While, I am all for unit testing, I
sometimes wonder if this form of test
first development is really beneficial...
Small, trivial tests like this can be the "canary in the coalmine" for your codebase, alerting of danger before it's too late. The trivial tests are useful to keep around because they help you get the interactions right.
For example, think about a trivial test put in place to probe how to use an API you're unfamiliar with. If that test has any relevance to what you're doing in the code that uses the API "for real" it's useful to keep that test around. When the API releases a new version and you need to upgrade. You now have your assumptions about how you expect the API to behave recorded in an executable format that you can use to catch regressions.
...[I]n a real process, you have 3-4
layers above your code (Business
Request, Requirements Document,
Architecture Document), where the
actual defined business rule (Discount
Price is Price - Discount) could be
misdefined. If that's the situation,
your unit test means nothing to you.
If you've been coding for years without writing tests it may not be immediately obvious to you that there is any value. But if you are of the mindset that the best way to work is "release early, release often" or "agile" in that you want the ability to deploy rapidly/continuously, then your test definitely means something. The only way to do this is by legitimizing every change you make to the code with a test. No matter how small the test, once you have a green test suite you're theoretically OK to deploy. See also "continuous production" and "perpetual beta."
You don't have to be "test first" to be of this mindset, either, but that generally is the most efficient way to get there. When you do TDD, you lock yourself into small two to three minute Red Green Refactor cycle. At no point are you not able to stop and leave and have a complete mess on your hands that will take an hour to debug and put back together.
Additionally, your unit test is another
point of failure...
A successful test is one that demonstrates a failure in the system. A failing test will alert you to an error in the logic of the test or in the logic of your system. The goal of your tests is to break your code or prove one scenario works.
If you're writing tests after the code, you run the risk of writing a test that is "bad" because in order to see that your test truly works, you need to see it both broken and working. When you're writing tests after the code, this means you have to "spring the trap" and introduce a bug into the code to see the test fail. Most developers are not only uneasy about this, but would argue it is a waste of time.
What do we gain here?
There is definitely a benefit to doing things this way. Michael Feathers defines "legacy code" as "untested code." When you take this approach, you legitimize every change you make to your codebase. It's more rigorous than not using tests, but when it comes to maintaining a large codebase, it pays for itself.
Speaking of Feathers, there are two great resources you should check out in regard to this:
Both of these explain how to work these types of practices and disciplines into projects that aren't "Greenfield." They provide techniques for writing tests around tightly coupled components, hard wired dependencies, and things that you don't necessarily have control over. It's all about finding "seams" and testing around those.
[I]f the discount price is wrong, the
test team will still find the issue,
how did unit testing save any work?
Habits like these are like an investment. Returns aren't immediate; they build up over time. The alternative to not testing is essentially taking on debt of not being able to catch regressions, introduce code without fear of integration errors, or drive design decisions. The beauty is you legitimize every change introduced into your codebase.
What am I missing here? Please teach
me to love TDD, as I'm having a hard
time accepting it as useful so far. I
want too, because I want to stay
progressive, but it just doesn't make
sense to me.
I look at it as a professional responsibility. It's an ideal to strive toward. But it is very hard to follow and tedious. If you care about it, and feel you shouldn't produce code that is not tested, you'll be able to find the will power to learn good testing habits. One thing that I do a lot now (as do others) is timebox myself an hour to write code without any tests at all, then have the discipline to throw it away. This may seem wasteful, but it's not really. It's not like that exercise cost a company physical materials. It helped me to understand the problem and how to write code in such a way that it is both of higher quality and testable.
My advice would ultimately be that if you really don't have a desire to be good at it, then don't do it at all. Poor tests that aren't maintained, don't perform well, etc. can be worse than not having any tests. It's hard to learn on your own, and you probably won't love it, but it is going to be next to impossible to learn if you don't have a desire to do it, or can't see enough value in it to warrant the time investment.
A couple people keep mentioned that
testing helps enforce the spec. It has
been my experience that the spec has
been wrong as well, more often than
A developer's keyboard is where the rubber meets the road. If the spec is wrong and you don't raise the flag on it, then it's highly probable you'll get blamed for it. Or at least your code will. The discipline and rigor involved in testing is difficult to adhere to. It's not at all easy. It takes practice, a lot of learning and a lot of mistakes. But eventually it does pay off. On a fast-paced, quickly changing project, it's the only way you can sleep at night, no matter if it slows you down.
Another thing to think about here is that techniques that are fundamentally the same as testing have been proven to work in the past: "clean room" and "design by contract" both tend to produce the same types of "meta"-code constructs that tests do, and enforce those at different points. None of these techniques are silver bullets, and rigor is going to cost you ultimately in the scope of features you can deliver in terms of time to market. But that's not what it's about. It's about being able to maintain what you do deliver. And that's very important for most projects.