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I'm trying to iterate a list and square all the number and add them together

sumsq  (x:xs) = 
let total = 0
loop length(x:xs) (x:xs) total

loop 0 (x:xs) = return ()
loop n (x:xs)  total = 
        sq = ((x:xs)!!n)^2
        total = total + sq
    loop ((n-1) (x:xs) total)

But I'm getting parse error in loop. Where am I going wrong?

Also is there a better way to do this?

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4 Answers 4

up vote 3 down vote accepted

First of all - you miss spaces! It is significant.

Second, you forget in from let ... in. We could not use in in do-notation:

sumsq  (x:xs) = 
   let total = 0 in
   loop length(x:xs) (x:xs) total

Third, you do not use x and xs form (x:xs) :

sumsq  xs = 
    let total = 0 in
    loop (length xs) xs total

And we unite our length xsin one block. It is fourth.

Fifth, we have 3, not 2 arguments for loop:

loop 0 xs total  = return total

Sixth, (!!) work from 0, but you use it from 1, so (xs !! (n -1)) is right

Seventh, you don't need to use monad, just recursion. So, get rid from return and do

Eighth. you have infinite recursive total = total + smth

Ninth, we can't use arguments as tuple, so, you final working result is :

sumsq  xs = 
    let total = 0 in
    loop (length xs) xs total

loop 0 xs total = total
loop n xs total = loop (n-1) xs total1
        sq = (xs !! (n -1)) ^2
        total1 = total + sq


If we are talking about complexity, it is not good - O(n^2) as it is mentioned in comments : for each element we seek this element. We could simplify our loop function and get rid of n argument:

loop []     total = total
loop (x:xs) total = loop xs total1
        sq = x ^ 2
        total1 = total + sq

and our sumsq function we write:

sumsq  xs = loop xs 0

P.S. This is an implementation much easier function sumsq = sum. map (^ 2)

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I am not sure it is a good idea to make this horribly styled program work. Obviously, the OP has not the slightest idea of pattern matching, and it would be better to make him learn it, so he can "iterate a list" in the idiomatic way. –  Ingo Oct 7 '13 at 16:32
Thank s alot but I don't understand the third part. I can't I use (x:xs)? Besides, what does x and xs really mean? I know they x is the head of the list but what about xs? –  Adegoke A Oct 7 '13 at 22:43
Also, I am getting an error saying Exception: <<loop>>. –  Adegoke A Oct 7 '13 at 22:47
@AdegokeA , you can, example f (x:xs) = x+1:f xs, but in this case you don't use, so we write it simpler - xs (or x), doesn't matter, it is a name of argument only –  wit Oct 7 '13 at 22:48
@AdegokeA, about loops, I updated –  wit Oct 7 '13 at 22:59

The do must be more indented than the word loop.

Apart from that, you don't need do (or return) at all here, unless you can answer the question which monad this is for?

There are more problems with your code. One of the most severe is this:

You don't seem to know what "pattern matching" is, nor what it is good for. You really want to learn about it, otherwise you can't write any good programs.

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Surely something like this would be the usual approach?

sumSquared :: [Integer] -> Integer
sumSquared [] = 0
sumSquared (x:xs) = (x * x) + sumSquared xs

Or you could do this even more succinctly with foldr, or sum and map (like @soon's answer)

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Thanks. Is xs the rest of the list when you do the recursion? –  Adegoke A Oct 7 '13 at 23:04
Yep: x is the head element and xs is the tail list. –  Xophmeister Oct 8 '13 at 9:07

If I understood you correctly, you could simply do this with map and sum:

Prelude> let myFun = sum . map (^2)
Prelude> myFun [1, 2, 3]

Or with foldl1 and lambda:

Prelude> let myFun' = foldl1 (\s x -> s + x^2)
Prelude> myFun' [1, 2, 3, 4]
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