Give short concrete answer: why unit testing did NOT work out for you (your project). Will you particularly try again on a different project?
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On the one hand, the project succeeded - there were almost no code related failures. On the other hand, the build took almost four hours to run and there were thousands of tests, Selenium and JWebUnit based, which were incredibly difficult to fix when they broke. Why? Because clever and talented developers had seen redundancy and replication, and had built clever abstraction layers over the top of the tests, which had the unnoticed effect (until years later) of completely enshrining framework and data dependencies. We eventually tried to move to SeleniumGrid and it was almost impossible to parallelize the tests, as the interdepencies went so deep. (We 'fixed' the problem by buying a much more powerful build server. Let's hope Moore's law keeps up with our test proliferation). So I will try again on the next project. But next to DRY and YAGNI and all those good old commandments, I'm putting up TORT: Test Oughta Repeat Themselves. Oh, and before anyone jumps in and says 'Selenium is FUNCTIONAL, not unit testing', we found that once the testing bug had spread we were testing UI from a browser with completely mocked out Controllers. Caught a lot of navigational and AJAX problems that way. |
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So far, Unit Testing did not work out for my Projects on Microsoft Sharepoint. The issue is that essentially I am doing integration testing (I have no experience with mocking Frameworks, and mocking SPWeb and all it's dependencies looks like a behemoth). If you want a nice little bullet point:
I still want to do proper Testing, be it Unit or Integration testing, but I really have to schedule some time for this. |
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Every programmer has to ask themseleves the question: is there any bug that could be caught by unit testing that couldn't be caught just as easily by simply using the bloody software?! Every hour you spend writing tests is an hour you could have spent fixing bugs. |
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Unit testing did work for me and made my life easier on my last project. But because my object model has crud functionality built right into the objects, testing against a database was an unbelievable PITA! Next time, the crud's going to be seperate, and I've got to look into Mocks. |
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1) Legacy code. 2) Strong dependency on a framework (WebForms for example) that don't enable easy testing - too much work and workarounds that clutter the code just to gain testability. |
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I have a client whose codebase isn't well integrated into the IDE (eclipse) and so the code is essentially uncompilable on the desktop. I can't get the unit tests I write to work without major work, which I can't justify yet. So I work on fixing the project build path slowly, when I get the time. |
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I think the two biggest reasons for the absolute failure of our unit test environment on my team were: 1) No permission to add the unit tests as a post-build step for each library, ergo nobody ever ran them after the initial implementation, ergo they no longer compiled after a few months. 2) People mistaking the unit tests for test apps with all kinds of database connections, file streaming, etc., leading to extremely long running times that encouraged everyone to exclude everyone else's tests except their own from the executables. |
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The most common reason it doesn't work is because the unit testing code is treated as a third class citizen. That is the code is absolutely not written to be maintainable which quickly becomes a ball and chain. As more and more unit tests are added, older ones become obsolete and aren't fixed. Which means you end up with a mess of test code that's virtually useless and doesn't really test anything. But there's lots of it! The key to success is to treat your unit testing code with the same respect as your production. Not any more, not any less, just the same. As well, always decouple the testing code from the production code. As soon as you start adding testing code in your production code (rather than in your testing code), then you're asking for trouble... |
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when I'm programming some algorithmic or mathematic stuff which is hard enough to design. I create my test first which force me to think "what I want to do" ? Then I create my solution, so I'm sure my job is done when my test pass. I no longer need to create a console application, or step in my code through debugger(or juste a little). Unless my code is published (ie is a framework for public use), if the problem is trivial, I do not make unit test (if you are a good developper your code must be always trivial). Sometimes, I do some test on my interfaces, so classes which inherit my interface have automatically some test to see if it's well implemented. (for example, if you implement IList on your class, make sure that any not null Add, increase Count by 1) But I think unit testing are a really good documentation (I've learn many thing in the Unity framework by looking their test suite). I see unit testing like an extension of compiler errors. |
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Because the developers did not understand requirements and specification of the business logic well enough to design correct test cases. It was especially hard for the developers to determine corner cases such as expected behaviors that make sense in business around the boundary condition. So most efforts have been spent on passing the specified threshold of the coverage. |
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I love unit-testing. It has saved me a lot of trouble. But there are some situation where it doesn't apply, and in my case was when I wrote a relatively complex driver. For simpler driver, I could create a mock object, which simulate the device's response. But there are some devices, eg. Network Processor (NP), where it doesn't work well. Of course we can simulate the NP, but the higher the layer you simulate it, the less effective the unit-test will be. Some NP has a pretty good simulation, but I would call it an integration test, rather than unit-test, since there are so many layer of abstraction before I could test a specific object. |
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I think unit testing can fail when people treat it as a first class citizen, which is (seemingly to me) opposite the thinking of many TDD folk. By this I mean, that unit tests over time have their own maintenance costs, and bring people to fear re-factoring things because they would also have to refactor tests. Being able to intelligently refactor code with the least effort possible is to me of the highest importance. If a unit test is starting to get in the way of needed changes to the real code, or taking up too much time maintaining at the expense of project development, get rid of it. You can bring something like it back later which will probably be better thought out anyway. This is especially the case in the transition from a project undergoing heavy development, to maintenance - this is exactly when many tests start to become more a burden than a boon. In these cases you can think of the unit tests you have built as scaffolding around a building under construction, to be discarded as better ways of working on the building are brought in and day to day challenges appear that demand new tests. |
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It does not work because:
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I wrote a few tests for my C++ code recently, which were just short int Would you call that unit test, too? Should I switch to one of the test frameworks? What would the advantages be for me? |
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I have had 3 major shifts in the goal posts for the project. The original scope is very fluid due to customer business model changing. Unit tests written and re written during the first two changes were dropped in the third iteration due to time constraints and code base being largely rewritten. I will seriously re-consider using unit tests in my next project without a VERY FIRM specification |
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Unit testing, which I was in favour of because it was an automated form of the regression testing I'd been using for years, failed on one significant project because nobody could tell me how to do it for an embedded, soft real-time environment. I was developing stereoscopic imaging for QuickTime and had no idea how to use unit testing or how to fake the environment. With lots more experience, particularly working for a CTO who had a strong background in unit testing image processing applications, I would now at least write unit tests for the core algorithms by refactoring the code to be able to invoke them in isolation. The creative step, it embarrasses me to say, that I didn't think to take was having image files saved of acceptable results and comparing with them. It would still have required a lot of infrastructure being written, to populate data structures in the manner being filled by QuickTime and so I'm still not 100% convinced unit testing would have been suited to that project. In summary - if you're embedded in a complex environment with rich data, mocking may be too hard. |
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When working with a team the most difficult part with TDD is to get your other team mates to do TDD. Making a "cowboy coder" believe in TDD is daunting daunting task. They push back on TDD just because they are down right lazy & they just don't believe in writing loosely coupled code. TDD for the project crashed and burned because of the existence of lazy cowboy coders..!! |
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Having to deal with bloated application servers and other "Enterprise" software with its claws in everything that makes it hard to write independent tests. |
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When I started out, I bumped into isolation problems when using database access and WCF. I didn't know about mocking frameworks (like Rhino or Typemock) back then, so I didn't use one, instead I did manual mocks. This prooved time consuming and complicated so I started using mocking frameworks. |
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The main reasons why Unit testing hasn't worked for me on the projects I have been on.
These are all of my reason. I am a big believe in unit testing and I personally will not write a piece of application code without a unit test. There is a fine art to writing test so that they don't take up most of your development time. |
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I've been on a number of projects that employed unit testing. To a number of these projects, it added tremendous value. To others, it added little appreciable value. In no case, however, would I say the fault was with the concept of unit testing, however. The cases in which an attempt at adding unit tests was either unsuccessful (meaning they didn't end up being written) or that they added little appreciable value were due to two primary factors:
* The tests were either written after all the code had been written, or we were trying to write tests for new code, but that was based legacy code which had been originally developed without unit tests. Such code almost invariabily is written in a fashion that maes writing unit tests extremely difficult. Typically it has a lot of stuff going on with components that all heavily depend on eachother and don't expose the things necessary to write tests. Overcoming this is a huge, huge undertaking and not something that was easily supported given the time and cost constraints of these projects In every project in which meaningful unit tests were written from the beginning, helping define and inform the code base, they added tremendous value. I've also had limited success on adding them to existing apps that previously lacked them, but this involved a great buy in from managment for the extra time required to refactor the code to accomodate them. In these cases, we didn't try to test the old code, only to refactor as little as possible so that the new code could have tests written for it. There is an important distinction there. |
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My guess is that unit testing often didn't work because it wasn't introduced at the beginning of a project.
This is why adding unit tests to an existing body of code is often a very risky activity. If the code isn't written in a test friendly manner, refactoring it into a test friendly form is very difficult, because there are no unit tests. This chicken and egg problem can make progress very slow. Solution: the first step is not to add unit tests. My suggestion is that before adding unit tests to a legacy project, you should create a good functional test suite. This is easier to do, since functional tests are black-box in nature; test-friendliness of the production code is less of an issue. Once you have good functional test coverage, you can tease separate concerns apart into domain layers (possibly rewriting a component here or there), while being confident that the application didn't break as a result of your changes. As you go, you write unit tests at the seams where you split components (or for rewritten components, TDD the whole thing). Once this process is complete you will be left with a structure that is much easier to add unit tests to. Characteristics of a good functional test: Good functional tests are:
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I'm in the "it didn't work for me because we didn't use it" (all of our apps our intranet web apps - ASP.net) camp. I also don't know nearly enough about it. Enough to know I want it. I've been learning MVC and I can appreciate that part of the sell is test coverage. I pushed a little for our next project to use MVC but didn't get much in the way of positive feedback. I'm hoping to make Unit Testing a bigger focus once I'm more comfortable with MVC. |
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It's helped on all the projects I've used it on, but the "challenges" have been:
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In my opinion, it is very sensitive on personalities + skills of programmers. You should check quality of tests and check what your team really does. E.g. I have seen this kind of tests for whole project in team pretending development with SCRUM & TDD:
This is not failure of TDD, but I wanted to present how "unit tests" could be just next way how to throw money from window. |
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I can't say that there's ever been a time that unit testing did not work out for a project. There have been times (currently ongoing!) that portions of code will not be unit tested because the authors of the code did not care and made things hard to test. But in cases like this I just find a way around it and I cover my own code. This always works for me. At release time I go home on time knowing my code works and the developers with the flaky code are fiddling around with something here and there until 10pm trying to fix things they didn't know were broken but QA noticed. |
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