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How do you declare an interface in C++?

This is a general question about C++. As you know, there is no clear distinction between interface and abstract class in C++ unlike Java and C#. When would it be more preferrable to use an interface instead of an abstract class in C++? Could you give some examples?

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marked as duplicate by Joris Timmermans, Praetorian, BЈовић, Mark, CyberSpock Oct 12 '12 at 10:41

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

4  
As there's no clear distinction you need to define what you mean by "interface" in C++. (If there's no clear distinction then preferring one over the other doesn't make any sense.) –  Charles Bailey Oct 12 '12 at 8:09
3  
As you said, there is no distinction, so the question is meaningless unless you define what you mean by an interface and how it differs from an abstract class. –  juanchopanza Oct 12 '12 at 8:09
    
@juanchopanza: +1 to your comment. I could hardly have said it better myself. –  Charles Bailey Oct 12 '12 at 8:09
1  
There are no interfaces in C++ the language, you can only emulate them through abstract classes. –  EarlGray Oct 12 '12 at 8:10
    
I removed the "java" tag. In fact, even if you cite Java in the question, this question is actually about C++. –  Mr.C64 Oct 12 '12 at 10:31

5 Answers 5

up vote 53 down vote accepted

I assume that with interface you mean a C++ class with only pure virtual methods (i.e. without any code), instead with abstract class you mean a C++ class with virtual methods that can be overridden, and some code, but at least one pure virtual method that makes the class not instantiable. e.g.:

class MyInterface
{
public:
  // Empty virtual destructor for proper cleanup
  virtual ~MyInterface() {}

  virtual void Method1() = 0;
  virtual void Method2() = 0;
};


class MyAbstractClass
{
public:
  virtual ~MyAbstractClass();

  virtual void Method1();
  virtual void Method2();
  void Method3();

  virtual void Method4() = 0; // make MyAbstractClass not instantiable
};

In Windows programming, interfaces are fundamental in COM. In fact, a COM component exports only interfaces (i.e. pointers to v-tables, i.e. pointers to set of function pointers). This helps defining an ABI (Application Binary Interface) that makes it possible to e.g. build a COM component in C++ and use it in Visual Basic, or build a COM component in C and use it in C++, or build a COM component with Visual C++ version X and use it with Visual C++ version Y. In other words, with interfaces you have high decoupling between client code and server code.

Moreover, when you want to build DLL's with a C++ object-oriented interface (instead of pure C DLL's), as described in this article, it's better to export interfaces (the "mature approach") instead of C++ classes (this is basically what COM does, but without the burden of COM infrastructure).

I'd use an interface if I want to define a set of rules using which a component can be programmed, without specifying a concrete particular behavior. Classes that implement this interface will provide some concrete behavior themselves.

Instead, I'd use an abstract class when I want to provide some default infrastructure code and behavior, and make it possible to client code to derive from this abstract class, overriding the pure virtual methods with some custom code, and complete this behavior with custom code. Think for example of an infrastructure for an OpenGL application. You can define an abstract class that initializes OpenGL, sets up the window environment, etc. and then you can derive from this class and implement custom code for e.g. the rendering process and handling user input:

// Abstract class for an OpenGL app.
// Creates rendering window, initializes OpenGL; 
// client code must derive from it 
// and implement rendering and user input.
class OpenGLApp
{
public:
  OpenGLApp();
  virtual ~OpenGLApp();
  ...

  // Run the app    
  void Run();


  // <---- This behavior must be implemented by the client ---->

  // Rendering
  virtual void Render() = 0;

  // Handle user input
  // (returns false to quit, true to continue looping)
  virtual bool HandleInput() = 0;

  // <--------------------------------------------------------->


private:
  //
  // Some infrastructure code
  //
  ... 
  void CreateRenderingWindow();
  void CreateOpenGLContext();
  void SwapBuffers();
};


class MyOpenGLDemo : public OpenGLApp
{
public:
  MyOpenGLDemo();
  virtual ~MyOpenGLDemo();

  // Rendering
  virtual void Render();  // implements rendering code

  // Handle user input
  virtual bool HandleInput(); // implements user input handling


  //  ... some other stuff
};
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interface were primarily made popular by Java.
Below are the nature of interface and its C++ equivalents:

  1. interface can contain only body-less abstract methods; C++ equivalent is pure virtual methods, though they can/cannot have body
  2. interface can contain only static final data members; C++ equivalent is static const data members which are compile time constants
  3. Multiple interface can be implemented by a Java class, this facility is needed because a Java class can inherit only 1 class; C++ supports multiple inheritance straight away with help of virtual keyword when needed

Because of point 3 interface concept was never formally introduced in C++. Still one can have a flexibility to do that.

Besides this you can refer Bjarne's FAQ on this topic.

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2  
So basically, in c++ there is not an element of the language that forces the "interface like" behavior you have in java and c#. But since "interface" is primarily a concept, you can create interfaces using the features of the language you mention. –  Dzyann Oct 31 '13 at 13:45
    
"C++ equivalent is pure virtual methods, though they can/cannot have body" - there is no can, pure virtual by definition have no body in the base class and they must have a body in the derived class. Also, you do not require the virtual keyword for multiple inheritance in C++. In fact, good design that uses multiple inheritance avoids the virtual keyword (well, they try to avoid multiple inheritance altogether if they can). –  Samaursa Mar 2 '14 at 1:46
1  
@Samaursa, wrong. Pure virtual function can have body outside the class. It's just optional. For diamond inheritance there is no way but virtual inheritance. –  iammilind Mar 6 '14 at 2:35
    
What do you mean by body outside the class? By definition a pure virtual function does NOT have a body and is NOT optional for the derived classes to over-ride unless they are meant to be derived further in which case they are abstract as well: ideone.com/hc1Zq8. –  Samaursa Mar 6 '14 at 22:16
3  
@Samaursa, Here is an example of how to define body of a pure virtual method. –  iammilind Mar 7 '14 at 13:51

An abstract class would be used when some common implementation was required. An interface would be if you just want to specify a contract that parts of the program have to conform too. By implementing an interface you are guaranteeing that you will implement certain methods. By extending an abstract class you are inheriting some of it's implementation. Therefore an interface is just an abstract class with no methods implemented (all are pure virtual).

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"an interface is just an abstract class with no methods implemented" - and no non-static data members, you'd expect. –  Steve Jessop Oct 12 '12 at 8:14
    
I would hope that the destructor was implemented even if pure virtual. –  Charles Bailey Oct 12 '12 at 8:15
    
Yes, I suppose what I mean is "with nothing implemented". –  Will Oct 12 '12 at 8:15

Pure Virtual Functions are mostly used to define:

a) abstract classes

These are base classes where you have to derive from them and then implement the pure virtual functions.

b) interfaces

These are 'empty' classes where all functions are pure virtual and hence you have to derive and then implement all of the functions.

Pure virtual functions are actually functions which have no implementation in base class and have to be implemented in derived class.

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Please don't put members into an interface; though it's correct in phrasing. Please don't "delete" an interface.

class IInterface() 
{ 
   Public: 
   Virtual ~IInterface(){}; 
   … 
} 

Class ClassImpl : public IInterface 
{ 
    … 
} 

Int main() 
{ 

  IInterface* pInterface = new ClassImpl(); 
  … 
  delete pInterface; // Wrong in OO Programming, correct in C++.
}
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2  
Can you explain why one should not delete the interface? In this example the interface has a virtual destructor. So the destructor of ClassImpl will be called even if we delete this object via IInterface pointer, no? –  Ferit Buyukkececi Oct 31 '14 at 9:02

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