Related
In object oriented programming, I have read that you should program to an interface not an implementation but do they mean literal interfaces (no shared code at all)?
Is it okay to program to an abstract base class that would have been an interface except that there were variables in this "interface" that all sub-classes were expected to have? Replicating a variable across sub-classes would have been an inconvenience because if I changed the name of one of the variables in one of the sub-classes I would have to change the name of that variable in all of the sub-classes.
In following the principle of "program to an interface not an implementation", is this okay or would you create another interface on top of the abstract base class and program to that interface?
You want to program to interfaces because it means lower coupling. Note that interfaces in Java are more flexible since they can be implemented by a class anywhere in the class hierarchy unlike abstract classes (as a result of single inheritance). Such flexibility means that your code is reusable to a higher degree.
The important point of "programming to an interface not an implementation" is that of the general principles mentioned above, even if they might cause some minor inconveniences.
Also, even if you program to an interface, you can always implement said interface (or parts of it) by means of abstract classes if you'd like, achieving both low coupling and code reusability at the same time.
It's always okay to program to abstract or even concrete classes, however it's better if you can avoid it.
This discussion might be helpful or this one and of course this one.
Note: C++ doesn't have interfaces. You might argue it doesn't need them.
you should program to an interface not an implementation but do they mean literal interfaces (no shared code at all)?
Possibly. Where it makes sense to do this, it can work very well. Note: in Java interfaces can have code as well.
Is it okay to program to an abstract base class that would have been an interface except that there were variables in this "interface" that all sub-classes were expected to have?
If you need fields in the implementation an abstract class can make sense. You can still use an interface as well.
Replicating a variable across sub-classes would have been an inconvenience because if I changed the name of one of the variables in one of the sub-classes I would have to change the name of that variable in all of the sub-classes.
This is where using an IDE helps. You can change a field, class, method name in all your code with one action.
is this okay or would you create another interface on top of the abstract base class and program to that interface?
You can code your implementation to an abstract class, but the users of that class should be using an interface if possible.
e.g. HashMap extends AbstractMap but implements Map. Most people would use Map not AbstractMap
In an interview it was asked to me to justify when to choose interface and when to choose abstract classes and in which conditions you will choose out of the two only one.. I have come up with my analysis for interface and that is...
Interface is best choice for Type declaration or defining contract
between multiple parties.
If multiple programmers are working in different modules of a project they still use each others API by defining interface and not waiting
for actual implementation to be ready.
This brings us a lot of flexibility and speed in terms of coding and
development. Use of Interface also ensures best practices like
"programming for interfaces than implementation" and results in more
flexible and maintainable code.
But I don't have strong reasons to justify the abstract classes, Please advise..!
Abstract classes are used to group a number of concrete classes under one entity.
For example, take the abstract class Animal.
Animal is not something concrete. it's a family of, well, animals. but they all share certain aspectes, for example, each has a speak() option (well, except fish and sort). but each one implements it differently. this way you can override just the methods which are not the same, for example sleep() or breath() are common (again, fish are differnet :) ).
Interfaces on the other hand are more direct definition of an 'action'. That's why most (if not all) the interfaces in Java ends with 'able' (Comprable, Serializable...)
By implementing the interface, you're telling other programmers or who ever uses your code that this class can do this and this.
A dog, for example, is not, Animable.
Basically, to sum it up, I think that the best definition is this.
Use abstract classes when you have a class that A is kind of B and interface when A can do B.
Hope that's help.
Abstract classes are used when you want to provide partial implementation.
Abstract classes can have default behaviour(implementation) if is required, interfaces cannot.
An abstract class can provide default behaviour for ALL methods or no methods whereas interfaces cannot.
Abstract classes can have state shared with all subclasses, interfaces don't specify state.
You can implement multiple interfaces, you can only extend one (abstract) class.
An interface declares a contract with whatever implements it. It's a guarantee that the class will contain the methods in the interface.
An abstract class is similar in that anything that subclasses it will also have to implement the abstract methods, but you can also have working methods with code in them.
I use interfaces a lot for callbacks with Android programming. Abstract classes I use a lot if I have a lot of similar data to display and just want small changes to implementation. Use an abstract class to cut down on repeated code while still having different implementation.
You are correct on your definition of interfaces.
Abstract classes should serve a completely different purpose. As an example, let's say you are implementing several classes for an animal simulator. 'Animal' defines several behaviours that could already have a basic implementation, but is not itself something that would make sense to have instantiated. Likewise for 'Mamal', a bubclass of 'Animal'. Only a subclass 'Tiger' would not be abstract, but most of what a tiger does that's not tiger specific would be implemented in it's abstract superclasses.
1. If speaking generally, An Abstract class will be needed when we need to force down some features on the Sub-Class from Super-Class, letting the Sub-Class to have the flexibility to add other functinality.
Eg:
Let Car be the Abstract Super-Class, which has 4 Tyres, 1 Steering ,etc...
Now the Sub classes like Santro i10, Maruti-800, Mahindr Bolero etc are Sub classes,
but they need to have 4 Tyres, 1 Steering to be called a car, not they can have a radio or not as an additional feature.
2. Interface was introduced in java, because there is no Multiple Inheritance.
3. Interface is more about providing a role.
Eg:
Let Dog be the Super-Class.
Wild Dogs and Pet Dogs are Sub-Classes.
Wild Behavior and Pet Behavior are Interfaces
Now as both Wild Dog and Pet Dog are dogs, but with different behavious. Then they must implement the Wild Behavior or Pet Behavior respectively
you'd want to use an abstract class when you want your classes to only implement the methods if the situation would call for them.
an example would be if you had a super class vehicle and you wanted your sub-classes to give you number of wheels if they have them. You wouldn't need them if they were boats so the contract would force you to implement still while you could just out right ignore it for your abstract class.
I was asked a question, I wanted to get my answer reviewed here.
Q: In which scenario it is more appropriate to extend an abstract class rather than implementing the interface(s)?
A: If we are using template method design pattern.
Am I correct ?
I am sorry if I was not able to state the question clearly.
I know the basic difference between abstract class and interface.
1) use abstract class when the requirement is such that we need to implement the same functionality in every subclass for a specific operation (implement the method) and different functionality for some other operations (only method signatures)
2) use interface if you need to put the signature to be same (and implementation different) so that you can comply with interface implementation
3) we can extend max of one abstract class, but can implement more than one interface
Reiterating the question: Are there any other scenarios, besides those mentioned above, where specifically we require to use abstract class (one is see is template method design pattern is conceptually based on this only)?
Interface vs. Abstract class
Choosing between these two really depends on what you want to do, but luckily for us, Erich Gamma can help us a bit.
As always there is a trade-off, an interface gives you freedom with regard to the base class, an abstract class gives you the freedom to add new methods later. – Erich Gamma
You can’t go and change an Interface without having to change a lot of other things in your code, so the only way to avoid this would be to create a whole new Interface, which might not always be a good thing.
Abstract classes should primarily be used for objects that are closely related. Interfaces are better at providing common functionality for unrelated classes.
When To Use Interfaces
An interface allows somebody to start from scratch to implement your interface or implement your interface in some other code whose original or primary purpose was quite different from your interface. To them, your interface is only incidental, something that have to add on to the their code to be able to use your package. The disadvantage is every method in the interface must be public. You might not want to expose everything.
When To Use Abstract classes
An abstract class, in contrast, provides more structure. It usually defines some default implementations and provides some tools useful for a full implementation. The catch is, code using it must use your class as the base. That may be highly inconvenient if the other programmers wanting to use your package have already developed their own class hierarchy independently. In Java, a class can inherit from only one base class.
When to Use Both
You can offer the best of both worlds, an interface and an abstract class. Implementors can ignore your abstract class if they choose. The only drawback of doing that is calling methods via their interface name is slightly slower than calling them via their abstract class name.
reiterating the question: there is any other scenario besides these
mentioned above where specifically we require to use abstract class
(one is see is template method design pattern is conceptually based on
this only)
Yes, if you use JAXB. It does not like interfaces. You should either use abstract classes or work around this limitation with generics.
From a personal blog post:
Interface:
A class can implement multiple interfaces
An interface cannot provide any code at all
An interface can only define public static final constants
An interface cannot define instance variables
Adding a new method has ripple effects on implementing classes (design maintenance)
JAXB cannot deal with interfaces
An interface cannot extends or implement an abstract class
All interface methods are public
In general, interfaces should be used to define contracts (what is to be achieved, not how to achieve it).
Abstract Class:
A class can extend at most one abstract class
An abstract class can contain code
An abstract class can define both static and instance constants (final)
An abstract class can define instance variables
Modification of existing abstract class code has ripple effects on extending classes (implementation maintenance)
Adding a new method to an abstract class has no ripple effect on extending classes
An abstract class can implement an interface
Abstract classes can implement private and protected methods
Abstract classes should be used for (partial) implementation. They can be a mean to restrain the way API contracts should be implemented.
Interface is used when you have scenario that all classes has same structure but totally have different functionality.
Abstract class is used when you have scenario that all classes has same structure but some same and some different functionality.
Take a look the article : http://shoaibmk.blogspot.com/2011/09/abstract-class-is-class-which-cannot-be.html
There are a lot of great answers here, but I often find using BOTH interfaces and abstract classes is the best route. Consider this contrived example:
You're a software developer at an investment bank, and need to build a system that places orders into a market. Your interface captures the most general idea of what a trading system does,
1) Trading system places orders
2) Trading system receives acknowledgements
and can be captured in an interface, ITradeSystem
public interface ITradeSystem{
public void placeOrder(IOrder order);
public void ackOrder(IOrder order);
}
Now engineers working at the sales desk and along other business lines can start to interface with your system to add order placement functionality to their existing apps. And you haven't even started building yet! This is the power of interfaces.
So you go ahead and build the system for stock traders; they've heard that your system has a feature to find cheap stocks and are very eager to try it out! You capture this behavior in a method called findGoodDeals(), but also realize there's a lot of messy stuff that's involved in connecting to the markets. For example, you have to open a SocketChannel,
public class StockTradeSystem implements ITradeSystem{
#Override
public void placeOrder(IOrder order);
getMarket().place(order);
#Override
public void ackOrder(IOrder order);
System.out.println("Order received" + order);
private void connectToMarket();
SocketChannel sock = Socket.open();
sock.bind(marketAddress);
<LOTS MORE MESSY CODE>
}
public void findGoodDeals();
deals = <apply magic wizardry>
System.out.println("The best stocks to buy are: " + deals);
}
The concrete implementations are going to have lots of these messy methods like connectToMarket(), but findGoodDeals() is all the traders actually care about.
Now here's where abstract classes come into play. Your boss informs you that currency traders also want to use your system. And looking at currency markets, you see the plumbing is nearly identical to stock markets. In fact, connectToMarket() can be reused verbatim to connect to foreign exchange markets. However, findGoodDeals() is a much different concept in the currency arena. So before you pass off the codebase to the foreign exchange wiz kid across the ocean, you first refactor into an abstract class, leaving findGoodDeals() unimplmented
public abstract class ABCTradeSystem implements ITradeSystem{
public abstract void findGoodDeals();
#Override
public void placeOrder(IOrder order);
getMarket().place(order);
#Override
public void ackOrder(IOrder order);
System.out.println("Order received" + order);
private void connectToMarket();
SocketChannel sock = Socket.open();
sock.bind(marketAddress);
<LOTS MORE MESSY CODE>
}
Your stock trading system implements findGoodDeals() as you've already defined,
public class StockTradeSystem extends ABCTradeSystem{
public void findGoodDeals();
deals = <apply magic wizardry>
System.out.println("The best stocks to buy are: " + deals);
}
but now the FX whiz kid can build her system by simply providing an implementation of findGoodDeals() for currencies; she doesn't have to reimplement socket connections or even the interface methods!
public class CurrencyTradeSystem extends ABCTradeSystem{
public void findGoodDeals();
ccys = <Genius stuff to find undervalued currencies>
System.out.println("The best FX spot rates are: " + ccys);
}
Programming to an interface is powerful, but similar applications often re-implement methods in nearly identical ways. Using an abstract class avoids reimplmentations, while preserving the power of the interface.
Note: one may wonder why findGreatDeals() isn't part of the interface. Remember, the interface defines the most general components of a trading system. Another engineer may develop a COMPLETELY DIFFERENT trading system, where they don't care about finding good deals. The interface guarantees that the sales desk can interface to their system as well, so it's preferable not to entangle your interface with application concepts like "great deals".
Which should you use, abstract classes or interfaces?
Consider using abstract classes if any of these statements apply to your use case:
You want to share code among several closely related classes.
You expect that classes that extend your abstract class have many common methods or fields, or require access modifiers other than public (such as protected and private).
You want to declare non-static or non-final fields. This enables you to define methods that can access and modify the state of the object to which they belong.
Consider using interfaces if any of these statements apply to your use case:
You expect that unrelated classes would implement your interface.
For example, the interfaces Comparable and Cloneable are implemented by many unrelated classes.
You want to specify the behavior of a particular data type, but not concerned about who implements its behavior.
You want to take advantage of multiple inheritance of type.
New methods added regularly to interface by providers, to avoid issues extend Abstract class instead of interface.
http://docs.oracle.com/javase/tutorial/java/IandI/abstract.html
Things have been changed a lot in last three years with addition of new capabilities to interface with Java 8 release.
From oracle documentation page on interface:
An interface is a reference type, similar to a class, that can contain only constants, method signatures, default methods, static methods, and nested types. Method bodies exist only for default methods and static methods.
As you quoted in your question, abstract class is best fit for template method pattern where you have to create skeleton. Interface cant be used here.
One more consideration to prefer abstract class over interface:
You don't have implementation in base class and only sub-classes have to define their own implementation. You need abstract class instead of interface since you want to share state with sub-classes.
Abstract class establishes "is a" relation between related classes and interface provides "has a" capability between unrelated classes.
Regarding second part of your question, which is valid for most of the programming languages including java prior to java-8 release
As always there is a trade-off, an interface gives you freedom with regard to the base class, an abstract class gives you the freedom to add new methods later. – Erich Gamma
You can’t go and change an Interface without having to change a lot of other things in your code
If you prefer abstract class to interface earlier with above two considerations, you have to re-think now as default methods have added powerful capabilities to interfaces.
Default methods enable you to add new functionality to the interfaces of your libraries and ensure binary compatibility with code written for older versions of those interfaces.
To select one of them between interface and abstract class, oracle documentation page quote that:
Abstract classes are similar to interfaces. You cannot instantiate them, and they may contain a mix of methods declared with or without an implementation. However, with abstract classes, you can declare fields that are not static and final, and define public, protected, and private concrete methods.
With interfaces, all fields are automatically public, static, and final, and all methods that you declare or define (as default methods) are public. In addition, you can extend only one class, whether or not it is abstract, whereas you can implement any number of interfaces.
Refer to these related questions fore more details:
Interface vs Abstract Class (general OO)
How should I have explained the difference between an Interface and an Abstract class?
In summary : The balance is tilting more towards interfaces now.
Are there any other scenarios, besides those mentioned above, where specifically we require to use abstract class (one is see is template method design pattern is conceptually based on this only)?
Some design patterns use abstract classes (over interfaces) apart from Template method pattern.
Creational patterns:
Abstract_factory_pattern
Structural patterns:
Decorator_pattern
Behavioral patterns:
Mediator_pattern
You are not correct. There are many scenarios. It just isn't possible to reduce it to a single 8-word rule.
The shortest answer is, extend abstract class when some of the functionalities uou seek are already implemented in it.
If you implement the interface you have to implement all the method. But for abstract class number of methods you need to implement might be fewer.
In template design pattern there must be a behavior defined. This behavior depends on other methods which are abstract. By making sub class and defining those methods you actually define the main behavior. The underlying behavior can not be in a interface as interface does not define anything, it just declares. So a template design pattern always comes with an abstract class. If you want to keep the flow of the behavior intact you must extend the abstract class but don't override the main behavior.
In my opinion, the basic difference is that an interface can't contain non-abstract methods while an abstract class can.
So if subclasses share a common behavior, this behavior can be implemented in the superclass and thus inherited in the subclasses
Also, I quoted the following from "software architecture design patterns in java" book
" In the Java programming language, there is no support for multiple inheritance.
That means a class can inherit only from one single class. Hence inheritance
should be used only when it is absolutely necessary. Whenever possible, methods
denoting the common behavior should be declared in the form of a Java interface to be implemented by different implementer classes. But interfaces suffer from the limitation that they cannot provide method implementations. This means that every implementer of an interface must explicitly implement all methods declared in an interface, even when some of these methods represent the invariable part of the functionality and have exactly the same implementation in all of the implementer classes. This leads to redundant code. The following example demonstrates how the Abstract Parent Class pattern can be used in such cases without requiring redundant method implementations."
Abstract classes are different from interfaces in two important aspects
they provide default implementation for chosen methods (that is covered by your answer)
abstract classes can have state (instance variables) - so this is one more situation you want to use them in place of interfaces
This is a good question The two of these are not similar but can be use for some of the same reason, like a rewrite. When creating it is best to use Interface. When it comes down to class, it is good for debugging.
This is my understanding, hope this helps
Abstract classes:
Can have member variables that are inherited (can’t be done in interfaces)
Can have constructors (interfaces can’t)
Its methods can have any visibility (ie: private, protected, etc - whereas all interface methods are public)
Can have defined methods (methods with an implementation)
Interfaces:
Can have variables, but they are all public static final variables
constant values that never change with a static scope
non static variables require an instance, and you can’t instantiate an interface
All methods are abstract (no code in abstract methods)
all code has to be actually written in the class that implements the particular interface
Usage of abstract and interface:
One has "Is-A-Relationship" and another one has "Has-A-Relationship"
The default properties has set in abstract and extra properties can be expressed through interface.
Example: --> In the human beings we have some default properties that are eating, sleeping etc. but if anyone has any other curricular activities like swimming, playing etc those could be expressed by Interface.
Abstract classes should be extended when you want to some common behavior to get extended. The Abstract super class will have the common behavior and will define abstract method/specific behavior which sub classes should implement.
Interfaces allows you to change the implementation anytime allowing the interface to be intact.
I think the answers here are missing the main point:
Java interfaces (the question is about Java but there are similar mechanisms in other languages) is a way to partially support multiple inheritance, i.e. method-only inheritance.
It is similar to PHP's traits or Python's duck typing.
Besides that, there is nothing additional that you truly need an interface for --and you cannot instantiate a Java interface.
I still have some confusion about this thing. What I have found till now is
(Similar questions have already been asked here but I was having some other points.)
Interface is collection of ONLY abstract methods and final fields.
There is no multiple inheritance in Java.
Interfaces can be used to achieve multiple inheritance in Java.
One Strong point of Inheritance is that We can use the code of base class in derived class without writing it again. May be this is the most important thing for inheritance to be there.
Now..
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?
Q3. Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it.
Then why to make interfaces ?
NOTE : I have found one case in which interfaces are helpful. One example of it is like in Runnable interface we have public void run() method in which we define functionality of thread and there is built in coding that this method will be run as a separate thread. So we just need to code what to do in thread, Rest is pre-defined. But this thing also can be achieved using abstract classes and all.
Then what are the exact benefits of using interfaces? Is it really Multiple-Inheritance that we achieve using Interfaces?
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.
We can't. Interfaces aren't used to achieve multiple inheritance. They replace it with safer, although slightly less powerful construct. Note the keyword implements rather than extends.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?
They are not. With interfaces a single class can have several "views", different APIs or capabilities. E.g. A class can be Runnable and Callable at the same time, while both methods are effectively doing the same thing.
Q3. Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it.
Interfaces are kind-of multiple inheritance with no problems that the latter introduces (like the Diamond problem).
There are few use-cases for interfaces:
Object effectively has two identities: a Tank is both a Vehicle and a Weapon. You can use an instance of Tank where either the former or the latter is expected (polymorphism). This is rarely a case in real-life and is actually a valid example where multiple inheritance would be better (or traits).
Simple responsibilities: an instance of Tank object in a game is also Runnable to let you execute it in a thread and an ActionListener to respond to mouse events.
Callback interfaces: if object implements given callback interface, it is being notified about its life-cycle or other events.
Marker interfaces: not adding any methods, but easily accessible via instanceof to discover object capabilities or wishes. Serializable and Cloneable are examples of this.
What you are looking for are trait (like in Scala), unfortunately unavailable in Java.
Interfaces are collection of final static fields and abstract methods (Newly Java 8 added support of having static methods in an interface).
Interfaces are made in situations when we know that some task must be done, but how it should be done can vary. In other words we can say we implement interfaces so that our class starts behaving in a particular way.
Let me explain with an example, we all know what animals are. Like Lion is an animal, monkey is an animal, elephant is an animal, cow is an animal and so on. Now we know all animals do eat something and sleep. But the way each animal can eat something or sleep may differ. Like Lion eats by hunting other animals where as cow eats grass. But both eat. So we can have some pseudo code like this,
interface Animal {
public void eat();
public void sleep();
}
class Lion implements Animal {
public void eat() {
// Lion's way to eat
}
public void sleep(){
// Lion's way to sleep
}
}
class Monkey implements Animal {
public void eat() {
// Monkey's way to eat
}
public void sleep() {
// Monkey's way to sleep
}
}
As per the pseudo code mentioned above, anything that is capable of eating or sleeping will be called an animal or we can say it is must for all animals to eat and sleep but the way to eat and sleep depends on the animal.
In case of interfaces we inherit only the behaviour, not the actual code as in case of classes' inheritance.
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.
Implementing interfaces is other kind of inheritance. It is not similar to the inheritance of classes as in that inheritance child class gets the real code to reuse from the base class.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?
It is said because one class can implement more than one interfaces. But we need to understand that this inheritance is different than classes' inheritance.
Q3. Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it.
Implementing an interface puts compulsion on the class that it must override its all abstract methods.
Read more in my book here and here
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.
Unfortunately, in colloquial usage, the word inheritance is still frequently used when a class implements an interface, although interface implementation would be a preferable term - IMO, the term inheritance should strictly be used with inheritance of a concrete or abstract class. In languages like C++ and C#, the same syntax (i.e. Subclass : Superclass and Class : Interface) is used for both class inheritance and interface implementation, which may have contributed to the spread of the misuse of the word inheritance with interfaces. Java has different syntax for extending a class as opposed to implementing an interface, which is a good thing.
Q2 If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?
You can achieve the 'effect' of multiple inheritance through composition - by implementing multiple interfaces on a class, and then providing implementations for all methods, properties and events required of all the interfaces on the class. One common technique of doing this with concrete classes is by doing 'has-a' (composition) relationships with classes which implement the external interfaces by 'wiring up' the implementation to each of the internal class implementations. (Languages such as C++ do support multiple concrete inheritance directly, but which creates other potential issues like the diamond problem).
Q3 Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it.
Interfaces allow existing classes (e.g. frameworks) to interact with your new classes without having ever 'seen' them before, because of the ability to communicate through a known interface. Think of an interface as a contract. By implementing this interface on a class, you are contractually bound to meet the obligations required of it, and once this contract is implemented, then your class should be able to be used interchangeably with any other code which consumes the interface.
Real World Example
A 'real world' example would be the legislation and convention (interface) surrounding an electrical wall socket in a particular country. Each electrical appliance plugged into the socket needs to meet the specifications (contract) that the authorities have defined for the socket, e.g. the positioning of the line, neutral and earth wires, the position and colouring of the on / off switch, and the conformance the the electrical voltage, frequency and maximum current that will be supplied through the interface when it is switched on.
The benefit of decoupling the interface (i.e. a standard wall socket) rather than just soldering wires together is that you can plug (and unplug) a fan, a kettle, a double-adapter, or some new appliance to be invented next year into it, even though this appliance didn't exist when the interface was designed. Why? Because it will conform to the requirements of the interface.
Why use interfaces?
Interfaces are great for loose coupling of classes, and are one of the mainstay's of Uncle Bob's SOLID paradigm, especially the Dependency Inversion Principle and Interface Segregation Principles.
Simply put, by ensuring that dependencies between classes are coupled only on interfaces (abstractions), and not on other concrete classes, it allows the dependency to be substituted with any other class implementation which meets the requirements of the interface.
In testing, stubs and mocks of dependencies can be used to unit test each class, and the interaction the class has with the dependency can be 'spyed' upon.
KISS
I have searched for days, nay weeks trying to understand interfaces and seem to read the same generic help; I'm not trying to disparage the contributions, but i think the light-bulb just clicked so I'm chuffed :))
I prefer to Keep It Simple Stupid, so will proffer my new found view of interfaces.
I'm a casual coder but i want to post this code i wrote in VB.NET (the principle is the same for other languages), to help others understand interfaces.
If i have it wrong, then please let others know in follow up comments.
Explanation
Three buttons on a form, clicking each one saves a different class reference to the interface variable (_data). The whole point of different class references into an interface variable, is what i didn't understand as it seemed redundant, then its power becomes evident with the msgbox, i only need to call the SAME method to perform the task i need, in this case 'GetData()', which uses the method in the class that's currently held by the interface reference variable (_data).
So however i wish to get my data (from a database, the web or a text file), it's only ever done using the same method name; the code behind that implementation...i don't care about.
It's then easy to change each class code using the interface without any dependency...this is a key goal in OO and encapsulation.
When to use
Code classes and if you notice the same verb used for methods, like 'GetData()', then it's a good candidate to implement an interface on that class and use that method name as an abstraction / interface.
I sincerely hope this helps a fellow noob with this difficult principle.
Public Class Form1
Private _data As IData = Nothing
Private Sub Button1_Click(ByVal sender As System.Object, ByVal e As System.EventArgs) Handles Button1.Click
_data = New DataText()
MsgBox(_data.GetData())
End Sub
Private Sub Button2_Click(ByVal sender As System.Object, ByVal e As System.EventArgs) Handles Button2.Click
_data = New DataDB()
MsgBox(_data.GetData())
End Sub
Private Sub Button3_Click(ByVal sender As System.Object, ByVal e As System.EventArgs) Handles Button3.Click
_data = New DataWeb()
MsgBox(_data.GetData())
End Sub
End Class
Public Interface IData
Function GetData() As String
End Interface
Friend Class DataText : Implements IData
Friend Function GetData() As String Implements IData.GetData
Return "DataText"
End Function
End Class
Friend Class DataDB : Implements IData
Friend Function GetData() As String Implements IData.GetData
Return "DataDB"
End Function
End Class
Friend Class DataWeb : Implements IData
Friend Function GetData() As String Implements IData.GetData
Return "DataWeb"
End Function
End Class
Old question. I'm suprised that nobody quoted the canonical sources: Java: an Overview by James Gosling, Design Patterns: Elements of Reusable Object-Oriented Software by the Gang of Four or Effective Java by Joshua Bloch (among other sources).
I will start with a quote:
An interface is simply a specification of a set of methods that an object responds to. It does not include any instance variables or implementation. Interfaces can be multiply-inherited (unlike classes) and they can be used in a more flexible way than the usual rigid class
inheritance structure. (Gosling, p.8)
Now, let's take your assumptions and questions one by one (I'll voluntarily ignore the Java 8 features).
Assumptions
Interface is collection of ONLY abstract methods and final fields.
Did you see the keyword abstract in Java interfaces? No. Then you should not consider an interface as a collection of abstract methods. Maybe you are misleaded by the C++ so-called interfaces, which are classes with only pure virtual methods. C++, by design, does not have (and does not need to have) interfaces, because it has mutliple inheritance.
As explained by Gosling, you should rather consider an interface as "a set of methods that an object responds to". I like to see an interface and the associated documentation as a service contract. It describes what you can expect from an object that implements that interface. The documentation should specify the pre and post-conditions (e.g. the parameters should be not null, the output is always positive, ...) and the invariants (a method that does not modify the object internal state). This contract is the heart, I think, of OOP.
There is no multiple inheritance in Java.
Indeed.
JAVA omits many rarely used, poorly understood, confusing features of C++ that in our experience bring more grief than benefit. This primarily consists of operator overloading (although it does have method overloading), multiple inheritance, and extensive automatic coercions. (Gosling, p.2)
Nothing to add.
Interfaces can be used to achieve multiple inheritance in Java.
No, simlpy because there is no multiple inheritance in Java. See above.
One Strong point of Inheritance is that We can use the code of base class in derived class without writing it again. May be this is the most important thing for inheritance to be there.
That's called "implementation inheritance". As you wrote, it's a convenient way to reuse code.
But it has an important counterpart:
parent classes often define at least part of their subclasses' physical representation. Because inheritance exposes a subclass to details of its parent's implementation, it's often said that "inheritance breaks encapsulation" [Sny86]. The implementation of a subclass becomes so bound up with the implementation of its parent class that any change in the parent's implementation will force the subclass to change. (GOF, 1.6)
(There is a similar quote in Bloch, item 16.)
Actually, inheritance serves also another purpose:
Class inheritance combines interface inheritance and implementation inheritance. Interface inheritance defines a new interface in terms of one
or more existing interfaces. Implementation inheritance defines a new implementation in terms of one or more existing implementations. (GOF, Appendix A)
Both use the keyword extends in Java. You may have hierarchies of classes and hierarchies of interfaces. The first ones share implementation, the second ones share obligation.
Questions
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.**
Implementation of an interface is not inheritance. It's implementation. Thus the keyword implements.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?**
No multiple inheritance in Java. See above.
Q3. Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it./Then why to make interfaces ?/What are the exact benefits of using interfaces? Is it really Multiple-Inheritance that we achieve using Interfaces?
The most important question is: why would you like to have multiple-inheritance? I can think of two answers: 1. to give mutliple types to an object; 2. to reuse code.
Give mutliple types to an object
In OOP, one object may have different types. For instance in Java, an ArrayList<E> has the following types: Serializable, Cloneable, Iterable<E>, Collection<E>, List<E>, RandomAccess, AbstractList<E>, AbstractCollection<E> and Object (I hope I have not forgotten anyone). If an object has different types, various consumers will be able use it without be aware of its specificities. I need an Iterable<E> and you give me a ArrayList<E>? It's ok. But if I need now a List<E> and you give me a ArrayList<E>, it's ok too. Etc.
How do you type an object in OOP? You took the Runnable interface as an example, and this example is perfect to illustrate the answer to this question. I quote the official Java doc:
In addition, Runnable provides the means for a class to be active while not subclassing Thread.
Here's the point: Inheritance is a convenient way of typing objects. You want to create a thread? Let's subclass the Thread class. You want an object to have different types, let's use mutliple-inheritance. Argh. It doesn't exist in Java. (In C++, if you want an object to have different types, multiple-inheritance is the way to go.)
How to give mutliple types to an object then? In Java, you can type your object directly. That's what you do when your class implements the Runnable interface. Why use Runnable if your a fan of inheritance? Maybe because your class is already a subclass of another class, let's say A. Now your class has two types: A and Runnable.
With multiple interfaces, you can give multiple types to an object. You just have to create a class that implements multiple interfaces. As long as you are compliant with the contracts, it's ok.
Reuse code
This is a difficult subject; I've already quoted the GOF on breaking the encapsulation. Other answer mentionned the diamond problem. You could also think of the Single Responsibility Principle:
A class should have only one reason to change. (Robert C. Martin, Agile Software Development, Principles, Patterns, and Practices)
Having a parent class may give a class a reason to change, besides its own responsibilities:
The superclass’s implementation may change from release to release, and if it does, the subclass may break, even though its code has not been touched. As a consequence, a subclass must evolve in tandem with its superclass (Bloch, item 16).
I would add a more prosaic issue: I always have a weird feeling when I try to find the source code of a method in a class and I can't find it. Then I remember: it must be defined somewhere in the parent class. Or in the grandparent class. Or maybe even higher. A good IDE is a valuable asset in this case, but it remains, in my mind, something magical. Nothing similar with hierarchies of interfaces, since the javadoc is the only thing I need: one keyboard shortcut in the IDE and I get it.
Inheritance howewer has advantages:
It is safe to use inheritance within a package, where the subclass and the superclass implementations are under the control of the same programmers. It is also safe to use inheritance when extending classes specifically designed and documented for extension (Item 17: Design and document for inheritance or else prohibit it). (Bloch, item 16)
An example of a class "specifically designed and documented for extension" in Java is AbstractList.
But Bloch and GOF insist on this: "Favor composition over inheritance":
Delegation is a way of making composition as powerful for reuse as inheritance [Lie86, JZ91]. In delegation, two objects are involved in handling a request: a receiving object delegates operations to its delegate. This is analogous to subclasses deferring requests to parent classes. (GOF p.32)
If you use composition, you won't have to write the same code again and again. You just create a class that handles the duplications, and you pass an instance of this class to the classes that implements the interface. It's a very simple way to reuse code. And this helps you to follow the Single Responsibility Principle and make the code more testable. Rust and Go don't have inheritance (they don't have classes either), but I don't think that the code is more redundant than in other OOP languages.
Furthermore, if you use composition, you will find yourself naturally using interfaces to give your code the structure and the flexibility it needs (see other answers on use cases of interfaces).
Note: you can share code with Java 8 interfaces
And finally, one last quote:
During the memorable Q&A session, someone asked him [James Gosling]: "If you could do Java over again, what would you change?" "I'd leave out classes" (anywhere on the net, don't know if this is true)
This is very old question and java-8 release have added more features & power to interface.
An interface declaration can contain
method signatures
default methods
static methods
constant definitions.
The only methods that have implementations in interface are default and static methods.
Uses of interface:
To define a contract
To link unrelated classes with has a capabilities (e.g. classes implementing Serializable interface may or may not have any relation between them except implementing that interface
To provide interchangeable implementation e.g. Strategy_pattern
default methods enable you to add new functionality to the interfaces of your libraries and ensure binary compatibility with code written for older versions of those interfaces
Organize helper methods in your libraries with static methods ( you can keep static methods specific to an interface in the same interface rather than in a separate class)
Have a look at this related SE question for code example to understanding the concepts better:
How should I have explained the difference between an Interface and an Abstract class?
Coming back to your queries:
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?
Interface can contain code for static and default methods. These default methods provides backward compatibility & static methods provides helper/utility functions.
You can't have true multiple inheritance in java and interface is not the way to get it. Interface can contain only constants. So you can't inherit state but you can implement behaviour.
You can replace inheritance with capability. Interface provides multiple capabilities to implementing classes.
Q3. Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it.
Refer to "uses of interface" section in my answer.
Inheritance is when one class derives from another class (which can be abstract) or an Interface. The strongest point of object oriented (inheritance) is not reuse of code (there are many ways to do it), but polymorphism.
Polymorphism is when you have code that uses the interface, which it's instance object can be of any class derived from that interface. For example I can have such a method:
public void Pet(IAnimal animal) and this method will get an object which is an instance of Dog or Cat which inherit from IAnimal. or I can have such a code:
IAnimal animal
and then I can call a method of this interface:
animal.Eat() which Dog or Cat can implement in a different way.
The main advantage of interfaces is that you can inherit from some of them, but if you need to inherit from only one you can use an abstract class as well. Here is an article which explains more about the differences between an abstract class and an interface:
http://www.codeproject.com/KB/cs/abstractsvsinterfaces.aspx
Both Methods Work (Interfaces and Multiple Inheritance).
Quick Practical Short Answer
Interfaces are better when you have several years of experience using Multiple Inheritance that have Super Classes with only method definition, and no code at all.
A complementary question may be: "How and Why to to migrate code from Abstract Classes to Interfaces".
If you are not using many abstract classes, in your application, or you don't have many experience with it, you may prefer to skip interfaces.
Dont rush to use interfaces.
Long Boring Answer
Interfaces are very similar, or even equivalent to abstract Classes.
If your code has many Abstract classes, then its time you start thinking in terms of Interfaces.
The following code with abstract classes:
MyStreamsClasses.java
/* File name : MyStreamsClasses.java */
import java.lang.*;
// Any number of import statements
public abstract class InputStream {
public void ReadObject(Object MyObject);
}
public abstract class OutputStream {
public void WriteObject(Object MyObject);
}
public abstract class InputOutputStream
imnplements InputStream, OutputStream {
public void DoSomethingElse();
}
Can be replaced with:
MyStreamsInterfaces.java
/* File name : MyStreamsInterfaces.java */
import java.lang.*;
// Any number of import statements
public interface InputStream {
public void ReadObject(Object MyObject);
}
public interface OutputStream {
public void WriteObject(Object MyObject);
}
public interface InputOutputStream
extends InputStream, OutputStream {
public void DoSomethingElse();
}
Cheers.
So. There are a lot of excellent answers here explaining in detail what an interface is. Yet, this is an example of its use, in the way one of my best colleagues ever explained it to me years ago, with what I have learned at university in the last couple of years mixed in.
An interface is a kind of 'contract'. It exposes some methods, fields and so on, that are available. It does not reveal any of its implementation details, only what it returns, and which parameters it takes. And in here lies the answer to question three, and what I feel is one of the greatest strengths of modern OOP:
"Code by addition, Not by modification" - Magnus Madsen, AAU
That's what he called it at least, and he may have it from some other place. The sample code below is written in C#, but everything shown can be done just about the same way in Java.
What we see is a class called SampleApp, that has a single field, the IOContext. IOContext is an interface.
SampleApp does not care one wit about how it saves its data, it just needs to do so, in its "doSomething()" method.
We can imagine that saving the data may have been more important than HOW it was saved at the beginning of the development process, so the developer chose to simply write the FileContext class. Later on, however, he needed to support JSON for whatever reason. So he wrote the JSONFileContext class, which inherits FileContext. This means that it is effectively an IOContext, which has the functionality of FileContext, save the replacement of FileContexts SaveData and LoadData, it still uses its 'write/read' methods.
Implementing the JSON class has been a small amount of work, comparing to writing the class, and having it just inherit IOContext.
The field of SampleApp could have been just of type 'FileContext', but that way, it would have been restricted to ever only using children of that class. By making the interface, we can even do the SQLiteContext implementation, and write to a database, SampleApp will never know or care, and when we have written the SQL lite class, we need only make one change to our code: new JSONFileContext(); instead becomes new SQLiteContext();
We still have our old implementations and can switch back to those if the need arises. We have broken nothing, and all the changes to our code are half a line, that can be changed back within the blink of an eye.
so: Code by addition, NOT by modification.
namespace Sample
{
class SampleApp
{
private IOContext context;
public SampleApp()
{
this.context = new JSONFileContext(); //or any of the other implementations
}
public void doSomething()
{
//This app can now use the context, completely agnostic of the actual implementation details.
object data = context.LoadData();
//manipulate data
context.SaveData(data);
}
}
interface IOContext
{
void SaveData(object data);
object LoadData();
}
class FileContext : IOContext
{
public object LoadData()
{
object data = null;
var fileContents = loadFileContents();
//Logic to turn fileContents into a data object
return data;
}
public void SaveData(object data)
{
//logic to create filecontents from 'data'
writeFileContents(string.Empty);
}
protected void writeFileContents(string fileContents)
{
//writes the fileContents to disk
}
protected string loadFileContents()
{
string fileContents = string.Empty;
//loads the fileContents and returns it as a string
return fileContents;
}
}
class JSONFileContext : FileContext
{
public new void SaveData(object data)
{
//logic to create filecontents from 'data'
base.writeFileContents(string.Empty);
}
public new object LoadData()
{
object data = null;
var fileContents = loadFileContents();
//Logic to turn fileContents into a data object
return data;
}
}
class SQLiteContext : IOContext
{
public object LoadData()
{
object data = null;
//logic to read data into the data object
return data;
}
public void SaveData(object data)
{
//logic to save the data object in the database
}
}
}
Interfaces
An interface is a contract defining how to interact with an object. They are useful to express how your internals intend to interact with an object. Following Dependency Inversion your public API would have all parameters expressed with interfaces. You don't care how it does what you need it to do, just that it does exactly what you need it to do.
Example: You may simply need a Vehicle to transport goods, you don't care about the particular mode of transport.
Inheritance
Inheritance is an extension of a particular implementation. That implementation may or may not satisfy a particular interface. You should expect an ancestor of a particular implementation only when you care about the how.
Example: You may need a Plane implementation of a vehicle for fast transport.
Composition
Composition can be used as an alternative to inheritance. Instead of your class extending a base class, it is created with objects that implement smaller portions of the main class's responsibility. Composition is used in the facade pattern and decorator pattern.
Example: You may create a DuckBoat (DUKW) class that implements LandVehicle and WaterVehicle which both implement Vehicle composed of Truck and Boat implementations.
Answers
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing any interface then it is inheritance ? We are not using its code.
Interfaces are not inheritance. Implementing an interface expresses that you intend for your class to operate in the way that is defined by the interface. Inheritance is when you have a common ancestor, and you receive the same behavior (inherit) as the ancestor so you do not need to define it.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritance ?
Interfaces do not achieve multiple inheritance. They express that a class may be suitable for multiple roles.
Q3. Anyhow what is the benefit of using Interfaces ? They are not having any code. We need to write code again and again in all classes we implement it.
One of the major benefits of interfaces is to provide separation of concerns:
You can write a class that does something with another class without caring how that class is implemented.
Any future development can be compatible with your implementation without needing to extend a particular base class.
In the spirit of DRY you can write an implementation that satisfies an interface and change it while still respecting the open/closed principal if you leverage composition.
Q1. As interfaces are having only abstract methods (no code) so how can we say that if we are implementing an interface then it is inheritance? We are not using its code.
It is not equal inheritance. It is just similiar. Let me explain:
VolvoV3 extends VolvoV2, and VolvoV2 extends Volvo (Class)
VolvoV3 extends VolvoV2, and VolvoV2 implements Volvo (Interface)
line1: Volvo v = new VolvoV2();
line2: Volvo v = new VolvoV3();
If you see only line1 and line2 you can infer that VolvoV2 and VolvoV3 have the same type. You cannot infer if Volvo a superclass or Volvo is an interface.
Q2. If implementing an interface is not inheritance then How interfaces are used to achieve multiple inheritances?
Now using interfaces:
VolvoXC90 implements XCModel and Volvo (Interface)
VolvoXC95 implements XCModel and Volvo (Interface)
line1: Volvo a = new VolvoXC90();
line2: Volvo a = new VolvoXC95();
line3: XCModel a = new VolvoXC95();
If you see only line1 and line2 you can infer that VolvoXC90 and VolvoXC95 have the same type (Volvo). You cannot infer that Volvo is a superclass or Volvo is an interface.
If you see only line2 and line3 you can infer that Volvo95 implements two types, XCModel and Volvo, in Java you know that at least one has to be an interface. If this code was written in C++, for instance, they could be both classes. Therefore, multiple inheritances.
Q3. Anyhow, what is the benefit of using Interfaces? They are not having any code. We need to write code again and again in all classes we implement it.
Imagine a system where you use a VolvoXC90 class in 200 other classes.
VolvoXC90 v = new VolvoXC90();
If you need to evolve your system to launch VolvoXC95 you have to alter 200 other classes.
Now, imagine a system where you use a Volvo interface in 10,000,000 classes.
// Create VolvoXC90 but now we need to create VolvoXC95
Volvo v = new VolvoFactory().newCurrentVolvoModel();
Now, if you need to evolve your system to create VolvoXC95 models you have to alter only one class, the Factory.
It is a common sense question. If your system is composed only of few classes and have few updates use Interfaces everywhere is counterproductive. For big systems, it can save you a lot of pain and avoid risk adopting Interfaces.
I recommend you read more about S.O.L.I.D principles and read the book Effective Java. It has good lessons from experienced software engineers.
Interfaces are made so that a class will implement the functionality within the interface and behave in accordance with that interface.
This question already has answers here:
implicit super-interface in Java?
(4 answers)
Closed 4 years ago.
I'm working through some homework and a question on a previous exam paper asks to name all of the abstract classes in a given UML diagram. Fairly straightforward, I suppose. There are one abstract class and three interfaces. Do these interfaces qualify as abstract classes, in general?
Thing is, while technically interfaces may be represented as classes in languages like Java, I wouldn't consider them classes.
Abstract? Hell yes. Class? No.
Interfaces cannot have constructors, neither properties, fields, function bodies, etc. Interfaces cannot be inherited, they are implemented (again, technically it might be true that implementing an interface is actually inheriting it in specific languages, but that's not my point.) Interfaces are more like 'contracts' as they do not define any behaviour whatsoever like classes.
Now if this is a homework then you shouldn't really argue about these sort of stuff with the teacher. Just check your lecture notes and see if the word "class" is mentioned anywhere in the your teacher's definition of interface.
All interface are indeed abstract
Actually, you can declare an method as abstract within an interface... except any 'checkstyle' tool will tell you the abstract keyword is redundant. And all methods are public.
If a class implements an interface and does not implement all its methods, it must be marked as abstract. If a class is abstract, one of its subclasses is expected to implement its unimplemented methods.
To echo other answers, an interface is not a class.
An interface is a reference type, similar to a class, that can contain only constants, method signatures, and nested types. There are no method bodies. Interfaces cannot be instantiated—they can only be implemented by classes or extended by other interfaces.
Interfaces are not part of the class hierarchy, although they work in combination with classes.
When you define a new interface, you are defining a new reference data type. You can use interface names anywhere you can use any other data type name. If you define a reference variable whose type is an interface, any object you assign to it must be an instance of a class that implements the interface
To better explain why an interface is not a class, consider the following:
1/ an interface is a type used by values
2/ a class is for Objects
3/:
Object a = new Date();
String s = a.toString();
The type of the variable 'a' is Object (which is actually a type notation in Java source code meaning a reference to an Object),
but the class of the object it points to is Date.
The type (Object) only affects what code is valid according to the compiler's type-checking, but not what the code actually does.
The class of the object affects what the code does, so that the a.toString() call in the second line returns a String that looks like a Date, not one that looks like "java.lang.Object#XXXXXXXX".
Since an Interface is a type, it is used for values only, and will not represent what objects will actually do in term of runtime.
In Java though, theres a twist to the tale - all Interfaces in Java extend java.lang.Object! Try adding a method:
public void notify();
in an interface and see what happens..
An Interface extending a Class - Does that make the Interface a Class? Or the Class an Interface?? Uhh-huh.. Guess it was a hack that had to be done to prevent interfaces overriding the definitions in java.lang.Object that implementations of the interface had to extend anyway.
You've only asked about the abstract side, but don't forget the class side - I wouldn't call an interface a class, so even though interfaces are abstract (as per the specification), I still don't think they count as abstract classes. It may be worth explicitly explaining that though :)
Yes, an Interface is implicitly Abstract. Look behind the scenes as to the way it is encoded to a .class file.
Semantics are a funny thing though; under exam conditions "abstract class" would have to literally be compiled from a .java source file using abstract class in the Class' declaration.
An interface contains prototype of methods (i.e Declaration ) not defination but Abstract class can contain defination of method & atleast one Abstract method (method with only prototype)
Interfaces are used to break the Object Inheritance.
They could hold two or more objects of several classes
and classes hierarchies.
Look at an interface as an outlet plug. All classes
implementing an Interface need to have one, the same
way a computer, a coffee machine, a ventilator and a
refrigerator need to have the same device to get
power.
Abstract class looks like interface. Abstract classes can have implementations where as interface can't have any implementations.
Then, there is a question. Can we call abstract class as interface if they only have method signatures?
I think, abstract classes, unlike interfaces, are classes. They are expensive to use because there is a lookup to do when you inherit a class from abstract class.