(root)/
gcc-13.2.0/
libgomp/
testsuite/
libgomp.oacc-fortran/
reduction-7.f90
! { dg-do run }

! { dg-additional-options -Wuninitialized }

!TODO
! { dg-xfail-run-if TODO { openacc_radeon_accel_selected && { ! __OPTIMIZE__ } } }

! subroutine reduction with private and firstprivate variables

program reduction
  integer, parameter    :: n = 100
  integer               :: i, j, vsum, cs, arr(n)

  call redsub_private (cs, n, arr)
  call redsub_bogus (cs, n)
  call redsub_combined (cs, n, arr)

  vsum = 0

  ! Verify the results
  do i = 1, n
     vsum = i
     do j = 1, n
        vsum = vsum + 1;
     end do
     if (vsum .ne. arr(i)) STOP 1
  end do
end program reduction

! This subroutine tests a reduction with an explicit private variable.

subroutine redsub_private(sum, n, arr)
  integer :: sum, n, arr(n)
  integer :: i, j, v

  !$acc parallel copyout (arr)
  !$acc loop gang private (v)
  do j = 1, n
     v = j

     !$acc loop vector reduction (+:v)
     do i = 1, 100
        v = v + 1
     end do

     arr(j) = v
  end do
  !$acc end parallel

  ! verify the results
  do i = 1, 10
     if (arr(i) .ne. 100+i) STOP 2
  end do
end subroutine redsub_private


! Bogus reduction on a firstprivate variable.  The results do
! survive the parallel region.  The goal here is to ensure that gfortran
! doesn't ICE.

subroutine redsub_bogus(sum, n)
  integer :: sum, n, arr(n)
  integer :: i

  !$acc parallel firstprivate(sum)
  !$acc loop gang worker vector reduction (+:sum)
  ! { dg-bogus {'sum\.[0-9]+' is used uninitialized} TODO { xfail *-*-* } .-1 }
  !   { dg-note {'sum\.[0-9]+' was declared here} {} { target *-*-* } .-2 }
  do i = 1, n
     sum = sum + 1
  end do
  !$acc end parallel
end subroutine redsub_bogus

! This reduction involving a firstprivate variable yields legitimate results.

subroutine redsub_combined(sum, n, arr)
  integer :: sum, n, arr(n)
  integer :: i, j

  !$acc parallel copy (arr) firstprivate(sum)
  !$acc loop gang
  do i = 1, n
     sum = i;

     !$acc loop reduction(+:sum)
     ! { dg-bogus {'sum\.[0-9]+' may be used uninitialized} TODO { xfail { ! __OPTIMIZE__ } } .-1 }
     !   { dg-note {'sum\.[0-9]+' was declared here} {} { target { ! __OPTIMIZE__ } } .-2 }
     do j = 1, n
        sum = sum + 1
     end do

     arr(i) = sum
  end do
  !$acc end parallel
end subroutine redsub_combined