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.