Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# Haskell: return a list of all substrees in Binary Tree. Is my code correct?

So I am trying to implement a functoin in Haskell that accepts a Binary Tree and returns a list of all subtrees where order and repetition does not matter but all substrees must be present at least once. Here is my code:

``````data BinTree a = Empty | Node (BinTree a) a (BinTree a) deriving (Eq,Show)

subtrees :: BinTree a -> [BinTree a]
subtrees Empty = [Empty]
subtrees (Node tL x tR) = [Node tL x tR] ++ subtrees tL ++ subtrees tR
``````

Here is my data set

``````(Node (Node (Node (Node Empty 1 Empty) 1 Empty) 3 Empty) 4 (Node Empty 2 Empty))
``````

Here is my result

``````[Node (Node (Node (Node Empty 1 Empty) 1 Empty) 3 Empty) 4 (Node Empty 2 Empty),
Node (Node (Node Empty 1 Empty) 1 Empty) 3 Empty,Node (Node Empty 1 Empty) 1 Emp
ty,Node Empty 1 Empty,Node Empty 2 Empty]
``````

For some reason I am somewhat doubtful of this implementation and I would appreciate any feedback! Thanks!

-

Looks ok. Only answer the question: what is a list of all subtrees of a Empty tree?

-
So I suppose actualy [Empty] insead of just [] . Correct? – Georgi Angelov Sep 2 '13 at 16:19
yes, and then you are done – Sassa NF Sep 2 '13 at 18:08

The best way to test something like this, in my opinion, is to think of properties that you expect your function to satisfy, and then write some QuickCheck tests to try them out. The best thing about QuickCheck is that if it finds a problem, it will try to tell you the simplest possible case that fails! So let's begin...

``````{-# LANGUAGE FlexibleInstances #-}

import Test.QuickCheck
import Control.Applicative
``````

What's a good property to test? Well, if we have two trees, t1 and t2, and combine them with a new node, then calling `subtree` on the combined tree should give us a list that includes `subtree t1`, `subtree t2`, plus the entire tree. The node type doesn't affect the logic, so I chose Char. You can probably think of a better name for this property.

``````prop_combining_works :: BinTree Char -> Char -> BinTree Char -> Property
prop_combining_works t1 x t2 =
property \$ subtrees t == t : subtrees t1 ++ subtrees t2
where t = Node t1 x t2
``````

NOTE: I didn't expect this to work without sorting the results of `subtree` in some way, but by happy accident, it does. But that may change, depending on how you decide to return for `subtree Empty`! Also, you may need to eliminate duplicates in expression to the right of `==`.

Next, we need a way to generate random trees to test with. The code below may look complicated, but what it's saying is that test data for the `BinTree` type can be either `Empty`, or a `Node` build up with two arbitrarily chosen subtrees and an arbitrarily chosen `Char`.

``````instance Arbitrary (BinTree Char) where
arbitrary = do
oneof [return Empty, Node <\$> arbitrary <*> arbitrary <*> arbitrary]
``````

``````λ> quickCheck prop_combining_works
Fair enough. But you might want to keep this answer handy, and come back to it when you've learned a little more. Don't put it off too long, though. QuickCheck saves you loads of time, and can help you produce bullet-proof code. And you don't really need to understand that `Arbitrary` stuff to begin using it -- I certainly didn't understand that part when I started. At first, I just looked at examples that other people had done, and tweaked them to meet my needs. – mhwombat Sep 2 '13 at 17:42