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Is there a way to either suppress the generation of destructors for global objects (in particular those of collection types such as vector and unordered_map), or to exit a program without calling such destructors (but still flushing stdout, as I gather abort does not do)?

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3 Answers 3

up vote 4 down vote accepted

I believe you're looking for quick_exit and _Exit.

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The simplest way to do that is to create them on the heap, and never release :

std::vector< int > *doNotCallDestructor = new std::vector< int >;
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This is the sort of problem that can be solved robustly with initialization on demand.

std::vector<int> & get_my_vector () {
    static std::vector<int> *vec;
    if (vec) return *vec;
    return *(vec = new std::vector<int>);

In a multi-threaded context, you can use "double checked locking" to initialize the static, or if you have C++11, the following is guaranteed to be thread-safe:

std::vector<int> & get_my_vector () {
    static std::vector<int> *vec = new std::vector<int>;
    return *vec;

Initialization on demand provides the following benefits:

  • Lazy initialization of globals -- this means that if a global is not used, no memory will be allocated for it. Traditional globals occupy resources at the get-go.
  • Immunity to shared library initialization dependencies -- this means if one shared library wants to use the global of another shared library, the Singleton pattern triggers the code to do the initialization of that global on demand. Traditional globals may not yet be initialized when accessed from a different shared library.

Initialization on demand is the same technique used to instantiate a singleton in the Singleton pattern. As we are not limiting the number of instances of vector<int> this idiom is not a Singleton in any sense.

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Actually, the initialization order fiasco can strike as you as you have globals into two different translation units (source files), no need to involve libraries at all. –  Matthieu M. Jun 16 '12 at 9:57
That's not a singleton, it's just a local static (which is better, it doesn't prevent others from creating a vector<int> if they want to) –  Jonathan Wakely Jun 16 '12 at 10:34
I'm not sure "robust" is the right word, since this isn't thread-safe. static std::vector<int> * vec = new std::vector<int>; return *vec; would be better, as long as your compiler guarantees thread-safe initialisation of local statics (which a C++11 compiler must). –  Mike Seymour Jun 16 '12 at 11:55
@JonathanWakely: It is true it is not a singleton in the single instance sense. I was using the pattern to ensure initialization safety. Regards. –  jxh Jun 16 '12 at 13:51
@MikeSeymour: For thread safety, I would have normally used a regular mutex, and so the initialization would fall into the "double checked locking". With C++11, I would assign to the static the result of a new call, then. Regards. –  jxh Jun 16 '12 at 13:54

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