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Why is this a common practice to have assert macro do something useful only in debug configuration? If it exists to test invariants and detect coding bugs, then would not it be easier to go ahead and do the same big boom in production software?

I have some S60 background and there exist __ASSERT_ALWAYS and __ASSERT_DEBUG, where the latter is equivalent to assert.

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4 Answers

up vote 3 down vote accepted

Checking for assertion costs. You have extra operations that you may not want to exist in the final product. If assertions where always going to work, then people would start using them less "to not kill performance". And believe me, there are a lot of people out there who consider the extra checks a performance kill and would avoid it. These are the same people who actually have to use assert more!

A more important reason is that, assert, if failed, will just abort your program. There is no usefulness in that whatsoever for the end user. If you want your program to actually terminate with a message or do something useful, you would have to write your own assert. In that case, you can of course choose to keep it in release mode also.

Finally, assertion helps you find bugs, especially hidden bugs, but in the execution of the software, they may actually not happen. Imagine the following code:

struct X
{
    // other stuff
    int stage;
};

X x;
... do some stuff
assert(x.stage == STAGE_2);
x.stage = STAGE_3; // go to next stage
... do more stuff

In such an example, your logic says x should be in STAGE_2. If it is not, it's a bug. However, if you remove the assert, fix x.stage and move on, there is hope that the bug is not so severe. In such a case, the end-user can actually continue working without noticing this. If you had kept assert in release mode too, you would force the guy to exit over a bug that didn't have any visible effect.

In reality, you get updates all the times for your software, in which they claim they have fixed bugs. Some of those, are indeed bugs that assert would have caught. However, you as the end-user didn't have any problem and were actually happy that you weren't interrupted due to those asserts, weren't you?

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Stage 1 : start the car, Stage 2: check there's nobody in the way, Stage 3 : drive! - So if we skip stage 2, no problem? ;-) I understand what you're saying, but in general it's not a good idea to continue regardless after an assert fails. –  Roddy Aug 2 '12 at 15:08
1  
@roddy, I think we have different ideas of what should be asserted. For example, output of malloc is not something I would assert, but ensuring my left-rotate operation on an AVL tree didn't make the tree unbalanced is something I would do with assert. The difference is that the first is an error that should be handled, otherwise bad things happen, the second one, at worst creates a performance problem. –  Shahbaz Aug 2 '12 at 15:15
    
I agree - Your AVL tree is a good example as verifying the balance could be a comparatively slow operation. I'd rather see an assert() on a malloc call than no checking at all (although most apps have no useful way to handle malloc failures). Of course in C++ new failures would throw instead... –  Roddy Aug 2 '12 at 15:23
    
@roddy, I hear you. Personally, I don't have a single program/library that doesn't check malloc's output. I always check stuff that can go wrong within the program itself. What can't possibly go wrong..., I still check within the program. What can't possibly go wrong, but if does it doesn't really matter, I assert them. –  Shahbaz Aug 2 '12 at 15:28
    
I guess it would be fair to accept this answer after all. Programmers are (and have to be) idealists or else they wont achieve the best results. I value this answer for its taste of real life though. Cheers –  Roman Saveljev Aug 2 '12 at 17:08
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Asserts are made for stuff that should NEVER HAPPEN, i.e. if it does than there is a bug in your code that your need to fix. Releases are builds that are "supposed" to be bug free, and killing application with the assert for the user is as bad as any other faulty behaviour.

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Sounds to me very good and brief answer –  Roman Saveljev Aug 2 '12 at 13:20
    
The application is dead either way. But without the assert, the developers have no useful way of debugging it. Fail fast... –  Roddy Aug 2 '12 at 13:29
    
@roddy, fail fast, but not in the face of the user ;) –  Shahbaz Aug 2 '12 at 13:31
    
@Shahbaz - you're failing in the face of the user anyway. Best to fail early and predictably than struggle on assuming that the buffer overrun you ignored won't matter that much... –  Roddy Aug 2 '12 at 13:33
1  
@roddy, nevertheless, checking for buffer overflow is not something you would do in an assert!!! –  Shahbaz Aug 2 '12 at 13:40
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I think it's a cultural thing. The arguments in favour removing this kind of check in production code go like this:

  • It makes your code run slower.
  • It makes the final executable larger.
  • Your code shouldn't have bugs in once it ships.
  • It will cause your program to exit suddenly and violently, with possible loss of data.

The arguments against run as follows

  • You're shipping the exact code that you tested.
  • Debugging problems reported in the field gets much easier
  • Regardless of what you'd like to think, the code you ship WILL have bugs
  • Performance and size effects are typically minimal.
  • Failing fast may be preferable to attempting to continue when your program is in an undesired state.

Personally, I ship software that's built exactly as it's tested, asserts and all. But, a lot depends on your customer base and how you hope to schedule releases...

This article is worth a read:- http://www.martinfowler.com/ieeeSoftware/failFast.pdf

but what about when you deploy the software to customers? We don’t want the application to crash just because there’s a typo in a configuration file. One reaction to this fear is to disable assertions in the field.

Don’t do that! Remember, an error that occurs at the customer’s site made it through your testing process. You’ll probably have trouble reproducing it. These errors are the hardest to find, and a well-placed assertion explaining the problem could save you days of effort.

One other thing - in C++, using BOOST_ASSERT you can set it to throw an exception on assertion failure, which makes handling and potentially recovering from assertion failures even more useful. we use this in conjunction with MadExcept so that any assert failures in the field can be easily posted by the user into our bug tracker, with complete call stacks, screenshots, whathaveyou.

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Unfortunately, in a harsh world of capitalist sharks hardly reproducible bugs are hardly worth any effort –  Roman Saveljev Aug 2 '12 at 13:45
    
@RomanSaveljev - I disagree: The commercial impact of a bug can be totally unrelated to how easy it is to reproduce. –  Roddy Aug 2 '12 at 15:03
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assert works unless you explicitly turn it off. There's (usually) no reason to turn it off, even in "release" builds, and most of the released code I've delivered has had assert active.

The main reason for turning it off is performance. In this case, you turn it off very locally, in the function where the performance is critical, with something like:

#ifdef TURNOFFCRITICALASSERTS
#define NDEBUG
#include <assert.h>
#endif

//  Function with critical code here...

#undef NDEBUG
#include <assert.h>

This is the way the C standards committee designed assert to be used. Generally, you should not define NDEBUG except locally, like this.

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