# Haskell Pattern matching in a Function

The two-argument function check returns True exactly when both Boolean operands have the same value. Otherwise it returns False. I should implement it using :

``````check :: Bool -> Bool -> Bool
``````

1)- Conditional expressions(checkA)

``````checkA x y = if x < y then False else True
``````

- 2)-Guarded equations (checkB).

``````checkB x y | x < y = False  | otherwise =True
``````

3)-Pattern matching (checkc).

,but here I get an error

``````checkC x y  False False = True
True True = True
False True = False
True False = False
``````

How can I use Pattern matching to say (if this and that are equivalent then ...) when x and y are numbers(int)?

• Here `x` and `y` seem to be `Bool`s, and your condition does not look correct. – Willem Van Onsem Nov 11 '18 at 17:42
• As for `Int`s, one can write `Int` literals, but since that domain is huge, it would really be a (very) bad idea. – Willem Van Onsem Nov 11 '18 at 17:43
• check :: Bool -> Bool -> Bool do you mean this ?? – Alaa Alsayed Nov 11 '18 at 17:44
• it's a homework and I have to do it today -_- – Alaa Alsayed Nov 11 '18 at 17:47
• If `x` and `y` are booleans, you can simply enumerate all possible choices and you're done. With ints, you can't do this (because there are infinitely many of them), so pattern-matching is not an option. – ForceBru Nov 11 '18 at 17:49

You can pattern match against bools because there's a finite (and small) number of combinations. Consider the whole combination space of `Bool`s (which is defined as `n^n` where `n` is the size of the space)

``````False False
False True
True False
True True
``````

It's trivial to enumerate these by hand in `check`

``````check :: Bool -> Bool -> Bool
check False False = True
check False True  = False
check True False  = False
check True True   = True
``````

But as you can deduce, `Int`s are not as trivial, since the space of all integers is literally infinite.

You can pattern match in this way with ints if you have an infinite amount of programming time and hard drive space, because you have an infinite amount of patterns to write.

``````check :: Int -> Int -> Bool
check 0 0 = True
check 1 1 = True
check (-1) (-1) = True
check 2 2 = True
check (-2) (-2) = True
-- etc literally until infinity
check _ _ = False
``````

The way to write this is to either use guards:

``````check :: Int -> Int -> Bool
check x y | x == y    = True
| otherwise = False
``````

Or realize that there is a pretty standard function that already does this -- maybe you've heard of it? :-)

``````check :: Int -> Int -> Bool
check = (==)
``````
• but in your code the definition looks different (check :: Int -> Int -> Bool)and this a homework i can't change it :,( I'm given the definition and I should continue with it – Alaa Alsayed Nov 11 '18 at 18:32
• @Amerov What's it supposed to say? `check :: Bool -> Bool -> Bool` will only accept booleans (by definition) so the whole crux of your question (comparing integers to integers) is suspect :) – Adam Smith Nov 11 '18 at 19:22
• @Amerov Your last example (`checkC`) is failing for the same reason. You've defined a two-parameter function `checkC :: Bool -> Bool -> Bool`, then provided a four-parameter function (`checkC x y boolA boolB`) – Adam Smith Nov 11 '18 at 19:24