Is it possible to overload the new operator so that an object isn't created, but instead return an existing object.

If that is possible, how could you create the objects in the first place :D

This sounds weird I know. I'm trying to hide some details from the client. I am making a game on PS2, I'd like to have the New Foo() syntax but want a list of premade objects that can be used instead.

I don't see to circumvent this as the new operator returns a pointer to available memory.

new Foo;

struct Foo
    void* operator new(std::size_t)
        // return pre made obj.

up vote 2 down vote accepted

You can overload operator new, but that overloaded operator doesn't return an object. It returns the memory for an object, and the implementation arranges for the constructor to be called.

So you can't do quite what you want.

Instead, if the cost you're trying to avoid is that of memory allocation, then your overload can assign some memory from a pre-allocated block. Obviously you're then responsible for tracking what's free and what isn't, and your challenge is to do this more efficiently than the allocator that comes with the PS2 devkit. That might not be too hard - you have an unfair advantage if you're only dealing with one class, and assuming nobody derives from it, that the size of the allocations is fixed.

If the cost you're trying to avoid is that of calling the constructor, then operator new doesn't help you, but you could write a sort of wrapper:

struct FooWrapper {
    Foo *foo;
    FooWrapper(): foo(choose_a_pre_existing_foo()) { }
    ~FooWrapper() {
        foo->reset(); // clear up anything that shouldn't be kept
    FooWrapper(const FooWrapper &);
    FooWrapper &operator=(const FooWrapper &);

Foo *choose_a_pre_existing_foo() {
    // possibly some kind of synchronization needed if list is global
    // and program is multi-threaded.
    if list_of_foos.empty() {
        return new Foo();
    } else {
        Foo *f = list_of_foos.back();
        return f;
  • This looks like the ticket. Thanks Steve. – user245019 Jul 19 '11 at 16:04

As far as I know, you can't change this aspect of new that it actually constructs the object. The overloaded operator just returns raw memory, and then the language constructs the object automatically in this memory. You don't control that step.

Anyway, if you don't get a new object, what would be the point of that syntax?

  • I wanted to hide the fact from the client. instead of having a special way of getting at objects pre-made. So that new PhysicsObject would give the appearance of a new one, even though it may actually already be existing. – user245019 Jul 19 '11 at 15:06
  • @PhilCK: It's not just "weird"; it's wrong. Don't try to fool your clients like this. – Lightness Races in Orbit Jul 19 '11 at 15:16
  • @PhilCK: You can't get pre-made objects. New will always invoke the constructor. You can have the memory for making new objects come from a preallocated pool. – UncleBens Jul 19 '11 at 15:17
  • @UncleBens thanks. – user245019 Jul 19 '11 at 15:22
  • @PhilCK, I think the probability of unintended consequences make this idea something to avoid. How would this impact other libraries etc? – David Jul 19 '11 at 15:28

Should tell you all you need to know!

or maybe even this

operator new is a global function which you can override.

Don't forget you need to also provide an operator delete, if you provide an operator new.

I'm guessing you are trying to set up a memory pool, remember to actually measure performance with and without, as its not always worth the hassle IMHO.

Edit: Reading between the lines of your question and some of the other answers, my guess is you really want to leave overloading new / delete and singleton pattern alone. Instead go for a factory pattern approach.

All of your code calls a


function, (instead of constructing the object) which returns the next pointer in an array. An array of pointers to objects which you created in the normal way in the initialisation of your program.

 whatsit* GetNewWhatsit()
  if (num_of_objects > ARRAY_SIZE(whatsit_cache))
   return 0;
   return whatsit_cache[num_of_objects++];  // post inc. on purpose 
  • You can do that, but here be dragons! Also, you really shouldn't because it violates the normal meaning of new/delete – spraff Jul 19 '11 at 15:04
  • 1
    @spraff I agree, but he did ask... – Chris Huang-Leaver Jul 19 '11 at 15:06
  • If he asked for a gun to open a tin of beans, would you give him one? – spraff Jul 19 '11 at 15:10
  • @Chris Huang-Leaver Yes memory pools are involved. Part of the problem is that the PS2 is painful slow at runtime allocations and some help is needed. I am making a 2D physics engine of sorts, and I want it to be as user friendly as possible. – user245019 Jul 19 '11 at 15:10
  • 2
    ew, – Lightness Races in Orbit Jul 19 '11 at 15:17

Overloading new is fraught with peril. It's more than just C++'s malloc, it has important semantics for object lifetimes and exception safety and so on.

When you call new the constructor gets called. You don't want to construct an object twice because you can't sensibly destroy it twice. At best you will leak resources.

You might want more than a mere singleton, maybe try something like this:


struct Foo {
    static Foo instance_a;
    static Foo instance_b;
    enum Predefined {
    static Foo & instance (Predefined);
    // ...


Foo Foo :: instance_a (1, 2, 3);
Foo Foo :: instance_b ("alpha");

namespace {
    Foo alice;
    Foo bob (1, "x");

Foo & Foo :: instance (Predefined name) {
    // ...
    return alice;

Loads of possibilities.

  • But overloading operator new has nothing to do with the construction part of a new expression. – Luc Danton Jul 19 '11 at 15:27
  • You can construct without invoking new, it's called "placement new", but you can't call operator new without there being a constructor. – spraff Jul 19 '11 at 15:29
  • On the contrary, you can call operator new(size) (or other forms, or a class-wide one) anytime you want, try it (but that's not really relevant to what's at hand). – Luc Danton Jul 19 '11 at 15:32

If you want a single object, the Singleton pattern can be used. If you want multiple objects, you need an object pool.

  • No I'm not after one instance, rather I have a lot of instances in a list, which are created before the game starts, and new would simply pull a pre existing instance off the list. – user245019 Jul 19 '11 at 15:01
  • Then you want an object pool. I've updated my answer. – Stijn Jul 19 '11 at 15:23

Not only you can't modify operator new to do what you want (it's an allocation function only), you shouldn't. Subverting the meaning of a new expression would make your code harder to understand, for no benefits at all.

If you want brand new functionality, then write code! Here, what you need might be a class (we can't tell), or maybe just be a function:

template<typename T, typename... U>
std::shared_ptr<T> // for one std::shared_ptr seems appropriate
make(U&&... u);

The client code then uses this factory-like function to obtain the objects it needs. What does the function actually do? Does it cache objects using a Flyweight pattern? Does it cache memory instead of objects? The client code doesn't care and doesn't want to. All it cares is that it obtains the object it asks for.

Meanwhile, the code in the function does whatever it needs to. If tomorrow you realize you got it wrong, you can change the code inside and hopefully it won't affect the rest. At least it has a fighting chance to.

I would suggest using the bridge pattern.

This means that your client can call new as normal on a trivial public class that internally makes the choice about what to construct or not construct.

The contained class can be private to your library.

The thing about using operator ::new is that the compiler will automatically generate an opcode to call the constructor after the call to new, so new itself isn't in charge of the constructor. What you want is either a singleton:

struct Foo
    static Foo& NewObject()
        static Foo* _foo = new Foo;
        return *_foo;

or some kind of array:

struct Foo
    static Foo& NewObject()
        static Foo* _foo = new Foo[128];
        static int index = 0;

        if(index == 128)
            index = 0;
        return _foo[index++];

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