Yes, your GUI testing libraries should be tested.
For example, if your library provides a Check method to verify the contents of a grid against a 2-dimensional array, you want to be sure that it works as intended.
Otherwise, your more complex test cases that test business processes in which a grid must receive particular data may be unreliable. If an error in your Check method produces false negatives, you'll quickly find the problem. However, if it produces false positives, you're in for major headaches down the line.
To test your CheckGrid method:
- Populate a grid with known values
- Call the CheckGrid method with the values populated
- If this case passes, at least one aspect of CheckGrid works.
- For the second case, you're expecting the CheckGrid method to report a test failure.
- The particulars of how you indicate the expectation will depend on your xUnit framework (see an example later). But basically, if the Test Failure is not reported by CheckGrid, then the test case itself must fail.
- Finally, you may want a few more test case for special conditions, such as: empty grids, grid size mismatching array size.
You should be able to modify the following dunit example for most frameworks in order to test that CheckGrid correctly detects errors:
CheckGrid(<incorrect values>, TheGrid);
LFlagTestFailure := False;
on E: ETestFailure do
LFlagTestFailure := True;
Check(LFlagTestFailure, 'CheckGrid method did not detect errors in grid content');
Let me reiterate: your GUI testing libraries should be tested; and the trick is - how do you do so effectively?
The TDD process recommends that you first figure out how you intend testing a new piece of functionality before you actually implement it. The reason is, that if you don't, you often find yourself scratching your head as to how you're going to verify it works. It is extremely difficult to retrofit test cases onto existing implementations.
One thing you said bothers me a little... you said it takes "70% (of your time) to maintain (your tests)"
This sounds a little wrong to me, because ideally your tests should be simple, and should themselves only need to change if your interfaces or rules change.
I may have misunderstood you, but I got the impression that you don't write "production" code. Otherwise you should have more control over the cycle of switching between test code and production code so as to reduce your problem.
- Watch out for non-deterministic values. For example, dates and artificial keys can play havoc with certain tests. You need a clear strategy of how you'll resolve this. (Another answer on its own.)
- You'll need to work closely with the "production developers" to ensure that aspects of the interfaces you're testing can stabilise. I.e. They need to be cognisant of how your tests identify and interact with GUI components so they don't arbitrarily break your tests with changes that "don't affect them".
- On the previous point, it would help if automated tests are run whenever they make changes.
- You should also be wary of too many tests that simply boil down to arbitrary permutations. For example, if each customer has a category A, B, C, or D; then 4 "New Customer" tests (1 for each category) gives you 3 extra tests that don't really tell you much more than the first one, and are 'hard' to maintain.