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I was reading Google C++ Style Guide, and got confused in the Exceptions part. One of the cons of using it, according to the guide is:

Exception safety requires both RAII and different coding practices. Lots of supporting machinery is needed to make writing correct exception-safe code easy. Further, to avoid requiring readers to understand the entire call graph, exception-safe code must isolate logic that writes to persistent state into a "commit" phase. This will have both benefits and costs (perhaps where you're forced to obfuscate code to isolate the commit). Allowing exceptions would force us to always pay those costs even when they're not worth

Specifically, the statement that I didn't understand is this:

(...) exception-safe code must isolate logic that writes to persistent state into a "commit" phase.

and this:

(...) perhaps where you're forced to obfuscate code to isolate the commit (...).

I think I'm not used to the terms "persistent state", "commit phase", "obfuscate code to isolate the commit". It'd be nice some small explanations, examples or references about these terms and possibly why this is true.

share|improve this question
Kind of duplicate, see – Nikolai N Fetissov Jul 22 '10 at 19:23
One problem with the Google style guide is that exceptions are getting more prevalent, not less, so that code that isn't exception-safe is brittle. – David Thornley Jul 22 '10 at 19:45 – DumbCoder Jul 22 '10 at 20:09
IMO, code that has its error-handling directly along side the normal code-flow isnt that readable either... Only exceptions enable you to separate normal code-flow and erro-handling. – smerlin Jul 22 '10 at 21:04
Google's problem is that they have an enormous codebase developed without exceptions (or exception-safety), so it would be an enormous effort to try to retrofit exception safety to it. You should not regard this as an argument against developing new code to use exceptions safely; just that, if you're already in a hole, it's easier to keep digging than to climb out. – Mike Seymour Jul 22 '10 at 23:36
up vote 8 down vote accepted

"writes to persistent state" mean roughly "writes to a file" or "writes to a database".

"into a 'commit' phase." means roughly "Doing all the writing at once"

"perhaps where you're forced to obfuscate code to isolate the commit" means roughly "This may make the code hard to read" (Slight misuse of the word "obfuscate" which means to deliberately make something hard to read, while here they mean inadvertantly make it hard to read, but that misuse may have been intentional, for dramatic effect)

Elaborating more: "writes to persistent state" more closely means "Write out, to some permanent media, all the details about this object that would be needed to recreate it". If writing was interrupted by an exception, then those "written out details" (i.e. "persistent state") could contain half the new state and half the old state, leading to an invalid object when it was recreated. Hence writing the state must be done as one uninterruptable act.

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It sounds more like by "persistent state", they mean variables on the heap (by putting all of that together, they can account for exceptions better). – Brendan Long Jul 22 '10 at 19:33
Actually, by "persistent state", they almost certainly mean state observable by outsiders. It's more general than variables on the heap. See the work on software transactional memory, for instance. – Eric Brown Jul 22 '10 at 19:52
I agree with Eric. Some of the early problems with STL containers were how to deal with partial updates when a constructor throws an exception. That has nothing to do with local variables but with the bigger picture of the entity being updated. Now expand that to such things as files and databases. – Torlack Jul 22 '10 at 19:57

Basically, modern C++ uses Scope-Bound Resource Management (SBRM, or RAII). That is, an object cleans up a resource in its destructor, which is guaranteed to be called.

This is all fine and dandy, unless your code isn't modern. For example:

int *i = new int();
delete i;

If do_something throws an exception, you've leaked. The correct solution is to not have the resource out in the wild like that, i.e.:

std::auto_ptr<int> i(new int());

Now it can never leak (and the code is cleaner!).

I think what the guide is trying to say is that we already have all this old code, and using a modern style would take too much effort. So let's not use exceptions. (Rather than fix all the code...I dislike the Google Style Guide very much.)

share|improve this answer
I hadn't heard the term "SBRM" before. It's much more descriptive than RAII. I hope it catches on. – Fred Larson Jul 22 '10 at 19:27
@Fred: Me too, that's why I'm using it everywhere. I'm going to make edits to wikipedia, and a CW Q&A on SO about it. I'm trying to track down where the new term came from. – GManNickG Jul 22 '10 at 19:35
+1 for disliking the Google style guide (its great for their internal use, but it is not something I would want to impose on a new modern project). NB. I would have given you plus +1 for the rest as well :-) – Loki Astari Jul 22 '10 at 19:39
RAII is a lousy term, since what's really important is that Resource Relinquishment Is Destruction. SBRM is better, but I fear RAII is too entrenched. – David Thornley Jul 22 '10 at 19:47
@Chris: If we're talking about the same Joel/Raymond articles, they didn't impress me. The Raymond Chen column Joel referenced showed no grasp of the use of RAII in exception safety, and understanding that role of RAII is sort of my minimum standard of who's worth reading on the subject. – David Thornley Jul 22 '10 at 21:16

What it's saying about persistent state is this: even if you're using RAII and your object gets destructed properly, allowing you to clean up, if the code in the try block modified the state of the system in some way, you most likely need to figure out how to roll back those changes because the operation didn't complete successfully. They use the term commit here as it relates to transactions, the notion that when you execute an operation, the state of the system should be as if it was completed 100% successfully or it didn't happen at all.

Here's how this can get messed up even with RAII:

struct MyClass
    MyClass(Foo* foo) 
        m_bar = new Bar;

        delete m_bar;

    Bar* m_bar;

Now if you have this code:

    MyClass myClass(foo);
    Baz baz;
    baz.doSomething(); // Throws an exception
    // MyClass doesn't leak memory, but should it try to undo
    // the change it made to foo?

So to handle this kind of case correctly, you have to add more code to treat this as a transaction and to roll back whatever changes to persistent state were made in the try block when an exception is thrown. They're just saying that forcing transaction semantics can clutter up (obfuscate) the code.

I don't agree with banning exceptions, btw, just trying to show the problem they're referring to.

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That doesn't give any reason to do them all at once though. For that situation you want small try/catch blocks. The only thing the exception is doing is forcing you to fix the problem, without them you'd still have the problem, you just wouldn't know about it. – Brendan Long Jul 22 '10 at 19:46
@Brendan - Exceptions really don't help much with the problem you are referring too. It just gives you a different method (and more clean IMHO) of dealing with the problem. Lazy people will still be lazy. – Torlack Jul 22 '10 at 19:53
@Brendan Long It's clearly possible to do correct error handling without exceptions. I prefer them, however, and as I said I don't agree with their reasoning here. But I think this definitely illustrates the argument that they're making, which was the point of the question. – bshields Jul 22 '10 at 19:54
does baz->doSomething(); really throw a C++ exception? i thought it would throw a platform specific exception of some kind, that you cant catch in C++ catch handlers, but with a debugger only... – smerlin Jul 22 '10 at 21:02
@smerlin You're right, I updated the answer. – bshields Jul 22 '10 at 21:08

Lots of supporting machinery is needed to make writing correct exception-safe code easy.

I'm surprised that more people didn't key into this line. This is the 'con' being discussed: Exception handling is expensive. The rest of the paragraph is just the details of why so much machinery is required.

This is a disadvantage of exceptions that is usually overlooked on dual-core 2GHz machines with 4GB of RAM, a 1TB hard drive, and gobs of virtual memory for every process. If the code is easier to understand, debug, and write, then buy/make faster hardware, and write bottlenecks without exceptions and in C.

However, on a system with tighter constraints, you can't ignore the overhead. Try this. Make a test.cpp file like this:

int main() {
  int value;
  try {
    if (value != 1) {
      throw -1;
  catch (int i) {
      return i;
      return -1;

  return value;

As you can see, this code does next to nothing. It performs an increment on a static value.

Compile it anyways with
g++ -S -nostdlib test.cpp
and look at the resulting test.s assembly file. Mine was 29 lines long without the if (value != 1) { return -1 } block, or 37 lines with the example return test block. Much of that was labels for the linker.

After you're satisfied with this code, uncomment the #define USE_EXCEPTIONS option at the top, and compile again. Wham! 155 lines of code to handle the exception. I'll grant you that we now have an extra return statement and an if construct, but these are only a couple lines each.

This is far from a complete exception handling benchmark. See the ISO/IEC TR18015 Technical Report on C++ Performance, section 5.4, for a more authoritative and thorough answer. Do note that they start with the almost-as-trival example:

double f1(int a) { return 1.0 / a; }  
double f2(int a) { return 2.0 / a; }  
double f3(int a) { return 3.0 / a; } 
double g(int x, int y, int z) {
  return f1(x) + f2(y) + f3(z);

so there is merit in using absurdly small test cases. There are also StackOverflow threads here and here (where I pulled the above link from, courtesy Xavier Nodet).

This is the supporting machinery that they were talking about, and it's why 8GB of RAM will soon be standard, why processors will have more cores and run faster, and why the machine you're on now will be unusable. When coding, you should be able to peel the abstraction away in your head and think of what the line of code really does. Things like exception handling, run time type identification, templates, and the monstrous STL are expensive in terms of memory and (to a lesser degree) runtime. If you've got lots of memory and a blazing CPU, then don't worry about it. If not, then be careful.

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You don't handle the same "errors" in the non-exceptional case, so it's apples and oranges. – ergosys Jul 22 '10 at 23:27
This code is a comparison of error handling versus doing nothing, not exceptions versus...well whatever you were trying to compare it to. – GManNickG Jul 22 '10 at 23:57
Point taken, so I added an if (value != 1) { return -1 } block. Nothing more is needed here This added less than 10 lines to the assembly. The point is that the exception system must be designed to handle all kinds of use cases, like thread safety, automatic destruction of objects, destruction of partially constructed objects (throw in a constructor), the list goes on - read the Technical Report. The program which doesn't need all this gets 118 lines of overhead. – Kevin Vermeer Jul 23 '10 at 0:35
You are basically completely wrong about what that quote means. It is refering to extra libraries neccessay to support writting exception safe code, like smart pointer classes. It explicitrly says "to make writting exception safe code easy" which has nothing at all to do with hardware. – Dennis Zickefoose Jul 23 '10 at 1:57

There are some articles that are worth reading, to understand why some people who are far smarter than I are wary of exceptions:

My favorite example is: if you use exceptions, this code is very likely wrong - and its impossible to tell just by looking at it:

void SomeMethod(){
share|improve this answer
The first Joel on Software article is from 2003, not long after people figured out what exception-safe actually was. The second one has little to do with exceptions, except pointing to the Chen article. The Raymond Chen article clearly demonstrates that Chen had no clue what he was talking about at the time (one hopes and expects he knows more of exception safety now). And, yes, that code is very likely wrong, but without knowing what it should do, and what the class invariants are, it's impossible to say. It is obvious that m_i might be incremented while m_j isn't. – David Thornley Jul 22 '10 at 21:20
I'll carry on our discussion from my answer here. To both points 1 and 2 in the first article I say: "So what?". I don't need to know if an exception might be thrown, because I understand if it does somethings gone bad. If I'm in a position to handle it, I will, otherwise who cares? Let someone higher in the chain solve the problem. I have no loss here. The second article is pure bogus crap: "I have a dosomething() and cleanup(), if dosomething throws I won't clean up!" Well freaking duh, that's why you put things in containers that clean up for you. Hell now your code is even cleaner... – GManNickG Jul 22 '10 at 21:32
...because you don't even have to be explicit about cleaning up. I don't see the point to the third article. As far as I can tell it's just failed to recognize the purpose of exceptions. (Handle it if you can, and if not it'll automatically go to someone who can.) Much better than error codes (Better not forgot to handle it, or nobody will ever handle it.) As for your code snippet in your answer, I'm afraid I don't see the point. What exactly is wrong? If SomeOtherMethod throws an exception, why would I want to continue? – GManNickG Jul 22 '10 at 21:34
@GMan: SomeMethod could make cleanup on its own, or let the client of SomeMethod do it. The both solutions are right, as long as the "contract" between SomeMethod and the client is not breached. – Alsk Jul 23 '10 at 10:33
@Alsk: I don't follow the terminate bit. I'm not being religious, I'm writing safe code. You can write unsafe, sloppy code if you want, I'm saying don't. – GManNickG Jul 26 '10 at 9:12

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