# Generating triangular number using iteration in haskell

I am trying to write a function in Haskell to generate triangular number, I am not allowed to use recursion, I am supposed to use iteration

here is my code ...

``````triSeries 0 = [0]
triSeries n = take n \$iterate (\x->(0+x)) 1
``````

I know that my function after iterate is wrong . But It has been hours looking for a function, any hint please?

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Start by writing out some triangular numbers

• T(1) = 1
• T(2) = 1 + 2
• T(3) = 1 + 2 + 3

An iterative process to generate `T(n)` is to start from `[1..n]`, take the first element of the list, and add it to a running total. In a language with mutable state, you might write:

``````def tri(n):
sum = 0
for x in [1..n]:
sum += x
return sum
``````

In Haskell, you can iteratively consume a list of numbers and accumulate state via a `fold` function (`foldl`, `foldr`, or some variant). Hopefully that's enough to get started with.

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Maybe wikipedia could be a hint, where something like

``````triangular :: Int -> Int
triangular x = x * (x + 1) `div` 2
``````

could be got from.

`triSeries` could be something like

``````triSeries :: Int -> [Int]
triSeries x = map triangular [1..x]
``````

and works like that

``````> triSeries 10
[1,3,6,10,15,21,28,36,45,55]
``````

Talking about `iterate`. Maybe there is some way to use it here, but as John said, `foldl` would be sufficient. Take a look at this page, what are you looking is in the very beginning.

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I don't think this closed-form solution counts as iteration. Although it's certainly the best approach. –  John L Sep 28 '13 at 4:32
If the homework task's statement contain "not to use recursion" (hard to imagine for what particular reason it could be used here) this solution could be interpreted like valid. –  ДМИТРИЙ МАЛИКОВ Sep 28 '13 at 4:34
it did not work –  user2277918 Sep 28 '13 at 4:38
what exactly doesn't work here? –  ДМИТРИЙ МАЛИКОВ Sep 28 '13 at 4:42
– ДМИТРИЙ МАЛИКОВ thanks a lot I used your help and I got it working :) –  user2277918 Sep 28 '13 at 5:07
show 3 more comments

It is not clear what is meant by "recursion is not allowed, use iteration". All functions that appear to be "iterative" are recursive inside.

`iterate` in all your uses can only modify the input with a constant, and `iterate (+1) 1` is the same as `[1..]`. Consider using a `Data.List` function that can combine a number from infinite range `[1..]` and the previously computed sum to produce a infinite list of such sums:

T_i=i+T_{i-1}

This is definitely cheaper than `x*(x+1) div 2`

Consider using a `Data.List` function that can produce an infinite list of finite lists of sums from a infinite list of sums. This is going to be cheaper than computing a list of 10, then a list of 11 repeating the same computation done for the list of 10, etc.

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