# Idiomatic way of aggregating denormalized data

I have a set of data of arrays of arrays. As an example

``````[[1,3],
[4,3],
[1,2],
[7,2]]
``````

I'd like to transform this to

``````[(3,[1,4])
(2,[1,7])]
``````

that is: create an array of tuples, where the first member is from index 1 of the original and the array is all the values of index 0 from the original grouped based on index 1. I can solve this imperatively but would like to do it in a more FP kind of way

-
I think you want to replace the commas in the first example with `;` and also to change `[]` to `[||]` –  John Palmer Mar 8 '13 at 11:05
@JohnPalmer thanks but they are in no particular language :) –  Rune FS Mar 8 '13 at 11:30

F# is a statically typed functional programming language so the first thing you want to do is convert your input into a typeful representation such as a list of pairs of ints:

``````[ 1, 3
4, 3
1, 2
7, 2 ]
``````

Then you can pipe it through the `Seq.groupBy` function using the `snd` function to key on the second element of each pair:

``````|> Seq.groupBy snd
``````

This gives you `[3, [1, 3; 4, 3]; ...]` etc. so you want to map over the right hand sides extracting just the values (i.e. stripping out the keys) using the `fst` function:

``````|> Seq.map (fun (k, kvs) -> k, Seq.map fst kvs)
``````

This gives your desired answer: `[(3, [1; 4]); (2, [1; 7])]`.

-
Though not the first to suggest this approach you were the first to actually describe the approach and for that I find it the better answer –  Rune FS Mar 11 '13 at 8:15

Use `Seq.groupBy` in combination with a few maps will get the desired result

``````[[1;3];
[4;3];
[1;2];
[7;2]]
|> Seq.groupBy (fun (a::b) -> b)
|> Seq.map (fun (a,b) -> a,b|> Seq.toList)
|> Seq.map (fun (a,b) -> a,b|>List.map (fun (c::d) -> c ))
``````
-

Similar to @John's answer, but assume that inner collections are arrays with at least two elements:

``````[|[|1; 3|];
[|4; 3|];
[|1; 2|];
[|7; 2|]|]
|> Seq.map (fun arr -> arr.[0], arr.[1])
|> Seq.groupBy snd
|> Seq.map (fun (k, v) -> k, Seq.map fst v)

// val it : seq<int * seq<int>> = seq [(3, seq [1; 4]); (2, seq [1; 7])]
``````
-

My answer is not essentially different to the answers above, but it uses a bit of combinatory logic, so it looks more idiomatic (to me). Also, it has some validity check.

`Apply2` is essentially an S combinator.

``````let data =
[[1;3];
[4;3];
[1;2];
[7;2]]

// Apply2 operator applies two functions to x
// and returns both results as a tuple
let (.&.) f g x = f x, g x

// A naive validator for sequences
let assert' predicate message xs =
if not <| Seq.forall predicate xs then
failwith message
xs

let aggregate data =
data
// validate the input
|> assert' (List.length >> (=) 2) "All elements must be of length of two"
// essentially, convert a 2-element list to a tuple