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I'm trying to understand this code:

search_bst :: Tree -> String -> Maybe Int 
search_bst Leaf _ = Nothing
search_bst (Node k v l r) sk =
    if sk == k then Just v
    else if sk < k then search_bst l sk
    else search_bst r sk

I can get the concept but what does Node k v l r mean? Does it mean that search_bst takes two parameters, which the first one is an instance of type Node and has three values?

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2  
Yes; this is pattern-matching against the parameters of Node, in order to bind the variables for use later. –  C. Quilley Aug 28 at 10:10

3 Answers 3

up vote 5 down vote accepted

This feature of the Haskell language is called pattern matching. The signature Tree -> String -> Maybe Int tells you that first argument of the search_bst function is of type Tree. The Tree data type is probably defined as follows:

data Tree = Leaf | Node String Int Tree Tree

A Tree is either a Leaf or a Node. A Node also contains 4 fields of type String, Int. Tree and Tree. Pattern matching now allows you to access these fields and take apart a value of type Tree. In your function, the first case:

search_bst Leaf _ = Nothing

means: If search_bst is given a Leaf as first argument, and anything as second argument, return Nothing.

The second case:

search_bst (Node k v l r) sk =
  if sk == k then Just v
  else if sk < k then search_bst l sk
  else search_bst r sk

then means: If the the first argument of type Tree is a Node, then the variables k, v, l and r will be the values of the fields of the Node constructor. The variable sk refers to the second argument of the function.

So if you run search_bst (Node "foo" 3 Leaf Leaf) "foo", what happens is that first, the first case will be tried. Because the expression Node "foo" 3 Leaf Leaf is a Node and not a Leaf, the first case will fail. Now the second case will be tried, and it matches. So k is set to "foo", v is set to 3, l to Leaf and r is also set to Leaf. Then the body of the function is evaluated.

You can learn more about the syntax of function definitions in a chapter of the book Learn You a Haskell for Great Good!.

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"k" for "key", "v" for "value", "l" for "left", "r" for "right. –  Will Ness Aug 28 at 14:36
search_bst :: Tree -> String -> Maybe Int

means that search_bst takes two arguments, one of type Tree and one of type String, and produces a Maybe Int.

search_bst Leaf _ = ...

means: "do ... if the first argument (the one of type Tree) is Leaf (which is a value of type Tree). And finally

search_bst (Node k v l r) sk = ...

means "do ... if the first argument is a tree that's been constructed using the Node constructor and let k, v, l and r hold the values that have been given as arguments to Node. Also let sk refer to the second argument of search_bst.".

Does it mean that search_bst takes two parameters, which the first one is an instance of type Node and has three values?

The first argument has type Tree. There likely is no type Node in your program (and even if there is, it has nothing to do with the search_bst function).

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It's important to distinguish between types and (value-) constructors. Let's consider a simpler example: you know

data Maybe a = Just a
             | Nothing

now, both Just and Nothing are constructors for values. These values will in either case have type Maybe A, where A can be any "contained type" (e.g. Maybe Int). Nothing is a nullary constructor, so it can be used on its own to construct a Maybe value. Just is a unary constructor, so it needs one argument (of the contained type).

Prelude> Nothing    :: Maybe Int
Nothing
Prelude> Just 3    :: Maybe Int
Just 3

Now, the standard way to implement a function that takes a Maybe as its argument is to pattern match on those constructors. For instance,

showMaybe :: Maybe Int -> String
showMaybe Nothing = ""
showMaybe (Just n) = show n

Note that I deconstructed the Just value: I give it as many new variable names as the Just constructor needs for constructing, these variables then have the values of the contained data.

In your example, the data type is a bit more complicated

type TreeKey = String
type TreeContain = Int

data Tree = Leaf
          | Node TreeKey TreeContain Tree Tree

(normally, you would write data Tree k v = Note k v (Tree k v) (Tree k v) | Node, which works exactly the same but can use others keys/values as strings and ints.)

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