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My team is working on an application, where we need to track memory usage, and provide statistics on how much memory areas of the program utilize (e.g. N bytes used by uncontrolled STL containers). I need to find a way to identify memory allocated in 3rd party libs from STL containers.

The application makes use of 3rd party libraries that either we don't have access to the source code, or have been directed not to make changes to the source. Some of these libraries use standard STL containers, like std::vector<int>, but they have used (or appear to use, in the case of the closed libs) the default std::allocator. We are targeting Windows, with future work planned for Mac and Linux platforms, using C++17 as much as possible.

I've overridden the malloc and free functions; overridden new, new[], delete and delete[] operators; and created an STLAllocator class derived from std::allocator that is used as the _Alloc template parameter for our use of STL containers. For the libraries that provide hooks to replace the memory allocators, I have done so. When the STL containers in the remaining 3rd partly libs use the default std::allocator, I can see their new and delete calls come through the new and delete overrides, but these appear no different to tracking than a call to new or delete made from main.

I've read many great descriptions of how to declare and use your own std::allocator class, been reminded of the template parameter equality issue when providing different allocators, and made aware of an upcoming solution using std::experimental::pmr::polymorphic_allocator, but I haven't found a definitive answer to my question. Is there a way to supplant the default std::allocator for 3rd party libs that don't provide a hook to override the default std::allocator used by STL containers?

For anyone interested, here is the link that describes the template parameter equality issue; it's also a good overview of std::allocator in general: https://blog.feabhas.com/2019/03/thanks-for-the-memory-allocator/

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    You can modify all new expressions in the main application to use a custom overload of operator new and distinguish them from library code that way if that is an acceptable solution.
    – walnut
    Apr 10 '20 at 21:54
  • Unfortunately, this is more of a general-purpose tracking, and is not supposed to impose overloading new and delete for each class.
    – Paul
    Apr 10 '20 at 22:01
  • @walnut, Ah, sorry, I misunderstood what you meant. Yeah, as mentioned above, I've already overloaded new, new[], delete and delete[]. The issue with this solution is that std::alllocator calls new, which comes through the overloaded new, and there's no way to distinguish them for tagging.
    – Paul
    Apr 10 '20 at 22:05
  • @walnut Yes, I've already done both. e.g. operator new(std::size_t) and operator new(std::size_t, const char* libID, const char* file, uint32_t line). Yes, I could extend that to include another tag. My initial problem though is that I need to distinguish the STL container allocations coming from the libraries. So, this could separate the main application from the other libraries, but not separate out what libraries are making the allocations.
    – Paul
    Apr 10 '20 at 22:23
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    ok, the last part answers my original question. In that case I don't think there is any reliable solution maybe aside from inspecting the call stack in operator new to decide the origin of the call.
    – walnut
    Apr 10 '20 at 22:25
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Is there a way to supplant the default std::allocator for 3rd party libs that don't provide a hook to override the default std::allocator used by STL containers?

Not in general; especially for things that you don't have source code for.

Consider (for example) a call to std::allocator<int>::allocate. Chances are, it's marked as inline, which means that the body of the function has been embedded in the object code that you're linking. Providing your own copy of that function at link time (or in a separate dylib) will have no effect.

Providing your own global operator new is probably the best you can do.

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  • Yeah, based on what I've found so far, I was afraid that was the answer; but I figured I would ask in case there was something I was missing.
    – Paul
    Apr 10 '20 at 21:56
  • At least in the case of VS17, they don't appear to mark it as inline: ``` _NODISCARD _DECLSPEC_ALLOCATOR _Ty * allocate(_CRT_GUARDOVERFLOW const size_t _Count) { // allocate array of _Count elements return (static_cast<_Ty *>(_Allocate<_New_alignof<_Ty>>(_Get_size_of_n<sizeof(_Ty)>(_Count)))); } ```
    – Paul
    Apr 10 '20 at 21:57
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    @Paul Functions defined in a class body are inline by default and it also doesn't really matter, because std::allocator is a class template which results in essentially the same issue as with inline if the std::allocator specialization is not explicitly specialized.
    – walnut
    Apr 10 '20 at 22:00
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    @Paul I am talking about the inline specifier. Whether or not the function is inlined is always up to the compiler and not related to inline, but if a function is inline or a template specialization, then the object code for the function is guaranteed to be present in the library. In any case, the issue pointed out by @MarshallCrow is that the relevant functions may be inlined and so there is nothing you can do to change their behavior. operator new and malloc are special, because they are specifically allowed to be replaced by the C++ and POSIX(?) standards respectively.
    – walnut
    Apr 10 '20 at 22:07
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    @Paul Yes, see second sentence on en.cppreference.com/w/cpp/language/inline.
    – walnut
    Apr 10 '20 at 22:14

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