fold_build2 (TRUNC_DIV_EXPR
, diff_type
, expr
, s
);
5731 expr
= fold_build2 (MULT_EXPR
, diff_type
, expr
, s
);
5732 expr
= build2 (plus_code
, iter_type
, b
, fold_convert (plus_type
, expr
));
5733 expr
= force_gimple_operand_gsi (&gsi
, expr
, false, NULL_TREE
,
5734 true, GSI_SAME_STMT
);
5735 ass
= gimple_build_assign (v
, expr
);
5736 gsi_insert_before (&gsi
, ass
, GSI_SAME_STMT
);
5739 /* Remove the OMP_RETURN. */
5740 gsi_remove (&gsi
, true);
5744 /* We now have one, two or three nested loops. Update the loop
5746 struct loop
*parent
= entry_bb
->loop_father
;
5747 struct loop
*body
= body_bb
->loop_father
;
5751 struct loop
*chunk_loop
= alloc_loop ();
5752 chunk_loop
->header
= head_bb
;
5753 chunk_loop
->latch
= bottom_bb
;
5754 add_loop (chunk_loop
, parent
);
5755 parent
= chunk_loop
;
5757 else if (parent
!= body
)
5759 gcc_assert (body
->header
== body_bb
);
5760 gcc_assert (body
->latch
== cont_bb
5761 || single_pred (body
->latch
) == cont_bb
);
5767 struct loop
*body_loop
= alloc_loop ();
5768 body_loop
->header
= body_bb
;
5769 body_loop
->latch
= cont_bb
;
5770 add_loop (body_loop
, parent
);
5774 /* Insert tiling's element loop. */
5775 struct loop
*inner_loop
= alloc_loop ();
5776 inner_loop
->header
= elem_body_bb
;
5777 inner_loop
->latch
= elem_cont_bb
;
5778 add_loop (inner_loop
, body_loop
);
5784 /* Expand the OMP loop defined by REGION. */
5787 expand_omp_for (struct omp_region
*region
, gimple
*inner_stmt
)
5789 struct omp_for_data fd
;
5790 struct omp_for_data_loop
*loops
;
5793 = (struct omp_for_data_loop
*)
5794 alloca (gimple_omp_for_collapse (last_stmt (region
->entry
))
5795 * sizeof (struct omp_for_data_loop
));
5796 omp_extract_for_data (as_a
<gomp_for
*> (last_stmt (region
->entry
)),
5798 region
->sched_kind
= fd
.sched_kind
;
5799 region
->sched_modifiers
= fd
.sched_modifiers
;
5801 gcc_assert (EDGE_COUNT (region
->entry
->succs
) == 2);
5802 BRANCH_EDGE (region
->entry
)->flags
&= ~EDGE_ABNORMAL
;
5803 FALLTHRU_EDGE (region
->entry
)->flags
&= ~EDGE_ABNORMAL
;
5806 gcc_assert (EDGE_COUNT (region
->cont
->succs
) == 2);
5807 BRANCH_EDGE (region
->cont
)->flags
&= ~EDGE_ABNORMAL
;
5808 FALLTHRU_EDGE (region
->cont
)->flags
&= ~EDGE_ABNORMAL
;
5811 /* If there isn't a continue then this is a degerate case where
5812 the introduction of abnormal edges during lowering will prevent
5813 original loops from being detected. Fix that up. */
5814 loops_state_set (LOOPS_NEED_FIXUP
);
5816 if (gimple_omp_for_kind (fd
.for_stmt
) & GF_OMP_FOR_SIMD
)
5817 expand_omp_simd (region
, &fd
);
5818 else if (gimple_omp_for_kind (fd
.for_stmt
) == GF_OMP_FOR_KIND_CILKFOR
)
5819 expand_cilk_for (region
, &fd
);
5820 else if (gimple_omp_for_kind (fd
.for_stmt
) == GF_OMP_FOR_KIND_OACC_LOOP
)
5822 gcc_assert (!inner_stmt
);
5823 expand_oacc_for (region
, &fd
);
5825 else if (gimple_omp_for_kind (fd
.for_stmt
) == GF_OMP_FOR_KIND_TASKLOOP
)
5827 if (gimple_omp_for_combined_into_p (fd
.for_stmt
))
5828 expand_omp_taskloop_for_inner (region
, &fd
, inner_stmt
);
5830 expand_omp_taskloop_for_outer (region
, &fd
, inner_stmt
);
5832 else if (fd
.sched_kind
== OMP_CLAUSE_SCHEDULE_STATIC
5833 && !fd
.have_ordered
)
5835 if (fd
.chunk_size
== NULL
)
5836 expand_omp_for_static_nochunk (region
, &fd
, inner_stmt
);
5838 expand_omp_for_static_chunk (region
, &fd
, inner_stmt
);
5842 int fn_index
, start_ix
, next_ix
;
5844 gcc_assert (gimple_omp_for_kind (fd
.for_stmt
)
5845 == GF_OMP_FOR_KIND_FOR
);
5846 if (fd
.chunk_size
== NULL
5847 && fd
.sched_kind
== OMP_CLAUSE_SCHEDULE_STATIC
)
5848 fd
.chunk_size
= integer_zero_node
;
5849 gcc_assert (fd
.sched_kind
!= OMP_CLAUSE_SCHEDULE_AUTO
);
5850 switch (fd
.sched_kind
)
5852 case OMP_CLAUSE_SCHEDULE_RUNTIME
:
5855 case OMP_CLAUSE_SCHEDULE_DYNAMIC
:
5856 case OMP_CLAUSE_SCHEDULE_GUIDED
:
5857 if ((fd
.sched_modifiers
& OMP_CLAUSE_SCHEDULE_NONMONOTONIC
)
5859 && !fd
.have_ordered
)
5861 fn_index
= 3 + fd
.sched_kind
;
5866 fn_index
= fd
.sched_kind
;
5870 fn_index
+= fd
.have_ordered
* 6;
5872 start_ix
= ((int)BUILT_IN_GOMP_LOOP_DOACROSS_STATIC_START
) + fn_index
;
5874 start_ix
= ((int)BUILT_IN_GOMP_LOOP_STATIC_START
) + fn_index
;
5875 next_ix
= ((int)BUILT_IN_GOMP_LOOP_STATIC_NEXT
) + fn_index
;
5876 if (fd
.iter_type
== long_long_unsigned_type_node
)
5878 start_ix
+= ((int)BUILT_IN_GOMP_LOOP_ULL_STATIC_START
5879 - (int)BUILT_IN_GOMP_LOOP_STATIC_START
);
5880 next_ix
+= ((int)BUILT_IN_GOMP_LOOP_ULL_STATIC_NEXT
5881 - (int)BUILT_IN_GOMP_LOOP_STATIC_NEXT
);
5883 expand_omp_for_generic (region
, &fd
, (enum built_in_function
) start_ix
,
5884 (enum built_in_function
) next_ix
, inner_stmt
);
5887 if (gimple_in_ssa_p (cfun
))
5888 update_ssa (TODO_update_ssa_only_virtuals
);
5891 /* Expand code for an OpenMP sections directive. In pseudo code, we generate
5893 v = GOMP_sections_start (n);
5910 v = GOMP_sections_next ();
5915 If this is a combined parallel sections, replace the call to
5916 GOMP_sections_start with call to GOMP_sections_next. */
5919 expand_omp_sections (struct omp_region
*region
)
5921 tree t
, u
, vin
= NULL
, vmain
, vnext
, l2
;
5923 basic_block entry_bb
, l0_bb
, l1_bb
, l2_bb
, default_bb
;
5924 gimple_stmt_iterator si
, switch_si
;
5925 gomp_sections
*sections_stmt
;
5927 gomp_continue
*cont
;
5930 struct omp_region
*inner
;
5932 bool exit_reachable
= region
->cont
!= NULL
;
5934 gcc_assert (region
->exit
!= NULL
);
5935 entry_bb
= region
->entry
;
5936 l0_bb
= single_succ (entry_bb
);
5937 l1_bb
= region
->cont
;
5938 l2_bb
= region
->exit
;
5939 if (single_pred_p (l2_bb
) && single_pred (l2_bb
) == l0_bb
)
5940 l2
= gimple_block_label (l2_bb
);
5943 /* This can happen if there are reductions. */
5944 len
= EDGE_COUNT (l0_bb
->succs
);
5945 gcc_assert (len
> 0);
5946 e
= EDGE_SUCC (l0_bb
, len
- 1);
5947 si
= gsi_last_bb (e
->dest
);
5950 || gimple_code (gsi_stmt (si
)) != GIMPLE_OMP_SECTION
)
5951 l2
= gimple_block_label (e
->dest
);
5953 FOR_EACH_EDGE (e
, ei
, l0_bb
->succs
)
5955 si
= gsi_last_bb (e
->dest
);
5957 || gimple_code (gsi_stmt (si
)) != GIMPLE_OMP_SECTION
)
5959 l2
= gimple_block_label (e
->dest
);
5965 default_bb
= create_empty_bb (l1_bb
->prev_bb
);
5967 default_bb
= create_empty_bb (l0_bb
);
5969 /* We will build a switch() with enough cases for all the
5970 GIMPLE_OMP_SECTION regions, a '0' case to handle the end of more work
5971 and a default case to abort if something goes wrong. */
5972 len
= EDGE_COUNT (l0_bb
->succs
);
5974 /* Use vec::quick_push on label_vec throughout, since we know the size
5976 auto_vec
<tree
> label_vec (len
);
5978 /* The call to GOMP_sections_start goes in ENTRY_BB, replacing the
5979 GIMPLE_OMP_SECTIONS statement. */
5980 si
= gsi_last_bb (entry_bb
);
5981 sections_stmt
= as_a
<gomp_sections
*> (gsi_stmt (si
));
5982 gcc_assert (gimple_code (sections_stmt
) == GIMPLE_OMP_SECTIONS
);
5983 vin
= gimple_omp_sections_control (sections_stmt
);
5984 if (!is_combined_parallel (region
))
5986 /* If we are not inside a combined parallel+sections region,
5987 call GOMP_sections_start. */
5988 t
= build_int_cst (unsigned_type_node
, len
- 1);
5989 u
= builtin_decl_explicit (BUILT_IN_GOMP_SECTIONS_START
);
5990 stmt
= gimple_build_call (u
, 1, t
);
5994 /* Otherwise, call GOMP_sections_next. */
5995 u
= builtin_decl_explicit (BUILT_IN_GOMP_SECTIONS_NEXT
);
5996 stmt
= gimple_build_call (u
, 0);
5998 gimple_call_set_lhs (stmt
, vin
);
5999 gsi_insert_after (&si
, stmt
, GSI_SAME_STMT
);
6000 gsi_remove (&si
, true);
6002 /* The switch() statement replacing GIMPLE_OMP_SECTIONS_SWITCH goes in
6004 switch_si
= gsi_last_bb (l0_bb
);
6005 gcc_assert (gimple_code (gsi_stmt (switch_si
)) == GIMPLE_OMP_SECTIONS_SWITCH
);
6008 cont
= as_a
<gomp_continue
*> (last_stmt (l1_bb
));
6009 gcc_assert (gimple_code (cont
) == GIMPLE_OMP_CONTINUE
);
6010 vmain
= gimple_omp_continue_control_use (cont
);
6011 vnext
= gimple_omp_continue_control_def (cont
);
6019 t
= build_case_label (build_int_cst (unsigned_type_node
, 0), NULL
, l2
);
6020 label_vec
.quick_push (t
);
6023 /* Convert each GIMPLE_OMP_SECTION into a CASE_LABEL_EXPR. */
6024 for (inner
= region
->inner
, casei
= 1;
6026 inner
= inner
->next
, i
++, casei
++)
6028 basic_block s_entry_bb
, s_exit_bb
;
6030 /* Skip optional reduction region. */
6031 if (inner
->type
== GIMPLE_OMP_ATOMIC_LOAD
)
6038 s_entry_bb
= inner
->entry
;
6039 s_exit_bb
= inner
->exit
;
6041 t
= gimple_block_label (s_entry_bb
);
6042 u
= build_int_cst (unsigned_type_node
, casei
);
6043 u
= build_case_label (u
, NULL
, t
);
6044 label_vec
.quick_push (u
);
6046 si
= gsi_last_bb (s_entry_bb
);
6047 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_SECTION
);
6048 gcc_assert (i
< len
|| gimple_omp_section_last_p (gsi_stmt (si
)));
6049 gsi_remove (&si
, true);
6050 single_succ_edge (s_entry_bb
)->flags
= EDGE_FALLTHRU
;
6052 if (s_exit_bb
== NULL
)
6055 si
= gsi_last_bb (s_exit_bb
);
6056 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_RETURN
);
6057 gsi_remove (&si
, true);
6059 single_succ_edge (s_exit_bb
)->flags
= EDGE_FALLTHRU
;
6062 /* Error handling code goes in DEFAULT_BB. */
6063 t
= gimple_block_label (default_bb
);
6064 u
= build_case_label (NULL
, NULL
, t
);
6065 make_edge (l0_bb
, default_bb
, 0);
6066 add_bb_to_loop (default_bb
, current_loops
->tree_root
);
6068 stmt
= gimple_build_switch (vmain
, u
, label_vec
);
6069 gsi_insert_after (&switch_si
, stmt
, GSI_SAME_STMT
);
6070 gsi_remove (&switch_si
, true);
6072 si
= gsi_start_bb (default_bb
);
6073 stmt
= gimple_build_call (builtin_decl_explicit (BUILT_IN_TRAP
), 0);
6074 gsi_insert_after (&si
, stmt
, GSI_CONTINUE_LINKING
);
6080 /* Code to get the next section goes in L1_BB. */
6081 si
= gsi_last_bb (l1_bb
);
6082 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_CONTINUE
);
6084 bfn_decl
= builtin_decl_explicit (BUILT_IN_GOMP_SECTIONS_NEXT
);
6085 stmt
= gimple_build_call (bfn_decl
, 0);
6086 gimple_call_set_lhs (stmt
, vnext
);
6087 gsi_insert_after (&si
, stmt
, GSI_SAME_STMT
);
6088 gsi_remove (&si
, true);
6090 single_succ_edge (l1_bb
)->flags
= EDGE_FALLTHRU
;
6093 /* Cleanup function replaces GIMPLE_OMP_RETURN in EXIT_BB. */
6094 si
= gsi_last_bb (l2_bb
);
6095 if (gimple_omp_return_nowait_p (gsi_stmt (si
)))
6096 t
= builtin_decl_explicit (BUILT_IN_GOMP_SECTIONS_END_NOWAIT
);
6097 else if (gimple_omp_return_lhs (gsi_stmt (si
)))
6098 t
= builtin_decl_explicit (BUILT_IN_GOMP_SECTIONS_END_CANCEL
);
6100 t
= builtin_decl_explicit (BUILT_IN_GOMP_SECTIONS_END
);
6101 stmt
= gimple_build_call (t
, 0);
6102 if (gimple_omp_return_lhs (gsi_stmt (si
)))
6103 gimple_call_set_lhs (stmt
, gimple_omp_return_lhs (gsi_stmt (si
)));
6104 gsi_insert_after (&si
, stmt
, GSI_SAME_STMT
);
6105 gsi_remove (&si
, true);
6107 set_immediate_dominator (CDI_DOMINATORS
, default_bb
, l0_bb
);
6110 /* Expand code for an OpenMP single directive. We've already expanded
6111 much of the code, here we simply place the GOMP_barrier call. */
6114 expand_omp_single (struct omp_region
*region
)
6116 basic_block entry_bb
, exit_bb
;
6117 gimple_stmt_iterator si
;
6119 entry_bb
= region
->entry
;
6120 exit_bb
= region
->exit
;
6122 si
= gsi_last_bb (entry_bb
);
6123 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_SINGLE
);
6124 gsi_remove (&si
, true);
6125 single_succ_edge (entry_bb
)->flags
= EDGE_FALLTHRU
;
6127 si
= gsi_last_bb (exit_bb
);
6128 if (!gimple_omp_return_nowait_p (gsi_stmt (si
)))
6130 tree t
= gimple_omp_return_lhs (gsi_stmt (si
));
6131 gsi_insert_after (&si
, omp_build_barrier (t
), GSI_SAME_STMT
);
6133 gsi_remove (&si
, true);
6134 single_succ_edge (exit_bb
)->flags
= EDGE_FALLTHRU
;
6137 /* Generic expansion for OpenMP synchronization directives: master,
6138 ordered and critical. All we need to do here is remove the entry
6139 and exit markers for REGION. */
6142 expand_omp_synch (struct omp_region
*region
)
6144 basic_block entry_bb
, exit_bb
;
6145 gimple_stmt_iterator si
;
6147 entry_bb
= region
->entry
;
6148 exit_bb
= region
->exit
;
6150 si
= gsi_last_bb (entry_bb
);
6151 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_SINGLE
6152 || gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_MASTER
6153 || gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_TASKGROUP
6154 || gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_ORDERED
6155 || gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_CRITICAL
6156 || gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_TEAMS
);
6157 gsi_remove (&si
, true);
6158 single_succ_edge (entry_bb
)->flags
= EDGE_FALLTHRU
;
6162 si
= gsi_last_bb (exit_bb
);
6163 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_RETURN
);
6164 gsi_remove (&si
, true);
6165 single_succ_edge (exit_bb
)->flags
= EDGE_FALLTHRU
;
6169 /* A subroutine of expand_omp_atomic. Attempt to implement the atomic
6170 operation as a normal volatile load. */
6173 expand_omp_atomic_load (basic_block load_bb
, tree addr
,
6174 tree loaded_val
, int index
)
6176 enum built_in_function tmpbase
;
6177 gimple_stmt_iterator gsi
;
6178 basic_block store_bb
;
6181 tree decl
, call
, type
, itype
;
6183 gsi
= gsi_last_bb (load_bb
);
6184 stmt
= gsi_stmt (gsi
);
6185 gcc_assert (gimple_code (stmt
) == GIMPLE_OMP_ATOMIC_LOAD
);
6186 loc
= gimple_location (stmt
);
6188 /* ??? If the target does not implement atomic_load_optab[mode], and mode
6189 is smaller than word size, then expand_atomic_load assumes that the load
6190 is atomic. We could avoid the builtin entirely in this case. */
6192 tmpbase
= (enum built_in_function
) (BUILT_IN_ATOMIC_LOAD_N
+ index
+ 1);
6193 decl
= builtin_decl_explicit (tmpbase
);
6194 if (decl
== NULL_TREE
)
6197 type
= TREE_TYPE (loaded_val
);
6198 itype
= TREE_TYPE (TREE_TYPE (decl
));
6200 call
= build_call_expr_loc (loc
, decl
, 2, addr
,
6201 build_int_cst (NULL
,
6202 gimple_omp_atomic_seq_cst_p (stmt
)
6204 : MEMMODEL_RELAXED
));
6205 if (!useless_type_conversion_p (type
, itype
))
6206 call
= fold_build1_loc (loc
, VIEW_CONVERT_EXPR
, type
, call
);
6207 call
= build2_loc (loc
, MODIFY_EXPR
, void_type_node
, loaded_val
, call
);
6209 force_gimple_operand_gsi (&gsi
, call
, true, NULL_TREE
, true, GSI_SAME_STMT
);
6210 gsi_remove (&gsi
, true);
6212 store_bb
= single_succ (load_bb
);
6213 gsi
= gsi_last_bb (store_bb
);
6214 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_ATOMIC_STORE
);
6215 gsi_remove (&gsi
, true);
6217 if (gimple_in_ssa_p (cfun
))
6218 update_ssa (TODO_update_ssa_no_phi
);
6223 /* A subroutine of expand_omp_atomic. Attempt to implement the atomic
6224 operation as a normal volatile store. */
6227 expand_omp_atomic_store (basic_block load_bb
, tree addr
,
6228 tree loaded_val
, tree stored_val
, int index
)
6230 enum built_in_function tmpbase
;
6231 gimple_stmt_iterator gsi
;
6232 basic_block store_bb
= single_succ (load_bb
);
6235 tree decl
, call
, type
, itype
;
6239 gsi
= gsi_last_bb (load_bb
);
6240 stmt
= gsi_stmt (gsi
);
6241 gcc_assert (gimple_code (stmt
) == GIMPLE_OMP_ATOMIC_LOAD
);
6243 /* If the load value is needed, then this isn't a store but an exchange. */
6244 exchange
= gimple_omp_atomic_need_value_p (stmt
);
6246 gsi
= gsi_last_bb (store_bb
);
6247 stmt
= gsi_stmt (gsi
);
6248 gcc_assert (gimple_code (stmt
) == GIMPLE_OMP_ATOMIC_STORE
);
6249 loc
= gimple_location (stmt
);
6251 /* ??? If the target does not implement atomic_store_optab[mode], and mode
6252 is smaller than word size, then expand_atomic_store assumes that the store
6253 is atomic. We could avoid the builtin entirely in this case. */
6255 tmpbase
= (exchange
? BUILT_IN_ATOMIC_EXCHANGE_N
: BUILT_IN_ATOMIC_STORE_N
);
6256 tmpbase
= (enum built_in_function
) ((int) tmpbase
+ index
+ 1);
6257 decl
= builtin_decl_explicit (tmpbase
);
6258 if (decl
== NULL_TREE
)
6261 type
= TREE_TYPE (stored_val
);
6263 /* Dig out the type of the function's second argument. */
6264 itype
= TREE_TYPE (decl
);
6265 itype
= TYPE_ARG_TYPES (itype
);
6266 itype
= TREE_CHAIN (itype
);
6267 itype
= TREE_VALUE (itype
);
6268 imode
= TYPE_MODE (itype
);
6270 if (exchange
&& !can_atomic_exchange_p (imode
, true))
6273 if (!useless_type_conversion_p (itype
, type
))
6274 stored_val
= fold_build1_loc (loc
, VIEW_CONVERT_EXPR
, itype
, stored_val
);
6275 call
= build_call_expr_loc (loc
, decl
, 3, addr
, stored_val
,
6276 build_int_cst (NULL
,
6277 gimple_omp_atomic_seq_cst_p (stmt
)
6279 : MEMMODEL_RELAXED
));
6282 if (!useless_type_conversion_p (type
, itype
))
6283 call
= build1_loc (loc
, VIEW_CONVERT_EXPR
, type
, call
);
6284 call
= build2_loc (loc
, MODIFY_EXPR
, void_type_node
, loaded_val
, call
);
6287 force_gimple_operand_gsi (&gsi
, call
, true, NULL_TREE
, true, GSI_SAME_STMT
);
6288 gsi_remove (&gsi
, true);
6290 /* Remove the GIMPLE_OMP_ATOMIC_LOAD that we verified above. */
6291 gsi
= gsi_last_bb (load_bb
);
6292 gsi_remove (&gsi
, true);
6294 if (gimple_in_ssa_p (cfun
))
6295 update_ssa (TODO_update_ssa_no_phi
);
6300 /* A subroutine of expand_omp_atomic. Attempt to implement the atomic
6301 operation as a __atomic_fetch_op builtin. INDEX is log2 of the
6302 size of the data type, and thus usable to find the index of the builtin
6303 decl. Returns false if the expression is not of the proper form. */
6306 expand_omp_atomic_fetch_op (basic_block load_bb
,
6307 tree addr
, tree loaded_val
,
6308 tree stored_val
, int index
)
6310 enum built_in_function oldbase
, newbase
, tmpbase
;
6311 tree decl
, itype
, call
;
6313 basic_block store_bb
= single_succ (load_bb
);
6314 gimple_stmt_iterator gsi
;
6317 enum tree_code code
;
6318 bool need_old
, need_new
;
6322 /* We expect to find the following sequences:
6325 GIMPLE_OMP_ATOMIC_LOAD (tmp, mem)
6328 val = tmp OP something; (or: something OP tmp)
6329 GIMPLE_OMP_STORE (val)
6331 ???FIXME: Allow a more flexible sequence.
6332 Perhaps use data flow to pick the statements.
6336 gsi
= gsi_after_labels (store_bb
);
6337 stmt
= gsi_stmt (gsi
);
6338 loc
= gimple_location (stmt
);
6339 if (!is_gimple_assign (stmt
))
6342 if (gimple_code (gsi_stmt (gsi
)) != GIMPLE_OMP_ATOMIC_STORE
)
6344 need_new
= gimple_omp_atomic_need_value_p (gsi_stmt (gsi
));
6345 need_old
= gimple_omp_atomic_need_value_p (last_stmt (load_bb
));
6346 seq_cst
= gimple_omp_atomic_seq_cst_p (last_stmt (load_bb
));
6347 gcc_checking_assert (!need_old
|| !need_new
);
6349 if (!operand_equal_p (gimple_assign_lhs (stmt
), stored_val
, 0))
6352 /* Check for one of the supported fetch-op operations. */
6353 code
= gimple_assign_rhs_code (stmt
);
6357 case POINTER_PLUS_EXPR
:
6358 oldbase
= BUILT_IN_ATOMIC_FETCH_ADD_N
;
6359 newbase
= BUILT_IN_ATOMIC_ADD_FETCH_N
;
6362 oldbase
= BUILT_IN_ATOMIC_FETCH_SUB_N
;
6363 newbase
= BUILT_IN_ATOMIC_SUB_FETCH_N
;
6366 oldbase
= BUILT_IN_ATOMIC_FETCH_AND_N
;
6367 newbase
= BUILT_IN_ATOMIC_AND_FETCH_N
;
6370 oldbase
= BUILT_IN_ATOMIC_FETCH_OR_N
;
6371 newbase
= BUILT_IN_ATOMIC_OR_FETCH_N
;
6374 oldbase
= BUILT_IN_ATOMIC_FETCH_XOR_N
;
6375 newbase
= BUILT_IN_ATOMIC_XOR_FETCH_N
;
6381 /* Make sure the expression is of the proper form. */
6382 if (operand_equal_p (gimple_assign_rhs1 (stmt
), loaded_val
, 0))
6383 rhs
= gimple_assign_rhs2 (stmt
);
6384 else if (commutative_tree_code (gimple_assign_rhs_code (stmt
))
6385 && operand_equal_p (gimple_assign_rhs2 (stmt
), loaded_val
, 0))
6386 rhs
= gimple_assign_rhs1 (stmt
);
6390 tmpbase
= ((enum built_in_function
)
6391 ((need_new
? newbase
: oldbase
) + index
+ 1));
6392 decl
= builtin_decl_explicit (tmpbase
);
6393 if (decl
== NULL_TREE
)
6395 itype
= TREE_TYPE (TREE_TYPE (decl
));
6396 imode
= TYPE_MODE (itype
);
6398 /* We could test all of the various optabs involved, but the fact of the
6399 matter is that (with the exception of i486 vs i586 and xadd) all targets
6400 that support any atomic operaton optab also implements compare-and-swap.
6401 Let optabs.c take care of expanding any compare-and-swap loop. */
6402 if (!can_compare_and_swap_p (imode
, true) || !can_atomic_load_p (imode
))
6405 gsi
= gsi_last_bb (load_bb
);
6406 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_ATOMIC_LOAD
);
6408 /* OpenMP does not imply any barrier-like semantics on its atomic ops.
6409 It only requires that the operation happen atomically. Thus we can
6410 use the RELAXED memory model. */
6411 call
= build_call_expr_loc (loc
, decl
, 3, addr
,
6412 fold_convert_loc (loc
, itype
, rhs
),
6413 build_int_cst (NULL
,
6414 seq_cst
? MEMMODEL_SEQ_CST
6415 : MEMMODEL_RELAXED
));
6417 if (need_old
|| need_new
)
6419 lhs
= need_old
? loaded_val
: stored_val
;
6420 call
= fold_convert_loc (loc
, TREE_TYPE (lhs
), call
);
6421 call
= build2_loc (loc
, MODIFY_EXPR
, void_type_node
, lhs
, call
);
6424 call
= fold_convert_loc (loc
, void_type_node
, call
);
6425 force_gimple_operand_gsi (&gsi
, call
, true, NULL_TREE
, true, GSI_SAME_STMT
);
6426 gsi_remove (&gsi
, true);
6428 gsi
= gsi_last_bb (store_bb
);
6429 gcc_assert (gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_ATOMIC_STORE
);
6430 gsi_remove (&gsi
, true);
6431 gsi
= gsi_last_bb (store_bb
);
6432 stmt
= gsi_stmt (gsi
);
6433 gsi_remove (&gsi
, true);
6435 if (gimple_in_ssa_p (cfun
))
6437 release_defs (stmt
);
6438 update_ssa (TODO_update_ssa_no_phi
);
6444 /* A subroutine of expand_omp_atomic. Implement the atomic operation as:
6448 newval = rhs; // with oldval replacing *addr in rhs
6449 oldval = __sync_val_compare_and_swap (addr, oldval, newval);
6450 if (oldval != newval)
6453 INDEX is log2 of the size of the data type, and thus usable to find the
6454 index of the builtin decl. */
6457 expand_omp_atomic_pipeline (basic_block load_bb
, basic_block store_bb
,
6458 tree addr
, tree loaded_val
, tree stored_val
,
6461 tree loadedi
, storedi
, initial
, new_storedi
, old_vali
;
6462 tree type
, itype
, cmpxchg
, iaddr
;
6463 gimple_stmt_iterator si
;
6464 basic_block loop_header
= single_succ (load_bb
);
6467 enum built_in_function fncode
;
6469 /* ??? We need a non-pointer interface to __atomic_compare_exchange in
6470 order to use the RELAXED memory model effectively. */
6471 fncode
= (enum built_in_function
)((int)BUILT_IN_SYNC_VAL_COMPARE_AND_SWAP_N
6473 cmpxchg
= builtin_decl_explicit (fncode
);
6474 if (cmpxchg
== NULL_TREE
)
6476 type
= TYPE_MAIN_VARIANT (TREE_TYPE (TREE_TYPE (addr
)));
6477 itype
= TREE_TYPE (TREE_TYPE (cmpxchg
));
6479 if (!can_compare_and_swap_p (TYPE_MODE (itype
), true)
6480 || !can_atomic_load_p (TYPE_MODE (itype
)))
6483 /* Load the initial value, replacing the GIMPLE_OMP_ATOMIC_LOAD. */
6484 si
= gsi_last_bb (load_bb
);
6485 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_ATOMIC_LOAD
);
6487 /* For floating-point values, we'll need to view-convert them to integers
6488 so that we can perform the atomic compare and swap. Simplify the
6489 following code by always setting up the "i"ntegral variables. */
6490 if (!INTEGRAL_TYPE_P (type
) && !POINTER_TYPE_P (type
))
6494 iaddr
= create_tmp_reg (build_pointer_type_for_mode (itype
, ptr_mode
,
6497 = force_gimple_operand_gsi (&si
,
6498 fold_convert (TREE_TYPE (iaddr
), addr
),
6499 false, NULL_TREE
, true, GSI_SAME_STMT
);
6500 stmt
= gimple_build_assign (iaddr
, iaddr_val
);
6501 gsi_insert_before (&si
, stmt
, GSI_SAME_STMT
);
6502 loadedi
= create_tmp_var (itype
);
6503 if (gimple_in_ssa_p (cfun
))
6504 loadedi
= make_ssa_name (loadedi
);
6509 loadedi
= loaded_val
;
6512 fncode
= (enum built_in_function
) (BUILT_IN_ATOMIC_LOAD_N
+ index
+ 1);
6513 tree loaddecl
= builtin_decl_explicit (fncode
);
6516 = fold_convert (TREE_TYPE (TREE_TYPE (iaddr
)),
6517 build_call_expr (loaddecl
, 2, iaddr
,
6518 build_int_cst (NULL_TREE
,
6519 MEMMODEL_RELAXED
)));
6521 initial
= build2 (MEM_REF
, TREE_TYPE (TREE_TYPE (iaddr
)), iaddr
,
6522 build_int_cst (TREE_TYPE (iaddr
), 0));
6525 = force_gimple_operand_gsi (&si
, initial
, true, NULL_TREE
, true,
6528 /* Move the value to the LOADEDI temporary. */
6529 if (gimple_in_ssa_p (cfun
))
6531 gcc_assert (gimple_seq_empty_p (phi_nodes (loop_header
)));
6532 phi
= create_phi_node (loadedi
, loop_header
);
6533 SET_USE (PHI_ARG_DEF_PTR_FROM_EDGE (phi
, single_succ_edge (load_bb
)),
6537 gsi_insert_before (&si
,
6538 gimple_build_assign (loadedi
, initial
),
6540 if (loadedi
!= loaded_val
)
6542 gimple_stmt_iterator gsi2
;
6545 x
= build1 (VIEW_CONVERT_EXPR
, type
, loadedi
);
6546 gsi2
= gsi_start_bb (loop_header
);
6547 if (gimple_in_ssa_p (cfun
))
6550 x
= force_gimple_operand_gsi (&gsi2
, x
, true, NULL_TREE
,
6551 true, GSI_SAME_STMT
);
6552 stmt
= gimple_build_assign (loaded_val
, x
);
6553 gsi_insert_before (&gsi2
, stmt
, GSI_SAME_STMT
);
6557 x
= build2 (MODIFY_EXPR
, TREE_TYPE (loaded_val
), loaded_val
, x
);
6558 force_gimple_operand_gsi (&gsi2
, x
, true, NULL_TREE
,
6559 true, GSI_SAME_STMT
);
6562 gsi_remove (&si
, true);
6564 si
= gsi_last_bb (store_bb
);
6565 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_ATOMIC_STORE
);
6568 storedi
= stored_val
;
6571 = force_gimple_operand_gsi (&si
,
6572 build1 (VIEW_CONVERT_EXPR
, itype
,
6573 stored_val
), true, NULL_TREE
, true,
6576 /* Build the compare&swap statement. */
6577 new_storedi
= build_call_expr (cmpxchg
, 3, iaddr
, loadedi
, storedi
);
6578 new_storedi
= force_gimple_operand_gsi (&si
,
6579 fold_convert (TREE_TYPE (loadedi
),
6582 true, GSI_SAME_STMT
);
6584 if (gimple_in_ssa_p (cfun
))
6588 old_vali
= create_tmp_var (TREE_TYPE (loadedi
));
6589 stmt
= gimple_build_assign (old_vali
, loadedi
);
6590 gsi_insert_before (&si
, stmt
, GSI_SAME_STMT
);
6592 stmt
= gimple_build_assign (loadedi
, new_storedi
);
6593 gsi_insert_before (&si
, stmt
, GSI_SAME_STMT
);
6596 /* Note that we always perform the comparison as an integer, even for
6597 floating point. This allows the atomic operation to properly
6598 succeed even with NaNs and -0.0. */
6599 tree ne
= build2 (NE_EXPR
, boolean_type_node
, new_storedi
, old_vali
);
6600 stmt
= gimple_build_cond_empty (ne
);
6601 gsi_insert_before (&si
, stmt
, GSI_SAME_STMT
);
6604 e
= single_succ_edge (store_bb
);
6605 e
->flags
&= ~EDGE_FALLTHRU
;
6606 e
->flags
|= EDGE_FALSE_VALUE
;
6608 e
= make_edge (store_bb
, loop_header
, EDGE_TRUE_VALUE
);
6610 /* Copy the new value to loadedi (we already did that before the condition
6611 if we are not in SSA). */
6612 if (gimple_in_ssa_p (cfun
))
6614 phi
= gimple_seq_first_stmt (phi_nodes (loop_header
));
6615 SET_USE (PHI_ARG_DEF_PTR_FROM_EDGE (phi
, e
), new_storedi
);
6618 /* Remove GIMPLE_OMP_ATOMIC_STORE. */
6619 gsi_remove (&si
, true);
6621 struct loop
*loop
= alloc_loop ();
6622 loop
->header
= loop_header
;
6623 loop
->latch
= store_bb
;
6624 add_loop (loop
, loop_header
->loop_father
);
6626 if (gimple_in_ssa_p (cfun
))
6627 update_ssa (TODO_update_ssa_no_phi
);
6632 /* A subroutine of expand_omp_atomic. Implement the atomic operation as:
6634 GOMP_atomic_start ();
6638 The result is not globally atomic, but works so long as all parallel
6639 references are within #pragma omp atomic directives. According to
6640 responses received from omp@openmp.org, appears to be within spec.
6641 Which makes sense, since that's how several other compilers handle
6642 this situation as well.
6643 LOADED_VAL and ADDR are the operands of GIMPLE_OMP_ATOMIC_LOAD we're
6644 expanding. STORED_VAL is the operand of the matching
6645 GIMPLE_OMP_ATOMIC_STORE.
6648 GIMPLE_OMP_ATOMIC_LOAD (loaded_val, addr) with
6652 GIMPLE_OMP_ATOMIC_STORE (stored_val) with
6657 expand_omp_atomic_mutex (basic_block load_bb
, basic_block store_bb
,
6658 tree addr
, tree loaded_val
, tree stored_val
)
6660 gimple_stmt_iterator si
;
6664 si
= gsi_last_bb (load_bb
);
6665 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_ATOMIC_LOAD
);
6667 t
= builtin_decl_explicit (BUILT_IN_GOMP_ATOMIC_START
);
6668 t
= build_call_expr (t
, 0);
6669 force_gimple_operand_gsi (&si
, t
, true, NULL_TREE
, true, GSI_SAME_STMT
);
6671 stmt
= gimple_build_assign (loaded_val
, build_simple_mem_ref (addr
));
6672 gsi_insert_before (&si
, stmt
, GSI_SAME_STMT
);
6673 gsi_remove (&si
, true);
6675 si
= gsi_last_bb (store_bb
);
6676 gcc_assert (gimple_code (gsi_stmt (si
)) == GIMPLE_OMP_ATOMIC_STORE
);
6678 stmt
= gimple_build_assign (build_simple_mem_ref (unshare_expr (addr
)),
6680 gsi_insert_before (&si
, stmt
, GSI_SAME_STMT
);
6682 t
= builtin_decl_explicit (BUILT_IN_GOMP_ATOMIC_END
);
6683 t
= build_call_expr (t
, 0);
6684 force_gimple_operand_gsi (&si
, t
, true, NULL_TREE
, true, GSI_SAME_STMT
);
6685 gsi_remove (&si
, true);
6687 if (gimple_in_ssa_p (cfun
))
6688 update_ssa (TODO_update_ssa_no_phi
);
6692 /* Expand an GIMPLE_OMP_ATOMIC statement. We try to expand
6693 using expand_omp_atomic_fetch_op. If it failed, we try to
6694 call expand_omp_atomic_pipeline, and if it fails too, the
6695 ultimate fallback is wrapping the operation in a mutex
6696 (expand_omp_atomic_mutex). REGION is the atomic region built
6697 by build_omp_regions_1(). */
6700 expand_omp_atomic (struct omp_region
*region
)
6702 basic_block load_bb
= region
->entry
, store_bb
= region
->exit
;
6703 gomp_atomic_load
*load
= as_a
<gomp_atomic_load
*> (last_stmt (load_bb
));
6704 gomp_atomic_store
*store
= as_a
<gomp_atomic_store
*> (last_stmt (store_bb
));
6705 tree loaded_val
= gimple_omp_atomic_load_lhs (load
);
6706 tree addr
= gimple_omp_atomic_load_rhs (load
);
6707 tree stored_val
= gimple_omp_atomic_store_val (store
);
6708 tree type
= TYPE_MAIN_VARIANT (TREE_TYPE (TREE_TYPE (addr
)));
6709 HOST_WIDE_INT index
;
6711 /* Make sure the type is one of the supported sizes. */
6712 index
= tree_to_uhwi (TYPE_SIZE_UNIT (type
));
6713 index
= exact_log2 (index
);
6714 if (index
>= 0 && index
<= 4)
6716 unsigned int align
= TYPE_ALIGN_UNIT (type
);
6718 /* __sync builtins require strict data alignment. */
6719 if (exact_log2 (align
) >= index
)
6722 if (loaded_val
== stored_val
6723 && (GET_MODE_CLASS (TYPE_MODE (type
)) == MODE_INT
6724 || GET_MODE_CLASS (TYPE_MODE (type
)) == MODE_FLOAT
)
6725 && GET_MODE_BITSIZE (TYPE_MODE (type
)) <= BITS_PER_WORD
6726 && expand_omp_atomic_load (load_bb
, addr
, loaded_val
, index
))
6730 if ((GET_MODE_CLASS (TYPE_MODE (type
)) == MODE_INT
6731 || GET_MODE_CLASS (TYPE_MODE (type
)) == MODE_FLOAT
)
6732 && GET_MODE_BITSIZE (TYPE_MODE (type
)) <= BITS_PER_WORD
6733 && store_bb
== single_succ (load_bb
)
6734 && first_stmt (store_bb
) == store
6735 && expand_omp_atomic_store (load_bb
, addr
, loaded_val
,
6739 /* When possible, use specialized atomic update functions. */
6740 if ((INTEGRAL_TYPE_P (type
) || POINTER_TYPE_P (type
))
6741 && store_bb
== single_succ (load_bb
)
6742 && expand_omp_atomic_fetch_op (load_bb
, addr
,
6743 loaded_val
, stored_val
, index
))
6746 /* If we don't have specialized __sync builtins, try and implement
6747 as a compare and swap loop. */
6748 if (expand_omp_atomic_pipeline (load_bb
, store_bb
, addr
,
6749 loaded_val
, stored_val
, index
))
6754 /* The ultimate fallback is wrapping the operation in a mutex. */
6755 expand_omp_atomic_mutex (load_bb
, store_bb
, addr
, loaded_val
, stored_val
);
6758 /* Mark the loops inside the kernels region starting at REGION_ENTRY and ending
6762 mark_loops_in_oacc_kernels_region (basic_block region_entry
,
6763 basic_block region_exit
)
6765 struct loop
*outer
= region_entry
->loop_father
;
6766 gcc_assert (region_exit
== NULL
|| outer
== region_exit
->loop_father
);
6768 /* Don't parallelize the kernels region if it contains more than one outer
6770 unsigned int nr_outer_loops
= 0;
6771 struct loop
*single_outer
= NULL
;
6772 for (struct loop
*loop
= outer
->inner
; loop
!= NULL
; loop
= loop
->next
)
6774 gcc_assert (loop_outer (loop
) == outer
);
6776 if (!dominated_by_p (CDI_DOMINATORS
, loop
->header
, region_entry
))
6779 if (region_exit
!= NULL
6780 && dominated_by_p (CDI_DOMINATORS
, loop
->header
, region_exit
))
6784 single_outer
= loop
;
6786 if (nr_outer_loops
!= 1)
6789 for (struct loop
*loop
= single_outer
->inner
;
6795 /* Mark the loops in the region. */
6796 for (struct loop
*loop
= single_outer
; loop
!= NULL
; loop
= loop
->inner
)
6797 loop
->in_oacc_kernels_region
= true;
6800 /* Types used to pass grid and wortkgroup sizes to kernel invocation. */
6802 struct GTY(()) grid_launch_attributes_trees
6804 tree kernel_dim_array_type
;
6805 tree kernel_lattrs_dimnum_decl
;
6806 tree kernel_lattrs_grid_decl
;
6807 tree kernel_lattrs_group_decl
;
6808 tree kernel_launch_attributes_type
;
6811 static GTY(()) struct grid_launch_attributes_trees
*grid_attr_trees
;
6813 /* Create types used to pass kernel launch attributes to target. */
6816 grid_create_kernel_launch_attr_types (void)
6818 if (grid_attr_trees
)
6820 grid_attr_trees
= ggc_alloc
<grid_launch_attributes_trees
> ();
6822 tree dim_arr_index_type
6823 = build_index_type (build_int_cst (integer_type_node
, 2));
6824 grid_attr_trees
->kernel_dim_array_type
6825 = build_array_type (uint32_type_node
, dim_arr_index_type
);
6827 grid_attr_trees
->kernel_launch_attributes_type
= make_node (RECORD_TYPE
);
6828 grid_attr_trees
->kernel_lattrs_dimnum_decl
6829 = build_decl (BUILTINS_LOCATION
, FIELD_DECL
, get_identifier ("ndim"),
6831 DECL_CHAIN (grid_attr_trees
->kernel_lattrs_dimnum_decl
) = NULL_TREE
;
6833 grid_attr_trees
->kernel_lattrs_grid_decl
6834 = build_decl (BUILTINS_LOCATION
, FIELD_DECL
, get_identifier ("grid_size"),
6835 grid_attr_trees
->kernel_dim_array_type
);
6836 DECL_CHAIN (grid_attr_trees
->kernel_lattrs_grid_decl
)
6837 = grid_attr_trees
->kernel_lattrs_dimnum_decl
;
6838 grid_attr_trees
->kernel_lattrs_group_decl
6839 = build_decl (BUILTINS_LOCATION
, FIELD_DECL
, get_identifier ("group_size"),
6840 grid_attr_trees
->kernel_dim_array_type
);
6841 DECL_CHAIN (grid_attr_trees
->kernel_lattrs_group_decl
)
6842 = grid_attr_trees
->kernel_lattrs_grid_decl
;
6843 finish_builtin_struct (grid_attr_trees
->kernel_launch_attributes_type
,
6844 "__gomp_kernel_launch_attributes",
6845 grid_attr_trees
->kernel_lattrs_group_decl
, NULL_TREE
);
6848 /* Insert before the current statement in GSI a store of VALUE to INDEX of
6849 array (of type kernel_dim_array_type) FLD_DECL of RANGE_VAR. VALUE must be
6850 of type uint32_type_node. */
6853 grid_insert_store_range_dim (gimple_stmt_iterator
*gsi
, tree range_var
,
6854 tree fld_decl
, int index
, tree value
)
6856 tree ref
= build4 (ARRAY_REF
, uint32_type_node
,
6857 build3 (COMPONENT_REF
,
6858 grid_attr_trees
->kernel_dim_array_type
,
6859 range_var
, fld_decl
, NULL_TREE
),
6860 build_int_cst (integer_type_node
, index
),
6861 NULL_TREE
, NULL_TREE
);
6862 gsi_insert_before (gsi
, gimple_build_assign (ref
, value
), GSI_SAME_STMT
);
6865 /* Return a tree representation of a pointer to a structure with grid and
6866 work-group size information. Statements filling that information will be
6867 inserted before GSI, TGT_STMT is the target statement which has the
6868 necessary information in it. */
6871 grid_get_kernel_launch_attributes (gimple_stmt_iterator
*gsi
,
6872 gomp_target
*tgt_stmt
)
6874 grid_create_kernel_launch_attr_types ();
6875 tree lattrs
= create_tmp_var (grid_attr_trees
->kernel_launch_attributes_type
,
6876 "__kernel_launch_attrs");
6878 unsigned max_dim
= 0;
6879 for (tree clause
= gimple_omp_target_clauses (tgt_stmt
);
6881 clause
= OMP_CLAUSE_CHAIN (clause
))
6883 if (OMP_CLAUSE_CODE (clause
) != OMP_CLAUSE__GRIDDIM_
)
6886 unsigned dim
= OMP_CLAUSE__GRIDDIM__DIMENSION (clause
);
6887 max_dim
= MAX (dim
, max_dim
);
6889 grid_insert_store_range_dim (gsi
, lattrs
,
6890 grid_attr_trees
->kernel_lattrs_grid_decl
,
6891 dim
, OMP_CLAUSE__GRIDDIM__SIZE (clause
));
6892 grid_insert_store_range_dim (gsi
, lattrs
,
6893 grid_attr_trees
->kernel_lattrs_group_decl
,
6894 dim
, OMP_CLAUSE__GRIDDIM__GROUP (clause
));
6897 tree dimref
= build3 (COMPONENT_REF
, uint32_type_node
, lattrs
,
6898 grid_attr_trees
->kernel_lattrs_dimnum_decl
, NULL_TREE
);
6899 gcc_checking_assert (max_dim
<= 2);
6900 tree dimensions
= build_int_cstu (uint32_type_node
, max_dim
+ 1);
6901 gsi_insert_before (gsi
, gimple_build_assign (dimref
, dimensions
),
6903 TREE_ADDRESSABLE (lattrs
) = 1;
6904 return build_fold_addr_expr (lattrs
);
6907 /* Build target argument identifier from the DEVICE identifier, value
6908 identifier ID and whether the element also has a SUBSEQUENT_PARAM. */
6911 get_target_argument_identifier_1 (int device
, bool subseqent_param
, int id
)
6913 tree t
= build_int_cst (integer_type_node
, device
);
6914 if (subseqent_param
)
6915 t
= fold_build2 (BIT_IOR_EXPR
, integer_type_node
, t
,
6916 build_int_cst (integer_type_node
,
6917 GOMP_TARGET_ARG_SUBSEQUENT_PARAM
));
6918 t
= fold_build2 (BIT_IOR_EXPR
, integer_type_node
, t
,
6919 build_int_cst (integer_type_node
, id
));
6923 /* Like above but return it in type that can be directly stored as an element
6924 of the argument array. */
6927 get_target_argument_identifier (int device
, bool subseqent_param
, int id
)
6929 tree t
= get_target_argument_identifier_1 (device
, subseqent_param
, id
);
6930 return fold_convert (ptr_type_node
, t
);
6933 /* Return a target argument consisting of DEVICE identifier, value identifier
6934 ID, and the actual VALUE. */
6937 get_target_argument_value (gimple_stmt_iterator
*gsi
, int device
, int id
,
6940 tree t
= fold_build2 (LSHIFT_EXPR
, integer_type_node
,
6941 fold_convert (integer_type_node
, value
),
6942 build_int_cst (unsigned_type_node
,
6943 GOMP_TARGET_ARG_VALUE_SHIFT
));
6944 t
= fold_build2 (BIT_IOR_EXPR
, integer_type_node
, t
,
6945 get_target_argument_identifier_1 (device
, false, id
));
6946 t
= fold_convert (ptr_type_node
, t
);
6947 return force_gimple_operand_gsi (gsi
, t
, true, NULL
, true, GSI_SAME_STMT
);
6950 /* If VALUE is an integer constant greater than -2^15 and smaller than 2^15,
6951 push one argument to ARGS with both the DEVICE, ID and VALUE embedded in it,
6952 otherwise push an identifier (with DEVICE and ID) and the VALUE in two
6956 push_target_argument_according_to_value (gimple_stmt_iterator
*gsi
, int device
,
6957 int id
, tree value
, vec
<tree
> *args
)
6959 if (tree_fits_shwi_p (value
)
6960 && tree_to_shwi (value
) > -(1 << 15)
6961 && tree_to_shwi (value
) < (1 << 15))
6962 args
->quick_push (get_target_argument_value (gsi
, device
, id
, value
));
6965 args
->quick_push (get_target_argument_identifier (device
, true, id
));
6966 value
= fold_convert (ptr_type_node
, value
);
6967 value
= force_gimple_operand_gsi (gsi
, value
, true, NULL
, true,
6969 args
->quick_push (value
);
6973 /* Create an array of arguments that is then passed to GOMP_target. */
6976 get_target_arguments (gimple_stmt_iterator
*gsi
, gomp_target
*tgt_stmt
)
6978 auto_vec
<tree
, 6> args
;
6979 tree clauses
= gimple_omp_target_clauses (tgt_stmt
);
6980 tree t
, c
= omp_find_clause (clauses
, OMP_CLAUSE_NUM_TEAMS
);
6982 t
= OMP_CLAUSE_NUM_TEAMS_EXPR (c
);
6984 t
= integer_minus_one_node
;
6985 push_target_argument_according_to_value (gsi
, GOMP_TARGET_ARG_DEVICE_ALL
,
6986 GOMP_TARGET_ARG_NUM_TEAMS
, t
, &args
);
6988 c
= omp_find_clause (clauses
, OMP_CLAUSE_THREAD_LIMIT
);
6990 t
= OMP_CLAUSE_THREAD_LIMIT_EXPR (c
);
6992 t
= integer_minus_one_node
;
6993 push_target_argument_according_to_value (gsi
, GOMP_TARGET_ARG_DEVICE_ALL
,
6994 GOMP_TARGET_ARG_THREAD_LIMIT
, t
,
6997 /* Add HSA-specific grid sizes, if available. */
6998 if (omp_find_clause (gimple_omp_target_clauses (tgt_stmt
),
6999 OMP_CLAUSE__GRIDDIM_
))
7001 int id
= GOMP_TARGET_ARG_HSA_KERNEL_ATTRIBUTES
;
7002 t
= get_target_argument_identifier (GOMP_DEVICE_HSA
, true, id
);
7003 args
.quick_push (t
);
7004 args
.quick_push (grid_get_kernel_launch_attributes (gsi
, tgt_stmt
));
7007 /* Produce more, perhaps device specific, arguments here. */
7009 tree argarray
= create_tmp_var (build_array_type_nelts (ptr_type_node
,
7010 args
.length () + 1),
7011 ".omp_target_args");
7012 for (unsigned i
= 0; i
< args
.length (); i
++)
7014 tree ref
= build4 (ARRAY_REF
, ptr_type_node
, argarray
,
7015 build_int_cst (integer_type_node
, i
),
7016 NULL_TREE
, NULL_TREE
);
7017 gsi_insert_before (gsi
, gimple_build_assign (ref
, args
[i
]),
7020 tree ref
= build4 (ARRAY_REF
, ptr_type_node
, argarray
,
7021 build_int_cst (integer_type_node
, args
.length ()),
7022 NULL_TREE
, NULL_TREE
);
7023 gsi_insert_before (gsi
, gimple_build_assign (ref
, null_pointer_node
),
7025 TREE_ADDRESSABLE (argarray
) = 1;
7026 return build_fold_addr_expr (argarray
);
7029 /* Expand the GIMPLE_OMP_TARGET starting at REGION. */
7032 expand_omp_target (struct omp_region
*region
)
7034 basic_block entry_bb
, exit_bb
, new_bb
;
7035 struct function
*child_cfun
;
7036 tree child_fn
, block
, t
;
7037 gimple_stmt_iterator gsi
;
7038 gomp_target
*entry_stmt
;
7041 bool offloaded
, data_region
;
7043 entry_stmt
= as_a
<gomp_target
*> (last_stmt (region
->entry
));
7044 new_bb
= region
->entry
;
7046 offloaded
= is_gimple_omp_offloaded (entry_stmt
);
7047 switch (gimple_omp_target_kind (entry_stmt
))
7049 case GF_OMP_TARGET_KIND_REGION
:
7050 case GF_OMP_TARGET_KIND_UPDATE
:
7051 case GF_OMP_TARGET_KIND_ENTER_DATA
:
7052 case GF_OMP_TARGET_KIND_EXIT_DATA
:
7053 case GF_OMP_TARGET_KIND_OACC_PARALLEL
:
7054 case GF_OMP_TARGET_KIND_OACC_KERNELS
:
7055 case GF_OMP_TARGET_KIND_OACC_UPDATE
:
7056 case GF_OMP_TARGET_KIND_OACC_ENTER_EXIT_DATA
:
7057 case GF_OMP_TARGET_KIND_OACC_DECLARE
:
7058 data_region
= false;
7060 case GF_OMP_TARGET_KIND_DATA
:
7061 case GF_OMP_TARGET_KIND_OACC_DATA
:
7062 case GF_OMP_TARGET_KIND_OACC_HOST_DATA
:
7069 child_fn
= NULL_TREE
;
7073 child_fn
= gimple_omp_target_child_fn (entry_stmt
);
7074 child_cfun
= DECL_STRUCT_FUNCTION (child_fn
);
7077 /* Supported by expand_omp_taskreg, but not here. */
7078 if (child_cfun
!= NULL
)
7079 gcc_checking_assert (!child_cfun
->cfg
);
7080 gcc_checking_assert (!gimple_in_ssa_p (cfun
));
7082 entry_bb
= region
->entry
;
7083 exit_bb
= region
->exit
;
7085 if (gimple_omp_target_kind (entry_stmt
) == GF_OMP_TARGET_KIND_OACC_KERNELS
)
7086 mark_loops_in_oacc_kernels_region (region
->entry
, region
->exit
);
7090 unsigned srcidx
, dstidx
, num
;
7092 /* If the offloading region needs data sent from the parent
7093 function, then the very first statement (except possible
7094 tree profile counter updates) of the offloading body
7095 is a copy assignment .OMP_DATA_I = &.OMP_DATA_O. Since
7096 &.OMP_DATA_O is passed as an argument to the child function,
7097 we need to replace it with the argument as seen by the child
7100 In most cases, this will end up being the identity assignment
7101 .OMP_DATA_I = .OMP_DATA_I. However, if the offloading body had
7102 a function call that has been inlined, the original PARM_DECL
7103 .OMP_DATA_I may have been converted into a different local
7104 variable. In which case, we need to keep the assignment. */
7105 tree data_arg
= gimple_omp_target_data_arg (entry_stmt
);
7108 basic_block entry_succ_bb
= single_succ (entry_bb
);
7109 gimple_stmt_iterator gsi
;
7111 gimple
*tgtcopy_stmt
= NULL
;
7112 tree sender
= TREE_VEC_ELT (data_arg
, 0);
7114 for (gsi
= gsi_start_bb (entry_succ_bb
); ; gsi_next (&gsi
))
7116 gcc_assert (!gsi_end_p (gsi
));
7117 stmt
= gsi_stmt (gsi
);
7118 if (gimple_code (stmt
) != GIMPLE_ASSIGN
)
7121 if (gimple_num_ops (stmt
) == 2)
7123 tree arg
= gimple_assign_rhs1 (stmt
);
7125 /* We're ignoring the subcode because we're
7126 effectively doing a STRIP_NOPS. */
7128 if (TREE_CODE (arg
) == ADDR_EXPR
7129 && TREE_OPERAND (arg
, 0) == sender
)
7131 tgtcopy_stmt
= stmt
;
7137 gcc_assert (tgtcopy_stmt
!= NULL
);
7138 arg
= DECL_ARGUMENTS (child_fn
);
7140 gcc_assert (gimple_assign_lhs (tgtcopy_stmt
) == arg
);
7141 gsi_remove (&gsi
, true);
7144 /* Declare local variables needed in CHILD_CFUN. */
7145 block
= DECL_INITIAL (child_fn
);
7146 BLOCK_VARS (block
) = vec2chain (child_cfun
->local_decls
);
7147 /* The gimplifier could record temporaries in the offloading block
7148 rather than in containing function's local_decls chain,
7149 which would mean cgraph missed finalizing them. Do it now. */
7150 for (t
= BLOCK_VARS (block
); t
; t
= DECL_CHAIN (t
))
7151 if (VAR_P (t
) && TREE_STATIC (t
) && !DECL_EXTERNAL (t
))
7152 varpool_node::finalize_decl (t
);
7153 DECL_SAVED_TREE (child_fn
) = NULL
;
7154 /* We'll create a CFG for child_fn, so no gimple body is needed. */
7155 gimple_set_body (child_fn
, NULL
);
7156 TREE_USED (block
) = 1;
7158 /* Reset DECL_CONTEXT on function arguments. */
7159 for (t
= DECL_ARGUMENTS (child_fn
); t
; t
= DECL_CHAIN (t
))
7160 DECL_CONTEXT (t
) = child_fn
;
7162 /* Split ENTRY_BB at GIMPLE_*,
7163 so that it can be moved to the child function. */
7164 gsi
= gsi_last_bb (entry_bb
);
7165 stmt
= gsi_stmt (gsi
);
7167 && gimple_code (stmt
) == gimple_code (entry_stmt
));
7168 e
= split_block (entry_bb
, stmt
);
7169 gsi_remove (&gsi
, true);
7171 single_succ_edge (entry_bb
)->flags
= EDGE_FALLTHRU
;
7173 /* Convert GIMPLE_OMP_RETURN into a RETURN_EXPR. */
7176 gsi
= gsi_last_bb (exit_bb
);
7177 gcc_assert (!gsi_end_p (gsi
)
7178 && gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_RETURN
);
7179 stmt
= gimple_build_return (NULL
);
7180 gsi_insert_after (&gsi
, stmt
, GSI_SAME_STMT
);
7181 gsi_remove (&gsi
, true);
7184 /* Make sure to generate early debug for the function before
7185 outlining anything. */
7186 if (! gimple_in_ssa_p (cfun
))
7187 (*debug_hooks
->early_global_decl
) (cfun
->decl
);
7189 /* Move the offloading region into CHILD_CFUN. */
7191 block
= gimple_block (entry_stmt
);
7193 new_bb
= move_sese_region_to_fn (child_cfun
, entry_bb
, exit_bb
, block
);
7195 single_succ_edge (new_bb
)->flags
= EDGE_FALLTHRU
;
7196 /* When the OMP expansion process cannot guarantee an up-to-date
7197 loop tree arrange for the child function to fixup loops. */
7198 if (loops_state_satisfies_p (LOOPS_NEED_FIXUP
))
7199 child_cfun
->x_current_loops
->state
|= LOOPS_NEED_FIXUP
;
7201 /* Remove non-local VAR_DECLs from child_cfun->local_decls list. */
7202 num
= vec_safe_length (child_cfun
->local_decls
);
7203 for (srcidx
= 0, dstidx
= 0; srcidx
< num
; srcidx
++)
7205 t
= (*child_cfun
->local_decls
)[srcidx
];
7206 if (DECL_CONTEXT (t
) == cfun
->decl
)
7208 if (srcidx
!= dstidx
)
7209 (*child_cfun
->local_decls
)[dstidx
] = t
;
7213 vec_safe_truncate (child_cfun
->local_decls
, dstidx
);
7215 /* Inform the callgraph about the new function. */
7216 child_cfun
->curr_properties
= cfun
->curr_properties
;
7217 child_cfun
->has_simduid_loops
|= cfun
->has_simduid_loops
;
7218 child_cfun
->has_force_vectorize_loops
|= cfun
->has_force_vectorize_loops
;
7219 cgraph_node
*node
= cgraph_node::get_create (child_fn
);
7220 node
->parallelized_function
= 1;
7221 cgraph_node::add_new_function (child_fn
, true);
7223 /* Add the new function to the offload table. */
7224 if (ENABLE_OFFLOADING
)
7225 vec_safe_push (offload_funcs
, child_fn
);
7227 bool need_asm
= DECL_ASSEMBLER_NAME_SET_P (current_function_decl
)
7228 && !DECL_ASSEMBLER_NAME_SET_P (child_fn
);
7230 /* Fix the callgraph edges for child_cfun. Those for cfun will be
7231 fixed in a following pass. */
7232 push_cfun (child_cfun
);
7234 assign_assembler_name_if_needed (child_fn
);
7235 cgraph_edge::rebuild_edges ();
7237 /* Some EH regions might become dead, see PR34608. If
7238 pass_cleanup_cfg isn't the first pass to happen with the
7239 new child, these dead EH edges might cause problems.
7240 Clean them up now. */
7241 if (flag_exceptions
)
7244 bool changed
= false;
7246 FOR_EACH_BB_FN (bb
, cfun
)
7247 changed
|= gimple_purge_dead_eh_edges (bb
);
7249 cleanup_tree_cfg ();
7251 if (flag_checking
&& !loops_state_satisfies_p (LOOPS_NEED_FIXUP
))
7252 verify_loop_structure ();
7255 if (dump_file
&& !gimple_in_ssa_p (cfun
))
7257 omp_any_child_fn_dumped
= true;
7258 dump_function_header (dump_file
, child_fn
, dump_flags
);
7259 dump_function_to_file (child_fn
, dump_file
, dump_flags
);
7263 /* Emit a library call to launch the offloading region, or do data
7265 tree t1
, t2
, t3
, t4
, device
, cond
, depend
, c
, clauses
;
7266 enum built_in_function start_ix
;
7267 location_t clause_loc
;
7268 unsigned int flags_i
= 0;
7269 bool oacc_kernels_p
= false;
7271 switch (gimple_omp_target_kind (entry_stmt
))
7273 case GF_OMP_TARGET_KIND_REGION
:
7274 start_ix
= BUILT_IN_GOMP_TARGET
;
7276 case GF_OMP_TARGET_KIND_DATA
:
7277 start_ix
= BUILT_IN_GOMP_TARGET_DATA
;
7279 case GF_OMP_TARGET_KIND_UPDATE
:
7280 start_ix
= BUILT_IN_GOMP_TARGET_UPDATE
;
7282 case GF_OMP_TARGET_KIND_ENTER_DATA
:
7283 start_ix
= BUILT_IN_GOMP_TARGET_ENTER_EXIT_DATA
;
7285 case GF_OMP_TARGET_KIND_EXIT_DATA
:
7286 start_ix
= BUILT_IN_GOMP_TARGET_ENTER_EXIT_DATA
;
7287 flags_i
|= GOMP_TARGET_FLAG_EXIT_DATA
;
7289 case GF_OMP_TARGET_KIND_OACC_KERNELS
:
7290 oacc_kernels_p
= true;
7292 case GF_OMP_TARGET_KIND_OACC_PARALLEL
:
7293 start_ix
= BUILT_IN_GOACC_PARALLEL
;
7295 case GF_OMP_TARGET_KIND_OACC_DATA
:
7296 case GF_OMP_TARGET_KIND_OACC_HOST_DATA
:
7297 start_ix
= BUILT_IN_GOACC_DATA_START
;
7299 case GF_OMP_TARGET_KIND_OACC_UPDATE
:
7300 start_ix
= BUILT_IN_GOACC_UPDATE
;
7302 case GF_OMP_TARGET_KIND_OACC_ENTER_EXIT_DATA
:
7303 start_ix
= BUILT_IN_GOACC_ENTER_EXIT_DATA
;
7305 case GF_OMP_TARGET_KIND_OACC_DECLARE
:
7306 start_ix
= BUILT_IN_GOACC_DECLARE
;
7312 clauses
= gimple_omp_target_clauses (entry_stmt
);
7314 /* By default, the value of DEVICE is GOMP_DEVICE_ICV (let runtime
7315 library choose) and there is no conditional. */
7317 device
= build_int_cst (integer_type_node
, GOMP_DEVICE_ICV
);
7319 c
= omp_find_clause (clauses
, OMP_CLAUSE_IF
);
7321 cond
= OMP_CLAUSE_IF_EXPR (c
);
7323 c
= omp_find_clause (clauses
, OMP_CLAUSE_DEVICE
);
7326 /* Even if we pass it to all library function calls, it is currently only
7327 defined/used for the OpenMP target ones. */
7328 gcc_checking_assert (start_ix
== BUILT_IN_GOMP_TARGET
7329 || start_ix
== BUILT_IN_GOMP_TARGET_DATA
7330 || start_ix
== BUILT_IN_GOMP_TARGET_UPDATE
7331 || start_ix
== BUILT_IN_GOMP_TARGET_ENTER_EXIT_DATA
);
7333 device
= OMP_CLAUSE_DEVICE_ID (c
);
7334 clause_loc
= OMP_CLAUSE_LOCATION (c
);
7337 clause_loc
= gimple_location (entry_stmt
);
7339 c
= omp_find_clause (clauses
, OMP_CLAUSE_NOWAIT
);
7341 flags_i
|= GOMP_TARGET_FLAG_NOWAIT
;
7343 /* Ensure 'device' is of the correct type. */
7344 device
= fold_convert_loc (clause_loc
, integer_type_node
, device
);
7346 /* If we found the clause 'if (cond)', build
7347 (cond ? device : GOMP_DEVICE_HOST_FALLBACK). */
7350 cond
= gimple_boolify (cond
);
7352 basic_block cond_bb
, then_bb
, else_bb
;
7356 tmp_var
= create_tmp_var (TREE_TYPE (device
));
7358 e
= split_block_after_labels (new_bb
);
7361 gsi
= gsi_last_bb (new_bb
);
7363 e
= split_block (new_bb
, gsi_stmt (gsi
));
7369 then_bb
= create_empty_bb (cond_bb
);
7370 else_bb
= create_empty_bb (then_bb
);
7371 set_immediate_dominator (CDI_DOMINATORS
, then_bb
, cond_bb
);
7372 set_immediate_dominator (CDI_DOMINATORS
, else_bb
, cond_bb
);
7374 stmt
= gimple_build_cond_empty (cond
);
7375 gsi
= gsi_last_bb (cond_bb
);
7376 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
7378 gsi
= gsi_start_bb (then_bb
);
7379 stmt
= gimple_build_assign (tmp_var
, device
);
7380 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
7382 gsi
= gsi_start_bb (else_bb
);
7383 stmt
= gimple_build_assign (tmp_var
,
7384 build_int_cst (integer_type_node
,
7385 GOMP_DEVICE_HOST_FALLBACK
));
7386 gsi_insert_after (&gsi
, stmt
, GSI_CONTINUE_LINKING
);
7388 make_edge (cond_bb
, then_bb
, EDGE_TRUE_VALUE
);
7389 make_edge (cond_bb
, else_bb
, EDGE_FALSE_VALUE
);
7390 add_bb_to_loop (then_bb
, cond_bb
->loop_father
);
7391 add_bb_to_loop (else_bb
, cond_bb
->loop_father
);
7392 make_edge (then_bb
, new_bb
, EDGE_FALLTHRU
);
7393 make_edge (else_bb
, new_bb
, EDGE_FALLTHRU
);
7396 gsi
= gsi_last_bb (new_bb
);
7400 gsi
= gsi_last_bb (new_bb
);
7401 device
= force_gimple_operand_gsi (&gsi
, device
, true, NULL_TREE
,
7402 true, GSI_SAME_STMT
);
7405 t
= gimple_omp_target_data_arg (entry_stmt
);
7408 t1
= size_zero_node
;
7409 t2
= build_zero_cst (ptr_type_node
);
7415 t1
= TYPE_MAX_VALUE (TYPE_DOMAIN (TREE_TYPE (TREE_VEC_ELT (t
, 1))));
7416 t1
= size_binop (PLUS_EXPR
, t1
, size_int (1));
7417 t2
= build_fold_addr_expr (TREE_VEC_ELT (t
, 0));
7418 t3
= build_fold_addr_expr (TREE_VEC_ELT (t
, 1));
7419 t4
= build_fold_addr_expr (TREE_VEC_ELT (t
, 2));
7423 bool tagging
= false;
7424 /* The maximum number used by any start_ix, without varargs. */
7425 auto_vec
<tree
, 11> args
;
7426 args
.quick_push (device
);
7428 args
.quick_push (build_fold_addr_expr (child_fn
));
7429 args
.quick_push (t1
);
7430 args
.quick_push (t2
);
7431 args
.quick_push (t3
);
7432 args
.quick_push (t4
);
7435 case BUILT_IN_GOACC_DATA_START
:
7436 case BUILT_IN_GOACC_DECLARE
:
7437 case BUILT_IN_GOMP_TARGET_DATA
:
7439 case BUILT_IN_GOMP_TARGET
:
7440 case BUILT_IN_GOMP_TARGET_UPDATE
:
7441 case BUILT_IN_GOMP_TARGET_ENTER_EXIT_DATA
:
7442 args
.quick_push (build_int_cst (unsigned_type_node
, flags_i
));
7443 c
= omp_find_clause (clauses
, OMP_CLAUSE_DEPEND
);
7445 depend
= OMP_CLAUSE_DECL (c
);
7447 depend
= build_int_cst (ptr_type_node
, 0);
7448 args
.quick_push (depend
);
7449 if (start_ix
== BUILT_IN_GOMP_TARGET
)
7450 args
.quick_push (get_target_arguments (&gsi
, entry_stmt
));
7452 case BUILT_IN_GOACC_PARALLEL
:
7454 oacc_set_fn_attrib (child_fn
, clauses
, oacc_kernels_p
, &args
);
7458 case BUILT_IN_GOACC_ENTER_EXIT_DATA
:
7459 case BUILT_IN_GOACC_UPDATE
:
7461 tree t_async
= NULL_TREE
;
7463 /* If present, use the value specified by the respective
7464 clause, making sure that is of the correct type. */
7465 c
= omp_find_clause (clauses
, OMP_CLAUSE_ASYNC
);
7467 t_async
= fold_convert_loc (OMP_CLAUSE_LOCATION (c
),
7469 OMP_CLAUSE_ASYNC_EXPR (c
));
7471 /* Default values for t_async. */
7472 t_async
= fold_convert_loc (gimple_location (entry_stmt
),
7474 build_int_cst (integer_type_node
,
7476 if (tagging
&& t_async
)
7478 unsigned HOST_WIDE_INT i_async
= GOMP_LAUNCH_OP_MAX
;
7480 if (TREE_CODE (t_async
) == INTEGER_CST
)
7482 /* See if we can pack the async arg in to the tag's
7484 i_async
= TREE_INT_CST_LOW (t_async
);
7485 if (i_async
< GOMP_LAUNCH_OP_MAX
)
7486 t_async
= NULL_TREE
;
7488 i_async
= GOMP_LAUNCH_OP_MAX
;
7490 args
.safe_push (oacc_launch_pack (GOMP_LAUNCH_ASYNC
, NULL_TREE
,
7494 args
.safe_push (t_async
);
7496 /* Save the argument index, and ... */
7497 unsigned t_wait_idx
= args
.length ();
7498 unsigned num_waits
= 0;
7499 c
= omp_find_clause (clauses
, OMP_CLAUSE_WAIT
);
7501 /* ... push a placeholder. */
7502 args
.safe_push (integer_zero_node
);
7504 for (; c
; c
= OMP_CLAUSE_CHAIN (c
))
7505 if (OMP_CLAUSE_CODE (c
) == OMP_CLAUSE_WAIT
)
7507 args
.safe_push (fold_convert_loc (OMP_CLAUSE_LOCATION (c
),
7509 OMP_CLAUSE_WAIT_EXPR (c
)));
7513 if (!tagging
|| num_waits
)
7517 /* Now that we know the number, update the placeholder. */
7519 len
= oacc_launch_pack (GOMP_LAUNCH_WAIT
, NULL_TREE
, num_waits
);
7521 len
= build_int_cst (integer_type_node
, num_waits
);
7522 len
= fold_convert_loc (gimple_location (entry_stmt
),
7523 unsigned_type_node
, len
);
7524 args
[t_wait_idx
] = len
;
7532 /* Push terminal marker - zero. */
7533 args
.safe_push (oacc_launch_pack (0, NULL_TREE
, 0));
7535 g
= gimple_build_call_vec (builtin_decl_explicit (start_ix
), args
);
7536 gimple_set_location (g
, gimple_location (entry_stmt
));
7537 gsi_insert_before (&gsi
, g
, GSI_SAME_STMT
);
7541 gcc_assert (g
&& gimple_code (g
) == GIMPLE_OMP_TARGET
);
7542 gsi_remove (&gsi
, true);
7544 if (data_region
&& region
->exit
)
7546 gsi
= gsi_last_bb (region
->exit
);
7548 gcc_assert (g
&& gimple_code (g
) == GIMPLE_OMP_RETURN
);
7549 gsi_remove (&gsi
, true);
7553 /* Expand KFOR loop as a HSA grifidied kernel, i.e. as a body only with
7554 iteration variable derived from the thread number. INTRA_GROUP means this
7555 is an expansion of a loop iterating over work-items within a separate
7556 iteration over groups. */
7559 grid_expand_omp_for_loop (struct omp_region
*kfor
, bool intra_group
)
7561 gimple_stmt_iterator gsi
;
7562 gomp_for
*for_stmt
= as_a
<gomp_for
*> (last_stmt (kfor
->entry
));
7563 gcc_checking_assert (gimple_omp_for_kind (for_stmt
)
7564 == GF_OMP_FOR_KIND_GRID_LOOP
);
7565 size_t collapse
= gimple_omp_for_collapse (for_stmt
);
7566 struct omp_for_data_loop
*loops
7567 = XALLOCAVEC (struct omp_for_data_loop
,
7568 gimple_omp_for_collapse (for_stmt
));
7569 struct omp_for_data fd
;
7571 remove_edge (BRANCH_EDGE (kfor
->entry
));
7572 basic_block body_bb
= FALLTHRU_EDGE (kfor
->entry
)->dest
;
7574 gcc_assert (kfor
->cont
);
7575 omp_extract_for_data (for_stmt
, &fd
, loops
);
7577 gsi
= gsi_start_bb (body_bb
);
7579 for (size_t dim
= 0; dim
< collapse
; dim
++)
7582 itype
= type
= TREE_TYPE (fd
.loops
[dim
].v
);
7583 if (POINTER_TYPE_P (type
))
7584 itype
= signed_type_for (type
);
7586 tree n1
= fd
.loops
[dim
].n1
;
7587 tree step
= fd
.loops
[dim
].step
;
7588 n1
= force_gimple_operand_gsi (&gsi
, fold_convert (type
, n1
),
7589 true, NULL_TREE
, true, GSI_SAME_STMT
);
7590 step
= force_gimple_operand_gsi (&gsi
, fold_convert (itype
, step
),
7591 true, NULL_TREE
, true, GSI_SAME_STMT
);
7593 if (gimple_omp_for_grid_group_iter (for_stmt
))
7595 gcc_checking_assert (!intra_group
);
7596 threadid
= build_call_expr (builtin_decl_explicit
7597 (BUILT_IN_HSA_WORKGROUPID
), 1,
7598 build_int_cstu (unsigned_type_node
, dim
));
7600 else if (intra_group
)
7601 threadid
= build_call_expr (builtin_decl_explicit
7602 (BUILT_IN_HSA_WORKITEMID
), 1,
7603 build_int_cstu (unsigned_type_node
, dim
));
7605 threadid
= build_call_expr (builtin_decl_explicit
7606 (BUILT_IN_HSA_WORKITEMABSID
), 1,
7607 build_int_cstu (unsigned_type_node
, dim
));
7608 threadid
= fold_convert (itype
, threadid
);
7609 threadid
= force_gimple_operand_gsi (&gsi
, threadid
, true, NULL_TREE
,
7610 true, GSI_SAME_STMT
);
7612 tree startvar
= fd
.loops
[dim
].v
;
7613 tree t
= fold_build2 (MULT_EXPR
, itype
, threadid
, step
);
7614 if (POINTER_TYPE_P (type
))
7615 t
= fold_build_pointer_plus (n1
, t
);
7617 t
= fold_build2 (PLUS_EXPR
, type
, t
, n1
);
7618 t
= fold_convert (type
, t
);
7619 t
= force_gimple_operand_gsi (&gsi
, t
,
7621 && TREE_ADDRESSABLE (startvar
),
7622 NULL_TREE
, true, GSI_SAME_STMT
);
7623 gassign
*assign_stmt
= gimple_build_assign (startvar
, t
);
7624 gsi_insert_before (&gsi
, assign_stmt
, GSI_SAME_STMT
);
7626 /* Remove the omp for statement. */
7627 gsi
= gsi_last_bb (kfor
->entry
);
7628 gsi_remove (&gsi
, true);
7630 /* Remove the GIMPLE_OMP_CONTINUE statement. */
7631 gsi
= gsi_last_bb (kfor
->cont
);
7632 gcc_assert (!gsi_end_p (gsi
)
7633 && gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_CONTINUE
);
7634 gsi_remove (&gsi
, true);
7636 /* Replace the GIMPLE_OMP_RETURN with a barrier, if necessary. */
7637 gsi
= gsi_last_bb (kfor
->exit
);
7638 gcc_assert (!gsi_end_p (gsi
)
7639 && gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_RETURN
);
7641 gsi_insert_before (&gsi
, omp_build_barrier (NULL_TREE
), GSI_SAME_STMT
);
7642 gsi_remove (&gsi
, true);
7644 /* Fixup the much simpler CFG. */
7645 remove_edge (find_edge (kfor
->cont
, body_bb
));
7647 if (kfor
->cont
!= body_bb
)
7648 set_immediate_dominator (CDI_DOMINATORS
, kfor
->cont
, body_bb
);
7649 set_immediate_dominator (CDI_DOMINATORS
, kfor
->exit
, kfor
->cont
);
7652 /* Structure passed to grid_remap_kernel_arg_accesses so that it can remap
7655 struct grid_arg_decl_map
7661 /* Invoked through walk_gimple_op, will remap all PARM_DECLs to the ones
7662 pertaining to kernel function. */
7665 grid_remap_kernel_arg_accesses (tree
*tp
, int *walk_subtrees
, void *data
)
7667 struct walk_stmt_info
*wi
= (struct walk_stmt_info
*) data
;
7668 struct grid_arg_decl_map
*adm
= (struct grid_arg_decl_map
*) wi
->info
;
7671 if (t
== adm
->old_arg
)
7673 *walk_subtrees
= !TYPE_P (t
) && !DECL_P (t
);
7677 /* If TARGET region contains a kernel body for loop, remove its region from the
7678 TARGET and expand it in HSA gridified kernel fashion. */
7681 grid_expand_target_grid_body (struct omp_region
*target
)
7683 if (!hsa_gen_requested_p ())
7686 gomp_target
*tgt_stmt
= as_a
<gomp_target
*> (last_stmt (target
->entry
));
7687 struct omp_region
**pp
;
7689 for (pp
= &target
->inner
; *pp
; pp
= &(*pp
)->next
)
7690 if ((*pp
)->type
== GIMPLE_OMP_GRID_BODY
)
7693 struct omp_region
*gpukernel
= *pp
;
7695 tree orig_child_fndecl
= gimple_omp_target_child_fn (tgt_stmt
);
7698 /* HSA cannot handle OACC stuff. */
7699 if (gimple_omp_target_kind (tgt_stmt
) != GF_OMP_TARGET_KIND_REGION
)
7701 gcc_checking_assert (orig_child_fndecl
);
7702 gcc_assert (!omp_find_clause (gimple_omp_target_clauses (tgt_stmt
),
7703 OMP_CLAUSE__GRIDDIM_
));
7704 cgraph_node
*n
= cgraph_node::get (orig_child_fndecl
);
7706 hsa_register_kernel (n
);
7710 gcc_assert (omp_find_clause (gimple_omp_target_clauses (tgt_stmt
),
7711 OMP_CLAUSE__GRIDDIM_
));
7713 = gimple_block (first_stmt (single_succ (gpukernel
->entry
)));
7714 *pp
= gpukernel
->next
;
7715 for (pp
= &gpukernel
->inner
; *pp
; pp
= &(*pp
)->next
)
7716 if ((*pp
)->type
== GIMPLE_OMP_FOR
)
7719 struct omp_region
*kfor
= *pp
;
7721 gomp_for
*for_stmt
= as_a
<gomp_for
*> (last_stmt (kfor
->entry
));
7722 gcc_assert (gimple_omp_for_kind (for_stmt
) == GF_OMP_FOR_KIND_GRID_LOOP
);
7726 if (gimple_omp_for_grid_group_iter (for_stmt
))
7728 struct omp_region
**next_pp
;
7729 for (pp
= &kfor
->inner
; *pp
; pp
= next_pp
)
7731 next_pp
= &(*pp
)->next
;
7732 if ((*pp
)->type
!= GIMPLE_OMP_FOR
)
7734 gomp_for
*inner
= as_a
<gomp_for
*> (last_stmt ((*pp
)->entry
));
7735 gcc_assert (gimple_omp_for_kind (inner
)
7736 == GF_OMP_FOR_KIND_GRID_LOOP
);
7737 grid_expand_omp_for_loop (*pp
, true);
7742 expand_omp (kfor
->inner
);
7744 if (gpukernel
->inner
)
7745 expand_omp (gpukernel
->inner
);
7747 tree kern_fndecl
= copy_node (orig_child_fndecl
);
7748 DECL_NAME (kern_fndecl
) = clone_function_name (kern_fndecl
, "kernel");
7749 SET_DECL_ASSEMBLER_NAME (kern_fndecl
, DECL_NAME (kern_fndecl
));
7750 tree tgtblock
= gimple_block (tgt_stmt
);
7751 tree fniniblock
= make_node (BLOCK
);
7752 BLOCK_ABSTRACT_ORIGIN (fniniblock
) = tgtblock
;
7753 BLOCK_SOURCE_LOCATION (fniniblock
) = BLOCK_SOURCE_LOCATION (tgtblock
);
7754 BLOCK_SOURCE_END_LOCATION (fniniblock
) = BLOCK_SOURCE_END_LOCATION (tgtblock
);
7755 BLOCK_SUPERCONTEXT (fniniblock
) = kern_fndecl
;
7756 DECL_INITIAL (kern_fndecl
) = fniniblock
;
7757 push_struct_function (kern_fndecl
);
7758 cfun
->function_end_locus
= gimple_location (tgt_stmt
);
7759 init_tree_ssa (cfun
);
7762 /* Make sure to generate early debug for the function before
7763 outlining anything. */
7764 if (! gimple_in_ssa_p (cfun
))
7765 (*debug_hooks
->early_global_decl
) (cfun
->decl
);
7767 tree old_parm_decl
= DECL_ARGUMENTS (kern_fndecl
);
7768 gcc_assert (!DECL_CHAIN (old_parm_decl
));
7769 tree new_parm_decl
= copy_node (DECL_ARGUMENTS (kern_fndecl
));
7770 DECL_CONTEXT (new_parm_decl
) = kern_fndecl
;
7771 DECL_ARGUMENTS (kern_fndecl
) = new_parm_decl
;
7772 gcc_assert (VOID_TYPE_P (TREE_TYPE (DECL_RESULT (kern_fndecl
))));
7773 DECL_RESULT (kern_fndecl
) = copy_node (DECL_RESULT (kern_fndecl
));
7774 DECL_CONTEXT (DECL_RESULT (kern_fndecl
)) = kern_fndecl
;
7775 struct function
*kern_cfun
= DECL_STRUCT_FUNCTION (kern_fndecl
);
7776 kern_cfun
->curr_properties
= cfun
->curr_properties
;
7778 grid_expand_omp_for_loop (kfor
, false);
7780 /* Remove the omp for statement. */
7781 gimple_stmt_iterator gsi
= gsi_last_bb (gpukernel
->entry
);
7782 gsi_remove (&gsi
, true);
7783 /* Replace the GIMPLE_OMP_RETURN at the end of the kernel region with a real
7785 gsi
= gsi_last_bb (gpukernel
->exit
);
7786 gcc_assert (!gsi_end_p (gsi
)
7787 && gimple_code (gsi_stmt (gsi
)) == GIMPLE_OMP_RETURN
);
7788 gimple
*ret_stmt
= gimple_build_return (NULL
);
7789 gsi_insert_after (&gsi
, ret_stmt
, GSI_SAME_STMT
);
7790 gsi_remove (&gsi
, true);
7792 /* Statements in the first BB in the target construct have been produced by
7793 target lowering and must be copied inside the GPUKERNEL, with the two
7794 exceptions of the first OMP statement and the OMP_DATA assignment
7796 gsi
= gsi_start_bb (single_succ (gpukernel
->entry
));
7797 tree data_arg
= gimple_omp_target_data_arg (tgt_stmt
);
7798 tree sender
= data_arg
? TREE_VEC_ELT (data_arg
, 0) : NULL
;
7799 for (gimple_stmt_iterator tsi
= gsi_start_bb (single_succ (target
->entry
));
7800 !gsi_end_p (tsi
); gsi_next (&tsi
))
7802 gimple
*stmt
= gsi_stmt (tsi
);
7803 if (is_gimple_omp (stmt
))
7806 && is_gimple_assign (stmt
)
7807 && TREE_CODE (gimple_assign_rhs1 (stmt
)) == ADDR_EXPR
7808 && TREE_OPERAND (gimple_assign_rhs1 (stmt
), 0) == sender
)
7810 gimple
*copy
= gimple_copy (stmt
);
7811 gsi_insert_before (&gsi
, copy
, GSI_SAME_STMT
);
7812 gimple_set_block (copy
, fniniblock
);
7815 move_sese_region_to_fn (kern_cfun
, single_succ (gpukernel
->entry
),
7816 gpukernel
->exit
, inside_block
);
7818 cgraph_node
*kcn
= cgraph_node::get_create (kern_fndecl
);
7819 kcn
->mark_force_output ();
7820 cgraph_node
*orig_child
= cgraph_node::get (orig_child_fndecl
);
7822 hsa_register_kernel (kcn
, orig_child
);
7824 cgraph_node::add_new_function (kern_fndecl
, true);
7825 push_cfun (kern_cfun
);
7826 cgraph_edge::rebuild_edges ();
7828 /* Re-map any mention of the PARM_DECL of the original function to the
7829 PARM_DECL of the new one.
7831 TODO: It would be great if lowering produced references into the GPU
7832 kernel decl straight away and we did not have to do this. */
7833 struct grid_arg_decl_map adm
;
7834 adm
.old_arg
= old_parm_decl
;
7835 adm
.new_arg
= new_parm_decl
;
7837 FOR_EACH_BB_FN (bb
, kern_cfun
)
7839 for (gsi
= gsi_start_bb (bb
); !gsi_end_p (gsi
); gsi_next (&gsi
))
7841 gimple
*stmt
= gsi_stmt (gsi
);
7842 struct walk_stmt_info wi
;
7843 memset (&wi
, 0, sizeof (wi
));
7845 walk_gimple_op (stmt
, grid_remap_kernel_arg_accesses
, &wi
);
7853 /* Expand the parallel region tree rooted at REGION. Expansion
7854 proceeds in depth-first order. Innermost regions are expanded
7855 first. This way, parallel regions that require a new function to
7856 be created (e.g., GIMPLE_OMP_PARALLEL) can be expanded without having any
7857 internal dependencies in their body. */
7860 expand_omp (struct omp_region
*region
)
7862 omp_any_child_fn_dumped
= false;
7865 location_t saved_location
;
7866 gimple
*inner_stmt
= NULL
;
7868 /* First, determine whether this is a combined parallel+workshare
7870 if (region
->type
== GIMPLE_OMP_PARALLEL
)
7871 determine_parallel_type (region
);
7872 else if (region
->type
== GIMPLE_OMP_TARGET
)
7873 grid_expand_target_grid_body (region
);
7875 if (region
->type
== GIMPLE_OMP_FOR
7876 && gimple_omp_for_combined_p (last_stmt (region
->entry
)))
7877 inner_stmt
= last_stmt (region
->inner
->entry
);
7880 expand_omp (region
->inner
);
7882 saved_location
= input_location
;
7883 if (gimple_has_location (last_stmt (region
->entry
)))
7884 input_location
= gimple_location (last_stmt (region
->entry
));
7886 switch (region
->type
)
7888 case GIMPLE_OMP_PARALLEL
:
7889 case GIMPLE_OMP_TASK
:
7890 expand_omp_taskreg (region
);
7893 case GIMPLE_OMP_FOR
:
7894 expand_omp_for (region
, inner_stmt
);
7897 case GIMPLE_OMP_SECTIONS
:
7898 expand_omp_sections (region
);
7901 case GIMPLE_OMP_SECTION
:
7902 /* Individual omp sections are handled together with their
7903 parent GIMPLE_OMP_SECTIONS region. */
7906 case GIMPLE_OMP_SINGLE
:
7907 expand_omp_single (region
);
7910 case GIMPLE_OMP_ORDERED
:
7912 gomp_ordered
*ord_stmt
7913 = as_a
<gomp_ordered
*> (last_stmt (region
->entry
));
7914 if (omp_find_clause (gimple_omp_ordered_clauses (ord_stmt
),
7917 /* We'll expand these when expanding corresponding
7918 worksharing region with ordered(n) clause. */
7919 gcc_assert (region
->outer
7920 && region
->outer
->type
== GIMPLE_OMP_FOR
);
7921 region
->ord_stmt
= ord_stmt
;
7926 case GIMPLE_OMP_MASTER
:
7927 case GIMPLE_OMP_TASKGROUP
:
7928 case GIMPLE_OMP_CRITICAL
:
7929 case GIMPLE_OMP_TEAMS
:
7930 expand_omp_synch (region
);
7933 case GIMPLE_OMP_ATOMIC_LOAD
:
7934 expand_omp_atomic (region
);
7937 case GIMPLE_OMP_TARGET
:
7938 expand_omp_target (region
);
7945 input_location
= saved_location
;
7946 region
= region
->next
;
7948 if (omp_any_child_fn_dumped
)
7951 dump_function_header (dump_file
, current_function_decl
, dump_flags
);
7952 omp_any_child_fn_dumped
= false;
7956 /* Helper for build_omp_regions. Scan the dominator tree starting at
7957 block BB. PARENT is the region that contains BB. If SINGLE_TREE is
7958 true, the function ends once a single tree is built (otherwise, whole
7959 forest of OMP constructs may be built). */
7962 build_omp_regions_1 (basic_block bb
, struct omp_region
*parent
,
7965 gimple_stmt_iterator gsi
;
7969 gsi
= gsi_last_bb (bb
);
7970 if (!gsi_end_p (gsi
) && is_gimple_omp (gsi_stmt (gsi
)))
7972 struct omp_region
*region
;
7973 enum gimple_code code
;
7975 stmt
= gsi_stmt (gsi
);
7976 code
= gimple_code (stmt
);
7977 if (code
== GIMPLE_OMP_RETURN
)
7979 /* STMT is the return point out of region PARENT. Mark it
7980 as the exit point and make PARENT the immediately
7981 enclosing region. */
7982 gcc_assert (parent
);
7985 parent
= parent
->outer
;
7987 else if (code
== GIMPLE_OMP_ATOMIC_STORE
)
7989 /* GIMPLE_OMP_ATOMIC_STORE is analoguous to
7990 GIMPLE_OMP_RETURN, but matches with
7991 GIMPLE_OMP_ATOMIC_LOAD. */
7992 gcc_assert (parent
);
7993 gcc_assert (parent
->type
== GIMPLE_OMP_ATOMIC_LOAD
);
7996 parent
= parent
->outer
;
7998 else if (code
== GIMPLE_OMP_CONTINUE
)
8000 gcc_assert (parent
);
8003 else if (code
== GIMPLE_OMP_SECTIONS_SWITCH
)
8005 /* GIMPLE_OMP_SECTIONS_SWITCH is part of
8006 GIMPLE_OMP_SECTIONS, and we do nothing for it. */
8010 region
= new_omp_region (bb
, code
, parent
);
8012 if (code
== GIMPLE_OMP_TARGET
)
8014 switch (gimple_omp_target_kind (stmt
))
8016 case GF_OMP_TARGET_KIND_REGION
:
8017 case GF_OMP_TARGET_KIND_DATA
:
8018 case GF_OMP_TARGET_KIND_OACC_PARALLEL
:
8019 case GF_OMP_TARGET_KIND_OACC_KERNELS
:
8020 case GF_OMP_TARGET_KIND_OACC_DATA
:
8021 case GF_OMP_TARGET_KIND_OACC_HOST_DATA
:
8023 case GF_OMP_TARGET_KIND_UPDATE
:
8024 case GF_OMP_TARGET_KIND_ENTER_DATA
:
8025 case GF_OMP_TARGET_KIND_EXIT_DATA
:
8026 case GF_OMP_TARGET_KIND_OACC_UPDATE
:
8027 case GF_OMP_TARGET_KIND_OACC_ENTER_EXIT_DATA
:
8028 case GF_OMP_TARGET_KIND_OACC_DECLARE
:
8029 /* ..., other than for those stand-alone directives... */
8036 else if (code
== GIMPLE_OMP_ORDERED
8037 && omp_find_clause (gimple_omp_ordered_clauses
8038 (as_a
<gomp_ordered
*> (stmt
)),
8040 /* #pragma omp ordered depend is also just a stand-alone
8043 /* ..., this directive becomes the parent for a new region. */
8049 if (single_tree
&& !parent
)
8052 for (son
= first_dom_son (CDI_DOMINATORS
, bb
);
8054 son
= next_dom_son (CDI_DOMINATORS
, son
))
8055 build_omp_regions_1 (son
, parent
, single_tree
);
8058 /* Builds the tree of OMP regions rooted at ROOT, storing it to
8062 build_omp_regions_root (basic_block root
)
8064 gcc_assert (root_omp_region
== NULL
);
8065 build_omp_regions_1 (root
, NULL
, true);
8066 gcc_assert (root_omp_region
!= NULL
);
8069 /* Expands omp construct (and its subconstructs) starting in HEAD. */
8072 omp_expand_local (basic_block head
)
8074 build_omp_regions_root (head
);
8075 if (dump_file
&& (dump_flags
& TDF_DETAILS
))
8077 fprintf (dump_file
, "\nOMP region tree\n\n");
8078 dump_omp_region (dump_file
, root_omp_region
, 0);
8079 fprintf (dump_file
, "\n");
8082 remove_exit_barriers (root_omp_region
);
8083 expand_omp (root_omp_region
);
8085 omp_free_regions ();
8088 /* Scan the CFG and build a tree of OMP regions. Return the root of
8089 the OMP region tree. */
8092 build_omp_regions (void)
8094 gcc_assert (root_omp_region
== NULL
);
8095 calculate_dominance_info (CDI_DOMINATORS
);
8096 build_omp_regions_1 (ENTRY_BLOCK_PTR_FOR_FN (cfun
), NULL
, false);
8099 /* Main entry point for expanding OMP-GIMPLE into runtime calls. */
8102 execute_expand_omp (void)
8104 build_omp_regions ();
8106 if (!root_omp_region
)
8111 fprintf (dump_file
, "\nOMP region tree\n\n");
8112 dump_omp_region (dump_file
, root_omp_region
, 0);
8113 fprintf (dump_file
, "\n");
8116 remove_exit_barriers (root_omp_region
);
8118 expand_omp (root_omp_region
);
8120 if (flag_checking
&& !loops_state_satisfies_p (LOOPS_NEED_FIXUP
))
8121 verify_loop_structure ();
8122 cleanup_tree_cfg ();
8124 omp_free_regions ();
8129 /* OMP expansion -- the default pass, run before creation of SSA form. */
8133 const pass_data pass_data_expand_omp
=
8135 GIMPLE_PASS
, /* type */
8136 "ompexp", /* name */
8137 OPTGROUP_OMP
, /* optinfo_flags */
8138 TV_NONE
, /* tv_id */
8139 PROP_gimple_any
, /* properties_required */
8140 PROP_gimple_eomp
, /* properties_provided */
8141 0, /* properties_destroyed */
8142 0, /* todo_flags_start */
8143 0, /* todo_flags_finish */
8146 class pass_expand_omp
: public gimple_opt_pass
8149 pass_expand_omp (gcc::context
*ctxt
)
8150 : gimple_opt_pass (pass_data_expand_omp
, ctxt
)
8153 /* opt_pass methods: */
8154 virtual unsigned int execute (function
*)
8156 bool gate
= ((flag_cilkplus
!= 0 || flag_openacc
!= 0 || flag_openmp
!= 0
8157 || flag_openmp_simd
!= 0)
8160 /* This pass always runs, to provide PROP_gimple_eomp.
8161 But often, there is nothing to do. */
8165 return execute_expand_omp ();
8168 }; // class pass_expand_omp
8173 make_pass_expand_omp (gcc::context
*ctxt
)
8175 return new pass_expand_omp (ctxt
);
8180 const pass_data pass_data_expand_omp_ssa
=
8182 GIMPLE_PASS
, /* type */
8183 "ompexpssa", /* name */
8184 OPTGROUP_OMP
, /* optinfo_flags */
8185 TV_NONE
, /* tv_id */
8186 PROP_cfg
| PROP_ssa
, /* properties_required */
8187 PROP_gimple_eomp
, /* properties_provided */
8188 0, /* properties_destroyed */
8189 0, /* todo_flags_start */
8190 TODO_cleanup_cfg
| TODO_rebuild_alias
, /* todo_flags_finish */
8193 class pass_expand_omp_ssa
: public gimple_opt_pass
8196 pass_expand_omp_ssa (gcc::context
*ctxt
)
8197 : gimple_opt_pass (pass_data_expand_omp_ssa
, ctxt
)
8200 /* opt_pass methods: */
8201 virtual bool gate (function
*fun
)
8203 return !(fun
->curr_properties
& PROP_gimple_eomp
);
8205 virtual unsigned int execute (function
*) { return execute_expand_omp (); }
8206 opt_pass
* clone () { return new pass_expand_omp_ssa (m_ctxt
); }
8208 }; // class pass_expand_omp_ssa
8213 make_pass_expand_omp_ssa (gcc::context
*ctxt
)
8215 return new pass_expand_omp_ssa (ctxt
);
8218 /* Called from tree-cfg.c::make_edges to create cfg edges for all relevant
8222 omp_make_gimple_edges (basic_block bb
, struct omp_region
**region
,
8225 gimple
*last
= last_stmt (bb
);
8226 enum gimple_code code
= gimple_code (last
);
8227 struct omp_region
*cur_region
= *region
;
8228 bool fallthru
= false;
8232 case GIMPLE_OMP_PARALLEL
:
8233 case GIMPLE_OMP_TASK
:
8234 case GIMPLE_OMP_FOR
:
8235 case GIMPLE_OMP_SINGLE
:
8236 case GIMPLE_OMP_TEAMS
:
8237 case GIMPLE_OMP_MASTER
:
8238 case GIMPLE_OMP_TASKGROUP
:
8239 case GIMPLE_OMP_CRITICAL
:
8240 case GIMPLE_OMP_SECTION
:
8241 case GIMPLE_OMP_GRID_BODY
:
8242 cur_region
= new_omp_region (bb
, code
, cur_region
);
8246 case GIMPLE_OMP_ORDERED
:
8247 cur_region
= new_omp_region (bb
, code
, cur_region
);
8249 if (omp_find_clause (gimple_omp_ordered_clauses
8250 (as_a
<gomp_ordered
*> (last
)),
8252 cur_region
= cur_region
->outer
;
8255 case GIMPLE_OMP_TARGET
:
8256 cur_region
= new_omp_region (bb
, code
, cur_region
);
8258 switch (gimple_omp_target_kind (last
))
8260 case GF_OMP_TARGET_KIND_REGION
:
8261 case GF_OMP_TARGET_KIND_DATA
:
8262 case GF_OMP_TARGET_KIND_OACC_PARALLEL
:
8263 case GF_OMP_TARGET_KIND_OACC_KERNELS
:
8264 case GF_OMP_TARGET_KIND_OACC_DATA
:
8265 case GF_OMP_TARGET_KIND_OACC_HOST_DATA
:
8267 case GF_OMP_TARGET_KIND_UPDATE
:
8268 case GF_OMP_TARGET_KIND_ENTER_DATA
:
8269 case GF_OMP_TARGET_KIND_EXIT_DATA
:
8270 case GF_OMP_TARGET_KIND_OACC_UPDATE
:
8271 case GF_OMP_TARGET_KIND_OACC_ENTER_EXIT_DATA
:
8272 case GF_OMP_TARGET_KIND_OACC_DECLARE
:
8273 cur_region
= cur_region
->outer
;
8280 case GIMPLE_OMP_SECTIONS
:
8281 cur_region
= new_omp_region (bb
, code
, cur_region
);
8285 case GIMPLE_OMP_SECTIONS_SWITCH
:
8289 case GIMPLE_OMP_ATOMIC_LOAD
:
8290 case GIMPLE_OMP_ATOMIC_STORE
:
8294 case GIMPLE_OMP_RETURN
:
8295 /* In the case of a GIMPLE_OMP_SECTION, the edge will go
8296 somewhere other than the next block. This will be
8298 cur_region
->exit
= bb
;
8299 if (cur_region
->type
== GIMPLE_OMP_TASK
)
8300 /* Add an edge corresponding to not scheduling the task
8302 make_edge (cur_region
->entry
, bb
, EDGE_ABNORMAL
);
8303 fallthru
= cur_region
->type
!= GIMPLE_OMP_SECTION
;
8304 cur_region
= cur_region
->outer
;
8307 case GIMPLE_OMP_CONTINUE
:
8308 cur_region
->cont
= bb
;
8309 switch (cur_region
->type
)
8311 case GIMPLE_OMP_FOR
:
8312 /* Mark all GIMPLE_OMP_FOR and GIMPLE_OMP_CONTINUE
8313 succs edges as abnormal to prevent splitting
8315 single_succ_edge (cur_region
->entry
)->flags
|= EDGE_ABNORMAL
;
8316 /* Make the loopback edge. */
8317 make_edge (bb
, single_succ (cur_region
->entry
),
8320 /* Create an edge from GIMPLE_OMP_FOR to exit, which
8321 corresponds to the case that the body of the loop
8322 is not executed at all. */
8323 make_edge (cur_region
->entry
, bb
->next_bb
, EDGE_ABNORMAL
);
8324 make_edge (bb
, bb
->next_bb
, EDGE_FALLTHRU
| EDGE_ABNORMAL
);
8328 case GIMPLE_OMP_SECTIONS
:
8329 /* Wire up the edges into and out of the nested sections. */
8331 basic_block switch_bb
= single_succ (cur_region
->entry
);
8333 struct omp_region
*i
;
8334 for (i
= cur_region
->inner
; i
; i
= i
->next
)
8336 gcc_assert (i
->type
== GIMPLE_OMP_SECTION
);
8337 make_edge (switch_bb
, i
->entry
, 0);
8338 make_edge (i
->exit
, bb
, EDGE_FALLTHRU
);
8341 /* Make the loopback edge to the block with
8342 GIMPLE_OMP_SECTIONS_SWITCH. */
8343 make_edge (bb
, switch_bb
, 0);
8345 /* Make the edge from the switch to exit. */
8346 make_edge (switch_bb
, bb
->next_bb
, 0);
8351 case GIMPLE_OMP_TASK
:
8364 if (*region
!= cur_region
)
8366 *region
= cur_region
;
8368 *region_idx
= cur_region
->entry
->index
;
8376 #include "gt-omp-expand.h"