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testing - QuickCheck: Arbitrary instances of nested data structures that generate balanced specimens

tl;dr: how do you write instances of Arbitrary that don't explode if your data type allows for way too much nesting? And how would you guarantee these instances produce truly random specimens of your data structure?

I want to generate random tree structures, then test certain properties of these structures after I've mangled them with my library code. (NB: I'm writing an implementation of a subtyping algorithm, i.e. given a hierarchy of types, is type A a subtype of type B. This can be made arbitrarily complex, by including multiple-inheritance and post-initialization updates to the hierarchy. The classical method that supports neither of these is Schubert Numbering, and the latest result known to me is Alavi et al. 2008.)

Let's take the example of rose-trees, following Data.Tree:

data Tree a = Node a (Forest a)
type Forest a = [Tree a]

A very simple (and don't-try-this-at-home) instance of Arbitray would be:

instance (Arbitrary a) => Arbitrary (Tree a) where
    arbitrary = Node <$> arbitrary <$> arbitrary

Since a already has an Arbitrary instance as per the type constraint, and the Forest will have one, because [] is an instance, too, this seems straight-forward. It won't (typically) terminate for very obvious reasons: since the lists it generates are arbitrarily long, the structures become too large, and there's a good chance they won't fit into memory. Even a more conservative approach:

arbitrary = Node <$> arbitrary <*> oneof [arbitrary,return []]

won't work, again, for the same reason. One could tweak the size parameter, to keep the length of the lists down, but even that won't guarantee termination, since it's still multiple consecutive dice-rolls, and it can turn out quite badly (and I want the odd node with 100 children.)

Which means I need to limit the size of the entire tree. That is not so straight-forward. unordered-containers has it easy: just use fromList. This is not so easy here: How do you turn a list into a tree, randomly, and without incurring bias one way or the other (i.e. not favoring left-branches, or trees that are very left-leaning.)

Some sort of breadth-first construction (the functions provided by Data.Tree are all pre-order) from lists would be awesome, and I think I could write one, but it would turn out to be non-trivial. Since I'm using trees now, but will use even more complex stuff later on, I thought I might try to find a more general and less complex solution. Is there one, or will I have to resort to writing my own non-trivial Arbitrary generator? In the latter case, I might actually just resort to unit-tests, since this seems too much work.

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Use sized:

instance Arbitrary a => Arbitrary (Tree a) where
arbitrary = sized arbTree

arbTree :: Arbitrary a => Int -> Gen (Tree a)
arbTree 0 = do
    a <- arbitrary
    return $ Node a []
arbTree n = do
    (Positive m) <- arbitrary
    let n' = n `div` (m + 1)
    f <- replicateM m (arbTree n')
    a <- arbitrary
    return $ Node a f

(Adapted from the QuickCheck presentation).

P.S. Perhaps this will generate overly balanced trees...


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