# Question:

How does one declare, if possible, a function intended for a parameter of any type `T`

where the only constraint on `T`

is that it was defined as a 1D `array`

as in

`type T is array ( integer range <> ) of `*a_random_type*;

where

can be any *a_random_type*`type`

.

The following syntactically incorrect function is an example of what is desired

`function measure_size_of_any_array ( a : `**array ( integer range <> )** ) return natural is
variable r : natural := 0;
begin
for i in a'range loop
r := r + 1;
end loop;
return r;
end function;

which could then be used on any `array`

```
type natural_array is array ( integer range <> ) of natural;
type stdlogv_array is array ( integer range <> ) of std_logic_vector;
[...]
variable some_natural_array : natural_array;
variable some_stdlogv_array : stdlogv_array;
[...]
constant size_1 : natural := measure_size_of_any_array(some_natural_array);
constant size_2 : natural := measure_size_of_any_array(some_stdlogv_array);
```

Obviously, this question is about the way of defining the function and not about the function itself: I am not looking for `a'length`

.

# Possible Solution:

From Ashenden's *VHDL-2008: Just the New Stuff*

Generic types can be specified for subprograms.

We can declare a

formal generic typein a generic list in the following way:`type`

indentifierA function with a generic list takes the form:

`function`

indentifiergeneric ( ... ) parameter ( ... ) returnresult_typeis ... -- declarations begin ... -- statements end functionidentifier

which would allow the following definition

```
function measure_size_of_any_array
generic ( type arr_type )
parameter ( arr : arr_type );
```

and the following use

```
function measure_size_of_natural_array is new measure_size_of_any_array
generic ( arr_type => natural_array );
function measure_size_of_stdlogv_array is new measure_size_of_any_array
generic ( arr_type => stdlogv_array );
constant size_1 : natural := measure_size_of_natural_array(some_natural_array);
constant size_2 : natural := measure_size_of_stdlogv_array(some_stdlogv_array);
```

This provides the desired behavior of sharing the body of the function among different calls, regardless of the type of the elements of the `array`

but still requires an instantiated function (which can be as local as desired so it isn't that bad).

Because of how little support is being provided for VHDL-2008 by the main vendors (the previous solution wasn't understood by the compilers I tried), a VHDL-87, -93 or -2002 solution will be preferred.

### Comment after receiving the first answers:

The previous information is my attempt to find a way of writing a VHDL subprogram accepting any argument as long as it is an `array`

(*i.e.* to answer the initial question). The expected answer isn't necessarily supposed to use the same approach (namely using VHDL-2008 generic subprograms)!