| ! { dg-do run } |
| ! PR fortran/29391 |
| ! This file is here to check that LBOUND and UBOUND return correct values |
| ! |
| ! Contributed by Francois-Xavier Coudert (coudert@clipper.ens.fr) |
| implicit none |
| integer :: i(-1:1,-1:1) = 0 |
| integer :: j(-1:2) = 0 |
| integer :: u(7,4,2,9) |
| |
| call foo(u,4) |
| call jackal(-1,-8) |
| call jackal(-1,8) |
| |
| if (any(lbound(i(-1:1,-1:1)) /= 1)) call abort |
| if (lbound(i(-1:1,-1:1), 1) /= 1) call abort |
| if (lbound(i(-1:1,-1:1), 2) /= 1) call abort |
| |
| if (any(ubound(i(-1:1,-1:1)) /= 3)) call abort |
| if (ubound(i(-1:1,-1:1), 1) /= 3) call abort |
| if (ubound(i(-1:1,-1:1), 2) /= 3) call abort |
| |
| if (any(lbound(i(:,:)) /= 1)) call abort |
| if (lbound(i(:,:), 1) /= 1) call abort |
| if (lbound(i(:,:), 2) /= 1) call abort |
| |
| if (any(ubound(i(:,:)) /= 3)) call abort |
| if (ubound(i(:,:), 1) /= 3) call abort |
| if (ubound(i(:,:), 2) /= 3) call abort |
| |
| if (any(lbound(i(0:,-1:)) /= 1)) call abort |
| if (lbound(i(0:,-1:), 1) /= 1) call abort |
| if (lbound(i(0:,-1:), 2) /= 1) call abort |
| |
| if (any(ubound(i(0:,-1:)) /= [2,3])) call abort |
| if (ubound(i(0:,-1:), 1) /= 2) call abort |
| if (ubound(i(0:,-1:), 2) /= 3) call abort |
| |
| if (any(lbound(i(:0,:0)) /= 1)) call abort |
| if (lbound(i(:0,:0), 1) /= 1) call abort |
| if (lbound(i(:0,:0), 2) /= 1) call abort |
| |
| if (any(ubound(i(:0,:0)) /= 2)) call abort |
| if (ubound(i(:0,:0), 1) /= 2) call abort |
| if (ubound(i(:0,:0), 2) /= 2) call abort |
| |
| if (any(lbound(transpose(i)) /= 1)) call abort |
| if (lbound(transpose(i), 1) /= 1) call abort |
| if (lbound(transpose(i), 2) /= 1) call abort |
| |
| if (any(ubound(transpose(i)) /= 3)) call abort |
| if (ubound(transpose(i), 1) /= 3) call abort |
| if (ubound(transpose(i), 2) /= 3) call abort |
| |
| if (any(lbound(reshape(i,[2,2])) /= 1)) call abort |
| if (lbound(reshape(i,[2,2]), 1) /= 1) call abort |
| if (lbound(reshape(i,[2,2]), 2) /= 1) call abort |
| |
| if (any(ubound(reshape(i,[2,2])) /= 2)) call abort |
| if (ubound(reshape(i,[2,2]), 1) /= 2) call abort |
| if (ubound(reshape(i,[2,2]), 2) /= 2) call abort |
| |
| if (any(lbound(cshift(i,-1)) /= 1)) call abort |
| if (lbound(cshift(i,-1), 1) /= 1) call abort |
| if (lbound(cshift(i,-1), 2) /= 1) call abort |
| |
| if (any(ubound(cshift(i,-1)) /= 3)) call abort |
| if (ubound(cshift(i,-1), 1) /= 3) call abort |
| if (ubound(cshift(i,-1), 2) /= 3) call abort |
| |
| if (any(lbound(eoshift(i,-1)) /= 1)) call abort |
| if (lbound(eoshift(i,-1), 1) /= 1) call abort |
| if (lbound(eoshift(i,-1), 2) /= 1) call abort |
| |
| if (any(ubound(eoshift(i,-1)) /= 3)) call abort |
| if (ubound(eoshift(i,-1), 1) /= 3) call abort |
| if (ubound(eoshift(i,-1), 2) /= 3) call abort |
| |
| if (any(lbound(spread(i,1,2)) /= 1)) call abort |
| if (lbound(spread(i,1,2), 1) /= 1) call abort |
| if (lbound(spread(i,1,2), 2) /= 1) call abort |
| |
| if (any(ubound(spread(i,1,2)) /= [2,3,3])) call abort |
| if (ubound(spread(i,1,2), 1) /= 2) call abort |
| if (ubound(spread(i,1,2), 2) /= 3) call abort |
| if (ubound(spread(i,1,2), 3) /= 3) call abort |
| |
| if (any(lbound(maxloc(i)) /= 1)) call abort |
| if (lbound(maxloc(i), 1) /= 1) call abort |
| |
| if (any(ubound(maxloc(i)) /= 2)) call abort |
| if (ubound(maxloc(i), 1) /= 2) call abort |
| |
| if (any(lbound(minloc(i)) /= 1)) call abort |
| if (lbound(minloc(i), 1) /= 1) call abort |
| |
| if (any(ubound(minloc(i)) /= 2)) call abort |
| if (ubound(minloc(i), 1) /= 2) call abort |
| |
| if (any(lbound(maxval(i,2)) /= 1)) call abort |
| if (lbound(maxval(i,2), 1) /= 1) call abort |
| |
| if (any(ubound(maxval(i,2)) /= 3)) call abort |
| if (ubound(maxval(i,2), 1) /= 3) call abort |
| |
| if (any(lbound(minval(i,2)) /= 1)) call abort |
| if (lbound(minval(i,2), 1) /= 1) call abort |
| |
| if (any(ubound(minval(i,2)) /= 3)) call abort |
| if (ubound(minval(i,2), 1) /= 3) call abort |
| |
| if (any(lbound(any(i==1,2)) /= 1)) call abort |
| if (lbound(any(i==1,2), 1) /= 1) call abort |
| |
| if (any(ubound(any(i==1,2)) /= 3)) call abort |
| if (ubound(any(i==1,2), 1) /= 3) call abort |
| |
| if (any(lbound(count(i==1,2)) /= 1)) call abort |
| if (lbound(count(i==1,2), 1) /= 1) call abort |
| |
| if (any(ubound(count(i==1,2)) /= 3)) call abort |
| if (ubound(count(i==1,2), 1) /= 3) call abort |
| |
| if (any(lbound(merge(i,i,.true.)) /= 1)) call abort |
| if (lbound(merge(i,i,.true.), 1) /= 1) call abort |
| if (lbound(merge(i,i,.true.), 2) /= 1) call abort |
| |
| if (any(ubound(merge(i,i,.true.)) /= 3)) call abort |
| if (ubound(merge(i,i,.true.), 1) /= 3) call abort |
| if (ubound(merge(i,i,.true.), 2) /= 3) call abort |
| |
| if (any(lbound(lbound(i)) /= 1)) call abort |
| if (lbound(lbound(i), 1) /= 1) call abort |
| |
| if (any(ubound(lbound(i)) /= 2)) call abort |
| if (ubound(lbound(i), 1) /= 2) call abort |
| |
| if (any(lbound(ubound(i)) /= 1)) call abort |
| if (lbound(ubound(i), 1) /= 1) call abort |
| |
| if (any(ubound(ubound(i)) /= 2)) call abort |
| if (ubound(ubound(i), 1) /= 2) call abort |
| |
| if (any(lbound(shape(i)) /= 1)) call abort |
| if (lbound(shape(i), 1) /= 1) call abort |
| |
| if (any(ubound(shape(i)) /= 2)) call abort |
| if (ubound(shape(i), 1) /= 2) call abort |
| |
| if (any(lbound(product(i,2)) /= 1)) call abort |
| if (any(ubound(product(i,2)) /= 3)) call abort |
| if (any(lbound(sum(i,2)) /= 1)) call abort |
| if (any(ubound(sum(i,2)) /= 3)) call abort |
| if (any(lbound(matmul(i,i)) /= 1)) call abort |
| if (any(ubound(matmul(i,i)) /= 3)) call abort |
| if (any(lbound(pack(i,.true.)) /= 1)) call abort |
| if (any(ubound(pack(i,.true.)) /= 9)) call abort |
| if (any(lbound(unpack(j,[.true.],[2])) /= 1)) call abort |
| if (any(ubound(unpack(j,[.true.],[2])) /= 1)) call abort |
| |
| call sub1(i,3) |
| call sub1(reshape([7,9,4,6,7,9],[3,2]),3) |
| call sub2 |
| |
| contains |
| |
| subroutine sub1(a,n) |
| integer :: a(2:n+1,4:*), n |
| |
| if (any([lbound(a,1), lbound(a,2)] /= [2, 4])) call abort |
| if (any(lbound(a) /= [2, 4])) call abort |
| end subroutine sub1 |
| |
| subroutine sub2 |
| integer :: x(3:2, 1:2) |
| |
| if (size(x) /= 0) call abort |
| if (lbound (x, 1) /= 1 .or. lbound(x, 2) /= 1) call abort |
| if (any (lbound (x) /= [1, 1])) call abort |
| if (ubound (x, 1) /= 0 .or. ubound(x, 2) /= 2) call abort |
| if (any (ubound (x) /= [0, 2])) call abort |
| end subroutine sub2 |
| |
| subroutine sub3 |
| integer :: x(4:5, 1:2) |
| |
| if (size(x) /= 0) call abort |
| if (lbound (x, 1) /= 4 .or. lbound(x, 2) /= 1) call abort |
| if (any (lbound (x) /= [4, 1])) call abort |
| if (ubound (x, 1) /= 4 .or. ubound(x, 2) /= 2) call abort |
| if (any (ubound (x) /= [4, 2])) call abort |
| end subroutine sub3 |
| |
| subroutine foo (x,n) |
| integer :: x(7,n,2,*), n |
| |
| if (ubound(x,1) /= 7 .or. ubound(x,2) /= 4 .or. ubound(x,3) /= 2) call abort |
| end subroutine foo |
| |
| subroutine jackal (b, c) |
| integer :: b, c |
| integer :: soda(b:c, 3:4) |
| |
| if (b > c) then |
| if (size(soda) /= 0) call abort |
| if (lbound (soda, 1) /= 1 .or. ubound (soda, 1) /= 0) call abort |
| else |
| if (size(soda) /= 2*(c-b+1)) call abort |
| if (lbound (soda, 1) /= b .or. ubound (soda, 1) /= c) call abort |
| end if |
| |
| if (lbound (soda, 2) /= 3 .or. ubound (soda, 2) /= 4) call abort |
| if (any (lbound (soda) /= [lbound(soda,1), lbound(soda,2)])) call abort |
| if (any (ubound (soda) /= [ubound(soda,1), ubound(soda,2)])) call abort |
| |
| end subroutine jackal |
| |
| end |