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If function or class method throws an exception, it is considered to be a good practice to signify this in the function's signature? Consider:

bool some_func() throw(myExc)
  if (problem_occurred) 
    throw myExc("problem occurred");

Why should we do this? What are the advantages and disadvantages of such a programming style?

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See this recent related question: stackoverflow.com/questions/1037575/… –  laalto Jun 28 '09 at 18:10
And stackoverflow.com/questions/88573/… –  akauppi Sep 11 '09 at 11:05

5 Answers 5

up vote 64 down vote accepted

No, it is not considered good practice. On the contrary, it is generally considered a bad idea.

http://www.gotw.ca/publications/mill22.htm goes into a lot more detail about why, but the problem is partly that the compiler is unable to enforce this, so it has to be checked at runtime, which is usually undesirable. And it is not well supported in any case. (MSVC ignores exception specifications, except throw(), which it interprets as a guarantee that no exception will be thrown.

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Yes. There are better ways of adding whitespace to your code than throw (myEx). –  Assaf Lavie Jun 28 '09 at 18:36
It's not a matter of being unable to enforce it at compile time. Java compilers can enforce it, after all. It's that it's not supposed to be enforced at compile time. The function is completely allowed to throw other exceptions, but if it does, then unexpected() must be called. –  Rob Kennedy Jun 28 '09 at 20:48
Er, unless you mean C++ compilers are unable to enforce it because the standard forbids them from doing so. –  Rob Kennedy Jun 28 '09 at 20:50
yeah, people who just discover the exception specifications often assume that they work like in Java, where the compiler is able to enforce them. In C++, that won't happen, which makes them a lot less useful. –  jalf Jun 28 '09 at 21:23

Jalf already linked to it, but the GOTW puts it quite nicely why exception specifications are not as useful as one might hope:

int Gunc() throw();    // will throw nothing (?)
int Hunc() throw(A,B); // can only throw A or B (?)

Are the comments correct? Not quite. Gunc() may indeed throw something, and Hunc() may well throw something other than A or B! The compiler just guarantees to beat them senseless if they do… oh, and to beat your program senseless too, most of the time.

That's just what it comes down to, you probably just will end up with a call to terminate() and your program dying a quick but painful death.

The GOTWs conclusion is:

So here’s what seems to be the best advice we as a community have learned as of today:

  • Moral #1: Never write an exception specification.
  • Moral #2: Except possibly an empty one, but if I were you I’d avoid even that.
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I'm not sure why would I throw an exception and wouldn't be able to mention it. Even if it's thrown by another function I do know what exceptions could be thrown. The only reason I can see is because it's tedious. –  MasterMastic Jun 9 '13 at 10:05
@Ken: The point is that writing exception specifications has mostly negative consequences. The only positive effect is that it shows the programmer what exceptions can occur, but since it's not checked by the compiler in a reasonable way it's prone to errors and therefore not worth a lot. –  sth Jun 9 '13 at 15:42
Oh okay, thanks for responding. I guess that's what documentation is for. –  MasterMastic Jun 9 '13 at 18:11

When throw specifications were added to the language it was with the best intentions, but practice has borne out a more practical approach.

With C++, my general rule of thumb is to only use throw specifications to indicate that a method can't throw. This is a strong guarantee. Otherwise, assume it could throw anything.

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Well, while googling about this throw specification, I had a look at this article :- (http://blogs.msdn.com/b/larryosterman/archive/2006/03/22/558390.aspx)

I am reproducing a part of it here also, so that it can be used in future irrespective of the fact that the above link works or not.

   class MyClass
    size_t CalculateFoo()
    size_t MethodThatCannotThrow() throw()
        return 100;
    void ExampleMethod()
        size_t foo, bar;
            foo = CalculateFoo();
            bar = foo * 100;
            printf("bar is %d", bar);
        catch (...)

When the compiler sees this, with the "throw()" attribute, the compiler can completely optimize the "bar" variable away, because it knows that there is no way for an exception to be thrown from MethodThatCannotThrow(). Without the throw() attribute, the compiler has to create the "bar" variable, because if MethodThatCannotThrow throws an exception, the exception handler may/will depend on the value of the bar variable.

In addition, source code analysis tools like prefast can (and will) use the throw() annotation to improve their error detection capabilities - for example, if you have a try/catch and all the functions you call are marked as throw(), you don't need the try/catch (yes, this has a problem if you later call a function that could throw).

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The only practical effect of the throw specifier is that if something different from myExc is thrown by your function, std::unexpected will be called (instead of the normal unhandled exception mechanism).

To document the kind of exceptions that a function can throw, I typically do this:

some_func() /* throw (myExc) */ {
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It's also useful to note that a call to std::unexpected() usually results in a call to std::terminate() and the abrupt end of your program. –  sth Jun 28 '09 at 18:28
- and that MSVC at least does not implement this behavior as far as I know. –  jalf Jun 28 '09 at 19:14

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