I'm wondering if it's possible to somehow reference attributes of the return type/value from inside a function returning an unconstrained type. (Do the constraints even propagate up into the function at all? Something tells me they don't, and that the return type's constraints are determined by whatever is actually returned inside the function) For example:
function f return std_logic_vector is begin -- how do we access attributes of what we are returning? -- "return_type" is a placeholder for it here, it would be nice if -- this information propagated up into the function based on the way -- the function's result is used when invoked return (return_type'high - 2 downto return_type'low + 1 => '0', others => '1'); end function; signal x: std_logic_vector(7 downto 0); signal y: std_logic_vector(11 downto 0); [...] x <= f; -- expect x = "11000001" y <= f; -- expect y = "110000000001"
I know this could be hacked around by passing something of desired type to the function as a parameter, like so, but I'd like to avoid it if possible:
function f(hint: std_logic_vector) return std_logic_vector is variable retval: std_logic_vector(hint'range); begin retval := (hint'high - 2 downto hint'low + 1 => '0', others => '1'); return retval; end function; signal x: std_logic_vector(7 downto 0); signal y: std_logic_vector(11 downto 0); [...] x <= f(x); -- x = "11000001" y <= f(y); -- y = "110000000001"
If it matters, I'm using Quartus and this needs to synthesize. The second block of code SHOULD work fine (assuming I haven't made any mistakes), but I wonder if there is a better way to accomplish this.
Note that these are contrived examples and of course there are much simpler ways to assign those values; I am asking if in general there is a nice way to avoid the hack of passing an extra parameter.