# Is this a valid type and how do I satisfy it? (two dyadic functions being composed)

My question is very simple, as anyone beginning haskell I've been thinking about types, function composition and how to apply them. I started thinking about what the result of `((+) . (*))` might be.

Now obviously the solution to that question is open ghci and find out. So I did that and inspected the type:

``````λ> :t ((*) . (+))
((*) . (+)) :: (Num (a -> a), Num a) => a -> (a -> a) -> a -> a
``````

Is this type possible? I'm struggling to understand what it might be or what it means?

apologies again for the simplistic question, everything I tried to put into the function failed. I'm simply trying to develop intuition for function composition with dyadic functions.

• Numeric functions aren't `Num`'s in Prelude, but if you write a `Num` instance for `Num b => a -> b` yourself or import NumInstances, you can satisfy this. – genisage Nov 4 '14 at 1:02
• @genisage I'm sorry, I don't fully understand what you're saying? how would I satisfy this? I'm mainly trying to understand what this type means and what this type signature implies, so if you could give a concrete example of what would satisfy it (in fact, post it as an answer) that'd help me loads. – Mike H-R Nov 4 '14 at 1:05
• Here's the instance @genisage is talking about: `instance Num b => Num (a -> b) where fromInteger n = pure (fromInteger n); (+) = liftA2 (+); (*) = liftA2 (*); (-) = liftA2 (-); negate = fmap negate; signum = fmap signum; abs = fmap abs` – Gabriel Gonzalez Nov 4 '14 at 1:05

Unfortunately, GHC doesn't give a very good message for this. This is almost certainly not what you want. There is no instance for `Num (a -> a)` by default and implementing one, though it could be useful for some things, could lead to very unintuitive runtime errors. Even in this case, this function would not likely be very useful.

Let's look at type restricted `(*)` and `(+)` to simplify the situations and avoid the added complexity of the type class:

``````(*!) :: Int -> Int -> Int
(*!) = (*)

(+!) :: Int -> Int -> Int
(+!) = (+)
``````

Now when we try

``````λ> :t (*!) . (+!)

<interactive>:1:8:
Couldn't match type ‘Int -> Int’ with ‘Int’
Expected type: Int -> Int
Actual type: Int -> Int -> Int
Probable cause: ‘(+!)’ is applied to too few arguments
In the second argument of ‘(.)’, namely ‘(+!)’
In the expression: (*!) . (+!)
``````

which indicates that we aren't applying `(+!)` to enough arguments to be able to apply its result to `(*!)`. If we expand the function composition we see this, which might make it more clear why it doesn't make sense:

``````(*!) . (+!) == \x   -> (*!) ((+!) x)   -- definition of (.)
== \x y -> (*!) ((+!) x) y -- eta-expansion
== \x y -> ((+!) x) *! y   -- changed (*.) from prefix to infix
``````

The left argument of `(*!)` is a function, which doesn't match the expected type of `Int`.

## Composing with a function of two arguments

In order to do this, we need a function `(b -> c) -> (a1 -> a2 -> b) -> a1 -> a2 -> c`. Luckily, that's exactly what `((.) . (.))` is.

``````λ> :t ((.) . (.)) (*!) (+!)
((.) . (.)) (*!) (+!) :: Int -> Int -> Int -> Int
``````

Some libraries provide this under the name `(.:)` (like this one). Sometimes people like to write it `fmap . fmap` (this generalizes to more than just normal function composition though).

It's a bit cryptic though and is usually avoided for that reason. It's almost always more clear to just explicitly write out the function.

• Wow, that Data-Composition link is brilliant, definitely clarifies a lot. Thank you. – Mike H-R Nov 4 '14 at 1:23
• @MikeH-R This is skipping a bit further ahead, but this talk about lenses is along those lines of this sort of multivariate function composition (and the even more general idea of composing `fmap`s): youtube.com/watch?v=cefnmjtAolY – David Young Nov 4 '14 at 1:29
• Brilliant, I've been trying to learn a bit about lenses (wrote my first shoddy half-understood implementations last week) so any references are greatly appreciated. Thanks! – Mike H-R Nov 4 '14 at 1:30

that's a fun question....

First of all, I'll explain why you get the type you do.

Both (+) and (*) have type

``````Num a=>a->a->a
``````

which basically means that they have two numbers as input, and output one number (as should be expected from add and multiply)

Function composition chains two functions of type (a->b) together (where, of course, the output of the first needs to be the same type as the input to the next).

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

So, at first glance, neither (+) or (*) seem to be of that type.... Except that in the world of Haskell, you can think of them as type

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

which makes sense.... If you fill in one value of (+), you get a function that increments the value of a number by that amount, for instance

``````(+) 1 --evaluates to incrementByOne
where incrementByOne x = 1+x
``````

So, you can chain the two together, but.....

Remember, the inputs of (*) need to be numbers! (because of the `Num a=>`)

Applying (.) to (+) and (*) yields your type

``````(Num (a -> a), Num a) => a -> (a -> a) -> a -> a
``````

But, it has the strange constraint `Num (a->a)`, which states that a function needs to be a number. This is basically not supposed to be done, but there is nothing in Haskell that would forbid it, so the compiler doesn't complain at this point. It is only when you try to use the function that it performs the check.

``````((+) . (*)) 1 (+ 1) 2

<interactive>:16:1:
No instance for (Num (a0 -> a0)) arising from a use of ‘it’
In a stmt of an interactive GHCi command: print it
``````

The three inputs have the correct type, except for the constraint.... The interpreter is complaining here that the function (+ 1) is not a number.

• Thank you, this explains my misunderstanding of why it was compiling in the first place. – Mike H-R Nov 4 '14 at 1:24