# Access std::map within operator new called by static constructor

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

class StaticClass
{
public:
char *var;
StaticClass()
{
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
allocations[p]=size;
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:
if(allocations==NULL)
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?

-
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

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
allocations()[p]=size;
return p;
}


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

-
Turns out a custom allocator was required to avoid infinite recursion –  zacaj Oct 21 '12 at 20:50