What is the difference between the dot (.) and the dollar sign ($)?. As I understand it, they are both syntactic sugar for not needing to use parentheses.

12 Answers 12

up vote 1094 down vote accepted

The $ operator is for avoiding parentheses. Anything appearing after it will take precedence over anything that comes before.

For example, let's say you've got a line that reads:

putStrLn (show (1 + 1))

If you want to get rid of those parentheses, any of the following lines would also do the same thing:

putStrLn (show $ 1 + 1)
putStrLn $ show (1 + 1)
putStrLn $ show $ 1 + 1

The primary purpose of the . operator is not to avoid parentheses, but to chain functions. It lets you tie the output of whatever appears on the right to the input of whatever appears on the left. This usually also results in fewer parentheses, but works differently.

Going back to the same example:

putStrLn (show (1 + 1))
  1. (1 + 1) doesn't have an input, and therefore cannot be used with the . operator.
  2. show can take an Int and return a String.
  3. putStrLn can take a String and return an IO ().

You can chain show to putStrLn like this:

(putStrLn . show) (1 + 1)

If that's too many parentheses for your liking, get rid of them with the $ operator:

putStrLn . show $ 1 + 1
  • 39
    Actually, since + is a function too, couldn't you make it prefixed then compose it in as well, like ` putStrLn . show . (+) 1 1 ` Not that it's any clearer, but I mean... you could, right? – CodexArcanum Oct 25 '10 at 19:27
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    I wonder why nobody ever mentions uses like map ($3). I mean, I mostly use $ to avoid parentheses as well, but it's not like that's all they're there for. – Cubic Feb 25 '13 at 15:42
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    Be very careful with your use of $, though. It tends to continue the parenthesis to the end of the line, or end of the parentheses it is inside. Caused me many strange results when I was learning the language. – simonsays Jun 20 '13 at 15:24
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    map ($3) is a function of type Num a => [(a->b)] -> [b]. It takes a list of functions taking a number, applies 3 to all of them and collects the results. – Cubic Feb 28 '14 at 15:06
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    You have to be careful when using $ with other operators. "x + f (y +z)" is not the same as "x + f $ y + z" because the latter actually means "(x+f) (y+z)" (i.e. the sum of x and f is treated as a function). – Paul Johnson Sep 20 '14 at 17:33

They have different types and different definitions:

infixr 9 .
(.) :: (b -> c) -> (a -> b) -> (a -> c)
(f . g) x = f (g x)

infixr 0 $
($) :: (a -> b) -> a -> b
f $ x = f x

($) is intended to replace normal function application but at a different precedence to help avoid parentheses. (.) is for composing two functions together to make a new function.

In some cases they are interchangeable, but this is not true in general. The typical example where they are is:

f $ g $ h $ x

==>

f . g . h $ x

In other words in a chain of $s, all but the final one can be replaced by .

  • What if x was a function? Can you then use . as the final one? – richizy Apr 5 '17 at 19:20
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    @richizy if you're actually applying x in this context, then yes - but then the "final" one would be applying to something other than x. If you're not applying x, then it's no different to x being a value. – Ganesh Sittampalam Apr 5 '17 at 19:59

Also note that ($) is the identity function specialised to function types. The identity function looks like this:

id :: a -> a
id x = x

While ($) looks like this:

($) :: (a -> b) -> (a -> b)
($) = id

Note that I've intentionally added extra parentheses in the type signature.

Uses of ($) can usually be eliminated by adding parenthesis (unless the operator is used in a section). E.g.: f $ g x becomes f (g x).

Uses of (.) are often slightly harder to replace; they usually need a lambda or the introduction of an explicit function parameter. For example:

f = g . h

becomes

f x = (g . h) x

becomes

f x = g (h x)

Hope this helps!

  • "Note that I've intentionally added extra parentheses in the type signature." I'm confused... why'd you do this? – Mateen Ulhaq Jun 1 at 5:27
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    @MateenUlhaq The type of ($) is (a -> b) -> a -> b, which is the same as (a -> b) -> (a -> b), but the extra parentheses do here add some clarity. – Rudi Jun 1 at 6:36
  • Oh, I suppose. I was thinking of it as a function of two arguments... but because of currying, it's exactly equivalent to a function that returns a function. – Mateen Ulhaq Jun 1 at 6:41

($) allows functions to be chained together without adding parentheses to control evaluation order:

Prelude> head (tail "asdf")
's'

Prelude> head $ tail "asdf"
's'

The compose operator (.) creates a new function without specifying the arguments:

Prelude> let second x = head $ tail x
Prelude> second "asdf"
's'

Prelude> let second = head . tail
Prelude> second "asdf"
's'

The example above is arguably illustrative, but doesn't really show the convenience of using composition. Here's another analogy:

Prelude> let third x = head $ tail $ tail x
Prelude> map third ["asdf", "qwer", "1234"]
"de3"

If we only use third once, we can avoid naming it by using a lambda:

Prelude> map (\x -> head $ tail $ tail x) ["asdf", "qwer", "1234"]
"de3"

Finally, composition lets us avoid the lambda:

Prelude> map (head . tail . tail) ["asdf", "qwer", "1234"]
"de3"
  • 1
    If the stackoverflow had a combination function, I would prefer the answer combining the previous two explanations with the example in this answer. – Chris.Q Jan 12 '14 at 15:51

The short and sweet version:

  • ($) calls the function which is its left-hand argument on the value which is its right-hand argument.
  • (.) composes the function which is its left-hand argument on the function which is its right-hand argument.

One application that is useful and took me some time to figure out from the very short description at learn you a haskell: Since:

f $ x = f x

and parenthesizing the right hand side of an expression containing an infix operator converts it to a prefix function, one can write ($ 3) (4+) analogous to (++", world") "hello".

Why would anyone do this? For lists of functions, for example. Both:

map (++", world") ["hello","goodbye"]`

and:

map ($ 3) [(4+),(3*)]

are shorter than map (\x -> x ++ ", world") ... or map (\f -> f 3) .... Obviously, the latter variants would be more readable for most people.

  • 14
    btw, I'd advise against using $3 without the space. If Template Haskell is enabled, this will be parsed as a splice, whereas $ 3 always means what you said. In general there seems to be a trend in Haskell to "stealing" bits of syntax by insisting that certain operators have spaces around them to be treated as such. – Ganesh Sittampalam Feb 1 '10 at 8:07
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    Took me a while to figure out how the parentheses were working: en.wikibooks.org/wiki/Haskell/… – Casebash Mar 21 '10 at 11:29

... or you could avoid the . and $ constructions by using pipelining:

third xs = xs |> tail |> tail |> head

That's after you've added in the helper function:

(|>) x y = y x
  • 2
    Yes, |> is the F# pipeline operator. – user1721780 Dec 5 '12 at 10:03
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    One thing to note here, is that Haskell's $ operator actually works more like F#'s <| than it does |>, typically in haskell you'd write the above function like this: third xs = head $ tail $ tail $ xs or perhaps even like third = head . tail . tail, which in F#-style syntax would be something like this: let third = List.head << List.tail << List.tail – Electric Coffee Feb 15 '14 at 15:23
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    Why add a helper function to make Haskell look like F#? -1 – vikingsteve Dec 22 '15 at 11:40
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    The flipped $ is already available, and it's called & hackage.haskell.org/package/base-4.8.0.0/docs/… – pat Apr 19 '16 at 15:01

A great way to learn more about anything (any function) is to remember that everything is a function! That general mantra helps, but in specific cases like operators, it helps to remember this little trick:

:t (.)
(.) :: (b -> c) -> (a -> b) -> a -> c

and

:t ($)
($) :: (a -> b) -> a -> b

Just remember to use :t liberally, and wrap your operators in ()!

My rule is simple (I'm beginner too):

  • do not use . if you want to pass the parameter (call the function), and
  • do not use $ if there is no parameter yet (compose a function)

That is

show $ head [1, 2]

but never:

show . head [1, 2]
  • 2
    Good heuristic, but could use more examples – Zoey Hewll Feb 22 '17 at 9:39

Haskell: difference between . (dot) and $ (dollar sign)

What is the difference between the dot (.) and the dollar sign ($)?. As I understand it, they are both syntactic sugar for not needing to use parentheses.

They are not syntactic sugar for not needing to use parentheses - they are functions, - infixed, thus we may call them operators.

(.) is the compose function. So

result = (f . g) x

is the same as building a function that passes the result of its argument passed to g on to f.

h = \x -> f (g x)
result = h x

($) is a right-associative apply function with low binding precedence. So it merely calculates the things to the right of it first. Thus,

result = f $ g x

is the same as this, procedurally (which matters since Haskell is evaluated lazily, it will begin to evaluate f first):

h = f
g_x = g x
result = h g_x

or more concisely:

result = f (g x)

We can see this by reading the source for each function.

Read the Source

Here's the source for (.):

-- | Function composition.
{-# INLINE (.) #-}
-- Make sure it has TWO args only on the left, so that it inlines
-- when applied to two functions, even if there is no final argument
(.)    :: (b -> c) -> (a -> b) -> a -> c
(.) f g = \x -> f (g x)

And here's the source for ($):

-- | Application operator.  This operator is redundant, since ordinary
-- application @(f x)@ means the same as @(f '$' x)@. However, '$' has
-- low, right-associative binding precedence, so it sometimes allows
-- parentheses to be omitted; for example:
--
-- >     f $ g $ h x  =  f (g (h x))
--
-- It is also useful in higher-order situations, such as @'map' ('$' 0) xs@,
-- or @'Data.List.zipWith' ('$') fs xs@.
{-# INLINE ($) #-}
($)                     :: (a -> b) -> a -> b
f $ x                   =  f x

When to use:

Use composition when you do not need to immediately evaluate the function. Maybe you want to pass the function that results from composition to another function.

Use application when you are supplying all arguments for full evaluation.

So for our example, it would be semantically preferable to do

f $ g x

when we have x (or rather, g's arguments), and do:

f . g

when we don't.

I think a short example of where you would use . and not $ would help clarify things.

double x = x * 2
triple x = x * 3
times6 = double . triple

:i times6
times6 :: Num c => c -> c

Note that times6 is a function that is created from function composition.

All the other answers are pretty good. But there’s an important usability detail about how ghc treats $, that the ghc type checker allows for instatiarion with higher rank/ quantified types. If you look at the type of $ id for example you’ll find it’s gonna take a function whose argument is itself a polymorphic function. Little things like that aren’t given the same flexibility with an equivalent upset operator. (This actually makes me wonder if $! deserves the same treatment or not )

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