Suppose there exists a type T such that std::is_trivially_destructable<T>::value == true, and suppose further that T is the value type of some vector class. When the vector's destructor is called, or the vector is assigned to another vector, it must destroy and deallocate its current storage. As T is trivially destructable, is it necessary that I call T's destructor?

Thanks for your help!


According to the C++ Standard (section 3.8), you can end an object's lifetime by deallocating or reusing its storage. There's no need to call a destructor that does nothing. On the other hand, letting the compiler optimize away an empty destructor usually results in cleaner and simpler code. Only if you can save substantial additional work, such as iterating through the collection, would you want to special-case trivial destructors.

  • Avoiding iteration overhead in the destructor of vector is a very good reason to optimize that case. – pmr Aug 2 '12 at 15:58
  • Yeah, this is the use case I had in mind when asking the question. If the compiler's really good, it might be able to optimize while (l_ != f_) { --l_; l_->~value_type(); } into l_ = f_, but I'd rather rely on type traits. – void-pointer Aug 2 '12 at 16:04
  • 2
    @void-pointer: Enabling that optimization is the whole point of the C++ Standard language requirement (1.10p24) that every thread must either perform a volatile or synchronization operation, I/O, or terminate. The while loop isn't allowed to be infinite, and since it has no side effects when there's a trivial destructor, the optimization is formally allowed. Even if the compiler can't prove that iterator decrement ever reaches f_. – Ben Voigt Aug 2 '12 at 16:09
  • @void-pointer check your standard library; there's a fair chance that std::vector implements precisely your proposed optimisation. – ecatmur Aug 2 '12 at 16:15
  • The exact rule is 3.8.4: You are not obliged to call any destructor. However, if you choose not to call it, any program that depends on the side effects of destruction gets undefined behavior. This can be specificed: since trivial destructors have no side effects, then you can always decide not to call them with no repercussions. – Cort Ammon - Reinstate Monica Sep 6 '13 at 23:16

libstdc++ (the standard library the gcc uses by default) applies precisely this optimisation:

  117   /**
  118    * Destroy a range of objects.  If the value_type of the object has
  119    * a trivial destructor, the compiler should optimize all of this
  120    * away, otherwise the objects' destructors must be invoked.
  121    */
  122   template<typename _ForwardIterator>
  123     inline void
  124     _Destroy(_ForwardIterator __first, _ForwardIterator __last)
  125     {
  126       typedef typename iterator_traits<_ForwardIterator>::value_type
  127                        _Value_type;
  128       std::_Destroy_aux<__has_trivial_destructor(_Value_type)>::
  129     __destroy(__first, __last);
  130     }

And the specialisation of std::_Destroy_aux for __has_trivial_destructor(_Value_type) == true:

  109   template<>
  110     struct _Destroy_aux<true>
  111     {
  112       template<typename _ForwardIterator>
  113         static void
  114         __destroy(_ForwardIterator, _ForwardIterator) { }
  115     };

I would expect that most other well-written standard library implementations do the same.

  • Thanks for the actual source listing! It's good to know that my implementation makes use of this optimization. I actually wanted to know because I was writing a different data structure. – void-pointer Aug 2 '12 at 16:50

No, you don't need to call the destructors explicitly. This will be done by the vector's destructor.

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