# Writing a custom map function

Now there might be something in the Haskell Libraries to do what I want. I'm enough of a noob to not know any better and I'm trying to write a custom map function using the tools that I know. The type signature needs to be

``````myMap :: (Monad m) => (a -> b) -> [m a] -> [m b]
``````

where `myMap f as` returns a list after applying `f` to each of the value in each Monad in `as`.

My first attempt was

``````myMap f = map (\x x >>= f)
``````

However, this has a type signature of

``````myMap :: (Monad m) => (a -> m b) -> [m a] -> [m b]
``````

This is so close to what I need, I can scream. Now I need some tips of how to continue from here. I really hope it is as easy as a library function, but I'm willing to write my own short function to do this instead.

Related Question:

Mapping a function over two input lists

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If you could turn your `(a -> b)` function in to `m a -> m b` then you could use `map` itself. So, what do you need to do this? Hoogle is quite good for this sort of thing. Doing a search for `(a -> b) -> (m a -> m b)` gives these results:

Near the top are `fmap` (which use `Functor`) and `liftM` (which use `Monad`). Either would do, but you're using monads, so let's go with `liftM`. Thus:

``````myMap :: Monad m => (a -> b) -> [m a] -> [m b]
myMap f = map (liftM f)
``````
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And that can be eta reduced. –  augustss Oct 7 '13 at 2:46
Looks like `liftM` is the library function I was looking for. –  Code-Apprentice Oct 7 '13 at 5:05

You were almost there in your attempt, what you were missing was `return`:

``````myMap :: (Monad m) => (a -> b) -> [m a] -> [m b]
myMap f = map \$ flip (>>=) \$ return . f
``````

Basically you needed a way to

• unwrap `a` from `m a` - we use `>>=` for that
• apply `f` to it
• wrap `f` return value in `m` to get `m b` - we use `return` for that
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+1 Thanks for the explanation for how to change my solution. –  Code-Apprentice Oct 7 '13 at 5:05