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Destructors may not throw exceptions (so stack unwinding can complete during exception handling), and must deallocate any resources allocated to the object (so no resources leak). A design for an object that contains several other objects (or is allocated several resources) might record pointers to them in an STL container. The destructor would therefore use the following iterator-related methods:

  • begin(), end() for the container
  • operator++ for a valid iterator
  • operator* or operator-> for a valid iterator

But to guarantee that the destructor both does not throw exceptions and deallocates its resources you would need to rely on those methods never throwing exceptions.

Is it safe to rely on those methods never throwing exceptions? It is hard to imagine a practical implementation that would throw exceptions, as under the hood an STL iterator is essentially a pointer. But does standard C++ require that those methods never throw exceptions? I've not found a clear statement in the C++ standard.

Edit: The interesting case is for C++ 03 when you want to have a container of pointers to resources. There are good reasons for doing this; for example, if you have polymorphic resources. As Björn Pollex points out in his answer, if you use a container of resources (such as a std::list< Resource >) rather than a container of pointers to resources, the destructor of the container will take care of destruction (deallocation) of the Resource objects for you.

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"as under the hood an STL iterator is essentially a pointer" - you should never rely on that assumption. The concept is based on pointer, but implementation not necessarily. – mloskot Oct 26 '11 at 12:57
Destructors may throw exceptions, actually... as long as they catch them :). The rule is "an exception can't propagate out of a destructor". – Kos Oct 26 '11 at 13:05
The rule isn't even that, it's "if an exception propagates out of a destructor, the program will terminate under certain conditions". And I think it may have UB under certain conditions too, if the destructed object is part of an array and/or container, I can't remember. Whether you consider terminate an acceptable demise for your program depends on the program, although obviously if you're writing components that are supposed to be easily re-usable then you'd avoid it. – Steve Jessop Oct 26 '11 at 13:06
up vote 15 down vote accepted

operator++ for a valid iterator

The C++ standard (I refer to N3290 draft) does not give nothrow guarantee for increment operator of iterators.

For example, std::istreambuf_iterator::operator++ effects in call to std::basic_streambuf::sbumpc. The sbumpc may call uflow which in turn may throw exception.

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+1 for good counterexample. – MSalters Oct 27 '11 at 11:43
+1 for drawing attention to the lack of nothrow. – Raedwald Oct 27 '11 at 11:59
I appreciate MSalters & Raedwald – mloskot Oct 27 '11 at 12:17
This is, however, specified behavior, i.e. it's required that istreambuf_iterator::operator++ have this effect. But importantly, the operator should not throw an exception if sbumpc doesn't. This is generally true - an iterator over a defined range (a container) can't just arbitrarily throw an exception when incremented within that range. Otherwise, an implementation could simply always throw an exception and still satisfy the requirements of the spec. – davmac Nov 21 '15 at 13:02

no copy constructor or assignment operator of a returned iterator throws an exception

That's from the C++03 standard. I don't think that the standard goes any further than that.

Btw. it's 23.1.10

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Leaving the increment and dereference operators, and begin() and end()`. – Raedwald Oct 26 '11 at 12:28
@Raedwald I don't think that the standard requires iterator operations to be non-throwing. – Let_Me_Be Oct 26 '11 at 12:51

The destructor would therefore use the following iterator-related methods

No it would not. The destructor of that object would just call the destructor of the container, which would in turn be guaranteed to not throw an exception.

If you use RAII correctly, you will almost never run into a scenario where you have to explicitly release resources. This could be achieved by have the container store shared_ptr or unique_ptr, or by using something like Boost.Pointer Container.

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In the case of a std::vector< Resource >, yes. But not in the case of std::vector< Resource * >. – Raedwald Oct 26 '11 at 12:24
@Raedwald: I have extended my answer. This scenario should be cover by using the appropriate classes for resource-management. – Björn Pollex Oct 26 '11 at 12:26
shared_ptr, unique_ptr, Boost: I'm asking about standard C++ 2003. – Raedwald Oct 26 '11 at 12:26
@JoachimPileborg: You cannot put an auto_ptr into a standard container. – Björn Pollex Oct 26 '11 at 12:40
For the reasons that you may not create STL containers of std::auto_ptr see… – Raedwald Oct 27 '11 at 8:25

According to these operations (for '*' and '->' it depends also on the type stored) are no throw for STL containers.

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You can in general rely on iterator operations not throwing exceptions if you constrain them to the bounds for which the operations are defined - simply because the operations are defined. If you iterate over the elements in a vector for instance then the operator++ of the iterator is required to advance to the next element, and that requirement precludes throwing an exception (unless you go past the end of the container).

Note that in C++11 at least, begin() and end() are declared as noexcept. But even in C++03, no allowance is made for begin() and end() to throw any exceptions - they must behave as the specification requires.

(What is perhaps missing from the spec is an explicit statement of this requirement - i.e. that an iterator ranges over the items in the container. But this seems to be at least implied, since otherwise iterating over a container is in general not possible).

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