I am getting binary value like <<"0421">> and this hex representation of 0x0421. and I have to get the bit values of this hex value. and in 2'base representation would be this is 0000 0100 0010 0001.

So I need to get each bit of this hex in Erlang.

If I use list_to_integer(binary_to_list()) I get 421 in integer.

Please help me to convert this binary to hex first and then get the bit value of those hex.

  • binary_to_integer(<<"0421">>, 16)? – Dogbert Jun 9 '17 at 12:17
  • Thanks @Dogbert, I am bit new to erlang. When I got the value 1057 and its integer and now each bit represent something. from bit0 to bit15. how I can get each bit now. – ManasP Jun 9 '17 at 12:42
  • I've added that to my answer. – Dogbert Jun 9 '17 at 14:19
  • Thanks a ton @Dogbert ...I needed exactly that. I was not getting how to get 4 zeros padded at start. – ManasP Jun 10 '17 at 4:38

binary_to_integer/2 accepts a base as the second argument. You can pass 16 to it to convert a hex binary to integer:

1> binary_to_integer(<<"0421">>, 16).
2> 16#0421.

Edit: You can extract each of the 16 bits into 16 variables using pattern matching:

1> Integer = binary_to_integer(<<"0421">>, 16).
2> <<B0:1, B1:1, B2:1, B3:1, B4:1, B5:1, B6:1, B7:1, B8:1, B9:1, B10:1, B11:1, B12:1, B13:1, B14:1, B15:1>> = <<Integer:16>>.
3> {B0, B1, B2, B3, B4, B5, B6, B7, B8, B9, B10, B11, B12, B13, B14, B15}.

B0 is now 0, B5 is 1, etc.

You don't say much about the expected format of the result, based on Dogbert proposal, here is a more automated solution.

1> HexToBin = fun(D) -> 
1> S = size(D) * 4,
1> I = binary_to_integer(D,16),
1> << << X >> || <<X:1>> <= << I:S >> >> 
1> end.
2> HexToBin(<<"0421">>). 
3> rp(HexToBin(<<"00123456789abcdef0421">>)).
1> integer_to_list(binary_to_integer(<<"0421">>, 16),2).

See the documentation for the same core erlang module. Especially pay attention to the second parameter of integer_to_list/2.

  • Thanks for providing code which might help solving the problem, but generally, answers are much more helpful if they include an explanation of what the code is intended to do, and why that solves the problem. – LordWilmore May 9 at 10:38
  • @LordWilmore: Although you a right that explanation for a solution would generally be better than just providing just solution but here I use functions from module erlang which is the most basic module in Erlang environment. It would be like explaining the meaning of + which is actually erlang:'+'/2 function from the same module. I can add RTFM as an explanation but I would consider it rude. – Hynek -Pichi- Vychodil May 9 at 11:10

Dogbert's solution might get a little tedious with big integers.

bits(HexBin) ->
        binary_to_integer(HexBin, 16)

bits(<<Bit:1, Rest/bitstring>>, Acc) ->
    bits(Rest, [Bit|Acc]);
bits(<<>>, Acc) ->

In the shell:

6> c(my).              

7> my:bits(<<"0421">>).

8> LongResult = my:bits(<<"FFFFFFFFFFFFFF0421">>).        

9> io:format("~p~n", [LongResult]).

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