I used to think I was good at programming. Since I started doing TDD in 1999, I’ve come to discover that I am not so good. I make a lot of little mistakes. Copy-paste is a specifically error-prone activity for me. When I copy and paste and N changes are needed, on a good day I can usually get N-1 on the first try.
When I’m almost done, I get a little careless. I’m not the only one! Take a look at this analysis of the Last Line Effect. He show lots of copy-paste bug examples from real code from products you know. In the article the author also mentions this may not be just programming.
mountain-climbers often fall off in the last few dozen meters of their ascent. Not because they are tired; they are simply too joyful about almost reaching the top – they anticipate the sweet taste of victory, get less attentive, and make some fatal mistake. I guess something similar happens to programmers.
I’ve watched a lot of programmers program in training context. They are not so good at programming either. Little mistakes are the norm, not the exception. But programmers generally don’t know how error prone their work is, because the feedback loop is too long pre-TDD. TDD puts the mistakes in your face so you can find them before they hatch into bugs.
With the mistakes in your face, you can certainly see them and fix them. You might, though awareness, start to do them less as you work on your weakness.
Virtually every line of code is written in response to some failure. It often is a test failure, but might be a compilation failure, or a web page that does not exist.
Through my 16 years of practicing TDD, I have come to discover that establishing cause and effect is critical to getting every line of code right. I’ve done most my TDD in embedded C and C++.
Over the last couple years, with the help of a couple friends, I built my ruby on rails website. I did not know ruby (or rails obviously). I know it a little bit now. I used to follow the several step procedures to bring up a new feature on my website. I would do the 3–6 steps outlined, and my new page would not come up. I’d spend considerable time trying to find the mistake and eventually get the thing to work. It would have involved several changes. The next day I would likely run into another problem because one of the changes was not really needed and I broke something else. In hindsight, I made changes without establishing cause and effect. My new feature started working often due to offsetting defects.
I started treating each step in the procedure as a test. For example If I tried to bring up a web page, that did not exist, what error would I get? I would look for a way to make one of the changes in the several step procedure and get a different error message. Getting new errors was not, but was it the right error? I learned to get the right error that moved my code in the right direction. I establish cause and effect. Cause and effect?! I am programming as an engineer. What is the problem? Can I impact that problem positively, and move my code in the right direction. Sometimes this cause and effect involves TDD tests, other times it is wiring code that once I get it right, I leave it alone
I just found this definition of engineering “skillful or artful contrivance; maneuvering.” I’d say that is the ideal I strive for in building software and a business. Yes, TDD effects how I run my business. TDD is built on cause and effect. Engineering! I doubt I would appreciate the cause and effect approach to programming (and life) if it were not for TDD.
Have you had a hard time figuring out where to start with Test-Driven Development. What if ZOMBIES could help you build code that does exactly what you think it is supposed to do? What if ZOMBIES at the same time help you to build a test harness that can help you keep your code clean and behaving properly for a long and useful life? What if ZOMBIES could help!
I’m not talking about those zombies! ZOMBIES is an acronym.
Have you written unit tests only later to find they slow you down because your changes cause a lot of test breakage? You think, these tests are not living up to the promises I heard. So you toss the tests and go back to business as usual.
Hey, not so fast. Maybe its not test in general, but your tests or your code. The first project I used TDD on in 1999/2000 we ran into this problem. Some were ready to give up. But I wanted the tests to work and looked for what was wrong. In our excitement we kept copying, pasteing and tweaking the test cases. They were an ugly (in hindsite) mass of duplication. Small changes made for ripple effects through the tests. But I could see, it was our fault.
Someone on Quora asked me “How do you make unit tests less brittle”. Here is a more complete answer based on having written my own bad tests and seen many learners of TDD and unit testing go the wrong direction with their designs and tests.
Being one of the people that participated in the creation of the Agile Manifesto, I find myself very disappointed by the reaction of engineers to the question “Are you practicing Agile?” Their shoulders drop. They start to slowly shake their heads. They mumble; they grumble. They tell me agile is horrible. I ask why. Reasons I head most often are:
I spend the day updating the Fake Function Framework, Mike Long’s (@meekrosoft) creation. With my client last week, one of the engineers had some problems with Visual Studio (don’t we all) and the Fake Function Framework (a.k.a FFF). I promised to integrate the changes into the FFF. The FFF is created with a ruby script, but you don’t have to care about that unless you have functions to fake that have more than 10 parameters. But anyway, I spent the day updating and reviewing the ruby script that generates the FFF.
Upper management actually asked me to share my TDD experience as well & so I just published an article internally to our Embedded Software newsletter describing how TDD helped my project. Here’s the summary from that article (I think the dates really say it all):
Kent Beck told me years ago, if the code does not need to work, then there is no need to test it. He continued and observed, why bother writing it if it does not need to work. Since hearing that and discovering how frequently I make coding mistakes, I want thorough tests.
Maybe you are asking yourself “I’ve got integration and system tests, why do I need unit tests?”. The answer is simple, simple math.
Here is a good question, and my reply, from a recent attendee of my Test-Driven Development for Embedded C training.
As I work more with TDD, one of the concepts I am still struggling to grasp is how to test “leaf” components that touch real hardware. For example, I am trying to write a UART driver. How do I test that using TDD? It seems like to develop/write the tests, I will need to write a fake UART driver that doesn’t touch any hardware. Let’s say I do that. Now I have a really nice TDD test suite for UART drivers. However, I still need to write a real UART driver…and I can’t even run the TDD tests I created for it on the hardware. What value am I getting from taking the TDD approach here?
One of the biggest challenges for someone experiencing TDD the first time is working in the small steps. The small steps of TDD appear to be an independent discovery of John Gall’s observation described in the Systems Bible: