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In the Designer's Guide to VHDL in Chapter 6.2 there is an entity and architecture body for a converter from floating point to fixed point representation. I'm confused by it

library ieee; use ieee.std_logic_1164 all;
entity to_fp is
   port(vec: in std_u_logic_vector(15 downto 0);
        r: out real);
end entity to_fp;

architecture behavioral of to_fp is
    behavior : process (vec) is
       variable temp: bit_vector(vec'range);
       variable negative: boolean;
       variable int_result: integer;
       temp := to_bitvector(vec);
       negative := temp(temp'left) = '1';
       if negative then
          temp := not temp;
       end if;
       int_result := 0;
       for index in vec'range loop
           int_result := int_result*2 + bit'pos(temp(index));
       end loop;
       if negative then
          int_result := (-int_result) -1;
       end if;
       r <= real(int_result) / 2.0**15;
    end process behavior;
end architecture behavioral;

I understand most of it. I just don't understand the for loop. How does this give us the integer representation of the bit vector? Please explain in as much detail as possible, Thanks :) .

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please don't use the first line of your question as the title line. – John Saunders Feb 3 '11 at 3:50
This isn't floating point. There's no exponent field. All this process is doing is taking a bit vector, interpreting it as an integer, and dividing it by 2^15. Basically it's a 1.15 fixed point to real converter, but an over-engineered one. Also see Hendrik's answer. – Paul S Dec 12 '11 at 11:13
up vote 9 down vote accepted
for index in vec'range loop

This loops over the range of vec. In this case this (15 downto 0).


bit is an enumaration type (type BIT is ('0', '1'); in std.standard). The pos attribute returns the position number (as an integer type) of the given value. So bit'pos(...) converts a bit to an integer.

So what the loop does is convert a bit_vector to an integer.

I recommend using to_integer(unsigned(vec)) for this purpose, though. Remember to use ieee.numeric_std.all;.

The last line converts (casts) the integer to a real.

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