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I am new to C++, I coded in Java for an year. The equivalent in C++ for interfaces and abstract classes alike is only abstract classes. Is that supposed to be a handicap while doing factory design? There are many times I want to leave out the defining the methods to the inheriting classes and I want to enforce that.

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3  
Nothing in C++ is meant to be a handicap. –  Rob K Dec 1 '11 at 20:20

3 Answers 3

up vote 8 down vote accepted

Java interfaces are best translated as C++ abstract classes. In Java (as far as I know) a interface is merely a subset of an abstract class anyway, except it allows "multiple inheritance" which C++ has in all cases anyway.

class thing_interface {
public:
    virtual ~thing_interface() {}
    virtual void foo() =0; //pure virtual function
};
class other_interface {
public:
    virtual ~other_interface () {}
    virtual void bar() =0; //pure virtual function
};

class thing_impl : public thing_interface, public other_interface { 
protected:
    int member;
public:
    thing_impl() : member(0) {}
    virtual ~thing_impl() {};
    virtual void foo() { std::cout << "FOO!\n";}
    virtual void bar() { std::cout << "BAR!\n";}
};

The =0 syntax means it is not defined in the interface, but must be defined in classes that fulfill the interface. Also note that if you have any virtual function, you almost always want a virtual destructor as well. C++ will tell you an error if you try to make a thing_interface by itself, since there's no implementation functions.

It's not really a handicap, since I can't think of anything Java can do here that C++ can't.

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I am a complete C++ noob. So maybe I do not understand everything right. For me this "interface" looks more like an abstract class and abstract classes in Java can have fields, too. (ie. sth. like int member;) It all looks like abstract methods in abstract classes in Java. But abstract classes differ from interfaces. –  Fabian Barney Dec 1 '11 at 20:28
    
it's just to be exact : i don't think you can initialize that public (!) member like this in inheriting class constructor, as it's a member of thing_interfaceclasse. Or am I wrong ? –  azf Dec 1 '11 at 20:29
1  
@Fatal: Yes, abstract classes in C++ are quite similar to abstract classes in Java. However, C++ doesn't have a separate concept of an "interface", so you'd also use an abstract class where you'd use an interface in Java. You just wouldn't put in any data members or non-pure-virtual functions if you want it to be an interface. –  Mike Seymour Dec 1 '11 at 20:31
1  
@Fatal: Actually, that's due to my misunderstanding. I thought Java didn't have abstract classes. I changed it to be more correct, and more like an interface then –  TBohne Dec 1 '11 at 20:33
    
Thanks guys. Learned a bit more. :) –  Fabian Barney Dec 1 '11 at 20:37

If you define like this you can have what you want:

class A {
  public:
    virtual void pure_virtual(int param1) = 0;
    virtual ~A() { };
}; 

EDIT: Thanks Nikolai and Mike!

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5  
One important omission - you need to add a virtual destructor. –  Nikolai N Fetissov Dec 1 '11 at 20:15
2  
You don't usually want the destructor to be pure virtual (just virtual). It needs an implementation whether or not it's pure, and it's simplest to define it in the class definition, virtual ~A() {}. –  Mike Seymour Dec 1 '11 at 20:28

In terms of interface/abstract classes you wont feel handicap. You should read about C++ pure virtual functions and abstract classes.

To have interface in C++, here is the sudo code:

class MyInterface {
  virtual void func1() = 0;
  virtual int func2(int x, int y) = 0;
}


class MyAnotherInterface {
  virtual void func3() = 0;
  virtual int func4(int x, int y) = 0;
}

To have abstract class in C++, here is the sudo code. You can see it only implements one function from the interface above. So you cannot create instance of it.

class MyAbstract : public MyIterface {
  void func1() {
    printf("in func1");
  }
}

Now the actual concrete class:

class MyConcreteClass : public MyAbstract, public MyAnotherIterface {
  int func2(int x, int y) {
    printf("func2 x=%x,y=%y",x,y);
  }

  void func3() {
    printf("in func3");
  }

  int func4(int x, int y) {
    printf("func4 x=%x,y=%y",x,y);
  }
}

There are some issues when you are using Multiple inheritance as I am using for MyConcreteClass. But if you only have one base with member variables and other base classes contain only pure virtual functions then this pattern acts exactly like Java, where the class containing some methods and member variables maps to extends and other classes which contain only pure virtual functions maps to `implements'.

In our example, Java equivalent code is

class MyConcreteClass extends MyAbstract implements MyAnotherInterface {
  public int func2(int x, int y) {
    System.out.print(String.format("func2 x=%x,y=%y",x,y));
  }

  public void func3() {
    System.out.print("in func3");
  }

  public int func4(int x, int y) {
    System.out.print(String.format("func4 x=%x,y=%y",x,y));
  }    
}

Where you feed handicap

The only other place where I feel handicap when coming from Java is generics. C++ has templates for that, but they some serious limitations.

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1  
Best explained, at least for someone with Java background like me. –  Fabian Barney Dec 1 '11 at 21:15

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