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Why is it possible to write constructor for an abstract class in C#?
Far as I know we can't instantiate an abstract class.. so what is it for?
And It's doesn't instantiate the class, right?

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8 Answers 8

up vote 59 down vote accepted

Because there might be a standard way you want to instantiate data in the abstract class. That way you can have classes that inherit from that class call the base constructor.

public abstract class A{

    private string data;

    protected A(string myString){
      data = myString;
    }

}

public class B : A {

     B(string myString) : base(myString){}

}
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But abstract class is defined as a class which we cant instantiate it.. if I use it to initialize an readonly variable on base class which is abstract is it okay? –  Mulder Apr 8 '11 at 23:37
1  
Yes, if I understand you correctly. You can't instantiate the abstract class itself but the derived class still has all the pieces of the base class. Its not only valid to do it, its one of the primary reasons why you would do it. –  Craig Suchanec Apr 8 '11 at 23:39
    
ok , now if I have a first level abstract class which inherits from other abstract class(second level) and third class ( not abstract class) inherit from the second layer abstract class, how can I initialize a readonly variable which is declared on the first layer abstract class from within the c'tor of the third normal class I need to go up two levels up to the c'tor –  Mulder Apr 8 '11 at 23:57
1  
The only way I really can think to do that is something like the following: public abstract class A { protected readonly string data; protected A(string myData) { data = myData; } } public abstract class B :A { protected B(string myData): base(myData){ } } public class C : B { C(string myData): base(myData){ } } –  Craig Suchanec Apr 9 '11 at 0:11
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Far as I know we can't instantiate an abstract class

There's your error right there. Of course you can instantiate an abstract class.

abstract class Animal {}
class Giraffe : Animal {}
...
Animal animal = new Giraffe();

There's an instance of Animal right there. You instantiate an abstract class by making a concrete class derived from it, and instantiating that. Remember, an instance of a derived concrete class is also an instance of its abstract base class. An instance of Giraffe is also an instance of Animal even if Animal is abstract.

Given that you can instantiate an abstract class, it needs to have a constructor like any other class, to ensure that its invariants are met.

Now, a static class is a class you actually cannot instantiate, and you'll notice that it is not legal to make an instance constructor in a static class.

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this should be the accepted answer. –  kaptan Sep 21 '12 at 22:06
1  
From a terminology perspective, if Foo is an inheritable concrete type, and DerivedFoo:Foo, what term would you use to describe a heap object instance which will report its type as Foo, as distinct from DerivedFoo? My own inclination would be to use the phrase "an instance of T" to refer to something whose exact type is T. Otherwise I'd be inclined to say something like "a T or some derivative", "some derivative of T", "some implementation of T", or "something satisfying T" depending upon whether T is a concrete class, abstract class, interface, or constraint. –  supercat Sep 3 '13 at 17:39
4  
Using that logic you can get instances of interfaces :-) –  G. Stoynev Jan 9 at 20:25
    
@Eric msdn.microsoft.com/en-us/library/sf985hc5.aspx Says abstract class cannot be instantiated –  Nips Jul 9 at 6:21
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It's a way to enforce a set of invariants of the abstract class. That is, no matter what the subclass does, you want to make sure some things are always true of the base class... example:

abstract class Foo
{
    public DateTime TimeCreated {get; private set;}

    protected Foo()
    {
         this.TimeCreated = DateTime.Now;
    }
}

abstract class Bar : Foo
{
    public Bar() : base() //Bar's constructor's must call Foo's parameterless constructor.
    { }
}

Don't think of a constructor as the dual of the new operator. The constructor's only purpose is to ensure that you have an object in a valid state before you start using it. It just happens to be that we usually call it through a new operator.

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You don't need to call base() on derived class' constructor. It will get called automatically, because that's the parameterless constructor. This means that your constructor is equivalent to public Bar() {}. –  Robert Koritnik Nov 14 '11 at 17:26
    
@RobertKoritnik - that's odd since I can't recall or even imagine a time when I did not know that but there it is. –  Rodrick Chapman Mar 20 '13 at 23:29
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It's there to enforce some initialization logic required by all implementations of your abstract class, or any methods you have implemented on your abstract class (not all the methods on your abstract class have to be abstract, some can be implemented).

Any class which inherits from your abstract base class will be obliged to call the base constructor.

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You can instantiate it after you implemented all the methods. Then the constructor will be called.

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I too want to make some shine on abstract surface All answer has covered almost all the things. Still my 2 cents

abstract classes are normal classes with A few exceptions

  1. You any client/Consumer of that class can't create object of that class, It never means that It's constructor will never call. Its derived class can choose which constructor to call.(as depicted in some answer)
  2. It may has abstract function.
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Defining a constructor with public or internal storage class in an inheritable concrete class Thing effectively defines two methods:

  • A method (which I'll call InitializeThing) which acts upon this, has no return value, and can only be called from Thing's CreateThing and InitializeThing methods, and subclasses' InitializeXXX methods.

  • A method (which I'll call CreateThing) which returns an object of the constructor's designated type, and essentially behaves as:

    Thing CreateThing(int whatever) { Thing result = AllocateObject(); Thing.initializeThing(whatever); }

Abstract classes effectively create methods of only the first form. Conceptually, there's no reason why the two "methods" described above should need to have the same access specifiers; in practice, however, there's no way to specify their accessibility differently. Note that in terms of actual implementation, at least in .NET, CreateThing isn't really implemented as a callable method, but instead represents a code sequence which gets inserted at a newThing = new Thing(23); statement.

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Normally constructors involve initializing the members of an object being created. In concept of inheritance, typically each class constructor in the inheritance hierarchy, is responsible for instantiating its own member variables. This makes sense because instantiation has to be done where the variables are defined.

Since an abstract class is not completely abstract (unlike interfaces), it is mix of both abstract and concrete members, and the members which are not abstract are needed to be initialized, which is done in abstract class's constructors, it is necessary to have constructors in the abstract class. Off course the abstract class's constructors can only be called from the constructors of derived class.

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