IMO this calls for attributes:
procedure mul_fixed (
signal a : in unsigned_fixed;
signal b : in unsigned_fixed;
signal c : out unsigned_fixed
constant a_temp : unsigned(a'length - 1 downto 0) := to_unsigned(a);
constant b_temp : unsigned(b'length - 1 downto 0) := to_unsigned(b);
variable result : unsigned(a'length + b'length - 1 downto 0);
-- notice this might be negative if a, b are (? downto +n), which is correct
constant num_fractional : integer := 0 - a'right - b'right;
-- c integral might be bigger than integral/fractional part, make sure we only access valid indices in result
constant result_left : integer := min(result'length - 1, num_fractional + c'left);
constant result_right : integer := max(0 , num_fractional + c'right);
result := a_temp * b_temp;
c <= (others => '0'); -- make sure all bits are defined
c(result_left - num_fractional downto result_right - num_fractional) <= result(result_left downto result_right);
end procedure mul_fixed;
type unsigned_fixed is array(range <>) of std_logic;
and conversion functions to/from unsigned exist.
So you would
signal a : unsigned_fixed( 3 downto -10); -- 4Q10
signal b : unsigned_fixed(-1 downto -8); -- 0Q8
signal c : unsigned_fixed( 3 downto -10); -- 4Q10
mul_fixed(a, b, c);
I know all these attributes look scary at first, but I often found myself writing senselessly many packages just because I had different data types :-/
IMO one should spend time thinking about this once, figuring out a generic solution and move on -- that's what VHDL attributes are for, after all.
- Notice that I didn't have access to a test environment while writing this, so there may or may not need to be a type conversion when assigning result to c.
Also, you should probably at least take a look at a fixed-point library if you can. Or use VHDL-2008 with the fixed-point package.