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Ok so we have not learned polymorphic functions yet, but we still have to write this code.

nameEQ (a,_) (b,_) = a == b
numberEQ (_,a) (_,b) = a == b
intEQ a b = a == b
member :: (a -> a -> Bool) -> a -> [a] -> Bool

I added:

member eq x ys | length ys < 1 = False
               | head(ys) == x = True
            | otherwise = member(x,tail(ys))

but i get errors about not being the correct type as well as some other stuff. We have to see if an element exists in from some type. So we have those 2 types above. Some examples given:

phoneDB = [("Jenny","867-5309"), ("Alice","555-1212"), ("Bob","621-6613")]

> member nameEQ ("Alice","") phoneDB
> member nameEQ ("Jenny","") phoneDB
> member nameEQ ("Erica","") phoneDB
> member numberEQ ("","867-5309") phoneDB
> member numberEQ ("","111-2222") phoneDB
> member intEQ 4 [1,2,3,4]
> member intEQ 4 [1,2,3,5]

not exactly sure what i need to do here. Any help or documentation on this would be great. Thanks!

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3 Answers 3

up vote 5 down vote accepted

Those errors you gloss over "about not being the correct type as well as some other stuff" are important. They tell you what's wrong.

For example, the first time I threw your code into ghc I got:

Couldn't match expected type `a -> a -> Bool'
       against inferred type `(a1, [a1])'
In the first argument of `member', namely `(x, tail (ys))'
In the expression: member (x, tail (ys))
In the definition of `member':
    member eq x ys
             | length ys < 1 = False
             | head (ys) == x = True
             | otherwise = member (x, tail (ys))

Well, when I look at it that's straightforward - you've typed


When you clearly meant:

member x (tail ys)

Commas mean something in Haskell you didn't intend there.

Once I made that change it complained again that you'd left off the eq argument to member.

The error after that is tougher if you haven't learned about Haskell typeclasses yet, but suffice it to say that you need to use the passed-in eq function for comparing, not ==.

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ok, i didn't know about the eq function. Yea i think i had that at one point and i kept getting errors (probably due to the ==). Thanks that helps. –  Matt Sep 14 '10 at 11:46
@Matt: eq is not a library function you didn't know about--it's passed as an argument to the member function you wrote! –  Reid Barton Sep 15 '10 at 18:48

Various things (I'm not going to write out the full answer as this is homework):

  1. length ys < 1 can be more simply expressed as null ys
  2. You don't need brackets around function arguments. head(ys) is more commonly written as head ys
  3. You can, if you want, turn the top case and the other two into pattern matches rather than guards. member eq x [] = ... will match the empty case, member eq x (y:ys) = ... will match the non-empty case.
  4. You are using == for comparison. But you're meant to use the eq function you're given instead.
  5. You are bracketing the arguments to member as if this was Java or similar. In Haskell, arguments are separated by spaces, so member(x,(tail(ys)) should be member x (tail ys).
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For point 2: Not only are the parens there unnecessary, they'll actually fool you into believing that stuff is grouped in a way it isn't; for example, foo a b(c) is calling foo with three arguments, not with two. What you probably meant then was foo a (b c) –  Daniel Martin Sep 14 '10 at 11:11
Yea, we had to use what we were given. So member eq x (y:ys) was out of the question. But the null ys is helpful. Thanks. This does help. –  Matt Sep 14 '10 at 11:47

Since the parameters a in member :: (a -> a -> Bool) -> a -> [a] -> Bool don't derive Eq, you can't use == to compare them, but instead have to use the given function eq.

Therefore your code might look like this:

member :: (a -> a -> Bool) -> a -> [a] -> Bool
member eq x ys
 | length ys < 1 = False
 | eq x (head ys) = True
 | otherwise = member eq x (tail ys)

Only problem with this is, that length still requires to evaluate the entire List, so you could reach a a better performance writing:

member' :: (a -> a -> Bool) -> a -> [a] -> Bool
member' eq x (y:ys)
 | eq x y = True
 | otherwise = member' eq x ys
member' _ _ [] = False

With the use of any you can simplify it even more:

member'' :: (a -> a -> Bool) -> a -> [a] -> Bool
member'' f a = any (f a)
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