I am trying to teach myself Haskell and I am doing random exercises. I was supposed to write a code that will do this 6 = [1*1 + 3*3 + 5*5]= 35 So I had to filter out all odd numbers and then calculate the sum if I multiply every single one with itself.

 sumquad n = (potenzsum(filter odd (ones n)))
     potenzsum [x] = x*x
     potenzsum [x,y] = x*x + y*y
     potenzsum (x:xs) = x + potenzsum xs

ones 0 = []
ones x = [ 1 .. x] 

This code works ;) Now I am supposed to do the same thing but with list comprehension (I am allowed to use this list [1...n]

I could only think of this... Could someone help me?

power1 xs = [x*x | x <- xs]
  • 1
    Your first implementation of potenzsum looks quite odd to me. You really want to add the squares of the last two elements to the sum of all the preceding elements, without squaring them? If so the list-comprehension approach will have to be a bit more complicated. – amalloy Aug 9 at 21:50
  • After the last xs of power1, add the condition after a comma `odd x' – fp_mora Aug 9 at 22:02
  • into list compreshion at right u put the condition and left what u want to do with the result [x*x | x <- xs, (condition to check (in your case get odds))] example [x^2 | x <- [1..n], odd x] – Jordi Jordi Aug 10 at 8:07
  • You don't need a base case for ones; [1..0] evaluates to an empty list. Also, ones is a really bad name for this function, as it suggests a (possibly infinite) series of 1s ([1,..]), not an increasing sequence of numbers. – chepner Aug 10 at 17:18
up vote 4 down vote accepted

Actually, you did half the job by [x * x | x <- xs], just replace xs by odd numbers from the previous example:

[x * x | x <- filter odd (ones 6))]

And you'll receive a list of squares: [1, 9, 25], which can be summed by function sum:

f n = sum [x * x | x <- filter odd (ones n))]

it evaluates to 35

One more note regarding list comprehension: the iterated elements can be filtered out by specifying conditions, which are called guards. Thus, the code above can be refactored into:

f n = sum [x * x | x <- [1..n], odd x]

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