Interfaces in C # provide a way to achieve runtime polymorphism. Using interfaces we can invoke functions from different classes through the same Interface reference, whereas using virtual functions we can invoke functions from different classes in the same inheritance hierarchy through the same reference. Before things start getting difficult let me start using simple and short examples to explain the concept of interfaces. Here's a short example that shows you what an interface looks like.
P1.cs
class Demo
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
}
}
interface abc
{
}
Output
Hello Interfaces
The above program compiles and runs successfully to produce the desired output. The above program consists of a class
Demo
and within it an entry point function Main()
that prints Hello Interfaces. The above program also defines an interface abc
. Interface abc
is empty at this point of time. Let's add some elements to this interface.P2.cs
class Demo
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
}
}
interface abc
{
int x;
}
Output
P2.cs(11,3): error CS0525: Interfaces cannot contain fields
Error! Interfaces in C# cannot contain fields i.e variables. The above program declared an integer variable
x
in the interface abc
. And that's what hit the C# compiler badly.P3.cs
class Demo
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
}
}
interface abc
{
void xyz()
{
System.Console.WriteLine("In xyz");
}
}
Output
P3.cs(11,8): error CS0531: 'abc.xyz()': interface members cannot have a
definition
This time over we included a function
xyz()
inside the interface found that this too hurt the C# compiler. It told us loudly that interface members cannot have a defination. Does this mean that if we just have a function declaration inside the interface abc
that is fine with the C# compiler? Let's find it out.P4.cs
class Demo
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
}
}
interface abc
{
void xyz();
}
Output
Hello Interfaces
The above program compiles and runs successfully to produce the desired output. Finally we made the compiler happy. Interfaces in C# can only contain function declarations. Now let us see interfaces in action.
Interfaces are contracts that a class implements in its own way. This means an interface will contain function prototypes and a class that marries this interface will have to take the responsibility of defining the functions whose prototypes are declared by the marrying interface.
So its time to perform the marriage between our groom class
Demo
and the bride interface abc
.P4.cs
class Demo : abc
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
}
}
interface abc
{
void xyz();
}
Output
P4.cs(1,7): error CS0535: 'Demo' does not implement interface member
'abc.xyz()'
P4.cs(11,8): (Location of symbol related to previous error)
Well, in the above program class
Demo
did marry the interface abc
through the line class demo : abc
but as usual there's a small misunderstanding between the newlyweds. Class Demo
needs to take the responsibility of defining the functions whose prototypes are declared by the marrying interface abc
. Since class Demo
in the above program has not been implemented i.e. defined the function xyz
whose prototype is declared by the marrying interface abc
we get an error in the above program. To fix this issue, the class Demo
has to take the responsiility of defining the functionxyz
whose prototype is declared by the marrying interface abc
. And that is what you get to see in the following program.P5.cs
class Demo : abc
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
}
void xyz()
{
System.Console.WriteLine("In xyz");
}
}
interface abc
{
void xyz();
}
Output
a.cs(1,7): error CS0536: 'Demo' does not implement interface member
'abc.xyz()'.'Demo.xyz()' is either static, not public,
or has the wrong return type.
a.cs(16,8): (Location of symbol related to previous error)
a.cs(7,8): (Location of symbol related to previous error)
Error again! It's not enough for the class
Demo
to implement the function xyz
. It has to impress the bride interfaceabc
by declaring its implementation of xyz
as public. And that's what is done by the following program.P6.cs
class Demo : abc
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
xyz();
}
public void xyz()
{
System.Console.WriteLine("In xyz");
}
}
interface abc
{
void xyz();
}
Output
Hello Interfaces
In xyz
Bingo! The above program compiles and runs successfully to produce the desired output. As mentioned earlier using interfaces we can invoke functions from different classes using the same interface reference. For this, we need to have different classes to implement the same interface. In the above program our class
Demo
is implementing the interfaceabc
. Let's have another class Sample
that implements the interface abc
.P7.cs
class Demo : abc
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
refDemo.xyz();
Sample refSample = new Sample();
refSample.xyz();
}
public void xyz()
{
System.Console.WriteLine("In Demo :: xyz");
}
}
interface abc
{
void xyz();
}
class Sample : abc
{
public void xyz()
{
System.Console.WriteLine("In Sample :: xyz");
}
}
Output
In Demo :: xyz
In Sample :: xyz
The above program compiles and runs successfully to produce the desired output.
refDemo
is a reference to the object of class Demo
. refSample
is a reference to the object of class Sample
. Both the classes implement the interfaceabc
and hence define their own implementation of the function xyz()
. From within the entry point function Main()
xyz()
of the respective classes Demo
and Sample
are invoked through references refDemo
and refSample
.
Now that we have two different classes implementing the same interface its time to show you how to invoke functions from different classes using the same interface reference.
P8.cs
class Demo : abc
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
abc refabc = new Demo();
refabc.xyz();
abc refabc = new Sample();
refabc.xyz();
}
public void xyz()
{
System.Console.WriteLine("In Demo :: xyz");
}
}
interface abc
{
void xyz();
}
class Sample : abc
{
public void xyz()
{
System.Console.WriteLine("In Sample :: xyz");
}
}
Output
In Demo :: xyz
In Sample :: xyz
The above program compiles and runs successfully to produce the desired output. Inside
Main()
we have an interface reference refabc
of type interface abc
. Reference of object of class Demo is stored in refabc
and xyz()
of classDemo
is invoked using refabc
. Next, the reference of object of class Sample is stored in refabc
and xyz()
of classSample
is invoked using refabc
. Thus, we were able to invoke xyz()
that belongs to different classes Demo
andSample
via a common interface reference refabc
.
The following program uses a for loop to invoke the functions of different classes
Demo
and Sample
that implement the same interface "interface abc" using a single interface reference refabc
whose type matches the interface "interface abc" which the classes impliment.P9.cs
class Demo : abc
{
public static void Main()
{
abc [] refabc = {new Demo(), new Sample()} ;
for (int i = 0; i<= 1; i++)
refabc[i].xyz();
}
public void xyz()
{
System.Console.WriteLine("In Demo :: xyz");
}
}
interface abc
{
void xyz();
}
class Sample : abc
{
public void xyz()
{
System.Console.WriteLine("In Sample :: xyz");
}
}
Output
In Demo :: xyz
In Sample :: xyz
The above program compiles and runs successfully to produce the desired output.
refabc
is an array of type interface abc
. It stores the references to objects of classes Demo
and Sample
. In the for loop, using the array refabc, we are invoking the function xyz()
of class Demo
and Sample
. A class can impliment as many interfaces as it wants. Take the following program.P10.cs
class Demo : abc, def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
abc refabc = new Demo();
refabc.xyz();
}
public void xyz()
{
System.Console.WriteLine("In xyz");
}
public void pqr()
{
System.Console.WriteLine("In xyz");
}
}
interface abc
{
void xyz();
}
interface def
{
void pqr();
}
Output
Hello Interfaces
In xyz
The above program compiles and runs successfully to produce a desired output. Class
Demo
implements interface abc
and thereby function xyz()
. Class Demo
also impliments interface def
and thereby function pqr()
. ref abc
which is a variable of type Interface abc
, refers to object of class Demo
. Next xyz()
of Demo
is invoked via refabc
as refabc
is a variable of type Interface abc
which contains the prototype for function xyz()
.P11.cs
class Demo : abc, def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
abc refabc = new Demo();
refabc.xyz();
refabc.pqr();
}
public void xyz()
{
System.Console.WriteLine("In xyz");
}
public void pqr()
{
System.Console.WriteLine("In xyz");
}
}
interface abc
{
void xyz();
}
interface def
{
void pqr();
}
Output
P11.cs(9,5): error CS0117: 'abc' does not contain a definition for 'pqr'
Error! An attempt to invoke
pqr()
of Demo
via refabc
fails as refabc
is a variable of type Interface abc
which contains the prototype for function xyz()
and NOT pqr()
. One can invoke pqr()
of Demo
via a reference variable of type Interface def
as the interface def
contains the prototype for function pqr()
. And that's what is done by the following program.P12.cs
class Demo : abc, def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
abc refabc = refDemo;
refabc.xyz();
def refdef = refDemo;
refdef.pqr();
}
public void xyz()
{
System.Console.WriteLine("In xyz");
}
public void pqr()
{
System.Console.WriteLine("In pqr");
}
}
interface abc
{
void xyz();
}
interface def
{
void pqr();
}
Output
Hello Interfaces
In xyz
In pqr
The above program compiles and runs successfully to produce a desired output. Class
Demo
impliments the interfacesabc
and def
. An object of class Demo
is created and its reference is stored in refDemo
. refabc
which is a variable of type Interface abc
, refers to the object of class Demo
. Next xyz()
of Demo
is invoked via refabc
as refabc
is a variable of type Interface abc
which contains the prototype for function xyz()
. Similarly, refdef
which is a variable of type Interface def
, refers to object of class Demo
. Next pqr()
of Demo
is invoked via refdef
as refdef
is a variable of type Interface def
which contains the prototype for function pqr()
.P13.cs
class Demo : abc, def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
abc refabc = refDemo;
refabc.xyz();
def refdef = refDemo;
refdef.xyz();
}
public void xyz()
{
System.Console.WriteLine("In xyz");
}
}
interface abc
{
void xyz();
}
interface def
{
void xyz();
}
Output
Hello Interfaces
In xyz
In xyz
The above program compiles and runs successfully to produce a desired output. Both the interfaces
abc
and def
declare the prototypes for function xyz()
. Class Demo
implements interfaces abc
as well as def
and defines the function xyz()
as well. Thus we can invoke the function xyz()
through either of the interface reference variables (refabc
or refdef
) after storing the reference to the object of class Demo
in refabc
or refdef
. This poses a question, how can we have an implementation of xyz
that is specific to interface abc
and implementation of xyz
that is specific to def
inside class Demo
? Well, for this we need to use the fully qualified names as in the following program.P14.cs
class Demo : abc, def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
abc refabc = refDemo;
refabc.xyz();
def refdef = refDemo;
refdef.xyz();
}
public void abc.xyz()
{
System.Console.WriteLine("In abc.xyz");
}
public void def.xyz()
{
System.Console.WriteLine("In def.xyz");
}
}
interface abc
{
void xyz();
}
interface def
{
void xyz();
}
Output
a.cs(13,15): error CS0106: The modifier 'public' is not valid for this item
a.cs(18,15): error CS0106: The modifier 'public' is not valid for this item
Bummer! We used the fully qualified name and we got an error. That's because when we use fully qualified names for functions whose prototypes are a part of interfaces, the compiler doesn't need decorators like public. So we decided to remove the access specifier public from the above program.
P15.cs
class Demo : abc, def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
abc refabc = refDemo;
refabc.xyz();
def refdef = refDemo;
refdef.xyz();
}
void abc.xyz()
{
System.Console.WriteLine("In abc.xyz");
}
void def.xyz()
{
System.Console.WriteLine("In def.xyz");
}
}
interface abc
{
void xyz();
}
interface def
{
void xyz();
}
Output
Hello Interfaces
In abc.xyz
In def.xyz
The above program compiles and runs successfully to produce a desired output. A fully qualified naming system allows us to define interfaces having same function prototypes. In the above example, interface
abc
and def
contain the same function prototypes for function xyz()
. Class Demo
impliments both the interfaces. Using fully qualified names, it defines implementation of xyz
that is specific to interface abc
and implementation of xyz
that is specific to interface def
.P16.cs
class Demo : def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
def refdef = refDemo;
refdef.xyz();
refdef.pqr();
}
public void xyz()
{
System.Console.WriteLine("In xyz");
}
public void pqr()
{
System.Console.WriteLine("In pqr");
}
}
interface abc
{
void xyz();
}
interface def : abc
{
void pqr();
}
Output
Hello Interfaces
In xyz
In pqr
The above program compiles and runs successfully to produce a desired output. Interfaces support inheritance. Interface
def
inherits prototypes from interface abc
. Class Demo
implements the interface def
. Interface variablerefdef
stores the reference to object of class Demo
. Functions xyz()
and pqr()
of class Demo
are invoked through interface reference variable refdef
.
What do you think of the fully qualified names of
xyz()
and pqr()
would be after interface def
inherits from interface abc
.P17.cs
class Demo : def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
def refdef = refDemo;
refdef.xyz();
refdef.pqr();
}
void def.xyz()
{
System.Console.WriteLine("In xyz");
}
void def.pqr()
{
System.Console.WriteLine("In pqr");
}
}
interface abc
{
void xyz();
}
interface def : abc
{
void pqr();
}
Output
P17.cs(12,8): error CS0539: 'def.xyz' in explicit interface declaration is
not a member of interface
P17.cs(29,11): (Location of symbol related to previous error)
P17.cs(1,7): error CS0535: 'Demo' does not implement interface member
'abc.xyz()'
P17.cs(26,8): (Location of symbol related to previous error)
Bummer! The prototype of function
xyz
is an original member of interface abc
. Thus, even if interface def
inherits from the interface abc
, the fully qualified name of the function xyz()
remains as abc.xyz
and not def.xyz
as done in the above program. In fact, we got a compiler error. This can be fixed by using the correct fully qualified name of function xyz()
as shown in the following program.P18.cs
class Demo : def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
def refdef = refDemo;
refdef.xyz();
refdef.pqr();
}
void abc.xyz()
{
System.Console.WriteLine("In xyz");
}
void def.pqr()
{
System.Console.WriteLine("In pqr");
}
}
interface abc
{
void xyz();
}
interface def : abc
{
void pqr();
}
Output
Hello Interfaces
In xyz
In pqr
The above program compiles and runs successfully to produce a desired output. But there are some pitfalls when using the fully qualified function names.
P19.cs
class Demo : def
{
public static void Main()
{
System.Console.WriteLine("Hello Interfaces");
Demo refDemo = new Demo();
refDemo.xyz();
refDemo.pqr();
}
void abc.xyz()
{
System.Console.WriteLine("In xyz");
}
void def.pqr()
{
System.Console.WriteLine("In pqr");
}
}
interface abc
{
void xyz();
}
interface def : abc
{
void pqr();
}
Output
P19.cs(7,5): error CS0117: 'Demo' does not contain a definition for 'xyz'
P19.cs(8,5): error CS0117: 'Demo' does not contain a definition for 'pqr'
The above program fails to clear the compilation hurdle.
refDemo
refers to an object of class Demo
. We are invokingxyz()
using refDemo()
. For C#, xyz()
and ddd.xyz()
are two different things. It knows that abc.xyz()
exists. It also knows that just xyz()
is nowhere in the class. That's why we get an error which says Class Demo
does not contain a definition of xyz()
. For C#, abc.xyz()
can be invoked by an interface reference of type abc
only. Similarly,def.pqr()
can be invoked by an interface reference of type def only.
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