No! Debuggers make your code worse!
Let me support this rash statement by telling you a little tale of first-hand experience in which I accidentally learnt something profound.
I took on a contract as a Delphi coder, and the first task assigned was to write a template engine conceptually similar to a reporting engine - using Java, a language with which I was unfamiliar.
Bizarrely, the employer was quite happy to pay me contract rates to spend months becoming proficient with a new language, but wouldn't pay for books or debuggers. I was told to download the compiler and learn using online resources (Java Trails were pretty good).
The golden rule of arts and sciences is that whoever has the gold makes the rules, and I proceeded as instructed. This was early 2000, so Eclipse was not the mature, sophisticated no-brainer option it is today. I used Textpad, and rigged up my editor macros so I could launch a compile with a single keystroke, and I used regexes to parse the compiler output and put my cursor on the reported location of compile errors. So I had a little IDE with everything but a debugger.
To trace my code I used the good old fashioned technique of inserting writes to the console that logged position in the code and the state of any variables I cared to inspect. It was crude, it was time-consuming, it had to be pulled out once the code worked and it sometimes had confusing side-effects (eg forcing initialisation earlier than it might otherwise have occurred resulting in code that only works while the trace is present).
Under these conditions my class methods got shorter and more and more sharply defined, until typically they did exactly one very well defined operation. They also tended to be specifically designed for easy testing, with simple and completely deterministic output so I could test them independently.
The long and the short of it is that when debugging is more painful than designing, the path of least resistance is better design.
What turned this from an observation to a certainty was the success of the project. Suddenly there was budget and I had a "proper" IDE with an integrated debugger. Over the course of the next two weeks I noticed a reversion to prior habits, with "sketch" code made to work by iterative refinement in the debugger.
Having noticed this I recreated some earlier work using a debugger in place of thoughtful design. Interestingly, taking away the debugger slowed development only slightly, and the finished code was vastly better quality particularly from a maintenance perspective.
Don't get me wrong: there is a place for debuggers. Personally, I think that place is in the hands of the team leader, to be brought out in times of dire need to figure out a mystery, and then taken away again before people lose their discipline.
People won't want to ask for it because that would be an admission of weakness in front of their peers, and the act of explaining the need and the surrounding context may well induce peer insights that solve the problem - or even better designs free from the problem.
Some of the comments provoked by this tale of mine are quite telling. Here's some context for those of you who don't read the comments:
- I am called a liar because Eclipse has a debugger. At the time of the incident Eclipse was very new, and I'm not sure it had a debugger at that stage. Besides, I was new to Java. How the hell can you expect an isolated noob to know what his options are?
Having used Eclipse more than a decade after the incident, I have to say I found the user experience very lacking. I really doubt I would have been able to configure and use it as a Java noob.
- Someone else has a go at me for blaming the tools for a lack of discipline on my part.
This person has conflated responsibility and cause. Blame is about responsibility and answerability. Gravity makes things fall. It is the cause but strictly speaking it isn't responsible because it doesn't have to answer for anything to anyone. Quite apart from this, the experiment does not even determine cause. I already knew I would follow the path of least resistance. The question was whether this had a significant impact on code quality, and it does.
The validity of the result is reinforced by the fact that subject knowledge of the experiment tends to bias it against unflattering outcomes.
A valid criticism that should have been levelled is that the sample set is far too small. To this I reply, "Quite right. Off you go then. All the best with your thesis, and don't forget to quote and credit me."