! { dg-do run } !$omp declare reduction (foo : character(kind=1, len=*) & !$omp & : omp_out = fn (omp_out, omp_in)) initializer (omp_priv = '') !$omp declare reduction (bar : character(kind=1, len=:) & !$omp & : omp_out = fn (omp_in, omp_out)) initializer (omp_priv = '') !$omp declare reduction (baz : character(kind=1, len=1) & !$omp & : omp_out = char (ichar (omp_out) + ichar (omp_in) & !$omp & - ichar ('0'))) initializer (omp_priv = '0') !$omp declare reduction (baz : character(kind=1, len=2) & !$omp & : omp_out = char (ichar (omp_out(1:1)) + ichar (omp_in(1:1)) & !$omp & - ichar ('0')) // char (ichar (omp_out(2:2)) + & !$omp & ichar (omp_in(2:2)) - ichar ('0'))) initializer (omp_priv = '00') interface elemental function fn (x, y) character (len=64), intent (in) :: x, y character (len=64) :: fn end function end interface character(kind=1, len=64) :: c(-3:-2,1:1,7:8), d(2:3,-7:-5) character(kind = 1, len=1) :: e(2:4) character(kind = 1, len=1+1) :: f(8:10,9:10) integer :: i, j, k c = '' d = '' e = '0' f = '00' !$omp parallel do reduction (foo : c) reduction (bar : d) & !$omp & reduction (baz : e, f) private (j, k) do i = 1, 64 forall (j = -3:-2, k = 7:8) & c(j,1,k) = trim(c(j,1,k)) // char (ichar ('0') + i) d = char (ichar ('0') + i) // d e = char (ichar (e) + mod (i, 3)) f = char (ichar (f(:,:)(1:1)) + mod (i, 2)) & & // char (ichar (f(:,:)(2:2)) + mod (i, 3)) end do do i = 1, 64 if (any (index (c, char (ichar ('0') + i)) .eq. 0)) STOP 1 if (any (index (d, char (ichar ('0') + i)) .eq. 0)) STOP 2 end do if (any (e.ne.char (ichar ('0') + 64))) STOP 3 if (any (f(:,:)(1:1).ne.char (ichar ('0') + 32))) STOP 4 if (any (f(:,:)(2:2).ne.char (ichar ('0') + 64))) STOP 5 end elemental function fn (x, y) character (len=64), intent (in) :: x, y character (len=64) :: fn fn = trim(x) // y end function