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What techniques can I use to avoid exceptions in C++, as mentioned in Google's style guide?

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Could you clarify your question? As it stands, the answer would seem to be: you simply don't throw exceptions, and try to avoid the circumstances that cause external code to throw exceptions by defensive coding. –  Joris Timmermans Sep 21 '09 at 7:28
Note that, even given what sharptooth said (stackoverflow.com/users/57428/sharptooth) -- and with all due respect to the smart people at Google --, I consider this a stupid style guide. Since it's nigh impossible to avoid exceptions altogether in C++, you will probably have to write exception-safe code anyway. Doing this without using exceptions means that you have to deal with all the disadvantages of exceptions but forgo their advantages. Now what's that good for? –  sbi Sep 21 '09 at 8:26
Thanks for making me discover the Google Style Guide. –  Jesper Sep 21 '09 at 10:41
This is just silly <quote>For instance, if f() calls g() calls h(), and h throws an exception that f catches, g has to be careful or it may not clean up properly.</quote> g() will always clean up correctly that's guaranteed by the standard. If they mean pointers may leak then that's easily resolved by using smart pointers. There should be no RAW pointers in Exception safe code anyway. –  Crappy Experience Bye Sep 21 '09 at 10:49
@Kragen: The company started as a research project in 1996. In 1998, when the C++ standard was released, most of the exceptions-safety battles were already fought. Why do they have so much exception-unsafe code that they need a guideline protecting it rather than fixing it? And given the fact that say themselves that they cannot prevent exceptions on Windows, isn't that just lowering probabilities of fatal errors? I'm sorry to say, but I find this ever more stupid the more I think about it. –  sbi Sep 22 '09 at 12:22

5 Answers 5

up vote 9 down vote accepted
  1. Don't throw exceptions.
  2. Don't use STL (which relies heavily on exceptions).
  3. Use only new(std::nothrow) or override ::operator new to return 0 on failure.

Note that by avoiding exceptions, you're effectively throwing out lots of useful libraries, including Boost. Basically, you'll have to program everything from scratch.

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I didn't realize the STL "relied heavily on exceptions", and indeed I remember that STL being incompatible with exceptions used to be a big problem. But I guess it does at least insofar as it has no other way to deal with allocation failures. –  Kragen Javier Sitaker Sep 21 '09 at 8:00
It not just a question of allocation failures. Exceptions are the only way to indicate failure from constructors, notably from copy-constructors that are called on items during inserts. –  avakar Sep 21 '09 at 8:15
Check out the EASTL, an STL without exceptions. –  Edouard A. Sep 21 '09 at 8:59
I don't think you're allowed to override operator new to fail in that way. You certainly shouldn't. It would force correct code to check for NULL pointers even when they're intentionally using the throwing new. –  MSalters Sep 21 '09 at 9:25
@Edouard And how exactly is he supposed to check out a closed source library that is not even licensed? –  Frank Krueger Apr 20 '10 at 15:32

Not throwing exceptions in your own code is relatively easy: you just don't use the throw statement.

Not throwing exceptions from memory allocation failures is a little more painful: either you don't use normal new (use new(std::nothrow) or malloc or something instead), or you use some nonstandard compiler option to get it to do something nonstandard when it fails (e.g. immediately terminate your program, or return 0), or you override operator new to do something nonstandard when it fails.

If your chosen approach is to immediately terminate the program, you can implement this with set_new_handler(), which I had forgotten about until litb reminded me.

That leaves the problem of dealing with exceptions generated by C++ libraries you don't maintain. Generally you'll have to wrap library calls in a wrapper that looks something like this:

int DoSomething(int &output, const int input) throw() {
  try {
    output = library_do_something(input);
    return 1;
  } catch (...) {
    return 0;

The catch (...) catches all possible C++ exceptions from library_do_something (as well as the assignment operator on output, which isn't relevant here), throws away all the information they may have contained, and then maps all those failures to 0.

Note that this style means that you can't use RAII at all, not even a little bit, because you have no way of signaling failure within a constructor. The whole point of RAII is that you acquire all your resources inside of constructors so that they will be properly released by a destructor during exception propagation. But resource acquisition is something that can essentially always fail. So you can't do that inside a constructor.

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You can install a new handler. Operator new will call it when it doesn't have memory available, and from that handler, you can either manage to get memory or terminate the program. –  Johannes Schaub - litb Sep 22 '09 at 2:26
I had forgotten about set_new_handler(), thanks, litb! I'm updating my answer. –  Kragen Javier Sitaker Sep 22 '09 at 4:23
Just do kill(0,9) instead of throwing an exception. OK, you'll also be kissing your whole process group goodbye, but that pesky exception won't be disturbing your beautiful code! ;-) –  Donal Fellows Apr 20 '10 at 15:32

I'm interested to know why one would want to avoid exceptions in C++ and what mechanism one would replace them with to deal with the reality of unexpected failure while still maintaining decent structure.

Sure adding them to a existing codebase that doesn't use RAII type semantics is extremely costly - but if one is doing green field development then what alternative would you suggest and how are going to justify not using high quality libraries that do use exceptions vs. writing your own exception free / bug free alternatives?

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In addition to the performance and space problems of exceptions, which empirically exist even though people deny them, some platforms simply don't support exceptions in a trustworthy way. Some embedded machines' C++ compilers, for example, just don't have working exceptions. –  Crashworks Apr 20 '10 at 15:29
Personally I don't like using exceptions in C++, because it makes it extremely difficult to predict the control flow of the program. Since any C++ function can throw any exception without declaring it, using exceptions means that you can't predict what any function will do unless you grovel over the entire call tree beneath it. That means that verifying the behavior of a function wrt exceptions is a problem with geometrically expanding cost for the programmer. Java, OTOH, gets it right--Java methods declare the exceptions they can throw, and the declarations are enforced at compile time. –  Jeremy Friesner Apr 20 '10 at 15:58
@JeremyFriesner: That's why we always code to the exception safety guarantees - so that it doesn't matter what the execution path is. –  Tom Jul 31 '12 at 17:37

The style guide says they "don't use exceptions" which is just that - they don't throw them and don't call anything that could throw them (for example, they would use the new(std::nothrow) instead of usual new because the latter will throw bad_alloc when it fails to allocate memory.

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How do they manage to use libraries that throws exception? –  yesraaj Sep 21 '09 at 7:35
Or they don't use these library –  Clement Herreman Sep 21 '09 at 7:42
They can wrap them and have and have a catch(...) around all the contents in every wrapper function. –  Laserallan Apr 20 '10 at 15:33

In some compilers, you may be able to turn off exception handling. This could cause unexpected results with external code though - it is not something I would want to try.

Other than that, the obvious first step would be to avoid throwing exceptions from your own code, probably with liberal use of the nothrow directive, and attempt to avoid throwing exceptions from external (3rd party) code through defensive programming.

That means that your code needs to be aware of possible external exceptional failure conditions all the time, such as running out of memory, out of disk space, loss of an internet connection, hardware failure, and any number of other circumstances that might cause code to throw...

In some cases you may be able to use exception-free versions of some code (such as throwing-new vs. non-throwing new).

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