Unit tests - The benefit from unit tests with contract changes?

点点圈 提交于 2019-12-20 08:00:55

问题


Recently I had an interesting discussion with a colleague about unit tests. We were discussing when maintaining unit tests became less productive, when your contracts change.

Perhaps anyone can enlight me how to approach this problem. Let me elaborate:

So lets say there is a class which does some nifty calculations. The contract says that it should calculate a number, or it returns -1 when it fails for some reason.

I have contract tests who test that. And in all my other tests I stub this nifty calculator thingy.

So now I change the contract, whenever it cannot calculate it will throw a CannotCalculateException.

My contract tests will fail, and I will fix them accordingly. But, all my mocked/stubbed objects will still use the old contract rules. These tests will succeed, while they should not!

The question that rises, is that with this faith in unit testing, how much faith can be placed in such changes... The unit tests succeed, but bugs will occur when testing the application. The tests using this calculator will need to be fixed, which costs time and may even be stubbed/mocked a lot of times...

How do you think about this case? I never thought about it thourougly. In my opinion, these changes to unit tests would be acceptable. If I do not use unit tests, I would also see such bugs arise within test phase (by testers). Yet I am not confident enough to point out what will cost more time (or less).

Any thoughts?


回答1:


The first issue you raise is the so-called "fragile test" problem. You make a change to your application, and hundreds of tests break because of that change. When this happens, you have a design problem. Your tests have been designed to be fragile. They have not been sufficiently decoupled from the production code. The solution is (as it it in all software problems like this) to find an abstraction that decouples the tests from the production code in such a way that the volatility of the production code is hidden from the tests.

Some simple things that cause this kind of fragility are:

  • Testing for strings that are displayed. Such strings are volatile because their grammar or spelling may change at the whim of an analyst.
  • Testing for discrete values (e.g. 3) that should be encoded behind an abstraction (e.g. FULL_TIME).
  • Calling the same API from many tests. You should wrap the API call in a test function so that when the API changes you can make the change in one place.

Test design is an important issue that is often neglected by TDD beginners. This often results in fragile tests, which then leads the novices to reject TDD as "unproductive".

The second issue you raised was false positives. You have used so many mocks that none of your tests actually test the integrated system. While testing independent units is a good thing, it is also important to test partial and whole integrations of the system. TDD is not just about unit tests.

Tests should be arranged as follows:

  • Unit tests provide close to 100% code coverage. They test independent units. They are written by programmers using the programming language of the system.
  • Component tests cover ~50% of the system. They are written by business analysts and QA. They are written in a language like FitNesse, Selenium, Cucumber, etc. They test whole components, not individual units. They test primarily happy path cases and some highly visible unhappy path cases.
  • Integration tests cover ~20% of the system. They tests small assemblies of components as opposed to the whole system. Also written in FitNesse/Selenium/Cucumber etc. Written by architects.
  • System tests cover ~10% of the system. They test the whole system integrated together. Again they are written in FitNesse/Selenium/Cucumber etc. Written by architects.
  • Exploratory manual tests. (See James Bach) These tests are manual but not scripted. They employ human ingenuity and creativity.



回答2:


It's better to have to fix unit test that fail due to intentional code changes than not having tests to catch the bugs that are eventually introduced by these changes.

When your codebase has a good unit test coverage, you may run into many unit test failures that are not due to bugs in the code but intentional changes on the contracts or code refactoring.

However, that unit test coverage will also give you confidence to refactor the code and implement any contract changes. Some test will fail and will need to be fixed, but other tests will eventually fail due to bugs that you introduced with these changes.




回答3:


Unit tests surely can not catch all bugs, even in the ideal case of 100% code / functionality coverage. I think that is not to be expected.

If the tested contract changes, I (the developer) should use my brains to update all code (including test code!) accordingly. If I fail to update some mocks which therefore still produce the old behaviour, that is my fault, not of the unit tests.

It is similar to the case when I fix a bug and produce a unit test for, but I fail to think through (and test) all similar cases, some of which later turns out to be buggy as well.

So yes, unit tests need maintenance just as well as the production code itself. Without maintenance, they decay and rot.




回答4:


I have similar experiences with unit tests - when you change the contract of one class often you need to change loads of other tests as well (which will actually pass in many cases, which makes it even more difficult). That is why I always use higher level tests as well:

  1. Acceptance tests - test a couple or more classes. These tests are usually aligned to user stores that need to be implemented - so you test that the user story "works". These don't need to connect to a DB or other external systems, but may.
  2. Integration tests - mainly to check external system connectivity, etc.
  3. Full end-to-end tests - test the whole system

Please note that even if you have 100% unit test coverage, you are not even guaranteed that your application starts! That is why you need higher level tests. There are so many different layers of tests because the lower you test something, the cheaper it usually is (in terms of development, maintaining test infrastructure as well as execution time).

As a side note - because of the problem you mentioned using unit tests teaches you to keep your components as decoupled as possible and their contracts as small as possible - which is definitely a good practise!




回答5:


Someone asked the same question in the Google Group for the book "Growing Object Oriented Software - Guided by Tests". The thread is Unit-test mock/stub assumptions rots.

Here is J.B. Rainsberger's answer (he is the author of Manning's "JUnit Recipes").




回答6:


One of the rules for unit tests code (and all other code used for testing) is to treat it the same way as production code - no more, no less - just the same.

My understanding of this is that (beside keeping it relevant, refactored, working etc. like production code) it should be looked at it the same way from the investment/cost prospective as well.

Probably your testing strategy should include something to address the problem you have described in the initial post - something along the lines specifying what test code (including stubs/mocks) should be reviewed (executed, inspected, modified, fixed etc) when a designer change a function/method in production code. Therefore the cost of any production code change must include the cost of doing this - if not - the test code will become "third-class citizen" and the designers' confidence in the unit test suite as well as its relevance will decrease... Obviously, the ROI is in the timing of bugs discovery and fix.




回答7:


One principle that I rely on here is removing duplication. I generally don't have many different fakes or mocks implementing this contract (I use more fakes than mocks partly for this reason). When I change the contract it is natural to inspect every implementation of that contract, production code or test. It bugs me when I find I'm making this kind of change, my abstractions should have been better thought out perhaps etc, but if the test codes is too onerous to change for the scale of the contract change then I have to ask myself if these also are due some refactoring.




回答8:


I look at it this way, when your contract changes, you should treat it like a new contract. Therefore, you should create a whole new set of UNIT test for this "new" contract. The fact that you have an existing set of test cases is besides the point.




回答9:


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.

In short

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

  1. an exceptional behavior that the implementation can check?
  2. within the method's domain/responsibility?
  3. 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 C.



来源:https://stackoverflow.com/questions/2965483/unit-tests-the-benefit-from-unit-tests-with-contract-changes

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