# Convert Erlang integer to positional notation binary

I can convert an integer to a binary easily in Erlang:

``````integer_to_binary(11, 10).
``````

The bits in the returned binary are in this case contains these bits:

``````0011000100110001
``````

I'd like write a function to generate a binary containing the binary-notation of the number passed in. That is, the number eleven would look like this in bits:

``````1011
``````

Is there an easy way to do this in Erlang?

• You mean this `binary:encode_unsigned/1`? `binary:encode_unsigned(11) == <<0:4, 1:1, 0:1, 1:1, 1:1>>.`? If not, then what exact value do you expect for `11`? Nov 6 '16 at 19:15
• Wow. I completely missed that when reading through the docs. That's exactly what I was looking for! If you throw together a quick answer I'll accept it. Nov 6 '16 at 19:20

To convert an arbitrary sized unsigned integer to a binary consisting of the bytes in the integer, you can use `binary:encode_unsigned/1` or `binary:encode_unsigned/2`.

``````1> binary:encode_unsigned(11).
<<"\v">>
2> binary:encode_unsigned(11) == <<0:4, 1:1, 0:1, 1:1, 1:1>>.
true
``````

`binary:encode_unsigned/1` will store the bytes in big endian representation. To store the bytes in little endian, you can use `binary:encode_unsigned/2`:

``````1> binary:encode_unsigned(123456789, little).
<<21,205,91,7>>
2> binary:encode_unsigned(123456789, big).
<<7,91,205,21>>
``````