! { dg-do run } ! ! TS 29113 ! 6.4.3 UBOUND ! ! The description of the intrinsic function UBOUND in ISO/IEC ! 1539-1:2010 is changed for an assumed-rank object that is associated ! with an assumed-size array; the result of UBOUND (ARRAY, RANK(ARRAY), ! KIND) has a value equal to LBOUND (ARRAY, RANK (ARRAY), KIND) −2 with ! KIND omitted from LBOUND if it was omitted from UBOUND. ! ! NOTE 6.2 ! If LBOUND or UBOUND is invoked for an assumed-rank object that is ! associated with a scalar and DIM is absent, the result is a zero-sized ! array. LBOUND or UBOUND cannot be invoked for an assumed-rank object ! that is associated with a scalar if DIM is present because the rank of ! a scalar is zero and DIM must be ≥ 1. ! ! The idea here is that the main program passes some arrays to a test ! subroutine with an assumed-size dummy, which in turn passes that to a ! subroutine with an assumed-rank dummy. program test ! Define some arrays for testing. integer, target :: x1(5) integer :: y1(0:9) integer, pointer :: p1(:) integer, allocatable :: a1(:) integer, target :: x3(2,3,4) integer :: y3(0:1,-3:-1,4) integer, pointer :: p3(:,:,:) integer, allocatable :: a3(:,:,:) integer :: x ! Test the 1-dimensional arrays. call test1 (x1) call testit2(x1, shape(x1)) call test1 (y1) call testit2(y1, shape(y1)) p1 => x1 call testit2(p1, shape(p1)) call testit2p(p1, lbound(p1), shape(p1)) call test1 (p1) p1(77:) => x1 call testit2p(p1, [77], shape(p1)) allocate (a1(5)) call testit2(a1, shape(a1)) call testit2a(a1, lbound(a1), shape(a1)) call test1 (a1) deallocate(a1) allocate (a1(-38:5)) call test1 (a1) call testit2(a1, shape(a1)) call testit2a(a1, [-38], shape(a1)) ! Test the multi-dimensional arrays. call test3 (x3, 1, 2, 1, 3) call test3 (y3, 0, 1, -3, -1) p3 => x3 call test3 (p3, 1, 2, 1, 3) allocate (a3(2,3,4)) call test3 (a3, 1, 2, 1, 3) ! Test some scalars. call test0 (x) call test0 (-1) call test0 (x1(1)) contains subroutine testit (a) integer :: a(..) integer :: r r = rank(a) if (any (lbound (a) .ne. 1)) stop 101 if (ubound (a, r) .ne. -1) stop 102 end subroutine subroutine testit2(a, shape) integer :: a(..) integer :: shape(:) if (rank(a) /= size(shape)) stop 111 if (any (lbound(a) /= 1)) stop 112 if (any (ubound(a) /= shape)) stop 113 end subroutine subroutine testit2a(a,lbound2, shape2) integer, allocatable :: a(..) integer :: lbound2(:), shape2(:) if (rank(a) /= size(shape2)) stop 121 if (any (lbound(a) /= lbound2)) stop 122 if (any (ubound(a) /= lbound2 + shape2 - 1)) stop 123 if (any (shape(a) /= shape2)) stop 124 if (sum (shape(a)) /= size(a)) stop 125 end subroutine subroutine testit2p(a, lbound2, shape2) integer, pointer :: a(..) integer :: lbound2(:), shape2(:) if (rank(a) /= size(shape2)) stop 131 if (any (lbound(a) /= lbound2)) stop 132 if (any (ubound(a) /= lbound2 + shape2 - 1)) stop 133 if (any (shape(a) /= shape2)) stop 134 if (sum (shape(a)) /= size(a)) stop 135 end subroutine subroutine test0 (a) integer :: a(..) if (rank (a) .ne. 0) stop 141 if (size (lbound (a)) .ne. 0) stop 142 if (size (ubound (a)) .ne. 0) stop 143 end subroutine subroutine test1 (a) integer :: a(*) call testit (a) end subroutine subroutine test3 (a, l1, u1, l2, u2) implicit none integer :: l1, u1, l2, u2 integer :: a(l1:u1, l2:u2, *) call testit (a) end subroutine end program