# Integer square root function in Haskell

The integer square root of a positive integer n is the largest integer whose square is less than or equal to n. (E.g. the integer square root of 7 is 2, and that of 9 is 3).

Here is my attempt:

``````intSquareRoot :: Int -> Int
intSquareRoot n
| n*n > n   = intSquareRoot (n - 1)
| n*n <= n  = n
``````

I'm guessing its not working because n decreases along with the recursion as required, but due to this being Haskell you cant use variables to keep the original n!

Input would be great.

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It's not quite clear to me how you intend this to work. Assuming you had a separate variable r (for root) and started comparing `r*r` and `n`, what value would you try for r? And how would you let Haskell know about it? –  JB. Nov 13 '13 at 22:00
I don't really know if I'm even going in the right direction to solve this to be honest! I'm relatively new at Haskell and this was my first attempt at solving this problem, any alternative way of solving it would be greatly appreciated! –  benharris Nov 13 '13 at 22:04

`... but due to this being Haskell you cant use variables to keep the original n!`

I don't know what makes you say that. Here's how you could implement it:

``````intSquareRoot :: Int -> Int
intSquareRoot n = aux n
where
aux x
| x*x > n = aux (x - 1)
| otherwise = x
``````

This is good enough to play around, but it's not a very efficient implementation. A better one can be found on Haskell's wiki:

``````(^!) :: Num a => a -> Int -> a
(^!) x n = x^n

squareRoot :: Integer -> Integer
squareRoot 0 = 0
squareRoot 1 = 1
squareRoot n =
let twopows = iterate (^!2) 2
(lowerRoot, lowerN) =
last \$ takeWhile ((n>=) . snd) \$ zip (1:twopows) twopows
newtonStep x = div (x + div n x) 2
iters = iterate newtonStep (squareRoot (div n lowerN) * lowerRoot)
isRoot r  =  r^!2 <= n && n < (r+1)^!2
in  head \$ dropWhile (not . isRoot) iters
``````
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How does it compare to `intSqrt = floor . sqrt . fromInteger`? –  kqr Nov 14 '13 at 7:41
@kqr The link I posted to Haskell's wiki explains why that approach is problematic: 1) rounding problems will lead to incorrect results; 2) Integers have arbitrary precision, while floats do not - this means that converting it to a float might fail with an overflow error, Infinity or an imprecise value. –  Pedro Rodrigues Nov 14 '13 at 10:01

You might not have editable variables, but you can pass arguments recursively....

``````intSquareRoot :: Int -> Int
intSquareRoot n = try n where
try i   | i*i > n   = try (i - 1)
| i*i <= n  = i
``````

giving

``````ghci> intSquareRoot 16
4
ghci> intSquareRoot 17
4
``````
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That's great thanks! I've had such a mind blank with this, completely forgot I could use 'where'! –  benharris Nov 13 '13 at 22:10