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Why pure virtual function is initialized by 0?

In C++, what does it mean to set a function declaration to zero? I'm guessing it has to do with the function being virtual, and not actually defined in this class. Found in a header file of code that I'm reading:

virtual void SetValue(double val)=0;

What's going on here?

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marked as duplicate by Troubadour, James McNellis, Pontus Gagge, Jacob, greyfade Jul 26 '10 at 22:56

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.

Open your favorite C++ book and read about pure virtual functions. Learning the basics of the language by asking generic questions on a forum is not exactly a meaningful thing to do. Some information can be found here – AnT Jul 26 '10 at 22:00
@Troubadour: FWIW: this question is from a "what does this even mean" angle whereas that question is "given this meaning, why does it look this way" – Cogwheel Jul 26 '10 at 22:04
@AndreyT In my defense, the syntax is so arcane that I wouldn't know to look up pure virtual functions (which I do already understand). I'd say asking this generic question on a forum was very meaningful for me. – ack Jul 26 '10 at 22:30 --- Look at the second result. – Jacob Jul 26 '10 at 22:34
@AndreyT, how would the asker know to look up "pure virtual function" if they don't know that "=0" means pure virtual function? I understand where you are coming from but it is possible to learn and do C++ for a while without running into this concept. – Chance Sep 13 '10 at 23:05
up vote 8 down vote accepted

It's a pure virtual function. It makes it so you MUST derive a class (and implement said function) in order to use it.

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In addition to deriving, you must implement them as well in the derived classes. – bits Jul 26 '10 at 22:01
Which results in an abstract class. – Bruno Brant Jul 26 '10 at 22:18

This is called a pure virtual member function in C++ lingo. It means, as you guessed, that the function is not defined within the class, but rather has to be implemented in deriving classes. You cannot instantiate classes with pure virtual member functions, pure virtual functions basically behave like abstract methods in Java or C#.

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It doesn't mean that it's not defined, just that it must be overridden. It can have a definition. – Mike Seymour Jul 26 '10 at 22:32
Yes, you are right. – haffax Jul 26 '10 at 23:21

It means that it is a pure virtual method - which means subclasses must implement the method on their own. There can still be an implementation for that method, but classes with pure virtual methods cannot be instantiated, making this similar to the abstract keyword seen in various other languages.

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Despite the name a pure virtual method can have an implementation... a declaration of pure virtual means that the class is abstract and that a derived class must implement the function to be non-abstract. It doesn't mean that the method has no implementation in the base class (actually it CAN have an implementation in the base class). – 6502 Jul 26 '10 at 22:14
Ah yes, of course. My bad. I'll edit my post. – Michael Madsen Jul 26 '10 at 22:21
Nit pick: C++ has functions, not methods. The correct term is pure virtual function. – Brian Neal Jul 26 '10 at 23:53

if you set a virtual function to set, Its called Pure Virtual Functions. And then your class becomes an abstract class. You can't create instances of that class or any subclasses unless your pure virtual functions are implemented.

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The method SetValue is pure virtual. Its class does not provide the implementation of that method, and can not be instantiated (therefore we term it abstract). Concrete derived classes on the other hand have to provide implementations for such methods. See more here.

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It means that, the class is abstract, and can't be create its object. It could be used as a base class to another.
Pure virtual class is also used in c++ as an interface known from language like java, but of course it is different.

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As everyone has mentioned, this means that the function is a pure virtual function. Think of of this as setting the function pointer to null. Classes with pure virtual functions are handled as abstract classes. This means that derived classes must implement this virtual function.

Occasionally, you may encounter what is called a "pure call" error. This means that a pure virtual function was actually called and it will most likely cause the program to crash. The most common cause of a pure call is that the object that the function was called on was already deleted.

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"SetValue" is a pure virtual member function that the base class forces derived classes to provide. Pure virtual member functions will have no implementation.

A pure virtual member function specifies that a member function will exist on every object of a concrete derived class even though the member function is not (normally) defined in the base class.

This is because the syntax for specifying a pure virtual member function forces derived classes to implement the member function if the derived classes intend to be instantiated (that is, if they intend to be concrete).

In your case, all objects of classes derived from the base class will have the member function SetValue(). However, because the base class is an abstract concept, it does not contain enough information to implement SetValue().

Imagine that the "= 0" is like saying "the code for this function is at the NULL pointer."

Pure virtual member functions allow users to write code against an interface for which there are several functionally different variants. This means that semantically different objects can be passed to a function if these objects are all under the umbrella of the same abstract base class.

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