How can one combine bunch of large allocatable vectors in an array in Fortran? I'd like to avoid copying and reshaping using `reshape`

as the arrays are *large*. The effect I want to achieve is just like Fortran's `equivalence`

, to illustrate:

```
program test_equiv
integer x(10), y(10), z(10), xyz(10,3)
equivalence (x, xyz(1,1))
equivalence (y, xyz(1,2))
equivalence (z, xyz(1,3))
x = 1
y = 2
z = 3
! and we can use just normal array syntax
print *, xyz(3,:)
end program
```

This will, however, not work with allocatable arrays. If it's about accessing vectors of matrix it can be easily implemented via pointers. But how can one combine vectors in a two dimensional array? Till now I came only to array of pointers which has problems:

```
program test_arofpntrs
implicit none
integer :: i
integer, allocatable, target :: xs(:), ys(:), zs(:)
type t_p_xs
integer, pointer :: p_xs(:)
end type t_p_xs
type(t_p_xs), allocatable :: coords(:)
allocate(coords(3), xs(10), ys(10), zs(10))
xs = 1
ys = 2
zs = 3
coords(1) % p_xs => xs
coords(2) % p_xs => ys
coords(3) % p_xs => zs
print *, coords(1) % p_xs(:)
! this fails:
!print *, coords(:) % p_xs(1)
end program
```

This is ugly and one cannot access xs(i), ys(i), zs(i). Is it possible to do what I want without copies?