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I'm experimenting with upgrading our pooled fixed-block memory allocator to take advantage of C++11 type traits.

Currently it is possible to force any allocation of any object anywhere to be dispatched to the correct pool by overriding the global new operator in the traditional way, eg

void* operator new (std::size_t size) 
{ // if-cascade just for simplest possible example
   if ( size <= 64 ) { return g_BlockPool64.Allocate(); }
   else if ( size <= 256 ) { return g_BlockPool256.Allocate(); }
   // etc .. else assume arguendo that we know the following will work properly
   else return malloc(size);
}

In many cases we could improve performance further if objects could be dispatched to different pools depending on type traits such as is_trivially_destructible. Is it possible to make a templatized global new operator that is aware of the allocated type, not just a requested size? Something equivalent to

template<class T>
void *operator new( size_t size)
{
  if ( size < 64 ) 
  {  return std::is_trivially_destructible<T>::value ? 
            g_BlockPool64_A.Allocate() : 
            g_BlockPool64_B.Allocate(); } //  etc
}

Overriding the member new operator in every class won't work here; we really need this to automatically work for any allocation anywhere. Placement new won't work either: requiring every alloc to look like

Foo *p = new (mempool<Foo>) Foo();

is too cumbersome and people will forget to use it.

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1  
Neat idea. Though how does being trivially destructible help the memory manager? The manager cares not about construction nor destruction. –  GManNickG May 24 '13 at 23:32
    
@GManNickG If all trivially destructible objects go into the same pool, we can deallocate them en masse by just unmapping the memory page and not calling any destructors at all. It's one OS call instead of millions of deallocations. Useful when all allocations for a level chunk go into a block and you can just throw the thing overboard when leaving that area. There are already other mechanisms to prevent people from holding pointers into this block past their lifetime. –  Crashworks May 24 '13 at 23:33
    
No. Also, return ::new(size); is infinite recursion. –  aschepler May 24 '13 at 23:35
    
Sure, but that has to do with lifetime policies, not memory allocation. You can't just decide to free the memory block whenever, you have to wait for the lifetime of the objects living in that memory to end, no matter how trivial that destruction. And to do that, you have to decide at a single point in your application's code, "okay, this entire block can go (and the lifetimes of the objects residing there will be implicitly ended)". I don't know how a memory manager can decide if some trivially destructible objects belong to one group or another, so this code must reside outside of it. –  GManNickG May 24 '13 at 23:39
    
For what it's worth, the usual way of doing this is by coding up an arena_allocator that is used explicitly in the application layer to group allocations together. –  GManNickG May 24 '13 at 23:41

1 Answer 1

up vote 3 down vote accepted

The short answer is no. The allocation/deallocation functions have the following signatures:

void* operator new(std::size_t);
void* operator new[](std::size_t);
void operator delete(void*);
void operator delete[](void*);

Most deviations from these signatures will result in your function not being used at all. In a typical implementation you're basically replacing the default implementations at the linker level -- i.e., the existing function has some particular mangled name. If you provide a function with a name that mangles to an identical result, it'll get linked instead. If your function doesn't mangle to the same name, it won't get linked.

A template like you've suggested might get used in some cases, but if so, it would lead to undefined behavior. Depending on how you arranged headers (for example) you could end up with code mixing the use of your template with the default functions, at which point about the best you could hope for would be that it crash quickly and cleanly.

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