I am reading through the "Starting Out" chapter of Learn You a Haskell for Great Good!. It says:

null checks if a list is empty. If it is, it returns True, otherwise it returns False. Use this function instead of xs == [] (if you have a list called xs)

I tried in ghci:

xs = []      -- and then,

xs == []
null xs

Both of them are True.

I wonder what's the difference.

Should I use the null function instead of == [] and why?


4 Answers 4


You should use null. In most cases it doesn't matter, but it is a good habit to get into anyway, because occasionally you may want to check if a list of non-comparable things is empty. Here is a short, crisp example showing this difference:

> null [id]
> [id] == []
<interactive>:1:1: error:
    • No instance for (Eq (a0 -> a0)) arising from a use of ‘==’
        (maybe you haven't applied a function to enough arguments?)
    • In the expression: [id] == []
      In an equation for ‘it’: it = [id] == []
  • 28
    “In most cases it doesn't matter” – I'd disagree. It's very common to write polymorphic list functions, which shouldn't require an Eq constraint (even if they will indeed in most cases be instantiated with Eq types). Jul 14, 2019 at 17:16
  • 5
    I agree with everything written in this answer. For the sake of posterity and completeness, it may also be worth mentioning why length xs == 0 is a bad idea. Jul 15, 2019 at 18:14
  • 9
    For the record: length xs == 0 is a bad idea because it needs to traverse the whole linked list (which is O(n) and never terminates on an infinte list).
    – mb21
    Jul 16, 2019 at 12:19

There is a difference. In order to use x == [], the type of the elements of the list should be a member of the Eq typeclass. Indeed, checking the equality of two lists is defined by the instance declaration:

instance Eq a => Eq [a] where
    []     == []      =  True
    (x:xs) == (y:ys)  =  x == y  &&  xs == ys
    _      == _       =  False

That means that you can not use x == [] if x is for example a list of IO Ints.

null :: [a] -> Bool on the other hand, uses pattern matching. This is implemented as:

null                    :: [a] -> Bool
null []                 =  True
null (_:_)              =  False

So regardless what type the elements of the list are, it will always typecheck.


In addition to the good answers given so far, null actually has type

null :: Foldable t => t a -> Bool

I don't know if you've gotten to typeclasses in LYAH, but the short of it is that null can be used not just for lists, but for any data structure that implements null.

This is to say that using null on a Map or a Set is valid, too.

> null Map.empty
> null (Map.singleton 1)
> null Set.empty
> null (Set.singleton 1)
> null []
> null [1]

I don't think it's especially common to write functions that need to be this general, but it doesn't hurt to default to writing more general code.

A side note

In many cases, you'll end up wanting to use a function like null to do conditional behavior on a list (or other data structure). If you already know that your input is a specific data structure, it's more elegant to just pattern match on its empty case.


myMap :: (a -> b) -> [a] -> [b]
myMap f xs
  | null xs = []
myMap f (x:xs) = f x : myMap f xs


myMap' :: (a -> b) -> [a] -> [b]
myMap' f [] = []
myMap' f (x:xs) = f x : myMap' f xs

In general, you should try to prefer pattern matching if it makes sense.


Also a simple function that filter all empty list would fail:

withoutEmpty = filter (== [])

and that would be:

withoutEmpty = filter null

notice that:

withoutEmpty ls = filter (==[]) ls

will work just fine, but the important point is that in some cases like the other one could fail.

Also look at @cole answer, it complements all the answers here, the typeclass Foldable has the null function there to be implemented:

To see more info of Foldable here

  • 1
    This answer is a bit misleading. withoutEmpty = filter (==[]) may cause an error, but withoutEmpty x = filter (==[]) x works fine. Jul 15, 2019 at 3:30
  • @DanielWagner (or Damian) could either of you elaborate why only the point-free version fails to type-check? Jul 16, 2019 at 15:08
  • 1
    @LeifWillerts What is the monomorphism restriction? Jul 16, 2019 at 16:09

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