# Summing corresponding pairs from two lists within a tuple - in Haskell

I have a tuple containing two lists of numbers - ([1,2,3,4],[5,6,7,8])

I need to sum together the corresponding pairs of numbers from each list. ie (1+5), (2+6) etc. Outputting a list ie [6,8,10,12]. It should also work for any amount of elements within the lists (2 lists of 5, 2 lists of 6 etc).

I've been trying a function using "map sum . transpose" but can't seem to get the types correct (as it is within a tuple). I found a piece of code on here which works for a list of lists, but don't know how to do the same for a tuple of lists (is it possible?). When I attempt to change the types of "a" or use Int I compile to type-mismatch errors.

``````tupSums :: Num a => [[a]] -> [a]
tupSums = map sum . transpose
``````

I'm fairly new to using Haskell so I don't quite understand the errors I'm getting, sorry if the question seems stupid.

-

This is a good candidate for `zipWith`, which takes two lists and combines the corresponding elements in the list using a particular operator. The following should work:

``````tupSums :: Num a => ([a],[a]) -> [a]
tupSums = uncurry \$ zipWith (+)
``````

`zipWith (+)` evaluates to a function that takes two arguments, each of them being lists, and returns an list of pairwise sums. `uncurry` takes a function of two args and turns it into a function that takes a single tuple. So `uncurry \$ zipWith (+)` evaluates to a function that takes a tuple of lists and returns a list with the pairwise sums.

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Cheers Kevin, this is a great help. Mostly I'm having troubles with the differences between [a] and [Int] which is causing type mismatches when I curry functions. – Worlt Feb 14 '13 at 0:56
+1, thanks for point out my mistake. – dreamcrash Feb 14 '13 at 1:05
@Worlt: `Int` is a concrete type that represents an integer. It also belongs to the `Num` typeclass, so anywhere that a `Num` is expected, you can use an `Int`. So in the type `Num a => ([a],[a]) -> [a]`, you can pass a `([Int],[Int])` in and you'll get an `[Int]` back out. The one restriction here is the concrete type of all 3 lists must be the same. You can't pass `([Int],[Integer])`, and if you pass `([Int],[Int])` in you can't get `[Integer]` back out. – Kevin Ballard Feb 14 '13 at 1:09
@Worlt: Of course, you could write a more complicated function that has the type `Num a, b, c => ([a],[b]) -> [c]` if you want, but it's generally easier to do the transformations on your input/output instead of making the function itself try to be so extremely generic. – Kevin Ballard Feb 14 '13 at 1:10
@Worlt: Not specifying the types is perfectly reasonable in a lot of cases. Explicit type declarations are handy as documentation, and very handy for catching errors (e.g. if the function typechecks to the wrong type it will catch it there instead of where the function is called), and can be used to narrow the type of the function from one that might be overly-generic. But especially for simpler functions it's not necessary. – Kevin Ballard Feb 14 '13 at 4:11