# Why the cycle function cannot work with empty list?

I used the function cycle in some of my projects and today I discovered it isn't a total function, as shown by this GHCI example:

``````λ> Data.List.cycle []
*** Exception: Prelude.cycle: empty list
``````

I know that Haskells tries to use total functions (except for the fundamental functions `head` and `tail`) and I'm not entirely sure of why `cycle` is not one of them. In my mind, the `cycle` of the empty list is the empty list and I don't see problems with this. Why `cycle` for empty lists throws an error?

EDIT: Based on the first answers, I think my idea is not completely clear: I don't want `cycle []` to be a computation that never ends. On contrary, I think `cycle []` should be the:

``````cycle :: [a] -> [a]
cycle [] = []
cycle xs = xs ++ cycle xs
``````

The `[]` is the `cycle []` because all the operations do exactly what I except. For instance, `take 3 []` is `[]` and thus `take 3 (cycle [])` could be `[]`. What's the problem with this solution?

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`cycle` is defined for empty list. You can define it as `cycle x = let y = x ++ y in y`. But `head (cycle [])` is an error with this definition anyways; however, `Exception: Prelude.cycle: empty list` is a way better error message than `Exception: <<loop>>`, which is what the above definition produces. – user2407038 Jun 14 '14 at 19:13
@user2407038 You have a funny definition of "defined"! `cycle []` is semantically equivalent to `undefined`... – Daniel Wagner Jun 14 '14 at 19:27
@Carl "Wrong" is a strong word for returning the empty list on empty input, especially since it's already a special case in the source code. Cycle doesn't create an infinite list, it creates a cyclic list. Admittedly in practice it's hard to tell the difference, but also in practice it's hard to check for `error "Prelude.cycle: empty list"`. – AndrewC Jun 15 '14 at 19:41
@Carl I can check the input at runtime also for `head` and `tail` but I still think partial functions are bad. I prefer a total function that tells me in its type that it isn't defined always, like `Data.Maybe.listToMaybe`, instead of a partial function that requires me to check before, like `Data.List.head`. Why? Simply because the second one is error prone. Still, while I understand why `head` works like that, the problem that I have with `cycle` is that I don't get why it should be partial and thus error prone. I was using it and I introduced errors without realising it. – mariop Jun 15 '14 at 19:57
@mariop You get the error for the very simple reason that it's better than the alternative of hanging as it attempts to produce the next element. The proper way to make `cycle` total involves using types for nonempty lists. Producing an empty list if the input is empty is even worse than hanging - it's silently propogating an error condition by returning nonsense. Might as well be PHP if that's what it's going to do. – Carl Jun 15 '14 at 20:27

I do not have any special insight into the mind(s) of the people who implemented the `cycle` function.

cycle ties a finite list into a circular one, or equivalently, the infinite repetition of the original list. It is the identity on infinite lists.

Traditionally when you think of a circularly linked list, wiki entry you have:

How would I express a circular empty list? A pointer going to itself? But even that does not fit.

My best explanation is that circular lists are not normal lists. They are different beasts with different semantics. Just like `head` is really only full defined on non-empty empty list because there is no first element of an empty list, `cycle` is only fully defined on non-empty lists because there is no empty circular linked list.

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You were consistent until you denied that it would be a pointer pointing to itself, since that (a thunk that evaluates to a thunk) is what the definition would be if you kept it consistent across any list input. Clearly that would be even less helpful than crashing the program is. I struggle to think of circumstances where crashing the whole program is better than returning the empty list. – AndrewC Jun 20 '14 at 14:53
I find it strange that people quote the comment in the prelude next to the definition in the prelude as an authority to justify their reasoning for not editing the prelude. Even if it said "don't edit this" there might be a case for editing it if it caused unnecessary program crashes. head has to crash with that type signature, there's no possible correct answer on an empty list (ideally it would return a Maybe, and certainly read should), but cycle can return the entirely logical, consistent empty list. No need to crash the whole program. – AndrewC Jun 20 '14 at 14:59
By the way, I think this is the most convincing out of the wrong answers! – AndrewC Jun 20 '14 at 15:12
I accept the answer because I agree on the fact that circular lists are not normal lists. I disagree with Prelude design, by the way, because cycle has not a clear definition but more an intuition on what the result could be. Without a clear definition of cycle, one could in theory implement it as he want. – mariop Jun 20 '14 at 17:25

`cycle` is actually defined as returning an infinite list for all input. If it attempted to do that naively with an empty input, it would sit in an infinite loop. The error condition is slightly more informative with the same denotational semantics.

## Edit:

Since people don't seem to understand what I mean when I say that empty output is bad, consider this simple function:

``````labelElements :: [a] -> [b] -> [(a, b)]
labelElements labels elements = zip (cycle labels) elements
``````

It's nice and simple, with an obvious error condition when the list of labels is empty. If cycle returned an empty list on empty input, it'd make `labelElements` silently propogate that bug to its output. At the moment, it screams and yells that you messed up instead. One of these is far better than the other.

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It's not imperative to use the naive definition - you could use `cycle [] = []` without infinte loops. – AndrewC Jun 15 '14 at 14:06
@AndrewC Then you're expanding the definition with special cases. It's a lot nicer to know that cycle always results in an infinite list. The semantics are simpler, and there are fewer special cases to check for. – Carl Jun 15 '14 at 17:08
I disagree that empty output is a bug in your edit example. If I pop that in a GUI program where a user chooses both the labels and the elements, it's the right thing to do to produce empty output until they fill in both. It's OK to check for `[]` and helpfully point this out to them, but it's absolutely the wrong thing to crash the whole program. If I use `cycle [] = []` the GUI just works. With the current `cycle [] = error "cycle: empty list"` you have to check for `[]` to stop your programming crashing. Don't force `error` on people unless it's necessary. – AndrewC Jun 15 '14 at 20:43
By this argument, `zip` itself should crash both on empty input, and on length mismatch. No, no, please no. – AndrewC Jun 15 '14 at 20:47
There's a big difference between "empty output is sometimes bad" and "empty output should crash every program that uses this function". – AndrewC Jun 15 '14 at 21:02

The problem arises when it comes to accessing elements in the list. A self-defined cycle function operating on a non-empty list has no problems when being accessed but trying to get, for example, the first 3 elements of the cycled empty list results in an infinite loop:

``````cycle' xs = xs ++ cycle' xs

take 3 (cycle' [1,2]) -- returns [1,2,1]
take 3 (cycle' [])    -- still looping
``````
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True, but if you define `cycle' [] = []` then `drop 3 (cycle' [])` gives `[]` without infinite loop. However, `head (cycle' [])` would be an error, certainly. – AndrewC Jun 15 '14 at 14:05
@AndrewC Yes it is – ThreeFx Jun 15 '14 at 14:08

Note that as it is currently defined, it is consistent with `tail`.

``````tail [] = error ...
``````

`cycle` is conceptually related to `tail`. When you `cycle` a list, that means that you can repeatedly look to its `tail` and never reach the "end" (`[]`), because it is a cycle. (See Davorak's image.) In other words, it is always safe to use `tail` on a `cycle`'d list, assuming, of course, that it was safe to use `cycle` on that list in the first place.

I, for one, think it is a perfectly reasonable thing to define.

``````tail [] = []
cycle [] = []
``````

But you should redefine both `cycle` and `tail` for consistency.

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The intent of `cycle` as described in the documentation is:

``````import Data.List.Nonempty
import Data.Stream.Infinite

cycle :: NonEmpty a -> Stream a
``````

The authors of the `Prelude` use a partial function for passing in an empty list, which is conceptually a type error, similar to `head` and `tail`.

If you'd like a cycle that returns `[]` it's as easy as:

``````myCycle :: [a] -> [a]
myCycle xs = if null xs then xs else cycle xs
``````

See: semigroups for the definition of `NonEmpty` and streams for the definition of `Stream` and a total definition of `cycle`.

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