Euler Problem in Haskell — Can Someone Spot My Error

I'm trying my hand at Euler Problem 4 in Haskell. It asks for that largest palindrome formed by multiplying two three-digit numbers. The problem was simple enough, and I thought my Haskell-fu was up to the task, but I'm getting a result that looks inconsistent to say the least.

Here's my palindrome detector (which was simplicity itself to code):

``````isPalindrome :: String -> Bool
isPalindrome [] = True
isPalindrome str = let str2 = reverse str
in (str2 == str)
``````

From here it's a simple question of writing a function to detect when a product forms a palindrome (and possibly to subtract one from one of the multiplicands and recurse over a brute-force search if it doesn't). Here's my very simplified version of this, stripped down and returning an IO action for debugging:

``````findPal :: Integer -> Integer -> IO()
findPal 1 y = putStrLn "reached 1"
findPal x y = let pal = isPalindrome \$ show mult
mult = x * y
in case pal of
true -> putStrLn \$ "mult is " ++ (show mult)
false -> putStrLn "pal is false"
``````

Here are two separate outputs in GHCi:

``````*Main> isPalindrome \$ show (999*999)
False
*Main> findPal 999 999
mult is 998001
``````

In other words, the call to isPalindrome is always evaluating to true in findPal's case statement, even when it should be false.

What am I not seeing here?

-
Don't you get a "Warning: Pattern match(es) are overlapped"? – ephemient Nov 19 '09 at 15:57
Yes I did. I just wasn't entirely sure what it meant. In retrospect, it's obvious. – rtperson Nov 19 '09 at 17:29

Could it be that in findPal, you should write `True` and `False` instead of `true` and `false`?