What operator can I pass to one of the fold variants that will allow me to sum tuple item 2 grouped by tuple item 1, in a list of tuples?

So, let's say I have the list:

```
[ ('A', 1) , ('A', 3) , ('B', 4 ) , ('C', 10) , ('C', 1) ]
```

and I want to produce the list:

```
[ ('A', 4) , ('B', 4) , ('C', 11) ]
```

You can see it's a Haskell-ized table, and so the actual representation of the table here isn't important; it's the approach to taking the input data and producing the output I am interested in. I am a Haskell newcomer, and have a background in C/C++/C#. I've done enough tutorials to recognise the application of fold here, but can't figure out the sub-folding that appears to be required.

EDIT: In case this helps anyone else, here is my solution using group, foldl1 and map, inspired by ingo's response:

```
import qualified Data.List as List
mygroup :: [ (Char,Int) ] -> [ [(Char,Int)] ]
mygroup = List.groupBy (\x y -> fst x == fst y)
myfold :: [(Char,Int)] -> (Char,Int)
myfold = foldl1 (\x y -> (fst x, snd x + snd y))
mysum :: [(Char,Int)] -> [(Char,Int)]
mysum = map myfold . mygroup
```

When run:

```
*ListSum> mysum [ ('A',1) , ('A',2) , ('B',3) , ('C',4) , ('C',5) ]
[('A',3),('B',3),('C',9)]
```

**mygroup** shows how to create groups, by providing an equivalence operator. It says that two members are in the same group if their first tuple items are the same.

**myfold** shows how to sum two tuples. It uses the first tuple in the list as the initial state for the fold, and composes a result tuple from the the sum of each tuple's second items.

**mysum** composes these two functions using map.

I might spend a bit more time on this to see if I can break the dependence on the schema of the data, which is currently **[(Char,Int)]**. I think it means supplying the groupBy operator and the fold operator, and might just be an exercise in composing the groupBy, foldl1 and map. I'm new at this.

Do I get any points for being point-free? :)

`groupBy`

and`map`

). – Daniel Wagner Aug 20 '12 at 13:45