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I have below piece of code

class Test 
    Test(int i) {}

  void* operator new (size_t size)
      void *p = malloc(size);
      return p;
  //void* operator new (size_t size, Test *p)
     // return p;

int main() { 
   Test *p = new Test;
   int i = 10;
   new(p) Test(i);

Above piece of code does not compile in visual studio, unless i uncomment out the overloaded placement new operator function. If i comment out normal overloaded new, in that case also it works fine. Is overloading of placement new mandatory when overloading normal new operator(If placement new need to be used for that class)

Placement delete related code is not shown here.

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3 Answers 3

up vote 3 down vote accepted

Usually no, since it's not often used. But it might be necessary, since when you overload operator new in a class, it hides all overloads of the global ::operator new.

So, if you want to use placement new on objects of that class, do; otherwise don't. Same goes for nothrow new.

If you've just changed the allocation scheme, and you're surprised that someone somewhere is using placement new behind your back, that might be something to investigate before applying this band-aid.

If the class is used inside standard library containers, not directly with new, the custom allocation scheme should be defined by an Allocator class, not an overload. The default allocator std::allocator does not respect member operator new overloads, but bypasses them. See below.

Disclaimer: class-scope operator new overloads are mainly useful for debugging, and even then it's tricky to get reliably meaningful semantics. Beware:

  • You need to also overload operator delete. (Not done in the example in this question.)

  • Overloads will be bypassed by the qualified syntax ::new T. You cannot prevent such bypassing. This is the way that std::allocator<T> allocates things. You can specialize std::allocator for your types, but that's some way into the rabbit-hole already.

  • For each ::operator new overload introduced by any library, including the canonical placement new from <new>, you will have to consider whether it applies to your class and decide whether to add an overload, or otherwise contend with the failure of unqualified new expressions.

  • For each ::operator new you adopt into your class, you must supply the corresponding member placement operator delete with correct semantics. This is called in case the constructor exits by exception. Failing to have it would result in a memory leak only under very specific circumstances, in a possibly resource-constrained pool.

In summary, member operator new is the antithesis of defensive coding.

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Actually it is a good idea to implement placement and nothrow new whenever you implement custom new for this very reason. You could break existing code by failing to provide the six versions of new and delete (don't forget array forms). – Alexandre C. Aug 30 '10 at 11:52
placement new isn't often used in code, but STL containers frequently use it to separate their memory allocation from their object construction. – Philip Potter Aug 30 '10 at 11:52
@Philip: That's a red flag then, since std::allocator obtains its memory from ::operator new. In that case, the solution is to implement a custom allocator, not to enable the standard one. – Potatoswatter Aug 30 '10 at 11:55
@Potato: no, that's not the problem. The problem is that if std::vector<MyClass> needs a placement new to construct a MyClass, then MyClass had better provide one. It doesn't matter where the vector got its memory from. – Philip Potter Aug 30 '10 at 12:01
@Philip: If vector is getting its memory from the wrong place, that's a bug. Implementing a custom allocator will also likely require placement new (to the letter of the law, anyway), so it will likely go back in one way or another. Maybe I shouldn't jump to conclusions, but it's definitely an issue. – Potatoswatter Aug 30 '10 at 12:03

implementations of std::_Construct use the global placement new. So concerns about STL compatability should not be concerns. But the concern about breaking existing code, that may have been written

new ((void*)p) thing;

rather than

::new ((void*)p) thing;

is certainly a valid point.

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Placement new operator doesn't exist by default for a class so when you're making a call to new(p) Test(i); C++ compiler can't find a definition of the commented function in the above example. If you uncomment the placement operator new for your class, and comment out the "normal" one then the default "normal" new operator will be used and your code will compile.

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