Erlang binary representation for float & integer, discrepancy?

Got another Erlang binary representation query ('coz that's what I am reading about these days, and need for binary protocol implementation).

If I understand the type-specifier properly, then, for a "float" type value the 8 byte representation seems fine (this is on 64-bit Win7).

``````1> <<A1/binary>> = <<12.3214/float>>.
<<64,40,164,142,138,113,222,106>>
``````

However what stumped me, was that the "integer" type value's binary representation.

``````2> <<A2/binary>> = <<32512/integer>>.
<<0>>
3> <<A3/binary>> = <<232512518/integer>>.
<<6>>
4> <<A5/binary>> = <<80/integer>>.
<<"P">>
``````

Why are all of those represented in 1 byte ? Can someone please explain this ?

-

You're not converting Erlang terms to their binary representation. You're using the binary syntax to build binaries. Using integer will truncate them to fit into one byte:

``````3> <<255/integer>>. % Under one byte
<<"ÿ">>
4> <<256/integer>>. % "Over" one byte
<<0>>
``````

Try this:

``````5> term_to_binary(32512).
<<131,98,0,0,127,0>>
6> term_to_binary(232512518).
<<131,110,4,0,6,220,219,13>>
7> term_to_binary(80).
<<131,97,80>>
``````

`131` is the version number, `97` is a small integer (8-bit), `98` is a big integer (32-bit), `110` (and `111`) are for bignum integers. The rest is the data for the actual numbers.

See the documentation for the Erlang binary term format for further info on what the bytes mean.

-
thanks for explaining. This is one of my "slow days", so please bear with me. so when we write <<255/integer>>, it is like explicitly saying that we mean the number 255 as a 8-bit (unsigned) integer. that explains why I can do these -- <<255:16/integer>> and <<255:32/integer>>, to turn them into explict 2-byte and 4-byte little-endian representation, and probably useful for directly working with CANbus data (that is little-endian). Probably not such a good idea ? I was hoping to leverage the binary representation to populate protocol headers. – icarus74 Jul 5 '11 at 13:17
Well, working with binary protocols you should do it in exactly that way. That's how you would create binaries in Erlang with different sized integers in them. The Erlang binary term format is something completely different, made for communicating between Erlang nodes or other systems talking "Erlang". See bert-rpc.org – Adam Lindberg Jul 5 '11 at 14:10
@icarus74: the default if you just specify e.g. `<<N:32/integer>> is big-endian not little-endian (many protocols use big-endian = network byte order). But you can specify the endianness as big, little or native. See erlang.org/doc/reference_manual/expressions.html#id77409 – Peer Stritzinger Jul 5 '11 at 14:31
@peer-stritzinger thanks for the comment. When I do -- 1> <<B6/binary>> = <<3100:64/integer>>. It returns -- <<0,0,0,0,0,0,12,28>> – icarus74 Jul 5 '11 at 17:16
@icarus but your example shows big endian encoding see en.wikipedia.org/wiki/Endianness – Peer Stritzinger Jul 10 '11 at 19:15