If I replace all the operator new signatures that I can, at least on the implementations I have tested, I see that the standard containers call into my replaced versions to allocate memory.

Is this guaranteed by the standard? That is, would it be illegal for an implementation to use an optimized version which didn't call my replacement functions for the memory underlying the standard containers?

  • I believe that yes, at least in practice. However, I don't know well enough the C++ standard to cite it – Basile Starynkevitch Oct 19 '17 at 5:17
  • The context of this question is: could std::vector<T> (with default allocator) use realloc and calloc instead of the weaker new API. new can't take advantage of getting already-zeroed pages from the OS (avoiding memset(0)), or extending a mapping if possible, when nothing else is using that virtual address space. – Peter Cordes Oct 19 '17 at 5:46
  • Note that some containers (std::string in particular) may not store all elements in allocated memory, but might store some in the container object itself. Google "Small String Optimization" for details. – MSalters Oct 19 '17 at 8:16
  • If that guarantee is important to your program, at the potential cost of performance loss, you also have the choice of allocating them yourself the way you want, and only storing pointers in the container – bartoli Oct 19 '17 at 12:40
  • @PeterCordes I don't think this is possible. Even if global operator new is replaced, std::vector<T> still relies on allocator interface to do allocations and that interface does not provide a way to allocate default-initialized array or way to reallocate data - those operations are done by vector itself. In theory std::vector<T> could probably be specialized for standard layout types using standard allocator to use more effecient tecnique, but I don't think anyone does this. – Ivan Nov 17 '17 at 11:57

The default allocator for allocator-aware containers such as std::vector<T> is std::allocator<T>. This class template is described in section [default.allocator] of the standard. According to [allocator.members]/6 in C++14:

the storage is obtained by calling ::operator new(std::size_t)

So the global operator new is the one that you need to replace. If you overloaded operator new specifically for T, that overload will not be used by the default allocator.

  • 2
    So it would be illegal for a std::vector implementation to actually use calloc under the hood, even on a platform where new and malloc are compatible, unless the library + compiler could detect / prove that ::operator new(std::size_t) hadn't been overridden? (In which case the as-if rule should allow it with whole-program optimization). The "unspecified when and how new is called" language is enough to optimize away or merge some allocations, but wouldn't allow bypassing new altogether, right? – Peter Cordes Oct 19 '17 at 6:26
  • @PeterCordes I'm pretty confident that that's the correct interpretation, yes. – Brian Oct 19 '17 at 6:55

Is this guaranteed by the standard?

As long as you don't use a custom allocator to create an instance of a container, I believe that is true.

From http://en.cppreference.com/w/cpp/memory/allocator

The std::allocator class template is the default Allocator used by all standard library containers if no user-specified allocator is provided.


From http://en.cppreference.com/w/cpp/memory/allocator/allocate:

Allocates n * sizeof(T) bytes of uninitialized storage by calling ::operator new(std::size_t)

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