When I look at the Container requirements on cppreference it lists Destructible as a requirement for value_type. This seems to imply that destructors of container elements may not throw.

I haven't been able to find a citation for this requirement in the C++14 standard (haven't looked in older versions). The only thing I can find is that value_type must be Erasable which doesn't imply any exception safety at all.

So my question is, may the elements in a std::vector have a throwing destructor? If not, what section in the standard prohibits it?

P.S.: Don't worry, I'm not planning to create types with throwing destructors. I'm just writing a standard-conforming implementation and trying to get exception safety right.

  • Table 14 in the C++11 Standard says the same thing your cppreference says of Destructible: "no exception is propagated". – Tony Delroy Nov 13 '14 at 5:43
  • 3
    cppreference updated to agree with Table 96, sorry for rendering your question obsolete – Cubbi Nov 13 '14 at 5:47
  • @TonyD My question is not about Destructible, it's about std::vector. – orlp Nov 13 '14 at 6:58

N4140 [res.on.functions]/2 states:

In particular, the effects are undefined in the following cases:

(2.1) — for replacement functions (18.6.1), if the installed replacement function does not implement the semantics of the applicable Required behavior: paragraph.

(2.2) — for handler functions (,, D.11.1), if the installed handler function does not implement the semantics of the applicable Required behavior: paragraph

(2.3) — for types used as template arguments when instantiating a template component, if the operations on the type do not implement the semantics of the applicable Requirements subclause (, 23.2, 24.2, 26.2). Operations on such types can report a failure by throwing an exception unless otherwise specified.

(2.4) — if any replacement function or handler function or destructor operation exits via an exception, unless specifically allowed in the applicable Required behavior: paragraph.

(2.5) — if an incomplete type (3.9) is used as a template argument when instantiating a template component, unless specifically allowed for that component.

Which is a bit obscure, but saves a lot of space that would otherwise be wasted on "T must meet the Destructible requirements" statements throughout the library clauses.

Notably, this does not imply that elements of a std::vector can't have a throwing destructor; it only means that said destructor must never throw when called from the standard library. So e.g. this program is conforming:

#include <vector>

struct A {
  bool throw_an_int = false;
  ~A() noexcept(false) {
    if (throw_an_int) throw 42;

int main() {
  try {
    A a; 
    a.throw_an_int = true;
    std::vector<A> lots_of_As(42);
  } catch(int&) {}

Yes. The standard says this in general requirements:

[C++11: §23.2.1/10]:

Unless otherwise specified (see,,, and all container types defined in this Clause meet the following additional requirements:

— no erase(), clear(), pop_back() or pop_front() function throws an exception.

Using the clear function as an example (due to it not being an exception to the general requirement) it has the following requirements:

Destroys all elements in a. Invalidates all references, pointers, and iterators referring to the elements of a and may invalidate the past-the-end iterator. Post: a.empty() returns true

Which means that it essentially calls the std::allocator_traits<Alloc>::destroy on all elements. Which delegates over to t->~T() if a.destroy(t) is unavailable. However this implicitly guarantees that neither a.destroy(t) nor t->~T() should throw because it'll violate clear's strong noexcept specification:

// §
void clear() noexcept;

So through deduction we could assert that destructors can throw but they have to be suppressed through some mechanism such as wrapping them in a try-catch block.

†: Upon further inspection, it seems that destructors can throw but the exceptions have to be suppressed as stated in the comments below.

  • 2
    But that doesn't prohibit void clear() noexcept { try { _ActualClear(); } catch(...) { } } implementation, does it? – Joker_vD Nov 13 '14 at 9:39
  • Like @Joker_vD says, noexcept isn't a guarantee that no execution of a function can result in an exception being thrown, it's a guarantee that no exceptions will be emitted from that function. – Casey Nov 13 '14 at 15:26
  • So a custom allocator could provide an exception-suppressing destroy, allowing value_type to have a throwing destructor.. shouldn't your first line then say "Yes"? – Cubbi Nov 22 '14 at 19:21
  • I had accepted your answer Rapptz, but after reading everything again I actually think Casey has got it right. Yes, destructors may throw, however no effects are defined if it happens unless specifically said otherwise. – orlp Dec 13 '14 at 12:27

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