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I have seen may programs in which lists are formed backwards and then reversed in the last step of the process using lists:reverse?
Is this due to performance issues?

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4 Answers

up vote 1 down vote accepted

Short: Yes, it's a performance issue in Erlang.

Consider the following example:

-module().
-export(read/3)

read(simple, Socket, ReceivedData) ->
    receive
        {tcp,Socket,NextDataSegment} ->
            read(simple, Socket, list_to_binary([ReceivedData,NextDataSegment]));
        {tcp_closed,Socket} ->
            ReceivedData
    end;
read(efficient, Socket, ReceivedData) ->
    receive
        {tcp,Socket,NextDataSegment} ->
            read(efficient, Socket, [NextDataSegment|ReceivedData]);
        {tcp_closed,Socket} ->
            list_to_binary(lists:reverse(ReceivedData))
    end.

While both functions receive data from a socket and while both versions are correct, their efficiency is quite different.

  • read(simple,_,_) new binary data is continually appended to the end of the buffer which causes a lot of copying of data due to the nature of functional programming. This is done multiple times for one list to be complete and hence has the complexity of O(N2).

  • read(efficient,_,_) new data fragments are prepended to the list, so it ends up reversed. A single call to a lists:reverse/1 is all that is needed to fix this. The complexity here is O(N).

Also, the reverse operation is highly optimized and it is a BIF written in C which makes it faster than any reverse function you can write in Erlang, again because of the constantly needed data copying.

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read(simple, _, _) in your example builds an improper list. Should be ReceivedData ++ [NextDataSegment]. –  YOUR ARGUMENT IS VALID Dec 8 '10 at 12:47
    
Thanks, didn't give it much thought so point taken I modified that line. Anyway, the logic still stays the same. –  Vuk Dec 8 '10 at 13:56
1  
Please read Joe Armstrong's opinion on the efficency matter of this. Do you disagree with the O(N^2) >> O(N) in the given example? –  Vuk Dec 8 '10 at 16:41
1  
This is a pretty bad example. Both functions can be implemented in manners that are pretty much as efficient as the other. If for the first example you avoid turning it to a binary on each run, you get a deeply nested list of the form [[[First, Second], Third], Last]. This is a valid iolist, and using list_to_binary/1 at the end (or simply outputting it, depending on the usage) will take linear time. In both cases it's O(n), although the constant value changes. Your example simply illustrates a point through bad implementation. Using ++ would have been clearer there. –  I GIVE TERRIBLE ADVICE Dec 8 '10 at 20:25
1  
Well yeah basiclly my answer is not about the performance of tail-recursive functions as that's not what the question was about. And I know that simple is not remotely an acceptable implementation but I just think it suited well in the example of a reversed vs. straight-forward construction of the list. And I guess, at the end of the day, it did answer Junky's question, so I guess I'll leave it at that :) –  Vuk Dec 10 '10 at 15:15
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It depends on what you are doing. If you are writing a function which takes a list as input, steps over the the list doing something with each element in the list and finally returns the updated list there are two basic ways of doing it. Directly returning the list at each level:

inc([H|T]) -> [H+1|inc(T)];
inc([]) -> [].

or using an accumulator to build the list in reverse order and then reversing the list:

inc(List) -> inc(List, []).

inc([H|T], Acc) -> inc(T, [H+1|Acc]);
inc([], Acc) -> reverse(Acc).

The second way using an accumulator is properly tail-recursive and behaves like an iterative loop and is generally a little faster than the first, but the difference is not great. See section 2.3 in the myths link above. I would recommend writing it in the clearest way. Of course, if you want to return more than just the list, for example {ok,List} then you need the accumulator or a helper function.

Using lists:append/2 or ++ is slower so using it with an accumulator is generally not recommended. There again it depends on the context, if you know the list is going to be short or that the code is not critical to performance then it might not be worth the effort to optimise it.

Also if it not convenient to directly return the list, something like @Vuk's receive loop above, then you must use an accumulator and the comments about prepending elements to the list and using reverse to get them in the right order vs. using ++ hold.

Here we are not talking about using ++ for say concatenating strings where it is equivalent to writing your own function:

DirPath ++ "/" ++ FileName
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The list data type is very fast at adding new an element first in list instead of last in list. When iterating through a list with the result of building a new list or same order, the method of iterating through list, adding each element to the head of list and finally reversing the list to preserve original order is the norm. The alternative of appending the new element last in list is more expensive. Please read this page about myths, specially chapter 2.3 and 2.4. Cheers!

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Yes it is because of performance. When you add an item to the head of a list it takes O(1) time. When you append items to the end of a list it takes O(N) (because the list being appended to has to be fully traversed). If you do this repeatedly in a loop this results in O(N2) time because you're repeatedly traversing the list. Hence, it's way faster to create a list in reverse order then call lists:reverse once (which is just O(N) time).

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