I also think it's a bad idea.
Mind you, not throwing random data at your code, but having unit tests doing that. It all boils down to why you unit test in the first place. The answer is "to drive the design of the code". Random data doesn't drive the design of the code, because it depends on a very rigid public interface. Mind you, you can find bugs with it, but that's not what unit tests are about. And let me note that I'm talking about unit tests, and not tests in general.
That being said, I strongly suggest taking a look at QuickCheck. It's Haskell, so it's a bit dodgy on presentation and a bit PhD-ish on documentation, but you should be able to figure it out. I'm going to summarize how it works, though.
After you pick the code you want to test (let's say the
sort() function), you establish invariants which should hold. In this examples, you can have the following invariants if
result = sort(input):.
- Every element in
result should be smaller than or equal to the next one.
- Every element in
input should be present in
result the same number of times.
input should have the same length (this is repeats the previous, but let's have it for illustration).
You encode each variant in a simple function that takes the result and the output and checks whether those invariants code.
Then, you tell QuickCheck how to generate
input. Since this is Haskell and the type system kicks ass, it can see that the function takes a list of integers and it knows how to generate those. It basically generates random lists of random integers and random length. Of course, it can be more fine-grained if you have a more complex data type (for example, only positive integers, only squares, etc.).
Finally, when you have those two, you just run QuickCheck. It generates all that stuff randomly and checks the invariants. If some fail, it will show you exactly which ones. It would also tell you the random seed, so you can rerun this exact failure if you need to. And as an extra bonus, whenever it gets a failed invariant, it will try to reduce the input to the smallest possible subset that fails the invariant (if you think of a tree structure, it will reduce it to the smallest subtree that fails the invariant).
And there you have it. In my opinion, this is how you should go about testing stuff with random data. It's definitely not unit tests and I even think you should run it differently (say, have CI run it every now and then, as opposed to running it on every change (since it will quickly get slow)). And let me repeat, it's a different benefit from unit testing - QuickCheck finds bugs, while unit testing drives design.