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C++ Virtual/Pure Virtual Explained

What is the difference between a pure virtual function and a virtual function?

I know "Pure Virtual Function is a Virtual function with no body", but what does this mean and what is actually done by the line below:

virtual void virtualfunctioname() = 0

marked as duplicate by N 1.1, Daniel A. White, Nick Dandoulakis, Naveen, user69307 Apr 16 '10 at 10:40

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  • 1
    "a Virtual function with no body" > that's incorrect. they can very much have bodies. – v.oddou May 19 '17 at 7:20
up vote 213 down vote accepted

A virtual function makes its class a polymorphic base class. Derived classes can override virtual functions. Virtual functions called through base class pointers/references will be resolved at run-time. That is, the dynamic type of the object is used instead of its static type:

 Derived d;
 Base& rb = d;
 // if Base::f() is virtual and Derived overrides it, Derived::f() will be called

A pure virtual function is a virtual function whose declaration ends in =0:

class Base {
  // ...
  virtual void f() = 0;
  // ...

A pure virtual function implicitly makes the class it is defined for abstract (unlike in Java where you have a keyword to explicitly declare the class abstract). Abstract classes cannot be instantiated. Derived classes need to override/implement all inherited pure virtual functions. If they do not, they too will become abstract.

An interesting 'feature' of C++ is that a class can define a pure virtual function that has an implementation. (What that's good for is debatable.)

Note that C++11 brought a new use for the delete and default keywords which looks similar to the syntax of pure virtual functions:

my_class(my_class const &) = delete;
my_class& operator=(const my_class&) = default;

See this question and this one for more info on this use of delete and default.

  • 2
    Oh, so a pure virtual function is almost the same thing as a method in Java/C# interfaces. Neat. – Nick Miller Mar 3 '15 at 19:52
  • 4
    @Nick: Indeed. Only that C++ gives you more freedom about it. (You can implement pure virtual functions in C++ and you can mix pure, non-pure, and non-virtual functions in the same class. (Usually it's a good idea to not to do that, but if you need it, you can.) – sbi Mar 3 '15 at 21:50
  • @Sbi I think the surmising point of "use =0 for pure virtual functions" is worth leaving in. Perhaps even just adding to the end "In short, if you want pure virtual function, use =0" – thecoshman May 21 '15 at 9:42
  • hehe interesting "feature" ...or "bug" ? after all it can be one or the other its interchangeable – Xsmael Nov 19 '15 at 19:38
  • @Xsmael: Stroustrup declares it a feature that you can do this with any pure virtual function. (It is necessary for pure virtual dtors, and Stroustrup has said on numerous occasions that he isn't fond of syntactical restrictions.) And, no, a function can be both pure virtual and implemented. I'll add a link to a question where this is debated. – sbi Jan 8 '16 at 9:28

For a virtual function you need to provide implementation in the base class. However derived class can override this implementation with its own implementation. Normally , for pure virtual functions implementation is not provided. You can make a function pure virtual with =0 at the end of function declaration. Also, a class containing a pure virtual function is abstract i.e. you can not create a object of this class.

A pure virtual function is usually not (but can be) implemented in a base class and must be implemented in a leaf subclass.

You denote that fact by appending the "= 0" to the declaration, like this:

class AbstractBase
    virtual void PureVirtualFunction() = 0;

Then you cannot declare and instantiate a subclass without it implementing the pure virtual function:

class Derived : public AbstractBase
    virtual void PureVirtualFunction() override { }

By adding the override keyword, the compiler will ensure that there is a base class virtual function with the same signature.

  • 3
    In C++, a pure virtual function can be implemented. – sbi Apr 16 '10 at 10:37
  • 3
    yes, and for the pure virtual destructor, it must be implemented. – daramarak Apr 16 '10 at 10:39
  • @daramarak: pure virtual constructor ? in C++? – Naveen Apr 16 '10 at 10:40
  • 1
    @Naveen: stackoverflow.com/questions/2609299/2609404#2609404 – sbi Apr 16 '10 at 20:52
  • @sbi: I read at is constructor instead of destructor. My mistake.. – Naveen Apr 17 '10 at 9:51

You can actually provide implementations of pure virtual functions in C++. The only difference is all pure virtual functions must be implemented by derived classes before the class can be instantiated.

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