real(kind=k), dimension(10) :: r_k
real(kind=k), dimension (2, 3) :: ar_k
real(kind=k), dimension (2, 2, 3) :: br_k
+ complex(kind=k), dimension(10) :: c_k
+ complex(kind=k), dimension (2, 3) :: ac_k
+ complex(kind=k), dimension (2, 2, 3) :: bc_k
character (len=200) line1, line2, line3
ar_k = reshape ((/1._k, 2._k, 3._k, 4._k, 5._k, 6._k/), (/2, 3/))
r_k = spread(1._k,1,10)
if (any(r_k /= 1._k)) call abort
+ ac_k = reshape ((/(1._k,-1._k), (2._k,-2._k), (3._k, -3._k), (4._k, -4._k), &
+ & (5._k,-5._k), (6._k,-6._k)/), (/2, 3/))
+ bc_k = spread (ac_k, 1, 2)
+ if (any (real(bc_k) .ne. reshape ((/1._k, 1._k, 2._k, 2._k, 3._k, 3._k, &
+ & 4._k, 4._k, 5._k, 5._k, 6._k, 6._k/), (/2, 2, 3/)))) call abort
+ if (any (-aimag(bc_k) .ne. reshape ((/1._k, 1._k, 2._k, 2._k, 3._k, 3._k, &
+ & 4._k, 4._k, 5._k, 5._k, 6._k, 6._k/), (/2, 2, 3/)))) call abort
+ line1 = ' '
+ write(line1, 9020) bc_k
+ line2 = ' '
+ write(line2, 9020) spread (ac_k, 1, 2)
+ if (line1 /= line2) call abort
+ line3 = ' '
+ write(line3, 9020) spread (ac_k, 1, 2) + 0._k
+ if (line1 /= line3) call abort
+ c_k = spread((1._k,-1._k),1,10)
+ if (any(c_k /= (1._k,-1._k))) call abort
+
9010 format(12F7.3)
+9020 format(25F7.3)
end program