# Signed 2's complement for a hexadecimal number

How can I convert a hexadecimal number for instance `'C4D81633'` to signed 2's complement i.e `'-992471501'` using Ruby? I tried

``````['C4D81633'.scan(/[0-9a-f]{2}/i).reverse.join].pack('H*').unpack('l')
``````

but the above code is not working well when I give input of length less than 8 characters.

-

The negate operator (`-`) already does a two's compliment:

``````p (-0x1234).to_s(16)    # => "-1234"
``````

The trouble is with Ruby's to_s, which notices that it's negated, and outputs it in the way we almost always want--with the minus sign.

If we mask the negated value, though, we'll get Ruby to do what we want:

`````` p (-0x1234 & 0xffff).to_s(16)    # => "edcc"
``````

So let's put it all together:

``````def negate(n, num_bits)
mask = (1 << num_bits) - 1
end

def negate_string(s, num_bits)
negate(s.hex, num_bits).to_s(16)
end

p negate_string("C4D81633", 32)    # "3b27e9cd"
``````
-

How about using `String#rjust` on your input, first?

``````['C4D81633'.rjust(8,'0').scan(/[0-9a-f]{2}/i).reverse.join].pack('H*').unpack('l')
``````

This way, you always have 8 hex digits (except when your input is longer than 8 digits)

-

I found the answer after googling... I add it as a method which is as follows

``````def convert_to_signed_twos_complement(integer_value, num_of_bits)
length       = num_of_bits
mid          = 2**(length-1)
max_unsigned = 2**length
(integer_value >= mid) ? integer_value - max_unsigned : integer_value
end

hex_to_convert = 'C4D81633'
convert_to_signed_twos_complement(hex_to_convert.hex, 16)

Note: the num_of_bits in method denote the max bit size of the binary you want
``````
-
I like this method as it work for small strings for ex: 'EC' which should return as -20 –  shivashankar Nov 27 '12 at 17:19