I am new to java and learning interfaces. I did not understand the use of interfaces other than just standardizing the expectation.
If there is any other uses please help me to understand that.
I am new to java and learning interfaces. I did not understand the use of interfaces other than just standardizing the expectation.
If there is any other uses please help me to understand that.
Interfaces have a few good uses:
Polymorphism
They allow you to treat several different, but similar, objects in the same way. For example:
public interface Flyer {
public void fly();
}
public class Bird implements Flyer {
@Override
public void fly() {
System.out.println("I'm flying");
}
}
public class Airplane implements Flyer {
@Override
public void fly() {
System.out.println("I'm inanimate and flying");
}
}
// then you can have a method like so:
public void makeFly(Flyer flyer) {
flyer.fly();
}
// or make a list like so:
List<Flyer> fliers = Arrays.asList(new Airplane(), new Bird());
They also allow Objects to fit into several different boxes. For example, a Bird
not only flies, but it is an Animal
. Interfaces allow you to treat Bird
as either one:
public interface Animal {
public void move();
}
public class Bird implements Flyer, Animal {
@Override
public void fly() {
System.out.println("I'm flying");
}
@Override
public void move() {
fly();
}
}
// now I can do:
Bird bird = new Bird();
Flyer flyer = new Bird();
Animal animal = new Bird();
Decoupled Design
Additionally, they give you flexibility in choosing your implementation. (I'm not sure what you mean by "Standardizing the Expectation", but this use is probably most related to standardization. i.e. This works because it creates a standard.) For example, say I have a method that returns a List<Flyer>
. Since List
is an interface, I can choose use ArrayList
, LinkedList
, etc. as my implementation:
public List<Flyer> makeFlyerList() {
return new ArrayList<Flyer>(Arrays.asList(new Airplane(), new Bird()));
}
// works just the same
public List<Flyer> makeFlyerList() {
return new LinkedList<Flyer>(Arrays.asList(new Airplane(), new Bird()));
}
Interfaces are a way to declare a contract for implementing classes to fulfill; it's the primary tool to create abstraction and decoupled designs between consumers and producers.
One other case that comes in my mind is the marker functionality.
java.lang.Cloneable
for example, doesn't have any method declaration, it is used just to flag the class that implements as a clonable class.
From the documentation:
A class implements the Cloneable interface to indicate to the Object.clone() method that it is legal for that method to make a field-for-field copy of instances of that class.
Another sample of the same use could be seen in Serializable
Java has a limitation by design in the Inheritance(i.e. Multiple Inheritance). So you can not extend more than one class but you can implement as many interfaces as you want.
Second advantage of using interfaces in java is related to the design and performance of the application. For any application it is required to be "loosely coupled" and "highly coherent". Here interfaces come into the picture. Interfaces implement the contract between the classes and hence design becomes the loosely coupled.
Hope this will be helpfull.
Yes, but I would object to the word 'just'.
Remember that you can define not only abstract methods but all sorts of other baggage that comes with the expectation
.
For example, notice that in the Map interface there is the Map.Entry inner interface. Here we see not only what you can expect of a Map but a good deal of detail about some of the things you can expect from a Map
such as their Entries
.
Although you won't find many examples in the java API there are many cases in real-world programming where you will have large numbers of enum
s and/or public static final
s in an interface class too. These are used to refine and detail, almost to an excessive level, what you can and cannot do to objects of this type.
In summary, you are correct ... to an extent ... that an interface
is merely standardizing the expectation but a little research will show you that standardizing the expectation is a wide and deep subject worthy of some incredibly complex interface
s.