I'd like to allocate an array B to be of the same shape and have the same lower and upper bounds as another array A. For example, I could use

allocate(B(lbound(A,1):ubound(A,1), lbound(A,2):ubound(A,2), lbound(A,3):ubound(A,3)))

But not only is this inelegant, it also gets very annoying for arrays of (even) higher dimensions.

I was hoping for something more like


which doesn't work, and even if this did work, each dimension would start at 1, which is not what I want.

Does anyone know how I can easily allocate an array to have the same size and bounds as another array easily for arbitrary array dimensions?

  • 1
    Can I ask why you need to do this. Can you not just allocate B at the same time as A (or at least in the same scope, when you will have access to the array bounds/shape parameters used to allocate A). Alternatively, if you are passing A into a function or subroutine you can you not just have an assumed size array B local to that routine which assumes the shape of A? – Chris Jan 27 '12 at 11:10
  • Well, I suppose I don't NEED this, it's just really inelegant. The array A is allocated in a different .f file with the boundaries A(nlmx-a_offset:nlpx+b_offset, ...), you'll note that this is more characters than using l/ubound. – user1173081 Jan 27 '12 at 12:59
  • Then I think M.S.B.'s answer is probably the best way to go about doing what you are trying to do. – Chris Jan 31 '12 at 11:23

As of Fortran 2008, there is now the MOLD optional argument:


The MOLD= specifier works almost in the same way as SOURCE=. If you specify MOLD= and source_expr is a variable, its value need not be defined. In addition, MOLD= does not copy the value of source_expr to the variable to be allocated.

Source: IBM Fortran Ref


You can either define it in a preprocessor directive, but that will be with a fixed dimensionality:

#define DIMS3D(my_array) lbound(my_array,1):ubound(my_array,1),lbound(my_array,2):ubound(my_array,2),lbound(my_array,3):ubound(my_array,3)


don't forget to compile with e.g. the -cpp option (gfortran)

If using Fortran 2003 or above, you can use the source argument:

allocate(B, source=A)

but this will also copy the elements of A to B.


If you are doing this a lot and think it too ugly, you could write your own subroutine to take care of it, copy_dims (template, new_array), encapsulating the source code line you show. You could even set up a generic interface so that it could handle arrays of several ranks -- see how to write wrapper for 'allocate' for an example of that concept.

  • yes, moving stuff to dedicated subroutines is very good if you will use it a lot and if you need some flexibility! – steabert Jan 30 '12 at 13:07

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