I have been examining a code example and I cannot understand what is happening, I have tried to understand easier examples and get them but at this one I am getting stuck:

seq([X, X | Xs]) -> [X | seq(Xs)];
seq([X, Y | Xs]) -> [X, Y | seq(Xs)];
seq(_) -> [].

When I run it in the shell with [1,1,1,2,2,2,3] I get [1,1,2,2]. I have been trying to understand the steps by writing it on paper but I got stuck halfway trough.

I would appreciate all answers explaining me the steps happening here! :) /Eri.

  • I'm assuming you want to get [1,2,3] as the output? Please specify the expected result.
    – kjw0188
    Jan 15 '14 at 0:54
  • I don't want to get any specific output, I just want to understand how sequential erlang works, the code I presented above is a example of it. When I run it with [1,1,1,2,2,2,3] I get [1,1,2,2], I just want to know how it comes I get [1,1,2,2] in order to learn how the steps are performed. Therefore I want somebody to explain me the steps.
    – Eri.
    Jan 15 '14 at 1:00

Ok, so we start with a list of [1,1,1,2,2,2,3].

On the first call to seq, erlang will match the first two elements 1 and 1 to the first "clause" of seq - seq([X, X | Xs]). This will initialize the list that will become the final return value, [1, seq(Xs)]. Now at this point Xs will be bound to the value [1,2,2,2,3]. If you're wondering why there aren't two 1's at the beginning of the Xs list it's because we matched/bound two of them on [X, X | Xs].

Return value = [1 | ?] (? is the remaining recursion to be evaluated)
Xs = [1,2,2,2,3]

On the second call to seq, erlang will match the first two elements of the input list 1 and 2 to the second clause seq([X, Y | Xs]). We then "return" the list [X, Y] or [1, 2] from this run, and call the next iteration with Xs = [2,2,3].

Return value = [1 | [1, 2 | ?]] <- See how recursion nests the lists?
Xs = [2,2,3]

On the third call, the first two elements are the same again, so erlang runs the first clause again. seq([X, X | Xs]) -> [X | seq(Xs)]. We return a single 2 value as part of the evaluation, and call seq([3]).

Return value = [1 | [1, 2 | [2 | ?]]]
Xs = [3]

At last, the final case. Our list of [3] doesn't match [X, X | Xs] nor [X, Y, Xs], so erlang will run our catch-all: seq(_) -> []. _ will match anything, and not bind the value to any local variables, so all we do here is return an empty list [].

Our final return value then is: [1 | [1, 2 | [2 | []]]]. If you evaluate this into your erl repl, you'll see it's the same as the list [1,1,2,2], the later is syntactic sugar for the former.

  • 1
    Many many thanks!! You explained it very well and I am now understanding how it goes, awesome!!!
    – Eri.
    Jan 15 '14 at 16:53

Tracing can help you a little bit:

1> dbg:tracer().
2> dbg:p(self(), [c]).
3> dbg:tpl({test, seq, 1}, [{'_',[],[{return_trace}]}]).
4> test:seq([1, 1, 1, 2, 2, 2, 3]).
(<0.33.0>) call test:seq([1,1,1,2,2,2,3])
(<0.33.0>) call test:seq([1,2,2,2,3])
(<0.33.0>) call test:seq([2,2,3])
(<0.33.0>) call test:seq([3])
(<0.33.0>) returned from test:seq/1 -> []
(<0.33.0>) returned from test:seq/1 -> [2]
(<0.33.0>) returned from test:seq/1 -> [1,2,2]
(<0.33.0>) returned from test:seq/1 -> [1,1,2,2]
  • 1
    If the function was tail-recursive, it would be even more helpful because the values produced would be visible in the trace too. Jan 15 '14 at 1:34

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