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1) I have some static classes in my project that allocate variables within their constructors.

class StaticClass
    char *var;
        var=new char[100];
static StaticClass staticClass;

2) I have overridden the new and delete operators and made them keep track of all current allocations in a std::unordered_map

unordered_map<void*,size_t> allocations;

void* operator new[](size_t size)
    void *p=malloc(size); 
    if (p==0) // did malloc succeed?
        throw std::bad_alloc(); // ANSI/ISO compliant behavior
    return p;

When my program starts, staticClass's constructor is called before allocations' constructor is, so operator new() tries to insert size into allocations before it has been initialized, which errors.

Previously, when I ran into problems with the order of static construction, I simply made the std::map into a NULL pointer, and then initialized it the first time it was used, ensuring it would be valid the first time I inserted it:

unsorted_map<void*,size_t> *allocations=NULL;

//in code called by static constructor:
    allocations=new unsortedmap()
//now safe to insert into allocations

However, this will no longer work since I would be calling new within operator new(), creating an infinite recursive loop.

I am aware that I could probably solve this by making another special version of operator new that takes some token argument to differentiate it, and just use that to initialize allocations, however in a more general (learning) sense, I would prefer to somehow either

a) force allocations to initialize before StaticClass does (best)

b) have some way to call the default operator new instead of my overridden one (which I don't think is possible, but...)

c) some other more general solution?

share|improve this question
It seems like this has the potential of infinite recursion anyway, if the map ends up using your operator new to allocate space internally. Seems like you'll want a custom allocator for your map. – Vaughn Cato Oct 21 '12 at 19:56
"this" meaning what? I pointed out the solution of making a custom allocator for the map, but would prefer to actually learn a more general solution if one exists – zacaj Oct 21 '12 at 19:58
"this" meaning defining a custom operator new which the map might use internally. – Vaughn Cato Oct 21 '12 at 19:59
By "Custom allocator" I'm not referring to a different operator new. I'm referring to the fifth template parameter to unordered_map<Key,T,Hash,Pred,Alloc>. – Vaughn Cato Oct 21 '12 at 20:08
up vote 0 down vote accepted

A simple way to avoid initialization order issues is to wrap your static object inside a function:

unordered_map<void*,size_t> &allocations()
  static unordered_map<void*,size_t> static_map;
  return static_map;

Then use it like this:

void* operator new[](size_t size)
    void *p=malloc(size); 
    if (p==0) // did malloc succeed?
        throw std::bad_alloc(); // ANSI/ISO compliant behavior
    return p;

However, you still run the risk of std::unordered_map using your operator new internally.

share|improve this answer
Turns out a custom allocator was required to avoid infinite recursion – zacaj Oct 21 '12 at 20:50

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