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c++ - operator new overloading and alignment

I'm overloading operator new, but I recently hit a problem with alignment. Basically, I have a class IBase which provides operator new and delete in all required variants. All classes derive from IBase and hence also use the custom allocators.

The problem I'm facing now is that I have a child Foo which has to be 16-byte aligned, while all others are fine when aligned to 8-byte. My memory allocator however aligns to 8-byte boundaries only by default, so now the code in IBase::operator new returns an unusable piece of memory. How is this supposed to be solved correctly?

I can simply force all allocations to 16 bytes, which will work fine until a 32-byte aligned type pops up. Figuring out the alignment inside operator new doesn't seem to be trivial (can I do a virtual function call there to obtain the actual alignment?) What's the recommended way to handle this?

I know malloc is supposed to return a piece of memory which is suitably aligned for everything, unfortunately, this "everything" doesn't include SSE types and I'd really like to get this working without requiring the user to remember which type has which alignment.

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This is a possible solution. It will always choose the operator with the highest alignment in a given hierarchy:

#include <exception>
#include <iostream>
#include <cstdlib>

// provides operators for any alignment >= 4 bytes
template<int Alignment>
struct DeAllocator;

template<int Alignment>
struct DeAllocator : virtual DeAllocator<Alignment/2> {
  void *operator new(size_t s) throw (std::bad_alloc) {
    std::cerr << "alignment: " << Alignment << "
";
    return ::operator new(s);
  }

  void operator delete(void *p) {
    ::operator delete(p);
  }
};

template<>
struct DeAllocator<2> { };

// ........... Test .............
// different classes needing different alignments
struct Align8 : virtual DeAllocator<8> { };
struct Align16 : Align8, virtual DeAllocator<16> { };
struct DontCare : Align16, virtual DeAllocator<4> { };

int main() {
  delete new Align8;   // alignment: 8
  delete new Align16;  // alignment: 16
  delete new DontCare; // alignment: 16
}

It's based on the dominance rule: If there is an ambiguity in lookup, and the ambiguity is between names of a derived and a virtual base class, the name of the derived class is taken instead.


Questions were risen why DeAllocator<I> inherits DeAllocator<I / 2>. The answer is because in a given hierarchy, there may be different alignment requirements imposed by classes. Imagine that IBase has no alignment requirements, A has 8 byte requirement and B has 16 byte requirement and inherits A:

class IBAse { };
class A : IBase, Alignment<8> { };
class B : A, Alignment<16> { };

Alignment<16> and Alignment<8> both expose an operator new. If you now say new B, the compiler will look for operator new in B and will find two functions:

            // op new
            Alignment<8>      IBase
                 ^            /
                           /
                         /
 // op new             /
 Alignment<16>         A
                     /
                   /
                 /
                 B 

B ->      Alignment<16>  -> operator new
B -> A -> Alignment<8> -> operator new

Thus, this would be ambiguous and we would fail to compile: Neither of these hide the other one. But if you now inherit Alignment<16> virtually from Alignment<8> and make A and B inherit them virtually, the operator new in Alignment<8> will be hidden:

            // op new
            Alignment<8>      IBase
                 ^            /
                /          /
              /          /
 // op new  /          /
 Alignment<16>         A
                     /
                   /
                 /
                 B 

This special hiding rule (also called dominance rule) however only works if all Alignment<8> objects are the same. Thus we always inherit virtually: In that case, there is only one Alignment<8> (or 16, ...) object existing in any given class hierarchy.


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