1

In Elixir/Erlang one can do this kind of pattern matching / deconstruction over binaries and bitstrings:

  def func1(my_data) do
      <<
        1,
        44,
        a::little-32,
        b::little-64, 
        c, 
        d::64-little, 
        e::32-little-float, 
        rest::binary
      >> = my_data

      # using a, b, c, d, e, rest 

   end

I've not found a way to do that in Haskell. Is there any out of the box capacity of Haskell? Or will utilizing some third-party library be required?

  • You can write a parser using one of the parser libraries, such as parsec or attoparsec. Parsing bits out of a ByteString takes a little work, but I've done it. – Bob Dalgleish Feb 26 at 14:00
  • @BobDalgleish that doesn't answer my question – tarin Feb 26 at 14:11
4

There's no such thing out of the box, but something similar can be implemented as a library with pattern synonyms, so it would look like this:

-- For some definition of (:.)
case myData of
  (1 :: Word8) :.
    (44 :: Word8) :.
    (a :: Little32) :.
    (b :: Little64) :.
    (c :: Word8) :.
    (d :: Little64) :.
    (e :: LittleFloat32) :.
    rest ->
    {- using a, b, c, d, e, rest -}

Full gist https://gist.github.com/Lysxia/8ee6b9debd613b988023d5a0a8dfd9cc

In Haskell we usually prefer parser combinator libraries like the binary package.

  • what's the type of myData in your answer? – tarin Feb 26 at 15:32
  • where did you get LittleFloat32, Little64? – tarin Feb 26 at 15:33
  • what's For some definition of (:.) ? – tarin Feb 26 at 15:35
  • myData and rest would be ByteString. Everything else would need to be defined. – Li-yao Xia Feb 26 at 17:29
  • That's what my initial question is about - how define them? – tarin Feb 26 at 17:33

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