When should I use an interface and when should I use a base class?

Should it always be an interface if I don't want to actually define a base implementation of the methods?

If I have a Dog and Cat class. Why would I want to implement IPet instead of PetBase? I can understand having interfaces for ISheds or IBarks (IMakesNoise?), because those can be placed on a pet by pet basis, but I don't understand which to use for a generic Pet.

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    Just a point I think you should take into consideration - interfaces have can pose several limits you may not be aware of until very late stages. For example, with .NET you cannot serialize an interface member variable, so if you have a class Zoo and a member variable array of IAnimals you will not be able to serialize Zoo (and that means writing WebServices or other things requiring a serialization would be a pain). – synhershko Jul 19 '09 at 12:30
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    This question might help to understand concept of interfaces. stackoverflow.com/q/8531292/1055241 – gprathour Jul 7 '14 at 5:30

39 Answers 39


Use Interfaces to enforce a contract ACROSS families of unrelated classes. For example, you might have common access methods for classes that represent collections, but contain radically different data i.e. one class might represent a result set from a query, while the other might represent the images in a gallery. Also, you can implement multiple interfaces, thus allowing you to blend (and signify) the capabilities of the class.

Use Inheritance when the classes bear a common relationship and therefore have a similair structural and behavioural signature, i.e. Car, Motorbike, Truck and SUV are all types of road vehicle that might contain a number of wheels, a top speed


Make a list of the things your objects must be, have, or do and the things your objects can (or might) be, have, or do. Must indicates your base types and can indicates your interfaces.

E.g., your PetBase must Breathe, and your IPet might DoTricks.

Analysis of your problem domain will help you define the precise hierarchy structure.


When should I use an interface and when should I use a base class?

You should use interface if

  1. You have pure abstract methods and don't have non-abstract methods
  2. You don't have default implementation of non abstract methods (except for Java 8 language, where interface methods provides default implementation)
  3. If you are using Java 8, now interface will provide default implementation for some non-abstract methods. This will make interface more usable compared to abstract classes.

Have a look at this SE question for more details.

Should it always be an interface if I don't want to actually define a base implementation of the methods?

Yes. It's better and cleaner. Even if you have a base class with some abstract methods, let's base class extends abstract methods through interface. You can change interface in future without changing the base class.

Example in java:

abstract class PetBase implements IPet {
// Add all abstract methods in IPet interface and keep base class clean. 
   Base class will contain only non abstract methods and static methods.

If I have a Dog and Cat class. Why would I want to implement IPet instead of PetBase? I can understand having interfaces for ISheds or IBarks (IMakesNoise?), because those can be placed on a pet by pet basis, but I don't understand which to use for a generic Pet.

I prefer to have base class implement the interface.

 abstract class PetBase implements IPet {
 // Add all abstract methods in IPet

 /*If ISheds,IBarks is common for Pets, your PetBase can implement ISheds,IBarks. 
  Respective implementations of PetBase can change the behaviour in their concrete classes*/

 abstract class PetBase implements IPet,ISheds,IBarks {
 // Add all abstract methods in respective interfaces


  1. If I want to add one more abstract method in existing interfaces, I simple change interface without touching the abstract base class. If I want to change the contract, I will change interface & implementation classes without touching base class.

  2. You can provide immutability to base class through interface. Have a look at this article

Refer to this related SE question for more details:

How should I have explained the difference between an Interface and an Abstract class?


In addition to those comments that mention the IPet/PetBase implementation, there are also cases where providing an accessor helper class can be very valuable.

The IPet/PetBase style assumes that you have multiple implementations thus increasing the value of PetBase since it simplifies implementation. However, if you have the reverse or a blend of the two where you have multiple clients, providing a class help assist in the usage of the interface can reduce cost by making it easier to use an interface.


Use your own judgement and be smart. Don't always do what others (like me) are saying. You will hear "prefer interfaces to abstract classes" but it really depends. It depends what the class is.

In the above mentioned case where we have a hierarchy of objects, interface is a good idea. Interface helps to work with collections of these objects and it also helps when implementing a service working with any object of the hierarchy. You just define a contract for working with objects from the hierarchy.

On the other hand when you implement a bunch of services that share a common functionality you can either separate the common functionality into a complete separate class or you can move it up into a common base class and make it abstract so that nobody can instantiate the base class.

Also consider this how to support your abstractions over time. Interfaces are fixed: You release an interface as a contract for a set of functionality that any type can implement. Base classes can be extended over time. Those extensions become part of every derived class.


Interfaces have the distinct advantage of being somewhat "hot swappable" for classes. Changing a class from one parent to another will often result in a great deal of work, but Interfaces can often be removed and changed without a great deal of effect on the implementation class. This is especially useful in cases where you have several narrow sets of behaviour that you "may" want a class to implement.

This works especially well in my field: game programming. Base classes can get bloated with tons of behaviours that "may" be needed by inherited objects. With interfaces different behaviours can be added or removed to objects easily and readily. For example, if I create an interface for "IDamageEffects" for objects that I want to reflect damage, then I can easily apply that to various game objects, and easily change my mind later. Say I design an initial class that I want to use for "static" decorative objects and I initially decide they are non-destructible. Later on, I may decide it would be more fun if they could blow up so I alter the class to implement the "IDamageEffects" interface. This is much easier to do than switching base classes or creating a new object hierarchy.


There are other advantages to inheritance as well - such as the ability for a variable to be able to hold an object of either the parent class or the inherited class (without having to declare it as something generic, like "Object").

For example, in .NET WinForms, most UI components derive from System.Windows.Forms.Control, so a variable declared as that could "hold" just about any UI element - be it a button, a ListView, or what have you. Now, granted, you won't have access to all the properties or methods of the item, but you'll have all the basic stuff - and that can be useful.

  • Your example doesnt support the concept. You can do the same thing with an interface. You don't just have to have a base class for that. – Kilhoffer Sep 11 '08 at 20:09

You should use a base class if there really isn't any reason for other developers to desire using their own base class in addition to your type's members and you foresee versioning issues (see http://haacked.com/archive/2008/02/21/versioning-issues-with-abstract-base-classes-and-interfaces.aspx).

If inheriting developers have any reason to use their own base class to implement your type's interface and you don't see the interface changing, then go with an interface. In this case, you can still throw in a default base class that implements the interface for sake of convenience.


Thanks for answering by Jon Limjap but I want to add some explanation for concept of Interface and Abstract Base Classes

Interface Types vs. Abstract Base Classes

Adapted from the Pro C# 5.0 and the .NET 4.5 Framework book.

The interface type might seem very similar to an abstract base class. Recall that when a class is marked as abstract, it may define any number of abstract members to provide a polymorphic interface to all derived types. However, even when a class does define a set of abstract members, it is also free to define any number of constructors, field data, nonabstract members (with implementation), and so on. Interfaces, on the other hand, contain only abstract member definitions. The polymorphic interface established by an abstract parent class suffers from one major limitation in that only derived types support the members defined by the abstract parent. However, in larger software systems, it is very common to develop multiple class hierarchies that have no common parent beyond System.Object. Given that abstract members in an abstract base class apply only to derived types, we have no way to configure types in different hierarchies to support the same polymorphic interface. By way of example, assume you have defined the following abstract class:

public abstract class CloneableType
// Only derived types can support this
// "polymorphic interface." Classes in other
// hierarchies have no access to this abstract
// member.
   public abstract object Clone();

Given this definition, only members that extend CloneableType are able to support the Clone() method. If you create a new set of classes that do not extend this base class, you can’t gain this polymorphic interface. Also, you might recall that C# does not support multiple inheritance for classes. Therefore, if you wanted to create a MiniVan that is-a Car and is-a CloneableType, you are unable to do so:

// Nope! Multiple inheritance is not possible in C#
// for classes.
public class MiniVan : Car, CloneableType

As you would guess, interface types come to the rescue. After an interface has been defined, it can be implemented by any class or structure, in any hierarchy, within any namespace or any assembly (written in any .NET programming language). As you can see, interfaces are highly polymorphic. Consider the standard .NET interface named ICloneable, defined in the System namespace. This interface defines a single method named Clone():

public interface ICloneable
object Clone();

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