# Erlang - Interleave the easy way

Whats the easy/efficient way of interleaving three data sets..

``````Data1 = [<<5>>,<<6>>,<<7>>],
Data2 = [<<5>>,<<6>>,<<7>>],
Data3 = [<<5>>,<<6>>,<<7>>].
``````

End Result:

``````Final = [<<5>>, <<5>>, <<5>>, <<6>>, <<6>>, <<6>>, <<7>>, <<7>>, <<7>>]
``````

Im sure its like

``````[X || X <- [Data1, Data2, Data3]]
``````
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Module function:

``````zip3(X, Y, Z) when X =:= []; Y =:= []; Z =:= [] -> [];
zip3([HX | TX], [HY | TY], [HZ | TZ]) -> [ HX, HY, HZ | zip3(TX, TY, TZ)].
``````

Same in shell:

``````F = fun(D1, D2, D3) ->
G = fun(F, X, Y, Z) when X =:= []; Y =:= []; Z =:= [] -> [];
(F, [HX | TX], [HY | TY], [HZ | TZ]) -> [ HX, HY, HZ | F(F, TX, TY, TZ)]
end,
G(G, D1, D2, D3)
end,
Data1 = [<<5>>,<<6>>,<<7>>],
Data2 = [<<5>>,<<6>>,<<7>>],
Data3 = [<<5>>,<<6>>,<<7>>],
F(Data1, Data2, Data3).
[<<5>>,<<5>>,<<5>>,<<6>>,<<6>>,<<6>>,<<7>>,<<7>>,<<7>>]
``````

And of course you can do it with `lists` module:

``````lists:append(lists:zipwith3(fun(X, Y, Z) -> [X, Y, Z] end, Data1, Data2, Data3)).
[<<5>>,<<5>>,<<5>>,<<6>>,<<6>>,<<6>>,<<7>>,<<7>>,<<7>>]
``````
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Thanks that works like a charm –  user417896 Aug 14 '10 at 17:13

You can write a custom `zip` function to accomplish this.

``````zip([HX | TX], [HY | TY], [HZ | TZ]) -> [[HX, HY, HZ] | zip(TX, TY, TZ)];
zip([], [], []) -> [].
``````

This function will work fine as long as the length of the inputs are the same. Dealing with inputs of varying length will take some tinkering. Something like this:

``````zip(X, Y, Z) when length(X) =:= 0; length(Y) =:= 0; length(Z) =:= 0 -> [];
zip([HX | TX], [HY | TY], [HZ | TZ]) -> [[HX, HY, HZ] | zip(TX, TY, TZ)].
``````

Call it thus:

``````7> my_module:zip(Data1, Data2, Data3).
[[<<5>>,<<5>>,<<5>>],
[<<6>>,<<6>>,<<6>>],
[<<7>>,<<7>>,<<7>>]]
``````

See also: standard library function `lists:zip3`.

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You could also use lists:zipwith3 to avoid writing the recursive loop yourself. –  cthulahoops Aug 13 '10 at 14:12
@cthulahoops: You'll notice that I did mention `lists:zip3`. However the OP wanted a list of lists rather than the list of tuples that `zip3` produces. Hence rolled my own function. I am sure you can convert the tuples to lists though. –  Manoj Govindan Aug 14 '10 at 6:53
I was thinking of lists:zipwith3(fun(X, Y, Z) -> [X, Y, Z] end, Data1, Data2, Data3)) which deals with the tuple/list issue. –  cthulahoops Aug 14 '10 at 23:29
@cthulahoops: of course you were. My eyesight is getting sketchy with age. Mea culpa. –  Manoj Govindan Aug 15 '10 at 5:08
``````Final = Data1 ++ Data2 ++ Data3.
``````
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I don't think the OP wants to concatenate lists. The code fragment you have posted will produce `[<<5>>,<<6>>,<<7>>,<<5>>,<<6>>,<<7>>,<<5>>,<<6>>,<<7>>]` which is not what he expects `Final` to be. –  Manoj Govindan Aug 13 '10 at 9:50
Ah! You're right. I totally missed the interleaving part. –  ram Aug 13 '10 at 10:00

Here's my go at it. With this you can add as many Data sets as you want, just add them to a list. It also takes into account if the lists are different sizes. Probably more efficient to use the new binary module instead of breaking down the binary data into 1 byte lists if the binary data can be large or it's a very common function.

``````-module(zippy).
-compile(export_all).

zipAll(L) -> zip({L,[]}).
zip({L,Final}) ->
case lists:any(fun(X) -> case X of [] -> false; _ -> true end end,L) of
true -> zip(lists:mapfoldl(fun x/2,Final,L));
_ -> lists:reverse(Final)
end.

x([],L) -> {[],[null|L]};
x([H|T],L) -> {T,[H|L]}.

start() ->
Data1 = [<<5>>,<<6>>,<<7>>],
Data2 = [<<5>>,<<6>>,<<7>>],
Data3 = [<<5>>,<<6>>,<<7>>],
Data4 = [<<5>>,<<6>>,<<7>>,<<1>>],
zipAll([Data1,Data2,Data3,Data4]).
``````

you're thinking of list comprehensions [{X,Y,Z} || X <-Data1, Y<-Data2,Z<- Data3]] which is more to generate all possibilities where order doesn't matter.

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