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I have a series of numbers: 0, 1, 3, 6, 10, 15,... Basically, you add 1, then you add 2, then add 3, etc.

I have to make a function where I return this series of numbers in a list up to a given number, n. I want to use foldl.

so, series 5 should return [0, 1, 3, 6, 10, 15]

Here is what I have so far:

eachElem n = foldl (+) 0 [0..n]

series n = [x | x <- [(eachElem 0), (eachElem 1)..(eachElem n)]]

Basically, I figured that each element in the list was a foldl operation, and so I made a separate helper function (eachElem) to accomplish this.

However, it is returning a list much larger than what I want.

Eg. series 3 => [0,1,2,3,4,5,6] when it should really return [0,1,3,6]

Any ideas why this is?

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Is this homework? If so it should be tagged appropriately. – Michał Politowski Sep 25 '12 at 5:59
no it should not – m09 Sep 25 '12 at 6:09
No homwework tag:…. – Jonke Sep 25 '12 at 6:33
Thanks Mog & Jonke. I missed the memo. – Michał Politowski Sep 25 '12 at 6:47
@user1670032: if an answer was helpful to you, don't forget to mark it as accepted: – amindfv Sep 25 '12 at 22:37

7 Answers 7

up vote 2 down vote accepted

If you are so adamant of using foldl you can do something like

series n  = reverse $ foldl f [0] [1..n]
    where f xs@(x:_) y = x+y:xs

In ghci

> series 5

But problem with foldl is you can not create infinite series.

You can have infinite series like

series = 0:zipWith (+) series [1..]

Then you can do something like

> take (5+1) series

I have not tried but you might also use unfoldr or similar concept to build your list.

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unfoldr (\k -> Just (k*(k+1) `quot` 2, k+1)) 0 – Daniel Fischer Sep 25 '12 at 10:59

scanl is better suited to what you're doing.

Its type is scanl :: (a -> b -> a) -> a -> [b] -> [a] -- its type signature is the same as foldl's, but it returns a list of incremental values, instead of just the final result.

I'll leave the rest as an exercise for you, since this seems like homework. Good luck!

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If I have to use foldl, is there a way that I can force it to evaluate the "eachElem n"s in the list before making the list? I think this is where my problem lies... I would assume that in an imperative language, this approach would work. But I've learned that Haskell does "Lazy evaluation" – user1670032 Sep 25 '12 at 4:31
Having more laziness than necessary can only affect resource usage, it cannot lead to different results than with forcing. Evaluation forcing is possible, but it isn't necessary in your case. – nponeccop Sep 25 '12 at 10:30

scanl is the best here, but if you have to use fold try this

testso :: Integral a => a -> [a]
testso n = reverse $ foldl (\acc x -> head acc + x:acc ) [0] [1,2..n] 

gives output as testso 10 [0,1,3,6,10,15,21,28,36,45,55].

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Your definition of series is wrong.

[(eachElem 0), (eachElem 1)..(eachElem n)] becomes [0, 1, eachElem n] which is actually every number up to eachElem n.

You actually want to do this:

series n = [eachElem x | x <- [0..n]]
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the definition

series n = [ x | x <- [(eachElem 0)..(eachElem n)]]

is wrong!

For instance:

because of

eachElem 0 -> 0
eachElem 3 -> 6

series 3 evaluates to

series 3 -> [(eachElem 0)..(eachElem 3)] -> [0..6] -> [0,1,2,3,4,5,6]

You need something like that

series' n = [ eachElem x | x <- [0..n]]


> let series' n = [ eachElem x | x <- [0..n]]
> let series n = [ x | x <- [(eachElem 0)..(eachElem n)]]

> series' 3
> [0,1,3,6]

> series 3
> [0,1,2,3,4,5,6]

> eachElem 0
> 0

> eachElem 3
> 6
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When you write [a,b..c], a is the first element, c is the last element and b is the step, it's the interval between every element in the list and if you omit it, it will be defaulted to 1.

So let's have a look at your code, you do:

  [x | x <- [(eachElem 0), (eachElem 1)..(eachElem n)]] 
  • In your list comprehension, x will first take the value (eachElem 0) = 0
  • Then the next element will be (eachElem 0) + (eachElem 1) = 1
  • Then the ith elent will be (eachElem 0) + i*(eachElem 1 - eachElem 0) as long as the value is <= (eachElem n)

Hence your result: [0,1..(eachElem n)] which produces [0,1,2,3... and clearly isn't what you expected.

As suggested by amindfv, you should have a look at scanl.

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You can cheat :-)

series x = foldl (\xs n -> (n*(n+1) `div` 2):xs) [] [x,(x-1)..0]
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