Second Update:

I finally followed zurgl's suggestion and wrote something that traverses and groups recursively. Thanks to everyone who was trying to help!

First Update:

What I hoped could be a sorting function, but was unsure about, was meant to optimize a grouping that would follow (minimizing the number of groups). The grouping collects tuples that are adjacent horizontally or vertically:

``````f xs =
foldr (\a@(y,x) ((b@(y',x'):xs):bs) -> if (y == y' && abs (x-x') == 1) ||
(x == x' && abs (y-y') == 1)
then (a:b:xs):bs
else [a]:(b:xs):bs)
[[last xs]] (init xs)
``````

Output of the second example, after the "sorting":

``````*Main> f [(0,1),(1,1),(2,1),(2,2),(2,3),(1,3),(0,3),(4,1),(4,2)]
[[(0,1),(1,1),(2,1),(2,2),(2,3),(1,3),(0,3)],[(4,1),(4,2)]]
``````

I'm having trouble conceiving of a sorting function and am hoping someone might have an idea about how to implement it or perhaps say if more might be needed than a custom sort. I've tried toying with sortBy but do not seem to be making much progress.

How do I get from this:

``````[(0,1),(0,3),(1,1),(1,3),(2,0),(2,1),(2,3),(4,1),(4,2)]
``````

to this:

``````[(0,1),(1,1),(2,0),(2,1),(0,3),(1,3),(2,3),(4,1),(4,2)]
``````

Differences of 0 or 1 between both y y' and x x' should be primary. Does that make sense?

Second example:

``````[(0,1),(0,3),(1,1),(1,3),(2,1),(2,2),(2,3),(4,1),(4,2)]
=>
[(0,1),(1,1),(2,1),(2,2),(2,3),(1,3),(0,3),(4,1),(4,2)]
``````
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I don't understand what you mean by "Differences of 0 or 1 between both y y' and x x' should be primary." –  yiding May 2 '13 at 3:29
Yeah, I don't understand it either. Can you explain why should e.g. (2,1) be before (0,3)? –  mattiast May 2 '13 at 3:32
Not sure what you described can be expressed as an ordering, because you are not simply comparing `(2,1)` and `(0,3)` on their own, but in the context of another value `(2,0)`. For instance, given `[(0,0),(0,1),(0,2)]`, both that and `[(0, 2), (0, 1), (0, 0)]` would be valid. Please elaborate if I misunderstood your description. –  yiding May 2 '13 at 3:41
I've voted to close: groovy's two (or three, look at Charles D's answer) examples do not explain what he wants, and trying to guess at possible orderings of pairs is a waste of everyone's time. –  Charles Stewart May 2 '13 at 12:47
Your intentions are very unclear. I can recommend a strategy though. First, define a transformation function from a pair to a result type representing the ordering, e.g. a numeric result of an arithmetic operation. Second, use this function with `sortWith` to sort your data. –  Nikita Volkov May 2 '13 at 13:08

My Haskell is extremely rusty but this should do it

``````subsortGT a, b
| a <= b = GT
| a > b = LT

sortGT (a1, b1) (a2, b2)
| a1 + b1 < a2 + b2 = GT
| a1 + b1 > a2 + b2 = LT
| a1 + b1 ==  a2 + b2= subsortGT a1 a2

sortBy sortGT [(0,1),(0,3),(1,1),(1,3),(2,0),(2,1),(2,3),(4,1),(4,2)]
``````
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wow you're fast, let me have a look at it. Thanks! –  גלעד ברקן May 2 '13 at 3:37
i got this `[(4,2),(4,1),(2,3),(1,3),(2,1),(0,3),(2,0),(1,1),(0,1)]` did I do something wrong? –  גלעד ברקן May 2 '13 at 3:41
I guess I just wrote it backwards try swapping the LT and GT in subsortGT? I'm installing GHC right now lol. –  Jean-Bernard Pellerin May 2 '13 at 3:44
ok...`[(4,2),(2,3),(4,1),(1,3),(0,3),(2,1),(1,1),(2,0),(0,1)]` –  גלעד ברקן May 2 '13 at 3:45
I thought I recognized your name, ha ha...the reason I'm doing this is to answer the same question you did: stackoverflow.com/questions/16326318/finding-blocks-in-arrays/… my idea is to list only the coordinates of the 1's, then sort (as I am trying to do) and then simply group them by the same principal `(diff x-x' and y-y' less than 2)` to get the number of objects! –  גלעד ברקן May 2 '13 at 4:11

Leveraging tuples for sorting

``````import Data.Ord (comparing)
import Data.List (sortBy)

customSort = sortBy (comparing (\(x,y) -> (x+y, abs (x-y))))
``````

or with arrows point free (point less)

``````import Control.Arrow ((&&&))

customSort = sortBy (comparing \$ uncurry ((uncurry (&&&) .) ((+) &&& ((abs .) . subtract))))
``````
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Thanks for thinking about it -- it does work for the example I posted, but for this one `[(0,1),(0,3),(1,1),(1,3),(2,1),(2,2),(2,3),(4,1),(4,2)]` it outputs `[(0,1),(1,1),(2,1),(0,3),(2,2),(1,3),(2,3),(4,1),(4,2)]` where I would prefer `[(0,1),(1,1),(2,1),(2,2),(2,3),(1,3),(0,3),(4,1),(4,2)]` –  גלעד ברקן May 2 '13 at 12:35

Try to define a custom data type and a specified order on it.
I propose you something like this,

``````data MPair a = MPair a a deriving (Show)

-- some helper to test
toTuple (MPair x y) = (x, y)
fromX x = MPair x x

instance (Eq a) => Eq (MPair a) where
(MPair a b) == (MPair c d) = (a == c) && (b == d)

-- This is not exactly the ordering you are looking for
-- But at this stage it should no be a pain to define
-- the required ordering, you just have to implement it below
instance (Ord a) => Ord (MPair a) where
compare p@(MPair a b) q@(MPair c d)
| p == q = EQ
| otherwise = case (compare a c, compare b d) of
(LT, _) -> LT
(_, LT) -> LT
_       -> GT

-- convert a list of tuple to a list or MPair.
fromListToMPair :: [(a,a)] -> [MPair a]
fromListToMPair [] = []
fromListToMPair ((a, b):xs) = (MPair a b) : fromListToMPair xs

-- the inverse of the previous one
fromMPairToList :: [MPair a] -> [(a,a)]
fromMPairToList [] = []
fromMPairToList ((MPair a b):xs) = (a, b) : fromMPairToList xs

-- A test case
testList = [(0,1),(0,3),(1,1),(1,3),(2,0),(2,1),(2,3),(4,1),(4,2)]
``````

Go to ghci and test it,

``````>>> fromMPairToList \$ sort \$ fromListToMPair testList
[(0,1),(0,3),(1,1),(1,3),(2,0),(2,1),(2,3),(4,1),(4,2)]
>>> fromMPairToList \$ sort \$ sort \$ fromListToMPair testList
[(0,1),(0,3),(1,1),(1,3),(2,0),(2,1),(2,3),(4,1),(4,2)]
-- ok this is stable
``````

This doesn't satisfied your requirement but, it's another way that I'd like to illustrate.
In fact I've implemented the classical rule for sorting a list of tuple.
Now i'll try to define your "ordering" , then I will redefine the Ord instance for MPair. like so,

``````instance (Ord a, Num a) => Ord (MPair a) where
compare p@(MPair a b) q@(MPair c d)
| p == q        = EQ
| check a b c d = LT
| otherwise     = GT
where
pred x y = (abs (x - y)) < 2
check a b c d = pred a c && pred b d
``````

Then when I redo the test into ghci,

``````>>> fromMPairToList \$ sort \$ fromListToMPair testList
[(4,1),(4,2),(2,3),(2,0),(2,1),(1,3),(1,1),(0,3),(0,1)]
>>> fromMPairToList \$ sort \$ sort \$ fromListToMPair testList
[(0,1),(0,3),(2,0),(1,1),(2,3),(1,3),(2,1),(4,1),(4,2)]
-- no this won't work, this is not an ordering, you cannot sort.
``````

I realize that the stability of your order is not satisfied, then sorting is not what you need.

Finally, I'd like to say it doesn't make sense as you criterion do no define an order upon your list of tuple. Your criterion is a discriminant, it will allow you to create two subgroup of data. ([criterion x is True], [criterion x is not True]). Sort your list of tuple as usual, and define a specify function (based on your criterion) which will create two distinct group.

PS : Maybe you can build an order on your data using a function based on your criterion, but I don't see how to achieve it.

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