| ! { dg-do compile } |
| ! Some CSHIFT, EOSHIFT and UNPACK conformance tests |
| ! |
| program main |
| implicit none |
| real, dimension(1) :: a1, b1, c1 |
| real, dimension(1,1) :: a2, b2, c2 |
| real, dimension(1,0) :: a, b, c |
| real :: tempn(1), tempv(5) |
| real,allocatable :: foo(:) |
| allocate(foo(0)) |
| tempn = 2.0 |
| |
| a1 = 0 |
| a2 = 0 |
| c1 = 0 |
| a2 = 0 |
| |
| b1 = cshift (a1,1) |
| b1 = cshift (a1,(/1/)) ! { dg-error "must be a scalar" } |
| b1 = eoshift (a1,1) |
| b2 = eoshift (a1,c1(1)) ! { dg-error "must be INTEGER" } |
| b1 = eoshift (a1,(/1/)) ! { dg-error "must be a scalar" } |
| b1 = eoshift (a1,1,boundary=c1) ! { dg-error "must be a scalar" } |
| b1 = eoshift (a1,(/1/), boundary=c2) ! { dg-error "must be a scalar" } |
| |
| b2 = cshift (a2,1) |
| b2 = cshift (a2,(/1/)) |
| b2 = cshift (a2,reshape([1],[1,1])) ! { dg-error "have rank 1 or be a scalar" } |
| b2 = eoshift (a2,1) |
| b2 = eoshift (a2,c1) ! { dg-error "must be INTEGER" } |
| b2 = eoshift (a2,(/1/)) |
| b2 = eoshift (a2,reshape([1],[1,1]), boundary=c1) ! { dg-error "have rank 1 or be a scalar" } |
| b2 = eoshift (a2,1,boundary=c2(:,:)) ! { dg-error "have rank 1 or be a scalar" } |
| b2 = eoshift (a2,(/1/), boundary=c2(:,:)) ! { dg-error "have rank 1 or be a scalar" } |
| |
| b = eoshift (a,(/1/), boundary=c(1,:)) ! { dg-error "invalid shape in dimension" } |
| |
| if (any(eoshift(foo,dim=1,shift=1,boundary=(/42.0,-7.0/))/= 0)) STOP 1 ! { dg-error "must be a scalar" } |
| if (any(eoshift(tempn(2:1),dim=1,shift=1,boundary=(/42.0,-7.0/))/= 0)) STOP 2 ! { dg-error "must be a scalar" } |
| |
| if (any(unpack(tempv,tempv(1:0)/=0,tempv) /= -47)) STOP 3 ! { dg-error "must have identical shape" } |
| if (any(unpack(tempv(5:4),tempv(1:0)/=0,tempv) /= -47)) STOP 4 ! { dg-error "must have identical shape" } |
| end program main |