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hello I am currently studying for a programming exam in java and I would like to understand the difference between a static method and a protected one. thanks in advance
Those two are different concepts.
static defines whether a field or method belongs to the class or its instances.
protected influences the visibility of a field or method. When a field or method is set to protected visibility, only classes inheriting from this class can access the field or method.
Notice that those two keywords are orthogonal: a field or method could be decorated with static and protected simultaneously.
Since you seem a newbie to java language, in a nutshell:
protected: An Access modifier(member variables + methods). You can find a whole lot of explanation over the internet.
static: NOT-An-Access modifier(blocks, variables,methods, nested classes)
You might want to check SIB/IIB (static and instance Initialization Blocks for a clear concept of static)
Static classes and protected classes can coexist for a single variable, so they are very different things. If you don't have a good grasp on Object Oriented programming, I highly recommend finding tutorials on YouTube, as there are some really good ones! :)
Static Variables
Are variables that belong to the class, not each individual object that the class creates. This means that if the variables is changed, it changes for everything.
Protected Variables
Are variables that are only accessible to it's child classes. A child class will have the variable, but no other classes will have access to it. If you know the difference between public variables and private variables, protected is kind of like a middle ground.
This is a tutorial series I recommend to learn more. https://www.youtube.com/playlist?list=PLAF3anQEEkzQPQv3FAhIuSWrepTayQJpL
I have seen users in SO saying that protected fields are bad, because it can introduce problems as the code grows. Please refer to the following code.
public class Car {
private String modelName;
private int yearReleased;
//getters and setters
}
If the Car class is extended by a class named ToyotaCar
public class ToyotaCar extends Car{
// Toyota specific stuff
}
I want my ToyotaCar object to have a modelName and yearReleased fields. And that is why I decided to extend from Car class. But private members are not inherited by the subclass (even though I could access those fields using a public getter and setter). Now my confusion is whether I should make the fileds in the Car class to protected instead of private. But people say that introduces problems.
Does it mean no matter what class you write always, make the fields private?
If so on what instances the protected keyword is used? is it only for methods which we are planning to use in our subclasses?
You nailed it yourself: a good practice is to make everything 'private' by default. Then, your specific design may require for example to be able to use some attributes or (preferably) some methods inside a subclass. In that situation, you'll need to move them toward 'protected' - but only in that situation.
Remember that using the accessors (getters & setters) is perfectly ok, and can be done without breaking encapsulation.
If there is a strict urgency(due to a specific design/pattern) of changing the fields from the subclass, then you should go declaring your class fields as protected.
If not so, then generally the better approach is to perform the same
using a public/protected member method in the parent class updating
those private fields in the parent class and then, calling that
public/protected member method from your child class' object.
This way you can achieve the implementation by calling parent's class member method from the child class' object to update those parent class' private fields.
Protected keyword for declaring the variables is used to make those instance variables visible for all the other classes in the same package and also the class[sub class] which will extends the super class involving those protected variables.
of course,you can declare the variables with private or protected modifiers.But when you declare the variable as private then you can able to hide variable such that other classes are not able to access it directly and on the other hand if you declare the variable with the protected then you are making the variable to access it directly without using any getter methods,which is against to OOP principle.
So from my opinion, Since Car is the super class of all the other class like ToyotaCar and so on.Declare the variables in your super class as private and in sub class make use of getter and setters methods to read and write depending upon your need. By doing that you are adhere to OOP principles.
Hope this helps.
Thanks
I know that subclass has no access to private field other than with public setter/getter of super-class. I do not have any experience with object-oriented languages so far. Should I make all fields private and just use public method to access them in sub-classes, or make them protected and use the freely in subclasses and package?
Make them protected. This is the sole purpose why this keyword exists!
In OOP there is a feature encapsulation and encapsulation strongly suggest us to hide data from the outer world. And you can hide data by making field/property/variable private.
And for accessing the private variable use some public getter method.
it depends on your needs. If you need access to subclass as well as the same package, make it protected.
Here are the general rules:
private: class access only.
protected: package access and also derived classes.
default: same package only.
public: anyone can access it.
A subclass does not inherit the private members of its parent class. However, if the superclass has public or protected methods for accessing its private fields, these can also be used by the subclass.
A nested class has access to all the private members of its enclosing
class—both fields and methods. Therefore, a public or protected nested
class inherited by a subclass has indirect access to all of the
private members of the superclass.
See the Java Tutorial
class Orange{
Orange(){
}
}
What is the difference between the usage of the modifier - in this case, package-private - in front of the class and in front of the constructor? I think the modifier in front of the constructor means it is allowed to instantiate an instance of the class Orange. But what about the modifier in front of the class?
To start with there are 4 access levels created by 3 access modifiers.
public - accessible everywhere
protected - accessible in the same package and in the children
default - accessible only in the same package
private - accessible only in the same class.
You are correct about - Modifiers at the level of constructors are directly related to the instantiation of the class.
Modifiers at the level of Class decide the accessibility of the Class.
First, to assuage any fears, the code you've provided is perfectly valid Java syntax.
In effect, you've created a class that can only be instantiated/used by other classes in the default package. It would also work if you defined it in a package (e.g. package foo;) since only the classes in package foo could see this class).
Now, to the crux of the question.
There are different ways to control access to fields and members. and they each do different things.
private visibility is the least visible. Only the defining class can access the field.
No modifier, or package private is the second least visible. The defining class and all classes within the package may access the field, but subclasses and the rest of the world cannot.
protected is the second most visible. Only other classes are prohibited from accessing the field.
public is the most visible. Everything can access the field.
Modifiers at the level of the class get interesting. This comes from the Java Language Specification, §8.1.1:
The access modifier public (§6.6) pertains only to top level classes
(§7.6) and to member classes (§8.5), not to local classes (§14.3) or
anonymous classes (§15.9.5).
The access modifiers protected and private (§6.6) pertain only to
member classes within a directly enclosing class or enum declaration
(§8.5).
The modifier static pertains only to member classes (§8.5.1), not to
top level or local or anonymous classes.
It is a compile-time error if the same modifier appears more than once
in a class declaration.
If two or more (distinct) class modifiers appear in a class
declaration, then it is customary, though not required, that they
appear in the order consistent with that shown above in the production
for ClassModifier.
In general, a class declaration appears something like this:
ClassDeclaration:
NormalClassDeclaration
EnumDeclaration
NormalClassDeclaration:
ClassModifiers(opt) class Identifier TypeParameters(opt)
Super(opt) Interfaces(opt) ClassBody
Anything with (opt) is considered optional.
So, what does this pare down to?
The JLS mandates that a class does not need a [class] modifier.
The JLS mandates that, if a [class] modifier is present, then it follows one of these rules:
If the modifier is public, then it is only applicable to top level classes and member classes.
If the modifier is protected or private, then it is only applicable to member classes within a directly enclosing class or enumeration.
The static modifier may appear, but is only applicable to member classes.
Constructors have a similar rule set.
ConstructorDeclaration:
ConstructorModifiers(opt) ConstructorDeclarator
Throws(opt) ConstructorBody
ConstructorDeclarator:
TypeParameters(opt) SimpleTypeName ( FormalParameterList(opt) )
Again, this breaks down to:
The JLS mandates that a constructor does not need a [constructor] modifier.
The JLS mandates that a constructor modifier cannot contain abstract, static, final, native, strictfp, or synchronized.
The JLS mandates, if no access modifier is specified for the constructor of a normal class, the constructor has default access (§8.8.3, emphasis mine).
You can only declare a public or default class (in case of top level classes only) in Java and these modifiers decide the accessiblity of the class.
I also suggest you to see "Why can't a class or an interface receive private or protected access modifiers?"
Now as for as constructor concerns, a constructor will have aaccess-control of type default when no access-modifier is defined explicitly. So this constructor will have a Package Level Access. Only those class which are defined within that package as that of the class with this default constructor will be able to access it. See "Aren't Java constructors public by default?"
If the constructor is made private, then only the code within that class can access this.
For a better understanding of modifiers, you need to see "Access Modifiers In Java"
Modifier of class defines who can access the class. For example public class can be accessed by classes from any package, if no modifier is written the class can be accessed by classes from the same package only.
Modifier of constructor, method and field has the same meaning. However private and protected have more sense. Private can be accessed from the current class only. Protected from its subclasses as far as from just classes from the same package.
Concerning to your question about constructor. Class can have several constructors. Some of them can be private, some other public. You are right that there is no sense to make constructor public if class is package protected: no-one outside package can call this class anyway.
This is exactly like writing public constructors for abstract classes. Since abstract class cannot be instantiated itself its constructors should be protected or private although compiler does not care about this.
BTW using default package is not commonly used and not recommended technique.
The use and types of class level modifiers:
http://javapapers.com/core-java/access-modifiers-in-java-explain/
The use and types of constructor level modifiers:
http://www.careercup.com/question?id=296844#commentThread302715
Class modifiers work similarly to method modifiers. Public, private, final, abstract, etc. work.
Public allows the class and its methods to be accessed by classes from any package.
No modifier only allows classes to be access from it's defined package.
Private would prevent all access (no point to this if using with a top-level class).
Abstract classes allow you to create child classes derived from the parent (abstract) class. For example, you can make an Abstract Shape class and have a Rectangle class extend shape, inheriting all its methods, variables, and forcing it to define any abstract methods.
Access Modifiers:
Public - {Can access anywhere in the project}
Private - {Can access only inside the class}
Protected - {Can access within the package and sub classes}
Default - {can access within the package}
Non-Access Modifiers:
Static - {for creating class variable and method}
Final - {for creating finalized variable and method}
Abstract - {for creating abstract method and class}
Synchronized - {for threads}
Some brief discussion on the above modifiers in this link. Refer it for the better understanding.
I find the best visibility level in Java to be the default visibility i.e. package visibility, because it enables unit test classes to access all the methods, if the test is placed in the same package as the main class.
Also package visibility is shorter to write since you can omit the visibility declaration, so there is less boiler plate.
The second best visibility level is protected, since in some cases you can create your test classes as sub-classes of your main class. However, as stated before, package visibility works better in most cases, if you use packages properly.
Third, typically if you run Sonar and do code review and static analysis on large projects, I have found out that typically 80% of the methods are public, and 20% are private/protected. Thus, the main idea of using private or protected methods is to protect the data/properties from being accessed by bypassing the accessors. Most of the methods will be typically public anyways.
The most useless visibility level (but unfortunately commonly used) is private as it's impossible to test (without using Reflection and modifying the visibility to something else). Also, private prohibits code re-use in sub-classes, which is the main idea of using object oriented paradigm in the first place, and thus should be avoided. For the same reasons keyword final should be avoided in most cases.
Thus, I find your example to be the best practice how to define the visibility levels, except that your constructor is not public :). However, you are missing the package declaration and unit tests.
I just started reading a Java book and wondered; which access specifier is the default one, if none is specified?
The default visibility is known as “package-private” (though you can't use this explicitly), which means the field will be accessible from inside the same package to which the class belongs.
As mdma pointed out, it isn't true for interface members though, for which the default is "public".
See Java's Access Specifiers
The default specifier depends upon context.
For classes, and interface declarations, the default is package private. This falls between protected and private, allowing only classes in the same package access. (protected is like this, but also allowing access to subclasses outside of the package.)
class MyClass // package private
{
int field; // package private field
void calc() { // package private method
}
}
For interface members (fields and methods), the default access is public. But note that the interface declaration itself defaults to package private.
interface MyInterface // package private
{
int field1; // static final public
void method1(); // public abstract
}
If we then have the declaration
public interface MyInterface2 extends MyInterface
{
}
Classes using MyInterface2 can then see field1 and method1 from the super interface, because they are public, even though they cannot see the declaration of MyInterface itself.
If no access specifier is given, it's package-level access (there is no explicit specifier for this) for classes and class members. Interface methods are implicitly public.
The default visibility (no keyword) is package which means that it will be available to every class that is located in the same package.
Interesting side note is that protected doesn't limit visibility to the subclasses but also to the other classes in the same package
It depends on what the thing is.
Top-level types (that is, classes, enums, interfaces, and annotation types not declared inside another type) are package-private by default. (JLS §6.6.1)
In classes, all members (that means fields, methods, and nested type declarations) and constructors are package-private by default. (JLS §6.6.1)
When a class has no explicitly declared constructor, the compiler inserts a default zero-argument constructor which has the same access specifier as the class. (JLS §8.8.9) The default constructor is commonly misstated as always being public, but in rare cases that's not equivalent.
In enums, constructors are private by default. Indeed, enum contructors must be private, and it is an error to specify them as public or protected. Enum constants are always public, and do not permit any access specifier. Other members of enums are package-private by default. (JLS §8.9)
In interfaces and annotation types, all members (again, that means fields, methods, and nested type declarations) are public by default. Indeed, members of interfaces and annotation types must be public, and it is an error to specify them as private or protected. (JLS §9.3 to 9.5)
Local classes are named classes declared inside a method, constructor, or initializer block. They are scoped to the {..} block in which they are declared and do not permit any access specifier. (JLS §14.3) Using reflection, you can instantiate local classes from elsewhere, and they are package-private, although I'm not sure if that detail is in the JLS.
Anonymous classes are custom classes created with new which specify a class body directly in the expression. (JLS §15.9.5) Their syntax does not permit any access specifier. Using reflection, you can instantiate anonymous classes from elsewhere, and both they and their generated constructors are are package-private, although I'm not sure if that detail is in the JLS.
Instance and static initializer blocks do not have access specifiers at the language level (JLS §8.6 & 8.7), but static initializer blocks are implemented as a method named <clinit> (JVMS §2.9), so the method must, internally, have some access specifier. I examined classes compiled by javac and by Eclipse's compiler using a hex editor and found that both generate the method as package-private. However, you can't call <clinit>() within the language because the < and > characters are invalid in a method name, and the reflection methods are hardwired to deny its existence, so effectively its access specifier is no access. The method can only be called by the VM, during class initialization. Instance initializer blocks are not compiled as separate methods; their code is copied into each constructor, so they can't be accessed individually, even by reflection.
default is a keyword that is used as an access modifier for methods and variables.
Using this access modifier will make your class, variable, method or constructor acessible from own class or package, it will be also is set if no access modifier is present.
Access Levels
Modifier Class Package Subclass EveryWhere
public Y Y Y Y
protected Y Y Y N
default Y Y N N
private Y N N N
if you use a default in a interface you will be able to implement a method there like this exemple
public interface Computer {
default void Start() {
throw new UnsupportedOperationException("Error");
}
}
However it will only works from the 8 Java version
Official Documentation
Access Modifiers in Java
See here for more details. The default is none of private/public/protected, but a completely different access specification. It's not widely used, and I prefer to be much more specific in my access definitions.
the default access specifier is package.Classes can access the members of other classes in the same package.but outside the package it appears as private
Here is a quote about package level visibility from an interview with James Gosling, the creator of Java:
Bill Venners: Java has four access levels. The default is package. I
have always wondered if making package access default was convenient
because the three keywords that people from C++ already knew about
were private, protected, and public. Or if you had some particular
reason that you felt package access should be the default.
James Gosling: A package is generally a set of things that are kind of
written together. So generically I could have done one of two things.
One was force you always to put in a keyword that gives you the
domain. Or I could have had a default value. And then the question is,
what makes a sensible default? And I tend to go for what is the least
dangerous thing.
So public would have been a really bad thing to make the default.
Private would probably have been a bad thing to make a default, if
only because people actually don't write private methods that often.
And same thing with protected. And in looking at a bunch of code that
I had, I decided that the most common thing that was reasonably safe
was in the package. And C++ didn't have a keyword for that, because
they didn't have a notion of packages.
But I liked it rather than the friends notion, because with friends
you kind of have to enumerate who all of your friends are, and so if
you add a new class to a package, then you generally end up having to
go to all of the classes in that package and update their friends,
which I had always found to be a complete pain in the butt.
But the friends list itself causes sort of a versioning problem. And
so there was this notion of a friendly class. And the nice thing that
I was making that the default -- I'll solve the problem so what should
the keyword be?
For a while there actually was a friendly keyword. But because all the
others start with "P," it was "phriendly" with a "PH." But that was
only in there for maybe a day.
http://www.artima.com/intv/gosling2P.html
Update Java 8 usage of default keyword:
As many others have noted The default visibility (no keyword)
the field will be accessible from inside the same package to which the
class belongs.
Not to be confused with the new Java 8 feature (Default Methods) that allows an interface to provide an implementation when its labeled with the default keyword.
See: Access modifiers
There is an access modifier called "default" in JAVA, which allows direct instance creation of that entity only within that package.
Here is a useful link:
Java Access Modifiers/Specifiers
First of all let me say one thing there is no such term as "Access specifier" in java. We should call everything as "Modifiers". As we know that final, static, synchronised, volatile.... are called as modifiers, even Public, private, protected, default, abstract should also be called as modifiers . Default is such a modifiers where physical existence is not there but no modifiers is placed then it should be treated as default modifiers.
To justify this take one example:
public class Simple{
public static void main(String args[]){
System.out.println("Hello Java");
}
}
Output will be: Hello Java
Now change public to private and see what compiler error you get:
It says "Modifier private is not allowed here"
What conclusion is someone can be wrong or some tutorial can be wrong but compiler cannot be wrong.
So we can say there is no term access specifier in java everything is modifiers.