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Given a list of sequence of negative and positive numbers, how can I partition them into sequences of negative and positive numbers using foldr?

For example [1,2,3,-1,-2,-3,1,2,3] i will get [[1,2,3],[-1,-2,-3],[1,2,3]]

A few doubts

How do I know that the previous partition that I have already compared if of the same sign as the one I am comparing current?

How do I add the element to the list? I tried something like [x]:y but what I get was each element as a list and concatenated together, which is not the result.

What I have currently is this

foldr (\ x y -> if  x >= 0  then [x]:y else y ) [[]] 

which is wrong

Many thanks for the help in advance.

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6 Answers 6

Use the best tool for the job. In this case, the best tool for the job is groupBy.

groupBy passes two members of the list to your function, so you can easily check whether they have the same sign or not.

(You can write it in terms of foldr if you really want to --- you can write groupBy in terms of foldr, although the standard implementation doesn't --- it just makes things more complicated for you than they need to be.)

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You could get want you want using e.g. groupBy from Data.List.

import Data.List (groupBy)
let result = groupBy (\ x y -> x*y>0) [1,2,3,-1,-2,-3,1,2,3]

If you do not want to treat 0 separately use e.g. Daniel Fischer's sameSign function instead for the check.

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You want to compare the sign of each number in the list with the sign of its successor. And if the signs are the same, you want to put x in the same list as its successor, otherwise start a new inner list.


combine x [[]] = [[x]]
combine x wss@(yys@(y:_):zss)
  | sameSign x y = (x:yys) : zss
  | otherwise    = [x] : wss

would do what you want (given an implementation of sameSign). But that wouldn't be very efficient (and not work on infinite lists at all), since to know which equation to use, the part after x needs to be constructed and that means the end of the input list must be reached first, then one must step back through the list.

The solution is laziness, you must start constructing the result before inspecting the second argument

combine x wss = (x:ssx) : rest
    (ssx:rest) = case wss of
                   [[]] -> [] : []
                   (yys@(y:ys) : zss)
                       | sameSign x y -> yys : zss
                       | otherwise    -> [] : wss


foldr combine [[]] input

is what you want, with, for example,

sameSign x y
    | x < 0     = y < 0
    | otherwise = y >= 0

(of course, using groupBy is shorter and easier, but that doesn't use foldr :)

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I will just provide the possible answer using foldr. I am not saying that you should use this as it is neither very efficient (I am using a*b >=0 to show that a and b are of same sign), nor works on infinite lists.

combine = foldr f []
        f a [] = [[a]]
        f a rest@((x:xs):ys) | x*a >= 0 = (a:x:xs):ys
                             | otherwise = [a]:rest
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I second the usage of groupBy instead. However I'd like to raise the point that 0 is not considered a positive number in mathematics. And as no other answers have so far mentioned, anything that is of the Num typeclass must implement signum, which will return the sign of the number given to it.

import Data.List     (groupBy)
import Data.Function (on) -- Can evade a lambda

signGroup :: (Num a) => [a] -> [[a]]
signGroup = groupBy ((==) `on` signum)

Example usage:

> signGroup [1,2,3,0,0,-1,-2,1,2,0,3,4,-1]
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You need a slightly more complex accumulator here:

data Sign = Neg | Zero | Pos

signGroup :: [Integer] -> [[Integer]]
signGroup xs = case
  (\x (sign, ps, ns, ys) ->
    -- x    - current element
    -- sign - sign of the prev. group
    -- ps   - positive numbers in the current group
    -- ns   - negative numbers in the current group
    -- ys   - final list
    if x >= 0
    then case sign of
      Neg  -> (Pos, x : ps, [], ns : ys)
      Zero -> (Pos, x : ps, [], ys)
      Pos  -> (Pos, x : ps, [], ys)
    else case sign of
      Neg  -> (Neg, [], x : ns, ys)
      Zero -> (Neg, [], x : ns, ys)
      Pos  -> (Neg, [], x : ns, ps : ys))
  (Zero, [], [], [])
    (_, [], [], ys) -> ys
    (_, [], ns, ys) -> ns : ys
    (_, ps, [], ys) -> ps : ys
    (_, ps, ns, ys) -> ps : ns : ys -- <- unreachable

-- signGroup [1,2,3,-1,-2,-3,1,2,3]
-- => [[1,2,3],[-1,-2,-3],[1,2,3]]
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+1 for the Rube Goldberg approach :) –  Landei Oct 13 '12 at 13:52
@Landei, yep, it's overcomplicated ;) Daniel Fischer's answer up here has a better folder function. –  JJJ Oct 14 '12 at 14:42

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