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Looking through the Haskell Prelude, I see a function const:

const x _ = x

I can't seem to find anything relevant regarding this function.

What's the point? Can anyone give an example of where this function might be used?

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An example: backgroundColor :: Text -> Color is for me backgroundColor = const White –  Zhen Sep 14 '11 at 8:27

5 Answers 5

up vote 50 down vote accepted

It's useful for passing to higher-order functions when you don't need all their flexibility. For example, the monadic sequence operator >> can be defined in terms of the monadic bind operator as

x >> y = x >>= const y

It's somewhat neater than using a lambda

x >> y = x >>= \_ -> y

and you can even use it point-free

(>>) = (. const) . (>>=)

although I don't particularly recommend that in this case.

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+1. It also comes up frequently when using parser combinators. –  larsmans Sep 13 '11 at 13:24
Ahh so it's more of a 'function generator' - I use it with one argument, and it gives me a function (taking one argument) that always returns a constant value. So map (const 42) [1..5] results in [42, 42, 42, 42, 42]. –  stusmith Sep 13 '11 at 14:51
stusmith: You got it. const is useful for applying to a single argument to yield a function where one is needed (such as passing to map). –  Conal Sep 13 '11 at 16:01
@stusmith: You can use it in some interesting ways: head = foldr const (error "Prelude.head: empty list") –  rampion Sep 14 '11 at 0:35

To add to hammar's excellent direct answer: humble functions like const and id are really useful as a higher order function for the same reason that they are fundamental in the SKI combinator calculus.

Not that I think haskell's prelude functions were modeled consciously after that formal system or anything. It's just that creating rich abstractions in haskell is very easy, so you often see these types of theoretical things emerge as practically useful.

Shameless plug, but I blogged about how the Applicative instance for (->) are actually the S and K combinators here, if that's the kind of thing you're into.

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Well, the SKI combinators certainly influenced the Prelude. I remember arguing with Joe Fasel if the S combinator should be included or not. –  augustss Sep 13 '11 at 14:53
Incidentally, ((->) e) is also the reader monad--with Reader and the like just being newtype wrappers--and the ask function is then id, so that's the I combinator as well. If you look instead at Haskell Curry's original BCKW basis, B, K, and W are fmap, return, and join respectively. –  C. A. McCann Sep 13 '11 at 16:11
Blog link in the answer is dead. It should now point here: brandon.si/code/… –  nsxt Jul 11 at 3:46

A simple example for using const is Data.Functor.(<$). With this function you can say: I have here a functor with something boring in it, but instead I want to have that other interesting thing in it, without changing the shape of the functor. E.g.

import Data.Functor

42 <$ Just "boring"
--> Just 42

42 <$ Nothing
--> Nothing

"cool" <$ ["nonsense","stupid","uninteresting"]
--> ["cool","cool","cool"]

The definition is:

(<$) :: a -> f b -> f a
(<$) =  fmap . const

or written not as pointless:

cool <$ uncool =  fmap (const cool) uncool

You see how const is used here to "forget" about the input.

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Another use is to implement class member functions that have a dummy argument which should not be evaluated (used to resolve ambiguous types). Example that could be in Data.bits:

instance Bits Int where
  isSigned = const True
  bitSize  = const wordSize

By using const we explicitly say that we are defining constant values.

Personally I dislike the use of dummy parameters, but if they are used in a class then this is a rather nice way of writing instances.

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I can't seem to find anything relevant regarding this function.

Many of the other answers discuss relatively esoteric (at least to the newcomer) applications of const. Here is a simple one: you can use const to get rid of a lambda that takes two arguments, throws away the first one but does something interesting with the second one.

For instance, the following implementation of length,

length' = foldr (\_ acc -> 1 + acc) 0

can be rewritten as

length' = foldr (const (1+)) 0

which is perhaps more elegant.

The expression const (1+) is indeed equivalent to \_ acc -> 1 + acc, because it takes one argument, throws it away, and returns the section (1+).

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