Why does the following Haskell script not work as expected?

``````find :: Eq a => a -> [(a,b)] -> [b]
find k t = [v | (k,v) <- t]
``````

Given `find 'b' [('a',1),('b',2),('c',3),('b',4)]`, the interpreter returns `[1,2,3,4]` instead of `[2,4]`. The introduction of a new variable, below called `u`, is necessary to get this to work:

``````find :: Eq a => a -> [(a,b)] -> [b]
find k t = [v | (u,v) <- t, k == u]
``````

Does anyone know why the first variant does not produce the desired result?

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Repeat after me: there are no variables in Haskell. ;-) These are symbols or identifiers. Variables imply variability. In Haskell, everything is immutable. –  Konrad Rudolph Oct 29 '10 at 16:28
@Konrad Rudolph: The Haskell 98 Report uses the term "variable" all over the place. It's important to note that this doesn't mean what you might expect, but I don't think being more persnickety than the standard documentation is necessarily helpful. –  Travis Brown Oct 29 '10 at 16:31
@Konrad Rudolph: Surely you jest! Why, I've found a whole section about variables in some Haskell, right here. –  C. A. McCann Oct 29 '10 at 16:52
@Travis Brown: It means pretty much the same thing it does when speaking of variables bound by a quantifier in a formula of first-order logic... can't imagine why someone would expect anything else! ;) –  C. A. McCann Oct 29 '10 at 16:58
Reading the first version of find, I was actually expecting [1,2,3,4]... Must read the function name also. –  gawi Oct 29 '10 at 19:08

As usual, bindings in list comprehensions can shadow those in outer scopes; for example:

`[ x | x <- x, x <- x ] = [ z | y <- x, z <- y]`

One other point: if you compile with `-Wall` (or specifically with `-fwarn-name-shadowing`) you'll get the following warning:

``````Warning: This binding for `k' shadows the existing binding
``````

Using `-Wall` is usually a good idea—it will often highlight what's going on in potentially confusing situations like this.

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+1 for the citation and warning flag suggestion –  Tom Crockett Oct 29 '10 at 22:51
I think the issue is not about shadowing. It's about the meaning of an identifier in a pattern in the first place -- that it does not match the value of a variable with that identifier, but rather matches anything and binds the value to a new variable with that idenfier –  newacct Dec 3 '11 at 0:22

The pattern match `(k,v) <- t` in the first example creates two new local variables `v` and `k` that are populated with the contents of the tuple `t`. The pattern match doesn't compare the contents of `t` against the already existing variable `k`, it creates a new variable `k` (which hides the outer one).

Generally there is never any "variable substitution" happening in a pattern, any variable names in a pattern always create new local variables.

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You can only pattern match on literals and constructors.
You can't match on variables. Read more here.

That being said, you may be interested in view patterns.

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