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I'm a little new to Haskell, but this behavior is bizarre to me. If I have a simple function defined as follows:

foobar :: Integer -> [Integer] -> Integer
foobar x y = case y of
  (a:x:b) -> x
  _ -> -1

I'm basically expecting that the function should evaluate to the first argument of foobar if y contains at least two elements and the second element of y is just the first argument of foobar. Otherwise get a -1. But in ghci:

foobar 5 [6,7]

gives me 7, not -1.

How do I make sense of this behavior?

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try :set -Wall in your GHCi sessions to get warnings for this kind of thing. –  jberryman Jan 27 '13 at 23:38

2 Answers 2

up vote 13 down vote accepted

What you are doing here is not "updating" the x variable but shadowing it. You are creating a new variable called x in the scope of the first branch of your case statement.

You cannot use a case statement to compare equality as I believe you are trying to do. If that is your goal, you will need to do something like

foobar :: Integer -> [Integer] -> Integer
foobar x y = case y of
    (a:x':b) | x == x' -> x
    _                  -> -1
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To add: you can't write this function as foobar x (_:x:_) = x; foobar _ _ = -1 for similar reasons. There is a good reason for not putting equality tests in pattern matching (except for n-patterns, unfortunately): not every type is in Eq, so == and /= are not defined for every type. –  Rhymoid Jan 27 '13 at 23:10
I don't think that's a good reason. If a pattern needs ==, then have that pattern generate the appropriate Eq constraint. I think there are other decent reasons for Haskell's choice though; e.g. you can see whether something is a binder or an equality without considering the lexical context (because it's always a binder), which means that importing names can't change the semantics of working code, only make it ambiguous. –  luqui Jan 28 '13 at 18:42

You can tell that x is not destructively updated by adjusting your code like so:

foobar :: Integer -> [Integer] -> Integer
foobar x y = (case y of
    (a:x:b)  -> x
    _        -> -1
    ) + x

The x at the end will use the original x value; it is not destroyed, rather, the x binding inside the case expression is shadowed. Calling foobar 5 [6,7] will produce 12, not 14.

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