I second uncle Bob's opinion that the problem is in the design. I would additionally go back one step and check the design of your contracts.
instead of saying "return -1 for x==0" or "throw CannotCalculateException for x==y", underspecify
niftyCalcuatorThingy(x,y) with the precondition
x!=y && x!=0 in appropriate situations (see below). Thus your stubs may behave arbitrarily for these cases, your unit tests must reflect that, and you have maximal modularity, i.e. the liberty to arbitrarily change the behavior of your system under test for all underspecified cases - without the need to change contracts or tests.
Underspecification where appropriate
You can differentiate your statement "-1 when it fails for some reason" according to the following criteria: Is the scenario
- an exceptional behavior that the implementation can check?
- within the method's domain/responsibility?
- an exception that the caller (or someone earlier in the call stack) can recover from/handle in some other way?
If and only if 1) to 3) hold, specify the scenario in the contract (e.g. that
EmptyStackException is thrown when calling pop() on an empty stack).
Without 1), the implementation cannot guarantee a specific behavior in the exceptional case. For instance, Object.equals() does not specify any behavior when the condition of reflexivity, symmetry, transitivity & consistency is not met.
Without 2), SingleResponsibilityPrinciple is not met, modularity is broken and users/readers of the code get confused. For instance,
Graph transform(Graph original) should not specify that
MissingResourceException might be thrown because deep down, some cloning via serialization is done.
Without 3), the caller cannot make use of the specified behavior (certain return value/exception). For instance, if the JVM throws an UnknownError.
Pros and Cons
If you do specify cases where 1), 2) or 3) does not hold, you get some difficulties:
- a main purpose of a (design by) contract is modularity. This is best achievable if you really separate the responsibilities: When the precondition (the responsibility of the caller) is not met, not specifying the behavior of the implementation leads to maximal modularity - as your example shows.
- you don't have any liberty to change in the future, not even to a more general functionality of the method which throws exception in fewer cases
- exceptional behaviors can become quite complex, so the contracts covering them become complex, error prone and hard to understand. For instance: is every situation covered? Which behavior is correct if multiple exceptional preconditions hold?
The downside of underspecification is that (testing) robustness, i.e. the implementation's ability to react appropriately to abnormal conditions, is harder.
As compromise, I like to use the following contract schema where possible:
<(Semi-)formal PRE- and POST-condition, including exceptional
behavior where 1) to 3) hold>
If PRE is not met, the current implementation throws the RTE A, B or