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I am learning Haskell with the help of "Learn You a Haskell for Great Good!" and am currently trying to understand typeclasses and instances. LYAH provides an example where a type called TrafficLight is defined as follows:

data TrafficLight = Red | Yellow | Green

Now TrafficLight is supposed to be an instance of Eq displaying the following behaviour:

instance Eq TrafficLight where
    Red == Red = True
    Green == Green = True
    Yellow == Yellow = True
    _ == _ = False

In order to understand how this works, I wrote my own file called Shop.hs where I try to override the behaviour of Eq for my ItemSlot.

module Shop where

type Number = Int

data Item =
          BellPepper
        | Cabbage
        | Carrot
        | Lettuce
        | Onion
        | Potato
        | Tomato
        deriving (Show, Read, Eq)

data ItemSlot = ItemSlot {
        item :: Item,
        number :: Number
        } deriving (Show)

instance Eq ItemSlot where
        ((item a) == (item a)) = True -- line that contains the error
        _ == _ = False

However, if I load the file in GHCi, I get the following error:

Prelude> :l Shop.hs 
[1 of 1] Compiling Shop             ( Shop.hs, interpreted )

Shop.hs:21:11: Parse error in pattern: item
Failed, modules loaded: none.

(I must admit that I am rather confused as to what the correct syntax is here - is it item a or just item? Using only item fails with the same error, and using more parentheses - as was the answer in another question like this on SO - does not seem to help either.)

My guess is that I cannot use the item function provided by the record-syntax that is used in ItemSlot, but nevertheless I do not know how to resolve the issue.

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2 Answers 2

up vote 5 down vote accepted

Patterns typically begin with a constructor. The constructor for the ItemSlot type is ItemSlot, so you would use that:

instance Eq ItemSlot where
    ItemSlot item a == ItemSlot item' a' = -- use item, item', a, and a'

Alternately, because you've defined ItemSlot as a record, there's so-called record syntax for patterns. You can bind variables by name rather than position:

instance Eq ItemSlot where
    ItemSlot { item = foo, number = a } == ItemSlot { item = foo', number = a' }
        = -- use foo, foo', a, and a'

You can of course shadow names, if you don't mind a chance of confusion:

instance Eq ItemSlot where
    ItemSlot { item = item, number = a } == ItemSlot { item = item', number = a' }
        = -- use item, item', a, and a'

For convenience, patterns in Haskell can be nested; so, if you wanted to match ItemSlots that both had BellPeppers, for example, you could write

instance Eq ItemSlot where
    ItemSlot BellPepper a == ItemSlot BellPepper a' = True
    -- or, equivalently
    ItemSlot { item = BellPepper } == ItemSlot { item = BellPepper } = True

though usually you would delegate the comparison of Item's to the Eq instance for Items.

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Thank you for your help, your first example does it for me (I only want to compare for the same item, not the same number). I guess I never would have figured that out on my own. –  Anju Fabulina Aug 26 '12 at 14:50
2  
Just to add to this: you can use the item accessor function (or any other function) on the right-hand side of the definition. So instance Eq ItemSlot where is1 == is2 = item is1 == item is2 would also work. The pattern-matching way is probably better, though. –  Antal S-Z Aug 26 '12 at 18:58
    
@Antal S-Z: That's exactly what I'd originaly thought was the best way, but obviously I got distracted while writing my answer. I've edited my answer but upvoted your comment. Thanks reminding me. –  AndrewC Aug 26 '12 at 20:06

Pattern matching worked in the TrafficLight example because you only needed to know what the constructor (Red, Green or Yellow) was to tell whether they were equal, but your ItemSlots are only equal if the data in the item field is equal, so you need to check that with an equation on the right hand side:

instance Eq ItemSlot where
        ItemSlot {item=i} == ItemSlot {item=j} = i == j

This is the equivalent of

instance Eq ItemSlot where
        ItemSlot i _ == ItemSlot j _  =  i == j

but is more future proof, because if you add another field and you don't want to change the meaning of ==, you can leave the first version alone. (You could argue that you ought to revisit == when you add fields, but using the {item = syntax leads to clearer error messages in my experience.

Cleanest is

instance Eq ItemSlot where 
        i == j  =  item i == item j

as Antal S-Z reminded me (thanks).

If you test with

eg1 = ItemSlot {item = Carrot, number = 3}
eg2 = ItemSlot {item = Onion, number = 3}
eg3 = ItemSlot {item = Onion, number = 42}
eg4 = ItemSlot {item = Carrot, number = undefined}
eg5 = ItemSlot {item = Carrot}

You'll find that eg5 gives you a warning. You're allowed to ignore fields when using the record, so the first version of Eq above is fine, but if you're defining a record, Haskell would like you to provide all the data.

You can check that eg4 == eg1 and eg2 == eg4 and even eg2 == eg5 without problems - lazy evaluation means it doesn't check the number field when checking ==, but if you just type eg4 or eg5, it won't finish because it encounters the undefined values.

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