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std::vector<int> v;
v.push_back(1); // is this statement guaranteed not to throw?

I've chosen int because it has no constructors that could throw - obviously if some copy constructor of T throws, then that exception escapes vector<T>::push_back.

This question applies as much to insert as push_back, but it was inspired by Is it safe to push_back 'dynamically allocated object' to vector?, which happens to ask about push_back.

In the C++03 and C++0x standard/FCD, the descriptions of vector::insert say that if no reallocation happens, iterators/references before the insertion point remain valid. They don't say that if no reallocation happens, no exception is thrown (unless from constructors etc of T).

Is there anything elsewhere in the standard to guarantee this?

I don't expect push_back to do anything that could throw in this case. The GNU implementation doesn't. The question is whether the standard forbids it.

As a follow-up, can anyone think of a reason why any implementation would throw? The best I can think of, is that if a call to reserve ends up increasing the capacity to a value in excess of max_size(), then insert perhaps is permitted to throw length_error when the max size would be exceeded. It would be useless to increase capacity beyond max_size(), but I don't immediately see anything forbidding that, either [Edit: your allocator would probably stop you increasing capacity beyond max_size, so this suggestion might be no good.]

share|improve this question
Excluding copy constructors that might throw during push_back? – Flexo Nov 15 '10 at 16:28
@awoodland: Steve is specifically using ints to take that off the table – John Dibling Nov 15 '10 at 16:31
@awoodland: yes, and as John says I've picked a specific example which ignores all that, for simplicity. – Steve Jessop Nov 15 '10 at 16:35
Just checking :) – Flexo Nov 15 '10 at 16:35
@Steve Jessop: RE your last paragraph, reserve is defined to throw length_error if it would exceed max_size() (this is independent of anything the allocator may throw). – Steve M Nov 15 '10 at 17:04

Well, it kind of depends on the allocator you are using.

Apart from the allocator, the only thing you can rely on is that push_back() and push_front() are guaranteed to be noop if an exception is thrown (23.1-10). The standard definitely doesn't forbid the push_back() from throwing exceptions.

share|improve this answer
@Let_Me_Be: depends on the allocator in what way? Are you in effect saying that push_back (and presumably any other function of any container) can make arbitrary calls to the allocator that might throw, even when not reallocating? I suppose possibly I should be talking about Alloc::construct rather than constructors of T, but I think an allocator which throws in construct when the relevant constructor of T would not, is violating the standard anyway. I don't care what happens in non-conforming programs :-) – Steve Jessop Nov 15 '10 at 16:34
@Steve Well, the standard explicitly talks about the fact that insert/push_back are noops when an exception is thrown (other than in constructor or assignment of T). On the other hand, the reallocation should only happen when the new size is greater than old capacity. It doesn't make sense to throw anything, but it is obviously allowed. – Let_Me_Be Nov 15 '10 at 16:41
That's my thought too, it's allowed by those clauses about insert. So the only thing that could possibly forbid it, is the other 781 pages of the standard ;-) For instance, if there was some general statement about when vectors can throw. I'm certainly not expecting any general statement about containers or sequences, since deque and list have no capacity, so for them, push_back must always be allowed to allocate memory. – Steve Jessop Nov 15 '10 at 16:45
@Steve I'm not sure about this, but I think system/CPU exceptions can be mapped into C++ runtime, so if they are, this is one case when push_back can throw. – Let_Me_Be Nov 15 '10 at 17:00
As mitigation, though, it isn't possible to write code that's exception-safe under the assumption that an exception could occur literally anywhere: std::swap<int> (int &lhs, int &rhs) { int tmp = rhs; rhs = lhs; /* what if an exception occurs here */ lhs = tmp; }. So I'd be very cross with the compiler vendor, and I would certainly claim that my program was conforming and has the right to expect that swap<int> doesn't set one int equal to the other and then throw. It's another thing entirely to throw an exception where behavior is undefined (e.g. division by 0). – Steve Jessop Nov 15 '10 at 17:31

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