! OpenACC parallelism dimensions clauses: num_gangs, num_workers, ! vector_length. ! { dg-additional-sources parallel-dims-aux.c } ! { dg-do run } ! { dg-prune-output "command-line option '-fintrinsic-modules-path=.*' is valid for Fortran but not for C" } ! See also '../libgomp.oacc-c-c++-common/parallel-dims.c'. module acc_routines implicit none (type, external) interface integer function acc_gang() bind(C) !$acc routine seq end function acc_gang integer function acc_worker() bind(C) !$acc routine seq end function acc_worker integer function acc_vector() bind(C) !$acc routine seq end function acc_vector end interface end module acc_routines program main use iso_c_binding use openacc use acc_routines implicit none (type, external) integer :: gangs_min, gangs_max, workers_min, workers_max, vectors_min, vectors_max integer :: vectors_actual integer :: i, j, k call acc_init (acc_device_default) ! OpenACC parallel construct. !TODO ! OpenACC kernels construct. !TODO ! OpenACC serial construct. ! GR, WS, VS. gangs_min = huge(gangs_min) ! INT_MAX workers_min = huge(workers_min) ! INT_MAX vectors_min = huge(vectors_min) ! INT_MAX gangs_max = -huge(gangs_max) - 1 ! INT_MIN workers_max = -huge(gangs_max) - 1 ! INT_MIN vectors_max = -huge(gangs_max) - 1 ! INT_MIN !$acc serial & !$acc reduction (min: gangs_min, workers_min, vectors_min) reduction (max: gangs_max, workers_max, vectors_max) ! { dg-warning "using vector_length \\(32\\), ignoring 1" "" { target openacc_nvidia_accel_selected } } do i = 100, -99, -1 gangs_min = acc_gang (); gangs_max = acc_gang (); workers_min = acc_worker (); workers_max = acc_worker (); vectors_min = acc_vector (); vectors_max = acc_vector (); end do !$acc end serial if (gangs_min /= 0 .or. gangs_max /= 1 - 1 & .or. workers_min /= 0 .or. workers_max /= 1 - 1 & .or. vectors_min /= 0 .or. vectors_max /= 1 - 1) & stop 1 ! Composition of GP, WP, VP. vectors_actual = 1 ! Implicit 'vector_length (1)' clause. gangs_min = huge(gangs_min) ! INT_MAX workers_min = huge(workers_min) ! INT_MAX vectors_min = huge(vectors_min) ! INT_MAX gangs_max = -huge(gangs_max) - 1 ! INT_MIN workers_max = -huge(gangs_max) - 1 ! INT_MIN vectors_max = -huge(gangs_max) - 1 ! INT_MIN !$acc serial copy (vectors_actual) & !$acc copy (gangs_min, gangs_max, workers_min, workers_max, vectors_min, vectors_max) ! { dg-warning "using vector_length \\(32\\), ignoring 1" "" { target openacc_nvidia_accel_selected } } if (acc_on_device (acc_device_nvidia)) then ! The GCC nvptx back end enforces vector_length (32). ! It's unclear if that's actually permissible here; ! "OpenACC 'serial' ! construct might not actually be serial". vectors_actual = 32 end if !$acc loop gang reduction (min: gangs_min, workers_min, vectors_min) reduction (max: gangs_max, workers_max, vectors_max) do i = 100, -99, -1 !$acc loop worker reduction (min: gangs_min, workers_min, vectors_min) reduction (max: gangs_max, workers_max, vectors_max) do j = 100, -99, -1 !$acc loop vector reduction (min: gangs_min, workers_min, vectors_min) reduction (max: gangs_max, workers_max, vectors_max) do k = 100 * vectors_actual, -99 * vectors_actual, -1 gangs_min = acc_gang (); gangs_max = acc_gang (); workers_min = acc_worker (); workers_max = acc_worker (); vectors_min = acc_vector (); vectors_max = acc_vector (); end do end do end do !$acc end serial if (acc_get_device_type () .eq. acc_device_nvidia) then if (vectors_actual /= 32) stop 2 else if (vectors_actual /= 1) stop 3 end if if (gangs_min /= 0 .or. gangs_max /= 1 - 1 & .or. workers_min /= 0 .or. workers_max /= 1 - 1 & .or. vectors_min /= 0 .or. vectors_max /= vectors_actual - 1) & stop 4 end program main