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Suppose that Foo is a rather large data structure. How should I write a const virtual function that returns an instance of Foo, if I don't know whether the inherited classes will store the instance of Foo internally; thus, allowing a return by reference. If I can't store it internally, my understanding is I can't return a const reference to it because it will be a temporary. Is this correct? The two options are:

virtual Foo foo() const { ... }
virtual Foo const & foo() const { ... }

Here's a related question but from a different angle.

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Judging by how many people you've caught off-guard with their answers, this is a great question. It's also something I was forced to consider the other day when designing a class interface. I didn't come up with a particularly good solution, but haven't taken the time to ask the question myself. +1 – Cody Gray Jun 28 '11 at 12:07
3… – user195488 Jun 28 '11 at 12:11
@0A0D I don't think Herb Sutter's article is relevant since in his case he returned an object by value and then referenced it. In this case the issue is whether to return by reference or by value. It's still a great article, though! – Bjarke H. Roune Jun 30 '11 at 20:24
up vote 9 down vote accepted

You're interested in the difference between a value return and a const reference return solely as a matter of optimization, but it isn't. There's a fundamentally different meaning between returning a different value each time, vs. returning a reference each time, quite possibly to the same object, which quite possibly could be modified:

const Foo &a =;
const Foo &b =;
a == b; // do you want this to be true or false?

The caller needs to know which it is, both because the programmer needs to know the meaning and because the compiler needs to know the calling convention, so you can't mix them in different overrides of the same virtual function. If some derived classes want to do one, and some want to do the other, then that's tough luck, they can't, any more than one can return an int and another a float.

You could perhaps return a shared_ptr. That way, the derived classes that "want" to return a reference can create a shared_ptr with a deleter that does nothing (but beware - the shared_ptr will dangle if the original object is destroyed, and that's not what you normally expect from a returned shared_ptr. So if it makes sense for the Foo to outlive the object it came from then it would be better for the class to dynamically allocate it, hold it via a shared_ptr, and return a copy of that, rather than a do-nothing deleter). The derived classes that "want" to return a value can allocate a new one each time. Since Foo is "rather large", hopefully the cost of the shared_ptr and the dynamic allocation isn't too painful compared with what you'd do anyway to create a new value to return.

Another possibility is to turn Foo into a small pImpl-style class that references a rather large data structure. If everything involved is immutable, then the "want to return a reference" case can share the large data structure between multiple Foo instances. Even if it isn't, you can think about copy-on-write.

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I see that you haven't listed C++0x as a tag, but as reference for anyone with your needs plus access to C++0x, perhaps the best way is to return a std::unique_ptr<>.

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or... boost::unique_ptr which works wonder in absense of c++0x – sehe Jun 28 '11 at 12:09
@sehe: Absolutely! My bad - I'm so in to C++0x right now that I forget that there even was a time when boost gave me the same service! – Johann Gerell Jun 28 '11 at 13:46
Boost does not offer a unique_ptr type, as that is not possible without C++11, where there is already a standard unique_ptr. In C++03 auto_ptr is the way to go if you want to return a smart pointer without reference counting. – Dennis Zickefoose Jun 30 '11 at 21:12
@Dennis: Although not an official part of Boost, it's tightly integrated with it: by Howard Hinnant. – Johann Gerell Jun 30 '11 at 22:03

Here's one way:

struct K 
 int ii; 

class I 
  virtual K &get_k(int i)=0; 

class Impl : public I 
  K &get_k(int i) { kk.ii = i; return kk; } 
  K kk; 

What makes it work is that you use K kk; inside the same object as data member. A constructor for Impl class might be useful too.

EDiT: changing formatting of the code

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There's no line limit for code here. Splitting it up on multiple lines makes it much more readable. Entire class definitions on a single line read like a mess to me. – Cody Gray Jun 28 '11 at 13:55

If you don't know whether a derived class can store the object then you cannot return by reference. So the strict answer to your question is that you must return by value.

Other answers have suggested returning a pointer or a smart pointer, which will work too. However, then a client that does not store the object will have to perform dynamic allocation which can be slower than moving or copying even a reasonably large object.

If your main concern is avoiding the copy then you can achieve that by making your interface a little less nice:

virtual void foo(Foo& putReturnvalueHere) const { ... }

assign the value you would have previously returned into the passed-in reference. This requires Foo to be already constructed. If that is not acceptable, you can pass in a pointer to an un-constructed memory area that will hold a Foo and then use placement new to construct a foo into that memory area:

virtual void foo(Foo* unconstructedFoo) const { ... }

I wouldn't recommend the last idea unless you know what you are doing and you really must have top performance. If performance is that important, you may want to consider avoiding a virtual function call in the first place.

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