gcc/libgomp/testsuite/libgomp.fortran/task-detach-6.f90
Thomas Schwinge 4dd9e1c541 XFAIL OpenMP/nvptx execution-time hangs for simple nested OpenMP 'target'/'parallel'/'task' constructs [PR99555]
... still awaiting proper resolution, of course.

	libgomp/
	PR target/99555
	* testsuite/lib/libgomp.exp
	(check_effective_target_offload_device_nvptx): New.
	* testsuite/libgomp.c/pr99555-1.c <nvptx offload device>: Until
	resolved, make sure that we exit quickly, with error status,
	XFAILed.
	* testsuite/libgomp.c-c++-common/task-detach-6.c: Likewise.
	* testsuite/libgomp.fortran/task-detach-6.f90: Likewise.
2021-04-15 11:13:27 +02:00

57 lines
1.6 KiB
Fortran

! { dg-do run }
! { dg-additional-sources on_device_arch.c }
! { dg-prune-output "command-line option '-fintrinsic-modules-path=.*' is valid for Fortran but not for C" }
! Test tasks with detach clause on an offload device. Each device
! thread spawns off a chain of tasks, that can then be executed by
! any available thread.
program task_detach_6
use omp_lib
integer (kind=omp_event_handle_kind) :: detach_event1, detach_event2
integer :: x = 0, y = 0, z = 0
integer :: thread_count
interface
integer function on_device_arch_nvptx() bind(C)
end function on_device_arch_nvptx
end interface
!TODO See '../libgomp.c/pr99555-1.c'.
if (on_device_arch_nvptx () /= 0) then
call alarm (4, 0); !TODO Until resolved, make sure that we exit quickly, with error status.
! { dg-xfail-run-if "PR99555" { offload_device_nvptx } }
end if
!$omp target map (tofrom: x, y, z) map (from: thread_count)
!$omp parallel private (detach_event1, detach_event2)
!$omp single
thread_count = omp_get_num_threads ()
!$omp end single
!$omp task detach (detach_event1) untied
!$omp atomic update
x = x + 1
!$omp end task
!$omp task detach (detach_event2) untied
!$omp atomic update
y = y + 1
call omp_fulfill_event (detach_event1)
!$omp end task
!$omp task untied
!$omp atomic update
z = z + 1
call omp_fulfill_event (detach_event2)
!$omp end task
!$omp end parallel
!$omp end target
if (x /= thread_count) stop 1
if (y /= thread_count) stop 2
if (z /= thread_count) stop 3
end program