What is an Abstract Class?
An abstract class is a special kind of class that cannot be instantiated. So the question is why we need a class that cannot be instantiated? An abstract class is only to be sub-classed (inherited from). In other words, it only allows other classes to inherit from it but cannot be instantiated. The advantage is that it enforces certain hierarchies for all the subclasses. In simple words, it is a kind of contract that forces all the subclasses to carry on the same hierarchies or standards.
What is an Interface?
An interface is not a class. It is an entity that is defined by the word Interface. An interface has no implementation; it only has the signature or in other words, just the definition of the methods without the body. As one of the similarities to Abstract class, it is a contract that is used to define hierarchies for all subclasses or it defines specific set of methods and their arguments. The main difference between them is that a class can implement more than one interface but can only inherit from one abstract class. Since C# doesn’t support multiple inheritance, interfaces are used to implement multiple inheritance.
Both Together
When we create an interface, we are basically creating a set of methods without any implementation that must be overridden by the implemented classes. The advantage is that it provides a way for a class to be a part of two classes: one from inheritance hierarchy and one from the interface.
When we create an abstract class, we are creating a base class that might have one or more completed methods but at least one or more methods are left uncompleted and declared abstract. If all the methods of an abstract class are uncompleted then it is same as an interface. The purpose of an abstract class is to provide a base class definition for how a set of derived classes will work and then allow the programmers to fill the implementation in the derived classes.
There are some similarities and differences between an interface and an abstract class that I have arranged in a table for easier comparison:
Feature | Interface | Abstract class |
Multiple inheritance | A class may inherit several interfaces. | A class may inherit only one abstract class. |
Default implementation | An interface cannot provide any code, just the signature. | An abstract class can provide complete, default code and/or just the details that have to be overridden. |
Access Modfiers | An interface cannot have access modifiers for the subs, functions, properties etc everything is assumed as public | An abstract class can contain access modifiers for the subs, functions, properties |
Core VS Peripheral | Interfaces are used to define the peripheral abilities of a class. In other words both Human and Vehicle can inherit from a IMovable interface. | An abstract class defines the core identity of a class and there it is used for objects of the same type. |
Homogeneity | If various implementations only share method signatures then it is better to use Interfaces. | If various implementations are of the same kind and use common behaviour or status then abstract class is better to use. |
Speed | Requires more time to find the actual method in the corresponding classes. | Fast |
Adding functionality (Versioning) | If we add a new method to an Interface then we have to track down all the implementations of the interface and define implementation for the new method. | If we add a new method to an abstract class then we have the option of providing default implementation and therefore all the existing code might work properly. |
Fields and Constants | No fields can be defined in interfaces | An abstract class can have fields and constrants defined |
using System;
namespace AbstractsANDInterfaces
{
/// Summary description for Employee.
public abstract class Employee
{
//we can have fields and properties
//in the Abstract class
protected String id;
protected String lname;
protected String fname;
//properties
public abstract String ID
{
get;
set;
}
public abstract String FirstName
{
get;
set;
}
public abstract String LastName
{
get;
set;
}
//completed methods
public String Update()
{
return "Employee " + id + " " + lname + " " + fname + " updated";
}
//completed methods
public String Add()
{
}
//completed methods
public String Delete()
{
return "Employee " + id + " " + lname + " " + fname + " deleted";
}
//completed methods
public String Search()
{
return "Employee " + id + " " +
lname + " " + fname +
" found";
}
//abstract method that is different
//from Fulltime and Contractor
//therefore i keep it uncompleted and
//let each implementation
//complete it the way they calculate the wage.
public abstract String CalculateWage();
}
}
using System;
namespace AbstractsANDInterfaces
{
/// Summary description for IEmployee.
public interface IEmployee
{
//cannot have fields. uncommenting will raise error!
// protected String id;
// protected String lname;
// protected String fname;
//just signature of the properties and methods.
//setting a rule or contract to be followed by implementations.
String ID
{
get;
set;
}
String FirstName
{
get;
set;
}
String LastName
{
get;
set;
}
// cannot have implementation cannot have modifiers public etc all are assumed public cannot have virtual
String Update();
String Add();
String Delete();
String Search();
String CalculateWage();
}
using System;
namespace AbstractsANDInterfaces
{
/// Summary description for Emp_Fulltime.
//Inheriting from the Abstract class
public class Emp_Fulltime : Employee
{
//uses all the properties of the Abstract class therefore no
//properties or fields here!
public Emp_Fulltime()
{
}
public override String ID
{
get
{
return id;
}
set
{
id = value;
}
}
public override String FirstName
{
get
{
return fname;
}
set
{
fname = value;
}
}
public override String LastName
get
{
return lname;
}
set
{
lname = value;
}
}
//common methods that are implemented in the abstract class
public new String Add()
{
return base.Add();
}
//common methods that are implemented in the abstract class
public new String Delete()
{
return base.Delete();
}
//common methods that are implemented in the abstract class
public new String Search()
{
return base.Search();
}
//common methods that are implemented in the abstract class
public new String Update()
{
return base.Update();
}
//abstract method that is different from Fulltime and Contractor
//therefore I override it here.
public override String CalculateWage()
{
return "Full time employee " + base.fname + " is calculated " +
"using the Abstract class...";
}
}
}
Emp_Fulltime2
using System;
namespace AbstractsANDInterfaces
{
/// Summary description for Emp_fulltime2.
//Implementing the interface
public class Emp_fulltime2 : IEmployee
{
//All the properties and fields are defined here!
protected String id;
protected String lname;
protected String fname;
public Emp_fulltime2()
{
// TODO: Add constructor logic here
}
public String ID
{
get
{
return id;
}
set
{
id = value;
}
}
public String FirstName
{
get
{
return fname;
}
set
{
fname = value;
}
}
public String LastName
{
get
{
return lname;
}
set
{
lname = value;
}
}
//all the manipulations including Add,Delete,
//Search, Update, Calculate are done
//within the object as there are not
//implementation in the Interface entity.
public String Add()
{
return "Fulltime Employee " +
fname + " added.";
}
public String Delete()
{
return "Fulltime Employee " +
fname + " deleted.";
}
public String Search()
{
return "Fulltime Employee " +
fname + " searched.";
}
public String Update()
{
return "Fulltime Employee " +
fname + " updated.";
}
//if you change to Calculatewage().Just small 'w' it will raise
public String CalculateWage()
{
return "Full time employee " +
fname + " caluculated using " +
"Interface.";
}
}
}
//This is the sub that tests both implementations using Interface and Abstract
private void InterfaceExample_Click(object sender, System.EventArgs e)
{
try
{
IEmployee emp;
Emp_fulltime2 emp1 = new Emp_fulltime2();
emp = emp1;
emp.ID = "2234";
emp.FirstName= "Rahman" ;
emp.LastName = "Mahmoodi" ;
//call add method od the object
MessageBox.Show(emp.Add().ToString());
//call the CalculateWage method
MessageBox.Show(emp.CalculateWage().ToString());
}
catch(Exception ex)
{
MessageBox.Show(ex.Message);
}
}
private void cmdAbstractExample_Click(object sender, System.EventArgs e)
{
Employee emp;
emp = new Emp_Fulltime();
emp.ID = "2244";
emp.FirstName= "Maria" ;
emp.LastName = "Robinlius" ;
MessageBox.Show(emp.Add().ToString());
//call the CalculateWage method
MessageBox.Show(emp.CalculateWage().ToString());
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