Question

Some say that a debugger is the mother of all evil. What do you think of this approach?

I have a friend at work, a colleague, who's completely against using a debugger whatsoever.

I asked him: So, you just write code without bugs? Is that it?

He answers: Of course not. Everyone makes mistakes, the difference is how you deal with them effectively, how you make sure not to make the same mistake again. When using a debugger, you may find your way to that bug, and you may fix it for the specific scenario you've witnessed, but - a) you're wasting your time b/c all that time put into debugging can never be reused, it's a one time hack in the sense that if you have another bug later, you'll probably need to start all over again and b) you've only solved this one bug, and might be that for only this specific scenario that you tested, but you most likely did not solve a more general problem. That's b/c you're not thinking in generality, you're in a debugging mindset, not a general mindset.

Me: OK, fine, you don't use a debugger, you think it's a waste of time. What do you do when you find a bug then?

Him: When I find a bug here's what I do:

1. Read my code. Understand it. Document it.
2. If a class or a method or a function is not coherent refactor it until it is.
3. Add asserts. Use preconditions, post-conditions etc. Asserts are very effective.
4. Add logging. When the program runs it should tell its user what it's doing, like you're reading a book. Don't assume the user understands the code, don't assume you understand the code. Let the program tell you exactly what it's doing, you will not regret it.
5. Unit-Testing. Except for the most trivial getters and setters, you need to test everything. Most bugs can be found while unit-testing, or while writing the tests.
6. Code review. Have someone else look at your code. When he/she asks you questions you'll understand your code better. Many times I found bugs when trying to explain what my code is doing to a reviewer.

Me: OK, dude, that's a lot of things. Are you sure this is the best use of your time?

Him: True, if you have a single bug at 8pm after a long day, and all you want to do is fix it and go home, you might get tempted to open a debugger and get rid of that thing already, right?

Me: yeah...

Him: Well, I think that this is when good developers show. A good developer needs to be self disciplined and realize that: every minute you waste on a debugger is a wasted minute. You'll never get your time back. While if you invest your time smartly in documentation, refactoring, asserting, logging, unit-testing and code reviews you're investing in a brighter future. It might be that this evening you'll get back home late and that is indeed sad, but I also guarantee you that you are not going to regret this and in the next couple of days not only that your coworkers think highly of you, but also you'll have much more free time since at this evening you solved not only one bug, but also a design issue and five other bugs.

Me: OK, that's a bit extreme for me. I can see why you're saying that using a debugger is a very short-term investment and that professionals should make long term investments, that's cool. But, isn't it a bit too extreme? I mean is there any good time to use a debugger at all? What about, for example when you inherit the code and you don't even know how it's supposed to run?

Him: Dude, in my team I'd not want to have you. If you want to read new code, print it and take it somewhere quiet. A debugger is not a Kindle.

So, stackoverflowers, what do you think of this approach? Is a debugger the mother of all evil?

Answer 1

Your friend is a perfectionist, and you ramble too much, but that's another issue :-). That's fine, it's in his nature but I suspect he wouldn't last very long on a team that had specific deadlines for bug turnaround and fixing.

I can just see the conversation now:

Boss: Well, guys, we're in a bit of trouble because we're consistently missing our bug-fix targets. Any idea what's going on?

You: It's because we don't use debuggers any more, sir.

Boss: Really, why not? Don't they allow you to more easily locate your problems?

You: yes sir, but Bill here has convinced us of the error of our ways. Nowadays, when a bug gets reported, we reread our code to understand it. And add documentation to it. Sometimes we even re-factor it if it's not as understandable as it should be.

Bill: That's right, and we'll even go and add unit tests, more logging and do code reviews to ensure we understand everything about the code.

Boss: And you do this rather than use a debugger that would zero in on and fix the specific things our performance is measured on?

You and Bill: Yep, that's because we know our customers understand that good software is worth the wait.

Boss: Pack your things, you're both fired. I'll get in some guys tomorrow who understand that IT is all about service delivery, rather than something that exists for its own sake.

Now that the fun's out of the way: No, a debugger is no more evil than a compiler. It's a tool that allows you to do your job.

And, if your job is endlessly re-arranging your code, maybe you won't need it. But I think you'll most likely find your job involves getting software out into the field as bug-free as possible and being able to respond in a timely manner when your customers complain of problems.

They will not understand Bill's Utopian vision, they will burn Bill's company to the ground and spit on its ashes.

Answer 2

What bothers me about these arguments is the people who adopt a dogmatic approach towards software development. You must (or must not) do X or Y.

Back in the real world, X or Y is almost never a fixed requirement. Instead of taking absolute positions, every developer should look carefully at the goals and demands of each project, and then select the appropriate tools for that specific project. There's just no such thing as a "best practice" without any context.

The software development world needs less dogma and more pragmatism.

UPDATE: Reading the question again, another thought just occurred to me. Your friend is saying that a debugger is used to debug a program. But in reality, a debugger is used to visualise and hopefully understand the program. That feeds useful information back into the debugging process, but it isn't actually debugging. So maybe if we used the term "visualiser" instead of "debugger", there would be less resistance to using the tool.

Answer 3

Ain't debugging just "reading the code" with the ability to also see real life values of variables?

Answer 4

In some cases you won't find the bug no matter how hard you stare at it. If using a debugger is considered bad, then i'm happy to be bad and actually get some spare time. If your friend is happy with his debugger allergy, that's his problem.

Answer 5

One thing not mentioned so far is that debuggers are also great tools for teaching you more about how your own code, and often more importantly, other peoples code works. You can see what is happening under the hood, dynamically, as it happens. Your friends philosophy to me is akin to an engineer designing a car without ever turning the engine over before the tires have been fitted. It just doesn't seem sensible.

I use unit testing, design by contract style asserts, debuggers, profilers, static analysis, and whatever else gives me the best quality result at the lowest cost. Debuggers aren't bad. Using them in place of proactive QA can be.

Answer 6

No, dogmas are the mother of all evil.

You should also consider that logging will change the behavior of your program if you run multiple threads. Use each technique where appropriate. I use the debugger to find and understand the source of the problem, not to fix the symptoms.

Answer 7

Personally, I find debuggers to be highly overrated, but I wouldn't go so far as to call them "evil". If you like them and find they work well for you, then more power to you, but I tend to agree with the following quote:

As personal choice, we tend not to use debuggers beyond getting a stack trace or the value of a variable or two. One reason is that it is easy to get lost in details of complicated data structures and control flow; we find stepping through a program less productive than thinking harder and adding output statements and self-checking code at critical places. Clicking over statements takes longer than scanning the output of judiciously-placed displays. It takes less time to decide where to put print statements than to single-step to the critical section of code, even assuming we know where that is. More important, debugging statements stay with the program; debugging sessions are transient. Kernighan and Pike, "The Practice of Programming"

Answer 8

I would say your friend doesn't understand debugging and debuggers. Debuggers are tools to help you focus and get clarity on what is going on in the actual environment that the code is running in. You can sit back and philosophize all you want, but it is meaningless without the knowledge of what is actually going on. Why guess? To me it is more of a hack and a waste of time to throw tons of logging statements in your code printing out what you think might be wrong.

I want people working with me using a debugger when needed, rather than guessing.

Answer 9

The steps above are all important and necessary for the development of proper code. However, I can guarantee that you could have done steps 1 - 5 (and sometimes even 6) perfectly, and you still don't know why your unit tests are failing. This is where the debugger can be a useful tool.

Your friend also risks resorting to "carpet-logging" where every two lines are logged to try and get some understanding of what on earth is happening. Inevitably (after 10pm) the developer will forget to remove the logging code and end up committing his code (with a few hundred pointless logging messages) into SVN. This completely pollutes your code, making it impossible both to read and to parse log messages for errors.

In my opinion, debugging should not be an alternative for unit tests, but it is certainly a tool to use when necessary. Most development environments provide really sophisticated debugging tools, including on the fly modification of variables, conditional watches, etc. All these things can help you productively trace bugs.

Answer 10

When I write code using TDD, I very rarely need to use a debugger. Because I run the tests every few lines of production code, I will notice immediately when something went broken, and I know what was the change that broke things, so I don't need a debugger to find out the reason.

It's only very rarely, when some obscure bug occurs and I have no clue why it happened, that I start up a debugger as the last hope. Then I put a breakpoint in a test that reproduces the bug and dig in deeper. Quite much can also be done by just adding temporary println() statements to print debug information at strategic points.

For example, in my current pet project (an application server with transparent persistence to object database - some highly complex problems), I have about 4400 SLOC production code and 7300 SLOC test code (Java), and I've used a debugger only once or twice. IIRC, one of those occasions was some bug in the system's internal database, related to locking during transaction commit - a hard to find bug.

Then there are also some kinds of bugs where a debugger does not help, but you can only use your own reasoning. Concurrency bugs because of inadequate synchronization are such. For example once I found a bug in Guice 1.0 where a method returned null even though it should never return null. The way to find out the reason was to read the code backwards and look at every assignment where that variable came from, while reasoning about the JVM's memory model that could that variable ever be null.

Answer 11

Often I use a "step through" on a debugger to just check that code is going the right way and makes sense. It's by far the quickest way of checking that you are not adding unnecessary steps or making the code do weird looping backflips.

Debuggers can be handy if you've just laid down 300 lines of code on a prototype and accidentally left off a line terminator or left out a period. Sometimes these things are hard to spot by eye.

I think if you're leaning on debuggers to make stuff work there might be a case that you're over using them but I don't really see any problem with using a step-through sense check and a quick "whoops" catcher on dev work.

Maybe I'm wrong.

Answer 12

Sigh. If I go to the men's room, that's time spent I'll never see again. It doesn't solve anything in the long run, because I'll have to go again in a few hours. Just like using a debugger: I may accomplish something useful right now, but there's no long-term appreciation potential. Forbidding the use of the debugger is similar to locking the men's room door.

Except, of course, that there is some long-term appreciation potential in using a debugger to find a bug. Once I've found a bug, I can consider where else it's likely to be. I can remember the bug and the symptoms, and maybe find it later. I can benefit from finding out exactly what a certain bug is regardless of how I found it out.

Answer 13

It rather depends - at work last year, I was using Java and JUnit, and didn't need to use a debugger once. For the last few weeks, I've been working in C and often had to use a debugger - a segfault has much less information than a Java stack trace. Every case the debugger found would have caused a class cast or null pointer exception in Java, giving the exact information that the debugger gave.

Answer 14

Define "find a bug"? In complex systems, the path from "someone notices that something is going wrong" (when a user or tester or test case finds a bug) to "when the engineer fixing it works out exactly why it went wrong" (when the coder finds the bug) can be a long process, and can be the hardest and longest part of fixing the bug.

If a debugger gives you the insight that you need to go through this process faster, then it's a good tool. In some cases you can get by without it, but that's no reason to be dogmatically against it. Debuggers help you understand what's really going on. But if you always need a debugger to understand what's going on, your code could suck and your colleague would have a valid point.

Unit test can be a good compliment to the debugger rather than an alternative to it. The right unit test can get you to your breakpoint near a crash quickly and consistently, but running the whole program to exhibit the bug might be a long manual process.

There's often more than one fix to the bug. often a number of things have to go wrong or pass undetected before the software fails. Making a single change to "fix the bug" may be adequate, but often you can do much better, using the bug as data on the weak spots of your software.

So when the coder finally finds the bug, there are a number of pro-active things (like those that your colleague suggests) that they can do before fixing it, such as:

• Put test cases in place that exhibit the bug, to detect if the bug recurs.
• Think about similar inputs or related bugs that could occur.
• Put internal tests (asserts or exception throws) in place to catch invalid conditions earlier or give better information if it happens again.
• Review the buggy code. Where there's one bug there could be more.
• Refactor for clarity
• Better internal documentation, e.g. if there was a misunderstanding of how to use a piece of code.

Answer 15

One of the risks of using debugging as a primary bug-fixing technique is that you can end up fixing targeted symptoms without fixing underlying problems. This is dangerous because each little patch adds unintended complexity and you can end up with a system that is no more robust or reliable but is much harder to maintain and fix because so much of it is held together with bailing wire, gaff tape, and chewing gum. This is not the route to quality software.

Nevertheless, your dogmatic friend is in error in shunning all debugging. There's only so much you can understand about the way your code works in vacuo. When your code malfunctions in the wild that is a prime opportunity to understand exactly what your code is doing in situ. In theory: theory and practice do not differ; in practice they do. In the real-world with real customers using your software there are conditions that can occur which you will never have anticipated. This will ALWAYS be true. The diversity of the world vastly exceeds the human mental capacity to model it in the abstract. A bug is your code talking to you, when that happens you need to listen. You need to dig in and find the cause, and this will lead to just as much, or more, improvement in understanding your code as reading code listings in a comfy chair by the fire at home.

What you do with that understanding, once acquired, is a different matter. Pursuing the defect to its root cause, fixing the underlying system defect, adding regression and unit tests, increasing documentation, and refactoring problematic code are all excellent ways to deal with code defects, but ignoring a key technique for tracking defects to their source is silly.

Answer 16

An interesting philosophy. If it works for him, so much the better -- one of my colleagues does believe that code should just work, the first time and every time. He built both ends of an IR remote controller, in assembly language, and wouldn't you know it worked flawlessly from the start.

For the rest of us mere mortals, however, I'm a fan of using every tool at my disposal, starting with my brain, the best practices that have proven themselves over the years, my colleagues, and on the rare occasions an error makes it through a compile (heavy sarcasm here!), a debugger.

It's also helpful to step through code one line at a time, to ensure it's doing what you expect it to do. Sometimes you get the right answer for the wrong reasons, and it's important to understand that. Black-box testing is best left to the customer QA department.

P.S. I suppose any discussion of debugging is incomplete without a reference to printf(). So, just for completeness:

printf() : debugger :: darts : nanosurgery

Answer 17

Hundreds of unit tests can run in less time one need to step thru a method.

Now, writing those tests has a cost, so a compromise has to be found somewhere.

Answer 18

I use the debugger to "watch the gears turn," then capture what I learned in a test.

I tell people that don't want to test: "We don't have time to skip that step." I would tell your friend the same thing about debugging to understand the bug.

Answer 19

I find that in general, I agree with your friend with regard to how to prevent bugs from getting into your code. I also agree that spending less time in the debugger is a good thing. I'd quibble a little on the documentation point, because frequently the documentation -- even in the code -- is probably out of date if the code is under active development. On the other hand, using a debugger to find out why the code I just wrote to pass my unit test if it's not immediately obvious seems a lot better than going in and adding logging and assert statements (frankly this smacks of printf debugging) if the code doesn't call for it anyway. And, no, not everything needs to be logged nor does everything need to be asserted. In that case, I prefer using the debugger over adding the bloat to my code.

Answer 20

There are different approaches to programming. I use a different approach. For me data, code and its behaviour is all part of the program. Live data. Not just dead artifacts like source code in a file. I'm a Lisp programmer. I play around with data, algorithms, representations, etc. I write partly working software that gets extended during development. I don't write the code on paper. I write the code against a partly working system which I change until it does what it is supposed to do (display an email, get an email from a mail server, talks to an NNTP system, renders the image in some way, displays the dialog nicely, ...). So debugging is a part of this. But there is also the larger vision that one may understand and program against a spec for isolated problems (given this data, format it some way to HTML). But then there is the outside world (example: parse some data out of HTML files coming from a bunch of websites). There are specs for outside systems. Sometimes. Often the outside systems implement these specs in some special ways. Some specs and their implementations are evolving over time. Some are tested against a suite - some are not. The more the programming problem has to deal with unpredictable behaviour, the more there might be need for debugging tools.

One also needs to understand that there is also not a single 'debugger'. The debugger is a bunch of tools that help the developer to inspect and manipulate the current state of a running piece of software. If all the developers problems are such that he can predict the behaviour of a software system from static text files, he might never need one. As soon as the system gets larger, is designed using different principles, has lots of communication and lots of internal state, then the debugger gets useful. Very useful. For me the debugger is part of the tool suite for interactive software development. Those who don't develop interactively might have less need for debugging tools.

In fact I develop more complex software by developing debugging tools in parallel. Debugging tools that are adapted to the problem domain. For example for graph algorithms, I might write a special visualization routine to nicely render runtime representations of graphs.

Answer 21

Most problems people have with the debugger is that people don't know how to use it

Answer 22

It doesn't have to be either-or: Use the debugger to step through to figure out what is happening, and if it makes sense to, add a unit test to make sure the bug doesn't come back.

Answer 23

Your friend is a little over the top. But one thing being overlooked here is that most debuggers aren't very good (for example, most debuggers don't allow you to travel backwards in time), and most programmers don't use a debugger. I think these facts are correlated.

When debugging C code with bad pointer invariants or other problems with linked data structures on the heap, I noticed a quantum leap in productivity when I moved from gdb to the Data Display Debugger (ddd). I'm now much more likely to use the debugger for these kinds of problems. But it still pisses me off that if I accidentally run the program too far, I can't easily go backwards. Time travel in debugging has been a solved problem for over 15 years.

So, no, the debugger isn't the root of all evil. But it's also not that helpful and it can be a distraction.

Answer 24

I agree with 80% of what your friend had to say. But do take care to differentiate debuggers with profilers.

It is VERY rare that I have to fire up a debugger. Usually, if you see me using one it means that I am trying to nail some kind of pesky concurrency issue. Even then, I'd rather run the code in some kind of virtualization simulator (simics, for instance) that offers me better tool, or QEMU which offers me introspection with a little hacking. There are times when I suspect my compiler has just optimized something away, in which case the debugger is handy to prove my understanding of the asm dumps.

I've seen people who type 'gdb' the very second after seeing 'segmentation fault', even without looking at the code first or running it through something like valgrind. That kind of tactic becomes a vicious cycle that takes years to perfect.

Its often faster to use asserts, even printf debugging than it is to step through your code using some kind of a debugger. As Norman said, until I can actually step backwards, I really don't have much use for gdb or others.

The rules I set for myself are simple. Every time I make a change or introduce something new, I:

• Make sure it actually works
• Run the program through valgrind
• Give the program unexpected input or usage, then replay steps 1 and 2
• Commit a series of small changes that mount up to the revision I just made

This assures me (to a high degree) that any bug I find is most likely the fault of the current or previous change set, so its easy to find. 8/10 times, if you are turning to a debugger, you're doing so because you have no idea when the bug could have been introduced or where .. which points out a deficiency in your development practice.

Again, when I say 8/10 times, I also mean 8/10 bugs. Concurrency issues are in a whole other ball park than dereferencing a bogus pointer in a single process.

Also, I work mostly with C (not C++, etc) .. so my methods and thinking will really differ from others.

Answer 25

Add logging. When the program runs it should tell its user what it's doing, like you're reading a book. Don't assume the user understands the code, don't assume you understand the code. Let the program tell you exactly what it's doing, you will not regret it.

To me this says he uses printf debugging essentially. What's the real, tangible difference between "let the program tell you exactly what it's doing" and "let the debugger tell you exactly what the program is doing"?

The benefit of the debugger here is that, while your time spent in it isn't reusable per se, you have the ability to iterate much more quickly. Perhaps you don't know if the information you're adding logging for is useful or not. The debugger can tell you that in a fraction of the time.

I've worked with people whose first step when encountering a problem is "look over the code". And it does work at times, but then there are also times when someone else can load up the debugger and catch the problem in a couple of minutes.

Debuggers are not the mother of all evil. Unwillingness to use a helpful tool because it hurts your ego as a developer is the mother of all evil.

Answer 26

Different people work best in different ways, if his code is maintainable and off good quality then why change a winning formula, but that dosn't mean you should stop useing debuggers if they work for you. Although if his strategy really works it might be worth a try, maybe it works for you too.

Answer 27

"I think that this is when good developers show" - let me guess: your friend is exhibit #1 of "good developer".

I don't disagree with the recommendations, but I think the very best developers know the rules and when to break them.

Sometimes I have a problem of needing to check my assumptions. The faster I fire up that debugger and find out what I've been assuming is correct has led me astray the sooner I can get on with it.

If a debugger will find that error under a tight deadline, I say "Let's debug."

Answer 28

Sounds to me like someone is cutting off their nose to spite their face. The debugger is the quickest route to comprehending what is going in the majority of cases. I fear that some people have been burnt by the debugger and rather than appreciate the trade-offs the debugger brings they've adopted a policy of "never again" which is kinda like throwing away your car cause it breaks down once and leaves you in a serious fix.

The human mind has a tendancy to add logic to any madness hence this "long term approach" this guy is using. Implicitly stating that your code isn't as clean as it could be or doesn't have enough tests as it should do if you use the debugger doesn't appear to be a thought through argument. Surely if you use the debugger you have more time to do these things?!?

However you are quite right to state that it is a little "evil". Stopping the program execution destroys certain diagnostics information that is precious where logging will not.

But, I believe that the biggest evil is not understanding or using all the tools at your disposal. In some cases automated tools like the debugger rock, in other cases some logging is better. You just need to work out which is the best tool for the job.

Answer 29

short answer: No

long answer: Asserts/logging/debugging is all a type of testing your code. Asserts are only used in the most extreme cases. object can't be zero. If you have them in a production software you are doing it wrong. Logging to find out what the user did. This is sometimes handy but not always needed. And to repreduce the bug you have to find out where the bug originated by inputting the same variables as in the log. Time consuming and you are making your code twice as long (logging each statement)

What I do is test small portions of code using the debugger, stepping through a function. Logging is used if I or the user will ever read them, if not don't implement.

Answer 30

I think it is a mentality issue and depends on their background. Like some people will never use an IDE and rely on notepad.