Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Just as I can see in cppreference, the classic "throw" declaration lists is now deprecated in C++11. What is the reason of leaving this mechanism and how should I have to specify what exceptions throws a function of mine?

share|improve this question
add comment

3 Answers

up vote 18 down vote accepted

For more detailed reasoning, see: http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2010/n3051.html

As expressed in the national body comment above, exception specifications have not proven useful in practice. There are numerous discussions of the problems with exception specifications in C++ (see, e.g., [Sutter02], [Boost03]), but the main issues are:

  • Run-time checking: C++ exception specifications are checked at runtime rather than at compile time, so they offer no programmer guarantees that all exceptions have been handled. The run-time failure mode (calling std::unexpected()) does not lend itself to recovery.
  • Run-time overhead: Run-time checking requires the compiler to produce additional code that also hampers optimizations.
  • Unusable in generic code: Within generic code, it is not generally possible to know what types of exceptions may be thrown from operations on template arguments, so a precise exception specification cannot be written.

In practice, only two forms of exception-throwing guarantees are useful: an operation might throw an exception (any exception) or an operation will never throw any exception. The former is expressed by omitting the exception-specification entirely, while the latter can be expressed as throw() but rarely is, due to performance considerations.

[N3050] introduces a new kind of exception specification, noexcept, the specifies that the function will not throw any exceptions. Unlike throw(), noexcept does not require the compiler to introduce code to check whether an exception is thrown. Rather, if a function specified as noexcept is exited via an exception, the result is a call to std::terminate().

With the introduction of noexcept, programmers can now express the two kinds of exception guarantees that are useful in practice, without additional overhead. This paper therefore proposes to deprecate "dynamic" exception specifications, i.e., those that are written as throw(type-id-listopt).

share|improve this answer
    
Looking at [except.spec], note 9, in n3485 it seems that the dynamic check part has been later re-introduced: Whenever an exception is thrown and the search for a handler (15.3) encounters the outermost block of a function with an exception-specification that does not allow the exception, then, if the exception-specification is a dynamic-exception-specification, the function std::unexpected() is called (15.5.2), otherwise, the function std::terminate() is called (15.5.1). (emphasis mine); given the grammar of exception-specification, otherwise clause may only concern noexcept –  Matthieu M. Dec 3 '13 at 8:13
add comment

Only non-empty throw specifications are deprecated. throw() is still fine, and is (roughly1) equivalent to the new noexcept.

Ensuring that a function doesn't/can't throw anything has proven useful. Trying to enforce (at run time) throwing some exceptions but not others has not. Therefore, doing the latter has been deprecated.

There's been widespread advice for quite time that non-empty exception specifications should be avoided in any case. My guess would be that most compilers will allow for a transition, such as allowing and parsing non-empty exception specifications, without actually doing anything to respond to them (e.g., MS VC++ already does this).


  1. Technically, there are two forms of noexcept -- it accepts a Boolean, so you can have noexcept, noexcept(true) or noexcept(false). noexcept and noexcept(true) are equivalent to throw(). noexcept(false) does nothing (included primarily for things like templates, where the template can base its noexcept on some constant expression from a type it contains, functor it invokes, etc.
share|improve this answer
2  
D.4 deprecates the whole syntactical construct called dynamic-exception-specification which is defined as throw(type-id-list[opt]) and therefore includes throw(). –  PlasmaHH Dec 12 '12 at 15:19
add comment

They produce slower and bigger code, because libc++ has to check if any exception propagating out of a function violates it's exception specification and call std::unexpected. This is hardly ever useful, and is worse than just documenting the exceptions a function throws yourself.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.