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Say I have a binary number:
Each digit is one bit.

I want to be able to transform that into:
[1, 11, 111, 1111, 11111]

...and eventually into:
[1, 2, 3, 4, 5]

%What I tried
I tried binary:split, but data is always encoded in chunks of bits. I just want to work with the raw data (if that is possible.)

%What I am trying to accomplish
I am designing a header for a routing protocol. I want the header to contain a list of addresses that the packet has already visited. I figured I would not have to place any restrictions on the total length of the header if I give the header itself a header that consists of consecutive ones separated by zeros. The header's header would be separated from the header itself by two consecutive zeros. So if I had a payload that said:
<<"Hello World">>
and the data has been visited by alice, bob, and carl, then header would be:
and the header's header would be:
(8*5 ones) 0 (8*3 ones) 0 (8*4 ones) 00
assuming we are using some 8 bit encoding for the header.

Then the actual packet would read:
(8*5 ones) 0 (8*3 ones) 0 (8*4 ones) 00 <<"alicebobcarl">> <<"Hello World">>

To decipher the header, I would first locate the first instance of 00, and split everything before that 00 at each 0. Then I would transform the resulting list into a list that contains number of bits in each address the packet had traveled to. Then I can finally read off the addresses from the header and retrieve the payload.

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Two while loops will do it. The outer one loops until the number becomes 0, the inner one loops while the LSB is 1, and counts the number of times that happens until a 0 is reached. –  Douglas B. Staple Oct 2 '12 at 22:18
I am pretty sure Erlang does not have for/while loops. Besides, I do not know how to actually read off individual bits in Erlang. –  Alex Eftimiades Oct 2 '12 at 22:21
Whoops -- I know nothing about erlang -- maybe my comment isn't helpful. That's how I'd do it in a low-level language like C. –  Douglas B. Staple Oct 2 '12 at 22:27
Erlang has recursion, so it can do loops, and it has division and modulus, so you can read off the LSB and do bit shifts. –  Douglas B. Staple Oct 2 '12 at 22:35
Shouldn't it be (8*5 ones) 0 (8*3 ones) 0 (8*4 ones)? –  Ed'ka Oct 3 '12 at 7:36

3 Answers 3

up vote 1 down vote accepted

Bitstring comprehensions to the resque:

1> Inp = <<1:1,0:1,3:2,0:1,7:3>>.
2> [ size(B) || B <- binary:split(<< <<I>> || <<I:1>> <= Inp >>, <<0>>, [global]) ].
share|improve this answer
Wow, that actually worked. At the time of writing this comment, I have never seen the ||, <- or <= syntax. I have some reading to do! –  Alex Eftimiades Oct 3 '12 at 16:02
My one complaint with this method is that it returns the trailing zeros as part of the list. I want it to stop after 00 and not include the 00 in the result. –  Alex Eftimiades Oct 3 '12 at 16:06
Ok, so I found if you add the trim option, you get the desired result. –  Alex Eftimiades Oct 3 '12 at 16:34

Can you convert binary to string?

Suppose you can, then do like following:

B = "1011011101111011111",
S = string:tokens(B, "0"),
R = lists:map(fun(E)->length(E) end, S).

But this is not efficient. Expect good answer.

share|improve this answer

Here is how you can parse header:


parse_header(Message) ->
        parse_header(Message, []).

parse_header(<<0:1, 0:1, Body/bitstring>>, Header) ->
        %% stop if found header delimiter - two consecutive zero bits
        %% return parsed header and message body
        {lists:reverse(Header), Body};
parse_header(<<1:1, Rest/bitstring>>, []) ->
        %% handle if first bit is '1'
        parse_header(Rest, [1]);
parse_header(<<1:1, Rest/bitstring>>, [H | T]) ->
        %% handle consecutive '1' bits of header
        parse_header(Rest, [H+1 | T]);
parse_header(<<0:1, Rest/bitstring>>, Header) ->
        %% handle delimiters inside header - '0' bit
        parse_header(Rest, [0 | Header]).

Let test it in shell. Assume such header '10110111' (must be parsed into [1,2,3]) + delimiter '00' + some body <<12345:64>>:

2> B1 = <<1:1,0:1,1:1,1:1,0:1,1:1,1:1,1:1,0:1,0:1,12345:64>>.
3> bitcnt:parse_header(B1).
4> <<12345:64>>.

Another test '11101' (must be parsed into [3,1]) + '00' + <<12345:64>>

5> B2 = <<1:1, 1:1, 1:1, 0:1, 1:1, 0:1, 0:1, 12345:64>>.
6> bitcnt:parse_header(B2).                             

Even if header is empty (message starts with two consecutive zero bits) - function parse header into empty list:

7> B3 = <<0:1, 0:1, 12345:64>>.
8> bitcnt:parse_header(B3).    


By the way, format of your header is very redundant. If you're want to encode big numbers, for example, number 1024 - you'll need to transform it to 1024 consecutive '1' bits!

There is two ways to improve format of your header:

  • if you know that any of your numbers is less than some threshold number: calculate how many bits you're need to encode number with maximum value, and encode each of your numbers in header with bitstring of pre-defined length. For example - if all of your numbers are less than 2^32 - you need 32 bit to encode each number from this interval

  • if you can't define threshold (number with maximum value): use variable length coding. For example, Elias gamma-coding or Exponential-Golomb coding.

share|improve this answer
I read and reread your answer, then I read about the encoding methods you mentioned. Unless I am misunderstanding, my method does not seem so far from the Elias gamma-coding. In fact, the only reason I would not go with the Elias gamma-coding in this case is that I would have to encode the data too--requiring a list of zeros almost as long as the data. To encode a header that says 1024, I would give the header a header of 10 ones followed by two zeros followed by the binary 1024 header followed by the data. –  Alex Eftimiades Oct 3 '12 at 15:40
That, by the way, would imply that the packet visited a computer called 10000000000 (an odd name indeed). –  Alex Eftimiades Oct 3 '12 at 15:41
@Feynman, So, you encode each number into corresponding consecutive string of 1 bits? 1->1, 2->11, 3->111, 4->1111 ? It is very redundant. It is very far from Elias gamma coding. –  stemm Oct 3 '12 at 15:45
@Feynman, For example, in Elias gamma coding number 16 would be represented as 000010000 (9 bits). But if encode 16 with your algorithm it would be represented as 1111111111111111 (16 bits) –  stemm Oct 3 '12 at 15:47
@Feynman, But if you don't care about redundancy - look the function parse_header from my answer, it implements your algorithm –  stemm Oct 3 '12 at 15:51

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