Is there any other difference between throw() and noexcept apart from being checked runtime and compile time respectively ?

Wikipedia C++11 article suggests that C++03 throw specifiers are deprecated.
Why so, is noexcept capable enough to cover all that at compile time ?

[Note: I referred this question and this article, but couldn't got the solid reason of deprecation.]

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    Accodring to this nice article also noexcept may incur runtime checks. The main difference between them being that breaking noexcept causes std::terminate while breaking throw causes std::unexpected. Also a slightly different stack unwinding behaviour in these cases. – Fiktik Oct 11 '12 at 6:17

Exception specifiers were deprecated because exception specifiers are generally a terrible idea. noexcept was added because it's the one reasonably useful use of an exception specifier: knowing when a function won't throw an exception. Thus it becomes a binary choice: functions that will throw and functions that won't throw.

noexcept was added rather than just removing all throw specifiers other than throw() because noexcept is more powerful. noexcept can have a parameter which compile-time resolves into a boolean. If the boolean is true, then the noexcept sticks. If the boolean is false, then the noexcept doesn't stick and the function may throw.

Thus, you can do something like this:

struct<typename T>
  void CreateOtherClass() { T t{}; }

Does CreateOtherClass throw exceptions? It might, if T's default constructor can. How do we tell? Like this:

struct<typename T>
  void CreateOtherClass() noexcept(is_nothrow_default_constructible<T>::value) { T t{}; }

Thus, CreateOtherClass() will throw iff the given type's default constructor throws. This fixes one of the major problems with exception specifiers: their inability to propagate up the call stack.

You can't do this with throw().

  • +1 Useful answer, for me anyway. Still searching for an answer that says why I would want to use noexcept. I never used throw() specifier, ever and am attempting to determine if noexcept actually provides any benefit (other than compiler checked documentation). – hmjd Feb 20 '13 at 14:16
  • Just found this stackoverflow.com/questions/10787766/… ... – hmjd Feb 20 '13 at 14:17
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    @NicolBolas agree. but if noexcept would be a guarantee, the compiler could check whether a function may throw or not in a destructor. Thus being able to warn a programmer that a function is noexcept or not. – Alex Aug 26 '13 at 10:47
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    @NicolBolas the runtime calls std::terminate. which is WAY WORSE! code can sneak into releases that have functions marked noexcept and at runtime (meaning at customer sites) violations are detected. I meant the compiler guarantees to generate code that doesn't throw exceptions in the first place. – Alex Aug 26 '13 at 11:58
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    @NicolBolas: One other difference worth noting. If a function is marked throws() then if an exception is thrown the stack must be unwound upto the scope of that function (so all automatic variables in the function are destroyed) at which point terminate() is called (via unexpected()). If a function is marked noexcept then if an exception is thrown then terminate is called (the unwinding of the stack is implementation defined detail). – Martin York Sep 17 '13 at 11:39

noexcept isn't checked at compile time.

An implementation shall not reject an expression merely because when executed it throws or might throw an exception that the containing function does not allow.

When a function that is declared noexcept or throw() attempts to throw an exception the only difference is that one calls terminate and the othe calls unexpected and the latter style of exception handling has effectively been deprecated.


std::unexpected() is called by the C++ runtime when a dynamic exception specification is violated: an exception is thrown from a function whose exception specification forbids exceptions of this type.

std::unexpected() may also be called directly from the program.

In either case, std::unexpected calls the currently installed std::unexpected_handler. The default std::unexpected_handler calls std::terminate.

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