Prohibit direct extension of Java class outside its package - java

I have a package with a
public abstract class Player { /*...*/ }
and these
public abstract class GamePlayer extends Player { /*...*/ }
public abstract class TournamentPlayer extends Player { /*...*/ }
public abstract class StatelessPlayer extends Player { /*...*/ }
Users of the package need Players but in order to use the package without breaking it I require that they never directly extend Player. Instead they should extend one of the subclasses provided.
Question: How should I prevent users from extending Player directly?
I'm looking for a way that makes it obvious that this prohibition is intended.

Make the constructors in Player have package access only. Then they won't be able to call the constructor or extend it themselves. If you don't already have an explicit constructor in Player, create one (as otherwise the compiler will create a default public parameterless constructor).
(Note that I've only suggested doing this to the constructor. The class itself can be public so that clients can still use it.)
This works because any constructor (other than in java.lang.Object) has to call a superclass constructor (either explicitly or implicitly). If there are no accessible constructors, you can't create the subclass.

Make sure the constructors of Player are not public:
public abstract class Player {
Player() {
// initialization goes here
}
}
Then classes can extend Player from within the same package, but should not be able to from outside of the package.

Um... make the Player class non-public? Just leave out "public", then it will be package-private, i.e. only classes in the same package can extend it.
However, nothing outright prevents people from putting their own classes in that package. I believe it's possible to prevent it by putting it into a signed JAR, then any attempt to load an unsigned (or differently-signed) class in the same package will fail.

Use the default access modifier, also known as "Package private" access. In other words, don't specify an access modifier
abstract class Player { /*...*/ }
The documentation here at Sun's website describes all of the access modifiers in greater detail.

I'd recommend
Create public interfaces for things you want clients to access but not create or subclass
Create public classes for things you want clients to access and create or subclass
anything else should be non-public
The problem with this approach is that you end up with everything needing to be in a single package, which is bad for organization as the library grows.
To allow use of multiple packages with protection, take a look at OSGi.
OSGi allows you to restrict which packages a bundle (jar) allows other bundles to access, and even set up "friend" bundles that are allowed extra visibility.
Java's package-as-protection-unit model is not sufficient when you really want to protect libraries that get large...

Related

Access levels of classes in java [duplicate]

This question already has answers here:
What is the difference between public, protected, package-private and private in Java?
(30 answers)
Closed 5 years ago.
A class from a subpackage needs to access a class from a package one level up. So, I need to keep the target class as public. But I don't want that class to be accessed by any other class. What can I do?
You don't have dozen solutions.
Java is not C++ or OOP languages that have the concept of "friend class".
The protected modifier provides a privileged access for the subclasses but you will not subclass a dependency to access it.
It really makes no sense.
So if you can refactor : move the user class in the same package as the used class and use the private package modifier.
Otherwise, make the class a private nested class of a public factory class that will return a instance of a specific interface matching to the class API you want to protect the access.
In this way, the client classes will only communicate with the interface API.
Of course any class will still to be able to retrieve the instance but will never be coupled with an implementation class.
So in a some way, it protects the access to the class.
FooAPI :
public interface FooAPI {
void foo();
//....
}
FooFactory :
public class FooFactory{
private MyFactory(){
}
private class MyPrivateFoo implements FooAPI{
// implements the interface methods
#Overrided
public void foo(){
// ....
}
}
public FooAPI of(){
return new MyPrivateFoo();
}
}
Edit for your comment :
The used class has public methods which change its state. Only
specific classes are allowed to change its state, others are not. How
can this be solved ?
The question was not very clear about class access meaning.
With this comment, it is clear.
State changing is a functional behavior.
You want to protect the state change of an instance of a specific class ?
So make this class responsible to decide whether the state should change or not.
Don't provide public methods that allow to do it directly.
You have to change your design.
For example introduce a public doProcessing() method in the class with the state you want to control and make this method responsible to change the state instance if relevant.
You can be interested in Domain Model design that gives a natural and straight way to address this kind of issue.
And to ensure the validity of a behavior, you have a powerful tool : the unit and integration tests.
So use them.
Use protected modifier so the subclass and the package level classes can alone access it
PLease refer to the link for details on access levels
https://www.programcreek.com/2011/11/java-access-level-public-protected-private/
Refactor your code, depending on your concrete scenario:
Make the class in the subpackage inherit from the class a level up.
Create an interface in the subpackage that provides the methods you want to access and let the class in the package implement it.
Move one of the classes.
A class can not be private or protected. The only access modifiers of class is public or no-modifier. But you can use public, private, protected or no-modifier as inner class.
A class can access all properties of another class in same package except private modifier.
Keep all properties as protected in parent class. So, only child class from same or other package can access the parent class properties. Other class will not be able to access.

Abstract and Interface Method usage in my Class [duplicate]

What exactly is the difference between an interface and an abstract class?
Interfaces
An interface is a contract: The person writing the interface says, "hey, I accept things looking that way", and the person using the interface says "OK, the class I write looks that way".
An interface is an empty shell. There are only the signatures of the methods, which implies that the methods do not have a body. The interface can't do anything. It's just a pattern.
For example (pseudo code):
// I say all motor vehicles should look like this:
interface MotorVehicle
{
void run();
int getFuel();
}
// My team mate complies and writes vehicle looking that way
class Car implements MotorVehicle
{
int fuel;
void run()
{
print("Wrroooooooom");
}
int getFuel()
{
return this.fuel;
}
}
Implementing an interface consumes very little CPU, because it's not a class, just a bunch of names, and therefore there isn't any expensive look-up to do. It's great when it matters, such as in embedded devices.
Abstract classes
Abstract classes, unlike interfaces, are classes. They are more expensive to use, because there is a look-up to do when you inherit from them.
Abstract classes look a lot like interfaces, but they have something more: You can define a behavior for them. It's more about a person saying, "these classes should look like that, and they have that in common, so fill in the blanks!".
For example:
// I say all motor vehicles should look like this:
abstract class MotorVehicle
{
int fuel;
// They ALL have fuel, so lets implement this for everybody.
int getFuel()
{
return this.fuel;
}
// That can be very different, force them to provide their
// own implementation.
abstract void run();
}
// My teammate complies and writes vehicle looking that way
class Car extends MotorVehicle
{
void run()
{
print("Wrroooooooom");
}
}
Implementation
While abstract classes and interfaces are supposed to be different concepts, the implementations make that statement sometimes untrue. Sometimes, they are not even what you think they are.
In Java, this rule is strongly enforced, while in PHP, interfaces are abstract classes with no method declared.
In Python, abstract classes are more a programming trick you can get from the ABC module and is actually using metaclasses, and therefore classes. And interfaces are more related to duck typing in this language and it's a mix between conventions and special methods that call descriptors (the __method__ methods).
As usual with programming, there is theory, practice, and practice in another language :-)
The key technical differences between an abstract class and an interface are:
Abstract classes can have constants, members, method stubs (methods without a body) and defined methods, whereas interfaces can only have constants and methods stubs.
Methods and members of an abstract class can be defined with any visibility, whereas all methods of an interface must be defined as public (they are defined public by default).
When inheriting an abstract class, a concrete child class must define the abstract methods, whereas an abstract class can extend another abstract class and abstract methods from the parent class don't have to be defined.
Similarly, an interface extending another interface is not responsible for implementing methods from the parent interface. This is because interfaces cannot define any implementation.
A child class can only extend a single class (abstract or concrete), whereas an interface can extend or a class can implement multiple other interfaces.
A child class can define abstract methods with the same or less restrictive visibility, whereas a class implementing an interface must define the methods with the exact same visibility (public).
An Interface contains only the definition / signature of functionality, and if we have some common functionality as well as common signatures, then we need to use an abstract class. By using an abstract class, we can provide behavior as well as functionality both in the same time. Another developer inheriting abstract class can use this functionality easily, as they would only need to fill in the blanks.
Taken from:
http://www.dotnetbull.com/2011/11/difference-between-abstract-class-and.html
http://www.dotnetbull.com/2011/11/what-is-abstract-class-in-c-net.html
http://www.dotnetbull.com/2011/11/what-is-interface-in-c-net.html
An explanation can be found here: http://www.developer.com/lang/php/article.php/3604111/PHP-5-OOP-Interfaces-Abstract-Classes-and-the-Adapter-Pattern.htm
An abstract class is a class that is
only partially implemented by the
programmer. It may contain one or more
abstract methods. An abstract method
is simply a function definition that
serves to tell the programmer that the
method must be implemented in a child
class.
An interface is similar to an abstract
class; indeed interfaces occupy the
same namespace as classes and abstract
classes. For that reason, you cannot
define an interface with the same name
as a class. An interface is a fully
abstract class; none of its methods
are implemented and instead of a class
sub-classing from it, it is said to
implement that interface.
Anyway I find this explanation of interfaces somewhat confusing. A more common definition is: An interface defines a contract that implementing classes must fulfill. An interface definition consists of signatures of public members, without any implementing code.
I don't want to highlight the differences, which have been already said in many answers ( regarding public static final modifiers for variables in interface & support for protected, private methods in abstract classes)
In simple terms, I would like to say:
interface: To implement a contract by multiple unrelated objects
abstract class: To implement the same or different behaviour among multiple related objects
From the Oracle documentation
Consider using abstract classes if :
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.
Consider using interfaces if :
You expect that unrelated classes would implement your interface. For example,many unrelated objects can implement Serializable interface.
You want to specify the behaviour of a particular data type, but not concerned about who implements its behaviour.
You want to take advantage of multiple inheritance of type.
abstract class establishes "is a" relation with concrete classes. interface provides "has a" capability for classes.
If you are looking for Java as programming language, here are a few more updates:
Java 8 has reduced the gap between interface and abstract classes to some extent by providing a default method feature. An interface does not have an implementation for a method is no longer valid now.
Refer to this documentation page for more details.
Have a look at this SE question for code examples to understand better.
How should I have explained the difference between an Interface and an Abstract class?
Some important differences:
In the form of a table:
As stated by Joe from javapapers:
1.Main difference is methods of a Java interface are implicitly abstract and cannot have implementations. A Java abstract class can
have instance methods that implements a default behavior.
2.Variables declared in a Java interface is by default final. An abstract class may contain non-final variables.
3.Members of a Java interface are public by default. A Java abstract class can have the usual flavors of class members like private,
protected, etc..
4.Java interface should be implemented using keyword “implements”; A Java abstract class should be extended using keyword “extends”.
5.An interface can extend another Java interface only, an abstract class can extend another Java class and implement multiple Java
interfaces.
6.A Java class can implement multiple interfaces but it can extend only one abstract class.
7.Interface is absolutely abstract and cannot be instantiated; A Java abstract class also cannot be instantiated, but can be invoked if a
main() exists.
8.In comparison with java abstract classes, java interfaces are slow as it requires extra indirection.
The main point is that:
Abstract is object oriented. It offers the basic data an 'object' should have and/or functions it should be able to do. It is concerned with the object's basic characteristics: what it has and what it can do. Hence objects which inherit from the same abstract class share the basic characteristics (generalization).
Interface is functionality oriented. It defines functionalities an object should have. Regardless what object it is, as long as it can do these functionalities, which are defined in the interface, it's fine. It ignores everything else. An object/class can contain several (groups of) functionalities; hence it is possible for a class to implement multiple interfaces.
When you want to provide polymorphic behaviour in an inheritance hierarchy, use abstract classes.
When you want polymorphic behaviour for classes which are completely unrelated, use an interface.
I am constructing a building of 300 floors
The building's blueprint interface
For example, Servlet(I)
Building constructed up to 200 floors - partially completed---abstract
Partial implementation, for example, generic and HTTP servlet
Building construction completed-concrete
Full implementation, for example, own servlet
Interface
We don't know anything about implementation, just requirements. We can
go for an interface.
Every method is public and abstract by default
It is a 100% pure abstract class
If we declare public we cannot declare private and protected
If we declare abstract we cannot declare final, static, synchronized, strictfp and native
Every interface has public, static and final
Serialization and transient is not applicable, because we can't create an instance for in interface
Non-volatile because it is final
Every variable is static
When we declare a variable inside an interface we need to initialize variables while declaring
Instance and static block not allowed
Abstract
Partial implementation
It has an abstract method. An addition, it uses concrete
No restriction for abstract class method modifiers
No restriction for abstract class variable modifiers
We cannot declare other modifiers except abstract
No restriction to initialize variables
Taken from DurgaJobs Website
Let's work on this question again:
The first thing to let you know is that 1/1 and 1*1 results in the same, but it does not mean that multiplication and division are same. Obviously, they hold some good relationship, but mind you both are different.
I will point out main differences, and the rest have already been explained:
Abstract classes are useful for modeling a class hierarchy. At first glance of any requirement, we are partially clear on what exactly is to be built, but we know what to build. And so your abstract classes are your base classes.
Interfaces are useful for letting other hierarchy or classes to know that what I am capable of doing. And when you say I am capable of something, you must have that capacity. Interfaces will mark it as compulsory for a class to implement the same functionalities.
If you have some common methods that can be used by multiple classes go for abstract classes.
Else if you want the classes to follow some definite blueprint go for interfaces.
Following examples demonstrate this.
Abstract class in Java:
abstract class Animals
{
// They all love to eat. So let's implement them for everybody
void eat()
{
System.out.println("Eating...");
}
// The make different sounds. They will provide their own implementation.
abstract void sound();
}
class Dog extends Animals
{
void sound()
{
System.out.println("Woof Woof");
}
}
class Cat extends Animals
{
void sound()
{
System.out.println("Meoww");
}
}
Following is an implementation of interface in Java:
interface Shape
{
void display();
double area();
}
class Rectangle implements Shape
{
int length, width;
Rectangle(int length, int width)
{
this.length = length;
this.width = width;
}
#Override
public void display()
{
System.out.println("****\n* *\n* *\n****");
}
#Override
public double area()
{
return (double)(length*width);
}
}
class Circle implements Shape
{
double pi = 3.14;
int radius;
Circle(int radius)
{
this.radius = radius;
}
#Override
public void display()
{
System.out.println("O"); // :P
}
#Override
public double area()
{
return (double)((pi*radius*radius)/2);
}
}
Some Important Key points in a nutshell:
The variables declared in Java interface are by default final. Abstract classes can have non-final variables.
The variables declared in Java interface are by default static. Abstract classes can have non-static variables.
Members of a Java interface are public by default. A Java abstract class can have the usual flavors of class members like private, protected, etc..
It's pretty simple actually.
You can think of an interface as a class which is only allowed to have abstract methods and nothing else.
So an interface can only "declare" and not define the behavior you want the class to have.
An abstract class allows you to do both declare (using abstract methods) as well as define (using full method implementations) the behavior you want the class to have.
And a regular class only allows you to define, not declare, the behavior/actions you want the class to have.
One last thing,
In Java, you can implement multiple interfaces, but you can only extend one (Abstract Class or Class)...
This means inheritance of defined behavior is restricted to only allow one per class... ie if you wanted a class that encapsulated behavior from Classes A,B&C you would need to do the following: Class A extends B, Class C extends A .. its a bit of a round about way to have multiple inheritance...
Interfaces on the other hand, you could simply do: interface C implements A, B
So in effect Java supports multiple inheritance only in "declared behavior" ie interfaces, and only single inheritance with defined behavior.. unless you do the round about way I described...
Hopefully that makes sense.
The comparison of interface vs. abstract class is wrong. There should be two other comparisons instead: 1) interface vs. class and 2) abstract vs. final class.
Interface vs Class
Interface is a contract between two objects. E.g., I'm a Postman and you're a Package to deliver. I expect you to know your delivery address. When someone gives me a Package, it has to know its delivery address:
interface Package {
String address();
}
Class is a group of objects that obey the contract. E.g., I'm a box from "Box" group and I obey the contract required by the Postman. At the same time I obey other contracts:
class Box implements Package, Property {
#Override
String address() {
return "5th Street, New York, NY";
}
#Override
Human owner() {
// this method is part of another contract
}
}
Abstract vs Final
Abstract class is a group of incomplete objects. They can't be used, because they miss some parts. E.g., I'm an abstract GPS-aware box - I know how to check my position on the map:
abstract class GpsBox implements Package {
#Override
public abstract String address();
protected Coordinates whereAmI() {
// connect to GPS and return my current position
}
}
This class, if inherited/extended by another class, can be very useful. But by itself - it is useless, since it can't have objects. Abstract classes can be building elements of final classes.
Final class is a group of complete objects, which can be used, but can't be modified. They know exactly how to work and what to do. E.g., I'm a Box that always goes to the address specified during its construction:
final class DirectBox implements Package {
private final String to;
public DirectBox(String addr) {
this.to = addr;
}
#Override
public String address() {
return this.to;
}
}
In most languages, like Java or C++, it is possible to have just a class, neither abstract nor final. Such a class can be inherited and can be instantiated. I don't think this is strictly in line with object-oriented paradigm, though.
Again, comparing interfaces with abstract classes is not correct.
The only difference is that one can participate in multiple inheritance and other cannot.
The definition of an interface has changed over time. Do you think an interface just has method declarations only and are just contracts? What about static final variables and what about default definitions after Java 8?
Interfaces were introduced to Java because of the diamond problem with multiple inheritance and that's what they actually intend to do.
Interfaces are the constructs that were created to get away with the multiple inheritance problem and can have abstract methods, default definitions and static final variables.
See Why does Java allow static final variables in interfaces when they are only intended to be contracts?.
Interface: Turn ( Turn Left, Turn Right.)
Abstract Class: Wheel.
Class: Steering Wheel, derives from Wheel, exposes Interface Turn
One is for categorizing behavior that can be offered across a diverse range of things, the other is for modelling an ontology of things.
In short the differences are the following:
Syntactical Differences Between Interface and Abstract Class:
Methods and members of an abstract class can have any visibility. All methods of an interface must be public. //Does not hold true from Java 9 anymore
A concrete child class of an Abstract Class must define all the abstract methods. An Abstract child class can have abstract methods. An interface extending another interface need not provide default implementation for methods inherited from the parent interface.
A child class can only extend a single class. An interface can extend multiple interfaces. A class can implement multiple interfaces.
A child class can define abstract methods with the same or less restrictive visibility, whereas class implementing an interface must define all interface methods as public.
Abstract Classes can have constructors but not interfaces.
Interfaces from Java 9 have private static methods.
In Interfaces now:
public static - supported
public abstract - supported
public default - supported
private static - supported
private abstract - compile error
private default - compile error
private - supported
Many junior developers make the mistake of thinking of interfaces, abstract and concrete classes as slight variations of the same thing, and choose one of them purely on technical grounds: Do I need multiple inheritance? Do I need some place to put common methods? Do I need to bother with something other than just a concrete class? This is wrong, and hidden in these questions is the main problem: "I". When you write code for yourself, by yourself, you rarely think of other present or future developers working on or with your code.
Interfaces and abstract classes, although apparently similar from a technical point of view, have completely different meanings and purposes.
Summary
An interface defines a contract that some implementation will fulfill for you.
An abstract class provides a default behavior that your implementation can reuse.
Alternative summary
An interface is for defining public APIs
An abstract class is for internal use, and for defining SPIs
On the importance of hiding implementation details
A concrete class does the actual work, in a very specific way. For example, an ArrayList uses a contiguous area of memory to store a list of objects in a compact manner which offers fast random access, iteration, and in-place changes, but is terrible at insertions, deletions, and occasionally even additions; meanwhile, a LinkedList uses double-linked nodes to store a list of objects, which instead offers fast iteration, in-place changes, and insertion/deletion/addition, but is terrible at random access. These two types of lists are optimized for different use cases, and it matters a lot how you're going to use them. When you're trying to squeeze performance out of a list that you're heavily interacting with, and when picking the type of list is up to you, you should carefully pick which one you're instantiating.
On the other hand, high level users of a list don't really care how it is actually implemented, and they should be insulated from these details. Let's imagine that Java didn't expose the List interface, but only had a concrete List class that's actually what LinkedList is right now. All Java developers would have tailored their code to fit the implementation details: avoid random access, add a cache to speed up access, or just reimplement ArrayList on their own, although it would be incompatible with all the other code that actually works with List only. That would be terrible... But now imagine that the Java masters actually realize that a linked list is terrible for most actual use cases, and decided to switch over to an array list for their only List class available. This would affect the performance of every Java program in the world, and people wouldn't be happy about it. And the main culprit is that implementation details were available, and the developers assumed that those details are a permanent contract that they can rely on. This is why it's important to hide implementation details, and only define an abstract contract. This is the purpose of an interface: define what kind of input a method accepts, and what kind of output is expected, without exposing all the guts that would tempt programmers to tweak their code to fit the internal details that might change with any future update.
An abstract class is in the middle between interfaces and concrete classes. It is supposed to help implementations share common or boring code. For example, AbstractCollection provides basic implementations for isEmpty based on size is 0, contains as iterate and compare, addAll as repeated add, and so on. This lets implementations focus on the crucial parts that differentiate between them: how to actually store and retrieve data.
APIs versus SPIs
Interfaces are low-cohesion gateways between different parts of code. They allow libraries to exist and evolve without breaking every library user when something changes internally. It's called Application Programming Interface, not Application Programming Classes. On a smaller scale, they also allow multiple developers to collaborate successfully on large scale projects, by separating different modules through well documented interfaces.
Abstract classes are high-cohesion helpers to be used when implementing an interface, assuming some level of implementation details. Alternatively, abstract classes are used for defining SPIs, Service Provider Interfaces.
The difference between an API and an SPI is subtle, but important: for an API, the focus is on who uses it, and for an SPI the focus is on who implements it.
Adding methods to an API is easy, all existing users of the API will still compile. Adding methods to an SPI is hard, since every service provider (concrete implementation) will have to implement the new methods. If interfaces are used to define an SPI, a provider will have to release a new version whenever the SPI contract changes. If abstract classes are used instead, new methods could either be defined in terms of existing abstract methods, or as empty throw not implemented exception stubs, which will at least allow an older version of a service implementation to still compile and run.
A note on Java 8 and default methods
Although Java 8 introduced default methods for interfaces, which makes the line between interfaces and abstract classes even blurrier, this wasn't so that implementations can reuse code, but to make it easier to change interfaces that serve both as an API and as an SPI (or are wrongly used for defining SPIs instead of abstract classes).
Which one to use?
Is the thing supposed to be publicly used by other parts of the code, or by other external code? Add an interface to it to hide the implementation details from the public abstract contract, which is the general behavior of the thing.
Is the thing something that's supposed to have multiple implementations with a lot of code in common? Make both an interface and an abstract, incomplete implementation.
Is there ever going to be only one implementation, and nobody else will use it? Just make it a concrete class.
"ever" is long time, you could play it safe and still add an interface on top of it.
A corollary: the other way around is often wrongly done: when using a thing, always try to use the most generic class/interface that you actually need. In other words, don't declare your variables as ArrayList theList = new ArrayList(), unless you actually have a very strong dependency on it being an array list, and no other type of list would cut it for you. Use List theList = new ArrayList instead, or even Collection theCollection = new ArrayList if the fact that it's a list, and not any other type of collection doesn't actually matter.
Not really the answer to the original question, but once you have the answer to the difference between them, you will enter the when-to-use-each dilemma:
When to use interfaces or abstract classes? When to use both?
I've limited knowledge of OOP, but seeing interfaces as an equivalent of an adjective in grammar has worked for me until now (correct me if this method is bogus!). For example, interface names are like attributes or capabilities you can give to a class, and a class can have many of them: ISerializable, ICountable, IList, ICacheable, IHappy, ...
You can find clear difference between interface and abstract class.
Interface
Interface only contains abstract methods.
Force users to implement all methods when implements the interface.
Contains only final and static variables.
Declare using interface keyword.
All methods of an interface must be defined as public.
An interface can extend or a class can implement multiple other
interfaces.
Abstract class
Abstract class contains abstract and non-abstract methods.
Does not force users to implement all methods when inherited the
abstract class.
Contains all kinds of variables including primitive and non-primitive
Declare using abstract keyword.
Methods and members of an abstract class can be defined with any
visibility.
A child class can only extend a single class (abstract or concrete).
I am 10 yrs late to the party but would like to attempt any way. Wrote a post about the same on medium few days back. Thought of posting it here.
tl;dr; When you see “Is A” relationship use inheritance/abstract class. when you see “has a” relationship create member variables. When you see “relies on external provider” implement (not inherit) an interface.
Interview Question: What is the difference between an interface and an abstract class? And how do you decide when to use what?
I mostly get one or all of the below answers:
Answer 1: You cannot create an object of abstract class and interfaces.
ZK (That’s my initials): You cannot create an object of either. So this is not a difference. This is a similarity between an interface and an abstract class. Counter
Question: Why can’t you create an object of abstract class or interface?
Answer 2: Abstract classes can have a function body as partial/default implementation.
ZK: Counter Question: So if I change it to a pure abstract class, marking all the virtual functions as abstract and provide no default implementation for any virtual function. Would that make abstract classes and interfaces the same? And could they be used interchangeably after that?
Answer 3: Interfaces allow multi-inheritance and abstract classes don’t.
ZK: Counter Question: Do you really inherit from an interface? or do you just implement an interface and, inherit from an abstract class? What’s the difference between implementing and inheriting?
These counter questions throw candidates off and make most scratch their heads or just pass to the next question. That makes me think people need help with these basic building blocks of Object-Oriented Programming.
The answer to the original question and all the counter questions is found in the English language and the UML.
You must know at least below to understand these two constructs better.
Common Noun: A common noun is a name given “in common” to things of the same class or kind. For e.g. fruits, animals, city, car etc.
Proper Noun: A proper noun is the name of an object, place or thing. Apple, Cat, New York, Honda Accord etc.
Car is a Common Noun. And Honda Accord is a Proper Noun, and probably a Composit Proper noun, a proper noun made using two nouns.
Coming to the UML Part. You should be familiar with below relationships:
Is A
Has A
Uses
Let’s consider the below two sentences.
- HondaAccord Is A Car?
- HondaAccord Has A Car?
Which one sounds correct? Plain English and comprehension. HondaAccord and Cars share an “Is A” relationship. Honda accord doesn’t have a car in it. It “is a” car. Honda Accord “has a” music player in it.
When two entities share the “Is A” relationship it’s a better candidate for inheritance. And Has a relationship is a better candidate for creating member variables.
With this established our code looks like this:
abstract class Car
{
string color;
int speed;
}
class HondaAccord : Car
{
MusicPlayer musicPlayer;
}
Now Honda doesn't manufacture music players. Or at least it’s not their main business.
So they reach out to other companies and sign a contract. If you receive power here and the output signal on these two wires it’ll play just fine on these speakers.
This makes Music Player a perfect candidate for an interface. You don’t care who provides support for it as long as the connections work just fine.
You can replace the MusicPlayer of LG with Sony or the other way. And it won’t change a thing in Honda Accord.
Why can’t you create an object of abstract classes?
Because you can’t walk into a showroom and say give me a car. You’ll have to provide a proper noun. What car? Probably a honda accord. And that’s when a sales agent could get you something.
Why can’t you create an object of an interface?
Because you can’t walk into a showroom and say give me a contract of music player. It won’t help. Interfaces sit between consumers and providers just to facilitate an agreement. What will you do with a copy of the agreement? It won’t play music.
Why do interfaces allow multiple inheritance?
Interfaces are not inherited. Interfaces are implemented.
The interface is a candidate for interaction with the external world.
Honda Accord has an interface for refueling. It has interfaces for inflating tires. And the same hose that is used to inflate a football. So the new code will look like below:
abstract class Car
{
string color;
int speed;
}
class HondaAccord : Car, IInflateAir, IRefueling
{
MusicPlayer musicPlayer;
}
And the English will read like this “Honda Accord is a Car that supports inflating tire and refueling”.
Key Points:
Abstract class can have property, Data fields ,Methods (complete /
incomplete) both.
If method or Properties define in abstract keyword that must override in derived class.(its work as a tightly coupled
functionality)
If define abstract keyword for method or properties in abstract class you can not define body of method and get/set value for
properties and that must override in derived class.
Abstract class does not support multiple inheritance.
Abstract class contains Constructors.
An abstract class can contain access modifiers for the subs, functions, properties.
Only Complete Member of abstract class can be Static.
An interface can inherit from another interface only and cannot inherit from an abstract class, where as an abstract class can inherit from another abstract class or another interface.
Advantage:
It is a kind of contract that forces all the subclasses to carry on the same hierarchies or standards.
If various implementations are of the same kind and use common behavior or status then abstract class is better to use.
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.
Its allow fast execution than interface.(interface Requires more time to find the actual method in the corresponding classes.)
It can use for tight and loosely coupling.
find details here...
http://pradeepatkari.wordpress.com/2014/11/20/interface-and-abstract-class-in-c-oops/
The shortest way to sum it up is that an interface is:
Fully abstract, apart from default and static methods; while it has definitions (method signatures + implementations) for default and static methods, it only has declarations (method signatures) for other methods.
Subject to laxer rules than classes (a class can implement multiple interfaces, and an interface can inherit from multiple interfaces). All variables are implicitly constant, whether specified as public static final or not. All members are implicitly public, whether specified as such or not.
Generally used as a guarantee that the implementing class will have the specified features and/or be compatible with any other class which implements the same interface.
Meanwhile, an abstract class is:
Anywhere from fully abstract to fully implemented, with a tendency to have one or more abstract methods. Can contain both declarations and definitions, with declarations marked as abstract.
A full-fledged class, and subject to the rules that govern other classes (can only inherit from one class), on the condition that it cannot be instantiated (because there's no guarantee that it's fully implemented). Can have non-constant member variables. Can implement member access control, restricting members as protected, private, or private package (unspecified).
Generally used either to provide as much of the implementation as can be shared by multiple subclasses, or to provide as much of the implementation as the programmer is able to supply.
Or, if we want to boil it all down to a single sentence: An interface is what the implementing class has, but an abstract class is what the subclass is.
Inheritance is used for two purposes:
To allow an object to regard parent-type data members and method implementations as its own.
To allow a reference to an objects of one type to be used by code which expects a reference to supertype object.
In languages/frameworks which support generalized multiple inheritance, there is often little need to classify a type as either being an "interface" or an "abstract class". Popular languages and frameworks, however, will allow a type to regard one other type's data members or method implementations as its own even though they allow a type to be substitutable for an arbitrary number of other types.
Abstract classes may have data members and method implementations, but can only be inherited by classes which don't inherit from any other classes. Interfaces put almost no restrictions on the types which implement them, but cannot include any data members or method implementations.
There are times when it's useful for types to be substitutable for many different things; there are other times when it's useful for objects to regard parent-type data members and method implementations as their own. Making a distinction between interfaces and abstract classes allows each of those abilities to be used in cases where it is most relevant.
Differences between abstract class and interface on behalf of real implementation.
Interface: It is a keyword and it is used to define the template or blue print of an object and it forces all the sub classes would follow the same prototype,as for as implementation, all the sub classes are free to implement the functionality as per it's requirement.
Some of other use cases where we should use interface.
Communication between two external objects(Third party integration in our application) done through Interface here Interface works as Contract.
Abstract Class: Abstract,it is a keyword and when we use this keyword before any class then it becomes abstract class.It is mainly used when we need to define the template as well as some default functionality of an object that is followed by all the sub classes and this way it removes the redundant code and one more use cases where we can use abstract class, such as we want no other classes can directly instantiate an object of the class, only derived classes can use the functionality.
Example of Abstract Class:
public abstract class DesireCar
{
//It is an abstract method that defines the prototype.
public abstract void Color();
// It is a default implementation of a Wheel method as all the desire cars have the same no. of wheels.
// and hence no need to define this in all the sub classes in this way it saves the code duplicasy
public void Wheel() {
Console.WriteLine("Car has four wheel");
}
}
**Here is the sub classes:**
public class DesireCar1 : DesireCar
{
public override void Color()
{
Console.WriteLine("This is a red color Desire car");
}
}
public class DesireCar2 : DesireCar
{
public override void Color()
{
Console.WriteLine("This is a red white Desire car");
}
}
Example Of Interface:
public interface IShape
{
// Defines the prototype(template)
void Draw();
}
// All the sub classes follow the same template but implementation can be different.
public class Circle : IShape
{
public void Draw()
{
Console.WriteLine("This is a Circle");
}
}
public class Rectangle : IShape
{
public void Draw()
{
Console.WriteLine("This is a Rectangle");
}
}
I'd like to add one more difference which makes sense.
For example, you have a framework with thousands of lines of code. Now if you want to add a new feature throughout the code using a method enhanceUI(), then it's better to add that method in abstract class rather in interface. Because, if you add this method in an interface then you should implement it in all the implemented class but it's not the case if you add the method in abstract class.
To give a simple but clear answer, it helps to set the context : you use both when you do not want to provide full implementations.
The main difference then is an interface has no implementation at all (only methods without a body) while abstract classes can have members and methods with a body as well, i.e. can be partially implemented.
usually Abstract class used for core of something but interface used for appending peripheral.
when you want to create base type for vehicle you should use abstract class but if you want to add some functionality or property that is not part of base concept of vehicle you should use interface,for example you want to add "ToJSON()" function.
interface has wide range of abstraction rather than abstract class.
you can see this in passing arguments.look this example:
if you use vehicle as argument you just can use one of its derived type (bus or car-same category-just vehicle category).
but when you use IMoveable interface as argument you have more choices.
The topic of abstract classes vs interfaces is mostly about semantics.
Abstract classes act in different programming languages often as a superset of interfaces, except one thing and that is, that you can implement multiple interfaces, but inherit only one class.
An interface defines what something must be able to do; like a contract, but does not provide an implementation of it.
An abstract class defines what something is and it commonly hosts shared code between the subclasses.
For example a Formatter should be able to format() something. The common semantics to describe something like that would be to create an interface IFormatter with a declaration of format() that acts like a contract. But IFormatter does not describe what something is, but just what it should be able to to. The common semantics to describe what something actually is, is to create a class. In this case we create an abstract class... So we create an abstract class Formatter which implements the interface. That is a very descriptive code, because we now know we have a Formatter and we now know what every Formatter must be able to do.
Also one very important topic is documentation (at least for some people...). In your documentation you probably want to explain within your subclasses what a Formatter actually is. It is very convenient to have an abstract class Formatter to which documentation you can link to within your subclasses. That is very convenient and generic. On the other hand if you do not have an abstract class Formatter and only an interface IFormatter you would have to explain in each of your subclasses what a Formatter actucally is, because an interface is a contract and you would not describe what a Formatter actually is within the documentation of an interface — at least it would be not something common to do and you would break the semantics that most developers consider to be correct.
Note: It is a very common pattern to make an abstract class implement an interface.
An abstract class is a class whose object cannot be created or a class which cannot be instantiated.
An abstract method makes a class abstract.
An abstract class needs to be inherited in order to override the methods that are declared in the abstract class.
No restriction on access specifiers.
An abstract class can have constructor and other concrete(non abstarct methods ) methods in them but interface cannot have.
An interface is a blueprint/template of methods.(eg. A house on a paper is given(interface house) and different architects will use their ideas to build it(the classes of architects implementing the house interface) .
It is a collection of abstract methods , default methods , static methods , final variables and nested classes.
All members will be either final or public , protected and private access specifiers are not allowed.No object creation is allowed.
A class has to be made in order to use the implementing interface and also to override the abstract method declared in the interface. An interface is a good example of loose coupling(dynamic polymorphism/dynamic binding)
An interface implements polymorphism and abstraction.It tells what to do but how to do is defined by the implementing class.
For Eg. There's a car company and it wants that some features to be same for all the car it is manufacturing so for that the company would be making an interface vehicle which will have those features and different classes of car(like Maruti Suzkhi , Maruti 800) will override those features(functions).
Why interface when we already have abstract class?
Java supports only multilevel and hierarchal inheritance but with the help of interface we can implement multiple inheritance.
In an interface all methods must be only definitions, not single one should be implemented.
But in an abstract class there must an abstract method with only definition, but other methods can be also in the abstract class with implementation...

Understanding Java Setters And Getters

I'm working on a Java project I didn't code, written with Tapestry 4. Here's an example of some code:
#Persist
public abstract String getParentClientId();
public abstract void setParentClientId(String str);
My knowledge of Java is limited. I'm accustomed to seeing getters return something and setters, well, set something. There's no {} used to define these methods and no code between them like I expect. Is there some convention I'm missing? Perhaps getParentClientId() implicitly returns the value of ParentClientId, or something of the like? Any info you have would be great. Thanks!
those are abstract methods that's why they dont have any implementation. To know more about the abstract class and methods see Oracle's documentation on Abstract Methods:
An abstract method is a method that is declared without an implementation (without braces, and followed by a semicolon), like this:
abstract void moveTo(double deltaX, double deltaY);
When an abstract class is subclassed, the subclass usually provides implementations for all of the abstract methods in its parent class. However, if it does not, the subclass must also be declared abstract.
typical implementation of setter and getter is:
public String getParentClientId() { return parentClientId;}
public void setParentClientId(String str){ parentClientId = str;}
If method have abstract modifier means that it should be implmeneted in subclass
Your methods are abstract, and you must to realiaze tham)
The methods are defined as abstract hence there is no code with it.
Maybe some tapestry API will implement these abstract method by creating dynamic classes as you have used #Persist for getParentClientId(). If these methods are working in your code then this must be the case.
Those are abstract classes. They are used to define methods that have to be present on any instance of that class, but are different for each subclass. They are actually defined in subclasses.
Of course no objects of the class that defines the abstract methods can be created, as it wouldn't have an implementation of that methods. Therefore, only abstract classes can include abstract methods - and one can never create instances of abstract classes.
I 'm not a Tapestry 4 user but, as far as I know Tapestry 4 used a lot of abstract method declarations to hook functionality you don't have to code (as getters/setters for example).
Afterwards Tapestry 4 would create a new class in runtime that inherits your class and implements some of the abstract methods you declared (based in certain Tapestry 4 convention).
I 'm a Tapestry 5 user, and in this new version abstract methods are not required by the framework they 've changed the way the runtime created classes are created (they 're now using the Plastic framework, and previously javassist) in order to avoid those rare abstract declarations in favor of use of brand new Annotations.
If you have the time to migrate to T5 don't doubt it!

How is abstract class different from concrete class?

I understand WHY we need Abstract Class in Java - to create sub-classes. But the same can be achieved by concrete class. e.g. Class Child extends Parent. Here Parent can very well be abstract & concrete. So why do we have ABSTRACT??
Abstract classes cannot be instantiated directly. Declaring a class as abstract means that you do not want it to be instantiated and that the class can only be inherited. You are imposing a rule in your code.
If you extend your Parent/Child relationship example further to include a Person class then it would make good sense for Person to be abstract. Parent is a concrete idea and so is child. Person is an abstract concept in reality as well as in code.
One benefit is that you explicitly define and protect the idea of the abstract class. When you declare a class as an abstract there's no way that you or anyone else using your code uses it incorrectly by instantiating it. This reasoning is similar to why we specify functions and fields as public, private or protected. If you declare a function or member as private you are in effect protecting it from improper access from client code. Privates are meant to be used within the class and that's it. Abstract classes are meant to be inherited and that's that.
Now, do you have to use abstract classes and define functions and fields as private instead of public? No, you don't. But these concepts are provided to help keep code clean and well-organized. The abstract class is implemented in all object-oriented languages to my knowledge. If you look around you will see that C++, C#, VB.NET etc. all use this concept.
A better, specific example:
In the example above the Shape class should be abstract because it is not useful on its own.
Abstract class means it is abstract not complete. It needs another class to complete it and/or its functionalities. You need to extend the abstract class. It will be useful with Certain class eg. Fruit all fruits have the same property like color. But you can have different properties for different fruits like is it pulpy such as orange or not eg Banana etc.
I know this is an old question but it looks like the poster still had some questions about the benefit of using an abstract class.
If you're the only one who will ever use your code then there really is no benefit. However, if you're writing code for others to use there is a benefit. Let's say for example you've written a caching framework but want to allow clients to create their own caching implementation classes. You also want to keep track of some metrics, like how many caches are open, hypothetically. Your abstract class might look something like this:
public abstract class AbstractCache {
public final void open() {
... // Do something here to log your metrics
openImpl();
}
protected abstract void openImpl() { }
}
On its own the AbstractCache class is useless and you don't want clients to try to instantiate one and use it as a cache, which they would be able to do if the class was concrete. You also want to make sure they can't bypass your metric logging, which they would be able to do if you just provided them a Cache interface.
The point of abstraction is not to create sub-classes. It's more about creating Seams in your code. You want code to be test-able and decoupled which lead to the ultimate goal of maintainability. For similar reasons, abstraction also buys us the ability to replace a bit of code without rippling side effects.
An abstract class is meant to be used as the base class from which other classes are derived. The derived class is expected to provide implementations for the methods that are not implemented in the base class. A derived class that implements all the missing functionality is called a concrete class
According to my understanding
Abstract Class is a class which just describes the behavior but doesn’t implement it.
Consider this Java example for Abstract Class:
public interface DoSomething(){
public void turnOnTheLight();
}
Concrete Classes are those, which are to be implemented.
For Example:
public abstract class A(){
public void doIt();
}
public class B extends A(){
public void doIt(){
//concrete method
System.out.println(“I am a Concrete Class Test”);
}
}
In other words, A concrete class in java is any such class which has implementation of all of its inherited members either from interface or abstract class.
For those who seek only differences in pure technical approach, the clearest difference between concrete parent classes and abstract parent classes is the obligation for children to include/implement specific methods.
A concrete parent class cannot force/oblige its children to include/implement a method. An abstract parent class oblige its children to do that by declaring abstract methods.
Apart from the above, it comes to design and functional requirements to dictate the use of abstract class. Such examples can be found on javax.servlet.http.HttpServlet class

Defining inner class outside java file

I want to create a class, ClassB, as inner class of ClassA, but I want to write down outside ClassA.java file.
How can I do this?
It will be a lot of inner class, and ClassA.java file will be enormous.
UPDATE
What I really want to do is define ten classes that they will be only accessible by one class. All of them are defined inside the same package.
Thanks.
The simple answer, is no you cannot.
By virtue of being an inner class, the class has to be inside the scope of the parent class.
If your class is really going to be enormous, it probably says something about the design of your class. Are you making proper use of encapsulation?
Put all your classes in a package and define the classes to be package private.
package com.example.here
class Hello{
//...
}
Notice the absence of the keyword public? You will only be able to create an instance of the class Hello if the class creating it is in the com.example.here package.
Try the following ...
Hand over a reference of the outer-class to the no-longer-inner-class
Use packages and make the no-longer-inner-class package-private (Jeremy's answer)
In the very rarest of cases, it might actually be best to go with inner classes, and at the same time have them do work elsewhere. If this really is you, please read on ...
How to keep inner classes small
a) Extend from outer classes
class Outer {
class SomeInnerClass extends SomeClass {
// More specific code here
}
}
class SomeClass {
// A lot of generic code here (in a different file)
}
b) Use abstract methods
One of the (more correct) reasons for using inner classes, usually has to do with the use of the exact instance of the outer-class. To tackle it in a generic fashion in the base class, use abstract getters.
abstract class SomeClass {
protected abstract SpecificData getSpecificData();
void someMethod() {
SpecificData specificData = getSpecificData();
// Do work with the "specific data" here ...
}
}
class Outer {
private SpecificData mSpecificData = new SpecificData();
class SomeInnerClass extends SomeClass {
#Override
protected SpecificData getSpecificData() {
return OuterClass.mSpecificData;
}
}
}
I think you get the idea, ... You might also consider using some GeneralData class or interface (within SomeClass) instead, and have getSpecificData() return a more specific (descended-)instance of it.
Again: This can be terribly misused to create very bad unreadable code, but it also can be used for very nice patters under the right circumstances, anyways it should answer the original question.
UPDATE
What I really want to do is define ten classes that they will be only accessible by one class. All of them are defined inside the same package.
If you want to restrict access to a single class, you can put them all in a new package. You will need to move the designated class that is allowed access into this packate, too. For the new classes, you can restrict access by using the default access level (no public/private/protected modifier). This will make them accessible only to the classes in their package. The specified class that is allowed access can be made public so that it can be used outside this new package.
Note: You have the option of restricting the visibility of the class or the visibility of the constructor.

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