As FUZxxl has mentioned in a comment to your question, I question how much you've looked into Haskell I/O. This is one of the big initial hurdles to get over to make use of the language, and it seems like you'd want to start with simpler tasks.

But still, to answer your question more literally, here's two ways. First, the elementary one, the one you need to understand first before the other ones make sense:

```
processData :: Int -> FilePath -> Int -> FilePath -> IO (Map.Map [Char] Double)
processData int1 path1 int2 path2 =
do map1 <- loadData int1 path1
map2 <- loadData int2 path2
return (Map.intersection map1 map2)
```

There are more advanced answers that involve abstracting the pattern shown above into a function. The more basic way to do this is to use the `liftM2`

function from the `Control.Monad`

module. I'll give an example implementation of `liftM2`

just to make it obvious how it's related to the code above:

```
liftM2 :: Monad m => (a1 -> a2 -> r) -> m a1 -> m a2 -> m r
liftM2 f mx my = do x <- mx
y <- my
return (f x y)
```

With `liftM2`

, we can rewrite `processData`

this way:

```
processData :: Int -> FilePath -> Int -> FilePath -> IO (Map.Map [Char] Double)
processData int1 path1 int2 path2 =
liftM2 Map.intersection (loadData int1 path1) (loadData int2 path2)
```

dave4420's answer is a bit more advanced; what it comes down to is that `Control.Applicative`

has two operators (`<$>`

and `<*>`

) that in combination can do the same thing as `liftM2`

, but for an arbitrary number of arguments for the function that liftM2 takes as its first argument.

`loadData`

to`Map.intersection`

? Show us your code. – dave4420 Dec 19 '11 at 18:53