# Is there a name for arrows of the type a -> a (in Haskell notation) in category theory?

Whats the name of arrows in category theory that have this type:

``````a -> a
``````

"From a type(?) to another object of the same type"

Or maybe there's no particular name for them?

In other words: Is there a name for the set of all arrows that go from any type a to the same type a? Examples of arrows (functions?) of that set:

``````\x->x+x   :: Int->Int
\x-> "hello, " ++ x :: String -> String
...
``````

Edit

@leftaroundabout says that I'm using OO definition of object for category theory, which is wrong. Therefore, what I'm really asking is: "In category theory, in a category π what is the name for a morphism from some object O of π to O itself?"

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My guess is "identity". –  mvw Mar 6 '14 at 21:06
An endomorphism? –  gspr Mar 6 '14 at 21:10
@mvw: I guess the question isn't entirely precise, but I interpret it to include for example the map x β¦ 2x from the reals to the reals (in, say, the category of sets and maps of sets)β¦ Can you clarify, Lay González? –  gspr Mar 6 '14 at 21:14
@gspr: Yes, from reals to reals is an example. –  Lay González Mar 6 '14 at 21:16
Note that you seem to confuse OO objects with category-theory objects. "To another object of the same type" doesn't make sense, since the objects of Hask are types. The correct phrasing of your question would simply be "In category theory, in a category π what is the name for a morphism from some object O of π to O itself?" As said by gspr, those are endomorphisms. –  leftaroundabout Mar 6 '14 at 21:39

If I'm correct in interpreting your question as "what do we call morphisms from an object to itself in category theory?", then the word you're looking for is endomorphism.

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wouldn't that be only the identity arrows? –  Lay González Mar 6 '14 at 21:28
No. The map x β¦ 2x (for example as a map from the integers to the integers) is an endomorphism (of the integers) in (for example) the category of sets. –  gspr Mar 6 '14 at 21:30
@LayGonzález There can even exist other nontrivial automorphisms besides `id`. Also, endo is quite a generic prefix, you'll frequently read about endofunctors, and I've even heard about endo-natural transformations. –  phg Mar 7 '14 at 8:41

The word you're looking for, as many others have said, is "endomorphism." But in a more concrete note it's worth mentioning here the `Endo` type in `Data.Monoid`:

``````data Endo a = Endo { appEndo :: a -> a }

instance Monoid (Endo a) where
mempty = Endo id
Endo f `mappend` Endo g = Endo (f . g)
``````

This type is sometimes useful. For example, as Brent Yorgey explains, folds are made of monoids:

``````import Data.Monoid

foldr :: (a -> b -> b) -> b -> [a] -> b
foldr f z xs = appEndo (mconcat (map (Endo . f) xs)) z

foldl :: (b -> a -> b) -> b -> [a] -> b
foldl f z xs = appEndo (mconcat (map (Endo . flip f) (reverse xs))) z
``````

So, since monoids are associative, oftentimes folds can be parallelized (with a divide-and-conquer strategy) by first rewriting them in terms of `Endo`, and then replacing the specific `Endo b` for that fold with some more concrete type that allows for some of the work to be done at each `mappend` step.

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