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# Why does Haskell's “flip id” has this type?

I'm curious about the expression `flip id` (It's not homework: I found it in the `getOpt` documentation).

I wonder why it has this type:

``````Prelude> :t (flip id)
(flip id) :: b -> (b -> c) -> c
``````

For example, `(flip id) 5 (+6)` gives `11`.

I know why `id (+6) 5` gives 11, but I don't "get" the `flip id` thing.

I tried to figure this out myself using pen and paper but couldn't. Could anybody please explain this to me? I mean, how does `flip id` come to have the type `b -> (b -> c) -> c` ?

-

The `id` function has this type:

``````id :: a -> a
``````

You get an instance of this type, when you replace `a` by `a -> b`:

``````id :: (a -> b) -> (a -> b)
``````

which, because of currying, is the same as:

``````id :: (a -> b) -> a -> b
``````

Now apply `flip` to this and you get:

``````flip id :: a -> (a -> b) -> b
``````

In the case of `id (+)` the instance is:

``````id :: (Num a) => (a -> a) -> (a -> a)
``````

Now `flip id` gives you:

``````flip id :: (Num a) => a -> (a -> a) -> a
``````

Side note: This also shows you how `(\$)` is the same as `id`, just with a more restricted type:

``````(\$) :: (a -> b) -> a -> b
(\$) f x = f x
-- unpoint:
(\$) f   = f
-- hence:
(\$)     = id
``````
-
Hey, ertes, you seem to have another account, both of which are unregistered. If you register your account, you can merge them and then have a single account for all your answers (which are really good, by the way!). – huon Sep 9 '12 at 16:12
Thanks, great answer. Your mention of `\$` makes it more intuitive to understand and I'm glad you didn't left it out. It will take my brain a few more days to fully understand your answer. – Niccolo M. Sep 10 '12 at 12:54
Nice answer. Thinking of `flip id` as `flip (\$)` helps a lot. – Garrett Jul 22 '13 at 2:16