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I have recently (in the last week) embarked on an experiment wherein I attempt to code a new feature in a project I'm working on using TDD principles. In the past, our approach has been a moderately-agile approach, but with no great rigour. Unit testing happens here and there when it's convenient. The main barrier to comprehensive test coverage is that our application has a complicated web of dependencies. I picked a feature that was convenient to wall off to try my experiment on; the details aren't important and probably commercially sensitive, suffice to say that it's a simple optimisation problem.

Thus far I have found that:

  • TDD for me seems to encourage rambling, non-obvious designs to take shape. The restriction that one must not write code without a test tends to block opportunities to factor out functionality into independent units. Thnking up and writing tests for that many features simultaneously is too difficult in practice
  • TDD tends to encourage the creation of 'God Objects' that do everything - because you've written lots of mocking classes for class x already, but few for class y, so it seems logical at the time that class x should also implement feature z instead of leaving it to class y.
  • Writing tests before you write code requires that you have a complete understanding of every intricacy of the problem before you solve it. This seems like a contradiction.
  • I haven't been able to get the team on-side to start using a mocking framework. This means that there is a proliferation of cruft created solely to test a particular feature. For every method tested, you'll tend to need a fake whose only job is to report that the class under test called whatever it's supposed to. I'm starting to find myself writing something resembling a DSL purely for instantiating the test data.
  • Despite the above concerns, TDD has produced a working design with few mysterious errors, unlike the development pattern I'm used to. Refactoring the sprawling mess that results however has required that I temporarily abandon the TDD and just get it done. I'm trusting that the tests will continue to enforce correctness in the method. Trying to TDD the refactoring exercise I feel will just proliferate more cruft.

The question then, is "Does anybody have any advice to reduce the impact of the concerns listed above?". I have no doubt that a mocking framework would be advantageous; however at present I'm already pushing my luck trying something that appears to merely produce rambling code.

edit #1:

Thank you all for your considered answers. I admit that I wrote my question after a few friday-evening beers, so in places it's vague and doesn't really express the sentiments that I really intended. I'd like to emphasise that I do like the philosophy of TDD, and have found it moderately successful, but also surprising for the reasons I listed. I have the opportunity to sleep on it and look at the problem again with fresh eyes next week, so perhaps I'll be able to resolve my issues by muddling through. None of them are non-starters, however.

What concerns me more is that some of the team members are resistant to trying anything that you could call a 'technique' in favour of 'just getting it done'. I am concerned that the appearance of cruft will be taken as a black mark against the process, rather than evidence that it needs to be done completely (i.e. with a mocking framework and strong DI) for best results.

RE "TDD doesn't have to mean test-first": (womp, btreat)

The 'golden rule' in every text I've found on the issue is "Red, Green, Refactor". That is:

  • Write a test that MUST fail
  • Write code that passes the test
  • Refactor the code so that it passes the test in the neatest practical way

I am curious as to how one imagines doing Test-Driven Development without following the core principle of TDD as originally written. My colleague calls the halfway house (or a different and equally valid approach, depending on your perspective) "Test-Validated Development". In this case I think coining a new term - or possibly stealing it off somebody else and taking credit for it - is useful.

RE DSLs for test data: (Michael Venable)

I'm glad you said that. I do see the general form being increasingly useful across the scope of the project, as the application in question maintains a pretty complicated object graph and typically, testing it means running the application and trying things out in the GUI. (Not going to give the game away for commercial sensitivity reasons above, but it's fundamentally to do with optimisation of various metrics on a directed graph. However, there are lots of caveats and user-configurable widgets involved.)

Being able to set up a meaningful test case programmatically will help in all manner of situations, potentially not limited to unit testing.

RE God Objects:

I felt this way because one class seemed to be taking up most of the feature-set. Maybe this is fine, and it really is that important, but it raised a few eyebrows because it looked just like older code that wasn't developed along these lines, and appeared to violate SRP. I suppose it's inevitable that some classes will function primarily as seams between numerous different encapsulated bits of functionality and others will seam only a few. If it's going to be that way, I suppose what I need to do is purge as much of the logic as possible from this apparent God Object and recast its behaviour as a junction point between all the factored-out parts.

(to the moderators: I've added my responses to posts up here because the comment field isn't long enough to contain the detail I'd like.)

edit #2 (after about five months):

Well, I felt it might be nice to update with some more thoughts after mulling the issue over for a while.

I did end up abandoning the TDD approach in the end, I'm sorry to say. However, I feel that there are some specific and justified reasons for this, and I'm all ready to continue with it the next time I get an opportunity.

A consequence of the unapologetic refactoring mentality of TDD is that I was not greatly upset when, upon taking a brief look at my code, the lead dev declared that the vast majority of it was pointless and needed to go. While there is a twinge of regret at having to cast off a huge swathe of hard work, I saw exactly what he meant.

This situation had arisen because I took the rule of 'code to an interface' literally, but continued to write classes that tried to represent reality. Quite a long time ago I first made the statement:

Classes should not attempt to represent reality. The object model should only attempt to solve the problem at hand.

...which I have repeated as often as I can since; to myself and to anybody else who will listen.

The result of this behaviour was an object model of classes that performed a function, and a mirroring set of interfaces which repeated the functionality of the classes. Having had this pointed out to me and after a brief but intense period of resistance, saw the light and had no problem with deleting most of it.

That doesn't mean that I believe 'code to an interface' is bunk. What it does mean is that coding to an interface is primarily valuable when the interfaces represent real business functions, rather than the properties of some imagined perfect object model that looks like a miniature copy of real life, but doesn't consider its sole meaning in life to be answering the question you originally asked. The strength of TDD is that it can't produce models like this, except by chance. Since it starts with asking a question and only cares about getting an answer, your ego and prior knowledge of the system aren't involved.

I'm rambling now, so I'd do best to finish this and just state that I am all raring to go at trying TDD again, but have a better overview of the tools and tactics available and will do my best to decide how I want to go about it before jumping in. Perhaps I should transplant this waffle to a blog where it belongs, once I have something more to say about it.

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  • I am currently reading: Growing Object-Oriented Software Guided by Tests. Excellent read on the subject. Jun 3, 2011 at 18:33
  • 1
    I have Professional Test-Driven Development with C#, which some comments have suggested is something of a derivative work. I picked it because it was specific to C# and uses some tools I've looked at before (NUnit, Ninject).
    – Tom W
    Jun 4, 2011 at 10:00
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    Osherove's The Art Of Unit Testing is quite good, although it's not specific to TDD-only.
    – TrueWill
    Jun 5, 2011 at 1:30
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    Regarding your edits: The one overarching principle you should follow is "YAGNI" - "You Ain't Gonna Need It". Every line of code you write should contribute to the furtherance of the system as it exists right now. Never build things you "might" need later, because odds are you won't, and even if you do, yo might still need to change what you thought you would need to make it work in the way you now DO need it to. Coding to interfaces is a good "ivory tower" practice, but extracting an interface using a tool like ReSharper is a one-minute operation, so in reality, do it when you NEED it.
    – KeithS
    Nov 9, 2011 at 22:08

7 Answers 7

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TDD isn't mocking. Sometimes, mocking facilitates development of tests, but if in your first pass at TDD you're starting out with mocks, you are probably not getting the best possible introduction to the practice.

TDD does not, in my experience, lead to god objects; quite the opposite. TDD leads me to classes that do fewer things and interact with fewer other classes, fewer dependencies.

The restriction that one must not write code without a test tends to block opportunities to factor out functionality into independent units. Thnking up and writing tests for that many features simultaneously is too difficult in practice.

This really does not sound right to me. You are not trying to write tests for many features simultaneously; you are trying to write one test, for one feature, at a time. When that test is written, you make it pass. When it's passing, you make it clean. Then you write your next test, possibly driving further development of the same feature, until the feature is done-done, and clean. Then you write the next test for your next feature.

Writing tests before you write code requires that you have a complete understanding of every intricacy of the problem before you solve it. This seems like a contradiction.

Again: write one test. That requires a complete understanding of one aspect of one feature. It requires it, and it expresses it concretely, in executable form.

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Just as a blanket response to the problems you're having, it sounds like you haven't been using TDD very long, you may not be using any tools that may help with the TDD process, and you're putting more value on the line of production code than the line of testing code.

More specifically to each point:

1: TDD encourages a design that does no more or less than what it has to, aka a "YAGNI" (You ain't gonna need it) approach. That's "do it light". You have to balance that with "do it right", which is to incorporate the proper SOLID design concepts and patterns into the system. I take the following rule of thumb: On the first usage of a line of code, make it work. On the second reference to that line, make it readable. On the third, make it SOLID. If a line of code is only used by one other line of code, it doesn't make much sense at that time to put in a fully SOLID design, breaking the code out into an interface-abstracted class that can be plugged in and swapped out. However, you have to have the discipline to go back and refactor code once it starts gaining other uses. TDD and Agile design is ALL about refactoring. Here's the rub; so is Waterfall, it just costs more because you have to all the way back to the design phase to make the change.

2: Again, this is discipline. Single Responsibility Principle: an object should do one specific thing and be the only object in the system that does that thing. TDD does not permit you to be lazy; it just helps you find out where you CAN be lazy. Also, if you need to create a lot of partial mocks of a class, or a lot of highly-featured full mocks, you're probably architecting the objects and tests incorrectly; your objects are too big, your SUT has too many dependencies, and/or the scope of your test is too broad.

3: No it doesn't. It requires you to think about what you will need as you write your test suite. Here's where refactoring assistants like ReSharper (for MSVS) really shine; Alt+Enter is your "do it" shortcut. Let's say you are TDDing a new class that will write out a report file. The first thing you do is new up an instance of that class. "Wait", ReSharper complains, "I can't find that class!". "So create it", you say, hitting Alt+Enter. And it does so; you now have an empty class definition. Now you write a method call up in your test. "Wait," ReSharper cries, "that method doesn't exist!", and you say "then create it" with another press of Alt+Enter. You've just programmed-by-testing; you have the skeletal structure for your new logic.

Now, you need a file to write to. You start by typing in a filename as a string literal, knowing that when RS complains you can simply tell it to add the parameter to the method definition. Wait, that's not a unit test. That requires the method you're creating to touch the file system, and you then have to get the file back and go through it to make sure it is correct. So, you decide to pass a Stream instead; that allows you to pass in a MemoryStream, which is perfectly unit-test-compatible. There's where TDD influences design decisions; in this case, the decision is to make the class more SOLID up front so it can be tested. The same decision gives you the flexibility to pipe the data anywhere you want in the future; into memory, a file, over the network, a named pipe, whatever.

4: An Agile team programs by agreement. If there is no agreement, that's a block; if the team is blocked, no code should be written. To resolve the block, the team lead or the project manager makes a command decision. That decision is right until proven wrong; if it ends up wrong, it should do so quickly, so the team can go in a new direction without having to backtrack. In your specific case, have your manager make a decision - Rhino, Moq, whatever - and enforce it. Any of that will be a thousand percent better than hand-writing testing mocks.

5: This should be the real strength of TDD. You have a class; its logic is a mess, but it is correct and you can prove it by running the tests. Now, you start refactoring that class to be more SOLID. If the refactoring doesn't change the external interface of the objects, then the tests don't even have to change; you're just cleaning up some method logic that the tests don't care about except that it works. If you DO change the interface, then you change the tests to make different calls. This requires discipline; it is very easy to just gut a test that doesn't work anymore because the method being tested doesn't exist. But, you have to make sure that all the code in your object is still adequately exercised. A code coverage tool can help here, and it can be integrated into a CI build process and "break the build" if the coverage isn't up to snuff. However, the flip side of coverage is actually twofold: first, a test that adds coverage for coverage's sake is useless; every test must prove that code works as expected in some novel situation. Also, "coverage" is not "exercise"; your test suites may execute every line of code in the SUT, but they may not prove that a line of logic works in every situation.

All that said, there was a very powerful lesson in what TDD will and won't do given to me when I first learned it. It was a coding dojo; the task was to write a Roman numeral parser that would take a Roman numeral string and return an integer. If you understand the rules of Roman numerals, this is easy to design up front and can pass any test given. However, a TDD discipline can, very easily, create a class that contains a Dictionary of all the valued specified in the tests and their integers. It happened in our dojo. Here's the rub; if the actual stated requirements of the parser were that it handled only the numbers we tested, we did nothing wrong; the system "works" and we didn't waste any time designing something more elaborate that works in the general case. However, us new Agilites looked at the morass and said this approach was stupid; we "knew" it had to be smarter and more robust. But did we? This is TDD's power and its weakness; you can design nothing more or less than a system that meets the stated requirements of the user, because you should not (and often cannot) write code that doesn't meet or prove some requirement of the system given to you by the person paying the bills.

Although I do quite a bit of post-development test writing, there is a major problem with doing so; you have already written the production code, and hopefully tested it in some other manner. If it fails your test now, who's wrong? If it's the test, then you change the test to assert that what the program is currently outputting is correct. Well that's not much use; you just proved that the system outputs what it always has. If it's the SUT, then you have bigger problems; you have an object you have already fully developed that doesn't pass your new test, and now you have to tear it open and change stuff to make it do so. If that's your only automated test of this object to date, who knows what you'll break to pass this one test? TDD, instead, forces you to write the test before incorporating any new logic that will pass that test, and as a result you have regression-proof code; you have a suite of tests that prove that the code meets current requirements, before you start adding new ones. So, if existing tests fail when the code is added, you broke something, and you shouldn't commit that code for a release until it passes all the tests that were already there AND all the new ones.

If there's a conflict in your tests, that's a block. Say you have a test that proves a given method returns X given A, B, and C. Now, you have a new requirement, and in developing the tests you discover that now the same method must output Y when given A, B, and C. Well, the prior test is integral to proving the system worked the old way, so changing that test to prove it now returns Y may break other tests built on that behavior. To resolve this, you have to clarify that either the new requirement is a change in behavior from the old one, or that one of the behaviors was incorrectly inferred from the acceptance requirements.

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  • I've revisited this topic after some time and re-reading the responses, this one most matches what I've thought to myself about the topic. I suppose that makes it a 'favourite' answer, although how much that applies in a CW-type question is up for debate. I've covered this in more detail as an edit to the main question if you're interested.
    – Tom W
    Nov 9, 2011 at 19:19
  • KeithS, I quoted you in my illustrative answer to a related question. Could you comment on my statement that "The ideal of 100% blackbox coverage is a fantasy"?
    – Inigo
    Aug 5, 2022 at 15:09
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I would very much recommend continuing for a while on your approach, and then reading Gerard Mezaros' book, xUnit Test Patterns, and trying to apply his guidelines. TDD is a long and winding road and it takes quite a while to start seeing the benefits. My short responses to some of your concerns are below:

  • TDD does encourage non-obvious designs. Often these are better than the obvious ones. Some of the katas you can find online show this feature - where you might have imagined a whole set of classes TDD results in one or two with very little code. I don't agree that it blocks out opportunities to factor out bits - TDD's mantra is red, green, refactor. I think the secret here is not thinking about all the features at once - stick to one at a time from a high level before you even begin thinking about how it's going to be accomplished by classes.
  • That might be the case, but then when you have your refactor hat on you can always refactor your big class into multiple classes, safe in the knowledge that your tests will pick up any errors in your refactoring. TDD encourages refactoring at every opportunity (whenever you have a green light) so god objects shouldn't be the result.
  • I disagree with this one. All TDD requires is that you know one thing you need and write that test. Then you get it to pass. Then you think of one other thing you need. The various katas illustrate this pretty well. Kent Beck's original book on TDD also illustrates this process.
  • Mocking is difficult, this is true. Also, a DSL for setting up test data is a great idea :)
  • As far as I know, by definition refactoring doesn't require more tests. You refactor under a green bar - which means you never write tests for your refactoring. It's possible that a refactoring leads to the creation of a new class at which point you might want to create a new test class to test your new class and move tests one at a time to the new test class, but generally refactoring is done without the addition of new tests.
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  • 2
    Big, big +1, especially for "TDD is a long and winding road". @Tom - how good were you at class design after your first week of OOP? It takes time and practice, and there is always more to learn.
    – TrueWill
    Jun 3, 2011 at 17:24
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    @TrueWill: I daren't look at the code I wrote for my university dissertation, if I can even find it. I picked up a book on C# one week and started work the next. It was an almost unmitigated disaster.
    – Tom W
    Jun 4, 2011 at 9:52
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I think you're falling under the common misconception that TDD always means "test first". Test-first development is not necessarily the same thing as TDD. TDD is a software engineering methodology that focuses on writing testable code. There is no strict requirement to always write tests first in order to practice TDD.

Let me break down your arguments and hopefully I can help clear up some of your blocks!

TDD for me seems to encourage rambling, non-obvious designs to take

shape. The restriction that one must not write code without a test tends to block opportunities to factor out functionality into independent units. Thnking up and writing tests for that many features simultaneously is too difficult in practice

TDD is about trying to write testable code. The point of writing tests first is so that you can skeleton out what your classes are doing and make sure that you design those classes so that they are testable.

What your tests shouldn't be doing is locking you down or forcing your design. Tests are mutable - if you write a test and later on it's stopping you from refactoring something, just delete the test. You cannot be writing your working code to take into account tests that are already written. Tests are there to support your code, not the other way around.

TDD tends to encourage the creation of 'God Objects' that do

everything - because you've written lots of mocking classes for class x already, but few for class y, so it seems logical at the time that class x should also implement feature z instead of leaving it to class y.

I haven't been able to get the team on-side to start using a mocking

framework. This means that there is a proliferation of cruft created solely to test a particular feature. For every method tested, you'll tend to need a fake whose only job is to report that the class under test called whatever it's supposed to. I'm starting to find myself writing something resembling a DSL purely for instantiating the test data.

Mocking should really be done with a framework to remove the burden of writing all these mocking classes. Again, it sounds like you're treating your tests as static, and writing your real code to accommodate existing tests. This isn't a TDD problem you're facing - this is a management problem. It's your team that is creating the cruft, not the TDD process. Just moving a feature to a class where it doesn't belong is a conscious choice out of convenience, and not proper engineering. If the mocking is the burden, then that's the problem that's leading to lazy choices.

Writing tests before you write code requires that you have a complete

understanding of every intricacy of the problem before you solve it. This seems like a contradiction.

Tests should evolve fluidly with your code. There is no requirement to understand everything before you start writing tests for it - the tests are supposed to assist you in creating your design so that you create good, testable classes. If you have to go off and build real code for a few days and then come back and update your tests, the TDD police aren't going to bust down your door. The point is that when you are building your classes, you are thinking about how you can test them. Writing tests at the same time is great, but there are times when you won't know enough to write them yet. Tests need to be working with you, not against you.

Remember - "test first" is just one way of doing TDD. It is not the only way, and in fact, I've never met anyone who ever practices "test first" for every piece of code they write.

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I am personally not a fan of writing tests before the code for the reasons you named. In practice, I prefer to follow a methodology of writing some code, writing the tests for the code, make sure the tests run and then commit both code and tests. This avoids a number of the problems you mentioned while also maintaining some of the benefits that TDD is intended to promote. The code is written in a way to facilitate the tests which are ultimately going to follow, but the code drives the tests rather than vice versa.

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  • In my experience code written test-last tends to be more coupled, making it more difficult to write the tests. There is also a risk that the tests may never be written due to time crunches.
    – TrueWill
    Jun 3, 2011 at 17:19
  • The discipline to write the tests has to be there whether you write them before or after the code. Overall though, one has to go with the best methodology that works for them, be it test-first or test-last.
    – btreat
    Jun 3, 2011 at 17:34
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I think what you're feeling is normal when starting with TDD. Your code has to be written following certain conventions to support TDD (like dependency-injection) and changing your code-writing style to support it happens through habit over time.

I'm not surprised that you find yourself writing a DSL for your testing, and I don't think that's a bad thing. It makes the test easier to read, and that will go a long way in helping maintain the tests. I would expect it to make it easier for your co-workers to add their own tests as well. Lately, I find myself using a fluent interface to make the test code readable and to factor common logic into one place.

Example:

  LoadModelSetupFromTestFileCollection("VariableSetToScript.xml");
  AssertVariable("variable").HasValue(3);

Testing every function of your code is a lot of work, but I don't know of another way to confidently say that you know all of your code works. And having an automated set of tests really pays off in the long run as future code changes break existing code.

The best suggestions I can give:

  • Choose what a unit is. It need not be a class. A small module (with several classes) can serve as a unit under test. Doing this reduces the need for mocking since you test the group of classes at once. The only disadvantage is that debugging is more difficult, but your tests are just as effective.

  • I like writing tests before code, but sometimes, you really need to explore ideas first. It's fine to do more "exploratory" code writing when needed and write the tests later. However, I suspect that most of the time, you have a good idea of the functions you'll need before your begin writing the code.

  • Factor your test code into functions. I've made code changes that barely impacted production code, but caused rippling effects through test code. Well-factored test codes fixes this and helps maintenance.

  • Test-code that resembles a DSL-like language goes a long way in maintenance and makes creating new tests easier, IMO.

I think your on the right track. If your having a hard time convincing people to mock, then don't require it. If you feel like testing every function is too much, then test the functions most likely to fail. Start small. As the team gets comfortable with it, they will hopefully start creating more tests. In any case, having some tests is better than no tests at all.

1

To begin with, try reviewing your method against a reference book (e.g. Beck's book). When you're learning something - follow the rule without questioning. A common mistake to adapt a method prematurely without understanding the implications of your changes.
e.g. (as Carl posted) the books I've read advocate writing one unit test at a time and watching it fail before filling in the implementation.

Once it passes, you need to "refactor". Small word but big implications - its the make-or-break step. You improve your design in a flurry of little steps. However TDD is no substitute for experience... which stems from practice. So an experienced programmer with/without TDD may still end producing better code than a novice with TDD - because he/she knows what to look out for. So how do you get there ? You learn from the people who have been doing it a while.

  • I'd recommend Beck's TDD By Example book first. (Freeman and Pryce's GOOS book is good but you'd get better value from it once you've been doing TDD for a while.)
  • For tapping into the Guru's mind, check out Clean Code by Bob Martin. It gives you simple heuristics to evaluate your choices against. I'm at chapter 3 ; I've even setup a group-reading exercise @ work. As the book says, Clean code is equal measures of discipline, technique + "code-sense".

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