1 /* Copyright (C) 2005-2018 Free Software Foundation, Inc.
2 Contributed by Richard Henderson <rth@redhat.com>.
4 This file is part of the GNU Offloading and Multi Processing Library
7 Libgomp is free software; you can redistribute it and/or modify it
8 under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
12 Libgomp is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
14 FOR A PARTICULAR PURPOSE. See the GNU General Public License for
17 Under Section 7 of GPL version 3, you are granted additional
18 permissions described in the GCC Runtime Library Exception, version
19 3.1, as published by the Free Software Foundation.
21 You should have received a copy of the GNU General Public License and
22 a copy of the GCC Runtime Library Exception along with this program;
23 see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
24 <http://www.gnu.org/licenses/>. */
26 /* This file handles the ORDERED construct. */
34 /* This function is called when first allocating an iteration block. That
35 is, the thread is not currently on the queue. The work-share lock must
39 gomp_ordered_first (void)
41 struct gomp_thread
*thr
= gomp_thread ();
42 struct gomp_team
*team
= thr
->ts
.team
;
43 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
46 /* Work share constructs can be orphaned. */
47 if (team
== NULL
|| team
->nthreads
== 1)
50 index
= ws
->ordered_cur
+ ws
->ordered_num_used
;
51 if (index
>= team
->nthreads
)
52 index
-= team
->nthreads
;
53 ws
->ordered_team_ids
[index
] = thr
->ts
.team_id
;
55 /* If this is the first and only thread in the queue, then there is
56 no one to release us when we get to our ordered section. Post to
57 our own release queue now so that we won't block later. */
58 if (ws
->ordered_num_used
++ == 0)
59 gomp_sem_post (team
->ordered_release
[thr
->ts
.team_id
]);
62 /* This function is called when completing the last iteration block. That
63 is, there are no more iterations to perform and so the thread should be
64 removed from the queue entirely. Because of the way ORDERED blocks are
65 managed, it follows that we currently own access to the ORDERED block,
66 and should now pass it on to the next thread. The work-share lock must
70 gomp_ordered_last (void)
72 struct gomp_thread
*thr
= gomp_thread ();
73 struct gomp_team
*team
= thr
->ts
.team
;
74 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
77 /* Work share constructs can be orphaned. */
78 if (team
== NULL
|| team
->nthreads
== 1)
81 /* We're no longer the owner. */
82 ws
->ordered_owner
= -1;
84 /* If we're not the last thread in the queue, then wake the next. */
85 if (--ws
->ordered_num_used
> 0)
87 unsigned next
= ws
->ordered_cur
+ 1;
88 if (next
== team
->nthreads
)
90 ws
->ordered_cur
= next
;
92 next_id
= ws
->ordered_team_ids
[next
];
93 gomp_sem_post (team
->ordered_release
[next_id
]);
98 /* This function is called when allocating a subsequent allocation block.
99 That is, we're done with the current iteration block and we're allocating
100 another. This is the logical combination of a call to gomp_ordered_last
101 followed by a call to gomp_ordered_first. The work-share lock must be
105 gomp_ordered_next (void)
107 struct gomp_thread
*thr
= gomp_thread ();
108 struct gomp_team
*team
= thr
->ts
.team
;
109 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
110 unsigned index
, next_id
;
112 /* Work share constructs can be orphaned. */
113 if (team
== NULL
|| team
->nthreads
== 1)
116 /* We're no longer the owner. */
117 ws
->ordered_owner
= -1;
119 /* If there's only one thread in the queue, that must be us. */
120 if (ws
->ordered_num_used
== 1)
122 /* We have a similar situation as in gomp_ordered_first
123 where we need to post to our own release semaphore. */
124 gomp_sem_post (team
->ordered_release
[thr
->ts
.team_id
]);
128 /* If the queue is entirely full, then we move ourself to the end of
129 the queue merely by incrementing ordered_cur. Only if it's not
130 full do we have to write our id. */
131 if (ws
->ordered_num_used
< team
->nthreads
)
133 index
= ws
->ordered_cur
+ ws
->ordered_num_used
;
134 if (index
>= team
->nthreads
)
135 index
-= team
->nthreads
;
136 ws
->ordered_team_ids
[index
] = thr
->ts
.team_id
;
139 index
= ws
->ordered_cur
+ 1;
140 if (index
== team
->nthreads
)
142 ws
->ordered_cur
= index
;
144 next_id
= ws
->ordered_team_ids
[index
];
145 gomp_sem_post (team
->ordered_release
[next_id
]);
149 /* This function is called when a statically scheduled loop is first
153 gomp_ordered_static_init (void)
155 struct gomp_thread
*thr
= gomp_thread ();
156 struct gomp_team
*team
= thr
->ts
.team
;
158 if (team
== NULL
|| team
->nthreads
== 1)
161 gomp_sem_post (team
->ordered_release
[0]);
164 /* This function is called when a statically scheduled loop is moving to
165 the next allocation block. Static schedules are not first come first
166 served like the others, so we're to move to the numerically next thread,
167 not the next thread on a list. The work-share lock should *not* be held
171 gomp_ordered_static_next (void)
173 struct gomp_thread
*thr
= gomp_thread ();
174 struct gomp_team
*team
= thr
->ts
.team
;
175 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
176 unsigned id
= thr
->ts
.team_id
;
178 if (team
== NULL
|| team
->nthreads
== 1)
181 ws
->ordered_owner
= -1;
183 /* This thread currently owns the lock. Increment the owner. */
184 if (++id
== team
->nthreads
)
186 ws
->ordered_team_ids
[0] = id
;
187 gomp_sem_post (team
->ordered_release
[id
]);
190 /* This function is called when we need to assert that the thread owns the
191 ordered section. Due to the problem of posted-but-not-waited semaphores,
192 this needs to happen before completing a loop iteration. */
195 gomp_ordered_sync (void)
197 struct gomp_thread
*thr
= gomp_thread ();
198 struct gomp_team
*team
= thr
->ts
.team
;
199 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
201 /* Work share constructs can be orphaned. But this clearly means that
202 we are the only thread, and so we automatically own the section. */
203 if (team
== NULL
|| team
->nthreads
== 1)
206 /* ??? I believe it to be safe to access this data without taking the
207 ws->lock. The only presumed race condition is with the previous
208 thread on the queue incrementing ordered_cur such that it points
209 to us, concurrently with our check below. But our team_id is
210 already present in the queue, and the other thread will always
211 post to our release semaphore. So the two cases are that we will
212 either win the race an momentarily block on the semaphore, or lose
213 the race and find the semaphore already unlocked and so not block.
214 Either way we get correct results.
215 However, there is an implicit flush on entry to an ordered region,
216 so we do need to have a barrier here. If we were taking a lock
217 this could be MEMMODEL_RELEASE since the acquire would be coverd
220 __atomic_thread_fence (MEMMODEL_ACQ_REL
);
221 if (ws
->ordered_owner
!= thr
->ts
.team_id
)
223 gomp_sem_wait (team
->ordered_release
[thr
->ts
.team_id
]);
224 ws
->ordered_owner
= thr
->ts
.team_id
;
228 /* This function is called by user code when encountering the start of an
229 ORDERED block. We must check to see if the current thread is at the
230 head of the queue, and if not, block. */
232 #ifdef HAVE_ATTRIBUTE_ALIAS
233 extern void GOMP_ordered_start (void)
234 __attribute__((alias ("gomp_ordered_sync")));
237 GOMP_ordered_start (void)
239 gomp_ordered_sync ();
243 /* This function is called by user code when encountering the end of an
244 ORDERED block. With the current ORDERED implementation there's nothing
247 However, the current implementation has a flaw in that it does not allow
248 the next thread into the ORDERED section immediately after the current
249 thread exits the ORDERED section in its last iteration. The existance
250 of this function allows the implementation to change. */
253 GOMP_ordered_end (void)
257 /* DOACROSS initialization. */
259 #define MAX_COLLAPSED_BITS (__SIZEOF_LONG__ * __CHAR_BIT__)
262 gomp_doacross_init (unsigned ncounts
, long *counts
, long chunk_size
,
265 struct gomp_thread
*thr
= gomp_thread ();
266 struct gomp_team
*team
= thr
->ts
.team
;
267 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
268 unsigned int i
, bits
[MAX_COLLAPSED_BITS
], num_bits
= 0;
269 unsigned long ent
, num_ents
, elt_sz
, shift_sz
;
270 struct gomp_doacross_work_share
*doacross
;
272 if (team
== NULL
|| team
->nthreads
== 1)
279 doacross
= gomp_malloc_cleared (sizeof (*doacross
) + extra
);
280 doacross
->extra
= (void *) (doacross
+ 1);
281 ws
->doacross
= doacross
;
286 for (i
= 0; i
< ncounts
; i
++)
288 /* If any count is 0, GOMP_doacross_{post,wait} can't be called. */
292 if (num_bits
<= MAX_COLLAPSED_BITS
)
294 unsigned int this_bits
;
298 this_bits
= __SIZEOF_LONG__
* __CHAR_BIT__
299 - __builtin_clzl (counts
[i
] - 1);
300 if (num_bits
+ this_bits
<= MAX_COLLAPSED_BITS
)
303 num_bits
+= this_bits
;
306 num_bits
= MAX_COLLAPSED_BITS
+ 1;
310 if (ws
->sched
== GFS_STATIC
)
311 num_ents
= team
->nthreads
;
312 else if (ws
->sched
== GFS_GUIDED
)
313 num_ents
= counts
[0];
315 num_ents
= (counts
[0] - 1) / chunk_size
+ 1;
316 if (num_bits
<= MAX_COLLAPSED_BITS
)
318 elt_sz
= sizeof (unsigned long);
319 shift_sz
= ncounts
* sizeof (unsigned int);
323 elt_sz
= sizeof (unsigned long) * ncounts
;
326 elt_sz
= (elt_sz
+ 63) & ~63UL;
328 doacross
= gomp_malloc (sizeof (*doacross
) + 63 + num_ents
* elt_sz
330 doacross
->chunk_size
= chunk_size
;
331 doacross
->elt_sz
= elt_sz
;
332 doacross
->ncounts
= ncounts
;
333 doacross
->flattened
= false;
334 doacross
->array
= (unsigned char *)
335 ((((uintptr_t) (doacross
+ 1)) + 63 + shift_sz
)
339 doacross
->extra
= doacross
->array
+ num_ents
* elt_sz
;
340 memset (doacross
->extra
, '\0', extra
);
343 doacross
->extra
= NULL
;
344 if (num_bits
<= MAX_COLLAPSED_BITS
)
346 unsigned int shift_count
= 0;
347 doacross
->flattened
= true;
348 for (i
= ncounts
; i
> 0; i
--)
350 doacross
->shift_counts
[i
- 1] = shift_count
;
351 shift_count
+= bits
[i
- 1];
353 for (ent
= 0; ent
< num_ents
; ent
++)
354 *(unsigned long *) (doacross
->array
+ ent
* elt_sz
) = 0;
357 for (ent
= 0; ent
< num_ents
; ent
++)
358 memset (doacross
->array
+ ent
* elt_sz
, '\0',
359 sizeof (unsigned long) * ncounts
);
360 if (ws
->sched
== GFS_STATIC
&& chunk_size
== 0)
362 unsigned long q
= counts
[0] / num_ents
;
363 unsigned long t
= counts
[0] % num_ents
;
364 doacross
->boundary
= t
* (q
+ 1);
368 ws
->doacross
= doacross
;
371 /* DOACROSS POST operation. */
374 GOMP_doacross_post (long *counts
)
376 struct gomp_thread
*thr
= gomp_thread ();
377 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
378 struct gomp_doacross_work_share
*doacross
= ws
->doacross
;
382 if (__builtin_expect (doacross
== NULL
, 0)
383 || __builtin_expect (doacross
->array
== NULL
, 0))
385 __sync_synchronize ();
389 if (__builtin_expect (ws
->sched
== GFS_STATIC
, 1))
390 ent
= thr
->ts
.team_id
;
391 else if (ws
->sched
== GFS_GUIDED
)
394 ent
= counts
[0] / doacross
->chunk_size
;
395 unsigned long *array
= (unsigned long *) (doacross
->array
396 + ent
* doacross
->elt_sz
);
398 if (__builtin_expect (doacross
->flattened
, 1))
400 unsigned long flattened
401 = (unsigned long) counts
[0] << doacross
->shift_counts
[0];
403 for (i
= 1; i
< doacross
->ncounts
; i
++)
404 flattened
|= (unsigned long) counts
[i
]
405 << doacross
->shift_counts
[i
];
407 if (flattened
== __atomic_load_n (array
, MEMMODEL_ACQUIRE
))
408 __atomic_thread_fence (MEMMODEL_RELEASE
);
410 __atomic_store_n (array
, flattened
, MEMMODEL_RELEASE
);
414 __atomic_thread_fence (MEMMODEL_ACQUIRE
);
415 for (i
= doacross
->ncounts
; i
-- > 0; )
417 if (counts
[i
] + 1UL != __atomic_load_n (&array
[i
], MEMMODEL_RELAXED
))
418 __atomic_store_n (&array
[i
], counts
[i
] + 1UL, MEMMODEL_RELEASE
);
422 /* DOACROSS WAIT operation. */
425 GOMP_doacross_wait (long first
, ...)
427 struct gomp_thread
*thr
= gomp_thread ();
428 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
429 struct gomp_doacross_work_share
*doacross
= ws
->doacross
;
434 if (__builtin_expect (doacross
== NULL
, 0)
435 || __builtin_expect (doacross
->array
== NULL
, 0))
437 __sync_synchronize ();
441 if (__builtin_expect (ws
->sched
== GFS_STATIC
, 1))
443 if (ws
->chunk_size
== 0)
445 if (first
< doacross
->boundary
)
446 ent
= first
/ (doacross
->q
+ 1);
448 ent
= (first
- doacross
->boundary
) / doacross
->q
452 ent
= first
/ ws
->chunk_size
% thr
->ts
.team
->nthreads
;
454 else if (ws
->sched
== GFS_GUIDED
)
457 ent
= first
/ doacross
->chunk_size
;
458 unsigned long *array
= (unsigned long *) (doacross
->array
459 + ent
* doacross
->elt_sz
);
461 if (__builtin_expect (doacross
->flattened
, 1))
463 unsigned long flattened
464 = (unsigned long) first
<< doacross
->shift_counts
[0];
467 va_start (ap
, first
);
468 for (i
= 1; i
< doacross
->ncounts
; i
++)
469 flattened
|= (unsigned long) va_arg (ap
, long)
470 << doacross
->shift_counts
[i
];
471 cur
= __atomic_load_n (array
, MEMMODEL_ACQUIRE
);
474 __atomic_thread_fence (MEMMODEL_RELEASE
);
478 doacross_spin (array
, flattened
, cur
);
479 __atomic_thread_fence (MEMMODEL_RELEASE
);
486 va_start (ap
, first
);
487 for (i
= 0; i
< doacross
->ncounts
; i
++)
490 = (unsigned long) (i
? va_arg (ap
, long) : first
) + 1;
491 unsigned long cur
= __atomic_load_n (&array
[i
], MEMMODEL_RELAXED
);
494 i
= doacross
->ncounts
;
501 if (i
== doacross
->ncounts
)
506 __sync_synchronize ();
509 typedef unsigned long long gomp_ull
;
512 gomp_doacross_ull_init (unsigned ncounts
, gomp_ull
*counts
,
513 gomp_ull chunk_size
, size_t extra
)
515 struct gomp_thread
*thr
= gomp_thread ();
516 struct gomp_team
*team
= thr
->ts
.team
;
517 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
518 unsigned int i
, bits
[MAX_COLLAPSED_BITS
], num_bits
= 0;
519 unsigned long ent
, num_ents
, elt_sz
, shift_sz
;
520 struct gomp_doacross_work_share
*doacross
;
522 if (team
== NULL
|| team
->nthreads
== 1)
529 doacross
= gomp_malloc_cleared (sizeof (*doacross
) + extra
);
530 doacross
->extra
= (void *) (doacross
+ 1);
531 ws
->doacross
= doacross
;
536 for (i
= 0; i
< ncounts
; i
++)
538 /* If any count is 0, GOMP_doacross_{post,wait} can't be called. */
542 if (num_bits
<= MAX_COLLAPSED_BITS
)
544 unsigned int this_bits
;
548 this_bits
= __SIZEOF_LONG_LONG__
* __CHAR_BIT__
549 - __builtin_clzll (counts
[i
] - 1);
550 if (num_bits
+ this_bits
<= MAX_COLLAPSED_BITS
)
553 num_bits
+= this_bits
;
556 num_bits
= MAX_COLLAPSED_BITS
+ 1;
560 if (ws
->sched
== GFS_STATIC
)
561 num_ents
= team
->nthreads
;
562 else if (ws
->sched
== GFS_GUIDED
)
563 num_ents
= counts
[0];
565 num_ents
= (counts
[0] - 1) / chunk_size
+ 1;
566 if (num_bits
<= MAX_COLLAPSED_BITS
)
568 elt_sz
= sizeof (unsigned long);
569 shift_sz
= ncounts
* sizeof (unsigned int);
573 if (sizeof (gomp_ull
) == sizeof (unsigned long))
574 elt_sz
= sizeof (gomp_ull
) * ncounts
;
575 else if (sizeof (gomp_ull
) == 2 * sizeof (unsigned long))
576 elt_sz
= sizeof (unsigned long) * 2 * ncounts
;
581 elt_sz
= (elt_sz
+ 63) & ~63UL;
583 doacross
= gomp_malloc (sizeof (*doacross
) + 63 + num_ents
* elt_sz
585 doacross
->chunk_size_ull
= chunk_size
;
586 doacross
->elt_sz
= elt_sz
;
587 doacross
->ncounts
= ncounts
;
588 doacross
->flattened
= false;
589 doacross
->boundary
= 0;
590 doacross
->array
= (unsigned char *)
591 ((((uintptr_t) (doacross
+ 1)) + 63 + shift_sz
)
595 doacross
->extra
= doacross
->array
+ num_ents
* elt_sz
;
596 memset (doacross
->extra
, '\0', extra
);
599 doacross
->extra
= NULL
;
600 if (num_bits
<= MAX_COLLAPSED_BITS
)
602 unsigned int shift_count
= 0;
603 doacross
->flattened
= true;
604 for (i
= ncounts
; i
> 0; i
--)
606 doacross
->shift_counts
[i
- 1] = shift_count
;
607 shift_count
+= bits
[i
- 1];
609 for (ent
= 0; ent
< num_ents
; ent
++)
610 *(unsigned long *) (doacross
->array
+ ent
* elt_sz
) = 0;
613 for (ent
= 0; ent
< num_ents
; ent
++)
614 memset (doacross
->array
+ ent
* elt_sz
, '\0',
615 sizeof (unsigned long) * ncounts
);
616 if (ws
->sched
== GFS_STATIC
&& chunk_size
== 0)
618 gomp_ull q
= counts
[0] / num_ents
;
619 gomp_ull t
= counts
[0] % num_ents
;
620 doacross
->boundary_ull
= t
* (q
+ 1);
624 ws
->doacross
= doacross
;
627 /* DOACROSS POST operation. */
630 GOMP_doacross_ull_post (gomp_ull
*counts
)
632 struct gomp_thread
*thr
= gomp_thread ();
633 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
634 struct gomp_doacross_work_share
*doacross
= ws
->doacross
;
638 if (__builtin_expect (doacross
== NULL
, 0)
639 || __builtin_expect (doacross
->array
== NULL
, 0))
641 __sync_synchronize ();
645 if (__builtin_expect (ws
->sched
== GFS_STATIC
, 1))
646 ent
= thr
->ts
.team_id
;
647 else if (ws
->sched
== GFS_GUIDED
)
650 ent
= counts
[0] / doacross
->chunk_size_ull
;
652 if (__builtin_expect (doacross
->flattened
, 1))
654 unsigned long *array
= (unsigned long *) (doacross
->array
655 + ent
* doacross
->elt_sz
);
657 = counts
[0] << doacross
->shift_counts
[0];
659 for (i
= 1; i
< doacross
->ncounts
; i
++)
660 flattened
|= counts
[i
] << doacross
->shift_counts
[i
];
662 if (flattened
== __atomic_load_n (array
, MEMMODEL_ACQUIRE
))
663 __atomic_thread_fence (MEMMODEL_RELEASE
);
665 __atomic_store_n (array
, flattened
, MEMMODEL_RELEASE
);
669 __atomic_thread_fence (MEMMODEL_ACQUIRE
);
670 if (sizeof (gomp_ull
) == sizeof (unsigned long))
672 gomp_ull
*array
= (gomp_ull
*) (doacross
->array
673 + ent
* doacross
->elt_sz
);
675 for (i
= doacross
->ncounts
; i
-- > 0; )
677 if (counts
[i
] + 1UL != __atomic_load_n (&array
[i
], MEMMODEL_RELAXED
))
678 __atomic_store_n (&array
[i
], counts
[i
] + 1UL, MEMMODEL_RELEASE
);
683 unsigned long *array
= (unsigned long *) (doacross
->array
684 + ent
* doacross
->elt_sz
);
686 for (i
= doacross
->ncounts
; i
-- > 0; )
688 gomp_ull cull
= counts
[i
] + 1UL;
689 unsigned long c
= (unsigned long) cull
;
690 if (c
!= __atomic_load_n (&array
[2 * i
+ 1], MEMMODEL_RELAXED
))
691 __atomic_store_n (&array
[2 * i
+ 1], c
, MEMMODEL_RELEASE
);
692 c
= cull
>> (__SIZEOF_LONG_LONG__
* __CHAR_BIT__
/ 2);
693 if (c
!= __atomic_load_n (&array
[2 * i
], MEMMODEL_RELAXED
))
694 __atomic_store_n (&array
[2 * i
], c
, MEMMODEL_RELEASE
);
699 /* DOACROSS WAIT operation. */
702 GOMP_doacross_ull_wait (gomp_ull first
, ...)
704 struct gomp_thread
*thr
= gomp_thread ();
705 struct gomp_work_share
*ws
= thr
->ts
.work_share
;
706 struct gomp_doacross_work_share
*doacross
= ws
->doacross
;
711 if (__builtin_expect (doacross
== NULL
, 0)
712 || __builtin_expect (doacross
->array
== NULL
, 0))
714 __sync_synchronize ();
718 if (__builtin_expect (ws
->sched
== GFS_STATIC
, 1))
720 if (ws
->chunk_size_ull
== 0)
722 if (first
< doacross
->boundary_ull
)
723 ent
= first
/ (doacross
->q_ull
+ 1);
725 ent
= (first
- doacross
->boundary_ull
) / doacross
->q_ull
729 ent
= first
/ ws
->chunk_size_ull
% thr
->ts
.team
->nthreads
;
731 else if (ws
->sched
== GFS_GUIDED
)
734 ent
= first
/ doacross
->chunk_size_ull
;
736 if (__builtin_expect (doacross
->flattened
, 1))
738 unsigned long *array
= (unsigned long *) (doacross
->array
739 + ent
* doacross
->elt_sz
);
740 gomp_ull flattened
= first
<< doacross
->shift_counts
[0];
743 va_start (ap
, first
);
744 for (i
= 1; i
< doacross
->ncounts
; i
++)
745 flattened
|= va_arg (ap
, gomp_ull
)
746 << doacross
->shift_counts
[i
];
747 cur
= __atomic_load_n (array
, MEMMODEL_ACQUIRE
);
750 __atomic_thread_fence (MEMMODEL_RELEASE
);
754 doacross_spin (array
, flattened
, cur
);
755 __atomic_thread_fence (MEMMODEL_RELEASE
);
760 if (sizeof (gomp_ull
) == sizeof (unsigned long))
762 gomp_ull
*array
= (gomp_ull
*) (doacross
->array
763 + ent
* doacross
->elt_sz
);
766 va_start (ap
, first
);
767 for (i
= 0; i
< doacross
->ncounts
; i
++)
770 = (i
? va_arg (ap
, gomp_ull
) : first
) + 1;
771 gomp_ull cur
= __atomic_load_n (&array
[i
], MEMMODEL_RELAXED
);
774 i
= doacross
->ncounts
;
781 if (i
== doacross
->ncounts
)
789 unsigned long *array
= (unsigned long *) (doacross
->array
790 + ent
* doacross
->elt_sz
);
793 va_start (ap
, first
);
794 for (i
= 0; i
< doacross
->ncounts
; i
++)
797 = (i
? va_arg (ap
, gomp_ull
) : first
) + 1;
799 = thisv
>> (__SIZEOF_LONG_LONG__
* __CHAR_BIT__
/ 2);
801 = __atomic_load_n (&array
[2 * i
], MEMMODEL_RELAXED
);
804 i
= doacross
->ncounts
;
810 cur
= __atomic_load_n (&array
[2 * i
+ 1], MEMMODEL_RELAXED
);
813 i
= doacross
->ncounts
;
820 if (i
== doacross
->ncounts
)
826 __sync_synchronize ();