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I was reading about Empty Base Optimization(EBO). While reading, the following questions popped up in my mind:

  1. What is the point of using Empty class as base class when it contributes nothing to the derived classes (neither functionality-wise, nor data-wise)?

  2. In this article, I read this:

//S is empty
class struct T : S
      int x;


Notice that we didn’t lose any data or code accuracy: when you create a standalone object of type S, the object’s size is still 1 (or more) as before; only when S is used as base class of another class does its memory footprint shrink to zero. To realize the impact of this saving, imagine a vector that contains 125,000 objects. The EBO alone saves half a megabyte of memory!

Does it mean that if we don't use "S" as base class of "T", we would necessarily consume double of megabyte of memory? I think, the article compares two different scenarios which I don't think is correct.

I would like to know a real scenario when EBO can proven to be useful.(means, in the same scenario, we would necessarily be at loss IF we don't use EBO!).

Please note that if your answer contains explanations like this :

The whole point is that an empty class has non-zero size, but when derived or deriving it can have zero size, then I'm NOT asking that, as I know that already. My question is, why would anyone derive his class from an empty class in the first place? Even if he doesn't derive and simply writes his class (without any empty base), is he at loss in ANY way?

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@Suma... what did you change in my post? :-/.. I'm unable to figure out.. –  Nawaz Dec 1 '10 at 15:58
Why do you say the base class contributes nothing functionality-wise? –  jalf Dec 1 '10 at 16:14
@jalf .... so far I didn't see any example.. by the way, by functionality I meant functions that do something, rather than nothing –  Nawaz Dec 1 '10 at 16:17
@Nawaz: but why shouldn't the base class functions be able to do "do something"? –  jalf Dec 1 '10 at 16:41
@jalf .. please give me some example.. I would be glad to know that :-) –  Nawaz Dec 1 '10 at 16:44

9 Answers 9

up vote 16 down vote accepted

EBO is important in the context of policy based design, where you generally inherit privately from multiple policy classes. If we take the example of a thread safety policy, one could imagine the pseudo-code :

class MTSafePolicy
  void lock() { mutex_.lock(); }
  void unlock() { mutex_.unlock(); }

  Mutex mutex_;

class MTUnsafePolicy
  void lock() { /* no-op */ }
  void unlock() { /* no-op */ }

Given a policy based-design class such as :

template<class ThreadSafetyPolicy>
class Test : ThreadSafetyPolicy
  /* ... */

Using the class with a MTUnsafePolicy simply add no size overhead the class Test : it's a perfect example of don't pay for what you don't use.

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@icecrime....thanks for this anwesome example... +1 from me.. –  Nawaz Dec 1 '10 at 15:18

EBO isn't really an optimization (at least not one that you do in the code). The whole point is that an empty class has non-zero size, but when derived or deriving it can have zero size.

This is the most usual result:

class A { };
class B { };

class C { };
class D : C { };

#include <iostream>
using namespace std;

int main()
        cout << "sizeof(A) + sizeof(B) == " << sizeof(A)+sizeof(B) << endl;
        cout << "sizeof(D) == " << sizeof(D) << endl;

        return 0;


sizeof(A) + sizeof(B) == 2
sizeof(D) == 1

To the edit: The optimization is, that if you actually do derive (for example from a functor, or from a class that has only static members), the size of your class (that is deriving) won't increase by 1 (or more likely 4 or 8 due to padding bytes).

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@Let_Me_Be... I've edited my question.. .please see it again.. I hope you will now understand what I'm asking for. :-) –  Nawaz Dec 1 '10 at 14:27
@Nawaz I have edited my answer. –  Let_Me_Be Dec 1 '10 at 14:30
@Let_Me_Be...thanks for this update.. that makes sense now..i'm looking for more response...with more scenarios.. –  Nawaz Dec 1 '10 at 14:38
@Nawaz What exactly do you mean by scenarios? –  Let_Me_Be Dec 1 '10 at 14:39
@ Let_Me_Be.. like the ones you talked about in your post (the edited part)... –  Nawaz Dec 1 '10 at 14:41

Its used when programmers want to expose some data to client without increasing the client class size. The empty class can contain enums and typedefs or some defines which the client can use.The most judicious way to use such a class it it to,inherit such a class privately. This will hide the data from outside and wil not increase your class size.

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EASTL has a good explanation as to why they needed EBO, its also explained in-depth in the paper they link to/credit

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... the article is too big... I'll read it when I get enough time..then I'll comment on it...:-)... thanks for the link btw. –  Nawaz Dec 1 '10 at 15:20

The "Optimization" in the EBO means the case when you use base class can be optimized to use less memory than if you use a member of the same type. I.e. you compare

struct T : S 
      int x;


struct T
      S s;
      int x;

not with

struct T
      int x;

If your question is why would you have an empty class at all (either as a member, or as a base), it is because you use its member functions. Empty means it has no data member, not that it does not have any members at all. Things like this are often done when programming with templates, where the base class is sometimes "empty" (no data members) and sometimes not.

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Read all about empty base class and their elagant usage in the STL iterators here:


An example of which is here:

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EBO is not something the programmer influences, and/or the programmer would be punished for if (s)he chose not to derive from an empty base class.

The compiler controls whether for:

class X : emptyBase { int X; };
class Y { int x };

you get sizeof(X) == sizeof(Y) or not. If you do, the compiler implements EBO, if not, it doesn't.

There never is any situation where sizeof(Y) > sizeof(X) would occur.

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Most of the time, an empty base class is either used polymorphically (which the article mentions), as "tag" classes, or as exception classes (although those are usually derived from std::exception, which is not empty). Sometimes there is a good reason to develop a class hierarchy which begins with an empty base class.

Boost.CompressedPair uses the EBO to shrink the size of objects in the event that one of the elements is empty.

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The primary benefit I can think of is dynamic_cast. You can take a pointer to S and attempt to dynamic_cast it to anything that inherits from S- assuming that S offers a virtual function like a virtual destructor, which it pretty much must do as a base class. If you were, say, implementing a dynamically typed language, you may well wish or need for every type to derive from a base class purely for the purposes of type-erased storage, and type checking through dynamic_cast.

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.. if S has virtual functions.. then most likely it's not an empty class! –  Nawaz Dec 1 '10 at 15:30
@Nawez: Why not? The base class S might very well offer no-op implementations, or even pure virtual. Look at icecrime's answer; arguably lock should have been virtual. –  MSalters Dec 1 '10 at 15:40
@MSalters... if a class has virtual functions, that means, it's size cannot be zero (atleast for real life compilers)..and as for icecrime's answer, non virtual lock would work perfectly! –  Nawaz Dec 1 '10 at 15:45
@Nawaz: No class can ever have sizeof(Class)==0, empty or not. But we're talking specifically over the size of an empty base class subobject. It doesn't need its own vtable, nor a vtable pointer. Assume the common layout of a vtable pointer at offset 0; that would cause the zero-sized base class subobject to share its vtable pointer with the derived class. No problem: those should be identical anyway, that's pretty much the point of virtual functions. –  MSalters Dec 2 '10 at 12:36

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